ref: 3e643b1faa2854a7b685ae28b3f58166e872a3a4
dir: /examples/dp_renderer_placebo.c/
/* * Copyright © 2020, VideoLAN and dav1d authors * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * 1. Redistributions of source code must retain the above copyright notice, this * list of conditions and the following disclaimer. * * 2. Redistributions in binary form must reproduce the above copyright notice, * this list of conditions and the following disclaimer in the documentation * and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR * ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND * ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #include "dp_renderer.h" #ifdef HAVE_RENDERER_PLACEBO #include <assert.h> #include <libplacebo/renderer.h> #include <libplacebo/utils/upload.h> #ifdef HAVE_PLACEBO_VULKAN # include <libplacebo/vulkan.h> # include <SDL_vulkan.h> #endif #ifdef HAVE_PLACEBO_OPENGL # include <libplacebo/opengl.h> # include <SDL_opengl.h> #endif /** * Renderer context for libplacebo */ typedef struct renderer_priv_ctx { // SDL window SDL_Window *win; // Placebo context struct pl_context *ctx; // Placebo renderer struct pl_renderer *renderer; #ifdef HAVE_PLACEBO_VULKAN // Placebo Vulkan handle const struct pl_vulkan *vk; // Placebo Vulkan instance const struct pl_vk_inst *vk_inst; // Vulkan surface VkSurfaceKHR surf; #endif #ifdef HAVE_PLACEBO_OPENGL // Placebo OpenGL handle const struct pl_opengl *gl; #endif // Placebo GPU const struct pl_gpu *gpu; // Placebo swapchain const struct pl_swapchain *swapchain; // Lock protecting access to the texture SDL_mutex *lock; // Image to render, and planes backing them struct pl_image image; const struct pl_tex *plane_tex[3]; } Dav1dPlayRendererPrivateContext; static Dav1dPlayRendererPrivateContext* placebo_renderer_create_common(int window_flags) { // Create Window SDL_Window *sdlwin = dp_create_sdl_window(window_flags | SDL_WINDOW_RESIZABLE); if (sdlwin == NULL) return NULL; // Alloc Dav1dPlayRendererPrivateContext *rd_priv_ctx = malloc(sizeof(Dav1dPlayRendererPrivateContext)); if (rd_priv_ctx == NULL) { return NULL; } *rd_priv_ctx = (Dav1dPlayRendererPrivateContext) {0}; rd_priv_ctx->win = sdlwin; // Init libplacebo rd_priv_ctx->ctx = pl_context_create(PL_API_VER, &(struct pl_context_params) { .log_cb = pl_log_color, #ifndef NDEBUG .log_level = PL_LOG_DEBUG, #else .log_level = PL_LOG_WARN, #endif }); if (rd_priv_ctx->ctx == NULL) { free(rd_priv_ctx); return NULL; } // Create Mutex rd_priv_ctx->lock = SDL_CreateMutex(); if (rd_priv_ctx->lock == NULL) { fprintf(stderr, "SDL_CreateMutex failed: %s\n", SDL_GetError()); pl_context_destroy(&(rd_priv_ctx->ctx)); free(rd_priv_ctx); return NULL; } return rd_priv_ctx; } #ifdef HAVE_PLACEBO_OPENGL static void *placebo_renderer_create_gl() { SDL_Window *sdlwin = NULL; SDL_GL_SetAttribute(SDL_GL_CONTEXT_FLAGS, SDL_GL_CONTEXT_DEBUG_FLAG); // Common init Dav1dPlayRendererPrivateContext *rd_priv_ctx = placebo_renderer_create_common(SDL_WINDOW_OPENGL); if (rd_priv_ctx == NULL) return NULL; sdlwin = rd_priv_ctx->win; // Init OpenGL struct pl_opengl_params params = pl_opengl_default_params; # ifndef NDEBUG params.debug = true; # endif SDL_GLContext glcontext = SDL_GL_CreateContext(sdlwin); SDL_GL_MakeCurrent(sdlwin, glcontext); rd_priv_ctx->gl = pl_opengl_create(rd_priv_ctx->ctx, ¶ms); if (!rd_priv_ctx->gl) { fprintf(stderr, "Failed creating opengl device!