Diff: main.cpp

Revision:

0:f76850de7b57

Child:

2:3935d2ed40cd

--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/main.cpp	Tue Aug 19 07:09:20 2014 +0000
@@ -0,0 +1,93 @@
+#include "mbed.h"
+#include "sbDriver.h"
+/*MUST TRY THIS!!!!
+Inheritance is one of the great features of object oriented languages like C++. The stream methods are not included in serial to allow you to use them in other classes as well. They are for example also included in the TextLCD class and in my enhanced TextLCD class. All you need to do to make use of the powerful printf features is implement a putc() method in your own new class.
+from https://mbed.org/questions/1029/pcprintf-a-method/
+
+*/
+
+Serial PC(PTA2, PTA1);//So I can use Bluetooth/Serial as output to terminal and input
+
+
+DigitalOut myled(LED1);
+
+//Instanced of DigitalOut for control SB signals
+DigitalOut latch(PTC16);//010=latch
+DigitalOut enable(PTA13);//0= enabled
+DigitalOut reset(PTC12);
+//Instance of the SPI contoller for SB data
+SPI spi(PTD2,NC,PTD1);//PDT2 = MOSI=DATA. PDT1=CLK
+
+
+int main() {
+    
+//Instanciate a ticker object to handle framerate updates for the SB display    
+Ticker t;
+
+//Instanciate a string of 5 sb modules and tell the driver object where the control/data pins are
+shiftBriteDisplay sbDisplay(&PC,latch, enable, reset, spi,6);
+
+//Example calls to method f() of shiftBriteDisplay class
+//sbDisplay.setLed(0,0X550000);
+//sbDisplay.setLed(4,0XFF,0X00,0X55);
+//in this case, 6 of these statements wold be required to build one frame
+//BUILD A FRAME
+/*sbDisplay.setLed(0,0XFF0000);//Red
+sbDisplay.setLed(1,0X00FF00);//Green
+sbDisplay.setLed(2,0X0000FF);//Blue
+sbDisplay.setLed(3,0XFFFF00);//Yellow
+sbDisplay.setLed(4,0X00FFFF); //Cyan?
+sbDisplay.setLed(5,0XFF00FF); // Purple*/
+
+sbDisplay.setLed(0,0XFFFFFF);//White
+sbDisplay.setLed(1,0XFFFFFF);//
+sbDisplay.setLed(2,0XFFFFFF);//
+sbDisplay.setLed(3,0XFFFFFF);//
+sbDisplay.setLed(4,0XFFFFFF); //
+sbDisplay.setLed(5,0XFFFFFF); //
+sbDisplay.setCurrentCorr(0,0,0);//suggested default value cor current control regs. Values g&b=100, r=120
+sbDisplay.displayFrame();//force an update
+wait(2);
+sbDisplay.setCurrentCorr(127,127,127);//This should be MAX
+wait(2);
+sbDisplay.setCurrentCorr(0x78,0x64,0x64);//sb suggested default
+wait(2);
+
+PC.printf("Hallo (size=%d)\r\n", sizeof(unsigned long int));
+
+
+//Setup the framerate and update the display
+//I chose standard 24fps
+t.attach_us(&sbDisplay,&shiftBriteDisplay::displayFrame,41666);//call updateFrame 24 times per second (every 41666uS)
+//t.attach(&sbDisplay,&shiftBriteDisplay::displayFrame,0.5);//Only every 0.5s for testing
+
+         
+    while(1){
+/*TEST THE CURRENT ADJUSMENT FUNCTIONALITY
+        sbDisplay.setCurrentCorr(0,0,0);
+        wait(0.5);
+        sbDisplay.setCurrentCorr(30,30,30);
+        wait(0.5);
+         sbDisplay.setCurrentCorr(60,60,60);
+        wait(0.5);
+        sbDisplay.setCurrentCorr(90,90,30);
+        wait(0.5);
+        sbDisplay.setCurrentCorr(120,120,30);
+        wait(0.5);
+*/
+        sbDisplay.setLed(0,0XFF0000);//Red
+        sbDisplay.setLed(1,0X00FF00);//Green
+        sbDisplay.setLed(2,0X0000FF);//Blue
+        sbDisplay.setLed(3,0XFFFF00);//Yellow
+        sbDisplay.setLed(4,0X00FFFF); //Cyan?
+        sbDisplay.setLed(5,0XFF00FF); // Purple
+        wait(0.5);
+        sbDisplay.setLed(5,0XFF0000);//Red
+        sbDisplay.setLed(4,0X00FF00);//Green
+        sbDisplay.setLed(3,0X0000FF);//Blue
+        sbDisplay.setLed(2,0XFFFF00);//Yellow
+        sbDisplay.setLed(1,0X00FFFF); //Cyan?
+        sbDisplay.setLed(0,0XFF00FF); // Purple
+         wait(0.5);
+    }
+}