[flang-commits] [flang] 815a846 - [Flang] Move genMinMaxlocReductionLoop to Transforms/Utils.cpp (#81380)
via flang-commits
flang-commits at lists.llvm.org
Tue Feb 13 00:31:10 PST 2024
Author: David Green
Date: 2024-02-13T08:31:07Z
New Revision: 815a84655262ac569db11357fef1651f3571e7ee
URL: https://github.com/llvm/llvm-project/commit/815a84655262ac569db11357fef1651f3571e7ee
DIFF: https://github.com/llvm/llvm-project/commit/815a84655262ac569db11357fef1651f3571e7ee.diff
LOG: [Flang] Move genMinMaxlocReductionLoop to Transforms/Utils.cpp (#81380)
This is one option for attempting to move genMinMaxlocReductionLoop to a
better location. It moves it into Transforms and makes HLFIRTranforms
depend upon FIRTransforms.
It passes a build locally, both with and without -DBUILD_SHARED_LIBS,
and does OK on the windows CI.
Added:
flang/include/flang/Optimizer/Transforms/Utils.h
Modified:
flang/include/flang/Optimizer/Support/Utils.h
flang/lib/Optimizer/Dialect/CMakeLists.txt
flang/lib/Optimizer/HLFIR/Transforms/CMakeLists.txt
flang/lib/Optimizer/HLFIR/Transforms/OptimizedBufferization.cpp
flang/lib/Optimizer/Transforms/SimplifyIntrinsics.cpp
Removed:
################################################################################
diff --git a/flang/include/flang/Optimizer/Support/Utils.h b/flang/include/flang/Optimizer/Support/Utils.h
index 4e06bf8bafdc83..7a8a34c25ce95c 100644
--- a/flang/include/flang/Optimizer/Support/Utils.h
+++ b/flang/include/flang/Optimizer/Support/Utils.h
@@ -18,7 +18,6 @@
#include "flang/Optimizer/Builder/Todo.h"
#include "flang/Optimizer/Dialect/FIROps.h"
#include "flang/Optimizer/Dialect/FIRType.h"
-#include "flang/Optimizer/HLFIR/HLFIRDialect.h"
#include "flang/Optimizer/Support/FatalError.h"
#include "mlir/Dialect/Arith/IR/Arith.h"
#include "mlir/Dialect/Func/IR/FuncOps.h"
@@ -135,144 +134,6 @@ inline void intrinsicTypeTODO(fir::FirOpBuilder &builder, mlir::Type type,
" in " + intrinsicName);
}
-using MinlocBodyOpGeneratorTy = llvm::function_ref<mlir::Value(
- fir::FirOpBuilder &, mlir::Location, const mlir::Type &, mlir::Value,
- mlir::Value, mlir::Value, const llvm::SmallVectorImpl<mlir::Value> &)>;
-using InitValGeneratorTy = llvm::function_ref<mlir::Value(
- fir::FirOpBuilder &, mlir::Location, const mlir::Type &)>;
-using AddrGeneratorTy = llvm::function_ref<mlir::Value(
- fir::FirOpBuilder &, mlir::Location, const mlir::Type &, mlir::Value,
- mlir::Value)>;
-
-// Produces a loop nest for a Minloc intrinsic.
-inline void genMinMaxlocReductionLoop(
- fir::FirOpBuilder &builder, mlir::Value array,
- fir::InitValGeneratorTy initVal, fir::MinlocBodyOpGeneratorTy genBody,
- fir::AddrGeneratorTy getAddrFn, unsigned rank, mlir::Type elementType,
- mlir::Location loc, mlir::Type maskElemType, mlir::Value resultArr,
- bool maskMayBeLogicalScalar) {
- mlir::IndexType idxTy = builder.getIndexType();
-
- mlir::Value zeroIdx = builder.createIntegerConstant(loc, idxTy, 0);
-
- fir::SequenceType::Shape flatShape(rank,
- fir::SequenceType::getUnknownExtent());
- mlir::Type arrTy = fir::SequenceType::get(flatShape, elementType);
- mlir::Type boxArrTy = fir::BoxType::get(arrTy);
- array = builder.create<fir::ConvertOp>(loc, boxArrTy, array);
-
- mlir::Type resultElemType = hlfir::getFortranElementType(resultArr.getType());
- mlir::Value flagSet = builder.createIntegerConstant(loc, resultElemType, 1);
- mlir::Value zero = builder.createIntegerConstant(loc, resultElemType, 0);
- mlir::Value flagRef = builder.createTemporary(loc, resultElemType);
- builder.create<fir::StoreOp>(loc, zero, flagRef);
-
- mlir::Value init = initVal(builder, loc, elementType);
- llvm::SmallVector<mlir::Value, Fortran::common::maxRank> bounds;
-
- assert(rank > 0 && "rank cannot be zero");
- mlir::Value one = builder.createIntegerConstant(loc, idxTy, 1);
-
- // Compute all the upper bounds before the loop nest.
