pecintaseni
/
engineN
1
0
Fork 0
Code Issues Pull Requests Projects Releases Wiki Activity
You can not select more than 25 topics Topics must start with a letter or number, can include dashes ('-') and can be up to 35 characters long.
180 Commits
1 Branch
0 Tags
508 MiB
 
 
 
 
 
 
Branch: main
Branches Tags
${ item.name }
Create tag ${ searchTerm }
Create branch ${ searchTerm }
from 'main'
${ noResults }
engineN/public/theme/plugins/flot-charts/curvedLines.js

483 lines
16 KiB
Raw Permalink Blame History

/* The MIT License
Copyright (c) 2011 by Michael Zinsmaier and nergal.dev
Copyright (c) 2012 by Thomas Ritou
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in
all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
THE SOFTWARE.
*/
/*
____________________________________________________
what it is:
____________________________________________________
curvedLines is a plugin for flot, that tries to display lines in a smoother way.
This is achieved through adding of more data points. The plugin is a data processor and can thus be used
in combination with standard line / point rendering options.
=> 1) with large data sets you may get trouble
=> 2) if you want to display the points too, you have to plot them as 2nd data series over the lines
=> 3) consecutive x data points are not allowed to have the same value
Feel free to further improve the code
____________________________________________________
how to use it:
____________________________________________________
var d1 = [[5,5],[7,3],[9,12]];
var options = { series: { curvedLines: { active: true }}};
$.plot($("#placeholder"), [{data: d1, lines: { show: true}, curvedLines: {apply: true}}], options);
_____________________________________________________
options:
_____________________________________________________
active: bool true => plugin can be used
apply: bool true => series will be drawn as curved line
monotonicFit: bool true => uses monotone cubic interpolation (preserve monotonicity)
tension: int defines the tension parameter of the hermite spline interpolation (no effect if monotonicFit is set)
nrSplinePoints: int defines the number of sample points (of the spline) in between two consecutive points
deprecated options from flot prior to 1.0.0:
------------------------------------------------
legacyOverride bool true => use old default
OR
legacyOverride optionArray
{
fit: bool true => forces the max,mins of the curve to be on the datapoints
curvePointFactor int defines how many "virtual" points are used per "real" data point to
emulate the curvedLines (points total = real points * curvePointFactor)
fitPointDist: int defines the x axis distance of the additional two points that are used
} to enforce the min max condition.
*/
/*
* v0.1 initial commit
* v0.15 negative values should work now (outcommented a negative -> 0 hook hope it does no harm)
* v0.2 added fill option (thanks to monemihir) and multi axis support (thanks to soewono effendi)
* v0.3 improved saddle handling and added basic handling of Dates
* v0.4 rewritten fill option (thomas ritou) mostly from original flot code (now fill between points rather than to graph bottom), corrected fill Opacity bug
* v0.5 rewritten instead of implementing a own draw function CurvedLines is now based on the processDatapoints flot hook (credits go to thomas ritou).
* This change breakes existing code however CurvedLines are now just many tiny straight lines to flot and therefore all flot lines options (like gradient fill,
* shadow) are now supported out of the box
* v0.6 flot 0.8 compatibility and some bug fixes
* v0.6.x changed versioning schema
*
* v1.0.0 API Break marked existing implementation/options as deprecated
* v1.1.0 added the new curved line calculations based on hermite splines
* v1.1.1 added a rough parameter check to make sure the new options are used
*/
(function($) {
var options = {
series : {
curvedLines : {
active : false,
apply : false,
monotonicFit : false,
tension : 0.5,
nrSplinePoints : 20,
legacyOverride : undefined
}
}
};
function init(plot) {
plot.hooks.processOptions.push(processOptions);
//if the plugin is active register processDatapoints method
function processOptions(plot, options) {
if (options.series.curvedLines.active) {
plot.hooks.processDatapoints.unshift(processDatapoints);
}
}
//only if the plugin is active
function processDatapoints(plot, series, datapoints) {
var nrPoints = datapoints.points.length / datapoints.pointsize;
var EPSILON = 0.005;
//detects missplaced legacy parameters (prior v1.x.x) in the options object
//this can happen if somebody upgrades to v1.x.x without adjusting the parameters or uses old examples
var invalidLegacyOptions = hasInvalidParameters(series.curvedLines);
if (!invalidLegacyOptions && series.curvedLines.apply == true && series.originSeries === undefined && nrPoints > (1 + EPSILON)) {
if (series.lines.fill) {
var pointsTop = calculateCurvePoints(datapoints, series.curvedLines, 1);
var pointsBottom = calculateCurvePoints(datapoints, series.curvedLines, 2);
//flot makes sure for us that we've got a second y point if fill is true !
