forked from OSchip/llvm-project
[mlir] Added strides check to rank reducing subview verification
Added missing strides check to verification method of rank reducing subview which enforces strides specification for the resulting type. Differential Revision: https://reviews.llvm.org/D88879
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@ -2823,19 +2823,30 @@ static SmallVector<int64_t, 4> extractFromI64ArrayAttr(Attribute attr) {
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}));
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}
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enum SubViewVerificationResult {
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Success,
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RankTooLarge,
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SizeMismatch,
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StrideMismatch,
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ElemTypeMismatch,
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MemSpaceMismatch,
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AffineMapMismatch
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};
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/// Checks if `original` Type type can be rank reduced to `reduced` type.
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/// This function is slight variant of `is subsequence` algorithm where
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/// not matching dimension must be 1.
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static bool isRankReducedType(Type originalType, Type reducedType) {
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static SubViewVerificationResult isRankReducedType(Type originalType,
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Type reducedType) {
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if (originalType == reducedType)
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return true;
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return SubViewVerificationResult::Success;
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if (!originalType.isa<RankedTensorType>() && !originalType.isa<MemRefType>())
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return true;
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return SubViewVerificationResult::Success;
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if (originalType.isa<RankedTensorType>() &&
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!reducedType.isa<RankedTensorType>())
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return true;
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return SubViewVerificationResult::Success;
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if (originalType.isa<MemRefType>() && !reducedType.isa<MemRefType>())
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return true;
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return SubViewVerificationResult::Success;
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ShapedType originalShapedType = originalType.cast<ShapedType>();
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ShapedType reducedShapedType = reducedType.cast<ShapedType>();
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@ -2846,7 +2857,7 @@ static bool isRankReducedType(Type originalType, Type reducedType) {
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unsigned originalRank = originalShape.size(),
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reducedRank = reducedShape.size();
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if (reducedRank > originalRank)
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return false;
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return SubViewVerificationResult::RankTooLarge;
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unsigned reducedIdx = 0;
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SmallVector<bool, 4> keepMask(originalRank);
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@ -2858,41 +2869,78 @@ static bool isRankReducedType(Type originalType, Type reducedType) {
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reducedIdx++;
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// 1 is the only non-matching allowed.
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else if (originalShape[originalIdx] != 1)
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return false;
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return SubViewVerificationResult::SizeMismatch;
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}
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// Must match the reduced rank.
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if (reducedIdx != reducedRank)
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return false;
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return SubViewVerificationResult::SizeMismatch;
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// We are done for the tensor case.
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if (originalType.isa<RankedTensorType>())
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return true;
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return SubViewVerificationResult::Success;
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// Strided layout logic is relevant for MemRefType only.
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MemRefType original = originalType.cast<MemRefType>();
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MemRefType reduced = reducedType.cast<MemRefType>();
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MLIRContext *c = original.getContext();
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int64_t originalOffset, symCounter = 0, dimCounter = 0;
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SmallVector<int64_t, 4> originalStrides;
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int64_t originalOffset, reducedOffset;
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SmallVector<int64_t, 4> originalStrides, reducedStrides, keepStrides;
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getStridesAndOffset(original, originalStrides, originalOffset);
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auto getSymbolOrConstant = [&](int64_t offset) {
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return offset == ShapedType::kDynamicStrideOrOffset
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? getAffineSymbolExpr(symCounter++, c)
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: getAffineConstantExpr(offset, c);
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};
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getStridesAndOffset(reduced, reducedStrides, reducedOffset);
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AffineExpr expr = getSymbolOrConstant(originalOffset);
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for (unsigned i = 0, e = originalStrides.size(); i < e; i++) {
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if (keepMask[i])
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expr = expr + getSymbolOrConstant(originalStrides[i]) *
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getAffineDimExpr(dimCounter++, c);
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// Filter strides based on the mask and check that they are the same
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// as reduced ones.