- // It is not strictly necessary for performance, since the loop nest
- // does not have any store operations and any LICM optimization
- // should be able to optimize the redundancy.
- for (unsigned i = 0; i < rank; ++i) {
- mlir::Value dimIdx = builder.createIntegerConstant(loc, idxTy, i);
- auto dims =
- builder.create<fir::BoxDimsOp>(loc, idxTy, idxTy, idxTy, array, dimIdx);
- mlir::Value len = dims.getResult(1);
- // We use C indexing here, so len-1 as loopcount
- mlir::Value loopCount = builder.create<mlir::arith::SubIOp>(loc, len, one);
- bounds.push_back(loopCount);
- }
- // Create a loop nest consisting of OP operations.
- // Collect the loops' induction variables into indices array,
- // which will be used in the innermost loop to load the input
- // array's element.
- // The loops are generated such that the innermost loop processes
- // the 0 dimension.
- llvm::SmallVector<mlir::Value, Fortran::common::maxRank> indices;
- for (unsigned i = rank; 0 < i; --i) {
- mlir::Value step = one;
- mlir::Value loopCount = bounds[i - 1];
- auto loop =
- builder.create<fir::DoLoopOp>(loc, zeroIdx, loopCount, step, false,
- /*finalCountValue=*/false, init);
- init = loop.getRegionIterArgs()[0];
- indices.push_back(loop.getInductionVar());
- // Set insertion point to the loop body so that the next loop
- // is inserted inside the current one.
- builder.setInsertionPointToStart(loop.getBody());
- }
-
- // Reverse the indices such that they are ordered as:
- // <dim-0-idx, dim-1-idx, ...>
- std::reverse(indices.begin(), indices.end());
- mlir::Value reductionVal =
- genBody(builder, loc, elementType, array, flagRef, init, indices);
-
- // Unwind the loop nest and insert ResultOp on each level
- // to return the updated value of the reduction to the enclosing
- // loops.
- for (unsigned i = 0; i < rank; ++i) {
- auto result = builder.create<fir::ResultOp>(loc, reductionVal);
- // Proceed to the outer loop.
- auto loop = mlir::cast<fir::DoLoopOp>(result->getParentOp());
- reductionVal = loop.getResult(0);
- // Set insertion point after the loop operation that we have
- // just processed.
- builder.setInsertionPointAfter(loop.getOperation());
- }
- // End of loop nest. The insertion point is after the outermost loop.
- if (maskMayBeLogicalScalar) {
- if (fir::IfOp ifOp =
- mlir::dyn_cast<fir::IfOp>(builder.getBlock()->getParentOp())) {
- builder.create<fir::ResultOp>(loc, reductionVal);
- builder.setInsertionPointAfter(ifOp);
- // Redefine flagSet to escape scope of ifOp
- flagSet = builder.createIntegerConstant(loc, resultElemType, 1);
- reductionVal = ifOp.getResult(0);
- }
- }
-
- // Check for case where array was full of max values.
- // flag will be 0 if mask was never true, 1 if mask was true as some point,
- // this is needed to avoid catching cases where we didn't access any elements
- // e.g. mask=.FALSE.
