mirror of https://github.com/python/cpython.git
Move the section on concrete numeric objects before the section on
concrete sequence objects, since their API is simpler. This is in response to a comment in SF bug #440037.
This commit is contained in:
parent
7bf8277e98
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Doc/api/api.tex
498
Doc/api/api.tex
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@ -2218,6 +2218,255 @@ no methods.
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\end{cvardesc}
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\section{Numeric Objects \label{numericObjects}}
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\obindex{numeric}
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\subsection{Plain Integer Objects \label{intObjects}}
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\obindex{integer}
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\begin{ctypedesc}{PyIntObject}
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This subtype of \ctype{PyObject} represents a Python integer object.
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\end{ctypedesc}
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\begin{cvardesc}{PyTypeObject}{PyInt_Type}
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This instance of \ctype{PyTypeObject} represents the Python plain
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integer type. This is the same object as \code{types.IntType}.
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\withsubitem{(in modules types)}{\ttindex{IntType}}
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\end{cvardesc}
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\begin{cfuncdesc}{int}{PyInt_Check}{PyObject* o}
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Returns true if \var{o} is of type \cdata{PyInt_Type}.
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\end{cfuncdesc}
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\begin{cfuncdesc}{PyObject*}{PyInt_FromLong}{long ival}
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Creates a new integer object with a value of \var{ival}.
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The current implementation keeps an array of integer objects for all
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integers between \code{-1} and \code{100}, when you create an int in
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that range you actually just get back a reference to the existing
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object. So it should be possible to change the value of \code{1}. I
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suspect the behaviour of Python in this case is undefined. :-)
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\end{cfuncdesc}
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\begin{cfuncdesc}{long}{PyInt_AsLong}{PyObject *io}
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Will first attempt to cast the object to a \ctype{PyIntObject}, if
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it is not already one, and then return its value.
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\end{cfuncdesc}
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\begin{cfuncdesc}{long}{PyInt_AS_LONG}{PyObject *io}
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Returns the value of the object \var{io}. No error checking is
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performed.
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\end{cfuncdesc}
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\begin{cfuncdesc}{long}{PyInt_GetMax}{}
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Returns the system's idea of the largest integer it can handle
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(\constant{LONG_MAX}\ttindex{LONG_MAX}, as defined in the system
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header files).
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\end{cfuncdesc}
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\subsection{Long Integer Objects \label{longObjects}}
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\obindex{long integer}
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\begin{ctypedesc}{PyLongObject}
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This subtype of \ctype{PyObject} represents a Python long integer
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object.
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\end{ctypedesc}
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\begin{cvardesc}{PyTypeObject}{PyLong_Type}
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This instance of \ctype{PyTypeObject} represents the Python long
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integer type. This is the same object as \code{types.LongType}.
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\withsubitem{(in modules types)}{\ttindex{LongType}}
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\end{cvardesc}
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\begin{cfuncdesc}{int}{PyLong_Check}{PyObject *p}
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Returns true if its argument is a \ctype{PyLongObject}.
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\end{cfuncdesc}
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\begin{cfuncdesc}{PyObject*}{PyLong_FromLong}{long v}
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Returns a new \ctype{PyLongObject} object from \var{v}, or \NULL{} on
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failure.
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\end{cfuncdesc}
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\begin{cfuncdesc}{PyObject*}{PyLong_FromUnsignedLong}{unsigned long v}
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Returns a new \ctype{PyLongObject} object from a C \ctype{unsigned
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long}, or \NULL{} on failure.
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\end{cfuncdesc}
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\begin{cfuncdesc}{PyObject*}{PyLong_FromDouble}{double v}
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Returns a new \ctype{PyLongObject} object from the integer part of
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\var{v}, or \NULL{} on failure.
