v4k-git-backup/engine/v4k.h

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/* game framework.
* - rlyeh, public domain
*
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* ## V4K License
*
* This software is available under 3 licenses. Choose whichever you prefer.
* ------------------------------------------------------------------------------
* ALTERNATIVE A - Public Domain (https://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.
* ------------------------------------------------------------------------------
* ALTERNATIVE B - MIT-0 (No Attribution clause)
* ------------------------------------------------------------------------------
* 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.
*
* 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 C - Zero BSD License (https://opensource.org/licenses/FPL-1.0.0)
* ------------------------------------------------------------------------------
* Permission to use, copy, modify, and/or distribute this software for any
* purpose with or without fee is hereby granted.
*
* THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES WITH
* REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND
* FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT,
* INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM
* LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE
* OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR
* PERFORMANCE OF THIS SOFTWARE.
*
* ## License: Contributed Code ------------------------------------------------
*
* Dear Contributor,
*
* In order to ensure this project remains completely free and unencumbered by
* anyone's copyright monopoly, it is advisable that you dedicate your code-base
* contributions to the three licensing terms above. This removes any possible
* ambiguity as to what terms somebody might have thought they were contributing
* under, in case of a future dispute. These concerns are not unique to public
* domain software. Most large, established open-source projects have a
* Contributor License Agreement (CLA) process, of varying degrees of formality.
*
* Please add yourself to the list below before contributing.
* Thanks.
*
* --
*
* "I dedicate any and all copyright interest in this software to the three
2023-08-10 14:30:56 +00:00
* license terms listed above. I make this dedication for the benefit of the
* public at large and to the detriment of my heirs and successors. I intend
* this dedication to be an overt act of relinquishment in perpetuity of all
* present and future rights to this software under copyright law."
*
* Author (name) I agree (YES/NO) Files/Features (optional)
* ------------------------------------------------------------------------------
* @r-lyeh YES Initial codebase
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* @zak@v4.games YES N/A
* ------------------------------------------------------------------------------
*/
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#ifndef V4K_H
#define V4K_H
#ifdef __cplusplus
extern "C" {
#endif
//-----------------------------------------------------------------------------
// Headers
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#line 1 "v4k_config.h"
// -----------------------------------------------------------------------------
// config directives
#ifndef ENABLE_FASTCALL_LUA
#define ENABLE_FASTCALL_LUA 1 ///+
#endif
#ifndef ENABLE_PROFILER
#define ENABLE_PROFILER ifdef(debug, 1, 0) ///+
#endif
#ifndef ENABLE_SELFIES
#define ENABLE_SELFIES 0 ///+
#endif
#ifndef ENABLE_MEMORY_POISON
#define ENABLE_MEMORY_POISON ifdef(debug, 1, 0) ///+
#endif
#ifndef ENABLE_MEMORY_LEAKS
#define ENABLE_MEMORY_LEAKS 0 ///+
#endif
#ifndef ENABLE_LINUX_CALLSTACKS
#define ENABLE_LINUX_CALLSTACKS 0 ///+
#endif
// -----------------------------------------------------------------------------
// if/n/def hell
#define ifdef(macro, yes, /*no*/...) ifdef_##macro(yes, __VA_ARGS__)
#define ifndef(macro, yes, /*no*/...) ifdef_##macro(__VA_ARGS__, yes)
#define is(macro) ifdef_##macro(1,0)
#define isnt(macro) ifdef_##macro(0,1)
#define ifdef_true(yes, /*no*/...) yes
#define ifdef_false(yes, /*no*/...) __VA_ARGS__
#ifdef _MSC_VER
#define ifdef_gcc ifdef_false
#define ifdef_mingw ifdef_false
#define ifdef_tcc ifdef_false
#define ifdef_cl ifdef_true
#elif defined __TINYC__
#define ifdef_gcc ifdef_false
#define ifdef_mingw ifdef_false
#define ifdef_tcc ifdef_true
#define ifdef_cl ifdef_false
#elif defined __MINGW64__ || defined __MINGW32__
#define ifdef_gcc ifdef_true
#define ifdef_mingw ifdef_true
#define ifdef_tcc ifdef_false
#define ifdef_cl ifdef_false
#else // also __clang__
#define ifdef_gcc ifdef_true
#define ifdef_mingw ifdef_false
#define ifdef_tcc ifdef_false
#define ifdef_cl ifdef_false
#endif
#ifdef __cplusplus
#define ifdef_cpp ifdef_true
#define ifdef_c ifdef_false
#else
#define ifdef_c ifdef_true
#define ifdef_cpp ifdef_false
#endif
#if defined _WIN32
#define ifdef_win32 ifdef_true
#define ifdef_linux ifdef_false
#define ifdef_osx ifdef_false
#define ifdef_bsd ifdef_false
#define ifdef_ems ifdef_false
#elif defined __linux__
#define ifdef_win32 ifdef_false
#define ifdef_linux ifdef_true
#define ifdef_osx ifdef_false
#define ifdef_bsd ifdef_false
#define ifdef_ems ifdef_false
#elif defined __APPLE__
#define ifdef_win32 ifdef_false
#define ifdef_linux ifdef_false
#define ifdef_osx ifdef_true
#define ifdef_bsd ifdef_false
#define ifdef_ems ifdef_false
#elif defined __EMSCRIPTEN__
#define ifdef_win32 ifdef_false
#define ifdef_linux ifdef_false
#define ifdef_osx ifdef_false
#define ifdef_bsd ifdef_false
#define ifdef_ems ifdef_true
#else // __FreeBSD__ || @todo: __ANDROID_API__
#define ifdef_win32 ifdef_false
#define ifdef_linux ifdef_false
#define ifdef_osx ifdef_false
#define ifdef_bsd ifdef_true
#define ifdef_ems ifdef_false
#endif
#ifdef NDEBUG // rely on NDEBUG as the official/portable way to disable asserts
#define ifdef_debug ifdef_false
#define ifdef_release ifdef_true
#else
#define ifdef_debug ifdef_true
#define ifdef_release ifdef_false
#endif
#include <stdint.h>
#if (defined INTPTR_MAX && INTPTR_MAX == INT64_MAX) || defined(_M_X64) || defined(__amd64__) || defined(__x86_64__) || defined(__ppc64__) || __WORDSIZE == 64
#define ifdef_64 ifdef_true
#define ifdef_32 ifdef_false
#else
#define ifdef_64 ifdef_false
#define ifdef_32 ifdef_true
#endif
// -----------------------------------------------------------------------------
// new C keywords
// @todo: autorun (needed?)
#define countof(x) (int)(sizeof (x) / sizeof 0[x])
#define concat(a,b) conc4t(a,b)
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#define conc4t(a,b) a##b ///-
#define macro(name) concat(name, __LINE__)
#define defer(begin,end) for(int macro(i) = ((begin), 0); !macro(i); macro(i) = ((end), 1))
#define scope(end) defer((void)0, end)
#define benchmark for(double macro(t) = -time_ss(); macro(t) < 0; printf("%.2fs (" FILELINE ")\n", macro(t)+=time_ss()))
#define do_once static int macro(once) = 0; for(;!macro(once);macro(once)=1)
#if is(cl)
#define __thread __declspec(thread)
#elif is(tcc) && is(win32)
#define __thread __declspec(thread) // compiles fine, but does not work apparently
#elif is(tcc)
#define __thread
#endif
// usage: bool static(audio_is_init) = audio_init();
//#define static(var) static var; do_once var
//-----------------------------------------------------------------------------
// new C macros
#define ASSERT(expr, ...) do { int fool_msvc[] = {0,}; if(!(expr)) { fool_msvc[0]++; breakpoint(va("!Expression failed: " #expr " " FILELINE "\n" __VA_ARGS__)); } } while(0)
#define ASSERT_ONCE(expr, ...) do { int fool_msvc[] = {0,}; if(!(expr)) { fool_msvc[0]++; static int seen = 0; if(!seen) seen = 1, breakpoint(va("!Expression failed: " #expr " " FILELINE "\n" __VA_ARGS__)); } } while(0)
#define STATIC_ASSERT(EXPR) typedef struct { unsigned macro(static_assert_on_line_) : !!(EXPR); } macro(static_assert_on_line_)
#define FILELINE __FILE__ ":" STRINGIZE(__LINE__)
#define STRINGIZE(x) STRINGIZ3(x)
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#define STRINGIZ3(x) #x ///-
#define EXPAND(name, ...) EXPAND_QUOTE(EXPAND_JOIN(name, EXPAND_COUNT_ARGS(__VA_ARGS__)), (__VA_ARGS__))
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#define EXPAND_QUOTE(x, y) x y ///-
#define EXPAND_JOIN(name, count) EXPAND_J0IN(name, count) ///-
#define EXPAND_J0IN(name, count) EXPAND_J01N(name, count) ///-
#define EXPAND_J01N(name, count) name##count ///-
#define EXPAND_COUNT_ARGS(...) EXPAND_ARGS((__VA_ARGS__, 9, 8, 7, 6, 5, 4, 3, 2, 1, 0)) ///-
#define EXPAND_ARGS(args) EXPAND_RETURN_COUNT args ///-
#define EXPAND_RETURN_COUNT(_1_, _2_, _3_, _4_, _5_, _6_, _7_, _8_, _9_, count, ...) count ///-
#if is(cl) && !is(cpp)
#define INLINE __inline
#else
#define INLINE inline
#endif
#if is(cl)
#define FORCE_INLINE __forceinline
#elif is(gcc)
#define FORCE_INLINE __attribute__((always_inline)) inline
#else
#define FORCE_INLINE INLINE
#endif
#if is(cl) && (_MSC_VER <= 1700)
#define FINITE _finite
#else
#define FINITE isfinite
#endif
// usage: #define vec2(...) C_CAST(vec2, __VA_ARGS__)
// typedef union vec2 { float X,Y; }; vec2 a = {0,1}, b = vec2(0,1);
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#define C_CAST(type, ...) ( ifdef(c,(type),type) { __VA_ARGS__ } )
// -----------------------------------------------------------------------------
// build info
#ifndef BUILD_VERSION
#define BUILD_VERSION ""
#endif
// -----------------------------------------------------------------------------
// visibility
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// win32 users would need to -DAPI=IMPORT/EXPORT as needed when using/building V4K as DLL.
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#define IMPORT ifdef(win32, ifdef(gcc, __attribute__ ((dllimport)), __declspec(dllimport)))
#define EXPORT ifdef(win32, ifdef(gcc, __attribute__ ((dllexport)), __declspec(dllexport)))
#define STATIC
#ifndef API
#define API STATIC
#endif
// -----------------------------------------------------------------------------
// system headers
#ifndef _GNU_SOURCE
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#define _GNU_SOURCE ///- for linux
#endif
#if is(cl) && is(win32) // for VC IDE
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#define _CRT_SECURE_NO_WARNINGS ///-
#define _CRT_NONSTDC_NO_DEPRECATE ///-
#define _WINSOCK_DEPRECATED_NO_WARNINGS ///-
#define _WIN32_WINNT 0x0600 ///- 0x0502 // GetInfoAddrW/FreeAddrInfoW for X86
#endif
#if is(cl)
#include <omp.h> // compile with /openmp to speed up some computations
#endif
#include <assert.h>
//#include <float.h>
//#include <limits.h>
#include <math.h> // NAN
#include <stdarg.h> // va_*(), ...
#include <stdbool.h> // bool,true,false
#include <stdint.h> // u/int8/16/32/64_t
#include <stdio.h> // FILE,NULL
#include <stdlib.h> // malloc,free,exit,
#include <string.h> // strlen,memset,memcpy,
#if is(tcc) && is(win32) && defined(__x86_64)
#include <tgmath.h>
// @fixme workarounds on `tcc0.9.27 -m64` (win) for fmod()/trunc() functions. test: 00-easing broken otherwise
//#define trunc(x) ((double)(int64_t)(x))
//#define fmod(x,y) ((x) - trunc((x) / (y)) * (y))
// @fixme workarounds on `tcc0.9.27 -m64` (win) for all functions with ending bool argument. test: 00-anims crashes otherwise
#undef bool
typedef char bool;
// missing libm symbols on tinycc HEAD repo (tcc-x64 pre-0.9.28)
//#define fabsf fabs
#define sqrtf sqrt
#define sinf sin
#define asinf asin
#define cosf cos
#define acosf acos
#define tanf tan
#define atan2f atan2
#define powf pow
#define floorf floor
#define logf log
#define ceilf ceil
#define copysignf copysign
//#define ldexpf ldexp
#define expf exp
//#define frexpf frexp
#define fmodf fmod
#define log10f log10
//#define logf log
#define hypotf hypot
#endif
// -----------------------------------------------------------------------------
// pragma libs
#if is(win32) && (is(cl) || is(tcc))
#pragma comment(lib, "advapi32")
#pragma comment(lib, "comdlg32")
#pragma comment(lib, "dbghelp")
#pragma comment(lib, "gdi32")
#pragma comment(lib, "ole32")
#pragma comment(lib, "shell32")
#pragma comment(lib, "user32")
#pragma comment(lib, "winmm")
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#pragma comment(lib, "wininet")
#pragma comment(lib, "ws2_32")
#endif
#if is(linux) && is(tcc)
#pragma comment(lib, "dl")
#pragma comment(lib, "m")
#pragma comment(lib, "pthread")
#endif
#line 0
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#line 1 "v4k_ds.h"
// data structures and utils: array, set, map, hash, sort.
// - rlyeh, public domain
// -----------------------------------------------------------------------------
// sort
API int sort_64(const void *a, const void *b);
// -----------------------------------------------------------------------------
// less
API int less_64(uint64_t a, uint64_t b);
API int less_int(int a, int b);
API int less_ptr(void *a, void *b);
API int less_str(char *a, char *b);
// -----------------------------------------------------------------------------
// un/hash
API uint32_t unhash_32(uint32_t x);
API uint32_t hash_32(uint32_t x);
API uint64_t hash_64(uint64_t x);
API uint64_t hash_flt(double x);
API uint64_t hash_int(int key);
API uint64_t hash_ptr(const void* ptr);
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API uint64_t hash_bin(const void* ptr, unsigned len);
API uint64_t hash_str(const char* str);
// -----------------------------------------------------------------------------
// bits
API uint64_t popcnt64(uint64_t x);
// -----------------------------------------------------------------------------
// vector based allocator (x1.75 enlarge factor)
API void* vrealloc( void* p, size_t sz );
API size_t vlen( void* p );
// -----------------------------------------------------------------------------
// arrays
#if is(cpp)
#define array_cast(x) (decltype x)
#else
#define array_cast(x) (void *)
#endif
#define array(t) t*
#define array_init(t) ( (t) = 0 )
#define array_resize(t, n) ( array_c_ = array_count(t), array_n_ = (n), array_realloc_((t),array_n_), (array_n_>array_c_? memset(array_c_+(t),0,(array_n_-array_c_)*sizeof(0[t])) : (void*)0), (t) )
#define array_push(t, ...) ( array_realloc_((t),array_count(t)+1), (t)[ array_count(t) - 1 ] = (__VA_ARGS__) )
#define array_pop(t) ( array_realloc_((t), array_count(t)-1) )
#define array_back(t) ( &(t)[ array_count(t)-1 ] ) // ( (t) ? &(t)[ array_count(t)-1 ] : NULL )
#define array_data(t) (t)
#define array_at(t,i) (t[i])
#define array_count(t) (int)( (t) ? array_vlen_(t) / sizeof(0[t]) : 0u )
#define array_bytes(t) (int)( (t) ? array_vlen_(t) : 0u )
#define array_sort(t, cmpfunc) qsort( t, array_count(t), sizeof(0[t]), (uintptr_t)cmpfunc == (uintptr_t)strcmp ? (void*)strcmp_qsort : (void*)cmpfunc )
#define array_empty(t) ( !array_count(t) )
#define array_push_front(arr,x) \
(array_resize((arr), array_count(arr)+1), memmove((arr)+1, (arr), sizeof(0[arr])*array_count(arr)), 0[arr] = (x))
#define array_pop_front(arr) ( \
(array_count(arr) > 1 ? memmove((arr), (arr)+1, sizeof(0[arr])*(array_count(arr)-1)) : (void*)0), \
(array_count(arr) > 0 ? array_resize(arr, array_count(arr) - 1 ) : array_resize( arr, 0 ) ) )
static __thread unsigned array_c_;
static __thread unsigned array_n_;
#if 0 // original: no reserve support
#define array_reserve(t, n) ((void)0) // not implemented
#define array_clear(t) ( array_realloc_((t), 0), (t) = 0 )
#define array_vlen_(t) ( vlen(t) - 0 )
#define array_realloc_(t,n) ( (t) = array_cast(t) vrealloc((t), ((n)+0) * sizeof(0[t])) )
#define array_free(t) array_clear(t)
#else // new: with reserve support (bugs?)
