Mercurial > hg > CbC > CbC_gcc
view gcc/testsuite/gfortran.dg/typebound_proc_6.f03 @ 128:fe568345ddd5
fix CbC-example
| author | mir3636 |
|---|---|
| date | Wed, 11 Apr 2018 19:32:28 +0900 |
| parents | 04ced10e8804 |
| children |
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! { dg-do compile } ! Type-bound procedures ! Test for the check if overriding methods "match" the overridden ones by their ! characteristics. MODULE testmod IMPLICIT NONE TYPE supert CONTAINS ! For checking the PURE/ELEMENTAL matching. PROCEDURE, NOPASS :: pure1 => proc_pure PROCEDURE, NOPASS :: pure2 => proc_pure PROCEDURE, NOPASS :: nonpure => proc_sub PROCEDURE, NOPASS :: elemental1 => proc_elemental PROCEDURE, NOPASS :: elemental2 => proc_elemental PROCEDURE, NOPASS :: nonelem1 => proc_nonelem PROCEDURE, NOPASS :: nonelem2 => proc_nonelem ! Same number of arguments! PROCEDURE, NOPASS :: three_args_1 => proc_threearg PROCEDURE, NOPASS :: three_args_2 => proc_threearg ! For SUBROUTINE/FUNCTION/result checking. PROCEDURE, NOPASS :: subroutine1 => proc_sub PROCEDURE, NOPASS :: subroutine2 => proc_sub PROCEDURE, NOPASS :: intfunction1 => proc_intfunc PROCEDURE, NOPASS :: intfunction2 => proc_intfunc PROCEDURE, NOPASS :: intfunction3 => proc_intfunc ! For access-based checks. PROCEDURE, NOPASS, PRIVATE :: priv => proc_sub PROCEDURE, NOPASS, PUBLIC :: publ1 => proc_sub PROCEDURE, NOPASS, PUBLIC :: publ2 => proc_sub ! For passed-object dummy argument checks. PROCEDURE, NOPASS :: nopass1 => proc_stme1 PROCEDURE, NOPASS :: nopass2 => proc_stme1 PROCEDURE, PASS :: pass1 => proc_stme1 PROCEDURE, PASS(me) :: pass2 => proc_stme1 PROCEDURE, PASS(me1) :: pass3 => proc_stmeme ! For corresponding dummy arguments. PROCEDURE, PASS :: corresp1 => proc_stmeint PROCEDURE, PASS :: corresp2 => proc_stmeint PROCEDURE, PASS :: corresp3 => proc_stmeint END TYPE supert ! Checking for NON_OVERRIDABLE is in typebound_proc_5.f03. TYPE, EXTENDS(supert) :: t CONTAINS ! For checking the PURE/ELEMENTAL matching. PROCEDURE, NOPASS :: pure1 => proc_pure ! Ok, both pure. PROCEDURE, NOPASS :: pure2 => proc_sub ! { dg-error "must also be PURE" } PROCEDURE, NOPASS :: nonpure => proc_pure ! Ok, overridden not pure. PROCEDURE, NOPASS :: elemental1 => proc_elemental ! Ok, both elemental. PROCEDURE, NOPASS :: elemental2 => proc_nonelem ! { dg-error "must also be" } PROCEDURE, NOPASS :: nonelem1 => proc_nonelem ! Ok, non elemental. PROCEDURE, NOPASS :: nonelem2 => proc_elemental ! { dg-error "must not be ELEMENTAL" } ! Same number of arguments! PROCEDURE, NOPASS :: three_args_1 => proc_threearg ! Ok. PROCEDURE, NOPASS :: three_args_2 => proc_twoarg ! { dg-error "same number of formal arguments" } ! For SUBROUTINE/FUNCTION/result checking. PROCEDURE, NOPASS :: subroutine1 => proc_sub ! Ok, both subroutines. PROCEDURE, NOPASS :: subroutine2 => proc_intfunc ! { dg-error "must also be a SUBROUTINE" } PROCEDURE, NOPASS :: intfunction1 => proc_intfunc ! Ok, matching functions. PROCEDURE, NOPASS :: intfunction2 => proc_sub ! { dg-error "must also be a FUNCTION" } PROCEDURE, NOPASS :: intfunction3 => proc_realfunc ! { dg-error "Type mismatch in function result" } ! For access-based checks. PROCEDURE, NOPASS, PUBLIC :: priv => proc_sub ! Ok, increases visibility. PROCEDURE, NOPASS, PUBLIC :: publ1 => proc_sub ! Ok, both PUBLIC. PROCEDURE, NOPASS, PRIVATE :: publ2 => proc_sub ! { dg-error "must not be PRIVATE" } ! For passed-object dummy argument checks. PROCEDURE, NOPASS :: nopass1 => proc_stme1 ! Ok, both NOPASS. PROCEDURE, PASS :: nopass2 => proc_tme1 ! { dg-error "must also be NOPASS" } PROCEDURE, PASS :: pass1 => proc_tme1 ! Ok. PROCEDURE, NOPASS :: pass2 => proc_stme1 ! { dg-error "must also be PASS" } PROCEDURE, PASS(me2) :: pass3 => proc_tmeme ! { dg-error "same position" } ! For corresponding dummy arguments. PROCEDURE, PASS :: corresp1 => proc_tmeint ! Ok. PROCEDURE, PASS :: corresp2 => proc_tmeintx ! { dg-error "should be named 'a'" } PROCEDURE, PASS :: corresp3 => proc_tmereal ! { dg-error "Type mismatch in argument 'a'" } END TYPE t CONTAINS PURE SUBROUTINE proc_pure () END SUBROUTINE proc_pure ELEMENTAL SUBROUTINE proc_elemental (arg) IMPLICIT NONE INTEGER, INTENT(INOUT) :: arg END SUBROUTINE proc_elemental SUBROUTINE proc_nonelem (arg) IMPLICIT NONE INTEGER, INTENT(INOUT) :: arg END SUBROUTINE proc_nonelem SUBROUTINE proc_threearg (a, b, c) IMPLICIT NONE INTEGER :: a, b, c END SUBROUTINE proc_threearg SUBROUTINE proc_twoarg (a, b) IMPLICIT NONE INTEGER :: a, b END SUBROUTINE proc_twoarg SUBROUTINE proc_sub () END SUBROUTINE proc_sub INTEGER FUNCTION proc_intfunc () proc_intfunc = 42 END FUNCTION proc_intfunc REAL FUNCTION proc_realfunc () proc_realfunc = 42.0 END FUNCTION proc_realfunc SUBROUTINE proc_stme1 (me, a) IMPLICIT NONE CLASS(supert) :: me INTEGER :: a END SUBROUTINE proc_stme1 SUBROUTINE proc_tme1 (me, a) IMPLICIT NONE CLASS(t) :: me INTEGER :: a END SUBROUTINE proc_tme1 SUBROUTINE proc_stmeme (me1, me2) IMPLICIT NONE CLASS(supert) :: me1, me2 END SUBROUTINE proc_stmeme SUBROUTINE proc_tmeme (me1, me2) IMPLICIT NONE CLASS(t) :: me1, me2 END SUBROUTINE proc_tmeme SUBROUTINE proc_stmeint (me, a) IMPLICIT NONE CLASS(supert) :: me INTEGER :: a END SUBROUTINE proc_stmeint SUBROUTINE proc_tmeint (me, a) IMPLICIT NONE CLASS(t) :: me INTEGER :: a END SUBROUTINE proc_tmeint SUBROUTINE proc_tmeintx (me, x) IMPLICIT NONE CLASS(t) :: me INTEGER :: x END SUBROUTINE proc_tmeintx SUBROUTINE proc_tmereal (me, a) IMPLICIT NONE CLASS(t) :: me REAL :: a END SUBROUTINE proc_tmereal END MODULE testmod