bool RenderSVGImage::updateImageViewport()
{
FloatRect oldBoundaries = m_objectBoundingBox;
bool updatedViewport = false;
SVGLengthContext lengthContext(&imageElement());
m_objectBoundingBox = FloatRect(imageElement().x().value(lengthContext), imageElement().y().value(lengthContext), imageElement().width().value(lengthContext), imageElement().height().value(lengthContext));
// Images with preserveAspectRatio=none should force non-uniform scaling. This can be achieved
// by setting the image's container size to its intrinsic size.
// See: http://www.w3.org/TR/SVG/single-page.html, 7.8 The ‘preserveAspectRatio’ attribute.
if (imageElement().preserveAspectRatio().align() == SVGPreserveAspectRatio::SVG_PRESERVEASPECTRATIO_NONE) {
if (CachedImage* cachedImage = imageResource().cachedImage()) {
LayoutSize intrinsicSize = cachedImage->imageSizeForRenderer(0, style().effectiveZoom());
if (intrinsicSize != imageResource().imageSize(style().effectiveZoom())) {
imageResource().setContainerSizeForRenderer(roundedIntSize(intrinsicSize));
updatedViewport = true;
}
}
}
if (oldBoundaries != m_objectBoundingBox) {
if (!updatedViewport)
imageResource().setContainerSizeForRenderer(enclosingIntRect(m_objectBoundingBox).size());
updatedViewport = true;
m_needsBoundariesUpdate = true;
}
return updatedViewport;
}
bool RenderSVGImage::updateImageViewport()
{
FloatRect oldBoundaries = m_objectBoundingBox;
SVGLengthContext lengthContext(&imageElement());
m_objectBoundingBox = FloatRect(imageElement().x().value(lengthContext), imageElement().y().value(lengthContext), imageElement().width().value(lengthContext), imageElement().height().value(lengthContext));
if (oldBoundaries == m_objectBoundingBox)
return false;
m_imageResource->setContainerSizeForRenderer(enclosingIntRect(m_objectBoundingBox).size());
m_needsBoundariesUpdate = true;
return true;
}
int main( int argc, char** argv ) {
QApplication app( argc, argv );
KDReports::Report report;
KDReports::Header& header = report.header( KDReports::FirstPage );
header.addElement( KDReports::TextElement( "A tall image made to fit into the page" ) );
KDReports::Header& header2 = report.header( KDReports::EvenPages );
header2.addElement( KDReports::TextElement( "A wide image made to fit into the page" ) );
KDReports::Footer& footer = report.footer();
footer.addElement( KDReports::TextElement( "Page" ), Qt::AlignRight );
footer.addInlineElement( KDReports::TextElement( " " ) );
footer.addVariable( KDReports::PageNumber );
footer.addInlineElement( KDReports::TextElement( "/" ) );
footer.addVariable( KDReports::PageCount );
KDReports::ImageElement imageElement( QPixmap( ":/imageTall.jpg" ) );
imageElement.setFitToPage();
report.addElement( imageElement );
KDReports::ImageElement imageElement2( QPixmap( ":/image.jpg" ) );
imageElement2.setFitToPage();
report.addElement( imageElement2 );
KDReports::PreviewDialog preview( &report );
return preview.exec();
}
void RenderSVGImage::layout()
{
StackStats::LayoutCheckPoint layoutCheckPoint;
ASSERT(needsLayout());
LayoutRepainter repainter(*this, SVGRenderSupport::checkForSVGRepaintDuringLayout(*this) && selfNeedsLayout());
updateImageViewport();
bool transformOrBoundariesUpdate = m_needsTransformUpdate || m_needsBoundariesUpdate;
if (m_needsTransformUpdate) {
m_localTransform = imageElement().animatedLocalTransform();
m_needsTransformUpdate = false;
}
if (m_needsBoundariesUpdate) {
m_repaintBoundingBoxExcludingShadow = m_objectBoundingBox;
SVGRenderSupport::intersectRepaintRectWithResources(*this, m_repaintBoundingBoxExcludingShadow);
m_repaintBoundingBox = m_repaintBoundingBoxExcludingShadow;
SVGRenderSupport::intersectRepaintRectWithShadows(*this, m_repaintBoundingBox);
m_needsBoundariesUpdate = false;
}
// Invalidate all resources of this client if our layout changed.
if (everHadLayout() && selfNeedsLayout())
SVGResourcesCache::clientLayoutChanged(*this);
// If our bounds changed, notify the parents.
if (transformOrBoundariesUpdate)
RenderSVGModelObject::setNeedsBoundariesUpdate();
repainter.repaintAfterLayout();
clearNeedsLayout();
}
bool HTMLAreaElement::rendererIsFocusable() const
{
HTMLImageElement* image = imageElement();
if (!image || !image->renderer() || image->renderer()->style()->visibility() != VISIBLE)
return false;
return supportsFocus() && Element::tabIndex() >= 0;
}
virtual void run() {
// Create a report
KDReports::Report report;
report.setWatermarkImage( QImage( ":/background.jpg" ) );
report.setWatermarkText( QString() );
KDReports::ImageElement imageElement(QImage(":/logo.png"));
report.header().addElement(imageElement);
// Add a text element for the title
KDReports::TextElement titleElement( QObject::tr( "KD Reports Hello world example" ) );
titleElement.setPointSize( 18 );
report.addElement( titleElement, Qt::AlignHCenter );
// A bit of spacing (10 mm)
report.addVerticalSpacing( 10 );
// Add another text element, demonstrating "<<" operator
KDReports::TextElement textElement;
textElement << QObject::tr( "This is a sample report produced with KD Reports." );
textElement << "\n";
textElement << QObject::tr( "Klarälvdalens Datakonsult AB, Platform-independent software solutions" );
textElement << "\n";
report.addElement( textElement );
// Create a table model, which will be used by the table element
HelloWorldTableModel tableModel;
// A bit of spacing (10 mm)
report.addVerticalSpacing( 10 );
// Add an "auto table" (a table that shows the contents of a model)
KDReports::AutoTableElement tableElement( &tableModel );
tableElement.setBorder( 1 );
report.addElement( tableElement );
// Add many paragraphs, to demonstrate page breaking
for ( int i = 1; i < 100 ; ++i ) {
report.addElement( KDReports::HtmlElement( QString::fromLatin1( "<b>Customer</b> <em>%1</em>" ).arg(i) ), Qt::AlignLeft );
report.addInlineElement( KDReports::TextElement( " - 2006" ) );
}
// Add a page break
report.addPageBreak();
report.addElement( KDReports::TextElement( "This is the last page" ) );
// To export to an image file:
//qDebug() << "Exporting to output.png";
report.exportToImage( QSize(200, 1200), "output.png", "PNG" ); // deleted by main() below
// To export to a PDF file:
//qDebug() << "Exporting to output.pdf";
report.exportToFile( "output.pdf" ); // deleted by main() below
}
void RenderSVGImage::paintForeground(PaintInfo& paintInfo)
{
RefPtr<Image> image = imageResource().image();
FloatRect destRect = m_objectBoundingBox;
FloatRect srcRect(0, 0, image->width(), image->height());
imageElement().preserveAspectRatio().transformRect(destRect, srcRect);
paintInfo.context->drawImage(image.get(), ColorSpaceDeviceRGB, destRect, srcRect);
}
/**
* Content policy logic for compose windows
*
*/
void nsMsgContentPolicy::ComposeShouldLoad(nsIMsgCompose *aMsgCompose,
nsISupports *aRequestingContext,
nsIURI *aContentLocation,
PRInt16 *aDecision)
{
NS_PRECONDITION(*aDecision == nsIContentPolicy::REJECT_REQUEST,
"ComposeShouldLoad expects default decision to be reject!");
nsresult rv;
nsCString originalMsgURI;
rv = aMsgCompose->GetOriginalMsgURI(getter_Copies(originalMsgURI));
NS_ENSURE_SUCCESS(rv, );
MSG_ComposeType composeType;
rv = aMsgCompose->GetType(&composeType);
NS_ENSURE_SUCCESS(rv, );
// Only allow remote content for new mail compositions or mailto
// Block remote content for all other types (drafts, templates, forwards, replies, etc)
// unless there is an associated msgHdr which allows the load, or unless the image is being
// added by the user and not the quoted message content...
