/* * Copyright 2017 Google Inc. * * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. */ #include "SkColorData.h" #include "SkCpu.h" #include "SkJumper.h" #include "SkOnce.h" #include "SkRasterPipeline.h" #include "SkTemplates.h" #if !defined(SK_JUMPER_USE_ASSEMBLY) // We'll use __has_feature(memory_sanitizer) to detect MSAN. // SkJumper_generated.S is not compiled with MSAN, so MSAN would yell really loud. #if !defined(__has_feature) #define __has_feature(x) 0 #endif #if 0 || __has_feature(memory_sanitizer) #define SK_JUMPER_USE_ASSEMBLY 0 #else #define SK_JUMPER_USE_ASSEMBLY 1 #endif #endif #define M(st) +1 static const int kNumStages = SK_RASTER_PIPELINE_STAGES(M); #undef M #ifndef SK_JUMPER_DISABLE_8BIT // Intentionally commented out; optional logging for local debugging. #if 0 && SK_JUMPER_USE_ASSEMBLY && (defined(__x86_64__) || defined(_M_X64)) #include #define M(st) #st, static const char* kStageNames[] = { SK_RASTER_PIPELINE_STAGES(M) }; #undef M static std::atomic gMissingStageCounters[kNumStages]; static void log_missing(SkRasterPipeline::StockStage st) { static SkOnce once; once([] { atexit([] { int total = 0; for (int i = 0; i < kNumStages; i++) { if (int count = gMissingStageCounters[i].load()) { SkDebugf("%7d\t%s\n", count, kStageNames[i]); total += count; } } SkDebugf("%7d total\n", total); }); }); gMissingStageCounters[st]++; } #else static void log_missing(SkRasterPipeline::StockStage) {} #endif #endif // We can't express the real types of most stage functions portably, so we use a stand-in. // We'll only ever call start_pipeline(), which then chains into the rest. using StageFn = void(void); using StartPipelineFn = void(size_t,size_t,size_t,size_t, void**); // Some platforms expect C "name" maps to asm "_name", others to "name". #if defined(__APPLE__) #define ASM(name, suffix) sk_##name##_##suffix #else #define ASM(name, suffix) _sk_##name##_##suffix #endif extern "C" { #if !SK_JUMPER_USE_ASSEMBLY // We'll just run baseline code. #elif defined(__x86_64__) || defined(_M_X64) StartPipelineFn ASM(start_pipeline, skx), ASM(start_pipeline, hsw), ASM(start_pipeline, avx), ASM(start_pipeline, sse41), ASM(start_pipeline, sse2), ASM(start_pipeline, hsw_lowp), ASM(start_pipeline,sse41_lowp), ASM(start_pipeline, sse2_lowp); StageFn ASM(just_return, skx), ASM(just_return, hsw), ASM(just_return, avx), ASM(just_return, sse41), ASM(just_return, sse2), ASM(just_return, hsw_lowp), ASM(just_return,sse41_lowp), ASM(just_return, sse2_lowp); #define M(st) StageFn ASM(st, skx), \ ASM(st, hsw), \ ASM(st, avx), \ ASM(st,sse41), \ ASM(st, sse2), \ ASM(st, hsw_lowp), \ ASM(st,sse41_lowp), \ ASM(st, sse2_lowp); SK_RASTER_PIPELINE_STAGES(M) #undef M #elif defined(__i386__) || defined(_M_IX86) StartPipelineFn ASM(start_pipeline,sse2), ASM(start_pipeline,sse2_lowp); StageFn ASM(just_return,sse2), ASM(just_return,sse2_lowp); #define M(st) StageFn ASM(st,sse2), \ ASM(st,sse2_lowp); SK_RASTER_PIPELINE_STAGES(M) #undef M #endif // Baseline code compiled as a normal part of Skia. StartPipelineFn sk_start_pipeline; StageFn sk_just_return; #define M(st) StageFn sk_##st; SK_RASTER_PIPELINE_STAGES(M) #undef M #if defined(JUMPER_HAS_NEON_LOWP) StartPipelineFn