Merge commit '3cd551098b8dc5a2b55d45a2a63bb9a219d31f2e' as 'external/stb/stb'

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Pull Requests and Issues are both welcome.
# Responsiveness
General priority order is:
* Crashes
* Security issues in stb_image
* Bugs
* Security concerns in other libs
* Warnings
* Enhancements (new features, performance improvement, etc)
Pull requests get priority over Issues. Some pull requests I take
as written; some I modify myself; some I will request changes before
accepting them. Because I've ended up supporting a lot of libraries
(20 as I write this, with more on the way), I am somewhat slow to
address things. Many issues have been around for a long time.
# Pull requests
* Make sure you're using a special branch just for this pull request. (Sometimes people unknowingly use a default branch, then later update that branch, which updates the pull request with the other changes if it hasn't been merged yet.)
* Do NOT update the version number in the file. (This just causes conflicts.)
* Do add your name to the list of contributors. (Don't worry about the formatting.) I'll try to remember to add it if you don't, but I sometimes forget as it's an extra step.
* Your change needs to compile as both C and C++. Pre-C99 compilers should be supported (e.g. declare at start of block)
# Specific libraries
I generally do not want new file formats for stb_image because
we are trying to improve its security, so increasing its attack
surface is counter-productive.

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---
name: Bug report
about: if you're having trouble using a library, try the support forum instead
title: ''
labels: ''
assignees: ''
---
**Describe the bug**
A clear and concise description of what the bug is.
**To Reproduce**
Steps to reproduce the behavior:
1. Go to '...'
2. Click on '....'
3. Scroll down to '....'
4. See error
**Expected behavior**
A clear and concise description of what you expected to happen.
**Screenshots**
If applicable, add screenshots to help explain your problem.

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contact_links:
- name: support forum
url: https://github.com/nothings/stb/discussions/categories/q-a
about: having trouble using an stb library? don't create an issue, post in the forum

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---
name: Feature request
about: Suggest an idea for this project
title: ''
labels: 4 enhancement
assignees: ''
---
**Is your feature request related to a problem? Please describe.**
A clear and concise description of what the problem is. Ex. I'm always frustrated when [...]
**Describe the solution you'd like**
A clear and concise description of what you want to happen.
**Describe alternatives you've considered**
A clear and concise description of any alternative solutions or features you've considered.
**Additional context**
Add any other context or screenshots about the feature request here.

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* Delete this list before clicking CREATE PULL REQUEST
* Make sure you're using a special branch just for this pull request. (Sometimes people unknowingly use a default branch, then later update that branch, which updates the pull request with the other changes if it hasn't been merged yet.)
* Do NOT update the version number in the file. (This just causes conflicts.)
* Do add your name to the list of contributors. (Don't worry about the formatting.) I'll try to remember to add it if you don't, but I sometimes forget as it's an extra step.
If you get something above wrong, don't fret it, it's not the end of the world.

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name: CIFuzz
on: [pull_request]
jobs:
Fuzzing:
runs-on: ubuntu-latest
steps:
- name: Build Fuzzers
uses: google/oss-fuzz/infra/cifuzz/actions/build_fuzzers@master
with:
oss-fuzz-project-name: 'stb'
dry-run: false
- name: Run Fuzzers
uses: google/oss-fuzz/infra/cifuzz/actions/run_fuzzers@master
with:
oss-fuzz-project-name: 'stb'
fuzz-seconds: 900
dry-run: false
- name: Upload Crash
uses: actions/upload-artifact@v1
if: failure()
with:
name: artifacts
path: ./out/artifacts

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*.o
*.obj
*.exe

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language: C
arch:
- AMD64
- ppc64le
install: true
script:
- cd tests
- make all

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This software is available under 2 licenses -- choose whichever you prefer.
------------------------------------------------------------------------------
ALTERNATIVE A - MIT License
Copyright (c) 2017 Sean Barrett
Permission is hereby granted, free of charge, to any person obtaining a copy of
this software and associated documentation files (the "Software"), to deal in
the Software without restriction, including without limitation the rights to
use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies
of the Software, and to permit persons to whom the Software is furnished to do
so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all
copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
SOFTWARE.
------------------------------------------------------------------------------
ALTERNATIVE B - Public Domain (www.unlicense.org)
This is free and unencumbered software released into the public domain.
Anyone is free to copy, modify, publish, use, compile, sell, or distribute this
software, either in source code form or as a compiled binary, for any purpose,
commercial or non-commercial, and by any means.
In jurisdictions that recognize copyright laws, the author or authors of this
software dedicate any and all copyright interest in the software to the public
domain. We make this dedication for the benefit of the public at large and to
the detriment of our heirs and successors. We intend this dedication to be an
overt act of relinquishment in perpetuity of all present and future rights to
this software under copyright law.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN
ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION
WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.

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<!--- THIS FILE IS AUTOMATICALLY GENERATED, DO NOT CHANGE IT BY HAND --->
stb
===
single-file public domain (or MIT licensed) libraries for C/C++
Noteworthy:
* image loader: [stb_image.h](stb_image.h)
* image writer: [stb_image_write.h](stb_image_write.h)
* image resizer: [stb_image_resize.h](stb_image_resize.h)
* font text rasterizer: [stb_truetype.h](stb_truetype.h)
* typesafe containers: [stb_ds.h](stb_ds.h)
Most libraries by stb, except: stb_dxt by Fabian "ryg" Giesen, stb_image_resize
by Jorge L. "VinoBS" Rodriguez, and stb_sprintf by Jeff Roberts.
<a name="stb_libs"></a>
library | lastest version | category | LoC | description
--------------------- | ---- | -------- | --- | --------------------------------
**[stb_vorbis.c](stb_vorbis.c)** | 1.22 | audio | 5584 | decode ogg vorbis files from file/memory to float/16-bit signed output
**[stb_hexwave.h](stb_hexwave.h)** | 0.5 | audio | 680 | audio waveform synthesizer
**[stb_image.h](stb_image.h)** | 2.28 | graphics | 7987 | image loading/decoding from file/memory: JPG, PNG, TGA, BMP, PSD, GIF, HDR, PIC
**[stb_truetype.h](stb_truetype.h)** | 1.26 | graphics | 5077 | parse, decode, and rasterize characters from truetype fonts
**[stb_image_write.h](stb_image_write.h)** | 1.16 | graphics | 1724 | image writing to disk: PNG, TGA, BMP
**[stb_image_resize.h](stb_image_resize.h)** | 0.97 | graphics | 2634 | resize images larger/smaller with good quality
**[stb_rect_pack.h](stb_rect_pack.h)** | 1.01 | graphics | 623 | simple 2D rectangle packer with decent quality
**[stb_perlin.h](stb_perlin.h)** | 0.5 | graphics | 428 | perlin's revised simplex noise w/ different seeds
**[stb_ds.h](stb_ds.h)** | 0.67 | utility | 1895 | typesafe dynamic array and hash tables for C, will compile in C++
**[stb_sprintf.h](stb_sprintf.h)** | 1.10 | utility | 1906 | fast sprintf, snprintf for C/C++
**[stb_textedit.h](stb_textedit.h)** | 1.14 | user&nbsp;interface | 1429 | guts of a text editor for games etc implementing them from scratch
**[stb_voxel_render.h](stb_voxel_render.h)** | 0.89 | 3D&nbsp;graphics | 3807 | Minecraft-esque voxel rendering "engine" with many more features
**[stb_dxt.h](stb_dxt.h)** | 1.12 | 3D&nbsp;graphics | 719 | Fabian "ryg" Giesen's real-time DXT compressor
**[stb_easy_font.h](stb_easy_font.h)** | 1.1 | 3D&nbsp;graphics | 305 | quick-and-dirty easy-to-deploy bitmap font for printing frame rate, etc
**[stb_tilemap_editor.h](stb_tilemap_editor.h)** | 0.42 | game&nbsp;dev | 4187 | embeddable tilemap editor
**[stb_herringbone_wa...](stb_herringbone_wang_tile.h)** | 0.7 | game&nbsp;dev | 1221 | herringbone Wang tile map generator
**[stb_c_lexer.h](stb_c_lexer.h)** | 0.12 | parsing | 940 | simplify writing parsers for C-like languages
**[stb_divide.h](stb_divide.h)** | 0.94 | math | 433 | more useful 32-bit modulus e.g. "euclidean divide"
**[stb_connected_comp...](stb_connected_components.h)** | 0.96 | misc | 1049 | incrementally compute reachability on grids
**[stb_leakcheck.h](stb_leakcheck.h)** | 0.6 | misc | 194 | quick-and-dirty malloc/free leak-checking
**[stb_include.h](stb_include.h)** | 0.02 | misc | 295 | implement recursive #include support, particularly for GLSL
Total libraries: 21
Total lines of C code: 43117
FAQ
---
#### What's the license?
These libraries are in the public domain. You can do anything you
want with them. You have no legal obligation
to do anything else, although I appreciate attribution.
They are also licensed under the MIT open source license, if you have lawyers
who are unhappy with public domain. Every source file includes an explicit
dual-license for you to choose from.
#### How do I use these libraries?
The idea behind single-header file libraries is that they're easy to distribute and deploy
because all the code is contained in a single file. By default, the .h files in here act as
their own header files, i.e. they declare the functions contained in the file but don't
actually result in any code getting compiled.
So in addition, you should select _exactly one_ C/C++ source file that actually instantiates
the code, preferably a file you're not editing frequently. This file should define a
specific macro (this is documented per-library) to actually enable the function definitions.
For example, to use stb_image, you should have exactly one C/C++ file that doesn't
include stb_image.h regularly, but instead does
#define STB_IMAGE_IMPLEMENTATION
#include "stb_image.h"
The right macro to define is pointed out right at the top of each of these libraries.
#### <a name="other_libs"></a> Are there other single-file public-domain/open source libraries with minimal dependencies out there?
[Yes.](https://github.com/nothings/single_file_libs)
#### If I wrap an stb library in a new library, does the new library have to be public domain/MIT?
No, because it's public domain you can freely relicense it to whatever license your new
library wants to be.
#### What's the deal with SSE support in GCC-based compilers?
stb_image will either use SSE2 (if you compile with -msse2) or
will not use any SIMD at all, rather than trying to detect the
processor at runtime and handle it correctly. As I understand it,
the approved path in GCC for runtime-detection require
you to use multiple source files, one for each CPU configuration.
Because stb_image is a header-file library that compiles in only
one source file, there's no approved way to build both an
SSE-enabled and a non-SSE-enabled variation.
While we've tried to work around it, we've had multiple issues over
the years due to specific versions of gcc breaking what we're doing,
so we've given up on it. See https://github.com/nothings/stb/issues/280
and https://github.com/nothings/stb/issues/410 for examples.
#### Some of these libraries seem redundant to existing open source libraries. Are they better somehow?
Generally they're only better in that they're easier to integrate,
easier to use, and easier to release (single file; good API; no
attribution requirement). They may be less featureful, slower,
and/or use more memory. If you're already using an equivalent
library, there's probably no good reason to switch.
#### Can I link directly to the table of stb libraries?
You can use [this URL](https://github.com/nothings/stb#stb_libs) to link directly to that list.
#### Why do you list "lines of code"? It's a terrible metric.
Just to give you some idea of the internal complexity of the library,
to help you manage your expectations, or to let you know what you're
getting into. While not all the libraries are written in the same
style, they're certainly similar styles, and so comparisons between
the libraries are probably still meaningful.
Note though that the lines do include both the implementation, the
part that corresponds to a header file, and the documentation.
#### Why single-file headers?
Windows doesn't have standard directories where libraries
live. That makes deploying libraries in Windows a lot more
painful than open source developers on Unix-derivates generally
realize. (It also makes library dependencies a lot worse in Windows.)
There's also a common problem in Windows where a library was built
against a different version of the runtime library, which causes
link conflicts and confusion. Shipping the libs as headers means
you normally just compile them straight into your project without
making libraries, thus sidestepping that problem.
Making them a single file makes it very easy to just
drop them into a project that needs them. (Of course you can
still put them in a proper shared library tree if you want.)
Why not two files, one a header and one an implementation?
The difference between 10 files and 9 files is not a big deal,
but the difference between 2 files and 1 file is a big deal.
You don't need to zip or tar the files up, you don't have to
remember to attach *two* files, etc.
#### Why "stb"? Is this something to do with Set-Top Boxes?
No, they are just the initials for my name, Sean T. Barrett.
This was not chosen out of egomania, but as a moderately sane
way of namespacing the filenames and source function names.
#### Will you add more image types to stb_image.h?
No. As stb_image use has grown, it has become more important
for us to focus on security of the codebase. Adding new image
formats increases the amount of code we need to secure, so it
is no longer worth adding new formats.
#### Do you have any advice on how to create my own single-file library?
Yes. https://github.com/nothings/stb/blob/master/docs/stb_howto.txt
#### Why public domain?
I prefer it over GPL, LGPL, BSD, zlib, etc. for many reasons.
Some of them are listed here:
https://github.com/nothings/stb/blob/master/docs/why_public_domain.md
#### Why C?
Primarily, because I use C, not C++. But it does also make it easier
for other people to use them from other languages.
#### Why not C99? stdint.h, declare-anywhere, etc.
I still use MSVC 6 (1998) as my IDE because it has better human factors
for me than later versions of MSVC.

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All files in this directory are in the public domain. Where
a public domain declaration is not recognized, you are granted
a license to freely use, modify, and redistribute them in
any way you choose.

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// check that stb_truetype compiles with no stb_rect_pack.h
#define STB_TRUETYPE_IMPLEMENTATION
#include "stb_truetype.h"
#define STB_DS_IMPLEMENTATION
#include "stb_ds.h"
#include <assert.h>
int main(int arg, char **argv)
{
int i;
int *arr = NULL;
for (i=0; i < 1000000; ++i)
arrput(arr, i);
assert(arrlen(arr) == 1000000);
for (i=0; i < 1000000; ++i)
assert(arr[i] == i);
arrfree(arr);
arr = NULL;
for (i=0; i < 1000; ++i)
arrput(arr, 1000);
assert(arrlen(arr) == 1000000);
return 0;
}

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// stretchy_buffer.h - v1.04 - public domain - nothings.org/stb
// a vector<>-like dynamic array for C
//
// version history:
// 1.04 - fix warning
// 1.03 - compile as C++ maybe
// 1.02 - tweaks to syntax for no good reason
// 1.01 - added a "common uses" documentation section
// 1.0 - fixed bug in the version I posted prematurely
// 0.9 - rewrite to try to avoid strict-aliasing optimization
// issues, but won't compile as C++
//
// Will probably not work correctly with strict-aliasing optimizations.
//
// The idea:
//
// This implements an approximation to C++ vector<> for C, in that it
// provides a generic definition for dynamic arrays which you can
// still access in a typesafe way using arr[i] or *(arr+i). However,
// it is simply a convenience wrapper around the common idiom of
// of keeping a set of variables (in a struct or globals) which store
// - pointer to array
// - the length of the "in-use" part of the array
// - the current size of the allocated array
//
// I find it to be the single most useful non-built-in-structure when
// programming in C (hash tables a close second), but to be clear
// it lacks many of the capabilities of C++ vector<>: there is no
// range checking, the object address isn't stable (see next section
// for details), the set of methods available is small (although
// the file stb.h has another implementation of stretchy buffers
// called 'stb_arr' which provides more methods, e.g. for insertion
// and deletion).
//
// How to use:
//
// Unlike other stb header file libraries, there is no need to
// define an _IMPLEMENTATION symbol. Every #include creates as
// much implementation is needed.
//
// stretchy_buffer.h does not define any types, so you do not
// need to #include it to before defining data types that are
// stretchy buffers, only in files that *manipulate* stretchy
// buffers.
//
// If you want a stretchy buffer aka dynamic array containing
// objects of TYPE, declare such an array as:
//
// TYPE *myarray = NULL;
//
// (There is no typesafe way to distinguish between stretchy
// buffers and regular arrays/pointers; this is necessary to
// make ordinary array indexing work on these objects.)
//
// Unlike C++ vector<>, the stretchy_buffer has the same
// semantics as an object that you manually malloc and realloc.
// The pointer may relocate every time you add a new object
// to it, so you:
//
// 1. can't take long-term pointers to elements of the array
// 2. have to return the pointer from functions which might expand it
// (either as a return value or by storing it to a ptr-to-ptr)
//
// Now you can do the following things with this array:
//
// sb_free(TYPE *a) free the array
// sb_count(TYPE *a) the number of elements in the array
// sb_push(TYPE *a, TYPE v) adds v on the end of the array, a la push_back
// sb_add(TYPE *a, int n) adds n uninitialized elements at end of array & returns pointer to first added
// sb_last(TYPE *a) returns an lvalue of the last item in the array
// a[n] access the nth (counting from 0) element of the array
//
// #define STRETCHY_BUFFER_NO_SHORT_NAMES to only export
// names of the form 'stb_sb_' if you have a name that would
// otherwise collide.
//
// Note that these are all macros and many of them evaluate
// their arguments more than once, so the arguments should
// be side-effect-free.
//
// Note that 'TYPE *a' in sb_push and sb_add must be lvalues
// so that the library can overwrite the existing pointer if
// the object has to be reallocated.
//
// In an out-of-memory condition, the code will try to
// set up a null-pointer or otherwise-invalid-pointer
// exception to happen later. It's possible optimizing
// compilers could detect this write-to-null statically
// and optimize away some of the code, but it should only
// be along the failure path. Nevertheless, for more security
// in the face of such compilers, #define STRETCHY_BUFFER_OUT_OF_MEMORY
// to a statement such as assert(0) or exit(1) or something
// to force a failure when out-of-memory occurs.
//
// Common use:
//
// The main application for this is when building a list of
// things with an unknown quantity, either due to loading from
// a file or through a process which produces an unpredictable
// number.
//
// My most common idiom is something like:
//
// SomeStruct *arr = NULL;
// while (something)
// {
// SomeStruct new_one;
// new_one.whatever = whatever;
// new_one.whatup = whatup;
// new_one.foobar = barfoo;
// sb_push(arr, new_one);
// }
//
// and various closely-related factorings of that. For example,
// you might have several functions to create/init new SomeStructs,
// and if you use the above idiom, you might prefer to make them
// return structs rather than take non-const-pointers-to-structs,
// so you can do things like:
//
// SomeStruct *arr = NULL;
// while (something)
// {
// if (case_A) {
// sb_push(arr, some_func1());
// } else if (case_B) {
// sb_push(arr, some_func2());
// } else {
// sb_push(arr, some_func3());
// }
// }
//
// Note that the above relies on the fact that sb_push doesn't
// evaluate its second argument more than once. The macros do
// evaluate the *array* argument multiple times, and numeric
// arguments may be evaluated multiple times, but you can rely
// on the second argument of sb_push being evaluated only once.
//
// Of course, you don't have to store bare objects in the array;
// if you need the objects to have stable pointers, store an array
// of pointers instead:
//
// SomeStruct **arr = NULL;
// while (something)
// {
// SomeStruct *new_one = malloc(sizeof(*new_one));
// new_one->whatever = whatever;
// new_one->whatup = whatup;
// new_one->foobar = barfoo;
// sb_push(arr, new_one);
// }
//
// How it works:
//
// A long-standing tradition in things like malloc implementations
// is to store extra data before the beginning of the block returned
// to the user. The stretchy buffer implementation here uses the
// same trick; the current-count and current-allocation-size are
// stored before the beginning of the array returned to the user.
// (This means you can't directly free() the pointer, because the
// allocated pointer is different from the type-safe pointer provided
// to the user.)
//
// The details are trivial and implementation is straightforward;
// the main trick is in realizing in the first place that it's
// possible to do this in a generic, type-safe way in C.
//
// Contributors:
//
// Timothy Wright (github:ZenToad)
//
// LICENSE
//
// See end of file for license information.
#ifndef STB_STRETCHY_BUFFER_H_INCLUDED
#define STB_STRETCHY_BUFFER_H_INCLUDED
#ifndef NO_STRETCHY_BUFFER_SHORT_NAMES
#define sb_free stb_sb_free
#define sb_push stb_sb_push
#define sb_count stb_sb_count
#define sb_add stb_sb_add
#define sb_last stb_sb_last
#endif
#define stb_sb_free(a) ((a) ? free(stb__sbraw(a)),0 : 0)
#define stb_sb_push(a,v) (stb__sbmaybegrow(a,1), (a)[stb__sbn(a)++] = (v))
#define stb_sb_count(a) ((a) ? stb__sbn(a) : 0)
#define stb_sb_add(a,n) (stb__sbmaybegrow(a,n), stb__sbn(a)+=(n), &(a)[stb__sbn(a)-(n)])
#define stb_sb_last(a) ((a)[stb__sbn(a)-1])
#define stb__sbraw(a) ((int *) (void *) (a) - 2)
#define stb__sbm(a) stb__sbraw(a)[0]
#define stb__sbn(a) stb__sbraw(a)[1]
#define stb__sbneedgrow(a,n) ((a)==0 || stb__sbn(a)+(n) >= stb__sbm(a))
#define stb__sbmaybegrow(a,n) (stb__sbneedgrow(a,(n)) ? stb__sbgrow(a,n) : 0)
#define stb__sbgrow(a,n) (*((void **)&(a)) = stb__sbgrowf((a), (n), sizeof(*(a))))
#include <stdlib.h>
static void * stb__sbgrowf(void *arr, int increment, int itemsize)
{
int dbl_cur = arr ? 2*stb__sbm(arr) : 0;
int min_needed = stb_sb_count(arr) + increment;
int m = dbl_cur > min_needed ? dbl_cur : min_needed;
int *p = (int *) realloc(arr ? stb__sbraw(arr) : 0, itemsize * m + sizeof(int)*2);
if (p) {
if (!arr)
p[1] = 0;
p[0] = m;
return p+2;
} else {
#ifdef STRETCHY_BUFFER_OUT_OF_MEMORY
STRETCHY_BUFFER_OUT_OF_MEMORY ;
#endif
return (void *) (2*sizeof(int)); // try to force a NULL pointer exception later
}
}
#endif // STB_STRETCHY_BUFFER_H_INCLUDED
/*
------------------------------------------------------------------------------
This software is available under 2 licenses -- choose whichever you prefer.
------------------------------------------------------------------------------
ALTERNATIVE A - MIT License
Copyright (c) 2017 Sean Barrett
Permission is hereby granted, free of charge, to any person obtaining a copy of
this software and associated documentation files (the "Software"), to deal in
the Software without restriction, including without limitation the rights to
use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies
of the Software, and to permit persons to whom the Software is furnished to do
so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all
copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
SOFTWARE.
------------------------------------------------------------------------------
ALTERNATIVE B - Public Domain (www.unlicense.org)
This is free and unencumbered software released into the public domain.
Anyone is free to copy, modify, publish, use, compile, sell, or distribute this
software, either in source code form or as a compiled binary, for any purpose,
commercial or non-commercial, and by any means.
In jurisdictions that recognize copyright laws, the author or authors of this
software dedicate any and all copyright interest in the software to the public
domain. We make this dedication for the benefit of the public at large and to
the detriment of our heirs and successors. We intend this dedication to be an
overt act of relinquishment in perpetuity of all present and future rights to
this software under copyright law.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN
ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION
WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
------------------------------------------------------------------------------
*/

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// stretchy buffer // init: NULL // free: sbfree() // push_back: sbpush() // size: sbcount() //
#define sbfree(a) ((a) ? free(stb__sbraw(a)),0 : 0)
#define sbpush(a,v) (stb__sbmaybegrow(a,1), (a)[stb__sbn(a)++] = (v))
#define sbcount(a) ((a) ? stb__sbn(a) : 0)
#define sbadd(a,n) (stb__sbmaybegrow(a,n), stb__sbn(a)+=(n), &(a)[stb__sbn(a)-(n)])
#define sblast(a) ((a)[stb__sbn(a)-1])
#include <stdlib.h>
#define stb__sbraw(a) ((int *) (a) - 2)
#define stb__sbm(a) stb__sbraw(a)[0]
#define stb__sbn(a) stb__sbraw(a)[1]
#define stb__sbneedgrow(a,n) ((a)==0 || stb__sbn(a)+n >= stb__sbm(a))
#define stb__sbmaybegrow(a,n) (stb__sbneedgrow(a,(n)) ? stb__sbgrow(a,n) : 0)
#define stb__sbgrow(a,n) stb__sbgrowf((void **) &(a), (n), sizeof(*(a)))
static void stb__sbgrowf(void **arr, int increment, int itemsize)
{
int m = *arr ? 2*stb__sbm(*arr)+increment : increment+1;
void *p = realloc(*arr ? stb__sbraw(*arr) : 0, itemsize * m + sizeof(int)*2);
assert(p);
if (p) {
if (!*arr) ((int *) p)[1] = 0;
*arr = (void *) ((int *) p + 2);
stb__sbm(*arr) = m;
}
}

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Moved to https://github.com/nothings/single_file_libs

185
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Lessons learned about how to make a header-file library
V1.0
September 2013 Sean Barrett
Things to do in an stb-style header-file library,
and rationales:
1. #define LIBRARYNAME_IMPLEMENTATION
Use a symbol like the above to control creating
the implementation. (I used a far-less-clear name
in my first header-file library; it became
clear that was a mistake once I had multiple
libraries.)
Include a "header-file" section with header-file
guards and declarations for all the functions,
but only guard the implementation with LIBRARYNAME_IMPLEMENTATION,
not the header-file guard. That way, if client's
header file X includes your header file for
declarations, they can still include header file X
in the source file that creates the implementation;
if you guard the implementation too, then the first
include (before the #define) creates the declarations,
and the second one (after the #define) does nothing.
2. AVOID DEPENDENCIES
Don't rely on anything other than the C standard libraries.
(If you're creating a library specifically to leverage/wrap
some other library, then obviously you can rely on that
library. But if that library is public domain, you might
be better off directly embedding the source, to reduce
dependencies for your clients. But of course now you have
to update whenever that library updates.)
If you use stdlib, consider wrapping all stdlib calls in
macros, and then conditionally define those macros to the
stdlib function, allowing the user to replace them.
For functions with side effects, like memory allocations,
consider letting the user pass in a context and pass
that in to the macros. (The stdlib versions will ignore
the parameter.) Otherwise, users may have to use global
or thread-local variables to achieve the same effect.
3. AVOID MALLOC
You can't always do this, but when you can, embedded developers
will appreciate it. I almost never bother avoiding, as it's
too much work (and in some cases is pretty infeasible;
see http://nothings.org/gamedev/font_rendering_malloc.txt ).
But it's definitely something one of the things I've gotten
the most pushback on from potential users.
4. ALLOW STATIC IMPLEMENTATION
Have a #define which makes function declarations and
function definitions static. This makes the implementation
private to the source file that creates it. This allows
people to use your library multiple times in their project
without collision. (This is only necessary if your library
has configuration macros or global state, or if your
library has multiple versions that are not backwards
compatible. I've run into both of those cases.)
5. MAKE ACCESSIBLE FROM C
Making your code accessible from C instead of C++ (i.e.
either coding in C, or using extern "C") makes it more
straightforward to be used in C and in other languages,
which often only have support for C bindings, not C++.
(One of the earliest results I found in googling for
stb_image was a Haskell wrapper.) Otherwise, people
have to wrap it in another set of function calls, and
the whole point here is to make it convenient for people
to use, isn't it? (See below.)
I prefer to code entirely in C, so the source file that
instantiates the implementation can be C itself, for
those crazy people out there who are programming in C.
But it's probably not a big hardship for a C programmer
to create a single C++ source file to instantiate your
library.
6. NAMESPACE PRIVATE FUNCTIONS
Try to avoid having names in your source code that
will cause conflicts with identical names in client
code. You can do this either by namespacing in C++,
or prefixing with your library name in C.
In C, generally, I use the same prefix for API
functions and private symbols, such as "stbtt_"
for stb_truetype; but private functions (and
static globals) use a second underscore as
in "stbtt__" to further minimize the chance of
additional collisions in the unlikely but not
impossible event that users write wrapper
functions that have names of the form "stbtt_".
(Consider the user that has used "stbtt_foo"
*successfully*, and then upgrades to a new
version of your library which has a new private
function named either "stbtt_foo" or "stbtt__foo".)
Note that the double-underscore is reserved for
use by the compiler, but (1) there is nothing
reserved for "middleware", i.e. libraries
desiring to avoid conflicts with user symbols
have no other good options, and (2) in practice
no compilers use double-underscore in the middle
rather than the beginning/end. (Unfortunately,
there is at least one videogame-console compiler that
will warn about double-underscores by default.)
7. EASY-TO-COMPLY LICENSE
I make my libraries public domain. You don't have to.
But my goal in releasing stb-style libraries is to
reduce friction for potential users as much as
possible. That means:
a. easy to build (what this file is mostly about)
b. easy to invoke (which requires good API design)
c. easy to deploy (which is about licensing)
I choose to place all my libraries in the public
domain, abjuring copyright, rather than license
the libraries. This has some benefits and some
drawbacks.
Any license which is "viral" to modifications
causes worries for lawyers, even if their programmers
aren't modifying it.
Any license which requires crediting in documentation
adds friction which can add up. Valve used to have
a page with a list of all of these on their web site,
and it was insane, and obviously nobody ever looked
at it so why would you care whether your credit appeared
there?
Permissive licenses like zlib and BSD license are
perfectly reasonable, but they are very wordy and
have only two benefits over public domain: legally-mandated
attribution and liability-control. I do not believe these
are worth the excessive verbosity and user-unfriendliness
these licenses induce, especially in the single-file
case where those licenses tend to be at the top of
the file, the first thing you see. (To the specific
points, I have had no trouble receiving attribution
for my libraries; liability in the face of no explicit
disclaimer of liability is an open question.)
However, public domain has frictions of its own, because
public domain declarations aren't necessary recognized
in the USA and some other locations. For that reason,
I recommend a declaration along these lines:
// This software is dual-licensed to the public domain and under the following
// license: you are granted a perpetual, irrevocable license to copy, modify,
// publish, and distribute this file as you see fit.
I typically place this declaration at the end of the initial
comment block of the file and just say 'public domain'
at the top.
I have had people say they couldn't use one of my
libraries because it was only "public domain" and didn't
have the additional fallback clause, who asked if
I could dual-license it under a traditional license.
My answer: they can create a derivative work by
modifying one character, and then license that however
they like. (Indeed, *adding* the zlib or BSD license
would be such a modification!) Unfortunately, their
lawyers reportedly didn't like that answer. :(

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# An interview with STB about stb_voxel_render.h
**Q:**
I suppose you really like Minecraft?
**A:**
Not really. I mean, I do own it and play it some, and
I do watch YouTube videos of other people playing it
once in a while, but I'm not saying it's that great.
But I do love voxels. I've been playing with voxel rendering
since the mid-late 90's when we were still doing software
rendering and thinking maybe polygons weren't the answer.
Once GPUs came along that kind of died off, at least until
Minecraft brought it back to attention.
**Q:**
Do you expect people will make a lot of Minecraft clones
with this?
**A:**
I hope not!
For one thing, it's a terrible idea for the
developer. Remember before Minecraft was on the Xbox 360,
there were a ton of "indie" clones (some maybe making
decent money even), but then the real Minecraft came out
and just crushed them (as far as I know). It's just not
something you really want to compete with.
The reason I made this library is because I'd like
to see more games with Minecraft's *art style*, not
necessary its *gameplay*.
I can understand the urge to clone the gameplay. When
you have a world made of voxels/blocks, there are a
few things that become incredibly easy to do that would
otherwise be very hard (at least for an indie) to do in 3D.
One thing is that procedural generation becomes much easier.
Another is that destructible environments are easy. Another
is that you have a world where your average user can build
stuff that they find satisfactory.
Minecraft is at a sort of local maximum, a sweet spot, where
it leverages all of those easy-to-dos. And so I'm sure it's
hard to look at the space of 'games using voxels' and move
away from that local maximum, to give up some of that.
But I think that's what people should do.
**Q:**
So what else can people do with stb_voxel_render?
**A:**
All of those benefits I mentioned above are still valid even
if you stay away from the sweet spot. You can make a 3D roguelike
without player-creation/destruction that uses procedural generation.
You could make a shooter with pre-designed maps but destructible
environments.
And I'm sure there are other possible benefits to using voxels/blocks.
Hopefully this will make it easier for people to explore the space.
The library has a pretty wide range of features to allow
people to come up with some distinctive looks. For example,
the art style of Continue?9876543210 was one of the inspirations
for trying to make the multitexturing capabilities flexible.
I'm terrible at art, so this isn't really something I can
come up with myself, but I tried to put in flexible
technology that could be used multiple ways.
One thing I did intentionally was try to make it possible to
make nicer looking ground terrain, using the half-height
slopes and "weird slopes". There are Minecraft mods with
drivable cars and they just go up these blocky slopes and,
like, what? So I wanted you to be able to make smoother
terrain, either just for the look, or for vehicles etc.
Also, you can spatially cross-fade between two ground textures for
that classic bad dirt/grass transition that has shipped
in plenty of professional games. Of course, you could
just use a separate non-voxel ground renderer for all of
this. But this way, you can seamlessly integrate everything
else with it. E.g. in your authoring tool (or procedural
generation) you can make smooth ground and then cut a
sharp-edged hole in it for a building's basement or whatever.
Another thing you can do is work at a very different scale.
In Minecraft, a person is just under 2 blocks tall. In
Ace of Spades, a person is just under 3 blocks tall. Why
not 4 or 6? Well, partly because you just need a lot more
voxels; if a meter is 2 voxels in Mineraft and 4 voxels in
your game, and you draw the same number of voxels due to
hardware limits, then your game has half the view distance
of Minecraft. Since stb_voxel_render is designed to keep
the meshes small and render efficiently, you can push the
view distance out further than Minecraft--or use a similar
view distance and a higher voxel resolution. You could also
stop making infinite worlds and work at entirely different
scales; where Minecraft is 1 voxel per meter, you could
have 20 voxels per meter and make a small arena that's
50 meters wide and 5 meters tall.
Back when the voxel game Voxatron was announced, the weekend
after the trailer came out I wrote my own little GPU-accelerated
version of the engine and thought that was pretty cool. I've
been tempted many times to extract that and release it
as a library, but
I don't want to steal Voxatron's thunder so I've avoided
it. You could use this engine to do the same kind of thing,
although it won't be as efficient as an engine dedicated to
that style of thing would be.
**Q:**
What one thing would you really like to see somebody do?
**A:**
Before Unity, 3D has seemed deeply problematic in the indie
space. Software like GameMaker has tried to support 3D but
it seems like little of note has been done with it.
Minecraft has shown that people can build worlds with the
Minecraft toolset far more easily than we've ever seen from those
other tools. Obviously people have done great things with
Unity, but those people are much closer to professional
developers; typically they still need real 3D modelling
and all of that stuff.
So what I'd really like to see is someone build some kind
of voxel-game-construction-set. Start with stb_voxel_render,
maybe expose all the flexibility of stb_voxel_render (so
people can do different things). Thrown in lua or something
else for scripting, make some kind of editor that feels
at least as good as Minecraft and Infinifactory, and see
where that gets you.
**Q:**
Why'd you make this library?
**A:**
Mainly as a way of releasing this technology I've been working
on since 2011 and seemed unlikely to ever ship myself. In 2011
I was playing the voxel shooter Ace of Spades. One of the maps
that we played on was a partial port of Broville (which is the
first Minecraft map in stb_voxel_render release trailer). I'd
made a bunch of procedural level generators for the game, and
I started trying to make a city generator inspired by Broville.
But I realized it would be a lot of work, and of very little
value (most of my maps didn't get much play because people
preferred to play on maps where they could charge straight
at the enemies and shoot them as fast as possible). So I
wrote my own voxel engine and started working on a procedural
city game. But I got bogged down after I finally got the road
generator working and never got anywhere with building
generation or gameplay.
stb_voxel_render is actually a complete rewrite from scratch,
but it's based a lot on what I learned from that previous work.
**Q:**
About the release video... how long did that take to edit?
**A:**
About seven or eight hours. I had the first version done in
maybe six or seven hours, but then I realized I'd left out
one clip, and when I went back to add it I also gussied up
a couple other moments in the video. But there was something
basically identical to it that was done in around six.
**Q:**
Ok, that's it. Thanks, me.
**A:**
Thanks *me!*

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My collected rationales for placing these libraries
in the public domain:
1. Public domain vs. viral licenses
Why is this library public domain?
Because more people will use it. Because it's not viral, people are
not obligated to give back, so you could argue that it hurts the
development of it, and then because it doesn't develop as well it's
not as good, and then because it's not as good, in the long run
maybe fewer people will use it. I have total respect for that
opinion, but I just don't believe it myself for most software.
2. Public domain vs. attribution-required licenses
The primary difference between public domain and, say, a Creative Commons
commercial / non-share-alike / attribution license is solely the
requirement for attribution. (Similarly the BSD license and such.)
While I would *appreciate* acknowledgement and attribution, I believe
that it is foolish to place a legal encumberment (i.e. a license) on
the software *solely* to get attribution.
In other words, I'm arguing that PD is superior to the BSD license and
the Creative Commons 'Attribution' license. If the license offers
anything besides attribution -- as does, e.g., CC NonCommercial-ShareAlike,
or the GPL -- that's a separate discussion.
3. Other aspects of BSD-style licenses besides attribution
Permissive licenses like zlib and BSD license are perfectly reasonable
in their requirements, but they are very wordy and
have only two benefits over public domain: legally-mandated
attribution and liability-control. I do not believe these
are worth the excessive verbosity and user-unfriendliness
these licenses induce, especially in the single-file
case where those licenses tend to be at the top of
the file, the first thing you see.
To the specific points, I have had no trouble receiving
attribution for my libraries; liability in the face of
no explicit disclaimer of liability is an open question,
but one I have a lot of difficulty imagining there being
any actual doubt about in court. Sometimes I explicitly
note in my libraries that I make no guarantees about them
being fit for purpose, but it's pretty absurd to do this;
as a whole, it comes across as "here is a library to decode
vorbis audio files, but it may not actually work and if
you have problems it's not my fault, but also please
report bugs so I can fix them"--so dumb!
4. full discussion from stb_howto.txt on what YOU should do for YOUR libs
```
EASY-TO-COMPLY LICENSE
I make my libraries public domain. You don't have to.
But my goal in releasing stb-style libraries is to
reduce friction for potential users as much as
possible. That means:
a. easy to build (what this file is mostly about)
b. easy to invoke (which requires good API design)
c. easy to deploy (which is about licensing)
I choose to place all my libraries in the public
domain, abjuring copyright, rather than license
the libraries. This has some benefits and some
drawbacks.
Any license which is "viral" to modifications
causes worries for lawyers, even if their programmers
aren't modifying it.
Any license which requires crediting in documentation
adds friction which can add up. Valve has a huge list
(http://nothings.org/remote/ThirdPartyLegalNotices_steam_2019.html)
of all of these included in each game they ship,
and it's insane, and obviously nobody ever looks
at it so why would you care whether your credit
appeared there?
Permissive licenses like zlib and BSD license are
perfectly reasonable, but they are very wordy and
have only two benefits over public domain: legally-mandated
attribution and liability-control. I do not believe these
are worth the excessive verbosity and user-unfriendliness
these licenses induce, especially in the single-file
case where those licenses tend to be at the top of
the file, the first thing you see. (To the specific
points, I have had no trouble receiving attribution
for my libraries; liability in the face of no explicit
disclaimer of liability is an open question.)
However, public domain has frictions of its own, because
public domain declarations aren't necessary recognized
in the USA and some other locations. For that reason,
I recommend a declaration along these lines:
// This software is dual-licensed to the public domain and under the following
// license: you are granted a perpetual, irrevocable license to copy, modify,
// publish, and distribute this file as you see fit.
I typically place this declaration at the end of the initial
comment block of the file and just say 'public domain'
at the top.
I have had people say they couldn't use one of my
libraries because it was only "public domain" and didn't
have the additional fallback clause, who asked if
I could dual-license it under a traditional license.
My answer: they can create a derivative work by
modifying one character, and then license that however
they like. (Indeed, *adding* the zlib or BSD license
would be such a modification!) Unfortunately, their
lawyers reportedly didn't like that answer. :(
```

