// RUN: mlir-opt -allow-unregistered-dialect %s -split-input-file -test-constant-fold | FileCheck %s // ----- // CHECK-LABEL: @affine_for // CHECK-SAME: [[ARG:%[a-zA-Z0-9]+]] func.func @affine_for(%p : memref) { // CHECK: [[C:%.+]] = arith.constant 6.{{0*}}e+00 : f32 affine.for %arg1 = 0 to 128 { affine.for %arg2 = 0 to 8 { // CHECK: affine.for %{{.*}} = 0 to 8 { %0 = arith.constant 4.5 : f32 %1 = arith.constant 1.5 : f32 %2 = arith.addf %0, %1 : f32 // CHECK-NEXT: memref.store [[C]], [[ARG]][] memref.store %2, %p[] : memref } } return } // ----- // CHECK-LABEL: func @simple_addf func.func @simple_addf() -> f32 { %0 = arith.constant 4.5 : f32 %1 = arith.constant 1.5 : f32 // CHECK-NEXT: [[C:%.+]] = arith.constant 6.{{0*}}e+00 : f32 %2 = arith.addf %0, %1 : f32 // CHECK-NEXT: return [[C]] return %2 : f32 } // ----- // CHECK-LABEL: func @addf_splat_tensor func.func @addf_splat_tensor() -> tensor<4xf32> { %0 = arith.constant dense<4.5> : tensor<4xf32> %1 = arith.constant dense<1.5> : tensor<4xf32> // CHECK-NEXT: [[C:%.+]] = arith.constant dense<6.{{0*}}e+00> : tensor<4xf32> %2 = arith.addf %0, %1 : tensor<4xf32> // CHECK-NEXT: return [[C]] return %2 : tensor<4xf32> } // ----- // CHECK-LABEL: func @addf_dense_tensor func.func @addf_dense_tensor() -> tensor<4xf32> { %0 = arith.constant dense<[1.5, 2.5, 3.5, 4.5]> : tensor<4xf32> %1 = arith.constant dense<[1.5, 2.5, 3.5, 4.5]> : tensor<4xf32> // CHECK-NEXT: [[C:%.+]] = arith.constant dense<[3.{{0*}}e+00, 5.{{0*}}e+00, 7.{{0*}}e+00, 9.{{0*}}e+00]> : tensor<4xf32> %2 = arith.addf %0, %1 : tensor<4xf32> // CHECK-NEXT: return [[C]] return %2 : tensor<4xf32> } // ----- // CHECK-LABEL: func @addf_dense_and_splat_tensors func.func @addf_dense_and_splat_tensors() -> tensor<4xf32> { %0 = arith.constant dense<[1.5, 2.5, 3.5, 4.5]> : tensor<4xf32> %1 = arith.constant dense<1.5> : tensor<4xf32> // CHECK-NEXT: [[C:%.+]] = arith.constant dense<[3.{{0*}}e+00, 4.{{0*}}e+00, 5.{{0*}}e+00, 6.{{0*}}e+00]> : tensor<4xf32> %2 = arith.addf %0, %1 : tensor<4xf32> // CHECK-NEXT: return [[C]] return %2 : tensor<4xf32> } // ----- // CHECK-LABEL: func @simple_addi func.func @simple_addi() -> i32 { %0 = arith.constant 1 : i32 %1 = arith.constant 5 : i32 // CHECK-NEXT: [[C:%.+]] = arith.constant 6 : i32 %2 = arith.addi %0, %1 : i32 // CHECK-NEXT: return [[C]] return %2 : i32 } // ----- // CHECK: func @simple_and // CHECK-SAME: [[ARG0:%[a-zA-Z0-9]+]]: i1 // CHECK-SAME: [[ARG1:%[a-zA-Z0-9]+]]: i32) func.func @simple_and(%arg0 : i1, %arg1 : i32) -> (i1, i32) { %c1 = arith.constant 1 : i1 %cAllOnes_32 = arith.constant 4294967295 : i32 // CHECK: [[C31:%.*]] = arith.constant 31 : i32 %c31 = arith.constant 31 : i32 %1 = arith.andi %arg0, %c1 : i1 %2 = arith.andi %arg1, %cAllOnes_32 : i32 // CHECK: [[VAL:%.