add timeline

This commit is contained in:
interfisch 2021-05-13 14:34:44 +02:00
parent 6a755d42cc
commit bd01ea3f78
3 changed files with 244 additions and 23 deletions

View File

@ -0,0 +1,168 @@
public class Timeline
{
PVector posOrigin;
PVector size;
int textsize=12;
color cborder = color(200,200,200);
color ctimeslider = color(255,255,255);
private float time_start; //in seconds
private float time_end;
float[] preview_cmd;
float[] preview_throttle;
float[] preview_brake;
float[] preview_currentAll;
public Timeline(int px, int py, int pw, int ph) {
this.posOrigin= new PVector(px,py); //lower left corner
this.size = new PVector(pw,ph); //to the right and up
preview_cmd=new float[(int)this.size.x];
preview_throttle=new float[(int)this.size.x];
preview_brake=new float[(int)this.size.x];
preview_currentAll=new float[(int)this.size.x];
}
public void generatePreview(Table logdata) {
int cID=0; //current ID for generating preview in datalog
for (int x=0;x<this.size.x;x++) //for every width pixel of timeline
{
float t1=xPosToTimeSeconds(x); //time start for this pixel
float t2=xPosToTimeSeconds(x+1); //time end for this pixel
while ((cID+1 < logdata.getRowCount()) && ( t1 > (logdata.getRow(cID+1).getFloat("time")))) { //while starttime not reached
cID++; //next
}
int preview_mean_counter=0;
float preview_mean_cmd=0;
float preview_mean_brake=0;
float preview_mean_throttle=0;
float preview_mean_currentAll=0;
while ((cID+1 < logdata.getRowCount()) && ( t2 > (logdata.getRow(cID+1).getFloat("time")))) { //while endtime not reached
TableRow row = logdata.getRow(cID);
nextTimeData=(long)(logdata.getRow(cID+1).getFloat("time")*1000); //get time and convert from seconds to ms
lastTimeMillis=nextTimeMillis;
preview_mean_cmd += (row.getInt("cmd_FrontL")+row.getInt("cmd_FrontR")+row.getInt("cmd_RearL")+row.getInt("cmd_RearR"))/4.0;
preview_mean_brake += row.getInt("brake");
preview_mean_throttle += row.getInt("throttle");
preview_mean_currentAll += row.getFloat("currentAll");
/*
current_FrontL=row.getFloat("current_FrontL");
current_FrontR=row.getFloat("current_FrontR");
current_RearL=row.getFloat("current_RearL");
current_RearR=row.getFloat("current_RearR");
speed_FrontL=row.getInt("speed_FrontL");
speed_FrontR=row.getInt("speed_FrontR");
speed_RearL=row.getInt("speed_RearL");
speed_RearR=row.getInt("speed_RearR");
temp_Front=row.getFloat("temp_Front");
temp_Rear=row.getFloat("temp_Rear");
vbat_Front=row.getFloat("vbat_Front");
vbat_Rear=row.getFloat("vbat_Rear");
currentAll=row.getFloat("currentAll");
throttle=row.getInt("throttle");
brake=row.getInt("brake");*/
preview_mean_counter++;
cID++; //next
}
preview_mean_cmd/=preview_mean_counter;
preview_mean_brake/=preview_mean_counter;
preview_mean_throttle/=preview_mean_counter;
preview_mean_currentAll/=preview_mean_counter;
preview_cmd[x]=preview_mean_cmd;
preview_brake[x]=preview_mean_brake;
