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skia / skia / ff7a4a576f64c83d059a65fb0bf93b93f9a38f7d / . / src / sksl / dsl / DSLCore.cpp
blob: fbdec982b06a3885b5d6a8f797b01198518e5d3f [file] [log] [blame]
/*
* Copyright 2020 Google LLC
*
* Use of this source code is governed by a BSD-style license that can be
* found in the LICENSE file.
*/
#include "include/sksl/DSLCore.h"
#include "include/private/SkSLDefines.h"
#include "include/sksl/DSLSymbols.h"
#include "include/sksl/DSLVar.h"
#include "src/sksl/SkSLCompiler.h"
#include "src/sksl/SkSLIRGenerator.h"
#include "src/sksl/dsl/priv/DSLWriter.h"
#include "src/sksl/ir/SkSLBreakStatement.h"
#include "src/sksl/ir/SkSLContinueStatement.h"
#include "src/sksl/ir/SkSLDiscardStatement.h"
#include "src/sksl/ir/SkSLDoStatement.h"
#include "src/sksl/ir/SkSLField.h"
#include "src/sksl/ir/SkSLForStatement.h"
#include "src/sksl/ir/SkSLIfStatement.h"
#include "src/sksl/ir/SkSLReturnStatement.h"
#include "src/sksl/ir/SkSLStructDefinition.h"
#include "src/sksl/ir/SkSLSwizzle.h"
#include "src/sksl/ir/SkSLTernaryExpression.h"
namespace SkSL {
namespace dsl {
void Start(SkSL::Compiler* compiler, ProgramKind kind) {
Start(compiler, kind, ProgramSettings());
}
void Start(SkSL::Compiler* compiler, ProgramKind kind, const ProgramSettings& settings) {
DSLWriter::SetInstance(std::make_unique<DSLWriter>(compiler, kind, settings,
compiler->moduleForProgramKind(kind),
/*isModule=*/false));
}
void StartModule(SkSL::Compiler* compiler, ProgramKind kind, const ProgramSettings& settings,
SkSL::ParsedModule module) {
DSLWriter::SetInstance(std::make_unique<DSLWriter>(compiler, kind, settings, module,
/*isModule=*/true));
}
void End() {
SkASSERTF(!DSLWriter::InFragmentProcessor(),
"more calls to StartFragmentProcessor than to EndFragmentProcessor");
DSLWriter::SetInstance(nullptr);
}
void SetErrorHandler(ErrorHandler* errorHandler) {
DSLWriter::SetErrorHandler(errorHandler);
}
class DSLCore {
public:
static std::unique_ptr<SkSL::Program> ReleaseProgram(std::unique_ptr<String> source) {
DSLWriter& instance = DSLWriter::Instance();
SkSL::IRGenerator& ir = DSLWriter::IRGenerator();
IRGenerator::IRBundle bundle = ir.finish();
Pool* pool = DSLWriter::Instance().fPool.get();
auto result = std::make_unique<SkSL::Program>(std::move(source),
std::move(instance.fConfig),
DSLWriter::Instance().fCompiler->fContext,
std::move(bundle.fElements),
std::move(bundle.fSharedElements),
std::move(instance.fModifiersPool),
std::move(bundle.fSymbolTable),
std::move(instance.fPool),
bundle.fInputs);
bool success = false;
if (DSLWriter::Compiler().errorCount() || DSLWriter::Instance().fEncounteredErrors) {
DSLWriter::ReportErrors();
// Do not return programs that failed to compile.
} else if (!DSLWriter::Compiler().optimize(*result)) {
DSLWriter::ReportErrors();
// Do not return programs that failed to optimize.
} else {
// We have a successful program!
success = true;
}
// Make sure that if we encountered any compiler errors, we reported them through the
// DSL error handling side of things. (The converse is not a problem - it is ok to detect
// errors in the DSL layer, and thus have fEncounteredErrors be true, while not having the
// compiler see any errors because we caught them before they got there.)
