1
0
mirror of https://git.FreeBSD.org/ports.git synced 2024-11-14 23:46:10 +00:00
freebsd-ports/math/lapack/files/patch-au
1999-12-10 01:42:15 +00:00

302 lines
10 KiB
Plaintext

--- TIMING/Makefile~ Thu Nov 4 20:27:54 1999
+++ TIMING/Makefile Fri Dec 10 00:56:04 1999
@@ -141,242 +141,242 @@
stime.out: stime.in xlintims
@echo Timing square REAL LAPACK linear equation routines
- xlintims < stime.in > $@ 2>&1
+ ./xlintims < stime.in > $@ 2>&1
STIME.out: STIME.in xlintims
@echo Timing square REAL LAPACK linear equation routines
- xlintims < STIME.in > $@ 2>&1
+ ./xlintims < STIME.in > $@ 2>&1
sband.out: sband.in xlintims
@echo Timing banded REAL LAPACK linear equation routines
- xlintims < sband.in > $@ 2>&1
+ ./xlintims < sband.in > $@ 2>&1
SBAND.out: SBAND.in xlintims
@echo Timing banded REAL LAPACK linear equation routines
- xlintims < SBAND.in > $@ 2>&1
+ ./xlintims < SBAND.in > $@ 2>&1
stime2.out: stime2.in xlintims
@echo Timing rectangular REAL LAPACK linear equation routines
- xlintims < stime2.in > $@ 2>&1
+ ./xlintims < stime2.in > $@ 2>&1
STIME2.out: STIME2.in xlintims
@echo Timing rectangular REAL LAPACK linear equation routines
- xlintims < STIME2.in > $@ 2>&1
+ ./xlintims < STIME2.in > $@ 2>&1
#
# ======== COMPLEX LIN TIMINGS ==========================
ctime.out: ctime.in xlintimc
@echo Timing square COMPLEX LAPACK linear equation routines
- xlintimc < ctime.in > $@ 2>&1
+ ./xlintimc < ctime.in > $@ 2>&1
CTIME.out: CTIME.in xlintimc
@echo Timing square COMPLEX LAPACK linear equation routines
- xlintimc < CTIME.in > $@ 2>&1
+ ./xlintimc < CTIME.in > $@ 2>&1
cband.out: cband.in xlintimc
@echo Timing banded COMPLEX LAPACK linear equation routines
- xlintimc < cband.in > $@ 2>&1
+ ./xlintimc < cband.in > $@ 2>&1
CBAND.out: CBAND.in xlintimc
@echo Timing banded COMPLEX LAPACK linear equation routines
- xlintimc < CBAND.in > $@ 2>&1
+ ./xlintimc < CBAND.in > $@ 2>&1
ctime2.out: ctime2.in xlintimc
@echo Timing rectangular COMPLEX LAPACK linear equation routines
- xlintimc < ctime2.in > $@ 2>&1
+ ./xlintimc < ctime2.in > $@ 2>&1
CTIME2.out: CTIME2.in xlintimc
@echo Timing rectangular COMPLEX LAPACK linear equation routines
- xlintimc < CTIME2.in > $@ 2>&1
+ ./xlintimc < CTIME2.in > $@ 2>&1
#
# ======== DOUBLE LIN TIMINGS ===========================
dtime.out: dtime.in xlintimd
@echo Timing square DOUBLE PRECISION LAPACK linear equation routines
- xlintimd < dtime.in > $@ 2>&1
+ ./xlintimd < dtime.in > $@ 2>&1
DTIME.out: DTIME.in xlintimd
@echo Timing square DOUBLE PRECISION LAPACK linear equation routines
