[ir] Convert instruction to a pointer

This CL updates the instruction class to be a `Castable` and allocated
from an Arena. Uses are updated to store the const pointer.

Bug: tint:1718
Change-Id: Ie0b8353cb0c6fe6e2ba6e01bcd45871891aef903
Reviewed-on: https://dawn-review.googlesource.com/c/dawn/+/112045
Commit-Queue: Dan Sinclair <dsinclair@chromium.org>
Reviewed-by: Ben Clayton <bclayton@google.com>
Kokoro: Kokoro <noreply+kokoro@google.com>
This commit is contained in:
dan sinclair 2022-11-29 23:29:47 +00:00 committed by Dawn LUCI CQ
parent e272eaf30f
commit 31e0850560
9 changed files with 258 additions and 244 deletions

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@ -34,7 +34,7 @@ class Block : public Castable<Block, FlowNode> {
const FlowNode* branch_target = nullptr; const FlowNode* branch_target = nullptr;
/// The instructions in the block /// The instructions in the block
utils::Vector<Instruction, 16> instructions; utils::Vector<const Instruction*, 16> instructions;
}; };
} // namespace tint::ir } // namespace tint::ir

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@ -97,79 +97,81 @@ Temp::Id Builder::AllocateTempId() {
return next_temp_id++; return next_temp_id++;
} }
Instruction Builder::CreateInstruction(Instruction::Kind kind, const Value* lhs, const Value* rhs) { const Instruction* Builder::CreateInstruction(Instruction::Kind kind,
return Instruction(kind, Temp(), lhs, rhs); const Value* lhs,
const Value* rhs) {
return ir.instructions.Create<ir::Instruction>(kind, Temp(), lhs, rhs);
} }
Instruction Builder::And(const Value* lhs, const Value* rhs) { const Instruction* Builder::And(const Value* lhs, const Value* rhs) {
return CreateInstruction(Instruction::Kind::kAnd, lhs, rhs); return CreateInstruction(Instruction::Kind::kAnd, lhs, rhs);
} }
Instruction Builder::Or(const Value* lhs, const Value* rhs) { const Instruction* Builder::Or(const Value* lhs, const Value* rhs) {
return CreateInstruction(Instruction::Kind::kOr, lhs, rhs); return CreateInstruction(Instruction::Kind::kOr, lhs, rhs);
} }
Instruction Builder::Xor(const Value* lhs, const Value* rhs) { const Instruction* Builder::Xor(const Value* lhs, const Value* rhs) {
return CreateInstruction(Instruction::Kind::kXor, lhs, rhs); return CreateInstruction(Instruction::Kind::kXor, lhs, rhs);
} }
Instruction Builder::LogicalAnd(const Value* lhs, const Value* rhs) { const Instruction* Builder::LogicalAnd(const Value* lhs, const Value* rhs) {
return CreateInstruction(Instruction::Kind::kLogicalAnd, lhs, rhs); return CreateInstruction(Instruction::Kind::kLogicalAnd, lhs, rhs);
} }
Instruction Builder::LogicalOr(const Value* lhs, const Value* rhs) { const Instruction* Builder::LogicalOr(const Value* lhs, const Value* rhs) {
return CreateInstruction(Instruction::Kind::kLogicalOr, lhs, rhs); return CreateInstruction(Instruction::Kind::kLogicalOr, lhs, rhs);
} }
Instruction Builder::Equal(const Value* lhs, const Value* rhs) { const Instruction* Builder::Equal(const Value* lhs, const Value* rhs) {
return CreateInstruction(Instruction::Kind::kEqual, lhs, rhs); return CreateInstruction(Instruction::Kind::kEqual, lhs, rhs);
} }
Instruction Builder::NotEqual(const Value* lhs, const Value* rhs) { const Instruction* Builder::NotEqual(const Value* lhs, const Value* rhs) {
return CreateInstruction(Instruction::Kind::kNotEqual, lhs, rhs); return CreateInstruction(Instruction::Kind::kNotEqual, lhs, rhs);
} }
Instruction Builder::LessThan(const Value* lhs, const Value* rhs) { const Instruction* Builder::LessThan(const Value* lhs, const Value* rhs) {
return CreateInstruction(Instruction::Kind::kLessThan, lhs, rhs); return CreateInstruction(Instruction::Kind::kLessThan, lhs, rhs);
} }
Instruction Builder::GreaterThan(const Value* lhs, const Value* rhs) { const Instruction* Builder::GreaterThan(const Value* lhs, const Value* rhs) {
return CreateInstruction(Instruction::Kind::kGreaterThan, lhs, rhs); return CreateInstruction(Instruction::Kind::kGreaterThan, lhs, rhs);
} }
Instruction Builder::LessThanEqual(const Value* lhs, const Value* rhs) { const Instruction* Builder::LessThanEqual(const Value* lhs, const Value* rhs) {
return CreateInstruction(Instruction::Kind::kLessThanEqual, lhs, rhs); return CreateInstruction(Instruction::Kind::kLessThanEqual, lhs, rhs);
} }
Instruction Builder::GreaterThanEqual(const Value* lhs, const Value* rhs) { const Instruction* Builder::GreaterThanEqual(const Value* lhs, const Value* rhs) {
return CreateInstruction(Instruction::Kind::kGreaterThanEqual, lhs, rhs); return CreateInstruction(Instruction::Kind::kGreaterThanEqual, lhs, rhs);
} }
Instruction Builder::ShiftLeft(const Value* lhs, const Value* rhs) { const Instruction* Builder::ShiftLeft(const Value* lhs, const Value* rhs) {
return CreateInstruction(Instruction::Kind::kShiftLeft, lhs, rhs); return CreateInstruction(Instruction::Kind::kShiftLeft, lhs, rhs);
} }
Instruction Builder::ShiftRight(const Value* lhs, const Value* rhs) { const Instruction* Builder::ShiftRight(const Value* lhs, const Value* rhs) {
return CreateInstruction(Instruction::Kind::kShiftRight, lhs, rhs); return CreateInstruction(Instruction::Kind::kShiftRight, lhs, rhs);
} }
Instruction Builder::Add(const Value* lhs, const Value* rhs) { const Instruction* Builder::Add(const Value* lhs, const Value* rhs) {
return CreateInstruction(Instruction::Kind::kAdd, lhs, rhs); return CreateInstruction(Instruction::Kind::kAdd, lhs, rhs);
} }
Instruction Builder::Subtract(const Value* lhs, const Value* rhs) { const Instruction* Builder::Subtract(const Value* lhs, const Value* rhs) {
return CreateInstruction(Instruction::Kind::kSubtract, lhs, rhs); return CreateInstruction(Instruction::Kind::kSubtract, lhs, rhs);
} }
Instruction Builder::Multiply(const Value* lhs, const Value* rhs) { const Instruction* Builder::Multiply(const Value* lhs, const Value* rhs) {
return CreateInstruction(Instruction::Kind::kMultiply, lhs, rhs); return CreateInstruction(Instruction::Kind::kMultiply, lhs, rhs);
} }
Instruction Builder::Divide(const Value* lhs, const Value* rhs) { const Instruction* Builder::Divide(const Value* lhs, const Value* rhs) {
return CreateInstruction(Instruction::Kind::kDivide, lhs, rhs); return CreateInstruction(Instruction::Kind::kDivide, lhs, rhs);
} }
Instruction Builder::Modulo(const Value* lhs, const Value* rhs) { const Instruction* Builder::Modulo(const Value* lhs, const Value* rhs) {
return CreateInstruction(Instruction::Kind::kModulo, lhs, rhs); return CreateInstruction(Instruction::Kind::kModulo, lhs, rhs);
} }

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@ -102,115 +102,117 @@ class Builder {
/// @param lhs the left-hand-side of the operation /// @param lhs the left-hand-side of the operation
/// @param rhs the right-hand-side of the operation /// @param rhs the right-hand-side of the operation
/// @returns the operation /// @returns the operation
Instruction CreateInstruction(Instruction::Kind kind, const Value* lhs, const Value* rhs); const Instruction* CreateInstruction(Instruction::Kind kind,
const Value* lhs,
const Value* rhs);
/// Creates an And operation /// Creates an And operation
/// @param lhs the lhs of the add /// @param lhs the lhs of the add
/// @param rhs the rhs of the add /// @param rhs the rhs of the add
/// @returns the operation /// @returns the operation
Instruction And(const Value* lhs, const Value* rhs); const Instruction* And(const Value* lhs, const Value* rhs);
/// Creates an Or operation /// Creates an Or operation
/// @param lhs the lhs of the add /// @param lhs the lhs of the add
/// @param rhs the rhs of the add /// @param rhs the rhs of the add
/// @returns the operation /// @returns the operation
Instruction Or(const Value* lhs, const Value* rhs); const Instruction* Or(const Value* lhs, const Value* rhs);
/// Creates an Xor operation /// Creates an Xor operation
/// @param lhs the lhs of the add /// @param lhs the lhs of the add
/// @param rhs the rhs of the add /// @param rhs the rhs of the add
/// @returns the operation /// @returns the operation
