#include "stdafx.h" #ifdef max #undef max #endif #ifdef min #undef min #endif #include #include "huagaods.hpp" #include "twglue.hpp" #include "resource.h" #include "CTwainUI.h" #include "CIndicatorDlg.h" #include "Device/PublicFunc.h" #include "Device/GScanO200.h" #include "Device/filetools.h" #include "Device/GScanVirtual.h" #include #include #include #include "GscanJsonConfig.h" #include "G4Tiff.h" //custom define caps enum enum class CapTypeEx : unsigned short { Base = 0x8000,//custom caps enum value must bigger than CapTypeEx::Base value,otherwise might make conflict TwEx_IMultiOutputRed = 0x8026, TwEx_IFillHole = 0x8018, TwEx_IFillHoleRatio = 0x8092, TwEx_IFillBackground = 0x8004, TwEx_IBackRotate180 = 0x8005, TwEx_IAutoDiscardBlankVince = 0x8091, TwEx_IEnhanceColor = 0x8007, TwEx_HardwareVersion = 0x8025, TwEx_ScrewDetectEnable = 0x8006, TwEx_ScrewLevel = 0x8021, TwEx_Sharpen = 0x8022, TwEx_DBAreaNum = 0x8027, TwEx_DBDevnMax = 0x8028, TwEx_StableDetectEnable = 0x8090, TwEx_UVModel = 0x8093, TwEx_SwitchFrontBack = 0x8094, TwEx_HsvCorrect = 0x8095, TwEx_DogEarDelection=0x8096, }; using namespace Twpp; using namespace std::placeholders; #define TWPP_ENTRY_MFC(SourceClass)\ extern "C" TWPP_DETAIL_EXPORT Twpp::ReturnCode TWPP_DETAIL_CALLSTYLE \ DS_Entry(Twpp::Identity* origin, Twpp::DataGroup dg, Twpp::Dat dat, Twpp::Msg msg, void* data){\ AFX_MANAGE_STATE(AfxGetStaticModuleState()); \ static_assert(\ std::is_base_of, SourceClass>::value ||\ std::is_base_of, SourceClass>::value,\ "Class " #SourceClass " is not derived from SourceFromThis."\ );\ return SourceClass::entry(origin, dg, dat, msg, data);\ } TWPP_ENTRY_MFC(HuagaoDs) static constexpr const Identity srcIdent( Version(3, 3, Language::English, Country::China, "v3.3.2.4"), DataGroup::Image, #ifdef MAKEHUAGAO "HUAGO", #elif defined LANXUM "LANXUM", #else // MAKEHUAGAO "ZHIBEN", #endif #ifdef G200 #ifdef ISG100 "G100 Series", #else // ISG100 "G200 Series", #endif #elif defined(G300) // G200 #ifdef LANXUM "G4260F Series", #else // ISG100 "G300 Series", #endif #elif defined(G400) // G200 "G400 Series", #endif #ifdef G200 #ifdef ISG100 #ifndef MAKEHUAGAO "ZhibenScan G100 TWAIN" #else // !MAKEHUAGAO "HUAGOSCAN G100 TWAIN" #endif #else // ISG100 #ifndef MAKEHUAGAO "ZhibenScan G200 TWAIN" #else // !MAKEHUAGAO "HUAGOSCAN G200 TWAIN" #endif #endif #elif defined G300 // G200 #ifdef MAKEHUAGAO "HUAGOSCAN G300 TWAIN" #elif defined LANXUM //!LANXUM "LANXUM G4260F TWAIN" #else // !MAKEHUAGAO "ZhibenScan G300 TWAIN" #endif #elif defined(G400) // G200 #ifndef MAKEHUAGAO "ZhibenScan G400 TWAIN" #else // !MAKEHUAGAO "HUAGOSCAN G400 TWAIN" #endif #endif #if defined(_MSC_VER) "" #elif defined(__GNUC__) " GCC" #elif defined(__clang__) " CLang" #endif ); // lets just simulate uniform resolution for both axes static constexpr UInt32 RESOLUTIONX = 85; //static std::unique_ptr application(new CWinApp()); static list resList = { 100.0,150.0,200.0,240.0,300.0,600.0 }; //区分G200 G300、G400纸张幅面 #ifdef G200 static list paperSizeList = { (UInt16)PaperSize::A3,(UInt16)PaperSize::A4,(UInt16)PaperSize::A5,(UInt16)PaperSize::A6, (UInt16)PaperSize::IsoB4,(UInt16)PaperSize::IsoB5,(UInt16)PaperSize::IsoB6, (UInt16)PaperSize::UsLetter,(UInt16)PaperSize::UsLegal,(UInt16)PaperSize::UsLedger, (UInt16)PaperSize::MaxSize,(UInt16)PaperSize::None,(UInt16)PaperSize::UsStatement }; #elif defined G300 static list paperSizeList = { (UInt16)PaperSize::A4,(UInt16)PaperSize::A5,(UInt16)PaperSize::A6, (UInt16)PaperSize::IsoB5,(UInt16)PaperSize::IsoB6, (UInt16)PaperSize::UsLetter,(UInt16)PaperSize::UsLegal,(UInt16)PaperSize::None }; #elif defined G400 static list paperSizeList = { (UInt16)PaperSize::A3,(UInt16)PaperSize::A4,(UInt16)PaperSize::A5,(UInt16)PaperSize::A6, (UInt16)PaperSize::IsoB4,(UInt16)PaperSize::IsoB5,(UInt16)PaperSize::IsoB6, (UInt16)PaperSize::UsLetter,(UInt16)PaperSize::UsLegal,(UInt16)PaperSize::UsLedger, (UInt16)PaperSize::MaxSize,(UInt16)PaperSize::None,(UInt16)PaperSize::UsStatement }; #endif // G200 static list imageRotateList = { 0.0,90.0,180.0,270.0 }; enum class DeviceEventType : UInt16 { CustomEvents = 0x8000, Dev_OPENCOVER, Dev_NOFEED, Dev_FEEDERROR, Dev_STABLE, Dev_SKREW, Dev_COUNTMOE, Dev_HARDWAREERROR, Dev_FPGAERROR, Dev_UserStop, Dev_DogEar }; static map mapDeviceEvent = { {OPEN_COVER,(DeviceEvent::Type)(DeviceEventType::Dev_OPENCOVER)}, {NO_FEED,(DeviceEvent::Type)(DeviceEventType::Dev_NOFEED)}, {FEED_IN_ERROR,(DeviceEvent::Type)(DeviceEventType::Dev_FEEDERROR)}, {PAPER_JAM,DeviceEvent::Type::PaperJam}, {DETECT_DOUBLE_FEED,DeviceEvent::Type::PaperDoubleFeed}, {DETECT_STAPLE,(DeviceEvent::Type)(DeviceEventType::Dev_STABLE)}, {PAPER_SKEW,(DeviceEvent::Type)(DeviceEventType::Dev_SKREW)}, {COUNT_MODE,(DeviceEvent::Type)(DeviceEventType::Dev_COUNTMOE)}, {HARDWARE_ERROR,(DeviceEvent::Type)(DeviceEventType::Dev_HARDWAREERROR)}, {FPGA_ERROR,(DeviceEvent::Type)(DeviceEventType::Dev_FPGAERROR)}, {USB_DISCONNECTED,DeviceEvent::Type::CheckDeviceOnline}, {USER_STOP,(DeviceEvent::Type)(DeviceEventType::Dev_UserStop)}, {DOG_EAR,(DeviceEvent::Type)(DeviceEventType::Dev_DogEar)} }; static void DeleteWnd(CDialog* pWnd) { if (pWnd && pWnd->GetSafeHwnd()) { if(pWnd->m_hWnd) DestroyWindow(pWnd->m_hWnd); } } static std::unique_ptr guiTwain(nullptr, DeleteWnd); #if TWPP_DETAIL_OS_WIN static std::unique_ptr guiBridge(nullptr, DeleteWnd); #endif //static std::unique_ptr guiIndicator(nullptr, DeleteWnd); static CIndicatorDlg* guiIndicator =NULL; //#define HG_VIRTUAL #ifndef HG_VIRTUAL static std::unique_ptr scanner; //(new GScanO200()); #else static std::unique_ptr scanner(new GScanVirtual()); #endif HuagaoDs::HuagaoDs() : m_scanparam(new GScanCap) ,bmpData(new std::vector) , hMutex(NULL) { /*string ss1= getOSInfo(); string ss2=getManufactureID(); string ss3=getCpuType(); string ss4= getMemoryInfo(); DWORD dwNum; CString aas[10]; GetDiskInfo(dwNum,aas);*/ } HuagaoDs::~HuagaoDs() { if(scanner.get()) scanner.reset(); } const Identity& HuagaoDs::defaultIdentity() noexcept { // remember, we return a reference, therefore the identity must not be placed on the stack of this method return srcIdent; } Result HuagaoDs::call(const Identity& origin, DataGroup dg, Dat dat, Msg msg, void* data) { try { // we can override almost anything from SourceFromThis, even the top-most source instance call return Base::call(origin, dg, dat, msg, data); } catch (const CapabilityException&) { return badValue(); } } Result HuagaoDs::customDataGet(const Twpp::Identity& origin, Twpp::CustomData& data) { //从保存默认配置的文件路径读取字节流上传 TCHAR szIniFile[MAX_PATH] = { 0 }; SHGetSpecialFolderPath(NULL, szIniFile, CSIDL_LOCAL_APPDATA, TRUE); _tcscat(szIniFile, HUAGAO_SCAN); _tcscat(szIniFile, TWAIN_INIPATH); _tcscat(szIniFile, TEXT("\\")); _tcscat(szIniFile, TWAIN_JSON_NAME); string path = TCHAR2STRING(szIniFile); int t; FILE* file = fopen(path.c_str(), "rb"); fseek(file, 0, SEEK_END); t = ftell(file); //data = CustomData(t); std::string buf(t, 0); fseek(file, 0, SEEK_SET); fread((void*)buf.c_str(), t, 1, file); fclose(file); data = CustomData(t); auto pdata = data.lock(); memcpy(pdata.data(), buf.c_str(), t); return success(); } Result HuagaoDs::customDataSet(const Twpp::Identity& origin, Twpp::CustomData& data) { GScanCap sc; //将字节流转GscanCaps GscanJsonConfig js; std::string str; str.resize(data.size()); auto pdata = data.lock(); memcpy((void*)str.c_str(), pdata, data.size()); vector vc = js.parseJsonFromString(str); m_scanparam.reset(new GScanCap(vc[0])); return success(); } // some helper functions to handle capability stuff template static Result oneValGet(Msg msg, Capability& data, const T& value) { switch (msg) { case Msg::Get: case Msg::GetCurrent: case Msg::GetDefault: data = Capability::createOneValue(data.type(), value); return {}; default: return { ReturnCode::Failure, ConditionCode::CapBadOperation }; } } static Result oneValGetString(Msg msg, Capability& data, std::string value) { Str255 str; str.setData(value.c_str(), value.size()); return oneValGet(msg, data, str); } template static Result enmGet(Msg msg, Capability& data, const T& value) { switch (msg) { case Msg::Get: data = Capability::createEnumeration(data.type(), { value }); return {}; case Msg::GetCurrent: case Msg::GetDefault: data = Capability::createOneValue(data.type(), value); return {}; default: return { ReturnCode::Failure, ConditionCode::CapBadOperation }; } } template static Result oneValGetSet(Msg msg, Capability& data, T& value, const T& def) { switch (msg) { case Msg::Reset: value = def; // fallthrough case Msg::Get: case Msg::GetCurrent: data = Capability::createOneValue(data.type(), value); return {}; case Msg::GetDefault: data = Capability::createOneValue(data.type(), def); return {}; case Msg::Set: value = data.currentItem(); return {}; default: return { ReturnCode::Failure, ConditionCode::CapBadOperation }; } } template static Result oneValGetSetConst(Msg msg, Capability& data, const T& def) { switch (msg) { case Msg::Get: case Msg::GetCurrent: case Msg::GetDefault: case Msg::Reset: data = Capability::createOneValue(data.type(), def); return {}; case Msg::Set: return data.currentItem() == def ? Result() : Result(ReturnCode::Failure, ConditionCode::BadValue); default: return { ReturnCode::Failure, ConditionCode::CapBadOperation }; } } template static Result enmGetSetConst(Msg msg, Capability& data, const T& def) { switch (msg) { case