| /dports/devel/libical/libical-3.0.8/src/test/ |
| H A D | icalrecur_withicu_dangi_test.out | 2 RRULE:RSCALE=RUSSIAN;FREQ=YEARLY
6 RRULE:RSCALE=ETHIOPIC;FREQ=YEARLY;BYMONTH=13;BYMONTHDAY=-1;COUNT=6
10 RRULE:RSCALE=CHINESE;FREQ=YEARLY;UNTIL=20180101
14 RRULE:RSCALE=CHINESE;FREQ=MONTHLY;COUNT=4
18 RRULE:RSCALE=ISLAMIC-CIVIL;FREQ=MONTHLY;COUNT=4
22 RRULE:RSCALE=ISLAMIC-CIVIL;FREQ=YEARLY;BYMONTH=9;COUNT=5
54 RRULE:RSCALE=HEBREW;FREQ=YEARLY;COUNT=4
58 RRULE:RSCALE=HEBREW;FREQ=YEARLY;SKIP=FORWARD;COUNT=4
82 RRULE:RSCALE=GREGORIAN;FREQ=YEARLY;COUNT=4
86 RRULE:RSCALE=GREGORIAN;FREQ=MONTHLY;SKIP=BACKWARD;COUNT=4
[all …]
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| H A D | icalrecur_withicu_test.out | 2 RRULE:RSCALE=RUSSIAN;FREQ=YEARLY
6 RRULE:RSCALE=ETHIOPIC;FREQ=YEARLY;BYMONTH=13;BYMONTHDAY=-1;COUNT=6
10 RRULE:RSCALE=CHINESE;FREQ=YEARLY;UNTIL=20180101
14 RRULE:RSCALE=CHINESE;FREQ=MONTHLY;COUNT=4
18 RRULE:RSCALE=ISLAMIC-CIVIL;FREQ=MONTHLY;COUNT=4
22 RRULE:RSCALE=ISLAMIC-CIVIL;FREQ=YEARLY;BYMONTH=9;COUNT=5
50 RRULE:RSCALE=HEBREW;FREQ=YEARLY;COUNT=4
54 RRULE:RSCALE=HEBREW;FREQ=YEARLY;SKIP=FORWARD;COUNT=4
78 RRULE:RSCALE=GREGORIAN;FREQ=YEARLY;COUNT=4
82 RRULE:RSCALE=GREGORIAN;FREQ=MONTHLY;SKIP=BACKWARD;COUNT=4
[all …]
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| /dports/math/lapack95/LAPACK95/EXAMPLES2/Old000807/ |
| H A D | ggevxet.base | 65 WRITE(NOUT,*) ' RSCALE :'; WRITE(NOUT,FMT) RSCALE
89 WRITE(NOUT,*) ' RSCALE :'; WRITE(NOUT,FMT) RSCALE
113 WRITE(NOUT,*) ' RSCALE :'; WRITE(NOUT,FMT) RSCALE
137 WRITE(NOUT,*) ' RSCALE :'; WRITE(NOUT,FMT) RSCALE
235 & RSCALE=RSCALE(1:N-1), RCONDE=RCONDE(1:N-1), INFO = INFO)'
300 WRITE(NOUT,*) ' RSCALE :'; WRITE(NOUT,FMT) RSCALE
322 WRITE(NOUT,*) ' RSCALE :'; WRITE(NOUT,FMT) RSCALE
344 WRITE(NOUT,*) ' RSCALE :'; WRITE(NOUT,FMT) RSCALE
366 WRITE(NOUT,*) ' RSCALE :'; WRITE(NOUT,FMT) RSCALE
450 CALL LA_GGEVX( A, B, ALPHA, BETA, VL, VR, BALANC='B', RSCALE=RSCALE(1 :N-1),INFO = INFO)
[all …]
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| /dports/math/lapack95/LAPACK95/EXAMPLES2/ |
| H A D | zggevxet.f90 | 23 REAL(WP), ALLOCATABLE :: RCONDE(:), RCONDV(:), LSCALE(:), RSCALE(:) variable
31 ALLOCATE(RCONDE(N), RCONDV(N), LSCALE(N), RSCALE(N))
50 …CALL LA_GGEVX( A, B, ALPHA, BETA, VL, VR, BALANC, ILO, IHI, LSCALE, RSCALE, ABNRM, BBNRM, RCONDE, …
63 WRITE(NOUT,*) ' RSCALE :'; WRITE(NOUT,FMT) RSCALE
72 …CALL LA_GGEVX( A, B, ALPHA, BETA, VL, VR, BALANC, ILO, IHI, LSCALE, RSCALE, ABNRM, BBNRM, RCONDE, …
85 WRITE(NOUT,*) ' RSCALE :'; WRITE(NOUT,FMT) RSCALE
107 WRITE(NOUT,*) ' RSCALE :'; WRITE(NOUT,FMT) RSCALE
