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/*
* 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,
kSRGBUnpremul_Flag = 1 << 20,
};
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,
kFloat2,
kFloat3,
kFloat4,
kInt32,
kSkRect,
kSkIRect,
kSkPMColor4f,
kSkPMColor,
kSkV4,
kSkPoint,
kSkIPoint,
kSkMatrix,
kSkM44,
kGrSurfaceProxyView,
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::kSkV4:
return "SkV4";
case CType::kSkPoint:
return "SkPoint";
case CType::kSkIPoint:
return "SkIPoint";
case CType::kSkMatrix:
return "SkMatrix";
case CType::kSkM44:
return "SkM44";
case CType::kGrSurfaceProxyView:
return "GrSurfaceProxyView";
case CType::kGrFragmentProcessor:
return "std::unique_ptr<GrFragmentProcessor>";
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 marker, 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)
, fMarker(marker)
, 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;
auto separator = [firstSeparator = true]() mutable -> String {
if (firstSeparator) {
firstSeparator = false;
return "";
} else {
return ", ";
}};
if (fLocation >= 0) {
result += separator() + "location = " + to_string(fLocation);
}
if (fOffset >= 0) {
result += separator() + "offset = " + to_string(fOffset);
}
if (fBinding >= 0) {
result += separator() + "binding = " + to_string(fBinding);
}
if (fIndex >= 0) {
result += separator() + "index = " + to_string(fIndex);
}
if (fSet >= 0) {
result += separator() + "set = " + to_string(fSet);
}
if (fBuiltin >= 0) {
result += separator() + "builtin = " + to_string(fBuiltin);
}
if (fInputAttachmentIndex >= 0) {
result += separator() + "input_attachment_index = " + to_string(fInputAttachmentIndex);
}
if (Format::kUnspecified != fFormat) {
result += separator() + FormatToStr(fFormat);
}
if (fFlags & kOriginUpperLeft_Flag) {
result += separator() + "origin_upper_left";
}
if (fFlags & kOverrideCoverage_Flag) {
result += separator() + "override_coverage";
}
if (fFlags & kBlendSupportAllEquations_Flag) {
result += separator() + "blend_support_all_equations";
}
if (fFlags & kBlendSupportMultiply_Flag) {
result += separator() + "blend_support_multiply";
}
if (fFlags & kBlendSupportScreen_Flag) {
result += separator() + "blend_support_screen";
}
if (fFlags & kBlendSupportOverlay_Flag) {
result += separator() + "blend_support_overlay";
}
if (fFlags & kBlendSupportDarken_Flag) {
result += separator() + "blend_support_darken";
}
if (fFlags & kBlendSupportLighten_Flag) {
result += separator() + "blend_support_lighten";
}
if (fFlags & kBlendSupportColorDodge_Flag) {
result += separator() + "blend_support_colordodge";
}
if (fFlags & kBlendSupportColorBurn_Flag) {
result += separator() + "blend_support_colorburn";
}
if (fFlags & kBlendSupportHardLight_Flag) {
result += separator() + "blend_support_hardlight";
}
if (fFlags & kBlendSupportSoftLight_Flag) {
result += separator() + "blend_support_softlight";
}
if (fFlags & kBlendSupportDifference_Flag) {
result += separator() + "blend_support_difference";
}
if (fFlags & kBlendSupportExclusion_Flag) {
result += separator() + "blend_support_exclusion";
}
if (fFlags & kBlendSupportHSLHue_Flag) {
result += separator() + "blend_support_hsl_hue";
}
if (fFlags & kBlendSupportHSLSaturation_Flag) {
result += separator() + "blend_support_hsl_saturation";
}
if (fFlags & kBlendSupportHSLColor_Flag) {
result += separator() + "blend_support_hsl_color";
}
if (fFlags & kBlendSupportHSLLuminosity_Flag) {
result += separator() + "blend_support_hsl_luminosity";
}
if (fFlags & kPushConstant_Flag) {
result += separator() + "push_constant";
}
if (fFlags & kTracked_Flag) {
result += separator() + "tracked";
}
if (fFlags & kSRGBUnpremul_Flag) {
result += separator() + "srgb_unpremul";
}
switch (fPrimitive) {
case kPoints_Primitive:
result += separator() + "points";
break;
case kLines_Primitive:
result += separator() + "lines";
break;
case kLineStrip_Primitive:
result += separator() + "line_strip";
break;
case kLinesAdjacency_Primitive:
result += separator() + "lines_adjacency";
break;
case kTriangles_Primitive:
result += separator() + "triangles";
break;
case kTriangleStrip_Primitive:
result += separator() + "triangle_strip";
break;
case kTrianglesAdjacency_Primitive:
result += separator() + "triangles_adjacency";
break;
case kUnspecified_Primitive:
break;
}
if (fMaxVertices >= 0) {
result += separator() + "max_vertices = " + to_string(fMaxVertices);
}
if (fInvocations >= 0) {
result += separator() + "invocations = " + to_string(fInvocations);
}
if (fMarker.fLength) {
result += separator() + "marker = " + fMarker;
}
if (fWhen.fLength) {
result += separator() + "when = " + fWhen;
}
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 &&
fMarker == other.fMarker &&
fWhen == other.fWhen &&
fKey == other.fKey &&
fCType == other.fCType;
}
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;
// marker refers to matrices tagged on the SkCanvas with markCTM
StringFragment fMarker;
StringFragment fWhen;
Key fKey;
CType fCType;
};
} // namespace
#endif