//Merge top and bottom curve
datapoints.pointsize = 3;
datapoints.points = [];
var j = 0;
var k = 0;
var i = 0;
var ps = 2;
while (i < pointsTop.length || j < pointsBottom.length) {
if (pointsTop[i] == pointsBottom[j]) {
datapoints.points[k] = pointsTop[i];
datapoints.points[k + 1] = pointsTop[i + 1];
datapoints.points[k + 2] = pointsBottom[j + 1];
j += ps;
i += ps;
} else if (pointsTop[i] < pointsBottom[j]) {
datapoints.points[k] = pointsTop[i];
datapoints.points[k + 1] = pointsTop[i + 1];
datapoints.points[k + 2] = k > 0 ? datapoints.points[k - 1] : null;
i += ps;
} else {
datapoints.points[k] = pointsBottom[j];
datapoints.points[k + 1] = k > 1 ? datapoints.points[k - 2] : null;
datapoints.points[k + 2] = pointsBottom[j + 1];
j += ps;
}
k += 3;
}
} else if (series.lines.lineWidth > 0) {
datapoints.points = calculateCurvePoints(datapoints, series.curvedLines, 1);
datapoints.pointsize = 2;
}
}
}
function calculateCurvePoints(datapoints, curvedLinesOptions, yPos) {
if ( typeof curvedLinesOptions.legacyOverride != 'undefined' && curvedLinesOptions.legacyOverride != false) {
var defaultOptions = {
fit : false,
curvePointFactor : 20,
fitPointDist : undefined
};
var legacyOptions = jQuery.extend(defaultOptions, curvedLinesOptions.legacyOverride);
return calculateLegacyCurvePoints(datapoints, legacyOptions, yPos);
}
return calculateSplineCurvePoints(datapoints, curvedLinesOptions, yPos);
}
function calculateSplineCurvePoints(datapoints, curvedLinesOptions, yPos) {
var points = datapoints.points;
var ps = datapoints.pointsize;
//create interpolant fuction
var splines = createHermiteSplines(datapoints, curvedLinesOptions, yPos);
var result = [];
//sample the function
// (the result is intependent from the input data =>
// it is ok to alter the input after this method)
var j = 0;
for (var i = 0; i < points.length - ps; i += ps) {
var curX = i;
var curY = i + yPos;
var xStart = points[curX];
var xEnd = points[curX + ps];
var xStep = (xEnd - xStart) / Number(curvedLinesOptions.nrSplinePoints);
//add point
result.push(points[curX]);
result.push(points[curY]);
//add curve point
for (var x = (xStart += xStep); x < xEnd; x += xStep) {
result.push(x);
result.push(splines[j](x));
}
j++;
}
//add last point
result.push(points[points.length - ps]);
result.push(points[points.length - ps + yPos]);
return result;
}
// Creates an array of splines, one for each segment of the original curve. Algorithm based on the wikipedia articles:
//
// http://de.wikipedia.org/w/index.php?title=Kubisch_Hermitescher_Spline&oldid=130168003 and
// http://en.wikipedia.org/w/index.php?title=Monotone_cubic_interpolation&oldid=622341725 and the description of Fritsch-Carlson from
// http://math.stackexchange.com/questions/45218/implementation-of-monotone-cubic-interpolation
// for a detailed description see https://github.com/MichaelZinsmaier/CurvedLines/docu
function createHermiteSplines(datapoints, curvedLinesOptions, yPos) {
var points = datapoints.points;
var ps = datapoints.pointsize;
