#include "render.h" #include "config.h" #include "datastream.h" #include "debugdraw.h" #include "font.h" #include "gameobject.h" #include "log.h" #include "sprite.h" #include "particle.h" #include "window.h" #include "model.h" #include "stb_ds.h" #include "resources.h" #include "yugine.h" #include "sokol/sokol_app.h" #define SOKOL_GLUE_IMPL #include "sokol/sokol_glue.h" #include "stb_image_write.h" #include "sokol/sokol_gfx.h" #include "sokol_gfx_ext.h" #include "crt.sglsl.h" #include "msf_gif.h" HMM_Vec2 campos = {0,0}; float camzoom = 1; sg_sampler std_sampler; sg_sampler tex_sampler; static struct { sg_swapchain swap; sg_pipeline pipe; sg_bindings bind; sg_shader shader; sg_image img; sg_image depth; } sg_gif; static struct { sg_pipeline pipe; sg_bindings bind; sg_shader shader; } sg_crt; static struct { int w; int h; int cpf; int depth; double timer; double spf; int rec; uint8_t *buffer; } gif; MsfGifState gif_state = {}; void gif_rec_start(int w, int h, int cpf, int bitdepth) { gif.w = w; gif.h = h; gif.depth = bitdepth; msf_gif_begin(&gif_state, gif.w, gif.h); gif.cpf = cpf; gif.spf = cpf/100.0; gif.rec = 1; gif.timer = apptime(); if (gif.buffer) free(gif.buffer); gif.buffer = malloc(gif.w*gif.h*4); sg_destroy_image(sg_gif.img); sg_destroy_image(sg_gif.depth); sg_gif.img = sg_make_image(&(sg_image_desc){ .render_target = true, .width = gif.w, .height = gif.h, .pixel_format = SG_PIXELFORMAT_RGBA8, .label = "gif rt", }); sg_gif.depth = sg_make_image(&(sg_image_desc){ .render_target = true, .width = gif.w, .height = gif.h, .label = "gif depth", }); sg_gif.swap = sglue_swapchain(); } void gif_rec_end(const char *path) { if (!gif.rec) return; MsfGifResult gif_res = msf_gif_end(&gif_state); if (gif_res.data) { FILE *f = fopen(path, "wb"); fwrite(gif_res.data, gif_res.dataSize, 1, f); fclose(f); } msf_gif_free(gif_res); gif.rec = 0; } void capture_screen(int x, int y, int w, int h, const char *path) { int n = 4; void *data = malloc(w*h*n); sg_query_pixels(0,0,w,h,1,data,w*h*sizeof(char)*n); // sg_query_image_pixels(crt_post.img, crt_post.bind.fs.samplers[0], data, w*h*4); stbi_write_png("cap.png", w, h, n, data, n*w); // stbi_write_bmp("cap.bmp", w, h, n, data); free(data); } #include "sokol/sokol_app.h" #include "HandmadeMath.h" sg_pass_action pass_action = {0}; void trace_apply_pipeline(sg_pipeline pip, void *data) { // YughSpam("Applying pipeline %u %s.", pip, sg_query_pipeline_desc(pip).label); } void trace_begin_pass(sg_pass pass, const sg_pass_action *action, void *data) { // YughSpam("Begin pass %s", pass.label); } #define SG_TRACE_SET(NAME) \ void trace_alloc_##NAME (sg_##NAME id, void *data) \ { \ sg_##NAME##_desc desc = sg_query_##NAME##_desc(id); \ YughSpam("Alloc " #NAME " %d [%s]", id, desc.label); \ } \ \ void trace_dealloc_##NAME(sg_##NAME id, void *data) \ { \ sg_##NAME##_desc desc = sg_query_##NAME##_desc(id); \ YughSpam("Dealloc " #NAME " %d [%s]", id, desc.label); \ } \ \ void trace_make_##NAME(sg_##NAME##_desc *desc, void *data) \ { \ YughSpam("Make " #NAME " [%s]", desc->label); \ } \ \ void trace_destroy_##NAME(sg_##NAME id, void *data) \ { \ sg_##NAME##_desc desc = sg_query_##NAME##_desc(id); \ YughSpam("Destroy " #NAME " %d [%s]", id, desc.label); \ } \ \ void trace_init_##NAME(sg_##NAME id, sg_##NAME##_desc *desc, void *data) \ { \ YughSpam("Init " #NAME " %d [%s]", id, desc->label); \ } \ \ void trace_uninit_##NAME(sg_##NAME id, void *data) \ { \ sg_##NAME##_desc desc = sg_query_##NAME##_desc(id); \ YughSpam("Init " #NAME " %d [%s]", id, desc.label); \ } \ \ void trace_fail_##NAME(sg_##NAME id, void *data) \ { \ sg_##NAME##_desc desc = sg_query_##NAME##_desc(id); \ YughError("Failed " #NAME " %d: %s", id, desc.label); \ } \ SG_TRACE_SET(buffer) SG_TRACE_SET(image) SG_TRACE_SET(sampler) SG_TRACE_SET(shader) SG_TRACE_SET(pipeline) SG_TRACE_SET(attachments) #define SG_HOOK_SET(NAME) \ .alloc_##NAME = trace_alloc_##NAME, \ .dealloc_##NAME = trace_dealloc_##NAME, \ .init_##NAME = trace_init_##NAME, \ .uninit_##NAME = trace_uninit_##NAME, \ .fail_##NAME = trace_fail_##NAME, \ .destroy_##NAME = trace_destroy_##NAME, \ .make_##NAME = trace_make_##NAME \ void trace_append_buffer(sg_buffer id, sg_range *data, void *user) { sg_buffer_desc desc = sg_query_buffer_desc(id); // YughSpam("Appending buffer %d [%s]", id, desc.label); } static sg_trace_hooks hooks = { .apply_pipeline = trace_apply_pipeline, .begin_pass = trace_begin_pass, SG_HOOK_SET(buffer), SG_HOOK_SET(image), SG_HOOK_SET(shader), SG_HOOK_SET(sampler), SG_HOOK_SET(pipeline), SG_HOOK_SET(attachments), .append_buffer = trace_append_buffer }; void render_init() { mainwin.size = (HMM_Vec2){sapp_width(), sapp_height()}; sg_setup(&(sg_desc){ .environment = sglue_environment(), .logger = { .func = sg_logging }, .buffer_pool_size = 1024 }); std_sampler = sg_make_sampler(&(sg_sampler_desc){}); tex_sampler = sg_make_sampler(&(sg_sampler_desc){ .min_filter = SG_FILTER_LINEAR, .mag_filter = SG_FILTER_LINEAR, .mipmap_filter = SG_FILTER_LINEAR, .wrap_u = SG_WRAP_REPEAT, .wrap_v = SG_WRAP_REPEAT }); #ifndef NDEBUG sg_trace_hooks hh = sg_install_trace_hooks(&hooks); #endif font_init(); debugdraw_init(); sg_color c = (sg_color){0,0,0,1}; pass_action = (sg_pass_action){ .colors[0] = {.load_action = SG_LOADACTION_CLEAR, .clear_value = c}, }; } HMM_Mat4 projection = {0.f}; HMM_Mat4 hudproj = {0.f}; HMM_Mat4 useproj = {0}; #define MODE_STRETCH 0 #define MODE_KEEP 1 #define MODE_WIDTH 2 #define MODE_HEIGHT 3 #define MODE_EXPAND 4 #define MODE_FULL 5 void openglRender(struct window *window, transform2d *cam, float zoom) { sg_swapchain sch = sglue_swapchain(); sg_begin_pass(&(sg_pass){ .action = pass_action, .swapchain = sglue_swapchain(), .label = "window pass" }); HMM_Vec2 usesize = window->rendersize; switch(window->mode) { case MODE_STRETCH: sg_apply_viewportf(0,0,window->size.x,window->size.y,1); break; case MODE_WIDTH: sg_apply_viewportf(0, window->top, window->size.x, window->psize.y,1); // keep width break; case MODE_HEIGHT: sg_apply_viewportf(window->left,0,window->psize.x, window->size.y,1); // keep height break; case MODE_KEEP: sg_apply_viewportf(0,0,window->rendersize.x, window->rendersize.y, 1); // no scaling break; case MODE_EXPAND: if (window->aspect < window->raspect) sg_apply_viewportf(0, window->top, window->size.x, window->psize.y,1); // keep width else sg_apply_viewportf(window->left,0,window->psize.x, window->size.y,1); // keep height break; case MODE_FULL: usesize = window->size; break; } // 2D projection campos = cam->pos; camzoom = zoom; projection = HMM_Orthographic_RH_NO( campos.x - camzoom * usesize.x / 2, campos.x + camzoom * usesize.x / 2, campos.y - camzoom * usesize.y / 2, campos.y + camzoom * usesize.y / 2, -10000.f, 10000.f); /* if (gif.rec && (apptime() - gif.timer) > gif.spf) { sg_begin_pass(&(sg_pass){ .action = pass_action, .swapchain = sg_gif.swap }); sg_apply_pipeline(sg_gif.pipe); sg_apply_bindings(&sg_gif.bind); sg_draw(0,6,1); sg_end_pass(); gif.timer = apptime(); sg_query_image_pixels(sg_gif.img, crt_post.bind.fs.samplers[0], gif.buffer, gif.w*gif.h*4); msf_gif_frame(&gif_state, gif.buffer, gif.cpf, gif.depth, gif.w * -4); } */ } struct boundingbox cwh2bb(HMM_Vec2 c, HMM_Vec2 wh) { struct boundingbox bb = { .t = c.Y + wh.Y/2, .b = c.Y - wh.Y/2, .r = c.X + wh.X/2, .l = c.X - wh.X/2 }; return bb; } float *rgba2floats(float *r, struct rgba c) { r[0] = (float)c.r / RGBA_MAX; r[1] = (float)c.g / RGBA_MAX; r[2] = (float)c.b / RGBA_MAX; r[3] = (float)c.a / RGBA_MAX; return r; } sg_blend_state blend_trans = { .enabled = true, .src_factor_rgb = SG_BLENDFACTOR_SRC_ALPHA, .dst_factor_rgb = SG_BLENDFACTOR_ONE_MINUS_SRC_ALPHA, .src_factor_alpha = SG_BLENDFACTOR_SRC_ALPHA, .dst_factor_alpha = SG_BLENDFACTOR_ONE_MINUS_SRC_ALPHA };