if (composeType == nsIMsgCompType::New ||
composeType == nsIMsgCompType::MailToUrl)
*aDecision = nsIContentPolicy::ACCEPT;
else if (!originalMsgURI.IsEmpty())
{
nsCOMPtr<nsIMsgDBHdr> msgHdr;
rv = GetMsgDBHdrFromURI(originalMsgURI.get(), getter_AddRefs(msgHdr));
NS_ENSURE_SUCCESS(rv, );
*aDecision = ShouldAcceptRemoteContentForMsgHdr(msgHdr, nsnull,
aContentLocation);
// Special case image elements. When replying to a message, we want to allow
// the user to add remote images to the message. But we don't want remote
// images that are a part of the quoted content to load. Fortunately, after
// the quoted message has been inserted into the document, mail compose
// flags remote content elements that came from the original message with a
// moz-do-not-send attribute.
if (*aDecision == nsIContentPolicy::REJECT_REQUEST)
{
bool insertingQuotedContent = true;
aMsgCompose->GetInsertingQuotedContent(&insertingQuotedContent);
nsCOMPtr<nsIDOMHTMLImageElement> imageElement(do_QueryInterface(aRequestingContext));
if (!insertingQuotedContent && imageElement)
{
bool doNotSendAttrib;
if (NS_SUCCEEDED(imageElement->HasAttribute(NS_LITERAL_STRING("moz-do-not-send"), &doNotSendAttrib)) &&
!doNotSendAttrib)
*aDecision = nsIContentPolicy::ACCEPT;
}
}
}
void RenderSVGImage::paintForeground(PaintInfo& paintInfo)
{
RefPtr<Image> image = imageResource().image();
if (!image)
return;
FloatRect destRect = m_objectBoundingBox;
FloatRect srcRect(0, 0, image->width(), image->height());
imageElement().preserveAspectRatio().transformRect(destRect, srcRect);
paintInfo.context().drawImage(*image, destRect, srcRect);
}
bool KDReports::XmlParser::processNode( const QDomNode& node, KDReports::ReportBuilder* builder, bool inHeader, bool inFooter )
{
// Loop over elements
for ( QDomElement element = node.firstChildElement() ; !element.isNull();
element = element.nextSiblingElement() ) {
if ( testForErrorAndFillErrorDetails() )
return false;
const QString name = element.tagName();
if( name == QLatin1String( "text" ) ) {
// Handle <text> element
KDReports::TextElement textElement;
QString id;
const QString text = extractText( element, &id, m_report->d->m_currentModel, m_report->d->m_currentRow );
textElement.setText( text );
textElement.setId( id );
const QColor bgColor = KDReports::XmlHelper::readBackground( element );
if( bgColor.isValid() )
textElement.setBackground( bgColor );
if( element.hasAttribute( QLatin1String( "pointsize" ) ) ) {
const int pointSize = element.attribute( QLatin1String( "pointsize" ) ).toInt();
if( pointSize )
textElement.setPointSize( pointSize );
}
if( element.hasAttribute( QLatin1String( "color" ) ) ) {
const QString name = element.attribute( QLatin1String( "color" ) );
textElement.setTextColor( QColor( name ) );
}
if( element.hasAttribute( QLatin1String( "font" ) ) ) {
textElement.setFontFamily( element.attribute( QLatin1String( "font" ) ) );
}
if( element.hasAttribute( QLatin1String( "bold" ) ) ) {
bool bold = false;
if( element.attribute( QLatin1String( "bold" ) ) == QLatin1String( "true" ) )
bold = true;
textElement.setBold( bold );
}
if( element.hasAttribute( QLatin1String( "italic" ) ) ) {
bool italic = false;
if( element.attribute( QLatin1String( "italic" ) ) == QLatin1String( "true" ) )
italic = true;
textElement.setItalic( italic );
}
if( element.hasAttribute( QLatin1String( "strikeout" ) ) ) {
bool strikeOut = false;
if( element.attribute( QLatin1String( "strikeout" ) ) == QLatin1String( "true" ) )
strikeOut = true;
textElement.setStrikeOut( strikeOut );
}
if( element.hasAttribute( QLatin1String( "underline" ) ) ) {
bool underline = false;
if( element.attribute( QLatin1String( "underline" ) ) == QLatin1String( "true" ) )
underline = true;
textElement.setUnderline( underline );
}
const QString oldId = textElement.id();
if ( m_xmlElementHandler && !m_xmlElementHandler->textElement( textElement, element ) )
continue;
if ( textElement.id() != oldId ) {
// The handler modified the text element's id, look up the value again.
const QHash<QString, QString>::const_iterator it = m_textValues.constFind( textElement.id() );
if ( it != m_textValues.constEnd() ) {
textElement.setText( *it );
}
}
if ( !builder ) {
error( QObject::tr( "<text> is only supported in WordProcessing mode" ) );
} else {
if( element.hasAttribute( QLatin1String( "inline" ) ) ) {
builder->addInlineElementPublic( textElement );
} else {
Qt::AlignmentFlag alignment = Qt::AlignLeft;
if( element.hasAttribute( QLatin1String( "alignment" ) ) )
alignment = KDReports::XmlHelper::stringToAlignment( element.attribute( QLatin1String( "alignment" ) ) );
const QColor bgColor = KDReports::XmlHelper::readColor( element, "paragraph-background" );
builder->addBlockElementPublic( textElement, alignment, bgColor );
}
}
} else if( name == QLatin1String( "html" ) ) {
// Handle <html> element
KDReports::HtmlElement htmlElement;
QString id;
const QString text = extractText( element, &id );
htmlElement.setHtml( text );
htmlElement.setId( id );
QColor bgColor = KDReports::XmlHelper::readBackground( element );
if( bgColor.isValid() )
htmlElement.setBackground( bgColor );
const QString oldId = htmlElement.id();
if ( m_xmlElementHandler && !m_xmlElementHandler->htmlElement( htmlElement, element ) )
continue;
if ( htmlElement.id() != oldId ) {
// The handler modified the text element's id, look up the value again.
