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[/] [openrisc/] [trunk/] [gnu-src/] [gcc-4.5.1/] [gcc/] [testsuite/] [gfortran.dg/] [g77/] [f90-intrinsic-numeric.f] - Blame information for rev 302

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c { dg-do run }
c  f90-intrinsic-numeric.f
c
c Test Fortran 90 intrinsic numeric functions - Section 13.10.2 and 13.13 
c     David Billinghurst <David.Billinghurst@riotinto.com>
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
c intrinsic77.f
 
      logical fail
      integer(kind=2) j, j2, ja
      integer(kind=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(complex(kind=8))')
 
c     AIMAG - Section 13.13.6
      call c_r(AIMAG((2.,-7.)),-7.,'AIMAG(complex)')
c     g77: AIMAG(complex(kind=8)) does not comply with F90
c     call c_d(AIMAG((2.d0,-7.d0)),-7.d0,'AIMAG(complex(kind=8))')
 
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(complex(kind=8))')
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(complex(kind=8))')
 
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(complex(kind=8))')
 
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(complex(kind=8)) not implemented
c     call c_r(REAL((-2.d0,9.d0)),-2.0,'REAL(complex(kind=8))')
 
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(kind=2) i equals j, and fail otherwise
      integer(kind=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(kind=1) i equals j, and fail otherwise
      integer(kind=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
      complex(kind=8) 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

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Subversion Repositories openrisc_me

[/] [openrisc/] [trunk/] [gnu-src/] [gcc-4.5.1/] [gcc/] [testsuite/] [gfortran.dg/] [g77/] [f90-intrinsic-numeric.f] - Blame information for rev 302