129 WRITE(NOUT,*) ' RSCALE :'; WRITE(NOUT,FMT) RSCALE
213 CALL LA_GGEVX( A, B, ALPHA, BETA, VL, VR, BALANC='B', RSCALE=RSCALE(1 :N-1),INFO = INFO)
221 …CALL LA_GGEVX( A, B, ALPHA, BETA, VL, VR, BALANC='B', RSCALE=RSCALE(1 :N-1), RCONDE=RCONDE(1:N-1),…
[all …]
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| H A D | cggevxet.f90 | 23 REAL(WP), ALLOCATABLE :: RCONDE(:), RCONDV(:), LSCALE(:), RSCALE(:) variable
31 ALLOCATE(RCONDE(N), RCONDV(N), LSCALE(N), RSCALE(N))
50 …CALL LA_GGEVX( A, B, ALPHA, BETA, VL, VR, BALANC, ILO, IHI, LSCALE, RSCALE, ABNRM, BBNRM, RCONDE, …
63 WRITE(NOUT,*) ' RSCALE :'; WRITE(NOUT,FMT) RSCALE
72 …CALL LA_GGEVX( A, B, ALPHA, BETA, VL, VR, BALANC, ILO, IHI, LSCALE, RSCALE, ABNRM, BBNRM, RCONDE, …
85 WRITE(NOUT,*) ' RSCALE :'; WRITE(NOUT,FMT) RSCALE
107 WRITE(NOUT,*) ' RSCALE :'; WRITE(NOUT,FMT) RSCALE
129 WRITE(NOUT,*) ' RSCALE :'; WRITE(NOUT,FMT) RSCALE
213 CALL LA_GGEVX( A, B, ALPHA, BETA, VL, VR, BALANC='B', RSCALE=RSCALE(1 :N-1),INFO = INFO)
221 …CALL LA_GGEVX( A, B, ALPHA, BETA, VL, VR, BALANC='B', RSCALE=RSCALE(1 :N-1), RCONDE=RCONDE(1:N-1),…
[all …]
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| H A D | dggevxet.f90 | 23 REAL(WP), ALLOCATABLE :: RCONDE(:), RCONDV(:), LSCALE(:), RSCALE(:) variable
31 ALLOCATE(RCONDE(N), RCONDV(N), LSCALE(N), RSCALE(N))
50 …CALL LA_GGEVX( A, B, ALPHAR, ALPHAI, BETA, VL, VR, BALANC, ILO, IHI, LSCALE, RSCALE, ABNRM, BBNRM,…
65 WRITE(NOUT,*) ' RSCALE :'; WRITE(NOUT,FMT) RSCALE
74 …CALL LA_GGEVX( A, B, ALPHAR, ALPHAI, BETA, VL, VR, BALANC, ILO, IHI, LSCALE, RSCALE, ABNRM, BBNRM,…
89 WRITE(NOUT,*) ' RSCALE :'; WRITE(NOUT,FMT) RSCALE
113 WRITE(NOUT,*) ' RSCALE :'; WRITE(NOUT,FMT) RSCALE
137 WRITE(NOUT,*) ' RSCALE :'; WRITE(NOUT,FMT) RSCALE
229 CALL LA_GGEVX( A, B, ALPHAR, ALPHAI, BETA, VL, VR, BALANC='B', RSCALE=RSCALE(1 :N-1),INFO = INFO)
237 …CALL LA_GGEVX( A, B, ALPHAR, ALPHAI, BETA, VL, VR, BALANC='B', RSCALE=RSCALE(1 :N-1), RCONDE=RCOND…
[all …]
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| H A D | sggevxet.f90 | 23 REAL(WP), ALLOCATABLE :: RCONDE(:), RCONDV(:), LSCALE(:), RSCALE(:) variable
31 ALLOCATE(RCONDE(N), RCONDV(N), LSCALE(N), RSCALE(N))
50 …CALL LA_GGEVX( A, B, ALPHAR, ALPHAI, BETA, VL, VR, BALANC, ILO, IHI, LSCALE, RSCALE, ABNRM, BBNRM,…
65 WRITE(NOUT,*) ' RSCALE :'; WRITE(NOUT,FMT) RSCALE
74 …CALL LA_GGEVX( A, B, ALPHAR, ALPHAI, BETA, VL, VR, BALANC, ILO, IHI, LSCALE, RSCALE, ABNRM, BBNRM,…
89 WRITE(NOUT,*) ' RSCALE :'; WRITE(NOUT,FMT) RSCALE
113 WRITE(NOUT,*) ' RSCALE :'; WRITE(NOUT,FMT) RSCALE
137 WRITE(NOUT,*) ' RSCALE :'; WRITE(NOUT,FMT) RSCALE
