This is mpc.info, produced by makeinfo version 4.13 from mpc.texi.

This manual is for GNU MPC, a library for multiple precision complex
arithmetic, version 1.0.1 of September 2012.

   Copyright (C) 2002, 2003, 2004, 2005, 2006, 2007, 2008, 2009, 2010,
2011, 2012 INRIA

     Permission is granted to copy, distribute and/or modify this
     document under the terms of the GNU Free Documentation License,
     Version 1.3 or any later version published by the Free Software
     Foundation; with no Invariant Sections. A copy of the license is
     included in the section entitled "GNU Free Documentation License."

INFO-DIR-SECTION GNU Packages
START-INFO-DIR-ENTRY
* mpc: (mpc)Multiple Precision Complex Library.
END-INFO-DIR-ENTRY


File: mpc.info,  Node: Top,  Next: Copying,  Up: (dir)

GNU MPC
*******

This manual documents how to install and use the GNU Multiple Precision
Complex Library, version 1.0.1

* Menu:

* Copying::                     GNU MPC Copying Conditions (LGPL).
* Introduction to GNU MPC::         Brief introduction to GNU MPC.
* Installing GNU MPC::              How to configure and compile the GNU MPC library.
* Reporting Bugs::              How to usefully report bugs.
* GNU MPC Basics::                  What every GNU MPC user should know.
* Complex Functions::           Functions for arithmetic on complex numbers.
* References::
* Concept Index::
* Function Index::
* GNU Free Documentation License::


File: mpc.info,  Node: Copying,  Next: Introduction to GNU MPC,  Prev: Top,  Up: Top

GNU MPC Copying Conditions
**************************

GNU MPC is free software; you can redistribute it and/or modify it under
the terms of the GNU Lesser General Public License as published by the
Free Software Foundation; either version 3 of the License, or (at your
option) any later version.

   GNU MPC 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 Lesser
General Public License for more details.

   You should have received a copy of the GNU Lesser General Public
License along with this program. If not, see
`http://www.gnu.org/licenses/'.


File: mpc.info,  Node: Introduction to GNU MPC,  Next: Installing GNU MPC,  Prev: Copying,  Up: Top

1 Introduction to GNU MPC
*************************

GNU MPC is a portable library written in C for arbitrary precision
arithmetic on complex numbers providing correct rounding. It implements
a multiprecision equivalent of the C99 standard.  It builds upon the
GNU MP and the GNU MPFR libraries.

1.1 How to use this Manual
==========================

Everyone should read *note GNU MPC Basics::.  If you need to install
the library yourself, you need to read *note Installing GNU MPC::, too.

   The remainder of the manual can be used for later reference,
although it is probably a good idea to skim through it.


File: mpc.info,  Node: Installing GNU MPC,  Next: Reporting Bugs,  Prev: Introduction to GNU MPC,  Up: Top

2 Installing GNU MPC
********************

To build GNU MPC, you first have to install GNU MP (version 4.3.2 or
higher) and GNU MPFR (version 2.4.2 or higher) on your computer.  You
need a C compiler; GCC version 4.4 or higher is recommended, since GNU
MPC may trigger a bug in previous versions, see the thread at
`http://lists.gforge.inria.fr/pipermail/mpc-discuss/2011-February/000823.html'.
And you need a standard Unix `make' program, plus some other standard
Unix utility programs.

   Here are the steps needed to install the library on Unix systems:

  1. `tar xzf mpc-1.0.1.tar.gz'

  2. `cd mpc-1.0.1'

  3. `./configure'

     if GMP and GNU MPFR are installed into standard directories, that
     is, directories that are searched by default by the compiler and
     the linking tools.

     `./configure --with-gmp=<gmp_install_dir>'

     is used to indicate a different location where GMP is installed.
     Alternatively, you can specify directly GMP include and GMP lib
     directories with `./configure --with-gmp-lib=<gmp_lib_dir>
     --with-gmp-include=<gmp_include_dir>'.

     `./configure --with-mpfr=<mpfr_install_dir>'

     is used to indicate a different location where GNU MPFR is
     installed. Alternatively, you can specify directly GNU MPFR
     include and GNU MPFR lib directories with `./configure
     --with-mpf-lib=<mpfr_lib_dir>
     --with-mpfr-include=<mpfr_include_dir>'.

     Another useful parameter is `--prefix', which can be used to
     specify an alternative installation location instead of
     `/usr/local'; see `make install' below.

     To enable checking for memory leaks using `valgrind' during `make
     check', add the parameter `--enable-valgrind-tests'.

     If for debugging purposes you wish to log calls to GNU MPC
     functions from within your code, add the parameter
     `--enable-logging'.  In your code, replace the inclusion of
     `mpc.h' by `mpc-log.h' and link the executable dynamically.  Then
     all calls to functions with only complex arguments are printed to
     `stderr' in the following form: First, the function name is given,
     followed by its type such as `c_cc', meaning that the function has
     one complex result (one `c' in front of the `_'), computed from
     two complex arguments (two `c' after the `_'). Then, the
     precisions of the real and the imaginary part of the first result
     is given, followed by the second one and so on. Finally, for each
     argument, the precisions of its real and imaginary part are
     specified and the argument itself is printed in hexadecimal via
     the function `mpc_out_str' (*note String and Stream Input and
     Output::).  The option requires a dynamic library, so it may not
     be combined with `--disable-shared'.

     Use `./configure --help' for an exhaustive list of parameters.

  4. `make'

     This compiles GNU MPC in the working directory.

  5. `make check'

     This will make sure GNU MPC was built correctly.

     If you get error messages, please report them to
     `mpc-discuss@lists.gforge.inria.fr' (*Note Reporting Bugs::, for
     information on what to include in useful bug reports).

  6. `make install'

     This will copy the file `mpc.h' to the directory
     `/usr/local/include', the file `libmpc.a' to the directory
     `/usr/local/lib', and the file `mpc.info' to the directory
     `/usr/local/share/info' (or if you passed the `--prefix' option to
     `configure', using the prefix directory given as argument to
     `--prefix' instead of `/usr/local'). Note: you need write
     permissions on these directories.


2.1 Other `make' Targets
========================

There are some other useful make targets:

   * `info'

     Create an info version of the manual, in `mpc.info'.

   * `pdf'

     Create a PDF version of the manual, in `doc/mpc.pdf'.

   * `dvi'

     Create a DVI version of the manual, in `doc/mpc.dvi'.

   * `ps'

     Create a Postscript version of the manual, in `doc/mpc.ps'.

   * `html'

     Create an HTML version of the manual, in several pages in the
     directory `doc/mpc.html'; if you want only one output HTML file,
     then type `makeinfo --html --no-split mpc.texi' instead.

   * `clean'

     Delete all object files and archive files, but not the
     configuration files.

   * `distclean'

     Delete all files not included in the distribution.

   * `uninstall'

     Delete all files copied by `make install'.

2.2 Known Build Problems
========================

On AIX, if GMP was built with the 64-bit ABI, before building and
testing GNU MPC, it might be necessary to set the `OBJECT_MODE'
environment variable to 64 by, e.g.,

   `export OBJECT_MODE=64'

   This has been tested with the C compiler IBM XL C/C++ Enterprise
Edition V8.0 for AIX, version: 08.00.0000.0021, GMP 4.2.4 and GNU MPFR
2.4.1.

   Please report any other problems you encounter to
`mpc-discuss@lists.gforge.inria.fr'.  *Note Reporting Bugs::.


