test/Semantics/reduce01.f90 - llvm-project/flang - Git at Google

 ! RUN: %python %S/test_errors.py %s %flang_fc1
 module m
   type :: pdt(len)
     integer, len :: len
     character(len=len) :: ch
   end type
  contains
   pure real function f(x,y)
     real, intent(in) :: x, y
     f = x + y
   end function
   impure real function f1(x,y)
     f1 = x + y
   end function
   pure function f2(x,y)
     real :: f2(1)
     real, intent(in) :: x, y
     f2(1) = x + y
   end function
   pure real function f3(x,y,z)
     real, intent(in) :: x, y, z
     f3 = x + y + z
   end function
   pure real function f4(x,y)
     interface
       pure real function x(); end function
       pure real function y(); end function
     end interface
     f4 = x() + y()
   end function
   pure integer function f5(x,y)
     real, intent(in) :: x, y
     f5 = x + y
   end function
   pure real function f6(x,y)
     real, intent(in) :: x(*), y(*)
     f6 = x(1) + y(1)
   end function
   pure real function f7(x,y)
     real, intent(in), allocatable :: x
     real, intent(in) :: y
     f7 = x + y
   end function
   pure real function f8(x,y)
     real, intent(in), pointer :: x
     real, intent(in) :: y
     f8 = x + y
   end function
   pure real function f9(x,y)
     real, intent(in), optional :: x
     real, intent(in) :: y
     f9 = x + y
   end function
   pure real function f10a(x,y)
     real, intent(in), asynchronous :: x
     real, intent(in) :: y
     f10a = x + y
   end function
   pure real function f10b(x,y)
     real, intent(in), target :: x
     real, intent(in) :: y
     f10b = x + y
   end function
   pure real function f10c(x,y)
     real, intent(in), value :: x
     real, intent(in) :: y
     f10c = x + y
   end function
   pure function f11(x,y) result(res)
     type(pdt(*)), intent(in) :: x, y
     type(pdt(max(x%len, y%len))) :: res
     res%ch = x%ch // y%ch
   end function

   subroutine errors
     real :: a(10,10), b, c(10)
     !ERROR: OPERATION= argument of REDUCE() must be a pure function of two data arguments
     b = reduce(a, f1)
     !ERROR: OPERATION= argument of REDUCE() must be a scalar function
     b = reduce(a, f2)
     !ERROR: OPERATION= argument of REDUCE() must be a pure function of two data arguments
     b = reduce(a, f3)
     !ERROR: OPERATION= argument of REDUCE() may not have dummy procedure arguments
     b = reduce(a, f4)
     !ERROR: OPERATION= argument of REDUCE() must have the same type as ARRAY=
     b = reduce(a, f5)
     !ERROR: Arguments of OPERATION= procedure of REDUCE() must be both scalar of the same type as ARRAY=, and neither allocatable, pointer, polymorphic, nor optional
     b = reduce(a, f6)
     !ERROR: Arguments of OPERATION= procedure of REDUCE() must be both scalar of the same type as ARRAY=, and neither allocatable, pointer, polymorphic, nor optional
     b = reduce(a, f7)
     !ERROR: Arguments of OPERATION= procedure of REDUCE() must be both scalar of the same type as ARRAY=, and neither allocatable, pointer, polymorphic, nor optional
     b = reduce(a, f8)
     !ERROR: Arguments of OPERATION= procedure of REDUCE() must be both scalar of the same type as ARRAY=, and neither allocatable, pointer, polymorphic, nor optional
     b = reduce(a, f9)
     !ERROR: If either argument of the OPERATION= procedure of REDUCE() has the ASYNCHRONOUS, TARGET, or VALUE attribute, both must have that attribute
     b = reduce(a, f10a)
     !ERROR: If either argument of the OPERATION= procedure of REDUCE() has the ASYNCHRONOUS, TARGET, or VALUE attribute, both must have that attribute
     b = reduce(a, f10b)
     !ERROR: If either argument of the OPERATION= procedure of REDUCE() has the ASYNCHRONOUS, TARGET, or VALUE attribute, both must have that attribute
     b = reduce(a, f10c)
     !ERROR: IDENTITY= must be present when the array is empty and the result is scalar
     b = reduce(a(1:0,:), f)
     !ERROR: IDENTITY= must be present when the array is empty and the result is scalar
     b = reduce(a(1:0, 1), f, dim=1)
     !ERROR: IDENTITY= must be present when DIM=1 and the array has zero extent on that dimension
     c = reduce(a(1:0, :), f, dim=1)
     !ERROR: IDENTITY= must be present when DIM=1 and the array has zero extent on that dimension
     c = reduce(a(1:0, :), f, dim=1)
     !ERROR: IDENTITY= must be present when DIM=2 and the array has zero extent on that dimension
     c = reduce(a(:, 1:0), f, dim=2)
     c(1:0) = reduce(a(1:0, 1:0), f, dim=1) ! ok, result is empty
     c(1:0) = reduce(a(1:0, 1:0), f, dim=2) ! ok, result is empty
     !ERROR: MASK= has no .TRUE. element, so IDENTITY= must be present
     b = reduce(a, f, .false.)
     !ERROR: MASK= has no .TRUE. element, so IDENTITY= must be present
     b = reduce(a, f, reshape([(j > 100, j=1, 100)], shape(a)))
     b = reduce(a, f, reshape([(j == 50, j=1, 100)], shape(a))) ! ok
   end subroutine
   subroutine not_errors
     type(pdt(10)) :: a(10), b
     b = reduce(a, f11) ! check no bogus type incompatibility diagnostic
   end subroutine
 end module
	! RUN: %python %S/test_errors.py %s %flang_fc1
	module m
	type :: pdt(len)
	integer, len :: len
	character(len=len) :: ch
	end type
	contains
	pure real function f(x,y)
	real, intent(in) :: x, y
	f = x + y
	end function
	impure real function f1(x,y)
	f1 = x + y
	end function
	pure function f2(x,y)
	real :: f2(1)
	real, intent(in) :: x, y
	f2(1) = x + y
	end function
	pure real function f3(x,y,z)
	real, intent(in) :: x, y, z
	f3 = x + y + z
	end function
	pure real function f4(x,y)
	interface
	pure real function x(); end function
	pure real function y(); end function
	end interface
	f4 = x() + y()
	end function
	pure integer function f5(x,y)
	real, intent(in) :: x, y
	f5 = x + y
	end function
	pure real function f6(x,y)
	real, intent(in) :: x(), y()
	f6 = x(1) + y(1)
	end function
	pure real function f7(x,y)
	real, intent(in), allocatable :: x
	real, intent(in) :: y
	f7 = x + y
	end function
	pure real function f8(x,y)
	real, intent(in), pointer :: x
	real, intent(in) :: y
	f8 = x + y
	end function
	pure real function f9(x,y)
	real, intent(in), optional :: x
	real, intent(in) :: y
	f9 = x + y
	end function
	pure real function f10a(x,y)
	real, intent(in), asynchronous :: x
	real, intent(in) :: y
	f10a = x + y
	end function
	pure real function f10b(x,y)
	real, intent(in), target :: x
	real, intent(in) :: y
	f10b = x + y
	end function
	pure real function f10c(x,y)
	real, intent(in), value :: x
	real, intent(in) :: y
	f10c = x + y
	end function
	pure function f11(x,y) result(res)
	type(pdt(*)), intent(in) :: x, y
	type(pdt(max(x%len, y%len))) :: res
	res%ch = x%ch // y%ch
	end function

