From: David Billinghurst Date: Sun, 15 Jul 2001 12:50:14 +0000 (+0000) Subject: f90-intrinsic-numeric.f: New test. X-Git-Url: https://git.libre-soc.org/?a=commitdiff_plain;h=147424bf755ee56d8357b2dced140742cef78cf0;p=gcc.git f90-intrinsic-numeric.f: New test. 2001-01-15 David Billinghurst * g77.f-torture/execute/f90-intrinsic-numeric.f: New test. * g77.f-torture/execute/f90-intrinsic-mathematical.f: New test. From-SVN: r44020 --- diff --git a/gcc/testsuite/ChangeLog b/gcc/testsuite/ChangeLog index 3075c3f90b8..6fe608adccd 100644 --- a/gcc/testsuite/ChangeLog +++ b/gcc/testsuite/ChangeLog @@ -1,3 +1,8 @@ +2001-01-15 David Billinghurst + + * g77.f-torture/execute/f90-intrinsic-numeric.f: New test. + * g77.f-torture/execute/f90-intrinsic-mathematical.f: New test. + 2001-07-14 Richard Henderson * gcc.dg/iftrap-1.c: New. diff --git a/gcc/testsuite/g77.f-torture/execute/f90-intrinsic-mathematical.f b/gcc/testsuite/g77.f-torture/execute/f90-intrinsic-mathematical.f new file mode 100644 index 00000000000..51147b2e06a --- /dev/null +++ b/gcc/testsuite/g77.f-torture/execute/f90-intrinsic-mathematical.f @@ -0,0 +1,137 @@ +c f90-intrinsic-mathematical.f +c +c Test Fortran 90 intrinsic mathematical functions - Section 13.10.3 and +13.13 +c David Billinghurst +c +c Notes: +c * g77 does not fully comply with F90. Noncompliances noted in comments. +c * Section 13.12: Specific names for intrinsic functions tested in +intrinsic77.f + + logical fail + common /flags/ fail + fail = .false. + +c ACOS - Section 13.13.3 + call c_r(ACOS(0.54030231),1.0,'ACOS(real)') + call c_d(ACOS(0.54030231d0),1.d0,'ACOS(double)') + +c ASIN - Section 13.13.12 + call c_r(ASIN(0.84147098),1.0,'ASIN(real)') + call c_d(ASIN(0.84147098d0),1.d0,'ASIN(double)') + +c ATAN - Section 13.13.14 + call c_r(ATAN(1.5574077),1.0,'ATAN(real)') + call c_d(ATAN(1.5574077d0),1.d0,'ATAN(double)') + +c ATAN2 - Section 13.13.15 + call c_r(ATAN2(1.5574077,1.),1.0,'ATAN2(real)') + call c_d(ATAN2(1.5574077d0,1.d0),1.d0,'ATAN2(double)') + +c COS - Section 13.13.22 + call c_r(COS(1.0),0.54030231,'COS(real)') + call c_d(COS(1.d0),0.54030231d0,'COS(double)') + call c_c(COS((1.,0.)),(0.54030231,0.),'COS(complex)') + call c_z(COS((1.d0,0.d0)),(0.54030231d0,0.d0), + $ 'COS(double complex)') + +c COSH - Section 13.13.23 + call c_r(COSH(1.0),1.5430806,'COSH(real)') + call c_d(COSH(1.d0),1.5430806d0,'COSH(double)') + +c EXP - Section 13.13.34 + call c_r(EXP(1.0),2.7182818,'EXP(real)') + call c_d(EXP(1.d0),2.7182818d0,'EXP(double)') + call c_c(EXP((1.,0.)),(2.7182818,0.),'EXP(complex)') + call c_z(EXP((1.d0,0.d0)),(2.7182818d0,0.d0), + $ 'EXP(double complex)') + +c LOG - Section 13.13.59 + call