/* * Copyright 2016 Google Inc. * * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. */ #ifndef SKSL_LAYOUT #define SKSL_LAYOUT #include "src/sksl/SkSLString.h" #include "src/sksl/SkSLUtil.h" namespace SkSL { /** * Represents a layout block appearing before a variable declaration, as in: * * layout (location = 0) int x; */ struct Layout { enum Flag { kOriginUpperLeft_Flag = 1 << 0, kOverrideCoverage_Flag = 1 << 1, kPushConstant_Flag = 1 << 2, kBlendSupportAllEquations_Flag = 1 << 3, kBlendSupportMultiply_Flag = 1 << 4, kBlendSupportScreen_Flag = 1 << 5, kBlendSupportOverlay_Flag = 1 << 6, kBlendSupportDarken_Flag = 1 << 7, kBlendSupportLighten_Flag = 1 << 8, kBlendSupportColorDodge_Flag = 1 << 9, kBlendSupportColorBurn_Flag = 1 << 10, kBlendSupportHardLight_Flag = 1 << 11, kBlendSupportSoftLight_Flag = 1 << 12, kBlendSupportDifference_Flag = 1 << 13, kBlendSupportExclusion_Flag = 1 << 14, kBlendSupportHSLHue_Flag = 1 << 15, kBlendSupportHSLSaturation_Flag = 1 << 16, kBlendSupportHSLColor_Flag = 1 << 17, kBlendSupportHSLLuminosity_Flag = 1 << 18, kTracked_Flag = 1 << 19 }; enum Primitive { kUnspecified_Primitive = -1, kPoints_Primitive, kLines_Primitive, kLineStrip_Primitive, kLinesAdjacency_Primitive, kTriangles_Primitive, kTriangleStrip_Primitive, kTrianglesAdjacency_Primitive }; // These are used by images in GLSL. We only support a subset of what GL supports. enum class Format { kUnspecified = -1, kRGBA32F, kR32F, kRGBA16F, kR16F, kLUMINANCE16F, kRGBA8, kR8, kRGBA8I, kR8I, kRG16F, }; // used by SkSL processors enum Key { // field is not a key kNo_Key, // field is a key kKey_Key, // key is 0 or 1 depending on whether the matrix is an identity matrix kIdentity_Key, }; enum class CType { kDefault, kBool, kFloat, kInt32, kSkRect, kSkIRect, kSkPMColor4f, kSkPMColor, kSkVector4, kSkPoint, kSkIPoint, kSkMatrix, kSkMatrix44, kGrTextureProxy, kGrFragmentProcessor, }; static const char* FormatToStr(Format format) { switch (format) { case Format::kUnspecified: return ""; case Format::kRGBA32F: return "rgba32f"; case Format::kR32F: return "r32f"; case Format::kRGBA16F: return "rgba16f"; case Format::kR16F: return "r16f"; case Format::kLUMINANCE16F: return "lum16f"; case Format::kRGBA8: return "rgba8"; case Format::kR8: return "r8"; case Format::kRGBA8I: return "rgba8i"; case Format::kR8I: return "r8i"; case Format::kRG16F: return "rg16f"; } ABORT("Unexpected format"); } static bool ReadFormat(String str, Format* format) { if (str == "rgba32f") { *format = Format::kRGBA32F; return true; } else if (str == "r32f") { *format = Format::kR32F; return true; } else if (str == "rgba16f") { *format = Format::kRGBA16F; return true; } else if (str == "r16f") { *format = Format::kR16F; return true; } else if (str == "lum16f") { *format = Format::kLUMINANCE16F; return true; } else if (str == "rgba8") { *format = Format::kRGBA8; return true; } else if (str == "r8") { *format = Format::kR8; return true; } else if (str == "rgba8i") { *format = Format::kRGBA8I; return true; } else if (str == "r8i") { *format = Format::kR8I; return true; } else if (str == "rg16f") { *format = Format::kRG16F; return true; } return false; } static const char* CTypeToStr(CType ctype) { switch (ctype) { case CType::kDefault: return nullptr; case CType::kFloat: return "float"; case CType::kInt32: return "int32_t"; case CType::kSkRect: return "SkRect"; case CType::kSkIRect: return "SkIRect"; case CType::kSkPMColor4f: return "SkPMColor4f"; case CType::kSkPMColor: return "SkPMColor"; case CType::kSkVector4: return "SkVector4"; case CType::kSkPoint: return "SkPoint"; case CType::kSkIPoint: return "SkIPoint"; case CType::kSkMatrix: return "SkMatrix"; case CType::kSkMatrix44: return "SkMatrix44"; case CType::kGrTextureProxy: return "sk_sp"; case CType::kGrFragmentProcessor: return "std::unique_ptr"; default: SkASSERT(false); return nullptr; } } Layout(int flags, int location, int offset, int binding, int index, int set, int builtin, int inputAttachmentIndex, Format format, Primitive primitive, int maxVertices, int invocations, StringFragment when, Key key, CType ctype) : fFlags(flags) , fLocation(location) , fOffset(offset) , fBinding(binding) , fIndex(index) , fSet(set) , fBuiltin(builtin) , fInputAttachmentIndex(inputAttachmentIndex) , fFormat(format) , fPrimitive(primitive) , fMaxVertices(maxVertices) , fInvocations(invocations) , fWhen(when) , fKey(key) , fCType(ctype) {} Layout() : fFlags(0) , fLocation(-1) , fOffset(-1) , fBinding(-1) , fIndex(-1) , fSet(-1) , fBuiltin(-1) , fInputAttachmentIndex(-1) , fFormat(Format::kUnspecified) , fPrimitive(kUnspecified_Primitive) , fMaxVertices(-1) , fInvocations(-1) , fKey(kNo_Key) , fCType(CType::kDefault) {} String description() const { String result; String separator; if (fLocation >= 0) { result += separator + "location = " + to_string(fLocation); separator = ", "; } if (fOffset >= 0) { result += separator + "offset = " + to_string(fOffset); separator = ", "; } if (fBinding >= 0) { result += separator + "binding = " + to_string(fBinding); separator = ", "; } if (fIndex >= 0) { result += separator + "index = " + to_string(fIndex); separator = ", "; } if (fSet >= 0) { result += separator + "set = " + to_string(fSet); separator = ", "; } if (fBuiltin >= 0) { result += separator + "builtin = " + to_string(fBuiltin); separator = ", "; } if (fInputAttachmentIndex >= 0) { result += separator + "input_attachment_index = " + to_string(fInputAttachmentIndex); separator = ", "; } if (Format::kUnspecified != fFormat) { result += separator + FormatToStr(fFormat); separator = ", "; } if (fFlags & kOriginUpperLeft_Flag) { result += separator + "origin_upper_left"; separator = ", "; } if (fFlags & kOverrideCoverage_Flag) { result += separator + "override_coverage"; separator = ", "; } if (fFlags & kBlendSupportAllEquations_Flag) { result += separator + "blend_support_all_equations"; separator = ", "; } if (fFlags & kBlendSupportMultiply_Flag) { result += separator + "blend_support_multiply"; separator = ", "; } if (fFlags & kBlendSupportScreen_Flag) { result += separator + "blend_support_screen"; separator = ", "; } if (fFlags & kBlendSupportOverlay_Flag) { result += separator + "blend_support_overlay"; separator = ", "; } if (fFlags & kBlendSupportDarken_Flag) { result += separator + "blend_support_darken"; separator = ", "; } if (fFlags & kBlendSupportLighten_Flag) { result += separator + "blend_support_lighten"; separator = ", "; } if (fFlags & kBlendSupportColorDodge_Flag) { result += separator + "blend_support_colordodge"; separator = ", "; } if (fFlags & kBlendSupportColorBurn_Flag) { result += separator + "blend_support_colorburn"; separator = ", "; } if (fFlags & kBlendSupportHardLight_Flag) { result += separator + "blend_support_hardlight"; separator = ", "; } if (fFlags & kBlendSupportSoftLight_Flag) { result += separator + "blend_support_softlight"; separator = ", "; } if (fFlags & kBlendSupportDifference_Flag) { result += separator + "blend_support_difference"; separator = ", "; } if (fFlags & kBlendSupportExclusion_Flag) { result += separator + "blend_support_exclusion"; separator = ", "; } if (fFlags & kBlendSupportHSLHue_Flag) { result += separator + "blend_support_hsl_hue"; separator = ", "; } if (fFlags & kBlendSupportHSLSaturation_Flag) { result += separator + "blend_support_hsl_saturation"; separator = ", "; } if (fFlags & kBlendSupportHSLColor_Flag) { result += separator + "blend_support_hsl_color"; separator = ", "; } if (fFlags & kBlendSupportHSLLuminosity_Flag) { result += separator + "blend_support_hsl_luminosity"; separator = ", "; } if (fFlags & kPushConstant_Flag) { result += separator + "push_constant"; separator = ", "; } if (fFlags & kTracked_Flag) { result += separator + "tracked"; separator = ", "; } switch (fPrimitive) { case kPoints_Primitive: result += separator + "points"; separator = ", "; break; case kLines_Primitive: result += separator + "lines"; separator = ", "; break; case kLineStrip_Primitive: result += separator + "line_strip"; separator = ", "; break; case kLinesAdjacency_Primitive: result += separator + "lines_adjacency"; separator = ", "; break; case kTriangles_Primitive: result += separator + "triangles"; separator = ", "; break; case kTriangleStrip_Primitive: result += separator + "triangle_strip"; separator = ", "; break; case kTrianglesAdjacency_Primitive: result += separator + "triangles_adjacency"; separator = ", "; break; case kUnspecified_Primitive: break; } if (fMaxVertices >= 0) { result += separator + "max_vertices = " + to_string(fMaxVertices); separator = ", "; } if (fInvocations >= 0) { result += separator + "invocations = " + to_string(fInvocations); separator = ", "; } if (fWhen.fLength) { result += separator + "when = " + fWhen; separator = ", "; } if (result.size() > 0) { result = "layout (" + result + ")"; } if (fKey) { result += "/* key */"; } return result; } bool operator==(const Layout& other) const { return fFlags == other.fFlags && fLocation == other.fLocation && fOffset == other.fOffset && fBinding == other.fBinding && fIndex == other.fIndex && fSet == other.fSet && fBuiltin == other.fBuiltin && fInputAttachmentIndex == other.fInputAttachmentIndex && fFormat == other.fFormat && fPrimitive == other.fPrimitive && fMaxVertices == other.fMaxVertices && fInvocations == other.fInvocations; } bool operator!=(const Layout& other) const { return !(*this == other); } int fFlags; int fLocation; int fOffset; int fBinding; int fIndex; int fSet; // builtin comes from SPIR-V and identifies which particular builtin value this object // represents. int fBuiltin; // input_attachment_index comes from Vulkan/SPIR-V to connect a shader variable to the a // corresponding attachment on the subpass in which the shader is being used. int fInputAttachmentIndex; Format fFormat; Primitive fPrimitive; int fMaxVertices; int fInvocations; StringFragment fWhen; Key fKey; CType fCType; }; } // namespace #endif