preview_throttle[x]=preview_mean_throttle;
preview_currentAll[x]=preview_mean_currentAll;
}//next pixel
}
public void setTimes(float _start,float _end) {
this.time_start=_start;
this.time_end=_end;
}
public void drawTL(float _time) {
//Preview visualization
for (int x=0;x<this.size.x;x++) //for every width pixel of timeline
{
if (!Float.isNaN(preview_cmd[x])) {
float preview_cmd_scaled=constrain(map(preview_cmd[x],0,1000,0.0,1.0), 0.0,1.0);
preview_cmd_scaled=sqrt(sqrt(preview_cmd_scaled))+0.1;//more contrast
float preview_currentAll_scaled=constrain(map(preview_currentAll[x],0,10,0.0,1.0), 0.0,1.0);
preview_currentAll_scaled=sqrt(sqrt(preview_currentAll_scaled));//more contrast
colorMode(HSB, 360, 100, 100);
stroke(color(200-preview_currentAll_scaled*200,100,preview_cmd_scaled*100));
line(this.posOrigin.x+x,this.posOrigin.y,this.posOrigin.x+x,this.posOrigin.y+this.size.y); //color gradient background
float preview_throttle_scaled=constrain(map(preview_throttle[x],0,1000,0.0,1.0), 0.0,1.0);
colorMode(HSB, 360, 100, 100);
stroke(color(240,100,100));
line(this.posOrigin.x+x,this.posOrigin.y+this.size.y,this.posOrigin.x+x,this.posOrigin.y+this.size.y*(1-preview_throttle_scaled/2)); //line bottom up
float preview_brake_scaled=constrain(map(preview_brake[x],0,1000,0.0,1.0), 0.0,1.0);
colorMode(HSB, 360, 100, 100);
stroke(color(0,100,100));
line(this.posOrigin.x+x,this.posOrigin.y,this.posOrigin.x+x,this.posOrigin.y+this.size.y*preview_brake_scaled/2); //line top down
}
}
//Boarder
rectMode(CORNERS);
noFill();
stroke(this.cborder);
rect(this.posOrigin.x,this.posOrigin.y,this.posOrigin.x+this.size.x,this.posOrigin.y+this.size.y); //border
//current time
int timeslider_xpos = (int)( this.posOrigin.x+timeSecondsToXPos(_time) );
stroke(this.ctimeslider);
line(timeslider_xpos,this.posOrigin.y-3,timeslider_xpos,this.posOrigin.y+this.size.y+3);
textSize(this.textsize);
textAlign(CENTER);
text(int(this.time_start+0.5)+"s", this.posOrigin.x, this.posOrigin.y-1); //starttime
text(int(this.time_end+0.5)+"s", this.posOrigin.x+this.size.x, this.posOrigin.y-1); //endtime
}
public float checkMouse(int mx, int my)
{
if (mx>=this.posOrigin.x && mx <=this.posOrigin.x+this.size.x && my>=this.posOrigin.y && my<=this.posOrigin.y+this.size.y) { //mouse whithin timeline boarder
float mousetime=xPosToTimeSeconds((int)(mx-this.posOrigin.x));
//float mousetimesliderpercent=(mx-this.posOrigin.x)/this.size.x;
//float mousetime=mousetimesliderpercent*(this.time_end-this.time_start)+this.time_start;
return millis()/1000.0-mousetime;
}
return 0;
}
private int timeSecondsToXPos(float _time) {
float timesliderpercent = (_time-this.time_start)/(this.time_end-this.time_start); //0<= x <=1
return (int)(timesliderpercent*this.size.x);
}
private float xPosToTimeSeconds(int _x) {
float mousetimesliderpercent=_x/this.size.x;
return mousetimesliderpercent*(this.time_end-this.time_start)+this.time_start;
}
}

