[flang-commits] [flang] 701f647 - [Flang] Allow Intrinsic simpification with min/maxloc dim and scalar result. (#75820)
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Wed Dec 20 04:12:16 PST 2023
Author: David Green
Date: 2023-12-20T12:12:12Z
New Revision: 701f64790520790f75b1f948a752472d421ddaa3
URL: https://github.com/llvm/llvm-project/commit/701f64790520790f75b1f948a752472d421ddaa3
DIFF: https://github.com/llvm/llvm-project/commit/701f64790520790f75b1f948a752472d421ddaa3.diff
LOG: [Flang] Allow Intrinsic simpification with min/maxloc dim and scalar result. (#75820)
This makes an adjustment to the existing fir minloc/maxloc generation
code to handle functions with a dim=1 that produce a scalar result. This
should allow us to get the same benefits as the existing generated
minmax reductions.
Added:
Modified:
flang/lib/Optimizer/Transforms/SimplifyIntrinsics.cpp
flang/test/Transforms/simplifyintrinsics.fir
Removed:
################################################################################
diff --git a/flang/lib/Optimizer/Transforms/SimplifyIntrinsics.cpp b/flang/lib/Optimizer/Transforms/SimplifyIntrinsics.cpp
index c89ee6d5e20391..12f354a47c2bcc 100644
--- a/flang/lib/Optimizer/Transforms/SimplifyIntrinsics.cpp
+++ b/flang/lib/Optimizer/Transforms/SimplifyIntrinsics.cpp
@@ -1162,11 +1162,14 @@ void SimplifyIntrinsicsPass::simplifyMinMaxlocReduction(
mlir::Operation::operand_range args = call.getArgs();
- mlir::Value back = args[6];
+ mlir::SymbolRefAttr callee = call.getCalleeAttr();
+ mlir::StringRef funcNameBase = callee.getLeafReference().getValue();
+ bool isDim = funcNameBase.ends_with("Dim");
+ mlir::Value back = args[isDim ? 7 : 6];
if (isTrueOrNotConstant(back))
return;
- mlir::Value mask = args[5];
+ mlir::Value mask = args[isDim ? 6 : 5];
mlir::Value maskDef = findMaskDef(mask);
// maskDef is set to NULL when the defining op is not one we accept.
@@ -1175,10 +1178,8 @@ void SimplifyIntrinsicsPass::simplifyMinMaxlocReduction(
if (maskDef == NULL)
return;
- mlir::SymbolRefAttr callee = call.getCalleeAttr();
- mlir::StringRef funcNameBase = callee.getLeafReference().getValue();
unsigned rank = getDimCount(args[1]);
- if (funcNameBase.ends_with("Dim") || !(rank > 0))
+ if ((isDim && rank != 1) || !(rank > 0))
return;
fir::FirOpBuilder builder{getSimplificationBuilder(call, kindMap)};
@@ -1234,7 +1235,7 @@ void SimplifyIntrinsicsPass::simplifyMinMaxlocReduction(
mlir::func::FuncOp newFunc =
getOrCreateFunction(builder, funcName, typeGenerator, bodyGenerator);
builder.create<fir::CallOp>(loc, newFunc,
- mlir::ValueRange{args[0], args[1], args[5]});
+ mlir::ValueRange{args[0], args[1], mask});
call->dropAllReferences();
call->erase();
}
diff --git a/flang/test/Transforms/simplifyintrinsics.fir b/flang/test/Transforms/simplifyintrinsics.fir
index 0bd6ac7c436ff2..d42924a17a804d 100644
--- a/flang/test/Transforms/simplifyintrinsics.fir
+++ b/flang/test/Transforms/simplifyintrinsics.fir
