Mercurial > hg > octave-lyh
view liboctave/numeric/SparseCmplxQR.cc @ 15271:648dabbb4c6b
build: Refactor liboctave into multiple subdirectories. Move libcruft into liboctave.
* array/Array-C.cc, array/Array-b.cc, array/Array-ch.cc, array/Array-d.cc,
array/Array-f.cc, array/Array-fC.cc, array/Array-i.cc, array/Array-idx-vec.cc,
array/Array-s.cc, array/Array-str.cc, array/Array-util.cc, array/Array-util.h,
array/Array-voidp.cc, array/Array.cc, array/Array.h, array/Array2.h,
array/Array3.h, array/ArrayN.h, array/CColVector.cc, array/CColVector.h,
array/CDiagMatrix.cc, array/CDiagMatrix.h, array/CMatrix.cc, array/CMatrix.h,
array/CNDArray.cc, array/CNDArray.h, array/CRowVector.cc, array/CRowVector.h,
array/CSparse.cc, array/CSparse.h, array/DiagArray2.cc, array/DiagArray2.h,
array/MArray-C.cc, array/MArray-d.cc, array/MArray-decl.h, array/MArray-defs.h,
array/MArray-f.cc, array/MArray-fC.cc, array/MArray-i.cc, array/MArray-s.cc,
array/MArray.cc, array/MArray.h, array/MArray2.h, array/MArrayN.h,
array/MDiagArray2.cc, array/MDiagArray2.h, array/MSparse-C.cc,
array/MSparse-d.cc, array/MSparse-defs.h, array/MSparse.cc, array/MSparse.h,
array/Matrix.h, array/MatrixType.cc, array/MatrixType.h, array/PermMatrix.cc,
array/PermMatrix.h, array/Range.cc, array/Range.h, array/Sparse-C.cc,
array/Sparse-b.cc, array/Sparse-d.cc, array/Sparse.cc, array/Sparse.h,
array/boolMatrix.cc, array/boolMatrix.h, array/boolNDArray.cc,
array/boolNDArray.h, array/boolSparse.cc, array/boolSparse.h,
array/chMatrix.cc, array/chMatrix.h, array/chNDArray.cc, array/chNDArray.h,
array/dColVector.cc, array/dColVector.h, array/dDiagMatrix.cc,
array/dDiagMatrix.h, array/dMatrix.cc, array/dMatrix.h, array/dNDArray.cc,
array/dNDArray.h, array/dRowVector.cc, array/dRowVector.h, array/dSparse.cc,
array/dSparse.h, array/dim-vector.cc, array/dim-vector.h, array/fCColVector.cc,
array/fCColVector.h, array/fCDiagMatrix.cc, array/fCDiagMatrix.h,
array/fCMatrix.cc, array/fCMatrix.h, array/fCNDArray.cc, array/fCNDArray.h,
array/fCRowVector.cc, array/fCRowVector.h, array/fColVector.cc,
array/fColVector.h, array/fDiagMatrix.cc, array/fDiagMatrix.h,
array/fMatrix.cc, array/fMatrix.h, array/fNDArray.cc, array/fNDArray.h,
array/fRowVector.cc, array/fRowVector.h, array/idx-vector.cc,
array/idx-vector.h, array/int16NDArray.cc, array/int16NDArray.h,
array/int32NDArray.cc, array/int32NDArray.h, array/int64NDArray.cc,
array/int64NDArray.h, array/int8NDArray.cc, array/int8NDArray.h,
array/intNDArray.cc, array/intNDArray.h, array/module.mk,
array/uint16NDArray.cc, array/uint16NDArray.h, array/uint32NDArray.cc,
array/uint32NDArray.h, array/uint64NDArray.cc, array/uint64NDArray.h,
array/uint8NDArray.cc, array/uint8NDArray.h:
Moved from liboctave dir to array subdirectory.
* cruft/Makefile.am, cruft/amos/README, cruft/amos/cacai.f, cruft/amos/cacon.f,
cruft/amos/cairy.f, cruft/amos/casyi.f, cruft/amos/cbesh.f, cruft/amos/cbesi.f,
cruft/amos/cbesj.f, cruft/amos/cbesk.f, cruft/amos/cbesy.f, cruft/amos/cbinu.f,
cruft/amos/cbiry.f, cruft/amos/cbknu.f, cruft/amos/cbuni.f, cruft/amos/cbunk.f,
cruft/amos/ckscl.f, cruft/amos/cmlri.f, cruft/amos/crati.f, cruft/amos/cs1s2.f,
cruft/amos/cseri.f, cruft/amos/cshch.f, cruft/amos/cuchk.f, cruft/amos/cunhj.f,
cruft/amos/cuni1.f, cruft/amos/cuni2.f, cruft/amos/cunik.f, cruft/amos/cunk1.f,
cruft/amos/cunk2.f, cruft/amos/cuoik.f, cruft/amos/cwrsk.f,
cruft/amos/dgamln.f, cruft/amos/gamln.f, cruft/amos/module.mk,
cruft/amos/xzabs.f, cruft/amos/xzexp.f, cruft/amos/xzlog.f,
cruft/amos/xzsqrt.f, cruft/amos/zacai.f, cruft/amos/zacon.f,
cruft/amos/zairy.f, cruft/amos/zasyi.f, cruft/amos/zbesh.f, cruft/amos/zbesi.f,
cruft/amos/zbesj.f, cruft/amos/zbesk.f, cruft/amos/zbesy.f, cruft/amos/zbinu.f,
cruft/amos/zbiry.f, cruft/amos/zbknu.f, cruft/amos/zbuni.f, cruft/amos/zbunk.f,
cruft/amos/zdiv.f, cruft/amos/zkscl.f, cruft/amos/zmlri.f, cruft/amos/zmlt.f,
cruft/amos/zrati.f, cruft/amos/zs1s2.f, cruft/amos/zseri.f, cruft/amos/zshch.f,
cruft/amos/zuchk.f, cruft/amos/zunhj.f, cruft/amos/zuni1.f, cruft/amos/zuni2.f,
cruft/amos/zunik.f, cruft/amos/zunk1.f, cruft/amos/zunk2.f, cruft/amos/zuoik.f,
cruft/amos/zwrsk.f, cruft/blas-xtra/cconv2.f, cruft/blas-xtra/cdotc3.f,
cruft/blas-xtra/cmatm3.f, cruft/blas-xtra/csconv2.f, cruft/blas-xtra/dconv2.f,
cruft/blas-xtra/ddot3.f, cruft/blas-xtra/dmatm3.f, cruft/blas-xtra/module.mk,
cruft/blas-xtra/sconv2.f, cruft/blas-xtra/sdot3.f, cruft/blas-xtra/smatm3.f,
cruft/blas-xtra/xcdotc.f, cruft/blas-xtra/xcdotu.f, cruft/blas-xtra/xddot.f,
cruft/blas-xtra/xdnrm2.f, cruft/blas-xtra/xdznrm2.f, cruft/blas-xtra/xerbla.f,
cruft/blas-xtra/xscnrm2.f, cruft/blas-xtra/xsdot.f, cruft/blas-xtra/xsnrm2.f,
cruft/blas-xtra/xzdotc.f, cruft/blas-xtra/xzdotu.f, cruft/blas-xtra/zconv2.f,
cruft/blas-xtra/zdconv2.f, cruft/blas-xtra/zdotc3.f, cruft/blas-xtra/zmatm3.f,
cruft/daspk/datv.f, cruft/daspk/dcnst0.f, cruft/daspk/dcnstr.f,
cruft/daspk/ddasic.f, cruft/daspk/ddasid.f, cruft/daspk/ddasik.f,
cruft/daspk/ddaspk.f, cruft/daspk/ddstp.f, cruft/daspk/ddwnrm.f,
cruft/daspk/dfnrmd.f, cruft/daspk/dfnrmk.f, cruft/daspk/dhels.f,
cruft/daspk/dheqr.f, cruft/daspk/dinvwt.f, cruft/daspk/dlinsd.f,
cruft/daspk/dlinsk.f, cruft/daspk/dmatd.f, cruft/daspk/dnedd.f,
cruft/daspk/dnedk.f, cruft/daspk/dnsd.f, cruft/daspk/dnsid.f,
cruft/daspk/dnsik.f, cruft/daspk/dnsk.f, cruft/daspk/dorth.f,
cruft/daspk/dslvd.f, cruft/daspk/dslvk.f, cruft/daspk/dspigm.f,
cruft/daspk/dyypnw.f, cruft/daspk/module.mk, cruft/dasrt/ddasrt.f,
cruft/dasrt/drchek.f, cruft/dasrt/droots.f, cruft/dasrt/module.mk,
cruft/dassl/ddaini.f, cruft/dassl/ddajac.f, cruft/dassl/ddanrm.f,
cruft/dassl/ddaslv.f, cruft/dassl/ddassl.f, cruft/dassl/ddastp.f,
