# Difference between revisions of "Points with constraints (dup)"

Line 52: | Line 52: | ||

− | Category:Austragungsstueberl | + | [[Category:Austragungsstueberl]] |

Category:Examples | Category:Examples |

## Revision as of 13:15, 8 June 2011

A point can depend on another geometric object. This dependence can be given by using JavaScript syntax or by using GEONExT syntax.

### GEONExT syntax

Here is an example using GEONExT syntax. The point A is draggable. The point B depends on point A: Its y-coordinate is set to 1 and its x-coordinate is set to the x-coordinate of A.

```
var b = JXG.JSXGraph.initBoard('jxgbox1', {originX: 40, originY: 100, unitX: 40, unitY: 40});
var free = b.createElement('point',[0,0], {name:'A', style:5});
var dep = b.createElement('point',["X(A)",1], {name:'B', style:8});
```

### JavaScript syntax

Now we do exactly the same with JavaScript syntax.

```
var b2 = JXG.JSXGraph.initBoard('jxgbox2', {originX: 40, originY: 100, unitX: 40, unitY: 40});
var free = b2.createElement('point',[0,0], {name:'A', style:5});
var dep = b2.createElement('point',[function(){ return free.X();}, 1], {name:'B', style:8});
```

The JavaScript syntax is much more robust against changes of the construction, but of course it looks more complicated. Lets look at it again in detail: First we construct a free, draggable point called "free".

```
var free = b2.createElement('point',[0,0], {name:'A', style:5});
```

Then we construct the dependent point "dep".

```
var dep = b2.createElement('point',[function(){ return free.X();}, 1], {name:'B', style:8});
```

The first coordinate of "dep" is given as an anonymous function:

```
function(){ return free.X();}
```

This function returns the x-coordinate of the point "free". Category:Examples