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// Copyright 2022 The Dawn & Tint Authors
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#ifndef SRC_TINT_LANG_CORE_IR_DISASSEMBLER_H_
#define SRC_TINT_LANG_CORE_IR_DISASSEMBLER_H_
#include <string>
#include "src/tint/lang/core/ir/binary.h"
#include "src/tint/lang/core/ir/block.h"
#include "src/tint/lang/core/ir/call.h"
#include "src/tint/lang/core/ir/if.h"
#include "src/tint/lang/core/ir/loop.h"
#include "src/tint/lang/core/ir/module.h"
#include "src/tint/lang/core/ir/switch.h"
#include "src/tint/lang/core/ir/unary.h"
#include "src/tint/utils/containers/hashmap.h"
#include "src/tint/utils/containers/hashset.h"
#include "src/tint/utils/text/string_stream.h"
// Forward declarations.
namespace tint::core::type {
class Struct;
}
namespace tint::core::ir {
/// @returns the disassembly for the module @p mod
/// @param mod the module to disassemble
std::string Disassemble(const Module& mod);
/// Helper class to disassemble the IR
class Disassembler {
public:
/// A reference to an instruction's operand or result.
struct IndexedValue {
/// The instruction that is using the value;
const Instruction* instruction = nullptr;
/// The index of the operand that is the value being used.
size_t index = 0u;
/// @returns the hash code of the IndexedValue
tint::HashCode HashCode() const { return Hash(instruction, index); }
/// An equality helper for IndexedValue.
/// @param other the IndexedValue to compare against
/// @returns true if the two IndexedValues are equal
bool operator==(const IndexedValue& other) const {
return instruction == other.instruction && index == other.index;
}
};
/// Constructor
/// @param mod the module
explicit Disassembler(const Module& mod);
~Disassembler();
/// Returns the module as a string
/// @returns the string representation of the module
std::string Disassemble();
/// @returns the string representation
std::string AsString() const { return out_.str(); }
/// @param inst the instruction to retrieve
/// @returns the source for the instruction
Source InstructionSource(const Instruction* inst) {
return instruction_to_src_.GetOr(inst, Source{});
}
/// @param operand the operand to retrieve
/// @returns the source for the operand
Source OperandSource(IndexedValue operand) { return operand_to_src_.GetOr(operand, Source{}); }
/// @param result the result to retrieve
/// @returns the source for the result
Source ResultSource(IndexedValue result) { return result_to_src_.GetOr(result, Source{}); }
/// @param blk teh block to retrieve
/// @returns the source for the block
Source BlockSource(const Block* blk) { return block_to_src_.GetOr(blk, Source{}); }
/// Stores the given @p src location for @p inst instruction
/// @param inst the instruction to store
/// @param src the source location
void SetSource(const Instruction* inst, Source src) { instruction_to_src_.Add(inst, src); }
/// Stores the given @p src location for @p blk block
/// @param blk the block to store
/// @param src the source location
void SetSource(const Block* blk, Source src) { block_to_src_.Add(blk, src); }
/// Stores the given @p src location for @p op operand
/// @param op the operand to store
/// @param src the source location
void SetSource(IndexedValue op, Source src) { operand_to_src_.Add(op, src); }
/// Stores the given @p src location for @p result
/// @param result the result to store
/// @param src the source location
void SetResultSource(IndexedValue result, Source src) { result_to_src_.Add(result, src); }
/// @returns the source location for the current emission location
Source::Location MakeCurrentLocation();
private:
class SourceMarker {
public:
explicit SourceMarker(Disassembler* d) : dis_(d), begin_(dis_->MakeCurrentLocation()) {}
~SourceMarker() = default;
void Store(const Instruction* inst) { dis_->SetSource(inst, MakeSource()); }
void Store(const Block* blk) { dis_->SetSource(blk, MakeSource()); }
void Store(IndexedValue operand) { dis_->SetSource(operand, MakeSource()); }
void StoreResult(IndexedValue result) { dis_->SetResultSource(result, MakeSource()); }
Source MakeSource() const {
return Source(Source::Range(begin_, dis_->MakeCurrentLocation()));
}
private:
Disassembler* dis_ = nullptr;
Source::Location begin_;
};
StringStream& Indent();
size_t IdOf(const Block* blk);
std::string IdOf(const Value* node);
std::string NameOf(const If* inst);
std::string NameOf(const Loop* inst);
std::string NameOf(const Switch* inst);
void EmitBlock(const Block* blk, std::string_view comment = "");
void EmitFunction(const Function* func);
void EmitParamAttributes(const FunctionParam* p);
void EmitReturnAttributes(const Function* func);
void EmitBindingPoint(BindingPoint p);
void EmitLocation(Location loc);
void EmitInstruction(const Instruction* inst);
void EmitValueWithType(const Instruction* val);
void EmitValueWithType(const Value* val);
void EmitValue(const Value* val);
void EmitValueList(tint::Slice<const ir::Value* const> values);
void EmitBinary(const Binary* b);
void EmitUnary(const Unary* b);
void EmitTerminator(const Terminator* b);
void EmitSwitch(const Switch* s);
void EmitLoop(const Loop* l);
void EmitIf(const If* i);
void EmitStructDecl(const core::type::Struct* str);
void EmitLine();
void EmitOperand(const Instruction* inst, size_t index);
void EmitOperandList(const Instruction* inst, size_t start_index = 0);
void EmitInstructionName(const Instruction* inst);
const Module& mod_;
StringStream out_;
Hashmap<const Block*, size_t, 32> block_ids_;
Hashmap<const Value*, std::string, 32> value_ids_;
Hashset<std::string, 32> ids_;
uint32_t indent_size_ = 0;
bool in_function_ = false;
uint32_t current_output_line_ = 1;
uint32_t current_output_start_pos_ = 0;
Hashmap<const Block*, Source, 8> block_to_src_;
Hashmap<const Instruction*, Source, 8> instruction_to_src_;
Hashmap<IndexedValue, Source, 8> operand_to_src_;
Hashmap<IndexedValue, Source, 8> result_to_src_;
Hashmap<const If*, std::string, 8> if_names_;
Hashmap<const Loop*, std::string, 8> loop_names_;
Hashmap<const Switch*, std::string, 8> switch_names_;
};
} // namespace tint::core::ir
#endif // SRC_TINT_LANG_CORE_IR_DISASSEMBLER_H_