New file |
0,0 → 1,139 |
if(!dojo._hasResource["dojox.gfx.decompose"]){ //_hasResource checks added by build. Do not use _hasResource directly in your code. |
dojo._hasResource["dojox.gfx.decompose"] = true; |
dojo.provide("dojox.gfx.decompose"); |
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dojo.require("dojox.gfx.matrix"); |
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(function(){ |
var m = dojox.gfx.matrix; |
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var eq = function(/* Number */ a, /* Number */ b){ |
// summary: compare two FP numbers for equality |
return Math.abs(a - b) <= 1e-6 * (Math.abs(a) + Math.abs(b)); // Boolean |
}; |
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var calcFromValues = function(/* Number */ r1, /* Number */ m1, /* Number */ r2, /* Number */ m2){ |
// summary: uses two close FP ration and their original magnitudes to approximate the result |
if(!isFinite(r1)){ |
return r2; // Number |
}else if(!isFinite(r2)){ |
return r1; // Number |
} |
m1 = Math.abs(m1), m2 = Math.abs(m2); |
return (m1 * r1 + m2 * r2) / (m1 + m2); // Number |
}; |
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var transpose = function(/* dojox.gfx.matrix.Matrix2D */ matrix){ |
// matrix: dojox.gfx.matrix.Matrix2D: a 2D matrix-like object |
var M = new m.Matrix2D(matrix); |
return dojo.mixin(M, {dx: 0, dy: 0, xy: M.yx, yx: M.xy}); // dojox.gfx.matrix.Matrix2D |
}; |
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var scaleSign = function(/* dojox.gfx.matrix.Matrix2D */ matrix){ |
return (matrix.xx * matrix.yy < 0 || matrix.xy * matrix.yx > 0) ? -1 : 1; // Number |
}; |
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var eigenvalueDecomposition = function(/* dojox.gfx.matrix.Matrix2D */ matrix){ |
// matrix: dojox.gfx.matrix.Matrix2D: a 2D matrix-like object |
var M = m.normalize(matrix), |
b = -M.xx - M.yy, |
c = M.xx * M.yy - M.xy * M.yx, |
d = Math.sqrt(b * b - 4 * c), |
l1 = -(b + (b < 0 ? -d : d)) / 2, |
l2 = c / l1, |
vx1 = M.xy / (l1 - M.xx), vy1 = 1, |
vx2 = M.xy / (l2 - M.xx), vy2 = 1; |
if(eq(l1, l2)){ |
vx1 = 1, vy1 = 0, vx2 = 0, vy2 = 1; |
} |
if(!isFinite(vx1)){ |
vx1 = 1, vy1 = (l1 - M.xx) / M.xy; |
if(!isFinite(vy1)){ |
vx1 = (l1 - M.yy) / M.yx, vy1 = 1; |
if(!isFinite(vx1)){ |
vx1 = 1, vy1 = M.yx / (l1 - M.yy); |
} |
} |
} |
if(!isFinite(vx2)){ |
vx2 = 1, vy2 = (l2 - M.xx) / M.xy; |
if(!isFinite(vy2)){ |
vx2 = (l2 - M.yy) / M.yx, vy2 = 1; |
if(!isFinite(vx2)){ |
vx2 = 1, vy2 = M.yx / (l2 - M.yy); |
} |
} |
} |
var d1 = Math.sqrt(vx1 * vx1 + vy1 * vy1), |
d2 = Math.sqrt(vx2 * vx2 + vy2 * vy2); |
if(!isFinite(vx1 /= d1)){ vx1 = 0; } |
if(!isFinite(vy1 /= d1)){ vy1 = 0; } |
if(!isFinite(vx2 /= d2)){ vx2 = 0; } |
if(!isFinite(vy2 /= d2)){ vy2 = 0; } |
return { // Object |
value1: l1, |
value2: l2, |
vector1: {x: vx1, y: vy1}, |
vector2: {x: vx2, y: vy2} |
}; |
}; |
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var decomposeSR = function(/* dojox.gfx.matrix.Matrix2D */ M, /* Object */ result){ |
// summary: decomposes a matrix into [scale, rotate]; no checks are done. |
var sign = scaleSign(M), |
a = result.angle1 = (Math.atan2(M.yx, M.yy) + Math.atan2(-sign * M.xy, sign * M.xx)) / 2, |
cos = Math.cos(a), sin = Math.sin(a); |
result.sx = calcFromValues(M.xx / cos, cos, -M.xy / sin, sin); |
result.sy = calcFromValues(M.yy / cos, cos, M.yx / sin, sin); |
return result; // Object |
}; |
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var decomposeRS = function(/* dojox.gfx.matrix.Matrix2D */ M, /* Object */ result){ |
// summary: decomposes a matrix into [rotate, scale]; no checks are done |
var sign = scaleSign(M), |
a = result.angle2 = (Math.atan2(sign * M.yx, sign * M.xx) + Math.atan2(-M.xy, M.yy)) / 2, |
cos = Math.cos(a), sin = Math.sin(a); |
result.sx = calcFromValues(M.xx / cos, cos, M.yx / sin, sin); |
result.sy = calcFromValues(M.yy / cos, cos, -M.xy / sin, sin); |
return result; // Object |
}; |
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dojox.gfx.decompose = function(matrix){ |
// summary: decompose a 2D matrix into translation, scaling, and rotation components |
// description: this function decompose a matrix into four logical components: |
// translation, rotation, scaling, and one more rotation using SVD. |
// The components should be applied in following order: |
// | [translate, rotate(angle2), scale, rotate(angle1)] |
// matrix: dojox.gfx.matrix.Matrix2D: a 2D matrix-like object |
var M = m.normalize(matrix), |
result = {dx: M.dx, dy: M.dy, sx: 1, sy: 1, angle1: 0, angle2: 0}; |
// detect case: [scale] |
if(eq(M.xy, 0) && eq(M.yx, 0)){ |
return dojo.mixin(result, {sx: M.xx, sy: M.yy}); // Object |
} |
// detect case: [scale, rotate] |
if(eq(M.xx * M.yx, -M.xy * M.yy)){ |
return decomposeSR(M, result); // Object |
} |
// detect case: [rotate, scale] |
if(eq(M.xx * M.xy, -M.yx * M.yy)){ |
return decomposeRS(M, result); // Object |
} |
// do SVD |
var MT = transpose(M), |
u = eigenvalueDecomposition([M, MT]), |
v = eigenvalueDecomposition([MT, M]), |
U = new m.Matrix2D({xx: u.vector1.x, xy: u.vector2.x, yx: u.vector1.y, yy: u.vector2.y}), |
VT = new m.Matrix2D({xx: v.vector1.x, xy: v.vector1.y, yx: v.vector2.x, yy: v.vector2.y}), |
S = new m.Matrix2D([m.invert(U), M, m.invert(VT)]); |
decomposeSR(VT, result); |
S.xx *= result.sx; |
S.yy *= result.sy; |
decomposeRS(U, result); |
S.xx *= result.sx; |
S.yy *= result.sy; |
return dojo.mixin(result, {sx: S.xx, sy: S.yy}); // Object |
}; |
})(); |
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} |