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logic-analyzer/processing_LA.pde
aster94 58cc77618f Update processing_LA.pde
2017-06-29 17:58:43 +02:00

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import processing.serial.*;
import java.util.Arrays;
Serial p;
////////////////////////////////////////////////
/*--------------------SETUP-------------------*/
//uncomment the line where your arduino/STM32 is connected
//String LA_port = "/dev/ttyACM0"; //linux DFU
//String LA_port = "/dev/ttyUSB0"; //linux Serial
String LA_port = "COM10"; //windows
final int baudrate = 115200; //check if it is the same in arduino
//change it to true if you are using a STM32 instead of arduino
final boolean STM32 = false;
/*------------------END SETUP-----------------*/
////////////////////////////////////////////////
//colors:
int white = 255;
int black = 0;
int green = #00FF00;
int grey = 150;
// shift, reducer and millisecond view
float reducer = 1.0;
boolean milliseconds = false;
float xShift;
// start point in the processing window
int xEdge = 60;
int yEdge = 30;
int xEnd;
float[] xPos = {0, 0, 0, 0, 0, 0};
int yBottom;
int yDiff;
int yPos = yEdge;
int ySave = yEdge;
boolean textCovered;
boolean drawTimes = true;
//Serial from mcu
//initial data
int samples;
int event;
int initialState;
boolean first = false;
boolean dataComplete = false;
//following data
boolean [][] state;
boolean [] isLow = new boolean[6];
float[] usTime;
float[] xTime;
int[] pinChanged;
//buttons and others
int button1X = 8;
int button2X = 8;
int button3X = 80;
int button4X = 200;
int button5X = 270;
int buttonY;
int buttonH = 20;
int smallButtonW = 50;
int bigButtonW = 100;
int graphBoxH;
int textBoxH;
int immage = 1;
int corner = 10;
// bar scroll
int handleFill = grey;
float handleX;
float handleY;
float handleW = 20;
float handleH = 15;
boolean isDraggable = false;
void setup () {
//p = new Serial(this, Serial.list()[0], 115200);
p = new Serial(this, LA_port, baudrate);
p.bufferUntil('\n');
size(1000, 460);
background(black);
smooth(4);
graphBoxH = height -50;
textBoxH = height - 35;
yBottom = graphBoxH-20;
buttonY = textBoxH +8;
handleX = xEdge;
handleY = graphBoxH;
}
void cleanGraph() {
noStroke(); //no borders
fill(black);
rect(xEdge, 0, width, graphBoxH); //cancel the graph
stroke(green); //green lines
Arrays.fill(xPos, 0); //reset start point of the graph
textCovered = false;
}
void draw () {
if (dataComplete==true) {
cleanGraph();
pushMatrix(); //move the coordinate reference
translate(xEdge, 0);
for (int i=0; i<samples; i++) {
yPos = yEdge; //start a new cicle
for (int n=0; n<6; n++) {
if (state[i][n]==true) {
ySave = yPos; //save y value
if (isLow[n]==true) { //pin high else low
yDiff=yPos;
yPos+=30;
isLow[n]=false;
} else {
yDiff=yPos+30;
isLow[n]=true;
}
// Text times
if (drawTimes == true) {
stroke(grey);
fill(grey);
textSize(10);
textCovered=!textCovered;
dashline(xTime[i]+xShift, yPos, xTime[i]+xShift, yBottom, spacing);
text(round(usTime[i]), xTime[i]+xShift+2, (textCovered==true) ? yBottom : yBottom+10); //write on different height
stroke(green);
}
// Graph lines
line(xPos[n]+xShift, yPos, xTime[i]+xShift, yPos); // straight line
line(xTime[i]+xShift, yPos, xTime[i]+xShift, yDiff); // vertical line
xPos[n]=xTime[i]; //save last position of the line for the pin