c_r(LOG(10.0),2.3025851,'LOG(real)') + call c_d(LOG(10.d0),2.3025851d0,'LOG(double)') + call c_c(LOG((10.,0.)),(2.3025851,0.),'LOG(complex)') + call c_z(LOG((10.d0,0.)),(2.3025851d0,0.d0), + $ 'LOG(double complex)') + +c LOG10 - Section 13.13.60 + call c_r(LOG10(10.0),1.0,'LOG10(real)') + call c_d(LOG10(10.d0),1.d0,'LOG10(double)') + +c SIN - Section 13.13.97 + call c_r(SIN(1.0),0.84147098,'SIN(real)') + call c_d(SIN(1.d0),0.84147098d0,'SIN(double)') + call c_c(SIN((1.,0.)),(0.84147098,0.),'SIN(complex)') + call c_z(SIN((1.d0,0.d0)),(0.84147098d0,0.d0), + $ 'SIN(double complex)') + +c SINH - Section 13.13.98 + call c_r(SINH(1.0),1.175201,'SINH(real)') + call c_d(SINH(1.d0),1.175201d0,'SINH(double)') + +c SQRT - Section 13.13.102 + call c_r(SQRT(4.0),2.0,'SQRT(real)') + call c_d(SQRT(4.d0),2.d0,'SQRT(double)') + call c_c(SQRT((4.,0.)),(2.,0.),'SQRT(complex)') + call c_z(SQRT((4.d0,0.)),(2.d0,0.), + $ 'SQRT(double complex)') + +c TAN - Section 13.13.105 + call c_r(TAN(1.0),1.5574077,'TAN(real)') + call c_d(TAN(1.d0),1.5574077d0,'TAN(double)') + +c TANH - Section 13.13.106 + call c_r(TANH(1.0),0.76159416,'TANH(real)') + call c_d(TANH(1.d0),0.76159416d0,'TANH(double)') + + if ( fail ) call abort() + end + + subroutine failure(label) +c Report failure and set flag + character*(*) label + logical fail + common /flags/ fail + write(6,'(a,a,a)') 'Test ',label,' FAILED' + fail = .true. + end + + subroutine c_r(a,b,label) +c Check if REAL a equals b, and fail otherwise + real a, b + character*(*) label + if ( abs(a-b) .gt. 1.0e-5 ) then + call failure(label) + write(6,*) 'Got ',a,' expected ', b + end if + end + + subroutine c_d(a,b,label) +c Check if DOUBLE PRECISION a equals b, and fail otherwise + double precision a, b + character*(*) label + if ( abs(a-b) .gt. 1.0d-5 ) then + call failure(label) + write(6,*) 'Got ',a,' expected ', b + end if + end + + subroutine c_c(a,b,label) +c Check if COMPLEX a equals b, and fail otherwise + complex a, b + character*(*) label + if ( abs(a-b) .gt. 1.0e-5 ) then + call failure(label) + write(6,*) 'Got ',a,' expected ', b + end if + end + + subroutine c_z(a,b,label) +c Check if COMPLEX a equals b, and fail otherwise + double complex a, b + character*(*) label + if ( abs(a-b) .gt. 1.0d-5 ) then + call failure(label) + write(6,*) 'Got ',a,' expected ', b + end if + end diff --git a/gcc/testsuite/g77.f-torture/execute/f90-intrinsic-numeric.f b/gcc/testsuite/g77.f-torture/execute/f90-intrinsic-numeric.f new file mode 100644 index 00000000000..bdf7b750a67 --- /dev/null +++ b/gcc/testsuite/g77.f-torture/execute/f90-intrinsic-numeric.f @@ -0,0 +1,282 @@ +c f90-intrinsic-numeric.f +c +c Test Fortran 90 intrinsic numeric functions - Section 