- mlir::Value flagValue =
- builder.create<fir::LoadOp>(loc, resultElemType, flagRef);
- mlir::Value flagCmp = builder.create<mlir::arith::CmpIOp>(
- loc, mlir::arith::CmpIPredicate::eq, flagValue, flagSet);
- fir::IfOp ifMaskTrueOp =
- builder.create<fir::IfOp>(loc, flagCmp, /*withElseRegion=*/false);
- builder.setInsertionPointToStart(&ifMaskTrueOp.getThenRegion().front());
-
- mlir::Value testInit = initVal(builder, loc, elementType);
- fir::IfOp ifMinSetOp;
- if (elementType.isa<mlir::FloatType>()) {
- mlir::Value cmp = builder.create<mlir::arith::CmpFOp>(
- loc, mlir::arith::CmpFPredicate::OEQ, testInit, reductionVal);
- ifMinSetOp = builder.create<fir::IfOp>(loc, cmp,
- /*withElseRegion*/ false);
- } else {
- mlir::Value cmp = builder.create<mlir::arith::CmpIOp>(
- loc, mlir::arith::CmpIPredicate::eq, testInit, reductionVal);
- ifMinSetOp = builder.create<fir::IfOp>(loc, cmp,
- /*withElseRegion*/ false);
- }
- builder.setInsertionPointToStart(&ifMinSetOp.getThenRegion().front());
-
- // Load output array with 1s instead of 0s
- for (unsigned int i = 0; i < rank; ++i) {
- mlir::Value index = builder.createIntegerConstant(loc, idxTy, i);
- mlir::Value resultElemAddr =
- getAddrFn(builder, loc, resultElemType, resultArr, index);
- builder.create<fir::StoreOp>(loc, flagSet, resultElemAddr);
- }
- builder.setInsertionPointAfter(ifMaskTrueOp);
-}
-
inline fir::CUDADataAttributeAttr
getCUDADataAttribute(mlir::MLIRContext *mlirContext,
std::optional<Fortran::common::CUDADataAttr> cudaAttr) {
diff --git a/flang/include/flang/Optimizer/Transforms/Utils.h b/flang/include/flang/Optimizer/Transforms/Utils.h
new file mode 100644
index 00000000000000..49a616fb40fd5e
--- /dev/null
+++ b/flang/include/flang/Optimizer/Transforms/Utils.h
@@ -0,0 +1,38 @@
+//===-- Optimizer/Transforms/Utils.h ----------------------------*- C++ -*-===//
+//
+// 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
+//
+//===----------------------------------------------------------------------===//
+//
+// Coding style: https://mlir.llvm.org/getting_started/DeveloperGuide/
+//
+//===----------------------------------------------------------------------===//
+
+#ifndef FORTRAN_OPTIMIZER_TRANSFORMS_UTILS_H
+#define FORTRAN_OPTIMIZER_TRANSFORMS_UTILS_H
+
+namespace fir {
+
+using MinlocBodyOpGeneratorTy = llvm::function_ref<mlir::Value(
+ fir::FirOpBuilder &, mlir::Location, const mlir::Type &, mlir::Value,
+ mlir::Value, mlir::Value, const llvm::SmallVectorImpl<mlir::Value> &)>;
+using InitValGeneratorTy = llvm::function_ref<mlir::Value(
+ fir::FirOpBuilder &, mlir::Location, const mlir::Type &)>;
+using AddrGeneratorTy = llvm::function_ref<mlir::Value(
+ fir::FirOpBuilder &, mlir::Location, const mlir::Type &, mlir::Value,
+ mlir::Value)>;
+
+// Produces a loop nest for a Minloc intrinsic.
+void genMinMaxlocReductionLoop(fir::FirOpBuilder &builder, mlir::Value array,
+ fir::InitValGeneratorTy initVal,
+ fir::MinlocBodyOpGeneratorTy genBody,
+ fir::AddrGeneratorTy getAddrFn, unsigned rank,
+ mlir::Type elementType, mlir::Location loc,
+ mlir::Type maskElemType, mlir::Value resultArr,
+ bool maskMayBeLogicalScalar);
+
+} // namespace fir
+
+#endif // FORTRAN_OPTIMIZER_TRANSFORMS_UTILS_H
diff --git a/flang/lib/Optimizer/Dialect/CMakeLists.txt b/flang/lib/Optimizer/Dialect/CMakeLists.txt
index 58a4276224b34c..745439b7e1e5e8 100644
--- a/flang/lib/Optimizer/Dialect/CMakeLists.txt
+++ b/flang/lib/Optimizer/Dialect/CMakeLists.txt
@@ -13,7 +13,6 @@ add_flang_library(FIRDialect
CanonicalizationPatternsIncGen
MLIRIR
FIROpsIncGen
- HLFIROpsIncGen
intrinsics_gen
LINK_LIBS
diff --git a/flang/lib/Optimizer/HLFIR/Transforms/CMakeLists.txt b/flang/lib/Optimizer/HLFIR/Transforms/CMakeLists.txt
index 603b328a6823fe..ad569ce3b41f17 100644
--- a/flang/lib/Optimizer/HLFIR/Transforms/CMakeLists.txt
