diff --git a/examples/1_SimpleTestShapes/1_SimpleTestShapes.ino b/examples/1_SimpleTestShapes/1_SimpleTestShapes.ino index 3e384b5..464fa1e 100644 --- a/examples/1_SimpleTestShapes/1_SimpleTestShapes.ino +++ b/examples/1_SimpleTestShapes/1_SimpleTestShapes.ino @@ -1,23 +1,24 @@ + // Example sketch which shows how to display some patterns // on a 64x32 LED matrix // #include -/* - * Below is an example of the 'legacy' way of initialising the MatrixPanel_I2S_DMA class. - * i.e. Matrix Width and Height will need to be confirmed as compile-time directives. - * By default the library assumes a single 64x32 pixel panel is connected. - * - * Refer to the example '2_PatternPlasma' on the new / correct way to setup this library - * for different resolutions / panel chain lengths. - * - */ - MatrixPanel_I2S_DMA dma_display; - // Or use an Alternative non-DMA library, i.e: - //#include - //P3RGB64x32MatrixPanel display; +#define PANEL_RES_X 64 // Number of pixels wide of each INDIVIDUAL panel module. +#define PANEL_RES_Y 32 // Number of pixels tall of each INDIVIDUAL panel module. +#define PANEL_CHAIN 1 // Total number of panels chained one to another + +//MatrixPanel_I2S_DMA dma_display; +MatrixPanel_I2S_DMA *dma_display = nullptr; + +uint16_t myBLACK = dma_display->color565(0, 0, 0); +uint16_t myWHITE = dma_display->color565(255, 255, 255); +uint16_t myRED = dma_display->color565(255, 0, 0); +uint16_t myGREEN = dma_display->color565(0, 255, 0); +uint16_t myBLUE = dma_display->color565(0, 0, 255); + // Input a value 0 to 255 to get a color value. @@ -25,13 +26,13 @@ // From: https://gist.github.com/davidegironi/3144efdc6d67e5df55438cc3cba613c8 uint16_t colorWheel(uint8_t pos) { if(pos < 85) { - return dma_display.color565(pos * 3, 255 - pos * 3, 0); + return dma_display->color565(pos * 3, 255 - pos * 3, 0); } else if(pos < 170) { pos -= 85; - return dma_display.color565(255 - pos * 3, 0, pos * 3); + return dma_display->color565(255 - pos * 3, 0, pos * 3); } else { pos -= 170; - return dma_display.color565(0, pos * 3, 255 - pos * 3); + return dma_display->color565(0, pos * 3, 255 - pos * 3); } } @@ -39,86 +40,106 @@ void drawText(int colorWheelOffset) { // draw text with a rotating colour - dma_display.setTextSize(1); // size 1 == 8 pixels high - dma_display.setTextWrap(false); // Don't wrap at end of line - will do ourselves + dma_display->setTextSize(1); // size 1 == 8 pixels high + dma_display->setTextWrap(false); // Don't wrap at end of line - will do ourselves - dma_display.setCursor(5, 0); // start at top left, with 8 pixel of spacing + dma_display->setCursor(5, 0); // start at top left, with 8 pixel of spacing uint8_t w = 0; const char *str = "ESP32 DMA"; for (w=0; wsetTextColor(colorWheel((w*32)+colorWheelOffset)); + dma_display->print(str[w]); } - dma_display.println(); - dma_display.print(" "); + dma_display->println(); + dma_display->print(" "); for (w=9; w<18; w++) { - dma_display.setTextColor(colorWheel((w*32)+colorWheelOffset)); - dma_display.print("*"); + dma_display->setTextColor(colorWheel((w*32)+colorWheelOffset)); + dma_display->print("*"); } - dma_display.println(); + dma_display->println(); - dma_display.setTextColor(dma_display.color444(15,15,15)); - dma_display.println("LED MATRIX!"); + dma_display->setTextColor(dma_display->color444(15,15,15)); + dma_display->println("LED MATRIX!"); // print each letter with a fixed rainbow color - dma_display.setTextColor(dma_display.color444(0,8,15)); - dma_display.print('3'); - dma_display.setTextColor(dma_display.color444(15,4,0)); - dma_display.print('2'); - dma_display.setTextColor(dma_display.color444(15,15,0)); - dma_display.print('x'); - dma_display.setTextColor(dma_display.color444(8,15,0)); - dma_display.print('6'); - dma_display.setTextColor(dma_display.color444(8,0,15)); - dma_display.print('4'); + dma_display->setTextColor(dma_display->color444(0,8,15)); + dma_display->print('3'); + dma_display->setTextColor(dma_display->color444(15,4,0)); + dma_display->print('2'); + dma_display->setTextColor(dma_display->color444(15,15,0)); + dma_display->print('x'); + dma_display->setTextColor(dma_display->color444(8,15,0)); + dma_display->print('6'); + dma_display->setTextColor(dma_display->color444(8,0,15)); + dma_display->print('4'); // Jump