yPos = ySave; //load the initial value of the y
}
yPos+=60; //go to the next pin
}
}
if (samples!=0) {
xEnd = int (xTime[samples-1]) +10;
} else {
xEnd = 0;
}
yPos = yEdge;
for (int n = 0; n < 6; n++) {
if (xPos[n]!=0) { //draw only the pin which are active
if (isLow[n]==true) line(xPos[n]+xShift, yPos+30, xEnd+xShift, yPos+30);
else line(xPos[n]+xShift, yPos, xEnd+xShift, yPos);
}
yPos+=60;
}
dataComplete = false;
popMatrix();
}
drawText();
}
void drawText() {
stroke(white); //white borders
fill(black);
rect(0, 0, xEdge, graphBoxH); //clean left side
rect(xEdge, graphBoxH, width, handleH); //clean bar scroll
rect(0, textBoxH, width, height); //clean bottom side
// write name of the pins
fill(white);
textSize(14);
int x=10;
int y=50;
if (STM32) {
for (byte i = 12; i<=15; i++) {
line(x, y-20, xEdge, y-20);
line(x, y+10, xEdge, y+10);
text ("PB"+i, x, y);
y+=60;
}
} else {
for (byte i = 8; i<=13; i++) {
line(x, y-20, xEdge, y-20);
line(x, y+10, xEdge, y+10);
text ("Pin "+i, x, y);
y+=60;
}
}
// draw buttons
fill(grey);
rect(button1X, yBottom-15, smallButtonW, buttonH, corner);
rect(button2X, buttonY, smallButtonW, buttonH, corner);
rect(button3X, buttonY, bigButtonW, buttonH, corner);
rect(button4X, buttonY, smallButtonW, buttonH, corner);
rect(button5X, buttonY, smallButtonW, buttonH, corner);
fill(white);
text("T:"+ str (drawTimes), button1X+3, yBottom);
text("Start", button2X+3, buttonY+14);
text(milliseconds == true ? "milliseconds" : "microseconds", button3X+3, buttonY+14);
text(reducer, button4X+3, buttonY+14);
text("Save", button5X+3, buttonY+14);
//bar scroll
fill(handleFill);
rect(handleX, handleY, handleW, handleH);
if (isDraggable) {
handleX = mouseX-(handleW/2);
if (handleX<xEdge) handleX = xEdge;
if (handleX>width-handleW) handleX = width-handleW;
getData();
xShift = -map(handleX, xEdge, width-handleW, 0, xEnd-900);
}
}
void mousePressed() {
if (mouseX>handleX && mouseX<handleX+handleW &&
mouseY>handleY && mouseY<handleY+handleH) {
isDraggable = true;
handleFill = color(100, 200, 255);
}
}
void mouseReleased() {
isDraggable = false;
handleFill = grey;
}
void mouseClicked() {
// draw times
if (mouseY>yBottom-15 && mouseY <yBottom-15+buttonH &&
mouseX>button1X && mouseX <button1X+smallButtonW) {
drawTimes = !drawTimes;
getData();
}
// new read
if (mouseY>buttonY && mouseY <buttonY+buttonH &&
mouseX>button2X && mouseX <button2X+smallButtonW) {
p.write('G');
println("new data coming");
p.clear();
xShift = 0;
handleX = xEdge;
}
// micro or millis
if (mouseY>buttonY && mouseY <buttonY+buttonH &&
mouseX>button3X && mouseX <button3X+bigButtonW) {
milliseconds = !milliseconds;
if (milliseconds == true) {
for (int i=0; i< samples; i++) usTime[i] /= 1000.0;
}
if (milliseconds== false) {
for (int i=0; i< samples; i++) usTime[i] *= 1000.0;
}
getData();
xShift = 0;
handleX = xEdge;
}
//save frame
if (mouseY>buttonY && mouseY <buttonY+buttonH &&
mouseX>button5X && mouseX <button5X+smallButtonW) {
String a = "la_capture-"+immage; //+".jpg"; //if you prefer this format, default .tif
save(a);
immage++;
}
}
void mouseWheel(MouseEvent event) {
float wheel = event.getCount();
if (mouseY>buttonY && mouseY <buttonY+buttonH &&
mouseX>button4X && mouseX <button4X+smallButtonW) {
//it is over the reducer button
reducer-= wheel/10;
