Commit be11812c authored by danno's avatar danno Committed by Commit bot

[turbofan] Improve codegen for 8- and 16-bit memory comparisons on Intel platforms

Recognize and emit in-memory comparisons of 8-bit and 16-bit values with
immediate values that fit.

LOG=N
R=epertoso@chromium.org

Review-Url: https://codereview.chromium.org/2605863002
Cr-Commit-Position: refs/heads/master@{#41971}
parent b063b343
......@@ -1251,21 +1251,54 @@ void VisitCompare(InstructionSelector* selector, InstructionCode opcode,
VisitCompare(selector, opcode, g.UseRegister(left), g.Use(right), cont);
}
MachineType MachineTypeForNarrow(Node* node, Node* hint_node) {
if (hint_node->opcode() == IrOpcode::kLoad) {
MachineType hint = LoadRepresentationOf(hint_node->op());
if (node->opcode() == IrOpcode::kInt32Constant ||
node->opcode() == IrOpcode::kInt64Constant) {
int64_t constant = node->opcode() == IrOpcode::kInt32Constant
? OpParameter<int32_t>(node)
: OpParameter<int64_t>(node);
if (hint == MachineType::Int8()) {
if (constant >= std::numeric_limits<int8_t>::min() &&
constant <= std::numeric_limits<int8_t>::max()) {
return hint;
}
} else if (hint == MachineType::Uint8()) {
if (constant >= std::numeric_limits<uint8_t>::min() &&
constant <= std::numeric_limits<uint8_t>::max()) {
return hint;
}
} else if (hint == MachineType::Int16()) {
if (constant >= std::numeric_limits<int16_t>::min() &&
constant <= std::numeric_limits<int16_t>::max()) {
return hint;
}
} else if (hint == MachineType::Uint16()) {
if (constant >= std::numeric_limits<uint16_t>::min() &&
constant <= std::numeric_limits<uint16_t>::max()) {
return hint;
}
} else if (hint == MachineType::Int32()) {
return hint;
} else if (hint == MachineType::Uint32()) {
if (constant >= 0) return hint;
}
}
}
return node->opcode() == IrOpcode::kLoad ? LoadRepresentationOf(node->op())
: MachineType::None();
}
// Tries to match the size of the given opcode to that of the operands, if
// possible.
InstructionCode TryNarrowOpcodeSize(InstructionCode opcode, Node* left,
Node* right, FlagsContinuation* cont) {
// Currently, if one of the two operands is not a Load, we don't know what its
// machine representation is, so we bail out.
// TODO(epertoso): we can probably get some size information out of immediates
// and phi nodes.
if (left->opcode() != IrOpcode::kLoad || right->opcode() != IrOpcode::kLoad) {
return opcode;
}
// TODO(epertoso): we can probably get some size information out of phi nodes.
// If the load representations don't match, both operands will be
// zero/sign-extended to 32bit.
MachineType left_type = LoadRepresentationOf(left->op());
MachineType right_type = LoadRepresentationOf(right->op());
MachineType left_type = MachineTypeForNarrow(left, right);
MachineType right_type = MachineTypeForNarrow(right, left);
if (left_type == right_type) {
switch (left_type.representation()) {
case MachineRepresentation::kBit:
......@@ -1343,10 +1376,8 @@ void VisitWordCompare(InstructionSelector* selector, Node* node,
// Match immediates on right side of comparison.
if (g.CanBeImmediate(right)) {
if (g.CanBeMemoryOperand(opcode, node, left, effect_level)) {
// TODO(epertoso): we should use `narrowed_opcode' here once we match
// immediates too.
return VisitCompareWithMemoryOperand(selector, opcode, left,
if (g.CanBeMemoryOperand(narrowed_opcode, node, left, effect_level)) {
return VisitCompareWithMemoryOperand(selector, narrowed_opcode, left,
g.UseImmediate(right), cont);
}
return VisitCompare(selector, opcode, g.Use(left), g.UseImmediate(right),
......
......@@ -1713,21 +1713,54 @@ void VisitCompare(InstructionSelector* selector, InstructionCode opcode,
VisitCompare(selector, opcode, g.UseRegister(left), g.Use(right), cont);
}
MachineType MachineTypeForNarrow(Node* node, Node* hint_node) {
if (hint_node->opcode() == IrOpcode::kLoad) {
MachineType hint = LoadRepresentationOf(hint_node->op());
if (node->opcode() == IrOpcode::kInt32Constant ||
node->opcode() == IrOpcode::kInt64Constant) {
int64_t constant = node->opcode() == IrOpcode::kInt32Constant
? OpParameter<int32_t>(node)
: OpParameter<int64_t>(node);
if (hint == MachineType::Int8()) {
if (constant >= std::numeric_limits<int8_t>::min() &&
constant <= std::numeric_limits<int8_t>::max()) {
return hint;
}
} else if (hint == MachineType::Uint8()) {
if (constant >= std::numeric_limits<uint8_t>::min() &&
constant <= std::numeric_limits<uint8_t>::max()) {
return hint;
}
} else if (hint == MachineType::Int16()) {
if (constant >= std::numeric_limits<int16_t>::min() &&
constant <= std::numeric_limits<int16_t>::max()) {
return hint;
}
} else if (hint == MachineType::Uint16()) {
if (constant >= std::numeric_limits<uint16_t>::min() &&
constant <= std::numeric_limits<uint16_t>::max()) {
return hint;
}
} else if (hint == MachineType::Int32()) {
return hint;
} else if (hint == MachineType::Uint32()) {
if (constant >= 0) return hint;
}
}
}
return node->opcode() == IrOpcode::kLoad ? LoadRepresentationOf(node->op())
: MachineType::None();
}
// Tries to match the size of the given opcode to that of the operands, if
// possible.
InstructionCode TryNarrowOpcodeSize(InstructionCode opcode, Node* left,
Node* right, FlagsContinuation* cont) {
// Currently, if one of the two operands is not a Load, we don't know what its
// machine representation is, so we bail out.
// TODO(epertoso): we can probably get some size information out of immediates
// and phi nodes.
if (left->opcode() != IrOpcode::kLoad || right->opcode() != IrOpcode::kLoad) {
return opcode;
}
// TODO(epertoso): we can probably get some size information out phi nodes.
// If the load representations don't match, both operands will be
// zero/sign-extended to 32bit.
MachineType left_type = LoadRepresentationOf(left->op());
MachineType right_type = LoadRepresentationOf(right->op());
MachineType left_type = MachineTypeForNarrow(left, right);
MachineType right_type = MachineTypeForNarrow(right, left);
if (left_type == right_type) {
switch (left_type.representation()) {
case MachineRepresentation::kBit:
......
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