Line No.	Rev	Author	Line
1	302	jeremybenn	`c { dg-do run }`
2			`c f90-intrinsic-numeric.f`
3			`c`
4			`c Test Fortran 90 intrinsic numeric functions - Section 13.10.2 and 13.13`
5			`c David Billinghurst <David.Billinghurst@riotinto.com>`
6			`c`
7			`c Notes:`
8			`c * g77 does not fully comply with F90. Noncompliances noted in comments.`
9			`c * Section 13.12: Specific names for intrinsic functions tested in`
10			`c intrinsic77.f`
11
12			`logical fail`
13			`integer(kind=2) j, j2, ja`
14			`integer(kind=1) k, k2, ka`
15
16			`common /flags/ fail`
17			`fail = .false.`
18
19			`c ABS - Section 13.13.1`
20			`j = -9`
21			`ja = 9`
22			`k = j`
23			`ka = ja`
24			`call c_i(ABS(-7),7,'ABS(integer)')`
25			`call c_i2(ABS(j),ja,'ABS(integer(2))')`
26			`call c_i1(ABS(k),ka,'ABS(integer(1))')`
27			`call c_r(ABS(-7.),7.,'ABS(real)')`
28			`call c_d(ABS(-7.d0),7.d0,'ABS(double)')`
29			`call c_r(ABS((3.,-4.)),5.0,'ABS(complex)')`
30			`call c_d(ABS((3.d0,-4.d0)),5.0d0,'ABS(complex(kind=8))')`
31
32			`c AIMAG - Section 13.13.6`
33			`call c_r(AIMAG((2.,-7.)),-7.,'AIMAG(complex)')`
34			`c g77: AIMAG(complex(kind=8)) does not comply with F90`
35			`c call c_d(AIMAG((2.d0,-7.d0)),-7.d0,'AIMAG(complex(kind=8))')`
36
37			`c AINT - Section 13.13.7`
38			`call c_r(AINT(2.783),2.0,'AINT(real) 1')`
39			`call c_r(AINT(-2.783),-2.0,'AINT(real) 2')`
40			`call c_d(AINT(2.783d0),2.0d0,'AINT(double precision) 1')`
41			`call c_d(AINT(-2.783d0),-2.0d0,'AINT(double precision) 2')`
42			`c Note: g77 does not support optional argument KIND`
43
44			`c ANINT - Section 13.13.10`
45			`call c_r(ANINT(2.783),3.0,'ANINT(real) 1')`
46			`call c_r(ANINT(-2.783),-3.0,'ANINT(real) 2')`
47			`call c_d(ANINT(2.783d0),3.0d0,'ANINT(double precision) 1')`
48			`call c_d(ANINT(-2.783d0),-3.0d0,'ANINT(double precision) 2')`
49			`c Note: g77 does not support optional argument KIND`
50
51			`c CEILING - Section 13.13.18`
52			`c Not implemented`
53
54			`c CMPLX - Section 13.13.20`
55			`j = 1`
56			`ja = 2`
57			`k = 1`
58			`ka = 2`
59			`call c_c(CMPLX(1),(1.,0.),'CMPLX(integer)')`
60			`call c_c(CMPLX(1,2),(1.,2.),'CMPLX(integer, integer)')`
61			`call c_c(CMPLX(j),(1.,0.),'CMPLX(integer(2))')`
62			`call c_c(CMPLX(j,ja),(1.,2.),'CMPLX(integer(2), integer(2))')`
63			`call c_c(CMPLX(k),(1.,0.),'CMPLX(integer(1)')`
64			`call c_c(CMPLX(k,ka),(1.,2.),'CMPLX(integer(1), integer(1))')`
65			`call c_c(CMPLX(1.),(1.,0.),'CMPLX(real)')`
66			`call c_c(CMPLX(1.d0),(1.,0.),'CMPLX(double)')`
67			`call c_c(CMPLX(1.d0,2.d0),(1.,2.),'CMPLX(double,double)')`
68			`call c_c(CMPLX(1.,2.),(1.,2.),'CMPLX(complex)')`
69			`call c_c(CMPLX(1.d0,2.d0),(1.,2.),'CMPLX(complex(kind=8))')`
70			`c NOTE: g77 does not support optional argument KIND`
71
72			`c CONJG - Section 13.13.21`
73			`call c_c(CONJG((2.,-7.)),(2.,7.),'CONJG(complex)')`
74			`call c_z(CONJG((2.d0,-7.d0)),(2.d0,7.d0),'CONJG(complex(kind=8))')`
75
76			`c DBLE - Section 13.13.27`
77			`j = 5`
78			`k = 5`
79			`call c_d(DBLE(5),5.0d0,'DBLE(integer)')`
80			`call c_d(DBLE(j),5.0d0,'DBLE(integer(2))')`
81			`call c_d(DBLE(k),5.0d0,'DBLE(integer(1))')`
82			`call c_d(DBLE(5.),5.0d0,'DBLE(real)')`
83			`call c_d(DBLE(5.0d0),5.0d0,'DBLE(double)')`
84			`call c_d(DBLE((5.0,0.5)),5.0d0,'DBLE(complex)')`