reducer = constrain(reducer, 0.1, 9.9);
getData();
} else { //move the graph
xShift-=wheel*50;
getData();
}
}
void mouseMoved() {
if (mouseY>buttonY && mouseY <buttonY+buttonH && mouseX>button2X && mouseX <button2X+smallButtonW) {
cursor(HAND);
} else if (mouseY>buttonY && mouseY <buttonY+buttonH && mouseX>button3X && mouseX <button3X+bigButtonW) {
cursor(HAND);
} else if (mouseY>buttonY && mouseY <buttonY+buttonH && mouseX>button5X && mouseX <button5X+smallButtonW) {
cursor(HAND);
} else if (mouseY>yBottom-15 && mouseY <yBottom-15+buttonH && mouseX>button1X && mouseX <button1X+smallButtonW) {
cursor(HAND);
} else if (mouseX>handleX && mouseX<handleX+handleW && mouseY>handleY && mouseY<handleY+handleH) {
cursor(HAND);
} else {
cursor(ARROW);
}
}
void serialEvent (Serial p) {
String inString = p.readStringUntil('\n');
inString = trim(inString);
println("incoming: "+inString);
if (inString.equals("S") == true) {
initialState=0;
samples=0;
event=-2;
first = true;
} else {
String list [] = split(inString, ':');
if (first == true) {
initialState = int (list[0]);
samples = int (list[1]);
pinChanged = new int[samples];
usTime = new float[samples];
xTime = new float[samples];
state = new boolean[samples][6];
first = false;
} else {
pinChanged[event] = int (list[0]);
usTime[event] = float (list[1]);
}
}
event++;
if (event == samples) {
getData();
}
}
void getData () {
//check data:
println("event: "+event);
println("initial: "+initialState);
println("samples: "+samples);
//println("pin"+changed[0]);
//println("time"+usTime[0]);
printArray(usTime);
printArray(xTime);
//println("pin: "+binary(changed[0], 6));
for (int i = 0; i < samples; i++) {
xTime[i] = usTime[i] / reducer; //better to reduce the lenght of the x
}
int b;
int mask = 1;
// initial state
for (int n=0; n<6; n++) {
b = initialState & mask;
isLow[n] = !boolean (b);
mask <<= 1;
//println("islow: "+isLow[n]);
}
// changes
for (int i=0; i<samples; i++) {
mask = 1;
//println("i:"+i);
//println(binary(changed[i], 6));
for (int n=0; n<6; n++) {
b= pinChanged[i] & mask;
state[i][n]= boolean (b);
mask <<= 1;
//println(state[i][n]);
}
}
dataComplete = true;
}
float[] spacing = {5, 8}; //used for the dashline function, pixels
void dashline(float x0, float y0, float x1, float y1, float[] spacing) {
float distance = dist(x0, y0, x1, y1);
float [ ] xSpacing = new float[spacing.length];
float [ ] ySpacing = new float[spacing.length];
float drawn = 0.0; // amount of distance drawn
if (distance > 0)
{
int i;
boolean drawLine = true; // alternate between dashes and gaps
/*
Figure out x and y distances for each of the spacing values
I decided to trade memory for time; I'd rather allocate
a few dozen bytes than have to do a calculation every time
I draw.
*/
for (i = 0; i < spacing.length; i++)
{
xSpacing[i] = lerp(0, (x1 - x0), spacing[i] / distance);
ySpacing[i] = lerp(0, (y1 - y0), spacing[i] / distance);
}
i = 0;
while (drawn < distance)
{
if (drawLine)
{
line(x0, y0, x0 + xSpacing[i], y0 + ySpacing[i]);
}
x0 += xSpacing[i];
y0 += ySpacing[i];
/* Add distance "drawn" by this line or gap */
drawn = drawn + mag(xSpacing[i], ySpacing[i]);
i = (i + 1) % spacing.length; // cycle through array
drawLine = !drawLine; // switch between dash and gap
}
}
}
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