/* * This is a "Library" of sorts, where I have made several (admittedly basic) * functions based off of the original examples provided. Currently these are aimed at * displaying what I'll dub "Pixols", the 2D array that contains the pixels and RGB * values resulting from using the python image converter. * * You can flash this directly to your pixel to see a demonstration of each * * Note that this does not interact with the MPU */ #include #include #include #include #include "pixols.h" #define DATAPIN 19 #define CLOCKPIN 18 #define BRIGHTNESS 15 #define TOTALPXLS 256 // The total number of LEDs // This structure stores the state of all of the LEDS // The loop will reset various parts of this, such as the active state // to allow multiple animations to occurr in a row struct PXL { byte id: 1; byte r: 1; byte g: 1; byte b: 1; byte active: 1; }; struct PXL pixols[TOTALPXLS]; Adafruit_DotStarMatrix matrix = Adafruit_DotStarMatrix( 16, 16, DATAPIN, CLOCKPIN, DS_MATRIX_TOP + DS_MATRIX_LEFT + DS_MATRIX_ROWS + DS_MATRIX_PROGRESSIVE, DOTSTAR_BGR); int activePixelCount() { int totalActive = 0; for (int cnt = 0; cnt < TOTALPXLS; cnt++) { if (pixols[cnt].active == true) totalActive++; } return totalActive; } // Use this at the beginning of functions that set the active state void resetActiveState() { for (int i = 0; i < TOTALPXLS; i++) pixols[i].active = false; } /* * showPxl, displays a Pixol to the display with no animation * args: * - pxl[TOTALPXLS][3] - Standard Pixol image * - dlytime - The amount of time (in ms) to keep the image on the display * - color (optional) - Whether or not to set the active pixel's color to its stored value */ void showPxl(int pxl[TOTALPXLS][3], int dlytime, bool color=false) { resetActiveState(); for (int i=0; i < TOTALPXLS; i++){ if (pxl[i][0] != 0 && pxl[i][1] != 0 && pxl[i][2] != 0) { pixols[i].active = true; } if (!color) { matrix.setPixelColor(i, pxl[i][0], pxl[i][1], pxl[i][2]); }else { if (pixols[i].active) { matrix.setPixelColor(i, pxl[i][pixols[i].r], pxl[i][pixols[i].g], pxl[i][pixols[i].b]); } } } matrix.show(); delay(dlytime); matrix.fillScreen(0); matrix.show(); } // Notification functions /* * notifyPopupPxl, draws a Pixol that scrolls into view, and back down * args: * - pxl[TOTALPXLS][3] - Standard Pixol image * - dlytime - The amount of time (in ms) to keep the image on the display */ void notifyPopupPxl(int pxl[TOTALPXLS][3], int dlytime) { for (int j = 15; j >= 0; j--) { for (int i = 0; i < TOTALPXLS; i++) { matrix.setPixelColor(i + (j * 16), pxl[i][0], pxl[i][1], pxl[i][2]); } matrix.show(); delay(50); } delay(dlytime); for (int j = 0; j <= 16; j++) { for (int i = 0; i < TOTALPXLS; i++) { matrix.setPixelColor(i + (j * 16), pxl[i][0], pxl[i][1], pxl[i][2]); } matrix.show(); delay(50); } delay(100); } /* * notifyScrollPxl, draws a Pixol that scrolls upward into view, and upwards out; Loop this to scroll X times * args: * - pxl[TOTALPXLS][3] - Standard Pixol image * - dlytime - The amount of time (in ms) to keep the image on the display * - loops (optional) - The total amount of times this should loop through */ void notifyScrollPxl(int pxl[TOTALPXLS][3], int dlytime, int loops=0) { for (int x=0; x<=loops; x++) { for (int j = 15; j >= 0; j--) { for (int i = 0; i < TOTALPXLS; i++) { matrix.setPixelColor(i + (j * 16), pxl[i][0], pxl[i][1], pxl[i][2]); } matrix.show(); delay(15); } delay(dlytime); for (int j = 0; j >= -16; j--) { for (int i = 0; i < TOTALPXLS; i++) { matrix.setPixelColor(i + (j * 16), pxl[i][0], pxl[i][1], pxl[i][2]); } matrix.show(); delay(15); } delay(100); } } /* * notifyBlinkPxl, flash a Pixol on screen repeatedly * args: * - pxl[TOTALPXLS][3] - Standard Pixol image, displayed all at once * - dlytime - The amount of time (in ms) to keep the image on the display * - loops (optional) - The total amount of times this should blink * - color (optional) - Whether or not to set the active pixel's color to its stored value */ void notifyBlinkPxl(int pxl[TOTALPXLS][3], int dlytime, int loops=0, bool color=false) { for (int i = 0; i <= loops; i++) { showPxl(pxl, dlytime, color); showPxl(darkness, dlytime, color); } } // "Animation" or picture transition functions /* * scanChangePxl, Change from one Pixol to another with a scanline appearence * args: * - src[TOTALPXLS][3] - Standard Pixo-Style icon that we change from, displayed all at once * - dst[TOTALPXLS][3] - Standard Pixo-Style icon that we change to, displayed one pixel at a time * - dlytime - The amount of time (in ms) to keep the image on the display * - anitime - The amount of time (in ms) between drawing each pixel during the transition; the lower this number, the faster the transition */ void scanChangePxl(int src[TOTALPXLS][3], int dst[TOTALPXLS][3], int dlytime, int anitime) { for (int i=0; i= TOTALPXLS) break; } delay(dlytime); } void setup(void) { matrix.begin(); matrix.setBrightness(BRIGHTNESS); // Initialize our pixel structure for (int cnt = 0; cnt < TOTALPXLS; cnt++) { pixols[cnt].active = false; pixols[cnt].id = cnt; } // Bootup SH logo showPxl(sh, 1000); } void loop() { showPxl(twitter, 1000); randChangePxl(twitter, ig, 1000, 20); notifyScrollPxl(upvote, 1000, 2); notifyPopupPxl(glogo, 1000); notifyBlinkPxl(wifi, 1000, 3); }