[ir] Emit short-circuit as an `If` node
This Cl removes the `&&` and `||` logical binary nodes and replaces them with a var declaration and if node. Bug: tint:1925 Change-Id: I9f25411a9b9c909fa25f2f37cbd51181ac584acc Reviewed-on: https://dawn-review.googlesource.com/c/dawn/+/130500 Commit-Queue: Dan Sinclair <dsinclair@chromium.org> Kokoro: Kokoro <noreply+kokoro@google.com> Reviewed-by: James Price <jrprice@google.com> Reviewed-by: Ben Clayton <bclayton@google.com>
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@ -778,7 +778,66 @@ utils::Result<Value*> BuilderImpl::EmitUnary(const ast::UnaryOpExpression* expr)
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return inst;
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return inst;
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}
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}
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// A short-circut needs special treatment. The short-circuit is decomposed into the relevant if
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// statements and declarations.
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utils::Result<Value*> BuilderImpl::EmitShortCircuit(const ast::BinaryExpression* expr) {
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switch (expr->op) {
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case ast::BinaryOp::kLogicalAnd:
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case ast::BinaryOp::kLogicalOr:
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break;
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default:
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TINT_ICE(IR, diagnostics_) << "invalid operation type for short-circut decomposition";
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return utils::Failure;
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}
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auto lhs = EmitExpression(expr->lhs);
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if (!lhs) {
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return utils::Failure;
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}
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auto* ty = builder.ir.types.Get<type::Bool>();
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auto* result_var =
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builder.Declare(ty, builtin::AddressSpace::kFunction, builtin::Access::kReadWrite);
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current_flow_block->instructions.Push(result_var);
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auto* lhs_store = builder.Store(result_var, lhs.Get());
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current_flow_block->instructions.Push(lhs_store);
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auto* if_node = builder.CreateIf();
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if_node->condition = lhs.Get();
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BranchTo(if_node);
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utils::Result<Value*> rhs;
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{
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FlowStackScope scope(this, if_node);
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// If this is an `&&` then we only evaluate the RHS expression in the true block.
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// If this is an `||` then we only evaluate the RHS expression in the false block.
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if (expr->op == ast::BinaryOp::kLogicalAnd) {
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current_flow_block = if_node->true_.target->As<Block>();
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} else {
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current_flow_block = if_node->false_.target->As<Block>();
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}
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rhs = EmitExpression(expr->rhs);
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if (!rhs) {
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return utils::Failure;
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}
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auto* rhs_store = builder.Store(result_var, rhs.Get());
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current_flow_block->instructions.Push(rhs_store);
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BranchTo(if_node->merge.target);
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}
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current_flow_block = if_node->merge.target->As<Block>();
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return result_var;
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}
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utils::Result<Value*> BuilderImpl::EmitBinary(const ast::BinaryExpression* expr) {
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utils::Result<Value*> BuilderImpl::EmitBinary(const ast::BinaryExpression* expr) {
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if (expr->op == ast::BinaryOp::kLogicalAnd || expr->op == ast::BinaryOp::kLogicalOr) {
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return EmitShortCircuit(expr);
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}
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auto lhs = EmitExpression(expr->lhs);
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auto lhs = EmitExpression(expr->lhs);
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if (!lhs) {
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if (!lhs) {
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return utils::Failure;
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return utils::Failure;
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@ -803,12 +862,6 @@ utils::Result<Value*> BuilderImpl::EmitBinary(const ast::BinaryExpression* expr)
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case ast::BinaryOp::kXor:
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case ast::BinaryOp::kXor:
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inst = builder.Xor(ty, lhs.Get(), rhs.Get());
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inst = builder.Xor(ty, lhs.Get(), rhs.Get());
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break;
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break;
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case ast::BinaryOp::kLogicalAnd:
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inst = builder.LogicalAnd(ty, lhs.Get(), rhs.Get());
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break;
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case ast::BinaryOp::kLogicalOr:
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inst = builder.LogicalOr(ty, lhs.Get(), rhs.Get());
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break;
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case ast::BinaryOp::kEqual:
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case ast::BinaryOp::kEqual:
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inst = builder.Equal(ty, lhs.Get(), rhs.Get());
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inst = builder.Equal(ty, lhs.Get(), rhs.Get());
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break;
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break;
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@ -848,6 +901,10 @@ utils::Result<Value*> BuilderImpl::EmitBinary(const ast::BinaryExpression* expr)
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case ast::BinaryOp::kModulo:
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case ast::BinaryOp::kModulo:
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inst = builder.Modulo(ty, lhs.Get(), rhs.Get());
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inst = builder.Modulo(ty, lhs.Get(), rhs.Get());
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break;
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break;
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case ast::BinaryOp::kLogicalAnd:
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case ast::BinaryOp::kLogicalOr:
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TINT_ICE(IR, diagnostics_) << "short circuit op should have already been handled";
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return utils::Failure;
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case ast::BinaryOp::kNone:
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case ast::BinaryOp::kNone:
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TINT_ICE(IR, diagnostics_) << "missing binary operand type";
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TINT_ICE(IR, diagnostics_) << "missing binary operand type";
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return utils::Failure;
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return utils::Failure;
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@ -166,6 +166,11 @@ class BuilderImpl {
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/// @returns the value storing the result if successful, utils::Failure otherwise
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/// @returns the value storing the result if successful, utils::Failure otherwise
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utils::Result<Value*> EmitUnary(const ast::UnaryOpExpression* expr);
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utils::Result<Value*> EmitUnary(const ast::UnaryOpExpression* expr);
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/// Emits a short-circult binary expression
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/// @param expr the binary expression
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/// @returns the value storing the result if successful, utils::Failure otherwise
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utils::Result<Value*> EmitShortCircuit(const ast::BinaryExpression* expr);
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/// Emits a binary expression
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/// Emits a binary expression
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/// @param expr the binary expression
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/// @param expr the binary expression
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/// @returns the value storing the result if successful, utils::Failure otherwise
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/// @returns the value storing the result if successful, utils::Failure otherwise
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@ -1773,16 +1773,33 @@ TEST_F(IR_BuilderImplTest, EmitExpression_Binary_LogicalAnd) {
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auto* expr = LogicalAnd(Call("my_func"), false);
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auto* expr = LogicalAnd(Call("my_func"), false);
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WrapInFunction(expr);
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WrapInFunction(expr);
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auto& b = CreateBuilder();
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auto r = Build();
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InjectFlowBlock();
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ASSERT_TRUE(r) << Error();
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auto r = b.EmitExpression(expr);
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auto m = r.Move();
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ASSERT_THAT(b.Diagnostics(), testing::IsEmpty());
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ASSERT_TRUE(r);
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EXPECT_EQ(Disassemble(m), R"(%fn0 = func my_func
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%fn1 = block
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ret true
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func_end
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%fn2 = func test_function
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%fn3 = block
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%1(bool) = call my_func
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%2(bool) = var function read_write
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store %2(bool), %1(bool)
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branch %fn4
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%fn4 = if %1(bool) [t: %fn5, f: %fn6, m: %fn7]
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# true branch
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%fn5 = block
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store %2(bool), false
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branch %fn7
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# if merge
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%fn7 = block
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ret
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func_end
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Disassembler d(b.builder.ir);
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d.EmitBlockInstructions(b.current_flow_block->As<ir::Block>());
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EXPECT_EQ(d.AsString(), R"(%1(bool) = call my_func
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%2(bool) = log_and %1(bool), false
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)");
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)");
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}
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}
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@ -1791,16 +1808,34 @@ TEST_F(IR_BuilderImplTest, EmitExpression_Binary_LogicalOr) {
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auto* expr = LogicalOr(Call("my_func"), true);
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auto* expr = LogicalOr(Call("my_func"), true);
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WrapInFunction(expr);
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WrapInFunction(expr);
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auto& b = CreateBuilder();
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auto r = Build();
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InjectFlowBlock();
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ASSERT_TRUE(r) << Error();
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auto r = b.EmitExpression(expr);
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auto m = r.Move();
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ASSERT_THAT(b.Diagnostics(), testing::IsEmpty());
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ASSERT_TRUE(r);
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EXPECT_EQ(Disassemble(m), R"(%fn0 = func my_func
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%fn1 = block
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ret true
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func_end
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%fn2 = func test_function
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%fn3 = block
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%1(bool) = call my_func
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%2(bool) = var function read_write
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store %2(bool), %1(bool)
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branch %fn4
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%fn4 = if %1(bool) [t: %fn5, f: %fn6, m: %fn7]
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# true branch
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# false branch
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%fn6 = block
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store %2(bool), true
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branch %fn7
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# if merge
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%fn7 = block
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ret
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func_end
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Disassembler d(b.builder.ir);
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d.EmitBlockInstructions(b.current_flow_block->As<ir::Block>());
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EXPECT_EQ(d.AsString(), R"(%1(bool) = call my_func
