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1! RUN: %python %S/test_errors.py %s %flang_fc12! Check for semantic errors in lcobound() function references3 4program lcobound_tests5 use iso_c_binding, only : c_int32_t, c_int64_t6 implicit none7 8 integer n, i, array(1), non_coarray(1), scalar_coarray[*], array_coarray(1)[*], non_constant, scalar9 integer, parameter :: const_out_of_range_dim = 5, const_in_range_dim = 110 real, allocatable :: coarray_corank3[:,:,:]11 logical non_integer, logical_coarray[3,*]12 logical, parameter :: const_non_integer = .true.13 integer, allocatable :: lcobounds(:)14 real bounded[2:3,4:5,*]15 16 integer(kind=merge(kind(1),-1,all(lcobound(bounded)==[2,4,1]))) test_lcobound17 18 !___ standard-conforming statement with no optional arguments present ___19 lcobounds = lcobound(scalar_coarray)20 lcobounds = lcobound(array_coarray)21 lcobounds = lcobound(coarray_corank3)22 lcobounds = lcobound(logical_coarray)23 lcobounds = lcobound(coarray=scalar_coarray)24 25 !___ standard-conforming statements with optional dim argument present ___26 n = lcobound(scalar_coarray, 1)27 n = lcobound(coarray_corank3, 1)28 n = lcobound(coarray_corank3, 3)29 n = lcobound(scalar_coarray, const_in_range_dim)30 n = lcobound(logical_coarray, const_in_range_dim)31 n = lcobound(scalar_coarray, dim=1)32 n = lcobound(coarray=scalar_coarray, dim=1)33 n = lcobound( dim=1, coarray=scalar_coarray)34 35 !___ standard-conforming statements with optional kind argument present ___36 n = lcobound(scalar_coarray, 1, c_int32_t)37 38 n = lcobound(scalar_coarray, 1, kind=c_int32_t)39 40 n = lcobound(scalar_coarray, dim=1, kind=c_int32_t)41 n = lcobound(scalar_coarray, kind=c_int32_t, dim=1)42 43 lcobounds = lcobound(scalar_coarray, kind=c_int32_t)44 45 lcobounds = lcobound(coarray=scalar_coarray, kind=c_int32_t)46 lcobounds = lcobound(kind=c_int32_t, coarray=scalar_coarray)47 48 n = lcobound(coarray=scalar_coarray, dim=1, kind=c_int32_t)49 n = lcobound(dim=1, coarray=scalar_coarray, kind=c_int32_t)50 n = lcobound(kind=c_int32_t, coarray=scalar_coarray, dim=1)51 n = lcobound(dim=1, kind=c_int32_t, coarray=scalar_coarray)52 n = lcobound(kind=c_int32_t, dim=1, coarray=scalar_coarray)53 54 !___ non-conforming statements ___55 56 !ERROR: DIM=0 dimension must be positive57 n = lcobound(scalar_coarray, dim=0)58 59 !ERROR: DIM=0 dimension must be positive60 n = lcobound(coarray_corank3, dim=0)61 62 !ERROR: DIM=-1 dimension must be positive63 n = lcobound(scalar_coarray, dim=-1)64 65 !ERROR: DIM=2 dimension is out of range for corank-1 coarray66 n = lcobound(array_coarray, dim=2)67 68 !ERROR: DIM=2 dimension is out of range for corank-1 coarray69 n = lcobound(array_coarray, 2)70 71 !ERROR: DIM=4 dimension is out of range for corank-3 coarray72 n = lcobound(coarray_corank3, dim=4)73 74 !ERROR: DIM=4 dimension is out of range for corank-3 coarray75 n = lcobound(dim=4, coarray=coarray_corank3)76 77 !ERROR: DIM=5 dimension is out of range for corank-3 coarray78 n = lcobound(coarray_corank3, const_out_of_range_dim)79 80 !ERROR: No intrinsic or user-defined ASSIGNMENT(=) matches scalar INTEGER(4) and rank 1 array of INTEGER(4)81 scalar = lcobound(scalar_coarray)82 83 !ERROR: missing mandatory 'coarray=' argument84 n = lcobound(dim=i)85 86 !ERROR: Actual argument for 'dim=' has bad type 'LOGICAL(4)'87 n = lcobound(scalar_coarray, non_integer)88 89 !ERROR: Actual argument for 'dim=' has bad type 'LOGICAL(4)'90 n = lcobound(scalar_coarray, dim=non_integer)91 92 !ERROR: Actual argument for 'kind=' has bad type 'LOGICAL(4)'93 lcobounds = lcobound(scalar_coarray, kind=const_non_integer)94 95 !ERROR: Actual argument for 'kind=' has bad type 'LOGICAL(4)'96 n = lcobound(scalar_coarray, 1, const_non_integer)97 98 !ERROR: 'kind=' argument must be a constant scalar integer whose value is a supported kind for the intrinsic result type99 lcobounds = lcobound(scalar_coarray, kind=non_constant)100 101 !ERROR: 'kind=' argument must be a constant scalar integer whose value is a supported kind for the intrinsic result type102 n = lcobound(scalar_coarray, dim=1, kind=non_constant)103 104 !ERROR: 'kind=' argument must be a constant scalar integer whose value is a supported kind for the intrinsic result type105 n = lcobound(scalar_coarray, 1, non_constant)106 107 !ERROR: missing mandatory 'coarray=' argument108 n = lcobound(dim=i, kind=c_int32_t)109 110 !ERROR: actual argument #2 without a keyword may not follow an actual argument with a keyword111 n = lcobound(coarray=scalar_coarray, i)112 113 n = lcobound(coarray=scalar_coarray, dim=i)114 115 !ERROR: missing mandatory 'coarray=' argument116 lcobounds = lcobound()117 118 !ERROR: 'coarray=' argument must have corank > 0 for intrinsic 'lcobound'119 lcobounds = lcobound(3.4)120 121 !ERROR: keyword argument to intrinsic 'lcobound' was supplied positionally by an earlier actual argument122 n = lcobound(scalar_coarray, 1, coarray=scalar_coarray)123 124 !ERROR: too many actual arguments for intrinsic 'lcobound'125 n = lcobound(scalar_coarray, i, c_int32_t, 0)126 127 !ERROR: 'coarray=' argument must have corank > 0 for intrinsic 'lcobound'128 lcobounds = lcobound(coarray=non_coarray)129 130 !ERROR: 'coarray=' argument must have corank > 0 for intrinsic 'lcobound'131 n = lcobound(coarray=non_coarray, dim=1)132 133 !ERROR: 'dim=' argument has unacceptable rank 1134 n = lcobound(scalar_coarray, array )135 136 !ERROR: unknown keyword argument to intrinsic 'lcobound'137 lcobounds = lcobound(c=scalar_coarray)138 139 !ERROR: unknown keyword argument to intrinsic 'lcobound'140 n = lcobound(scalar_coarray, dims=i)141 142 !ERROR: unknown keyword argument to intrinsic 'lcobound'143 n = lcobound(scalar_coarray, i, kinds=c_int32_t)144 145 !ERROR: repeated keyword argument to intrinsic 'lcobound'146 n = lcobound(scalar_coarray, dim=1, dim=2)147 148 !ERROR: repeated keyword argument to intrinsic 'lcobound'149 lcobounds = lcobound(coarray=scalar_coarray, coarray=array_coarray)150 151 !ERROR: repeated keyword argument to intrinsic 'lcobound'152 lcobounds = lcobound(scalar_coarray, kind=c_int32_t, kind=c_int64_t)153 154end program lcobound_tests155