/*************************************************************************** * __________ __ ___. * Open \______ \ ____ ____ | | _\_ |__ _______ ___ * Source | _// _ \_/ ___\| |/ /| __ \ / _ \ \/ / * Jukebox | | ( <_> ) \___| < | \_\ ( <_> > < < * Firmware |____|_ /\____/ \___ >__|_ \|___ /\____/__/\_ \ * \/ \/ \/ \/ \/ * $Id$ * * Copyright (C) 2005 Kevin Ferrare * * Mystify demo plugin * * 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 software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY * KIND, either express or implied. * ****************************************************************************/ #include "plugin.h" #ifdef HAVE_LCD_BITMAP #include "pluginlib_actions.h" #include "helper.h" PLUGIN_HEADER #define DEFAULT_WAIT_TIME 3 #define DEFAULT_NB_POLYGONS 7 #define NB_POINTS 4 #define MAX_STEP_RANGE 7 #define MIN_STEP_RANGE 3 #define MAX_POLYGONS 40 #define MIN_POLYGONS 1 /* Key assignement */ #define DEMYSTIFY_QUIT PLA_QUIT #define DEMYSTIFY_INCREASE_SPEED PLA_RIGHT #define DEMYSTIFY_DECREASE_SPEED PLA_LEFT #define DEMYSTIFY_INCREASE_SPEED_REPEAT PLA_RIGHT_REPEAT #define DEMYSTIFY_DECREASE_SPEED_REPEAT PLA_LEFT_REPEAT #define DEMYSTIFY_ADD_POLYGON PLA_UP #define DEMYSTIFY_REMOVE_POLYGON PLA_DOWN #define DEMYSTIFY_ADD_POLYGON_REPEAT PLA_UP_REPEAT #define DEMYSTIFY_REMOVE_POLYGON_REPEAT PLA_DOWN_REPEAT const struct button_mapping *plugin_contexts[] = {generic_directions, generic_actions, #if defined(HAVE_REMOTE_LCD) remote_directions #endif }; #define NB_ACTION_CONTEXTS \ sizeof(plugin_contexts)/sizeof(struct button_mapping*) #ifdef HAVE_LCD_COLOR struct line_color { int r,g,b; int current_r,current_g,current_b; }; #endif /******************************* Globals ***********************************/ static const struct plugin_api* rb; /* global api struct pointer */ /* * Compute a new random step to make the point bounce the borders of the screen */ int get_new_step(int step) { if(step>0) return -(MIN_STEP_RANGE + rb->rand() % (MAX_STEP_RANGE-MIN_STEP_RANGE)); else return (MIN_STEP_RANGE + rb->rand() % (MAX_STEP_RANGE-MIN_STEP_RANGE)); } /* * Point Stuffs */ struct point { int x; int y; }; /* * Polygon Stuffs */ struct polygon { struct point points[NB_POINTS]; }; /* * Generates a random polygon (which fits the screen size though) */ void polygon_init(struct polygon * polygon, struct screen * display) { int i; for(i=0;ipoints[i].x=(rb->rand() % (display->getwidth())); polygon->points[i].y=(rb->rand() % (display->getheight())); } } /* * Draw the given polygon onto the screen */ void polygon_draw(struct polygon * polygon, struct screen * display) { int i; for(i=0;idrawline(polygon->points[i].x, polygon->points[i].y, polygon->points[i+1].x, polygon->points[i+1].y); } display->drawline(polygon->points[0].x, polygon->points[0].y, polygon->points[NB_POINTS-1].x, polygon->points[NB_POINTS-1].y); } /* * Polygon moving data Stuffs */ struct polygon_move { struct point move_steps[NB_POINTS]; }; void polygon_move_init(struct polygon_move * polygon_move) { int i; for(i=0;imove_steps[i].x=get_new_step(-1); /* -1 because we want a positive random step */ polygon_move->move_steps[i].y=get_new_step(-1); } } /* * Update the given polygon's position according to the given informations in * polygon_move (polygon_move may be updated) */ void polygon_update(struct polygon *polygon, struct screen * display, struct polygon_move *polygon_move) { int i, x, y, step; for(i=0;ipoints[i].x; step=polygon_move->move_steps[i].x; x+=step; if(x<=0) { x=1; polygon_move->move_steps[i].x=get_new_step(step); } else if(x>=display->getwidth()) { x=display->getwidth()-1; polygon_move->move_steps[i].x=get_new_step(step); } polygon->points[i].x=x; y=polygon->points[i].y; step=polygon_move->move_steps[i].y; y+=step; if(y<=0) { y=1; polygon_move->move_steps[i].y=get_new_step(step); } else if(y>=display->getheight()) { y=display->getheight()-1; polygon_move->move_steps[i].y=get_new_step(step); } polygon->points[i].y=y; } } /* * Polygon fifo Stuffs */ struct polygon_fifo { int fifo_tail; int fifo_head; int nb_items; struct polygon tab[MAX_POLYGONS]; }; void fifo_init(struct polygon_fifo * fifo) { fifo->fifo_tail=0; fifo->fifo_head=0; fifo->nb_items=0; } void fifo_push(struct polygon_fifo * fifo, struct polygon * polygon) { if(fifo->nb_items>=MAX_POLYGONS) return; ++(fifo->nb_items); /* * Workaround for gcc (which uses memcpy internally) to avoid link error * fifo->tab[fifo->fifo_head]=polygon */ rb->memcpy(&(fifo->tab[fifo->fifo_head]), polygon, sizeof(struct