mirror of https://github.com/axmolengine/axmol.git
547 lines
13 KiB
Lua
547 lines
13 KiB
Lua
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cc = cc or {}
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function cc.clampf(value, min_inclusive, max_inclusive)
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-- body
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local temp = 0
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if min_inclusive > max_inclusive then
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temp = min_inclusive
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min_inclusive = max_inclusive
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max_inclusive = temp
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end
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if value < min_inclusive then
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return min_inclusive
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elseif value < max_inclusive then
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return value
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else
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return max_inclusive
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end
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end
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--Point
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function cc.p(_x,_y)
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if nil == _y then
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return { x = _x.x, y = _x.y }
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else
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return { x = _x, y = _y }
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end
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end
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function cc.pAdd(pt1,pt2)
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return {x = pt1.x + pt2.x , y = pt1.y + pt2.y }
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end
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function cc.pSub(pt1,pt2)
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return {x = pt1.x - pt2.x , y = pt1.y - pt2.y }
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end
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function cc.pMul(pt1,factor)
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return { x = pt1.x * factor , y = pt1.y * factor }
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end
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function cc.pMidpoint(pt1,pt2)
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return { x = (pt1.x + pt2.x) / 2.0 , y = ( pt1.y + pt2.y) / 2.0 }
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end
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function cc.pForAngle(a)
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return { x = math.cos(a), y = math.sin(a) }
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end
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function cc.pGetLength(pt)
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return math.sqrt( pt.x * pt.x + pt.y * pt.y )
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end
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function cc.pNormalize(pt)
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local length = cc.pGetLength(pt)
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if 0 == length then
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return { x = 1.0,y = 0.0 }
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end
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return { x = pt.x / length, y = pt.y / length }
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end
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function cc.pCross(self,other)
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return self.x * other.y - self.y * other.x
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end
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function cc.pDot(self,other)
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return self.x * other.x + self.y * other.y
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end
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function cc.pToAngleSelf(self)
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return math.atan2(self.y, self.x)
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end
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function cc.pGetAngle(self,other)
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local a2 = cc.pNormalize(self)
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local b2 = cc.pNormalize(other)
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local angle = math.atan2(cc.pCross(a2, b2), cc.pDot(a2, b2) )
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if math.abs(angle) < 1.192092896e-7 then
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return 0.0
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end
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return angle
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end
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function cc.pGetDistance(startP,endP)
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return cc.pGetLength(cc.pSub(startP,endP))
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end
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function cc.pIsLineIntersect(A, B, C, D, s, t)
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if ((A.x == B.x) and (A.y == B.y)) or ((C.x == D.x) and (C.y == D.y))then
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return false, s, t
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end
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local BAx = B.x - A.x
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local BAy = B.y - A.y
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local DCx = D.x - C.x
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local DCy = D.y - C.y
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local ACx = A.x - C.x
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local ACy = A.y - C.y
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local denom = DCy * BAx - DCx * BAy
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s = DCx * ACy - DCy * ACx
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t = BAx * ACy - BAy * ACx
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if (denom == 0) then
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if (s == 0 or t == 0) then
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return true, s , t
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end
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return false, s, t
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end
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s = s / denom
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t = t / denom
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return true,s,t
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end
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function cc.pPerp(pt)
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return { x = -pt.y, y = pt.x }
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end
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function cc.RPerp(pt)
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return { x = pt.y, y = -pt.x }
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end
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function cc.pProject(pt1, pt2)
