Go to:
Gentoo Home
Documentation
Forums
Lists
Bugs
Planet
Store
Wiki
Get Gentoo!
Gentoo's Bugzilla – Attachment 140598 Details for
Bug 183236
emerge sci-libs/scipy-0.6.0-r3 failed
Home
|
New
–
[Ex]
|
Browse
|
Search
|
Privacy Policy
|
[?]
|
Reports
|
Requests
|
Help
|
New Account
|
Log In
[x]
|
Forgot Password
Login:
[x]
output of emerge scipy-0.6.0-r3
scipy-emerge.output (text/plain), 137.93 KB, created by
Qiangning Hong
on 2008-01-10 10:03:51 UTC
(
hide
)
Description:
output of emerge scipy-0.6.0-r3
Filename:
MIME Type:
Creator:
Qiangning Hong
Created:
2008-01-10 10:03:51 UTC
Size:
137.93 KB
patch
obsolete
> >These are the packages that would be merged, in order: > >Calculating dependencies ... done! >[ebuild N ] sci-libs/scipy-0.6.0-r3 USE="-debug -fftw -sandbox -umfpack" 0 kB > >Total: 1 package (1 new), Size of downloads: 0 kB > >>>> Verifying ebuild Manifests... > >>>> Emerging (1 of 1) sci-libs/scipy-0.6.0-r3 to / > * scipy-0.6.0.tar.gz RMD160 SHA1 SHA256 size ;-) ... [ ok ] > * checking ebuild checksums ;-) ... [ ok ] > * checking auxfile checksums ;-) ... [ ok ] > * checking miscfile checksums ;-) ... [ ok ] > * checking scipy-0.6.0.tar.gz ;-) ... [ ok ] > * You need one of these Fortran Compilers: gfortran g77 ifc > * Installed are: gfortran >>>> Unpacking source... >>>> Unpacking scipy-0.6.0.tar.gz to /var/tmp/portage/sci-libs/scipy-0.6.0-r3/work > * Applying scipy-0.6.0-randomkit.patch ... > [ ok ] > * Applying scipy-0.6.0-cdf.patch ... > [ ok ] > * Applying scipy-0.6.0-fftw-fix.patch ... > [ ok ] >>>> Source unpacked. >>>> Compiling source in /var/tmp/portage/sci-libs/scipy-0.6.0-r3/work/scipy-0.6.0 ... >[33mmkl_info:[0m >[33m libraries mkl,vml,guide not found in /usr/local/lib[0m >[33m libraries mkl,vml,guide not found in /usr/lib[0m >[33m NOT AVAILABLE[0m >[33m[0m >[33mfftw3_info:[0m >[33mDisabled fftw3_info: (FFTW3 is None)[0m >[33mDisabled fftw3_info: (FFTW3 is None)[0m >[33m fftw3 not found[0m >[33m NOT AVAILABLE[0m >[33m[0m >[33mfftw2_info:[0m >[33mDisabled fftw2_info: (FFTW is None)[0m >[33mDisabled fftw2_info: (FFTW is None)[0m >[33m fftw2 not found[0m >[33m NOT AVAILABLE[0m >[33m[0m >[33mdfftw_info:[0m >[33mDisabled dfftw_info: (FFTW is None)[0m >[33mDisabled dfftw_info: (FFTW is None)[0m >[33m dfftw not found[0m >[33m NOT AVAILABLE[0m >[33m[0m >[33mdjbfft_info:[0m >[33mDisabled djbfft_info: (DJBFFT is None)[0m >[33mDisabled djbfft_info: (DJBFFT is None)[0m >[33m NOT AVAILABLE[0m >[33m[0m >[33mblas_opt_info:[0m >[33mblas_mkl_info:[0m >[33m libraries mkl,vml,guide not found in /usr/local/lib[0m >[33m libraries mkl,vml,guide not found in /usr/lib[0m >[33m NOT AVAILABLE[0m >[33m[0m >[33matlas_blas_threads_info:[0m >[33mSetting PTATLAS=ATLAS[0m >[33m libraries ptf77blas,cblas,atlas not found in /usr/local/lib[0m >[33m libraries ptf77blas,cblas,atlas not found in /usr/lib[0m >[33m NOT AVAILABLE[0m >[33m[0m >[33matlas_blas_info:[0m >[33m libraries blas,cblas,atlas not found in /usr/local/lib[0m >[33m FOUND:[0m >[33m libraries = ['blas', 'cblas', 'atlas'][0m >[33m library_dirs = ['/usr/lib'][0m >[33m language = c[0m >[33m include_dirs = ['/usr/include/atlas'][0m >[33m[0m >[33mcustomize GnuFCompiler[0m >[31mCould not locate executable g77[0m >[31mCould not locate executable f77[0m >[33mcustomize IntelFCompiler[0m >[31mCould not locate executable ifort[0m >[31mCould not locate executable ifc[0m >[33mcustomize LaheyFCompiler[0m >[31mCould not locate executable lf95[0m >[33mcustomize PGroupFCompiler[0m >[31mCould not locate executable pgf90[0m >[31mCould not locate executable pgf77[0m >[33mcustomize AbsoftFCompiler[0m >[31mCould not locate executable f90[0m >[33mcustomize NAGFCompiler[0m >[31mCould not locate executable f95[0m >[33mcustomize VastFCompiler[0m >[33mcustomize GnuFCompiler[0m >[33mcustomize CompaqFCompiler[0m >[31mCould not locate executable fort[0m >[33mcustomize IntelItaniumFCompiler[0m >[31mCould not locate executable efort[0m >[31mCould not locate executable efc[0m >[33mcustomize IntelEM64TFCompiler[0m >[33mcustomize Gnu95FCompiler[0m >[32mFound executable /usr/bin/gfortran[0m >[33mcustomize Gnu95FCompiler[0m >[33mcustomize Gnu95FCompiler using config[0m >compiling '_configtest.c': > >/* This file is generated from numpy/distutils/system_info.py */ >void ATL_buildinfo(void); >int main(void) { > ATL_buildinfo(); > return 0; >} >[33mC compiler: x86_64-pc-linux-gnu-gcc -pthread -fno-strict-aliasing -march=nocona -O3 -pipe -fPIC >[0m >[33mcompile options: '-c'[0m >[33mx86_64-pc-linux-gnu-gcc: _configtest.c[0m >[33mx86_64-pc-linux-gnu-gcc -pthread _configtest.o -L/usr/lib -lblas -lcblas -latlas -o _configtest[0m >ATLAS version 3.8.0 built by root on Thu Jan 10 17:21:13 CST 2008: > UNAME : Linux gimli 2.6.19-gentoo-r5 #1 SMP Tue Apr 17 14:30:39 CST 2007 x86_64 Genuine Intel(R) CPU @ 2.40GHz GenuineIntel GNU/Linux > INSTFLG : -1 0 -a 1 > ARCHDEFS : -DATL_OS_Linux -DATL_ARCH_Core2Duo -DATL_CPUMHZ=2400 -DATL_SSE3 -DATL_SSE2 -DATL_SSE1 -DATL_USE64BITS -DATL_GAS_x8664 > F2CDEFS : -DAdd_ -DF77_INTEGER=int -DStringSunStyle > CACHEEDGE: 0 > F77 : gfortran, version GNU Fortran 95 (GCC) 4.1.2 (Gentoo 4.1.2) > F77FLAGS : -O2 -m64 > SMC : x86_64-pc-linux-gnu-gcc, version x86_64-pc-linux-gnu-gcc (GCC) 4.1.2 (Gentoo 4.1.2) > SMCFLAGS : -march=nocona -O3 -pipe -m64 > SKC : x86_64-pc-linux-gnu-gcc, version x86_64-pc-linux-gnu-gcc (GCC) 4.1.2 (Gentoo 4.1.2) > SKCFLAGS : -march=nocona -O3 -pipe -m64 >[33msuccess![0m >[33mremoving: _configtest.c _configtest.o _configtest[0m >[33m FOUND:[0m >[33m libraries = ['blas', 'cblas', 'atlas'][0m >[33m library_dirs = ['/usr/lib'][0m >[33m language = c[0m >[33m define_macros = [('ATLAS_INFO', '"\\"3.8.0\\""')][0m >[33m include_dirs = ['/usr/include/atlas'][0m >[33m[0m >ATLAS version 3.8.0 >[33mlapack_opt_info:[0m >[33mlapack_mkl_info:[0m >[33m NOT AVAILABLE[0m >[33m[0m >[33matlas_threads_info:[0m >[33mSetting PTATLAS=ATLAS[0m >[33m libraries ptf77blas,cblas,atlas not found in /usr/local/lib[0m >[33m libraries lapack not found in /usr/local/lib[0m >[33m libraries ptf77blas,cblas,atlas not found in /usr/lib[0m >[33mnumpy.distutils.system_info.atlas_threads_info[0m >[33m NOT AVAILABLE[0m >[33m[0m >[33matlas_info:[0m >[33m libraries blas,cblas,atlas not found in /usr/local/lib[0m >[33m libraries lapack not found in /usr/local/lib[0m >[33mnumpy.distutils.system_info.atlas_info[0m >[33m FOUND:[0m >[33m libraries = ['lapack', 'blas', 'cblas', 'atlas'][0m >[33m library_dirs = ['/usr/lib'][0m >[33m language = f77[0m >[33m include_dirs = ['/usr/include/atlas'][0m >[33m[0m >[33mcustomize GnuFCompiler[0m >[33mcustomize IntelFCompiler[0m >[33mcustomize LaheyFCompiler[0m >[33mcustomize PGroupFCompiler[0m >[33mcustomize AbsoftFCompiler[0m >[33mcustomize NAGFCompiler[0m >[33mcustomize VastFCompiler[0m >[33mcustomize GnuFCompiler[0m >[33mcustomize CompaqFCompiler[0m >[33mcustomize IntelItaniumFCompiler[0m >[33mcustomize IntelEM64TFCompiler[0m >[33mcustomize Gnu95FCompiler[0m >[33mcustomize Gnu95FCompiler[0m >[33mcustomize Gnu95FCompiler using config[0m >compiling '_configtest.c': > >/* This file is generated from numpy/distutils/system_info.py */ >void ATL_buildinfo(void); >int main(void) { > ATL_buildinfo(); > return 0; >} >[33mC compiler: x86_64-pc-linux-gnu-gcc -pthread -fno-strict-aliasing -march=nocona -O3 -pipe -fPIC >[0m >[33mcompile options: '-c'[0m >[33mx86_64-pc-linux-gnu-gcc: _configtest.c[0m >[33mx86_64-pc-linux-gnu-gcc -pthread _configtest.o -L/usr/lib -llapack -lblas -lcblas -latlas -o _configtest[0m >ATLAS version 3.8.0 built by root on Thu Jan 10 17:21:13 CST 2008: > UNAME : Linux gimli 2.6.19-gentoo-r5 #1 SMP Tue Apr 17 14:30:39 CST 2007 x86_64 Genuine Intel(R) CPU @ 2.40GHz GenuineIntel GNU/Linux > INSTFLG : -1 0 -a 1 > ARCHDEFS : -DATL_OS_Linux -DATL_ARCH_Core2Duo -DATL_CPUMHZ=2400 -DATL_SSE3 -DATL_SSE2 -DATL_SSE1 -DATL_USE64BITS -DATL_GAS_x8664 > F2CDEFS : -DAdd_ -DF77_INTEGER=int -DStringSunStyle > CACHEEDGE: 0 > F77 : gfortran, version GNU Fortran 95 (GCC) 4.1.2 (Gentoo 4.1.2) > F77FLAGS : -O2 -m64 > SMC : x86_64-pc-linux-gnu-gcc, version x86_64-pc-linux-gnu-gcc (GCC) 4.1.2 (Gentoo 4.1.2) > SMCFLAGS : -march=nocona -O3 -pipe -m64 > SKC : x86_64-pc-linux-gnu-gcc, version x86_64-pc-linux-gnu-gcc (GCC) 4.1.2 (Gentoo 4.1.2) > SKCFLAGS : -march=nocona -O3 -pipe -m64 >[33msuccess![0m >[33mremoving: _configtest.c _configtest.o _configtest[0m >[33m FOUND:[0m >[33m libraries = ['lapack', 'blas', 'cblas', 'atlas'][0m >[33m library_dirs = ['/usr/lib'][0m >[33m language = f77[0m >[33m define_macros = [('ATLAS_INFO', '"\\"3.8.0\\""')][0m >[33m include_dirs = ['/usr/include/atlas'][0m >[33m[0m >ATLAS version 3.8.0 >ATLAS version 3.8.0 >non-existing path in 'scipy/linsolve': 'tests' >[33mumfpack_info:[0m >[33mDisabled umfpack_info: (UMFPACK is None)[0m >/usr/lib64/python2.5/site-packages/numpy/distutils/system_info.py:414: UserWarning: > UMFPACK sparse solver (http://www.cise.ufl.edu/research/sparse/umfpack/) > not found. Directories to search for the libraries can be specified in the > numpy/distutils/site.cfg file (section [umfpack]) or by setting > the UMFPACK environment variable. > warnings.warn(self.notfounderror.__doc__) >[33m NOT AVAILABLE[0m >[33m[0m >[33mrunning build[0m >[33mrunning config_cc[0m >[33munifing config_cc, config, build_clib, build_ext, build commands --compiler options[0m >[33mrunning config_fc[0m >[33munifing config_fc, config, build_clib, build_ext, build commands --fcompiler options[0m >[33mrunning build_src[0m >[33mbuilding py_modules sources[0m >[33mcreating build[0m >[33mcreating build/src.linux-x86_64-2.5[0m >[33mcreating build/src.linux-x86_64-2.5/scipy[0m >[33mbuilding library "dfftpack" sources[0m >[33mbuilding library "linpack_lite" sources[0m >[33mbuilding library "mach" sources[0m >[33mbuilding library "quadpack" sources[0m >[33mbuilding library "odepack" sources[0m >[33mbuilding library "fitpack" sources[0m >[33mbuilding library "superlu_src" sources[0m >[33mbuilding library "odrpack" sources[0m >[33mbuilding library "minpack" sources[0m >[33mbuilding library "rootfind" sources[0m >[33mbuilding library "c_misc" sources[0m >[33mbuilding library "cephes" sources[0m >[33mbuilding library "mach" sources[0m >[33mbuilding library "toms" sources[0m >[33mbuilding library "amos" sources[0m >[33mbuilding library "cdflib" sources[0m >[33mbuilding library "specfun" sources[0m >[33mbuilding library "statlib" sources[0m >[33mbuilding extension "scipy.cluster._vq" sources[0m >[33mbuilding extension "scipy.fftpack._fftpack" sources[0m >[33mcreating build/src.linux-x86_64-2.5/scipy/fftpack[0m >[33mf2py options: [][0m >[33mf2py: scipy/fftpack/fftpack.pyf[0m >Reading fortran codes... > Reading file 'scipy/fftpack/fftpack.pyf' (format:free) >Post-processing... > Block: _fftpack > Block: zfft > Block: drfft > Block: zrfft > Block: zfftnd > Block: destroy_zfft_cache > Block: destroy_zfftnd_cache > Block: destroy_drfft_cache >Post-processing (stage 2)... >Building modules... > Building module "_fftpack"... > Constructing wrapper function "zfft"... >getarrdims:warning: assumed shape array, using 0 instead of '*' > y = zfft(x,[n,direction,normalize,overwrite_x]) > Constructing wrapper function "drfft"... >getarrdims:warning: assumed shape array, using 0 instead of '*' > y = drfft(x,[n,direction,normalize,overwrite_x]) > Constructing wrapper function "zrfft"... >getarrdims:warning: assumed shape array, using 0 instead of '*' > y = zrfft(x,[n,direction,normalize,overwrite_x]) > Constructing wrapper function "zfftnd"... >getarrdims:warning: assumed shape array, using 0 instead of '*' > y = zfftnd(x,[s,direction,normalize,overwrite_x]) > Constructing wrapper function "destroy_zfft_cache"... > destroy_zfft_cache() > Constructing wrapper function "destroy_zfftnd_cache"... > destroy_zfftnd_cache() > Constructing wrapper function "destroy_drfft_cache"... > destroy_drfft_cache() > Wrote C/API module "_fftpack" to file "build/src.linux-x86_64-2.5/scipy/fftpack/_fftpackmodule.c" >[33m adding 'build/src.linux-x86_64-2.5/fortranobject.c' to sources.[0m >[33m adding 'build/src.linux-x86_64-2.5' to include_dirs.[0m >[33mcopying /usr/lib64/python2.5/site-packages/numpy/f2py/src/fortranobject.c -> build/src.linux-x86_64-2.5[0m >[33mcopying /usr/lib64/python2.5/site-packages/numpy/f2py/src/fortranobject.h -> build/src.linux-x86_64-2.5[0m >[33mbuilding extension "scipy.fftpack.convolve" sources[0m >[33mf2py options: [][0m >[33mf2py: scipy/fftpack/convolve.pyf[0m >Reading fortran codes... > Reading file 'scipy/fftpack/convolve.pyf' (format:free) >Post-processing... > Block: convolve__user__routines > Block: kernel_func > Block: convolve > Block: init_convolution_kernel > Block: destroy_convolve_cache > Block: convolve > Block: convolve_z >Post-processing (stage 2)... >Building modules... > Constructing call-back function "cb_kernel_func_in_convolve__user__routines" > def kernel_func(k): return kernel_func > Building module "convolve"... > Constructing wrapper function "init_convolution_kernel"... > omega = init_convolution_kernel(n,kernel_func,[d,zero_nyquist,kernel_func_extra_args]) > Constructing wrapper function "destroy_convolve_cache"... > destroy_convolve_cache() > Constructing wrapper function "convolve"... > y = convolve(x,omega,[swap_real_imag,overwrite_x]) > Constructing wrapper function "convolve_z"... > y = convolve_z(x,omega_real,omega_imag,[overwrite_x]) > Wrote C/API module "convolve" to file "build/src.linux-x86_64-2.5/scipy/fftpack/convolvemodule.c" >[33m adding 'build/src.linux-x86_64-2.5/fortranobject.c' to sources.[0m >[33m adding 'build/src.linux-x86_64-2.5' to include_dirs.[0m >[33mbuilding extension "scipy.integrate._quadpack" sources[0m >[33mbuilding extension "scipy.integrate._odepack" sources[0m >[33mbuilding extension "scipy.integrate.vode" sources[0m >[33mcreating build/src.linux-x86_64-2.5/scipy/integrate[0m >[33mf2py options: [][0m >[33mf2py: scipy/integrate/vode.pyf[0m >Reading fortran codes... > Reading file 'scipy/integrate/vode.pyf' (format:free) >Post-processing... > Block: dvode__user__routines > Block: dvode_user_interface > Block: f > Block: jac > Block: vode > Block: dvode >Post-processing (stage 2)... >Building modules... > Constructing call-back function "cb_f_in_dvode__user__routines" > def f(t,y): return ydot > Constructing call-back function "cb_jac_in_dvode__user__routines" > def jac(t,y): return jac > Building module "vode"... > Constructing wrapper function "dvode"... >warning: callstatement is defined without callprotoargument >getarrdims:warning: assumed shape array, using 0 instead of '*' >getarrdims:warning: assumed shape array, using 0 instead of '*' > y,t,istate = dvode(f,jac,y,t,tout,rtol,atol,itask,istate,rwork,iwork,mf,[f_extra_args,jac_extra_args,overwrite_y]) > Wrote C/API module "vode" to file "build/src.linux-x86_64-2.5/scipy/integrate/vodemodule.c" >[33m adding 'build/src.linux-x86_64-2.5/fortranobject.c' to sources.[0m >[33m adding 'build/src.linux-x86_64-2.5' to include_dirs.[0m >[33mbuilding extension "scipy.interpolate._fitpack" sources[0m >[33mbuilding extension "scipy.interpolate.dfitpack" sources[0m >[33mcreating build/src.linux-x86_64-2.5/scipy/interpolate[0m >[33mf2py options: [][0m >[33mf2py: scipy/interpolate/fitpack.pyf[0m >Reading fortran codes... > Reading file 'scipy/interpolate/fitpack.pyf' (format:free) >Post-processing... > Block: dfitpack > Block: splev > Block: splder > Block: splint > Block: sproot > Block: spalde > Block: curfit > Block: percur > Block: parcur > Block: fpcurf0 > Block: fpcurf1 > Block: fpcurfm1 > Block: bispev > Block: surfit_smth > Block: surfit_lsq > Block: regrid_smth >Post-processing (stage 2)... >Building modules... > Building module "dfitpack"... > Constructing wrapper function "splev"... > y = splev(t,c,k,x) > Constructing wrapper function "splder"... > y = splder(t,c,k,x,[nu]) > Creating wrapper for Fortran function "splint"("splint")... > Constructing wrapper function "splint"... > splint = splint(t,c,k,a,b) > Constructing wrapper function "sproot"... > zero,m,ier = sproot(t,c,[mest]) > Constructing wrapper function "spalde"... > d,ier = spalde(t,c,k,x) > Constructing wrapper function "curfit"... > n,c,fp,ier = curfit(iopt,x,y,w,t,wrk,iwrk,[xb,xe,k,s]) > Constructing wrapper function "percur"... > n,c,fp,ier = percur(iopt,x,y,w,t,wrk,iwrk,[k,s]) > Constructing wrapper function "parcur"... > n,c,fp,ier = parcur(iopt,ipar,idim,u,x,w,ub,ue,t,wrk,iwrk,[k,s]) > Constructing wrapper function "fpcurf0"... > x,y,w,xb,xe,k,s,n,t,c,fp,fpint,nrdata,ier = fpcurf0(x,y,k,[w,xb,xe,s,nest]) > Constructing wrapper function "fpcurf1"... > x,y,w,xb,xe,k,s,n,t,c,fp,fpint,nrdata,ier = fpcurf1(x,y,w,xb,xe,k,s,n,t,c,fp,fpint,nrdata,ier,[overwrite_x,overwrite_y,overwrite_w,overwrite_t,overwrite_c,overwrite_fpint,overwrite_nrdata]) > Constructing wrapper function "fpcurfm1"... > x,y,w,xb,xe,k,s,n,t,c,fp,fpint,nrdata,ier = fpcurfm1(x,y,k,t,[w,xb,xe,overwrite_t]) > Constructing wrapper function "bispev"... > z,ier = bispev(tx,ty,c,kx,ky,x,y) > Constructing wrapper function "surfit_smth"... > nx,tx,ny,ty,c,fp,wrk1,ier = surfit_smth(x,y,z,[w,xb,xe,yb,ye,kx,ky,s,nxest,nyest,eps,lwrk2]) > Constructing wrapper function "surfit_lsq"... > tx,ty,c,fp,ier = surfit_lsq(x,y,z,tx,ty,[w,xb,xe,yb,ye,kx,ky,eps,lwrk2,overwrite_tx,overwrite_ty]) > Constructing wrapper function "regrid_smth"... > nx,tx,ny,ty,c,fp,ier = regrid_smth(x,y,z,[xb,xe,yb,ye,kx,ky,s]) > Wrote C/API module "dfitpack" to file "build/src.linux-x86_64-2.5/scipy/interpolate/dfitpackmodule.c" > Fortran 77 wrappers are saved to "build/src.linux-x86_64-2.5/scipy/interpolate/dfitpack-f2pywrappers.f" >[33m adding 'build/src.linux-x86_64-2.5/fortranobject.c' to sources.