File: mpc.info,  Node: Reporting Bugs,  Next: GNU MPC Basics,  Prev: Installing GNU MPC,  Up: Top

3 Reporting Bugs
****************

If you think you have found a bug in the GNU MPC library, please
investigate and report it. We have made this library available to you,
and it is not to ask too much from you, to ask you to report the bugs
that you find.

   There are a few things you should think about when you put your bug
report together.

   You have to send us a test case that makes it possible for us to
reproduce the bug.  Include instructions on how to run the test case.

   You also have to explain what is wrong; if you get a crash, or if
the results printed are incorrect and in that case, in what way.

   Please include compiler version information in your bug report.
This can be extracted using `gcc -v', or `cc -V' on some machines.
Also, include the output from `uname -a'.

   If your bug report is good, we will do our best to help you to get a
corrected version of the library; if the bug report is poor, we will
not do anything about it (aside of chiding you to send better bug
reports).

   Send your bug report to: `mpc-discuss@lists.gforge.inria.fr'.

   If you think something in this manual is unclear, or downright
incorrect, or if the language needs to be improved, please send a note
to the same address.


File: mpc.info,  Node: GNU MPC Basics,  Next: Complex Functions,  Prev: Reporting Bugs,  Up: Top

4 GNU MPC Basics
****************

All declarations needed to use GNU MPC are collected in the include file
`mpc.h'.  It is designed to work with both C and C++ compilers.  You
should include that file in any program using the GNU MPC library by
adding the line
        #include "mpc.h"

4.1 Nomenclature and Types
==========================

"Complex number" or "Complex" for short, is a pair of two arbitrary
precision floating-point numbers (for the real and imaginary parts).
The C data type for such objects is `mpc_t'.

The "Precision" is the number of bits used to represent the mantissa of
the real and imaginary parts; the corresponding C data type is
`mpfr_prec_t'.  For more details on the allowed precision range, *note
Nomenclature and Types: (mpfr.info)Nomenclature and Types.

The "rounding mode" specifies the way to round the result of a complex
operation, in case the exact result can not be represented exactly in
the destination mantissa; the corresponding C data type is `mpc_rnd_t'.
A complex rounding mode is a pair of two rounding modes: one for the
real part, one for the imaginary part.

4.2 Function Classes
====================

There is only one class of functions in the GNU MPC library, namely
functions for complex arithmetic. The function names begin with `mpc_'.
The associated type is `mpc_t'.

4.3 GNU MPC Variable Conventions
================================

As a general rule, all GNU MPC functions expect output arguments before
input arguments.  This notation is based on an analogy with the
assignment operator.

   GNU MPC allows you to use the same variable for both input and
output in the same expression.  For example, the main function for
floating-point multiplication, `mpc_mul', can be used like this:
`mpc_mul (x, x, x, rnd_mode)'.  This computes the square of X with
rounding mode `rnd_mode' and puts the result back in X.

   Before you can assign to an GNU MPC variable, you need to initialize
it by calling one of the special initialization functions.  When you
are done with a variable, you need to clear it out, using one of the
functions for that purpose.

   A variable should only be initialized once, or at least cleared out
between each initialization.  After a variable has been initialized, it
may be assigned to any number of times.

   For efficiency reasons, avoid to initialize and clear out a variable
in loops.  Instead, initialize it before entering the loop, and clear
it out after the loop has exited.

   You do not need to be concerned about allocating additional space
for GNU MPC variables, since each of its real and imaginary part has a
mantissa of fixed size.  Hence unless you change its precision, or
clear and reinitialize it, a complex variable will have the same
allocated space during all its life.

4.4 Rounding Modes
==================

A complex rounding mode is of the form `MPC_RNDxy' where `x' and `y'
are one of `N' (to nearest), `Z' (towards zero), `U' (towards plus
infinity), `D' (towards minus infinity).  The first letter refers to
the rounding mode for the real part, and the second one for the
imaginary part.  For example `MPC_RNDZU' indicates to round the real
part towards zero, and the imaginary part towards plus infinity.

   The `round to nearest' mode works as in the IEEE P754 standard: in
case the number to be rounded lies exactly in the middle of two
representable numbers, it is rounded to the one with the least
significant bit set to zero.  For example, the number 5, which is
represented by (101) in binary, is rounded to (100)=4 with a precision
of two bits, and not to (110)=6.

4.5 Return Value
================

Most GNU MPC functions have a return value of type `int', which is used
to indicate the position of the rounded real and imaginary parts with
respect to the exact (infinite precision) values.  If this integer is
`i', the macros `MPC_INEX_RE(i)' and `MPC_INEX_IM(i)' give 0 if the
corresponding rounded value is exact, a negative value if the rounded
value is less than the exact one, and a positive value if it is greater
than the exact one.  Similarly, functions computing a result of type
`mpfr_t' return an integer that is 0, positive or negative depending on
whether the rounded value is the same, larger or smaller then the exact
result.

   Some functions, such as `mpc_sin_cos', compute two complex results;
the macros `MPC_INEX1(i)' and `MPC_INEX2(i)', applied to the return
value `i' of such a function, yield the exactness value corresponding
to the first or the second computed value, respectively.

4.6 Branch Cuts And Special Values
==================================

Some complex functions have branch cuts, across which the function is
discontinous. In GNU MPC, the branch cuts chosen are the same as those
specified for the corresponding functions in the ISO C99 standard.

   Likewise, when evaluated at a point whose real or imaginary part is
either infinite or a NaN or a signed zero, a function returns the same
value as those specified for the corresponding function in the ISO C99
standard.


File: mpc.info,  Node: Complex Functions,  Next: References,  Prev: GNU MPC Basics,  Up: Top

5 Complex Functions
*******************

The complex functions expect arguments of type `mpc_t'.

   The GNU MPC floating-point functions have an interface that is
similar to the GNU MP integer functions.  The function prefix for
operations on complex numbers is `mpc_'.

   The precision of a computation is defined as follows: Compute the
requested operation exactly (with "infinite precision"), and round the
result to the destination variable precision with the given rounding
mode.

   The GNU MPC complex functions are intended to be a smooth extension
of the IEEE P754 arithmetic. The results obtained on one computer
should not differ from the results obtained on a computer with a
different word size.

* Menu:

* Initializing Complex Numbers::
* Assigning Complex Numbers::
* Converting Complex Numbers::
* String and Stream Input and Output::
* Complex Comparison::
* Projection & Decomposing::
* Basic Arithmetic::
* Power Functions and Logarithm::
* Trigonometric Functions::
* Miscellaneous Complex Functions::
* Advanced Functions::
* Internals::


File: mpc.info,  Node: Initializing Complex Numbers,  Next: Assigning Complex Numbers,  Up: Complex Functions

5.1 Initialization Functions
============================

An `mpc_t' object must be initialized before storing the first value in
it.  The functions `mpc_init2' and `mpc_init3' are used for that
purpose.

 -- Function: void mpc_init2 (mpc_t Z, mpfr_prec_t PREC)
     Initialize Z to precision PREC bits and set its real and imaginary
     parts to NaN.  Normally, a variable should be initialized once only
     or at least be cleared, using `mpc_clear', between initializations.

 -- Function: void mpc_init3 (mpc_t Z, mpfr_prec_t PREC_R, mpfr_prec_t
          PREC_I)
     Initialize Z with the precision of its real part being PREC_R bits
     and the precision of its imaginary part being PREC_I bits, and set
     the real and imaginary parts to NaN.

