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.

/*

Copyright (C) 2004-2012 John W. Eaton
Copyright (C) 2008-2009 Jaroslav Hajek

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 "lo-error.h"

#include "oct-inttypes.h"

template<class T>
const octave_int<T> octave_int<T>::zero (static_cast<T> (0));

template<class T>
const octave_int<T> octave_int<T>::one (static_cast<T> (1));

// define type names.
#define DECLARE_OCTAVE_INT_TYPENAME(TYPE, TYPENAME) \
  template <> \
  OCTAVE_API const char * \
  octave_int<TYPE>::type_name () { return TYPENAME; }

DECLARE_OCTAVE_INT_TYPENAME (int8_t, "int8")
DECLARE_OCTAVE_INT_TYPENAME (int16_t, "int16")
DECLARE_OCTAVE_INT_TYPENAME (int32_t, "int32")
DECLARE_OCTAVE_INT_TYPENAME (int64_t, "int64")
DECLARE_OCTAVE_INT_TYPENAME (uint8_t, "uint8")
DECLARE_OCTAVE_INT_TYPENAME (uint16_t, "uint16")
DECLARE_OCTAVE_INT_TYPENAME (uint32_t, "uint32")
DECLARE_OCTAVE_INT_TYPENAME (uint64_t, "uint64")

#ifndef OCTAVE_INT_USE_LONG_DOUBLE

// Define comparison operators

template <class xop>
bool
octave_int_cmp_op::emulate_mop (uint64_t x, double y)
{
  static const double xxup = std::numeric_limits<uint64_t>::max ();
  // This converts to the nearest double. Unless there's an equality, the
  // result is clear.
  double xx = x;
  if (xx != y)
    return xop::op (xx, y);
  else
    {
      // If equality occured we compare as integers.
      if (xx == xxup)
        return xop::gtval;
      else
        return xop::op (x, static_cast<uint64_t> (xx));
    }
}

template <class xop>
bool
octave_int_cmp_op::emulate_mop (int64_t x, double y)
{
  static const double xxup = std::numeric_limits<int64_t>::max ();
  static const double xxlo = std::numeric_limits<int64_t>::min ();
  // This converts to the nearest double. Unless there's an equality, the
  // result is clear.
  double xx = x;
  if (xx != y)
    return xop::op (xx, y);
  else
    {
      // If equality occured we compare as integers.
      if (xx == xxup)
        return xop::gtval;
      else if (xx == xxlo)
        return xop::ltval;
      else
        return xop::op (x, static_cast<int64_t> (xx));
    }

}

// We define double-int operations by reverting the operator

// A trait class reverting the operator
template <class xop>
class rev_op
{
public:
  typedef xop op;
};

#define DEFINE_REVERTED_OPERATOR(OP1,OP2) \
  template <> \
  class rev_op<octave_int_cmp_op::OP1> \
  { \
  public: \
    typedef octave_int_cmp_op::OP2 op; \
  }

DEFINE_REVERTED_OPERATOR(lt,gt);
DEFINE_REVERTED_OPERATOR(gt,lt);
DEFINE_REVERTED_OPERATOR(le,ge);
DEFINE_REVERTED_OPERATOR(ge,le);

template <class xop>
bool
octave_int_cmp_op::emulate_mop (double x, uint64_t y)
{
  typedef typename rev_op<xop>::op rop;
  return mop<rop> (y, x);
}

template <class xop>
bool
octave_int_cmp_op::emulate_mop (double x, int64_t y)
{
  typedef typename rev_op<xop>::op rop;
  return mop<rop> (y, x);
}


