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|
////////////////////////////////////////////////////////////////////////////////
//
// (C) 2012--today, Alexander Grahn
//
// 3Dmenu.js
//
// version 20140923
//
////////////////////////////////////////////////////////////////////////////////
//
// 3D JavaScript used by media9.sty
//
// Extended functionality of the (right click) context menu of 3D annotations.
//
// 1.) Adds the following items to the 3D context menu:
//
// * `Generate Default View'
//
// Finds good default camera settings, returned as options for use with
// the \includemedia command.
//
// * `Get Current View'
//
// Determines camera, cross section and part settings of the current view,
// returned as `VIEW' section that can be copied into a views file of
// additional views. The views file is inserted using the `3Dviews' option
// of \includemedia.
//
// * `Cross Section'
//
// Toggle switch to add or remove a cross section into or from the current
// view. The cross section can be moved in the x, y, z directions using x,
// y, z and X, Y, Z keys on the keyboard, be tilted against and spun
// around the upright Z axis using the Up/Down and Left/Right arrow keys
// and caled using the s and S keys.
//
// 2.) Enables manipulation of position and orientation of indiviual parts and
// groups of parts in the 3D scene. Parts which have been selected with the
// mouse can be scaled moved around and rotated like the cross section as
// described above. To spin the parts around their local up-axis, keep
// Control key pressed while using the Up/Down and Left/Right arrow keys.
//
// This work may be distributed and/or modified under the
// conditions of the LaTeX Project Public License.
//
// The latest version of this license is in
// http://mirrors.ctan.org/tex-archive/macros/latex/base/lppl.txt
//
// This work has the LPPL maintenance status `maintained'.
//
// The Current Maintainer of this work is A. Grahn.
//
// The code borrows heavily from Bernd Gaertners `Miniball' software,
// originally written in C++, for computing the smallest enclosing ball of a
// set of points; see: http://www.inf.ethz.ch/personal/gaertner/miniball.html
//
////////////////////////////////////////////////////////////////////////////////
//host.console.show();
//constructor for doubly linked list
function List(){
this.first_node=null;
this.last_node=new Node(undefined);
}
List.prototype.push_back=function(x){
var new_node=new Node(x);
if(this.first_node==null){
this.first_node=new_node;
new_node.prev=null;
}else{
new_node.prev=this.last_node.prev;
new_node.prev.next=new_node;
}
new_node.next=this.last_node;
this.last_node.prev=new_node;
};
List.prototype.move_to_front=function(it){
var node=it.get();
if(node.next!=null && node.prev!=null){
node.next.prev=node.prev;
node.prev.next=node.next;
node.prev=null;
node.next=this.first_node;
this.first_node.prev=node;
this.first_node=node;
}
};
List.prototype.begin=function(){
var i=new Iterator();
i.target=this.first_node;
return(i);
};
List.prototype.end=function(){
var i=new Iterator();
i.target=this.last_node;
return(i);
};
function Iterator(it){
if( it!=undefined ){
this.target=it.target;
}else {
this.target=null;
}
}
Iterator.prototype.set=function(it){this.target=it.target;};
