/**************************************************************************** Copyright (c) 2010 cocos2d-x.org Copyright (c) 2013-2016 Chukong Technologies Inc. Copyright (c) 2017-2018 Xiamen Yaji Software Co., Ltd. Copyright (c) 2020 c4games.com 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 "base/ccUtils.h" #include #include #include #if !defined(_WIN32) // for unix/linux kill #include #endif #include "md5/md5.h" #include "base/CCDirector.h" #include "base/CCAsyncTaskPool.h" #include "base/CCEventDispatcher.h" #include "base/base64.h" #include "base/ccConstants.h" #include "base/ccUTF8.h" #include "renderer/CCCustomCommand.h" #include "renderer/CCRenderer.h" #include "renderer/CCTextureCache.h" #include "renderer/CCRenderState.h" #include "renderer/backend/Types.h" #include "renderer/backend/PixelBufferDescriptor.h" #include "platform/CCImage.h" #include "platform/CCFileUtils.h" #include "2d/CCSprite.h" #include "2d/CCRenderTexture.h" NS_CC_BEGIN int ccNextPOT(int x) { x = x - 1; x = x | (x >> 1); x = x | (x >> 2); x = x | (x >> 4); x = x | (x >> 8); x = x | (x >>16); return x + 1; } namespace utils { /* * Capture screen interface */ void captureScreen(std::function)> imageCallback) { Director::getInstance()->getRenderer()->readPixels(nullptr, [=](const backend::PixelBufferDescriptor& pbd) { if(pbd) { auto image = utils::makeInstance(&Image::initWithRawData, pbd._data.getBytes(), pbd._data.getSize(), pbd._width, pbd._height, 8, false); imageCallback(image); } else imageCallback(nullptr); }); } static std::unordered_map s_captureNodeListener; void captureNode(Node* startNode, std::function)> imageCallback, float scale) { if (s_captureNodeListener.find(startNode) != s_captureNodeListener.end()) { CCLOG("Warning: current node has been captured already"); return; } auto callback = [startNode, scale, imageCallback](EventCustom* /*event*/) { auto director = Director::getInstance(); auto captureNodeListener = s_captureNodeListener[startNode]; director->getEventDispatcher()->removeEventListener((EventListener*)(captureNodeListener)); s_captureNodeListener.erase(startNode); auto& size = startNode->getContentSize(); director->setNextDeltaTimeZero(true); RenderTexture* finalRtx = nullptr; auto rtx = RenderTexture::create(size.width, size.height, backend::PixelFormat::RGBA8888, PixelFormat::D24S8); // rtx->setKeepMatrix(true); Point savedPos = startNode->getPosition(); Point anchor; if (!startNode->isIgnoreAnchorPointForPosition()) { anchor = startNode->getAnchorPoint(); } startNode->setPosition(Point(size.width * anchor.x, size.height * anchor.y)); rtx->begin(); startNode->visit(); rtx->end(); startNode->setPosition(savedPos); if (std::abs(scale - 1.0f) < 1e-6f/* no scale */) finalRtx = rtx; else { /* scale */ auto finalRect = Rect(0, 0, size.width, size.height); Sprite *sprite = Sprite::createWithTexture(rtx->getSprite()->getTexture(), finalRect); sprite->setAnchorPoint(Point(0, 0)); sprite->setFlippedY(true); finalRtx = RenderTexture::create(size.width * scale, size.height * scale, backend::PixelFormat::RGBA8888, PixelFormat::D24S8); sprite->setScale(scale); // or use finalRtx->setKeepMatrix(true); finalRtx->begin(); sprite->visit(); finalRtx->end(); } director->getRenderer()->render(); finalRtx->newImage(imageCallback); }; auto listener = Director::getInstance()->getEventDispatcher()->addCustomEventListener(Director::EVENT_BEFORE_DRAW, callback); s_captureNodeListener[startNode] = listener; } // [DEPRECATED] void captureScreen(const std::function& afterCaptured, const std::string& filename) { std::string outfile; if (FileUtils::getInstance()->isAbsolutePath(filename)) outfile = filename; else outfile = FileUtils::getInstance()->getWritablePath() + filename; captureScreen([=,fullPath=std::move(outfile)](RefPtr