--autogenerated luajit bindings. do not edit. local ffi = require("ffi") ffi.cdef([[ typedef struct FILE FILE; typedef long int ptrdiff_t; typedef long unsigned int size_t; int less_64(uint64_t a, uint64_t b); int less_int(int a, int b); int less_ptr(void *a, void *b); int less_str(char *a, char *b); int less_64_ptr(const void *a, const void *b); int less_int_ptr(const void *a, const void *b); uint32_t unhash_32(uint32_t x); uint32_t hash_32(uint32_t x); uint64_t hash_64(uint64_t x); uint64_t hash_flt(double x); uint64_t hash_int(int key); uint64_t hash_ptr(const void* ptr); uint64_t hash_bin(const void* ptr, unsigned len); uint64_t hash_str(const char* str); uint64_t popcnt64(uint64_t x); void* vrealloc( void* p, size_t sz ); size_t vlen( void* p ); unsigned array_c_; unsigned array_n_; typedef struct set_item { struct set_item *next; uint64_t keyhash; void *key; void *super; } set_item; typedef struct set { set_item** array; int (*cmp)(void *, void *); uint64_t (*hash)(void *); int count; } set; void (set_init)(set *m); void (set_free)(set *m); void (set_insert)(set *m, set_item *p, void *key, uint64_t keyhash, void *super); void (set_erase)(set *m, void *key, uint64_t keyhash); void* (set_find)(const set *m, void *key, uint64_t keyhash); int (set_isempty)(const set *m); int (set_count)(const set *m); void (set_gc)(set *m); void (set_clear)(set* m); typedef struct pair { struct pair *next; uint64_t keyhash; void *key; void *value; void *super; } pair; typedef struct map { pair** array; int (*cmp)(void *, void *); uint64_t (*hash)(void *); int count:31; int is_sorted:1; pair** sorted; } map; void (map_init)(map *m); void (map_free)(map *m); void (map_insert)(map *m, pair *p, void *key, void *value, uint64_t keyhash, void *super); void (map_erase)(map *m, void *key, uint64_t keyhash); void* (map_find)(map *m, void *key, uint64_t keyhash); int (map_isempty)(map *m); int (map_count)(map *m); void (map_gc)(map *m); bool (map_sort)(map* m); void (map_clear)(map* m); 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]; void randset(uint64_t state); uint64_t rand64(void); double randf(void); int randi(int mini, int maxi); float simplex1( float x ); float simplex2( vec2 xy ); float simplex3( vec3 xyz ); float simplex4( vec4 xyzw ); float deg (float radians); float rad (float degrees); int mini (int a, int b); int maxi (int a, int b); int absi (int a ); int clampi (int v,int a,int b); float minf (float a, float b); float maxf (float a, float b); float absf (float a ); float pmodf (float a, float b); float signf (float a) ; float clampf (float v,float a,float b); float mixf (float a,float b,float t); float fractf (float a); vec2 ptr2 (const float *a ); vec2 neg2 (vec2 a ); vec2 add2 (vec2 a, vec2 b); vec2 sub2 (vec2 a, vec2 b); vec2 mul2 (vec2 a, vec2 b); vec2 div2 (vec2 a, vec2 b); vec2 inc2 (vec2 a, float b); vec2 dec2 (vec2 a, float b); vec2 scale2 (vec2 a, float b); vec2 pmod2 (vec2 a, float b); vec2 min2 (vec2 a, vec2 b); vec2 max2 (vec2 a, vec2 b); vec2 abs2 (vec2 a ); vec2 floor2 (vec2 a ); vec2 fract2 (vec2 a ); vec2 ceil2 (vec2 a ); float dot2 (vec2 a, vec2 b); vec2 refl2 (vec2 a, vec2 b); float cross2 (vec2 a, vec2 b); float len2sq (vec2 a ); float len2 (vec2 a ); vec2 norm2 (vec2 a ); int finite2 (vec2 a ); vec2 mix2 (vec2 a,vec2 b,float t); vec2 clamp2(vec2 v,vec2 a,vec2 b); vec2 clamp2f(vec2 v,float a,float b); vec3 rnd3 (void); vec3 ptr3 (const float *a ); vec3 vec23 (vec2 a, float z ); vec3 neg3 (vec3 a ); vec3 add3 (vec3 a, vec3 b); vec3 sub3 (vec3 a, vec3 b); vec3 mul3 (vec3 a, vec3 b); vec3 div3 (vec3 a, vec3 b); vec3 inc3 (vec3 a, float b); vec3 dec3 (vec3 a, float b); vec3 scale3 (vec3 a, float b); vec3 pmod3 (vec3 a, float b); vec3 min3 (vec3 a, vec3 b); vec3 max3 (vec3 a, vec3 b); vec3 abs3 (vec3 a ); vec3 floor3 (vec3 a ); vec3 fract3 (vec3 a ); vec3 ceil3 (vec3 a ); vec3 cross3 (vec3 a, vec3 b); float dot3 (vec3 a, vec3 b); vec3 refl3 (vec3 a, vec3 b); float len3sq (vec3 a ); float len3 (vec3 a ); vec3 norm3 (vec3 a ); vec3 norm3sq (vec3 a ); int finite3 (vec3 a ); vec3 mix3 (vec3 a,vec3 b,float t); vec3 clamp3(vec3 v,vec3 a,vec3 b); vec3 clamp3f(vec3 v,float a,float b); void ortho3 (vec3 *left, vec3 *up, vec3 v); vec3 rotatex3 (vec3 dir, float degrees); vec3 rotatey3 (vec3 dir, float degrees); vec3 rotatez3 (vec3 dir, float degrees); vec4 ptr4 (const float *a ); vec4 vec34 (vec3 a, float w ); vec4 neg4 (vec4 a ); vec4 add4 (vec4 a, vec4 b); vec4 sub4 (vec4 a, vec4 b); vec4 mul4 (vec4 a, vec4 b); vec4 div4 (vec4 a, vec4 b); vec4 inc4 (vec4 a, float b); vec4 dec4 (vec4 a, float b); vec4 scale4 (vec4 a, float b); vec4 pmod4 (vec4 a, float b); vec4 min4 (vec4 a, vec4 b); vec4 max4 (vec4 a, vec4 b); vec4 abs4 (vec4 a ); vec4 floor4 (vec4 a ); vec4 fract4 (vec4 a ); vec4 ceil4 (vec4 a ); float dot4 (vec4 a, vec4 b); vec4 refl4 (vec4 a, vec4 b); float len4sq (vec4 a ); float len4 (vec4 a ); vec4 norm4 (vec4 a ); vec4 norm4sq (vec4 a ); int finite4 (vec4 a ); vec4 mix4 (vec4 a,vec4 b,float t); vec4 clamp4(vec4 v,vec4 a,vec4 b); vec4 clamp4f(vec4 v,float a,float b); quat idq ( ); quat ptrq (const float *a ); quat vec3q (vec3 a, float w ); quat vec4q (vec4 a ); quat negq (quat a ); quat conjq (quat a ); quat addq (quat a, quat b); quat subq (quat a, quat b); quat mulq (quat p, quat q); quat scaleq (quat a, float s); quat normq (quat a ); float dotq (quat a, quat b); quat mixq(quat a, quat b, float t); quat slerpq(quat a, quat b, float s); quat rotationq(float deg,float x,float y,float z); quat mat44q (mat44 M); vec3 rotate3q_2(vec3 v, quat q); vec3 rotate3q(vec3 v, quat r); vec3 euler (quat q); quat eulerq (vec3 pyr_degrees); void scaling33(mat33 m, float x, float y, float z); void scale33(mat33 m, float x, float y, float z); void id33(mat33 m); void extract33(mat33 m, const mat44 m4); void copy33(mat33 m, const mat33 a); vec3 mulv33(mat33 m, vec3 v); void multiply33x2(mat33 m, const mat33 a, const mat33 b); void rotation33(mat33 m, float degrees, float x,float y,float z); void rotationq33(mat33 m, quat q); void rotate33(mat33 r, float degrees, float x,float y,float z); void compose33(mat33 m, quat r, vec3 s); void id34(mat34 m); void copy34(mat34 m, const mat34 a); void scale34(mat34 m, float s); void add34(mat34 m, mat34 n); void muladd34(mat34 m, mat34 n, float s); void add34x2(mat34 m, mat34 n, mat34 o); void lerp34(mat34 m, mat34 n, mat34 o, float alpha); void multiply34x2(mat34 m, const mat34 m0, const mat34 m1); void multiply34(mat34 m, const mat34 a); void multiply34x3(mat34 m, const mat34 a, const mat34 b, const mat34 c); void compose34(mat34 m, vec3 t, quat q, vec3 s); void invert34(mat34 m, const mat34 o); void id44(mat44 m); void identity44(mat44 m); void copy44(mat44 m, const mat44 a); void multiply44x2(mat44 m, const mat44 a, const mat44 b); void multiply44x3(mat44 m, const mat44 a, const mat44 b, const mat44 c); void multiply44(mat44 m, const mat44 a); void ortho44(mat44 m, float l, float r, float b, float t, float n, float f); void frustum44(mat44 m, float l, float r, float b, float t, float n, float f); void perspective44(mat44 m, float fovy_degrees, float aspect, float nearp, float farp); void lookat44(mat44 m, vec3 eye, vec3 center, vec3 up); void translation44(mat44 m, float x, float y, float z); void translate44(mat44 m, float x, float y, float z); void relocate44(mat44 m, float x, float y, float z); void rotationq44(mat44 m, quat q); void rotation44(mat44 m, float degrees, float x, float y, float z); void rotate44(mat44 m, float degrees, float x, float y, float z); void scaling44(mat44 m, float x, float y, float z); void scale44(mat44 m, float x, float y, float z); void transpose44(mat44 m, const mat44 a); float det44(const mat44 M); bool invert44(mat44 T, const mat44 M); void compose44(mat44 m, vec3 t, quat q, vec3 s); vec3 transformq(const quat q, const vec3 v); vec3 transform33(const mat33 m, vec3 p); vec3 transform344(const mat44 m, const vec3 p); vec4 transform444(const mat44 m, const vec4 p); bool unproject44(vec3 *out, vec3 xyd, vec4 viewport, mat44 mvp); void print2i( vec2i v ); void print3i( vec3i v ); void print2( vec2 v ); void print3( vec3 v ); void print4( vec4 v ); void printq( quat q ); void print33( float *m ); void print34( float *m ); void print44( float *m ); uintptr_t id_make(void *ptr); void * id_handle(uintptr_t id); void id_dispose(uintptr_t id); bool id_valid(uintptr_t id); typedef struct obj { struct { const char *objname; uintptr_t objheader; struct obj** objchildren; }; } obj; typedef struct entity { struct { struct { const char *objname; uintptr_t objheader; struct obj** objchildren; }; uintptr_t cflags; void *c[32]; }; } entity; obj *objtmp; void* obj_malloc(unsigned sz); void* obj_free(void *o); extern void (*obj_ctor[256])(); extern void (*obj_dtor[256])(); extern char* (*obj_save[256])(); extern bool (*obj_load[256])(); extern int (*obj_test[256])(); extern int (*obj_init[256])(); extern int (*obj_quit[256])(); extern int (*obj_tick[256])(); extern int (*obj_draw[256])(); extern int (*obj_lerp[256])(); extern int (*obj_aabb[256])(); extern int (*obj_edit[256])(); extern int (*obj_menu[256])(); extern char* (*obj_icon[256])(); extern const char*OBJTYPES[256]; uintptr_t obj_header(const void *o); uintptr_t obj_id(const void *o); const char* obj_type(const void *o); unsigned