Instruction Xor(const Value* lhs, const Value* rhs); const Instruction* Xor(const Value* lhs, const Value* rhs);
/// Creates an LogicalAnd operation /// Creates an LogicalAnd operation
/// @param lhs the lhs of the add /// @param lhs the lhs of the add
/// @param rhs the rhs of the add /// @param rhs the rhs of the add
/// @returns the operation /// @returns the operation
Instruction LogicalAnd(const Value* lhs, const Value* rhs); const Instruction* LogicalAnd(const Value* lhs, const Value* rhs);
/// Creates an LogicalOr operation /// Creates an LogicalOr operation
/// @param lhs the lhs of the add /// @param lhs the lhs of the add
/// @param rhs the rhs of the add /// @param rhs the rhs of the add
/// @returns the operation /// @returns the operation
Instruction LogicalOr(const Value* lhs, const Value* rhs); const Instruction* LogicalOr(const Value* lhs, const Value* rhs);
/// Creates an Equal operation /// Creates an Equal operation
/// @param lhs the lhs of the add /// @param lhs the lhs of the add
/// @param rhs the rhs of the add /// @param rhs the rhs of the add
/// @returns the operation /// @returns the operation
Instruction Equal(const Value* lhs, const Value* rhs); const Instruction* Equal(const Value* lhs, const Value* rhs);
/// Creates an NotEqual operation /// Creates an NotEqual operation
/// @param lhs the lhs of the add /// @param lhs the lhs of the add
/// @param rhs the rhs of the add /// @param rhs the rhs of the add
/// @returns the operation /// @returns the operation
Instruction NotEqual(const Value* lhs, const Value* rhs); const Instruction* NotEqual(const Value* lhs, const Value* rhs);
/// Creates an LessThan operation /// Creates an LessThan operation
/// @param lhs the lhs of the add /// @param lhs the lhs of the add
/// @param rhs the rhs of the add /// @param rhs the rhs of the add
/// @returns the operation /// @returns the operation
Instruction LessThan(const Value* lhs, const Value* rhs); const Instruction* LessThan(const Value* lhs, const Value* rhs);
/// Creates an GreaterThan operation /// Creates an GreaterThan operation
/// @param lhs the lhs of the add /// @param lhs the lhs of the add
/// @param rhs the rhs of the add /// @param rhs the rhs of the add
/// @returns the operation /// @returns the operation
Instruction GreaterThan(const Value* lhs, const Value* rhs); const Instruction* GreaterThan(const Value* lhs, const Value* rhs);
/// Creates an LessThanEqual operation /// Creates an LessThanEqual operation
/// @param lhs the lhs of the add /// @param lhs the lhs of the add
/// @param rhs the rhs of the add /// @param rhs the rhs of the add
/// @returns the operation /// @returns the operation
Instruction LessThanEqual(const Value* lhs, const Value* rhs); const Instruction* LessThanEqual(const Value* lhs, const Value* rhs);
/// Creates an GreaterThanEqual operation /// Creates an GreaterThanEqual operation
/// @param lhs the lhs of the add /// @param lhs the lhs of the add
/// @param rhs the rhs of the add /// @param rhs the rhs of the add
/// @returns the operation /// @returns the operation
Instruction GreaterThanEqual(const Value* lhs, const Value* rhs); const Instruction* GreaterThanEqual(const Value* lhs, const Value* rhs);
/// Creates an ShiftLeft operation /// Creates an ShiftLeft operation
/// @param lhs the lhs of the add /// @param lhs the lhs of the add
/// @param rhs the rhs of the add /// @param rhs the rhs of the add
/// @returns the operation /// @returns the operation
Instruction ShiftLeft(const Value* lhs, const Value* rhs); const Instruction* ShiftLeft(const Value* lhs, const Value* rhs);
/// Creates an ShiftRight operation /// Creates an ShiftRight operation
/// @param lhs the lhs of the add /// @param lhs the lhs of the add
/// @param rhs the rhs of the add /// @param rhs the rhs of the add
/// @returns the operation /// @returns the operation
Instruction ShiftRight(const Value* lhs, const Value* rhs); const Instruction* ShiftRight(const Value* lhs, const Value* rhs);
/// Creates an Add operation /// Creates an Add operation
/// @param lhs the lhs of the add /// @param lhs the lhs of the add
/// @param rhs the rhs of the add /// @param rhs the rhs of the add
/// @returns the operation /// @returns the operation
Instruction Add(const Value* lhs, const Value* rhs); const Instruction* Add(const Value* lhs, const Value* rhs);
/// Creates an Subtract operation /// Creates an Subtract operation
/// @param lhs the lhs of the add /// @param lhs the lhs of the add
/// @param rhs the rhs of the add /// @param rhs the rhs of the add
/// @returns the operation /// @returns the operation
Instruction Subtract(const Value* lhs, const Value* rhs); const Instruction* Subtract(const Value* lhs, const Value* rhs);
/// Creates an Multiply operation /// Creates an Multiply operation
/// @param lhs the lhs of the add /// @param lhs the lhs of the add
/// @param rhs the rhs of the add /// @param rhs the rhs of the add
/// @returns the operation /// @returns the operation
Instruction Multiply(const Value* lhs, const Value* rhs); const Instruction* Multiply(const Value* lhs, const Value* rhs);
/// Creates an Divide operation /// Creates an Divide operation
/// @param lhs the lhs of the add /// @param lhs the lhs of the add
/// @param rhs the rhs of the add /// @param rhs the rhs of the add
/// @returns the operation /// @returns the operation
Instruction Divide(const Value* lhs, const Value* rhs); const Instruction* Divide(const Value* lhs, const Value* rhs);
/// Creates an Modulo operation /// Creates an Modulo operation
/// @param lhs the lhs of the add /// @param lhs the lhs of the add
/// @param rhs the rhs of the add /// @param rhs the rhs of the add
/// @returns the operation /// @returns the operation
Instruction Modulo(const Value* lhs, const Value* rhs); const Instruction* Modulo(const Value* lhs, const Value* rhs);
/// @returns a unique temp id /// @returns a unique temp id
Temp::Id AllocateTempId(); Temp::Id AllocateTempId();

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@ -562,7 +562,7 @@ utils::Result<const Value*> BuilderImpl::EmitBinary(const ast::BinaryExpression*
return utils::Failure; return utils::Failure;
} }
Instruction instr; const Instruction* instr = nullptr;
switch (expr->op) { switch (expr->op) {
case ast::BinaryOp::kAnd: case ast::BinaryOp::kAnd:
instr = builder.And(lhs.Get(), rhs.Get()); instr = builder.And(lhs.Get(), rhs.Get());
@ -623,9 +623,8 @@ utils::Result<const Value*> BuilderImpl::EmitBinary(const ast::BinaryExpression*
return utils::Failure; return utils::Failure;
} }
auto* result = instr.Result();
current_flow_block->instructions.Push(instr); current_flow_block->instructions.Push(instr);
return utils::Result<const Value*>(result); return utils::Result<const Value*>(instr->Result());
} }
utils::Result<const Value*> BuilderImpl::EmitLiteral(const ast::LiteralExpression* lit) { utils::Result<const Value*> BuilderImpl::EmitLiteral(const ast::LiteralExpression* lit) {

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@ -62,8 +62,8 @@ std::ostream& Disassembler::Indent() {
} }
void Disassembler::EmitBlockInstructions(const Block* b) { void Disassembler::EmitBlockInstructions(const Block* b) {
for (const auto& instr : b->instructions) { for (const auto* instr : b->instructions) {
out_ << instr << std::endl; out_ << *instr << std::endl;
} }
} }

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@ -14,6 +14,8 @@
#include "src/tint/ir/instruction.h" #include "src/tint/ir/instruction.h"
TINT_INSTANTIATE_TYPEINFO(tint::ir::Instruction);
namespace tint::ir { namespace tint::ir {
Instruction::Instruction() {} Instruction::Instruction() {}

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@ -17,6 +17,7 @@
#include <ostream> #include <ostream>
#include "src/tint/castable.h"
#include "src/tint/debug.h" #include "src/tint/debug.h"
#include "src/tint/ir/value.h" #include "src/tint/ir/value.h"
#include "src/tint/utils/vector.h" #include "src/tint/utils/vector.h"
@ -24,7 +25,7 @@
namespace tint::ir { namespace tint::ir {
/// An instruction in the IR. /// An instruction in the IR.