- xlintimd < DTIME.in > $@ 2>&1
+ ./xlintimd < DTIME.in > $@ 2>&1
dband.out: dband.in xlintimd
@echo Timing banded DOUBLE PRECISION LAPACK linear equation routines
- xlintimd < dband.in > $@ 2>&1
+ ./xlintimd < dband.in > $@ 2>&1
DBAND.out: dband.in xlintimd
@echo Timing banded DOUBLE PRECISION LAPACK linear equation routines
- xlintimd < DBAND.in > $@ 2>&1
+ ./xlintimd < DBAND.in > $@ 2>&1
dtime2.out: dtime2.in xlintimd
@echo Timing rectangular DOUBLE PRECISION LAPACK linear equation routines
- xlintimd < dtime2.in > $@ 2>&1
+ ./xlintimd < dtime2.in > $@ 2>&1
DTIME2.out: DTIME2.in xlintimd
@echo Timing rectangular DOUBLE PRECISION LAPACK linear equation routines
- xlintimd < DTIME2.in > $@ 2>&1
+ ./xlintimd < DTIME2.in > $@ 2>&1
#
# ======== COMPLEX16 LIN TIMINGS ========================
ztime.out: ztime.in xlintimz
@echo Timing square COMPLEX16 LAPACK linear equation routines
- xlintimz < ztime.in > $@ 2>&1
+ ./xlintimz < ztime.in > $@ 2>&1
ZTIME.out: ztime.in xlintimz
@echo Timing square COMPLEX16 LAPACK linear equation routines
- xlintimz < ZTIME.in > $@ 2>&1
+ ./xlintimz < ZTIME.in > $@ 2>&1
zband.out: zband.in xlintimz
@echo Timing banded COMPLEX16 LAPACK linear equation routines
- xlintimz < zband.in > $@ 2>&1
+ ./xlintimz < zband.in > $@ 2>&1
ZBAND.out: ZBAND.in xlintimz
@echo Timing banded COMPLEX16 LAPACK linear equation routines
- xlintimz < ZBAND.in > $@ 2>&1
+ ./xlintimz < ZBAND.in > $@ 2>&1
ztime2.out: ztime2.in xlintimz
@echo Timing rectangular COMPLEX16 LAPACK linear equation routines
- xlintimz < ztime2.in > $@ 2>&1
+ ./xlintimz < ztime2.in > $@ 2>&1
ZTIME2.out: ZTIME2.in xlintimz
@echo Timing rectangular COMPLEX16 LAPACK linear equation routines
- xlintimz < ZTIME2.in > $@ 2>&1
+ ./xlintimz < ZTIME2.in > $@ 2>&1
#
#
# ======== SINGLE EIG TIMINGS ===========================
#
sgeptim.out: sgeptim.in xeigtims
@echo GEP: Timing REAL Generalized Nonsymmetric Eigenvalue Problem routines
- xeigtims < sgeptim.in > $@ 2>&1
+ ./xeigtims < sgeptim.in > $@ 2>&1
SGEPTIM.out: SGEPTIM.in xeigtims
@echo GEP: Timing REAL Generalized Nonsymmetric Eigenvalue Problem routines
- xeigtims < SGEPTIM.in > $@ 2>&1
+ ./xeigtims < SGEPTIM.in > $@ 2>&1
sneptim.out: sneptim.in xeigtims
@echo NEP: Timing REAL Nonsymmetric Eigenvalue Problem routines
- xeigtims < sneptim.in > $@ 2>&1
+ ./xeigtims < sneptim.in > $@ 2>&1
SNEPTIM.out: SNEPTIM.in xeigtims
@echo NEP: Timing REAL Nonsymmetric Eigenvalue Problem routines
- xeigtims < SNEPTIM.in > $@ 2>&1
+ ./xeigtims < SNEPTIM.in > $@ 2>&1
sseptim.out: sseptim.in xeigtims