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\end{cfuncdesc}
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\begin{cfuncdesc}{long}{PyLong_AsLong}{PyObject *pylong}
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Returns a C \ctype{long} representation of the contents of
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\var{pylong}. If \var{pylong} is greater than
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\constant{LONG_MAX}\ttindex{LONG_MAX}, an \exception{OverflowError} is
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raised.\withsubitem{(built-in exception)}{\ttindex{OverflowError}}
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\end{cfuncdesc}
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\begin{cfuncdesc}{unsigned long}{PyLong_AsUnsignedLong}{PyObject *pylong}
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Returns a C \ctype{unsigned long} representation of the contents of
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\var{pylong}. If \var{pylong} is greater than
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\constant{ULONG_MAX}\ttindex{ULONG_MAX}, an \exception{OverflowError}
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is raised.\withsubitem{(built-in exception)}{\ttindex{OverflowError}}
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\end{cfuncdesc}
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\begin{cfuncdesc}{double}{PyLong_AsDouble}{PyObject *pylong}
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Returns a C \ctype{double} representation of the contents of \var{pylong}.
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\end{cfuncdesc}
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\begin{cfuncdesc}{PyObject*}{PyLong_FromString}{char *str, char **pend,
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int base}
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Return a new \ctype{PyLongObject} based on the string value in
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\var{str}, which is interpreted according to the radix in \var{base}.
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If \var{pend} is non-\NULL, \code{*\var{pend}} will point to the first
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character in \var{str} which follows the representation of the
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number. If \var{base} is \code{0}, the radix will be determined base
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on the leading characters of \var{str}: if \var{str} starts with
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\code{'0x'} or \code{'0X'}, radix 16 will be used; if \var{str} starts
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with \code{'0'}, radix 8 will be used; otherwise radix 10 will be
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used. If \var{base} is not \code{0}, it must be between \code{2} and
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\code{36}, inclusive. Leading spaces are ignored. If there are no
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digits, \exception{ValueError} will be raised.
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\end{cfuncdesc}
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\subsection{Floating Point Objects \label{floatObjects}}
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\obindex{floating point}
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\begin{ctypedesc}{PyFloatObject}
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This subtype of \ctype{PyObject} represents a Python floating point
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object.
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\end{ctypedesc}
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\begin{cvardesc}{PyTypeObject}{PyFloat_Type}
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This instance of \ctype{PyTypeObject} represents the Python floating
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point type. This is the same object as \code{types.FloatType}.
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\withsubitem{(in modules types)}{\ttindex{FloatType}}
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\end{cvardesc}
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\begin{cfuncdesc}{int}{PyFloat_Check}{PyObject *p}
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Returns true if its argument is a \ctype{PyFloatObject}.
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\end{cfuncdesc}
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\begin{cfuncdesc}{PyObject*}{PyFloat_FromDouble}{double v}
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Creates a \ctype{PyFloatObject} object from \var{v}, or \NULL{} on
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failure.
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\end{cfuncdesc}
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\begin{cfuncdesc}{double}{PyFloat_AsDouble}{PyObject *pyfloat}
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Returns a C \ctype{double} representation of the contents of \var{pyfloat}.
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\end{cfuncdesc}
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\begin{cfuncdesc}{double}{PyFloat_AS_DOUBLE}{PyObject *pyfloat}
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Returns a C \ctype{double} representation of the contents of
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\var{pyfloat}, but without error checking.
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\end{cfuncdesc}
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\subsection{Complex Number Objects \label{complexObjects}}
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\obindex{complex number}
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Python's complex number objects are implemented as two distinct types
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when viewed from the C API: one is the Python object exposed to
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Python programs, and the other is a C structure which represents the
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actual complex number value. The API provides functions for working
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with both.
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\subsubsection{Complex Numbers as C Structures}
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Note that the functions which accept these structures as parameters
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and return them as results do so \emph{by value} rather than
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dereferencing them through pointers. This is consistent throughout
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the API.
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\begin{ctypedesc}{Py_complex}
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The C structure which corresponds to the value portion of a Python
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complex number object. Most of the functions for dealing with complex
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number objects use structures of this type as input or output values,
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as appropriate. It is defined as:
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\begin{verbatim}
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typedef struct {
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double real;
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double imag;
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} Py_complex;
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\end{verbatim}
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\end{ctypedesc}
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\begin{cfuncdesc}{Py_complex}{_Py_c_sum}{Py_complex left, Py_complex right}
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Return the sum of two complex numbers, using the C
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\ctype{Py_complex} representation.