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// stb_c_lexer.h - v0.12 - public domain Sean Barrett 2013
// lexer for making little C-like languages with recursive-descent parsers
//
// This file provides both the interface and the implementation.
// To instantiate the implementation,
// #define STB_C_LEXER_IMPLEMENTATION
// in *ONE* source file, before #including this file.
//
// The default configuration is fairly close to a C lexer, although
// suffixes on integer constants are not handled (you can override this).
//
// History:
// 0.12 fix compilation bug for NUL support; better support separate inclusion
// 0.11 fix clang static analysis warning
// 0.10 fix warnings
// 0.09 hex floats, no-stdlib fixes
// 0.08 fix bad pointer comparison
// 0.07 fix mishandling of hexadecimal constants parsed by strtol
// 0.06 fix missing next character after ending quote mark (Andreas Fredriksson)
// 0.05 refixed get_location because github version had lost the fix
// 0.04 fix octal parsing bug
// 0.03 added STB_C_LEX_DISCARD_PREPROCESSOR option
// refactor API to simplify (only one struct instead of two)
// change literal enum names to have 'lit' at the end
// 0.02 first public release
//
// Status:
// - haven't tested compiling as C++
// - haven't tested the float parsing path
// - haven't tested the non-default-config paths (e.g. non-stdlib)
// - only tested default-config paths by eyeballing output of self-parse
//
// - haven't implemented multiline strings
// - haven't implemented octal/hex character constants
// - haven't implemented support for unicode CLEX_char
// - need to expand error reporting so you don't just get "CLEX_parse_error"
//
// Contributors:
// Arpad Goretity (bugfix)
// Alan Hickman (hex floats)
//
// LICENSE
//
// See end of file for license information.
#ifdef STB_C_LEXER_IMPLEMENTATION
#ifndef STB_C_LEXER_DEFINITIONS
// to change the default parsing rules, copy the following lines
// into your C/C++ file *before* including this, and then replace
// the Y's with N's for the ones you don't want. This needs to be
// set to the same values for every place in your program where
// stb_c_lexer.h is included.
// --BEGIN--
#if defined(Y) || defined(N)
#error "Can only use stb_c_lexer in contexts where the preprocessor symbols 'Y' and 'N' are not defined"
#endif
#define STB_C_LEX_C_DECIMAL_INTS Y // "0|[1-9][0-9]*" CLEX_intlit
#define STB_C_LEX_C_HEX_INTS Y // "0x[0-9a-fA-F]+" CLEX_intlit
#define STB_C_LEX_C_OCTAL_INTS Y // "[0-7]+" CLEX_intlit
#define STB_C_LEX_C_DECIMAL_FLOATS Y // "[0-9]*(.[0-9]*([eE][-+]?[0-9]+)?) CLEX_floatlit
#define STB_C_LEX_C99_HEX_FLOATS N // "0x{hex}+(.{hex}*)?[pP][-+]?{hex}+ CLEX_floatlit
#define STB_C_LEX_C_IDENTIFIERS Y // "[_a-zA-Z][_a-zA-Z0-9]*" CLEX_id
#define STB_C_LEX_C_DQ_STRINGS Y // double-quote-delimited strings with escapes CLEX_dqstring
#define STB_C_LEX_C_SQ_STRINGS N // single-quote-delimited strings with escapes CLEX_ssstring
#define STB_C_LEX_C_CHARS Y // single-quote-delimited character with escape CLEX_charlits
#define STB_C_LEX_C_COMMENTS Y // "/* comment */"
#define STB_C_LEX_CPP_COMMENTS Y // "// comment to end of line\n"
#define STB_C_LEX_C_COMPARISONS Y // "==" CLEX_eq "!=" CLEX_noteq "<=" CLEX_lesseq ">=" CLEX_greatereq
#define STB_C_LEX_C_LOGICAL Y // "&&" CLEX_andand "||" CLEX_oror
#define STB_C_LEX_C_SHIFTS Y // "<<" CLEX_shl ">>" CLEX_shr
#define STB_C_LEX_C_INCREMENTS Y // "++" CLEX_plusplus "--" CLEX_minusminus
#define STB_C_LEX_C_ARROW Y // "->" CLEX_arrow
#define STB_C_LEX_EQUAL_ARROW N // "=>" CLEX_eqarrow
#define STB_C_LEX_C_BITWISEEQ Y // "&=" CLEX_andeq "|=" CLEX_oreq "^=" CLEX_xoreq
#define STB_C_LEX_C_ARITHEQ Y // "+=" CLEX_pluseq "-=" CLEX_minuseq
// "*=" CLEX_muleq "/=" CLEX_diveq "%=" CLEX_modeq
// if both STB_C_LEX_SHIFTS & STB_C_LEX_ARITHEQ:
// "<<=" CLEX_shleq ">>=" CLEX_shreq
#define STB_C_LEX_PARSE_SUFFIXES N // letters after numbers are parsed as part of those numbers, and must be in suffix list below
#define STB_C_LEX_DECIMAL_SUFFIXES "" // decimal integer suffixes e.g. "uUlL" -- these are returned as-is in string storage
#define STB_C_LEX_HEX_SUFFIXES "" // e.g. "uUlL"
#define STB_C_LEX_OCTAL_SUFFIXES "" // e.g. "uUlL"
#define STB_C_LEX_FLOAT_SUFFIXES "" //
#define STB_C_LEX_0_IS_EOF N // if Y, ends parsing at '\0'; if N, returns '\0' as token
#define STB_C_LEX_INTEGERS_AS_DOUBLES N // parses integers as doubles so they can be larger than 'int', but only if STB_C_LEX_STDLIB==N
#define STB_C_LEX_MULTILINE_DSTRINGS N // allow newlines in double-quoted strings
#define STB_C_LEX_MULTILINE_SSTRINGS N // allow newlines in single-quoted strings
#define STB_C_LEX_USE_STDLIB Y // use strtod,strtol for parsing #s; otherwise inaccurate hack
#define STB_C_LEX_DOLLAR_IDENTIFIER Y // allow $ as an identifier character
#define STB_C_LEX_FLOAT_NO_DECIMAL Y // allow floats that have no decimal point if they have an exponent
#define STB_C_LEX_DEFINE_ALL_TOKEN_NAMES N // if Y, all CLEX_ token names are defined, even if never returned
// leaving it as N should help you catch config bugs
#define STB_C_LEX_DISCARD_PREPROCESSOR Y // discard C-preprocessor directives (e.g. after prepocess
// still have #line, #pragma, etc)
//#define STB_C_LEX_ISWHITE(str) ... // return length in bytes of whitespace characters if first char is whitespace
#define STB_C_LEXER_DEFINITIONS // This line prevents the header file from replacing your definitions
// --END--
#endif
#endif
#ifndef INCLUDE_STB_C_LEXER_H
#define INCLUDE_STB_C_LEXER_H
typedef struct
{
// lexer variables
char *input_stream;
char *eof;
char *parse_point;
char *string_storage;
int string_storage_len;
// lexer parse location for error messages
char *where_firstchar;
char *where_lastchar;
// lexer token variables
long token;
double real_number;
long int_number;
char *string;
int string_len;
} stb_lexer;
typedef struct
{
int line_number;
int line_offset;
} stb_lex_location;
#ifdef __cplusplus
extern "C" {
#endif
extern void stb_c_lexer_init(stb_lexer *lexer, const char *input_stream, const char *input_stream_end, char *string_store, int store_length);
// this function initialize the 'lexer' structure
// Input:
// - input_stream points to the file to parse, loaded into memory
// - input_stream_end points to the end of the file, or NULL if you use 0-for-EOF
// - string_store is storage the lexer can use for storing parsed strings and identifiers
// - store_length is the length of that storage
extern int stb_c_lexer_get_token(stb_lexer *lexer);
// this function returns non-zero if a token is parsed, or 0 if at EOF
// Output:
// - lexer->token is the token ID, which is unicode code point for a single-char token, < 0 for a multichar or eof or error
// - lexer->real_number is a double constant value for CLEX_floatlit, or CLEX_intlit if STB_C_LEX_INTEGERS_AS_DOUBLES
// - lexer->int_number is an integer constant for CLEX_intlit if !STB_C_LEX_INTEGERS_AS_DOUBLES, or character for CLEX_charlit
// - lexer->string is a 0-terminated string for CLEX_dqstring or CLEX_sqstring or CLEX_identifier
// - lexer->string_len is the byte length of lexer->string
extern void stb_c_lexer_get_location(const stb_lexer *lexer, const char *where, stb_lex_location *loc);
// this inefficient function returns the line number and character offset of a
// given location in the file as returned by stb_lex_token. Because it's inefficient,
// you should only call it for errors, not for every token.
// For error messages of invalid tokens, you typically want the location of the start
// of the token (which caused the token to be invalid). For bugs involving legit
// tokens, you can report the first or the range.
// Output:
// - loc->line_number is the line number in the file, counting from 1, of the location
// - loc->line_offset is the char-offset in the line, counting from 0, of the location
#ifdef __cplusplus
}
#endif
enum
{
CLEX_eof = 256,
CLEX_parse_error,
CLEX_intlit ,
CLEX_floatlit ,
CLEX_id ,
CLEX_dqstring ,
CLEX_sqstring ,
CLEX_charlit ,
CLEX_eq ,
CLEX_noteq ,
CLEX_lesseq ,
CLEX_greatereq ,
CLEX_andand ,
CLEX_oror ,
CLEX_shl ,
CLEX_shr ,
CLEX_plusplus ,
CLEX_minusminus ,
CLEX_pluseq ,
CLEX_minuseq ,
CLEX_muleq ,
CLEX_diveq ,
CLEX_modeq ,
CLEX_andeq ,
CLEX_oreq ,
CLEX_xoreq ,
CLEX_arrow ,
CLEX_eqarrow ,
CLEX_shleq, CLEX_shreq,
CLEX_first_unused_token
};
#endif // INCLUDE_STB_C_LEXER_H
#ifdef STB_C_LEXER_IMPLEMENTATION
// Hacky definitions so we can easily #if on them
#define Y(x) 1
#define N(x) 0
#if STB_C_LEX_INTEGERS_AS_DOUBLES(x)
typedef double stb__clex_int;
#define intfield real_number
#define STB__clex_int_as_double
#else
typedef long stb__clex_int;
#define intfield int_number
#endif
// Convert these config options to simple conditional #defines so we can more
// easily test them once we've change the meaning of Y/N
#if STB_C_LEX_PARSE_SUFFIXES(x)
#define STB__clex_parse_suffixes
#endif
#if STB_C_LEX_C99_HEX_FLOATS(x)
#define STB__clex_hex_floats
#endif
#if STB_C_LEX_C_HEX_INTS(x)
#define STB__clex_hex_ints
#endif
#if STB_C_LEX_C_DECIMAL_INTS(x)
#define STB__clex_decimal_ints
#endif
#if STB_C_LEX_C_OCTAL_INTS(x)
#define STB__clex_octal_ints
#endif
#if STB_C_LEX_C_DECIMAL_FLOATS(x)
#define STB__clex_decimal_floats
#endif
#if STB_C_LEX_DISCARD_PREPROCESSOR(x)
#define STB__clex_discard_preprocessor
#endif
#if STB_C_LEX_USE_STDLIB(x) && (!defined(STB__clex_hex_floats) || __STDC_VERSION__ >= 199901L)
#define STB__CLEX_use_stdlib
#include <stdlib.h>
#endif
// Now for the rest of the file we'll use the basic definition where
// where Y expands to its contents and N expands to nothing
#undef Y
#define Y(a) a
#undef N
#define N(a)
// API function
void stb_c_lexer_init(stb_lexer *lexer, const char *input_stream, const char *input_stream_end, char *string_store, int store_length)
{
lexer->input_stream = (char *) input_stream;
lexer->eof = (char *) input_stream_end;
lexer->parse_point = (char *) input_stream;
lexer->string_storage = string_store;
lexer->string_storage_len = store_length;
}
// API function
void stb_c_lexer_get_location(const stb_lexer *lexer, const char *where, stb_lex_location *loc)
{
char *p = lexer->input_stream;
int line_number = 1;
int char_offset = 0;
while (*p && p < where) {
if (*p == '\n' || *p == '\r') {
p += (p[0]+p[1] == '\r'+'\n' ? 2 : 1); // skip newline
line_number += 1;
char_offset = 0;
} else {
++p;
++char_offset;
}
}
loc->line_number = line_number;
loc->line_offset = char_offset;
}
// main helper function for returning a parsed token
static int stb__clex_token(stb_lexer *lexer, int token, char *start, char *end)
{
lexer->token = token;
lexer->where_firstchar = start;
lexer->where_lastchar = end;
lexer->parse_point = end+1;
return 1;
}
// helper function for returning eof
static int stb__clex_eof(stb_lexer *lexer)
{
lexer->token = CLEX_eof;
return 0;
}
static int stb__clex_iswhite(int x)
{
return x == ' ' || x == '\t' || x == '\r' || x == '\n' || x == '\f';
}
static const char *stb__strchr(const char *str, int ch)
{
for (; *str; ++str)
if (*str == ch)
return str;
return 0;
}
// parse suffixes at the end of a number
static int stb__clex_parse_suffixes(stb_lexer *lexer, long tokenid, char *start, char *cur, const char *suffixes)
{
#ifdef STB__clex_parse_suffixes
lexer->string = lexer->string_storage;
lexer->string_len = 0;
while ((*cur >= 'a' && *cur <= 'z') || (*cur >= 'A' && *cur <= 'Z')) {
if (stb__strchr(suffixes, *cur) == 0)
return stb__clex_token(lexer, CLEX_parse_error, start, cur);
if (lexer->string_len+1 >= lexer->string_storage_len)
return stb__clex_token(lexer, CLEX_parse_error, start, cur);
lexer->string[lexer->string_len++] = *cur++;
}
#else
suffixes = suffixes; // attempt to suppress warnings
#endif
return stb__clex_token(lexer, tokenid, start, cur-1);
}
#ifndef STB__CLEX_use_stdlib
static double stb__clex_pow(double base, unsigned int exponent)
{
double value=1;
for ( ; exponent; exponent >>= 1) {
if (exponent & 1)
value *= base;
base *= base;
}
return value;
}
static double stb__clex_parse_float(char *p, char **q)
{
char *s = p;
double value=0;
int base=10;
int exponent=0;
#ifdef STB__clex_hex_floats
if (*p == '0') {
if (p[1] == 'x' || p[1] == 'X') {
base=16;
p += 2;
}
}
#endif
for (;;) {
if (*p >= '0' && *p <= '9')
value = value*base + (*p++ - '0');
#ifdef STB__clex_hex_floats
else if (base == 16 && *p >= 'a' && *p <= 'f')
value = value*base + 10 + (*p++ - 'a');
else if (base == 16 && *p >= 'A' && *p <= 'F')
value = value*base + 10 + (*p++ - 'A');
#endif
else
break;
}
if (*p == '.') {
double pow, addend = 0;
++p;
for (pow=1; ; pow*=base) {
if (*p >= '0' && *p <= '9')
addend = addend*base + (*p++ - '0');
#ifdef STB__clex_hex_floats
else if (base == 16 && *p >= 'a' && *p <= 'f')
addend = addend*base + 10 + (*p++ - 'a');
else if (base == 16 && *p >= 'A' && *p <= 'F')
addend = addend*base + 10 + (*p++ - 'A');
#endif
else
break;
}
value += addend / pow;
}
#ifdef STB__clex_hex_floats
if (base == 16) {
// exponent required for hex float literal
if (*p != 'p' && *p != 'P') {
*q = s;
return 0;
}
exponent = 1;
} else
#endif
exponent = (*p == 'e' || *p == 'E');
if (exponent) {
int sign = p[1] == '-';
unsigned int exponent=0;
double power=1;
++p;
if (*p == '-' || *p == '+')
++p;
while (*p >= '0' && *p <= '9')
exponent = exponent*10 + (*p++ - '0');
#ifdef STB__clex_hex_floats
if (base == 16)
power = stb__clex_pow(2, exponent);
else
#endif
power = stb__clex_pow(10, exponent);
if (sign)
value /= power;
else
value *= power;
}
*q = p;
return value;
}
#endif
static int stb__clex_parse_char(char *p, char **q)
{
if (*p == '\\') {
*q = p+2; // tentatively guess we'll parse two characters
switch(p[1]) {
case '\\': return '\\';
case '\'': return '\'';
case '"': return '"';
case 't': return '\t';
case 'f': return '\f';
case 'n': return '\n';
case 'r': return '\r';
case '0': return '\0'; // @TODO ocatal constants
case 'x': case 'X': return -1; // @TODO hex constants
case 'u': return -1; // @TODO unicode constants
}
}
*q = p+1;
return (unsigned char) *p;
}
static int stb__clex_parse_string(stb_lexer *lexer, char *p, int type)
{
char *start = p;
char delim = *p++; // grab the " or ' for later matching
char *out = lexer->string_storage;
char *outend = lexer->string_storage + lexer->string_storage_len;
while (*p != delim) {
int n;
if (*p == '\\') {
char *q;
n = stb__clex_parse_char(p, &q);
if (n < 0)
return stb__clex_token(lexer, CLEX_parse_error, start, q);
p = q;
} else {
// @OPTIMIZE: could speed this up by looping-while-not-backslash
n = (unsigned char) *p++;
}
if (out+1 > outend)
return stb__clex_token(lexer, CLEX_parse_error, start, p);
// @TODO expand unicode escapes to UTF8
*out++ = (char) n;
}
*out = 0;
lexer->string = lexer->string_storage;
lexer->string_len = (int) (out - lexer->string_storage);
return stb__clex_token(lexer, type, start, p);
}
int stb_c_lexer_get_token(stb_lexer *lexer)
{
char *p = lexer->parse_point;
// skip whitespace and comments
for (;;) {
#ifdef STB_C_LEX_ISWHITE
while (p != lexer->stream_end) {
int n;
n = STB_C_LEX_ISWHITE(p);
if (n == 0) break;
if (lexer->eof && lexer->eof - lexer->parse_point < n)
return stb__clex_token(tok, CLEX_parse_error, p,lexer->eof-1);
p += n;
}
#else
while (p != lexer->eof && stb__clex_iswhite(*p))
++p;
#endif
STB_C_LEX_CPP_COMMENTS(
if (p != lexer->eof && p[0] == '/' && p[1] == '/') {
while (p != lexer->eof && *p != '\r' && *p != '\n')
++p;
continue;
}
)
STB_C_LEX_C_COMMENTS(
if (p != lexer->eof && p[0] == '/' && p[1] == '*') {
char *start = p;
p += 2;
while (p != lexer->eof && (p[0] != '*' || p[1] != '/'))
++p;
if (p == lexer->eof)
return stb__clex_token(lexer, CLEX_parse_error, start, p-1);
p += 2;
continue;
}
)
#ifdef STB__clex_discard_preprocessor
// @TODO this discards everything after a '#', regardless
// of where in the line the # is, rather than requiring it
// be at the start. (because this parser doesn't otherwise
// check for line breaks!)
if (p != lexer->eof && p[0] == '#') {
while (p != lexer->eof && *p != '\r' && *p != '\n')
++p;
continue;
}
#endif
break;
}
if (p == lexer->eof)
return stb__clex_eof(lexer);
switch (*p) {
default:
if ( (*p >= 'a' && *p <= 'z')
|| (*p >= 'A' && *p <= 'Z')
|| *p == '_' || (unsigned char) *p >= 128 // >= 128 is UTF8 char
STB_C_LEX_DOLLAR_IDENTIFIER( || *p == '$' ) )
{
int n = 0;
lexer->string = lexer->string_storage;
lexer->string_len = n;
do {
if (n+1 >= lexer->string_storage_len)
return stb__clex_token(lexer, CLEX_parse_error, p, p+n);
lexer->string[n] = p[n];
++n;
} while (
(p[n] >= 'a' && p[n] <= 'z')
|| (p[n] >= 'A' && p[n] <= 'Z')
|| (p[n] >= '0' && p[n] <= '9') // allow digits in middle of identifier
|| p[n] == '_' || (unsigned char) p[n] >= 128
STB_C_LEX_DOLLAR_IDENTIFIER( || p[n] == '$' )
);
lexer->string[n] = 0;
return stb__clex_token(lexer, CLEX_id, p, p+n-1);
}
// check for EOF
STB_C_LEX_0_IS_EOF(
if (*p == 0)
return stb__clex_eof(lexer);
)
single_char:
// not an identifier, return the character as itself
return stb__clex_token(lexer, *p, p, p);
case '+':
if (p+1 != lexer->eof) {
STB_C_LEX_C_INCREMENTS(if (p[1] == '+') return stb__clex_token(lexer, CLEX_plusplus, p,p+1);)
STB_C_LEX_C_ARITHEQ( if (p[1] == '=') return stb__clex_token(lexer, CLEX_pluseq , p,p+1);)
}
goto single_char;
case '-':
if (p+1 != lexer->eof) {
STB_C_LEX_C_INCREMENTS(if (p[1] == '-') return stb__clex_token(lexer, CLEX_minusminus, p,p+1);)
STB_C_LEX_C_ARITHEQ( if (p[1] == '=') return stb__clex_token(lexer, CLEX_minuseq , p,p+1);)
STB_C_LEX_C_ARROW( if (p[1] == '>') return stb__clex_token(lexer, CLEX_arrow , p,p+1);)
}
goto single_char;
case '&':
if (p+1 != lexer->eof) {
STB_C_LEX_C_LOGICAL( if (p[1] == '&') return stb__clex_token(lexer, CLEX_andand, p,p+1);)
STB_C_LEX_C_BITWISEEQ(if (p[1] == '=') return stb__clex_token(lexer, CLEX_andeq , p,p+1);)
}
goto single_char;
case '|':
if (p+1 != lexer->eof) {
STB_C_LEX_C_LOGICAL( if (p[1] == '|') return stb__clex_token(lexer, CLEX_oror, p,p+1);)
STB_C_LEX_C_BITWISEEQ(if (p[1] == '=') return stb__clex_token(lexer, CLEX_oreq, p,p+1);)
}
goto single_char;
case '=':
if (p+1 != lexer->eof) {
STB_C_LEX_C_COMPARISONS(if (p[1] == '=') return stb__clex_token(lexer, CLEX_eq, p,p+1);)
STB_C_LEX_EQUAL_ARROW( if (p[1] == '>') return stb__clex_token(lexer, CLEX_eqarrow, p,p+1);)
}
goto single_char;
case '!':
STB_C_LEX_C_COMPARISONS(if (p+1 != lexer->eof && p[1] == '=') return stb__clex_token(lexer, CLEX_noteq, p,p+1);)
goto single_char;
case '^':
STB_C_LEX_C_BITWISEEQ(if (p+1 != lexer->eof && p[1] == '=') return stb__clex_token(lexer, CLEX_xoreq, p,p+1));
goto single_char;
case '%':
STB_C_LEX_C_ARITHEQ(if (p+1 != lexer->eof && p[1] == '=') return stb__clex_token(lexer, CLEX_modeq, p,p+1));
goto single_char;
case '*':
STB_C_LEX_C_ARITHEQ(if (p+1 != lexer->eof && p[1] == '=') return stb__clex_token(lexer, CLEX_muleq, p,p+1));
goto single_char;
case '/':
STB_C_LEX_C_ARITHEQ(if (p+1 != lexer->eof && p[1] == '=') return stb__clex_token(lexer, CLEX_diveq, p,p+1));
goto single_char;
case '<':
if (p+1 != lexer->eof) {
STB_C_LEX_C_COMPARISONS(if (p[1] == '=') return stb__clex_token(lexer, CLEX_lesseq, p,p+1);)
STB_C_LEX_C_SHIFTS( if (p[1] == '<') {
STB_C_LEX_C_ARITHEQ(if (p+2 != lexer->eof && p[2] == '=')
return stb__clex_token(lexer, CLEX_shleq, p,p+2);)
return stb__clex_token(lexer, CLEX_shl, p,p+1);
}
)
}
goto single_char;
case '>':
if (p+1 != lexer->eof) {
STB_C_LEX_C_COMPARISONS(if (p[1] == '=') return stb__clex_token(lexer, CLEX_greatereq, p,p+1);)
STB_C_LEX_C_SHIFTS( if (p[1] == '>') {
STB_C_LEX_C_ARITHEQ(if (p+2 != lexer->eof && p[2] == '=')
return stb__clex_token(lexer, CLEX_shreq, p,p+2);)
return stb__clex_token(lexer, CLEX_shr, p,p+1);
}
)
}
goto single_char;
case '"':
STB_C_LEX_C_DQ_STRINGS(return stb__clex_parse_string(lexer, p, CLEX_dqstring);)
goto single_char;
case '\'':
STB_C_LEX_C_SQ_STRINGS(return stb__clex_parse_string(lexer, p, CLEX_sqstring);)
STB_C_LEX_C_CHARS(
{
char *start = p;
lexer->int_number = stb__clex_parse_char(p+1, &p);
if (lexer->int_number < 0)
return stb__clex_token(lexer, CLEX_parse_error, start,start);
if (p == lexer->eof || *p != '\'')
return stb__clex_token(lexer, CLEX_parse_error, start,p);
return stb__clex_token(lexer, CLEX_charlit, start, p+1);
})
goto single_char;
case '0':
#if defined(STB__clex_hex_ints) || defined(STB__clex_hex_floats)
if (p+1 != lexer->eof) {
if (p[1] == 'x' || p[1] == 'X') {
char *q;
#ifdef STB__clex_hex_floats
for (q=p+2;
q != lexer->eof && ((*q >= '0' && *q <= '9') || (*q >= 'a' && *q <= 'f') || (*q >= 'A' && *q <= 'F'));
++q);
if (q != lexer->eof) {
if (*q == '.' STB_C_LEX_FLOAT_NO_DECIMAL(|| *q == 'p' || *q == 'P')) {
#ifdef STB__CLEX_use_stdlib
lexer->real_number = strtod((char *) p, (char**) &q);
#else
lexer->real_number = stb__clex_parse_float(p, &q);
#endif
if (p == q)
return stb__clex_token(lexer, CLEX_parse_error, p,q);
return stb__clex_parse_suffixes(lexer, CLEX_floatlit, p,q, STB_C_LEX_FLOAT_SUFFIXES);
}
}
#endif // STB__CLEX_hex_floats
#ifdef STB__clex_hex_ints
#ifdef STB__CLEX_use_stdlib
lexer->int_number = strtol((char *) p, (char **) &q, 16);
#else
{
stb__clex_int n=0;
for (q=p+2; q != lexer->eof; ++q) {
if (*q >= '0' && *q <= '9')
n = n*16 + (*q - '0');
else if (*q >= 'a' && *q <= 'f')
n = n*16 + (*q - 'a') + 10;
else if (*q >= 'A' && *q <= 'F')
n = n*16 + (*q - 'A') + 10;
else
break;
}
lexer->int_number = n;
}
#endif
if (q == p+2)
return stb__clex_token(lexer, CLEX_parse_error, p-2,p-1);
return stb__clex_parse_suffixes(lexer, CLEX_intlit, p,q, STB_C_LEX_HEX_SUFFIXES);
#endif
}
}
#endif // defined(STB__clex_hex_ints) || defined(STB__clex_hex_floats)
// can't test for octal because we might parse '0.0' as float or as '0' '.' '0',
// so have to do float first
/* FALL THROUGH */
case '1': case '2': case '3': case '4': case '5': case '6': case '7': case '8': case '9':
#ifdef STB__clex_decimal_floats
{
char *q = p;
while (q != lexer->eof && (*q >= '0' && *q <= '9'))
++q;
if (q != lexer->eof) {
if (*q == '.' STB_C_LEX_FLOAT_NO_DECIMAL(|| *q == 'e' || *q == 'E')) {
#ifdef STB__CLEX_use_stdlib
lexer->real_number = strtod((char *) p, (char**) &q);
#else
lexer->real_number = stb__clex_parse_float(p, &q);
#endif
return stb__clex_parse_suffixes(lexer, CLEX_floatlit, p,q, STB_C_LEX_FLOAT_SUFFIXES);
}
}
}
#endif // STB__clex_decimal_floats
#ifdef STB__clex_octal_ints
if (p[0] == '0') {
char *q = p;
#ifdef STB__CLEX_use_stdlib
lexer->int_number = strtol((char *) p, (char **) &q, 8);
#else
stb__clex_int n=0;
while (q != lexer->eof) {
if (*q >= '0' && *q <= '7')
n = n*8 + (*q - '0');
else
break;
++q;
}
if (q != lexer->eof && (*q == '8' || *q=='9'))
return stb__clex_token(lexer, CLEX_parse_error, p, q);
lexer->int_number = n;
#endif
return stb__clex_parse_suffixes(lexer, CLEX_intlit, p,q, STB_C_LEX_OCTAL_SUFFIXES);
}
#endif // STB__clex_octal_ints
#ifdef STB__clex_decimal_ints
{
char *q = p;
#ifdef STB__CLEX_use_stdlib
lexer->int_number = strtol((char *) p, (char **) &q, 10);
#else
stb__clex_int n=0;
while (q != lexer->eof) {
if (*q >= '0' && *q <= '9')
n = n*10 + (*q - '0');
else
break;
++q;
}
lexer->int_number = n;
#endif
return stb__clex_parse_suffixes(lexer, CLEX_intlit, p,q, STB_C_LEX_OCTAL_SUFFIXES);
}
#endif // STB__clex_decimal_ints
goto single_char;
}
}
#endif // STB_C_LEXER_IMPLEMENTATION
#ifdef STB_C_LEXER_SELF_TEST
#define _CRT_SECURE_NO_WARNINGS
#include <stdio.h>
#include <stdlib.h>
static void print_token(stb_lexer *lexer)
{
switch (lexer->token) {
case CLEX_id : printf("_%s", lexer->string); break;
case CLEX_eq : printf("=="); break;
case CLEX_noteq : printf("!="); break;
case CLEX_lesseq : printf("<="); break;
case CLEX_greatereq : printf(">="); break;
case CLEX_andand : printf("&&"); break;
case CLEX_oror : printf("||"); break;
case CLEX_shl : printf("<<"); break;
case CLEX_shr : printf(">>"); break;
case CLEX_plusplus : printf("++"); break;
case CLEX_minusminus: printf("--"); break;
case CLEX_arrow : printf("->"); break;
case CLEX_andeq : printf("&="); break;
case CLEX_oreq : printf("|="); break;
case CLEX_xoreq : printf("^="); break;
case CLEX_pluseq : printf("+="); break;
case CLEX_minuseq : printf("-="); break;
case CLEX_muleq : printf("*="); break;
case CLEX_diveq : printf("/="); break;
case CLEX_modeq : printf("%%="); break;
case CLEX_shleq : printf("<<="); break;
case CLEX_shreq : printf(">>="); break;
case CLEX_eqarrow : printf("=>"); break;
case CLEX_dqstring : printf("\"%s\"", lexer->string); break;
case CLEX_sqstring : printf("'\"%s\"'", lexer->string); break;
case CLEX_charlit : printf("'%s'", lexer->string); break;
#if defined(STB__clex_int_as_double) && !defined(STB__CLEX_use_stdlib)
case CLEX_intlit : printf("#%g", lexer->real_number); break;
#else
case CLEX_intlit : printf("#%ld", lexer->int_number); break;
#endif
case CLEX_floatlit : printf("%g", lexer->real_number); break;
default:
if (lexer->token >= 0 && lexer->token < 256)
printf("%c", (int) lexer->token);
else {
printf("<<<UNKNOWN TOKEN %ld >>>\n", lexer->token);
}
break;
}
}
/* Force a test
of parsing
multiline comments */
/*/ comment /*/
/**/ extern /**/
void dummy(void)
{
double some_floats[] = {
1.0501, -10.4e12, 5E+10,
#if 0 // not supported in C++ or C-pre-99, so don't try to compile it, but let our parser test it
0x1.0p+24, 0xff.FP-8, 0x1p-23,
#endif
4.
};
(void) sizeof(some_floats);
(void) some_floats[1];
printf("test %d",1); // https://github.com/nothings/stb/issues/13
}
int main(int argc, char **argv)
{
FILE *f = fopen("stb_c_lexer.h","rb");
char *text = (char *) malloc(1 << 20);
int len = f ? (int) fread(text, 1, 1<<20, f) : -1;
stb_lexer lex;
if (len < 0) {
fprintf(stderr, "Error opening file\n");
free(text);
fclose(f);
return 1;
}
fclose(f);
stb_c_lexer_init(&lex, text, text+len, (char *) malloc(0x10000), 0x10000);
while (stb_c_lexer_get_token(&lex)) {
if (lex.token == CLEX_parse_error) {
printf("\n<<<PARSE ERROR>>>\n");
break;
}
print_token(&lex);
printf(" ");
}
return 0;
}
#endif
/*
------------------------------------------------------------------------------
This software is available under 2 licenses -- choose whichever you prefer.
------------------------------------------------------------------------------
ALTERNATIVE A - MIT License
Copyright (c) 2017 Sean Barrett
Permission is hereby granted, free of charge, to any person obtaining a copy of
this software and associated documentation files (the "Software"), to deal in
the Software without restriction, including without limitation the rights to
use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies
of the Software, and to permit persons to whom the Software is furnished to do
so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all
copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
SOFTWARE.
------------------------------------------------------------------------------
ALTERNATIVE B - Public Domain (www.unlicense.org)
This is free and unencumbered software released into the public domain.
Anyone is free to copy, modify, publish, use, compile, sell, or distribute this
software, either in source code form or as a compiled binary, for any purpose,
commercial or non-commercial, and by any means.
In jurisdictions that recognize copyright laws, the author or authors of this
software dedicate any and all copyright interest in the software to the public
domain. We make this dedication for the benefit of the public at large and to
the detriment of our heirs and successors. We intend this dedication to be an
overt act of relinquishment in perpetuity of all present and future rights to
this software under copyright law.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN
ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION
WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
------------------------------------------------------------------------------
*/

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433
external/stb/stb/stb_divide.h vendored Normal file
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@ -0,0 +1,433 @@
// stb_divide.h - v0.94 - public domain - Sean Barrett, Feb 2010
// Three kinds of divide/modulus of signed integers.
//
// HISTORY
//
// v0.94 Fix integer overflow issues
// v0.93 2020-02-02 Write useful exit() value from main()
// v0.92 2019-02-25 Fix warning
// v0.91 2010-02-27 Fix euclidean division by INT_MIN for non-truncating C
// Check result with 64-bit math to catch such cases
// v0.90 2010-02-24 First public release
//
// USAGE
//
// In *ONE* source file, put:
//
// #define STB_DIVIDE_IMPLEMENTATION
// // #define C_INTEGER_DIVISION_TRUNCATES // see Note 1
// // #define C_INTEGER_DIVISION_FLOORS // see Note 2
// #include "stb_divide.h"
//
// Other source files should just include stb_divide.h
//
// Note 1: On platforms/compilers that you know signed C division
// truncates, you can #define C_INTEGER_DIVISION_TRUNCATES.
//
// Note 2: On platforms/compilers that you know signed C division
// floors (rounds to negative infinity), you can #define
// C_INTEGER_DIVISION_FLOORS.
//
// You can #define STB_DIVIDE_TEST in which case the implementation
// will generate a main() and compiling the result will create a
// program that tests the implementation. Run it with no arguments
// and any output indicates an error; run it with any argument and
// it will also print the test results. Define STB_DIVIDE_TEST_64
// to a 64-bit integer type to avoid overflows in the result-checking
// which give false negatives.
//
// ABOUT
//
// This file provides three different consistent divide/mod pairs
// implemented on top of arbitrary C/C++ division, including correct
// handling of overflow of intermediate calculations:
//
// trunc: a/b truncates to 0, a%b has same sign as a
// floor: a/b truncates to -inf, a%b has same sign as b
// eucl: a/b truncates to sign(b)*inf, a%b is non-negative
//
// Not necessarily optimal; I tried to keep it generally efficient,
// but there may be better ways.
//
// Briefly, for those who are not familiar with the problem, we note
// the reason these divides exist and are interesting:
//
// 'trunc' is easy to implement in hardware (strip the signs,
// compute, reapply the signs), thus is commonly defined
// by many languages (including C99)
//
// 'floor' is simple to define and better behaved than trunc;
// for example it divides integers into fixed-size buckets
// without an extra-wide bucket at 0, and for a fixed
// divisor N there are only |N| possible moduli.
//
// 'eucl' guarantees fixed-sized buckets *and* a non-negative
// modulus and defines division to be whatever is needed
// to achieve that result.
//
// See "The Euclidean definition of the functions div and mod"
// by Raymond Boute (1992), or "Division and Modulus for Computer
// Scientists" by Daan Leijen (2001)
//
// We assume of the built-in C division:
// (a) modulus is the remainder for the corresponding division
// (b) a/b truncates if a and b are the same sign
//
// Property (a) requires (a/b)*b + (a%b)==a, and is required by C.
// Property (b) seems to be true of all hardware but is *not* satisfied
// by the euclidean division operator we define, so it's possibly not
// always true. If any such platform turns up, we can add more cases.
// (Possibly only stb_div_trunc currently relies on property (b).)
//
// LICENSE
//
// See end of file for license information.
#ifndef INCLUDE_STB_DIVIDE_H
#define INCLUDE_STB_DIVIDE_H
#ifdef __cplusplus
extern "C" {
#endif
extern int stb_div_trunc(int value_to_be_divided, int value_to_divide_by);
extern int stb_div_floor(int value_to_be_divided, int value_to_divide_by);
extern int stb_div_eucl (int value_to_be_divided, int value_to_divide_by);
extern int stb_mod_trunc(int value_to_be_divided, int value_to_divide_by);
extern int stb_mod_floor(int value_to_be_divided, int value_to_divide_by);
extern int stb_mod_eucl (int value_to_be_divided, int value_to_divide_by);
#ifdef __cplusplus
}
#endif
#ifdef STB_DIVIDE_IMPLEMENTATION
#if defined(__STDC_VERSION) && __STDC_VERSION__ >= 19901
#ifndef C_INTEGER_DIVISION_TRUNCATES
#define C_INTEGER_DIVISION_TRUNCATES
#endif
#endif
#ifndef INT_MIN
#include <limits.h> // if you have no limits.h, #define INT_MIN yourself
#endif
// the following macros are designed to allow testing
// other platforms by simulating them
#ifndef STB_DIVIDE_TEST_FLOOR
#define stb__div(a,b) ((a)/(b))
#define stb__mod(a,b) ((a)%(b))
#else
// implement floor-style divide on trunc platform
#ifndef C_INTEGER_DIVISION_TRUNCATES
#error "floor test requires truncating division"
#endif
#undef C_INTEGER_DIVISION_TRUNCATES
int stb__div(int v1, int v2)
{
int q = v1/v2, r = v1%v2;
if ((r > 0 && v2 < 0) || (r < 0 && v2 > 0))
return q-1;
else
return q;
}
int stb__mod(int v1, int v2)
{
int r = v1%v2;
if ((r > 0 && v2 < 0) || (r < 0 && v2 > 0))
return r+v2;
else
return r;
}
#endif
int stb_div_trunc(int v1, int v2)
{
#ifdef C_INTEGER_DIVISION_TRUNCATES
return v1/v2;
#else
if (v1 >= 0 && v2 <= 0)
return -stb__div(-v1,v2); // both negative to avoid overflow
if (v1 <= 0 && v2 >= 0)
if (v1 != INT_MIN)
return -stb__div(v1,-v2); // both negative to avoid overflow
else
return -stb__div(v1+v2,-v2)-1; // push v1 away from wrap point
else
return v1/v2; // same sign, so expect truncation
#endif
}
int stb_div_floor(int v1, int v2)
{
#ifdef C_INTEGER_DIVISION_FLOORS
return v1/v2;
#else
if (v1 >= 0 && v2 < 0) {
if (v2 + 1 >= INT_MIN + v1) // check if increasing v1's magnitude overflows
return -stb__div((v2+1)-v1,v2); // nope, so just compute it
else
return -stb__div(-v1,v2) + ((-v1)%v2 ? -1 : 0);
}
if (v1 < 0 && v2 >= 0) {
if (v1 != INT_MIN) {
if (v1 + 1 >= INT_MIN + v2) // check if increasing v1's magnitude overflows
return -stb__div((v1+1)-v2,-v2); // nope, so just compute it
else
return -stb__div(-v1,v2) + (stb__mod(v1,-v2) ? -1 : 0);
} else // it must be possible to compute -(v1+v2) without overflowing
return -stb__div(-(v1+v2),v2) + (stb__mod(-(v1+v2),v2) ? -2 : -1);
} else
return v1/v2; // same sign, so expect truncation
#endif
}
int stb_div_eucl(int v1, int v2)
{
int q,r;
#ifdef C_INTEGER_DIVISION_TRUNCATES
q = v1/v2;
r = v1%v2;
#else
// handle every quadrant separately, since we can't rely on q and r flor
if (v1 >= 0)
if (v2 >= 0)
return stb__div(v1,v2);
else if (v2 != INT_MIN)
q = -stb__div(v1,-v2), r = stb__mod(v1,-v2);
else
q = 0, r = v1;
else if (v1 != INT_MIN)
if (v2 >= 0)
q = -stb__div(-v1,v2), r = -stb__mod(-v1,v2);
else if (v2 != INT_MIN)
q = stb__div(-v1,-v2), r = -stb__mod(-v1,-v2);
else // if v2 is INT_MIN, then we can't use -v2, but we can't divide by v2
q = 1, r = v1-q*v2;
else // if v1 is INT_MIN, we have to move away from overflow place
if (v2 >= 0)
q = -stb__div(-(v1+v2),v2)-1, r = -stb__mod(-(v1+v2),v2);
else if (v2 != INT_MIN)
q = stb__div(-(v1-v2),-v2)+1, r = -stb__mod(-(v1-v2),-v2);
else // for INT_MIN / INT_MIN, we need to be extra-careful to avoid overflow
q = 1, r = 0;
#endif
if (r >= 0)
return q;
else
return q + (v2 > 0 ? -1 : 1);
}
int stb_mod_trunc(int v1, int v2)
{
#ifdef C_INTEGER_DIVISION_TRUNCATES
return v1%v2;
#else
if (v1 >= 0) { // modulus result should always be positive
int r = stb__mod(v1,v2);
if (r >= 0)
return r;
else
return r - (v2 < 0 ? v2 : -v2);
} else { // modulus result should always be negative
int r = stb__mod(v1,v2);
if (r <= 0)
return r;
else
return r + (v2 < 0 ? v2 : -v2);
}
#endif
}
int stb_mod_floor(int v1, int v2)
{
#ifdef C_INTEGER_DIVISION_FLOORS
return v1%v2;
#else
if (v2 >= 0) { // result should always be positive
int r = stb__mod(v1,v2);
if (r >= 0)
return r;
else
return r + v2;
} else { // result should always be negative
int r = stb__mod(v1,v2);
if (r <= 0)
return r;
else
return r + v2;
}
#endif
}
int stb_mod_eucl(int v1, int v2)
{
int r = stb__mod(v1,v2);
if (r >= 0)
return r;
else
return r - (v2 < 0 ? v2 : -v2); // negative abs() [to avoid overflow]
}
#ifdef STB_DIVIDE_TEST
#include <stdio.h>
#include <math.h>
#include <limits.h>
int show=0;
int err=0;
void stbdiv_check(int q, int r, int a, int b, char *type, int dir)
{
if ((dir > 0 && r < 0) || (dir < 0 && r > 0)) {
fprintf(stderr, "FAILED: %s(%d,%d) remainder %d in wrong direction\n", type,a,b,r);
err++;
} else
if (b != INT_MIN) // can't compute abs(), but if b==INT_MIN all remainders are valid
if (r <= -abs(b) || r >= abs(b)) {
fprintf(stderr, "FAILED: %s(%d,%d) remainder %d out of range\n", type,a,b,r);
err++;
}
#ifdef STB_DIVIDE_TEST_64
{
STB_DIVIDE_TEST_64 q64 = q, r64=r, a64=a, b64=b;
if (q64*b64+r64 != a64) {
fprintf(stderr, "FAILED: %s(%d,%d) remainder %d doesn't match quotient %d\n", type,a,b,r,q);
err++;
}
}
#else
if (q*b+r != a) {
fprintf(stderr, "FAILED: %s(%d,%d) remainder %d doesn't match quotient %d\n", type,a,b,r,q);
err++;
}
#endif
}
void test(int a, int b)
{
int q,r;
if (show) printf("(%+11d,%+d) | ", a,b);
q = stb_div_trunc(a,b), r = stb_mod_trunc(a,b);
if (show) printf("(%+11d,%+2d) ", q,r); stbdiv_check(q,r,a,b, "trunc",a);
q = stb_div_floor(a,b), r = stb_mod_floor(a,b);
if (show) printf("(%+11d,%+2d) ", q,r); stbdiv_check(q,r,a,b, "floor",b);
q = stb_div_eucl (a,b), r = stb_mod_eucl (a,b);
if (show) printf("(%+11d,%+2d)\n", q,r); stbdiv_check(q,r,a,b, "euclidean",1);
}
void testh(int a, int b)
{
int q,r;
if (show) printf("(%08x,%08x) |\n", a,b);
q = stb_div_trunc(a,b), r = stb_mod_trunc(a,b); stbdiv_check(q,r,a,b, "trunc",a);
if (show) printf(" (%08x,%08x)", q,r);
q = stb_div_floor(a,b), r = stb_mod_floor(a,b); stbdiv_check(q,r,a,b, "floor",b);
if (show) printf(" (%08x,%08x)", q,r);
q = stb_div_eucl (a,b), r = stb_mod_eucl (a,b); stbdiv_check(q,r,a,b, "euclidean",1);
if (show) printf(" (%08x,%08x)\n ", q,r);
}
int main(int argc, char **argv)
{
if (argc > 1) show=1;
test(8,3);
test(8,-3);
test(-8,3);
test(-8,-3);
test(1,2);
test(1,-2);
test(-1,2);
test(-1,-2);
test(8,4);
test(8,-4);
test(-8,4);
test(-8,-4);
test(INT_MAX,1);
test(INT_MIN,1);
test(INT_MIN+1,1);
test(INT_MAX,-1);
//test(INT_MIN,-1); // this traps in MSVC, so we leave it untested
test(INT_MIN+1,-1);
test(INT_MIN,-2);
test(INT_MIN+1,2);
test(INT_MIN+1,-2);
test(INT_MAX,2);
test(INT_MAX,-2);
test(INT_MIN+1,2);
test(INT_MIN+1,-2);
test(INT_MIN,2);
test(INT_MIN,-2);
test(INT_MIN,7);
test(INT_MIN,-7);
test(INT_MIN+1,4);
test(INT_MIN+1,-4);
testh(-7, INT_MIN);
testh(-1, INT_MIN);
testh(1, INT_MIN);
testh(7, INT_MIN);
testh(INT_MAX-1, INT_MIN);
testh(INT_MAX, INT_MIN);
testh(INT_MIN, INT_MIN);
testh(INT_MIN+1, INT_MIN);
testh(INT_MAX-1, INT_MAX);
testh(INT_MAX , INT_MAX);
testh(INT_MIN , INT_MAX);
testh(INT_MIN+1, INT_MAX);
return err > 0 ? 1 : 0;
}
#endif // STB_DIVIDE_TEST
#endif // STB_DIVIDE_IMPLEMENTATION
#endif // INCLUDE_STB_DIVIDE_H
/*
------------------------------------------------------------------------------
This software is available under 2 licenses -- choose whichever you prefer.
------------------------------------------------------------------------------
ALTERNATIVE A - MIT License
Copyright (c) 2017 Sean Barrett
Permission is hereby granted, free of charge, to any person obtaining a copy of
this software and associated documentation files (the "Software"), to deal in
the Software without restriction, including without limitation the rights to
use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies
of the Software, and to permit persons to whom the Software is furnished to do
so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all
copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
SOFTWARE.
------------------------------------------------------------------------------
ALTERNATIVE B - Public Domain (www.unlicense.org)
This is free and unencumbered software released into the public domain.
Anyone is free to copy, modify, publish, use, compile, sell, or distribute this
software, either in source code form or as a compiled binary, for any purpose,
commercial or non-commercial, and by any means.
In jurisdictions that recognize copyright laws, the author or authors of this
software dedicate any and all copyright interest in the software to the public
domain. We make this dedication for the benefit of the public at large and to
the detriment of our heirs and successors. We intend this dedication to be an
overt act of relinquishment in perpetuity of all present and future rights to
this software under copyright law.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN
ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION
WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
------------------------------------------------------------------------------
*/

1895
external/stb/stb/stb_ds.h vendored Normal file

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// stb_dxt.h - v1.12 - DXT1/DXT5 compressor - public domain
// original by fabian "ryg" giesen - ported to C by stb
// use '#define STB_DXT_IMPLEMENTATION' before including to create the implementation
//
// USAGE:
// call stb_compress_dxt_block() for every block (you must pad)
// source should be a 4x4 block of RGBA data in row-major order;
// Alpha channel is not stored if you specify alpha=0 (but you
// must supply some constant alpha in the alpha channel).
// You can turn on dithering and "high quality" using mode.
//
// version history:
// v1.12 - (ryg) fix bug in single-color table generator
// v1.11 - (ryg) avoid racy global init, better single-color tables, remove dither
// v1.10 - (i.c) various small quality improvements
// v1.09 - (stb) update documentation re: surprising alpha channel requirement
// v1.08 - (stb) fix bug in dxt-with-alpha block
// v1.07 - (stb) bc4; allow not using libc; add STB_DXT_STATIC
// v1.06 - (stb) fix to known-broken 1.05
// v1.05 - (stb) support bc5/3dc (Arvids Kokins), use extern "C" in C++ (Pavel Krajcevski)
// v1.04 - (ryg) default to no rounding bias for lerped colors (as per S3TC/DX10 spec);
// single color match fix (allow for inexact color interpolation);
// optimal DXT5 index finder; "high quality" mode that runs multiple refinement steps.
// v1.03 - (stb) endianness support
// v1.02 - (stb) fix alpha encoding bug
// v1.01 - (stb) fix bug converting to RGB that messed up quality, thanks ryg & cbloom
// v1.00 - (stb) first release
//
// contributors:
// Rich Geldreich (more accurate index selection)
// Kevin Schmidt (#defines for "freestanding" compilation)
// github:ppiastucki (BC4 support)
// Ignacio Castano - improve DXT endpoint quantization
// Alan Hickman - static table initialization
//
// LICENSE
//
// See end of file for license information.
#ifndef STB_INCLUDE_STB_DXT_H
#define STB_INCLUDE_STB_DXT_H
#ifdef __cplusplus
extern "C" {
#endif
#ifdef STB_DXT_STATIC
#define STBDDEF static
#else
#define STBDDEF extern
#endif
// compression mode (bitflags)
#define STB_DXT_NORMAL 0
#define STB_DXT_DITHER 1 // use dithering. was always dubious, now deprecated. does nothing!
#define STB_DXT_HIGHQUAL 2 // high quality mode, does two refinement steps instead of 1. ~30-40% slower.
STBDDEF void stb_compress_dxt_block(unsigned char *dest, const unsigned char *src_rgba_four_bytes_per_pixel, int alpha, int mode);
STBDDEF void stb_compress_bc4_block(unsigned char *dest, const unsigned char *src_r_one_byte_per_pixel);
STBDDEF void stb_compress_bc5_block(unsigned char *dest, const unsigned char *src_rg_two_byte_per_pixel);
#define STB_COMPRESS_DXT_BLOCK
#ifdef __cplusplus
}
#endif
#endif // STB_INCLUDE_STB_DXT_H
#ifdef STB_DXT_IMPLEMENTATION
// configuration options for DXT encoder. set them in the project/makefile or just define
// them at the top.
// STB_DXT_USE_ROUNDING_BIAS
// use a rounding bias during color interpolation. this is closer to what "ideal"
// interpolation would do but doesn't match the S3TC/DX10 spec. old versions (pre-1.03)
// implicitly had this turned on.
//
// in case you're targeting a specific type of hardware (e.g. console programmers):
// NVidia and Intel GPUs (as of 2010) as well as DX9 ref use DXT decoders that are closer
// to STB_DXT_USE_ROUNDING_BIAS. AMD/ATI, S3 and DX10 ref are closer to rounding with no bias.
// you also see "(a*5 + b*3) / 8" on some old GPU designs.
// #define STB_DXT_USE_ROUNDING_BIAS
#include <stdlib.h>
#if !defined(STBD_FABS)
#include <math.h>
#endif
#ifndef STBD_FABS
#define STBD_FABS(x) fabs(x)
#endif
static const unsigned char stb__OMatch5[256][2] = {
{ 0, 0 }, { 0, 0 }, { 0, 1 }, { 0, 1 }, { 1, 0 }, { 1, 0 }, { 1, 0 }, { 1, 1 },
{ 1, 1 }, { 1, 1 }, { 1, 2 }, { 0, 4 }, { 2, 1 }, { 2, 1 }, { 2, 1 }, { 2, 2 },
{ 2, 2 }, { 2, 2 }, { 2, 3 }, { 1, 5 }, { 3, 2 }, { 3, 2 }, { 4, 0 }, { 3, 3 },
{ 3, 3 }, { 3, 3 }, { 3, 4 }, { 3, 4 }, { 3, 4 }, { 3, 5 }, { 4, 3 }, { 4, 3 },
{ 5, 2 }, { 4, 4 }, { 4, 4 }, { 4, 5 }, { 4, 5 }, { 5, 4 }, { 5, 4 }, { 5, 4 },
{ 6, 3 }, { 5, 5 }, { 5, 5 }, { 5, 6 }, { 4, 8 }, { 6, 5 }, { 6, 5 }, { 6, 5 },
{ 6, 6 }, { 6, 6 }, { 6, 6 }, { 6, 7 }, { 5, 9 }, { 7, 6 }, { 7, 6 }, { 8, 4 },
{ 7, 7 }, { 7, 7 }, { 7, 7 }, { 7, 8 }, { 7, 8 }, { 7, 8 }, { 7, 9 }, { 8, 7 },
{ 8, 7 }, { 9, 6 }, { 8, 8 }, { 8, 8 }, { 8, 9 }, { 8, 9 }, { 9, 8 }, { 9, 8 },
{ 9, 8 }, { 10, 7 }, { 9, 9 }, { 9, 9 }, { 9, 10 }, { 8, 12 }, { 10, 9 }, { 10, 9 },
{ 10, 9 }, { 10, 10 }, { 10, 10 }, { 10, 10 }, { 10, 11 }, { 9, 13 }, { 11, 10 }, { 11, 10 },
{ 12, 8 }, { 11, 11 }, { 11, 11 }, { 11, 11 }, { 11, 12 }, { 11, 12 }, { 11, 12 }, { 11, 13 },
{ 12, 11 }, { 12, 11 }, { 13, 10 }, { 12, 12 }, { 12, 12 }, { 12, 13 }, { 12, 13 }, { 13, 12 },
{ 13, 12 }, { 13, 12 }, { 14, 11 }, { 13, 13 }, { 13, 13 }, { 13, 14 }, { 12, 16 }, { 14, 13 },
{ 14, 13 }, { 14, 13 }, { 14, 14 }, { 14, 14 }, { 14, 14 }, { 14, 15 }, { 13, 17 }, { 15, 14 },
{ 15, 14 }, { 16, 12 }, { 15, 15 }, { 15, 15 }, { 15, 15 }, { 15, 16 }, { 15, 16 }, { 15, 16 },
{ 15, 17 }, { 16, 15 }, { 16, 15 }, { 17, 14 }, { 16, 16 }, { 16, 16 }, { 16, 17 }, { 16, 17 },
{ 17, 16 }, { 17, 16 }, { 17, 16 }, { 18, 15 }, { 17, 17 }, { 17, 17 }, { 17, 18 }, { 16, 20 },
{ 18, 17 }, { 18, 17 }, { 18, 17 }, { 18, 18 }, { 18, 18 }, { 18, 18 }, { 18, 19 }, { 17, 21 },
{ 19, 18 }, { 19, 18 }, { 20, 16 }, { 19, 19 }, { 19, 19 }, { 19, 19 }, { 19, 20 }, { 19, 20 },
{ 19, 20 }, { 19, 21 }, { 20, 19 }, { 20, 19 }, { 21, 18 }, { 20, 20 }, { 20, 20 }, { 20, 21 },
{ 20, 21 }, { 21, 20 }, { 21, 20 }, { 21, 20 }, { 22, 19 }, { 21, 21 }, { 21, 21 }, { 21, 22 },
{ 20, 24 }, { 22, 21 }, { 22, 21 }, { 22, 21 }, { 22, 22 }, { 22, 22 }, { 22, 22 }, { 22, 23 },
{ 21, 25 }, { 23, 22 }, { 23, 22 }, { 24, 20 }, { 23, 23 }, { 23, 23 }, { 23, 23 }, { 23, 24 },
{ 23, 24 }, { 23, 24 }, { 23, 25 }, { 24, 23 }, { 24, 23 }, { 25, 22 }, { 24, 24 }, { 24, 24 },
{ 24, 25 }, { 24, 25 }, { 25, 24 }, { 25, 24 }, { 25, 24 }, { 26, 23 }, { 25, 25 }, { 25, 25 },
{ 25, 26 }, { 24, 28 }, { 26, 25 }, { 26, 25 }, { 26, 25 }, { 26, 26 }, { 26, 26 }, { 26, 26 },
{ 26, 27 }, { 25, 29 }, { 27, 26 }, { 27, 26 }, { 28, 24 }, { 27, 27 }, { 27, 27 }, { 27, 27 },
{ 27, 28 }, { 27, 28 }, { 27, 28 }, { 27, 29 }, { 28, 27 }, { 28, 27 }, { 29, 26 }, { 28, 28 },
{ 28, 28 }, { 28, 29 }, { 28, 29 }, { 29, 28 }, { 29, 28 }, { 29, 28 }, { 30, 27 }, { 29, 29 },
{ 29, 29 }, { 29, 30 }, { 29, 30 }, { 30, 29 }, { 30, 29 }, { 30, 29 }, { 30, 30 }, { 30, 30 },
{ 30, 30 }, { 30, 31 }, { 30, 31 }, { 31, 30 }, { 31, 30 }, { 31, 30 }, { 31, 31 }, { 31, 31 },
};
static const unsigned char stb__OMatch6[256][2] = {
{ 0, 0 }, { 0, 1 }, { 1, 0 }, { 1, 1 }, { 1, 1 }, { 1, 2 }, { 2, 1 }, { 2, 2 },
{ 2, 2 }, { 2, 3 }, { 3, 2 }, { 3, 3 }, { 3, 3 }, { 3, 4 }, { 4, 3 }, { 4, 4 },
{ 4, 4 }, { 4, 5 }, { 5, 4 }, { 5, 5 }, { 5, 5 }, { 5, 6 }, { 6, 5 }, { 6, 6 },
{ 6, 6 }, { 6, 7 }, { 7, 6 }, { 7, 7 }, { 7, 7 }, { 7, 8 }, { 8, 7 }, { 8, 8 },
{ 8, 8 }, { 8, 9 }, { 9, 8 }, { 9, 9 }, { 9, 9 }, { 9, 10 }, { 10, 9 }, { 10, 10 },
{ 10, 10 }, { 10, 11 }, { 11, 10 }, { 8, 16 }, { 11, 11 }, { 11, 12 }, { 12, 11 }, { 9, 17 },
{ 12, 12 }, { 12, 13 }, { 13, 12 }, { 11, 16 }, { 13, 13 }, { 13, 14 }, { 14, 13 }, { 12, 17 },
{ 14, 14 }, { 14, 15 }, { 15, 14 }, { 14, 16 }, { 15, 15 }, { 15, 16 }, { 16, 14 }, { 16, 15 },
{ 17, 14 }, { 16, 16 }, { 16, 17 }, { 17, 16 }, { 18, 15 }, { 17, 17 }, { 17, 18 }, { 18, 17 },
{ 20, 14 }, { 18, 18 }, { 18, 19 }, { 19, 18 }, { 21, 15 }, { 19, 19 }, { 19, 20 }, { 20, 19 },
{ 20, 20 }, { 20, 20 }, { 20, 21 }, { 21, 20 }, { 21, 21 }, { 21, 21 }, { 21, 22 }, { 22, 21 },
{ 22, 22 }, { 22, 22 }, { 22, 23 }, { 23, 22 }, { 23, 23 }, { 23, 23 }, { 23, 24 }, { 24, 23 },
{ 24, 24 }, { 24, 24 }, { 24, 25 }, { 25, 24 }, { 25, 25 }, { 25, 25 }, { 25, 26 }, { 26, 25 },
{ 26, 26 }, { 26, 26 }, { 26, 27 }, { 27, 26 }, { 24, 32 }, { 27, 27 }, { 27, 28 }, { 28, 27 },
{ 25, 33 }, { 28, 28 }, { 28, 29 }, { 29, 28 }, { 27, 32 }, { 29, 29 }, { 29, 30 }, { 30, 29 },
{ 28, 33 }, { 30, 30 }, { 30, 31 }, { 31, 30 }, { 30, 32 }, { 31, 31 }, { 31, 32 }, { 32, 30 },
{ 32, 31 }, { 33, 30 }, { 32, 32 }, { 32, 33 }, { 33, 32 }, { 34, 31 }, { 33, 33 }, { 33, 34 },
{ 34, 33 }, { 36, 30 }, { 34, 34 }, { 34, 35 }, { 35, 34 }, { 37, 31 }, { 35, 35 }, { 35, 36 },
{ 36, 35 }, { 36, 36 }, { 36, 36 }, { 36, 37 }, { 37, 36 }, { 37, 37 }, { 37, 37 }, { 37, 38 },
{ 38, 37 }, { 38, 38 }, { 38, 38 }, { 38, 39 }, { 39, 38 }, { 39, 39 }, { 39, 39 }, { 39, 40 },
{ 40, 39 }, { 40, 40 }, { 40, 40 }, { 40, 41 }, { 41, 40 }, { 41, 41 }, { 41, 41 }, { 41, 42 },
{ 42, 41 }, { 42, 42 }, { 42, 42 }, { 42, 43 }, { 43, 42 }, { 40, 48 }, { 43, 43 }, { 43, 44 },
{ 44, 43 }, { 41, 49 }, { 44, 44 }, { 44, 45 }, { 45, 44 }, { 43, 48 }, { 45, 45 }, { 45, 46 },
{ 46, 45 }, { 44, 49 }, { 46, 46 }, { 46, 47 }, { 47, 46 }, { 46, 48 }, { 47, 47 }, { 47, 48 },
{ 48, 46 }, { 48, 47 }, { 49, 46 }, { 48, 48 }, { 48, 49 }, { 49, 48 }, { 50, 47 }, { 49, 49 },
{ 49, 50 }, { 50, 49 }, { 52, 46 }, { 50, 50 }, { 50, 51 }, { 51, 50 }, { 53, 47 }, { 51, 51 },
{ 51, 52 }, { 52, 51 }, { 52, 52 }, { 52, 52 }, { 52, 53 }, { 53, 52 }, { 53, 53 }, { 53, 53 },
{ 53, 54 }, { 54, 53 }, { 54, 54 }, { 54, 54 }, { 54, 55 }, { 55, 54 }, { 55, 55 }, { 55, 55 },
{ 55, 56 }, { 56, 55 }, { 56, 56 }, { 56, 56 }, { 56, 57 }, { 57, 56 }, { 57, 57 }, { 57, 57 },
{ 57, 58 }, { 58, 57 }, { 58, 58 }, { 58, 58 }, { 58, 59 }, { 59, 58 }, { 59, 59 }, { 59, 59 },
{ 59, 60 }, { 60, 59 }, { 60, 60 }, { 60, 60 }, { 60, 61 }, { 61, 60 }, { 61, 61 }, { 61, 61 },
{ 61, 62 }, { 62, 61 }, { 62, 62 }, { 62, 62 }, { 62, 63 }, { 63, 62 }, { 63, 63 }, { 63, 63 },
};
static int stb__Mul8Bit(int a, int b)
{
int t = a*b + 128;
return (t + (t >> 8)) >> 8;
}
static void stb__From16Bit(unsigned char *out, unsigned short v)
{
int rv = (v & 0xf800) >> 11;
int gv = (v & 0x07e0) >> 5;
int bv = (v & 0x001f) >> 0;
// expand to 8 bits via bit replication
out[0] = (rv * 33) >> 2;
out[1] = (gv * 65) >> 4;
out[2] = (bv * 33) >> 2;
out[3] = 0;
}
static unsigned short stb__As16Bit(int r, int g, int b)
{
return (unsigned short)((stb__Mul8Bit(r,31) << 11) + (stb__Mul8Bit(g,63) << 5) + stb__Mul8Bit(b,31));
}
// linear interpolation at 1/3 point between a and b, using desired rounding type
static int stb__Lerp13(int a, int b)
{
#ifdef STB_DXT_USE_ROUNDING_BIAS
// with rounding bias
return a + stb__Mul8Bit(b-a, 0x55);
#else
// without rounding bias
// replace "/ 3" by "* 0xaaab) >> 17" if your compiler sucks or you really need every ounce of speed.
return (2*a + b) / 3;
#endif
}
// lerp RGB color
static void stb__Lerp13RGB(unsigned char *out, unsigned char *p1, unsigned char *p2)
{
out[0] = (unsigned char)stb__Lerp13(p1[0], p2[0]);
out[1] = (unsigned char)stb__Lerp13(p1[1], p2[1]);
out[2] = (unsigned char)stb__Lerp13(p1[2], p2[2]);
}
/****************************************************************************/
static void stb__EvalColors(unsigned char *color,unsigned short c0,unsigned short c1)
{
stb__From16Bit(color+ 0, c0);
stb__From16Bit(color+ 4, c1);
stb__Lerp13RGB(color+ 8, color+0, color+4);
stb__Lerp13RGB(color+12, color+4, color+0);
}
// The color matching function
static unsigned int stb__MatchColorsBlock(unsigned char *block, unsigned char *color)
{
unsigned int mask = 0;
int dirr = color[0*4+0] - color[1*4+0];
int dirg = color[0*4+1] - color[1*4+1];
int dirb = color[0*4+2] - color[1*4+2];
int dots[16];
int stops[4];
int i;
int c0Point, halfPoint, c3Point;
for(i=0;i<16;i++)
dots[i] = block[i*4+0]*dirr + block[i*4+1]*dirg + block[i*4+2]*dirb;
for(i=0;i<4;i++)
stops[i] = color[i*4+0]*dirr + color[i*4+1]*dirg + color[i*4+2]*dirb;
// think of the colors as arranged on a line; project point onto that line, then choose
// next color out of available ones. we compute the crossover points for "best color in top
// half"/"best in bottom half" and then the same inside that subinterval.
//
// relying on this 1d approximation isn't always optimal in terms of euclidean distance,
// but it's very close and a lot faster.
// http://cbloomrants.blogspot.com/2008/12/12-08-08-dxtc-summary.html
c0Point = (stops[1] + stops[3]);
halfPoint = (stops[3] + stops[2]);
c3Point = (stops[2] + stops[0]);
for (i=15;i>=0;i--) {
int dot = dots[i]*2;
mask <<= 2;
if(dot < halfPoint)
mask |= (dot < c0Point) ? 1 : 3;
else
mask |= (dot < c3Point) ? 2 : 0;
}
return mask;
}
// The color optimization function. (Clever code, part 1)
static void stb__OptimizeColorsBlock(unsigned char *block, unsigned short *pmax16, unsigned short *pmin16)
{
int mind,maxd;
unsigned char *minp, *maxp;
double magn;
int v_r,v_g,v_b;
static const int nIterPower = 4;
float covf[6],vfr,vfg,vfb;
// determine color distribution
int cov[6];
int mu[3],min[3],max[3];
int ch,i,iter;
for(ch=0;ch<3;ch++)
{
const unsigned char *bp = ((const unsigned char *) block) + ch;
int muv,minv,maxv;
muv = minv = maxv = bp[0];
for(i=4;i<64;i+=4)
{
muv += bp[i];
if (bp[i] < minv) minv = bp[i];
else if (bp[i] > maxv) maxv = bp[i];
}
mu[ch] = (muv + 8) >> 4;
min[ch] = minv;
max[ch] = maxv;
}
// determine covariance matrix
for (i=0;i<6;i++)
cov[i] = 0;
for (i=0;i<16;i++)
{
int r = block[i*4+0] - mu[0];
int g = block[i*4+1] - mu[1];
int b = block[i*4+2] - mu[2];
cov[0] += r*r;
cov[1] += r*g;
cov[2] += r*b;
cov[3] += g*g;
cov[4] += g*b;
cov[5] += b*b;
}
// convert covariance matrix to float, find principal axis via power iter
for(i=0;i<6;i++)
covf[i] = cov[i] / 255.0f;
vfr = (float) (max[0] - min[0]);
vfg = (float) (max[1] - min[1]);
vfb = (float) (max[2] - min[2]);
for(iter=0;iter<nIterPower;iter++)
{
float r = vfr*covf[0] + vfg*covf[1] + vfb*covf[2];
float g = vfr*covf[1] + vfg*covf[3] + vfb*covf[4];
float b = vfr*covf[2] + vfg*covf[4] + vfb*covf[5];
vfr = r;
vfg = g;
vfb = b;
}
magn = STBD_FABS(vfr);
if (STBD_FABS(vfg) > magn) magn = STBD_FABS(vfg);
if (STBD_FABS(vfb) > magn) magn = STBD_FABS(vfb);
if(magn < 4.0f) { // too small, default to luminance
v_r = 299; // JPEG YCbCr luma coefs, scaled by 1000.
v_g = 587;
v_b = 114;
} else {
magn = 512.0 / magn;
v_r = (int) (vfr * magn);
v_g = (int) (vfg * magn);
v_b = (int) (vfb * magn);
}
minp = maxp = block;
mind = maxd = block[0]*v_r + block[1]*v_g + block[2]*v_b;
// Pick colors at extreme points
for(i=1;i<16;i++)
{
int dot = block[i*4+0]*v_r + block[i*4+1]*v_g + block[i*4+2]*v_b;
if (dot < mind) {
mind = dot;
minp = block+i*4;
}
if (dot > maxd) {
maxd = dot;
maxp = block+i*4;
}
}
*pmax16 = stb__As16Bit(maxp[0],maxp[1],maxp[2]);
*pmin16 = stb__As16Bit(minp[0],minp[1],minp[2]);
}
static const float stb__midpoints5[32] = {
0.015686f, 0.047059f, 0.078431f, 0.111765f, 0.145098f, 0.176471f, 0.207843f, 0.241176f, 0.274510f, 0.305882f, 0.337255f, 0.370588f, 0.403922f, 0.435294f, 0.466667f, 0.5f,
0.533333f, 0.564706f, 0.596078f, 0.629412f, 0.662745f, 0.694118f, 0.725490f, 0.758824f, 0.792157f, 0.823529f, 0.854902f, 0.888235f, 0.921569f, 0.952941f, 0.984314f, 1.0f
};
static const float stb__midpoints6[64] = {
0.007843f, 0.023529f, 0.039216f, 0.054902f, 0.070588f, 0.086275f, 0.101961f, 0.117647f, 0.133333f, 0.149020f, 0.164706f, 0.180392f, 0.196078f, 0.211765f, 0.227451f, 0.245098f,
0.262745f, 0.278431f, 0.294118f, 0.309804f, 0.325490f, 0.341176f, 0.356863f, 0.372549f, 0.388235f, 0.403922f, 0.419608f, 0.435294f, 0.450980f, 0.466667f, 0.482353f, 0.500000f,
0.517647f, 0.533333f, 0.549020f, 0.564706f, 0.580392f, 0.596078f, 0.611765f, 0.627451f, 0.643137f, 0.658824f, 0.674510f, 0.690196f, 0.705882f, 0.721569f, 0.737255f, 0.754902f,
0.772549f, 0.788235f, 0.803922f, 0.819608f, 0.835294f, 0.850980f, 0.866667f, 0.882353f, 0.898039f, 0.913725f, 0.929412f, 0.945098f, 0.960784f, 0.976471f, 0.992157f, 1.0f
};
static unsigned short stb__Quantize5(float x)
{
unsigned short q;
x = x < 0 ? 0 : x > 1 ? 1 : x; // saturate
q = (unsigned short)(x * 31);
q += (x > stb__midpoints5[q]);
return q;
}
static unsigned short stb__Quantize6(float x)
{
unsigned short q;
x = x < 0 ? 0 : x > 1 ? 1 : x; // saturate
q = (unsigned short)(x * 63);
q += (x > stb__midpoints6[q]);
return q;
}
// The refinement function. (Clever code, part 2)
// Tries to optimize colors to suit block contents better.
// (By solving a least squares system via normal equations+Cramer's rule)
static int stb__RefineBlock(unsigned char *block, unsigned short *pmax16, unsigned short *pmin16, unsigned int mask)
{
static const int w1Tab[4] = { 3,0,2,1 };
static const int prods[4] = { 0x090000,0x000900,0x040102,0x010402 };
// ^some magic to save a lot of multiplies in the accumulating loop...
// (precomputed products of weights for least squares system, accumulated inside one 32-bit register)
float f;
unsigned short oldMin, oldMax, min16, max16;
int i, akku = 0, xx,xy,yy;
int At1_r,At1_g,At1_b;
int At2_r,At2_g,At2_b;
unsigned int cm = mask;
oldMin = *pmin16;
oldMax = *pmax16;
if((mask ^ (mask<<2)) < 4) // all pixels have the same index?
{
// yes, linear system would be singular; solve using optimal
// single-color match on average color
int r = 8, g = 8, b = 8;
for (i=0;i<16;++i) {
r += block[i*4+0];
g += block[i*4+1];
b += block[i*4+2];
}
r >>= 4; g >>= 4; b >>= 4;
max16 = (stb__OMatch5[r][0]<<11) | (stb__OMatch6[g][0]<<5) | stb__OMatch5[b][0];
min16 = (stb__OMatch5[r][1]<<11) | (stb__OMatch6[g][1]<<5) | stb__OMatch5[b][1];
} else {
At1_r = At1_g = At1_b = 0;
At2_r = At2_g = At2_b = 0;
for (i=0;i<16;++i,cm>>=2) {
int step = cm&3;
int w1 = w1Tab[step];
int r = block[i*4+0];
int g = block[i*4+1];
int b = block[i*4+2];
akku += prods[step];
At1_r += w1*r;
At1_g += w1*g;
At1_b += w1*b;
At2_r += r;
At2_g += g;
At2_b += b;
}
At2_r = 3*At2_r - At1_r;
At2_g = 3*At2_g - At1_g;
At2_b = 3*At2_b - At1_b;
// extract solutions and decide solvability
xx = akku >> 16;
yy = (akku >> 8) & 0xff;
xy = (akku >> 0) & 0xff;
f = 3.0f / 255.0f / (xx*yy - xy*xy);
max16 = stb__Quantize5((At1_r*yy - At2_r * xy) * f) << 11;
max16 |= stb__Quantize6((At1_g*yy - At2_g * xy) * f) << 5;
max16 |= stb__Quantize5((At1_b*yy - At2_b * xy) * f) << 0;
min16 = stb__Quantize5((At2_r*xx - At1_r * xy) * f) << 11;
min16 |= stb__Quantize6((At2_g*xx - At1_g * xy) * f) << 5;
min16 |= stb__Quantize5((At2_b*xx - At1_b * xy) * f) << 0;
}
*pmin16 = min16;
*pmax16 = max16;
return oldMin != min16 || oldMax != max16;
}
// Color block compression
static void stb__CompressColorBlock(unsigned char *dest, unsigned char *block, int mode)
{
unsigned int mask;
int i;
int refinecount;
unsigned short max16, min16;
unsigned char color[4*4];
refinecount = (mode & STB_DXT_HIGHQUAL) ? 2 : 1;
// check if block is constant
for (i=1;i<16;i++)
if (((unsigned int *) block)[i] != ((unsigned int *) block)[0])
break;
if(i == 16) { // constant color
int r = block[0], g = block[1], b = block[2];
mask = 0xaaaaaaaa;
max16 = (stb__OMatch5[r][0]<<11) | (stb__OMatch6[g][0]<<5) | stb__OMatch5[b][0];
min16 = (stb__OMatch5[r][1]<<11) | (stb__OMatch6[g][1]<<5) | stb__OMatch5[b][1];
} else {
// first step: PCA+map along principal axis
stb__OptimizeColorsBlock(block,&max16,&min16);
if (max16 != min16) {
stb__EvalColors(color,max16,min16);
mask = stb__MatchColorsBlock(block,color);
} else
mask = 0;
// third step: refine (multiple times if requested)
for (i=0;i<refinecount;i++) {
unsigned int lastmask = mask;
if (stb__RefineBlock(block,&max16,&min16,mask)) {
if (max16 != min16) {
stb__EvalColors(color,max16,min16);
mask = stb__MatchColorsBlock(block,color);
} else {
mask = 0;
break;
}
}
if(mask == lastmask)
break;
}
}
// write the color block
if(max16 < min16)
{
unsigned short t = min16;
min16 = max16;
max16 = t;
mask ^= 0x55555555;
}
dest[0] = (unsigned char) (max16);
dest[1] = (unsigned char) (max16 >> 8);
dest[2] = (unsigned char) (min16);
dest[3] = (unsigned char) (min16 >> 8);
dest[4] = (unsigned char) (mask);
dest[5] = (unsigned char) (mask >> 8);
dest[6] = (unsigned char) (mask >> 16);
dest[7] = (unsigned char) (mask >> 24);
}
// Alpha block compression (this is easy for a change)
static void stb__CompressAlphaBlock(unsigned char *dest,unsigned char *src, int stride)
{
int i,dist,bias,dist4,dist2,bits,mask;
// find min/max color
int mn,mx;
mn = mx = src[0];
for (i=1;i<16;i++)
{
if (src[i*stride] < mn) mn = src[i*stride];
else if (src[i*stride] > mx) mx = src[i*stride];
}
// encode them
dest[0] = (unsigned char)mx;
dest[1] = (unsigned char)mn;
dest += 2;
// determine bias and emit color indices
// given the choice of mx/mn, these indices are optimal:
// http://fgiesen.wordpress.com/2009/12/15/dxt5-alpha-block-index-determination/
dist = mx-mn;
dist4 = dist*4;
dist2 = dist*2;
bias = (dist < 8) ? (dist - 1) : (dist/2 + 2);
bias -= mn * 7;
bits = 0,mask=0;
for (i=0;i<16;i++) {
int a = src[i*stride]*7 + bias;
int ind,t;
// select index. this is a "linear scale" lerp factor between 0 (val=min) and 7 (val=max).
t = (a >= dist4) ? -1 : 0; ind = t & 4; a -= dist4 & t;
t = (a >= dist2) ? -1 : 0; ind += t & 2; a -= dist2 & t;
ind += (a >= dist);
// turn linear scale into DXT index (0/1 are extremal pts)
ind = -ind & 7;
ind ^= (2 > ind);
// write index
mask |= ind << bits;
if((bits += 3) >= 8) {
*dest++ = (unsigned char)mask;
mask >>= 8;
bits -= 8;
}
}
}
void stb_compress_dxt_block(unsigned char *dest, const unsigned char *src, int alpha, int mode)
{
unsigned char data[16][4];
if (alpha) {
int i;
stb__CompressAlphaBlock(dest,(unsigned char*) src+3, 4);
dest += 8;
// make a new copy of the data in which alpha is opaque,
// because code uses a fast test for color constancy
memcpy(data, src, 4*16);
for (i=0; i < 16; ++i)
data[i][3] = 255;
src = &data[0][0];
}
stb__CompressColorBlock(dest,(unsigned char*) src,mode);
}
void stb_compress_bc4_block(unsigned char *dest, const unsigned char *src)
{
stb__CompressAlphaBlock(dest,(unsigned char*) src, 1);
}
void stb_compress_bc5_block(unsigned char *dest, const unsigned char *src)
{
stb__CompressAlphaBlock(dest,(unsigned char*) src,2);
stb__CompressAlphaBlock(dest + 8,(unsigned char*) src+1,2);
}
#endif // STB_DXT_IMPLEMENTATION
// Compile with STB_DXT_IMPLEMENTATION and STB_DXT_GENERATE_TABLES
// defined to generate the tables above.
#ifdef STB_DXT_GENERATE_TABLES
#include <stdio.h>
int main()
{
int i, j;
const char *omatch_names[] = { "stb__OMatch5", "stb__OMatch6" };
int dequant_mults[2] = { 33*4, 65 }; // .4 fixed-point dequant multipliers
// optimal endpoint tables
for (i = 0; i < 2; ++i) {
int dequant = dequant_mults[i];
int size = i ? 64 : 32;
printf("static const unsigned char %s[256][2] = {\n", omatch_names[i]);
for (int j = 0; j < 256; ++j) {
int mn, mx;
int best_mn = 0, best_mx = 0;
int best_err = 256 * 100;
for (mn=0;mn<size;mn++) {
for (mx=0;mx<size;mx++) {
int mine = (mn * dequant) >> 4;
int maxe = (mx * dequant) >> 4;
int err = abs(stb__Lerp13(maxe, mine) - j) * 100;
// DX10 spec says that interpolation must be within 3% of "correct" result,
// add this as error term. Normally we'd expect a random distribution of
// +-1.5% error, but nowhere in the spec does it say that the error has to be
// unbiased - better safe than sorry.
err += abs(maxe - mine) * 3;
if(err < best_err) {
best_mn = mn;
best_mx = mx;
best_err = err;
}
}
}
if ((j % 8) == 0) printf(" "); // 2 spaces, third is done below
printf(" { %2d, %2d },", best_mx, best_mn);
if ((j % 8) == 7) printf("\n");
}
printf("};\n");
}
return 0;
}
#endif
/*
------------------------------------------------------------------------------
This software is available under 2 licenses -- choose whichever you prefer.
------------------------------------------------------------------------------
ALTERNATIVE A - MIT License
Copyright (c) 2017 Sean Barrett
Permission is hereby granted, free of charge, to any person obtaining a copy of
this software and associated documentation files (the "Software"), to deal in
the Software without restriction, including without limitation the rights to
use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies
of the Software, and to permit persons to whom the Software is furnished to do
so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all
copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
SOFTWARE.
------------------------------------------------------------------------------
ALTERNATIVE B - Public Domain (www.unlicense.org)
This is free and unencumbered software released into the public domain.
Anyone is free to copy, modify, publish, use, compile, sell, or distribute this
software, either in source code form or as a compiled binary, for any purpose,
commercial or non-commercial, and by any means.
In jurisdictions that recognize copyright laws, the author or authors of this
software dedicate any and all copyright interest in the software to the public
domain. We make this dedication for the benefit of the public at large and to
the detriment of our heirs and successors. We intend this dedication to be an
overt act of relinquishment in perpetuity of all present and future rights to
this software under copyright law.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN
ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION
WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
------------------------------------------------------------------------------
*/