a half character - dma_display.setCursor(34, 24); - dma_display.setTextColor(dma_display.color444(0,15,15)); - dma_display.print("*"); - dma_display.setTextColor(dma_display.color444(15,0,0)); - dma_display.print('R'); - dma_display.setTextColor(dma_display.color444(0,15,0)); - dma_display.print('G'); - dma_display.setTextColor(dma_display.color444(0,0,15)); - dma_display.print("B"); - dma_display.setTextColor(dma_display.color444(15,0,8)); - dma_display.println("*"); + dma_display->setCursor(34, 24); + dma_display->setTextColor(dma_display->color444(0,15,15)); + dma_display->print("*"); + dma_display->setTextColor(dma_display->color444(15,0,0)); + dma_display->print('R'); + dma_display->setTextColor(dma_display->color444(0,15,0)); + dma_display->print('G'); + dma_display->setTextColor(dma_display->color444(0,0,15)); + dma_display->print("B"); + dma_display->setTextColor(dma_display->color444(15,0,8)); + dma_display->println("*"); } void setup() { + +// + + HUB75_I2S_CFG mxconfig( + PANEL_RES_X, // module width + PANEL_RES_Y, // module height + PANEL_CHAIN // Chain length + ); + + mxconfig.gpio.e = 18; + mxconfig.clkphase = false; + mxconfig.driver = HUB75_I2S_CFG::FM6126A; + + // Display Setup + dma_display = new MatrixPanel_I2S_DMA(mxconfig); + dma_display->begin(); + dma_display->setBrightness8(90); //0-255 + dma_display->clearScreen(); + dma_display->fillScreen(myWHITE); - dma_display.begin(); // use default pins +// + dma_display->begin(); // use default pins // fix the screen with green - dma_display.fillRect(0, 0, dma_display.width(), dma_display.height(), dma_display.color444(0, 15, 0)); + dma_display->fillRect(0, 0, dma_display->width(), dma_display->height(), dma_display->color444(0, 15, 0)); delay(500); // draw a box in yellow - dma_display.drawRect(0, 0, dma_display.width(), dma_display.height(), dma_display.color444(15, 15, 0)); + dma_display->drawRect(0, 0, dma_display->width(), dma_display->height(), dma_display->color444(15, 15, 0)); delay(500); // draw an 'X' in red - dma_display.drawLine(0, 0, dma_display.width()-1, dma_display.height()-1, dma_display.color444(15, 0, 0)); - dma_display.drawLine(dma_display.width()-1, 0, 0, dma_display.height()-1, dma_display.color444(15, 0, 0)); + dma_display->drawLine(0, 0, dma_display->width()-1, dma_display->height()-1, dma_display->color444(15, 0, 0)); + dma_display->drawLine(dma_display->width()-1, 0, 0, dma_display->height()-1, dma_display->color444(15, 0, 0)); delay(500); // draw a blue circle - dma_display.drawCircle(10, 10, 10, dma_display.color444(0, 0, 15)); + dma_display->drawCircle(10, 10, 10, dma_display->color444(0, 0, 15)); delay(500); // fill a violet circle - dma_display.fillCircle(40, 21, 10, dma_display.color444(15, 0, 15)); + dma_display->fillCircle(40, 21, 10, dma_display->color444(15, 0, 15)); delay(500); // fill the screen with 'black' - dma_display.fillScreen(dma_display.color444(0, 0, 0)); + dma_display->fillScreen(dma_display->color444(0, 0, 0)); - drawText(0); + //drawText(0); } @@ -126,8 +147,23 @@ uint8_t wheelval = 0; void loop() { // animate by going through the colour wheel for the first two lines - drawText(wheelval); - wheelval +=1; + //drawText(wheelval); + //wheelval +=1; - delay(20); + //delay(20); + + drawText(0); + delay(2000); + dma_display->clearScreen(); + dma_display->fillScreen(myBLACK); + delay(2000); + dma_display->fillScreen(myBLUE); + delay(2000); + dma_display->fillScreen(myRED); + delay(2000); + dma_display->fillScreen(myGREEN); + delay(2000); + dma_display->fillScreen(myWHITE); + dma_display->clearScreen(); + }