Subversion Repositories Applications.papyrus

if(!dojo._hasResource["dojox.gfx3d.matrix"]){ //_hasResource checks added by build. Do not use _hasResource directly in your code.

dojo._hasResource["dojox.gfx3d.matrix"] = true;

dojo.provide("dojox.gfx3d.matrix");

// candidates for dojox.math:

dojox.gfx3d.matrix._degToRad = function(degree){ return Math.PI * degree / 180; };

dojox.gfx3d.matrix._radToDeg = function(radian){ return radian / Math.PI * 180; };

dojox.gfx3d.matrix.Matrix3D = function(arg){

	// summary: a 3D matrix object

	// description: Normalizes a 3D matrix-like object. If arrays is passed,

	//		all objects of the array are normalized and multiplied sequentially.

	// arg: Object

	//		a 3D matrix-like object, a number, or an array of such objects

	if(arg){

		if(typeof arg == "number"){

			this.xx = this.yy = this.zz = arg;

		}else if(arg instanceof Array){

			if(arg.length > 0){

				var m = dojox.gfx3d.matrix.normalize(arg[0]);

				// combine matrices

				for(var i = 1; i < arg.length; ++i){

					var l = m;

					var r = dojox.gfx3d.matrix.normalize(arg[i]);

					m = new dojox.gfx3d.matrix.Matrix3D();

					m.xx = l.xx * r.xx + l.xy * r.yx + l.xz * r.zx;

					m.xy = l.xx * r.xy + l.xy * r.yy + l.xz * r.zy;

					m.xz = l.xx * r.xz + l.xy * r.yz + l.xz * r.zz;

					m.yx = l.yx * r.xx + l.yy * r.yx + l.yz * r.zx;

					m.yy = l.yx * r.xy + l.yy * r.yy + l.yz * r.zy;

					m.yz = l.yx * r.xz + l.yy * r.yz + l.yz * r.zz;

					m.zx = l.zx * r.xx + l.zy * r.yx + l.zz * r.zx;

					m.zy = l.zx * r.xy + l.zy * r.yy + l.zz * r.zy;

					m.zz = l.zx * r.xz + l.zy * r.yz + l.zz * r.zz;

					m.dx = l.xx * r.dx + l.xy * r.dy + l.xz * r.dz + l.dx;

					m.dy = l.yx * r.dx + l.yy * r.dy + l.yz * r.dz + l.dy;

					m.dz = l.zx * r.dx + l.zy * r.dy + l.zz * r.dz + l.dz;

				}

				dojo.mixin(this, m);

			}

		}else{

			dojo.mixin(this, arg);

		}

	}

};

// the default (identity) matrix, which is used to fill in missing values

dojo.extend(dojox.gfx3d.matrix.Matrix3D, {xx: 1, xy: 0, xz: 0, yx: 0, yy: 1, yz: 0, zx: 0, zy: 0, zz: 1, dx: 0, dy: 0, dz: 0});

dojo.mixin(dojox.gfx3d.matrix, {

	// summary: class constants, and methods of dojox.gfx3d.matrix

	// matrix constants

	// identity: dojox.gfx3d.matrix.Matrix3D

	//		an identity matrix constant: identity * (x, y, z) == (x, y, z)

	identity: new dojox.gfx3d.matrix.Matrix3D(),

	// matrix creators

	translate: function(a, b, c){

		// summary: forms a translation matrix

		// description: The resulting matrix is used to translate (move) points by specified offsets.

		// a: Number: an x coordinate value

		// b: Number: a y coordinate value

		// c: Number: a z coordinate value

		if(arguments.length > 1){

			return new dojox.gfx3d.matrix.Matrix3D({dx: a, dy: b, dz: c}); // dojox.gfx3d.matrix.Matrix3D

		}

		// branch

		// a: Object: a point-like object, which specifies offsets for 3 dimensions

		// b: null

		return new dojox.gfx3d.matrix.Matrix3D({dx: a.x, dy: a.y, dz: a.z}); // dojox.gfx3d.matrix.Matrix3D

	},

	scale: function(a, b, c){

		// summary: forms a scaling matrix

		// description: The resulting matrix is used to scale (magnify) points by specified offsets.

