572 lines
17 KiB
C++
572 lines
17 KiB
C++
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#include "tscanner.h"
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#include "tscannertwain.h"
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#include "texception.h"
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#include "tscannerepson.h"
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#include "tstream.h"
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#include "tconvert.h"
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#include "tfilepath.h"
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#include "tfilepath_io.h"
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#include "tenv.h"
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#include "tsystem.h"
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extern "C" {
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#include "../common/twain/ttwain_util.h"
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}
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//===================================================================
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//
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// TScanParam
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//
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//-------------------------------------------------------------------
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void TScanParam::update(const TScanParam &model) {
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m_supported = model.m_supported;
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m_min = model.m_min;
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m_max = model.m_max;
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m_def = model.m_def;
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m_step = model.m_step;
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m_value = tcrop(m_value, m_min, m_max);
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}
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//===================================================================
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//
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// TScannerParameters
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//
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//-------------------------------------------------------------------
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const std::string BlackAndWhite = "Black & White";
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const std::string Graytones = "Graytones";
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const std::string Rgbcolors = "RGB Color";
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//-------------------------------------------------------------------
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TScannerParameters::TScannerParameters()
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: m_bw(false)
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, m_gray(false)
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, m_rgb(false)
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, m_scanType(None)
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, m_scanArea(TRectD())
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, m_cropBox(TRectD())
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, m_isPreview(false)
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, m_maxPaperSize(TDimensionD(0, 0))
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, m_paperOverflow(false)
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, m_brightness()
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, m_contrast()
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, m_threshold()
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, m_dpi()
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, m_paperFeeder()
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, m_twainVersion()
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, m_manufacturer()
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, m_prodFamily()
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, m_productName()
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, m_version()
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, m_reverseOrder(false)
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, m_validatedByCurrentScanner(false) {
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m_threshold.m_value = 127;
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m_brightness.m_value = 127;
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}
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//-------------------------------------------------------------------------------------------------
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TScannerParameters::~TScannerParameters() {}
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//-------------------------------------------------------------------------------------------------
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void TScannerParameters::assign(const TScannerParameters *src) { *this = *src; }
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//-------------------------------------------------------------------------------------------------
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void TScannerParameters::setSupportedTypes(bool bw, bool gray, bool rgb) {
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m_bw = bw;
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m_gray = gray;
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m_rgb = rgb;
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if (!m_bw && !m_gray && !m_rgb) {
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m_scanType = None;
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} else {
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switch (m_scanType) {
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case BW:
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if (!m_bw) m_scanType = m_gray ? GR8 : RGB24;
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break;
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case GR8:
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if (!m_gray) m_scanType = m_rgb ? RGB24 : BW;
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break;
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case RGB24:
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if (!m_rgb) m_scanType = m_gray ? GR8 : BW;
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break;
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case None:
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if (gray)
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m_scanType = GR8;
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else {
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if (rgb)
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m_scanType = RGB24;
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else if (bw)
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m_scanType = BW;
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}
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break;
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}
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}
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}
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//-------------------------------------------------------------------------------------------------
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bool TScannerParameters::isSupported(ScanType scanType) const {
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switch (scanType) {
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case BW:
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return m_bw;
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case GR8:
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return m_gray;
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case RGB24:
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return m_rgb;
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default:
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assert(0);
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return false;
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}
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}
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//-------------------------------------------------------------------------------------------------
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void TScannerParameters::cropScanArea() {
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m_paperOverflow = false;
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if (m_maxPaperSize.lx == 0 || m_maxPaperSize.ly == 0) {
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// probabilmente non e' ancora stato selezionato uno scanner e quindi non e'
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// definita una maxPaperSize
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return;
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}
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assert(m_maxPaperSize.lx > 0 && m_maxPaperSize.ly > 0);
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if (m_scanArea.x1 > m_maxPaperSize.lx) {
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m_paperOverflow = true;
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m_scanArea.x1 = m_maxPaperSize.lx;
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}
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if (m_scanArea.y1 > m_maxPaperSize.ly) {
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m_paperOverflow = true;
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m_scanArea.y1 = m_maxPaperSize.ly;
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}
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}
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//-------------------------------------------------------------------------------------------------
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void TScannerParameters::setMaxPaperSize(double maxWidth, double maxHeight) {
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// assert(maxWidth>0 && maxHeight>0);
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m_maxPaperSize = TDimensionD(maxWidth, maxHeight);
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cropScanArea();
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}
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//-----------------------------------------------------------------------------
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void TScannerParameters::setPaperFormat(std::string paperFormat) {
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TPaperFormatManager *formatManager = TPaperFormatManager::instance();
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assert(formatManager->isValidFormat(paperFormat));
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if (!formatManager->isValidFormat(paperFormat))
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paperFormat = formatManager->getDefaultFormat();
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m_paperFormat = paperFormat;
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TDimensionD d = TPaperFormatManager::instance()->getSize(paperFormat);
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m_scanArea = TRectD(TPointD(0, 0), d);
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cropScanArea();
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if (m_cropBox == TRectD()) m_cropBox = m_scanArea;
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}
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//-----------------------------------------------------------------------------
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void TScannerParameters::updatePaperFormat() {
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if (m_paperFormat == "")
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m_paperFormat = TPaperFormatManager::instance()->getDefaultFormat();
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setPaperFormat(m_paperFormat);
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}
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//-----------------------------------------------------------------------------
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void TScannerParameters::setScanType(ScanType scanType) {
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assert(scanType == None || scanType == BW || scanType == GR8 ||
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scanType == RGB24);
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m_scanType = scanType;
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}
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//-----------------------------------------------------------------------------
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void TScannerParameters::adaptToCurrentScanner() {
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try {
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if (TScanner::instance()->isDeviceSelected()) {
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TScanner::instance()->updateParameters(*this);
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m_validatedByCurrentScanner = true;
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}
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} catch (TException &) {
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// TMessage::error("%1", e.getMessage());
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}
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}
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//-------------------------------------------------------------------------------------------------
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void TScannerParameters::saveData(TOStream &os) const {
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std::map<std::string, std::string> attr;
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attr["fmt"] = m_paperFormat;
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os.openCloseChild("paper", attr);
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if (m_paperFeeder.m_value == 1.0) {
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attr.clear();
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os.openCloseChild("autoFeeder", attr);
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}
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if (m_reverseOrder) {
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attr.clear();
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os.openCloseChild("reverseOrder", attr);
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}
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if (m_scanType != None) {
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std::string scanTypeString = Rgbcolors;
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switch (m_scanType) {
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case BW:
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scanTypeString = BlackAndWhite;
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break;
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case GR8:
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scanTypeString = Graytones;
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break;
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case RGB24:
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scanTypeString = Rgbcolors;
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break;
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}
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attr.clear();
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attr["value"] = scanTypeString;
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os.openCloseChild("mode", attr);
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}
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if (m_dpi.m_supported) {
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attr.clear();
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attr["value"] = std::to_string(m_dpi.m_value);
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os.openCloseChild("dpi", attr);
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}
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if (m_brightness.m_supported) {
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attr.clear();
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attr["value"] = std::to_string(m_brightness.m_value);
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os.openCloseChild("brightness", attr);
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}
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if (m_contrast.m_supported) {
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attr.clear();
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attr["value"] = std::to_string(m_contrast.m_value);
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os.openCloseChild("contrast", attr);
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}
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if (m_threshold.m_supported) {
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attr.clear();
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attr["value"] = std::to_string(m_threshold.m_value);
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os.openCloseChild("threshold", attr);
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}
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}
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//-------------------------------------------------------------------------------------------------
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void TScannerParameters::loadData(TIStream &is) {
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std::string tagName;
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while (is.matchTag(tagName)) {
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if (tagName == "dpi") {
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std::string s = is.getTagAttribute("value");
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if (isDouble(s)) m_dpi.m_value = std::stof(s);
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} else if (tagName == "brightness") {
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std::string s = is.getTagAttribute("value");
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if (isDouble(s)) m_brightness.m_value = std::stof(s);
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} else if (tagName == "threshold") {
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std::string s = is.getTagAttribute("value");
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if (isDouble(s)) m_threshold.m_value = std::stof(s);
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} else if (tagName == "contrast") {
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std::string s = is.getTagAttribute("value");
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if (isDouble(s)) m_contrast.m_value = std::stof(s);
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} else if (tagName == "autoFeeder") {
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m_paperFeeder.m_value = 1.0;
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} else if (tagName == "reverseOrder") {
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m_reverseOrder = true;
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} else if (tagName == "mode") {
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std::string scanTypeString = is.getTagAttribute("value");
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m_scanType = None;
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if (scanTypeString == BlackAndWhite)
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m_scanType = BW;
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else if (scanTypeString == Graytones)
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m_scanType = GR8;
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else if (scanTypeString == Rgbcolors)
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m_scanType = RGB24;
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} else if (tagName == "paper") {
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std::string paperFormat = is.getTagAttribute("fmt");
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if (paperFormat != "") setPaperFormat(paperFormat);
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}
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}
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m_validatedByCurrentScanner = false;
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}
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//===================================================================
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//
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// TScanner
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//
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//-------------------------------------------------------------------
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namespace {
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TScanner *instanceTwain = 0;
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TScanner *instanceEpson = 0;
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}
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//-------------------------------------------------------------------
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bool TScanner::m_isTwain = true;
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//-------------------------------------------------------------------
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namespace {
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class Cleaner {
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public:
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bool m_activated;
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Cleaner() : m_activated(false) {}
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~Cleaner() {
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TScanner *scannerToDestroy = 0;
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if (m_activated) scannerToDestroy = TScanner::instance();
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delete scannerToDestroy;
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}
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};
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Cleaner MyCleaner;
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};
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//-------------------------------------------------------------------
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// #define DUMMYSCAN
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#ifdef DUMMYSCAN
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class TScannerDummy final : public TScanner {
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public:
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TScannerDummy() {}
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~TScannerDummy() {}
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void selectDevice() {}
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bool isDeviceAvailable() { return true; }
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void updateParameters(TScannerParameters ¶meters) {
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parameters.setSupportedTypes(false, true, true);
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parameters.setMaxPaperSize(1000., 1000.);
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parameters.enablePaperFeeder(true);
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parameters.m_brightness.update(TScanParam(0, 255, 128, 1));
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parameters.m_contrast.update(TScanParam(0, 255, 128, 1));
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parameters.m_threshold.update(TScanParam(0, 255, 128, 1));
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parameters.m_dpi.update(TScanParam(60, 1200, 100, 1));
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setName("DummyScanner");
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}
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bool isTwain() const { return true; }
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void acquire(const TScannerParameters ¶m, int paperCount) { return; }
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bool isAreaSupported() { return true; }
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};
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#endif
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//-----------------------------------------------------------------------------
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TScanner *TScanner::instance() {
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MyCleaner.m_activated = true;
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#ifdef DUMMYSCAN
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static TScannerDummy dummy = TScannerDummy();
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return &dummy;
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#else
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if (m_isTwain) {
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if (instanceEpson) {
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TScannerEpson *se = (TScannerEpson *)instanceEpson;
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se->closeIO();
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// delete m_instanceEpson; //e' singletone, perche' buttarlo? (vinz)
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// m_instanceEpson=0;
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}
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if (!instanceTwain) instanceTwain = new TScannerTwain();
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} else if (!m_isTwain) {
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if (instanceTwain) {
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// delete m_instanceTwain; //e' singletone, perche' buttarlo? (vinz)
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// m_instanceTwain=0;
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TTWAIN_CloseAll(0);
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}
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if (!instanceEpson) instanceEpson = new TScannerEpson();
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}
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return (m_isTwain) ? instanceTwain : instanceEpson;
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#endif
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}
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//-----------------------------------------------------------------------------
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TScanner::TScanner() : m_paperLeft(0) {}
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//-----------------------------------------------------------------------------
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TScanner::~TScanner() {
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if (instanceEpson) {
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TScannerEpson *se = (TScannerEpson *)instanceEpson;
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se->closeIO();
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}
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}
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//-----------------------------------------------------------------------------
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void TScanner::addListener(TScannerListener *lst) { m_listeners.insert(lst); }
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//-----------------------------------------------------------------------------
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void TScanner::removeListener(TScannerListener *lst) { m_listeners.erase(lst); }
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//-----------------------------------------------------------------------------
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void TScanner::notifyImageDone(const TRasterImageP &img) {
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std::set<TScannerListener *>::iterator it = m_listeners.begin();
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for (; it != m_listeners.end(); ++it) {
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(*it)->onImage(img);
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}
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}
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//-----------------------------------------------------------------------------
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void TScanner::notifyNextPaper() {
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std::set<TScannerListener *>::iterator it = m_listeners.begin();
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for (; it != m_listeners.end(); ++it) {
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(*it)->onNextPaper();
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}
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}
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//-----------------------------------------------------------------------------
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void TScanner::notifyAutomaticallyNextPaper() {
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std::set<TScannerListener *>::iterator it = m_listeners.begin();
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for (; it != m_listeners.end(); ++it) {
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(*it)->onAutomaticallyNextPaper();
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}
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}
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//-----------------------------------------------------------------------------
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void TScanner::notifyError() {
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std::set<TScannerListener *>::iterator it = m_listeners.begin();
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for (; it != m_listeners.end(); ++it) {
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(*it)->onError();
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}
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}
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//-----------------------------------------------------------------------------
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/*! If one listener is set to cancel return true. */
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bool TScanner::isScanningCanceled() {
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std::set<TScannerListener *>::iterator it = m_listeners.begin();
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for (; it != m_listeners.end(); ++it) {
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if ((*it)->isCanceled()) return true;
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}
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return false;
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}
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//===================================================================
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//
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// TPaperFormatManager
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//
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//-------------------------------------------------------------------
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namespace {
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const std::pair<std::string, TDimensionD> defaultPaperFormat(
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"A4 paper", TDimensionD(210.00, 297.00));
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}
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//-----------------------------------------------------------------------------
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TPaperFormatManager::TPaperFormatManager() {
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readPaperFormats();
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// se non c'e' aggiungo il formato di default. In questo modo e' sempre
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// definito
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if (!isValidFormat(defaultPaperFormat.first))
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m_formats[defaultPaperFormat.first] = Format(defaultPaperFormat.second);
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}
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//-----------------------------------------------------------------------------
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TPaperFormatManager *TPaperFormatManager::instance() {
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static TPaperFormatManager _instance;
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return &_instance;
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}
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//-----------------------------------------------------------------------------
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void TPaperFormatManager::getFormats(std::vector<std::string> &names) const {
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for (FormatTable::const_iterator it = m_formats.begin();
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it != m_formats.end(); ++it)
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names.push_back(it->first);
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}
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//-----------------------------------------------------------------------------
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TDimensionD TPaperFormatManager::getSize(std::string name) const {
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FormatTable::const_iterator it = m_formats.find(name);
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if (it == m_formats.end())
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return TDimensionD(0., 0.);
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else
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return it->second.m_size;
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}
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//-----------------------------------------------------------------------------
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bool TPaperFormatManager::isValidFormat(std::string name) const {
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FormatTable::const_iterator it = m_formats.find(name);
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return it != m_formats.end();
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}
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//-----------------------------------------------------------------------------
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std::string TPaperFormatManager::getDefaultFormat() const {
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return defaultPaperFormat.first;
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}
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//-----------------------------------------------------------------------------
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void TPaperFormatManager::readPaperFormat(const TFilePath &path) {
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if (path.getType() != "pap") return;
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Tifstream is(path);
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std::string name;
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TDimensionD size(0, 0);
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while (is) {
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char buffer[1024];
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is.getline(buffer, sizeof buffer);
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// i e' il carattere successivo alla fine della linea
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unsigned int i = 0;
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for (i = 0; i < sizeof buffer && buffer[i]; i++) {
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}
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if (i > 0 && buffer[i - 1] == '\n') i--;
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while (i > 0 && buffer[i - 1] == ' ') i--;
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unsigned int j = 0;
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unsigned int k = 0;
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// j e' il carattere successivo alla fine del primo token
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for (j = 0; j < i && buffer[j] != ' '; j++) {
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}
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// k e' l'inizio del secondo token (se c'e', altrimenti == i)
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for (k = j; k < i && buffer[k] == ' '; k++) {
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}
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std::string value;
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if (k < i) value = std::string(buffer + k, i - k);
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if (buffer[0] == '#') {
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if (k < i && name == "") name = value;
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} else if (std::string(buffer).find("WIDTH") == 0) {
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if (isDouble(value)) size.lx = std::stod(value);
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} else if (std::string(buffer).find("LENGTH") == 0) {
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if (isDouble(value)) size.ly = std::stod(value);
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}
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}
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if (name == "" || size.lx == 0 || size.ly == 0) {
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// TMessage::error("Error reading paper format file : %1",path);
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} else
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m_formats[name] = Format(size);
|
|
}
|
|
|
|
//-----------------------------------------------------------------------------
|
|
|
|
void TPaperFormatManager::readPaperFormats() {
|
|
TFilePathSet fps;
|
|
TFilePath papDir = TEnv::getConfigDir() + "pap";
|
|
if (!TFileStatus(papDir).isDirectory()) {
|
|
// TMessage::error("E_CanNotReadDirectory_%1", papDir);
|
|
return;
|
|
}
|
|
|
|
try {
|
|
fps = TSystem::readDirectory(papDir);
|
|
} catch (TException &) {
|
|
// TMessage::error("E_CanNotReadDirectory_%1", papDir);
|
|
return;
|
|
}
|
|
|
|
TFilePathSet::const_iterator it = fps.begin();
|
|
for (; it != fps.end(); ++it) readPaperFormat(*it);
|
|
}
|