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clang-p2996/mlir/test/lib/Dialect/Test/TestAttrDefs.td
Aman LaChapelle 759a7b5933 [mlir] Add the ability to define dialect-specific location attrs. (#105584) 
This patch adds the capability to define dialect-specific location
attrs. This is useful in particular for defining location structure that
doesn't necessarily fit within the core MLIR location hierarchy, but
doesn't make sense to push upstream (i.e. a custom use case).

This patch adds an AttributeTrait, `IsLocation`, which is tagged onto
all the builtin location attrs, as well as the test location attribute.
This is necessary because previously LocationAttr::classof only returned
true if the attribute was one of the builtin location attributes, and
well, the point of this patch is to allow dialects to define their own
location attributes.

There was an alternate implementation I considered wherein LocationAttr
becomes an AttrInterface, but that was discarded because there are
likely to be *many* locations in a single program, and I was concerned
that forcing every MLIR user to pay the cost of the additional
lookup/dispatch was unacceptable. It also would have been a *much* more
invasive change. It would have allowed for more flexibility in terms of
pretty printing, but it's unclear how useful/necessary that flexibility
would be given how much customizability there already is for attribute
definitions.
2024-10-03 10:25:44 -07:00

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//===-- TestAttrDefs.td - Test dialect attr definitions ----*- tablegen -*-===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
//
// TableGen data attribute definitions for Test dialect.
//
//===----------------------------------------------------------------------===//
#ifndef TEST_ATTRDEFS
#define TEST_ATTRDEFS
// To get the test dialect definition.
include "TestDialect.td"
include "TestEnumDefs.td"
include "mlir/Dialect/Polynomial/IR/PolynomialAttributes.td"
include "mlir/Dialect/Utils/StructuredOpsUtils.td"
include "mlir/IR/AttrTypeBase.td"
include "mlir/IR/BuiltinAttributeInterfaces.td"
include "mlir/IR/EnumAttr.td"
include "mlir/IR/OpAsmInterface.td"
// All of the attributes will extend this class.
class Test_Attr<string name, list<Trait> traits = []>
: AttrDef<Test_Dialect, name, traits>;
class Test_LocAttr<string name> : LocationAttrDef<Test_Dialect, name, []>;
def SimpleAttrA : Test_Attr<"SimpleA"> {
let mnemonic = "smpla";
}
// A more complex parameterized attribute.
def CompoundAttrA : Test_Attr<"CompoundA"> {
let mnemonic = "cmpnd_a";
// List of type parameters.
let parameters = (
ins
"int":$widthOfSomething,
"::mlir::Type":$oneType,
// This is special syntax since ArrayRefs require allocation in the
// constructor.
ArrayRefParameter<
"int", // The parameter C++ type.
"An example of an array of ints" // Parameter description.
>: $arrayOfInts
);
let hasCustomAssemblyFormat = 1;
}
def CompoundAttrNested : Test_Attr<"CompoundAttrNested"> {
let mnemonic = "cmpnd_nested";
let parameters = (ins CompoundAttrA : $nested );
let assemblyFormat = "`<` `nested` `=` $nested `>`";
}
// An attribute testing AttributeSelfTypeParameter.
def AttrWithSelfTypeParam
: Test_Attr<"AttrWithSelfTypeParam", [TypedAttrInterface]> {
let mnemonic = "attr_with_self_type_param";
let parameters = (ins AttributeSelfTypeParameter<"">:$type);
let assemblyFormat = "";
}
// An attribute testing AttributeSelfTypeParameter.
def AttrWithTypeBuilder
: Test_Attr<"AttrWithTypeBuilder", [TypedAttrInterface]> {
let mnemonic = "attr_with_type_builder";
let parameters = (ins
"::mlir::IntegerAttr":$attr,
AttributeSelfTypeParameter<"", "mlir::Type", "$attr.getType()">:$type
);
let assemblyFormat = "$attr";
}
def TestAttrTrait : NativeAttrTrait<"TestAttrTrait">;
// The definition of a singleton attribute that has a trait.