image) { bool ok = image && image->saveToFile(fullPath, false); afterCaptured(ok, fullPath); }); } std::vector findChildren(const Node &node, const std::string &name) { std::vector vec; node.enumerateChildren(name, [&vec](Node* nodeFound) -> bool { vec.push_back(nodeFound); return false; }); return vec; } #define MAX_ITOA_BUFFER_SIZE 256 double atof(const char* str) { if (str == nullptr) { return 0.0; } char buf[MAX_ITOA_BUFFER_SIZE]; strncpy(buf, str, MAX_ITOA_BUFFER_SIZE); // strip string, only remain 7 numbers after '.' char* dot = strchr(buf, '.'); if (dot != nullptr && dot - buf + 8 < MAX_ITOA_BUFFER_SIZE) { dot[8] = '\0'; } return ::atof(buf); } double gettime() { struct timeval tv; gettimeofday(&tv, nullptr); return (double)tv.tv_sec + (double)tv.tv_usec/1000000; } long long getTimeInMilliseconds() { struct timeval tv; gettimeofday (&tv, nullptr); return (long long)tv.tv_sec * 1000 + tv.tv_usec / 1000; } Rect getCascadeBoundingBox(Node *node) { Rect cbb; Size contentSize = node->getContentSize(); // check all children bounding box, get maximize box Node* child = nullptr; bool merge = false; for(auto object : node->getChildren()) { child = dynamic_cast(object); if (!child->isVisible()) continue; const Rect box = getCascadeBoundingBox(child); if (box.size.width <= 0 || box.size.height <= 0) continue; if (!merge) { cbb = box; merge = true; } else { cbb.merge(box); } } // merge content size if (contentSize.width > 0 && contentSize.height > 0) { const Rect box = RectApplyAffineTransform(Rect(0, 0, contentSize.width, contentSize.height), node->getNodeToWorldAffineTransform()); if (!merge) { cbb = box; } else { cbb.merge(box); } } return cbb; } Sprite* createSpriteFromBase64Cached(const char* base64String, const char* key) { Texture2D* texture = Director::getInstance()->getTextureCache()->getTextureForKey(key); if (texture == nullptr) { unsigned char* decoded; int length = base64Decode((const unsigned char*)base64String, (unsigned int)strlen(base64String), &decoded); Image *image = new (std::nothrow) Image(); bool imageResult = image->initWithImageData(decoded, length, true); CCASSERT(imageResult, "Failed to create image from base64!"); if (!imageResult) { CC_SAFE_RELEASE_NULL(image); return nullptr; } texture = Director::getInstance()->getTextureCache()->addImage(image, key); image->release(); } Sprite* sprite = Sprite::createWithTexture(texture); return sprite; } Sprite* createSpriteFromBase64(const char* base64String) { unsigned char* decoded; int length = base64Decode((const unsigned char*)base64String, (unsigned int)strlen(base64String), &decoded); Image *image = new (std::nothrow) Image(); bool imageResult = image->initWithImageData(decoded, length, decoded); CCASSERT(imageResult, "Failed to create image from base64!"); if (!imageResult) { CC_SAFE_RELEASE_NULL(image); return nullptr; } Texture2D *texture = new (std::nothrow) Texture2D(); texture->initWithImage(image); texture->setAliasTexParameters(); image->release(); Sprite* sprite = Sprite::createWithTexture(texture); texture->release(); return sprite; } Node* findChild(Node* levelRoot, const std::string& name) { if (levelRoot == nullptr || name.empty()) return nullptr; // Find this node auto target = levelRoot->getChildByName(name); if (target != nullptr) return target; // Find recursively for (auto& child : levelRoot->getChildren()) { target = findChild(child, name); if (target != nullptr) return target; } return nullptr; } Node* findChild(Node* levelRoot, int tag) { if (levelRoot == nullptr || tag == Node::INVALID_TAG) return nullptr; // Find this node auto target = levelRoot->getChildByTag(tag); if (target != nullptr) return target; // Find recursively for (auto& child : levelRoot->getChildren()) { target = findChild(child, tag); if (target != nullptr) return target; } return nullptr; } std::string getFileMD5Hash(const std::string &filename) { Data data; FileUtils::getInstance()->getContents(filename, &data); return getDataMD5Hash(data); } std::string getDataMD5Hash(const Data &data) { static const unsigned int MD5_DIGEST_LENGTH = 16; if (data.isNull()) { return std::string(); } md5_state_t state; md5_byte_t digest[MD5_DIGEST_LENGTH]; char hexOutput[(MD5_DIGEST_LENGTH << 1) + 1] = { 0 }; md5_init(&state); md5_append(&state, (const md5_byte_t *)data.getBytes(), (int)data.getSize()); md5_finish(&state, digest); for (int di = 0; di < 16; ++di) sprintf(hexOutput + di * 2, "%02x", digest[di]); return hexOutput; } LanguageType getLanguageTypeByISO2(const char* code) { // this function is used by all platforms to get system language // except windows: cocos/platform/win32/CCApplication-win32.cpp LanguageType ret = LanguageType::ENGLISH; if (strncmp(code, "zh", 2) == 0) { ret = LanguageType::CHINESE; } else if (strncmp(code, "ja", 2) == 0) { ret = LanguageType::JAPANESE; } else if (strncmp(code, "fr", 2) == 0) { ret = LanguageType::FRENCH; } else if (strncmp(code, "it", 2) == 0) { ret = LanguageType::ITALIAN; } else if (strncmp(code, "de", 2) == 0) { ret = LanguageType::GERMAN; } else if (strncmp(code, "es", 2) == 0) { ret = LanguageType::SPANISH; } else if (strncmp(code, "nl", 2) == 0) { ret = LanguageType::DUTCH; } else if (strncmp(code, "ru", 2) == 0) { ret = LanguageType::RUSSIAN; } else if (strncmp(code, "hu", 2) == 0) { ret = LanguageType::HUNGARIAN; } else if (strncmp(code, "pt", 2) == 0) { ret = LanguageType::PORTUGUESE; } else if (strncmp(code, "ko", 2) == 0) { ret = LanguageType::KOREAN; } else if (strncmp(code, "ar", 2) == 0) { ret = LanguageType::ARABIC; } else if (strncmp(code, "nb", 2) == 0) { ret = LanguageType::NORWEGIAN; } else if (strncmp(code, "pl", 2) == 0) { ret = LanguageType::POLISH; } else if (strncmp(code, "tr", 2) == 0) { ret = LanguageType::TURKISH; } else if (strncmp(code, "uk", 2) == 0) { ret = LanguageType::UKRAINIAN; } else if (strncmp(code, "ro", 2) == 0) { ret = LanguageType::ROMANIAN; } else if (strncmp(code, "bg", 2) == 0) { ret = LanguageType::BULGARIAN; } else if (strncmp(code, "be", 2) == 0) { ret = LanguageType::BELARUSIAN; } return ret; } backend::BlendFactor toBackendBlendFactor(int factor) { switch (factor) { case GLBlendConst::ONE: return backend::BlendFactor::ONE; case GLBlendConst::ZERO: return backend::BlendFactor::ZERO; case GLBlendConst::SRC_COLOR: return backend::BlendFactor::SRC_COLOR; case GLBlendConst::ONE_MINUS_SRC_COLOR: return backend::BlendFactor::ONE_MINUS_SRC_COLOR; case GLBlendConst::SRC_ALPHA: return backend::BlendFactor::SRC_ALPHA; case GLBlendConst::ONE_MINUS_SRC_ALPHA: return backend::BlendFactor::ONE_MINUS_SRC_ALPHA; case GLBlendConst::DST_COLOR: return backend::BlendFactor::DST_COLOR; case GLBlendConst::ONE_MINUS_DST_COLOR: return backend::BlendFactor::ONE_MINUS_DST_COLOR; case GLBlendConst::DST_ALPHA: return backend::BlendFactor::DST_ALPHA; case GLBlendConst::ONE_MINUS_DST_ALPHA: return backend::BlendFactor::ONE_MINUS_DST_ALPHA; case GLBlendConst::SRC_ALPHA_SATURATE: return backend::BlendFactor::SRC_ALPHA_SATURATE; case GLBlendConst::BLEND_COLOR: return backend::BlendFactor::BLEND_CLOLOR; case GLBlendConst::CONSTANT_ALPHA: return backend::BlendFactor::CONSTANT_ALPHA; case GLBlendConst::ONE_MINUS_CONSTANT_ALPHA: return backend::BlendFactor::ONE_MINUS_CONSTANT_ALPHA; default: assert(false); break; } return backend::BlendFactor::ONE; } int toGLBlendFactor(backend::BlendFactor blendFactor) { int ret = GLBlendConst::ONE; switch (blendFactor) { case backend::BlendFactor::ZERO: ret = GLBlendConst::ZERO; break; case