/**************************************************************************** Copyright (c) 2010 cocos2d-x.org http://www.cocos2d-x.org Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. ****************************************************************************/ #include "CCActionGrid3D.h" #include "CCPointExtension.h" #include namespace cocos2d { // implementation of CCWaves3D CCWaves3D* CCWaves3D::actionWithWaves(int wav, float amp, cocos2d::ccGridSize gridSize, cocos2d::ccTime duration) { CCWaves3D *pAction = new CCWaves3D(); if (pAction) { if (pAction->initWithWaves(wav, amp, gridSize, duration)) { pAction->autorelease(); } else { CC_SAFE_RELEASE_NULL(pAction); } } return pAction; } bool CCWaves3D::initWithWaves(int wav, float amp, cocos2d::ccGridSize gridSize, cocos2d::ccTime duration) { if (CCGrid3DAction::initWithSize(gridSize, duration)) { m_nWaves = wav; m_fAmplitude = amp; m_fAmplitudeRate = 1.0f; return true; } return false; } CCObject* CCWaves3D::copyWithZone(cocos2d::CCZone *pZone) { CCZone* pNewZone = NULL; CCWaves3D* pCopy = NULL; if(pZone && pZone->m_pCopyObject) { //in case of being called at sub class pCopy = (CCWaves3D*)(pZone->m_pCopyObject); } else { pCopy = new CCWaves3D(); pZone = pNewZone = new CCZone(pCopy); } CCGrid3DAction::copyWithZone(pZone); pCopy->initWithWaves(m_nWaves, m_fAmplitude, m_sGridSize, m_fDuration); CC_SAFE_DELETE(pNewZone); return pCopy; } void CCWaves3D::update(cocos2d::ccTime time) { int i, j; for (i = 0; i < m_sGridSize.x + 1; ++i) { for (j = 0; j < m_sGridSize.y + 1; ++j) { ccVertex3F v = originalVertex(ccg(i ,j)); v.z += (sinf((CGFloat)M_PI * time * m_nWaves * 2 + (v.y+v.x) * .01f) * m_fAmplitude * m_fAmplitudeRate); setVertex(ccg(i, j), v); } } } // implementation of CCFlipX3D CCFlipX3D* CCFlipX3D::actionWithDuration(cocos2d::ccTime duration) { CCFlipX3D *pAction = new CCFlipX3D(); if (pAction) { if (pAction->initWithSize(ccg(1, 1), duration)) { pAction->autorelease(); } else { CC_SAFE_RELEASE_NULL(pAction); } } return pAction; } bool CCFlipX3D::initWithDuration(cocos2d::ccTime duration) { return CCGrid3DAction::initWithSize(ccg(1, 1), duration); } bool CCFlipX3D::initWithSize(cocos2d::ccGridSize gridSize, cocos2d::ccTime duration) { if (gridSize.x != 1 || gridSize.y != 1) { // Grid size must be (1,1) assert(0); return false; } return CCGrid3DAction::initWithSize(gridSize, duration); } CCObject* CCFlipX3D::copyWithZone(cocos2d::CCZone *pZone) { CCZone* pNewZone = NULL; CCFlipX3D* pCopy = NULL; if(pZone && pZone->m_pCopyObject) { //in case of being called at sub class pCopy = (CCFlipX3D*)(pZone->m_pCopyObject); } else { pCopy = new CCFlipX3D(); pZone = pNewZone = new CCZone(pCopy); } CCGrid3DAction::copyWithZone(pZone); pCopy->initWithSize(m_sGridSize, m_fDuration); CC_SAFE_DELETE(pNewZone); return pCopy; } void CCFlipX3D::update(cocos2d::ccTime time) { CGFloat angle = (CGFloat)M_PI * time; // 180 degrees CGFloat mz = sinf(angle); angle = angle / 2.0f; // x calculates degrees from 0 to 90 CGFloat mx = cosf(angle); ccVertex3F v0, v1, v, diff; v0 = originalVertex(ccg(1, 1)); v1 = originalVertex(ccg(0, 0)); CGFloat x0 = v0.x; CGFloat x1 = v1.x; CGFloat x; ccGridSize