fix pr/45972
[official-gcc.git] / gcc / testsuite / gfortran.dg / aliasing_dummy_1.f90
blob686853a1c08ebf9f4bf636f57d6bfd732cbf793e
1 ! { dg-do run }
2 ! { dg-options "-std=legacy" }
4 ! This tests the fix for PR24276, which originated from the Loren P. Meissner example,
5 ! Array_List. The PR concerns dummy argument aliassing of components of arrays of derived
6 ! types as arrays of the type of the component. gfortran would compile and run this
7 ! example but the stride used did not match the actual argument. This test case exercises
8 ! a procedure call (to foo2, below) that is identical to Array_List's.
10 ! Contributed by Paul Thomas <pault@gcc.gnu.org>
12 program test_lex
13 type :: dtype
14 integer :: n
15 character*5 :: word
16 end type dtype
18 type :: list
19 type(dtype), dimension(4) :: list
20 integer :: l = 4
21 end type list
23 type(list) :: table
24 type(dtype) :: elist(2,2)
26 table%list = (/dtype (1 , "one "), dtype (2 , "two "), dtype (3 , "three"), dtype (4 , "four ")/)
28 ! Test 1D with assumed shape (original bug) and assumed size.
29 call bar (table, 2, 4)
30 if (any (table%list%word.ne.(/"one ","i= 2","three","i= 4"/))) call abort ()
32 elist = reshape (table%list, (/2,2/))
34 ! Check 2D is OK with assumed shape and assumed size.
35 call foo3 (elist%word, 1)
36 call foo1 (elist%word, 3)
37 if (any (elist%word.ne.reshape ((/"i= 1","i= 2","i= 3","i= 4"/), (/2,2/)))) call abort ()
39 contains
41 subroutine bar (table, n, m)
42 type(list) :: table
43 integer n, m
44 call foo1 (table%list(:table%l)%word, n)
45 call foo2 (table%list(:table%l)%word, m)
46 end subroutine bar
48 subroutine foo1 (slist, i)
49 character(*), dimension(*) :: slist
50 integer i
51 write (slist(i), '(2hi=,i3)') i
52 end subroutine foo1
54 subroutine foo2 (slist, i)
55 character(5), dimension(:) :: slist
56 integer i
57 write (slist(i), '(2hi=,i3)') i
58 end subroutine foo2
60 subroutine foo3 (slist, i)
61 character(5), dimension(:,:) :: slist
62 integer i
63 write (slist(1,1), '(2hi=,i3)') i
64 end subroutine foo3
66 end program test_lex