obj_typeid(const void *o); int obj_sizeof(const void *o); int obj_size(const void *o); char* obj_data(void *o); const char* obj_datac(const void *o); void* obj_payload(const void *o); void* obj_zero(void *o); void* obj_ref(void *oo); void* obj_unref(void *oo); obj* obj_detach(void *c); obj* obj_attach(void *o, void *c); obj* obj_root(const void *o); obj* obj_parent(const void *o); obj***obj_children(const void *o); obj***obj_siblings(const void *o); int obj_dumptree(const void *o); void* obj_setmeta(void *o, const char *key, const char *value); const char* obj_meta(const void *o, const char *key); void* obj_setname(void *o, const char *name); const char* obj_name(const void *o); void* obj_swap(void *dst, void *src); void* obj_copy_fast(void *dst, const void *src); void* obj_copy(void *dst, const void *src); int obj_comp_fast(const void *a, const void *b); int obj_comp(const void *a, const void *b); int obj_lesser(const void *a, const void *b); int obj_greater(const void *a, const void *b); int obj_equal(const void *a, const void *b); uint64_t obj_hash(const void *o); bool obj_hexdump(const void *oo); int obj_print(const void *o); int obj_printf(const void *o, const char *text); int obj_console(const void *o); char* obj_saveini(const void *o); obj* obj_mergeini(void *o, const char *ini); obj* obj_loadini(void *o, const char *ini); char* obj_savejson(const void *o); obj* obj_mergejson(void *o, const char *json); obj* obj_loadjson(void *o, const char *json); char* obj_savebin(const void *o); obj* obj_mergebin(void *o, const char *sav); obj* obj_loadbin(void *o, const char *sav); char* obj_savempack(const void *o); obj* obj_mergempack(void *o, const char *sav); obj* obj_loadmpack(void *o, const char *sav); int obj_push(const void *o); int obj_pop(void *o); bool obj_addcomponent(entity *e, unsigned c, void *ptr); bool obj_hascomponent(entity *e, unsigned c); void* obj_getcomponent(entity *e, unsigned c); bool obj_delcomponent(entity *e, unsigned c); bool obj_usecomponent(entity *e, unsigned c); bool obj_offcomponent(entity *e, unsigned c); char* entity_save(entity *self); void* obj_clone(const void *src); void* obj_merge(void *dst, const void *src); void* obj_mutate(void *dst, const void *src); void* obj_make(const char *str); typedef enum OBJTYPE_BUILTINS { OBJTYPE_obj = 0, OBJTYPE_entity = 1, OBJTYPE_vec2 = 2, OBJTYPE_vec3 = 3, OBJTYPE_vec4 = 4, OBJTYPE_quat = 5, OBJTYPE_mat33 = 6, OBJTYPE_mat34 = 7, OBJTYPE_mat44 = 8, OBJTYPE_vec2i = 9, OBJTYPE_vec3i = 10, } OBJTYPE_BUILTINS; int pathfind_astar(int width, int height, const unsigned* map, vec2i src, vec2i dst, vec2i* path, size_t maxpath); typedef int (*bt_func)(); typedef struct bt_t { uint64_t type; int (*action)(); union { int argi; float argf; }; struct bt_t* children; } bt_t; bt_t bt(const char *ini_file, unsigned flags); int bt_run(bt_t *b); void bt_addfun(const char *name, int(*func)()); bt_func bt_findfun(const char *name); char *bt_funcname(bt_func fn); int ui_bt(bt_t *b); typedef enum SWARM_DISTANCE { SWARM_DISTANCE_LINEAR, SWARM_DISTANCE_INVERSE_LINEAR, SWARM_DISTANCE_QUADRATIC, SWARM_DISTANCE_INVERSE_QUADRATIC } SWARM_DISTANCE; typedef struct boid_t { vec3 position; vec3 velocity; vec3 acceleration; vec3 prev_position; } boid_t; typedef struct swarm_t { boid_t* boids; float perception_radius; float separation_weight; SWARM_DISTANCE separation_type; float alignment_weight; float cohesion_weight; float steering_weight; vec3* steering_targets; SWARM_DISTANCE steering_target_type; float blindspot_angledeg; float max_acceleration; float max_velocity; struct { map base; struct { pair p; vec3* key; boid_t** val; } tmp, *ptr; boid_t*** tmpval; int (*typed_cmp)(vec3*, vec3*); uint64_t (*typed_hash)(vec3*); } * voxel_cache_; float blindspot_angledeg_compare_value_; } swarm_t; swarm_t swarm(); void swarm_update(swarm_t *self, float delta); void swarm_update_acceleration_only(swarm_t *self); void swarm_update_acceleration_and_velocity_only(swarm_t *self, float delta); int ui_swarm(swarm_t *self); void midi_send(unsigned midi_msg); typedef struct audio_handle* audio_t; audio_t audio_clip( const char *pathfile ); audio_t audio_stream( const char *pathfile ); int audio_play( audio_t s, int flags ); int audio_play_gain( audio_t a, int flags, float gain ); int audio_play_gain_pitch( audio_t a, int flags, float gain, float pitch ); int audio_play_gain_pitch_pan( audio_t a, int flags, float gain, float pitch, float pan ); int audio_stop( audio_t a ); void audio_loop( audio_t a, bool loop ); bool audio_playing( audio_t a ); float audio_volume_clip(float gain); float audio_volume_stream(float gain); float audio_volume_master(float gain); int audio_mute(int mute); int audio_muted(); int ui_audio(); enum AUDIO_FLAGS { AUDIO_1CH = 0, AUDIO_2CH = 1, AUDIO_8 = 2, AUDIO_16 = 0, AUDIO_32 = 4, AUDIO_FLOAT = 8, AUDIO_8KHZ = 16, AUDIO_11KHZ = 32, AUDIO_22KHZ = 0, AUDIO_32KHZ = 64, AUDIO_44KHZ = 128, AUDIO_MIXER_GAIN = 0, AUDIO_IGNORE_MIXER_GAIN = 256, AUDIO_MULTIPLE_INSTANCES = 0, AUDIO_SINGLE_INSTANCE = 512, }; int audio_queue( const void *samples, int num_samples, int flags ); 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); 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; typedef struct hit { union { float depth; struct { float t0, t1; }; struct { int hits; vec3 p0, p1; float distance2; int iterations; }; }; union { vec3 p; vec3 contact_point; }; union { vec3 n; vec3 normal; }; } hit; float line_distance2_point(line l, vec3 p); vec3 line_closest_point(line l, vec3 p); float ray_test_plane(ray r, vec4 p4); float ray_test_triangle(ray r, triangle t); int ray_test_sphere(float *t0, float *t1, ray r, sphere s); int ray_test_aabb(float *t0, float *t1, ray r, aabb a); hit* ray_hit_plane(ray r, plane p); hit* ray_hit_triangle(ray r, triangle t); hit* ray_hit_sphere(ray r, sphere s); hit* ray_hit_aabb(ray r, aabb a); vec3 sphere_closest_point(sphere s, vec3 p); hit* sphere_hit_aabb(sphere s, aabb a); hit* sphere_hit_capsule(sphere s, capsule c); hit* sphere_hit_sphere(sphere a, sphere b); int sphere_test_aabb(sphere s, aabb a); int sphere_test_capsule(sphere s, capsule c); int sphere_test_poly(sphere s, poly p); int sphere_test_sphere(sphere a, sphere b); vec3 aabb_closest_point(aabb a, vec3 p); float aabb_distance2_point(aabb a, vec3 p); int aabb_contains_point(aabb a, vec3 p); hit* aabb_hit_aabb(aabb a, aabb b); hit* aabb_hit_capsule(aabb a, capsule c); hit* aabb_hit_sphere(aabb a, sphere s); int aabb_test_aabb(aabb a, aabb b); int aabb_test_capsule(aabb a, capsule c); int aabb_test_poly(aabb a, poly p); int aabb_test_sphere(aabb a, sphere s); float capsule_distance2_point(capsule c, vec3 p); vec3 capsule_closest_point(capsule c, vec3 p); hit* capsule_hit_aabb(capsule c, aabb a); hit* capsule_hit_capsule(capsule a, capsule b); hit* capsule_hit_sphere(capsule c, sphere s); int capsule_test_aabb(capsule c, aabb a); int capsule_test_capsule(capsule a, capsule b); int capsule_test_poly(capsule c, poly p); int capsule_test_sphere(capsule c, sphere s); int poly_test_sphere(poly p, sphere s); int poly_test_aabb(poly p, aabb a); int poly_test_capsule(poly p, capsule c); int poly_test_poly(poly a, poly b); int poly_test_sphere_transform(poly p, vec3 pos3, mat33 rot33, sphere s); int poly_test_aabb_transform(poly p, vec3 apos3, mat33 arot33, aabb a); int poly_test_capsule_transform(poly p, vec3 pos3, mat33 rot33, capsule c); int poly_test_poly_transform(poly a, vec3 apos3, mat33 arot33, poly b, vec3 bpos3, mat33 brot33); int poly_hit_sphere(struct gjk_result *res, poly p, sphere s); int poly_hit_aabb(struct gjk_result *res, poly p, aabb a); int poly_hit_capsule(struct gjk_result *res, poly p, capsule c); int poly_hit_poly(struct gjk_result *res, poly a, poly b); int poly_hit_sphere_transform(struct gjk_result *res, poly p, vec3 pos3, mat33 rot33, sphere s); int poly_hit_aabb_transform(struct gjk_result *res, poly p, vec3 pos3, mat33 rot33, aabb a); int poly_hit_capsule_transform(struct gjk_result *res, poly p, vec3 pos3, mat33 rot33, capsule c); int poly_hit_poly_transform(struct gjk_result *res, poly a, vec3 at3, mat33 ar33, poly b, vec3 bt3, mat33 br33); vec4 plane4(vec3 p, vec3 n); frustum frustum_build(mat44 projview); int frustum_test_sphere(frustum f, sphere s); int frustum_test_aabb(frustum f, aabb a); poly poly_alloc(int cnt); void poly_free(poly *p); poly pyramid(vec3 from, vec3 to, float size); poly diamond(vec3 from, vec3 to, float size); void collide_demo(); enum COOK_FLAGS { COOK_SYNC = 0, COOK_ASYNC = 1, COOK_CANCELABLE = 2, COOK_DEBUGLOG = 4, }; void cook_config( const char *path_to_cook_ini ); bool cook_start( const char *path_to_cook_ini, const char *masks, int flags ); void cook_stop(); void cook_cancel(); int cook_jobs(); int cook_progress(); bool have_tools(); typedef union json_t { char* s; double f; int64_t i; uintptr_t p; union json_t* arr; } json_t; bool json_push(const char *json_content); const char* json_key(const char *keypath); json_t* json_find(const char *type_keypath); json_t json_get(const char *type_keypath); int json_count(const char *keypath); bool json_pop(); int xml_push(const char *xml_content); const char * xml_string(char *key); unsigned xml_count(char *key); char* xml_blob(char *key); void xml_pop(); bool data_tests(); void* dll(const char *filename, const char *symbol); enum { SCRIPT_LUA = 1, SCRIPT_DEBUGGER = 2, }; void script_init(); void *script_init_env(unsigned flags); bool script_push(void *env); void script_run(const char *script); void script_runfile(const char *pathfile); void script_bind_class(const char *objname, int num_methods, const char **c_names, void **c_functions); void script_bind_function(const char *c_name, void *c_function); void script_call(const char *lua_function); bool script_tests(); bool script_pop(); char** file_list( const char *pathmasks ); bool file_write( const char *file, const void *ptr, int len ); bool file_append( const char *file, const void *ptr, int len ); char * file_read(const char *filename); char * file_load(const char *filename, int *len); uint64_t file_size(const char *pathfile); bool file_directory(const char *pathfile); char * file_pathabs(const char *pathfile); char * file_path(const char *pathfile); char * file_name(const char *pathfile); char * file_base(const char *pathfile); char * file_ext(const char *pathfile); char * file_id(const char *pathfile); char * file_normalize(const char *pathfile); char * file_counter(const char *pathfile); uint64_t file_stamp(const char *pathfile); uint64_t file_stamp10(const char *pathfile); bool file_exist(const char *pathfile); bool file_delete(const char *pathfile); bool file_copy(const char *src, const char *dst); bool file_move(const char *src, const char *dst); FILE* file_temp(); char* file_tempname(); void* file_md5(const char *file); void* file_sha1(const char *file); void* file_crc32(const char *file); char** file_zip_list(const char *zipfile); char* file_zip_extract(const char *zipfile, const char *filename); bool file_zip_append(const char *zipfile, const char *filename, int clevel); bool file_zip_appendmem(const char *zipfile, const char *entryname, const void *ptr, unsigned len, int clevel); void storage_mount(const char* folder); void storage_read(); void storage_flush(); bool vfs_mount(const char *mount_point); char** vfs_list(const char *masks); char * vfs_read(const char *pathfile); char * vfs_load(const char *pathfile, int *size); int vfs_size(const char *pathfile); void vfs_reload(); const char * vfs_resolve(const char *fuzzyname); FILE* vfs_handle(const char *pathfile); void * cache_insert(const char *key, void *value, int size); void * cache_lookup(const char *key, int *size); typedef struct { map base; struct { pair p; char* key; char* val; } tmp, *ptr; char** tmpval; int (*typed_cmp)(char*, char*); uint64_t (*typed_hash)(char*); } * ini_t; ini_t ini(const char *filename); ini_t ini_from_mem(const char *data); void ini_destroy(ini_t); bool ini_write(const char *filename, const char *section, const char *key, const char *value); enum FONT_FLAGS { FONT_512 = 0x0, FONT_1024 = 0x1, FONT_2048 = 0x2, FONT_4096 = 0x4, FONT_NO_OVERSAMPLE = 0x0, FONT_OVERSAMPLE_X = 0x08, FONT_OVERSAMPLE_Y = 0x10, FONT_ASCII = 0x800, FONT_AR = 0x001000, FONT_ZH = 0x002000, FONT_EL = 0x004000, FONT_EM = 0x008000, FONT_EU = 0x010000, FONT_HE = 0x020000, FONT_JP = 0x040000, FONT_KR = 0x080000, FONT_RU = 0x100000, FONT_TH = 0x200000, FONT_VI = 0x400000, FONT_CJK = FONT_ZH|FONT_JP|FONT_KR, }; typedef struct font_metrics_t { float ascent; float descent; float linegap; float linedist; } font_metrics_t; void font_face(const char *face_tag, const char *filename_ttf, float font_size, unsigned flags); void font_face_from_mem(const char *tag, const void *ttf_buffer, unsigned ttf_len, float font_size, unsigned flags); void font_scales(const char *face_tag, float h1, float h2, float h3, float h4, float h5, float h6); void font_color(const char *color_tag, uint32_t color); vec2 font_xy(); void font_goto(float x, float y); vec2 font_print(const char *text); vec2 font_rect(const char *text); font_metrics_t font_metrics(const char *text); void* font_colorize(const char *text, const char *comma_types, const char *comma_keywords); vec2 font_highlight(const char *text, const void *colors); void ui_font(); int input_use( int controller_id ); float input( int vk ); vec2 input2( int vk ); float input_diff( int vk ); vec2 input_diff2( int vk ); const char* input_string( int vk ); float input_frame( int vk, int Nth_frame ); vec2 input_frame2( int vk, int Nth_frame ); int input_up( int vk ); int input_down( int vk ); int input_held( int vk ); int input_idle( int vk ); int input_click( int vk, int ms ); int input_click2( int vk, int ms ); int input_repeat( int vk, int ms ); int input_chord2( int vk1, int vk2 ); int input_chord3( int vk1, int vk2, int vk3 ); int input_chord4( int vk1, int vk2, int vk3, int vk4 ); float input_filter_positive( float v ); vec2 input_filter_positive2( vec2 v ); vec2 input_filter_deadzone( vec2 v, float deadzone_treshold ); vec2 input_filter_deadzone_4way( vec2 v, float deadzone_treshold ); enum TOUCH_BUTTONS { TOUCH_0, TOUCH_1, }; void input_touch_area(unsigned button, vec2 begin_coord_ndc, vec2 end_coord_ndc); vec2 input_touch(unsigned button, float sensitivity); vec2 input_touch_delta(unsigned button, float sensitivity); vec2 input_touch_delta_from_origin(unsigned button, float sensitivity); bool input_touch_active(); void input_mappings(const char *filename); char input_keychar(unsigned code); int input_enum(const char *sym); int input_anykey(); int input_eval(const char *expression); void input_send( int vk ); char* save_input(); bool load_input(char* replay); int ui_keyboard(); int ui_mouse(); int ui_gamepad(int id); int ui_gamepads(); enum INPUT_ENUMS { KEY_0,KEY_1,KEY_2,KEY_3,KEY_4,KEY_5,KEY_6,KEY_7,KEY_8,KEY_9, KEY_TICK,KEY_BS, KEY_ESC, 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, KEY_INS,KEY_HOME,KEY_PGUP,KEY_DEL,KEY_END,KEY_PGDN, KEY_LMETA,KEY_RMETA,KEY_MENU,KEY_PRINT,KEY_PAUSE,KEY_SCROLL,KEY_NUMLOCK, KEY_MINUS,KEY_EQUAL,KEY_LSQUARE,KEY_RSQUARE,KEY_SEMICOLON,KEY_QUOTE,KEY_HASH,KEY_BAR,KEY_COMMA,KEY_DOT,KEY_SLASH, KEY_F1,KEY_F2,KEY_F3,KEY_F4,KEY_F5,KEY_F6,KEY_F7,KEY_F8,KEY_F9,KEY_F10,KEY_F11,KEY_F12, KEY_PAD1,KEY_PAD2,KEY_PAD3,KEY_PAD4,KEY_PAD5,KEY_PAD6,KEY_PAD7,KEY_PAD8,KEY_PAD9,KEY_PAD0, KEY_PADADD,KEY_PADSUB,KEY_PADMUL,KEY_PADDIV,KEY_PADDOT,KEY_PADENTER, 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, 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, GAMEPAD_GUID, GAMEPAD_NAME, }; enum INPUT_ALIASES { KEY_SHIFT = KEY_LSHIFT, KEY_ALT = KEY_LALT, KEY_CTRL = KEY_LCTRL, }; void* xrealloc(void* p, size_t sz); size_t xsize(void* p); char* xstats(void); void* stack(int bytes); void* watch( void *ptr, int sz ); void* forget( void *ptr ); inline void *(REALLOC_)(void *p, size_t n) { return n ? (xrealloc(p,n)) : xrealloc((p),0); } inline void *(CALLOC_)(size_t m, size_t n) { return n *= m, memset(REALLOC_((0),(n)),0,n); } inline char *(STRDUP_)(const char *s) { size_t n = strlen(s)+1; return ((char*)memcpy(REALLOC_((0),(n)), s, n)); } char* download( const char *url ); int download_file( FILE *out, const char *url ); int portname( const char *service_name, unsigned retries ); bool network_tests(); int udp_bind(const char *address, const char *port); int udp_open(const char *address, const char *port); int udp_send(int, const void *buf, int len ); int udp_sendto(int, const char *ip, const char *port, const void *buf, int len ); int udp_recv(int, void *buf, int len ); int udp_peek(int); int tcp_open(const char *address, const char *port); int tcp_bind(const char *interface_, const char *port, int queue); int tcp_peek(int, int(*callback)(int)); int tcp_send(int, const void* buf, int len); int tcp_recv(int, void* buf, int len); char* tcp_host(int); char* tcp_port(int); int tcp_close(int); int tcp_debug(int); int track_init(char const *host, char const *port); int track_destroy(void); int track_event(char const *event_id, char const *user_id, char const *json_payload); int track_ident(char const *user_id, char const *traits); int track_group(char const *user_id, char const *group_id, char const *traits); typedef struct track_prop { char const *key; char const *val; } track_prop; int track_event_props(char const *event_id, char const *user_id, const track_prop *props); enum { NETWORK_BIND = 2, NETWORK_CONNECT = 4, NETWORK_NOFAIL = 8 }; void network_create(unsigned max_clients, const char *ip, const char *port, unsigned flags); enum { NETWORK_SEND = 2, NETWORK_RECV = 4 }; enum { NETWORK_UNRELIABLE = 8, NETWORK_UNORDERED = 16 }; void* network_buffer(void *ptr, unsigned sz, uint64_t flags, int64_t rank); char** network_sync(unsigned timeout_ms); enum { NETWORK_EVENT_CONNECT, NETWORK_EVENT_DISCONNECT, NETWORK_EVENT_RECEIVE, NETWORK_EVENT_DISCONNECT_TIMEOUT, NETWORK_EVENT_RPC = 10, NETWORK_EVENT_RPC_RESP, }; int network_event(const char *msg, int *errcode, char **errstr); enum { NETWORK_RANK = 0 }; enum { NETWORK_PING = 1 }; enum { NETWORK_PORT = 2, NETWORK_IP, NETWORK_LIVE }; enum { NETWORK_SEND_MS = 4 }; enum { NETWORK_BUF_CLEAR_ON_JOIN = 5 }; enum { NETWORK_USERID = 7, NETWORK_COUNT , NETWORK_CAPACITY }; int64_t network_get(uint64_t key); int64_t network_put(uint64_t key, int64_t value); void network_rpc(const char *signature, void *function); void network_rpc_send_to(int64_t rank, unsigned id, const char *cmdline); void network_rpc_send(unsigned id, const char *cmdline); bool server_bind(int max_clients, int port); char** server_poll(unsigned timeout_ms); char** client_poll(unsigned timeout_ms); void