const QHash<QString, QString>::const_iterator it = m_textValues.constFind( htmlElement.id() );
if ( it != m_textValues.constEnd() ) {
htmlElement.setHtml( *it );
}
}
addElement( htmlElement, builder, element );
} else if ( name == QLatin1String( "tabs" ) ) {
if ( !builder ) {
error( QObject::tr( "<tabs> is only supported in WordProcessing mode" ) );
} else {
parseTabs( builder, element );
}
} else if ( name == QLatin1String( "paragraph-margins" ) ) {
if ( !builder ) {
error( QObject::tr( "<paragraph-margins> is only supported in WordProcessing mode" ) );
} else {
parseParagraphMargins( builder, element );
}
} else if( name == QLatin1String( "hr" ) ) {
// Handle <hr> element
KDReports::HtmlElement htmlElement;
htmlElement.setHtml( QString::fromLatin1("<hr>") );
if ( m_xmlElementHandler && !m_xmlElementHandler->htmlElement( htmlElement, element ) )
continue;
addElement( htmlElement, builder, element );
} else if( name == QLatin1String( "vspace" ) ) {
// Handle <vspace> element
if( !element.hasAttribute( QLatin1String( "size" ) ) )
continue; // size attribute is mandatory for VSpace
int size = element.attribute( QLatin1String( "size" ) ).toInt();
if ( !builder ) {
error( QObject::tr( "<vspace> is only supported in WordProcessing mode" ) );
} else {
if( builder != m_report->d->builder() ) {
error( QObject::tr("<vspace> not allowed in headers, footers, or table cells") );
return false;
}
}
XmlElementHandlerV2* v2 = dynamic_cast<XmlElementHandlerV2 *>(m_xmlElementHandler);
if (v2 && !v2->vspace(size, element))
continue;
m_report->addVerticalSpacing( size );
} else if( name == QLatin1String( "table" ) ) {
// Handle <table> element
const QString model = element.attribute( QLatin1String( "model" ) );
if ( model.isEmpty() ) {
if ( !builder ) {
error( QObject::tr( "<table> without a model is only supported in WordProcessing mode" ) );
continue;
}
KDReports::TableElement tableElement;
const int headerRowCount = element.attribute( QLatin1String( "headerRowCount" ) ).toInt(); // default 0
tableElement.setHeaderRowCount( headerRowCount );
if ( element.hasAttribute( QLatin1String( "cellpadding" ) ) )
tableElement.setPadding( element.attribute( QLatin1String( "cellpadding" ) ).toInt() );
parseCommonTableAttributes( tableElement, element );
if ( m_xmlElementHandler && !m_xmlElementHandler->startTableElement( tableElement, element ) )
continue;
if ( !parseTableContents( tableElement, element, *builder, inHeader, inFooter ) )
return false;
if ( m_xmlElementHandler && !m_xmlElementHandler->endTableElement( tableElement, element ) )
continue;
addElement( tableElement, builder, element );
} else {
KDReports::AutoTableElement tableElement( model );
if( element.attribute( QLatin1String( "verticalHeaderVisible" ) ) == QLatin1String( "false" ) )
tableElement.setVerticalHeaderVisible(false);
if( element.attribute( QLatin1String( "horizontalHeaderVisible" ) ) == QLatin1String( "false" ) )
tableElement.setHorizontalHeaderVisible(false);
QColor headerBgColor = KDReports::XmlHelper::readColor( element, "header-background" );
if ( headerBgColor.isValid() )
tableElement.setHeaderBackground( headerBgColor );
parseCommonTableAttributes( tableElement, element );
if ( m_xmlElementHandler && !m_xmlElementHandler->autoTableElement( tableElement, element ) )
continue;
if ( m_report->reportMode() == Report::SpreadSheet ) {
m_report->mainTable()->setAutoTableElement( tableElement );
} else {
addElement( tableElement, builder, element );
}
}
} else if( name == QLatin1String( "chart" ) ) {
// Handle <chart> element
KDReports::ChartElement chartElement( element.attribute( QLatin1String( "model" ) ) );
QColor bgColor = KDReports::XmlHelper::readBackground( element );
if( bgColor.isValid() )
chartElement.setBackground( bgColor );
int width = 100, height = 100;
Unit unit = Millimeters;
if( element.hasAttribute( QLatin1String( "width" ) ) ) {
QString str = element.attribute( QLatin1String( "width" ) );
if ( str.endsWith( QLatin1Char('%') ) ) {
str.chop( 1 );
unit = Percent;
}
width = str.toInt();
}
if( element.hasAttribute( QLatin1String( "height" ) ) ) {
QString str = element.attribute( QLatin1String( "height" ) );
if ( str.endsWith( QLatin1Char('%') ) ) {
str.chop( 1 );
unit = Percent;
}
height = str.toInt();
}
chartElement.setSize( width, height, unit );
if ( m_xmlElementHandler && !m_xmlElementHandler->chartElement( chartElement, element ) )
continue;
addElement( chartElement, builder, element );
} else if( name == QLatin1String( "image" ) ) {
// Handle <image> element
QString id;
QImage image = extractImage( element, &id );
KDReports::ImageElement imageElement( image );
imageElement.setId(id);
if( element.hasAttribute( QLatin1String( "width" ) ) ) {
QString widthStr = element.attribute( QLatin1String( "width" ) );
if ( widthStr.endsWith( QLatin1Char('%') ) ) {
widthStr.truncate( widthStr.length() - 1 );
imageElement.setWidth( widthStr.toInt(), KDReports::Percent );
} else {
imageElement.setWidth( widthStr.toInt() );
}
} else if( element.hasAttribute( QLatin1String( "height" ) ) ) { // mutually exclusive with "width"!
QString heightStr = element.attribute( QLatin1String( "height" ) );
if ( heightStr.endsWith( QLatin1Char('%') ) ) {
heightStr.truncate( heightStr.length() - 1 );
imageElement.setHeight( heightStr.toInt(), KDReports::Percent );
} else {
imageElement.setHeight( heightStr.toInt() );
}
} else if ( element.hasAttribute( QLatin1String( "fitToPage" ) ) ) {
imageElement.setFitToPage();
}
if ( m_xmlElementHandler && !m_xmlElementHandler->imageElement( imageElement, element ) )
continue;
addElement( imageElement, builder, element );
} else if( name == QLatin1String( "header" ) ) {
const KDReports::HeaderLocations loc = KDReports::XmlHelper::parseHeaderLocation( element.attribute( QLatin1String( "location" ) ) );
KDReports::Header& header = m_report->header( loc );
parseHeaderFooterAttribute( header, element );
if ( m_xmlElementHandler && !m_xmlElementHandler->startHeader( header, element ) )
continue;
if( !processNode( element, &header.d->m_builder, true, false ) )
return false;
if ( m_xmlElementHandler )
m_xmlElementHandler->endHeader( header, element );
} else if( name == QLatin1String( "footer" ) ) {
const KDReports::HeaderLocations loc = KDReports::XmlHelper::parseHeaderLocation( element.attribute( QLatin1String( "location" ) ) );
KDReports::Footer& footer = m_report->footer( loc );
parseHeaderFooterAttribute( footer, element );
if ( m_xmlElementHandler && !m_xmlElementHandler->startFooter( footer, element ) )
continue;
if( !processNode( element, &footer.d->m_builder, false, true ) )
return false;
if ( m_xmlElementHandler )
m_xmlElementHandler->endFooter( footer, element );
} else if( name == QLatin1String( "variable" ) ) {
if( !inHeader && !inFooter ) {
