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// Copyright 2021 The Dawn & Tint Authors
//
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#ifndef SRC_TINT_LANG_GLSL_WRITER_AST_PRINTER_AST_PRINTER_H_
#define SRC_TINT_LANG_GLSL_WRITER_AST_PRINTER_AST_PRINTER_H_
#include <string>
#include <tuple>
#include <unordered_map>
#include <unordered_set>
#include <utility>
#include "src/tint/lang/core/builtin_value.h"
#include "src/tint/lang/glsl/writer/common/version.h"
#include "src/tint/lang/wgsl/program/program_builder.h"
#include "src/tint/utils/containers/scope_stack.h"
#include "src/tint/utils/generator/text_generator.h"
#include "src/tint/utils/math/hash.h"
#include "src/tint/utils/text/string_stream.h"
// Forward declarations
namespace tint::sem {
class BuiltinFn;
class Call;
class ValueConstructor;
class ValueConversion;
} // namespace tint::sem
namespace tint::glsl::writer {
struct Options;
}
namespace tint::glsl::writer {
/// The result of sanitizing a program for generation.
struct SanitizedResult {
/// Constructor
SanitizedResult();
/// Destructor
~SanitizedResult();
/// Move constructor
SanitizedResult(SanitizedResult&&);
/// The sanitized program.
Program program;
};
/// Sanitize a program in preparation for generating GLSL.
/// @param program The program to sanitize
/// @param options The HLSL generator options.
/// @param entry_point the entry point to generate GLSL for
/// @returns the sanitized program and any supplementary information
SanitizedResult Sanitize(const Program& program,
const Options& options,
const std::string& entry_point);
/// Implementation class for GLSL generator
class ASTPrinter : public tint::TextGenerator {
public:
/// Constructor
/// @param program the program to generate
/// @param version the GLSL version to use
ASTPrinter(const Program& program, const Version& version);
~ASTPrinter() override;
/// Generates the GLSL shader
/// @returns true on successful generation, false otherwise
bool Generate();
/// Record an extension directive within the generator
/// @param ext the extension to record
void RecordExtension(const ast::Enable* ext);
/// Handles an index accessor expression
/// @param out the output of the expression stream
/// @param expr the expression to emit
void EmitIndexAccessor(StringStream& out, const ast::IndexAccessorExpression* expr);
/// Handles an assignment statement
/// @param stmt the statement to emit
void EmitAssign(const ast::AssignmentStatement* stmt);
/// Handles emission of bitwise operators (&|) on bool scalars and vectors
/// @param out the output of the expression stream
/// @param expr the binary expression
void EmitBitwiseBoolOp(StringStream& out, const ast::BinaryExpression* expr);
/// Handles generating a binary expression
/// @param out the output of the expression stream
/// @param expr the binary expression
void EmitFloatModulo(StringStream& out, const ast::BinaryExpression* expr);
/// Handles generating the modulo operator on float vector operands
/// @param out the output of the expression stream
/// @param expr the binary expression
void EmitBinary(StringStream& out, const ast::BinaryExpression* expr);
/// Handles generating a bitcast expression
/// @param out the output of the expression stream
/// @param expr the expression
void EmitVectorRelational(StringStream& out, const ast::BinaryExpression* expr);
/// Handles a bitcast call expression
/// @param out the output of the expression stream
/// @param expr the expression
void EmitBitcastCall(StringStream& out, const ast::CallExpression* expr);
/// Emits a list of statements
/// @param stmts the statement list
void EmitStatements(VectorRef<const ast::Statement*> stmts);
/// Emits a list of statements with an indentation
/// @param stmts the statement list
void EmitStatementsWithIndent(VectorRef<const ast::Statement*> stmts);
/// Handles a block statement
/// @param stmt the statement to emit
void EmitBlock(const ast::BlockStatement* stmt);
/// Handles a break statement
/// @param stmt the statement to emit
void EmitBreak(const ast::BreakStatement* stmt);
/// Handles a break-if statement
/// @param stmt the statement to emit
void EmitBreakIf(const ast::BreakIfStatement* stmt);
/// Handles generating a call expression
/// @param out the output of the expression stream
/// @param expr the call expression
void EmitCall(StringStream& out, const ast::CallExpression* expr);
/// Handles generating a function call expression
/// @param out the output of the expression stream
/// @param call the call expression
/// @param fn the function being called
void EmitFunctionCall(StringStream& out, const sem::Call* call, const sem::Function* fn);
/// Handles generating a builtin call expression
/// @param out the output of the expression stream
/// @param call the call expression
/// @param builtin the builtin being called
void EmitBuiltinCall(StringStream& out, const sem::Call* call, const sem::BuiltinFn* builtin);
/// Handles generating a value conversion expression
/// @param out the output of the expression stream
/// @param call the call expression
/// @param conv the value conversion
void EmitValueConversion(StringStream& out,
