//============================================================================== XmlElement* PaintElementPath::createXml() const { XmlElement* e = new XmlElement (getTagName()); position.applyToXml (*e); addColourAttributes (e); e->setAttribute ("nonZeroWinding", nonZeroWinding); e->addTextElement (pathToString()); return e; }
std::ostream& ossimNitfCsccgaTag::print(std::ostream& out, const std::string& prefix) const { std::string pfx = prefix; pfx += getTagName(); pfx += "."; out << setiosflags(ios::left) << pfx << std::setw(24) << "CETAG:" << getTagName() << "\n" << pfx << std::setw(24) << "CEL:" << getTagLength() << "\n" << pfx << std::setw(24) << "CCG_SOURCE:" << m_ccgSource << "\n" << pfx << std::setw(24) << "CCG_SOURCE:" << m_regSensor << "\n" << pfx << std::setw(24) << "ORIGIN_LINE:" << m_originLine << "\n" << pfx << std::setw(24) << "ORIGIN_SAMPLE:" << m_originSample << "\n" << pfx << std::setw(24) << "AS_CELL_SIZE:" << m_asCellSize << "\n" << pfx << std::setw(24) << "CS_CELL_SIZE:" << m_csCellSize << "\n" << pfx << std::setw(24) << "CCG_MAX_LINE:" << m_ccgMaxLine << "\n" << pfx << std::setw(24) << "CCG_MAX_SAMPLE:" << m_ccgMaxSample << "\n"; return out; }
std::string ExplorerElement::toString() { char ach[200]; sprintf (ach, " %p->%p ( %s )", this, m_pElement, m_internalId.c_str()); std::string s = "ExplorerElement "; std::string tag; getTagName(tag); s += tag; s += ach; return s; }
void XUIObject::destroyChild(XUIObject *child) { int pos = m_children.searchItem(child); if (pos < 0) return; m_children.removeByPos(pos); svc_xuiObject *svc = child->getOwnerService(); if (svc == NULL) { DebugString("Owner service is NULL for XUIObject %s", getTagName()); } else { svc->destroy(child); } reflow(); }
void write(TextStream& ts, const RenderPath& path, int indent) { writeIndent(ts, indent); ts << path.renderName(); if (path.element()) { String tagName = getTagName(static_cast<SVGStyledElement*>(path.element())); if (!tagName.isEmpty()) ts << " {" << tagName << "}"; } ts << path << "\n"; }
void write(TextStream &ts, const RenderPath &path, int indent) { writeIndent(ts, indent); ts << path.renderName(); if (path.element()) { DeprecatedString tagName = getTagName(path.element()); if (!tagName.isEmpty()) ts << " {" << tagName << "}"; } ts << path << endl; }
std::ostream& rspfNitfIchipbTag::print(std::ostream& out, const std::string& prefix) const { std::string pfx = prefix; pfx += getTagName(); pfx += "."; out << setiosflags(std::ios::left) << pfx << std::setw(24) << "CETAG:" << getTagName() << "\n" << pfx << std::setw(24) << "CEL:" << getTagLength() << "\n" << pfx << std::setw(24) << "XFRM_FLAG:" << theXfrmFlag << "\n" << pfx << std::setw(24) << "SCALE_FACTOR:" << theScaleFactor << "\n" << pfx << std::setw(24) << "ANAMRPH_CORR:" << theAnamrphCorr << "\n" << pfx << std::setw(24) << "SCANBLK_NUM:" << theScanBlock << "\n" << pfx << std::setw(24) << "OP_ROW_11:" << theOpRow11 << "\n" << pfx << std::setw(24) << "OP_COL_11:" << theOpCol11 << "\n" << pfx << std::setw(24) << "OP_ROW_12:" << theOpRow12 << "\n" << pfx << std::setw(24) << "OP_COL_12:" << theOpCol12 << "\n" << pfx << std::setw(24) << "OP_ROW_21:" << theOpRow21 << "\n" << pfx << std::setw(24) << "OP_COL_21:" << theOpCol21 << "\n" << pfx << std::setw(24) << "OP_ROW_22:" << theOpRow22 << "\n" << pfx << std::setw(24) << "OP_COL_22:" << theOpCol22 << "\n" << pfx << std::setw(24) << "FI_ROW_11:" << theFiRow11 << "\n" << pfx << std::setw(24) << "FI_COL_11:" << theFiCol11 << "\n" << pfx << std::setw(24) << "FI_ROW_12:" << theFiRow12 << "\n" << pfx << std::setw(24) << "FI_COL_12:" << theFiCol12 << "\n" << pfx << std::setw(24) << "FI_ROW_21:" << theFiRow21 << "\n" << pfx << std::setw(24) << "FI_COL_21:" << theFiCol21 << "\n" << pfx << std::setw(24) << "FI_ROW_22:" << theFiRow22 << "\n" << pfx << std::setw(24) << "FI_COL_22:" << theFiCol22 << "\n" << pfx << std::setw(24) << "FI_ROW:" << theFullImageRow << "\n" << pfx << std::setw(24) << "FI_COL:" << theFullImageCol << std::endl; return out; }
std::ostream& ossimNitfSensraTag::print( std::ostream& out, const std::string& prefix) const { std::string pfx = prefix; pfx += getTagName(); pfx += "."; out << std::setiosflags(std::ios::left) << pfx << std::setw(24) << "CETAG:" << getTagName() << "\n" << pfx << std::setw(24) << "CEL:" << getTagLength() << "\n" << pfx << std::setw(24) << "REFROW:" << theRefRow << "\n" << pfx << std::setw(24) << "REFCOL:" << theRefCol << "\n" << pfx << std::setw(24) << "SENSORMODEL:" << theSensorModel<< "\n" << pfx << std::setw(24) << "SENSORMOUNT:" << theSensorMount << "\n" << pfx << std::setw(24) << "SENSORLOC:" << theSensorLoc << "\n" << pfx << std::setw(24) << "SENSORALTSRC:" << theSensorAltSrc<< "\n" << pfx << std::setw(24) << "SENSORALT:" << theSensorAlt << "\n" << pfx << std::setw(24) << "SENSORALTUNIT:" << theSensorAltUnit << "\n" << pfx << std::setw(24) << "SENSORAGL:" << theSensorAgl << "\n" << pfx << std::setw(24) << "SENSORPITCH:" << theSensorPitch << "\n" << pfx << std::setw(24) << "SENSORROLL:" << theSensorRoll<< "\n" << pfx << std::setw(24) << "SENSORYAW:" << theSensorYaw << "\n" << pfx << std::setw(24) << "PLATFORMPITCH:" << thePlatformPitch << "\n" << pfx << std::setw(24) << "PLATFORMROLL:" << thePlatformRoll << "\n" << pfx << std::setw(24) << "PLATFORMHDG:" << thePlatformHdg << "\n" << pfx << std::setw(24) << "GROUNDSPDSRC:" << theGroundSpdSrc << "\n" << pfx << std::setw(24) << "GROUNDSPEED:" << theGroundSpeed << "\n" << pfx << std::setw(24) << "GROUNDSPDUNIT:" << theGroundSpdUnit << "\n" << pfx << std::setw(24) << "GROUNDTRACK:" << theGroundTrack << "\n" << pfx << std::setw(24) << "VERTICALVEL:" << theVerticalVel<< "\n" << pfx << std::setw(24) << "VERTVELUNIT:" << theVertVelUnit << "\n" << pfx << std::setw(24) << "SWATHFRAMES:" << theSwathFrames<< "\n" << pfx << std::setw(24) << "NSWATHS:" << theNSwaths << "\n" << pfx << std::setw(24) << "SPOTNUM:" << theSpotNum << "\n"; return out; }
std::ostream& ossimNitfBlockaTag::print(std::ostream& out, const std::string& prefix) const { std::string pfx = prefix; pfx += getTagName(); pfx += "."; // Grab the corners parsed into points. ossimDpt ulPt; ossimDpt urPt; ossimDpt lrPt; ossimDpt llPt; getFrfcLoc(ulPt); getFrlcLoc(urPt); getLrlcLoc(lrPt); getLrfcLoc(llPt); out << setiosflags(ios::left) << pfx << std::setw(24) << "CETAG:" << getTagName() << "\n" << pfx << std::setw(24) << "CEL:" << getTagLength() << "\n" << pfx << std::setw(24) << "BLOCK_INSTANCE:" << theBlockInstance << "\n" << pfx << std::setw(24) << "N_GRAY:" << theNGray << "\n" << pfx << std::setw(24) << "L_LINES:" << theLLines << "\n" << pfx << std::setw(24) << "LAYOVER_ANGLE:" << theLayoverAngle << "\n" << pfx << std::setw(24) << "SHADOW_ANGLE:" << theShadowAngle << "\n" << pfx << std::setw(24) << "FIELD_6:" << theField6 << "\n" << pfx << std::setw(24) << "FRLC_LOC:" << theFrlcLoc << "\n" << pfx << std::setw(24) << "LRLC_LOC:" << theLrlcLoc << "\n" << pfx << std::setw(24) << "LRFC_LOC:" << theLrfcLoc << "\n" << pfx << std::setw(24) << "FRFC_LOC:" << theFrfcLoc << "\n" << pfx << std::setw(24) << "FIELD_11:" << theField11 << "\n" << pfx << std::setw(24) << "upper left:" << ulPt << "\n" << pfx << std::setw(24) << "upper right:" << urPt << "\n" << pfx << std::setw(24) << "lower right:" << lrPt << "\n" << pfx << std::setw(24) << "lower left:" << llPt << "\n"; return out; }
std::ostream& ossimNitfExoptaTag::print(std::ostream& out, const std::string& prefix )const { std::string pfx = prefix; pfx += getTagName(); pfx += "."; out << setiosflags(ios::left) << pfx << std::setw(24) << "CETAG:" << getTagName() << "\n" << pfx << std::setw(24) << "CEL:" << getTagLength() << "\n" << pfx << std::setw(24) << "ANGLE_TO_NORTH:" << m_angleToNorth<< "\n" << pfx << std::setw(24) << "DYNAMIC_RANGE:" << m_dynamicRange<< "\n" << pfx << std::setw(24) << "OBL_ANG:" << m_oblAng<< "\n" << pfx << std::setw(24) << "ROLL_ANG:" << m_rollAng<< "\n" << pfx << std::setw(24) << "PRIME_ID:" << m_primeId<< "\n" << pfx << std::setw(24) << "PRIME_BE:" << m_primeBe<< "\n" << pfx << std::setw(24) << "N_SEC" << m_nSec<< "\n" << pfx << std::setw(24) << "N_SEG:" << m_nSeg<< "\n" << pfx << std::setw(24) << "MAX_LP_SEG:" << m_maxLpSeg<< "\n" << pfx << std::setw(24) << "SUN_EL:" << m_sunEl<< "\n" << pfx << std::setw(24) << "SUN_AZ:" << m_sunAz<< "\n"; return out; }
std::ostream& ossimNitfUnknownTag::print(std::ostream& out, const std::string& prefix) const { std::string pfx = prefix; pfx += getTagName(); pfx += "."; out << setiosflags(std::ios::left) << pfx << std::setw(24) << "CETAG:" << getTagName() << "\n" << pfx << std::setw(24) << "CEL:" << getTagLength() << "\n" << pfx << std::setw(24) << "unformatted_tag_data: "; if (tagDataIsAscii()) { out << m_tagData << "\n"; } else { out << "binary not displayed\n"; } return out; }
void write(TextStream& ts, const RenderSVGInlineText& text, int indent) { writeIndent(ts, indent); ts << text.renderName(); if (text.element()) { String tagName = getTagName(static_cast<SVGStyledElement*>(text.element())); if (!tagName.isEmpty()) ts << " {" << tagName << "}"; } ts << " at (" << text.xPos() << "," << text.yPos() << ") size " << text.width() << "x" << text.height() << "\n"; writeSVGInlineText(ts, text, indent); }
void XUIObject::destroyChildren(PtrList<XUIObject> *deletelist) { foreach(*deletelist) XUIObject *child = deletelist->getfor(); int pos = m_children.searchItem(child); if (pos < 0) return; m_children.removeByPos(pos); svc_xuiObject *svc = child->getOwnerService(); if (svc == NULL) { DebugString("Owner service is NULL for XUIObject %s", getTagName()); } else { svc->destroy(child); } endfor; reflow(); }
void stackInOut(bufferarray *block, char* loc, Bcstype bt, stack* st, bcs* r){ char *str = (char*)malloc(NAMELEN * sizeof(char)); strcpy(str, getTagName(str, loc, bt)); if(st->top>-1 && strcmp(str, st->data[st->top]->tagname) == 0){ //printf("块号:%d\t出栈前\t栈顶元素:%s\t栈内元素个数%d\n", block->bufnum, st->data[st->top]->tagname, st->top+1); lable *delnode = Pop(st); free(delnode); free(str); }else{ if(str[0] == '\0') return; lable* node = creatData(str, bt); Push(st, node); //printf("块号:%d\t入栈后\t栈顶元素:%s\t栈内元素个数%d\n", block->bufnum, str,st->top+1); } }
