f98d73f4e0
The functions are effectively independent of the interface already, however, they take it as an argument for no reason. The current state complicates reuse outside of MLIR. Differential Revision: https://reviews.llvm.org/D131120
238 lines
9.2 KiB
C++
238 lines
9.2 KiB
C++
//===- ViewLikeInterface.cpp - View-like operations in MLIR ---------------===//
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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//===----------------------------------------------------------------------===//
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#include "mlir/Interfaces/ViewLikeInterface.h"
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using namespace mlir;
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//===----------------------------------------------------------------------===//
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// ViewLike Interfaces
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//===----------------------------------------------------------------------===//
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/// Include the definitions of the loop-like interfaces.
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#include "mlir/Interfaces/ViewLikeInterface.cpp.inc"
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LogicalResult mlir::verifyListOfOperandsOrIntegers(
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Operation *op, StringRef name, unsigned numElements, ArrayAttr attr,
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ValueRange values, llvm::function_ref<bool(int64_t)> isDynamic) {
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/// Check static and dynamic offsets/sizes/strides does not overflow type.
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if (attr.size() != numElements)
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return op->emitError("expected ")
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<< numElements << " " << name << " values";
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unsigned expectedNumDynamicEntries =
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llvm::count_if(attr.getValue(), [&](Attribute attr) {
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return isDynamic(attr.cast<IntegerAttr>().getInt());
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});
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if (values.size() != expectedNumDynamicEntries)
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return op->emitError("expected ")
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<< expectedNumDynamicEntries << " dynamic " << name << " values";
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return success();
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}
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LogicalResult
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mlir::detail::verifyOffsetSizeAndStrideOp(OffsetSizeAndStrideOpInterface op) {
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std::array<unsigned, 3> maxRanks = op.getArrayAttrMaxRanks();
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// Offsets can come in 2 flavors:
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// 1. Either single entry (when maxRanks == 1).
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// 2. Or as an array whose rank must match that of the mixed sizes.
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// So that the result type is well-formed.
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if (!(op.getMixedOffsets().size() == 1 && maxRanks[0] == 1) && // NOLINT
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op.getMixedOffsets().size() != op.getMixedSizes().size())
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return op->emitError(
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"expected mixed offsets rank to match mixed sizes rank (")
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<< op.getMixedOffsets().size() << " vs " << op.getMixedSizes().size()
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<< ") so the rank of the result type is well-formed.";
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// Ranks of mixed sizes and strides must always match so the result type is
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// well-formed.
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if (op.getMixedSizes().size() != op.getMixedStrides().size())
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return op->emitError(
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"expected mixed sizes rank to match mixed strides rank (")
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<< op.getMixedSizes().size() << " vs " << op.getMixedStrides().size()
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<< ") so the rank of the result type is well-formed.";
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if (failed(verifyListOfOperandsOrIntegers(
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op, "offset", maxRanks[0], op.static_offsets(), op.offsets(),
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ShapedType::isDynamicStrideOrOffset)))
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return failure();
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if (failed(verifyListOfOperandsOrIntegers(op, "size", maxRanks[1],
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op.static_sizes(), op.sizes(),
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ShapedType::isDynamic)))
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return failure();
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if (failed(verifyListOfOperandsOrIntegers(
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op, "stride", maxRanks[2], op.static_strides(), op.strides(),
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ShapedType::isDynamicStrideOrOffset)))
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return failure();
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return success();
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}
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template <int64_t dynVal>
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static void printOperandsOrIntegersListImpl(OpAsmPrinter &p, ValueRange values,
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ArrayAttr arrayAttr) {
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p << '[';
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if (arrayAttr.empty()) {
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p << "]";
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return;
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}
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unsigned idx = 0;
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llvm::interleaveComma(arrayAttr, p, [&](Attribute a) {
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int64_t val = a.cast<IntegerAttr>().getInt();
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if (val == dynVal)
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p << values[idx++];
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else
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p << val;
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});
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p << ']';
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}
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void mlir::printOperandsOrIntegersOffsetsOrStridesList(OpAsmPrinter &p,
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Operation *op,
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OperandRange values,
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ArrayAttr integers) {
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return printOperandsOrIntegersListImpl<ShapedType::kDynamicStrideOrOffset>(
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p, values, integers);
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}
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void mlir::printOperandsOrIntegersSizesList(OpAsmPrinter &p, Operation *op,
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OperandRange values,
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ArrayAttr integers) {
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return printOperandsOrIntegersListImpl<ShapedType::kDynamicSize>(p, values,
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integers);
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}
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template <int64_t dynVal>
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static ParseResult parseOperandsOrIntegersImpl(
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OpAsmParser &parser,
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SmallVectorImpl<OpAsmParser::UnresolvedOperand> &values,
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ArrayAttr &integers) {
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if (failed(parser.parseLSquare()))
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return failure();
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// 0-D.