a, b, c, d; if ( x0 > x1 ) { // Normal Grid a = ccg(0,0); b = ccg(0,1); c = ccg(1,0); d = ccg(1,1); x = x0; } else { // Reversed Grid c = ccg(0,0); d = ccg(0,1); a = ccg(1,0); b = ccg(1,1); x = x1; } diff.x = ( x - x * mx ); diff.z = fabsf( floorf( (x * mz) / 4.0f ) ); // bottom-left v = originalVertex(a); v.x = diff.x; v.z += diff.z; setVertex(a, v); // upper-left v = originalVertex(b); v.x = diff.x; v.z += diff.z; setVertex(b, v); // bottom-right v = originalVertex(c); v.x -= diff.x; v.z -= diff.z; setVertex(c, v); // upper-right v = originalVertex(d); v.x -= diff.x; v.z -= diff.z; setVertex(d, v); } // implementation of FlipY3D CCFlipY3D* CCFlipY3D::actionWithDuration(ccTime duration) { CCFlipY3D *pAction = new CCFlipY3D(); if (pAction) { if (pAction->initWithSize(ccg(1, 1), duration)) { pAction->autorelease(); } else { CC_SAFE_RELEASE_NULL(pAction); } } return pAction; } CCObject* CCFlipY3D::copyWithZone(CCZone* pZone) { CCZone* pNewZone = NULL; CCFlipY3D* pCopy = NULL; if(pZone && pZone->m_pCopyObject) { //in case of being called at sub class pCopy = (CCFlipY3D*)(pZone->m_pCopyObject); } else { pCopy = new CCFlipY3D(); pZone = pNewZone = new CCZone(pCopy); } CCFlipX3D::copyWithZone(pZone); pCopy->initWithSize(m_sGridSize, m_fDuration); CC_SAFE_DELETE(pNewZone); return pCopy; } void CCFlipY3D::update(cocos2d::ccTime time) { CGFloat angle = (CGFloat)M_PI * time; // 180 degrees CGFloat mz = sinf( angle ); angle = angle / 2.0f; // x calculates degrees from 0 to 90 CGFloat my = cosf(angle); ccVertex3F v0, v1, v, diff; v0 = originalVertex(ccg(1, 1)); v1 = originalVertex(ccg(0, 0)); CGFloat y0 = v0.y; CGFloat y1 = v1.y; CGFloat y; ccGridSize a, b, c, d; if (y0 > y1) { // Normal Grid a = ccg(0,0); b = ccg(0,1); c = ccg(1,0); d = ccg(1,1); y = y0; } else { // Reversed Grid b = ccg(0,0); a = ccg(0,1); d = ccg(1,0); c = ccg(1,1); y = y1; } diff.y = y - y * my; diff.z = fabsf(floorf((y * mz) / 4.0f)); // bottom-left v = originalVertex(a); v.y = diff.y; v.z += diff.z; setVertex(a, v); // upper-left v = originalVertex(b); v.y -= diff.y; v.z -= diff.z; setVertex(b, v); // bottom-right v = originalVertex(c); v.y = diff.y; v.z += diff.z; setVertex(c, v); // upper-right v = originalVertex(d); v.y -= diff.y; v.z -= diff.z; setVertex(d, v); } // implementation of Lens3D CCLens3D* CCLens3D::actionWithPosition(cocos2d::CCPoint pos, float r, cocos2d::ccGridSize gridSize, cocos2d::ccTime duration) { CCLens3D *pAction = new CCLens3D(); if (pAction) { if (pAction->initWithPosition(pos, r, gridSize, duration)) { pAction->autorelease(); } else { CC_SAFE_RELEASE_NULL(pAction); } } return pAction; } bool CCLens3D::initWithPosition(cocos2d::CCPoint pos, float r, cocos2d::ccGridSize gridSize, cocos2d::ccTime duration) { if (CCGrid3DAction::initWithSize(gridSize, duration)) { m_position = ccp(-1, -1); setPosition(pos); m_fRadius = r; m_fLensEffect = 0.7f; m_bDirty = true; return true; } return false; } CCObject* CCLens3D::copyWithZone(cocos2d::CCZone *pZone) { CCZone* pNewZone = NULL; CCLens3D* pCopy = NULL; if(pZone && pZone->m_pCopyObject) { //in case of being called at sub class pCopy = (CCLens3D*)(pZone->m_pCopyObject); } else { pCopy = new CCLens3D(); pZone = pNewZone = new CCZone(pCopy); } CCGrid3DAction::copyWithZone(pZone); pCopy->initWithPosition(m_position, m_fRadius, m_sGridSize, m_fDuration); CC_SAFE_DELETE(pNewZone); return pCopy; } void CCLens3D::setPosition(CCPoint pos) { if( ! CCPoint::CCPointEqualToPoint(pos, m_position) ) { m_position = pos; m_positionInPixels.x = pos.x * CC_CONTENT_SCALE_FACTOR(); m_positionInPixels.y = pos.y * CC_CONTENT_SCALE_FACTOR(); m_bDirty = true; } } void CCLens3D::update(cocos2d::ccTime time) { if (m_bDirty) { int i, j; for (i = 0; i < m_sGridSize.x + 1; ++i) { for (j = 0; j < m_sGridSize.y + 1; ++j) { ccVertex3F v = originalVertex(ccg(i, j)); CCPoint vect = ccpSub(m_positionInPixels, ccp(v.x, v.y)); CGFloat r = ccpLength(vect); if (r < m_fRadius) { r = m_fRadius - r; CGFloat pre_log = r / m_fRadius; if ( pre_log == 0 ) { pre_log = 0.001f; } float l = logf(pre_log) * m_fLensEffect; float new_r = expf( l ) * m_fRadius; if (ccpLength(vect) > 0) { vect = ccpNormalize(vect); CCPoint new_vect = ccpMult(vect, new_r); v.z += ccpLength(new_vect) * m_fLensEffect; } } setVertex(ccg(i, j), v); } } m_bDirty = false; } } // implementation of Ripple3D CCRipple3D* CCRipple3D::actionWithPosition(cocos2d::CCPoint pos, float r, int wav, float amp, cocos2d::ccGridSize gridSize, cocos2d::ccTime duration) { CCRipple3D *pAction = new CCRipple3D(); if (pAction) { if (pAction->initWithPosition(pos, r, wav, amp, gridSize, duration)) { pAction->autorelease(); } else { CC_SAFE_RELEASE_NULL(pAction); } } return pAction; } bool CCRipple3D::initWithPosition(cocos2d::CCPoint pos, float r, int wav, float amp, cocos2d::ccGridSize gridSize, cocos2d::ccTime duration) { if (CCGrid3DAction::initWithSize(gridSize, duration)) { setPosition(pos); m_fRadius = r; m_nWaves = wav; m_fAmplitude = amp; m_fAmplitudeRate = 1.0f; return true; } return false; } void CCRipple3D::setPosition(CCPoint position) { m_position = position; m_positionInPixels.x = position.x * CC_CONTENT_SCALE_FACTOR(); m_positionInPixels.y = position.y * CC_CONTENT_SCALE_FACTOR(); } CCObject* CCRipple3D::copyWithZone(cocos2d::CCZone *pZone) { CCZone* pNewZone = NULL; CCRipple3D* pCopy = NULL; if(pZone && pZone->m_pCopyObject) { //in case of being called at sub class pCopy = (CCRipple3D*)(pZone->m_pCopyObject); } else { pCopy = new CCRipple3D(); pZone = pNewZone = new CCZone(pCopy); } CCGrid3DAction::copyWithZone(pZone); pCopy->initWithPosition(m_position, m_fRadius, m_nWaves, m_fAmplitude, m_sGridSize, m_fDuration); CC_SAFE_DELETE(pNewZone); return pCopy; } void CCRipple3D::update(cocos2d::ccTime time) { int i, j; for (i = 0; i < (m_sGridSize.x+1); ++i) { for (j = 0; j < (m_sGridSize.y+1); ++j) { ccVertex3F v = originalVertex(ccg(i, j)); CCPoint vect = ccpSub(m_positionInPixels, ccp(v.x,v.y)); CGFloat r = ccpLength(vect); if (r < m_fRadius) { r = m_fRadius - r; CGFloat rate = powf(r / m_fRadius, 2); v.z += (sinf( time*(CGFloat)M_PI * m_nWaves * 2 + r * 0.1f) * m_fAmplitude * m_fAmplitudeRate * rate); } setVertex(ccg(i, j), v); } } } // implementation of Shaky3D CCShaky3D* CCShaky3D::actionWithRange(int range, bool shakeZ, cocos2d::ccGridSize gridSize, cocos2d::ccTime