} //end ChooseFunc // public void Play(Rectangle rcWnd, Color color, bool bOpen) { AnimData ad = new AnimData(); ad.effect = ChooseFunc(); ad.bOpen = bOpen; ad.iAfterimages = m_iAfterimages; ad.iTotalSteps = m_iTotalSteps; ad.iParameter = m_iParameter; ad.rcWnd = rcWnd; ad.color = color; ad.ptCenter = AnimUtil.CenterPoint(ad.rcWnd); ad.ptRelRightTop = new Point(rcWnd.Right - ad.ptCenter.X, rcWnd.Top - ad.ptCenter.Y); Animate(ad); } //end Play
public bool Show(AnimData AD) { switch (AD.animType) { case AnimOperation.AnimInit: AD.effect.Buffer = MATRIXF.rotateMatrix(MATRIXF.fixed1 * 72, AD.ptCenter); break; case AnimOperation.AnimDraw: case AnimOperation.AnimErase: { Point ptBoxRel = new Point(); ptBoxRel.X = AD.ptRelRightTop.X * AD.iStep / AD.iTotalSteps; ptBoxRel.Y = AD.ptRelRightTop.Y * AD.iStep / AD.iTotalSteps; MATRIXF matrix; double fxScale; fxScale = MATRIXF.fixedDiv((AD.iTotalSteps - AD.iStep) * 4, AD.iTotalSteps * 3); matrix = MATRIXF.offsetMatrix(AD.ptRelRightTop.X, AD.ptRelRightTop.Y) * MATRIXF.scaleMatrix(fxScale, fxScale, AD.ptCenter) * MATRIXF.rotateMatrix(MATRIXF.fixedDiv(AD.iParameter * AD.iStep, AD.iTotalSteps), AD.ptCenter); Point ptBoxCenter; ptBoxCenter = AD.ptCenter * matrix; for (int iLoop = 0; iLoop < 5; iLoop++) { drawBox(ptBoxCenter, ptBoxRel, AD.color); ptBoxCenter = ptBoxCenter * (MATRIXF)AD.effect.Buffer; } //end for break; } //end case } //end switch return(true); } //end Show
public bool Show(AnimData AD) { FWData fw = ((FWData)AD.effect.Buffer); switch (AD.animType) { case AnimOperation.AnimInit: { Point[] ptCenter = fw.ptCenter; Point ptRectCenter = new Point(); ptRectCenter.X = AD.ptCenter.X; ptRectCenter.Y = AD.ptCenter.Y + (AD.ptRelRightTop.X + AD.ptRelRightTop.Y) * 5 / 3; for (int idx = 0; idx < FWData.NRECT; idx++) { MATRIXF matrix = MATRIXF.rotateMatrix(idx * (360 * MATRIXF.fixed1 / FWData.NRECT), AD.ptCenter); ptCenter[idx] = ptRectCenter * matrix; } //end for break; } //end case case AnimOperation.AnimDraw: case AnimOperation.AnimErase: { Point ptTemp = new Point(); double fixedFactor = MATRIXF.fixedDiv(AD.iStep, AD.iTotalSteps); MATRIXF matrix; Point[] ptRect = new Point[4]; Point[] ptTmp = new Point[4]; ptRect[0].X = ptRect[3].X = -AD.ptRelRightTop.X; ptRect[1].X = ptRect[2].X = AD.ptRelRightTop.X; ptRect[0].Y = ptRect[1].Y = AD.ptRelRightTop.Y; ptRect[2].Y = ptRect[3].Y = -AD.ptRelRightTop.Y; for (int idx = 0; idx < FWData.NRECT; idx++) { matrix = MATRIXF.scaleMatrix(fixedFactor, fixedFactor) * MATRIXF.rotateMatrix((MATRIXF.fixed1 - fixedFactor) * AD.iParameter); ptTemp = MATRIXF.mix(AD.ptCenter, fw.ptCenter[idx], fixedFactor); matrix = matrix * MATRIXF.offsetMatrix(ptTemp.X, ptTemp.Y); for (int iAngle = 0; iAngle < 4; iAngle++) { ptTmp[iAngle] = ptRect[iAngle] * matrix; } drawPoly(ptTmp, AD.color); } //end for break; } //end case } //end switch return(true); } //end Show