*]] = arith.andi [[ARG1]], [[C31]] %3 = arith.andi %2, %c31 : i32 // CHECK: return [[ARG0]], [[VAL]] return %1, %3 : i1, i32 } // ----- // CHECK-LABEL: func @and_index // CHECK-SAME: [[ARG:%[a-zA-Z0-9]+]] func.func @and_index(%arg0 : index) -> (index) { // CHECK: [[C31:%.*]] = arith.constant 31 : index %c31 = arith.constant 31 : index %c_AllOnes = arith.constant -1 : index %1 = arith.andi %arg0, %c31 : index // CHECK: arith.andi [[ARG]], [[C31]] %2 = arith.andi %1, %c_AllOnes : index return %2 : index } // ----- // CHECK: func @tensor_and // CHECK-SAME: [[ARG0:%[a-zA-Z0-9]+]]: tensor<2xi32> func.func @tensor_and(%arg0 : tensor<2xi32>) -> tensor<2xi32> { %cAllOnes_32 = arith.constant dense<4294967295> : tensor<2xi32> // CHECK: [[C31:%.*]] = arith.constant dense<31> : tensor<2xi32> %c31 = arith.constant dense<31> : tensor<2xi32> // CHECK: [[CMIXED:%.*]] = arith.constant dense<[31, -1]> : tensor<2xi32> %c_mixed = arith.constant dense<[31, 4294967295]> : tensor<2xi32> %0 = arith.andi %arg0, %cAllOnes_32 : tensor<2xi32> // CHECK: [[T1:%.*]] = arith.andi [[ARG0]], [[C31]] %1 = arith.andi %0, %c31 : tensor<2xi32> // CHECK: [[T2:%.*]] = arith.andi [[T1]], [[CMIXED]] %2 = arith.andi %1, %c_mixed : tensor<2xi32> // CHECK: return [[T2]] return %2 : tensor<2xi32> } // ----- // CHECK: func @vector_and // CHECK-SAME: [[ARG0:%[a-zA-Z0-9]+]]: vector<2xi32> func.func @vector_and(%arg0 : vector<2xi32>) -> vector<2xi32> { %cAllOnes_32 = arith.constant dense<4294967295> : vector<2xi32> // CHECK: [[C31:%.*]] = arith.constant dense<31> : vector<2xi32> %c31 = arith.constant dense<31> : vector<2xi32> // CHECK: [[CMIXED:%.*]] = arith.constant dense<[31, -1]> : vector<2xi32> %c_mixed = arith.constant dense<[31, 4294967295]> : vector<2xi32> %0 = arith.andi %arg0, %cAllOnes_32 : vector<2xi32> // CHECK: [[T1:%.*]] = arith.andi [[ARG0]], [[C31]] %1 = arith.andi %0, %c31 : vector<2xi32> // CHECK: [[T2:%.*]] = arith.andi [[T1]], [[CMIXED]] %2 = arith.andi %1, %c_mixed : vector<2xi32> // CHECK: return [[T2]] return %2 : vector<2xi32> } // ----- // CHECK-LABEL: func @addi_splat_vector func.func @addi_splat_vector() -> vector<8xi32> { %0 = arith.constant dense<1> : vector<8xi32> %1 = arith.constant dense<5> : vector<8xi32> // CHECK-NEXT: [[C:%.+]] = arith.constant dense<6> : vector<8xi32> %2 = arith.addi %0, %1 : vector<8xi32> // CHECK-NEXT: return [[C]] return %2 : vector<8xi32> } // ----- // CHECK-LABEL: func @simple_subf func.func @simple_subf() -> f32 { %0 = arith.constant 4.5 : f32 %1 = arith.constant 1.5 : f32 // CHECK-NEXT: [[C:%.+]] = arith.constant 3.