Iterator.prototype.get=function(){return(this.target);};
Iterator.prototype.deref=function(){return(this.target.data);};
Iterator.prototype.incr=function(){
if(this.target.next!=null) this.target=this.target.next;
};
//constructor for node objects that populate the linked list
function Node(x){
this.prev=null;
this.next=null;
this.data=x;
}
function sqr(r){return(r*r);}//helper function
//Miniball algorithm by B. Gaertner
function Basis(){
this.m=0;
this.q0=new Array(3);
this.z=new Array(4);
this.f=new Array(4);
this.v=new Array(new Array(3), new Array(3), new Array(3), new Array(3));
this.a=new Array(new Array(3), new Array(3), new Array(3), new Array(3));
this.c=new Array(new Array(3), new Array(3), new Array(3), new Array(3));
this.sqr_r=new Array(4);
this.current_c=this.c[0];
this.current_sqr_r=0;
this.reset();
}
Basis.prototype.center=function(){return(this.current_c);};
Basis.prototype.size=function(){return(this.m);};
Basis.prototype.pop=function(){--this.m;};
Basis.prototype.excess=function(p){
var e=-this.current_sqr_r;
for(var k=0;k<3;++k){
e+=sqr(p[k]-this.current_c[k]);
}
return(e);
};
Basis.prototype.reset=function(){
this.m=0;
for(var j=0;j<3;++j){
this.c[0][j]=0;
}
this.current_c=this.c[0];
this.current_sqr_r=-1;
};
Basis.prototype.push=function(p){
var i, j;
var eps=1e-32;
if(this.m==0){
for(i=0;i<3;++i){
this.q0[i]=p[i];
}
for(i=0;i<3;++i){
this.c[0][i]=this.q0[i];
}
this.sqr_r[0]=0;
}else {
for(i=0;i<3;++i){
this.v[this.m][i]=p[i]-this.q0[i];
}
for(i=1;i<this.m;++i){
this.a[this.m][i]=0;
for(j=0;j<3;++j){
this.a[this.m][i]+=this.v[i][j]*this.v[this.m][j];
}
this.a[this.m][i]*=(2/this.z[i]);
}
for(i=1;i<this.m;++i){
for(j=0;j<3;++j){
this.v[this.m][j]-=this.a[this.m][i]*this.v[i][j];
}
}
this.z[this.m]=0;
for(j=0;j<3;++j){
this.z[this.m]+=sqr(this.v[this.m][j]);
}
this.z[this.m]*=2;
if(this.z[this.m]<eps*this.current_sqr_r) return(false);
var e=-this.sqr_r[this.m-1];
for(i=0;i<3;++i){
e+=sqr(p[i]-this.c[this.m-1][i]);
}
this.f[this.m]=e/this.z[this.m];
for(i=0;i<3;++i){
this.c[this.m][i]=this.c[this.m-1][i]+this.f[this.m]*this.v[this.m][i];
}
this.sqr_r[this.m]=this.sqr_r[this.m-1]+e*this.f[this.m]/2;
}
this.current_c=this.c[this.m];
this.current_sqr_r=this.sqr_r[this.m];
++this.m;
return(true);
};
function Miniball(){
this.L=new List();
this.B=new Basis();
this.support_end=new Iterator();
}
Miniball.prototype.mtf_mb=function(it){
var i=new Iterator(it);
this.support_end.set(this.L.begin());
if((this.B.size())==4) return;
for(var k=new Iterator(this.L.begin());k.get()!=i.get();){
var j=new Iterator(k);
k.incr();
if(this.B.excess(j.deref()) > 0){
if(this.B.push(j.deref())){
this.mtf_mb(j);
this.B.pop();
if(this.support_end.get()==j.get())
this.support_end.incr();
this.L.move_to_front(j);
}
}
}
};
Miniball.prototype.check_in=function(b){
this.L.push_back(b);
};
Miniball.prototype.build=function(){
this.B.reset();
this.support_end.set(this.L.begin());
this.mtf_mb(this.L.end());
};
Miniball.prototype.center=function(){
return(this.B.center());
};
Miniball.prototype.radius=function(){
return(Math.sqrt(this.B.current_sqr_r));
};
//functions called by menu items
function calc3Dopts () {
//create Miniball object
var mb=new Miniball();
//auxiliary vector
var corner=new Vector3();
