Difference between revisions of "Curve"

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= Function graph=
 
= Function graph=
First, we initialize the board and set axes:
+
First, we initialize the board with axes:
 
<source lang="javascript">
 
<source lang="javascript">
var b = JXG.JSXGraph.initBoard('jxgbox', {originX: 200, originY: 200, unitX: 20, unitY: 20});       
+
var b = JXG.JSXGraph.initBoard('jxgbox', {boundingbox: [-10, 10, 20, -10], axis: true});
axisx = b.create('axis', [[0,0], [1,0]], {});
 
axisy = b.create('axis', [[0,0], [0,1]], {});
 
 
</source>
 
</source>
 
<jsxgraph width="600" height="400">
 
<jsxgraph width="600" height="400">
var b = JXG.JSXGraph.initBoard('jxgbox', {originX: 200, originY: 200, unitX: 20, unitY: 20});       
+
var b = JXG.JSXGraph.initBoard('jxgbox', {boundingbox: [-10, 10, 20, -10], axis: true});
axisx = b.createElement('axis', [[0,0], [1,0]], {});
 
axisy = b.createElement('axis', [[0,0], [0,1]], {});
 
 
</jsxgraph>
 
</jsxgraph>
  
Line 21: Line 17:
 
* the term for the y-component: it can be a JavaScript function having one input parameter, or an expression in GEONExT syntax.
 
* the term for the y-component: it can be a JavaScript function having one input parameter, or an expression in GEONExT syntax.
 
<source lang="javascript">
 
<source lang="javascript">
createElement('functiongraph', [function(x){return Math.sin(x);}, ...
+
create('functiongraph', [function(x){return Math.sin(x);}, ...
 
</source>
 
</source>
 
* The last two parameters are optional and can contain constants or functions which determine the interval of the x-component in which the graph is shown.
 
* The last two parameters are optional and can contain constants or functions which determine the interval of the x-component in which the graph is shown.
 
If these parameters are not given, the graph is plotted from the left border to the right border.
 
If these parameters are not given, the graph is plotted from the left border to the right border.
 
<source lang="javascript">
 
<source lang="javascript">
createElement('functiongraph', [function(x){return Math.sin(x);},-Math.PI,4*Math.PI]
+
create('functiongraph', [function(x){return Math.sin(x);},-Math.PI,4*Math.PI]
 
</source>
 
</source>
  
 
Together, the code looks like this:
 
Together, the code looks like this:
 
<source lang="javascript">
 
<source lang="javascript">
b.createElement('functiongraph', [function(x){return Math.sin(x);},-Math.PI,2*Math.PI]);
+
b.create('functiongraph', [function(x){return Math.sin(x);},-Math.PI,2*Math.PI]);
 
</source>
 
</source>
 
<jsxgraph width="600" height="400" box="jxgbox2">
 
<jsxgraph width="600" height="400" box="jxgbox2">
var b2 = JXG.JSXGraph.initBoard('jxgbox2', {originX: 200, originY: 200, unitX: 20, unitY: 20});       
+
var b2 = JXG.JSXGraph.initBoard('jxgbox2', {boundingbox: [-10, 10, 20, -10], axis: true});
axisx = b2.createElement('axis', [[0,0], [1,0]], {});
+
b2.create('functiongraph', [function(x){return Math.sin(x);},-Math.PI,4*Math.PI]);
axisy = b2.createElement('axis', [[0,0], [0,1]], {});
 
b2.createElement('functiongraph', [function(x){return Math.sin(x);},-Math.PI,4*Math.PI]);
 
 
</jsxgraph>
 
</jsxgraph>
  
Line 43: Line 37:
 
The terms for the x-component and for the y-component can also depend on another element. This can be a JSXGraph element, but it can also be the value of a DOM element. Here, we show the sine curve sin(x) multiplied by the x-component of the point "A".
 
The terms for the x-component and for the y-component can also depend on another element. This can be a JSXGraph element, but it can also be the value of a DOM element. Here, we show the sine curve sin(x) multiplied by the x-component of the point "A".
 
<source lang="javascript">
 
<source lang="javascript">
p = b.createLement('point',[1,1],{style:6,name:'A'});
+
p = b.create('point',[1,1],{size:4,name:'A'});
b.createElement('functiongraph', [function(x){return p.X()*Math.sin(x);}],{dash:1});
+
b.create('functiongraph', [function(x){return p.X()*Math.sin(x);}],{dash:1});
 
</source>
 
</source>
 
<jsxgraph width="600" height="400" box="jxgbox4">
 
<jsxgraph width="600" height="400" box="jxgbox4">
var b4 = JXG.JSXGraph.initBoard('jxgbox4', {originX: 200, originY: 200, unitX: 20, unitY: 20});       
+
var b4 = JXG.JSXGraph.initBoard('jxgbox4', {boundingbox: [-10, 10, 20, -10], axis: true});
axisx = b4.createElement('axis', [[0,0], [1,0]], {});
+
p = b4.create('point',[1,4],{size:4,name:'A'});
axisy = b4.createElement('axis', [[0,0], [0,1]], {});
+
b4.create('functiongraph', [function(x){return p.X()*Math.sin(x);}],{dash:1});
p = b4.createElement('point',[1,4],{style:6,name:'A'});
 
b4.createElement('functiongraph', [function(x){return p.X()*Math.sin(x);}],{dash:1});
 
 
</jsxgraph>
 
</jsxgraph>
  
Line 57: Line 49:
 
If the first component of the input data consists of an data array, the curveType is set to "plot". The second parameter (the y-component) can be a data array, but it also can be a function term.
 