{{0*}}e+00 : f32 %2 = arith.subf %0, %1 : f32 // CHECK-NEXT: return [[C]] return %2 : f32 } // ----- // CHECK-LABEL: func @subf_splat_vector func.func @subf_splat_vector() -> vector<4xf32> { %0 = arith.constant dense<4.5> : vector<4xf32> %1 = arith.constant dense<1.5> : vector<4xf32> // CHECK-NEXT: [[C:%.+]] = arith.constant dense<3.{{0*}}e+00> : vector<4xf32> %2 = arith.subf %0, %1 : vector<4xf32> // CHECK-NEXT: return [[C]] return %2 : vector<4xf32> } // ----- // CHECK: func @simple_subi // CHECK-SAME: [[ARG0:%[a-zA-Z0-9]+]] func.func @simple_subi(%arg0 : i32) -> (i32, i32) { %0 = arith.constant 4 : i32 %1 = arith.constant 1 : i32 %2 = arith.constant 0 : i32 // CHECK-NEXT:[[C3:%.+]] = arith.constant 3 : i32 %3 = arith.subi %0, %1 : i32 %4 = arith.subi %arg0, %2 : i32 // CHECK-NEXT: return [[C3]], [[ARG0]] return %3, %4 : i32, i32 } // ----- // CHECK-LABEL: func @subi_splat_tensor func.func @subi_splat_tensor() -> tensor<4xi32> { %0 = arith.constant dense<4> : tensor<4xi32> %1 = arith.constant dense<1> : tensor<4xi32> // CHECK-NEXT: [[C:%.+]] = arith.constant dense<3> : tensor<4xi32> %2 = arith.subi %0, %1 : tensor<4xi32> // CHECK-NEXT: return [[C]] return %2 : tensor<4xi32> } // ----- // CHECK-LABEL: func @affine_apply func.func @affine_apply(%variable : index) -> (index, index, index) { %c177 = arith.constant 177 : index %c211 = arith.constant 211 : index %N = arith.constant 1075 : index // CHECK:[[C1159:%.+]] = arith.constant 1159 : index // CHECK:[[C1152:%.+]] = arith.constant 1152 : index %x0 = affine.apply affine_map<(d0, d1)[S0] -> ( (d0 + 128 * S0) floordiv 128 + d1 mod 128)> (%c177, %c211)[%N] %x1 = affine.apply affine_map<(d0, d1)[S0] -> (128 * (S0 ceildiv 128))> (%c177, %c211)[%N] // CHECK:[[C42:%.+]] = arith.constant 42 : index %y = affine.apply affine_map<(d0) -> (42)> (%variable) // CHECK: return [[C1159]], [[C1152]], [[C42]] return %x0, %x1, %y : index, index, index } // ----- // CHECK-LABEL: func @simple_mulf func.func @simple_mulf() -> f32 { %0 = arith.constant 4.5 : f32 %1 = arith.constant 1.5 : f32 // CHECK-NEXT: [[C:%.+]] = arith.constant 6.75{{0*}}e+00 : f32 %2 = arith.mulf %0, %1 : f32 // CHECK-NEXT: return [[C]] return %2 : f32 } // ----- // CHECK-LABEL: func @mulf_splat_tensor func.func @mulf_splat_tensor() -> tensor<4xf32> { %0 = arith.constant dense<4.5> : tensor<4xf32> %1 = arith.constant dense<1.5> : tensor<4xf32> // CHECK-NEXT: [[C:%.+]] = arith.constant dense<6.75{{0*}}e+00> : tensor<4xf32> %2 = arith.mulf %0, %1 : tensor<4xf32> // CHECK-NEXT: return [[C]] return %2 : tensor<4xf32> } // ----- // CHECK-LABEL: func @simple_divi_signed func.func @simple_divi_signed() -> (i32, i32, i32) { // CHECK-DAG: [[C0:%.+]] = arith.constant 0 %z = arith.constant 0 : i32 // CHECK-DAG: [[C6:%.+]] = arith.constant 6 %0 = arith.constant 6 : i32 %1 = arith.constant 2 : i32 // CHECK-NEXT: [[C3:%.