#define array_reserve(t, n) ( array_realloc_((t),(n)), array_clear(t) )
#define array_clear(t) ( array_realloc_((t),0) ) // -1
#define array_vlen_(t) ( vlen(t) - sizeof(0[t]) ) // -1
#define array_realloc_(t,n) ( (t) = array_cast(t) vrealloc((t), ((n)+1) * sizeof(0[t])) ) // +1
#define array_free(t) ( array_realloc_((t), -1), (t) = 0 ) // -1
#endif
#define array_reverse(t) \
do if( array_count(t) ) { \
for(int l = array_count(t), e = l-1, i = (array_push(t, 0[t]), 0); i <= e/2; ++i ) \
{ l[t] = i[t]; i[t] = (e-i)[t]; (e-i)[t] = l[t]; } \
array_pop(t); \
} while(0)
#define array_foreach(t,val_t,v) for each_array(t,val_t,v)
#define each_array(t,val_t,v) \
( int __it = 0, __end = array_count(t); __it < __end; ++__it ) \
for( val_t v = __it[t], *on__ = &v; on__; on__ = 0 )
#define array_foreach_ptr(t,val_t,v) for each_array_ptr(t,val_t,v)
#define each_array_ptr(t,val_t,v) \
( int __it = 0, __end = array_count(t); __it < __end; ++__it ) \
for( val_t *v = (val_t*)&__it[t]; v; v = 0 )
#define array_search(t, key, cmpfn) /* requires sorted array beforehand */ \
bsearch(&key, t, array_count(t), sizeof(t[0]), cmpfn )
#define array_insert(t, i, n) do { \
int ac = array_count(t); \
if( i >= ac ) { \
array_push(t, n); \
} else { \
array_push(t, array_back(t)); \
memmove( &(t)[(i)+1], &(t)[i], (ac - (i)) * sizeof(t[0]) ); \
(t)[ i ] = (n); \
} \
} while(0)
#define array_copy(t, src) do { /*todo: review old vrealloc call!*/ \
array_free(t); \
(t) = vrealloc( (t), array_count(src) * sizeof(0[t])); \
memcpy( (t), src, array_count(src) * sizeof(0[t])); \
} while(0)
#define array_erase(t, i) do { /*may alter ordering*/ \
memcpy( &(t)[i], &(t)[array_count(t) - 1], sizeof(0[t])); \
array_pop(t); \
} while(0)
#define array_unique(t, cmpfunc) do { /*@todo: optimize me. requires array_sort() beforehand*/ \
int cnt = array_count(t), cnt_bak = cnt; \
if( cnt > 1 ) { \
for( int i = 1; i < cnt; ++i ) { \
while( i < cnt && !cmpfunc(&(t)[i-1], &(t)[i]) ) { \
memmove(&(t)[i-1], &(t)[i], (cnt - 1 - i) * sizeof((t)[0]) ) ; \
--cnt; \
} \
} \
if( cnt_bak != cnt ) array_resize((t), cnt); \
} \
} while(0)
#if 0 // snippet below does work
#define array_unique(t, cmpfunc) \
array_sort(t, cmpfunc); \
for( int i = 0, end = array_count(t) - 1; i < end; ) { \
if( !strcmp(t[i], t[i+1]) ) { \
/* array_erase(t, i+1); */ \
memmove(&(t)[i+1], &(t)[i+2], (end - 1 - i) * sizeof((t)[0]) ); \
array_pop(t); \
--end; \
} else { \
++i; \
} \
}
#endif
#define array_shuffle(t) do { /* https://en.wikipedia.org/wiki/Fisher%E2%80%93Yates_shuffle */ \
void* tmp = stack(sizeof(0[t])); \
for( int i = 0, n = array_count(t); i < n; ++i ) { \
int j = randi(i, n); /* j random integer such that [i,n) i<=j<n */ \
memcpy(tmp, &j[t], sizeof(0[t])); \
memcpy(&j[t], &i[t], sizeof(0[t])); \
memcpy(&i[t], tmp, sizeof(0[t])); \
} \
} while(0)
// -----------------------------------------------------------------------------
// set<K>
// ideas from: https://en.wikipedia.org/wiki/Hash_table
// ideas from: https://probablydance.com/2017/02/26/i-wrote-the-fastest-hashtable/
// ideas from: http://www.idryman.org/blog/2017/05/03/writing-a-damn-fast-hash-table-with-tiny-memory-footprints/
// config
#ifndef SET_HASHSIZE
#define SET_HASHSIZE (4096 << 4)
#endif
#ifndef SET_DONT_ERASE
#define SET_DONT_ERASE 1
#endif
// public api
#define set(K) \
struct { set base; struct { set_item p; K key; } tmp, *ptr; K *tmpval; \
int (*typed_cmp)(K, K); uint64_t (*typed_hash)(K); } *
#define set_init(m, cmpfn, hashfn) ( \
(m) = set_cast(m) REALLOC(0, sizeof(*m)), \
set_init(&(m)->base), \
(m)->base.cmp = (int(*)(void*,void*))( (m)->typed_cmp = set_cast(cmpfn) cmpfn ), \
(m)->base.hash = (uint64_t(*)(void*))( (m)->typed_hash = set_cast(hashfn) hashfn ) \
)
#define set_free(m) ( \
set_clear(m), \
set_free(&(m)->base), \
(m) = set_cast(m) REALLOC((m), 0), \
(m) = 0 \
)
#define set_insert(m, k) ( \
(m)->ptr = set_cast((m)->ptr) REALLOC(0, sizeof((m)->tmp)), \
(m)->ptr->p.keyhash = (m)->typed_hash((m)->ptr->key = (k)), \
set_insert(&(m)->base, &(m)->ptr->p, &(m)->ptr->key, (m)->ptr->p.keyhash, (m)->ptr), \
&(m)->ptr->key \
)
#define set_find(m, k) ( \
(m)->ptr = &(m)->tmp, \
(m)->ptr->p.keyhash = (m)->typed_hash((m)->ptr->key = (k)), \
(m)->ptr = set_cast((m)->ptr) set_find(&(m)->base, &(m)->ptr->key, (m)->ptr->p.keyhash), \
(m)->ptr ? &(m)->ptr->key : 0 \
)
#define set_find_or_add(m, k) ( \
(m)->tmp.key = (k), \
(m)->tmpval = set_find((m), ((m)->tmp.key)), \
(m)->tmpval = (m)->tmpval ? (m)->tmpval : set_insert((m), ((m)->tmp.key)) \
)
#define set_find_or_add_allocated_key(m, k) ( \
(m)->tmp.key = (k), \
(m)->tmpval = set_find((m), ((m)->tmp.key)), \
(m)->tmpval = (m)->tmpval ? FREE((m)->tmp.key), (m)->tmpval : set_insert((m), ((m)->tmp.key)) \
)
#define set_erase(m, k) ( \
(m)->ptr = &(m)->tmp, \
(m)->ptr->p.keyhash = (m)->typed_hash((m)->ptr->key = (k)), \
set_erase(&(m)->base, &(m)->ptr->key, (m)->ptr->p.keyhash) \
)
#define set_foreach for each_set
#define each_set(m,key_t,k) \
( int i_ = (m)->base.count ? 0 : SET_HASHSIZE; i_ < SET_HASHSIZE; ++i_) \
for( set_item *cur_ = (m)->base.array[i_], *on_ = cur_; cur_; on_ = cur_ = cur_->next ) \
for( key_t k = *(key_t *)cur_->key; on_; on_ = 0 )
#define set_foreach_ptr for each_set_ptr
#define each_set_ptr(m,key_t,k) \
( int i_ = (m)->base.count ? 0 : SET_HASHSIZE; i_ < SET_HASHSIZE; ++i_) \
for( set_item *cur_ = (m)->base.array[i_], *on_ = cur_; cur_; on_ = cur_ = cur_->next ) \
for( key_t *k = (key_t *)cur_->key; on_; on_ = 0 )
#define set_clear(m) ( \
set_clear(&(m)->base) \
)
#define set_isempty(m) set_isempty(&(m)->base)
#define set_count(m) set_count(&(m)->base)
#define set_gc(m) set_gc(&(m)->base)
#ifndef set_init_int
#define set_init_int(m) set_init((m), less_int, hash_64) // hash_int)
#define set_init_str(m) set_init((m), less_str, hash_str)
#define set_init_ptr(m) set_init((m), less_ptr, hash_ptr)
#endif
// private:
#if is(cpp)
#define set_cast(t) (decltype(t))
#else
#define set_cast(t) (void *)
#endif
typedef struct set_item {
struct set_item *next;
uint64_t keyhash;
void *key;
void *super;
} set_item;
typedef struct set {
array(set_item*) array;
int (*cmp)(void *, void *);
uint64_t (*hash)(void *);
int count;
} set;
API void (set_init)(set *m);
API void (set_free)(set *m);
API void (set_insert)(set *m, set_item *p, void *key, uint64_t keyhash, void *super);
API void (set_erase)(set *m, void *key, uint64_t keyhash);
API void* (set_find)(const set *m, void *key, uint64_t keyhash);
API int (set_isempty)(const set *m);
API int (set_count)(const set *m);
API void (set_gc)(set *m); // only if using SET_DONT_ERASE
API void (set_clear)(set* m);
// -----------------------------------------------------------------------------
// map<K,V>
// ideas from: https://en.wikipedia.org/wiki/Hash_table
// ideas from: https://probablydance.com/2017/02/26/i-wrote-the-fastest-hashtable/
// ideas from: http://www.idryman.org/blog/2017/05/03/writing-a-damn-fast-hash-table-with-tiny-memory-footprints/
// config
#ifndef MAP_HASHSIZE
#define MAP_HASHSIZE (4096 << 4)
#endif
#ifndef MAP_DONT_ERASE
#define MAP_DONT_ERASE 1
#endif
// public api
#define map(K,V) \
struct { map base; struct { pair p; K key; V val; } tmp, *ptr; V* tmpval; \
int (*typed_cmp)(K, K); uint64_t (*typed_hash)(K); } *
#define map_init(m, cmpfn, hashfn) ( \
(m) = map_cast(m) REALLOC(0, sizeof(*(m))), \
map_init(&(m)->base), \
(m)->base.cmp = (int(*)(void*,void*))( (m)->typed_cmp = map_cast((m)->typed_cmp) cmpfn), \
(m)->base.hash = (uint64_t(*)(void*))( (m)->typed_hash = map_cast((m)->typed_hash) hashfn ) \
)
#define map_free(m) ( \
map_free(&(m)->base), \
map_cast(m) REALLOC((m), sizeof(*(m))), (m) = 0 \
)
#define map_insert(m, k, v) ( \
(m)->ptr = map_cast((m)->ptr) REALLOC(0, sizeof((m)->tmp)), \
(m)->ptr->val = (v), \
(m)->ptr->p.keyhash = (m)->typed_hash((m)->ptr->key = (k)), \
map_insert(&(m)->base, &(m)->ptr->p, &(m)->ptr->key, &(m)->ptr->val, (m)->ptr->p.keyhash, (m)->ptr), \
&(m)->ptr->val \
)
#define map_find(m, k) ( \
(m)->ptr = &(m)->tmp, \
(m)->ptr->p.keyhash = (m)->typed_hash((m)->ptr->key = (k)), \
(m)->ptr = map_cast((m)->ptr) map_find(&(m)->base, &(m)->ptr->key, (m)->ptr->p.keyhash), \
(m)->ptr ? &(m)->ptr->val : 0 \
)
#define map_find_or_add(m, k, v) ( \
(m)->tmp.key = (k), (m)->tmp.val = (v), \
(m)->tmpval = map_find((m), ((m)->tmp.key)), \
(m)->tmpval = (m)->tmpval ? (m)->tmpval : map_insert((m), ((m)->tmp.key), ((m)->tmp.val)) \
)
#define map_find_or_add_allocated_key(m, k, v) ( \
(m)->tmp.key = (k), (m)->tmp.val = (v), \
(m)->tmpval = map_find((m), ((m)->tmp.key)), \
(m)->tmpval = (m)->tmpval ? FREE((m)->tmp.key), (m)->tmpval : map_insert((m), ((m)->tmp.key), ((m)->tmp.val)) \
)
#define map_erase(m, k) ( \
(m)->ptr = &(m)->tmp, \
(m)->ptr->p.keyhash = (m)->typed_hash((m)->ptr->key = (k)), \
map_erase(&(m)->base, &(m)->ptr->key, (m)->ptr->p.keyhash) \
)
#define map_foreach for each_map
#define each_map(m,key_t,k,val_t,v) \
( int i_ = (m)->base.count ? 0 : MAP_HASHSIZE; i_ < MAP_HASHSIZE; ++i_) \
for( pair *cur_ = (m)->base.array[i_], *on_ = cur_; cur_; on_ = cur_ = cur_->next ) \
for( key_t k = *(key_t *)cur_->key; on_; ) \
for( val_t v = *(val_t *)cur_->value; on_; on_ = 0 )
#define map_foreach_ptr for each_map_ptr
#define each_map_ptr(m,key_t,k,val_t,v) \
( int i_ = (m)->base.count ? 0 : MAP_HASHSIZE; i_ < MAP_HASHSIZE; ++i_) \
for( pair *cur_ = (m)->base.array[i_], *on_ = cur_; cur_; on_ = cur_ = cur_->next ) \
for( key_t *k = (key_t *)cur_->key; on_; ) \
for( val_t *v = (val_t *)cur_->value; on_; on_ = 0 )
#define map_foreach_ptr_sorted for each_map_ptr_sorted
#define each_map_ptr_sorted(m,key_t,k,val_t,v) \
( int i_ = (map_sort(&(m)->base), 0); i_ < array_count((m)->base.sorted); ++i_) \
for( pair *cur_ = (m)->base.sorted[i_]; cur_; ) \
for( key_t *k = (key_t *)cur_->key; cur_; ) \
for( val_t *v = (val_t *)cur_->value; cur_; cur_ = 0 )
#define map_clear(m) ( \
map_clear(&(m)->base) \
)
#define map_isempty(m) map_isempty(&(m)->base)
#define map_count(m) map_count(&(m)->base)
#define map_gc(m) map_gc(&(m)->base)
// aliases:
#ifndef map_init_int
#define map_init_int(m) map_init((m), less_int, hash_64) // hash_int
#define map_init_str(m) map_init((m), less_str, hash_str)
#define map_init_ptr(m) map_init((m), less_ptr, hash_ptr)
#endif
// private:
#if is(cpp)
#define map_cast(t) (decltype(t))
#else
#define map_cast(t) (void *)
#endif
typedef struct pair {
struct pair *next;
uint64_t keyhash;
void *key;
void *value;
void *super;
} pair;
typedef struct map {
array(pair*) array;
int (*cmp)(void *, void *);
uint64_t (*hash)(void *);
int count:31;
int is_sorted:1;
array(pair*) sorted;
} map;
API void (map_init)(map *m);
API void (map_free)(map *m);
API void (map_insert)(map *m, pair *p, void *key, void *value, uint64_t keyhash, void *super);
API void (map_erase)(map *m, void *key, uint64_t keyhash);
API void* (map_find)(map *m, void *key, uint64_t keyhash);
API int (map_isempty)(map *m);
API int (map_count)(map *m);
API void (map_gc)(map *m); // only if using MAP_DONT_ERASE
API bool (map_sort)(map* m);
API void (map_clear)(map* m);
// -----------------------------------------------------------------------------
2023-10-07 17:34:09 +00:00
// compile-time fourcc, eightcc
API char *cc4str(unsigned cc);
API char *cc8str(uint64_t cc);
2023-10-09 06:23:27 +00:00
enum { ///-
# define _(a,b,c,d,e) cc__##a, cc__##b, cc__##c, cc__##d, cc__##e
cc__1 = '1', _(2,3,4,5,6),_(7,8,9,0,_), cc__ = ' ',
cc__A = 'A', _(B,C,D,E,F),_(G,H,I,J,K),_(L,M,N,O,P),_(Q,R,S,T,U),_(V,W,X,Y,Z),
cc__a = 'a', _(b,c,d,e,f),_(g,h,i,j,k),_(l,m,n,o,p),_(q,r,s,t,u),_(v,w,x,y,z),
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# undef _
};
#ifdef BIG
#define cc4(a,b,c,d) ((uint32_t)(cc__##a<<24) | (cc__##b<<16) | (cc__##c<<8) | (cc__##d<<0))
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#define cc8(a,b,c,d,e,f,g,h) (((uint64_t)cc4(a,b,c,d) << 32ULL) | cc4(e,f,g,h))
#else
#define cc4(a,b,c,d) ((uint32_t)(cc__##d<<24) | (cc__##c<<16) | (cc__##b<<8) | (cc__##a<<0))
2023-10-07 17:34:09 +00:00
#define cc8(a,b,c,d,e,f,g,h) (((uint64_t)cc4(e,f,g,h) << 32ULL) | cc4(a,b,c,d))
#endif
#define cc3(a,b,c) cc4(,a,b,c)
#define cc5(a,b,c,d,e) cc6(,a,b,c,d,e)
#define cc6(a,b,c,d,e,f) cc7(,a,b,c,d,e,f)
#define cc7(a,b,c,d,e,f,g) cc8(,a,b,c,d,e,f,g)
#line 0
2023-08-10 14:30:56 +00:00
#line 1 "v4k_math.h"
// -----------------------------------------------------------------------------
// math framework: rand, ease, vec2, vec3, vec4, quat, mat2, mat33, mat34, mat4
// - rlyeh, public domain
//
// Credits: @ands+@krig+@vurtun (PD), @datenwolf (WTFPL2), @evanw+@barerose (CC0), @sgorsten (Unlicense).
#define C_EPSILON (1e-6)
#define C_PI (3.141592654f) // (3.14159265358979323846f)
#define TO_RAD (C_PI/180.f)
#define TO_DEG (180.f/C_PI)
// ----------------------------------------------------------------------------
//#define ptr(type) 0[&(type).x]
#define vec2i(x, y ) C_CAST(vec2i,(int)(x), (int)(y) )
#define vec3i(x, y, z ) C_CAST(vec3i,(int)(x), (int)(y), (int)(z) )
#define vec2(x, y ) C_CAST(vec2, (float)(x), (float)(y) )
#define vec3(x, y, z ) C_CAST(vec3, (float)(x), (float)(y), (float)(z), )
#define vec4(x, y, z, w) C_CAST(vec4, (float)(x), (float)(y), (float)(z), (float)(w))
#define quat(x, y, z, w) C_CAST(quat, (float)(x), (float)(y), (float)(z), (float)(w))
#define axis(x, y, z) C_CAST(axis, (float)(x), (float)(y), (float)(z))
#define mat33(...) C_CAST(mat33, __VA_ARGS__ )
#define mat34(...) C_CAST(mat34, __VA_ARGS__ )
#define mat44(...) C_CAST(mat44, __VA_ARGS__ )
typedef union vec2i{ struct { int X,Y; }; struct { int x,y; }; struct { int r,g; }; struct { int w,h; }; struct { int min,max; }; struct { int from,to; }; struct { int src,dst; }; int v2[2]; int array[1]; } vec2i;
typedef union vec3i{ struct { int X,Y,Z; }; struct { int x,y,z; }; struct { int r,g,b; }; struct { int w,h,d; }; struct { int min,max; }; struct { int from,to,step; }; struct { int src,dst; }; int v3[3]; int array[1]; } vec3i;
typedef union vec2 { struct { float X,Y; }; struct { float x,y; }; struct { float r,g; }; struct { float w,h; }; struct { float min,max; }; struct { float from,to; }; struct { float src,dst; }; float v2[2]; float array[1]; } vec2;
typedef union vec3 { struct { float X,Y,Z; }; struct { float x,y,z; }; struct { float r,g,b; }; struct { float min,max; }; struct { float from,to; }; vec2 xy; vec2 rg; vec2 wh; float v3[3]; float array[1]; } vec3;
typedef union vec4 { struct { float X,Y,Z,W; }; struct { float x,y,z,w; }; struct { float r,g,b,a; }; struct { float min,max; }; struct { float from,to; }; vec2 xy; vec3 xyz; vec2 rg; vec3 rgb; vec2 wh; vec3 whd; float v4[4]; float array[1]; } vec4;
typedef union quat { struct { float X,Y,Z,W; }; struct { float x,y,z,w; }; vec3 xyz; vec4 xyzw; float v4[4]; float array[1]; } quat;
typedef float mat33[9];
typedef float mat34[12];
typedef float mat44[16];
// ----------------------------------------------------------------------------
API void randset(uint64_t state);
API uint64_t rand64(void);
API double randf(void); // [0, 1) interval
API int randi(int mini, int maxi); // [mini, maxi) interval
//API double rng(void); // [0..1) Lehmer RNG "minimal standard"
// ----------------------------------------------------------------------------
API float simplex1( float x );
API float simplex2( vec2 xy );
API float simplex3( vec3 xyz );
API float simplex4( vec4 xyzw );
// ----------------------------------------------------------------------------
API float ease_linear(float t);
API float ease_out_sine(float t);
API float ease_out_quad(float t);
API float ease_out_cubic(float t);
API float ease_out_quart(float t);
API float ease_out_quint(float t);
API float ease_out_expo(float t);
API float ease_out_circ(float t);
API float ease_out_back(float t);
API float ease_out_elastic(float t);
API float ease_out_bounce(float t);
API float ease_in_sine(float t);
API float ease_in_quad(float t);
API float ease_in_cubic(float t);
API float ease_in_quart(float t);
API float ease_in_quint(float t);
API float ease_in_expo(float t);
API float ease_in_circ(float t);
API float ease_in_back(float t);
API float ease_in_elastic(float t);
API float ease_in_bounce(float t);
API float ease_inout_sine(float t);
API float ease_inout_quad(float t);
API float ease_inout_cubic(float t);
API float ease_inout_quart(float t);
API float ease_inout_quint(float t);
API float ease_inout_expo(float t);
API float ease_inout_circ(float t);
API float ease_inout_back(float t);
API float ease_inout_elastic(float t);
API float ease_inout_bounce(float t);
API float ease_inout_perlin(float t);
enum EASE_FLAGS {
EASE_LINEAR,
EASE_SINE,
EASE_QUAD,
EASE_CUBIC,
EASE_QUART,
EASE_QUINT,
EASE_EXPO,
EASE_CIRC,
EASE_BACK,
EASE_ELASTIC,
EASE_BOUNCE,
EASE_IN,
EASE_INOUT = EASE_IN * 2,
EASE_OUT = 0,
};
API float ease(float t01, unsigned mode); // 0=linear,1=out_sine...31=inout_perlin
API float ease_ping_pong(float t, float(*fn1)(float), float(*fn2)(float));
API float ease_pong_ping(float t, float(*fn1)(float), float(*fn2)(float));
// ----------------------------------------------------------------------------
API float deg (float radians);
API float rad (float degrees);
API int mini (int a, int b);
API int maxi (int a, int b);
API int absi (int a );
API int clampi (int v,int a,int b);
API float minf (float a, float b);
API float maxf (float a, float b);
API float absf (float a );
API float pmodf (float a, float b);
API float signf (float a) ;
API float clampf (float v,float a,float b);
API float mixf (float a,float b,float t);
API float fractf (float a);
// ----------------------------------------------------------------------------
API vec2 ptr2 (const float *a );
//
API vec2 neg2 (vec2 a );
API vec2 add2 (vec2 a, vec2 b);
API vec2 sub2 (vec2 a, vec2 b);
API vec2 mul2 (vec2 a, vec2 b);
API vec2 div2 (vec2 a, vec2 b);
API vec2 inc2 (vec2 a, float b);
API vec2 dec2 (vec2 a, float b);
API vec2 scale2 (vec2 a, float b);
API vec2 pmod2 (vec2 a, float b);
API vec2 min2 (vec2 a, vec2 b);
API vec2 max2 (vec2 a, vec2 b);
API vec2 abs2 (vec2 a );
API vec2 floor2 (vec2 a );
API vec2 fract2 (vec2 a );
API vec2 ceil2 (vec2 a );
API float dot2 (vec2 a, vec2 b);
API vec2 refl2 (vec2 a, vec2 b);
API float cross2 (vec2 a, vec2 b);
API float len2sq (vec2 a );
API float len2 (vec2 a );
API vec2 norm2 (vec2 a );
API int finite2 (vec2 a );
API vec2 mix2 (vec2 a,vec2 b,float t);
API vec2 clamp2(vec2 v,vec2 a,vec2 b);
API vec2 clamp2f(vec2 v,float a,float b);
// ----------------------------------------------------------------------------
API vec3 rnd3 (void); // @todo: rnd2,rnd4,rndq
API vec3 ptr3 (const float *a );
API vec3 vec23 (vec2 a, float z );
//
API vec3 neg3 (vec3 a );
API vec3 add3 (vec3 a, vec3 b);
API vec3 sub3 (vec3 a, vec3 b);
API vec3 mul3 (vec3 a, vec3 b);
API vec3 div3 (vec3 a, vec3 b);
API vec3 inc3 (vec3 a, float b);
API vec3 dec3 (vec3 a, float b);
API vec3 scale3 (vec3 a, float b);
API vec3 pmod3 (vec3 a, float b);
API vec3 min3 (vec3 a, vec3 b);
API vec3 max3 (vec3 a, vec3 b);
API vec3 abs3 (vec3 a );
API vec3 floor3 (vec3 a );
API vec3 fract3 (vec3 a );
API vec3 ceil3 (vec3 a );
API vec3 cross3 (vec3 a, vec3 b);
API float dot3 (vec3 a, vec3 b);
API vec3 refl3 (vec3 a, vec3 b);
API float len3sq (vec3 a );
API float len3 (vec3 a );
API vec3 norm3 (vec3 a );
API vec3 norm3sq (vec3 a );
API int finite3 (vec3 a );
API vec3 mix3 (vec3 a,vec3 b,float t);
API vec3 clamp3(vec3 v,vec3 a,vec3 b);
API vec3 clamp3f(vec3 v,float a,float b);
//vec3 tricross3 (vec3 a, vec3 b, vec3 c);
API void ortho3 (vec3 *left, vec3 *up, vec3 v);
API vec3 rotatex3 (vec3 dir, float degrees);
API vec3 rotatey3 (vec3 dir, float degrees);
API vec3 rotatez3 (vec3 dir, float degrees);
// ----------------------------------------------------------------------------
API vec4 ptr4 (const float *a );
API vec4 vec34 (vec3 a, float w );
//
API vec4 neg4 (vec4 a );
API vec4 add4 (vec4 a, vec4 b);
API vec4 sub4 (vec4 a, vec4 b);
API vec4 mul4 (vec4 a, vec4 b);
API vec4 div4 (vec4 a, vec4 b);
API vec4 inc4 (vec4 a, float b);
API vec4 dec4 (vec4 a, float b);
API vec4 scale4 (vec4 a, float b);
API vec4 pmod4 (vec4 a, float b);
API vec4 min4 (vec4 a, vec4 b);
API vec4 max4 (vec4 a, vec4 b);
API vec4 abs4 (vec4 a );
API vec4 floor4 (vec4 a );
API vec4 fract4 (vec4 a );
API vec4 ceil4 (vec4 a );
API float dot4 (vec4 a, vec4 b);
API vec4 refl4 (vec4 a, vec4 b);
API float len4sq (vec4 a );
API float len4 (vec4 a );
API vec4 norm4 (vec4 a );
API vec4 norm4sq (vec4 a );
API int finite4 (vec4 a );
API vec4 mix4 (vec4 a,vec4 b,float t);
API vec4 clamp4(vec4 v,vec4 a,vec4 b);
API vec4 clamp4f(vec4 v,float a,float b);
// vec4 cross4(vec4 v0, vec4 v1);
// ----------------------------------------------------------------------------
API quat idq ( );
API quat ptrq (const float *a );
API quat vec3q (vec3 a, float w );
API quat vec4q (vec4 a );
//
API quat negq (quat a );
API quat conjq (quat a );
API quat addq (quat a, quat b);
API quat subq (quat a, quat b);
API quat mulq (quat p, quat q);
API quat scaleq (quat a, float s);
API quat normq (quat a );
API float dotq (quat a, quat b);
API quat mixq(quat a, quat b, float t);
/* quat lerpq(quat a, quat b, float s);
return norm(quat((1-s)*a.x + s*b.x, (1-s)*a.y + s*b.y, (1-s)*a.z + s*b.z, (1-s)*a.w + s*b.w));
}*/
API quat slerpq(quat a, quat b, float s);
API quat rotationq(float deg,float x,float y,float z);
API quat mat44q (mat44 M);
API vec3 rotate3q_2(vec3 v, quat q);
API vec3 rotate3q(vec3 v, quat r);
// euler <-> quat
API vec3 euler (quat q);
API quat eulerq (vec3 pyr_degrees);
// ----------------------------------------------------------------------------
API void scaling33(mat33 m, float x, float y, float z);
API void scale33(mat33 m, float x, float y, float z);
API void id33(mat33 m);
API void extract33(mat33 m, const mat44 m4);
API void copy33(mat33 m, const mat33 a);//
API vec3 mulv33(mat33 m, vec3 v);
API void multiply33x2(mat33 m, const mat33 a, const mat33 b);
API void rotation33(mat33 m, float degrees, float x,float y,float z);
API void rotationq33(mat33 m, quat q);
API void rotate33(mat33 r, float degrees, float x,float y,float z);
API void compose33(mat33 m, quat r, vec3 s);
// ----------------------------------------------------------------------------
API void id34(mat34 m);
API void copy34(mat34 m, const mat34 a);
API void scale34(mat34 m, float s);
API void add34(mat34 m, mat34 n);
API void muladd34(mat34 m, mat34 n, float s);
API void add34x2(mat34 m, mat34 n, mat34 o);
API void lerp34(mat34 m, mat34 n, mat34 o, float alpha); // mix34?