SkASSERT(!DSLWriter::Compiler().errorCount() || DSLWriter::Instance().fEncounteredErrors);
if (pool) {
pool->detachFromThread();
}
SkASSERT(DSLWriter::ProgramElements().empty());
SkASSERT(!DSLWriter::SymbolTable());
return success ? std::move(result) : nullptr;
}
static DSLGlobalVar sk_FragColor() {
return DSLGlobalVar("sk_FragColor");
}
static DSLGlobalVar sk_FragCoord() {
return DSLGlobalVar("sk_FragCoord");
}
static DSLExpression sk_Position() {
return DSLExpression(Symbol("sk_Position"));
}
template <typename... Args>
static DSLPossibleExpression Call(const char* name, Args... args) {
SkSL::IRGenerator& ir = DSLWriter::IRGenerator();
SkSL::ExpressionArray argArray;
argArray.reserve_back(sizeof...(args));
// in C++17, we could just do:
// (argArray.push_back(args.release()), ...);
int unused[] = {0, (static_cast<void>(argArray.push_back(args.release())), 0)...};
static_cast<void>(unused);
return ir.call(/*offset=*/-1, ir.convertIdentifier(-1, name), std::move(argArray));
}
static DSLStatement Break() {
return SkSL::BreakStatement::Make(/*offset=*/-1);
}
static DSLStatement Continue() {
return SkSL::ContinueStatement::Make(/*offset=*/-1);
}
static DSLStatement Declare(DSLVar& var, PositionInfo pos) {
if (var.fDeclared) {
DSLWriter::ReportError("error: variable has already been declared\n", &pos);
}
var.fDeclared = true;
return DSLWriter::Declaration(var);
}
static DSLStatement Declare(SkTArray<DSLVar>& vars, PositionInfo pos) {
StatementArray statements;
for (DSLVar& v : vars) {
statements.push_back(Declare(v, pos).release());
}
return SkSL::Block::MakeUnscoped(/*offset=*/-1, std::move(statements));
}
static void Declare(DSLGlobalVar& var, PositionInfo pos) {
if (var.fDeclared) {
DSLWriter::ReportError("error: variable has already been declared\n", &pos);
}
var.fDeclared = true;
std::unique_ptr<SkSL::Statement> stmt = DSLWriter::Declaration(var);
if (stmt) {
if (!stmt->isEmpty()) {
DSLWriter::ProgramElements().push_back(std::make_unique<SkSL::GlobalVarDeclaration>(
std::move(stmt)));
}
} else if (var.fName == SkSL::Compiler::FRAGCOLOR_NAME) {
// sk_FragColor can end up with a null declaration despite no error occurring due to
// specific treatment in the compiler. Ignore the null and just grab the existing
// variable from the symbol table.
const SkSL::Symbol* alreadyDeclared = (*DSLWriter::SymbolTable())[var.fName];
if (alreadyDeclared && alreadyDeclared->is<Variable>()) {
var.fVar = &alreadyDeclared->as<Variable>();
}
}
}
static void Declare(SkTArray<DSLGlobalVar>& vars, PositionInfo pos) {
for (DSLGlobalVar& v : vars) {
Declare(v, pos);
}
}
static DSLStatement Discard() {
return SkSL::DiscardStatement::Make(/*offset=*/-1);
}
static DSLPossibleStatement Do(DSLStatement stmt, DSLExpression test) {
return DoStatement::Convert(DSLWriter::Context(), stmt.release(), test.release());
}
static DSLPossibleStatement For(DSLStatement initializer, DSLExpression test,
DSLExpression next, DSLStatement stmt, PositionInfo pos) {
return ForStatement::Convert(DSLWriter::Context(), /*offset=*/-1,
initializer.releaseIfValid(), test.releaseIfValid(),
next.releaseIfValid(), stmt.release(),
DSLWriter::SymbolTable());
}
static DSLPossibleStatement If(DSLExpression test, DSLStatement ifTrue, DSLStatement ifFalse,
bool isStatic) {
return IfStatement::Convert(DSLWriter::Context(), /*offset=*/-1, isStatic, test.release(),
ifTrue.release(), ifFalse.releaseIfValid());
}
static DSLGlobalVar InterfaceBlock(DSLModifiers modifiers, skstd::string_view typeName,
SkTArray<DSLField> fields, skstd::string_view varName,
int arraySize, PositionInfo pos) {
// We need to create a new struct type for the interface block, but we don't want it in the
// symbol table. Since dsl::Struct automatically sticks it in the symbol table, we create it
// the old fashioned way with MakeStructType.