+]] = arith.constant 3 : i32 %2 = arith.divsi %0, %1 : i32 %3 = arith.constant -2 : i32 // CHECK-NEXT: [[CM3:%.+]] = arith.constant -3 : i32 %4 = arith.divsi %0, %3 : i32 // CHECK-NEXT: [[XZ:%.+]] = arith.divsi [[C6]], [[C0]] %5 = arith.divsi %0, %z : i32 // CHECK-NEXT: return [[C3]], [[CM3]], [[XZ]] return %2, %4, %5 : i32, i32, i32 } // ----- // CHECK-LABEL: func @divi_signed_splat_tensor func.func @divi_signed_splat_tensor() -> (tensor<4xi32>, tensor<4xi32>, tensor<4xi32>) { // CHECK-DAG: [[C0:%.+]] = arith.constant dense<0> %z = arith.constant dense<0> : tensor<4xi32> // CHECK-DAG: [[C6:%.+]] = arith.constant dense<6> %0 = arith.constant dense<6> : tensor<4xi32> %1 = arith.constant dense<2> : tensor<4xi32> // CHECK-NEXT: [[C3:%.+]] = arith.constant dense<3> : tensor<4xi32> %2 = arith.divsi %0, %1 : tensor<4xi32> %3 = arith.constant dense<-2> : tensor<4xi32> // CHECK-NEXT: [[CM3:%.+]] = arith.constant dense<-3> : tensor<4xi32> %4 = arith.divsi %0, %3 : tensor<4xi32> // CHECK-NEXT: [[XZ:%.+]] = arith.divsi [[C6]], [[C0]] %5 = arith.divsi %0, %z : tensor<4xi32> // CHECK-NEXT: return [[C3]], [[CM3]], [[XZ]] return %2, %4, %5 : tensor<4xi32>, tensor<4xi32>, tensor<4xi32> } // ----- // CHECK-LABEL: func @simple_divi_unsigned func.func @simple_divi_unsigned() -> (i32, i32, i32) { %z = arith.constant 0 : i32 // CHECK-DAG: [[C6:%.+]] = arith.constant 6 %0 = arith.constant 6 : i32 %1 = arith.constant 2 : i32 // CHECK-DAG: [[C3:%.+]] = arith.constant 3 : i32 %2 = arith.divui %0, %1 : i32 %3 = arith.constant -2 : i32 // Unsigned division interprets -2 as 2^32-2, so the result is 0. // CHECK-DAG: [[C0:%.+]] = arith.constant 0 : i32 %4 = arith.divui %0, %3 : i32 // CHECK-NEXT: [[XZ:%.+]] = arith.divui [[C6]], [[C0]] %5 = arith.divui %0, %z : i32 // CHECK-NEXT: return [[C3]], [[C0]], [[XZ]] return %2, %4, %5 : i32, i32, i32 } // ----- // CHECK-LABEL: func @divi_unsigned_splat_tensor func.func @divi_unsigned_splat_tensor() -> (tensor<4xi32>, tensor<4xi32>, tensor<4xi32>) { %z = arith.constant dense<0> : tensor<4xi32> // CHECK-DAG: [[C6:%.+]] = arith.constant dense<6> %0 = arith.constant dense<6> : tensor<4xi32> %1 = arith.constant dense<2> : tensor<4xi32> // CHECK-DAG: [[C3:%.+]] = arith.constant dense<3> : tensor<4xi32> %2 = arith.divui %0, %1 : tensor<4xi32> %3 = arith.constant dense<-2> : tensor<4xi32> // Unsigned division interprets -2 as 2^32-2, so the result is 0. // CHECK-DAG: [[C0:%.+]] = arith.constant dense<0> : tensor<4xi32> %4 = arith.divui %0, %3 : tensor<4xi32> // CHECK-NEXT: [[XZ:%.+]] = arith.divui [[C6]], [[C0]] %5 = arith.divui %0, %z : tensor<4xi32> // CHECK-NEXT: return [[C3]], [[C0]], [[XZ]] return %2, %4, %5 : tensor<4xi32>, tensor<4xi32>, tensor<4xi32> } // ----- // CHECK-LABEL: func @simple_arith.floordivsi func.func @simple_arith.floordivsi() -> (i32, i32, i32, i32, i32) { // CHECK-DAG: [[C0:%.