def AttrWithTrait : Test_Attr<"AttrWithTrait", [TestAttrTrait]> {
let mnemonic = "attr_with_trait";
}
// An attribute of a list of decimal formatted integers in similar format to shapes.
def TestDecimalShapeAttr : Test_Attr<"TestDecimalShape"> {
let mnemonic = "decimal_shape";
let parameters = (ins ArrayRefParameter<"int64_t">:$shape);
let hasCustomAssemblyFormat = 1;
}
// Test support for ElementsAttrInterface.
def TestI64ElementsAttr : Test_Attr<"TestI64Elements", [ElementsAttrInterface]> {
let mnemonic = "i64_elements";
let parameters = (ins
AttributeSelfTypeParameter<"", "::mlir::ShapedType">:$type,
ArrayRefParameter<"uint64_t">:$elements
);
let extraClassDeclaration = [{
/// The set of data types that can be iterated by this attribute.
using ContiguousIterableTypesT = std::tuple<uint64_t>;
using NonContiguousIterableTypesT = std::tuple<mlir::Attribute, llvm::APInt>;
/// Provide begin iterators for the various iterable types.
// * uint64_t
mlir::FailureOr<const uint64_t *>
try_value_begin_impl(OverloadToken<uint64_t>) const {
return getElements().begin();
}
// * Attribute
auto try_value_begin_impl(OverloadToken<mlir::Attribute>) const {
mlir::Type elementType = getType().getElementType();
return mlir::success(llvm::map_range(getElements(), [=](uint64_t value) {
return mlir::IntegerAttr::get(elementType,
llvm::APInt(/*numBits=*/64, value));
}).begin());
}
// * APInt
auto try_value_begin_impl(OverloadToken<llvm::APInt>) const {
return mlir::success(llvm::map_range(getElements(), [=](uint64_t value) {
return llvm::APInt(/*numBits=*/64, value);
}).begin());
}
}];
let genVerifyDecl = 1;
let hasCustomAssemblyFormat = 1;
}
def TestSubElementsAccessAttr : Test_Attr<"TestSubElementsAccess"> {
let mnemonic = "sub_elements_access";
let parameters = (ins
"::mlir::Attribute":$first,
"::mlir::Attribute":$second,
"::mlir::Attribute":$third
);
let hasCustomAssemblyFormat = 1;
}
// A more complex parameterized attribute with multiple level of nesting.
def CompoundNestedInner : Test_Attr<"CompoundNestedInner"> {
let mnemonic = "cmpnd_nested_inner";
// List of type parameters.
let parameters = (
ins
"int":$some_int,
CompoundAttrA:$cmpdA
);
let assemblyFormat = "`<` $some_int $cmpdA `>`";
}
def CompoundNestedOuter : Test_Attr<"CompoundNestedOuter"> {
let mnemonic = "cmpnd_nested_outer";
// List of type parameters.
let parameters = (
ins
CompoundNestedInner:$inner
);
let assemblyFormat = "`<` `i` $inner `>`";
}
def CompoundNestedOuterQual : Test_Attr<"CompoundNestedOuterQual"> {
let mnemonic = "cmpnd_nested_outer_qual";
// List of type parameters.
let parameters = (ins CompoundNestedInner:$inner);
let assemblyFormat = "`<` `i` qualified($inner) `>`";
}
def TestParamOne : AttrParameter<"int64_t", ""> {}
def TestParamTwo : AttrParameter<"std::string", "", "llvm::StringRef"> {
let printer = "$_printer << '\"' << $_self << '\"'";
}
def TestParamFour : ArrayRefParameter<"int", ""> {
let cppStorageType = "llvm::SmallVector<int>";
let parser = "::parseIntArray($_parser)";
let printer = "::printIntArray($_printer, $_self)";
}
def TestParamVector : ArrayRefParameter<"int", ""> {
let cppStorageType = "std::vector<int>";
}
def TestParamUnsigned : AttrParameter<"uint64_t", ""> {}
def TestAttrWithFormat : Test_Attr<"TestAttrWithFormat"> {
let parameters = (
ins
TestParamOne:$one,
TestParamTwo:$two,
"::mlir::IntegerAttr":$three,
TestParamFour:$four,
TestParamUnsigned:$five,
TestParamVector:$six,
// Array of another attribute.