std::vector<SkSL::Type::Field> skslFields;
skslFields.reserve(fields.count());
for (const DSLField& field : fields) {
skslFields.push_back(SkSL::Type::Field(field.fModifiers.fModifiers, field.fName,
&field.fType.skslType()));
}
const SkSL::Type* structType = DSLWriter::SymbolTable()->takeOwnershipOfSymbol(
SkSL::Type::MakeStructType(/*offset=*/-1, String(typeName), std::move(skslFields)));
DSLType varType = arraySize > 0 ? Array(structType, arraySize) : DSLType(structType);
DSLGlobalVar var(modifiers, varType, !varName.empty() ? varName : typeName);
// Interface blocks can't be declared, so we always need to mark the var declared ourselves.
// We do this only when fDSLMarkVarDeclared is false, so we don't double-declare it.
if (!DSLWriter::Settings().fDSLMarkVarsDeclared) {
DSLWriter::MarkDeclared(var);
}
DSLWriter::ProgramElements().push_back(std::make_unique<SkSL::InterfaceBlock>(/*offset=*/-1,
DSLWriter::Var(var), String(typeName), String(varName), arraySize,
DSLWriter::SymbolTable()));
if (varName.empty()) {
const std::vector<SkSL::Type::Field>& fields = structType->fields();
const SkSL::Variable* skslVar = DSLWriter::Var(var);
for (size_t i = 0; i < fields.size(); ++i) {
DSLWriter::SymbolTable()->add(std::make_unique<SkSL::Field>(/*offset=*/-1,
skslVar,
i));
}
} else {
AddToSymbolTable(var);
}
return var;
}
static DSLPossibleStatement Return(DSLExpression value, PositionInfo pos) {
// Note that because Return is called before the function in which it resides exists, at
// this point we do not know the function's return type. We therefore do not check for
// errors, or coerce the value to the correct type, until the return statement is actually
// added to a function. (This is done in IRGenerator::finalizeFunction.)