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%2(bool) = log_or %1(bool), true
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)");
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)");
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}
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}
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@ -1955,22 +1990,39 @@ TEST_F(IR_BuilderImplTest, EmitExpression_Binary_Compound) {
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GreaterThan(2.5_f, Div(Call("my_func"), Mul(2.3_f, Call("my_func")))));
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GreaterThan(2.5_f, Div(Call("my_func"), Mul(2.3_f, Call("my_func")))));
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WrapInFunction(expr);
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WrapInFunction(expr);
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auto& b = CreateBuilder();
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auto r = Build();
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InjectFlowBlock();
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ASSERT_TRUE(r) << Error();
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auto r = b.EmitExpression(expr);
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auto m = r.Move();
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ASSERT_THAT(b.Diagnostics(), testing::IsEmpty());
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ASSERT_TRUE(r);
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EXPECT_EQ(Disassemble(m), R"(%fn0 = func my_func
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%fn1 = block
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ret 0.0f
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func_end
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%fn2 = func test_function
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%fn3 = block
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%1(f32) = call my_func
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%2(bool) = lt %1(f32), 2.0f
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%3(bool) = var function read_write
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store %3(bool), %2(bool)
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branch %fn4
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%fn4 = if %2(bool) [t: %fn5, f: %fn6, m: %fn7]
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# true branch
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%fn5 = block
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%4(f32) = call my_func
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%5(f32) = call my_func
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%6(f32) = mul 2.29999995231628417969f, %5(f32)
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%7(f32) = div %4(f32), %6(f32)
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%8(bool) = gt 2.5f, %7(f32)
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store %3(bool), %8(bool)
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branch %fn7
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# if merge
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%fn7 = block
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ret
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func_end
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Disassembler d(b.builder.ir);
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d.EmitBlockInstructions(b.current_flow_block->As<ir::Block>());
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EXPECT_EQ(d.AsString(), R"(%1(f32) = call my_func
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%2(bool) = lt %1(f32), 2.0f
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%3(f32) = call my_func
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%4(f32) = call my_func
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%5(f32) = mul 2.29999995231628417969f, %4(f32)
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%6(f32) = div %3(f32), %5(f32)
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%7(bool) = gt 2.5f, %6(f32)
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%8(bool) = log_and %2(bool), %7(bool)
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)");
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)");
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}
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}
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@ -1980,15 +2032,21 @@ TEST_F(IR_BuilderImplTest, EmitExpression_Binary_Compound_WithConstEval) {
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GreaterThan(2.5_f, Div(10_f, Mul(2.3_f, 9.4_f)))));
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GreaterThan(2.5_f, Div(10_f, Mul(2.3_f, 9.4_f)))));
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WrapInFunction(expr);
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WrapInFunction(expr);
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auto& b = CreateBuilder();
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auto r = Build();
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InjectFlowBlock();
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ASSERT_TRUE(r) << Error();
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auto r = b.EmitExpression(expr);
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auto m = r.Move();
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ASSERT_THAT(b.Diagnostics(), testing::IsEmpty());
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ASSERT_TRUE(r);
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EXPECT_EQ(Disassemble(m), R"(%fn0 = func my_func
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%fn1 = block
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ret true
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func_end
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%fn2 = func test_function
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%fn3 = block
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%1(bool) = call my_func, false
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ret
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func_end
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Disassembler d(b.builder.ir);
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d.EmitBlockInstructions(b.current_flow_block->As<ir::Block>());
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EXPECT_EQ(d.AsString(), R"(%1(bool) = call my_func, false
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)");
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)");
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}
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}
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@ -203,9 +203,11 @@ void Disassembler::Walk(const FlowNode* node) {
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Indent() << "# true branch" << std::endl;
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Indent() << "# true branch" << std::endl;
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Walk(i->true_.target);
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Walk(i->true_.target);
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if (!i->false_.target->IsDead()) {
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Indent() << "# false branch" << std::endl;
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Indent() << "# false branch" << std::endl;
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Walk(i->false_.target);
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Walk(i->false_.target);
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}
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}
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}
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if (i->merge.target->IsConnected()) {
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if (i->merge.target->IsConnected()) {
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Indent() << "# if merge" << std::endl;
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Indent() << "# if merge" << std::endl;
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