[0m >[33m adding 'build/src.linux-x86_64-2.5' to include_dirs.[0m >[33m adding 'build/src.linux-x86_64-2.5/scipy/interpolate/dfitpack-f2pywrappers.f' to sources.[0m >[33mbuilding extension "scipy.io.numpyio" sources[0m >[33mbuilding extension "scipy.lib.blas.fblas" sources[0m >[33mcreating build/src.linux-x86_64-2.5/scipy/lib[0m >[33mcreating build/src.linux-x86_64-2.5/scipy/lib/blas[0m >[33mfrom_template:> build/src.linux-x86_64-2.5/scipy/lib/blas/fblas.pyf[0m >Including file scipy/lib/blas/fblas_l1.pyf.src >Including file scipy/lib/blas/fblas_l2.pyf.src >Including file scipy/lib/blas/fblas_l3.pyf.src >Mismatch in number of replacements (base <prefix=s,d,c,z>) for <__l1=->. Ignoring. >[33mfrom_template:> build/src.linux-x86_64-2.5/scipy/lib/blas/fblaswrap.f[0m >[33mcreating build/src.linux-x86_64-2.5/build[0m >[33mcreating build/src.linux-x86_64-2.5/build/src.linux-x86_64-2.5[0m >[33mcreating build/src.linux-x86_64-2.5/build/src.linux-x86_64-2.5/scipy[0m >[33mcreating build/src.linux-x86_64-2.5/build/src.linux-x86_64-2.5/scipy/lib[0m >[33mcreating build/src.linux-x86_64-2.5/build/src.linux-x86_64-2.5/scipy/lib/blas[0m >[33mf2py options: ['skip:', ':'][0m >[33mf2py: build/src.linux-x86_64-2.5/scipy/lib/blas/fblas.pyf[0m >Reading fortran codes... > Reading file 'build/src.linux-x86_64-2.5/scipy/lib/blas/fblas.pyf' (format:free) >Post-processing... > Block: fblas > Block: srotg > Block: drotg > Block: crotg > Block: zrotg > Block: srotmg > Block: drotmg > Block: srot > Block: drot > Block: csrot > Block: zdrot > Block: srotm > Block: drotm > Block: sswap > Block: dswap > Block: cswap > Block: zswap > Block: sscal > Block: dscal > Block: cscal > Block: zscal > Block: csscal > Block: zdscal > Block: scopy > Block: dcopy > Block: ccopy > Block: zcopy > Block: saxpy > Block: daxpy > Block: caxpy > Block: zaxpy > Block: sdot > Block: ddot > Block: cdotu > Block: zdotu > Block: cdotc > Block: zdotc > Block: snrm2 > Block: dnrm2 > Block: scnrm2 > Block: dznrm2 > Block: sasum > Block: dasum > Block: scasum > Block: dzasum > Block: isamax > Block: idamax > Block: icamax > Block: izamax > Block: sgemv > Block: dgemv > Block: cgemv > Block: zgemv > Block: ssymv > Block: dsymv > Block: chemv > Block: zhemv > Block: strmv > Block: dtrmv > Block: ctrmv > Block: ztrmv > Block: sger > Block: dger > Block: cgeru > Block: zgeru > Block: cgerc > Block: zgerc > Block: sgemm > Block: dgemm > Block: cgemm > Block: zgemm >Post-processing (stage 2)... >Building modules... > Building module "fblas"... > Constructing wrapper function "srotg"... > c,s = srotg(a,b) > Constructing wrapper function "drotg"... > c,s = drotg(a,b) > Constructing wrapper function "crotg"... > c,s = crotg(a,b) > Constructing wrapper function "zrotg"... > c,s = zrotg(a,b) > Constructing wrapper function "srotmg"... > param = srotmg(d1,d2,x1,y1) > Constructing wrapper function "drotmg"... > param = drotmg(d1,d2,x1,y1) > Constructing wrapper function "srot"... >getarrdims:warning: assumed shape array, using 0 instead of '*' >getarrdims:warning: assumed shape array, using 0 instead of '*' > x,y = srot(x,y,c,s,[n,offx,incx,offy,incy,overwrite_x,overwrite_y]) > Constructing wrapper function "drot"... >getarrdims:warning: assumed shape array, using 0 instead of '*' >getarrdims:warning: assumed shape array, using 0 instead of '*' > x,y = drot(x,y,c,s,[n,offx,incx,offy,incy,overwrite_x,overwrite_y]) > Constructing wrapper function "csrot"... >getarrdims:warning: assumed shape array, using 0 instead of '*' >getarrdims:warning: assumed shape array, using 0 instead of '*' > x,y = csrot(x,y,c,s,[n,offx,incx,offy,incy,overwrite_x,overwrite_y]) > Constructing wrapper function "zdrot"... >getarrdims:warning: assumed shape array, using 0 instead of '*' >getarrdims:warning: assumed shape array, using 0 instead of '*' > x,y = zdrot(x,y,c,s,[n,offx,incx,offy,incy,overwrite_x,overwrite_y]) > Constructing wrapper function "srotm"... >getarrdims:warning: assumed shape array, using 0 instead of '*' >getarrdims:warning: assumed shape array, using 0 instead of '*' > x,y = srotm(x,y,param,[n,offx,incx,offy,incy,overwrite_x,overwrite_y]) > Constructing wrapper function "drotm"... >getarrdims:warning: assumed shape array, using 0 instead of '*' >getarrdims:warning: assumed shape array, using 0 instead of '*' > x,y = drotm(x,y,param,[n,offx,incx,offy,incy,overwrite_x,overwrite_y]) > Constructing wrapper function "sswap"... >getarrdims:warning: assumed shape array, using 0 instead of '*' >getarrdims:warning: assumed shape array, using 0 instead of '*' > x,y = sswap(x,y,[n,offx,incx,offy,incy]) > Constructing wrapper function "dswap"... >getarrdims:warning: assumed shape array, using 0 instead of '*' >getarrdims:warning: assumed shape array, using 0 instead of '*' > x,y = dswap(x,y,[n,offx,incx,offy,incy]) > Constructing wrapper function "cswap"... >getarrdims:warning: assumed shape array, using 0 instead of '*' >getarrdims:warning: assumed shape array, using 0 instead of '*' > x,y = cswap(x,y,[n,offx,incx,offy,incy]) > Constructing wrapper function "zswap"... >getarrdims:warning: assumed shape array, using 0 instead of '*' >getarrdims:warning: assumed shape array, using 0 instead of '*' > x,y = zswap(x,y,[n,offx,incx,offy,incy]) > Constructing wrapper function "sscal"... >getarrdims:warning: assumed shape array, using 0 instead of '*' > x = sscal(a,x,[n,offx,incx]) > Constructing wrapper function "dscal"... >getarrdims:warning: assumed shape array, using 0 instead of '*' > x = dscal(a,x,[n,offx,incx]) > Constructing wrapper function "cscal"... >getarrdims:warning: assumed shape array, using 0 instead of '*' > x = cscal(a,x,[n,offx,incx]) > Constructing wrapper function "zscal"... >getarrdims:warning: assumed shape array, using 0 instead of '*' > x = zscal(a,x,[n,offx,incx]) > Constructing wrapper function "csscal"... >getarrdims:warning: assumed shape array, using 0 instead of '*' > x = csscal(a,x,[n,offx,incx,overwrite_x]) > Constructing wrapper function "zdscal"... >getarrdims:warning: assumed shape array, using 0 instead of '*' > x = zdscal(a,x,[n,offx,incx,overwrite_x]) > Constructing wrapper function "scopy"... >getarrdims:warning: assumed shape array, using 0 instead of '*' >getarrdims:warning: assumed shape array, using 0 instead of '*' > y = scopy(x,y,[n,offx,incx,offy,incy]) > Constructing wrapper function "dcopy"... >getarrdims:warning: assumed shape array, using 0 instead of '*' >getarrdims:warning: assumed shape array, using 0 instead of '*' > y = dcopy(x,y,[n,offx,incx,offy,incy]) > Constructing wrapper function "ccopy"... >getarrdims:warning: assumed shape array, using 0 instead of '*' >getarrdims:warning: assumed shape array, using 0 instead of '*' > y = ccopy(x,y,[n,offx,incx,offy,incy]) > Constructing wrapper function "zcopy"... >getarrdims:warning: assumed shape array, using 0 instead of '*' >getarrdims:warning: assumed shape array, using 0 instead of '*' > y = zcopy(x,y,[n,offx,incx,offy,incy]) > Constructing wrapper function "saxpy"... >getarrdims:warning: assumed shape array, using 0 instead of '*' >getarrdims:warning: assumed shape array, using 0 instead of '*' > z = saxpy(x,y,[n,a,offx,incx,offy,incy]) > Constructing wrapper function "daxpy"... >getarrdims:warning: assumed shape array, using 0 instead of '*' >getarrdims:warning: assumed shape array, using 0 instead of '*' > z = daxpy(x,y,[n,a,offx,incx,offy,incy]) > Constructing wrapper function "caxpy"... >getarrdims:warning: assumed shape array, using 0 instead of '*' >getarrdims:warning: assumed shape array, using 0 instead of '*' > z = caxpy(x,y,[n,a,offx,incx,offy,incy]) > Constructing wrapper function "zaxpy"... >getarrdims:warning: assumed shape array, using 0 instead of '*' >getarrdims:warning: assumed shape array, using 0 instead of '*' > z = zaxpy(x,y,[n,a,offx,incx,offy,incy]) > Creating wrapper for Fortran function "sdot"("sdot")... > Constructing wrapper function "sdot"... >getarrdims:warning: assumed shape array, using 0 instead of '*' >getarrdims:warning: assumed shape array, using 0 instead of '*' > xy = sdot(x,y,[n,offx,incx,offy,incy]) > Creating wrapper for Fortran function "ddot"("ddot")... > Constructing wrapper function "ddot"... >getarrdims:warning: assumed shape array, using 0 instead of '*' >getarrdims:warning: assumed shape array, using 0 instead of '*' > xy = ddot(x,y,[n,offx,incx,offy,incy]) > Constructing wrapper function "cdotu"... >getarrdims:warning: assumed shape array, using 0 instead of '*' >getarrdims:warning: assumed shape array, using 0 instead of '*' > xy = cdotu(x,y,[n,offx,incx,offy,incy]) > Constructing wrapper function "zdotu"... >getarrdims:warning: assumed shape array, using 0 instead of '*' >getarrdims:warning: assumed shape array, using 0 instead of '*' > xy = zdotu(x,y,[n,offx,incx,offy,incy]) > Constructing wrapper function "cdotc"... >getarrdims:warning: assumed shape array, using 0 instead of '*' >getarrdims:warning: assumed shape array, using 0 instead of '*' > xy = cdotc(x,y,[n,offx,incx,offy,incy]) > Constructing wrapper function "zdotc"... >getarrdims:warning: assumed shape array, using 0 instead of '*' >getarrdims:warning: assumed shape array, using 0 instead of '*' > xy = zdotc(x,y,[n,offx,incx,offy,incy]) > Creating wrapper for Fortran function "snrm2"("snrm2")... > Constructing wrapper function "snrm2"... >getarrdims:warning: assumed shape array, using 0 instead of '*' > n2 = snrm2(x,[n,offx,incx]) > Creating wrapper for Fortran function "dnrm2"("dnrm2")... > Constructing wrapper function "dnrm2"... >getarrdims:warning: assumed shape array, using 0 instead of '*' > n2 = dnrm2(x,[n,offx,incx]) > Creating wrapper for Fortran function "scnrm2"("scnrm2")... > Constructing wrapper function "scnrm2"... >getarrdims:warning: assumed shape array, using 0 instead of '*' > n2 = scnrm2(x,[n,offx,incx]) > Creating wrapper for Fortran function "dznrm2"("dznrm2")... > Constructing wrapper function "dznrm2"... >getarrdims:warning: assumed shape array, using 0 instead of '*' > n2 = dznrm2(x,[n,offx,incx]) > Creating wrapper for Fortran function "sasum"("sasum")... > Constructing wrapper function "sasum"... >getarrdims:warning: assumed shape array, using 0 instead of '*' > s = sasum(x,[n,offx,incx]) > Creating wrapper for Fortran function "dasum"("dasum")... > Constructing wrapper function "dasum"... >getarrdims:warning: assumed shape array, using 0 instead of '*' > s = dasum(x,[n,offx,incx]) > Creating wrapper for Fortran function "scasum"("scasum")... > Constructing wrapper function "scasum"... >getarrdims:warning: assumed shape array, using 0 instead of '*' > s = scasum(x,[n,offx,incx]) > Creating wrapper for Fortran function "dzasum"("dzasum")... > Constructing wrapper function "dzasum"... >getarrdims:warning: assumed shape array, using 0 instead of '*' > s = dzasum(x,[n,offx,incx]) > Constructing wrapper function "isamax"... >getarrdims:warning: assumed shape array, using 0 instead of '*' > k = isamax(x,[n,offx,incx]) > Constructing wrapper function "idamax"... >getarrdims:warning: assumed shape array, using 0 instead of '*' > k = idamax(x,[n,offx,incx]) > Constructing wrapper function "icamax"... >getarrdims:warning: assumed shape array, using 0 instead of '*' > k = icamax(x,[n,offx,incx]) > Constructing wrapper function "izamax"... >getarrdims:warning: assumed shape array, using 0 instead of '*' > k = izamax(x,[n,offx,incx]) > Constructing wrapper function "sgemv"... >getarrdims:warning: assumed shape array, using 0 instead of '*' > y = sgemv(alpha,a,x,[beta,y,offx,incx,offy,incy,trans,overwrite_y]) > Constructing wrapper function "dgemv"... >getarrdims:warning: assumed shape array, using 0 instead of '*' > y = dgemv(alpha,a,x,[beta,y,offx,incx,offy,incy,trans,overwrite_y]) > Constructing wrapper function "cgemv"... >getarrdims:warning: assumed shape array, using 0 instead of '*' > y = cgemv(alpha,a,x,[beta,y,offx,incx,offy,incy,trans,overwrite_y]) > Constructing wrapper function "zgemv"... >getarrdims:warning: assumed shape array, using 0 instead of '*' > y = zgemv(alpha,a,x,[beta,y,offx,incx,offy,incy,trans,overwrite_y]) > Constructing wrapper function "ssymv"... >getarrdims:warning: assumed shape array, using 0 instead of '*' > y = ssymv(alpha,a,x,[beta,y,offx,incx,offy,incy,lower,overwrite_y]) > Constructing wrapper function "dsymv"... >getarrdims:warning: assumed shape array, using 0 instead of '*' > y = dsymv(alpha,a,x,[beta,y,offx,incx,offy,incy,lower,overwrite_y]) > Constructing wrapper function "chemv"... >getarrdims:warning: assumed shape array, using 0 instead of '*' > y = chemv(alpha,a,x,[beta,y,offx,incx,offy,incy,lower,overwrite_y]) > Constructing wrapper function "zhemv"... >getarrdims:warning: assumed shape array, using 0 instead of '*' > y = zhemv(alpha,a,x,[beta,y,offx,incx,offy,incy,lower,overwrite_y]) > Constructing wrapper function "strmv"... >getarrdims:warning: assumed shape array, using 0 instead of '*' > x = strmv(a,x,[offx,incx,lower,trans,unitdiag,overwrite_x]) > Constructing wrapper function "dtrmv"... >getarrdims:warning: assumed shape array, using 0 instead of '*' > x = dtrmv(a,x,[offx,incx,lower,trans,unitdiag,overwrite_x]) > Constructing wrapper function "ctrmv"... >getarrdims:warning: assumed shape array, using 0 instead of '*' > x = ctrmv(a,x,[offx,incx,lower,trans,unitdiag,overwrite_x]) > Constructing wrapper function "ztrmv"... >getarrdims:warning: assumed shape array, using 0 instead of '*' > x = ztrmv(a,x,[offx,incx,lower,trans,unitdiag,overwrite_x]) > Constructing wrapper function "sger"... > a = sger(alpha,x,y,[incx,incy,a,overwrite_x,overwrite_y,overwrite_a]) > Constructing wrapper function "dger"... > a = dger(alpha,x,y,[incx,incy,a,overwrite_x,overwrite_y,overwrite_a]) > Constructing wrapper function "cgeru"... > a = cgeru(alpha,x,y,[incx,incy,a,overwrite_x,overwrite_y,overwrite_a]) > Constructing wrapper function "zgeru"... > a = zgeru(alpha,x,y,[incx,incy,a,overwrite_x,overwrite_y,overwrite_a]) > Constructing wrapper function "cgerc"... > a = cgerc(alpha,x,y,[incx,incy,a,overwrite_x,overwrite_y,overwrite_a]) > Constructing wrapper function "zgerc"... > a = zgerc(alpha,x,y,[incx,incy,a,overwrite_x,overwrite_y,overwrite_a]) > Constructing wrapper function "sgemm"... > c = sgemm(alpha,a,b,[beta,c,trans_a,trans_b,overwrite_c]) > Constructing wrapper function "dgemm"... > c = dgemm(alpha,a,b,[beta,c,trans_a,trans_b,overwrite_c]) > Constructing wrapper function "cgemm"... > c = cgemm(alpha,a,b,[beta,c,trans_a,trans_b,overwrite_c]) > Constructing wrapper function "zgemm"... > c = zgemm(alpha,a,b,[beta,c,trans_a,trans_b,overwrite_c]) > Wrote C/API module "fblas" to file "build/src.linux-x86_64-2.5/build/src.linux-x86_64-2.5/scipy/lib/blas/fblasmodule.c" > Fortran 77 wrappers are saved to "build/src.linux-x86_64-2.5/build/src.linux-x86_64-2.5/scipy/lib/blas/fblas-f2pywrappers.f" >[33m adding 'build/src.linux-x86_64-2.5/fortranobject.c' to sources.[0m >[33m adding 'build/src.linux-x86_64-2.5' to include_dirs.[0m >[33m adding 'build/src.linux-x86_64-2.5/build/src.linux-x86_64-2.5/scipy/lib/blas/fblas-f2pywrappers.f' to sources.[0m >[33mbuilding extension "scipy.lib.blas.cblas" sources[0m >[33m adding 'scipy/lib/blas/cblas.pyf.src' to sources.[0m >[33mfrom_template:> build/src.linux-x86_64-2.5/scipy/lib/blas/cblas.pyf[0m >Including file scipy/lib/blas/cblas_l1.pyf.src >[33mf2py options: ['skip:', ':'][0m >[33mf2py: build/src.linux-x86_64-2.5/scipy/lib/blas/cblas.pyf[0m >Reading fortran codes... > Reading file 'build/src.linux-x86_64-2.5/scipy/lib/blas/cblas.pyf' (format:free) >Line #33 in build/src.linux-x86_64-2.5/scipy/lib/blas/cblas.pyf:" intent(c)" > All arguments will have attribute intent(c) >Line #57 in build/src.linux-x86_64-2.5/scipy/lib/blas/cblas.pyf:" intent(c)" > All arguments will have attribute intent(c) >Line #81 in build/src.linux-x86_64-2.5/scipy/lib/blas/cblas.pyf:" intent(c)" > All arguments will have attribute intent(c) >Line #105 in build/src.linux-x86_64-2.5/scipy/lib/blas/cblas.pyf:" intent(c)" > All arguments will have attribute intent(c) >Post-processing... > Block: cblas > Block: saxpy > Block: daxpy > Block: caxpy > Block: zaxpy >Post-processing (stage 2)... >Building modules... > Building module "cblas"... > Constructing wrapper function "saxpy"... > z = saxpy(x,y,[n,a,incx,incy,overwrite_y]) > Constructing wrapper function "daxpy"... > z = daxpy(x,y,[n,a,incx,incy,overwrite_y]) > Constructing wrapper function "caxpy"... > z = caxpy(x,y,[n,a,incx,incy,overwrite_y]) > Constructing wrapper function "zaxpy"... > z = zaxpy(x,y,[n,a,incx,incy,overwrite_y]) > Wrote C/API module "cblas" to file "build/src.linux-x86_64-2.5/build/src.linux-x86_64-2.5/scipy/lib/blas/cblasmodule.c" >[33m adding 'build/src.linux-x86_64-2.5/fortranobject.c' to sources.