There were several different ways of handling the option to f18 to find predefined modules: - test_errors.sh was created by cmake substituting FLANG_INTRINSIC_MODULES_DIR into test_errors.sh.in - some tests used the flang script which has the option built it - some tests used %f18_with_includes which was replaced by the path to f18 plus the -I option - some included -I../../include/flang in their run command To make this more consistent, change %f18 to include the -intrinsic-module-directory option and use it everywhere, including to replace %flang and %f18_with_includes. This requires changing all of the invocations of the test scripts to put %f18 at the end so that it can expand to more than one argument. This eliminates the need to generate test_errors.sh which means we don't need flang/test/Semantics/CMakeLists.txt or the %B substitution. That makes the test_errors.sh command like the others, replacing %B/test/Semantics/test_errors.sh with %S/test_errors.sh. Also remove the OPTIONS: functionality as custom options can be included in the RUN: command. And remove -I/../../include/flang as that is now always included. Differential Revision: https://reviews.llvm.org/D79634
80 lines
1.7 KiB
Fortran
80 lines
1.7 KiB
Fortran
! RUN: %S/test_errors.sh %s %t %f18
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! Resolve generic based on number of arguments
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subroutine s1
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interface f
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real function f1(x)
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optional :: x
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end
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real function f2(x, y)
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end
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end interface
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z = f(1.0)
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z = f(1.0, 2.0)
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!ERROR: No specific procedure of generic 'f' matches the actual arguments
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z = f(1.0, 2.0, 3.0)
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end
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! Elemental and non-element function both match: non-elemental one should be used
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subroutine s2
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interface f
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logical elemental function f1(x)
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intent(in) :: x
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end
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real function f2(x)
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real :: x(10)
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end
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end interface
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real :: x, y(10), z
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logical :: a
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a = f(1.0)
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!ERROR: No intrinsic or user-defined ASSIGNMENT(=) matches operand types LOGICAL(4) and REAL(4)
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a = f(y)
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end
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! Resolve named operator
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subroutine s3
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interface operator(.foo.)
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pure integer(8) function f_real(x, y)
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real, intent(in) :: x, y
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end
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pure integer(8) function f_integer(x, y)
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integer, intent(in) :: x, y
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end
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end interface
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logical :: a, b, c
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x = y .foo. z ! OK: f_real
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i = j .foo. k ! OK: f_integer
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!ERROR: No intrinsic or user-defined .FOO. matches operand types LOGICAL(4) and LOGICAL(4)
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a = b .foo. c
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end
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! Generic resolves successfully but error analyzing call
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module m4
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real, protected :: x
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real :: y
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interface s
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pure subroutine s1(x)
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real, intent(out) :: x
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end
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subroutine s2(x, y)
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real :: x, y
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end
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end interface
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end
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subroutine s4a
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use m4
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real :: z
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!OK
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call s(z)
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end
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subroutine s4b
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use m4
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!ERROR: Actual argument associated with INTENT(OUT) dummy argument 'x=' must be definable
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call s(x)
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end
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pure subroutine s4c
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use m4
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!ERROR: Actual argument associated with INTENT(OUT) dummy argument 'x=' must be definable
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call s(y)
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end
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