// RUN: mlir-opt %s | mlir-opt | FileCheck %s // RUN: mlir-opt %s --mlir-print-op-generic | mlir-opt | FileCheck %s // CHECK-LABEL: test_addi func.func @test_addi(%arg0 : i64, %arg1 : i64) -> i64 { %0 = arith.addi %arg0, %arg1 : i64 return %0 : i64 } // CHECK-LABEL: test_addi_tensor func.func @test_addi_tensor(%arg0 : tensor<8x8xi64>, %arg1 : tensor<8x8xi64>) -> tensor<8x8xi64> { %0 = arith.addi %arg0, %arg1 : tensor<8x8xi64> return %0 : tensor<8x8xi64> } // CHECK-LABEL: test_addi_vector func.func @test_addi_vector(%arg0 : vector<8xi64>, %arg1 : vector<8xi64>) -> vector<8xi64> { %0 = arith.addi %arg0, %arg1 : vector<8xi64> return %0 : vector<8xi64> } // CHECK-LABEL: test_addi_scalable_vector func.func @test_addi_scalable_vector(%arg0 : vector<[8]xi64>, %arg1 : vector<[8]xi64>) -> vector<[8]xi64> { %0 = arith.addi %arg0, %arg1 : vector<[8]xi64> return %0 : vector<[8]xi64> } // CHECK-LABEL: test_addui_extended func.func @test_addui_extended(%arg0 : i64, %arg1 : i64) -> i64 { %sum, %overflow = arith.addui_extended %arg0, %arg1 : i64, i1 return %sum : i64 } // CHECK-LABEL: test_addui_extended_tensor func.func @test_addui_extended_tensor(%arg0 : tensor<8x8xi64>, %arg1 : tensor<8x8xi64>) -> tensor<8x8xi64> { %sum, %overflow = arith.addui_extended %arg0, %arg1 : tensor<8x8xi64>, tensor<8x8xi1> return %sum : tensor<8x8xi64> } // CHECK-LABEL: test_addui_extended_vector func.func @test_addui_extended_vector(%arg0 : vector<8xi64>, %arg1 : vector<8xi64>) -> vector<8xi64> { %0:2 = arith.addui_extended %arg0, %arg1 : vector<8xi64>, vector<8xi1> return %0#0 : vector<8xi64> } // CHECK-LABEL: test_addui_extended_scalable_vector func.func @test_addui_extended_scalable_vector(%arg0 : vector<[8]xi64>, %arg1 : vector<[8]xi64>) -> vector<[8]xi64> { %0:2 = arith.addui_extended %arg0, %arg1 : vector<[8]xi64>, vector<[8]xi1> return %0#0 : vector<[8]xi64> } // CHECK-LABEL: test_subi func.func @test_subi(%arg0 : i64, %arg1 : i64) -> i64 { %0 = arith.subi %arg0, %arg1 : i64 return %0 : i64 } // CHECK-LABEL: test_subi_tensor func.func @test_subi_tensor(%arg0 : tensor<8x8xi64>, %arg1 : tensor<8x8xi64>) -> tensor<8x8xi64> { %0 = arith.subi %arg0, %arg1 : tensor<8x8xi64> return %0 : tensor<8x8xi64> } // CHECK-LABEL: test_subi_vector func.func @test_subi_vector(%arg0 : vector<8xi64>, %arg1 : vector<8xi64>) -> vector<8xi64> { %0 = arith.subi %arg0, %arg1 : vector<8xi64> return %0 : vector<8xi64> } // CHECK-LABEL: test_subi_scalable_vector func.func @test_subi_scalable_vector(%arg0 : vector<[8]xi64>, %arg1 : vector<[8]xi64>) -> vector<[8]xi64> { %0 = arith.subi %arg0, %arg1 : vector<[8]xi64> return %0 : vector<[8]xi64> } // CHECK-LABEL: test_muli func.func @test_muli(%arg0 : i64, %arg1 : i64) -> i64 { %0 = arith.muli %arg0, %arg1 : i64 return %0 : i64 } // CHECK-LABEL: test_muli_tensor func.func @test_muli_tensor(%arg0 : tensor<8x8xi64>, %arg1 : tensor<8x8xi64>) -> tensor<8x8xi64> { %0 = arith.muli %arg0, %arg1 : tensor<8x8xi64> return %0 : tensor<8x8xi64> } // CHECK-LABEL: test_muli_vector func.func @test_muli_vector(%arg0 : vector<8xi64>, %arg1 : vector<8xi64>) -> vector<8xi64> { %0 = arith.muli %arg0, %arg1 : vector<8xi64> return %0 : vector<8xi64> } // CHECK-LABEL: test_muli_scalable_vector func.func @test_muli_scalable_vector(%arg0 : vector<[8]xi64>, %arg1 : vector<[8]xi64>) -> vector<[8]xi64> { %0 = arith.muli %arg0, %arg1 : vector<[8]xi64> return %0 : vector<[8]xi64> } // CHECK-LABEL: test_mulsi_extended func.func @test_mulsi_extended(%arg0 : i32, %arg1 : i32) -> i32 { %low, %high = arith.mulsi_extended %arg0, %arg1 : i32 return %high : i32 } // CHECK-LABEL: test_mulsi_extended_tensor func.func @test_mulsi_extended_tensor(%arg0 : tensor<8x8xi64>, %arg1 : tensor<8x8xi64>) -> tensor<8x8xi64> { %low, %high = arith.mulsi_extended %arg0, %arg1 : tensor<8x8xi64> return %high : tensor<8x8xi64> } // CHECK-LABEL: test_mulsi_extended_vector func.func @test_mulsi_extended_vector(%arg0 : vector<8xi64>, %arg1 : vector<8xi64>) -> vector<8xi64> { %0:2 = arith.mulsi_extended %arg0, %arg1 : vector<8xi64> return %0#0 : vector<8xi64> } // CHECK-LABEL: test_mulsi_extended_scalable_vector func.func @test_mulsi_extended_scalable_vector(%arg0 : vector<[8]xi64>, %arg1 : vector<[8]xi64>) -> vector<[8]xi64> { %0:2 = arith.mulsi_extended %arg0, %arg1 : vector<[8]xi64> return %0#1 : vector<[8]xi64> } // CHECK-LABEL: test_mului_extended func.func @test_mului_extended(%arg0 : i32, %arg1 : i32) -> i32 { %low, %high = arith.mului_extended %arg0, %arg1 : i32 return %high : i32 } // CHECK-LABEL: test_mului_extended_tensor func.func @test_mului_extended_tensor(%arg0 : tensor<8x8xi64>, %arg1 : tensor<8x8xi64>) -> tensor<8x8xi64> { %low, %high = arith.mului_extended %arg0, %arg1 : tensor<8x8xi64> return %high : tensor<8x8xi64> } // CHECK-LABEL: test_mului_extended_vector func.func @test_mului_extended_vector(%arg0 : vector<8xi64>, %arg1 : vector<8xi64>) -> vector<8xi64> { %0:2 = arith.mului_extended %arg0, %arg1 : vector<8xi64> return %0#0 : vector<8xi64> } // CHECK-LABEL: test_mului_extended_scalable_vector func.func @test_mului_extended_scalable_vector(%arg0 : vector<[8]xi64>, %arg1 : vector<[8]xi64>) -> vector<[8]xi64> { %0:2 = arith.mului_extended %arg0, %arg1 : vector<[8]xi64> return %0#1 : vector<[8]xi64> } // CHECK-LABEL: test_divui func.func @test_divui(%arg0 : i64, %arg1 : i64) -> i64 { %0 = arith.divui %arg0, %arg1 : i64 return %0 : i64 } // CHECK-LABEL: test_divui_tensor func.func @test_divui_tensor(%arg0 : tensor<8x8xi64>, %arg1 : tensor<8x8xi64>) -> tensor<8x8xi64> { %0 = arith.divui %arg0, %arg1 : tensor<8x8xi64> return %0 : tensor<8x8xi64> } // CHECK-LABEL: test_divui_vector func.func @test_divui_vector(%arg0 : vector<8xi64>, %arg1 : vector<8xi64>) -> vector<8xi64> { %0 = arith.divui %arg0, %arg1 : vector<8xi64> return %0 : vector<8xi64> } // CHECK-LABEL: test_divui_scalable_vector func.func @test_divui_scalable_vector(%arg0 : vector<[8]xi64>, %arg1 : vector<[8]xi64>) -> vector<[8]xi64> { %0 = arith.divui %arg0, %arg1 : vector<[8]xi64> return %0 : vector<[8]xi64> } // CHECK-LABEL: test_divsi func.func @test_divsi(%arg0 : i64, %arg1 : i64) -> i64 { %0 = arith.divsi %arg0, %arg1 : i64 return %0 : i64 } // CHECK-LABEL: test_divsi_tensor func.func @test_divsi_tensor(%arg0 : tensor<8x8xi64>, %arg1 : tensor<8x8xi64>) -> tensor<8x8xi64> { %0 = arith.divsi %arg0, %arg1 : tensor<8x8xi64> return %0 : tensor<8x8xi64> } // CHECK-LABEL: test_divsi_vector func.func @test_divsi_vector(%arg0 : vector<8xi64>, %arg1 : vector<8xi64>) -> vector<8xi64> { %0 = arith.divsi %arg0, %arg1 : vector<8xi64> return %0 : vector<8xi64> } // CHECK-LABEL: test_divsi_scalable_vector func.func @test_divsi_scalable_vector(%arg0 : vector<[8]xi64>, %arg1 : vector<[8]xi64>) -> vector<[8]xi64> { %0 = arith.divsi %arg0, %arg1 : vector<[8]xi64> return %0 : vector<[8]xi64> } // CHECK-LABEL: test_remui func.func @test_remui(%arg0 : i64, %arg1 : i64) -> i64 { %0 = arith.remui %arg0, %arg1 : i64 return %0 : i64 } // CHECK-LABEL: test_remui_tensor func.func @test_remui_tensor(%arg0 : tensor<8x8xi64>, %arg1 : tensor<8x8xi64>) -> tensor<8x8xi64> { %0 = arith.remui %arg0, %arg1 : tensor<8x8xi64> return %0 : tensor<8x8xi64> } // CHECK-LABEL: test_remui_vector func.func @test_remui_vector(%arg0 : vector<8xi64>, %arg1 : vector<8xi64>) -> vector<8xi64> { %0 = arith.remui %arg0, %arg1 : vector<8xi64> return %0 : vector<8xi64> } // CHECK-LABEL: test_remui_scalable_vector func.func @test_remui_scalable_vector(%arg0 : vector<[8]xi64>, %arg1 : vector<[8]xi64>) -> vector<[8]xi64> { %0 = arith.remui %arg0, %arg1 : vector<[8]xi64> return %0 : vector<[8]xi64> } // CHECK-LABEL: test_remsi func.func @test_remsi(%arg0 : i64, %arg1 : i64) -> i64 { %0 = arith.remsi %arg0, %arg1 : i64 return %0 : i64 } // CHECK-LABEL: test_remsi_tensor func.func @test_remsi_tensor(%arg0 : tensor<8x8xi64>, %arg1 : tensor<8x8xi64>) -> tensor<8x8xi64> { %0 = arith.remsi %arg0, %arg1 : tensor<8x8xi64> return %0 : tensor<8x8xi64> } // CHECK-LABEL: test_remsi_vector func.func @test_remsi_vector(%arg0 : vector<8xi64>, %arg1 : vector<8xi64>) -> vector<8xi64> { %0 = arith.remsi %arg0, %arg1 : vector<8xi64> return %0 : vector<8xi64> } // CHECK-LABEL: test_remsi_scalable_vector func.func @test_remsi_scalable_vector(%arg0 : vector<[8]xi64>, %arg1 : vector<[8]xi64>) -> vector<[8]xi64> { %0 = arith.remsi %arg0, %arg1 : vector<[8]xi64> return %0 : vector<[8]xi64> } // CHECK-LABEL: test_andi func.func @test_andi(%arg0 : i64, %arg1 : i64) -> i64 { %0 = arith.andi %arg0, %arg1 : i64 return %0 : i64 } // CHECK-LABEL: test_andi_tensor func.func @test_andi_tensor(%arg0 : tensor<8x8xi64>, %arg1 : tensor<8x8xi64>) -> tensor<8x8xi64> { %0 = arith.andi %arg0, %arg1 : tensor<8x8xi64> return %0 : tensor<8x8xi64> } // CHECK-LABEL: test_andi_vector func.func @test_andi_vector(%arg0 : vector<8xi64>, %arg1 : vector<8xi64>) -> vector<8xi64> { %0 = arith.andi %arg0, %arg1 : vector<8xi64> return %0 : vector<8xi64> } // CHECK-LABEL: test_andi_scalable_vector func.func @test_andi_scalable_vector(%arg0 : vector<[8]xi64>, %arg1 : vector<[8]xi64>) -> vector<[8]xi64> { %0 = arith.andi %arg0, %arg1 : vector<[8]xi64> return %0 : vector<[8]xi64> } // CHECK-LABEL: test_ori func.func @test_ori(%arg0 : i64, %arg1 : i64) -> i64 { %0 = arith.ori %arg0, %arg1 : i64 return %0 : i64 } // CHECK-LABEL: test_ori_tensor func.func @test_ori_tensor(%arg0 : tensor<8x8xi64>, %arg1 : tensor<8x8xi64>) -> tensor<8x8xi64> { %0 = arith.ori %arg0, %arg1 : tensor<8x8xi64> return %0 : tensor<8x8xi64> } // CHECK-LABEL: test_ori_vector func.func @test_ori_vector(%arg0 : vector<8xi64>, %arg1 : vector<8xi64>) -> vector<8xi64> { %0 = arith.ori %arg0, %arg1 : vector<8xi64> return %0 : vector<8xi64> } // CHECK-LABEL: test_ori_scalable_vector func.func @test_ori_scalable_vector(%arg0 : vector<[8]xi64>, %arg1 : vector<[8]xi64>) -> vector<[8]xi64> { %0 = arith.ori %arg0, %arg1 : vector<[8]xi64> return %0 : vector<[8]xi64> } // CHECK-LABEL: test_xori func.func @test_xori(%arg0 : i64, %arg1 : i64) -> i64 { %0 = arith.xori %arg0, %arg1 : i64 return %0 : i64 } // CHECK-LABEL: test_xori_tensor func.func @test_xori_tensor(%arg0 : tensor<8x8xi64>, %arg1 : tensor<8x8xi64>) -> tensor<8x8xi64> { %0 = arith.xori %arg0, %arg1 : tensor<8x8xi64> return %0 : tensor<8x8xi64> } // CHECK-LABEL: test_xori_vector func.func @test_xori_vector(%arg0 : vector<8xi64>, %arg1 : vector<8xi64>) -> vector<8xi64> { %0 = arith.xori %arg0, %arg1 : vector<8xi64> return %0 : vector<8xi64> } // CHECK-LABEL: test_xori_scalable_vector func.func @test_xori_scalable_vector(%arg0 : vector<[8]xi64>, %arg1 : vector<[8]xi64>) -> vector<[8]xi64> { %0 = arith.xori %arg0, %arg1 : vector<[8]xi64> return %0 : vector<[8]xi64> } // CHECK-LABEL: test_ceildivsi func.func @test_ceildivsi(%arg0 : i64, %arg1 : i64) -> i64 { %0 = arith.ceildivsi %arg0, %arg1 : i64 return %0 : i64 } // CHECK-LABEL: test_ceildivsi_tensor func.func @test_ceildivsi_tensor(%arg0 : tensor<8x8xi64>, %arg1 : tensor<8x8xi64>) -> tensor<8x8xi64> { %0 = arith.ceildivsi %arg0, %arg1 : tensor<8x8xi64> return %0 : tensor<8x8xi64> } // CHECK-LABEL: test_ceildivsi_vector func.func @test_ceildivsi_vector(%arg0 : vector<8xi64>, %arg1 : vector<8xi64>) -> vector<8xi64> { %0 = arith.ceildivsi %arg0, %arg1 : vector<8xi64> return %0 : vector<8xi64> } // CHECK-LABEL: test_ceildivsi_scalable_vector func.func @test_ceildivsi_scalable_vector(%arg0 : vector<[8]xi64>, %arg1 : vector<[8]xi64>) -> vector<[8]xi64> { %0 = arith.ceildivsi %arg0, %arg1 : vector<[8]xi64> return %0 : vector<[8]xi64> } // CHECK-LABEL: test_floordivsi func.func @test_floordivsi(%arg0 : i64, %arg1 : i64) -> i64 { %0 = arith.floordivsi %arg0, %arg1 : i64 return %0 : i64 } // CHECK-LABEL: test_floordivsi_tensor func.func @test_floordivsi_tensor(%arg0 : tensor<8x8xi64>, %arg1 : tensor<8x8xi64>) -> tensor<8x8xi64> { %0 = arith.floordivsi %arg0, %arg1 : tensor<8x8xi64> return %0 : tensor<8x8xi64> } // CHECK-LABEL: test_floordivsi_vector func.func @test_floordivsi_vector(%arg0 : vector<8xi64>, %arg1 : vector<8xi64>) -> vector<8xi64> { %0 = arith.floordivsi %arg0, %arg1 : vector<8xi64> return %0 : vector<8xi64> } // CHECK-LABEL: test_floordivsi_scalable_vector func.func @test_floordivsi_scalable_vector(%arg0 : vector<[8]xi64>, %arg1 : vector<[8]xi64>) -> vector<[8]xi64> { %0 = arith.floordivsi %arg0, %arg1 : vector<[8]xi64> return %0 : vector<[8]xi64> } // CHECK-LABEL: test_shli func.func @test_shli(%arg0 : i64, %arg1 : i64) -> i64 { %0 = arith.shli %arg0, %arg1 : i64 return %0 : i64 } // CHECK-LABEL: test_shli_tensor func.func @test_shli_tensor(%arg0 : tensor<8x8xi64>, %arg1 : tensor<8x8xi64>) -> tensor<8x8xi64> { %0 = arith.shli %arg0, %arg1 : tensor<8x8xi64> return %0 : tensor<8x8xi64> } // CHECK-LABEL: test_shli_vector func.func @test_shli_vector(%arg0 : vector<8xi64>, %arg1 : vector<8xi64>) -> vector<8xi64> { %0 = arith.shli %arg0, %arg1 : vector<8xi64> return %0 : vector<8xi64> } // CHECK-LABEL: test_shli_scalable_vector func.func @test_shli_scalable_vector(%arg0 : vector<[8]xi64>, %arg1 : vector<[8]xi64>) -> vector<[8]xi64> { %0 = arith.shli %arg0, %arg1 : vector<[8]xi64> return %0 : vector<[8]xi64> } // CHECK-LABEL: test_shrui func.func @test_shrui(%arg0 : i64, %arg1 : i64) -> i64 { %0 = arith.shrui %arg0, %arg1 : i64 return %0 : i64 } // CHECK-LABEL: test_shrui_tensor func.func @test_shrui_tensor(%arg0 : tensor<8x8xi64>, %arg1 : tensor<8x8xi64>) -> tensor<8x8xi64> { %0 = arith.shrui %arg0, %arg1 : tensor<8x8xi64> return %0 : tensor<8x8xi64> } // CHECK-LABEL: test_shrui_vector func.func @test_shrui_vector(%arg0 : vector<8xi64>, %arg1 : vector<8xi64>) -> vector<8xi64> { %0 = arith.shrui %arg0, %arg1 : vector<8xi64> return %0 : vector<8xi64> } // CHECK-LABEL: test_shrui_scalable_vector func.func @test_shrui_scalable_vector(%arg0 : vector<[8]xi64>, %arg1 : vector<[8]xi64>) -> vector<[8]xi64> { %0 = arith.shrui %arg0, %arg1 : vector<[8]xi64> return %0 : vector<[8]xi64> } // CHECK-LABEL: test_shrsi func.func @test_shrsi(%arg0 : i64, %arg1 : i64) -> i64 { %0 = arith.shrsi %arg0, %arg1 : i64 return %0 : i64 } // CHECK-LABEL: test_shrsi_tensor func.func @test_shrsi_tensor(%arg0 : tensor<8x8xi64>, %arg1 : tensor<8x8xi64>) -> tensor<8x8xi64> { %0 = arith.shrsi %arg0, %arg1 : tensor<8x8xi64> return %0 : tensor<8x8xi64> } // CHECK-LABEL: test_shrsi_vector func.func @test_shrsi_vector(%arg0 : vector<8xi64>, %arg1 : vector<8xi64>) -> vector<8xi64> { %0 = arith.shrsi %arg0, %arg1 : vector<8xi64> return %0 : vector<8xi64> } // CHECK-LABEL: test_shrsi_scalable_vector func.func @test_shrsi_scalable_vector(%arg0 : vector<[8]xi64>, %arg1 : vector<[8]xi64>) -> vector<[8]xi64> { %0 = arith.shrsi %arg0, %arg1 : vector<[8]xi64> return %0 : vector<[8]xi64> } // CHECK-LABEL: test_negf func.func @test_negf(%arg0 : f64) -> f64 { %0 = arith.negf %arg0 : f64 return %0 : f64 } // CHECK-LABEL: test_negf_tensor func.func @test_negf_tensor(%arg0 : tensor<8x8xf64>) -> tensor<8x8xf64> { %0 = arith.negf %arg0 : tensor<8x8xf64> return %0 : tensor<8x8xf64> } // CHECK-LABEL: test_negf_vector func.func @test_negf_vector(%arg0 : vector<8xf64>) -> vector<8xf64> { %0 = arith.negf %arg0 : vector<8xf64> return %0 : vector<8xf64> } // CHECK-LABEL: test_negf_scalable_vector func.func @test_negf_scalable_vector(%arg0 : vector<[8]xf64>) -> vector<[8]xf64> { %0 = arith.negf %arg0 : vector<[8]xf64> return %0 : vector<[8]xf64> } // CHECK-LABEL: test_addf func.func @test_addf(%arg0 : f64, %arg1 : f64) -> f64 { %0 = arith.addf %arg0, %arg1 : f64 return %0 : f64 } // CHECK-LABEL: test_addf_tensor func.func @test_addf_tensor(%arg0 : tensor<8x8xf64>, %arg1 : tensor<8x8xf64>) -> tensor<8x8xf64> { %0 = arith.addf %arg0, %arg1 : tensor<8x8xf64> return %0 : tensor<8x8xf64> } // CHECK-LABEL: test_addf_vector func.func @test_addf_vector(%arg0 : vector<8xf64>, %arg1 : vector<8xf64>) -> vector<8xf64> { %0 = arith.addf %arg0, %arg1 : vector<8xf64> return %0 : vector<8xf64> } // CHECK-LABEL: test_addf_scalable_vector func.func @test_addf_scalable_vector(%arg0 : vector<[8]xf64>, %arg1 : vector<[8]xf64>) -> vector<[8]xf64> { %0 = arith.addf %arg0, %arg1 : vector<[8]xf64> return %0 : vector<[8]xf64> } // CHECK-LABEL: test_subf func.func @test_subf(%arg0 : f64, %arg1 : f64) -> f64 { %0 = arith.subf %arg0, %arg1 : f64 return %0 : f64 } // CHECK-LABEL: test_subf_tensor func.func @test_subf_tensor(%arg0 : tensor<8x8xf64>, %arg1 : tensor<8x8xf64>) -> tensor<8x8xf64> { %0 = arith.subf %arg0, %arg1 : tensor<8x8xf64> return %0 : tensor<8x8xf64> } // CHECK-LABEL: test_subf_vector func.func @test_subf_vector(%arg0 : vector<8xf64>, %arg1 : vector<8xf64>) -> vector<8xf64> { %0 = arith.subf %arg0, %arg1 : vector<8xf64> return %0 : vector<8xf64> } // CHECK-LABEL: test_subf_scalable_vector func.func @test_subf_scalable_vector(%arg0 : vector<[8]xf64>, %arg1 : vector<[8]xf64>) -> vector<[8]xf64> { %0 = arith.subf %arg0, %arg1 : vector<[8]xf64> return %0 : vector<[8]xf64> } // CHECK-LABEL: test_mulf func.func @test_mulf(%arg0 : f64, %arg1 : f64) -> f64 { %0 = arith.mulf %arg0, %arg1 : f64 return %0 : f64 } // CHECK-LABEL: test_mulf_tensor func.func @test_mulf_tensor(%arg0 : tensor<8x8xf64>, %arg1 : tensor<8x8xf64>) -> tensor<8x8xf64> { %0 = arith.mulf %arg0, %arg1 : tensor<8x8xf64> return %0 : tensor<8x8xf64> } // CHECK-LABEL: test_mulf_vector func.func @test_mulf_vector(%arg0 : vector<8xf64>, %arg1 : vector<8xf64>) -> vector<8xf64> { %0 = arith.mulf %arg0, %arg1 : vector<8xf64> return %0 : vector<8xf64> } // CHECK-LABEL: test_mulf_scalable_vector func.func @test_mulf_scalable_vector(%arg0 : vector<[8]xf64>, %arg1 : vector<[8]xf64>) -> vector<[8]xf64> { %0 = arith.mulf %arg0, %arg1 : vector<[8]xf64> return %0 : vector<[8]xf64> } // CHECK-LABEL: test_divf func.func @test_divf(%arg0 : f64, %arg1 : f64) -> f64 { %0 = arith.divf %arg0, %arg1 : f64 return %0 : f64 } // CHECK-LABEL: test_divf_tensor func.func @test_divf_tensor(%arg0 : tensor<8x8xf64>, %arg1 : tensor<8x8xf64>) -> tensor<8x8xf64> { %0 = arith.divf %arg0, %arg1 : tensor<8x8xf64> return %0 : tensor<8x8xf64> } // CHECK-LABEL: test_divf_vector func.func @test_divf_vector(%arg0 : vector<8xf64>, %arg1 : vector<8xf64>) -> vector<8xf64> { %0 = arith.divf %arg0, %arg1 : vector<8xf64> return %0 : vector<8xf64> } // CHECK-LABEL: test_divf_scalable_vector func.func @test_divf_scalable_vector(%arg0 : vector<[8]xf64>, %arg1 : vector<[8]xf64>) -> vector<[8]xf64> { %0 = arith.divf %arg0, %arg1 : vector<[8]xf64> return %0 : vector<[8]xf64> } // CHECK-LABEL: test_remf func.func @test_remf(%arg0 : f64, %arg1 : f64) -> f64 { %0 = arith.remf %arg0, %arg1 : f64 return %0 : f64 } // CHECK-LABEL: test_remf_tensor func.func @test_remf_tensor(%arg0 : tensor<8x8xf64>, %arg1 : tensor<8x8xf64>) -> tensor<8x8xf64> { %0 = arith.remf %arg0, %arg1 : tensor<8x8xf64> return %0 : tensor<8x8xf64> } // CHECK-LABEL: test_remf_vector func.func @test_remf_vector(%arg0 : vector<8xf64>, %arg1 : vector<8xf64>) -> vector<8xf64> { %0 = arith.remf %arg0, %arg1 : vector<8xf64> return %0 : vector<8xf64> } // CHECK-LABEL: test_remf_scalable_vector func.func @test_remf_scalable_vector(%arg0 : vector<[8]xf64>, %arg1 : vector<[8]xf64>) -> vector<[8]xf64> { %0 = arith.remf %arg0, %arg1 : vector<[8]xf64> return %0 : vector<[8]xf64> } // CHECK-LABEL: test_extui func.func @test_extui(%arg0 : i32) -> i64 { %0 = arith.extui %arg0 : i32 to i64 return %0 : i64 } // CHECK-LABEL: test_extui_tensor func.func @test_extui_tensor(%arg0 : tensor<8x8xi32>) -> tensor<8x8xi64> { %0 = arith.extui %arg0 : tensor<8x8xi32> to tensor<8x8xi64> return %0 : tensor<8x8xi64> } // CHECK-LABEL: test_extui_vector func.func @test_extui_vector(%arg0 : vector<8xi32>) -> vector<8xi64> { %0 = arith.extui %arg0 : vector<8xi32> to vector<8xi64> return %0 : vector<8xi64> } // CHECK-LABEL: test_extui_scalable_vector func.func @test_extui_scalable_vector(%arg0 : vector<[8]xi32>) -> vector<[8]xi64> { %0 = arith.extui %arg0 : vector<[8]xi32> to vector<[8]xi64> return %0 : vector<[8]xi64> } // CHECK-LABEL: test_extsi func.func @test_extsi(%arg0 : i32) -> i64 { %0 = arith.extsi %arg0 : i32 to i64 return %0 : i64 } // CHECK-LABEL: test_extsi_tensor func.func @test_extsi_tensor(%arg0 : tensor<8x8xi32>) -> tensor<8x8xi64> { %0 = arith.extsi %arg0 : tensor<8x8xi32> to tensor<8x8xi64> return %0 : tensor<8x8xi64> } // CHECK-LABEL: test_extsi_vector func.func @test_extsi_vector(%arg0 : vector<8xi32>) -> vector<8xi64> { %0 = arith.extsi %arg0 : vector<8xi32> to vector<8xi64> return %0 : vector<8xi64> } // CHECK-LABEL: test_extsi_scalable_vector func.func @test_extsi_scalable_vector(%arg0 : vector<[8]xi32>) -> vector<[8]xi64> { %0 = arith.extsi %arg0 : vector<[8]xi32> to vector<[8]xi64> return %0 : vector<[8]xi64> } // CHECK-LABEL: test_extf func.func @test_extf(%arg0 : f32) -> f64 { %0 = arith.extf %arg0 : f32 to f64 return %0 : f64 } // CHECK-LABEL: test_extf_tensor func.func @test_extf_tensor(%arg0 : tensor<8x8xf32>) -> tensor<8x8xf64> { %0 = arith.extf %arg0 : tensor<8x8xf32> to tensor<8x8xf64> return %0 : tensor<8x8xf64> } // CHECK-LABEL: test_extf_tensor_encoding func.func @test_extf_tensor_encoding(%arg0 : tensor<8x8xf32, "foo">) -> tensor<8x8xf64, "foo"> { %0 = arith.extf %arg0 : tensor<8x8xf32, "foo"> to tensor<8x8xf64, "foo"> return %0 : tensor<8x8xf64, "foo"> } // CHECK-LABEL: test_extf_vector func.func @test_extf_vector(%arg0 : vector<8xf32>) -> vector<8xf64> { %0 = arith.extf %arg0 : vector<8xf32> to vector<8xf64> return %0 : vector<8xf64> } // CHECK-LABEL: test_extf_scalable_vector func.func @test_extf_scalable_vector(%arg0 : vector<[8]xf32>) -> vector<[8]xf64> { %0 = arith.extf %arg0 : vector<[8]xf32> to vector<[8]xf64> return %0 : vector<[8]xf64> } // CHECK-LABEL: test_trunci func.func @test_trunci(%arg0 : i32) -> i16 { %0 = arith.trunci %arg0 : i32 to i16 return %0 : i16 } // CHECK-LABEL: test_trunci_tensor func.func @test_trunci_tensor(%arg0 : tensor<8x8xi32>) -> tensor<8x8xi16> { %0 = arith.trunci %arg0 : tensor<8x8xi32> to tensor<8x8xi16> return %0 : tensor<8x8xi16> } // CHECK-LABEL: test_trunci_vector func.func @test_trunci_vector(%arg0 : vector<8xi32>) -> vector<8xi16> { %0 = arith.trunci %arg0 : vector<8xi32> to vector<8xi16> return %0 : vector<8xi16> } // CHECK-LABEL: test_trunci_scalable_vector func.func @test_trunci_scalable_vector(%arg0 : vector<[8]xi32>) -> vector<[8]xi16> { %0 = arith.trunci %arg0 : vector<[8]xi32> to vector<[8]xi16> return %0 : vector<[8]xi16> } // CHECK-LABEL: test_truncf func.func @test_truncf(%arg0 : f32) -> bf16 { %0 = arith.truncf %arg0 : f32 to bf16 return %0 : bf16 } // CHECK-LABEL: test_truncf_tensor func.func @test_truncf_tensor(%arg0 : tensor<8x8xf32>) -> tensor<8x8xbf16> { %0 = arith.truncf %arg0 : tensor<8x8xf32> to tensor<8x8xbf16> return %0 : tensor<8x8xbf16> } // CHECK-LABEL: test_truncf_vector func.func @test_truncf_vector(%arg0 : vector<8xf32>) -> vector<8xbf16> { %0 = arith.truncf %arg0 : vector<8xf32> to vector<8xbf16> return %0 : vector<8xbf16> } // CHECK-LABEL: test_truncf_scalable_vector func.func @test_truncf_scalable_vector(%arg0 : vector<[8]xf32>) -> vector<[8]xbf16> { %0 = arith.truncf %arg0 : vector<[8]xf32> to vector<[8]xbf16> return %0 : vector<[8]xbf16> } // CHECK-LABEL: test_uitofp func.func @test_uitofp(%arg0 : i32) -> f32 { %0 = arith.uitofp %arg0 : i32 to f32 return %0 : f32 } // CHECK-LABEL: test_uitofp_tensor func.func @test_uitofp_tensor(%arg0 : tensor<8x8xi32>) -> tensor<8x8xf32> { %0 = arith.uitofp %arg0 : tensor<8x8xi32> to tensor<8x8xf32> return %0 : tensor<8x8xf32> } // CHECK-LABEL: test_uitofp_vector func.func @test_uitofp_vector(%arg0 : vector<8xi32>) -> vector<8xf32> { %0 = arith.uitofp %arg0 : vector<8xi32> to vector<8xf32> return %0 : vector<8xf32> } // CHECK-LABEL: test_uitofp_scalable_vector func.func @test_uitofp_scalable_vector(%arg0 : vector<[8]xi32>) -> vector<[8]xf32> { %0 = arith.uitofp %arg0 : vector<[8]xi32> to vector<[8]xf32> return %0 : vector<[8]xf32> } // CHECK-LABEL: test_sitofp