305
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@ -0,0 +1,305 @@
// stb_easy_font.h - v1.1 - bitmap font for 3D rendering - public domain
// Sean Barrett, Feb 2015
//
// Easy-to-deploy,
// reasonably compact,
// extremely inefficient performance-wise,
// crappy-looking,
// ASCII-only,
// bitmap font for use in 3D APIs.
//
// Intended for when you just want to get some text displaying
// in a 3D app as quickly as possible.
//
// Doesn't use any textures, instead builds characters out of quads.
//
// DOCUMENTATION:
//
// int stb_easy_font_width(char *text)
// int stb_easy_font_height(char *text)
//
// Takes a string and returns the horizontal size and the
// vertical size (which can vary if 'text' has newlines).
//
// int stb_easy_font_print(float x, float y,
// char *text, unsigned char color[4],
// void *vertex_buffer, int vbuf_size)
//
// Takes a string (which can contain '\n') and fills out a
// vertex buffer with renderable data to draw the string.
// Output data assumes increasing x is rightwards, increasing y
// is downwards.
//
// The vertex data is divided into quads, i.e. there are four
// vertices in the vertex buffer for each quad.
//
// The vertices are stored in an interleaved format:
//
// x:float
// y:float
// z:float
// color:uint8[4]
//
// You can ignore z and color if you get them from elsewhere
// This format was chosen in the hopes it would make it
// easier for you to reuse existing vertex-buffer-drawing code.
//
// If you pass in NULL for color, it becomes 255,255,255,255.
//
// Returns the number of quads.
//
// If the buffer isn't large enough, it will truncate.
// Expect it to use an average of ~270 bytes per character.
//
// If your API doesn't draw quads, build a reusable index
// list that allows you to render quads as indexed triangles.
//
// void stb_easy_font_spacing(float spacing)
//
// Use positive values to expand the space between characters,
// and small negative values (no smaller than -1.5) to contract
// the space between characters.
//
// E.g. spacing = 1 adds one "pixel" of spacing between the
// characters. spacing = -1 is reasonable but feels a bit too
// compact to me; -0.5 is a reasonable compromise as long as
// you're scaling the font up.
//
// LICENSE
//
// See end of file for license information.
//
// VERSION HISTORY
//
// (2020-02-02) 1.1 make everything static so can compile it in more than one src file
// (2017-01-15) 1.0 space character takes same space as numbers; fix bad spacing of 'f'
// (2016-01-22) 0.7 width() supports multiline text; add height()
// (2015-09-13) 0.6 #include <math.h>; updated license
// (2015-02-01) 0.5 First release
//
// CONTRIBUTORS
//
// github:vassvik -- bug report
// github:podsvirov -- fix multiple definition errors
#if 0
// SAMPLE CODE:
//
// Here's sample code for old OpenGL; it's a lot more complicated
// to make work on modern APIs, and that's your problem.
//
void print_string(float x, float y, char *text, float r, float g, float b)
{
static char buffer[99999]; // ~500 chars
int num_quads;
num_quads = stb_easy_font_print(x, y, text, NULL, buffer, sizeof(buffer));
glColor3f(r,g,b);
glEnableClientState(GL_VERTEX_ARRAY);
glVertexPointer(2, GL_FLOAT, 16, buffer);
glDrawArrays(GL_QUADS, 0, num_quads*4);
glDisableClientState(GL_VERTEX_ARRAY);
}
#endif
#ifndef INCLUDE_STB_EASY_FONT_H
#define INCLUDE_STB_EASY_FONT_H
#include <stdlib.h>
#include <math.h>
static struct stb_easy_font_info_struct {
unsigned char advance;
unsigned char h_seg;
unsigned char v_seg;
} stb_easy_font_charinfo[96] = {
{ 6, 0, 0 }, { 3, 0, 0 }, { 5, 1, 1 }, { 7, 1, 4 },
{ 7, 3, 7 }, { 7, 6, 12 }, { 7, 8, 19 }, { 4, 16, 21 },
{ 4, 17, 22 }, { 4, 19, 23 }, { 23, 21, 24 }, { 23, 22, 31 },
{ 20, 23, 34 }, { 22, 23, 36 }, { 19, 24, 36 }, { 21, 25, 36 },
{ 6, 25, 39 }, { 6, 27, 43 }, { 6, 28, 45 }, { 6, 30, 49 },
{ 6, 33, 53 }, { 6, 34, 57 }, { 6, 40, 58 }, { 6, 46, 59 },
{ 6, 47, 62 }, { 6, 55, 64 }, { 19, 57, 68 }, { 20, 59, 68 },
{ 21, 61, 69 }, { 22, 66, 69 }, { 21, 68, 69 }, { 7, 73, 69 },
{ 9, 75, 74 }, { 6, 78, 81 }, { 6, 80, 85 }, { 6, 83, 90 },
{ 6, 85, 91 }, { 6, 87, 95 }, { 6, 90, 96 }, { 7, 92, 97 },
{ 6, 96,102 }, { 5, 97,106 }, { 6, 99,107 }, { 6,100,110 },
{ 6,100,115 }, { 7,101,116 }, { 6,101,121 }, { 6,101,125 },
{ 6,102,129 }, { 7,103,133 }, { 6,104,140 }, { 6,105,145 },
{ 7,107,149 }, { 6,108,151 }, { 7,109,155 }, { 7,109,160 },
{ 7,109,165 }, { 7,118,167 }, { 6,118,172 }, { 4,120,176 },
{ 6,122,177 }, { 4,122,181 }, { 23,124,182 }, { 22,129,182 },
{ 4,130,182 }, { 22,131,183 }, { 6,133,187 }, { 22,135,191 },
{ 6,137,192 }, { 22,139,196 }, { 6,144,197 }, { 22,147,198 },
{ 6,150,202 }, { 19,151,206 }, { 21,152,207 }, { 6,155,209 },
{ 3,160,210 }, { 23,160,211 }, { 22,164,216 }, { 22,165,220 },
{ 22,167,224 }, { 22,169,228 }, { 21,171,232 }, { 21,173,233 },
{ 5,178,233 }, { 22,179,234 }, { 23,180,238 }, { 23,180,243 },
{ 23,180,248 }, { 22,189,248 }, { 22,191,252 }, { 5,196,252 },
{ 3,203,252 }, { 5,203,253 }, { 22,210,253 }, { 0,214,253 },
};
static unsigned char stb_easy_font_hseg[214] = {
97,37,69,84,28,51,2,18,10,49,98,41,65,25,81,105,33,9,97,1,97,37,37,36,
81,10,98,107,3,100,3,99,58,51,4,99,58,8,73,81,10,50,98,8,73,81,4,10,50,
98,8,25,33,65,81,10,50,17,65,97,25,33,25,49,9,65,20,68,1,65,25,49,41,
11,105,13,101,76,10,50,10,50,98,11,99,10,98,11,50,99,11,50,11,99,8,57,
58,3,99,99,107,10,10,11,10,99,11,5,100,41,65,57,41,65,9,17,81,97,3,107,
9,97,1,97,33,25,9,25,41,100,41,26,82,42,98,27,83,42,98,26,51,82,8,41,
35,8,10,26,82,114,42,1,114,8,9,73,57,81,41,97,18,8,8,25,26,26,82,26,82,
26,82,41,25,33,82,26,49,73,35,90,17,81,41,65,57,41,65,25,81,90,114,20,
84,73,57,41,49,25,33,65,81,9,97,1,97,25,33,65,81,57,33,25,41,25,
};
static unsigned char stb_easy_font_vseg[253] = {
4,2,8,10,15,8,15,33,8,15,8,73,82,73,57,41,82,10,82,18,66,10,21,29,1,65,
27,8,27,9,65,8,10,50,97,74,66,42,10,21,57,41,29,25,14,81,73,57,26,8,8,
26,66,3,8,8,15,19,21,90,58,26,18,66,18,105,89,28,74,17,8,73,57,26,21,
8,42,41,42,8,28,22,8,8,30,7,8,8,26,66,21,7,8,8,29,7,7,21,8,8,8,59,7,8,
8,15,29,8,8,14,7,57,43,10,82,7,7,25,42,25,15,7,25,41,15,21,105,105,29,
7,57,57,26,21,105,73,97,89,28,97,7,57,58,26,82,18,57,57,74,8,30,6,8,8,
14,3,58,90,58,11,7,74,43,74,15,2,82,2,42,75,42,10,67,57,41,10,7,2,42,
74,106,15,2,35,8,8,29,7,8,8,59,35,51,8,8,15,35,30,35,8,8,30,7,8,8,60,
36,8,45,7,7,36,8,43,8,44,21,8,8,44,35,8,8,43,23,8,8,43,35,8,8,31,21,15,
20,8,8,28,18,58,89,58,26,21,89,73,89,29,20,8,8,30,7,
};
typedef struct
{
unsigned char c[4];
} stb_easy_font_color;
static int stb_easy_font_draw_segs(float x, float y, unsigned char *segs, int num_segs, int vertical, stb_easy_font_color c, char *vbuf, int vbuf_size, int offset)
{
int i,j;
for (i=0; i < num_segs; ++i) {
int len = segs[i] & 7;
x += (float) ((segs[i] >> 3) & 1);
if (len && offset+64 <= vbuf_size) {
float y0 = y + (float) (segs[i]>>4);
for (j=0; j < 4; ++j) {
* (float *) (vbuf+offset+0) = x + (j==1 || j==2 ? (vertical ? 1 : len) : 0);
* (float *) (vbuf+offset+4) = y0 + ( j >= 2 ? (vertical ? len : 1) : 0);
* (float *) (vbuf+offset+8) = 0.f;
* (stb_easy_font_color *) (vbuf+offset+12) = c;
offset += 16;
}
}
}
return offset;
}
static float stb_easy_font_spacing_val = 0;
static void stb_easy_font_spacing(float spacing)
{
stb_easy_font_spacing_val = spacing;
}
static int stb_easy_font_print(float x, float y, char *text, unsigned char color[4], void *vertex_buffer, int vbuf_size)
{
char *vbuf = (char *) vertex_buffer;
float start_x = x;
int offset = 0;
stb_easy_font_color c = { 255,255,255,255 }; // use structure copying to avoid needing depending on memcpy()
if (color) { c.c[0] = color[0]; c.c[1] = color[1]; c.c[2] = color[2]; c.c[3] = color[3]; }
while (*text && offset < vbuf_size) {
if (*text == '\n') {
y += 12;
x = start_x;
} else {
unsigned char advance = stb_easy_font_charinfo[*text-32].advance;
float y_ch = advance & 16 ? y+1 : y;
int h_seg, v_seg, num_h, num_v;
h_seg = stb_easy_font_charinfo[*text-32 ].h_seg;
v_seg = stb_easy_font_charinfo[*text-32 ].v_seg;
num_h = stb_easy_font_charinfo[*text-32+1].h_seg - h_seg;
num_v = stb_easy_font_charinfo[*text-32+1].v_seg - v_seg;
offset = stb_easy_font_draw_segs(x, y_ch, &stb_easy_font_hseg[h_seg], num_h, 0, c, vbuf, vbuf_size, offset);
offset = stb_easy_font_draw_segs(x, y_ch, &stb_easy_font_vseg[v_seg], num_v, 1, c, vbuf, vbuf_size, offset);
x += advance & 15;
x += stb_easy_font_spacing_val;
}
++text;
}
return (unsigned) offset/64;
}
static int stb_easy_font_width(char *text)
{
float len = 0;
float max_len = 0;
while (*text) {
if (*text == '\n') {
if (len > max_len) max_len = len;
len = 0;
} else {
len += stb_easy_font_charinfo[*text-32].advance & 15;
len += stb_easy_font_spacing_val;
}
++text;
}
if (len > max_len) max_len = len;
return (int) ceil(max_len);
}
static int stb_easy_font_height(char *text)
{
float y = 0;
int nonempty_line=0;
while (*text) {
if (*text == '\n') {
y += 12;
nonempty_line = 0;
} else {
nonempty_line = 1;
}
++text;
}
return (int) ceil(y + (nonempty_line ? 12 : 0));
}
#endif
/*
------------------------------------------------------------------------------
This software is available under 2 licenses -- choose whichever you prefer.
------------------------------------------------------------------------------
ALTERNATIVE A - MIT License
Copyright (c) 2017 Sean Barrett
Permission is hereby granted, free of charge, to any person obtaining a copy of
this software and associated documentation files (the "Software"), to deal in
the Software without restriction, including without limitation the rights to
use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies
of the Software, and to permit persons to whom the Software is furnished to do
so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all
copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
SOFTWARE.
------------------------------------------------------------------------------
ALTERNATIVE B - Public Domain (www.unlicense.org)
This is free and unencumbered software released into the public domain.
Anyone is free to copy, modify, publish, use, compile, sell, or distribute this
software, either in source code form or as a compiled binary, for any purpose,
commercial or non-commercial, and by any means.
In jurisdictions that recognize copyright laws, the author or authors of this
software dedicate any and all copyright interest in the software to the public
domain. We make this dedication for the benefit of the public at large and to
the detriment of our heirs and successors. We intend this dedication to be an
overt act of relinquishment in perpetuity of all present and future rights to
this software under copyright law.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN
ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION
WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
------------------------------------------------------------------------------
*/

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// stb_hexwave - v0.5 - public domain, initial release 2021-04-01
//
// A flexible anti-aliased (bandlimited) digital audio oscillator.
//
// This library generates waveforms of a variety of shapes made of
// line segments. It does not do envelopes, LFO effects, etc.; it
// merely tries to solve the problem of generating an artifact-free
// morphable digital waveform with a variety of spectra, and leaves
// it to the user to rescale the waveform and mix multiple voices, etc.
//
// Compiling:
//
// In one C/C++ file that #includes this file, do
//
// #define STB_HEXWAVE_IMPLEMENTATION
// #include "stb_hexwave.h"
//
// Optionally, #define STB_HEXWAVE_STATIC before including
// the header to cause the definitions to be private to the
// implementation file (i.e. to be "static" instead of "extern").
//
// Notes:
//
// Optionally performs memory allocation during initialization,
// never allocates otherwise.
//
// License:
//
// See end of file for license information.
//
// Usage:
//
// Initialization:
//
// hexwave_init(32,16,NULL); // read "header section" for alternatives
//
// Create oscillator:
//
// HexWave *osc = malloc(sizeof(*osc)); // or "new HexWave", or declare globally or on stack
// hexwave_create(osc, reflect_flag, peak_time, half_height, zero_wait);
// see "Waveform shapes" below for the meaning of these parameters
//
// Generate audio:
//
// hexwave_generate_samples(output, number_of_samples, osc, oscillator_freq)
// where:
// output is a buffer where the library will store floating point audio samples
// number_of_samples is the number of audio samples to generate
// osc is a pointer to a Hexwave
// oscillator_freq is the frequency of the oscillator divided by the sample rate
//
// The output samples will continue from where the samples generated by the
// previous hexwave_generate_samples() on this oscillator ended.
//
// Change oscillator waveform:
//
// hexwave_change(osc, reflect_flag, peak_time, half_height, zero_wait);
// can call in between calls to hexwave_generate_samples
//
// Waveform shapes:
//
// All waveforms generated by hexwave are constructed from six line segments
// characterized by 3 parameters.
//
// See demonstration: https://www.youtube.com/watch?v=hsUCrAsDN-M
//
// reflect=0 reflect=1
//
// 0-----P---1 0-----P---1 peak_time = P
// . 1 . 1
// /\_ : /\_ :
// / \_ : / \_ :
// / \.H / \.H half_height = H
// / | : / | :
// _____/ |_:___ _____/ | : _____
// . : \ | . | : /
// . : \ | . | : /
// . : \ _/ . \_: /
// . : \ _/ . :_ /
// . -1 \/ . -1 \/
// 0 - Z - - - - 1 0 - Z - - - - 1 zero_wait = Z
//
// Classic waveforms:
// peak half zero
// reflect time height wait
// Sawtooth 1 0 0 0
// Square 1 0 1 0
// Triangle 1 0.5 0 0
//
// Some waveforms can be produced in multiple ways, which is useful when morphing
// into other waveforms, and there are a few more notable shapes:
//
// peak half zero
// reflect time height wait
// Sawtooth 1 1 any 0
// Sawtooth (8va) 1 0 -1 0
// Triangle 1 0.5 0 0
// Square 1 0 1 0
// Square 0 0 1 0
// Triangle 0 0.5 0 0
// Triangle 0 0 -1 0
// AlternatingSaw 0 0 0 0
// AlternatingSaw 0 1 any 0
// Stairs 0 0 1 0.5
//
// The "Sawtooth (8va)" waveform is identical to a sawtooth wave with 2x the
// frequency, but when morphed with other values, it becomes an overtone of
// the base frequency.
//
// Morphing waveforms:
//
// Sweeping peak_time morphs the waveform while producing various spectra.
// Sweeping half_height effectively crossfades between two waveforms; useful, but less exciting.
// Sweeping zero_wait produces a similar effect no matter the reset of the waveform,
// a sort of high-pass/PWM effect where the wave becomes silent at zero_wait=1.
//
// You can trivially morph between any two waveforms from the above table
// which only differ in one column.
//
// Crossfade between classic waveforms:
// peak half zero
// Start End reflect time height wait
// ----- --- ------- ---- ------ ----
// Triangle Square 0 0 -1..1 0
// Saw Square 1 0 0..1 0
// Triangle Saw 1 0.5 0..2 0
//
// The last morph uses uses half-height values larger than 1, which means it will
// be louder and the output should be scaled down by half to compensate, or better
// by dynamically tracking the morph: volume_scale = 1 - half_height/4
//
// Non-crossfade morph between classic waveforms, most require changing
// two parameters at the same time:
// peak half zero
// Start End reflect time height wait
// ----- --- ------- ---- ------ ----
// Square Triangle any 0..0.5 1..0 0
// Square Saw 1 0..1 1..any 0
// Triangle Saw 1 0.5..1 0..-1 0
//
// Other noteworthy morphs between simple shapes:
// peak half zero
// Start Halfway End reflect time height wait
// ----- --------- --- ------- ---- ------ ----
// Saw (8va,neg) Saw (pos) 1 0..1 -1 0
// Saw (neg) Saw (pos) 1 0..1 0 0
// Triangle AlternatingSaw 0 0..1 -1 0
// AlternatingSaw Triangle AlternatingSaw 0 0..1 0 0
// Square AlternatingSaw 0 0..1 1 0
// Triangle Triangle AlternatingSaw 0 0..1 -1..1 0
// Square AlternatingSaw 0 0..1 1..0 0
// Saw (8va) Triangle Saw 1 0..1 -1..1 0
// Saw (neg) Saw (pos) 1 0..1 0..1 0
// AlternatingSaw AlternatingSaw 0 0..1 0..any 0
//
// The last entry is noteworthy because the morph from the halfway point to either
// endpoint sounds very different. For example, an LFO sweeping back and forth over
// the whole range will morph between the middle timbre and the AlternatingSaw
// timbre in two different ways, alternating.
//
// Entries with "any" for half_height are whole families of morphs, as you can pick
// any value you want as the endpoint for half_height.
//
// You can always morph between any two waveforms with the same value of 'reflect'
// by just sweeping the parameters simultaneously. There will never be artifacts
// and the result will always be useful, if not necessarily what you want.
//
// You can vary the sound of two-parameter morphs by ramping them differently,
// e.g. if the morph goes from t=0..1, then square-to-triangle looks like:
// peak_time = lerp(t, 0, 0.5)
// half_height = lerp(t, 1, 0 )
// but you can also do things like:
// peak_time = lerp(smoothstep(t), 0, 0.5)
// half_height = cos(PI/2 * t)
//
// How it works:
//
// hexwave use BLEP to bandlimit discontinuities and BLAMP
// to bandlimit C1 discontinuities. This is not polyBLEP
// (polynomial BLEP), it is table-driven BLEP. It is
// also not minBLEP (minimum-phase BLEP), as that complicates
// things for little benefit once BLAMP is involved.
//
// The previous oscillator frequency is remembered, and when
// the frequency changes, a BLAMP is generated to remove the
// C1 discontinuity, which reduces artifacts for sweeps/LFO.
//
// Changes to an oscillator timbre using hexwave_change() actually
// wait until the oscillator finishes its current cycle. All
// waveforms with non-zero "zero_wait" settings pass through 0
// and have 0-slope at the start of a cycle, which means changing
// the settings is artifact free at that time. (If zero_wait is 0,
// the code still treats it as passing through 0 with 0-slope; it'll
// apply the necessary fixups to make it artifact free as if it does
// transition to 0 with 0-slope vs. the waveform at the end of
// the cycle, then adds the fixups for a non-0 and non-0 slope
// at the start of the cycle, which cancels out if zero_wait is 0,
// and still does the right thing if zero_wait is 0 when the
// settings are updated.)
//
// BLEP/BLAMP normally requires overlapping buffers, but this
// is hidden from the user by generating the waveform to a
// temporary buffer and saving the overlap regions internally
// between calls. (It is slightly more complicated; see code.)
//
// By design all shapes have 0 DC offset; this is one reason
// hexwave uses zero_wait instead of standard PWM.
//
// The internals of hexwave could support any arbitrary shape
// made of line segments, but I chose not to expose this
// generality in favor of a simple, easy-to-use API.
#ifndef STB_INCLUDE_STB_HEXWAVE_H
#define STB_INCLUDE_STB_HEXWAVE_H
#ifndef STB_HEXWAVE_MAX_BLEP_LENGTH
#define STB_HEXWAVE_MAX_BLEP_LENGTH 64 // good enough for anybody
#endif
#ifdef STB_HEXWAVE_STATIC
#define STB_HEXWAVE_DEF static
#else
#define STB_HEXWAVE_DEF extern
#endif
typedef struct HexWave HexWave;
STB_HEXWAVE_DEF void hexwave_init(int width, int oversample, float *user_buffer);
// width: size of BLEP, from 4..64, larger is slower & more memory but less aliasing
// oversample: 2+, number of subsample positions, larger uses more memory but less noise
// user_buffer: optional, if provided the library will perform no allocations.
// 16*width*(oversample+1) bytes, must stay allocated as long as library is used
// technically it only needs: 8*( width * (oversample + 1))
// + 8*((width * oversample) + 1) bytes
//
// width can be larger than 64 if you define STB_HEXWAVE_MAX_BLEP_LENGTH to a larger value
STB_HEXWAVE_DEF void hexwave_shutdown(float *user_buffer);
// user_buffer: pass in same parameter as passed to hexwave_init
STB_HEXWAVE_DEF void hexwave_create(HexWave *hex, int reflect, float peak_time, float half_height, float zero_wait);
// see docs above for description
//
// reflect is tested as 0 or non-zero
// peak_time is clamped to 0..1
// half_height is not clamped
// zero_wait is clamped to 0..1
STB_HEXWAVE_DEF void hexwave_change(HexWave *hex, int reflect, float peak_time, float half_height, float zero_wait);
// see docs
STB_HEXWAVE_DEF void hexwave_generate_samples(float *output, int num_samples, HexWave *hex, float freq);
// output: buffer where the library will store generated floating point audio samples
// number_of_samples: the number of audio samples to generate
// osc: pointer to a Hexwave initialized with 'hexwave_create'
// oscillator_freq: frequency of the oscillator divided by the sample rate
// private:
typedef struct
{
int reflect;
float peak_time;
float zero_wait;
float half_height;
} HexWaveParameters;
struct HexWave
{
float t, prev_dt;
HexWaveParameters current, pending;
int have_pending;
float buffer[STB_HEXWAVE_MAX_BLEP_LENGTH];
};
#endif
#ifdef STB_HEXWAVE_IMPLEMENTATION
#ifndef STB_HEXWAVE_NO_ALLOCATION
#include <stdlib.h> // malloc,free
#endif
#include <string.h> // memset,memcpy,memmove
#include <math.h> // sin,cos,fabs
#define hexwave_clamp(v,a,b) ((v) < (a) ? (a) : (v) > (b) ? (b) : (v))
STB_HEXWAVE_DEF void hexwave_change(HexWave *hex, int reflect, float peak_time, float half_height, float zero_wait)
{
hex->pending.reflect = reflect;
hex->pending.peak_time = hexwave_clamp(peak_time,0,1);
hex->pending.half_height = half_height;
hex->pending.zero_wait = hexwave_clamp(zero_wait,0,1);
// put a barrier here to allow changing from a different thread than the generator
hex->have_pending = 1;
}
STB_HEXWAVE_DEF void hexwave_create(HexWave *hex, int reflect, float peak_time, float half_height, float zero_wait)
{
memset(hex, 0, sizeof(*hex));
hexwave_change(hex, reflect, peak_time, half_height, zero_wait);
hex->current = hex->pending;
hex->have_pending = 0;
hex->t = 0;
hex->prev_dt = 0;
}
static struct
{
int width; // width of fixup in samples
int oversample; // number of oversampled versions (there's actually one more to allow lerpign)
float *blep;
float *blamp;
} hexblep;
static void hex_add_oversampled_bleplike(float *output, float time_since_transition, float scale, float *data)
{
float *d1,*d2;
float lerpweight;
int i, bw = hexblep.width;
int slot = (int) (time_since_transition * hexblep.oversample);
if (slot >= hexblep.oversample)
slot = hexblep.oversample-1; // clamp in case the floats overshoot
d1 = &data[ slot *bw];
d2 = &data[(slot+1)*bw];
lerpweight = time_since_transition * hexblep.oversample - slot;
for (i=0; i < bw; ++i)
output[i] += scale * (d1[i] + (d2[i]-d1[i])*lerpweight);
}
static void hex_blep (float *output, float time_since_transition, float scale)
{
hex_add_oversampled_bleplike(output, time_since_transition, scale, hexblep.blep);
}
static void hex_blamp(float *output, float time_since_transition, float scale)
{
hex_add_oversampled_bleplike(output, time_since_transition, scale, hexblep.blamp);
}
typedef struct
{
float t,v,s; // time, value, slope
} hexvert;
// each half of the waveform needs 4 vertices to represent 3 line
// segments, plus 1 more for wraparound
static void hexwave_generate_linesegs(hexvert vert[9], HexWave *hex, float dt)
{
int j;
float min_len = dt / 256.0f;
vert[0].t = 0;
vert[0].v = 0;
vert[1].t = hex->current.zero_wait*0.5f;
vert[1].v = 0;
vert[2].t = 0.5f*hex->current.peak_time + vert[1].t*(1-hex->current.peak_time);
vert[2].v = 1;
vert[3].t = 0.5f;
vert[3].v = hex->current.half_height;
if (hex->current.reflect) {
for (j=4; j <= 7; ++j) {
vert[j].t = 1 - vert[7-j].t;
vert[j].v = - vert[7-j].v;
}
} else {
for (j=4; j <= 7; ++j) {
vert[j].t = 0.5f + vert[j-4].t;
vert[j].v = - vert[j-4].v;
}
}
vert[8].t = 1;
vert[8].v = 0;
for (j=0; j < 8; ++j) {
if (vert[j+1].t <= vert[j].t + min_len) {
// if change takes place over less than a fraction of a sample treat as discontinuity
//
// otherwise the slope computation can blow up to arbitrarily large and we
// try to generate a huge BLAMP and the result is wrong.
//
// why does this happen if the math is right? i believe if done perfectly,
// the two BLAMPs on either side of the slope would cancel out, but our
// BLAMPs have only limited sub-sample precision and limited integration
// accuracy. or maybe it's just the math blowing up w/ floating point precision
// limits as we try to make x * (1/x) cancel out
//
// min_len verified artifact-free even near nyquist with only oversample=4
vert[j+1].t = vert[j].t;
}
}
if (vert[8].t != 1.0f) {
// if the above fixup moved the endpoint away from 1.0, move it back,
// along with any other vertices that got moved to the same time
float t = vert[8].t;
for (j=5; j <= 8; ++j)
if (vert[j].t == t)
vert[j].t = 1.0f;
}
// compute the exact slopes from the final fixed-up positions
for (j=0; j < 8; ++j)
if (vert[j+1].t == vert[j].t)
vert[j].s = 0;
else
vert[j].s = (vert[j+1].v - vert[j].v) / (vert[j+1].t - vert[j].t);
// wraparound at end
vert[8].t = 1;
vert[8].v = vert[0].v;
vert[8].s = vert[0].s;
}
STB_HEXWAVE_DEF void hexwave_generate_samples(float *output, int num_samples, HexWave *hex, float freq)
{
hexvert vert[9];
int pass,i,j;
float t = hex->t;
float temp_output[2*STB_HEXWAVE_MAX_BLEP_LENGTH];
int buffered_length = sizeof(float)*hexblep.width;
float dt = (float) fabs(freq);
float recip_dt = (dt == 0.0f) ? 0.0f : 1.0f / dt;
int halfw = hexblep.width/2;
// all sample times are biased by halfw to leave room for BLEP/BLAMP to go back in time
if (num_samples <= 0)
return;
// convert parameters to times and slopes
hexwave_generate_linesegs(vert, hex, dt);
if (hex->prev_dt != dt) {
// if frequency changes, add a fixup at the derivative discontinuity starting at now
float slope;
for (j=1; j < 6; ++j)
if (t < vert[j].t)
break;
slope = vert[j].s;
if (slope != 0)
hex_blamp(output, 0, (dt - hex->prev_dt)*slope);
hex->prev_dt = dt;
}
// copy the buffered data from last call and clear the rest of the output array
memset(output, 0, sizeof(float)*num_samples);
memset(temp_output, 0, 2*hexblep.width*sizeof(float));
if (num_samples >= hexblep.width) {
memcpy(output, hex->buffer, buffered_length);
} else {
// if the output is shorter than hexblep.width, we do all synthesis to temp_output
memcpy(temp_output, hex->buffer, buffered_length);
}
for (pass=0; pass < 2; ++pass) {
int i0,i1;
float *out;
// we want to simulate having one buffer that is num_output + hexblep.width
// samples long, without putting that requirement on the user, and without
// allocating a temp buffer that's as long as the whole thing. so we use two
// overlapping buffers, one the user's buffer and one a fixed-length temp
// buffer.
if (pass == 0) {
if (num_samples < hexblep.width)
continue;
// run as far as we can without overwriting the end of the user's buffer
out = output;
i0 = 0;
i1 = num_samples - hexblep.width;
} else {
// generate the rest into a temp buffer
out = temp_output;
i0 = 0;
if (num_samples >= hexblep.width)
i1 = hexblep.width;
else
i1 = num_samples;
}
// determine current segment
for (j=0; j < 8; ++j)
if (t < vert[j+1].t)
break;
i = i0;
for(;;) {
while (t < vert[j+1].t) {
if (i == i1)
goto done;
out[i+halfw] += vert[j].v + vert[j].s*(t - vert[j].t);
t += dt;
++i;
}
// transition from lineseg starting at j to lineseg starting at j+1
if (vert[j].t == vert[j+1].t)
hex_blep(out+i, recip_dt*(t-vert[j+1].t), (vert[j+1].v - vert[j].v));
hex_blamp(out+i, recip_dt*(t-vert[j+1].t), dt*(vert[j+1].s - vert[j].s));
++j;
if (j == 8) {
// change to different waveform if there's a change pending
j = 0;
t -= 1.0; // t was >= 1.f if j==8
if (hex->have_pending) {
float prev_s0 = vert[j].s;
float prev_v0 = vert[j].v;
hex->current = hex->pending;
hex->have_pending = 0;
hexwave_generate_linesegs(vert, hex, dt);
// the following never occurs with this oscillator, but it makes
// the code work in more general cases
if (vert[j].v != prev_v0)
hex_blep (out+i, recip_dt*t, (vert[j].v - prev_v0));
if (vert[j].s != prev_s0)
hex_blamp(out+i, recip_dt*t, dt*(vert[j].s - prev_s0));
}
}
}
done:
;
}
// at this point, we've written output[] and temp_output[]
if (num_samples >= hexblep.width) {
// the first half of temp[] overlaps the end of output, the second half will be the new start overlap
for (i=0; i < hexblep.width; ++i)
output[num_samples-hexblep.width + i] += temp_output[i];
memcpy(hex->buffer, temp_output+hexblep.width, buffered_length);
} else {
for (i=0; i < num_samples; ++i)
output[i] = temp_output[i];
memcpy(hex->buffer, temp_output+num_samples, buffered_length);
}
hex->t = t;
}
STB_HEXWAVE_DEF void hexwave_shutdown(float *user_buffer)
{
#ifndef STB_HEXWAVE_NO_ALLOCATION
if (user_buffer != 0) {
free(hexblep.blep);
free(hexblep.blamp);
}
#endif
}
// buffer should be NULL or must be 4*(width*(oversample+1)*2 +
STB_HEXWAVE_DEF void hexwave_init(int width, int oversample, float *user_buffer)
{
int halfwidth = width/2;
int half = halfwidth*oversample;
int blep_buffer_count = width*(oversample+1);
int n = 2*half+1;
#ifdef STB_HEXWAVE_NO_ALLOCATION
float *buffers = user_buffer;
#else
float *buffers = user_buffer ? user_buffer : (float *) malloc(sizeof(float) * n * 2);
#endif
float *step = buffers+0*n;
float *ramp = buffers+1*n;
float *blep_buffer, *blamp_buffer;
double integrate_impulse=0, integrate_step=0;
int i,j;
if (width > STB_HEXWAVE_MAX_BLEP_LENGTH)
width = STB_HEXWAVE_MAX_BLEP_LENGTH;
if (user_buffer == 0) {
#ifndef STB_HEXWAVE_NO_ALLOCATION
blep_buffer = (float *) malloc(sizeof(float)*blep_buffer_count);
blamp_buffer = (float *) malloc(sizeof(float)*blep_buffer_count);
#endif
} else {
blep_buffer = ramp+n;
blamp_buffer = blep_buffer + blep_buffer_count;
}
// compute BLEP and BLAMP by integerating windowed sinc
for (i=0; i < n; ++i) {
for (j=0; j < 16; ++j) {
float sinc_t = 3.141592f* (i-half) / oversample;
float sinc = (i==half) ? 1.0f : (float) sin(sinc_t) / (sinc_t);
float wt = 2.0f*3.1415926f * i / (n-1);
float window = (float) (0.355768 - 0.487396*cos(wt) + 0.144232*cos(2*wt) - 0.012604*cos(3*wt)); // Nuttall
double value = window * sinc;
integrate_impulse += value/16;
integrate_step += integrate_impulse/16;
}
step[i] = (float) integrate_impulse;
ramp[i] = (float) integrate_step;
}
// renormalize
for (i=0; i < n; ++i) {
step[i] = step[i] * (float) (1.0 / step[n-1]); // step needs to reach to 1.0
ramp[i] = ramp[i] * (float) (halfwidth / ramp[n-1]); // ramp needs to become a slope of 1.0 after oversampling
}
// deinterleave to allow efficient interpolation e.g. w/SIMD
for (j=0; j <= oversample; ++j) {
for (i=0; i < width; ++i) {
blep_buffer [j*width+i] = step[j+i*oversample];
blamp_buffer[j*width+i] = ramp[j+i*oversample];
}
}
// subtract out the naive waveform; note we can't do this to the raw data
// above, because we want the discontinuity to be in a different locations
// for j=0 and j=oversample (which exists to provide something to interpolate against)
for (j=0; j <= oversample; ++j) {
// subtract step
for (i=halfwidth; i < width; ++i)
blep_buffer [j*width+i] -= 1.0f;
// subtract ramp
for (i=halfwidth; i < width; ++i)
blamp_buffer[j*width+i] -= (j+i*oversample-half)*(1.0f/oversample);
}
hexblep.blep = blep_buffer;
hexblep.blamp = blamp_buffer;
hexblep.width = width;
hexblep.oversample = oversample;
#ifndef STB_HEXWAVE_NO_ALLOCATION
if (user_buffer == 0)
free(buffers);
#endif
}
#endif // STB_HEXWAVE_IMPLEMENTATION
/*
------------------------------------------------------------------------------
This software is available under 2 licenses -- choose whichever you prefer.
------------------------------------------------------------------------------
ALTERNATIVE A - MIT License
Copyright (c) 2017 Sean Barrett
Permission is hereby granted, free of charge, to any person obtaining a copy of
this software and associated documentation files (the "Software"), to deal in
the Software without restriction, including without limitation the rights to
use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies
of the Software, and to permit persons to whom the Software is furnished to do
so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all
copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
SOFTWARE.
------------------------------------------------------------------------------
ALTERNATIVE B - Public Domain (www.unlicense.org)
This is free and unencumbered software released into the public domain.
Anyone is free to copy, modify, publish, use, compile, sell, or distribute this
software, either in source code form or as a compiled binary, for any purpose,
commercial or non-commercial, and by any means.
In jurisdictions that recognize copyright laws, the author or authors of this
software dedicate any and all copyright interest in the software to the public
domain. We make this dedication for the benefit of the public at large and to
the detriment of our heirs and successors. We intend this dedication to be an
overt act of relinquishment in perpetuity of all present and future rights to
this software under copyright law.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN
ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION
WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
------------------------------------------------------------------------------
*/

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// stb_include.h - v0.02 - parse and process #include directives - public domain
//
// To build this, in one source file that includes this file do
// #define STB_INCLUDE_IMPLEMENTATION
//
// This program parses a string and replaces lines of the form
// #include "foo"
// with the contents of a file named "foo". It also embeds the
// appropriate #line directives. Note that all include files must
// reside in the location specified in the path passed to the API;
// it does not check multiple directories.
//
// If the string contains a line of the form
// #inject
// then it will be replaced with the contents of the string 'inject' passed to the API.
//
// Options:
//
// Define STB_INCLUDE_LINE_GLSL to get GLSL-style #line directives
// which use numbers instead of filenames.
//
// Define STB_INCLUDE_LINE_NONE to disable output of #line directives.
//
// Standard libraries:
//
// stdio.h FILE, fopen, fclose, fseek, ftell
// stdlib.h malloc, realloc, free
// string.h strcpy, strncmp, memcpy
//
// Credits:
//
// Written by Sean Barrett.
//
// Fixes:
// Michal Klos
#ifndef STB_INCLUDE_STB_INCLUDE_H
#define STB_INCLUDE_STB_INCLUDE_H
// Do include-processing on the string 'str'. To free the return value, pass it to free()
char *stb_include_string(char *str, char *inject, char *path_to_includes, char *filename_for_line_directive, char error[256]);
// Concatenate the strings 'strs' and do include-processing on the result. To free the return value, pass it to free()
char *stb_include_strings(char **strs, int count, char *inject, char *path_to_includes, char *filename_for_line_directive, char error[256]);
// Load the file 'filename' and do include-processing on the string therein. note that
// 'filename' is opened directly; 'path_to_includes' is not used. To free the return value, pass it to free()
char *stb_include_file(char *filename, char *inject, char *path_to_includes, char error[256]);
#endif
#ifdef STB_INCLUDE_IMPLEMENTATION
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
static char *stb_include_load_file(char *filename, size_t *plen)
{
char *text;
size_t len;
FILE *f = fopen(filename, "rb");
if (f == 0) return 0;
fseek(f, 0, SEEK_END);
len = (size_t) ftell(f);
if (plen) *plen = len;
text = (char *) malloc(len+1);
if (text == 0) return 0;
fseek(f, 0, SEEK_SET);
fread(text, 1, len, f);
fclose(f);
text[len] = 0;
return text;
}
typedef struct
{
int offset;
int end;
char *filename;
int next_line_after;
} include_info;
static include_info *stb_include_append_include(include_info *array, int len, int offset, int end, char *filename, int next_line)
{
include_info *z = (include_info *) realloc(array, sizeof(*z) * (len+1));
z[len].offset = offset;
z[len].end = end;
z[len].filename = filename;
z[len].next_line_after = next_line;
return z;
}
static void stb_include_free_includes(include_info *array, int len)
{
int i;
for (i=0; i < len; ++i)
free(array[i].filename);
free(array);
}
static int stb_include_isspace(int ch)
{
return (ch == ' ' || ch == '\t' || ch == '\r' || ch == '\n');
}
// find location of all #include and #inject
static int stb_include_find_includes(char *text, include_info **plist)
{
int line_count = 1;
int inc_count = 0;
char *s = text, *start;
include_info *list = NULL;
while (*s) {
// parse is always at start of line when we reach here
start = s;
while (*s == ' ' || *s == '\t')
++s;
if (*s == '#') {
++s;
while (*s == ' ' || *s == '\t')
++s;
if (0==strncmp(s, "include", 7) && stb_include_isspace(s[7])) {
s += 7;
while (*s == ' ' || *s == '\t')
++s;
if (*s == '"') {
char *t = ++s;
while (*t != '"' && *t != '\n' && *t != '\r' && *t != 0)
++t;
if (*t == '"') {
char *filename = (char *) malloc(t-s+1);
memcpy(filename, s, t-s);
filename[t-s] = 0;
s=t;
while (*s != '\r' && *s != '\n' && *s != 0)
++s;
// s points to the newline, so s-start is everything except the newline
list = stb_include_append_include(list, inc_count++, start-text, s-text, filename, line_count+1);
}
}
} else if (0==strncmp(s, "inject", 6) && (stb_include_isspace(s[6]) || s[6]==0)) {
while (*s != '\r' && *s != '\n' && *s != 0)
++s;
list = stb_include_append_include(list, inc_count++, start-text, s-text, NULL, line_count+1);
}
}
while (*s != '\r' && *s != '\n' && *s != 0)
++s;
if (*s == '\r' || *s == '\n') {
s = s + (s[0] + s[1] == '\r' + '\n' ? 2 : 1);
}
++line_count;
}
*plist = list;
return inc_count;
}
// avoid dependency on sprintf()
static void stb_include_itoa(char str[9], int n)
{
int i;
for (i=0; i < 8; ++i)
str[i] = ' ';
str[i] = 0;
for (i=1; i < 8; ++i) {
str[7-i] = '0' + (n % 10);
n /= 10;
if (n == 0)
break;
}
}
static char *stb_include_append(char *str, size_t *curlen, char *addstr, size_t addlen)
{
str = (char *) realloc(str, *curlen + addlen);
memcpy(str + *curlen, addstr, addlen);
*curlen += addlen;
return str;
}
char *stb_include_string(char *str, char *inject, char *path_to_includes, char *filename, char error[256])
{
char temp[4096];
include_info *inc_list;
int i, num = stb_include_find_includes(str, &inc_list);
size_t source_len = strlen(str);
char *text=0;
size_t textlen=0, last=0;
for (i=0; i < num; ++i) {
text = stb_include_append(text, &textlen, str+last, inc_list[i].offset - last);
// write out line directive for the include
#ifndef STB_INCLUDE_LINE_NONE
#ifdef STB_INCLUDE_LINE_GLSL
if (textlen != 0) // GLSL #version must appear first, so don't put a #line at the top
#endif
{
strcpy(temp, "#line ");
stb_include_itoa(temp+6, 1);
strcat(temp, " ");
#ifdef STB_INCLUDE_LINE_GLSL
stb_include_itoa(temp+15, i+1);
#else
strcat(temp, "\"");
if (inc_list[i].filename == 0)
strcmp(temp, "INJECT");
else
strcat(temp, inc_list[i].filename);
strcat(temp, "\"");
#endif
strcat(temp, "\n");
text = stb_include_append(text, &textlen, temp, strlen(temp));
}
#endif
if (inc_list[i].filename == 0) {
if (inject != 0)
text = stb_include_append(text, &textlen, inject, strlen(inject));
} else {
char *inc;
strcpy(temp, path_to_includes);
strcat(temp, "/");
strcat(temp, inc_list[i].filename);
inc = stb_include_file(temp, inject, path_to_includes, error);
if (inc == NULL) {
stb_include_free_includes(inc_list, num);
return NULL;
}
text = stb_include_append(text, &textlen, inc, strlen(inc));
free(inc);
}
// write out line directive
#ifndef STB_INCLUDE_LINE_NONE
strcpy(temp, "\n#line ");
stb_include_itoa(temp+6, inc_list[i].next_line_after);
strcat(temp, " ");
#ifdef STB_INCLUDE_LINE_GLSL
stb_include_itoa(temp+15, 0);
#else
strcat(temp, filename != 0 ? filename : "source-file");
#endif
text = stb_include_append(text, &textlen, temp, strlen(temp));
// no newlines, because we kept the #include newlines, which will get appended next
#endif
last = inc_list[i].end;
}
text = stb_include_append(text, &textlen, str+last, source_len - last + 1); // append '\0'
stb_include_free_includes(inc_list, num);
return text;
}
char *stb_include_strings(char **strs, int count, char *inject, char *path_to_includes, char *filename, char error[256])
{
char *text;
char *result;
int i;
size_t length=0;
for (i=0; i < count; ++i)
length += strlen(strs[i]);
text = (char *) malloc(length+1);
length = 0;
for (i=0; i < count; ++i) {
strcpy(text + length, strs[i]);
length += strlen(strs[i]);
}
result = stb_include_string(text, inject, path_to_includes, filename, error);
free(text);
return result;
}
char *stb_include_file(char *filename, char *inject, char *path_to_includes, char error[256])
{
size_t len;
char *result;
char *text = stb_include_load_file(filename, &len);
if (text == NULL) {
strcpy(error, "Error: couldn't load '");
strcat(error, filename);
strcat(error, "'");
return 0;
}
result = stb_include_string(text, inject, path_to_includes, filename, error);
free(text);
return result;
}
#if 0 // @TODO, GL_ARB_shader_language_include-style system that doesn't touch filesystem
char *stb_include_preloaded(char *str, char *inject, char *includes[][2], char error[256])
{
}
#endif
#endif // STB_INCLUDE_IMPLEMENTATION