// Define handlers for int64 multiplication

template <>
uint64_t
octave_int_arith_base<uint64_t, false>::mul (uint64_t x, uint64_t y)
{
  // Get upper words
  uint64_t ux = x >> 32, uy = y >> 32;
  uint64_t res;
  if (ux)
    {
      if (uy)
        goto overflow;
      else
        {
          uint64_t ly = static_cast<uint32_t> (y), uxly = ux*ly;
          if (uxly >> 32)
            goto overflow;
          uxly <<= 32; // never overflows
          uint64_t lx = static_cast<uint32_t> (x), lxly = lx*ly;
          res = add (uxly, lxly);
        }
    }
  else if (uy)
    {
      uint64_t lx = static_cast<uint32_t> (x), uylx = uy*lx;
      if (uylx >> 32)
        goto overflow;
      uylx <<= 32; // never overflows
      uint64_t ly = static_cast<uint32_t> (y), lylx = ly*lx;
      res = add (uylx, lylx);
    }
  else
    {
      uint64_t lx = static_cast<uint32_t> (x);
      uint64_t ly = static_cast<uint32_t> (y);
      res = lx*ly;
    }

  return res;

overflow:
  return max_val ();
}

template <>
int64_t
octave_int_arith_base<int64_t, true>::mul (int64_t x, int64_t y)
{
  // The signed case is far worse. The problem is that
  // even if neither integer fits into signed 32-bit range, the result may
  // still be OK. Uh oh.

  // Essentially, what we do is compute sign, multiply absolute values
  // (as above) and impose the sign.
  // FIXME -- can we do something faster if we HAVE_FAST_INT_OPS?

  uint64_t usx = octave_int_abs (x), usy = octave_int_abs (y);
  bool positive = (x < 0) == (y < 0);

  // Get upper words
  uint64_t ux = usx >> 32, uy = usy >> 32;
  uint64_t res;
  if (ux)
    {
      if (uy)
        goto overflow;
      else
        {
          uint64_t ly = static_cast<uint32_t> (usy), uxly = ux*ly;
          if (uxly >> 32)
            goto overflow;
          uxly <<= 32; // never overflows
          uint64_t lx = static_cast<uint32_t> (usx), lxly = lx*ly;
          res = uxly + lxly;
          if (res < uxly)
            goto overflow;
        }
    }
  else if (uy)
    {
      uint64_t lx = static_cast<uint32_t> (usx), uylx = uy*lx;
      if (uylx >> 32)
        goto overflow;
      uylx <<= 32; // never overflows
      uint64_t ly = static_cast<uint32_t> (usy), lylx = ly*lx;
      res = uylx + lylx;
      if (res < uylx)
        goto overflow;
    }
  else
    {
      uint64_t lx = static_cast<uint32_t> (usx);
      uint64_t ly = static_cast<uint32_t> (usy);
      res = lx*ly;
    }

  if (positive)
    {
      if (res > static_cast<uint64_t> (max_val ()))
        {
          return max_val ();
        }
      else
        return static_cast<int64_t> (res);
    }
  else
    {
      if (res > static_cast<uint64_t> (-min_val ()))
        {
          return min_val ();
        }
      else
        return -static_cast<int64_t> (res);
    }


overflow:
  return positive ? max_val () : min_val ();

}

#define INT_DOUBLE_BINOP_DECL(OP,SUFFIX) \
  template <> \
  OCTAVE_API octave_ ## SUFFIX \
  operator OP (const octave_ ## SUFFIX & x, const double& y)

#define DOUBLE_INT_BINOP_DECL(OP,SUFFIX) \
  template <> \
  OCTAVE_API octave_ ## SUFFIX \
  operator OP (const double& x, const octave_ ## SUFFIX & y)

INT_DOUBLE_BINOP_DECL (+, uint64)
{
  return (y < 0) ? x - octave_uint64 (-y) : x + octave_uint64 (y);
}

DOUBLE_INT_BINOP_DECL (+, uint64)
{ return y + x; }

INT_DOUBLE_BINOP_DECL (+, int64)
{
  if (fabs (y) < static_cast<double> (octave_int64::max ()))
    return x + octave_int64 (y);
  else
    {
      // If the number is within the int64 range (the most common case,
      // probably), the above will work as expected. If not, it's more
      // complicated - as long as y is within _twice_ the signed range, the
      // result may still be an integer. An instance of such an operation is
      // 3*2**62 + (1+intmin ('int64')) that should yield int64 (2**62) + 1.  So
      // what we do is to try to convert y/2 and add it twice. Note that if y/2
      // overflows, the result must overflow as well, and that y/2 cannot be a
      // fractional number.
      octave_int64 y2 (y / 2);
      return (x + y2) + y2;
    }
}