class Instruction { class Instruction : public Castable<Instruction> {
public: public:
/// The kind of instruction. /// The kind of instruction.
enum class Kind { enum class Kind {

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@ -26,27 +26,27 @@ TEST_F(IR_InstructionTest, CreateAnd) {
auto& b = CreateEmptyBuilder(); auto& b = CreateEmptyBuilder();
b.builder.next_temp_id = Temp::Id(42); b.builder.next_temp_id = Temp::Id(42);
auto instr = b.builder.And(b.builder.Constant(i32(4)), b.builder.Constant(i32(2))); const auto* instr = b.builder.And(b.builder.Constant(i32(4)), b.builder.Constant(i32(2)));
EXPECT_EQ(instr.GetKind(), Instruction::Kind::kAnd); EXPECT_EQ(instr->GetKind(), Instruction::Kind::kAnd);
ASSERT_TRUE(instr.Result()->Is<Temp>()); ASSERT_TRUE(instr->Result()->Is<Temp>());
EXPECT_EQ(Temp::Id(42), instr.Result()->As<Temp>()->AsId()); EXPECT_EQ(Temp::Id(42), instr->Result()->As<Temp>()->AsId());
ASSERT_TRUE(instr.HasLHS()); ASSERT_TRUE(instr->HasLHS());
ASSERT_TRUE(instr.LHS()->Is<Constant>()); ASSERT_TRUE(instr->LHS()->Is<Constant>());
auto lhs = instr.LHS()->As<Constant>(); auto lhs = instr->LHS()->As<Constant>();
ASSERT_TRUE(lhs->IsI32()); ASSERT_TRUE(lhs->IsI32());
EXPECT_EQ(i32(4), lhs->AsI32()); EXPECT_EQ(i32(4), lhs->AsI32());
ASSERT_TRUE(instr.HasRHS()); ASSERT_TRUE(instr->HasRHS());
ASSERT_TRUE(instr.RHS()->Is<Constant>()); ASSERT_TRUE(instr->RHS()->Is<Constant>());
auto rhs = instr.RHS()->As<Constant>(); auto rhs = instr->RHS()->As<Constant>();
ASSERT_TRUE(rhs->IsI32()); ASSERT_TRUE(rhs->IsI32());
EXPECT_EQ(i32(2), rhs->AsI32()); EXPECT_EQ(i32(2), rhs->AsI32());
std::stringstream str; std::stringstream str;
str << instr; str << *instr;
EXPECT_EQ(str.str(), "%42 = 4 & 2"); EXPECT_EQ(str.str(), "%42 = 4 & 2");
} }
@ -54,27 +54,27 @@ TEST_F(IR_InstructionTest, CreateOr) {
auto& b = CreateEmptyBuilder(); auto& b = CreateEmptyBuilder();
b.builder.next_temp_id = Temp::Id(42); b.builder.next_temp_id = Temp::Id(42);
auto instr = b.builder.Or(b.builder.Constant(i32(4)), b.builder.Constant(i32(2))); const auto* instr = b.builder.Or(b.builder.Constant(i32(4)), b.builder.Constant(i32(2)));
EXPECT_EQ(instr.GetKind(), Instruction::Kind::kOr); EXPECT_EQ(instr->GetKind(), Instruction::Kind::kOr);
ASSERT_TRUE(instr.Result()->Is<Temp>()); ASSERT_TRUE(instr->Result()->Is<Temp>());
EXPECT_EQ(Temp::Id(42), instr.Result()->As<Temp>()->AsId()); EXPECT_EQ(Temp::Id(42), instr->Result()->As<Temp>()->AsId());
ASSERT_TRUE(instr.HasLHS()); ASSERT_TRUE(instr->HasLHS());
ASSERT_TRUE(instr.LHS()->Is<Constant>()); ASSERT_TRUE(instr->LHS()->Is<Constant>());
auto lhs = instr.LHS()->As<Constant>(); auto lhs = instr->LHS()->As<Constant>();
ASSERT_TRUE(lhs->IsI32()); ASSERT_TRUE(lhs->IsI32());
EXPECT_EQ(i32(4), lhs->AsI32()); EXPECT_EQ(i32(4), lhs->AsI32());
ASSERT_TRUE(instr.HasRHS()); ASSERT_TRUE(instr->HasRHS());
ASSERT_TRUE(instr.RHS()->Is<Constant>()); ASSERT_TRUE(instr->RHS()->Is<Constant>());
auto rhs = instr.RHS()->As<Constant>(); auto rhs = instr->RHS()->As<Constant>();
ASSERT_TRUE(rhs->IsI32()); ASSERT_TRUE(rhs->IsI32());
EXPECT_EQ(i32(2), rhs->AsI32()); EXPECT_EQ(i32(2), rhs->AsI32());
std::stringstream str; std::stringstream str;
str << instr; str << *instr;
EXPECT_EQ(str.str(), "%42 = 4 | 2"); EXPECT_EQ(str.str(), "%42 = 4 | 2");
} }
@ -82,27 +82,27 @@ TEST_F(IR_InstructionTest, CreateXor) {
auto& b = CreateEmptyBuilder(); auto& b = CreateEmptyBuilder();
b.builder.next_temp_id = Temp::Id(42); b.builder.next_temp_id = Temp::Id(42);
auto instr = b.builder.Xor(b.builder.Constant(i32(4)), b.builder.Constant(i32(2))); const auto* instr = b.builder.Xor(b.builder.Constant(i32(4)), b.builder.Constant(i32(2)));
EXPECT_EQ(instr.GetKind(), Instruction::Kind::kXor); EXPECT_EQ(instr->GetKind(), Instruction::Kind::kXor);
ASSERT_TRUE(instr.Result()->Is<Temp>()); ASSERT_TRUE(instr->Result()->Is<Temp>());
EXPECT_EQ(Temp::Id(42), instr.Result()->As<Temp>()->AsId()); EXPECT_EQ(Temp::Id(42), instr->Result()->As<Temp>()->AsId());
ASSERT_TRUE(instr.HasLHS()); ASSERT_TRUE(instr->HasLHS());
ASSERT_TRUE(instr.LHS()->Is<Constant>()); ASSERT_TRUE(instr->LHS()->Is<Constant>());
auto lhs = instr.LHS()->As<Constant>(); auto lhs = instr->LHS()->As<Constant>();
ASSERT_TRUE(lhs->IsI32()); ASSERT_TRUE(lhs->IsI32());
EXPECT_EQ(i32(4), lhs->AsI32()); EXPECT_EQ(i32(4), lhs->AsI32());
ASSERT_TRUE(instr.HasRHS()); ASSERT_TRUE(instr->HasRHS());
ASSERT_TRUE(instr.RHS()->Is<Constant>()); ASSERT_TRUE(instr->RHS()->Is<Constant>());
auto rhs = instr.RHS()->As<Constant>(); auto rhs = instr->RHS()->As<Constant>();
ASSERT_TRUE(rhs->IsI32()); ASSERT_TRUE(rhs->IsI32());
EXPECT_EQ(i32(2), rhs->AsI32()); EXPECT_EQ(i32(2), rhs->AsI32());
std::stringstream str; std::stringstream str;
str << instr; str << *instr;
EXPECT_EQ(str.str(), "%42 = 4 ^ 2"); EXPECT_EQ(str.str(), "%42 = 4 ^ 2");
} }
