! { dg-do run } ! { dg-additional-sources c_f_tests_driver.c } module c_f_pointer_tests use, intrinsic :: iso_c_binding type myF90Derived integer(c_int) :: cInt real(c_double) :: cDouble real(c_float) :: cFloat integer(c_short) :: cShort type(c_funptr) :: myFunPtr end type myF90Derived type dummyDerived integer(c_int) :: myInt end type dummyDerived contains subroutine testDerivedPtrs(myCDerived, derivedArray, arrayLen, & derived2DArray, dim1, dim2) & bind(c, name="testDerivedPtrs") implicit none type(c_ptr), value :: myCDerived type(c_ptr), value :: derivedArray integer(c_int), value :: arrayLen type(c_ptr), value :: derived2DArray integer(c_int), value :: dim1 integer(c_int), value :: dim2 type(myF90Derived), pointer :: myF90Type type(myF90Derived), dimension(:), pointer :: myF90DerivedArray type(myF90Derived), dimension(:,:), pointer :: derivedArray2D ! one dimensional array coming in (derivedArray) integer(c_int), dimension(1:1) :: shapeArray integer(c_int), dimension(1:2) :: shapeArray2 type(myF90Derived), dimension(1:10), target :: tmpArray call c_f_pointer(myCDerived, myF90Type) ! make sure numbers are ok. initialized in c_f_tests_driver.c if(myF90Type%cInt .ne. 1) then call abort() endif if(myF90Type%cDouble .ne. 2.0d0) then call abort() endif if(myF90Type%cFloat .ne. 3.0) then call abort() endif if(myF90Type%cShort .ne. 4) then call abort() endif shapeArray(1) = arrayLen call c_f_pointer(derivedArray, myF90DerivedArray, shapeArray) ! upper bound of each dim is arrayLen2 shapeArray2(1) = dim1 shapeArray2(2) = dim2 call c_f_pointer(derived2DArray, derivedArray2D, shapeArray2) ! make sure the last element is ok if((derivedArray2D(dim1, dim2)%cInt .ne. 4) .or. & (derivedArray2D(dim1, dim2)%cDouble .ne. 4.0d0) .or. & (derivedArray2D(dim1, dim2)%cFloat .ne. 4.0) .or. & (derivedArray2D(dim1, dim2)%cShort .ne. 4)) then call abort() endif end subroutine testDerivedPtrs end module c_f_pointer_tests ! { dg-final { cleanup-modules "c_f_pointer_tests" } }