return SkSL::ReturnStatement::Make(/*offset=*/-1, value.releaseIfValid());
}
static DSLExpression Swizzle(DSLExpression base, SkSL::SwizzleComponent::Type a,
PositionInfo pos) {
return DSLExpression(Swizzle::Convert(DSLWriter::Context(), base.release(),
ComponentArray{a}),
pos);
}
static DSLExpression Swizzle(DSLExpression base,
SkSL::SwizzleComponent::Type a,
SkSL::SwizzleComponent::Type b,
PositionInfo pos) {
return DSLExpression(Swizzle::Convert(DSLWriter::Context(), base.release(),
ComponentArray{a, b}),
pos);
}
static DSLExpression Swizzle(DSLExpression base,
SkSL::SwizzleComponent::Type a,
SkSL::SwizzleComponent::Type b,
SkSL::SwizzleComponent::Type c,
PositionInfo pos) {
return DSLExpression(Swizzle::Convert(DSLWriter::Context(), base.release(),
ComponentArray{a, b, c}),
pos);
}
static DSLExpression Swizzle(DSLExpression base,
SkSL::SwizzleComponent::Type a,
SkSL::SwizzleComponent::Type b,
SkSL::SwizzleComponent::Type c,
SkSL::SwizzleComponent::Type d,
PositionInfo pos) {
return DSLExpression(Swizzle::Convert(DSLWriter::Context(), base.release(),
ComponentArray{a,b,c,d}),
pos);
}
static DSLPossibleExpression Select(DSLExpression test, DSLExpression ifTrue,
DSLExpression ifFalse) {
return TernaryExpression::Convert(DSLWriter::Context(), test.release(),
ifTrue.release(), ifFalse.release());
}
static DSLPossibleStatement Switch(DSLExpression value, SkTArray<DSLCase> cases,
bool isStatic) {
ExpressionArray values;
values.reserve_back(cases.count());
SkTArray<StatementArray> statements;
statements.reserve_back(cases.count());
for (DSLCase& c : cases) {
values.push_back(c.fValue.releaseIfValid());
statements.push_back(std::move(c.fStatements));
}
return DSLWriter::ConvertSwitch(value.release(), std::move(values), std::move(statements),
isStatic);
}
static DSLPossibleStatement While(DSLExpression test, DSLStatement stmt) {
return ForStatement::ConvertWhile(DSLWriter::Context(), /*offset=*/-1, test.release(),
stmt.release(), DSLWriter::SymbolTable());
}
};
std::unique_ptr<SkSL::Program> ReleaseProgram(std::unique_ptr<String> source) {
return DSLCore::ReleaseProgram(std::move(source));
}
DSLGlobalVar sk_FragColor() {
return DSLCore::sk_FragColor();
}
DSLGlobalVar sk_FragCoord() {
return DSLCore::sk_FragCoord();
}
DSLExpression sk_Position() {
return DSLCore::sk_Position();
}
DSLStatement Break() {
return DSLCore::Break();
}
DSLStatement Continue() {
return DSLCore::Continue();
}
// Logically, we'd want the variable's initial value to appear on here in Declare, since that
// matches how we actually write code (and in fact that was what our first attempt looked like).
// Unfortunately, C++ doesn't guarantee execution order between arguments, and Declare() can appear
// as a function argument in constructs like Block(Declare(x, 0), foo(x)). If these are executed out
// of order, we will evaluate the reference to x before we evaluate Declare(x, 0), and thus the
// variable's initial value is unknown at the point of reference. There are probably some other
// issues with this as well, but it is particularly dangerous when x is const, since SkSL will
// expect its value to be known when it is referenced and will end up asserting, dereferencing a
// null pointer, or possibly doing something else awful.
//
// So, we put the initial value onto the Var itself instead of the Declare to guarantee that it is
// always executed in the correct order.
