Geometric constructions with JessieScript: Difference between revisions
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! Construction !! Description | ! Construction !! Description | ||
|- | |- | ||
| A(1,1) || Point with name 'A' at | | A(1,1) || Point with name 'A' at position (1,1) | ||
|- | |- | ||
| ZY(0.5<nowiki>|</nowiki>1) || Point with name 'ZY' at | | ZY(0.5<nowiki>|</nowiki>1) || Point with name 'ZY' at position (0.5,1) | ||
|- | |- | ||
| ]AB[ || straight line through | | ]AB[ || straight line through points A and B | ||
|- | |- | ||
| [AB[ || ray through | | [AB[ || ray through points A and B, stopping at A | ||
|- | |- | ||
| ]AB] || ray through | | ]AB] || ray through points A and B, stopping at B | ||
|- | |- | ||
| [AB] || segment through | | [AB] || segment through points A and B | ||
|- | |- | ||
| g=[AB] || segment through | | g=[AB] || segment through points A and B, named by 'g' | ||
|- | |- | ||
| k(A,1) || circle with midpoint A and radius 1 | | k(A,1) || circle with midpoint A and radius 1 | ||
|- | |- | ||
| k(A,B) || circle with midpoint A through | | k(A,B) || circle with midpoint A through point B on the circle line | ||
|- | |- | ||
| k(A,[BC]) || circle with midpoint A and radius defined by the length of the (not necessarily existing) segement [BC] | | k(A,[BC]) || circle with midpoint A and radius defined by the length of the (not necessarily existing) segement [BC] | ||
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! Element !! Description | ! Element !! Description | ||
|- | |- | ||
| constr.points[i] || take | | constr.points[i] || take i-th point of the construction 'constr' | ||
|- | |- | ||
| constr.lines[i] || take | | constr.lines[i] || take i-th line (or rays or segement) of the construction 'constr' | ||
|- | |- | ||
| constr.circles[i] || take | | constr.circles[i] || take i-th circle of the construction 'constr' | ||
|- | |- | ||
| constr.A || take | | constr.A || take element with name 'A' of the construction 'constr' | ||
|} | |} | ||
===Example=== | ===Example=== | ||
<jsxgraph width="600" height="450" box="jxgbox"> | <jsxgraph width="600" height="450" box="jxgbox" modules="JessieScript"> | ||
var cons1, cons2; | var board, cons1, cons2; | ||
board = JXG.JSXGraph.initBoard('jxgbox', {grid:true, | board = JXG.JSXGraph.initBoard('jxgbox', {grid:true, boundingbox: [-1, 6, 11, -3], axis:true}); | ||
cons1 = board.construct("A(1,1);B(2,2.5);C(1,3);G(5,3);H(6,4);[GH];k(G,1);AB(5,-1);X(6,-1);Y(7,-2);k(Y,X);k(A,[BC]);k(B,[AC]);"); | cons1 = board.construct("A(1,1);B(2,2.5);C(1,3);G(5,3);H(6,4);[GH];k(G,1);AB(5,-1);X(6,-1);Y(7,-2);k(Y,X);k(A,[BC]);k(B,[AC]);"); | ||
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===The JavaScript code=== | ===The JavaScript code=== | ||
<source lang=" | <source lang="javascript"> | ||
var board, cons1, cons2; | |||
board = JXG.JSXGraph.initBoard('box', {grid:true, boundingbox: [-1, 6, 11, -3], axis:true}); | |||
cons1 = board.construct("A(1,1);B(2,2.5);C(1,3);G(5,3);H(6,4);[GH];k(G,1);AB(5,-1);X(6,-1);Y(7,-2);k(Y,X);k(A,[BC]);k(B,[AC]);"); | |||
cons2 = board.construct("J(7,4);[GJ[;K(8,4);]GK[;L(2.4|5);f=[AC];k1=k(C,0.5);C_1(4|4);l_2=[BC]"); | |||
cons1.points[0].setProperty({face:'diamond',size:7,strokeColor:'#8B2252',fillColor:'#8B2252'}); | |||
cons1.circles[1].setProperty({strokeColor:'#BA55D3'}); | |||
cons2.J.setProperty({face:'triangleUp',size:8,strokeColor:'black',fillColor:'#EE82EE'}); | |||
cons2.lines[1].setProperty({strokeColor:'#32CD32',shadow:true}); | |||
cons1.X.strokeColor('black'); | |||
cons1.X.fillColor('#FFB90F'); | |||
cons1.X.shadow(true); | |||
cons1.Y.visible(false); | |||
cons2.l_2.strokeWidth(4); | |||
cons1.X.face('>'); | |||
cons1.X.size(8); | |||
cons1.X.labelColor('#FFB90F'); | |||
cons2.k1.dash(2); | |||
</source> | |||
[[Category:Examples]] | [[Category:Examples]] | ||
[[Category:Geometry]] | [[Category:Geometry]] |
Latest revision as of 06:51, 16 September 2013
Easy JSXGraph constructions with geometric elements can be created by a mathematical syntax by using the function
board.construct(...);
Possible elements:
Construction | Description |
---|---|
A(1,1) | Point with name 'A' at position (1,1) |
ZY(0.5|1) | Point with name 'ZY' at position (0.5,1) |
]AB[ | straight line through points A and B |
[AB[ | ray through points A and B, stopping at A |
]AB] | ray through points A and B, stopping at B |
[AB] | segment through points A and B |
g=[AB] | segment through points A and B, named by 'g' |
k(A,1) | circle with midpoint A and radius 1 |
k(A,B) | circle with midpoint A through point B on the circle line |
k(A,[BC]) | circle with midpoint A and radius defined by the length of the (not necessarily existing) segement [BC] |
k_1=k(A,1) | circle with midpoint A and radius 1, named by 'k_1' |
The different elements have to be separated by semicolon.
The function returns an object with all the created elements so that afterwards properties can be set. The access works by
Element | Description |
---|---|
constr.points[i] | take i-th point of the construction 'constr' |
constr.lines[i] | take i-th line (or rays or segement) of the construction 'constr' |
constr.circles[i] | take i-th circle of the construction 'constr' |
constr.A | take element with name 'A' of the construction 'constr' |
Example
The JavaScript code
var board, cons1, cons2;
board = JXG.JSXGraph.initBoard('box', {grid:true, boundingbox: [-1, 6, 11, -3], axis:true});
cons1 = board.construct("A(1,1);B(2,2.5);C(1,3);G(5,3);H(6,4);[GH];k(G,1);AB(5,-1);X(6,-1);Y(7,-2);k(Y,X);k(A,[BC]);k(B,[AC]);");
cons2 = board.construct("J(7,4);[GJ[;K(8,4);]GK[;L(2.4|5);f=[AC];k1=k(C,0.5);C_1(4|4);l_2=[BC]");
cons1.points[0].setProperty({face:'diamond',size:7,strokeColor:'#8B2252',fillColor:'#8B2252'});
cons1.circles[1].setProperty({strokeColor:'#BA55D3'});
cons2.J.setProperty({face:'triangleUp',size:8,strokeColor:'black',fillColor:'#EE82EE'});
cons2.lines[1].setProperty({strokeColor:'#32CD32',shadow:true});
cons1.X.strokeColor('black');
cons1.X.fillColor('#FFB90F');
cons1.X.shadow(true);
cons1.Y.visible(false);
cons2.l_2.strokeWidth(4);
cons1.X.face('>');
cons1.X.size(8);
cons1.X.labelColor('#FFB90F');
cons2.k1.dash(2);