85			`call c_d(DBLE((5.0d0,0.5d0)),5.0d0,'DBLE(complex(kind=8))')`
86
87			`c DIM - Section 13.13.29`
88			`j = -8`
89			`j2 = -3`
90			`ja = 0`
91			`k = -8`
92			`k2 = -3`
93			`ka = 0`
94			`call c_i(DIM(-8,-3),0,'DIM(integer)')`
95			`call c_i2(DIM(j,j2),ja,'DIM(integer(2))')`
96			`call c_i1(DIM(k,k2),ka,'DIM(integer(1)')`
97			`call c_r(DIM(-8.,-3.),0.,'DIM(real,real)')`
98			`call c_d(DIM(-8.d0,-3.d0),0.d0,'DIM(double,double)')`
99
100			`c DPROD - Section 13.13.31`
101			`call c_d(DPROD(-8.,-3.),24.d0,'DPROD(real,real)')`
102
103			`c FLOOR - Section 13.13.36`
104			`c Not implemented`
105
106			`c INT - Section 13.13.47`
107			`j = 5`
108			`k = 5`
109			`call c_i(INT(5),5,'INT(integer)')`
110			`call c_i(INT(j),5,'INT(integer(2))')`
111			`call c_i(INT(k),5,'INT(integer(1))')`
112			`call c_i(INT(5.01),5,'INT(real)')`
113			`call c_i(INT(5.01d0),5,'INT(double)')`
114			`c Note: Does not accept optional second argument KIND`
115
116			`c MAX - Section 13.13.63`
117			`j = 1`
118			`j2 = 2`
119			`ja = 2`
120			`k = 1`
121			`k2 = 2`
122			`ka = 2`
123			`call c_i(MAX(1,2,3),3,'MAX(integer,integer,integer)')`
124			`call c_i2(MAX(j,j2),ja,'MAX(integer(2),integer(2))')`
125			`call c_i1(MAX(k,k2),ka,'MAX(integer(1),integer(1))')`
126			`call c_r(MAX(1.,2.,3.),3.,'MAX(real,real,real)')`
127			`call c_d(MAX(1.d0,2.d0,3.d0),3.d0,'MAX(double,double,double)')`
128
129			`c MIN - Section 13.13.68`
130			`j = 1`
131			`j2 = 2`
132			`ja = 1`
133			`k = 1`
134			`k2 = 2`
135			`ka = 1`
136			`call c_i(MIN(1,2,3),1,'MIN(integer,integer,integer)')`
137			`call c_i2(MIN(j,j2),ja,'MIN(integer(2),integer(2))')`
138			`call c_i1(MIN(k,k2),ka,'MIN(integer(1),integer(1))')`
139			`call c_r(MIN(1.,2.,3.),1.,'MIN(real,real,real)')`
140			`call c_d(MIN(1.d0,2.d0,3.d0),1.d0,'MIN(double,double,double)')`
141
142			`c MOD - Section 13.13.72`
143			`call c_i(MOD(8,5),3,'MOD(integer,integer) 1')`
144			`call c_i(MOD(-8,5),-3,'MOD(integer,integer) 2')`
145			`call c_i(MOD(8,-5),3,'MOD(integer,integer) 3')`
146			`call c_i(MOD(-8,-5),-3,'MOD(integer,integer) 4')`
147			`j = 8`
148			`j2 = 5`
149			`ja = 3`
150			`call c_i2(MOD(j,j2),ja,'MOD(integer(2),integer(2)) 1')`
151			`call c_i2(MOD(-j,j2),-ja,'MOD(integer(2),integer(2)) 2')`
152			`call c_i2(MOD(j,-j2),ja,'MOD(integer(2),integer(2)) 3')`
153			`call c_i2(MOD(-j,-j2),-ja,'MOD(integer(2),integer(2)) 4')`
154			`k = 8`
155			`k2 = 5`
156			`ka = 3`
157			`call c_i1(MOD(k,k2),ka,'MOD(integer(1),integer(1)) 1')`
158			`call c_i1(MOD(-k,k2),-ka,'MOD(integer(1),integer(1)) 2')`
159			`call c_i1(MOD(k,-k2),ka,'MOD(integer(1),integer(1)) 3')`
160			`call c_i1(MOD(-k,-k2),-ka,'MOD(integer(1),integer(1)) 4')`
161			`call c_r(MOD(8.,5.),3.,'MOD(real,real) 1')`
162			`call c_r(MOD(-8.,5.),-3.,'MOD(real,real) 2')`
163			`call c_r(MOD(8.,-5.),3.,'MOD(real,real) 3')`
164			`call c_r(MOD(-8.,-5.),-3.,'MOD(real,real) 4')`
165			`call c_d(MOD(8.d0,5.d0),3.d0,'MOD(double,double) 1')`
166			`call c_d(MOD(-8.d0,5.d0),-3.d0,'MOD(double,double) 2')`
167			`call c_d(MOD(8.d0,-5.d0),3.d0,'MOD(double,double) 3')`
168			`call c_d(MOD(-8.d0,-5.d0),-3.d0,'MOD(double,double) 4')`
169
170			`c MODULO - Section 13.13.73`
171			`c Not implemented`
172
173			`c NINT - Section 13.13.76`
174			`call c_i(NINT(2.783),3,'NINT(real)')`