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// stb_leakcheck.h - v0.6 - quick & dirty malloc leak-checking - public domain
// LICENSE
//
// See end of file.
#ifdef STB_LEAKCHECK_IMPLEMENTATION
#undef STB_LEAKCHECK_IMPLEMENTATION // don't implement more than once
// if we've already included leakcheck before, undefine the macros
#ifdef malloc
#undef malloc
#undef free
#undef realloc
#endif
#ifndef STB_LEAKCHECK_OUTPUT_PIPE
#define STB_LEAKCHECK_OUTPUT_PIPE stdout
#endif
#include <assert.h>
#include <string.h>
#include <stdlib.h>
#include <stdio.h>
#include <stddef.h>
typedef struct malloc_info stb_leakcheck_malloc_info;
struct malloc_info
{
const char *file;
int line;
size_t size;
stb_leakcheck_malloc_info *next,*prev;
};
static stb_leakcheck_malloc_info *mi_head;
void *stb_leakcheck_malloc(size_t sz, const char *file, int line)
{
stb_leakcheck_malloc_info *mi = (stb_leakcheck_malloc_info *) malloc(sz + sizeof(*mi));
if (mi == NULL) return mi;
mi->file = file;
mi->line = line;
mi->next = mi_head;
if (mi_head)
mi->next->prev = mi;
mi->prev = NULL;
mi->size = (int) sz;
mi_head = mi;
return mi+1;
}
void stb_leakcheck_free(void *ptr)
{
if (ptr != NULL) {
stb_leakcheck_malloc_info *mi = (stb_leakcheck_malloc_info *) ptr - 1;
mi->size = ~mi->size;
#ifndef STB_LEAKCHECK_SHOWALL
if (mi->prev == NULL) {
assert(mi_head == mi);
mi_head = mi->next;
} else
mi->prev->next = mi->next;
if (mi->next)
mi->next->prev = mi->prev;
free(mi);
#endif
}
}
void *stb_leakcheck_realloc(void *ptr, size_t sz, const char *file, int line)
{
if (ptr == NULL) {
return stb_leakcheck_malloc(sz, file, line);
} else if (sz == 0) {
stb_leakcheck_free(ptr);
return NULL;
} else {
stb_leakcheck_malloc_info *mi = (stb_leakcheck_malloc_info *) ptr - 1;
if (sz <= mi->size)
return ptr;
else {
#ifdef STB_LEAKCHECK_REALLOC_PRESERVE_MALLOC_FILELINE
void *q = stb_leakcheck_malloc(sz, mi->file, mi->line);
#else
void *q = stb_leakcheck_malloc(sz, file, line);
#endif
if (q) {
memcpy(q, ptr, mi->size);
stb_leakcheck_free(ptr);
}
return q;
}
}
}
static void stblkck_internal_print(const char *reason, stb_leakcheck_malloc_info *mi)
{
#if defined(_MSC_VER) && _MSC_VER < 1900 // 1900=VS 2015
// Compilers that use the old MS C runtime library don't have %zd
// and the older ones don't even have %lld either... however, the old compilers
// without "long long" don't support 64-bit targets either, so here's the
// compromise:
#if _MSC_VER < 1400 // before VS 2005
fprintf(STB_LEAKCHECK_OUTPUT_PIPE, "%s: %s (%4d): %8d bytes at %p\n", reason, mi->file, mi->line, (int)mi->size, (void*)(mi+1));
#else
fprintf(STB_LEAKCHECK_OUTPUT_PIPE, "%s: %s (%4d): %16lld bytes at %p\n", reason, mi->file, mi->line, (long long)mi->size, (void*)(mi+1));
#endif
#else
// Assume we have %zd on other targets.
#ifdef __MINGW32__
__mingw_fprintf(STB_LEAKCHECK_OUTPUT_PIPE, "%s: %s (%4d): %zd bytes at %p\n", reason, mi->file, mi->line, mi->size, (void*)(mi+1));
#else
fprintf(STB_LEAKCHECK_OUTPUT_PIPE, "%s: %s (%4d): %zd bytes at %p\n", reason, mi->file, mi->line, mi->size, (void*)(mi+1));
#endif
#endif
}
void stb_leakcheck_dumpmem(void)
{
stb_leakcheck_malloc_info *mi = mi_head;
while (mi) {
if ((ptrdiff_t) mi->size >= 0)
stblkck_internal_print("LEAKED", mi);
mi = mi->next;
}
#ifdef STB_LEAKCHECK_SHOWALL
mi = mi_head;
while (mi) {
if ((ptrdiff_t) mi->size < 0)
stblkck_internal_print("FREED ", mi);
mi = mi->next;
}
#endif
}
#endif // STB_LEAKCHECK_IMPLEMENTATION
#if !defined(INCLUDE_STB_LEAKCHECK_H) || !defined(malloc)
#define INCLUDE_STB_LEAKCHECK_H
#include <stdlib.h> // we want to define the macros *after* stdlib to avoid a slew of errors
#define malloc(sz) stb_leakcheck_malloc(sz, __FILE__, __LINE__)
#define free(p) stb_leakcheck_free(p)
#define realloc(p,sz) stb_leakcheck_realloc(p,sz, __FILE__, __LINE__)
extern void * stb_leakcheck_malloc(size_t sz, const char *file, int line);
extern void * stb_leakcheck_realloc(void *ptr, size_t sz, const char *file, int line);
extern void stb_leakcheck_free(void *ptr);
extern void stb_leakcheck_dumpmem(void);
#endif // INCLUDE_STB_LEAKCHECK_H
/*
------------------------------------------------------------------------------
This software is available under 2 licenses -- choose whichever you prefer.
------------------------------------------------------------------------------
ALTERNATIVE A - MIT License
Copyright (c) 2017 Sean Barrett
Permission is hereby granted, free of charge, to any person obtaining a copy of
this software and associated documentation files (the "Software"), to deal in
the Software without restriction, including without limitation the rights to
use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies
of the Software, and to permit persons to whom the Software is furnished to do
so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all
copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
SOFTWARE.
------------------------------------------------------------------------------
ALTERNATIVE B - Public Domain (www.unlicense.org)
This is free and unencumbered software released into the public domain.
Anyone is free to copy, modify, publish, use, compile, sell, or distribute this
software, either in source code form or as a compiled binary, for any purpose,
commercial or non-commercial, and by any means.
In jurisdictions that recognize copyright laws, the author or authors of this
software dedicate any and all copyright interest in the software to the public
domain. We make this dedication for the benefit of the public at large and to
the detriment of our heirs and successors. We intend this dedication to be an
overt act of relinquishment in perpetuity of all present and future rights to
this software under copyright law.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN
ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION
WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
------------------------------------------------------------------------------
*/

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// stb_perlin.h - v0.5 - perlin noise
// public domain single-file C implementation by Sean Barrett
//
// LICENSE
//
// See end of file.
//
//
// to create the implementation,
// #define STB_PERLIN_IMPLEMENTATION
// in *one* C/CPP file that includes this file.
//
//
// Documentation:
//
// float stb_perlin_noise3( float x,
// float y,
// float z,
// int x_wrap=0,
// int y_wrap=0,
// int z_wrap=0)
//
// This function computes a random value at the coordinate (x,y,z).
// Adjacent random values are continuous but the noise fluctuates
// its randomness with period 1, i.e. takes on wholly unrelated values
// at integer points. Specifically, this implements Ken Perlin's
// revised noise function from 2002.
//
// The "wrap" parameters can be used to create wraparound noise that
// wraps at powers of two. The numbers MUST be powers of two. Specify
// 0 to mean "don't care". (The noise always wraps every 256 due
// details of the implementation, even if you ask for larger or no
// wrapping.)
//
// float stb_perlin_noise3_seed( float x,
// float y,
// float z,
// int x_wrap=0,
// int y_wrap=0,
// int z_wrap=0,
// int seed)
//
// As above, but 'seed' selects from multiple different variations of the
// noise function. The current implementation only uses the bottom 8 bits
// of 'seed', but possibly in the future more bits will be used.
//
//
// Fractal Noise:
//
// Three common fractal noise functions are included, which produce
// a wide variety of nice effects depending on the parameters
// provided. Note that each function will call stb_perlin_noise3
// 'octaves' times, so this parameter will affect runtime.
//
// float stb_perlin_ridge_noise3(float x, float y, float z,
// float lacunarity, float gain, float offset, int octaves)
//
// float stb_perlin_fbm_noise3(float x, float y, float z,
// float lacunarity, float gain, int octaves)
//
// float stb_perlin_turbulence_noise3(float x, float y, float z,
// float lacunarity, float gain, int octaves)
//
// Typical values to start playing with:
// octaves = 6 -- number of "octaves" of noise3() to sum
// lacunarity = ~ 2.0 -- spacing between successive octaves (use exactly 2.0 for wrapping output)
// gain = 0.5 -- relative weighting applied to each successive octave
// offset = 1.0? -- used to invert the ridges, may need to be larger, not sure
//
//
// Contributors:
// Jack Mott - additional noise functions
// Jordan Peck - seeded noise
//
#ifdef __cplusplus
extern "C" {
#endif
extern float stb_perlin_noise3(float x, float y, float z, int x_wrap, int y_wrap, int z_wrap);
extern float stb_perlin_noise3_seed(float x, float y, float z, int x_wrap, int y_wrap, int z_wrap, int seed);
extern float stb_perlin_ridge_noise3(float x, float y, float z, float lacunarity, float gain, float offset, int octaves);
extern float stb_perlin_fbm_noise3(float x, float y, float z, float lacunarity, float gain, int octaves);
extern float stb_perlin_turbulence_noise3(float x, float y, float z, float lacunarity, float gain, int octaves);
extern float stb_perlin_noise3_wrap_nonpow2(float x, float y, float z, int x_wrap, int y_wrap, int z_wrap, unsigned char seed);
#ifdef __cplusplus
}
#endif
#ifdef STB_PERLIN_IMPLEMENTATION
#include <math.h> // fabs()
// not same permutation table as Perlin's reference to avoid copyright issues;
// Perlin's table can be found at http://mrl.nyu.edu/~perlin/noise/
static unsigned char stb__perlin_randtab[512] =
{
23, 125, 161, 52, 103, 117, 70, 37, 247, 101, 203, 169, 124, 126, 44, 123,
152, 238, 145, 45, 171, 114, 253, 10, 192, 136, 4, 157, 249, 30, 35, 72,
175, 63, 77, 90, 181, 16, 96, 111, 133, 104, 75, 162, 93, 56, 66, 240,
8, 50, 84, 229, 49, 210, 173, 239, 141, 1, 87, 18, 2, 198, 143, 57,
225, 160, 58, 217, 168, 206, 245, 204, 199, 6, 73, 60, 20, 230, 211, 233,
94, 200, 88, 9, 74, 155, 33, 15, 219, 130, 226, 202, 83, 236, 42, 172,
165, 218, 55, 222, 46, 107, 98, 154, 109, 67, 196, 178, 127, 158, 13, 243,
65, 79, 166, 248, 25, 224, 115, 80, 68, 51, 184, 128, 232, 208, 151, 122,
26, 212, 105, 43, 179, 213, 235, 148, 146, 89, 14, 195, 28, 78, 112, 76,
250, 47, 24, 251, 140, 108, 186, 190, 228, 170, 183, 139, 39, 188, 244, 246,
132, 48, 119, 144, 180, 138, 134, 193, 82, 182, 120, 121, 86, 220, 209, 3,
91, 241, 149, 85, 205, 150, 113, 216, 31, 100, 41, 164, 177, 214, 153, 231,
38, 71, 185, 174, 97, 201, 29, 95, 7, 92, 54, 254, 191, 118, 34, 221,
131, 11, 163, 99, 234, 81, 227, 147, 156, 176, 17, 142, 69, 12, 110, 62,
27, 255, 0, 194, 59, 116, 242, 252, 19, 21, 187, 53, 207, 129, 64, 135,
61, 40, 167, 237, 102, 223, 106, 159, 197, 189, 215, 137, 36, 32, 22, 5,
// and a second copy so we don't need an extra mask or static initializer
23, 125, 161, 52, 103, 117, 70, 37, 247, 101, 203, 169, 124, 126, 44, 123,
152, 238, 145, 45, 171, 114, 253, 10, 192, 136, 4, 157, 249, 30, 35, 72,
175, 63, 77, 90, 181, 16, 96, 111, 133, 104, 75, 162, 93, 56, 66, 240,
8, 50, 84, 229, 49, 210, 173, 239, 141, 1, 87, 18, 2, 198, 143, 57,
225, 160, 58, 217, 168, 206, 245, 204, 199, 6, 73, 60, 20, 230, 211, 233,
94, 200, 88, 9, 74, 155, 33, 15, 219, 130, 226, 202, 83, 236, 42, 172,
165, 218, 55, 222, 46, 107, 98, 154, 109, 67, 196, 178, 127, 158, 13, 243,
65, 79, 166, 248, 25, 224, 115, 80, 68, 51, 184, 128, 232, 208, 151, 122,
26, 212, 105, 43, 179, 213, 235, 148, 146, 89, 14, 195, 28, 78, 112, 76,
250, 47, 24, 251, 140, 108, 186, 190, 228, 170, 183, 139, 39, 188, 244, 246,
132, 48, 119, 144, 180, 138, 134, 193, 82, 182, 120, 121, 86, 220, 209, 3,
91, 241, 149, 85, 205, 150, 113, 216, 31, 100, 41, 164, 177, 214, 153, 231,
38, 71, 185, 174, 97, 201, 29, 95, 7, 92, 54, 254, 191, 118, 34, 221,
131, 11, 163, 99, 234, 81, 227, 147, 156, 176, 17, 142, 69, 12, 110, 62,
27, 255, 0, 194, 59, 116, 242, 252, 19, 21, 187, 53, 207, 129, 64, 135,
61, 40, 167, 237, 102, 223, 106, 159, 197, 189, 215, 137, 36, 32, 22, 5,
};
// perlin's gradient has 12 cases so some get used 1/16th of the time
// and some 2/16ths. We reduce bias by changing those fractions
// to 5/64ths and 6/64ths
// this array is designed to match the previous implementation
// of gradient hash: indices[stb__perlin_randtab[i]&63]
static unsigned char stb__perlin_randtab_grad_idx[512] =
{
7, 9, 5, 0, 11, 1, 6, 9, 3, 9, 11, 1, 8, 10, 4, 7,
8, 6, 1, 5, 3, 10, 9, 10, 0, 8, 4, 1, 5, 2, 7, 8,
7, 11, 9, 10, 1, 0, 4, 7, 5, 0, 11, 6, 1, 4, 2, 8,
8, 10, 4, 9, 9, 2, 5, 7, 9, 1, 7, 2, 2, 6, 11, 5,
5, 4, 6, 9, 0, 1, 1, 0, 7, 6, 9, 8, 4, 10, 3, 1,
2, 8, 8, 9, 10, 11, 5, 11, 11, 2, 6, 10, 3, 4, 2, 4,
9, 10, 3, 2, 6, 3, 6, 10, 5, 3, 4, 10, 11, 2, 9, 11,
1, 11, 10, 4, 9, 4, 11, 0, 4, 11, 4, 0, 0, 0, 7, 6,
10, 4, 1, 3, 11, 5, 3, 4, 2, 9, 1, 3, 0, 1, 8, 0,
6, 7, 8, 7, 0, 4, 6, 10, 8, 2, 3, 11, 11, 8, 0, 2,
4, 8, 3, 0, 0, 10, 6, 1, 2, 2, 4, 5, 6, 0, 1, 3,
11, 9, 5, 5, 9, 6, 9, 8, 3, 8, 1, 8, 9, 6, 9, 11,
10, 7, 5, 6, 5, 9, 1, 3, 7, 0, 2, 10, 11, 2, 6, 1,
3, 11, 7, 7, 2, 1, 7, 3, 0, 8, 1, 1, 5, 0, 6, 10,
11, 11, 0, 2, 7, 0, 10, 8, 3, 5, 7, 1, 11, 1, 0, 7,
9, 0, 11, 5, 10, 3, 2, 3, 5, 9, 7, 9, 8, 4, 6, 5,
// and a second copy so we don't need an extra mask or static initializer
7, 9, 5, 0, 11, 1, 6, 9, 3, 9, 11, 1, 8, 10, 4, 7,
8, 6, 1, 5, 3, 10, 9, 10, 0, 8, 4, 1, 5, 2, 7, 8,
7, 11, 9, 10, 1, 0, 4, 7, 5, 0, 11, 6, 1, 4, 2, 8,
8, 10, 4, 9, 9, 2, 5, 7, 9, 1, 7, 2, 2, 6, 11, 5,
5, 4, 6, 9, 0, 1, 1, 0, 7, 6, 9, 8, 4, 10, 3, 1,
2, 8, 8, 9, 10, 11, 5, 11, 11, 2, 6, 10, 3, 4, 2, 4,
9, 10, 3, 2, 6, 3, 6, 10, 5, 3, 4, 10, 11, 2, 9, 11,
1, 11, 10, 4, 9, 4, 11, 0, 4, 11, 4, 0, 0, 0, 7, 6,
10, 4, 1, 3, 11, 5, 3, 4, 2, 9, 1, 3, 0, 1, 8, 0,
6, 7, 8, 7, 0, 4, 6, 10, 8, 2, 3, 11, 11, 8, 0, 2,
4, 8, 3, 0, 0, 10, 6, 1, 2, 2, 4, 5, 6, 0, 1, 3,
11, 9, 5, 5, 9, 6, 9, 8, 3, 8, 1, 8, 9, 6, 9, 11,
10, 7, 5, 6, 5, 9, 1, 3, 7, 0, 2, 10, 11, 2, 6, 1,
3, 11, 7, 7, 2, 1, 7, 3, 0, 8, 1, 1, 5, 0, 6, 10,
11, 11, 0, 2, 7, 0, 10, 8, 3, 5, 7, 1, 11, 1, 0, 7,
9, 0, 11, 5, 10, 3, 2, 3, 5, 9, 7, 9, 8, 4, 6, 5,
};
static float stb__perlin_lerp(float a, float b, float t)
{
return a + (b-a) * t;
}
static int stb__perlin_fastfloor(float a)
{
int ai = (int) a;
return (a < ai) ? ai-1 : ai;
}
// different grad function from Perlin's, but easy to modify to match reference
static float stb__perlin_grad(int grad_idx, float x, float y, float z)
{
static float basis[12][4] =
{
{ 1, 1, 0 },
{ -1, 1, 0 },
{ 1,-1, 0 },
{ -1,-1, 0 },
{ 1, 0, 1 },
{ -1, 0, 1 },
{ 1, 0,-1 },
{ -1, 0,-1 },
{ 0, 1, 1 },
{ 0,-1, 1 },
{ 0, 1,-1 },
{ 0,-1,-1 },
};
float *grad = basis[grad_idx];
return grad[0]*x + grad[1]*y + grad[2]*z;
}
float stb_perlin_noise3_internal(float x, float y, float z, int x_wrap, int y_wrap, int z_wrap, unsigned char seed)
{
float u,v,w;
float n000,n001,n010,n011,n100,n101,n110,n111;
float n00,n01,n10,n11;
float n0,n1;
unsigned int x_mask = (x_wrap-1) & 255;
unsigned int y_mask = (y_wrap-1) & 255;
unsigned int z_mask = (z_wrap-1) & 255;
int px = stb__perlin_fastfloor(x);
int py = stb__perlin_fastfloor(y);
int pz = stb__perlin_fastfloor(z);
int x0 = px & x_mask, x1 = (px+1) & x_mask;
int y0 = py & y_mask, y1 = (py+1) & y_mask;
int z0 = pz & z_mask, z1 = (pz+1) & z_mask;
int r0,r1, r00,r01,r10,r11;
#define stb__perlin_ease(a) (((a*6-15)*a + 10) * a * a * a)
x -= px; u = stb__perlin_ease(x);
y -= py; v = stb__perlin_ease(y);
z -= pz; w = stb__perlin_ease(z);
r0 = stb__perlin_randtab[x0+seed];
r1 = stb__perlin_randtab[x1+seed];
r00 = stb__perlin_randtab[r0+y0];
r01 = stb__perlin_randtab[r0+y1];
r10 = stb__perlin_randtab[r1+y0];
r11 = stb__perlin_randtab[r1+y1];
n000 = stb__perlin_grad(stb__perlin_randtab_grad_idx[r00+z0], x , y , z );
n001 = stb__perlin_grad(stb__perlin_randtab_grad_idx[r00+z1], x , y , z-1 );
n010 = stb__perlin_grad(stb__perlin_randtab_grad_idx[r01+z0], x , y-1, z );
n011 = stb__perlin_grad(stb__perlin_randtab_grad_idx[r01+z1], x , y-1, z-1 );
n100 = stb__perlin_grad(stb__perlin_randtab_grad_idx[r10+z0], x-1, y , z );
n101 = stb__perlin_grad(stb__perlin_randtab_grad_idx[r10+z1], x-1, y , z-1 );
n110 = stb__perlin_grad(stb__perlin_randtab_grad_idx[r11+z0], x-1, y-1, z );
n111 = stb__perlin_grad(stb__perlin_randtab_grad_idx[r11+z1], x-1, y-1, z-1 );
n00 = stb__perlin_lerp(n000,n001,w);
n01 = stb__perlin_lerp(n010,n011,w);
n10 = stb__perlin_lerp(n100,n101,w);
n11 = stb__perlin_lerp(n110,n111,w);
n0 = stb__perlin_lerp(n00,n01,v);
n1 = stb__perlin_lerp(n10,n11,v);
return stb__perlin_lerp(n0,n1,u);
}
float stb_perlin_noise3(float x, float y, float z, int x_wrap, int y_wrap, int z_wrap)
{
return stb_perlin_noise3_internal(x,y,z,x_wrap,y_wrap,z_wrap,0);
}
float stb_perlin_noise3_seed(float x, float y, float z, int x_wrap, int y_wrap, int z_wrap, int seed)
{
return stb_perlin_noise3_internal(x,y,z,x_wrap,y_wrap,z_wrap, (unsigned char) seed);
}
float stb_perlin_ridge_noise3(float x, float y, float z, float lacunarity, float gain, float offset, int octaves)
{
int i;
float frequency = 1.0f;
float prev = 1.0f;
float amplitude = 0.5f;
float sum = 0.0f;
for (i = 0; i < octaves; i++) {
float r = stb_perlin_noise3_internal(x*frequency,y*frequency,z*frequency,0,0,0,(unsigned char)i);
r = offset - (float) fabs(r);
r = r*r;
sum += r*amplitude*prev;
prev = r;
frequency *= lacunarity;
amplitude *= gain;
}
return sum;
}
float stb_perlin_fbm_noise3(float x, float y, float z, float lacunarity, float gain, int octaves)
{
int i;
float frequency = 1.0f;
float amplitude = 1.0f;
float sum = 0.0f;
for (i = 0; i < octaves; i++) {
sum += stb_perlin_noise3_internal(x*frequency,y*frequency,z*frequency,0,0,0,(unsigned char)i)*amplitude;
frequency *= lacunarity;
amplitude *= gain;
}
return sum;
}
float stb_perlin_turbulence_noise3(float x, float y, float z, float lacunarity, float gain, int octaves)
{
int i;
float frequency = 1.0f;
float amplitude = 1.0f;
float sum = 0.0f;
for (i = 0; i < octaves; i++) {
float r = stb_perlin_noise3_internal(x*frequency,y*frequency,z*frequency,0,0,0,(unsigned char)i)*amplitude;
sum += (float) fabs(r);
frequency *= lacunarity;
amplitude *= gain;
}
return sum;
}
float stb_perlin_noise3_wrap_nonpow2(float x, float y, float z, int x_wrap, int y_wrap, int z_wrap, unsigned char seed)
{
float u,v,w;
float n000,n001,n010,n011,n100,n101,n110,n111;
float n00,n01,n10,n11;
float n0,n1;
int px = stb__perlin_fastfloor(x);
int py = stb__perlin_fastfloor(y);
int pz = stb__perlin_fastfloor(z);
int x_wrap2 = (x_wrap ? x_wrap : 256);
int y_wrap2 = (y_wrap ? y_wrap : 256);
int z_wrap2 = (z_wrap ? z_wrap : 256);
int x0 = px % x_wrap2, x1;
int y0 = py % y_wrap2, y1;
int z0 = pz % z_wrap2, z1;
int r0,r1, r00,r01,r10,r11;
if (x0 < 0) x0 += x_wrap2;
if (y0 < 0) y0 += y_wrap2;
if (z0 < 0) z0 += z_wrap2;
x1 = (x0+1) % x_wrap2;
y1 = (y0+1) % y_wrap2;
z1 = (z0+1) % z_wrap2;
#define stb__perlin_ease(a) (((a*6-15)*a + 10) * a * a * a)
x -= px; u = stb__perlin_ease(x);
y -= py; v = stb__perlin_ease(y);
z -= pz; w = stb__perlin_ease(z);
r0 = stb__perlin_randtab[x0];
r0 = stb__perlin_randtab[r0+seed];
r1 = stb__perlin_randtab[x1];
r1 = stb__perlin_randtab[r1+seed];
r00 = stb__perlin_randtab[r0+y0];
r01 = stb__perlin_randtab[r0+y1];
r10 = stb__perlin_randtab[r1+y0];
r11 = stb__perlin_randtab[r1+y1];
n000 = stb__perlin_grad(stb__perlin_randtab_grad_idx[r00+z0], x , y , z );
n001 = stb__perlin_grad(stb__perlin_randtab_grad_idx[r00+z1], x , y , z-1 );
n010 = stb__perlin_grad(stb__perlin_randtab_grad_idx[r01+z0], x , y-1, z );
n011 = stb__perlin_grad(stb__perlin_randtab_grad_idx[r01+z1], x , y-1, z-1 );
n100 = stb__perlin_grad(stb__perlin_randtab_grad_idx[r10+z0], x-1, y , z );
n101 = stb__perlin_grad(stb__perlin_randtab_grad_idx[r10+z1], x-1, y , z-1 );
n110 = stb__perlin_grad(stb__perlin_randtab_grad_idx[r11+z0], x-1, y-1, z );
n111 = stb__perlin_grad(stb__perlin_randtab_grad_idx[r11+z1], x-1, y-1, z-1 );
n00 = stb__perlin_lerp(n000,n001,w);
n01 = stb__perlin_lerp(n010,n011,w);
n10 = stb__perlin_lerp(n100,n101,w);
n11 = stb__perlin_lerp(n110,n111,w);
n0 = stb__perlin_lerp(n00,n01,v);
n1 = stb__perlin_lerp(n10,n11,v);
return stb__perlin_lerp(n0,n1,u);
}
#endif // STB_PERLIN_IMPLEMENTATION
/*
------------------------------------------------------------------------------
This software is available under 2 licenses -- choose whichever you prefer.
------------------------------------------------------------------------------
ALTERNATIVE A - MIT License
Copyright (c) 2017 Sean Barrett
Permission is hereby granted, free of charge, to any person obtaining a copy of
this software and associated documentation files (the "Software"), to deal in
the Software without restriction, including without limitation the rights to
use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies
of the Software, and to permit persons to whom the Software is furnished to do
so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all
copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
SOFTWARE.
------------------------------------------------------------------------------
ALTERNATIVE B - Public Domain (www.unlicense.org)
This is free and unencumbered software released into the public domain.
Anyone is free to copy, modify, publish, use, compile, sell, or distribute this
software, either in source code form or as a compiled binary, for any purpose,
commercial or non-commercial, and by any means.
In jurisdictions that recognize copyright laws, the author or authors of this
software dedicate any and all copyright interest in the software to the public
domain. We make this dedication for the benefit of the public at large and to
the detriment of our heirs and successors. We intend this dedication to be an
overt act of relinquishment in perpetuity of all present and future rights to
this software under copyright law.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN
ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION
WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
------------------------------------------------------------------------------
*/

623
external/stb/stb/stb_rect_pack.h vendored Normal file
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@ -0,0 +1,623 @@
// stb_rect_pack.h - v1.01 - public domain - rectangle packing
// Sean Barrett 2014
//
// Useful for e.g. packing rectangular textures into an atlas.
// Does not do rotation.
//
// Before #including,
//
// #define STB_RECT_PACK_IMPLEMENTATION
//
// in the file that you want to have the implementation.
//
// Not necessarily the awesomest packing method, but better than
// the totally naive one in stb_truetype (which is primarily what
// this is meant to replace).
//
// Has only had a few tests run, may have issues.
//
// More docs to come.
//
// No memory allocations; uses qsort() and assert() from stdlib.
// Can override those by defining STBRP_SORT and STBRP_ASSERT.
//
// This library currently uses the Skyline Bottom-Left algorithm.
//
// Please note: better rectangle packers are welcome! Please
// implement them to the same API, but with a different init
// function.
//
// Credits
//
// Library
// Sean Barrett
// Minor features
// Martins Mozeiko
// github:IntellectualKitty
//
// Bugfixes / warning fixes
// Jeremy Jaussaud
// Fabian Giesen
//
// Version history:
//
// 1.01 (2021-07-11) always use large rect mode, expose STBRP__MAXVAL in public section
// 1.00 (2019-02-25) avoid small space waste; gracefully fail too-wide rectangles
// 0.99 (2019-02-07) warning fixes
// 0.11 (2017-03-03) return packing success/fail result
// 0.10 (2016-10-25) remove cast-away-const to avoid warnings
// 0.09 (2016-08-27) fix compiler warnings
// 0.08 (2015-09-13) really fix bug with empty rects (w=0 or h=0)
// 0.07 (2015-09-13) fix bug with empty rects (w=0 or h=0)
// 0.06 (2015-04-15) added STBRP_SORT to allow replacing qsort
// 0.05: added STBRP_ASSERT to allow replacing assert
// 0.04: fixed minor bug in STBRP_LARGE_RECTS support
// 0.01: initial release
//
// LICENSE
//
// See end of file for license information.
//////////////////////////////////////////////////////////////////////////////
//
// INCLUDE SECTION
//
#ifndef STB_INCLUDE_STB_RECT_PACK_H
#define STB_INCLUDE_STB_RECT_PACK_H
#define STB_RECT_PACK_VERSION 1
#ifdef STBRP_STATIC
#define STBRP_DEF static
#else
#define STBRP_DEF extern
#endif
#ifdef __cplusplus
extern "C" {
#endif
typedef struct stbrp_context stbrp_context;
typedef struct stbrp_node stbrp_node;
typedef struct stbrp_rect stbrp_rect;
typedef int stbrp_coord;
#define STBRP__MAXVAL 0x7fffffff
// Mostly for internal use, but this is the maximum supported coordinate value.
STBRP_DEF int stbrp_pack_rects (stbrp_context *context, stbrp_rect *rects, int num_rects);
// Assign packed locations to rectangles. The rectangles are of type
// 'stbrp_rect' defined below, stored in the array 'rects', and there
// are 'num_rects' many of them.
//
// Rectangles which are successfully packed have the 'was_packed' flag
// set to a non-zero value and 'x' and 'y' store the minimum location
// on each axis (i.e. bottom-left in cartesian coordinates, top-left
// if you imagine y increasing downwards). Rectangles which do not fit
// have the 'was_packed' flag set to 0.
//
// You should not try to access the 'rects' array from another thread
// while this function is running, as the function temporarily reorders
// the array while it executes.
//
// To pack into another rectangle, you need to call stbrp_init_target
// again. To continue packing into the same rectangle, you can call
// this function again. Calling this multiple times with multiple rect
// arrays will probably produce worse packing results than calling it
// a single time with the full rectangle array, but the option is
// available.
//
// The function returns 1 if all of the rectangles were successfully
// packed and 0 otherwise.
struct stbrp_rect
{
// reserved for your use:
int id;
// input:
stbrp_coord w, h;
// output:
stbrp_coord x, y;
int was_packed; // non-zero if valid packing
}; // 16 bytes, nominally
STBRP_DEF void stbrp_init_target (stbrp_context *context, int width, int height, stbrp_node *nodes, int num_nodes);
// Initialize a rectangle packer to:
// pack a rectangle that is 'width' by 'height' in dimensions
// using temporary storage provided by the array 'nodes', which is 'num_nodes' long
//
// You must call this function every time you start packing into a new target.
//
// There is no "shutdown" function. The 'nodes' memory must stay valid for
// the following stbrp_pack_rects() call (or calls), but can be freed after
// the call (or calls) finish.
//
// Note: to guarantee best results, either:
// 1. make sure 'num_nodes' >= 'width'
// or 2. call stbrp_allow_out_of_mem() defined below with 'allow_out_of_mem = 1'
//
// If you don't do either of the above things, widths will be quantized to multiples
// of small integers to guarantee the algorithm doesn't run out of temporary storage.
//
// If you do #2, then the non-quantized algorithm will be used, but the algorithm
// may run out of temporary storage and be unable to pack some rectangles.
STBRP_DEF void stbrp_setup_allow_out_of_mem (stbrp_context *context, int allow_out_of_mem);
// Optionally call this function after init but before doing any packing to
// change the handling of the out-of-temp-memory scenario, described above.
// If you call init again, this will be reset to the default (false).
STBRP_DEF void stbrp_setup_heuristic (stbrp_context *context, int heuristic);
// Optionally select which packing heuristic the library should use. Different
// heuristics will produce better/worse results for different data sets.
// If you call init again, this will be reset to the default.
enum
{
STBRP_HEURISTIC_Skyline_default=0,
STBRP_HEURISTIC_Skyline_BL_sortHeight = STBRP_HEURISTIC_Skyline_default,
STBRP_HEURISTIC_Skyline_BF_sortHeight
};
//////////////////////////////////////////////////////////////////////////////
//
// the details of the following structures don't matter to you, but they must
// be visible so you can handle the memory allocations for them
struct stbrp_node
{
stbrp_coord x,y;
stbrp_node *next;
};
struct stbrp_context
{
int width;
int height;
int align;
int init_mode;
int heuristic;
int num_nodes;
stbrp_node *active_head;
stbrp_node *free_head;
stbrp_node extra[2]; // we allocate two extra nodes so optimal user-node-count is 'width' not 'width+2'
};
#ifdef __cplusplus
}
#endif
#endif
//////////////////////////////////////////////////////////////////////////////
//
// IMPLEMENTATION SECTION
//
#ifdef STB_RECT_PACK_IMPLEMENTATION
#ifndef STBRP_SORT
#include <stdlib.h>
#define STBRP_SORT qsort
#endif
#ifndef STBRP_ASSERT
#include <assert.h>
#define STBRP_ASSERT assert
#endif
#ifdef _MSC_VER
#define STBRP__NOTUSED(v) (void)(v)
#define STBRP__CDECL __cdecl
#else
#define STBRP__NOTUSED(v) (void)sizeof(v)
#define STBRP__CDECL
#endif
enum
{
STBRP__INIT_skyline = 1
};
STBRP_DEF void stbrp_setup_heuristic(stbrp_context *context, int heuristic)
{
switch (context->init_mode) {
case STBRP__INIT_skyline:
STBRP_ASSERT(heuristic == STBRP_HEURISTIC_Skyline_BL_sortHeight || heuristic == STBRP_HEURISTIC_Skyline_BF_sortHeight);
context->heuristic = heuristic;
break;
default:
STBRP_ASSERT(0);
}
}
STBRP_DEF void stbrp_setup_allow_out_of_mem(stbrp_context *context, int allow_out_of_mem)
{
if (allow_out_of_mem)
// if it's ok to run out of memory, then don't bother aligning them;
// this gives better packing, but may fail due to OOM (even though
// the rectangles easily fit). @TODO a smarter approach would be to only
// quantize once we've hit OOM, then we could get rid of this parameter.
context->align = 1;
else {
// if it's not ok to run out of memory, then quantize the widths
// so that num_nodes is always enough nodes.
//
// I.e. num_nodes * align >= width
// align >= width / num_nodes
// align = ceil(width/num_nodes)
context->align = (context->width + context->num_nodes-1) / context->num_nodes;
}
}
STBRP_DEF void stbrp_init_target(stbrp_context *context, int width, int height, stbrp_node *nodes, int num_nodes)
{
int i;
for (i=0; i < num_nodes-1; ++i)
nodes[i].next = &nodes[i+1];
nodes[i].next = NULL;
context->init_mode = STBRP__INIT_skyline;
context->heuristic = STBRP_HEURISTIC_Skyline_default;
context->free_head = &nodes[0];
context->active_head = &context->extra[0];
context->width = width;
context->height = height;
context->num_nodes = num_nodes;
stbrp_setup_allow_out_of_mem(context, 0);
// node 0 is the full width, node 1 is the sentinel (lets us not store width explicitly)
context->extra[0].x = 0;
context->extra[0].y = 0;
context->extra[0].next = &context->extra[1];
context->extra[1].x = (stbrp_coord) width;
context->extra[1].y = (1<<30);
context->extra[1].next = NULL;
}
// find minimum y position if it starts at x1
static int stbrp__skyline_find_min_y(stbrp_context *c, stbrp_node *first, int x0, int width, int *pwaste)
{
stbrp_node *node = first;
int x1 = x0 + width;
int min_y, visited_width, waste_area;
STBRP__NOTUSED(c);
STBRP_ASSERT(first->x <= x0);
#if 0
// skip in case we're past the node
while (node->next->x <= x0)
++node;
#else
STBRP_ASSERT(node->next->x > x0); // we ended up handling this in the caller for efficiency
#endif
STBRP_ASSERT(node->x <= x0);
min_y = 0;
waste_area = 0;
visited_width = 0;
while (node->x < x1) {
if (node->y > min_y) {
// raise min_y higher.
// we've accounted for all waste up to min_y,
// but we'll now add more waste for everything we've visted
waste_area += visited_width * (node->y - min_y);
min_y = node->y;
// the first time through, visited_width might be reduced
if (node->x < x0)
visited_width += node->next->x - x0;
else
visited_width += node->next->x - node->x;
} else {
// add waste area
int under_width = node->next->x - node->x;
if (under_width + visited_width > width)
under_width = width - visited_width;
waste_area += under_width * (min_y - node->y);
visited_width += under_width;
}
node = node->next;
}
*pwaste = waste_area;
return min_y;
}
typedef struct
{
int x,y;
stbrp_node **prev_link;
} stbrp__findresult;
static stbrp__findresult stbrp__skyline_find_best_pos(stbrp_context *c, int width, int height)
{
int best_waste = (1<<30), best_x, best_y = (1 << 30);
stbrp__findresult fr;
stbrp_node **prev, *node, *tail, **best = NULL;
// align to multiple of c->align
width = (width + c->align - 1);
width -= width % c->align;
STBRP_ASSERT(width % c->align == 0);
// if it can't possibly fit, bail immediately
if (width > c->width || height > c->height) {
fr.prev_link = NULL;
fr.x = fr.y = 0;
return fr;
}
node = c->active_head;
prev = &c->active_head;
while (node->x + width <= c->width) {
int y,waste;
y = stbrp__skyline_find_min_y(c, node, node->x, width, &waste);
if (c->heuristic == STBRP_HEURISTIC_Skyline_BL_sortHeight) { // actually just want to test BL
// bottom left
if (y < best_y) {
best_y = y;
best = prev;
}
} else {
// best-fit
if (y + height <= c->height) {
// can only use it if it first vertically
if (y < best_y || (y == best_y && waste < best_waste)) {
best_y = y;
best_waste = waste;
best = prev;
}
}
}
prev = &node->next;
node = node->next;
}
best_x = (best == NULL) ? 0 : (*best)->x;
// if doing best-fit (BF), we also have to try aligning right edge to each node position
//
// e.g, if fitting
//
// ____________________
// |____________________|
//
// into
//
// | |
// | ____________|
// |____________|
//
// then right-aligned reduces waste, but bottom-left BL is always chooses left-aligned
//
// This makes BF take about 2x the time
if (c->heuristic == STBRP_HEURISTIC_Skyline_BF_sortHeight) {
tail = c->active_head;
node = c->active_head;
prev = &c->active_head;
// find first node that's admissible
while (tail->x < width)
tail = tail->next;
while (tail) {
int xpos = tail->x - width;
int y,waste;
STBRP_ASSERT(xpos >= 0);
// find the left position that matches this
while (node->next->x <= xpos) {
prev = &node->next;
node = node->next;
}
STBRP_ASSERT(node->next->x > xpos && node->x <= xpos);
y = stbrp__skyline_find_min_y(c, node, xpos, width, &waste);
if (y + height <= c->height) {
if (y <= best_y) {
if (y < best_y || waste < best_waste || (waste==best_waste && xpos < best_x)) {
best_x = xpos;
STBRP_ASSERT(y <= best_y);
best_y = y;
best_waste = waste;
best = prev;
}
}
}
tail = tail->next;
}
}
fr.prev_link = best;
fr.x = best_x;
fr.y = best_y;
return fr;
}
static stbrp__findresult stbrp__skyline_pack_rectangle(stbrp_context *context, int width, int height)
{
// find best position according to heuristic
stbrp__findresult res = stbrp__skyline_find_best_pos(context, width, height);
stbrp_node *node, *cur;
// bail if:
// 1. it failed
// 2. the best node doesn't fit (we don't always check this)
// 3. we're out of memory
if (res.prev_link == NULL || res.y + height > context->height || context->free_head == NULL) {
res.prev_link = NULL;
return res;
}
// on success, create new node
node = context->free_head;
node->x = (stbrp_coord) res.x;
node->y = (stbrp_coord) (res.y + height);
context->free_head = node->next;
// insert the new node into the right starting point, and
// let 'cur' point to the remaining nodes needing to be
// stiched back in
cur = *res.prev_link;
if (cur->x < res.x) {
// preserve the existing one, so start testing with the next one
stbrp_node *next = cur->next;
cur->next = node;
cur = next;
} else {
*res.prev_link = node;
}
// from here, traverse cur and free the nodes, until we get to one
// that shouldn't be freed
while (cur->next && cur->next->x <= res.x + width) {
stbrp_node *next = cur->next;
// move the current node to the free list
cur->next = context->free_head;
context->free_head = cur;
cur = next;
}
// stitch the list back in
node->next = cur;
if (cur->x < res.x + width)
cur->x = (stbrp_coord) (res.x + width);
#ifdef _DEBUG
cur = context->active_head;
while (cur->x < context->width) {
STBRP_ASSERT(cur->x < cur->next->x);
cur = cur->next;
}
STBRP_ASSERT(cur->next == NULL);
{
int count=0;
cur = context->active_head;
while (cur) {
cur = cur->next;
++count;
}
cur = context->free_head;
while (cur) {
cur = cur->next;
++count;
}
STBRP_ASSERT(count == context->num_nodes+2);
}
#endif
return res;
}
static int STBRP__CDECL rect_height_compare(const void *a, const void *b)
{
const stbrp_rect *p = (const stbrp_rect *) a;
const stbrp_rect *q = (const stbrp_rect *) b;
if (p->h > q->h)
return -1;
if (p->h < q->h)
return 1;
return (p->w > q->w) ? -1 : (p->w < q->w);
}
static int STBRP__CDECL rect_original_order(const void *a, const void *b)
{
const stbrp_rect *p = (const stbrp_rect *) a;
const stbrp_rect *q = (const stbrp_rect *) b;
return (p->was_packed < q->was_packed) ? -1 : (p->was_packed > q->was_packed);
}
STBRP_DEF int stbrp_pack_rects(stbrp_context *context, stbrp_rect *rects, int num_rects)
{
int i, all_rects_packed = 1;
// we use the 'was_packed' field internally to allow sorting/unsorting
for (i=0; i < num_rects; ++i) {
rects[i].was_packed = i;
}
// sort according to heuristic
STBRP_SORT(rects, num_rects, sizeof(rects[0]), rect_height_compare);
for (i=0; i < num_rects; ++i) {
if (rects[i].w == 0 || rects[i].h == 0) {
rects[i].x = rects[i].y = 0; // empty rect needs no space
} else {
stbrp__findresult fr = stbrp__skyline_pack_rectangle(context, rects[i].w, rects[i].h);
if (fr.prev_link) {
rects[i].x = (stbrp_coord) fr.x;
rects[i].y = (stbrp_coord) fr.y;
} else {
rects[i].x = rects[i].y = STBRP__MAXVAL;
}
}
}
// unsort
STBRP_SORT(rects, num_rects, sizeof(rects[0]), rect_original_order);
// set was_packed flags and all_rects_packed status
for (i=0; i < num_rects; ++i) {
rects[i].was_packed = !(rects[i].x == STBRP__MAXVAL && rects[i].y == STBRP__MAXVAL);
if (!rects[i].was_packed)
all_rects_packed = 0;
}
// return the all_rects_packed status
return all_rects_packed;
}
#endif
/*
------------------------------------------------------------------------------
This software is available under 2 licenses -- choose whichever you prefer.
------------------------------------------------------------------------------
ALTERNATIVE A - MIT License
Copyright (c) 2017 Sean Barrett
Permission is hereby granted, free of charge, to any person obtaining a copy of
this software and associated documentation files (the "Software"), to deal in
the Software without restriction, including without limitation the rights to
use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies
of the Software, and to permit persons to whom the Software is furnished to do
so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all
copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
SOFTWARE.
------------------------------------------------------------------------------
ALTERNATIVE B - Public Domain (www.unlicense.org)
This is free and unencumbered software released into the public domain.
Anyone is free to copy, modify, publish, use, compile, sell, or distribute this
software, either in source code form or as a compiled binary, for any purpose,
commercial or non-commercial, and by any means.
In jurisdictions that recognize copyright laws, the author or authors of this
software dedicate any and all copyright interest in the software to the public
domain. We make this dedication for the benefit of the public at large and to
the detriment of our heirs and successors. We intend this dedication to be an
overt act of relinquishment in perpetuity of all present and future rights to
this software under copyright law.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN
ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION
WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
------------------------------------------------------------------------------
*/

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INCLUDES = -I..
CFLAGS = -Wno-pointer-to-int-cast -Wno-int-to-pointer-cast -DSTB_DIVIDE_TEST
CPPFLAGS = -Wno-write-strings -DSTB_DIVIDE_TEST
# Uncomment this line for reproducing OSS-Fuzz bugs with image_fuzzer
#CFLAGS += -O -fsanitize=address
all:
$(CC) $(INCLUDES) $(CFLAGS) ../stb_vorbis.c test_c_compilation.c test_c_lexer.c test_dxt.c test_easyfont.c test_image.c test_image_write.c test_perlin.c test_sprintf.c test_truetype.c test_voxel.c -lm
$(CC) $(INCLUDES) $(CPPFLAGS) -std=c++0x test_cpp_compilation.cpp -lm -lstdc++
$(CC) $(INCLUDES) $(CFLAGS) -DIWT_TEST image_write_test.c -lm -o image_write_test
$(CC) $(INCLUDES) $(CFLAGS) fuzz_main.c stbi_read_fuzzer.c -lm -o image_fuzzer

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#define STB_C_LEX_C_DECIMAL_INTS Y // "0|[1-9][0-9]*" CLEX_intlit
#define STB_C_LEX_C_HEX_INTS Y // "0x[0-9a-fA-F]+" CLEX_intlit
#define STB_C_LEX_C_OCTAL_INTS Y // "[0-7]+" CLEX_intlit
#define STB_C_LEX_C_DECIMAL_FLOATS Y // "[0-9]*(.[0-9]*([eE][-+]?[0-9]+)?) CLEX_floatlit
#define STB_C_LEX_C99_HEX_FLOATS Y // "0x{hex}+(.{hex}*)?[pP][-+]?{hex}+ CLEX_floatlit
#define STB_C_LEX_C_IDENTIFIERS Y // "[_a-zA-Z][_a-zA-Z0-9]*" CLEX_id
#define STB_C_LEX_C_DQ_STRINGS Y // double-quote-delimited strings with escapes CLEX_dqstring
#define STB_C_LEX_C_SQ_STRINGS Y // single-quote-delimited strings with escapes CLEX_ssstring
#define STB_C_LEX_C_CHARS Y // single-quote-delimited character with escape CLEX_charlits
#define STB_C_LEX_C_COMMENTS Y // "/* comment */"
#define STB_C_LEX_CPP_COMMENTS Y // "// comment to end of line\n"
#define STB_C_LEX_C_COMPARISONS Y // "==" CLEX_eq "!=" CLEX_noteq "<=" CLEX_lesseq ">=" CLEX_greatereq
#define STB_C_LEX_C_LOGICAL Y // "&&" CLEX_andand "||" CLEX_oror
#define STB_C_LEX_C_SHIFTS Y // "<<" CLEX_shl ">>" CLEX_shr
#define STB_C_LEX_C_INCREMENTS Y // "++" CLEX_plusplus "--" CLEX_minusminus
#define STB_C_LEX_C_ARROW Y // "->" CLEX_arrow
#define STB_C_LEX_EQUAL_ARROW Y // "=>" CLEX_eqarrow
#define STB_C_LEX_C_BITWISEEQ Y // "&=" CLEX_andeq "|=" CLEX_oreq "^=" CLEX_xoreq
#define STB_C_LEX_C_ARITHEQ Y // "+=" CLEX_pluseq "-=" CLEX_minuseq
// "*=" CLEX_muleq "/=" CLEX_diveq "%=" CLEX_modeq
// if both STB_C_LEX_SHIFTS & STB_C_LEX_ARITHEQ:
// "<<=" CLEX_shleq ">>=" CLEX_shreq
#define STB_C_LEX_PARSE_SUFFIXES Y // letters after numbers are parsed as part of those numbers, and must be in suffix list below
#define STB_C_LEX_DECIMAL_SUFFIXES "uUlL" // decimal integer suffixes e.g. "uUlL" -- these are returned as-is in string storage
#define STB_C_LEX_HEX_SUFFIXES "lL" // e.g. "uUlL"
#define STB_C_LEX_OCTAL_SUFFIXES "lL" // e.g. "uUlL"
#define STB_C_LEX_FLOAT_SUFFIXES "uulL" //
#define STB_C_LEX_0_IS_EOF N // if Y, ends parsing at '\0'; if N, returns '\0' as token
#define STB_C_LEX_INTEGERS_AS_DOUBLES N // parses integers as doubles so they can be larger than 'int', but only if STB_C_LEX_STDLIB==N
#define STB_C_LEX_MULTILINE_DSTRINGS Y // allow newlines in double-quoted strings
#define STB_C_LEX_MULTILINE_SSTRINGS Y // allow newlines in single-quoted strings
#define STB_C_LEX_USE_STDLIB N // use strtod,strtol for parsing #s; otherwise inaccurate hack
#define STB_C_LEX_DOLLAR_IDENTIFIER Y // allow $ as an identifier character
#define STB_C_LEX_FLOAT_NO_DECIMAL Y // allow floats that have no decimal point if they have an exponent
#define STB_C_LEX_DEFINE_ALL_TOKEN_NAMES Y // if Y, all CLEX_ token names are defined, even if never returned
// leaving it as N should help you catch config bugs
#define STB_C_LEX_DISCARD_PREPROCESSOR Y // discard C-preprocessor directives (e.g. after prepocess
// still have #line, #pragma, etc)
#define STB_C_LEXER_DEFINITIONS // This line prevents the header file from replacing your definitions
#define STB_C_LEXER_IMPLEMENTATION
#define STB_C_LEXER_SELF_TEST
#include "../stb_c_lexer.h"

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# Microsoft Developer Studio Project File - Name="c_lexer_test" - Package Owner=<4>
# Microsoft Developer Studio Generated Build File, Format Version 6.00
# ** DO NOT EDIT **
# TARGTYPE "Win32 (x86) Console Application" 0x0103
CFG=c_lexer_test - Win32 Debug
!MESSAGE This is not a valid makefile. To build this project using NMAKE,
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!MESSAGE NMAKE /f "c_lexer_test.mak".
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!MESSAGE NMAKE /f "c_lexer_test.mak" CFG="c_lexer_test - Win32 Debug"
!MESSAGE
!MESSAGE Possible choices for configuration are:
!MESSAGE
!MESSAGE "c_lexer_test - Win32 Release" (based on "Win32 (x86) Console Application")
!MESSAGE "c_lexer_test - Win32 Debug" (based on "Win32 (x86) Console Application")
!MESSAGE
# Begin Project
# PROP AllowPerConfigDependencies 0
# PROP Scc_ProjName ""
# PROP Scc_LocalPath ""
CPP=cl.exe
RSC=rc.exe
!IF "$(CFG)" == "c_lexer_test - Win32 Release"
# PROP BASE Use_MFC 0
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# PROP BASE Output_Dir "Release"
# PROP BASE Intermediate_Dir "Release"
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# ADD RSC /l 0x409 /d "NDEBUG"
BSC32=bscmake.exe
# ADD BASE BSC32 /nologo
# ADD BSC32 /nologo
LINK32=link.exe
# ADD BASE LINK32 kernel32.lib user32.lib gdi32.lib winspool.lib comdlg32.lib advapi32.lib shell32.lib ole32.lib oleaut32.lib uuid.lib odbc32.lib odbccp32.lib kernel32.lib user32.lib gdi32.lib winspool.lib comdlg32.lib advapi32.lib shell32.lib ole32.lib oleaut32.lib uuid.lib odbc32.lib odbccp32.lib /nologo /subsystem:console /machine:I386
# ADD LINK32 kernel32.lib user32.lib gdi32.lib winspool.lib comdlg32.lib advapi32.lib shell32.lib ole32.lib oleaut32.lib uuid.lib odbc32.lib odbccp32.lib kernel32.lib user32.lib gdi32.lib winspool.lib comdlg32.lib advapi32.lib shell32.lib ole32.lib oleaut32.lib uuid.lib odbc32.lib odbccp32.lib /nologo /subsystem:console /machine:I386
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BSC32=bscmake.exe
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LINK32=link.exe
# ADD BASE LINK32 kernel32.lib user32.lib gdi32.lib winspool.lib comdlg32.lib advapi32.lib shell32.lib ole32.lib oleaut32.lib uuid.lib odbc32.lib odbccp32.lib kernel32.lib user32.lib gdi32.lib winspool.lib comdlg32.lib advapi32.lib shell32.lib ole32.lib oleaut32.lib uuid.lib odbc32.lib odbccp32.lib /nologo /subsystem:console /debug /machine:I386 /pdbtype:sept
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# Begin Target
# Name "c_lexer_test - Win32 Release"
# Name "c_lexer_test - Win32 Debug"
# Begin Source File
SOURCE=.\c_lexer_test.c
# End Source File
# End Target
# End Project

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# FAQ
### How to run it?
There's no GUI. Find a directory with Minecraft Anvil files (.mca).
Copy a Minecraft "terrain.png" into that directory (do a google
image search). Run from that directory.
### How accurate is this as a Minecraft viewer?
Not very. Many Minecraft blocks are not handled correctly:
* No redstone, rails, or other "flat" blocks
* No signs, doors, fences, carpets, or other complicated geometry
* Stairs are turned into ramps
* Upper slabs turn into lower slabs
* Wood types only for blocks, not stairs, slabs, etc
* Colored glass becomes regular glass
* Glass panes become glass blocks
* Water is opaque
* Water level is incorrect
* No biome coloration
* Cactus is not shrunk, shows holes
* Chests are not shrunk
* Double-chests draw as two chests
* Pumpkins etc. are not rotated properly
* Torches are drawn hackily, do not attach to walls
* Incorrect textures for blocks that postdate terrain.png
* Transparent textures have black fringes due to non-premultiplied-alpha
* Skylight and block light are combined in a single value
* Only blocks at y=1..255 are shown (not y=0)
* If a 32x32x256 "quad-chunk" needs more than 800K quads, isn't handled (very unlikely)
Some of these are due to engine limitations, and some of
these are because I didn't make the effort since my
goal was to make a demo for stb_voxel_render.h, not
to make a proper Minecraft viewer.
### Could this be turned into a proper Minecraft viewer?
Yes and no. Yes, you could do it, but no, it wouldn't
really resemble this code that much anymore.
You could certainly use this engine to
render the parts of Minecraft it works for, but many
of the things it doesn't handle it can't handle at all
(stairs, water, fences, carpets, etc) because it uses
low-precision coordinates to store voxel data.
You would have to render all of the stuff it doesn't
handle through another rendering path. In a game (not
a viewer) you would need such a path for movable entities
like doors and carts anyway, so possibly handling other
things that way wouldn't be so bad.
Rails, ladders, and redstone lines could be implemented by
using tex2 to overlay those effects, but you can't rotate
tex1 and tex2 independently, so there may be cases where
the underlying texture needs a different rotation from the
overlaid texture, which would require separate rendering.
Handling redstone's brightness being different from underlying
block's brightness would require separate rendering.
You can use the face-color effect to do biome coloration,
but the change won't be smooth the way it is in Minecraft.
### Why isn't building the mesh data faster?
Partly because converting from minecraft data is expensive.
Here is the approximate breakdown of an older version
of this executable and lib that did the building single-threaded.
* 25% loading & parsing minecraft files (4/5ths of this is my crappy zlib)
* 18% converting from minecraft blockids & lighting to stb blockids & lighting
* 10% reordering from data[z][y]\[x] (minecraft-style) to data[y][x]\[z] (stb-style)
* 40% building mesh data
* 7% uploading mesh data to OpenGL
I did do significant optimizations after the above, so the
final breakdown is different, but it should give you some
sense of the costs.