		// a: Number: a scaling factor used for the x coordinate

		// b: Number: a scaling factor used for the y coordinate

		// c: Number: a scaling factor used for the z coordinate

		if(arguments.length > 1){

			return new dojox.gfx3d.matrix.Matrix3D({xx: a, yy: b, zz: c}); // dojox.gfx3d.matrix.Matrix3D

		}

		if(typeof a == "number"){

			// branch

			// a: Number: a uniform scaling factor used for the all coordinates

			// b: null

			return new dojox.gfx3d.matrix.Matrix3D({xx: a, yy: a, zz: a}); // dojox.gfx3d.matrix.Matrix3D

		}

		// branch

		// a: Object: a point-like object, which specifies scale factors for 3 dimensions

		// b: null

		return new dojox.gfx3d.matrix.Matrix3D({xx: a.x, yy: a.y, zz: a.z}); // dojox.gfx3d.matrix.Matrix3D

	},

	rotateX: function(angle){

		// summary: forms a rotating matrix (about the x axis)

		// description: The resulting matrix is used to rotate points

		//		around the origin of coordinates (0, 0) by specified angle.

		// angle: Number: an angle of rotation in radians (>0 for CW)

		var c = Math.cos(angle);

		var s = Math.sin(angle);

		return new dojox.gfx3d.matrix.Matrix3D({yy: c, yz: -s, zy: s, zz: c}); // dojox.gfx3d.matrix.Matrix3D

	},

	rotateXg: function(degree){

		// summary: forms a rotating matrix (about the x axis)

		// description: The resulting matrix is used to rotate points

		//		around the origin of coordinates (0, 0) by specified degree.

		//		See dojox.gfx3d.matrix.rotateX() for comparison.

		// degree: Number: an angle of rotation in degrees (>0 for CW)

		return dojox.gfx3d.matrix.rotateX(dojox.gfx3d.matrix._degToRad(degree)); // dojox.gfx3d.matrix.Matrix3D

	},

	rotateY: function(angle){

		// summary: forms a rotating matrix (about the y axis)

		// description: The resulting matrix is used to rotate points

		//		around the origin of coordinates (0, 0) by specified angle.

		// angle: Number: an angle of rotation in radians (>0 for CW)

		var c = Math.cos(angle);

		var s = Math.sin(angle);

		return new dojox.gfx3d.matrix.Matrix3D({xx: c, xz: s, zx: -s, zz: c}); // dojox.gfx3d.matrix.Matrix3D

	},

	rotateYg: function(degree){

		// summary: forms a rotating matrix (about the y axis)

		// description: The resulting matrix is used to rotate points

		//		around the origin of coordinates (0, 0) by specified degree.

		//		See dojox.gfx3d.matrix.rotateY() for comparison.

		// degree: Number: an angle of rotation in degrees (>0 for CW)

		return dojox.gfx3d.matrix.rotateY(dojox.gfx3d.matrix._degToRad(degree)); // dojox.gfx3d.matrix.Matrix3D

	},

	rotateZ: function(angle){

		// summary: forms a rotating matrix (about the z axis)

		// description: The resulting matrix is used to rotate points

		//		around the origin of coordinates (0, 0) by specified angle.

		// angle: Number: an angle of rotation in radians (>0 for CW)

		var c = Math.cos(angle);

		var s = Math.sin(angle);

		return new dojox.gfx3d.matrix.Matrix3D({xx: c, xy: -s, yx: s, yy: c}); // dojox.gfx3d.matrix.Matrix3D

	},

	rotateZg: function(degree){

		// summary: forms a rotating matrix (about the z axis)

		// description: The resulting matrix is used to rotate points

		//		around the origin of coordinates (0, 0) by specified degree.

		//		See dojox.gfx3d.matrix.rotateZ() for comparison.