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return { x = pt2.x * (cc.pDot(pt1,pt2) / cc.pDot(pt2,pt2)) , y = pt2.y * (cc.pDot(pt1,pt2) / cc.pDot(pt2,pt2)) }
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end
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function cc.pRotate(pt1, pt2)
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return { x = pt1.x * pt2.x - pt1.y * pt2.y, y = pt1.x * pt2.y + pt1.y * pt2.x }
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end
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function cc.pUnrotate(pt1, pt2)
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return { x = pt1.x * pt2.x + pt1.y * pt2.y, pt1.y * pt2.x - pt1.x * pt2.y }
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end
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--Calculates the square length of pt
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function cc.pLengthSQ(pt)
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return cc.pDot(pt,pt)
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end
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--Calculates the square distance between pt1 and pt2
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function cc.pDistanceSQ(pt1,pt2)
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return cc.pLengthSQ(cc.pSub(pt1,pt2))
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end
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function cc.pGetClampPoint(pt1,pt2,pt3)
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return { x = cc.clampf(pt1.x, pt2.x, pt3.x), y = cc.clampf(pt1.y, pt2.y, pt3.y) }
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end
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function cc.pFromSize(sz)
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return { x = sz.width, y = sz.height }
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end
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function cc.pLerp(pt1,pt2,alpha)
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return cc.pAdd(cc.pMul(pt1, 1.0 - alpha), cc.pMul(pt2,alpha) )
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end
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function cc.pFuzzyEqual(pt1,pt2,variance)
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if (pt1.x - variance <= pt2.x) and (pt2.x <= pt1.x + variance) and (pt1.y - variance <= pt2.y) and (pt2.y <= pt1.y + variance) then
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return true
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else
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return false
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end
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end
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function cc.pRotateByAngle(pt1, pt2, angle)
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return cc.pAdd(pt2, cc.pRotate( cc.pSub(pt1, pt2),cc.pForAngle(angle)))
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end
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function cc.pIsSegmentIntersect(pt1,pt2,pt3,pt4)
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local s,t,ret = 0,0,false
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ret,s,t =cc.pIsLineIntersect(pt1, pt2, pt3, pt4,s,t)
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if ret and s >= 0.0 and s <= 1.0 and t >= 0.0 and t <= 1.0 then
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return true
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end
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return false
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end
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function cc.pGetIntersectPoint(pt1,pt2,pt3,pt4)
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local s,t, ret = 0,0,false
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ret,s,t = cc.pIsLineIntersect(pt1,pt2,pt3,pt4,s,t)
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if ret then
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return cc.p(pt1.x + s * (pt2.x - pt1.x), pt1.y + s * (pt2.y - pt1.y))
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else
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return cc.p(0,0)
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end
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end
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--Size
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function cc.size( _width,_height )
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return { width = _width, height = _height }
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end
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--Rect
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function cc.rect(_x,_y,_width,_height)
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return { x = _x, y = _y, width = _width, height = _height }
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end
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function cc.rectEqualToRect(rect1,rect2)
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if ((rect1.x >= rect2.x) or (rect1.y >= rect2.y) or
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( rect1.x + rect1.width <= rect2.x + rect2.width) or
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( rect1.y + rect1.height <= rect2.y + rect2.height)) then
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return false
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end
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return true
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end
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function cc.rectGetMaxX(rect)
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return rect.x + rect.width
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end
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function cc.rectGetMidX(rect)
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return rect.x + rect.width / 2.0
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end
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function cc.rectGetMinX(rect)
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return rect.x
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end
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function cc.rectGetMaxY(rect)
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return rect.y + rect.height
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end
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function cc.rectGetMidY(rect)
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return rect.y + rect.height / 2.0
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end
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function cc.rectGetMinY(rect)
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return rect.y
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end
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function cc.rectContainsPoint( rect, point )
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local ret = false
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if (point.x >= rect.x) and (point.x <= rect.x + rect.width) and
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(point.y >= rect.y) and (point.y <= rect.y + rect.height) then
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ret = true
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end
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return ret
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end
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function cc.rectIntersectsRect( rect1, rect2 )