13.10.2 and 13.13 +c David Billinghurst +c +c Notes: +c * g77 does not fully comply with F90. Noncompliances noted in comments. +c * Section 13.12: Specific names for intrinsic functions tested in +intrinsic77.f + + logical fail + integer*2 j, j2, ja + integer*1 k, k2, ka + + common /flags/ fail + fail = .false. + +c ABS - Section 13.13.1 + j = -9 + ja = 9 + k = j + ka = ja + call c_i(ABS(-7),7,'ABS(integer)') + call c_i2(ABS(j),ja,'ABS(integer*2)') + call c_i1(ABS(k),ka,'ABS(integer*1)') + call c_r(ABS(-7.),7.,'ABS(real)') + call c_d(ABS(-7.d0),7.d0,'ABS(double)') + call c_r(ABS((3.,-4.)),5.0,'ABS(complex)') + call c_d(ABS((3.d0,-4.d0)),5.0d0,'ABS(double complex)') + +c AIMAG - Section 13.13.6 + call c_r(AIMAG((2.,-7.)),-7.,'AIMAG(complex)') +c g77: AIMAG(double complex) does not comply with F90 +c call c_d(AIMAG((2.d0,-7.d0)),-7.d0,'AIMAG(double complex)') + +c AINT - Section 13.13.7 + call c_r(AINT(2.783),2.0,'AINT(real) 1') + call c_r(AINT(-2.783),-2.0,'AINT(real) 2') + call c_d(AINT(2.783d0),2.0d0,'AINT(double precision) 1') + call c_d(AINT(-2.783d0),-2.0d0,'AINT(double precision) 2') +c Note: g77 does not support optional argument KIND + +c ANINT - Section 13.13.10 + call c_r(ANINT(2.783),3.0,'ANINT(real) 1') + call c_r(ANINT(-2.783),-3.0,'ANINT(real) 2') + call c_d(ANINT(2.783d0),3.0d0,'ANINT(double precision) 1') + call c_d(ANINT(-2.783d0),-3.0d0,'ANINT(double precision) 2') +c Note: g77 does not support optional argument KIND + +c CEILING - Section 13.13.18 +c Not implemented + +c CMPLX - Section 13.13.20 + j = 1 + ja = 2 + k = 1 + ka = 2 + call c_c(CMPLX(1),(1.,0.),'CMPLX(integer)') + call c_c(CMPLX(1,2),(1.,2.),'CMPLX(integer, integer)') + call c_c(CMPLX(j),(1.,0.),'CMPLX(integer*2)') + call c_c(CMPLX(j,ja),(1.,2.),'CMPLX(integer*2, integer*2)') + call c_c(CMPLX(k),(1.,0.),'CMPLX(integer*1)') + call c_c(CMPLX(k,ka),(1.,2.),'CMPLX(integer*1, integer*1)') + call c_c(CMPLX(1.),(1.,0.),'CMPLX(real)') + call c_c(CMPLX(1.d0),(1.,0.),'CMPLX(double)') + call c_c(CMPLX(1.d0,2.d0),(1.,2.),'CMPLX(double,double)') + call c_c(CMPLX(1.,2.),(1.,2.),'CMPLX(complex)') + call c_c(CMPLX(1.d0,2.d0),(1.,2.),'CMPLX(double complex)') +c NOTE: g77 does not support optional argument KIND + +c CONJG - Section 13.13.21 + call c_c(CONJG((2.,-7.)),(2.,7.),'CONJG(complex)') + call c_z(CONJG((2.d0,-7.d0)),(2.d0,7.d0),'CONJG(double complex)') + +c DBLE - Section 13.13.27 + j = 5 + k = 5 + call c_d(DBLE(5),5.0d0,'DBLE(integer)') + call c_d(DBLE(j),5.0d0,'DBLE(integer*2)') + call c_d(DBLE(k),5.0d0,'DBLE(integer*1)') + call c_d(DBLE(5.),5.0d0,'DBLE(real)') + call c_d(DBLE(5.0d0),5.0d0,'DBLE(double)') + call c_d(DBLE((5.0,0.5)),5.0d0,'DBLE(complex)') + call