DOUBLE_INT_BINOP_DECL (+, int64)
{
  return y + x;
}

INT_DOUBLE_BINOP_DECL (-, uint64)
{
  return x + (-y);
}

DOUBLE_INT_BINOP_DECL (-, uint64)
{
  if (x <= static_cast<double> (octave_uint64::max ()))
    return octave_uint64 (x) - y;
  else
    {
      // Again a trick to get the corner cases right. Things like
      // 3**2**63 - intmax ('uint64') should produce the correct result, i.e.
      // int64 (2**63) + 1.
      const double p2_64 = std::pow (2.0, 64);
      if (y.bool_value ())
        {
          const uint64_t p2_64my = (~y.value ()) + 1; // Equals 2**64 - y
          return octave_uint64 (x - p2_64) + octave_uint64 (p2_64my);
        }
      else
        return octave_uint64 (p2_64);
    }
}

INT_DOUBLE_BINOP_DECL (-, int64)
{
  return x + (-y);
}

DOUBLE_INT_BINOP_DECL (-, int64)
{
  static const bool twosc = (std::numeric_limits<int64_t>::min ()
                             < -std::numeric_limits<int64_t>::max ());
  // In case of symmetric integers (not two's complement), this will probably
  // be eliminated at compile time.
  if (twosc && y.value () == std::numeric_limits<int64_t>::min ())
    {
      return octave_int64 (x + std::pow (2.0, 63));
    }
  else
    return x + (-y);
}

// NOTE:
// Emulated mixed multiplications are tricky due to possible precision loss.
// Here, after sorting out common cases for speed, we follow the strategy
// of converting the double number into the form sign * 64-bit integer* 2**exponent,
// multiply the 64-bit integers to get a 128-bit number, split that number into 32-bit words
// and form 4 double-valued summands (none of which loases precision), then convert these
// into integers and sum them. Though it is not immediately obvious, this should work
// even w.r.t. rounding (none of the summands lose precision).

// Multiplies two unsigned 64-bit ints to get a 128-bit number represented
// as four 32-bit words.
static void
umul128 (uint64_t x, uint64_t y, uint32_t w[4])
{
  uint64_t lx = static_cast<uint32_t> (x), ux = x >> 32;
  uint64_t ly = static_cast<uint32_t> (y), uy = y >> 32;
  uint64_t a = lx * ly;
  w[0] = a; a >>= 32;
  uint64_t uxly = ux*ly, uylx = uy*lx;
  a += static_cast<uint32_t> (uxly); uxly >>= 32;
  a += static_cast<uint32_t> (uylx); uylx >>= 32;
  w[1] = a; a >>= 32;
  uint64_t uxuy = ux * uy;
  a += uxly; a += uylx; a += uxuy;
  w[2] = a; a >>= 32;
  w[3] = a;
}

// Splits a double into bool sign, unsigned 64-bit mantissa and int exponent
static void
dblesplit (double x, bool& sign, uint64_t& mtis, int& exp)
{
  sign = x < 0; x = fabs (x);
  x = frexp (x, &exp);
  exp -= 52;
  mtis = static_cast<uint64_t> (ldexp (x, 52));
}

// Gets a double number from a 32-bit unsigned integer mantissa, exponent and sign.
static double
dbleget (bool sign, uint32_t mtis, int exp)
{
  double x = ldexp (static_cast<double> (mtis), exp);
  return sign ? -x : x;
}


INT_DOUBLE_BINOP_DECL (*, uint64)
{
  if (y >= 0 && y < octave_uint64::max () && y == xround (y))
    {
      return x * octave_uint64 (static_cast<uint64_t> (y));
    }
  else if (y == 0.5)
    {
      return x / octave_uint64 (static_cast<uint64_t> (2));
    }
  else if (y < 0 || xisnan (y) || xisinf (y))
    {
      return octave_uint64 (x.value () * y);
    }
  else
    {
      bool sign;
      uint64_t my;
      int e;
      dblesplit (y, sign, my, e);
      uint32_t w[4];
      umul128 (x.value (), my, w);
      octave_uint64 res = octave_uint64::zero;
      for (short i = 0; i < 4; i++)
        {
          res += octave_uint64 (dbleget (sign, w[i], e));
          e += 32;
        }
      return res;
    }
}