const sem::Call* call,
const sem::ValueConversion* conv);
/// Handles generating a value constructor expression
/// @param out the output of the expression stream
/// @param call the call expression
/// @param ctor the value constructor
void EmitValueConstructor(StringStream& out,
const sem::Call* call,
const sem::ValueConstructor* ctor);
/// Handles generating a barrier builtin call
/// @param out the output of the expression stream
/// @param builtin the semantic information for the barrier builtin
void EmitBarrierCall(StringStream& out, const sem::BuiltinFn* builtin);
/// Handles generating an atomic builtin call for a workgroup variable
/// @param out the output of the expression stream
/// @param expr the call expression
/// @param builtin the semantic information for the atomic builtin
void EmitWorkgroupAtomicCall(StringStream& out,
const ast::CallExpression* expr,
const sem::BuiltinFn* builtin);
/// Handles generating an array.length() call
/// @param out the output of the expression stream
/// @param expr the call expression
void EmitArrayLength(StringStream& out, const ast::CallExpression* expr);
/// Handles generating a call to `bitfieldExtract`
/// @param out the output of the expression stream
/// @param expr the call expression
void EmitExtractBits(StringStream& out, const ast::CallExpression* expr);
/// Handles generating a call to `bitfieldInsert`
/// @param out the output of the expression stream
/// @param expr the call expression
void EmitInsertBits(StringStream& out, const ast::CallExpression* expr);
/// Emulates 'fma' on GLSL ES, where it is unsupported.
/// @param out the output of the expression stream
/// @param expr the fma() expression
void EmitEmulatedFMA(StringStream& out, const ast::CallExpression* expr);
/// Create a float literal zero AST node, and associated semantic nodes.
/// @param stmt the statement which will own the semantic expression node
/// @returns an AST expression representing 0.0f
const ast::Expression* CreateF32Zero(const sem::Statement* stmt);
/// Handles generating a call to a texture function (`textureSample`,
/// `textureSampleGrad`, etc)
/// @param out the output of the expression stream
/// @param call the call expression
/// @param builtin the semantic information for the texture builtin
void EmitTextureCall(StringStream& out, const sem::Call* call, const sem::BuiltinFn* builtin);
/// Handles generating a call to the `select()` builtin
/// @param out the output of the expression stream
/// @param expr the call expression
void EmitCountOneBitsCall(StringStream& out, const ast::CallExpression* expr);
/// Handles generating a call to the `countOneBits()` builtin
/// @param out the output of the expression stream
/// @param expr the call expression
/// @param builtin the semantic information for the builtin
void EmitSelectCall(StringStream& out,
const ast::CallExpression* expr,
const sem::BuiltinFn* builtin);
/// Handles generating a call to the `dot()` builtin
/// @param out the output of the expression stream
/// @param expr the call expression
/// @param builtin the semantic information for the builtin
void EmitDotCall(StringStream& out,
const ast::CallExpression* expr,
const sem::BuiltinFn* builtin);
/// Handles generating a call to the `modf()` builtin
/// @param out the output of the expression stream
/// @param expr the call expression
/// @param builtin the semantic information for the builtin
void EmitModfCall(StringStream& out,
const ast::CallExpression* expr,
const sem::BuiltinFn* builtin);
/// Handles generating a call to the `frexp()` builtin
/// @param out the output of the expression stream
/// @param expr the call expression
/// @param builtin the semantic information for the builtin
void EmitFrexpCall(StringStream& out,
const ast::CallExpression* expr,
const sem::BuiltinFn* builtin);
/// Handles generating a call to the `degrees()` builtin
/// @param out the output of the expression stream
/// @param expr the call expression
/// @param builtin the semantic information for the builtin
void EmitDegreesCall(StringStream& out,
const ast::CallExpression* expr,
const sem::BuiltinFn* builtin);
/// Handles generating a call to the `radians()` builtin
/// @param out the output of the expression stream
/// @param expr the call expression
/// @param builtin the semantic information for the builtin
void EmitRadiansCall(StringStream& out,
const ast::CallExpression* expr,
const sem::BuiltinFn* builtin);
/// Handles generating a call to the `quantizeToF16()` intrinsic
/// @param out the output of the expression stream
/// @param expr the call expression
/// @param builtin the semantic information for the builtin
void EmitQuantizeToF16Call(StringStream& out,
const ast::CallExpression* expr,
const sem::BuiltinFn* builtin);
/// Handles a case statement
/// @param stmt the statement
void EmitCase(const ast::CaseStatement* stmt);
/// Handles generating a discard statement
/// @param stmt the discard statement
void EmitDiscard(const ast::DiscardStatement* stmt);
/// Handles a continue statement
/// @param stmt the statement to emit
void EmitContinue(const ast::ContinueStatement* stmt);