c_d(DBLE((5.0d0,0.5d0)),5.0d0,'DBLE(double complex)') + +c DIM - Section 13.13.29 + j = -8 + j2 = -3 + ja = 0 + k = -8 + k2 = -3 + ka = 0 + call c_i(DIM(-8,-3),0,'DIM(integer)') + call c_i2(DIM(j,j2),ja,'DIM(integer*2)') + call c_i1(DIM(k,k2),ka,'DIM(integer*1)') + call c_r(DIM(-8.,-3.),0.,'DIM(real,real)') + call c_d(DIM(-8.d0,-3.d0),0.d0,'DIM(double,double)') + +c DPROD - Section 13.13.31 + call c_d(DPROD(-8.,-3.),24.d0,'DPROD(real,real)') + +c FLOOR - Section 13.13.36 +c Not implemented + +c INT - Section 13.13.47 + j = 5 + k = 5 + call c_i(INT(5),5,'INT(integer)') + call c_i(INT(j),5,'INT(integer*2)') + call c_i(INT(k),5,'INT(integer*1)') + call c_i(INT(5.01),5,'INT(real)') + call c_i(INT(5.01d0),5,'INT(double)') +c Note: Does not accept optional second argument KIND + +c MAX - Section 13.13.63 + j = 1 + j2 = 2 + ja = 2 + k = 1 + k2 = 2 + ka = 2 + call c_i(MAX(1,2,3),3,'MAX(integer,integer,integer)') + call c_i2(MAX(j,j2),ja,'MAX(integer*2,integer*2)') + call c_i1(MAX(k,k2),ka,'MAX(integer*1,integer*1)') + call c_r(MAX(1.,2.,3.),3.,'MAX(real,real,real)') + call c_d(MAX(1.d0,2.d0,3.d0),3.d0,'MAX(double,double,double)') + +c MIN - Section 13.13.68 + j = 1 + j2 = 2 + ja = 1 + k = 1 + k2 = 2 + ka = 1 + call c_i(MIN(1,2,3),1,'MIN(integer,integer,integer)') + call c_i2(MIN(j,j2),ja,'MIN(integer*2,integer*2)') + call c_i1(MIN(k,k2),ka,'MIN(integer*1,integer*1)') + call c_r(MIN(1.,2.,3.),1.,'MIN(real,real,real)') + call c_d(MIN(1.d0,2.d0,3.d0),1.d0,'MIN(double,double,double)') + +c MOD - Section 13.13.72 + call c_i(MOD(8,5),3,'MOD(integer,integer) 1') + call c_i(MOD(-8,5),-3,'MOD(integer,integer) 2') + call c_i(MOD(8,-5),3,'MOD(integer,integer) 3') + call c_i(MOD(-8,-5),-3,'MOD(integer,integer) 4') + j = 8 + j2 = 5 + ja = 3 + call c_i2(MOD(j,j2),ja,'MOD(integer*2,integer*2) 1') + call c_i2(MOD(-j,j2),-ja,'MOD(integer*2,integer*2) 2') + call c_i2(MOD(j,-j2),ja,'MOD(integer*2,integer*2) 3') + call c_i2(MOD(-j,-j2),-ja,'MOD(integer*2,integer*2) 4') + k = 8 + k2 = 5 + ka = 3 + call c_i1(MOD(k,k2),ka,'MOD(integer*1,integer*1) 1') + call c_i1(MOD(-k,k2),-ka,'MOD(integer*1,integer*1) 2') + call c_i1(MOD(k,-k2),ka,'MOD(integer*1,integer*1) 3') + call c_i1(MOD(-k,-k2),-ka,'MOD(integer*1,integer*1) 4') + call c_r(MOD(8.,5.),3.,'MOD(real,real) 1') + call c_r(MOD(-8.,5.),-3.,'MOD(real,real) 2') + call c_r(MOD(8.,-5.),3.,'MOD(real,real) 3') + call c_r(MOD(-8.,-5.),-3.,'MOD(real,real) 4') + call c_d(MOD(8.d0,5.d0),3.d0,'MOD(double,double) 1') + call c_d(MOD(-8.d0,5.d0),-3.d0,'MOD(double,double) 2') + call c_d(MOD(8.d0,-5.d0),3.d0,'MOD(double,double) 3') + call c_d(MOD(-8.d0,-5.d0),-3.d0,'MOD(double,double) 4') + +c MODULO - Section 13.13.73 +c Not implemented + +c