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local intersect = not ( rect1.x > rect2.x + rect2.width or
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rect1.x + rect1.width < rect2.x or
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rect1.y > rect2.y + rect2.height or
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rect1.y + rect1.height < rect2.y )
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return intersect
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end
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function cc.rectUnion( rect1, rect2 )
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local rect = cc.rect(0, 0, 0, 0)
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rect.x = math.min(rect1.x, rect2.x)
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rect.y = math.min(rect1.y, rect2.y)
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rect.width = math.max(rect1.x + rect1.width, rect2.x + rect2.width) - rect.x
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rect.height = math.max(rect1.y + rect1.height, rect2.y + rect2.height) - rect.y
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return rect
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end
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function cc.rectIntersection( rect1, rect2 )
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local intersection = cc.rect(
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math.max(rect1.x, rect2.x),
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math.max(rect1.y, rect2.y),
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0, 0)
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intersection.width = math.min(rect1.x + rect1.width, rect2.x + rect2.width) - intersection.x
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intersection.height = math.min(rect1.y + rect1.height, rect2.y + rect2.height) - intersection.y
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return intersection
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end
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--Color3B
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function cc.c3b( _r,_g,_b )
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return { r = _r, g = _g, b = _b }
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end
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--Color4B
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function cc.c4b( _r,_g,_b,_a )
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return { r = _r, g = _g, b = _b, a = _a }
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end
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--Color4F
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function cc.c4f( _r,_g,_b,_a )
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return { r = _r, g = _g, b = _b, a = _a }
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end
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local function isFloatColor(c)
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return (c.r <= 1 and c.g <= 1 and c.b <= 1) and (math.ceil(c.r) ~= c.r or math.ceil(c.g) ~= c.g or math.ceil(c.b) ~= c.b)
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end
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function cc.convertColor(input, typ)
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assert(type(input) == "table" and input.r and input.g and input.b, "cc.convertColor() - invalid input color")
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local ret
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if typ == "3b" then
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if isFloatColor(input) then
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ret = {r = math.ceil(input.r * 255), g = math.ceil(input.g * 255), b = math.ceil(input.b * 255)}
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else
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ret = {r = input.r, g = input.g, b = input.b}
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end
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elseif typ == "4b" then
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if isFloatColor(input) then
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ret = {r = math.ceil(input.r * 255), g = math.ceil(input.g * 255), b = math.ceil(input.b * 255)}
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else
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ret = {r = input.r, g = input.g, b = input.b}
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end
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if input.a then
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if math.ceil(input.a) ~= input.a or input.a <= 1 then
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ret.a = input.a * 255
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else
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ret.a = input.a
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end
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else
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ret.a = 255
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end
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elseif typ == "4f" then
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if isFloatColor(input) then
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ret = {r = input.r, g = input.g, b = input.b}
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else
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ret = {r = input.r / 255, g = input.g / 255, b = input.b / 255}
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end
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if input.a then
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if math.ceil(input.a) ~= input.a or input.a <= 1 then
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ret.a = input.a
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else
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ret.a = input.a / 255
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end
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else
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ret.a = 255
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end
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else
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error(string.format("cc.convertColor() - invalid type %s", typ), 0)
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end
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return ret
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end
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--Vertex2F
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function cc.vertex2F(_x,_y)
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return { x = _x, y = _y }
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end
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--Vertex3F
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function cc.Vertex3F(_x,_y,_z)
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return { x = _x, y = _y, z = _z }
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end
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--Tex2F
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function cc.tex2F(_u,_v)
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return { u = _u, v = _v }
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end
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--PointSprite
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function cc.PointSprite(_pos,_color,_size)