229 CALL LA_GGEVX( A, B, ALPHAR, ALPHAI, BETA, VL, VR, BALANC='B', RSCALE=RSCALE(1 :N-1),INFO = INFO)
237 …CALL LA_GGEVX( A, B, ALPHAR, ALPHAI, BETA, VL, VR, BALANC='B', RSCALE=RSCALE(1 :N-1), RCONDE=RCOND…
[all …]
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| /dports/graphics/grads/grads-1.9b4/src/ |
| H A D | gxeps.c | 283 #define RSCALE 1 macro
526 if( (pnts[pcnt].x==opts[0]/RSCALE) && (pnts[pcnt].y==opts[1]/RSCALE) ) {
725 if( (pnts[pcnt].x==opts[0]/RSCALE) && (pnts[pcnt].y==opts[1]/RSCALE) ){
793 (int)((float)opts[5]/64.),opts[1]/RSCALE,opts[2]/RSCALE);
798 str,opts[6],opts[4]*85/50/RSCALE,opts[3]*75/50/RSCALE,
839 fprintf(outfile,"%d %d %d %d C1\n",opts[1]/RSCALE,opts[3]/RSCALE,
840 (opts[2]-opts[1])/RSCALE,(opts[4]-opts[3])/RSCALE);
847 fprintf(outfile,"%d %d %d %d C2\n",opts[1]/RSCALE,opts[4]/RSCALE,
848 (opts[2]-opts[1])/RSCALE,(opts[3]-opts[4])/RSCALE);
1147 11000/RSCALE, 8500/RSCALE);
[all …]
|
| /dports/math/lapack95/LAPACK95/TESTING/ |
| H A D | la_test_sggevx.f90 | 2 & ALPHAR, ALPHAI, BETA, VL, LDVL, VR, LDVR, ILO, IHI, LSCALE, RSCALE,& argument
24 & VL(1: LDVL, 1:N), VR(1: LDVR, 1:N), LSCALE(1:N), RSCALE(1:N), & local
81 & VR(1:IVR1,1:IVR2), IBALANC, ILO, IHI, LSCALE(1:ILSCALE), RSCALE(1: IRSCALE), &
86 & ILO=ILO, IHI=IHI, LSCALE=LSCALE(1:ILSCALE), RSCALE=RSCALE(1 : IRSCALE), &
95 & RSCALE=RSCALE(1: IRSCALE), ABNRM=ABNRM, BBNRM=BBNRM, RCONDE=RCONDE(1 : IRCONDE), &
100 & LSCALE=LSCALE(1 :ILSCALE), RSCALE=RSCALE(1: IRSCALE), ABNRM=ABNRM, &
|
| H A D | la_test_dggevx.f90 | 2 & ALPHAR, ALPHAI, BETA, VL, LDVL, VR, LDVR, ILO, IHI, LSCALE, RSCALE,& argument
24 & VL(1: LDVL, 1:N), VR(1: LDVR, 1:N), LSCALE(1:N), RSCALE(1:N), & local
81 & VR(1:IVR1,1:IVR2), IBALANC, ILO, IHI, LSCALE(1:ILSCALE), RSCALE(1: IRSCALE), &
86 & ILO=ILO, IHI=IHI, LSCALE=LSCALE(1:ILSCALE), RSCALE=RSCALE(1 : IRSCALE), &
95 & RSCALE=RSCALE(1: IRSCALE), ABNRM=ABNRM, BBNRM=BBNRM, RCONDE=RCONDE(1 : IRCONDE), &
100 & LSCALE=LSCALE(1 :ILSCALE), RSCALE=RSCALE(1: IRSCALE), ABNRM=ABNRM, &
|
| /dports/science/InsightToolkit/ITK-5.0.1/Modules/ThirdParty/VNL/src/vxl/v3p/netlib/lapack/complex16/ |
| H A D | zggbal.f | 2 $ RSCALE, WORK, INFO )
14 DOUBLE PRECISION LSCALE( * ), RSCALE( * ), WORK( * )
174 RSCALE( 1 ) = ONE
183 RSCALE( I ) = ONE
204 RSCALE( 1 ) = 1
272 RSCALE( M ) = J
288 RSCALE( I ) = ONE
300 RSCALE( I ) = ZERO
426 RSCALE( I ) = RSCALE( I ) + COR
460 JC = RSCALE( I ) + SIGN( HALF, RSCALE( I ) )
[all …]
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| /dports/math/xlife++/xlifepp-sources-v2.0.1-2018-05-09/ext/LAPACKBLAS/SRC/ |