NINT - Section 13.13.76 + call c_i(NINT(2.783),3,'NINT(real)') + call c_i(NINT(2.783d0),3,'NINT(double)') +c Optional second argument KIND not implemented + +c REAL - Section 13.13.86 + j = -2 + k = -2 + call c_r(REAL(-2),-2.0,'REAL(integer)') + call c_r(REAL(j),-2.0,'REAL(integer*2)') + call c_r(REAL(k),-2.0,'REAL(integer*1)') + call c_r(REAL(-2.0),-2.0,'REAL(real)') + call c_r(REAL(-2.0d0),-2.0,'REAL(double)') + call c_r(REAL((-2.,9.)),-2.0,'REAL(complex)') +c REAL(double complex) not implemented +c call c_r(REAL((-2.d0,9.d0)),-2.0,'REAL(double complex)') + +c SIGN - Section 13.13.96 + j = -3 + j2 = 2 + ja = 3 + k = -3 + k2 = 2 + ka = 3 + call c_i(SIGN(-3,2),3,'SIGN(integer)') + call c_i2(SIGN(j,j2),ja,'SIGN(integer*2)') + call c_i1(SIGN(k,k2),ka,'SIGN(integer*1)') + call c_r(SIGN(-3.0,2.),3.,'SIGN(real,real)') + call c_d(SIGN(-3.d0,2.d0),3.d0,'SIGN(double,double)') + + if ( fail ) call abort() + end + + subroutine failure(label) +c Report failure and set flag + character*(*) label + logical fail + common /flags/ fail + write(6,'(a,a,a)') 'Test ',label,' FAILED' + fail = .true. + end + + subroutine c_i(i,j,label) +c Check if INTEGER i equals j, and fail otherwise + integer i,j + character*(*) label + if ( i .ne. j ) then + call failure(label) + write(6,*) 'Got ',i,' expected ', j + end if + end + + subroutine c_i2(i,j,label) +c Check if INTEGER*2 i equals j, and fail otherwise + integer*2 i,j + character*(*) label + if ( i .ne. j ) then + call failure(label) + write(6,*) 'Got ',i,' expected ', j + end if + end + + subroutine c_i1(i,j,label) +c Check if INTEGER*1 i equals j, and fail otherwise + integer*1 i,j + character*(*) label + if ( i .ne. j ) then + call failure(label) + write(6,*) 'Got ',i,' expected ', j + end if + end + + subroutine c_r(a,b,label) +c Check if REAL a equals b, and fail otherwise + real a, b + character*(*) label + if ( abs(a-b) .gt. 1.0e-5 ) then + call failure(label) + write(6,*) 'Got ',a,' expected ', b + end if + end + + subroutine c_d(a,b,label) +c Check if DOUBLE PRECISION a equals b, and fail otherwise + double precision a, b + character*(*) label + if ( abs(a-b) .gt. 1.0d-5 ) then + call failure(label) + write(6,*) 'Got ',a,' expected ', b + end if + end + + subroutine c_c(a,b,label) +c Check if COMPLEX a equals b, and fail otherwise + complex a, b + character*(*) label + if ( abs(a-b) .gt. 1.0e-5 ) then + call failure(label) + write(6,*) 'Got ',a,' expected ', b + end if + end + + subroutine c_z(a,b,label) +c Check if COMPLEX a equals b, and fail otherwise + double complex a, b + character*(*) label + if ( abs(a-b) .gt. 1.0d-5 ) then + call failure(label) + write(6,*) 'Got ',a,' expected ', b + end if + end