1! RUN: %python %S/test_folding.py %s %flang_fc1 2! Tests folding of SHAPE(TRANSFER(...)) 3! Adjusted to allow for folding (or not) of TRANSFER(). 4 5module m 6 integer :: j 7 real :: a(3) 8 logical, parameter :: test_size_v1 = size(shape(transfer(j, 0_1,size=4))) == 1 9 logical, parameter :: test_size_v2 = all(shape(transfer(j, 0_1,size=4)) == [4]) 10 logical, parameter :: test_scalar_v1 = size(shape(transfer(j, 0_1))) == 0 11 logical, parameter :: test_vector_v1 = size(shape(transfer(j, [0_1]))) == 1 12 logical, parameter :: test_vector_v2 = all(shape(transfer(j, [0_1])) == [4]) 13 logical, parameter :: test_array_v1 = size(shape(transfer(j, reshape([0_1],[1,1])))) == 1 14 logical, parameter :: test_array_v2 = all(shape(transfer(j, reshape([0_1],[1,1]))) == [4]) 15 logical, parameter :: test_array_v3 = all(shape(transfer(a, [(0.,0.)])) == [2]) 16 17 logical, parameter :: test_size_1 = size(shape(transfer(123456789,0_1,size=4))) == 1 18 logical, parameter :: test_size_2 = all(shape(transfer(123456789,0_1,size=4)) == [4]) 19 logical, parameter :: test_scalar_1 = size(shape(transfer(123456789, 0_1))) == 0 20 logical, parameter :: test_vector_1 = size(shape(transfer(123456789, [0_1]))) == 1 21 logical, parameter :: test_vector_2 = all(shape(transfer(123456789, [0_1])) == [4]) 22 logical, parameter :: test_array_1 = size(shape(transfer(123456789, reshape([0_1],[1,1])))) == 1 23 logical, parameter :: test_array_2 = all(shape(transfer(123456789, reshape([0_1],[1,1]))) == [4]) 24 logical, parameter :: test_array_3 = all(shape(transfer([1.,2.,3.], [(0.,0.)])) == [2]) 25end module 26