@ -110,27 +110,28 @@ TEST_F(IR_InstructionTest, CreateLogicalAnd) {
auto& b = CreateEmptyBuilder(); auto& b = CreateEmptyBuilder();
b.builder.next_temp_id = Temp::Id(42); b.builder.next_temp_id = Temp::Id(42);
auto instr = b.builder.LogicalAnd(b.builder.Constant(i32(4)), b.builder.Constant(i32(2))); const auto* instr =
b.builder.LogicalAnd(b.builder.Constant(i32(4)), b.builder.Constant(i32(2)));
EXPECT_EQ(instr.GetKind(), Instruction::Kind::kLogicalAnd); EXPECT_EQ(instr->GetKind(), Instruction::Kind::kLogicalAnd);
ASSERT_TRUE(instr.Result()->Is<Temp>()); ASSERT_TRUE(instr->Result()->Is<Temp>());
EXPECT_EQ(Temp::Id(42), instr.Result()->As<Temp>()->AsId()); EXPECT_EQ(Temp::Id(42), instr->Result()->As<Temp>()->AsId());
ASSERT_TRUE(instr.HasLHS()); ASSERT_TRUE(instr->HasLHS());
ASSERT_TRUE(instr.LHS()->Is<Constant>()); ASSERT_TRUE(instr->LHS()->Is<Constant>());
auto lhs = instr.LHS()->As<Constant>(); auto lhs = instr->LHS()->As<Constant>();
ASSERT_TRUE(lhs->IsI32()); ASSERT_TRUE(lhs->IsI32());
EXPECT_EQ(i32(4), lhs->AsI32()); EXPECT_EQ(i32(4), lhs->AsI32());
ASSERT_TRUE(instr.HasRHS()); ASSERT_TRUE(instr->HasRHS());
ASSERT_TRUE(instr.RHS()->Is<Constant>()); ASSERT_TRUE(instr->RHS()->Is<Constant>());
auto rhs = instr.RHS()->As<Constant>(); auto rhs = instr->RHS()->As<Constant>();
ASSERT_TRUE(rhs->IsI32()); ASSERT_TRUE(rhs->IsI32());
EXPECT_EQ(i32(2), rhs->AsI32()); EXPECT_EQ(i32(2), rhs->AsI32());
std::stringstream str; std::stringstream str;
str << instr; str << *instr;
EXPECT_EQ(str.str(), "%42 = 4 && 2"); EXPECT_EQ(str.str(), "%42 = 4 && 2");
} }
@ -138,27 +139,27 @@ TEST_F(IR_InstructionTest, CreateLogicalOr) {
auto& b = CreateEmptyBuilder(); auto& b = CreateEmptyBuilder();
b.builder.next_temp_id = Temp::Id(42); b.builder.next_temp_id = Temp::Id(42);
auto instr = b.builder.LogicalOr(b.builder.Constant(i32(4)), b.builder.Constant(i32(2))); const auto* instr = b.builder.LogicalOr(b.builder.Constant(i32(4)), b.builder.Constant(i32(2)));
EXPECT_EQ(instr.GetKind(), Instruction::Kind::kLogicalOr); EXPECT_EQ(instr->GetKind(), Instruction::Kind::kLogicalOr);
ASSERT_TRUE(instr.Result()->Is<Temp>()); ASSERT_TRUE(instr->Result()->Is<Temp>());
EXPECT_EQ(Temp::Id(42), instr.Result()->As<Temp>()->AsId()); EXPECT_EQ(Temp::Id(42), instr->Result()->As<Temp>()->AsId());
ASSERT_TRUE(instr.HasLHS()); ASSERT_TRUE(instr->HasLHS());
ASSERT_TRUE(instr.LHS()->Is<Constant>()); ASSERT_TRUE(instr->LHS()->Is<Constant>());
auto lhs = instr.LHS()->As<Constant>(); auto lhs = instr->LHS()->As<Constant>();
ASSERT_TRUE(lhs->IsI32()); ASSERT_TRUE(lhs->IsI32());
EXPECT_EQ(i32(4), lhs->AsI32()); EXPECT_EQ(i32(4), lhs->AsI32());
ASSERT_TRUE(instr.HasRHS()); ASSERT_TRUE(instr->HasRHS());
ASSERT_TRUE(instr.RHS()->Is<Constant>()); ASSERT_TRUE(instr->RHS()->Is<Constant>());
auto rhs = instr.RHS()->As<Constant>(); auto rhs = instr->RHS()->As<Constant>();
ASSERT_TRUE(rhs->IsI32()); ASSERT_TRUE(rhs->IsI32());
EXPECT_EQ(i32(2), rhs->AsI32()); EXPECT_EQ(i32(2), rhs->AsI32());
std::stringstream str; std::stringstream str;
str << instr; str << *instr;
EXPECT_EQ(str.str(), "%42 = 4 || 2"); EXPECT_EQ(str.str(), "%42 = 4 || 2");
} }
@ -166,27 +167,27 @@ TEST_F(IR_InstructionTest, CreateEqual) {
auto& b = CreateEmptyBuilder(); auto& b = CreateEmptyBuilder();
b.builder.next_temp_id = Temp::Id(42); b.builder.next_temp_id = Temp::Id(42);
auto instr = b.builder.Equal(b.builder.Constant(i32(4)), b.builder.Constant(i32(2))); const auto* instr = b.builder.Equal(b.builder.Constant(i32(4)), b.builder.Constant(i32(2)));
EXPECT_EQ(instr.GetKind(), Instruction::Kind::kEqual); EXPECT_EQ(instr->GetKind(), Instruction::Kind::kEqual);
ASSERT_TRUE(instr.Result()->Is<Temp>()); ASSERT_TRUE(instr->Result()->Is<Temp>());
EXPECT_EQ(Temp::Id(42), instr.Result()->As<Temp>()->AsId()); EXPECT_EQ(Temp::Id(42), instr->Result()->As<Temp>()->AsId());
ASSERT_TRUE(instr.HasLHS()); ASSERT_TRUE(instr->HasLHS());
ASSERT_TRUE(instr.LHS()->Is<Constant>()); ASSERT_TRUE(instr->LHS()->Is<Constant>());
auto lhs = instr.LHS()->As<Constant>(); auto lhs = instr->LHS()->As<Constant>();
ASSERT_TRUE(lhs->IsI32()); ASSERT_TRUE(lhs->IsI32());
EXPECT_EQ(i32(4), lhs->AsI32()); EXPECT_EQ(i32(4), lhs->AsI32());
ASSERT_TRUE(instr.HasRHS()); ASSERT_TRUE(instr->HasRHS());
ASSERT_TRUE(instr.RHS()->Is<Constant>()); ASSERT_TRUE(instr->RHS()->Is<Constant>());
auto rhs = instr.RHS()->As<Constant>(); auto rhs = instr->RHS()->As<Constant>();
ASSERT_TRUE(rhs->IsI32()); ASSERT_TRUE(rhs->IsI32());
EXPECT_EQ(i32(2), rhs->AsI32()); EXPECT_EQ(i32(2), rhs->AsI32());
std::stringstream str; std::stringstream str;
str << instr; str << *instr;
EXPECT_EQ(str.str(), "%42 = 4 == 2"); EXPECT_EQ(str.str(), "%42 = 4 == 2");
} }
@ -194,27 +195,27 @@ TEST_F(IR_InstructionTest, CreateNotEqual) {
auto& b = CreateEmptyBuilder(); auto& b = CreateEmptyBuilder();
b.builder.next_temp_id = Temp::Id(42); b.builder.next_temp_id = Temp::Id(42);
