From 381e6b89a054d545519874fd5e828ef534287336 Mon Sep 17 00:00:00 2001 From: Valerio Virgillito Date: Thu, 15 Mar 2012 01:09:01 -0700 Subject: Removing the backup-delete folder and the RDGE tools directory. Signed-off-by: Valerio Virgillito --- js/helper-classes/backup-delete/GLCircle.js | 711 ---------------------------- 1 file changed, 711 deletions(-) delete mode 100755 js/helper-classes/backup-delete/GLCircle.js (limited to 'js/helper-classes/backup-delete/GLCircle.js') diff --git a/js/helper-classes/backup-delete/GLCircle.js b/js/helper-classes/backup-delete/GLCircle.js deleted file mode 100755 index 59d0bdaf..00000000 --- a/js/helper-classes/backup-delete/GLCircle.js +++ /dev/null @@ -1,711 +0,0 @@ -/* -This file contains proprietary software owned by Motorola Mobility, Inc.
-No rights, expressed or implied, whatsoever to this software are provided by Motorola Mobility, Inc. hereunder.
-(c) Copyright 2011 Motorola Mobility, Inc. All Rights Reserved. -
*/ - -/////////////////////////////////////////////////////////////////////// -// Class GLCircle -// GL representation of a circle. -// Derived from class GLGeomObj -// The position and dimensions of the stroke, fill, and inner Radius should be in pixels -/////////////////////////////////////////////////////////////////////// -function GLCircle() -{ - - // initialize the inherited members - this.inheritedFrom = GLGeomObj; - this.inheritedFrom(); - - this.init = function( world, xOffset, yOffset, width, height, strokeSize, strokeColor, fillColor, innerRadius, strokeMaterial, fillMaterial, strokeStyle) - { - /////////////////////////////////////////////////////////////////////// - // Instance variables - /////////////////////////////////////////////////////////////////////// - this._width = 2.0; - this._height = 2.0; - this._xOffset = 0; - this._yOffset = 0; - - this._radius = 2.0; - this._strokeWidth = 0.25; - this._innerRadius = 0; - - this._ovalHeight = this._ovalHeight = 2.0*this.radius; - - this._strokeStyle = "Solid"; - - this._aspectRatio = 1.0; - - - if (arguments.length > 0) - { - this._width = width; - this._height = height; - this._xOffset = xOffset; - this._yOffset = yOffset; - - this._strokeWidth = strokeSize; - this._innerRadius = innerRadius; - if (strokeColor) this._strokeColor = strokeColor; - if (fillColor) this._fillColor = fillColor; - - this._strokeStyle = strokeStyle; - } - - this.m_world = world; - - - if(strokeMaterial) - this._strokeMaterial = strokeMaterial; - else - this._strokeMaterial = new FlatMaterial(); - - if(fillMaterial) - this._fillMaterial = fillMaterial; - else - this._fillMaterial = new FlatMaterial(); - } - - /////////////////////////////////////////////////////////////////////// - // Property Accessors - /////////////////////////////////////////////////////////////////////// - this.getStrokeWidth = function() { return this._strokeWidth; } - this.setStrokeWidth = function(w) { this._strokeWidth = w; } - - this.getStrokeMaterial = function() { return this._strokeMaterial; } - this.setStrokeMaterial = function(m) { this._strokeMaterial = m; } - - this.getFillMaterial = function() { return this._fillMaterial; } - this.setFillMaterial = function(m) { this._fillMaterial = m; } - - this.getRadius = function() { return this._radius; } - this.setRadius = function(r) { this._radius = r; } - - this.getWorld = function() { return this._world; } - this.setWorld = function(w) { this._world = w; } - - this.getInnerRadius = function() { return this._innerRadius; } - this.setInnerRadius = function(r) { this._innerRadius = r; } - - this.getStrokeStyle = function() { return this._strokeStyle; } - this.setStrokeStyle = function(s) { this._strokeStyle = s; } - - this.getWidth = function() { return this._width; } - this.setWidth = function(w) { this._width = w; } - - this.getHeight = function() { return this._height; } - this.setHeight = function(h) { this._height = h; } - - this.geomType = function() { return this.GEOM_TYPE_CIRCLE; } - - /////////////////////////////////////////////////////////////////////// - // Methods - /////////////////////////////////////////////////////////////////////// - - /////////////////////////////////////////////////////////////////////// - // update the "color of the material - this.getFillColor = function() - { - return this._fillColor; - } - -// this.setFillColor = function(c) -// { -// this._fillColor = c; -// } - - this.getStrokeColor = function() - { - return this._strokeColor; - } - -// this.setStrokeColor = function(c) -// { -// this._strokeColor = c; -// } - /////////////////////////////////////////////////////////////////////// - - this.buildBuffers = function() - { - // get the world - var world = this.getWorld(); - if (!world) throw( "null world in buildBuffers" ); - - if (!world._useWebGL) return; - - // make sure RDGE has the correct context - g_Engine.setContext( world.getCanvas().rdgeid ); - - // create the gl buffer - var gl = world.getGLContext(); - - // determine the number of triangles to generate - var nTriangles = 60; // yes, we will do better than this - - // get the normalized device coordinates (NDC) for - // all position and dimensions. - var vpw = world.getViewportWidth(), vph = world.getViewportHeight(); - var xNDC = 2*this._xOffset/vpw, yNDC = 2*this._yOffset/vph, - xRadNDC = this._width/vpw, yRadNDC = this._height/vph, - xStrokeNDC = 2*this._strokeWidth/vpw, yStrokeNDC = 2*this._strokeWidth/vph, - xInnRadNDC = this._innerRadius*xRadNDC, yInnRadNDC = this._innerRadius*yRadNDC; - - 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(); - - // get the position of the origin - var x = -z*(r-l)/(2.0*zn)*xNDC, - y = -z*(t-b)/(2.0*zn)*yNDC; - - // get the x and y radii - var xRad = -z*(r-l)/(2.0*zn)*xRadNDC, - yRad = -z*(t-b)/(2.0*zn)*yRadNDC; - - // save the overall dimensions to be used in the uv calculations - this._ovalWidth = xRad; this._ovalHeight = yRad; - - // get the x & y stroke size - var xStroke = -z*(r-l)/(2.0*zn)*xStrokeNDC, - yStroke = -z*(t-b)/(2.0*zn)*yStrokeNDC; - - // get the inner radius - var xInnRad = -z*(r-l)/(2.0*zn)*xInnRadNDC, - yInnRad = -z*(t-b)/(2.0*zn)*yInnRadNDC; - - // get a matrix to rotate a point around the circle - var angle = 2.0*Math.PI/Number(nTriangles); - var mat = Matrix.RotationZ( angle ); - var reverseRotMat = Matrix.RotationZ( -angle ); - - // calculate matrices to scale the circle and stroke to fit the bounds of the ellipse - var strokeScaleMat = Matrix.I(4); - strokeScaleMat[0] = xRad; - strokeScaleMat[5] = yRad; - - var fillScaleMat = Matrix.I(4); - fillScaleMat[0] = xRad - xStroke; - fillScaleMat[5] = yRad - yStroke; - - var innerRadiusScaleMat = Matrix.I(4); - innerRadiusScaleMat[0] = xInnRad; - innerRadiusScaleMat[5] = yInnRad; - - var innerStrokeScaleMat = Matrix.I(4); - innerStrokeScaleMat[0] = xInnRad - xStroke; - innerStrokeScaleMat[5] = yInnRad - yStroke; - - var fillPrim, strokePrim0, strokePrim1; - var fillMaterial, strokeMaterial0, strokeMaterial2; - - this._primArray = []; - this._materialArray = []; - this._materialTypeArray = []; - this._materialNodeArray = []; - - ///////////////////////////////////////////////////////////// - // Strokes - if(this._strokeWidth > 0) - { - var numStrokes = 1; - if(this._innerRadius !