Msg::Get: data = Capability::createEnumeration(data.type(), { def }); return {}; case Msg::GetCurrent: case Msg::GetDefault: case Msg::Reset: data = Capability::createOneValue(data.type(), def); return {}; case Msg::Set: return data.currentItem() == def ? Result() : Result(ReturnCode::Failure, ConditionCode::BadValue); default: return { ReturnCode::Failure, ConditionCode::CapBadOperation }; } } /// Shortcut for Result(RC::Failure, CC::CheckDeviceOnline). static constexpr Result checkDeviceOnline() noexcept { return { ReturnCode::Failure,ConditionCode::CheckDeviceOnline }; } Result HuagaoDs::capCommon(const Identity&, Msg msg, Capability& data) { auto it = m_caps.find(data.type()); if (it != m_caps.end()) { return (it->second)(msg, data); } return capUnsupported(); } Result HuagaoDs::capabilityGet(const Identity& origin, Capability& data) { return capCommon(origin, Msg::Get, data); } Result HuagaoDs::capabilityGetCurrent(const Identity& origin, Capability& data) { return capCommon(origin, Msg::GetCurrent, data); } Result HuagaoDs::capabilityGetDefault(const Identity& origin, Capability& data) { return capCommon(origin, Msg::GetDefault, data); } Result HuagaoDs::capabilityQuerySupport(const Identity&, Capability& data) { auto it = m_query.find(data.type()); MsgSupport sup = it != m_query.end() ? it->second : msgSupportEmpty; data = Capability::createOneValue(data.type(), sup); return success(); } Result HuagaoDs::capabilityReset(const Identity& origin, Capability& data) { return capCommon(origin, Msg::Reset, data); } Result HuagaoDs::capabilityResetAll(const Identity& origin) { for (auto& pair : m_query) { if ((pair.second & MsgSupport::Reset) != msgSupportEmpty) { Capability dummyCap(pair.first); capCommon(origin, Msg::Reset, dummyCap); } } return success(); } Result HuagaoDs::capabilitySet(const Identity& origin, Capability& data) { return capCommon(origin, Msg::Set, data); } Result HuagaoDs::eventProcess(const Identity&, Event& event) { // Qt needs to process its events, otherwise the GUI will appear frozen // this is Windows-only method, Linux and macOS behave differently if (guiTwain) { // // QApplication::processEvents(); - TODO: needs more investigation; results in freeze when attempting to scan using old DSM // QApplication::sendPostedEvents(); guiTwain->SendMessage((UINT)(event.message())); } event.setMessage(Msg::Null); return { ReturnCode::NotDsEvent, ConditionCode::Success }; } Twpp::Result HuagaoDs::deviceEventGet(const Twpp::Identity& origin, Twpp::DeviceEvent& data) { if (devEvent.size() > 0) { data = devEvent.front(); devEvent.pop(); return success(); } return seqError(); } //add------------------设置jpg图像dpi--------------------------- void HuagaoDs::SetResoluton(const char* path, int resolution) { FILE* file = fopen(path, "rb+"); if (!file) return; //获取文件大小 int len = _filelength(_fileno(file)); char* buf = new char[len]; fread(buf, sizeof(char), len, file); char* pResolution = (char*)&resolution; //设置使用图片密度单位 buf[0x0D] = 1; //水平密度,水平分辨率 buf[0x0E] = pResolution[1]; buf[0x0F] = pResolution[0]; //垂直密度,垂直分辨率 buf[0x10] = pResolution[1]; buf[0x11] = pResolution[0]; fseek(file, 0, SEEK_SET); //将数据写入文件,覆盖原始数据,让修改生效 fwrite(buf, sizeof(char), len, file); fclose(file); } void HuagaoDs::dogear_callback(int indexpaper) { CString text; text.Format(_T("74 %d"), indexpaper); ShellExecute(NULL, TEXT("open"), GetHidedlgPath(), text, NULL, SW_HIDE); scanner->Stop_scan(); //scanner->reset(); scanner->ResetScanner(); onDeviceEvent(DOG_EAR); } Result HuagaoDs::identityOpenDs(const Identity&) { //writelog("identityOpenDs"); if(!scanner.get()) scanner.reset(new GScanO200()); m_haveError = false; updataGscanCap(); bmpData->resize(sizeof(BITMAPFILEHEADER) + sizeof(BITMAPINFOHEADER)); BITMAPINFOHEADER& bmInfo = *((BITMAPINFOHEADER*)header()); bmInfo.biHeight = 2000; bmInfo.biWidth = 2000; bmInfo.biBitCount = m_scanparam->pixtype == 2 ? 24 : (m_scanparam->pixtype == 1 ? 8 : 0); m_iBitdepth = m_scanparam->pixtype == 2 ? 24 : (m_scanparam->pixtype == 1 ? 8 : 0); #ifdef LANXUM scanner->open(0x31c9, 0x8200); #else scanner->open(0x064B, 0x7823); #endif if (!scanner->IsConnected()) { ShellExecute(NULL, TEXT("open"), GetHidedlgPath(), CString("201"), NULL, SW_HIDE); return checkDeviceOnline(); } else { scanner->regist_deviceevent_callback(DeviceEvent_callback, this); scanner->DogEar_callback(std::bind(&HuagaoDs::dogear_callback, this, std::placeholders::_1)); } hMutex = CreateMutex(NULL, FALSE, _T("LookitApp")); if (GetLastError() == ERROR_ALREADY_EXISTS) { //如果已经存在同名的Mutex会得到这个错误. CloseHandle(hMutex); ShellExecute(NULL, TEXT("open"), GetHidedlgPath(), CString("202"), NULL, SW_HIDE); return seqError(); } // init caps // there are caps a minimal source must support // query -> says which operations a cap supports // caps -> has handler for each specific cap m_query[CapType::SupportedCaps] = msgSupportGetAll; m_caps[CapType::SupportedCaps] = [this](Msg msg, Capability& data) { switch (msg) { case Msg::Get: case Msg::GetCurrent: case Msg::GetDefault: { data = Capability::createArray(m_caps.size()); auto arr = data.array(); UInt32 i = 0; for (const auto& kv : m_caps) { arr[i] = kv.first; i++; } return success(); } default: return capBadOperation(); } }; m_query[CapType::UiControllable] = msgSupportGetAll; m_caps[CapType::UiControllable] = std::bind(enmGet, _1, _2, Bool(true)); m_query[CapType::DeviceOnline] = msgSupportGetAll; m_caps[CapType::DeviceOnline] = std::bind(enmGet, _1, _2, Bool(scanner->IsConnected())); m_query[CapType::XferCount] = msgSupportGetAllSetReset; m_caps[CapType::XferCount] = [this](Msg msg, Capability& data) -> Result { if (msg == Msg::Set) { auto item = data.currentItem(); if (item > 65535 || item < -1||item == 0) { return badValue(); } m_scanparam->scannum = item; return success(); } Int16 tmp_count = m_scanparam->scannum; auto ret = oneValGetSet(msg, data, tmp_count, -1); if (!Twpp::success(ret) && m_scanparam->scannum == 0) { m_scanparam->scannum = -1; return { ReturnCode::CheckStatus, ConditionCode::BadValue }; } return ret; }; m_query[CapType::ICompression] = msgSupportGetAllSetReset; //m_caps[CapType::ICompression] = std::bind(enmGetSetConst, _1, _2, Compression::None); m_caps[CapType::ICompression] = [this](Msg msg, Capability& data)->Result { switch (msg) { case Msg::Get: data = Capability::createEnumeration( { Compression::None, Compression::Group4 }, m_compression == Compression::None ? 0 : 1, 0); return success(); // fallthrough case Msg::GetCurrent: data = Capability::createOneValue(m_compression); return success(); case Msg::Reset: case Msg::GetDefault: m_compression = Compression::None; data = Capability::createOneValue(Compression::None); return success(); case Msg::Set: { auto mech = data.currentItem(); if (Compression::None == mech || mech == Compression::Group4) { m_compression = mech; return success(); } else { return badValue(); } } default: return capBadOperation(); } }; m_query[CapType::IBitDepth] = msgSupportGetAllSetReset; m_caps[CapType::IBitDepth] = [this](Msg msg, Capability& data) -> Result { switch (msg) { case Msg::Get: data = Capability::createOneValue(UInt16(m_iBitdepth)); return success(); case Msg::Reset: m_iBitdepth = 8; data = Capability::createOneValue(UInt16(m_iBitdepth)); return success(); break; case Msg::GetCurrent: data = Capability::createOneValue(UInt16(m_iBitdepth)); return success(); case Msg::GetDefault: data = Capability::createOneValue(24); return success(); case Msg::Set: { auto mech = data.currentItem(); if (mech == 1 || mech == 8 || mech == 24) { m_iBitdepth = (UINT16)mech; m_scanparam->pixtype = m_iBitdepth == 1 ? (int)PixelType::BlackWhite : (m_iBitdepth == 8 ? (int)PixelType::Gray : (int)PixelType::Rgb); return success(); } return badValue(); } default: return capBadOperation(); } }; m_query[CapType::IBitOrder] = msgSupportGetAllSetReset; m_caps[CapType::IBitOrder] = std::bind(enmGetSetConst, _1, _2, BitOrder::MsbFirst); m_query[CapType::IPlanarChunky] = msgSupportGetAllSetReset; m_caps[CapType::IPlanarChunky] = std::bind(enmGetSetConst, _1, _2, PlanarChunky::Chunky); m_query[CapType::IPhysicalWidth] = msgSupportGetAll; m_caps[CapType::IPhysicalWidth] = std::bind(oneValGet, _1, _2, Fix32(static_cast(header()->biWidth) / m_scanparam->resolution_dst)); m_query[CapType::IPhysicalHeight] = msgSupportGetAll; m_caps[CapType::IPhysicalHeight] = std::bind(oneValGet, _1, _2, Fix32(static_cast(header()->biHeight) / m_scanparam->resolution_dst)); m_query[CapType::IPixelFlavor] = msgSupportGetAllSetReset; m_caps[CapType::IPixelFlavor] = std::bind(enmGetSetConst, _1, _2, PixelFlavor::Chocolate); m_query[CapType::IPixelType] = msgSupportGetAllSetReset; m_caps[CapType::IPixelType] = [this](Msg msg, Capability& data) -> Result { switch (msg) { case Msg::Get: data = Capability::createEnumeration( { PixelType::BlackWhite, PixelType::Gray, PixelType::Rgb }, (int)(m_scanparam->pixtype), (int)PixelType::Gray); return success(); case Msg::GetCurrent: data = Capability::createOneValue((PixelType)(m_scanparam->pixtype)); return success(); case Msg::GetDefault: case Msg::Reset: m_scanparam->pixtype = (byte)PixelType::Gray; data = Capability::createOneValue(PixelType::Gray); return success(); case Msg::Set: { auto mech = data.currentItem(); if (mech == PixelType::Rgb || mech == PixelType::Gray || mech == PixelType::BlackWhite) { m_scanparam->pixtype = (int)mech; if (m_scanparam->pixtype == (int)PixelType::Rgb) { m_scanparam->filter = (byte)Filter::None; m_scanparam->enhance_color = (byte)Enchace_Color::Enhance_None; } else { m_scanparam->multi_output_red = 0;//非彩色模式下多流输出不可用 //if (m_scanparam->pixtype == (int)PixelType::BlackWhite) // m_scanparam->sharpen = SharpenBlur::Sharpen_None; } m_iBitdepth = mech == PixelType::Rgb ? 24 : (mech == PixelType::Gray ? 8 : 1); return success(); } return badValue(); } default: return capBadOperation(); } }; //add------------------jpeg质量等级--------------------- m_query[CapType::IJpegQuality] = msgSupportGetAllSetReset; m_caps[CapType::IJpegQuality] = [this](Msg msg, Capability& data)->Result { switch (msg) { case Msg::Get: case Msg::GetCurrent: data = Capability::createOneValue(CapType::IJpegQuality, (UInt16)m_jpegQuality); return success(); case Msg::Reset: case Msg::GetDefault: m_jpegQuality = 80; data = Capability::createOneValue(CapType::IJpegQuality, 80); return success(); case Msg::Set: { auto mech = data.currentItem(); if ((int)mech < 0 || (int)mech > 100) return badValue(); m_jpegQuality = (int)mech; return success(); } default: return capBadOperation(); } }; m_query[CapType::IUnits] = msgSupportGetAllSetReset; m_caps[CapType::IUnits] = std::bind(enmGetSetConst, _1, _2, Unit::Inches); m_query[CapType::IXferMech] = msgSupportGetAllSetReset; m_caps[CapType::IXferMech] = [this](Msg msg, Capability& data) -> Result { switch (msg) { case Msg::Get: data = Capability::createEnumeration( { XferMech::Native, XferMech::Memory, XferMech::File }, m_capXferMech == XferMech::Native ? 0 : (m_capXferMech == XferMech::Memory ? 1 : 2), 0); return success(); // fallthrough case Msg::GetCurrent: data = Capability::createOneValue(m_capXferMech); return success(); case Msg::GetDefault: case Msg::Reset: m_capXferMech = XferMech::Native; data = Capability::createOneValue(XferMech::Native); return success(); case Msg::Set: { auto mech = data.currentItem(); if (mech == XferMech::Native || mech == XferMech::Memory || mech == XferMech::File) { m_capXferMech = mech; return success(); } else { return badValue(); } } default: return capBadOperation(); } }; m_query[CapType::IXResolution] = msgSupportGetAllSetReset; m_caps[CapType::IXResolution] = [this](Msg msg, Capability& data) { switch (msg) { case Msg::Get: { int index = -1; std::list::iterator it = resList.begin(); int i = 0; for (it, i; it != resList.end(); ++it, i++) { if (*it == m_scanparam->resolution_dst) { index = i; break; } } data = Capability::createEnumeration(data.type(), { Fix32(100.0),Fix32(150.0),Fix32(200.0),Fix32(240.0),Fix32(300.0) }, index == -1 ? 2 : index, 2); return success(); } case Msg::GetCurrent: { data = Capability::createOneValue(data.type(), Fix32(m_scanparam->resolution_dst)); return success(); } case Msg::GetDefault: case Msg::Reset: { m_scanparam->resolution_dst = 200.0f; data = Capability::createOneValue(data.type(), Fix32(200.0)); return success(); } case Msg::Set: { auto res = data.currentItem(); std::list::iterator resIter = resList.begin(); bool contains = false; for (resIter; resIter != resList.end(); resIter++) { if (*resIter == res) { contains = true; break; } } if (contains) { m_scanparam->resolution_dst = (float)res; return success(); } return badValue(); } default: return capBadOperation(); } }; m_query[CapType::IYResolution] = msgSupportGetAllSetReset; m_caps[CapType::IYResolution] = m_caps[CapType::IXResolution]; m_query[CapType::IXNativeResolution] = msgSupportGetAll; m_caps[CapType::IXNativeResolution] = std::bind(enmGet, _1, _2, Fix32(200.0)); m_query[CapType::IYNativeResolution] = msgSupportGetAll; m_caps[CapType::IYNativeResolution] = m_caps[CapType::IXNativeResolution]; m_query[CapType::ISupportedSizes] = msgSupportGetAllSetReset; m_caps[CapType::ISupportedSizes] = [this](Msg msg, Capability& data) { switch (msg) { case Msg::Get: { int index = -1; std::list::iterator it = paperSizeList.begin(); int i = 0; for (it, i; it != paperSizeList.end(); ++it, i++) { if (*it == m_scanparam->papertype) { index = i; break; } } data = Capability::createEnumeration(data.type(), { (UInt16)PaperSize::A3,(UInt16)PaperSize::A4,(UInt16)PaperSize::A5,(UInt16)PaperSize::A6, (UInt16)PaperSize::IsoB5,(UInt16)PaperSize::IsoB6,(UInt16)PaperSize::UsLetter,(UInt16)PaperSize::UsLegal,(UInt16)PaperSize::None #ifndef G300 ,(UInt16)PaperSize::UsLedger,(UInt16)PaperSize::IsoB4, (UInt16)PaperSize::MaxSize,(UInt16)PaperSize::UsStatement #endif // }, index == -1 ? 0 : index, 0); return success(); } case Msg::GetCurrent: data = Capability::createOneValue(data.type(), UInt16(m_scanparam->papertype)); return success(); case Msg::GetDefault: case Msg::Reset: m_scanparam->papertype =(int)PaperSize::A3; data = Capability::createOneValue(data.type(), UInt16(PaperSize::A3)); return success(); case Msg::Set: { auto paper = data.currentItem(); std::list::iterator resIter = paperSizeList.begin(); bool contains = false; for (resIter; resIter != paperSizeList.end(); resIter++) { if (*resIter == paper) { contains = true; break; } } if (contains) { m_scanparam->papertype = (byte)paper; if (paper == (byte)PaperSize::None|| paper == (byte)PaperSize::UsStatement) m_scanparam->paperAlign = PaperAlign::Rot0; if(paper== (byte)PaperSize::UsStatement) { m_autosize = (UInt16)AutoSize::None; m_autoboarderdetcet = false; m_scanparam->is_autocrop = 0; } else { m_autosize = (paper == (byte)PaperSize::None) ? (UInt16)AutoSize::Auto : (UInt16)AutoSize::None; m_autoboarderdetcet = paper == (byte)PaperSize::None; m_scanparam->is_autocrop = paper == (byte)PaperSize::None ? 1 : 0; } return success(); } return badValue(); } default: return capBadOperation(); } }; m_query[CapType::IOrientation] = msgSupportGetAllSetReset; m_caps[CapType::IOrientation] = [this](Msg msg, Capability& data) -> Result { switch (msg) { case Msg::Get: data = Capability::createEnumeration( { Orientation::Portrait, Orientation::Landscape }, m_scanparam->paperAlign, 0); return success(); case Msg::GetCurrent: data = Capability::createOneValue((Orientation)(m_scanparam->paperAlign)); return success(); case Msg::Reset: case Msg::GetDefault: m_scanparam->paperAlign = PaperAlign::Rot0; data = Capability::createOneValue(Orientation::Portrait); return success(); case Msg::Set: { auto mech = data.currentItem(); if (mech == Orientation::Landscape || mech == Orientation::Portrait) { m_scanparam->paperAlign = (PaperAlign)mech; return success(); } return badValue(); } default: return capBadOperation(); } }; m_query[CapType::IRotation] = msgSupportGetAllSetReset; m_caps[CapType::IRotation] = [this](Msg msg, Capability& data) -> Result { switch (msg) { case Msg::Get: { int index = -1; std::list::iterator it = imageRotateList.begin(); int i = 0; for (it, i; it != imageRotateList.end(); ++it, i++) { if ((m_scanparam->imageRotateDegree + 1) >= *it && (m_scanparam->imageRotateDegree - 1) <= *it) { index = i; break; } } data = Capability::createEnumeration( { Fix32(0.0f),Fix32(90.0f),Fix32(180.0f),Fix32(270.0f) }, index == -1 ? 0 : index, 0); return success(); } case Msg::GetCurrent: data = Capability::createOneValue(Fix32(m_scanparam->imageRotateDegree)); return success(); case Msg::Reset: case Msg::GetDefault: m_scanparam->imageRotateDegree = 0.0f; data = Capability::createOneValue(Fix32(0.0f)); return success(); case Msg::Set: { auto res = data.currentItem(); std::list::iterator resIter = imageRotateList.begin(); bool contains = false; for (resIter; resIter != imageRotateList.end(); resIter++) { if (((float)res + 1) >= *resIter && ((float)res - 1) <= *resIter) { contains = true; break; } } if (contains) { m_scanparam->imageRotateDegree = (float)res; if (res != 0.0f) m_scanparam->is_autotext = 0; return success(); } return badValue(); } default: return capBadOperation(); } }; #ifndef G200 scanner->Get_Scanner_PaperOn(); //针对G300 G400 USB通信第一次无法read_bulk 起到激活USB的作用 #endif // !G200 m_query[CapType::SerialNumber] = msgSupportGetAll; //m_caps[CapType::SerialNumber] = std::bind(oneValGetString, _1, _2, scanner->GetSerialNum()); m_caps[CapType::SerialNumber] = [this](Msg msg, Capability& data)->Result { switch (msg) { case Msg::Get: case Msg::GetCurrent: case Msg::GetDefault: { std::string ser = scanner->GetSerialNum(); Str255 str; str.setData(ser.c_str(), ser.size()); data = Capability::createOneValue(str); return success(); } default: return capBadOperation(); } }; m_query[(CapType)(CapTypeEx::TwEx_HardwareVersion)] = msgSupportGetAll; //m_caps[(CapType)(CapTypeEx::TwEx_HardwareVersion)] = std::bind(oneValGetString, _1, _2, scanner->GetFWVersion()); m_caps[(CapType)(CapTypeEx::TwEx_HardwareVersion)] = [this](Msg msg, Capability& data)->Result { switch (msg) { case Msg::Get: case Msg::GetCurrent: case Msg::GetDefault: { std::string ser = scanner->GetFWVersion(); Str255 str; str.setData(ser.c_str(), ser.size()); data = Capability::createOneValue((CapType)(CapTypeEx::TwEx_HardwareVersion),str); return success(); } default: return capBadOperation(); } }; m_query[CapType::FeederLoaded] = msgSupportGetAll; m_caps[CapType::FeederLoaded] = [this](Msg msg, Capability& data) -> Result { switch (msg) { case Msg::Get: case Msg::GetCurrent: case Msg::GetDefault: data = Capability::createOneValue(Bool(scanner->Get_Scanner_PaperOn())); return success(); default: return capBadOperation(); } }; m_query[CapType::Indicators] = msgSupportGetAllSetReset; m_caps[CapType::Indicators] = [this](Msg msg, Capability& data) -> Result { switch (msg) { case Msg::Get: data = Capability::createEnumeration( { Bool(), Bool(true) }, Bool(m_bIndicator)); return success(); // fallthrough case Msg::GetCurrent: data = Capability::createOneValue(m_bIndicator); return success(); case Msg::Reset: case Msg::GetDefault: m_bIndicator = true; data = Capability::createOneValue(m_bIndicator); return success(); case Msg::Set: { auto show = data.currentItem(); m_bIndicator = show; return success(); } default: return capBadOperation(); } }; m_query[CapType::CustomDsData] = msgSupportGetAll; m_caps[CapType::CustomDsData] = [this](Msg msg, Capability& data) -> Result { switch (msg) { case Msg::Get: case Msg::GetCurrent: case Msg::GetDefault: data = Capability::createOneValue(CapType::CustomDsData,Bool(true)); return success(); default: return capBadOperation(); } }; m_query[CapType::EnableDsUiOnly] = msgSupportGetAll; m_caps[CapType::EnableDsUiOnly] = std::bind(enmGet, _1, _2, Bool(true)); m_query[CapType::PaperDetectable] = msgSupportGetAll; m_caps[CapType::PaperDetectable] = std::bind(enmGet, _1, _2, Bool(true)); m_query[CapType::FeederEnabled] = msgSupportGetAllSetReset; m_caps[CapType::FeederEnabled] = [this](Msg msg, Capability& data) -> Result { switch (msg) { case Msg::Get: data = Capability::createOneValue(Bool(m_bFeederEnabled)); return success(); case Msg::GetCurrent: data = Capability::createOneValue(Bool(m_bFeederEnabled)); return success(); case Msg::GetDefault: case Msg::Reset: m_bFeederEnabled = true; data = Capability::createOneValue(Bool(true)); return success(); case Msg::Set: { auto mech = data.currentItem(); m_bFeederEnabled = mech; return success(); } default: return capBadOperation(); } }; m_query[CapType::Duplex] = msgSupportGetAll; m_caps[CapType::Duplex] = std::bind(oneValGet, _1, _2, Duplex::OnePass); m_query[CapType::DuplexEnabled] = msgSupportGetAllSetReset; m_caps[CapType::DuplexEnabled] = [this](Msg msg, Capability& data) -> Result { switch (msg) { case Msg::Get: data = Capability::createOneValue(Bool(m_scanparam->is_duplex)); return success(); case Msg::GetCurrent: data = Capability::createOneValue(m_scanparam->is_duplex); return success(); case Msg::Reset: case Msg::GetDefault: m_scanparam->is_duplex = true; data = Capability::createOneValue(true); return success(); case Msg::Set: { auto mech = data.currentItem(); m_scanparam->is_duplex = mech; //FileTools::write_log("D:\\1.txt", std::to_string(mech ? 1 : 0)); m_scanparam->is_autodiscradblank_normal = m_scanparam->is_autodiscradblank_vince = m_scanparam->en_fold = 0; if (!mech) m_scanparam->is_backrotate180 = 0;//单面背面旋转180°不可用 return success(); } default: return capBadOperation(); } }; m_query[CapType::AutoFeed] = msgSupportGetAllSetReset; m_caps[CapType::AutoFeed] = [this](Msg msg, Capability& data) -> Result { switch (msg) { case Msg::Get: data = Capability::createOneValue(m_bAutoFeed); return success(); // fallthrough case Msg::GetCurrent: data = Capability::createOneValue(m_bAutoFeed); return success(); case Msg::Reset: case Msg::GetDefault: m_bAutoFeed = true; data = Capability::createOneValue(true); return success(); case Msg::Set: { auto mech = data.currentItem(); m_bAutoFeed = mech; return success(); } default: return capBadOperation(); } }; //m_query[CapType::AutoScan] = msgSupportGetAllSetReset; //m_caps[CapType::AutoScan] = [this](Msg msg, Capability& data) -> Result { // switch (msg) { // case Msg::Get: // data = Capability::createEnumeration( // { Bool(), Bool(true) }, Bool(m_bAutoFeed)); // return success(); // // fallthrough // case Msg::GetCurrent: // data = Capability::createOneValue(m_bAutoFeed); // return success(); // case Msg::Reset: // case Msg::GetDefault: // m_bAutoFeed = true; // data = Capability::createOneValue(true); // return success(); // case Msg::Set: { // auto mech = data.currentItem(); // m_bAutoFeed = mech; // return success(); // } // default: // return capBadOperation(); // } //}; m_query[CapType::IImageFileFormat] = msgSupportGetAllSetReset; m_caps[CapType::IImageFileFormat] = [this](Msg msg, Capability& data) -> Result { switch (msg) { case Msg::Get: { UInt32 capindex = 0; if (m_capImageFileFormat == ImageFileFormat::Tiff) capindex = 1; if (m_capImageFileFormat == ImageFileFormat::Jfif) capindex = 2; data = Capability::createEnumeration( { ImageFileFormat::Bmp, ImageFileFormat::Tiff,ImageFileFormat::Jfif }, capindex, 0); return success(); } case Msg::Reset: case Msg::GetDefault: m_capImageFileFormat = ImageFileFormat::Bmp; data = Capability::createOneValue(m_capImageFileFormat); return success(); case Msg::GetCurrent: data = Capability::createOneValue(m_capImageFileFormat); return success(); case Msg::Set: { auto mech = data.currentItem(); if (mech == ImageFileFormat::Bmp || mech == ImageFileFormat::Tiff || mech == ImageFileFormat::Jfif) { m_capImageFileFormat = mech; return success(); } else return badValue(); } default: return capBadOperation(); } }; //custom define m_query[CapType::IAutomaticDeskew] = msgSupportGetAllSetReset; m_caps[CapType::IAutomaticDeskew] = [this](Msg msg, Capability& data)->Result { switch (msg) { case Msg::Get: //data = Capability::createEnumeration( // { Bool(), Bool(true) }, Bool(m_scanparam->autodescrew == 0 ? false : true)); data = Capability::createOneValue(m_scanparam->autodescrew); return success(); case Msg::Reset: m_scanparam->autodescrew = true; data = Capability::createOneValue(m_scanparam->autodescrew); return success(); case Msg::GetCurrent: data = Capability::createOneValue(m_scanparam->autodescrew); return success(); case Msg::GetDefault: data = Capability::createOneValue(true); return success(); case Msg::Set: { auto atuodsw = data.currentItem(); m_scanparam->autodescrew = (bool)atuodsw; return success(); } default: return capBadOperation(); } }; m_query[(CapType)(CapTypeEx::TwEx_SwitchFrontBack)] = msgSupportGetAllSetReset; m_caps[(CapType)(CapTypeEx::TwEx_SwitchFrontBack)] = [this](Msg msg, Capability& data)->Result { switch (msg) { case Msg::Get: data = Capability::createEnumeration((CapType)((CapType)(CapTypeEx::TwEx_SwitchFrontBack)), { Bool(),Bool(true) }, Bool(m_scanparam->is_switchfrontback), 0); return success(); case Msg::Reset: case Msg::GetCurrent: m_scanparam->is_switchfrontback = false; data = Capability::createOneValue((CapType)((CapType)(CapTypeEx::TwEx_SwitchFrontBack)), m_scanparam->is_switchfrontback); return success(); case Msg::GetDefault: data = Capability::createOneValue((CapType)((CapType)(CapTypeEx::TwEx_SwitchFrontBack)), Bool(false)); return success(); case Msg::Set: { auto mech = data.currentItem(); m_scanparam->is_switchfrontback = mech; return success(); } default: return capBadOperation(); } }; m_query[CapType::IAutomaticRotate] = msgSupportGetAllSetReset; m_caps[CapType::IAutomaticRotate] = [this](Msg msg, Capability& data)->Result { switch (msg) { case Msg::Get: case Msg::GetCurrent: data = Capability::createOneValue(m_scanparam->is_autotext); return success(); case Msg::Reset: case Msg::GetDefault: m_scanparam->is_autotext = false; data = Capability::createOneValue(false); return success(); case Msg::Set: { auto mech = data.currentItem(); m_scanparam->is_autotext = (bool)mech; if (mech) m_scanparam->imageRotateDegree = 0.0f; return success(); } default: return capBadOperation(); } }; m_query[CapType::IAutomaticCropUsesFrame] = msgSupportGetAll; m_caps[CapType::IAutomaticCropUsesFrame] = [this](Msg msg, Capability& data)->Result { switch (msg) { case Msg::Get: data = Capability::Capability::createOneValue(m_scanparam->is_autocrop); return success(); case Msg::Reset: case Msg::GetCurrent: m_scanparam->is_autocrop = false; data = Capability::createOneValue(m_scanparam->is_autocrop); return success(); case Msg::GetDefault: data = Capability::createOneValue(false); return success(); //case Msg::Set: { // auto autocrop = data.currentItem(); // m_scanparam->is_autocrop = (bool)autocrop; // if (autocrop) // m_scanparam->papertype = (byte)PaperSize::None; // return success(); //} default: return capBadOperation(); } }; m_query[CapType::AutoScan] = msgSupportGetAllSetReset; m_caps[CapType::AutoScan] = [this](Msg msg, Capability& data)->Result { switch (msg) { case Msg::Get: data = Capability::createEnumeration( { Bool(), Bool(true) }, m_autoscan); return success(); case Msg::Reset: m_autoscan = true; data = Capability::createOneValue(m_autoscan); return success(); case Msg::GetCurrent: data = Capability::createOneValue(m_autoscan); return success(); case Msg::GetDefault: data = Capability::createOneValue(true); return success(); case Msg::Set: { auto autoscan = data.currentItem(); m_autoscan = autoscan; return success(); } default: return capBadOperation(); } }; m_query[CapType::IAutoSize] = msgSupportGetAllSetReset; m_caps[CapType::IAutoSize] = [this](Msg msg, Capability& data)->Result { switch (msg) { case Msg::Get: data = Capability::createEnumeration( { AutoSize::None, AutoSize::Auto}, (UInt16)m_autosize, 0); return success(); // fallthrough case Msg::GetCurrent: data = Capability::createOneValue((AutoSize)m_autosize); return success(); case Msg::Reset: case Msg::GetDefault: m_autosize = (UInt16)AutoSize::None; data = Capability::createOneValue(AutoSize::None); return success(); case Msg::Set: { auto autosize = data.currentItem(); if (autosize == AutoSize::Auto) { if(m_scanparam->papertype==(byte)PaperSize::UsStatement) { m_scanparam->is_autocrop = 0; m_autoboarderdetcet = false; } else { m_scanparam->is_autocrop = 1; m_scanparam->papertype = (byte)Twpp::PaperSize::None; m_scanparam->paperAlign = PaperAlign::Rot0; m_autoboarderdetcet = true; } } else { m_autoboarderdetcet = false; m_scanparam->is_autocrop = 0; } m_autosize = (byte)autosize; return success(); } default: return capBadOperation(); } }; m_query[CapType::IAutomaticBorderDetection] = msgSupportGetAllSetReset; m_caps[CapType::IAutomaticBorderDetection] = [this](Msg msg, Capability& data)->Result { switch (msg) { case Msg::Get: case Msg::GetCurrent: data = Capability::createOneValue(m_autoboarderdetcet); return success(); case Msg::Reset: m_autoboarderdetcet = false; data = Capability::createOneValue(m_autoboarderdetcet); return success(); case Msg::GetDefault: data = Capability::createOneValue(false); return success(); case Msg::Set: { auto autodetectborder = data.currentItem(); if (autodetectborder) { if(m_scanparam->papertype!=(byte)PaperSize::UsStatement) { m_scanparam->is_autocrop = true; m_scanparam->papertype = (byte)Twpp::PaperSize::None; m_scanparam->paperAlign = PaperAlign::Rot0; m_autosize = (UInt16)AutoSize::Auto; } } else { m_autosize = (UInt16)AutoSize::None; } m_autoboarderdetcet = autodetectborder; return success(); } default: return capBadOperation(); } }; m_query[CapType::IImageMerge] = msgSupportGetAllSetReset; m_caps[CapType::IImageMerge] = [this](Msg msg, Capability& data)->Result { switch (msg) { case Msg::Get: data = Capability::createOneValue(CapType::IImageMerge, (UInt16)m_scanparam->en_fold); return success(); case Msg::Reset: m_scanparam->en_fold = 0;//默认不对折 data = Capability::createOneValue(CapType::IImageMerge, (UInt16)m_scanparam->en_fold); return success(); case Msg::GetCurrent: data = Capability::createOneValue(CapType::IImageMerge, (UInt16)m_scanparam->en_fold); return success(); case Msg::GetDefault: data = Capability::createOneValue(CapType::IImageMerge, 0); return success(); case Msg::Set: { auto autocrop = data.currentItem(); m_scanparam->en_fold = (byte)autocrop; if ((UInt16)autocrop != 0) { m_scanparam->is_duplex = 1; m_scanparam->autodescrew = 1;//合并可用时 默认自动纠偏 m_scanparam->is_autodiscradblank_normal = m_scanparam->is_autodiscradblank_vince = 0; } return success(); } default: return capBadOperation(); } }; m_query[CapType::IAutoDiscardBlankPages] = msgSupportGetAllSetReset; m_caps[CapType::IAutoDiscardBlankPages] = [this](Msg msg, Capability& data)->Result { switch (msg) { case Msg::Get: data = Capability::createOneValue(m_scanparam->is_autodiscradblank_normal ? DiscardBlankPages::Auto : DiscardBlankPages::Disabled); return success(); case Msg::Reset: case Msg::GetDefault: m_scanparam->is_autodiscradblank_normal = false; data = Capability::createOneValue(DiscardBlankPages::Disabled); return success(); case Msg::GetCurrent: data = Capability::createOneValue(m_scanparam->is_autodiscradblank_normal ? DiscardBlankPages::Auto : DiscardBlankPages::Disabled); return success(); case Msg::Set: { auto mech = data.currentItem(); if ((mech != DiscardBlankPages::Auto) || (mech != DiscardBlankPages::Disabled)) return badValue(); m_scanparam->is_autodiscradblank_normal = (Int32)mech == (Int32)DiscardBlankPages::Auto; m_scanparam->is_duplex = 1; m_scanparam->en_fold = 0; m_scanparam->is_autodiscradblank_vince = 0; return success(); } default: return capBadOperation(); } }; /*costom caps*/ //跳过空白页发票 m_query[(CapType)(CapTypeEx::TwEx_IAutoDiscardBlankVince)] = msgSupportGetAllSetReset; m_caps[(CapType)(CapTypeEx::TwEx_IAutoDiscardBlankVince)] = [this](Msg msg, Capability& data)->Result { switch (msg) { case Msg::Get: data = Capability::createEnumeration((CapType)((CapType)(CapTypeEx::TwEx_IAutoDiscardBlankVince)), { Bool(),Bool(true) }, Bool(m_scanparam->is_autodiscradblank_vince), 0); return success(); case Msg::Reset: case Msg::GetDefault: m_scanparam->is_autodiscradblank_vince = false; data = Capability::createOneValue((CapType)((CapType)(CapTypeEx::TwEx_IAutoDiscardBlankVince)), Bool(false)); return success(); case Msg::GetCurrent: data = Capability::createOneValue((CapType)((CapType)(CapTypeEx::TwEx_IAutoDiscardBlankVince)), m_scanparam->is_autodiscradblank_vince); return success(); case Msg::Set: { auto mech = data.currentItem(); m_scanparam->is_autodiscradblank_vince = mech; m_scanparam->is_duplex = 1; m_scanparam->en_fold = 0; if (mech) m_scanparam->is_autodiscradblank_normal = 0; return success(); } default: return capBadOperation(); } }; m_query[(CapType)(CapTypeEx::TwEx_IBackRotate180)] = msgSupportGetAllSetReset; m_caps[(CapType)(CapTypeEx::TwEx_IBackRotate180)] = [this](Msg msg, Capability& data)->Result { switch (msg) { case Msg::Get: data = Capability::createEnumeration((CapType)(CapTypeEx::TwEx_IBackRotate180), { Bool(),Bool(true) }, Bool(m_scanparam->is_backrotate180), 0); return success(); case Msg::Reset: case Msg::GetDefault: m_scanparam->is_backrotate180 = false; data = Capability::createOneValue((CapType)(CapTypeEx::TwEx_IBackRotate180), Bool(false)); return success(); case Msg::GetCurrent: data = Capability::createOneValue((CapType)(CapTypeEx::TwEx_IBackRotate180), m_scanparam->is_backrotate180); return success(); case Msg::Set: { auto mech = data.currentItem(); m_scanparam->is_backrotate180 = mech; if (mech) m_scanparam->is_duplex = 1; return success(); } default: return capBadOperation(); } }; //填黑框 m_query[(CapType)(CapTypeEx::TwEx_IFillBackground)] = msgSupportGetAllSetReset; m_caps[(CapType)(CapTypeEx::TwEx_IFillBackground)] = [this](Msg msg, Capability& data)->Result { switch (msg) { case Msg::Get: data = Capability::createEnumeration((CapType)(CapTypeEx::TwEx_IFillBackground), { Bool(),Bool(true) }, Bool(m_scanparam->fillbackground), 0); return success(); case Msg::GetCurrent: data = Capability::createOneValue((CapType)(CapTypeEx::TwEx_IFillBackground), m_scanparam->fillbackground); return success(); case Msg::Reset: case Msg::GetDefault: m_scanparam->fillbackground = true; data = Capability::createOneValue((CapType)(CapTypeEx::TwEx_IFillBackground), Bool(true)); return success(); case Msg::Set: { auto mech = data.currentItem(); m_scanparam->fillbackground = mech; return success(); } default: return capBadOperation(); } }; //填穿孔 m_query[(CapType)(CapTypeEx::TwEx_IFillHole)] = msgSupportGetAllSetReset; m_caps[(CapType)(CapTypeEx::TwEx_IFillHole)] = [this](Msg msg, Capability& data)->Result { switch (msg) { case Msg::Get: data = Capability::createEnumeration((CapType)(CapTypeEx::TwEx_IFillHole), { Bool(),Bool(true) }, Bool(m_scanparam->fillhole.is_fillhole), 0); return success(); case Msg::GetCurrent: data = Capability::createOneValue((CapType)(CapTypeEx::TwEx_IFillHole), m_scanparam->fillhole.is_fillhole); return success(); case Msg::GetDefault: case Msg::Reset: m_scanparam->fillhole.is_fillhole = false; data = Capability::createOneValue((CapType)(CapTypeEx::TwEx_IFillHole), Bool(false)); return success(); case Msg::Set: { auto mech = data.currentItem(); m_scanparam->fillhole.is_fillhole = mech; return success(); } default: return capBadOperation(); } }; m_query[(CapType)(CapTypeEx::TwEx_IFillHoleRatio)] = msgSupportGetAllSetReset; m_caps[(CapType)(CapTypeEx::TwEx_IFillHoleRatio)] = [this](Msg msg, Capability& data)->Result { switch (msg) { case Msg::Get: data = Capability::createOneValue((CapType)(CapTypeEx::TwEx_IFillHoleRatio), m_scanparam->fillhole.fillholeratio); return success(); case Msg::GetCurrent: data = Capability::createOneValue((CapType)(CapTypeEx::TwEx_IFillHoleRatio), m_scanparam->fillhole.fillholeratio); return success(); case Msg::GetDefault: case Msg::Reset: m_scanparam->fillhole.fillholeratio = 10; data = Capability::createOneValue((CapType)(CapTypeEx::TwEx_IFillHoleRatio), Int32(10)); return success(); case Msg::Set: { auto mech = data.currentItem(); if (mech > 0 && mech < 50) { m_scanparam->fillhole.fillholeratio = (int)mech; return success(); } return badValue(); } default: return capBadOperation(); } }; //多流除红 m_query[(CapType)(CapTypeEx::TwEx_IMultiOutputRed)] = msgSupportGetAllSetReset; m_caps[(CapType)(CapTypeEx::TwEx_IMultiOutputRed)] = [this](Msg msg, Capability& data)->Result { switch (msg) { case Msg::Get: data = Capability::createEnumeration((CapType)(CapTypeEx::TwEx_IMultiOutputRed), { Bool(),Bool(true) }, Bool(m_scanparam->multi_output_red), 0); return success(); case Msg::GetCurrent: data = Capability::createOneValue((CapType)(CapTypeEx::TwEx_IMultiOutputRed), m_scanparam->multi_output_red); return success(); case Msg::GetDefault: case Msg::Reset: m_scanparam->multi_output_red = false; data = Capability::createOneValue((CapType)(CapTypeEx::TwEx_IMultiOutputRed), Bool(false)); return success(); case Msg::Set: { auto mech = data.currentItem(); if (m_scanparam->pixtype == (byte)PixelType::Rgb) m_scanparam->multi_output_red = mech; else { m_scanparam->multi_output_red = 0;//非彩色 不能使用多流除红 } return success(); } default: return capBadOperation(); } }; //答题卡除红 m_query[(CapType)(CapTypeEx::TwEx_HsvCorrect)] = msgSupportGetAllSetReset; m_caps[(CapType)(CapTypeEx::TwEx_HsvCorrect)] = [this](Msg msg, Capability& data)->Result { switch (msg) { case Msg::Get: data = Capability::createEnumeration((CapType)(CapTypeEx::TwEx_HsvCorrect), { Bool(),Bool(true) }, Bool(m_scanparam->hsvcorrect), 0); return success(); case Msg::GetCurrent: data = Capability::createOneValue((CapType)(CapTypeEx::TwEx_HsvCorrect), m_scanparam->hsvcorrect); return success(); case Msg::Reset: case Msg::GetDefault: m_scanparam->hsvcorrect = false; data = Capability::createOneValue((CapType)(CapTypeEx::TwEx_HsvCorrect), Bool(false)); return success(); case Msg::Set: { auto mech = data.currentItem(); m_scanparam->hsvcorrect = mech; return success(); } default: return capBadOperation(); } }; m_query[CapType::IFilter] = msgSupportGetAllSetReset; m_caps[CapType::IFilter] = [this](Msg msg, Capability& data)->Result { switch (msg) { case Msg::Get: data = Capability::createEnumeration({ Filter::Red,Filter::Green,Filter::Blue,Filter::None }, m_scanparam->filter, 0); return success(); case Msg::GetCurrent: data = Capability::createOneValue((Filter)m_scanparam->filter); return success(); case Msg::GetDefault: case Msg::Reset: m_scanparam->filter = (byte)Filter::None; data = Capability::createOneValue(Filter::None); return success(); case Msg::Set: { auto mech = data.currentItem(); if (mech == Filter::None || mech == Filter::Red || mech == Filter::Green || mech == Filter::Blue) { m_scanparam->filter = (byte)mech; if (mech != Filter::None) { m_scanparam->enhance_color = (byte)Enchace_Color::Enhance_None; } return success(); } return badValue(); } default: return capBadOperation(); } }; //颜色增强 m_query[(CapType)(CapTypeEx::TwEx_IEnhanceColor)] = msgSupportGetAllSetReset; m_caps[(CapType)(CapTypeEx::TwEx_IEnhanceColor)] = [this](Msg msg, Capability& data)->Result { switch (msg) { case Msg::Get: data = Capability::createEnumeration((CapType)(CapTypeEx::TwEx_IEnhanceColor), { Enchace_Color::Enhance_None,Enchace_Color::Enhance_Red,Enchace_Color::Enhance_Green,Enchace_Color::Enhance_Blue }, m_scanparam->enhance_color, 0); return success(); case Msg::GetCurrent: data = Capability::createOneValue((CapType)(CapTypeEx::TwEx_IEnhanceColor), (Enchace_Color)(m_scanparam->enhance_color)); return success(); case Msg::GetDefault: case Msg::Reset: m_scanparam->enhance_color = Enchace_Color::Enhance_None; data = Capability::createOneValue((CapType)(CapTypeEx::TwEx_IEnhanceColor), Enchace_Color::Enhance_None); return success(); case Msg::Set: { auto mech = data.currentItem(); if (m_scanparam->pixtype == (byte)PixelType::Rgb) { m_scanparam->enhance_color = (byte)Enchace_Color::Enhance_None; } else { if (mech == Enchace_Color::Enhance_None || mech == Enchace_Color::Enhance_Red || mech == Enchace_Color::Enhance_Green || mech == Enchace_Color::Enhance_Blue) { m_scanparam->enhance_color = (byte)mech; if (mech != (byte)Enchace_Color::Enhance_None) m_scanparam->filter = (byte)Filter::None; return success(); } } return badValue(); } default: return capBadOperation(); } }; m_query[(CapType)(CapTypeEx::TwEx_Sharpen)] = msgSupportGetAllSetReset; m_caps[(CapType)(CapTypeEx::TwEx_Sharpen)] = [this](Msg msg, Capability& data)->Result { switch (msg) { case Msg::Get: data = Capability::createEnumeration((CapType)(CapTypeEx::TwEx_Sharpen), { SharpenBlur::Sharpen_None,SharpenBlur::Sharpen_Normal,SharpenBlur::Sharpen_More,SharpenBlur::Sharpen_Blur,SharpenBlur::Sharpen_Blur_More }, m_scanparam->sharpen, 0); return success(); case Msg::GetCurrent: data = Capability::createOneValue((CapType)(CapTypeEx::TwEx_Sharpen), (SharpenBlur)(m_scanparam->sharpen)); return success(); case Msg::GetDefault: case Msg::Reset: m_scanparam->sharpen = SharpenBlur::Sharpen_None; data = Capability::createOneValue((CapType)(CapTypeEx::TwEx_Sharpen), SharpenBlur::Sharpen_None); return success(); case Msg::Set: { auto mech = data.currentItem(); if (m_scanparam->pixtype == (int)PixelType::BlackWhite) return badValue(); m_scanparam->sharpen = (byte)mech; return success(); } default: return capBadOperation(); } }; /*亮度 对比度 gamma range类型 Range 类型*/ m_query[CapType::IBrightness] = msgSupportGetAllSetReset; m_caps[CapType::IBrightness] = [this](Msg msg, Capability& data)->Result { switch (msg) { case Msg::Get: data = Capability::createRange(Fix32(-1000.0f), Fix32(1000.0f), Fix32(333.3f), Fix32(m_scanparam->brightness), Fix32(0.0)); return success(); case Msg::GetCurrent: data = Capability::createOneValue(Fix32(m_scanparam->brightness)); return success(); case Msg::GetDefault: case Msg::Reset: m_scanparam->brightness = 0.0f; data = Capability::createOneValue(Fix32(0.0f)); return success(); case Msg::Set: { auto mech = data.currentItem(); if (mech > 1000.0f || mech < -1000.0f) return badValue(); m_scanparam->brightness = (float)mech; return success(); } default: return capBadOperation(); } }; m_query[CapType::IContrast] = msgSupportGetAllSetReset; m_caps[CapType::IContrast] = [this](Msg msg, Capability& data)->Result { switch (msg) { case Msg::Get: data = Capability::createRange(Fix32(-1000.0f), Fix32(1000.0f), Fix32(333.3f), Fix32(m_scanparam->contrast), Fix32(0.0)); return success(); case Msg::GetCurrent: data = Capability::createOneValue(Fix32(m_scanparam->contrast)); return success(); case Msg::GetDefault: case Msg::Reset: m_scanparam->contrast = 0.0f; data = Capability::createOneValue(Fix32(0.0f)); return success(); case Msg::Set: { auto mech = data.currentItem(); if (mech > 1000.0f || mech < -1000.0f) return badValue(); m_scanparam->contrast = (float)mech; return success(); } default: return capBadOperation(); } }; m_query[CapType::IGamma] = msgSupportGetAllSetReset; m_caps[CapType::IGamma] = [this](Msg msg, Capability& data)->Result { switch (msg) { case Msg::Get: data = Capability::createRange(Fix32(0.0f), Fix32(5.0f), Fix32(1.0f), Fix32(m_scanparam->gamma), Fix32(1.0)); return success(); case Msg::GetCurrent: data = Capability::createOneValue(Fix32(m_scanparam->gamma)); return success(); case Msg::GetDefault: case Msg::Reset: m_scanparam->gamma = 1.0f; data = Capability::createOneValue(Fix32(0.0f)); return success(); case Msg::Set: { auto mech = data.currentItem(); if (mech > 5.0f || mech < 0.0f) return badValue(); m_scanparam->gamma = (float)mech; return success(); } default: return capBadOperation(); } }; //m_query[(CapType)(CapTypeEx::TwEx_DBAreaNum)] = msgSupportGetAllSetReset; //m_caps[(CapType)(CapTypeEx::TwEx_DBAreaNum)] = [this](Msg msg, Capability& data)->Result { // switch (msg) { // case Msg::Get: // data = Capability::createOneValue((CapType)(CapTypeEx::TwEx_DBAreaNum), m_scanparam->areanum); // return success(); // case Msg::Reset: // m_scanparam->areanum = 8; // case Msg::GetCurrent: // data = Capability::createOneValue((CapType)(CapTypeEx::TwEx_DBAreaNum), m_scanparam->areanum); // return success(); // case Msg::GetDefault: // data = Capability::createOneValue((CapType)(CapTypeEx::TwEx_DBAreaNum), UInt16(8)); // return success(); // case Msg::Set: { // auto mech = data.currentItem(); // if (mech >= 5 && mech <= 40) { // m_scanparam->areanum = mech; // return success(); // } // return badValue(); // } // default: // return capBadOperation(); // } //}; //m_query[(CapType)(CapTypeEx::TwEx_DBDevnMax)] = msgSupportGetAllSetReset; //m_caps[(CapType)(CapTypeEx::TwEx_DBDevnMax)] = [this](Msg msg, Capability& data)->Result { // switch (msg) { // case Msg::Get: // data = Capability::createOneValue((CapType)(CapTypeEx::TwEx_DBDevnMax), m_scanparam->devnmax); // return success(); // case Msg::Reset: // m_scanparam->devnmax = 200; // case Msg::GetCurrent: // data = Capability::createOneValue((CapType)(CapTypeEx::TwEx_DBDevnMax), m_scanparam->devnmax); // return success(); // case Msg::GetDefault: // data = Capability::createOneValue((CapType)(CapTypeEx::TwEx_DBDevnMax), UInt16(200)); // return success(); // case Msg::Set: { // auto mech = data.currentItem(); // if (mech >= 150 && mech <= 400) { // m_scanparam->devnmax = mech; // return success(); // } // return badValue(); // } // default: // return capBadOperation(); // } //}; /*以下为硬件协议*/ m_query[(CapType)(CapTypeEx::TwEx_ScrewDetectEnable)] = msgSupportGetAllSetReset; m_caps[(CapType)(CapTypeEx::TwEx_ScrewDetectEnable)] = [this](Msg msg, Capability& data)->Result { switch (msg) { case Msg::Get: data = Capability::createEnumeration((CapType)(CapTypeEx::TwEx_ScrewDetectEnable), { Bool(),Bool(true) }, Bool(m_scanparam->hardwarecaps.en_skrewdetect), 0); return success(); case Msg::GetCurrent: data = Capability::createOneValue((CapType)(CapTypeEx::TwEx_ScrewDetectEnable), m_scanparam->hardwarecaps.en_skrewdetect); return success(); case Msg::GetDefault: case Msg::Reset: m_scanparam->hardwarecaps.en_skrewdetect = false; data = Capability::createOneValue((CapType)(CapTypeEx::TwEx_ScrewDetectEnable), Bool(false)); return success(); case Msg::Set: { auto mech = data.currentItem(); m_scanparam->hardwarecaps.en_skrewdetect = mech; return success(); } default: return capBadOperation(); } }; m_query[(CapType)(CapTypeEx::TwEx_ScrewLevel)] = msgSupportGetAllSetReset; m_caps[(CapType)(CapTypeEx::TwEx_ScrewLevel)] = [this](Msg msg, Capability& data)->Result { switch (msg) { case Msg::Get: data = Capability::createOneValue((CapType)(CapTypeEx::TwEx_ScrewLevel), m_scanparam->hardwarecaps.skrewdetectlevel); return success(); case Msg::GetCurrent: data = Capability::createOneValue((CapType)(CapTypeEx::TwEx_ScrewLevel), m_scanparam->hardwarecaps.skrewdetectlevel); return success(); case Msg::GetDefault: case Msg::Reset: m_scanparam->hardwarecaps.skrewdetectlevel = 3; data = Capability::createOneValue((CapType)(CapTypeEx::TwEx_ScrewLevel), UInt8(3)); return success(); case Msg::Set: { auto mech = data.currentItem(); if (mech >= 1 && mech <= 5) { m_scanparam->hardwarecaps.skrewdetectlevel = mech; return success(); } return badValue(); } default: return capBadOperation(); } }; //装订检测 m_query[(CapType)(CapTypeEx::TwEx_StableDetectEnable)] = msgSupportGetAllSetReset; m_caps[(CapType)(CapTypeEx::TwEx_StableDetectEnable)] = [this](Msg msg, Capability& data)->Result { switch (msg) { case Msg::Get: data = Capability::createEnumeration((CapType)(CapTypeEx::TwEx_StableDetectEnable), { Bool(),Bool(true) }, Bool(m_scanparam->hardwarecaps.en_stapledetect), 0); return success(); case Msg::GetCurrent: data = Capability::createOneValue((CapType)(CapTypeEx::TwEx_StableDetectEnable), m_scanparam->hardwarecaps.en_stapledetect); return success(); case Msg::GetDefault: case Msg::Reset: m_scanparam->hardwarecaps.en_stapledetect = false; data = Capability::createOneValue((CapType)(CapTypeEx::TwEx_StableDetectEnable), Bool(false)); return success(); case Msg::Set: { auto mech = data.currentItem(); m_scanparam->hardwarecaps.en_stapledetect = mech; return success(); } default: return capBadOperation(); } }; m_query[(CapType)(CapTypeEx::TwEx_DogEarDelection)] = msgSupportGetAllSetReset; m_caps[(CapType)(CapTypeEx::TwEx_DogEarDelection)] = [this](Msg msg, Capability& data)->Result { switch (msg) { case Msg::Get: case Msg::GetCurrent: data = Capability::createOneValue((CapType)CapTypeEx::TwEx_DogEarDelection, m_scanparam->is_dogeardetection); return success(); case Msg::GetDefault: case Msg::Reset: m_scanparam->is_dogeardetection = false; data = Capability::createOneValue((CapType)(CapTypeEx::TwEx_DogEarDelection), Bool(false)); return success(); case Msg::Set: { auto mech = data.currentItem(); m_scanparam->is_dogeardetection= mech; return success(); } default: return capBadOperation(); } }; //双张检测 与官方标准定义有所差异 此协议修改为bool型 m_query[CapType::DoubleFeedDetection] = msgSupportGetAllSetReset; m_caps[CapType::DoubleFeedDetection] = [this](Msg msg, Capability& data)->Result { switch (msg) { case Msg::Get: case Msg::GetCurrent: data = Capability::createOneValue(CapType::DoubleFeedDetection, m_scanparam->hardwarecaps.en_doublefeed); return success(); case Msg::GetDefault: case Msg::Reset: m_scanparam->hardwarecaps.en_doublefeed = false; data = Capability::createOneValue(CapType::DoubleFeedDetection, Bool(false)); return success(); case Msg::Set: { auto mech = data.currentItem(); m_scanparam->hardwarecaps.en_doublefeed = mech; return success(); } default: return capBadOperation(); } }; return success(); } Result HuagaoDs::identityCloseDs(const Identity&) { // no need to explicitly release any resources if using RAII // TWPP will free the whole source on its own after this method if (guiIndicator) guiIndicator->DestroyWindow(); if (guiTwain.get()) guiTwain.reset(); if (guiBridge.get()) guiBridge.reset(); scanner.reset(); bmpData.reset(); if (hMutex) { ReleaseMutex(hMutex); CloseHandle(hMutex); } //saveGscanCapSetting(); return success(); } Result HuagaoDs::pendingXfersGet(const Identity&, PendingXfers& data) { data.setCount(m_pendingXfers); return success(); } Result HuagaoDs::pendingXfersEnd(const Identity&, PendingXfers& data) { //!< end xfer if set count 0 if (bmpData->size() > 0) { bmpData.reset(new std::vector); } int ret = scanner->aquire_bmpdata(*bmpData.get()); if (ret != 0) { scanner->Set_ErrorCode(0); if (guiIndicator) guiIndicator->ShowWindow(SW_HIDE); //if (guiIndicator.get()) // guiIndicator.reset(); //guiIndicator->ShowWindow(SW_HIDE); if (ret != -1) { CString str; str.Format(_T("%d"), ret); ShellExecute(NULL, TEXT("open"), GetHidedlgPath(), str, NULL, SW_HIDE); #ifndef G200 scanner->clear_hwerror(); #endif // G200 } m_pendingXfers = 0; if (guiTwain.get()) { ((CTwainUI*)(guiTwain.get()))->EnableID_OKorID_Cancel(true); } } else { m_pendingXfers = 1; } data.setCount(m_pendingXfers); return success(); } Result HuagaoDs::pendingXfersReset(const Identity&, PendingXfers& data) { data.setCount(0); if (scanner.get()) { scanner->Stop_scan(); scanner->reset(); scanner->ResetScanner(); } //guiIndicator.reset(); if (guiIndicator) guiIndicator->DestroyWindow(); return success(); } Result HuagaoDs::setupMemXferGet(const Identity&, SetupMemXfer& data) { auto bpl = bytesPerLine(); auto max = bpl * static_cast(header()->biHeight); data.setMinSize(bpl); data.setPreferredSize(max); data.setMaxSize(max); return success(); } Result HuagaoDs::userInterfaceDisable(const Identity&, UserInterface& ui) { //FileTools::write_log("D:\\1.txt", "userInterfaceDisable enter"); if(guiTwain.get()) guiTwain.reset(); #if TWPP_DETAIL_OS_WIN if(guiBridge.get()) guiBridge.reset(); #endif //FileTools::write_log("D:\\1.txt", "userInterfaceDisable exit"); return success(); } Result HuagaoDs::userInterfaceEnable(const Identity&, UserInterface& ui) { m_pendingXfers = 1; m_memXferYOff = 0; scanner->ResetMsgFiter(); if (!ui.showUi()) { // this is an exception when we want to set state explicitly, notifyXferReady can be called only in enabled state // with hidden UI, the usual workflow DsState::Enabled -> notifyXferReady() -> DsState::XferReady is a single step setState(DsState::Enabled); auto ret = startScan(); if (ret.status().condition() == Twpp::CC::NoMedia) return ret; //if (ret == success()) { //m_pendingXfers = 1; auto notified = notifyXferReady(); return success(); //} //else { // m_pendingXfers = 0; // setState(DsState::Open); // return ret; //} } return showTwainUI(ui); } Result HuagaoDs::userInterfaceEnableUiOnly(const Identity&, UserInterface& ui) { // as a minimal source, we do not support GUI that just saves settings return showTwainUI(ui, true); } Result HuagaoDs::imageInfoGet(const Identity&, ImageInfo& data) { // our image does not change auto dib = header(); data.setBitsPerPixel(static_cast(dib->biBitCount)); data.setHeight(dib->biHeight); data.setPixelType(dib->biClrUsed == 2 ? PixelType::BlackWhite : (dib->biClrUsed == 256 ? PixelType::Gray : PixelType::Rgb)); data.setPlanar(false); data.setWidth(dib->biWidth); data.setXResolution(m_scanparam->resolution_dst); data.setYResolution(m_scanparam->resolution_dst); data.compression(m_compression); switch (dib->biClrUsed) { case 2: case 256: data.setSamplesPerPixel(1); data.bitsPerSample()[0] = 8; break; case 0: data.setSamplesPerPixel(3); data.bitsPerSample()[0] = 8; data.bitsPerSample()[1] = 8; data.bitsPerSample()[2] = 8; default: break; } return success(); } Result HuagaoDs::imageLayoutGet(const Identity&, ImageLayout& data) { // our image does not change auto dib = header(); data.setDocumentNumber(1); data.setFrameNumber(1); data.setPageNumber(1); data.setFrame(Frame(0, 0, static_cast(dib->biWidth) / m_scanparam->resolution_dst, static_cast(dib->biHeight) / m_scanparam->resolution_dst)); return success(); } Result HuagaoDs::imageLayoutGetDefault(const Identity& origin, ImageLayout& data) { return imageLayoutGet(origin, data); } Result HuagaoDs::imageLayoutSet(const Identity& origin, ImageLayout& lay) { // we dont support setting image frame ImageLayout def; imageLayoutGetDefault(origin, def); return lay.frame() == def.frame() ? success() : badValue(); } Result HuagaoDs::imageLayoutReset(const Identity& origin, ImageLayout& data) { return imageLayoutGet(origin, data); } Result HuagaoDs::imageMemXferGet(const Identity& origin, ImageMemXfer& data) { if (!m_pendingXfers) { return seqError(); } // we can call our TWPP methods, but be careful about states SetupMemXfer setup; setupMemXferGet(origin, setup); // just a simple stored BMP image auto dib = header(); auto bpl = bytesPerLine(); auto memSize = data.memory().size(); if (memSize > setup.maxSize() || memSize < setup.minSize()) { return badValue(); } auto maxRows = memSize / bpl; auto rows = std::min(maxRows, static_cast(dib->biHeight) - m_memXferYOff); if (rows == 0) { return seqError(); // image already transfered in this session } cv::Mat mat; vector cmpdata; if (m_compression == Compression::Group4) { mat = cv::imdecode(*bmpData.get(), cv::IMREAD_GRAYSCALE); G4Tiff gt(mat,G4Tiff::Mode::MemoryMode,"",120,m_scanparam->resolution_dst); gt.GetCompressedData(cmpdata); } data.setBytesPerRow(bpl); data.setColumns(static_cast(dib->biWidth)); data.setRows(rows); data.setBytesWritten(m_compression==Compression::None?bpl*rows: cmpdata.size()); data.setXOffset(0); data.setYOffset(m_memXferYOff); data.setCompression(m_compression); auto lock = data.memory().data(); char* out = lock.data(); // bottom-up BMP -> top-down memory transfer if (m_compression == Compression::None) { auto begin = bmpEnd() - (bpl * (m_memXferYOff + 1)); for (UInt32 i = 0; i < rows; i++) { // copy bytes std::copy(begin, begin + bpl, out); char* line = out; out += bpl; begin -= bpl; if (dib->biBitCount == 24) { //BGR BMP -> RGB memory transfer for (; line + 3 < out; line += 3) { std::swap(line[0], line[2]); } } } } else { std::copy(cmpdata.data(), cmpdata.data() + cmpdata.size(), out); } m_memXferYOff += rows; if (m_memXferYOff >= static_cast(std::abs(dib->biHeight))) { m_pendingXfers = 0; m_memXferYOff = 0; bmpData.reset(new std::vector); return { ReturnCode::XferDone, ConditionCode::Success }; } return success(); } //#define LOG_NORMAL #ifdef LOG_NORMAL static int xtfer = 0; #endif static int xtfer = 0; Result HuagaoDs::imageNativeXferGet(const Identity& id, ImageNativeXfer& data) { if (!m_pendingXfers) { return seqError(); } if (m_haveError) return { ReturnCode::Cancel, ConditionCode::Success }; if (data) data.release(); // it does not get easier than that if we already have BMP data = ImageNativeXfer(bmpSize()); std::copy(bmpBegin(), bmpEnd(), data.data().data()); bmpData.reset(new std::vector); #ifdef LOG_NORMAL #endif // LOG //std::string info = "Twain transfered num of " + to_string(++xtfer)+" images"; //FileTools::write_log("D:\\1.txt", info); return { ReturnCode::XferDone, ConditionCode::Success }; } Twpp::Result HuagaoDs::pendingXfersStopFeeder(const Identity& origin, PendingXfers& data) { //FileTools::write_log("D:\\1.txt", "pendingXfersStopFeeder enter"); if (!scanner.get()) return seqError(); if (scanner->IsConnected()) { scanner->Stop_scan(); } data.setCount(scanner->Get_IsImageQueueEmpty() ? 0 : 1); //FileTools::write_log("D:\\1.txt", "pendingXfersStopFeeder exit"); return success(); } Twpp::Result HuagaoDs::setupFileXferGet(const Twpp::Identity& origin, Twpp::SetupFileXfer& data) { data.setFilePath(m_fileXfer.filePath()); data.setFormat(m_fileXfer.format()); return success(); } Twpp::Result HuagaoDs::setupFileXferGetDefault(const Twpp::Identity& origin, Twpp::SetupFileXfer& data) { Str255 str("HGTwain.bmp"); data.setFilePath(str); data.setFormat(ImageFileFormat::Bmp); return success(); } Twpp::Result HuagaoDs::setupFileXferSet(const Twpp::Identity& origin, Twpp::SetupFileXfer& data) { m_fileXfer.setFilePath(data.filePath()); m_fileXfer.setFormat(data.format()); return success(); } Twpp::Result HuagaoDs::setupFileXferReset(const Twpp::Identity& origin, Twpp::SetupFileXfer& data) { m_fileXfer.setFormat(Twpp::ImageFileFormat::Bmp); std::string templateName = "HG"; char* tempPath = mktemp((char*)templateName.c_str()); if (tempPath) { Str255 str; str.setData(tempPath, strlen(tempPath)); m_fileXfer.setFilePath(str); return success(); } return badProtocol(); } static int indeximg = 0; Twpp::Result HuagaoDs::imageFileXferGet(const Twpp::Identity& origin) { if (!m_pendingXfers) return seqError(); string filename = m_fileXfer.filePath().string(); switch (m_fileXfer.format()) { case ImageFileFormat::Bmp: { FILE* pfile = fopen(filename.c_str(), "wb"); if (pfile) { if (bmpData->size() > 0) { fwrite(bmpData->data(), 1, bmpData->size(), pfile); bmpData.reset(new std::vector); fclose(pfile); return Result(ReturnCode::XferDone, ConditionCode::Success); } } return Result(ReturnCode::Failure, ConditionCode::BadValue); } case ImageFileFormat::Tiff: case ImageFileFormat::Jfif: { BITMAPINFOHEADER& bmpinfo = *((BITMAPINFOHEADER*)header()); int decodetype; if (bmpinfo.biBitCount == 24) decodetype = cv::IMREAD_COLOR; else decodetype = cv::IMREAD_GRAYSCALE; cv::Mat ims = cv::imdecode(*bmpData.get(), decodetype); if (m_compression == Compression::Group4&& m_fileXfer.format()==ImageFileFormat::Tiff) { if (!ims.empty() && ims.channels() == 3) cvtColor(ims, ims, cv::COLOR_BGR2GRAY); G4Tiff gsave(ims, G4Tiff::Mode::FileMode, filename, 120, m_scanparam->resolution_dst); gsave.SaveG4Tiff(); } else { std::vector compression_params; compression_params.push_back(CV_IMWRITE_JPEG_QUALITY); compression_params.push_back(m_jpegQuality); cv::imwrite(filename, ims, compression_params); } bmpData.reset(new std::vector); ims.release(); return Result(ReturnCode::XferDone, ConditionCode::Success); } default: break; } return badProtocol(); } Twpp::Result HuagaoDs::showTwainUI(Twpp::UserInterface& ui, bool bUiOnly) { // as a minimal source, we do not support GUI that just saves settings if (ui.parent()) { guiBridge.reset(new CDialog()); HWND appWindow = static_cast(ui.parent().raw()); guiBridge->Create(IDD_BACK, CWnd::FromHandle(appWindow)); HWND bridgeWindow = guiBridge->GetSafeHwnd(); long bridgeFlags = GetWindowLong(bridgeWindow, GWL_STYLE); SetWindowLong(bridgeWindow, GWL_STYLE, bridgeFlags | WS_CHILD); SetParent(bridgeWindow, appWindow); //if (ui.modalUi()) { // long appFlags = GetWindowLong(appWindow, GWL_STYLE); // SetWindowLong(appWindow, GWL_STYLE, appFlags | WS_DISABLED); //} } //!< show ui to scan button push auto scanFunction = [this](const GScanCap& caps) { m_pendingXfers = 1; m_scanparam.reset(new GScanCap(caps)); saveGscanCapSetting(); if (startScan() == success()) { notifyXferReady(); } else { m_pendingXfers = 0; } }; //!< ui only to confirm button push auto confirmFunction = [this](const GScanCap& caps) { m_scanparam.reset(new GScanCap(caps)); saveGscanCapSetting(); notifyCloseOk(); }; //!< cancel button push auto cancelFunction = [this]() { notifyCloseCancel(); }; CWnd* parent = guiBridge.get(); TwGlue glue = { scanFunction, cancelFunction }; TwGlue glueUiOnly = { confirmFunction, cancelFunction }; std::string serialnum = scanner->GetSerialNum(); std::string hardwareversion = scanner->GetFWVersion(); guiTwain.reset(new CTwainUI(bUiOnly ? glueUiOnly : glue, *m_scanparam, bUiOnly ? "确定" : "扫描", hardwareversion, serialnum)); guiTwain->Create(IDD_TWAINUI, parent); CRect newRect; ::GetWindowRect(static_cast(ui.parent().raw()), &newRect); SetWindowPos(guiTwain->m_hWnd, HWND_TOPMOST, newRect.left + 20, newRect.top + 100, 0, 0, SWP_SHOWWINDOW | SWP_NOSIZE | SWP_NOACTIVATE); guiTwain->ShowWindow(SW_SHOWNORMAL); return success(); } void HuagaoDs::DeviceEvent_callback(int eventID, void* usrdata) { HuagaoDs* This = (HuagaoDs*)usrdata; This->onDeviceEvent(eventID); } void HuagaoDs::onDeviceEvent(int eventID) { //if (mapDeviceEvent.count(eventID)) //{ // DeviceEvent::Type dev_type = mapDeviceEvent[eventID]; // auto evt = DeviceEvent::simple((DeviceEvent::Type)dev_type, "HuaGo Device Event"); // devEvent.push(evt); // notifyDeviceEvent(); //} } const BITMAPINFOHEADER* HuagaoDs::header() const noexcept { return reinterpret_cast(bmpData->data() + sizeof(BITMAPFILEHEADER)); } UInt32 HuagaoDs::bytesPerLine() const noexcept { auto dib = header(); return static_cast(dib->biWidth * dib->biBitCount + 31) / 32 * 4; } UInt32 HuagaoDs::bmpSize() const noexcept { return static_cast(bmpData->size()) - sizeof(BITMAPFILEHEADER); } const char* HuagaoDs::bmpBegin() const noexcept { return (const char*)bmpData->cbegin()._Ptr + sizeof(BITMAPFILEHEADER); } const char* HuagaoDs::bmpEnd() const noexcept { return (const char*)bmpData->cend()._Ptr; } void HuagaoDs::updataGscanCap() { GscanJsonConfig js; GScanCap cfs = js.ReadGscanCap(); cfs.resolution_native = 200.0f; cfs.threshold = 128; //FileTools::write_log("D:\\2.txt", "is_autodiscradblank_normal = " + to_string(cfs.is_autodiscradblank_normal) + "is_autodiscradblank_vince =" + to_string(cfs.is_autodiscradblank_vince)); if (cfs.is_autocrop) { m_autoboarderdetcet = true; m_autosize = (UInt16)AutoSize::Auto; } m_scanparam.reset(new GScanCap(cfs)); } Twpp::Result HuagaoDs::startScan() { xtfer = 0; //FileTools::write_log("D:\\1.txt", "RESET TWAIN TRANSFERED IMAGE COUNT"); if (!scanner->IsConnected()) { #ifdef LANXUM scanner->open(0x31c9, 0x8200); #else scanner->open(0x064B, 0x7823); #endif if (!scanner->IsConnected()) return checkDeviceOnline(); } scanner->ResetScanner(); #ifndef G200 scanner->clear_hwerror(); #endif // scanner->config_params(*m_scanparam); //FileTools::write_log("D:\\2.txt", "is_autodiscradblank_normal = " + to_string(m_scanparam->is_autodiscradblank_normal) + " 222is_autodiscradblank_vince =" + to_string(m_scanparam->is_autodiscradblank_vince)); if (m_bIndicator) { //!< cancel button push auto stopFunc = [this]() { if(scanner.get()) scanner->Stop_scan(); //guiIndicator.reset();//取消扫描 关闭进度指示器 if (guiTwain.get()) { ((CTwainUI*)(guiTwain.get()))->EnableID_OKorID_Cancel(true); } onDeviceEvent(USER_STOP); }; guiIndicator = new CIndicatorDlg(stopFunc); guiIndicator->Create(IDD_INDICATOR, guiTwain.get() ? guiTwain.get() : guiBridge.get());//guiTwain ? guiTwain.get() : guiBridge.get() guiIndicator->ShowWindow(SW_SHOWNORMAL); } scanner->Scanner_StartScan(m_scanparam->scannum); if (bmpData->size() > 0) { bmpData.reset(new std::vector); } if (guiTwain.get()) { ((CTwainUI*)(guiTwain.get()))->EnableID_OKorID_Cancel(false); } int retCode = scanner->aquire_bmpdata(*bmpData.get()); if (retCode != 0) { scanner->Set_ErrorCode(0); if (guiIndicator) guiIndicator->DestroyWindow(); //if(guiIndicator.get()) // guiIndicator.reset(); if (retCode != -1) { //MessageBox(guiTwain ? guiTwain->m_hWnd : NULL, noticeMsgMap[retCode], _T("提示"), MB_SYSTEMMODAL | MB_OK | MB_ICONINFORMATION); CString str; str.Format(_T("%d"), retCode); m_pendingXfers = 0; m_memXferYOff = 0; m_haveError = true; ShellExecute(guiTwain ? guiTwain->m_hWnd : NULL, TEXT("open"), GetHidedlgPath(), str, NULL, SW_HIDE); #ifndef G200 scanner->clear_hwerror(); #endif // } if (guiTwain.get()) { ((CTwainUI*)(guiTwain.get()))->EnableID_OKorID_Cancel(true); } if (retCode == 2) return { ReturnCode::Failure, ConditionCode::NoMedia};//无纸 return seqError(); } if (bmpData->size() > 0) { m_haveError = false; return success(); } else { if (guiTwain.get()) { ((CTwainUI*)(guiTwain.get()))->EnableID_OKorID_Cancel(true); } return seqError(); } } void HuagaoDs::saveGscanCapSetting() { TCHAR szIniFile[MAX_PATH] = { 0 }; SHGetSpecialFolderPath(NULL, szIniFile, CSIDL_LOCAL_APPDATA, TRUE); _tcscat(szIniFile, HUAGAO_SCAN); _tcscat(szIniFile, TWAIN_INIPATH); _tcscat(szIniFile, TEXT("\\")); _tcscat(szIniFile, TWAIN_JSON_NAME); GscanJsonConfig js; vector vc; vc.push_back(*m_scanparam); std::string savepath = TCHAR2STRING(szIniFile); js.WriteJsonArrayToFile(vc, savepath); }