@@ -2115,13 +2115,13 @@ func.func @_QPtestminloc_doesntwork1d_back(%arg0: !fir.ref<!fir.array<10xi32>> {
// CHECK-NOT: fir.call @_FortranAMinlocInteger4x1_i32_contract_simplified({{.*}}) fastmath<contract> : (!fir.ref<!fir.box<none>>, !fir.box<none>, !fir.box<none>) -> ()
// -----
-// Check Minloc is not simplified when DIM arg is set
+// Check Minloc is simplified when DIM arg is set so long as the result is scalar
-func.func @_QPtestminloc_doesntwork1d_dim(%arg0: !fir.ref<!fir.array<10xi32>> {fir.bindc_name = "a"}) -> !fir.array<1xi32> {
+func.func @_QPtestminloc_1d_dim(%arg0: !fir.ref<!fir.array<10xi32>> {fir.bindc_name = "a"}) -> !fir.array<1xi32> {
%0 = fir.alloca !fir.box<!fir.heap<i32>>
%c10 = arith.constant 10 : index
%c1 = arith.constant 1 : index
- %1 = fir.alloca !fir.array<1xi32> {bindc_name = "testminloc_doesntwork1d_dim", uniq_name = "_QFtestminloc_doesntwork1d_dimEtestminloc_doesntwork1d_dim"}
+ %1 = fir.alloca !fir.array<1xi32> {bindc_name = "testminloc_1d_dim", uniq_name = "_QFtestminloc_1d_dimEtestminloc_1d_dim"}
%2 = fir.shape %c1 : (index) -> !fir.shape<1>
%3 = fir.array_load %1(%2) : (!fir.ref<!fir.array<1xi32>>, !fir.shape<1>) -> !fir.array<1xi32>
%4 = fir.shape %c10 : (index) -> !fir.shape<1>
@@ -2156,11 +2156,65 @@ func.func @_QPtestminloc_doesntwork1d_dim(%arg0: !fir.ref<!fir.array<10xi32>> {f
%21 = fir.load %1 : !fir.ref<!fir.array<1xi32>>
return %21 : !fir.array<1xi32>
}
-// CHECK-LABEL: func.func @_QPtestminloc_doesntwork1d_dim(
+// CHECK-LABEL: func.func @_QPtestminloc_1d_dim(
// CHECK-SAME: %[[ARR:.*]]: !fir.ref<!fir.array<10xi32>> {fir.bindc_name = "a"}) -> !fir.array<1xi32> {
-// CHECK-NOT: fir.call @_FortranAMinlocDimx1_i32_contract_simplified({{.*}}) fastmath<contract> : (!fir.ref<!fir.box<none>>, !fir.box<none>, !fir.box<none>) -> ()
-// CHECK: fir.call @_FortranAMinlocDim({{.*}}) fastmath<contract> : (!fir.ref<!fir.box<none>>, !fir.box<none>, i32, i32, !fir.ref<i8>, i32, !fir.box<none>, i1) -> none
-// CHECK-NOT: fir.call @_FortranAMinlocDimx1_i32_contract_simplified({{.*}}) fastmath<contract> : (!fir.ref<!fir.box<none>>, !fir.box<none>, !fir.box<none>) -> ()
+// CHECK: fir.call @_FortranAMinlocDimx1_i32_contract_simplified({{.*}}) fastmath<contract> : (!fir.ref<!fir.box<none>>, !fir.box<none>, !fir.box<none>) -> ()
+
+// CHECK-LABEL: func.func private @_FortranAMinlocDimx1_i32_contract_simplified(%arg0: !fir.ref<!fir.box<none>>, %arg1: !fir.box<none>, %arg2: !fir.box<none>) attributes {llvm.linkage = #llvm.linkage<linkonce_odr>} {
+// CHECK-NEXT: %[[V0:.*]] = fir.alloca i32
+// CHECK-NEXT: %c0_i32 = arith.constant 0 : i32
+// CHECK-NEXT: %c1 = arith.constant 1 : index
+// CHECK-NEXT: %[[V1:.*]] = fir.allocmem !fir.array<1xi32>
+// CHECK-NEXT: %[[V2:.*]] = fir.shape %c1 : (index) -> !fir.shape<1>
+// CHECK-NEXT: %[[V3:.*]] = fir.embox %[[V1]](%[[V2]]) : (!fir.heap<!fir.array<1xi32>>, !fir.shape<1>) -> !fir.box<!fir.heap<!fir.array<1xi32>>>
+// CHECK-NEXT: %c0 = arith.constant 0 : index