\n"); exit(2); } rd_priv_ctx->swapchain = pl_opengl_create_swapchain(rd_priv_ctx->gl, &(struct pl_opengl_swapchain_params) { .swap_buffers = (void (*)(void *)) SDL_GL_SwapWindow, .priv = sdlwin, }); if (!rd_priv_ctx->swapchain) { fprintf(stderr, "Failed creating opengl swapchain!\n"); exit(2); } int w = WINDOW_WIDTH, h = WINDOW_HEIGHT; SDL_GL_GetDrawableSize(sdlwin, &w, &h); if (!pl_swapchain_resize(rd_priv_ctx->swapchain, &w, &h)) { fprintf(stderr, "Failed resizing vulkan swapchain!\n"); exit(2); } rd_priv_ctx->gpu = rd_priv_ctx->gl->gpu; if (w != WINDOW_WIDTH || h != WINDOW_HEIGHT) printf("Note: window dimensions differ (got %dx%d)\n", w, h); return rd_priv_ctx; } #endif #ifdef HAVE_PLACEBO_VULKAN static void *placebo_renderer_create_vk() { SDL_Window *sdlwin = NULL; // Common init Dav1dPlayRendererPrivateContext *rd_priv_ctx = placebo_renderer_create_common(SDL_WINDOW_VULKAN); if (rd_priv_ctx == NULL) return NULL; sdlwin = rd_priv_ctx->win; // Init Vulkan unsigned num = 0; if (!SDL_Vulkan_GetInstanceExtensions(sdlwin, &num, NULL)) { fprintf(stderr, "Failed enumerating Vulkan extensions: %s\n", SDL_GetError()); exit(1); } const char **extensions = malloc(num * sizeof(const char *)); assert(extensions); SDL_bool ok = SDL_Vulkan_GetInstanceExtensions(sdlwin, &num, extensions); if (!ok) { fprintf(stderr, "Failed getting Vk instance extensions\n"); exit(1); } if (num > 0) { printf("Requesting %d additional Vulkan extensions:\n", num); for (unsigned i = 0; i < num; i++) printf(" %s\n", extensions[i]); } struct pl_vk_inst_params iparams = pl_vk_inst_default_params; iparams.extensions = extensions; iparams.num_extensions = num; rd_priv_ctx->vk_inst = pl_vk_inst_create(rd_priv_ctx->ctx, &iparams); if (!rd_priv_ctx->vk_inst) { fprintf(stderr, "Failed creating Vulkan instance!\n"); exit(1); } free(extensions); if (!SDL_Vulkan_CreateSurface(sdlwin, rd_priv_ctx->vk_inst->instance, &rd_priv_ctx->surf)) { fprintf(stderr, "Failed creating vulkan surface: %s\n", SDL_GetError()); exit(1); } struct pl_vulkan_params params = pl_vulkan_default_params; params.instance = rd_priv_ctx->vk_inst->instance; params.surface = rd_priv_ctx->surf; params.allow_software = true; rd_priv_ctx->vk = pl_vulkan_create(rd_priv_ctx->ctx, ¶ms); if (!rd_priv_ctx->vk) { fprintf(stderr, "Failed creating vulkan device!\n"); exit(2); } // Create swapchain rd_priv_ctx->swapchain = pl_vulkan_create_swapchain(rd_priv_ctx->vk, &(struct pl_vulkan_swapchain_params) { .surface = rd_priv_ctx->surf, .present_mode = VK_PRESENT_MODE_IMMEDIATE_KHR, }); if (!rd_priv_ctx->swapchain) { fprintf(stderr, "Failed creating vulkan swapchain!\n"); exit(2); } int w = WINDOW_WIDTH, h = WINDOW_HEIGHT; if (!pl_swapchain_resize(rd_priv_ctx->swapchain, &w, &h)) { fprintf(stderr, "Failed resizing vulkan swapchain!