head 1.9; access; symbols pkgsrc-2023Q4:1.9.0.18 pkgsrc-2023Q4-base:1.9 pkgsrc-2023Q3:1.9.0.16 pkgsrc-2023Q3-base:1.9 pkgsrc-2023Q2:1.9.0.14 pkgsrc-2023Q2-base:1.9 pkgsrc-2023Q1:1.9.0.12 pkgsrc-2023Q1-base:1.9 pkgsrc-2022Q4:1.9.0.10 pkgsrc-2022Q4-base:1.9 pkgsrc-2022Q3:1.9.0.8 pkgsrc-2022Q3-base:1.9 pkgsrc-2022Q2:1.9.0.6 pkgsrc-2022Q2-base:1.9 pkgsrc-2022Q1:1.9.0.4 pkgsrc-2022Q1-base:1.9 pkgsrc-2021Q4:1.9.0.2 pkgsrc-2021Q4-base:1.9 pkgsrc-2021Q3:1.7.0.40 pkgsrc-2021Q3-base:1.7 pkgsrc-2021Q2:1.7.0.38 pkgsrc-2021Q2-base:1.7 pkgsrc-2021Q1:1.7.0.36 pkgsrc-2021Q1-base:1.7 pkgsrc-2020Q4:1.7.0.34 pkgsrc-2020Q4-base:1.7 pkgsrc-2020Q3:1.7.0.32 pkgsrc-2020Q3-base:1.7 pkgsrc-2020Q2:1.7.0.28 pkgsrc-2020Q2-base:1.7 pkgsrc-2020Q1:1.7.0.8 pkgsrc-2020Q1-base:1.7 pkgsrc-2019Q4:1.7.0.30 pkgsrc-2019Q4-base:1.7 pkgsrc-2019Q3:1.7.0.26 pkgsrc-2019Q3-base:1.7 pkgsrc-2019Q2:1.7.0.24 pkgsrc-2019Q2-base:1.7 pkgsrc-2019Q1:1.7.0.22 pkgsrc-2019Q1-base:1.7 pkgsrc-2018Q4:1.7.0.20 pkgsrc-2018Q4-base:1.7 pkgsrc-2018Q3:1.7.0.18 pkgsrc-2018Q3-base:1.7 pkgsrc-2018Q2:1.7.0.16 pkgsrc-2018Q2-base:1.7 pkgsrc-2018Q1:1.7.0.14 pkgsrc-2018Q1-base:1.7 pkgsrc-2017Q4:1.7.0.12 pkgsrc-2017Q4-base:1.7 pkgsrc-2017Q3:1.7.0.10 pkgsrc-2017Q3-base:1.7 pkgsrc-2017Q2:1.7.0.6 pkgsrc-2017Q2-base:1.7 pkgsrc-2017Q1:1.7.0.4 pkgsrc-2017Q1-base:1.7 pkgsrc-2016Q4:1.7.0.2 pkgsrc-2016Q4-base:1.7 pkgsrc-2016Q3:1.6.0.8 pkgsrc-2016Q3-base:1.6 pkgsrc-2016Q2:1.6.0.6 pkgsrc-2016Q2-base:1.6 pkgsrc-2016Q1:1.6.0.4 pkgsrc-2016Q1-base:1.6 pkgsrc-2015Q4:1.6.0.2 pkgsrc-2015Q4-base:1.6 pkgsrc-2015Q3:1.5.0.42 pkgsrc-2015Q3-base:1.5 pkgsrc-2015Q2:1.5.0.40 pkgsrc-2015Q2-base:1.5 pkgsrc-2015Q1:1.5.0.38 pkgsrc-2015Q1-base:1.5 pkgsrc-2014Q4:1.5.0.36 pkgsrc-2014Q4-base:1.5 pkgsrc-2014Q3:1.5.0.34 pkgsrc-2014Q3-base:1.5 pkgsrc-2014Q2:1.5.0.32 pkgsrc-2014Q2-base:1.5 pkgsrc-2014Q1:1.5.0.30 pkgsrc-2014Q1-base:1.5 pkgsrc-2013Q4:1.5.0.28 pkgsrc-2013Q4-base:1.5 pkgsrc-2013Q3:1.5.0.26 pkgsrc-2013Q3-base:1.5 pkgsrc-2013Q2:1.5.0.24 pkgsrc-2013Q2-base:1.5 pkgsrc-2013Q1:1.5.0.22 pkgsrc-2013Q1-base:1.5 pkgsrc-2012Q4:1.5.0.20 pkgsrc-2012Q4-base:1.5 pkgsrc-2012Q3:1.5.0.18 pkgsrc-2012Q3-base:1.5 pkgsrc-2012Q2:1.5.0.16 pkgsrc-2012Q2-base:1.5 pkgsrc-2012Q1:1.5.0.14 pkgsrc-2012Q1-base:1.5 pkgsrc-2011Q4:1.5.0.12 pkgsrc-2011Q4-base:1.5 pkgsrc-2011Q3:1.5.0.10 pkgsrc-2011Q3-base:1.5 pkgsrc-2011Q2:1.5.0.8 pkgsrc-2011Q2-base:1.5 pkgsrc-2011Q1:1.5.0.6 pkgsrc-2011Q1-base:1.5 pkgsrc-2010Q4:1.5.0.4 pkgsrc-2010Q4-base:1.5 pkgsrc-2010Q3:1.5.0.2 pkgsrc-2010Q3-base:1.5 pkgsrc-2010Q2:1.4.0.46 pkgsrc-2010Q2-base:1.4 pkgsrc-2010Q1:1.4.0.44 pkgsrc-2010Q1-base:1.4 pkgsrc-2009Q4:1.4.0.42 pkgsrc-2009Q4-base:1.4 pkgsrc-2009Q3:1.4.0.40 