API void multiply34x2(mat34 m, const mat34 m0, const mat34 m1);
API void multiply34(mat34 m, const mat34 a);
API void multiply34x3(mat34 m, const mat34 a, const mat34 b, const mat34 c);
API void compose34(mat34 m, vec3 t, quat q, vec3 s);
API void invert34(mat34 m, const mat34 o);
// ----------------------------------------------------------------------------
API void id44(mat44 m);
API void identity44(mat44 m);
API void copy44(mat44 m, const mat44 a);
API void multiply44x2(mat44 m, const mat44 a, const mat44 b);
API void multiply44x3(mat44 m, const mat44 a, const mat44 b, const mat44 c);
API void multiply44(mat44 m, const mat44 a);
// ---
API void ortho44(mat44 m, float l, float r, float b, float t, float n, float f);
API void frustum44(mat44 m, float l, float r, float b, float t, float n, float f);
API void perspective44(mat44 m, float fovy_degrees, float aspect, float nearp, float farp);
API void lookat44(mat44 m, vec3 eye, vec3 center, vec3 up);
// ---
API void translation44(mat44 m, float x, float y, float z);
API void translate44(mat44 m, float x, float y, float z);
API void relocate44(mat44 m, float x, float y, float z);
API void rotationq44(mat44 m, quat q);
API void rotation44(mat44 m, float degrees, float x, float y, float z);
API void rotate44(mat44 m, float degrees, float x, float y, float z);
API void scaling44(mat44 m, float x, float y, float z);
API void scale44(mat44 m, float x, float y, float z);
// ---
API void transpose44(mat44 m, const mat44 a);
API float det44(const mat44 M);
API bool invert44(mat44 T, const mat44 M);
API void compose44(mat44 m, vec3 t, quat q, vec3 s);
// ----------------------------------------------------------------------------
API vec3 transformq(const quat q, const vec3 v);
API vec3 transform33(const mat33 m, vec3 p);
API vec3 transform344(const mat44 m, const vec3 p);
API vec4 transform444(const mat44 m, const vec4 p);
API bool unproject44(vec3 *out, vec3 xyd, vec4 viewport, mat44 mvp);
// ----------------------------------------------------------------------------
// debugging and utils
2023-10-07 17:34:09 +00:00
API void print2i( vec2i v );
API void print3i( vec3i v );
API void print2( vec2 v );
API void print3( vec3 v );
API void print4( vec4 v );
API void printq( quat q );
API void print33( float *m );
API void print34( float *m );
API void print44( float *m );
API vec2 atof2(const char *s);
API vec3 atof3(const char *s);
API vec4 atof4(const char *s);
API char* ftoa(float f);
API char* ftoa2(vec2 v);
API char* ftoa3(vec3 v);
API char* ftoa4(vec4 v);
API void swapf(float *a, float *b);
API void swapf2(vec2 *a, vec2 *b);
API void swapf3(vec3 *a, vec3 *b);
API void swapf4(vec4 *a, vec4 *b);
#line 0
2023-08-10 14:30:56 +00:00
#line 1 "v4k_ai.h"
typedef enum SWARM_DISTANCE {
SWARM_DISTANCE_LINEAR,
SWARM_DISTANCE_INVERSE_LINEAR,
SWARM_DISTANCE_QUADRATIC,
SWARM_DISTANCE_INVERSE_QUADRATIC
} SWARM_DISTANCE;
#define boid(...) C_CAST(boid_t, __VA_ARGS__)
typedef struct boid_t {
vec3 position;
vec3 velocity;
vec3 acceleration;
vec3 prev_position;
} boid_t;
typedef struct swarm_t {
array(boid_t) boids;
float perception_radius; // determines the vision radius of each boid. Only boids within this distance influence each other.
float separation_weight; // how much boids repel each other
SWARM_DISTANCE separation_type;
float alignment_weight; // how much boids want go in the same direction
float cohesion_weight; // how much boids want to be in the center of the swarm
float steering_weight;
array(vec3) steering_targets;
SWARM_DISTANCE steering_target_type;
float blindspot_angledeg;
float max_acceleration; // how fast each boid can change its direction
float max_velocity; // how fast each boid can move
// private:
map(vec3*, array(boid_t*)) voxel_cache_;
float blindspot_angledeg_compare_value_;
} swarm_t;
API swarm_t swarm();
API void swarm_update(swarm_t *self, float delta); // acc,vel,pos
API void swarm_update_acceleration_only(swarm_t *self); // acc
API void swarm_update_acceleration_and_velocity_only(swarm_t *self, float delta); // acc,vel
API int ui_swarm(swarm_t *self);
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// pathfinding -----------------------------------------------------------------
API int pathfind_astar(int width, int height, const unsigned* map, vec2i src, vec2i dst, vec2i* path, size_t maxpath);
#line 0
#line 1 "v4k_bt.h"
// Behavior trees: decision planning and decision making.
// Supersedes finite state-machines (FSM) and hierarchical finite state-machines (HFSM).
// - rlyeh, public domain.
//
// [ref] https://outforafight.wordpress.com/2014/07/15/behaviour-behavior-trees-for-ai-dudes-part-1/
// [ref] https://www.gameaipro.com/GameAIPro/GameAIPro_Chapter06_The_Behavior_Tree_Starter_Kit.pdf
// [ref] https://gitlab.com/NotYetGames/DlgSystem/-/wikis/Dialogue-Manual
// [ref] https://towardsdatascience.com/designing-ai-agents-behaviors-with-behavior-trees-b28aa1c3cf8a
// [ref] https://docs.nvidia.com/isaac/packages/behavior_tree/doc/behavior_trees.html
// [ref] https://docs.unrealengine.com/4.26/en-US/InteractiveExperiences/ArtificialIntelligence/BehaviorTrees/
// [ref] gdc ChampandardDaweHernandezCerpa_BehaviorTrees.pdf @todo debugging
// [ref] https://docs.cocos.com/cocos2d-x/manual/en/actions/
2023-09-19 02:30:54 +00:00
// The nodes in a behavior tree can be broadly categorized into three main types: control nodes, task nodes, and decorator nodes. Here is a brief description of each category:
// Control Nodes: Control nodes are used to control the flow of the behavior tree. They determine the order in which child nodes are executed and how the results of those nodes are combined. They are usually parent nodes.
// Action Nodes: Action nodes are used to perform specific actions or tasks within the behavior tree. They can include actions such as moving, attacking, or interacting with objects in the game world. They are usually leaf nodes.
// Decorator Nodes: Decorator nodes are used to modify the behavior of child nodes in some way. They can be used to repeat child nodes, invert the result of a child node, or add a cooldown period between executions. They are usually located between control and action nodes.
// --- VARIABLES
// Key Prefixes:
// {visiblity:(l)ocal,s(q)uad,(r)ace,(f)action,(g)lobal}
// [persistence:(t)emp,(u)serdata,(s)avegame,(c)loud] + '_' + name.
// [persistence:(tmp),(usr)data,(sav)egame,(net)cloud] + '_' + name.
// Ie, l_health = 123.4, gsav_player = "john"
// --- ACTION NODES
// [ ] * Actions/Behaviors have a common structure:
// [ ] - Entry point (function name) for a C call or Lua script.
// [ ] * Status:
// [ ] - Uninitialized (never run)
// [ ] - Running (in progress)
// [ ] - Suspended (on hold till resumed)
// [ ] - Success (finished and succeeded)
// [ ] - Failure (finished and failed)
// [ ] * Optional callbacks:
// [ ] - on_enter
// [ ] - on_leave
// [ ] - on_success
// [ ] - on_failure
// [ ] - on_suspend
// [ ] - on_resume
// [x] Action Node: This node performs a single action, such as moving to a specific location or attacking a target.
// [ ] Blackboard Node: Node that reads and writes data to a shared memory space known as a blackboard. The blackboard can be used to store information that is relevant to multiple nodes in the behavior tree.
// [ ] SetKey(keyVar,object)
// [ ] HasKey(keyVar)
// [ ] CompareKeys(keyVar1, operator < <= > >= == !=, keyVar2)
// [ ] SetTags(names=blank,cooldownTime=inf,bIsCooldownAdditive=false)
// [ ] HasTags(names=blank,bAllRequired=true)
// [ ] PushToStack(keyVar,itemObj): creates a new stack if one doesn<73>t exist, and stores it in the passed variable name, and then pushes <20>item<65> object onto it.
// [ ] PopFromStack(keyVar,itemVar): pop pops an item off the stack, and stores it in the itemVar variable, failing if the stack is already empty.
// [ ] IsEmptyStack(keyVar): checks if the stack passed is empty and returns success if it is, and failure if its not.
// [ ] Communication Node: This is a type of action node that allows an AI agent to communicate with other agents or entities in the game world. The node takes an input specifying the message to be communicated and the recipient(s) of the message (wildmask,l/p/f/g prefixes). The node then sends the message to the designated recipient(s) and returns success when the communication is completed. This node can be useful for implementing behaviors that require the AI agent to coordinate with other agents or to convey information to the player. It could use a radius argument to specify the maximum allowed distance for the recipients.
// [ ] Condition Node: A leaf node that checks a specific condition, such as the distance to an object, the presence of an enemy, or the status of a health bar.
// [ ] Distance Condition Node: This is a type of condition node that evaluates whether an AI agent is within a specified distance of a target object or location. The node takes two inputs: the current position of the AI agent and the position of the target object or location. If the distance between the two is within a specified range, the node returns success. If the distance is outside of the specified range, the node returns failure. This node can be useful for implementing behaviors that require the AI agent to maintain a certain distance from a target, such as following or avoiding an object. Could use a flag to disambiguate between linear distance and path distance.
// [ ] Query Node: This node checks a condition and returns success or failure based on the result. For example, a query node could check whether an enemy is within range or whether a door is locked.
// [ ] Query Node: A type of decorator node that retrieves information from a database or external system, such as a web service or file system. The Query node can be used to retrieve data that is not available within the game engine, such as weather or traffic conditions.
// [ ] A condition is made of:
// [ ] - Optional [!] negate
// [ ] - Mandatory Value1(Int/Flt/Bool/VarName/FuncName)
// [ ] - Optional operator [< <= > >= == !=] and Value2(Int/Flt/Bool/VarName/FuncName)
// [ ] AllConditions(...) : SUCCESS if ( empty array || all conditions met)
// [ ] AnyConditions(...) : SUCCESS if (!empty array && one conditions met)
// --- DECORATOR NODES
// [ ] Cooldown Node: Decorator node that adds a cooldown period between the execution of a child node, preventing it from being executed again until the cooldown period has elapsed.
// [x] Counter Node: Decorator node that limits the number of times that a child node can execute. For example, if the child node has executed a certain number of times, the Counter node will return a failure.
// [x] Once Node: Decorator node that triggers a specified action when a condition is met for the first time. This can be useful for triggering a one-time event, such as when an AI agent discovers a hidden item or reaches a new area of the game world.
// [x] Inverter Node: Decorator node that inverts the result of a child node, returning success if the child node fails and failure if the child node succeeds. This can be useful for negating the outcome of a particular behavior, such as avoiding a certain area of the game world.
// [x] Repeater Node: Decorator node that repeats the execution of a child node a specified number of times or indefinitely.
// [x] Repeat(times=inf): Runs child node given times. These are often used at the very base of the tree, to make the tree to run continuously.
// [ ] RepeatIf(strong/weak condition): Runs child node as long as the conditions are met.
// [ ] RepeatIfOk(times=inf): Runs child node if it succeedes, max given times.
// [ ] RepeatIfFail(times=inf): Runs child node if it fails, max given times.
// [ ] Branch Node: 2 children [0] for true, [1] for false
// [ ] Resource Node: Decorator node that manages a shared resource, such as a limited supply of ammunition or a limited amount of processing power. The Resource node The node can be used to decide when to use or conserve the resource. For example, if the AI agent is low on ammunition, the node may decide to switch to a melee weapon or to retreat to a safer location. This node can be useful for implementing behaviors that require the AI agent to make strategic decisions about resource use.
// [x] Result Node: Decorator node that tracks the result of a child action node and returns either success or failure depending on the outcome. This can be useful for determining whether an action was successful or not, and then adjusting the AI agent's behavior accordingly.
// [x] Succeeder Node: Decorator node that always returns success, regardless of the result of its child node. This can be useful for ensuring that certain behaviors are always executed, regardless of the overall success or failure of the behavior tree.
// [x] Success(): FAILURE becomes SUCCESS (TRUE).
// [x] Failure(): SUCCESS becomes FAILURE (FALSE).
// [ ] Throttle Node: Decorator node that limits the rate at which a child node can execute. For example, a Throttle node might ensure that an AI agent can only fire its weapon, or using a special ability, only a certain number of times per second.
// [x] Delay Node: Decorator node that adds a delay to the execution of a child node. The delay might be configured to sleep before the execution, after the execution, or both.
// [x] Defer Delay(duration_ss=1): Runs the child node, then sleeps for given seconds.
// [ ] Ease(time,name): Clamps child time to [0,1] range, and applies easing function on it.
// [ ] Dilate(Mul=1,Add=0): Dilates child time
// --- CONTROL NODES
// [x] Root Node: The topmost node in a behavior tree that represents the start of the decision-making process. Returns success if any of its child nodes suceedes.
// [x] Root-Failure Node: Control node that only returns failure if all of its child nodes fail. This can be useful for ensuring that a behavior tree is not prematurely terminated if one or more child nodes fail.
// [ ] Event(name): When name event is raised, it suspends current tree and calls child. "Incoming projectile" -> Evade. Stimulus types: may be disabled by event, or autodisabled.
// [ ] Raise(name): Triggers event name.
// [ ] Checkpoint Node: Control node that saves a state in memory and then continues the tree execution from that point the next time the tree is executed. It can be useful in situations where the behavior tree needs to be interrupted and resumed later.
// [ ] Decision Making Node: Control node that implements a decision-making process for the AI agent. The node takes input specifying the available options for the AI agent and the criteria for evaluating each option. The node then evaluates each option based on the specified criteria and selects the best option. This node can be useful for implementing behaviors that require the AI agent to make strategic decisions, such as choosing a target or selecting a path through the game world.
// [ ] Could be extended with GOAP if dynamically inserting the scores on each update then calling a Probability Selector Node (0.2,0.3,0.5)
// [ ] https://cdn.cloudflare.steamstatic.com/apps/valve/2012/GDC2012_Ruskin_Elan_DynamicDialog.pdf
// [ ] Evaluate Node / Recheck():
// [ ] Actively rechecks all existing sub-conditions on a regular basis after having made decisions about them.
// [ ] Use this feature to dynamically check for risks or opportunities in selected parts of the tree.
// [ ] For example, interrupting a patrol with a search behavior if a disturbance is reported.
// [ ] Interrupt Node: Control node that interrupts the execution of a lower-priority node when a higher-priority node needs to be executed. It can be useful for handling urgent tasks or emergency situations.
// [ ] Monitor Node: Control node that continuously monitors a condition and triggers a specified action when the condition is met. For example, a Monitor node might monitor the distance between an AI agent and a target and trigger a "retreat" behavior when the distance falls below a certain threshold.
// [ ] Observer Node: Control node that monitors the state of the game world and triggers a specified action when certain conditions are met. For example, an Observer node might trigger a "hide" behavior when an enemy is spotted.
// [ ] Parallel Node: Control node that executes multiple child nodes simultaneously. The Parallel node continues to execute even if some of its child nodes fail.
// [ ] Parallel All Node(required_successes=100%): Control node that executes multiple child nodes simultaneously. Returns false when first child fails, and aborts any other running tasks. Returns true if all its children succeed.
// [ ] Parallel One Node(required_successes=1): Control node that executes multiple child nodes simultaneously. Returns true when first child suceedes, and aborts any other running tasks. Returns false if all its children fail.
// [ ] Subsumption Node: Control node that allows multiple behaviors to be executed simultaneously, with higher-priority behaviors taking precedence over lower-priority ones. This can be useful for implementing complex, multi-level behaviors in autonomous systems.
// [ ] Semaphore Node: Control node that blocks the execution of its child nodes until a certain condition is met. For example, a Semaphore node might block the execution of a behavior until a certain object is in range or a certain event occurs.
// [ ] Semaphore Wait Node: Control node that blocks the execution of its child nodes until a resource becomes available. This can be useful for controlling access to shared resources such as a pathfinding system or a communication channel.
// [ ] WaitTags(tags=blank,timeout_ss=inf): Stops execution of child node until the cooldown tag(s) do expire. May return earlier if timed out.
// [ ] WaitEvent(name=blank,timeout_ss=inf): Stops execution of child node until event is raised. May return earlier if timed out.
// [x] Sequence Node(reversed,iterator(From,To)): Control node that executes a series of child nodes in order. If any of the child nodes fail, the Sequence node stops executing and returns a failure.
// [ ] Dynamic Sequence Node: Control node that dynamically changes the order in which its child nodes are executed based on certain conditions. For example, a Dynamic Sequence node might give higher priority to a child node that has recently failed or that is more likely to succeed.
// [ ] Reverse(): iterates children in reversed order (Iterator:(-1,0) equivalent)
// [ ] Iterator(from,to): allows negative indexing. increments if (abs from < abs to), decrements otherwise
// [x] Selector Node: Control node that selects a child node to execute based on a predefined priority or set of conditions. The Selector node stops executing child nodes as soon as one of them succeeds.
// [ ] Priority Selector Node: Control node that executes its child nodes in order of priority. If the first child node fails, it moves on to the next child node in the list until a successful node is found. This can be useful for implementing behaviors that require a specific order of execution, such as a patrol route or a search pattern.
// [ ] Probability Selector Node: Control node that selects a child node to execute based on a probability distribution. For example, if there are three child nodes with probabilities of 0.2, 0.3, and 0.5, the Probability Selector node will execute the third child node 50% of the time.
// [ ] Dynamic Selector Node: Control node that dynamically changes the order in which its child nodes are executed based on certain conditions. For example, a Dynamic Selector node might give higher priority to a child node that has recently succeeded or that is more likely to succeed.
// [ ] Dynamic Selector Node: Control node that dynamically changes the order in which child nodes are executed based on certain conditions. For example, it may prioritize certain nodes when health is low, and other nodes when resources are scarce.
// [ ] Dynamic Priority Node: Control node that dynamically changes the priority of its child nodes based on certain conditions. For example, if a child node is more likely to result in success, the Dynamic Priority node will give it a higher priority.
// [ ] Weighted / Cover Selection Node: This is a type of selector node that evaluates the available cover options in the game world and selects the best cover position for the AI agent. The node takes input specifying the current position of the AI agent and the location of potential cover positions. The node then evaluates the cover positions based on criteria such as distance to enemy positions, line of sight, and available cover points, and selects the best option. This node can be useful for implementing behaviors that require the AI agent to take cover and avoid enemy fire.
// [ ] Random Selector Node: Control node that selects a child node to execute at random. This can be useful for introducing variety and unpredictability into the behavior of an AI agent.
// [ ] Random Weight / Stochastic Node(0.2,0.3,0.5): Control node that introduces randomness into the decision-making process of an AI agent. For example, a Stochastic node might randomly select a child node to execute, with the probability of each child node being proportional to its likelihood of success.
// [ ] Break(bool): breaks parent sequence or selector. may return SUCCESS or FAILURE.
// [ ] Hybrid Node: Control node that combines the functionality of multiple control nodes, such as a sequence node and a selector node. It can be useful for creating complex behavior patterns that require multiple control structures. The Hybrid Node has two modes of operation: strict mode and flexible mode. In strict mode, the child nodes are executed in a fixed order, similar to a Sequence Node. If any child node fails, the entire Hybrid Node fails. In flexible mode, the child nodes can be executed in any order, similar to a Selector Node. If any child node succeeds, the entire Hybrid Node succeeds. The Hybrid Node is often used when you need to create complex behavior patterns that require multiple control structures. For example, you might use a Hybrid Node to implement a search behavior where the AI agent first moves in a fixed direction for a certain distance (strict mode), but then switches to a more exploratory mode where it randomly explores nearby areas (flexible mode).