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#define _WIN32_WINNT 0x400
#include <assert.h>
#include <windows.h>
// stb.h
#define STB_DEFINE
#include "stb.h"
// stb_gl.h
#define STB_GL_IMPLEMENTATION
#define STB_GLEXT_DEFINE "glext_list.h"
#include "stb_gl.h"
// SDL
#include "sdl.h"
#include "SDL_opengl.h"
// stb_glprog.h
#define STB_GLPROG_IMPLEMENTATION
#define STB_GLPROG_ARB_DEFINE_EXTENSIONS
#include "stb_glprog.h"
// stb_image.h
#define STB_IMAGE_IMPLEMENTATION
#include "stb_image.h"
// stb_easy_font.h
#include "stb_easy_font.h" // doesn't require an IMPLEMENTATION
#include "caveview.h"
char *game_name = "caveview";
#define REVERSE_DEPTH
static void print_string(float x, float y, char *text, float r, float g, float b)
{
static char buffer[99999];
int num_quads;
num_quads = stb_easy_font_print(x, y, text, NULL, buffer, sizeof(buffer));
glColor3f(r,g,b);
glEnableClientState(GL_VERTEX_ARRAY);
glVertexPointer(2, GL_FLOAT, 16, buffer);
glDrawArrays(GL_QUADS, 0, num_quads*4);
glDisableClientState(GL_VERTEX_ARRAY);
}
static float text_color[3];
static float pos_x = 10;
static float pos_y = 10;
static void print(char *text, ...)
{
char buffer[999];
va_list va;
va_start(va, text);
vsprintf(buffer, text, va);
va_end(va);
print_string(pos_x, pos_y, buffer, text_color[0], text_color[1], text_color[2]);
pos_y += 10;
}
float camang[3], camloc[3] = { 60,22,77 };
float player_zoom = 1.0;
float rotate_view = 0.0;
void camera_to_worldspace(float world[3], float cam_x, float cam_y, float cam_z)
{
float vec[3] = { cam_x, cam_y, cam_z };
float t[3];
float s,c;
s = (float) sin(camang[0]*3.141592/180);
c = (float) cos(camang[0]*3.141592/180);
t[0] = vec[0];
t[1] = c*vec[1] - s*vec[2];
t[2] = s*vec[1] + c*vec[2];
s = (float) sin(camang[2]*3.141592/180);
c = (float) cos(camang[2]*3.141592/180);
world[0] = c*t[0] - s*t[1];
world[1] = s*t[0] + c*t[1];
world[2] = t[2];
}
// camera worldspace velocity
float cam_vel[3];
int controls;
#define MAX_VEL 150.0f // blocks per second
#define ACCEL 6.0f
#define DECEL 3.0f
#define STATIC_FRICTION DECEL
#define EFFECTIVE_ACCEL (ACCEL+DECEL)
// dynamic friction:
//
// if going at MAX_VEL, ACCEL and friction must cancel
// EFFECTIVE_ACCEL = DECEL + DYNAMIC_FRIC*MAX_VEL
#define DYNAMIC_FRICTION (ACCEL/(float)MAX_VEL)
float view_x_vel = 0;
float view_z_vel = 0;
float pending_view_x;
float pending_view_z;
float pending_view_x;
float pending_view_z;
void process_tick_raw(float dt)
{
int i;
float thrust[3] = { 0,0,0 };
float world_thrust[3];
// choose direction to apply thrust
thrust[0] = (controls & 3)== 1 ? EFFECTIVE_ACCEL : (controls & 3)== 2 ? -EFFECTIVE_ACCEL : 0;
thrust[1] = (controls & 12)== 4 ? EFFECTIVE_ACCEL : (controls & 12)== 8 ? -EFFECTIVE_ACCEL : 0;
thrust[2] = (controls & 48)==16 ? EFFECTIVE_ACCEL : (controls & 48)==32 ? -EFFECTIVE_ACCEL : 0;
// @TODO clamp thrust[0] & thrust[1] vector length to EFFECTIVE_ACCEL
camera_to_worldspace(world_thrust, thrust[0], thrust[1], 0);
world_thrust[2] += thrust[2];
for (i=0; i < 3; ++i) {
float acc = world_thrust[i];
cam_vel[i] += acc*dt;
}
if (cam_vel[0] || cam_vel[1] || cam_vel[2])
{
float vel = (float) sqrt(cam_vel[0]*cam_vel[0] + cam_vel[1]*cam_vel[1] + cam_vel[2]*cam_vel[2]);
float newvel = vel;
float dec = STATIC_FRICTION + DYNAMIC_FRICTION*vel;
newvel = vel - dec*dt;
if (newvel < 0)
newvel = 0;
cam_vel[0] *= newvel/vel;
cam_vel[1] *= newvel/vel;
cam_vel[2] *= newvel/vel;
}
camloc[0] += cam_vel[0] * dt;
camloc[1] += cam_vel[1] * dt;
camloc[2] += cam_vel[2] * dt;
view_x_vel *= (float) pow(0.75, dt);
view_z_vel *= (float) pow(0.75, dt);
view_x_vel += (pending_view_x - view_x_vel)*dt*60;
view_z_vel += (pending_view_z - view_z_vel)*dt*60;
pending_view_x -= view_x_vel * dt;
pending_view_z -= view_z_vel * dt;
camang[0] += view_x_vel * dt;
camang[2] += view_z_vel * dt;
camang[0] = stb_clamp(camang[0], -90, 90);
camang[2] = (float) fmod(camang[2], 360);
}
void process_tick(float dt)
{
while (dt > 1.0f/60) {
process_tick_raw(1.0f/60);
dt -= 1.0f/60;
}
process_tick_raw(dt);
}
void update_view(float dx, float dy)
{
// hard-coded mouse sensitivity, not resolution independent?
pending_view_z -= dx*300;
pending_view_x -= dy*700;
}
extern int screen_x, screen_y;
extern int is_synchronous_debug;
float render_time;
extern int chunk_locations, chunks_considered, chunks_in_frustum;
extern int quads_considered, quads_rendered;
extern int chunk_storage_rendered, chunk_storage_considered, chunk_storage_total;
extern int view_dist_in_chunks;
extern int num_threads_active, num_meshes_started, num_meshes_uploaded;
extern float chunk_server_activity;
static Uint64 start_time, end_time; // render time
float chunk_server_status[32];
int chunk_server_pos;
void draw_stats(void)
{
int i;
static Uint64 last_frame_time;
Uint64 cur_time = SDL_GetPerformanceCounter();
float chunk_server=0;
float frame_time = (cur_time - last_frame_time) / (float) SDL_GetPerformanceFrequency();
last_frame_time = cur_time;
chunk_server_status[chunk_server_pos] = chunk_server_activity;
chunk_server_pos = (chunk_server_pos+1) %32;
for (i=0; i < 32; ++i)
chunk_server += chunk_server_status[i] / 32.0f;
stb_easy_font_spacing(-0.75);
pos_y = 10;
text_color[0] = text_color[1] = text_color[2] = 1.0f;
print("Frame time: %6.2fms, CPU frame render time: %5.2fms", frame_time*1000, render_time*1000);
print("Tris: %4.1fM drawn of %4.1fM in range", 2*quads_rendered/1000000.0f, 2*quads_considered/1000000.0f);
print("Vbuf storage: %dMB in frustum of %dMB in range of %dMB in cache", chunk_storage_rendered>>20, chunk_storage_considered>>20, chunk_storage_total>>20);
print("Num mesh builds started this frame: %d; num uploaded this frame: %d\n", num_meshes_started, num_meshes_uploaded);
print("QChunks: %3d in frustum of %3d valid of %3d in range", chunks_in_frustum, chunks_considered, chunk_locations);
print("Mesh worker threads active: %d", num_threads_active);
print("View distance: %d blocks", view_dist_in_chunks*16);
print("%s", glGetString(GL_RENDERER));
if (is_synchronous_debug) {
text_color[0] = 1.0;
text_color[1] = 0.5;
text_color[2] = 0.5;
print("SLOWNESS: Synchronous debug output is enabled!");
}
}
void draw_main(void)
{
glEnable(GL_CULL_FACE);
glDisable(GL_TEXTURE_2D);
glDisable(GL_LIGHTING);
glEnable(GL_DEPTH_TEST);
#ifdef REVERSE_DEPTH
glDepthFunc(GL_GREATER);
glClearDepth(0);
#else
glDepthFunc(GL_LESS);
glClearDepth(1);
#endif
glDepthMask(GL_TRUE);
glDisable(GL_SCISSOR_TEST);
glClearColor(0.6f,0.7f,0.9f,0.0f);
glClear(GL_COLOR_BUFFER_BIT | GL_DEPTH_BUFFER_BIT);
glBlendFunc(GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA);
glColor3f(1,1,1);
glFrontFace(GL_CW);
glEnable(GL_TEXTURE_2D);
glDisable(GL_BLEND);
glMatrixMode(GL_PROJECTION);
glLoadIdentity();
#ifdef REVERSE_DEPTH
stbgl_Perspective(player_zoom, 90, 70, 3000, 1.0/16);
#else
stbgl_Perspective(player_zoom, 90, 70, 1.0/16, 3000);
#endif
// now compute where the camera should be
glMatrixMode(GL_MODELVIEW);
glLoadIdentity();
stbgl_initCamera_zup_facing_y();
glRotatef(-camang[0],1,0,0);
glRotatef(-camang[2],0,0,1);
glTranslatef(-camloc[0], -camloc[1], -camloc[2]);
start_time = SDL_GetPerformanceCounter();
render_caves(camloc);
end_time = SDL_GetPerformanceCounter();
render_time = (end_time - start_time) / (float) SDL_GetPerformanceFrequency();
glMatrixMode(GL_PROJECTION);
glLoadIdentity();
gluOrtho2D(0,screen_x/2,screen_y/2,0);
glMatrixMode(GL_MODELVIEW);
glLoadIdentity();
glDisable(GL_TEXTURE_2D);
glDisable(GL_BLEND);
glDisable(GL_CULL_FACE);
draw_stats();
}
#pragma warning(disable:4244; disable:4305; disable:4018)
#define SCALE 2
void error(char *s)
{
SDL_ShowSimpleMessageBox(SDL_MESSAGEBOX_ERROR, "Error", s, NULL);
exit(0);
}
void ods(char *fmt, ...)
{
char buffer[1000];
va_list va;
va_start(va, fmt);
vsprintf(buffer, fmt, va);
va_end(va);
SDL_Log("%s", buffer);
}
#define TICKS_PER_SECOND 60
static SDL_Window *window;
extern void draw_main(void);
extern void process_tick(float dt);
extern void editor_init(void);
void draw(void)
{
draw_main();
SDL_GL_SwapWindow(window);
}
static int initialized=0;
static float last_dt;
int screen_x,screen_y;
float carried_dt = 0;
#define TICKRATE 60
float tex2_alpha = 1.0;
int raw_level_time;
float global_timer;
int global_hack;
int loopmode(float dt, int real, int in_client)
{
if (!initialized) return 0;
if (!real)
return 0;
// don't allow more than 6 frames to update at a time
if (dt > 0.075) dt = 0.075;
global_timer += dt;
carried_dt += dt;
while (carried_dt > 1.0/TICKRATE) {
if (global_hack) {
tex2_alpha += global_hack / 60.0f;
if (tex2_alpha < 0) tex2_alpha = 0;
if (tex2_alpha > 1) tex2_alpha = 1;
}
//update_input();
// if the player is dead, stop the sim
carried_dt -= 1.0/TICKRATE;
}
process_tick(dt);
draw();
return 0;
}
static int quit;
extern int controls;
void active_control_set(int key)
{
controls |= 1 << key;
}
void active_control_clear(int key)
{
controls &= ~(1 << key);
}
extern void update_view(float dx, float dy);
void process_sdl_mouse(SDL_Event *e)
{
update_view((float) e->motion.xrel / screen_x, (float) e->motion.yrel / screen_y);
}
void process_event(SDL_Event *e)
{
switch (e->type) {
case SDL_MOUSEMOTION:
process_sdl_mouse(e);
break;
case SDL_MOUSEBUTTONDOWN:
case SDL_MOUSEBUTTONUP:
break;
case SDL_QUIT:
quit = 1;
break;
case SDL_WINDOWEVENT:
switch (e->window.event) {
case SDL_WINDOWEVENT_SIZE_CHANGED:
screen_x = e->window.data1;
screen_y = e->window.data2;
loopmode(0,1,0);
break;
}
break;
case SDL_KEYDOWN: {
int k = e->key.keysym.sym;
int s = e->key.keysym.scancode;
SDL_Keymod mod;
mod = SDL_GetModState();
if (k == SDLK_ESCAPE)
quit = 1;
if (s == SDL_SCANCODE_D) active_control_set(0);
if (s == SDL_SCANCODE_A) active_control_set(1);
if (s == SDL_SCANCODE_W) active_control_set(2);
if (s == SDL_SCANCODE_S) active_control_set(3);
if (k == SDLK_SPACE) active_control_set(4);
if (s == SDL_SCANCODE_LCTRL) active_control_set(5);
if (s == SDL_SCANCODE_S) active_control_set(6);
if (s == SDL_SCANCODE_D) active_control_set(7);
if (k == '1') global_hack = !global_hack;
if (k == '2') global_hack = -1;
#if 0
if (game_mode == GAME_editor) {
switch (k) {
case SDLK_RIGHT: editor_key(STBTE_scroll_right); break;
case SDLK_LEFT : editor_key(STBTE_scroll_left ); break;
case SDLK_UP : editor_key(STBTE_scroll_up ); break;
case SDLK_DOWN : editor_key(STBTE_scroll_down ); break;
}
switch (s) {
case SDL_SCANCODE_S: editor_key(STBTE_tool_select); break;
case SDL_SCANCODE_B: editor_key(STBTE_tool_brush ); break;
case SDL_SCANCODE_E: editor_key(STBTE_tool_erase ); break;
case SDL_SCANCODE_R: editor_key(STBTE_tool_rectangle ); break;
case SDL_SCANCODE_I: editor_key(STBTE_tool_eyedropper); break;
case SDL_SCANCODE_L: editor_key(STBTE_tool_link); break;
case SDL_SCANCODE_G: editor_key(STBTE_act_toggle_grid); break;
}
if ((e->key.keysym.mod & KMOD_CTRL) && !(e->key.keysym.mod & ~KMOD_CTRL)) {
switch (s) {
case SDL_SCANCODE_X: editor_key(STBTE_act_cut ); break;
case SDL_SCANCODE_C: editor_key(STBTE_act_copy ); break;
case SDL_SCANCODE_V: editor_key(STBTE_act_paste); break;
case SDL_SCANCODE_Z: editor_key(STBTE_act_undo ); break;
case SDL_SCANCODE_Y: editor_key(STBTE_act_redo ); break;
}
}
}
#endif
break;
}
case SDL_KEYUP: {
int k = e->key.keysym.sym;
int s = e->key.keysym.scancode;
if (s == SDL_SCANCODE_D) active_control_clear(0);
if (s == SDL_SCANCODE_A) active_control_clear(1);
if (s == SDL_SCANCODE_W) active_control_clear(2);
if (s == SDL_SCANCODE_S) active_control_clear(3);
if (k == SDLK_SPACE) active_control_clear(4);
if (s == SDL_SCANCODE_LCTRL) active_control_clear(5);
if (s == SDL_SCANCODE_S) active_control_clear(6);
if (s == SDL_SCANCODE_D) active_control_clear(7);
break;
}
}
}
static SDL_GLContext *context;
static float getTimestep(float minimum_time)
{
float elapsedTime;
double thisTime;
static double lastTime = -1;
if (lastTime == -1)
lastTime = SDL_GetTicks() / 1000.0 - minimum_time;
for(;;) {
thisTime = SDL_GetTicks() / 1000.0;
elapsedTime = (float) (thisTime - lastTime);
if (elapsedTime >= minimum_time) {
lastTime = thisTime;
return elapsedTime;
}
// @TODO: compute correct delay
SDL_Delay(1);
}
}
void APIENTRY gl_debug(GLenum source, GLenum type, GLuint id, GLenum severity, GLsizei length, const GLchar *message, const void *param)
{
ods("%s\n", message);
}
int is_synchronous_debug;
void enable_synchronous(void)
{
glEnable(GL_DEBUG_OUTPUT_SYNCHRONOUS_ARB);
is_synchronous_debug = 1;
}
void prepare_threads(void);
//void stbwingraph_main(void)
int SDL_main(int argc, char **argv)
{
SDL_Init(SDL_INIT_VIDEO);
prepare_threads();
SDL_GL_SetAttribute(SDL_GL_RED_SIZE , 8);
SDL_GL_SetAttribute(SDL_GL_GREEN_SIZE, 8);
SDL_GL_SetAttribute(SDL_GL_BLUE_SIZE , 8);
SDL_GL_SetAttribute(SDL_GL_DEPTH_SIZE, 24);
SDL_GL_SetAttribute(SDL_GL_CONTEXT_PROFILE_MASK, SDL_GL_CONTEXT_PROFILE_COMPATIBILITY);
SDL_GL_SetAttribute(SDL_GL_CONTEXT_MAJOR_VERSION, 3);
SDL_GL_SetAttribute(SDL_GL_CONTEXT_MINOR_VERSION, 1);
#ifdef GL_DEBUG
SDL_GL_SetAttribute(SDL_GL_CONTEXT_FLAGS, SDL_GL_CONTEXT_DEBUG_FLAG);
#endif
SDL_GL_SetAttribute(SDL_GL_MULTISAMPLESAMPLES, 4);
screen_x = 1920;
screen_y = 1080;
window = SDL_CreateWindow("caveview", SDL_WINDOWPOS_UNDEFINED, SDL_WINDOWPOS_UNDEFINED,
screen_x, screen_y,
SDL_WINDOW_OPENGL | SDL_WINDOW_RESIZABLE
);
if (!window) error("Couldn't create window");
context = SDL_GL_CreateContext(window);
if (!context) error("Couldn't create context");
SDL_GL_MakeCurrent(window, context); // is this true by default?
SDL_SetRelativeMouseMode(SDL_TRUE);
#if defined(_MSC_VER) && _MSC_VER < 1300
// work around broken behavior in VC6 debugging
if (IsDebuggerPresent())
SDL_SetHint(SDL_HINT_MOUSE_RELATIVE_MODE_WARP, "1");
#endif
stbgl_initExtensions();
#ifdef GL_DEBUG
if (glDebugMessageCallbackARB) {
glDebugMessageCallbackARB(gl_debug, NULL);
enable_synchronous();
}
#endif
SDL_GL_SetSwapInterval(1);
render_init();
mesh_init();
world_init();
initialized = 1;
while (!quit) {
SDL_Event e;
while (SDL_PollEvent(&e))
process_event(&e);
loopmode(getTimestep(0.0166f/8), 1, 1);
}
return 0;
}

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@ -0,0 +1,933 @@
// This file takes minecraft chunks (decoded by cave_parse) and
// uses stb_voxel_render to turn them into vertex buffers.
#define STB_GLEXT_DECLARE "glext_list.h"
#include "stb_gl.h"
#include "stb_image.h"
#include "stb_glprog.h"
#include "caveview.h"
#include "cave_parse.h"
#include "stb.h"
#include "sdl.h"
#include "sdl_thread.h"
#include <math.h>
//#define VHEIGHT_TEST
//#define STBVOX_OPTIMIZED_VHEIGHT
#define STBVOX_CONFIG_MODE 1
#define STBVOX_CONFIG_OPENGL_MODELVIEW
#define STBVOX_CONFIG_PREFER_TEXBUFFER
//#define STBVOX_CONFIG_LIGHTING_SIMPLE
#define STBVOX_CONFIG_FOG_SMOOTHSTEP
//#define STBVOX_CONFIG_PREMULTIPLIED_ALPHA // this doesn't work properly alpha test without next #define
//#define STBVOX_CONFIG_UNPREMULTIPLY // slower, fixes alpha test makes windows & fancy leaves look better
//#define STBVOX_CONFIG_TEX1_EDGE_CLAMP
#define STBVOX_CONFIG_DISABLE_TEX2
//#define STBVOX_CONFIG_DOWN_TEXLERP_PACKED
#define STBVOX_CONFIG_ROTATION_IN_LIGHTING
#define STB_VOXEL_RENDER_IMPLEMENTATION
#include "stb_voxel_render.h"
extern void ods(char *fmt, ...);
//#define FANCY_LEAVES // nearly 2x the triangles when enabled (if underground is filled)
#define FAST_CHUNK
#define IN_PLACE
#define SKIP_TERRAIN 0
//#define SKIP_TERRAIN 48 // use to avoid building underground stuff
// allows you to see what perf would be like if underground was efficiently culled,
// or if you were making a game without underground
enum
{
C_empty,
C_solid,
C_trans,
C_cross,
C_water,
C_slab,
C_stair,
C_force,
};
unsigned char geom_map[] =
{
STBVOX_GEOM_empty,
STBVOX_GEOM_solid,
STBVOX_GEOM_transp,
STBVOX_GEOM_crossed_pair,
STBVOX_GEOM_solid,
STBVOX_GEOM_slab_lower,
STBVOX_GEOM_floor_slope_north_is_top,
STBVOX_GEOM_force,
};
unsigned char minecraft_info[256][7] =
{
{ C_empty, 0,0,0,0,0,0 },
{ C_solid, 1,1,1,1,1,1 },
{ C_solid, 3,3,3,3,40,2 },
{ C_solid, 2,2,2,2,2,2 },
{ C_solid, 16,16,16,16,16,16 },
{ C_solid, 4,4,4,4,4,4 },
{ C_cross, 15,15,15,15 },
{ C_solid, 17,17,17,17,17,17 },
// 8
{ C_water, 223,223,223,223,223,223 },
{ C_water, 223,223,223,223,223,223 },
{ C_solid, 255,255,255,255,255,255 },
{ C_solid, 255,255,255,255,255,255 },
{ C_solid, 18,18,18,18,18,18 },
{ C_solid, 19,19,19,19,19,19 },
{ C_solid, 32,32,32,32,32,32 },
{ C_solid, 33,33,33,33,33,33 },
// 16
{ C_solid, 34,34,34,34,34,34 },
{ C_solid, 20,20,20,20,21,21 },
#ifdef FANCY_LEAVES
{ C_force, 52,52,52,52,52,52 }, // leaves
#else
{ C_solid, 53,53,53,53,53,53 }, // leaves
#endif
{ C_solid, 24,24,24,24,24,24 },
{ C_trans, 49,49,49,49,49,49 }, // glass
{ C_solid, 160,160,160,160,160,160 },
{ C_solid, 144,144,144,144,144,144 },
{ C_solid, 46,45,45,45,62,62 },
// 24
{ C_solid, 192,192,192,192, 176,176 },
{ C_solid, 74,74,74,74,74,74 },
{ C_empty }, // bed
{ C_empty }, // powered rail
{ C_empty }, // detector rail
{ C_solid, 106,108,109,108,108,108 },
{ C_empty }, // cobweb=11
{ C_cross, 39,39,39,39 },
// 32
{ C_cross, 55,55,55,55,0,0 },
{ C_solid, 107,108,109,108,108,108 },
{ C_empty }, // piston head
{ C_solid, 64,64,64,64,64,64 }, // various colors
{ C_empty }, // unused
{ C_cross, 13,13,13,13,0,0 },
{ C_cross, 12,12,12,12,0,0 },
{ C_cross, 29,29,29,29,0,0 },
// 40
{ C_cross, 28,28,28,28,0,0 },
{ C_solid, 23,23,23,23,23,23 },
{ C_solid, 22,22,22,22,22,22 },
{ C_solid, 5,5,5,5,6,6, },
{ C_slab , 5,5,5,5,6,6, },
{ C_solid, 7,7,7,7,7,7, },
{ C_solid, 8,8,8,8,9,10 },
{ C_solid, 35,35,35,35,4,4, },
// 48
//{ C_solid, 36,36,36,36,36,36 },
{ C_force, 36,36,36,36,36,36 },
{ C_solid, 37,37,37,37,37,37 },
{ C_cross, 80,80,80,80,80,80 }, // torch
{ C_empty }, // fire
{ C_trans, 65,65,65,65,65,65 },
{ C_stair, 4,4,4,4,4,4 },
{ C_solid, 26,26,26,27,25,25 },
{ C_empty }, // redstone
// 56
{ C_solid, 50,50,50,50,50,50 },
//{ C_force, 50,50,50,50,50,50 },
{ C_solid, 26,26,26,26,26,26 },
{ C_solid, 60,59,59,59,43,43 },
{ C_cross, 95,95,95,95 },
{ C_solid, 2,2,2,2,86,2 },
{ C_solid, 44,45,45,45,62,62 },
{ C_solid, 61,45,45,45,62,62 },
{ C_empty }, // sign
// 64
{ C_empty }, // door
{ C_empty }, // ladder
{ C_empty }, // rail
{ C_stair, 16,16,16,16,16,16 }, // cobblestone stairs
{ C_empty }, // sign
{ C_empty }, // lever
{ C_empty }, // stone pressure plate
{ C_empty }, // iron door
// 72
{ C_empty }, // wooden pressure
{ C_solid, 51,51,51,51,51,51 },
{ C_solid, 51,51,51,51,51,51 },
{ C_empty },
{ C_empty },
{ C_empty },
{ C_empty }, // snow on block below, do as half slab?
{ C_solid, 67,67,67,67,67,67 },
// 80
{ C_solid, 66,66,66,66,66,66 },
{ C_solid, 70,70,70,70,69,71 },
{ C_solid, 72,72,72,72,72,72 },
{ C_cross, 73,73,73,73,73,73 },
{ C_solid, 74,74,74,74,75,74 },
{ C_empty }, // fence
{ C_solid,119,118,118,118,102,102 },
{ C_solid,103,103,103,103,103,103 },
// 88
{ C_solid, 104,104,104,104,104,104 },
{ C_solid, 105,105,105,105,105,105 },
{ C_solid, 167,167,167,167,167,167 },
{ C_solid, 120,118,118,118,102,102 },
{ C_empty }, // cake
{ C_empty }, // repeater
{ C_empty }, // repeater
{ C_solid, 49,49,49,49,49,49 }, // colored glass
// 96
{ C_empty },
{ C_empty },
{ C_solid, 54,54,54,54,54,54 },
{ C_solid, 125,125,125,125,125,125 },
{ C_solid, 126,126,126,126,126,126 },
{ C_empty }, // bars
{ C_trans, 49,49,49,49,49,49 }, // glass pane
{ C_solid, 136,136,136,136,137,137 }, // melon
// 104
{ C_empty }, // pumpkin stem
{ C_empty }, // melon stem
{ C_empty }, // vines
{ C_empty }, // gate
{ C_stair, 7,7,7,7,7,7, }, // brick stairs
{ C_stair, 54,54,54,54,54,54 }, // stone brick stairs
{ C_empty }, // mycelium
{ C_empty }, // lily pad
// 112
{ C_solid, 224,224,224,224,224,224 },
{ C_empty }, // nether brick fence
{ C_stair, 224,224,224,224,224,224 }, // nether brick stairs
{ C_empty }, // nether wart
{ C_solid, 182,182,182,182,166,183 },
{ C_empty }, // brewing stand
{ C_empty }, // cauldron
{ C_empty }, // end portal
// 120
{ C_solid, 159,159,159,159,158,158 },
{ C_solid, 175,175,175,175,175,175 },
{ C_empty }, // dragon egg
{ C_solid, 211,211,211,211,211,211 },
{ C_solid, 212,212,212,212,212,212 },
{ C_solid, 4,4,4,4,4,4, }, // wood double-slab
{ C_slab , 4,4,4,4,4,4, }, // wood slab
{ C_empty }, // cocoa
// 128
{ C_solid, 192,192,192,192,176,176 }, // sandstone stairs
{ C_solid, 32,32,32,32,32,32 }, // emerald ore
{ C_solid, 26,26,26,27,25,25 }, // ender chest
{ C_empty },
{ C_empty },
{ C_solid, 23,23,23,23,23,23 }, // emerald block
{ C_solid, 198,198,198,198,198,198 }, // spruce stairs
{ C_solid, 214,214,214,214,214,214 }, // birch stairs
// 136
{ C_stair, 199,199,199,199,199,199 }, // jungle stairs
{ C_empty }, // command block
{ C_empty }, // beacon
{ C_slab, 16,16,16,16,16,16 }, // cobblestone wall
{ C_empty }, // flower pot
{ C_empty }, // carrot
{ C_empty }, // potatoes
{ C_empty }, // wooden button
// 144
{ C_empty }, // mob head
{ C_empty }, // anvil
{ C_solid, 26,26,26,27,25,25 }, // trapped chest
{ C_empty }, // weighted pressure plate light
{ C_empty }, // weighted pressure plat eheavy
{ C_empty }, // comparator inactive
{ C_empty }, // comparator active
{ C_empty }, // daylight sensor
// 152
{ C_solid, 135,135,135,135,135,135 }, // redstone block
{ C_solid, 0,0,0,0,0,0, }, // nether quartz ore
{ C_empty }, // hopper
{ C_solid, 22,22,22,22,22,22 }, // quartz block
{ C_stair, 22,22,22,22,22,22 }, // quartz stairs
{ C_empty }, // activator rail
{ C_solid, 46,45,45,45,62,62 }, // dropper
{ C_solid, 72,72,72,72,72,72 }, // stained clay
// 160
{ C_trans, 49,49,49,49,49,49 }, // stained glass pane
#ifdef FANCY_LEAVES
{ C_force, 52,52,52,52,52,52 }, // leaves
#else
{ C_solid, 53,53,53,53,53,53 }, // acacia leaves
#endif
{ C_solid, 20,20,20,20,21,21 }, // acacia tree
{ C_solid, 199,199,199,199,199,199 }, // acacia wood stairs
{ C_solid, 198,198,198,198,198,198 }, // dark oak stairs
{ C_solid, 146,146,146,146,146,146 }, // slime block
{ C_solid, 176,176,176,176,176,176 }, // red sandstone
{ C_solid, 176,176,176,176,176,176 }, // red sandstone
// 168
{ C_empty },
{ C_empty },
{ C_empty },
{ C_empty },
{ C_solid, 72,72,72,72,72,72 }, // hardened clay
{ C_empty },
{ C_empty },
{ C_empty },
// 176
{ C_empty },
{ C_empty },
{ C_solid, 176,176,176,176,176,176 }, // red sandstone
};
unsigned char minecraft_tex1_for_blocktype[256][6];
unsigned char effective_blocktype[256];
unsigned char minecraft_color_for_blocktype[256][6];
unsigned char minecraft_geom_for_blocktype[256];
uint8 build_buffer[BUILD_BUFFER_SIZE];
uint8 face_buffer[FACE_BUFFER_SIZE];
//GLuint vbuf, fbuf, fbuf_tex;
//unsigned char tex1_for_blocktype[256][6];
//unsigned char blocktype[34][34][257];
//unsigned char lighting[34][34][257];
// a superchunk is 64x64x256, with the border blocks computed as well,
// which means we need 4x4 chunks plus 16 border chunks plus 4 corner chunks
#define SUPERCHUNK_X 4
#define SUPERCHUNK_Y 4
unsigned char remap_data[16][16];
unsigned char remap[256];
unsigned char rotate_data[4] = { 1,3,2,0 };
void convert_fastchunk_inplace(fast_chunk *fc)
{
int i;
int num_blocks=0, step=0;
unsigned char rot[4096];
#ifndef IN_PLACE
unsigned char *storage;
#endif
memset(rot, 0, 4096);
for (i=0; i < 16; ++i)
num_blocks += fc->blockdata[i] != NULL;
#ifndef IN_PLACE
storage = malloc(16*16*16*2 * num_blocks);
#endif
for (i=0; i < 16; ++i) {
if (fc->blockdata[i]) {
int o=0;
unsigned char *bd,*dd,*lt,*sky;
unsigned char *out, *outb;
// this ordering allows us to determine which data we can safely overwrite for in-place processing
bd = fc->blockdata[i];
dd = fc->data[i];
lt = fc->light[i];
sky = fc->skylight[i];
#ifdef IN_PLACE
out = bd;
#else
out = storage + 16*16*16*2*step;
#endif
// bd is written in place, but also reads from dd
for (o=0; o < 16*16*16/2; o += 1) {
unsigned char v1,v2;
unsigned char d = dd[o];
v1 = bd[o*2+0];
v2 = bd[o*2+1];
if (remap[v1])
{
//unsigned char d = bd[o] & 15;
v1 = remap_data[remap[v1]][d&15];
rot[o*2+0] = rotate_data[d&3];
} else
v1 = effective_blocktype[v1];
if (remap[v2])
{
//unsigned char d = bd[o] >> 4;
v2 = remap_data[remap[v2]][d>>4];
rot[o*2+1] = rotate_data[(d>>4)&3];
} else
v2 = effective_blocktype[v2];
out[o*2+0] = v1;
out[o*2+1] = v2;
}
// this reads from lt & sky
#ifndef IN_PLACE
outb = out + 16*16*16;
++step;
#endif
// MC used to write in this order and it makes it possible to compute in-place
if (dd < sky && sky < lt) {
// @TODO go this path always if !IN_PLACE
#ifdef IN_PLACE
outb = dd;
#endif
for (o=0; o < 16*16*16/2; ++o) {
int bright;
bright = (lt[o]&15)*12 + 15 + (sky[o]&15)*16;
if (bright > 255) bright = 255;
if (bright < 32) bright = 32;
outb[o*2+0] = STBVOX_MAKE_LIGHTING_EXT((unsigned char) bright, (rot[o*2+0]&3));
bright = (lt[o]>>4)*12 + 15 + (sky[o]>>4)*16;
if (bright > 255) bright = 255;
if (bright < 32) bright = 32;
outb[o*2+1] = STBVOX_MAKE_LIGHTING_EXT((unsigned char) bright, (rot[o*2+1]&3));
}
} else {
// @TODO: if blocktype is in between others, this breaks; need to find which side has two pointers, and use that
// overwrite rot[] array, then copy out
#ifdef IN_PLACE
outb = (dd < sky) ? dd : sky;
if (lt < outb) lt = outb;
#endif
for (o=0; o < 16*16*16/2; ++o) {
int bright;
bright = (lt[o]&15)*12 + 15 + (sky[o]&15)*16;
if (bright > 255) bright = 255;
if (bright < 32) bright = 32;
rot[o*2+0] = STBVOX_MAKE_LIGHTING_EXT((unsigned char) bright, (rot[o*2+0]&3));
bright = (lt[o]>>4)*12 + 15 + (sky[o]>>4)*16;
if (bright > 255) bright = 255;
if (bright < 32) bright = 32;
rot[o*2+1] = STBVOX_MAKE_LIGHTING_EXT((unsigned char) bright, (rot[o*2+1]&3));
}
memcpy(outb, rot, 4096);
fc->data[i] = outb;
}
#ifndef IN_PLACE
fc->blockdata[i] = out;
fc->data[i] = outb;
#endif
}
}
#ifndef IN_PLACE
free(fc->pointer_to_free);
fc->pointer_to_free = storage;
#endif
}
void make_converted_fastchunk(fast_chunk *fc, int x, int y, int segment, uint8 *sv_blocktype, uint8 *sv_lighting)
{
int z;
assert(fc == NULL || (fc->refcount > 0 && fc->refcount < 64));
if (fc == NULL || fc->blockdata[segment] == NULL) {
for (z=0; z < 16; ++z) {
sv_blocktype[z] = C_empty;
sv_lighting[z] = 255;
}
} else {
unsigned char *block = fc->blockdata[segment];
unsigned char *data = fc->data[segment];
y = 15-y;
for (z=0; z < 16; ++z) {
sv_blocktype[z] = block[z*256 + y*16 + x];
sv_lighting [z] = data [z*256 + y*16 + x];
}
}
}
#define CHUNK_CACHE 64
typedef struct
{
int valid;
int chunk_x, chunk_y;
fast_chunk *fc;
} cached_converted_chunk;
cached_converted_chunk chunk_cache[CHUNK_CACHE][CHUNK_CACHE];
int cache_size = CHUNK_CACHE;
void reset_cache_size(int size)
{
int i,j;
for (j=size; j < cache_size; ++j) {
for (i=size; i < cache_size; ++i) {
cached_converted_chunk *ccc = &chunk_cache[j][i];
if (ccc->valid) {
if (ccc->fc) {
free(ccc->fc->pointer_to_free);
free(ccc->fc);
ccc->fc = NULL;
}
ccc->valid = 0;
}
}
}
cache_size = size;
}
// this must be called inside mutex
void deref_fastchunk(fast_chunk *fc)
{
if (fc) {
assert(fc->refcount > 0);
--fc->refcount;
if (fc->refcount == 0) {
free(fc->pointer_to_free);
free(fc);
}
}
}
SDL_mutex * chunk_cache_mutex;
SDL_mutex * chunk_get_mutex;
void lock_chunk_get_mutex(void)
{
SDL_LockMutex(chunk_get_mutex);
}
void unlock_chunk_get_mutex(void)
{
SDL_UnlockMutex(chunk_get_mutex);
}
fast_chunk *get_converted_fastchunk(int chunk_x, int chunk_y)
{
int slot_x = (chunk_x & (cache_size-1));
int slot_y = (chunk_y & (cache_size-1));
fast_chunk *fc;
cached_converted_chunk *ccc;
SDL_LockMutex(chunk_cache_mutex);
ccc = &chunk_cache[slot_y][slot_x];
if (ccc->valid) {
if (ccc->chunk_x == chunk_x && ccc->chunk_y == chunk_y) {
fast_chunk *fc = ccc->fc;
if (fc)
++fc->refcount;
SDL_UnlockMutex(chunk_cache_mutex);
return fc;
}
if (ccc->fc) {
deref_fastchunk(ccc->fc);
ccc->fc = NULL;
ccc->valid = 0;
}
}
SDL_UnlockMutex(chunk_cache_mutex);
fc = get_decoded_fastchunk_uncached(chunk_x, -chunk_y);
if (fc)
convert_fastchunk_inplace(fc);
SDL_LockMutex(chunk_cache_mutex);
// another thread might have updated it, so before we overwrite it...
if (ccc->fc) {
deref_fastchunk(ccc->fc);
ccc->fc = NULL;
}
if (fc)
fc->refcount = 1; // 1 in the cache
ccc->chunk_x = chunk_x;
ccc->chunk_y = chunk_y;
ccc->valid = 1;
if (fc)
++fc->refcount;
ccc->fc = fc;
SDL_UnlockMutex(chunk_cache_mutex);
return fc;
}
void make_map_segment_for_superchunk_preconvert(int chunk_x, int chunk_y, int segment, fast_chunk *fc_table[4][4], uint8 sv_blocktype[34][34][18], uint8 sv_lighting[34][34][18])
{
int a,b;
assert((chunk_x & 1) == 0);
assert((chunk_y & 1) == 0);
for (b=-1; b < 3; ++b) {
for (a=-1; a < 3; ++a) {
int xo = a*16+1;
int yo = b*16+1;
int x,y;
fast_chunk *fc = fc_table[b+1][a+1];
for (y=0; y < 16; ++y)
for (x=0; x < 16; ++x)
if (xo+x >= 0 && xo+x < 34 && yo+y >= 0 && yo+y < 34)
make_converted_fastchunk(fc,x,y, segment, sv_blocktype[xo+x][yo+y], sv_lighting[xo+x][yo+y]);
}
}
}
// build 1 mesh covering 2x2 chunks
void build_chunk(int chunk_x, int chunk_y, fast_chunk *fc_table[4][4], raw_mesh *rm)
{
int a,b,z;
stbvox_input_description *map;
#ifdef VHEIGHT_TEST
unsigned char vheight[34][34][18];
#endif
#ifndef STBVOX_CONFIG_DISABLE_TEX2
unsigned char tex2_choice[34][34][18];
#endif
assert((chunk_x & 1) == 0);
assert((chunk_y & 1) == 0);
rm->cx = chunk_x;
rm->cy = chunk_y;
stbvox_set_input_stride(&rm->mm, 34*18, 18);
assert(rm->mm.input.geometry == NULL);
map = stbvox_get_input_description(&rm->mm);
map->block_tex1_face = minecraft_tex1_for_blocktype;
map->block_color_face = minecraft_color_for_blocktype;
map->block_geometry = minecraft_geom_for_blocktype;
stbvox_reset_buffers(&rm->mm);
stbvox_set_buffer(&rm->mm, 0, 0, rm->build_buffer, BUILD_BUFFER_SIZE);
stbvox_set_buffer(&rm->mm, 0, 1, rm->face_buffer , FACE_BUFFER_SIZE);
map->blocktype = &rm->sv_blocktype[1][1][1]; // this is (0,0,0), but we need to be able to query off the edges
map->lighting = &rm->sv_lighting[1][1][1];
// fill in the top two rows of the buffer
for (a=0; a < 34; ++a) {
for (b=0; b < 34; ++b) {
rm->sv_blocktype[a][b][16] = 0;
rm->sv_lighting [a][b][16] = 255;
rm->sv_blocktype[a][b][17] = 0;
rm->sv_lighting [a][b][17] = 255;
}
}
#ifndef STBVOX_CONFIG_DISABLE_TEX2
for (a=0; a < 34; ++a) {
for (b=0; b < 34; ++b) {
int px = chunk_x*16 + a - 1;
int py = chunk_y*16 + b - 1;
float dist = (float) sqrt(px*px + py*py);
float s1 = (float) sin(dist / 16), s2, s3;
dist = (float) sqrt((px-80)*(px-80) + (py-50)*(py-50));
s2 = (float) sin(dist / 11);
for (z=0; z < 18; ++z) {
s3 = (float) sin(z * 3.141592 / 8);
s3 = s1*s2*s3;
tex2_choice[a][b][z] = 63 & (int) stb_linear_remap(s3,-1,1, -20,83);
}
}
}
#endif
for (z=256-16; z >= SKIP_TERRAIN; z -= 16)
{
int z0 = z;
int z1 = z+16;
if (z1 == 256) z1 = 255;
make_map_segment_for_superchunk_preconvert(chunk_x, chunk_y, z >> 4, fc_table, rm->sv_blocktype, rm->sv_lighting);
map->blocktype = &rm->sv_blocktype[1][1][1-z]; // specify location of 0,0,0 so that accessing z0..z1 gets right data
map->lighting = &rm->sv_lighting[1][1][1-z];
#ifndef STBVOX_CONFIG_DISABLE_TEX2
map->tex2 = &tex2_choice[1][1][1-z];
#endif
#ifdef VHEIGHT_TEST
// hacky test of vheight
for (a=0; a < 34; ++a) {
for (b=0; b < 34; ++b) {
int c;
for (c=0; c < 17; ++c) {
if (rm->sv_blocktype[a][b][c] != 0 && rm->sv_blocktype[a][b][c+1] == 0) {
// topmost block
vheight[a][b][c] = rand() & 255;
rm->sv_blocktype[a][b][c] = 168;
} else if (c > 0 && rm->sv_blocktype[a][b][c] != 0 && rm->sv_blocktype[a][b][c-1] == 0) {
// bottommost block
vheight[a][b][c] = ((rand() % 3) << 6) + ((rand() % 3) << 4) + ((rand() % 3) << 2) + (rand() % 3);
rm->sv_blocktype[a][b][c] = 169;
}
}
vheight[a][b][c] = STBVOX_MAKE_VHEIGHT(2,2,2,2); // flat top
}
}
map->vheight = &vheight[1][1][1-z];
#endif
{
stbvox_set_input_range(&rm->mm, 0,0,z0, 32,32,z1);
stbvox_set_default_mesh(&rm->mm, 0);
stbvox_make_mesh(&rm->mm);
}
// copy the bottom two rows of data up to the top
for (a=0; a < 34; ++a) {
for (b=0; b < 34; ++b) {
rm->sv_blocktype[a][b][16] = rm->sv_blocktype[a][b][0];
rm->sv_blocktype[a][b][17] = rm->sv_blocktype[a][b][1];
rm->sv_lighting [a][b][16] = rm->sv_lighting [a][b][0];
rm->sv_lighting [a][b][17] = rm->sv_lighting [a][b][1];
}
}
}
stbvox_set_mesh_coordinates(&rm->mm, chunk_x*16, chunk_y*16, 0);
stbvox_get_transform(&rm->mm, rm->transform);
stbvox_set_input_range(&rm->mm, 0,0,0, 32,32,255);
stbvox_get_bounds(&rm->mm, rm->bounds);
rm->num_quads = stbvox_get_quad_count(&rm->mm, 0);
}
int next_blocktype = 255;
unsigned char mc_rot[4] = { 1,3,2,0 };
// create blocktypes with rotation baked into type...
// @TODO we no longer need this now that we store rotations
// in lighting
void build_stair_rotations(int blocktype, unsigned char *map)
{
int i;
// use the existing block type for floor stairs; allocate a new type for ceil stairs
for (i=0; i < 6; ++i) {
minecraft_color_for_blocktype[next_blocktype][i] = minecraft_color_for_blocktype[blocktype][i];
minecraft_tex1_for_blocktype [next_blocktype][i] = minecraft_tex1_for_blocktype [blocktype][i];
}
minecraft_geom_for_blocktype[next_blocktype] = (unsigned char) STBVOX_MAKE_GEOMETRY(STBVOX_GEOM_ceil_slope_north_is_bottom, 0, 0);
minecraft_geom_for_blocktype[ blocktype] = (unsigned char) STBVOX_MAKE_GEOMETRY(STBVOX_GEOM_floor_slope_north_is_top, 0, 0);
for (i=0; i < 4; ++i) {
map[0+i+8] = map[0+i] = blocktype;
map[4+i+8] = map[4+i] = next_blocktype;
}
--next_blocktype;
}
void build_wool_variations(int bt, unsigned char *map)
{
int i,k;
unsigned char tex[16] = { 64, 210, 194, 178, 162, 146, 130, 114, 225, 209, 193, 177, 161, 145, 129, 113 };
for (i=0; i < 16; ++i) {
if (i == 0)
map[i] = bt;
else {
map[i] = next_blocktype;
for (k=0; k < 6; ++k) {
minecraft_tex1_for_blocktype[next_blocktype][k] = tex[i];
}
minecraft_geom_for_blocktype[next_blocktype] = minecraft_geom_for_blocktype[bt];
--next_blocktype;
}
}
}
void build_wood_variations(int bt, unsigned char *map)
{
int i,k;
unsigned char tex[4] = { 5, 198, 214, 199 };
for (i=0; i < 4; ++i) {
if (i == 0)
map[i] = bt;
else {
map[i] = next_blocktype;
for (k=0; k < 6; ++k) {
minecraft_tex1_for_blocktype[next_blocktype][k] = tex[i];
}
minecraft_geom_for_blocktype[next_blocktype] = minecraft_geom_for_blocktype[bt];
--next_blocktype;
}
}
map[i] = map[i-1];
++i;
for (; i < 16; ++i)
map[i] = bt;
}
void remap_in_place(int bt, int rm)
{
int i;
remap[bt] = rm;
for (i=0; i < 16; ++i)
remap_data[rm][i] = bt;
}
void mesh_init(void)
{
int i;
chunk_cache_mutex = SDL_CreateMutex();
chunk_get_mutex = SDL_CreateMutex();
for (i=0; i < 256; ++i) {
memcpy(minecraft_tex1_for_blocktype[i], minecraft_info[i]+1, 6);
effective_blocktype[i] = (minecraft_info[i][0] == C_empty ? 0 : i);
minecraft_geom_for_blocktype[i] = geom_map[minecraft_info[i][0]];
}
//effective_blocktype[50] = 0; // delete torches
for (i=0; i < 6*256; ++i) {
if (minecraft_tex1_for_blocktype[0][i] == 40)
minecraft_color_for_blocktype[0][i] = 38 | 64; // apply to tex1
if (minecraft_tex1_for_blocktype[0][i] == 39)
minecraft_color_for_blocktype[0][i] = 39 | 64; // apply to tex1
if (minecraft_tex1_for_blocktype[0][i] == 105)
minecraft_color_for_blocktype[0][i] = 63; // emissive
if (minecraft_tex1_for_blocktype[0][i] == 212)
minecraft_color_for_blocktype[0][i] = 63; // emissive
if (minecraft_tex1_for_blocktype[0][i] == 80)
minecraft_color_for_blocktype[0][i] = 63; // emissive
}
for (i=0; i < 6; ++i) {
minecraft_color_for_blocktype[172][i] = 47 | 64; // apply to tex1
minecraft_color_for_blocktype[178][i] = 47 | 64; // apply to tex1
minecraft_color_for_blocktype[18][i] = 39 | 64; // green
minecraft_color_for_blocktype[161][i] = 37 | 64; // green
minecraft_color_for_blocktype[10][i] = 63; // emissive lava
minecraft_color_for_blocktype[11][i] = 63; // emissive
//minecraft_color_for_blocktype[56][i] = 63; // emissive diamond
minecraft_color_for_blocktype[48][i] = 63; // emissive dungeon
}
#ifdef VHEIGHT_TEST
effective_blocktype[168] = 168;
minecraft_tex1_for_blocktype[168][0] = 1;
minecraft_tex1_for_blocktype[168][1] = 1;
minecraft_tex1_for_blocktype[168][2] = 1;
minecraft_tex1_for_blocktype[168][3] = 1;
minecraft_tex1_for_blocktype[168][4] = 1;
minecraft_tex1_for_blocktype[168][5] = 1;
minecraft_geom_for_blocktype[168] = STBVOX_GEOM_floor_vheight_12;
effective_blocktype[169] = 169;
minecraft_tex1_for_blocktype[169][0] = 1;
minecraft_tex1_for_blocktype[169][1] = 1;
minecraft_tex1_for_blocktype[169][2] = 1;
minecraft_tex1_for_blocktype[169][3] = 1;
minecraft_tex1_for_blocktype[169][4] = 1;
minecraft_tex1_for_blocktype[169][5] = 1;
minecraft_geom_for_blocktype[169] = STBVOX_GEOM_ceil_vheight_03;
#endif
remap[53] = 1;
remap[67] = 2;
remap[108] = 3;
remap[109] = 4;
remap[114] = 5;
remap[136] = 6;
remap[156] = 7;
for (i=0; i < 256; ++i)
if (remap[i])
build_stair_rotations(i, remap_data[remap[i]]);
remap[35] = 8;
build_wool_variations(35, remap_data[remap[35]]);
remap[5] = 11;
build_wood_variations(5, remap_data[remap[5]]);
// set the remap flags for these so they write the rotation values
remap_in_place(54, 9);
remap_in_place(146, 10);
}
// Timing stats while optimizing the single-threaded builder
// 32..-32, 32..-32, SKIP_TERRAIN=0, !FANCY_LEAVES on 'mcrealm' data set
// 6.27s - reblocked to do 16 z at a time instead of 256 (still using 66x66x258), 4 meshes in parallel
// 5.96s - reblocked to use FAST_CHUNK (no intermediate data structure)
// 5.45s - unknown change, or previous measurement was wrong
// 6.12s - use preconverted data, not in-place
// 5.91s - use preconverted, in-place
// 5.34s - preconvert, in-place, avoid dependency chain (suggested by ryg)
// 5.34s - preconvert, in-place, avoid dependency chain, use bit-table instead of byte-table
// 5.50s - preconvert, in-place, branchless
// 6.42s - non-preconvert, avoid dependency chain (not an error)
// 5.40s - non-preconvert, w/dependency chain (same as earlier)
// 5.50s - non-FAST_CHUNK, reblocked outer loop for better cache reuse
// 4.73s - FAST_CHUNK non-preconvert, reblocked outer loop
// 4.25s - preconvert, in-place, reblocked outer loop
// 4.18s - preconvert, in-place, unrolled again
// 4.10s - 34x34 1 mesh instead of 66x66 and 4 meshes (will make it easier to do multiple threads)
// 4.83s - building bitmasks but not using them (2 bits per block, one if empty, one if solid)
// 5.16s - using empty bitmasks to early out
// 5.01s - using solid & empty bitmasks to early out - "foo"
// 4.64s - empty bitmask only, test 8 at a time, then test geom
// 4.72s - empty bitmask only, 8 at a time, then test bits
// 4.46s - split bitmask building into three loops (each byte is separate)
// 4.42s - further optimize computing bitmask
// 4.58s - using solid & empty bitmasks to early out, same as "foo" but faster bitmask building
// 4.12s - using solid & empty bitmasks to efficiently test neighbors
// 4.04s - using 16-bit fetches (not endian-independent)
// - note this is first place that beats previous best '4.10s - 34x34 1 mesh'
// 4.30s - current time with bitmasks disabled again (note was 4.10s earlier)
// 3.95s - bitmasks enabled again, no other changes
// 4.00s - current time with bitmasks disabled again, no other changes -- wide variation that is time dependent?
// (note that most of the numbers listed here are median of 3 values already)
// 3.98s - bitmasks enabled
// Bitmasks removed from the code as not worth the complexity increase
// Raw data for Q&A:
//
// 26% parsing & loading minecraft files (4/5ths of which is zlib decode)
// 39% building mesh from stb input format
// 18% converting from minecraft blocks to stb blocks
// 9% reordering from minecraft axis order to stb axis order
// 7% uploading vertex buffer to OpenGL