== 0) - strokePrim0 = this.generateOvalRing(x, y, reverseRotMat, innerStrokeScaleMat, innerRadiusScaleMat, nTriangles); - - strokePrim1 = this.generateOvalRing(x, y, reverseRotMat, fillScaleMat, strokeScaleMat, nTriangles); - } - - ///////////////////////////////////////////////////////////// - // Fill - if(this._innerRadius === 0) - fillPrim = this.generateOval(x, y, mat, fillScaleMat, nTriangles); - else - fillPrim = this.generateOvalRing(x, y, reverseRotMat, innerRadiusScaleMat, fillScaleMat, nTriangles); - - if (fillPrim) - { - fillMaterial = this.makeFillMaterial(); - - this._primArray.push( fillPrim ); - this._materialNodeArray.push( fillMaterial.getMaterialNode() ); - } - if (strokePrim0) - { - strokeMaterial0 = this.makeStrokeMaterial(); - - this._primArray.push( strokePrim0 ); - this._materialNodeArray.push( strokeMaterial0.getMaterialNode() ); - } - if (strokePrim1) - { - strokeMaterial2 = this.makeStrokeMaterial(); - - this._primArray.push( strokePrim1 ); - this._materialNodeArray.push( strokeMaterial2.getMaterialNode() ); - } - - world.updateObject(this); - } - - - this.generateOval = function(xOff, yOff, rotationMat, scaleMat, nTriangles) - { - var pt = [1.0, 0.0, 0.0]; - //var pts = scaleMat.multiply(pt); - var pts = glmat4.multiplyVec3( scaleMat, pt, []); - var x = pts[0], y = pts[1], z = 0; - var xs = scaleMat[0], ys = scaleMat[4]; - - var vrts = [], nrms = [], uvs = [], indices = []; - var index = 0; - for (var i=0; i 0) - { - xScale = 0.5*innerRad*this._width; - yScale = 0.5*innerRad*this._height; - mat[0] = xScale; - mat[5] = yScale; - - // get the bezier points - var bezPts = MathUtils.circularArcToBezier( Vector.create([0,0,0]), Vector.create([1,0,0]), -2.0*Math.PI ); - if (bezPts) - { - var n = bezPts.length; - p = MathUtils.transformPoint( bezPts[0], mat ); - ctx.moveTo( p[0], p[1] ); - index = 1; - while (index < n) - { - p0 = MathUtils.transformPoint( bezPts[index], mat ); - p1 = MathUtils.transformPoint( bezPts[index+1], mat ); - - var x0 = p0[0], y0 = p0[1], - x1 = p1[0], y1 = p1[1]; - ctx.quadraticCurveTo( x0, y0, x1, y1 ); - index += 2; - } - } - } - - // fill the path - ctx.fill(); - } - - // calculate the stroke matrix - xScale = 0.5*this._width - 0.5*lineWidth; - yScale = 0.5*this._height - 0.5*lineWidth; - mat[0] = xScale; - mat[5] = yScale; - - // set up the stroke style - ctx.beginPath(); - ctx.lineWidth = lineWidth; - if (this._strokeColor) - { - var c = "rgba(" + 255*this._strokeColor[0] + "," + 255*this._strokeColor[1] + "," + 255*this._strokeColor[2] + "," + this._strokeColor[3] + ")"; - ctx.strokeStyle = c; - - // draw the stroke - p = MathUtils.transformPoint( bezPts[0], mat ); - ctx.moveTo( p[0], p[1] ); - index = 1; - while (index < n) - { - var p0 = MathUtils.transformPoint( bezPts[index], mat ); - var p1 = MathUtils.transformPoint( bezPts[index+1], mat ); - - var x0 = p0[0], y0 = p0[1], - x1 = p1[0], y1 = p1[1]; - ctx.quadraticCurveTo( x0, y0, x1, y1 ); - index += 2; - } - - if (MathUtils.fpSign(innerRad) > 0) - { - // calculate the stroke matrix - xScale = 0.5*innerRad*this._width - 0.5*lineWidth; - yScale = 0.5*innerRad*this._height - 0.5*lineWidth; - mat[0] = xScale; - mat[5] = yScale; - - // draw the stroke - p = MathUtils.transformPoint( bezPts[0], mat ); - ctx.moveTo( p[0], p[1] ); - index = 1; - while (index < n) - { - var p0 = MathUtils.transformPoint( bezPts[index], mat ); - var p1 = MathUtils.transformPoint( bezPts[index+1], mat ); - - var x0 = p0[0], y0 = p0[1], - x1 = p1[0], y1 = p1[1]; - ctx.quadraticCurveTo( x0, y0, x1, y1 ); - index += 2; - } - } - - // render the stroke - ctx.stroke(); - } - } - } - - this.export = function() - { - var rtnStr = "type: " + this.geomType() + "\n"; - - rtnStr += "xoff: " + this._xOffset + "\n"; - rtnStr += "yoff: " + this._yOffset + "\n"; - rtnStr += "width: " + this._width + "\n"; - rtnStr += "height: " + this._height + "\n"; - rtnStr += "strokeWidth: " + this._strokeWidth + "\n"; - rtnStr += "innerRadius: " + this._innerRadius + "\n"; - rtnStr += "strokeStyle: " + this._strokeStyle + "\n"; - rtnStr += "strokeColor: " + String(this._strokeColor) + "\n"; - rtnStr += "fillColor: " + String(this._fillColor) + "\n"; - - rtnStr += "strokeMat: "; - if (this._strokeMaterial) - rtnStr += this._strokeMaterial.getName(); - else - rtnStr += "flatMaterial"; - rtnStr += "\n"; - - rtnStr += "fillMat: "; - if (this._fillMaterial) - rtnStr += this._fillMaterial.getName(); - else - rtnStr += "flatMaterial"; - rtnStr += "\n"; - - rtnStr += this.exportMaterials(); - - return rtnStr; - } - - this.import = function( importStr ) - { - this._xOffset = Number( this.getPropertyFromString( "xoff: ", importStr ) ); - this._yOffset = Number( this.getPropertyFromString( "yoff: ", importStr ) ); - this._width = Number( this.getPropertyFromString( "width: ", importStr ) ); - this._height = Number( this.getPropertyFromString( "height: ", importStr ) ); - this._strokeWidth = Number( this.getPropertyFromString( "strokeWidth: ", importStr ) ); - this._innerRadius = Number( this.getPropertyFromString( "innerRadius: ", importStr ) ); - this._strokeStyle = this.getPropertyFromString( "strokeStyle: ", importStr ); - var strokeMaterialName = this.getPropertyFromString( "strokeMat: ", importStr ); - var fillMaterialName = this.getPropertyFromString( "fillMat: ", importStr ); - this._fillColor = eval( "[" + this.getPropertyFromString( "fillColor: ", importStr ) + "]" ); - this._strokeColor = eval( "[" + this.getPropertyFromString( "strokeColor: ", importStr ) + "]" ); - - var strokeMat = MaterialsLibrary.getMaterial( strokeMaterialName ); - if (!strokeMat) - { - console.log( "object material not found in library: " + strokeMaterialName ); - strokeMat = new FlatMaterial(); - } - this._strokeMaterial = strokeMat; - - var fillMat = MaterialsLibrary.getMaterial( fillMaterialName ); - if (!fillMat) - { - console.log( "object material not found in library: " + fillMaterialName ); - fillMat = new FlatMaterial(); - } - this._fillMaterial = fillMat; - } - - this.collidesWithPoint = function( x, y ) - { -// if(x < this._xOffset) return false; -// if(x > (this._xOffset + this._width)) return false; -// if(y < this._yOffset) return false; -// if(y > (this._yOffset + this._height)) return false; - - return true; - } - - this.containsPoint = function( pt, dir ) - { - var world = this.getWorld(); - if (!world) throw( "null world in containsPoint" ); - - // get a point on the plane of the circle - // the point is in NDC, as is the input parameters - var mat = this.getMatrix(); - var plane = [0,0,1,0]; - plane = MathUtils.transformPlane( plane, mat ); - 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 ); - - // get the normalized device coordinates (NDC) for - // the position and radii. - var vpw = world.getViewportWidth(), vph = world.getViewportHeight(); - var xNDC = 2*this._xOffset/vpw, yNDC = 2*this._yOffset/vph, - xRadNDC = this._width/vpw, yRadNDC = this._height/vph; - var projMat = world.makePerspectiveMatrix(); - var z = -world.getViewDistance(); - var planePtNDC = planePt.slice(0); - planePtNDC[2] = z; - planePtNDC = MathUtils.transformHomogeneousPoint( planePtNDC, projMat ); - planePtNDC = MathUtils.applyHomogeneousCoordinate( planePtNDC ); - - // get the gl coordinates - 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; - - var angle = Math.atan2( planePtNDC[1] - yNDC, planePtNDC[0] - xNDC ); - var degrees = angle*180.0/Math.PI; - var objPtNDC = [Math.cos(angle)*xRadNDC + xNDC, Math.sin(angle)*yRadNDC + yNDC, 0]; - - var ctrNDC = [xNDC, yNDC]; - - var distToBoundary = VecUtils.vecDist( 2, ctrNDC, objPtNDC ), - distToPt = VecUtils.vecDist( 2, ctrNDC, planePtNDC ); - - return (MathUtils.fpCmp(distToPt,distToBoundary) <= 0); - } - - this.getNearPoint = function( pt, dir ) - { - var world = this.getWorld(); - if (!world) throw( "null world in getNearPoint" ); - - // get a point on the plane of the circle - // the point is in NDC, as is the input parameters - var mat = this.getMatrix(); - var plane = [0,0,1,0]; - plane = MathUtils.transformPlane( plane, mat ); - 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 ); - - // get the normalized device coordinates (NDC) for - // the position and radii. - var vpw = world.getViewportWidth(), vph = world.getViewportHeight(); - var xNDC = 2*this._xOffset/vpw, yNDC = 2*this._yOffset/vph, - xRadNDC = this._width/vpw, yRadNDC = this._height/vph; - var projMat = world.makePerspectiveMatrix(); - var z = -world.getViewDistance(); - var planePtNDC = planePt.slice(0); - planePtNDC[2] = z; - planePtNDC = MathUtils.transformHomogeneousPoint( planePtNDC, projMat ); - planePtNDC = MathUtils.applyHomogeneousCoordinate( planePtNDC ); - - // get the gl coordinates - 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; - - var angle = Math.atan2( planePtNDC[1] - yNDC, planePtNDC[0] - xNDC ); - var degrees = angle*180.0/Math.PI; - var objPt = [Math.cos(angle)*xRadNDC + xNDC, Math.sin(angle)*yRadNDC + yNDC, 0]; - - // convert to GL coordinates - objPt[0] = -z*(r-l)/(2.0*zn)*objPt[0]; - objPt[1] = -z*(t-b)/(2.0*zn)*objPt[1]; - - // re-apply the transform - objPt = MathUtils.transformPoint( objPt, mat ); - - return objPt; - } - - this.recalcTexMapCoords = function( vrts, uvs ) - { - var n = vrts.length/3; - var ivrt = 0, iuv = 0; - var uMin = 1.e8, uMax = -1.e8, - vMin = 1.e8, vMax = -1.e8 - for (var i=0; i uMax) uMax = uvs[iuv]; - - iuv++; ivrt++; - uvs[iuv] = 0.5*(vrts[ivrt]/this._ovalHeight + 1); - if (uvs[iuv] < vMin) vMin = uvs[iuv]; - if (uvs[iuv] > vMax) vMax = uvs[iuv]; - iuv++; ivrt += 2; - } - - //console.log( "remap: " + uvs ); - //console.log( "uRange: " + uMin + " => " + uMax ); - //console.log( "vRange: " + vMin + " => " + vMax ); - } - } - - -- cgit v1.2.3