sk_start_pipeline_lowp; StageFn sk_just_return_lowp; #define M(st) StageFn sk_##st##_lowp; SK_RASTER_PIPELINE_STAGES(M) #undef M #endif } #if SK_JUMPER_USE_ASSEMBLY #if defined(__x86_64__) || defined(_M_X64) template static constexpr StageFn* hsw_lowp(); template static constexpr StageFn* sse41_lowp(); template static constexpr StageFn* sse2_lowp(); #define LOWP(st) \ template <> constexpr StageFn* hsw_lowp() { \ return ASM(st,hsw_lowp); \ } \ template <> constexpr StageFn* sse41_lowp() { \ return ASM(st,sse41_lowp); \ } \ template <> constexpr StageFn* sse2_lowp() { \ return ASM(st,sse2_lowp); \ } #define NOPE(st) \ template <> constexpr StageFn* hsw_lowp() { \ return nullptr; \ } \ template <> constexpr StageFn* sse41_lowp() { \ return nullptr; \ } \ template <> constexpr StageFn* sse2_lowp() { \ return nullptr; \ } #elif defined(__i386__) || defined(_M_IX86) template static constexpr StageFn* sse2_lowp(); #define LOWP(st) \ template <> constexpr StageFn* sse2_lowp() { \ return ASM(st,sse2_lowp); \ } #define NOPE(st) \ template <> constexpr StageFn* sse2_lowp() { \ return nullptr; \ } #elif defined(JUMPER_HAS_NEON_LOWP) template static constexpr StageFn* neon_lowp(); #define LOWP(st) \ template <> constexpr StageFn* neon_lowp() { \ return sk_##st##_lowp; \ } #define NOPE(st) \ template <> constexpr StageFn* neon_lowp() { \ return nullptr; \ } #else #define LOWP(st) #define NOPE(st) #endif #define TODO(st) NOPE(st) // stages that should be implemented in lowp, but aren't. NOPE(callback) LOWP(move_src_dst) LOWP(move_dst_src) NOPE(clamp_0) NOPE(clamp_1) LOWP(clamp_a) LOWP(clamp_a_dst) NOPE(unpremul) LOWP(premul) LOWP(premul_dst) LOWP(force_opaque) LOWP(force_opaque_dst) LOWP(set_rgb) LOWP(swap_rb) LOWP(invert) NOPE(from_srgb) NOPE(from_srgb_dst) NOPE(to_srgb) LOWP(black_color) LOWP(white_color) LOWP(uniform_color) LOWP(seed_shader) NOPE(dither) LOWP(load_a8) LOWP(load_a8_dst) LOWP(store_a8) LOWP(gather_a8) LOWP(load_g8) LOWP(load_g8_dst) LOWP(gather_g8) LOWP(load_565) LOWP(load_565_dst) LOWP(store_565) LOWP(gather_565) LOWP(load_4444) LOWP(load_4444_dst) LOWP(store_4444) LOWP(gather_4444) NOPE(load_f16) NOPE(load_f16_dst) NOPE(store_f16) NOPE(gather_f16) NOPE(load_f32) NOPE(load_f32_dst) NOPE(store_f32) LOWP(load_8888) LOWP(load_8888_dst) LOWP(store_8888) LOWP(gather_8888) LOWP(load_bgra) LOWP(load_bgra_dst) LOWP(store_bgra) LOWP(gather_bgra) NOPE(load_1010102) NOPE(load_1010102_dst) NOPE(store_1010102) NOPE(gather_1010102) TODO(bilerp_clamp_8888) TODO(load_u16_be) TODO(load_rgb_u16_be) TODO(store_u16_be) NOPE(load_tables_u16_be) NOPE(load_tables_rgb_u16_be) NOPE(load_tables) NOPE(load_rgba) NOPE(store_rgba) LOWP(scale_u8) LOWP(scale_565) LOWP(scale_1_float) LOWP( lerp_u8) LOWP( lerp_565) LOWP( lerp_1_float) LOWP(dstatop) LOWP(dstin) LOWP(dstout) LOWP(dstover) LOWP(srcatop) LOWP(srcin) LOWP(srcout) LOWP(srcover) LOWP(clear) LOWP(modulate) LOWP(multiply) LOWP(plus_) LOWP(screen) LOWP(xor_) NOPE(colorburn) NOPE(colordodge) LOWP(darken) LOWP(difference) LOWP(exclusion) LOWP(hardlight) LOWP(lighten) LOWP(overlay) NOPE(softlight) NOPE(hue) NOPE(saturation) NOPE(color) NOPE(luminosity) LOWP(srcover_rgba_8888) LOWP