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224 lines
5.9 KiB
TeX
224 lines
5.9 KiB
TeX
\section{\module{gl} ---
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\emph{Graphics Library} interface}
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\declaremodule{builtin}{gl}
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\platform{IRIX}
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\modulesynopsis{Functions from the Silicon Graphics \emph{Graphics Library}.}
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This module provides access to the Silicon Graphics
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\emph{Graphics Library}.
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It is available only on Silicon Graphics machines.
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\strong{Warning:}
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Some illegal calls to the GL library cause the Python interpreter to dump
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core.
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In particular, the use of most GL calls is unsafe before the first
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window is opened.
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The module is too large to document here in its entirety, but the
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following should help you to get started.
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The parameter conventions for the C functions are translated to Python as
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follows:
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\begin{itemize}
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\item
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All (short, long, unsigned) int values are represented by Python
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integers.
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\item
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All float and double values are represented by Python floating point
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numbers.
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In most cases, Python integers are also allowed.
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\item
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All arrays are represented by one-dimensional Python lists.
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In most cases, tuples are also allowed.
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\item
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\begin{sloppypar}
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All string and character arguments are represented by Python strings,
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for instance,
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\code{winopen('Hi There!')}
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and
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\code{rotate(900, 'z')}.
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\end{sloppypar}
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\item
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All (short, long, unsigned) integer arguments or return values that are
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only used to specify the length of an array argument are omitted.
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For example, the C call
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\begin{verbatim}
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lmdef(deftype, index, np, props)
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\end{verbatim}
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is translated to Python as
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\begin{verbatim}
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lmdef(deftype, index, props)
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\end{verbatim}
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\item
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Output arguments are omitted from the argument list; they are
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transmitted as function return values instead.
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If more than one value must be returned, the return value is a tuple.
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If the C function has both a regular return value (that is not omitted
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because of the previous rule) and an output argument, the return value
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comes first in the tuple.
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Examples: the C call
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\begin{verbatim}
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getmcolor(i, &red, &green, &blue)
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\end{verbatim}
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is translated to Python as
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\begin{verbatim}
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red, green, blue = getmcolor(i)
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\end{verbatim}
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\end{itemize}
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The following functions are non-standard or have special argument
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conventions:
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\begin{funcdesc}{varray}{argument}
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%JHXXX the argument-argument added
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Equivalent to but faster than a number of
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\code{v3d()}
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calls.
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The \var{argument} is a list (or tuple) of points.
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Each point must be a tuple of coordinates
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\code{(\var{x}, \var{y}, \var{z})} or \code{(\var{x}, \var{y})}.
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The points may be 2- or 3-dimensional but must all have the
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same dimension.
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Float and int values may be mixed however.
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The points are always converted to 3D double precision points
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by assuming \code{\var{z} = 0.0} if necessary (as indicated in the man page),
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and for each point
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\code{v3d()}
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is called.
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\end{funcdesc}
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\begin{funcdesc}{nvarray}{}
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Equivalent to but faster than a number of
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\code{n3f}
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and
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\code{v3f}
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calls.
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The argument is an array (list or tuple) of pairs of normals and points.
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Each pair is a tuple of a point and a normal for that point.
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Each point or normal must be a tuple of coordinates
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\code{(\var{x}, \var{y}, \var{z})}.
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Three coordinates must be given.
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Float and int values may be mixed.
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For each pair,
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\code{n3f()}
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is called for the normal, and then
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\code{v3f()}
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is called for the point.
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\end{funcdesc}
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\begin{funcdesc}{vnarray}{}
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Similar to
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\code{nvarray()}
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but the pairs have the point first and the normal second.
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\end{funcdesc}
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\begin{funcdesc}{nurbssurface}{s_k, t_k, ctl, s_ord, t_ord, type}
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% XXX s_k[], t_k[], ctl[][]
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Defines a nurbs surface.
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The dimensions of
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\code{\var{ctl}[][]}
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are computed as follows:
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\code{[len(\var{s_k}) - \var{s_ord}]},
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\code{[len(\var{t_k}) - \var{t_ord}]}.
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\end{funcdesc}
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\begin{funcdesc}{nurbscurve}{knots, ctlpoints, order, type}
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Defines a nurbs curve.
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The length of ctlpoints is
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\code{len(\var{knots}) - \var{order}}.
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\end{funcdesc}
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\begin{funcdesc}{pwlcurve}{points, type}
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Defines a piecewise-linear curve.
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\var{points}
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is a list of points.
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\var{type}
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must be
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\code{N_ST}.
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\end{funcdesc}
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\begin{funcdesc}{pick}{n}
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\funcline{select}{n}
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The only argument to these functions specifies the desired size of the
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pick or select buffer.
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\end{funcdesc}
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\begin{funcdesc}{endpick}{}
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\funcline{endselect}{}
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These functions have no arguments.
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They return a list of integers representing the used part of the
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pick/select buffer.
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No method is provided to detect buffer overrun.
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\end{funcdesc}
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Here is a tiny but complete example GL program in Python:
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\begin{verbatim}
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import gl, GL, time
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def main():
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gl.foreground()
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gl.prefposition(500, 900, 500, 900)
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w = gl.winopen('CrissCross')
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gl.ortho2(0.0, 400.0, 0.0, 400.0)
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gl.color(GL.WHITE)
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gl.clear()
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gl.color(GL.RED)
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gl.bgnline()
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gl.v2f(0.0, 0.0)
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gl.v2f(400.0, 400.0)
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gl.endline()
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gl.bgnline()
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gl.v2f(400.0, 0.0)
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gl.v2f(0.0, 400.0)
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gl.endline()
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time.sleep(5)
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main()
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\end{verbatim}
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\begin{seealso}
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\seetext{An interface to OpenGL\index{OpenGL} is also available; see
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information about David Ascher's\index{Ascher, David}
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\strong{PyOpenGL}\index{PyOpenGL} online at
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\url{http://starship.python.net/crew/da/PyOpenGL/}. This may
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be a better option if support for SGI hardware from before about
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1996 is not required.}
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\end{seealso}
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\section{\module{DEVICE} ---
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Constants used with the \module{gl} module}
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\declaremodule{standard}{DEVICE}
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\platform{IRIX}
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\modulesynopsis{Constants used with the \module{gl} module.}
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This modules defines the constants used by the Silicon Graphics
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\emph{Graphics Library} that C programmers find in the header file
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\code{<gl/device.h>}.
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Read the module source file for details.
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\section{\module{GL} ---
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Constants used with the \module{gl} module}
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\declaremodule[gl-constants]{standard}{GL}
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\platform{IRIX}
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\modulesynopsis{Constants used with the \module{gl} module.}
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This module contains constants used by the Silicon Graphics
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\emph{Graphics Library} from the C header file \code{<gl/gl.h>}.
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Read the module source file for details.
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