// preparation get length (x_{k+1} - x_k) and slope s=(p_{k+1} - p_k) / (x_{k+1} - x_k) of the segments
var segmentLengths = [];
var segmentSlopes = [];
for (var i = 0; i < points.length - ps; i += ps) {
var curX = i;
var curY = i + yPos;
var dx = points[curX + ps] - points[curX];
var dy = points[curY + ps] - points[curY];
segmentLengths.push(dx);
segmentSlopes.push(dy / dx);
}
//get the values for the desired gradients m_k for all points k
//depending on the used method the formula is different
var gradients = [segmentSlopes[0]];
if (curvedLinesOptions.monotonicFit) {
// Fritsch Carlson
for (var i = 1; i < segmentLengths.length; i++) {
var slope = segmentSlopes[i];
var prev_slope = segmentSlopes[i - 1];
if (slope * prev_slope <= 0) { // sign(prev_slope) != sign(slpe)
gradients.push(0);
} else {
var length = segmentLengths[i];
var prev_length = segmentLengths[i - 1];
var common = length + prev_length;
//m = 3 (prev_length + length) / ((2 length + prev_length) / prev_slope + (length + 2 prev_length) / slope)
gradients.push(3 * common / ((common + length) / prev_slope + (common + prev_length) / slope));
}
}
} else {
// Cardinal spline with t € [0,1]
// Catmull-Rom for t = 0
for (var i = ps; i < points.length - ps; i += ps) {
var curX = i;
var curY = i + yPos;
gradients.push(Number(curvedLinesOptions.tension) * (points[curY + ps] - points[curY - ps]) / (points[curX + ps] - points[curX - ps]));
}
}
gradients.push(segmentSlopes[segmentSlopes.length - 1]);
//get the two major coefficients (c'_{oef1} and c'_{oef2}) for each segment spline
var coefs1 = [];
var coefs2 = [];
for (i = 0; i < segmentLengths.length; i++) {
var m_k = gradients[i];
var m_k_plus = gradients[i + 1];
var slope = segmentSlopes[i];
var invLength = 1 / segmentLengths[i];
var common = m_k + m_k_plus - slope - slope;
coefs1.push(common * invLength * invLength);
coefs2.push((slope - common - m_k) * invLength);
}
//create functions with from the coefficients and capture the parameters
var ret = [];
for (var i = 0; i < segmentLengths.length; i ++) {
var spline = function (x_k, coef1, coef2, coef3, coef4) {
// spline for a segment
return function (x) {
var diff = x - x_k;
var diffSq = diff * diff;
return coef1 * diff * diffSq + coef2 * diffSq + coef3 * diff + coef4;
};
};
ret.push(spline(points[i * ps], coefs1[i], coefs2[i], gradients[i], points[i * ps + yPos]));
}
return ret;
};
//no real idea whats going on here code mainly from https://code.google.com/p/flot/issues/detail?id=226
//if fit option is selected additional datapoints get inserted before the curve calculations in nergal.dev s code.
function calculateLegacyCurvePoints(datapoints, curvedLinesOptions, yPos) {
var points = datapoints.points;
var ps = datapoints.pointsize;
var num = Number(curvedLinesOptions.curvePointFactor) * (points.length / ps);
var xdata = new Array;
var ydata = new Array;
var curX = -1;
var curY = -1;
var j = 0;
if (curvedLinesOptions.fit) {
//insert a point before and after the "real" data point to force the line
//to have a max,min at the data point.