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\end{cfuncdesc}
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\begin{cfuncdesc}{Py_complex}{_Py_c_diff}{Py_complex left, Py_complex right}
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Return the difference between two complex numbers, using the C
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\ctype{Py_complex} representation.
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\end{cfuncdesc}
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\begin{cfuncdesc}{Py_complex}{_Py_c_neg}{Py_complex complex}
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Return the negation of the complex number \var{complex}, using the C
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\ctype{Py_complex} representation.
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\end{cfuncdesc}
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\begin{cfuncdesc}{Py_complex}{_Py_c_prod}{Py_complex left, Py_complex right}
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Return the product of two complex numbers, using the C
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\ctype{Py_complex} representation.
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\end{cfuncdesc}
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\begin{cfuncdesc}{Py_complex}{_Py_c_quot}{Py_complex dividend,
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Py_complex divisor}
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Return the quotient of two complex numbers, using the C
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\ctype{Py_complex} representation.
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\end{cfuncdesc}
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\begin{cfuncdesc}{Py_complex}{_Py_c_pow}{Py_complex num, Py_complex exp}
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Return the exponentiation of \var{num} by \var{exp}, using the C
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\ctype{Py_complex} representation.
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\end{cfuncdesc}
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\subsubsection{Complex Numbers as Python Objects}
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\begin{ctypedesc}{PyComplexObject}
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This subtype of \ctype{PyObject} represents a Python complex number object.
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\end{ctypedesc}
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\begin{cvardesc}{PyTypeObject}{PyComplex_Type}
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This instance of \ctype{PyTypeObject} represents the Python complex
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number type.
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\end{cvardesc}
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\begin{cfuncdesc}{int}{PyComplex_Check}{PyObject *p}
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Returns true if its argument is a \ctype{PyComplexObject}.
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\end{cfuncdesc}
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\begin{cfuncdesc}{PyObject*}{PyComplex_FromCComplex}{Py_complex v}
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Create a new Python complex number object from a C
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\ctype{Py_complex} value.
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\end{cfuncdesc}
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\begin{cfuncdesc}{PyObject*}{PyComplex_FromDoubles}{double real, double imag}
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Returns a new \ctype{PyComplexObject} object from \var{real} and \var{imag}.
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\end{cfuncdesc}
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\begin{cfuncdesc}{double}{PyComplex_RealAsDouble}{PyObject *op}
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Returns the real part of \var{op} as a C \ctype{double}.
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\end{cfuncdesc}
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\begin{cfuncdesc}{double}{PyComplex_ImagAsDouble}{PyObject *op}
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Returns the imaginary part of \var{op} as a C \ctype{double}.
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\end{cfuncdesc}
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\begin{cfuncdesc}{Py_complex}{PyComplex_AsCComplex}{PyObject *op}
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Returns the \ctype{Py_complex} value of the complex number \var{op}.
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\end{cfuncdesc}
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\section{Sequence Objects \label{sequenceObjects}}
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\obindex{sequence}
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@ -3531,255 +3780,6 @@ while (PyDict_Next(self->dict, &pos, &key, &value)) {
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\end{cfuncdesc}
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\section{Numeric Objects \label{numericObjects}}
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\obindex{numeric}
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\subsection{Plain Integer Objects \label{intObjects}}
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\obindex{integer}
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\begin{ctypedesc}{PyIntObject}
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This subtype of \ctype{PyObject} represents a Python integer object.
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\end{ctypedesc}
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\begin{cvardesc}{PyTypeObject}{PyInt_Type}
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This instance of \ctype{PyTypeObject} represents the Python plain
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integer type. This is the same object as \code{types.IntType}.
