[Mlir-commits] [mlir] dca32a3 - [mlir][PDL] Add support for native constraints with results (#82760)
llvmlistbot at llvm.org
llvmlistbot at llvm.org
Thu Feb 29 22:29:53 PST 2024
Author: Matthias Gehre
Date: 2024-03-01T07:29:49+01:00
New Revision: dca32a3b594b3c91f9766a9312b5d82534910fa1
URL: https://github.com/llvm/llvm-project/commit/dca32a3b594b3c91f9766a9312b5d82534910fa1
DIFF: https://github.com/llvm/llvm-project/commit/dca32a3b594b3c91f9766a9312b5d82534910fa1.diff
LOG: [mlir][PDL] Add support for native constraints with results (#82760)
>From https://reviews.llvm.org/D153245
This adds support for native PDL (and PDLL) C++ constraints to return
results.
This is useful for situations where a pattern checks for certain
constraints of multiple interdependent attributes and computes a new
attribute value based on them. Currently, for such an example it is
required to escape to C++ during matching to perform the check and after
a successful match again escape to native C++ to perform the computation
during the rewriting part of the pattern. With this work we can do the
computation in C++ during matching and use the result in the rewriting
part of the pattern. Effectively this enables a choice in the trade-off
of memory consumption during matching vs recomputation of values.
This is an example of a situation where this is useful: We have two
operations with certain attributes that have interdependent constraints.
For instance `attr_foo: one_of [0, 2, 4, 8], attr_bar: one_of [0, 2, 4,
8]` and `attr_foo == attr_bar`. The pattern should only match if all
conditions are true. The new operation should be created with a new
attribute which is computed from the two matched attributes e.g.
`attr_baz = attr_foo * attr_bar`. For the check we already escape to
native C++ and have all values at hand so it makes sense to directly
compute the new attribute value as well:
```
Constraint checkAndCompute(attr0: Attr, attr1: Attr) -> Attr;
Pattern example with benefit(1) {
let foo = op<test.foo>() {attr = attr_foo : Attr};
let bar = op<test.bar>(foo) {attr = attr_bar : Attr};
let attr_baz = checkAndCompute(attr_foo, attr_bar);
rewrite bar with {
let baz = op<test.baz> {attr=attr_baz};
replace bar with baz;
};
}
```
To achieve this the following notable changes were necessary:
PDLL:
- Remove check in PDLL parser that prevented native constraints from
returning results
PDL:
- Change PDL definition of pdl.apply_native_constraint to allow variadic
results
PDL_interp:
- Change PDL_interp definition of pdl_interp.apply_constraint to allow
variadic results
PDLToPDLInterp Pass:
The input to the pass is an arbitrary number of PDL patterns. The pass
collects the predicates that are required to match all of the pdl
patterns and establishes an ordering that allows creation of a single
efficient matcher function to match all of them. Values that are matched
and possibly used in the rewriting part of a pattern are represented as
positions. This allows fusion and thus reusing a single position for
multiple matching patterns. Accordingly, we introduce
ConstraintPosition, which records the type and index of the result of
the constraint. The problem is for the corresponding value to be used in
the rewriting part of a pattern it has to be an input to the
pdl_interp.record_match operation, which is generated early during the
pass such that its surrounding block can be referred to by branching
operations. In consequence the value has to be materialized after the
original pdl.apply_native_constraint has been deleted but before we get
the chance to generate the corresponding pdl_interp.apply_constraint
operation. We solve this by emitting a placeholder value when a
ConstraintPosition is evaluated. These placeholder values (due to fusion
there may be multiple for one constraint result) are replaced later when
the actual pdl_interp.apply_constraint operation is created.
Changes since the phabricator review:
- Addressed all comments
- In particular, removed registerConstraintFunctionWithResults and
instead changed registerConstraintFunction so that contraint functions
always have results (empty by default)
- Thus we don't need to reuse `rewriteFunctions` to store constraint
functions with results anymore, and can instead use
`constraintFunctions`
- Perform a stable sort of ConstraintQuestion, so that
ConstraintQuestion appear before other ConstraintQuestion that use their
results.
- Don't create placeholders for pdl_interp::ApplyConstraintOp. Instead
generate the `pdl_interp::ApplyConstraintOp` before generating the
successor block.
- Fixed a test failure in the pdl python bindings
Original code by @martin-luecke
Co-authored-by: martin-luecke <martinpaul.luecke at amd.com>
Added:
mlir/test/Conversion/PDLToPDLInterp/use-constraint-result.mlir
Modified:
mlir/include/mlir/Dialect/PDL/IR/PDLOps.td
mlir/include/mlir/Dialect/PDLInterp/IR/PDLInterpOps.td
mlir/include/mlir/IR/PDLPatternMatch.h.inc
mlir/lib/Conversion/PDLToPDLInterp/PDLToPDLInterp.cpp
mlir/lib/Conversion/PDLToPDLInterp/Predicate.h
mlir/lib/Conversion/PDLToPDLInterp/PredicateTree.cpp
mlir/lib/Dialect/PDL/IR/PDL.cpp
mlir/lib/Rewrite/ByteCode.cpp
mlir/lib/Tools/PDLL/Parser/Parser.cpp
mlir/test/Conversion/PDLToPDLInterp/pdl-to-pdl-interp-matcher.mlir
mlir/test/Dialect/PDL/ops.mlir
mlir/test/Rewrite/pdl-bytecode.mlir
mlir/test/lib/Dialect/Transform/TestTransformDialectExtension.cpp
mlir/test/lib/Rewrite/TestPDLByteCode.cpp
mlir/test/mlir-pdll/Parser/constraint-failure.pdll
mlir/test/mlir-pdll/Parser/constraint.pdll
mlir/test/python/dialects/pdl_ops.py
Removed:
################################################################################
diff --git a/mlir/include/mlir/Dialect/PDL/IR/PDLOps.td b/mlir/include/mlir/Dialect/PDL/IR/PDLOps.td
index 4e9ebccba77d88..1e108c3d8ac77a 100644
--- a/mlir/include/mlir/Dialect/PDL/IR/PDLOps.td
+++ b/mlir/include/mlir/Dialect/PDL/IR/PDLOps.td
@@ -35,20 +35,25 @@ def PDL_ApplyNativeConstraintOp
let description = [{
`pdl.apply_native_constraint` operations apply a native C++ constraint, that
has been registered externally with the consumer of PDL, to a given set of
- entities.
+ entities and optionally return a number of values.
Example:
```mlir
// Apply `myConstraint` to the entities defined by `input`, `attr`, and `op`.
pdl.apply_native_constraint "myConstraint"(%input, %attr, %op : !pdl.value, !pdl.attribute, !pdl.operation)
+ // Apply constraint `with_result` to `root`. This constraint returns an attribute.