DOUBLE_INT_BINOP_DECL (*, uint64)
{ return y * x; }

INT_DOUBLE_BINOP_DECL (*, int64)
{
  if (fabs (y) < octave_int64::max () && y == xround (y))
    {
      return x * octave_int64 (static_cast<int64_t> (y));
    }
  else if (fabs (y) == 0.5)
    {
      return x / octave_int64 (static_cast<uint64_t> (4*y));
    }
  else if (xisnan (y) || xisinf (y))
    {
      return octave_int64 (x.value () * y);
    }
  else
    {
      bool sign;
      uint64_t my;
      int e;
      dblesplit (y, sign, my, e);
      uint32_t w[4];
      sign = (sign != (x.value () < 0));
      umul128 (octave_int_abs (x.value ()), my, w);
      octave_int64 res = octave_int64::zero;
      for (short i = 0; i < 4; i++)
        {
          res += octave_int64 (dbleget (sign, w[i], e));
          e += 32;
        }
      return res;
    }
}

DOUBLE_INT_BINOP_DECL (*, int64)
{ return y * x; }

DOUBLE_INT_BINOP_DECL (/, uint64)
{
  return octave_uint64 (x / static_cast<double> (y));
}

DOUBLE_INT_BINOP_DECL (/, int64)
{
  return octave_int64 (x / static_cast<double> (y));
}

INT_DOUBLE_BINOP_DECL (/, uint64)
{
  if (y >= 0 && y < octave_uint64::max () && y == xround (y))
    {
      return x / octave_uint64 (y);
    }
  else
    return x * (1.0/y);
}

INT_DOUBLE_BINOP_DECL (/, int64)
{
  if (fabs (y) < octave_int64::max () && y == xround (y))
    {
      return x / octave_int64 (y);
    }
  else
    return x * (1.0/y);
}

#define INSTANTIATE_INT64_DOUBLE_CMP_OP0(OP,T1,T2) \
  template OCTAVE_API bool \
  octave_int_cmp_op::emulate_mop<octave_int_cmp_op::OP> (T1 x, T2 y)

#define INSTANTIATE_INT64_DOUBLE_CMP_OP(OP) \
  INSTANTIATE_INT64_DOUBLE_CMP_OP0(OP, double, int64_t); \
  INSTANTIATE_INT64_DOUBLE_CMP_OP0(OP, double, uint64_t); \
  INSTANTIATE_INT64_DOUBLE_CMP_OP0(OP, int64_t, double); \
  INSTANTIATE_INT64_DOUBLE_CMP_OP0(OP, uint64_t, double)

INSTANTIATE_INT64_DOUBLE_CMP_OP(lt);
INSTANTIATE_INT64_DOUBLE_CMP_OP(le);
INSTANTIATE_INT64_DOUBLE_CMP_OP(gt);
INSTANTIATE_INT64_DOUBLE_CMP_OP(ge);
INSTANTIATE_INT64_DOUBLE_CMP_OP(eq);
INSTANTIATE_INT64_DOUBLE_CMP_OP(ne);

#endif

//template <class T>
//bool
//xisnan (const octave_int<T>&)
//{
//  return false;
//}

template <class T>
octave_int<T>
pow (const octave_int<T>& a, const octave_int<T>& b)
{
  octave_int<T> retval;

  octave_int<T> zero = static_cast<T> (0);
  octave_int<T> one = static_cast<T> (1);

  if (b == zero || a == one)
    retval = one;
  else if (b < zero)
    {
      if (a == -one)
        retval = (b.value () % 2) ? a : one;
      else
        retval = zero;
    }
  else
    {
      octave_int<T> a_val = a;
      T b_val = b; // no need to do saturation on b

      retval = a;

      b_val -= 1;