 -- Function: void mpc_clear (mpc_t Z)
     Free the space occupied by Z.  Make sure to call this function for
     all `mpc_t' variables when you are done with them.

   Here is an example on how to initialize complex variables:
     {
       mpc_t x, y;
       mpc_init2 (x, 256);		/* precision _exactly_ 256 bits */
       mpc_init3 (y, 100, 50);	/* 100/50 bits for the real/imaginary part */
       ...
       mpc_clear (x);
       mpc_clear (y);
     }

   The following function is useful for changing the precision during a
calculation.  A typical use would be for adjusting the precision
gradually in iterative algorithms like Newton-Raphson, making the
computation precision closely match the actual accurate part of the
numbers.

 -- Function: void mpc_set_prec (mpc_t X, mpfr_prec_t PREC)
     Reset the precision of X to be *exactly* PREC bits, and set its
     real/imaginary parts to NaN.  The previous value stored in X is
     lost. It is equivalent to a call to `mpc_clear(x)' followed by a
     call to `mpc_init2(x, prec)', but more efficient as no allocation
     is done in case the current allocated space for the mantissa of X
     is sufficient.

 -- Function: mpfr_prec_t mpc_get_prec (mpc_t X)
     If the real and imaginary part of X have the same precision, it is
     returned, otherwise, 0 is returned.

 -- Function: void mpc_get_prec2 (mpfr_prec_t* PR, mpfr_prec_t* PI,
          mpc_t X)
     Returns the precision of the real part of X via PR and of its
     imaginary part via PI.


File: mpc.info,  Node: Assigning Complex Numbers,  Next: Converting Complex Numbers,  Prev: Initializing Complex Numbers,  Up: Complex Functions

5.2 Assignment Functions
========================

These functions assign new values to already initialized complex numbers
(*note Initializing Complex Numbers::).  When using any functions with
`intmax_t' or `uintmax_t' parameters, you must include `<stdint.h>' or
`<inttypes.h>' _before_ `mpc.h', to allow `mpc.h' to define prototypes
for these functions.  Similarly, functions with parameters of type
`complex' or `long complex' are defined only if `<complex.h>' is
included _before_ `mpc.h'.  If you need assignment functions that are
not in the current API, you can define them using the `MPC_SET_X_Y'
macro (*note Advanced Functions::).

 -- Function: int mpc_set (mpc_t ROP, mpc_t OP, mpc_rnd_t RND)
     Set the value of ROP from OP, rounded to the precision of ROP with
     the given rounding mode RND.

 -- Function: int mpc_set_ui (mpc_t ROP, unsigned long int OP,
          mpc_rnd_t RND)
 -- Function: int mpc_set_si (mpc_t ROP, long int OP, mpc_rnd_t RND)
 -- Function: int mpc_set_uj (mpc_t ROP, uintmax_t OP, mpc_rnd_t RND)
 -- Function: int mpc_set_sj (mpc_t ROP, intmax_t OP, mpc_rnd_t RND)
 -- Function: int mpc_set_d (mpc_t ROP, double OP, mpc_rnd_t RND)
 -- Function: int mpc_set_ld (mpc_t ROP, long double OP, mpc_rnd_t RND)
 -- Function: int mpc_set_dc (mpc_t ROP, double _Complex OP, mpc_rnd_t
          RND)
 -- Function: int mpc_set_ldc (mpc_t ROP, long double _Complex OP,
          mpc_rnd_t RND)
 -- Function: int mpc_set_z (mpc_t ROP, mpz_t OP mpc_rnd_t RND)
 -- Function: int mpc_set_q (mpc_t ROP, mpq_t OP mpc_rnd_t RND)
 -- Function: int mpc_set_f (mpc_t ROP, mpf_t OP mpc_rnd_t RND)
 -- Function: int mpc_set_fr (mpc_t ROP, mpfr_t OP, mpc_rnd_t RND)
     Set the value of ROP from OP, rounded to the precision of ROP with
     the given rounding mode RND.  The argument OP is interpreted as
     real, so the imaginary part of ROP is set to zero with a positive
     sign.  Please note that even a `long int' may have to be rounded,
     if the destination precision is less than the machine word width.
     For `mpc_set_d', be careful that the input number OP may not be
     exactly representable as a double-precision number (this happens
     for 0.1 for instance), in which case it is first rounded by the C
     compiler to a double-precision number, and then only to a complex
     number.

 -- Function: int mpc_set_ui_ui (mpc_t ROP, unsigned long int OP1,
          unsigned long int OP2, mpc_rnd_t RND)
 -- Function: int mpc_set_si_si (mpc_t ROP, long int OP1, long int OP2,
          mpc_rnd_t RND)
 -- Function: int mpc_set_uj_uj (mpc_t ROP, uintmax_t OP1, uintmax_t
          OP2, mpc_rnd_t RND)
 -- Function: int mpc_set_sj_sj (mpc_t ROP, intmax_t OP1, intmax_t OP2,
          mpc_rnd_t RND)
 -- Function: int mpc_set_d_d (mpc_t ROP, double OP1, double OP2,
          mpc_rnd_t RND)
 -- Function: int mpc_set_ld_ld (mpc_t ROP, long double OP1, long
          double OP2, mpc_rnd_t RND)
 -- Function: int mpc_set_z_z (mpc_t ROP, mpz_t OP1, mpz_t OP2,
          mpc_rnd_t RND)
 -- Function: int mpc_set_q_q (mpc_t ROP, mpq_t OP1, mpq_t OP2,
          mpc_rnd_t RND)
 -- Function: int mpc_set_f_f (mpc_t ROP, mpf_t OP1, mpf_t OP2,
          mpc_rnd_t RND)
 -- Function: int mpc_set_fr_fr (mpc_t ROP, mpfr_t OP1, mpfr_t OP2,
          mpc_rnd_t RND)
     Set the real part of ROP from OP1, and its imaginary part from
     OP2, according to the rounding mode RND.

     Beware that the behaviour of `mpc_set_fr_fr' is undefined if OP1
     or OP2 is a pointer to the real or imaginary part of ROP.  To
     exchange the real and the imaginary part of a complex number,
     either use `mpfr_swap (mpc_realref (rop), mpc_imagref (rop))',
     which also exchanges the precisions of the two parts; or use a
     temporary variable.

   For functions assigning complex variables from strings or input
streams, *note String and Stream Input and Output::.

 -- Function: void mpc_set_nan (mpc_t ROP)
     Set ROP to Nan+i*NaN.

 -- Function: void mpc_swap (mpc_t OP1, mpc_t OP2)
     Swap the values of OP1 and OP2 efficiently. Warning: The
     precisions are exchanged, too; in case these are different,
     `mpc_swap' is thus not equivalent to three `mpc_set' calls using a
     third auxiliary variable.


File: mpc.info,  Node: Converting Complex Numbers,  Next: String and Stream Input and Output,  Prev: Assigning Complex Numbers,  Up: Complex Functions

5.3 Conversion Functions
========================

The following functions are available only if `<complex.h>' is included
_before_ `mpc.h'.

 -- Function: double _Complex mpc_get_dc (mpc_t OP, mpc_rnd_t RND)
 -- Function: long double _Complex mpc_get_ldc (mpc_t OP, mpc_rnd_t RND)
     Convert OP to a C complex number, using the rounding mode RND.

   For functions converting complex variables to strings or stream
output, *note String and Stream Input and Output::.