+ %attr = pdl.apply_native_constraint "with_result"(%root : !pdl.operation) : !pdl.attribute
```
}];
let arguments = (ins StrAttr:$name,
Variadic<PDL_AnyType>:$args,
DefaultValuedAttr<BoolAttr, "false">:$isNegated);
- let assemblyFormat = "$name `(` $args `:` type($args) `)` attr-dict";
+ let results = (outs Variadic<PDL_AnyType>:$results);
+ let assemblyFormat = [{
+ $name `(` $args `:` type($args) `)` (`:` type($results)^ )? attr-dict
+ }];
let hasVerifier = 1;
}
diff --git a/mlir/include/mlir/Dialect/PDLInterp/IR/PDLInterpOps.td b/mlir/include/mlir/Dialect/PDLInterp/IR/PDLInterpOps.td
index 48f625bd1fa3fd..901acc0e6733bb 100644
--- a/mlir/include/mlir/Dialect/PDLInterp/IR/PDLInterpOps.td
+++ b/mlir/include/mlir/Dialect/PDLInterp/IR/PDLInterpOps.td
@@ -88,7 +88,9 @@ def PDLInterp_ApplyConstraintOp : PDLInterp_PredicateOp<"apply_constraint"> {
let description = [{
`pdl_interp.apply_constraint` operations apply a generic constraint, that
has been registered with the interpreter, with a given set of positional
- values. On success, this operation branches to the true destination,
+ values.
+ The constraint function may return any number of results.
+ On success, this operation branches to the true destination,
otherwise the false destination is taken. This behavior can be reversed
by setting the attribute `isNegated` to true.
@@ -104,8 +106,10 @@ def PDLInterp_ApplyConstraintOp : PDLInterp_PredicateOp<"apply_constraint"> {
let arguments = (ins StrAttr:$name,
Variadic<PDL_AnyType>:$args,
DefaultValuedAttr<BoolAttr, "false">:$isNegated);
+ let results = (outs Variadic<PDL_AnyType>:$results);
let assemblyFormat = [{
- $name `(` $args `:` type($args) `)` attr-dict `->` successors
+ $name `(` $args `:` type($args) `)` (`:` type($results)^)? attr-dict
+ `->` successors
}];
}
diff --git a/mlir/include/mlir/IR/PDLPatternMatch.h.inc b/mlir/include/mlir/IR/PDLPatternMatch.h.inc
index a215da8cb6431d..66286ed7a4c898 100644
--- a/mlir/include/mlir/IR/PDLPatternMatch.h.inc
+++ b/mlir/include/mlir/IR/PDLPatternMatch.h.inc
@@ -318,8 +318,9 @@ protected:
/// A generic PDL pattern constraint function. This function applies a
/// constraint to a given set of opaque PDLValue entities. Returns success if
/// the constraint successfully held, failure otherwise.
-using PDLConstraintFunction =
- std::function<LogicalResult(PatternRewriter &, ArrayRef<PDLValue>)>;
+using PDLConstraintFunction = std::function<LogicalResult(
+ PatternRewriter &, PDLResultList &, ArrayRef<PDLValue>)>;
+
/// A native PDL rewrite function. This function performs a rewrite on the
/// given set of values. Any results from this rewrite that should be passed
/// back to PDL should be added to the provided result list. This method is only
@@ -726,7 +727,7 @@ std::enable_if_t<
PDLConstraintFunction>
buildConstraintFn(ConstraintFnT &&constraintFn) {
return [constraintFn = std::forward<ConstraintFnT>(constraintFn)](
- PatternRewriter &rewriter,
+ PatternRewriter &rewriter, PDLResultList &,
ArrayRef<PDLValue> values) -> LogicalResult {
auto argIndices = std::make_index_sequence<
llvm::function_traits<ConstraintFnT>::num_args - 1>();
@@ -842,10 +843,13 @@ public:
/// Register a constraint function with PDL. A constraint function may be
/// specified in one of two ways:
///
- /// * `LogicalResult (PatternRewriter &, ArrayRef<PDLValue>)`
+ /// * `LogicalResult (PatternRewriter &,
+ /// PDLResultList &,
+ /// ArrayRef<PDLValue>)`
///
/// In this overload the arguments of the constraint function are passed via
- /// the low-level PDLValue form.
+ /// the low-level PDLValue form, and the results are manually appended to
+ /// the given result list.
///
/// * `LogicalResult (PatternRewriter &, ValueTs... values)`
///
@@ -960,8 +964,8 @@ public:
}
};
class PDLResultList {};
-using PDLConstraintFunction =
- std::function<LogicalResult(PatternRewriter &, ArrayRef<PDLValue>)>;
+using PDLConstraintFunction = std::function<LogicalResult(
+ PatternRewriter &, PDLResultList &, ArrayRef<PDLValue>)>;
using PDLRewriteFunction = std::function<LogicalResult(
PatternRewriter &, PDLResultList &, ArrayRef<PDLValue>)>;
diff --git a/mlir/lib/Conversion/PDLToPDLInterp/PDLToPDLInterp.cpp b/mlir/lib/Conversion/PDLToPDLInterp/PDLToPDLInterp.cpp
index e911631a4bc52a..b00cd0dee3ae80 100644
--- a/mlir/lib/Conversion/PDLToPDLInterp/PDLToPDLInterp.cpp
+++ b/mlir/lib/Conversion/PDLToPDLInterp/PDLToPDLInterp.cpp
@@ -50,7 +50,8 @@ struct PatternLowering {
/// Generate interpreter operations for the tree rooted at the given matcher
/// node, in the specified region.
- Block *generateMatcher(MatcherNode &node, Region ®ion);
+ Block *generateMatcher(MatcherNode &node, Region ®ion,
+ Block *block = nullptr);
/// Get or create an access to the provided positional value in the current
/// block. This operation may mutate the provided block pointer if nested
@@ -148,6 +149,10 @@ struct PatternLowering {
/// A mapping between pattern operations and the corresponding configuration
/// set.
DenseMap<Operation *, PDLPatternConfigSet *> *configMap;
+
+ /// A mapping from a constraint question to the ApplyConstraintOp
+ /// that implements it.
+ DenseMap<ConstraintQuestion *, pdl_interp::ApplyConstraintOp> constraintOpMap;
};
} // namespace
@@ -182,9 +187,11 @@ void PatternLowering::lower(ModuleOp module) {
firstMatcherBlock->erase();
}
-Block *PatternLowering::generateMatcher(MatcherNode &node, Region ®ion) {
+Block *PatternLowering::generateMatcher(MatcherNode &node, Region ®ion,
+ Block *block) {
// Push a new scope for the values used by this matcher.
- Block *block = ®ion.emplaceBlock();
+ if (!block)
+ block = ®ion.emplaceBlock();
ValueMapScope scope(values);
// If this is the return node, simply insert the corresponding interpreter
@@ -364,6 +371,15 @@ Value PatternLowering::getValueAt(Block *¤tBlock, Position *pos) {
loc, cast<ArrayAttr>(rawTypeAttr));
break;
}
+ case Predicates::ConstraintResultPos: {
+ // Due to the order of traversal, the ApplyConstraintOp has already been
+ // created and we can find it in constraintOpMap.
+ auto *constrResPos = cast<ConstraintPosition>(pos);
+ auto i = constraintOpMap.find(constrResPos->getQuestion());
+ assert(i != constraintOpMap.end());
+ value = i->second->getResult(constrResPos->getIndex());
+ break;
+ }
default:
llvm_unreachable("Generating unknown Position getter");
break;
@@ -390,12 +406,11 @@ void PatternLowering::generate(BoolNode *boolNode, Block *¤tBlock,
args.push_back(getValueAt(currentBlock, position));
}
- // Generate the matcher in the current (potentially nested) region
- // and get the failure successor.