// [ ] Subtree Node: Control node that calls another behavior tree as a subroutine. This is useful for breaking down complex behaviors into smaller, more manageable parts.
// [ ] Call(name): Calls to the child node with the matching name within behavior tree. Returns FAILURE if name is invalid or if invoked behavior returns FAILURE.
// [ ] Return(boolean): Exits current Call.
// [ ] AttachTree(Name,bDetachAfterUse=true): Attaches subtree to main tree. When a NPC founds the actor, it attaches the behavior to the tree. Ie, Level specific content: Patrols, Initial setups, Story driven events, etc. Ie, DLCs: Behaviors are added to actors in the DLC level (enticers).
// [ ] DetachTree(Name)
// [ ] Switch Node: Control node that evaluates a condition and then selects one of several possible child nodes to execute based on the result of the condition.
// [ ] Switch(name): Jumps to the child node with the matching name within behavior tree. If name is invalid will defer to Fallback child node.
// [ ] Timeout Node: Control node that aborts the execution of its child node after a certain amount of time has elapsed. This can be useful for preventing an AI agent from getting stuck in a loop or waiting indefinitely for a particular event to occur.
// [ ] TimeLimit(timeout_ss=inf): Give the child any amount of time to finish before it gets canceled. The timer is reset every time the node gains focus.
// [ ] Timer Node: Control node which invokes its child node every XX seconds. The timer can repeat the action any given number of times, or indefinitely.
// ## Proposal -----------------------------------------------------------------------------
// BehaviorTrees as case-insensitive INI files. Then,
// - INI -> C INTERPRETER, OR
// - INI -> LUA TRANSPILER -> LUA BYTECODE -> LUA VM.
// ```ini
// [bt]
// recheck
// sequence ;; Approach the player if seen!
// conditions=IsPlayerVisible,
// action=MoveTowardsPlayer
// sequence ;; Attack the player if seen!
// conditions=IsPlayerInRange,
// repeat=3
// action=FireAtPlayer
// sequence ;; Search near last known position
// conditions=HaveWeGotASuspectedLocation,
// action=MoveToPlayersLastKnownPosition
// action=LookAround
// sequence ;; Randomly scanning nearby
// action=MoveToRandomPosition
// action=LookAround
// event=IncomingProjectile
// action=Evade
// ```
typedef int (*bt_func)();
typedef struct bt_t {
uint64_t type;
int (*action)();
union {
int argi;
float argf;
};
array(struct bt_t) children;
} bt_t;
API bt_t bt(const char *ini_file, unsigned flags);
API int bt_run(bt_t *b);
API void bt_addfun(const char *name, int(*func)());
API bt_func bt_findfun(const char *name);
API char *bt_funcname(bt_func fn);
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API int ui_bt(bt_t *b);
#line 0
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#line 1 "v4k_audio.h"
// -----------------------------------------------------------------------------
// audio framework
// - rlyeh, public domain
//
// fixme: leaks, audio_delete
// @todo: audio_volume_fx, audio_volume_bgm, audio_volume_master instead?
// @todo: destroystream() if( ss->type == WAV ) drwav_uninit(&ss->wav);
// @todo: destroystream() if( ss->type == MOD ) jar_mod_unload(&ss->mod);
// @todo: destroystream() if( ss->type == XM && ss->xm ) jar_xm_free_context(ss->xm);
// midi interface
API void midi_send(unsigned midi_msg);
// audio interface
typedef struct audio_handle* audio_t;
API audio_t audio_clip( const char *pathfile );
API audio_t audio_stream( const char *pathfile );
API int audio_play( audio_t s, int flags );
API int audio_play_gain( audio_t a, int flags, float gain/*0*/ );
API int audio_play_gain_pitch( audio_t a, int flags, float gain, float pitch/*1*/ );
API int audio_play_gain_pitch_pan( audio_t a, int flags, float gain, float pitch, float pan/*0*/ );
API int audio_stop( audio_t a );
API float audio_volume_clip(float gain); // set fx volume if gain is in [0..1] range. return current fx volume in any case
API float audio_volume_stream(float gain); // set bgm volume if gain is in [0..1] range. return current bgm volume in any case
API float audio_volume_master(float gain); // set master volume if gain is in [0..1] range. return current master volume in any case
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API int ui_audio();
enum AUDIO_FLAGS {
AUDIO_1CH = 0, // default
AUDIO_2CH = 1,
AUDIO_8 = 2,
AUDIO_16 = 0, // default
AUDIO_32 = 4,
AUDIO_FLOAT = 8,
AUDIO_8KHZ = 16,
AUDIO_11KHZ = 32,
AUDIO_22KHZ = 0, // default
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AUDIO_32KHZ = 64,
AUDIO_44KHZ = 128,
AUDIO_MIXER_GAIN = 0, // default
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AUDIO_IGNORE_MIXER_GAIN = 256,
AUDIO_MULTIPLE_INSTANCES = 0, // default
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AUDIO_SINGLE_INSTANCE = 512,
};
API int audio_queue( const void *samples, int num_samples, int flags );
#line 0
2023-10-08 18:07:13 +00:00
#line 1 "v4k_buffer.h"
// ----------------------------------------------------------------------------
// compression api
enum COMPRESS_FLAGS {
COMPRESS_RAW = 0,
COMPRESS_PPP = (1<<4),
COMPRESS_ULZ = (2<<4),
COMPRESS_LZ4 = (3<<4),
COMPRESS_CRUSH = (4<<4),
COMPRESS_DEFLATE = (5<<4),
COMPRESS_LZP1 = (6<<4),
COMPRESS_LZMA = (7<<4),
COMPRESS_BALZ = (8<<4),
COMPRESS_LZW3 = (9<<4),
COMPRESS_LZSS = (10<<4),
COMPRESS_BCM = (11<<4),
COMPRESS_ZLIB = (12<<4), // same as deflate with header
};
API unsigned zbounds(unsigned inlen, unsigned flags);
API unsigned zencode(void *out, unsigned outlen, const void *in, unsigned inlen, unsigned flags);
API unsigned zexcess(unsigned flags);
API unsigned zdecode(void *out, unsigned outlen, const void *in, unsigned inlen, unsigned flags);
// ----------------------------------------------------------------------------
// array de/interleaving
// - rlyeh, public domain.
//
// results:
// R0G0B0 R1G1B1 R2G2B2... -> R0R1R2... B0B1B2... G0G1G2...
// R0G0B0A0 R1G1B1A1 R2G2B2A2... -> R0R1R2... A0A1A2... B0B1B2... G0G1G2...
API void *interleave( void *out, const void *list, int list_count, int sizeof_item, unsigned columns );
// ----------------------------------------------------------------------------
// cobs en/decoder
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API unsigned cobs_bounds(unsigned len);
API unsigned cobs_encode(const void *in, unsigned inlen, void *out, unsigned outlen);
API unsigned cobs_decode(const void *in, unsigned inlen, void *out, unsigned outlen);
// ----------------------------------------------------------------------------
// base92 en/decoder
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API unsigned base92_encode(const void *in, unsigned inlen, void* out, unsigned outlen);
API unsigned base92_decode(const void *in, unsigned inlen, void* out, unsigned outlen);
API unsigned base92_bounds(unsigned inlen);
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// ----------------------------------------------------------------------------
// netstring en/decoder
API unsigned netstring_bounds(unsigned inlen);
API unsigned netstring_encode(const char *in, unsigned inlen, char *out, unsigned outlen);
API unsigned netstring_decode(const char *in, unsigned inlen, char *out, unsigned outlen);
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// ----------------------------------------------------------------------------
// delta en/decoder
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API void delta8_encode(void *buffer, unsigned count);
API void delta8_decode(void *buffer, unsigned count);
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API void delta16_encode(void *buffer, unsigned count);
API void delta16_decode(void *buffer, unsigned count);
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API void delta32_encode(void *buffer, unsigned count);
API void delta32_decode(void *buffer, unsigned count);
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API void delta64_encode(void *buffer, unsigned count);
API void delta64_decode(void *buffer, unsigned count);
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// ----------------------------------------------------------------------------
// zigzag en/decoder
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API uint64_t zig64( int64_t value ); // convert sign|magnitude to magnitude|sign
API int64_t zag64( uint64_t value ); // convert magnitude|sign to sign|magnitude
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API uint32_t enczig32u( int32_t n);
API uint64_t enczig64u( int64_t n);
API int32_t deczig32i(uint32_t n);
API int64_t deczig64i(uint64_t n);
// ----------------------------------------------------------------------------
// arc4 en/decryptor
API void *arc4( void *buffer, unsigned buflen, const void *pass, unsigned passlen );
// ----------------------------------------------------------------------------
// crc64
API uint64_t crc64(uint64_t h, const void *ptr, uint64_t len);
// ----------------------------------------------------------------------------
// entropy encoder
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API void entropy( void *buf, unsigned n );
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#line 0
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#line 1 "v4k_collide.h"
// -----------------------------------------------------------------------------
// original code by @vurtun (PD) and @barerose (CC0).
// [src] https://gist.github.com/vurtun/95f088e4889da2474ad1ce82d7911fee
// - rlyeh, public domain.
#ifndef GJK_H
#define GJK_H
#define GJK_MAX_ITERATIONS 20
typedef struct gjk_support {
int aid, bid;
vec3 a;
vec3 b;
} gjk_support;
typedef struct gjk_vertex {
vec3 a;
vec3 b;
vec3 p;
int aid, bid;
} gjk_vertex;
typedef struct gjk_simplex {
int max_iter, iter;
int hit, cnt;
gjk_vertex v[4];
float bc[4], D;
} gjk_simplex;
typedef struct gjk_result {
int hit;
vec3 p0;
vec3 p1;
float distance_squared;
int iterations;
} gjk_result;
int gjk(gjk_simplex *s, const gjk_support *sup, vec3 *dv);
gjk_result gjk_analyze(const gjk_simplex *s);
gjk_result gjk_quad(float a_radius, float b_radius);
#endif
//typedef struct gjk_result gjk_result;
typedef struct line { vec3 a, b; } line;
typedef struct sphere { vec3 c; float r; } sphere;
typedef struct aabb { vec3 min, max; } aabb;
typedef struct plane { vec3 p, n; } plane;
typedef struct capsule { vec3 a, b; float r; } capsule;
typedef struct ray { vec3 p, d; } ray;
typedef struct triangle { vec3 p0,p1,p2; } triangle;
typedef struct poly { vec3* verts; int cnt; } poly;
typedef union frustum { struct { vec4 l, r, t, b, n, f; }; vec4 pl[6]; float v[24]; } frustum;
#define line(...) C_CAST(line, __VA_ARGS__)
#define sphere(...) C_CAST(sphere, __VA_ARGS__)
#define aabb(...) C_CAST(aabb, __VA_ARGS__)
#define plane(...) C_CAST(plane, __VA_ARGS__)
#define capsule(...) C_CAST(capsule, __VA_ARGS__)
#define ray(p,normdir) C_CAST(ray, p, normdir)
#define triangle(...) C_CAST(triangle, __VA_ARGS__)
#define poly(...) C_CAST(poly, __VA_ARGS__)
#define frustum(...) C_CAST(frustum, __VA_ARGS__)
// ----------------------------------------------------------------------------
typedef struct hit {
union {
// general case
float depth;
// rays only: penetration (t0) and extraction (t1) points along ray line
struct { float t0, t1; };
// gjk only
struct { int hits; vec3 p0, p1; float distance2; int iterations; };
};
union { vec3 p; vec3 contact_point; };
union { vec3 n; vec3 normal; };
} hit;
#define hit(...) C_CAST(hit, __VA_ARGS__)
// ----------------------------------------------------------------------------
/* line/segment */
API float line_distance2_point(line l, vec3 p);
API vec3 line_closest_point(line l, vec3 p);
/* ray */
API float ray_test_plane(ray r, vec4 p4);
API float ray_test_triangle(ray r, triangle t);
API int ray_test_sphere(float *t0, float *t1, ray r, sphere s);
API int ray_test_aabb(float *t0, float *t1, ray r, aabb a);
API hit* ray_hit_plane(ray r, plane p);
API hit* ray_hit_triangle(ray r, triangle t);
API hit* ray_hit_sphere(ray r, sphere s);
API hit* ray_hit_aabb(ray r, aabb a);
/* sphere */
API vec3 sphere_closest_point(sphere s, vec3 p);
API hit* sphere_hit_aabb(sphere s, aabb a);
API hit* sphere_hit_capsule(sphere s, capsule c);
API hit* sphere_hit_sphere(sphere a, sphere b);
API int sphere_test_aabb(sphere s, aabb a);
API int sphere_test_capsule(sphere s, capsule c);
API int sphere_test_poly(sphere s, poly p);
API int sphere_test_sphere(sphere a, sphere b);
/* aabb */
API vec3 aabb_closest_point(aabb a, vec3 p);
API float aabb_distance2_point(aabb a, vec3 p);
API int aabb_contains_point(aabb a, vec3 p);
API hit* aabb_hit_aabb(aabb a, aabb b);
API hit* aabb_hit_capsule(aabb a, capsule c);
API hit* aabb_hit_sphere(aabb a, sphere s);
API int aabb_test_aabb(aabb a, aabb b);
API int aabb_test_capsule(aabb a, capsule c);
API int aabb_test_poly(aabb a, poly p);
API int aabb_test_sphere(aabb a, sphere s);
/* capsule */
API float capsule_distance2_point(capsule c, vec3 p);
API vec3 capsule_closest_point(capsule c, vec3 p);
API hit* capsule_hit_aabb(capsule c, aabb a);
API hit* capsule_hit_capsule(capsule a, capsule b);
API hit* capsule_hit_sphere(capsule c, sphere s);
API int capsule_test_aabb(capsule c, aabb a);
API int capsule_test_capsule(capsule a, capsule b);
API int capsule_test_poly(capsule c, poly p);
API int capsule_test_sphere(capsule c, sphere s);
/* poly: query */
API int poly_test_sphere(poly p, sphere s);
API int poly_test_aabb(poly p, aabb a);
API int poly_test_capsule(poly p, capsule c);
API int poly_test_poly(poly a, poly b);
/* poly: query transformed */
API int poly_test_sphere_transform(poly p, vec3 pos3, mat33 rot33, sphere s);
API int poly_test_aabb_transform(poly p, vec3 apos3, mat33 arot33, aabb a);
API int poly_test_capsule_transform(poly p, vec3 pos3, mat33 rot33, capsule c);
API int poly_test_poly_transform(poly a, vec3 apos3, mat33 arot33, poly b, vec3 bpos3, mat33 brot33);
/* poly: gjk result */
API int poly_hit_sphere(struct gjk_result *res, poly p, sphere s);
API int poly_hit_aabb(struct gjk_result *res, poly p, aabb a);
API int poly_hit_capsule(struct gjk_result *res, poly p, capsule c);
API int poly_hit_poly(struct gjk_result *res, poly a, poly b);
/* poly: gjk result transformed */
API int poly_hit_sphere_transform(struct gjk_result *res, poly p, vec3 pos3, mat33 rot33, sphere s);
API int poly_hit_aabb_transform(struct gjk_result *res, poly p, vec3 pos3, mat33 rot33, aabb a);
API int poly_hit_capsule_transform(struct gjk_result *res, poly p, vec3 pos3, mat33 rot33, capsule c);
API int poly_hit_poly_transform(struct gjk_result *res, poly a, vec3 at3, mat33 ar33, poly b, vec3 bt3, mat33 br33);
API vec4 plane4(vec3 p, vec3 n);
API frustum frustum_build(mat44 projview);
API int frustum_test_sphere(frustum f, sphere s);
API int frustum_test_aabb(frustum f, aabb a);
API poly poly_alloc(int cnt);
API void poly_free(poly *p);
API poly pyramid(vec3 from, vec3 to, float size); // poly_free() required
API poly diamond(vec3 from, vec3 to, float size); // poly_free() required
API void collide_demo(); // debug draw collisions
#line 0
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#line 1 "v4k_cooker.h"
// -----------------------------------------------------------------------------
// asset pipeline framework
// - rlyeh, public domain.
//
// all cooked assets are stored inside zip file at root folder, which acts as an asset database.
// during game boot, the database gets rebuilt as follows: (note: step 0 is an optional optimization)
// 0. for N given cores, split list of infiles into N zipfiles. then, parallelize cooks.
// 1. compare local disk files against file in zip database. for each mismatch do:
// 2. - invalidate its entry in database, if local file was removed from disk.
// 3. - write its *cooked* contents into database, if local file was created or modified from disk.
// 4. mount any existing zipfile(s) after cooking.
//
// notes: meta-datas from every raw asset are stored into comment field, inside .cook.zip archive.
// @todo: fix leaks
// @todo: symlink exact files
// @todo: idle threads should steal jobs from busy threads (maybe use jobs/coroutines for this?) ...
enum COOK_FLAGS {
COOK_SYNC = 0,
COOK_ASYNC = 1,
COOK_CANCELABLE = 2,
COOK_DEBUGLOG = 4, // log all cooking commands to a batch file
};
API void cook_config( const char *path_to_cook_ini ); // "tools/cook.ini"
API bool cook_start( const char *path_to_cook_ini, const char *masks, int flags ); // COOK_INI, "**"
API void cook_stop();
API void cook_cancel();
API int cook_jobs(); // [0..N]
API int cook_progress(); // [0..100]
#line 0
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#line 1 "v4k_data.h"
// -----------------------------------------------------------------------------
// data framework (json5, xml, compression) @todo:kvdb
// - rlyeh, public domain
//
// @todo: vec2,vec3,vec4
typedef union json_t { char* s; double f; int64_t i; uintptr_t p; array(union json_t) arr; } json_t;
// json api
API bool json_push(const char *json_content);
API const char* json_key(const char *keypath);
API json_t* json_find(const char *type_keypath);
API json_t json_get(const char *type_keypath);
API int json_count(const char *keypath);
#define json_int(...) (json_get(va("i" __VA_ARGS__)).i)
#define json_float(...) (json_get(va("f" __VA_ARGS__)).f)
#define json_string(...) (json_get(va("s" __VA_ARGS__)).s)
#define json_key(...) json_key(va(__VA_ARGS__))
#define json_count(...) json_count(va(__VA_ARGS__))
API bool json_pop();
// xml api
API int xml_push(const char *xml_content);
API const char * xml_string(char *key);
API unsigned xml_count(char *key);
API array(char) xml_blob(char *key);
#define xml_string(...) xml_string(va(__VA_ARGS__)) // syntax sugar: string
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#define xml_int(...) atoi(xml_string(__VA_ARGS__)) // syntax sugar: int
#define xml_float(...) atof(xml_string(__VA_ARGS__)) // syntax sugar: float
#define xml_blob(...) xml_blob(va(__VA_ARGS__)) // syntax sugar: base64 blob
#define xml_count(...) xml_count(va(__VA_ARGS__)) // syntax sugar: count nodes
API void xml_pop();
API bool data_tests();
#line 0
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#line 1 "v4k_dll.h"
// dll utils
// - rlyeh, public domain
/// !!! `filename` must contain extension
/// load dynamic library `file` and search for `symbol`
/// return: NULL if not found, found symbol otherwise.
/// filename: path to dynamic library file. must contain extension.
/// symbol: symbol name. must not be NULL.
/// see: dlopen^, dlclose^
/// > bool (*plugin_init)(void) = dll("plugin.dll", "init");
/// > assert(plugin_init());
API void* dll(const char *filename, const char *symbol);
#line 0
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#line 1 "v4k_editor.h"
// -----------------------------------------------------------------------------
// in-game editor
// - rlyeh, public domain.
//
// @todo: merge editor1.c and editor2.c internals into this api
//API void editor();
//API bool editor_active();
API vec3 editor_pick(float mouse_x, float mouse_y);
API char* editor_path(const char *path);
// open file dialog
API char* dialog_load();
API char* dialog_save();
// transform gizmos
API int gizmo(vec3 *pos, vec3 *rot, vec3 *sca);
API bool gizmo_active();
API bool gizmo_hover();
// localization kit (I18N, L10N)
API void kit_locale( const char *langcode_iso639_1 ); // set context language: enUS, ptBR, esES, ...
API void kit_set( const char *variable, const char *value ); // set context variable
API void kit_reset(); // reset all variables in context
API void kit_insert( const char *id, const char *translation ); // insert single translation
API bool kit_load( const char *filename ); // load translations file (xlsx)
API bool kit_merge( const char *filename ); // merge translations file into existing context
API void kit_clear(); // delete all translations
API char* kit_translate( const char *id ); // perform a translation, given current locale
API char* kit_translate2( const char *id, const char *langcode_iso639_1 ); // perform a translation given explicit locale
API void kit_dump_state( FILE *fp );
#line 0
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#line 1 "v4k_file.h"
// -----------------------------------------------------------------------------
// files, cache and virtual filesystem (registered directories and/or compressed zip archives).
// - rlyeh, public domain.
//
// - note: vfs_mount() order matters (last mounts have higher priority).
// - note: directory/with/trailing/slash/ as mount_point, or zip/tar/pak archive otherwise.
