/* * Copyright 2021 Google LLC * * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. */ #include "src/sksl/ir/SkSLConstructorCompoundCast.h" #include "include/core/SkTypes.h" #include "src/sksl/SkSLAnalysis.h" #include "src/sksl/SkSLConstantFolder.h" #include "src/sksl/ir/SkSLConstructorCompound.h" #include "src/sksl/ir/SkSLConstructorDiagonalMatrix.h" #include "src/sksl/ir/SkSLConstructorScalarCast.h" #include "src/sksl/ir/SkSLConstructorSplat.h" #include "src/sksl/ir/SkSLType.h" #include #include #include namespace SkSL { static std::unique_ptr cast_constant_composite(const Context& context, Position pos, const Type& destType, std::unique_ptr constCtor) { const Type& scalarType = destType.componentType(); // We generate nicer code for splats and diagonal matrices by handling them separately instead // of relying on the constant-subexpression code below. This is not truly necessary but it makes // our output look a little better; human beings prefer `half4(0)` to `half4(0, 0, 0, 0)`. if (constCtor->is()) { // This is a typecast of a splat containing a constant value, e.g. `half4(7)`. We can // replace it with a splat of a different type, e.g. `int4(7)`. ConstructorSplat& splat = constCtor->as(); return ConstructorSplat::Make( context, pos, destType, ConstructorScalarCast::Make(context, pos, scalarType, std::move(splat.argument()))); } if (constCtor->is() && destType.isMatrix()) { // This is a typecast of a constant diagonal matrix, e.g. `float3x3(2)`. We can replace it // with a diagonal matrix of a different type, e.g. `half3x3(2)`. ConstructorDiagonalMatrix& matrixCtor = constCtor->as(); return ConstructorDiagonalMatrix::Make( context, pos, destType, ConstructorScalarCast::Make(context, pos, scalarType, std::move(matrixCtor.argument()))); } // Create a compound Constructor(literal, ...) which typecasts each scalar value inside. size_t numSlots = destType.slotCount(); SkASSERT(numSlots == constCtor->type().slotCount()); double typecastArgs[16]; SkASSERT(numSlots <= std::size(typecastArgs)); for (size_t index = 0; index < numSlots; ++index) { std::optional slotVal = constCtor->getConstantValue(index); if (scalarType.checkForOutOfRangeLiteral(context, *slotVal, constCtor->fPosition)) { // We've reported an error because the literal is out of range for this type. Zero out // the value to avoid a cascade of errors. *slotVal = 0.0; } typecastArgs[index] = *slotVal; } return ConstructorCompound::MakeFromConstants(context, pos, destType, typecastArgs); } std::unique_ptr ConstructorCompoundCast::Make(const Context& context, Position pos, const Type& type, std::unique_ptr arg) { // Only vectors or matrices of the same dimensions are allowed. SkASSERT(type.isVector() || type.isMatrix()); SkASSERT(type.isAllowedInES2(context)); SkASSERT(arg->type().isVector() == type.isVector()); SkASSERT(arg->type().isMatrix() == type.isMatrix()); SkASSERT(type.columns() == arg->type().columns()); SkASSERT(type.rows() == arg->type().rows()); // If this is a no-op cast, return the expression as-is. if (type.matches(arg->type())) { arg->setPosition(pos); return arg; } // Look up the value of constant variables. This allows constant-expressions like // `int4(colorGreen)` to be replaced with the compile-time constant `int4(0, 1, 0, 1)`. arg = ConstantFolder::MakeConstantValueForVariable(pos, std::move(arg)); // We can cast a vector of compile-time constants at compile-time. if (Analysis::IsCompileTimeConstant(*arg)) { return cast_constant_composite(context, pos, type, std::move(arg)); } return std::make_unique(pos, type, std::move(arg)); } } // namespace SkSL