backend::BlendFactor::ONE: ret = GLBlendConst::ONE; break; case backend::BlendFactor::SRC_COLOR: ret = GLBlendConst::SRC_COLOR; break; case backend::BlendFactor::ONE_MINUS_SRC_COLOR: ret = GLBlendConst::ONE_MINUS_SRC_COLOR; break; case backend::BlendFactor::SRC_ALPHA: ret = GLBlendConst::SRC_ALPHA; break; case backend::BlendFactor::ONE_MINUS_SRC_ALPHA: ret = GLBlendConst::ONE_MINUS_SRC_ALPHA; break; case backend::BlendFactor::DST_COLOR: ret = GLBlendConst::DST_COLOR; break; case backend::BlendFactor::ONE_MINUS_DST_COLOR: ret = GLBlendConst::ONE_MINUS_DST_COLOR; break; case backend::BlendFactor::DST_ALPHA: ret = GLBlendConst::DST_ALPHA; break; case backend::BlendFactor::ONE_MINUS_DST_ALPHA: ret = GLBlendConst::ONE_MINUS_DST_ALPHA; break; case backend::BlendFactor::SRC_ALPHA_SATURATE: ret = GLBlendConst::SRC_ALPHA_SATURATE; break; case backend::BlendFactor::BLEND_CLOLOR: ret = GLBlendConst::BLEND_COLOR; break; default: break; } return ret; } backend::SamplerFilter toBackendSamplerFilter(int mode) { switch (mode) { case GLTexParamConst::LINEAR: case GLTexParamConst::LINEAR_MIPMAP_LINEAR: case GLTexParamConst::LINEAR_MIPMAP_NEAREST: case GLTexParamConst::NEAREST_MIPMAP_LINEAR: return backend::SamplerFilter::LINEAR; case GLTexParamConst::NEAREST: case GLTexParamConst::NEAREST_MIPMAP_NEAREST: return backend::SamplerFilter::NEAREST; default: CCASSERT(false, "invalid GL sampler filter!"); return backend::SamplerFilter::LINEAR; } } backend::SamplerAddressMode toBackendAddressMode(int mode) { switch (mode) { case GLTexParamConst::REPEAT: return backend::SamplerAddressMode::REPEAT; case GLTexParamConst::CLAMP: case GLTexParamConst::CLAMP_TO_EDGE: return backend::SamplerAddressMode::CLAMP_TO_EDGE; case GLTexParamConst::MIRROR_REPEAT: return backend::SamplerAddressMode::MIRROR_REPEAT; default: CCASSERT(false, "invalid GL address mode"); return backend::SamplerAddressMode::REPEAT; } } const Mat4& getAdjustMatrix() { static cocos2d::Mat4 adjustMatrix = { 1, 0, 0, 0, 0, 1, 0, 0, 0, 0, 0.5, 0.5, 0, 0, 0, 1 }; return adjustMatrix; } std::vector getNormalMat3OfMat4(const Mat4 &mat) { std::vector normalMat(9); Mat4 mvInverse = mat; mvInverse.m[12] = mvInverse.m[13] = mvInverse.m[14] = 0.0f; mvInverse.inverse(); mvInverse.transpose(); normalMat[0] = mvInverse.m[0]; normalMat[1] = mvInverse.m[1]; normalMat[2] = mvInverse.m[2]; normalMat[3] = mvInverse.m[4]; normalMat[4] = mvInverse.m[5]; normalMat[5] = mvInverse.m[6]; normalMat[6] = mvInverse.m[8]; normalMat[7] = mvInverse.m[9]; normalMat[8] = mvInverse.m[10]; return normalMat; } std::vector parseIntegerList(const std::string &intsString) { std::vector result; const char *cStr = intsString.c_str(); char *endptr; for (long int i = strtol(cStr, &endptr, 10); endptr != cStr; i = strtol(cStr, &endptr, 10)) { if (errno == ERANGE) { errno = 0; CCLOGWARN("%s contains out of range integers", intsString.c_str()); } result.push_back(static_cast(i)); cStr= endptr; } return result; } std::string bin2hex(const std::string& binary /*charstring also regard as binary in C/C++*/, int delim, bool prefix) { char low; char high; size_t len = binary.length(); bool delim_needed = delim != -1 || delim == ' '; std::string result; result.reserve((len << 1) + (delim_needed ? len : 0) + (prefix ? (len << 1) : 0)); for (size_t i = 0; i < len; ++i) { auto ch = binary[i]; high = (ch >> 4) & 0x0f; low = ch & 0x0f; if (prefix) { result.push_back('0'); result.push_back('x'); } auto hic = CC_HEX2CHAR(high); auto lic = CC_HEX2CHAR(low); result.push_back(hic); result.push_back(lic); if (delim_needed) { result.push_back(delim); } } return result; } void killCurrentProcess() { #if !defined(_WIN32) ::kill(::getpid(), SIGKILL); #else ::TerminateProcess(::GetCurrentProcess(), SIGTERM); #endif } } NS_CC_END