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ViewLikeInterface.cpp
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//===- ViewLikeInterface.cpp - View-like operations in MLIR ---------------===//
//
// 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
//
//===----------------------------------------------------------------------===//
#include "mlir/Interfaces/ViewLikeInterface.h"
using namespace mlir;
//===----------------------------------------------------------------------===//
// ViewLike Interfaces
//===----------------------------------------------------------------------===//
/// Include the definitions of the loop-like interfaces.
#include "mlir/Interfaces/ViewLikeInterface.cpp.inc"
LogicalResult mlir::verifyListOfOperandsOrIntegers(Operation *op,
StringRef name,
unsigned numElements,
ArrayRef<int64_t> staticVals,
ValueRange values) {
// Check static and dynamic offsets/sizes/strides does not overflow type.
if (staticVals.size() != numElements)
return op->emitError("expected ") << numElements << " " << name
<< " values, got " << staticVals.size();
unsigned expectedNumDynamicEntries =
llvm::count_if(staticVals, [](int64_t staticVal) {
return ShapedType::isDynamic(staticVal);
});
if (values.size() != expectedNumDynamicEntries)
return op->emitError("expected ")
<< expectedNumDynamicEntries << " dynamic " << name << " values";
return success();
}
SliceBoundsVerificationResult mlir::verifyInBoundsSlice(
ArrayRef<int64_t> shape, ArrayRef<int64_t> staticOffsets,
ArrayRef<int64_t> staticSizes, ArrayRef<int64_t> staticStrides,
bool generateErrorMessage) {
SliceBoundsVerificationResult result;
result.isValid = true;
for (int64_t i = 0, e = shape.size(); i < e; ++i) {
// Nothing to verify for dynamic source dims.
if (ShapedType::isDynamic(shape[i]))
continue;
// Nothing to verify if the offset is dynamic.
if (ShapedType::isDynamic(staticOffsets[i]))
continue;
if (staticOffsets[i] >= shape[i]) {
result.errorMessage =
std::string("offset ") + std::to_string(i) +
" is out-of-bounds: " + std::to_string(staticOffsets[i]) +
" >= " + std::to_string(shape[i]);
result.isValid = false;
return result;
}
if (ShapedType::isDynamic(staticSizes[i]) ||
ShapedType::isDynamic(staticStrides[i]))
continue;
int64_t lastPos =
staticOffsets[i] + (staticSizes[i] - 1) * staticStrides[i];
if (lastPos >= shape[i]) {
result.errorMessage = std::string("slice along dimension ") +
std::to_string(i) +
" runs out-of-bounds: " + std::to_string(lastPos) +
" >= " + std::to_string(shape[i]);
result.isValid = false;
return result;
}
}
return result;
}
SliceBoundsVerificationResult mlir::verifyInBoundsSlice(
ArrayRef<int64_t> shape, ArrayRef<OpFoldResult> mixedOffsets,
ArrayRef<OpFoldResult> mixedSizes, ArrayRef<OpFoldResult> mixedStrides,
bool generateErrorMessage) {
auto getStaticValues = [](ArrayRef<OpFoldResult> ofrs) {
SmallVector<int64_t> staticValues;
for (OpFoldResult ofr : ofrs) {
if (auto attr = dyn_cast<Attribute>(ofr)) {
staticValues.push_back(cast<IntegerAttr>(attr).getInt());
} else {
staticValues.push_back(ShapedType::kDynamic);
}
}
return staticValues;
};
return verifyInBoundsSlice(
shape, getStaticValues(mixedOffsets), getStaticValues(mixedSizes),
getStaticValues(mixedStrides), generateErrorMessage);
}
LogicalResult
mlir::detail::verifyOffsetSizeAndStrideOp(OffsetSizeAndStrideOpInterface op) {
std::array<unsigned, 3> maxRanks = op.getArrayAttrMaxRanks();
// Offsets can come in 2 flavors:
// 1. Either single entry (when maxRanks == 1).
// 2. Or as an array whose rank must match that of the mixed sizes.
// So that the result type is well-formed.
if (!(op.getMixedOffsets().size() == 1 && maxRanks[0] == 1) && // NOLINT
op.getMixedOffsets().size() != op.getMixedSizes().size())
return op->emitError(
"expected mixed offsets rank to match mixed sizes rank (")
<< op.getMixedOffsets().size() << " vs " << op.getMixedSizes().size()
<< ") so the rank of the result type is well-formed.";
// Ranks of mixed sizes and strides must always match so the result type is
// well-formed.
