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[/] [openrisc/] [trunk/] [rtos/] [ecos-2.0/] [packages/] [services/] [gfx/] [mw/] [v2_0/] [src/] [demos/] [nanox/] [nsaver.h] - Rev 27
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#ifndef NSAVER_H #define NSAVER_H /* * The contents of this file are subject to the Mozilla Public License * Version 1.1 (the "License"); you may not use this file except in * compliance with the License. You may obtain a copy of the License at * http://www.mozilla.org/MPL/ * * Software distributed under the License is distributed on an "AS IS" * basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See the * License for the specific language governing rights and limitations * under the License. * * The Original Code is NanoScreenSaver. * * The Initial Developer of the Original Code is Alex Holden. * Portions created by Alex Holden are Copyright (C) 2000 * Alex Holden <alex@linuxhacker.org>. All Rights Reserved. * * Contributor(s): * * Alternatively, the contents of this file may be used under the terms * of the GNU General Public license (the "[GNU] License"), in which case the * provisions of [GNU] License are applicable instead of those * above. If you wish to allow use of your version of this file only * under the terms of the [GNU] License and not to allow others to use * your version of this file under the MPL, indicate your decision by * deleting the provisions above and replace them with the notice and * other provisions required by the [GNU] License. If you do not delete * the provisions above, a recipient may use your version of this file * under either the MPL or the [GNU] License. */ #define MAX(X, Y) ((X) > (Y) ? (X) : (Y)) #define MIN(X, Y) ((X) < (Y) ? (X) : (Y)) #define RANDRANGE(LO, HI) ((LO) + ((double)((HI) - (LO)) * rand() \ / (RAND_MAX + 1.0))) typedef struct { GR_WINDOW_ID main_window; GR_GC_ID main_gc; GR_EVENT event; long animate_interval; struct timeval timeout; int saver; void *priv; GR_SCREEN_INFO si; } nstate; void *my_malloc(size_t size); void get_random_point_on_screen(nstate *state, GR_COORD *x, GR_COORD *y, GR_COLOR *c); int init(nstate *state); void calculate_timeout(nstate *state); unsigned long timeout_delay(nstate *state); unsigned long timeout_delay(nstate *state); void do_animate(nstate *state); int do_screensaver_event(nstate *state); int handle_event(nstate *state); #define NUM_SAVERS 8 void saver1_init(nstate *state); void saver1_exposure(nstate *state); void saver1_animate(nstate *state); #define SAVER2_DELAY 1 #define SAVER2_MAXPIXELS 65535 #define SAVER2_PIXELS_PER_FRAME 16 void saver2_init(nstate *state); void saver2_exposure(nstate *state); void saver2_animate(nstate *state); #define SAVER3_DELAY 1 #define SAVER3_MAXSEGMENTS 65535 #define SAVER3_SEGMENTS_PER_FRAME 4 typedef struct { int maxsegments; GR_COORD lastx; GR_COORD lasty; } s3state; void saver3_init(nstate *state); void saver3_exposure(nstate *state); void saver3_animate(nstate *state); #define SAVER4_DELAY 4 #define SAVER4_NUMWORMS 10 #define SAVER4_WORMLENGTH 100 #define SAVER4_COLLISION_RELUCTANCE 20 typedef struct { GR_COLOR colour; GR_POINT points[SAVER4_WORMLENGTH]; } s4worm; typedef struct { int length; int tip; s4worm worms[SAVER4_NUMWORMS]; } s4state; void saver4_init(nstate *state); void saver4_exposure(nstate *state); void saver4_get_new_worm_position(nstate *state, s4state *s, int worm, GR_COORD *newx, GR_COORD *newy); int saver4_worm_collides(nstate *state, s4state *s, int x, int y, int thisworm, int thispoint); void saver4_animate(nstate *state); #define SAVER5_DELAY 1 #define SAVER5_NUMSTARS 300 #define SAVER5_STARS_INCREMENT 2 #define SAVER5_STARS_ACCEL_RATE 30 typedef struct { double angle; int pos; } s5star; typedef struct { int numstars; s5star stars[SAVER5_NUMSTARS]; } s5state; void