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authorEmanuel Haupt <ehaupt@FreeBSD.org>2006-10-04 10:54:05 +0000
committerEmanuel Haupt <ehaupt@FreeBSD.org>2006-10-04 10:54:05 +0000
commit6cdf88141ebc1ab77ee9bc735a3a9a21834d9537 (patch)
treec376a4b3287e5b4fd7b91b71b7226eeb553b7317 /graphics/ffff
parent73b9a8754861da2459ec49bd9b9fd54220dd17a2 (diff)
downloadports-6cdf88141ebc1ab77ee9bc735a3a9a21834d9537.tar.gz
ports-6cdf88141ebc1ab77ee9bc735a3a9a21834d9537.zip
Notes
Diffstat (limited to 'graphics/ffff')
-rw-r--r--graphics/ffff/Makefile49
-rw-r--r--graphics/ffff/distinfo3
-rw-r--r--graphics/ffff/files/patch-FFFF3.cpp39
-rw-r--r--graphics/ffff/files/patch-extensions.cpp56
-rw-r--r--graphics/ffff/files/patch-hole.cpp.save1125
-rw-r--r--graphics/ffff/pkg-descr18
6 files changed, 1290 insertions, 0 deletions
diff --git a/graphics/ffff/Makefile b/graphics/ffff/Makefile
new file mode 100644
index 000000000000..e8c256a0623b
--- /dev/null
+++ b/graphics/ffff/Makefile
@@ -0,0 +1,49 @@
+# Ports collection makefile for: ffff
+# Date created: Sep 20, 2006
+# Whom: rossiya@gmail.com
+#
+# $FreeBSD$
+#
+
+PORTNAME= ffff
+PORTVERSION= 323
+CATEGORIES= graphics
+MASTER_SITES= ${MASTER_SITE_SOURCEFORGE_EXTENDED}
+MASTER_SITE_SUBDIR= ${PORTNAME}
+DISTNAME= FFFF${PORTVERSION}-src
+
+MAINTAINER= rossiya@gmail.com
+COMMENT= A fast mandelbrot fractal generator
+
+LIB_DEPENDS= glut.4:${PORTSDIR}/graphics/libglut
+
+USE_DOS2UNIX= yes
+USE_GCC= 3.2+
+USE_GL= yes
+USE_XLIB= yes
+USE_ZIP= yes
+
+SOURCE= FFFF3 FragmentProgram FragmentProgramARB10 GPUProgram \
+ PixelBuffer VertexProgram VertexProgramATI VertexProgramNV \
+ extensions vpext
+
+CXXFLAGS+= -I${X11BASE}/include -I${X11BASE}/include/GL ${PTHREAD_CFLAGS} \
+ -D__linux__
+LDFLAGS+= -L${X11BASE}/lib ${PTHREAD_LIBS} -lglut -lGL -lXext -lX11 -lXmu \
+ -lGLU -lm
+
+PLIST_FILES= bin/ffff
+
+# contains x86 assembler
+ONLY_FOR_ARCHS= i386
+
+do-build:
+.for f in ${SOURCE}
+ ${CXX} ${CXXFLAGS} -c ${WRKSRC}/${f}.cpp -o ${WRKSRC}/${f}.obj
+.endfor
+ ${CXX} ${LDFLAGS} ${SOURCE:C/(.*)/${WRKSRC}\/\1.obj/} -o ${WRKSRC}/${PORTNAME}
+
+do-install:
+ ${INSTALL_PROGRAM} ${WRKSRC}/${PORTNAME} ${PREFIX}/bin
+
+.include <bsd.port.mk>
diff --git a/graphics/ffff/distinfo b/graphics/ffff/distinfo
new file mode 100644
index 000000000000..049ca195be29
--- /dev/null
+++ b/graphics/ffff/distinfo
@@ -0,0 +1,3 @@
+MD5 (FFFF323-src.zip) = ba5c63ccedfb61f5ceea431286d6d749
+SHA256 (FFFF323-src.zip) = 4781384b4c285fe61f19ba776d4a656fd5e809b9a88198a0705c8f7ca7dca715
+SIZE (FFFF323-src.zip) = 127442
diff --git a/graphics/ffff/files/patch-FFFF3.cpp b/graphics/ffff/files/patch-FFFF3.cpp
new file mode 100644
index 000000000000..518a3de7ffe1
--- /dev/null
+++ b/graphics/ffff/files/patch-FFFF3.cpp
@@ -0,0 +1,39 @@
+--- ./FFFF3.cpp.orig Wed Oct 4 11:21:15 2006
++++ ./FFFF3.cpp Wed Oct 4 11:21:35 2006
+@@ -24,6 +24,7 @@
+ ... and all the others who kindly sent code, fixes, suggestions and feedback !
+ *******************************************************************/
+
++int get_nprocs() {return 1;}
+
+ // WARNING: This source is a real mess ! :)))
+ // WARNING: This is only meant as some "portable" glue for assembly.