//iterate over all visible mesh nodes in the scene
for(i=0;i<scene.meshes.count;i++){
var mesh=scene.meshes.getByIndex(i);
if(!mesh.visible) continue;
//local to parent transformation matrix
var trans=mesh.transform;
//build local to world transformation matrix by recursively
//multiplying the parent's transf. matrix on the right
var parent=mesh.parent;
while(parent.transform){
trans=trans.multiply(parent.transform);
parent=parent.parent;
}
//get the bbox of the mesh (local coordinates)
var bbox=mesh.computeBoundingBox();
//transform the local bounding box corner coordinates to
//world coordinates for bounding sphere determination
//BBox.min
corner.set(bbox.min);
corner.set(trans.transformPosition(corner));
mb.check_in(new Array(corner.x, corner.y, corner.z));
//BBox.max
corner.set(bbox.max);
corner.set(trans.transformPosition(corner));
mb.check_in(new Array(corner.x, corner.y, corner.z));
//remaining six BBox corners
corner.set(bbox.min.x, bbox.max.y, bbox.max.z);
corner.set(trans.transformPosition(corner));
mb.check_in(new Array(corner.x, corner.y, corner.z));
corner.set(bbox.min.x, bbox.min.y, bbox.max.z);
corner.set(trans.transformPosition(corner));
mb.check_in(new Array(corner.x, corner.y, corner.z));
corner.set(bbox.min.x, bbox.max.y, bbox.min.z);
corner.set(trans.transformPosition(corner));
mb.check_in(new Array(corner.x, corner.y, corner.z));
corner.set(bbox.max.x, bbox.min.y, bbox.min.z);
corner.set(trans.transformPosition(corner));
mb.check_in(new Array(corner.x, corner.y, corner.z));
corner.set(bbox.max.x, bbox.min.y, bbox.max.z);
corner.set(trans.transformPosition(corner));
mb.check_in(new Array(corner.x, corner.y, corner.z));
corner.set(bbox.max.x, bbox.max.y, bbox.min.z);
corner.set(trans.transformPosition(corner));
mb.check_in(new Array(corner.x, corner.y, corner.z));
}
//compute the smallest enclosing bounding sphere
mb.build();
//
//current camera settings
//
var camera=scene.cameras.getByIndex(0);
var res=''; //initialize result string
//aperture angle of the virtual camera (perspective projection) *or*
//orthographic scale (orthographic projection)
if(camera.projectionType==camera.TYPE_PERSPECTIVE){
var aac=camera.fov*180/Math.PI;
if(host.util.printf('%.4f', aac)!=30)
res+=host.util.printf('\n3Daac=%s,', aac);
}else{
camera.viewPlaneSize=2.*mb.radius();
res+=host.util.printf('\n3Dortho=%s,', 1./camera.viewPlaneSize);
}
//camera roll
var roll = camera.roll*180/Math.PI;
if(host.util.printf('%.4f', roll)!=0)
res+=host.util.printf('\n3Droll=%s,',roll);
//target to camera vector
var c2c=new Vector3();
c2c.set(camera.position);
c2c.subtractInPlace(camera.targetPosition);
c2c.normalize();
if(!(c2c.x==0 && c2c.y==-1 && c2c.z==0))
res+=host.util.printf('\n3Dc2c=%s %s %s,', c2c.x, c2c.y, c2c.z);
//
//new camera settings
//
//bounding sphere centre --> new camera target
var coo=new Vector3();
coo.set((mb.center())[0], (mb.center())[1], (mb.center())[2]);
if(coo.length)
res+=host.util.printf('\n3Dcoo=%s %s %s,', coo.x, coo.y, coo.z);
//radius of orbit
if(camera.projectionType==camera.TYPE_PERSPECTIVE){
var roo=mb.radius()/ Math.sin(aac * Math.PI/ 360.);
}else{
//orthographic projection
var roo=mb.radius();
}
res+=host.util.printf('\n3Droo=%s,', roo);
//update camera settings in the viewer