//
// @todo: file_mmap
// @todo: file_find() from first file_scan()
// physical filesystem. files
API const char** file_list(const char *path, const char *masks); // **.png;*.c
API bool file_write( const char *file, const void *ptr, int len );
API bool file_append( const char *file, const void *ptr, int len );
API char * file_read(const char *filename);
API char * file_load(const char *filename, int *len);
API uint64_t file_size(const char *pathfile);
API bool file_directory(const char *pathfile);
API char * file_pathabs(const char *pathfile); // ../dir/./file.ext -> c:/prj/dir/file.ext
API char * file_path(const char *pathfile); // c:/prj/dir/file.ext -> c:/prj/dir/
API char * file_name(const char *pathfile); // c:/prj/dir/file.ext -> file.ext
API char * file_base(const char *pathfile); // c:/prj/dir/file.ext -> file
API char * file_ext(const char *pathfile); // c:/prj/dir/file.ext -> .ext
API char * file_id(const char *pathfile); // c:/prj/dir/file.ext -> file/dir/prj (name then alphabetical)
API char * file_normalize(const char *pathfile); // c:/prj/dir/file.ext -> c/prj/dir/file_ext
//API char * file_normalize_with_folder(const char *pathfile); // c:/prj/dir/file.ext -> dir/file_ext
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API char * file_counter(const char *pathfile); // in: v4k.ini -> out: v4k(001).ini -> out: v4k(002).ini [-> etc...]
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API uint64_t file_stamp(const char *pathfile); // 1616153596 (seconds since unix epoch)
API uint64_t file_stamp10(const char *pathfile); // 20210319113316 (absolute datetime in base10)
API bool file_exist(const char *pathfile);
API bool file_delete(const char *pathfile);
API bool file_copy(const char *src, const char *dst);
API bool file_move(const char *src, const char *dst);
API FILE* file_temp();
API char* file_tempname();
API void* file_md5(const char *file); // 16 bytes
API void* file_sha1(const char *file); // 20 bytes
API void* file_crc32(const char *file); // 4 bytes
// compressed files
API array(char*) file_zip_list(const char *zipfile);
API array(char) file_zip_extract(const char *zipfile, const char *filename);
API bool file_zip_append(const char *zipfile, const char *filename, int clevel);
API bool file_zip_appendmem(const char *zipfile, const char *entryname, const void *ptr, unsigned len, int clevel);
// storage (emscripten only)
// Mounts local storage folder for writing. Useful for Emscripten only. @path_folder: "/save" for example
// Reads local storage to memory. Usually call it one time only, after mount. Useful for Emscripten only.
// Writes memory contents to local storage. Usually call it after all fclose
API void storage_mount(const char* folder);
API void storage_read();
API void storage_flush();
// virtual filesystem
API bool vfs_mount(const char *mount_point);
API const char** vfs_list(const char *masks); // **.png;*.c
API char * vfs_read(const char *pathfile);
API char * vfs_load(const char *pathfile, int *size);
API int vfs_size(const char *pathfile);
API const char * vfs_resolve(const char *fuzzyname); // guess best match. @todo: fuzzy path
//API const char*vfs_extract(const char *pathfile); // extracts vfs file into local filesystem (temporary file), so it can be read by foreign/3rd party libs
API FILE* vfs_handle(const char *pathfile); // same as above, but returns file handle instead. preferred way, will clean descriptors at exit
// cache
API void * cache_insert(const char *key, void *value, int size);
API void * cache_lookup(const char *key, int *size);
// ini
// @todo: evaluate alt api #1
// char *ini(filename, section.key, default);
// float inif(filename, section.key, default);
// @todo: evaluate alt api #2
// char *val = ini(filename, section_key);
// int count = ini_count(filename);
// char *key = ini_key_id(filename, id);
// char *val = ini_val_id(filename, id);
typedef map(char*,char*) ini_t;
API ini_t ini(const char *filename);
API ini_t ini_from_mem(const char *data);
API void ini_destroy(ini_t);
API bool ini_write(const char *filename, const char *section, const char *key, const char *value);
#line 0
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#line 1 "v4k_font.h"
// -----------------------------------------------------------------------------
// font framework
// - rlyeh, public domain
// font size tags
#define FONT_H1 "\1" // largest
#define FONT_H2 "\2"
#define FONT_H3 "\3"
#define FONT_H4 "\4"
#define FONT_H5 "\5"
#define FONT_H6 "\6" // smallest
// font color tags
#define FONT_COLOR1 "\x10"
#define FONT_COLOR2 "\x11"
#define FONT_COLOR3 "\x12"
#define FONT_COLOR4 "\x13"
#define FONT_COLOR5 "\x14"
#define FONT_COLOR6 "\x15"
#define FONT_COLOR7 "\x16"
#define FONT_COLOR8 "\x17"
#define FONT_COLOR9 "\x18"
#define FONT_COLOR10 "\x19"
// font face tags
#define FONT_FACE1 "\x1a"
#define FONT_FACE2 "\x1b"
#define FONT_FACE3 "\x1c"
#define FONT_FACE4 "\x1d"
#define FONT_FACE5 "\x1e"
#define FONT_FACE6 "\x1f"
// font align tags
#define FONT_LEFT "\\<"
#define FONT_CENTER "\\|"
#define FONT_RIGHT "\\>"
#define FONT_TOP "\\^"
#define FONT_MIDDLE "\\-"
#define FONT_BASELINE "\\_"
#define FONT_BOTTOM "\\v"
// font flags
enum FONT_FLAGS {
// font atlas size
FONT_512 = 0x0,
FONT_1024 = 0x1,
FONT_2048 = 0x2,
FONT_4096 = 0x4,
// font oversampling
FONT_NO_OVERSAMPLE = 0x0,
FONT_OVERSAMPLE_X = 0x08,
FONT_OVERSAMPLE_Y = 0x10,
// unicode ranges
FONT_ASCII = 0x800, // Compatible charset
FONT_AR = 0x001000, // Arabic and Arabic-Indic digits
FONT_ZH = 0x002000, // Chinese Simplified (@todo: add ZH_FULL)
FONT_EL = 0x004000, // Greek, Coptic, modern Georgian, Svan, Mingrelian, Ancient Greek
FONT_EM = 0x008000, // Emoji
FONT_EU = 0x010000, // Eastern/western Europe, IPA, Latin ext A/B
FONT_HE = 0x020000, // Hebrew, Yiddish, Ladino, and other diaspora languages
FONT_JP = 0x040000, // Hiragana, Katakana, Punctuations, Half-width chars
FONT_KR = 0x080000, // Korean, Hangul
FONT_RU = 0x100000, // Cyrillic + ext A/B
FONT_TH = 0x200000, // Thai
FONT_VI = 0x400000, // Vietnamese
FONT_CJK = FONT_ZH|FONT_JP|FONT_KR,
// FONT_DEFAULTS = FONT_512 | FONT_NO_OVERSAMPLE | FONT_ASCII,
};
// configures
API void font_face(const char *face_tag, const char *filename_ttf, float font_size, unsigned flags);
API void font_face_from_mem(const char *tag, const void *ttf_buffer, unsigned ttf_len, float font_size, unsigned flags);
API void font_scales(const char *face_tag, float h1, float h2, float h3, float h4, float h5, float h6);
API void font_color(const char *color_tag, uint32_t color);
// commands
API vec2 font_xy();
API void font_goto(float x, float y);
API vec2 font_print(const char *text);
API vec2 font_rect(const char *text);
// void font_clip(vec2 topleft, vec2 bottomright);
// void font_wrap(vec2 topleft, vec2 bottomright);
// syntax highlighting
API void* font_colorize(const char *text, const char *comma_types, const char *comma_keywords); // comma separated tokens. expensive, please cache result.
API vec2 font_highlight(const char *text, const void *colors);
#line 0
2023-10-08 18:07:13 +00:00
#line 1 "v4k_id.h"
// -----------------------------------------------------------------------------
// factory of handle ids, based on code by randy gaul (PD/Zlib licensed)
// - rlyeh, public domain
//
// [src] http://www.randygaul.net/wp-content/uploads/2021/04/handle_table.cpp
// [ref] http://bitsquid.blogspot.com.es/2011/09/managing-decoupling-part-4-id-lookup.html
// [ref] http://glampert.com/2016/05-04/dissecting-idhashindex/
// [ref] https://github.com/nlguillemot/dof/blob/master/viewer/packed_freelist.h
// [ref] https://gist.github.com/pervognsen/ffd89e45b5750e9ce4c6c8589fc7f253
// convert between hard refs (pointers) and weak refs (ids)
uintptr_t id_make(void *ptr);
void * id_handle(uintptr_t id);
void id_dispose(uintptr_t id);
bool id_valid(uintptr_t id);
// configuration:
// ideally, these two should be 32 each. they were changed to fit our OBJHEADER bits
#ifndef ID_INDEX_BITS
#define ID_INDEX_BITS 16
#endif
#ifndef ID_COUNT_BITS
#define ID_COUNT_BITS 3
#endif
// you cannot change this one: the number of ID_DATA_BITS you can store in a handle depends on ID_COUNT_BITS
#define ID_DATA_BITS (64-ID_COUNT_BITS)
#line 0
#line 1 "v4k_pack.h"
// ----------------------------------------------------------------------------
// endianness
API int is_big();
API int is_little();
API uint16_t swap16( uint16_t x );
API uint32_t swap32( uint32_t x );
API uint64_t swap64( uint64_t x );
API float swap32f(float n);
API double swap64f(double n);
API uint16_t lil16(uint16_t n);
API uint32_t lil32(uint32_t n);
API uint64_t lil64(uint64_t n);
API uint16_t big16(uint16_t n);
API uint32_t big32(uint32_t n);
API uint64_t big64(uint64_t n);
API float lil32f(float n);
API double lil64f(double n);
API float big32f(float n);
API double big64f(double n);
API uint16_t* lil16p(void *p, int sz);
API uint16_t* big16p(void *p, int sz);
API uint32_t* lil32p(void *p, int sz);
API uint32_t* big32p(void *p, int sz);
API uint64_t* lil64p(void *p, int sz);
API uint64_t* big64p(void *p, int sz);
API float * lil32pf(void *p, int sz);
API float * big32pf(void *p, int sz);
API double * lil64pf(void *p, int sz);
API double * big64pf(void *p, int sz);
#if is(cl)
#define swap16 _byteswap_ushort
#define swap32 _byteswap_ulong
#define swap64 _byteswap_uint64
#elif is(gcc)
#define swap16 __builtin_bswap16
#define swap32 __builtin_bswap32
#define swap64 __builtin_bswap64
#endif
#define hton16 big16
#define ntoh16 big16
#define hton32 big32
#define ntoh32 big32
#define hton64 big64
#define ntoh64 big64
#define IS_BIG ((*(uint16_t *)"\0\1") == 1)
#define IS_LITTLE ((*(uint16_t *)"\0\1") != 1)
// ----------------------------------------------------------------------------
// half packing
typedef uint16_t half;
API float half_to_float(half value);
API half float_to_half(float value);
// ----------------------------------------------------------------------------
// int packing
// pack16i() -- store a 16-bit int into a char buffer (like htons())
// pack32i() -- store a 32-bit int into a char buffer (like htonl())
// pack64i() -- store a 64-bit int into a char buffer (like htonl())
API void pack16i(uint8_t *buf, uint16_t i, int swap);
API void pack32i(uint8_t *buf, uint32_t i, int swap);
API void pack64i(uint8_t *buf, uint64_t i, int swap);
// unpack16i() -- unpack a 16-bit int from a char buffer (like ntohs())
// unpack32i() -- unpack a 32-bit int from a char buffer (like ntohl())
// unpack64i() -- unpack a 64-bit int from a char buffer (like ntohl())
// changes unsigned numbers to signed if needed.
API int16_t unpack16i(const uint8_t *buf, int swap);
API int32_t unpack32i(const uint8_t *buf, int swap);
API int64_t unpack64i(const uint8_t *buf, int swap);
// ----------------------------------------------------------------------------
// float un/packing: 8 (micro), 16 (half), 32 (float), 64 (double) types
#define pack754_8(f) ( pack754((f), 8, 4))
#define pack754_16(f) ( pack754((f), 16, 5))
#define pack754_32(f) ( pack754((f), 32, 8))
#define pack754_64(f) ( pack754((f), 64, 11))
#define unpack754_8(u) (unpack754((u), 8, 4))
#define unpack754_16(u) (unpack754((u), 16, 5))
#define unpack754_32(u) (unpack754((u), 32, 8))
#define unpack754_64(u) (unpack754((u), 64, 11))
API uint64_t pack754(long double f, unsigned bits, unsigned expbits);
API long double unpack754(uint64_t i, unsigned bits, unsigned expbits);
// ----------------------------------------------------------------------------
// variable-length integer packing
API uint64_t pack64uv( uint8_t *buffer, uint64_t value );
API uint64_t unpack64uv( const uint8_t *buffer, uint64_t *value );
API uint64_t pack64iv( uint8_t *buffer, int64_t value_ );
API uint64_t unpack64iv( const uint8_t *buffer, int64_t *value );
// ----------------------------------------------------------------------------
// msgpack v5, schema based struct/buffer bitpacking
// api v2
API int msgpack(const char *fmt, ... ); // va arg pack "n,b,u,d/i,s,p,f/g,e,[,{"
API bool msgunpack(const char *fmt, ... ); // va arg pack "n,b,u,d/i,s,p,f/g,e,[,{"
// api v1
API int msgpack_new(uint8_t *w, size_t l);
API int msgpack_nil(); // write null
API int msgpack_chr(bool n); // write boolean
API int msgpack_uns(uint64_t n); // write unsigned integer
API int msgpack_int(int64_t n); // write integer
API int msgpack_str(const char *s); // write string
API int msgpack_bin(const char *s, size_t n); // write binary pointer
API int msgpack_flt(double g); // write real
API int msgpack_ext(uint8_t key, void *val, size_t n); // write extension type
API int msgpack_arr(uint32_t n); // write array mark for next N items
API int msgpack_map(uint32_t n); // write map mark for next N pairs (N keys + N values)
API int msgpack_eof(); // write full?
API int msgpack_err(); // write error?
API bool msgunpack_new( const void *opaque_or_FILE, size_t bytes );
API bool msgunpack_nil();
API bool msgunpack_chr(bool *chr);
API bool msgunpack_uns(uint64_t *uns);
API bool msgunpack_int(int64_t *sig);
API bool msgunpack_str(char **str);
API bool msgunpack_bin(void **bin, uint64_t *len);
API bool msgunpack_flt(float *flt);
API bool msgunpack_dbl(double *dbl);
API bool msgunpack_ext(uint8_t *key, void **val, uint64_t *len);
API bool msgunpack_arr(uint64_t *len);
API bool msgunpack_map(uint64_t *len);
API bool msgunpack_eof();
API bool msgunpack_err();
// ----------------------------------------------------------------------------
// Based on code by Brian "Beej Jorgensen" Hall (public domain) [1].
// Based on code by Ginger Bill's half<->float (public domain) [2].
// - rlyeh, public domain.
//
// pack.c -- perl/python-ish pack/unpack functions
// like printf and scanf, but for binary data.
//
// format flags:
// (<) little endian (>) big endian (! also) (=) native endian
// (c) 8-bit char (b) 8-bit byte
// (h) 16-bit half (w) 16-bit word
// (i) 32-bit integer (u) 32-bit unsigned (f) 32-bit float
// (l) 64-bit long (q) 64-bit quad (d) 64-bit double
// (v) varint
// (s) string (64-bit varint length prepended)
// (S) string (32-bit fixed length prepended)
// (m) memblock (64-bit varint length prepended)
// (M) memblock (32-bit fixed length prepended)
// (z) memblock (zeroed)
// (#) number of arguments processed (only when unpacking)
//
// @todo:
// - (x) document & test flag
// @totest:
// - (s) string (64-bit variable length automatically prepended)
// - (S) string (32-bit fixed length automatically prepended)
// - (m) memblock (64-bit variable length automatically prepended)
// - (M) memblock (32-bit fixed length automatically prepended)
// - (z) memblock (zeroed)
// - (#) number of arguments processed (only when unpacking)
// - save data dictated by the format string from the buffer. return: number of bytes written, or 0 if error.
// if first argument is zero, returns number of bytes required for packing.
API int savef(FILE *file, const char *format, ...);
API int saveb(unsigned char *buf, const char *format, ...);
// - load data dictated by the format string into the buffer. return: number of bytes read, or 0 if error.
// if first argument is zero, returns number of bytes required for unpacking.
API int loadf(FILE *file, const char *format, ...);
API int loadb(const unsigned char *buf, const char *format, ...);
#line 0
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#line 1 "v4k_input.h"
// -----------------------------------------------------------------------------
// input framework
// - rlyeh, public domain
//
// @todo: window
// @todo: for extra savings (168->72 bytes), promote bits to real bits (/8 %8) & normalized floats [-1,+1] to shorts or chars
// @todo: GAMEPAD_A|2, MOUSE_L|1, KEY_C|3
// @todo: load/save
// @todo: send virtual presses & outputs (rumble, light, led, text, etc)
// @todo: fix if logger !60 hz
// @tofo: fix click2/repeat edge cases
API int input_use( int controller_id ); // [0..3]
// -- basic polling api (read input at current frame)
API float input( int vk );
API vec2 input2( int vk );
API float input_diff( int vk ); // @todo: rename diff->delta
API vec2 input_diff2( int vk ); // @todo: rename diff2->delta2
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API const char* input_string( int vk );
// -- extended polling api (read input at Nth frame ago)
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API float input_frame( int vk, int Nth_frame );
API vec2 input_frame2( int vk, int Nth_frame );
// -- events api
API int input_up( int vk ); // ON -> OFF (release)
API int input_down( int vk ); // OFF -> ON (trigger)
API int input_held( int vk ); // ON -> ON (pressed)
API int input_idle( int vk ); // OFF -> OFF
API int input_click( int vk, int ms ); // OFF -> ON -> OFF
API int input_click2( int vk, int ms ); // OFF -> ON -> OFF -> ON -> OFF
API int input_repeat( int vk, int ms ); // [...] ON -> ON -> ON
API int input_chord2( int vk1, int vk2 ); // all vk1 && vk2 are ON
API int input_chord3( int vk1, int vk2, int vk3 ); // all vk1 && vk2 && vk3 are ON
API int input_chord4( int vk1, int vk2, int vk3, int vk4 ); // all vk1 && vk2 && vk3 && vk4 are ON
// -- 1d/2d filters
API float input_filter_positive( float v ); // [-1..1] -> [0..1]
API vec2 input_filter_positive2( vec2 v ); // [-1..1] -> [0..1]
API vec2 input_filter_deadzone( vec2 v, float deadzone_treshold );
API vec2 input_filter_deadzone_4way( vec2 v, float deadzone_treshold );
// -- multi-touch
enum TOUCH_BUTTONS {
TOUCH_0, // defaults to left screen area. input_touch_area() to override
TOUCH_1, // defaults to right screen area. input_touch_area() to override
};
API void input_touch_area(unsigned button, vec2 begin_coord_ndc, vec2 end_coord_ndc);
API vec2 input_touch(unsigned button, float sensitivity); // absolute position in 2d coords
API vec2 input_touch_delta(unsigned button, float sensitivity); // delta from previous position
API vec2 input_touch_delta_from_origin(unsigned button, float sensitivity); // relative position from initial touch
API bool input_touch_active();
// -- utils
API void input_mappings(const char *filename); // update gamepad mappings (usually "gamecontrollerdb.txt" file)
API char input_keychar(unsigned code); // Converts keyboard code to its latin char (if any)
API int input_anykey();
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// inject state
API void input_send( int vk ); // @todo
// load/save input
API array(char) save_input(); // @todo
API bool load_input(array(char) replay); // @todo
// visualize input
API int ui_keyboard();
API int ui_mouse();
API int ui_gamepad(int id);
API int ui_gamepads();
// --
enum INPUT_ENUMS {
// -- bits: x104 keyboard, x3 mouse, x15 gamepad, x7 window
// keyboard gaming keys (53-bit): first-class keys for gaming
KEY_ESC,
KEY_TICK, KEY_1,KEY_2,KEY_3,KEY_4,KEY_5,KEY_6,KEY_7,KEY_8,KEY_9,KEY_0, KEY_BS,
KEY_TAB, KEY_Q,KEY_W,KEY_E,KEY_R,KEY_T,KEY_Y,KEY_U,KEY_I,KEY_O,KEY_P,
KEY_CAPS, KEY_A,KEY_S,KEY_D,KEY_F,KEY_G,KEY_H,KEY_J,KEY_K,KEY_L, KEY_ENTER,
KEY_LSHIFT, KEY_Z,KEY_X,KEY_C,KEY_V,KEY_B,KEY_N,KEY_M, KEY_RSHIFT, KEY_UP,
KEY_LCTRL,KEY_LALT, KEY_SPACE, KEY_RALT,KEY_RCTRL, KEY_LEFT,KEY_DOWN,KEY_RIGHT,
// for completeness, secondary keys below (52-bit). beware!
KEY_INS,KEY_HOME,KEY_PGUP,KEY_DEL,KEY_END,KEY_PGDN, // beware: different behavior win/osx (also, osx: no home/end).
KEY_LMETA,KEY_RMETA,KEY_MENU,KEY_PRINT,KEY_PAUSE,KEY_SCROLL,KEY_NUMLOCK, // beware: may trigger unexpected OS behavior. (@todo: add RSHIFT here for win?)