auto instr = b.builder.NotEqual(b.builder.Constant(i32(4)), b.builder.Constant(i32(2))); const auto* instr = b.builder.NotEqual(b.builder.Constant(i32(4)), b.builder.Constant(i32(2)));
EXPECT_EQ(instr.GetKind(), Instruction::Kind::kNotEqual); EXPECT_EQ(instr->GetKind(), Instruction::Kind::kNotEqual);
ASSERT_TRUE(instr.Result()->Is<Temp>()); ASSERT_TRUE(instr->Result()->Is<Temp>());
EXPECT_EQ(Temp::Id(42), instr.Result()->As<Temp>()->AsId()); EXPECT_EQ(Temp::Id(42), instr->Result()->As<Temp>()->AsId());
ASSERT_TRUE(instr.HasLHS()); ASSERT_TRUE(instr->HasLHS());
ASSERT_TRUE(instr.LHS()->Is<Constant>()); ASSERT_TRUE(instr->LHS()->Is<Constant>());
auto lhs = instr.LHS()->As<Constant>(); auto lhs = instr->LHS()->As<Constant>();
ASSERT_TRUE(lhs->IsI32()); ASSERT_TRUE(lhs->IsI32());
EXPECT_EQ(i32(4), lhs->AsI32()); EXPECT_EQ(i32(4), lhs->AsI32());
ASSERT_TRUE(instr.HasRHS()); ASSERT_TRUE(instr->HasRHS());
ASSERT_TRUE(instr.RHS()->Is<Constant>()); ASSERT_TRUE(instr->RHS()->Is<Constant>());
auto rhs = instr.RHS()->As<Constant>(); auto rhs = instr->RHS()->As<Constant>();
ASSERT_TRUE(rhs->IsI32()); ASSERT_TRUE(rhs->IsI32());
EXPECT_EQ(i32(2), rhs->AsI32()); EXPECT_EQ(i32(2), rhs->AsI32());
std::stringstream str; std::stringstream str;
str << instr; str << *instr;
EXPECT_EQ(str.str(), "%42 = 4 != 2"); EXPECT_EQ(str.str(), "%42 = 4 != 2");
} }
@ -222,27 +223,27 @@ TEST_F(IR_InstructionTest, CreateLessThan) {
auto& b = CreateEmptyBuilder(); auto& b = CreateEmptyBuilder();
b.builder.next_temp_id = Temp::Id(42); b.builder.next_temp_id = Temp::Id(42);
auto instr = b.builder.LessThan(b.builder.Constant(i32(4)), b.builder.Constant(i32(2))); const auto* instr = b.builder.LessThan(b.builder.Constant(i32(4)), b.builder.Constant(i32(2)));
EXPECT_EQ(instr.GetKind(), Instruction::Kind::kLessThan); EXPECT_EQ(instr->GetKind(), Instruction::Kind::kLessThan);
ASSERT_TRUE(instr.Result()->Is<Temp>()); ASSERT_TRUE(instr->Result()->Is<Temp>());
EXPECT_EQ(Temp::Id(42), instr.Result()->As<Temp>()->AsId()); EXPECT_EQ(Temp::Id(42), instr->Result()->As<Temp>()->AsId());
ASSERT_TRUE(instr.HasLHS()); ASSERT_TRUE(instr->HasLHS());
ASSERT_TRUE(instr.LHS()->Is<Constant>()); ASSERT_TRUE(instr->LHS()->Is<Constant>());
auto lhs = instr.LHS()->As<Constant>(); auto lhs = instr->LHS()->As<Constant>();
ASSERT_TRUE(lhs->IsI32()); ASSERT_TRUE(lhs->IsI32());
EXPECT_EQ(i32(4), lhs->AsI32()); EXPECT_EQ(i32(4), lhs->AsI32());
ASSERT_TRUE(instr.HasRHS()); ASSERT_TRUE(instr->HasRHS());
ASSERT_TRUE(instr.RHS()->Is<Constant>()); ASSERT_TRUE(instr->RHS()->Is<Constant>());
auto rhs = instr.RHS()->As<Constant>(); auto rhs = instr->RHS()->As<Constant>();
ASSERT_TRUE(rhs->IsI32()); ASSERT_TRUE(rhs->IsI32());
EXPECT_EQ(i32(2), rhs->AsI32()); EXPECT_EQ(i32(2), rhs->AsI32());
std::stringstream str; std::stringstream str;
str << instr; str << *instr;
EXPECT_EQ(str.str(), "%42 = 4 < 2"); EXPECT_EQ(str.str(), "%42 = 4 < 2");
} }
@ -250,27 +251,28 @@ TEST_F(IR_InstructionTest, CreateGreaterThan) {
auto& b = CreateEmptyBuilder(); auto& b = CreateEmptyBuilder();
b.builder.next_temp_id = Temp::Id(42); b.builder.next_temp_id = Temp::Id(42);
auto instr = b.builder.GreaterThan(b.builder.Constant(i32(4)), b.builder.Constant(i32(2))); const auto* instr =
b.builder.GreaterThan(b.builder.Constant(i32(4)), b.builder.Constant(i32(2)));
EXPECT_EQ(instr.GetKind(), Instruction::Kind::kGreaterThan); EXPECT_EQ(instr->GetKind(), Instruction::Kind::kGreaterThan);
ASSERT_TRUE(instr.Result()->Is<Temp>()); ASSERT_TRUE(instr->Result()->Is<Temp>());
EXPECT_EQ(Temp::Id(42), instr.Result()->As<Temp>()->AsId()); EXPECT_EQ(Temp::Id(42), instr->Result()->As<Temp>()->AsId());
ASSERT_TRUE(instr.HasLHS()); ASSERT_TRUE(instr->HasLHS());
ASSERT_TRUE(instr.LHS()->Is<Constant>()); ASSERT_TRUE(instr->LHS()->Is<Constant>());
auto lhs = instr.LHS()->As<Constant>(); auto lhs = instr->LHS()->As<Constant>();
ASSERT_TRUE(lhs->IsI32()); ASSERT_TRUE(lhs->IsI32());
EXPECT_EQ(i32(4), lhs->AsI32()); EXPECT_EQ(i32(4), lhs->AsI32());
ASSERT_TRUE(instr.HasRHS()); ASSERT_TRUE(instr->HasRHS());
ASSERT_TRUE(instr.RHS()->Is<Constant>()); ASSERT_TRUE(instr->RHS()->Is<Constant>());
auto rhs = instr.RHS()->As<Constant>(); auto rhs = instr->RHS()->As<Constant>();
ASSERT_TRUE(rhs->IsI32()); ASSERT_TRUE(rhs->IsI32());
EXPECT_EQ(i32(2), rhs->AsI32()); EXPECT_EQ(i32(2), rhs->AsI32());
std::stringstream str; std::stringstream str;
str << instr; str << *instr;
EXPECT_EQ(str.str(), "%42 = 4 > 2"); EXPECT_EQ(str.str(), "%42 = 4 > 2");
} }
@ -278,27 +280,28 @@ TEST_F(IR_InstructionTest, CreateLessThanEqual) {
auto& b = CreateEmptyBuilder(); auto& b = CreateEmptyBuilder();
b.builder.next_temp_id = Temp::Id(42); b.builder.next_temp_id = Temp::Id(42);
auto instr = b.builder.LessThanEqual(b.builder.Constant(i32(4)), b.builder.Constant(i32(2))); const auto* instr =