if (op.getMixedSizes().size() != op.getMixedStrides().size())
return op->emitError(
"expected mixed sizes rank to match mixed strides rank (")
<< op.getMixedSizes().size() << " vs " << op.getMixedStrides().size()
<< ") so the rank of the result type is well-formed.";
if (failed(verifyListOfOperandsOrIntegers(
op, "offset", maxRanks[0], op.getStaticOffsets(), op.getOffsets())))
return failure();
if (failed(verifyListOfOperandsOrIntegers(
op, "size", maxRanks[1], op.getStaticSizes(), op.getSizes())))
return failure();
if (failed(verifyListOfOperandsOrIntegers(
op, "stride", maxRanks[2], op.getStaticStrides(), op.getStrides())))
return failure();
for (int64_t offset : op.getStaticOffsets()) {
if (offset < 0 && !ShapedType::isDynamic(offset))
return op->emitError("expected offsets to be non-negative, but got ")
<< offset;
}
for (int64_t size : op.getStaticSizes()) {
if (size < 0 && !ShapedType::isDynamic(size))
return op->emitError("expected sizes to be non-negative, but got ")
<< size;
}
return success();
}
static char getLeftDelimiter(AsmParser::Delimiter delimiter) {
switch (delimiter) {
case AsmParser::Delimiter::Paren:
return '(';
case AsmParser::Delimiter::LessGreater:
return '<';
case AsmParser::Delimiter::Square:
return '[';
case AsmParser::Delimiter::Braces:
return '{';
default:
llvm_unreachable("unsupported delimiter");
}
}
static char getRightDelimiter(AsmParser::Delimiter delimiter) {
switch (delimiter) {
case AsmParser::Delimiter::Paren:
return ')';
case AsmParser::Delimiter::LessGreater:
return '>';
case AsmParser::Delimiter::Square:
return ']';
case AsmParser::Delimiter::Braces:
return '}';
default:
llvm_unreachable("unsupported delimiter");
}
}
void mlir::printDynamicIndexList(OpAsmPrinter &printer, Operation *op,
OperandRange values,
ArrayRef<int64_t> integers,
ArrayRef<bool> scalableFlags,
TypeRange valueTypes,
AsmParser::Delimiter delimiter) {
char leftDelimiter = getLeftDelimiter(delimiter);
char rightDelimiter = getRightDelimiter(delimiter);
printer << leftDelimiter;
if (integers.empty()) {
printer << rightDelimiter;
return;
}
unsigned dynamicValIdx = 0;
unsigned scalableIndexIdx = 0;
llvm::interleaveComma(integers, printer, [&](int64_t integer) {
if (!scalableFlags.empty() && scalableFlags[scalableIndexIdx])
printer << "[";
if (ShapedType::isDynamic(integer)) {
printer << values[dynamicValIdx];
if (!valueTypes.empty())
printer << " : " << valueTypes[dynamicValIdx];
++dynamicValIdx;
} else {
printer << integer;
}
if (!scalableFlags.empty() && scalableFlags[scalableIndexIdx])
printer << "]";
scalableIndexIdx++;
});
printer << rightDelimiter;
}
ParseResult mlir::parseDynamicIndexList(
OpAsmParser &parser,
SmallVectorImpl<OpAsmParser::UnresolvedOperand> &values,
DenseI64ArrayAttr &integers, DenseBoolArrayAttr &scalableFlags,
SmallVectorImpl<Type> *valueTypes, AsmParser::Delimiter delimiter) {
SmallVector<int64_t, 4> integerVals;
SmallVector<bool, 4> scalableVals;
auto parseIntegerOrValue = [&]() {
OpAsmParser::UnresolvedOperand operand;
auto res = parser.parseOptionalOperand(operand);
// When encountering `[`, assume that this is a scalable index.
scalableVals.push_back(parser.parseOptionalLSquare().succeeded());
if (res.has_value() && succeeded(res.value())) {
values.push_back(operand);
integerVals.push_back(ShapedType::kDynamic);
if (valueTypes && parser.parseColonType(valueTypes->emplace_back()))
return failure();
} else {
int64_t integer;
if (failed(parser.parseInteger(integer)))
return failure();
integerVals.push_back(integer);
}
// If this is assumed to be a scalable index, verify that there's a closing
// `]`.
if (scalableVals.back() && parser.parseOptionalRSquare().failed())
return failure();
return success();
};
if (parser.parseCommaSeparatedList(delimiter, parseIntegerOrValue,
" in dynamic index list"))
return parser.emitError(parser.getNameLoc())
<< "expected SSA value or integer";
integers = parser.getBuilder().getDenseI64ArrayAttr(integerVals);
scalableFlags = parser.getBuilder().getDenseBoolArrayAttr(scalableVals);
return success();
}
bool mlir::detail::sameOffsetsSizesAndStrides(
OffsetSizeAndStrideOpInterface a, OffsetSizeAndStrideOpInterface b,
llvm::function_ref<bool(OpFoldResult, OpFoldResult)> cmp) {
if (a.getStaticOffsets().size() != b.getStaticOffsets().size())
return false;
if (a.getStaticSizes().size() != b.getStaticSizes().size())
return false;
if (a.getStaticStrides().size() != b.getStaticStrides().size())
return false;
for (auto it : llvm::zip(a.getMixedOffsets(), b.getMixedOffsets()))
if (!cmp(std::get<0>(it), std::get<1>(it)))
return false;
for (auto it : llvm::zip(a.getMixedSizes(), b.getMixedSizes()))
if (!cmp(std::get<0>(it), std::get<1>(it)))
return false;
for (auto it : llvm::zip(a.getMixedStrides(), b.getMixedStrides()))
if (!cmp(std::get<0>(it), std::get<1>(it)))
return false;
return true;
}
unsigned mlir::detail::getNumDynamicEntriesUpToIdx(ArrayRef<int64_t> staticVals,
unsigned idx) {
return std::count_if(staticVals.begin(), staticVals.begin() + idx,
[&](int64_t val) { return ShapedType::isDynamic(val); });
}