[0m >[33m adding 'build/src.linux-x86_64-2.5' to include_dirs.[0m >[33mbuilding extension "scipy.lib.lapack.flapack" sources[0m >[33mcreating build/src.linux-x86_64-2.5/scipy/lib/lapack[0m >[33mfrom_template:> build/src.linux-x86_64-2.5/scipy/lib/lapack/flapack.pyf[0m >Including file scipy/lib/lapack/flapack_user.pyf.src >Including file scipy/lib/lapack/flapack_le.pyf.src >Including file scipy/lib/lapack/flapack_lls.pyf.src >Including file scipy/lib/lapack/flapack_esv.pyf.src >Including file scipy/lib/lapack/flapack_gesv.pyf.src >Including file scipy/lib/lapack/flapack_lec.pyf.src >Including file scipy/lib/lapack/flapack_llsc.pyf.src >Including file scipy/lib/lapack/flapack_sevc.pyf.src >Including file scipy/lib/lapack/flapack_evc.pyf.src >Including file scipy/lib/lapack/flapack_svdc.pyf.src >Including file scipy/lib/lapack/flapack_gsevc.pyf.src >Including file scipy/lib/lapack/flapack_gevc.pyf.src >Including file scipy/lib/lapack/flapack_aux.pyf.src >[33mcreating build/src.linux-x86_64-2.5/build/src.linux-x86_64-2.5/scipy/lib/lapack[0m >[33mf2py options: ['skip:', ':'][0m >[33mf2py: build/src.linux-x86_64-2.5/scipy/lib/lapack/flapack.pyf[0m >Reading fortran codes... > Reading file 'build/src.linux-x86_64-2.5/scipy/lib/lapack/flapack.pyf' (format:free) >Post-processing... > Block: flapack > Block: gees__user__routines > Block: gees_user_interface > Block: sselect > Block: dselect > Block: cselect > Block: zselect > Block: sgesv > Block: dgesv > Block: cgesv > Block: zgesv > Block: sgbsv > Block: dgbsv > Block: cgbsv > Block: zgbsv > Block: sposv > Block: dposv > Block: cposv > Block: zposv > Block: sgelss > Block: dgelss > Block: cgelss > Block: zgelss > Block: ssyev > Block: dsyev > Block: cheev > Block: zheev > Block: ssyevd > Block: dsyevd > Block: cheevd > Block: zheevd > Block: ssyevr > Block: dsyevr > Block: cheevr > Block: zheevr > Block: sgees > Block: dgees > Block: cgees > Block: zgees > Block: sgeev > Block: dgeev > Block: cgeev > Block: zgeev > Block: sgesdd > Block: dgesdd > Block: cgesdd > Block: zgesdd > Block: ssygv > Block: dsygv > Block: chegv > Block: zhegv > Block: ssygvd > Block: dsygvd > Block: chegvd > Block: zhegvd > Block: sggev > Block: dggev > Block: cggev > Block: zggev > Block: sgetrf > Block: dgetrf > Block: cgetrf > Block: zgetrf > Block: spotrf > Block: dpotrf > Block: cpotrf > Block: zpotrf > Block: sgetrs > Block: dgetrs > Block: cgetrs > Block: zgetrs > Block: spotrs > Block: dpotrs > Block: cpotrs > Block: zpotrs > Block: sgetri > Block: dgetri > Block: cgetri > Block: zgetri > Block: spotri > Block: dpotri > Block: cpotri > Block: zpotri > Block: strtri > Block: dtrtri > Block: ctrtri > Block: ztrtri > Block: sgeqrf > Block: dgeqrf > Block: cgeqrf > Block: zgeqrf > Block: sorgqr > Block: dorgqr > Block: cungqr > Block: zungqr > Block: sgehrd > Block: dgehrd > Block: cgehrd > Block: zgehrd > Block: sgebal > Block: dgebal > Block: cgebal > Block: zgebal > Block: slauum > Block: dlauum > Block: clauum > Block: zlauum > Block: slaswp > Block: dlaswp > Block: claswp > Block: zlaswp >Post-processing (stage 2)... >Building modules... > Constructing call-back function "cb_sselect_in_gees__user__routines" > def sselect(arg1,arg2): return sselect > Constructing call-back function "cb_dselect_in_gees__user__routines" > def dselect(arg1,arg2): return dselect > Constructing call-back function "cb_cselect_in_gees__user__routines" > def cselect(arg): return cselect > Constructing call-back function "cb_zselect_in_gees__user__routines" > def zselect(arg): return zselect > Building module "flapack"... > Constructing wrapper function "sgesv"... > lu,piv,x,info = sgesv(a,b,[overwrite_a,overwrite_b]) > Constructing wrapper function "dgesv"... > lu,piv,x,info = dgesv(a,b,[overwrite_a,overwrite_b]) > Constructing wrapper function "cgesv"... > lu,piv,x,info = cgesv(a,b,[overwrite_a,overwrite_b]) > Constructing wrapper function "zgesv"... > lu,piv,x,info = zgesv(a,b,[overwrite_a,overwrite_b]) > Constructing wrapper function "sgbsv"... > lub,piv,x,info = sgbsv(kl,ku,ab,b,[overwrite_ab,overwrite_b]) > Constructing wrapper function "dgbsv"... > lub,piv,x,info = dgbsv(kl,ku,ab,b,[overwrite_ab,overwrite_b]) > Constructing wrapper function "cgbsv"... > lub,piv,x,info = cgbsv(kl,ku,ab,b,[overwrite_ab,overwrite_b]) > Constructing wrapper function "zgbsv"... > lub,piv,x,info = zgbsv(kl,ku,ab,b,[overwrite_ab,overwrite_b]) > Constructing wrapper function "sposv"... > c,x,info = sposv(a,b,[lower,overwrite_a,overwrite_b]) > Constructing wrapper function "dposv"... > c,x,info = dposv(a,b,[lower,overwrite_a,overwrite_b]) > Constructing wrapper function "cposv"... > c,x,info = cposv(a,b,[lower,overwrite_a,overwrite_b]) > Constructing wrapper function "zposv"... > c,x,info = zposv(a,b,[lower,overwrite_a,overwrite_b]) > Constructing wrapper function "sgelss"... > v,x,s,rank,info = sgelss(a,b,[cond,lwork,overwrite_a,overwrite_b]) > Constructing wrapper function "dgelss"... > v,x,s,rank,info = dgelss(a,b,[cond,lwork,overwrite_a,overwrite_b]) > Constructing wrapper function "cgelss"... > v,x,s,rank,info = cgelss(a,b,[cond,lwork,overwrite_a,overwrite_b]) > Constructing wrapper function "zgelss"... > v,x,s,rank,info = zgelss(a,b,[cond,lwork,overwrite_a,overwrite_b]) > Constructing wrapper function "ssyev"... > w,v,info = ssyev(a,[compute_v,lower,lwork,overwrite_a]) > Constructing wrapper function "dsyev"... > w,v,info = dsyev(a,[compute_v,lower,lwork,overwrite_a]) > Constructing wrapper function "cheev"... > w,v,info = cheev(a,[compute_v,lower,lwork,overwrite_a]) > Constructing wrapper function "zheev"... > w,v,info = zheev(a,[compute_v,lower,lwork,overwrite_a]) > Constructing wrapper function "ssyevd"... > w,v,info = ssyevd(a,[compute_v,lower,lwork,overwrite_a]) > Constructing wrapper function "dsyevd"... > w,v,info = dsyevd(a,[compute_v,lower,lwork,overwrite_a]) > Constructing wrapper function "cheevd"... > w,v,info = cheevd(a,[compute_v,lower,lwork,overwrite_a]) > Constructing wrapper function "zheevd"... > w,v,info = zheevd(a,[compute_v,lower,lwork,overwrite_a]) > Constructing wrapper function "ssyevr"... > w,v,info = ssyevr(a,[compute_v,lower,vrange,irange,atol,lwork,overwrite_a]) > Constructing wrapper function "dsyevr"... > w,v,info = dsyevr(a,[compute_v,lower,vrange,irange,atol,lwork,overwrite_a]) > Constructing wrapper function "cheevr"... > w,v,info = cheevr(a,[compute_v,lower,vrange,irange,atol,lwork,overwrite_a]) > Constructing wrapper function "zheevr"... > w,v,info = zheevr(a,[compute_v,lower,vrange,irange,atol,lwork,overwrite_a]) > Constructing wrapper function "sgees"... > t,sdim,wr,wi,vs,info = sgees(sselect,a,[compute_v,sort_t,lwork,sselect_extra_args,overwrite_a]) > Constructing wrapper function "dgees"... > t,sdim,wr,wi,vs,info = dgees(dselect,a,[compute_v,sort_t,lwork,dselect_extra_args,overwrite_a]) > Constructing wrapper function "cgees"... > t,sdim,w,vs,info = cgees(cselect,a,[compute_v,sort_t,lwork,cselect_extra_args,overwrite_a]) > Constructing wrapper function "zgees"... > t,sdim,w,vs,info = zgees(zselect,a,[compute_v,sort_t,lwork,zselect_extra_args,overwrite_a]) > Constructing wrapper function "sgeev"... > wr,wi,vl,vr,info = sgeev(a,[compute_vl,compute_vr,lwork,overwrite_a]) > Constructing wrapper function "dgeev"... > wr,wi,vl,vr,info = dgeev(a,[compute_vl,compute_vr,lwork,overwrite_a]) > Constructing wrapper function "cgeev"... > w,vl,vr,info = cgeev(a,[compute_vl,compute_vr,lwork,overwrite_a]) > Constructing wrapper function "zgeev"... > w,vl,vr,info = zgeev(a,[compute_vl,compute_vr,lwork,overwrite_a]) > Constructing wrapper function "sgesdd"... > u,s,vt,info = sgesdd(a,[compute_uv,lwork,overwrite_a]) > Constructing wrapper function "dgesdd"... > u,s,vt,info = dgesdd(a,[compute_uv,lwork,overwrite_a]) > Constructing wrapper function "cgesdd"... > u,s,vt,info = cgesdd(a,[compute_uv,lwork,overwrite_a]) > Constructing wrapper function "zgesdd"... > u,s,vt,info = zgesdd(a,[compute_uv,lwork,overwrite_a]) > Constructing wrapper function "ssygv"... > w,v,info = ssygv(a,b,[itype,compute_v,lower,lwork,overwrite_a,overwrite_b]) > Constructing wrapper function "dsygv"... > w,v,info = dsygv(a,b,[itype,compute_v,lower,lwork,overwrite_a,overwrite_b]) > Constructing wrapper function "chegv"... > w,v,info = chegv(a,b,[itype,compute_v,lower,lwork,overwrite_a,overwrite_b]) > Constructing wrapper function "zhegv"... > w,v,info = zhegv(a,b,[itype,compute_v,lower,lwork,overwrite_a,overwrite_b]) > Constructing wrapper function "ssygvd"... > w,v,info = ssygvd(a,b,[itype,compute_v,lower,lwork,overwrite_a,overwrite_b]) > Constructing wrapper function "dsygvd"... > w,v,info = dsygvd(a,b,[itype,compute_v,lower,lwork,overwrite_a,overwrite_b]) > Constructing wrapper function "chegvd"... > w,v,info = chegvd(a,b,[itype,compute_v,lower,lwork,overwrite_a,overwrite_b]) > Constructing wrapper function "zhegvd"... > w,v,info = zhegvd(a,b,[itype,compute_v,lower,lwork,overwrite_a,overwrite_b]) > Constructing wrapper function "sggev"... > alphar,alphai,beta,vl,vr,info = sggev(a,b,[compute_vl,compute_vr,lwork,overwrite_a,overwrite_b]) > Constructing wrapper function "dggev"... > alphar,alphai,beta,vl,vr,info = dggev(a,b,[compute_vl,compute_vr,lwork,overwrite_a,overwrite_b]) > Constructing wrapper function "cggev"... > alpha,beta,vl,vr,info = cggev(a,b,[compute_vl,compute_vr,lwork,overwrite_a,overwrite_b]) > Constructing wrapper function "zggev"... > alpha,beta,vl,vr,info = zggev(a,b,[compute_vl,compute_vr,lwork,overwrite_a,overwrite_b]) > Constructing wrapper function "sgetrf"... > lu,piv,info = sgetrf(a,[overwrite_a]) > Constructing wrapper function "dgetrf"... > lu,piv,info = dgetrf(a,[overwrite_a]) > Constructing wrapper function "cgetrf"... > lu,piv,info = cgetrf(a,[overwrite_a]) > Constructing wrapper function "zgetrf"... > lu,piv,info = zgetrf(a,[overwrite_a]) > Constructing wrapper function "spotrf"... > c,info = spotrf(a,[lower,clean,overwrite_a]) > Constructing wrapper function "dpotrf"... > c,info = dpotrf(a,[lower,clean,overwrite_a]) > Constructing wrapper function "cpotrf"... > c,info = cpotrf(a,[lower,clean,overwrite_a]) > Constructing wrapper function "zpotrf"... > c,info = zpotrf(a,[lower,clean,overwrite_a]) > Constructing wrapper function "sgetrs"... > x,info = sgetrs(lu,piv,b,[trans,overwrite_b]) > Constructing wrapper function "dgetrs"... > x,info = dgetrs(lu,piv,b,[trans,overwrite_b]) > Constructing wrapper function "cgetrs"... > x,info = cgetrs(lu,piv,b,[trans,overwrite_b]) > Constructing wrapper function "zgetrs"... > x,info = zgetrs(lu,piv,b,[trans,overwrite_b]) > Constructing wrapper function "spotrs"... > x,info = spotrs(c,b,[lower,overwrite_b]) > Constructing wrapper function "dpotrs"... > x,info = dpotrs(c,b,[lower,overwrite_b]) > Constructing wrapper function "cpotrs"... > x,info = cpotrs(c,b,[lower,overwrite_b]) > Constructing wrapper function "zpotrs"... > x,info = zpotrs(c,b,[lower,overwrite_b]) > Constructing wrapper function "sgetri"... > inv_a,info = sgetri(lu,piv,[lwork,overwrite_lu]) > Constructing wrapper function "dgetri"... > inv_a,info = dgetri(lu,piv,[lwork,overwrite_lu]) > Constructing wrapper function "cgetri"... > inv_a,info = cgetri(lu,piv,[lwork,overwrite_lu]) > Constructing wrapper function "zgetri"... > inv_a,info = zgetri(lu,piv,[lwork,overwrite_lu]) > Constructing wrapper function "spotri"... > inv_a,info = spotri(c,[lower,overwrite_c]) > Constructing wrapper function "dpotri"... > inv_a,info = dpotri(c,[lower,overwrite_c]) > Constructing wrapper function "cpotri"... > inv_a,info = cpotri(c,[lower,overwrite_c]) > Constructing wrapper function "zpotri"... > inv_a,info = zpotri(c,[lower,overwrite_c]) > Constructing wrapper function "strtri"... > inv_c,info = strtri(c,[lower,unitdiag,overwrite_c]) > Constructing wrapper function "dtrtri"... > inv_c,info = dtrtri(c,[lower,unitdiag,overwrite_c]) > Constructing wrapper function "ctrtri"... > inv_c,info = ctrtri(c,[lower,unitdiag,overwrite_c]) > Constructing wrapper function "ztrtri"... > inv_c,info = ztrtri(c,[lower,unitdiag,overwrite_c]) > Constructing wrapper function "sgeqrf"... > qr,tau,info = sgeqrf(a,[lwork,overwrite_a]) > Constructing wrapper function "dgeqrf"... > qr,tau,info = dgeqrf(a,[lwork,overwrite_a]) > Constructing wrapper function "cgeqrf"... > qr,tau,info = cgeqrf(a,[lwork,overwrite_a]) > Constructing wrapper function "zgeqrf"... > qr,tau,info = zgeqrf(a,[lwork,overwrite_a]) > Constructing wrapper function "sorgqr"... > q,info = sorgqr(qr,tau,[lwork,overwrite_qr,overwrite_tau]) > Constructing wrapper function "dorgqr"... > q,info = dorgqr(qr,tau,[lwork,overwrite_qr,overwrite_tau]) > Constructing wrapper function "cungqr"... > q,info = cungqr(qr,tau,[lwork,overwrite_qr,overwrite_tau]) > Constructing wrapper function "zungqr"... > q,info = zungqr(qr,tau,[lwork,overwrite_qr,overwrite_tau]) > Constructing wrapper function "sgehrd"... > ht,tau,info = sgehrd(a,[lo,hi,lwork,overwrite_a]) > Constructing wrapper function "dgehrd"... > ht,tau,info = dgehrd(a,[lo,hi,lwork,overwrite_a]) > Constructing wrapper function "cgehrd"... > ht,tau,info = cgehrd(a,[lo,hi,lwork,overwrite_a]) > Constructing wrapper function "zgehrd"... > ht,tau,info = zgehrd(a,[lo,hi,lwork,overwrite_a]) > Constructing wrapper function "sgebal"... > ba,lo,hi,pivscale,info = sgebal(a,[scale,permute,overwrite_a]) > Constructing wrapper function "dgebal"... > ba,lo,hi,pivscale,info = dgebal(a,[scale,permute,overwrite_a]) > Constructing wrapper function "cgebal"... > ba,lo,hi,pivscale,info = cgebal(a,[scale,permute,overwrite_a]) > Constructing wrapper function "zgebal"... > ba,lo,hi,pivscale,info = zgebal(a,[scale,permute,overwrite_a]) > Constructing wrapper function "slauum"... > a,info = slauum(c,[lower,overwrite_c]) > Constructing wrapper function "dlauum"... > a,info = dlauum(c,[lower,overwrite_c]) > Constructing wrapper function "clauum"... > a,info = clauum(c,[lower,overwrite_c]) > Constructing wrapper function "zlauum"... > a,info = zlauum(c,[lower,overwrite_c]) > Constructing wrapper function "slaswp"... >getarrdims:warning: assumed shape array, using 0 instead of '*' > a = slaswp(a,piv,[k1,k2,off,inc,overwrite_a]) > Constructing wrapper function "dlaswp"... >getarrdims:warning: assumed shape array, using 0 instead of '*' > a = dlaswp(a,piv,[k1,k2,off,inc,overwrite_a]) > Constructing wrapper function "claswp"... >getarrdims:warning: assumed shape array, using 0 instead of '*' > a = claswp(a,piv,[k1,k2,off,inc,overwrite_a]) > Constructing wrapper function "zlaswp"... >getarrdims:warning: assumed shape array, using 0 instead of '*' > a = zlaswp(a,piv,[k1,k2,off,inc,overwrite_a]) > Wrote C/API module "flapack" to file "build/src.linux-x86_64-2.5/build/src.linux-x86_64-2.5/scipy/lib/lapack/flapackmodule.c" >[33m adding 'build/src.linux-x86_64-2.5/fortranobject.c' to sources.[0m >[33m adding 'build/src.linux-x86_64-2.5' to include_dirs.[0m >[33mbuilding extension "scipy.lib.lapack.clapack" sources[0m >[33m adding 'scipy/lib/lapack/clapack.pyf.src' to sources.