/*
* Copyright (C) 1997-2003, R3vis Corporation.
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation; either version 2
* of the License, or (at your option) any later version.
*
* This program 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 General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA,
* or visit http://www.gnu.org/copyleft/gpl.html.
*
* Contributor(s):
* Wes Bethel, R3vis Corporation, Marin County, California
*
* The OpenRM project is located at http://openrm.sourceforge.net/.
*/
/*
* $Id: jack.c,v 1.11 2003/04/13 18:13:23 wes Exp $
* $Revision: 1.11 $
* $Name: OpenRM-1-5-2-RC1 $
* $Log: jack.c,v $
* Revision 1.11 2003/04/13 18:13:23 wes
* Updated copyright dates.
*
* Revision 1.10 2003/01/27 05:07:07 wes
* Changes to RMpipe initialization sequence APIs. Tested for GLX, but not WGL.
*
* Revision 1.9 2003/01/16 22:22:45 wes
* Updated all source files to reflect new organization of header files: all
* headers that were formerly located in include/rmaux, include/rmv and
* include/rmi are now located in include/rm.
*
* Revision 1.8 2002/06/17 00:38:31 wes
* replace rmSubtreeFrame with rmFrame.
*
* Revision 1.7 2001/07/15 22:33:19 wes
* Added rmPipeDelete to the end of all demo progs. For those that use
* an initfunc, added a new RMnode * parm (which is unused, except for rm2screen).
*
* Revision 1.6 2001/06/03 19:44:05 wes
* Add calls to new rmaux routines to handle window resize events, and
* for keyboard event handling.
*
* Revision 1.5 2001/03/31 16:55:18 wes
* Added procmode.h, which defines an RMpipe processing mode used in
* most demonstration programs. The default processing mode is
* RM_PIPE_MULTISTAGE_VIEW_PARALLEL.
*
* Revision 1.4 2000/12/02 17:24:32 wes
* Version 1.4.0-alpha-1 checkin. See the RELEASENOTES file for
* a summary of changes. With this checkin, these demo programs
* are no longer compatible with versions of the OpenRM API that
* are pre-1.4.0.
*
* Revision 1.3 2000/08/28 01:38:18 wes
* Updated rmaux* interfaces - rmauxEventLoop now takes two additional
* parameters (keypress and window resize app callbacks); replaced
* rmauxUI with rmauxSetGeomTransform and, where appropriate,
* rmauxSetCamera3DTransform.
*
* Revision 1.2 2000/04/16 14:42:28 wes
* Changed "1" to RM_TRUE for variable "managed," passed to rmauxCreateXWindow.
*
* Revision 1.1.1.1 2000/02/28 21:55:30 wes
* OpenRM 1.2 Release
*
* Revision 1.10 2000/02/28 17:21:55 wes
* RM 1.2, pre-OpenRM
*
*/
#include <rm/rm.h>
#include <rm/rmaux.h>
#include "procmode.h"
static RMpipe *lone_pipe=NULL;
static RMnode *MyRoot;
int img_width=400,img_height=300;
RMenum static_stereo_format;
void
my_set_scene(RMnode *camNode,
RMenum stereo_format)
{
/*
* here, we compute the camera parameters such that all of
* the geometry is visible.
*/
RMcamera3D *c=rmCamera3DNew();
rmDefaultCamera3D(c); /* assign it some default parameters */
/* adjust the "default" camera based upon MyRoot's geometry */
rmCamera3DComputeViewFromGeometry(c,MyRoot,img_width,img_height);
if (stereo_format != RM_MONO_CHANNEL)
{
rmCamera3DSetStereo(c,RM_TRUE);
rmCamera3DSetEyeSeparation(c,2.5F);
rmCamera3DSetFocalDistance (c,0.707F);
}
rmNodeSetSceneCamera3D(camNode,c);
rmCamera3DDelete(c);
/*
* make the background black for fun
*/
{
RMcolor4D c;
c.r = c.g = c.b = c.a = 0.0;
/*
* assign a background color to take effect at "MyRoot"
*/
rmNodeSetSceneBackgroundColor(MyRoot,&c);
}
/* use RM's default lighting model, apply at rmRootNode() */
rmDefaultLighting(camNode);
}
void
my_sphere(RMnode *addto,
float cx,
float cy,
float cz,
float radius,
RMcolor3D *color)
{
RMprimitive *sprim;
RMvertex3D v;
v.x = cx;
v.y = cy;
v.z = cz;
sprim = rmPrimitiveNew(RM_SPHERES);
rmPrimitiveSetVertex3D(sprim,1,&v,RM_COPY_DATA,NULL);
rmPrimitiveSetRadii(sprim, 1, &radius, RM_COPY_DATA, NULL);
if (color != NULL)
rmPrimitiveSetColor3D(sprim, 1, color, RM_COPY_DATA, NULL);
rmPrimitiveSetModelFlag(sprim,RM_SPHERES_32);
rmNodeAddPrimitive(addto, sprim);
}
void
my_cylinder(RMnode *addto,
float p1x,
float p1y,
float p1z,
float p2x,
float p2y,
float p2z,
float radius)
{
RMvertex3D v[2];
RMprimitive *cprim;
v[0].x = p1x;
v[0].y = p1y;
v[0].z = p1z;
v[1].x = p2x;
v[1].y = p2y;
v[1].z = p2z;
cprim = rmPrimitiveNew(RM_CYLINDERS);
rmPrimitiveSetVertex3D(cprim,2,v,RM_COPY_DATA,NULL);
rmPrimitiveSetRadii(cprim, 1, &radius, RM_COPY_DATA, NULL);
rmNodeAddPrimitive(addto, cprim);
}
void
my_cone(RMnode *addto,
float p1x,
float p1y,
float p1z,
float p2x,
float p2y,
float p2z,
float radius,
RMcolor3D *color)
{
RMprimitive *cprim;
RMvertex3D v[2];
v[0].x = p1x;
v[0].y = p1y;
v[0].z = p1z;
v[1].x = p2x;
v[1].y = p2y;
v[1].z = p2z;
cprim = rmPrimitiveNew(RM_CONES);
rmPrimitiveSetVertex3D(cprim,2,v,RM_COPY_DATA,NULL);
rmPrimitiveSetRadii(cprim, 1, &radius, RM_COPY_DATA, NULL);
if (color != NULL)
rmPrimitiveSetColor3D(cprim, 1, color, RM_COPY_DATA, NULL);
rmNodeAddPrimitive(addto, cprim);
}
void
my_build_objs(void)
{
RMcolor3D color;
/* from the cones.c in the x-demos distribution*/
MyRoot = rmNodeNew("MyRoot",RM_RENDERPASS_3D, RM_RENDERPASS_OPAQUE);
/* build the jack */
/* the center sphere should be red. */
color.r = 1.0;
color.g = color.b = 0.0;
my_sphere(MyRoot,0.0F, 0.0F, 0.0F, 1.0F,&color);
/* a blue sphere at (5,0,0) */
color.r = color.g = 0.0;
color.b = 1.0;
my_sphere(MyRoot,5.0F, 0.0F, 0.0F, 1.0F,&color);
/* a white sphere opposite blue sphere at (-5, 0, 0) */
my_sphere(MyRoot,-5.0F, 0.0F, 0.0F, 1.0F,NULL);
/* a green sphere at (0,0,5) */
color.r = color.b = 0.0;
color.g = 1.0;
my_sphere(MyRoot,0.0F, 0.0F, 5.0F, 1.0F,&color);
/* a white sphere opposite the green sphere at (0,0,-5) */
my_sphere(MyRoot,0.0F, 0.0F, -5.0F, 1.0F,NULL);
my_cylinder(MyRoot,0.0F, 0.0F, 0.0F, 5.0F, 0.0F, 0.0F, 0.3F);
my_cylinder(MyRoot,0.0F, 0.0F, 0.0F, -5.0F, 0.0F, 0.0F, 0.3F);
my_cylinder(MyRoot,0.0F, 0.0F, 0.0F, 0.0F, 0.0F, 5.0F, 0.3F);
my_cylinder(MyRoot,0.0F, 0.0F, 0.0F, 0.0F, 0.0F, -5.0F, 0.3F);
{
RMcolor3D red={1.0,0.0,0.0};
/* one cone is red, one is white (default color) */
my_cone(MyRoot,0.0F,0.0F,0.0F,0.0F,6.0F,0.0F,0.5F,NULL);
my_cone(MyRoot,0.0F,0.0F,0.0F,0.0F,-6.0F,0.0F,0.5F,&red);
}
rmNodeComputeBoundingBox(MyRoot);
rmNodeAddChild(rmRootNode(),MyRoot);
rmNodeUnionAllBoxes(rmRootNode());
rmNodeComputeCenterFromBoundingBox(rmRootNode());
}
void
my_idle_func(RMpipe *p,
int ix,
int iy)
{
RMmatrix m,old;
double d,c,s;
rmMatrixIdentity(&m);
d = RM_DEGREES_TO_RADIANS(1.0);
c = cos(d);
s = sin(d);
m.m[0][0] = m.m[2][2] = c;
m.m[0][2] = -s;
m.m[2][0] = s;
if (rmNodeGetRotateMatrix(MyRoot,&old) == RM_WHACKED)
rmMatrixIdentity(&old);
rmMatrixMultiply(&old,&m,&old);
rmNodeSetRotateMatrix(MyRoot,&old);
rmFrame(lone_pipe, rmRootNode());
}
void
myinitfunc(RMpipe *p, RMnode *n)
{
my_build_objs();
my_set_scene(rmRootNode(), rmPipeGetChannelFormat(p));
/*
* set up the event handler to apply geometric transformations at
* MyRoot. note that the lights and cameras are placed at rmRootNode().
* therefore, the rotations & scaling applied at MyRoot do not affect
* the cameras & lights since they are at a higher level in the
* scene graph than MyRoot.
*/
rmauxSetGeomTransform(MyRoot,p);
rmauxSetCamera3DTransform(rmRootNode(), p);
/*
* set handler to reset aspect ratio when the window is resized.
*/
rmauxSetResizeFunc(p, rmRootNode(), rmauxDefaultResizeFunc);
/* rmStatsComputeDemography(rmRootNode()); */
if (rmPipeProcessingModeIsMultithreaded(p) == RM_TRUE)
rmFrame(p, rmRootNode());
rmFrame(p,rmRootNode());
}
void
myrenderfunc(RMpipe *p, RMnode *n)
{
/* rmStatsStartTime();*/
rmFrame(p, n);
/* rmStatsEndTime();
rmStatsPrint(); */
}
#ifdef RM_WIN
int WINAPI WinMain (HINSTANCE hInstance,
HINSTANCE hPrevInstance,
LPSTR lpszCmdLine, int nCmdShow)
{
MSG msg;
HWND hWnd;
RMenum channelFormat;
RMenum targetPlatform = RM_PIPE_WGL;
void *fptr;
#else /* assume RM_X */
int
main()
{
RMenum channelFormat;
RMenum targetPlatform = RM_PIPE_GLX;
void *msg; /* needed for rmauxEventLoop
win32/unix API consistency */
#endif
int status;
RMenum processingMode = DEFAULT_PROCESSING_MODE; /* in procmode.h */
/*
* pick a stereo format:
* RM_MONO_CHANNEL - plain old single-view
* RM_REDBLUE_STEREO_CHANNEL - left channel in red, right channel in cyan
* RM_BLUERED_STEREO_CHANNEL - left in cyan, right in red
* RM_MBUF_STEREO_CHANNEL - multibuffered stereo, requires special
* hardware.
*/
channelFormat = RM_MONO_CHANNEL;
/*
* first stage of RM initialization.
*/
rmInit();
/*
* create the rendering pipe. this step is required in both
* Win32 and X.
*/
lone_pipe = rmPipeNew(targetPlatform);
rmPipeSetProcessingMode(lone_pipe, processingMode);
#ifdef RM_WIN
{
/*
* Win32: when a window is created, we have to tell windows the
* name of the "WndProc," the procedure that gets called by
* windows with events (the event loop) (contrast to the X model
* where the name of the event loop is not part of the window).
* Since we're using RMaux, we know about the event handling
* procedure named "rmauxWndProc" and we provide that here.
*/
fptr = (void *)(rmauxWndProc);
hWnd = rmauxCreateW32Window(lone_pipe,
NULL, /* no parent window */
20,20,img_width,img_height,"RM for Windows",
hInstance,fptr);
if (hWnd == 0)
exit(-1);
/*
* assign the new window handle to the rendering pipe.
*/
rmPipeSetWindow(lone_pipe,hWnd, img_width, img_height);
}
#endif
#ifdef RM_X
{
Window w;
int managed = RM_TRUE;
w = rmauxCreateXWindow(lone_pipe,
(Window)NULL, /* parent window */
0,0,img_width,img_height,
"RM for X-Windows","icon-title",managed);
/*
* assign the window to the rendering pipe.
*/
rmPipeSetWindow(lone_pipe,w,img_width,img_height);
}
#endif
/*
* specify the name of the "init" function. the "init" function is
* mandatory in the Win32 world, and optional in the X world.
*
* in Win32, we don't want to call RM services until OpenGL is
* ready. we can be assured of readiness by using an init function
* with RMaux.
*
* in X, at this point, the window is mapped and OpenGL is ready,
* and we could call our init function directly.
*/
rmauxSetInitFunc(myinitfunc);
/* uncomment this next line if you want the object to rotate
by itself while the user is idle. */
/* rmauxSetIdleFunc(lone_pipe,my_idle_func); */
/*
* X-ism: once the window is created and assigned to the
* rendering pipe, rmUsePipe makes the OpenGL rendering context
* current for the pipe+window combination.
*
* this step is required for X. in these demo programs, it is not
* strictly required by Win32, as the newly created context is made
* current as part of the OpenGL initialization sequence.
*/
rmPipeMakeCurrent(lone_pipe);
rmauxSetRenderFunc(myrenderfunc);
/*
* set key handler function so this prog will exit on "q" key
*/
rmauxSetKeyFunc(lone_pipe, rmauxDefaultKeyFunc);
rmauxEventLoop(lone_pipe,rmRootNode(), &msg);
rmPipeDelete(lone_pipe);
rmFinish();
#ifdef RM_WIN
return( msg.wParam );
#else
return(1);
#endif
}
distrib
>
Mandriva
>
2007.0
>
i586
>
media
>
contrib-release
>
by-pkgid
>
8079d983ecf371717db799dd75bd56c2
>
files
>
140