KEY_MINUS,KEY_EQUAL,KEY_LSQUARE,KEY_RSQUARE,KEY_SEMICOLON,KEY_QUOTE,KEY_HASH,KEY_BAR,KEY_COMMA,KEY_DOT,KEY_SLASH, // beware: non-us keyboard layouts
KEY_F1,KEY_F2,KEY_F3,KEY_F4,KEY_F5,KEY_F6,KEY_F7,KEY_F8,KEY_F9,KEY_F10,KEY_F11,KEY_F12, // beware: complicated on laptops/osx
KEY_PAD1,KEY_PAD2,KEY_PAD3,KEY_PAD4,KEY_PAD5,KEY_PAD6,KEY_PAD7,KEY_PAD8,KEY_PAD9,KEY_PAD0, // beware: complicated on laptops
KEY_PADADD,KEY_PADSUB,KEY_PADMUL,KEY_PADDIV,KEY_PADDOT,KEY_PADENTER, // beware: complicated on laptops
MOUSE_L, MOUSE_M, MOUSE_R,
GAMEPAD_CONNECTED, GAMEPAD_A, GAMEPAD_B, GAMEPAD_X, GAMEPAD_Y,
GAMEPAD_UP, GAMEPAD_DOWN, GAMEPAD_LEFT, GAMEPAD_RIGHT, GAMEPAD_MENU, GAMEPAD_START,
GAMEPAD_LB, GAMEPAD_RB, GAMEPAD_LTHUMB, GAMEPAD_RTHUMB,
WINDOW_BLUR, WINDOW_FOCUS, WINDOW_CLOSE, WINDOW_MINIMIZE, WINDOW_MAXIMIZE, WINDOW_FULLSCREEN, WINDOW_WINDOWED, // MINI/MAXI/RESTORED, SHOWN/HIDDEN
// -- floats: x7 gamepad, x3 mouse, x4 touch, x4 window
GAMEPAD_LPAD, GAMEPAD_LPADX = GAMEPAD_LPAD, GAMEPAD_LPADY,
GAMEPAD_RPAD, GAMEPAD_RPADX = GAMEPAD_RPAD, GAMEPAD_RPADY,
GAMEPAD_LTRIGGER, GAMEPAD_LT = GAMEPAD_LTRIGGER, GAMEPAD_RTRIGGER, GAMEPAD_RT = GAMEPAD_RTRIGGER, GAMEPAD_BATTERY,
MOUSE, MOUSE_X = MOUSE, MOUSE_Y, MOUSE_W,
TOUCH_X1, TOUCH_Y1, TOUCH_X2, TOUCH_Y2,
WINDOW_RESIZE, WINDOW_RESIZEX = WINDOW_RESIZE, WINDOW_RESIZEY, WINDOW_ORIENTATION, WINDOW_BATTERY,
// -- strings: x2 gamepad
GAMEPAD_GUID, GAMEPAD_NAME,
};
#line 0
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#line 1 "v4k_memory.h"
// -----------------------------------------------------------------------------
// memory framework
// - rlyeh, public domain
// memory leaks detector
#if ENABLE_MEMORY_LEAKS
#define WATCH(ptr,sz) watch((ptr), (sz))
#define FORGET(ptr) forget(ptr)
#else
#define WATCH(ptr,sz) (ptr)
#define FORGET(ptr) (ptr)
#endif
// default allocator (aborts on out-of-mem)
API void* xrealloc(void* p, size_t sz);
API size_t xsize(void* p);
API char* xstats(void);
// stack based allocator (negative bytes does rewind stack, like when entering new frame)
API void* stack(int bytes);
// memory leaks api (this is already integrated as long as you compile with -DENABLE_MEMORY_LEAKS)
API void* watch( void *ptr, int sz );
API void* forget( void *ptr );
// memory api
#define ALLOCSIZE(p) xsize(p)
#define MALLOC(n) REALLOC_(0,(n))
#define FREE(p) REALLOC_((p), 0)
#define REALLOC(p,n) REALLOC_((p),(n))
#define CALLOC(m,n) CALLOC_((m),(n))
#define STRDUP(s) STRDUP_(s)
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#define ALLOCA(n) ifdef(gcc, __builtin_alloca(n), _alloca(n))
static FORCE_INLINE void *(REALLOC_)(void *p, size_t n) { return n ? WATCH(xrealloc(p,n),n) : xrealloc(FORGET(p),0); } ///-
static FORCE_INLINE void *(CALLOC_)(size_t m, size_t n) { return n *= m, memset(REALLOC(0,n),0,n); } ///-
static FORCE_INLINE char *(STRDUP_)(const char *s) { size_t n = strlen(s)+1; return ((char*)memcpy(REALLOC(0,n), s, n)); } ///-
#line 0
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#line 1 "v4k_network.h"
// -----------------------------------------------------------------------------
// network framework
// - rlyeh, public domain
API array(char) download( const char *url );
API int download_file( FILE *out, const char *url );
API int portname( const char *service_name, unsigned retries );
API bool network_tests();
// -----------------------------------------------------------------------------
// udp wrapper
// - rlyeh, public domain.
// server
API int udp_bind(const char *address, const char *port);
// client
API int udp_open(const char *address, const char *port);
// common
API int udp_send(int, const void *buf, int len ); // <0 error, >0 bytes sent ok
API int udp_sendto(int, const char *ip, const char *port, const void *buf, int len ); // <0 error, >0 bytes sent ok
API int udp_recv(int, void *buf, int len ); // <0 error, 0 orderly shutdown, >0 received bytes
API int udp_peek(int); // <0 error, 0 timeout, >0 data
// -----------------------------------------------------------------------------
// tcp wrapper
// - rlyeh, public domain
// client
API int tcp_open(const char *address, const char *port);
// server
API int tcp_bind(const char *interface_, const char *port, int queue);
API int tcp_peek(int, int(*callback)(int));
// common
API int tcp_send(int, const void* buf, int len);
API int tcp_recv(int, void* buf, int len);
API char* tcp_host(int); // info
API char* tcp_port(int); // info
API int tcp_close(int);
// extras
API int tcp_debug(int); // toggle traffic monitoring on/off for given socket
//API int tcp_printf(int, const char *fmt, ...); // printf message in remote end
//API int tcp_crypt(int,uint64_t); // set shared secret
#line 0
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#line 1 "v4k_netsync.h"
// high-level, socket-less networking api. inspired by Quake, MPI and RenderBuckets theories.
// - rlyeh, public domain
//
// Usage:
// 1. configure networked memory buffers with flags (world, player1, player2, etc). network_buffer();
// 2. then during game loop:
// - modify your buffers as much as needed.
// - sync buffers at least once per frame. network_sync();
// - render your world
// 3. optionally, monitor network status & variables. network_get();
//
// @todo: maybe network_send(msg) + msg *network_recv(); instead of event queue of network_sync() ?
//enum { NETWORK_HANDSHAKE, NETWORK_ENCRYPT, NETWORK_VERSIONED, NETWORK_CHECKSUM }; // negotiation
//enum { NETWORK_TCP, NETWORK_UDP, NETWORK_KCP, NETWORK_ENET, NETWORK_WEBSOCKET }; // transport, where
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enum { NETWORK_BIND = 2, NETWORK_CONNECT = 4, NETWORK_NOFAIL = 8 };
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API void network_create(unsigned max_clients, const char *ip, const char *port, unsigned flags); // both ip and port can be null
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//enum { NETWORK_LOSSY, NETWORK_COMPRESS }; // post-processes
//enum { NETWORK_PREDICT, NETWORK_RECONCILE, NETWORK_INTERPOLATE, NETWORK_COMPENSATE }; // time authority, when
//enum { NETWORK_LAGS, NETWORK_DROPS, NETWORK_THROTTLES, NETWORK_DUPES }; // quality sim, how much
//enum { NETWORK_CONST = 1, NETWORK_64,NETWORK_32,NETWORK_16,NETWORK_8, NETWORK_FLT, NETWORK_STR, NETWORK_BLOB }; // type, what
enum { NETWORK_SEND = 2, NETWORK_RECV = 4 };
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enum { NETWORK_UNRELIABLE = 8, NETWORK_UNORDERED = 16/*, NETWORK_PRIORITY = 32*/ };
API void* network_buffer(void *ptr, unsigned sz, uint64_t flags, int64_t rank); // configures a shared/networked buffer
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API char** network_sync(unsigned timeout_ms); // syncs all buffers & returns null-terminated list of network events
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enum {
NETWORK_EVENT_CONNECT,
NETWORK_EVENT_DISCONNECT,
NETWORK_EVENT_RECEIVE,
NETWORK_EVENT_DISCONNECT_TIMEOUT,
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/* offset from internal networking events */
NETWORK_EVENT_RPC = 10,
NETWORK_EVENT_RPC_RESP,
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};
/* errcode and errstr are optional arguments, pass NULL to ignore them,
errstr is filled by va() */
API int network_event(const char *msg, int *errcode, char **errstr);
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enum { NETWORK_RANK = 0 }; // [0..N] where 0 is server
enum { NETWORK_PING = 1 }; // NETWORK_BANDWIDTH, NETWORK_QUALITY };
enum { NETWORK_PORT = 2, NETWORK_IP, NETWORK_LIVE };
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enum { NETWORK_SEND_MS = 4 };
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enum { NETWORK_BUF_CLEAR_ON_JOIN = 5 };
enum { NETWORK_USERID = 7, /*NETWORK_SALT,*/ NETWORK_COUNT/*N users*/ /*...*/, NETWORK_CAPACITY };
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API int64_t network_get(uint64_t key);
API int64_t network_put(uint64_t key, int64_t value);
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API void network_rpc(const char *signature, void *function);
API void network_rpc_send_to(int64_t rank, unsigned id, const char *cmdline);
API void network_rpc_send(unsigned id, const char *cmdline);
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// -----------------------------------------------------------------------------
// low-level api (sockets based)
API bool server_bind(int max_clients, int port);
API char** server_poll(unsigned timeout_ms);
API char** client_poll(unsigned timeout_ms);
API void server_broadcast_bin_flags(const void *ptr, int len, uint64_t flags);
API void server_broadcast_bin(const void *ptr, int len);
API void server_broadcast_flags(const char *msg, uint64_t flags);
API void server_broadcast(const char *msg);
API void server_terminate();
API void server_send(int64_t handle, const char *msg);
API void server_send_bin(int64_t handle, const void *ptr, int len);
API void server_drop(int64_t handle);
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API int64_t client_join(const char *ip, int port);
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#define client_send_flags(msg,flags) server_broadcast(msg, flags)
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#define client_send(msg) server_broadcast(msg)
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#define client_send_bin_flags(ptr,len,flags) server_broadcast_bin(ptr, len, flags)
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#define client_send_bin(ptr,len) server_broadcast_bin(ptr, len)
#define client_terminate() server_terminate()
#define ANYHOST_IPV4 "0.0.0.0"
#define ANYHOST_IPV6 "::0"
#define LOCALHOST_IPV4 "127.0.0.1"
#define LOCALHOST_IPV6 "::1"
#line 0
#line 1 "v4k_obj.h"
// -----------------------------------------------------------------------------
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// semantic versioning in a single byte (octal)
// - rlyeh, public domain.
//
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// - single octal byte that represents semantic versioning (major.minor.patch).
// - allowed range [0000..0377] ( <-> [0..255] decimal )
// - comparison checks only major.minor tuple as per convention.
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API int semver( int major, int minor, int patch );
API int semvercmp( int v1, int v2 );
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#define SEMVER(major,minor,patch) (0100 * (major) + 010 * (minor) + (patch))
#define SEMVERCMP(v1,v2) (((v1) & 0110) - ((v2) & 0110))
#define SEMVERFMT "%03o"
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// -----------------------------------------------------------------------------
// autorun initializers for C
// - rlyeh, public domain
//
// note: based on code by Joe Lowe (public domain).
// note: XIU for C initializers, XCU for C++ initializers, XTU for C deinitializers
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#ifdef __cplusplus
#define AUTORUN \
static void AUTORUN_U(f)(void); \
static const int AUTORUN_J(AUTORUN_U(f),__1) = (AUTORUN_U(f)(), 1); \
static void AUTORUN_U(f)(void)
#elif _MSC_VER
#define AUTORUN \
static void AUTORUN_U(f)(void); \
static int AUTORUN_J(AUTORUN_U(f),__1) (){ AUTORUN_U(f)(); return 0; } \
__pragma(section(".CRT$XIU", long, read)) \
__declspec(allocate(".CRT$XIU")) \
static int(* AUTORUN_J(AUTORUN_U(f),__2) )() = AUTORUN_J(AUTORUN_U(f),__1); \
static void AUTORUN_U(f)(void)
#else
#define AUTORUN \
__attribute__((constructor)) \
static void AUTORUN_U(f)(void)
#endif
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// join + unique macro utils
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#define AUTORUN_j(a, b) a##b
#define AUTORUN_J(a, b) AUTORUN_j(a, b)
#define AUTORUN_U(x) AUTORUN_J(x, __LINE__)
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#if 0 // autorun demo
void byebye(void) { puts("seen after main()"); }
AUTORUN { puts("seen before main()"); }
AUTORUN { puts("seen before main() too"); atexit( byebye ); }
#endif
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// -----------------------------------------------------------------------------
// storage types. refer to vec2i/3i, vec2/3/4 if you plan to do math operations
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typedef struct byte2 { uint8_t x,y; } byte2;
typedef struct byte3 { uint8_t x,y,z; } byte3;
typedef struct byte4 { uint8_t x,y,z,w; } byte4;
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typedef struct int2 { int x,y; } int2;
typedef struct int3 { int x,y,z; } int3;
typedef struct int4 { int x,y,z,w; } int4;
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typedef struct uint2 { unsigned int x,y; } uint2;
typedef struct uint3 { unsigned int x,y,z; } uint3;
typedef struct uint4 { unsigned int x,y,z,w; } uint4;
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typedef struct float2 { float x,y; } float2;
typedef struct float3 { float x,y,z; } float3;
typedef struct float4 { float x,y,z,w; } float4;
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typedef struct double2 { double x,y; } double2;
typedef struct double3 { double x,y,z; } double3;
typedef struct double4 { double x,y,z,w; } double4;
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#define byte2(x,y) M_CAST(byte2, (uint8_t)(x), (uint8_t)(y) )
#define byte3(x,y,z) M_CAST(byte3, (uint8_t)(x), (uint8_t)(y), (uint8_t)(z) )
#define byte4(x,y,z,w) M_CAST(byte4, (uint8_t)(x), (uint8_t)(y), (uint8_t)(z), (uint8_t)(w) )
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#define int2(x,y) M_CAST(int2, (int)(x), (int)(y) )
#define int3(x,y,z) M_CAST(int3, (int)(x), (int)(y), (int)(z) )
#define int4(x,y,z,w) M_CAST(int4, (int)(x), (int)(y), (int)(z), (int)(w) )
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#define uint2(x,y) M_CAST(uint2, (unsigned)(x), (unsigned)(y) )
#define uint3(x,y,z) M_CAST(uint3, (unsigned)(x), (unsigned)(y), (unsigned)(z) )
#define uint4(x,y,z,w) M_CAST(uint4, (unsigned)(x), (unsigned)(y), (unsigned)(z), (unsigned)(w) )
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#define float2(x,y) M_CAST(float2, (float)(x), (float)(y) )
#define float3(x,y,z) M_CAST(float3, (float)(x), (float)(y), (float)(z) )
#define float4(x,y,z,w) M_CAST(float4, (float)(x), (float)(y), (float)(z), (float)(w) )
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#define double2(x,y) M_CAST(double2, (double)(x), (double)(y) )
#define double3(x,y,z) M_CAST(double3, (double)(x), (double)(y), (double)(z) )
#define double4(x,y,z,w) M_CAST(double4, (double)(x), (double)(y), (double)(z), (double)(w) )
#line 0
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#line 1 "v4k_profile.h"
// -----------------------------------------------------------------------------
// profiler & stats (@fixme: threadsafe)
#if !ENABLE_PROFILER
# define profile(section) for(int macro(i) = 1; macro(i); macro(i) = 0)
# define profile_incstat(name, accum) do {} while(0)
# define profile_setstat(name, value) do {} while(0)
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# define profiler_init() do {} while(0)
# define profiler_enable(x) 0
# define ui_profiler() do {} while(0)
#else
# define profile(section) for( \
struct profile_t *found = profiler_enabled ? \
map_find_or_add(profiler, section "@" FILELINE, (struct profile_t){NAN} ) : NULL, \
*doit = found + ( found ? found->cost = -time_us(), 1 : 1 ); doit; \
doit = found ? found->cost += time_us(), found->avg = found->cost * 0.25 + found->avg * 0.75, NULL : NULL) ///+
# define profile_incstat(name, accum) for( \
struct profile_t *found = profiler_enabled ? map_find_or_add(profiler, name, (struct profile_t){0}) : NULL; \
found; found->stat += accum, found = NULL) ///+
# define profile_setstat(name, value) for( \
struct profile_t *found = profiler_enabled ? map_find_or_add(profiler, name, (struct profile_t){0}) : NULL; \
found; found->stat = value, found = NULL) ///+
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API int profiler_enable(bool on);
struct profile_t { double stat; int32_t cost, avg; }; ///-
typedef map(char *, struct profile_t) profiler_t; ///-
extern API profiler_t profiler; ///-
extern API int profiler_enabled; ///-
#endif
#line 0
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#line 1 "v4k_render.h"
// -----------------------------------------------------------------------------
// naive rendering framework
// - rlyeh, public domain
//
// IQM skeletal meshes by @lsalzman (public domain) - https://bit.ly/2OQh0Me
// SH code by @ands (public domain) - https://github.com/ands/spherical_harmonics_playground
// SHM code by @jarikomppa (unlicensed) - https://github.com/jarikomppa/shadertoolkit
typedef unsigned handle; // GLuint
// -----------------------------------------------------------------------------
// colors
API unsigned rgba( uint8_t r, uint8_t g, uint8_t b, uint8_t a );
API unsigned bgra( uint8_t b, uint8_t g, uint8_t r, uint8_t a );
API unsigned rgbaf( float r, float g, float b, float a );
API unsigned bgraf( float b, float g, float r, float a );
API float alpha( unsigned rgba );
#define RGBX(rgb,x) ( ((rgb)&0xFFFFFF) | (((unsigned)(x))<<24) )
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#define RGB3(r,g,b) ( (255<<24) | ((r)<<16) | ((g)<<8) | (b) )
#define RGB4(r,g,b,a) RGBX(RGB3(r,g,b),a)
#define BLACK RGBX(0x000000,255)
#define WHITE RGBX(0xFFF1E8,255)
#if 0
#define RED RGBX(0xFF004D,255)
#define GREEN RGBX(0x00B543,255)
#define BLUE RGBX(0x065AB5,255)
#define ORANGE RGBX(0xFF6C24,255)
#define CYAN RGBX(0x29ADFF,255)
#define PURPLE RGBX(0x7E2553,255)
#define YELLOW RGBX(0xFFEC27,255)
#define GRAY RGBX(0x725158,255)
#else
#define RED RGB3( 255,48,48 )
#define GREEN RGB3( 144,255,48 )
#define CYAN RGB3( 0,192,255 )
#define ORANGE RGB3( 255,144,48 )
#define PURPLE RGB3( 102,77,102 ) // 178,128,255 )
#define YELLOW RGB3( 255,224,0 )
#define GRAY RGB3( 32,32,32 ) // dark gray
#define SILVER RGB3( 149,149,149 ) // dark white, gray-ish
#define PINK RGB3( 255,48,144 )
#define AQUA RGB3( 48,255,144 )
#define BLUE RGBX(0x065AB5,255)
#endif
// -----------------------------------------------------------------------------
// images
/// flags when constructing the image_t type. see: image, image_from_mem
/// IMAGE_R: 1-channel image (R)
/// IMAGE_RG: 2-channel image (R,G)
/// IMAGE_RGB: 3-channel image (R,G,B)
/// IMAGE_RGBA: 4-channel image (R,G,B,A)
/// IMAGE_FLIP: Flip image vertically
/// IMAGE_FLOAT: Float pixel components
enum IMAGE_FLAGS {
IMAGE_R = 0x01000,
IMAGE_RG = 0x02000,
IMAGE_RGB = 0x04000,
IMAGE_RGBA = 0x08000,
IMAGE_FLIP = 0x10000,
IMAGE_FLOAT = 0x20000,
};
/// type that holds linear uncompressed bitmap of any given dimensions.
/// w,h: image dimensions in pixels. `x,y` alias.
/// comps: number of components per pixel. `n` alias.
/// pixels: untyped pointer to linear bitmap data. typed pointers use `pixels8/16/32/f` aliases.
