Snapping tocontained objects

author: hwc487 2012-04-24 17:16:29 -0700
committer: hwc487 2012-04-24 17:16:29 -0700
commit: cec076988d3ff6547b7c9d74ebc80530ffcea67b (patch)
tree: 389a60f3d5605c082c49c4c9829cb8a560cbc26a /js
parent: 9d274a93cecc7cba543d27237e65425b2d6a393c (diff)
download: ninja-cec076988d3ff6547b7c9d74ebc80530ffcea67b.tar.gz
3 files changed, 109 insertions, 4 deletions
diff --git a/js/lib/geom/circle.js b/js/lib/geom/circle.js
index 896803bf..b7027eec 100755
--- a/js/lib/geom/circle.js
+++ b/js/lib/geom/circle.js
@@ -4,9 +4,12 @@ No rights, expressed or implied, whatsoever to this software are provided by Mot
 (c) Copyright 2011 Motorola Mobility, Inc.  All Rights Reserved.
 </copyright> */
-var GeomObj =           require("js/lib/geom/geom-obj").GeomObj;
+var GeomObj                     = require("js/lib/geom/geom-obj").GeomObj;
-var ShapePrimitive =    require("js/lib/geom/shape-primitive").ShapePrimitive;
+var ShapePrimitive      = require("js/lib/geom/shape-primitive").ShapePrimitive;
-var MaterialsModel = require("js/models/materials-model").MaterialsModel;
+var MaterialsModel      = require("js/models/materials-model").MaterialsModel;
+var drawUtils           = require("js/helper-classes/3D/draw-utils").DrawUtils;
+var vecUtils            = require("js/helper-classes/3D/vec-utils").VecUtils;
 ///////////////////////////////////////////////////////////////////////
 // Class GLCircle
 //      GL representation of a circle.
@@ -710,6 +713,49 @@ var Circle = function GLCircle() {
                return (MathUtils.fpCmp(distToPt,distToBoundary) <= 0);
    };
+    this.getNearPoint = function( pt, dir )
+        {
+        var world = this.getWorld();
+        if (!world)  throw( "null world in getNearPoint" );
+                
+                // the input point and direction are in GL space
+                // project to the z == 0 plane
+                var mat = this.getMatrix();
+                var plane = [0,0,1,0];
+                plane = MathUtils.transformPlane( plane, mat );
+                var projPt = MathUtils.vecIntersectPlane ( pt, dir, plane );
+                // get the center of the circle in GL space
+                var ctr = this.getGLCenter();
+                // transform the projected point to the plane of the circle
+                var planePt = MathUtils.transformPoint( projPt, mat );
+                // get a matrix mapping the circle to a 2D coordinate system
+                var normal = [ mat[8], mat[9], mat[10] ];
+                var planeMat = drawUtils.getPlaneToWorldMatrix(normal, ctr);
+                var planeMatInv = glmat4.inverse( planeMat, [] );
+                var planePt2D = MathUtils.transformPoint( planePt, planeMatInv );
+                // get 2 points on the axes of the oval
+                var wPt = this.preViewToGL( [this._xOffset + 0.5*this.getWidth(),   this._yOffset,  0] ),
+                        hPt = this.preViewToGL( [this._xOffset,  this._yOffset + 0.5*this.getHeight(),  0] );
+                var w = vecUtils.vecDist( 2, wPt, ctr ),
+                        h = vecUtils.vecDist( 2, hPt, ctr );
+                var aspect = w/h;
+                // get the angle of the projected point relative to the circle
+                var angle = Math.atan2( planePt2D[1], planePt2D[0]/aspect );
+                var degrees = angle*180.0/Math.PI;
+                // get the corresponding point on the object
+                var pt = [ Math.cos(angle)*w,  Math.sin(angle)*h,  0 ];
+                var glPt = MathUtils.transformPoint( pt, planeMat );
+                return glPt;
+        }
+        /*
    this.getNearPoint = function( pt, dir ) {
        var world = this.getWorld();
        if (!world)  throw( "null world in getNearPoint" );
@@ -759,6 +805,7 @@ var Circle = function GLCircle() {
                return objPt;
    };
+        */
         this.recalcTexMapCoords = function( vrts, uvs ) {
                var n = vrts.length/3;
diff --git a/js/lib/geom/geom-obj.js b/js/lib/geom/geom-obj.js
index f2991bdb..7cb9b80f 100755
--- a/js/lib/geom/geom-obj.js
+++ b/js/lib/geom/geom-obj.js
@@ -375,6 +375,65 @@ var GeomObj = function GLGeomObj() {
        }
    };
+        this.getGLCenter = function()
+        {
+                // get the normalized device coordinates (NDC) for
+                // all position and dimensions.