saver5_init(nstate *state); int saver5_drawstar(nstate *state, s5state *s, int star, int delete); void saver5_exposure(nstate *state); void saver5_animate(nstate *state); #define SAVER6_DELAY 5 #define SAVER6_MAXVERTICES 20 #define SAVER6_MINFULLVERTICES 5 #define SAVER6_MINVERTICES 3 #define SAVER6_MINDROP 10 #define SAVER6_MAXBOLTS 4 #define SAVER6_MAXFORKS 20 #define SAVER6_MAXEND_Y 50 #define SAVER6_THICKNESS 6 #define SAVER6_MINDURATION 10 #define SAVER6_MAXDURATION 20 #define SAVER6_MAXNEWBOLTTIME 300 #define SAVER6_MAXZIGZAG 10 #define SAVER6_MAXPERTURBATION 5 #define SAVER6_FORK_PROBABILITY 0.5 typedef struct { int valid; GR_POINT vertices[SAVER6_THICKNESS][SAVER6_MAXVERTICES]; } s6fork; typedef struct { int duration; s6fork forks[SAVER6_MAXFORKS]; } s6bolt; typedef struct { int new_bolt_time; s6bolt bolts[SAVER6_MAXBOLTS]; } s6state; void saver6_init(nstate *state); void saver6_drawfork(nstate *state, s6state *s, int bolt, int fork, int delete); void saver6_drawbolt(nstate *state, s6state *s, int bolt, int delete); void saver6_drawlightning(nstate *state, s6state *s, int delete); void saver6_exposure(nstate *state); void saver6_setvertices(s6state *s, int bolt, int fork, int vert, GR_COORD x, GR_COORD y); void saver6_makefork(nstate *state, s6state *s, int bolt, int fork, GR_COORD x, GR_COORD y); void saver6_perturb(nstate *state, GR_COORD *x, GR_COORD *y, int maxperturb); void saver6_makebolt(nstate *state, s6state *s, int bolt); void saver6_newbolt(nstate *state, s6state *s); void saver6_perturb_bolt(nstate *state, s6state *s, int bolt, int fork); void saver6_perturb_lightning(nstate *state, s6state *s); void saver6_animate(nstate *state); /* The algorithm used in saver7 was adapted from "grav" by Greg Bowering */ #define SAVER7_DELAY 2 #define SAVER7_PLANETS 15 #define SAVER7_PLANETS_USE_DAMPING #define SAVER7_STARCOLOUR YELLOW #define SAVER7_STARRADIUS 5 #define SAVER7_PLANETRADIUS 3 #define SAVER7_DIST 16.0 #define SAVER7_ALMOSTDIST (SAVER7_DIST - 0.01) #define SAVER7_MAX_STARTDIM (SAVER7_ALMOSTDIST / 2.0) #define SAVER7_MIN_STARTDIM -SAVER7_MAX_STARTDIM #define SAVER7_MAX_STARTVEL 0.04 #define SAVER7_MIN_STARTVEL -SAVER7_MAX_STARTVEL #define SAVER7_G -0.02 #define SAVER7_COLLIDE 0.0001 #define SAVER7_DAMPING_FACTOR 0.999999 #define SAVER7_MAX_ACCEL 0.1 typedef struct { double r; double rv; double x; double xv; double y; double yv; GR_COORD ax; GR_COORD ay; GR_COLOR colour; } s7planet; typedef struct { s7planet planets[SAVER7_PLANETS]; GR_COORD starx; GR_COORD stary; } s7state; void saver7_init(nstate *state); void saver7_exposure(nstate *state); void saver7_animate(nstate *state); /* The algorithm used in saver8 is based on that found at: http://www.go2net.com/internet/deep/1997/04/16/body.html */ #define SAVER8_DELAY 1 #define SAVER8_NUMCOLOURS 64 /* Don't set this higher than 512! */ #define SAVER8_MINFACTOR 1 #define SAVER8_MAXFACTOR 20 #define SAVER8_LINES_PER_FRAME 5 typedef struct { GR_COLOR colours[SAVER8_NUMCOLOURS]; int current_line; int factor; } s8state; void saver8_init(nstate *state); void saver8_drawpattern(nstate *state); void saver8_exposure(nstate *state); void saver8_animate(nstate *state); typedef void(*saver_function)(nstate *); saver_function init_functions[NUM_SAVERS] = { saver1_init, saver2_init, saver3_init, saver4_init, saver5_init, saver6_init, saver7_init, saver8_init }; saver_function exposure_functions[NUM_SAVERS] = { saver1_exposure, saver2_exposure, saver3_exposure, saver4_exposure, saver5_exposure, saver6_exposure, saver7_exposure, saver8_exposure }; saver_function animate_functions[NUM_SAVERS] = { saver1_animate, saver2_animate, saver3_animate, saver4_animate, saver5_animate, saver6_animate, saver7_animate, saver8_animate }; #endif
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