ArrayRefParameter<
"AttrWithTypeBuilderAttr", // The parameter C++ type.
"An example of an array of another Attribute" // Parameter description.
>: $arrayOfAttrWithTypeBuilderAttr
);
let mnemonic = "attr_with_format";
let assemblyFormat = [{
`<` $one `:` struct($two, $four) `:` $three `:` $five `:` `[` $six `]` `,`
`[` `` $arrayOfAttrWithTypeBuilderAttr `]` `>`
}];
let genVerifyDecl = 1;
}
def TestAttrWithOptionalSigned : Test_Attr<"TestAttrWithOptionalSigned"> {
let parameters = (ins OptionalParameter<"std::optional<int64_t>">:$value);
let assemblyFormat = "`<` $value `>`";
let mnemonic = "attr_with_optional_signed";
}
def TestAttrWithOptionalUnsigned : Test_Attr<"TestAttrWithOptionalUnsigned"> {
let parameters = (ins OptionalParameter<"std::optional<uint64_t>">:$value);
let assemblyFormat = "`<` $value `>`";
let mnemonic = "attr_with_optional_unsigned";
}
def TestAttrUgly : Test_Attr<"TestAttrUgly"> {
let parameters = (ins "::mlir::Attribute":$attr);
let mnemonic = "attr_ugly";
let assemblyFormat = "`begin` $attr `end`";
}
def TestAttrParams: Test_Attr<"TestAttrParams"> {
let parameters = (ins "int":$v0, "int":$v1);
let mnemonic = "attr_params";
let assemblyFormat = "`<` params `>`";
}
// Test types can be parsed/printed.
def TestAttrWithTypeParam : Test_Attr<"TestAttrWithTypeParam"> {
let parameters = (ins "::mlir::IntegerType":$int_type,
"::mlir::Type":$any_type);
let mnemonic = "attr_with_type";
let assemblyFormat = "`<` $int_type `,` $any_type `>`";
}
// Test self type parameter with assembly format.
def TestAttrSelfTypeParameterFormat
: Test_Attr<"TestAttrSelfTypeParameterFormat", [TypedAttrInterface]> {
let parameters = (ins "int":$a, AttributeSelfTypeParameter<"">:$type);
let mnemonic = "attr_self_type_format";
let assemblyFormat = "`<` $a `>`";
}
def TestAttrSelfTypeParameterStructFormat
: Test_Attr<"TestAttrSelfTypeParameterStructFormat", [TypedAttrInterface]> {
let parameters = (ins "int":$a, AttributeSelfTypeParameter<"">:$type);
let mnemonic = "attr_self_type_struct_format";
let assemblyFormat = "`<` struct(params) `>`";
}
// Test overridding attribute builders with a custom builder.
def TestOverrideBuilderAttr : Test_Attr<"TestOverrideBuilder"> {
let mnemonic = "override_builder";
let parameters = (ins "int":$a);
let assemblyFormat = "`<` $a `>`";
let skipDefaultBuilders = 1;
let builders = [AttrBuilder<(ins "int":$a), [{
return ::mlir::IntegerAttr::get(::mlir::IndexType::get($_ctxt), a);
}], "::mlir::Attribute">];
}
// Test simple extern 1D vector using ElementsAttrInterface.
def TestExtern1DI64ElementsAttr : Test_Attr<"TestExtern1DI64Elements", [ElementsAttrInterface]> {
let mnemonic = "e1di64_elements";
let parameters = (ins
AttributeSelfTypeParameter<"", "::mlir::ShapedType">:$type,
ResourceHandleParameter<"TestDialectResourceBlobHandle">:$handle
);
let extraClassDeclaration = [{
/// Return the elements referenced by this attribute.
llvm::ArrayRef<uint64_t> getElements() const;
/// The set of data types that can be iterated by this attribute.
using ContiguousIterableTypesT = std::tuple<uint64_t>;
/// Provide begin iterators for the various iterable types.