var currol=camera.roll;
camera.targetPosition.set(coo);
camera.position.set(coo.add(c2c.scale(roo)));
camera.roll=currol;
//determine background colour
rgb=scene.background.getColor();
if(!(rgb.r==1 && rgb.g==1 && rgb.b==1))
res+=host.util.printf('\n3Dbg=%s %s %s,', rgb.r, rgb.g, rgb.b);
//determine lighting scheme
switch(scene.lightScheme){
case scene.LIGHT_MODE_FILE:
curlights='Artwork';break;
case scene.LIGHT_MODE_NONE:
curlights='None';break;
case scene.LIGHT_MODE_WHITE:
curlights='White';break;
case scene.LIGHT_MODE_DAY:
curlights='Day';break;
case scene.LIGHT_MODE_NIGHT:
curlights='Night';break;
case scene.LIGHT_MODE_BRIGHT:
curlights='Hard';break;
case scene.LIGHT_MODE_RGB:
curlights='Primary';break;
case scene.LIGHT_MODE_BLUE:
curlights='Blue';break;
case scene.LIGHT_MODE_RED:
curlights='Red';break;
case scene.LIGHT_MODE_CUBE:
curlights='Cube';break;
case scene.LIGHT_MODE_CAD:
curlights='CAD';break;
case scene.LIGHT_MODE_HEADLAMP:
curlights='Headlamp';break;
}
if(curlights!='Artwork')
res+=host.util.printf('\n3Dlights=%s,', curlights);
//determine global render mode
switch(scene.renderMode){
case scene.RENDER_MODE_BOUNDING_BOX:
currender='BoundingBox';break;
case scene.RENDER_MODE_TRANSPARENT_BOUNDING_BOX:
currender='TransparentBoundingBox';break;
case scene.RENDER_MODE_TRANSPARENT_BOUNDING_BOX_OUTLINE:
currender='TransparentBoundingBoxOutline';break;
case scene.RENDER_MODE_VERTICES:
currender='Vertices';break;
case scene.RENDER_MODE_SHADED_VERTICES:
currender='ShadedVertices';break;
case scene.RENDER_MODE_WIREFRAME:
currender='Wireframe';break;
case scene.RENDER_MODE_SHADED_WIREFRAME:
currender='ShadedWireframe';break;
case scene.RENDER_MODE_SOLID:
currender='Solid';break;
case scene.RENDER_MODE_TRANSPARENT:
currender='Transparent';break;
case scene.RENDER_MODE_SOLID_WIREFRAME:
currender='SolidWireframe';break;
case scene.RENDER_MODE_TRANSPARENT_WIREFRAME:
currender='TransparentWireframe';break;
case scene.RENDER_MODE_ILLUSTRATION:
currender='Illustration';break;
case scene.RENDER_MODE_SOLID_OUTLINE:
currender='SolidOutline';break;
case scene.RENDER_MODE_SHADED_ILLUSTRATION:
currender='ShadedIllustration';break;
case scene.RENDER_MODE_HIDDEN_WIREFRAME:
currender='HiddenWireframe';break;
}
if(currender!='Solid')
res+=host.util.printf('\n3Drender=%s,', currender);
//write result string to the console
host.console.show();
// host.console.clear();
host.console.println('%%\n%% Copy and paste the following text to the\n'+
'%% option list of \\includemedia!\n%%' + res + '\n');
}
function get3Dview () {
var camera=scene.cameras.getByIndex(0);
var coo=camera.targetPosition;
var c2c=camera.position.subtract(coo);
var roo=c2c.length;
c2c.normalize();
var res='VIEW%=insert optional name here\n';
if(!(coo.x==0 && coo.y==0 && coo.z==0))
res+=host.util.printf(' COO=%s %s %s\n', coo.x, coo.y, coo.z);
if(!(c2c.x==0 && c2c.y==-1 && c2c.z==0))
res+=host.util.printf(' C2C=%s %s %s\n', c2c.x, c2c.y, c2c.z);
if(roo > 1e-9)
res+=host.util.printf(' ROO=%s\n', roo);
var roll = camera.roll*180/Math.PI;
if(host.util.printf('%.4f', roll)!=0)
res+=host.util.printf(' ROLL=%s\n', roll);
if(camera.projectionType==camera.TYPE_PERSPECTIVE){
var aac=camera.fov * 180/Math.PI;
if(host.util.printf('%.4f', aac)!=30)