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return { pos = _pos, color = _color, size = _size }
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end
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--Quad2
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function cc.Quad2(_tl,_tr,_bl,_br)
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return { tl = _tl, tr = _tr, bl = _bl, br = _br }
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end
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--Quad3
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function cc.Quad3(_tl, _tr, _bl, _br)
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return { tl = _tl, tr = _tr, bl = _bl, br = _br }
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end
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--V2F_C4B_T2F
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function cc.V2F_C4B_T2F(_vertices, _colors, _texCoords)
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return { vertices = _vertices, colors = _colors, texCoords = _texCoords }
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end
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--V2F_C4F_T2F
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function cc.V2F_C4F_T2F(_vertices, _colors, _texCoords)
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return { vertices = _vertices, colors = _colors, texCoords = _texCoords }
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end
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--V3F_C4B_T2F
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function cc.V3F_C4B_T2F(_vertices, _colors, _texCoords)
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return { vertices = _vertices, colors = _colors, texCoords = _texCoords }
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end
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--V2F_C4B_T2F_Quad
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function cc.V2F_C4B_T2F_Quad(_bl, _br, _tl, _tr)
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return { bl = _bl, br = _br, tl = _tl, tr = _tr }
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end
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--V3F_C4B_T2F_Quad
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function cc.V3F_C4B_T2F_Quad(_tl, _bl, _tr, _br)
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return { tl = _tl, bl = _bl, tr = _tr, br = _br }
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end
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--V2F_C4F_T2F_Quad
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function cc.V2F_C4F_T2F_Quad(_bl, _br, _tl, _tr)
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return { bl = _bl, br = _br, tl = _tl, tr = _tr }
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end
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--T2F_Quad
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function cc.T2F_Quad(_bl, _br, _tl, _tr)
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return { bl = _bl, br = _br, tl = _tl, tr = _tr }
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end
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--AnimationFrameData
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function cc.AnimationFrameData( _texCoords, _delay, _size)
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return { texCoords = _texCoords, delay = _delay, size = _size }
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end
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--PhysicsMaterial
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function cc.PhysicsMaterial(_density, _restitution, _friction)
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return { density = _density, restitution = _restitution, friction = _friction }
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end
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function cc.vec3(_x, _y, _z)
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return { x = _x, y = _y, z = _z }
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end
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|
|
||
|
function cc.vec4(_x, _y, _z, _w)
|
||
|
return { x = _x, y = _y, z = _z, w = _w }
|
||
|
end
|
||
|
|
||
|
function cc.vec3add(vec3a, vec3b)
|
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|
return {x = vec3a.x + vec3b.x, y = vec3a.y + vec3b.y, z = vec3a.z + vec3b.z}
|
||
|
end
|
||
|
|
||
|
function cc.vec3sub(vec3a, vec3b)
|
||
|
return {x = vec3a.x - vec3b.x, y = vec3a.y - vec3b.y, z = vec3a.z - vec3b.z}
|
||
|
end
|
||
|
|
||
|
function cc.vec3mul(vec3, factor)
|
||
|
return {x = vec3.x * factor, y = vec3.y * factor, z = vec3.z * factor}
|
||
|
end
|
||
|
|
||
|
function cc.vec3dot(vec3a, vec3b)
|
||
|
return vec3a.x * vec3b.x + vec3a.y * vec3b.y + vec3a.z * vec3b.z
|
||
|
end
|
||
|
|
||
|
function cc.vec3normalize(vec3)
|
||
|
local n = cc.vec3dot(vec3, vec3)
|
||
|
if n == 1.0 then
|
||
|
return vec3
|
||
|
end
|
||
|
|
||
|
n = math.sqrt(n)
|
||
|
|
||
|
if n < 2e-37 then
|
||
|
return vec3
|
||
|
end
|
||
|
|
||
|
return cc.vec3mul(vec3, 1.0/n)
|
||
|
end
|
||
|
|
||
|
function cc.quaternion(_x, _y ,_z,_w)
|
||
|
return { x = _x, y = _y, z = _z, w = _w }
|
||
|
end
|
||
|
|
||
|
function cc.quaternion_createFromAxisAngle(axis, angle)
|
||
|
|
||
|
local halfAngle = angle * 0.5
|
||
|
local sinHalfAngle = math.sin(halfAngle)
|
||
|
|
||
|
local normal = cc.vec3(axis.x, axis.y, axis.z)
|
||
|
normal = cc.vec3normalize(normal)
|
||
|
local dst = cc.vec3(0.0, 0.0, 0.0)
|
||
|
dst.x = normal.x * sinHalfAngle
|
||
|
dst.y = normal.y * sinHalfAngle
|
||
|
dst.z = normal.z * sinHalfAngle
|
||
|
dst.w = math.cos(halfAngle)
|
||
|
|
||
|
return dst
|
||
|
end
|
||
|
|
||
|
function cc.blendFunc(_src, _dst)
|
||
|
return {src = _src, dst = _dst}
|
||
|
end
|
||
|
|
||
|
cc.mat4 = cc.mat4 or {}
|
||
|
|
||
|
function cc.mat4.new(...)
|
||
|
local params = {...}
|
||
|
local size = #params
|
||
|
local obj = {}
|
||
|
|
||
|
if 1 == size then
|
||
|
assert(type(params[1]) == "table" , "type of input params are wrong to new a mat4 when num of params is 1")
|
||
|
for i= 1, 16 do
|
||
|
if params[1][i] ~= nil then
|
||
|
obj[i] = params[1][i]
|
||
|
else
|
||
|
obj[i] = 0
|
||
|
end
|
||
|
end
|
||
|
elseif 16 == size then
|
||
|
for i= 1, 16 do
|
||
|
obj[i] = params[i]
|
||
|
end
|
||
|
end
|
||
|
|
||
|
setmetatable(obj, {__index = cc.mat4})
|
||
|
|
||
|
return obj
|
||
|
end
|
||
|
|
||
|
function cc.mat4.getInversed(self)
|
||
|
return mat4_getInversed(self)
|
||
|
end
|
||
|
|
||
|
function cc.mat4.transformVector(...)
|
||
|
return mat4_transformVector(...)
|
||
|
end
|
||
|
|
||
|
function cc.mat4.multiply(self, mat)
|
||
|
return mat4_multiply(self, mat)
|
||
|
end
|
||
|
|
||
|
function cc.mat4.decompose(self, scale, rotation, translation)
|
||
|
return mat4_decompose(self, scale ,rotation, translation)
|
||
|
end
|
||
|
|
||
|
function cc.mat4.createIdentity()
|
||
|
return cc.mat4.new(1.0 ,0.0, 0.0, 0.0,
|
||
|
0.0, 1.0, 0.0, 0.0,
|
||
|
0.0, 0.0, 1.0, 0.0,
|
||
|
0.0, 0.0, 0.0, 1.0)
|
||
|
end
|
||
|
|
||
|
function cc.mat4.translate(self,vec3)
|
||
|
return mat4_translate(self,vec3)
|
||
|
end
|
||
|
|
||
|
function cc.mat4.createRotationZ(self,angle)
|
||
|
return mat4_createRotationZ(self,angle)
|
||
|
end
|
||
|
|
||
|
function cc.mat4.setIdentity(self)
|
||
|
return mat4_setIdentity(self)
|
||
|
end
|
||
|
|
||
|
function cc.mat4.createTranslation(...)
|
||
|
return mat4_createTranslation(...)
|
||
|
end
|
||
|
|
||
|
function cc.mat4.createRotation(...)
|
||
|
return mat4_createRotation(...)
|
||
|
end
|