polygon)); ++(fifo->fifo_head); if(fifo->fifo_head>=MAX_POLYGONS) fifo->fifo_head=0; } struct polygon * fifo_pop(struct polygon_fifo * fifo) { int index; if(fifo->nb_items==0) return(NULL); --(fifo->nb_items); index=fifo->fifo_tail; ++(fifo->fifo_tail); if(fifo->fifo_tail>=MAX_POLYGONS) fifo->fifo_tail=0; return(&(fifo->tab[index])); } /* * Drawing stuffs */ void polygons_draw(struct polygon_fifo * polygons, struct screen * display) { int i, j; for(i=0, j=polygons->fifo_tail;inb_items;++i, ++j) { if(j>=MAX_POLYGONS) j=0; polygon_draw(&(polygons->tab[j]), display); } } void cleanup(void *parameter) { (void)parameter; backlight_use_settings(rb); #ifdef HAVE_REMOTE_LCD remote_backlight_use_settings(rb); #endif } #ifdef HAVE_LCD_COLOR void color_randomize(struct line_color * color) { color->r = rb->rand()%255; color->g = rb->rand()%255; color->b = rb->rand()%255; } void color_init(struct line_color * color) { color_randomize(color); color->current_r=color->r; color->current_g=color->g; color->current_b=color->b; } void color_change(struct line_color * color) { if(color->current_rr) ++color->current_r; else if(color->current_r>color->r) --color->current_r; if(color->current_gg) ++color->current_g; else if(color->current_g>color->g) --color->current_g; if(color->current_bb) ++color->current_b; else if(color->current_b>color->b) --color->current_b; if(color->current_r==color->r && color->current_g==color->g && color->current_b==color->b) color_randomize(color); } #define COLOR_RGBPACK(color) \ LCD_RGBPACK((color)->current_r, (color)->current_g, (color)->current_b) void color_apply(struct line_color * color, struct screen * display) { if (display->is_color){ unsigned foreground= SCREEN_COLOR_TO_NATIVE(display,COLOR_RGBPACK(color)); display->set_foreground(foreground); } } #endif /* * Main function */ int plugin_main(void) { int action; int sleep_time=DEFAULT_WAIT_TIME; int nb_wanted_polygons=DEFAULT_NB_POLYGONS; int i; struct polygon_fifo polygons[NB_SCREENS]; struct polygon_move move[NB_SCREENS]; /* This describes the movement of the leading polygon, the others just follow */ struct polygon leading_polygon[NB_SCREENS]; FOR_NB_SCREENS(i) { #ifdef HAVE_LCD_COLOR struct screen *display = rb->screens[i]; if (display->is_color) display->set_background(LCD_BLACK); #endif fifo_init(&polygons[i]); polygon_move_init(&move[i]); polygon_init(&leading_polygon[i], rb->screens[i]); } #ifdef HAVE_LCD_COLOR struct line_color color; color_init(&color); #endif while (true) { FOR_NB_SCREENS(i) { struct screen * display=rb->screens[i]; if(polygons[i].nb_items>nb_wanted_polygons) { /* We have too many polygons, we must drop some of them */ fifo_pop(&polygons[i]); } if(nb_wanted_polygons==polygons[i].nb_items) { /* We have the good number of polygons, we can safely drop the last one to add the new one later */ fifo_pop(&polygons[i]); } fifo_push(&polygons[i], &leading_polygon[i]); /* * Then we update the leading polygon for the next round acording to * current move (the move may be altered in case of sreen border * collision) */ polygon_update(&leading_polygon[i], display, &move[i]); /* Now the drawing part */ #ifdef HAVE_LCD_COLOR color_apply(&color, display); #endif display->clear_display(); polygons_draw(&polygons[i], display); display->update(); } #ifdef HAVE_LCD_COLOR color_change(&color); #endif /* Speed handling*/ if (sleep_time<0)/* full speed */ rb->yield(); else rb->sleep(sleep_time); action = pluginlib_getaction(rb, TIMEOUT_NOBLOCK, plugin_contexts, NB_ACTION_CONTEXTS); switch(action) { case DEMYSTIFY_QUIT: cleanup(NULL); return PLUGIN_OK; case DEMYSTIFY_ADD_POLYGON: case DEMYSTIFY_ADD_POLYGON_REPEAT: if(nb_wanted_polygonsMIN_POLYGONS) --nb_wanted_polygons; break; case DEMYSTIFY_INCREASE_SPEED: case DEMYSTIFY_INCREASE_SPEED_REPEAT: if(sleep_time>=0) --sleep_time; break; case DEMYSTIFY_DECREASE_SPEED: case DEMYSTIFY_DECREASE_SPEED_REPEAT: ++sleep_time; break; default: if (rb->default_event_handler_ex(action, cleanup, NULL) == SYS_USB_CONNECTED) return PLUGIN_USB_CONNECTED; break; } } } /*************************** Plugin entry point ****************************/ enum plugin_status plugin_start(const struct plugin_api* api, const void* parameter) { int ret; rb = api; /* copy to global api pointer */ (void)parameter; #if LCD_DEPTH > 1 rb->lcd_set_backdrop(NULL); #endif backlight_force_on(rb); /* backlight control in lib/helper.c */ #ifdef HAVE_REMOTE_LCD remote_backlight_force_on(rb); /* remote backlight control in lib/helper.c */ #endif ret = plugin_main(); return ret; } #endif /* #ifdef HAVE_LCD_BITMAP */