(srcover_bgra_8888) LOWP(luminance_to_alpha) LOWP(matrix_translate) LOWP(matrix_scale_translate) LOWP(matrix_2x3) NOPE(matrix_3x4) TODO(matrix_4x5) TODO(matrix_4x3) LOWP(matrix_perspective) NOPE(parametric_r) NOPE(parametric_g) NOPE(parametric_b) NOPE(parametric_a) NOPE(gamma) NOPE(gamma_dst) NOPE(table_r) NOPE(table_g) NOPE(table_b) NOPE(table_a) NOPE(lab_to_xyz) TODO(mirror_x) TODO(repeat_x) TODO(mirror_y) TODO(repeat_y) LOWP(decal_x) LOWP(decal_y) LOWP(decal_x_and_y) LOWP(check_decal_mask) TODO(bilinear_nx) TODO(bilinear_px) TODO(bilinear_ny) TODO(bilinear_py) TODO(bicubic_n3x) TODO(bicubic_n1x) TODO(bicubic_p1x) TODO(bicubic_p3x) TODO(bicubic_n3y) TODO(bicubic_n1y) TODO(bicubic_p1y) TODO(bicubic_p3y) TODO(save_xy) TODO(accumulate) LOWP(clamp_x_1) LOWP(mirror_x_1) LOWP(repeat_x_1) LOWP(evenly_spaced_gradient) LOWP(gradient) LOWP(evenly_spaced_2_stop_gradient) LOWP(xy_to_unit_angle) LOWP(xy_to_radius) TODO(negate_x) TODO(xy_to_2pt_conical_strip) TODO(xy_to_2pt_conical_focal_on_circle) TODO(xy_to_2pt_conical_well_behaved) TODO(xy_to_2pt_conical_greater) TODO(xy_to_2pt_conical_smaller) TODO(alter_2pt_conical_compensate_focal) TODO(alter_2pt_conical_unswap) TODO(mask_2pt_conical_nan) TODO(mask_2pt_conical_degenerates) TODO(apply_vector_mask) TODO(byte_tables) TODO(byte_tables_rgb) NOPE(rgb_to_hsl) NOPE(hsl_to_rgb) NOPE(clut_3D) NOPE(clut_4D) NOPE(gauss_a_to_rgba) #undef LOWP #undef TODO #undef NOPE #endif // Engines comprise everything we need to run SkRasterPipelines. struct SkJumper_Engine { StageFn* stages[kNumStages]; StartPipelineFn* start_pipeline; StageFn* just_return; }; // We'll default to this baseline engine, but try to choose a better one at runtime. static const SkJumper_Engine kBaseline = { #define M(stage) sk_##stage, { SK_RASTER_PIPELINE_STAGES(M) }, #undef M sk_start_pipeline, sk_just_return, }; static SkJumper_Engine gEngine = kBaseline; static SkOnce gChooseEngineOnce; static SkJumper_Engine choose_engine() { #if !SK_JUMPER_USE_ASSEMBLY // We'll just run baseline code. #elif defined(__x86_64__) || defined(_M_X64) #if !defined(_MSC_VER) // No _skx stages for Windows yet. if (1 && SkCpu::Supports(SkCpu::SKX)) { return { #define M(stage) ASM(stage, skx), { SK_RASTER_PIPELINE_STAGES(M) }, M(start_pipeline) M(just_return) #undef M }; } #endif if (1 && SkCpu::Supports(SkCpu::HSW)) { return { #define M(stage) ASM(stage, hsw), { SK_RASTER_PIPELINE_STAGES(M) }, M(start_pipeline) M(just_return) #undef M }; } if (1 && SkCpu::Supports(SkCpu::AVX)) { return { #define M(stage) ASM(stage, avx), { SK_RASTER_PIPELINE_STAGES(M) }, M(start_pipeline) M(just_return) #undef M }; } if (1 && SkCpu::Supports(SkCpu::SSE41)) { return { #define M(stage) ASM(stage, sse41), { SK_RASTER_PIPELINE_STAGES(M) }, M(start_pipeline) M(just_return) #undef M }; } if (1 && SkCpu::Supports(SkCpu::SSE2)) { return { #define M(stage) ASM(stage, sse2), { SK_RASTER_PIPELINE_STAGES(M) }, M(start_pipeline) M(just_return) #undef M }; } #elif defined(__i386__) || defined(_M_IX86) if (1 && SkCpu::Supports(SkCpu::SSE2)) { return { #define M(stage) ASM(stage, sse2), { SK_RASTER_PIPELINE_STAGES(M) }, M(start_pipeline) M(just_return) #undef M }; } #endif return