X-Git-Url: https://www.ginac.de/ginac.git//ginac.git?p=ginac.git;a=blobdiff_plain;f=ginsh%2Fginsh.1.in;h=1f64af319c4d18bc4b116f1a0e5cc2a1950b29a0;hp=c3b9305e39becd44ad0db3eb75aa18f8eb462572;hb=9507ddbf35326a15e98428f81b095d300b1a84cc;hpb=40a73cb0e13565894c6cc418719dd1ccd45327f2 diff --git a/ginsh/ginsh.1.in b/ginsh/ginsh.1.in index c3b9305e..1f64af31 100644 --- a/ginsh/ginsh.1.in +++ b/ginsh/ginsh.1.in @@ -82,6 +82,14 @@ when they are used. To refer to the unevaluated symbol, put single quotes .RB ( ' ) around the name, as demonstrated for the "unassign" command above. .PP +Symbols are considered to be in the complex domain by default, i.e. they are +treated as if they stand in for complex numbers. This behavior can be changed +by using the keywords +.BI real_symbols +and +.BI complex_symbols +and affects all newly created symbols. +.PP The following symbols are pre-defined constants that cannot be assigned a value by the user: .RS @@ -144,9 +152,6 @@ unary minus .B * multiplication .TP -.B % -non-commutative multiplication -.TP .B / division .TP @@ -243,6 +248,12 @@ detail here. Please refer to the GiNaC documentation. .BI collect_distributed( expression ", " list ) \- collects coefficients of like powers (result in distributed form) .br +.BI collect_common_factors( expression ) +\- collects common factors from the terms of sums +.br +.BI conjugate( expression ) +\- complex conjugation +.br .BI content( expression ", " symbol ) \- content part of a polynomial .br @@ -282,12 +293,18 @@ detail here. Please refer to the GiNaC documentation. .BI find( expression ", " pattern ) \- returns a list of all occurrences of a pattern in an expression .br +.BI fsolve( expression ", " symbol ", " number ", " number ) +\- numerically find root of a real-valued function within an interval +.br .BI gcd( expression ", " expression ) \- greatest common divisor .br .BI has( expression ", " pattern ) \- returns "1" if the first expression contains the pattern as a subexpression, "0" otherwise .br +.BI integer_content( expression ) +\- integer content of a polynomial +.br .BI inverse( matrix ) \- inverse of a matrix .br @@ -339,12 +356,21 @@ detail here. Please refer to the GiNaC documentation. .BI quo( expression ", " expression ", " symbol ) \- quotient of polynomials .br +.BI rank( matrix ) +\- rank of a matrix +.br .BI rem( expression ", " expression ", " symbol ) \- remainder of polynomials .br +.BI resultant( expression ", " expression ", " symbol ) +\- resultant of two polynomials with respect to symbol s +.br .BI series( expression ", " relation-or-symbol ", " order ) \- series expansion .br +.BI sprem( expression ", " expression ", " symbol ) +\- sparse pseudo-remainder of polynomials +.br .BI sqrfree( "expression [" ", " symbol-list] ) \- square-free factorization of a polynomial .br @@ -407,6 +433,21 @@ This is useful for debugging and for learning about GiNaC internals. .PP The command .RS +.BI print_latex( expression ); +.RE +prints a LaTeX representation of the given +.IR expression . +.PP +The command +.RS +.BI print_csrc( expression ); +.RE +prints the given +.I expression +in a way that can be used in a C or C++ program. +.PP +The command +.RS .BI iprint( expression ); .RE prints the given @@ -486,13 +527,15 @@ Christian Bauer Alexander Frink .br Richard Kreckel +.br +Jens Vollinga .SH SEE ALSO GiNaC Tutorial \- An open framework for symbolic computation within the C++ programming language .PP CLN \- A Class Library for Numbers, Bruno Haible .SH COPYRIGHT -Copyright \(co 1999-2001 Johannes Gutenberg Universit\(:at Mainz, Germany +Copyright \(co 1999-2006 Johannes Gutenberg Universit\(:at Mainz, Germany This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by