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mathFunctions.js
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mathFunctions.js
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function mean(params) {
var datasetNr = params.datasetNr;
var data = params.data;
var mean = 0;
var nr = 0;
for (var j = 0; j < data.datasets[datasetNr].data.length; j++) {
// important to check because missing values are possible
if (!(typeof(data.datasets[datasetNr].data[j])=='undefined')){
mean += 1*data.datasets[datasetNr].data[j];
nr++;
}
}
mean /= nr;
return mean;
}
function varianz(params) {
var data = params.data;
var datasetNr = params.datasetNr;
var meanVal = mean(params);
var varianz = 0;
var nr = 0;
for (var j = 0; j < data.datasets[datasetNr].data.length; j++) {
// important to check because missing values are possible
if (!(typeof(data.datasets[datasetNr].data[j])=='undefined')) {
varianz += Math.pow(1*data.datasets[datasetNr].data[j]-meanVal,2);
nr++;
}
}
return varianz/nr;
}
function stddev(params) {
return Math.sqrt(varianz(params));
}
function cv(params) {
return stddev(params)/mean(params);
}
function median(params) {
function numSort (a, b) {
return a - b;
}
// slice => copy array
var dataArray = params.data.datasets[params.datasetNr].data.slice();
dataArray.sort(numSort);
// missing values are at the end
var dataArrayLength = dataArray.length;
j = dataArrayLength-1;
while (typeof(dataArray[j]) == "undefined" && j >= 0) {
j--;
}
dataArrayLength = j+1;
// odd
if (dataArrayLength % 2) {
return dataArray[Math.floor(dataArrayLength/2)];
} else { // even
var lowerMiddle = dataArray[dataArrayLength/2-1];
var higherMiddle = dataArray[dataArrayLength/2];
return (higherMiddle+lowerMiddle)/2;
}
}
function drawMath(ctx,config,data,msr,vars) {
var xAxisPosY = vars.xAxisPosY;
var yAxisPosX = vars.yAxisPosX;
var valueHop = vars.valueHop;
var scaleHop = vars.scaleHop;
var zeroY = vars.zeroY;
var calculatedScale = vars.calculatedScale;
var calculateOffset = vars.calculateOffset;
var barWidth = vars.barWidth;
var barBool = !(typeof barWidth == "undefined") ? true : false;
// check each dataset if a mathDraw function exists
for (var i = 0; i < data.datasets.length; i++) {
// get mathFctName (stddev|mean|...)
var deviationFct = data.datasets[i].drawMathDeviation;
if (deviationFct) {
drawMathDeviation(i,deviationFct);
}
var lineFct = data.datasets[i].drawMathLine;
if (lineFct) {
drawMathLine(i,lineFct);
}
}
/**
* Draw a deviation vertical line (if needed with top and bottom horizontal lines)
* @param i {integer} dataset number
* @param deviationFct {string} math function name
*/
function drawMathDeviation(i,deviationFct) {
var deviation = 0;
// check if the math function exists
if (typeof eval(deviationFct) == "function") {
var parameter = {data:data,datasetNr: i};
deviation = window[deviationFct](parameter);
}
if (isNumber(deviation)) {
ctx.strokeStyle= data.datasets[i].deviationStrokeColor ? data.datasets[i].deviationStrokeColor : config.defaultStrokeColor;
ctx.lineWidth = config.datasetStrokeWidth;
ctx.beginPath();
for (var j = 0; j < data.datasets[i].data.length; j++) {
// important to check because missing values are possible
if (!(typeof(data.datasets[i].data[j])=='undefined')) {
var deviationWidth = data.datasets[i].deviationWidth;
// draw the top and the bottom of the vertical line if a deviationWidth exists
if (deviationWidth) {
ctx.moveTo(xPos(j,i,barWidth,barBool)-deviationWidth,yPos(i,j,-deviation,true));
ctx.lineTo(xPos(j,i,barWidth,barBool)+deviationWidth,yPos(i,j,-deviation,true));
ctx.moveTo(xPos(j,i,barWidth,barBool)-deviationWidth,yPos(i,j,deviation,true));
ctx.lineTo(xPos(j,i,barWidth,barBool)+deviationWidth,yPos(i,j,deviation,true));
}
// draw the vertical line
ctx.moveTo(xPos(j,i,barWidth,barBool),yPos(i,j,-deviation,true));
ctx.lineTo(xPos(j,i,barWidth,barBool),yPos(i,j,deviation,true));
}
}
ctx.stroke();
ctx.closePath();
}
}
/**
* Draw a horizontal line
* @param i {integer} numer of dataset
* @param lineFct {string} name of the mathfunctions => compute height
*/
function drawMathLine(i,lineFct) {
var line = 0;
// check if the math function exists
if (typeof eval(lineFct) == "function") {
var parameter = {data:data,datasetNr: i};
line = window[lineFct](parameter);
}
if (!(typeof(line)=='undefined')) {
ctx.strokeStyle= data.datasets[i].mathLineStrokeColor ? data.datasets[i].mathLineStrokeColor : config.defaultStrokeColor;
ctx.lineWidth = config.datasetStrokeWidth;
ctx.beginPath();
ctx.moveTo(yAxisPosX,yPos(i,0,line,false));
ctx.lineTo(yAxisPosX + msr.availableWidth,yPos(i,data.datasets[i].data.length-1,line,false));
ctx.stroke();
ctx.closePath();
}
}
/**
* Get a y position depending on the current values
* @param dataset {integer} number of dataset
* @param iteration {integer} number of value inside dataset.data
* @param add {float} add a value to the current value if value is true
* @param value {bool} true => value+add, false=>add
* @returns {float} position (px)
*/
function yPos(dataSet, iteration, add,value) {
value = value ? 1*data.datasets[dataSet].data[iteration] : 0;
return xAxisPosY - calculateOffset(config.logarithmic, value+add, calculatedScale, scaleHop);
};
function xPos(iteration,dataSet,barWidth,bar) {
if (bar) {
return yAxisPosX + config.barValueSpacing + valueHop * iteration + barWidth * dataSet
+ config.barDatasetSpacing * dataSet + config.barStrokeWidth * dataSet+barWidth/2;
} else {
return yAxisPosX + (valueHop * iteration);
}
};
}