cruft/dassl/ddatrp.f, cruft/dassl/ddawts.f, cruft/dassl/module.mk,
cruft/fftpack/cfftb.f, cruft/fftpack/cfftb1.f, cruft/fftpack/cfftf.f,
cruft/fftpack/cfftf1.f, cruft/fftpack/cffti.f, cruft/fftpack/cffti1.f,
cruft/fftpack/fftpack.doc, cruft/fftpack/module.mk, cruft/fftpack/passb.f,
cruft/fftpack/passb2.f, cruft/fftpack/passb3.f, cruft/fftpack/passb4.f,
cruft/fftpack/passb5.f, cruft/fftpack/passf.f, cruft/fftpack/passf2.f,
cruft/fftpack/passf3.f, cruft/fftpack/passf4.f, cruft/fftpack/passf5.f,
cruft/fftpack/zfftb.f, cruft/fftpack/zfftb1.f, cruft/fftpack/zfftf.f,
cruft/fftpack/zfftf1.f, cruft/fftpack/zffti.f, cruft/fftpack/zffti1.f,
cruft/fftpack/zpassb.f, cruft/fftpack/zpassb2.f, cruft/fftpack/zpassb3.f,
cruft/fftpack/zpassb4.f, cruft/fftpack/zpassb5.f, cruft/fftpack/zpassf.f,
cruft/fftpack/zpassf2.f, cruft/fftpack/zpassf3.f, cruft/fftpack/zpassf4.f,
cruft/fftpack/zpassf5.f, cruft/lapack-xtra/crsf2csf.f,
cruft/lapack-xtra/module.mk, cruft/lapack-xtra/xclange.f,
cruft/lapack-xtra/xdlamch.f, cruft/lapack-xtra/xdlange.f,
cruft/lapack-xtra/xilaenv.f, cruft/lapack-xtra/xslamch.f,
cruft/lapack-xtra/xslange.f, cruft/lapack-xtra/xzlange.f,
cruft/lapack-xtra/zrsf2csf.f, cruft/link-deps.mk, cruft/misc/blaswrap.c,
cruft/misc/cquit.c, cruft/misc/d1mach-tst.for, cruft/misc/d1mach.f,
cruft/misc/f77-extern.cc, cruft/misc/f77-fcn.c, cruft/misc/f77-fcn.h,
cruft/misc/i1mach.f, cruft/misc/lo-error.c, cruft/misc/lo-error.h,
cruft/misc/module.mk, cruft/misc/quit.cc, cruft/misc/quit.h,
cruft/misc/r1mach.f, cruft/mkf77def.in, cruft/odepack/cfode.f,
cruft/odepack/dlsode.f, cruft/odepack/ewset.f, cruft/odepack/intdy.f,
cruft/odepack/module.mk, cruft/odepack/prepj.f, cruft/odepack/scfode.f,
cruft/odepack/sewset.f, cruft/odepack/sintdy.f, cruft/odepack/slsode.f,
cruft/odepack/solsy.f, cruft/odepack/sprepj.f, cruft/odepack/ssolsy.f,
cruft/odepack/sstode.f, cruft/odepack/stode.f, cruft/odepack/svnorm.f,
cruft/odepack/vnorm.f, cruft/ordered-qz/README, cruft/ordered-qz/dsubsp.f,
cruft/ordered-qz/exchqz.f, cruft/ordered-qz/module.mk,
cruft/ordered-qz/sexchqz.f, cruft/ordered-qz/ssubsp.f, cruft/quadpack/dqagi.f,
cruft/quadpack/dqagie.f, cruft/quadpack/dqagp.f, cruft/quadpack/dqagpe.f,
cruft/quadpack/dqelg.f, cruft/quadpack/dqk15i.f, cruft/quadpack/dqk21.f,
cruft/quadpack/dqpsrt.f, cruft/quadpack/module.mk, cruft/quadpack/qagi.f,
cruft/quadpack/qagie.f, cruft/quadpack/qagp.f, cruft/quadpack/qagpe.f,
cruft/quadpack/qelg.f, cruft/quadpack/qk15i.f, cruft/quadpack/qk21.f,
cruft/quadpack/qpsrt.f, cruft/quadpack/xerror.f, cruft/ranlib/Basegen.doc,
cruft/ranlib/HOWTOGET, cruft/ranlib/README, cruft/ranlib/advnst.f,
cruft/ranlib/genbet.f, cruft/ranlib/genchi.f, cruft/ranlib/genexp.f,
cruft/ranlib/genf.f, cruft/ranlib/gengam.f, cruft/ranlib/genmn.f,
cruft/ranlib/genmul.f, cruft/ranlib/gennch.f, cruft/ranlib/gennf.f,
cruft/ranlib/gennor.f, cruft/ranlib/genprm.f, cruft/ranlib/genunf.f,
cruft/ranlib/getcgn.f, cruft/ranlib/getsd.f, cruft/ranlib/ignbin.f,
cruft/ranlib/ignlgi.f, cruft/ranlib/ignnbn.f, cruft/ranlib/ignpoi.f,
cruft/ranlib/ignuin.f, cruft/ranlib/initgn.f, cruft/ranlib/inrgcm.f,
cruft/ranlib/lennob.f, cruft/ranlib/mltmod.f, cruft/ranlib/module.mk,
cruft/ranlib/phrtsd.f, cruft/ranlib/qrgnin.f, cruft/ranlib/randlib.chs,
cruft/ranlib/randlib.fdoc, cruft/ranlib/ranf.f, cruft/ranlib/setall.f,
cruft/ranlib/setant.f, cruft/ranlib/setgmn.f, cruft/ranlib/setsd.f,
cruft/ranlib/sexpo.f, cruft/ranlib/sgamma.f, cruft/ranlib/snorm.f,
cruft/ranlib/tstbot.for, cruft/ranlib/tstgmn.for, cruft/ranlib/tstmid.for,
cruft/ranlib/wrap.f, cruft/slatec-err/fdump.f, cruft/slatec-err/ixsav.f,
cruft/slatec-err/j4save.f, cruft/slatec-err/module.mk,
cruft/slatec-err/xerclr.f, cruft/slatec-err/xercnt.f,
cruft/slatec-err/xerhlt.f, cruft/slatec-err/xermsg.f,
cruft/slatec-err/xerprn.f, cruft/slatec-err/xerrwd.f,
cruft/slatec-err/xersve.f, cruft/slatec-err/xgetf.f, cruft/slatec-err/xgetua.f,
cruft/slatec-err/xsetf.f, cruft/slatec-err/xsetua.f, cruft/slatec-fn/acosh.f,
cruft/slatec-fn/albeta.f, cruft/slatec-fn/algams.f, cruft/slatec-fn/alngam.f,
cruft/slatec-fn/alnrel.f, cruft/slatec-fn/asinh.f, cruft/slatec-fn/atanh.f,
cruft/slatec-fn/betai.f, cruft/slatec-fn/csevl.f, cruft/slatec-fn/d9gmit.f,
cruft/slatec-fn/d9lgic.f, cruft/slatec-fn/d9lgit.f, cruft/slatec-fn/d9lgmc.f,
cruft/slatec-fn/dacosh.f, cruft/slatec-fn/dasinh.f, cruft/slatec-fn/datanh.f,
cruft/slatec-fn/dbetai.f, cruft/slatec-fn/dcsevl.f, cruft/slatec-fn/derf.f,
cruft/slatec-fn/derfc.in.f, cruft/slatec-fn/dgami.f, cruft/slatec-fn/dgamit.f,
cruft/slatec-fn/dgamlm.f, cruft/slatec-fn/dgamma.f, cruft/slatec-fn/dgamr.f,
cruft/slatec-fn/dlbeta.f, cruft/slatec-fn/dlgams.f, cruft/slatec-fn/dlngam.f,
cruft/slatec-fn/dlnrel.f, cruft/slatec-fn/dpchim.f, cruft/slatec-fn/dpchst.f,
cruft/slatec-fn/erf.f, cruft/slatec-fn/erfc.in.f, cruft/slatec-fn/gami.f,
cruft/slatec-fn/gamit.f, cruft/slatec-fn/gamlim.f, cruft/slatec-fn/gamma.f,
cruft/slatec-fn/gamr.f, cruft/slatec-fn/initds.f, cruft/slatec-fn/inits.f,
cruft/slatec-fn/module.mk, cruft/slatec-fn/pchim.f, cruft/slatec-fn/pchst.f,
cruft/slatec-fn/r9gmit.f, cruft/slatec-fn/r9lgic.f, cruft/slatec-fn/r9lgit.f,
cruft/slatec-fn/r9lgmc.f, cruft/slatec-fn/xacosh.f, cruft/slatec-fn/xasinh.f,
cruft/slatec-fn/xatanh.f, cruft/slatec-fn/xbetai.f, cruft/slatec-fn/xdacosh.f,
cruft/slatec-fn/xdasinh.f, cruft/slatec-fn/xdatanh.f,
cruft/slatec-fn/xdbetai.f, cruft/slatec-fn/xderf.f, cruft/slatec-fn/xderfc.f,
cruft/slatec-fn/xdgami.f, cruft/slatec-fn/xdgamit.f, cruft/slatec-fn/xdgamma.f,
cruft/slatec-fn/xerf.f, cruft/slatec-fn/xerfc.f, cruft/slatec-fn/xgamma.f,
cruft/slatec-fn/xgmainc.f, cruft/slatec-fn/xsgmainc.f:
Moved from top-level libcruft to cruft directory below liboctave.