+++ b/flang/lib/Optimizer/HLFIR/Transforms/CMakeLists.txt
@@ -21,6 +21,7 @@ add_flang_library(HLFIRTransforms
FIRBuilder
FIRDialectSupport
FIRSupport
+ FIRTransforms
HLFIRDialect
MLIRIR
${dialect_libs}
diff --git a/flang/lib/Optimizer/HLFIR/Transforms/OptimizedBufferization.cpp b/flang/lib/Optimizer/HLFIR/Transforms/OptimizedBufferization.cpp
index 523671f0605f77..c2512c7df32f46 100644
--- a/flang/lib/Optimizer/HLFIR/Transforms/OptimizedBufferization.cpp
+++ b/flang/lib/Optimizer/HLFIR/Transforms/OptimizedBufferization.cpp
@@ -20,7 +20,7 @@
#include "flang/Optimizer/HLFIR/HLFIRDialect.h"
#include "flang/Optimizer/HLFIR/HLFIROps.h"
#include "flang/Optimizer/HLFIR/Passes.h"
-#include "flang/Optimizer/Support/Utils.h"
+#include "flang/Optimizer/Transforms/Utils.h"
#include "mlir/Dialect/Func/IR/FuncOps.h"
#include "mlir/IR/Dominance.h"
#include "mlir/IR/PatternMatch.h"
diff --git a/flang/lib/Optimizer/Transforms/SimplifyIntrinsics.cpp b/flang/lib/Optimizer/Transforms/SimplifyIntrinsics.cpp
index b415463075d68f..86343e23c6e5db 100644
--- a/flang/lib/Optimizer/Transforms/SimplifyIntrinsics.cpp
+++ b/flang/lib/Optimizer/Transforms/SimplifyIntrinsics.cpp
@@ -31,8 +31,8 @@
#include "flang/Optimizer/Dialect/FIRType.h"
#include "flang/Optimizer/Dialect/Support/FIRContext.h"
#include "flang/Optimizer/HLFIR/HLFIRDialect.h"
-#include "flang/Optimizer/Support/Utils.h"
#include "flang/Optimizer/Transforms/Passes.h"
+#include "flang/Optimizer/Transforms/Utils.h"
#include "flang/Runtime/entry-names.h"
#include "mlir/Dialect/LLVMIR/LLVMDialect.h"
#include "mlir/IR/Matchers.h"
@@ -558,6 +558,135 @@ static mlir::FunctionType genRuntimeMinlocType(fir::FirOpBuilder &builder,
{boxRefType, boxType, boxType}, {});
}
+// Produces a loop nest for a Minloc intrinsic.
+void fir::genMinMaxlocReductionLoop(
+ fir::FirOpBuilder &builder, mlir::Value array,
+ fir::InitValGeneratorTy initVal, fir::MinlocBodyOpGeneratorTy genBody,
+ fir::AddrGeneratorTy getAddrFn, unsigned rank, mlir::Type elementType,
+ mlir::Location loc, mlir::Type maskElemType, mlir::Value resultArr,
+ bool maskMayBeLogicalScalar) {
+ mlir::IndexType idxTy = builder.getIndexType();
+
+ mlir::Value zeroIdx = builder.createIntegerConstant(loc, idxTy, 0);
+
+ fir::SequenceType::Shape flatShape(rank,
+ fir::SequenceType::getUnknownExtent());
+ mlir::Type arrTy = fir::SequenceType::get(flatShape, elementType);
+ mlir::Type boxArrTy = fir::BoxType::get(arrTy);
+ array = builder.create<fir::ConvertOp>(loc, boxArrTy, array);
+
+ mlir::Type resultElemType = hlfir::getFortranElementType(resultArr.getType());
+ mlir::Value flagSet = builder.createIntegerConstant(loc, resultElemType, 1);
+ mlir::Value zero = builder.createIntegerConstant(loc, resultElemType, 0);
+ mlir::Value flagRef = builder.createTemporary(loc, resultElemType);
+ builder.create<fir::StoreOp>(loc, zero, flagRef);
+
+ mlir::Value init = initVal(builder, loc, elementType);
+ llvm::SmallVector<mlir::Value, Fortran::common::maxRank> bounds;
+
+ assert(rank > 0 && "rank cannot be zero");
+ mlir::Value one = builder.createIntegerConstant(loc, idxTy, 1);
+
+ // Compute all the upper bounds before the loop nest.
+ // It is not strictly necessary for performance, since the loop nest
+ // does not have any store operations and any LICM optimization
+ // should be able to optimize the redundancy.
+ for (unsigned i = 0; i < rank; ++i) {
+ mlir::Value dimIdx = builder.createIntegerConstant(loc, idxTy, i);
+ auto dims =
+ builder.create<fir::BoxDimsOp>(loc, idxTy, idxTy, idxTy, array, dimIdx);
+ mlir::Value len = dims.getResult(1);
+ // We use C indexing here, so len-1 as loopcount
+ mlir::Value loopCount = builder.create<mlir::arith::SubIOp>(loc, len, one);
+ bounds.push_back(loopCount);
+ }
+ // Create a loop nest consisting of OP operations.
