if (!gfc_expr_check_typed (*upper, gfc_current_ns, false))
return AS_UNKNOWN;
- gfc_try_simplify_expr (*upper, 0);
-
if (((*upper)->expr_type == EXPR_CONSTANT
&& (*upper)->ts.type != BT_INTEGER) ||
((*upper)->expr_type == EXPR_FUNCTION
if (!gfc_expr_check_typed (*upper, gfc_current_ns, false))
return AS_UNKNOWN;
- gfc_try_simplify_expr (*upper, 0);
-
if (((*upper)->expr_type == EXPR_CONSTANT
&& (*upper)->ts.type != BT_INTEGER) ||
((*upper)->expr_type == EXPR_FUNCTION
! Testcase by G.Steinmetz
program p
- integer, parameter :: a((2.)) = [4,8] ! { dg-error "scalar INTEGER" }
- integer, parameter :: z(1:(2.)) = [4,8] ! { dg-error "scalar INTEGER" }
- print *, a(1:1) ! { dg-error "Syntax error" }
+ integer, parameter :: a((2.)) = [4,8] ! { dg-error "INTEGER type" }
+ integer, parameter :: z(1:(2.)) = [4,8] ! { dg-error "INTEGER type" }
+ print *, a(1:1)
end
+
+! { dg-prune-output "Parameter array" }
--- /dev/null
+! { dg-do run }
+! { dg-additional-options "-fdump-tree-original" }
+! PR fortran/108131
+!
+! Incorrect array bounds when bound intrinsic used in declaration
+
+program test
+ implicit none
+ integer, parameter :: mg(7:10) = 0
+ integer, parameter :: u = ubound(mg, dim=1)
+ integer, parameter :: cx(-1:ubound(mg, dim=1)) = 1
+ integer, parameter :: dx(lbound(mg, dim=1):ubound(cx, dim=1)) = 2
+
+ write(*,*) ubound(mg, dim=1)
+ write(*,*) ubound(cx, dim=1)
+ if (u /= 10) stop 1
+ if (ubound(mg, dim=1) /= 10) stop 2
+ if (ubound(cx, dim=1) /= 10) stop 3
+ if (ubound(dx, dim=1) /= 10) stop 4
+ if (lbound(mg, dim=1) /= 7) stop 5
+ if (lbound(cx, dim=1) /= -1) stop 6
+ if (lbound(dx, dim=1) /= 7) stop 7
+end program test
+
+! { dg-final { scan-tree-dump-not "_gfortran_stop_numeric" "original" } }