//===- 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 maxNumElements, ArrayAttr attr, ValueRange values, llvm::function_ref isDynamic) { /// Check static and dynamic offsets/sizes/strides does not overflow type. if (attr.size() > maxNumElements) return op->emitError("expected <= ") << maxNumElements << " " << name << " values"; unsigned expectedNumDynamicEntries = llvm::count_if(attr.getValue(), [&](Attribute attr) { return isDynamic(attr.cast().getInt()); }); if (values.size() != expectedNumDynamicEntries) return op->emitError("expected ") << expectedNumDynamicEntries << " dynamic " << name << " values"; return success(); } LogicalResult mlir::detail::verifyOffsetSizeAndStrideOp(OffsetSizeAndStrideOpInterface op) { std::array 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) && 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.static_offsets(), op.offsets(), ShapedType::isDynamicStrideOrOffset))) return failure(); if (failed(verifyListOfOperandsOrIntegers(op, "size", maxRanks[1], op.static_sizes(), op.sizes(), ShapedType::isDynamic))) return failure(); if (failed(verifyListOfOperandsOrIntegers( op, "stride", maxRanks[2], op.static_strides(), op.strides(), ShapedType::isDynamicStrideOrOffset))) return failure(); return success(); } template static void printOperandsOrIntegersListImpl(OpAsmPrinter &p, ValueRange values, ArrayAttr arrayAttr) { p << '['; if (arrayAttr.empty()) { p << "]"; return; } unsigned idx = 0; llvm::interleaveComma(arrayAttr, p, [&](Attribute a) { int64_t val = a.cast().getInt(); if (val == dynVal) p << values[idx++]; else p << val; }); p << ']'; } void mlir::printOperandsOrIntegersOffsetsOrStridesList(OpAsmPrinter &p, Operation *op, OperandRange values, ArrayAttr integers) { return printOperandsOrIntegersListImpl( p, values, integers); } void mlir::printOperandsOrIntegersSizesList(OpAsmPrinter &p, Operation *op, OperandRange values, ArrayAttr integers) { return printOperandsOrIntegersListImpl(p, values, integers); } template static ParseResult parseOperandsOrIntegersImpl(OpAsmParser &parser, SmallVectorImpl &values, ArrayAttr &integers) { if (failed(parser.parseLSquare())) return failure(); // 0-D. if (succeeded(parser.parseOptionalRSquare())) { integers = parser.getBuilder().getArrayAttr({}); return success(); } SmallVector attrVals; while (true) { OpAsmParser::OperandType operand; auto res = parser.parseOptionalOperand(operand); if (res.hasValue() && succeeded(res.getValue())) { values.push_back(operand); attrVals.push_back(dynVal); } else { IntegerAttr attr; if (failed(parser.parseAttribute(attr))) return parser.emitError(parser.getNameLoc()) << "expected SSA value or integer"; attrVals.push_back(attr.getInt()); } if (succeeded(parser.parseOptionalComma())) continue; if (failed(parser.parseRSquare())) return failure(); break; } integers = parser.getBuilder().getI64ArrayAttr(attrVals); return success(); } ParseResult mlir::parseOperandsOrIntegersOffsetsOrStridesList( OpAsmParser &parser, SmallVectorImpl &values, ArrayAttr &integers) { return parseOperandsOrIntegersImpl( parser, values, integers); } ParseResult mlir::parseOperandsOrIntegersSizesList( OpAsmParser &parser, SmallVectorImpl &values, ArrayAttr &integers) { return parseOperandsOrIntegersImpl(parser, values, integers); }