/**************************************************************************** Copyright (c) 2010-2012 cocos2d-x.org Copyright (c) 2013-2014 Chukong Technologies Inc. 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 "platform/CCGLViewProtocol.h" #include "base/CCTouch.h" #include "base/CCDirector.h" #include "base/CCEventDispatcher.h" NS_CC_BEGIN namespace { static Touch* g_touches[EventTouch::MAX_TOUCHES] = { nullptr }; static unsigned int g_indexBitsUsed = 0; // System touch pointer ID (It may not be ascending order number) <-> Ascending order number from 0 static std::map g_touchIdReorderMap; static int getUnUsedIndex() { int i; int temp = g_indexBitsUsed; for (i = 0; i < EventTouch::MAX_TOUCHES; i++) { if (! (temp & 0x00000001)) { g_indexBitsUsed |= (1 << i); return i; } temp >>= 1; } // all bits are used return -1; } static void removeUsedIndexBit(int index) { if (index < 0 || index >= EventTouch::MAX_TOUCHES) { return; } unsigned int temp = 1 << index; temp = ~temp; g_indexBitsUsed &= temp; } } GLViewProtocol::GLViewProtocol() : _scaleX(1.0f) , _scaleY(1.0f) , _resolutionPolicy(ResolutionPolicy::UNKNOWN) { } GLViewProtocol::~GLViewProtocol() { } void GLViewProtocol::pollInputEvents() { } void GLViewProtocol::updateDesignResolutionSize() { if (_screenSize.width > 0 && _screenSize.height > 0 && _designResolutionSize.width > 0 && _designResolutionSize.height > 0) { _scaleX = (float)_screenSize.width / _designResolutionSize.width; _scaleY = (float)_screenSize.height / _designResolutionSize.height; if (_resolutionPolicy == ResolutionPolicy::NO_BORDER) { _scaleX = _scaleY = MAX(_scaleX, _scaleY); } else if (_resolutionPolicy == ResolutionPolicy::SHOW_ALL) { _scaleX = _scaleY = MIN(_scaleX, _scaleY); } else if ( _resolutionPolicy == ResolutionPolicy::FIXED_HEIGHT) { _scaleX = _scaleY; _designResolutionSize.width = ceilf(_screenSize.width/_scaleX); } else if ( _resolutionPolicy == ResolutionPolicy::FIXED_WIDTH) { _scaleY = _scaleX; _designResolutionSize.height = ceilf(_screenSize.height/_scaleY); } // calculate the rect of viewport float viewPortW = _designResolutionSize.width * _scaleX; float viewPortH = _designResolutionSize.height * _scaleY; _viewPortRect.setRect((_screenSize.width - viewPortW) / 2, (_screenSize.height - viewPortH) / 2, viewPortW, viewPortH); // reset director's member variables to fit visible rect auto director = Director::getInstance(); director->_winSizeInPoints = getDesignResolutionSize(); director->createStatsLabel(); director->setGLDefaultValues(); } } void GLViewProtocol::setDesignResolutionSize(float width, float height, ResolutionPolicy resolutionPolicy) { CCASSERT(resolutionPolicy != ResolutionPolicy::UNKNOWN, "should set resolutionPolicy"); if (width == 0.0f || height == 0.0f) { return; } _designResolutionSize.setSize(width, height); _resolutionPolicy = resolutionPolicy; updateDesignResolutionSize(); } const Size& GLViewProtocol::getDesignResolutionSize() const { return _designResolutionSize; } const Size& GLViewProtocol::getFrameSize() const { return _screenSize; } void GLViewProtocol::setFrameSize(float width, float height) { _designResolutionSize = _screenSize = Size(width, height); } Rect GLViewProtocol::getVisibleRect() const { Rect ret; ret.size = getVisibleSize(); ret.origin = getVisibleOrigin(); return ret; } Size GLViewProtocol::getVisibleSize() const { if (_resolutionPolicy == ResolutionPolicy::NO_BORDER) { return Size(_screenSize.width/_scaleX, _screenSize.height/_scaleY); } else { return _designResolutionSize; } } Vec2 GLViewProtocol::getVisibleOrigin() const { if (_resolutionPolicy == ResolutionPolicy::NO_BORDER) { return Vec2((_designResolutionSize.width - _screenSize.width/_scaleX)/2, (_designResolutionSize.height - _screenSize.height/_scaleY)/2); } else { return Vec2::ZERO; } } void GLViewProtocol::setViewPortInPoints(float x , float y , float w , float h) { glViewport((GLint)(x * _scaleX + _viewPortRect.origin.x), (GLint)(y * _scaleY + _viewPortRect.origin.y), (GLsizei)(w * _scaleX), (GLsizei)(h * _scaleY)); } void GLViewProtocol::setScissorInPoints(float x , float y , float w , float h) { glScissor((GLint)(x * _scaleX + _viewPortRect.origin.x), (GLint)(y * _scaleY + _viewPortRect.origin.y), (GLsizei)(w * _scaleX), (GLsizei)(h * _scaleY)); } bool GLViewProtocol::isScissorEnabled() { return (GL_FALSE == glIsEnabled(GL_SCISSOR_TEST)) ? false : true; } Rect