var fpDist;
if ( typeof curvedLinesOptions.fitPointDist == 'undefined') {
//estimate it
var minX = points[0];
var maxX = points[points.length - ps];
fpDist = (maxX - minX) / (500 * 100);
//x range / (estimated pixel length of placeholder * factor)
} else {
//use user defined value
fpDist = Number(curvedLinesOptions.fitPointDist);
}
for (var i = 0; i < points.length; i += ps) {
var frontX;
var backX;
curX = i;
curY = i + yPos;
//add point X s
frontX = points[curX] - fpDist;
backX = points[curX] + fpDist;
var factor = 2;
while (frontX == points[curX] || backX == points[curX]) {
//inside the ulp
frontX = points[curX] - (fpDist * factor);
backX = points[curX] + (fpDist * factor);
factor++;
}
//add curve points
xdata[j] = frontX;
ydata[j] = points[curY];
j++;
xdata[j] = points[curX];
ydata[j] = points[curY];
j++;
xdata[j] = backX;
ydata[j] = points[curY];
j++;
}
} else {
//just use the datapoints
for (var i = 0; i < points.length; i += ps) {
curX = i;
curY = i + yPos;
xdata[j] = points[curX];
ydata[j] = points[curY];
j++;
}
}
var n = xdata.length;
var y2 = new Array();
var delta = new Array();
y2[0] = 0;
y2[n - 1] = 0;
delta[0] = 0;
for (var i = 1; i < n - 1; ++i) {
var d = (xdata[i + 1] - xdata[i - 1]);
if (d == 0) {
//point before current point and after current point need some space in between
return [];
}
var s = (xdata[i] - xdata[i - 1]) / d;
var p = s * y2[i - 1] + 2;
y2[i] = (s - 1) / p;
delta[i] = (ydata[i + 1] - ydata[i]) / (xdata[i + 1] - xdata[i]) - (ydata[i] - ydata[i - 1]) / (xdata[i] - xdata[i - 1]);
delta[i] = (6 * delta[i] / (xdata[i + 1] - xdata[i - 1]) - s * delta[i - 1]) / p;
}
for (var j = n - 2; j >= 0; --j) {
y2[j] = y2[j] * y2[j + 1] + delta[j];
}
// xmax - xmin / #points
var step = (xdata[n - 1] - xdata[0]) / (num - 1);
var xnew = new Array;
var ynew = new Array;
var result = new Array;
xnew[0] = xdata[0];
ynew[0] = ydata[0];
result.push(xnew[0]);
result.push(ynew[0]);
for ( j = 1; j < num; ++j) {
//new x point (sampling point for the created curve)
xnew[j] = xnew[0] + j * step;
var max = n - 1;
var min = 0;
while (max - min > 1) {
var k = Math.round((max + min) / 2);
if (xdata[k] > xnew[j]) {
max = k;
} else {
min = k;
}
}
//found point one to the left and one to the right of generated new point
var h = (xdata[max] - xdata[min]);
if (h == 0) {
//similar to above two points from original x data need some space between them
return [];
}
var a = (xdata[max] - xnew[j]) / h;
var b = (xnew[j] - xdata[min]) / h;
ynew[j] = a * ydata[min] + b * ydata[max] + ((a * a * a - a) * y2[min] + (b * b * b - b) * y2[max]) * (h * h) / 6;
result.push(xnew[j]);
result.push(ynew[j]);
}
return result;
}
function hasInvalidParameters(curvedLinesOptions) {
if (typeof curvedLinesOptions.fit != 'undefined' ||
typeof curvedLinesOptions.curvePointFactor != 'undefined' ||
typeof curvedLinesOptions.fitPointDist != 'undefined') {
throw new Error("CurvedLines detected illegal parameters. The CurvedLines API changed with version 1.0.0 please check the options object.");
return true;
}
return false;
}
}//end init
$.plot.plugins.push({
init : init,
options : options,
name : 'curvedLines',
version : '1.1.1'
});
})(jQuery);