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Patch 2/3 of the transition step 1 described in https://discourse.llvm.org/t/rfc-enabling-the-hlfir-lowering-by-default/72778/7. All the modified tests are still here since coverage for the direct lowering to FIR was still needed while it was default. Some already have an HLFIR version, some have not and will need to be ported in step 2 described in the RFC. Note that another 147 lit tests use -emit-fir/-emit-llvm outputs but do not need a flag since the HLFIR/no HLFIR output is the same for what is being tested.
110 lines
3.1 KiB
Fortran
110 lines
3.1 KiB
Fortran
! RUN: bbc -hlfir=false %s -o "-" | FileCheck %s
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! Test integer intrinsic operation lowering to fir.
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! CHECK-LABEL:eq0_test
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LOGICAL FUNCTION eq0_test(x0, x1)
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INTEGER(4) :: x0
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INTEGER(4) :: x1
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! CHECK-DAG:[[reg1:%[0-9]+]] = fir.load %arg0
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! CHECK-DAG:[[reg2:%[0-9]+]] = fir.load %arg1
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! CHECK:[[reg3:%[0-9]+]] = arith.cmpi eq, [[reg1]], [[reg2]] : i32
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! CHECK:fir.convert [[reg3]] {{.*}} -> !fir.logical<4>
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eq0_test = x0 .EQ. x1
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END FUNCTION
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! CHECK-LABEL:ne1_test
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LOGICAL FUNCTION ne1_test(x0, x1)
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INTEGER(4) :: x0
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INTEGER(4) :: x1
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! CHECK-DAG:[[reg1:%[0-9]+]] = fir.load %arg0
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! CHECK-DAG:[[reg2:%[0-9]+]] = fir.load %arg1
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! CHECK:[[reg3:%[0-9]+]] = arith.cmpi ne, [[reg1]], [[reg2]] : i32
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! CHECK:fir.convert [[reg3]] {{.*}} -> !fir.logical<4>
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ne1_test = x0 .NE. x1
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END FUNCTION
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! CHECK-LABEL:lt2_test
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LOGICAL FUNCTION lt2_test(x0, x1)
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INTEGER(4) :: x0
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INTEGER(4) :: x1
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! CHECK-DAG:[[reg1:%[0-9]+]] = fir.load %arg0
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! CHECK-DAG:[[reg2:%[0-9]+]] = fir.load %arg1
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! CHECK:[[reg3:%[0-9]+]] = arith.cmpi slt, [[reg1]], [[reg2]] : i32
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! CHECK:fir.convert [[reg3]] {{.*}} -> !fir.logical<4>
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lt2_test = x0 .LT. x1
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END FUNCTION
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! CHECK-LABEL:le3_test
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LOGICAL FUNCTION le3_test(x0, x1)
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INTEGER(4) :: x0
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INTEGER(4) :: x1
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! CHECK-DAG:[[reg1:%[0-9]+]] = fir.load %arg0
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! CHECK-DAG:[[reg2:%[0-9]+]] = fir.load %arg1
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! CHECK:[[reg3:%[0-9]+]] = arith.cmpi sle, [[reg1]], [[reg2]] : i32
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! CHECK:fir.convert [[reg3]] {{.*}} -> !fir.logical<4>
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le3_test = x0 .LE. x1
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END FUNCTION
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! CHECK-LABEL:gt4_test
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LOGICAL FUNCTION gt4_test(x0, x1)
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INTEGER(4) :: x0
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INTEGER(4) :: x1
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! CHECK-DAG:[[reg1:%[0-9]+]] = fir.load %arg0
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! CHECK-DAG:[[reg2:%[0-9]+]] = fir.load %arg1
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! CHECK:[[reg3:%[0-9]+]] = arith.cmpi sgt, [[reg1]], [[reg2]] : i32
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! CHECK:fir.convert [[reg3]] {{.*}} -> !fir.logical<4>
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gt4_test = x0 .GT. x1
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END FUNCTION
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! CHECK-LABEL:ge5_test
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LOGICAL FUNCTION ge5_test(x0, x1)
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INTEGER(4) :: x0
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INTEGER(4) :: x1
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! CHECK-DAG:[[reg1:%[0-9]+]] = fir.load %arg0
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! CHECK-DAG:[[reg2:%[0-9]+]] = fir.load %arg1
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! CHECK:[[reg3:%[0-9]+]] = arith.cmpi sge, [[reg1]], [[reg2]] : i32
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! CHECK:fir.convert [[reg3]] {{.*}} -> !fir.logical<4>
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ge5_test = x0 .GE. x1
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END FUNCTION
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! CHECK-LABEL:add6_test
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INTEGER(4) FUNCTION add6_test(x0, x1)
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INTEGER(4) :: x0
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INTEGER(4) :: x1
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! CHECK-DAG:[[reg1:%[0-9]+]] = fir.load %arg0
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! CHECK-DAG:[[reg2:%[0-9]+]] = fir.load %arg1
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! CHECK:addi [[reg1]], [[reg2]] : i32
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add6_test = x0 + x1
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END FUNCTION
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! CHECK-LABEL:sub7_test
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INTEGER(4) FUNCTION sub7_test(x0, x1)
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INTEGER(4) :: x0
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INTEGER(4) :: x1
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! CHECK-DAG:[[reg1:%[0-9]+]] = fir.load %arg0
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! CHECK-DAG:[[reg2:%[0-9]+]] = fir.load %arg1
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! CHECK:subi [[reg1]], [[reg2]] : i32
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sub7_test = x0 - x1
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END FUNCTION
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! CHECK-LABEL:mult8_test
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INTEGER(4) FUNCTION mult8_test(x0, x1)
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INTEGER(4) :: x0
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INTEGER(4) :: x1
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! CHECK-DAG:[[reg1:%[0-9]+]] = fir.load %arg0
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! CHECK-DAG:[[reg2:%[0-9]+]] = fir.load %arg1
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! CHECK:muli [[reg1]], [[reg2]] : i32
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mult8_test = x0 * x1
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END FUNCTION
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! CHECK-LABEL:div9_test
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INTEGER(4) FUNCTION div9_test(x0, x1)
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INTEGER(4) :: x0
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INTEGER(4) :: x1
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! CHECK-DAG:[[reg1:%[0-9]+]] = fir.load %arg0
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! CHECK-DAG:[[reg2:%[0-9]+]] = fir.load %arg1
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! CHECK:arith.divsi [[reg1]], [[reg2]] : i32
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div9_test = x0 / x1
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END FUNCTION
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