#include "texture.h" #include "log.h" #include "render.h" #include "sokol/sokol_gfx.h" #include #include #include #include "resources.h" #define STB_IMAGE_RESIZE_IMPLEMENTATION #include "stb_image_resize.h" #include #define QOI_IMPLEMENTATION #include "qoi.h" struct glrect ST_UNIT = {0.f, 1.f, 0.f, 1.f}; static struct { char *key; struct Texture *value; } *texhash = NULL; struct Texture *tex_default; struct Texture *texture_notex() { return texture_pullfromfile("icons/no_tex.gif"); } unsigned int next_pow2(unsigned int v) { v--; v |= v >> 1; v |= v >> 2; v |= v >> 4; v |= v >> 8; v |= v >> 16; v++; return v; } int mip_levels(int width, int height) { int levels = 0; while (width > 1 || height > 1) { width >>= 1; height >>= 1; levels++; } return levels; } int mip_wh(int w, int h, int *mw, int *mh, int lvl) { w >>= lvl; h >>= lvl; if (w == 0 && h == 0) return 1; *mw = w ? w : 1; *mh = h ? h : 1; return 0; } int gif_nframes(const char *path) { struct Texture *t = texture_pullfromfile(path); return t->frames; } /* If an empty string or null is put for path, loads default texture */ struct Texture *texture_pullfromfile(const char *path) { if (!path) return texture_notex(); int index = shgeti(texhash, path); if (index != -1) return texhash[index].value; long rawlen; unsigned char *raw = slurp_file(path, &rawlen); if (!raw) return texture_notex(); unsigned char *data; struct Texture *tex = calloc(1, sizeof(*tex)); tex->opts.sprite = 1; tex->opts.mips = 0; tex->opts.gamma = 0; tex->opts.wrapx = 1; tex->opts.wrapy = 1; int n; char *ext = strrchr(path, '.'); if (!strcmp(ext, ".qoi")) { qoi_desc qoi; data = qoi_decode(raw, rawlen, &qoi, 4); tex->width = qoi.width; tex->height = qoi.height; n = qoi.channels; } else if (!strcmp(ext, ".gif")) { int *delays; data = stbi_load_gif_from_memory(raw, rawlen, &delays, &tex->width, &tex->height, &tex->frames, &n, 4); tex->height *= tex->frames; } else { data = stbi_load_from_memory(raw, rawlen, &tex->width, &tex->height, &n, 4); } free(raw); if (data == NULL) { YughError("STBI failed to load file %s with message: %s\nOpening default instead.", path, stbi_failure_reason()); return texture_notex(); } unsigned int nw = next_pow2(tex->width); unsigned int nh = next_pow2(tex->height); tex->data = data; int filter; if (tex->opts.sprite) { filter = SG_FILTER_NEAREST; } else { filter = SG_FILTER_LINEAR; } sg_image_data sg_img_data; int mips = mip_levels(tex->width, tex->height)+1; YughInfo("Has %d mip levels, from wxh %dx%d, pow2 is %ux%u.", mips, tex->width, tex->height,nw,nh); int mipw, miph; mipw = tex->width; miph = tex->height; sg_img_data.subimage[0][0] = (sg_range){ .ptr = data, .size = mipw*miph*4 }; unsigned char *mipdata[mips]; mipdata[0] = data; for (int i = 1; i < mips; i++) { int w, h, mipw, miph; mip_wh(tex->width, tex->height, &mipw, &miph, i-1); /* mipw miph are previous iteration */ mip_wh(tex->width, tex->height, &w, &h, i); mipdata[i] = malloc(w * h * 4); stbir_resize_uint8(mipdata[i-1], mipw, miph, 0, mipdata[i], w, h, 0, 4); sg_img_data.subimage[0][i] = (sg_range){ .ptr = mipdata[i], .size = w*h*4 }; mipw = w; miph = h; } tex->id = sg_make_image(&(sg_image_desc){ .type = SG_IMAGETYPE_2D, .width = tex->width, .height = tex->height, .usage = SG_USAGE_IMMUTABLE, .num_mipmaps = mips, .data = sg_img_data }); if (shlen(texhash) == 0) sh_new_arena(texhash); shput(texhash, path, tex); for (int i = 1; i < mips; i++) free(mipdata[i]); return tex; } void texture_sync(const char *path) { YughWarn("Need to implement texture sync."); } char *tex_get_path(struct Texture *tex) { for (int i = 0; i < shlen(texhash); i++) { if (tex == texhash[i].value) { YughInfo("Found key %s", texhash[i].key); return texhash[i].key; } } return ""; } struct Texture *texture_fromdata(void *raw, long size) { struct Texture *tex = calloc(1, sizeof(*tex)); tex->opts.sprite = 1; tex->opts.mips = 0; tex->opts.gamma = 0; tex->opts.wrapx = 1; tex->opts.wrapy = 1; int n; void *data = stbi_load_from_memory(raw, size, &tex->width, &tex->height, &n, 4); if (data == NULL) { YughError("Given raw data no valid. Loading default instead."); return texture_notex(); } unsigned int nw = next_pow2(tex->width); unsigned int nh = next_pow2(tex->height); tex->data = data; int filter; if (tex->opts.sprite) { filter = SG_FILTER_NEAREST; } else { filter = SG_FILTER_LINEAR; } sg_image_data sg_img_data; int mips = mip_levels(tex->width, tex->height)+1; YughInfo("Has %d mip levels, from wxh %dx%d, pow2 is %ux%u.", mips, tex->width, tex->height,nw,nh); int mipw, miph; mipw = tex->width; miph = tex->height; sg_img_data.subimage[0][0] = (sg_range){ .ptr = data, .size = mipw*miph*4 }; unsigned char *mipdata[mips]; mipdata[0] = data; for (int i = 1; i < mips; i++) { int w, h, mipw, miph; mip_wh(tex->width, tex->height, &mipw, &miph, i-1); /* mipw miph are previous iteration */ mip_wh(tex->width, tex->height, &w, &h, i); mipdata[i] = malloc(w * h * 4); stbir_resize_uint8(mipdata[i-1], mipw, miph, 0, mipdata[i], w, h, 0, 4); sg_img_data.subimage[0][i] = (sg_range){ .ptr = mipdata[i], .size = w*h*4 }; mipw = w; miph = h; } tex->id = sg_make_image(&(sg_image_desc){ .type = SG_IMAGETYPE_2D, .width = tex->width, .height = tex->height, .usage = SG_USAGE_IMMUTABLE, .num_mipmaps = mips, .data = sg_img_data }); for (int i = 1; i < mips; i++) free(mipdata[i]); return tex; } struct Texture *texture_loadfromfile(const char *path) { struct Texture *new = texture_pullfromfile(path); /* if (new->id == 0) { glGenTextures(1, &new->id); //tex_gpu_load(new); YughInfo("Loaded texture path %s", path); } */ return new; } void tex_gpu_reload(struct Texture *tex) { tex_gpu_free(tex); // tex_gpu_load(tex); } void anim_calc(struct anim2d *anim) { anim->size[0] = anim->anim->tex->width * st_s_w(anim->anim->st_frames[anim->frame]); anim->size[1] = anim->anim->tex->height * st_s_h(anim->anim->st_frames[anim->frame]); } void anim_incr(struct anim2d *anim) { anim->frame = (anim->frame + 1) % arrlen(anim->anim->st_frames); if (!anim->anim->loop && anim->frame == arrlen(anim->anim->st_frames)) anim_pause(anim); anim_calc(anim); } void anim_decr(struct anim2d *anim) { anim->frame = (anim->frame + arrlen(anim->anim->st_frames) - 1) % arrlen(anim->anim->st_frames); anim_calc(anim); } struct glrect anim_get_rect(struct anim2d *anim) { return anim->anim->st_frames[anim->frame]; } void anim_setframe(struct anim2d *anim, int frame) { anim->frame = frame; anim_calc(anim); } struct TexAnim *anim2d_from_tex(const char *path, int frames, int fps) { struct TexAnim *anim = malloc(sizeof(*anim)); anim->tex = texture_loadfromfile(path); texanim_fromframes(anim, frames); anim->ms = (float)1 / fps; return anim; } void texanim_fromframes(struct TexAnim *anim, int frames) { if (anim->st_frames) { free(anim->st_frames); } arrsetlen(anim->st_frames, frames); float width = (float)1 / frames; for (int i = 0; i < frames; i++) { anim->st_frames[i].s0 = width * i; anim->st_frames[i].s1 = width * (i + 1); anim->st_frames[i].t0 = 0.f; anim->st_frames[i].t1 = 1.f; } } void tex_gpu_free(struct Texture *tex) { /* if (tex->id != 0) { glDeleteTextures(1, &tex->id); tex->id = 0; } */ } int anim_frames(struct TexAnim *a) { return arrlen(a->st_frames); } struct glrect tex_get_rect(struct Texture *tex) { return ST_UNIT; } cpVect tex_get_dimensions(struct Texture *tex) { if (!tex) return cpvzero; cpVect d; d.x = tex->width; d.y = tex->height; return d; } void tex_bind(struct Texture *tex) { /* glActiveTexture(GL_TEXTURE0); glBindTexture(GL_TEXTURE_2D, tex->id); glBindTexture(GL_TEXTURE_2D_ARRAY, tex->id); */ } /********************** ANIM2D ****************/ void anim_load(struct anim2d *anim, const char *path) { anim->anim = &texture_pullfromfile(path)->anim; anim->anim->tex->opts.animation = 1; anim_stop(anim); anim_play(anim); } void anim_play(struct anim2d *anim) { // if (anim->playing) // return; // if (anim->frame == anim_frames(anim->anim)) // anim->frame = 0; // anim->playing = 1; // if (anim->timer == NULL) // anim->timer = id2timer(timer_make(1.f / anim->anim->ms, anim_incr, anim, 0, 0)); // else // timerr_settime(anim->timer, 1.f / anim->anim->ms); // timer_start(anim->timer); } void anim_stop(struct anim2d *anim) { if (!anim->playing) return; anim->playing = 0; anim->frame = 0; anim->pausetime = 0; timer_stop(anim->timer); } void anim_pause(struct anim2d *anim) { if (!anim->playing) return; anim->playing = 0; timer_pause(anim->timer); } void anim_fwd(struct anim2d *anim) { anim_incr(anim); } void anim_bkwd(struct anim2d *anim) { anim_decr(anim); } float st_s_w(struct glrect st) { return (st.s1 - st.s0); } float st_s_h(struct glrect st) { return (st.t1 - st.t0); }