[0m >[33mfrom_template:> build/src.linux-x86_64-2.5/scipy/lib/lapack/clapack.pyf[0m >[33mf2py options: ['skip:', ':'][0m >[33mf2py: build/src.linux-x86_64-2.5/scipy/lib/lapack/clapack.pyf[0m >Reading fortran codes... > Reading file 'build/src.linux-x86_64-2.5/scipy/lib/lapack/clapack.pyf' (format:free) >Post-processing... > Block: clapack > Block: sgesv > Block: dgesv > Block: cgesv > Block: zgesv > Block: sgetrf > Block: dgetrf > Block: cgetrf > Block: zgetrf > Block: sgetrs > Block: dgetrs > Block: cgetrs > Block: zgetrs > Block: sgetri > Block: dgetri > Block: cgetri > Block: zgetri > Block: sposv > Block: dposv > Block: cposv > Block: zposv > Block: spotrf > Block: dpotrf > Block: cpotrf > Block: zpotrf > Block: spotrs > Block: dpotrs > Block: cpotrs > Block: zpotrs > Block: spotri > Block: dpotri > Block: cpotri > Block: zpotri > Block: slauum > Block: dlauum > Block: clauum > Block: zlauum > Block: strtri > Block: dtrtri > Block: ctrtri > Block: ztrtri >Post-processing (stage 2)... >Building modules... > Building module "clapack"... > Constructing wrapper function "sgesv"... > lu,piv,x,info = sgesv(a,b,[rowmajor,overwrite_a,overwrite_b]) > Constructing wrapper function "dgesv"... > lu,piv,x,info = dgesv(a,b,[rowmajor,overwrite_a,overwrite_b]) > Constructing wrapper function "cgesv"... > lu,piv,x,info = cgesv(a,b,[rowmajor,overwrite_a,overwrite_b]) > Constructing wrapper function "zgesv"... > lu,piv,x,info = zgesv(a,b,[rowmajor,overwrite_a,overwrite_b]) > Constructing wrapper function "sgetrf"... > lu,piv,info = sgetrf(a,[rowmajor,overwrite_a]) > Constructing wrapper function "dgetrf"... > lu,piv,info = dgetrf(a,[rowmajor,overwrite_a]) > Constructing wrapper function "cgetrf"... > lu,piv,info = cgetrf(a,[rowmajor,overwrite_a]) > Constructing wrapper function "zgetrf"... > lu,piv,info = zgetrf(a,[rowmajor,overwrite_a]) > Constructing wrapper function "sgetrs"... > x,info = sgetrs(lu,piv,b,[trans,rowmajor,overwrite_b]) > Constructing wrapper function "dgetrs"... > x,info = dgetrs(lu,piv,b,[trans,rowmajor,overwrite_b]) > Constructing wrapper function "cgetrs"... > x,info = cgetrs(lu,piv,b,[trans,rowmajor,overwrite_b]) > Constructing wrapper function "zgetrs"... > x,info = zgetrs(lu,piv,b,[trans,rowmajor,overwrite_b]) > Constructing wrapper function "sgetri"... > inv_a,info = sgetri(lu,piv,[rowmajor,overwrite_lu]) > Constructing wrapper function "dgetri"... > inv_a,info = dgetri(lu,piv,[rowmajor,overwrite_lu]) > Constructing wrapper function "cgetri"... > inv_a,info = cgetri(lu,piv,[rowmajor,overwrite_lu]) > Constructing wrapper function "zgetri"... > inv_a,info = zgetri(lu,piv,[rowmajor,overwrite_lu]) > Constructing wrapper function "sposv"... > c,x,info = sposv(a,b,[lower,rowmajor,overwrite_a,overwrite_b]) > Constructing wrapper function "dposv"... > c,x,info = dposv(a,b,[lower,rowmajor,overwrite_a,overwrite_b]) > Constructing wrapper function "cposv"... > c,x,info = cposv(a,b,[lower,rowmajor,overwrite_a,overwrite_b]) > Constructing wrapper function "zposv"... > c,x,info = zposv(a,b,[lower,rowmajor,overwrite_a,overwrite_b]) > Constructing wrapper function "spotrf"... > c,info = spotrf(a,[lower,clean,rowmajor,overwrite_a]) > Constructing wrapper function "dpotrf"... > c,info = dpotrf(a,[lower,clean,rowmajor,overwrite_a]) > Constructing wrapper function "cpotrf"... > c,info = cpotrf(a,[lower,clean,rowmajor,overwrite_a]) > Constructing wrapper function "zpotrf"... > c,info = zpotrf(a,[lower,clean,rowmajor,overwrite_a]) > Constructing wrapper function "spotrs"... > x,info = spotrs(c,b,[lower,rowmajor,overwrite_b]) > Constructing wrapper function "dpotrs"... > x,info = dpotrs(c,b,[lower,rowmajor,overwrite_b]) > Constructing wrapper function "cpotrs"... > x,info = cpotrs(c,b,[lower,rowmajor,overwrite_b]) > Constructing wrapper function "zpotrs"... > x,info = zpotrs(c,b,[lower,rowmajor,overwrite_b]) > Constructing wrapper function "spotri"... > inv_a,info = spotri(c,[lower,rowmajor,overwrite_c]) > Constructing wrapper function "dpotri"... > inv_a,info = dpotri(c,[lower,rowmajor,overwrite_c]) > Constructing wrapper function "cpotri"... > inv_a,info = cpotri(c,[lower,rowmajor,overwrite_c]) > Constructing wrapper function "zpotri"... > inv_a,info = zpotri(c,[lower,rowmajor,overwrite_c]) > Constructing wrapper function "slauum"... > a,info = slauum(c,[lower,rowmajor,overwrite_c]) > Constructing wrapper function "dlauum"... > a,info = dlauum(c,[lower,rowmajor,overwrite_c]) > Constructing wrapper function "clauum"... > a,info = clauum(c,[lower,rowmajor,overwrite_c]) > Constructing wrapper function "zlauum"... > a,info = zlauum(c,[lower,rowmajor,overwrite_c]) > Constructing wrapper function "strtri"... > inv_c,info = strtri(c,[lower,unitdiag,rowmajor,overwrite_c]) > Constructing wrapper function "dtrtri"... > inv_c,info = dtrtri(c,[lower,unitdiag,rowmajor,overwrite_c]) > Constructing wrapper function "ctrtri"... > inv_c,info = ctrtri(c,[lower,unitdiag,rowmajor,overwrite_c]) > Constructing wrapper function "ztrtri"... > inv_c,info = ztrtri(c,[lower,unitdiag,rowmajor,overwrite_c]) > Wrote C/API module "clapack" to file "build/src.linux-x86_64-2.5/build/src.linux-x86_64-2.5/scipy/lib/lapack/clapackmodule.c" >[33m adding 'build/src.linux-x86_64-2.5/fortranobject.c' to sources.[0m >[33m adding 'build/src.linux-x86_64-2.5' to include_dirs.[0m >[33mbuilding extension "scipy.lib.lapack.calc_lwork" sources[0m >[33mf2py options: [][0m >[33mf2py:> build/src.linux-x86_64-2.5/scipy/lib/lapack/calc_lworkmodule.c[0m >Reading fortran codes... > Reading file 'scipy/lib/lapack/calc_lwork.f' (format:fix,strict) >Post-processing... > Block: calc_lwork > Block: gehrd > Block: gesdd > Block: gelss > Block: getri > Block: geev > Block: heev > Block: syev > Block: gees > Block: geqrf > Block: gqr >Post-processing (stage 2)... >Building modules... > Building module "calc_lwork"... > Constructing wrapper function "gehrd"... > minwrk,maxwrk = gehrd(prefix,n,[lo,hi]) > Constructing wrapper function "gesdd"... > minwrk,maxwrk = gesdd(prefix,m,n,[compute_uv]) > Constructing wrapper function "gelss"... > minwrk,maxwrk = gelss(prefix,m,n,nrhs) > Constructing wrapper function "getri"... > minwrk,maxwrk = getri(prefix,n) > Constructing wrapper function "geev"... > minwrk,maxwrk = geev(prefix,n,[compute_vl,compute_vr]) > Constructing wrapper function "heev"... > minwrk,maxwrk = heev(prefix,n,[lower]) > Constructing wrapper function "syev"... > minwrk,maxwrk = syev(prefix,n,[lower]) > Constructing wrapper function "gees"... > minwrk,maxwrk = gees(prefix,n,[compute_v]) > Constructing wrapper function "geqrf"... > minwrk,maxwrk = geqrf(prefix,m,n) > Constructing wrapper function "gqr"... > minwrk,maxwrk = gqr(prefix,m,n) > Wrote C/API module "calc_lwork" to file "build/src.linux-x86_64-2.5/scipy/lib/lapack/calc_lworkmodule.c" >[33m adding 'build/src.linux-x86_64-2.5/fortranobject.c' to sources.[0m >[33m adding 'build/src.linux-x86_64-2.5' to include_dirs.[0m >[33mbuilding extension "scipy.lib.lapack.atlas_version" sources[0m >[33mbuilding extension "scipy.linalg.fblas" sources[0m >[33mcreating build/src.linux-x86_64-2.5/scipy/linalg[0m >generating fblas interface >23 >[33m adding 'build/src.linux-x86_64-2.5/scipy/linalg/fblas.pyf' to sources.[0m >[33mcreating build/src.linux-x86_64-2.5/build/src.linux-x86_64-2.5/scipy/linalg[0m >[33mf2py options: [][0m >[33mf2py: build/src.linux-x86_64-2.5/scipy/linalg/fblas.pyf[0m >Reading fortran codes... > Reading file 'build/src.linux-x86_64-2.5/scipy/linalg/fblas.pyf' (format:free) >Post-processing... > Block: fblas > Block: srotg > Block: drotg > Block: crotg > Block: zrotg > Block: srotmg > Block: drotmg > Block: srot > Block: drot > Block: csrot > Block: zdrot > Block: srotm > Block: drotm > Block: sswap > Block: dswap > Block: cswap > Block: zswap > Block: sscal > Block: dscal > Block: cscal > Block: zscal > Block: csscal > Block: zdscal > Block: scopy > Block: dcopy > Block: ccopy > Block: zcopy > Block: saxpy > Block: daxpy > Block: caxpy > Block: zaxpy > Block: cdotu > Block: zdotu > Block: cdotc > Block: zdotc > Block: sgemv > Block: dgemv > Block: cgemv > Block: zgemv > Block: chemv > Block: zhemv > Block: ssymv > Block: dsymv > Block: strmv > Block: dtrmv > Block: ctrmv > Block: ztrmv > Block: sger > Block: dger > Block: cgeru > Block: zgeru > Block: cgerc > Block: zgerc > Block: sgemm > Block: dgemm > Block: cgemm > Block: zgemm > Block: sdot > Block: ddot > Block: snrm2 > Block: dnrm2 > Block: scnrm2 > Block: dznrm2 > Block: sasum > Block: dasum > Block: scasum > Block: dzasum > Block: isamax > Block: idamax > Block: icamax > Block: izamax >Post-processing (stage 2)... >Building modules... > Building module "fblas"... > Constructing wrapper function "srotg"... > c,s = srotg(a,b) > Constructing wrapper function "drotg"... > c,s = drotg(a,b) > Constructing wrapper function "crotg"... > c,s = crotg(a,b) > Constructing wrapper function "zrotg"... > c,s = zrotg(a,b) > Constructing wrapper function "srotmg"... > param = srotmg(d1,d2,x1,y1) > Constructing wrapper function "drotmg"... > param = drotmg(d1,d2,x1,y1) > Constructing wrapper function "srot"... >getarrdims:warning: assumed shape array, using 0 instead of '*' >getarrdims:warning: assumed shape array, using 0 instead of '*' > x,y = srot(x,y,c,s,[n,offx,incx,offy,incy,overwrite_x,overwrite_y]) > Constructing wrapper function "drot"... >getarrdims:warning: assumed shape array, using 0 instead of '*' >getarrdims:warning: assumed shape array, using 0 instead of '*' > x,y = drot(x,y,c,s,[n,offx,incx,offy,incy,overwrite_x,overwrite_y]) > Constructing wrapper function "csrot"... >getarrdims:warning: assumed shape array, using 0 instead of '*' >getarrdims:warning: assumed shape array, using 0 instead of '*' > x,y = csrot(x,y,c,s,[n,offx,incx,offy,incy,overwrite_x,overwrite_y]) > Constructing wrapper function "zdrot"... >getarrdims:warning: assumed shape array, using 0 instead of '*' >getarrdims:warning: assumed shape array, using 0 instead of '*' > x,y = zdrot(x,y,c,s,[n,offx,incx,offy,incy,overwrite_x,overwrite_y]) > Constructing wrapper function "srotm"... >getarrdims:warning: assumed shape array, using 0 instead of '*' >getarrdims:warning: assumed shape array, using 0 instead of '*' > x,y = srotm(x,y,param,[n,offx,incx,offy,incy,overwrite_x,overwrite_y]) > Constructing wrapper function "drotm"... >getarrdims:warning: assumed shape array, using 0 instead of '*' >getarrdims:warning: assumed shape array, using 0 instead of '*' > x,y = drotm(x,y,param,[n,offx,incx,offy,incy,overwrite_x,overwrite_y]) > Constructing wrapper function "sswap"... >getarrdims:warning: assumed shape array, using 0 instead of '*' >getarrdims:warning: assumed shape array, using 0 instead of '*' > x,y = sswap(x,y,[n,offx,incx,offy,incy]) > Constructing wrapper function "dswap"... >getarrdims:warning: assumed shape array, using 0 instead of '*' >getarrdims:warning: assumed shape array, using 0 instead of '*' > x,y = dswap(x,y,[n,offx,incx,offy,incy]) > Constructing wrapper function "cswap"... >getarrdims:warning: assumed shape array, using 0 instead of '*' >getarrdims:warning: assumed shape array, using 0 instead of '*' > x,y = cswap(x,y,[n,offx,incx,offy,incy]) > Constructing wrapper function "zswap"... >getarrdims:warning: assumed shape array, using 0 instead of '*' >getarrdims:warning: assumed shape array, using 0 instead of '*' > x,y = zswap(x,y,[n,offx,incx,offy,incy]) > Constructing wrapper function "sscal"... >getarrdims:warning: assumed shape array, using 0 instead of '*' > x = sscal(a,x,[n,offx,incx]) > Constructing wrapper function "dscal"... >getarrdims:warning: assumed shape array, using 0 instead of '*' > x = dscal(a,x,[n,offx,incx]) > Constructing wrapper function "cscal"... >getarrdims:warning: assumed shape array, using 0 instead of '*' > x = cscal(a,x,[n,offx,incx]) > Constructing wrapper function "zscal"... >getarrdims:warning: assumed shape array, using 0 instead of '*' > x = zscal(a,x,[n,offx,incx]) > Constructing wrapper function "csscal"... >getarrdims:warning: assumed shape array, using 0 instead of '*' > x = csscal(a,x,[n,offx,incx,overwrite_x]) > Constructing wrapper function "zdscal"... >getarrdims:warning: assumed shape array, using 0 instead of '*' > x = zdscal(a,x,[n,offx,incx,overwrite_x]) > Constructing wrapper function "scopy"... >getarrdims:warning: assumed shape array, using 0 instead of '*' >getarrdims:warning: assumed shape array, using 0 instead of '*' > y = scopy(x,y,[n,offx,incx,offy,incy]) > Constructing wrapper function "dcopy"... >getarrdims:warning: assumed shape array, using 0 instead of '*' >getarrdims:warning: assumed shape array, using 0 instead of '*' > y = dcopy(x,y,[n,offx,incx,offy,incy]) > Constructing wrapper function "ccopy"... >getarrdims:warning: assumed shape array, using 0 instead of '*' >getarrdims:warning: assumed shape array, using 0 instead of '*' > y = ccopy(x,y,[n,offx,incx,offy,incy]) > Constructing wrapper function "zcopy"... >getarrdims:warning: assumed shape array, using 0 instead of '*' >getarrdims:warning: assumed shape array, using 0 instead of '*' > y = zcopy(x,y,[n,offx,incx,offy,incy]) > Constructing wrapper function "saxpy"... >getarrdims:warning: assumed shape array, using 0 instead of '*' >getarrdims:warning: assumed shape array, using 0 instead of '*' > y = saxpy(x,y,[n,a,offx,incx,offy,incy]) > Constructing wrapper function "daxpy"... >getarrdims:warning: assumed shape array, using 0 instead of '*' >getarrdims:warning: assumed shape array, using 0 instead of '*' > y = daxpy(x,y,[n,a,offx,incx,offy,incy]) > Constructing wrapper function "caxpy"... >getarrdims:warning: assumed shape array, using 0 instead of '*' >getarrdims:warning: assumed shape array, using 0 instead of '*' > y = caxpy(x,y,[n,a,offx,incx,offy,incy]) > Constructing wrapper function "zaxpy"... >getarrdims:warning: assumed shape array, using 0 instead of '*' >getarrdims:warning: assumed shape array, using 0 instead of '*' > y = zaxpy(x,y,[n,a,offx,incx,offy,incy]) > Constructing wrapper function "cdotu"... >getarrdims:warning: assumed shape array, using 0 instead of '*' >getarrdims:warning: assumed shape array, using 0 instead of '*' > xy = cdotu(x,y,[n,offx,incx,offy,incy]) > Constructing wrapper function "zdotu"... >getarrdims:warning: assumed shape array, using 0 instead of '*' >getarrdims:warning: assumed shape array, using 0 instead of '*' > xy = zdotu(x,y,[n,offx,incx,offy,incy]) > Constructing wrapper function "cdotc"... >getarrdims:warning: assumed shape array, using 0 instead of '*' >getarrdims:warning: assumed shape array, using 0 instead of '*' > xy = cdotc(x,y,[n,offx,incx,offy,incy]) > Constructing wrapper function "zdotc"... >getarrdims:warning: assumed shape array, using 0 instead of '*' >getarrdims:warning: assumed shape array, using 0 instead of '*' > xy = zdotc(x,y,[n,offx,incx,offy,incy]) > Constructing wrapper function "sgemv"... >getarrdims:warning: assumed shape array, using 0 instead of '*' > y = sgemv(alpha,a,x,[beta,y,offx,incx,offy,incy,trans,overwrite_y]) > Constructing wrapper function "dgemv"... >getarrdims:warning: assumed shape array, using 0 instead of '*' > y = dgemv(alpha,a,x,[beta,y,offx,incx,offy,incy,trans,overwrite_y]) > Constructing wrapper function "cgemv"... >getarrdims:warning: assumed shape array, using 0 instead of '*' > y = cgemv(alpha,a,x,[beta,y,offx,incx,offy,incy,trans,overwrite_y]) > Constructing wrapper function "zgemv"... >getarrdims:warning: assumed shape array, using 0 instead of '*' > y = zgemv(alpha,a,x,[beta,y,offx,incx,offy,incy,trans,overwrite_y]) > Constructing wrapper function "chemv"... >getarrdims:warning: assumed shape array, using 0 instead of '*' >getarrdims:warning: assumed shape array, using 0 instead of '*' > y = chemv(alpha,a,x,beta,y,[offx,incx,offy,incy,lower,overwrite_y]) > Constructing wrapper function "zhemv"... >getarrdims:warning: assumed shape array, using 0 instead of '*' >getarrdims:warning: assumed shape array, using 0 instead of '*' > y = zhemv(alpha,a,x,beta,y,[offx,incx,offy,incy,lower,overwrite_y]) > Constructing wrapper function "ssymv"... >getarrdims:warning: assumed shape array, using 0 instead of '*' >getarrdims:warning: assumed shape array, using 0 instead of '*' > y = ssymv(alpha,a,x,beta,y,[offx,incx,offy,incy,lower,overwrite_y]) > Constructing wrapper function "dsymv"... >getarrdims:warning: assumed shape array, using 0 instead of '*' >getarrdims:warning: assumed shape array, using 0 instead of '*' > y = dsymv(alpha,a,x,beta,y,[offx,incx,offy,incy,lower,overwrite_y]) > Constructing wrapper function "strmv"... >getarrdims:warning: assumed shape array, using 0 instead of '*' > x = strmv(a,x,[offx,incx,lower,trans,unitdiag,overwrite_x]) > Constructing wrapper function "dtrmv"... >getarrdims:warning: assumed shape array, using 0 instead of '*' > x = dtrmv(a,x,[offx,incx,lower,trans,unitdiag,overwrite_x]) > Constructing wrapper function "ctrmv"... >getarrdims:warning: assumed shape array, using 0 instead of '*' > x = ctrmv(a,x,[offx,incx,lower,trans,unitdiag,overwrite_x]) > Constructing wrapper function "ztrmv"... >getarrdims:warning: assumed shape array, using 0 instead of '*' > x = ztrmv(a,x,[offx,incx,lower,trans,unitdiag,overwrite_x]) > Constructing wrapper function "sger"... > a = sger(alpha,x,y,[incx,incy,a,overwrite_x,overwrite_y,overwrite_a]) > Constructing wrapper function "dger"... > a = dger(alpha,x,y,[incx,incy,a,overwrite_x,overwrite_y,overwrite_a]) > Constructing wrapper function "cgeru"... > a = cgeru(alpha,x,y,[incx,incy,a,overwrite_x,overwrite_y,overwrite_a]) > Constructing wrapper function "zgeru"... > a = zgeru(alpha,x,y,[incx,incy,a,overwrite_x,overwrite_y,overwrite_a]) > Constructing wrapper function "cgerc"... > a = cgerc(alpha,x,y,[incx,incy,a,overwrite_x,overwrite_y,overwrite_a]) > Constructing wrapper function "zgerc"... > a = zgerc(alpha,x,y,[incx,incy,a,overwrite_x,overwrite_y,overwrite_a]) > Constructing wrapper function "sgemm"... > c = sgemm(alpha,a,b,[beta,c,trans_a,trans_b,overwrite_c]) > Constructing wrapper function "dgemm"... > c = dgemm(alpha,a,b,[beta,c,trans_a,trans_b,overwrite_c]) > Constructing wrapper function "cgemm"... > c = cgemm(alpha,a,b,[beta,c,trans_a,trans_b,overwrite_c]) > Constructing wrapper function "zgemm"... > c = zgemm(alpha,a,b,[beta,c,trans_a,trans_b,overwrite_c]) > Creating wrapper for Fortran function "sdot"("sdot")... > Constructing wrapper function "sdot"... >getarrdims:warning: assumed shape array, using 0 instead of '*' >getarrdims:warning: assumed shape array, using 0 instead of '*' > xy = sdot(x,y,[n,offx,incx,offy,incy]) > Creating wrapper for Fortran function "ddot"("ddot")... > Constructing wrapper function "ddot"... >getarrdims:warning: assumed shape array, using 0 instead of '*' >getarrdims:warning: assumed shape array, using 0 instead of '*' > xy = ddot(x,y,[n,offx,incx,offy,incy]) > Creating wrapper for Fortran function "snrm2"("snrm2")... > Constructing wrapper function "snrm2"... >getarrdims:warning: assumed shape array, using 0 instead of '*' > n2 = snrm2(x,[n,offx,incx]) > Creating wrapper for Fortran function "dnrm2"("dnrm2")... > Constructing wrapper function "dnrm2"... >getarrdims:warning: assumed shape array, using 0 instead of '*' > n2 = dnrm2(x,[n,offx,incx]) > Creating wrapper for Fortran function "scnrm2"("scnrm2")... > Constructing wrapper function "scnrm2"... >getarrdims:warning: assumed shape array, using 0 instead of '*' > n2 = scnrm2(x,[n,offx,incx]) > Creating wrapper for Fortran function "dznrm2"("dznrm2")... > Constructing wrapper function "dznrm2"... >getarrdims:warning: assumed shape array, using 0 instead of '*' > n2 = dznrm2(x,[n,offx,incx]) > Creating wrapper for Fortran function "sasum"("sasum")... > Constructing wrapper function "sasum"... >getarrdims:warning: assumed shape array, using 0 instead of '*' > s = sasum(x,[n,offx,incx]) > Creating wrapper for Fortran function "dasum"("dasum")... > Constructing wrapper function "dasum"... >getarrdims:warning: assumed shape array, using 0 instead of '*' > s = dasum(x,[n,offx,incx]) > Creating wrapper for Fortran function "scasum"("scasum")... > Constructing wrapper function "scasum"... >getarrdims:warning: assumed shape array, using 0 instead of '*' > s = scasum(x,[n,offx,incx]) > Creating wrapper for Fortran function "dzasum"("dzasum")... > Constructing wrapper function "dzasum"... >getarrdims:warning: assumed shape array, using 0 instead of '*' > s = dzasum(x,[n,offx,incx]) > Constructing wrapper function "isamax"... >getarrdims:warning: assumed shape array, using 0 instead of '*' > k = isamax(x,[n,offx,incx]) > Constructing wrapper function "idamax"... >getarrdims:warning: assumed shape array, using 0 instead of '*' > k = idamax(x,[n,offx,incx]) > Constructing wrapper function "icamax"... >getarrdims:warning: assumed shape array, using 0 instead of '*' > k = icamax(x,[n,offx,incx]) > Constructing wrapper function "izamax"... >getarrdims:warning: assumed shape array, using 0 instead of '*' > k = izamax(x,[n,offx,incx]) > Wrote C/API module "fblas" to file "build/src.linux-x86_64-2.5/build/src.linux-x86_64-2.5/scipy/linalg/fblasmodule.c" > Fortran 77 wrappers are saved to "build/src.linux-x86_64-2.5/build/src.linux-x86_64-2.5/scipy/linalg/fblas-f2pywrappers.f" >[33m adding 'build/src.linux-x86_64-2.5/fortranobject.c' to sources.