error( QObject::tr("<variable> tags only allowed in headers and footers") );
return false;
}
if( !element.hasAttribute( QLatin1String( "type" ) ) ) {
error( QObject::tr("<variable> tags must have a 'type' attribute") );
return false;
}
Q_ASSERT( builder );
if ( builder ) {
const QString type = element.attribute( QLatin1String( "type" ) );
KDReports::VariableType vt = KDReports::XmlHelper::stringToVariableType( type );
XmlElementHandlerV2* v2 = dynamic_cast<XmlElementHandlerV2 *>(m_xmlElementHandler);
if (v2 && !v2->variable(vt, element))
continue;
builder->addVariablePublic( vt );
}
} else if ( name == QLatin1String( "page-break" ) ) {
if ( m_xmlElementHandler && !m_xmlElementHandler->pageBreak( element ) )
continue;
m_report->addPageBreak();
} else if ( name == QLatin1String( "ifdef" ) ) {
if ( element.hasAttribute( QLatin1String( "id" ) ) ) {
const QString id = element.attribute( QLatin1String( "id" ) );
const bool skip = m_textValues.value( id ).isEmpty();
if( !skip ) {
if ( !processNode( element, builder, inHeader, inFooter ) )
return false;
}
}
} else if ( name == QLatin1String( "custom" ) ) {
if ( m_xmlElementHandler )
m_xmlElementHandler->customElement( element );
} else if ( name == QLatin1String( "hline" ) ) {
KDReports::HLineElement hLineElement;
if ( element.hasAttribute( QLatin1String( "thickness" ) ) ) {
const double thickness = element.attribute( QLatin1String( "thickness" ) ).toDouble();
hLineElement.setThickness( thickness );
}
if ( element.hasAttribute( QLatin1String( "color" ) ) ) {
const QColor color = KDReports::XmlHelper::readColor( element, "color" );
hLineElement.setColor( color );
}
if ( element.hasAttribute( QLatin1String( "margin" ) ) ) {
const int margin = element.attribute( QLatin1String( "margin" ) ).toInt();
hLineElement.setMargin( margin );
}
#ifdef KDREPORTS_ALLOW_BINARY_INCOMPATIBILITY
if ( m_xmlElementHandler && !m_xmlElementHandler->hLineElement( hLineElement, element ) )
continue;
#else
XmlElementHandlerV2* v2 = dynamic_cast<XmlElementHandlerV2 *>(m_xmlElementHandler);
if (v2 && !v2->hLineElement(hLineElement, element))
continue;
#endif
addElement( hLineElement, builder, element );
} else {
error( QObject::tr( "KDReports::Report::loadFromXML(): Unknown element %1" ).arg( name ) );
}
}
if ( testForErrorAndFillErrorDetails() )
return false;
return true;
}
int ConsoleProgram::main(const std::vector<CL_String> &args)
{
// Setup clanCore:
CL_SetupCore setup_core;
// Initialize the ClanLib display component
CL_SetupDisplay setup_display;
// Create a console Window if one does not exist:
CL_ConsoleWindow console_window("Console", 80, 600);
try
{
//получение параметра запуска
for (std::vector<CL_String>::const_iterator iter_args = args.begin(); iter_args != args.end(); ++iter_args)
CL_Console::write_line( *iter_args );
//получение имени директории для сохранения
CL_String workDirectoryName;
if (args.size() > 1)
{
//полное имя рабочей директории
workDirectoryName = args[1];
//конвертирование из CP-1251 в UTF-8 имени рабочей директории
workDirectoryName = decode(workDirectoryName);
}
else
{
//получение полного пути к текущему каталогу
workDirectoryName = CL_Directory::get_current();
}
CL_Console::write_line("workDirectoryName: %1", workDirectoryName);
//получение имени последней директории
CL_String locationName = CL_PathHelp::remove_trailing_slash(workDirectoryName);
locationName = CL_PathHelp::get_filename(locationName);
CL_Console::write_line("locationName: %1", locationName);
CL_String tempDir = CL_PathHelp::add_trailing_slash(workDirectoryName) + "temp\\";
CL_DirectoryScanner directoryScanner;
directoryScanner.scan(tempDir, "*.export");
while (directoryScanner.next())
{
//имя обрабатываемого файла
CL_String fileName;
if (directoryScanner.is_directory())
continue;
//получение полного имени файла экспорта
fileName = directoryScanner.get_pathname();
//конвертирование из CP-1251 в UTF-8
fileName = decode(fileName);
CL_Console::write_line("find: %1", fileName);
//открытие XML файла
CL_File fileXML;
bool is_opened = fileXML.open(fileName);
if( !is_opened )
return PrintError( CL_String("Can't open file: ") + fileName );
//Создание объекта DOM парсера
CL_DomDocument document(fileXML);
//получение root узла
CL_DomElement root = document.get_document_element();
if( root.get_local_name() != "resources")
{
CL_Console::write_line("Root name can't be: %1", root.get_local_name().c_str());
return PrintError("");
}
//цикл по потомкам "resources"
for (CL_DomNode cur = root.get_first_child(); !cur.is_null(); cur = cur.get_next_sibling())
{
//загрузка только спрайтов
if (cur.get_node_name() != "sprite")
continue;
CL_DomElement element = cur.to_element();
//проверка на обязательные параметры
if (!element.has_attribute("name"))
return PrintError("Error: can't find parametr \"name\"");
CL_DomString name = element.get_attribute("name");
int x = element.get_attribute_int("x");
int y = element.get_attribute_int("y");
//добавление спрайта
sprites.push_back( S_Sprite(name, CL_Vec2i(x, y) ) );
//цикл по "image" (формирование списка имен файлов)
for (CL_DomNode cur_image = cur.get_first_child(); !cur_image.is_null(); cur_image = cur_image.get_next_sibling())
{
//загрузка только image
if (cur_image.get_node_name() != "image")
continue;
CL_DomElement element_image = cur_image.to_element();
CL_DomString file = element_image.get_attribute("file");
//конвертирование из CP-1251 в UTF-8 имени файла изображения
file = decode(file);
//добавление изображения для обработки
(sprites.end()-1)->AddImage(file);
}
//цикл по "frame" (дополнение списка информацией о файле)
for (CL_DomNode cur_frame = cur.get_first_child(); !cur_frame.is_null(); cur_frame = cur_frame.get_next_sibling())
{
if (cur_frame.get_node_name() != "frame")
continue;
CL_DomElement element_frame = cur_frame.to_element();
//проверка на обязательные параметры
if (!element_frame.has_attribute("nr"))
return PrintError("Error: can't find parameter \"nr\"");
size_t nr = element_frame.get_attribute_int("nr");
int speed = element_frame.get_attribute_int("speed");
int x_image = element_frame.get_attribute_int("x");
int y_image = element_frame.get_attribute_int("y");
(sprites.end()-1)->SetAnimationsParam(nr, speed, CL_Vec2i(x_image, y_image));
}
}
fileXML.close();
}
//CL_Console::wait_for_key();
// TODO:
//проверка на перекрытие ресурсных имен
//return PrintError( CL_String("Error: This resourse already exist") );
//декодирование имени спрайта и генерация с декодированием полных имен файлов
for(T_Sprites::iterator iter_sprites = sprites.begin(); iter_sprites != sprites.end(); ++iter_sprites)
{
for(S_Sprite::T_Images::iterator iter_images = iter_sprites->mImages.begin(); iter_images != iter_sprites->mImages.end(); ++iter_images)
{
//CL_Console::write_line("processing: %1 pos = %2 %3", iter_sprites->mName, iter_sprites->mPos.x, iter_sprites->mPos.y);