/// see: texture_t
typedef struct image_t {
union { unsigned x, w; };
union { unsigned y, h; };
union { unsigned n, comps; };
union { void *pixels; uint8_t *pixels8; uint16_t *pixels16; uint32_t *pixels32; float *pixelsf; };
} image_t;
API image_t image(const char *pathfile, int flags);
API image_t image_from_mem(const void *ptr, int len, int flags);
API void image_destroy(image_t *img);
// -----------------------------------------------------------------------------
// textures
enum TEXTURE_FLAGS {
// UNIT[0..7]
TEXTURE_BC1 = 8, // DXT1, RGB with 8:1 compression ratio (+ optional 1bpp for alpha)
TEXTURE_BC2 = 16, // DXT3, RGBA with 4:1 compression ratio (BC1 for RGB + 4bpp for alpha)
TEXTURE_BC3 = 32, // DXT5, RGBA with 4:1 compression ratio (BC1 for RGB + BC4 for A)
// TEXTURE_BC4, // Alpha
TEXTURE_NEAREST = 0,
TEXTURE_LINEAR = 64,
TEXTURE_MIPMAPS = 128,
TEXTURE_CLAMP = 0,
TEXTURE_BORDER = 0x100,
TEXTURE_REPEAT = 0x200,
TEXTURE_BYTE = 0,
TEXTURE_FLOAT = IMAGE_FLOAT,
TEXTURE_COLOR = 0,
TEXTURE_DEPTH = 0x800,
TEXTURE_R = IMAGE_R,
TEXTURE_RG = IMAGE_RG,
TEXTURE_RGB = IMAGE_RGB,
TEXTURE_RGBA = IMAGE_RGBA,
TEXTURE_FLIP = IMAGE_FLIP,
// @fixme
TEXTURE_SRGB = 1 << 24,
TEXTURE_BGR = 1 << 25,
TEXTURE_ARRAY = 1 << 26,
};
typedef struct texture_t {
union { unsigned x, w; };
union { unsigned y, h; };
union { unsigned z, d; };
union { unsigned n, bpp; };
handle id, unit;
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unsigned texel_type;
unsigned flags;
char* filename;
bool transparent;
unsigned fbo; // for texture recording
} texture_t;
API texture_t texture_compressed(const char *filename, unsigned flags);
API texture_t texture_compressed_from_mem(const void *data, int len, unsigned flags);
API texture_t texture(const char* filename, int flags);
API texture_t texture_from_mem(const void* ptr, int len, int flags);
API texture_t texture_create(unsigned w, unsigned h, unsigned n, const void *pixels, int flags);
API texture_t texture_checker();
API void texture_destroy(texture_t *t);
// textureLod(filename, dir, lod);
// void texture_add_loader( int(*loader)(const char *filename, int *w, int *h, int *bpp, int reqbpp, int flags) );
API unsigned texture_update(texture_t *t, unsigned w, unsigned h, unsigned n, const void *pixels, int flags);
API bool texture_rec_begin(texture_t *t, unsigned w, unsigned h); // texture_rec
API void texture_rec_end(texture_t *t); // texture_rec
// -----------------------------------------------------------------------------
// brdf
API texture_t brdf_lut();
// -----------------------------------------------------------------------------
// pbr materials
typedef struct colormap_t {
vec4 color;
texture_t *texture;
} colormap_t;
API bool colormap( colormap_t *cm, const char *pbr_material_type, bool load_as_srgb );
typedef struct pbr_material_t {
char* name;
colormap_t diffuse;
colormap_t normals;
colormap_t specular;
colormap_t albedo;
colormap_t roughness;
colormap_t metallic;
colormap_t ao;
colormap_t ambient;
colormap_t emissive;
float specular_shininess;
} pbr_material_t;
API bool pbr_material(pbr_material_t *pbr, const char *material);
API void pbr_material_destroy(pbr_material_t *m);
// -----------------------------------------------------------------------------
// fullscreen quads
API void fullscreen_quad_rgb( texture_t texture_rgb, float gamma );
API void fullscreen_quad_rgb_flipped( texture_t texture, float gamma );
API void fullscreen_quad_ycbcr( texture_t texture_YCbCr[3], float gamma );
API void fullscreen_quad_ycbcr_flipped( texture_t texture_YCbCr[3], float gamma );
// -----------------------------------------------------------------------------
// sprites
// texture id, position(x,y,depth sort), tint color, rotation angle
API void sprite( texture_t texture, float position[3], float rotation /*0*/, uint32_t color /*~0u*/);
// texture id, rect(x,y,w,h) is [0..1] normalized, z-index, pos(xy,scale), rotation (degrees), color (rgba)
API void sprite_rect( texture_t t, vec4 rect, float zindex, vec3 pos, float tilt_deg, unsigned tint_rgba);
// texture id, sheet(frameNumber,X,Y) (frame in a X*Y spritesheet), position(x,y,depth sort), rotation angle, offset(x,y), scale(x,y), is_additive, tint color
API void sprite_sheet( texture_t texture, float sheet[3], float position[3], float rotation, float offset[2], float scale[2], int is_additive, uint32_t rgba, int resolution_independant);
API void sprite_flush();
// -----------------------------------------------------------------------------
// tilemaps
typedef struct tileset_t {
texture_t tex; // spritesheet
unsigned tile_w, tile_h; // dimensions per tile in pixels
unsigned cols, rows; // tileset num_cols, num_rows
unsigned selected; // active tile (while editing)
} tileset_t;
API tileset_t tileset(texture_t tex, unsigned tile_w, unsigned tile_h, unsigned cols, unsigned rows);
API int tileset_ui( tileset_t t );
typedef struct tilemap_t {
int blank_chr; // transparent tile
unsigned cols, rows; // map dimensions (in tiles)
array(int) map;
vec3 position; // x,y,scale
float zindex;
float tilt;
unsigned tint;
bool is_additive;
} tilemap_t;
API tilemap_t tilemap(const char *map, int blank_chr, int linefeed_chr);
API void tilemap_render( tilemap_t m, tileset_t style );
API void tilemap_render_ext( tilemap_t m, tileset_t style, float zindex, float xy_zoom[3], float tilt, unsigned tint, bool is_additive );
// -----------------------------------------------------------------------------
// tiled maps
typedef struct tiled_t {
char *map_name;
unsigned first_gid, tilew, tileh, w, h;
bool parallax;
vec3 position;
array(bool) visible;
array(tilemap_t) layers;
array(tileset_t) sets;
array(char*) names;
} tiled_t;
API tiled_t tiled(const char *file_tmx);
API void tiled_render(tiled_t tmx, vec3 pos);
API void tiled_ui(tiled_t *t);
// -----------------------------------------------------------------------------
// spines
typedef struct spine_t spine_t;
API spine_t*spine(const char *file_json, const char *file_atlas, unsigned flags);
API void spine_skin(spine_t *p, unsigned skin);
API void spine_render(spine_t *p, vec3 offset, unsigned flags);
API void spine_animate(spine_t *p, float delta);
API void spine_ui(spine_t *p);
// -----------------------------------------------------------------------------
// cubemaps
typedef struct cubemap_t {
unsigned id; // texture id
vec3 sh[9]; // precomputed spherical harmonics coefficients
} cubemap_t;
API cubemap_t cubemap( const image_t image, int flags ); // 1 equirectangular panorama
API cubemap_t cubemap6( const image_t images[6], int flags ); // 6 cubemap faces
API void cubemap_destroy(cubemap_t *c);
API cubemap_t* cubemap_get_active();
// -----------------------------------------------------------------------------
// fbos
API unsigned fbo( unsigned texture_color, unsigned texture_depth, int wr_flags );
API void fbo_bind(unsigned id);
API void fbo_unbind();
API void fbo_destroy(unsigned id);
// -----------------------------------------------------------------------------
// shadowmaps
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// #ifndef VSMCUBE
// #define VSMCUBE 0
// #endif
// #ifndef VSMBLUR
// #define VSMBLUR 1
// #endif
typedef struct shadowmap_t {
mat44 shadowmatrix;
mat44 mvp;
mat44 mv;
mat44 proj;
vec4 light_position;
int saved_fb;
int saved_viewport[4];
handle fbo, texture;
int texture_width;
} shadowmap_t;
API shadowmap_t shadowmap(int texture_width); // = 1024
API void shadowmap_destroy(shadowmap_t *s);
API void shadowmap_set_shadowmatrix(shadowmap_t *s, vec3 aLightPos, vec3 aLightAt, vec3 aLightUp, const mat44 projection);
API void shadowmap_begin(shadowmap_t *s);
API void shadowmap_end(shadowmap_t *s);
// shadowmap utils
API void shadowmatrix_proj(mat44 shm_proj, float aLightFov, float znear, float zfar);
API void shadowmatrix_ortho(mat44 shm_proj, float left, float right, float bottom, float top, float znear, float zfar);
// -----------------------------------------------------------------------------
// shaders
API unsigned shader(const char *vs, const char *fs, const char *attribs, const char *fragcolor, const char *defines);
API unsigned shader_geom(const char *gs, const char *vs, const char *fs, const char *attribs, const char *fragcolor, const char *defines);
API unsigned shader_bind(unsigned program);
API void shader_bool(const char *uniform, bool i );
API void shader_int(const char *uniform, int i);
API void shader_uint(const char *uniform, unsigned i );
API void shader_float(const char *uniform, float f);
API void shader_vec2(const char *uniform, vec2 v);
API void shader_vec3(const char *uniform, vec3 v);
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API void shader_vec3v(const char *uniform, int count, vec3 *v);
API void shader_vec4(const char *uniform, vec4 v);
API void shader_mat44(const char *uniform, mat44 m);
API void shader_texture(const char *sampler, texture_t texture);
API void shader_texture_unit(const char *sampler, unsigned texture, unsigned unit);
API void shader_colormap(const char *name, colormap_t cm);
API unsigned shader_get_active();
API void shader_destroy(unsigned shader);
// reflection. [0..N] are shader properties
API unsigned shader_properties(unsigned shader);
API char** shader_property(unsigned shader, unsigned property_no);
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API void shader_apply_param(unsigned shader, unsigned param_no);
API void shader_apply_params(unsigned shader, const char *parameter_mask);
API int ui_shader(unsigned shader);
API int ui_shaders();
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// compute shaders
enum BUFFER_MODE {
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BUFFER_READ,
BUFFER_WRITE,
BUFFER_READ_WRITE
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};
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/// Loads the compute shader and compiles a GL program.
/// return: GL program, 0 if failed.
/// cs: shader source code
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API unsigned compute(const char *cs);
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/// Runs the compute program with provided global workgroup size on x y z grid.
/// wx: global workgroup size x
/// wy: global workgroup size y
/// wz: global workgroup size z
API void compute_dispatch(unsigned wx, unsigned wy, unsigned wz);
/// Binds a texture to the program
/// !!! Set `layer` to -1 to disable layered access.
/// t: texture to bind
/// unit: texture unit bind index
/// level: texture level access (MIP0, MIP1, ...)
/// layer: bind layer
/// access: texture access policy
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/// see: BUFFER_MODE
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API void shader_image(texture_t t, unsigned unit, unsigned level, int layer, unsigned access);
/// Binds a texture to the program
/// !!! Set `layer` to -1 to disable layered access.
/// texture: GL texture handle
/// unit: texture unit bind index
/// level: texture level access (MIP0, MIP1, ...)
/// layer: bind layer
/// texel_type: image texel format (RGBA8, RGBA32F, ...)
/// access: texture access policy
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/// see: BUFFER_MODE
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API void shader_image_unit(unsigned texture, unsigned unit, unsigned level, int layer, unsigned texel_type, unsigned access);
// gpu memory barriers
/// Blocks main thread until all memory operations are done by the GPU.
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API void write_barrier();
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/// Blocks main thread until all image operations are done by the GPU.
API void write_barrier_image();
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// ssbo
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/// `STATIC`, `DYNAMIC` AND `STREAM` specify the frequency at which we intend to access the data.
/// `DRAW` favors CPU->GPU operations.
/// `READ` favors GPU->CPU operations.
/// `COPY` favors CPU->GPU->CPU operations.
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enum SSBO_USAGE {
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STATIC_DRAW,
STATIC_READ,
STATIC_COPY,
DYNAMIC_DRAW,
DYNAMIC_READ,
DYNAMIC_COPY,
STREAM_DRAW,
STREAM_READ,
STREAM_COPY
};
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enum SSBO_ACCESS {
SSBO_READ = BUFFER_READ,
SSBO_WRITE = BUFFER_WRITE,
SSBO_READ_WRITE = BUFFER_READ_WRITE
};
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/// Create Shader Storage Buffer Object
/// !!! `data` can be NULL
/// data: optional pointer to data to upload
/// len: buffer size, must not be 0
/// usage: buffer usage policy
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/// see: SSBO_USAGE
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API unsigned ssbo_create(const void *data, int len, unsigned usage);
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/// Destroys an SSBO resource
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API void ssbo_destroy(unsigned ssbo);
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/// Updates an existing SSBO
/// !!! `len` can not exceed the original buffer size specified in `ssbo_create` !
/// offset: offset to buffer memory
/// len: amount of data to write
/// data: pointer to data we aim to write, can not be NULL
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API void ssbo_update(int offset, int len, const void *data);
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/// Bind an SSBO resource to the provided bind unit index
/// ssbo: resource object
/// unit: bind unit index
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API void ssbo_bind(unsigned ssbo, unsigned unit);
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/// Map an SSBO resource to the system memory
/// !!! Make sure to `ssbo_unmap` the buffer once done working with it.
/// access: buffer access policy
/// return: pointer to physical memory of the buffer
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/// see: SSBO_ACCESS
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API void *ssbo_map(unsigned access);
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/// Unmaps an SSBO resource
/// !!! Pointer provided by `ssbo_map` becomes invalid.
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API void ssbo_unmap();
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/// Unbinds an SSBO resource
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API void ssbo_unbind();
// -----------------------------------------------------------------------------
// meshes (@fixme: deprecate?)
enum MESH_FLAGS {
MESH_STATIC = 0, // STATIC, DYNAMIC, STREAM // zero|single|many updates per frame
MESH_STREAM = 1,
MESH_TRIANGLE_STRIP = 2,
};
typedef struct mesh_t {
handle vao, vbo, ibo;
unsigned vertex_count;
unsigned index_count;
unsigned flags;
array(int) lod_collapse_map; // to which neighbor each vertex collapses. ie, [10] -> 7 (used by LODs) @leak
// @leaks: following members are totally unused. convenient for end-users to keep their custom datas somewhere while processing.
union {
array(unsigned) in_index;
array(vec3i) in_index3;
};
union {
array(unsigned) out_index;
array(vec3i) out_index3;
};
union {
array(float) in_vertex;
array(vec3) in_vertex3;
};
union {
array(float) out_vertex;
array(vec3) out_vertex3;
};
} mesh_t;
API mesh_t mesh();
API void mesh_update(mesh_t *m, const char *format, int vertex_stride,int vertex_count,const void *interleaved_vertex_data, int index_count,const void *index_data, int flags);
API void mesh_render(mesh_t *m);
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API void mesh_render_prim(mesh_t *sm, unsigned prim);
API void mesh_destroy(mesh_t *m);
API aabb mesh_bounds(mesh_t *m);
// -----------------------------------------------------------------------------
// materials
enum MATERIAL_ENUMS {
MAX_CHANNELS_PER_MATERIAL = 8
};
typedef struct material_t {
char *name;
int count;
struct material_layer_t {
char texname[32];
handle texture;
float value;
vec4 color; // uint32_t
} layer[MAX_CHANNELS_PER_MATERIAL];
} material_t;
// -----------------------------------------------------------------------------
// shadertoys
enum {
SHADERTOY_FLIP_Y = 2,
SHADERTOY_IGNORE_FBO = 4,
SHADERTOY_IGNORE_MOUSE = 8,
};
typedef struct shadertoy_t {
handle vao, program;
int uniforms[32];
int texture_channels[4];
int frame;
float clickx, clicky;
uint64_t t;
texture_t tx;
vec2i dims;
int flags;
} shadertoy_t;
API shadertoy_t shadertoy( const char *shaderfile, unsigned flags );
API shadertoy_t* shadertoy_render( shadertoy_t *s, float delta );
// -----------------------------------------------------------------------------
// anims
enum ANIM_FLAGS {
ANIM_LOOP = 1,
ANIM_DONT_RESET_AFTER_USE = 2,
};
typedef struct anim_t {
int from;
int to;
float blendtime;
unsigned flags;
float curframe;
unsigned easing;
float alpha; // refreshed at every tick
float timer; // private
bool active;
vec3 pose; // private
char* name; // debug
} anim_t;
API anim_t clip(float minframe, float maxframe, float blendtime, unsigned flags);
API anim_t loop(float minframe, float maxframe, float blendtime, unsigned flags);
//API array(anim_t) animlist(const char *filename); // @todo
// -----------------------------------------------------------------------------
// models
enum MODEL_FLAGS {
MODEL_NO_ANIMATIONS = 1,
MODEL_NO_MESHES = 2,
MODEL_NO_TEXTURES = 4,
MODEL_MATCAPS = 8,
MODEL_RIMLIGHT = 16
};
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//@todo: make this data-driven
// enum SHADING_MODE {
// SHADING_NONE,
// SHADING_PHONG,
// SHADING_CARTOON,
// // SHADING_PBR,
// };
typedef struct model_t {
struct iqm_t *iqm; // private
unsigned num_textures;
handle *textures;
char **texture_names;
array(material_t) materials;
unsigned num_meshes;
unsigned num_triangles;
unsigned num_joints; // num_poses;
unsigned num_anims;
unsigned num_frames;
handle program;
float curframe;
mat44 pivot;
int stride; // usually 60 bytes (12*4+4*3) for a p3 u2 n3 t4 i4B w4B c4B vertex stream
void *verts;
int num_verts;
handle vao, ibo, vbo, vao_instanced;
unsigned flags;
unsigned billboard;
float *instanced_matrices;
unsigned num_instances;
} model_t;
API model_t model(const char *filename, int flags);
API model_t model_from_mem(const void *mem, int sz, int flags);
API float model_animate(model_t, float curframe);
API float model_animate_clip(model_t, float curframe, int minframe, int maxframe, bool loop);
API float model_animate_blends(model_t m, anim_t *primary, anim_t *secondary, float delta);
API aabb model_aabb(model_t, mat44 transform);
API void model_render(model_t, mat44 proj, mat44 view, mat44 model, int shader);
API void model_render_skeleton(model_t, mat44 model);
API void model_render_instanced(model_t, mat44 proj, mat44 view, mat44 *models, int shader, unsigned count);
API void model_set_texture(model_t, texture_t t);
API bool model_get_bone_pose(model_t m, unsigned joint, mat34 *out);
API void model_destroy(model_t);
API vec3 pose(bool forward, float curframe, int minframe, int maxframe, bool loop, float *opt_retframe);
// -----------------------------------------------------------------------------
// model animations
typedef struct anims_t {
int inuse; // animation number in use
float speed; // x1.00
array(anim_t) anims; // [begin,end,flags] frames of every animation in set
} anims_t;
API anims_t animations(const char *pathfile, int flags);
// -----------------------------------------------------------------------------
// skyboxes
typedef struct skybox_t {
handle program;
mesh_t geometry;
cubemap_t cubemap;
int flags;
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// mie
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int framebuffers[6];
int textures[6];
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float *pixels;
} skybox_t;
API skybox_t skybox(const char *panorama_or_cubemap_folder, int flags);
API int skybox_render(skybox_t *sky, mat44 proj, mat44 view);
API void skybox_destroy(skybox_t *sky);
API void skybox_mie_calc_sh(skybox_t *sky, float sky_intensity);
API void skybox_sh_reset(skybox_t *sky);
API void skybox_sh_add_light(skybox_t *sky, vec3 light, vec3 dir, float strength);
API int skybox_push_state(skybox_t *sky, mat44 proj, mat44 view); // @to deprecate
API int skybox_pop_state(); // @to deprecate
// -----------------------------------------------------------------------------
// post-fxs
API void viewport_clear(bool color, bool depth);
API void viewport_clip(vec2 from, vec2 to);
API int fx_load(const char *file);
API int fx_load_from_mem(const char *nameid, const char *content);
API void fx_begin();
API void fx_begin_res(int w, int h);
API void fx_end();
API void fx_enable(int pass, int enabled);
API int fx_enabled(int pass);
API void fx_enable_all(int enabled);
API char * fx_name(int pass);
API int fx_find(const char *name);
API int ui_fx(int pass);
API int ui_fxs();
// -----------------------------------------------------------------------------
// utils
API void* screenshot(int components); // 3 RGB, 4 RGBA, -3 BGR, -4 BGRA
API void* screenshot_async(int components); // 3 RGB, 4 RGBA, -3 BGR, -4 BGRA
#line 0
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#line 1 "v4k_renderdd.h"
// -----------------------------------------------------------------------------
// debugdraw framework
// - rlyeh, public domain.
//
// Credits: Based on work by @glampert https://github.com/glampert/debug-draw (PD)
// [x] grid, axis, frustum, cube, sphere, triangle, square, pentagon, hexagon, circle, normal.