server_broadcast_bin_flags(const void *ptr, int len, uint64_t flags); void server_broadcast_bin(const void *ptr, int len); void server_broadcast_flags(const char *msg, uint64_t flags); void server_broadcast(const char *msg); void server_terminate(); void server_send(int64_t handle, const char *msg); void server_send_bin(int64_t handle, const void *ptr, int len); void server_drop(int64_t handle); int64_t client_join(const char *ip, int port); 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), }; unsigned zbounds(unsigned inlen, unsigned flags); unsigned zencode(void *out, unsigned outlen, const void *in, unsigned inlen, unsigned flags); unsigned zexcess(unsigned flags); unsigned zdecode(void *out, unsigned outlen, const void *in, unsigned inlen, unsigned flags); void *interleave( void *out, const void *list, int list_count, int sizeof_item, unsigned columns ); unsigned cobs_bounds(unsigned len); unsigned cobs_encode(const void *in, unsigned inlen, void *out, unsigned outlen); unsigned cobs_decode(const void *in, unsigned inlen, void *out, unsigned outlen); unsigned base92_encode(const void *in, unsigned inlen, void* out, unsigned outlen); unsigned base92_decode(const void *in, unsigned inlen, void* out, unsigned outlen); unsigned base92_bounds(unsigned inlen); unsigned netstring_bounds(unsigned inlen); unsigned netstring_encode(const char *in, unsigned inlen, char *out, unsigned outlen); unsigned netstring_decode(const char *in, unsigned inlen, char *out, unsigned outlen); void delta8_encode(void *buffer, unsigned count); void delta8_decode(void *buffer, unsigned count); void delta16_encode(void *buffer, unsigned count); void delta16_decode(void *buffer, unsigned count); void delta32_encode(void *buffer, unsigned count); void delta32_decode(void *buffer, unsigned count); void delta64_encode(void *buffer, unsigned count); void delta64_decode(void *buffer, unsigned count); uint64_t zig64( int64_t value ); int64_t zag64( uint64_t value ); uint32_t enczig32u( int32_t n); uint64_t enczig64u( int64_t n); int32_t deczig32i(uint32_t n); int64_t deczig64i(uint64_t n); void *arc4( void *buffer, unsigned buflen, const void *pass, unsigned passlen ); uint64_t crc64(uint64_t h, const void *ptr, uint64_t len); void entropy( void *buf, unsigned n ); int semver( int major, int minor, int patch ); int semvercmp( int v1, int v2 ); 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; typedef struct int2 { int x,y; } int2; typedef struct int3 { int x,y,z; } int3; typedef struct int4 { int x,y,z,w; } int4; 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; typedef struct float2 { float x,y; } float2; typedef struct float3 { float x,y,z; } float3; typedef struct float4 { float x,y,z,w; } float4; typedef struct double2 { double x,y; } double2; typedef struct double3 { double x,y,z; } double3; typedef struct double4 { double x,y,z,w; } double4; char *cc4str(unsigned cc); char *cc8str(uint64_t cc); enum { cc__1 = '1', cc__2, cc__3, cc__4, cc__5, cc__6,cc__7, cc__8, cc__9, cc__0, cc___, cc__ = ' ', cc__A = 'A', cc__B, cc__C, cc__D, cc__E, cc__F,cc__G, cc__H, cc__I, cc__J, cc__K,cc__L, cc__M, cc__N, cc__O, cc__P,cc__Q, cc__R, cc__S, cc__T, cc__U,cc__V, cc__W, cc__X, cc__Y, cc__Z, cc__a = 'a', cc__b, cc__c, cc__d, cc__e, cc__f,cc__g, cc__h, cc__i, cc__j, cc__k,cc__l, cc__m, cc__n, cc__o, cc__p,cc__q, cc__r, cc__s, cc__t, cc__u,cc__v, cc__w, cc__x, cc__y, cc__z, }; char* ftoa1(float v); char* ftoa2(vec2 v); char* ftoa3(vec3 v); char* ftoa4(vec4 v); float atof1(const char *s); vec2 atof2(const char *s); vec3 atof3(const char *s); vec4 atof4(const char *s); char* itoa1(int v); char* itoa2(vec2i v); char* itoa3(vec3i v); int atoi1(const char *s); vec2i atoi2(const char *s); vec3i atoi3(const char *s); int is_big(); int is_little(); uint16_t swap16( uint16_t x ); uint32_t swap32( uint32_t x ); uint64_t swap64( uint64_t x ); float swap32f(float n); double swap64f(double n); void swapf(float *a, float *b); void swapf2(vec2 *a, vec2 *b); void swapf3(vec3 *a, vec3 *b); void swapf4(vec4 *a, vec4 *b); uint16_t lil16(uint16_t n); uint32_t lil32(uint32_t n); uint64_t lil64(uint64_t n); float lil32f(float n); double lil64f(double n); uint16_t big16(uint16_t n); uint32_t big32(uint32_t n); uint64_t big64(uint64_t n); float big32f(float n); double big64f(double n); uint16_t* lil16p(void *p, int sz); uint32_t* lil32p(void *p, int sz); uint64_t* lil64p(void *p, int sz); float * lil32pf(void *p, int sz); double * lil64pf(void *p, int sz); uint16_t* big16p(void *p, int sz); uint32_t* big32p(void *p, int sz); uint64_t* big64p(void *p, int sz); float * big32pf(void *p, int sz); double * big64pf(void *p, int sz); typedef uint16_t half; float half_to_float(half value); half float_to_half(float value); void pack16i(uint8_t *buf, uint16_t i, int swap); void pack32i(uint8_t *buf, uint32_t i, int swap); void pack64i(uint8_t *buf, uint64_t i, int swap); int16_t unpack16i(const uint8_t *buf, int swap); int32_t unpack32i(const uint8_t *buf, int swap); int64_t unpack64i(const uint8_t *buf, int swap); uint64_t pack754(long double f, unsigned bits, unsigned expbits); long double unpack754(uint64_t i, unsigned bits, unsigned expbits); uint64_t pack64uv( uint8_t *buffer, uint64_t value ); uint64_t unpack64uv( const uint8_t *buffer, uint64_t *value ); uint64_t pack64iv( uint8_t *buffer, int64_t value_ ); uint64_t unpack64iv( const uint8_t *buffer, int64_t *value ); int msgpack(const char *fmt, ... ); int msgunpack(const char *fmt, ... ); int msgpack_new(uint8_t *w, size_t l); int msgpack_nil(); int msgpack_chr(bool n); int msgpack_uns(uint64_t n); int msgpack_int(int64_t n); int msgpack_str(const char *s); int msgpack_bin(const char *s, size_t n); int msgpack_flt(double g); int msgpack_ext(uint8_t key, void *val, size_t n); int msgpack_arr(uint32_t n); int msgpack_map(uint32_t n); int msgpack_eof(); int msgpack_err(); bool msgunpack_new( const void *opaque_or_FILE, size_t bytes ); bool msgunpack_nil(); bool msgunpack_chr(bool *chr); bool msgunpack_uns(uint64_t *uns); bool msgunpack_int(int64_t *sig); bool msgunpack_str(char **str); bool msgunpack_bin(void **bin, uint64_t *len); bool msgunpack_flt(float *flt); bool msgunpack_dbl(double *dbl); bool msgunpack_ext(uint8_t *key, void **val, uint64_t *len); bool msgunpack_arr(uint64_t *len); bool msgunpack_map(uint64_t *len); bool msgunpack_eof(); bool msgunpack_err(); int savef(FILE *file, const char *format, ...); int saveb(unsigned char *buf, const char *format, ...); int loadf(FILE *file, const char *format, ...); int loadb(const unsigned char *buf, const char *format, ...); int profiler_enable(bool on); struct profile_t { double stat; int32_t cost, avg; }; typedef struct { map base; struct { pair p; char * key; struct profile_t val; } tmp, *ptr; struct profile_t* tmpval; int (*typed_cmp)(char *, char *); uint64_t (*typed_hash)(char *); } * profiler_t; extern profiler_t profiler; extern int profiler_enabled; typedef struct reflect_t { unsigned id, objtype; union { unsigned sz; unsigned member_offset; unsigned enum_value; }; const char *name; const char *info; void *addr; unsigned parent; const char *type; unsigned bytes; } reflect_t; unsigned enum_find(const char *E); void * function_find(const char *F); reflect_t member_find(const char *T, const char *M); void * member_findptr(void *obj, const char *T, const char *M); reflect_t** members_find(const char *T); void type_inscribe(const char *TY,unsigned TYsz,const char *infos); void enum_inscribe(const char *E,unsigned Eval,const char *infos); void struct_inscribe(const char *T,unsigned Tsz,unsigned OBJTYPEid, const char *infos); void member_inscribe(const char *T, const char *M,unsigned Msz, const char *infos, const char *type, unsigned bytes); void function_inscribe(const char *F,void *func,const char *infos); const char* symbol_naked(const char *s); int ui_reflect(const char *mask); typedef unsigned handle; unsigned rgba( uint8_t r, uint8_t g, uint8_t b, uint8_t a ); unsigned bgra( uint8_t b, uint8_t g, uint8_t r, uint8_t a ); unsigned rgbaf( float r, float g, float b, float a ); unsigned bgraf( float b, float g, float r, float a ); unsigned alpha( unsigned rgba ); unsigned atorgba(const char *s); char * rgbatoa(unsigned rgba); enum IMAGE_FLAGS { IMAGE_R = 0x01000, IMAGE_RG = 0x02000, IMAGE_RGB = 0x04000, IMAGE_RGBA = 0x08000, IMAGE_FLIP = 0x10000, IMAGE_FLOAT = 0x20000, }; 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; image_t image(const char *pathfile, int flags); image_t image_from_mem(const void *ptr, int len, int flags); void image_destroy(image_t *img); enum TEXTURE_FLAGS { TEXTURE_BC1 = 8, TEXTURE_BC2 = 16, TEXTURE_BC3 = 32, 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, TEXTURE_SRGB = 1 << 24, TEXTURE_BGR = 1 << 25, TEXTURE_BGRA = TEXTURE_BGR, 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; unsigned texel_type; unsigned flags; char* filename; bool transparent; unsigned fbo; union { unsigned userdata, delay; }; } texture_t; texture_t texture_compressed(const char *filename, unsigned flags); texture_t texture_compressed_from_mem(const void *data, int len, unsigned flags); texture_t texture(const char* filename, int flags); texture_t texture_from_mem(const void* ptr, int len, int flags); texture_t texture_create(unsigned w, unsigned h, unsigned n, const void *pixels, int flags); texture_t