+@@ -70,7 +71,7 @@
+ #include <sys/select.h>
+ #include <sys/types.h>
+ #include <sys/sysctl.h>
+- #include <sys/sysinfo.h>
++// #include <sys/sysinfo.h>
+ #else
+ #include "GL/glut.h"
+ #include "GL/gl.h"
+@@ -381,7 +382,8 @@
+ }
+ #endif
+
+- avail_SSE = checkSSE();
++ //avail_SSE = checkSSE();
++ avail_SSE = 1;
+ if (avail_SSE) {
+ #if defined(__APPLE__) && __BIG_ENDIAN__
+ // PowerPC
+@@ -397,7 +399,8 @@
+ printf("Switching to machine code FPU mode.\n");
+ }
+
+- avail_SSE2 = checkSSE2();
++ //avail_SSE2 = checkSSE2();
++ avail_SSE2 = 1;
+ if (avail_SSE2) {
+ #if defined (sgi)
+ printf("MIPS dual FPU units supported.\n");
diff --git a/graphics/ffff/files/patch-extensions.cpp b/graphics/ffff/files/patch-extensions.cpp
new file mode 100644
index 000000000000..53375fc7b180
--- /dev/null
+++ b/graphics/ffff/files/patch-extensions.cpp
@@ -0,0 +1,56 @@
+--- ./extensions.cpp.orig Wed Oct 4 11:21:15 2006
++++ ./extensions.cpp Wed Oct 4 11:21:58 2006
+@@ -1,5 +1,18 @@
+ #include <stdlib.h>
+ #include <string.h>
++#include <GL/gl.h>
++#include <GL/glext.h>
++#include <GL/glx.h>
++#include <GL/glxext.h>
++#include <GL/glut.h>
++
++//typedef void (*__GLXextFuncPtr)(void);
++//extern __GLXextFuncPtr glXGetProcAddressARB (const GLubyte *);
++extern __GLXextFuncPtr glXGetProcAddressARB (GLubyte *);
++//extern void ((*(glXGetProcAddressARB))(const GLubyte *procName))( void );
++//extern void (*glXGetProcAddressARB( GLubyte *))( void );
++
++__GLXextFuncPtr glXGetProcAddressARB(unsigned char*){}
+
+ #ifdef __APPLE__
+ #include <mach-o/dyld.h>
+@@ -96,18 +109,26 @@
+ {
+ #if defined(__APPLE__) || defined(__linux__)
+ // GL_ARB_multitexture
+- pfglActiveTextureARB = (glActiveTextureARBProcPtr) GLGETPROCADDRESS((GLCHAR const*)"glActiveTextureARB");
+- pfglClientActiveTextureARB = (glClientActiveTextureARBProcPtr) GLGETPROCADDRESS((GLCHAR const*)"glClientActiveTextureARB");
++// pfglActiveTextureARB = (glActiveTextureARBProcPtr) GLGETPROCADDRESS((GLCHAR const*)"glActiveTextureARB");
++ pfglActiveTextureARB = (glActiveTextureARBProcPtr) GLGETPROCADDRESS((GLCHAR *)"glActiveTextureARB");
++// pfglClientActiveTextureARB = (glClientActiveTextureARBProcPtr) GLGETPROCADDRESS((GLCHAR const*)"glClientActiveTextureARB");
++ pfglClientActiveTextureARB = (glClientActiveTextureARBProcPtr) GLGETPROCADDRESS((GLCHAR *)"glClientActiveTextureARB");
+ if (!pfglActiveTextureARB) return false;
+ if (!pfglClientActiveTextureARB) return false;
+
+ // GL_ARB_fragment_program
+- pfglGenProgramsARB = (glGenProgramsARBProcPtr) GLGETPROCADDRESS((GLCHAR const*)"glGenProgramsARB");
+- pfglDeleteProgramsARB = (glDeleteProgramsARBProcPtr) GLGETPROCADDRESS((GLCHAR const*)"glDeleteProgramsARB");
+- pfglBindProgramARB = (glBindProgramARBProcPtr) GLGETPROCADDRESS((GLCHAR const*)"glBindProgramARB");
+- pfglProgramStringARB = (glProgramStringARBProcPtr) GLGETPROCADDRESS((GLCHAR const*)"glProgramStringARB");
+- pfglProgramEnvParameter4fARB = (glProgramEnvParameter4fARBProcPtr) GLGETPROCADDRESS((GLCHAR const*)"glProgramEnvParameter4fARB");
+- pfglGetProgramivARB = (glGetProgramivARBProcPtr) GLGETPROCADDRESS((GLCHAR const*)"glGetProgramivARB");
++// pfglGenProgramsARB = (glGenProgramsARBProcPtr) GLGETPROCADDRESS((GLCHAR const*)"glGenProgramsARB");
++ pfglGenProgramsARB = (glGenProgramsARBProcPtr) GLGETPROCADDRESS((GLCHAR *)"glGenProgramsARB");
++// pfglDeleteProgramsARB = (glDeleteProgramsARBProcPtr) GLGETPROCADDRESS((GLCHAR const*)"glDeleteProgramsARB");
++ pfglDeleteProgramsARB = (glDeleteProgramsARBProcPtr) GLGETPROCADDRESS((GLCHAR *)"glDeleteProgramsARB");
++// pfglBindProgramARB = (glBindProgramARBProcPtr) GLGETPROCADDRESS((GLCHAR const*)"glBindProgramARB");
++ pfglBindProgramARB = (glBindProgramARBProcPtr) GLGETPROCADDRESS((GLCHAR *)"glBindProgramARB");
++// pfglProgramStringARB = (glProgramStringARBProcPtr) GLGETPROCADDRESS((GLCHAR const*)"glProgramStringARB");
++ pfglProgramStringARB = (glProgramStringARBProcPtr) GLGETPROCADDRESS((GLCHAR *)"glProgramStringARB");
++// pfglProgramEnvParameter4fARB = (glProgramEnvParameter4fARBProcPtr) GLGETPROCADDRESS((GLCHAR const*)"glProgramEnvParameter4fARB");
++ pfglProgramEnvParameter4fARB = (glProgramEnvParameter4fARBProcPtr) GLGETPROCADDRESS((GLCHAR *)"glProgramEnvParameter4fARB");
++// pfglGetProgramivARB = (glGetProgramivARBProcPtr) GLGETPROCADDRESS((GLCHAR const*)"glGetProgramivARB");
++ pfglGetProgramivARB = (glGetProgramivARBProcPtr) GLGETPROCADDRESS((GLCHAR *)"glGetProgramivARB");
+ if (!pfglGenProgramsARB) return false;
+ if (!pfglDeleteProgramsARB) return false;
+ if (!pfglBindProgramARB) return false;
diff --git a/graphics/ffff/files/patch-hole.cpp.save b/graphics/ffff/files/patch-hole.cpp.save
new file mode 100644
index 000000000000..461f5d0ad20f
--- /dev/null
+++ b/graphics/ffff/files/patch-hole.cpp.save
@@ -0,0 +1,1125 @@
+--- ./hole.cpp.save.orig Wed Oct 4 11:21:15 2006
++++ ./hole.cpp.save Wed Oct 4 11:22:13 2006
+@@ -0,0 +1,1122 @@
++// ----------------------
++// OpenGL Black Hole Simulator.
++//
++// Written by and Copyright Chris Halsall (chalsall@chalsall.com).
++// First published on the O'Reilly Network on Linux.com
++// (oreilly.linux.com). September 2000. All rights reserved.
++//
++// This code is licensed under the GNU GPL Version 2.0.
++// See (URL: http://www.gnu.org/copyleft/gpl.html ) for details.
++//
++// Coded to the groovy tunes of Fluke: Risotto.
++//
++// Dedicated to Stephen W. Hawking, one of the greatest explorers
++// of our time.
++
++#define PROGRAM_TITLE "O'Reilly Net: Black Hole -- C.Halsall"
++
++
++#include <stdio.h> // Always a good idea.
++#include <stdlib.h> // For RAND_MAX.
++#include <time.h> // For our FPS stats.
++#include <math.h> // For M_PI
++#include <GL/gl.h> // OpenGL itself.
++#include <GL/glu.h> // GLU support library.
++#include <GL/glut.h> // GLUT support library.
++
++
++// A quick macro to populate a 1x3 vector array.
++#define ourVectInit(a,x,y,z) { (a)[0]=x; (a)[1]=y; (a)[2]=z; }
++
++// Structure to hold all the data for each particle.
++typedef struct {
++ int Running;
++ float Pos[3]; // Position.
++ float Vel[3]; // Velocity.
++ float Grav[3]; // Acceleration.
++ float Color[3];
++} Particle;
++
++
++// ------
++// Some global variables.
++
++// Window and Texture IDs, Window sizes.
++int Texture_ID;
++int Window_ID;
++int Window_Width=640;
++int Window_Height=480;
++
++// We'll request a sphere from the GLU library at run-time.
++struct GLUquadric *Black_Hole;
++
++// "Name" for first (and only) OpenGL display list.
++#define STAR_FIELD 1
++
++
++// Pointer for allocated array of Particles.
++Particle *Parts;
++
++// Particle status variables.
++int Parts_Running=0;
++int Parts_Allocated=0;
++int Parts_LastUnused=1;
++
++// Number of parts initially in the system. Make sure there's at least
++// one over a hundred (101, 801), so our Root particle doesn't get deleted.
++int Parts_Num = 801;
++
++float Parts_Brightness = 0.15;
++
++
++// Drawing flags.
++int Draw_Axis = 0;
++int Draw_Vectors = 0;
++int Draw_Stars = 1;
++int Heads_Up = 0;
++int Texture_On = 1;
++
++
++// Particle Gun variables.
++float Gun_PX = 0;
++float Gun_PY = 0;
++float Gun_PZ = 4;
++
++float Gun_VX =-0.135;
++float Gun_VY = 0.0125;
++float Gun_VZ = 0.0;
++float Gun_R = 0.005;
++float Gun_OffR = 0.050;
++
++// Backwards firing and off-target probabilities.
++float Gun_Back = 0.9, Gun_Off = 0.9;
++
++// '.' key toggels between keypad adjusting gun position and eject vect.
++int Gun_Control = 1;
++
++
++// Orbit and motion settings.
++int On_Orbit=1;
++int Move_Enable=1;
++int Move_Step=0;
++
++// Observer initial placement.
++float Obs_Angle=114.0;
++float Obs_Height=.2;
++float Obs_Dist=4.6;
++
++// Calculated observer location.
++float Obs[3];
++
++// How quickly do the orbits decay?
++// Lower number (limit 1) is faster decay.
++
++int Decay_Factor = 6000;
++
++// The force of gravity exterted by the black hole.
++float Grav = 0.075;
++
++// Somewhat arbitrary values for Event and Escape horizons.
++
++#define EVENT_HORIZON_GRAV .5
++
++#define ESCAPE_HORIZON 30
++#define ESCAPE_HORIZON_SQR (ESCAPE_HORIZON * ESCAPE_HORIZON)
++
++
++// ------
++// Frames per second (FPS) statistic variables and routine.
++
++#define FRAME_RATE_SAMPLES 50
++int FrameCount=0;
++float FrameRate=0;
++
++static void ourDoFPS(
++ void
++)
++{
++ static clock_t last=0;
++ clock_t now;
++ float delta;
++
++ if (++FrameCount >= FRAME_RATE_SAMPLES) {
++ now = clock();
++ delta= (now - last) / (float) CLOCKS_PER_SEC;
++ last = now;
++
++ FrameRate = FRAME_RATE_SAMPLES / delta;
++ FrameCount = 0;
++ }
++}
++
++
++// ------
++// String rendering routine; leverages on GLUT routine.
++
++static void ourPrintString(
++ void *font,
++ char *str
++)
++{
++ int i,l=strlen(str);
++
++ for(i=0;i<l;i++)
++ glutBitmapCharacter(font,*str++);
++}
++
++
++// ------
++// Reallocates our array of particles, adding to or removing as
++// requested.
++
++Particle *ourAllocParticles(
++ int Num
++)
++{
++ int i;
++ Particle *P;
++
++ P = realloc(Parts, sizeof(Particle) * Num);
++
++ if (!P)
++ return 0;
++
++ if (Parts_Allocated < Num)
++ memset( &P[Parts_Allocated],
++ 0,sizeof(Particle) * (Num-Parts_Allocated));
++
++ if (Parts_LastUnused > Num)
++ Parts_LastUnused = Num;
++
++ Parts_Running = 0;
++ for (i = 0; i < Num; i++)
++ if (P[i].Running)
++ Parts_Running++;
++
++ Parts_Allocated = Num;
++ Parts = P;
++
++ return P;
++}
++
++
++// ------
++// Function to return a random floating number between 0 and the passed
++// parameter.
++
++float ourRand(
++ float Max
++)
++{
++ return( (Max * rand()) / RAND_MAX );
++}
++
++
++// ------
++// Builds a Display List containing a random star field.
++//
++// Note: this could also be done by calculating the star points in this
++// routine, which would be faster than having OpenGL perform two
++// rotations (matrix multiplications) for each star. However, this
++// technique is simpler and faster for the programmer, and demonstrates
++// how successive transformations can be a powerful tool.
++
++void ourBuildStarfield(
++ int Stars
++)
++{
++ int Cnt;
++
++ glNewList(STAR_FIELD, GL_COMPILE);
++
++ glMatrixMode(GL_MODELVIEW);
++ glPushMatrix();
++
++ for ( Cnt = 0; Cnt < Stars; Cnt++) {
++
++ // Vary the color for each star.
++ glColor4f(
++ 0.8 + ourRand(0.2),
++ 0.8 + ourRand(0.2),
++ 0.8 + ourRand(0.2),
++ .95);
++
++ // Vary the size. Ensure integer sizes to avoid alias shimmering.
++ glPointSize(ourRand(2) > 1 ? 1.0 : 2.0);
++
++ // Spin your Universe, round and round....
++ glRotatef(ourRand(100),0.0f,1.0f,0.0f);
++ glRotatef(ourRand(100),1.0f,0.0f,0.0f);
++
++ glBegin(GL_POINTS);
++ glVertex3f(15.0, 0.0f, 0.0f);
++ glEnd();
++ }
++
++ glPopMatrix();
++ glEndList();
++}
++
++
++// ------
++// Function builds a simple alpha channel texture of a dot,
++// and then creates mipmaps. This could instead load textures from
++// graphics files from disk, or render textures based on external
++// input.
++
++void ourBuildTextures(
++ void
++)
++{
++ GLenum gluerr;
++ GLubyte tex[128][128];
++ int x,y,t;
++ int hole_size = 3300; // ~ == 57.45 ^ 2.
++
++ // Generate a texture index, then bind it for future operations.
++ glGenTextures(1,&Texture_ID);
++ glBindTexture(GL_TEXTURE_2D,Texture_ID);
++
++ // Iterate across the texture array.
++
++ for(y=0;y<128;y++) {
++ for(x=0;x<128;x++) {
++
++ // Make a round dot in the texture's alpha-channel.
++
++ // Calculate distance to center (squared).
++ t = (x-64)*(x-64) + (y-64)*(y-64) ;
++
++ if ( t < hole_size) // Don't take square root; compare squared.
++ tex[x][y]= 240 - (240 * t) / hole_size + ourRand(15);
++ else
++ tex[x][y]=0; // Outside of the dot, it's transparent.
++
++ }
++ }
++
++ // The GLU library helps us build MipMaps for our texture.
++
++ if ((gluerr=gluBuild2DMipmaps(GL_TEXTURE_2D, 1, 128, 128, GL_ALPHA,
++ GL_UNSIGNED_BYTE, (void *)tex))) {
++
++ fprintf(stderr,"GLULib%s\n",gluErrorString(gluerr));
++ exit(-1);
++ }
++
++ // Some pretty standard settings for wrapping and filtering.
++ glTexParameterf(GL_TEXTURE_2D,GL_TEXTURE_WRAP_S,GL_REPEAT);
++ glTexParameterf(GL_TEXTURE_2D,GL_TEXTURE_WRAP_T,GL_REPEAT);
++
++ glTexParameterf(GL_TEXTURE_2D,GL_TEXTURE_MIN_FILTER,GL_LINEAR_MIPMAP_LINEAR);
++ glTexParameterf(GL_TEXTURE_2D,GL_TEXTURE_MAG_FILTER,GL_LINEAR);
++
++ // We start with GL_MODULATE mode.
++ glTexEnvf(GL_TEXTURE_ENV,GL_TEXTURE_ENV_MODE,GL_MODULATE);
++}
++
++
++// ------
++// Callback routine executed whenever our window is resized. Lets us
++// request the newly appropriate perspective projection matrix for
++// our needs. Try removing the gluPerspective() call to see what happens.
++
++void cbResizeScene(
++ int Width,
++ int Height
++)
++{
++ // Let's not core dump, no matter what.
++ if (Height == 0)
++ Height = 1;
++
++ glViewport(0, 0, Width, Height);
++
++ glMatrixMode(GL_PROJECTION);
++ glLoadIdentity();
++ gluPerspective(45.0f,(GLfloat)Width/(GLfloat)Height,0.05f,100.0f);
++
++ glMatrixMode(GL_MODELVIEW);
++
++ Window_Width = Width;
++ Window_Height = Height;
++}
++
++
++// ------
++// Fires the Particle Gun, or, sets up the passed Particle to be
++// placed at the Particle Gun location, and fired in a direction
++// specified in Gun_Va, with 'a' being "X", "Y", or "Z".
++//
++// The particles are normally fired with a randomness of Gun_R.
++// Occationally (by default 10%) a larger randomness of Gun_OffR is
++// added. Also, 10% of the time, the particles are fired backwards.
++// This is used to introduce a bit of non-uniformity. Gun_R and
++// Gun_OffR can be controled with the '3' and '6', and '/' and '*'
++// keys, respectively. If set to zero, effects are removed.
++
++static void ourFireParticleGun(
++ Particle *p
++)
++{
++ float r;
++ int c;
++ int Dir = 1;
++
++ if (!p->Running) {
++ p->Running=1;
++ Parts_Running++;
++ }
++
++ if (p == Parts) { // Root part.
++ ourVectInit(p->Color,1,1,0); // Bright Yellow
++ ourVectInit(p->Pos,5.0,0,0); // Location
++ ourVectInit(p->Vel,0,Gun_VY,-Gun_VX*0.95); // Velocity
++ return;
++ }
++
++ // Regular particle.
++
++ ourVectInit(p->Pos,Gun_PX,Gun_PY,Gun_PZ);
++ r = Gun_R;
++
++// This creates a few a very unpredicatable trajectories. It actually
++// works out to be much less than a full 10 percent, as many are eatten
++// or escape within a very short period of time. Only a few enter a
++// stable orbit.
++
++ if (ourRand(1) > Gun_Off) r += Gun_OffR;
++
++ if (ourRand(1) > Gun_Back) Dir = -1;
++
++ ourVectInit(p->Vel,
++ (Gun_VX + r-ourRand(2*r)) * Dir,
++ (Gun_VY + r-ourRand(2*r)) * Dir,
++ (Gun_VZ + r-ourRand(2*r)) * Dir);
++
++ c = (int)(ourRand(5) + 1.5); // Range of 1 to 6.
++
++ // The last set of numbers bias the colors to blue. Red is nice too.
