Commit f07d2cdd authored by pierre.langlois's avatar pierre.langlois Committed by Commit bot

ARM64: [turbofan] Avoid zero-extension after a 32-bit load

A load instruction will implicitely clear the top 32 bits when writing to a W
register. This patch avoids generating a `mov` instruction to zero-extend the
result in this case.

For example, this occurs in the generated code for dispatching to the next
bytecode in the interpreter:

  kind = BYTECODE_HANDLER
  name = LdaZero
  compiler = turbofan
  Instructions (size = 36)
  0x32e64c60     0  add x19, x19, #0x1 (1)
  0x32e64c64     4  ldrb w0, [x20, x19]
  0x32e64c68     8  mov w0, w0
                    ^^^^^^^^^^
  0x32e64c6c    12  lsl x0, x0, #3
  0x32e64c70    16  ldr x1, [x21, x0]
  0x32e64c74    20  movz x0, #0x0
  0x32e64c78    24  br x1

BUG=

Review-Url: https://codereview.chromium.org/1950013003
Cr-Commit-Position: refs/heads/master@{#36038}
parent e9b244c5
......@@ -1414,6 +1414,20 @@ void InstructionSelector::VisitChangeUint32ToUint64(Node* node) {
Emit(kArchNop, g.DefineSameAsFirst(node), g.Use(value));
return;
}
case IrOpcode::kLoad: {
// As for the operations above, a 32-bit load will implicitly clear the
// top 32 bits of the destination register.
LoadRepresentation load_rep = LoadRepresentationOf(value->op());
switch (load_rep.representation()) {
case MachineRepresentation::kWord8:
case MachineRepresentation::kWord16:
case MachineRepresentation::kWord32:
Emit(kArchNop, g.DefineSameAsFirst(node), g.Use(value));
return;
default:
break;
}
}
default:
break;
}
......
......@@ -326,6 +326,52 @@ const Conversion kConversionInstructions[] = {
kArm64Float64ToUint32, MachineType::Uint32()},
MachineType::Float64()}};
// ARM64 instructions that clear the top 32 bits of the destination.
const MachInst2 kCanElideChangeUint32ToUint64[] = {
{&RawMachineAssembler::Word32And, "Word32And", kArm64And32,
MachineType::Uint32()},
{&RawMachineAssembler::Word32Or, "Word32Or", kArm64Or32,
MachineType::Uint32()},
{&RawMachineAssembler::Word32Xor, "Word32Xor", kArm64Eor32,
MachineType::Uint32()},
{&RawMachineAssembler::Word32Shl, "Word32Shl", kArm64Lsl32,
MachineType::Uint32()},
{&RawMachineAssembler::Word32Shr, "Word32Shr", kArm64Lsr32,
MachineType::Uint32()},
{&RawMachineAssembler::Word32Sar, "Word32Sar", kArm64Asr32,
MachineType::Uint32()},
{&RawMachineAssembler::Word32Ror, "Word32Ror", kArm64Ror32,
MachineType::Uint32()},
{&RawMachineAssembler::Word32Equal, "Word32Equal", kArm64Cmp32,
MachineType::Uint32()},
{&RawMachineAssembler::Int32Add, "Int32Add", kArm64Add32,
MachineType::Int32()},
{&RawMachineAssembler::Int32AddWithOverflow, "Int32AddWithOverflow",
kArm64Add32, MachineType::Int32()},
{&RawMachineAssembler::Int32Sub, "Int32Sub", kArm64Sub32,
MachineType::Int32()},
{&RawMachineAssembler::Int32SubWithOverflow, "Int32SubWithOverflow",
kArm64Sub32, MachineType::Int32()},
{&RawMachineAssembler::Int32Mul, "Int32Mul", kArm64Mul32,
MachineType::Int32()},
{&RawMachineAssembler::Int32Div, "Int32Div", kArm64Idiv32,
MachineType::Int32()},
{&RawMachineAssembler::Int32Mod, "Int32Mod", kArm64Imod32,