texture_checker(); void texture_destroy(texture_t *t); unsigned texture_update(texture_t *t, unsigned w, unsigned h, unsigned n, const void *pixels, int flags); bool texture_rec_begin(texture_t *t, unsigned w, unsigned h); void texture_rec_end(texture_t *t); texture_t brdf_lut(); typedef struct colormap_t { vec4 color; texture_t *texture; } colormap_t; 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; bool pbr_material(pbr_material_t *pbr, const char *material); void pbr_material_destroy(pbr_material_t *m); void fullscreen_quad_rgb( texture_t texture_rgb, float gamma ); void fullscreen_quad_rgb_flipped( texture_t texture, float gamma ); void fullscreen_quad_ycbcr( texture_t texture_YCbCr[3], float gamma ); void fullscreen_quad_ycbcr_flipped( texture_t texture_YCbCr[3], float gamma ); typedef struct cubemap_t { unsigned id; vec3 sh[9]; } cubemap_t; cubemap_t cubemap( const image_t image, int flags ); cubemap_t cubemap6( const image_t images[6], int flags ); void cubemap_destroy(cubemap_t *c); cubemap_t* cubemap_get_active(); unsigned fbo( unsigned texture_color, unsigned texture_depth, int wr_flags ); void fbo_bind(unsigned id); void fbo_unbind(); void fbo_destroy(unsigned id); 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; shadowmap_t shadowmap(int texture_width); void shadowmap_destroy(shadowmap_t *s); void shadowmap_set_shadowmatrix(shadowmap_t *s, vec3 aLightPos, vec3 aLightAt, vec3 aLightUp, const mat44 projection); void shadowmap_begin(shadowmap_t *s); void shadowmap_end(shadowmap_t *s); void shadowmatrix_proj(mat44 shm_proj, float aLightFov, float znear, float zfar); void shadowmatrix_ortho(mat44 shm_proj, float left, float right, float bottom, float top, float znear, float zfar); unsigned shader(const char *vs, const char *fs, const char *attribs, const char *fragcolor, const char *defines); unsigned shader_geom(const char *gs, const char *vs, const char *fs, const char *attribs, const char *fragcolor, const char *defines); unsigned shader_bind(unsigned program); void shader_bool(const char *uniform, bool i ); void shader_int(const char *uniform, int i); void shader_uint(const char *uniform, unsigned i ); void shader_float(const char *uniform, float f); void shader_vec2(const char *uniform, vec2 v); void shader_vec3(const char *uniform, vec3 v); void shader_vec3v(const char *uniform, int count, vec3 *v); void shader_vec4(const char *uniform, vec4 v); void shader_mat44(const char *uniform, mat44 m); void shader_texture(const char *sampler, texture_t texture); void shader_texture_unit(const char *sampler, unsigned texture, unsigned unit); void shader_colormap(const char *name, colormap_t cm); unsigned shader_get_active(); void shader_destroy(unsigned shader); unsigned shader_properties(unsigned shader); char** shader_property(unsigned shader, unsigned property_no); void shader_apply_param(unsigned shader, unsigned param_no); void shader_apply_params(unsigned shader, const char *parameter_mask); int ui_shader(unsigned shader); int ui_shaders(); enum BUFFER_MODE { BUFFER_READ, BUFFER_WRITE, BUFFER_READ_WRITE }; unsigned compute(const char *cs); void compute_dispatch(unsigned wx, unsigned wy, unsigned wz); void shader_image(texture_t t, unsigned unit, unsigned level, int layer, unsigned access); void shader_image_unit(unsigned texture, unsigned unit, unsigned level, int layer, unsigned texel_type, unsigned access); void write_barrier(); void write_barrier_image(); enum SSBO_USAGE { STATIC_DRAW, STATIC_READ, STATIC_COPY, DYNAMIC_DRAW, DYNAMIC_READ, DYNAMIC_COPY, STREAM_DRAW, STREAM_READ, STREAM_COPY }; enum SSBO_ACCESS { SSBO_READ = BUFFER_READ, SSBO_WRITE = BUFFER_WRITE, SSBO_READ_WRITE = BUFFER_READ_WRITE }; unsigned ssbo_create(const void *data, int len, unsigned usage); void ssbo_destroy(unsigned ssbo); void ssbo_update(int offset, int len, const void *data); void ssbo_bind(unsigned ssbo, unsigned unit); void *ssbo_map(unsigned access); void ssbo_unmap(); void ssbo_unbind(); enum MESH_FLAGS { MESH_STATIC = 0, MESH_STREAM = 1, MESH_TRIANGLE_STRIP = 2, }; typedef struct mesh_t { handle vao, vbo, ibo; unsigned vertex_count; unsigned index_count; unsigned flags; int* lod_collapse_map; union { unsigned* in_index; vec3i* in_index3; }; union { unsigned* out_index; vec3i* out_index3; }; union { float* in_vertex; vec3* in_vertex3; }; union { float* out_vertex; vec3* out_vertex3; }; } mesh_t; mesh_t mesh(); 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); void mesh_render(mesh_t *m); void mesh_render_prim(mesh_t *sm, unsigned prim); void mesh_destroy(mesh_t *m); aabb mesh_bounds(mesh_t *m); 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; } layer[MAX_CHANNELS_PER_MATERIAL]; } material_t; 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; uint64_t t; texture_t tx; vec2i dims; int flags; vec4 mouse; } shadertoy_t; shadertoy_t shadertoy( const char *shaderfile, unsigned flags ); shadertoy_t* shadertoy_render( shadertoy_t *s, float delta ); 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; float timer; bool active; vec3 pose; char* name; } anim_t; anim_t clip(float minframe, float maxframe, float blendtime, unsigned flags); anim_t loop(float minframe, float maxframe, float blendtime, unsigned flags); enum MODEL_FLAGS { MODEL_NO_ANIMATIONS = 1, MODEL_NO_MESHES = 2, MODEL_NO_TEXTURES = 4, MODEL_MATCAPS = 8, MODEL_RIMLIGHT = 16 }; typedef struct model_t { struct iqm_t *iqm; unsigned num_textures; handle *textures; char **texture_names; material_t* materials; texture_t lightmap; float *lmdata; unsigned num_meshes; unsigned num_triangles; unsigned num_joints; unsigned num_anims; unsigned num_frames; handle program; float curframe; mat44 pivot; int stride; void *verts; int num_verts; void *tris; int num_tris; handle vao, ibo, vbo, vao_instanced; unsigned flags; unsigned billboard; float *instanced_matrices; unsigned num_instances; } model_t; enum BILLBOARD_MODE { BILLBOARD_X = 0x1, BILLBOARD_Y = 0x2, BILLBOARD_Z = 0x4, BILLBOARD_CYLINDRICAL = BILLBOARD_X|BILLBOARD_Z, BILLBOARD_SPHERICAL = BILLBOARD_X|BILLBOARD_Y|BILLBOARD_Z }; model_t model(const char *filename, int flags); model_t model_from_mem(const void *mem, int sz, int flags); float model_animate(model_t, float curframe); float model_animate_clip(model_t, float curframe, int minframe, int maxframe, bool loop); float model_animate_blends(model_t m, anim_t *primary, anim_t *secondary, float delta); aabb model_aabb(model_t, mat44 transform); void model_render(model_t, mat44 proj, mat44 view, mat44 model, int shader); void model_render_skeleton(model_t, mat44 model); void model_render_instanced(model_t, mat44 proj, mat44 view, mat44 *models, int shader, unsigned count); void model_set_texture(model_t, texture_t t); bool model_get_bone_pose(model_t m, unsigned joint, mat34 *out); void model_destroy(model_t); vec3 pose(bool forward, float curframe, int minframe, int maxframe, bool loop, float *opt_retframe); typedef struct anims_t { int inuse; float speed; anim_t* anims; } anims_t; anims_t animations(const char *pathfile, int flags); typedef struct lightmap_t { struct lm_context *ctx; bool ready; int w, h; int atlas_w, atlas_h; texture_t atlas; model_t** models; unsigned shader; } lightmap_t; lightmap_t lightmap(int hmsize , float near, float far, vec3 color , int passes , float threshold , float distmod ); void lightmap_setup(lightmap_t *lm, int w, int h); void lightmap_bake(lightmap_t *lm, int bounces, void (*drawscene)(lightmap_t *lm, model_t *m, float *view, float *proj, void *userdata), void (*progressupdate)(float progress), void *userdata); void lightmap_destroy(lightmap_t *lm); typedef struct skybox_t { handle program; mesh_t geometry; cubemap_t cubemap; int flags; int framebuffers[6]; int textures[6]; float *pixels; } skybox_t; skybox_t skybox(const char *panorama_or_cubemap_folder, int flags); int skybox_render(skybox_t *sky, mat44 proj, mat44 view); void skybox_destroy(skybox_t *sky); void skybox_mie_calc_sh(skybox_t *sky, float sky_intensity); void skybox_sh_reset(skybox_t *sky); void skybox_sh_add_light(skybox_t *sky, vec3 light, vec3 dir, float strength); int skybox_push_state(skybox_t *sky, mat44 proj, mat44 view); int skybox_pop_state(); void viewport_clear(bool color, bool depth); void viewport_clip(vec2 from, vec2 to); int fx_load(const char *file); int fx_load_from_mem(const char *nameid, const char *content); void fx_begin(); void fx_begin_res(int w, int h); void fx_end(); void fx_enable(int pass, int enabled); int fx_enabled(int pass); void fx_enable_all(int enabled); char * fx_name(int pass); int fx_find(const char *name); int ui_fx(int pass); int ui_fxs(); void* screenshot(int components); void* screenshot_async(int components); void ddraw_color(unsigned rgb); void ddraw_color_push(unsigned rgb); void ddraw_color_pop(); void ddraw_ontop(int enabled); void ddraw_ontop_push(int enabled); void ddraw_ontop_pop(); void ddraw_push_2d(); void ddraw_pop_2d(); void ddraw_aabb(vec3 minbb, vec3 maxbb); void ddraw_aabb_corners(vec3 minbb, vec3 maxbb); void ddraw_arrow(vec3 begin, vec3 end); void ddraw_axis(float units); void ddraw_boid(vec3 pos, vec3 dir); void ddraw_bone(vec3 center, vec3 end); void ddraw_bounds(const vec3 points[8]); void ddraw_box(vec3 center, vec3 extents); void ddraw_capsule(vec3 from, vec3 to, float radius); void ddraw_circle(vec3 