DSLStatement Declare(DSLVar& var, PositionInfo pos) {
return DSLCore::Declare(var, pos);
}
DSLStatement Declare(SkTArray<DSLVar>& vars, PositionInfo pos) {
return DSLCore::Declare(vars, pos);
}
void Declare(DSLGlobalVar& var, PositionInfo pos) {
DSLCore::Declare(var, pos);
}
void Declare(SkTArray<DSLGlobalVar>& vars, PositionInfo pos) {
DSLCore::Declare(vars, pos);
}
DSLStatement Discard() {
return DSLCore::Discard();
}
DSLStatement Do(DSLStatement stmt, DSLExpression test, PositionInfo pos) {
return DSLStatement(DSLCore::Do(std::move(stmt), std::move(test)), pos);
}
DSLStatement For(DSLStatement initializer, DSLExpression test, DSLExpression next,
DSLStatement stmt, PositionInfo pos) {
return DSLStatement(DSLCore::For(std::move(initializer), std::move(test), std::move(next),
std::move(stmt), pos), pos);
}
DSLStatement If(DSLExpression test, DSLStatement ifTrue, DSLStatement ifFalse, PositionInfo pos) {
return DSLStatement(DSLCore::If(std::move(test), std::move(ifTrue), std::move(ifFalse),
/*isStatic=*/false),
pos);
}
DSLGlobalVar InterfaceBlock(DSLModifiers modifiers, skstd::string_view typeName,
SkTArray<DSLField> fields, skstd::string_view varName, int arraySize,
PositionInfo pos) {
return DSLCore::InterfaceBlock(modifiers, typeName, std::move(fields), varName, arraySize, pos);
}
DSLStatement Return(DSLExpression expr, PositionInfo pos) {
return DSLCore::Return(std::move(expr), pos);
}
DSLExpression Select(DSLExpression test, DSLExpression ifTrue, DSLExpression ifFalse,
PositionInfo pos) {
return DSLExpression(DSLCore::Select(std::move(test), std::move(ifTrue), std::move(ifFalse)),
pos);
}
DSLStatement StaticIf(DSLExpression test, DSLStatement ifTrue, DSLStatement ifFalse,
PositionInfo pos) {
return DSLStatement(DSLCore::If(std::move(test), std::move(ifTrue), std::move(ifFalse),
/*isStatic=*/true),
pos);
}
DSLPossibleStatement StaticSwitch(DSLExpression value, SkTArray<DSLCase> cases) {
return DSLCore::Switch(std::move(value), std::move(cases), /*isStatic=*/true);
}
DSLPossibleStatement Switch(DSLExpression value, SkTArray<DSLCase> cases) {
return DSLCore::Switch(std::move(value), std::move(cases), /*isStatic=*/false);
}
DSLStatement While(DSLExpression test, DSLStatement stmt, PositionInfo pos) {
return DSLStatement(DSLCore::While(std::move(test), std::move(stmt)), pos);
}
DSLExpression Abs(DSLExpression x, PositionInfo pos) {
return DSLExpression(DSLCore::Call("abs", std::move(x)), pos);
}
DSLExpression All(DSLExpression x, PositionInfo pos) {
return DSLExpression(DSLCore::Call("all", std::move(x)), pos);
}
DSLExpression Any(DSLExpression x, PositionInfo pos) {
return DSLExpression(DSLCore::Call("any", std::move(x)), pos);
}
DSLExpression Atan(DSLExpression y_over_x, PositionInfo pos) {
return DSLExpression(DSLCore::Call("atan", std::move(y_over_x)), pos);
}
DSLExpression Atan(DSLExpression y, DSLExpression x, PositionInfo pos) {
return DSLExpression(DSLCore::Call("atan", std::move(y), std::move(x)), pos);
}
DSLExpression Ceil(DSLExpression x, PositionInfo pos) {
return DSLExpression(DSLCore::Call("ceil", std::move(x)), pos);
}
DSLExpression Clamp(DSLExpression x, DSLExpression min, DSLExpression max, PositionInfo pos) {
return DSLExpression(DSLCore::Call("clamp", std::move(x), std::move(min), std::move(max)), pos);
}
DSLExpression Cos(DSLExpression x, PositionInfo pos) {
return DSLExpression(DSLCore::Call("cos", std::move(x)), pos);