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#include <assert.h>
#include <stdio.h>
#include <limits.h>
#include <stdlib.h>
#define FAST_CHUNK // disabling this enables the old, slower path that deblocks into a regular form
#include "cave_parse.h"
#include "stb_image.h"
#include "stb.h"
#define NUM_CHUNKS_PER_REGION 32 // only on one axis
#define NUM_CHUNKS_PER_REGION_LOG2 5
#define NUM_COLUMNS_PER_CHUNK 16
#define NUM_COLUMNS_PER_CHUNK_LOG2 4
uint32 read_uint32_be(FILE *f)
{
unsigned char data[4];
fread(data, 1, 4, f);
return (data[0]<<24) + (data[1]<<16) + (data[2]<<8) + data[3];
}
typedef struct
{
uint8 *data;
size_t len;
int x,z; // chunk index
int refcount; // for multi-threading
} compressed_chunk;
typedef struct
{
int x,z;
uint32 sector_data[NUM_CHUNKS_PER_REGION][NUM_CHUNKS_PER_REGION];
} region;
size_t cached_compressed=0;
FILE *last_region;
int last_region_x;
int last_region_z;
int opened=0;
static void open_file(int reg_x, int reg_z)
{
if (!opened || last_region_x != reg_x || last_region_z != reg_z) {
char filename[256];
if (last_region != NULL)
fclose(last_region);
sprintf(filename, "r.%d.%d.mca", reg_x, reg_z);
last_region = fopen(filename, "rb");
last_region_x = reg_x;
last_region_z = reg_z;
opened = 1;
}
}
static region *load_region(int reg_x, int reg_z)
{
region *r;
int x,z;
open_file(reg_x, reg_z);
r = malloc(sizeof(*r));
if (last_region == NULL) {
memset(r, 0, sizeof(*r));
} else {
fseek(last_region, 0, SEEK_SET);
for (z=0; z < NUM_CHUNKS_PER_REGION; ++z)
for (x=0; x < NUM_CHUNKS_PER_REGION; ++x)
r->sector_data[z][x] = read_uint32_be(last_region);
}
r->x = reg_x;
r->z = reg_z;
return r;
}
void free_region(region *r)
{
free(r);
}
#define MAX_MAP_REGIONS 64 // in one axis: 64 regions * 32 chunk/region * 16 columns/chunk = 16384 columns
region *regions[MAX_MAP_REGIONS][MAX_MAP_REGIONS];
static region *get_region(int reg_x, int reg_z)
{
int slot_x = reg_x & (MAX_MAP_REGIONS-1);
int slot_z = reg_z & (MAX_MAP_REGIONS-1);
region *r;
r = regions[slot_z][slot_x];
if (r) {
if (r->x == reg_x && r->z == reg_z)
return r;
free_region(r);
}
r = load_region(reg_x, reg_z);
regions[slot_z][slot_x] = r;
return r;
}
// about one region, so size should be ok
#define NUM_CACHED_X 64
#define NUM_CACHED_Z 64
// @TODO: is it really worth caching these? we probably can just
// pull them from the disk cache nearly as efficiently.
// Can test that by setting to 1x1?
compressed_chunk *cached_chunk[NUM_CACHED_Z][NUM_CACHED_X];
static void deref_compressed_chunk(compressed_chunk *cc)
{
assert(cc->refcount > 0);
--cc->refcount;
if (cc->refcount == 0) {
if (cc->data)
free(cc->data);
free(cc);
}
}
static compressed_chunk *get_compressed_chunk(int chunk_x, int chunk_z)
{
int slot_x = chunk_x & (NUM_CACHED_X-1);
int slot_z = chunk_z & (NUM_CACHED_Z-1);
compressed_chunk *cc = cached_chunk[slot_z][slot_x];
if (cc && cc->x == chunk_x && cc->z == chunk_z)
return cc;
else {
int reg_x = chunk_x >> NUM_CHUNKS_PER_REGION_LOG2;
int reg_z = chunk_z >> NUM_CHUNKS_PER_REGION_LOG2;
region *r = get_region(reg_x, reg_z);
if (cc) {
deref_compressed_chunk(cc);
cached_chunk[slot_z][slot_x] = NULL;
}
cc = malloc(sizeof(*cc));
cc->x = chunk_x;
cc->z = chunk_z;
{
int subchunk_x = chunk_x & (NUM_CHUNKS_PER_REGION-1);
int subchunk_z = chunk_z & (NUM_CHUNKS_PER_REGION-1);
uint32 code = r->sector_data[subchunk_z][subchunk_x];
if (code & 255) {
open_file(reg_x, reg_z);
fseek(last_region, (code>>8)*4096, SEEK_SET);
cc->len = (code&255)*4096;
cc->data = malloc(cc->len);
fread(cc->data, 1, cc->len, last_region);
} else {
cc->len = 0;
cc->data = 0;
}
}
cc->refcount = 1;
cached_chunk[slot_z][slot_x] = cc;
return cc;
}
}
// NBT parser -- can automatically parse stuff we don't
// have definitions for, but want to explicitly parse
// stuff we do have definitions for.
//
// option 1: auto-parse everything into data structures,
// then read those
//
// option 2: have a "parse next object" which
// doesn't resolve whether it expands its children
// yet, and then the user either says "expand" or
// "skip" after looking at the name. Anything with
// "children" without names can't go through this
// interface.
//
// Let's try option 2.
typedef struct
{
unsigned char *buffer_start;
unsigned char *buffer_end;
unsigned char *cur;
int nesting;
char temp_buffer[256];
} nbt;
enum { TAG_End=0, TAG_Byte=1, TAG_Short=2, TAG_Int=3, TAG_Long=4,
TAG_Float=5, TAG_Double=6, TAG_Byte_Array=7, TAG_String=8,
TAG_List=9, TAG_Compound=10, TAG_Int_Array=11 };
static void nbt_get_string_data(unsigned char *data, char *buffer, size_t bufsize)
{
int len = data[0]*256 + data[1];
int i;
for (i=0; i < len && i+1 < (int) bufsize; ++i)
buffer[i] = (char) data[i+2];
buffer[i] = 0;
}
static char *nbt_peek(nbt *n)
{
unsigned char type = *n->cur;
if (type == TAG_End)
return NULL;
nbt_get_string_data(n->cur+1, n->temp_buffer, sizeof(n->temp_buffer));
return n->temp_buffer;
}
static uint32 nbt_parse_uint32(unsigned char *buffer)
{
return (buffer[0] << 24) + (buffer[1]<<16) + (buffer[2]<<8) + buffer[3];
}
static void nbt_skip(nbt *n);
// skip an item that doesn't have an id or name prefix (usable in lists)
static void nbt_skip_raw(nbt *n, unsigned char type)
{
switch (type) {
case TAG_Byte : n->cur += 1; break;
case TAG_Short : n->cur += 2; break;
case TAG_Int : n->cur += 4; break;
case TAG_Long : n->cur += 8; break;
case TAG_Float : n->cur += 4; break;
case TAG_Double: n->cur += 8; break;
case TAG_Byte_Array: n->cur += 4 + 1*nbt_parse_uint32(n->cur); break;
case TAG_Int_Array : n->cur += 4 + 4*nbt_parse_uint32(n->cur); break;
case TAG_String : n->cur += 2 + (n->cur[0]*256 + n->cur[1]); break;
case TAG_List : {
unsigned char list_type = *n->cur++;
unsigned int list_len = nbt_parse_uint32(n->cur);
unsigned int i;
n->cur += 4; // list_len
for (i=0; i < list_len; ++i)
nbt_skip_raw(n, list_type);
break;
}
case TAG_Compound : {
while (*n->cur != TAG_End)
nbt_skip(n);
nbt_skip(n); // skip the TAG_end
break;
}
}
assert(n->cur <= n->buffer_end);
}
static void nbt_skip(nbt *n)
{
unsigned char type = *n->cur++;
if (type == TAG_End)
return;
// skip name
n->cur += (n->cur[0]*256 + n->cur[1]) + 2;
nbt_skip_raw(n, type);
}
// byteswap
static void nbt_swap(unsigned char *ptr, int len)
{
int i;
for (i=0; i < (len>>1); ++i) {
unsigned char t = ptr[i];
ptr[i] = ptr[len-1-i];
ptr[len-1-i] = t;
}
}
// pass in the expected type, fail if doesn't match
// returns a pointer to the data, byteswapped if appropriate
static void *nbt_get_fromlist(nbt *n, unsigned char type, int *len)
{
unsigned char *ptr;
assert(type != TAG_Compound);
assert(type != TAG_List); // we could support getting lists of primitives as if they were arrays, but eh
if (len) *len = 1;
ptr = n->cur;
switch (type) {
case TAG_Byte : break;
case TAG_Short : nbt_swap(ptr, 2); break;
case TAG_Int : nbt_swap(ptr, 4); break;
case TAG_Long : nbt_swap(ptr, 8); break;
case TAG_Float : nbt_swap(ptr, 4); break;
case TAG_Double: nbt_swap(ptr, 8); break;
case TAG_Byte_Array:
*len = nbt_parse_uint32(ptr);
ptr += 4;
break;
case TAG_Int_Array: {
int i;
*len = nbt_parse_uint32(ptr);
ptr += 4;
for (i=0; i < *len; ++i)
nbt_swap(ptr + 4*i, 4);
break;
}
default: assert(0); // unhandled case
}
nbt_skip_raw(n, type);
return ptr;
}
static void *nbt_get(nbt *n, unsigned char type, int *len)
{
assert(n->cur[0] == type);
n->cur += 3 + (n->cur[1]*256+n->cur[2]);
return nbt_get_fromlist(n, type, len);
}
static void nbt_begin_compound(nbt *n) // start a compound
{
assert(*n->cur == TAG_Compound);
// skip header
n->cur += 3 + (n->cur[1]*256 + n->cur[2]);
++n->nesting;
}
static void nbt_begin_compound_in_list(nbt *n) // start a compound
{
++n->nesting;
}
static void nbt_end_compound(nbt *n) // end a compound
{
assert(*n->cur == TAG_End);
assert(n->nesting != 0);
++n->cur;
--n->nesting;
}
// @TODO no interface to get lists from lists
static int nbt_begin_list(nbt *n, unsigned char type)
{
uint32 len;
unsigned char *ptr;
ptr = n->cur + 3 + (n->cur[1]*256 + n->cur[2]);
if (ptr[0] != type)
return -1;
n->cur = ptr;
len = nbt_parse_uint32(n->cur+1);
assert(n->cur[0] == type);
// @TODO keep a stack with the count to make sure they do it right
++n->nesting;
n->cur += 5;
return (int) len;
}
static void nbt_end_list(nbt *n)
{
--n->nesting;
}
// raw_block chunk is 16x256x16x4 = 2^(4+8+4+2) = 256KB
//
// if we want to process 64x64x256 at a time, that will be:
// 4*4*256KB => 4MB per area in raw_block
//
// (plus we maybe need to decode adjacent regions)
#ifdef FAST_CHUNK
typedef fast_chunk parse_chunk;
#else
typedef chunk parse_chunk;
#endif
static parse_chunk *minecraft_chunk_parse(unsigned char *data, size_t len)
{
char *s;
parse_chunk *c = NULL;
nbt n_store, *n = &n_store;
n->buffer_start = data;
n->buffer_end = data + len;
n->cur = n->buffer_start;
n->nesting = 0;
nbt_begin_compound(n);
while ((s = nbt_peek(n)) != NULL) {
if (!strcmp(s, "Level")) {
int *height;
c = malloc(sizeof(*c));
#ifdef FAST_CHUNK
memset(c, 0, sizeof(*c));
c->pointer_to_free = data;
#else
c->rb[15][15][255].block = 0;
#endif
c->max_y = 0;
nbt_begin_compound(n);
while ((s = nbt_peek(n)) != NULL) {
if (!strcmp(s, "xPos"))
c->xpos = *(int *) nbt_get(n, TAG_Int, 0);
else if (!strcmp(s, "zPos"))
c->zpos = *(int *) nbt_get(n, TAG_Int, 0);
else if (!strcmp(s, "Sections")) {
int count = nbt_begin_list(n, TAG_Compound), i;
if (count == -1) {
// this not-a-list case happens in The End and I'm not sure
// what it means... possibly one of those silly encodings
// where it's not encoded as a list if there's only one?
// not worth figuring out
nbt_skip(n);
count = -1;
}
for (i=0; i < count; ++i) {
int yi, len;
uint8 *light = NULL, *blocks = NULL, *data = NULL, *skylight = NULL;
nbt_begin_compound_in_list(n);
while ((s = nbt_peek(n)) != NULL) {
if (!strcmp(s, "Y"))
yi = * (uint8 *) nbt_get(n, TAG_Byte, 0);
else if (!strcmp(s, "BlockLight")) {
light = nbt_get(n, TAG_Byte_Array, &len);
assert(len == 2048);
} else if (!strcmp(s, "Blocks")) {
blocks = nbt_get(n, TAG_Byte_Array, &len);
assert(len == 4096);
} else if (!strcmp(s, "Data")) {
data = nbt_get(n, TAG_Byte_Array, &len);
assert(len == 2048);
} else if (!strcmp(s, "SkyLight")) {
skylight = nbt_get(n, TAG_Byte_Array, &len);
assert(len == 2048);
}
}
nbt_end_compound(n);
assert(yi < 16);
#ifndef FAST_CHUNK
// clear data below current max_y
{
int x,z;
while (c->max_y < yi*16) {
for (x=0; x < 16; ++x)
for (z=0; z < 16; ++z)
c->rb[z][x][c->max_y].block = 0;
++c->max_y;
}
}
// now assemble the data
{
int x,y,z, o2=0,o4=0;
for (y=0; y < 16; ++y) {
for (z=0; z < 16; ++z) {
for (x=0; x < 16; x += 2) {
raw_block *rb = &c->rb[15-z][x][y + yi*16]; // 15-z because switching to z-up will require flipping an axis
rb[0].block = blocks[o4];
rb[0].light = light[o2] & 15;
rb[0].data = data[o2] & 15;
rb[0].skylight = skylight[o2] & 15;
rb[256].block = blocks[o4+1];
rb[256].light = light[o2] >> 4;
rb[256].data = data[o2] >> 4;
rb[256].skylight = skylight[o2] >> 4;
o2 += 1;
o4 += 2;
}
}
}
c->max_y += 16;
}
#else
c->blockdata[yi] = blocks;
c->data [yi] = data;
c->light [yi] = light;
c->skylight [yi] = skylight;
#endif
}
//nbt_end_list(n);
} else if (!strcmp(s, "HeightMap")) {
height = nbt_get(n, TAG_Int_Array, &len);
assert(len == 256);
} else
nbt_skip(n);
}
nbt_end_compound(n);
} else
nbt_skip(n);
}
nbt_end_compound(n);
assert(n->cur == n->buffer_end);
return c;
}
#define MAX_DECODED_CHUNK_X 64
#define MAX_DECODED_CHUNK_Z 64
typedef struct
{
int cx,cz;
fast_chunk *fc;
int valid;
} decoded_buffer;
static decoded_buffer decoded_buffers[MAX_DECODED_CHUNK_Z][MAX_DECODED_CHUNK_X];
void lock_chunk_get_mutex(void);
void unlock_chunk_get_mutex(void);
#ifdef FAST_CHUNK
fast_chunk *get_decoded_fastchunk_uncached(int chunk_x, int chunk_z)
{
unsigned char *decoded;
compressed_chunk *cc;
int inlen;
int len;
fast_chunk *fc;
lock_chunk_get_mutex();
cc = get_compressed_chunk(chunk_x, chunk_z);
if (cc->len != 0)
++cc->refcount;
unlock_chunk_get_mutex();
if (cc->len == 0)
return NULL;
assert(cc != NULL);
assert(cc->data[4] == 2);
inlen = nbt_parse_uint32(cc->data);
decoded = stbi_zlib_decode_malloc_guesssize(cc->data+5, inlen, inlen*3, &len);
assert(decoded != NULL);
assert(len != 0);
lock_chunk_get_mutex();
deref_compressed_chunk(cc);
unlock_chunk_get_mutex();
#ifdef FAST_CHUNK
fc = minecraft_chunk_parse(decoded, len);
#else
fc = NULL;
#endif
if (fc == NULL)
free(decoded);
return fc;
}
decoded_buffer *get_decoded_buffer(int chunk_x, int chunk_z)
{
decoded_buffer *db = &decoded_buffers[chunk_z&(MAX_DECODED_CHUNK_Z-1)][chunk_x&(MAX_DECODED_CHUNK_X-1)];
if (db->valid) {
if (db->cx == chunk_x && db->cz == chunk_z)
return db;
if (db->fc) {
free(db->fc->pointer_to_free);
free(db->fc);
}
}
db->cx = chunk_x;
db->cz = chunk_z;
db->valid = 1;
db->fc = 0;
{
db->fc = get_decoded_fastchunk_uncached(chunk_x, chunk_z);
return db;
}
}
fast_chunk *get_decoded_fastchunk(int chunk_x, int chunk_z)
{
decoded_buffer *db = get_decoded_buffer(chunk_x, chunk_z);
return db->fc;
}
#endif
#ifndef FAST_CHUNK
chunk *get_decoded_chunk_raw(int chunk_x, int chunk_z)
{
unsigned char *decoded;
compressed_chunk *cc = get_compressed_chunk(chunk_x, chunk_z);
assert(cc != NULL);
if (cc->len == 0)
return NULL;
else {
chunk *ch;
int inlen = nbt_parse_uint32(cc->data);
int len;
assert(cc->data[4] == 2);
decoded = stbi_zlib_decode_malloc_guesssize(cc->data+5, inlen, inlen*3, &len);
assert(decoded != NULL);
#ifdef FAST_CHUNK
ch = NULL;
#else
ch = minecraft_chunk_parse(decoded, len);
#endif
free(decoded);
return ch;
}
}
static chunk *decoded_chunks[MAX_DECODED_CHUNK_Z][MAX_DECODED_CHUNK_X];
chunk *get_decoded_chunk(int chunk_x, int chunk_z)
{
chunk *c = decoded_chunks[chunk_z&(MAX_DECODED_CHUNK_Z-1)][chunk_x&(MAX_DECODED_CHUNK_X-1)];
if (c && c->xpos == chunk_x && c->zpos == chunk_z)
return c;
if (c) free(c);
c = get_decoded_chunk_raw(chunk_x, chunk_z);
decoded_chunks[chunk_z&(MAX_DECODED_CHUNK_Z-1)][chunk_x&(MAX_DECODED_CHUNK_X-1)] = c;
return c;
}
#endif

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#ifndef INCLUDE_CAVE_PARSE_H
#define INCLUDE_CAVE_PARSE_H
typedef struct
{
unsigned char block;
unsigned char data;
unsigned char light:4;
unsigned char skylight:4;
} raw_block;
// this is the old fully-decoded chunk
typedef struct
{
int xpos, zpos, max_y;
int height[16][16];
raw_block rb[16][16][256]; // [z][x][y] which becomes [y][x][z] in stb
} chunk;
chunk *get_decoded_chunk(int chunk_x, int chunk_z);
#define NUM_SEGMENTS 16
typedef struct
{
int max_y, xpos, zpos;
unsigned char *blockdata[NUM_SEGMENTS];
unsigned char *data[NUM_SEGMENTS];
unsigned char *skylight[NUM_SEGMENTS];
unsigned char *light[NUM_SEGMENTS];
void *pointer_to_free;
int refcount; // this allows multi-threaded building without wrapping in ANOTHER struct
} fast_chunk;
fast_chunk *get_decoded_fastchunk(int chunk_x, int chunk_z); // cache, never call free()
fast_chunk *get_decoded_fastchunk_uncached(int chunk_x, int chunk_z);
#endif

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// This file renders vertex buffers, converts raw meshes
// to GL meshes, and manages threads that do the raw-mesh
// building (found in cave_mesher.c)
#include "stb_voxel_render.h"
#define STB_GLEXT_DECLARE "glext_list.h"
#include "stb_gl.h"
#include "stb_image.h"
#include "stb_glprog.h"
#include "caveview.h"
#include "cave_parse.h"
#include "stb.h"
#include "sdl.h"
#include "sdl_thread.h"
#include <math.h>
#include <assert.h>
//#define STBVOX_CONFIG_TEX1_EDGE_CLAMP
// currently no dynamic way to set mesh cache size or view distance
//#define SHORTVIEW
stbvox_mesh_maker g_mesh_maker;
GLuint main_prog;
GLint uniform_locations[64];
//#define MAX_QUADS_PER_DRAW (65536 / 4) // assuming 16-bit indices, 4 verts per quad
//#define FIXED_INDEX_BUFFER_SIZE (MAX_QUADS_PER_DRAW * 6 * 2) // 16*1024 * 12 == ~192KB
// while uploading texture data, this holds our each texture
#define TEX_SIZE 64
uint32 texture[TEX_SIZE][TEX_SIZE];
GLuint voxel_tex[2];
// chunk state
enum
{
STATE_invalid,
STATE_needed,
STATE_requested,
STATE_abandoned,
STATE_valid,
};
// mesh is 32x32x255 ... this is hardcoded in that
// a mesh covers 2x2 minecraft chunks, no #defines for it
typedef struct
{
int state;
int chunk_x, chunk_y;
int num_quads;
float priority;
int vbuf_size, fbuf_size;
float transform[3][3];
float bounds[2][3];
GLuint vbuf;// vbuf_tex;
GLuint fbuf, fbuf_tex;
} chunk_mesh;
void scale_texture(unsigned char *src, int x, int y, int w, int h)
{
int i,j,k;
assert(w == 256 && h == 256);
for (j=0; j < TEX_SIZE; ++j) {
for (i=0; i < TEX_SIZE; ++i) {
uint32 val=0;
for (k=0; k < 4; ++k) {
val >>= 8;
val += src[ 4*(x+(i>>2)) + 4*w*(y+(j>>2)) + k]<<24;
}
texture[j][i] = val;
}
}
}
void build_base_texture(int n)
{
int x,y;
uint32 color = stb_rand() | 0x808080;
for (y=0; y<TEX_SIZE; ++y)
for (x=0; x<TEX_SIZE; ++x) {
texture[y][x] = (color + (stb_rand()&0x1f1f1f))|0xff000000;
}
}
void build_overlay_texture(int n)
{
int x,y;
uint32 color = stb_rand();
if (color & 16)
color = 0xff000000;
else
color = 0xffffffff;
for (y=0; y<TEX_SIZE; ++y)
for (x=0; x<TEX_SIZE; ++x) {
texture[y][x] = 0;
}
for (y=0; y < TEX_SIZE/8; ++y) {
for (x=0; x < TEX_SIZE; ++x) {
texture[y][x] = color;
texture[TEX_SIZE-1-y][x] = color;
texture[x][y] = color;
texture[x][TEX_SIZE-1-y] = color;
}
}
}
// view radius of about 1024 = 2048 columns / 32 columns-per-mesh = 2^11 / 2^5 = 64x64
// so we need bigger than 64x64 so we can precache, which means we have to be
// non-power-of-two, or we have to be pretty huge
#define CACHED_MESH_NUM_X 128
#define CACHED_MESH_NUM_Y 128
chunk_mesh cached_chunk_mesh[CACHED_MESH_NUM_Y][CACHED_MESH_NUM_X];
void free_chunk(int slot_x, int slot_y)
{
chunk_mesh *cm = &cached_chunk_mesh[slot_y][slot_x];
if (cm->state == STATE_valid) {
glDeleteTextures(1, &cm->fbuf_tex);
glDeleteBuffersARB(1, &cm->vbuf);
glDeleteBuffersARB(1, &cm->fbuf);
cached_chunk_mesh[slot_y][slot_x].state = STATE_invalid;
}
}
void upload_mesh(chunk_mesh *cm, uint8 *build_buffer, uint8 *face_buffer)
{
glGenBuffersARB(1, &cm->vbuf);
glBindBufferARB(GL_ARRAY_BUFFER_ARB, cm->vbuf);
glBufferDataARB(GL_ARRAY_BUFFER_ARB, cm->num_quads*4*sizeof(uint32), build_buffer, GL_STATIC_DRAW_ARB);
glBindBufferARB(GL_ARRAY_BUFFER_ARB, 0);
glGenBuffersARB(1, &cm->fbuf);
glBindBufferARB(GL_TEXTURE_BUFFER_ARB, cm->fbuf);
glBufferDataARB(GL_TEXTURE_BUFFER_ARB, cm->num_quads*sizeof(uint32), face_buffer , GL_STATIC_DRAW_ARB);
glBindBufferARB(GL_TEXTURE_BUFFER_ARB, 0);
glGenTextures(1, &cm->fbuf_tex);
glBindTexture(GL_TEXTURE_BUFFER_ARB, cm->fbuf_tex);
glTexBufferARB(GL_TEXTURE_BUFFER_ARB, GL_RGBA8UI, cm->fbuf);
glBindTexture(GL_TEXTURE_BUFFER_ARB, 0);
}
static void upload_mesh_data(raw_mesh *rm)
{
int cx = rm->cx;
int cy = rm->cy;
int slot_x = (cx >> 1) & (CACHED_MESH_NUM_X-1);
int slot_y = (cy >> 1) & (CACHED_MESH_NUM_Y-1);
chunk_mesh *cm;
free_chunk(slot_x, slot_y);
cm = &cached_chunk_mesh[slot_y][slot_x];
cm->num_quads = rm->num_quads;
upload_mesh(cm, rm->build_buffer, rm->face_buffer);
cm->vbuf_size = rm->num_quads*4*sizeof(uint32);
cm->fbuf_size = rm->num_quads*sizeof(uint32);
cm->priority = 100000;
cm->chunk_x = cx;
cm->chunk_y = cy;
memcpy(cm->bounds, rm->bounds, sizeof(cm->bounds));
memcpy(cm->transform, rm->transform, sizeof(cm->transform));
// write barrier here
cm->state = STATE_valid;
}
GLint uniform_loc[16];
float table3[128][3];
float table4[64][4];
GLint tablei[2];
float step=0;
#ifdef SHORTVIEW
int view_dist_in_chunks = 50;
#else
int view_dist_in_chunks = 80;
#endif
void setup_uniforms(float pos[3])
{
int i,j;
step += 1.0f/60.0f;
for (i=0; i < STBVOX_UNIFORM_count; ++i) {
stbvox_uniform_info raw, *ui=&raw;
stbvox_get_uniform_info(&raw, i);
uniform_loc[i] = -1;
if (i == STBVOX_UNIFORM_texscale || i == STBVOX_UNIFORM_texgen || i == STBVOX_UNIFORM_color_table)
continue;
if (ui) {
void *data = ui->default_value;
uniform_loc[i] = stbgl_find_uniform(main_prog, ui->name);
switch (i) {
case STBVOX_UNIFORM_face_data:
tablei[0] = 2;
data = tablei;
break;
case STBVOX_UNIFORM_tex_array:
glActiveTextureARB(GL_TEXTURE0_ARB);
glBindTexture(GL_TEXTURE_2D_ARRAY_EXT, voxel_tex[0]);
glActiveTextureARB(GL_TEXTURE1_ARB);
glBindTexture(GL_TEXTURE_2D_ARRAY_EXT, voxel_tex[1]);
glActiveTextureARB(GL_TEXTURE0_ARB);
tablei[0] = 0;
tablei[1] = 1;
data = tablei;
break;
case STBVOX_UNIFORM_color_table:
data = ui->default_value;
((float *)data)[63*4+3] = 2.0f; // emissive
break;
case STBVOX_UNIFORM_camera_pos:
data = table3[0];
table3[0][0] = pos[0];
table3[0][1] = pos[1];
table3[0][2] = pos[2];
table3[0][3] = stb_max(0,(float)sin(step*2)*0.125f);
break;
case STBVOX_UNIFORM_ambient: {
float bright = 1.0;
//float bright = 0.75;
float amb[3][3];
// ambient direction is sky-colored upwards
// "ambient" lighting is from above
table4[0][0] = 0.3f;
table4[0][1] = -0.5f;
table4[0][2] = 0.9f;
amb[1][0] = 0.3f; amb[1][1] = 0.3f; amb[1][2] = 0.3f; // dark-grey
amb[2][0] = 1.0; amb[2][1] = 1.0; amb[2][2] = 1.0; // white
// convert so (table[1]*dot+table[2]) gives
// above interpolation
// lerp((dot+1)/2, amb[1], amb[2])
// amb[1] + (amb[2] - amb[1]) * (dot+1)/2
// amb[1] + (amb[2] - amb[1]) * dot/2 + (amb[2]-amb[1])/2
for (j=0; j < 3; ++j) {
table4[1][j] = (amb[2][j] - amb[1][j])/2 * bright;
table4[2][j] = (amb[1][j] + amb[2][j])/2 * bright;
}
// fog color
table4[3][0] = 0.6f, table4[3][1] = 0.7f, table4[3][2] = 0.9f;
table4[3][3] = 1.0f / (view_dist_in_chunks * 16);
table4[3][3] *= table4[3][3];
data = table4;
break;
}
}
switch (ui->type) {
case STBVOX_UNIFORM_TYPE_sampler: stbglUniform1iv(uniform_loc[i], ui->array_length, data); break;
case STBVOX_UNIFORM_TYPE_vec2: stbglUniform2fv(uniform_loc[i], ui->array_length, data); break;
case STBVOX_UNIFORM_TYPE_vec3: stbglUniform3fv(uniform_loc[i], ui->array_length, data); break;
case STBVOX_UNIFORM_TYPE_vec4: stbglUniform4fv(uniform_loc[i], ui->array_length, data); break;
}
}
}
}
GLuint unitex[64], unibuf[64];
void make_texture_buffer_for_uniform(int uniform, int slot)
{
GLenum type;
stbvox_uniform_info raw, *ui=&raw;
GLint uloc;
stbvox_get_uniform_info(ui, uniform);
uloc = stbgl_find_uniform(main_prog, ui->name);
if (uniform == STBVOX_UNIFORM_color_table)
((float *)ui->default_value)[63*4+3] = 2.0f; // emissive
glGenBuffersARB(1, &unibuf[uniform]);
glBindBufferARB(GL_ARRAY_BUFFER_ARB, unibuf[uniform]);
glBufferDataARB(GL_ARRAY_BUFFER_ARB, ui->array_length * ui->bytes_per_element, ui->default_value, GL_STATIC_DRAW_ARB);
glBindBufferARB(GL_ARRAY_BUFFER_ARB, 0);
glGenTextures(1, &unitex[uniform]);
glBindTexture(GL_TEXTURE_BUFFER_ARB, unitex[uniform]);
switch (ui->type) {
case STBVOX_UNIFORM_TYPE_vec2: type = GL_RG32F; break;
case STBVOX_UNIFORM_TYPE_vec3: type = GL_RGB32F; break;
case STBVOX_UNIFORM_TYPE_vec4: type = GL_RGBA32F; break;
default: assert(0);
}
glTexBufferARB(GL_TEXTURE_BUFFER_ARB, type, unibuf[uniform]);
glBindTexture(GL_TEXTURE_BUFFER_ARB, 0);
glActiveTextureARB(GL_TEXTURE0 + slot);
glBindTexture(GL_TEXTURE_BUFFER_ARB, unitex[uniform]);
glActiveTextureARB(GL_TEXTURE0);
stbglUseProgram(main_prog);
stbglUniform1i(uloc, slot);
}
#define MAX_MESH_WORKERS 8
#define MAX_CHUNK_LOAD_WORKERS 2
int num_mesh_workers;
int num_chunk_load_workers;
typedef struct
{
int state;
int request_cx;
int request_cy;
int padding[13];
SDL_sem * request_received;
SDL_sem * chunk_server_done_processing;
int chunk_action;
int chunk_request_x;
int chunk_request_y;
fast_chunk *chunks[4][4];
int padding2[16];
raw_mesh rm;
int padding3[16];
uint8 *build_buffer;
uint8 *face_buffer ;
} mesh_worker;
enum
{
WSTATE_idle,
WSTATE_requested,
WSTATE_running,
WSTATE_mesh_ready,
};
mesh_worker mesh_data[MAX_MESH_WORKERS];
int num_meshes_started; // stats
int request_chunk(int chunk_x, int chunk_y);
void update_meshes_from_render_thread(void);
unsigned char tex2_data[64][4];
void init_tex2_gradient(void)
{
int i;
for (i=0; i < 16; ++i) {
tex2_data[i+ 0][0] = 64 + 12*i;
tex2_data[i+ 0][1] = 32;
tex2_data[i+ 0][2] = 64;
tex2_data[i+16][0] = 255;
tex2_data[i+16][1] = 32 + 8*i;
tex2_data[i+16][2] = 64;
tex2_data[i+32][0] = 255;
tex2_data[i+32][1] = 160;
tex2_data[i+32][2] = 64 + 12*i;
tex2_data[i+48][0] = 255;
tex2_data[i+48][1] = 160 + 6*i;
tex2_data[i+48][2] = 255;
}
}
void set_tex2_alpha(float fa)
{
int i;
int a = (int) stb_lerp(fa, 0, 255);
if (a < 0) a = 0; else if (a > 255) a = 255;
glBindTexture(GL_TEXTURE_2D_ARRAY_EXT, voxel_tex[1]);
for (i=0; i < 64; ++i) {
tex2_data[i][3] = a;
glTexSubImage3DEXT(GL_TEXTURE_2D_ARRAY_EXT, 0, 0,0,i, 1,1,1, GL_RGBA, GL_UNSIGNED_BYTE, tex2_data[i]);
}
}
void render_init(void)
{
int i;
char *binds[] = { "attr_vertex", "attr_face", NULL };
char *vertex;
char *fragment;
int w=0,h=0;
unsigned char *texdata = stbi_load("terrain.png", &w, &h, NULL, 4);
stbvox_init_mesh_maker(&g_mesh_maker);
for (i=0; i < num_mesh_workers; ++i) {
stbvox_init_mesh_maker(&mesh_data[i].rm.mm);
}
vertex = stbvox_get_vertex_shader();
fragment = stbvox_get_fragment_shader();
{
char error_buffer[1024];
char *main_vertex[] = { vertex, NULL };
char *main_fragment[] = { fragment, NULL };
main_prog = stbgl_create_program(main_vertex, main_fragment, binds, error_buffer, sizeof(error_buffer));
if (main_prog == 0) {
ods("Compile error for main shader: %s\n", error_buffer);
assert(0);
exit(1);
}
}
//init_index_buffer();
make_texture_buffer_for_uniform(STBVOX_UNIFORM_texscale , 3);
make_texture_buffer_for_uniform(STBVOX_UNIFORM_texgen , 4);
make_texture_buffer_for_uniform(STBVOX_UNIFORM_color_table , 5);
glGenTextures(2, voxel_tex);
glBindTexture(GL_TEXTURE_2D_ARRAY_EXT, voxel_tex[0]);
glTexImage3DEXT(GL_TEXTURE_2D_ARRAY_EXT, 0, GL_RGBA,
TEX_SIZE,TEX_SIZE,256,
0,GL_RGBA,GL_UNSIGNED_BYTE,NULL);
for (i=0; i < 256; ++i) {
if (texdata)
scale_texture(texdata, (i&15)*w/16, (h/16)*(i>>4), w,h);
else
build_base_texture(i);
glTexSubImage3DEXT(GL_TEXTURE_2D_ARRAY_EXT, 0, 0,0,i, TEX_SIZE,TEX_SIZE,1, GL_RGBA, GL_UNSIGNED_BYTE, texture[0]);
}
glTexParameteri(GL_TEXTURE_2D_ARRAY_EXT, GL_TEXTURE_MIN_FILTER, GL_LINEAR_MIPMAP_LINEAR);
glTexParameteri(GL_TEXTURE_2D_ARRAY_EXT, GL_TEXTURE_MAG_FILTER, GL_LINEAR);
glTexParameteri(GL_TEXTURE_2D_ARRAY_EXT, GL_TEXTURE_MAX_ANISOTROPY_EXT, 16);
#ifdef STBVOX_CONFIG_TEX1_EDGE_CLAMP
glTexParameteri(GL_TEXTURE_2D_ARRAY_EXT, GL_TEXTURE_WRAP_S, GL_CLAMP_TO_EDGE);
glTexParameteri(GL_TEXTURE_2D_ARRAY_EXT, GL_TEXTURE_WRAP_T, GL_CLAMP_TO_EDGE);
#endif
glGenerateMipmapEXT(GL_TEXTURE_2D_ARRAY_EXT);
glBindTexture(GL_TEXTURE_2D_ARRAY_EXT, voxel_tex[1]);
glTexImage3DEXT(GL_TEXTURE_2D_ARRAY_EXT, 0, GL_RGBA,
1,1,64,
0,GL_RGBA,GL_UNSIGNED_BYTE,NULL);
init_tex2_gradient();
set_tex2_alpha(0.0);
#if 0
for (i=0; i < 128; ++i) {
//build_overlay_texture(i);
glTexSubImage3DEXT(GL_TEXTURE_2D_ARRAY_EXT, 0, 0,0,i, TEX_SIZE,TEX_SIZE,1, GL_RGBA, GL_UNSIGNED_BYTE, texture[0]);
}
#endif
glTexParameteri(GL_TEXTURE_2D_ARRAY_EXT, GL_TEXTURE_MIN_FILTER, GL_LINEAR_MIPMAP_LINEAR);
glTexParameteri(GL_TEXTURE_2D_ARRAY_EXT, GL_TEXTURE_MAG_FILTER, GL_LINEAR);
glGenerateMipmapEXT(GL_TEXTURE_2D_ARRAY_EXT);
}
void world_init(void)
{
int a,b,x,y;
Uint64 start_time, end_time;
#ifdef NDEBUG
int range = 32;
#else
int range = 12;
#endif
start_time = SDL_GetPerformanceCounter();
// iterate in 8x8 clusters of qchunks at a time to get better converted-chunk-cache reuse
// than a purely row-by-row ordering is (single-threaded this is a bigger win than
// any of the above optimizations were, since it halves zlib/mc-conversion costs)
for (x=-range; x <= range; x += 16)
for (y=-range; y <= range; y += 16)
for (b=y; b < y+16 && b <= range; b += 2)
for (a=x; a < x+16 && a <= range; a += 2)
while (!request_chunk(a, b)) { // if request fails, all threads are busy
update_meshes_from_render_thread();
SDL_Delay(1);
}
// wait until all the workers are done,
// (this is only needed if we want to time
// when the build finishes, or when we want to reset the
// cache size; otherwise we could just go ahead and
// start rendering whatever we've got)
for(;;) {
int i;
update_meshes_from_render_thread();
for (i=0; i < num_mesh_workers; ++i)
if (mesh_data[i].state != WSTATE_idle)
break;
if (i == num_mesh_workers)
break;
SDL_Delay(3);
}
end_time = SDL_GetPerformanceCounter();
ods("Build time: %7.2fs\n", (end_time - start_time) / (float) SDL_GetPerformanceFrequency());
// don't waste lots of storage on chunk caches once it's finished starting-up;
// this was only needed to be this large because we worked in large blocks
// to maximize sharing
reset_cache_size(32);
}
extern SDL_mutex * chunk_cache_mutex;
int mesh_worker_handler(void *data)
{
mesh_worker *mw = data;
mw->face_buffer = malloc(FACE_BUFFER_SIZE);
mw->build_buffer = malloc(BUILD_BUFFER_SIZE);
// this loop only works because the compiler can't
// tell that the SDL_calls don't access mw->state;
// really we should barrier that stuff
for(;;) {
int i,j;
int cx,cy;
// wait for a chunk request
SDL_SemWait(mw->request_received);
// analyze the chunk request
assert(mw->state == WSTATE_requested);
cx = mw->request_cx;
cy = mw->request_cy;
// this is inaccurate as it can block while another thread has the cache locked
mw->state = WSTATE_running;
// get the chunks we need (this takes a lock and caches them)
for (j=0; j < 4; ++j)
for (i=0; i < 4; ++i)
mw->chunks[j][i] = get_converted_fastchunk(cx-1 + i, cy-1 + j);
// build the mesh based on the chunks
mw->rm.build_buffer = mw->build_buffer;
mw->rm.face_buffer = mw->face_buffer;
build_chunk(cx, cy, mw->chunks, &mw->rm);
mw->state = WSTATE_mesh_ready;
// don't need to notify of this, because it gets polled
// when done, free the chunks
// for efficiency we just take the mutex once around the whole thing,
// though this spreads the mutex logic over two files
SDL_LockMutex(chunk_cache_mutex);
for (j=0; j < 4; ++j)
for (i=0; i < 4; ++i) {
deref_fastchunk(mw->chunks[j][i]);
mw->chunks[j][i] = NULL;
}
SDL_UnlockMutex(chunk_cache_mutex);
}
return 0;
}
int request_chunk(int chunk_x, int chunk_y)
{
int i;
for (i=0; i < num_mesh_workers; ++i) {
mesh_worker *mw = &mesh_data[i];
if (mw->state == WSTATE_idle) {
mw->request_cx = chunk_x;
mw->request_cy = chunk_y;
mw->state = WSTATE_requested;
SDL_SemPost(mw->request_received);
++num_meshes_started;
return 1;
}
}
return 0;
}
void prepare_threads(void)
{
int i;
int num_proc = SDL_GetCPUCount();
if (num_proc > 6)
num_mesh_workers = num_proc/2;
else if (num_proc > 4)
num_mesh_workers = 4;
else
num_mesh_workers = num_proc-1;
// @TODO
// Thread usage is probably pretty terrible; need to make a
// separate queue of needed chunks, instead of just generating
// one request per thread per frame, and a separate queue of
// results. (E.g. If it takes 1.5 frames to build mesh, thread
// is idle for 0.5 frames.) To fake this for now, I've just
// doubled the number of threads to let those serve as a 'queue',
// but that's dumb.
num_mesh_workers *= 2; // try to get better thread usage
if (num_mesh_workers > MAX_MESH_WORKERS)
num_mesh_workers = MAX_MESH_WORKERS;
for (i=0; i < num_mesh_workers; ++i) {
mesh_worker *data = &mesh_data[i];
data->request_received = SDL_CreateSemaphore(0);
data->chunk_server_done_processing = SDL_CreateSemaphore(0);
SDL_CreateThread(mesh_worker_handler, "mesh worker", data);
}
}
// "better" buffer uploading
#if 0
if (glBufferStorage) {
glDeleteBuffersARB(1, &vb->vbuf);
glGenBuffersARB(1, &vb->vbuf);
glBindBufferARB(GL_ARRAY_BUFFER_ARB, vb->vbuf);
glBufferStorage(GL_ARRAY_BUFFER_ARB, sizeof(build_buffer), build_buffer, 0);
glBindBufferARB(GL_ARRAY_BUFFER_ARB, 0);
} else {
glBindBufferARB(GL_ARRAY_BUFFER_ARB, vb->vbuf);
glBufferDataARB(GL_ARRAY_BUFFER_ARB, sizeof(build_buffer), build_buffer, GL_STATIC_DRAW_ARB);
glBindBufferARB(GL_ARRAY_BUFFER_ARB, 0);
}
#endif
typedef struct
{
float x,y,z,w;
} plane;
static plane frustum[6];
static void matd_mul(double out[4][4], double src1[4][4], double src2[4][4])
{
int i,j,k;
for (j=0; j < 4; ++j) {
for (i=0; i < 4; ++i) {
double t=0;
for (k=0; k < 4; ++k)
t += src1[k][i] * src2[j][k];
out[i][j] = t;
}
}
}
// https://fgiesen.wordpress.com/2012/08/31/frustum-planes-from-the-projection-matrix/
static void compute_frustum(void)
{
int i;
GLdouble mv[4][4],proj[4][4], mvproj[4][4];
glGetDoublev(GL_MODELVIEW_MATRIX , mv[0]);
glGetDoublev(GL_PROJECTION_MATRIX, proj[0]);
matd_mul(mvproj, proj, mv);
for (i=0; i < 4; ++i) {
(&frustum[0].x)[i] = (float) (mvproj[3][i] + mvproj[0][i]);
(&frustum[1].x)[i] = (float) (mvproj[3][i] - mvproj[0][i]);
(&frustum[2].x)[i] = (float) (mvproj[3][i] + mvproj[1][i]);
(&frustum[3].x)[i] = (float) (mvproj[3][i] - mvproj[1][i]);
(&frustum[4].x)[i] = (float) (mvproj[3][i] + mvproj[2][i]);
(&frustum[5].x)[i] = (float) (mvproj[3][i] - mvproj[2][i]);
}
}
static int test_plane(plane *p, float x0, float y0, float z0, float x1, float y1, float z1)
{
// return false if the box is entirely behind the plane
float d=0;
assert(x0 <= x1 && y0 <= y1 && z0 <= z1);
if (p->x > 0) d += x1*p->x; else d += x0*p->x;
if (p->y > 0) d += y1*p->y; else d += y0*p->y;
if (p->z > 0) d += z1*p->z; else d += z0*p->z;
return d + p->w >= 0;
}
static int is_box_in_frustum(float *bmin, float *bmax)
{
int i;
for (i=0; i < 6; ++i)
if (!test_plane(&frustum[i], bmin[0], bmin[1], bmin[2], bmax[0], bmax[1], bmax[2]))
return 0;
return 1;
}
float compute_priority(int cx, int cy, float x, float y)
{
float distx, disty, dist2;
distx = (cx*16+8) - x;
disty = (cy*16+8) - y;
dist2 = distx*distx + disty*disty;
return view_dist_in_chunks*view_dist_in_chunks * 16 * 16 - dist2;
}
int chunk_locations, chunks_considered, chunks_in_frustum;
int quads_considered, quads_rendered;
int chunk_storage_rendered, chunk_storage_considered, chunk_storage_total;
int update_frustum = 1;
#ifdef SHORTVIEW
int max_chunk_storage = 450 << 20;
int min_chunk_storage = 350 << 20;
#else
int max_chunk_storage = 900 << 20;
int min_chunk_storage = 800 << 20;
#endif
float min_priority = -500; // this really wants to be in unit space, not squared space
int num_meshes_uploaded;
void update_meshes_from_render_thread(void)
{
int i;
for (i=0; i < num_mesh_workers; ++i) {
mesh_worker *mw = &mesh_data[i];
if (mw->state == WSTATE_mesh_ready) {
upload_mesh_data(&mw->rm);
++num_meshes_uploaded;
mw->state = WSTATE_idle;
}
}
}
extern float tex2_alpha;
extern int global_hack;
int num_threads_active;
float chunk_server_activity;
void render_caves(float campos[3])
{
float x = campos[0], y = campos[1];
int qchunk_x, qchunk_y;
int cam_x, cam_y;
int i,j, rad;
compute_frustum();
chunk_locations = chunks_considered = chunks_in_frustum = 0;
quads_considered = quads_rendered = 0;
chunk_storage_total = chunk_storage_considered = chunk_storage_rendered = 0;
cam_x = (int) floor(x+0.5);
cam_y = (int) floor(y+0.5);
qchunk_x = (((int) floor(x)+16) >> 5) << 1;
qchunk_y = (((int) floor(y)+16) >> 5) << 1;
glEnable(GL_ALPHA_TEST);
glAlphaFunc(GL_GREATER, 0.5);
stbglUseProgram(main_prog);
setup_uniforms(campos); // set uniforms to default values inefficiently
glActiveTextureARB(GL_TEXTURE2_ARB);
stbglEnableVertexAttribArray(0);
{
float lighting[2][3] = { { campos[0],campos[1],campos[2] }, { 0.75,0.75,0.65f } };
float bright = 8;
lighting[1][0] *= bright;
lighting[1][1] *= bright;
lighting[1][2] *= bright;
stbglUniform3fv(stbgl_find_uniform(main_prog, "light_source"), 2, lighting[0]);
}
if (global_hack)
set_tex2_alpha(tex2_alpha);
num_meshes_uploaded = 0;
update_meshes_from_render_thread();
// traverse all in-range chunks and analyze them
for (j=-view_dist_in_chunks; j <= view_dist_in_chunks; j += 2) {
for (i=-view_dist_in_chunks; i <= view_dist_in_chunks; i += 2) {
float priority;
int cx = qchunk_x + i;
int cy = qchunk_y + j;
priority = compute_priority(cx, cy, x, y);
if (priority >= min_priority) {
int slot_x = (cx>>1) & (CACHED_MESH_NUM_X-1);
int slot_y = (cy>>1) & (CACHED_MESH_NUM_Y-1);
chunk_mesh *cm = &cached_chunk_mesh[slot_y][slot_x];
++chunk_locations;
if (cm->state == STATE_valid && priority >= 0) {
// check if chunk pos actually matches
if (cm->chunk_x != cx || cm->chunk_y != cy) {
// we have a stale chunk we need to recreate
free_chunk(slot_x, slot_y); // it probably will have already gotten freed, but just in case
}
}
if (cm->state == STATE_invalid) {
cm->chunk_x = cx;
cm->chunk_y = cy;
cm->state = STATE_needed;
}
cm->priority = priority;
}
}
}
// draw front-to-back
for (rad = 0; rad <= view_dist_in_chunks; rad += 2) {
for (j=-rad; j <= rad; j += 2) {
// if j is +- rad, then iterate i through all values
// if j isn't +-rad, then i should be only -rad & rad
int step = 2;
if (abs(j) != rad)
step = 2*rad;
for (i=-rad; i <= rad; i += step) {
int cx = qchunk_x + i;
int cy = qchunk_y + j;
int slot_x = (cx>>1) & (CACHED_MESH_NUM_X-1);
int slot_y = (cy>>1) & (CACHED_MESH_NUM_Y-1);
chunk_mesh *cm = &cached_chunk_mesh[slot_y][slot_x];
if (cm->state == STATE_valid && cm->priority >= 0) {
++chunks_considered;
quads_considered += cm->num_quads;
if (is_box_in_frustum(cm->bounds[0], cm->bounds[1])) {
++chunks_in_frustum;
// @TODO if in range
stbglUniform3fv(uniform_loc[STBVOX_UNIFORM_transform], 3, cm->transform[0]);
glBindBufferARB(GL_ARRAY_BUFFER_ARB, cm->vbuf);
glVertexAttribIPointer(0, 1, GL_UNSIGNED_INT, 4, (void*) 0);
glBindTexture(GL_TEXTURE_BUFFER_ARB, cm->fbuf_tex);
glDrawArrays(GL_QUADS, 0, cm->num_quads*4);
quads_rendered += cm->num_quads;
chunk_storage_rendered += cm->vbuf_size + cm->fbuf_size;
}
chunk_storage_considered += cm->vbuf_size + cm->fbuf_size;
}
}
}
}
stbglDisableVertexAttribArray(0);
glBindBufferARB(GL_ARRAY_BUFFER_ARB, 0);
glActiveTextureARB(GL_TEXTURE0_ARB);
stbglUseProgram(0);
num_meshes_started = 0;
{
#define MAX_QUEUE 8
float highest_priority[MAX_QUEUE];
int highest_i[MAX_QUEUE], highest_j[MAX_QUEUE];
float lowest_priority = view_dist_in_chunks * view_dist_in_chunks * 16 * 16.0f;
int lowest_i = -1, lowest_j = -1;
for (i=0; i < MAX_QUEUE; ++i) {
highest_priority[i] = min_priority;
highest_i[i] = -1;
highest_j[i] = -1;
}
for (j=0; j < CACHED_MESH_NUM_Y; ++j) {
for (i=0; i < CACHED_MESH_NUM_X; ++i) {
chunk_mesh *cm = &cached_chunk_mesh[j][i];
if (cm->state == STATE_valid) {
cm->priority = compute_priority(cm->chunk_x, cm->chunk_y, x, y);
chunk_storage_total += cm->vbuf_size + cm->fbuf_size;
if (cm->priority < lowest_priority) {
lowest_priority = cm->priority;
lowest_i = i;
lowest_j = j;
}
}
if (cm->state == STATE_needed) {
cm->priority = compute_priority(cm->chunk_x, cm->chunk_y, x, y);
if (cm->priority < min_priority)
cm->state = STATE_invalid;
else if (cm->priority > highest_priority[0]) {
int k;
highest_priority[0] = cm->priority;
highest_i[0] = i;
highest_j[0] = j;
// bubble this up to right place
for (k=0; k < MAX_QUEUE-1; ++k) {
if (highest_priority[k] > highest_priority[k+1]) {
highest_priority[k] = highest_priority[k+1];
highest_priority[k+1] = cm->priority;
highest_i[k] = highest_i[k+1];
highest_i[k+1] = i;
highest_j[k] = highest_j[k+1];
highest_j[k+1] = j;
} else {
break;
}
}
}
}
}
}
// I couldn't find any straightforward logic that avoids
// the hysteresis problem of continually creating & freeing
// a block on the margin, so I just don't free a block until
// it's out of range, but this doesn't actually correctly
// handle when the cache is too small for the given range
if (chunk_storage_total >= min_chunk_storage && lowest_i >= 0) {
if (cached_chunk_mesh[lowest_j][lowest_i].priority < -1200) // -1000? 0?
free_chunk(lowest_i, lowest_j);
}
if (chunk_storage_total < max_chunk_storage && highest_i[0] >= 0) {
for (j=MAX_QUEUE-1; j >= 0; --j) {
if (highest_j[0] >= 0) {
chunk_mesh *cm = &cached_chunk_mesh[highest_j[j]][highest_i[j]];
if (request_chunk(cm->chunk_x, cm->chunk_y)) {
cm->state = STATE_requested;
} else {
// if we couldn't queue this one, skip the remainder
break;
}
}
}
}
}
update_meshes_from_render_thread();
num_threads_active = 0;
for (i=0; i < num_mesh_workers; ++i) {
num_threads_active += (mesh_data[i].state == WSTATE_running);
}
}

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# Begin Target
# Name "caveview - Win32 Release"
# Name "caveview - Win32 Debug"
# Begin Source File
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SOURCE=.\cave_parse.c
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SOURCE=.\win32\SDL_windows_main.c
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SOURCE=..\..\stb.h
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SOURCE=..\..\stb_easy_font.h
# End Source File
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SOURCE=.\stb_gl.h
# End Source File
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SOURCE=.\stb_glprog.h
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@ -0,0 +1,29 @@
Microsoft Developer Studio Workspace File, Format Version 6.00
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@ -0,0 +1,50 @@
#ifndef INCLUDE_CAVEVIEW_H
#define INCLUDE_CAVEVIEW_H
#include "stb.h"
#include "stb_voxel_render.h"
typedef struct
{
int cx,cy;
stbvox_mesh_maker mm;
uint8 *build_buffer;
uint8 *face_buffer;
int num_quads;
float transform[3][3];
float bounds[2][3];
uint8 sv_blocktype[34][34][18];
uint8 sv_lighting [34][34][18];
} raw_mesh;
// a 3D checkerboard of empty,solid would be: 32x32x255x6/2 ~= 800000
// an all-leaf qchunk would be: 32 x 32 x 255 x 6 ~= 1,600,000
#define BUILD_QUAD_MAX 400000
#define BUILD_BUFFER_SIZE (4*4*BUILD_QUAD_MAX) // 4 bytes per vertex, 4 vertices per quad
#define FACE_BUFFER_SIZE ( 4*BUILD_QUAD_MAX) // 4 bytes per quad
extern void mesh_init(void);
extern void render_init(void);
extern void world_init(void);
extern void ods(char *fmt, ...); // output debug string
extern void reset_cache_size(int size);
extern void render_caves(float pos[3]);
#include "cave_parse.h" // fast_chunk
extern fast_chunk *get_converted_fastchunk(int chunk_x, int chunk_y);
extern void build_chunk(int chunk_x, int chunk_y, fast_chunk *fc_table[4][4], raw_mesh *rm);
extern void reset_cache_size(int size);
extern void deref_fastchunk(fast_chunk *fc);
#endif

11124
external/stb/stb/tests/caveview/glext.h vendored Normal file

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GLARB(ActiveTexture,ACTIVETEXTURE)
GLARB(ClientActiveTexture,CLIENTACTIVETEXTURE)
GLARB(MultiTexCoord2f,MULTITEXCOORD2F)
GLEXT(TexImage3D,TEXIMAGE3D)
GLEXT(TexSubImage3D,TEXSUBIMAGE3D)
GLEXT(GenerateMipmap,GENERATEMIPMAP)
GLARB(DebugMessageCallback,DEBUGMESSAGECALLBACK)
GLCORE(VertexAttribIPointer,VERTEXATTRIBIPOINTER)
GLEXT(BindFramebuffer,BINDFRAMEBUFFER)
GLEXT(DeleteFramebuffers,DELETEFRAMEBUFFERS)
GLEXT(GenFramebuffers,GENFRAMEBUFFERS)
GLEXT(CheckFramebufferStatus,CHECKFRAMEBUFFERSTATUS)
GLEXT(FramebufferTexture2D,FRAMEBUFFERTEXTURE2D)
GLEXT(BindRenderBuffer,BINDRENDERBUFFER)
GLEXT(RenderbufferStorage,RENDERBUFFERSTORAGE)
GLEXT(GenRenderbuffers,GENRENDERBUFFERS)
GLEXT(BindRenderbuffer,BINDRENDERBUFFER)
GLEXT(FramebufferRenderbuffer,FRAMEBUFFERRENDERBUFFER)
GLEXT(GenerateMipmap,GENERATEMIPMAP)
GLARB(BindBuffer ,BINDBUFFER,)
GLARB(GenBuffers ,GENBUFFERS )
GLARB(DeleteBuffers,DELETEBUFFERS)
GLARB(BufferData ,BUFFERDATA )
GLARB(BufferSubData,BUFFERSUBDATA)
GLARB(MapBuffer ,MAPBUFFER )
GLARB(UnmapBuffer ,UNMAPBUFFER )
GLARB(TexBuffer ,TEXBUFFER )
GLEXT(NamedBufferStorage,NAMEDBUFFERSTORAGE)
GLE(BufferStorage,BUFFERSTORAGE)
GLE(GetStringi,GETSTRINGI)

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1103
external/stb/stb/tests/caveview/stb_gl.h vendored Normal file

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// stb_glprog v0.02 public domain functions to reduce GLSL boilerplate
// http://nothings.org/stb/stb_glprog.h especially with GL1 + ARB extensions
//
// Following defines *before* including have following effects:
//
// STB_GLPROG_IMPLEMENTATION
// creates the implementation
//
// STB_GLPROG_STATIC
// forces the implementation to be static (private to file that creates it)
//
// STB_GLPROG_ARB
// uses ARB extension names for GLSL functions and enumerants instead of core names
//
// STB_GLPROG_ARB_DEFINE_EXTENSIONS
// instantiates function pointers needed, static to implementing file
// to avoid collisions (but will collide if implementing file also
// defines any; best to isolate this to its own file in this case).
// This will try to automatically #include glext.h, but if it's not
// in the default include directories you'll need to include it
// yourself and define the next macro.
//
// STB_GLPROG_SUPPRESS_GLEXT_INCLUDE
// disables the automatic #include of glext.h which is normally
// forced by STB_GLPROG_ARB_DEFINE_EXTENSIONS
//
// So, e.g., sample usage on an old Windows compiler:
//
// #define STB_GLPROG_IMPLEMENTATION
// #define STB_GLPROG_ARB_DEFINE_EXTENSIONS
// #include <windows.h>
// #include "gl/gl.h"
// #include "stb_glprog.h"
//
// Note though that the header-file version of this (when you don't define
// STB_GLPROG_IMPLEMENTATION) still uses GLint and such, so you basically
// can only include it in places where you're already including GL, especially
// on Windows where including "gl.h" requires (some of) "windows.h".
//
// See following comment blocks for function documentation.
//
// Version history:
// 2013-12-08 v0.02 slightly simplified API and reduced GL resource usage (@rygorous)
// 2013-12-08 v0.01 initial release
// header file section starts here
#if !defined(INCLUDE_STB_GLPROG_H)
#define INCLUDE_STB_GLPROG_H
#ifndef STB_GLPROG_STATIC
#ifdef __cplusplus
extern "C" {
#endif
//////////////////////////////////////////////////////////////////////////////
///////////// SHADER CREATION
/// EASY API
extern GLuint stbgl_create_program(char const **vertex_source, char const **frag_source, char const **binds, char *error, int error_buflen);
// This function returns a compiled program or 0 if there's an error.
// To free the created program, call stbgl_delete_program.
//
// stbgl_create_program(
// char **vertex_source, // NULL or one or more strings with the vertex shader source, with a final NULL
// char **frag_source, // NULL or one or more strings with the fragment shader source, with a final NULL
// char **binds, // NULL or zero or more strings with attribute bind names, with a final NULL
// char *error, // output location where compile error message is placed
// int error_buflen) // length of error output buffer
//
// Returns a GLuint with the GL program object handle.
//
// If an individual bind string is "", no name is bound to that slot (this
// allows you to create binds that aren't continuous integers starting at 0).
//
// If the vertex shader is NULL, then fixed-function vertex pipeline
// is used, if that's legal in your version of GL.
//
// If the fragment shader is NULL, then fixed-function fragment pipeline
// is used, if that's legal in your version of GL.
extern void stgbl_delete_program(GLuint program);
// deletes a program created by stbgl_create_program or stbgl_link_program
/// FLEXIBLE API
extern GLuint stbgl_compile_shader(GLenum type, char const **sources, int num_sources, char *error, int error_buflen);
// compiles a shader. returns the shader on success or 0 on failure.
//
// type either: GL_VERTEX_SHADER or GL_FRAGMENT_SHADER
// or GL_VERTEX_SHADER_ARB or GL_FRAGMENT_SHADER_ARB
// or STBGL_VERTEX_SHADER or STBGL_FRAGMENT_SHADER
// sources array of strings containing the shader source
// num_sources number of string in sources, or -1 meaning sources is NULL-terminated
// error string to output compiler error to
// error_buflen length of error buffer in chars
extern GLuint stbgl_link_program(GLuint vertex_shader, GLuint fragment_shader, char const **binds, int num_binds, char *error, int error_buflen);
// links a shader. returns the linked program on success or 0 on failure.
//
// vertex_shader a compiled vertex shader from stbgl_compile_shader, or 0 for fixed-function (if legal)
// fragment_shader a compiled fragment shader from stbgl_compile_shader, or 0 for fixed-function (if legal)
//
extern void stbgl_delete_shader(GLuint shader);
// deletes a shader created by stbgl_compile_shader
///////////// RENDERING WITH SHADERS
extern GLint stbgl_find_uniform(GLuint prog, char *uniform);
extern void stbgl_find_uniforms(GLuint prog, GLint *locations, char const **uniforms, int num_uniforms);
// Given the locations array that is num_uniforms long, fills out
// the locations of each of those uniforms for the specified program.
// If num_uniforms is -1, then uniforms[] must be NULL-terminated
// the following functions just wrap the difference in naming between GL2+ and ARB,
// so you don't need them unless you're using both ARB and GL2+ in the same codebase,
// or you're relying on this lib to provide the extensions
extern void stbglUseProgram(GLuint program);
extern void stbglVertexAttribPointer(GLuint index, GLint size, GLenum type, GLboolean normalized, GLsizei stride, const GLvoid * pointer);
extern void stbglEnableVertexAttribArray(GLuint index);
extern void stbglDisableVertexAttribArray(GLuint index);
extern void stbglUniform1fv(GLint loc, GLsizei count, const GLfloat *v);
extern void stbglUniform2fv(GLint loc, GLsizei count, const GLfloat *v);
extern void stbglUniform3fv(GLint loc, GLsizei count, const GLfloat *v);
extern void stbglUniform4fv(GLint loc, GLsizei count, const GLfloat *v);
extern void stbglUniform1iv(GLint loc, GLsizei count, const GLint *v);
extern void stbglUniform2iv(GLint loc, GLsizei count, const GLint *v);
extern void stbglUniform3iv(GLint loc, GLsizei count, const GLint *v);
extern void stbglUniform4iv(GLint loc, GLsizei count, const GLint *v);
extern void stbglUniform1f(GLint loc, float v0);
extern void stbglUniform2f(GLint loc, float v0, float v1);
extern void stbglUniform3f(GLint loc, float v0, float v1, float v2);
extern void stbglUniform4f(GLint loc, float v0, float v1, float v2, float v3);
extern void stbglUniform1i(GLint loc, GLint v0);
extern void stbglUniform2i(GLint loc, GLint v0, GLint v1);
extern void stbglUniform3i(GLint loc, GLint v0, GLint v1, GLint v2);
extern void stbglUniform4i(GLint loc, GLint v0, GLint v1, GLint v2, GLint v3);
////////////// END OF FUNCTIONS
//////////////////////////////////////////////////////////////////////////////
#ifdef __cplusplus
}
#endif
#endif // STB_GLPROG_STATIC
#ifdef STB_GLPROG_ARB
#define STBGL_VERTEX_SHADER GL_VERTEX_SHADER_ARB
#define STBGL_FRAGMENT_SHADER GL_FRAGMENT_SHADER_ARB
#else
#define STBGL_VERTEX_SHADER GL_VERTEX_SHADER
#define STBGL_FRAGMENT_SHADER GL_FRAGMENT_SHADER
#endif
#endif // INCLUDE_STB_GLPROG_H
///////// header file section ends here
#ifdef STB_GLPROG_IMPLEMENTATION
#include <string.h> // strncpy
#ifdef STB_GLPROG_STATIC
#define STB_GLPROG_DECLARE static
#else
#define STB_GLPROG_DECLARE extern
#endif
// check if user wants this file to define the GL extensions itself
#ifdef STB_GLPROG_ARB_DEFINE_EXTENSIONS
#define STB_GLPROG_ARB // make sure later code uses the extensions
#ifndef STB_GLPROG_SUPPRESS_GLEXT_INCLUDE
#include "glext.h"
#endif
#define STB_GLPROG_EXTENSIONS \
STB_GLPROG_FUNC(ATTACHOBJECT , AttachObject ) \
STB_GLPROG_FUNC(BINDATTRIBLOCATION , BindAttribLocation ) \
STB_GLPROG_FUNC(COMPILESHADER , CompileShader ) \
STB_GLPROG_FUNC(CREATEPROGRAMOBJECT , CreateProgramObject ) \
STB_GLPROG_FUNC(CREATESHADEROBJECT , CreateShaderObject ) \
STB_GLPROG_FUNC(DELETEOBJECT , DeleteObject ) \
STB_GLPROG_FUNC(DETACHOBJECT , DetachObject ) \
STB_GLPROG_FUNC(DISABLEVERTEXATTRIBARRAY, DisableVertexAttribArray) \
STB_GLPROG_FUNC(ENABLEVERTEXATTRIBARRAY, EnableVertexAttribArray ) \
STB_GLPROG_FUNC(GETATTACHEDOBJECTS , GetAttachedObjects ) \
STB_GLPROG_FUNC(GETOBJECTPARAMETERIV, GetObjectParameteriv) \
STB_GLPROG_FUNC(GETINFOLOG , GetInfoLog ) \
STB_GLPROG_FUNC(GETUNIFORMLOCATION , GetUniformLocation ) \
STB_GLPROG_FUNC(LINKPROGRAM , LinkProgram ) \
STB_GLPROG_FUNC(SHADERSOURCE , ShaderSource ) \
STB_GLPROG_FUNC(UNIFORM1F , Uniform1f ) \
STB_GLPROG_FUNC(UNIFORM2F , Uniform2f ) \
STB_GLPROG_FUNC(UNIFORM3F , Uniform3f ) \
STB_GLPROG_FUNC(UNIFORM4F , Uniform4f ) \
STB_GLPROG_FUNC(UNIFORM1I , Uniform1i ) \
STB_GLPROG_FUNC(UNIFORM2I , Uniform2i ) \
STB_GLPROG_FUNC(UNIFORM3I , Uniform3i ) \
STB_GLPROG_FUNC(UNIFORM4I , Uniform4i ) \
STB_GLPROG_FUNC(UNIFORM1FV , Uniform1fv ) \
STB_GLPROG_FUNC(UNIFORM2FV , Uniform2fv ) \
STB_GLPROG_FUNC(UNIFORM3FV , Uniform3fv ) \
STB_GLPROG_FUNC(UNIFORM4FV , Uniform4fv ) \
STB_GLPROG_FUNC(UNIFORM1IV , Uniform1iv ) \
STB_GLPROG_FUNC(UNIFORM2IV , Uniform2iv ) \
STB_GLPROG_FUNC(UNIFORM3IV , Uniform3iv ) \
STB_GLPROG_FUNC(UNIFORM4IV , Uniform4iv ) \
STB_GLPROG_FUNC(USEPROGRAMOBJECT , UseProgramObject ) \
STB_GLPROG_FUNC(VERTEXATTRIBPOINTER , VertexAttribPointer )
// define the static function pointers
#define STB_GLPROG_FUNC(x,y) static PFNGL##x##ARBPROC gl##y##ARB;
STB_GLPROG_EXTENSIONS
#undef STB_GLPROG_FUNC
// define the GetProcAddress
#ifdef _WIN32
#ifndef WINGDIAPI
#ifndef STB__HAS_WGLPROC
typedef int (__stdcall *stbgl__voidfunc)(void);
static __declspec(dllimport) stbgl__voidfunc wglGetProcAddress(char *);
#endif
#endif
#define STBGL__GET_FUNC(x) wglGetProcAddress(x)
#else
#error "need to define how this platform gets extensions"
#endif
// create a function that fills out the function pointers
static void stb_glprog_init(void)
{
static int initialized = 0; // not thread safe!
if (initialized) return;
#define STB_GLPROG_FUNC(x,y) gl##y##ARB = (PFNGL##x##ARBPROC) STBGL__GET_FUNC("gl" #y "ARB");
STB_GLPROG_EXTENSIONS
#undef STB_GLPROG_FUNC
}
#undef STB_GLPROG_EXTENSIONS
#else
static void stb_glprog_init(void)
{
}
#endif
// define generic names for many of the gl functions or extensions for later use;
// note that in some cases there are two functions in core and one function in ARB
#ifdef STB_GLPROG_ARB
#define stbglCreateShader glCreateShaderObjectARB
#define stbglDeleteShader glDeleteObjectARB
#define stbglAttachShader glAttachObjectARB
#define stbglDetachShader glDetachObjectARB
#define stbglShaderSource glShaderSourceARB
#define stbglCompileShader glCompileShaderARB
#define stbglGetShaderStatus(a,b) glGetObjectParameterivARB(a, GL_OBJECT_COMPILE_STATUS_ARB, b)
#define stbglGetShaderInfoLog glGetInfoLogARB
#define stbglCreateProgram glCreateProgramObjectARB
#define stbglDeleteProgram glDeleteObjectARB
#define stbglLinkProgram glLinkProgramARB
#define stbglGetProgramStatus(a,b) glGetObjectParameterivARB(a, GL_OBJECT_LINK_STATUS_ARB, b)
#define stbglGetProgramInfoLog glGetInfoLogARB
#define stbglGetAttachedShaders glGetAttachedObjectsARB
#define stbglBindAttribLocation glBindAttribLocationARB
#define stbglGetUniformLocation glGetUniformLocationARB
#define stbgl_UseProgram glUseProgramObjectARB
#else
#define stbglCreateShader glCreateShader
#define stbglDeleteShader glDeleteShader
#define stbglAttachShader glAttachShader
#define stbglDetachShader glDetachShader
#define stbglShaderSource glShaderSource
#define stbglCompileShader glCompileShader
#define stbglGetShaderStatus(a,b) glGetShaderiv(a, GL_COMPILE_STATUS, b)
#define stbglGetShaderInfoLog glGetShaderInfoLog
#define stbglCreateProgram glCreateProgram
#define stbglDeleteProgram glDeleteProgram
#define stbglLinkProgram glLinkProgram
#define stbglGetProgramStatus(a,b) glGetProgramiv(a, GL_LINK_STATUS, b)
#define stbglGetProgramInfoLog glGetProgramInfoLog
#define stbglGetAttachedShaders glGetAttachedShaders
#define stbglBindAttribLocation glBindAttribLocation
#define stbglGetUniformLocation glGetUniformLocation
#define stbgl_UseProgram glUseProgram
#endif
// perform a safe strcat of 3 strings, given that we can't rely on portable snprintf
// if you need to break on error, this is the best place to place a breakpoint
static void stb_glprog_error(char *error, int error_buflen, char *str1, char *str2, char *str3)
{
int n = strlen(str1);
strncpy(error, str1, error_buflen);
if (n < error_buflen && str2) {
strncpy(error+n, str2, error_buflen - n);
n += strlen(str2);
if (n < error_buflen && str3) {
strncpy(error+n, str3, error_buflen - n);
}
}
error[error_buflen-1] = 0;
}
STB_GLPROG_DECLARE GLuint stbgl_compile_shader(GLenum type, char const **sources, int num_sources, char *error, int error_buflen)
{
char *typename = (type == STBGL_VERTEX_SHADER ? "vertex" : "fragment");
int len;
GLint result;
GLuint shader;
// initialize the extensions if we haven't already
stb_glprog_init();
// allocate
shader = stbglCreateShader(type);
if (!shader) {
stb_glprog_error(error, error_buflen, "Couldn't allocate shader object in stbgl_compile_shader for ", typename, NULL);
return 0;
}
// compile
// if num_sources is negative, assume source is NULL-terminated and count the non-NULL ones
if (num_sources < 0)
for (num_sources = 0; sources[num_sources] != NULL; ++num_sources)
;
stbglShaderSource(shader, num_sources, sources, NULL);
stbglCompileShader(shader);
stbglGetShaderStatus(shader, &result);
if (result)
return shader;
// errors
stb_glprog_error(error, error_buflen, "Compile error for ", typename, " shader: ");
len = strlen(error);
if (len < error_buflen)
stbglGetShaderInfoLog(shader, error_buflen-len, NULL, error+len);
stbglDeleteShader(shader);
return 0;
}
STB_GLPROG_DECLARE GLuint stbgl_link_program(GLuint vertex_shader, GLuint fragment_shader, char const **binds, int num_binds, char *error, int error_buflen)
{
int len;
GLint result;
// allocate
GLuint prog = stbglCreateProgram();
if (!prog) {
stb_glprog_error(error, error_buflen, "Couldn't allocate program object in stbgl_link_program", NULL, NULL);
return 0;
}
// attach
if (vertex_shader)
stbglAttachShader(prog, vertex_shader);
if (fragment_shader)
stbglAttachShader(prog, fragment_shader);
// attribute binds
if (binds) {
int i;
// if num_binds is negative, then it is NULL terminated
if (num_binds < 0)
for (num_binds=0; binds[num_binds]; ++num_binds)
;
for (i=0; i < num_binds; ++i)
if (binds[i] && binds[i][0]) // empty binds can be NULL or ""
stbglBindAttribLocation(prog, i, binds[i]);
}
// link
stbglLinkProgram(prog);
// detach
if (vertex_shader)
stbglDetachShader(prog, vertex_shader);
if (fragment_shader)
stbglDetachShader(prog, fragment_shader);
// errors
stbglGetProgramStatus(prog, &result);
if (result)
return prog;
stb_glprog_error(error, error_buflen, "Link error: ", NULL, NULL);
len = strlen(error);
if (len < error_buflen)
stbglGetProgramInfoLog(prog, error_buflen-len, NULL, error+len);
stbglDeleteProgram(prog);
return 0;
}
STB_GLPROG_DECLARE GLuint stbgl_create_program(char const **vertex_source, char const **frag_source, char const **binds, char *error, int error_buflen)
{
GLuint vertex, fragment, prog=0;
vertex = stbgl_compile_shader(STBGL_VERTEX_SHADER, vertex_source, -1, error, error_buflen);
if (vertex) {
fragment = stbgl_compile_shader(STBGL_FRAGMENT_SHADER, frag_source, -1, error, error_buflen);
if (fragment)
prog = stbgl_link_program(vertex, fragment, binds, -1, error, error_buflen);
if (fragment)
stbglDeleteShader(fragment);
stbglDeleteShader(vertex);
}
return prog;
}
STB_GLPROG_DECLARE void stbgl_delete_shader(GLuint shader)
{
stbglDeleteShader(shader);
}
STB_GLPROG_DECLARE void stgbl_delete_program(GLuint program)
{
stbglDeleteProgram(program);
}
GLint stbgl_find_uniform(GLuint prog, char *uniform)
{
return stbglGetUniformLocation(prog, uniform);
}
STB_GLPROG_DECLARE void stbgl_find_uniforms(GLuint prog, GLint *locations, char const **uniforms, int num_uniforms)
{
int i;
if (num_uniforms < 0)
num_uniforms = 999999;
for (i=0; i < num_uniforms && uniforms[i]; ++i)
locations[i] = stbglGetUniformLocation(prog, uniforms[i]);
}
STB_GLPROG_DECLARE void stbglUseProgram(GLuint program)
{
stbgl_UseProgram(program);
}
#ifdef STB_GLPROG_ARB
#define STBGL_ARBIFY(name) name##ARB
#else
#define STBGL_ARBIFY(name) name
#endif
STB_GLPROG_DECLARE void stbglVertexAttribPointer(GLuint index, GLint size, GLenum type, GLboolean normalized, GLsizei stride, const GLvoid * pointer)
{
STBGL_ARBIFY(glVertexAttribPointer)(index, size, type, normalized, stride, pointer);
}
STB_GLPROG_DECLARE void stbglEnableVertexAttribArray (GLuint index) { STBGL_ARBIFY(glEnableVertexAttribArray )(index); }
STB_GLPROG_DECLARE void stbglDisableVertexAttribArray(GLuint index) { STBGL_ARBIFY(glDisableVertexAttribArray)(index); }
STB_GLPROG_DECLARE void stbglUniform1fv(GLint loc, GLsizei count, const GLfloat *v) { STBGL_ARBIFY(glUniform1fv)(loc,count,v); }
STB_GLPROG_DECLARE void stbglUniform2fv(GLint loc, GLsizei count, const GLfloat *v) { STBGL_ARBIFY(glUniform2fv)(loc,count,v); }
STB_GLPROG_DECLARE void stbglUniform3fv(GLint loc, GLsizei count, const GLfloat *v) { STBGL_ARBIFY(glUniform3fv)(loc,count,v); }
STB_GLPROG_DECLARE void stbglUniform4fv(GLint loc, GLsizei count, const GLfloat *v) { STBGL_ARBIFY(glUniform4fv)(loc,count,v); }
STB_GLPROG_DECLARE void stbglUniform1iv(GLint loc, GLsizei count, const GLint *v) { STBGL_ARBIFY(glUniform1iv)(loc,count,v); }
STB_GLPROG_DECLARE void stbglUniform2iv(GLint loc, GLsizei count, const GLint *v) { STBGL_ARBIFY(glUniform2iv)(loc,count,v); }
STB_GLPROG_DECLARE void stbglUniform3iv(GLint loc, GLsizei count, const GLint *v) { STBGL_ARBIFY(glUniform3iv)(loc,count,v); }
STB_GLPROG_DECLARE void stbglUniform4iv(GLint loc, GLsizei count, const GLint *v) { STBGL_ARBIFY(glUniform4iv)(loc,count,v); }
STB_GLPROG_DECLARE void stbglUniform1f(GLint loc, float v0)
{ STBGL_ARBIFY(glUniform1f)(loc,v0); }
STB_GLPROG_DECLARE void stbglUniform2f(GLint loc, float v0, float v1)
{ STBGL_ARBIFY(glUniform2f)(loc,v0,v1); }
STB_GLPROG_DECLARE void stbglUniform3f(GLint loc, float v0, float v1, float v2)
{ STBGL_ARBIFY(glUniform3f)(loc,v0,v1,v2); }
STB_GLPROG_DECLARE void stbglUniform4f(GLint loc, float v0, float v1, float v2, float v3)
{ STBGL_ARBIFY(glUniform4f)(loc,v0,v1,v2,v3); }
STB_GLPROG_DECLARE void stbglUniform1i(GLint loc, GLint v0)
{ STBGL_ARBIFY(glUniform1i)(loc,v0); }
STB_GLPROG_DECLARE void stbglUniform2i(GLint loc, GLint v0, GLint v1)
{ STBGL_ARBIFY(glUniform2i)(loc,v0,v1); }
STB_GLPROG_DECLARE void stbglUniform3i(GLint loc, GLint v0, GLint v1, GLint v2)
{ STBGL_ARBIFY(glUniform3i)(loc,v0,v1,v2); }
STB_GLPROG_DECLARE void stbglUniform4i(GLint loc, GLint v0, GLint v1, GLint v2, GLint v3)
{ STBGL_ARBIFY(glUniform4i)(loc,v0,v1,v2,v3); }
#endif

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/*
SDL_windows_main.c, placed in the public domain by Sam Lantinga 4/13/98
The WinMain function -- calls your program's main() function
*/
#include "SDL_config.h"
#ifdef __WIN32__
//#include "../../core/windows/SDL_windows.h"
/* Include this so we define UNICODE properly */
#if defined(__WIN32__)
#define WIN32_LEAN_AND_MEAN
#define STRICT
#ifndef UNICODE
#define UNICODE 1
#endif
#undef _WIN32_WINNT
#define _WIN32_WINNT 0x501 /* Need 0x410 for AlphaBlend() and 0x500 for EnumDisplayDevices(), 0x501 for raw input */
#endif
#include <windows.h>
/* Routines to convert from UTF8 to native Windows text */
#if UNICODE
#define WIN_StringToUTF8(S) SDL_iconv_string("UTF-8", "UTF-16LE", (char *)(S), (SDL_wcslen(S)+1)*sizeof(WCHAR))
#define WIN_UTF8ToString(S) (WCHAR *)SDL_iconv_string("UTF-16LE", "UTF-8", (char *)(S), SDL_strlen(S)+1)
#else
/* !!! FIXME: UTF8ToString() can just be a SDL_strdup() here. */
#define WIN_StringToUTF8(S) SDL_iconv_string("UTF-8", "ASCII", (char *)(S), (SDL_strlen(S)+1))
#define WIN_UTF8ToString(S) SDL_iconv_string("ASCII", "UTF-8", (char *)(S), SDL_strlen(S)+1)
#endif
/* Sets an error message based on a given HRESULT */
extern int WIN_SetErrorFromHRESULT(const char *prefix, HRESULT hr);
/* Sets an error message based on GetLastError(). Always return -1. */
extern int WIN_SetError(const char *prefix);
/* Wrap up the oddities of CoInitialize() into a common function. */
extern HRESULT WIN_CoInitialize(void);
extern void WIN_CoUninitialize(void);
/* Returns SDL_TRUE if we're running on Windows Vista and newer */
extern BOOL WIN_IsWindowsVistaOrGreater();
#include <stdio.h>
#include <stdlib.h>
/* Include the SDL main definition header */
#include "SDL.h"
#include "SDL_main.h"
#ifdef main
# undef main
#endif /* main */
static void
UnEscapeQuotes(char *arg)
{
char *last = NULL;
while (*arg) {
if (*arg == '"' && (last != NULL && *last == '\\')) {
char *c_curr = arg;
char *c_last = last;
while (*c_curr) {
*c_last = *c_curr;
c_last = c_curr;
c_curr++;
}
*c_last = '\0';
}
last = arg;
arg++;
}
}
/* Parse a command line buffer into arguments */
static int
ParseCommandLine(char *cmdline, char **argv)
{
char *bufp;
char *lastp = NULL;
int argc, last_argc;
argc = last_argc = 0;
for (bufp = cmdline; *bufp;) {
/* Skip leading whitespace */
while (SDL_isspace(*bufp)) {
++bufp;
}
/* Skip over argument */
if (*bufp == '"') {
++bufp;
if (*bufp) {
if (argv) {
argv[argc] = bufp;
}
++argc;
}
/* Skip over word */
lastp = bufp;
while (*bufp && (*bufp != '"' || *lastp == '\\')) {
lastp = bufp;
++bufp;
}
} else {
if (*bufp) {
if (argv) {
argv[argc] = bufp;
}
++argc;
}
/* Skip over word */
while (*bufp && !SDL_isspace(*bufp)) {
++bufp;
}
}
if (*bufp) {
if (argv) {
*bufp = '\0';
}
++bufp;
}
/* Strip out \ from \" sequences */
if (argv && last_argc != argc) {
UnEscapeQuotes(argv[last_argc]);
}
last_argc = argc;
}
if (argv) {
argv[argc] = NULL;
}
return (argc);
}
/* Show an error message */
static void
ShowError(const char *title, const char *message)
{
/* If USE_MESSAGEBOX is defined, you need to link with user32.lib */
#ifdef USE_MESSAGEBOX
MessageBox(NULL, message, title, MB_ICONEXCLAMATION | MB_OK);
#else
fprintf(stderr, "%s: %s\n", title, message);
#endif
}
/* Pop up an out of memory message, returns to Windows */
static BOOL
OutOfMemory(void)
{
ShowError("Fatal Error", "Out of memory - aborting");
return FALSE;
}
#if defined(_MSC_VER)
/* The VC++ compiler needs main defined */
#define console_main main
#endif
/* This is where execution begins [console apps] */
int
console_main(int argc, char *argv[])
{
int status;
SDL_SetMainReady();
/* Run the application main() code */
status = SDL_main(argc, argv);
/* Exit cleanly, calling atexit() functions */
exit(status);
/* Hush little compiler, don't you cry... */
return 0;
}
/* This is where execution begins [windowed apps] */
int WINAPI
WinMain(HINSTANCE hInst, HINSTANCE hPrev, LPSTR szCmdLine, int sw)
{
char **argv;
int argc;
char *cmdline;
/* Grab the command line */
TCHAR *text = GetCommandLine();
#if UNICODE
cmdline = SDL_iconv_string("UTF-8", "UCS-2-INTERNAL", (char *)(text), (SDL_wcslen(text)+1)*sizeof(WCHAR));
#else
cmdline = SDL_strdup(text);
#endif
if (cmdline == NULL) {
return OutOfMemory();
}
/* Parse it into argv and argc */
argc = ParseCommandLine(cmdline, NULL);
argv = SDL_stack_alloc(char *, argc + 1);
if (argv == NULL) {
return OutOfMemory();
}
ParseCommandLine(cmdline, argv);
/* Run the main program */
console_main(argc, argv);
SDL_stack_free(argv);
SDL_free(cmdline);
/* Hush little compiler, don't you cry... */
return 0;
}
#endif /* __WIN32__ */
/* vi: set ts=4 sw=4 expandtab: */

54
external/stb/stb/tests/fuzz_main.c vendored Normal file
View File

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#include <stdint.h>
#include <stdio.h>
#include <stdlib.h>
/* fuzz target entry point, works without libFuzzer */
int LLVMFuzzerTestOneInput(const uint8_t* data, size_t size);
int main(int argc, char **argv)
{
FILE *f;
char *buf = NULL;
long siz_buf;
if(argc < 2)
{
fprintf(stderr, "no input file\n");
goto err;
}
f = fopen(argv[1], "rb");
if(f == NULL)
{
fprintf(stderr, "error opening input file %s\n", argv[1]);
goto err;
}
fseek(f, 0, SEEK_END);
siz_buf = ftell(f);
rewind(f);
if(siz_buf < 1) goto err;
buf = (char*)malloc((size_t)siz_buf);
if(buf == NULL)
{
fprintf(stderr, "malloc() failed\n");
goto err;
}
if(fread(buf, (size_t)siz_buf, 1, f) != 1)
{
fprintf(stderr, "fread() failed\n");
goto err;
}
(void)LLVMFuzzerTestOneInput((uint8_t*)buf, (size_t)siz_buf);
err:
free(buf);
return 0;
}

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#define STB_CONNECTED_COMPONENTS_IMPLEMENTATION
#define STBCC_GRID_COUNT_X_LOG2 10
#define STBCC_GRID_COUNT_Y_LOG2 10
#include "stb_connected_components.h"
#ifdef GRID_TEST
#include <windows.h>
#include <stdio.h>
#include <direct.h>
//#define STB_DEFINE
#include "stb.h"
//#define STB_IMAGE_IMPLEMENTATION
#include "stb_image.h"
//#define STB_IMAGE_WRITE_IMPLEMENTATION
#include "stb_image_write.h"
typedef struct
{
uint16 x,y;
} point;
point leader[1024][1024];
uint32 color[1024][1024];
point find(int x, int y)
{
point p,q;
p = leader[y][x];
if (p.x == x && p.y == y)
return p;
q = find(p.x, p.y);
leader[y][x] = q;
return q;
}
void onion(int x1, int y1, int x2, int y2)
{
point p = find(x1,y1);
point q = find(x2,y2);
if (p.x == q.x && p.y == q.y)
return;
leader[p.y][p.x] = q;
}
void reference(uint8 *map, int w, int h)
{
int i,j;
for (j=0; j < h; ++j) {
for (i=0; i < w; ++i) {
leader[j][i].x = i;
leader[j][i].y = j;
}
}
for (j=1; j < h-1; ++j) {
for (i=1; i < w-1; ++i) {
if (map[j*w+i] == 255) {
if (map[(j+1)*w+i] == 255) onion(i,j, i,j+1);
if (map[(j)*w+i+1] == 255) onion(i,j, i+1,j);
}
}
}
for (j=0; j < h; ++j) {
for (i=0; i < w; ++i) {
uint32 c = 0xff000000;
if (leader[j][i].x == i && leader[j][i].y == j) {
if (map[j*w+i] == 255)
c = stb_randLCG() | 0xff404040;
}
color[j][i] = c;
}
}
for (j=0; j < h; ++j) {
for (i=0; i < w; ++i) {
if (leader[j][i].x != i || leader[j][i].y != j) {
point p = find(i,j);
color[j][i] = color[p.y][p.x];
}
}
}
}
void write_map(stbcc_grid *g, int w, int h, char *filename)
{
int i,j;
for (j=0; j < h; ++j) {
for (i=0; i < w; ++i) {
unsigned int c;
c = stbcc_get_unique_id(g,i,j);
c = stb_rehash_improved(c)&0xffffff;
if (c == STBCC_NULL_UNIQUE_ID)
c = 0xff000000;
else
c = (~c)^0x555555;
if (i % 32 == 0 || j %32 == 0) {
int r = (c >> 16) & 255;
int g = (c >> 8) & 255;
int b = c & 255;
r = (r+130)/2;
g = (g+130)/2;
b = (b+130)/2;
c = 0xff000000 + (r<<16) + (g<<8) + b;
}
color[j][i] = c;
}
}
stbi_write_png(filename, w, h, 4, color, 4*w);
}
void test_connected(stbcc_grid *g)
{
int n = stbcc_query_grid_node_connection(g, 512, 90, 512, 871);
//printf("%d ", n);
}
static char *message;
LARGE_INTEGER start;
void start_timer(char *s)
{
message = s;
QueryPerformanceCounter(&start);
}
void end_timer(void)
{
LARGE_INTEGER end, freq;
double tm;
QueryPerformanceCounter(&end);
QueryPerformanceFrequency(&freq);
tm = (end.QuadPart - start.QuadPart) / (double) freq.QuadPart;
printf("%6.4lf ms: %s\n", tm * 1000, message);
}
extern void quicktest(void);
int loc[5000][2];
int main(int argc, char **argv)
{
stbcc_grid *g;
int w,h, i,j,k=0, count=0, r;
uint8 *map = stbi_load("data/map_03.png", &w, &h, 0, 1);
assert(map);
quicktest();
for (j=0; j < h; ++j)
for (i=0; i < w; ++i)
map[j*w+i] = ~map[j*w+i];
for (i=0; i < w; ++i)
for (j=0; j < h; ++j)
//map[j*w+i] = (((i+1) ^ (j+1)) >> 1) & 1 ? 255 : 0;
map[j*w+i] = stb_max(abs(i-w/2),abs(j-h/2)) & 1 ? 255 : 0;
//map[j*w+i] = (((i ^ j) >> 5) ^ (i ^ j)) & 1 ? 255 : 0;
//map[j*w+i] = stb_rand() & 1 ? 255 : 0;
#if 1
for (i=0; i < 100000; ++i)
map[(stb_rand()%h)*w + stb_rand()%w] ^= 255;
#endif
_mkdir("tests/output/stbcc");
stbi_write_png("tests/output/stbcc/reference.png", w, h, 1, map, 0);
//reference(map, w, h);
g = malloc(stbcc_grid_sizeof());
printf("Size: %d\n", stbcc_grid_sizeof());
#if 0
memset(map, 0, w*h);
stbcc_init_grid(g, map, w, h);
{
int n;
char **s = stb_stringfile("c:/x/clockwork_update.txt", &n);
write_map(g, w, h, "tests/output/stbcc/base.png");
for (i=1; i < n; i += 1) {
int x,y,t;
sscanf(s[i], "%d %d %d", &x, &y, &t);
if (i == 571678)
write_map(g, w, h, stb_sprintf("tests/output/stbcc/clockwork_good.png", i));
stbcc_update_grid(g, x, y, t);
if (i == 571678)
write_map(g, w, h, stb_sprintf("tests/output/stbcc/clockwork_bad.png", i));
//if (i > 571648 && i <= 571712)
//write_map(g, w, h, stb_sprintf("tests/output/stbcc/clockwork_%06d.png", i));
}
write_map(g, w, h, stb_sprintf("tests/output/stbcc/clockwork_%06d.png", i-1));
}
return 0;
#endif
start_timer("init");
stbcc_init_grid(g, map, w, h);
end_timer();
//g = stb_file("c:/x/clockwork_path.bin", 0);
write_map(g, w, h, "tests/output/stbcc/base.png");
for (i=0; i < 5000;) {
loc[i][0] = stb_rand() % w;
loc[i][1] = stb_rand() % h;
if (stbcc_query_grid_open(g, loc[i][0], loc[i][1]))
++i;
}
r = 0;
start_timer("reachable");
for (i=0; i < 2000; ++i) {
for (j=0; j < 2000; ++j) {
int x1 = loc[i][0], y1 = loc[i][1];
int x2 = loc[2000+j][0], y2 = loc[2000+j][1];
r += stbcc_query_grid_node_connection(g, x1,y1, x2,y2);
}
}
end_timer();
printf("%d reachable\n", r);
printf("Cluster size: %d,%d\n", STBCC__CLUSTER_SIZE_X, STBCC__CLUSTER_SIZE_Y);
#if 1
for (j=0; j < 10; ++j) {
for (i=0; i < 5000; ++i) {
loc[i][0] = stb_rand() % w;
loc[i][1] = stb_rand() % h;
}
start_timer("updating 2500");
for (i=0; i < 2500; ++i) {
if (stbcc_query_grid_open(g, loc[i][0], loc[i][1]))
stbcc_update_grid(g, loc[i][0], loc[i][1], 1);
else
stbcc_update_grid(g, loc[i][0], loc[i][1], 0);
}
end_timer();
write_map(g, w, h, stb_sprintf("tests/output/stbcc/update_random_%d.png", j*i));
}
#endif
#if 0
start_timer("removing");
count = 0;
for (i=0; i < 1800; ++i) {
int x,y,a,b;
x = stb_rand() % (w-32);
y = stb_rand() % (h-32);
if (i & 1) {
for (a=0; a < 32; ++a)
for (b=0; b < 1; ++b)
if (stbcc_query_grid_open(g, x+a, y+b)) {
stbcc_update_grid(g, x+a, y+b, 1);
++count;
}
} else {
for (a=0; a < 1; ++a)
for (b=0; b < 32; ++b)
if (stbcc_query_grid_open(g, x+a, y+b)) {
stbcc_update_grid(g, x+a, y+b, 1);
++count;
}
}
//if (i % 100 == 0) write_map(g, w, h, stb_sprintf("tests/output/stbcc/open_random_%d.png", i+1));
}
end_timer();
printf("Removed %d grid spaces\n", count);
write_map(g, w, h, stb_sprintf("tests/output/stbcc/open_random_%d.png", i));
r = 0;
start_timer("reachable");
for (i=0; i < 1000; ++i) {
for (j=0; j < 1000; ++j) {
int x1 = loc[i][0], y1 = loc[i][1];
int x2 = loc[j][0], y2 = loc[j][1];
r += stbcc_query_grid_node_connection(g, x1,y1, x2,y2);
}
}
end_timer();
printf("%d reachable\n", r);
start_timer("adding");
count = 0;
for (i=0; i < 1800; ++i) {
int x,y,a,b;
x = stb_rand() % (w-32);
y = stb_rand() % (h-32);
if (i & 1) {
for (a=0; a < 32; ++a)
for (b=0; b < 1; ++b)
if (!stbcc_query_grid_open(g, x+a, y+b)) {
stbcc_update_grid(g, x+a, y+b, 0);
++count;
}
} else {
for (a=0; a < 1; ++a)
for (b=0; b < 32; ++b)
if (!stbcc_query_grid_open(g, x+a, y+b)) {
stbcc_update_grid(g, x+a, y+b, 0);
++count;
}
}
//if (i % 100 == 0) write_map(g, w, h, stb_sprintf("tests/output/stbcc/close_random_%d.png", i+1));
}
end_timer();
write_map(g, w, h, stb_sprintf("tests/output/stbcc/close_random_%d.png", i));
printf("Added %d grid spaces\n", count);
#endif
#if 0 // for map_02.png
start_timer("process");
for (k=0; k < 20; ++k) {
for (j=0; j < h; ++j) {
int any=0;
for (i=0; i < w; ++i) {
if (map[j*w+i] > 10 && map[j*w+i] < 250) {
//start_timer(stb_sprintf("open %d,%d", i,j));
stbcc_update_grid(g, i, j, 0);
test_connected(g);
//end_timer();
any = 1;
}
}
if (any) write_map(g, w, h, stb_sprintf("tests/output/stbcc/open_row_%04d.png", j));
}
for (j=0; j < h; ++j) {
int any=0;
for (i=0; i < w; ++i) {
if (map[j*w+i] > 10 && map[j*w+i] < 250) {
//start_timer(stb_sprintf("close %d,%d", i,j));
stbcc_update_grid(g, i, j, 1);
test_connected(g);
//end_timer();
any = 1;
}
}
if (any) write_map(g, w, h, stb_sprintf("tests/output/stbcc/close_row_%04d.png", j));
}
}
end_timer();
#endif
return 0;
}
#endif

95
external/stb/stb/tests/herringbone.dsp vendored Normal file
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@ -0,0 +1,95 @@
# Microsoft Developer Studio Project File - Name="herringbone" - Package Owner=<4>
# Microsoft Developer Studio Generated Build File, Format Version 6.00
# ** DO NOT EDIT **
# TARGTYPE "Win32 (x86) Console Application" 0x0103
CFG=herringbone - Win32 Debug
!MESSAGE This is not a valid makefile. To build this project using NMAKE,
!MESSAGE use the Export Makefile command and run
!MESSAGE
!MESSAGE NMAKE /f "herringbone.mak".
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!MESSAGE You can specify a configuration when running NMAKE
!MESSAGE by defining the macro CFG on the command line. For example:
!MESSAGE
!MESSAGE NMAKE /f "herringbone.mak" CFG="herringbone - Win32 Debug"
!MESSAGE
!MESSAGE Possible choices for configuration are:
!MESSAGE
!MESSAGE "herringbone - Win32 Release" (based on "Win32 (x86) Console Application")
!MESSAGE "herringbone - Win32 Debug" (based on "Win32 (x86) Console Application")
!MESSAGE
# Begin Project
# PROP AllowPerConfigDependencies 0
# PROP Scc_ProjName ""
# PROP Scc_LocalPath ""
CPP=cl.exe
RSC=rc.exe
!IF "$(CFG)" == "herringbone - Win32 Release"
# PROP BASE Use_MFC 0
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# PROP Ignore_Export_Lib 0
# PROP Target_Dir ""
# ADD BASE CPP /nologo /W3 /GX /O2 /D "WIN32" /D "NDEBUG" /D "_CONSOLE" /D "_MBCS" /YX /FD /c
# ADD CPP /nologo /W3 /GX /O2 /I ".." /D "WIN32" /D "NDEBUG" /D "_CONSOLE" /D "_MBCS" /YX /FD /c
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LINK32=link.exe
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# ADD LINK32 kernel32.lib user32.lib gdi32.lib winspool.lib comdlg32.lib advapi32.lib shell32.lib ole32.lib oleaut32.lib uuid.lib odbc32.lib odbccp32.lib kernel32.lib user32.lib gdi32.lib winspool.lib comdlg32.lib advapi32.lib shell32.lib ole32.lib oleaut32.lib uuid.lib odbc32.lib odbccp32.lib /nologo /subsystem:console /machine:I386
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BSC32=bscmake.exe
# ADD BASE BSC32 /nologo
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LINK32=link.exe
# ADD BASE LINK32 kernel32.lib user32.lib gdi32.lib winspool.lib comdlg32.lib advapi32.lib shell32.lib ole32.lib oleaut32.lib uuid.lib odbc32.lib odbccp32.lib kernel32.lib user32.lib gdi32.lib winspool.lib comdlg32.lib advapi32.lib shell32.lib ole32.lib oleaut32.lib uuid.lib odbc32.lib odbccp32.lib /nologo /subsystem:console /debug /machine:I386 /pdbtype:sept
# ADD LINK32 kernel32.lib user32.lib gdi32.lib winspool.lib comdlg32.lib advapi32.lib shell32.lib ole32.lib oleaut32.lib uuid.lib odbc32.lib odbccp32.lib kernel32.lib user32.lib gdi32.lib winspool.lib comdlg32.lib advapi32.lib shell32.lib ole32.lib oleaut32.lib uuid.lib odbc32.lib odbccp32.lib /nologo /subsystem:console /debug /machine:I386 /pdbtype:sept
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# Begin Target
# Name "herringbone - Win32 Release"
# Name "herringbone - Win32 Debug"
# Begin Source File
SOURCE=.\herringbone_generator.c
# End Source File
# Begin Source File
SOURCE=..\stb_herringbone_wang_tile.h
# End Source File
# End Target
# End Project

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@ -0,0 +1,87 @@
#define STB_HERRINGBONE_WANG_TILE_IMPLEMENTATION
#include "stb_herringbone_wang_tile.h"
#define STB_IMAGE_WRITE_IMPLEMENTATION
#include "stb_image_write.h"
// e 12 1 1 1 1 1 1 4 4
int main(int argc, char **argv)
{
stbhw_config c = { 0 };
int w,h, num_colors,i;
unsigned char *data;
if (argc == 1) goto usage;
if (argc < 3) goto error;
switch (argv[2][0]) {
case 'c':
if (argc < 8 || argc > 10)
goto error;
num_colors = 4;
c.is_corner = 1;
break;
case 'e':
if (argc < 10 || argc > 12)
goto error;
num_colors = 6;
c.is_corner = 0;
break;
default:
goto error;
}
c.short_side_len = atoi(argv[3]);
for (i=0; i < num_colors; ++i)
c.num_color[i] = atoi(argv[4+i]);
c.num_vary_x = 1;
c.num_vary_y = 1;
if (argc > 4+i)
c.num_vary_x = atoi(argv[4+i]);
if (argc > 5+i)
c.num_vary_y = atoi(argv[5+i]);
stbhw_get_template_size(&c, &w, &h);
data = (unsigned char *) malloc(w*h*3);
if (stbhw_make_template(&c, data, w, h, w*3))
stbi_write_png(argv[1], w, h, 3, data, w*3);
else
fprintf(stderr, "Error: %s\n", stbhw_get_last_error());
return 0;
error:
fputs("Invalid command-line arguments\n\n", stderr);
usage:
fputs("Usage (see source for corner & edge type definitions):\n\n", stderr);
fputs("herringbone_generator {outfile} c {sidelen} {c0} {c1} {c2} {c3} [{vx} {vy}]\n"
" {outfile} -- filename that template will be written to as PNG\n"
" {sidelen} -- length of short side of rectangle in pixels\n"
" {c0} -- number of colors for corner type 0\n"
" {c1} -- number of colors for corner type 1\n"
" {c2} -- number of colors for corner type 2\n"
" {c3} -- number of colors for corner type 3\n"
" {vx} -- number of color-duplicating variations horizontally in template\n"
" {vy} -- number of color-duplicating variations vertically in template\n"
"\n"
, stderr);
fputs("herringbone_generator {outfile} e {sidelen} {e0} {e1} {e2} {e3} {e4} {e5} [{vx} {vy}]\n"
" {outfile} -- filename that template will be written to as PNG\n"
" {sidelen} -- length of short side of rectangle in pixels\n"
" {e0} -- number of colors for edge type 0\n"
" {e1} -- number of colors for edge type 1\n"
" {e2} -- number of colors for edge type 2\n"
" {e3} -- number of colors for edge type 3\n"
" {e4} -- number of colors for edge type 4\n"
" {e5} -- number of colors for edge type 5\n"
" {vx} -- number of color-duplicating variations horizontally in template\n"
" {vy} -- number of color-duplicating variations vertically in template\n"
, stderr);
return 1;
}

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@ -0,0 +1,83 @@
#include <stdio.h>
#define STB_HBWANG_MAX_X 500
#define STB_HBWANG_MAX_Y 500
#define STB_HERRINGBONE_WANG_TILE_IMPLEMENTATION
#include "stb_herringbone_wang_tile.h"
#define STB_IMAGE_IMPLEMENTATION
#include "stb_image.h"
#define STB_IMAGE_WRITE_IMPLEMENTATION
#include "stb_image_write.h"
int main(int argc, char **argv)
{
if (argc < 5) {
fprintf(stderr, "Usage: herringbone_map {inputfile} {output-width} {output-height} {outputfile}\n");
return 1;
} else {
char *filename = argv[1];
int out_w = atoi(argv[2]);
int out_h = atoi(argv[3]);
char *outfile = argv[4];
unsigned char *pixels, *out_pixels;
stbhw_tileset ts;
int w,h;
pixels = stbi_load(filename, &w, &h, 0, 3);
if (pixels == 0) {
fprintf(stderr, "Couldn't open input file '%s'\n", filename);
exit(1);
}
if (!stbhw_build_tileset_from_image(&ts, pixels, w*3, w, h)) {
fprintf(stderr, "Error: %s\n", stbhw_get_last_error());
return 1;
}
free(pixels);
#ifdef DEBUG_OUTPUT
{
int i,j,k;
// add blue borders to top-left edges of the tiles
int hstride = (ts.short_side_len*2)*3;
int vstride = (ts.short_side_len )*3;
for (i=0; i < ts.num_h_tiles; ++i) {
unsigned char *pix = ts.h_tiles[i]->pixels;
for (j=0; j < ts.short_side_len*2; ++j)
for (k=0; k < 3; ++k)
pix[j*3+k] = (pix[j*3+k]*0.5+100+k*75)/1.5;
for (j=1; j < ts.short_side_len; ++j)
for (k=0; k < 3; ++k)
pix[j*hstride+k] = (pix[j*hstride+k]*0.5+100+k*75)/1.5;
}
for (i=0; i < ts.num_v_tiles; ++i) {
unsigned char *pix = ts.v_tiles[i]->pixels;
for (j=0; j < ts.short_side_len; ++j)
for (k=0; k < 3; ++k)
pix[j*3+k] = (pix[j*3+k]*0.5+100+k*75)/1.5;
for (j=1; j < ts.short_side_len*2; ++j)
for (k=0; k < 3; ++k)
pix[j*vstride+k] = (pix[j*vstride+k]*0.5+100+k*75)/1.5;
}
}
#endif
out_pixels = malloc(out_w * out_h * 3);
if (!stbhw_generate_image(&ts, NULL, out_pixels, out_w*3, out_w, out_h)) {
fprintf(stderr, "Error: %s\n", stbhw_get_last_error());
return 1;
}
stbi_write_png(argv[4], out_w, out_h, 3, out_pixels, out_w*3);
free(out_pixels);
stbhw_free_tileset(&ts);
return 0;
}
}

View File

@ -0,0 +1,94 @@
# Microsoft Developer Studio Project File - Name="herringbone_map" - Package Owner=<4>
# Microsoft Developer Studio Generated Build File, Format Version 6.00
# ** DO NOT EDIT **
# TARGTYPE "Win32 (x86) Console Application" 0x0103
CFG=herringbone_map - Win32 Debug
!MESSAGE This is not a valid makefile. To build this project using NMAKE,
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# Begin Target
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# Begin Source File
SOURCE=.\herringbone_map.c
# End Source File
# Begin Source File
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# End Source File
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173
external/stb/stb/tests/image_test.c vendored Normal file
View File

@ -0,0 +1,173 @@
#define STBI_WINDOWS_UTF8
#define STB_IMAGE_WRITE_IMPLEMENTATION
#include "stb_image_write.h"
#define STB_IMAGE_IMPLEMENTATION
#include "stb_image.h"
#define STB_DEFINE
#include "stb.h"
//#define PNGSUITE_PRIMARY
#if 0
void test_ycbcr(void)
{
STBI_SIMD_ALIGN(unsigned char, y[256]);
STBI_SIMD_ALIGN(unsigned char, cb[256]);
STBI_SIMD_ALIGN(unsigned char, cr[256]);
STBI_SIMD_ALIGN(unsigned char, out1[256][4]);
STBI_SIMD_ALIGN(unsigned char, out2[256][4]);
int i,j,k;
int count = 0, bigcount=0, total=0;
for (i=0; i < 256; ++i) {
for (j=0; j < 256; ++j) {
for (k=0; k < 256; ++k) {
y [k] = k;
cb[k] = j;
cr[k] = i;
}
stbi__YCbCr_to_RGB_row(out1[0], y, cb, cr, 256, 4);
stbi__YCbCr_to_RGB_sse2(out2[0], y, cb, cr, 256, 4);
for (k=0; k < 256; ++k) {
// inaccurate proxy for values outside of RGB cube
if (out1[k][0] == 0 || out1[k][1] == 0 || out1[k][2] == 0 || out1[k][0] == 255 || out1[k][1] == 255 || out1[k][2] == 255)
continue;
++total;
if (out1[k][0] != out2[k][0] || out1[k][1] != out2[k][1] || out1[k][2] != out2[k][2]) {
int dist1 = abs(out1[k][0] - out2[k][0]);
int dist2 = abs(out1[k][1] - out2[k][1]);
int dist3 = abs(out1[k][2] - out2[k][2]);
++count;
if (out1[k][1] > out2[k][1])
++bigcount;
}
}
}
printf("So far: %d (%d big) of %d\n", count, bigcount, total);
}
printf("Final: %d (%d big) of %d\n", count, bigcount, total);
}
#endif
float hdr_data[200][200][3];
void dummy_write(void *context, void *data, int len)
{
static char dummy[1024];
if (len > 1024) len = 1024;
memcpy(dummy, data, len);
}
extern void image_write_test(void);
int main(int argc, char **argv)
{
int w,h;
//test_ycbcr();
image_write_test();
#if 0
// test hdr asserts
for (h=0; h < 100; h += 2)
for (w=0; w < 200; ++w)
hdr_data[h][w][0] = (float) rand(),
hdr_data[h][w][1] = (float) rand(),
hdr_data[h][w][2] = (float) rand();
stbi_write_hdr("output/test.hdr", 200,200,3,hdr_data[0][0]);
#endif
if (argc > 1) {
int i, n;
for (i=1; i < argc; ++i) {
int res;
int w2,h2,n2;
unsigned char *data;
printf("%s\n", argv[i]);
res = stbi_info(argv[i], &w2, &h2, &n2);
data = stbi_load(argv[i], &w, &h, &n, 0); if (data) free(data); else printf("Failed &n\n");
data = stbi_load(argv[i], &w, &h, &n, 4); if (data) free(data); else printf("Failed &n\n");
data = stbi_load(argv[i], &w, &h, 0, 1); if (data) free(data); else printf("Failed 1\n");
data = stbi_load(argv[i], &w, &h, 0, 2); if (data) free(data); else printf("Failed 2\n");
data = stbi_load(argv[i], &w, &h, 0, 3); if (data) free(data); else printf("Failed 3\n");
data = stbi_load(argv[i], &w, &h, &n, 4);
assert(data);
assert(w == w2 && h == h2 && n == n2);
assert(res);
if (data) {
char fname[512];
stb_splitpath(fname, argv[i], STB_FILE);
stbi_write_png(stb_sprintf("output/%s.png", fname), w, h, 4, data, w*4);
stbi_write_bmp(stb_sprintf("output/%s.bmp", fname), w, h, 4, data);
stbi_write_tga(stb_sprintf("output/%s.tga", fname), w, h, 4, data);
stbi_write_png_to_func(dummy_write,0, w, h, 4, data, w*4);
stbi_write_bmp_to_func(dummy_write,0, w, h, 4, data);
stbi_write_tga_to_func(dummy_write,0, w, h, 4, data);
free(data);
} else
printf("FAILED 4\n");
}
} else {
int i;
#ifdef PNGSUITE_PRIMARY
char **files = stb_readdir_files("pngsuite/primary");
#else
char **files = stb_readdir_files("images");
#endif
for (i=0; i < stb_arr_len(files); ++i) {
int n;
char **failed = NULL;
unsigned char *data;
printf(".");
//printf("%s\n", files[i]);
data = stbi_load(files[i], &w, &h, &n, 0); if (data) free(data); else stb_arr_push(failed, "&n");
data = stbi_load(files[i], &w, &h, 0, 1); if (data) free(data); else stb_arr_push(failed, "1");
data = stbi_load(files[i], &w, &h, 0, 2); if (data) free(data); else stb_arr_push(failed, "2");
data = stbi_load(files[i], &w, &h, 0, 3); if (data) free(data); else stb_arr_push(failed, "3");
data = stbi_load(files[i], &w, &h, 0, 4); if (data) ; else stb_arr_push(failed, "4");
if (data) {
char fname[512];
#ifdef PNGSUITE_PRIMARY
int w2,h2;
unsigned char *data2;
stb_splitpath(fname, files[i], STB_FILE_EXT);
data2 = stbi_load(stb_sprintf("pngsuite/primary_check/%s", fname), &w2, &h2, 0, 4);
if (!data2)
printf("FAILED: couldn't load 'pngsuite/primary_check/%s\n", fname);
else {
if (w != w2 || h != w2 || 0 != memcmp(data, data2, w*h*4)) {
int x,y,c;
if (w == w2 && h == h2)
for (y=0; y < h; ++y)
for (x=0; x < w; ++x)
for (c=0; c < 4; ++c)
assert(data[y*w*4+x*4+c] == data2[y*w*4+x*4+c]);
printf("FAILED: %s loaded but didn't match PRIMARY_check 32-bit version\n", files[i]);
}
free(data2);
}
#else
stb_splitpath(fname, files[i], STB_FILE);
stbi_write_png(stb_sprintf("output/%s.png", fname), w, h, 4, data, w*4);
#endif
free(data);
}
if (failed) {
int j;
printf("FAILED: ");
for (j=0; j < stb_arr_len(failed); ++j)
printf("%s ", failed[j]);
printf(" -- %s\n", files[i]);
}
}
printf("Tested %d files.\n", i);
}
return 0;
}