duration) { CCShaky3D *pAction = new CCShaky3D(); if (pAction) { if (pAction->initWithRange(range, shakeZ, gridSize, duration)) { pAction->autorelease(); } else { CC_SAFE_RELEASE_NULL(pAction); } } return pAction; } bool CCShaky3D::initWithRange(int range, bool shakeZ, cocos2d::ccGridSize gridSize, cocos2d::ccTime duration) { if (CCGrid3DAction::initWithSize(gridSize, duration)) { m_nRandrange = range; m_bShakeZ = shakeZ; return true; } return false; } CCObject* CCShaky3D::copyWithZone(cocos2d::CCZone *pZone) { CCZone* pNewZone = NULL; CCShaky3D* pCopy = NULL; if(pZone && pZone->m_pCopyObject) { //in case of being called at sub class pCopy = (CCShaky3D*)(pZone->m_pCopyObject); } else { pCopy = new CCShaky3D(); pZone = pNewZone = new CCZone(pCopy); } CCGrid3DAction::copyWithZone(pZone); pCopy->initWithRange(m_nRandrange, m_bShakeZ, m_sGridSize, m_fDuration); CC_SAFE_DELETE(pNewZone); return pCopy; } void CCShaky3D::update(cocos2d::ccTime time) { int i, j; for (i = 0; i < (m_sGridSize.x+1); ++i) { for (j = 0; j < (m_sGridSize.y+1); ++j) { ccVertex3F v = originalVertex(ccg(i ,j)); v.x += (rand() % (m_nRandrange*2)) - m_nRandrange; v.y += (rand() % (m_nRandrange*2)) - m_nRandrange; if (m_bShakeZ) { v.z += (rand() % (m_nRandrange*2)) - m_nRandrange; } setVertex(ccg(i, j), v); } } } // implementation of Liquid CCLiquid* CCLiquid::actionWithWaves(int wav, float amp, cocos2d::ccGridSize gridSize, cocos2d::ccTime duration) { CCLiquid *pAction = new CCLiquid(); if (pAction) { if (pAction->initWithWaves(wav, amp, gridSize, duration)) { pAction->autorelease(); } else { CC_SAFE_RELEASE_NULL(pAction); } } return pAction; } bool CCLiquid::initWithWaves(int wav, float amp, cocos2d::ccGridSize gridSize, cocos2d::ccTime duration) { if (CCGrid3DAction::initWithSize(gridSize, duration)) { m_nWaves = wav; m_fAmplitude = amp; m_fAmplitudeRate = 1.0f; return true; } return false; } CCObject* CCLiquid::copyWithZone(cocos2d::CCZone *pZone) { CCZone* pNewZone = NULL; CCLiquid* pCopy = NULL; if(pZone && pZone->m_pCopyObject) { //in case of being called at sub class pCopy = (CCLiquid*)(pZone->m_pCopyObject); } else { pCopy = new CCLiquid(); pZone = pNewZone = new CCZone(pCopy); } CCGrid3DAction::copyWithZone(pZone); pCopy->initWithWaves(m_nWaves, m_fAmplitude, m_sGridSize, m_fDuration); CC_SAFE_DELETE(pNewZone); return pCopy; } void CCLiquid::update(cocos2d::ccTime time) { int i, j; for (i = 1; i < m_sGridSize.x; ++i) { for (j = 1; j < m_sGridSize.y; ++j) { ccVertex3F v = originalVertex(ccg(i, j)); v.x = (v.x + (sinf(time * (CGFloat)M_PI * m_nWaves * 2 + v.x * .01f) * m_fAmplitude * m_fAmplitudeRate)); v.y = (v.y + (sinf(time * (CGFloat)M_PI * m_nWaves * 2 + v.y * .01f) * m_fAmplitude * m_fAmplitudeRate)); setVertex(ccg(i, j), v); } } } // implementation of Waves CCWaves* CCWaves::actionWithWaves(int wav, float amp, bool h, bool v, cocos2d::ccGridSize gridSize, cocos2d::ccTime duration) { CCWaves *pAction = new CCWaves(); if (pAction) { if (pAction->initWithWaves(wav, amp, h, v, gridSize, duration)) { pAction->autorelease(); } else { CC_SAFE_RELEASE_NULL(pAction); } } return pAction; } bool CCWaves::initWithWaves(int wav, float amp, bool h, bool v, cocos2d::ccGridSize gridSize, cocos2d::ccTime duration) { if (CCGrid3DAction::initWithSize(gridSize, duration)) { m_nWaves = wav; m_fAmplitude = amp; m_fAmplitudeRate = 1.0f; m_bHorizontal = h; m_bVertical = v; return true; } return false; } CCObject* CCWaves::copyWithZone(cocos2d::CCZone *pZone) { CCZone* pNewZone = NULL; CCWaves* pCopy = NULL; if(pZone && pZone->m_pCopyObject) { //in case of being called at sub class pCopy = (CCWaves*)(pZone->m_pCopyObject); } else { pCopy = new CCWaves(); pZone = pNewZone = new CCZone(pCopy); } CCGrid3DAction::copyWithZone(pZone); pCopy->initWithWaves(m_nWaves, m_fAmplitude, m_bHorizontal, m_bVertical, m_sGridSize, m_fDuration); CC_SAFE_DELETE(pNewZone); return pCopy; } void CCWaves::update(cocos2d::ccTime time) { int i, j; for (i = 0; i < m_sGridSize.x + 1; ++i) { for (j = 0; j < m_sGridSize.y + 1; ++j) { ccVertex3F v = originalVertex(ccg(i, j)); if (m_bVertical) { v.x = (v.x + (sinf(time * (CGFloat)M_PI * m_nWaves * 2 + v.y * .01f) * m_fAmplitude * m_fAmplitudeRate)); } if (m_bHorizontal) { v.y = (v.y + (sinf(time * (CGFloat)M_PI * m_nWaves * 2 + v.x * .01f) * m_fAmplitude * m_fAmplitudeRate)); } setVertex(ccg(i, j), v); } } } // implementation of Twirl CCTwirl* CCTwirl::actionWithPosition(cocos2d::CCPoint pos, int t, float amp, cocos2d::ccGridSize gridSize, cocos2d::ccTime duration) { CCTwirl *pAction = new CCTwirl(); if (pAction) { if (pAction->initWithPosition(pos, t, amp, gridSize, duration)) { pAction->autorelease(); } else { CC_SAFE_RELEASE_NULL(pAction); } } return pAction; } bool CCTwirl::initWithPosition(cocos2d::CCPoint pos, int t, float amp, cocos2d::ccGridSize gridSize, cocos2d::ccTime duration) { if (CCGrid3DAction::initWithSize(gridSize, duration)) { setPosition(pos); m_nTwirls = t; m_fAmplitude = amp; m_fAmplitudeRate = 1.0f; return true; } return false; } void CCTwirl::setPosition(CCPoint position) { m_position = position; m_positionInPixels.x = position.x * CC_CONTENT_SCALE_FACTOR(); m_positionInPixels.y = position.y * CC_CONTENT_SCALE_FACTOR(); } CCObject* CCTwirl::copyWithZone(cocos2d::CCZone *pZone) { CCZone* pNewZone = NULL; CCTwirl* pCopy = NULL; if(pZone && pZone->m_pCopyObject) { //in case of being called at sub class pCopy = (CCTwirl*)(pZone->m_pCopyObject); } else { pCopy = new CCTwirl(); pZone = pNewZone = new CCZone(pCopy); } CCGrid3DAction::copyWithZone(pZone); pCopy->initWithPosition(m_position, m_nTwirls, m_fAmplitude, m_sGridSize, m_fDuration); CC_SAFE_DELETE(pNewZone); return pCopy; } void CCTwirl::update(cocos2d::ccTime time) { int i, j; CCPoint c = m_positionInPixels; for (i = 0; i < (m_sGridSize.x+1); ++i) { for (j = 0; j < (m_sGridSize.y+1); ++j) { ccVertex3F v = originalVertex(ccg(i ,j)); CCPoint avg = ccp(i-(m_sGridSize.x/2.0f), j-(m_sGridSize.y/2.0f)); CGFloat r = ccpLength(avg); CGFloat amp = 0.1f * m_fAmplitude * m_fAmplitudeRate; CGFloat a = r * cosf( (CGFloat)M_PI/2.0f + time * (CGFloat)M_PI * m_nTwirls * 2 ) * amp; CCPoint d; d.x = sinf(a) * (v.y-c.y) + cosf(a) * (v.x-c.x); d.y = cosf(a) * (v.y-c.y) - sinf(a) * (v.x-c.x); v.x = c.x + d.x; v.y = c.y + d.y; setVertex(ccg(i ,j), v); } } } } // end of namespace cocos2d