+                var world = this.getWorld();
+                var     vpw = world.getViewportWidth(),  vph = world.getViewportHeight();
+                var     xNDC = 2*this._xOffset/vpw,  yNDC = -2*this._yOffset/vph;
+                var aspect = world.getAspect();
+                var zn = world.getZNear(),  zf = world.getZFar();
+                var     t = zn * Math.tan(world.getFOV() * Math.PI / 360.0),
+                        b = -t,
+                        r = aspect*t,
+                        l = -r;
+                // calculate the object coordinates from their NDC coordinates
+                var z = -world.getViewDistance();
+                // unproject to get the position of the origin in GL
+                var x = -z*(r-l)/(2.0*zn)*xNDC,
+                        y = -z*(t-b)/(2.0*zn)*yNDC;
+                z = 0.0;
+                // transform by the object's transformation matrix
+                var ctr = MathUtils.transformPoint( [x, y, z], this.getMatrix() );
+                return ctr;
+        };
+        this.preViewToGL = function( preViewPt )
+        {
+                // get the normalized device coordinates (NDC) for
+                // all position and dimensions.
+                var world = this.getWorld();
+                var     vpw = world.getViewportWidth(),  vph = world.getViewportHeight();
+                var     xNDC = 2*preViewPt[0]/vpw,  yNDC = -2*preViewPt[1]/vph;
+                var aspect = world.getAspect();
+                var zn = world.getZNear(),  zf = world.getZFar();
+                var     t = zn * Math.tan(world.getFOV() * Math.PI / 360.0),
+                        b = -t,
+                        r = aspect*t,
+                        l = -r;
+                // calculate the object coordinates from their NDC coordinates
+                var z = -world.getViewDistance();
+                // unproject to get the position of the origin in GL
+                var x = -z*(r-l)/(2.0*zn)*xNDC,
+                        y = -z*(t-b)/(2.0*zn)*yNDC;
+                z = 0.0;
+                // transform by the object's transformation matrix
+                var glPt = MathUtils.transformPoint( [x, y, z], this.getMatrix() );
+                return glPt;
+        };
    this.buildBuffers = function () {
        // this function must be overridden by the base class
        alert("GLGeomObj.buildBuffers must be overridden by base class");
diff --git a/js/lib/geom/rectangle.js b/js/lib/geom/rectangle.js
index d9f1f0b1..41c51e2f 100755
--- a/js/lib/geom/rectangle.js
+++ b/js/lib/geom/rectangle.js
@@ -693,7 +693,6 @@ var Rectangle = function GLRectangle() {
                var projPt = MathUtils.vecIntersectPlane ( pt, dir, plane );
                // transform the projected point back to the XY plane
-                //var invMat = mat.inverse();
                var invMat = glmat4.inverse(mat, []);
                var planePt = MathUtils.transformPoint( projPt, invMat );
author	hwc487	2012-04-24 17:16:29 -0700
committer	hwc487	2012-04-24 17:16:29 -0700
commit	cec076988d3ff6547b7c9d74ebc80530ffcea67b (patch)
tree	389a60f3d5605c082c49c4c9829cb8a560cbc26a /js
parent	9d274a93cecc7cba543d27237e65425b2d6a393c (diff)
download	ninja-cec076988d3ff6547b7c9d74ebc80530ffcea67b.tar.gz

diff --git a/js/lib/geom/circle.js b/js/lib/geom/circle.js index 896803bf..b7027eec 100755 --- a/js/lib/geom/circle.js +++ b/js/lib/geom/circle.js
@@ -4,9 +4,12 @@ No rights, expressed or implied, whatsoever to this software are provided by Mot
4	(c) Copyright 2011 Motorola Mobility, Inc. All Rights Reserved.	4	(c) Copyright 2011 Motorola Mobility, Inc. All Rights Reserved.