res+=host.util.printf(' AAC=%s\n', aac);
}else{
if(host.util.printf('%.4f', camera.viewPlaneSize)!=1)
res+=host.util.printf(' ORTHO=%s\n', 1./camera.viewPlaneSize);
}
rgb=scene.background.getColor();
if(!(rgb.r==1 && rgb.g==1 && rgb.b==1))
res+=host.util.printf(' BGCOLOR=%s %s %s\n', rgb.r, rgb.g, rgb.b);
switch(scene.lightScheme){
case scene.LIGHT_MODE_FILE:
curlights='Artwork';break;
case scene.LIGHT_MODE_NONE:
curlights='None';break;
case scene.LIGHT_MODE_WHITE:
curlights='White';break;
case scene.LIGHT_MODE_DAY:
curlights='Day';break;
case scene.LIGHT_MODE_NIGHT:
curlights='Night';break;
case scene.LIGHT_MODE_BRIGHT:
curlights='Hard';break;
case scene.LIGHT_MODE_RGB:
curlights='Primary';break;
case scene.LIGHT_MODE_BLUE:
curlights='Blue';break;
case scene.LIGHT_MODE_RED:
curlights='Red';break;
case scene.LIGHT_MODE_CUBE:
curlights='Cube';break;
case scene.LIGHT_MODE_CAD:
curlights='CAD';break;
case scene.LIGHT_MODE_HEADLAMP:
curlights='Headlamp';break;
}
if(curlights!='Artwork')
res+=' LIGHTS='+curlights+'\n';
switch(scene.renderMode){
case scene.RENDER_MODE_BOUNDING_BOX:
defaultrender='BoundingBox';break;
case scene.RENDER_MODE_TRANSPARENT_BOUNDING_BOX:
defaultrender='TransparentBoundingBox';break;
case scene.RENDER_MODE_TRANSPARENT_BOUNDING_BOX_OUTLINE:
defaultrender='TransparentBoundingBoxOutline';break;
case scene.RENDER_MODE_VERTICES:
defaultrender='Vertices';break;
case scene.RENDER_MODE_SHADED_VERTICES:
defaultrender='ShadedVertices';break;
case scene.RENDER_MODE_WIREFRAME:
defaultrender='Wireframe';break;
case scene.RENDER_MODE_SHADED_WIREFRAME:
defaultrender='ShadedWireframe';break;
case scene.RENDER_MODE_SOLID:
defaultrender='Solid';break;
case scene.RENDER_MODE_TRANSPARENT:
defaultrender='Transparent';break;
case scene.RENDER_MODE_SOLID_WIREFRAME:
defaultrender='SolidWireframe';break;
case scene.RENDER_MODE_TRANSPARENT_WIREFRAME:
defaultrender='TransparentWireframe';break;
case scene.RENDER_MODE_ILLUSTRATION:
defaultrender='Illustration';break;
case scene.RENDER_MODE_SOLID_OUTLINE:
defaultrender='SolidOutline';break;
case scene.RENDER_MODE_SHADED_ILLUSTRATION:
defaultrender='ShadedIllustration';break;
case scene.RENDER_MODE_HIDDEN_WIREFRAME:
defaultrender='HiddenWireframe';break;
}
if(defaultrender!='Solid')
res+=' RENDERMODE='+defaultrender+'\n';
//detect existing Clipping Plane (3D Cross Section)
var clip=null;
if(
clip=scene.nodes.getByName('$$$$$$')||
clip=scene.nodes.getByName('Clipping Plane')
);
for(var i=0;i<scene.nodes.count;i++){
var nd=scene.nodes.getByIndex(i);
if(nd==clip||nd.name=='') continue;
var ndUTFName='';
for (var j=0; j<nd.name.length; j++) {
var theUnicode = nd.name.charCodeAt(j).toString(16);
while (theUnicode.length<4) theUnicode = '0' + theUnicode;
ndUTFName += theUnicode;
}
var end=nd.name.lastIndexOf('.');
if(end>0) var ndUserName=nd.name.substr(0,end);
else var ndUserName=nd.name;
respart=' PART='+ndUserName+'\n';
respart+=' UTF16NAME='+ndUTFName+'\n';
defaultvals=true;
if(!nd.visible){
respart+=' VISIBLE=false\n';
defaultvals=false;
}
if(nd.opacity<1.0){
respart+=' OPACITY='+nd.opacity+'\n';
defaultvals=false;
}
if(nd.constructor.name=='Mesh'){
currender=defaultrender;
switch(nd.renderMode){
case scene.RENDER_MODE_BOUNDING_BOX:
currender='BoundingBox';break;
case scene.RENDER_MODE_TRANSPARENT_BOUNDING_BOX:
currender='TransparentBoundingBox';break;
case scene.RENDER_MODE_TRANSPARENT_BOUNDING_BOX_OUTLINE:
currender='TransparentBoundingBoxOutline';break;
case scene.RENDER_MODE_VERTICES:
currender='Vertices';break;
case scene.RENDER_MODE_SHADED_VERTICES:
currender='ShadedVertices';break;
case scene.RENDER_MODE_WIREFRAME:
currender='Wireframe';break;
case scene.RENDER_MODE_SHADED_WIREFRAME:
currender='ShadedWireframe';break;
case scene.RENDER_MODE_SOLID:
currender='Solid';break;
case scene.RENDER_MODE_TRANSPARENT:
currender='Transparent';break;
case scene.RENDER_MODE_SOLID_WIREFRAME:
currender='SolidWireframe';break;
case scene.RENDER_MODE_TRANSPARENT_WIREFRAME:
currender='TransparentWireframe';break;
case scene.RENDER_MODE_ILLUSTRATION:
currender='Illustration';break;
case scene.RENDER_MODE_SOLID_OUTLINE:
currender='SolidOutline';break;
case scene.RENDER_MODE_SHADED_ILLUSTRATION:
currender='ShadedIllustration';break;
case scene.RENDER_MODE_HIDDEN_WIREFRAME:
currender='HiddenWireframe';break;
//case scene.RENDER_MODE_DEFAULT:
// currender='Default';break;
}
if(currender!=defaultrender){
respart+=' RENDERMODE='+currender+'\n';
defaultvals=false;
}
}
if(origtrans[nd.name]&&!nd.transform.isEqual(origtrans[nd.name])){
var lvec=nd.transform.transformDirection(new Vector3(1,0,0));
var uvec=nd.transform.transformDirection(new Vector3(0,1,0));
var vvec=nd.transform.transformDirection(new Vector3(0,0,1));
respart+=' TRANSFORM='
+lvec.x+' '+lvec.y+' '+lvec.z+' '
+uvec.x+' '+uvec.y+' '+uvec.z+' '
+vvec.x+' '+vvec.y+' '+vvec.z+' '
+nd.transform.translation.x+' '
+nd.transform.translation.y+' '
+nd.transform.translation.z+'\n';
defaultvals=false;
}
respart+=' END\n';
if(!defaultvals) res+=respart;
}
if(clip){
var centre=clip.transform.translation;
var normal=clip.transform.transformDirection(new Vector3(0,0,1));
res+=' CROSSSECT\n';
if(!(centre.x==0 && centre.y==0 && centre.z==0))
res+=host.util.printf(
' CENTER=%s %s %s\n', centre.x, centre.y, centre.z);
if(!(normal.x==1 && normal.y==0 && normal.z==0))
res+=host.util.printf(
' NORMAL=%s %s %s\n', normal.x, normal.y, normal.z);
res+=host.util.printf(
' VISIBLE=%s\n', clip.visible);
res+=host.util.printf(
' PLANECOLOR=%s %s %s\n', clip.material.emissiveColor.r,
clip.material.emissiveColor.g, clip.material.emissiveColor.b);
res+=host.util.printf(
' OPACITY=%s\n', clip.opacity);
res+=host.util.printf(
' INTERSECTIONCOLOR=%s %s %s\n',
clip.wireframeColor.r, clip.wireframeColor.g, clip.wireframeColor.b);
res+=' END\n';
// for(var propt in clip){
// console.println(propt+':'+clip[propt]);
// }
}
res+='END\n';
host.console.show();
// host.console.clear();
host.console.println('%%\n%% Add the following VIEW section to a file of\n'+
'%% predefined views (See option "3Dviews"!).\n%%\n' +
'%% The view may be given a name after VIEW=...\n' +
'%% (Remove \'%\' in front of \'=\'.)\n%%');
host.console.println(res + '\n');
}
//add items to 3D context menu
runtime.addCustomMenuItem("dfltview", "Generate Default View", "default", 0);
runtime.addCustomMenuItem("currview", "Get Current View", "default", 0);
runtime.addCustomMenuItem("csection", "Cross Section", "checked", 0);
//menu event handlers
menuEventHandler = new MenuEventHandler();
menuEventHandler.onEvent = function(e) {
switch(e.menuItemName){
case "dfltview": calc3Dopts(); break;
case "currview": get3Dview(); break;
case "csection":
addremoveClipPlane(e.menuItemChecked);
break;
}
};
runtime.addEventHandler(menuEventHandler);
//global variable taking reference to currently selected node;
var target=null;
selectionEventHandler=new SelectionEventHandler();
selectionEventHandler.onEvent=function(e){
if(e.selected&&e.node.name!=''){
target=e.node;
}else{
target=null;
}
}
runtime.addEventHandler(selectionEventHandler);
cameraEventHandler=new CameraEventHandler();
cameraEventHandler.onEvent=function(e){
var clip=null;
runtime.removeCustomMenuItem("csection");
runtime.addCustomMenuItem("csection", "Cross Section", "checked", 0);
if(clip=scene.nodes.getByName('$$$$$$')|| //predefined
scene.nodes.getByName('Clipping Plane')){ //added via context menu
runtime.removeCustomMenuItem("csection");
runtime.addCustomMenuItem("csection", "Cross Section", "checked", 1);
}
if(clip){//plane in predefined views must be rotated by 90 deg around normal
clip.transform.rotateAboutLineInPlace(
Math.PI/2,clip.transform.translation,
clip.transform.transformDirection(new Vector3(0,0,1))
);
}
for(var i=0; i<rot4x4.length; i++){rot4x4[i].setIdentity()}
target=null;
}
runtime.addEventHandler(cameraEventHandler);
var rot4x4=new Array(); //keeps track of spin and tilt axes transformations
//key event handler for scaling moving, spinning and tilting objects
keyEventHandler=new KeyEventHandler();
keyEventHandler.onEvent=function(e){
var backtrans=new Matrix4x4();
var trgt=null;
if(target) {
trgt=target;
var backtrans=new Matrix4x4();
var trans=trgt.transform;
var parent=trgt.parent;
while(parent.transform){
//build local to world transformation matrix
trans.multiplyInPlace(parent.transform);
//also build world to local back-transformation matrix
backtrans.multiplyInPlace(parent.transform.inverse.transpose);
parent=parent.parent;
}
backtrans.transposeInPlace();
}else{
if(
trgt=scene.nodes.getByName('$$$$$$')||
trgt=scene.nodes.getByName('Clipping Plane')
) var trans=trgt.transform;
}
if(!trgt) return;
var tname=trgt.name;
if(typeof(rot4x4[tname])=='undefined') rot4x4[tname]=new Matrix4x4();
if(target)
var tiltAxis=rot4x4[tname].transformDirection(new Vector3(0,1,0));
else
var tiltAxis=trans.transformDirection(new Vector3(0,1,0));
var spinAxis=rot4x4[tname].transformDirection(new Vector3(0,0,1));
//get the centre of the mesh
if(target&&trgt.constructor.name=='Mesh'){
var centre=trans.transformPosition(trgt.computeBoundingBox().center);
}else{ //part group (Node3 parent node, clipping plane)
var centre=new Vector3(trans.translation);
}
switch(e.characterCode){
case 30://tilt up
rot4x4[tname].rotateAboutLineInPlace(
-Math.PI/900,rot4x4[tname].translation,tiltAxis);
trans.rotateAboutLineInPlace(-Math.PI/900,centre,tiltAxis);
break;
case 31://tilt down
rot4x4[tname].rotateAboutLineInPlace(
Math.PI/900,rot4x4[tname].translation,tiltAxis);
trans.rotateAboutLineInPlace(Math.PI/900,centre,tiltAxis);
break;
case 28://spin right
if(e.ctrlKeyDown&&target){
trans.rotateAboutLineInPlace(-Math.PI/900,centre,spinAxis);
}else{
rot4x4[tname].rotateAboutLineInPlace(
-Math.PI/900,rot4x4[tname].translation,new Vector3(0,0,1));
trans.rotateAboutLineInPlace(-Math.PI/900,centre,new Vector3(0,0,1));
}
break;
case 29://spin left
if(e.ctrlKeyDown&&target){
trans.rotateAboutLineInPlace(Math.PI/900,centre,spinAxis);
}else{
rot4x4[tname].rotateAboutLineInPlace(
Math.PI/900,rot4x4[tname].translation,new Vector3(0,0,1));
trans.rotateAboutLineInPlace(Math.PI/900,centre,new Vector3(0,0,1));
}
break;
case 120: //x
translateTarget(trans, new Vector3(1,0,0), e);
break;
case 121: //y
translateTarget(trans, new Vector3(0,1,0), e);
break;
case 122: //z
translateTarget(trans, new Vector3(0,0,1), e);
break;
case 88: //shift + x
translateTarget(trans, new Vector3(-1,0,0), e);
break;
case 89: //shift + y
translateTarget(trans, new Vector3(0,-1,0), e);
break;
case 90: //shift + z
translateTarget(trans, new Vector3(0,0,-1), e);
break;
case 115: //s
trans.translateInPlace(centre.scale(-1));
trans.scaleInPlace(1.01);
trans.translateInPlace(centre.scale(1));
break;
case 83: //shift + s
trans.translateInPlace(centre.scale(-1));
trans.scaleInPlace(1/1.01);
trans.translateInPlace(centre.scale(1));
break;
}
trans.multiplyInPlace(backtrans);
}
runtime.addEventHandler(keyEventHandler);
//translates object by amount calculated from Canvas size
function translateTarget(t, d, e){
var cam=scene.cameras.getByIndex(0);
if(cam.projectionType==cam.TYPE_PERSPECTIVE){
var scale=Math.tan(cam.fov/2)
*cam.targetPosition.subtract(cam.position).length
/Math.min(e.canvasPixelWidth,e.canvasPixelHeight);
}else{
var scale=cam.viewPlaneSize/2
/Math.min(e.canvasPixelWidth,e.canvasPixelHeight);
}
t.translateInPlace(d.scale(scale));
}
function addremoveClipPlane(chk) {
var curTrans=getCurTrans();
var clip=scene.createClippingPlane();
if(chk){
//add Clipping Plane and place its center either into the camera target
//position or into the centre of the currently selected mesh node
var centre=new Vector3();
if(target){
var trans=target.transform;
var parent=target.parent;
while(parent.transform){
trans=trans.multiply(parent.transform);
parent=parent.parent;
}
if(target.constructor.name=='Mesh'){
var centre=trans.transformPosition(target.computeBoundingBox().center);
}else{
var centre=new Vector3(trans.translation);
}
target=null;
}else{
centre.set(scene.cameras.getByIndex(0).targetPosition);
}
clip.transform.setView(
new Vector3(0,0,0), new Vector3(1,0,0), new Vector3(0,1,0));
clip.transform.translateInPlace(centre);
}else{
if(
scene.nodes.getByName('$$$$$$')||
scene.nodes.getByName('Clipping Plane')
){
clip.remove();clip=null;
}
}
restoreTrans(curTrans);
return clip;
}
//function to store current transformation matrix of all nodes in the scene
function getCurTrans() {
var tA=new Array();
for(var i=0; i<scene.nodes.count; i++){
var nd=scene.nodes.getByIndex(i);
if(nd.name=='') continue;
tA[nd.name]=new Matrix4x4(nd.transform);
}
return tA;
}
//function to restore transformation matrices given as arg
function restoreTrans(tA) {
for(var i=0; i<scene.nodes.count; i++){
var nd=scene.nodes.getByIndex(i);
if(tA[nd.name]) nd.transform.set(tA[nd.name]);
}
}
//store original transformation matrix of all mesh nodes in the scene
var origtrans=getCurTrans();
//set initial state of "Cross Section" menu entry
cameraEventHandler.onEvent(1);
//host.console.clear();
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