! { dg-do run { xfail hppa*-*-hpux* } } ! { dg-require-effective-target fortran_largest_fp_has_sqrt } ! ! This test checks whether the largest possible ! floating-point number works. ! ! This is a run-time check. Depending on the architecture, ! this tests REAL(8), REAL(10) or REAL(16) and REAL(16) ! might be a hardware or libquadmath 128bit number. ! program test_qp use iso_fortran_env, only: real_kinds implicit none integer, parameter :: QP = real_kinds(ubound(real_kinds,dim=1)) real(qp) :: fp1, fp2, fp3, fp4 character(len=80) :: str1, str2, str3, str4 fp1 = 1 fp2 = sqrt (2.0_qp) write (str1,*) fp1 write (str2,'(g0)') fp1 write (str3,*) fp2 write (str4,'(g0)') fp2 ! print '(3a)', '>',trim(str1),'<' ! print '(3a)', '>',trim(str2),'<' ! print '(3a)', '>',trim(str3),'<' ! print '(3a)', '>',trim(str4),'<' read (str1, *) fp3 if (fp1 /= fp3) call abort() read (str2, *) fp3 if (fp1 /= fp3) call abort() read (str3, *) fp4 if (abs (fp2 - fp4)/fp2 > epsilon(fp2)) call abort() read (str4, *) fp4 if (abs (fp2 - fp4)/fp2 > epsilon(fp2)) call abort() select case (qp) case (8) if (str1 /= " 1.0000000000000000") call abort() if (str2 /= "1.0000000000000000") call abort() if (str3 /= " 1.4142135623730951") call abort() if (str4 /= "1.4142135623730951") call abort() case (10) if (str1 /= " 1.00000000000000000000") call abort() if (str2 /= "1.00000000000000000000") call abort() if (str3 /= " 1.41421356237309504876") call abort() if (str4 /= "1.41421356237309504876") call abort() case (16) if (digits(1.0_qp) == 113) then ! IEEE 754 binary 128 format ! e.g. libquadmath/__float128 on i686/x86_64/ia64 if (str1 /= " 1.00000000000000000000000000000000000") call abort() if (str2 /= "1.00000000000000000000000000000000000") call abort() if (str3 /= " 1.41421356237309504880168872420969798") call abort() if (str4 /= "1.41421356237309504880168872420969798") call abort() else if (digits(1.0_qp) == 106) then ! IBM binary 128 format if (str1 /= " 1.0000000000000000000000000000000") call abort() if (str2 /= "1.0000000000000000000000000000000") call abort() if (str3(1:37) /= " 1.4142135623730950488016887242097") call abort() if (str4(1:34) /= "1.4142135623730950488016887242097") call abort() end if ! Do a libm run-time test block real(qp), volatile :: fp2a fp2a = 2.0_qp fp2a = sqrt (fp2a) if (abs (fp2a - fp2) > sqrt(2.0_qp)-nearest(sqrt(2.0_qp),-1.0_qp)) call abort() end block case default call abort() end select end program test_qp