pkgsrc-2009Q3-base:1.4 pkgsrc-2009Q2:1.4.0.38 pkgsrc-2009Q2-base:1.4 pkgsrc-2009Q1:1.4.0.36 pkgsrc-2009Q1-base:1.4 pkgsrc-2008Q4:1.4.0.34 pkgsrc-2008Q4-base:1.4 pkgsrc-2008Q3:1.4.0.32 pkgsrc-2008Q3-base:1.4 cube-native-xorg:1.4.0.30 cube-native-xorg-base:1.4 pkgsrc-2008Q2:1.4.0.28 pkgsrc-2008Q2-base:1.4 cwrapper:1.4.0.26 pkgsrc-2008Q1:1.4.0.24 pkgsrc-2008Q1-base:1.4 pkgsrc-2007Q4:1.4.0.22 pkgsrc-2007Q4-base:1.4 pkgsrc-2007Q3:1.4.0.20 pkgsrc-2007Q3-base:1.4 pkgsrc-2007Q2:1.4.0.18 pkgsrc-2007Q2-base:1.4 pkgsrc-2007Q1:1.4.0.16 pkgsrc-2007Q1-base:1.4 pkgsrc-2006Q4:1.4.0.14 pkgsrc-2006Q4-base:1.4 pkgsrc-2006Q3:1.4.0.12 pkgsrc-2006Q3-base:1.4 pkgsrc-2006Q2:1.4.0.10 pkgsrc-2006Q2-base:1.4 pkgsrc-2006Q1:1.4.0.8 pkgsrc-2006Q1-base:1.4 pkgsrc-2005Q4:1.4.0.6 pkgsrc-2005Q4-base:1.4 pkgsrc-2005Q3:1.4.0.4 pkgsrc-2005Q3-base:1.4 pkgsrc-2005Q2:1.4.0.2 pkgsrc-2005Q2-base:1.4 pkgsrc-2005Q1:1.2.0.2 pkgsrc-2005Q1-base:1.2 pkgsrc-2004Q4:1.1.1.1.0.12 pkgsrc-2004Q4-base:1.1.1.1 pkgsrc-2004Q3:1.1.1.1.0.10 pkgsrc-2004Q3-base:1.1.1.1 pkgsrc-2004Q2:1.1.1.1.0.8 pkgsrc-2004Q2-base:1.1.1.1 pkgsrc-2004Q1:1.1.1.1.0.6 pkgsrc-2004Q1-base:1.1.1.1 pkgsrc-2003Q4:1.1.1.1.0.4 pkgsrc-2003Q4-base:1.1.1.1 netbsd-1-6-1:1.1.1.1.0.2 netbsd-1-6-1-base:1.1.1.1 pkgsrc:1.1.1.1 TNF:1.1.1; locks; strict; comment @# @; 1.9 date 2021.10.26.10.55.49; author nia; state Exp; branches; next 1.8; commitid vzl6zVlmjiF3hjeD; 1.8 date 2021.10.07.14.28.11; author nia; state Exp; branches; next 1.7; commitid wLkpKfebF6VS3TbD; 1.7 date 2016.12.17.23.31.35; author joerg; state Exp; branches; next 1.6; commitid D0NdY0P00uJZtoyz; 1.6 date 2015.11.03.23.33.37; author agc; state Exp; branches; next 1.5; commitid vBzTXDWz0lsAFHHy; 1.5 date 2010.08.11.20.06.25; author asau; state Exp; branches; next 1.4; 1.4 date 2005.04.16.02.12.48; author wiz; state Exp; branches; next 1.3; 1.3 date 2005.04.15.19.28.02; author jschauma; state Exp; branches; next 1.2; 1.2 date 2005.02.23.12.06.56; author agc; state Exp; branches; next 1.1; 1.1 date 2002.10.16.15.40.33; author jschauma; state Exp; branches 1.1.1.1; next ; 1.1.1.1 date 2002.10.16.15.40.33; author jschauma; state Exp; branches; next ; desc @@ 1.9 log @math: Replace RMD160 checksums with BLAKE2s checksums All checksums have been double-checked against existing RMD160 and SHA512 hashes @ text @$NetBSD: distinfo,v 1.8 2021/10/07 14:28:11 nia Exp $ BLAKE2s (newmat11.tar.gz) = f411b24d294086d485d31aa730e7ab9e0091f126b4d729182867472da5176889 SHA512 (newmat11.tar.gz) = a1f4be3fda2f74bab88ba6b27942fb6c099a3dc802e5209942602fdffec6ac83e2a75296f548b21df2ef968b7f7a51b5fa65370e079a42bccb12e66cbf453671 Size (newmat11.tar.gz) = 247137 bytes SHA1 (patch-aa) = 6b8a51ad193d68defef00aa817ca2d9e9b3505cd SHA1 (patch-newmat6.cpp) = 681be945837539bd59f583ebc6a194bd659f22a1 @ 1.8 log @math: Remove SHA1 hashes for distfiles @ text @d1 1 a1 1 $NetBSD: distinfo,v 1.7 2016/12/17 23:31:35 joerg Exp $ d3 1 a3 1 RMD160 (newmat11.tar.gz) = f391ba5e97edfbf1394e8626a47416cff6cf5902 @ 1.7 log @Don't check pointer sign. @ text @d1 1 a1 1 $NetBSD: distinfo,v 1.6 2015/11/03 23:33:37 agc Exp $ a2 1 SHA1 (newmat11.tar.gz) = 6416aee99873eeda7700a6d1061bda96928068e1 @ 1.6 log @Add SHA512 digests for distfiles for math category Problems found locating distfiles: Package dfftpack: missing distfile dfftpack-20001209.tar.gz Package eispack: missing distfile eispack-20001130.tar.gz Package fftpack: missing distfile fftpack-20001130.tar.gz Package linpack: missing distfile linpack-20010510.tar.gz Package minpack: missing distfile minpack-20001130.tar.gz Package odepack: missing distfile odepack-20001130.tar.gz Package py-networkx: missing distfile networkx-1.10.tar.gz Package py-sympy: missing distfile sympy-0.7.6.1.tar.gz Package quadpack: missing distfile quadpack-20001130.tar.gz Otherwise, existing SHA1 digests verified and found to be the same on the machine holding the existing distfiles (morden). All existing SHA1 digests retained for now as an audit trail. @ text @d1 1 a1 1 $NetBSD: distinfo,v 1.5 2010/08/11 20:06:25 asau Exp $ d8 1 @ 1.5 log @Update to Newmat11 Contributed by Kamel Derouiche via PR pkg/43741 Changes in this version: It works with Borland Builder version 6, 8; Microsoft Visual C++ 6,7,8; Open Watcom 1.7a; Gnu version 3, 4 and Intel for Windows & Linux compilers 9, 10. Options and work-arounds for older compilers are being removed. You can enter values from an integer array with statements like Matrix A(3,2); int a[] = { 11,12,21,22,31,33 }; A << a; There is a new matrix type SquareMatrix. You can use this where you know a matrix is square. The only place where the information that a matrix is used is in the Kronecker product KP(A,B). If A is band and B is any square matrix type (i.e. type SquareMatrix or band, triangular, symmetric or diagonal) the result is band. If B is type Matrix then the result is of type Matrix. Apart from this it may be worth using the SquareMatrix type to improve readability of a program and to make sure that a matrix that is intended to be square really is square. There is a new routine for carrying out cross products of ColumnVectors or RowVectors of length 3 and new routines for updating a triangular matrix derived from a Cholesky decomposition. Interfacing with old C functions involving one and two dimensional arrays is