/// Load parameter value from XML. /// /// @param xmlDocument XML document to load from /// void ParString::loadFromXml(XmlElement *xmlDocument) { // get parameter's element from XML document XmlElement *xmlParameter = xmlDocument->getChildByName(getTagName()); // parameter's element found if (xmlParameter) { // get stored value from attribute "value" (or use empty string) String newValue = xmlParameter->getStringAttribute("value", String()); // update value setText(newValue); } }
bool PaintElementPath::loadFromXml (const XmlElement& xml) { if (xml.hasTagName (getTagName())) { position.restoreFromXml (xml, position); loadColourAttributes (xml); nonZeroWinding = xml.getBoolAttribute ("nonZeroWinding", true); restorePathFromString (xml.getAllSubText().trim()); return true; } jassertfalse; return false; }
void write(TextStream& ts, const RenderSVGText& text, int indent) { writeIndent(ts, indent); ts << text.renderName(); if (text.element()) { String tagName = getTagName(static_cast<SVGStyledElement*>(text.element())); if (!tagName.isEmpty()) ts << " {" << tagName << "}"; } ts << text << "\n"; for (RenderObject* child = text.firstChild(); child; child = child->nextSibling()) write(ts, *child, indent + 1); }
/// Store parameter value as XML. /// /// @param xmlDocument XML document to store in /// void ParString::storeAsXml(XmlElement *xmlDocument) { // create new XML element with parameter's tag name (will be // deleted by XML document) XmlElement *xmlParameter = new XmlElement(getTagName()); // XML element was successfully created if (xmlParameter) { // set attribute "value" to current value xmlParameter->setAttribute("value", getText()); // add new element to XML document xmlDocument->addChildElement(xmlParameter); } }
void write(TextStream &ts, const RenderSVGContainer &container, int indent) { writeIndent(ts, indent); ts << container.renderName(); if (container.element()) { DeprecatedString tagName = getTagName(container.element()); if (!tagName.isEmpty()) ts << " {" << tagName << "}"; } ts << container << endl; for (RenderObject *child = container.firstChild(); child != NULL; child = child->nextSibling()) write(ts, *child, indent + 1); }
void ATemplateNodeHandler_LUA::Node::fromAFile(AFile& aFile) { AString endToken; endToken.append('/'); endToken.append(getTagName()); m_BlockData.clear(); //a_Locate end tag in file if not found throw exception, MUST have end if (AConstant::npos == aFile.readUntil(m_BlockData, endToken)) { aFile.readUntilEOF(m_BlockData); } else { m_BlockData.rremoveUntilNotOneOf(AXmlElement::sstr_StartOrWhitespace); aFile.skipUntilNotOneOf(AXmlElement::sstr_EndOrWhitespace); } //a_Allow derived nodes to process data after read _handleDataAfterRead(); }
std::ostream& ossimNitfCsproaTag::print(std::ostream& out, const std::string& prefix) const { std::string pfx = prefix; pfx += getTagLength(); pfx += "."; out << setiosflags(ios::left) << pfx << std::setw(24) << "CETAG:" << getTagName() << "\n" << pfx << std::setw(24) << "CEL:" << getTagLength() << "\n" << pfx << std::setw(24) << "RESERVED1:" << m_reserved1 << "\n" << pfx << std::setw(24) << "RESERVED2:" << m_reserved2 << "\n" << pfx << std::setw(24) << "RESERVED3:" << m_reserved3 << "\n" << pfx << std::setw(24) << "RESERVED4:" << m_reserved4 << "\n" << pfx << std::setw(24) << "RESERVED5:" << m_reserved5 << "\n" << pfx << std::setw(24) << "RESERVED6:" << m_reserved6 << "\n" << pfx << std::setw(24) << "RESERVED7:" << m_reserved7 << "\n" << pfx << std::setw(24) << "RESERVED8:" << m_reserved8 << "\n" << pfx << std::setw(24) << "RESERVED9:" << m_reserved9 << "\n" << pfx << std::setw(24) << "BWC:" << m_bwc << "\n"; return out; }
/** * Creates new opening text from current attributes. This function scans * all parsed attributes (that includes newly added ones created through * setAttribute() call) and creates new opening text (including the tag * name and braces, of course); attributes are separated by single * space and all values are double-qouted. * */ void HtmlNode::unparseAttributes() { if (!isTag()) { return; } std::string opening("<"); opening.append(getTagName()); Attributes::iterator e = attributes_.end(); for (Attributes::iterator it = attributes_.begin(); it != e; ++it) { // FIXME - this shall be done nicer (somehow) opening.append(" "); opening.append(it->first); opening.append("=\""); opening.append(it->second); opening.append("\""); } //FIXME - add /> on empty tags opening.append(">"); openingText_ = opening; }
void VerbatimXmlComponent::renderBegin() const { auto context = getContext(); auto attribs = getRenderAttributes(context); /*we ALWAYS use the provided id for plain xml tags, regardless of naming *containers etc. this means plain html will always work as expected - and *no plain html component needs its id for anything other than css!*/ auto& id = attribs["id"]; auto sepPos = id.find_last_of(Component::NAMING_SEPARATOR); if (sepPos != id.npos) { id = id.substr(sepPos + 1); } //the root element needs to declare the xhtml namespace if (getTagName() == "html" && attribs.find("xmlns") == attribs.end()) { attribs["xmlns"] = "http://www.w3.org/1999/xhtml"; } getWriter() <<"<" <<impl->getOriginalTag() <<Util::toString(attribs) <<">" <<context->evaluateString(getTextValue()); }
/// Load parameter value from XML. /// /// @param xmlDocument XML document to load from /// void Parameter::loadFromXml(XmlElement *xmlDocument) { float realValue; // get parameter's element from XML document XmlElement *xmlParameter = xmlDocument->getChildByName(getTagName()); // parameter's element found if (xmlParameter) { // get stored value from attribute "value" (or use default // real value) realValue = (float) xmlParameter->getDoubleAttribute("value", getDefaultRealFloat()); } // otherwise else { // use default real value realValue = getDefaultRealFloat(); } // update real value setRealFloat(realValue); }
int ofxGuiObject::saveObjectData() { int id = mGlobals->mXml.addTag("OBJECT"); mGlobals->mXml.setValue("OBJECT:ID", mParamId, id); mGlobals->mXml.setValue("OBJECT:TYPE", getTagName(), id); mGlobals->mXml.setValue("OBJECT:NAME", mParamName, id); mGlobals->mXml.setValue("OBJECT:LEFT", mObjX, id); mGlobals->mXml.setValue("OBJECT:TOP", mObjY, id); // mGlobals->mXml.setValue("OBJECT:WIDTH", mObjWidth, id); // mGlobals->mXml.setValue("OBJECT:HEIGHT", mObjHeight, id); // mGlobals->mXml.setValue("OBJECT:CTRX", mCtrX, id); // mGlobals->mXml.setValue("OBJECT:CTRY", mCtrY, id); mGlobals->mXml.setValue("OBJECT:WIDTH", mCtrWidth, id); mGlobals->mXml.setValue("OBJECT:HEIGHT", mCtrHeight, id); mGlobals->mXml.setValue("OBJECT:DISPLAY", mDisplay, id); mGlobals->mXml.setValue("OBJECT:STEPS", mSteps, id); return id; }
int main(int argc, char* argv[]) { if (argc != 3) { std::cerr << "usage: PListMerger" << " <first-plist-content>" << " <second-plist-content>" << std::endl; return 1; } const std::vector<std::string> args{argv, argv + argc}; const juce::ScopedPointer<juce::XmlElement> firstPlistElement = juce::XmlDocument::parse(args.at(1)); if (!firstPlistElement || !firstPlistElement->hasTagName("plist")) { std::cerr << "Invalid first plist content, expected <plist> element" << std::endl; return 1; } const auto firstDictElement = firstPlistElement->getChildByName("dict"); if (!firstDictElement) { std::cerr << "Invalid first plist content, expected <dict> element" << std::endl; return 1; } std::vector<std::string> keysInFirstPlist; for (auto childElement = firstDictElement->getFirstChildElement(); childElement != nullptr; childElement = childElement->getNextElement()) { if (childElement->getTagName() != "key" || childElement->getNumChildElements() != 1 || !childElement->getFirstChildElement()->isTextElement()) { std::cerr << "Invalid first plist content, expected <key> element with only one " "text child element" << std::endl; return 1; } const auto key = childElement->getFirstChildElement()->getText().toStdString(); if (std::find(keysInFirstPlist.begin(), keysInFirstPlist.end(), key) != keysInFirstPlist.end()) { std::cerr << "Invalid first plist content, duplicated key \"" << key << "\"" << std::endl; return 1; } keysInFirstPlist.push_back(key); childElement = childElement->getNextElement(); if (childElement == nullptr) { std::cerr << "Invalid first plist content, missing value associated with key \"" << key << "\"" << std::endl; return 1; } } const juce::ScopedPointer<juce::XmlElement> secondPlistElement = juce::XmlDocument::parse(args.at(2)); if (!secondPlistElement || !secondPlistElement->hasTagName("plist")) { std::cerr << "Invalid second plist content, expected <plist> element" << std::endl; return 1; } const auto secondDictElement = secondPlistElement->getChildByName("dict"); if (!secondDictElement) { std::cerr << "Invalid second plist content, expected <dict> element" << std::endl; return 1; } for (auto childElement = secondDictElement->getFirstChildElement(); childElement != nullptr; childElement = childElement->getNextElement()) { if (childElement->getTagName() != "key" || childElement->getNumChildElements() != 1 || !childElement->getFirstChildElement()->isTextElement()) { std::cerr << "Invalid second plist content, expected <key> element with only one " "text child element" << std::endl; return 1; } const auto key = childElement->getFirstChildElement()->getText().toStdString(); const auto isKeyAlreadyInFirstPlist = std::find(keysInFirstPlist.begin(), keysInFirstPlist.end(), key) != keysInFirstPlist.end(); if (!isKeyAlreadyInFirstPlist) { firstDictElement->addChildElement(new juce::XmlElement(*childElement)); } childElement = childElement->getNextElement(); if (childElement == nullptr) { std::cerr << "Invalid second plist content, missing value associated with key \"" << key << "\"" << std::endl; return 1; } if (!isKeyAlreadyInFirstPlist) { firstDictElement->addChildElement(new juce::XmlElement(*childElement)); } } std::cout << firstPlistElement->createDocument(juce::String{}, false, false) << std::flush; return 0; }
std::ostream& ossimNitfRsmpcaTag::print(std::ostream& out, const std::string& prefix) const { std::string pfx = prefix; pfx += getTagName(); pfx += "."; out << setiosflags(std::ios::left) << pfx << std::setw(24) << "CETAG:" << getTagName() << "\n" << pfx << std::setw(24) << "CEL:" << getSizeInBytes() << "\n" << pfx << std::setw(24) << "IID:" << m_iid << "\n" << pfx << std::setw(24) << "EDITION:" << m_edition << "\n" << pfx << std::setw(24) << "RSN:" << m_rsn << "\n" << pfx << std::setw(24) << "CSN:" << m_csn << "\n" << pfx << std::setw(24) << "RFEP:" << m_rfep << "\n" << pfx << std::setw(24) << "CFEP:" << m_cfep << "\n" << pfx << std::setw(24) << "RNRMO:" << m_rnrmo << "\n" << pfx << std::setw(24) << "CNRMO:" << m_cnrmo << "\n" << pfx << std::setw(24) << "XNRMO:" << m_xnrmo << "\n" << pfx << std::setw(24) << "YNRMO:" << m_ynrmo << "\n" << pfx << std::setw(24) << "ZNRMO:" << m_znrmo << "\n" << pfx << std::setw(24) << "RNRMSF:" << m_rnrmsf << "\n" << pfx << std::setw(24) << "CNRMSF:" << m_cnrmsf << "\n" << pfx << std::setw(24) << "XNRMSF:" << m_xnrmsf << "\n" << pfx << std::setw(24) << "YNRMSF:" << m_ynrmsf << "\n" << pfx << std::setw(24) << "ZNRMSF:" << m_znrmsf << "\n" << pfx << std::setw(24) << "RNPWRX:" << m_rnpwrx << "\n" << pfx << std::setw(24) << "RNPWRY:" << m_rnpwry << "\n" << pfx << std::setw(24) << "RNPWRZ:" << m_rnpwrz << "\n" << pfx << std::setw(24) << "RNTRMS:" << m_rntrms << "\n" << pfx << std::setw(24) << "RDPWRX:" << m_rdpwrx << "\n" << pfx << std::setw(24) << "RDPWRY:" << m_rdpwry << "\n" << pfx << std::setw(24) << "RDPWRZ:" << m_rdpwrz << "\n" << pfx << std::setw(24) << "RDTRMS:" << m_rdtrms << "\n" << pfx << std::setw(24) << "CNPWRX:" << m_rnpwrx << "\n" << pfx << std::setw(24) << "CNPWRY:" << m_rnpwry << "\n" << pfx << std::setw(24) << "CNPWRZ:" << m_rnpwrz << "\n" << pfx << std::setw(24) << "CNTRMS:" << m_rntrms << "\n" << pfx << std::setw(24) << "CDPWRX:" << m_rdpwrx << "\n" << pfx << std::setw(24) << "CDPWRY:" << m_rdpwry << "\n" << pfx << std::setw(24) << "CDPWRZ:" << m_rdpwrz << "\n" << pfx << std::setw(24) << "CDTRMS:" << m_rdtrms << "\n"; ossim_uint32 i; ossimString s; for (i=0; i<m_rowNumNumTerms; ++i) { s = ossimString(RNPCF_KW); s += ossimString::toString(i); s += ":"; out << pfx << std::setw(24) << s << m_rnpcf[i] << "\n"; } for (i=0; i<m_rowDenNumTerms; ++i) { s = ossimString(RDPCF_KW); s += ossimString::toString(i); s += ":"; out << pfx << std::setw(24) << s << m_rdpcf[i] << "\n"; } for (i=0; i<m_colNumNumTerms; ++i) { s = ossimString(CNPCF_KW); s += ossimString::toString(i); s += ":"; out << pfx << std::setw(24) << s << m_cnpcf[i] << "\n"; } for (i=0; i<m_colDenNumTerms; ++i) { s = ossimString(CDPCF_KW); s += ossimString::toString(i); s += ":"; out << pfx << std::setw(24) << s << m_cdpcf[i] << "\n"; } out.flush(); return out; }
std::ostream& ossimNitfRpcBase::print(std::ostream& out, const std::string& prefix) const { std::string pfx = prefix; pfx += getTagName(); pfx += "."; out << setiosflags(std::ios::left) << pfx << std::setw(24) << "CETAG:" << getTagName() << "\n" << pfx << std::setw(24) << "CEL:" << getSizeInBytes() << "\n" << pfx << std::setw(24) << "SUCCESS:" << theSuccess << "\n" << pfx << std::setw(24) << "ERR_BIAS:" << theErrorBias << "\n" << pfx << std::setw(24) << "ERR_RAND:" <<theErrRand << "\n" << pfx << std::setw(24) << "LINE_OFF:" << theLineOffset << "\n" << pfx << std::setw(24) << "SAMP_OFF:" << theSampleOffset << "\n" << pfx << std::setw(24) << "LAT_OFF:" << theGeodeticLatOffset << "\n" << pfx << std::setw(24) << "LONG_OFF:" << theGeodeticLonOffset << "\n" << pfx << std::setw(24) << "HEIGHT_OFF:" << theGeodeticHeightOffset << "\n" << pfx << std::setw(24) << "LINE_SCALE:" << theLineScale << "\n" << pfx << std::setw(24) << "SAMP_SCALE:" << theSampleScale << "\n" << pfx << std::setw(24) << "LAT_SCALE:" << theGeodeticLatScale << "\n" << pfx << std::setw(24) << "LONG_SCALE:" << theGeodeticLonScale << "\n" << pfx << std::setw(24) << "HEIGHT_SCALE:" << theGeodeticHeightScale << "\n"; ossim_int32 i; ossimString s; for (i=0; i<LINE_NUMERATOR_COEFFICIENT_COUNT; ++i) { s = "LINE_NUM_COEFF_"; s += ossimString::toString(i); s += ":"; out << pfx << std::setw(24) << s << theLineNumeratorCoefficient[i] << "\n"; } for (i=0; i<LINE_DENOMINATOR_COEFFICIENT_COUNT; ++i) { s = "LINE_DEN_COEFF_"; s += ossimString::toString(i); s += ":"; out << pfx << std::setw(24) << s << theLineDenominatorCoefficient[i] << "\n"; } for (i=0; i<LINE_NUMERATOR_COEFFICIENT_COUNT; ++i) { s = "SAMP_NUM_COEFF_"; s += ossimString::toString(i); s += ":"; out << pfx << std::setw(24) << s << theSampleNumeratorCoefficient[i] << "\n"; } for (i=0; i<LINE_DENOMINATOR_COEFFICIENT_COUNT; ++i) { s = "SAMP_DEN_COEFF_"; s += ossimString::toString(i); s += ":"; out << pfx << std::setw(24) << s << theSampleDenominatorCoefficient[i] << "\n"; } out.flush(); return out; }
void ATemplateNodeHandler_MODEL::debugDump(std::ostream& os, int indent) const { ADebugDumpable::indent(os, indent) << "(" << typeid(*this).name() << "@ " << std::hex << this << std::dec << ") {" << std::endl; ADebugDumpable::indent(os, indent) << "TAGNAME=" << getTagName() << std::endl; ADebugDumpable::indent(os, indent) << "}" << std::endl; }
void DLVertex :: Print ( std::ostream& o ) const { o << "[d(" << getDepth(true) << "/" << getDepth(false) << "),s(" << getSize(true) << "/" << getSize(false) << "),b(" << getBranch(true) << "/" << getBranch(false) << "),g(" << getGener(true) << "/" << getGener(false) << "),f(" << getFreq(true) << "/" << getFreq(false) << ")] "; o << getTagName(); switch ( Type() ) { case dtAnd: // nothing to do (except for printing operands) case dtSplitConcept: break; case dtTop: // nothing to do case dtNN: return; case dtDataExpr: o << ' ' << *static_cast<const TDataEntry*>(getConcept())->getFacet(); return; case dtDataValue: // named entry -- just like concept names case dtDataType: case dtPConcept: case dtNConcept: case dtPSingleton: case dtNSingleton: o << '(' << getConcept()->getName() << ") " << (isNNameTag(Type()) ? "=" : "[=") << ' ' << getC(); return; case dtLE: o << ' ' << getNumberLE() << ' ' << getRole()->getName() << ' ' << getC(); return; case dtForall: o << ' ' << getRole()->getName() << '{' << getState() << '}' << ' ' << getC(); return; case dtIrr: o << ' ' << getRole()->getName(); return; case dtProj: o << ' ' << getRole()->getName() << ", " << getC() << " => " << getProjRole()->getName(); return; case dtChoose: o << ' ' << getC(); return; default: std::cerr << "Error printing vertex of type " << getTagName() << "(" << Type() << ")"; fpp_unreachable(); } // print operands of the concept constructor for ( const_iterator q = begin(); q != end(); ++q ) o << ' ' << *q; }