- Block *success = generateMatcher(*boolNode->getSuccessNode(), *region);
+ // Generate a new block as success successor and get the failure successor.
+ Block *success = ®ion->emplaceBlock();
Block *failure = failureBlockStack.back();
- // Finally, create the predicate.
+ // Create the predicate.
builder.setInsertionPointToEnd(currentBlock);
Predicates::Kind kind = question->getKind();
switch (kind) {
@@ -447,14 +462,20 @@ void PatternLowering::generate(BoolNode *boolNode, Block *¤tBlock,
}
case Predicates::ConstraintQuestion: {
auto *cstQuestion = cast<ConstraintQuestion>(question);
- builder.create<pdl_interp::ApplyConstraintOp>(
- loc, cstQuestion->getName(), args, cstQuestion->getIsNegated(), success,
- failure);
+ auto applyConstraintOp = builder.create<pdl_interp::ApplyConstraintOp>(
+ loc, cstQuestion->getResultTypes(), cstQuestion->getName(), args,
+ cstQuestion->getIsNegated(), success, failure);
+
+ constraintOpMap.insert({cstQuestion, applyConstraintOp});
break;
}
default:
llvm_unreachable("Generating unknown Predicate operation");
}
+
+ // Generate the matcher in the current (potentially nested) region.
+ // This might use the results of the current predicate.
+ generateMatcher(*boolNode->getSuccessNode(), *region, success);
}
template <typename OpT, typename PredT, typename ValT = typename PredT::KeyTy>
diff --git a/mlir/lib/Conversion/PDLToPDLInterp/Predicate.h b/mlir/lib/Conversion/PDLToPDLInterp/Predicate.h
index 2c9b63f86d6efa..5ad2c477573a5b 100644
--- a/mlir/lib/Conversion/PDLToPDLInterp/Predicate.h
+++ b/mlir/lib/Conversion/PDLToPDLInterp/Predicate.h
@@ -47,6 +47,7 @@ enum Kind : unsigned {
OperandPos,
OperandGroupPos,
AttributePos,
+ ConstraintResultPos,
ResultPos,
ResultGroupPos,
TypePos,
@@ -279,6 +280,28 @@ struct OperationPosition : public PredicateBase<OperationPosition, Position,
bool isOperandDefiningOp() const;
};
+//===----------------------------------------------------------------------===//
+// ConstraintPosition
+
+struct ConstraintQuestion;
+
+/// A position describing the result of a native constraint. It saves the
+/// corresponding ConstraintQuestion and result index to enable referring
+/// back to them
+struct ConstraintPosition
+ : public PredicateBase<ConstraintPosition, Position,
+ std::pair<ConstraintQuestion *, unsigned>,
+ Predicates::ConstraintResultPos> {
+ using PredicateBase::PredicateBase;
+
+ /// Returns the ConstraintQuestion to enable keeping track of the native
+ /// constraint this position stems from.
+ ConstraintQuestion *getQuestion() const { return key.first; }
+
+ // Returns the result index of this position
+ unsigned getIndex() const { return key.second; }
+};
+
//===----------------------------------------------------------------------===//
// ResultPosition
@@ -447,11 +470,13 @@ struct AttributeQuestion
: public PredicateBase<AttributeQuestion, Qualifier, void,
Predicates::AttributeQuestion> {};
-/// Apply a parameterized constraint to multiple position values.
+/// Apply a parameterized constraint to multiple position values and possibly
+/// produce results.
struct ConstraintQuestion
- : public PredicateBase<ConstraintQuestion, Qualifier,
- std::tuple<StringRef, ArrayRef<Position *>, bool>,
- Predicates::ConstraintQuestion> {
+ : public PredicateBase<
+ ConstraintQuestion, Qualifier,
+ std::tuple<StringRef, ArrayRef<Position *>, ArrayRef<Type>, bool>,
+ Predicates::ConstraintQuestion> {
using Base::Base;
/// Return the name of the constraint.
@@ -460,15 +485,19 @@ struct ConstraintQuestion
/// Return the arguments of the constraint.
ArrayRef<Position *> getArgs() const { return std::get<1>(key); }
+ /// Return the result types of the constraint.
+ ArrayRef<Type> getResultTypes() const { return std::get<2>(key); }
+
/// Return the negation status of the constraint.
- bool getIsNegated() const { return std::get<2>(key); }
+ bool getIsNegated() const { return std::get<3>(key); }
/// Construct an instance with the given storage allocator.
static ConstraintQuestion *construct(StorageUniquer::StorageAllocator &alloc,
KeyTy key) {
return Base::construct(alloc, KeyTy{alloc.copyInto(std::get<0>(key)),
alloc.copyInto(std::get<1>(key)),
- std::get<2>(key)});
+ alloc.copyInto(std::get<2>(key)),
+ std::get<3>(key)});
}
/// Returns a hash suitable for the given keytype.
@@ -526,6 +555,7 @@ class PredicateUniquer : public StorageUniquer {
// Register the types of Positions with the uniquer.
registerParametricStorageType<AttributePosition>();
registerParametricStorageType<AttributeLiteralPosition>();
+ registerParametricStorageType<ConstraintPosition>();
registerParametricStorageType<ForEachPosition>();
registerParametricStorageType<OperandPosition>();
registerParametricStorageType<OperandGroupPosition>();
@@ -588,6 +618,12 @@ class PredicateBuilder {
return OperationPosition::get(uniquer, p);
}
+ // Returns a position for a new value created by a constraint.
+ ConstraintPosition *getConstraintPosition(ConstraintQuestion *q,
+ unsigned index) {
+ return ConstraintPosition::get(uniquer, std::make_pair(q, index));
+ }
+
/// Returns an attribute position for an attribute of the given operation.
Position *getAttribute(OperationPosition *p, StringRef name) {
return AttributePosition::get(uniquer, p, StringAttr::get(ctx, name));
@@ -673,11 +709,11 @@ class PredicateBuilder {
}
/// Create a predicate that applies a generic constraint.
- Predicate getConstraint(StringRef name, ArrayRef<Position *> pos,
- bool isNegated) {
- return {
- ConstraintQuestion::get(uniquer, std::make_tuple(name, pos, isNegated)),
- TrueAnswer::get(uniquer)};
+ Predicate getConstraint(StringRef name, ArrayRef<Position *> args,
+ ArrayRef<Type> resultTypes, bool isNegated) {
+ return {ConstraintQuestion::get(
+ uniquer, std::make_tuple(name, args, resultTypes, isNegated)),
+ TrueAnswer::get(uniquer)};
}
/// Create a predicate comparing a value with null.
diff --git a/mlir/lib/Conversion/PDLToPDLInterp/PredicateTree.cpp b/mlir/lib/Conversion/PDLToPDLInterp/PredicateTree.cpp
index a9c3b0a71ef0d7..f3d0e08ef49b97 100644
--- a/mlir/lib/Conversion/PDLToPDLInterp/PredicateTree.cpp
+++ b/mlir/lib/Conversion/PDLToPDLInterp/PredicateTree.cpp
@@ -15,6 +15,7 @@
#include "mlir/IR/BuiltinOps.h"
#include "mlir/Interfaces/InferTypeOpInterface.h"
#include "llvm/ADT/MapVector.h"
+#include "llvm/ADT/SmallPtrSet.h"
#include "llvm/ADT/TypeSwitch.h"
#include "llvm/Support/Debug.h"
#include <queue>
@@ -49,14 +50,15 @@ static void getTreePredicates(std::vector<PositionalPredicate> &predList,
DenseMap<Value, Position *> &inputs,
AttributePosition *pos) {
assert(isa<pdl::AttributeType>(val.getType()) && "expected attribute type");
- pdl::AttributeOp attr = cast<pdl::AttributeOp>(val.getDefiningOp());
predList.emplace_back(pos, builder.getIsNotNull());
- // If the attribute has a type or value, add a constraint.
