if(!dojo._hasResource["dojox.gfx.matrix"]){ //_hasResource checks added by build. Do not use _hasResource directly in your code. dojo._hasResource["dojox.gfx.matrix"] = true; dojo.provide("dojox.gfx.matrix"); (function(){ var m = dojox.gfx.matrix; // candidates for dojox.math: m._degToRad = function(degree){ return Math.PI * degree / 180; }; m._radToDeg = function(radian){ return radian / Math.PI * 180; }; m.Matrix2D = function(arg){ // summary: a 2D matrix object // description: Normalizes a 2D matrix-like object. If arrays is passed, // all objects of the array are normalized and multiplied sequentially. // arg: Object // a 2D matrix-like object, a number, or an array of such objects if(arg){ if(typeof arg == "number"){ this.xx = this.yy = arg; }else if(arg instanceof Array){ if(arg.length > 0){ var matrix = m.normalize(arg[0]); // combine matrices for(var i = 1; i < arg.length; ++i){ var l = matrix, r = dojox.gfx.matrix.normalize(arg[i]); matrix = new m.Matrix2D(); matrix.xx = l.xx * r.xx + l.xy * r.yx; matrix.xy = l.xx * r.xy + l.xy * r.yy; matrix.yx = l.yx * r.xx + l.yy * r.yx; matrix.yy = l.yx * r.xy + l.yy * r.yy; matrix.dx = l.xx * r.dx + l.xy * r.dy + l.dx; matrix.dy = l.yx * r.dx + l.yy * r.dy + l.dy; } dojo.mixin(this, matrix); } }else{ dojo.mixin(this, arg); } } }; // the default (identity) matrix, which is used to fill in missing values dojo.extend(m.Matrix2D, {xx: 1, xy: 0, yx: 0, yy: 1, dx: 0, dy: 0}); dojo.mixin(m, { // summary: class constants, and methods of dojox.gfx.matrix // matrix constants // identity: dojox.gfx.matrix.Matrix2D // an identity matrix constant: identity * (x, y) == (x, y) identity: new m.Matrix2D(), // flipX: dojox.gfx.matrix.Matrix2D // a matrix, which reflects points at x = 0 line: flipX * (x, y) == (-x, y) flipX: new m.Matrix2D({xx: -1}), // flipY: dojox.gfx.matrix.Matrix2D // a matrix, which reflects points at y = 0 line: flipY * (x, y) == (x, -y) flipY: new m.Matrix2D({yy: -1}), // flipXY: dojox.gfx.matrix.Matrix2D // a matrix, which reflects points at the origin of coordinates: flipXY * (x, y) == (-x, -y) flipXY: new m.Matrix2D({xx: -1, yy: -1}), // matrix creators translate: function(a, b){ // 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 if(arguments.length > 1){ return new m.Matrix2D({dx: a, dy: b}); // dojox.gfx.matrix.Matrix2D } // branch // a: dojox.gfx.Point: a point-like object, which specifies offsets for both dimensions // b: null return new m.Matrix2D({dx: a.x, dy: a.y}); // dojox.gfx.matrix.Matrix2D }, scale: function(a, b){ // 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 if(arguments.length > 1){ return new m.Matrix2D({xx: a, yy: b}); // dojox.gfx.matrix.Matrix2D } if(typeof a == "number"){ // branch // a: Number: a uniform scaling factor used for the both coordinates // b: null return new m.Matrix2D({xx: a, yy: a}); // dojox.gfx.matrix.Matrix2D } // branch // a: dojox.gfx.Point: a point-like object, which specifies scale factors for both dimensions // b: null return new m.Matrix2D({xx: a.x, yy: a.y}); // dojox.gfx.matrix.Matrix2D }, rotate: function(angle){ // summary: forms a rotating matrix // 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 m.Matrix2D({xx: c, xy: -s, yx: s, yy: c}); // dojox.gfx.matrix.Matrix2D }, rotateg: function(degree){ // summary: forms a rotating matrix // description: The resulting matrix is used to rotate points // around the origin of coordinates (0, 0) by specified degree. // See dojox.gfx.matrix.rotate() for comparison. // degree: Number: an angle of rotation in degrees (>0 for CW) return m.rotate(m._degToRad(degree)); // dojox.gfx.matrix.Matrix2D }, skewX: function(angle) { // summary: forms an x skewing matrix // description: The resulting matrix is used to skew points in the x dimension // around the origin of coordinates (0, 0) by specified