* numeric/CmplxAEPBAL.cc, numeric/CmplxAEPBAL.h, numeric/CmplxCHOL.cc,
numeric/CmplxCHOL.h, numeric/CmplxGEPBAL.cc, numeric/CmplxGEPBAL.h,
numeric/CmplxHESS.cc, numeric/CmplxHESS.h, numeric/CmplxLU.cc,
numeric/CmplxLU.h, numeric/CmplxQR.cc, numeric/CmplxQR.h, numeric/CmplxQRP.cc,
numeric/CmplxQRP.h, numeric/CmplxSCHUR.cc, numeric/CmplxSCHUR.h,
numeric/CmplxSVD.cc, numeric/CmplxSVD.h, numeric/CollocWt.cc,
numeric/CollocWt.h, numeric/DAE.h, numeric/DAEFunc.h, numeric/DAERT.h,
numeric/DAERTFunc.h, numeric/DASPK-opts.in, numeric/DASPK.cc, numeric/DASPK.h,
numeric/DASRT-opts.in, numeric/DASRT.cc, numeric/DASRT.h,
numeric/DASSL-opts.in, numeric/DASSL.cc, numeric/DASSL.h, numeric/DET.h,
numeric/EIG.cc, numeric/EIG.h, numeric/LSODE-opts.in, numeric/LSODE.cc,
numeric/LSODE.h, numeric/ODE.h, numeric/ODEFunc.h, numeric/ODES.cc,
numeric/ODES.h, numeric/ODESFunc.h, numeric/Quad-opts.in, numeric/Quad.cc,
numeric/Quad.h, numeric/SparseCmplxCHOL.cc, numeric/SparseCmplxCHOL.h,
numeric/SparseCmplxLU.cc, numeric/SparseCmplxLU.h, numeric/SparseCmplxQR.cc,
numeric/SparseCmplxQR.h, numeric/SparseQR.cc, numeric/SparseQR.h,
numeric/SparsedbleCHOL.cc, numeric/SparsedbleCHOL.h, numeric/SparsedbleLU.cc,
numeric/SparsedbleLU.h, numeric/base-aepbal.h, numeric/base-dae.h,
numeric/base-de.h, numeric/base-lu.cc, numeric/base-lu.h, numeric/base-min.h,
numeric/base-qr.cc, numeric/base-qr.h, numeric/bsxfun-decl.h,
numeric/bsxfun-defs.cc, numeric/bsxfun.h, numeric/dbleAEPBAL.cc,
numeric/dbleAEPBAL.h, numeric/dbleCHOL.cc, numeric/dbleCHOL.h,
numeric/dbleGEPBAL.cc, numeric/dbleGEPBAL.h, numeric/dbleHESS.cc,
numeric/dbleHESS.h, numeric/dbleLU.cc, numeric/dbleLU.h, numeric/dbleQR.cc,
numeric/dbleQR.h, numeric/dbleQRP.cc, numeric/dbleQRP.h, numeric/dbleSCHUR.cc,
numeric/dbleSCHUR.h, numeric/dbleSVD.cc, numeric/dbleSVD.h,
numeric/eigs-base.cc, numeric/fCmplxAEPBAL.cc, numeric/fCmplxAEPBAL.h,
numeric/fCmplxCHOL.cc, numeric/fCmplxCHOL.h, numeric/fCmplxGEPBAL.cc,
numeric/fCmplxGEPBAL.h, numeric/fCmplxHESS.cc, numeric/fCmplxHESS.h,
numeric/fCmplxLU.cc, numeric/fCmplxLU.h, numeric/fCmplxQR.cc,
numeric/fCmplxQR.h, numeric/fCmplxQRP.cc, numeric/fCmplxQRP.h,
numeric/fCmplxSCHUR.cc, numeric/fCmplxSCHUR.h, numeric/fCmplxSVD.cc,
numeric/fCmplxSVD.h, numeric/fEIG.cc, numeric/fEIG.h, numeric/floatAEPBAL.cc,
numeric/floatAEPBAL.h, numeric/floatCHOL.cc, numeric/floatCHOL.h,
numeric/floatGEPBAL.cc, numeric/floatGEPBAL.h, numeric/floatHESS.cc,
numeric/floatHESS.h, numeric/floatLU.cc, numeric/floatLU.h, numeric/floatQR.cc,
numeric/floatQR.h, numeric/floatQRP.cc, numeric/floatQRP.h,
numeric/floatSCHUR.cc, numeric/floatSCHUR.h, numeric/floatSVD.cc,
numeric/floatSVD.h, numeric/lo-mappers.cc, numeric/lo-mappers.h,
numeric/lo-specfun.cc, numeric/lo-specfun.h, numeric/module.mk,
numeric/oct-convn.cc, numeric/oct-convn.h, numeric/oct-fftw.cc,
numeric/oct-fftw.h, numeric/oct-norm.cc, numeric/oct-norm.h,
numeric/oct-rand.cc, numeric/oct-rand.h, numeric/oct-spparms.cc,
numeric/oct-spparms.h, numeric/randgamma.c, numeric/randgamma.h,
numeric/randmtzig.c, numeric/randmtzig.h, numeric/randpoisson.c,
numeric/randpoisson.h, numeric/sparse-base-chol.cc, numeric/sparse-base-chol.h,
numeric/sparse-base-lu.cc, numeric/sparse-base-lu.h, numeric/sparse-dmsolve.cc:
Moved from liboctave dir to numeric subdirectory.
* operators/Sparse-diag-op-defs.h, operators/Sparse-op-defs.h,
operators/Sparse-perm-op-defs.h, operators/config-ops.sh, operators/mk-ops.awk,
operators/module.mk, operators/mx-base.h, operators/mx-defs.h,
operators/mx-ext.h, operators/mx-inlines.cc, operators/mx-op-decl.h,
operators/mx-op-defs.h, operators/mx-ops, operators/sparse-mk-ops.awk,
operators/sparse-mx-ops, operators/vx-ops:
Moved from liboctave dir to operators subdirectory.
* system/dir-ops.cc, system/dir-ops.h, system/file-ops.cc, system/file-ops.h,
system/file-stat.cc, system/file-stat.h, system/lo-sysdep.cc,
system/lo-sysdep.h, system/mach-info.cc, system/mach-info.h, system/module.mk,
system/oct-env.cc, system/oct-env.h, system/oct-group.cc, system/oct-group.h,
system/oct-openmp.h, system/oct-passwd.cc, system/oct-passwd.h,
system/oct-syscalls.cc, system/oct-syscalls.h, system/oct-time.cc,
system/oct-time.h, system/oct-uname.cc, system/oct-uname.h, system/pathlen.h,
system/sysdir.h, system/syswait.h, system/tempnam.c, system/tempname.c:
Moved from liboctave dir to system subdirectory.