++
++ ourVectInit(p->Color,
++ (c & 0x01 ? 0.9 : 1.0) * 0.7,
++ (c & 0x02 ? 0.9 : 1.0) * 0.7,
++ (c & 0x04 ? 0.9 : 1.0) * 1.0
++ );
++}
++
++
++// ------
++// Calculates the next position based on the current velocity vector,
++// then calculates the new velocity vector based on the particle's
++// proximity to the black hole.
++//
++// We do the motion calculation before updating the velocity vector
++// (and calculating the acceleration-because-of-gravity vector) so
++// that our Vector Display option will be correct. If we didn't do
++// this, the gravity vector would not point towards (0,0,0) when
++// we drew it, outside of this function.
++
++static void ourMoveParticle(
++ Particle *p
++)
++{
++ float dp2, dsx, dsy, dsz, G, d;
++
++ // Used to randomly kill and re-create particles.
++ if (p != Parts)
++ if (ourRand(1) > 0.9998) {
++ ourFireParticleGun(p);
++ return;
++ }
++
++ // We're actually going to move this particle...
++
++ // We first move it based on the LAST iteration's
++ // calculation of the Velocity...
++ p->Pos[0] += p->Vel[0];
++ p->Pos[1] += p->Vel[1];
++ p->Pos[2] += p->Vel[2];
++
++ // ...and then proceed to calculate the force of gravity at the new
++ // position, and update our velocity vector.
++
++ dsx = p->Pos[0] * p->Pos[0];
++ dsy = p->Pos[1] * p->Pos[1];
++ dsz = p->Pos[2] * p->Pos[2];
++
++ // Calculate the square of the distance.
++ dp2 = dsx + dsy + dsz;
++
++ if (dp2) {
++ // May wish to scale dp2 (change 1.0); effects gravity gradiant.
++ G = Grav / (dp2 * 1.0);
++ d = sqrt(dp2);
++ }
++
++ // If the force of gravity is too strong, our algorithim breaks
++ // down and conservation of energy isn't maintained. We consider
++ // this the event horizon, and recycle the particle.
++ if (G > EVENT_HORIZON_GRAV) {
++ ourFireParticleGun(p);
++ return;
++ }
++
++ if (dp2 > ESCAPE_HORIZON_SQR) {
++ // Particle escaped; lucky it.
++ ourFireParticleGun(p);
++ return;
++ }
++
++ // OK, this particle is staying in the system. Calculate the
++ // vectors....
++
++ // We store the components of the force of gravity for
++ // our Vectors display. Note the negative magnitude; the vector
++ // must point _from_ our particle _towards_ (0,0,0).
++ p->Grav[0] = - G * p->Pos[0] / d;
++ p->Grav[1] = - G * p->Pos[1] / d;
++ p->Grav[2] = - G * p->Pos[2] / d;
++
++ // Simply add the gravity vector to the current velocity vector.
++ p->Vel[0] += p->Grav[0];
++ p->Vel[1] += p->Grav[1];
++ p->Vel[2] += p->Grav[2];
++
++ if (p != Parts) {
++ // This handles orbit decay; not correctly, but well enough.
++ // (Decay should be a ratio to the vector length, applied to each
++ // vector component here, rather than each component being effected
++ // based on its individual size. The effect is to circlurize the
++ // orbit, which we want anyway.)
++
++ p->Vel[0] -= p->Vel[0] / Decay_Factor;
++ p->Vel[1] -= p->Vel[1] / Decay_Factor;
++ p->Vel[2] -= p->Vel[2] / Decay_Factor;
++ }
++}
++
++
++// ------
++// Angle to Radian conversion.
++
++float ourA2R(
++ float Angle
++)
++{
++ return Angle * M_PI/180;
++}
++
++
++// ------
++// Calculates the observer's XYZ position from their Distance from
++// the origin, the angle and the height.
++
++static void ourCalcObs(void)
++{
++ Obs[0]=Obs_Dist * sin(ourA2R(Obs_Angle));
++ Obs[1]=Obs_Height;
++ Obs[2]=Obs_Dist * cos(ourA2R(Obs_Angle));
++}
++
++
++// ------
++// Draws the X, Y, and Z axis lines.
++
++void ourRenderAxis(
++ void
++)
++{
++ glBegin(GL_LINES);
++
++ glColor4f(0.5,0.5,0.0,1.0); // Mid-level yellow.
++
++ // Three primary axis lines.
++ glVertex3f(100,0,0);
++ glVertex3f(-100,0,0);
++ glVertex3f(0,100,0);
++ glVertex3f(0,-100,0);
++ glVertex3f(0,0,100);
++ glVertex3f(0,0,-100);
++
++ glColor4f(0.25,0.25,0.0,1.0); // Low-level yellow.
++
++ // Two pairs of secondary lines for X and Z axis.
++ glVertex3f(100,1,0);
++ glVertex3f(-100,1,0);
++ glVertex3f(100,-1,0);
++ glVertex3f(-100,-1,0);
++
++ glVertex3f(0,1,100);
++ glVertex3f(0,1,-100);
++ glVertex3f(0,-1,100);
++ glVertex3f(0,-1,-100);
++
++ glColor4f(0.0,0.5,0.0,1.0); // Mid-level green.
++
++ // Lable the X axis.
++ glVertex3f(1.0,0.9,0);
++ glVertex3f(1.1,0.8,0);
++ glVertex3f(1.1,0.9,0);
++ glVertex3f(1.0,0.8,0);
++
++ // And the Z.
++ glVertex3f(0,0.9,1.0);
++ glVertex3f(0,0.9,1.1);
++ glVertex3f(0,0.9,1.1);
++ glVertex3f(0,0.8,1.0);
++ glVertex3f(0,0.8,1.0);
++ glVertex3f(0,0.8,1.1);
++
++ glEnd();
++}
++
++
++// ------
++// Draws the Gravity and Velocity Vectors for each active particle.
++
++void ourRenderVectors(
++ void
++)
++{
++ int i;
++
++ glBegin(GL_LINES);
++
++ for (i=0; i<Parts_Num; i++) {
++
++ if (!Parts[i].Running) continue;
++
++ // Draw the velocity vector as green.