File: mpc.info,  Node: String and Stream Input and Output,  Next: Complex Comparison,  Prev: Converting Complex Numbers,  Up: Complex Functions

5.4 String and Stream Input and Output
======================================

 -- Function: int mpc_strtoc (mpc_t ROP, const char *NPTR, char
          **ENDPTR, int BASE, mpc_rnd_t RND)
     Read a complex number from a string NPTR in base BASE, rounded to
     the precision of ROP with the given rounding mode RND.  The BASE
     must be either 0 or a number from 2 to 36 (otherwise the behaviour
     is undefined).  If NPTR starts with valid data, the result is
     stored in ROP, the usual inexact value is returned (*note Return
     Value: return-value.) and, if ENDPTR is not the null pointer,
     *ENDPTR points to the character just after the valid data.
     Otherwise, ROP is set to `NaN + i * NaN', -1 is returned and, if
     ENDPTR is not the null pointer, the value of NPTR is stored in the
     location referenced by ENDPTR.

     The expected form of a complex number string is either a real
     number (an optional leading whitespace, an optional sign followed
     by a floating-point number), or a pair of real numbers in
     parentheses separated by whitespace. If a real number is read, the
     missing imaginary part is set to +0.  The form of a floating-point
     number depends on the base and is described in the documentation
     of `mpfr_strtofr' (*note Assignment Functions:
     (mpfr.info)Assignment Functions.).  For instance, `"3.1415926"',
     `"(1.25e+7 +.17)"', `"(@nan@ 2)"' and `"(-0 -7)"' are valid
     strings for BASE = 10.  If BASE = 0, then a prefix may be used to
     indicate the base in which the floating-point number is written.
     Use prefix '0b' for binary numbers, prefix '0x' for hexadecimal
     numbers, and no prefix for decimal numbers.  The real and
     imaginary part may then be written in different bases.  For
     instance, `"(1.024e+3 +2.05e+3)"' and `"(0b1p+10 +0x802)"' are
     valid strings for `base'=0 and represent the same value.

 -- Function: int mpc_set_str (mpc_t ROP, const char *S, int BASE,
          mpc_rnd_t rnd)
     Set ROP to the value of the string S in base BASE, rounded to the
     precision of ROP with the given rounding mode RND.  See the
     documentation of `mpc_strtoc' for a detailed description of the
     valid string formats.  Contrarily to `mpc_strtoc', `mpc_set_str'
     requires the _whole_ string to represent a valid complex number
     (potentially followed by additional white space).  This function
     returns the usual inexact value (*note Return Value:
     return-value.) if the entire string up to the final null character
     is a valid number in base BASE; otherwise it returns -1, and ROP
     is set to NaN+i*NaN.

 -- Function: char * mpc_get_str (int B, size_t N, mpc_t OP, mpc_rnd_t
          RND)
     Convert OP to a string containing its real and imaginary parts,
     separated by a space and enclosed in a pair of parentheses.  The
     numbers are written in base B (which may vary from 2 to 36) and
     rounded according to RND. The number of significant digits, at
     least 2, is given by N. It is also possible to let N be zero, in
     which case the number of digits is chosen large enough so that
     re-reading the printed value with the same precision, assuming
     both output and input use rounding to nearest, will recover the
     original value of OP.  Note that `mpc_get_str' uses the decimal
     point of the current locale if available, and `.' otherwise.

     The string is generated using the current memory allocation
     function (`malloc' by default, unless it has been modified using
     the custom memory allocation interface of `gmp'); once it is not
     needed any more, it should be freed by calling `mpc_free_str'.

 -- Function: void mpc_free_str (char *STR)
     Free the string STR, which needs to have been allocated by a call
     to `mpc_get_str'.

   The following two functions read numbers from input streams and write
them to output streams.  When using any of these functions, you need to
include `stdio.h' _before_ `mpc.h'.

 -- Function: int mpc_inp_str (mpc_t ROP, FILE *STREAM, size_t *READ,
          int BASE, mpc_rnd_t RND)
     Input a string in base BASE in the same format as for `mpc_strtoc'
     from stdio stream STREAM, rounded according to RND, and put the
     read complex number into ROP.  If STREAM is the null pointer, ROP
     is read from `stdin'.  Return the usual inexact value; if an error
     occurs, set ROP to `NaN + i * NaN' and return -1.  If READ is not
     the null pointer, it is set to the number of read characters.

     Unlike `mpc_strtoc', the function `mpc_inp_str' does not possess
     perfect knowledge of the string to transform and has to read it
     character by character, so it behaves slightly differently: It
     tries to read a string describing a complex number and processes
     this string through a call to `mpc_set_str'. Precisely, after
     skipping optional whitespace, a minimal string is read according
     to the regular expression `mpfr | '(' \s* mpfr \s+ mpfr \s* ')'',
     where `\s' denotes a whitespace, and `mpfr' is either a string
     containing neither whitespaces nor parentheses, or
     `nan(n-char-sequence)' or `@nan@(n-char-sequence)' (regardless of
     capitalisation) with `n-char-sequence' a string of ascii letters,
     digits or `'_''.

     For instance, upon input of `"nan(13 1)"', the function
     `mpc_inp_str' starts to recognise a value of NaN followed by an
     n-char-sequence indicated by the opening parenthesis; as soon as
     the space is reached, it becocmes clear that the expression in
     parentheses is not an n-char-sequence, and the error flag -1 is
     returned after 6 characters have been consumed from the stream
     (the whitespace itself remaining in the stream).  The function
     `mpc_strtoc', on the other hand, may track back when reaching the
     whitespace; it treats the string as the two successive complex
     numbers `NaN + i * 0' and `13 + i'.  It is thus recommended to
     have a whitespace follow each floating point number to avoid this
     problem.

 -- Function: size_t mpc_out_str (FILE *STREAM, int BASE, size_t
          N_DIGITS, mpc_t OP, mpc_rnd_t RND)
     Output OP on stdio stream STREAM in base BASE, rounded according
     to RND, in the same format as for `mpc_strtoc' If STREAM is the
     null pointer, ROP is written to `stdout'.

     Return the number of characters written.


File: mpc.info,  Node: Complex Comparison,  Next: Projection & Decomposing,  Prev: String and Stream Input and Output,  Up: Complex Functions

5.5 Comparison Functions
========================

 -- Function: int mpc_cmp (mpc_t OP1, mpc_t OP2)
 -- Function: int mpc_cmp_si_si (mpc_t OP1, long int OP2R, long int
          OP2I)
 -- Macro: int mpc_cmp_si (mpc_t OP1, long int OP2)
     Compare OP1 and OP2, where in the case of `mpc_cmp_si_si', OP2 is
     taken to be OP2R + i OP2I.  The return value C can be decomposed
     into `x = MPC_INEX_RE(c)' and `y = MPC_INEX_IM(c)', such that X is
     positive if the real part of OP1 is greater than that of OP2, zero
     if both real parts are equal, and negative if the real part of OP1
     is less than that of OP2, and likewise for Y.  Both OP1 and OP2
     are considered to their full own precision, which may differ.  It
     is not allowed that one of the operands has a NaN (Not-a-Number)
     part.

     The storage of the return value is such that equality can be
     simply checked with `mpc_cmp (op1, op2) == 0'.


File: mpc.info,  Node: Projection & Decomposing,  Next: Basic Arithmetic,  Prev: Complex Comparison,  Up: Complex Functions

5.6 Projection and Decomposing Functions
========================================

 -- Function: int mpc_real (mpfr_t ROP, mpc_t OP, mpfr_rnd_t RND)
     Set ROP to the value of the real part of OP rounded in the
     direction RND.