b.builder.LessThanEqual(b.builder.Constant(i32(4)), b.builder.Constant(i32(2)));
EXPECT_EQ(instr.GetKind(), Instruction::Kind::kLessThanEqual); EXPECT_EQ(instr->GetKind(), Instruction::Kind::kLessThanEqual);
ASSERT_TRUE(instr.Result()->Is<Temp>()); ASSERT_TRUE(instr->Result()->Is<Temp>());
EXPECT_EQ(Temp::Id(42), instr.Result()->As<Temp>()->AsId()); EXPECT_EQ(Temp::Id(42), instr->Result()->As<Temp>()->AsId());
ASSERT_TRUE(instr.HasLHS()); ASSERT_TRUE(instr->HasLHS());
ASSERT_TRUE(instr.LHS()->Is<Constant>()); ASSERT_TRUE(instr->LHS()->Is<Constant>());
auto lhs = instr.LHS()->As<Constant>(); auto lhs = instr->LHS()->As<Constant>();
ASSERT_TRUE(lhs->IsI32()); ASSERT_TRUE(lhs->IsI32());
EXPECT_EQ(i32(4), lhs->AsI32()); EXPECT_EQ(i32(4), lhs->AsI32());
ASSERT_TRUE(instr.HasRHS()); ASSERT_TRUE(instr->HasRHS());
ASSERT_TRUE(instr.RHS()->Is<Constant>()); ASSERT_TRUE(instr->RHS()->Is<Constant>());
auto rhs = instr.RHS()->As<Constant>(); auto rhs = instr->RHS()->As<Constant>();
ASSERT_TRUE(rhs->IsI32()); ASSERT_TRUE(rhs->IsI32());
EXPECT_EQ(i32(2), rhs->AsI32()); EXPECT_EQ(i32(2), rhs->AsI32());
std::stringstream str; std::stringstream str;
str << instr; str << *instr;
EXPECT_EQ(str.str(), "%42 = 4 <= 2"); EXPECT_EQ(str.str(), "%42 = 4 <= 2");
} }
@ -306,27 +309,28 @@ TEST_F(IR_InstructionTest, CreateGreaterThanEqual) {
auto& b = CreateEmptyBuilder(); auto& b = CreateEmptyBuilder();
b.builder.next_temp_id = Temp::Id(42); b.builder.next_temp_id = Temp::Id(42);
auto instr = b.builder.GreaterThanEqual(b.builder.Constant(i32(4)), b.builder.Constant(i32(2))); const auto* instr =
b.builder.GreaterThanEqual(b.builder.Constant(i32(4)), b.builder.Constant(i32(2)));
EXPECT_EQ(instr.GetKind(), Instruction::Kind::kGreaterThanEqual); EXPECT_EQ(instr->GetKind(), Instruction::Kind::kGreaterThanEqual);
ASSERT_TRUE(instr.Result()->Is<Temp>()); ASSERT_TRUE(instr->Result()->Is<Temp>());
EXPECT_EQ(Temp::Id(42), instr.Result()->As<Temp>()->AsId()); EXPECT_EQ(Temp::Id(42), instr->Result()->As<Temp>()->AsId());
ASSERT_TRUE(instr.HasLHS()); ASSERT_TRUE(instr->HasLHS());
ASSERT_TRUE(instr.LHS()->Is<Constant>()); ASSERT_TRUE(instr->LHS()->Is<Constant>());
auto lhs = instr.LHS()->As<Constant>(); auto lhs = instr->LHS()->As<Constant>();
ASSERT_TRUE(lhs->IsI32()); ASSERT_TRUE(lhs->IsI32());
EXPECT_EQ(i32(4), lhs->AsI32()); EXPECT_EQ(i32(4), lhs->AsI32());
ASSERT_TRUE(instr.HasRHS()); ASSERT_TRUE(instr->HasRHS());
ASSERT_TRUE(instr.RHS()->Is<Constant>()); ASSERT_TRUE(instr->RHS()->Is<Constant>());
auto rhs = instr.RHS()->As<Constant>(); auto rhs = instr->RHS()->As<Constant>();
ASSERT_TRUE(rhs->IsI32()); ASSERT_TRUE(rhs->IsI32());
EXPECT_EQ(i32(2), rhs->AsI32()); EXPECT_EQ(i32(2), rhs->AsI32());
std::stringstream str; std::stringstream str;
str << instr; str << *instr;
EXPECT_EQ(str.str(), "%42 = 4 >= 2"); EXPECT_EQ(str.str(), "%42 = 4 >= 2");
} }
@ -334,27 +338,27 @@ TEST_F(IR_InstructionTest, CreateShiftLeft) {
auto& b = CreateEmptyBuilder(); auto& b = CreateEmptyBuilder();
b.builder.next_temp_id = Temp::Id(42); b.builder.next_temp_id = Temp::Id(42);
auto instr = b.builder.ShiftLeft(b.builder.Constant(i32(4)), b.builder.Constant(i32(2))); const auto* instr = b.builder.ShiftLeft(b.builder.Constant(i32(4)), b.builder.Constant(i32(2)));
EXPECT_EQ(instr.GetKind(), Instruction::Kind::kShiftLeft); EXPECT_EQ(instr->GetKind(), Instruction::Kind::kShiftLeft);
ASSERT_TRUE(instr.Result()->Is<Temp>()); ASSERT_TRUE(instr->Result()->Is<Temp>());
EXPECT_EQ(Temp::Id(42), instr.Result()->As<Temp>()->AsId()); EXPECT_EQ(Temp::Id(42), instr->Result()->As<Temp>()->AsId());
ASSERT_TRUE(instr.HasLHS()); ASSERT_TRUE(instr->HasLHS());
ASSERT_TRUE(instr.LHS()->Is<Constant>()); ASSERT_TRUE(instr->LHS()->Is<Constant>());
auto lhs = instr.LHS()->As<Constant>(); auto lhs = instr->LHS()->As<Constant>();
ASSERT_TRUE(lhs->IsI32()); ASSERT_TRUE(lhs->IsI32());
EXPECT_EQ(i32(4), lhs->AsI32()); EXPECT_EQ(i32(4), lhs->AsI32());
ASSERT_TRUE(instr.HasRHS()); ASSERT_TRUE(instr->HasRHS());
ASSERT_TRUE(instr.RHS()->Is<Constant>()); ASSERT_TRUE(instr->RHS()->Is<Constant>());
auto rhs = instr.RHS()->As<Constant>(); auto rhs = instr->RHS()->As<Constant>();
ASSERT_TRUE(rhs->IsI32()); ASSERT_TRUE(rhs->IsI32());
EXPECT_EQ(i32(2), rhs->AsI32()); EXPECT_EQ(i32(2), rhs->AsI32());
std::stringstream str; std::stringstream str;
str << instr; str << *instr;
EXPECT_EQ(str.str(), "%42 = 4 << 2"); EXPECT_EQ(str.str(), "%42 = 4 << 2");
} }
@ -362,27 +366,28 @@ TEST_F(IR_InstructionTest, CreateShiftRight) {
auto& b = CreateEmptyBuilder(); auto& b = CreateEmptyBuilder();
b.builder.next_temp_id = Temp::Id(42); b.builder.next_temp_id = Temp::Id(42);
auto instr = b.builder.ShiftRight(b.builder.Constant(i32(4)), b.builder.Constant(i32(2))); const auto* instr =
b.builder.ShiftRight(b.builder.Constant(i32(4)), b.builder.Constant(i32(2)));
EXPECT_EQ(instr.GetKind(), Instruction::Kind::kShiftRight); EXPECT_EQ(instr->GetKind(), Instruction::Kind::kShiftRight);