func.func @test_sitofp(%arg0 : i16) -> f64 { %0 = arith.sitofp %arg0 : i16 to f64 return %0 : f64 } // CHECK-LABEL: test_sitofp_tensor func.func @test_sitofp_tensor(%arg0 : tensor<8x8xi16>) -> tensor<8x8xf64> { %0 = arith.sitofp %arg0 : tensor<8x8xi16> to tensor<8x8xf64> return %0 : tensor<8x8xf64> } // CHECK-LABEL: test_sitofp_vector func.func @test_sitofp_vector(%arg0 : vector<8xi16>) -> vector<8xf64> { %0 = arith.sitofp %arg0 : vector<8xi16> to vector<8xf64> return %0 : vector<8xf64> } // CHECK-LABEL: test_sitofp_scalable_vector func.func @test_sitofp_scalable_vector(%arg0 : vector<[8]xi16>) -> vector<[8]xf64> { %0 = arith.sitofp %arg0 : vector<[8]xi16> to vector<[8]xf64> return %0 : vector<[8]xf64> } // CHECK-LABEL: test_fptoui func.func @test_fptoui(%arg0 : bf16) -> i8 { %0 = arith.fptoui %arg0 : bf16 to i8 return %0 : i8 } // CHECK-LABEL: test_fptoui_tensor func.func @test_fptoui_tensor(%arg0 : tensor<8x8xbf16>) -> tensor<8x8xi8> { %0 = arith.fptoui %arg0 : tensor<8x8xbf16> to tensor<8x8xi8> return %0 : tensor<8x8xi8> } // CHECK-LABEL: test_fptoui_vector func.func @test_fptoui_vector(%arg0 : vector<8xbf16>) -> vector<8xi8> { %0 = arith.fptoui %arg0 : vector<8xbf16> to vector<8xi8> return %0 : vector<8xi8> } // CHECK-LABEL: test_fptoui_scalable_vector func.func @test_fptoui_scalable_vector(%arg0 : vector<[8]xbf16>) -> vector<[8]xi8> { %0 = arith.fptoui %arg0 : vector<[8]xbf16> to vector<[8]xi8> return %0 : vector<[8]xi8> } // CHECK-LABEL: test_fptosi func.func @test_fptosi(%arg0 : f64) -> i64 { %0 = arith.fptosi %arg0 : f64 to i64 return %0 : i64 } // CHECK-LABEL: test_fptosi_tensor func.func @test_fptosi_tensor(%arg0 : tensor<8x8xf64>) -> tensor<8x8xi64> { %0 = arith.fptosi %arg0 : tensor<8x8xf64> to tensor<8x8xi64> return %0 : tensor<8x8xi64> } // CHECK-LABEL: test_fptosi_vector func.func @test_fptosi_vector(%arg0 : vector<8xf64>) -> vector<8xi64> { %0 = arith.fptosi %arg0 : vector<8xf64> to vector<8xi64> return %0 : vector<8xi64> } // CHECK-LABEL: test_fptosi_scalable_vector func.func @test_fptosi_scalable_vector(%arg0 : vector<[8]xf64>) -> vector<[8]xi64> { %0 = arith.fptosi %arg0 : vector<[8]xf64> to vector<[8]xi64> return %0 : vector<[8]xi64> } // CHECK-LABEL: test_index_cast0 func.func @test_index_cast0(%arg0 : i32) -> index { %0 = arith.index_cast %arg0 : i32 to index return %0 : index } // CHECK-LABEL: test_index_cast_tensor0 func.func @test_index_cast_tensor0(%arg0 : tensor<8x8xi32>) -> tensor<8x8xindex> { %0 = arith.index_cast %arg0 : tensor<8x8xi32> to tensor<8x8xindex> return %0 : tensor<8x8xindex> } // CHECK-LABEL: test_index_cast_vector0 func.func @test_index_cast_vector0(%arg0 : vector<8xi32>) -> vector<8xindex> { %0 = arith.index_cast %arg0 : vector<8xi32> to vector<8xindex> return %0 : vector<8xindex> } // CHECK-LABEL: test_index_cast_scalable_vector0 func.func @test_index_cast_scalable_vector0(%arg0 : vector<[8]xi32>) -> vector<[8]xindex> { %0 = arith.index_cast %arg0 : vector<[8]xi32> to vector<[8]xindex> return %0 : vector<[8]xindex> } // CHECK-LABEL: test_index_cast1 func.func @test_index_cast1(%arg0 : index) -> i64 { %0 = arith.index_cast %arg0 : index to i64 return %0 : i64 } // CHECK-LABEL: test_index_cast_tensor1 func.func @test_index_cast_tensor1(%arg0 : tensor<8x8xindex>) -> tensor<8x8xi64> { %0 = arith.index_cast %arg0 : tensor<8x8xindex> to tensor<8x8xi64> return %0 : tensor<8x8xi64> } // CHECK-LABEL: test_index_cast_vector1 func.func @test_index_cast_vector1(%arg0 : vector<8xindex>) -> vector<8xi64> { %0 = arith.index_cast %arg0 : vector<8xindex> to vector<8xi64> return %0 : vector<8xi64> } // CHECK-LABEL: test_index_cast_scalable_vector1 func.func @test_index_cast_scalable_vector1(%arg0 : vector<[8]xindex>) -> vector<[8]xi64> { %0 = arith.index_cast %arg0 : vector<[8]xindex> to vector<[8]xi64> return %0 : vector<[8]xi64> } // CHECK-LABEL: test_index_castui0 func.func @test_index_castui0(%arg0 : i32) -> index { %0 = arith.index_castui %arg0 : i32 to index return %0 : index } // CHECK-LABEL: test_index_castui_tensor0 func.func @test_index_castui_tensor0(%arg0 : tensor<8x8xi32>) -> tensor<8x8xindex> { %0 = arith.index_castui %arg0 : tensor<8x8xi32> to tensor<8x8xindex> return %0 : tensor<8x8xindex> } // CHECK-LABEL: test_index_castui_vector0 func.func @test_index_castui_vector0(%arg0 : vector<8xi32>) -> vector<8xindex> { %0 = arith.index_castui %arg0 : vector<8xi32> to vector<8xindex> return %0 : vector<8xindex> } // CHECK-LABEL: test_index_castui_scalable_vector0 func.func @test_index_castui_scalable_vector0(%arg0 : vector<[8]xi32>) -> vector<[8]xindex> { %0 = arith.index_castui %arg0 : vector<[8]xi32> to vector<[8]xindex> return %0 : vector<[8]xindex> } // CHECK-LABEL: test_indexui_cast1 func.func @test_indexui_cast1(%arg0 : index) -> i64 { %0 = arith.index_castui %arg0 : index to i64 return %0 : i64 } // CHECK-LABEL: test_index_castui_tensor1 func.func @test_index_castui_tensor1(%arg0 : tensor<8x8xindex>) -> tensor<8x8xi64> { %0 = arith.index_castui %arg0 : tensor<8x8xindex> to tensor<8x8xi64> return %0 : tensor<8x8xi64> } // CHECK-LABEL: test_index_castui_vector1 func.func @test_index_castui_vector1(%arg0 : vector<8xindex>) -> vector<8xi64> { %0 = arith.index_castui %arg0 : vector<8xindex> to vector<8xi64> return %0 : vector<8xi64> } // CHECK-LABEL: test_index_castui_scalable_vector1 func.func @test_index_castui_scalable_vector1(%arg0 : vector<[8]xindex>) -> vector<[8]xi64> { %0 = arith.index_castui %arg0 : vector<[8]xindex> to vector<[8]xi64> return %0 : vector<[8]xi64> } // CHECK-LABEL: test_bitcast0 func.func @test_bitcast0(%arg0 : i64) -> f64 { %0 = arith.bitcast %arg0 : i64 to f64 return %0 : f64 } // CHECK-LABEL: test_bitcast_tensor0 func.func @test_bitcast_tensor0(%arg0 : tensor<8x8xi64>) -> tensor<8x8xf64> { %0 = arith.bitcast %arg0 : tensor<8x8xi64> to tensor<8x8xf64> return %0 : tensor<8x8xf64> } // CHECK-LABEL: test_bitcast_vector0 func.func @test_bitcast_vector0(%arg0 : vector<8xi64>) -> vector<8xf64> { %0 = arith.bitcast %arg0 : vector<8xi64> to vector<8xf64> return %0 : vector<8xf64> } // CHECK-LABEL: test_bitcast_scalable_vector0 func.func @test_bitcast_scalable_vector0(%arg0 : vector<[8]xi64>) -> vector<[8]xf64> { %0 = arith.bitcast %arg0 : vector<[8]xi64> to vector<[8]xf64> return %0 : vector<[8]xf64> } // CHECK-LABEL: test_bitcast1 func.func @test_bitcast1(%arg0 : f32) -> i32 { %0 = arith.bitcast %arg0 : f32 to i32 return %0 : i32 } // CHECK-LABEL: test_bitcast_tensor1 func.func @test_bitcast_tensor1(%arg0 : tensor<8x8xf32>) -> tensor<8x8xi32> { %0 = arith.bitcast %arg0 : tensor<8x8xf32> to tensor<8x8xi32> return %0 : tensor<8x8xi32> } // CHECK-LABEL: test_bitcast_vector1 func.func @test_bitcast_vector1(%arg0 : vector<8xf32>) -> vector<8xi32> { %0 = arith.bitcast %arg0 : vector<8xf32> to vector<8xi32> return %0 : vector<8xi32> } // CHECK-LABEL: test_bitcast_scalable_vector1 func.func @test_bitcast_scalable_vector1(%arg0 : vector<[8]xf32>) -> vector<[8]xi32> { %0 = arith.bitcast %arg0 : vector<[8]xf32> to vector<[8]xi32> return %0 : vector<[8]xi32> } // CHECK-LABEL: test_cmpi func.func @test_cmpi(%arg0 : i64, %arg1 : i64) -> i1 { %0 = arith.cmpi ne, %arg0, %arg1 : i64 return %0 : i1 } // CHECK-LABEL: test_cmpi_tensor func.func @test_cmpi_tensor(%arg0 : tensor<8x8xi64>, %arg1 : tensor<8x8xi64>) -> tensor<8x8xi1> { %0 = arith.cmpi slt, %arg0, %arg1 : tensor<8x8xi64> return %0 : tensor<8x8xi1> } // CHECK-LABEL: test_cmpi_tensor_encoding func.func @test_cmpi_tensor_encoding(%arg0 : tensor<8x8xi64, "foo">, %arg1 : tensor<8x8xi64, "foo">) -> tensor<8x8xi1, "foo"> { %0 = arith.cmpi slt, %arg0, %arg1 : tensor<8x8xi64, "foo"> return %0 : tensor<8x8xi1, "foo"> } // CHECK-LABEL: test_cmpi_vector func.func @test_cmpi_vector(%arg0 : vector<8xi64>, %arg1 : vector<8xi64>) -> vector<8xi1> { %0 = arith.cmpi ult, %arg0, %arg1 : vector<8xi64> return %0 : vector<8xi1> } // CHECK-LABEL: test_cmpi_scalable_vector func.func @test_cmpi_scalable_vector(%arg0 : vector<[8]xi64>, %arg1 : vector<[8]xi64>) -> vector<[8]xi1> { %0 = arith.cmpi ult, %arg0, %arg1 : vector<[8]xi64> return %0 : vector<[8]xi1> } // CHECK-LABEL: test_cmpi_vector_0d func.func @test_cmpi_vector_0d(%arg0 : vector, %arg1 : vector) -> vector { %0 = arith.cmpi ult, %arg0, %arg1 : vector return %0 : vector } // CHECK-LABEL: test_cmpf func.func @test_cmpf(%arg0 : f64, %arg1 : f64) -> i1 { %0 = arith.cmpf oeq, %arg0, %arg1 : f64 return %0 : i1 } // CHECK-LABEL: test_cmpf_tensor func.func @test_cmpf_tensor(%arg0 : tensor<8x8xf64>, %arg1 : tensor<8x8xf64>) -> tensor<8x8xi1> { %0 = arith.cmpf olt, %arg0, %arg1 : tensor<8x8xf64> return %0 : tensor<8x8xi1> } // CHECK-LABEL: test_cmpf_vector func.func @test_cmpf_vector(%arg0 : vector<8xf64>, %arg1 : vector<8xf64>) -> vector<8xi1> { %0 = arith.cmpf ult, %arg0, %arg1 : vector<8xf64> return %0 : vector<8xi1> } // CHECK-LABEL: test_cmpf_scalable_vector func.func @test_cmpf_scalable_vector(%arg0 : vector<[8]xf64>, %arg1 : vector<[8]xf64>) -> vector<[8]xi1> { %0 = arith.cmpf ult, %arg0, %arg1 : vector<[8]xf64> return %0 : vector<[8]xi1> } // CHECK-LABEL: test_index_cast func.func @test_index_cast(%arg0 : index) -> i64 { %0 = arith.index_cast %arg0 : index to i64 return %0 : i64 } // CHECK-LABEL: test_index_cast_tensor func.func @test_index_cast_tensor(%arg0 : tensor) -> tensor { %0 = arith.index_cast %arg0 : tensor to tensor return %0 : tensor } // CHECK-LABEL: test_index_cast_tensor_reverse func.func @test_index_cast_tensor_reverse(%arg0 : tensor) -> tensor { %0 = arith.index_cast %arg0 : tensor to tensor return %0 : tensor } // CHECK-LABEL: func @bitcast( func.func @bitcast(%arg : f32) -> i32 { %res = arith.bitcast %arg : f32 to i32 return %res : i32 } // CHECK-LABEL: test_constant func.func @test_constant() -> () { // CHECK: %c42_i32 = arith.constant 42 : i32 %0 = "arith.constant"(){value = 42 : i32} : () -> i32 // CHECK: %c42_i32_0 = arith.constant 42 : i32 %1 = arith.constant 42 : i32 // CHECK: %c43 = arith.constant {crazy = "func.foo"} 43 : index %2 = arith.constant {crazy = "func.foo"} 43: index // CHECK: %cst = arith.constant 4.300000e+01 : bf16 %3 = arith.constant 43.0 : bf16 // CHECK: %cst_1 = arith.constant dense<0> : vector<4xi32> %4 = arith.constant dense<0> : vector<4 x i32> // CHECK: %cst_2 = arith.constant dense<0> : tensor<42xi32> %5 = arith.constant dense<0> : tensor<42 x i32> // CHECK: %cst_3 = arith.constant dense<0> : vector<42xi32> %6 = arith.constant dense<0> : vector<42 x i32> // CHECK: %true = arith.constant true %7 = arith.constant true // CHECK: %false = arith.constant false %8 = arith.constant false // CHECK: %c-1_i128 = arith.constant -1 : i128 %9 = arith.constant 340282366920938463463374607431768211455 : i128 // CHECK: %c85070591730234615865843651857942052864_i128 = arith.constant 85070591730234615865843651857942052864 : i128 %10 = arith.constant 85070591730234615865843651857942052864 : i128 return } // CHECK-LABEL: func @maximum func.func @maximum(%v1: vector<4xf32>, %v2: vector<4xf32>, %sv1: vector<[4]xf32>, %sv2: vector<[4]xf32>, %f1: f32, %f2: f32, %i1: i32, %i2: i32) { %maximum_vector = arith.maximumf %v1, %v2 : vector<4xf32> %maximum_scalable_vector = arith.maximumf %sv1, %sv2 : vector<[4]xf32> %maximum_float = arith.maximumf %f1, %f2 : f32 %maxnum_vector = arith.maxnumf %v1, %v2 : vector<4xf32> %maxnum_scalable_vector = arith.maxnumf %sv1, %sv2 : vector<[4]xf32> %maxnum_float = arith.maxnumf %f1, %f2 : f32 %max_signed = arith.maxsi %i1, %i2 : i32 %max_unsigned = arith.maxui %i1, %i2 : i32 return } // CHECK-LABEL: func @minimum func.func @minimum(%v1: vector<4xf32>, %v2: vector<4xf32>, %sv1: vector<[4]xf32>, %sv2: vector<[4]xf32>, %f1: f32, %f2: f32, %i1: i32, %i2: i32) { %minimum_vector = arith.minimumf %v1, %v2 : vector<4xf32> %minimum_scalable_vector = arith.minimumf %sv1, %sv2 : vector<[4]xf32> %minimum_float = arith.minimumf %f1, %f2 : f32 %minnum_vector = arith.minnumf %v1, %v2 : vector<4xf32> %minnum_scalable_vector = arith.minnumf %sv1, %sv2 : vector<[4]xf32> %minnum_float = arith.minnumf %f1, %f2 : f32 %min_signed = arith.minsi %i1, %i2 : i32 %min_unsigned = arith.minui %i1, %i2 : i32 return } // CHECK-LABEL: @fastmath func.func @fastmath(%arg0: f32, %arg1: f32, %arg2: i32) { // CHECK: {{.*}} = arith.addf %arg0, %arg1 fastmath : f32 // CHECK: {{.*}} = arith.subf %arg0, %arg1 fastmath : f32 // CHECK: {{.*}} = arith.mulf %arg0, %arg1 fastmath : f32 // CHECK: {{.*}} = arith.divf %arg0, %arg1 fastmath : f32 // CHECK: {{.*}} = arith.remf %arg0, %arg1 fastmath : f32 // CHECK: {{.*}} = arith.negf %arg0 fastmath : f32 %0 = arith.addf %arg0, %arg1 fastmath : f32 %1 = arith.subf %arg0, %arg1 fastmath : f32 %2 = arith.mulf %arg0, %arg1 fastmath : f32 %3 = arith.divf %arg0, %arg1 fastmath : f32 %4 = arith.remf %arg0, %arg1 fastmath : f32 %5 = arith.negf %arg0 fastmath : f32 // CHECK: {{.*}} = arith.addf %arg0, %arg1 : f32 %6 = arith.addf %arg0, %arg1 fastmath : f32 // CHECK: {{.*}} = arith.addf %arg0, %arg1 fastmath : f32 %7 = arith.addf %arg0, %arg1 fastmath : f32 // CHECK: {{.*}} = arith.mulf %arg0, %arg1 fastmath : f32 %8 = arith.mulf %arg0, %arg1 fastmath : f32 // CHECK: {{.*}} = arith.cmpf oeq, %arg0, %arg1 fastmath : f32 %9 = arith.cmpf oeq, %arg0, %arg1 fastmath : f32 return } // CHECK-LABEL: @select_tensor func.func @select_tensor(%arg0 : tensor<8xi1>, %arg1 : tensor<8xi32>, %arg2 : tensor<8xi32>) -> tensor<8xi32> { // CHECK: = arith.select %{{.*}}, %{{.*}}, %{{.*}} : tensor<8xi1>, tensor<8xi32> %0 = arith.select %arg0, %arg1, %arg2 : tensor<8xi1>, tensor<8xi32> return %0 : tensor<8xi32> } // CHECK-LABEL: @select_tensor_encoding func.func @select_tensor_encoding( %arg0 : tensor<8xi1, "foo">, %arg1 : tensor<8xi32, "foo">, %arg2 : tensor<8xi32, "foo">) -> tensor<8xi32, "foo"> { // CHECK: = arith.select %{{.*}}, %{{.*}}, %{{.*}} : tensor<8xi1, "foo">, tensor<8xi32, "foo"> %0 = arith.select %arg0, %arg1, %arg2 : tensor<8xi1, "foo">, tensor<8xi32, "foo"> return %0 : tensor<8xi32, "foo"> } // CHECK-LABEL: @intflags_func func.func @intflags_func(%arg0: i64, %arg1: i64) { // CHECK: %{{.*}} = arith.addi %{{.*}}, %{{.*}} overflow : i64 %0 = arith.addi %arg0, %arg1 overflow : i64 // CHECK: %{{.*}} = arith.subi %{{.*}}, %{{.*}} overflow : i64 %1 = arith.subi %arg0, %arg1 overflow : i64 // CHECK: %{{.*}} = arith.muli %{{.*}}, %{{.*}} overflow : i64 %2 = arith.muli %arg0, %arg1 overflow : i64 return }