| H A D | dggbal.f | 178 $ RSCALE, WORK, INFO )
191 $ RSCALE( * ), WORK( * )
254 RSCALE( 1 ) = ONE
263 RSCALE( I ) = ONE
284 RSCALE( 1 ) = ONE
352 RSCALE( M ) = J
368 RSCALE( I ) = ONE
380 RSCALE( I ) = ZERO
502 RSCALE( I ) = RSCALE( I ) + COR
536 JC = INT(RSCALE( I ) + SIGN( HALF, RSCALE( I ) ))
[all …]
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| H A D | cggbal.f | 178 $ RSCALE, WORK, INFO )
263 RSCALE( 1 ) = ONE
272 RSCALE( I ) = ONE
293 RSCALE( 1 ) = ONE
361 RSCALE( M ) = J
377 RSCALE( I ) = ONE
389 RSCALE( I ) = ZERO
515 RSCALE( I ) = RSCALE( I ) + COR
549 JC = RSCALE( I ) + SIGN( HALF, RSCALE( I ) )
551 RSCALE( I ) = SCLFAC**JC
[all …]
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| H A D | sggbal.f | 178 $ RSCALE, WORK, INFO )
191 $ RSCALE( * ), WORK( * )
254 RSCALE( 1 ) = ONE
263 RSCALE( I ) = ONE
284 RSCALE( 1 ) = ONE
352 RSCALE( M ) = J
368 RSCALE( I ) = ONE
380 RSCALE( I ) = ZERO
502 RSCALE( I ) = RSCALE( I ) + COR
536 JC = RSCALE( I ) + SIGN( HALF, RSCALE( I ) )
[all …]
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| H A D | zggbal.f | 178 $ RSCALE, WORK, INFO )
263 RSCALE( 1 ) = ONE
272 RSCALE( I ) = ONE
293 RSCALE( 1 ) = 1
361 RSCALE( M ) = J
377 RSCALE( I ) = ONE
389 RSCALE( I ) = ZERO
515 RSCALE( I ) = RSCALE( I ) + COR
549 JC = INT(RSCALE( I ) + SIGN( HALF, RSCALE( I ) ))
551 RSCALE( I ) = SCLFAC**JC
[all …]
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| /dports/math/xlapack/lapack-3.10.0/SRC/ |
| H A D | zggbal.f | 176 $ RSCALE, WORK, INFO )
260 RSCALE( 1 ) = ONE
269 RSCALE( I ) = ONE
290 RSCALE( 1 ) = 1
358 RSCALE( M ) = J
374 RSCALE( I ) = ONE
386 RSCALE( I ) = ZERO
512 RSCALE( I ) = RSCALE( I ) + COR
546 JC = INT(RSCALE( I ) + SIGN( HALF, RSCALE( I ) ))
548 RSCALE( I ) = SCLFAC**JC
[all …]
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| H A D | sggbal.f | 176 $ RSCALE, WORK, INFO )
188 $ RSCALE( * ), WORK( * )
251 RSCALE( 1 ) = ONE
260 RSCALE( I ) = ONE
281 RSCALE( 1 ) = ONE
349 RSCALE( M ) = J
365 RSCALE( I ) = ONE
377 RSCALE( I ) = ZERO
499 RSCALE( I ) = RSCALE( I ) + COR
533 JC = RSCALE( I ) + SIGN( HALF, RSCALE( I ) )
[all …]
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| H A D | dggbal.f | 176 $ RSCALE, WORK, INFO )
188 $ RSCALE( * ), WORK( * )
251 RSCALE( 1 ) = ONE
260 RSCALE( I ) = ONE
281 RSCALE( 1 ) = ONE
349 RSCALE( M ) = J
365 RSCALE( I ) = ONE
377 RSCALE( I ) = ZERO
499 RSCALE( I ) = RSCALE( I ) + COR
533 JC = INT(RSCALE( I ) + SIGN( HALF, RSCALE( I ) ))
[all …]
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| H A D | cggbal.f | 176 $ RSCALE, WORK, INFO )