/// Handles generate an Expression
/// @param out the output of the expression stream
/// @param expr the expression
void EmitExpression(StringStream& out, const ast::Expression* expr);
/// Handles generating a function
/// @param func the function to generate
void EmitFunction(const ast::Function* func);
/// Handles emitting a global variable
/// @param global the global variable
void EmitGlobalVariable(const ast::Variable* global);
/// Handles emitting a global variable with the uniform address space
/// @param var the AST node for the 'var'
/// @param sem the semantic node for the 'var'
void EmitUniformVariable(const ast::Var* var, const sem::GlobalVariable* sem);
/// Handles emitting a global variable with the storage address space
/// @param var the AST node for the 'var'
/// @param sem the semantic node for the 'var'
void EmitStorageVariable(const ast::Var* var, const sem::GlobalVariable* sem);
/// Handles emitting a global variable with the handle address space
/// @param var the AST node for the 'var'
/// @param sem the semantic node for the 'var'
void EmitHandleVariable(const ast::Var* var, const sem::GlobalVariable* sem);
/// Handles emitting a global variable with the private address space
/// @param var the global variable
void EmitPrivateVariable(const sem::Variable* var);
/// Handles emitting a global variable with the workgroup address space
/// @param var the global variable
void EmitWorkgroupVariable(const sem::Variable* var);
/// Handles emitting a global variable with the input or output address space
/// @param var the global variable
void EmitIOVariable(const sem::GlobalVariable* var);
/// Handles emitting a global variable with the push_constant address space
/// @param var the global variable
void EmitPushConstant(const sem::GlobalVariable* var);
/// Handles emitting interpolation qualifiers
/// @param out the output of the expression stream
/// @param attrs the attributes
void EmitInterpolationQualifiers(StringStream& out, VectorRef<const ast::Attribute*> attrs);
/// Handles emitting attributes
/// @param out the output of the expression stream
/// @param var the global variable semantics
void EmitAttributes(StringStream& out, const sem::GlobalVariable* var);
/// Handles emitting the entry point function
/// @param func the entry point
void EmitEntryPointFunction(const ast::Function* func);
/// Handles an if statement
/// @param stmt the statement to emit
void EmitIf(const ast::IfStatement* stmt);
/// Handles a constant value
/// @param out the output stream
/// @param constant the constant value to emit
void EmitConstant(StringStream& out, const core::constant::Value* constant);
/// Handles a literal
/// @param out the output stream
/// @param lit the literal to emit
void EmitLiteral(StringStream& out, const ast::LiteralExpression* lit);
/// Handles a loop statement
/// @param stmt the statement to emit
void EmitLoop(const ast::LoopStatement* stmt);
/// Handles a for loop statement
/// @param stmt the statement to emit
void EmitForLoop(const ast::ForLoopStatement* stmt);
/// Handles a while statement
/// @param stmt the statement to emit
void EmitWhile(const ast::WhileStatement* stmt);
/// Handles generating an identifier expression
/// @param out the output of the expression stream
/// @param expr the identifier expression
void EmitIdentifier(StringStream& out, const ast::IdentifierExpression* expr);
/// Handles a member accessor expression
/// @param out the output of the expression stream
/// @param expr the member accessor expression
void EmitMemberAccessor(StringStream& out, const ast::MemberAccessorExpression* expr);
/// Handles return statements
/// @param stmt the statement to emit
void EmitReturn(const ast::ReturnStatement* stmt);
/// Handles statement
/// @param stmt the statement to emit
void EmitStatement(const ast::Statement* stmt);
/// Handles generating a switch statement
/// @param stmt the statement to emit
void EmitSwitch(const ast::SwitchStatement* stmt);
/// Handles generating type
/// @param out the output stream
/// @param type the type to generate
/// @param address_space the address space of the variable
/// @param access the access control type of the variable
/// @param name the name of the variable, used for array emission.
/// @param name_printed (optional) if not nullptr and an array was printed
/// then the boolean is set to true.
void EmitType(StringStream& out,
const core::type::Type* type,
core::AddressSpace address_space,
core::Access access,
const std::string& name,
bool* name_printed = nullptr);
/// Handles generating type and name
/// @param out the output stream
/// @param type the type to generate
/// @param address_space the address space of the variable
/// @param access the access control type of the variable
/// @param name the name to emit
void EmitTypeAndName(StringStream& out,
const core::type::Type* type,
core::AddressSpace address_space,
core::Access access,
const std::string& name);
/// Handles generating a structure declaration. If the structure has already been emitted, then
/// this function will simply return `true` without emitting anything.