* util/base-list.h, util/byte-swap.h, util/caseless-str.h, util/cmd-edit.cc,
util/cmd-edit.h, util/cmd-hist.cc, util/cmd-hist.h, util/data-conv.cc,
util/data-conv.h, util/f2c-main.c, util/functor.h, util/glob-match.cc,
util/glob-match.h, util/kpse.cc, util/lo-array-gripes.cc,
util/lo-array-gripes.h, util/lo-cieee.c, util/lo-cutils.c, util/lo-cutils.h,
util/lo-ieee.cc, util/lo-ieee.h, util/lo-macros.h, util/lo-math.h,
util/lo-traits.h, util/lo-utils.cc, util/lo-utils.h, util/module.mk,
util/oct-alloc.cc, util/oct-alloc.h, util/oct-base64.cc, util/oct-base64.h,
util/oct-binmap.h, util/oct-cmplx.h, util/oct-glob.cc, util/oct-glob.h,
util/oct-inttypes.cc, util/oct-inttypes.h, util/oct-locbuf.cc,
util/oct-locbuf.h, util/oct-md5.cc, util/oct-md5.h, util/oct-mem.h,
util/oct-mutex.cc, util/oct-mutex.h, util/oct-refcount.h, util/oct-rl-edit.c,
util/oct-rl-edit.h, util/oct-rl-hist.c, util/oct-rl-hist.h, util/oct-shlib.cc,
util/oct-shlib.h, util/oct-sort.cc, util/oct-sort.h, util/oct-sparse.h,
util/pathsearch.cc, util/pathsearch.h, util/regexp.cc, util/regexp.h,
util/singleton-cleanup.cc, util/singleton-cleanup.h, util/sparse-sort.cc,
util/sparse-sort.h, util/sparse-util.cc, util/sparse-util.h, util/statdefs.h,
util/str-vec.cc, util/str-vec.h, util/sun-utils.h:
Moved from liboctave dir to util subdirectory.
* Makefile.am: Eliminate reference to top-level liboctave directory.
* autogen.sh: cd to new liboctave/operators directory to run config-ops.sh.
* build-aux/common.mk: Eliminate LIBCRUFT references.
* configure.ac: Eliminate libcruft top-level references. Switch test
programs to find files in liboctave/cruft subdirectory.
* OctaveFAQ.texi, install.txi, mkoctfile.1: Eliminate references to libcruft in
docs.
* libgui/src/Makefile.am, libinterp/Makefile.am, src/Makefile.am: Update
include file locations. Stop linking against libcruft.
* libinterp/corefcn/module.mk: Update location of OPT_INC files which are
now in numeric/ subdirectory.
* libinterp/dldfcn/config-module.awk: Stop linking against libcruft.
* libinterp/interpfcn/toplev.cc: Remove reference to LIBCRUFT.
* libinterp/link-deps.mk, liboctave/link-deps.mk:
Add GNULIB_LINK_DEPS to link dependencies.
* libinterp/oct-conf.in.h: Remove reference to OCTAVE_CONF_LIBCRUFT.
* liboctave/Makefile.am: Overhaul to use convenience libraries in
subdirectories.
* scripts/miscellaneous/mkoctfile.m: Eliminate reference to LIBCRUFT.
* src/mkoctfile.in.cc, src/mkoctfile.in.sh: Stop linking againt libcruft.
Eliminate references to LIBCRUFT.
| author | Rik <rik@octave.org> |
|---|---|
| date | Fri, 31 Aug 2012 20:00:20 -0700 |
| parents | liboctave/SparseCmplxQR.cc@3d8ace26c5b4 |
| children |
line wrap: on
line source
/* Copyright (C) 2005-2012 David Bateman This file is part of Octave. Octave is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 3 of the License, or (at your option) any later version. Octave is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with Octave; see the file COPYING. If not, see <http://www.gnu.org/licenses/>. */ #ifdef HAVE_CONFIG_H #include <config.h> #endif #include <vector> #include "lo-error.h" #include "SparseCmplxQR.h" #include "oct-locbuf.h" #if defined(CS_VER) && (((CS_VER == 2) && (CS_SUBVER < 2)) || (CS_VER < 2)) typedef double _Complex cs_complex_t; // Why did g++ 4.x stl_vector.h make // OCTAVE_LOCAL_BUFFER (cs_complex_t, buf, n) // an error ? #define OCTAVE_C99_COMPLEX(buf, n) \ OCTAVE_LOCAL_BUFFER (double, buf ## tmp, (2 * (n))); \ cs_complex_t *buf = reinterpret_cast<cs_complex_t *> (buf ## tmp); #define OCTAVE_C99_ZERO (0. + 0.iF) #define OCTAVE_C99_ONE (1. + 0.iF) #else #define OCTAVE_C99_COMPLEX(buf, n) \ OCTAVE_LOCAL_BUFFER (cs_complex_t, buf, (n)); #define OCTAVE_C99_ZERO cs_complex_t(0., 0.); #define OCTAVE_C99_ONE cs_complex_t(1., 0.); #endif SparseComplexQR::SparseComplexQR_rep::SparseComplexQR_rep (GCC_ATTR_UNUSED const SparseComplexMatrix& a, GCC_ATTR_UNUSED int order) : count (1), nrows (0) #ifdef HAVE_CXSPARSE , S (0), N (0) #endif { #ifdef HAVE_CXSPARSE CXSPARSE_ZNAME () A; A.nzmax = a.nnz (); A.m = a.rows (); A.n = a.cols (); nrows = A.m; // Cast away const on A, with full knowledge that CSparse won't touch it // Prevents the methods below making a copy of the data. A.p = const_cast<octave_idx_type *>(a.cidx ()); A.i = const_cast<octave_idx_type *>(a.ridx ()); A.x = const_cast<cs_complex_t *>(reinterpret_cast<const cs_complex_t *> (a.data ())); A.nz = -1; BEGIN_INTERRUPT_IMMEDIATELY_IN_FOREIGN_CODE; #if defined (CS_VER) && (CS_VER >= 2) S = CXSPARSE_ZNAME (_sqr) (order, &A, 1); #else S = CXSPARSE_ZNAME (_sqr) (&A, order - 1, 1); #endif N = CXSPARSE_ZNAME (_qr) (&A, S); END_INTERRUPT_IMMEDIATELY_IN_FOREIGN_CODE; if (!N) (*current_liboctave_error_handler) ("SparseComplexQR: sparse matrix QR factorization filled"); count = 1; #else (*current_liboctave_error_handler) ("SparseComplexQR: sparse matrix QR factorization not implemented"); #endif } SparseComplexQR::SparseComplexQR_rep::~SparseComplexQR_rep (void) { #ifdef HAVE_CXSPARSE CXSPARSE_ZNAME (_sfree) (S); CXSPARSE_ZNAME (_nfree) (N); #endif } SparseComplexMatrix SparseComplexQR::SparseComplexQR_rep::V (void) const { #ifdef HAVE_CXSPARSE // Drop zeros from V and sort // FIXME Is the double transpose to sort necessary? BEGIN_INTERRUPT_IMMEDIATELY_IN_FOREIGN_CODE; CXSPARSE_ZNAME (_dropzeros) (N->L); CXSPARSE_ZNAME () *D = CXSPARSE_ZNAME (_transpose) (N->L, 1); CXSPARSE_ZNAME (_spfree) (N->L); N->L = CXSPARSE_ZNAME (_transpose) (D, 1); CXSPARSE_ZNAME (_spfree) (D); END_INTERRUPT_IMMEDIATELY_IN_FOREIGN_CODE; octave_idx_type nc = N->L->n; octave_idx_type nz = N->L->nzmax; SparseComplexMatrix ret (N->L->m, nc, nz); for (octave_idx_type j = 0; j < nc+1; j++) ret.xcidx (j) = N->L->p[j]; for (octave_idx_type j = 0; j < nz; j++) { ret.xridx (j) = N->L->i[j]; ret.xdata (j) = reinterpret_cast<Complex *>(N->L->x)[j]; } return ret; #else return SparseComplexMatrix (); #endif } ColumnVector SparseComplexQR::SparseComplexQR_rep::Pinv (void) const { #ifdef HAVE_CXSPARSE ColumnVector ret(N->L->m); for (octave_idx_type i = 0; i < N->L->m; i++) #if defined (CS_VER) && (CS_VER >= 2) ret.xelem (i) = S->pinv[i]; #else ret.xelem (i) = S->Pinv[i]; #endif return ret; #else return ColumnVector (); #endif } ColumnVector SparseComplexQR::SparseComplexQR_rep::P (void) const { #ifdef HAVE_CXSPARSE ColumnVector ret(N->L->m); for (octave_idx_type i = 0; i < N->L->m; i++) #if defined (CS_VER) && (CS_VER >= 2) ret.xelem (S->pinv[i]) = i; #else ret.xelem (S->Pinv[i]) = i; #endif return ret; #else return ColumnVector (); #endif } SparseComplexMatrix SparseComplexQR::SparseComplexQR_rep::R (const bool econ) const { #ifdef HAVE_CXSPARSE // Drop zeros from R and sort // FIXME Is the double transpose to sort necessary? BEGIN_INTERRUPT_IMMEDIATELY_IN_FOREIGN_CODE; CXSPARSE_ZNAME (_dropzeros) (N->U); CXSPARSE_ZNAME () *D = CXSPARSE_ZNAME (_transpose) (N->U, 1); CXSPARSE_ZNAME (_spfree) (N->U); N->U = CXSPARSE_ZNAME (_transpose) (D, 1); CXSPARSE_ZNAME (_spfree) (D); END_INTERRUPT_IMMEDIATELY_IN_FOREIGN_CODE; octave_idx_type nc = N->U->n; octave_idx_type nz = N->U->nzmax; SparseComplexMatrix ret ((econ ? (nc > nrows ? nrows : nc) : nrows), nc, nz); for (octave_idx_type j = 0; j < nc+1; j++) ret.xcidx (j) = N->U->p[j]; for (octave_idx_type j = 0; j < nz; j++) { ret.xridx (j) = N->U->i[j]; ret.xdata (j) = reinterpret_cast<Complex *>(N->U->x)[j]; } return ret; #else return SparseComplexMatrix (); #endif } ComplexMatrix SparseComplexQR::SparseComplexQR_rep::C (const ComplexMatrix &b) const { #ifdef HAVE_CXSPARSE octave_idx_type b_nr = b.rows (); octave_idx_type b_nc = b.cols (); octave_idx_type nc = N->L->n; octave_idx_type nr = nrows; const cs_complex_t *bvec = reinterpret_cast<const cs_complex_t *>(b.fortran_vec ()); ComplexMatrix ret(b_nr, b_nc); Complex *vec = ret.fortran_vec (); if (nr < 0 || nc < 0 || nr != b_nr) (*current_liboctave_error_handler) ("matrix dimension mismatch"); else if (nr == 0 || nc == 0 || b_nc == 0) ret = ComplexMatrix (nc, b_nc, Complex (0.0, 0.0)); else { OCTAVE_LOCAL_BUFFER (Complex, buf, S->m2); for (volatile octave_idx_type j = 0, idx = 0; j < b_nc; j++, idx+=b_nr) { octave_quit (); volatile octave_idx_type nm = (nr < nc ? nr : nc); BEGIN_INTERRUPT_IMMEDIATELY_IN_FOREIGN_CODE; #if defined (CS_VER) && (CS_VER >= 2) CXSPARSE_ZNAME (_ipvec) (S->pinv, bvec + idx, reinterpret_cast<cs_complex_t *>(buf), b_nr); #else CXSPARSE_ZNAME (_ipvec) (b_nr, S->Pinv, bvec + idx, reinterpret_cast<cs_complex_t *>(buf)); #endif END_INTERRUPT_IMMEDIATELY_IN_FOREIGN_CODE; for (volatile octave_idx_type i = 0; i < nm; i++) { octave_quit (); BEGIN_INTERRUPT_IMMEDIATELY_IN_FOREIGN_CODE; CXSPARSE_ZNAME (_happly) (N->L, i, N->B[i], reinterpret_cast<cs_complex_t *>(buf)); END_INTERRUPT_IMMEDIATELY_IN_FOREIGN_CODE; } for (octave_idx_type i = 0; i < b_nr; i++) vec[i+idx] = buf[i]; } } return ret; #else return ComplexMatrix (); #endif } ComplexMatrix SparseComplexQR::SparseComplexQR_rep::Q (void) const { #ifdef HAVE_CXSPARSE octave_idx_type nc = N->L->n; octave_idx_type nr = nrows; ComplexMatrix ret(nr, nr); Complex *vec = ret.fortran_vec (); if (nr < 0 || nc < 0) (*current_liboctave_error_handler) ("matrix dimension mismatch"); else if (nr == 0 || nc == 0) ret = ComplexMatrix (nc, nr, Complex (0.0, 0.0)); else { OCTAVE_C99_COMPLEX (bvec, nr); for (octave_idx_type i = 0; i < nr; i++) bvec[i] = OCTAVE_C99_ZERO; OCTAVE_LOCAL_BUFFER (Complex, buf, S->m2); for (volatile octave_idx_type j = 0, idx = 0; j < nr; j++, idx+=nr) { octave_quit (); bvec[j] = OCTAVE_C99_ONE; volatile octave_idx_type nm = (nr < nc ? nr : nc); BEGIN_INTERRUPT_IMMEDIATELY_IN_FOREIGN_CODE; #if defined (CS_VER) && (CS_VER >= 2) CXSPARSE_ZNAME (_ipvec) (S->pinv, bvec, reinterpret_cast<cs_complex_t *>(buf), nr); #else CXSPARSE_ZNAME (_ipvec) (nr, S->Pinv, bvec, reinterpret_cast<cs_complex_t *>(buf)); #endif END_INTERRUPT_IMMEDIATELY_IN_FOREIGN_CODE; for (volatile octave_idx_type i = 0; i < nm; i++) { octave_quit (); BEGIN_INTERRUPT_IMMEDIATELY_IN_FOREIGN_CODE; CXSPARSE_ZNAME (_happly) (N->L, i, N->B[i], reinterpret_cast<cs_complex_t *>(buf)); END_INTERRUPT_IMMEDIATELY_IN_FOREIGN_CODE; } for (octave_idx_type i = 0; i < nr; i++) vec[i+idx] = buf[i]; bvec[j] = OCTAVE_C99_ZERO; } } return ret.hermitian (); #else return ComplexMatrix (); #endif } ComplexMatrix qrsolve (const SparseComplexMatrix&a, const Matrix &b, octave_idx_type &info) { info = -1; #ifdef HAVE_CXSPARSE octave_idx_type nr = a.rows (); octave_idx_type nc = a.cols (); octave_idx_type b_nc = b.cols (); octave_idx_type b_nr = b.rows (); ComplexMatrix x; if (nr < 0 || nc < 0 || nr != b_nr) (*current_liboctave_error_handler) ("matrix dimension mismatch in solution of minimum norm problem"); else if (nr == 0 || nc == 0 || b_nc == 0) x = ComplexMatrix (nc, b_nc, Complex (0.0, 0.0)); else if (nr >= nc) { SparseComplexQR q (a, 2); if (! q.ok ()) return ComplexMatrix (); x.resize (nc, b_nc); cs_complex_t *vec = reinterpret_cast<cs_complex_t *> (x.fortran_vec ()); OCTAVE_C99_COMPLEX (buf, q.S ()->m2); OCTAVE_LOCAL_BUFFER (Complex, Xx, b_nr); for (volatile octave_idx_type i = 0, idx = 0; i < b_nc; i++, idx+=nc) { octave_quit (); for (octave_idx_type j = 0; j < b_nr; j++) Xx[j] = b.xelem (j,i); for (octave_idx_type j = nr; j < q.S ()->m2; j++) buf[j] = OCTAVE_C99_ZERO; BEGIN_INTERRUPT_IMMEDIATELY_IN_FOREIGN_CODE; #if defined (CS_VER) && (CS_VER >= 2) CXSPARSE_ZNAME (_ipvec) (q.S ()->pinv, reinterpret_cast<cs_complex_t *>(Xx), buf, nr); #else CXSPARSE_ZNAME (_ipvec) (nr, q.S ()->Pinv, reinterpret_cast<cs_complex_t *>(Xx), buf); #endif END_INTERRUPT_IMMEDIATELY_IN_FOREIGN_CODE; for (volatile octave_idx_type j = 0; j < nc; j++) { octave_quit (); BEGIN_INTERRUPT_IMMEDIATELY_IN_FOREIGN_CODE; CXSPARSE_ZNAME (_happly) (q.N ()->L, j, q.N ()->B[j], buf); END_INTERRUPT_IMMEDIATELY_IN_FOREIGN_CODE; } BEGIN_INTERRUPT_IMMEDIATELY_IN_FOREIGN_CODE; CXSPARSE_ZNAME (_usolve) (q.N ()->U, buf); #if defined (CS_VER) && (CS_VER >= 2) CXSPARSE_ZNAME (_ipvec) (q.S ()->q, buf, vec + idx, nc); #else CXSPARSE_ZNAME (_ipvec) (nc, q.S ()->Q, buf, vec + idx); #endif END_INTERRUPT_IMMEDIATELY_IN_FOREIGN_CODE; } info = 0; } else { SparseComplexMatrix at = a.hermitian (); SparseComplexQR q (at, 2); if (! q.ok ()) return ComplexMatrix (); x.resize (nc, b_nc); cs_complex_t *vec = reinterpret_cast<cs_complex_t *> (x.fortran_vec ()); volatile octave_idx_type nbuf = (nc > q.S ()->m2 ? nc : q.S ()->m2); OCTAVE_C99_COMPLEX (buf, nbuf); OCTAVE_LOCAL_BUFFER (Complex, Xx, b_nr); #if defined (CS_VER) && (((CS_VER == 2) && (CS_SUBVER >= 2)) || (CS_VER > 2)) OCTAVE_LOCAL_BUFFER (double, B, nr); for (octave_idx_type i = 0; i < nr; i++) B[i] = q.N ()->B[i]; #else OCTAVE_LOCAL_BUFFER (Complex, B, nr); for (octave_idx_type i = 0; i < nr; i++) B[i] = conj (reinterpret_cast<Complex *>(q.N ()->B)[i]); #endif for (volatile octave_idx_type i = 0, idx = 0; i < b_nc; i++, idx+=nc) { octave_quit (); for (octave_idx_type j = 0; j < b_nr; j++) Xx[j] = b.xelem (j,i); for (octave_idx_type j = nr; j < nbuf; j++) buf[j] = OCTAVE_C99_ZERO; BEGIN_INTERRUPT_IMMEDIATELY_IN_FOREIGN_CODE; #if defined (CS_VER) && (CS_VER >= 2) CXSPARSE_ZNAME (_pvec) (q.S ()->q, reinterpret_cast<cs_complex_t *>(Xx), buf, nr); #else CXSPARSE_ZNAME (_pvec) (nr, q.S ()->Q, reinterpret_cast<cs_complex_t *>(Xx), buf); #endif CXSPARSE_ZNAME (_utsolve) (q.N ()->U, buf); END_INTERRUPT_IMMEDIATELY_IN_FOREIGN_CODE; for (volatile octave_idx_type j = nr-1; j >= 0; j--) { octave_quit (); BEGIN_INTERRUPT_IMMEDIATELY_IN_FOREIGN_CODE; #if defined (CS_VER) && (((CS_VER == 2) && (CS_SUBVER >= 2)) || (CS_VER > 2)) CXSPARSE_ZNAME (_happly) (q.N ()->L, j, B[j], buf); #else CXSPARSE_ZNAME (_happly) (q.N ()->L, j, reinterpret_cast<cs_complex_t *>(B)[j], buf); #endif END_INTERRUPT_IMMEDIATELY_IN_FOREIGN_CODE; } BEGIN_INTERRUPT_IMMEDIATELY_IN_FOREIGN_CODE; #if defined (CS_VER) && (CS_VER >= 2) CXSPARSE_ZNAME (_pvec) (q.S ()->pinv, buf, vec + idx, nc); #else CXSPARSE_ZNAME (_pvec) (nc, q.S ()->Pinv, buf, vec + idx); #endif END_INTERRUPT_IMMEDIATELY_IN_FOREIGN_CODE; } info = 0; } return x; #else return ComplexMatrix (); #endif } SparseComplexMatrix qrsolve (const SparseComplexMatrix&a, const SparseMatrix &b, octave_idx_type &info) { info = -1; #ifdef HAVE_CXSPARSE octave_idx_type nr = a.rows (); octave_idx_type nc = a.cols (); octave_idx_type b_nc = b.cols (); octave_idx_type b_nr = b.rows (); SparseComplexMatrix x; volatile octave_idx_type ii, x_nz; if (nr < 0 || nc < 0 || nr != b_nr) (*current_liboctave_error_handler) ("matrix dimension mismatch in solution of minimum norm problem"); else if (nr == 0 || nc == 0 || b_nc == 0) x = SparseComplexMatrix (nc, b_nc); else if (nr >= nc) { SparseComplexQR q (a, 2); if (! q.ok ()) return SparseComplexMatrix (); x = SparseComplexMatrix (nc, b_nc, b.nnz ()); x.xcidx (0) = 0; x_nz = b.nnz (); ii = 0; OCTAVE_LOCAL_BUFFER (Complex, Xx, (b_nr > nc ? b_nr : nc)); OCTAVE_C99_COMPLEX (buf, q.S ()->m2); for (volatile octave_idx_type i = 0, idx = 0; i < b_nc; i++, idx+=nc) { octave_quit (); for (octave_idx_type j = 0; j < b_nr; j++) Xx[j] = b.xelem (j,i); for (octave_idx_type j = nr; j < q.S ()->m2; j++) buf[j] = OCTAVE_C99_ZERO; BEGIN_INTERRUPT_IMMEDIATELY_IN_FOREIGN_CODE; #if defined (CS_VER) && (CS_VER >= 2) CXSPARSE_ZNAME (_ipvec) (q.S ()->pinv, reinterpret_cast<cs_complex_t *>(Xx), buf, nr); #else CXSPARSE_ZNAME (_ipvec) (nr, q.S ()->Pinv, reinterpret_cast<cs_complex_t *>(Xx), buf); #endif END_INTERRUPT_IMMEDIATELY_IN_FOREIGN_CODE; for (volatile octave_idx_type j = 0; j < nc; j++) { octave_quit (); BEGIN_INTERRUPT_IMMEDIATELY_IN_FOREIGN_CODE; CXSPARSE_ZNAME (_happly) (q.N ()->L, j, q.N ()->B[j], buf); END_INTERRUPT_IMMEDIATELY_IN_FOREIGN_CODE; } BEGIN_INTERRUPT_IMMEDIATELY_IN_FOREIGN_CODE; CXSPARSE_ZNAME (_usolve) (q.N ()->U, buf); #if defined (CS_VER) && (CS_VER >= 2) CXSPARSE_ZNAME (_ipvec) (q.S ()->q, buf, reinterpret_cast<cs_complex_t *>(Xx), nc); #else CXSPARSE_ZNAME (_ipvec) (nc, q.S ()->Q, buf, reinterpret_cast<cs_complex_t *>(Xx)); #endif END_INTERRUPT_IMMEDIATELY_IN_FOREIGN_CODE; for (octave_idx_type j = 0; j < nc; j++) { Complex tmp = Xx[j]; if (tmp != 0.0) { if (ii == x_nz) { // Resize the sparse matrix octave_idx_type sz = x_nz * (b_nc - i) / b_nc; sz = (sz > 10 ? sz : 10) + x_nz; x.change_capacity (sz); x_nz = sz; } x.xdata (ii) = tmp; x.xridx (ii++) = j; } } x.xcidx (i+1) = ii; } info = 0; } else { SparseComplexMatrix at = a.hermitian (); SparseComplexQR q (at, 2); if (! q.ok ()) return SparseComplexMatrix (); x = SparseComplexMatrix (nc, b_nc, b.nnz ()); x.xcidx (0) = 0; x_nz = b.nnz (); ii = 0; volatile octave_idx_type nbuf = (nc > q.S ()->m2 ? nc : q.S ()->m2); OCTAVE_LOCAL_BUFFER (Complex, Xx, (b_nr > nc ? b_nr : nc)); OCTAVE_C99_COMPLEX (buf, nbuf); #if defined (CS_VER) && (((CS_VER == 2) && (CS_SUBVER >= 2)) || (CS_VER > 2)) OCTAVE_LOCAL_BUFFER (double, B, nr); for (octave_idx_type i = 0; i < nr; i++) B[i] = q.N ()->B[i]; #else OCTAVE_LOCAL_BUFFER (Complex, B, nr); for (octave_idx_type i = 0; i < nr; i++) B[i] = conj (reinterpret_cast<Complex *>(q.N ()->B)[i]); #endif for (volatile octave_idx_type i = 0, idx = 0; i < b_nc; i++, idx+=nc) { octave_quit (); for (octave_idx_type j = 0; j < b_nr; j++) Xx[j] = b.xelem (j,i); for (octave_idx_type j = nr; j < nbuf; j++) buf[j] = OCTAVE_C99_ZERO; BEGIN_INTERRUPT_IMMEDIATELY_IN_FOREIGN_CODE; #if defined (CS_VER) && (CS_VER >= 2) CXSPARSE_ZNAME (_pvec) (q.S ()->q, reinterpret_cast<cs_complex_t *>(Xx), buf, nr); #else CXSPARSE_ZNAME (_pvec) (nr, q.S ()->Q, reinterpret_cast<cs_complex_t *>(Xx), buf); #endif CXSPARSE_ZNAME (_utsolve) (q.N ()->U, buf); END_INTERRUPT_IMMEDIATELY_IN_FOREIGN_CODE; for (volatile octave_idx_type j = nr-1; j >= 0; j--) { octave_quit (); BEGIN_INTERRUPT_IMMEDIATELY_IN_FOREIGN_CODE; #if defined (CS_VER) && (((CS_VER == 2) && (CS_SUBVER >= 2)) || (CS_VER > 2)) CXSPARSE_ZNAME (_happly) (q.N ()->L, j, B[j], buf); #else CXSPARSE_ZNAME (_happly) (q.N ()->L, j, reinterpret_cast<cs_complex_t *>(B)[j], buf); #endif END_INTERRUPT_IMMEDIATELY_IN_FOREIGN_CODE; } BEGIN_INTERRUPT_IMMEDIATELY_IN_FOREIGN_CODE; #if defined (CS_VER) && (CS_VER >= 2) CXSPARSE_ZNAME (_pvec) (q.S ()->pinv, buf, reinterpret_cast<cs_complex_t *>(Xx), nc); #else CXSPARSE_ZNAME (_pvec) (nc, q.S ()->Pinv, buf, reinterpret_cast<cs_complex_t *>(Xx)); #endif END_INTERRUPT_IMMEDIATELY_IN_FOREIGN_CODE; for (octave_idx_type j = 0; j < nc; j++) { Complex tmp = Xx[j]; if (tmp != 0.0) { if (ii == x_nz) { // Resize the sparse matrix octave_idx_type sz = x_nz * (b_nc - i) / b_nc; sz = (sz > 10 ? sz : 10) + x_nz; x.change_capacity (sz); x_nz = sz; } x.xdata (ii) = tmp; x.xridx (ii++) = j; } } x.xcidx (i+1) = ii; } info = 0; } x.maybe_compress (); return x; #else return SparseComplexMatrix (); #endif } ComplexMatrix qrsolve (const SparseComplexMatrix&a, const ComplexMatrix &b, octave_idx_type &info) { info = -1; #ifdef HAVE_CXSPARSE octave_idx_type nr = a.rows (); octave_idx_type nc = a.cols (); octave_idx_type b_nc = b.cols (); octave_idx_type b_nr = b.rows (); const cs_complex_t *bvec = reinterpret_cast<const cs_complex_t *>(b.fortran_vec ()); ComplexMatrix x; if (nr < 0 || nc < 0 || nr != b_nr) (*current_liboctave_error_handler) ("matrix dimension mismatch in solution of minimum norm problem"); else if (nr == 0 || nc == 0 || b_nc == 0) x = ComplexMatrix (nc, b_nc, Complex (0.0, 0.0)); else if (nr >= nc) { SparseComplexQR q (a, 2); if (! q.ok ()) return ComplexMatrix (); x.resize (nc, b_nc); cs_complex_t *vec = reinterpret_cast<cs_complex_t *> (x.fortran_vec ()); OCTAVE_C99_COMPLEX (buf, q.S ()->m2); for (volatile octave_idx_type i = 0, idx = 0, bidx = 0; i < b_nc; i++, idx+=nc, bidx+=b_nr) { octave_quit (); for (octave_idx_type j = nr; j < q.S ()->m2; j++) buf[j] = OCTAVE_C99_ZERO; BEGIN_INTERRUPT_IMMEDIATELY_IN_FOREIGN_CODE; #if defined (CS_VER) && (CS_VER >= 2) CXSPARSE_ZNAME (_ipvec) (q.S ()->pinv, bvec + bidx, buf, nr); #else CXSPARSE_ZNAME (_ipvec) (nr, q.S ()->Pinv, bvec + bidx, buf); #endif END_INTERRUPT_IMMEDIATELY_IN_FOREIGN_CODE; for (volatile octave_idx_type j = 0; j < nc; j++) { octave_quit (); BEGIN_INTERRUPT_IMMEDIATELY_IN_FOREIGN_CODE; CXSPARSE_ZNAME (_happly) (q.N ()->L, j, q.N ()->B[j], buf); END_INTERRUPT_IMMEDIATELY_IN_FOREIGN_CODE; } BEGIN_INTERRUPT_IMMEDIATELY_IN_FOREIGN_CODE; CXSPARSE_ZNAME (_usolve) (q.N ()->U, buf); #if defined (CS_VER) && (CS_VER >= 2) CXSPARSE_ZNAME (_ipvec) (q.S ()->q, buf, vec + idx, nc); #else CXSPARSE_ZNAME (_ipvec) (nc, q.S ()->Q, buf, vec + idx); #endif END_INTERRUPT_IMMEDIATELY_IN_FOREIGN_CODE; } info = 0; } else { SparseComplexMatrix at = a.hermitian (); SparseComplexQR q (at, 2); if (! q.ok ()) return ComplexMatrix (); x.resize (nc, b_nc); cs_complex_t *vec = reinterpret_cast<cs_complex_t *> (x.fortran_vec ()); volatile octave_idx_type nbuf = (nc > q.S ()->m2 ? nc : q.S ()->m2); OCTAVE_C99_COMPLEX (buf, nbuf); #if defined (CS_VER) && (((CS_VER == 2) && (CS_SUBVER >= 2)) || (CS_VER > 2)) OCTAVE_LOCAL_BUFFER (double, B, nr); for (octave_idx_type i = 0; i < nr; i++) B[i] = q.N ()->B[i]; #else OCTAVE_LOCAL_BUFFER (Complex, B, nr); for (octave_idx_type i = 0; i < nr; i++) B[i] = conj (reinterpret_cast<Complex *>(q.N ()->B)[i]); #endif for (volatile octave_idx_type i = 0, idx = 0, bidx = 0; i < b_nc; i++, idx+=nc, bidx+=b_nr) { octave_quit (); for (octave_idx_type j = nr; j < nbuf; j++) buf[j] = OCTAVE_C99_ZERO; BEGIN_INTERRUPT_IMMEDIATELY_IN_FOREIGN_CODE; #if defined (CS_VER) && (CS_VER >= 2) CXSPARSE_ZNAME (_pvec) (q.S ()->q, bvec + bidx, buf, nr); #else CXSPARSE_ZNAME (_pvec) (nr, q.S ()->Q, bvec + bidx, buf); #endif CXSPARSE_ZNAME (_utsolve) (q.N ()->U, buf); END_INTERRUPT_IMMEDIATELY_IN_FOREIGN_CODE; for (volatile octave_idx_type j = nr-1; j >= 0; j--) { octave_quit (); BEGIN_INTERRUPT_IMMEDIATELY_IN_FOREIGN_CODE; #if defined (CS_VER) && (((CS_VER == 2) && (CS_SUBVER >= 2)) || (CS_VER > 2)) CXSPARSE_ZNAME (_happly) (q.N ()->L, j, B[j], buf); #else CXSPARSE_ZNAME (_happly) (q.N ()->L, j, reinterpret_cast<cs_complex_t *>(B)[j], buf); #endif END_INTERRUPT_IMMEDIATELY_IN_FOREIGN_CODE; } BEGIN_INTERRUPT_IMMEDIATELY_IN_FOREIGN_CODE; #if defined (CS_VER) && (CS_VER >= 2) CXSPARSE_ZNAME (_pvec) (q.S ()->pinv, buf, vec + idx, nc); #else CXSPARSE_ZNAME (_pvec) (nc, q.S ()->Pinv, buf, vec + idx); #endif END_INTERRUPT_IMMEDIATELY_IN_FOREIGN_CODE; } info = 0; } return x; #else return ComplexMatrix (); #endif } SparseComplexMatrix qrsolve (const SparseComplexMatrix&a, const SparseComplexMatrix &b, octave_idx_type &info) { info = -1; #ifdef HAVE_CXSPARSE octave_idx_type nr = a.rows (); octave_idx_type nc = a.cols (); octave_idx_type b_nc = b.cols (); octave_idx_type b_nr = b.rows (); SparseComplexMatrix x; volatile octave_idx_type ii, x_nz; if (nr < 0 || nc < 0 || nr != b_nr) (*current_liboctave_error_handler) ("matrix dimension mismatch in solution of minimum norm problem"); else if (nr == 0 || nc == 0 || b_nc == 0) x = SparseComplexMatrix (nc, b_nc); else if (nr >= nc) { SparseComplexQR q (a, 2); if (! q.ok ()) return SparseComplexMatrix (); x = SparseComplexMatrix (nc, b_nc, b.nnz ()); x.xcidx (0) = 0; x_nz = b.nnz (); ii = 0; OCTAVE_LOCAL_BUFFER (Complex, Xx, (b_nr > nc ? b_nr : nc)); OCTAVE_C99_COMPLEX (buf, q.S ()->m2); for (volatile octave_idx_type i = 0, idx = 0; i < b_nc; i++, idx+=nc) { octave_quit (); for (octave_idx_type j = 0; j < b_nr; j++) Xx[j] = b.xelem (j,i); for (octave_idx_type j = nr; j < q.S ()->m2; j++) buf[j] = OCTAVE_C99_ZERO; BEGIN_INTERRUPT_IMMEDIATELY_IN_FOREIGN_CODE; #if defined (CS_VER) && (CS_VER >= 2) CXSPARSE_ZNAME (_ipvec) (q.S ()->pinv, reinterpret_cast<cs_complex_t *>(Xx), buf, nr); #else CXSPARSE_ZNAME (_ipvec) (nr, q.S ()->Pinv, reinterpret_cast<cs_complex_t *>(Xx), buf); #endif END_INTERRUPT_IMMEDIATELY_IN_FOREIGN_CODE; for (volatile octave_idx_type j = 0; j < nc; j++) { octave_quit (); BEGIN_INTERRUPT_IMMEDIATELY_IN_FOREIGN_CODE; CXSPARSE_ZNAME (_happly) (q.N ()->L, j, q.N ()->B[j], buf); END_INTERRUPT_IMMEDIATELY_IN_FOREIGN_CODE; } BEGIN_INTERRUPT_IMMEDIATELY_IN_FOREIGN_CODE; CXSPARSE_ZNAME (_usolve) (q.N ()->U, buf); #if defined (CS_VER) && (CS_VER >= 2) CXSPARSE_ZNAME (_ipvec) (q.S ()->q, buf, reinterpret_cast<cs_complex_t *>(Xx), nc); #else CXSPARSE_ZNAME (_ipvec) (nc, q.S ()->Q, buf, reinterpret_cast<cs_complex_t *>(Xx)); #endif END_INTERRUPT_IMMEDIATELY_IN_FOREIGN_CODE; for (octave_idx_type j = 0; j < nc; j++) { Complex tmp = Xx[j]; if (tmp != 0.0) { if (ii == x_nz) { // Resize the sparse matrix octave_idx_type sz = x_nz * (b_nc - i) / b_nc; sz = (sz > 10 ? sz : 10) + x_nz; x.change_capacity (sz); x_nz = sz; } x.xdata (ii) = tmp; x.xridx (ii++) = j; } } x.xcidx (i+1) = ii; } info = 0; } else { SparseComplexMatrix at = a.hermitian (); SparseComplexQR q (at, 2); if (! q.ok ()) return SparseComplexMatrix (); x = SparseComplexMatrix (nc, b_nc, b.nnz ()); x.xcidx (0) = 0; x_nz = b.nnz (); ii = 0; volatile octave_idx_type nbuf = (nc > q.S ()->m2 ? nc : q.S ()->m2); OCTAVE_LOCAL_BUFFER (Complex, Xx, (b_nr > nc ? b_nr : nc)); OCTAVE_C99_COMPLEX (buf, nbuf); #if defined (CS_VER) && (((CS_VER == 2) && (CS_SUBVER >= 2)) || (CS_VER > 2)) OCTAVE_LOCAL_BUFFER (double, B, nr); for (octave_idx_type i = 0; i < nr; i++) B[i] = q.N ()->B[i]; #else OCTAVE_LOCAL_BUFFER (Complex, B, nr); for (octave_idx_type i = 0; i < nr; i++) B[i] = conj (reinterpret_cast<Complex *>(q.N ()->B)[i]); #endif for (volatile octave_idx_type i = 0, idx = 0; i < b_nc; i++, idx+=nc) { octave_quit (); for (octave_idx_type j = 0; j < b_nr; j++) Xx[j] = b.xelem (j,i); for (octave_idx_type j = nr; j < nbuf; j++) buf[j] = OCTAVE_C99_ZERO; BEGIN_INTERRUPT_IMMEDIATELY_IN_FOREIGN_CODE; #if defined (CS_VER) && (CS_VER >= 2) CXSPARSE_ZNAME (_pvec) (q.S ()->q, reinterpret_cast<cs_complex_t *>(Xx), buf, nr); #else CXSPARSE_ZNAME (_pvec) (nr, q.S ()->Q, reinterpret_cast<cs_complex_t *>(Xx), buf); #endif CXSPARSE_ZNAME (_utsolve) (q.N ()->U, buf); END_INTERRUPT_IMMEDIATELY_IN_FOREIGN_CODE; for (volatile octave_idx_type j = nr-1; j >= 0; j--) { octave_quit (); BEGIN_INTERRUPT_IMMEDIATELY_IN_FOREIGN_CODE; #if defined (CS_VER) && (((CS_VER == 2) && (CS_SUBVER >= 2)) || (CS_VER > 2)) CXSPARSE_ZNAME (_happly) (q.N ()->L, j, B[j], buf); #else CXSPARSE_ZNAME (_happly) (q.N ()->L, j, reinterpret_cast<cs_complex_t *>(B)[j], buf); #endif END_INTERRUPT_IMMEDIATELY_IN_FOREIGN_CODE; } BEGIN_INTERRUPT_IMMEDIATELY_IN_FOREIGN_CODE; #if defined (CS_VER) && (CS_VER >= 2) CXSPARSE_ZNAME (_pvec) (q.S ()->pinv, buf, reinterpret_cast<cs_complex_t *>(Xx), nc); #else CXSPARSE_ZNAME (_pvec) (nc, q.S ()->Pinv, buf, reinterpret_cast<cs_complex_t *>(Xx)); #endif END_INTERRUPT_IMMEDIATELY_IN_FOREIGN_CODE; for (octave_idx_type j = 0; j < nc; j++) { Complex tmp = Xx[j]; if (tmp != 0.0) { if (ii == x_nz) { // Resize the sparse matrix octave_idx_type sz = x_nz * (b_nc - i) / b_nc; sz = (sz > 10 ? sz : 10) + x_nz; x.change_capacity (sz); x_nz = sz; } x.xdata (ii) = tmp; x.xridx (ii++) = j; } } x.xcidx (i+1) = ii; } info = 0; } x.maybe_compress (); return x; #else return SparseComplexMatrix (); #endif } ComplexMatrix qrsolve (const SparseComplexMatrix &a, const MArray<double> &b, octave_idx_type &info) { return qrsolve (a, Matrix (b), info); } ComplexMatrix qrsolve (const SparseComplexMatrix &a, const MArray<Complex> &b, octave_idx_type &info) { return qrsolve (a, ComplexMatrix (b), info); }