If the first component of the input data consists of an data array, the curveType is set to "plot". The second parameter (the y-component) can be a data array, but it also can be a function term.
 
<source lang="javascript">
 
<source lang="javascript">
p = b.createElement('point',[1,4],{style:6,name:'A'});
+
p = b.create('point',[1,4],{size:4,name:'A'});
 
var dataX = [1,2,3,4,5,6,7,8];
 
var dataX = [1,2,3,4,5,6,7,8];
 
var dataY = [0.3,4.0,-1,2.3,7,9,8,9];
 
var dataY = [0.3,4.0,-1,2.3,7,9,8,9];
b.createElement('curve', [dataX,dataY],{strokeColor:'red',strokeWidth:3});
+
b.create('curve', [dataX,dataY],{strokeColor:'red',strokeWidth:3});
b.createElement('curve', [dataX,function(x){ return p.X()*Math.sin(x)*x;}],{strokeColor:'blue',strokeWidth:3,dash:1});
+
b.create('curve', [dataX,function(x){ return p.X()*Math.sin(x)*x;}],{strokeColor:'blue',strokeWidth:3,dash:1});
 
</source>
 
</source>
  
 
<jsxgraph width="600" height="400" box="jxgbox3">
 
<jsxgraph width="600" height="400" box="jxgbox3">
var b3 = JXG.JSXGraph.initBoard('jxgbox4', {originX: 200, originY: 200, unitX: 20, unitY: 20});       
+
var b3 = JXG.JSXGraph.initBoard('jxgbox3', {boundingbox: [-10, 10, 20, -10], axis: true});
axisx = b3.createElement('axis', [[0,0], [1,0]], {});
+
var p3 = b3.create('point',[1,4],{size:4,name:'A'});
axisy = b3.createElement('axis', [[0,0], [0,1]], {});
 
var p3 = b3.createElement('point',[1,4],{style:6,name:'A'});
 
 
var dataX = [-3,1,2,3,4,5,6,7,10,12];
 
var dataX = [-3,1,2,3,4,5,6,7,10,12];
 
var dataY = [4,0.3,4.0,-1,2.3,7,1.1,-2.0,4];
 
var dataY = [4,0.3,4.0,-1,2.3,7,1.1,-2.0,4];
b3.createElement('curve', [dataX,dataY],{strokeColor:'red',strokeWidth:3});
+
b3.create('curve', [dataX,dataY],{strokeColor:'red',strokeWidth:3});
b3.createElement('curve', [dataX,function(x){ return p3.X()*Math.sin(x)*x;}],{strokeColor:'blue',strokeWidth:3,dash:1});
+
b3.create('curve', [dataX,function(x){ return p3.X()*Math.sin(x)*x;}],{strokeColor:'blue',strokeWidth:3,dash:1});
 
</jsxgraph>
 
</jsxgraph>
  
 
[[Category:Examples]]
 
[[Category:Examples]]
 +
[[Category:Curves]]

Latest revision as of 14:14, 7 June 2011

There are various possibilities to display curves and plots. JSXGraph supports the following curve types which can be set by changing the property "curveType". In many cases JSXGraph can guess the curveType from the input parameters, but sometimes the curveType has to be set explicitly.

  • 'plot': function plotter
  • 'parameter': parameter curves.
  • 'polar': polar curves

Function graph

First, we initialize the board with axes:

var b = JXG.JSXGraph.initBoard('jxgbox', {boundingbox: [-10, 10, 20, -10], axis: true});

As input data a curve needs 5 parameters:

  • the term for the y-component: it can be a JavaScript function having one input parameter, or an expression in GEONExT syntax.
create('functiongraph', [function(x){return Math.sin(x);}, ...
  • The last two parameters are optional and can contain constants or functions which determine the interval of the x-component in which the graph is shown.

If these parameters are not given, the graph is plotted from the left border to the right border.

create('functiongraph', [function(x){return Math.sin(x);},-Math.PI,4*Math.PI]

Together, the code looks like this:

b.create('functiongraph', [function(x){return Math.sin(x);},-Math.PI,2*Math.PI]);

Dynamic function graphs

The terms for the x-component and for the y-component can also depend on another element. This can be a JSXGraph element, but it can also be the value of a DOM element. Here, we show the sine curve sin(x) multiplied by the x-component of the point "A".

p = b.create('point',[1,1],{size:4,name:'A'});
b.create('functiongraph', [function(x){return p.X()*Math.sin(x);}],{dash:1});

Plotting data - curveType:'plot'

If the first component of the input data consists of an data array, the curveType is set to "plot". The second parameter (the y-component) can be a data array, but it also can be a function term.

p = b.create('point',[1,4],{size:4,name:'A'});
var dataX = [1,2,3,4,5,6,7,8];
var dataY = [0.3,4.0,-1,2.3,7,9,8,9];
b.create('curve', [dataX,dataY],{strokeColor:'red',strokeWidth:3});
b.create('curve', [dataX,function(x){ return p.X()*Math.sin(x)*x;}],{strokeColor:'blue',strokeWidth:3,dash:1});