/// @param buffer the text buffer that the type declaration will be written to
/// @param ty the struct to generate
void EmitStructType(TextBuffer* buffer, const core::type::Struct* ty);
/// Handles generating the members of a structure
/// @param buffer the text buffer that the struct members will be written to
/// @param ty the struct to generate
void EmitStructMembers(TextBuffer* buffer, const core::type::Struct* ty);
/// Handles a unary op expression
/// @param out the output of the expression stream
/// @param expr the expression to emit
void EmitUnaryOp(StringStream& out, const ast::UnaryOpExpression* expr);
/// Emits the zero value for the given type
/// @param out the output stream
/// @param type the type to emit the value for
void EmitZeroValue(StringStream& out, const core::type::Type* type);
/// Handles generating a 'var' declaration
/// @param var the variable to generate
void EmitVar(const ast::Var* var);
/// Handles generating a 'let' declaration
/// @param let the variable to generate
void EmitLet(const ast::Let* let);
/// Handles generating a module-scope 'let' declaration
/// @param let the 'let' to emit
void EmitProgramConstVariable(const ast::Variable* let);
/// Handles generating a builtin method name
/// @param builtin the semantic info for the builtin
/// @returns the name or "" if not valid
std::string generate_builtin_name(const sem::BuiltinFn* builtin);
/// Converts a builtin to a gl_ string
/// @param builtin the builtin to convert
/// @param stage pipeline stage in which this builtin is used
/// @returns the string name of the builtin or blank on error
const char* builtin_to_string(core::BuiltinValue builtin, ast::PipelineStage stage);
/// Converts a builtin to a core::type::Type appropriate for GLSL.
/// @param builtin the builtin to convert
/// @returns the appropriate semantic type or null on error.
core::type::Type* builtin_type(core::BuiltinValue builtin);
private:
enum class VarType { kIn, kOut };
struct EntryPointData {
std::string struct_name;
std::string var_name;
};
/// The map key for two semantic types.
using BinaryOperandType =
tint::UnorderedKeyWrapper<std::tuple<const core::type::Type*, const core::type::Type*>>;
/// CallBuiltinHelper will call the builtin helper function, creating it
/// if it hasn't been built already. If the builtin needs to be built then
/// CallBuiltinHelper will generate the function signature and will call
/// `build` to emit the body of the function.
/// @param out the output of the expression stream
/// @param call the call expression
/// @param builtin the semantic information for the builtin
/// @param build a function with the signature:
/// `bool(TextBuffer* buffer, const std::vector<std::string>& params)`
/// Where:
/// `buffer` is the body of the generated function
/// `params` is the name of all the generated function parameters
template <typename F>
void CallBuiltinHelper(StringStream& out,
const ast::CallExpression* call,
const sem::BuiltinFn* builtin,
F&& build);
/// Create a uint type corresponding to the given bool or bool vector type.
/// @param type the bool or bool vector type to convert
/// @returns the corresponding uint type
core::type::Type* BoolTypeToUint(const core::type::Type* type);
/// @param s the structure
/// @returns the name of the structure, taking special care of builtin structures that start
/// with double underscores. If the structure is a builtin, then the returned name will be a
/// unique name without the leading underscores.
std::string StructName(const core::type::Struct* s);
/// @return a new, unique identifier with the given prefix.
/// @param prefix optional prefix to apply to the generated identifier. If empty "tint_symbol"
/// will be used.
std::string UniqueIdentifier(const std::string& prefix = "");
/// Alias for builder_.TypeOf(ptr)
template <typename T>
auto TypeOf(T* ptr) {
return builder_.TypeOf(ptr);
}
ProgramBuilder builder_;
/// Helper functions emitted at the top of the output
TextBuffer helpers_;
/// Map of builtin structure to unique generated name
std::unordered_map<const core::type::Struct*, std::string> builtin_struct_names_;
std::function<void()> emit_continuing_;
std::unordered_map<const sem::BuiltinFn*, std::string> builtins_;
std::unordered_map<const core::type::Vector*, std::string> dynamic_vector_write_;
std::unordered_map<const core::type::Vector*, std::string> int_dot_funcs_;
std::unordered_map<BinaryOperandType, std::string> float_modulo_funcs_;
// Polyfill functions for bitcast expression, BinaryOperandType indicates the source type and
// the destination type
std::unordered_map<BinaryOperandType, std::string> bitcast_funcs_;
std::unordered_set<const core::type::Struct*> emitted_structs_;
bool requires_oes_sample_variables_ = false;
bool requires_default_precision_qualifier_ = false;
bool requires_f16_extension_ = false;
bool requires_dual_source_blending_extension_ = false;
Version version_;
};
} // namespace tint::glsl::writer
#endif // SRC_TINT_LANG_GLSL_WRITER_AST_PRINTER_AST_PRINTER_H_