pos, vec3 n, float radius); void ddraw_ring(vec3 pos, vec3 n, float radius); void ddraw_cone(vec3 center, vec3 top, float radius); void ddraw_cube(vec3 center, float radius); void ddraw_cube33(vec3 center, vec3 radius, mat33 M); void ddraw_diamond(vec3 from, vec3 to, float size); void ddraw_frustum(float projview[16]); void ddraw_ground(float scale); void ddraw_grid(float scale); void ddraw_hexagon(vec3 pos, float radius); void ddraw_line(vec3 from, vec3 to); void ddraw_line_dashed(vec3 from, vec3 to); void ddraw_line_thin(vec3 from, vec3 to); void ddraw_normal(vec3 pos, vec3 n); void ddraw_pentagon(vec3 pos, float radius); void ddraw_plane(vec3 p, vec3 n, float scale); void ddraw_point(vec3 from); void ddraw_position(vec3 pos, float radius); void ddraw_position_dir(vec3 pos, vec3 dir, float radius); void ddraw_pyramid(vec3 center, float height, int segments); void ddraw_cylinder(vec3 center, float height, int segments); void ddraw_sphere(vec3 pos, float radius); void ddraw_square(vec3 pos, float radius); void ddraw_text(vec3 pos, float scale, const char *text); void ddraw_text2d(vec2 pos, const char *text); void ddraw_triangle(vec3 p1, vec3 p2, vec3 p3); void ddraw_prism(vec3 center, float radius, float height, vec3 normal, int segments); void ddraw_demo(); void ddraw_flush(); void ddraw_flush_projview(mat44 proj, mat44 view); int gizmo(vec3 *pos, vec3 *rot, vec3 *sca); bool gizmo_active(); bool gizmo_hover(); typedef struct camera_t { mat44 view, proj; vec3 position, updir, lookdir; float yaw, pitch; float speed, fov; float move_friction, move_damping; float look_friction, look_damping; vec2 last_look; vec3 last_move; bool damping; bool orthographic; float distance; } camera_t; camera_t camera(); void camera_teleport(camera_t *cam, vec3 pos); void camera_moveby(camera_t *cam, vec3 inc); void camera_fov(camera_t *cam, float fov); void camera_fps(camera_t *cam, float yaw, float pitch); void camera_orbit(camera_t *cam, float yaw, float pitch, float inc_distance); void camera_lookat(camera_t *cam, vec3 target); void camera_enable(camera_t *cam); camera_t *camera_get_active(); int ui_camera(camera_t *cam); void ddraw_camera(camera_t *cam); typedef struct object_t { uint64_t renderbucket; mat44 transform; quat rot; vec3 sca, pos, euler, pivot; handle* textures; model_t model; aabb bounds; unsigned billboard; bool light_cached; } object_t; object_t object(); void object_rotate(object_t *obj, vec3 euler); void object_pivot(object_t *obj, vec3 euler); void object_teleport(object_t *obj, vec3 pos); void object_move(object_t *obj, vec3 inc); vec3 object_position(object_t *obj); void object_scale(object_t *obj, vec3 sca); void object_model(object_t *obj, model_t model); void object_diffuse(object_t *obj, texture_t tex); void object_diffuse_push(object_t *obj, texture_t tex); void object_diffuse_pop(object_t *obj); void object_billboard(object_t *obj, unsigned mode); enum LIGHT_TYPE { LIGHT_DIRECTIONAL, LIGHT_POINT, LIGHT_SPOT, }; enum LIGHT_FLAGS { LIGHT_CAST_SHADOWS = 1, }; typedef struct light_t { char type; vec3 diffuse, specular, ambient; vec3 pos, dir; struct { float constant, linear, quadratic; } falloff; float specularPower; float innerCone, outerCone; bool cached; } light_t; light_t light(); void light_type(light_t* l, char type); void light_diffuse(light_t* l, vec3 color); void light_specular(light_t* l, vec3 color); void light_ambient(light_t* l, vec3 color); void light_teleport(light_t* l, vec3 pos); void light_dir(light_t* l, vec3 dir); void light_power(light_t* l, float power); void light_falloff(light_t* l, float constant, float linear, float quadratic); void light_cone(light_t* l, float innerCone, float outerCone); void light_update(unsigned num_lights, light_t *lv); enum SCENE_FLAGS { SCENE_WIREFRAME = 1, SCENE_CULLFACE = 2, SCENE_BACKGROUND = 4, SCENE_FOREGROUND = 8, SCENE_UPDATE_SH_COEF = 16, }; typedef struct scene_t { object_t* objs; light_t* lights; skybox_t skybox; int u_coefficients_sh; } scene_t; scene_t* scene_push(); void scene_pop(); scene_t* scene_get_active(); int scene_merge(const char *source); void scene_render(int flags); object_t* scene_spawn(); unsigned scene_count(); object_t* scene_index(unsigned index); light_t* scene_spawn_light(); unsigned scene_count_light(); light_t* scene_index_light(unsigned index); char* tempvl(const char *fmt, va_list); char* tempva(const char *fmt, ...); char* strcatf(char **s, const char *buf); int strmatch(const char *s, const char *wildcard); int strmatchi(const char *s, const char *wildcard); int strcmp_qsort(const void *a, const void *b); int strcmpi_qsort(const void *a, const void *b); bool strbeg(const char *src, const char *sub); bool strend(const char *src, const char *sub); bool strbegi(const char *src, const char *sub); bool strendi(const char *src, const char *sub); const char * strstri(const char *src, const char *sub); char * strupper(const char *str); char * strlower(const char *str); char * strrepl(char **copy, const char *target, const char *replace); char * strswap(char *copy, const char *target, const char *replace); char * strcut(char *copy, const char *target); const char * strlerp(unsigned numpairs, const char **pairs, const char *str); size_t strlcat(char *dst, const char *src, size_t dstcap); size_t strlcpy(char *dst, const char *src, size_t dstcap); char** strsplit(const char *string, const char *delimiters); char* strjoin(char** list, const char *separator); char* string8(const wchar_t *str); uint32_t* string32( const char *utf8 ); const char* codepoint_to_utf8(unsigned cp); unsigned intern( const char *string ); const char *quark( unsigned key ); typedef struct quarks_db { char* blob; vec2i* entries; } quarks_db; unsigned quark_intern( quarks_db*, const char *string ); const char *quark_string( quarks_db*, unsigned key ); bool kit_load( const char *filename ); bool kit_merge( const char *filename ); void kit_insert( const char *id, const char *translation ); void kit_clear(); void kit_set( const char *variable, const char *value ); void kit_reset(); void kit_dump_state( FILE *fp ); char* kit_translate2( const char *id, const char *langcode_iso639_1 ); void kit_locale( const char *langcode_iso639_1 ); char* kit_translate( const char *id ); typedef enum SPRITE_FLAGS { SPRITE_PROJECTED = 1, SPRITE_ADDITIVE = 2, SPRITE_CENTERED = 4, SPRITE_RESOLUTION_INDEPENDANT = 128, } SPRITE_FLAGS; void sprite( texture_t texture, float position[3], float rotation , unsigned color , unsigned flags); void sprite_rect( texture_t t, vec4 rect, vec4 pos, vec4 scaleoff, float tilt_deg, unsigned tint_rgba, unsigned flags); void sprite_sheet( texture_t texture, float sheet[3], float position[3], float rotation, float offset[2], float scale[2], unsigned rgba, unsigned flags); void sprite_flush(); typedef struct tileset_t { texture_t tex; unsigned tile_w, tile_h; unsigned cols, rows; unsigned selected; } tileset_t; tileset_t tileset(texture_t tex, unsigned tile_w, unsigned tile_h, unsigned cols, unsigned rows); int ui_tileset( tileset_t t ); typedef struct tilemap_t { int blank_chr; unsigned cols, rows; int* map; vec3 position; float zindex; float tilt; unsigned tint; bool is_additive; } tilemap_t; tilemap_t tilemap(const char *map, int blank_chr, int linefeed_chr); void tilemap_render( tilemap_t m, tileset_t style ); void tilemap_render_ext( tilemap_t m, tileset_t style, float zindex, float xy_zoom[3], float tilt, unsigned tint, bool is_additive ); typedef struct tiled_t { char *map_name; unsigned first_gid, tilew, tileh, w, h; bool parallax; vec3 position; bool* visible; tilemap_t* layers; tileset_t* sets; char** names; } tiled_t; tiled_t tiled(const char *file_tmx); void tiled_render(tiled_t tmx, vec3 pos); void ui_tiled(tiled_t *t); typedef struct spine_t spine_t; spine_t*spine(const char *file_json, const char *file_atlas, unsigned flags); void spine_skin(spine_t *p, unsigned skin); void spine_render(spine_t *p, vec3 offset, unsigned flags); void spine_animate(spine_t *p, float delta); void ui_spine(spine_t *p); typedef struct atlas_frame_t { unsigned delay; vec4 sheet; vec2 anchor; vec3i* indices; vec2* coords; vec2* uvs; } atlas_frame_t; typedef struct atlas_anim_t { unsigned name; unsigned* frames; } atlas_anim_t; typedef struct atlas_slice_frame_t { vec4 bounds; bool has_9slice; vec4 core; vec2 pivot; unsigned color; char *text; } atlas_slice_frame_t; typedef struct atlas_slice_t { unsigned name; unsigned* frames; } atlas_slice_t; typedef struct atlas_t { texture_t tex; atlas_frame_t* frames; atlas_anim_t* anims; atlas_slice_t* slices; atlas_slice_frame_t* slice_frames; quarks_db db; } atlas_t; atlas_t atlas_create(const char *inifile, unsigned flags); int ui_atlas(atlas_t *a); int ui_atlas_frame(atlas_frame_t *f); void atlas_destroy(atlas_t *a); typedef struct sprite_t { struct { const char *objname; uintptr_t objheader; struct obj** objchildren; }; vec4 gamepad; vec2 fire; vec4 pos; vec2 sca; float tilt; unsigned tint; unsigned frame; unsigned timer, timer_ms; unsigned flip_, flipped; unsigned play; bool paused; struct atlas_t *a; } sprite_t; enum { OBJTYPE_sprite_t = 10 }; ; ;; void sprite_ctor(sprite_t *s); void sprite_dtor(sprite_t *s); void sprite_tick(sprite_t *s); void sprite_draw(sprite_t *s); void sprite_edit(sprite_t *s); sprite_t*sprite_new(const char *ase, int