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\withsubitem{(in modules types)}{\ttindex{IntType}}
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\end{cvardesc}
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\begin{cfuncdesc}{int}{PyInt_Check}{PyObject* o}
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Returns true if \var{o} is of type \cdata{PyInt_Type}.
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\end{cfuncdesc}
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\begin{cfuncdesc}{PyObject*}{PyInt_FromLong}{long ival}
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Creates a new integer object with a value of \var{ival}.
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The current implementation keeps an array of integer objects for all
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integers between \code{-1} and \code{100}, when you create an int in
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that range you actually just get back a reference to the existing
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object. So it should be possible to change the value of \code{1}. I
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suspect the behaviour of Python in this case is undefined. :-)
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\end{cfuncdesc}
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\begin{cfuncdesc}{long}{PyInt_AsLong}{PyObject *io}
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Will first attempt to cast the object to a \ctype{PyIntObject}, if
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it is not already one, and then return its value.
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\end{cfuncdesc}
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\begin{cfuncdesc}{long}{PyInt_AS_LONG}{PyObject *io}
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Returns the value of the object \var{io}. No error checking is
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performed.
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\end{cfuncdesc}
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\begin{cfuncdesc}{long}{PyInt_GetMax}{}
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Returns the system's idea of the largest integer it can handle
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(\constant{LONG_MAX}\ttindex{LONG_MAX}, as defined in the system
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header files).
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\end{cfuncdesc}
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\subsection{Long Integer Objects \label{longObjects}}
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\obindex{long integer}
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\begin{ctypedesc}{PyLongObject}
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This subtype of \ctype{PyObject} represents a Python long integer
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object.
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\end{ctypedesc}
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\begin{cvardesc}{PyTypeObject}{PyLong_Type}
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This instance of \ctype{PyTypeObject} represents the Python long
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integer type. This is the same object as \code{types.LongType}.
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\withsubitem{(in modules types)}{\ttindex{LongType}}
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\end{cvardesc}
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\begin{cfuncdesc}{int}{PyLong_Check}{PyObject *p}
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Returns true if its argument is a \ctype{PyLongObject}.
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\end{cfuncdesc}
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\begin{cfuncdesc}{PyObject*}{PyLong_FromLong}{long v}
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Returns a new \ctype{PyLongObject} object from \var{v}, or \NULL{} on
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failure.
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\end{cfuncdesc}
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\begin{cfuncdesc}{PyObject*}{PyLong_FromUnsignedLong}{unsigned long v}
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Returns a new \ctype{PyLongObject} object from a C \ctype{unsigned
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long}, or \NULL{} on failure.
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\end{cfuncdesc}
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\begin{cfuncdesc}{PyObject*}{PyLong_FromDouble}{double v}
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Returns a new \ctype{PyLongObject} object from the integer part of
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\var{v}, or \NULL{} on failure.
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\end{cfuncdesc}
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\begin{cfuncdesc}{long}{PyLong_AsLong}{PyObject *pylong}
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Returns a C \ctype{long} representation of the contents of
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\var{pylong}. If \var{pylong} is greater than
|
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\constant{LONG_MAX}\ttindex{LONG_MAX}, an \exception{OverflowError} is
|
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raised.\withsubitem{(built-in exception)}{\ttindex{OverflowError}}
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\end{cfuncdesc}
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|
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\begin{cfuncdesc}{unsigned long}{PyLong_AsUnsignedLong}{PyObject *pylong}
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Returns a C \ctype{unsigned long} representation of the contents of
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\var{pylong}. If \var{pylong} is greater than
|
||||
\constant{ULONG_MAX}\ttindex{ULONG_MAX}, an \exception{OverflowError}
|
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is raised.\withsubitem{(built-in exception)}{\ttindex{OverflowError}}
|
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\end{cfuncdesc}
|
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|
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\begin{cfuncdesc}{double}{PyLong_AsDouble}{PyObject *pylong}
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Returns a C \ctype{double} representation of the contents of \var{pylong}.