}
DSLExpression Cross(DSLExpression x, DSLExpression y, PositionInfo pos) {
return DSLExpression(DSLCore::Call("cross", std::move(x), std::move(y)), pos);
}
DSLExpression Degrees(DSLExpression x, PositionInfo pos) {
return DSLExpression(DSLCore::Call("degrees", std::move(x)), pos);
}
DSLExpression Distance(DSLExpression x, DSLExpression y, PositionInfo pos) {
return DSLExpression(DSLCore::Call("distance", std::move(x), std::move(y)), pos);
}
DSLExpression Dot(DSLExpression x, DSLExpression y, PositionInfo pos) {
return DSLExpression(DSLCore::Call("dot", std::move(x), std::move(y)), pos);
}
DSLExpression Equal(DSLExpression x, DSLExpression y, PositionInfo pos) {
return DSLExpression(DSLCore::Call("equal", std::move(x), std::move(y)), pos);
}
DSLExpression Exp(DSLExpression x, PositionInfo pos) {
return DSLExpression(DSLCore::Call("exp", std::move(x)), pos);
}
DSLExpression Exp2(DSLExpression x, PositionInfo pos) {
return DSLExpression(DSLCore::Call("exp2", std::move(x)), pos);
}
DSLExpression Faceforward(DSLExpression n, DSLExpression i, DSLExpression nref, PositionInfo pos) {
return DSLExpression(DSLCore::Call("faceforward", std::move(n), std::move(i), std::move(nref)),
pos);
}
DSLExpression Fract(DSLExpression x, PositionInfo pos) {
return DSLExpression(DSLCore::Call("fract", std::move(x)), pos);
}
DSLExpression Floor(DSLExpression x, PositionInfo pos) {
return DSLExpression(DSLCore::Call("floor", std::move(x)), pos);
}
DSLExpression GreaterThan(DSLExpression x, DSLExpression y, PositionInfo pos) {
return DSLExpression(DSLCore::Call("greaterThan", std::move(x), std::move(y)), pos);
}
DSLExpression GreaterThanEqual(DSLExpression x, DSLExpression y, PositionInfo pos) {
return DSLExpression(DSLCore::Call("greaterThanEqual", std::move(x), std::move(y)), pos);
}
DSLExpression Inverse(DSLExpression x, PositionInfo pos) {
return DSLExpression(DSLCore::Call("inverse", std::move(x)), pos);
}
DSLExpression Inversesqrt(DSLExpression x, PositionInfo pos) {
return DSLExpression(DSLCore::Call("inversesqrt", std::move(x)), pos);
}
DSLExpression Length(DSLExpression x, PositionInfo pos) {
return DSLExpression(DSLCore::Call("length", std::move(x)), pos);
}
DSLExpression LessThan(DSLExpression x, DSLExpression y, PositionInfo pos) {
return DSLExpression(DSLCore::Call("lessThan", std::move(x), std::move(y)), pos);
}
DSLExpression LessThanEqual(DSLExpression x, DSLExpression y, PositionInfo pos) {
return DSLExpression(DSLCore::Call("lessThanEqual", std::move(x), std::move(y)), pos);
}
DSLExpression Log(DSLExpression x, PositionInfo pos) {
return DSLExpression(DSLCore::Call("log", std::move(x)), pos);
}
DSLExpression Log2(DSLExpression x, PositionInfo pos) {
return DSLExpression(DSLCore::Call("log2", std::move(x)), pos);
}
DSLExpression Max(DSLExpression x, DSLExpression y, PositionInfo pos) {
return DSLExpression(DSLCore::Call("max", std::move(x), std::move(y)), pos);
}
DSLExpression Min(DSLExpression x, DSLExpression y, PositionInfo pos) {
return DSLExpression(DSLCore::Call("min", std::move(x), std::move(y)), pos);
}
DSLExpression Mix(DSLExpression x, DSLExpression y, DSLExpression a, PositionInfo pos) {
return DSLExpression(DSLCore::Call("mix", std::move(x), std::move(y), std::move(a)), pos);
}
DSLExpression Mod(DSLExpression x, DSLExpression y, PositionInfo pos) {
return DSLExpression(DSLCore::Call("mod", std::move(x), std::move(y)), pos);