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reducedIdx = 0;
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for (unsigned originalIdx = 0; originalIdx < originalRank; ++originalIdx) {
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if (keepMask[originalIdx]) {
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if (originalStrides[originalIdx] != reducedStrides[reducedIdx++])
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return SubViewVerificationResult::StrideMismatch;
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keepStrides.push_back(originalStrides[originalIdx]);
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}
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}
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auto reducedMap = AffineMap::get(dimCounter, symCounter, expr, c);
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return original.getElementType() == reduced.getElementType() &&
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original.getMemorySpace() == reduced.getMemorySpace() &&
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(reduced.getAffineMaps().empty() ||
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reducedMap == reduced.getAffineMaps().front());
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if (original.getElementType() != reduced.getElementType())
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return SubViewVerificationResult::ElemTypeMismatch;
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if (original.getMemorySpace() != reduced.getMemorySpace())
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return SubViewVerificationResult::MemSpaceMismatch;
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auto reducedMap = makeStridedLinearLayoutMap(keepStrides, originalOffset, c);
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if (!reduced.getAffineMaps().empty() &&
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reducedMap != reduced.getAffineMaps().front())
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return SubViewVerificationResult::AffineMapMismatch;
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return SubViewVerificationResult::Success;
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}
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template <typename OpTy>
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static LogicalResult produceSubViewErrorMsg(SubViewVerificationResult result,
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OpTy op, Type expectedType) {
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auto memrefType = expectedType.cast<ShapedType>();
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switch (result) {
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case SubViewVerificationResult::Success:
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return success();
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case SubViewVerificationResult::RankTooLarge:
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return op.emitError("expected result rank to be smaller or equal to ")
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<< "the source rank.";
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case SubViewVerificationResult::SizeMismatch:
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return op.emitError("expected result type to be ")
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<< expectedType
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<< " or a rank-reduced version. (mismatch of result sizes)";
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case SubViewVerificationResult::StrideMismatch:
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return op.emitError("expected result type to be ")
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<< expectedType
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<< " or a rank-reduced version. (mismatch of result strides)";
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case SubViewVerificationResult::ElemTypeMismatch:
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return op.emitError("expected result element type to be ")
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<< memrefType.getElementType();
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case SubViewVerificationResult::MemSpaceMismatch:
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return op.emitError("expected result and source memory spaces to match.");
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case SubViewVerificationResult::AffineMapMismatch:
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return op.emitError("expected result type to be ")
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<< expectedType
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<< " or a rank-reduced version. (mismatch of result affine map)";
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}
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}
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template <typename OpType>
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@ -2937,11 +2985,9 @@ static LogicalResult verify(SubViewOp op) {
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baseType, extractFromI64ArrayAttr(op.static_offsets()),
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extractFromI64ArrayAttr(op.static_sizes()),
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extractFromI64ArrayAttr(op.static_strides()));
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if (!isRankReducedType(expectedType, subViewType))
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return op.emitError("expected result type to be ")
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<< expectedType << " or a rank-reduced version.";
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return success();
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auto result = isRankReducedType(expectedType, subViewType);