      while (b_val != 0)
        {
          if (b_val & 1)
            retval = retval * a_val;

          b_val = b_val >> 1;

          if (b_val)
            a_val = a_val * a_val;
        }
    }

  return retval;
}

template <class T>
octave_int<T>
pow (const double& a, const octave_int<T>& b)
{ return octave_int<T> (pow (a, b.double_value ())); }

template <class T>
octave_int<T>
pow (const octave_int<T>& a, const double& b)
{
  return ((b >= 0 && b < std::numeric_limits<T>::digits && b == xround (b))
          ? pow (a, octave_int<T> (static_cast<T> (b)))
          : octave_int<T> (pow (a.double_value (), b)));
}

template <class T>
octave_int<T>
pow (const float& a, const octave_int<T>& b)
{ return octave_int<T> (pow (a, b.float_value ())); }

template <class T>
octave_int<T>
pow (const octave_int<T>& a, const float& b)
{
  return ((b >= 0 && b < std::numeric_limits<T>::digits && b == xround (b))
          ? pow (a, octave_int<T> (static_cast<T> (b)))
          : octave_int<T> (pow (a.double_value (), static_cast<double> (b))));
}

// FIXME: Do we really need a differently named single-precision
//        function integer power function here instead of an overloaded
//        one?
template <class T>
octave_int<T>
powf (const float& a, const octave_int<T>& b)
{ return octave_int<T> (pow (a, b.float_value ())); }

template <class T>
octave_int<T>
powf (const octave_int<T>& a, const float& b)
{
  return ((b >= 0 && b < std::numeric_limits<T>::digits && b == xround (b))
          ? pow (a, octave_int<T> (static_cast<T> (b)))
          : octave_int<T> (pow (a.double_value (), static_cast<double> (b))));
}

#define INSTANTIATE_INTTYPE(T) \
  template class OCTAVE_API octave_int<T>; \
  template OCTAVE_API octave_int<T> pow (const octave_int<T>&, const octave_int<T>&); \
  template OCTAVE_API octave_int<T> pow (const double&, const octave_int<T>&); \
  template OCTAVE_API octave_int<T> pow (const octave_int<T>&, const double&); \
  template OCTAVE_API octave_int<T> pow (const float&, const octave_int<T>&);  \
  template OCTAVE_API octave_int<T> pow (const octave_int<T>&, const float&);  \
  template OCTAVE_API octave_int<T> powf (const float&, const octave_int<T>&); \
  template OCTAVE_API octave_int<T> powf (const octave_int<T>&, const float&); \
  template OCTAVE_API octave_int<T> \
  bitshift (const octave_int<T>&, int, const octave_int<T>&); \

INSTANTIATE_INTTYPE (int8_t);
INSTANTIATE_INTTYPE (int16_t);
INSTANTIATE_INTTYPE (int32_t);
INSTANTIATE_INTTYPE (int64_t);

INSTANTIATE_INTTYPE (uint8_t);
INSTANTIATE_INTTYPE (uint16_t);
INSTANTIATE_INTTYPE (uint32_t);
INSTANTIATE_INTTYPE (uint64_t);


/*

%!assert (intmax ("int64") / intmin ("int64"), int64 (-1))
%!assert (intmin ("int64") / int64 (-1), intmax ("int64"))
%!assert (int64 (2**63), intmax ("int64"))
%!assert (uint64 (2**64), intmax ("uint64"))
%!test
%! a = 1.9*2^61; b = uint64 (a); b++; assert (b > a);
%!test
%! a = -1.9*2^61; b = int64 (a); b++; assert (b > a);
%!test
%! a = int64 (-2**60) + 2; assert (1.25*a == (5*a)/4);
%!test
%! a = uint64 (2**61) + 2; assert (1.25*a == (5*a)/4);
%!assert (int32 (2**31+0.5), intmax ("int32"))
%!assert (int32 (-2**31-0.5), intmin ("int32"))
%!assert ((int64 (2**62)+1)**1, int64 (2**62)+1)
%!assert ((int64 (2**30)+1)**2, int64 (2**60+2**31) + 1)

*/