 -- Function: int mpc_imag (mpfr_t ROP, mpc_t OP, mpfr_rnd_t RND)
     Set ROP to the value of the imaginary part of OP rounded in the
     direction RND.

 -- Macro: mpfr_t mpc_realref (mpc_t OP)
 -- Macro: mpfr_t mpc_imagref (mpc_t OP)
     Return a reference to the real part and imaginary part of OP,
     respectively. The `mpfr' functions can be used on the result of
     these macros (note that the `mpfr_t' type is itself a pointer).

 -- Function: int mpc_arg (mpfr_t ROP, mpc_t OP, mpfr_rnd_t RND)
     Set ROP to the argument of OP, with a branch cut along the
     negative real axis.

 -- Function: int mpc_proj (mpc_t ROP, mpc_t OP, mpc_rnd_t RND)
     Compute a projection of OP onto the Riemann sphere. Set ROP to OP
     rounded in the direction RND, except when at least one part of OP
     is infinite (even if the other part is a NaN) in which case the
     real part of ROP is set to plus infinity and its imaginary part to
     a signed zero with the same sign as the imaginary part of OP.


File: mpc.info,  Node: Basic Arithmetic,  Next: Power Functions and Logarithm,  Prev: Projection & Decomposing,  Up: Complex Functions

5.7 Basic Arithmetic Functions
==============================

All the following functions are designed in such a way that, when
working with real numbers instead of complex numbers, their complexity
should essentially be the same as with the GNU MPFR library, with only
a marginal overhead due to the GNU MPC layer.

 -- Function: int mpc_add (mpc_t ROP, mpc_t OP1, mpc_t OP2, mpc_rnd_t
          RND)
 -- Function: int mpc_add_ui (mpc_t ROP, mpc_t OP1, unsigned long int
          OP2, mpc_rnd_t RND)
 -- Function: int mpc_add_fr (mpc_t ROP, mpc_t OP1, mpfr_t OP2,
          mpc_rnd_t RND)
     Set ROP to OP1 + OP2 rounded according to RND.

 -- Function: int mpc_sub (mpc_t ROP, mpc_t OP1, mpc_t OP2, mpc_rnd_t
          RND)
 -- Function: int mpc_sub_fr (mpc_t ROP, mpc_t OP1, mpfr_t OP2,
          mpc_rnd_t RND)
 -- Function: int mpc_fr_sub (mpc_t ROP, mpfr_t OP1, mpc_t OP2,
          mpc_rnd_t RND)
 -- Function: int mpc_sub_ui (mpc_t ROP, mpc_t OP1, unsigned long int
          OP2, mpc_rnd_t RND)
 -- Macro: int mpc_ui_sub (mpc_t ROP, unsigned long int OP1, mpc_t OP2,
          mpc_rnd_t RND)
 -- Function: int mpc_ui_ui_sub (mpc_t ROP, unsigned long int RE1,
          unsigned long int IM1, mpc_t OP2, mpc_rnd_t RND)
     Set ROP to OP1 - OP2 rounded according to RND.  For
     `mpc_ui_ui_sub', OP1 is RE1 + IM1.

 -- Function: int mpc_neg (mpc_t ROP, mpc_t OP, mpc_rnd_t RND)
     Set ROP to -OP rounded according to RND.  Just changes the sign if
     ROP and OP are the same variable.

 -- Function: int mpc_mul (mpc_t ROP, mpc_t OP1, mpc_t OP2, mpc_rnd_t
          RND)
 -- Function: int mpc_mul_ui (mpc_t ROP, mpc_t OP1, unsigned long int
          OP2, mpc_rnd_t RND)
 -- Function: int mpc_mul_si (mpc_t ROP, mpc_t OP1, long int OP2,
          mpc_rnd_t RND)
 -- Function: int mpc_mul_fr (mpc_t ROP, mpc_t OP1, mpfr_t OP2,
          mpc_rnd_t RND)
     Set ROP to OP1 times OP2 rounded according to RND.  Note: for
     `mpc_mul', in case OP1 and OP2 have the same value, use `mpc_sqr'
     for better efficiency.

 -- Function: int mpc_mul_i (mpc_t ROP, mpc_t OP, int SGN, mpc_rnd_t
          RND)
     Set ROP to OP times the imaginary unit i if SGN is non-negative,
     set ROP to OP times -i otherwise, in both cases rounded according
     to RND.

 -- Function: int mpc_sqr (mpc_t ROP, mpc_t OP, mpc_rnd_t RND)
     Set ROP to the square of OP rounded according to RND.

 -- Function: int mpc_fma (mpc_t ROP, mpc_t OP1, mpc_t OP2, mpc_t OP3,
          mpc_rnd_t RND)
     Set ROP to OP1*OP2+OP3, rounded according to RND, with only one
     final rounding.

 -- Function: int mpc_div (mpc_t ROP, mpc_t OP1, mpc_t OP2, mpc_rnd_t
          RND)
 -- Function: int mpc_div_ui (mpc_t ROP, mpc_t OP1, unsigned long int
          OP2, mpc_rnd_t RND)
 -- Function: int mpc_div_fr (mpc_t ROP, mpc_t OP1, mpfr_t OP2,
          mpc_rnd_t RND)
 -- Function: int mpc_ui_div (mpc_t ROP, unsigned long int OP1, mpc_t
          OP2, mpc_rnd_t RND)
 -- Function: int mpc_fr_div (mpc_t ROP, mpfr_t OP1, mpc_t OP2,
          mpc_rnd_t RND)
     Set ROP to OP1/OP2 rounded according to RND.

 -- Function: int mpc_conj (mpc_t ROP, mpc_t OP, mpc_rnd_t RND)
     Set ROP to the conjugate of OP rounded according to RND.  Just
     changes the sign of the imaginary part if ROP and OP are the same
     variable.

 -- Function: int mpc_abs (mpfr_t ROP, mpc_t OP, mpfr_rnd_t RND)
     Set the floating-point number ROP to the absolute value of OP,
     rounded in the direction RND.

 -- Function: int mpc_norm (mpfr_t ROP, mpc_t OP, mpfr_rnd_t RND)
     Set the floating-point number ROP to the norm of OP (i.e., the
     square of its absolute value), rounded in the direction RND.

 -- Function: int mpc_mul_2ui (mpc_t ROP, mpc_t OP1, unsigned long int
          OP2, mpc_rnd_t RND)
 -- Function: int mpc_mul_2si (mpc_t ROP, mpc_t OP1, long int OP2,
          mpc_rnd_t RND)
     Set ROP to OP1 times 2 raised to OP2 rounded according to RND.
     Just modifies the exponents of the real and imaginary parts by OP2
     when ROP and OP1 are identical.

 -- Function: int mpc_div_2ui (mpc_t ROP, mpc_t OP1, unsigned long int
          OP2, mpc_rnd_t RND)
 -- Function: int mpc_div_2si (mpc_t ROP, mpc_t OP1, long int OP2,
          mpc_rnd_t RND)
     Set ROP to OP1 divided by 2 raised to OP2 rounded according to
     RND. Just modifies the exponents of the real and imaginary parts
     by OP2 when ROP and OP1 are identical.


File: mpc.info,  Node: Power Functions and Logarithm,  Next: Trigonometric Functions,  Prev: Basic Arithmetic,  Up: Complex Functions

5.8 Power Functions and Logarithm
=================================

 -- Function: int mpc_sqrt (mpc_t ROP, mpc_t OP, mpc_rnd_t RND)
     Set ROP to the square root of OP rounded according to RND.  The
     returned value ROP has a non-negative real part, and if its real
     part is zero, a non-negative imaginary part.