// [x] arrow, point, text, capsule, aabb, plane, flotilla-style locator, boid, bone, ring
// [x] line batching
// [*] line width and stipple
// [*] (proper) gizmo,
// [ ] camera, light bulb, light probe,
API void ddraw_color(unsigned rgb);
API void ddraw_color_push(unsigned rgb);
API void ddraw_color_pop();
//
API void ddraw_ontop(int enabled);
API void ddraw_ontop_push(int enabled);
API void ddraw_ontop_pop();
//
API void ddraw_push_2d();
API void ddraw_pop_2d();
//
API void ddraw_aabb(vec3 minbb, vec3 maxbb);
API void ddraw_aabb_corners(vec3 minbb, vec3 maxbb);
API void ddraw_arrow(vec3 begin, vec3 end);
API void ddraw_axis(float units);
API void ddraw_boid(vec3 pos, vec3 dir);
API void ddraw_bone(vec3 center, vec3 end); // @todo: use me
API void ddraw_bounds(const vec3 points[8]);
API void ddraw_box(vec3 center, vec3 extents);
API void ddraw_capsule(vec3 from, vec3 to, float radius);
API void ddraw_circle(vec3 pos, vec3 n, float radius);
API void ddraw_ring(vec3 pos, vec3 n, float radius);
API void ddraw_cone(vec3 center, vec3 top, float radius);
API void ddraw_cube(vec3 center, float radius);
API void ddraw_cube33(vec3 center, vec3 radius, mat33 M);
API void ddraw_diamond(vec3 from, vec3 to, float size);
API void ddraw_frustum(float projview[16]);
API void ddraw_ground(float scale);
API void ddraw_grid(float scale);
API void ddraw_hexagon(vec3 pos, float radius);
API void ddraw_line(vec3 from, vec3 to);
API void ddraw_line_dashed(vec3 from, vec3 to);
API void ddraw_line_thin(vec3 from, vec3 to);
API void ddraw_normal(vec3 pos, vec3 n);
API void ddraw_pentagon(vec3 pos, float radius);
API void ddraw_plane(vec3 p, vec3 n, float scale);
API void ddraw_point(vec3 from);
API void ddraw_position(vec3 pos, float radius);
API void ddraw_position_dir(vec3 pos, vec3 dir, float radius);
API void ddraw_pyramid(vec3 center, float height, int segments);
API void ddraw_cylinder(vec3 center, float height, int segments);
API void ddraw_sphere(vec3 pos, float radius);
API void ddraw_square(vec3 pos, float radius);
API void ddraw_text(vec3 pos, float scale, const char *text);
API void ddraw_text2d(vec2 pos, const char *text);
API void ddraw_triangle(vec3 p1, vec3 p2, vec3 p3);
//
API void ddraw_prism(vec3 center, float radius, float height, vec3 normal, int segments);
//
API void ddraw_demo();
API void ddraw_flush();
API void ddraw_flush_projview(mat44 proj, mat44 view);
#line 0
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#line 1 "v4k_scene.h"
// -----------------------------------------------------------------------------
// scene framework
// - rlyeh, public domain
// camera
typedef struct camera_t {
mat44 view, proj;
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vec3 position, updir, lookdir;
float yaw, pitch; // mirror of (x,y) lookdir in deg;
float speed, fov; // fov in deg(45)
float move_friction, move_damping;
float look_friction, look_damping;
vec2 last_look; vec3 last_move; // used for friction and damping
bool damping;
} camera_t;
API camera_t camera();
API void camera_teleport(camera_t *cam, vec3 pos);
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API void camera_moveby(camera_t *cam, vec3 inc);
API void camera_fov(camera_t *cam, float fov);
API void camera_fps(camera_t *cam, float yaw, float pitch);
API void camera_orbit(camera_t *cam, float yaw, float pitch, float inc_distance);
API void camera_lookat(camera_t *cam, vec3 target);
API void camera_enable(camera_t *cam);
API camera_t *camera_get_active();
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API int ui_camera(camera_t *cam);
API void ddraw_camera(camera_t *cam);
// object
typedef struct object_t {
uint64_t renderbucket;
mat44 transform;
quat rot;
vec3 sca, pos, euler, pivot;
array(handle) textures;
model_t model;
aabb bounds;
unsigned billboard; // [0..7] x(4),y(2),z(1) masks
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bool light_cached; //< used by scene to update light data
} object_t;
API object_t object();
API void object_rotate(object_t *obj, vec3 euler);
API void object_pivot(object_t *obj, vec3 euler);
API void object_teleport(object_t *obj, vec3 pos);
API void object_move(object_t *obj, vec3 inc);
API vec3 object_position(object_t *obj);
API void object_scale(object_t *obj, vec3 sca);
//
API void object_model(object_t *obj, model_t model);
API void object_diffuse(object_t *obj, texture_t tex);
API void object_diffuse_push(object_t *obj, texture_t tex);
API void object_diffuse_pop(object_t *obj);
API void object_billboard(object_t *obj, unsigned mode);
// object_pose(transform); // @todo
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// light
enum LIGHT_TYPE {
LIGHT_DIRECTIONAL,
LIGHT_POINT,
LIGHT_SPOT,
};
enum LIGHT_FLAGS {
LIGHT_CAST_SHADOWS = 1,
};
typedef struct light_t {
char type;
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vec3 diffuse, specular, ambient;
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vec3 pos, dir;
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struct {
float constant, linear, quadratic;
} falloff;
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float specularPower;
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float innerCone, outerCone;
//@todo: cookie, flare
// internals
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bool cached; //< used by scene to invalidate cached light data
} light_t;
API light_t light();
// API void light_flags(int flags);
API void light_type(light_t* l, char type);
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API void light_diffuse(light_t* l, vec3 color);
API void light_specular(light_t* l, vec3 color);
API void light_ambient(light_t* l, vec3 color);
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API void light_teleport(light_t* l, vec3 pos);
API void light_dir(light_t* l, vec3 dir);
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API void light_power(light_t* l, float power);
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API void light_falloff(light_t* l, float constant, float linear, float quadratic);
API void light_cone(light_t* l, float innerCone, float outerCone);
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API void light_update(unsigned num_lights, light_t *lv);
// scene
enum SCENE_FLAGS {
SCENE_WIREFRAME = 1,
SCENE_CULLFACE = 2,
SCENE_BACKGROUND = 4,
SCENE_FOREGROUND = 8,
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SCENE_UPDATE_SH_COEF = 16,
};
typedef struct scene_t {
array(object_t) objs;
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array(light_t) lights;
// special objects below:
skybox_t skybox;
int u_coefficients_sh;
} scene_t;
API scene_t* scene_push();
API void scene_pop();
API scene_t* scene_get_active();
API int scene_merge(const char *source);
API void scene_render(int flags);
API object_t* scene_spawn();
API unsigned scene_count();
API object_t* scene_index(unsigned index);
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API light_t* scene_spawn_light();
API unsigned scene_count_light();
API light_t* scene_index_light(unsigned index);
#line 0
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#line 1 "v4k_script.h"
// -----------------------------------------------------------------------------
// script framework
// - rlyeh, public domain
API void script_init();
API void script_run(const char *script);
API void script_runfile(const char *pathfile);
API void script_bind_class(const char *objname, int num_methods, const char **c_names, void **c_functions);
API void script_bind_function(const char *c_name, void *c_function);
API void script_call(const char *lua_function);
API bool script_tests();
#line 0
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#line 1 "v4k_string.h"
// string framework
// - rlyeh, public domain
// string: temporary api (stack)
API char* tempvl(const char *fmt, va_list);
API char* tempva(const char *fmt, ...);
#define va(...) (((&printf) || printf(__VA_ARGS__), tempva(__VA_ARGS__))) // vs2015 check trick
// string: allocated api (heap). FREE() after use
API char* strcatf(char **s, const char *buf);
#define strcatf(s,fmt,...) strcatf((s), va(fmt, __VA_ARGS__))
#define stringf(fmt,...) STRDUP(va(fmt, __VA_ARGS__)) // (strcatf)(0, va(fmt, __VA_ARGS__))
#if is(cl) || (is(tcc) && is(win32))
#if!is(cl)
char* strtok_s(char* str,const char* delimiters,char** context); // tcc misses this in <string.h>
#endif
#define strtok_r strtok_s
#endif
#if 1
#define each_substring(str, delims, keyname) \
( int len_ = strlen(str) + 1; len_; len_ = 0 ) \
for( char buf_[1024], *ptr_ = len_ < 1024 ? buf_ : REALLOC(0, len_), *lit_ = (char*)(str), *_bak = (snprintf(ptr_, len_, "%s", lit_), ptr_); _bak; _bak = 0, (ptr_ == buf_ ? 0 : REALLOC(ptr_, 0)) ) \
for( char *next_token = 0, *keyname = strtok_r(_bak, delims, &next_token); keyname; keyname = strtok_r(NULL, delims, &next_token) )
#else
#define each_substring(str, delims, keyname) \
( char** tokens_ = strsplit((str), (delims)), *keyname = 0; tokens_; tokens_ = 0) \
for( int i_ = 0, end_ = array_count(tokens_); i_ < (keyname = tokens_[i_], end_); ++i_ )
#endif
// utils
API int strmatch(const char *s, const char *wildcard);
API int strmatchi(const char *s, const char *wildcard);
API int strcmp_qsort(const void *a, const void *b);
API int strcmpi_qsort(const void *a, const void *b);
API bool strbeg(const char *src, const char *sub); // returns true if both strings match at beginning. case sensitive
API bool strend(const char *src, const char *sub); // returns true if both strings match at end. case sensitive
API bool strbegi(const char *src, const char *sub); // returns true if both strings match at beginning. case insensitive
API bool strendi(const char *src, const char *sub); // returns true if both strings match at end. case insensitive
API const char * strstri(const char *src, const char *sub); // returns find first substring in string. case insensitive.
#define strcmpi ifdef(cl, _stricmp, strcasecmp)
API char * strupper(const char *str);
API char * strlower(const char *str);
API char * strrepl(char **copy, const char *target, const char *replace); // replace any 'target' as 'repl' in 'copy'. 'copy' may change (heap). returns 'copy'
API char * strswap(char *copy, const char *target, const char *replace); // replaced inline only if repl is shorter than target. no allocations.
API char * strcut(char *copy, const char *target); // remove any 'target' in 'copy'. returns 'copy'
API const char * strlerp(unsigned numpairs, const char **pairs, const char *str); // using key-value pairs, null-terminated
#ifndef __APPLE__ // BSD provides these
API size_t strlcat(char *dst, const char *src, size_t dstcap); // concat 2 strings safely. always NUL terminates. may truncate.
API size_t strlcpy(char *dst, const char *src, size_t dstcap); // copy 2 strings safely. always NUL terminates. truncates if retval>=dstcap
#endif
/// split `string` after any of `delimiters` character is found.
/// returns temporary array of split strings. see: strjoin
/// > array(char*) tokens = strsplit("hello! world!", " !"); // [0]="hello",[1]="world",
API array(char*) strsplit(const char *string, const char *delimiters);
/// concatenate all elements within `list`, with `separator` string in between.
/// returns: temporary joint string. see: strsplit
/// > array(char*) tokens = strsplit("hello! world!", " !"); // [0]="hello",[1]="world",
/// > char *joint = strjoin(tokens, "+"); // joint="hello+world"
API char* strjoin(array(char*) list, const char *separator);
API char * string8(const wchar_t *str); /// convert from wchar16(win) to utf8/ascii
API array(uint32_t) string32( const char *utf8 ); /// convert from utf8 to utf32
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// -----------------------------------------------------------------------------
// ## string interning (quarks)
// - rlyeh, public domain.
unsigned intern( const char *string );
const char *quark( unsigned key );
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typedef struct quarks_db {
array(char) blob;
array(vec2i) entries;
} quarks_db;
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unsigned quark_intern( quarks_db*, const char *string );
const char *quark_string( quarks_db*, unsigned key );
#line 0
#line 1 "v4k_time.h"
// -----------------------------------------------------------------------------
// time framework utils
// - rlyeh, public domain.
API uint64_t date(); // YYYYMMDDhhmmss
API uint64_t date_epoch(); // linux epoch
API char* date_string(); // "YYYY-MM-DD hh:mm:ss"
API double time_hh();
API double time_mm();
API double time_ss();
API uint64_t time_ms();
API uint64_t time_us();
API uint64_t time_ns();
API void sleep_ss(double ss);
API void sleep_ms(double ms);
API void sleep_us(double us);
API void sleep_ns(double us);
API unsigned timer(unsigned ms, unsigned (*callback)(unsigned ms, void *arg), void *arg);
API void timer_destroy(unsigned timer_handle);
// time sortable unique identifier (similar to ksuid/tuid; others: sno/xid/cuid/ulid)
// - rlyeh, public domain.
//
// also similar to a mongo object id, 12 bytes as follows:
// - 4-byte timestamp (ss). epoch: Tuesday, 12 September 2023 6:06:56
// - 2-byte (machine or app hash)
// - 2-byte (thread-id)
// - 4-byte (rand counter, that gets increased at every id creation)
typedef vec3i guid;
API guid guid_create();
/*
AUTORUN {
guid g1 = guid_create();
guid g2 = guid_create();
print3i(g1);
hexdump(&g1, sizeof(g1));
print3i(g2);
hexdump(&g2, sizeof(g2));
}
*/
#line 0
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#line 1 "v4k_system.h"
// -----------------------------------------------------------------------------
// system framework utils
// - rlyeh, public domain.
//
// Note: Windows users add `/Zi` compilation flags, else add `-g` and/or `-ldl` flags
// Note: If you are linking your binary using GNU ld you need to add --export-dynamic
API void* thread( int (*thread_func)(void* user_data), void* user_data );
API void thread_destroy( void *thd );
API int argc();
API char* argv(int);
API int flag(const char *commalist); // --arg // app_flag?
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API const char* option(const char *commalist, const char *defaults); // --arg=string or --arg string
API int optioni(const char *commalist, int defaults); // --arg=integer or --arg integer // argvi() ?
API float optionf(const char *commalist, float defaults); // --arg=float or --arg float // flagf() ?
API void tty_attach();
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API void tty_detach();
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API void tty_color(unsigned color);
API void tty_reset();
API const char* app_exec(const char *command); // returns ("%15d %s", retcode, output_last_line)
API int app_spawn(const char *command);
API int app_cores();
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API int app_battery(); /// returns battery level [1..100]. also positive if charging (+), negative if discharging (-), and 0 if no battery is present.
API const char* app_name();
API const char* app_path();
API const char* app_cache();
API const char* app_temp();
API const char* app_cmdline();
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API void app_beep();
API void app_hang();
API void app_crash();
API void app_singleton(const char *guid);
API bool app_open(const char *folder_file_or_url);
API char* callstack( int traces ); // write callstack into a temporary string. <0 traces to invert order. do not free().
API int callstackf( FILE *fp, int traces ); // write callstack to file. <0 traces to invert order.
API void die(const char *message);
API void alert(const char *message);
API void hexdump( const void *ptr, unsigned len );
API void hexdumpf( FILE *fp, const void *ptr, unsigned len, int width );
API void breakpoint(const char *optional_reason);
API bool has_debugger();
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API void trap_install(void);
API const char *trap_name(int signal); // helper util
API void trap_on_ignore(int signal); // helper util
API void trap_on_quit(int signal); // helper util
API void trap_on_abort(int signal); // helper util
API void trap_on_debug(int signal); // helper util
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#define hton16 big16
#define ntoh16 big16
#define hton32 big32
#define ntoh32 big32
#define hton64 big64
#define ntoh64 big64
#define PANIC(...) PANIC(va(__VA_ARGS__), __FILE__, __LINE__) // die() ?
API int (PANIC)(const char *error, const char *file, int line);
#define PRINTF(...) PRINTF(va(__VA_ARGS__), 1[#__VA_ARGS__] == '!' ? callstack(+48) : "", __FILE__, __LINE__, __FUNCTION__)
API int (PRINTF)(const char *text, const char *stack, const char *file, int line, const char *function);
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#define test(expr) test(__FILE__,__LINE__,#expr,!!(expr))
API int (test)(const char *file, int line, const char *expr, bool result);
// AUTORUN { test(1<2); }
#line 0
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#line 1 "v4k_ui.h"
// -----------------------------------------------------------------------------
// immediate ui framework
// - rlyeh, public domain
//
// @todo: logger/console
// @todo: surround-adaptive window resizing. ie, surrounding windows adapting theirselves to fit dragged active window
enum PANEL_FLAGS {
PANEL_OPEN = 1,
};
API int ui_notify(const char *title, const char *body);
API int ui_window(const char *title, int *enabled);
API int ui_panel(const char *title, int flags); // may be embedded inside a window, or standalone
API int ui_collapse(const char *label, const char *id);
API int ui_contextual();
API int ui_section(const char *title);
API int ui_int(const char *label, int *value);
API int ui_bool(const char *label, bool *value);
API int ui_short(const char *label, short *value);
API int ui_float(const char *label, float *value);
API int ui_float2(const char *label, float value[2]);
API int ui_float3(const char *label, float value[3]);
API int ui_float4(const char *label, float value[4]);
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API int ui_mat33(const char *label, float mat33[9]);
API int ui_mat34(const char *label, float mat34[12]);
API int ui_mat44(const char *label, float mat44[16]);
API int ui_double(const char *label, double *value);
API int ui_buffer(const char *label, char *buffer, int buflen);
API int ui_string(const char *label, char **string);
API int ui_color3(const char *label, float *color3); //[0..255]
API int ui_color3f(const char *label, float *color3); //[0..1]
API int ui_color4(const char *label, float *color4); //[0..255]
API int ui_color4f(const char *label, float *color4); //[0..1]
API int ui_unsigned(const char *label, unsigned *value);
API int ui_button(const char *label);
API int ui_button_transparent(const char *label);
API int ui_buttons(int buttons, /*labels*/...);
API int ui_toolbar(const char *options); // int choice = ui_toolbar("A;B;C;D");
API int ui_submenu(const char *options); // int choice = ui_submenu("A;B;C;D");
API int ui_browse(const char **outfile, bool *inlined); // may be embedded inside a window or inside a panel
API int ui_toggle(const char *label, bool *value);
API int ui_dialog(const char *title, const char *text, int choices, bool *show); // @fixme: return
API int ui_list(const char *label, const char **items, int num_items, int *selector);
API int ui_radio(const char *label, const char **items, int num_items, int *selector);
API int ui_texture(const char *label, texture_t t);
API int ui_subtexture(const char *label, texture_t t, unsigned x, unsigned y, unsigned w, unsigned h);
API int ui_image(const char *label, handle id, unsigned w, unsigned h); //(w,h) can be 0
API int ui_subimage(const char *label, handle id, unsigned iw, unsigned ih, unsigned sx, unsigned sy, unsigned sw, unsigned sh);
API int ui_colormap(const char *label, colormap_t *cm); // returns num member changed: 1 for color, 2 for texture map
API int ui_separator();
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API int ui_bitmask8(const char *label, uint8_t *bits);
API int ui_bitmask16(const char *label, uint16_t *bits);
API int ui_console();
API int ui_clampf(const char *label, float *value, float minf, float maxf);
API int ui_label(const char *label);
API int ui_label2(const char *label, const char *caption);
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API int ui_label2_bool(const char *label, bool enabled);
API int ui_label2_float(const char *label, float value);
API int ui_label2_toolbar(const char *label, const char *icons);
API int ui_slider(const char *label, float *value);
API int ui_slider2(const char *label, float *value, const char *caption);
API int ui_contextual_end();
API int ui_collapse_clicked();
API int ui_collapse_end();
API int ui_panel_end();
API int ui_window_end();
API int ui_show(const char *panel_or_window_title, int enabled);
API int ui_dims(const char *panel_or_window_title, float width, float height);
API int ui_visible(const char *panel_or_window_title); // @todo: include ui_collapse() items that are open as well?
API vec2 ui_get_dims();
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API int ui_enable();
API int ui_enabled();
API int ui_disable();
API int ui_has_menubar();
API int ui_menu(const char *items); // semicolon-separated or comma-separated items
API int ui_menu_editbox(char *buf, int bufcap);
API int ui_item();
API int ui_popups(); // ui_any_popup()? ui_has_popups()?
API int ui_hover(); // ui_is_hover()?
API int ui_active(); // ui_is_active()?
API int ui_demo(int do_windows);
#line 0
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#line 1 "v4k_video.h"
// -----------------------------------------------------------------------------
// video decoder (mpeg)
// - rlyeh, public domain
//
// [ref] https://github.com/phoboslab/pl_mpeg/blob/master/pl_mpeg_player.c
// [use] ffmpeg -i infile.mp4 -c:v mpeg1video -c:a mp2 -format mpeg outfile.mpg
enum VIDEO_FLAGS {
VIDEO_YCBCR = 0,
VIDEO_RGB = 2,
VIDEO_AUDIO = 0,
VIDEO_NO_AUDIO = 4,
VIDEO_LOOP = 8,
};
typedef struct video_t video_t;
API video_t* video( const char *filename, int flags );
API texture_t* video_decode( video_t *v ); // decodes next frame, returns associated texture(s)
API texture_t* video_textures( video_t *v ); // returns last video textures. does not perform any decoding.
API int video_has_finished(video_t *v);
API double video_duration(video_t *v);
API int video_seek(video_t *v, double seek_to);
API double video_position(video_t *v);
API void video_pause(video_t *v, bool paused);
API bool video_is_paused(video_t *v);
API bool video_is_rgb(video_t *v);
API void video_destroy( video_t *v );
// -----------------------------------------------------------------------------
// video recorder (uses external ffmpeg and fallbacks to built-in mpeg1 encoder)
// - rlyeh, public domain
//
// @fixme: MSAA can cause some artifacts with Intel PBOs: either use glDisable(GL_MULTISAMPLE) before recording or do not create window with WINDOW_MSAA at all.
API bool record_start(const char *outfile_mp4);
API bool record_active();
API void record_stop(void);
#line 0
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#line 1 "v4k_window.h"
// -----------------------------------------------------------------------------
// window framework
// - rlyeh, public domain
//
// @todo: window_cursor(ico);
// @todo: if WINDOW_PORTRAIT && exist portrait monitor, use that instead of primary one
// @todo: WINDOW_TRAY
enum WINDOW_FLAGS {
WINDOW_MSAA2 = 0x02,
WINDOW_MSAA4 = 0x04,
WINDOW_MSAA8 = 0x08,
WINDOW_SQUARE = 0x20,
WINDOW_PORTRAIT = 0x40,
WINDOW_LANDSCAPE = 0x80,
WINDOW_ASPECT = 0x100, // keep aspect
WINDOW_FIXED = 0x200, // disable resizing
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WINDOW_TRANSPARENT = 0x400,
WINDOW_VSYNC = 0,
WINDOW_VSYNC_ADAPTIVE = 0x1000,
WINDOW_VSYNC_DISABLED = 0x2000,
};
API bool window_create(float scale, unsigned flags);
API bool window_create_from_handle(void *handle, float scale, unsigned flags);
API void window_reload();
API int window_frame_begin();
API void window_frame_end();
API void window_frame_swap();
API int window_swap(); // single function that combines above functions (desktop only)
API void window_loop(void (*function)(void* loopArg), void* loopArg ); // run main loop function continuously (emscripten only)
API void window_loop_exit(); // exit from main loop function (emscripten only)
API void window_title(const char *title);
API void window_icon(const char *file_icon);
API void window_color(unsigned color);
API vec2 window_canvas();
API void* window_handle();
API char* window_stats();
API uint64_t window_frame();
API int window_width();
API int window_height();
API double window_time();
API double window_delta();
// API bool window_hook(void (*func)(), void* userdata); // deprecated
// API void window_unhook(void (*func)()); // deprecated
API void window_focus(); // window attribute api using haz catz language for now
API int window_has_focus();
API void window_fullscreen(int enabled);
API int window_has_fullscreen();
API void window_cursor(int visible);
API int window_has_cursor();
API void window_pause(int paused);
API int window_has_pause();
API void window_visible(int visible);
API int window_has_visible();
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API void window_maximize(int enabled);
API int window_has_maximize();
API void window_transparent(int enabled);
API int window_has_transparent();
API double window_aspect();
API void window_aspect_lock(unsigned numer, unsigned denom);
API void window_aspect_unlock();
API double window_fps();
API double window_fps_target();
API void window_fps_lock(float fps);
API void window_fps_unlock();
API void window_screenshot(const char* outfile_png); // , bool record_cursor
API int window_record(const char *outfile_mp4); // , bool record_cursor
enum CURSOR_SHAPES {
CURSOR_NONE,
CURSOR_HW_ARROW, // default
CURSOR_HW_IBEAM, // i-beam text cursor
CURSOR_HW_CROSS, // crosshair
CURSOR_HW_HAND, // hand, clickable
CURSOR_HW_HDRAG, // horizontal drag/resize
CURSOR_HW_VDRAG, // vertical drag/resize
CURSOR_SW_AUTO, // software cursor, ui driven. note: this is the only icon that may be recorded or snapshotted
};
API void window_cursor_shape(unsigned shape);
#line 0
// ----
#if is(cpp)
} // extern "C"
#endif
// expose glfw/glad apis
#if is(ems)
#include <GL/glew.h>
#include <GLFW/glfw3.h>
#include <emscripten.h>
#include <emscripten/html5.h>
#define gladLoadGL(func) (glewExperimental = true, glewInit() == GLEW_OK)
#else
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#if is(win32) /*&& is(tcc)*/ // && WITH_DLL
#ifdef GLAD_API_CALL
#undef GLAD_API_CALL
#endif
#define GLAD_API_CALL extern API
#endif
#ifndef GLAD_GL_H_
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#include "v4k"
#endif
#endif
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#endif // V4K_H