@echo SEP: Timing REAL Symmetric Eigenvalue Problem routines
- xeigtims < sseptim.in > $@ 2>&1
+ ./xeigtims < sseptim.in > $@ 2>&1
SSEPTIM.out: SSEPTIM.in xeigtims
@echo SEP: Timing REAL Symmetric Eigenvalue Problem routines
- xeigtims < SSEPTIM.in > $@ 2>&1
+ ./xeigtims < SSEPTIM.in > $@ 2>&1
ssvdtim.out: ssvdtim.in xeigtims
@echo SVD: Timing REAL Singular Value Decomposition routines
- xeigtims < ssvdtim.in > $@ 2>&1
+ ./xeigtims < ssvdtim.in > $@ 2>&1
SSVDTIM.out: SSVDTIM.in xeigtims
@echo SVD: Timing REAL Singular Value Decomposition routines
- xeigtims < SSVDTIM.in > $@ 2>&1
+ ./xeigtims < SSVDTIM.in > $@ 2>&1
#
# ======== COMPLEX EIG TIMINGS ===========================
#
cgeptim.out: cgeptim.in xeigtimc
@echo GEP: Timing COMPLEX Generalized Nonsymmetric Eigenvalue Problem routines
- xeigtimc < cgeptim.in > $@ 2>&1
+ ./xeigtimc < cgeptim.in > $@ 2>&1
CGEPTIM.out: CGEPTIM.in xeigtimc
@echo GEP: Timing COMPLEX Generalized Nonsymmetric Eigenvalue Problem routines
- xeigtimc < cgeptim.in > $@ 2>&1
+ ./xeigtimc < cgeptim.in > $@ 2>&1
cneptim.out: cneptim.in xeigtimc
@echo NEP: Timing COMPLEX Nonsymmetric Eigenvalue Problem routines
- xeigtimc < cneptim.in > $@ 2>&1
+ ./xeigtimc < cneptim.in > $@ 2>&1
CNEPTIM.out: CNEPTIM.in xeigtimc
@echo NEP: Timing COMPLEX Nonsymmetric Eigenvalue Problem routines
- xeigtimc < CNEPTIM.in > $@ 2>&1
+ ./xeigtimc < CNEPTIM.in > $@ 2>&1
cseptim.out: cseptim.in xeigtimc
@echo SEP: Timing COMPLEX Symmetric Eigenvalue Problem routines
- xeigtimc < cseptim.in > $@ 2>&1
+ ./xeigtimc < cseptim.in > $@ 2>&1
CSEPTIM.out: CSEPTIM.in xeigtimc
@echo SEP: Timing COMPLEX Symmetric Eigenvalue Problem routines
- xeigtimc < CSEPTIM.in > $@ 2>&1
+ ./xeigtimc < CSEPTIM.in > $@ 2>&1
csvdtim.out: csvdtim.in xeigtimc
@echo SVD: Timing COMPLEX Singular Value Decomposition routines
- xeigtimc < csvdtim.in > $@ 2>&1
+ ./xeigtimc < csvdtim.in > $@ 2>&1
CSVDTIM.out: CSVDTIM.in xeigtimc
@echo SVD: Timing COMPLEX Singular Value Decomposition routines
- xeigtimc < CSVDTIM.in > $@ 2>&1
+ ./xeigtimc < CSVDTIM.in > $@ 2>&1
#
# ======== DOUBLE EIG TIMINGS ===========================
#
dgeptim.out: dgeptim.in xeigtimd
@echo GEP: Timing DOUBLE PRECISION Generalized Nonsymmetric Eigenvalue Problem routines
- xeigtimd < dgeptim.in > $@ 2>&1
+ ./xeigtimd < dgeptim.in > $@ 2>&1
DGEPTIM.out: DGEPTIM.in xeigtimd
@echo GEP: Timing DOUBLE PRECISION Generalized Nonsymmetric Eigenvalue Problem routines
- xeigtimd < dgeptim.in > $@ 2>&1
+ ./xeigtimd < dgeptim.in > $@ 2>&1
dneptim.out: dneptim.in xeigtimd
