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Add legalization helper instructions.

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The isplit_lohi instruction breaks an integer into two halves. This will
typically be used to get the two halves of an `i64` value on 32-bit
CPUs.

The iconcat_lohi is the reverse operation. It reconstructs the `i64`
from the low and high bits.
This commit is contained in:
Jakob Stoklund Olesen
2016-09-27 16:22:32 -07:00
parent 2a2871e739
commit 29c449f117
6 changed files with 63 additions and 0 deletions
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8
docs/langref.rst
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@@ -823,6 +823,14 @@ Conversion operations
.. autoinst:: fcvt_from_uint
.. autoinst:: fcvt_from_sint
Legalization operations
-----------------------
These instructions are used as helpers when legalizing types and operations for
the target ISA.
.. autoinst:: isplit_lohi
.. autoinst:: iconcat_lohi
Base instruction group
======================

38
meta/cretonne/base.py
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@@ -1105,4 +1105,42 @@ fcvt_from_sint = Instruction(
""",
ins=x, outs=a)
#
# Legalization helper instructions.
#
WideInt = TypeVar(
'WideInt', 'A scalar integer type from `i16` upwards',
ints=(16, 64))
x = Operand('x', WideInt)
lo = Operand(
'lo', WideInt.half_width(), 'The low bits of `x`')
hi = Operand(
'hi', WideInt.half_width(), 'The high bits of `x`')
isplit_lohi = Instruction(
'isplit_lohi', r"""
Split a scalar integer into low and high parts.
Returns the low half of `x` and the high half of `x` as two independent
values.
""",
ins=x, outs=(lo, hi))
NarrowInt = TypeVar(
'NarrowInt', 'A scalar integer type up to `i32`',
ints=(8, 32))
lo = Operand('lo', NarrowInt)
hi = Operand('hi', NarrowInt)
a = Operand(
'a', NarrowInt.double_width(),
doc='The concatenation of `lo` and `hi`')
iconcat_lohi = Instruction(
'iconcat_lohi', r"""
Concatenate low and high bits to form a larger integer type.
""",
ins=(lo, hi), outs=a)
instructions.close()

1
meta/cretonne/formats.py
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@@ -17,6 +17,7 @@ UnaryImm = InstructionFormat(imm64)
UnaryIeee32 = InstructionFormat(ieee32)
UnaryIeee64 = InstructionFormat(ieee64)
UnaryImmVector = InstructionFormat(immvector)
UnarySplit = InstructionFormat(value, multiple_results=True)
Binary = InstructionFormat(value, value)
BinaryImm = InstructionFormat(value, imm64)

6
src/libcretonne/ir/instructions.rs
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@@ -120,6 +120,12 @@ pub enum InstructionData {
opcode: Opcode,
ty: Type, // TBD: imm: Box<ImmVectorData>
},
UnarySplit {
opcode: Opcode,
ty: Type,
second_result: Value,
arg: Value,
},
Binary {
opcode: Opcode,
ty: Type,

1
src/libcretonne/write.rs
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@@ -185,6 +185,7 @@ fn write_instruction(w: &mut Write,
UnaryIeee32 { imm, .. } => writeln!(w, " {}", imm),
UnaryIeee64 { imm, .. } => writeln!(w, " {}", imm),
UnaryImmVector { .. } => writeln!(w, " [...]"),
UnarySplit { arg, .. } => writeln!(w, " {}", arg),
Binary { args, .. } => writeln!(w, " {}, {}", args[0], args[1]),
BinaryImm { arg, imm, .. } => writeln!(w, " {}, {}", arg, imm),
BinaryImmRev { imm, arg, .. } => writeln!(w, " {}, {}", imm, arg),

9
src/libreader/parser.rs
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@@ -119,6 +119,7 @@ impl Context {
InstructionData::UnaryImmVector { .. } => {}
InstructionData::Unary { ref mut arg, .. } |
InstructionData::UnarySplit { ref mut arg, .. } |
InstructionData::BinaryImm { ref mut arg, .. } |
InstructionData::BinaryImmRev { ref mut arg, .. } |
InstructionData::ExtractLane { ref mut arg, .. } |
@@ -1013,6 +1014,14 @@ impl<'a> Parser<'a> {
InstructionFormat::UnaryImmVector => {
unimplemented!();
}
InstructionFormat::UnarySplit => {
InstructionData::UnarySplit {
opcode: opcode,
ty: VOID,
second_result: NO_VALUE,
arg: try!(self.match_value("expected SSA value operand")),
}
}
InstructionFormat::Binary => {
let lhs = try!(self.match_value("expected SSA value first operand"));
try!(self.match_token(Token::Comma, "expected ',' between operands"));