kBaseline; } #ifndef SK_JUMPER_DISABLE_8BIT static const SkJumper_Engine kNone = { #define M(stage) nullptr, { SK_RASTER_PIPELINE_STAGES(M) }, #undef M nullptr, nullptr, }; static SkJumper_Engine gLowp = kNone; static SkOnce gChooseLowpOnce; static SkJumper_Engine choose_lowp() { #if SK_JUMPER_USE_ASSEMBLY #if defined(__x86_64__) || defined(_M_X64) if (1 && SkCpu::Supports(SkCpu::HSW)) { return { #define M(st) hsw_lowp(), { SK_RASTER_PIPELINE_STAGES(M) }, ASM(start_pipeline,hsw_lowp), ASM(just_return ,hsw_lowp), #undef M }; } if (1 && SkCpu::Supports(SkCpu::SSE41)) { return { #define M(st) sse41_lowp(), { SK_RASTER_PIPELINE_STAGES(M) }, ASM(start_pipeline,sse41_lowp), ASM(just_return ,sse41_lowp), #undef M }; } if (1 && SkCpu::Supports(SkCpu::SSE2)) { return { #define M(st) sse2_lowp(), { SK_RASTER_PIPELINE_STAGES(M) }, ASM(start_pipeline,sse2_lowp), ASM(just_return ,sse2_lowp), #undef M }; } #elif defined(__i386__) || defined(_M_IX86) if (1 && SkCpu::Supports(SkCpu::SSE2)) { return { #define M(st) sse2_lowp(), { SK_RASTER_PIPELINE_STAGES(M) }, ASM(start_pipeline,sse2_lowp), ASM(just_return ,sse2_lowp), #undef M }; } #elif defined(JUMPER_HAS_NEON_LOWP) return { #define M(st) neon_lowp(), { SK_RASTER_PIPELINE_STAGES(M) }, sk_start_pipeline_lowp, sk_just_return_lowp, #undef M }; #endif #endif return kNone; } #endif const SkJumper_Engine& SkRasterPipeline::build_pipeline(void** ip) const { #ifndef SK_JUMPER_DISABLE_8BIT gChooseLowpOnce([]{ gLowp = choose_lowp(); }); // First try to build a lowp pipeline. If that fails, fall back to normal float gEngine. void** reset_point = ip; *--ip = (void*)gLowp.just_return; for (const StageList* st = fStages; st; st = st->prev) { if (st->stage == SkRasterPipeline::clamp_0 || st->stage == SkRasterPipeline::clamp_1) { continue; // No-ops in lowp. } if (StageFn* fn = gLowp.stages[st->stage]) { if (st->ctx) { *--ip = st->ctx; } *--ip = (void*)fn; } else { log_missing(st->stage); ip = reset_point; break; } } if (ip != reset_point) { return gLowp; } #endif gChooseEngineOnce([]{ gEngine = choose_engine(); }); // We're building the pipeline backwards, so we start with the final stage just_return. *--ip = (void*)gEngine.just_return; // Still going backwards, each stage's context pointer then its StageFn. for (const StageList* st = fStages; st; st = st->prev) { if (st->ctx) { *--ip = st->ctx; } *--ip = (void*)gEngine.stages[st->stage]; } return gEngine; } void SkRasterPipeline::run(size_t x, size_t y, size_t w, size_t h) const { if (this->empty()) { return; } // Best to not use fAlloc here... we can't bound how often run() will be called. SkAutoSTMalloc<64, void*> program(fSlotsNeeded); const SkJumper_Engine& engine = this->build_pipeline(program.get() + fSlotsNeeded); engine.start_pipeline(x,y,x+w,y+h, program.get()); } std::function SkRasterPipeline::compile() const { if (this->empty()) { return [](size_t, size_t, size_t, size_t) {}; } void** program = fAlloc->makeArray(fSlotsNeeded); const SkJumper_Engine& engine = this->build_pipeline(program + fSlotsNeeded); auto start_pipeline = engine.start_pipeline; return [=](size_t x, size_t y, size_t w, size_t h) { start_pipeline(x,y,x+w,y+h, program); }; }