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if (succeeded(parser.parseOptionalRSquare())) {
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integers = parser.getBuilder().getArrayAttr({});
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return success();
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}
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SmallVector<int64_t, 4> attrVals;
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while (true) {
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OpAsmParser::UnresolvedOperand operand;
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auto res = parser.parseOptionalOperand(operand);
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if (res.hasValue() && succeeded(res.getValue())) {
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values.push_back(operand);
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attrVals.push_back(dynVal);
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} else {
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IntegerAttr attr;
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if (failed(parser.parseAttribute<IntegerAttr>(attr)))
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return parser.emitError(parser.getNameLoc())
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<< "expected SSA value or integer";
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attrVals.push_back(attr.getInt());
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}
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if (succeeded(parser.parseOptionalComma()))
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continue;
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if (failed(parser.parseRSquare()))
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return failure();
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break;
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}
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integers = parser.getBuilder().getI64ArrayAttr(attrVals);
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return success();
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}
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ParseResult mlir::parseOperandsOrIntegersOffsetsOrStridesList(
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OpAsmParser &parser,
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SmallVectorImpl<OpAsmParser::UnresolvedOperand> &values,
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ArrayAttr &integers) {
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return parseOperandsOrIntegersImpl<ShapedType::kDynamicStrideOrOffset>(
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parser, values, integers);
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}
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ParseResult mlir::parseOperandsOrIntegersSizesList(
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OpAsmParser &parser,
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SmallVectorImpl<OpAsmParser::UnresolvedOperand> &values,
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ArrayAttr &integers) {
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return parseOperandsOrIntegersImpl<ShapedType::kDynamicSize>(parser, values,
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integers);
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}
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bool mlir::detail::sameOffsetsSizesAndStrides(
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OffsetSizeAndStrideOpInterface a, OffsetSizeAndStrideOpInterface b,
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llvm::function_ref<bool(OpFoldResult, OpFoldResult)> cmp) {
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if (a.static_offsets().size() != b.static_offsets().size())
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return false;
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if (a.static_sizes().size() != b.static_sizes().size())
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return false;
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if (a.static_strides().size() != b.static_strides().size())
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return false;
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for (auto it : llvm::zip(a.getMixedOffsets(), b.getMixedOffsets()))
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if (!cmp(std::get<0>(it), std::get<1>(it)))
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return false;
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for (auto it : llvm::zip(a.getMixedSizes(), b.getMixedSizes()))
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if (!cmp(std::get<0>(it), std::get<1>(it)))
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return false;
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for (auto it : llvm::zip(a.getMixedStrides(), b.getMixedStrides()))
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if (!cmp(std::get<0>(it), std::get<1>(it)))
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return false;
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return true;
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}
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SmallVector<OpFoldResult, 4>
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mlir::getMixedValues(ArrayAttr staticValues, ValueRange dynamicValues,
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const int64_t dynamicValueIndicator) {
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SmallVector<OpFoldResult, 4> res;
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res.reserve(staticValues.size());
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unsigned numDynamic = 0;
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unsigned count = static_cast<unsigned>(staticValues.size());
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for (unsigned idx = 0; idx < count; ++idx) {
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APInt value = staticValues[idx].cast<IntegerAttr>().getValue();
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res.push_back(value.getSExtValue() == dynamicValueIndicator
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? OpFoldResult{dynamicValues[numDynamic++]}
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: OpFoldResult{staticValues[idx]});
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}
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return res;
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}
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SmallVector<OpFoldResult, 4>
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mlir::getMixedStridesOrOffsets(ArrayAttr staticValues,
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ValueRange dynamicValues) {
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return getMixedValues(staticValues, dynamicValues,
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ShapedType::kDynamicStrideOrOffset);
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}
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SmallVector<OpFoldResult, 4> mlir::getMixedSizes(ArrayAttr staticValues,
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ValueRange dynamicValues) {
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return getMixedValues(staticValues, dynamicValues, ShapedType::kDynamicSize);
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}
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std::pair<ArrayAttr, SmallVector<Value>>
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mlir::decomposeMixedValues(Builder &b,
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const SmallVectorImpl<OpFoldResult> &mixedValues,
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const int64_t dynamicValueIndicator) {
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SmallVector<int64_t> staticValues;
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SmallVector<Value> dynamicValues;
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for (const auto &it : mixedValues) {
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if (it.is<Attribute>()) {
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staticValues.push_back(it.get<Attribute>().cast<IntegerAttr>().getInt());
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} else {
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staticValues.push_back(dynamicValueIndicator);
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dynamicValues.push_back(it.get<Value>());
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}
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}
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return {b.getI64ArrayAttr(staticValues), dynamicValues};
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}
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std::pair<ArrayAttr, SmallVector<Value>> mlir::decomposeMixedStridesOrOffsets(
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OpBuilder &b, const SmallVectorImpl<OpFoldResult> &mixedValues) {
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return decomposeMixedValues(b, mixedValues,
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ShapedType::kDynamicStrideOrOffset);
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}
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std::pair<ArrayAttr, SmallVector<Value>>
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mlir::decomposeMixedSizes(OpBuilder &b,
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const SmallVectorImpl<OpFoldResult> &mixedValues) {
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return decomposeMixedValues(b, mixedValues, ShapedType::kDynamicSize);
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}
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