}
DSLExpression Normalize(DSLExpression x, PositionInfo pos) {
return DSLExpression(DSLCore::Call("normalize", std::move(x)), pos);
}
DSLExpression NotEqual(DSLExpression x, DSLExpression y, PositionInfo pos) {
return DSLExpression(DSLCore::Call("notEqual", std::move(x), std::move(y)), pos);
}
DSLExpression Pow(DSLExpression x, DSLExpression y, PositionInfo pos) {
return DSLExpression(DSLCore::Call("pow", std::move(x), std::move(y)), pos);
}
DSLExpression Radians(DSLExpression x, PositionInfo pos) {
return DSLExpression(DSLCore::Call("radians", std::move(x)), pos);
}
DSLExpression Reflect(DSLExpression i, DSLExpression n, PositionInfo pos) {
return DSLExpression(DSLCore::Call("reflect", std::move(i), std::move(n)), pos);
}
DSLExpression Refract(DSLExpression i, DSLExpression n, DSLExpression eta, PositionInfo pos) {
return DSLExpression(DSLCore::Call("refract", std::move(i), std::move(n), std::move(eta)), pos);
}
DSLExpression Sample(DSLExpression target, PositionInfo pos) {
return DSLExpression(DSLCore::Call("sample", std::move(target)), pos);
}
DSLExpression Sample(DSLExpression target, DSLExpression x, PositionInfo pos) {
return DSLExpression(DSLCore::Call("sample", std::move(target), std::move(x)), pos);
}
DSLExpression Sample(DSLExpression target, DSLExpression x, DSLExpression y, PositionInfo pos) {
return DSLExpression(DSLCore::Call("sample", std::move(target), std::move(x), std::move(y)),
pos);
}
DSLExpression Saturate(DSLExpression x, PositionInfo pos) {
return DSLExpression(DSLCore::Call("saturate", std::move(x)), pos);
}
DSLExpression Sign(DSLExpression x, PositionInfo pos) {
return DSLExpression(DSLCore::Call("sign", std::move(x)), pos);
}
DSLExpression Sin(DSLExpression x, PositionInfo pos) {
return DSLExpression(DSLCore::Call("sin", std::move(x)), pos);
}
DSLExpression Smoothstep(DSLExpression edge1, DSLExpression edge2, DSLExpression x,
PositionInfo pos) {
return DSLExpression(DSLCore::Call("smoothstep", std::move(edge1), std::move(edge2),
std::move(x)),
pos);
}
DSLExpression Sqrt(DSLExpression x, PositionInfo pos) {
return DSLExpression(DSLCore::Call("sqrt", std::move(x)), pos);
}
DSLExpression Step(DSLExpression edge, DSLExpression x, PositionInfo pos) {
return DSLExpression(DSLCore::Call("step", std::move(edge), std::move(x)), pos);
}
DSLExpression Swizzle(DSLExpression base, SkSL::SwizzleComponent::Type a,
PositionInfo pos) {
return DSLCore::Swizzle(std::move(base), a, pos);
}
DSLExpression Swizzle(DSLExpression base,
SkSL::SwizzleComponent::Type a,
SkSL::SwizzleComponent::Type b,
PositionInfo pos) {
return DSLCore::Swizzle(std::move(base), a, b, pos);
}
DSLExpression Swizzle(DSLExpression base,
SkSL::SwizzleComponent::Type a,
SkSL::SwizzleComponent::Type b,
SkSL::SwizzleComponent::Type c,
PositionInfo pos) {
return DSLCore::Swizzle(std::move(base), a, b, c, pos);
}
DSLExpression Swizzle(DSLExpression base,
SkSL::SwizzleComponent::Type a,
SkSL::SwizzleComponent::Type b,
SkSL::SwizzleComponent::Type c,
SkSL::SwizzleComponent::Type d,
PositionInfo pos) {
return DSLCore::Swizzle(std::move(base), a, b, c, d, pos);
}
DSLExpression Tan(DSLExpression x, PositionInfo pos) {
return DSLExpression(DSLCore::Call("tan", std::move(x)), pos);
}
DSLExpression Unpremul(DSLExpression x, PositionInfo pos) {
return DSLExpression(DSLCore::Call("unpremul", std::move(x)), pos);
}
} // namespace dsl
} // namespace SkSL