/* u8g22_polygon.c */ #include "u8g2.h" /*===========================================*/ /* local definitions */ typedef int16_t pg_word_t; struct pg_point_struct { pg_word_t x; pg_word_t y; }; typedef struct _pg_struct pg_struct; /* forward declaration */ struct pg_edge_struct { pg_word_t x_direction; /* 1, if x2 is greater than x1, -1 otherwise */ pg_word_t height; pg_word_t current_x_offset; pg_word_t error_offset; /* --- line loop --- */ pg_word_t current_y; pg_word_t max_y; pg_word_t current_x; pg_word_t error; /* --- outer loop --- */ uint8_t (*next_idx_fn)(pg_struct *pg, uint8_t i); uint8_t curr_idx; }; /* maximum number of points in the polygon */ /* can be redefined, but highest possible value is 254 */ #define PG_MAX_POINTS 6 /* index numbers for the pge structures below */ #define PG_LEFT 0 #define PG_RIGHT 1 struct _pg_struct { struct pg_point_struct list[PG_MAX_POINTS]; uint8_t cnt; uint8_t is_min_y_not_flat; pg_word_t total_scan_line_cnt; struct pg_edge_struct pge[2]; /* left and right line draw structures */ }; /*===========================================*/ /* procedures, which should not be inlined (save as much flash ROM as possible */ #define PG_NOINLINE U8G2_NOINLINE static uint8_t pge_Next(struct pg_edge_struct *pge) PG_NOINLINE; static uint8_t pg_inc(pg_struct *pg, uint8_t i) PG_NOINLINE; static uint8_t pg_dec(pg_struct *pg, uint8_t i) PG_NOINLINE; static void pg_expand_min_y(pg_struct *pg, pg_word_t min_y, uint8_t pge_idx) PG_NOINLINE; static void pg_line_init(pg_struct * const pg, uint8_t pge_index) PG_NOINLINE; /*===========================================*/ /* line draw algorithm */ static uint8_t pge_Next(struct pg_edge_struct *pge) { if ( pge->current_y >= pge->max_y ) return 0; pge->current_x += pge->current_x_offset; pge->error += pge->error_offset; if ( pge->error > 0 ) { pge->current_x += pge->x_direction; pge->error -= pge->height; } pge->current_y++; return 1; } /* assumes y2 > y1 */ static void pge_Init(struct pg_edge_struct *pge, pg_word_t x1, pg_word_t y1, pg_word_t x2, pg_word_t y2) { pg_word_t dx = x2 - x1; pg_word_t width; pge->height = y2 - y1; pge->max_y = y2; pge->current_y = y1; pge->current_x = x1; if ( dx >= 0 ) { pge->x_direction = 1; width = dx; pge->error = 0; } else { pge->x_direction = -1; width = -dx; pge->error = 1 - pge->height; } pge->current_x_offset = dx / pge->height; pge->error_offset = width % pge->height; } /*===========================================*/ /* convex polygon algorithm */ static uint8_t pg_inc(pg_struct *pg, uint8_t i) { i++; if ( i >= pg->cnt ) i = 0; return i; } static uint8_t pg_dec(pg_struct *pg, uint8_t i) { i--; if ( i >= pg->cnt ) i = pg->cnt-1; return i; } static void pg_expand_min_y(pg_struct *pg, pg_word_t min_y, uint8_t pge_idx) { uint8_t i = pg->pge[pge_idx].curr_idx; for(;;) { i = pg->pge[pge_idx].next_idx_fn(pg, i); if ( pg->list[i].y != min_y ) break; pg->pge[pge_idx].curr_idx = i; } } static uint8_t pg_prepare(pg_struct *pg) { pg_word_t max_y; pg_word_t min_y; uint8_t i; /* setup the next index procedures */ pg->pge[PG_RIGHT].next_idx_fn = pg_inc; pg->pge[PG_LEFT].next_idx_fn = pg_dec; /* search for highest and lowest point */ max_y = pg->list[0].y; min_y = pg->list[0].y; pg->pge[PG_LEFT].curr_idx = 0; for( i = 1; i < pg->cnt; i++ ) { if ( max_y < pg->list[i].y ) { max_y = pg->list[i].y; } if ( min_y > pg->list[i].y ) { pg->pge[PG_LEFT].curr_idx = i; min_y = pg->list[i].y; } } /* calculate total number of scan lines */ pg->total_scan_line_cnt = max_y; pg->total_scan_line_cnt -= min_y; /* exit if polygon height is zero */ if ( pg->total_scan_line_cnt == 0 ) return 0; /* if the minimum y side is flat, try to find the lowest and highest x points */ pg->pge[PG_RIGHT].curr_idx = pg->pge[PG_LEFT].curr_idx; pg_expand_min_y(pg, min_y, PG_RIGHT); pg_expand_min_y(pg, min_y, PG_LEFT); /* check if the min side is really flat (depends on the x values) */ pg->is_min_y_not_flat = 1; if ( pg->list[pg->pge[PG_LEFT].curr_idx].x != pg->list[pg->pge[PG_RIGHT].curr_idx].x ) { pg->is_min_y_not_flat = 0; } else { pg->total_scan_line_cnt--; if ( pg->total_scan_line_cnt == 0 ) return 0; } return 1; } static void pg_hline(pg_struct *pg, u8g2_t *u8g2) { pg_word_t x1, x2, y; x1 = pg->pge[PG_LEFT].current_x; x2 = pg->pge[PG_RIGHT].current_x; y = pg->pge[PG_RIGHT].current_y; if ( y < 0 ) return; if ( y >= u8g2_GetDisplayHeight(u8g2) ) // does not work for 256x64 display??? return; if ( x1 < x2 ) { if ( x2 < 0 ) return; if ( x1 >= u8g2_GetDisplayWidth(u8g2) ) return; if ( x1 < 0 ) x1 = 0; if ( x2 >= u8g2_GetDisplayWidth(u8g2) ) x2 = u8g2_GetDisplayWidth(u8g2); u8g2_DrawHLine(u8g2, x1, y, x2 - x1); } else { if ( x1 < 0 ) return; if ( x2 >= u8g2_GetDisplayWidth(u8g2) ) return; if ( x2 < 0 ) x1 = 0; if ( x1 >= u8g2_GetDisplayWidth(u8g2) ) x1 = u8g2_GetDisplayWidth(u8g2); u8g2_DrawHLine(u8g2, x2, y, x1 - x2); } } static void pg_line_init(pg_struct * const pg, uint8_t pge_index) { struct pg_edge_struct *pge = pg->pge+pge_index; uint8_t idx; pg_word_t x1; pg_word_t y1; pg_word_t x2; pg_word_t y2; idx = pge->curr_idx; y1 = pg->list[idx].y; x1 = pg->list[idx].x; idx = pge->next_idx_fn(pg, idx); y2 = pg->list[idx].y; x2 = pg->list[idx].x; pge->curr_idx = idx; pge_Init(pge, x1, y1, x2, y2); } static void pg_exec(pg_struct *pg, u8g2_t *u8g2) { pg_word_t i = pg->total_scan_line_cnt; /* first line is skipped if the min y line is not flat */ pg_line_init(pg, PG_LEFT); pg_line_init(pg, PG_RIGHT); if ( pg->is_min_y_not_flat != 0 ) { pge_Next(&(pg->pge[PG_LEFT])); pge_Next(&(pg->pge[PG_RIGHT])); } do { pg_hline(pg, u8g2); while ( pge_Next(&(pg->pge[PG_LEFT])) == 0 ) { pg_line_init(pg, PG_LEFT); } while ( pge_Next(&(pg->pge[PG_RIGHT])) == 0 ) { pg_line_init(pg, PG_RIGHT); } i--; } while( i > 0 ); } /*===========================================*/ /* API procedures */ static void pg_ClearPolygonXY(pg_struct *pg) { pg->cnt = 0; } static void pg_AddPolygonXY(pg_struct *pg, int16_t x, int16_t y) { if ( pg->cnt < PG_MAX_POINTS ) { pg->list[pg->cnt].x = x; pg->list[pg->cnt].y = y; pg->cnt++; } } static void pg_DrawPolygon(pg_struct *pg, u8g2_t *u8g2) { if ( pg_prepare(pg) == 0 ) return; pg_exec(pg, u8g2); } pg_struct u8g2_pg; void u8g2_ClearPolygonXY(void) { pg_ClearPolygonXY(&u8g2_pg); } void u8g2_AddPolygonXY(U8X8_UNUSED u8g2_t *u8g2, int16_t x, int16_t y) { pg_AddPolygonXY(&u8g2_pg, x, y); } void u8g2_DrawPolygon(u8g2_t *u8g2) { pg_DrawPolygon(&u8g2_pg, u8g2); } void u8g2_DrawTriangle(u8g2_t *u8g2, int16_t x0, int16_t y0, int16_t x1, int16_t y1, int16_t x2, int16_t y2) { u8g2_ClearPolygonXY(); u8g2_AddPolygonXY(u8g2, x0, y0); u8g2_AddPolygonXY(u8g2, x1, y1); u8g2_AddPolygonXY(u8g2, x2, y2); u8g2_DrawPolygon(u8g2); }