[0m >[33m adding 'build/src.linux-x86_64-2.5' to include_dirs.[0m >[33m adding 'build/src.linux-x86_64-2.5/build/src.linux-x86_64-2.5/scipy/linalg/fblas-f2pywrappers.f' to sources.[0m >[33mbuilding extension "scipy.linalg.cblas" sources[0m >generating cblas interface >2 >[33m adding 'build/src.linux-x86_64-2.5/scipy/linalg/cblas.pyf' to sources.[0m >[33mf2py options: [][0m >[33mf2py: build/src.linux-x86_64-2.5/scipy/linalg/cblas.pyf[0m >Reading fortran codes... > Reading file 'build/src.linux-x86_64-2.5/scipy/linalg/cblas.pyf' (format:free) >Line #19 in build/src.linux-x86_64-2.5/scipy/linalg/cblas.pyf:" intent(c)" > All arguments will have attribute intent(c) >Line #42 in build/src.linux-x86_64-2.5/scipy/linalg/cblas.pyf:" intent(c)" > All arguments will have attribute intent(c) >Line #65 in build/src.linux-x86_64-2.5/scipy/linalg/cblas.pyf:" intent(c)" > All arguments will have attribute intent(c) >Line #88 in build/src.linux-x86_64-2.5/scipy/linalg/cblas.pyf:" intent(c)" > All arguments will have attribute intent(c) >Post-processing... > Block: cblas > Block: saxpy > Block: daxpy > Block: caxpy > Block: zaxpy >Post-processing (stage 2)... >Building modules... > Building module "cblas"... > Constructing wrapper function "saxpy"... > z = saxpy(a,x,y,[n,incx,incy,overwrite_y]) > Constructing wrapper function "daxpy"... > z = daxpy(a,x,y,[n,incx,incy,overwrite_y]) > Constructing wrapper function "caxpy"... > z = caxpy(a,x,y,[n,incx,incy,overwrite_y]) > Constructing wrapper function "zaxpy"... > z = zaxpy(a,x,y,[n,incx,incy,overwrite_y]) > Wrote C/API module "cblas" to file "build/src.linux-x86_64-2.5/build/src.linux-x86_64-2.5/scipy/linalg/cblasmodule.c" >[33m adding 'build/src.linux-x86_64-2.5/fortranobject.c' to sources.[0m >[33m adding 'build/src.linux-x86_64-2.5' to include_dirs.[0m >[33mbuilding extension "scipy.linalg.flapack" sources[0m >generating flapack interface >45 >[33m adding 'build/src.linux-x86_64-2.5/scipy/linalg/flapack.pyf' to sources.[0m >[33mf2py options: [][0m >[33mf2py: build/src.linux-x86_64-2.5/scipy/linalg/flapack.pyf[0m >Reading fortran codes... > Reading file 'build/src.linux-x86_64-2.5/scipy/linalg/flapack.pyf' (format:free) >Post-processing... > Block: cgees__user__routines > Block: cgees_user_interface > Block: cselect > Block: dgees__user__routines > Block: dgees_user_interface > Block: dselect > Block: sgees__user__routines > Block: sgees_user_interface > Block: sselect > Block: zgees__user__routines > Block: zgees_user_interface > Block: zselect > Block: flapack > Block: spbtrf > Block: dpbtrf > Block: cpbtrf > Block: zpbtrf > Block: spbsv > Block: dpbsv > Block: cpbsv > Block: zpbsv > Block: sgebal > Block: dgebal > Block: cgebal > Block: zgebal > Block: sgehrd > Block: dgehrd > Block: cgehrd > Block: zgehrd > Block: sgbsv > Block: dgbsv > Block: cgbsv > Block: zgbsv > Block: sgesv > Block: dgesv > Block: cgesv > Block: zgesv > Block: sgetrf > Block: dgetrf > Block: cgetrf > Block: zgetrf > Block: sgetrs > Block: dgetrs > Block: cgetrs > Block: zgetrs > Block: sgetri > Block: dgetri > Block: cgetri > Block: zgetri > Block: sgesdd > Block: dgesdd > Block: cgesdd > Block: zgesdd > Block: sgelss > Block: dgelss > Block: cgelss > Block: zgelss > Block: sgeqrf > Block: dgeqrf > Block: cgeqrf > Block: zgeqrf > Block: sgerqf > Block: dgerqf > Block: cgerqf > Block: zgerqf > Block: sorgqr > Block: dorgqr > Block: cungqr > Block: zungqr > Block: sgeev > Block: dgeev > Block: cgeev > Block: zgeev > Block: sgegv > Block: dgegv > Block: cgegv > Block: zgegv > Block: ssyev > Block: dsyev > Block: cheev > Block: zheev > Block: sposv > Block: dposv > Block: cposv > Block: zposv > Block: spotrf > Block: dpotrf > Block: cpotrf > Block: zpotrf > Block: spotrs > Block: dpotrs > Block: cpotrs > Block: zpotrs > Block: spotri > Block: dpotri > Block: cpotri > Block: zpotri > Block: slauum > Block: dlauum > Block: clauum > Block: zlauum > Block: strtri > Block: dtrtri > Block: ctrtri > Block: ztrtri > Block: slaswp > Block: dlaswp > Block: claswp > Block: zlaswp > Block: cgees > Block: zgees > Block: dgees > Block: sgees > Block: sggev > Block: dggev > Block: cggev > Block: zggev > Block: ssbev > Block: dsbev > Block: ssbevd > Block: dsbevd > Block: ssbevx > Block: dsbevx > Block: chbevd > Block: zhbevd > Block: chbevx > Block: zhbevx > Block: sgbtrf > Block: dgbtrf > Block: cgbtrf > Block: zgbtrf > Block: sgbtrs > Block: dgbtrs > Block: cgbtrs > Block: zgbtrs > Block: slamch > Block: dlamch >Post-processing (stage 2)... >Building modules... > Constructing call-back function "cb_cselect_in_cgees__user__routines" > def cselect(e_w__i__e): return cselect > Constructing call-back function "cb_dselect_in_dgees__user__routines" > def dselect(e_wr__i__e,e_wi__i__e): return dselect > Constructing call-back function "cb_sselect_in_sgees__user__routines" > def sselect(e_wr__i__e,e_wi__i__e): return sselect > Constructing call-back function "cb_zselect_in_zgees__user__routines" > def zselect(e_w__i__e): return zselect > Building module "flapack"... > Constructing wrapper function "spbtrf"... > c,info = spbtrf(ab,[lower,ldab,overwrite_ab]) > Constructing wrapper function "dpbtrf"... > c,info = dpbtrf(ab,[lower,ldab,overwrite_ab]) > Constructing wrapper function "cpbtrf"... > c,info = cpbtrf(ab,[lower,ldab,overwrite_ab]) > Constructing wrapper function "zpbtrf"... > c,info = zpbtrf(ab,[lower,ldab,overwrite_ab]) > Constructing wrapper function "spbsv"... > c,x,info = spbsv(ab,b,[lower,ldab,overwrite_ab,overwrite_b]) > Constructing wrapper function "dpbsv"... > c,x,info = dpbsv(ab,b,[lower,ldab,overwrite_ab,overwrite_b]) > Constructing wrapper function "cpbsv"... > c,x,info = cpbsv(ab,b,[lower,ldab,overwrite_ab,overwrite_b]) > Constructing wrapper function "zpbsv"... > c,x,info = zpbsv(ab,b,[lower,ldab,overwrite_ab,overwrite_b]) > Constructing wrapper function "sgebal"... > ba,lo,hi,pivscale,info = sgebal(a,[scale,permute,overwrite_a]) > Constructing wrapper function "dgebal"... > ba,lo,hi,pivscale,info = dgebal(a,[scale,permute,overwrite_a]) > Constructing wrapper function "cgebal"... > ba,lo,hi,pivscale,info = cgebal(a,[scale,permute,overwrite_a]) > Constructing wrapper function "zgebal"... > ba,lo,hi,pivscale,info = zgebal(a,[scale,permute,overwrite_a]) > Constructing wrapper function "sgehrd"... > ht,tau,info = sgehrd(a,[lo,hi,lwork,overwrite_a]) > Constructing wrapper function "dgehrd"... > ht,tau,info = dgehrd(a,[lo,hi,lwork,overwrite_a]) > Constructing wrapper function "cgehrd"... > ht,tau,info = cgehrd(a,[lo,hi,lwork,overwrite_a]) > Constructing wrapper function "zgehrd"... > ht,tau,info = zgehrd(a,[lo,hi,lwork,overwrite_a]) > Constructing wrapper function "sgbsv"... > lub,piv,x,info = sgbsv(kl,ku,ab,b,[overwrite_ab,overwrite_b]) > Constructing wrapper function "dgbsv"... > lub,piv,x,info = dgbsv(kl,ku,ab,b,[overwrite_ab,overwrite_b]) > Constructing wrapper function "cgbsv"... > lub,piv,x,info = cgbsv(kl,ku,ab,b,[overwrite_ab,overwrite_b]) > Constructing wrapper function "zgbsv"... > lub,piv,x,info = zgbsv(kl,ku,ab,b,[overwrite_ab,overwrite_b]) > Constructing wrapper function "sgesv"... > lu,piv,x,info = sgesv(a,b,[overwrite_a,overwrite_b]) > Constructing wrapper function "dgesv"... > lu,piv,x,info = dgesv(a,b,[overwrite_a,overwrite_b]) > Constructing wrapper function "cgesv"... > lu,piv,x,info = cgesv(a,b,[overwrite_a,overwrite_b]) > Constructing wrapper function "zgesv"... > lu,piv,x,info = zgesv(a,b,[overwrite_a,overwrite_b]) > Constructing wrapper function "sgetrf"... > lu,piv,info = sgetrf(a,[overwrite_a]) > Constructing wrapper function "dgetrf"... > lu,piv,info = dgetrf(a,[overwrite_a]) > Constructing wrapper function "cgetrf"... > lu,piv,info = cgetrf(a,[overwrite_a]) > Constructing wrapper function "zgetrf"... > lu,piv,info = zgetrf(a,[overwrite_a]) > Constructing wrapper function "sgetrs"... > x,info = sgetrs(lu,piv,b,[trans,overwrite_b]) > Constructing wrapper function "dgetrs"... > x,info = dgetrs(lu,piv,b,[trans,overwrite_b]) > Constructing wrapper function "cgetrs"... > x,info = cgetrs(lu,piv,b,[trans,overwrite_b]) > Constructing wrapper function "zgetrs"... > x,info = zgetrs(lu,piv,b,[trans,overwrite_b]) > Constructing wrapper function "sgetri"... > inv_a,info = sgetri(lu,piv,[lwork,overwrite_lu]) > Constructing wrapper function "dgetri"... > inv_a,info = dgetri(lu,piv,[lwork,overwrite_lu]) > Constructing wrapper function "cgetri"... > inv_a,info = cgetri(lu,piv,[lwork,overwrite_lu]) > Constructing wrapper function "zgetri"... > inv_a,info = zgetri(lu,piv,[lwork,overwrite_lu]) > Constructing wrapper function "sgesdd"... > u,s,vt,info = sgesdd(a,[compute_uv,lwork,overwrite_a]) > Constructing wrapper function "dgesdd"... > u,s,vt,info = dgesdd(a,[compute_uv,lwork,overwrite_a]) > Constructing wrapper function "cgesdd"... > u,s,vt,info = cgesdd(a,[compute_uv,lwork,overwrite_a]) > Constructing wrapper function "zgesdd"... > u,s,vt,info = zgesdd(a,[compute_uv,lwork,overwrite_a]) > Constructing wrapper function "sgelss"... > v,x,s,rank,info = sgelss(a,b,[cond,lwork,overwrite_a,overwrite_b]) > Constructing wrapper function "dgelss"... > v,x,s,rank,info = dgelss(a,b,[cond,lwork,overwrite_a,overwrite_b]) > Constructing wrapper function "cgelss"... > v,x,s,rank,info = cgelss(a,b,[cond,lwork,overwrite_a,overwrite_b]) > Constructing wrapper function "zgelss"... > v,x,s,rank,info = zgelss(a,b,[cond,lwork,overwrite_a,overwrite_b]) > Constructing wrapper function "sgeqrf"... > qr,tau,work,info = sgeqrf(a,[lwork,overwrite_a]) > Constructing wrapper function "dgeqrf"... > qr,tau,work,info = dgeqrf(a,[lwork,overwrite_a]) > Constructing wrapper function "cgeqrf"... > qr,tau,work,info = cgeqrf(a,[lwork,overwrite_a]) > Constructing wrapper function "zgeqrf"... > qr,tau,work,info = zgeqrf(a,[lwork,overwrite_a]) > Constructing wrapper function "sgerqf"... > qr,tau,work,info = sgerqf(a,[lwork,overwrite_a]) > Constructing wrapper function "dgerqf"... > qr,tau,work,info = dgerqf(a,[lwork,overwrite_a]) > Constructing wrapper function "cgerqf"... > qr,tau,work,info = cgerqf(a,[lwork,overwrite_a]) > Constructing wrapper function "zgerqf"... > qr,tau,work,info = zgerqf(a,[lwork,overwrite_a]) > Constructing wrapper function "sorgqr"... > q,work,info = sorgqr(a,tau,[lwork,overwrite_a]) > Constructing wrapper function "dorgqr"... > q,work,info = dorgqr(a,tau,[lwork,overwrite_a]) > Constructing wrapper function "cungqr"... > q,work,info = cungqr(a,tau,[lwork,overwrite_a]) > Constructing wrapper function "zungqr"... > q,work,info = zungqr(a,tau,[lwork,overwrite_a]) > Constructing wrapper function "sgeev"... > wr,wi,vl,vr,info = sgeev(a,[compute_vl,compute_vr,lwork,overwrite_a]) > Constructing wrapper function "dgeev"... > wr,wi,vl,vr,info = dgeev(a,[compute_vl,compute_vr,lwork,overwrite_a]) > Constructing wrapper function "cgeev"... > w,vl,vr,info = cgeev(a,[compute_vl,compute_vr,lwork,overwrite_a]) > Constructing wrapper function "zgeev"... > w,vl,vr,info = zgeev(a,[compute_vl,compute_vr,lwork,overwrite_a]) > Constructing wrapper function "sgegv"... > alphar,alphai,beta,vl,vr,info = sgegv(a,b,[compute_vl,compute_vr,lwork,overwrite_a,overwrite_b]) > Constructing wrapper function "dgegv"... > alphar,alphai,beta,vl,vr,info = dgegv(a,b,[compute_vl,compute_vr,lwork,overwrite_a,overwrite_b]) > Constructing wrapper function "cgegv"... > alpha,beta,vl,vr,info = cgegv(a,b,[compute_vl,compute_vr,lwork,overwrite_a,overwrite_b]) > Constructing wrapper function "zgegv"... > alpha,beta,vl,vr,info = zgegv(a,b,[compute_vl,compute_vr,lwork,overwrite_a,overwrite_b]) > Constructing wrapper function "ssyev"... > w,v,info = ssyev(a,[compute_v,lower,lwork,overwrite_a]) > Constructing wrapper function "dsyev"... > w,v,info = dsyev(a,[compute_v,lower,lwork,overwrite_a]) > Constructing wrapper function "cheev"... > w,v,info = cheev(a,[compute_v,lower,lwork,overwrite_a]) > Constructing wrapper function "zheev"... > w,v,info = zheev(a,[compute_v,lower,lwork,overwrite_a]) > Constructing wrapper function "sposv"... > c,x,info = sposv(a,b,[lower,overwrite_a,overwrite_b]) > Constructing wrapper function "dposv"... > c,x,info = dposv(a,b,[lower,overwrite_a,overwrite_b]) > Constructing wrapper function "cposv"... > c,x,info = cposv(a,b,[lower,overwrite_a,overwrite_b]) > Constructing wrapper function "zposv"... > c,x,info = zposv(a,b,[lower,overwrite_a,overwrite_b]) > Constructing wrapper function "spotrf"... > c,info = spotrf(a,[lower,clean,overwrite_a]) > Constructing wrapper function "dpotrf"... > c,info = dpotrf(a,[lower,clean,overwrite_a]) > Constructing wrapper function "cpotrf"... > c,info = cpotrf(a,[lower,clean,overwrite_a]) > Constructing wrapper function "zpotrf"... > c,info = zpotrf(a,[lower,clean,overwrite_a]) > Constructing wrapper function "spotrs"... > x,info = spotrs(c,b,[lower,overwrite_b]) > Constructing wrapper function "dpotrs"... > x,info = dpotrs(c,b,[lower,overwrite_b]) > Constructing wrapper function "cpotrs"... > x,info = cpotrs(c,b,[lower,overwrite_b]) > Constructing wrapper function "zpotrs"... > x,info = zpotrs(c,b,[lower,overwrite_b]) > Constructing wrapper function "spotri"... > inv_a,info = spotri(c,[lower,overwrite_c]) > Constructing wrapper function "dpotri"... > inv_a,info = dpotri(c,[lower,overwrite_c]) > Constructing wrapper function "cpotri"... > inv_a,info = cpotri(c,[lower,overwrite_c]) > Constructing wrapper function "zpotri"... > inv_a,info = zpotri(c,[lower,overwrite_c]) > Constructing wrapper function "slauum"... > a,info = slauum(c,[lower,overwrite_c]) > Constructing wrapper function "dlauum"... > a,info = dlauum(c,[lower,overwrite_c]) > Constructing wrapper function "clauum"... > a,info = clauum(c,[lower,overwrite_c]) > Constructing wrapper function "zlauum"... > a,info = zlauum(c,[lower,overwrite_c]) > Constructing wrapper function "strtri"... > inv_c,info = strtri(c,[lower,unitdiag,overwrite_c]) > Constructing wrapper function "dtrtri"... > inv_c,info = dtrtri(c,[lower,unitdiag,overwrite_c]) > Constructing wrapper function "ctrtri"... > inv_c,info = ctrtri(c,[lower,unitdiag,overwrite_c]) > Constructing wrapper function "ztrtri"... > inv_c,info = ztrtri(c,[lower,unitdiag,overwrite_c]) > Constructing wrapper function "slaswp"... >getarrdims:warning: assumed shape array, using 0 instead of '*' > a = slaswp(a,piv,[k1,k2,off,inc,overwrite_a]) > Constructing wrapper function "dlaswp"... >getarrdims:warning: assumed shape array, using 0 instead of '*' > a = dlaswp(a,piv,[k1,k2,off,inc,overwrite_a]) > Constructing wrapper function "claswp"... >getarrdims:warning: assumed shape array, using 0 instead of '*' > a = claswp(a,piv,[k1,k2,off,inc,overwrite_a]) > Constructing wrapper function "zlaswp"... >getarrdims:warning: assumed shape array, using 0 instead of '*' > a = zlaswp(a,piv,[k1,k2,off,inc,overwrite_a]) > Constructing wrapper function "cgees"... > t,sdim,w,vs,work,info = cgees(cselect,a,[compute_v,sort_t,lwork,cselect_extra_args,overwrite_a]) > Constructing wrapper function "zgees"... > t,sdim,w,vs,work,info = zgees(zselect,a,[compute_v,sort_t,lwork,zselect_extra_args,overwrite_a]) > Constructing wrapper function "dgees"... > t,sdim,wr,wi,vs,work,info = dgees(dselect,a,[compute_v,sort_t,lwork,dselect_extra_args,overwrite_a]) > Constructing wrapper function "sgees"... > t,sdim,wr,wi,vs,work,info = sgees(sselect,a,[compute_v,sort_t,lwork,sselect_extra_args,overwrite_a]) > Constructing wrapper function "sggev"... > alphar,alphai,beta,vl,vr,work,info = sggev(a,b,[compute_vl,compute_vr,lwork,overwrite_a,overwrite_b]) > Constructing wrapper function "dggev"... > alphar,alphai,beta,vl,vr,work,info = dggev(a,b,[compute_vl,compute_vr,lwork,overwrite_a,overwrite_b]) > Constructing wrapper function "cggev"... > alpha,beta,vl,vr,work,info = cggev(a,b,[compute_vl,compute_vr,lwork,overwrite_a,overwrite_b]) > Constructing wrapper function "zggev"... > alpha,beta,vl,vr,work,info = zggev(a,b,[compute_vl,compute_vr,lwork,overwrite_a,overwrite_b]) > Constructing wrapper function "ssbev"... >getarrdims:warning: assumed shape array, using 0 instead of '*' > w,z,info = ssbev(ab,[compute_v,lower,ldab,overwrite_ab]) > Constructing wrapper function "dsbev"... >getarrdims:warning: assumed shape array, using 0 instead of '*' > w,z,info = dsbev(ab,[compute_v,lower,ldab,overwrite_ab]) > Constructing wrapper function "ssbevd"... >getarrdims:warning: assumed shape array, using 0 instead of '*' > w,z,info = ssbevd(ab,[compute_v,lower,ldab,liwork,overwrite_ab]) > Constructing wrapper function "dsbevd"... >getarrdims:warning: assumed shape array, using 0 instead of '*' > w,z,info = dsbevd(ab,[compute_v,lower,ldab,liwork,overwrite_ab]) > Constructing wrapper function "ssbevx"... >getarrdims:warning: assumed shape array, using 0 instead of '*' > w,z,m,ifail,info = ssbevx(ab,vl,vu,il,iu,[ldab,compute_v,range,lower,abstol,mmax,overwrite_ab]) > Constructing wrapper function "dsbevx"... >getarrdims:warning: assumed shape array, using 0 instead of '*' > w,z,m,ifail,info = dsbevx(ab,vl,vu,il,iu,[ldab,compute_v,range,lower,abstol,mmax,overwrite_ab]) > Constructing wrapper function "chbevd"... >getarrdims:warning: assumed shape array, using 0 instead of '*' > w,z,info = chbevd(ab,[compute_v,lower,ldab,lrwork,liwork,overwrite_ab]) > Constructing wrapper function "zhbevd"... >getarrdims:warning: assumed shape array, using 0 instead of '*' > w,z,info = zhbevd(ab,[compute_v,lower,ldab,lrwork,liwork,overwrite_ab]) > Constructing wrapper function "chbevx"... >warning: callstatement is defined without callprotoargument >getarrdims:warning: assumed shape array, using 0 instead of '*' > w,z,m,ifail,info = chbevx(ab,vl,vu,il,iu,[ldab,compute_v,range,lower,abstol,mmax,overwrite_ab]) > Constructing wrapper function "zhbevx"... >warning: callstatement is defined without callprotoargument >getarrdims:warning: assumed shape array, using 0 instead of '*' > w,z,m,ifail,info = zhbevx(ab,vl,vu,il,iu,[ldab,compute_v,range,lower,abstol,mmax,overwrite_ab]) > Constructing wrapper function "sgbtrf"... >getarrdims:warning: assumed shape array, using 0 instead of '*' > lu,ipiv,info = sgbtrf(ab,kl,ku,[m,n,ldab,overwrite_ab]) > Constructing wrapper function "dgbtrf"... >getarrdims:warning: assumed shape array, using 0 instead of '*' > lu,ipiv,info = dgbtrf(ab,kl,ku,[m,n,ldab,overwrite_ab]) > Constructing wrapper function "cgbtrf"... >getarrdims:warning: assumed shape array, using 0 instead of '*' > lu,ipiv,info = cgbtrf(ab,kl,ku,[m,n,ldab,overwrite_ab]) > Constructing wrapper function "zgbtrf"... >getarrdims:warning: assumed shape array, using 0 instead of '*' > lu,ipiv,info = zgbtrf(ab,kl,ku,[m,n,ldab,overwrite_ab]) > Constructing wrapper function "sgbtrs"... >warning: callstatement is defined without callprotoargument >getarrdims:warning: assumed shape array, using 0 instead of '*' >getarrdims:warning: assumed shape array, using 0 instead of '*' > x,info = sgbtrs(ab,kl,ku,b,ipiv,[trans,n,ldab,ldb,overwrite_b]) > Constructing wrapper function "dgbtrs"... >warning: callstatement is defined without callprotoargument >getarrdims:warning: assumed shape array, using 0 instead of '*' >getarrdims:warning: assumed shape array, using 0 instead of '*' > x,info = dgbtrs(ab,kl,ku,b,ipiv,[trans,n,ldab,ldb,overwrite_b]) > Constructing wrapper function "cgbtrs"... >warning: callstatement is defined without callprotoargument >getarrdims:warning: assumed shape array, using 0 instead of '*' >getarrdims:warning: assumed shape array, using 0 instead of '*' > x,info = cgbtrs(ab,kl,ku,b,ipiv,[trans,n,ldab,ldb,overwrite_b]) > Constructing wrapper function "zgbtrs"... >warning: callstatement is defined without callprotoargument >getarrdims:warning: assumed shape array, using 0 instead of '*' >getarrdims:warning: assumed shape array, using 0 instead of '*' > x,info = zgbtrs(ab,kl,ku,b,ipiv,[trans,n,ldab,ldb,overwrite_b]) > Creating wrapper for Fortran function "slamch"("slamch")... > Constructing wrapper function "slamch"... > slamch = slamch(cmach) > Creating wrapper for Fortran function "dlamch"("dlamch")... > Constructing wrapper function "dlamch"... > dlamch = dlamch(cmach) > Wrote C/API module "flapack" to file "build/src.linux-x86_64-2.5/build/src.linux-x86_64-2.5/scipy/linalg/flapackmodule.c" > Fortran 77 wrappers are saved to "build/src.linux-x86_64-2.5/build/src.linux-x86_64-2.5/scipy/linalg/flapack-f2pywrappers.f" >[33m adding 'build/src.linux-x86_64-2.5/fortranobject.c' to sources.[0m >[33m adding 'build/src.linux-x86_64-2.5' to include_dirs.[0m >[33m adding 'build/src.linux-x86_64-2.5/build/src.linux-x86_64-2.5/scipy/linalg/flapack-f2pywrappers.f' to sources.[0m >[33mbuilding extension "scipy.linalg.clapack" sources[0m >generating clapack interface >11 >[33m adding 'build/src.linux-x86_64-2.5/scipy/linalg/clapack.pyf' to sources.[0m >[33mf2py options: [][0m >[33mf2py: build/src.linux-x86_64-2.5/scipy/linalg/clapack.pyf[0m >Reading fortran codes... > Reading file 'build/src.linux-x86_64-2.5/scipy/linalg/clapack.pyf' (format:free) >Post-processing... > Block: clapack > Block: sgesv > Block: dgesv > Block: cgesv > Block: zgesv > Block: sgetrf > Block: dgetrf > Block: cgetrf > Block: zgetrf > Block: sgetrs > Block: dgetrs > Block: cgetrs > Block: zgetrs > Block: sgetri > Block: dgetri > Block: cgetri > Block: zgetri > Block: sposv > Block: dposv > Block: cposv > Block: zposv > Block: spotrf > Block: dpotrf > Block: cpotrf > Block: zpotrf > Block: spotrs > Block: dpotrs > Block: cpotrs > Block: zpotrs > Block: spotri > Block: dpotri > Block: cpotri > Block: zpotri > Block: slauum > Block: dlauum > Block: clauum > Block: zlauum > Block: strtri > Block: dtrtri > Block: ctrtri > Block: ztrtri >Post-processing (stage 2)... >Building modules... > Building module "clapack"... > Constructing wrapper function "sgesv"... > lu,piv,x,info = sgesv(a,b,[rowmajor,overwrite_a,overwrite_b]) > Constructing wrapper function "dgesv"... > lu,piv,x,info = dgesv(a,b,[rowmajor,overwrite_a,overwrite_b]) > Constructing wrapper function "cgesv"... > lu,piv,x,info = cgesv(a,b,[rowmajor,overwrite_a,overwrite_b]) > Constructing wrapper function "zgesv"... > lu,piv,x,info = zgesv(a,b,[rowmajor,overwrite_a,overwrite_b]) > Constructing wrapper function "sgetrf"... > lu,piv,info = sgetrf(a,[rowmajor,overwrite_a]) > Constructing wrapper function "dgetrf"... > lu,piv,info = dgetrf(a,[rowmajor,overwrite_a]) > Constructing wrapper function "cgetrf"... > lu,piv,info = cgetrf(a,[rowmajor,overwrite_a]) > Constructing wrapper function "zgetrf"... > lu,piv,info = zgetrf(a,[rowmajor,overwrite_a]) > Constructing wrapper function "sgetrs"... > x,info = sgetrs(lu,piv,b,[trans,rowmajor,overwrite_b]) > Constructing wrapper function "dgetrs"... > x,info = dgetrs(lu,piv,b,[trans,rowmajor,overwrite_b]) > Constructing wrapper function "cgetrs"... > x,info = cgetrs(lu,piv,b,[trans,rowmajor,overwrite_b]) > Constructing wrapper function "zgetrs"... > x,info = zgetrs(lu,piv,b,[trans,rowmajor,overwrite_b]) > Constructing wrapper function "sgetri"... > inv_a,info = sgetri(lu,piv,[rowmajor,overwrite_lu]) > Constructing wrapper function "dgetri"... > inv_a,info = dgetri(lu,piv,[rowmajor,overwrite_lu]) > Constructing wrapper function "cgetri"... > inv_a,info = cgetri(lu,piv,[rowmajor,overwrite_lu]) > Constructing wrapper function "zgetri"... > inv_a,info = zgetri(lu,piv,[rowmajor,overwrite_lu]) > Constructing wrapper function "sposv"... > c,x,info = sposv(a,b,[lower,rowmajor,overwrite_a,overwrite_b]) > Constructing wrapper function "dposv"... > c,x,info = dposv(a,b,[lower,rowmajor,overwrite_a,overwrite_b]) > Constructing wrapper function "cposv"... > c,x,info = cposv(a,b,[lower,rowmajor,overwrite_a,overwrite_b]) > Constructing wrapper function "zposv"... > c,x,info = zposv(a,b,[lower,rowmajor,overwrite_a,overwrite_b]) > Constructing wrapper function "spotrf"... > c,info = spotrf(a,[lower,clean,rowmajor,overwrite_a]) > Constructing wrapper function "dpotrf"... > c,info = dpotrf(a,[lower,clean,rowmajor,overwrite_a]) > Constructing wrapper function "cpotrf"... > c,info = cpotrf(a,[lower,clean,rowmajor,overwrite_a]) > Constructing wrapper function "zpotrf"... > c,info = zpotrf(a,[lower,clean,rowmajor,overwrite_a]) > Constructing wrapper function "spotrs"... > x,info = spotrs(c,b,[lower,rowmajor,overwrite_b]) > Constructing wrapper function "dpotrs"... > x,info = dpotrs(c,b,[lower,rowmajor,overwrite_b]) > Constructing wrapper function "cpotrs"... > x,info = cpotrs(c,b,[lower,rowmajor,overwrite_b]) > Constructing wrapper function "zpotrs"... > x,info = zpotrs(c,b,[lower,rowmajor,overwrite_b]) > Constructing wrapper function "spotri"... > inv_a,info = spotri(c,[lower,rowmajor,overwrite_c]) > Constructing wrapper function "dpotri"... > inv_a,info = dpotri(c,[lower,rowmajor,overwrite_c]) > Constructing wrapper function "cpotri"... > inv_a,info = cpotri(c,[lower,rowmajor,overwrite_c]) > Constructing wrapper function "zpotri"... > inv_a,info = zpotri(c,[lower,rowmajor,overwrite_c]) > Constructing wrapper function "slauum"... > a,info = slauum(c,[lower,rowmajor,overwrite_c]) > Constructing wrapper function "dlauum"... > a,info = dlauum(c,[lower,rowmajor,overwrite_c]) > Constructing wrapper function "clauum"... > a,info = clauum(c,[lower,rowmajor,overwrite_c]) > Constructing wrapper function "zlauum"... > a,info = zlauum(c,[lower,rowmajor,overwrite_c]) > Constructing wrapper function "strtri"... > inv_c,info = strtri(c,[lower,unitdiag,rowmajor,overwrite_c]) > Constructing wrapper function "dtrtri"... > inv_c,info = dtrtri(c,[lower,unitdiag,rowmajor,overwrite_c]) > Constructing wrapper function "ctrtri"... > inv_c,info = ctrtri(c,[lower,unitdiag,rowmajor,overwrite_c]) > Constructing wrapper function "ztrtri"... > inv_c,info = ztrtri(c,[lower,unitdiag,rowmajor,overwrite_c]) > Wrote C/API module "clapack" to file "build/src.linux-x86_64-2.5/build/src.linux-x86_64-2.5/scipy/linalg/clapackmodule.c" >[33m adding 'build/src.linux-x86_64-2.5/fortranobject.c' to sources.[0m >[33m adding 'build/src.linux-x86_64-2.5' to include_dirs.[0m >[33mbuilding extension "scipy.linalg._flinalg" sources[0m >[33mf2py options: [][0m >[33mf2py:> build/src.linux-x86_64-2.5/scipy/linalg/_flinalgmodule.c[0m >Reading fortran codes... > Reading file 'scipy/linalg/src/det.f' (format:fix,strict) > Reading file 'scipy/linalg/src/lu.f' (format:fix,strict) >Post-processing... > Block: _flinalg > Block: ddet_c > Block: ddet_r > Block: sdet_c > Block: sdet_r > Block: zdet_c > Block: zdet_r > Block: cdet_c > Block: cdet_r > Block: dlu_c > Block: zlu_c > Block: slu_c > Block: clu_c >Post-processing (stage 2)... >Building modules... > Building module "_flinalg"... > Constructing wrapper function "ddet_c"... > det,info = ddet_c(a,[overwrite_a]) > Constructing wrapper function "ddet_r"... > det,info = ddet_r(a,[overwrite_a]) > Constructing wrapper function "sdet_c"... > det,info = sdet_c(a,[overwrite_a]) > Constructing wrapper function "sdet_r"... > det,info = sdet_r(a,[overwrite_a]) > Constructing wrapper function "zdet_c"... > det,info = zdet_c(a,[overwrite_a]) > Constructing wrapper function "zdet_r"... > det,info = zdet_r(a,[overwrite_a]) > Constructing wrapper function "cdet_c"... > det,info = cdet_c(a,[overwrite_a]) > Constructing wrapper function "cdet_r"... > det,info = cdet_r(a,[overwrite_a]) > Constructing wrapper function "dlu_c"... > p,l,u,info = dlu_c(a,[permute_l,overwrite_a]) > Constructing wrapper function "zlu_c"... > p,l,u,info = zlu_c(a,[permute_l,overwrite_a]) > Constructing wrapper function "slu_c"... > p,l,u,info = slu_c(a,[permute_l,overwrite_a]) > Constructing wrapper function "clu_c"... > p,l,u,info = clu_c(a,[permute_l,overwrite_a]) > Wrote C/API module "_flinalg" to file "build/src.linux-x86_64-2.5/scipy/linalg/_flinalgmodule.c" >[33m adding 'build/src.linux-x86_64-2.5/fortranobject.c' to sources.[0m >[33m adding 'build/src.linux-x86_64-2.5' to include_dirs.[0m >[33mbuilding extension "scipy.linalg.calc_lwork" sources[0m >[33mf2py options: [][0m >[33mf2py:> build/src.linux-x86_64-2.5/scipy/linalg/calc_lworkmodule.c[0m >Reading fortran codes... > Reading file 'scipy/linalg/src/calc_lwork.f' (format:fix,strict) >Post-processing... > Block: calc_lwork > Block: gehrd > Block: gesdd > Block: gelss > Block: getri > Block: geev > Block: heev > Block: syev > Block: gees > Block: geqrf > Block: gqr >Post-processing (stage 2)... >Building modules... > Building module "calc_lwork"... > Constructing wrapper function "gehrd"... > minwrk,maxwrk = gehrd(prefix,n,lo,hi) > Constructing wrapper function "gesdd"... > minwrk,maxwrk = gesdd(prefix,m,n,compute_uv) > Constructing wrapper function "gelss"... > minwrk,maxwrk = gelss(prefix,m,n,nrhs) > Constructing wrapper function "getri"... > minwrk,maxwrk = getri(prefix,n) > Constructing wrapper function "geev"... > minwrk,maxwrk = geev(prefix,n,[compute_vl,compute_vr]) > Constructing wrapper function "heev"... > minwrk,maxwrk = heev(prefix,n,[lower]) > Constructing wrapper function "syev"... > minwrk,maxwrk = syev(prefix,n,[lower]) > Constructing wrapper function "gees"... > minwrk,maxwrk = gees(prefix,n,[compute_v]) > Constructing wrapper function "geqrf"... > minwrk,maxwrk = geqrf(prefix,m,n) > Constructing wrapper function "gqr"... > minwrk,maxwrk = gqr(prefix,m,n) > Wrote C/API module "calc_lwork" to file "build/src.linux-x86_64-2.5/scipy/linalg/calc_lworkmodule.c" >[33m adding 'build/src.linux-x86_64-2.5/fortranobject.c' to sources.[0m >[33m adding 'build/src.linux-x86_64-2.5' to include_dirs.