ASSERT_TRUE(instr.Result()->Is<Temp>()); ASSERT_TRUE(instr->Result()->Is<Temp>());
EXPECT_EQ(Temp::Id(42), instr.Result()->As<Temp>()->AsId()); EXPECT_EQ(Temp::Id(42), instr->Result()->As<Temp>()->AsId());
ASSERT_TRUE(instr.HasLHS()); ASSERT_TRUE(instr->HasLHS());
ASSERT_TRUE(instr.LHS()->Is<Constant>()); ASSERT_TRUE(instr->LHS()->Is<Constant>());
auto lhs = instr.LHS()->As<Constant>(); auto lhs = instr->LHS()->As<Constant>();
ASSERT_TRUE(lhs->IsI32()); ASSERT_TRUE(lhs->IsI32());
EXPECT_EQ(i32(4), lhs->AsI32()); EXPECT_EQ(i32(4), lhs->AsI32());
ASSERT_TRUE(instr.HasRHS()); ASSERT_TRUE(instr->HasRHS());
ASSERT_TRUE(instr.RHS()->Is<Constant>()); ASSERT_TRUE(instr->RHS()->Is<Constant>());
auto rhs = instr.RHS()->As<Constant>(); auto rhs = instr->RHS()->As<Constant>();
ASSERT_TRUE(rhs->IsI32()); ASSERT_TRUE(rhs->IsI32());
EXPECT_EQ(i32(2), rhs->AsI32()); EXPECT_EQ(i32(2), rhs->AsI32());
std::stringstream str; std::stringstream str;
str << instr; str << *instr;
EXPECT_EQ(str.str(), "%42 = 4 >> 2"); EXPECT_EQ(str.str(), "%42 = 4 >> 2");
} }
@ -390,27 +395,27 @@ TEST_F(IR_InstructionTest, CreateAdd) {
auto& b = CreateEmptyBuilder(); auto& b = CreateEmptyBuilder();
b.builder.next_temp_id = Temp::Id(42); b.builder.next_temp_id = Temp::Id(42);
auto instr = b.builder.Add(b.builder.Constant(i32(4)), b.builder.Constant(i32(2))); const auto* instr = b.builder.Add(b.builder.Constant(i32(4)), b.builder.Constant(i32(2)));
EXPECT_EQ(instr.GetKind(), Instruction::Kind::kAdd); EXPECT_EQ(instr->GetKind(), Instruction::Kind::kAdd);
ASSERT_TRUE(instr.Result()->Is<Temp>()); ASSERT_TRUE(instr->Result()->Is<Temp>());
EXPECT_EQ(Temp::Id(42), instr.Result()->As<Temp>()->AsId()); EXPECT_EQ(Temp::Id(42), instr->Result()->As<Temp>()->AsId());
ASSERT_TRUE(instr.HasLHS()); ASSERT_TRUE(instr->HasLHS());
ASSERT_TRUE(instr.LHS()->Is<Constant>()); ASSERT_TRUE(instr->LHS()->Is<Constant>());
auto lhs = instr.LHS()->As<Constant>(); auto lhs = instr->LHS()->As<Constant>();
ASSERT_TRUE(lhs->IsI32()); ASSERT_TRUE(lhs->IsI32());
EXPECT_EQ(i32(4), lhs->AsI32()); EXPECT_EQ(i32(4), lhs->AsI32());
ASSERT_TRUE(instr.HasRHS()); ASSERT_TRUE(instr->HasRHS());
ASSERT_TRUE(instr.RHS()->Is<Constant>()); ASSERT_TRUE(instr->RHS()->Is<Constant>());
auto rhs = instr.RHS()->As<Constant>(); auto rhs = instr->RHS()->As<Constant>();
ASSERT_TRUE(rhs->IsI32()); ASSERT_TRUE(rhs->IsI32());
EXPECT_EQ(i32(2), rhs->AsI32()); EXPECT_EQ(i32(2), rhs->AsI32());
std::stringstream str; std::stringstream str;
str << instr; str << *instr;
EXPECT_EQ(str.str(), "%42 = 4 + 2"); EXPECT_EQ(str.str(), "%42 = 4 + 2");
} }
@ -418,27 +423,27 @@ TEST_F(IR_InstructionTest, CreateSubtract) {
auto& b = CreateEmptyBuilder(); auto& b = CreateEmptyBuilder();
b.builder.next_temp_id = Temp::Id(42); b.builder.next_temp_id = Temp::Id(42);
auto instr = b.builder.Subtract(b.builder.Constant(i32(4)), b.builder.Constant(i32(2))); const auto* instr = b.builder.Subtract(b.builder.Constant(i32(4)), b.builder.Constant(i32(2)));
EXPECT_EQ(instr.GetKind(), Instruction::Kind::kSubtract); EXPECT_EQ(instr->GetKind(), Instruction::Kind::kSubtract);
ASSERT_TRUE(instr.Result()->Is<Temp>()); ASSERT_TRUE(instr->Result()->Is<Temp>());
EXPECT_EQ(Temp::Id(42), instr.Result()->As<Temp>()->AsId()); EXPECT_EQ(Temp::Id(42), instr->Result()->As<Temp>()->AsId());
ASSERT_TRUE(instr.HasLHS()); ASSERT_TRUE(instr->HasLHS());
ASSERT_TRUE(instr.LHS()->Is<Constant>()); ASSERT_TRUE(instr->LHS()->Is<Constant>());
auto lhs = instr.LHS()->As<Constant>(); auto lhs = instr->LHS()->As<Constant>();
ASSERT_TRUE(lhs->IsI32()); ASSERT_TRUE(lhs->IsI32());
EXPECT_EQ(i32(4), lhs->AsI32()); EXPECT_EQ(i32(4), lhs->AsI32());
ASSERT_TRUE(instr.HasRHS()); ASSERT_TRUE(instr->HasRHS());
ASSERT_TRUE(instr.RHS()->Is<Constant>()); ASSERT_TRUE(instr->RHS()->Is<Constant>());
auto rhs = instr.RHS()->As<Constant>(); auto rhs = instr->RHS()->As<Constant>();
ASSERT_TRUE(rhs->IsI32()); ASSERT_TRUE(rhs->IsI32());
EXPECT_EQ(i32(2), rhs->AsI32()); EXPECT_EQ(i32(2), rhs->AsI32());
std::stringstream str; std::stringstream str;
str << instr; str << *instr;
EXPECT_EQ(str.str(), "%42 = 4 - 2"); EXPECT_EQ(str.str(), "%42 = 4 - 2");
} }
@ -446,27 +451,27 @@ TEST_F(IR_InstructionTest, CreateMultiply) {
auto& b = CreateEmptyBuilder(); auto& b = CreateEmptyBuilder();
b.builder.next_temp_id = Temp::Id(42); b.builder.next_temp_id = Temp::Id(42);
auto instr = b.builder.Multiply(b.builder.Constant(i32(4)), b.builder.Constant(i32(2))); const auto* instr = b.builder.Multiply(b.builder.Constant(i32(4)), b.builder.Constant(i32(2)));
EXPECT_EQ(instr.GetKind(), Instruction::Kind::kMultiply); EXPECT_EQ(instr->GetKind(), Instruction::Kind::kMultiply);
ASSERT_TRUE(instr.Result()->Is<Temp>()); ASSERT_TRUE(instr->Result()->Is<Temp>());
EXPECT_EQ(Temp::Id(42), instr.Result()->As<Temp>()->AsId()); EXPECT_EQ(Temp::Id(42), instr->Result()->As<Temp>()->AsId());
