llvm-project/mlir/test/lib/Dialect/Test/TestAttributes.cpp
River Riddle 5f58e14b36 [mlir] Add a generic DialectResourceBlobManager to simplify resource blob management
The DialectResourceBlobManager class provides functionality for managing resource blobs
in a generic, dialect-agnostic fashion. In addition to this class, a dialect interface and custom
resource handle are provided to simplify referencing and interacting with the manager. These
classes intend to simplify the work required for dialects that want to manage resource blobs
during compilation, such as for large elements attrs.  The old manager for the resource example
in the test dialect has been updated to use this, which provides and cleaner and more consistent API.

This commit also adds new HeapAsmResourceBlob and ImmortalAsmResourceBlob to simplify
creating resource blobs in common scenarios.

Differential Revision: https://reviews.llvm.org/D130021
2022-08-01 12:37:16 -07:00

268 lines
9.4 KiB
C++

//===- TestAttributes.cpp - MLIR Test Dialect Attributes --------*- C++ -*-===//
//
// 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
//
//===----------------------------------------------------------------------===//
//
// This file contains attributes defined by the TestDialect for testing various
// features of MLIR.
//
//===----------------------------------------------------------------------===//
#include "TestAttributes.h"
#include "TestDialect.h"
#include "mlir/IR/Builders.h"
#include "mlir/IR/DialectImplementation.h"
#include "mlir/IR/ExtensibleDialect.h"
#include "mlir/IR/Types.h"
#include "mlir/Support/LogicalResult.h"
#include "llvm/ADT/Hashing.h"
#include "llvm/ADT/SetVector.h"
#include "llvm/ADT/TypeSwitch.h"
#include "llvm/ADT/bit.h"
#include "llvm/Support/ErrorHandling.h"
using namespace mlir;
using namespace test;
//===----------------------------------------------------------------------===//
// CompoundAAttr
//===----------------------------------------------------------------------===//
Attribute CompoundAAttr::parse(AsmParser &parser, Type type) {
int widthOfSomething;
Type oneType;
SmallVector<int, 4> arrayOfInts;
if (parser.parseLess() || parser.parseInteger(widthOfSomething) ||
parser.parseComma() || parser.parseType(oneType) || parser.parseComma() ||
parser.parseLSquare())
return Attribute();
int intVal;
while (!*parser.parseOptionalInteger(intVal)) {
arrayOfInts.push_back(intVal);
if (parser.parseOptionalComma())
break;
}
if (parser.parseRSquare() || parser.parseGreater())
return Attribute();
return get(parser.getContext(), widthOfSomething, oneType, arrayOfInts);
}
void CompoundAAttr::print(AsmPrinter &printer) const {
printer << "<" << getWidthOfSomething() << ", " << getOneType() << ", [";
llvm::interleaveComma(getArrayOfInts(), printer);
printer << "]>";
}
//===----------------------------------------------------------------------===//
// CompoundAAttr
//===----------------------------------------------------------------------===//
Attribute TestI64ElementsAttr::parse(AsmParser &parser, Type type) {
SmallVector<uint64_t> elements;
if (parser.parseLess() || parser.parseLSquare())
return Attribute();
uint64_t intVal;
while (succeeded(*parser.parseOptionalInteger(intVal))) {
elements.push_back(intVal);
if (parser.parseOptionalComma())
break;
}
if (parser.parseRSquare() || parser.parseGreater())
return Attribute();
return parser.getChecked<TestI64ElementsAttr>(
parser.getContext(), type.cast<ShapedType>(), elements);
}
void TestI64ElementsAttr::print(AsmPrinter &printer) const {
printer << "<[";
llvm::interleaveComma(getElements(), printer);
printer << "] : " << getType() << ">";
}
LogicalResult
TestI64ElementsAttr::verify(function_ref<InFlightDiagnostic()> emitError,
ShapedType type, ArrayRef<uint64_t> elements) {
if (type.getNumElements() != static_cast<int64_t>(elements.size())) {
return emitError()
<< "number of elements does not match the provided shape type, got: "
<< elements.size() << ", but expected: " << type.getNumElements();
}
if (type.getRank() != 1 || !type.getElementType().isSignlessInteger(64))
return emitError() << "expected single rank 64-bit shape type, but got: "
<< type;
return success();
}
LogicalResult
TestAttrWithFormatAttr::verify(function_ref<InFlightDiagnostic()> emitError,
int64_t one, std::string two, IntegerAttr three,
ArrayRef<int> four,
ArrayRef<AttrWithTypeBuilderAttr> arrayOfAttrs) {
if (four.size() != static_cast<unsigned>(one))
return emitError() << "expected 'one' to equal 'four.size()'";
return success();
}
//===----------------------------------------------------------------------===//
// Utility Functions for Generated Attributes
//===----------------------------------------------------------------------===//
static FailureOr<SmallVector<int>> parseIntArray(AsmParser &parser) {