5	</copyright> */	5	</copyright> */
6		6
7	var GeomObj = require("js/lib/geom/geom-obj").GeomObj;	7	var GeomObj = require("js/lib/geom/geom-obj").GeomObj;
8	var ShapePrimitive = require("js/lib/geom/shape-primitive").ShapePrimitive;	8	var ShapePrimitive = require("js/lib/geom/shape-primitive").ShapePrimitive;
9	var MaterialsModel = require("js/models/materials-model").MaterialsModel;	9	var MaterialsModel = require("js/models/materials-model").MaterialsModel;
		10	var drawUtils = require("js/helper-classes/3D/draw-utils").DrawUtils;
		11	var vecUtils = require("js/helper-classes/3D/vec-utils").VecUtils;
		12
10	///////////////////////////////////////////////////////////////////////	13	///////////////////////////////////////////////////////////////////////
11	// Class GLCircle	14	// Class GLCircle
12	// GL representation of a circle.	15	// GL representation of a circle.
@@ -710,6 +713,49 @@ var Circle = function GLCircle() {
710	return (MathUtils.fpCmp(distToPt,distToBoundary) <= 0);	713	return (MathUtils.fpCmp(distToPt,distToBoundary) <= 0);
711	};	714	};
712		715
		716	this.getNearPoint = function( pt, dir )
		717	{
		718	var world = this.getWorld();
		719	if (!world) throw( "null world in getNearPoint" );
		720
		721	// the input point and direction are in GL space
		722	// project to the z == 0 plane
		723	var mat = this.getMatrix();
		724	var plane = [0,0,1,0];
		725	plane = MathUtils.transformPlane( plane, mat );
		726	var projPt = MathUtils.vecIntersectPlane ( pt, dir, plane );
		727
		728	// get the center of the circle in GL space
		729	var ctr = this.getGLCenter();
		730
		731	// transform the projected point to the plane of the circle
		732	var planePt = MathUtils.transformPoint( projPt, mat );
		733
		734	// get a matrix mapping the circle to a 2D coordinate system
		735	var normal = [ mat[8], mat[9], mat[10] ];
		736	var planeMat = drawUtils.getPlaneToWorldMatrix(normal, ctr);
		737	var planeMatInv = glmat4.inverse( planeMat, [] );
		738	var planePt2D = MathUtils.transformPoint( planePt, planeMatInv );
		739
		740	// get 2 points on the axes of the oval
		741	var wPt = this.preViewToGL( [this._xOffset + 0.5*this.getWidth(), this._yOffset, 0] ),
		742	hPt = this.preViewToGL( [this._xOffset, this._yOffset + 0.5*this.getHeight(), 0] );
		743	var w = vecUtils.vecDist( 2, wPt, ctr ),
		744	h = vecUtils.vecDist( 2, hPt, ctr );
		745	var aspect = w/h;
		746
		747	// get the angle of the projected point relative to the circle
		748	var angle = Math.atan2( planePt2D[1], planePt2D[0]/aspect );
		749	var degrees = angle*180.0/Math.PI;
		750
		751	// get the corresponding point on the object
		752	var pt = [ Math.cos(angle)w, Math.sin(angle)h, 0 ];
		753	var glPt = MathUtils.transformPoint( pt, planeMat );
		754
		755	return glPt;
		756	}
		757
		758	/*
713	this.getNearPoint = function( pt, dir ) {	759	this.getNearPoint = function( pt, dir ) {
714	var world = this.getWorld();	760	var world = this.getWorld();
715	if (!world) throw( "null world in getNearPoint" );	761	if (!world) throw( "null world in getNearPoint" );
@@ -759,6 +805,7 @@ var Circle = function GLCircle() {
759		805
760	return objPt;	806	return objPt;
761	};	807	};
		808	*/
762		809
763	this.recalcTexMapCoords = function( vrts, uvs ) {	810	this.recalcTexMapCoords = function( vrts, uvs ) {
764	var n = vrts.length/3;	811	var n = vrts.length/3;


diff --git a/js/lib/geom/geom-obj.js b/js/lib/geom/geom-obj.js index f2991bdb..7cb9b80f 100755 --- a/js/lib/geom/geom-obj.js +++ b/js/lib/geom/geom-obj.js
@@ -375,6 +375,65 @@ var GeomObj = function GLGeomObj() {
375	}	375	}
376	};	376	};
377		377
		378
		379	this.getGLCenter = function()
		380	{
		381	// get the normalized device coordinates (NDC) for
		382	// all position and dimensions.