- if (Value type = attr.getValueType())
- getTreePredicates(predList, type, builder, inputs, builder.getType(pos));
- else if (Attribute value = attr.getValueAttr())
- predList.emplace_back(pos, builder.getAttributeConstraint(value));
+ if (auto attr = dyn_cast<pdl::AttributeOp>(val.getDefiningOp())) {
+ // If the attribute has a type or value, add a constraint.
+ if (Value type = attr.getValueType())
+ getTreePredicates(predList, type, builder, inputs, builder.getType(pos));
+ else if (Attribute value = attr.getValueAttr())
+ predList.emplace_back(pos, builder.getAttributeConstraint(value));
+ }
}
/// Collect all of the predicates for the given operand position.
@@ -272,8 +274,25 @@ static void getConstraintPredicates(pdl::ApplyNativeConstraintOp op,
// Push the constraint to the furthest position.
Position *pos = *std::max_element(allPositions.begin(), allPositions.end(),
comparePosDepth);
- PredicateBuilder::Predicate pred =
- builder.getConstraint(op.getName(), allPositions, op.getIsNegated());
+ ResultRange results = op.getResults();
+ PredicateBuilder::Predicate pred = builder.getConstraint(
+ op.getName(), allPositions, SmallVector<Type>(results.getTypes()),
+ op.getIsNegated());
+
+ // For each result register a position so it can be used later
+ for (auto [i, result] : llvm::enumerate(results)) {
+ ConstraintQuestion *q = cast<ConstraintQuestion>(pred.first);
+ ConstraintPosition *pos = builder.getConstraintPosition(q, i);
+ auto [it, inserted] = inputs.insert({result, pos});
+ // If this is an input value that has been visited in the tree, add a
+ // constraint to ensure that both instances refer to the same value.
+ if (!inserted) {
+ auto minMaxPositions =
+ std::minmax<Position *>(pos, it->second, comparePosDepth);
+ predList.emplace_back(minMaxPositions.second,
+ builder.getEqualTo(minMaxPositions.first));
+ }
+ }
predList.emplace_back(pos, pred);
}
@@ -875,6 +894,49 @@ static void insertExitNode(std::unique_ptr<MatcherNode> *root) {
*root = std::make_unique<ExitNode>();
}
+/// Sorts the range begin/end with the partial order given by cmp.
+template <typename Iterator, typename Compare>
+static void stableTopologicalSort(Iterator begin, Iterator end, Compare cmp) {
+ while (begin != end) {
+ // Cannot compute sortBeforeOthers in the predicate of stable_partition
+ // because stable_partition will not keep the [begin, end) range intact
+ // while it runs.
+ llvm::SmallPtrSet<typename Iterator::value_type, 16> sortBeforeOthers;
+ for (auto i = begin; i != end; ++i) {
+ if (std::none_of(begin, end, [&](auto const &b) { return cmp(b, *i); }))
+ sortBeforeOthers.insert(*i);
+ }
+
+ auto const next = std::stable_partition(begin, end, [&](auto const &a) {
+ return sortBeforeOthers.contains(a);
+ });
+ assert(next != begin && "not a partial ordering");
+ begin = next;
+ }
+}
+
+/// Returns true if 'b' depends on a result of 'a'.
+static bool dependsOn(OrderedPredicate *a, OrderedPredicate *b) {
+ auto *cqa = dyn_cast<ConstraintQuestion>(a->question);
+ if (!cqa)
+ return false;
+
+ auto positionDependsOnA = [&](Position *p) {
+ auto *cp = dyn_cast<ConstraintPosition>(p);
+ return cp && cp->getQuestion() == cqa;
+ };
+
+ if (auto *cqb = dyn_cast<ConstraintQuestion>(b->question)) {
+ // Does any argument of b use a?
+ return llvm::any_of(cqb->getArgs(), positionDependsOnA);
+ }
+ if (auto *equalTo = dyn_cast<EqualToQuestion>(b->question)) {
+ return positionDependsOnA(b->position) ||
+ positionDependsOnA(equalTo->getValue());
+ }
+ return positionDependsOnA(b->position);
+}
+
/// Given a module containing PDL pattern operations, generate a matcher tree
/// using the patterns within the given module and return the root matcher node.
std::unique_ptr<MatcherNode>
@@ -955,6 +1017,10 @@ MatcherNode::generateMatcherTree(ModuleOp module, PredicateBuilder &builder,
return *lhs < *rhs;
});
+ // Mostly keep the now established order, but also ensure that
+ // ConstraintQuestions come after the results they use.
+ stableTopologicalSort(ordered.begin(), ordered.end(), dependsOn);
+
// Build the matchers for each of the pattern predicate lists.
std::unique_ptr<MatcherNode> root;
for (OrderedPredicateList &list : lists)
diff --git a/mlir/lib/Dialect/PDL/IR/PDL.cpp b/mlir/lib/Dialect/PDL/IR/PDL.cpp
index d5f34679f06c60..428b19f4c74af8 100644
--- a/mlir/lib/Dialect/PDL/IR/PDL.cpp
+++ b/mlir/lib/Dialect/PDL/IR/PDL.cpp
@@ -94,6 +94,12 @@ static void visit(Operation *op, DenseSet<Operation *> &visited) {
LogicalResult ApplyNativeConstraintOp::verify() {
if (getNumOperands() == 0)
return emitOpError("expected at least one argument");
+ if (llvm::any_of(getResults(), [](OpResult result) {
+ return isa<OperationType>(result.getType());
+ })) {
+ return emitOpError(
+ "returning an operation from a constraint is not supported");
+ }
return success();
}
diff --git a/mlir/lib/Rewrite/ByteCode.cpp b/mlir/lib/Rewrite/ByteCode.cpp
index 6e6992dcdeea78..559ce7f466a83d 100644
--- a/mlir/lib/Rewrite/ByteCode.cpp
+++ b/mlir/lib/Rewrite/ByteCode.cpp
@@ -769,11 +769,25 @@ void Generator::generate(Operation *op, ByteCodeWriter &writer) {
void Generator::generate(pdl_interp::ApplyConstraintOp op,
ByteCodeWriter &writer) {
- assert(constraintToMemIndex.count(op.getName()) &&
- "expected index for constraint function");
+ // Constraints that should return a value have to be registered as rewrites.