|
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\end{cfuncdesc}
|
||||
|
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\begin{cfuncdesc}{PyObject*}{PyLong_FromString}{char *str, char **pend,
|
||||
int base}
|
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Return a new \ctype{PyLongObject} based on the string value in
|
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\var{str}, which is interpreted according to the radix in \var{base}.
|
||||
If \var{pend} is non-\NULL, \code{*\var{pend}} will point to the first
|
||||
character in \var{str} which follows the representation of the
|
||||
number. If \var{base} is \code{0}, the radix will be determined base
|
||||
on the leading characters of \var{str}: if \var{str} starts with
|
||||
\code{'0x'} or \code{'0X'}, radix 16 will be used; if \var{str} starts
|
||||
with \code{'0'}, radix 8 will be used; otherwise radix 10 will be
|
||||
used. If \var{base} is not \code{0}, it must be between \code{2} and
|
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\code{36}, inclusive. Leading spaces are ignored. If there are no
|
||||
digits, \exception{ValueError} will be raised.
|
||||
\end{cfuncdesc}
|
||||
|
||||
|
||||
\subsection{Floating Point Objects \label{floatObjects}}
|
||||
|
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\obindex{floating point}
|
||||
\begin{ctypedesc}{PyFloatObject}
|
||||
This subtype of \ctype{PyObject} represents a Python floating point
|
||||
object.
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||||
\end{ctypedesc}
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|
||||
\begin{cvardesc}{PyTypeObject}{PyFloat_Type}
|
||||
This instance of \ctype{PyTypeObject} represents the Python floating
|
||||
point type. This is the same object as \code{types.FloatType}.
|
||||
\withsubitem{(in modules types)}{\ttindex{FloatType}}
|
||||
\end{cvardesc}
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||||
|
||||
\begin{cfuncdesc}{int}{PyFloat_Check}{PyObject *p}
|
||||
Returns true if its argument is a \ctype{PyFloatObject}.
|
||||
\end{cfuncdesc}
|
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|
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\begin{cfuncdesc}{PyObject*}{PyFloat_FromDouble}{double v}
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||||
Creates a \ctype{PyFloatObject} object from \var{v}, or \NULL{} on
|
||||
failure.
|
||||
\end{cfuncdesc}
|
||||
|
||||
\begin{cfuncdesc}{double}{PyFloat_AsDouble}{PyObject *pyfloat}
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||||
Returns a C \ctype{double} representation of the contents of \var{pyfloat}.
|
||||
\end{cfuncdesc}
|
||||
|
||||
\begin{cfuncdesc}{double}{PyFloat_AS_DOUBLE}{PyObject *pyfloat}
|
||||
Returns a C \ctype{double} representation of the contents of
|
||||
\var{pyfloat}, but without error checking.
|
||||
\end{cfuncdesc}
|
||||
|
||||
|
||||
\subsection{Complex Number Objects \label{complexObjects}}
|
||||
|
||||
\obindex{complex number}
|
||||
Python's complex number objects are implemented as two distinct types
|
||||
when viewed from the C API: one is the Python object exposed to
|
||||
Python programs, and the other is a C structure which represents the
|
||||
actual complex number value. The API provides functions for working
|
||||
with both.
|
||||
|
||||
\subsubsection{Complex Numbers as C Structures}
|
||||
|
||||
Note that the functions which accept these structures as parameters
|
||||
and return them as results do so \emph{by value} rather than
|
||||
dereferencing them through pointers. This is consistent throughout
|
||||
the API.
|
||||
|
||||
\begin{ctypedesc}{Py_complex}
|
||||
The C structure which corresponds to the value portion of a Python
|
||||
complex number object. Most of the functions for dealing with complex
|
||||
number objects use structures of this type as input or output values,
|
||||
as appropriate. It is defined as:
|
||||
|
||||
\begin{verbatim}
|
||||
typedef struct {
|
||||
double real;
|
||||
double imag;
|
||||
} Py_complex;
|
||||
\end{verbatim}
|
||||
\end{ctypedesc}
|
||||
|
||||
\begin{cfuncdesc}{Py_complex}{_Py_c_sum}{Py_complex left, Py_complex right}
|
||||
Return the sum of two complex numbers, using the C
|
||||
\ctype{Py_complex} representation.