++ glColor4f(0.0,1.0,0.0,Parts_Brightness + .5);
++
++ glVertex3f(
++ Parts[i].Pos[0],
++ Parts[i].Pos[1],
++ Parts[i].Pos[2]
++ );
++
++ glVertex3f(
++ Parts[i].Pos[0] + Parts[i].Vel[0] ,
++ Parts[i].Pos[1] + Parts[i].Vel[1] ,
++ Parts[i].Pos[2] + Parts[i].Vel[2]
++ );
++
++ // Draw the gravity vector as red.
++ glColor4f(1.0,0.0,0.0,Parts_Brightness + .5);
++
++ glVertex3f(
++ Parts[i].Pos[0],
++ Parts[i].Pos[1],
++ Parts[i].Pos[2]
++ );
++
++ glVertex3f(
++ Parts[i].Pos[0] + Parts[i].Grav[0] ,
++ Parts[i].Pos[1] + Parts[i].Grav[1] ,
++ Parts[i].Pos[2] + Parts[i].Grav[2]
++ );
++ }
++
++ glEnd();
++}
++
++
++// ------
++// Draws the heads-up-display.
++void ourRenderHeadsUp(
++ void
++)
++{
++ char buf[80];
++
++ glLoadIdentity();
++ // We need to change the projection matrix for the text rendering.
++ glMatrixMode(GL_PROJECTION);
++
++ // But we like our current view too; so we save it here.
++ glPushMatrix();
++
++ // Now we set up a new projection for the text.
++ glLoadIdentity();
++ glOrtho(0,Window_Width,0,Window_Height,-1.0,1.0);
++
++ // No need for textured text.
++ glDisable(GL_TEXTURE_2D);
++
++ // We don't want depth-testing either.
++ glDisable(GL_DEPTH_TEST);
++
++
++ // Draw various variables for the user.
++
++ glColor3f(1.0,1.0,0.0);
++
++ sprintf(buf,"Parts: %d / %d Bright:%.2f",
++ Parts_Running, Parts_Allocated, Parts_Brightness);
++ glRasterPos2i(10,48);
++ ourPrintString(GLUT_BITMAP_HELVETICA_12,buf);
++
++ sprintf(buf,"Rnd - Normal:%.3f Extreme:%.3f",
++ Gun_R, Gun_OffR);
++ glRasterPos2i(10,6);
++ ourPrintString(GLUT_BITMAP_HELVETICA_12,buf);
++
++ if (Gun_Control)
++ glColor3f(1.0,1.0,0.0);
++ else
++ glColor3f(0.5,1.0,0.0);
++
++ sprintf(buf,"GunP: (%.3f,%.3f,%.3f)", Gun_PX, Gun_PY, Gun_PZ);
++ glRasterPos2i(10,34);
++ ourPrintString(GLUT_BITMAP_HELVETICA_12,buf);
++
++ if (!Gun_Control)
++ glColor3f(1.0,1.0,0.0);
++ else
++ glColor3f(0.5,1.0,0.0);
++
++ sprintf(buf,"GunV: (%.3f,%.3f,%.3f)",
++ Gun_VX, Gun_VY, Gun_VZ);
++ glRasterPos2i(10,20);
++ ourPrintString(GLUT_BITMAP_HELVETICA_12,buf);
++
++ // Now we want to render the calulated FPS at the top.
++
++ // To ease, simply translate up. Note we're working in screen
++ // pixels in this projection.
++
++ glTranslatef(6.0f,Window_Height - 14,0.0f);
++
++ glColor4f(0.9,0.2,0.2,.95);
++ sprintf(buf,"FPS: %f F: %2d", FrameRate, FrameCount);
++ glRasterPos2i(6,0);
++ ourPrintString(GLUT_BITMAP_HELVETICA_12,buf);
++
++ // Lets also show the current position of the Root Particle
++ sprintf(buf,"RootP: ( %-.4f, %-.4f, %-.4f)",
++ Parts->Pos[0], Parts->Pos[1],Parts->Pos[2]);
++ glRasterPos2i(6,-16);
++ ourPrintString(GLUT_BITMAP_HELVETICA_12,buf);
++
++ // And the Root Particle's velocity.
++ sprintf(buf,"RootV: ( %-.4f, %-.4f, %-.4f)",
++ Parts->Vel[0], Parts->Vel[1],Parts->Vel[2]);
++ glRasterPos2i(6,-32);
++ ourPrintString(GLUT_BITMAP_HELVETICA_12,buf);
++
++ // Done with this special projection matrix. Throw it away.
++ glPopMatrix();
++}
++
++
++// ------
++// Routine which actually does the drawing
++
++static void cbRenderScene(void)
++{
++ Particle *p;
++ int i;
++
++ // For the first few objects, we want full depth-buffer testing.
++ glEnable(GL_DEPTH_TEST);
++ glDepthMask(GL_TRUE);
++
++ // Clear the screen.
++ glClearColor(0.00,0.00,0.00,1.0);
++ glClear(GL_COLOR_BUFFER_BIT|GL_DEPTH_BUFFER_BIT);
++
++ // Ensure we're working with the model matrix.
++ glMatrixMode(GL_MODELVIEW);
++
++ // Reset to 0,0,0; no rotation, no scaling.
++ glLoadIdentity();
++
++ // Are we on-orbit, or wandering around?
++ if (On_Orbit) {
++ gluLookAt(Parts->Pos[0],Parts->Pos[1],Parts->Pos[2],
++ 0.0,0.0,0.0,
++ 0.0,1.0,0.0);
++ } else {
++ gluLookAt(Obs[0],Obs[1],Obs[2],
++ 0.0,0.0,0.0,
++ 0.0,1.0,0.0);
++ }
++
++ // No texturing.
++ glDisable(GL_TEXTURE_2D);
++
++ // Black holes are BLACK!
++ glColor4f(0.0,0.0,0,1.0);
++ gluSphere(Black_Hole,0.02,8,8);
++
++ if (Draw_Stars)
++ glCallList(STAR_FIELD);
++
++ if (Draw_Vectors)
++ ourRenderVectors();
++
++ if (Draw_Axis)
++ ourRenderAxis();
++
++ // We don't want any of the particles to obscure any others, but
++ // we DO want the black hole to block any particles behind it.