 -- Function: int mpc_pow (mpc_t ROP, mpc_t OP1, mpc_t OP2, mpc_rnd_t
          RND)
 -- Function: int mpc_pow_d (mpc_t ROP, mpc_t OP1, double OP2,
          mpc_rnd_t RND)
 -- Function: int mpc_pow_ld (mpc_t ROP, mpc_t OP1, long double OP2,
          mpc_rnd_t RND)
 -- Function: int mpc_pow_si (mpc_t ROP, mpc_t OP1, long OP2, mpc_rnd_t
          RND)
 -- Function: int mpc_pow_ui (mpc_t ROP, mpc_t OP1, unsigned long OP2,
          mpc_rnd_t RND)
 -- Function: int mpc_pow_z (mpc_t ROP, mpc_t OP1, mpz_t OP2, mpc_rnd_t
          RND)
 -- Function: int mpc_pow_fr (mpc_t ROP, mpc_t OP1, mpfr_t OP2,
          mpc_rnd_t RND)
     Set ROP to OP1 raised to the power OP2, rounded according to RND.
     For `mpc_pow_d', `mpc_pow_ld', `mpc_pow_si', `mpc_pow_ui',
     `mpc_pow_z' and `mpc_pow_fr', the imaginary part of OP2 is
     considered as +0.  When both OP1 and OP2 are zero, the result has
     real part 1, and imaginary part 0, with sign being the opposite of
     that of OP2.

 -- Function: int mpc_exp (mpc_t ROP, mpc_t OP, mpc_rnd_t RND)
     Set ROP to the exponential of OP, rounded according to RND with
     the precision of ROP.

 -- Function: int mpc_log (mpc_t ROP, mpc_t OP, mpc_rnd_t RND)
 -- Function: int mpc_log10 (mpc_t ROP, mpc_t OP, mpc_rnd_t RND)
     Set ROP to the natural and base-10 logarithm of OP respectively,
     rounded according to RND with the precision of ROP.  The principal
     branch is chosen, with the branch cut on the negative real axis,
     so that the imaginary part of the result lies in ]-\pi , \pi] and
     ]-\pi/log(10) , \pi/log(10)] respectively.


File: mpc.info,  Node: Trigonometric Functions,  Next: Miscellaneous Complex Functions,  Prev: Power Functions and Logarithm,  Up: Complex Functions

5.9 Trigonometric Functions
===========================

 -- Function: int mpc_sin (mpc_t ROP, mpc_t OP, mpc_rnd_t RND)
     Set ROP to the sine of OP, rounded according to RND with the
     precision of ROP.

 -- Function: int mpc_cos (mpc_t ROP, mpc_t OP, mpc_rnd_t RND)
     Set ROP to the cosine of OP, rounded according to RND with the
     precision of ROP.

 -- Function: int mpc_sin_cos (mpc_t ROP_SIN, mpc_t ROP_COS, mpc_t OP,
          mpc_rnd_t RND_SIN, mpc_rnd_t RND_COS)
     Set ROP_SIN to the sine of OP, rounded according to RND_SIN with
     the precision of ROP_SIN, and ROP_COS to the cosine of OP, rounded
     according to RND_COS with the precision of ROP_COS.

 -- Function: int mpc_tan (mpc_t ROP, mpc_t OP, mpc_rnd_t RND)
     Set ROP to the tangent of OP, rounded according to RND with the
     precision of ROP.

 -- Function: int mpc_sinh (mpc_t ROP, mpc_t OP, mpc_rnd_t RND)
     Set ROP to the hyperbolic sine of OP, rounded according to RND
     with the precision of ROP.

 -- Function: int mpc_cosh (mpc_t ROP, mpc_t OP, mpc_rnd_t RND)
     Set ROP to the hyperbolic cosine of OP, rounded according to RND
     with the precision of ROP.

 -- Function: int mpc_tanh (mpc_t ROP, mpc_t OP, mpc_rnd_t RND)
     Set ROP to the hyperbolic tangent of OP, rounded according to RND
     with the precision of ROP.

 -- Function: int mpc_asin (mpc_t ROP, mpc_t OP, mpc_rnd_t RND)
 -- Function: int mpc_acos (mpc_t ROP, mpc_t OP, mpc_rnd_t RND)
 -- Function: int mpc_atan (mpc_t ROP, mpc_t OP, mpc_rnd_t RND)
     Set ROP to the inverse sine, inverse cosine, inverse tangent of OP,
     rounded according to RND with the precision of ROP.

 -- Function: int mpc_asinh (mpc_t ROP, mpc_t OP, mpc_rnd_t RND)
 -- Function: int mpc_acosh (mpc_t ROP, mpc_t OP, mpc_rnd_t RND)
 -- Function: int mpc_atanh (mpc_t ROP, mpc_t OP, mpc_rnd_t RND)
     Set ROP to the inverse hyperbolic sine, inverse hyperbolic cosine,
     inverse hyperbolic tangent of OP, rounded according to RND with
     the precision of ROP.  The branch cut of MPC_ACOSH is (-\infty, 1).


File: mpc.info,  Node: Miscellaneous Complex Functions,  Next: Advanced Functions,  Prev: Trigonometric Functions,  Up: Complex Functions

5.10 Miscellaneous Functions
============================

 -- Function: int mpc_urandom (mpc_t ROP, gmp_randstate_t STATE)
     Generate a uniformly distributed random complex in the unit square
     [0, 1] x [0, 1]. Return 0, unless an exponent in the real or
     imaginary part is not in the current exponent range, in which case
     that part is set to NaN and a zero value is returned. The second
     argument is a `gmp_randstate_t' structure which should be created
     using the GMP `rand_init' function, see the GMP manual.

 -- Function: const char * mpc_get_version (void)
     Return the GNU MPC version, as a null-terminated string.

 -- Macro: MPC_VERSION
 -- Macro: MPC_VERSION_MAJOR
 -- Macro: MPC_VERSION_MINOR
 -- Macro: MPC_VERSION_PATCHLEVEL
 -- Macro: MPC_VERSION_STRING
     `MPC_VERSION' is the version of GNU MPC as a preprocessing
     constant.  `MPC_VERSION_MAJOR', `MPC_VERSION_MINOR' and
     `MPC_VERSION_PATCHLEVEL' are respectively the major, minor and
     patch level of GNU MPC version, as preprocessing constants.
     `MPC_VERSION_STRING' is the version as a string constant, which
     can be compared to the result of `mpc_get_version' to check at run
     time the header file and library used match:
          if (strcmp (mpc_get_version (), MPC_VERSION_STRING))
            fprintf (stderr, "Warning: header and library do not match\n");
     Note: Obtaining different strings is not necessarily an error, as
     in general, a program compiled with some old GNU MPC version can be
     dynamically linked with a newer GNU MPC library version (if
     allowed by the library versioning system).

 -- Macro: long MPC_VERSION_NUM (MAJOR, MINOR, PATCHLEVEL)
     Create an integer in the same format as used by `MPC_VERSION' from
     the given MAJOR, MINOR and PATCHLEVEL.  Here is an example of how
     to check the GNU MPC version at compile time:
          #if (!defined(MPC_VERSION) || (MPC_VERSION<MPC_VERSION_NUM(2,1,0)))
          # error "Wrong GNU MPC version."
          #endif


File: mpc.info,  Node: Advanced Functions,  Next: Internals,  Prev: Miscellaneous Complex Functions,  Up: Complex Functions

5.11 Advanced Functions
=======================

 -- Macro: MPC_SET_X_Y (REAL_SUFFIX, IMAG_SUFFIX, ROP, REAL, IMAG, RND)
     The macro MPC_SET_X_Y is designed to serve as the body of an
     assignment function and cannot be used by itself.  The REAL_SUFFIX
     and IMAG_SUFFIX parameters are the types of the real and imaginary
     part, that is, the `x' in the `mpfr_set_x' function one would use
     to set the part; for the mpfr type, use `fr'.  REAL (respectively
     IMAG) is the value you want to assign to the real (resp.
     imaginary) part, its type must conform to REAL_SUFFIX (resp.
     IMAG_SUFFIX).  RND is the `mpc_rnd_t' rounding mode.  The return
     value is the usual inexact value (*note Return Value:
     return-value.).

     For instance, you can define mpc_set_ui_fr as follows:
          int mpc_set_ui_fr (mpc_t rop, long int re, double im, mpc_rnd_t rnd)
              MPC_SET_X_Y (ui, fr, rop, re, im, rnd);


File: mpc.info,  Node: Internals,  Prev: Advanced Functions,  Up: Complex Functions

5.12 Internals
==============

These macros and functions are mainly designed for the implementation
of GNU MPC, but may be useful for users too.  However, no upward
compatibility is guaranteed.  You need to include `mpc-impl.h' to use
them.

   The macro `MPC_MAX_PREC(z)' gives the maximum of the precisions of
the real and imaginary parts of a complex number.


File: mpc.info,  Node: References,  Next: Concept Index,  Prev: Complex Functions,  Up: Top

References
**********

   * Torbjo"rn Granlund et al.  `gmp' - GNU multiprecision library.
     Version 4.2.4, `http://gmplib.org/'.

   * Guillaume Hanrot, Vincent Lefe`vre, Patrick Pe'lissier, Paul
     Zimmermann et al.  `mpfr' - A library for multiple-precision
     floating-point computations with exact rounding.  Version 2.4.1,
     `http://www.mpfr.org'.

   * IEEE standard for binary floating-point arithmetic, Technical
     Report ANSI-IEEE Standard 754-1985, New York, 1985.  Approved
     March 21, 1985: IEEE Standards Board; approved July 26,   1985:
     American National Standards Institute, 18 pages.

   * Donald E. Knuth, "The Art of Computer Programming", vol 2,
     "Seminumerical Algorithms", 2nd edition, Addison-Wesley, 1981.

   * ISO/IEC 9899:1999, Programming languages — C.



File: mpc.info,  Node: Concept Index,  Next: Function Index,  Prev: References,  Up: Top

Concept Index
*************

[index]
* Menu:

* Arithmetic functions:                  Basic Arithmetic.     (line  6)
* Comparison functions:                  Complex Comparison.   (line  6)
* Complex arithmetic functions:          Basic Arithmetic.     (line  6)
* Complex assignment functions:          Assigning Complex Numbers.
                                                               (line  6)
* Complex comparisons functions:         Complex Comparison.   (line  6)
* Complex functions:                     Complex Functions.    (line  6)
* Complex number:                        GNU MPC Basics.       (line 15)
* Conditions for copying GNU MPC:        Copying.              (line  6)
* Conversion functions:                  Converting Complex Numbers.
                                                               (line  6)
* Copying conditions:                    Copying.              (line  6)
* Installation:                          Installing GNU MPC.   (line  6)
* Logarithm:                             Power Functions and Logarithm.
                                                               (line  6)
* Miscellaneous complex functions:       Miscellaneous Complex Functions.
                                                               (line  6)
* mpc.h:                                 GNU MPC Basics.       (line  6)
* Power functions:                       Power Functions and Logarithm.
                                                               (line  6)
* Precision:                             GNU MPC Basics.       (line 19)
* Projection and Decomposing Functions:  Projection & Decomposing.
                                                               (line  6)
* Reporting bugs:                        Reporting Bugs.       (line  6)
* Rounding Mode:                         GNU MPC Basics.       (line 24)
* String and stream input and output:    String and Stream Input and Output.
                                                               (line  6)
* Trigonometric functions:               Trigonometric Functions.
                                                               (line  6)
* User-defined precision:                Complex Functions.    (line 12)


File: mpc.info,  Node: Function Index,  Next: GNU Free Documentation License,  Prev: Concept Index,  Up: Top

Function Index
**************

[index]
* Menu:

* _Complex:                              Converting Complex Numbers.
                                                              (line  10)
* mpc_abs:                               Basic Arithmetic.    (line  82)
* mpc_acos:                              Trigonometric Functions.
                                                              (line  38)
* mpc_acosh:                             Trigonometric Functions.
                                                              (line  44)
* mpc_add:                               Basic Arithmetic.    (line  13)
* mpc_add_fr:                            Basic Arithmetic.    (line  17)
* mpc_add_ui:                            Basic Arithmetic.    (line  15)
* mpc_arg:                               Projection & Decomposing.
                                                              (line  21)
* mpc_asin:                              Trigonometric Functions.
                                                              (line  37)
* mpc_asinh:                             Trigonometric Functions.
                                                              (line  43)
* mpc_atan:                              Trigonometric Functions.
                                                              (line  39)
* mpc_atanh:                             Trigonometric Functions.
                                                              (line  45)
* mpc_clear:                             Initializing Complex Numbers.
                                                              (line  22)
* mpc_cmp:                               Complex Comparison.  (line   7)
* mpc_cmp_si:                            Complex Comparison.  (line  10)
* mpc_cmp_si_si:                         Complex Comparison.  (line   9)
* mpc_conj:                              Basic Arithmetic.    (line  77)
* mpc_cos:                               Trigonometric Functions.
                                                              (line  11)
* mpc_cosh:                              Trigonometric Functions.
                                                              (line  29)
* mpc_div:                               Basic Arithmetic.    (line  66)
* mpc_div_2si:                           Basic Arithmetic.    (line 101)
* mpc_div_2ui:                           Basic Arithmetic.    (line  99)
* mpc_div_fr:                            Basic Arithmetic.    (line  70)
* mpc_div_ui:                            Basic Arithmetic.    (line  68)
* mpc_exp:                               Power Functions and Logarithm.
                                                              (line  33)
* mpc_fma:                               Basic Arithmetic.    (line  61)
* mpc_fr_div:                            Basic Arithmetic.    (line  74)
* mpc_fr_sub:                            Basic Arithmetic.    (line  25)
* mpc_free_str:                          String and Stream Input and Output.
                                                              (line  68)
* mpc_get_ldc:                           Converting Complex Numbers.
                                                              (line  11)
* mpc_get_prec:                          Initializing Complex Numbers.
                                                              (line  50)
* mpc_get_prec2:                         Initializing Complex Numbers.
                                                              (line  55)
* mpc_get_str:                           String and Stream Input and Output.
                                                              (line  51)
* mpc_get_version:                       Miscellaneous Complex Functions.
                                                              (line  15)
* mpc_imag:                              Projection & Decomposing.
                                                              (line  11)
* mpc_imagref:                           Projection & Decomposing.
                                                              (line  16)
* mpc_init2:                             Initializing Complex Numbers.
                                                              (line  11)
* mpc_init3:                             Initializing Complex Numbers.
                                                              (line  17)
* mpc_inp_str:                           String and Stream Input and Output.
                                                              (line  77)
* mpc_log:                               Power Functions and Logarithm.
                                                              (line  37)
* mpc_log10:                             Power Functions and Logarithm.
                                                              (line  38)
* mpc_mul:                               Basic Arithmetic.    (line  40)
* mpc_mul_2si:                           Basic Arithmetic.    (line  93)
* mpc_mul_2ui:                           Basic Arithmetic.    (line  91)
* mpc_mul_fr:                            Basic Arithmetic.    (line  46)
* mpc_mul_i:                             Basic Arithmetic.    (line  52)
* mpc_mul_si:                            Basic Arithmetic.    (line  44)
* mpc_mul_ui:                            Basic Arithmetic.    (line  42)
* mpc_neg:                               Basic Arithmetic.    (line  35)
* mpc_norm:                              Basic Arithmetic.    (line  86)
* mpc_out_str:                           String and Stream Input and Output.
                                                              (line 112)
* mpc_pow:                               Power Functions and Logarithm.
                                                              (line  13)
* mpc_pow_d:                             Power Functions and Logarithm.
                                                              (line  15)
* mpc_pow_fr:                            Power Functions and Logarithm.
                                                              (line  25)
* mpc_pow_ld:                            Power Functions and Logarithm.
                                                              (line  17)
* mpc_pow_si:                            Power Functions and Logarithm.
                                                              (line  19)
* mpc_pow_ui:                            Power Functions and Logarithm.
                                                              (line  21)
* mpc_pow_z:                             Power Functions and Logarithm.
                                                              (line  23)
* mpc_proj:                              Projection & Decomposing.
                                                              (line  25)
* mpc_real:                              Projection & Decomposing.
                                                              (line   7)
* mpc_realref:                           Projection & Decomposing.
                                                              (line  15)
* mpc_rnd_t:                             GNU MPC Basics.      (line  24)
* mpc_set:                               Assigning Complex Numbers.
                                                              (line  17)
* mpc_set_d:                             Assigning Complex Numbers.
                                                              (line  26)
* mpc_set_d_d:                           Assigning Complex Numbers.
                                                              (line  56)
* mpc_set_dc:                            Assigning Complex Numbers.
                                                              (line  29)
* mpc_set_f:                             Assigning Complex Numbers.
                                                              (line  34)
* mpc_set_f_f:                           Assigning Complex Numbers.
                                                              (line  64)
* mpc_set_fr:                            Assigning Complex Numbers.
                                                              (line  35)
* mpc_set_fr_fr:                         Assigning Complex Numbers.
                                                              (line  66)
* mpc_set_ld:                            Assigning Complex Numbers.
                                                              (line  27)
* mpc_set_ld_ld:                         Assigning Complex Numbers.
                                                              (line  58)
* mpc_set_ldc:                           Assigning Complex Numbers.
                                                              (line  31)
* mpc_set_nan:                           Assigning Complex Numbers.
                                                              (line  80)
* mpc_set_prec:                          Initializing Complex Numbers.
                                                              (line  42)
* mpc_set_q:                             Assigning Complex Numbers.
                                                              (line  33)
* mpc_set_q_q:                           Assigning Complex Numbers.
                                                              (line  62)
* mpc_set_si:                            Assigning Complex Numbers.
                                                              (line  23)
* mpc_set_si_si:                         Assigning Complex Numbers.
                                                              (line  50)
* mpc_set_sj:                            Assigning Complex Numbers.
                                                              (line  25)
* mpc_set_sj_sj:                         Assigning Complex Numbers.
                                                              (line  54)
* mpc_set_str:                           String and Stream Input and Output.
                                                              (line  38)
* mpc_set_ui:                            Assigning Complex Numbers.
                                                              (line  22)
* mpc_set_ui_ui:                         Assigning Complex Numbers.
                                                              (line  48)
* mpc_set_uj:                            Assigning Complex Numbers.
                                                              (line  24)
* mpc_set_uj_uj:                         Assigning Complex Numbers.
                                                              (line  52)
* MPC_SET_X_Y:                           Advanced Functions.  (line   7)
* mpc_set_z:                             Assigning Complex Numbers.
                                                              (line  32)
* mpc_set_z_z:                           Assigning Complex Numbers.
                                                              (line  60)
* mpc_sin:                               Trigonometric Functions.
                                                              (line   7)
* mpc_sin_cos:                           Trigonometric Functions.
                                                              (line  16)
* mpc_sinh:                              Trigonometric Functions.
                                                              (line  25)
* mpc_sqr:                               Basic Arithmetic.    (line  57)
* mpc_sqrt:                              Power Functions and Logarithm.
                                                              (line   7)
* mpc_strtoc:                            String and Stream Input and Output.
                                                              (line   8)
* mpc_sub:                               Basic Arithmetic.    (line  21)
* mpc_sub_fr:                            Basic Arithmetic.    (line  23)
* mpc_sub_ui:                            Basic Arithmetic.    (line  27)
* mpc_swap:                              Assigning Complex Numbers.
                                                              (line  83)
* mpc_t:                                 GNU MPC Basics.      (line  15)
* mpc_tan:                               Trigonometric Functions.
                                                              (line  21)
* mpc_tanh:                              Trigonometric Functions.
                                                              (line  33)
* mpc_ui_div:                            Basic Arithmetic.    (line  72)
* mpc_ui_sub:                            Basic Arithmetic.    (line  29)
* mpc_ui_ui_sub:                         Basic Arithmetic.    (line  31)
* mpc_urandom:                           Miscellaneous Complex Functions.
                                                              (line   7)
* MPC_VERSION:                           Miscellaneous Complex Functions.
                                                              (line  18)
* MPC_VERSION_MAJOR:                     Miscellaneous Complex Functions.
                                                              (line  19)
* MPC_VERSION_MINOR:                     Miscellaneous Complex Functions.
                                                              (line  20)
* MPC_VERSION_NUM:                       Miscellaneous Complex Functions.
                                                              (line  37)
* MPC_VERSION_PATCHLEVEL:                Miscellaneous Complex Functions.
                                                              (line  21)
* MPC_VERSION_STRING:                    Miscellaneous Complex Functions.
                                                              (line  22)
* mpfr_prec_t:                           GNU MPC Basics.      (line  19)


File: mpc.info,  Node: GNU Free Documentation License,  Prev: Function Index,  Up: Top

Anhang A GNU Free Documentation License
***************************************

                     Version 1.3, 3 November 2008

     Copyright (C) 2000, 2001, 2002, 2007, 2008 Free Software Foundation, Inc.
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ADDENDUM: How to use this License for your documents
====================================================

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Tag Table:
Node: Top738
Node: Copying1445
Node: Introduction to GNU MPC2216
Node: Installing GNU MPC2934
Node: Reporting Bugs8016
Node: GNU MPC Basics9357
Ref: return-value13055
Node: Complex Functions14505
Node: Initializing Complex Numbers15664
Node: Assigning Complex Numbers18052
Node: Converting Complex Numbers22451
Node: String and Stream Input and Output23076
Node: Complex Comparison29655
Node: Projection & Decomposing30734
Node: Basic Arithmetic32109
Node: Power Functions and Logarithm36682
Node: Trigonometric Functions38749
Node: Miscellaneous Complex Functions40974
Node: Advanced Functions43148
Node: Internals44221
Node: References44672
Node: Concept Index45578
Node: Function Index47892
Node: GNU Free Documentation License61676

End Tag Table