		// degree: Number: an angle of rotation in degrees (>0 for CW)

		return dojox.gfx3d.matrix.rotateZ(dojox.gfx3d.matrix._degToRad(degree)); // dojox.gfx3d.matrix.Matrix3D

	},

	// camera transformation

	cameraTranslate: function(a, b, c){

		// summary: forms a translation matrix

		// description: The resulting matrix is used to translate (move) points by specified offsets.

		// a: Number: an x coordinate value

		// b: Number: a y coordinate value

		// c: Number: a z coordinate value

		if(arguments.length > 1){

			return new dojox.gfx3d.matrix.Matrix3D({dx: -a, dy: -b, dz: -c}); // dojox.gfx3d.matrix.Matrix3D

		}

		// branch

		// a: Object: a point-like object, which specifies offsets for 3 dimensions

		// b: null

		return new dojox.gfx3d.matrix.Matrix3D({dx: -a.x, dy: -a.y, dz: -a.z}); // dojox.gfx3d.matrix.Matrix3D

	},

	cameraRotateX: function(angle){

		// summary: forms a rotating matrix (about the x axis) in cameraTransform manner

		// description: The resulting matrix is used to rotate points

		//		around the origin of coordinates (0, 0) by specified angle.

		// angle: Number: an angle of rotation in radians (>0 for CW)

		var c = Math.cos(-angle);

		var s = Math.sin(-angle);

		return new dojox.gfx3d.matrix.Matrix3D({yy: c, yz: -s, zy: s, zz: c}); // dojox.gfx3d.matrix.Matrix3D

	},

	cameraRotateXg: function(degree){

		// summary: forms a rotating matrix (about the x axis)in cameraTransform manner

		// description: The resulting matrix is used to rotate points

		//		around the origin of coordinates (0, 0) by specified degree.

		//		See dojox.gfx3d.matrix.rotateX() for comparison.

		// degree: Number: an angle of rotation in degrees (>0 for CW)

		return dojox.gfx3d.matrix.rotateX(dojox.gfx3d.matrix._degToRad(degree)); // dojox.gfx3d.matrix.Matrix3D

	},

	cameraRotateY: function(angle){

		// summary: forms a rotating matrix (about the y axis) in cameraTransform manner

		// description: The resulting matrix is used to rotate points

		//		around the origin of coordinates (0, 0) by specified angle.

		// angle: Number: an angle of rotation in radians (>0 for CW)

		var c = Math.cos(-angle);

		var s = Math.sin(-angle);

		return new dojox.gfx3d.matrix.Matrix3D({xx: c, xz: s, zx: -s, zz: c}); // dojox.gfx3d.matrix.Matrix3D

	},

	cameraRotateYg: function(degree){

		// summary: forms a rotating matrix (about the y axis) in cameraTransform manner

		// description: The resulting matrix is used to rotate points

		//		around the origin of coordinates (0, 0) by specified degree.

		//		See dojox.gfx3d.matrix.rotateY() for comparison.

		// degree: Number: an angle of rotation in degrees (>0 for CW)

		return dojox.gfx3d.matrix.rotateY(dojox.gfx3d.matrix._degToRad(degree)); // dojox.gfx3d.matrix.Matrix3D

	},

	cameraRotateZ: function(angle){

		// summary: forms a rotating matrix (about the z axis) in cameraTransform manner

		// description: The resulting matrix is used to rotate points

		//		around the origin of coordinates (0, 0) by specified angle.

		// angle: Number: an angle of rotation in radians (>0 for CW)

		var c = Math.cos(-angle);

		var s = Math.sin(-angle);

		return new dojox.gfx3d.matrix.Matrix3D({xx: c, xy: -s, yx: s, yy: c}); // dojox.gfx3d.matrix.Matrix3D

	},

	cameraRotateZg: function(degree){

		// summary: forms a rotating matrix (about the z axis) in cameraTransform manner

		// description: The resulting matrix is used to rotate points

		//		around the origin of coordinates (0, 0) by specified degree.

		//		See dojox.gfx3d.matrix.rotateZ() for comparison.