GLViewProtocol::getScissorRect() const { GLfloat params[4]; glGetFloatv(GL_SCISSOR_BOX, params); float x = (params[0] - _viewPortRect.origin.x) / _scaleX; float y = (params[1] - _viewPortRect.origin.y) / _scaleY; float w = params[2] / _scaleX; float h = params[3] / _scaleY; return Rect(x, y, w, h); } void GLViewProtocol::setViewName(const std::string& viewname ) { _viewName = viewname; } const std::string& GLViewProtocol::getViewName() const { return _viewName; } void GLViewProtocol::handleTouchesBegin(int num, intptr_t ids[], float xs[], float ys[]) { intptr_t id = 0; float x = 0.0f; float y = 0.0f; int unusedIndex = 0; EventTouch touchEvent; for (int i = 0; i < num; ++i) { id = ids[i]; x = xs[i]; y = ys[i]; auto iter = g_touchIdReorderMap.find(id); // it is a new touch if (iter == g_touchIdReorderMap.end()) { unusedIndex = getUnUsedIndex(); // The touches is more than MAX_TOUCHES ? if (unusedIndex == -1) { CCLOG("The touches is more than MAX_TOUCHES, unusedIndex = %d", unusedIndex); continue; } Touch* touch = g_touches[unusedIndex] = new Touch(); touch->setTouchInfo(unusedIndex, (x - _viewPortRect.origin.x) / _scaleX, (y - _viewPortRect.origin.y) / _scaleY); CCLOGINFO("x = %f y = %f", touch->getLocationInView().x, touch->getLocationInView().y); g_touchIdReorderMap.insert(std::make_pair(id, unusedIndex)); touchEvent._touches.push_back(touch); } } if (touchEvent._touches.size() == 0) { CCLOG("touchesBegan: size = 0"); return; } touchEvent._eventCode = EventTouch::EventCode::BEGAN; auto dispatcher = Director::getInstance()->getEventDispatcher(); dispatcher->dispatchEvent(&touchEvent); } void GLViewProtocol::handleTouchesMove(int num, intptr_t ids[], float xs[], float ys[]) { intptr_t id = 0; float x = 0.0f; float y = 0.0f; EventTouch touchEvent; for (int i = 0; i < num; ++i) { id = ids[i]; x = xs[i]; y = ys[i]; auto iter = g_touchIdReorderMap.find(id); if (iter == g_touchIdReorderMap.end()) { CCLOG("if the index doesn't exist, it is an error"); continue; } CCLOGINFO("Moving touches with id: %d, x=%f, y=%f", id, x, y); Touch* touch = g_touches[iter->second]; if (touch) { touch->setTouchInfo(iter->second, (x - _viewPortRect.origin.x) / _scaleX, (y - _viewPortRect.origin.y) / _scaleY); touchEvent._touches.push_back(touch); } else { // It is error, should return. CCLOG("Moving touches with id: %ld error", id); return; } } if (touchEvent._touches.size() == 0) { CCLOG("touchesMoved: size = 0"); return; } touchEvent._eventCode = EventTouch::EventCode::MOVED; auto dispatcher = Director::getInstance()->getEventDispatcher(); dispatcher->dispatchEvent(&touchEvent); } void GLViewProtocol::handleTouchesOfEndOrCancel(EventTouch::EventCode eventCode, int num, intptr_t ids[], float xs[], float ys[]) { intptr_t id = 0; float x = 0.0f; float y = 0.0f; EventTouch touchEvent; for (int i = 0; i < num; ++i) { id = ids[i]; x = xs[i]; y = ys[i]; auto iter = g_touchIdReorderMap.find(id); if (iter == g_touchIdReorderMap.end()) { CCLOG("if the index doesn't exist, it is an error"); continue; } /* Add to the set to send to the director */ Touch* touch = g_touches[iter->second]; if (touch) { CCLOGINFO("Ending touches with id: %d, x=%f, y=%f", id, x, y); touch->setTouchInfo(iter->second, (x - _viewPortRect.origin.x) / _scaleX, (y - _viewPortRect.origin.y) / _scaleY); touchEvent._touches.push_back(touch); g_touches[iter->second] = nullptr; removeUsedIndexBit(iter->second); g_touchIdReorderMap.erase(id); } else { CCLOG("Ending touches with id: %ld error", static_cast(id)); return; } } if (touchEvent._touches.size() == 0) { CCLOG("touchesEnded or touchesCancel: size = 0"); return; } touchEvent._eventCode = eventCode; auto dispatcher = Director::getInstance()->getEventDispatcher(); dispatcher->dispatchEvent(&touchEvent); for (auto& touch : touchEvent._touches) { // release the touch object. touch->release(); } } void GLViewProtocol::handleTouchesEnd(int num, intptr_t ids[], float xs[], float ys[]) { handleTouchesOfEndOrCancel(EventTouch::EventCode::ENDED, num, ids, xs, ys); } void GLViewProtocol::handleTouchesCancel(int num, intptr_t ids[], float xs[], float ys[]) { handleTouchesOfEndOrCancel(EventTouch::EventCode::CANCELLED, num, ids, xs, ys); } const Rect& GLViewProtocol::getViewPortRect() const { return _viewPortRect; } float GLViewProtocol::getScaleX() const { return _scaleX; } float GLViewProtocol::getScaleY() const { return _scaleY; } NS_CC_END