+// CHECK-NEXT: %[[V4:.*]] = fir.coordinate_of %[[V3]], %c0 : (!fir.box<!fir.heap<!fir.array<1xi32>>>, index) -> !fir.ref<i32>
+// CHECK-NEXT: fir.store %c0_i32 to %[[V4]] : !fir.ref<i32>
+// CHECK-NEXT: %c0_0 = arith.constant 0 : index
+// CHECK-NEXT: %[[V5:.*]] = fir.convert %arg1 : (!fir.box<none>) -> !fir.box<!fir.array<?xi32>>
+// CHECK-NEXT: %c1_i32 = arith.constant 1 : i32
+// CHECK-NEXT: %c0_i32_1 = arith.constant 0 : i32
+// CHECK-NEXT: fir.store %c0_i32_1 to %[[V0]] : !fir.ref<i32>
+// CHECK-NEXT: %c2147483647_i32 = arith.constant 2147483647 : i32
+// CHECK-NEXT: %c1_2 = arith.constant 1 : index
+// CHECK-NEXT: %c0_3 = arith.constant 0 : index
+// CHECK-NEXT: %[[V6:.*]]:3 = fir.box_dims %[[V5]], %c0_3 : (!fir.box<!fir.array<?xi32>>, index) -> (index, index, index)
+// CHECK-NEXT: %[[V7:.*]] = arith.subi %[[V6]]#1, %c1_2 : index
+// CHECK-NEXT: %[[V8:.*]] = fir.do_loop %arg3 = %c0_0 to %[[V7]] step %c1_2 iter_args(%arg4 = %c2147483647_i32) -> (i32) {
+// CHECK-NEXT: fir.store %c1_i32 to %[[V0]] : !fir.ref<i32>
+// CHECK-NEXT: %[[V12:.*]] = fir.coordinate_of %[[V5]], %arg3 : (!fir.box<!fir.array<?xi32>>, index) -> !fir.ref<i32>
+// CHECK-NEXT: %[[V13:.*]] = fir.load %[[V12]] : !fir.ref<i32>
+// CHECK-NEXT: %[[V14:.*]] = arith.cmpi slt, %[[V13]], %arg4 : i32
+// CHECK-NEXT: %[[V15:.*]] = fir.if %[[V14]] -> (i32) {
+// CHECK-NEXT: %c1_i32_4 = arith.constant 1 : i32
+// CHECK-NEXT: %c0_5 = arith.constant 0 : index
+// CHECK-NEXT: %[[V16:.*]] = fir.coordinate_of %[[V3]], %c0_5 : (!fir.box<!fir.heap<!fir.array<1xi32>>>, index) -> !fir.ref<i32>
+// CHECK-NEXT: %[[V17:.*]] = fir.convert %arg3 : (index) -> i32
+// CHECK-NEXT: %[[V18:.*]] = arith.addi %[[V17]], %c1_i32_4 : i32
+// CHECK-NEXT: fir.store %[[V18]] to %[[V16]] : !fir.ref<i32>
+// CHECK-NEXT: fir.result %[[V13]] : i32
+// CHECK-NEXT: } else {
+// CHECK-NEXT: fir.result %arg4 : i32
+// CHECK-NEXT: }
+// CHECK-NEXT: fir.result %[[V15]] : i32
+// CHECK-NEXT: }
+// CHECK-NEXT: %[[V9:.*]] = fir.load %[[V0]] : !fir.ref<i32>
+// CHECK-NEXT: %[[V10:.*]] = arith.cmpi eq, %[[V9]], %c1_i32 : i32
+// CHECK-NEXT: fir.if %[[V10]] {
+// CHECK-NEXT: %c2147483647_i32_4 = arith.constant 2147483647 : i32
+// CHECK-NEXT: %[[V12]] = arith.cmpi eq, %c2147483647_i32_4, %[[V8]] : i32
+// CHECK-NEXT: fir.if %[[V12]] {
+// CHECK-NEXT: %c0_5 = arith.constant 0 : index
+// CHECK-NEXT: %[[V13]] = fir.coordinate_of %[[V3]], %c0_5 : (!fir.box<!fir.heap<!fir.array<1xi32>>>, index) -> !fir.ref<i32>
+// CHECK-NEXT: fir.store %c1_i32 to %[[V13]] : !fir.ref<i32>
+// CHECK-NEXT: }
+// CHECK-NEXT: }
+// CHECK-NEXT: %[[V11:.*]] = fir.convert %arg0 : (!fir.ref<!fir.box<none>>) -> !fir.ref<!fir.box<!fir.heap<!fir.array<1xi32>>>>
+// CHECK-NEXT: fir.store %[[V3]] to %[[V11]] : !fir.ref<!fir.box<!fir.heap<!fir.array<1xi32>>>>
+// CHECK-NEXT: return
+// CHECK-NEXT: }
+
+
// -----
// Check Minloc is not simplified when dimension of inputArr is unknown
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