simplified. Additional QR functions, extend_orthogonal function. Lower-case versions of functions. You can use the manipulators scientific and fixed in the matrix output expressions. @ text @d1 1 a1 1 $NetBSD$ d5 1 @ 1.4 log @Distfiles with the same name but different contents need a DIST_SUBDIR -- make it so for the newmat10B case. @ text @d1 1 a1 1 $NetBSD: distinfo,v 1.3 2005/04/15 19:28:02 jschauma Exp $ d3 3 a5 3 SHA1 (newmat10B/newmat10.tar.gz) = a80babb555b9d105026ac74a73c77a72df04ff46 RMD160 (newmat10B/newmat10.tar.gz) = fdcab03b5be8b7d771d9d375184f9430cffec611 Size (newmat10B/newmat10.tar.gz) = 204619 bytes @ 1.3 log @distfile changed on master site; now known as newmat10B (but no such distfile) Changes since newmat10A are mostly cosmetic with minor bugfixes. @ text @d1 1 a1 1 $NetBSD$ d3 3 a5 3 SHA1 (newmat10.tar.gz) = a80babb555b9d105026ac74a73c77a72df04ff46 RMD160 (newmat10.tar.gz) = fdcab03b5be8b7d771d9d375184f9430cffec611 Size (newmat10.tar.gz) = 204619 bytes @ 1.2 log @Add RMD160 digests in addition to SHA1 ones. @ text @d1 1 a1 1 $NetBSD: distinfo,v 1.1.1.1 2002/10/16 15:40:33 jschauma Exp $ d3 3 a5 3 SHA1 (newmat10.tar.gz) = 3ce22ec05ec8fcd89209c7be326cd047631bbca2 RMD160 (newmat10.tar.gz) = 6cdf24cd49205b4bb044a83e62bd4590dd19a2a9 Size (newmat10.tar.gz) = 204081 bytes @ 1.1 log @Initial revision @ text @d1 1 a1 1 $NetBSD$ d4 1 @ 1.1.1.1 log @Initial import of math/newmat into pkgsrc: This C++ library is intended for scientists and engineers who need to manipulate a variety of types of matrices using standard matrix operations. Emphasis is on the kind of operations needed in statistical calculations such as least squares, linear equation solve and eigenvalues. It supports matrix types: Matrix (rectangular matrix); UpperTriangularMatrix; LowerTriangularMatrix; DiagonalMatrix; SymmetricMatrix; BandMatrix; UpperBandMatrix; LowerBandMatrix; SymmetricBandMatrix; IdentityMatrix; RowVector; ColumnVector. The library includes the operations *, +, -, *=, +=, -=, Kronecker product, Schur product, concatenation, inverse, transpose, conversion between types, submatrix, determinant, Cholesky decomposition, QR triangularisation, singular value decomposition, eigenvalues of a symmetric matrix, sorting, fast Fourier and trig. transforms, printing and an interface with Numerical Recipes in C. It is intended for matrices in the range 10 x 10 to the maximum size your machine will accommodate in a single array. The package works for very small matrices but becomes rather inefficient. A lazy evaluation approach to evaluating matrix expressions is used to improve efficiency and reduce use of temporary storage. @ text @@