Index: src/compiler/ppc/instruction-selector-ppc.cc |
diff --git a/src/compiler/ppc/instruction-selector-ppc.cc b/src/compiler/ppc/instruction-selector-ppc.cc |
index 8a384f6fafa91b862a792cb375438fc46db74de1..ae4c97a9ee5ad79329da5dadcfa29dd4da72a44a 100644 |
--- a/src/compiler/ppc/instruction-selector-ppc.cc |
+++ b/src/compiler/ppc/instruction-selector-ppc.cc |
@@ -1249,62 +1249,31 @@ void InstructionSelector::VisitBranch(Node* branch, BasicBlock* tbranch, |
} |
-void InstructionSelector::VisitSwitch(Node* node, BasicBlock* default_branch, |
- BasicBlock** case_branches, |
- int32_t* case_values, size_t case_count, |
- int32_t min_value, int32_t max_value) { |
+void InstructionSelector::VisitSwitch(Node* node, const SwitchInfo& sw) { |
PPCOperandGenerator g(this); |
InstructionOperand value_operand = g.UseRegister(node->InputAt(0)); |
- InstructionOperand default_operand = g.Label(default_branch); |
- // Note that {value_range} can be 0 if {min_value} is -2^31 and {max_value} |
- // is 2^31-1, so don't assume that it's non-zero below. |
- size_t value_range = |
- 1u + bit_cast<uint32_t>(max_value) - bit_cast<uint32_t>(min_value); |
- |
- // Determine whether to issue an ArchTableSwitch or an ArchLookupSwitch |
- // instruction. |
- size_t table_space_cost = 4 + value_range; |
+ // Emit either ArchTableSwitch or ArchLookupSwitch. |
+ size_t table_space_cost = 4 + sw.value_range; |
size_t table_time_cost = 3; |
- size_t lookup_space_cost = 3 + 2 * case_count; |
- size_t lookup_time_cost = case_count; |
- if (case_count > 0 && |
+ size_t lookup_space_cost = 3 + 2 * sw.case_count; |
+ size_t lookup_time_cost = sw.case_count; |
+ if (sw.case_count > 0 && |
table_space_cost + 3 * table_time_cost <= |
lookup_space_cost + 3 * lookup_time_cost && |
- min_value > std::numeric_limits<int32_t>::min()) { |
+ sw.min_value > std::numeric_limits<int32_t>::min()) { |
InstructionOperand index_operand = value_operand; |
- if (min_value) { |
+ if (sw.min_value) { |
index_operand = g.TempRegister(); |
Emit(kPPC_Sub32, index_operand, value_operand, |
- g.TempImmediate(min_value)); |
- } |
- size_t input_count = 2 + value_range; |
- auto* inputs = zone()->NewArray<InstructionOperand>(input_count); |
- inputs[0] = index_operand; |
- std::fill(&inputs[1], &inputs[input_count], default_operand); |
- for (size_t index = 0; index < case_count; ++index) { |
- size_t value = case_values[index] - min_value; |
- BasicBlock* branch = case_branches[index]; |
- DCHECK_LE(0u, value); |
- DCHECK_LT(value + 2, input_count); |
- inputs[value + 2] = g.Label(branch); |
+ g.TempImmediate(sw.min_value)); |
} |
- Emit(kArchTableSwitch, 0, nullptr, input_count, inputs, 0, nullptr); |
- return; |
+ // Generate a table lookup. |
+ return EmitTableSwitch(sw, index_operand); |
} |
// Generate a sequence of conditional jumps. |
- size_t input_count = 2 + case_count * 2; |
- auto* inputs = zone()->NewArray<InstructionOperand>(input_count); |
- inputs[0] = value_operand; |
- inputs[1] = default_operand; |
- for (size_t index = 0; index < case_count; ++index) { |
- int32_t value = case_values[index]; |
- BasicBlock* branch = case_branches[index]; |
- inputs[index * 2 + 2 + 0] = g.TempImmediate(value); |
- inputs[index * 2 + 2 + 1] = g.Label(branch); |
- } |
- Emit(kArchLookupSwitch, 0, nullptr, input_count, inputs, 0, nullptr); |
+ return EmitLookupSwitch(sw, value_operand); |
} |