+ // If a constraint and a rewrite of similar name are registered the
+ // constraint takes precedence
writer.append(OpCode::ApplyConstraint, constraintToMemIndex[op.getName()]);
writer.appendPDLValueList(op.getArgs());
writer.append(ByteCodeField(op.getIsNegated()));
+ ResultRange results = op.getResults();
+ writer.append(ByteCodeField(results.size()));
+ for (Value result : results) {
+ // We record the expected kind of the result, so that we can provide extra
+ // verification of the native rewrite function and handle the failure case
+ // of constraints accordingly.
+ writer.appendPDLValueKind(result);
+
+ // Range results also need to append the range storage index.
+ if (isa<pdl::RangeType>(result.getType()))
+ writer.append(getRangeStorageIndex(result));
+ writer.append(result);
+ }
writer.append(op.getSuccessors());
}
void Generator::generate(pdl_interp::ApplyRewriteOp op,
@@ -786,11 +800,9 @@ void Generator::generate(pdl_interp::ApplyRewriteOp op,
ResultRange results = op.getResults();
writer.append(ByteCodeField(results.size()));
for (Value result : results) {
- // In debug mode we also record the expected kind of the result, so that we
+ // We record the expected kind of the result, so that we
// can provide extra verification of the native rewrite function.
-#ifndef NDEBUG
writer.appendPDLValueKind(result);
-#endif
// Range results also need to append the range storage index.
if (isa<pdl::RangeType>(result.getType()))
@@ -1076,6 +1088,28 @@ void PDLByteCode::initializeMutableState(PDLByteCodeMutableState &state) const {
// ByteCode Execution
namespace {
+/// This class is an instantiation of the PDLResultList that provides access to
+/// the returned results. This API is not on `PDLResultList` to avoid
+/// overexposing access to information specific solely to the ByteCode.
+class ByteCodeRewriteResultList : public PDLResultList {
+public:
+ ByteCodeRewriteResultList(unsigned maxNumResults)
+ : PDLResultList(maxNumResults) {}
+
+ /// Return the list of PDL results.
+ MutableArrayRef<PDLValue> getResults() { return results; }
+
+ /// Return the type ranges allocated by this list.
+ MutableArrayRef<llvm::OwningArrayRef<Type>> getAllocatedTypeRanges() {
+ return allocatedTypeRanges;
+ }
+
+ /// Return the value ranges allocated by this list.
+ MutableArrayRef<llvm::OwningArrayRef<Value>> getAllocatedValueRanges() {
+ return allocatedValueRanges;
+ }
+};
+
/// This class provides support for executing a bytecode stream.
class ByteCodeExecutor {
public:
@@ -1152,6 +1186,9 @@ class ByteCodeExecutor {
void executeSwitchResultCount();
void executeSwitchType();
void executeSwitchTypes();
+ void processNativeFunResults(ByteCodeRewriteResultList &results,
+ unsigned numResults,
+ LogicalResult &rewriteResult);
/// Pushes a code iterator to the stack.
void pushCodeIt(const ByteCodeField *it) { resumeCodeIt.push_back(it); }
@@ -1225,6 +1262,8 @@ class ByteCodeExecutor {
return T::getFromOpaquePointer(pointer);
}
+ void skip(size_t skipN) { curCodeIt += skipN; }
+
/// Jump to a specific successor based on a predicate value.
void selectJump(bool isTrue) { selectJump(size_t(isTrue ? 0 : 1)); }
/// Jump to a specific successor based on a destination index.
@@ -1381,33 +1420,11 @@ class ByteCodeExecutor {
ArrayRef<PDLConstraintFunction> constraintFunctions;
ArrayRef<PDLRewriteFunction> rewriteFunctions;
};
-
-/// This class is an instantiation of the PDLResultList that provides access to
-/// the returned results. This API is not on `PDLResultList` to avoid
-/// overexposing access to information specific solely to the ByteCode.
-class ByteCodeRewriteResultList : public PDLResultList {
-public:
- ByteCodeRewriteResultList(unsigned maxNumResults)
- : PDLResultList(maxNumResults) {}
-
- /// Return the list of PDL results.
- MutableArrayRef<PDLValue> getResults() { return results; }
-
- /// Return the type ranges allocated by this list.
- MutableArrayRef<llvm::OwningArrayRef<Type>> getAllocatedTypeRanges() {
- return allocatedTypeRanges;
- }
-
- /// Return the value ranges allocated by this list.
- MutableArrayRef<llvm::OwningArrayRef<Value>> getAllocatedValueRanges() {
- return allocatedValueRanges;
- }
-};
} // namespace
void ByteCodeExecutor::executeApplyConstraint(PatternRewriter &rewriter) {
LLVM_DEBUG(llvm::dbgs() << "Executing ApplyConstraint:\n");
- const PDLConstraintFunction &constraintFn = constraintFunctions[read()];
+ ByteCodeField fun_idx = read();
SmallVector<PDLValue, 16> args;
readList<PDLValue>(args);
@@ -1422,8 +1439,29 @@ void ByteCodeExecutor::executeApplyConstraint(PatternRewriter &rewriter) {
llvm::dbgs() << " * isNegated: " << isNegated << "\n";
llvm::interleaveComma(args, llvm::dbgs());
});
- // Invoke the constraint and jump to the proper destination.
- selectJump(isNegated != succeeded(constraintFn(rewriter, args)));
+
+ ByteCodeField numResults = read();
+ const PDLRewriteFunction &constraintFn = constraintFunctions[fun_idx];
+ ByteCodeRewriteResultList results(numResults);
+ LogicalResult rewriteResult = constraintFn(rewriter, results, args);
+ ArrayRef<PDLValue> constraintResults = results.getResults();
+ LLVM_DEBUG({
+ if (succeeded(rewriteResult)) {
+ llvm::dbgs() << " * Constraint succeeded\n";
+ llvm::dbgs() << " * Results: ";
+ llvm::interleaveComma(constraintResults, llvm::dbgs());
+ llvm::dbgs() << "\n";
+ } else {
+ llvm::dbgs() << " * Constraint failed\n";
+ }
+ });
+ assert((failed(rewriteResult) || constraintResults.size() == numResults) &&
+ "native PDL rewrite function succeeded but returned "
+ "unexpected number of results");
+ processNativeFunResults(results, numResults, rewriteResult);
+
+ // Depending on the constraint jump to the proper destination.
+ selectJump(isNegated != succeeded(rewriteResult));
}
LogicalResult ByteCodeExecutor::executeApplyRewrite(PatternRewriter &rewriter) {
@@ -1445,16 +1483,39 @@ LogicalResult ByteCodeExecutor::executeApplyRewrite(PatternRewriter &rewriter) {
assert(results.getResults().size() == numResults &&
"native PDL rewrite function returned unexpected number of results");
- // Store the results in the bytecode memory.
- for (PDLValue &result : results.getResults()) {
- LLVM_DEBUG(llvm::dbgs() << " * Result: " << result << "\n");
+ processNativeFunResults(results, numResults, rewriteResult);
-// In debug mode we also verify the expected kind of the result.