	subroutine errors
	real :: a(10,10), b, c(10)
	!ERROR: OPERATION= argument of REDUCE() must be a pure function of two data arguments
	b = reduce(a, f1)
	!ERROR: OPERATION= argument of REDUCE() must be a scalar function
	b = reduce(a, f2)
	!ERROR: OPERATION= argument of REDUCE() must be a pure function of two data arguments
	b = reduce(a, f3)
	!ERROR: OPERATION= argument of REDUCE() may not have dummy procedure arguments
	b = reduce(a, f4)
	!ERROR: OPERATION= argument of REDUCE() must have the same type as ARRAY=
	b = reduce(a, f5)
	!ERROR: Arguments of OPERATION= procedure of REDUCE() must be both scalar of the same type as ARRAY=, and neither allocatable, pointer, polymorphic, nor optional
	b = reduce(a, f6)
	!ERROR: Arguments of OPERATION= procedure of REDUCE() must be both scalar of the same type as ARRAY=, and neither allocatable, pointer, polymorphic, nor optional
	b = reduce(a, f7)
	!ERROR: Arguments of OPERATION= procedure of REDUCE() must be both scalar of the same type as ARRAY=, and neither allocatable, pointer, polymorphic, nor optional
	b = reduce(a, f8)
	!ERROR: Arguments of OPERATION= procedure of REDUCE() must be both scalar of the same type as ARRAY=, and neither allocatable, pointer, polymorphic, nor optional
	b = reduce(a, f9)
	!ERROR: If either argument of the OPERATION= procedure of REDUCE() has the ASYNCHRONOUS, TARGET, or VALUE attribute, both must have that attribute
	b = reduce(a, f10a)
	!ERROR: If either argument of the OPERATION= procedure of REDUCE() has the ASYNCHRONOUS, TARGET, or VALUE attribute, both must have that attribute
	b = reduce(a, f10b)
	!ERROR: If either argument of the OPERATION= procedure of REDUCE() has the ASYNCHRONOUS, TARGET, or VALUE attribute, both must have that attribute
	b = reduce(a, f10c)
	!ERROR: IDENTITY= must be present when the array is empty and the result is scalar
	b = reduce(a(1:0,:), f)
	!ERROR: IDENTITY= must be present when the array is empty and the result is scalar
	b = reduce(a(1:0, 1), f, dim=1)
	!ERROR: IDENTITY= must be present when DIM=1 and the array has zero extent on that dimension
	c = reduce(a(1:0, :), f, dim=1)
	!ERROR: IDENTITY= must be present when DIM=1 and the array has zero extent on that dimension
	c = reduce(a(1:0, :), f, dim=1)
	!ERROR: IDENTITY= must be present when DIM=2 and the array has zero extent on that dimension
	c = reduce(a(:, 1:0), f, dim=2)
	c(1:0) = reduce(a(1:0, 1:0), f, dim=1) ! ok, result is empty
	c(1:0) = reduce(a(1:0, 1:0), f, dim=2) ! ok, result is empty
	!ERROR: MASK= has no .TRUE. element, so IDENTITY= must be present
	b = reduce(a, f, .false.)
	!ERROR: MASK= has no .TRUE. element, so IDENTITY= must be present
	b = reduce(a, f, reshape([(j > 100, j=1, 100)], shape(a)))
	b = reduce(a, f, reshape([(j == 50, j=1, 100)], shape(a))) ! ok
	end subroutine
	subroutine not_errors
	type(pdt(10)) :: a(10), b
	b = reduce(a, f11) ! check no bogus type incompatibility diagnostic
	end subroutine
	end module