[0m >[33mbuilding extension "scipy.linalg.atlas_version" sources[0m >[33mbuilding extension "scipy.linalg._iterative" sources[0m >[33mcreating build/src.linux-x86_64-2.5/scipy/linalg/iterative[0m >[33mfrom_template:> build/src.linux-x86_64-2.5/scipy/linalg/iterative/STOPTEST2.f[0m >[33mfrom_template:> build/src.linux-x86_64-2.5/scipy/linalg/iterative/getbreak.f[0m >[33mfrom_template:> build/src.linux-x86_64-2.5/scipy/linalg/iterative/BiCGREVCOM.f[0m >[33mfrom_template:> build/src.linux-x86_64-2.5/scipy/linalg/iterative/BiCGSTABREVCOM.f[0m >[33mfrom_template:> build/src.linux-x86_64-2.5/scipy/linalg/iterative/CGREVCOM.f[0m >[33mfrom_template:> build/src.linux-x86_64-2.5/scipy/linalg/iterative/CGSREVCOM.f[0m >[33mfrom_template:> build/src.linux-x86_64-2.5/scipy/linalg/iterative/GMRESREVCOM.f[0m >[33mfrom_template:> build/src.linux-x86_64-2.5/scipy/linalg/iterative/QMRREVCOM.f[0m >[33mfrom_template:> build/src.linux-x86_64-2.5/scipy/linalg/iterative/_iterative.pyf[0m >[33mcreating build/src.linux-x86_64-2.5/build/src.linux-x86_64-2.5/scipy/linalg/iterative[0m >[33mf2py options: [][0m >[33mf2py: build/src.linux-x86_64-2.5/scipy/linalg/iterative/_iterative.pyf[0m >Reading fortran codes... > Reading file 'build/src.linux-x86_64-2.5/scipy/linalg/iterative/_iterative.pyf' (format:free) >Post-processing... > Block: _iterative > Block: sbicgrevcom > Block: dbicgrevcom > Block: cbicgrevcom > Block: zbicgrevcom > Block: sbicgstabrevcom > Block: dbicgstabrevcom > Block: cbicgstabrevcom > Block: zbicgstabrevcom > Block: scgrevcom > Block: dcgrevcom > Block: ccgrevcom > Block: zcgrevcom > Block: scgsrevcom > Block: dcgsrevcom > Block: ccgsrevcom > Block: zcgsrevcom > Block: sqmrrevcom > Block: dqmrrevcom > Block: cqmrrevcom > Block: zqmrrevcom > Block: sgmresrevcom > Block: dgmresrevcom > Block: cgmresrevcom > Block: zgmresrevcom > Block: sstoptest2 > Block: dstoptest2 > Block: cstoptest2 > Block: zstoptest2 >Post-processing (stage 2)... >Building modules... > Building module "_iterative"... > Constructing wrapper function "sbicgrevcom"... > x,iter,resid,info,ndx1,ndx2,sclr1,sclr2,ijob = sbicgrevcom(b,x,work,iter,resid,info,ndx1,ndx2,ijob) > Constructing wrapper function "dbicgrevcom"... > x,iter,resid,info,ndx1,ndx2,sclr1,sclr2,ijob = dbicgrevcom(b,x,work,iter,resid,info,ndx1,ndx2,ijob) > Constructing wrapper function "cbicgrevcom"... > x,iter,resid,info,ndx1,ndx2,sclr1,sclr2,ijob = cbicgrevcom(b,x,work,iter,resid,info,ndx1,ndx2,ijob) > Constructing wrapper function "zbicgrevcom"... > x,iter,resid,info,ndx1,ndx2,sclr1,sclr2,ijob = zbicgrevcom(b,x,work,iter,resid,info,ndx1,ndx2,ijob) > Constructing wrapper function "sbicgstabrevcom"... > x,iter,resid,info,ndx1,ndx2,sclr1,sclr2,ijob = sbicgstabrevcom(b,x,work,iter,resid,info,ndx1,ndx2,ijob) > Constructing wrapper function "dbicgstabrevcom"... > x,iter,resid,info,ndx1,ndx2,sclr1,sclr2,ijob = dbicgstabrevcom(b,x,work,iter,resid,info,ndx1,ndx2,ijob) > Constructing wrapper function "cbicgstabrevcom"... > x,iter,resid,info,ndx1,ndx2,sclr1,sclr2,ijob = cbicgstabrevcom(b,x,work,iter,resid,info,ndx1,ndx2,ijob) > Constructing wrapper function "zbicgstabrevcom"... > x,iter,resid,info,ndx1,ndx2,sclr1,sclr2,ijob = zbicgstabrevcom(b,x,work,iter,resid,info,ndx1,ndx2,ijob) > Constructing wrapper function "scgrevcom"... > x,iter,resid,info,ndx1,ndx2,sclr1,sclr2,ijob = scgrevcom(b,x,work,iter,resid,info,ndx1,ndx2,ijob) > Constructing wrapper function "dcgrevcom"... > x,iter,resid,info,ndx1,ndx2,sclr1,sclr2,ijob = dcgrevcom(b,x,work,iter,resid,info,ndx1,ndx2,ijob) > Constructing wrapper function "ccgrevcom"... > x,iter,resid,info,ndx1,ndx2,sclr1,sclr2,ijob = ccgrevcom(b,x,work,iter,resid,info,ndx1,ndx2,ijob) > Constructing wrapper function "zcgrevcom"... > x,iter,resid,info,ndx1,ndx2,sclr1,sclr2,ijob = zcgrevcom(b,x,work,iter,resid,info,ndx1,ndx2,ijob) > Constructing wrapper function "scgsrevcom"... > x,iter,resid,info,ndx1,ndx2,sclr1,sclr2,ijob = scgsrevcom(b,x,work,iter,resid,info,ndx1,ndx2,ijob) > Constructing wrapper function "dcgsrevcom"... > x,iter,resid,info,ndx1,ndx2,sclr1,sclr2,ijob = dcgsrevcom(b,x,work,iter,resid,info,ndx1,ndx2,ijob) > Constructing wrapper function "ccgsrevcom"... > x,iter,resid,info,ndx1,ndx2,sclr1,sclr2,ijob = ccgsrevcom(b,x,work,iter,resid,info,ndx1,ndx2,ijob) > Constructing wrapper function "zcgsrevcom"... > x,iter,resid,info,ndx1,ndx2,sclr1,sclr2,ijob = zcgsrevcom(b,x,work,iter,resid,info,ndx1,ndx2,ijob) > Constructing wrapper function "sqmrrevcom"... > x,iter,resid,info,ndx1,ndx2,sclr1,sclr2,ijob = sqmrrevcom(b,x,work,iter,resid,info,ndx1,ndx2,ijob) > Constructing wrapper function "dqmrrevcom"... > x,iter,resid,info,ndx1,ndx2,sclr1,sclr2,ijob = dqmrrevcom(b,x,work,iter,resid,info,ndx1,ndx2,ijob) > Constructing wrapper function "cqmrrevcom"... > x,iter,resid,info,ndx1,ndx2,sclr1,sclr2,ijob = cqmrrevcom(b,x,work,iter,resid,info,ndx1,ndx2,ijob) > Constructing wrapper function "zqmrrevcom"... > x,iter,resid,info,ndx1,ndx2,sclr1,sclr2,ijob = zqmrrevcom(b,x,work,iter,resid,info,ndx1,ndx2,ijob) > Constructing wrapper function "sgmresrevcom"... > x,iter,resid,info,ndx1,ndx2,sclr1,sclr2,ijob = sgmresrevcom(b,x,restrt,work,work2,iter,resid,info,ndx1,ndx2,ijob) > Constructing wrapper function "dgmresrevcom"... > x,iter,resid,info,ndx1,ndx2,sclr1,sclr2,ijob = dgmresrevcom(b,x,restrt,work,work2,iter,resid,info,ndx1,ndx2,ijob) > Constructing wrapper function "cgmresrevcom"... > x,iter,resid,info,ndx1,ndx2,sclr1,sclr2,ijob = cgmresrevcom(b,x,restrt,work,work2,iter,resid,info,ndx1,ndx2,ijob) > Constructing wrapper function "zgmresrevcom"... > x,iter,resid,info,ndx1,ndx2,sclr1,sclr2,ijob = zgmresrevcom(b,x,restrt,work,work2,iter,resid,info,ndx1,ndx2,ijob) > Constructing wrapper function "sstoptest2"... > bnrm2,resid,info = sstoptest2(r,b,bnrm2,tol,info) > Constructing wrapper function "dstoptest2"... > bnrm2,resid,info = dstoptest2(r,b,bnrm2,tol,info) > Constructing wrapper function "cstoptest2"... > bnrm2,resid,info = cstoptest2(r,b,bnrm2,tol,info) > Constructing wrapper function "zstoptest2"... > bnrm2,resid,info = zstoptest2(r,b,bnrm2,tol,info) > Wrote C/API module "_iterative" to file "build/src.linux-x86_64-2.5/build/src.linux-x86_64-2.5/scipy/linalg/iterative/_iterativemodule.c" >[33m adding 'build/src.linux-x86_64-2.5/fortranobject.c' to sources.[0m >[33m adding 'build/src.linux-x86_64-2.5' to include_dirs.[0m >[33mbuilding extension "scipy.linsolve._zsuperlu" sources[0m >[33mbuilding extension "scipy.linsolve._dsuperlu" sources[0m >[33mbuilding extension "scipy.linsolve._csuperlu" sources[0m >[33mbuilding extension "scipy.linsolve._ssuperlu" sources[0m >[33mbuilding extension "scipy.linsolve.umfpack.__umfpack" sources[0m >[33mcreating build/src.linux-x86_64-2.5/scipy/linsolve[0m >[33mcreating build/src.linux-x86_64-2.5/scipy/linsolve/umfpack[0m >[33mbuilding extension "scipy.odr.__odrpack" sources[0m >[33mbuilding extension "scipy.optimize._minpack" sources[0m >[33mbuilding extension "scipy.optimize._zeros" sources[0m >[33mbuilding extension "scipy.optimize._lbfgsb" sources[0m >[33mcreating build/src.linux-x86_64-2.5/scipy/optimize[0m >[33mcreating build/src.linux-x86_64-2.5/scipy/optimize/lbfgsb[0m >[33mf2py options: [][0m >[33mf2py: scipy/optimize/lbfgsb/lbfgsb.pyf[0m >Reading fortran codes... > Reading file 'scipy/optimize/lbfgsb/lbfgsb.pyf' (format:free) >Post-processing... > Block: _lbfgsb > Block: setulb >Post-processing (stage 2)... >Building modules... > Building module "_lbfgsb"... > Constructing wrapper function "setulb"... > setulb(m,x,l,u,nbd,f,g,factr,pgtol,wa,iwa,task,iprint,csave,lsave,isave,dsave,[n]) > Wrote C/API module "_lbfgsb" to file "build/src.linux-x86_64-2.5/scipy/optimize/lbfgsb/_lbfgsbmodule.c" >[33m adding 'build/src.linux-x86_64-2.5/fortranobject.c' to sources.[0m >[33m adding 'build/src.linux-x86_64-2.5' to include_dirs.[0m >[33mbuilding extension "scipy.optimize.moduleTNC" sources[0m >[33mbuilding extension "scipy.optimize._cobyla" sources[0m >[33mcreating build/src.linux-x86_64-2.5/scipy/optimize/cobyla[0m >[33mf2py options: [][0m >[33mf2py: scipy/optimize/cobyla/cobyla.pyf[0m >Reading fortran codes... > Reading file 'scipy/optimize/cobyla/cobyla.pyf' (format:free) >Post-processing... > Block: _cobyla__user__routines > Block: _cobyla_user_interface > Block: calcfc > Block: _cobyla > Block: minimize >Post-processing (stage 2)... >Building modules... > Constructing call-back function "cb_calcfc_in__cobyla__user__routines" > def calcfc(x,con): return f > Building module "_cobyla"... > Constructing wrapper function "minimize"... > x = minimize(calcfc,m,x,rhobeg,rhoend,[iprint,maxfun,calcfc_extra_args]) > Wrote C/API module "_cobyla" to file "build/src.linux-x86_64-2.5/scipy/optimize/cobyla/_cobylamodule.c" >[33m adding 'build/src.linux-x86_64-2.5/fortranobject.c' to sources.[0m >[33m adding 'build/src.linux-x86_64-2.5' to include_dirs.[0m >[33mbuilding extension "scipy.optimize.minpack2" sources[0m >[33mcreating build/src.linux-x86_64-2.5/scipy/optimize/minpack2[0m >[33mf2py options: [][0m >[33mf2py: scipy/optimize/minpack2/minpack2.pyf[0m >Reading fortran codes... > Reading file 'scipy/optimize/minpack2/minpack2.pyf' (format:free) >Post-processing... > Block: minpack2 > Block: dcsrch > Block: dcstep >Post-processing (stage 2)... >Building modules... > Building module "minpack2"... > Constructing wrapper function "dcsrch"... > stp,f,g,task = dcsrch(stp,f,g,ftol,gtol,xtol,task,stpmin,stpmax,isave,dsave) > Constructing wrapper function "dcstep"... > stx,fx,dx,sty,fy,dy,stp,brackt = dcstep(stx,fx,dx,sty,fy,dy,stp,fp,dp,brackt,stpmin,stpmax) > Wrote C/API module "minpack2" to file "build/src.linux-x86_64-2.5/scipy/optimize/minpack2/minpack2module.c" >[33m adding 'build/src.linux-x86_64-2.5/fortranobject.c' to sources.[0m >[33m adding 'build/src.linux-x86_64-2.5' to include_dirs.[0m >[33mbuilding extension "scipy.signal.sigtools" sources[0m >[33mbuilding extension "scipy.signal.spline" sources[0m >[33mbuilding extension "scipy.sparse._sparsetools" sources[0m >[33mbuilding extension "scipy.special._cephes" sources[0m >[33mbuilding extension "scipy.special.specfun" sources[0m >[33mcreating build/src.linux-x86_64-2.5/scipy/special[0m >[33mf2py options: ['--no-wrap-functions'][0m >[33mf2py: scipy/special/specfun.pyf[0m >Reading fortran codes... > Reading file 'scipy/special/specfun.pyf' (format:free) >Post-processing... > Block: specfun > Block: clqmn > Block: lqmn > Block: clpmn > Block: jdzo > Block: bernob > Block: bernoa > Block: csphjy > Block: lpmns > Block: eulera > Block: clqn > Block: airyzo > Block: eulerb > Block: cva1 > Block: lqnb > Block: lamv > Block: lagzo > Block: legzo > Block: pbdv > Block: cerzo > Block: lamn > Block: clpn > Block: lqmns > Block: lpmn > Block: fcszo > Block: aswfb > Block: lqna > Block: cpbdn > Block: lpn > Block: fcoef > Block: sphi > Block: rcty > Block: lpni > Block: cyzo > Block: csphik > Block: sphj > Block: othpl > Block: klvnzo > Block: jyzo > Block: rctj > Block: herzo > Block: sphk > Block: pbvv > Block: segv > Block: sphy >Post-processing (stage 2)... >Building modules... > Building module "specfun"... > Constructing wrapper function "clqmn"... > cqm,cqd = clqmn(m,n,z) > Constructing wrapper function "lqmn"... > qm,qd = lqmn(m,n,x) > Constructing wrapper function "clpmn"... > cpm,cpd = clpmn(m,n,x,y) > Constructing wrapper function "jdzo"... > n,m,pcode,zo = jdzo(nt) > Constructing wrapper function "bernob"... > bn = bernob(n) > Constructing wrapper function "bernoa"... > bn = bernoa(n) > Constructing wrapper function "csphjy"... > nm,csj,cdj,csy,cdy = csphjy(n,z) > Constructing wrapper function "lpmns"... > pm,pd = lpmns(m,n,x) > Constructing wrapper function "eulera"... > en = eulera(n) > Constructing wrapper function "clqn"... > cqn,cqd = clqn(n,z) > Constructing wrapper function "airyzo"... > xa,xb,xc,xd = airyzo(nt,[kf]) > Constructing wrapper function "eulerb"... > en = eulerb(n) > Constructing wrapper function "cva1"... > cv = cva1(kd,m,q) > Constructing wrapper function "lqnb"... > qn,qd = lqnb(n,x) > Constructing wrapper function "lamv"... > vm,vl,dl = lamv(v,x) > Constructing wrapper function "lagzo"... > x,w = lagzo(n) > Constructing wrapper function "legzo"... > x,w = legzo(n) > Constructing wrapper function "pbdv"... > dv,dp,pdf,pdd = pbdv(v,x) > Constructing wrapper function "cerzo"... > zo = cerzo(nt) > Constructing wrapper function "lamn"... > nm,bl,dl = lamn(n,x) > Constructing wrapper function "clpn"... > cpn,cpd = clpn(n,z) > Constructing wrapper function "lqmns"... > qm,qd = lqmns(m,n,x) > Constructing wrapper function "lpmn"... > pm,pd = lpmn(m,n,x) > Constructing wrapper function "fcszo"... > zo = fcszo(kf,nt) > Constructing wrapper function "aswfb"... > s1f,s1d = aswfb(m,n,c,x,kd,cv) > Constructing wrapper function "lqna"... > qn,qd = lqna(n,x) > Constructing wrapper function "cpbdn"... > cpb,cpd = cpbdn(n,z) > Constructing wrapper function "lpn"... > pn,pd = lpn(n,x) > Constructing wrapper function "fcoef"... > fc = fcoef(kd,m,q,a) > Constructing wrapper function "sphi"... > nm,si,di = sphi(n,x) > Constructing wrapper function "rcty"... > nm,ry,dy = rcty(n,x) > Constructing wrapper function "lpni"... > pn,pd,pl = lpni(n,x) > Constructing wrapper function "cyzo"... > zo,zv = cyzo(nt,kf,kc) > Constructing wrapper function "csphik"... > nm,csi,cdi,csk,cdk = csphik(n,z) > Constructing wrapper function "sphj"... > nm,sj,dj = sphj(n,x) > Constructing wrapper function "othpl"... > pl,dpl = othpl(kf,n,x) > Constructing wrapper function "klvnzo"... > zo = klvnzo(nt,kd) > Constructing wrapper function "jyzo"... > rj0,rj1,ry0,ry1 = jyzo(n,nt) > Constructing wrapper function "rctj"... > nm,rj,dj = rctj(n,x) > Constructing wrapper function "herzo"... > x,w = herzo(n) > Constructing wrapper function "sphk"... > nm,sk,dk = sphk(n,x) > Constructing wrapper function "pbvv"... > vv,vp,pvf,pvd = pbvv(v,x) > Constructing wrapper function "segv"... > cv,eg = segv(m,n,c,kd) > Constructing wrapper function "sphy"... > nm,sy,dy = sphy(n,x) > Wrote C/API module "specfun" to file "build/src.linux-x86_64-2.5/scipy/special/specfunmodule.c" >[33m adding 'build/src.linux-x86_64-2.5/fortranobject.c' to sources.[0m >[33m adding 'build/src.linux-x86_64-2.5' to include_dirs.[0m >[33mbuilding extension "scipy.stats.statlib" sources[0m >[33mcreating build/src.linux-x86_64-2.5/scipy/stats[0m >[33mf2py options: ['--no-wrap-functions'][0m >[33mf2py: scipy/stats/statlib.pyf[0m >Reading fortran codes... > Reading file 'scipy/stats/statlib.pyf' (format:free) >Post-processing... > Block: statlib > Block: swilk > Block: wprob > Block: gscale > Block: prho >Post-processing (stage 2)... >Building modules... > Building module "statlib"... > Constructing wrapper function "swilk"... > a,w,pw,ifault = swilk(x,a,[init,n1]) > Constructing wrapper function "wprob"... > astart,a1,ifault = wprob(test,other) > Constructing wrapper function "gscale"... > astart,a1,ifault = gscale(test,other) > Constructing wrapper function "prho"... > ifault = prho(n,is) > Wrote C/API module "statlib" to file "build/src.linux-x86_64-2.5/scipy/stats/statlibmodule.c" >[33m adding 'build/src.linux-x86_64-2.5/fortranobject.c' to sources.[0m >[33m adding 'build/src.linux-x86_64-2.5' to include_dirs.[0m >[33mbuilding extension "scipy.stats.futil" sources[0m >[33mf2py options: [][0m >[33mf2py:> build/src.linux-x86_64-2.5/scipy/stats/futilmodule.c[0m >Reading fortran codes... > Reading file 'scipy/stats/futil.f' (format:fix,strict) >Post-processing... > Block: futil > Block: dqsort > Block: dfreps >Post-processing (stage 2)... >Building modules... > Building module "futil"... > Constructing wrapper function "dqsort"... > arr = dqsort(arr,[overwrite_arr]) > Constructing wrapper function "dfreps"... > replist,repnum,nlist = dfreps(arr) > Wrote C/API module "futil" to file "build/src.linux-x86_64-2.5/scipy/stats/futilmodule.c" >[33m adding 'build/src.linux-x86_64-2.5/fortranobject.c' to sources.[0m >[33m adding 'build/src.linux-x86_64-2.5' to include_dirs.[0m >[33mbuilding extension "scipy.stats.mvn" sources[0m >[33mf2py options: [][0m >[33mf2py: scipy/stats/mvn.pyf[0m >Reading fortran codes... > Reading file 'scipy/stats/mvn.pyf' (format:free) >Post-processing... > Block: mvn > Block: mvnun > Block: mvndst >Post-processing (stage 2)... >Building modules... > Building module "mvn"... > Constructing wrapper function "mvnun"... > value,inform = mvnun(lower,upper,means,covar,[maxpts,abseps,releps]) > Constructing wrapper function "mvndst"... > error,value,inform = mvndst(lower,upper,infin,correl,[maxpts,abseps,releps]) > Constructing COMMON block support for "dkblck"... > ivls > Wrote C/API module "mvn" to file "build/src.linux-x86_64-2.5/scipy/stats/mvnmodule.c" > Fortran 77 wrappers are saved to "build/src.linux-x86_64-2.5/scipy/stats/mvn-f2pywrappers.f" >[33m adding 'build/src.linux-x86_64-2.5/fortranobject.c' to sources.[0m >[33m adding 'build/src.linux-x86_64-2.5' to include_dirs.[0m >[33m adding 'build/src.linux-x86_64-2.5/scipy/stats/mvn-f2pywrappers.f' to sources.