+ // Collect the loops' induction variables into indices array,
+ // which will be used in the innermost loop to load the input
+ // array's element.
+ // The loops are generated such that the innermost loop processes
+ // the 0 dimension.
+ llvm::SmallVector<mlir::Value, Fortran::common::maxRank> indices;
+ for (unsigned i = rank; 0 < i; --i) {
+ mlir::Value step = one;
+ mlir::Value loopCount = bounds[i - 1];
+ auto loop =
+ builder.create<fir::DoLoopOp>(loc, zeroIdx, loopCount, step, false,
+ /*finalCountValue=*/false, init);
+ init = loop.getRegionIterArgs()[0];
+ indices.push_back(loop.getInductionVar());
+ // Set insertion point to the loop body so that the next loop
+ // is inserted inside the current one.
+ builder.setInsertionPointToStart(loop.getBody());
+ }
+
+ // Reverse the indices such that they are ordered as:
+ // <dim-0-idx, dim-1-idx, ...>
+ std::reverse(indices.begin(), indices.end());
+ mlir::Value reductionVal =
+ genBody(builder, loc, elementType, array, flagRef, init, indices);
+
+ // Unwind the loop nest and insert ResultOp on each level
+ // to return the updated value of the reduction to the enclosing
+ // loops.
+ for (unsigned i = 0; i < rank; ++i) {
+ auto result = builder.create<fir::ResultOp>(loc, reductionVal);
+ // Proceed to the outer loop.
+ auto loop = mlir::cast<fir::DoLoopOp>(result->getParentOp());
+ reductionVal = loop.getResult(0);
+ // Set insertion point after the loop operation that we have
+ // just processed.
+ builder.setInsertionPointAfter(loop.getOperation());
+ }
+ // End of loop nest. The insertion point is after the outermost loop.
+ if (maskMayBeLogicalScalar) {
+ if (fir::IfOp ifOp =
+ mlir::dyn_cast<fir::IfOp>(builder.getBlock()->getParentOp())) {
+ builder.create<fir::ResultOp>(loc, reductionVal);
+ builder.setInsertionPointAfter(ifOp);
+ // Redefine flagSet to escape scope of ifOp
+ flagSet = builder.createIntegerConstant(loc, resultElemType, 1);
+ reductionVal = ifOp.getResult(0);
+ }
+ }
+
+ // Check for case where array was full of max values.
+ // flag will be 0 if mask was never true, 1 if mask was true as some point,
+ // this is needed to avoid catching cases where we didn't access any elements
+ // e.g. mask=.FALSE.
+ mlir::Value flagValue =
+ builder.create<fir::LoadOp>(loc, resultElemType, flagRef);
+ mlir::Value flagCmp = builder.create<mlir::arith::CmpIOp>(
+ loc, mlir::arith::CmpIPredicate::eq, flagValue, flagSet);
+ fir::IfOp ifMaskTrueOp =
+ builder.create<fir::IfOp>(loc, flagCmp, /*withElseRegion=*/false);
+ builder.setInsertionPointToStart(&ifMaskTrueOp.getThenRegion().front());
+
+ mlir::Value testInit = initVal(builder, loc, elementType);
+ fir::IfOp ifMinSetOp;
+ if (elementType.isa<mlir::FloatType>()) {
+ mlir::Value cmp = builder.create<mlir::arith::CmpFOp>(
+ loc, mlir::arith::CmpFPredicate::OEQ, testInit, reductionVal);
+ ifMinSetOp = builder.create<fir::IfOp>(loc, cmp,
+ /*withElseRegion*/ false);
+ } else {
+ mlir::Value cmp = builder.create<mlir::arith::CmpIOp>(
+ loc, mlir::arith::CmpIPredicate::eq, testInit, reductionVal);
+ ifMinSetOp = builder.create<fir::IfOp>(loc, cmp,
+ /*withElseRegion*/ false);
+ }
+ builder.setInsertionPointToStart(&ifMinSetOp.getThenRegion().front());
+
+ // Load output array with 1s instead of 0s
+ for (unsigned int i = 0; i < rank; ++i) {
+ mlir::Value index = builder.createIntegerConstant(loc, idxTy, i);
+ mlir::Value resultElemAddr =
+ getAddrFn(builder, loc, resultElemType, resultArr, index);
+ builder.create<fir::StoreOp>(loc, flagSet, resultElemAddr);
+ }
+ builder.setInsertionPointAfter(ifMaskTrueOp);
+}
+
static void genRuntimeMinMaxlocBody(fir::FirOpBuilder &builder,
mlir::func::FuncOp &funcOp, bool isMax,
unsigned rank, int maskRank,
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