protected String getText(Tree tree) { String s = treeTextProvider.getText(tree); s = Utils.escapeWhitespace(s, true); return s; }
@Override public String toString() { String name = treeTextProvider.getText((Tree) getUserObject()); if (tree instanceof TerminalNode) { return name.equals("<EOF>") ? name : "\"" + name + "\""; } return name; }
protected String getText(Tree tree) { String s = treeTextProvider.getText(tree); s = Utils.escapeWhitespace(s, false); return s; }
protected String getText(Tree tree) { String s = treeTextProvider.getText(tree); s = Utils.escapeWhitespace(s, false); return s; }
protected String getText(Tree tree) { String s = treeTextProvider.getText(tree); s = Utils.escapeWhitespace(s, true); return s; }
protected String getText(Tree tree) { String s = treeTextProvider.getText(tree); s = Utils.escapeWhitespace(s, true); return s; }
protected String getText(Tree tree) { String s = treeTextProvider.getText(tree); s = Utils.escapeWhitespace(s, true); return s; }
protected String getText(Tree tree) { String s = treeTextProvider.getText(tree); s = Utils.escapeWhitespace(s, false); return s; }
protected String getText(Tree tree) { String s = treeTextProvider.getText(tree); s = Utils.escapeWhitespace(s, false); return s; }
/** Print out a whole tree in LISP form. Arg nodeTextProvider is used on the * node payloads to get the text for the nodes. * * @since 4.5.1 */ public static String toStringTree(Tree t, TreeTextProvider nodeTextProvider) { if ( t==null ) return "null"; String s = Utils.escapeWhitespace(nodeTextProvider.getText(t), false); if ( t.getChildCount()==0 ) return s; StringBuilder buf = new StringBuilder(); buf.append("("); s = Utils.escapeWhitespace(nodeTextProvider.getText(t), false); buf.append(s); buf.append(' '); for (int i = 0; i<t.getChildCount(); i++) { if ( i>0 ) buf.append(' '); buf.append(toStringTree(t.getChild(i), nodeTextProvider)); } buf.append(")"); return buf.toString(); }
/** Print out a whole tree in LISP form. Arg nodeTextProvider is used on the * node payloads to get the text for the nodes. * * @since 4.5.1 */ public static String toStringTree(Tree t, TreeTextProvider nodeTextProvider) { if ( t==null ) return "null"; String s = Utils.escapeWhitespace(nodeTextProvider.getText(t), false); if ( t.getChildCount()==0 ) return s; StringBuilder buf = new StringBuilder(); buf.append("("); s = Utils.escapeWhitespace(nodeTextProvider.getText(t), false); buf.append(s); buf.append(' '); for (int i = 0; i<t.getChildCount(); i++) { if ( i>0 ) buf.append(' '); buf.append(toStringTree(t.getChild(i), nodeTextProvider)); } buf.append(")"); return buf.toString(); }
/** Print out a whole tree in LISP form. Arg nodeTextProvider is used on the * node payloads to get the text for the nodes. * * @since 4.5.1 */ public static String toStringTree(Tree t, TreeTextProvider nodeTextProvider) { if ( t==null ) return "null"; String s = Utils.escapeWhitespace(nodeTextProvider.getText(t), false); if ( t.getChildCount()==0 ) return s; StringBuilder buf = new StringBuilder(); buf.append("("); s = Utils.escapeWhitespace(nodeTextProvider.getText(t), false); buf.append(s); buf.append(' '); for (int i = 0; i<t.getChildCount(); i++) { if ( i>0 ) buf.append(' '); buf.append(toStringTree(t.getChild(i), nodeTextProvider)); } buf.append(")"); return buf.toString(); }
/** Print out a whole tree in LISP form. Arg nodeTextProvider is used on the * node payloads to get the text for the nodes. * * @since 4.5.1 */ public static String toStringTree(@Nullable Tree t, @NotNull TreeTextProvider nodeTextProvider) { if ( t==null ) return "null"; String s = Utils.escapeWhitespace(nodeTextProvider.getText(t), false); if ( t.getChildCount()==0 ) return s; StringBuilder buf = new StringBuilder(); buf.append("("); s = Utils.escapeWhitespace(nodeTextProvider.getText(t), false); buf.append(s); buf.append(' '); for (int i = 0; i<t.getChildCount(); i++) { if ( i>0 ) buf.append(' '); buf.append(toStringTree(t.getChild(i), nodeTextProvider)); } buf.append(")"); return buf.toString(); }