bindings[6]); void sprite_del(sprite_t *s); void sprite_setanim(sprite_t *s, unsigned name); typedef struct guiskin_t { void (*drawrect)(void* userdata, const char *skin, const char *fallback, vec4 rect); void (*getskinsize)(void* userdata, const char *skin, const char *fallback, vec2 *size); void (*getskincolor)(void* userdata, const char *skin, const char *fallback, unsigned *color); void (*getscissorrect)(void* userdata, const char *skin, const char *fallback, vec4 rect, vec4 *dims); bool (*ismouseinrect)(void* userdata, const char *skin, const char *fallback, vec4 rect); void (*free)(void* userdata); void *userdata; } guiskin_t; void gui_pushskin(guiskin_t skin); void* gui_userdata(); vec2 gui_getskinsize(const char *skin, const char *fallback); unsigned gui_getskincolor(const char *skin, const char *fallback); bool gui_ismouseinrect(const char *skin, const char *fallback, vec4 rect); vec4 gui_getscissorrect(const char *skin, const char *fallback, vec4 rect); void gui_panel_id(int id, vec4 rect, const char *skin); void gui_rect_id(int id, vec4 rect, const char *skin); void gui_label_id(int id, const char *skin, const char *text, vec4 rect); bool gui_button_id(int id, vec4 rect, const char *skin); bool gui_button_label_id(int id, const char *text, vec4 rect, const char *skin); bool gui_slider_id(int id, vec4 rect, const char *skin, float min, float max, float step, float *value); bool gui_slider_label_id(int id, const char *text, vec4 rect, const char *skin, float min, float max, float step, float *value); void gui_panel_end(); void gui_popskin(); typedef struct skinned_t { atlas_t atlas; float scale; } skinned_t; guiskin_t gui_skinned(const char *asefile, float scale); bool steam_init(unsigned app_id); void steam_tick(); void steam_trophy(const char *trophy_id, bool redeem); void steam_screenshot(); void steam_destroy(); int ui_steam(); void* thread( int (*thread_func)(void* user_data), void* user_data ); void thread_destroy( void *thd ); int argc(); char* argv(int); void argvadd(const char *arg); int flag(const char *commalist); const char* option(const char *commalist, const char *defaults); int optioni(const char *commalist, int defaults); float optionf(const char *commalist, float defaults); void tty_attach(); void tty_detach(); void tty_color(unsigned color); void tty_reset(); const char* app_exec(const char *command); int app_spawn(const char *command); int app_cores(); int app_battery(); const char* app_name(); const char* app_path(); const char* app_cache(); const char* app_temp(); const char* app_cmdline(); void app_beep(); void app_hang(); void app_crash(); void app_singleton(const char *guid); bool app_open(const char *folder_file_or_url); const char* app_loadfile(); const char* app_savefile(); char* callstack( int traces ); int callstackf( FILE *fp, int traces ); void die(const char *message); void alert(const char *message); void hexdump( const void *ptr, unsigned len ); void hexdumpf( FILE *fp, const void *ptr, unsigned len, int width ); void breakpoint(); bool has_debugger(); void trap_install(void); const char *trap_name(int signal); void trap_on_ignore(int signal); void trap_on_quit(int signal); void trap_on_abort(int signal); void trap_on_debug(int signal); int (PANIC)(const char *error, const char *file, int line); int (PRINTF)(const char *text, const char *stack, const char *file, int line, const char *function); int (test)(const char *file, int line, const char *expr, bool result); uint64_t date(); uint64_t date_epoch(); char* date_string(); double time_hh(); double time_mm(); double time_ss(); uint64_t time_ms(); uint64_t time_us(); uint64_t time_ns(); void sleep_ss(double ss); void sleep_ms(double ms); void sleep_us(double us); void sleep_ns(double us); unsigned timer(unsigned ms, unsigned (*callback)(unsigned ms, void *arg), void *arg); void timer_destroy(unsigned timer_handle); typedef vec3i guid; guid guid_create(); float ease_zero(float t); float ease_one(float t); float ease_linear(float t); float ease_out_sine(float t); float ease_out_quad(float t); float ease_out_cubic(float t); float ease_out_quart(float t); float ease_out_quint(float t); float ease_out_expo(float t); float ease_out_circ(float t); float ease_out_back(float t); float ease_out_elastic(float t); float ease_out_bounce(float t); float ease_in_sine(float t); float ease_in_quad(float t); float ease_in_cubic(float t); float ease_in_quart(float t); float ease_in_quint(float t); float ease_in_expo(float t); float ease_in_circ(float t); float ease_in_back(float t); float ease_in_elastic(float t); float ease_in_bounce(float t); float ease_inout_sine(float t); float ease_inout_quad(float t); float ease_inout_cubic(float t); float ease_inout_quart(float t); float ease_inout_quint(float t); float ease_inout_expo(float t); float ease_inout_circ(float t); float ease_inout_back(float t); float ease_inout_elastic(float t); float ease_inout_bounce(float t); float ease_inout_perlin(float t); enum EASE_FLAGS { EASE_SINE, EASE_QUAD, EASE_CUBIC, EASE_QUART, EASE_QUINT, EASE_EXPO, EASE_CIRC, EASE_BACK, EASE_ELASTIC, EASE_BOUNCE, EASE_IN, EASE_OUT = 0, EASE_INOUT = EASE_IN * 2, EASE_ZERO = EASE_INOUT | (EASE_BOUNCE + 1), EASE_ONE, EASE_LINEAR, EASE_INOUT_PERLIN, EASE_NUM }; float ease(float t01, unsigned fn); float ease_pong(float t01, unsigned fn); float ease_ping_pong(float t, unsigned fn1, unsigned fn2); float ease_pong_ping(float t, unsigned fn1, unsigned fn2); const char *ease_enum(unsigned fn); const char**ease_enums(); typedef struct tween_keyframe_t { float t; vec3 v; unsigned ease; } tween_keyframe_t; typedef struct tween_t { tween_keyframe_t* keyframes; vec3 result; float time; float duration; } tween_t; tween_t tween(); void tween_setkey(tween_t *tw, float t, vec3 v, unsigned easing_mode); void tween_delkey(tween_t *tw, float t); float tween_update(tween_t *tw, float dt); void tween_reset(tween_t *tw); void tween_destroy(tween_t *tw); typedef struct curve_t { float* lengths; unsigned* colors; vec3* samples; vec3* points; int* indices; } curve_t; curve_t curve(); void curve_add(curve_t *c, vec3 p); void curve_end(curve_t *c, int num_points); vec3 curve_eval(curve_t *c, float dt, unsigned *color); void curve_destroy(curve_t *c); enum PANEL_FLAGS { PANEL_OPEN = 1, }; int ui_notify(const char *title, const char *body); int ui_window(const char *title, int *enabled); int ui_panel(const char *title, int flags); int ui_collapse(const char *label, const char *id); int ui_collapseo(const char *label, const char *id); int ui_contextual(); int ui_section(const char *title); int ui_int(const char *label, int *value); int ui_bool(const char *label, bool *value); int ui_short(const char *label, short *value); int ui_float(const char *label, float *value); int ui_float2(const char *label, float value[2]); int ui_float3(const char *label, float value[3]); int ui_float4(const char *label, float value[4]); int ui_mat33(const char *label, float mat33[9]); int ui_mat34(const char *label, float mat34[12]); int ui_mat44(const char *label, float mat44[16]); int ui_double(const char *label, double *value); int ui_buffer(const char *label, char *buffer, int buflen); int ui_string(const char *label, char **string); int ui_color3(const char *label, unsigned *color); int ui_color3f(const char *label, float color[3]); int ui_color4(const char *label, unsigned *color); int ui_color4f(const char *label, float color[4]); int ui_unsigned(const char *label, unsigned *value); int ui_unsigned2(const char *label, unsigned *value); int ui_unsigned3(const char *label, unsigned *value); int ui_button(const char *label); int ui_button_transparent(const char *label); int ui_buttons(int buttons, ...); int ui_toolbar(const char *options); int ui_submenu(const char *options); int ui_browse(const char **outfile, bool *inlined); int ui_toggle(const char *label, bool *value); int ui_dialog(const char *title, const char *text, int choices, bool *show); int ui_list(const char *label, const char **items, int num_items, int *selector); int ui_radio(const char *label, const char **items, int num_items, int *selector); int ui_texture(const char *label, texture_t t); int ui_subtexture(const char *label, texture_t t, unsigned x, unsigned y, unsigned w, unsigned h); int ui_image(const char *label, handle id, unsigned w, unsigned h); int ui_subimage(const char *label, handle id, unsigned iw, unsigned ih, unsigned sx, unsigned sy, unsigned sw, unsigned sh); int ui_colormap(const char *label, colormap_t *cm); int ui_separator(); int ui_bitmask8(const char *label, uint8_t *bits); int ui_bitmask16(const char *label, uint16_t *bits); int ui_console(); int ui_clampf(const char *label, float *value, float minf, float maxf); int ui_label(const char *label); int ui_label2(const char *label, const char *caption); int ui_label2_bool(const char *label, bool enabled); int ui_label2_float(const char *label, float value); int ui_label2_toolbar(const char *label, const char *icons); int ui_slider(const char *label, float *value); int ui_slider2(const char *label, float *value, const char *caption); int ui_contextual_end(int close); int ui_collapse_clicked(); int ui_collapse_end(); int ui_panel_end(); int ui_window_end(); int ui_show(const char *panel_or_window_title, int enabled); int ui_dims(const char *panel_or_window_title, float