void TScannerParameters::loadData(TIStream &is) {
std::string tagName;
while (is.matchTag(tagName)) {
if (tagName == "dpi") {
std::string s = is.getTagAttribute("value");
if (isDouble(s)) m_dpi.m_value = std::stof(s);
} else if (tagName == "brightness") {
std::string s = is.getTagAttribute("value");
if (isDouble(s)) m_brightness.m_value = std::stof(s);
} else if (tagName == "threshold") {
std::string s = is.getTagAttribute("value");
if (isDouble(s)) m_threshold.m_value = std::stof(s);
} else if (tagName == "contrast") {
std::string s = is.getTagAttribute("value");
if (isDouble(s)) m_contrast.m_value = std::stof(s);
} else if (tagName == "autoFeeder") {
m_paperFeeder.m_value = 1.0;
} else if (tagName == "reverseOrder") {
m_reverseOrder = true;
} else if (tagName == "mode") {
std::string scanTypeString = is.getTagAttribute("value");
m_scanType = None;
if (scanTypeString == BlackAndWhite)
m_scanType = BW;
else if (scanTypeString == Graytones)
m_scanType = GR8;
else if (scanTypeString == Rgbcolors)
m_scanType = RGB24;
} else if (tagName == "paper") {
std::string paperFormat = is.getTagAttribute("fmt");
if (paperFormat != "") setPaperFormat(paperFormat);
}
}
m_validatedByCurrentScanner = false;
}
void TFarmTask::loadData(TIStream &is)
{
string tagName;
while (is.matchTag(tagName)) {
if (tagName == "taskId") {
is >> m_id;
} else if (tagName == "parentId") {
void TPinnedRangeSet::loadData(TIStream &is) {
m_ranges.clear();
int prevFrame = 0;
int i = 0;
std::string tagName;
int count = 0;
while (is.matchTag(tagName) && count < 3) {
if (tagName == "permanent") {
while (!is.matchEndTag()) {
i++;
int frame = 0;
is >> frame;
if (i % 2 == 0) m_ranges.push_back(Range(prevFrame, frame));
prevFrame = frame;
}
count++;
} else if (tagName == "temp") {
assert(0);
// OBSOLETO
while (!is.matchEndTag()) {
int frame = 0;
is >> frame;
// m_tempPinned.push_back(frame);
}
count++;
} else if (tagName == "lockedAngle") {
void TXshZeraryFxColumn::loadData(TIStream &is)
{
TPersist *p = 0;
is >> p;
if (!p)
return;
TZeraryColumnFx *fx = dynamic_cast<TZeraryColumnFx *>(p);
fx->addRef();
if (m_zeraryColumnFx) {
m_zeraryColumnFx->setColumn(0);
m_zeraryColumnFx->release();
}
m_zeraryColumnFx = fx;
m_zeraryColumnFx->setColumn(this);
int r0, r1;
bool touched = false;
const TXshCell cell(m_zeraryFxLevel, TFrameId(1));
string tagName;
while (is.matchTag(tagName)) {
if (tagName == "status") {
int status;
is >> status;
setStatusWord(status);
} else if (tagName == "cells") {
/*! Set all scene properties elements, to information contained in \b TIStream \b is.
\sa saveData()
*/
void TSceneProperties::loadData(TIStream &is, bool isLoadingProject)
{
TSceneProperties defaultProperties;
assign(&defaultProperties);
int globFrom = -1, globTo = 0, globStep = 1;
double globFrameRate = -1;
std::string tagName;
*m_outputProp = *m_previewProp = TOutputProperties();
while (is.matchTag(tagName)) {
if (tagName == "projectPath") {
TFilePath projectPath;
is >> projectPath;
} else if (tagName == "range") {
void SkVD::loadData(TIStream &is)
{
string tagName;
while (is.matchTag(tagName)) {
int p;
for (p = 0; p < PARAMS_COUNT; ++p) {
if (tagName == parNames[p]) {
is >> *m_params[p], is.matchEndTag();
break;
}
}
if (p >= PARAMS_COUNT)
is.skipCurrentTag();
}
void TLevelSet::loadFolder(TIStream &is, TFilePath folder) {
std::string s;
is.getTagParam("type", s);
if (s == "default") setDefaultFolder(folder);
while (!is.eos()) {
std::string tagName;
is.matchTag(tagName);
if (tagName == "levels") {
while (!is.eos()) {
TPersist *p = 0;
is >> p;
TXshLevel *xshLevel = dynamic_cast<TXshLevel *>(p);
if (xshLevel && !xshLevel->getChildLevel())
moveLevelToFolder(folder, xshLevel);
}
} else if (tagName == "folder") {
is.getTagParam("name", s);
TFilePath child = createFolder(folder, ::to_wstring(s));
loadFolder(is, child);
} else
throw TException("expected <levels> or <folder>");
is.closeChild();
}
void CleanupParameters::loadData(TIStream &is, bool globalParams)
{
if (globalParams) {
CleanupParameters cp;
assign(&cp);
}
std::string tagName;
m_lineProcessingMode = lpNone;
m_noAntialias = false;
m_postAntialias = false;
while (is.matchTag(tagName)) {
if (tagName == "cleanupPalette") {
m_cleanupPalette->loadData(is);
m_cleanupPalette->setIsCleanupPalette(true);
is.closeChild();
} else if (tagName == "cleanupCamera") {
m_camera.loadData(is);
is.closeChild();
} else if (tagName == "autoCenter") {
m_autocenterType = AUTOCENTER_FDG;
std::string s = is.getTagAttribute("type");
if (s != "" && isInt(s))
m_autocenterType = (AUTOCENTER_TYPE)toInt(s);
s = is.getTagAttribute("pegHoles");
if (s != "" && isInt(s))
m_pegSide = (PEGS_SIDE)toInt(s);
} else if (tagName == "transform") {
std::string s = is.getTagAttribute("flip");
m_flipx = (s.find("x") != std::string::npos);
m_flipy = (s.find("y") != std::string::npos);
s = is.getTagAttribute("rotate");
if (s != "" && isInt(s))
m_rotate = toInt(s);
s = is.getTagAttribute("xoff");
if (s != "" && isDouble(s))
m_offx = toDouble(s);
s = is.getTagAttribute("yoff");
if (s != "" && isDouble(s))
m_offy = toDouble(s);
} else if (tagName == "lineProcessing") {
m_lineProcessingMode = lpGrey;
std::string s = is.getTagAttribute("sharpness");
if (s != "" && isDouble(s))
m_sharpness = toDouble(s);
s = is.getTagAttribute("autoAdjust");
if (s != "" && isDouble(s))
m_autoAdjustMode = (CleanupTypes::AUTO_ADJ_MODE)toInt(s);
s = is.getTagAttribute("mode");
if (s != "" && s == "color")
m_lineProcessingMode = lpColor;
} else if (tagName == "despeckling") {
std::string s = is.getTagAttribute("value");
if (s != "" && isInt(s))
m_despeckling = toInt(s);
} else if (tagName == "aaValue") {
std::string s = is.getTagAttribute("value");
if (s != "" && isInt(s))
m_aaValue = toInt(s);
} else if (tagName == "noAntialias")
m_noAntialias = true;
else if (tagName == "MLAA")
m_postAntialias = true;
else if (tagName == "closestField") {
std::string s = is.getTagAttribute("value");
if (s != "" && isDouble(s))
m_closestField = toDouble(s);
} else if (tagName == "fdg") {
std::string s = is.getTagAttribute("name");
if (s != "")
setFdgByName(s);
} else if (tagName == "path") {
is >> m_path;
is.closeChild();
} else