! Test the BGE, BGT, BLE and BLT intrinsics. ! ! { dg-do run } ! { dg-options "-ffree-line-length-none" } interface run_bge procedure run_bge1 procedure run_bge2 procedure run_bge4 procedure run_bge8 end interface interface run_bgt procedure run_bgt1 procedure run_bgt2 procedure run_bgt4 procedure run_bgt8 end interface interface run_ble procedure run_ble1 procedure run_ble2 procedure run_ble4 procedure run_ble8 end interface interface run_blt procedure run_blt1 procedure run_blt2 procedure run_blt4 procedure run_blt8 end interface #define CHECK(I,J,RES) \ if (bge(I,J) .neqv. RES) call abort ; \ if (run_bge(I,J) .neqv. RES) call abort ; \ if (bgt(I,J) .neqv. (RES .and. (I/=J))) call abort ; \ if (run_bgt(I,J) .neqv. (RES .and. (I/=J))) call abort ; \ if (ble(J,I) .neqv. RES) call abort ; \ if (run_ble(J,I) .neqv. RES) call abort ; \ if (blt(J,I) .neqv. (RES .and. (I/=J))) call abort ; \ if (run_blt(J,I) .neqv. (RES .and. (I/=J))) call abort #define T .true. #define F .false. CHECK(0_1, 0_1, T) CHECK(1_1, 0_1, T) CHECK(0_1, 107_1, F) CHECK(5_1, huge(0_1) / 2_1, F) CHECK(5_1, huge(0_1), F) CHECK(-1_1, 0_1, T) CHECK(0_1, -19_1, F) CHECK(huge(0_1), -19_1, F) CHECK(0_2, 0_2, T) CHECK(1_2, 0_2, T) CHECK(0_2, 107_2, F) CHECK(5_2, huge(0_2) / 2_2, F) CHECK(5_2, huge(0_2), F) CHECK(-1_2, 0_2, T) CHECK(0_2, -19_2, F) CHECK(huge(0_2), -19_2, F) CHECK(0_4, 0_4, T) CHECK(1_4, 0_4, T) CHECK(0_4, 107_4, F) CHECK(5_4, huge(0_4) / 2_4, F) CHECK(5_4, huge(0_4), F) CHECK(-1_4, 0_4, T) CHECK(0_4, -19_4, F) CHECK(huge(0_4), -19_4, F) CHECK(0_8, 0_8, T) CHECK(1_8, 0_8, T) CHECK(0_8, 107_8, F) CHECK(5_8, huge(0_8) / 2_8, F) CHECK(5_8, huge(0_8), F) CHECK(-1_8, 0_8, T) CHECK(0_8, -19_8, F) CHECK(huge(0_8), -19_8, F) contains pure logical function run_bge1 (i, j) result(res) integer(kind=1), intent(in) :: i, j res = bge(i,j) end function pure logical function run_bgt1 (i, j) result(res) integer(kind=1), intent(in) :: i, j res = bgt(i,j) end function pure logical function run_ble1 (i, j) result(res) integer(kind=1), intent(in) :: i, j res = ble(i,j) end function pure logical function run_blt1 (i, j) result(res) integer(kind=1), intent(in) :: i, j res = blt(i,j) end function pure logical function run_bge2 (i, j) result(res) integer(kind=2), intent(in) :: i, j res = bge(i,j) end function pure logical function run_bgt2 (i, j) result(res) integer(kind=2), intent(in) :: i, j res = bgt(i,j) end function pure logical function run_ble2 (i, j) result(res) integer(kind=2), intent(in) :: i, j res = ble(i,j) end function pure logical function run_blt2 (i, j) result(res) integer(kind=2), intent(in) :: i, j res = blt(i,j) end function pure logical function run_bge4 (i, j) result(res) integer(kind=4), intent(in) :: i, j res = bge(i,j) end function pure logical function run_bgt4 (i, j) result(res) integer(kind=4), intent(in) :: i, j res = bgt(i,j) end function pure logical function run_ble4 (i, j) result(res) integer(kind=4), intent(in) :: i, j res = ble(i,j) end function pure logical function run_blt4 (i, j) result(res) integer(kind=4), intent(in) :: i, j res = blt(i,j) end function pure logical function run_bge8 (i, j) result(res) integer(kind=8), intent(in) :: i, j res = bge(i,j) end function pure logical function run_bgt8 (i, j) result(res) integer(kind=8), intent(in) :: i, j res = bgt(i,j) end function pure logical function run_ble8 (i, j) result(res) integer(kind=8), intent(in) :: i, j res = ble(i,j) end function pure logical function run_blt8 (i, j) result(res) integer(kind=8), intent(in) :: i, j res = blt(i,j) end function end