|
||||
\end{cfuncdesc}
|
||||
|
||||
\begin{cfuncdesc}{Py_complex}{_Py_c_diff}{Py_complex left, Py_complex right}
|
||||
Return the difference between two complex numbers, using the C
|
||||
\ctype{Py_complex} representation.
|
||||
\end{cfuncdesc}
|
||||
|
||||
\begin{cfuncdesc}{Py_complex}{_Py_c_neg}{Py_complex complex}
|
||||
Return the negation of the complex number \var{complex}, using the C
|
||||
\ctype{Py_complex} representation.
|
||||
\end{cfuncdesc}
|
||||
|
||||
\begin{cfuncdesc}{Py_complex}{_Py_c_prod}{Py_complex left, Py_complex right}
|
||||
Return the product of two complex numbers, using the C
|
||||
\ctype{Py_complex} representation.
|
||||
\end{cfuncdesc}
|
||||
|
||||
\begin{cfuncdesc}{Py_complex}{_Py_c_quot}{Py_complex dividend,
|
||||
Py_complex divisor}
|
||||
Return the quotient of two complex numbers, using the C
|
||||
\ctype{Py_complex} representation.
|
||||
\end{cfuncdesc}
|
||||
|
||||
\begin{cfuncdesc}{Py_complex}{_Py_c_pow}{Py_complex num, Py_complex exp}
|
||||
Return the exponentiation of \var{num} by \var{exp}, using the C
|
||||
\ctype{Py_complex} representation.
|
||||
\end{cfuncdesc}
|
||||
|
||||
|
||||
\subsubsection{Complex Numbers as Python Objects}
|
||||
|
||||
\begin{ctypedesc}{PyComplexObject}
|
||||
This subtype of \ctype{PyObject} represents a Python complex number object.
|
||||
\end{ctypedesc}
|
||||
|
||||
\begin{cvardesc}{PyTypeObject}{PyComplex_Type}
|
||||
This instance of \ctype{PyTypeObject} represents the Python complex
|
||||
number type.
|
||||
\end{cvardesc}
|
||||
|
||||
\begin{cfuncdesc}{int}{PyComplex_Check}{PyObject *p}
|
||||
Returns true if its argument is a \ctype{PyComplexObject}.
|
||||
\end{cfuncdesc}
|
||||
|
||||
\begin{cfuncdesc}{PyObject*}{PyComplex_FromCComplex}{Py_complex v}
|
||||
Create a new Python complex number object from a C
|
||||
\ctype{Py_complex} value.
|
||||
\end{cfuncdesc}
|
||||
|
||||
\begin{cfuncdesc}{PyObject*}{PyComplex_FromDoubles}{double real, double imag}
|
||||
Returns a new \ctype{PyComplexObject} object from \var{real} and \var{imag}.
|
||||
\end{cfuncdesc}
|
||||
|
||||
\begin{cfuncdesc}{double}{PyComplex_RealAsDouble}{PyObject *op}
|
||||
Returns the real part of \var{op} as a C \ctype{double}.
|
||||
\end{cfuncdesc}
|
||||
|
||||
\begin{cfuncdesc}{double}{PyComplex_ImagAsDouble}{PyObject *op}
|
||||
Returns the imaginary part of \var{op} as a C \ctype{double}.
|
||||
\end{cfuncdesc}
|
||||
|
||||
\begin{cfuncdesc}{Py_complex}{PyComplex_AsCComplex}{PyObject *op}
|
||||
Returns the \ctype{Py_complex} value of the complex number \var{op}.
|
||||
\end{cfuncdesc}
|
||||
|
||||
|
||||
|
||||
\section{Other Objects \label{otherObjects}}
|
||||
|
||||
\subsection{File Objects \label{fileObjects}}
|
||||
|
|
Loading…
Reference in New Issue