//генерация полного имени файла
iter_images->mSourceFullName = CL_PathHelp::make_absolute(tempDir, iter_images->mSourceFileName);
//CL_Console::write_line("image: %1 pos = %2 %3", iter_images->mSourceFileName, iter_images->mOffset.x, iter_images->mOffset.y);
CL_Console::write_line("image fullname: %1", iter_images->mSourceFullName);
}
}
//CL_Console::wait_for_key();
//загрузка файлов-картинок
for(T_Sprites::iterator iter_sprites = sprites.begin(); iter_sprites != sprites.end(); ++iter_sprites)
for(S_Sprite::T_Images::iterator iter_images = iter_sprites->mImages.begin(); iter_images != iter_sprites->mImages.end(); ++iter_images)
iter_images->mImage = CL_ImageProviderFactory::load(iter_images->mSourceFullName).to_format(cl_rgba8);
//CL_Console::wait_for_key();
//проход по всем спрайтам для определения необходимости разрезки на несколько спрайтов
for(T_Sprites::size_type iSprites = 0; iSprites < sprites.size(); ++iSprites)
{
for(S_Sprite::T_Images::size_type iImages = 0; iImages < sprites[iSprites].mImages.size(); ++iImages)
{
//определение размеров
CL_Size image_size = sprites[iSprites].mImages[iImages].mImage.get_size();
//Определение наличия прозрачности
sprites[iSprites].mImages[iImages].mNoTransparent = testAlpha(sprites[iSprites].mImages[iImages].mImage);
//высота превышает допустимую
if(image_size.height > MAX_HEIGHT)
return PrintError( CL_String("Error: image height is more then 1024") );
//ширина превышает допустимую
if(image_size.width > MAX_WIDTH)
{
CL_Console::write_line("scussor: sprites[iSprites].mName: %1", sprites[iSprites].mName);
//проверка на то что у этого спрайта один image
if(sprites[iSprites].mImages.size() > 1)
return PrintError( CL_String("Error: animation size can't be more than MAX_WIDTH*MAX_HEIGHT (1024*1024)") );
//сохранение высоты и ширины
int h = image_size.height;
int w = image_size.width;
//определение кол-ва частей на разрезку
int n; //кол-во частей на разрезку
for(n = 2; n < 10; ++n)
if (w > (n-1)*MAX_WIDTH - 2*(n-2) && w <= (n)*MAX_WIDTH - 2*(n-1))
break;
T_Sprites::iterator addedSprite;
switch (n)
{
case 2: //две части
//спрайт слева (задание имени и позиции спрайта)
addedSprite = sprites.insert( sprites.begin()+iSprites+1,
S_Sprite(CL_String(sprites[iSprites].mName)+CL_StringHelp::int_to_text(0), sprites[iSprites].mPos+CL_Vec2i(0, 0) ) );
//создание одного Image в добавленом спрайте
addedSprite->AddImage(sprites[iSprites].mImages[iImages].mSourceFileName);
//создание изображения (задание зазмеров спрайта)
addedSprite->mImages[0].mImage = CL_PixelBuffer(MAX_WIDTH, h, cl_rgba8);
//наследование флага отсутствия прозрачности
addedSprite->mImages[0].mNoTransparent = sprites[iSprites].mImages[iImages].mNoTransparent;
//копирование куска изображения
sprites[iSprites].mImages[iImages].mImage.convert(addedSprite->mImages[0].mImage,
//(dst Rect, src Rect)
CL_Rect(0, 0, MAX_WIDTH, h), CL_Rect(0, 0, MAX_WIDTH, h));
addedSprite->mImages[0].mDeltaGrid.left = 0;
addedSprite->mImages[0].mDeltaGrid.right = -1;
//спрайт справа (задание имени и позиции спрайта)
addedSprite = sprites.insert( sprites.begin()+iSprites+1,
S_Sprite(CL_String(sprites[iSprites].mName)+CL_StringHelp::int_to_text(1), sprites[iSprites].mPos+CL_Vec2i(MAX_WIDTH-1, 0) ) );
//создание одного Image в добавленом спрайте
addedSprite->AddImage(sprites[iSprites].mImages[iImages].mSourceFileName);
//создание изображения (задание зазмеров спрайта)
addedSprite->mImages[0].mImage = CL_PixelBuffer(w-MAX_WIDTH+2, h, cl_rgba8);
//наследование флага отсутствия прозрачности
addedSprite->mImages[0].mNoTransparent = sprites[iSprites].mImages[iImages].mNoTransparent;
//копирование куска изображения
sprites[iSprites].mImages[iImages].mImage.convert(addedSprite->mImages[0].mImage,
//(dst Rect, src Rect)
CL_Rect(0, 0, w-MAX_WIDTH+2, h), CL_Rect(MAX_WIDTH-2, 0, w, h));
addedSprite->mImages[0].mDeltaGrid.left = +1;
addedSprite->mImages[0].mDeltaGrid.right = -1;
break;
default:
return PrintError( CL_String("Error: scussored on >2 part is't writen by C++ programmer") );
break;
}
/*
//разделение изображения на части
int x = 1;
int residual = image_size.width;
int left, right;
int i = 0;
do
{
x -= 1;
left = x;
x += min(MAX_WIDTH, residual);
right = x;
residual -= (right-left-1);
i++;
//добавление куска
T_Sprites::iterator addedSprite =
sprites.insert( sprites.begin()+iSprites+1,
S_Sprite(CL_String(sprites[iSprites].mName)+CL_StringHelp::int_to_text(i), sprites[iSprites].mPos+CL_Vec2i(left, 0) ) );
//создание одного Image в добавленом спрайте
addedSprite->AddImage(sprites[iSprites].mImages[iImages].mSourceFileName);
//создание изображения
addedSprite->mImages[0].mImage = CL_PixelBuffer(right-left, h, cl_rgba8);
//наследование флага отсутствия прозрачности
addedSprite->mImages[0].mNoTransparent = sprites[iSprites].mImages[iImages].mNoTransparent;
//копирование куска изображения
sprites[iSprites].mImages[iImages].mImage.convert(addedSprite->mImages[0].mImage, CL_Rect(0,0,right-left,h), CL_Rect(left, 0, right, h));
}
while(residual != 1);
*/
//удаление исходного разрезаемого изображения
sprites.erase( sprites.begin() + iSprites );
}
}
}
// for(T_Sprites::iterator iter_sprites = sprites.begin(); iter_sprites != sprites.end(); ++iter_sprites)
// {
// //определение размеров
// CL_Size imageSize = iter_sprites->mImage.get_size();
// //Добавление несколько пикселей для границы спрайтов с дублированием граничных пикселей
// iter_sprites->image = CL_PixelBufferHelp::add_border(iter_sprites->image, ADDING_BORDER, CL_Rect(0, 0, image_size.width, image_size.height) );
// }
///////////////////////////////////////////////////////
//распределение картинок на текстурном атласе
///////////////////////////////////////////////////////
for(T_Sprites::size_type iSprites = 0; iSprites < sprites.size(); ++iSprites)
{
for(S_Sprite::T_Images::size_type iImages = 0; iImages < sprites[iSprites].mImages.size(); ++iImages)
{
//переполучение размера
CL_Size image_size = sprites[iSprites].mImages[iImages].mImage.get_size();
//помещение в отсортированый список указателя на image
sortedList.insert( std::make_pair( max(image_size.width, image_size.height), S_ImagePointer(iSprites, iImages) ) );
}
}
//Проверка сортировки
//for(T_SortedList::iterator iter_sortedList = sortedList.begin(); iter_sortedList != sortedList.end(); ++iter_sortedList)
// CL_Console::write_line("sorted: %1, key=(%2, %3)", iter_sortedList->first, iter_sortedList->second.iSprite, iter_sortedList->second.iImage);
//проход по всем спрайтам по убыванию большей стороны
for(T_SortedList::reverse_iterator iter_sortedList = sortedList.rbegin(); iter_sortedList != sortedList.rend(); ++iter_sortedList)
{
//номер спрайта
T_Sprites::size_type iSprite = iter_sortedList->second.iSprite;
//номер изображения в спрайте