// * uint64_t
mlir::FailureOr<const uint64_t *>
try_value_begin_impl(OverloadToken<uint64_t>) const {
return getElements().begin();
}
}];
let assemblyFormat = "`<` $handle `>`";
}
// An array of nested attributes.
def TestArrayOfUglyAttrs : ArrayOfAttr<Test_Dialect, "ArrayOfUglyAttrs",
"array_of_ugly", "TestAttrUglyAttr"> {
let assemblyFormat = "`[` (`]`) : ($value^ ` ` `]`)?";
}
// An array of integers.
def TestArrayOfInts : ArrayOfAttr<Test_Dialect, "ArrayOfInts",
"array_of_ints", "int32_t">;
// An array of enum attributes.
def TestSimpleEnumAttr : EnumAttr<Test_Dialect, TestSimpleEnum, "simple_enum"> {
let assemblyFormat = "`` $value";
}
def TestArrayOfEnums : ArrayOfAttr<Test_Dialect, "ArrayOfEnums",
"array_of_enums", "SimpleEnumAttr">;
// Test custom directive as optional group anchor.
def TestCustomAnchor : Test_Attr<"TestCustomAnchor"> {
let parameters = (ins "int":$a, OptionalParameter<"std::optional<int>">:$b);
let mnemonic = "custom_anchor";
let assemblyFormat = "`<` $a (`>`) : (`,` custom<TrueFalse>($b)^ `>`)?";
}
def Test_IteratorTypeEnum
: EnumAttr<Test_Dialect, IteratorType, "iterator_type"> {
let assemblyFormat = "`<` $value `>`";
}
def Test_IteratorTypeArrayAttr
: TypedArrayAttrBase<Test_IteratorTypeEnum,
"Iterator type should be an enum.">;
def TestParamCopyCount : AttrParameter<"CopyCount", "", "const CopyCount &"> {}
// Test overridding attribute builders with a custom builder.
def TestCopyCount : Test_Attr<"TestCopyCount"> {
let mnemonic = "copy_count";
let parameters = (ins TestParamCopyCount:$copy_count);
let assemblyFormat = "`<` $copy_count `>`";
}
def TestConditionalAliasAttr : Test_Attr<"TestConditionalAlias"> {
let mnemonic = "conditional_alias";
let parameters = (ins "mlir::StringAttr":$value);
let assemblyFormat = [{
`<` custom<ConditionalAlias>($value) `>`
}];
}
// Test AsmParser::parseFloat(const fltSemnatics&, APFloat&) API through the
// custom parser and printer.
def TestCustomFloatAttr : Test_Attr<"TestCustomFloat"> {
let mnemonic = "custom_float";
let parameters = (ins "mlir::StringAttr":$type_str, APFloatParameter<"">:$value);
let assemblyFormat = [{
`<` custom<CustomFloatAttr>($type_str, $value) `>`
}];
}
def NestedPolynomialAttr : Test_Attr<"NestedPolynomialAttr"> {
let mnemonic = "nested_polynomial";
let parameters = (ins Polynomial_IntPolynomialAttr:$poly);
let assemblyFormat = [{
`<` struct(params) `>`
}];
}
def NestedPolynomialAttr2 : Test_Attr<"NestedPolynomialAttr2"> {
let mnemonic = "nested_polynomial2";
let parameters = (ins OptionalParameter<"::mlir::polynomial::IntPolynomialAttr">:$poly);
let assemblyFormat = [{
`<` struct(params) `>`
}];
}
// Test custom location handling.
def TestCustomLocationAttr : Test_LocAttr<"TestCustomLocation"> {
let mnemonic = "custom_location";
let parameters = (ins "mlir::StringAttr":$file, "unsigned":$line);
// Choose a silly separator token so we know it's hitting this code path
// and not another.
let assemblyFormat = "`<` $file `*` $line `>`";
}
#endif // TEST_ATTRDEFS
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