ASSERT_TRUE(instr.HasLHS()); ASSERT_TRUE(instr->HasLHS());
ASSERT_TRUE(instr.LHS()->Is<Constant>()); ASSERT_TRUE(instr->LHS()->Is<Constant>());
auto lhs = instr.LHS()->As<Constant>(); auto lhs = instr->LHS()->As<Constant>();
ASSERT_TRUE(lhs->IsI32()); ASSERT_TRUE(lhs->IsI32());
EXPECT_EQ(i32(4), lhs->AsI32()); EXPECT_EQ(i32(4), lhs->AsI32());
ASSERT_TRUE(instr.HasRHS()); ASSERT_TRUE(instr->HasRHS());
ASSERT_TRUE(instr.RHS()->Is<Constant>()); ASSERT_TRUE(instr->RHS()->Is<Constant>());
auto rhs = instr.RHS()->As<Constant>(); auto rhs = instr->RHS()->As<Constant>();
ASSERT_TRUE(rhs->IsI32()); ASSERT_TRUE(rhs->IsI32());
EXPECT_EQ(i32(2), rhs->AsI32()); EXPECT_EQ(i32(2), rhs->AsI32());
std::stringstream str; std::stringstream str;
str << instr; str << *instr;
EXPECT_EQ(str.str(), "%42 = 4 * 2"); EXPECT_EQ(str.str(), "%42 = 4 * 2");
} }
@ -474,27 +479,27 @@ TEST_F(IR_InstructionTest, CreateDivide) {
auto& b = CreateEmptyBuilder(); auto& b = CreateEmptyBuilder();
b.builder.next_temp_id = Temp::Id(42); b.builder.next_temp_id = Temp::Id(42);
auto instr = b.builder.Divide(b.builder.Constant(i32(4)), b.builder.Constant(i32(2))); const auto* instr = b.builder.Divide(b.builder.Constant(i32(4)), b.builder.Constant(i32(2)));
EXPECT_EQ(instr.GetKind(), Instruction::Kind::kDivide); EXPECT_EQ(instr->GetKind(), Instruction::Kind::kDivide);
ASSERT_TRUE(instr.Result()->Is<Temp>()); ASSERT_TRUE(instr->Result()->Is<Temp>());
EXPECT_EQ(Temp::Id(42), instr.Result()->As<Temp>()->AsId()); EXPECT_EQ(Temp::Id(42), instr->Result()->As<Temp>()->AsId());
ASSERT_TRUE(instr.HasLHS()); ASSERT_TRUE(instr->HasLHS());
ASSERT_TRUE(instr.LHS()->Is<Constant>()); ASSERT_TRUE(instr->LHS()->Is<Constant>());
auto lhs = instr.LHS()->As<Constant>(); auto lhs = instr->LHS()->As<Constant>();
ASSERT_TRUE(lhs->IsI32()); ASSERT_TRUE(lhs->IsI32());
EXPECT_EQ(i32(4), lhs->AsI32()); EXPECT_EQ(i32(4), lhs->AsI32());
ASSERT_TRUE(instr.HasRHS()); ASSERT_TRUE(instr->HasRHS());
ASSERT_TRUE(instr.RHS()->Is<Constant>()); ASSERT_TRUE(instr->RHS()->Is<Constant>());
auto rhs = instr.RHS()->As<Constant>(); auto rhs = instr->RHS()->As<Constant>();
ASSERT_TRUE(rhs->IsI32()); ASSERT_TRUE(rhs->IsI32());
EXPECT_EQ(i32(2), rhs->AsI32()); EXPECT_EQ(i32(2), rhs->AsI32());
std::stringstream str; std::stringstream str;
str << instr; str << *instr;
EXPECT_EQ(str.str(), "%42 = 4 / 2"); EXPECT_EQ(str.str(), "%42 = 4 / 2");
} }
@ -502,27 +507,27 @@ TEST_F(IR_InstructionTest, CreateModulo) {
auto& b = CreateEmptyBuilder(); auto& b = CreateEmptyBuilder();
b.builder.next_temp_id = Temp::Id(42); b.builder.next_temp_id = Temp::Id(42);
auto instr = b.builder.Modulo(b.builder.Constant(i32(4)), b.builder.Constant(i32(2))); const auto* instr = b.builder.Modulo(b.builder.Constant(i32(4)), b.builder.Constant(i32(2)));
EXPECT_EQ(instr.GetKind(), Instruction::Kind::kModulo); EXPECT_EQ(instr->GetKind(), Instruction::Kind::kModulo);
ASSERT_TRUE(instr.Result()->Is<Temp>()); ASSERT_TRUE(instr->Result()->Is<Temp>());
EXPECT_EQ(Temp::Id(42), instr.Result()->As<Temp>()->AsId()); EXPECT_EQ(Temp::Id(42), instr->Result()->As<Temp>()->AsId());
ASSERT_TRUE(instr.HasLHS()); ASSERT_TRUE(instr->HasLHS());
ASSERT_TRUE(instr.LHS()->Is<Constant>()); ASSERT_TRUE(instr->LHS()->Is<Constant>());
auto lhs = instr.LHS()->As<Constant>(); auto lhs = instr->LHS()->As<Constant>();
ASSERT_TRUE(lhs->IsI32()); ASSERT_TRUE(lhs->IsI32());
EXPECT_EQ(i32(4), lhs->AsI32()); EXPECT_EQ(i32(4), lhs->AsI32());
ASSERT_TRUE(instr.HasRHS()); ASSERT_TRUE(instr->HasRHS());
ASSERT_TRUE(instr.RHS()->Is<Constant>()); ASSERT_TRUE(instr->RHS()->Is<Constant>());
auto rhs = instr.RHS()->As<Constant>(); auto rhs = instr->RHS()->As<Constant>();
ASSERT_TRUE(rhs->IsI32()); ASSERT_TRUE(rhs->IsI32());
EXPECT_EQ(i32(2), rhs->AsI32()); EXPECT_EQ(i32(2), rhs->AsI32());
std::stringstream str; std::stringstream str;
str << instr; str << *instr;
EXPECT_EQ(str.str(), "%42 = 4 % 2"); EXPECT_EQ(str.str(), "%42 = 4 % 2");
} }

View File

@ -18,6 +18,7 @@
#include <string> #include <string>
#include "src/tint/ir/function.h" #include "src/tint/ir/function.h"
#include "src/tint/ir/instruction.h"
#include "src/tint/ir/value.h" #include "src/tint/ir/value.h"
#include "src/tint/utils/block_allocator.h" #include "src/tint/utils/block_allocator.h"
#include "src/tint/utils/result.h" #include "src/tint/utils/result.h"
@ -69,6 +70,8 @@ class Module {
utils::BlockAllocator<FlowNode> flow_nodes; utils::BlockAllocator<FlowNode> flow_nodes;
/// The value allocator /// The value allocator
utils::BlockAllocator<Value> values; utils::BlockAllocator<Value> values;
/// The instruction allocator
utils::BlockAllocator<Instruction> instructions;
/// List of functions in the program /// List of functions in the program
utils::Vector<Function*, 8> functions; utils::Vector<Function*, 8> functions;