[0m >[33mbuilding extension "scipy.ndimage._nd_image" sources[0m >[33mbuilding data_files sources[0m >[33mrunning build_py[0m >[33mcreating build/lib.linux-x86_64-2.5[0m >[33mcreating build/lib.linux-x86_64-2.5/scipy[0m >[33mcopying scipy/__svn_version__.py -> build/lib.linux-x86_64-2.5/scipy[0m >[33mcopying scipy/setup.py -> build/lib.linux-x86_64-2.5/scipy[0m >[33mcopying scipy/__init__.py -> build/lib.linux-x86_64-2.5/scipy[0m >[33mcopying scipy/version.py -> build/lib.linux-x86_64-2.5/scipy[0m >[33mcopying build/src.linux-x86_64-2.5/scipy/__config__.py -> build/lib.linux-x86_64-2.5/scipy[0m >[33mcreating build/lib.linux-x86_64-2.5/scipy/cluster[0m >[33mcopying scipy/cluster/vq.py -> build/lib.linux-x86_64-2.5/scipy/cluster[0m >[33mcopying scipy/cluster/setup.py -> build/lib.linux-x86_64-2.5/scipy/cluster[0m >[33mcopying scipy/cluster/__init__.py -> build/lib.linux-x86_64-2.5/scipy/cluster[0m >[33mcopying scipy/cluster/info.py -> build/lib.linux-x86_64-2.5/scipy/cluster[0m >[33mcreating build/lib.linux-x86_64-2.5/scipy/fftpack[0m >[33mcopying scipy/fftpack/fftpack_version.py -> build/lib.linux-x86_64-2.5/scipy/fftpack[0m >[33mcopying scipy/fftpack/pseudo_diffs.py -> build/lib.linux-x86_64-2.5/scipy/fftpack[0m >[33mcopying scipy/fftpack/setup.py -> build/lib.linux-x86_64-2.5/scipy/fftpack[0m >[33mcopying scipy/fftpack/__init__.py -> build/lib.linux-x86_64-2.5/scipy/fftpack[0m >[33mcopying scipy/fftpack/info.py -> build/lib.linux-x86_64-2.5/scipy/fftpack[0m >[33mcopying scipy/fftpack/basic.py -> build/lib.linux-x86_64-2.5/scipy/fftpack[0m >[33mcopying scipy/fftpack/helper.py -> build/lib.linux-x86_64-2.5/scipy/fftpack[0m >[33mcreating build/lib.linux-x86_64-2.5/scipy/integrate[0m >[33mcopying scipy/integrate/odepack.py -> build/lib.linux-x86_64-2.5/scipy/integrate[0m >[33mcopying scipy/integrate/quadrature.py -> build/lib.linux-x86_64-2.5/scipy/integrate[0m >[33mcopying scipy/integrate/ode.py -> build/lib.linux-x86_64-2.5/scipy/integrate[0m >[33mcopying scipy/integrate/quadpack.py -> build/lib.linux-x86_64-2.5/scipy/integrate[0m >[33mcopying scipy/integrate/setup.py -> build/lib.linux-x86_64-2.5/scipy/integrate[0m >[33mcopying scipy/integrate/__init__.py -> build/lib.linux-x86_64-2.5/scipy/integrate[0m >[33mcopying scipy/integrate/info.py -> build/lib.linux-x86_64-2.5/scipy/integrate[0m >[33mcreating build/lib.linux-x86_64-2.5/scipy/interpolate[0m >[33mcopying scipy/interpolate/interpolate.py -> build/lib.linux-x86_64-2.5/scipy/interpolate[0m >[33mcopying scipy/interpolate/fitpack2.py -> build/lib.linux-x86_64-2.5/scipy/interpolate[0m >[33mcopying scipy/interpolate/setup.py -> build/lib.linux-x86_64-2.5/scipy/interpolate[0m >[33mcopying scipy/interpolate/fitpack.py -> build/lib.linux-x86_64-2.5/scipy/interpolate[0m >[33mcopying scipy/interpolate/__init__.py -> build/lib.linux-x86_64-2.5/scipy/interpolate[0m >[33mcopying scipy/interpolate/info.py -> build/lib.linux-x86_64-2.5/scipy/interpolate[0m >[33mcreating build/lib.linux-x86_64-2.5/scipy/io[0m >[33mcopying scipy/io/npfile.py -> build/lib.linux-x86_64-2.5/scipy/io[0m >[33mcopying scipy/io/fopen.py -> build/lib.linux-x86_64-2.5/scipy/io[0m >[33mcopying scipy/io/netcdf.py -> build/lib.linux-x86_64-2.5/scipy/io[0m >[33mcopying scipy/io/wavfile.py -> build/lib.linux-x86_64-2.5/scipy/io[0m >[33mcopying scipy/io/mio4.py -> build/lib.linux-x86_64-2.5/scipy/io[0m >[33mcopying scipy/io/mio5.py -> build/lib.linux-x86_64-2.5/scipy/io[0m >[33mcopying scipy/io/miobase.py -> build/lib.linux-x86_64-2.5/scipy/io[0m >[33mcopying scipy/io/mmio.py -> build/lib.linux-x86_64-2.5/scipy/io[0m >[33mcopying scipy/io/recaster.py -> build/lib.linux-x86_64-2.5/scipy/io[0m >[33mcopying scipy/io/data_store.py -> build/lib.linux-x86_64-2.5/scipy/io[0m >[33mcopying scipy/io/pickler.py -> build/lib.linux-x86_64-2.5/scipy/io[0m >[33mcopying scipy/io/dumbdbm_patched.py -> build/lib.linux-x86_64-2.5/scipy/io[0m >[33mcopying scipy/io/mio.py -> build/lib.linux-x86_64-2.5/scipy/io[0m >[33mcopying scipy/io/array_import.py -> build/lib.linux-x86_64-2.5/scipy/io[0m >[33mcopying scipy/io/setup.py -> build/lib.linux-x86_64-2.5/scipy/io[0m >[33mcopying scipy/io/__init__.py -> build/lib.linux-x86_64-2.5/scipy/io[0m >[33mcopying scipy/io/dumb_shelve.py -> build/lib.linux-x86_64-2.5/scipy/io[0m >[33mcopying scipy/io/info.py -> build/lib.linux-x86_64-2.5/scipy/io[0m >[33mcreating build/lib.linux-x86_64-2.5/scipy/lib[0m >[33mcopying scipy/lib/setup.py -> build/lib.linux-x86_64-2.5/scipy/lib[0m >[33mcopying scipy/lib/__init__.py -> build/lib.linux-x86_64-2.5/scipy/lib[0m >[33mcopying scipy/lib/info.py -> build/lib.linux-x86_64-2.5/scipy/lib[0m >[33mcreating build/lib.linux-x86_64-2.5/scipy/lib/blas[0m >[33mcopying scipy/lib/blas/setup.py -> build/lib.linux-x86_64-2.5/scipy/lib/blas[0m >[33mcopying scipy/lib/blas/__init__.py -> build/lib.linux-x86_64-2.5/scipy/lib/blas[0m >[33mcopying scipy/lib/blas/info.py -> build/lib.linux-x86_64-2.5/scipy/lib/blas[0m >[33mcreating build/lib.linux-x86_64-2.5/scipy/lib/lapack[0m >[33mcopying scipy/lib/lapack/setup.py -> build/lib.linux-x86_64-2.5/scipy/lib/lapack[0m >[33mcopying scipy/lib/lapack/__init__.py -> build/lib.linux-x86_64-2.5/scipy/lib/lapack[0m >[33mcopying scipy/lib/lapack/info.py -> build/lib.linux-x86_64-2.5/scipy/lib/lapack[0m >[33mcreating build/lib.linux-x86_64-2.5/scipy/linalg[0m >[33mcopying scipy/linalg/iterative.py -> build/lib.linux-x86_64-2.5/scipy/linalg[0m >[33mcopying scipy/linalg/lapack.py -> build/lib.linux-x86_64-2.5/scipy/linalg[0m >[33mcopying scipy/linalg/decomp.py -> build/lib.linux-x86_64-2.5/scipy/linalg[0m >[33mcopying scipy/linalg/linalg_version.py -> build/lib.linux-x86_64-2.5/scipy/linalg[0m >[33mcopying scipy/linalg/flinalg.py -> build/lib.linux-x86_64-2.5/scipy/linalg[0m >[33mcopying scipy/linalg/setup_atlas_version.py -> build/lib.linux-x86_64-2.5/scipy/linalg[0m >[33mcopying scipy/linalg/setup.py -> build/lib.linux-x86_64-2.5/scipy/linalg[0m >[33mcopying scipy/linalg/blas.py -> build/lib.linux-x86_64-2.5/scipy/linalg[0m >[33mcopying scipy/linalg/interface_gen.py -> build/lib.linux-x86_64-2.5/scipy/linalg[0m >[33mcopying scipy/linalg/__init__.py -> build/lib.linux-x86_64-2.5/scipy/linalg[0m >[33mcopying scipy/linalg/matfuncs.py -> build/lib.linux-x86_64-2.5/scipy/linalg[0m >[33mcopying scipy/linalg/info.py -> build/lib.linux-x86_64-2.5/scipy/linalg[0m >[33mcopying scipy/linalg/basic.py -> build/lib.linux-x86_64-2.5/scipy/linalg[0m >[33mcreating build/lib.linux-x86_64-2.5/scipy/linsolve[0m >[33mcopying scipy/linsolve/linsolve.py -> build/lib.linux-x86_64-2.5/scipy/linsolve[0m >[33mcopying scipy/linsolve/_superlu.py -> build/lib.linux-x86_64-2.5/scipy/linsolve[0m >[33mcopying scipy/linsolve/setup.py -> build/lib.linux-x86_64-2.5/scipy/linsolve[0m >[33mcopying scipy/linsolve/__init__.py -> build/lib.linux-x86_64-2.5/scipy/linsolve[0m >[33mcopying scipy/linsolve/info.py -> build/lib.linux-x86_64-2.5/scipy/linsolve[0m >[33mcreating build/lib.linux-x86_64-2.5/scipy/linsolve/umfpack[0m >[33mcopying scipy/linsolve/umfpack/umfpack.py -> build/lib.linux-x86_64-2.5/scipy/linsolve/umfpack[0m >[33mcopying scipy/linsolve/umfpack/setup.py -> build/lib.linux-x86_64-2.5/scipy/linsolve/umfpack[0m >[33mcopying scipy/linsolve/umfpack/__init__.py -> build/lib.linux-x86_64-2.5/scipy/linsolve/umfpack[0m >[33mcopying scipy/linsolve/umfpack/info.py -> build/lib.linux-x86_64-2.5/scipy/linsolve/umfpack[0m >[33mcreating build/lib.linux-x86_64-2.5/scipy/maxentropy[0m >[33mcopying scipy/maxentropy/maxentropy.py -> build/lib.linux-x86_64-2.5/scipy/maxentropy[0m >[33mcopying scipy/maxentropy/setup.py -> build/lib.linux-x86_64-2.5/scipy/maxentropy[0m >[33mcopying scipy/maxentropy/__init__.py -> build/lib.linux-x86_64-2.5/scipy/maxentropy[0m >[33mcopying scipy/maxentropy/info.py -> build/lib.linux-x86_64-2.5/scipy/maxentropy[0m >[33mcopying scipy/maxentropy/maxentutils.py -> build/lib.linux-x86_64-2.5/scipy/maxentropy[0m >[33mcreating build/lib.linux-x86_64-2.5/scipy/misc[0m >[33mcopying scipy/misc/pexec.py -> build/lib.linux-x86_64-2.5/scipy/misc[0m >[33mcopying scipy/misc/common.py -> build/lib.linux-x86_64-2.5/scipy/misc[0m >[33mcopying scipy/misc/helpmod.py -> build/lib.linux-x86_64-2.5/scipy/misc[0m >[33mcopying scipy/misc/pilutil.py -> build/lib.linux-x86_64-2.5/scipy/misc[0m >[33mcopying scipy/misc/limits.py -> build/lib.linux-x86_64-2.5/scipy/misc[0m >[33mcopying scipy/misc/setup.py -> build/lib.linux-x86_64-2.5/scipy/misc[0m >[33mcopying scipy/misc/__init__.py -> build/lib.linux-x86_64-2.5/scipy/misc[0m >[33mcopying scipy/misc/info.py -> build/lib.linux-x86_64-2.5/scipy/misc[0m >[33mcopying scipy/misc/ppimport.py -> build/lib.linux-x86_64-2.5/scipy/misc[0m >[33mcreating build/lib.linux-x86_64-2.5/scipy/odr[0m >[33mcopying scipy/odr/models.py -> build/lib.linux-x86_64-2.5/scipy/odr[0m >[33mcopying scipy/odr/setup.py -> build/lib.linux-x86_64-2.5/scipy/odr[0m >[33mcopying scipy/odr/__init__.py -> build/lib.linux-x86_64-2.5/scipy/odr[0m >[33mcopying scipy/odr/info.py -> build/lib.linux-x86_64-2.5/scipy/odr[0m >[33mcopying scipy/odr/odrpack.py -> build/lib.linux-x86_64-2.5/scipy/odr[0m >[33mcreating build/lib.linux-x86_64-2.5/scipy/optimize[0m >[33mcopying scipy/optimize/lbfgsb.py -> build/lib.linux-x86_64-2.5/scipy/optimize[0m >[33mcopying scipy/optimize/linesearch.py -> build/lib.linux-x86_64-2.5/scipy/optimize[0m >[33mcopying scipy/optimize/anneal.py -> build/lib.linux-x86_64-2.5/scipy/optimize[0m >[33mcopying scipy/optimize/nonlin.py -> build/lib.linux-x86_64-2.5/scipy/optimize[0m >[33mcopying scipy/optimize/tnc.py -> build/lib.linux-x86_64-2.5/scipy/optimize[0m >[33mcopying scipy/optimize/cobyla.py -> build/lib.linux-x86_64-2.5/scipy/optimize[0m >[33mcopying scipy/optimize/optimize.py -> build/lib.linux-x86_64-2.5/scipy/optimize[0m >[33mcopying scipy/optimize/setup.py -> build/lib.linux-x86_64-2.5/scipy/optimize[0m >[33mcopying scipy/optimize/minpack.py -> build/lib.linux-x86_64-2.5/scipy/optimize[0m >[33mcopying scipy/optimize/__init__.py -> build/lib.linux-x86_64-2.5/scipy/optimize[0m >[33mcopying scipy/optimize/info.py -> build/lib.linux-x86_64-2.5/scipy/optimize[0m >[33mcopying scipy/optimize/zeros.py -> build/lib.linux-x86_64-2.5/scipy/optimize[0m >[33mcreating build/lib.linux-x86_64-2.5/scipy/sandbox[0m >[33mcopying scipy/sandbox/setup.py -> build/lib.linux-x86_64-2.5/scipy/sandbox[0m >[33mcopying scipy/sandbox/__init__.py -> build/lib.linux-x86_64-2.5/scipy/sandbox[0m >[33mcreating build/lib.linux-x86_64-2.5/scipy/signal[0m >[33mcopying scipy/signal/wavelets.py -> build/lib.linux-x86_64-2.5/scipy/signal[0m >[33mcopying scipy/signal/signaltools.py -> build/lib.linux-x86_64-2.5/scipy/signal[0m >[33mcopying scipy/signal/filter_design.py -> build/lib.linux-x86_64-2.5/scipy/signal[0m >[33mcopying scipy/signal/waveforms.py -> build/lib.linux-x86_64-2.5/scipy/signal[0m >[33mcopying scipy/signal/setup.py -> build/lib.linux-x86_64-2.5/scipy/signal[0m >[33mcopying scipy/signal/__init__.py -> build/lib.linux-x86_64-2.5/scipy/signal[0m >[33mcopying scipy/signal/ltisys.py -> build/lib.linux-x86_64-2.5/scipy/signal[0m >[33mcopying scipy/signal/bsplines.py -> build/lib.linux-x86_64-2.5/scipy/signal[0m >[33mcopying scipy/signal/info.py -> build/lib.linux-x86_64-2.5/scipy/signal[0m >[33mcreating build/lib.linux-x86_64-2.5/scipy/sparse[0m >[33mcopying scipy/sparse/sparse.py -> build/lib.linux-x86_64-2.5/scipy/sparse[0m >[33mcopying scipy/sparse/setup.py -> build/lib.linux-x86_64-2.5/scipy/sparse[0m >[33mcopying scipy/sparse/__init__.py -> build/lib.linux-x86_64-2.5/scipy/sparse[0m >[33mcopying scipy/sparse/info.py -> build/lib.linux-x86_64-2.5/scipy/sparse[0m >[33mcopying scipy/sparse/sparsetools/sparsetools.py -> build/lib.linux-x86_64-2.5/scipy/sparse[0m >[33mcreating build/lib.linux-x86_64-2.5/scipy/special[0m >[33mcopying scipy/special/orthogonal.py -> build/lib.linux-x86_64-2.5/scipy/special[0m >[33mcopying scipy/special/gendoc.py -> build/lib.linux-x86_64-2.5/scipy/special[0m >[33mcopying scipy/special/spfun_stats.py -> build/lib.linux-x86_64-2.5/scipy/special[0m >[33mcopying scipy/special/setup.py -> build/lib.linux-x86_64-2.5/scipy/special[0m >[33mcopying scipy/special/__init__.py -> build/lib.linux-x86_64-2.5/scipy/special[0m >[33mcopying scipy/special/info.py -> build/lib.linux-x86_64-2.5/scipy/special[0m >[33mcopying scipy/special/basic.py -> build/lib.linux-x86_64-2.5/scipy/special[0m >[33mcopying scipy/special/special_version.py -> build/lib.linux-x86_64-2.5/scipy/special[0m >[33mcreating build/lib.linux-x86_64-2.5/scipy/stats[0m >[33mcopying scipy/stats/rv.py -> build/lib.linux-x86_64-2.5/scipy/stats[0m >[33mcopying scipy/stats/_support.py -> build/lib.linux-x86_64-2.5/scipy/stats[0m >[33mcopying scipy/stats/kde.py -> build/lib.linux-x86_64-2.5/scipy/stats[0m >[33mcopying scipy/stats/distributions.py -> build/lib.linux-x86_64-2.5/scipy/stats[0m >[33mcopying scipy/stats/morestats.py -> build/lib.linux-x86_64-2.5/scipy/stats[0m >[33mcopying scipy/stats/stats.py -> build/lib.linux-x86_64-2.5/scipy/stats[0m >[33mcopying scipy/stats/setup.py -> build/lib.linux-x86_64-2.5/scipy/stats[0m >[33mcopying scipy/stats/__init__.py -> build/lib.linux-x86_64-2.5/scipy/stats[0m >[33mcopying scipy/stats/info.py -> build/lib.linux-x86_64-2.5/scipy/stats[0m >[33mcreating build/lib.linux-x86_64-2.5/scipy/ndimage[0m >[33mcopying scipy/ndimage/_ni_support.py -> build/lib.linux-x86_64-2.5/scipy/ndimage[0m >[33mcopying scipy/ndimage/morphology.py -> build/lib.linux-x86_64-2.5/scipy/ndimage[0m >[33mcopying scipy/ndimage/fourier.py -> build/lib.linux-x86_64-2.5/scipy/ndimage[0m >[33mcopying scipy/ndimage/interpolation.py -> build/lib.linux-x86_64-2.5/scipy/ndimage[0m >[33mcopying scipy/ndimage/measurements.py -> build/lib.linux-x86_64-2.5/scipy/ndimage[0m >[33mcopying scipy/ndimage/filters.py -> build/lib.linux-x86_64-2.5/scipy/ndimage[0m >[33mcopying scipy/ndimage/setup.py -> build/lib.linux-x86_64-2.5/scipy/ndimage[0m >[33mcopying scipy/ndimage/__init__.py -> build/lib.linux-x86_64-2.5/scipy/ndimage[0m >[33mcopying scipy/ndimage/info.py -> build/lib.linux-x86_64-2.5/scipy/ndimage[0m >[33mcreating build/lib.linux-x86_64-2.5/scipy/stsci[0m >[33mcopying scipy/stsci/setup.py -> build/lib.linux-x86_64-2.5/scipy/stsci[0m >[33mcopying scipy/stsci/__init__.py -> build/lib.linux-x86_64-2.5/scipy/stsci[0m >[33mcreating build/lib.linux-x86_64-2.5/scipy/weave[0m >[33mcopying scipy/weave/blitz_tools.py -> build/lib.linux-x86_64-2.5/scipy/weave[0m >[33mcopying scipy/weave/common_info.py -> build/lib.linux-x86_64-2.5/scipy/weave[0m >[33mcopying scipy/weave/cpp_namespace_spec.py -> build/lib.linux-x86_64-2.5/scipy/weave[0m >[33mcopying scipy/weave/ast_tools.py -> build/lib.linux-x86_64-2.5/scipy/weave[0m >[33mcopying scipy/weave/base_spec.py -> build/lib.linux-x86_64-2.5/scipy/weave[0m >[33mcopying scipy/weave/ext_tools.py -> build/lib.linux-x86_64-2.5/scipy/weave[0m >[33mcopying scipy/weave/blitz_spec.py -> build/lib.linux-x86_64-2.5/scipy/weave[0m >[33mcopying scipy/weave/swigptr2.py -> build/lib.linux-x86_64-2.5/scipy/weave[0m >[33mcopying scipy/weave/accelerate_tools.py -> build/lib.linux-x86_64-2.5/scipy/weave[0m >[33mcopying scipy/weave/swigptr.py -> build/lib.linux-x86_64-2.5/scipy/weave[0m >[33mcopying scipy/weave/bytecodecompiler.py -> build/lib.linux-x86_64-2.5/scipy/weave[0m >[33mcopying scipy/weave/c_spec.py -> build/lib.linux-x86_64-2.5/scipy/weave[0m >[33mcopying scipy/weave/vtk_spec.py -> build/lib.linux-x86_64-2.5/scipy/weave[0m >[33mcopying scipy/weave/catalog.py -> build/lib.linux-x86_64-2.5/scipy/weave[0m >[33mcopying scipy/weave/swig2_spec.py -> build/lib.linux-x86_64-2.5/scipy/weave[0m >[33mcopying scipy/weave/dumbdbm_patched.py -> build/lib.linux-x86_64-2.5/scipy/weave[0m >[33mcopying scipy/weave/platform_info.py -> build/lib.linux-x86_64-2.5/scipy/weave[0m >[33mcopying scipy/weave/wx_spec.py -> build/lib.linux-x86_64-2.5/scipy/weave[0m >[33mcopying scipy/weave/converters.py -> build/lib.linux-x86_64-2.5/scipy/weave[0m >[33mcopying scipy/weave/inline_tools.py -> build/lib.linux-x86_64-2.5/scipy/weave[0m >[33mcopying scipy/weave/base_info.py -> build/lib.linux-x86_64-2.5/scipy/weave[0m >[33mcopying scipy/weave/setup.py -> build/lib.linux-x86_64-2.5/scipy/weave[0m >[33mcopying scipy/weave/build_tools.py -> build/lib.linux-x86_64-2.5/scipy/weave[0m >[33mcopying scipy/weave/slice_handler.py -> build/lib.linux-x86_64-2.5/scipy/weave[0m >[33mcopying scipy/weave/__init__.py -> build/lib.linux-x86_64-2.5/scipy/weave[0m >[33mcopying scipy/weave/dumb_shelve.py -> build/lib.linux-x86_64-2.5/scipy/weave[0m >[33mcopying scipy/weave/size_check.py -> build/lib.linux-x86_64-2.5/scipy/weave[0m >[33mcopying scipy/weave/info.py -> build/lib.linux-x86_64-2.5/scipy/weave[0m >[33mcopying scipy/weave/weave_version.py -> build/lib.linux-x86_64-2.5/scipy/weave[0m >[33mcopying scipy/weave/standard_array_spec.py -> build/lib.linux-x86_64-2.5/scipy/weave[0m >[33mrunning build_clib[0m >[33mcustomize UnixCCompiler[0m >[33mcustomize UnixCCompiler using build_clib[0m >[33mcustomize Gnu95FCompiler[0m >[33mcustomize Gnu95FCompiler using build_clib[0m >[33mbuilding 'dfftpack' library[0m >[33mcompiling Fortran sources[0m >[33mFortran f77 compiler: /usr/bin/gfortran -Wall -ffixed-form -fno-second-underscore -fPIC -O3 -funroll-loops -march=i686 -mmmx -msse2 -msse -fomit-frame-pointer >Fortran f90 compiler: /usr/bin/gfortran -Wall -fno-second-underscore -fPIC -O3 -funroll-loops -march=i686 -mmmx -msse2 -msse -fomit-frame-pointer >Fortran fix compiler: /usr/bin/gfortran -Wall -ffixed-form -fno-second-underscore -Wall -fno-second-underscore -fPIC -O3 -funroll-loops -march=i686 -mmmx -msse2 -msse -fomit-frame-pointer[0m >[33mcreating build/temp.linux-x86_64-2.5[0m >[33mcreating build/temp.linux-x86_64-2.5/scipy[0m >[33mcreating build/temp.linux-x86_64-2.5/scipy/fftpack[0m >[33mcreating build/temp.linux-x86_64-2.5/scipy/fftpack/dfftpack[0m >[33mcompile options: '-c'[0m >[33mgfortran:f77: scipy/fftpack/dfftpack/dcost.f[0m >scipy/fftpack/dfftpack/dcost.f:0: error: CPU you selected does not support x86-64 instruction set >scipy/fftpack/dfftpack/dcost.f:0: error: CPU you selected does not support x86-64 instruction set >scipy/fftpack/dfftpack/dcost.f:0: error: CPU you selected does not support x86-64 instruction set >scipy/fftpack/dfftpack/dcost.f:0: error: CPU you selected does not support x86-64 instruction set >error: Command "/usr/bin/gfortran -Wall -ffixed-form -fno-second-underscore -fPIC -O3 -funroll-loops -march=i686 -mmmx -msse2 -msse -fomit-frame-pointer -c -c scipy/fftpack/dfftpack/dcost.f -o build/temp.linux-x86_64-2.5/scipy/fftpack/dfftpack/dcost.o" failed with exit status 1 > * > * ERROR: sci-libs/scipy-0.6.0-r3 failed. > * Call stack: > * ebuild.sh, line 1701: Called dyn_compile > * ebuild.sh, line 1039: Called qa_call 'src_compile' > * ebuild.sh, line 44: Called src_compile > * scipy-0.6.0-r3.ebuild, line 101: Called distutils_src_compile 'config_fc' '--fcompiler=gnu95' > * distutils.eclass, line 48: Called die > * The specific snippet of code: > * ${python} setup.py build "$@" || die "compilation failed" > * The die message: > * compilation failed > * > * If you need support, post the topmost build error, and the call stack if relevant. > * A complete build log is located at '/var/tmp/portage/sci-libs/scipy-0.6.0-r3/temp/build.log'. > *
You cannot view the attachment while viewing its details because your browser does not support IFRAMEs.
View the attachment on a separate page
.
View Attachment As Raw
Actions:
View
Attachments on
bug 183236
: 140598 |
140653
|
153691