-#ifndef NDEBUG
- assert(result.getKind() == read<PDLValue::Kind>() &&
- "native PDL rewrite function returned an unexpected type of result");
-#endif
+ if (failed(rewriteResult)) {
+ LLVM_DEBUG(llvm::dbgs() << " - Failed");
+ return failure();
+ }
+ return success();
+}
+void ByteCodeExecutor::processNativeFunResults(
+ ByteCodeRewriteResultList &results, unsigned numResults,
+ LogicalResult &rewriteResult) {
+ // Store the results in the bytecode memory or handle missing results on
+ // failure.
+ for (unsigned resultIdx = 0; resultIdx < numResults; resultIdx++) {
+ PDLValue::Kind resultKind = read<PDLValue::Kind>();
+
+ // Skip the according number of values on the buffer on failure and exit
+ // early as there are no results to process.
+ if (failed(rewriteResult)) {
+ if (resultKind == PDLValue::Kind::TypeRange ||
+ resultKind == PDLValue::Kind::ValueRange) {
+ skip(2);
+ } else {
+ skip(1);
+ }
+ return;
+ }
+ PDLValue result = results.getResults()[resultIdx];
+ LLVM_DEBUG(llvm::dbgs() << " * Result: " << result << "\n");
+ assert(result.getKind() == resultKind &&
+ "native PDL rewrite function returned an unexpected type of "
+ "result");
// If the result is a range, we need to copy it over to the bytecodes
// range memory.
if (std::optional<TypeRange> typeRange = result.dyn_cast<TypeRange>()) {
@@ -1476,13 +1537,6 @@ LogicalResult ByteCodeExecutor::executeApplyRewrite(PatternRewriter &rewriter) {
allocatedTypeRangeMemory.push_back(std::move(it));
for (auto &it : results.getAllocatedValueRanges())
allocatedValueRangeMemory.push_back(std::move(it));
-
- // Process the result of the rewrite.
- if (failed(rewriteResult)) {
- LLVM_DEBUG(llvm::dbgs() << " - Failed");
- return failure();
- }
- return success();
}
void ByteCodeExecutor::executeAreEqual() {
diff --git a/mlir/lib/Tools/PDLL/Parser/Parser.cpp b/mlir/lib/Tools/PDLL/Parser/Parser.cpp
index 97ff8bd0d8584d..206781ed146692 100644
--- a/mlir/lib/Tools/PDLL/Parser/Parser.cpp
+++ b/mlir/lib/Tools/PDLL/Parser/Parser.cpp
@@ -1362,12 +1362,6 @@ FailureOr<T *> Parser::parseUserNativeConstraintOrRewriteDecl(
if (failed(parseToken(Token::semicolon,
"expected `;` after native declaration")))
return failure();
- // TODO: PDL should be able to support constraint results in certain
- // situations, we should revise this.
- if (std::is_same<ast::UserConstraintDecl, T>::value && !results.empty()) {
- return emitError(
- "native Constraints currently do not support returning results");
- }
return T::createNative(ctx, name, arguments, results, optCodeStr, resultType);
}
diff --git a/mlir/test/Conversion/PDLToPDLInterp/pdl-to-pdl-interp-matcher.mlir b/mlir/test/Conversion/PDLToPDLInterp/pdl-to-pdl-interp-matcher.mlir
index 02bb8316c02db0..92afb765b5ab4e 100644
--- a/mlir/test/Conversion/PDLToPDLInterp/pdl-to-pdl-interp-matcher.mlir
+++ b/mlir/test/Conversion/PDLToPDLInterp/pdl-to-pdl-interp-matcher.mlir
@@ -79,6 +79,57 @@ module @constraints {
// -----
+// CHECK-LABEL: module @constraint_with_result
+module @constraint_with_result {
+ // CHECK: func @matcher(%[[ROOT:.*]]: !pdl.operation)
+ // CHECK: %[[ATTR:.*]] = pdl_interp.apply_constraint "check_op_and_get_attr_constr"(%[[ROOT]]
+ // CHECK: pdl_interp.record_match @rewriters::@pdl_generated_rewriter(%[[ROOT]], %[[ATTR]] : !pdl.operation, !pdl.attribute)
+ pdl.pattern : benefit(1) {
+ %root = operation
+ %attr = pdl.apply_native_constraint "check_op_and_get_attr_constr"(%root : !pdl.operation) : !pdl.attribute
+ rewrite %root with "rewriter"(%attr : !pdl.attribute)
+ }
+}
+
+// -----
+
+// CHECK-LABEL: module @constraint_with_unused_result
+module @constraint_with_unused_result {
+ // CHECK: func @matcher(%[[ROOT:.*]]: !pdl.operation)
+ // CHECK: %[[ATTR:.*]] = pdl_interp.apply_constraint "check_op_and_get_attr_constr"(%[[ROOT]]
+ // CHECK: pdl_interp.record_match @rewriters::@pdl_generated_rewriter(%[[ROOT]] : !pdl.operation)
+ pdl.pattern : benefit(1) {
+ %root = operation
+ %attr = pdl.apply_native_constraint "check_op_and_get_attr_constr"(%root : !pdl.operation) : !pdl.attribute
+ rewrite %root with "rewriter"
+ }
+}
+
+// -----
+
+// CHECK-LABEL: module @constraint_with_result_multiple
+module @constraint_with_result_multiple {
+ // check that native constraints work as expected even when multiple identical constraints are fused
+
+ // CHECK: func @matcher(%[[ROOT:.*]]: !pdl.operation)
+ // CHECK: %[[ATTR:.*]] = pdl_interp.apply_constraint "check_op_and_get_attr_constr"(%[[ROOT]]
+ // CHECK-NOT: pdl_interp.apply_constraint "check_op_and_get_attr_constr"
+ // CHECK: pdl_interp.record_match @rewriters::@pdl_generated_rewriter_0(%[[ROOT]], %[[ATTR]] : !pdl.operation, !pdl.attribute)
+ // CHECK: pdl_interp.record_match @rewriters::@pdl_generated_rewriter(%[[ROOT]], %[[ATTR]] : !pdl.operation, !pdl.attribute)
+ pdl.pattern : benefit(1) {
+ %root = operation
+ %attr = pdl.apply_native_constraint "check_op_and_get_attr_constr"(%root : !pdl.operation) : !pdl.attribute
+ rewrite %root with "rewriter"(%attr : !pdl.attribute)
+ }
+ pdl.pattern : benefit(1) {
+ %root = operation
+ %attr = pdl.apply_native_constraint "check_op_and_get_attr_constr"(%root : !pdl.operation) : !pdl.attribute
+ rewrite %root with "rewriter"(%attr : !pdl.attribute)
+ }
+}
+
+// -----
+
// CHECK-LABEL: module @negated_constraint
module @negated_constraint {
// CHECK: func @matcher(%[[ROOT:.*]]: !pdl.operation)
diff --git a/mlir/test/Conversion/PDLToPDLInterp/use-constraint-result.mlir b/mlir/test/Conversion/PDLToPDLInterp/use-constraint-result.mlir
new file mode 100644
index 00000000000000..4511baff2015a4
--- /dev/null
+++ b/mlir/test/Conversion/PDLToPDLInterp/use-constraint-result.mlir
@@ -0,0 +1,77 @@
+// RUN: mlir-opt -split-input-file -convert-pdl-to-pdl-interp %s | FileCheck %s
+
+// Ensuse that the dependency between add & less
+// causes them to be in the correct order.