MachineType::Int32()},
{&RawMachineAssembler::Int32LessThan, "Int32LessThan", kArm64Cmp32,
MachineType::Int32()},
{&RawMachineAssembler::Int32LessThanOrEqual, "Int32LessThanOrEqual",
kArm64Cmp32, MachineType::Int32()},
{&RawMachineAssembler::Uint32Div, "Uint32Div", kArm64Udiv32,
MachineType::Uint32()},
{&RawMachineAssembler::Uint32LessThan, "Uint32LessThan", kArm64Cmp32,
MachineType::Uint32()},
{&RawMachineAssembler::Uint32LessThanOrEqual, "Uint32LessThanOrEqual",
kArm64Cmp32, MachineType::Uint32()},
{&RawMachineAssembler::Uint32Mod, "Uint32Mod", kArm64Umod32,
MachineType::Uint32()},
};
} // namespace
......@@ -2105,6 +2151,71 @@ INSTANTIATE_TEST_CASE_P(InstructionSelectorTest,
InstructionSelectorConversionTest,
::testing::ValuesIn(kConversionInstructions));
typedef InstructionSelectorTestWithParam<MachInst2>
InstructionSelectorElidedChangeUint32ToUint64Test;
TEST_P(InstructionSelectorElidedChangeUint32ToUint64Test, Parameter) {
const MachInst2 binop = GetParam();
StreamBuilder m(this, MachineType::Uint64(), binop.machine_type,
binop.machine_type);
m.Return(m.ChangeUint32ToUint64(
(m.*binop.constructor)(m.Parameter(0), m.Parameter(1))));
Stream s = m.Build();
// Make sure the `ChangeUint32ToUint64` node turned into a no-op.
ASSERT_EQ(1U, s.size());
EXPECT_EQ(binop.arch_opcode, s[0]->arch_opcode());
EXPECT_EQ(2U, s[0]->InputCount());
EXPECT_EQ(1U, s[0]->OutputCount());
}
INSTANTIATE_TEST_CASE_P(InstructionSelectorTest,
InstructionSelectorElidedChangeUint32ToUint64Test,
::testing::ValuesIn(kCanElideChangeUint32ToUint64));
TEST_F(InstructionSelectorTest, ChangeUint32ToUint64AfterLoad) {
// For each case, make sure the `ChangeUint32ToUint64` node turned into a
// no-op.
// Ldrb
{
StreamBuilder m(this, MachineType::Uint64(), MachineType::Pointer(),
MachineType::Int32());
m.Return(m.ChangeUint32ToUint64(
m.Load(MachineType::Uint8(), m.Parameter(0), m.Parameter(1))));
Stream s = m.Build();
ASSERT_EQ(1U, s.size());
EXPECT_EQ(kArm64Ldrb, s[0]->arch_opcode());
EXPECT_EQ(kMode_MRR, s[0]->addressing_mode());
EXPECT_EQ(2U, s[0]->InputCount());
EXPECT_EQ(1U, s[0]->OutputCount());
}
// Ldrh
{
StreamBuilder m(this, MachineType::Uint64(), MachineType::Pointer(),
MachineType::Int32());
m.Return(m.ChangeUint32ToUint64(
m.Load(MachineType::Uint16(), m.Parameter(0), m.Parameter(1))));
Stream s = m.Build();
ASSERT_EQ(1U, s.size());
EXPECT_EQ(kArm64Ldrh, s[0]->arch_opcode());
EXPECT_EQ(kMode_MRR, s[0]->addressing_mode());
EXPECT_EQ(2U, s[0]->InputCount());
EXPECT_EQ(1U, s[0]->OutputCount());
}
// LdrW
{
StreamBuilder m(this, MachineType::Uint64(), MachineType::Pointer(),
MachineType::Int32());
m.Return(m.ChangeUint32ToUint64(
m.Load(MachineType::Uint32(), m.Parameter(0), m.Parameter(1))));
Stream s = m.Build();
ASSERT_EQ(1U, s.size());
EXPECT_EQ(kArm64LdrW, s[0]->arch_opcode());
EXPECT_EQ(kMode_MRR, s[0]->addressing_mode());
EXPECT_EQ(2U, s[0]->InputCount());
EXPECT_EQ(1U, s[0]->OutputCount());
}
}
// -----------------------------------------------------------------------------
// Memory access instructions.
......
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