angle. // angle: Number: an skewing angle in radians return new m.Matrix2D({xy: -Math.tan(angle)}); // dojox.gfx.matrix.Matrix2D }, skewXg: function(degree){ // summary: forms an x skewing matrix // description: The resulting matrix is used to skew points in the x dimension // around the origin of coordinates (0, 0) by specified degree. // See dojox.gfx.matrix.skewX() for comparison. // degree: Number: an skewing angle in degrees return m.skewX(m._degToRad(degree)); // dojox.gfx.matrix.Matrix2D }, skewY: function(angle){ // summary: forms a y skewing matrix // description: The resulting matrix is used to skew points in the y dimension // around the origin of coordinates (0, 0) by specified angle. // angle: Number: an skewing angle in radians return new m.Matrix2D({yx: Math.tan(angle)}); // dojox.gfx.matrix.Matrix2D }, skewYg: function(degree){ // summary: forms a y skewing matrix // description: The resulting matrix is used to skew points in the y dimension // around the origin of coordinates (0, 0) by specified degree. // See dojox.gfx.matrix.skewY() for comparison. // degree: Number: an skewing angle in degrees return m.skewY(m._degToRad(degree)); // dojox.gfx.matrix.Matrix2D }, reflect: function(a, b){ // summary: forms a reflection matrix // description: The resulting matrix is used to reflect points around a vector, // which goes through the origin. // a: dojox.gfx.Point: a point-like object, which specifies a vector of reflection // b: null if(arguments.length == 1){ b = a.y; a = a.x; } // branch // a: Number: an x coordinate value // b: Number: a y coordinate value // make a unit vector var a2 = a * a, b2 = b * b, n2 = a2 + b2, xy = 2 * a * b / n2; return new m.Matrix2D({xx: 2 * a2 / n2 - 1, xy: xy, yx: xy, yy: 2 * b2 / n2 - 1}); // dojox.gfx.matrix.Matrix2D }, project: function(a, b){ // summary: forms an orthogonal projection matrix // description: The resulting matrix is used to project points orthogonally on a vector, // which goes through the origin. // a: dojox.gfx.Point: a point-like object, which specifies a vector of projection // b: null if(arguments.length == 1){ b = a.y; a = a.x; } // branch // a: Number: an x coordinate value // b: Number: a y coordinate value // make a unit vector var a2 = a * a, b2 = b * b, n2 = a2 + b2, xy = a * b / n2; return new m.Matrix2D({xx: a2 / n2, xy: xy, yx: xy, yy: b2 / n2}); // dojox.gfx.matrix.Matrix2D }, // ensure matrix 2D conformance normalize: function(matrix){ // summary: converts an object to a matrix, if necessary // description: Converts any 2D matrix-like object or an array of // such objects to a valid dojox.gfx.matrix.Matrix2D object. // matrix: Object: an object, which is converted to a matrix, if necessary return (matrix instanceof m.Matrix2D) ? matrix : new m.Matrix2D(matrix); // dojox.gfx.matrix.Matrix2D }, // common operations clone: function(matrix){ // summary: creates a copy of a 2D matrix // matrix: dojox.gfx.matrix.Matrix2D: a 2D matrix-like object to be cloned var obj = new m.Matrix2D(); 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.gfx.matrix.Matrix2D }, invert: function(matrix){ // summary: inverts a 2D matrix // matrix: dojox.gfx.matrix.Matrix2D: a 2D matrix-like object to be inverted var M = m.normalize(matrix), D = M.xx * M.yy - M.xy * M.yx, M = new m.Matrix2D({ xx: M.yy/D, xy: -M.xy/D, yx: -M.yx/D, yy: M.xx/D, dx: (M.xy * M.dy - M.yy * M.dx) / D, dy: (M.yx * M.dx - M.xx * M.dy) / D }); return M; // dojox.gfx.matrix.Matrix2D }, _multiplyPoint: function(matrix, x, y){ // summary: applies a matrix to a point // matrix: dojox.gfx.matrix.Matrix2D: a 2D matrix object to be applied // x: Number: an x coordinate of a point // y: Number: a y coordinate of a point return {x: matrix.xx * x + matrix.xy * y + matrix.dx, y: matrix.yx * x + matrix.yy * y + matrix.dy}; // dojox.gfx.Point }, multiplyPoint: function(matrix, /* Number||Point */ a, /* Number, optional */ b){ // summary: applies a matrix to a point // matrix: dojox.gfx.matrix.Matrix2D: a 2D matrix object to be applied // a: Number: an x coordinate of a point // b: Number: a y coordinate of a point var M = m.normalize(matrix); if(typeof a == "number" && typeof b == "number"){ return m._multiplyPoint(M, a, b); // dojox.gfx.Point } // branch // matrix: dojox.gfx.matrix.Matrix2D: a 2D matrix object to be applied // a: dojox.gfx.Point: a point // b: null return m._multiplyPoint(M, a.x, a.y); // dojox.gfx.Point }, multiply: function(matrix){ // summary: combines matrices by multiplying them sequentially in the given order // matrix: dojox.gfx.matrix.Matrix2D...: a 2D matrix-like object, // all subsequent arguments are matrix-like objects too var M = m.normalize(matrix); // combine matrices for(var i = 1; i < arguments.length; ++i){ var l = M, r = m.normalize(arguments[i]); M = new m.Matrix2D(); M.xx = l.xx * r.xx + l.xy * r.yx; M.xy = l.xx * r.xy + l.xy * r.yy; M.yx = l.yx * r.xx + l.yy * r.yx; M.yy = l.yx * r.xy + l.yy * r.yy; M.dx = l.xx * r.dx + l.xy * r.dy + l.dx; M.dy = l.yx * r.dx + l.yy * r.dy + l.dy; } return M; // dojox.gfx.matrix.Matrix2D }, // high level operations _sandwich: function(matrix, x, y){ // summary: applies a matrix at a centrtal point // matrix: dojox.gfx.matrix.Matrix2D: a 2D matrix-like object, which is applied at a central point // x: Number: an x component of the central point // y: Number: a y component of the central point return m.multiply(m.translate(x, y), matrix, m.translate(-x, -y)); // dojox.gfx.matrix.Matrix2D }, scaleAt: function(a, b, c, d){ // summary: scales a picture using a specified point as a center of scaling // description: Compare with dojox.gfx.matrix.scale(). // a: Number: a scaling factor used for the x coordinate // b: Number: a scaling factor used for the y coordinate // c: Number: an x component of a central point // d: Number: a y component of a central point // accepts several signatures: // 1) uniform scale factor, Point // 2) uniform scale factor, x, y // 3) x scale, y scale, Point // 4) x scale, y scale, x, y switch(arguments.length){ case 4: // a and b are scale factor components, c and d are components of a point return m._sandwich(m.scale(a, b), c, d); // dojox.gfx.matrix.Matrix2D case 3: if(typeof c == "number"){ // branch // a: Number: a uniform scaling factor used for both coordinates // b: Number: an x component of a central point // c: Number: a y component of a central point // d: null return m._sandwich(m.scale(a), b, c); // dojox.gfx.matrix.Matrix2D } // branch // a: Number: a scaling factor used for the x coordinate // b: Number: a scaling factor used for the y coordinate // c: dojox.gfx.Point: a central point // d: null return m._sandwich(m.scale(a, b), c.x, c.y); // dojox.gfx.matrix.Matrix2D } // branch // a: Number: a uniform scaling factor used for both coordinates // b: dojox.gfx.Point: a central point // c: null // d: null return m._sandwich(m.scale(a), b.x, b.y); // dojox.gfx.matrix.Matrix2D }, rotateAt: function(angle, a, b){ // summary: rotates a picture using a specified point as a center of rotation // description: Compare with dojox.gfx.matrix.rotate(). // angle: Number: an angle of rotation in radians (>0 for CW) // a: Number: an x component of a central point // b: Number: a y component of a central point // accepts several signatures: // 1) rotation angle in radians, Point // 2) rotation angle in radians, x, y if(arguments.length > 2){ return m._sandwich(m.rotate(angle), a, b); // dojox.gfx.matrix.Matrix2D } // branch // angle: Number: an angle of rotation in radians (>0 for CCW) // a: dojox.gfx.Point: a central point // b: null return m._sandwich(m.rotate(angle), a.x, a.y); // dojox.gfx.matrix.Matrix2D }, rotategAt: function(degree, a, b){ // summary: rotates a picture using a specified point as a center of rotation // description: Compare with dojox.gfx.matrix.rotateg(). // degree: Number: an angle of rotation in degrees (>0 for CW) // a: Number: an x component of a central point // b: Number: a y component of a central point // accepts several signatures: // 1) rotation angle in degrees, Point // 2) rotation angle in degrees, x, y if(arguments.length > 2){ return m._sandwich(m.rotateg(degree), a, b); // dojox.gfx.matrix.Matrix2D } // branch // degree: Number: an angle of rotation in degrees (>0 for CCW) // a: dojox.gfx.Point: a central point // b: null return m._sandwich(m.rotateg(degree), a.x, a.y); // dojox.gfx.matrix.Matrix2D }, skewXAt: function(angle, a, b){ // summary: skews a picture along the x axis using a specified point as a center of skewing // description: Compare with dojox.gfx.matrix.skewX(). // angle: Number: an skewing angle in radians // a: Number: an x component of a central point // b: Number: a y component of a central point // accepts several signatures: // 1) skew angle in radians, Point // 2) skew angle in radians, x, y if(arguments.length > 2){ return m._sandwich(m.skewX(angle), a, b); // dojox.gfx.matrix.Matrix2D } // branch // angle: Number: an skewing angle in radians // a: dojox.gfx.Point: a central point // b: null return m._sandwich(m.skewX(angle), a.x, a.y); // dojox.gfx.matrix.Matrix2D }, skewXgAt: function(degree, a, b){ // summary: skews a picture along the x axis using a specified point as a center of skewing // description: Compare with dojox.gfx.matrix.skewXg(). // degree: Number: an skewing angle in degrees // a: Number: an x component of a central point // b: Number: a y component of a central point // accepts several signatures: // 1) skew angle in degrees, Point // 2) skew angle in degrees, x, y if(arguments.length > 2){ return m._sandwich(m.skewXg(degree), a, b); // dojox.gfx.matrix.Matrix2D } // branch // degree: Number: an skewing angle in degrees // a: dojox.gfx.Point: a central point // b: null return m._sandwich(m.skewXg(degree), a.x, a.y); // dojox.gfx.matrix.Matrix2D }, skewYAt: function(angle, a, b){ // summary: skews a picture along the y axis using a specified point as a center of skewing // description: Compare with dojox.gfx.matrix.skewY(). // angle: Number: an skewing angle in radians // a: Number: an x component of a central point // b: Number: a y component of a central point // accepts several signatures: // 1) skew angle in radians, Point // 2) skew angle in radians, x, y if(arguments.length > 2){ return m._sandwich(m.skewY(angle), a, b); // dojox.gfx.matrix.Matrix2D } // branch // angle: Number: an skewing angle in radians // a: dojox.gfx.Point: a central point // b: null return m._sandwich(m.skewY(angle), a.x, a.y); // dojox.gfx.matrix.Matrix2D }, skewYgAt: function(/* Number */ degree, /* Number||Point */ a, /* Number, optional */ b){ // summary: skews a picture along the y axis using a specified point as a center of skewing // description: Compare with dojox.gfx.matrix.skewYg(). // degree: Number: an skewing angle in degrees // a: Number: an x component of a central point // b: Number: a y component of a central point // accepts several signatures: // 1) skew angle in degrees, Point // 2) skew angle in degrees, x, y if(arguments.length > 2){ return m._sandwich(m.skewYg(degree), a, b); // dojox.gfx.matrix.Matrix2D } // branch // degree: Number: an skewing angle in degrees // a: dojox.gfx.Point: a central point // b: null return m._sandwich(m.skewYg(degree), a.x, a.y); // dojox.gfx.matrix.Matrix2D } //TODO: rect-to-rect mapping, scale-to-fit (isotropic and anisotropic versions) }); })(); // propagate Matrix2D up dojox.gfx.Matrix2D = dojox.gfx.matrix.Matrix2D; }