+// CHECK-LABEL: matcher
+// CHECK: apply_constraint "return_attr_constraint"
+// CHECK: apply_constraint "use_attr_constraint"
+
+module {
+ pdl.pattern : benefit(1) {
+ %0 = attribute
+ %1 = types
+ %2 = operation "tosa.mul" {"shift" = %0} -> (%1 : !pdl.range<type>)
+ %3 = attribute = 0 : i32
+ %4 = attribute = 1 : i32
+ %5 = apply_native_constraint "return_attr_constraint"(%3, %4 : !pdl.attribute, !pdl.attribute) : !pdl.attribute
+ apply_native_constraint "use_attr_constraint"(%0, %5 : !pdl.attribute, !pdl.attribute)
+ rewrite %2 with "rewriter"
+ }
+}
+
+// -----
+
+// CHECK-LABEL: matcher
+// CHECK: %[[ATTR:.*]] = pdl_interp.get_attribute "attr" of
+// CHECK: %[[CONSTRAINT:.*]] = pdl_interp.apply_constraint "return_attr_constraint"
+// CHECK: pdl_interp.are_equal %[[ATTR:.*]], %[[CONSTRAINT:.*]]
+
+pdl.pattern : benefit(1) {
+ %inputOp = operation
+ %result = result 0 of %inputOp
+ %attr = pdl.apply_native_constraint "return_attr_constraint"(%inputOp : !pdl.operation) : !pdl.attribute
+ %root = operation(%result : !pdl.value) {"attr" = %attr}
+ rewrite %root with "rewriter"(%attr : !pdl.attribute)
+}
+
+// -----
+
+// CHECK-LABEL: matcher
+// CHECK: %[[CONSTRAINT:.*]] = pdl_interp.apply_constraint "return_value_constr"
+// CHECK: %[[VALUE:.*]] = pdl_interp.get_operand 0
+// CHECK: pdl_interp.are_equal %[[VALUE:.*]], %[[CONSTRAINT:.*]]
+
+pdl.pattern : benefit(1) {
+ %attr = attribute = 10
+ %value = pdl.apply_native_constraint "return_value_constr"(%attr: !pdl.attribute) : !pdl.value
+ %root = operation(%value : !pdl.value)
+ rewrite %root with "rewriter"
+}
+
+// -----
+
+// CHECK-LABEL: matcher
+// CHECK: %[[CONSTRAINT:.*]] = pdl_interp.apply_constraint "return_type_constr"
+// CHECK: %[[TYPE:.*]] = pdl_interp.get_value_type of
+// CHECK: pdl_interp.are_equal %[[TYPE:.*]], %[[CONSTRAINT:.*]]
+
+pdl.pattern : benefit(1) {
+ %attr = attribute = 10
+ %type = pdl.apply_native_constraint "return_type_constr"(%attr: !pdl.attribute) : !pdl.type
+ %root = operation -> (%type : !pdl.type)
+ rewrite %root with "rewriter"
+}
+
+// -----
+
+// CHECK-LABEL: matcher
+// CHECK: %[[CONSTRAINT:.*]] = pdl_interp.apply_constraint "return_type_range_constr"
+// CHECK: %[[TYPE:.*]] = pdl_interp.get_value_type of
+// CHECK: pdl_interp.are_equal %[[TYPE:.*]], %[[CONSTRAINT:.*]]
+
+pdl.pattern : benefit(1) {
+ %attr = attribute = 10
+ %types = pdl.apply_native_constraint "return_type_range_constr"(%attr: !pdl.attribute) : !pdl.range<type>
+ %root = operation -> (%types : !pdl.range<type>)
+ rewrite %root with "rewriter"
+}
diff --git a/mlir/test/Dialect/PDL/ops.mlir b/mlir/test/Dialect/PDL/ops.mlir
index 6e6da5cce446ae..20e40deea5f863 100644
--- a/mlir/test/Dialect/PDL/ops.mlir
+++ b/mlir/test/Dialect/PDL/ops.mlir
@@ -134,6 +134,24 @@ pdl.pattern @apply_rewrite_with_no_results : benefit(1) {
// -----
+pdl.pattern @apply_constraint_with_no_results : benefit(1) {
+ %root = operation
+ apply_native_constraint "NativeConstraint"(%root : !pdl.operation)
+ rewrite %root with "rewriter"
+}
+
+// -----
+
+pdl.pattern @apply_constraint_with_results : benefit(1) {
+ %root = operation
+ %attr = apply_native_constraint "NativeConstraint"(%root : !pdl.operation) : !pdl.attribute
+ rewrite %root {
+ apply_native_rewrite "NativeRewrite"(%attr : !pdl.attribute)
+ }
+}
+
+// -----
+
pdl.pattern @attribute_with_dict : benefit(1) {
%root = operation
rewrite %root {
diff --git a/mlir/test/Rewrite/pdl-bytecode.mlir b/mlir/test/Rewrite/pdl-bytecode.mlir
index ae61c1a079548a..f8e4f2e83b296a 100644
--- a/mlir/test/Rewrite/pdl-bytecode.mlir
+++ b/mlir/test/Rewrite/pdl-bytecode.mlir
@@ -109,6 +109,74 @@ module @ir attributes { test.apply_constraint_3 } {
// -----
+// Test returning a type from a native constraint.
+module @patterns {
+ pdl_interp.func @matcher(%root : !pdl.operation) {
+ pdl_interp.check_operation_name of %root is "test.success_op" -> ^pat, ^end
+
+ ^pat:
+ %new_type = pdl_interp.apply_constraint "op_constr_return_type"(%root : !pdl.operation) : !pdl.type -> ^pat2, ^end
+
+ ^pat2:
+ pdl_interp.record_match @rewriters::@success(%root, %new_type : !pdl.operation, !pdl.type) : benefit(1), loc([%root]) -> ^end
+
+ ^end:
+ pdl_interp.finalize
+ }
+
+ module @rewriters {
+ pdl_interp.func @success(%root : !pdl.operation, %new_type : !pdl.type) {
+ %op = pdl_interp.create_operation "test.replaced_by_pattern" -> (%new_type : !pdl.type)
+ pdl_interp.erase %root
+ pdl_interp.finalize
+ }
+ }
+}
+
+// CHECK-LABEL: test.apply_constraint_4
+// CHECK-NOT: "test.replaced_by_pattern"
+// CHECK: "test.replaced_by_pattern"() : () -> f32
+module @ir attributes { test.apply_constraint_4 } {
+ "test.failure_op"() : () -> ()
+ "test.success_op"() : () -> ()
+}
+
+// -----
+
+// Test success and failure cases of native constraints with pdl.range results.
+module @patterns {
+ pdl_interp.func @matcher(%root : !pdl.operation) {
+ pdl_interp.check_operation_name of %root is "test.success_op" -> ^pat, ^end
+
+ ^pat:
+ %num_results = pdl_interp.create_attribute 2 : i32
+ %types = pdl_interp.apply_constraint "op_constr_return_type_range"(%root, %num_results : !pdl.operation, !pdl.attribute) : !pdl.range<type> -> ^pat1, ^end
+
+ ^pat1:
+ pdl_interp.record_match @rewriters::@success(%root, %types : !pdl.operation, !pdl.range<type>) : benefit(1), loc([%root]) -> ^end
+
+ ^end:
+ pdl_interp.finalize
+ }
+
+ module @rewriters {
+ pdl_interp.func @success(%root : !pdl.operation, %types : !pdl.range<type>) {
+ %op = pdl_interp.create_operation "test.replaced_by_pattern" -> (%types : !pdl.range<type>)
+ pdl_interp.erase %root
+ pdl_interp.finalize
+ }
+ }
+}
+
+// CHECK-LABEL: test.apply_constraint_5
+// CHECK-NOT: "test.replaced_by_pattern"
+// CHECK: "test.replaced_by_pattern"() : () -> (f32, f32)
+module @ir attributes { test.apply_constraint_5 } {
+ "test.failure_op"() : () -> ()
+ "test.success_op"() : () -> ()
+}
+
+// -----
//===----------------------------------------------------------------------===//
// pdl_interp::ApplyRewriteOp
diff --git a/mlir/test/lib/Dialect/Transform/TestTransformDialectExtension.cpp b/mlir/test/lib/Dialect/Transform/TestTransformDialectExtension.cpp
index 50caf8f9cfc709..b9424e06bf0318 100644
--- a/mlir/test/lib/Dialect/Transform/TestTransformDialectExtension.cpp
+++ b/mlir/test/lib/Dialect/Transform/TestTransformDialectExtension.cpp
@@ -887,7 +887,7 @@ class TestTransformDialectExtension
#include "TestTransformDialectExtensionTypes.cpp.inc"
>();
- auto verboseConstraint = [](PatternRewriter &rewriter,
+ auto verboseConstraint = [](PatternRewriter &rewriter, PDLResultList &,
ArrayRef<PDLValue> pdlValues) {
for (const PDLValue &pdlValue : pdlValues) {
if (Operation *op = pdlValue.dyn_cast<Operation *>()) {
diff --git a/mlir/test/lib/Rewrite/TestPDLByteCode.cpp b/mlir/test/lib/Rewrite/TestPDLByteCode.cpp
index daa1c371f27c92..56af3c15b905f1 100644
--- a/mlir/test/lib/Rewrite/TestPDLByteCode.cpp
+++ b/mlir/test/lib/Rewrite/TestPDLByteCode.cpp
@@ -30,6 +30,50 @@ static LogicalResult customMultiEntityVariadicConstraint(
return success();
}
+// Custom constraint that returns a value if the op is named test.success_op
+static LogicalResult customValueResultConstraint(PatternRewriter &rewriter,
+ PDLResultList &results,
+ ArrayRef<PDLValue> args) {
+ auto *op = args[0].cast<Operation *>();
+ if (op->getName().getStringRef() == "test.success_op") {
+ StringAttr customAttr = rewriter.getStringAttr("test.success");
+ results.push_back(customAttr);
+ return success();
+ }
+ return failure();
+}
+
+// Custom constraint that returns a type if the op is named test.success_op
+static LogicalResult customTypeResultConstraint(PatternRewriter &rewriter,
+ PDLResultList &results,
+ ArrayRef<PDLValue> args) {
+ auto *op = args[0].cast<Operation *>();
+ if (op->getName().getStringRef() == "test.success_op") {
+ results.push_back(rewriter.getF32Type());
+ return success();
+ }
+ return failure();
+}
+
+// Custom constraint that returns a type range of variable length if the op is
+// named test.success_op
+static LogicalResult customTypeRangeResultConstraint(PatternRewriter &rewriter,
+ PDLResultList &results,
+ ArrayRef<PDLValue> args) {
+ auto *op = args[0].cast<Operation *>();
+ int numTypes = args[1].cast<Attribute>().cast<IntegerAttr>().getInt();
+
+ if (op->getName().getStringRef() == "test.success_op") {
+ SmallVector<Type> types;
+ for (int i = 0; i < numTypes; i++) {
+ types.push_back(rewriter.getF32Type());
+ }
+ results.push_back(TypeRange(types));
+ return success();
+ }
+ return failure();
+}
+
// Custom creator invoked from PDL.
static Operation *customCreate(PatternRewriter &rewriter, Operation *op) {
return rewriter.create(OperationState(op->getLoc(), "test.success"));
@@ -102,6 +146,12 @@ struct TestPDLByteCodePass
customMultiEntityConstraint);
pdlPattern.registerConstraintFunction("multi_entity_var_constraint",
customMultiEntityVariadicConstraint);
+ pdlPattern.registerConstraintFunction("op_constr_return_attr",
+ customValueResultConstraint);
+ pdlPattern.registerConstraintFunction("op_constr_return_type",
+ customTypeResultConstraint);
+ pdlPattern.registerConstraintFunction("op_constr_return_type_range",
+ customTypeRangeResultConstraint);
pdlPattern.registerRewriteFunction("creator", customCreate);
pdlPattern.registerRewriteFunction("var_creator",
customVariadicResultCreate);
diff --git a/mlir/test/mlir-pdll/Parser/constraint-failure.pdll b/mlir/test/mlir-pdll/Parser/constraint-failure.pdll
index 18877b4bcc50ec..48747d3fa2e681 100644
--- a/mlir/test/mlir-pdll/Parser/constraint-failure.pdll
+++ b/mlir/test/mlir-pdll/Parser/constraint-failure.pdll
@@ -158,8 +158,3 @@ Pattern {
// CHECK: expected `;` after native declaration
Constraint Foo() [{}]
-
-// -----
-
-// CHECK: native Constraints currently do not support returning results
-Constraint Foo() -> Op;
diff --git a/mlir/test/mlir-pdll/Parser/constraint.pdll b/mlir/test/mlir-pdll/Parser/constraint.pdll
index 1c0a015ab4a7b4..e2a52ff130cc84 100644
--- a/mlir/test/mlir-pdll/Parser/constraint.pdll
+++ b/mlir/test/mlir-pdll/Parser/constraint.pdll
@@ -12,6 +12,14 @@ Constraint Foo() [{ /* Native Code */ }];
// -----
+// Test that native constraints support returning results.
+
+// CHECK: Module
+// CHECK: `-UserConstraintDecl {{.*}} Name<Foo> ResultType<Attr>
+Constraint Foo() -> Attr;
+
+// -----
+
// CHECK: Module
// CHECK: `-UserConstraintDecl {{.*}} Name<Foo> ResultType<Value>
// CHECK: `Inputs`
diff --git a/mlir/test/python/dialects/pdl_ops.py b/mlir/test/python/dialects/pdl_ops.py
index 0d364f9222a657..95cb25c14873db 100644
--- a/mlir/test/python/dialects/pdl_ops.py
+++ b/mlir/test/python/dialects/pdl_ops.py
@@ -298,6 +298,6 @@ def test_apply_native_constraint():
pattern = PatternOp(1)
with InsertionPoint(pattern.body):
resultType = TypeOp()
- ApplyNativeConstraintOp("typeConstraint", args=[resultType])
+ ApplyNativeConstraintOp([], "typeConstraint", args=[resultType])
root = OperationOp(types=[resultType])
RewriteOp(root, name="rewrite")
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