@echo NEP: Timing DOUBLE PRECISION Nonsymmetric Eigenvalue Problem routines
- xeigtimd < dneptim.in > $@ 2>&1
+ ./xeigtimd < dneptim.in > $@ 2>&1
DNEPTIM.out: DNEPTIM.in xeigtimd
@echo NEP: Timing DOUBLE PRECISION Nonsymmetric Eigenvalue Problem routines
- xeigtimd < DNEPTIM.in > $@ 2>&1
+ ./xeigtimd < DNEPTIM.in > $@ 2>&1
dseptim.out: dseptim.in xeigtimd
@echo SEP: Timing DOUBLE PRECISION Symmetric Eigenvalue Problem routines
- xeigtimd < dseptim.in > $@ 2>&1
+ ./xeigtimd < dseptim.in > $@ 2>&1
DSEPTIM.out: DSEPTIM.in xeigtimd
@echo SEP: Timing DOUBLE PRECISION Symmetric Eigenvalue Problem routines
- xeigtimd < DSEPTIM.in > $@ 2>&1
+ ./xeigtimd < DSEPTIM.in > $@ 2>&1
dsvdtim.out: dsvdtim.in xeigtimd
@echo SVD: Timing DOUBLE PRECISION Singular Value Decomposition routines
- xeigtimd < dsvdtim.in > $@ 2>&1
+ ./xeigtimd < dsvdtim.in > $@ 2>&1
DSVDTIM.out: DSVDTIM.in xeigtimd
@echo SVD: Timing DOUBLE PRECISION Singular Value Decomposition routines
- xeigtimd < DSVDTIM.in > $@ 2>&1
+ ./xeigtimd < DSVDTIM.in > $@ 2>&1
#
# ======== COMPLEX16 EIG TIMINGS ===========================
#
zgeptim.out: zgeptim.in xeigtimz
@echo GEP: Timing COMPLEX16 Generalized Nonsymmetric Eigenvalue Problem routines
- xeigtimz < zgeptim.in > $@ 2>&1
+ ./xeigtimz < zgeptim.in > $@ 2>&1
ZGEPTIM.out: ZGEPTIM.in xeigtimz
@echo GEP: Timing COMPLEX16 Generalized Nonsymmetric Eigenvalue Problem routines
- xeigtimz < zgeptim.in > $@ 2>&1
+ ./xeigtimz < zgeptim.in > $@ 2>&1
zneptim.out: zneptim.in xeigtimz
@echo NEP: Timing COMPLEX16 Nonsymmetric Eigenvalue Problem routines
- xeigtimz < zneptim.in > $@ 2>&1
+ ./xeigtimz < zneptim.in > $@ 2>&1
ZNEPTIM.out: ZNEPTIM.in xeigtimz
@echo NEP: Timing COMPLEX16 Nonsymmetric Eigenvalue Problem routines
- xeigtimz < ZNEPTIM.in > $@ 2>&1
+ ./xeigtimz < ZNEPTIM.in > $@ 2>&1
zseptim.out: zseptim.in xeigtimz
@echo SEP: Timing COMPLEX16 Symmetric Eigenvalue Problem routines
- xeigtimz < zseptim.in > $@ 2>&1
+ ./xeigtimz < zseptim.in > $@ 2>&1
ZSEPTIM.out: ZSEPTIM.in xeigtimz
@echo SEP: Timing COMPLEX16 Symmetric Eigenvalue Problem routines
- xeigtimz < ZSEPTIM.in > $@ 2>&1
+ ./xeigtimz < ZSEPTIM.in > $@ 2>&1
zsvdtim.out: zsvdtim.in xeigtimz
@echo SVD: Timing COMPLEX16 Singular Value Decomposition routines
- xeigtimz < zsvdtim.in > $@ 2>&1
+ ./xeigtimz < zsvdtim.in > $@ 2>&1
ZSVDTIM.out: ZSVDTIM.in xeigtimz
@echo SVD: Timing COMPLEX16 Singular Value Decomposition routines
- xeigtimz < ZSVDTIM.in > $@ 2>&1
+ ./xeigtimz < ZSVDTIM.in > $@ 2>&1
# ==============================================================================
xlintims: