#include "ManagerV2.h" #include "base/HGBuffer.h" #include "base/HGBase64.h" #include "base/HGUtility.h" #include "base/HGIni.h" #include "base/HGInfo.h" #include "base/HGTime.h" #include "imgfmt/HGJpeg.h" #include "imgfmt/HGOfd.h" #include "imgfmt/HGPdf.h" #include "imgfmt/HGTiff.h" #include "imgfmt/HGImgFmt.h" #include "imgproc/HGOCR.h" #include "imgproc/HGImgProc.h" #include "HGString.h" extern "C" { #include "zip.h" }; #include #include #include namespace ver_2 { static bool MainTableSort(const MainTableInfo& info1, const MainTableInfo& info2) { return info1.id < info2.id; } static bool BatchTableSort(const BatchTableInfo& info1, const BatchTableInfo& info2) { return info1.idx < info2.idx; } static bool ImageThumbSort(const ImageThumbInfo& info1, const ImageThumbInfo& info2) { return info1.idx < info2.idx; } ManagerV2::ManagerV2(HGMsgPump msgPump) : Manager(msgPump) { HGBase_CreateLock(&m_lock); HGChar docsPath[256]; HGBase_GetDocumentsPath(docsPath, 256); HGChar procName[256]; HGBase_GetProcessName(procName, 256); HGChar defSavePath[256]; sprintf(defSavePath, "%s%s/", docsPath, procName); m_globalCfg.fileSavePath = GetCfgStringValue("global", "fileSavePath", defSavePath); m_globalCfg.fileNamePrefix = GetCfgStringValue("global", "fileNamePrefix", "Huago"); m_globalCfg.fileNameMode = GetCfgStringValue("global", "fileNameMode", "date_time"); m_globalCfg.imageFormat = GetCfgStringValue("global", "imageFormat", "jpg"); m_globalCfg.imageJpegQuality = GetCfgIntValue("global", "imageJpegQuality", 80); m_globalCfg.imageTiffCompression = GetCfgStringValue("global", "imageTiffCompression", "lzw"); m_globalCfg.imageTiffJpegQuality = GetCfgIntValue("global", "imageTiffJpegQuality", 80); m_globalCfg.uploadHttpHost = GetCfgStringValue("global", "uploadHttpHost", ""); m_globalCfg.uploadHttpPort = GetCfgIntValue("global", "uploadHttpPort", 80); m_globalCfg.uploadHttpPath = GetCfgStringValue("global", "uploadHttpPath", "/upload.cgi"); m_globalCfg.uploadFtpUser = GetCfgStringValue("global", "uploadFtpUser", ""); m_globalCfg.uploadFtpPassword = GetCfgStringValue("global", "uploadFtpPassword", ""); m_globalCfg.uploadFtpHost = GetCfgStringValue("global", "uploadFtpHost", ""); m_globalCfg.uploadFtpPort = GetCfgIntValue("global", "uploadFtpPort", 21); m_globalCfg.fileSavePath.push_back('/'); HGChar stdSavePath[256]; HGBase_StandardiseFileName(m_globalCfg.fileSavePath.c_str(), stdSavePath, 256); m_globalCfg.fileSavePath = stdSavePath; LoadSaveFilePathList(m_saveFilePathList); m_saneEvent = NULL; m_saneParam = NULL; m_saneImageCallback = NULL; m_saneImageParam = NULL; m_initDevice = false; m_devNameList.clear(); m_openDevice = false; m_devName.clear(); m_devHandle = NULL; m_devParamValid = false; m_devParam.Reset(); m_scanning = false; m_scanEvent = NULL; HGChar cfgPath[256]; HGBase_GetConfigPath(cfgPath, 256); HGBase_CreateDir(cfgPath); char oldDbPath[256]; sprintf(oldDbPath, "%s%s", cfgPath, "imageMgr.db"); HGBase_DeleteFile(oldDbPath); char newDbPath[256]; sprintf(newDbPath, "%s%s", cfgPath, "imageList.db"); m_sqlite = NULL; sqlite3_open_v2(newDbPath, &m_sqlite, SQLITE_OPEN_READWRITE | SQLITE_OPEN_CREATE | SQLITE_OPEN_NOMUTEX | SQLITE_OPEN_SHAREDCACHE, NULL); if (NULL != m_sqlite) { HGBase_WriteInfo(HGBASE_INFOTYPE_DESC, "open database success"); int ret = sqlite3_exec(m_sqlite, "create table table_ (id integer primary key autoincrement, name text)", NULL, NULL, NULL); if (0 == ret) { ret = sqlite3_exec(m_sqlite, "create table 'table_default' (id integer primary key autoincrement, idx integer, format text, tag text, image blob, thumb blob)", NULL, NULL, NULL); assert(0 == ret); ret = sqlite3_exec(m_sqlite, "insert into table_ (name) values ('default')", NULL, NULL, NULL); assert(0 == ret); } std::vector tables; char** result = NULL; int rows, cols; ret = sqlite3_get_table(m_sqlite, "select * from table_", &result, &rows, &cols, NULL); assert(0 == ret && rows > 0 && cols == 2); for (int i = 0; i < rows; i++) { MainTableInfo info; for (int j = 0; j < cols; j++) { if (0 == strcmp("id", result[j])) { info.id = atoi(result[(i + 1) * cols + j]); } else if (0 == strcmp("name", result[j])) { info.tableName = result[(i + 1) * cols + j]; } } tables.push_back(info); } sqlite3_free_table(result); assert(!tables.empty()); std::sort(tables.begin(), tables.end(), MainTableSort); m_currBatchId = tables[tables.size() - 1].tableName; } m_bindFolder.clear(); m_bindNameMode.clear(); m_bindNameWidth = 0; m_bindNameBase = 0; } ManagerV2::~ManagerV2() { std::string errInfo; DeinitDevice(errInfo); if (NULL != m_sqlite) { sqlite3_close_v2(m_sqlite); m_sqlite = NULL; } HGBase_DestroyLock(m_lock); m_lock = NULL; } void ManagerV2::CloseDev(const CloseDevParam* param) { assert(NULL != param && this == param->mgr); if (m_devName == param->devName) { std::string errInfo; CloseDevice(errInfo); } } void ManagerV2::ScanFinish(const ScanFinishParam* param) { assert(NULL != param && this == param->mgr); std::string errInfo; StopScan(errInfo); } void ManagerV2::SetSaneEvent(SaneEvent event, void* param) { assert(NULL != event && NULL != param); HGBase_EnterLock(m_lock); m_saneEvent = event; m_saneParam = param; HGBase_LeaveLock(m_lock); } void ManagerV2::SetSaneImageCallback(SaneImageCallback func, void* param) { assert(NULL != func && NULL != param); HGBase_EnterLock(m_lock); m_saneImageCallback = func; m_saneImageParam = param; HGBase_LeaveLock(m_lock); } void ManagerV2::ResetSaneEvent() { HGBase_EnterLock(m_lock); m_saneEvent = NULL; m_saneParam = NULL; HGBase_LeaveLock(m_lock); } void ManagerV2::ResetSaneImageCallback() { HGBase_EnterLock(m_lock); m_saneImageCallback = NULL; m_saneImageParam = NULL; HGBase_LeaveLock(m_lock); } int ManagerV2::SetGlobalConfig(const GlobalConfig& cfg, HGUInt mask, std::string& errInfo) { errInfo = "参数错误"; if ((mask & GlobalConfig::fileSavePathMask) && cfg.fileSavePath.empty()) return -1; if ((mask & GlobalConfig::fileNameModeMask) && ("date_time" != cfg.fileNameMode && "random" != cfg.fileNameMode)) return -1; if ((mask & GlobalConfig::imageFormatMask) && ("jpg" != cfg.imageFormat && "bmp" != cfg.imageFormat && "png" != cfg.imageFormat && "tif" != cfg.imageFormat && "pdf" != cfg.imageFormat && "ofd" != cfg.imageFormat && "ocr-pdf" != cfg.imageFormat && "ocr-ofd" != cfg.imageFormat)) return -1; if ((mask & GlobalConfig::imageJpegQualityMask) && (cfg.imageJpegQuality < 0 || cfg.imageJpegQuality > 100)) return -1; if ((mask & GlobalConfig::imageTiffCompressionMask) && ("none" != cfg.imageTiffCompression && "lzw" != cfg.imageTiffCompression && "jpeg" != cfg.imageTiffCompression && "ccitt-g4" != cfg.imageTiffCompression)) return -1; if ((mask & GlobalConfig::imageTiffJpegQualityMask) && (cfg.imageTiffJpegQuality < 0 || cfg.imageTiffJpegQuality > 100)) return -1; HGBase_EnterLock(m_lock); if (mask & GlobalConfig::fileSavePathMask) { std::string fileSavePath = cfg.fileSavePath; fileSavePath.push_back('/'); HGChar stdFileSavePath[256]; HGBase_StandardiseFileName(fileSavePath.c_str(), stdFileSavePath, 256); m_globalCfg.fileSavePath = stdFileSavePath; SetCfgStringValue("global", "fileSavePath", m_globalCfg.fileSavePath); } if (mask & GlobalConfig::fileNamePrefixMask) { m_globalCfg.fileNamePrefix = cfg.fileNamePrefix; SetCfgStringValue("global", "fileNamePrefix", m_globalCfg.fileNamePrefix); } if (mask & GlobalConfig::fileNameModeMask) { m_globalCfg.fileNameMode = cfg.fileNameMode; SetCfgStringValue("global", "fileNameMode", m_globalCfg.fileNameMode); } if (mask & GlobalConfig::imageFormatMask) { m_globalCfg.imageFormat = cfg.imageFormat; SetCfgStringValue("global", "imageFormat", m_globalCfg.imageFormat); } if (mask & GlobalConfig::imageJpegQualityMask) { m_globalCfg.imageJpegQuality = cfg.imageJpegQuality; SetCfgIntValue("global", "imageJpegQuality", m_globalCfg.imageJpegQuality); } if (mask & GlobalConfig::imageTiffCompressionMask) { m_globalCfg.imageTiffCompression = cfg.imageTiffCompression; SetCfgStringValue("global", "imageTiffCompression", m_globalCfg.imageTiffCompression); } if (mask & GlobalConfig::imageTiffJpegQualityMask) { m_globalCfg.imageTiffJpegQuality = cfg.imageTiffJpegQuality; SetCfgIntValue("global", "imageTiffJpegQuality", m_globalCfg.imageTiffJpegQuality); } if (mask & GlobalConfig::uploadHttpHostMask) { m_globalCfg.uploadHttpHost = cfg.uploadHttpHost; SetCfgStringValue("global", "uploadHttpHost", m_globalCfg.uploadHttpHost); } if (mask & GlobalConfig::uploadHttpPortMask) { m_globalCfg.uploadHttpPort = cfg.uploadHttpPort; SetCfgIntValue("global", "uploadHttpPort", m_globalCfg.uploadHttpPort); } if (mask & GlobalConfig::uploadHttpPathMask) { m_globalCfg.uploadHttpPath = cfg.uploadHttpPath; SetCfgStringValue("global", "uploadHttpPath", m_globalCfg.uploadHttpPath); } if (mask & GlobalConfig::uploadFtpUserMask) { m_globalCfg.uploadFtpUser = cfg.uploadFtpUser; SetCfgStringValue("global", "uploadFtpUser", m_globalCfg.uploadFtpUser); } if (mask & GlobalConfig::uploadFtpPasswordMask) { m_globalCfg.uploadFtpPassword = cfg.uploadFtpPassword; SetCfgStringValue("global", "uploadFtpPassword", m_globalCfg.uploadFtpPassword); } if (mask & GlobalConfig::uploadFtpHostMask) { m_globalCfg.uploadFtpHost = cfg.uploadFtpHost; SetCfgStringValue("global", "uploadFtpHost", m_globalCfg.uploadFtpHost); } if (mask & GlobalConfig::uploadFtpPortMask) { m_globalCfg.uploadFtpPort = cfg.uploadFtpPort; SetCfgIntValue("global", "uploadFtpPort", m_globalCfg.uploadFtpPort); } HGBase_LeaveLock(m_lock); errInfo.clear(); return 0; } int ManagerV2::GetGlobalConfig(GlobalConfig& cfg, std::string& errInfo) { cfg = m_globalCfg; errInfo.clear(); return 0; } int ManagerV2::LoadLocalImage(const std::string& imagePath, std::string& imgBase64, std::string& errInfo) { imgBase64.clear(); errInfo = "错误"; HGUInt imgType = 0; HGImgFmt_GetImgFmtType(imagePath.c_str(), &imgType); if (0 == imgType) return -1; int ret = LoadBase64(imagePath, imgBase64); if (0 != ret) return ret; std::string prefix = "data:image/jpeg;base64,"; if (HGIMGFMT_TYPE_BMP == imgType) prefix = "data:image/bmp;base64,"; else if (HGIMGFMT_TYPE_PNG == imgType) prefix = "data:image/png;base64,"; else if (HGIMGFMT_TYPE_TIFF == imgType) prefix = "data:image/tiff;base64,"; else if (HGIMGFMT_TYPE_PDF == imgType) prefix = "data:image/pdf;base64,"; else if (HGIMGFMT_TYPE_OFD == imgType) prefix = "data:image/ofd;base64,"; imgBase64.insert(0, prefix); errInfo.clear(); return 0; } int ManagerV2::SaveLocalImage(const std::string& imgBase64, std::string& imagePath, std::string& errInfo) { imagePath.clear(); errInfo = "错误"; size_t pos = imgBase64.find(','); if (std::string::npos == pos) return -1; std::string prefix = imgBase64.substr(0, pos + 1); std::string suffix = "jpg"; if ("data:image/bmp;base64," == prefix) suffix = "bmp"; else if ("data:image/png;base64," == prefix) suffix = "png"; else if ("data:image/tiff;base64," == prefix) suffix = "tif"; else if ("data:image/pdf;base64," == prefix) suffix = "pdf"; else if ("data:image/ofd;base64," == prefix) suffix = "ofd"; std::string imagePath2 = GetFilePath(suffix); int ret = SaveBase64(imgBase64.c_str() + pos + 1, imagePath2); if (0 != ret) return ret; imagePath = imagePath2; HGBase_EnterLock(m_lock); m_saveFilePathList.push_back(imagePath); RestoreSaveFilePathList(m_saveFilePathList); HGBase_LeaveLock(m_lock); errInfo.clear(); return 0; } int ManagerV2::DeleteLocalFile(const std::string& filePath, std::string& errInfo) { int ret = -1; errInfo = "错误"; HGBase_EnterLock(m_lock); for (int i = 0; i < (int)m_saveFilePathList.size(); ++i) { if (filePath == m_saveFilePathList[i]) { if (HGBASE_ERR_OK == HGBase_DeleteFile(filePath.c_str())) { m_saveFilePathList.erase(m_saveFilePathList.begin() + i); errInfo.clear(); ret = 0; } break; } } RestoreSaveFilePathList(m_saveFilePathList); HGBase_LeaveLock(m_lock); return ret; } int ManagerV2::ClearGlobalFileSavePath(std::string& errInfo) { HGBase_EnterLock(m_lock); int i = 0; while (i < (int)m_saveFilePathList.size()) { HGChar path[256]; HGBase_GetFilePath(m_saveFilePathList[i].c_str(), path, 256); if (0 == strcmp(path, m_globalCfg.fileSavePath.c_str())) { if (HGBASE_ERR_OK == HGBase_DeleteFile(m_saveFilePathList[i].c_str())) { m_saveFilePathList.erase(m_saveFilePathList.begin() + i); } else { ++i; } } else { ++i; } } RestoreSaveFilePathList(m_saveFilePathList); HGBase_LeaveLock(m_lock); HGBase_DeleteDir(m_globalCfg.fileSavePath.c_str()); errInfo.clear(); return 0; } int ManagerV2::MergeLocalImage(const std::vector& imagePathList, const std::string& mode, const std::string& align, int interval, std::string& outImagePath, std::string& errInfo) { outImagePath.clear(); errInfo = "错误"; if (imagePathList.empty() || interval < 0) return -1; if ("horz" == mode) { if ("top" != align && "bottom" != align && "center" != align) return -1; } else if ("vert" == mode) { if ("left" != align && "right" != align && "center" != align) return -1; } else { return -1; } HGUInt width = 0, height = 0; for (int i = 0; i < (int)imagePathList.size(); ++i) { HGImgFmtLoadInfo loadInfo; if (HGBASE_ERR_OK == HGImgFmt_LoadImage(imagePathList[i].c_str(), 0, &loadInfo, 0, 0, NULL)) { if ("horz" == mode) { if (0 != width) width += interval; width += loadInfo.width; if (loadInfo.height > height) height = loadInfo.height; } else { if (0 != height) height += interval; height += loadInfo.height; if (loadInfo.width > width) width = loadInfo.width; } } } HGImage outImage = NULL; HGBase_CreateImage(width, height, HGBASE_IMGTYPE_RGB, HGBASE_IMGORIGIN_TOP, &outImage); if (NULL == outImage) return -1; HGImageInfo outImageInfo; HGBase_GetImageInfo(outImage, &outImageInfo); HGByte *outImageData = NULL; HGBase_GetImageData(outImage, &outImageData); memset(outImageData, 255, outImageInfo.widthStep * outImageInfo.height); HGUInt start = 0; for (int i = 0; i < (int)imagePathList.size(); ++i) { HGImage img = NULL; HGImgFmt_LoadImage(imagePathList[i].c_str(), 0, NULL, HGBASE_IMGTYPE_RGB, HGBASE_IMGORIGIN_TOP, &img); if (NULL != img) { HGImageInfo imgInfo; HGBase_GetImageInfo(img, &imgInfo); if (0 != start) start += interval; HGImageRoi outImageRoi; if ("horz" == mode) { outImageRoi.left = start; outImageRoi.top = 0; if ("bottom" == align) outImageRoi.top = height - imgInfo.height; else if ("center" == align) outImageRoi.top = (height - imgInfo.height) / 2; start += imgInfo.width; } else { outImageRoi.left = 0; if ("right" == align) outImageRoi.left = width - imgInfo.width; else if ("center" == align) outImageRoi.left = (width - imgInfo.width) / 2; outImageRoi.top = start; start += imgInfo.height; } outImageRoi.right = outImageRoi.left + imgInfo.width; outImageRoi.bottom = outImageRoi.top + imgInfo.height; HGBase_SetImageROI(outImage, &outImageRoi); HGBase_CopyImage(img, outImage); HGBase_ResetImageROI(outImage); HGBase_DestroyImage(img); } } int ret = SaveImage(outImage, outImagePath); if (0 == ret) { HGBase_EnterLock(m_lock); m_saveFilePathList.push_back(outImagePath); RestoreSaveFilePathList(m_saveFilePathList); HGBase_LeaveLock(m_lock); errInfo.clear(); } HGBase_DestroyImage(outImage); return ret; } int ManagerV2::LocalMakeMultiImage(const std::vector& imagePathList, const std::string& format, const std::string& tiffCompression, int tiffJpegQuality, std::string& outImagePath, std::string& errInfo) { outImagePath.clear(); errInfo = "错误"; if (imagePathList.empty()) return -1; if ("tif" != format && "pdf" != format && "ofd" != format) return -1; if ("none" != tiffCompression && "lzw" != tiffCompression && "jpeg" != tiffCompression && "ccitt-g4" != tiffCompression) return -1; if (tiffJpegQuality < 0 || tiffJpegQuality > 100) return -1; int ret = -1; std::string outImagePath2 = GetFilePath(format); HGImgFmtWriter writer = NULL; HGImgFmt_OpenImageWriter(outImagePath2.c_str(), 0, &writer); if (NULL != writer) { for (int i = 0; i < (int)imagePathList.size(); ++i) { HGImage img = NULL; HGImgFmt_LoadImage(imagePathList[i].c_str(), 0, NULL, 0, HGBASE_IMGORIGIN_TOP, &img); if (NULL != img) { HGImgFmtSaveInfo saveInfo; saveInfo.jpegQuality = 80; saveInfo.tiffJpegQuality = tiffJpegQuality; saveInfo.tiffCompression = HGIMGFMT_TIFFCOMP_LZW; if ("none" == tiffCompression) saveInfo.tiffCompression = HGIMGFMT_TIFFCOMP_NONE; else if ("jpeg" == tiffCompression) saveInfo.tiffCompression = HGIMGFMT_TIFFCOMP_JPEG; else if ("ccitt-g4" == tiffCompression) saveInfo.tiffCompression = HGIMGFMT_TIFFCOMP_CCITTFAX4; if (HGBASE_ERR_OK == HGImgFmt_SaveImageToWriter(writer, img, &saveInfo)) { errInfo.clear(); ret = 0; } HGBase_DestroyImage(img); } } HGImgFmt_CloseImageWriter(writer); } if (0 != ret) { HGBase_DeleteFile(outImagePath2.c_str()); return ret; } outImagePath = outImagePath2; HGBase_EnterLock(m_lock); m_saveFilePathList.push_back(outImagePath); RestoreSaveFilePathList(m_saveFilePathList); HGBase_LeaveLock(m_lock); return ret; } int ManagerV2::SplitLocalImage(const std::string& imagePath, const std::string& mode, int location, std::vector& outImagePathList, std::string& errInfo) { outImagePathList.clear(); errInfo = "错误"; if (imagePath.empty() || location < 0) return -1; if ("horz" != mode && "vert" != mode) return -1; int ret = -1; HGImage image = NULL; HGImgFmt_LoadImage(imagePath.c_str(), 0, NULL, 0, HGBASE_IMGORIGIN_TOP, &image); { HGImageInfo imageInfo; HGBase_GetImageInfo(image, &imageInfo); for (int i = 0; i < 2; ++i) { HGImageRoi imageRoi; if ("horz" == mode) { imageRoi.top = 0; imageRoi.bottom = imageInfo.height; if (0 == i) { imageRoi.left = 0; imageRoi.right = (HGUInt)location; } else { imageRoi.left = (HGUInt)location; imageRoi.right = imageInfo.width; } } else { imageRoi.left = 0; imageRoi.right = imageInfo.width; if (0 == i) { imageRoi.top = 0; imageRoi.bottom = (HGUInt)location; } else { imageRoi.top = (HGUInt)location; imageRoi.bottom = imageInfo.height; } } if (HGBASE_ERR_OK == HGBase_SetImageROI(image, &imageRoi)) { HGImage img = NULL; HGBase_CloneImage(image, 0, 0, &img); if (NULL != img) { std::string imgPath; if (0 == SaveImage(img, imgPath)) { outImagePathList.push_back(imgPath); HGBase_EnterLock(m_lock); m_saveFilePathList.push_back(imgPath); RestoreSaveFilePathList(m_saveFilePathList); HGBase_LeaveLock(m_lock); errInfo.clear(); ret = 0; } HGBase_DestroyImage(img); } HGBase_ResetImageROI(image); } } HGBase_DestroyImage(image); } return ret; } int ManagerV2::LocalMakeZipFile(const std::vector& filePathList, const std::vector& nameList, std::string& outZipPath, std::string& errInfo) { outZipPath.clear(); errInfo = "错误"; if (filePathList.empty()) return -1; if (!nameList.empty()) { if (nameList.size() != filePathList.size()) return - 1; for (int i = 0; i < (int)nameList.size(); ++i) { if (nameList[i].empty()) return -1; } } std::string outZipPath2 = GetFilePath("zip"); int error = 0; zip* z = zip_open(StdStringToUtf8(outZipPath2).c_str(), ZIP_CREATE | ZIP_TRUNCATE, &error); if (NULL == z) { return -1; } int ret = -1; for (int i = 0; i < (int)filePathList.size(); ++i) { zip_source_t* s = zip_source_file(z, StdStringToUtf8(filePathList[i]).c_str(), 0, 0); if (NULL != s) { std::string zipName; if (!nameList.empty()) { zipName = nameList[i]; } else { HGChar name[256]; HGBase_GetFileName(filePathList[i].c_str(), name, 256); zipName = name; } if (zip_file_add(z, StdStringToUtf8(zipName).c_str(), s, ZIP_FL_OVERWRITE) >= 0) { errInfo.clear(); ret = 0; } else { zip_source_free(s); } } } zip_close(z); z = NULL; if (0 != ret) { HGBase_DeleteFile(outZipPath2.c_str()); return ret; } outZipPath = outZipPath2; HGBase_EnterLock(m_lock); m_saveFilePathList.push_back(outZipPath); RestoreSaveFilePathList(m_saveFilePathList); HGBase_LeaveLock(m_lock); return ret; } int ManagerV2::LocalImageDeskew(const std::string& imagePath, std::string& outImagePath, std::string& errInfo) { outImagePath.clear(); errInfo = "错误"; if (imagePath.empty()) return -1; int ret = -1; HGImage image = NULL; HGImgFmt_LoadImage(imagePath.c_str(), 0, NULL, 0, HGBASE_IMGORIGIN_TOP, &image); if (NULL != image) { HGImage img = NULL; HGImgProc_ImageAutoCrop(image, HGTRUE, HGTRUE, HGTRUE, NULL, 0, 0, 0, HGBASE_IMGORIGIN_TOP, &img); if (NULL != img) { if (0 == SaveImage(img, outImagePath)) { HGBase_EnterLock(m_lock); m_saveFilePathList.push_back(outImagePath); RestoreSaveFilePathList(m_saveFilePathList); HGBase_LeaveLock(m_lock); errInfo.clear(); ret = 0; } HGBase_DestroyImage(img); } HGBase_DestroyImage(image); } return ret; } int ManagerV2::UploadLocalFile(const std::string& filePath, const std::string& mode, const std::string& remoteFilePath, std::string& errInfo) { errInfo = "错误"; if (filePath.empty() || remoteFilePath.empty()) return -1; if ("http" != mode && "ftp" != mode) return -1; int ret = -1; if ("http" == mode) { ret = HttpUpload(m_globalCfg.uploadHttpHost, m_globalCfg.uploadHttpPort, m_globalCfg.uploadHttpPath, filePath, remoteFilePath); } else { ret = FtpUpload(m_globalCfg.uploadFtpUser, m_globalCfg.uploadFtpPassword, m_globalCfg.uploadFtpHost, m_globalCfg.uploadFtpPort, filePath, remoteFilePath); } if (0 == ret) errInfo.clear(); return ret; } int ManagerV2::InitDevice(std::string& errInfo) { errInfo = "错误"; if (m_initDevice) return -1; SANE_Int version_code = 0; if (SANE_STATUS_GOOD != sane_init_ex(&version_code, sane_ex_callback, this)) { return -1; } m_initDevice = true; errInfo.clear(); return 0; } int ManagerV2::DeinitDevice(std::string& errInfo) { errInfo = "错误"; if (!m_initDevice) return -1; std::string errInfo2; CloseDevice(errInfo2); sane_exit(); m_devNameList.clear(); m_initDevice = false; errInfo.clear(); return 0; } bool ManagerV2::IsDeviceInit() { return m_initDevice; } int ManagerV2::GetDeviceNameList(std::vector& deviceNameList, std::string& errInfo) { deviceNameList.clear(); errInfo = "错误"; if (!m_initDevice) return -1; HGBase_EnterLock(m_lock); deviceNameList = m_devNameList; HGBase_LeaveLock(m_lock); errInfo.clear(); return 0; } int ManagerV2::OpenDevice(const std::string& deviceName, std::string& errInfo) { errInfo = "错误"; if (!m_initDevice || m_openDevice) return -1; SANE_Handle dev = NULL; SANE_Status status = sane_open(deviceName.c_str(), &dev); if (SANE_STATUS_GOOD != status) return -1; // 从配置文件加载devParam DeviceParam devParam; LoadDeviceParam(deviceName, devParam); // 设置devParam到设备 SetParamToDevice(dev, devParam, 0xFFFFFFFF); // 从设备获取，并设置m_devParam if (0 == GetParamFromDevice(dev, m_devParam)) { m_devParamValid = true; // 保存到配置文件 RestoreDeviceParam(deviceName, m_devParam); } m_devHandle = dev; m_devName = deviceName; m_openDevice = true; errInfo.clear(); return 0; } int ManagerV2::CloseDevice(std::string& errInfo) { errInfo = "错误"; if (!m_openDevice) return -1; std::string errInfo2; StopScan(errInfo2); sane_close(m_devHandle); m_devHandle = NULL; m_devName.clear(); m_devParam.Reset(); m_devParamValid = false; m_openDevice = false; errInfo.clear(); return 0; } int ManagerV2::SetDeviceParam(const DeviceParam& param, HGUInt mask, std::string& errInfo) { errInfo = "错误"; if (!m_openDevice || m_scanning) return -1; // 设置devParam到设备 int ret = SetParamToDevice(m_devHandle, param, mask); // 从设备获取，并设置m_devParam if (0 == GetParamFromDevice(m_devHandle, m_devParam)) { m_devParamValid = true; // 保存到配置文件 RestoreDeviceParam(m_devName, m_devParam); } if (0 == ret) errInfo.clear(); return ret; } int ManagerV2::GetDeviceParam(DeviceParam& param, std::string& errInfo) { param.Reset(); errInfo = "错误"; if (!m_openDevice || !m_devParamValid) return -1; param = m_devParam; errInfo.clear(); return 0; } int ManagerV2::GetCurrDeviceName(std::string& deviceName, std::string& errInfo) { errInfo = "错误"; if (!m_openDevice) return -1; deviceName = m_devName; errInfo.clear(); return 0; } int ManagerV2::StartScan(std::string& errInfo) { errInfo = "错误"; if (!m_openDevice || m_scanning) return -1; HGBase_CreateEvent(HGFALSE, HGFALSE, &m_scanEvent); assert(NULL != m_scanEvent); SANE_Status status = sane_start(m_devHandle); if (SANE_STATUS_GOOD != status) { HGBase_DestroyEvent(m_scanEvent); m_scanEvent = NULL; return -1; } m_scanning = true; errInfo.clear(); return 0; } int ManagerV2::StopScan(std::string& errInfo) { errInfo = "错误"; if (!m_scanning) return -1; assert(NULL != m_devHandle); sane_cancel(m_devHandle); assert(NULL != m_scanEvent); HGBase_WaitEvent(m_scanEvent); HGBase_DestroyEvent(m_scanEvent); m_scanEvent = NULL; m_scanning = false; errInfo.clear(); return 0; } bool ManagerV2::IsScanning() { return m_scanning; } int ManagerV2::GetBatchIdList(std::vector& batchIdList, std::string& errInfo) { batchIdList.clear(); errInfo = "错误"; if (NULL == m_sqlite) return -1; std::vector tables; char** result = NULL; int rows, cols; int ret = sqlite3_get_table(m_sqlite, "select * from table_", &result, &rows, &cols, NULL); assert(0 == ret && rows > 0 && cols == 2); for (int i = 0; i < rows; i++) { MainTableInfo info; for (int j = 0; j < cols; j++) { if (0 == strcmp("id", result[j])) { info.id = atoi(result[(i + 1) * cols + j]); } else if (0 == strcmp("name", result[j])) { info.tableName = result[(i + 1) * cols + j]; } } tables.push_back(info); } sqlite3_free_table(result); assert(!tables.empty()); std::sort(tables.begin(), tables.end(), MainTableSort); for (int i = 0; i < (int)tables.size(); ++i) batchIdList.push_back(tables[i].tableName); errInfo.clear(); return 0; } int ManagerV2::OpenBatch(const std::string& batchId, std::string& errInfo) { errInfo = "错误"; if (batchId.empty()) return -1; std::vector batchIdList; std::string errInfo2; GetBatchIdList(batchIdList, errInfo2); int ret = -1; for (int i = 0; i < (int)batchIdList.size(); ++i) { if (batchId == batchIdList[i]) { if (m_currBatchId != batchId) { m_currBatchId = batchId; if (!m_bindFolder.empty()) { ClearBindFolder(); UpdateBindFolder(); } } errInfo.clear(); ret = 0; break; } } return ret; } int ManagerV2::DeleteBatch(const std::string& batchId, std::string& errInfo) { errInfo = "错误"; if (batchId.empty() || batchId == m_currBatchId) return -1; if (NULL == m_sqlite) return -1; char sql[256]; sprintf(sql, "drop table 'table_%s'", batchId.c_str()); int ret = sqlite3_exec(m_sqlite, sql, NULL, NULL, NULL); if (0 != ret) return -1; sprintf(sql, "delete from table_ where name = '%s'", batchId.c_str()); ret = sqlite3_exec(m_sqlite, sql, NULL, NULL, NULL); assert(0 == ret); errInfo.clear(); return 0; } int ManagerV2::NewBatch(const std::string& batchId, std::string& errInfo) { errInfo = "错误"; if (batchId.empty()) return -1; if (NULL == m_sqlite) return -1; char sql[256]; sprintf(sql, "create table 'table_%s' (id integer primary key autoincrement, idx integer, format text, tag text, image blob, thumb blob)", batchId.c_str()); int ret = sqlite3_exec(m_sqlite, sql, NULL, NULL, NULL); if (0 != ret) return -1; sprintf(sql, "insert into table_ (name) values ('%s')", batchId.c_str()); ret = sqlite3_exec(m_sqlite, sql, NULL, NULL, NULL); assert(0 == ret); m_currBatchId = batchId; if (!m_bindFolder.empty()) { ClearBindFolder(); UpdateBindFolder(); } errInfo.clear(); return 0; } int ManagerV2::GetCurrBatchId(std::string& batchId, std::string& errInfo) { batchId.clear(); errInfo = "错误"; if (NULL == m_sqlite) return -1; batchId = m_currBatchId; errInfo.clear(); return 0; } int ManagerV2::ModifyBatchId(const std::string& batchId, const std::string& newBatchId, std::string& errInfo) { errInfo = "错误"; if (batchId.empty() || newBatchId.empty()) return -1; if (NULL == m_sqlite) return -1; char sql[256]; sprintf(sql, "alter table 'table_%s' rename to 'table_%s'", batchId.c_str(), newBatchId.c_str()); int ret = sqlite3_exec(m_sqlite, sql, NULL, NULL, NULL); if (0 != ret) return -1; sprintf(sql, "update table_ set name = '%s' where name = '%s'", newBatchId.c_str(), batchId.c_str()); ret = sqlite3_exec(m_sqlite, sql, NULL, NULL, NULL); assert(0 == ret); if (batchId == m_currBatchId) m_currBatchId = newBatchId; errInfo.clear(); return 0; } int ManagerV2::BindFolder(const std::string& folder, const std::string& nameMode, int nameWidth, int nameBase, std::string& errInfo) { errInfo = "错误"; if (folder.empty()) return -1; if ("order" != nameMode || nameWidth <= 0 || nameBase < 0) return -1; // 需要保证文件夹为空？？ if (NULL == m_sqlite) return -1; m_bindFolder = folder; m_bindFolder.push_back('/'); HGChar stdBindFolder[256]; HGBase_StandardiseFileName(m_bindFolder.c_str(), stdBindFolder, 256); m_bindFolder = stdBindFolder; m_bindNameMode = nameMode; m_bindNameWidth = nameWidth; m_bindNameBase = nameBase; ClearBindFolder(); UpdateBindFolder(); errInfo.clear(); return 0; } int ManagerV2::StopBindFolder(std::string& errInfo) { errInfo = "错误"; if (NULL == m_sqlite) return -1; m_bindFolder.clear(); m_bindNameMode.clear(); m_bindNameWidth = 0; m_bindNameBase = 0; errInfo.clear(); return 0; } int ManagerV2::GetImageThumbnailList(std::vector& imageThumbList, std::string& errInfo) { imageThumbList.clear(); errInfo = "错误"; if (NULL == m_sqlite) return -1; int rc = -1; sqlite3_stmt* stmt = NULL; char sql[256]; sprintf(sql, "select * from 'table_%s'", m_currBatchId.c_str()); int ret = sqlite3_prepare(m_sqlite, sql, -1, &stmt, NULL); assert(0 == ret); ret = sqlite3_step(stmt); while (SQLITE_ROW == ret) { int idx = sqlite3_column_int(stmt, 1); std::string imgFmt = (const char*)sqlite3_column_text(stmt, 2); std::string imgTag = (const char*)sqlite3_column_text(stmt, 3); const void* thumbData = sqlite3_column_blob(stmt, 5); int thumbSize = sqlite3_column_bytes(stmt, 5); std::string thumbBase64; SaveToBase64((const HGByte*)thumbData, thumbSize, thumbBase64); assert(!thumbBase64.empty()); std::string prefix; if ("jpg" == imgFmt) prefix = "data:image/jpeg;base64,"; else if ("bmp" == imgFmt) prefix = "data:image/bmp;base64,"; else if ("png" == imgFmt) prefix = "data:image/png;base64,"; else if ("tif" == imgFmt) prefix = "data:image/tiff;base64,"; else if ("pdf" == imgFmt) prefix = "data:image/pdf;base64,"; else if ("ofd" == imgFmt) prefix = "data:image/ofd;base64,"; thumbBase64.insert(0, prefix); ImageThumbInfo thumbInfo; thumbInfo.idx = idx; thumbInfo.tag = imgTag; thumbInfo.thumbBase64 = thumbBase64; imageThumbList.push_back(thumbInfo); ret = sqlite3_step(stmt); } ret = sqlite3_finalize(stmt); assert(0 == ret); std::sort(imageThumbList.begin(), imageThumbList.end(), ImageThumbSort); errInfo.clear(); return 0; } int ManagerV2::GetImageCount(int& imageCount, std::string& errInfo) { imageCount = 0; errInfo = "错误"; if (NULL == m_sqlite) return -1; char** result = NULL; char sql[256]; sprintf(sql, "select id from 'table_%s'", m_currBatchId.c_str()); int rows, cols; int ret = sqlite3_get_table(m_sqlite, sql, &result, &rows, &cols, NULL); assert(0 == ret); imageCount = rows; sqlite3_free_table(result); errInfo.clear(); return 0; } int ManagerV2::LoadImage(int imageIndex, std::string& imageTag, std::string& imageBase64, std::string& errInfo) { imageTag.clear(); imageBase64.clear(); errInfo = "错误"; if (NULL == m_sqlite) return -1; int rc = -1; sqlite3_stmt* stmt = NULL; char sql[256]; sprintf(sql, "select * from 'table_%s'", m_currBatchId.c_str()); int ret = sqlite3_prepare(m_sqlite, sql, -1, &stmt, NULL); assert(0 == ret); ret = sqlite3_step(stmt); while (SQLITE_ROW == ret) { int idx = sqlite3_column_int(stmt, 1); if (idx == imageIndex) { std::string imgFmt = (const char*)sqlite3_column_text(stmt, 2); std::string imgTag = (const char*)sqlite3_column_text(stmt, 3); const void* imgData = sqlite3_column_blob(stmt, 4); int imgSize = sqlite3_column_bytes(stmt, 4); if (SaveToBase64((const HGByte*)imgData, imgSize, imageBase64)) { imageTag = imgTag; std::string prefix; if ("jpg" == imgFmt) prefix = "data:image/jpeg;base64,"; else if ("bmp" == imgFmt) prefix = "data:image/bmp;base64,"; else if ("png" == imgFmt) prefix = "data:image/png;base64,"; else if ("tif" == imgFmt) prefix = "data:image/tiff;base64,"; else if ("pdf" == imgFmt) prefix = "data:image/pdf;base64,"; else if ("ofd" == imgFmt) prefix = "data:image/ofd;base64,"; imageBase64.insert(0, prefix); errInfo.clear(); rc = 0; } break; } ret = sqlite3_step(stmt); } ret = sqlite3_finalize(stmt); assert(0 == ret); return rc; } int ManagerV2::SaveImage(int imageIndex, std::string& imagePath, std::string& errInfo) { imagePath.clear(); errInfo = "错误"; if (NULL == m_sqlite) return -1; int rc = -1; sqlite3_stmt* stmt = NULL; char sql[256]; sprintf(sql, "select * from 'table_%s'", m_currBatchId.c_str()); int ret = sqlite3_prepare(m_sqlite, sql, -1, &stmt, NULL); assert(0 == ret); ret = sqlite3_step(stmt); while (SQLITE_ROW == ret) { int idx = sqlite3_column_int(stmt, 1); if (idx == imageIndex) { std::string imgFmt = (const char*)sqlite3_column_text(stmt, 2); const void* imgData = sqlite3_column_blob(stmt, 4); int imgSize = sqlite3_column_bytes(stmt, 4); std::string imagePath2 = GetFilePath(imgFmt.c_str()); if (SaveToFile((const HGByte*)imgData, imgSize, imagePath2)) { imagePath = imagePath2; HGBase_EnterLock(m_lock); m_saveFilePathList.push_back(imagePath); RestoreSaveFilePathList(m_saveFilePathList); HGBase_LeaveLock(m_lock); errInfo.clear(); rc = 0; } break; } ret = sqlite3_step(stmt); } ret = sqlite3_finalize(stmt); assert(0 == ret); return rc; } int ManagerV2::InsertLocalImage(const std::string& imagePath, int insertPos, const std::string& imageTag, std::string& errInfo) { errInfo = "错误"; if (NULL == m_sqlite || imagePath.empty() || insertPos < -1) return -1; HGUInt imgSize = 0; std::string imgFormat; HGByte* imgData = LoadImageFromPath(imagePath.c_str(), imgSize, imgFormat); if (NULL == imgData) return -1; HGUInt thumbSize = 0; HGByte* thumbData = LoadThumbFromPath(imagePath.c_str(), thumbSize); if (NULL == thumbData) { delete[] imgData; return -1; } std::vector tables; GetBatchTableInfo(tables); if (tables.empty()) { if (-1 == insertPos) insertPos = 0; else if (0 != insertPos) { delete[] thumbData; delete[] imgData; return -1; } } else { if (-1 == insertPos) insertPos = tables[tables.size() - 1].idx + 1; else if (insertPos > tables[tables.size() - 1].idx + 1) { delete[] thumbData; delete[] imgData; return -1; } } int ret; char sql[1024]; for (int i = 0; i < (int)tables.size(); ++i) { if (tables[i].idx >= insertPos) { sprintf(sql, "update 'table_%s' set idx = '%d' where id = '%d'", m_currBatchId.c_str(), tables[i].idx + 1, tables[i].id); ret = sqlite3_exec(m_sqlite, sql, NULL, NULL, NULL); assert(0 == ret); } } sprintf(sql, "insert into 'table_%s' (idx, format, tag, image, thumb) values ('%d', '%s', '%s', ?, ?)", m_currBatchId.c_str(), insertPos, imgFormat.c_str(), imageTag.c_str()); sqlite3_stmt* stmt = NULL; ret = sqlite3_prepare(m_sqlite, sql, -1, &stmt, NULL); assert(0 == ret); ret = sqlite3_bind_blob(stmt, 1, imgData, (int)imgSize, NULL); assert(0 == ret); ret = sqlite3_bind_blob(stmt, 2, thumbData, (int)thumbSize, NULL); assert(0 == ret); sqlite3_step(stmt); ret = sqlite3_finalize(stmt); assert(0 == ret); if (!m_bindFolder.empty()) { InsertBindFolderImage(tables, insertPos, imgFormat, imgData, imgSize); } delete[] thumbData; delete[] imgData; errInfo.clear(); return 0; } int ManagerV2::InsertImage(const std::string& imageBase64, int insertPos, const std::string& imageTag, std::string& errInfo) { errInfo = "错误"; if (NULL == m_sqlite || imageBase64.empty() || insertPos < -1) return -1; HGUInt imgSize = 0; std::string imgFormat; HGByte* imgData = LoadImageFromBase64(imageBase64.c_str(), imgSize, imgFormat); if (NULL == imgData) return -1; HGUInt thumbSize = 0; HGByte* thumbData = LoadThumbFromBase64(imageBase64.c_str(), thumbSize); if (NULL == thumbData) { delete[] imgData; return -1; } std::vector tables; GetBatchTableInfo(tables); if (tables.empty()) { if (-1 == insertPos) insertPos = 0; else if (0 != insertPos) { delete[] thumbData; delete[] imgData; return -1; } } else { if (-1 == insertPos) insertPos = tables[tables.size() - 1].idx + 1; else if (insertPos > tables[tables.size() - 1].idx + 1) { delete[] thumbData; delete[] imgData; return -1; } } int ret; char sql[1024]; for (int i = 0; i < (int)tables.size(); ++i) { if (tables[i].idx >= insertPos) { sprintf(sql, "update 'table_%s' set idx = '%d' where id = '%d'", m_currBatchId.c_str(), tables[i].idx + 1, tables[i].id); ret = sqlite3_exec(m_sqlite, sql, NULL, NULL, NULL); assert(0 == ret); } } sprintf(sql, "insert into 'table_%s' (idx, format, tag, image, thumb) values ('%d', '%s', '%s', ?, ?)", m_currBatchId.c_str(), insertPos, imgFormat.c_str(), imageTag.c_str()); sqlite3_stmt* stmt = NULL; ret = sqlite3_prepare(m_sqlite, sql, -1, &stmt, NULL); assert(0 == ret); ret = sqlite3_bind_blob(stmt, 1, imgData, (int)imgSize, NULL); assert(0 == ret); ret = sqlite3_bind_blob(stmt, 2, thumbData, (int)thumbSize, NULL); assert(0 == ret); sqlite3_step(stmt); ret = sqlite3_finalize(stmt); assert(0 == ret); if (!m_bindFolder.empty()) { InsertBindFolderImage(tables, insertPos, imgFormat, imgData, imgSize); } delete[] thumbData; delete[] imgData; errInfo.clear(); return 0; } int ManagerV2::ModifyImageTag(const std::vector& imageIndexList, const std::vector& imageTagList, std::string& errInfo) { errInfo = "错误"; if (NULL == m_sqlite || imageIndexList.empty() || imageTagList.empty() || imageIndexList.size() != imageTagList.size()) return -1; std::vector tables; GetBatchTableInfo(tables); bool indexValid = true; for (int i = 0; i < (int)imageIndexList.size(); ++i) { bool find = false; for (int j = 0; j < (int)tables.size(); ++j) { if (imageIndexList[i] == tables[j].idx) { find = true; break; } } if (!find) { indexValid = false; break; } } if (!indexValid) return -1; int ret; char sql[1024]; for (int i = 0; i < (int)imageIndexList.size(); ++i) { sprintf(sql, "update 'table_%s' set tag = '%s' where idx = '%d'", m_currBatchId.c_str(), imageTagList[i].c_str(), imageIndexList[i]); ret = sqlite3_exec(m_sqlite, sql, NULL, NULL, NULL); assert(0 == ret); } errInfo.clear(); return 0; } int ManagerV2::DeleteImage(const std::vector& imageIndexList, std::string& errInfo) { errInfo = "错误"; if (NULL == m_sqlite || imageIndexList.empty()) return -1; std::vector tables; GetBatchTableInfo(tables); bool indexValid = true; for (int i = 0; i < (int)imageIndexList.size(); ++i) { bool find = false; for (int j = 0; j < (int)tables.size(); ++j) { if (imageIndexList[i] == tables[j].idx) { find = true; break; } } if (!find) { indexValid = false; break; } } if (!indexValid) return -1; int ret; char sql[1024]; for (int i = 0; i < (int)imageIndexList.size(); ++i) { sprintf(sql, "delete from 'table_%s' where idx = '%d'", m_currBatchId.c_str(), imageIndexList[i]); ret = sqlite3_exec(m_sqlite, sql, NULL, NULL, NULL); assert(0 == ret); } int value = 0; for (int i = 0; i < (int)tables.size(); ++i) { bool find = false; for (int j = 0; j < (int)imageIndexList.size(); ++j) { if (tables[i].idx == imageIndexList[j]) { find = true; break; } } if (find) { ++value; } else { if (value > 0) { sprintf(sql, "update 'table_%s' set idx = '%d' where id = '%d'", m_currBatchId.c_str(), tables[i].idx - value, tables[i].id); ret = sqlite3_exec(m_sqlite, sql, NULL, NULL, NULL); assert(0 == ret); } } } if (!m_bindFolder.empty()) { DeleteBindFolderImage(tables, imageIndexList); } errInfo.clear(); return 0; } int ManagerV2::ClearImageList(std::string& errInfo) { errInfo = "错误"; if (NULL == m_sqlite) return -1; std::vector tables; GetBatchTableInfo(tables); char sql[256]; sprintf(sql, "delete from 'table_%s'", m_currBatchId.c_str()); int ret = sqlite3_exec(m_sqlite, sql, NULL, NULL, NULL); assert(0 == ret); if (!m_bindFolder.empty()) { ClearBindFolderImageList(tables); } errInfo.clear(); return 0; } int ManagerV2::ModifyImage(int imageIndex, const std::string& imageBase64, std::string& errInfo) { errInfo = "错误"; if (NULL == m_sqlite || imageIndex < 0 || imageBase64.empty()) return -1; HGUInt imgSize = 0; std::string imgFormat; HGByte* imgData = LoadImageFromBase64(imageBase64.c_str(), imgSize, imgFormat); if (NULL == imgData) return -1; HGUInt thumbSize = 0; HGByte* thumbData = LoadThumbFromBase64(imageBase64.c_str(), thumbSize); if (NULL == thumbData) { delete[] imgData; return -1; } std::vector tables; GetBatchTableInfo(tables); bool find = false; for (int i = 0; i < (int)tables.size(); ++i) { if (tables[i].idx == imageIndex) { find = true; break; } } if (!find) { delete[] thumbData; delete[] imgData; return -1; } int ret; char sql[1024]; sprintf(sql, "update 'table_%s' set format = '%s', image = ?, thumb = ? where idx = '%d'", m_currBatchId.c_str(), imgFormat.c_str(), imageIndex); sqlite3_stmt* stmt = NULL; ret = sqlite3_prepare(m_sqlite, sql, -1, &stmt, NULL); assert(0 == ret); ret = sqlite3_bind_blob(stmt, 1, imgData, (int)imgSize, NULL); assert(0 == ret); ret = sqlite3_bind_blob(stmt, 2, thumbData, (int)thumbSize, NULL); assert(0 == ret); sqlite3_step(stmt); ret = sqlite3_finalize(stmt); assert(0 == ret); if (!m_bindFolder.empty()) { ModifyBindFolderImage(tables, imageIndex, imgFormat, imgData, imgSize); } delete[] thumbData; delete[] imgData; errInfo.clear(); return 0; } int ManagerV2::ModifyImageByLocal(int imageIndex, const std::string& imagePath, std::string& errInfo) { errInfo = "错误"; if (NULL == m_sqlite || imageIndex < 0 || imagePath.empty()) return -1; HGUInt imgSize = 0; std::string imgFormat; HGByte* imgData = LoadImageFromPath(imagePath.c_str(), imgSize, imgFormat); if (NULL == imgData) return -1; HGUInt thumbSize = 0; HGByte* thumbData = LoadThumbFromPath(imagePath.c_str(), thumbSize); if (NULL == thumbData) { delete[] imgData; return -1; } std::vector tables; GetBatchTableInfo(tables); bool find = false; for (int i = 0; i < (int)tables.size(); ++i) { if (tables[i].idx == imageIndex) { find = true; break; } } if (!find) { delete[] thumbData; delete[] imgData; return -1; } int ret; char sql[1024]; sprintf(sql, "update 'table_%s' set format = '%s', image = ?, thumb = ? where idx = '%d'", m_currBatchId.c_str(), imgFormat.c_str(), imageIndex); sqlite3_stmt* stmt = NULL; ret = sqlite3_prepare(m_sqlite, sql, -1, &stmt, NULL); assert(0 == ret); ret = sqlite3_bind_blob(stmt, 1, imgData, (int)imgSize, NULL); assert(0 == ret); ret = sqlite3_bind_blob(stmt, 2, thumbData, (int)thumbSize, NULL); assert(0 == ret); sqlite3_step(stmt); ret = sqlite3_finalize(stmt); assert(0 == ret); if (!m_bindFolder.empty()) { ModifyBindFolderImage(tables, imageIndex, imgFormat, imgData, imgSize); } delete[] thumbData; delete[] imgData; errInfo.clear(); return 0; } int ManagerV2::MoveImage(const std::vector& imageIndexList, const std::string& mode, int target, std::string& errInfo) { errInfo = "错误"; if (NULL == m_sqlite || imageIndexList.empty() || target < 0) return -1; if ("pos" != mode && "index" != mode) return -1; std::vector tables; GetBatchTableInfo(tables); if (tables.empty()) return -1; if ("pos" == mode && target > tables[tables.size() - 1].idx + 1) return -1; if ("index" == mode && target > tables[tables.size() - 1].idx) return -1; bool indexValid = true; for (int i = 0; i < (int)imageIndexList.size(); ++i) { bool find = false; for (int j = 0; j < (int)tables.size(); ++j) { if (imageIndexList[i] == tables[j].idx) { find = true; break; } } if (!find) { indexValid = false; break; } } if (!indexValid) return -1; if ("pos" == mode) { int posEx = target; for (int i = 0; i < (int)imageIndexList.size(); ++i) { int oldIndex = -1; for (int j = 0; j < (int)tables.size(); ++j) { if (imageIndexList[i] == tables[j].idx) { oldIndex = j; break; } } assert(-1 != oldIndex); BatchTableInfo info = tables[oldIndex]; if (oldIndex < posEx) --posEx; tables.erase(tables.begin() + oldIndex); if (posEx != (int)tables.size()) tables.insert(tables.begin() + posEx, info); else tables.push_back(info); ++posEx; } } else { std::vector infos; for (int i = 0; i < (int)imageIndexList.size(); ++i) { int oldIndex = -1; for (int j = 0; j < (int)tables.size(); ++j) { if (imageIndexList[i] == tables[j].idx) { oldIndex = j; break; } } assert(-1 != oldIndex); BatchTableInfo info = tables[oldIndex]; tables.erase(tables.begin() + oldIndex); infos.push_back(info); } if (target < (int)tables.size()) { int indexEx = target; for (int i = 0; i < (int)infos.size(); ++i) { tables.insert(tables.begin() + indexEx, infos[i]); ++indexEx; } } else { for (int i = 0; i < (int)infos.size(); ++i) { tables.push_back(infos[i]); } } } int ret; char sql[1024]; for (int i = 0; i < (int)tables.size(); ++i) { sprintf(sql, "update 'table_%s' set idx = '%d' where id = '%d'", m_currBatchId.c_str(), i, tables[i].id); ret = sqlite3_exec(m_sqlite, sql, NULL, NULL, NULL); assert(0 == ret); } if (!m_bindFolder.empty()) { ClearBindFolderImageList(tables); UpdateBindFolder(); } errInfo.clear(); return 0; } int ManagerV2::ExchangeImage(int imageIndex1, int imageIndex2, std::string& errInfo) { errInfo = "错误"; if (NULL == m_sqlite || imageIndex1 == imageIndex2) return -1; std::vector tables; GetBatchTableInfo(tables); bool find1 = false, find2 = false; for (int i = 0; i < (int)tables.size(); ++i) { if (tables[i].idx == imageIndex1) { find1 = true; } else if (tables[i].idx == imageIndex2) { find2 = true; } } if (!find1 || !find2) return -1; int ret; char sql[1024]; sprintf(sql, "update 'table_%s' set idx = '%d' where id = '%d'", m_currBatchId.c_str(), imageIndex2, tables[imageIndex1].id); ret = sqlite3_exec(m_sqlite, sql, NULL, NULL, NULL); assert(0 == ret); sprintf(sql, "update 'table_%s' set idx = '%d' where id = '%d'", m_currBatchId.c_str(), imageIndex1, tables[imageIndex2].id); ret = sqlite3_exec(m_sqlite, sql, NULL, NULL, NULL); assert(0 == ret); if (!m_bindFolder.empty()) { ExchangeBindFolderImage(tables, imageIndex1, imageIndex2); } errInfo.clear(); return 0; } int ManagerV2::ImageBookSort(std::string& errInfo) { errInfo = "错误"; if (NULL == m_sqlite) return -1; std::vector tables; GetBatchTableInfo(tables); std::list infos1, infos2; for (int i = 0; i < (int)tables.size(); ++i) { BatchTableInfo info = tables[i]; if (0 == i % 2) infos1.push_back(info); else infos2.push_front(info); } tables.clear(); std::list::const_iterator iter; for (iter = infos1.begin(); iter != infos1.end(); ++iter) tables.push_back(*iter); for (iter = infos2.begin(); iter != infos2.end(); ++iter) tables.push_back(*iter); int ret; char sql[1024]; for (int i = 0; i < (int)tables.size(); ++i) { sprintf(sql, "update 'table_%s' set idx = '%d' where id = '%d'", m_currBatchId.c_str(), i, tables[i].id); ret = sqlite3_exec(m_sqlite, sql, NULL, NULL, NULL); assert(0 == ret); } if (!m_bindFolder.empty()) { ClearBindFolderImageList(tables); UpdateBindFolder(); } errInfo.clear(); return 0; } int ManagerV2::MergeImage(const std::vector& imageIndexList, const std::string& mode, const std::string& align, int interval, std::string& outImagePath, std::string& errInfo) { outImagePath.clear(); errInfo = "错误"; if (NULL == m_sqlite) return -1; std::vector imagePathList; bool ok = true; for (int i = 0; i < (int)imageIndexList.size(); ++i) { std::string imagePath; if (0 != SaveImage(imageIndexList[i], imagePath)) { ok = false; break; } imagePathList.push_back(imagePath); } if (!ok) { for (int i = 0; i < (int)imagePathList.size(); ++i) { HGBase_DeleteFile(imagePathList[i].c_str()); } return -1; } int ret = MergeLocalImage(imagePathList, mode, align, interval, outImagePath, errInfo); for (int i = 0; i < (int)imagePathList.size(); ++i) { HGBase_DeleteFile(imagePathList[i].c_str()); } return ret; } int ManagerV2::MakeMultiImage(const std::vector& imageIndexList, const std::string& format, const std::string& tiffCompression, int tiffJpegQuality, std::string& outImagePath, std::string& errInfo) { outImagePath.clear(); errInfo = "错误"; if (NULL == m_sqlite) return -1; std::vector imagePathList; bool ok = true; for (int i = 0; i < (int)imageIndexList.size(); ++i) { std::string imagePath; if (0 != SaveImage(imageIndexList[i], imagePath)) { ok = false; break; } imagePathList.push_back(imagePath); } if (!ok) { for (int i = 0; i < (int)imagePathList.size(); ++i) { HGBase_DeleteFile(imagePathList[i].c_str()); } return -1; } int ret = LocalMakeMultiImage(imagePathList, format, tiffCompression, tiffJpegQuality, outImagePath, errInfo); for (int i = 0; i < (int)imagePathList.size(); ++i) { HGBase_DeleteFile(imagePathList[i].c_str()); } return ret; } int ManagerV2::SplitImage(int imageIndex, const std::string& mode, int location, std::vector& outImagePathList, std::string& errInfo) { outImagePathList.clear(); errInfo.clear(); if (NULL == m_sqlite) return -1; std::string imagePath; if (0 != SaveImage(imageIndex, imagePath)) { return -1; } int ret = SplitLocalImage(imagePath, mode, location, outImagePathList, errInfo); HGBase_DeleteFile(imagePath.c_str()); return ret; } int ManagerV2::MakeZipFile(const std::vector& imageIndexList, std::string& outZipPath, std::string& errInfo) { outZipPath.clear(); errInfo = "错误"; if (NULL == m_sqlite) return -1; std::vector imagePathList; std::vector nameList; bool ok = true; for (int i = 0; i < (int)imageIndexList.size(); ++i) { std::string imagePath; if (0 != SaveImage(imageIndexList[i], imagePath)) { ok = false; break; } imagePathList.push_back(imagePath); HGChar suffix[256]; HGBase_GetFileSuffix(imagePath.c_str(), suffix, 256); char name[256]; sprintf(name, "%d.%s", imageIndexList[i], suffix); nameList.push_back(name); } if (!ok) { for (int i = 0; i < (int)imagePathList.size(); ++i) { HGBase_DeleteFile(imagePathList[i].c_str()); } return -1; } int ret = LocalMakeZipFile(imagePathList, nameList, outZipPath, errInfo); for (int i = 0; i < (int)imagePathList.size(); ++i) { HGBase_DeleteFile(imagePathList[i].c_str()); } return ret; } int ManagerV2::ImageDeskew(int imageIndex, std::string& outImagePath, std::string& errInfo) { outImagePath.clear(); errInfo.clear(); if (NULL == m_sqlite) return -1; std::string imagePath; if (0 != SaveImage(imageIndex, imagePath)) { return -1; } int ret = LocalImageDeskew(imagePath, outImagePath, errInfo); HGBase_DeleteFile(imagePath.c_str()); return ret; } int ManagerV2::LoadBase64(const std::string& fileName, std::string& base64) { base64.clear(); int ret = -1; FILE* file = fopen(fileName.c_str(), "rb"); if (NULL != file) { fseek(file, 0, SEEK_END); long size = ftell(file); fseek(file, 0, SEEK_SET); if (size > 0) { HGByte* data = new HGByte[size]; long readLen = (long)fread(data, 1, size, file); if (readLen == size) { HGSize base64Size = 0; HGBase_Base64Encode(data, size, NULL, &base64Size); uint8_t* base64Data = new uint8_t[base64Size + 1]; HGBase_Base64Encode(data, size, base64Data, &base64Size); base64Data[base64Size] = 0; base64 = (const char*)base64Data; delete[] base64Data; ret = 0; } delete[] data; } fclose(file); } return ret; } int ManagerV2::SaveBase64(const std::string& base64, const std::string& fileName) { if (base64.empty()) return -1; const char* base64Data = base64.c_str(); size_t base64Size = base64.size(); int ret = -1; FILE* file = fopen(fileName.c_str(), "wb"); if (NULL != file) { HGSize size = 0; HGBase_Base64Decode((const HGByte*)base64Data, (HGSize)base64Size, NULL, &size); uint8_t* data = new HGByte[size]; HGBase_Base64Decode((const HGByte*)base64Data, (HGSize)base64Size, data, &size); size_t writeLen = fwrite(data, 1, size, file); if (writeLen == (size_t)size) ret = 0; delete[] data; fclose(file); } if (0 != ret) HGBase_DeleteFile(fileName.c_str()); return ret; } std::string ManagerV2::GetCfgStringValue(const std::string& app, const std::string& key, const std::string& def) { HGChar cfgPath[256]; HGBase_GetConfigPath(cfgPath, 256); strcat(cfgPath, "config2.ini"); HGChar val[256] = { 0 }; HGBase_GetProfileString(cfgPath, app.c_str(), key.c_str(), def.c_str(), val, 256); return val; } int ManagerV2::GetCfgIntValue(const std::string& app, const std::string& key, int def) { HGChar cfgPath[256]; HGBase_GetConfigPath(cfgPath, 256); strcat(cfgPath, "config2.ini"); HGInt val = 0; HGBase_GetProfileInt(cfgPath, app.c_str(), key.c_str(), def, &val); return val; } double ManagerV2::GetCfgDoubleValue(const std::string& app, const std::string& key, double def) { HGChar cfgPath[256]; HGBase_GetConfigPath(cfgPath, 256); strcat(cfgPath, "config2.ini"); char defStr[32]; sprintf(defStr, "%f", def); HGChar val[256] = { 0 }; HGBase_GetProfileString(cfgPath, app.c_str(), key.c_str(), defStr, val, 256); return atof(val); } bool ManagerV2::GetCfgBoolValue(const std::string& app, const std::string& key, bool def) { HGChar cfgPath[256]; HGBase_GetConfigPath(cfgPath, 256); strcat(cfgPath, "config2.ini"); HGInt val = 0; HGBase_GetProfileInt(cfgPath, app.c_str(), key.c_str(), (HGInt)def, &val); return (bool)val; } bool ManagerV2::SetCfgStringValue(const std::string& app, const std::string& key, const std::string& val) { HGChar cfgPath[256]; HGBase_GetConfigPath(cfgPath, 256); HGBase_CreateDir(cfgPath); strcat(cfgPath, "config2.ini"); return (HGBASE_ERR_OK == HGBase_SetProfileString(cfgPath, app.c_str(), key.c_str(), val.c_str())); } bool ManagerV2::SetCfgIntValue(const std::string& app, const std::string& key, int val) { HGChar cfgPath[256]; HGBase_GetConfigPath(cfgPath, 256); HGBase_CreateDir(cfgPath); strcat(cfgPath, "config2.ini"); return (HGBASE_ERR_OK == HGBase_SetProfileInt(cfgPath, app.c_str(), key.c_str(), val)); } bool ManagerV2::SetCfgDoubleValue(const std::string& app, const std::string& key, double val) { HGChar cfgPath[256]; HGBase_GetConfigPath(cfgPath, 256); HGBase_CreateDir(cfgPath); strcat(cfgPath, "config2.ini"); char valStr[32]; sprintf(valStr, "%f", val); return (HGBASE_ERR_OK == HGBase_SetProfileString(cfgPath, app.c_str(), key.c_str(), valStr)); } bool ManagerV2::SetCfgBoolValue(const std::string& app, const std::string& key, bool val) { HGChar cfgPath[256]; HGBase_GetConfigPath(cfgPath, 256); HGBase_CreateDir(cfgPath); strcat(cfgPath, "config2.ini"); return (HGBASE_ERR_OK == HGBase_SetProfileInt(cfgPath, app.c_str(), key.c_str(), (HGInt)val)); } int ManagerV2::HttpUpload(const std::string& host, int port, const std::string& path, const std::string& filePath, const std::string& remoteFilePath) { return -1; } static size_t read_callback(char* ptr, size_t size, size_t nmemb, void* stream) { unsigned long nread; /* in real-world cases, this would probably get this data differently as this fread() stuff is exactly what the library already would do by default internally */ size_t retcode = fread(ptr, size, nmemb, (FILE*)stream); if (retcode > 0) { nread = (unsigned long)retcode; //fprintf(stderr, "*** We read %lu bytes from file\n", nread); } return retcode; } int ManagerV2::FtpUpload(const std::string& user, const std::string& password, const std::string& host, int port, const std::string& filePath, const std::string& remoteFilePath) { FILE* file = fopen(filePath.c_str(), "rb"); if (NULL == file) { return -1; } int ret = -1; fseek(file, 0, SEEK_END); long fsize = ftell(file); fseek(file, 0, SEEK_SET); curl_global_init(CURL_GLOBAL_ALL); /* get a curl handle */ CURL* curl = curl_easy_init(); if (NULL != curl) { char tmpName[256]; HGBase_GetUuid(tmpName, 256); char remotePath[256]; HGBase_GetFilePath(remoteFilePath.c_str(), remotePath, 256); char remoteName[256]; HGBase_GetFileName(remoteFilePath.c_str(), remoteName, 256); char ftp_rnfr[512]; sprintf(ftp_rnfr, "RNFR %s", tmpName); char ftp_rnto[512]; sprintf(ftp_rnto, "RNTO %s", remoteName); struct curl_slist* headerlist = NULL; headerlist = curl_slist_append(headerlist, ftp_rnfr); headerlist = curl_slist_append(headerlist, ftp_rnto); /* we want to use our own read function */ curl_easy_setopt(curl, CURLOPT_READFUNCTION, read_callback); curl_easy_setopt(curl, CURLOPT_UPLOAD, 1L); char url[512]; if (!user.empty() && !password.empty()) { sprintf(url, "ftp://%s:%s@%s:%d%s%s", user.c_str(), password.c_str(), host.c_str(), port, remotePath, tmpName); } else { sprintf(url, "ftp://%s:%d%s%s", host.c_str(), port, remotePath, tmpName); } curl_easy_setopt(curl, CURLOPT_URL, url); curl_easy_setopt(curl, CURLOPT_FTP_CREATE_MISSING_DIRS, 1); /* pass in that last of FTP commands to run after the transfer */ curl_easy_setopt(curl, CURLOPT_POSTQUOTE, headerlist); /* now specify which file to upload */ curl_easy_setopt(curl, CURLOPT_READDATA, file); /* Set the size of the file to upload (optional). If you give a *_LARGE option you MUST make sure that the type of the passed-in argument is a curl_off_t. If you use CURLOPT_INFILESIZE (without _LARGE) you must make sure that to pass in a type 'long' argument. */ curl_easy_setopt(curl, CURLOPT_INFILESIZE_LARGE, (curl_off_t)fsize); /* Now run off and do what you have been told! */ CURLcode res = curl_easy_perform(curl); /* Check for errors */ if (res != CURLE_OK) fprintf(stderr, "curl_easy_perform() failed: %s\n", curl_easy_strerror(res)); else ret = 0; /* clean up the FTP commands list */ curl_slist_free_all(headerlist); /* always cleanup */ curl_easy_cleanup(curl); } fclose(file); /* close the local file */ curl_global_cleanup(); return ret; } std::string ManagerV2::GetFilePath(const std::string& suffix) { HGBase_CreateDir(m_globalCfg.fileSavePath.c_str()); char filePath[256] = { 0 }; while (1) { if ("random" == m_globalCfg.fileNameMode) { HGChar uuid[256]; HGBase_GetUuid(uuid, 256); sprintf(filePath, "%s%s%s.%s", m_globalCfg.fileSavePath.c_str(), m_globalCfg.fileNamePrefix.c_str(), uuid, suffix.c_str()); } else { HGTimeInfo timeInfo; HGBase_GetLocalTime(&timeInfo); sprintf(filePath, "%s%s%04d%02d%02d%02d%02d%02d%03d.%s", m_globalCfg.fileSavePath.c_str(), m_globalCfg.fileNamePrefix.c_str(), timeInfo.year, timeInfo.month, timeInfo.day, timeInfo.hour, timeInfo.minute, timeInfo.second, timeInfo.milliseconds, suffix.c_str()); } #if defined(HG_CMP_MSC) DWORD attr = GetFileAttributesA(filePath); if (INVALID_FILE_ATTRIBUTES == attr) break; #else struct stat buf; int result = stat(lineContent, &buf); if (0 != result) break; #endif } return filePath; } int ManagerV2::SaveImage(HGImage image, std::string& imagePath) { assert(NULL != image); imagePath.clear(); bool ocr = false; std::string suffix = m_globalCfg.imageFormat; if ("ocr-pdf" == m_globalCfg.imageFormat) { suffix = "pdf"; ocr = true; } else if ("ocr-ofd" == m_globalCfg.imageFormat) { suffix = "ofd"; ocr = true; } std::string imagePath2 = GetFilePath(suffix); int ret = -1; if (ocr) { HGOCRMgr ocrMgr = NULL; HGImgProc_CreateOCRMgr(&ocrMgr); if (NULL != ocrMgr) { if (HGBASE_ERR_OK == HGImgProc_ImageOCRToFile(ocrMgr, image, 0, imagePath2.c_str())) { ret = 0; } HGImgProc_DestroyOCRMgr(ocrMgr); } } else { HGImgFmtSaveInfo saveInfo; saveInfo.jpegQuality = m_globalCfg.imageJpegQuality; saveInfo.tiffJpegQuality = m_globalCfg.imageTiffJpegQuality; saveInfo.tiffCompression = HGIMGFMT_TIFFCOMP_LZW; if ("none" == m_globalCfg.imageTiffCompression) saveInfo.tiffCompression = HGIMGFMT_TIFFCOMP_NONE; else if ("jpeg" == m_globalCfg.imageTiffCompression) saveInfo.tiffCompression = HGIMGFMT_TIFFCOMP_JPEG; else if ("ccitt-g4" == m_globalCfg.imageTiffCompression) saveInfo.tiffCompression = HGIMGFMT_TIFFCOMP_CCITTFAX4; if (HGBASE_ERR_OK == HGImgFmt_SaveImage(image, 0, &saveInfo, imagePath2.c_str())) { ret = 0; } } if (0 == ret) imagePath = imagePath2; return ret; } void ManagerV2::LoadSaveFilePathList(std::vector& savePathList) { savePathList.clear(); HGChar path[256]; HGBase_GetConfigPath(path, 256); strcat(path, "saveFilePathList.txt"); FILE* file = fopen(path, "r"); if (NULL != file) { while (feof(file) == 0) { char lineContent[256] = { 0 }; if (NULL == fgets(lineContent, 256, file) || '\n' == *lineContent) { continue; } if (lineContent[strlen(lineContent) - 1] == '\n') lineContent[strlen(lineContent) - 1] = 0; #if defined(HG_CMP_MSC) DWORD attr = GetFileAttributesA(lineContent); if (INVALID_FILE_ATTRIBUTES != attr && 0 == (FILE_ATTRIBUTE_DIRECTORY & attr)) savePathList.push_back(lineContent); #else struct stat buf; int result = stat(lineContent, &buf); if (0 == result && 0 == (S_IFDIR & buf.st_mode)) savePathList.push_back(lineContent); #endif } fclose(file); } } void ManagerV2::RestoreSaveFilePathList(const std::vector& savePathList) { HGChar path[256]; HGBase_GetConfigPath(path, 256); strcat(path, "saveFilePathList.txt"); FILE* file = fopen(path, "w"); if (NULL != file) { for (int i = 0; i < (int)savePathList.size(); ++i) { fwrite(savePathList[i].c_str(), 1, savePathList[i].size(), file); fwrite("\n", 1, strlen("\n"), file); } fclose(file); } } void ManagerV2::LoadDeviceParam(const std::string& devName, DeviceParam& devParam) { assert(!devName.empty()); devParam.Reset(); devParam.colorMode = StdStringToUtf8(GetCfgStringValue(Utf8ToStdString(devName).c_str(), "colorMode", "24位彩色")); devParam.pageMode = StdStringToUtf8(GetCfgStringValue(Utf8ToStdString(devName).c_str(), "pageMode", "双面")); devParam.resolution = GetCfgIntValue(Utf8ToStdString(devName).c_str(), "resolution", 200); devParam.brightness = GetCfgIntValue(Utf8ToStdString(devName).c_str(), "brightness", 100); devParam.contrast = GetCfgIntValue(Utf8ToStdString(devName).c_str(), "contrast", 4); devParam.gamma = GetCfgDoubleValue(Utf8ToStdString(devName).c_str(), "gamma", 1.00f); devParam.paperSize = StdStringToUtf8(GetCfgStringValue(Utf8ToStdString(devName).c_str(), "paperSize", "匹配原始尺寸")); devParam.paperCutEnabled = GetCfgBoolValue(Utf8ToStdString(devName).c_str(), "paperCutEnabled", false); devParam.paperCutLeft = GetCfgDoubleValue(Utf8ToStdString(devName).c_str(), "paperCutLeft", 0.0f); devParam.paperCutTop = GetCfgDoubleValue(Utf8ToStdString(devName).c_str(), "paperCutTop", 0.0f); devParam.paperCutRight = GetCfgDoubleValue(Utf8ToStdString(devName).c_str(), "paperCutRight", 0.0f); devParam.paperCutBottom = GetCfgDoubleValue(Utf8ToStdString(devName).c_str(), "paperCutBottom", 0.0f); devParam.autoCrop = GetCfgBoolValue(Utf8ToStdString(devName).c_str(), "autoCrop", false); } void ManagerV2::RestoreDeviceParam(const std::string& devName, const DeviceParam& devParam) { assert(!devName.empty()); SetCfgStringValue(Utf8ToStdString(devName).c_str(), "colorMode", Utf8ToStdString(devParam.colorMode)); SetCfgStringValue(Utf8ToStdString(devName).c_str(), "pageMode", Utf8ToStdString(devParam.pageMode)); SetCfgIntValue(Utf8ToStdString(devName).c_str(), "resolution", devParam.resolution); SetCfgIntValue(Utf8ToStdString(devName).c_str(), "brightness", devParam.brightness); SetCfgIntValue(Utf8ToStdString(devName).c_str(), "contrast", devParam.contrast); SetCfgDoubleValue(Utf8ToStdString(devName).c_str(), "gamma", devParam.gamma); SetCfgStringValue(Utf8ToStdString(devName).c_str(), "paperSize", Utf8ToStdString(devParam.paperSize)); SetCfgBoolValue(Utf8ToStdString(devName).c_str(), "paperCutEnabled", devParam.paperCutEnabled); SetCfgDoubleValue(Utf8ToStdString(devName).c_str(), "paperCutLeft", devParam.paperCutLeft); SetCfgDoubleValue(Utf8ToStdString(devName).c_str(), "paperCutTop", devParam.paperCutTop); SetCfgDoubleValue(Utf8ToStdString(devName).c_str(), "paperCutRight", devParam.paperCutRight); SetCfgDoubleValue(Utf8ToStdString(devName).c_str(), "paperCutBottom", devParam.paperCutBottom); SetCfgBoolValue(Utf8ToStdString(devName).c_str(), "autoCrop", devParam.autoCrop); } int ManagerV2::SetParamToDevice(SANE_Handle hdev, const DeviceParam& devParam, HGUInt mask) { assert(NULL != hdev); int ret = 0; SANE_Int num_dev_options = 0; sane_control_option(hdev, 0, SANE_ACTION_GET_VALUE, &num_dev_options, NULL); for (int i = 1; i < num_dev_options; ++i) { const SANE_Option_Descriptor* desp = sane_get_option_descriptor(hdev, i); if (NULL == desp) continue; if (SANE_TYPE_STRING == desp->type) { if (0 == strcmp(OPTION_TITLE_YSMS, desp->title) && (mask & DeviceParam::colorModeMask)) { if (SANE_STATUS_GOOD != sane_control_option(hdev, i, SANE_ACTION_SET_VALUE, (void*)devParam.colorMode.c_str(), NULL)) ret = -1; } else if (0 == strcmp(OPTION_TITLE_SMYM, desp->title) && (mask & DeviceParam::pageModeMask)) { if (SANE_STATUS_GOOD != sane_control_option(hdev, i, SANE_ACTION_SET_VALUE, (void*)devParam.pageMode.c_str(), NULL)) ret = -1; } else if (0 == strcmp(OPTION_TITLE_ZZCC, desp->title) && (mask & DeviceParam::paperSizeMask)) { if (SANE_STATUS_GOOD != sane_control_option(hdev, i, SANE_ACTION_SET_VALUE, (void*)devParam.paperSize.c_str(), NULL)) ret = -1; } } else if (SANE_TYPE_INT == desp->type) { if (0 == strcmp(OPTION_TITLE_FBL, desp->title) && (mask & DeviceParam::resolutionMask)) { SANE_Int value = devParam.resolution; if (SANE_STATUS_GOOD != sane_control_option(hdev, i, SANE_ACTION_SET_VALUE, &value, NULL)) ret = -1; } else if (0 == strcmp(OPTION_TITLE_LDZ, desp->title) && (mask & DeviceParam::brightnessMask)) { SANE_Int value = devParam.brightness; if (SANE_STATUS_GOOD != sane_control_option(hdev, i, SANE_ACTION_SET_VALUE, &value, NULL)) ret = -1; } else if (0 == strcmp(OPTION_TITLE_DBD, desp->title) && (mask & DeviceParam::contrastMask)) { SANE_Int value = devParam.contrast; if (SANE_STATUS_GOOD != sane_control_option(hdev, i, SANE_ACTION_SET_VALUE, &value, NULL)) ret = -1; } } else if (SANE_TYPE_FIXED == desp->type) { if (0 == strcmp(OPTION_TITLE_JMZ, desp->title) && (mask & DeviceParam::gammaMask)) { SANE_Fixed value = SANE_FIX(devParam.gamma); if (SANE_STATUS_GOOD != sane_control_option(hdev, i, SANE_ACTION_SET_VALUE, &value, NULL)) ret = -1; } else if (0 == strcmp(OPTION_TITLE_SMQYZCmm, desp->title) && (mask & DeviceParam::paperCutLeftMask)) { SANE_Fixed value = SANE_FIX(devParam.paperCutLeft); if (SANE_STATUS_GOOD != sane_control_option(hdev, i, SANE_ACTION_SET_VALUE, &value, NULL)) ret = -1; } else if (0 == strcmp(OPTION_TITLE_SMQYYCmm, desp->title) && (mask & DeviceParam::paperCutRightMask)) { SANE_Fixed value = SANE_FIX(devParam.paperCutRight); if (SANE_STATUS_GOOD != sane_control_option(hdev, i, SANE_ACTION_SET_VALUE, &value, NULL)) ret = -1; } else if (0 == strcmp(OPTION_TITLE_SMQYSCmm, desp->title) && (mask & DeviceParam::paperCutTopMask)) { SANE_Fixed value = SANE_FIX(devParam.paperCutTop); if (SANE_STATUS_GOOD != sane_control_option(hdev, i, SANE_ACTION_SET_VALUE, &value, NULL)) ret = -1; } else if (0 == strcmp(OPTION_TITLE_SMQYXCmm, desp->title) && (mask & DeviceParam::paperCutBottomMask)) { SANE_Fixed value = SANE_FIX(devParam.paperCutBottom); if (SANE_STATUS_GOOD != sane_control_option(hdev, i, SANE_ACTION_SET_VALUE, &value, NULL)) ret = -1; } } else if (SANE_TYPE_BOOL == desp->type) { if (0 == strcmp(OPTION_TITLE_ZDJP, desp->title) && (mask & DeviceParam::autoCropMask)) { SANE_Bool value = (SANE_Bool)devParam.autoCrop; if (SANE_STATUS_GOOD != sane_control_option(hdev, i, SANE_ACTION_SET_VALUE, &value, NULL)) ret = -1; } else if (0 == strcmp(OPTION_TITLE_ZDYSMQY, desp->title) && (mask & DeviceParam::paperCutEnabledMask)) { SANE_Bool value = (SANE_Bool)devParam.paperCutEnabled; if (SANE_STATUS_GOOD != sane_control_option(hdev, i, SANE_ACTION_SET_VALUE, &value, NULL)) ret = -1; } } } return ret; } int ManagerV2::GetParamFromDevice(SANE_Handle hdev, DeviceParam& devParam) { assert(NULL != hdev); devParam.Reset(); HGUInt mask = 0; SANE_Int num_dev_options = 0; sane_control_option(hdev, 0, SANE_ACTION_GET_VALUE, &num_dev_options, NULL); for (int i = 1; i < num_dev_options; ++i) { const SANE_Option_Descriptor* desp = sane_get_option_descriptor(hdev, i); if (NULL == desp) continue; if (SANE_TYPE_STRING == desp->type) { char value[256] = { 0 }; sane_control_option(hdev, i, SANE_ACTION_GET_VALUE, value, NULL); if (0 == strcmp(OPTION_TITLE_YSMS, desp->title)) { if (SANE_CONSTRAINT_STRING_LIST == desp->constraint_type) { const SANE_String_Const* p = desp->constraint.string_list; while (NULL != *p) { devParam.colorModeList.push_back(*p); ++p; } } devParam.colorMode = value; mask |= DeviceParam::colorModeMask; } else if (0 == strcmp(OPTION_TITLE_SMYM, desp->title)) { if (SANE_CONSTRAINT_STRING_LIST == desp->constraint_type) { const SANE_String_Const* p = desp->constraint.string_list; while (NULL != *p) { devParam.pageModeList.push_back(*p); ++p; } } devParam.pageMode = value; mask |= DeviceParam::pageModeMask; } else if (0 == strcmp(OPTION_TITLE_ZZCC, desp->title)) { if (SANE_CONSTRAINT_STRING_LIST == desp->constraint_type) { const SANE_String_Const* p = desp->constraint.string_list; while (NULL != *p) { devParam.paperSizeList.push_back(*p); ++p; } } devParam.paperSize = value; mask |= DeviceParam::paperSizeMask; } } else if (SANE_TYPE_INT == desp->type) { SANE_Int value = 0; sane_control_option(hdev, i, SANE_ACTION_GET_VALUE, &value, NULL); if (0 == strcmp(OPTION_TITLE_FBL, desp->title)) { if (SANE_CONSTRAINT_WORD_LIST == desp->constraint_type) { const SANE_Word* p = desp->constraint.word_list; for (SANE_Int i = 0; i < p[0]; ++i) { devParam.resolutionList.push_back(p[i + 1]); } } devParam.resolution = value; mask |= DeviceParam::resolutionMask; } else if (0 == strcmp(OPTION_TITLE_LDZ, desp->title)) { if (SANE_CONSTRAINT_RANGE == desp->constraint_type) { devParam.brightnessMin = desp->constraint.range->min; devParam.brightnessMax = desp->constraint.range->max; } devParam.brightness = value; mask |= DeviceParam::brightnessMask; } else if (0 == strcmp(OPTION_TITLE_DBD, desp->title)) { if (SANE_CONSTRAINT_RANGE == desp->constraint_type) { devParam.contrastMin = desp->constraint.range->min; devParam.contrastMax = desp->constraint.range->max; } devParam.contrast = value; mask |= DeviceParam::contrastMask; } } else if (SANE_TYPE_FIXED == desp->type) { SANE_Word value = 0; sane_control_option(hdev, i, SANE_ACTION_GET_VALUE, &value, NULL); if (0 == strcmp(OPTION_TITLE_JMZ, desp->title)) { if (SANE_CONSTRAINT_RANGE == desp->constraint_type) { devParam.gammaMin = SANE_UNFIX(desp->constraint.range->min); devParam.gammaMax = SANE_UNFIX(desp->constraint.range->max); } devParam.gamma = SANE_UNFIX(value); mask |= DeviceParam::gammaMask; } else if (0 == strcmp(OPTION_TITLE_SMQYZCmm, desp->title)) { devParam.paperCutLeft = SANE_UNFIX(value); mask |= DeviceParam::paperCutLeftMask; } else if (0 == strcmp(OPTION_TITLE_SMQYYCmm, desp->title)) { if (SANE_CONSTRAINT_RANGE == desp->constraint_type) { devParam.paperSizeWidth = SANE_UNFIX(desp->constraint.range->max); } devParam.paperCutRight = SANE_UNFIX(value); mask |= DeviceParam::paperCutRightMask; } else if (0 == strcmp(OPTION_TITLE_SMQYSCmm, desp->title)) { devParam.paperCutTop = SANE_UNFIX(value); mask |= DeviceParam::paperCutTopMask; } else if (0 == strcmp(OPTION_TITLE_SMQYXCmm, desp->title)) { if (SANE_CONSTRAINT_RANGE == desp->constraint_type) { devParam.paperSizeHeight = SANE_UNFIX(desp->constraint.range->max); } devParam.paperCutBottom = SANE_UNFIX(value); mask |= DeviceParam::paperCutBottomMask; } } else if (SANE_TYPE_BOOL == desp->type) { SANE_Bool value = 0; sane_control_option(hdev, i, SANE_ACTION_GET_VALUE, &value, NULL); if (0 == strcmp(OPTION_TITLE_ZDJP, desp->title)) { devParam.autoCrop = (bool)value; mask |= DeviceParam::autoCropMask; } else if (0 == strcmp(OPTION_TITLE_ZDYSMQY, desp->title)) { devParam.paperCutEnabled = (bool)value; mask |= DeviceParam::paperCutEnabledMask; } } } HGUInt stdMask = DeviceParam::colorModeMask | DeviceParam::pageModeMask | DeviceParam::resolutionMask | DeviceParam::brightnessMask | DeviceParam::contrastMask | DeviceParam::gammaMask | DeviceParam::paperSizeMask | DeviceParam::paperCutEnabledMask | DeviceParam::paperCutLeftMask | DeviceParam::paperCutTopMask | DeviceParam::paperCutRightMask | DeviceParam::paperCutBottomMask | DeviceParam::autoCropMask; if (mask != stdMask) { return -1; } return 0; } int ManagerV2::SaveImage(int imageIndex, std::string& imagePath) { imagePath.clear(); if (NULL == m_sqlite) return -1; int rc = -1; sqlite3_stmt* stmt = NULL; char sql[256]; sprintf(sql, "select * from 'table_%s'", m_currBatchId.c_str()); int ret = sqlite3_prepare(m_sqlite, sql, -1, &stmt, NULL); assert(0 == ret); ret = sqlite3_step(stmt); while (SQLITE_ROW == ret) { int idx = sqlite3_column_int(stmt, 1); if (idx == imageIndex) { std::string imgFmt = (const char*)sqlite3_column_text(stmt, 2); const void* imgData = sqlite3_column_blob(stmt, 4); int imgSize = sqlite3_column_bytes(stmt, 4); HGChar tmpPath[256]; HGBase_GetTmpFileName(imgFmt.c_str(), tmpPath, 256); if (SaveToFile((const HGByte*)imgData, imgSize, tmpPath)) { imagePath = tmpPath; rc = 0; } break; } ret = sqlite3_step(stmt); } ret = sqlite3_finalize(stmt); assert(0 == ret); return rc; } HGByte* ManagerV2::LoadImageFromPath(const std::string& imagePath, HGUInt& size, std::string& format) { size = 0; format.clear(); HGUInt imgType = 0; HGImgFmt_GetImgFmtType(imagePath.c_str(), &imgType); if (0 == imgType) return NULL; std::string imgFormat; if (HGIMGFMT_TYPE_JPEG == imgType) imgFormat = "jpg"; else if (HGIMGFMT_TYPE_BMP == imgType) imgFormat = "bmp"; else if (HGIMGFMT_TYPE_PNG == imgType) imgFormat = "png"; else if (HGIMGFMT_TYPE_TIFF == imgType) imgFormat = "tif"; else if (HGIMGFMT_TYPE_PDF == imgType) imgFormat = "pdf"; else if (HGIMGFMT_TYPE_OFD == imgType) imgFormat = "ofd"; if (imgFormat.empty()) return NULL; HGByte* imgData = NULL; HGUInt imgSize = 0; FILE* file = fopen(imagePath.c_str(), "rb"); if (NULL != file) { fseek(file, 0, SEEK_END); imgSize = ftell(file); fseek(file, 0, SEEK_SET); if (imgSize > 0) { imgData = new HGByte[imgSize]; HGUInt readLen = (HGUInt)fread(imgData, 1, imgSize, file); if (readLen != imgSize) { delete[] imgData; imgData = NULL; imgSize = 0; } } fclose(file); } if (NULL == imgData) return NULL; size = imgSize; format = imgFormat; return imgData; } HGByte* ManagerV2::LoadImageFromBase64(const std::string& imageBase64, HGUInt& size, std::string& format) { size = 0; format.clear(); size_t pos = imageBase64.find(','); if (std::string::npos == pos) return NULL; std::string imgFormat; std::string prefix = imageBase64.substr(0, pos + 1); if ("data:image/jpeg;base64," == prefix) imgFormat = "jpg"; else if ("data:image/bmp;base64," == prefix) imgFormat = "bmp"; else if ("data:image/png;base64," == prefix) imgFormat = "png"; else if ("data:image/tiff;base64," == prefix) imgFormat = "tif"; else if ("data:image/pdf;base64," == prefix) imgFormat = "pdf"; else if ("data:image/ofd;base64," == prefix) imgFormat = "ofd"; if (imgFormat.empty()) return NULL; HGByte* imgData = NULL; HGSize imgSize = 0; const HGChar* base64Data = imageBase64.c_str() + pos + 1; HGSize base64Size = (HGSize)strlen(base64Data); HGBase_Base64Decode((const HGByte*)base64Data, (HGSize)base64Size, NULL, &imgSize); if (0 != imgSize) { imgData = new HGByte[imgSize]; HGBase_Base64Decode((const HGByte*)base64Data, (HGSize)base64Size, imgData, &imgSize); } if (NULL == imgData) return NULL; size = imgSize; format = imgFormat; return imgData; } HGByte* ManagerV2::LoadThumbFromPath(const std::string& imagePath, HGUInt& size) { size = 0; HGUInt imgType = 0; HGImgFmt_GetImgFmtType(imagePath.c_str(), &imgType); if (0 == imgType) return NULL; HGImage img = NULL; HGImgFmt_LoadImage(imagePath.c_str(), imgType, NULL, 0, HGBASE_IMGORIGIN_TOP, &img); if (NULL == img) return NULL; HGImageInfo imgInfo; HGBase_GetImageInfo(img, &imgInfo); HGUInt width = imgInfo.width; HGUInt height = imgInfo.height; if (width >= height) { if (width > 240) { width = 240; height = HGMAX((HGUInt)(240.0 * imgInfo.height / imgInfo.width + 0.5), 1); } } else { if (height > 240) { height = 240; width = HGMAX((HGUInt)(240.0 * imgInfo.width / imgInfo.height + 0.5), 1); } } HGImage img2 = NULL; HGBase_CreateImage(width, height, imgInfo.type, HGBASE_IMGORIGIN_TOP, &img2); if (NULL == img2) { HGBase_DestroyImage(img); return NULL; } HGImgProc_ResizeImage(img, img2, HGIMGPROC_INTERPOTYPE_NN); HGBase_DestroyImage(img); HGChar tmpName[256]; HGBase_GetTmpFileName(NULL, tmpName, 256); HGResult ret = HGImgFmt_SaveImage(img2, imgType, NULL, tmpName); HGBase_DestroyImage(img2); if (HGBASE_ERR_OK != ret) { return NULL; } HGByte* imgData = NULL; HGUInt imgSize = 0; FILE* file = fopen(tmpName, "rb"); if (NULL != file) { fseek(file, 0, SEEK_END); imgSize = ftell(file); fseek(file, 0, SEEK_SET); if (imgSize > 0) { imgData = new HGByte[imgSize]; HGUInt readLen = (HGUInt)fread(imgData, 1, imgSize, file); if (readLen != imgSize) { delete[] imgData; imgData = NULL; imgSize = 0; } } fclose(file); } HGBase_DeleteFile(tmpName); if (NULL == imgData) return NULL; size = imgSize; return imgData; } HGByte* ManagerV2::LoadThumbFromBase64(const std::string& imageBase64, HGUInt& size) { size = 0; size_t pos = imageBase64.find(','); if (std::string::npos == pos) return NULL; HGChar tmpName[256]; HGBase_GetTmpFileName(NULL, tmpName, 256); if (0 != SaveBase64(imageBase64.c_str() + pos + 1, tmpName)) return NULL; HGByte* data = LoadThumbFromPath(tmpName, size); HGBase_DeleteFile(tmpName); return data; } bool ManagerV2::SaveToBase64(const HGByte* data, HGUInt size, std::string& base64) { assert(NULL != data && 0 != size); base64.clear(); HGSize base64Size = 0; HGBase_Base64Encode(data, size, NULL, &base64Size); uint8_t* p = new uint8_t[base64Size + 1]; HGBase_Base64Encode(data, size, p, &base64Size); p[base64Size] = 0; base64 = (const char*)p; delete[] p; return true; } bool ManagerV2::SaveToFile(const HGByte* data, HGUInt size, const std::string& filePath) { assert(NULL != data && 0 != size); bool ret = false; FILE* file = fopen(filePath.c_str(), "wb"); if (NULL != file) { size_t writeLen = fwrite(data, 1, size, file); if (writeLen == (size_t)size) ret = true; fclose(file); } if (!ret) HGBase_DeleteFile(filePath.c_str()); return ret; } void ManagerV2::GetBatchTableInfo(std::vector& tables) { tables.clear(); char** result = NULL; char sql[256]; sprintf(sql, "select id, idx, format from 'table_%s'", m_currBatchId.c_str()); int rows, cols; int ret = sqlite3_get_table(m_sqlite, sql, &result, &rows, &cols, NULL); assert(0 == ret); for (int i = 0; i < rows; i++) { BatchTableInfo info; for (int j = 0; j < cols; j++) { if (0 == strcmp("id", result[j])) { info.id = atoi(result[(i + 1) * cols + j]); } else if (0 == strcmp("idx", result[j])) { info.idx = atoi(result[(i + 1) * cols + j]); } else if (0 == strcmp("format", result[j])) { info.format = result[(i + 1) * cols + j]; } } tables.push_back(info); } sqlite3_free_table(result); std::sort(tables.begin(), tables.end(), BatchTableSort); } void ManagerV2::ClearBindFolder() { assert(!m_bindFolder.empty()); char szFind[MAX_PATH]; sprintf(szFind, "%s*.*", m_bindFolder.c_str()); WIN32_FIND_DATAA FindFileData; HANDLE hFind = FindFirstFileA(szFind, &FindFileData); if (INVALID_HANDLE_VALUE == hFind) return; do { if (0 == (FindFileData.dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY)) { char fileName[MAX_PATH]; sprintf(fileName, "%s%s", m_bindFolder.c_str(), FindFileData.cFileName); HGBase_DeleteFile(fileName); } } while (FindNextFileA(hFind, &FindFileData)); FindClose(hFind); } void ManagerV2::UpdateBindFolder() { assert(!m_bindFolder.empty()); if (NULL == m_sqlite) return; sqlite3_stmt* stmt = NULL; char sql[256]; sprintf(sql, "select * from 'table_%s'", m_currBatchId.c_str()); int ret = sqlite3_prepare(m_sqlite, sql, -1, &stmt, NULL); assert(0 == ret); ret = sqlite3_step(stmt); while (SQLITE_ROW == ret) { int idx = sqlite3_column_int(stmt, 1); std::string imgFmt = (const char*)sqlite3_column_text(stmt, 2); const void* imgData = sqlite3_column_blob(stmt, 4); int imgSize = sqlite3_column_bytes(stmt, 4); char fmt[24]; sprintf(fmt, "%%s%%0%dd.%%s", m_bindNameWidth); char imagePath[256]; sprintf(imagePath, fmt, m_bindFolder.c_str(), m_bindNameBase + idx, imgFmt.c_str()); HGBase_CreateDir(m_bindFolder.c_str()); SaveToFile((const HGByte*)imgData, imgSize, imagePath); ret = sqlite3_step(stmt); } ret = sqlite3_finalize(stmt); assert(0 == ret); } void ManagerV2::InsertBindFolderImage(const std::vector& tables, int insertPos, const std::string imgFmt, const HGByte* imgData, HGUInt imgSize) { assert(!m_bindFolder.empty()); char fmt[24]; sprintf(fmt, "%%s%%0%dd.%%s", m_bindNameWidth); for (int i = (int)tables.size() - 1; i >= 0; --i) { if (tables[i].idx >= insertPos) { char fileName[256]; sprintf(fileName, fmt, m_bindFolder.c_str(), m_bindNameBase + tables[i].idx, tables[i].format.c_str()); char destName[256]; sprintf(destName, fmt, m_bindFolder.c_str(), m_bindNameBase + tables[i].idx + 1, tables[i].format.c_str()); MoveFileA(fileName, destName); } } char fileName[256]; sprintf(fileName, fmt, m_bindFolder.c_str(), m_bindNameBase + insertPos, imgFmt.c_str()); SaveToFile(imgData, imgSize, fileName); } void ManagerV2::ModifyBindFolderImage(const std::vector& tables, int imageIndex, const std::string imgFmt, const HGByte* imgData, HGUInt imgSize) { assert(!m_bindFolder.empty()); char fmt[24]; sprintf(fmt, "%%s%%0%dd.%%s", m_bindNameWidth); std::string oldFormat; for (int i = 0; i < (int)tables.size(); ++i) { if (tables[i].idx == imageIndex) { oldFormat = tables[i].format; break; } } char oldFileName[256]; sprintf(oldFileName, fmt, m_bindFolder.c_str(), m_bindNameBase + imageIndex, oldFormat.c_str()); HGBase_DeleteFile(oldFileName); char fileName[256]; sprintf(fileName, fmt, m_bindFolder.c_str(), m_bindNameBase + imageIndex, imgFmt.c_str()); SaveToFile(imgData, imgSize, fileName); } void ManagerV2::DeleteBindFolderImage(const std::vector& tables, const std::vector& imageIndexList) { assert(!m_bindFolder.empty()); char fmt[24]; sprintf(fmt, "%%s%%0%dd.%%s", m_bindNameWidth); for (int i = 0; i < (int)imageIndexList.size(); ++i) { for (int j = 0; j < (int)tables.size(); ++j) { if (tables[j].idx == imageIndexList[i]) { char fileName[256]; sprintf(fileName, fmt, m_bindFolder.c_str(), m_bindNameBase + tables[j].idx, tables[j].format.c_str()); HGBase_DeleteFile(fileName); break; } } } int value = 0; for (int i = 0; i < (int)tables.size(); ++i) { bool find = false; for (int j = 0; j < (int)imageIndexList.size(); ++j) { if (tables[i].idx == imageIndexList[j]) { find = true; break; } } if (find) { ++value; } else { if (value > 0) { char fileName[256]; sprintf(fileName, fmt, m_bindFolder.c_str(), m_bindNameBase + tables[i].idx, tables[i].format.c_str()); char destName[256]; sprintf(destName, fmt, m_bindFolder.c_str(), m_bindNameBase + tables[i].idx - value, tables[i].format.c_str()); MoveFileA(fileName, destName); } } } } void ManagerV2::ExchangeBindFolderImage(const std::vector& tables, int imageIndex1, int imageIndex2) { assert(!m_bindFolder.empty()); char fmt[24]; sprintf(fmt, "%%s%%0%dd.%%s", m_bindNameWidth); std::string format1, format2; for (int i = 0; i < (int)tables.size(); ++i) { if (tables[i].idx == imageIndex1) format1 = tables[i].format; else if (tables[i].idx == imageIndex2) format2 = tables[i].format; } char fileName1[256]; sprintf(fileName1, fmt, m_bindFolder.c_str(), m_bindNameBase + imageIndex1, format1.c_str()); char TmpFileName[256]; sprintf(TmpFileName, "%sTemp", m_bindFolder.c_str()); MoveFileA(fileName1, TmpFileName); char fileName2[256]; sprintf(fileName2, fmt, m_bindFolder.c_str(), m_bindNameBase + imageIndex2, format2.c_str()); char fileName2Dest[256]; sprintf(fileName2Dest, fmt, m_bindFolder.c_str(), m_bindNameBase + imageIndex1, format2.c_str()); MoveFileA(fileName2, fileName2Dest); char fileName1Dest[256]; sprintf(fileName1Dest, fmt, m_bindFolder.c_str(), m_bindNameBase + imageIndex2, format1.c_str()); MoveFileA(TmpFileName, fileName1Dest); } void ManagerV2::ClearBindFolderImageList(const std::vector& tables) { assert(!m_bindFolder.empty()); char fmt[24]; sprintf(fmt, "%%s%%0%dd.%%s", m_bindNameWidth); for (int i = 0; i < (int)tables.size(); ++i) { char fileName[256]; sprintf(fileName, fmt, m_bindFolder.c_str(), m_bindNameBase + tables[i].idx, tables[i].format.c_str()); HGBase_DeleteFile(fileName); } } int ManagerV2::sane_ex_callback(SANE_Handle hdev, int code, void* data, unsigned int* len, void* param) { (void)hdev; (void)len; ManagerV2* p = (ManagerV2*)param; switch (code) { case SANE_EVENT_DEVICE_ARRIVED: { SANE_Device* sane_dev = (SANE_Device*)data; HGBase_WriteInfo(HGBASE_INFOTYPE_DESC, "SANE_EVENT_DEVICE_ARRIVED, name=%s", Utf8ToStdString(sane_dev->name).c_str()); HGBase_EnterLock(p->m_lock); p->m_devNameList.push_back(sane_dev->name); if (NULL != p->m_saneEvent) p->m_saneEvent(SANEEVENT_ARRIVE, sane_dev->name, false, p->m_saneParam); HGBase_LeaveLock(p->m_lock); } break; case SANE_EVENT_DEVICE_LEFT: { SANE_Device* sane_dev = (SANE_Device*)data; HGBase_WriteInfo(HGBASE_INFOTYPE_DESC, "SANE_EVENT_DEVICE_LEFT, name=%s", Utf8ToStdString(sane_dev->name).c_str()); CloseDevParam* closeDevParam = new CloseDevParam; closeDevParam->mgr = p; closeDevParam->devName = sane_dev->name; HGMsg msg; msg.id = MSGID_CLOSE_DEVICE; msg.data = closeDevParam; if (HGBASE_ERR_OK != HGBase_PostPumpMessage(p->m_msgPump, &msg)) { delete closeDevParam; } HGBase_EnterLock(p->m_lock); for (int i = 0; i < (int)p->m_devNameList.size(); ++i) { if (0 == strcmp(sane_dev->name, p->m_devNameList[i].c_str())) { p->m_devNameList.erase(p->m_devNameList.begin() + i); break; } } if (NULL != p->m_saneEvent) p->m_saneEvent(SANEEVENT_REMOVE, sane_dev->name, false, p->m_saneParam); HGBase_LeaveLock(p->m_lock); } break; case SANE_EVENT_WORKING: { HGBase_WriteInfo(HGBASE_INFOTYPE_DESC, "SANE_EVENT_WORKING, msg=%s", Utf8ToStdString((char*)data).c_str()); HGBase_EnterLock(p->m_lock); if (NULL != p->m_saneEvent) p->m_saneEvent(SANEEVENT_WORKING, (const char*)data, false, p->m_saneParam); HGBase_LeaveLock(p->m_lock); } break; case SANE_EVENT_SCAN_FINISHED: { HGBase_WriteInfo(HGBASE_INFOTYPE_DESC, "SANE_EVENT_SCAN_FINISHED, msg=%s", Utf8ToStdString((char*)data).c_str()); HGBase_SetEvent(p->m_scanEvent); ScanFinishParam* scanFinishParam = new ScanFinishParam; scanFinishParam->mgr = p; HGMsg msg; msg.id = MSGID_SCAN_FINISH; msg.data = scanFinishParam; if (HGBASE_ERR_OK != HGBase_PostPumpMessage(p->m_msgPump, &msg)) { delete scanFinishParam; } HGBase_EnterLock(p->m_lock); if (NULL != p->m_saneEvent) p->m_saneEvent(SANEEVENT_FINISH, (const char*)data, (0 != *len), p->m_saneParam); HGBase_LeaveLock(p->m_lock); } break; case SANE_EVENT_STATUS: { HGBase_WriteInfo(HGBASE_INFOTYPE_DESC, "SANE_EVENT_STATUS, msg=%s", Utf8ToStdString((char*)data).c_str()); HGBase_EnterLock(p->m_lock); if (NULL != p->m_saneEvent) p->m_saneEvent(SANEEVENT_STATUS, (const char*)data, false, p->m_saneParam); HGBase_LeaveLock(p->m_lock); } break; case SANE_EVENT_ERROR: { HGBase_WriteInfo(HGBASE_INFOTYPE_DESC, "SANE_EVENT_ERROR, msg=%s", Utf8ToStdString((char*)data).c_str()); HGBase_EnterLock(p->m_lock); if (NULL != p->m_saneEvent) p->m_saneEvent(SANEEVENT_ERROR, (const char*)data, (0 != *len), p->m_saneParam); HGBase_LeaveLock(p->m_lock); } break; case SANE_EVENT_IMAGE_OK: { HGBase_WriteInfo(HGBASE_INFOTYPE_DESC, "SANE_EVENT_IMAGE_OK"); SANE_Image* sane_img = (SANE_Image*)data; HGUInt imgType = 0; if (sane_img->header.format == SANE_FRAME_GRAY) { if (1 == sane_img->header.depth) imgType = HGBASE_IMGTYPE_BINARY; else if (8 == sane_img->header.depth) imgType = HGBASE_IMGTYPE_GRAY; } else if (sane_img->header.format == SANE_FRAME_RGB) imgType = HGBASE_IMGTYPE_RGB; HGByte* data = sane_img->data; HGImageInfo imgInfo = { (HGUInt)sane_img->header.pixels_per_line, (HGUInt)sane_img->header.lines, imgType, (HGUInt)sane_img->header.bytes_per_line, HGBASE_IMGORIGIN_TOP }; HGImage img = NULL; HGBase_CreateImageFromData(data, &imgInfo, NULL, 0, HGBASE_IMGORIGIN_TOP, &img); if (NULL != img) { HGBase_EnterLock(p->m_lock); std::string imagePath; int ret = p->SaveImage(img, imagePath); if (0 == ret) { p->m_saveFilePathList.push_back(imagePath); RestoreSaveFilePathList(p->m_saveFilePathList); if (NULL != p->m_saneImageCallback) p->m_saneImageCallback(imagePath.c_str(), p->m_saneImageParam); } HGBase_LeaveLock(p->m_lock); HGBase_DestroyImage(img); } } break; } return 0; } }