SmallVector<int> ints;
if (parser.parseLSquare() || parser.parseCommaSeparatedList([&]() {
ints.push_back(0);
return parser.parseInteger(ints.back());
}) ||
parser.parseRSquare())
return failure();
return ints;
}
static void printIntArray(AsmPrinter &printer, ArrayRef<int> ints) {
printer << '[';
llvm::interleaveComma(ints, printer);
printer << ']';
}
//===----------------------------------------------------------------------===//
// TestSubElementsAccessAttr
//===----------------------------------------------------------------------===//
Attribute TestSubElementsAccessAttr::parse(::mlir::AsmParser &parser,
::mlir::Type type) {
Attribute first, second, third;
if (parser.parseLess() || parser.parseAttribute(first) ||
parser.parseComma() || parser.parseAttribute(second) ||
parser.parseComma() || parser.parseAttribute(third) ||
parser.parseGreater()) {
return {};
}
return get(parser.getContext(), first, second, third);
}
void TestSubElementsAccessAttr::print(::mlir::AsmPrinter &printer) const {
printer << "<" << getFirst() << ", " << getSecond() << ", " << getThird()
<< ">";
}
void TestSubElementsAccessAttr::walkImmediateSubElements(
llvm::function_ref<void(mlir::Attribute)> walkAttrsFn,
llvm::function_ref<void(mlir::Type)> walkTypesFn) const {
walkAttrsFn(getFirst());
walkAttrsFn(getSecond());
walkAttrsFn(getThird());
}
Attribute TestSubElementsAccessAttr::replaceImmediateSubElements(
ArrayRef<Attribute> replAttrs, ArrayRef<Type> replTypes) const {
assert(replAttrs.size() == 3 && "invalid number of replacement attributes");
return get(getContext(), replAttrs[0], replAttrs[1], replAttrs[2]);
}
//===----------------------------------------------------------------------===//
// TestExtern1DI64ElementsAttr
//===----------------------------------------------------------------------===//
ArrayRef<uint64_t> TestExtern1DI64ElementsAttr::getElements() const {
if (auto *blob = getHandle().getBlob())
return blob->getDataAs<uint64_t>();
return llvm::None;
}
//===----------------------------------------------------------------------===//
// Tablegen Generated Definitions
//===----------------------------------------------------------------------===//
#include "TestAttrInterfaces.cpp.inc"
#define GET_ATTRDEF_CLASSES
#include "TestAttrDefs.cpp.inc"
//===----------------------------------------------------------------------===//
// Dynamic Attributes
//===----------------------------------------------------------------------===//
/// Define a singleton dynamic attribute.
static std::unique_ptr<DynamicAttrDefinition>
getDynamicSingletonAttr(TestDialect *testDialect) {
return DynamicAttrDefinition::get(
"dynamic_singleton", testDialect,
[](function_ref<InFlightDiagnostic()> emitError,
ArrayRef<Attribute> args) {
if (!args.empty()) {
emitError() << "expected 0 attribute arguments, but had "
<< args.size();
return failure();
}
return success();
});
}
/// Define a dynamic attribute representing a pair or attributes.
static std::unique_ptr<DynamicAttrDefinition>
getDynamicPairAttr(TestDialect *testDialect) {
return DynamicAttrDefinition::get(
"dynamic_pair", testDialect,
[](function_ref<InFlightDiagnostic()> emitError,
ArrayRef<Attribute> args) {
if (args.size() != 2) {
emitError() << "expected 2 attribute arguments, but had "
<< args.size();
return failure();
}
return success();
});
}
static std::unique_ptr<DynamicAttrDefinition>
getDynamicCustomAssemblyFormatAttr(TestDialect *testDialect) {
auto verifier = [](function_ref<InFlightDiagnostic()> emitError,
ArrayRef<Attribute> args) {
if (args.size() != 2) {
emitError() << "expected 2 attribute arguments, but had " << args.size();
return failure();
}
return success();
};
auto parser = [](AsmParser &parser,
llvm::SmallVectorImpl<Attribute> &parsedParams) {
Attribute leftAttr, rightAttr;
if (parser.parseLess() || parser.parseAttribute(leftAttr) ||
parser.parseColon() || parser.parseAttribute(rightAttr) ||
parser.parseGreater())
return failure();
parsedParams.push_back(leftAttr);
parsedParams.push_back(rightAttr);
return success();
};
auto printer = [](AsmPrinter &printer, ArrayRef<Attribute> params) {
printer << "<" << params[0] << ":" << params[1] << ">";
};
return DynamicAttrDefinition::get("dynamic_custom_assembly_format",
testDialect, std::move(verifier),
std::move(parser), std::move(printer));
}
//===----------------------------------------------------------------------===//
// TestDialect
//===----------------------------------------------------------------------===//
void TestDialect::registerAttributes() {
addAttributes<
#define GET_ATTRDEF_LIST
#include "TestAttrDefs.cpp.inc"
>();
registerDynamicAttr(getDynamicSingletonAttr(this));
registerDynamicAttr(getDynamicPairAttr(this));
registerDynamicAttr(getDynamicCustomAssemblyFormatAttr(this));
}