Eric Glunn
Contains all code needed for analog digital and oscope
Diff: main.cpp
- Revision:
- 0:f4b1c6a95f25
- Child:
- 1:14e49afb1d7c
diff -r 000000000000 -r f4b1c6a95f25 main.cpp
--- /dev/null Thu Jan 01 00:00:00 1970 +0000
+++ b/main.cpp Mon Apr 20 19:43:36 2020 +0000
@@ -0,0 +1,147 @@
+#include "mbed.h"
+#define reset 0b00000000 //Define masks
+#define digital 0b00100000
+#define analog 0b01000000
+#define I2C 0b01100000
+#define stateMask 0b11100000
+#define pinMask 0b00011111
+#define pin1 0b00010000
+#define pin2 0b00001000
+#define pin3 0b00000100
+#define pin4 0b00000010
+#define pin5 0b00000001
+
+
+DigitalOut myled(LED1);
+DigitalOut DigitalStatus(LED2); //Led for when Digital read is running
+DigitalOut AnalogStatus(LED3); //LED for when Analog read is running
+
+DigitalIn d1(p21); //Always set these pins for digital in
+DigitalIn d2(p22);
+DigitalIn d3(p23);
+DigitalIn d4(p24);
+DigitalIn d5(p25);
+
+AnalogIn a1(p16); //Always set these pins for analog in
+AnalogIn a2(p17);
+AnalogIn a3(p18);
+AnalogIn a4(p19);
+AnalogIn a5(p20);
+
+
+Serial PC(USBTX,USBRX);
+Ticker tickerboi; //Initialize the ticker for Sampling
+
+volatile unsigned char DigitalSample;
+volatile unsigned char AnalogSample[5];
+
+volatile bool DigitalRunning;
+volatile bool AnalogRunning;
+
+volatile unsigned char command;
+volatile unsigned char state;
+
+volatile bool newDigital=false;
+volatile bool newAnalog=false;
+
+
+
+void digital_sample_func(void){ //sampling function, samples each pin specified and Ors it
+ DigitalSample = digital;
+
+ if( (command & pin1) == pin1){
+ DigitalSample=DigitalSample + d1*pin1;
+ }
+ if( (command & pin2) == pin2){
+ DigitalSample=DigitalSample + d2*pin2;
+ }
+ if( (command & pin3) == pin3){
+ DigitalSample=DigitalSample + d3*pin3;
+ }
+ if( (command & pin4) == pin4){
+ DigitalSample=DigitalSample + d4*pin4;
+ }
+ if( (command & pin5) == pin5){
+ DigitalSample=DigitalSample + d5*pin5;
+ }
+ newDigital=true;
+}
+
+
+void analog_sample_func(void){
+ for(int i=0; i<5; i++){
+ AnalogSample[i]=0;
+ }
+ if( (command & pin1) == pin1){
+ AnalogSample[0]=a1*255;
+ }
+ if( (command & pin2) == pin2){
+ AnalogSample[1]=a2*255;
+ }
+ if( (command & pin3) == pin3){
+ AnalogSample[2]=a3*255;
+ }
+ if( (command & pin4) == pin4){
+ AnalogSample[3]=a4*255;
+ }
+ if( (command & pin5) == pin5){
+ AnalogSample[4]=a5*255;
+ }
+ newAnalog=true;
+
+}
+
+
+void SerialInterrupt(void){
+ command=PC.getc();
+ state= command & stateMask;
+ switch(state){
+ case reset:
+ tickerboi.detach(); //detach Ticker
+ DigitalRunning=false; //turn off status LED
+ AnalogRunning=false;
+ break;
+
+ case digital:
+ tickerboi.attach(&digital_sample_func, .1); //Ticker will call digital read every 100 ms
+ DigitalRunning=true; // turn on status LED
+ break;
+
+ case analog:
+ tickerboi.attach(&analog_sample_func, .01); //Ticker will call analog read every 10ms
+ AnalogRunning=true;
+ }
+}
+
+int main() {
+ PC.attach(&SerialInterrupt, Serial::RxIrq);
+
+
+ while(1) {
+
+ DigitalStatus=DigitalRunning; //Indicate DigitalRead is running
+ AnalogStatus=AnalogRunning; //Indicate analogRead is running
+
+ if(newDigital){ //if digital sampling was run
+ PC.putc(DigitalSample);
+ newDigital=false;
+ }
+
+ if(newAnalog){ //if analog sampling was run
+ PC.putc(analog); //First bit is 0b01000000
+ for(int i=0; i<5; i++){ //Send all of the analog bits
+ PC.putc(AnalogSample[i]);
+ }
+ PC.putc(command); //Last bit is command from PC
+ newAnalog=false;
+ }
+
+ myled = 1; //indicate main loop is running
+ wait(0.2);
+ myled = 0;
+ wait(0.2);
+ }
+}
+
+
+