width, float height); int ui_visible(const char *panel_or_window_title); vec2 ui_get_dims(); int ui_enable(); int ui_enabled(); int ui_disable(); int ui_has_menubar(); int ui_menu(const char *items); int ui_menu_editbox(char *buf, int bufcap); int ui_item(); int ui_popups(); int ui_hover(); int ui_active(); int ui_demo(int do_windows); void *ui_handle(); 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; video_t* video( const char *filename, int flags ); texture_t* video_decode( video_t *v ); texture_t* video_textures( video_t *v ); int video_has_finished(video_t *v); double video_duration(video_t *v); int video_seek(video_t *v, double seek_to); double video_position(video_t *v); void video_pause(video_t *v, bool paused); bool video_is_paused(video_t *v); bool video_is_rgb(video_t *v); void video_destroy( video_t *v ); bool record_start(const char *outfile_mp4); bool record_active(); void record_stop(void); enum WINDOW_FLAGS { WINDOW_MSAA2 = 0x02, WINDOW_MSAA4 = 0x04, WINDOW_MSAA8 = 0x08, WINDOW_SQUARE = 0x20, WINDOW_PORTRAIT = 0x40, WINDOW_LANDSCAPE = 0x80, WINDOW_ASPECT = 0x100, WINDOW_FIXED = 0x200, WINDOW_TRANSPARENT = 0x400, WINDOW_BORDERLESS = 0x800, WINDOW_VSYNC = 0, WINDOW_VSYNC_ADAPTIVE = 0x1000, WINDOW_VSYNC_DISABLED = 0x2000, }; bool window_create(float scale, unsigned flags); bool window_create_from_handle(void *handle, float scale, unsigned flags); void window_reload(); int window_frame_begin(); void window_frame_end(); void window_frame_swap(); int window_swap(); void window_loop(void (*function)(void* loopArg), void* loopArg ); void window_loop_exit(); void window_title(const char *title); void window_color(unsigned color); vec2 window_canvas(); void* window_handle(); char* window_stats(); uint64_t window_frame(); int window_width(); int window_height(); double window_time(); double window_delta(); void window_focus(); int window_has_focus(); void window_fullscreen(int enabled); int window_has_fullscreen(); void window_cursor(int visible); int window_has_cursor(); void window_pause(int paused); int window_has_pause(); void window_visible(int visible); int window_has_visible(); void window_maximize(int enabled); int window_has_maximize(); void window_transparent(int enabled); int window_has_transparent(); void window_icon(const char *file_icon); int window_has_icon(); double window_aspect(); void window_aspect_lock(unsigned numer, unsigned denom); void window_aspect_unlock(); double window_fps(); double window_fps_target(); void window_fps_lock(float fps); void window_fps_unlock(); void window_screenshot(const char* outfile_png); int window_record(const char *outfile_mp4); vec2 window_dpi(); enum CURSOR_SHAPES { CURSOR_NONE, CURSOR_HW_ARROW, CURSOR_HW_IBEAM, CURSOR_HW_HDRAG, CURSOR_HW_VDRAG, CURSOR_HW_HAND, CURSOR_HW_CROSS, CURSOR_SW_AUTO, }; void window_cursor_shape(unsigned shape); const char *window_clipboard(); void window_setclipboard(const char *text); typedef struct editor_bind_t { const char *command; const char *bindings; void (*fn)(); } editor_bind_t; void editor_addbind(editor_bind_t bind); typedef struct { map base; struct { pair p; void* key; int val; } tmp, *ptr; int* tmpval; int (*typed_cmp)(void*, void*); uint64_t (*typed_hash)(void*); } * editor_open_map_t; editor_open_map_t *editor_open_map(); int editor_open(const void *obj); void editor_setopen(const void *obj, int value); void editor_altopen(const void *obj); void editor_noopen(void *obj);; typedef struct { map base; struct { pair p; void* key; int val; } tmp, *ptr; int* tmpval; int (*typed_cmp)(void*, void*); uint64_t (*typed_hash)(void*); } * editor_selected_map_t; editor_selected_map_t *editor_selected_map(); int editor_selected(const void *obj); void editor_setselected(const void *obj, int value); void editor_altselected(const void *obj); void editor_noselected(void *obj);; typedef struct { map base; struct { pair p; void* key; int val; } tmp, *ptr; int* tmpval; int (*typed_cmp)(void*, void*); uint64_t (*typed_hash)(void*); } * editor_changed_map_t; editor_changed_map_t *editor_changed_map(); int editor_changed(const void *obj); void editor_setchanged(const void *obj, int value); void editor_altchanged(const void *obj); void editor_nochanged(void *obj);; typedef struct { map base; struct { pair p; void* key; int val; } tmp, *ptr; int* tmpval; int (*typed_cmp)(void*, void*); uint64_t (*typed_hash)(void*); } * editor_popup_map_t; editor_popup_map_t *editor_popup_map(); int editor_popup(const void *obj); void editor_setpopup(const void *obj, int value); void editor_altpopup(const void *obj); void editor_nopopup(void *obj);; typedef struct { map base; struct { pair p; void* key; int val; } tmp, *ptr; int* tmpval; int (*typed_cmp)(void*, void*); uint64_t (*typed_hash)(void*); } * editor_bookmarked_map_t; editor_bookmarked_map_t *editor_bookmarked_map(); int editor_bookmarked(const void *obj); void editor_setbookmarked(const void *obj, int value); void editor_altbookmarked(const void *obj); void editor_nobookmarked(void *obj);; typedef struct { map base; struct { pair p; void* key; int val; } tmp, *ptr; int* tmpval; int (*typed_cmp)(void*, void*); uint64_t (*typed_hash)(void*); } * editor_visible_map_t; editor_visible_map_t *editor_visible_map(); int editor_visible(const void *obj); void editor_setvisible(const void *obj, int value); void editor_altvisible(const void *obj); void editor_novisible(void *obj);; typedef struct { map base; struct { pair p; void* key; int val; } tmp, *ptr; int* tmpval; int (*typed_cmp)(void*, void*); uint64_t (*typed_hash)(void*); } * editor_script_map_t; editor_script_map_t *editor_script_map(); int editor_script(const void *obj); void editor_setscript(const void *obj, int value); void editor_altscript(const void *obj); void editor_noscript(void *obj);; typedef struct { map base; struct { pair p; void* key; int val; } tmp, *ptr; int* tmpval; int (*typed_cmp)(void*, void*); uint64_t (*typed_hash)(void*); } * editor_event_map_t; editor_event_map_t *editor_event_map(); int editor_event(const void *obj); void editor_setevent(const void *obj, int value); void editor_altevent(const void *obj); void editor_noevent(void *obj);; typedef struct { map base; struct { pair p; void* key; char* val; } tmp, *ptr; char** tmpval; int (*typed_cmp)(void*, void*); uint64_t (*typed_hash)(void*); } * editor_iconinstance_map_t; editor_iconinstance_map_t *editor_iconinstance_map(); char* editor_iconinstance(const void *obj); void editor_seticoninstance(const void *obj, char* value); void editor_alticoninstance(const void *obj); void editor_noiconinstance(void *obj);; typedef struct { map base; struct { pair p; void* key; char* val; } tmp, *ptr; char** tmpval; int (*typed_cmp)(void*, void*); uint64_t (*typed_hash)(void*); } * editor_iconclass_map_t; editor_iconclass_map_t *editor_iconclass_map(); char* editor_iconclass(const void *obj); void editor_seticonclass(const void *obj, char* value); void editor_alticonclass(const void *obj); void editor_noiconclass(void *obj);; typedef struct { map base; struct { pair p; void* key; int val; } tmp, *ptr; int* tmpval; int (*typed_cmp)(void*, void*); uint64_t (*typed_hash)(void*); } * editor_treeoffsety_map_t; editor_treeoffsety_map_t *editor_treeoffsety_map(); int editor_treeoffsety(const void *obj); void editor_settreeoffsety(const void *obj, int value); void editor_alttreeoffsety(const void *obj); void editor_notreeoffsety(void *obj);; void editor_destroy_properties(void *o); void editor_load_on_boot(void); void editor_save_on_quit(void); enum EDITOR_MODE { EDITOR_PANEL, EDITOR_WINDOW, EDITOR_WINDOW_NK, EDITOR_WINDOW_NK_SMALL, }; int editor_begin(const char *title, int mode); int editor_end(int mode); int editor_filter(); void editor_select(const char *mask); void editor_unselect(); void editor_select_aabb(aabb box); void editor_selectgroup(obj *first, obj *last); void* editor_first_selected(); void* editor_last_selected(); void editor_addtoworld(obj *o); void editor_watch(const void *o); void* editor_spawn(const char *ini); void editor_spawn1(); void editor_destroy_selected(); void editor_inspect(obj *o); vec3 editor_pick(float mouse_x, float mouse_y); char* editor_path(const char *path); void editor_setmouse(int x, int y); vec2 editor_glyph(int x, int y, const char *style, unsigned codepoint); vec2 editor_glyphs(int x, int y, const char *style, const char *utf8); void editor_gizmos(int dim); int editor_send(const char *cmd); const char* editor_recv(int jobid, double timeout_ss); void editor_pump(); void editor_frame( void (*game)(unsigned, float, double) ); float* engine_getf(const char *key); int* engine_geti(const char *key); char** engine_gets(const char *key); int engine_send(const char *cmd, const char *optional_value); int ui_engine(); ]]) local _M = {} function _M.vec2(x,y) local v = ffi.new("union vec2") v.x = x v.y = y return v end function _M.vec3(x,y,z) local v = ffi.new("union vec3") v.x = x v.y = y v.z = z return v end function _M.vec4(x,y,z,w) local v = ffi.new("union vec4") v.x = x v.y = y v.z = z v.w = w return v end function _M.quat(x,y,z,w) local q = ffi.new("union quat") v.x = x v.y = y v.z = z v.w = w return q end function _M.mat44() local m = ffi.new("float [16]") return m end local v4k = ffi.load("v4k") return setmetatable( _M, { __index = function( table, key ) return v4k[ key ] end } )