260 RSCALE( 1 ) = ONE
269 RSCALE( I ) = ONE
290 RSCALE( 1 ) = ONE
358 RSCALE( M ) = J
374 RSCALE( I ) = ONE
386 RSCALE( I ) = ZERO
512 RSCALE( I ) = RSCALE( I ) + COR
546 JC = RSCALE( I ) + SIGN( HALF, RSCALE( I ) )
548 RSCALE( I ) = SCLFAC**JC
[all …]
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| /dports/math/blas/lapack-3.10.0/SRC/ |
| H A D | zggbal.f | 176 $ RSCALE, WORK, INFO )
260 RSCALE( 1 ) = ONE
269 RSCALE( I ) = ONE
290 RSCALE( 1 ) = 1
358 RSCALE( M ) = J
374 RSCALE( I ) = ONE
386 RSCALE( I ) = ZERO
512 RSCALE( I ) = RSCALE( I ) + COR
546 JC = INT(RSCALE( I ) + SIGN( HALF, RSCALE( I ) ))
548 RSCALE( I ) = SCLFAC**JC
[all …]
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| H A D | cggbal.f | 176 $ RSCALE, WORK, INFO )
260 RSCALE( 1 ) = ONE
269 RSCALE( I ) = ONE
290 RSCALE( 1 ) = ONE
358 RSCALE( M ) = J
374 RSCALE( I ) = ONE
386 RSCALE( I ) = ZERO
512 RSCALE( I ) = RSCALE( I ) + COR
546 JC = RSCALE( I ) + SIGN( HALF, RSCALE( I ) )
548 RSCALE( I ) = SCLFAC**JC
[all …]
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| H A D | dggbal.f | 176 $ RSCALE, WORK, INFO )
188 $ RSCALE( * ), WORK( * )
251 RSCALE( 1 ) = ONE
260 RSCALE( I ) = ONE
281 RSCALE( 1 ) = ONE
349 RSCALE( M ) = J
365 RSCALE( I ) = ONE
377 RSCALE( I ) = ZERO
499 RSCALE( I ) = RSCALE( I ) + COR
533 JC = INT(RSCALE( I ) + SIGN( HALF, RSCALE( I ) ))
[all …]
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| H A D | sggbal.f | 176 $ RSCALE, WORK, INFO )
188 $ RSCALE( * ), WORK( * )
251 RSCALE( 1 ) = ONE
260 RSCALE( I ) = ONE
281 RSCALE( 1 ) = ONE
349 RSCALE( M ) = J
365 RSCALE( I ) = ONE
377 RSCALE( I ) = ZERO
499 RSCALE( I ) = RSCALE( I ) + COR
533 JC = RSCALE( I ) + SIGN( HALF, RSCALE( I ) )
[all …]
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| /dports/math/lapack/lapack-3.10.0/SRC/ |
| H A D | sggbal.f | 176 $ RSCALE, WORK, INFO )
188 $ RSCALE( * ), WORK( * )
251 RSCALE( 1 ) = ONE
260 RSCALE( I ) = ONE
281 RSCALE( 1 ) = ONE
349 RSCALE( M ) = J
365 RSCALE( I ) = ONE
377 RSCALE( I ) = ZERO
499 RSCALE( I ) = RSCALE( I ) + COR
533 JC = RSCALE( I ) + SIGN( HALF, RSCALE( I ) )
[all …]
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| /dports/math/lapacke/lapack-3.10.0/SRC/ |
| H A D | dggbal.f | 176 $ RSCALE, WORK, INFO )
188 $ RSCALE( * ), WORK( * )
251 RSCALE( 1 ) = ONE
260 RSCALE( I ) = ONE
281 RSCALE( 1 ) = ONE
349 RSCALE( M ) = J
365 RSCALE( I ) = ONE
377 RSCALE( I ) = ZERO
499 RSCALE( I ) = RSCALE( I ) + COR
533 JC = INT(RSCALE( I ) + SIGN( HALF, RSCALE( I ) ))
[all …]
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