++ // Note that GL_DEPTH_TEST is still enabled.
++ glDepthMask(GL_FALSE);
++
++ // Enable the dot texture. "Oh no! Not THE DOT!"
++ if (Texture_On)
++ glEnable(GL_TEXTURE_2D);
++
++ // Iterate through the array of particles, drawing all that are
++ // active. For those that aren't active, 0.03% of the time, we
++ // introduce them into the system.
++
++ for(i=0; i<Parts_Num; i++) {
++ p = &Parts[i];
++
++ if (!p->Running) {
++ if (Move_Enable && ourRand(1) > 0.9997)
++ ourFireParticleGun(p);
++ } else {
++ // Set the part's color.
++ glColor4f(p->Color[0],p->Color[1],p->Color[2],
++ Parts_Brightness);
++
++ // Draw two intersecting quads, along XY and ZY axis.
++ glBegin(GL_QUADS);
++
++ glTexCoord2f(0.0,0.0);
++ glVertex3f(p->Pos[0]-.00,p->Pos[1]-.10,p->Pos[2]-.10);
++ glTexCoord2f(1.0,0.0);
++ glVertex3f(p->Pos[0]-.00,p->Pos[1]+.10,p->Pos[2]-.10);
++ glTexCoord2f(1.0,1.0);
++ glVertex3f(p->Pos[0]-.00,p->Pos[1]+.10,p->Pos[2]+.10);
++ glTexCoord2f(0.0,1.0);
++ glVertex3f(p->Pos[0]-.00,p->Pos[1]-.10,p->Pos[2]+.10);
++
++ glTexCoord2f(0.0,0.0);
++ glVertex3f(p->Pos[0]-.10,p->Pos[1]-.10,p->Pos[2]-.00);
++ glTexCoord2f(1.0,0.0);
++ glVertex3f(p->Pos[0]-.10,p->Pos[1]+.10,p->Pos[2]-.00);
++ glTexCoord2f(1.0,1.0);
++ glVertex3f(p->Pos[0]+.10,p->Pos[1]+.10,p->Pos[2]+.00);
++ glTexCoord2f(0.0,1.0);
++ glVertex3f(p->Pos[0]+.10,p->Pos[1]-.10,p->Pos[2]+.00);
++
++ glEnd();
++
++ if (Move_Enable)
++ ourMoveParticle(p);
++ }
++ }
++
++
++ if (Heads_Up)
++ ourRenderHeadsUp();
++
++ // All done drawing. Let's show it.
++ glutSwapBuffers();
++
++ // This handles our single-step function.
++ if (Move_Step)
++ Move_Step = Move_Enable = 0;
++
++ // Collect the FPS statistics.
++ ourDoFPS();
++}
++
++
++// ------
++// Callback function called when a normal key is pressed.
++
++void cbKeyPressed(
++ unsigned char key,
++ int x, int y
++)
++{
++ int t;
++
++ switch (key) {
++ case 27:
++ case 'q': case 'Q':
++ exit(0);
++ break;
++
++ // Toggle drawing.
++ case 'a': case 'A':
++ Draw_Axis = !Draw_Axis;
++ break;
++ case 'v': case 'V':
++ Draw_Vectors = !Draw_Vectors;
++ break;
++ case 's': case 'S':
++ Draw_Stars = !Draw_Stars;
++ break;
++
++ // Adjust particle brightness.
++ case 'b':
++ Parts_Brightness+=0.01;
++ break;
++ case 'B':
++ Parts_Brightness-=0.01;
++ break;
++
++ // Toggle being on-orbit.
++ case 'o': case 'O':
++ On_Orbit = ! On_Orbit;
++ break;
++
++ // Toggle Texture.
++ case 't': case 'T':
++ Texture_On = !Texture_On;
++ break;
++
++ // Impart an impulse on the Root particle.
++ case 'x':
++ Parts->Vel[0]+=.0001;
++ break;
++ case 'X':
++ Parts->Vel[0]-=.0001;
++ break;
++ case 'c': case 'y':
++ Parts->Vel[1]+=.0001;
++ break;
++ case 'C': case 'Y':
++ Parts->Vel[1]-=.0001;
++ break;
++ case 'z':
++ Parts->Vel[2]+=.0001;
++ break;
++ case 'Z':
++ Parts->Vel[2]-=.0001;
++ break;
++
++ case 'r': case 'R':
++ ourFireParticleGun(Parts);
++
++ // Single-step through motion calculations.
++ case 'm':
++ Move_Step = 1;
++ Move_Enable = 1;
++ break;
++
++ // Normal motion.
++ case 'M':
++ Move_Enable= !Move_Enable;
++ break;
++
++ // Heads up display.
++ case 'h': case 'H':
++ Heads_Up = !Heads_Up;
++ break;
++
++ // Inject one (or all) free particle(s).
++ case 'i': case 'I':
++ for (t=Parts_LastUnused; t<Parts_Num; t++) {
++ if (!Parts[t].Running) {
++ ourFireParticleGun(&Parts[t]);
++ Parts_LastUnused = t;
++ if (key == 'i') break;
++ }
++ }
++ break;
++
++ // Toggle gun control between ejection velocity and position.
++ case '.':
++ Gun_Control= !Gun_Control;
++ break;
++
++ // Control Particle Gun velocity vector.
++ case '7':
++ if (Gun_Control) Gun_VZ-=0.001; else Gun_PZ-=0.01;
++ break;
++ case '8':
++ if (Gun_Control) Gun_VZ+=0.001; else Gun_PZ+=0.01;
++ break;
++
++ case '4':
++ if (Gun_Control) Gun_VY-=0.001; else Gun_PY-=0.01;
++ break;
++ case '5':
++ if (Gun_Control) Gun_VY+=0.001; else Gun_PY+=0.01;
++ break;
++
++ case '1':
++ if (Gun_Control) Gun_VX-=0.001; else Gun_PX-=0.01;
++ break;
++ case '2':
++ if (Gun_Control) Gun_VX+=0.001; else Gun_PX+=0.01;
++ break;
++
++ // Range of randomness which is added to each initial velocity vector.