		383	var world = this.getWorld();
		384	var vpw = world.getViewportWidth(), vph = world.getViewportHeight();
		385	var xNDC = 2this._xOffset/vpw, yNDC = -2this._yOffset/vph;
		386
		387	var aspect = world.getAspect();
		388	var zn = world.getZNear(), zf = world.getZFar();
		389	var t = zn * Math.tan(world.getFOV() * Math.PI / 360.0),
		390	b = -t,
		391	r = aspect*t,
		392	l = -r;
		393
		394	// calculate the object coordinates from their NDC coordinates
		395	var z = -world.getViewDistance();
		396
		397	// unproject to get the position of the origin in GL
		398	var x = -z(r-l)/(2.0zn)*xNDC,
		399	y = -z(t-b)/(2.0zn)*yNDC;
		400	z = 0.0;
		401
		402	// transform by the object's transformation matrix
		403	var ctr = MathUtils.transformPoint( [x, y, z], this.getMatrix() );
		404
		405	return ctr;
		406	};
		407
		408	this.preViewToGL = function( preViewPt )
		409	{
		410	// get the normalized device coordinates (NDC) for
		411	// all position and dimensions.
		412	var world = this.getWorld();
		413	var vpw = world.getViewportWidth(), vph = world.getViewportHeight();
		414	var xNDC = 2preViewPt[0]/vpw, yNDC = -2preViewPt[1]/vph;
		415
		416	var aspect = world.getAspect();
		417	var zn = world.getZNear(), zf = world.getZFar();
		418	var t = zn * Math.tan(world.getFOV() * Math.PI / 360.0),
		419	b = -t,
		420	r = aspect*t,
		421	l = -r;
		422
		423	// calculate the object coordinates from their NDC coordinates
		424	var z = -world.getViewDistance();
		425
		426	// unproject to get the position of the origin in GL
		427	var x = -z(r-l)/(2.0zn)*xNDC,
		428	y = -z(t-b)/(2.0zn)*yNDC;
		429	z = 0.0;
		430
		431	// transform by the object's transformation matrix
		432	var glPt = MathUtils.transformPoint( [x, y, z], this.getMatrix() );
		433
		434	return glPt;
		435	};
		436
378	this.buildBuffers = function () {	437	this.buildBuffers = function () {
379	// this function must be overridden by the base class	438	// this function must be overridden by the base class
380	alert("GLGeomObj.buildBuffers must be overridden by base class");	439	alert("GLGeomObj.buildBuffers must be overridden by base class");


diff --git a/js/lib/geom/rectangle.js b/js/lib/geom/rectangle.js index d9f1f0b1..41c51e2f 100755 --- a/js/lib/geom/rectangle.js +++ b/js/lib/geom/rectangle.js
@@ -693,7 +693,6 @@ var Rectangle = function GLRectangle() {
693	var projPt = MathUtils.vecIntersectPlane ( pt, dir, plane );	693	var projPt = MathUtils.vecIntersectPlane ( pt, dir, plane );
694		694
695	// transform the projected point back to the XY plane	695	// transform the projected point back to the XY plane
696	//var invMat = mat.inverse();
697	var invMat = glmat4.inverse(mat, []);	696	var invMat = glmat4.inverse(mat, []);
698	var planePt = MathUtils.transformPoint( projPt, invMat );	697	var planePt = MathUtils.transformPoint( projPt, invMat );
699		698