+]] = arith.constant 0 %z = arith.constant 0 : i32 // CHECK-DAG: [[C6:%.+]] = arith.constant 7 %0 = arith.constant 7 : i32 %1 = arith.constant 2 : i32 // floor(7, 2) = 3 // CHECK-NEXT: [[C3:%.+]] = arith.constant 3 : i32 %2 = arith.floordivsi %0, %1 : i32 %3 = arith.constant -2 : i32 // floor(7, -2) = -4 // CHECK-NEXT: [[CM3:%.+]] = arith.constant -4 : i32 %4 = arith.floordivsi %0, %3 : i32 %5 = arith.constant -9 : i32 // floor(-9, 2) = -5 // CHECK-NEXT: [[CM4:%.+]] = arith.constant -5 : i32 %6 = arith.floordivsi %5, %1 : i32 %7 = arith.constant -13 : i32 // floor(-13, -2) = 6 // CHECK-NEXT: [[CM5:%.+]] = arith.constant 6 : i32 %8 = arith.floordivsi %7, %3 : i32 // CHECK-NEXT: [[XZ:%.+]] = arith.floordivsi [[C6]], [[C0]] %9 = arith.floordivsi %0, %z : i32 return %2, %4, %6, %8, %9 : i32, i32, i32, i32, i32 } // ----- // CHECK-LABEL: func @simple_arith.ceildivsi func.func @simple_arith.ceildivsi() -> (i32, i32, i32, i32, i32) { // CHECK-DAG: [[C0:%.+]] = arith.constant 0 %z = arith.constant 0 : i32 // CHECK-DAG: [[C6:%.+]] = arith.constant 7 %0 = arith.constant 7 : i32 %1 = arith.constant 2 : i32 // ceil(7, 2) = 4 // CHECK-NEXT: [[C3:%.+]] = arith.constant 4 : i32 %2 = arith.ceildivsi %0, %1 : i32 %3 = arith.constant -2 : i32 // ceil(7, -2) = -3 // CHECK-NEXT: [[CM3:%.+]] = arith.constant -3 : i32 %4 = arith.ceildivsi %0, %3 : i32 %5 = arith.constant -9 : i32 // ceil(-9, 2) = -4 // CHECK-NEXT: [[CM4:%.+]] = arith.constant -4 : i32 %6 = arith.ceildivsi %5, %1 : i32 %7 = arith.constant -15 : i32 // ceil(-15, -2) = 8 // CHECK-NEXT: [[CM5:%.+]] = arith.constant 8 : i32 %8 = arith.ceildivsi %7, %3 : i32 // CHECK-NEXT: [[XZ:%.+]] = arith.ceildivsi [[C6]], [[C0]] %9 = arith.ceildivsi %0, %z : i32 return %2, %4, %6, %8, %9 : i32, i32, i32, i32, i32 } // ----- // CHECK-LABEL: func @simple_arith.ceildivui func.func @simple_arith.ceildivui() -> (i32, i32, i32, i32, i32) { // CHECK-DAG: [[C0:%.+]] = arith.constant 0 %z = arith.constant 0 : i32 // CHECK-DAG: [[C6:%.+]] = arith.constant 7 %0 = arith.constant 7 : i32 %1 = arith.constant 2 : i32 // ceil(7, 2) = 4 // CHECK-NEXT: [[C3:%.+]] = arith.constant 4 : i32 %2 = arith.ceildivui %0, %1 : i32 %3 = arith.constant -2 : i32 // ceil(7, -2) = 0 // CHECK-NEXT: [[CM1:%.+]] = arith.constant 1 : i32 %4 = arith.ceildivui %0, %3 : i32 %5 = arith.constant -8 : i32 // ceil(-8, 2) = 2147483644 // CHECK-NEXT: [[CM4:%.+]] = arith.constant 2147483644 : i32 %6 = arith.ceildivui %5, %1 : i32 %7 = arith.constant -15 : i32 // ceil(-15, -2) = 0 // CHECK-NOT: arith.constant 1 : i32 %8 = arith.ceildivui %7, %3 : i32 // CHECK-NEXT: [[XZ:%.