++ case '3':
++ Gun_R-=0.001;
++ break;
++ case '6':
++ Gun_R+=0.001;
++ break;
++
++ // Controls the large random shots which occur rarely. When set to
++ // 0, the system becomes highly controlled.
++ case '/':
++ Gun_OffR -= .001;
++ break;
++ case '*':
++ Gun_OffR += .001;
++ break;
++
++ // Adds or removes particles to/from the system.
++ case '-':
++ if (Parts_Num > 100) {
++ Parts_Num -= 100;
++ ourAllocParticles(Parts_Num);
++ }
++ break;
++
++ case '+':
++ Parts_Num += 100;
++ ourAllocParticles(Parts_Num);
++ break;
++
++ default:
++ printf("No action for %d\n", key);
++
++ }
++}
++
++
++// ------
++// Callback Function called when a special key is pressed.
++
++static void cbSpecialKeyPressed(int key, int x, int y)
++{
++ switch (key) {
++ case GLUT_KEY_PAGE_UP:
++ Obs_Dist -= 0.05f;
++ break;
++
++ case GLUT_KEY_PAGE_DOWN:
++ Obs_Dist += 0.05f;
++ break;
++
++ case GLUT_KEY_LEFT:
++ Obs_Angle-=2.0;
++ break;
++
++ case GLUT_KEY_RIGHT:
++ Obs_Angle+=2.0;
++ break;
++
++ case GLUT_KEY_DOWN:
++ Obs_Height-=0.05;
++ break;
++
++ case GLUT_KEY_UP:
++ Obs_Height+=0.06;
++ break;
++ }
++
++ // We don't know anything changed, but it never hurts.
++ ourCalcObs();
++}
++
++
++// ------
++// Does everything needed before losing control to the main
++// OpenGL event loop
++
++void ourInit(
++ int Width,
++ int Height
++)
++{
++ ourBuildTextures();
++ ourBuildStarfield(500);
++
++ glEnable(GL_BLEND);
++ glDisable(GL_ALPHA_TEST);
++
++ // Enable flat shading -- no need for smooth.
++ glShadeModel(GL_FLAT);
++
++ // Blending mode used for fire, lit gas, etc.
++ glBlendFunc(GL_SRC_ALPHA,GL_ONE);
++
++ // Calculate the non-on-orbit observer's position.
++ ourCalcObs();
++
++ // Load up the correct perspective matrix; using a callback directly.
++ cbResizeScene(Width, Height);
++
++ if (!(Black_Hole = gluNewQuadric()))
++ exit;
++
++ // Allocate our first block of particles.
++ ourAllocParticles(Parts_Num);
++
++ // Fire off the first (Root) Particle.
++ ourFireParticleGun(Parts);
++
++}
++
++
++// ------
++// The main() function. Inits OpenGL. Calls our own init function,
++// then passes control onto OpenGL.
++
++int main(int argc,char **argv)
++{
++ glutInit(&argc,argv);
++
++ // To see OpenGL drawing, take out the GLUT_DOUBLE request.
++ glutInitDisplayMode(GLUT_RGBA | GLUT_DOUBLE | GLUT_DEPTH);
++ glutInitWindowSize(Window_Width,Window_Height);
++
++ // Open a window
++
++ if (!(Window_ID=glutCreateWindow( PROGRAM_TITLE ))) {
++ fprintf(stderr,"Error opening a window.\n");
++ exit(-1);
++ }
++
++ // Register the callback function to do the drawing.
++ glutDisplayFunc(&cbRenderScene);
++
++ // If there's nothing to do, draw.
++ glutIdleFunc(&cbRenderScene);
++
++ // It's a good idea to know when our window's resized.
++ glutReshapeFunc(&cbResizeScene);
++
++ // And let's get some keyboard input.
++ glutKeyboardFunc(&cbKeyPressed);
++ glutSpecialFunc(&cbSpecialKeyPressed);
++
++ // OK, OpenGL's ready to go. Let's call our own init function.
++ ourInit(Window_Width, Window_Height);
++
++ // Print out a bit of help dialog.
++ printf("\n" PROGRAM_TITLE "\n\n\
++Use arrow keys to rotate around or move along Y axis.\n\
++Page up/down will move observer towards/away from the Y axis.\n\n\
++'O' toggles observer onto non-decaying orbit of yellow root particle.\n\
++'H' toggles heads-up-display of various status variables.\n\n\
++'x'/'X', 'c'/'C', 'z'/'Z' thrusts root particle along X, Y, Z axis\n\
++in positive/negative directions, respectively; 'R' resets.\n\n\
++Numerical Keypad controls Particle Gun parameters. '.' key switches\n\
++between effecting Gun Velocity Vector and Position.\n\n\
++'+' and '-' add to or remove particles from the system.\n\n\
++Use first letter of shown display mode settings to alter.\n\n\
++Q or [Esc] to quit; OpenGL window must have focus for input.\n");
++
++ // Pass off control to OpenGL.
++ // Above functions are called as appropriate.
++ glutMainLoop();
++
++ // Free our allocated particle array.
++ ourAllocParticles(0);
++
++ return 1;
++}
++
diff --git a/graphics/ffff/pkg-descr b/graphics/ffff/pkg-descr
new file mode 100644
index 000000000000..710a63c73264
--- /dev/null
+++ b/graphics/ffff/pkg-descr
@@ -0,0 +1,18 @@
+FFFF is a fast mandelbrot fractal generator with features such as:
+
+ * OpenGL
+ * realtime zoom
+ * SSE/AltiVec QuadPixel
+ * SSE2/3DNow! DualPixel calc
+ * FPU per pixel calc
+ * GPU asm (Fragment/Vertex) calc
+ * multiprocessor support
+ * benchmarking
+ * optimized assembler code!
+
+This port uses the standard mandelbrot fractal at near-Xaos speed. Yet every
+pixel is computed. There is also an interesting parameter ray algoritymn using
+your 3D card. A 3D card is strongly recommended for screen speed and additional
+coprocessing power.
+
+WWW: http://sourceforge.net/projects/ffff/