public bool Show(AnimData AD) { SpikeData sd = ((SpikeData)AD.effect.Buffer); switch (AD.animType) { case AnimOperation.AnimInit: { int xLeft = AD.rcWnd.Left; int xRight = AD.rcWnd.Right; int yTop = AD.rcWnd.Bottom; int yBottom = AD.rcWnd.Top; for (int idx = 0; idx < 16; idx++) { Point[] pTriangle = sd.ptTriangleEnd[idx]; pTriangle[0] = AD.ptCenter; if (idx < 4) { pTriangle[1].X = pTriangle[2].Y = yTop; pTriangle[1].X = (xLeft * (4 - idx) + xRight * idx) / 4; pTriangle[2].X = (xLeft * (3 - idx) + xRight * (idx + 1)) / 4; } else if (idx < 8) { pTriangle[1].X = pTriangle[2].X = xRight; pTriangle[1].Y = (yTop * (8 - idx) + yBottom * (idx - 4)) / 4; pTriangle[2].Y = (yTop * (7 - idx) + yBottom * (idx - 3)) / 4; } else if (idx < 12) { pTriangle[1].Y = pTriangle[2].Y = yBottom; pTriangle[1].X = (xRight * (12 - idx) + xLeft * (idx - 8)) / 4; pTriangle[2].X = (xRight * (11 - idx) + xLeft * (idx - 7)) / 4; } else { pTriangle[1].X = pTriangle[2].X = xLeft; pTriangle[1].Y = (yBottom * (16 - idx) + yTop * (idx - 12)) / 4; pTriangle[2].Y = (yBottom * (15 - idx) + yTop * (idx - 11)) / 4; } sd.ptEndCenter[idx].X = (pTriangle[0].X + pTriangle[1].X + pTriangle[2].X) / 3; sd.ptEndCenter[idx].Y = (pTriangle[0].Y + pTriangle[1].Y + pTriangle[2].Y) / 3; } Point ptTrgCenter = new Point(); ptTrgCenter.X = AD.ptCenter.X; ptTrgCenter.Y = AD.ptCenter.Y + (AD.ptRelRightTop.X + AD.ptRelRightTop.Y) * 4 / 5; for (int idx = 0; idx < 16; idx++) { MATRIXF matrix; matrix = MATRIXF.rotateMatrix((33 * MATRIXF.fixed1) + (-22 * MATRIXF.fixed1) * idx, AD.ptCenter); sd.ptTriangleCenter[idx] = ptTrgCenter * matrix; Point ptTemp = MATRIXF.subtract(sd.ptTriangleCenter[idx], sd.ptEndCenter[idx]); sd.matrixCircle[idx] = MATRIXF.offsetMatrix(ptTemp.X, ptTemp.Y); } break; } //end case case AnimOperation.AnimDraw: case AnimOperation.AnimErase: { Point[] ptTriangle = new Point[3]; double fixedFactor; MATRIXF matrix; double fxScale; fxScale = MATRIXF.fixedDiv(AD.iStep, AD.iTotalSteps); if (AD.iStep < AD.iTotalSteps / 2) { fixedFactor = (MATRIXF.fixed1 - MATRIXF.fixedDiv(AD.iStep * 2, AD.iTotalSteps)) * AD.iParameter; for (int idx = 0; idx < 16; idx++) { matrix = MATRIXF.scaleMatrix(fxScale, fxScale, sd.ptEndCenter[idx]) * MATRIXF.rotateMatrix(fixedFactor, sd.ptEndCenter[idx]); matrix = matrix * sd.matrixCircle[idx]; for (int iAngle = 0; iAngle < 3; iAngle++) { ptTriangle[iAngle] = sd.ptTriangleEnd[idx][iAngle] * matrix; } drawPoly(ptTriangle, AD.color); } } else { fixedFactor = MATRIXF.fixedDiv(AD.iStep * 2 - AD.iTotalSteps, AD.iTotalSteps); for (int idx = 0; idx < 16; idx++) { matrix = MATRIXF.scaleMatrix(fxScale, fxScale, sd.ptEndCenter[idx]); matrix *= MATRIXF.mix(MATRIXF.matrix1, sd.matrixCircle[idx], fixedFactor); for (int iAngle = 0; iAngle < 3; iAngle++) { ptTriangle[iAngle] = sd.ptTriangleEnd[idx][iAngle] * matrix; } drawPoly(ptTriangle, AD.color); } } break; } //end case } //end switch return(true); } //end show