175			`call c_i(NINT(2.783d0),3,'NINT(double)')`
176			`c Optional second argument KIND not implemented`
177
178			`c REAL - Section 13.13.86`
179			`j = -2`
180			`k = -2`
181			`call c_r(REAL(-2),-2.0,'REAL(integer)')`
182			`call c_r(REAL(j),-2.0,'REAL(integer(2))')`
183			`call c_r(REAL(k),-2.0,'REAL(integer(1))')`
184			`call c_r(REAL(-2.0),-2.0,'REAL(real)')`
185			`call c_r(REAL(-2.0d0),-2.0,'REAL(double)')`
186			`call c_r(REAL((-2.,9.)),-2.0,'REAL(complex)')`
187			`c REAL(complex(kind=8)) not implemented`
188			`c call c_r(REAL((-2.d0,9.d0)),-2.0,'REAL(complex(kind=8))')`
189
190			`c SIGN - Section 13.13.96`
191			`j = -3`
192			`j2 = 2`
193			`ja = 3`
194			`k = -3`
195			`k2 = 2`
196			`ka = 3`
197			`call c_i(SIGN(-3,2),3,'SIGN(integer)')`
198			`call c_i2(SIGN(j,j2),ja,'SIGN(integer(2))')`
199			`call c_i1(SIGN(k,k2),ka,'SIGN(integer(1))')`
200			`call c_r(SIGN(-3.0,2.),3.,'SIGN(real,real)')`
201			`call c_d(SIGN(-3.d0,2.d0),3.d0,'SIGN(double,double)')`
202
203			`if ( fail ) call abort()`
204			`end`
205
206			`subroutine failure(label)`
207			`c Report failure and set flag`
208			`character() label`
209			`logical fail`
210			`common /flags/ fail`
211			`write(6,'(a,a,a)') 'Test ',label,' FAILED'`
212			`fail = .true.`
213			`end`
214
215			`subroutine c_i(i,j,label)`
216			`c Check if INTEGER i equals j, and fail otherwise`
217			`integer i,j`
218			`character() label`
219			`if ( i .ne. j ) then`
220			`call failure(label)`
221			`write(6,*) 'Got ',i,' expected ', j`
222			`end if`
223			`end`
224
225			`subroutine c_i2(i,j,label)`
226			`c Check if INTEGER(kind=2) i equals j, and fail otherwise`
227			`integer(kind=2) i,j`
228			`character() label`
229			`if ( i .ne. j ) then`
230			`call failure(label)`
231			`write(6,*) 'Got ',i,' expected ', j`
232			`end if`
233			`end`
234
235			`subroutine c_i1(i,j,label)`
236			`c Check if INTEGER(kind=1) i equals j, and fail otherwise`
237			`integer(kind=1) i,j`
238			`character() label`
239			`if ( i .ne. j ) then`
240			`call failure(label)`
241			`write(6,*) 'Got ',i,' expected ', j`
242			`end if`
243			`end`
244
245			`subroutine c_r(a,b,label)`
246			`c Check if REAL a equals b, and fail otherwise`
247			`real a, b`
248			`character() label`
249			`if ( abs(a-b) .gt. 1.0e-5 ) then`
250			`call failure(label)`
251			`write(6,*) 'Got ',a,' expected ', b`
252			`end if`
253			`end`
254
255			`subroutine c_d(a,b,label)`
256			`c Check if DOUBLE PRECISION a equals b, and fail otherwise`
257			`double precision a, b`
258			`character() label`
259			`if ( abs(a-b) .gt. 1.0d-5 ) then`
260			`call failure(label)`
261			`write(6,*) 'Got ',a,' expected ', b`
262			`end if`
263			`end`
264
265			`subroutine c_c(a,b,label)`
266			`c Check if COMPLEX a equals b, and fail otherwise`
267			`complex a, b`
268			`character() label`
269			`if ( abs(a-b) .gt. 1.0e-5 ) then`
270			`call failure(label)`
271			`write(6,*) 'Got ',a,' expected ', b`
272			`end if`
273			`end`
274
275			`subroutine c_z(a,b,label)`
276			`c Check if COMPLEX a equals b, and fail otherwise`
277			`complex(kind=8) a, b`
278			`character() label`
279			`if ( abs(a-b) .gt. 1.0d-5 ) then`
280			`call failure(label)`
281			`write(6,*) 'Got ',a,' expected ', b`
282			`end if`
283			`end`