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return produceSubViewErrorMsg(result, op, expectedType);
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}
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raw_ostream &mlir::operator<<(raw_ostream &os, Range &range) {
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@ -3352,11 +3398,8 @@ static LogicalResult verify(SubTensorOp op) {
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op.getSourceType(), extractFromI64ArrayAttr(op.static_offsets()),
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extractFromI64ArrayAttr(op.static_sizes()),
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extractFromI64ArrayAttr(op.static_strides()));
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if (!isRankReducedType(expectedType, op.getType()))
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return op.emitError("expected result type to be ")
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<< expectedType << " or a rank-reduced version.";
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return success();
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auto result = isRankReducedType(expectedType, op.getType());
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return produceSubViewErrorMsg(result, op, expectedType);
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}
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void SubTensorOp::getCanonicalizationPatterns(OwningRewritePatternList &results,
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@ -21,6 +21,7 @@
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// CHECK-DAG: #[[$SUBVIEW_MAP5:map[0-9]+]] = affine_map<(d0, d1)[s0] -> (d0 * 8 + s0 + d1 * 2)>
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// CHECK-DAG: #[[$SUBVIEW_MAP6:map[0-9]+]] = affine_map<(d0, d1, d2, d3, d4) -> (d0 * 36 + d1 * 36 + d2 * 4 + d3 * 4 + d4)>
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// CHECK-DAG: #[[$SUBVIEW_MAP7:map[0-9]+]] = affine_map<(d0, d1, d2, d3, d4, d5)[s0, s1, s2, s3, s4, s5, s6] -> (d0 * s1 + s0 + d1 * s2 + d2 * s3 + d3 * s4 + d4 * s5 + d5 * s6)>
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// CHECK-DAG: #[[$SUBVIEW_MAP8:map[0-9]+]] = affine_map<(d0, d1, d2, d3)[s0, s1, s2, s3, s4] -> (d0 * s1 + s0 + d1 * s2 + d2 * s3 + d3 * s4)>
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// CHECK-LABEL: func @func_with_ops
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// CHECK-SAME: %[[ARG:.*]]: f32
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@ -811,11 +812,11 @@ func @memref_subview(%arg0 : index, %arg1 : index, %arg2 : index) {
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%15 = alloc(%arg1, %arg2)[%c0, %c1, %arg1, %arg0, %arg0, %arg2, %arg2] : memref<1x?x5x1x?x1xf32, affine_map<(d0, d1, d2, d3, d4, d5)[s0, s1, s2, s3, s4, s5, s6] -> (s0 + s1 * d0 + s2 * d1 + s3 * d2 + s4 * d3 + s5 * d4 + s6 * d5)>>
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// CHECK: subview %15[0, 0, 0, 0, 0, 0] [1, %arg1, 5, 1, %arg2, 1] [1, 1, 1, 1, 1, 1] :
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// CHECK-SAME: memref<1x?x5x1x?x1xf32, #[[$SUBVIEW_MAP7]]> to memref<?x5x?xf32>
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%16 = subview %15[0, 0, 0, 0, 0, 0][1, %arg1, 5, 1, %arg2, 1][1, 1, 1, 1, 1, 1] : memref<1x?x5x1x?x1xf32, offset: ?, strides: [?, ?, ?, ?, ?, ?]> to memref<?x5x?xf32>
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// CHECK-SAME: memref<1x?x5x1x?x1xf32, #[[$SUBVIEW_MAP7]]> to memref<?x5x?xf32, #[[$BASE_MAP3]]>
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%16 = subview %15[0, 0, 0, 0, 0, 0][1, %arg1, 5, 1, %arg2, 1][1, 1, 1, 1, 1, 1] : memref<1x?x5x1x?x1xf32, offset: ?, strides: [?, ?, ?, ?, ?, ?]> to memref<?x5x?xf32, offset: ?, strides: [?, ?, ?]>
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// CHECK: subview %15[%arg1, %arg1, %arg1, %arg1, %arg1, %arg1] [1, %arg1, 5, 1, %arg2, 1] [1, 1, 1, 1, 1, 1] :
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// CHECK-SAME: memref<1x?x5x1x?x1xf32, #[[$SUBVIEW_MAP7]]> to memref<?x5x?x1xf32>
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%17 = subview %15[%arg1, %arg1, %arg1, %arg1, %arg1, %arg1][1, %arg1, 5, 1, %arg2, 1][1, 1, 1, 1, 1, 1] : memref<1x?x5x1x?x1xf32, offset: ?, strides: [?, ?, ?, ?, ?, ?]> to memref<?x5x?x1xf32>
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// CHECK-SAME: memref<1x?x5x1x?x1xf32, #[[$SUBVIEW_MAP7]]> to memref<?x5x?x1xf32, #[[$SUBVIEW_MAP8]]>
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%17 = subview %15[%arg1, %arg1, %arg1, %arg1, %arg1, %arg1][1, %arg1, 5, 1, %arg2, 1][1, 1, 1, 1, 1, 1] : memref<1x?x5x1x?x1xf32, offset: ?, strides: [?, ?, ?, ?, ?, ?]> to memref<?x5x?x1xf32, offset: ?, strides: [?, ?, ?, ?]>
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%18 = alloc() : memref<1x8xf32>
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// CHECK: subview %18[0, 0] [1, 8] [1, 1] : memref<1x8xf32> to memref<8xf32>
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@ -1011,7 +1011,7 @@ func @invalid_subview(%arg0 : index, %arg1 : index, %arg2 : index) {
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func @invalid_subview(%arg0 : index, %arg1 : index, %arg2 : index) {
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%0 = alloc() : memref<8x16x4xf32>
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// expected-error@+1 {{expected result type to be 'memref<?x?x?xf32, affine_map<(d0, d1, d2)[s0, s1, s2, s3] -> (d0 * s1 + s0 + d1 * s2 + d2 * s3)>>'}}
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// expected-error@+1 {{expected result type to be 'memref<?x?x?xf32, affine_map<(d0, d1, d2)[s0, s1, s2, s3] -> (d0 * s1 + s0 + d1 * s2 + d2 * s3)>>' or a rank-reduced version. (mismatch of result strides)}}
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%1 = subview %0[%arg0, %arg1, %arg2][%arg0, %arg1, %arg2][%arg0, %arg1, %arg2]
