#include "utils/ToolSet.h" NS_FGUI_BEGIN USING_NS_AX; using namespace std; Color4B ToolSet::hexToColor(const char* str) { ssize_t len = strlen(str); if (len < 7 || str[0] != '#') return Color4B::BLACK; char temp[3]; memset(temp, 0, 3); if (len == 9) { return Color4B(strtol(strncpy(temp, str + 3, 2), NULL, 16), strtol(strncpy(temp, str + 5, 2), NULL, 16), strtol(strncpy(temp, str + 7, 2), NULL, 16), strtol(strncpy(temp, str + 1, 2), NULL, 16)); } else { return Color4B(strtol(strncpy(temp, str + 1, 2), NULL, 16), strtol(strncpy(temp, str + 3, 2), NULL, 16), strtol(strncpy(temp, str + 5, 2), NULL, 16), 255); } } ax::Color3B ToolSet::intToColor(unsigned int rgb) { return Color3B((rgb >> 16) & 0xFF, (rgb >> 8) & 0xFF, rgb & 0xFF); } unsigned int ToolSet::colorToInt(const ax::Color3B& color) { return (color.r << 16) + (color.g << 8) + color.b; } Rect ToolSet::intersection(const Rect& rect1, const Rect& rect2) { if (rect1.size.width == 0 || rect1.size.height == 0 || rect2.size.width == 0 || rect2.size.height == 0) return Rect(0, 0, 0, 0); float left = rect1.getMinX() > rect2.getMinX() ? rect1.getMinX() : rect2.getMinX(); float right = rect1.getMaxX() < rect2.getMaxX() ? rect1.getMaxX() : rect2.getMaxX(); float top = rect1.getMinY() > rect2.getMinY() ? rect1.getMinY() : rect2.getMinY(); float bottom = rect1.getMaxY() < rect2.getMaxY() ? rect1.getMaxY() : rect2.getMaxY(); if (left > right || top > bottom) return Rect(0, 0, 0, 0); else return Rect(left, top, right - left, bottom - top); } int ToolSet::findInStringArray(const std::vector& arr, const std::string& str) { auto iter = std::find(arr.begin(), arr.end(), str); if (iter != arr.end()) return (int)(iter - arr.begin()); return -1; } bool ToolSet::isFileExist(const std::string & fileName) { bool tmp = FileUtils::getInstance()->isPopupNotify(); FileUtils::getInstance()->setPopupNotify(false); bool ret = FileUtils::getInstance()->isFileExist(fileName); FileUtils::getInstance()->setPopupNotify(tmp); return ret; } FastSplitter::FastSplitter() : data(nullptr), dataLength(-1), delimiter('\0') { } void FastSplitter::start(const char* data, ssize_t dataLength, char delimiter) { this->data = data; this->dataLength = dataLength; this->delimiter = delimiter; this->textLength = -1; } bool FastSplitter::next() { if (dataLength < 0) return false; if (dataLength == 0) { dataLength = -1; textLength = 0; return true; } data += textLength + 1; char* found = (char*)memchr(data, (int)delimiter, dataLength); if (found) textLength = found - data; else textLength = dataLength; dataLength -= (textLength + 1); return true; } const char* FastSplitter::getText() { if (textLength > 0) return data; else return nullptr; } ssize_t FastSplitter::getTextLength() { return textLength; } void FastSplitter::getKeyValuePair(char* keyBuf, ssize_t keyBufSize, char* valueBuf, ssize_t valueBufSize) { if (textLength == 0) { keyBuf[0] = '\0'; valueBuf[0] = '\0'; } else { char* found = (char*)memchr(data, (int)'=', textLength); if (found) { ssize_t len = MIN(keyBufSize - 1, found - data); memcpy(keyBuf, data, len); keyBuf[len] = '\0'; len = MIN(valueBufSize - 1, textLength - (found - data) - 1); memcpy(valueBuf, found + 1, len); valueBuf[len] = '\0'; } else { ssize_t len = MIN(valueBufSize - 1, textLength); memcpy(keyBuf, data, len); keyBuf[len] = '\0'; valueBuf[0] = '\0'; } } } NS_FGUI_END