public void modelGroup( XSModelGroup mg ) { boolean oldIOP = insideOptionalParticle; insideOptionalParticle |= mg.getCompositor()==XSModelGroup.CHOICE; for( XSParticle p : mg.getChildren()) particle(p); insideOptionalParticle = oldIOP; } }
public void modelGroup( XSModelGroup mg ) { boolean oldIOP = insideOptionalParticle; insideOptionalParticle |= mg.getCompositor()==XSModelGroup.CHOICE; for( XSParticle p : mg.getChildren()) particle(p); insideOptionalParticle = oldIOP; } }
private void modelGroup( XSModelGroup group, String extraAtts ) { println(MessageFormat.format("<{0}{1}>", group.getCompositor(), extraAtts)); indent++; final int len = group.getSize(); for( int i=0; i<len; i++ ) particle(group.getChild(i)); indent--; println(MessageFormat.format("</{0}>", group.getCompositor())); }
private void modelGroup( XSModelGroup group, String extraAtts ) { println(MessageFormat.format("<{0}{1}>", group.getCompositor(), extraAtts)); indent++; final int len = group.getSize(); for( int i=0; i<len; i++ ) particle(group.getChild(i)); indent--; println(MessageFormat.format("</{0}>", group.getCompositor())); }
private void modelGroup( XSModelGroup group, String extraAtts ) { println(MessageFormat.format("<{0}{1}>", group.getCompositor(), extraAtts)); indent++; final int len = group.getSize(); for( int i=0; i<len; i++ ) particle(group.getChild(i)); indent--; println(MessageFormat.format("</{0}>", group.getCompositor())); }
public void modelGroup( XSModelGroup mg ) { boolean oldIOP = insideOptionalParticle; insideOptionalParticle |= mg.getCompositor()==XSModelGroup.CHOICE; for( XSParticle p : mg.getChildren()) particle(p); insideOptionalParticle = oldIOP; } }
private void modelGroup( XSModelGroup group, String extraAtts ) { println(MessageFormat.format("<{0}{1}>", group.getCompositor(), extraAtts)); indent++; final int len = group.getSize(); for( int i=0; i<len; i++ ) particle(group.getChild(i)); indent--; println(MessageFormat.format("</{0}>", group.getCompositor())); }
public void modelGroup( XSModelGroup mg ) { boolean oldIOP = insideOptionalParticle; insideOptionalParticle |= mg.getCompositor()==XSModelGroup.CHOICE; for( XSParticle p : mg.getChildren()) particle(p); insideOptionalParticle = oldIOP; } }
private void modelGroup( XSModelGroup group, String extraAtts ) { println(MessageFormat.format("<{0}{1}>", group.getCompositor(), extraAtts)); indent++; final int len = group.getSize(); for( int i=0; i<len; i++ ) particle(group.getChild(i)); indent--; println(MessageFormat.format("</{0}>", group.getCompositor())); }
private Iterator<XSModelGroup> filter(XSModelGroup mg) { if(mg==null) return empty(); if(mg.getCompositor() == compositor || compositor == null) return singleton(mg); else return empty(); }
private Iterator<XSModelGroup> filter(XSModelGroup mg) { if(mg==null) return empty(); if(mg.getCompositor() == compositor || compositor == null) return singleton(mg); else return empty(); }
private Iterator<XSModelGroup> filter(XSModelGroup mg) { if(mg==null) return empty(); if(mg.getCompositor() == compositor || compositor == null) return singleton(mg); else return empty(); }
private Iterator<XSModelGroup> filter(XSModelGroup mg) { if(mg==null) return empty(); if(mg.getCompositor() == compositor || compositor == null) return singleton(mg); else return empty(); }
public void modelGroup(XSModelGroup mg) { // choice gets mapped to a property if(mg.getCompositor()== XSModelGroup.Compositor.CHOICE && builder.getGlobalBinding().isChoiceContentPropertyEnabled()) { mark(outerParticle); return; } for( XSParticle child : mg.getChildren() ) particle(child); }
public void modelGroup(XSModelGroup mg) { // choice gets mapped to a property if(mg.getCompositor()== XSModelGroup.Compositor.CHOICE && builder.getGlobalBinding().isChoiceContentPropertyEnabled()) { mark(outerParticle); return; } for( XSParticle child : mg.getChildren() ) particle(child); }
public void modelGroup(XSModelGroup mg) { // choice gets mapped to a property if(mg.getCompositor()== XSModelGroup.Compositor.CHOICE && builder.getGlobalBinding().isChoiceContentPropertyEnabled()) { mark(outerParticle); return; } for( XSParticle child : mg.getChildren() ) particle(child); }
public void modelGroup(XSModelGroup mg) { // choice gets mapped to a property if(mg.getCompositor()== XSModelGroup.Compositor.CHOICE && builder.getGlobalBinding().isChoiceContentPropertyEnabled()) { mark(outerParticle); return; } for( XSParticle child : mg.getChildren() ) particle(child); }
public void particle(XSParticle p) { // determine the binding of this complex type. builder.recordBindingMode(ct, bgmBuilder.getParticleBinder().checkFallback(p)?FALLBACK_CONTENT:NORMAL); bgmBuilder.getParticleBinder().build(p); XSTerm term = p.getTerm(); if(term.isModelGroup() && term.asModelGroup().getCompositor()==XSModelGroup.ALL) selector.getCurrentBean().setOrdered(false); }
public void particle(XSParticle p) { // determine the binding of this complex type. builder.recordBindingMode(ct, bgmBuilder.getParticleBinder().checkFallback(p)?FALLBACK_CONTENT:NORMAL); bgmBuilder.getParticleBinder().build(p); XSTerm term = p.getTerm(); if(term.isModelGroup() && term.asModelGroup().getCompositor()==XSModelGroup.ALL) selector.getCurrentBean().setOrdered(false); }
public void particle(XSParticle p) { // determine the binding of this complex type. builder.recordBindingMode(ct, bgmBuilder.getParticleBinder().checkFallback(p)?FALLBACK_CONTENT:NORMAL); bgmBuilder.getParticleBinder().build(p); XSTerm term = p.getTerm(); if(term.isModelGroup() && term.asModelGroup().getCompositor()==XSModelGroup.ALL) selector.getCurrentBean().setOrdered(false); }