S_Sprite::T_Images::size_type iImage = iter_sortedList->second.iImage;
if( !sprites[iSprite].mImages[iImage].mNoTransparent )
pngNodes.ConnectTexture( S_ImagePointer(iSprite, iImage) );
else
jpgNodes.ConnectTexture( S_ImagePointer(iSprite, iImage) );
//проверка добавления
CL_Console::write_line("rects are %1 %2 %3 %4", sprites[iSprite].mImages[iImage].mSrcRect.left, sprites[iSprite].mImages[iImage].mSrcRect.top, sprites[iSprite].mImages[iImage].mSrcRect.right, sprites[iSprite].mImages[iImage].mSrcRect.bottom);
}
size_t textureW = MAX_WIDTH;
size_t textureH = MAX_HEIGHT;
//список текстур PNG
std::vector<CL_PixelBuffer> endTexturesPNG;
//список текстур JPG
std::vector<CL_PixelBuffer> endTexturesJPG;
//физическое создание конечных текстур
size_t nTexture = pngNodes.GetNumberTextures();
for(size_t iTexture = 0; iTexture < nTexture; ++iTexture)
endTexturesPNG.push_back( CL_PixelBuffer(textureW, textureH, cl_rgba8) );
nTexture = jpgNodes.GetNumberTextures();
for(size_t iTexture = 0; iTexture < nTexture; ++iTexture)
endTexturesJPG.push_back( CL_PixelBuffer(textureW, textureH, cl_rgb8) );
//обнуление цвета и альфы конечных текстур PNG
for(std::vector<CL_PixelBuffer>::iterator iterEndTexture = endTexturesPNG.begin(); iterEndTexture != endTexturesPNG.end(); ++iterEndTexture)
memset( (void *)iterEndTexture->get_data(), 0, iterEndTexture->get_pitch()*iterEndTexture->get_height() );
//обнуление цвета конечных текстуры JPG
for(std::vector<CL_PixelBuffer>::iterator iterEndTexture = endTexturesJPG.begin(); iterEndTexture != endTexturesJPG.end(); ++iterEndTexture)
memset( (void *)iterEndTexture->get_data(), 0, iterEndTexture->get_pitch()*iterEndTexture->get_height() );
//копирование подтекстур в конечные текстуры
for(T_Sprites::iterator iter_sprites = sprites.begin(); iter_sprites != sprites.end(); ++iter_sprites)
{
for(S_Sprite::T_Images::iterator iter_images = iter_sprites->mImages.begin(); iter_images != iter_sprites->mImages.end(); ++iter_images)
{
//размеры добавляемого прямоугольника
CL_Rect srcRect = CL_Rect(0, 0, iter_images->mImage.get_width(), iter_images->mImage.get_height());
//номер текстуры
size_t iTexture = iter_images->mITexture;
if( !iter_images->mNoTransparent )
iter_images->mImage.convert(endTexturesPNG[iTexture], iter_images->mSrcRect, srcRect);
else
iter_images->mImage.convert(endTexturesJPG[iTexture], iter_images->mSrcRect, srcRect);
}
}
//сохранение текстур PNG
std::vector<CL_PixelBuffer>::size_type iEndTexture, nEndTexture;
nEndTexture = endTexturesPNG.size();
for(iEndTexture = 0; iEndTexture < nEndTexture; ++iEndTexture)
{
//Предумножение на альфу
endTexturesPNG[iEndTexture].premultiply_alpha();
//сохранение
CL_PNGProvider::save(endTexturesPNG[iEndTexture], CL_PathHelp::make_absolute(workDirectoryName, OUTPUT_TEXTURE_NAME + CL_StringHelp::int_to_text(iEndTexture) + ".png") );
CL_Console::write_line("saved %1", CL_PathHelp::make_absolute(workDirectoryName, OUTPUT_TEXTURE_NAME + CL_StringHelp::int_to_text(iEndTexture) + ".png"));
}
//сохранение текстур JPG
nEndTexture = endTexturesJPG.size();
for(iEndTexture = 0; iEndTexture < nEndTexture; ++iEndTexture)
{
//сохранение
CL_JPEGProvider::save(endTexturesJPG[iEndTexture], CL_PathHelp::make_absolute(workDirectoryName, OUTPUT_TEXTURE_NAME + CL_StringHelp::int_to_text(iEndTexture) + ".jpg"));
CL_Console::write_line("saved %1", CL_PathHelp::make_absolute(workDirectoryName, OUTPUT_TEXTURE_NAME + CL_StringHelp::int_to_text(iEndTexture) + ".jpg"));
}
//CL_Console::wait_for_key();
#if SAVE_COLLISION != 0
//Запись файлов - контуров////////////////////////////////////////////////////////
//удаление старых файлов
for(T_Sprites::iterator iter_sprites = sprites.begin(); iter_sprites != sprites.end(); ++iter_sprites)
{
for(S_Sprite::T_Images::iterator iter_images = iter_sprites->mImages.begin(); iter_images != iter_sprites->mImages.end(); ++iter_images)
{
CL_String currentOutlineFileName = iter_images->mCollision.GetCollisionFileName();
if ( CL_FileHelp::file_exists(currentOutlineFileName) )
CL_FileHelp::delete_file(currentOutlineFileName);
}
}
//объекты файлов для записи в них данных контуров
std::map<CL_String, CL_File> outlineFiles;
//открытие файлов
for(T_Sprites::iterator iter_sprites = sprites.begin(); iter_sprites != sprites.end(); ++iter_sprites)
{
for(S_Sprite::T_Images::iterator iter_images = iter_sprites->mImages.begin(); iter_images != iter_sprites->mImages.end(); ++iter_images)
{
CL_String currentOutlineFileName = iter_images->mCollision.GetCollisionFileName();
std::map<CL_String, CL_File>::iterator iterOutlineFiles = outlineFiles.find(currentOutlineFileName);
if (iterOutlineFiles == outlineFiles.end())
{
CL_File outlineFile;
//формирование полного имени файла
CL_String currentOutlineFullName = CL_PathHelp::make_absolute(workDirectoryName, currentOutlineFileName);
//открытие файла
CL_Console::write_line("open outline file: %1", currentOutlineFullName);
bool is_opened = outlineFile.open(currentOutlineFullName, CL_File::open_always, CL_File::access_write);
if (!is_opened)
return PrintError( CL_String("I Can't open file: ") + currentOutlineFullName );
//добавление файла в список открытых файлов
outlineFiles.insert( std::make_pair(currentOutlineFileName, outlineFile) );
CL_Console::write_line("-inserted %1", currentOutlineFileName);
}
}
}
//сохранение в бинарные файлы данных о контуре
for(T_Sprites::iterator iter_sprites = sprites.begin(); iter_sprites != sprites.end(); ++iter_sprites)
{
for(S_Sprite::T_Images::iterator iter_images = iter_sprites->mImages.begin(); iter_images != iter_sprites->mImages.end(); ++iter_images)
{
CL_String currentOutlineFileName = iter_images->mCollision.GetCollisionFileName();
//сохранение информации о коллизии
saveCollision(iter_images->mImage, outlineFiles[currentOutlineFileName]);
//установка смещения для последующих таких имён
for(T_Sprites::iterator iter_sprites2 = iter_sprites; iter_sprites2 != sprites.end(); ++iter_sprites2)
{
S_Sprite::T_Images::iterator iter_images2;
if(iter_sprites2 == iter_sprites)
iter_images2 = iter_images + 1;
else
iter_images2 = iter_sprites2->mImages.begin();
for(; iter_images2 != iter_sprites2->mImages.end(); ++iter_images2)
if(iter_images->mCollision.GetCollisionFileName() == iter_images2->mCollision.GetCollisionFileName())
//CL_Console::write_line("+size %1", outlineFiles[currentOutlineFileName].get_position() );
iter_images2->mCollision.mFileOffset = outlineFiles[currentOutlineFileName].get_position();
}
CL_Console::write_line("saved %1: %2 %3", iter_images->mSourceFileName, currentOutlineFileName, iter_images->mCollision.mFileOffset);
}
}
//закрытие файлов
for(std::map<CL_String, CL_File>::iterator iterOutlineFiles = outlineFiles.begin(); iterOutlineFiles != outlineFiles.end(); ++iterOutlineFiles)
iterOutlineFiles->second.close();
#endif