		// degree: Number: an angle of rotation in degrees (>0 for CW)

		return dojox.gfx3d.matrix.rotateZ(dojox.gfx3d.matrix._degToRad(degree)); // dojox.gfx3d.matrix.Matrix3D

	},

	// ensure matrix 3D conformance

	normalize: function(matrix){

		// summary: converts an object to a matrix, if necessary

		// description: Converts any 3D matrix-like object or an array of

		//		such objects to a valid dojox.gfx3d.matrix.Matrix3D object.

		// matrix: Object: an object, which is converted to a matrix, if necessary

		return (matrix instanceof dojox.gfx3d.matrix.Matrix3D) ? matrix : new dojox.gfx3d.matrix.Matrix3D(matrix); // dojox.gfx3d.matrix.Matrix3D

	},

	// common operations

	clone: function(matrix){

		// summary: creates a copy of a 3D matrix

		// matrix: dojox.gfx3d.matrix.Matrix3D: a 3D matrix-like object to be cloned

		var obj = new dojox.gfx3d.matrix.Matrix3D();

		for(var i in matrix){

			if(typeof(matrix[i]) == "number" && typeof(obj[i]) == "number" && obj[i] != matrix[i]) obj[i] = matrix[i];

		}

		return obj; // dojox.gfx3d.matrix.Matrix3D

	},

	invert: function(matrix){

		// summary: inverts a 2D matrix

		// matrix: dojox.gfx.matrix.Matrix3D: a 2D matrix-like object to be inverted

		var m = dojox.gfx3d.matrix.normalize(matrix);

		var D = m.xx * m.yy * m.zz + m.xy * m.yz * m.zx + m.xz * m.yx * m.zy - m.xx * m.yz * m.zy - m.xy * m.yx * m.zz - m.xz * m.yy * m.zx;

		var M = new dojox.gfx3d.matrix.Matrix3D({

			xx: (m.yy * m.zz - m.yz * m.zy) / D,

			xy: (m.xz * m.zy - m.xy * m.zz) / D,

			xz: (m.xy * m.yz - m.xz * m.yy) / D,

			yx: (m.yz * m.zx - m.yx * m.zz) / D,

			yy: (m.xx * m.zz - m.xz * m.zx) / D,

			yz: (m.xz * m.yx - m.xx * m.yz) / D,

			zx: (m.yx * m.zy - m.yy * m.zx) / D,

			zy: (m.xy * m.zx - m.xx * m.zy) / D,

			zz: (m.xx * m.yy - m.xy * m.yx) / D,

			dx: -1 * (m.xy * m.yz * m.dz + m.xz * m.dy * m.zy + m.dx * m.yy * m.zz - m.xy * m.dy * m.zz - m.xz * m.yy * m.dz - m.dx * m.yz * m.zy) / D,

			dy: (m.xx * m.yz * m.dz + m.xz * m.dy * m.zx + m.dx * m.yx * m.zz - m.xx * m.dy * m.zz - m.xz * m.yx * m.dz - m.dx * m.yz * m.zx) / D,

			dz: -1 * (m.xx * m.yy * m.dz + m.xy * m.dy * m.zx + m.dx * m.yx * m.zy - m.xx * m.dy * m.zy - m.xy * m.yx * m.dz - m.dx * m.yy * m.zx) / D

		});

		return M; // dojox.gfx3d.matrix.Matrix3D

	},

	_multiplyPoint: function(m, x, y, z){

		// summary: applies a matrix to a point

		// matrix: dojox.gfx3d.matrix.Matrix3D: a 3D matrix object to be applied

		// x: Number: an x coordinate of a point

		// y: Number: a y coordinate of a point

		// z: Number: a z coordinate of a point

		return {x: m.xx * x + m.xy * y + m.xz * z + m.dx, y: m.yx * x + m.yy * y + m.yz * z + m.dy, z: m.zx * x + m.zy * y + m.zz * z + m.dz}; // Object

	},

	multiplyPoint: function(matrix, /* Number||Point */ a, /* Number, optional */ b, /* Number, optional */ c){