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external/stb/stb/tests/image_test.dsp vendored Normal file
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# Microsoft Developer Studio Project File - Name="image_test" - Package Owner=<4>
# Microsoft Developer Studio Generated Build File, Format Version 6.00
# ** DO NOT EDIT **
# TARGTYPE "Win32 (x86) Console Application" 0x0103
CFG=image_test - Win32 Debug
!MESSAGE This is not a valid makefile. To build this project using NMAKE,
!MESSAGE use the Export Makefile command and run
!MESSAGE
!MESSAGE NMAKE /f "image_test.mak".
!MESSAGE
!MESSAGE You can specify a configuration when running NMAKE
!MESSAGE by defining the macro CFG on the command line. For example:
!MESSAGE
!MESSAGE NMAKE /f "image_test.mak" CFG="image_test - Win32 Debug"
!MESSAGE
!MESSAGE Possible choices for configuration are:
!MESSAGE
!MESSAGE "image_test - Win32 Release" (based on "Win32 (x86) Console Application")
!MESSAGE "image_test - Win32 Debug" (based on "Win32 (x86) Console Application")
!MESSAGE
# Begin Project
# PROP AllowPerConfigDependencies 0
# PROP Scc_ProjName ""
# PROP Scc_LocalPath ""
CPP=cl.exe
RSC=rc.exe
!IF "$(CFG)" == "image_test - Win32 Release"
# PROP BASE Use_MFC 0
# PROP BASE Use_Debug_Libraries 0
# PROP BASE Output_Dir "Release"
# PROP BASE Intermediate_Dir "Release"
# PROP BASE Target_Dir ""
# PROP Use_MFC 0
# PROP Use_Debug_Libraries 0
# PROP Output_Dir "Release"
# PROP Intermediate_Dir "Release"
# PROP Ignore_Export_Lib 0
# PROP Target_Dir ""
# ADD BASE CPP /nologo /W3 /GX /O2 /D "WIN32" /D "NDEBUG" /D "_CONSOLE" /D "_MBCS" /YX /FD /c
# ADD CPP /nologo /W3 /GX /Zi /O2 /I ".." /D "WIN32" /D "NDEBUG" /D "_CONSOLE" /D "_MBCS" /FD /c
# SUBTRACT CPP /YX
# ADD BASE RSC /l 0x409 /d "NDEBUG"
# ADD RSC /l 0x409 /d "NDEBUG"
BSC32=bscmake.exe
# ADD BASE BSC32 /nologo
# ADD BSC32 /nologo
LINK32=link.exe
# ADD BASE LINK32 kernel32.lib user32.lib gdi32.lib winspool.lib comdlg32.lib advapi32.lib shell32.lib ole32.lib oleaut32.lib uuid.lib odbc32.lib odbccp32.lib kernel32.lib user32.lib gdi32.lib winspool.lib comdlg32.lib advapi32.lib shell32.lib ole32.lib oleaut32.lib uuid.lib odbc32.lib odbccp32.lib /nologo /subsystem:console /machine:I386
# ADD LINK32 kernel32.lib user32.lib gdi32.lib winspool.lib comdlg32.lib advapi32.lib shell32.lib ole32.lib oleaut32.lib uuid.lib odbc32.lib odbccp32.lib kernel32.lib user32.lib gdi32.lib winspool.lib comdlg32.lib advapi32.lib shell32.lib ole32.lib oleaut32.lib uuid.lib odbc32.lib odbccp32.lib /nologo /subsystem:console /debug /machine:I386
!ELSEIF "$(CFG)" == "image_test - Win32 Debug"
# PROP BASE Use_MFC 0
# PROP BASE Use_Debug_Libraries 1
# PROP BASE Output_Dir "Debug"
# PROP BASE Intermediate_Dir "Debug"
# PROP BASE Target_Dir ""
# PROP Use_MFC 0
# PROP Use_Debug_Libraries 1
# PROP Output_Dir "Debug"
# PROP Intermediate_Dir "Debug\image_test"
# PROP Target_Dir ""
# ADD BASE CPP /nologo /W3 /Gm /GX /ZI /Od /D "WIN32" /D "_DEBUG" /D "_CONSOLE" /D "_MBCS" /YX /FD /GZ /c
# ADD CPP /nologo /W3 /Gm /GX /ZI /Od /I ".." /D "WIN32" /D "_DEBUG" /D "_CONSOLE" /D "_MBCS" /FD /GZ /c
# SUBTRACT CPP /YX
# ADD BASE RSC /l 0x409 /d "_DEBUG"
# ADD RSC /l 0x409 /d "_DEBUG"
BSC32=bscmake.exe
# ADD BASE BSC32 /nologo
# ADD BSC32 /nologo
LINK32=link.exe
# ADD BASE LINK32 kernel32.lib user32.lib gdi32.lib winspool.lib comdlg32.lib advapi32.lib shell32.lib ole32.lib oleaut32.lib uuid.lib odbc32.lib odbccp32.lib kernel32.lib user32.lib gdi32.lib winspool.lib comdlg32.lib advapi32.lib shell32.lib ole32.lib oleaut32.lib uuid.lib odbc32.lib odbccp32.lib /nologo /subsystem:console /debug /machine:I386 /pdbtype:sept
# ADD LINK32 kernel32.lib user32.lib gdi32.lib winspool.lib comdlg32.lib advapi32.lib shell32.lib ole32.lib oleaut32.lib uuid.lib odbc32.lib odbccp32.lib kernel32.lib user32.lib gdi32.lib winspool.lib comdlg32.lib advapi32.lib shell32.lib ole32.lib oleaut32.lib uuid.lib odbc32.lib odbccp32.lib /nologo /subsystem:console /debug /machine:I386 /pdbtype:sept
!ENDIF
# Begin Target
# Name "image_test - Win32 Release"
# Name "image_test - Win32 Debug"
# Begin Source File
SOURCE=.\image_test.c
# End Source File
# Begin Source File
SOURCE=.\image_write_test.c
# End Source File
# Begin Source File
SOURCE=..\stb_image.h
# End Source File
# Begin Source File
SOURCE=..\stb_image_write.h
# End Source File
# End Target
# End Project

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#ifdef __clang__
#define STBIWDEF static inline
#endif
#define STB_IMAGE_WRITE_STATIC
#define STB_IMAGE_WRITE_IMPLEMENTATION
#include "stb_image_write.h"
// using an 'F' since it has no rotational symmetries, and 6x5
// because it's a small, atypical size likely to trigger edge cases.
//
// conveniently, it's also small enough to fully fit inside a typical
// directory listing thumbnail, which simplifies checking at a glance.
static const char img6x5_template[] =
".****."
".*...."
".***.."
".*...."
".*....";
void image_write_test(void)
{
// make a RGB version of the template image
// use red on blue to detect R<->B swaps
unsigned char img6x5_rgb[6*5*3];
float img6x5_rgbf[6*5*3];
int i;
for (i = 0; i < 6*5; i++) {
int on = img6x5_template[i] == '*';
img6x5_rgb[i*3 + 0] = on ? 255 : 0;
img6x5_rgb[i*3 + 1] = 0;
img6x5_rgb[i*3 + 2] = on ? 0 : 255;
img6x5_rgbf[i*3 + 0] = on ? 1.0f : 0.0f;
img6x5_rgbf[i*3 + 1] = 0.0f;
img6x5_rgbf[i*3 + 2] = on ? 0.0f : 1.0f;
}
stbi_write_png("output/wr6x5_regular.png", 6, 5, 3, img6x5_rgb, 6*3);
stbi_write_bmp("output/wr6x5_regular.bmp", 6, 5, 3, img6x5_rgb);
stbi_write_tga("output/wr6x5_regular.tga", 6, 5, 3, img6x5_rgb);
stbi_write_jpg("output/wr6x5_regular.jpg", 6, 5, 3, img6x5_rgb, 95);
stbi_write_hdr("output/wr6x5_regular.hdr", 6, 5, 3, img6x5_rgbf);
stbi_flip_vertically_on_write(1);
stbi_write_png("output/wr6x5_flip.png", 6, 5, 3, img6x5_rgb, 6*3);
stbi_write_bmp("output/wr6x5_flip.bmp", 6, 5, 3, img6x5_rgb);
stbi_write_tga("output/wr6x5_flip.tga", 6, 5, 3, img6x5_rgb);
stbi_write_jpg("output/wr6x5_flip.jpg", 6, 5, 3, img6x5_rgb, 95);
stbi_write_hdr("output/wr6x5_flip.hdr", 6, 5, 3, img6x5_rgbf);
}
#ifdef IWT_TEST
int main(int argc, char **argv)
{
image_write_test();
return 0;
}
#endif

29
external/stb/stb/tests/ossfuzz.sh vendored Executable file
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#!/bin/bash -eu
# This script is meant to be run by
# https://github.com/google/oss-fuzz/blob/master/projects/stb/Dockerfile
$CXX $CXXFLAGS -std=c++11 -I. -DSTBI_ONLY_PNG \
$SRC/stb/tests/stbi_read_fuzzer.c \
-o $OUT/stb_png_read_fuzzer $LIB_FUZZING_ENGINE
$CXX $CXXFLAGS -std=c++11 -I. \
$SRC/stb/tests/stbi_read_fuzzer.c \
-o $OUT/stbi_read_fuzzer $LIB_FUZZING_ENGINE
find $SRC/stb/tests/pngsuite -name "*.png" | \
xargs zip $OUT/stb_png_read_fuzzer_seed_corpus.zip
cp $SRC/stb/tests/stb_png.dict $OUT/stb_png_read_fuzzer.dict
tar xvzf $SRC/stbi/jpg.tar.gz --directory $SRC/stb/tests
tar xvzf $SRC/stbi/gif.tar.gz --directory $SRC/stb/tests
unzip $SRC/stbi/bmp.zip -d $SRC/stb/tests
unzip $SRC/stbi/tga.zip -d $SRC/stb/tests
find $SRC/stb/tests -name "*.png" -o -name "*.jpg" -o -name "*.gif" \
-o -name "*.bmp" -o -name "*.tga" -o -name "*.TGA" \
-o -name "*.ppm" -o -name "*.pgm" \
| xargs zip $OUT/stbi_read_fuzzer_seed_corpus.zip
echo "" >> $SRC/stbi/gif.dict
cat $SRC/stbi/gif.dict $SRC/stb/tests/stb_png.dict > $OUT/stbi_read_fuzzer.dict

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# Font character oversampling for rendering from atlas textures
TL,DR: Run oversample.exe on a windows machine to see the
benefits of oversampling. It will try to use arial.ttf from the
Windows font directory unless you type the name of a .ttf file as
a command-line argument.
## Benefits of oversampling
Oversampling is a mechanism for improving subpixel rendering of characters.
Improving subpixel has a few benefits:
* With horizontal-oversampling, text can remain sharper while still being sub-pixel positioned for better kerning
* Horizontally-oversampled text significantly reduces aliasing when text animates horizontally
* Vertically-oversampled text significantly reduces aliasing when text animates vertically
* Text oversampled in both directions significantly reduces aliasing when text rotates
## What text oversampling is
A common strategy for rendering text is to cache character bitmaps
and reuse them. For hinted characters, every instance of a given
character is always identical, so this works fine. However, stb_truetype
doesn't do hinting.
For anti-aliased characters, you can actually position the characters
with subpixel precision, and get different bitmaps based on that positioning
if you re-render the vector data.
However, if you simply cache a single version of the bitmap and
draw it at different subpixel positions with a GPU, you will get
either the exact same result (if you use point-sampling on the
texture) or linear filtering. Linear filtering will cause a sub-pixel
positioned bitmap to blur further, causing a visible de-sharpening
of the character. (And, since the character wasn't hinted, it was
already blurrier than a hinted one would be, and now it gets even
more blurry.)
You can avoid this by caching multiple variants of a character which
were rendered independently from the vector data. For example, you
might cache 3 versions of a char, at 0, 1/3, and 2/3rds of a pixel
horizontal offset, and always require characters to fall on integer
positions vertically.
When creating a texture atlas for use on GPUs, which support bilinear
filtering, there is a better approach than caching several independent
positions, which is to allow lerping between the versions to allow
finer subpixel positioning. You can achieve these by interleaving
each of the cached bitmaps, but this turns out to be mathematically
equivalent to a simpler operation: oversampling and prefiltering the
characters.
So, setting oversampling of 2x2 in stb_truetype is equivalent to caching
each character in 4 different variations, 1 for each subpixel position
in a 2x2 set.
An advantage of this formulation is that no changes are required to
the rendering code; the exact same quad-rendering code works, it just
uses different texture coordinates. (Note this does potentially increase
texture bandwidth for text rendering since we end up minifying the texture
without using mipmapping, but you probably are not going to be fill-bound
by your text rendering.)
## What about gamma?
Gamma-correction for fonts just doesn't work. This doesn't seem to make
much sense -- it's physically correct, it simulates what we'd see if you
shrunk a font down really far, right?
But you can play with it in the oversample.exe app. If you turn it on,
white-on-black fonts become too thick (i.e. they become too bright), and
black-on-white fonts become too thin (i.e. they are insufficiently dark). There is
no way to adjust the font's inherent thickness (i.e. by switching to
bold) to fix this for both; making the font thicker will make white
text worse, and making the font thinner will make black text worse.
Obviously you could use different fonts for light and dark cases, but
this doesn't seem like a very good way for fonts to work.
Multiple people who have experimented with this independently (me,
Fabian Giesen,and Maxim Shemanarev of Anti-Grain Geometry) have all
concluded that correct gamma-correction does not produce the best
results for fonts. Font rendering just generally looks better without
gamma correction (or possibly with some arbitrary power stuck in
there, but it's not really correcting for gamma at that point). Maybe
this is in part a product of how we're used to fonts being on screens
which has changed how we expect them to look (e.g. perhaps hinting
oversharpens them and prevents the real-world thinning you'd see in
a black-on-white text).
(AGG link on text rendering, including mention of gamma:
http://www.antigrain.com/research/font_rasterization/ )
Nevertheless, even if you turn on gamma-correction, you will find that
oversampling still helps in many cases for small fonts.

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external/stb/stb/tests/oversample/main.c vendored Normal file
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#pragma warning(disable:4244; disable:4305; disable:4018)
#include <assert.h>
#include <ctype.h>
#define STB_WINMAIN
#include "stb_wingraph.h"
#define STB_TRUETYPE_IMPLEMENTATION
#define STB_RECT_PACK_IMPLEMENTATION
#include "stb_rect_pack.h"
#include "stb_truetype.h"
#ifndef WINGDIAPI
#define CALLBACK __stdcall
#define WINGDIAPI __declspec(dllimport)
#define APIENTRY __stdcall
#endif
#include <gl/gl.h>
#include <gl/glu.h>
#define GL_FRAMEBUFFER_SRGB_EXT 0x8DB9
#define SIZE_X 1024
#define SIZE_Y 768
stbtt_packedchar chardata[6][128];
int sx=SIZE_X, sy=SIZE_Y;
#define BITMAP_W 512
#define BITMAP_H 512
unsigned char temp_bitmap[BITMAP_W][BITMAP_H];
unsigned char ttf_buffer[1 << 25];
GLuint font_tex;
float scale[2] = { 24.0f, 14.0f };
int sf[6] = { 0,1,2, 0,1,2 };
void load_fonts(void)
{
stbtt_pack_context pc;
int i;
FILE *f;
char filename[256];
char *win = getenv("windir");
if (win == NULL) win = getenv("SystemRoot");
f = fopen(stb_wingraph_commandline, "rb");
if (!f) {
if (win == NULL)
sprintf(filename, "arial.ttf", win);
else
sprintf(filename, "%s/fonts/arial.ttf", win);
f = fopen(filename, "rb");
if (!f) exit(0);
}
fread(ttf_buffer, 1, 1<<25, f);
stbtt_PackBegin(&pc, temp_bitmap[0], BITMAP_W, BITMAP_H, 0, 1, NULL);
for (i=0; i < 2; ++i) {
stbtt_PackSetOversampling(&pc, 1, 1);
stbtt_PackFontRange(&pc, ttf_buffer, 0, scale[i], 32, 95, chardata[i*3+0]+32);
stbtt_PackSetOversampling(&pc, 2, 2);
stbtt_PackFontRange(&pc, ttf_buffer, 0, scale[i], 32, 95, chardata[i*3+1]+32);
stbtt_PackSetOversampling(&pc, 3, 1);
stbtt_PackFontRange(&pc, ttf_buffer, 0, scale[i], 32, 95, chardata[i*3+2]+32);
}
stbtt_PackEnd(&pc);
glGenTextures(1, &font_tex);
glBindTexture(GL_TEXTURE_2D, font_tex);
glTexImage2D(GL_TEXTURE_2D, 0, GL_ALPHA, BITMAP_W, BITMAP_H, 0, GL_ALPHA, GL_UNSIGNED_BYTE, temp_bitmap);
glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MIN_FILTER, GL_LINEAR);
glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MAG_FILTER, GL_LINEAR);
}
int black_on_white;
void draw_init(void)
{
glDisable(GL_CULL_FACE);
glDisable(GL_TEXTURE_2D);
glDisable(GL_LIGHTING);
glDisable(GL_DEPTH_TEST);
glViewport(0,0,sx,sy);
if (black_on_white)
glClearColor(255,255,255,0);
else
glClearColor(0,0,0,0);
glClear(GL_COLOR_BUFFER_BIT);
glMatrixMode(GL_PROJECTION);
glLoadIdentity();
gluOrtho2D(0,sx,sy,0);
glMatrixMode(GL_MODELVIEW);
glLoadIdentity();
}
void drawBoxTC(float x0, float y0, float x1, float y1, float s0, float t0, float s1, float t1)
{
glTexCoord2f(s0,t0); glVertex2f(x0,y0);
glTexCoord2f(s1,t0); glVertex2f(x1,y0);
glTexCoord2f(s1,t1); glVertex2f(x1,y1);
glTexCoord2f(s0,t1); glVertex2f(x0,y1);
}
int integer_align;
void print(float x, float y, int font, char *text)
{
glEnable(GL_TEXTURE_2D);
glBindTexture(GL_TEXTURE_2D, font_tex);
glBegin(GL_QUADS);
while (*text) {
stbtt_aligned_quad q;
stbtt_GetPackedQuad(chardata[font], BITMAP_W, BITMAP_H, *text++, &x, &y, &q, font ? 0 : integer_align);
drawBoxTC(q.x0,q.y0,q.x1,q.y1, q.s0,q.t0,q.s1,q.t1);
}
glEnd();
}
int font=3;
int translating;
int rotating=0;
int srgb=0;
float rotate_t, translate_t;
int show_tex;
void draw_world(void)
{
int sfont = sf[font];
float x = 20;
glEnable(GL_BLEND);
glBlendFunc(GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA);
if (black_on_white)
glColor3f(0,0,0);
else
glColor3f(1,1,1);
print(80, 30, sfont, "Controls:");
print(100, 60, sfont, "S: toggle font size");
print(100, 85, sfont, "O: toggle oversampling");
print(100,110, sfont, "T: toggle translation");
print(100,135, sfont, "R: toggle rotation");
print(100,160, sfont, "P: toggle pixel-snap (only non-oversampled)");
print(100,185, sfont, "G: toggle srgb gamma-correction");
if (black_on_white)
print(100,210, sfont, "B: toggle to white-on-black");
else
print(100,210, sfont, "B: toggle to black-on-white");
print(100,235, sfont, "V: view font texture");
print(80, 300, sfont, "Current font:");
if (!show_tex) {
if (font < 3)
print(100, 350, sfont, "Font height: 24 pixels");
else
print(100, 350, sfont, "Font height: 14 pixels");
}
if (font%3==1)
print(100, 325, sfont, "2x2 oversampled text at 1:1");
else if (font%3 == 2)
print(100, 325, sfont, "3x1 oversampled text at 1:1");
else if (integer_align)
print(100, 325, sfont, "1:1 text, one texel = one pixel, snapped to integer coordinates");
else
print(100, 325, sfont, "1:1 text, one texel = one pixel");
if (show_tex) {
glBegin(GL_QUADS);
drawBoxTC(200,400, 200+BITMAP_W,300+BITMAP_H, 0,0,1,1);
glEnd();
} else {
glMatrixMode(GL_MODELVIEW);
glTranslatef(200,350,0);
if (translating)
x += fmod(translate_t*8,30);
if (rotating) {
glTranslatef(100,150,0);
glRotatef(rotate_t*2,0,0,1);
glTranslatef(-100,-150,0);
}
print(x,100, font, "This is a test");
print(x,130, font, "Now is the time for all good men to come to the aid of their country.");
print(x,160, font, "The quick brown fox jumps over the lazy dog.");
print(x,190, font, "0123456789");
}
}
void draw(void)
{
draw_init();
draw_world();
stbwingraph_SwapBuffers(NULL);
}
static int initialized=0;
static float last_dt;
int move[4];
int raw_mouse_x, raw_mouse_y;
int loopmode(float dt, int real, int in_client)
{
float actual_dt = dt;
if (!initialized) return 0;
rotate_t += dt;
translate_t += dt;
// music_sim();
if (!real)
return 0;
if (dt > 0.25) dt = 0.25;
if (dt < 0.01) dt = 0.01;
draw();
return 0;
}
int winproc(void *data, stbwingraph_event *e)
{
switch (e->type) {
case STBWGE_create:
break;
case STBWGE_char:
switch(e->key) {
case 27:
stbwingraph_ShowCursor(NULL,1);
return STBWINGRAPH_winproc_exit;
break;
case 'o': case 'O':
font = (font+1) % 3 + (font/3)*3;
break;
case 's': case 'S':
font = (font+3) % 6;
break;
case 't': case 'T':
translating = !translating;
translate_t = 0;
break;
case 'r': case 'R':
rotating = !rotating;
rotate_t = 0;
break;
case 'p': case 'P':
integer_align = !integer_align;
break;
case 'g': case 'G':
srgb = !srgb;
if (srgb)
glEnable(GL_FRAMEBUFFER_SRGB_EXT);
else
glDisable(GL_FRAMEBUFFER_SRGB_EXT);
break;
case 'v': case 'V':
show_tex = !show_tex;
break;
case 'b': case 'B':
black_on_white = !black_on_white;
break;
}
break;
case STBWGE_mousemove:
raw_mouse_x = e->mx;
raw_mouse_y = e->my;
break;
#if 0
case STBWGE_mousewheel: do_mouse(e,0,0); break;
case STBWGE_leftdown: do_mouse(e, 1,0); break;
case STBWGE_leftup: do_mouse(e,-1,0); break;
case STBWGE_rightdown: do_mouse(e,0, 1); break;
case STBWGE_rightup: do_mouse(e,0,-1); break;
#endif
case STBWGE_keydown:
if (e->key == VK_RIGHT) move[0] = 1;
if (e->key == VK_LEFT) move[1] = 1;
if (e->key == VK_UP) move[2] = 1;
if (e->key == VK_DOWN) move[3] = 1;
break;
case STBWGE_keyup:
if (e->key == VK_RIGHT) move[0] = 0;
if (e->key == VK_LEFT) move[1] = 0;
if (e->key == VK_UP) move[2] = 0;
if (e->key == VK_DOWN) move[3] = 0;
break;
case STBWGE_size:
sx = e->width;
sy = e->height;
loopmode(0,1,0);
break;
case STBWGE_draw:
if (initialized)
loopmode(0,1,0);
break;
default:
return STBWINGRAPH_unprocessed;
}
return 0;
}
void stbwingraph_main(void)
{
stbwingraph_Priority(2);
stbwingraph_CreateWindow(1, winproc, NULL, "tt", SIZE_X,SIZE_Y, 0, 1, 0, 0);
stbwingraph_ShowCursor(NULL, 0);
load_fonts();
initialized = 1;
stbwingraph_MainLoop(loopmode, 0.016f); // 30 fps = 0.33
}

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# Microsoft Developer Studio Project File - Name="oversample" - Package Owner=<4>
# Microsoft Developer Studio Generated Build File, Format Version 6.00
# ** DO NOT EDIT **
# TARGTYPE "Win32 (x86) Application" 0x0101
CFG=oversample - Win32 Debug
!MESSAGE This is not a valid makefile. To build this project using NMAKE,
!MESSAGE use the Export Makefile command and run
!MESSAGE
!MESSAGE NMAKE /f "oversample.mak".
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!MESSAGE "oversample - Win32 Release" (based on "Win32 (x86) Application")
!MESSAGE "oversample - Win32 Debug" (based on "Win32 (x86) Application")
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# Begin Project
# PROP AllowPerConfigDependencies 0
# PROP Scc_ProjName ""
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CPP=cl.exe
MTL=midl.exe
RSC=rc.exe
!IF "$(CFG)" == "oversample - Win32 Release"
# PROP BASE Use_MFC 0
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# PROP BASE Output_Dir "Release"
# PROP BASE Intermediate_Dir "Release"
# PROP BASE Target_Dir ""
# PROP Use_MFC 0
# PROP Use_Debug_Libraries 0
# PROP Output_Dir "Release"
# PROP Intermediate_Dir "Release"
# PROP Ignore_Export_Lib 0
# PROP Target_Dir ""
# ADD BASE CPP /nologo /W3 /GX /O2 /D "WIN32" /D "NDEBUG" /D "_WINDOWS" /D "_MBCS" /YX /FD /c
# ADD CPP /nologo /W3 /WX /GX /O2 /I "c:\sean\prj\stb" /D "WIN32" /D "NDEBUG" /D "_WINDOWS" /D "_MBCS" /FD /c
# SUBTRACT CPP /YX
# ADD BASE MTL /nologo /D "NDEBUG" /mktyplib203 /win32
# ADD MTL /nologo /D "NDEBUG" /mktyplib203 /win32
# ADD BASE RSC /l 0x409 /d "NDEBUG"
# ADD RSC /l 0x409 /d "NDEBUG"
BSC32=bscmake.exe
# ADD BASE BSC32 /nologo
# ADD BSC32 /nologo
LINK32=link.exe
# ADD BASE LINK32 kernel32.lib user32.lib gdi32.lib winspool.lib comdlg32.lib advapi32.lib shell32.lib ole32.lib oleaut32.lib uuid.lib odbc32.lib odbccp32.lib /nologo /subsystem:windows /machine:I386
# ADD LINK32 kernel32.lib user32.lib gdi32.lib winspool.lib comdlg32.lib shell32.lib ole32.lib oleaut32.lib uuid.lib odbc32.lib odbccp32.lib /nologo /subsystem:windows /machine:I386
# SUBTRACT LINK32 /map /debug
!ELSEIF "$(CFG)" == "oversample - Win32 Debug"
# PROP BASE Use_MFC 0
# PROP BASE Use_Debug_Libraries 1
# PROP BASE Output_Dir "Debug"
# PROP BASE Intermediate_Dir "Debug"
# PROP BASE Target_Dir ""
# PROP Use_MFC 0
# PROP Use_Debug_Libraries 1
# PROP Output_Dir "Debug"
# PROP Intermediate_Dir "Debug"
# PROP Ignore_Export_Lib 0
# PROP Target_Dir ""
# ADD BASE CPP /nologo /W3 /Gm /GX /ZI /Od /D "WIN32" /D "_DEBUG" /D "_WINDOWS" /D "_MBCS" /YX /FD /GZ /c
# ADD CPP /nologo /W3 /WX /Gm /GX /Zi /Od /I "c:\sean\prj\stb" /D "WIN32" /D "_DEBUG" /D "_WINDOWS" /D "_MBCS" /FD /GZ /c
# ADD BASE MTL /nologo /D "_DEBUG" /mktyplib203 /win32
# ADD MTL /nologo /D "_DEBUG" /mktyplib203 /win32
# ADD BASE RSC /l 0x409 /d "_DEBUG"
# ADD RSC /l 0x409 /d "_DEBUG"
BSC32=bscmake.exe
# ADD BASE BSC32 /nologo
# ADD BSC32 /nologo
LINK32=link.exe
# ADD BASE LINK32 kernel32.lib user32.lib gdi32.lib winspool.lib comdlg32.lib advapi32.lib shell32.lib ole32.lib oleaut32.lib uuid.lib odbc32.lib odbccp32.lib /nologo /subsystem:windows /debug /machine:I386 /pdbtype:sept
# ADD LINK32 kernel32.lib user32.lib gdi32.lib advapi32.lib winspool.lib comdlg32.lib shell32.lib ole32.lib oleaut32.lib uuid.lib odbc32.lib odbccp32.lib /nologo /subsystem:windows /incremental:no /debug /machine:I386 /pdbtype:sept
!ENDIF
# Begin Target
# Name "oversample - Win32 Release"
# Name "oversample - Win32 Debug"
# Begin Source File
SOURCE=.\main.c
# End Source File
# End Target
# End Project

View File

@ -0,0 +1,29 @@
Microsoft Developer Studio Workspace File, Format Version 6.00
# WARNING: DO NOT EDIT OR DELETE THIS WORKSPACE FILE!
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Project: "oversample"=.\oversample.dsp - Package Owner=<4>
Package=<5>
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Package=<4>
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View File

@ -0,0 +1,829 @@
// stb_wingraph.h v0.01 - public domain windows graphics programming
// wraps WinMain, ChoosePixelFormat, ChangeDisplayResolution, etc. for
// doing OpenGL graphics
//
// in ONE source file, put '#define STB_DEFINE' before including this
// OR put '#define STB_WINMAIN' to define a WinMain that calls stbwingraph_main(void)
//
// @TODO:
// 2d rendering interface (that can be done easily in software)
// STB_WINGRAPH_SOFTWARE -- 2d software rendering only
// STB_WINGRAPH_OPENGL -- OpenGL only
#ifndef INCLUDE_STB_WINGRAPH_H
#define INCLUDE_STB_WINGRAPH_H
#ifdef STB_WINMAIN
#ifndef STB_DEFINE
#define STB_DEFINE
#define STB_WINGRAPH_DISABLE_DEFINE_AT_END
#endif
#endif
#ifdef STB_DEFINE
#pragma comment(lib, "opengl32.lib")
#pragma comment(lib, "glu32.lib")
#pragma comment(lib, "winmm.lib")
#pragma comment(lib, "gdi32.lib")
#pragma comment(lib, "user32.lib")
#endif
#ifdef __cplusplus
#define STB_EXTERN extern "C"
#else
#define STB_EXTERN
#endif
#ifdef STB_DEFINE
#ifndef _WINDOWS_
#ifdef APIENTRY
#undef APIENTRY
#endif
#ifdef WINGDIAPI
#undef WINGDIAPI
#endif
#define _WIN32_WINNT 0x0400 // WM_MOUSEWHEEL
#include <windows.h>
#endif
#include <stdio.h>
#include <math.h>
#include <time.h>
#include <string.h>
#include <assert.h>
#endif
typedef void * stbwingraph_hwnd;
typedef void * stbwingraph_hinstance;
enum
{
STBWINGRAPH_unprocessed = -(1 << 24),
STBWINGRAPH_do_not_show,
STBWINGRAPH_winproc_exit,
STBWINGRAPH_winproc_update,
STBWINGRAPH_update_exit,
STBWINGRAPH_update_pause,
};
typedef enum
{
STBWGE__none=0,
STBWGE_create,
STBWGE_create_postshow,
STBWGE_draw,
STBWGE_destroy,
STBWGE_char,
STBWGE_keydown,
STBWGE_syskeydown,
STBWGE_keyup,
STBWGE_syskeyup,
STBWGE_deactivate,
STBWGE_activate,
STBWGE_size,
STBWGE_mousemove ,
STBWGE_leftdown , STBWGE_leftup ,
STBWGE_middledown, STBWGE_middleup,
STBWGE_rightdown , STBWGE_rightup ,
STBWGE_mousewheel,
} stbwingraph_event_type;
typedef struct
{
stbwingraph_event_type type;
// for input events (mouse, keyboard)
int mx,my; // mouse x & y
int dx,dy;
int shift, ctrl, alt;
// for keyboard events
int key;
// for STBWGE_size:
int width, height;
// for STBWGE_crate
int did_share_lists; // if true, wglShareLists succeeded
void *handle;
} stbwingraph_event;
typedef int (*stbwingraph_window_proc)(void *data, stbwingraph_event *event);
extern stbwingraph_hinstance stbwingraph_app;
extern stbwingraph_hwnd stbwingraph_primary_window;
extern int stbwingraph_request_fullscreen;
extern int stbwingraph_request_windowed;
STB_EXTERN void stbwingraph_ods(char *str, ...);
STB_EXTERN int stbwingraph_MessageBox(stbwingraph_hwnd win, unsigned int type,
char *caption, char *text, ...);
STB_EXTERN int stbwingraph_ChangeResolution(unsigned int w, unsigned int h,
unsigned int bits, int use_message_box);
STB_EXTERN int stbwingraph_SetPixelFormat(stbwingraph_hwnd win, int color_bits,
int alpha_bits, int depth_bits, int stencil_bits, int accum_bits);
STB_EXTERN int stbwingraph_DefineClass(void *hinstance, char *iconname);
STB_EXTERN void stbwingraph_SwapBuffers(void *win);
STB_EXTERN void stbwingraph_Priority(int n);
STB_EXTERN void stbwingraph_MakeFonts(void *window, int font_base);
STB_EXTERN void stbwingraph_ShowWindow(void *window);
STB_EXTERN void *stbwingraph_CreateWindow(int primary, stbwingraph_window_proc func, void *data, char *text, int width, int height, int fullscreen, int resizeable, int dest_alpha, int stencil);
STB_EXTERN void *stbwingraph_CreateWindowSimple(stbwingraph_window_proc func, int width, int height);
STB_EXTERN void *stbwingraph_CreateWindowSimpleFull(stbwingraph_window_proc func, int fullscreen, int ww, int wh, int fw, int fh);
STB_EXTERN void stbwingraph_DestroyWindow(void *window);
STB_EXTERN void stbwingraph_ShowCursor(void *window, int visible);
STB_EXTERN float stbwingraph_GetTimestep(float minimum_time);
STB_EXTERN void stbwingraph_SetGLWindow(void *win);
typedef int (*stbwingraph_update)(float timestep, int real, int in_client);
STB_EXTERN int stbwingraph_MainLoop(stbwingraph_update func, float mintime);
#ifdef STB_DEFINE
stbwingraph_hinstance stbwingraph_app;
stbwingraph_hwnd stbwingraph_primary_window;
int stbwingraph_request_fullscreen;
int stbwingraph_request_windowed;
void stbwingraph_ods(char *str, ...)
{
char buffer[1024];
va_list v;
va_start(v,str);
vsprintf(buffer, str, v);
va_end(v);
OutputDebugString(buffer);
}
int stbwingraph_MessageBox(stbwingraph_hwnd win, unsigned int type, char *caption, char *text, ...)
{
va_list v;
char buffer[1024];
va_start(v, text);
vsprintf(buffer, text, v);
va_end(v);
return MessageBox(win, buffer, caption, type);
}
void stbwingraph_Priority(int n)
{
int p;
switch (n) {
case -1: p = THREAD_PRIORITY_BELOW_NORMAL; break;
case 0: p = THREAD_PRIORITY_NORMAL; break;
case 1: p = THREAD_PRIORITY_ABOVE_NORMAL; break;
default:
if (n < 0) p = THREAD_PRIORITY_LOWEST;
else p = THREAD_PRIORITY_HIGHEST;
}
SetThreadPriority(GetCurrentThread(), p);
}
static void stbwingraph_ResetResolution(void)
{
ChangeDisplaySettings(NULL, 0);
}
static void stbwingraph_RegisterResetResolution(void)
{
static int done=0;
if (!done) {
done = 1;
atexit(stbwingraph_ResetResolution);
}
}
int stbwingraph_ChangeResolution(unsigned int w, unsigned int h, unsigned int bits, int use_message_box)
{
DEVMODE mode;
int res;
int i, tries=0;
for (i=0; ; ++i) {
int success = EnumDisplaySettings(NULL, i, &mode);
if (!success) break;
if (mode.dmBitsPerPel == bits && mode.dmPelsWidth == w && mode.dmPelsHeight == h) {
++tries;
success = ChangeDisplaySettings(&mode, CDS_FULLSCREEN);
if (success == DISP_CHANGE_SUCCESSFUL) {
stbwingraph_RegisterResetResolution();
return TRUE;
}
break;
}
}
if (!tries) {
if (use_message_box)
stbwingraph_MessageBox(stbwingraph_primary_window, MB_ICONERROR, NULL, "The resolution %d x %d x %d-bits is not supported.", w, h, bits);
return FALSE;
}
// we tried but failed, so try explicitly doing it without specifying refresh rate
// Win95 support logic
mode.dmBitsPerPel = bits;
mode.dmPelsWidth = w;
mode.dmPelsHeight = h;
mode.dmFields = DM_BITSPERPEL | DM_PELSWIDTH | DM_PELSHEIGHT;
res = ChangeDisplaySettings(&mode, CDS_FULLSCREEN);
switch (res) {
case DISP_CHANGE_SUCCESSFUL:
stbwingraph_RegisterResetResolution();
return TRUE;
case DISP_CHANGE_RESTART:
if (use_message_box)
stbwingraph_MessageBox(stbwingraph_primary_window, MB_ICONERROR, NULL, "Please set your desktop to %d-bit color and then try again.");
return FALSE;
case DISP_CHANGE_FAILED:
if (use_message_box)
stbwingraph_MessageBox(stbwingraph_primary_window, MB_ICONERROR, NULL, "The hardware failed to change modes.");
return FALSE;
case DISP_CHANGE_BADMODE:
if (use_message_box)
stbwingraph_MessageBox(stbwingraph_primary_window, MB_ICONERROR, NULL, "The resolution %d x %d x %d-bits is not supported.", w, h, bits);
return FALSE;
default:
if (use_message_box)
stbwingraph_MessageBox(stbwingraph_primary_window, MB_ICONERROR, NULL, "An unknown error prevented a change to a %d x %d x %d-bit display.", w, h, bits);
return FALSE;
}
}
int stbwingraph_SetPixelFormat(stbwingraph_hwnd win, int color_bits, int alpha_bits, int depth_bits, int stencil_bits, int accum_bits)
{
HDC dc = GetDC(win);
PIXELFORMATDESCRIPTOR pfd = { sizeof(pfd) };
int pixel_format;
pfd.nVersion = 1;
pfd.dwFlags = PFD_SUPPORT_OPENGL | PFD_DRAW_TO_WINDOW | PFD_DOUBLEBUFFER;
pfd.dwLayerMask = PFD_MAIN_PLANE;
pfd.iPixelType = PFD_TYPE_RGBA;
pfd.cColorBits = color_bits;
pfd.cAlphaBits = alpha_bits;
pfd.cDepthBits = depth_bits;
pfd.cStencilBits = stencil_bits;
pfd.cAccumBits = accum_bits;
pixel_format = ChoosePixelFormat(dc, &pfd);
if (!pixel_format) return FALSE;
if (!DescribePixelFormat(dc, pixel_format, sizeof(PIXELFORMATDESCRIPTOR), &pfd))
return FALSE;
SetPixelFormat(dc, pixel_format, &pfd);
return TRUE;
}
typedef struct
{
// app data
stbwingraph_window_proc func;
void *data;
// creation parameters
int color, alpha, depth, stencil, accum;
HWND share_window;
HWND window;
// internal data
HGLRC rc;
HDC dc;
int hide_mouse;
int in_client;
int active;
int did_share_lists;
int mx,my; // last mouse positions
} stbwingraph__window;
static void stbwingraph__inclient(stbwingraph__window *win, int state)
{
if (state != win->in_client) {
win->in_client = state;
if (win->hide_mouse)
ShowCursor(!state);
}
}
static void stbwingraph__key(stbwingraph_event *e, int type, int key, stbwingraph__window *z)
{
e->type = type;
e->key = key;
e->shift = (GetKeyState(VK_SHIFT) < 0);
e->ctrl = (GetKeyState(VK_CONTROL) < 0);
e->alt = (GetKeyState(VK_MENU) < 0);
if (z) {
e->mx = z->mx;
e->my = z->my;
} else {
e->mx = e->my = 0;
}
e->dx = e->dy = 0;
}
static void stbwingraph__mouse(stbwingraph_event *e, int type, WPARAM wparam, LPARAM lparam, int capture, void *wnd, stbwingraph__window *z)
{
static int captured = 0;
e->type = type;
e->mx = (short) LOWORD(lparam);
e->my = (short) HIWORD(lparam);
if (!z || z->mx == -(1 << 30)) {
e->dx = e->dy = 0;
} else {
e->dx = e->mx - z->mx;
e->dy = e->my - z->my;
}
e->shift = (wparam & MK_SHIFT) != 0;
e->ctrl = (wparam & MK_CONTROL) != 0;
e->alt = (wparam & MK_ALT) != 0;
if (z) {
z->mx = e->mx;
z->my = e->my;
}
if (capture) {
if (!captured && capture == 1)
SetCapture(wnd);
captured += capture;
if (!captured && capture == -1)
ReleaseCapture();
if (captured < 0) captured = 0;
}
}
static void stbwingraph__mousewheel(stbwingraph_event *e, int type, WPARAM wparam, LPARAM lparam, int capture, void *wnd, stbwingraph__window *z)
{
// lparam seems bogus!
static int captured = 0;
e->type = type;
if (z) {
e->mx = z->mx;
e->my = z->my;
}
e->dx = e->dy = 0;
e->shift = (wparam & MK_SHIFT) != 0;
e->ctrl = (wparam & MK_CONTROL) != 0;
e->alt = (GetKeyState(VK_MENU) < 0);
e->key = ((int) wparam >> 16);
}
int stbwingraph_force_update;
static int WINAPI stbwingraph_WinProc(HWND wnd, UINT msg, WPARAM wparam, LPARAM lparam)
{
int allow_default = TRUE;
stbwingraph_event e = { STBWGE__none };
// the following line is wrong for 64-bit windows, but VC6 doesn't have GetWindowLongPtr
stbwingraph__window *z = (stbwingraph__window *) GetWindowLong(wnd, GWL_USERDATA);
switch (msg) {
case WM_CREATE:
{
LPCREATESTRUCT lpcs = (LPCREATESTRUCT) lparam;
assert(z == NULL);
z = (stbwingraph__window *) lpcs->lpCreateParams;
SetWindowLong(wnd, GWL_USERDATA, (LONG) z);
z->dc = GetDC(wnd);
if (stbwingraph_SetPixelFormat(wnd, z->color, z->alpha, z->depth, z->stencil, z->accum)) {
z->rc = wglCreateContext(z->dc);
if (z->rc) {
e.type = STBWGE_create;
z->did_share_lists = FALSE;
if (z->share_window) {
stbwingraph__window *y = (stbwingraph__window *) GetWindowLong(z->share_window, GWL_USERDATA);
if (wglShareLists(z->rc, y->rc))
z->did_share_lists = TRUE;
}
wglMakeCurrent(z->dc, z->rc);
return 0;
}
}
return -1;
}
case WM_PAINT: {
PAINTSTRUCT ps;
HDC hdc = BeginPaint(wnd, &ps);
SelectObject(hdc, GetStockObject(NULL_BRUSH));
e.type = STBWGE_draw;
e.handle = wnd;
z->func(z->data, &e);
EndPaint(wnd, &ps);
return 0;
}
case WM_DESTROY:
e.type = STBWGE_destroy;
e.handle = wnd;
if (z && z->func)
z->func(z->data, &e);
wglMakeCurrent(NULL, NULL) ;
if (z) {
if (z->rc) wglDeleteContext(z->rc);
z->dc = 0;
z->rc = 0;
}
if (wnd == stbwingraph_primary_window)
PostQuitMessage (0);
return 0;
case WM_CHAR: stbwingraph__key(&e, STBWGE_char , wparam, z); break;
case WM_KEYDOWN: stbwingraph__key(&e, STBWGE_keydown, wparam, z); break;
case WM_KEYUP: stbwingraph__key(&e, STBWGE_keyup , wparam, z); break;
case WM_NCMOUSEMOVE: stbwingraph__inclient(z,0); break;
case WM_MOUSEMOVE: stbwingraph__inclient(z,1); stbwingraph__mouse(&e, STBWGE_mousemove, wparam, lparam,0,wnd, z); break;
case WM_LBUTTONDOWN: stbwingraph__mouse(&e, STBWGE_leftdown, wparam, lparam,1,wnd, z); break;
case WM_MBUTTONDOWN: stbwingraph__mouse(&e, STBWGE_middledown, wparam, lparam,1,wnd, z); break;
case WM_RBUTTONDOWN: stbwingraph__mouse(&e, STBWGE_rightdown, wparam, lparam,1,wnd, z); break;
case WM_LBUTTONUP: stbwingraph__mouse(&e, STBWGE_leftup, wparam, lparam,-1,wnd, z); break;
case WM_MBUTTONUP: stbwingraph__mouse(&e, STBWGE_middleup, wparam, lparam,-1,wnd, z); break;
case WM_RBUTTONUP: stbwingraph__mouse(&e, STBWGE_rightup, wparam, lparam,-1,wnd, z); break;
case WM_MOUSEWHEEL: stbwingraph__mousewheel(&e, STBWGE_mousewheel, wparam, lparam,0,wnd, z); break;
case WM_ACTIVATE:
allow_default = FALSE;
if (LOWORD(wparam)==WA_INACTIVE ) {
wglMakeCurrent(z->dc, NULL);
e.type = STBWGE_deactivate;
z->active = FALSE;
} else {
wglMakeCurrent(z->dc, z->rc);
e.type = STBWGE_activate;
z->active = TRUE;
}
e.handle = wnd;
z->func(z->data, &e);
return 0;
case WM_SIZE: {
RECT rect;
allow_default = FALSE;
GetClientRect(wnd, &rect);
e.type = STBWGE_size;
e.width = rect.right;
e.height = rect.bottom;
e.handle = wnd;
z->func(z->data, &e);
return 0;
}
default:
return DefWindowProc (wnd, msg, wparam, lparam);
}
if (e.type != STBWGE__none) {
int n;
e.handle = wnd;
n = z->func(z->data, &e);
if (n == STBWINGRAPH_winproc_exit) {
PostQuitMessage(0);
n = 0;
}
if (n == STBWINGRAPH_winproc_update) {
stbwingraph_force_update = TRUE;
return 1;
}
if (n != STBWINGRAPH_unprocessed)
return n;
}
return DefWindowProc (wnd, msg, wparam, lparam);
}
int stbwingraph_DefineClass(HINSTANCE hInstance, char *iconname)
{
WNDCLASSEX wndclass;
stbwingraph_app = hInstance;
wndclass.cbSize = sizeof(wndclass);
wndclass.style = CS_OWNDC;
wndclass.lpfnWndProc = (WNDPROC) stbwingraph_WinProc;
wndclass.cbClsExtra = 0;
wndclass.cbWndExtra = 0;
wndclass.hInstance = hInstance;
wndclass.hIcon = LoadIcon(hInstance, iconname);
wndclass.hCursor = LoadCursor(NULL,IDC_ARROW);
wndclass.hbrBackground = GetStockObject(NULL_BRUSH);
wndclass.lpszMenuName = "zwingraph";
wndclass.lpszClassName = "zwingraph";
wndclass.hIconSm = NULL;
if (!RegisterClassEx(&wndclass))
return FALSE;
return TRUE;
}
void stbwingraph_ShowWindow(void *window)
{
stbwingraph_event e = { STBWGE_create_postshow };
stbwingraph__window *z = (stbwingraph__window *) GetWindowLong(window, GWL_USERDATA);
ShowWindow(window, SW_SHOWNORMAL);
InvalidateRect(window, NULL, TRUE);
UpdateWindow(window);
e.handle = window;
z->func(z->data, &e);
}
void *stbwingraph_CreateWindow(int primary, stbwingraph_window_proc func, void *data, char *text,
int width, int height, int fullscreen, int resizeable, int dest_alpha, int stencil)
{
HWND win;
DWORD dwstyle;
stbwingraph__window *z = (stbwingraph__window *) malloc(sizeof(*z));
if (z == NULL) return NULL;
memset(z, 0, sizeof(*z));
z->color = 24;
z->depth = 24;
z->alpha = dest_alpha;
z->stencil = stencil;
z->func = func;
z->data = data;
z->mx = -(1 << 30);
z->my = 0;
if (primary) {
if (stbwingraph_request_windowed)
fullscreen = FALSE;
else if (stbwingraph_request_fullscreen)
fullscreen = TRUE;
}
if (fullscreen) {
#ifdef STB_SIMPLE
stbwingraph_ChangeResolution(width, height, 32, 1);
#else
if (!stbwingraph_ChangeResolution(width, height, 32, 0))
return NULL;
#endif
dwstyle = WS_POPUP | WS_CLIPSIBLINGS;
} else {
RECT rect;
dwstyle = WS_OVERLAPPED | WS_CAPTION | WS_SYSMENU | WS_MINIMIZEBOX;
if (resizeable)
dwstyle |= WS_SIZEBOX | WS_MAXIMIZEBOX;
rect.top = 0;
rect.left = 0;
rect.right = width;
rect.bottom = height;
AdjustWindowRect(&rect, dwstyle, FALSE);
width = rect.right - rect.left;
height = rect.bottom - rect.top;
}
win = CreateWindow("zwingraph", text ? text : "sample", dwstyle,
CW_USEDEFAULT,0, width, height,
NULL, NULL, stbwingraph_app, z);
if (win == NULL) return win;
if (primary) {
if (stbwingraph_primary_window)
stbwingraph_DestroyWindow(stbwingraph_primary_window);
stbwingraph_primary_window = win;
}
{
stbwingraph_event e = { STBWGE_create };
stbwingraph__window *z = (stbwingraph__window *) GetWindowLong(win, GWL_USERDATA);
z->window = win;
e.did_share_lists = z->did_share_lists;
e.handle = win;
if (z->func(z->data, &e) != STBWINGRAPH_do_not_show)
stbwingraph_ShowWindow(win);
}
return win;
}
void *stbwingraph_CreateWindowSimple(stbwingraph_window_proc func, int width, int height)
{
int fullscreen = 0;
#ifndef _DEBUG
if (width == 640 && height == 480) fullscreen = 1;
if (width == 800 && height == 600) fullscreen = 1;
if (width == 1024 && height == 768) fullscreen = 1;
if (width == 1280 && height == 1024) fullscreen = 1;
if (width == 1600 && height == 1200) fullscreen = 1;
//@TODO: widescreen widths
#endif
return stbwingraph_CreateWindow(1, func, NULL, NULL, width, height, fullscreen, 1, 0, 0);
}
void *stbwingraph_CreateWindowSimpleFull(stbwingraph_window_proc func, int fullscreen, int ww, int wh, int fw, int fh)
{
if (fullscreen == -1) {
#ifdef _DEBUG
fullscreen = 0;
#else
fullscreen = 1;
#endif
}
if (fullscreen) {
if (fw) ww = fw;
if (fh) wh = fh;
}
return stbwingraph_CreateWindow(1, func, NULL, NULL, ww, wh, fullscreen, 1, 0, 0);
}
void stbwingraph_DestroyWindow(void *window)
{
stbwingraph__window *z = (stbwingraph__window *) GetWindowLong(window, GWL_USERDATA);
DestroyWindow(window);
free(z);
if (stbwingraph_primary_window == window)
stbwingraph_primary_window = NULL;
}
void stbwingraph_ShowCursor(void *window, int visible)
{
int hide;
stbwingraph__window *win;
if (!window)
window = stbwingraph_primary_window;
win = (stbwingraph__window *) GetWindowLong((HWND) window, GWL_USERDATA);
hide = !visible;
if (hide != win->hide_mouse) {
win->hide_mouse = hide;
if (!hide)
ShowCursor(TRUE);
else if (win->in_client)
ShowCursor(FALSE);
}
}
float stbwingraph_GetTimestep(float minimum_time)
{
float elapsedTime;
double thisTime;
static double lastTime = -1;
if (lastTime == -1)
lastTime = timeGetTime() / 1000.0 - minimum_time;
for(;;) {
thisTime = timeGetTime() / 1000.0;
elapsedTime = (float) (thisTime - lastTime);
if (elapsedTime >= minimum_time) {
lastTime = thisTime;
return elapsedTime;
}
#if 1
Sleep(2);
#endif
}
}
void stbwingraph_SetGLWindow(void *win)
{
stbwingraph__window *z = (stbwingraph__window *) GetWindowLong(win, GWL_USERDATA);
if (z)
wglMakeCurrent(z->dc, z->rc);
}
void stbwingraph_MakeFonts(void *window, int font_base)
{
wglUseFontBitmaps(GetDC(window ? window : stbwingraph_primary_window), 0, 256, font_base);
}
// returns 1 if WM_QUIT, 0 if 'func' returned 0
int stbwingraph_MainLoop(stbwingraph_update func, float mintime)
{
int needs_drawing = FALSE;
MSG msg;
int is_animating = TRUE;
if (mintime <= 0) mintime = 0.01f;
for(;;) {
int n;
is_animating = TRUE;
// wait for a message if: (a) we're animating and there's already a message
// or (b) we're not animating
if (!is_animating || PeekMessage(&msg, NULL, 0, 0, PM_NOREMOVE)) {
stbwingraph_force_update = FALSE;
if (GetMessage(&msg, NULL, 0, 0)) {
TranslateMessage(&msg);
DispatchMessage(&msg);
} else {
return 1; // WM_QUIT
}
// only force a draw for certain messages...
// if I don't do this, we peg at 50% for some reason... must
// be a bug somewhere, because we peg at 100% when rendering...
// very weird... looks like NVIDIA is pumping some messages
// through our pipeline? well, ok, I guess if we can get
// non-user-generated messages we have to do this
if (!stbwingraph_force_update) {
switch (msg.message) {
case WM_MOUSEMOVE:
case WM_NCMOUSEMOVE:
break;
case WM_CHAR:
case WM_KEYDOWN:
case WM_KEYUP:
case WM_LBUTTONDOWN:
case WM_MBUTTONDOWN:
case WM_RBUTTONDOWN:
case WM_LBUTTONUP:
case WM_MBUTTONUP:
case WM_RBUTTONUP:
case WM_TIMER:
case WM_SIZE:
case WM_ACTIVATE:
needs_drawing = TRUE;
break;
}
} else
needs_drawing = TRUE;
}
// if another message, process that first
// @TODO: i don't think this is working, because I can't key ahead
// in the SVT demo app
if (PeekMessage(&msg, NULL, 0,0, PM_NOREMOVE))
continue;
// and now call update
if (needs_drawing || is_animating) {
int real=1, in_client=1;
if (stbwingraph_primary_window) {
stbwingraph__window *z = (stbwingraph__window *) GetWindowLong(stbwingraph_primary_window, GWL_USERDATA);
if (z && !z->active) {
real = 0;
}
if (z)
in_client = z->in_client;
}
if (stbwingraph_primary_window)
stbwingraph_SetGLWindow(stbwingraph_primary_window);
n = func(stbwingraph_GetTimestep(mintime), real, in_client);
if (n == STBWINGRAPH_update_exit)
return 0; // update_quit
is_animating = (n != STBWINGRAPH_update_pause);
needs_drawing = FALSE;
}
}
}
void stbwingraph_SwapBuffers(void *win)
{
stbwingraph__window *z;
if (win == NULL) win = stbwingraph_primary_window;
z = (stbwingraph__window *) GetWindowLong(win, GWL_USERDATA);
if (z && z->dc)
SwapBuffers(z->dc);
}
#endif
#ifdef STB_WINMAIN
void stbwingraph_main(void);
char *stb_wingraph_commandline;
int WINAPI WinMain(HINSTANCE hInstance, HINSTANCE hPrevInstance, LPSTR lpCmdLine, int nCmdShow)
{
{
char buffer[1024];
// add spaces to either side of the string
buffer[0] = ' ';
strcpy(buffer+1, lpCmdLine);
strcat(buffer, " ");
if (strstr(buffer, " -reset ")) {
ChangeDisplaySettings(NULL, 0);
exit(0);
}
if (strstr(buffer, " -window ") || strstr(buffer, " -windowed "))
stbwingraph_request_windowed = TRUE;
else if (strstr(buffer, " -full ") || strstr(buffer, " -fullscreen "))
stbwingraph_request_fullscreen = TRUE;
}
stb_wingraph_commandline = lpCmdLine;
stbwingraph_DefineClass(hInstance, "appicon");
stbwingraph_main();
return 0;
}
#endif
#undef STB_EXTERN
#ifdef STB_WINGRAPH_DISABLE_DEFINE_AT_END
#undef STB_DEFINE
#endif
#endif // INCLUDE_STB_WINGRAPH_H

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