+]] = arith.ceildivui [[C6]], [[C0]] %9 = arith.ceildivui %0, %z : i32 return %2, %4, %6, %8, %9 : i32, i32, i32, i32, i32 } // ----- // CHECK-LABEL: func @simple_arith.remsi func.func @simple_arith.remsi(%a : i32) -> (i32, i32, i32) { %0 = arith.constant 5 : i32 %1 = arith.constant 2 : i32 %2 = arith.constant 1 : i32 %3 = arith.constant -2 : i32 // CHECK-NEXT:[[C1:%.+]] = arith.constant 1 : i32 %4 = arith.remsi %0, %1 : i32 %5 = arith.remsi %0, %3 : i32 // CHECK-NEXT:[[C0:%.+]] = arith.constant 0 : i32 %6 = arith.remsi %a, %2 : i32 // CHECK-NEXT: return [[C1]], [[C1]], [[C0]] : i32, i32, i32 return %4, %5, %6 : i32, i32, i32 } // ----- // CHECK-LABEL: func @simple_arith.remui func.func @simple_arith.remui(%a : i32) -> (i32, i32, i32) { %0 = arith.constant 5 : i32 %1 = arith.constant 2 : i32 %2 = arith.constant 1 : i32 %3 = arith.constant -2 : i32 // CHECK-DAG:[[C1:%.+]] = arith.constant 1 : i32 %4 = arith.remui %0, %1 : i32 // CHECK-DAG:[[C5:%.+]] = arith.constant 5 : i32 %5 = arith.remui %0, %3 : i32 // CHECK-DAG:[[C0:%.+]] = arith.constant 0 : i32 %6 = arith.remui %a, %2 : i32 // CHECK-NEXT: return [[C1]], [[C5]], [[C0]] : i32, i32, i32 return %4, %5, %6 : i32, i32, i32 } // ----- // CHECK-LABEL: func @muli func.func @muli() -> i32 { %0 = arith.constant 4 : i32 %1 = arith.constant 2 : i32 // CHECK-NEXT:[[C8:%.+]] = arith.constant 8 : i32 %2 = arith.muli %0, %1 : i32 // CHECK-NEXT: return [[C8]] return %2 : i32 } // ----- // CHECK-LABEL: func @muli_splat_vector func.func @muli_splat_vector() -> vector<4xi32> { %0 = arith.constant dense<4> : vector<4xi32> %1 = arith.constant dense<2> : vector<4xi32> // CHECK-NEXT: [[C:%.+]] = arith.constant dense<8> : vector<4xi32> %2 = arith.muli %0, %1 : vector<4xi32> // CHECK-NEXT: return [[C]] return %2 : vector<4xi32> } // CHECK-LABEL: func @dim func.func @dim(%x : tensor<8x4xf32>) -> index { // CHECK:[[C4:%.+]] = arith.constant 4 : index %c1 = arith.constant 1 : index %0 = tensor.dim %x, %c1 : tensor<8x4xf32> // CHECK-NEXT: return [[C4]] return %0 : index } // ----- // CHECK-LABEL: func @cmpi func.func @cmpi() -> (i1, i1, i1, i1, i1, i1, i1, i1, i1, i1) { %c42 = arith.constant 42 : i32 %cm1 = arith.constant -1 : i32 // CHECK-DAG: [[F:%.+]] = arith.constant false // CHECK-DAG: [[T:%.+]] = arith.constant true // CHECK-NEXT: return [[F]], %0 = arith.cmpi eq, %c42, %cm1 : i32 // CHECK-SAME: [[T]], %1 = arith.cmpi ne, %c42, %cm1 : i32 // CHECK-SAME: [[F]], %2 = arith.cmpi slt, %c42, %cm1 : i32 // CHECK-SAME: [[F]], %3 = arith.cmpi sle, %c42, %cm1 : i32 // CHECK-SAME: [[T]], %4 = arith.cmpi sgt, %c42, %cm1 : i32 // CHECK-SAME: [[T]], %5 = arith.cmpi sge, %c42, %cm1 : i32 // CHECK-SAME: [[T]], %6 = arith.cmpi ult, %c42, %cm1 : i32 // CHECK-SAME: [[T]], %7 = arith.cmpi ule, %c42, %cm1 : i32 // CHECK-SAME: [[F]], %8 = arith.cmpi ugt, %c42, %cm1 : i32 // CHECK-SAME: [[F]] %9 = arith.cmpi uge, %c42, %cm1 : i32 return %0, %1, %2, %3, %4, %5, %6, %7, %8, %9 : i1, i1, i1, i1, i1, i1, i1, i1, i1, i1 } // ----- // CHECK-LABEL: func @cmpf_normal_numbers func.func @cmpf_normal_numbers() -> (i1, i1, i1, i1, i1, i1, i1, i1, i1, i1, i1, i1, i1, i1, i1, i1) { %c42 = arith.constant 42. : f32 %cm1 = arith.constant -1. : f32 // CHECK-DAG: [[F:%.+]] = arith.constant false // CHECK-DAG: [[T:%.+]] = arith.constant true // CHECK-NEXT: return [[F]], %0 = arith.cmpf false, %c42, %cm1 : f32 // CHECK-SAME: [[F]], %1 = arith.cmpf oeq, %c42, %cm1 : f32 // CHECK-SAME: [[T]], %2 = arith.cmpf ogt, %c42, %cm1 : f32 // CHECK-SAME: [[T]], %3 = arith.cmpf oge, %c42, %cm1 : f32 // CHECK-SAME: [[F]], %4 = arith.cmpf olt, %c42, %cm1 : f32 // CHECK-SAME: [[F]], %5 = arith.cmpf ole, %c42, %cm1 : f32 // CHECK-SAME: [[T]], %6 = arith.cmpf one, %c42, %cm1 : f32 // CHECK-SAME: [[T]], %7 = arith.cmpf ord, %c42, %cm1 : f32 // CHECK-SAME: [[F]], %8 = arith.cmpf ueq, %c42, %cm1 : f32 // CHECK-SAME: [[T]], %9 = arith.cmpf ugt, %c42, %cm1 : f32 // CHECK-SAME: [[T]], %10 = arith.cmpf uge, %c42, %cm1 : f32 // CHECK-SAME: [[F]], %11 = arith.cmpf ult, %c42, %cm1 : f32 // CHECK-SAME: [[F]], %12 = arith.cmpf ule, %c42, %cm1 : f32 // CHECK-SAME: [[T]], %13 = arith.cmpf une, %c42, %cm1 : f32 // CHECK-SAME: [[F]], %14 = arith.cmpf uno, %c42, %cm1 : f32 // CHECK-SAME: [[T]] %15 = arith.cmpf true, %c42, %cm1 : f32 return %0, %1, %2, %3, %4, %5, %6, %7, %8, %9, %10, %11, %12, %13, %14, %15 : i1, i1, i1, i1, i1, i1, i1, i1, i1, i1, i1, i1, i1, i1, i1, i1 } // ----- // CHECK-LABEL: func @cmpf_nan func.func @cmpf_nan() -> (i1, i1, i1, i1, i1, i1, i1, i1, i1, i1, i1, i1, i1, i1, i1, i1) { %c42 = arith.constant 42. : f32 %cqnan = arith.constant 0xFFFFFFFF : f32 // CHECK-DAG: [[F:%.+]] = arith.constant false // CHECK-DAG: [[T:%.+]] = arith.constant true // CHECK-NEXT: return [[F]], %0 = arith.cmpf false, %c42, %cqnan : f32 // CHECK-SAME: [[F]] %1 = arith.cmpf oeq, %c42, %cqnan : f32 // CHECK-SAME: [[F]], %2 = arith.cmpf ogt, %c42, %cqnan : f32 // CHECK-SAME: [[F]], %3 = arith.cmpf oge, %c42, %cqnan : f32 // CHECK-SAME: [[F]], %4 = arith.cmpf olt, %c42, %cqnan : f32 // CHECK-SAME: [[F]], %5 = arith.cmpf ole, %c42, %cqnan : f32 // CHECK-SAME: [[F]], %6 = arith.cmpf one, %c42, %cqnan : f32 // CHECK-SAME: [[F]], %7 = arith.cmpf ord, %c42, %cqnan : f32 // CHECK-SAME: [[T]], %8 = arith.cmpf ueq, %c42, %cqnan : f32 // CHECK-SAME: [[T]], %9 = arith.cmpf ugt, %c42, %cqnan : f32 // CHECK-SAME: [[T]], %10 = arith.cmpf uge, %c42, %cqnan : f32 // CHECK-SAME: [[T]], %11 = arith.cmpf ult, %c42, %cqnan : f32 // CHECK-SAME: [[T]], %12 = arith.cmpf ule, %c42, %cqnan : f32 // CHECK-SAME: [[T]], %13 = arith.cmpf une, %c42, %cqnan : f32 // CHECK-SAME: [[T]], %14 = arith.cmpf uno, %c42, %cqnan : f32 // CHECK-SAME: [[T]] %15 = arith.cmpf true, %c42, %cqnan : f32 return %0, %1, %2, %3, %4, %5, %6, %7, %8, %9, %10, %11, %12, %13, %14, %15 : i1, i1, i1, i1, i1, i1, i1, i1, i1, i1, i1, i1, i1, i1, i1, i1 } // ----- // CHECK-LABEL: func @cmpf_inf func.func @cmpf_inf() -> (i1, i1, i1, i1, i1, i1, i1, i1, i1, i1, i1, i1, i1, i1, i1, i1) { %c42 = arith.constant 42. : f32 %cpinf = arith.constant 0x7F800000 : f32 // CHECK-DAG: [[F:%.+]] = arith.constant false // CHECK-DAG: [[T:%.+]] = arith.constant true // CHECK-NEXT: return [[F]], %0 = arith.cmpf false, %c42, %cpinf: f32 // CHECK-SAME: [[F]] %1 = arith.cmpf oeq, %c42, %cpinf: f32 // CHECK-SAME: [[F]], %2 = arith.cmpf ogt, %c42, %cpinf: f32 // CHECK-SAME: [[F]], %3 = arith.cmpf oge, %c42, %cpinf: f32 // CHECK-SAME: [[T]], %4 = arith.cmpf olt, %c42, %cpinf: f32 // CHECK-SAME: [[T]], %5 = arith.cmpf ole, %c42, %cpinf: f32 // CHECK-SAME: [[T]], %6 = arith.cmpf one, %c42, %cpinf: f32 // CHECK-SAME: [[T]], %7 = arith.cmpf ord, %c42, %cpinf: f32 // CHECK-SAME: [[F]], %8 = arith.cmpf ueq, %c42, %cpinf: f32 // CHECK-SAME: [[F]], %9 = arith.cmpf ugt, %c42, %cpinf: f32 // CHECK-SAME: [[F]], %10 = arith.cmpf uge, %c42, %cpinf: f32 // CHECK-SAME: [[T]], %11 = arith.cmpf ult, %c42, %cpinf: f32 // CHECK-SAME: [[T]], %12 = arith.cmpf ule, %c42, %cpinf: f32 // CHECK-SAME: [[T]], %13 = arith.cmpf une, %c42, %cpinf: f32 // CHECK-SAME: [[F]], %14 = arith.cmpf uno, %c42, %cpinf: f32 // CHECK-SAME: [[T]] %15 = arith.cmpf true, %c42, %cpinf: f32 return %0, %1, %2, %3, %4, %5, %6, %7, %8, %9, %10, %11, %12, %13, %14, %15 : i1, i1, i1, i1, i1, i1, i1, i1, i1, i1, i1, i1, i1, i1, i1, i1 } // ----- // CHECK-LABEL: func @nested_isolated_region func.func @nested_isolated_region() { // CHECK-NEXT: func @isolated_op // CHECK-NEXT: arith.constant 2 func.func @isolated_op() { %0 = arith.constant 1 : i32 %2 = arith.addi %0, %0 : i32 "foo.yield"(%2) : (i32) -> () } // CHECK: "foo.unknown_region" // CHECK-NEXT: arith.constant 2 "foo.unknown_region"() ({ %0 = arith.constant 1 : i32 %2 = arith.addi %0, %0 : i32 "foo.yield"(%2) : (i32) -> () }) : () -> () return } // ----- // CHECK-LABEL: func @custom_insertion_position func.func @custom_insertion_position() { // CHECK: test.one_region_op // CHECK-NEXT: arith.constant 2 "test.one_region_op"() ({ %0 = arith.constant 1 : i32 %2 = arith.addi %0, %0 : i32 "foo.yield"(%2) : (i32) -> () }) : () -> () return } // ----- // CHECK-LABEL: func @subview_scalar_fold func.func @subview_scalar_fold(%arg0: memref) -> memref { // CHECK-NOT: memref.subview %c = memref.subview %arg0[] [] [] : memref to memref return %c : memref }