\n"); exit(2); } rd_priv_ctx->gpu = rd_priv_ctx->vk->gpu; if (w != WINDOW_WIDTH || h != WINDOW_HEIGHT) printf("Note: window dimensions differ (got %dx%d)\n", w, h); return rd_priv_ctx; } #endif static void placebo_renderer_destroy(void *cookie) { Dav1dPlayRendererPrivateContext *rd_priv_ctx = cookie; assert(rd_priv_ctx != NULL); pl_renderer_destroy(&(rd_priv_ctx->renderer)); pl_swapchain_destroy(&(rd_priv_ctx->swapchain)); for (int i = 0; i < 3; i++) pl_tex_destroy(rd_priv_ctx->gpu, &(rd_priv_ctx->plane_tex[i])); #ifdef HAVE_PLACEBO_VULKAN if (rd_priv_ctx->vk) { pl_vulkan_destroy(&(rd_priv_ctx->vk)); vkDestroySurfaceKHR(rd_priv_ctx->vk_inst->instance, rd_priv_ctx->surf, NULL); pl_vk_inst_destroy(&(rd_priv_ctx->vk_inst)); } #endif #ifdef HAVE_PLACEBO_OPENGL if (rd_priv_ctx->gl) pl_opengl_destroy(&(rd_priv_ctx->gl)); #endif SDL_DestroyWindow(rd_priv_ctx->win); pl_context_destroy(&(rd_priv_ctx->ctx)); } static void placebo_render(void *cookie, const Dav1dPlaySettings *settings) { Dav1dPlayRendererPrivateContext *rd_priv_ctx = cookie; assert(rd_priv_ctx != NULL); SDL_LockMutex(rd_priv_ctx->lock); if (!rd_priv_ctx->image.num_planes) { SDL_UnlockMutex(rd_priv_ctx->lock); return; } // Prepare rendering if (rd_priv_ctx->renderer == NULL) { rd_priv_ctx->renderer = pl_renderer_create(rd_priv_ctx->ctx, rd_priv_ctx->gpu); } struct pl_swapchain_frame frame; bool ok = pl_swapchain_start_frame(rd_priv_ctx->swapchain, &frame); if (!ok) { SDL_UnlockMutex(rd_priv_ctx->lock); return; } struct pl_render_params render_params = {0}; if (settings->highquality) render_params = pl_render_default_params; struct pl_render_target target; pl_render_target_from_swapchain(&target, &frame); target.profile = (struct pl_icc_profile) { .data = NULL, .len = 0, }; #if PL_API_VER >= 66 pl_rect2df_aspect_copy(&target.dst_rect, &rd_priv_ctx->image.src_rect, 0.0); if (pl_render_target_partial(&target)) pl_tex_clear(rd_priv_ctx->gpu, target.fbo, (float[4]){ 0.0 }); #endif if (!pl_render_image(rd_priv_ctx->renderer, &rd_priv_ctx->image, &target, &render_params)) { fprintf(stderr, "Failed rendering frame!\n"); pl_tex_clear(rd_priv_ctx->gpu, target.fbo, (float[4]){ 1.0 }); } ok = pl_swapchain_submit_frame(rd_priv_ctx->swapchain); if (!ok) { fprintf(stderr, "Failed submitting frame!\n"); SDL_UnlockMutex(rd_priv_ctx->lock); return; } pl_swapchain_swap_buffers(rd_priv_ctx->swapchain); SDL_UnlockMutex(rd_priv_ctx->lock); } static int placebo_upload_image(void *cookie, Dav1dPicture *dav1d_pic, const Dav1dPlaySettings *settings) { Dav1dPlayRendererPrivateContext *rd_priv_ctx = cookie; assert(rd_priv_ctx != NULL); SDL_LockMutex(rd_priv_ctx->lock); if (dav1d_pic == NULL) { SDL_UnlockMutex(rd_priv_ctx->lock); return 0; } int width = dav1d_pic->p.w; int height = dav1d_pic->p.h; int sub_x = 0, sub_y = 0; int bytes = (dav1d_pic->p.bpc + 7) / 8; // rounded up enum pl_chroma_location chroma_loc = PL_CHROMA_UNKNOWN; struct pl_image *image = &rd_priv_ctx->image; *image = (struct pl_image) { .num_planes = 3, .width = width, .height = height, .src_rect = {0, 0, width, height}, .repr = { .bits = { .sample_depth = bytes * 8, .color_depth = dav1d_pic->p.bpc, }, }, }; // Figure out the correct plane dimensions/count switch (dav1d_pic->p.layout) { case DAV1D_PIXEL_LAYOUT_I400: image->num_planes = 1; break; case DAV1D_PIXEL_LAYOUT_I420: sub_x = sub_y = 1; break; case DAV1D_PIXEL_LAYOUT_I422: sub_x = 1; break; case DAV1D_PIXEL_LAYOUT_I444: break; } // Set the right colorspace metadata etc. switch (dav1d_pic->seq_hdr->pri) { case DAV1D_COLOR_PRI_UNKNOWN: image->color.primaries = PL_COLOR_PRIM_UNKNOWN; break; case DAV1D_COLOR_PRI_BT709: image->color.primaries = PL_COLOR_PRIM_BT_709; break; case DAV1D_COLOR_PRI_BT470M: image->color.primaries = PL_COLOR_PRIM_BT_470M; break; case DAV1D_COLOR_PRI_BT470BG: image->color.primaries = PL_COLOR_PRIM_BT_601_625; break; case DAV1D_COLOR_PRI_BT601: image->color.primaries = PL_COLOR_PRIM_BT_601_625; break; case DAV1D_COLOR_PRI_BT2020: image->color.primaries = PL_COLOR_PRIM_BT_2020; break; case DAV1D_COLOR_PRI_XYZ: // Handled below assert(dav1d_pic->seq_hdr->mtrx == DAV1D_MC_IDENTITY); break; default: printf("warning: unknown dav1d color primaries %d.. ignoring, picture " "may be very incorrect\n", dav1d_pic->seq_hdr->pri); break; } switch (dav1d_pic->seq_hdr->trc) { case DAV1D_TRC_BT709: case DAV1D_TRC_BT470M: case DAV1D_TRC_BT470BG: case DAV1D_TRC_BT601: case DAV1D_TRC_SMPTE240: case DAV1D_TRC_BT2020_10BIT: case DAV1D_TRC_BT2020_12BIT: // These all map to the effective "SDR" CRT-based EOTF, BT.1886 image->color.transfer = PL_COLOR_TRC_BT_1886; break; case DAV1D_TRC_UNKNOWN: image->color.transfer = PL_COLOR_TRC_UNKNOWN; break; case DAV1D_TRC_LINEAR: image->color.transfer = PL_COLOR_TRC_LINEAR; break; case DAV1D_TRC_SRGB: image->color.transfer = PL_COLOR_TRC_SRGB; break; case DAV1D_TRC_SMPTE2084: image->color.transfer = PL_COLOR_TRC_PQ; break; case DAV1D_TRC_HLG: image->color.transfer = PL_COLOR_TRC_HLG; break; default: printf("warning: unknown dav1d color transfer %d.. ignoring, picture " "may be very incorrect\n", dav1d_pic->seq_hdr->trc); break; } switch (dav1d_pic->seq_hdr->mtrx) { case DAV1D_MC_IDENTITY: // This is going to be either RGB or XYZ if (dav1d_pic->seq_hdr->pri == DAV1D_COLOR_PRI_XYZ) { image->repr.sys = PL_COLOR_SYSTEM_XYZ; } else { image->repr.sys = PL_COLOR_SYSTEM_RGB; } break; case DAV1D_MC_UNKNOWN: // PL_COLOR_SYSTEM_UNKNOWN maps to RGB, so hard-code this one image->repr.sys = pl_color_system_guess_ycbcr(width, height); break; case DAV1D_MC_BT709: image->repr.sys = PL_COLOR_SYSTEM_BT_709; break; case DAV1D_MC_BT601: image->repr.sys = PL_COLOR_SYSTEM_BT_601; break; case DAV1D_MC_SMPTE240: image->repr.sys = PL_COLOR_SYSTEM_SMPTE_240M; break; case DAV1D_MC_SMPTE_YCGCO: image->repr.sys = PL_COLOR_SYSTEM_YCGCO; break; case DAV1D_MC_BT2020_NCL: image->repr.sys = PL_COLOR_SYSTEM_BT_2020_NC; break; case DAV1D_MC_BT2020_CL: image->repr.sys = PL_COLOR_SYSTEM_BT_2020_C; break; case DAV1D_MC_ICTCP: // This one is split up based on the actual HDR curve in use if (dav1d_pic->seq_hdr->trc == DAV1D_TRC_HLG) { image->repr.sys = PL_COLOR_SYSTEM_BT_2100_HLG; } else { image->repr.sys = PL_COLOR_SYSTEM_BT_2100_PQ; } break; default: printf("warning: unknown dav1d color matrix %d.. ignoring, picture " "may be very incorrect\n", dav1d_pic->seq_hdr->mtrx); break; } if (dav1d_pic->seq_hdr->color_range) { image->repr.levels = PL_COLOR_LEVELS_PC; } else { image->repr.levels = PL_COLOR_LEVELS_TV; } switch (dav1d_pic->seq_hdr->chr) { case DAV1D_CHR_UNKNOWN: chroma_loc = PL_CHROMA_UNKNOWN; break; case DAV1D_CHR_VERTICAL: chroma_loc = PL_CHROMA_LEFT; break; case DAV1D_CHR_COLOCATED: chroma_loc = PL_CHROMA_TOP_LEFT; break; } #if PL_API_VER >= 63 if (settings->gpugrain && dav1d_pic->frame_hdr->film_grain.present) { Dav1dFilmGrainData *src = &dav1d_pic->frame_hdr->film_grain.data; struct pl_av1_grain_data *dst = &image->av1_grain; *dst = (struct pl_av1_grain_data) { .grain_seed = src->seed, .num_points_y = src->num_y_points, .chroma_scaling_from_luma = src->chroma_scaling_from_luma, .num_points_uv = { src->num_uv_points[0], src->num_uv_points[1] }, .scaling_shift = src->scaling_shift, .ar_coeff_lag = src->ar_coeff_lag, .ar_coeff_shift = src->ar_coeff_shift, .grain_scale_shift = src->grain_scale_shift, .uv_mult = { src->uv_mult[0], src->uv_mult[1] }, .uv_mult_luma = { src->uv_luma_mult[0], src->uv_luma_mult[1] }, .uv_offset = { src->uv_offset[0], src->uv_offset[1] }, .overlap = src->overlap_flag, }; assert(sizeof(dst->points_y) == sizeof(src->y_points)); assert(sizeof(dst->points_uv) == sizeof(src->uv_points)); assert(sizeof(dst->ar_coeffs_y) == sizeof(src->ar_coeffs_y)); memcpy(dst->points_y, src->y_points, sizeof(src->y_points)); memcpy(dst->points_uv, src->uv_points, sizeof(src->uv_points)); memcpy(dst->ar_coeffs_y, src->ar_coeffs_y, sizeof(src->ar_coeffs_y)); // this one has different row sizes for alignment for (int c = 0; c < 2; c++) { for (int i = 0; i < 25; i++) dst->ar_coeffs_uv[c][i] = src->ar_coeffs_uv[c][i]; } } #endif // Upload the actual planes struct pl_plane_data data[3] = { { // Y plane .type = PL_FMT_UNORM, .width = width, .height = height, .pixel_stride = bytes, .row_stride = dav1d_pic->stride[0], .component_size = {bytes * 8}, .component_map = {0}, }, { // U plane .type = PL_FMT_UNORM, .width = width >> sub_x, .height = height >> sub_y, .pixel_stride = bytes, .row_stride = dav1d_pic->stride[1], .component_size = {bytes * 8}, .component_map = {1}, }, { // V plane .type = PL_FMT_UNORM, .width = width >> sub_x, .height = height >> sub_y, .pixel_stride = bytes, .row_stride = dav1d_pic->stride[1], .component_size = {bytes * 8}, .component_map = {2}, }, }; bool ok = true; for (int i = 0; i < image->num_planes; i++) { if (settings->zerocopy) { const struct pl_buf *buf = dav1d_pic->allocator_data; assert(buf); data[i].buf = buf; data[i].buf_offset = (uintptr_t) dav1d_pic->data[i] - (uintptr_t) buf->data; } else { data[i].pixels = dav1d_pic->data[i]; } ok &= pl_upload_plane(rd_priv_ctx->gpu, &image->planes[i], &rd_priv_ctx->plane_tex[i], &data[i]); } // Apply the correct chroma plane shift. This has to be done after pl_upload_plane #if PL_API_VER >= 67 pl_image_set_chroma_location(image, chroma_loc); #else pl_chroma_location_offset(chroma_loc, &image->planes[1].shift_x, &image->planes[1].shift_y); pl_chroma_location_offset(chroma_loc, &image->planes[2].shift_x, &image->planes[2].shift_y); #endif if (!ok) { fprintf(stderr, "Failed uploading planes!\n"); *image = (struct pl_image) {0}; } SDL_UnlockMutex(rd_priv_ctx->lock); return !ok; } // Align to power of 2 #define ALIGN2(x, align) (((x) + (align) - 1) & ~((align) - 1)) static int placebo_alloc_pic(Dav1dPicture *const p, void *cookie) { Dav1dPlayRendererPrivateContext *rd_priv_ctx = cookie; assert(rd_priv_ctx != NULL); SDL_LockMutex(rd_priv_ctx->lock); const struct pl_gpu *gpu = rd_priv_ctx->gpu; int ret = DAV1D_ERR(ENOMEM); // Copied from dav1d_default_picture_alloc const int hbd = p->p.bpc > 8; const int aligned_w = ALIGN2(p->p.w, 128); const int aligned_h = ALIGN2(p->p.h, 128); const int has_chroma = p->p.layout != DAV1D_PIXEL_LAYOUT_I400; const int ss_ver = p->p.layout == DAV1D_PIXEL_LAYOUT_I420; const int ss_hor = p->p.layout != DAV1D_PIXEL_LAYOUT_I444; p->stride[0] = aligned_w << hbd; p->stride[1] = has_chroma ? (aligned_w >> ss_hor) << hbd : 0; // Align strides up to multiples of the GPU performance hints p->stride[0] = ALIGN2(p->stride[0], gpu->limits.align_tex_xfer_stride); p->stride[1] = ALIGN2(p->stride[1], gpu->limits.align_tex_xfer_stride); // Aligning offsets to 4 also implicity aligns to the texel size (1 or 2) size_t off_align = ALIGN2(gpu->limits.align_tex_xfer_offset, 4); const size_t y_sz = ALIGN2(p->stride[0] * aligned_h, off_align); const size_t uv_sz = ALIGN2(p->stride[1] * (aligned_h >> ss_ver), off_align); // The extra DAV1D_PICTURE_ALIGNMENTs are to brute force plane alignment, // even in the case that the driver gives us insane alignments const size_t pic_size = y_sz + 2 * uv_sz; const size_t total_size = pic_size + DAV1D_PICTURE_ALIGNMENT * 4; // Validate size limitations if (total_size > gpu->limits.max_xfer_size) { printf("alloc of %zu bytes exceeds limits\n", total_size); goto err; } const struct pl_buf *buf = pl_buf_create(gpu, &(struct pl_buf_params) { .type = PL_BUF_TEX_TRANSFER, .host_mapped = true, .size = total_size, .memory_type = PL_BUF_MEM_HOST, .user_data = p, }); if (!buf) { printf("alloc of GPU mapped buffer failed\n"); goto err; } assert(buf->data); uintptr_t base = (uintptr_t) buf->data, data[3]; data[0] = ALIGN2(base, DAV1D_PICTURE_ALIGNMENT); data[1] = ALIGN2(data[0] + y_sz, DAV1D_PICTURE_ALIGNMENT); data[2] = ALIGN2(data[1] + uv_sz, DAV1D_PICTURE_ALIGNMENT); // Sanity check offset alignment for the sake of debugging if (data[0] - base != ALIGN2(data[0] - base, off_align) || data[1] - base != ALIGN2(data[1] - base, off_align) || data[2] - base != ALIGN2(data[2] - base, off_align)) { printf("GPU buffer horribly misaligned, expect slowdown!\n"); } p->allocator_data = (void *) buf; p->data[0] = (void *) data[0]; p->data[1] = (void *) data[1]; p->data[2] = (void *) data[2]; ret = 0; // fall through err: SDL_UnlockMutex(rd_priv_ctx->lock); return ret; } static void placebo_release_pic(Dav1dPicture *pic, void *cookie) { Dav1dPlayRendererPrivateContext *rd_priv_ctx = cookie; assert(rd_priv_ctx != NULL); assert(pic->allocator_data); SDL_LockMutex(rd_priv_ctx->lock); const struct pl_gpu *gpu = rd_priv_ctx->gpu; pl_buf_destroy(gpu, (const struct pl_buf **) &pic->allocator_data); SDL_UnlockMutex(rd_priv_ctx->lock); } #ifdef HAVE_PLACEBO_VULKAN const Dav1dPlayRenderInfo rdr_placebo_vk = { .name = "placebo-vk", .create_renderer = placebo_renderer_create_vk, .destroy_renderer = placebo_renderer_destroy, .render = placebo_render, .update_frame = placebo_upload_image, .alloc_pic = placebo_alloc_pic, .release_pic = placebo_release_pic, # if PL_API_VER >= 63 .supports_gpu_grain = 1, # endif }; #else const Dav1dPlayRenderInfo rdr_placebo_vk = { NULL }; #endif #ifdef HAVE_PLACEBO_OPENGL const Dav1dPlayRenderInfo rdr_placebo_gl = { .name = "placebo-gl", .create_renderer = placebo_renderer_create_gl, .destroy_renderer = placebo_renderer_destroy, .render = placebo_render, .update_frame = placebo_upload_image, .alloc_pic = placebo_alloc_pic, .release_pic = placebo_release_pic, # if PL_API_VER >= 63 .supports_gpu_grain = 1, # endif }; #else const Dav1dPlayRenderInfo rdr_placebo_gl = { NULL }; #endif #else const Dav1dPlayRenderInfo rdr_placebo_vk = { NULL }; const Dav1dPlayRenderInfo rdr_placebo_gl = { NULL }; #endif