//CL_Console::wait_for_key();
//////////////////////////////////////////////////////////
//формирование имени файла
//CL_String fileResourceName = CL_PathHelp::make_absolute(workDirectoryName, locationName + ".xml");
CL_String fileResourceName = CL_PathHelp::make_absolute(workDirectoryName, RESOURCES_FILE_NAME);
CL_Console::write_line("fileResourceName: %1", fileResourceName);
//открытие файла XML
CL_File fileResourceXML;
bool is_opened = fileResourceXML.open(fileResourceName, CL_File::create_always, CL_File::access_write);
if( !is_opened )
return PrintError( CL_String("I Can't open file: ") + fileResourceName );
//запись файл заголовка
fileResourceXML.write_string_text("<?xml version=\"1.0\" encoding=\"UTF-8\"?>");
//Создание объекта DOM парсера
CL_DomDocument resourceXML;
//корневой узел - resources
CL_DomElement resourcesElement(resourceXML, "resources");
resourceXML.append_child(resourcesElement);
//узлы bitmap
std::map<CL_String, CL_String> complianceCollisions;
//формирование map-ы bitmap
for(T_Sprites::iterator iter_sprites = sprites.begin(); iter_sprites != sprites.end(); ++iter_sprites)
for(S_Sprite::T_Images::iterator iter_images = iter_sprites->mImages.begin(); iter_images != iter_sprites->mImages.end(); ++iter_images)
complianceCollisions.insert( std::make_pair(iter_images->mCollision.GetCollisionFileName(), iter_images->mCollision.GetCollisionName()) );
#if SAVE_COLLISION != 0
//запись в XML файл ресурсов битовых масок
for(std::map<CL_String, CL_String>::iterator iterComplianceCollisions = complianceCollisions.begin(); iterComplianceCollisions != complianceCollisions.end(); ++iterComplianceCollisions)
{
CL_DomElement bitmapElement(resourceXML, "bitmap");
bitmapElement.set_attribute("name", iterComplianceCollisions->second);
bitmapElement.set_attribute("file", iterComplianceCollisions->first);
resourcesElement.append_child(bitmapElement);
}
#endif
//запись в XML файл ресурсов результирующих прямоугольников
for(T_Sprites::iterator iter_sprites = sprites.begin(); iter_sprites != sprites.end(); ++iter_sprites)
{
CL_String currentResourceName = iter_sprites->mName;
//узел - sprite
CL_DomElement spriteElement(resourceXML, "sprite");
spriteElement.set_attribute("name", currentResourceName);
resourcesElement.append_child(spriteElement);
//тэг image
for(S_Sprite::T_Images::iterator iter_images = iter_sprites->mImages.begin(); iter_images != iter_sprites->mImages.end(); ++iter_images)
{
CL_Rect currentSrcRect = iter_images->mSrcRect;
//узел - image
CL_DomElement imageElement(resourceXML, "image");
if( !iter_images->mNoTransparent )
imageElement.set_attribute("file", OUTPUT_TEXTURE_NAME + CL_StringHelp::int_to_text(iter_images->mITexture) + ".png");
else
imageElement.set_attribute("file", OUTPUT_TEXTURE_NAME + CL_StringHelp::int_to_text(iter_images->mITexture) + ".jpg");
spriteElement.append_child(imageElement);
#if SAVE_COLLISION != 0
//сохранение коллизий
imageElement.set_attribute("bitmap", iter_images->mCollision.GetCollisionName());
imageElement.set_attribute_int("offset", iter_images->mCollision.mFileOffset);
#endif
//элемент grid
CL_DomElement GridElement(resourceXML, "grid");
GridElement.set_attribute("pos", cl_format("%1,%2", currentSrcRect.left + iter_images->mDeltaGrid.left, currentSrcRect.top + iter_images->mDeltaGrid.top) );
GridElement.set_attribute("size", cl_format("%1,%2", currentSrcRect.right-currentSrcRect.left + iter_images->mDeltaGrid.right, currentSrcRect.bottom-currentSrcRect.top + iter_images->mDeltaGrid.bottom) );
imageElement.append_child(GridElement);
}
//прервать выполнение сохранения, если анимации нет
if (!iter_sprites->mIsFrame)
continue;
for(S_Sprite::T_Images::iterator iter_images = iter_sprites->mImages.begin(); iter_images != iter_sprites->mImages.end(); ++iter_images)
{
//элемент frame
CL_DomElement frameElement(resourceXML, "frame");
frameElement.set_attribute_int("nr", iter_images - iter_sprites->mImages.begin());
if (iter_images->mDelay != 0)
frameElement.set_attribute_int("speed", iter_images->mDelay);
frameElement.set_attribute_int("x", iter_images->mOffset.x);
frameElement.set_attribute_int("y", iter_images->mOffset.y);
spriteElement.append_child(frameElement);
}
}
//подключение всех файлов с дополнительными ресурсами
directoryScanner.scan(workDirectoryName, "*.xml");
while (directoryScanner.next())
{
//проверка валидности файла
if (directoryScanner.is_directory() || directoryScanner.get_name() == RESOURCES_FILE_NAME)
continue;
//открытие ресурсного XML файла
CL_Console::write_line("include xml file: " + directoryScanner.get_pathname());
CL_File file(directoryScanner.get_pathname());
CL_DomDocument doc(file);
CL_DomElement root = doc.get_document_element();
if (root.get_tag_name() != "resources")
{
CL_Console::write_line("Root name can't be: %1", root.get_tag_name());
return PrintError("");
}
//добавление всех ресурсов в текущий документ
for (CL_DomElement element = root.get_first_child_element(); !element.is_null(); element = element.get_next_sibling_element())
resourcesElement.append_child(cloneElement(element, resourceXML));
}
//сохранение в файл XML структуры
resourceXML.save(fileResourceXML);
//закрытие файла
fileResourceXML.close();
//сохранение координат спрайтов и инициализации/деинициализации в lua скрипте
//формирование имени файла
//CL_String luaFileName = CL_PathHelp::make_absolute(workDirectoryName, locationName + ".lua");
CL_String luaFileName = CL_PathHelp::make_absolute(workDirectoryName, LUA_SCRIPT_NAME);
CL_File luaFile;
is_opened = luaFile.open(luaFileName, CL_File::create_always, CL_File::access_write);
if( !is_opened )
return PrintError( CL_String("Can't open file: ") + luaFileName);
luaFile.write_string_text( cl_format("function %1_createSprites()", locationName) );
//запись в XML файл ресурсов результирующих прямоугольников
for(T_Sprites::iterator iter_sprites = sprites.begin(); iter_sprites != sprites.end(); ++iter_sprites)
{
CL_String currentResourceName = iter_sprites->mName;
int x = iter_sprites->mPos.x;
int y = iter_sprites->mPos.y;
luaFile.write_string_text( cl_format("\t%1 = Sprite(\"%2\", %3, %4)", currentResourceName, currentResourceName, x, y) );
}
luaFile.write_string_text( cl_format("end") );
luaFile.write_string_text(CL_String(""));
luaFile.write_string_text( cl_format("function %1_deleteSprites()", locationName) );
//запись в XML файл ресурсов результирующих прямоугольников
for(T_Sprites::iterator iter_sprites = sprites.begin(); iter_sprites != sprites.end(); ++iter_sprites)
{
CL_String currentResourceName = iter_sprites->mName;
luaFile.write_string_text( cl_format("\t%1 = nil", currentResourceName) );
}
luaFile.write_string_text( cl_format("end") );
/*
function Location01_createSprites()
sprite1 = Sprite("sprite1", 10, 20)
sprite2 = Sprite("sprite2", 13, 666)
...
spriten = Sprite("spriten", 999, 0)
end
function Location01_deleteSprites()
sprite1 = nil
sprite2 = nil
...
spriten = nil
end
*/
luaFile.close();
CL_Console::write_line("Press any key...");
CL_Console::wait_for_key();
}
catch(CL_Exception &exception)
{
CL_Console::write_line("Exception caught: " + exception.get_message_and_stack_trace());
CL_Console::wait_for_key();
return -1;
}
return 0;
}
int main( int argc, char** argv ) {
QApplication app( argc, argv );
KDReports::Report report;
report.setHeaderBodySpacing( 10 ); // mm
report.setFooterBodySpacing( 10 ); // mm
// report.setWatermarkPixmap( QPixmap( ":/kdab.jpg" ) );
// report.setWatermarkText( QString::null );
KDReports::Header& header = report.header( KDReports::OddPages );
QPixmap kdab( ":/kdab_small.jpg" );
// add a border around the pixmap, mostly for debugging
//QPainter painter( &kdab );
//painter.drawRect( 0, 0, kdab.width() - 1, kdab.height() - 1 );
KDReports::ImageElement imageElement( kdab );
// The image size can be set in mm or in percent of the page width (without margins)
// imageElement.setWidth( 50 ); // mm
imageElement.setWidth( 40, KDReports::Percent );
header.addElement( imageElement );
header.addVariable( KDReports::PageNumber );
header.addInlineElement( KDReports::TextElement( " / " ) );
header.addVariable( KDReports::PageCount );
header.addInlineElement( KDReports::TextElement( ", Date: " ) );
header.addVariable( KDReports::TextDate );
header.addInlineElement( KDReports::TextElement( ", Time: " ) );
header.addVariable( KDReports::TextTime );
KDReports::Header& evenPagesHeader = report.header( KDReports::EvenPages );
evenPagesHeader.addElement( imageElement );
evenPagesHeader.addInlineElement( KDReports::TextElement( "Even pages header: " ) );
evenPagesHeader.addVariable( KDReports::PageNumber );
evenPagesHeader.addInlineElement( KDReports::TextElement( " / " ) );
evenPagesHeader.addVariable( KDReports::PageCount );
KDReports::Footer& footer = report.footer();
KDReports::TextElement companyAddressElement( QString::fromUtf8( "Klarälvdalens Datakonsult AB\nRysktorp\nSE-68392 Hagfors\nSweden" ) );
footer.addElement( companyAddressElement, Qt::AlignRight );
KDReports::TextElement titleElement;
titleElement << "Price list example";
titleElement.setPointSize( 18 );
report.addElement( titleElement, Qt::AlignHCenter );
report.addVerticalSpacing( 10 ); // 1 cm
const QColor titleElementColor( 204, 204, 255 );
// A text element with the title above a table
// Note that the background color is not just behind the text (as setBackground() would do),
// but behind the whole paragraph, up until the right margin of the page.
KDReports::TextElement tableTitleElement( "Network Peripherals" );
tableTitleElement.setBold( true );
report.addElement( tableTitleElement, Qt::AlignLeft, titleElementColor );
TableModel table1;
table1.setDataHasVerticalHeaders( false );
table1.loadFromCSV( ":/table1" );
// Q_ASSERT( table1.headerData( 0, Qt::Vertical ).toString() == "10/100 Mbps switch" );
//Q_ASSERT( table1.data( table1.index( 0, 0 ) ).toString() == "Product" );
KDReports::AutoTableElement autoTableElement1( &table1 );
autoTableElement1.setWidth( 100, KDReports::Percent );
report.addElement( autoTableElement1 );
report.addVerticalSpacing( 5 );
// Notice how elements can be copied and modified
// This way, we use the same font attributes for all title elements
KDReports::TextElement tableTitleElement2 = tableTitleElement;
tableTitleElement2.setText( "Printer Cartridges" );
report.addElement( tableTitleElement2, Qt::AlignLeft, titleElementColor );
TableModel table2;
table2.setDataHasVerticalHeaders( false );
table2.loadFromCSV( ":/table2" );
KDReports::AutoTableElement autoTableElement2( &table2 );
autoTableElement2.setWidth( 100, KDReports::Percent );
report.addElement( autoTableElement2 );
// and again, on the second page
report.addPageBreak();
report.addElement( tableTitleElement, Qt::AlignLeft, titleElementColor );
report.addElement( autoTableElement1 );
report.addVerticalSpacing( 5 );
report.addElement( tableTitleElement2, Qt::AlignLeft, titleElementColor );
report.addElement( autoTableElement2 );
report.addVerticalSpacing( 5 );
// ===========================================================================
// Another kind of table, where the data comes from code and not from a model:
// ===========================================================================
KDReports::TableElement tableElement;
tableElement.setHeaderRowCount( 2 );
tableElement.setPadding( 3 );
QColor headerColor( "#DADADA" );
// Merged header in row 0
KDReports::Cell& topHeader = tableElement.cell( 0, 0 );
topHeader.setColumnSpan( 2 );
topHeader.setBackground( headerColor );
topHeader.addElement( KDReports::TextElement( "TableElement example" ), Qt::AlignHCenter );
// Normal header in row 1
KDReports::Cell& headerCell1 = tableElement.cell( 1, 0 );
headerCell1.setBackground( headerColor );
// This would look better if centered vertically. This feature is only available since
// Qt-4.3 though (QTextCharFormat::AlignMiddle)
QPixmap systemPixmap( ":/system.png" );
headerCell1.addElement( KDReports::ImageElement( systemPixmap ) );
headerCell1.addInlineElement( KDReports::TextElement( " Item" ) );
KDReports::Cell& headerCell2 = tableElement.cell( 1, 1 );
headerCell2.setBackground( headerColor );
KDReports::TextElement expected( "Expected" );
expected.setItalic( true );
expected.setBackground( QColor("#999999") ); // note that this background only applies to this element
headerCell2.addElement( expected );
headerCell2.addInlineElement( KDReports::TextElement( " shipping time" ) );
// Data in rows 2 and 3
tableElement.cell( 2, 0 ).addElement( KDReports::TextElement( "Network Peripherals" ) );
tableElement.cell( 2, 1 ).addElement( KDReports::TextElement( "4 days" ) );
tableElement.cell( 3, 0 ).addElement( KDReports::TextElement( "Printer Cartridges" ) );
tableElement.cell( 3, 1 ).addElement( KDReports::TextElement( "3 days" ) );
report.addElement( tableElement );
KDReports::PreviewDialog preview( &report );
return preview.exec();
}