View File

@ -17,6 +17,8 @@ abstract class Visualization
boolean showMinMax=false; boolean showMinMax=false;
//default colors (not all used by every implementation) //default colors (not all used by every implementation)
color cmain = color(255,255,255); color cmain = color(255,255,255);
color cmain2 = color(255,255,255); color cmain2 = color(255,255,255);
color cscale = color(100,100,100); color cscale = color(100,100,100);

View File

@ -12,6 +12,10 @@ Serial serial;
String serialString=""; //last read string String serialString=""; //last read string
int serial_endchar=10; //10=ASCII Linefeed int serial_endchar=10; //10=ASCII Linefeed
//timeline
float logdata_start_time=0;
float logdata_end_time=0;
Visualization vis_cmd_FrontL; Visualization vis_cmd_FrontL;
Visualization vis_cmd_FrontR; Visualization vis_cmd_FrontR;
Visualization vis_cmd_RearL; Visualization vis_cmd_RearL;
@ -41,8 +45,9 @@ Visualization vis_graph_speed_mean;
Visualization vis_c_graph_receivedelay; Visualization vis_c_graph_receivedelay;
boolean showTimeline=!useSerial;
Timeline tl;
int timeoffset=0; //for moving timeslider
Table logdata; Table logdata;
@ -52,6 +57,8 @@ long nextTimeData=0; //time of nextID row
long lastTimeMillis=0; //local time long lastTimeMillis=0; //local time
long nextTimeMillis=0; //local time long nextTimeMillis=0; //local time
boolean newdataforced=false;
int dataErrorCount=0; int dataErrorCount=0;
//Data from log //Data from log
@ -78,8 +85,8 @@ int brake;
color bg=color(0); color bg=color(0);
void setup() { void setup() {
size(1920, 1080); //size(1920, 1080);
//size(1000, 800); size(1000, 800);
frameRate(100); frameRate(100);
if (useSerial) { if (useSerial) {
@ -96,8 +103,9 @@ void setup() {
serialString = null; serialString = null;
}else{ }else{
logdata = loadTable(logfile_name, "header, csv"); logdata = loadTable(logfile_name, "header, csv");
logdata_start_time=logdata.getRow(0).getFloat("time");
println("loaded "+logdata.getRowCount()+" lines. Times: "+logdata.getRow(0).getFloat("time")+"s to "+logdata.getRow(logdata.getRowCount()-1).getFloat("time")+"s"); logdata_end_time = logdata.getRow(logdata.getRowCount()-1).getFloat("time");
println("loaded "+logdata.getRowCount()+" lines. Times: "+logdata_start_time+"s to "+logdata_end_time+"s");
} }
PVector pos_vis_cmd = new PVector(100,200); PVector pos_vis_cmd = new PVector(100,200);
@ -211,11 +219,16 @@ void setup() {
if (showTimeline) {
tl = new Timeline(30,height-30, width-30*2, 28);
tl.setTimes(logdata_start_time,logdata_end_time);
tl.generatePreview(logdata);
}
} }
void draw() { void draw() {
long loopmillis=millis(); long loopmillis=millis()-timeoffset;
if (useSerial) { if (useSerial) {
if (serial.available() > 0) { if (serial.available() > 0) {
@ -257,8 +270,11 @@ void draw() {
} }
} }
}else{ }else{
while (loopmillis>=nextTimeData && nextID+1<logdata.getRowCount()){ //New Data while (newdataforced || loopmillis>=nextTimeData && nextID+1<logdata.getRowCount()){ //New Data
newdataforced=false; //reset flag
if ((nextID+1 < logdata.getRowCount()) && (nextID-1 > 0)) { //valid row
TableRow row = logdata.getRow(nextID); TableRow row = logdata.getRow(nextID);
lastTimeData=nextTimeData; lastTimeData=nextTimeData;
nextTimeData=(long)(logdata.getRow(nextID+1).getFloat("time")*1000); //get time and convert from seconds to ms nextTimeData=(long)(logdata.getRow(nextID+1).getFloat("time")*1000); //get time and convert from seconds to ms
@ -290,7 +306,7 @@ void draw() {
nextID+=(loopmillis-nextTimeData)/_timestep* 0.9; //fast forward estimated time steps nextID+=(loopmillis-nextTimeData)/_timestep* 0.9; //fast forward estimated time steps
} }
nextID++; nextID++;
nextID=nextID%logdata.getRowCount(); }
} }
} }
@ -363,4 +379,39 @@ void draw() {
text(""+(dataErrorCount)+" errors", 5+70*3,12); text(""+(dataErrorCount)+" errors", 5+70*3,12);
if(showTimeline) {
tl.drawTL(loopmillis/1000.0);
}
}
void mouseClicked()
{
if (showTimeline)
{
int temp_timeoffset=(int)(tl.checkMouse(mouseX,mouseY)*1000);
if (temp_timeoffset!=0) {
if (!(nextID+1 < logdata.getRowCount()) && (nextID >= 0)) { //nextID not valid
nextID=0; //rest to good value
}
print("Jump nextID from "+nextID);
//find nextID to jump to
while ((nextID+1 < logdata.getRowCount()) && (nextID >= 0) && (millis()-temp_timeoffset > (long)(logdata.getRow(nextID+1).getFloat("time")*1000))) { //jumped forward
nextID++;
}
print(" over "+nextID);
while ((nextID+1 < logdata.getRowCount()) && (nextID >= 0) && (millis()-temp_timeoffset < (long)(logdata.getRow(nextID+1).getFloat("time")*1000))) { //jumped backward
nextID--;
}
println(" to "+nextID);
timeoffset=temp_timeoffset;
newdataforced=true; //force read line for nextID
}
}
} }