		// summary: applies a matrix to a point

		// matrix: dojox.gfx3d.matrix.Matrix3D: a 3D matrix object to be applied

		// a: Number: an x coordinate of a point

		// b: Number: a y coordinate of a point

		// c: Number: a z coordinate of a point

		var m = dojox.gfx3d.matrix.normalize(matrix);

		if(typeof a == "number" && typeof b == "number" && typeof c == "number"){

			return dojox.gfx3d.matrix._multiplyPoint(m, a, b, c); // Object

		}

		// branch

		// matrix: dojox.gfx3d.matrix.Matrix3D: a 3D matrix object to be applied

		// a: Object: a point

		// b: null

		// c: null

		return dojox.gfx3d.matrix._multiplyPoint(m, a.x, a.y, a.z); // Object

	},

	multiply: function(matrix){

		// summary: combines matrices by multiplying them sequentially in the given order

		// matrix: dojox.gfx3d.matrix.Matrix3D...: a 3D matrix-like object,

		//		all subsequent arguments are matrix-like objects too

		var m = dojox.gfx3d.matrix.normalize(matrix);

		// combine matrices

		for(var i = 1; i < arguments.length; ++i){

			var l = m;

			var r = dojox.gfx3d.matrix.normalize(arguments[i]);

			m = new dojox.gfx3d.matrix.Matrix3D();

			m.xx = l.xx * r.xx + l.xy * r.yx + l.xz * r.zx;

			m.xy = l.xx * r.xy + l.xy * r.yy + l.xz * r.zy;

			m.xz = l.xx * r.xz + l.xy * r.yz + l.xz * r.zz;

			m.yx = l.yx * r.xx + l.yy * r.yx + l.yz * r.zx;

			m.yy = l.yx * r.xy + l.yy * r.yy + l.yz * r.zy;

			m.yz = l.yx * r.xz + l.yy * r.yz + l.yz * r.zz;

			m.zx = l.zx * r.xx + l.zy * r.yx + l.zz * r.zx;

			m.zy = l.zx * r.xy + l.zy * r.yy + l.zz * r.zy;

			m.zz = l.zx * r.xz + l.zy * r.yz + l.zz * r.zz;

			m.dx = l.xx * r.dx + l.xy * r.dy + l.xz * r.dz + l.dx;

			m.dy = l.yx * r.dx + l.yy * r.dy + l.yz * r.dz + l.dy;

			m.dz = l.zx * r.dx + l.zy * r.dy + l.zz * r.dz + l.dz;

		}

		return m; // dojox.gfx3d.matrix.Matrix3D

	},

	_project: function(m, x, y, z){

		// summary: applies a matrix to a point

		// matrix: dojox.gfx3d.matrix.Matrix3D: a 3D matrix object to be applied

		// x: Number: an x coordinate of a point

		// y: Number: a y coordinate of a point

		// z: Number: a z coordinate of a point

		return {	// Object

			x: m.xx * x + m.xy * y + m.xz * z + m.dx,

			y: m.yx * x + m.yy * y + m.yz * z + m.dy,

			z: m.zx * x + m.zy * y + m.zz * z + m.dz};

	},

	project: function(matrix, /* Number||Point */ a, /* Number, optional */ b, /* Number, optional */ c){

		// summary: applies a matrix to a point

		// matrix: dojox.gfx3d.matrix.Matrix3D: a 3D matrix object to be applied

		// a: Number: an x coordinate of a point

		// b: Number: a y coordinate of a point

		// c: Number: a z coordinate of a point

		var m = dojox.gfx3d.matrix.normalize(matrix);

		if(typeof a == "number" && typeof b == "number" && typeof c == "number"){

			return dojox.gfx3d.matrix._project(m, a, b, c); // Object

		}

		// branch

		// matrix: dojox.gfx3d.matrix.Matrix3D: a 3D matrix object to be applied

		// a: Object: a point

		// b: null

		// c: null

		return dojox.gfx3d.matrix._project(m, a.x, a.y, a.z); // Object

	}

});

// propagate matrix up

dojox.gfx3d.Matrix3D = dojox.gfx3d.matrix.Matrix3D;

}