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: memref<8x16x4xf32> to
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memref<?x?x?xf32, offset: ?, strides: [64, 4, 1]>
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@ -1020,9 +1020,31 @@ func @invalid_subview(%arg0 : index, %arg1 : index, %arg2 : index) {
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// -----
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func @invalid_subview(%arg0 : index, %arg1 : index, %arg2 : index) {
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%0 = alloc() : memref<8x16x4xf32>
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// expected-error@+1 {{expected result element type to be 'f32'}}
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%1 = subview %0[0, 0, 0][8, 16, 4][1, 1, 1]
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: memref<8x16x4xf32> to
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memref<8x16x4xi32>
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return
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}
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// -----
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func @invalid_subview(%arg0 : index, %arg1 : index, %arg2 : index) {
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%0 = alloc() : memref<8x16x4xf32>
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// expected-error@+1 {{expected result rank to be smaller or equal to the source rank.}}
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%1 = subview %0[0, 0, 0][8, 16, 4][1, 1, 1]
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: memref<8x16x4xf32> to
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memref<8x16x4x3xi32>
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return
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}
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// -----
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func @invalid_rank_reducing_subview(%arg0 : index, %arg1 : index, %arg2 : index) {
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%0 = alloc() : memref<8x16x4xf32>
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// expected-error@+1 {{expected result type to be 'memref<8x16x4xf32, affine_map<(d0, d1, d2) -> (d0 * 64 + d1 * 4 + d2)>>'}}
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// expected-error@+1 {{expected result type to be 'memref<8x16x4xf32, affine_map<(d0, d1, d2) -> (d0 * 64 + d1 * 4 + d2)>>' or a rank-reduced version. (mismatch of result sizes)}}
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%1 = subview %0[0, 0, 0][8, 16, 4][1, 1, 1]
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: memref<8x16x4xf32> to memref<16x4xf32>
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return
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@ -1030,6 +1052,14 @@ func @invalid_rank_reducing_subview(%arg0 : index, %arg1 : index, %arg2 : index)
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// -----
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func @invalid_rank_reducing_subview(%arg0 : memref<?x?xf32>, %arg1 : index, %arg2 : index) {
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// expected-error@+1 {{expected result type to be 'memref<?x1xf32, affine_map<(d0, d1)[s0, s1] -> (d0 * s1 + s0 + d1)>>' or a rank-reduced version. (mismatch of result strides)}}
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%0 = subview %arg0[0, %arg1][%arg2, 1][1, 1] : memref<?x?xf32> to memref<?xf32>
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return
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}
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// -----
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func @invalid_memref_cast(%arg0 : memref<12x4x16xf32, offset:0, strides:[64, 16, 1]>) {
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// expected-error@+1{{operand type 'memref<12x4x16xf32, affine_map<(d0, d1, d2) -> (d0 * 64 + d1 * 16 + d2)>>' and result type 'memref<12x4x16xf32, affine_map<(d0, d1, d2) -> (d0 * 128 + d1 * 32 + d2 * 2)>>' are cast incompatible}}
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%0 = memref_cast %arg0 : memref<12x4x16xf32, offset:0, strides:[64, 16, 1]> to memref<12x4x16xf32, offset:0, strides:[128, 32, 2]>
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// -----
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func @subtensor_wrong_dynamic_type(%t: tensor<8x16x4xf32>, %idx : index) {
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// expected-error @+1 {{expected result type to be 'tensor<4x4x4xf32>'}}
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// expected-error @+1 {{expected result type to be 'tensor<4x4x4xf32>' or a rank-reduced version. (mismatch of result sizes)}}
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%0 = subtensor %t[0, 2, 0][4, 4, 4][1, 1, 1]
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: tensor<8x16x4xf32> to tensor<?x4x4xf32>
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@ -1269,7 +1299,7 @@ func @subtensor_wrong_dynamic_type(%t: tensor<8x16x4xf32>, %idx : index) {
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// -----
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func @subtensor_wrong_static_type(%t: tensor<8x16x4xf32>, %idx : index) {
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// expected-error @+1 {{expected result type to be 'tensor<?x3x?xf32>'}}
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// expected-error @+1 {{expected result type to be 'tensor<?x3x?xf32>' or a rank-reduced version. (mismatch of result sizes)}}
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%0 = subtensor %t[0, 0, 0][%idx, 3, %idx][1, 1, 1]
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: tensor<8x16x4xf32> to tensor<4x4x4xf32>
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