/* * @(#)Node.java 1.11 2000/08/16 * */ package org.w3c.tidy; /** * * Node * * (c) 1998-2000 (W3C) MIT, INRIA, Keio University * See Tidy.java for the copyright notice. * Derived from * HTML Tidy Release 4 Aug 2000 * * @author Dave Raggett * @author Andy Quick (translation to Java) * @version 1.0, 1999/05/22 * @version 1.0.1, 1999/05/29 * @version 1.1, 1999/06/18 Java Bean * @version 1.2, 1999/07/10 Tidy Release 7 Jul 1999 * @version 1.3, 1999/07/30 Tidy Release 26 Jul 1999 * @version 1.4, 1999/09/04 DOM support * @version 1.5, 1999/10/23 Tidy Release 27 Sep 1999 * @version 1.6, 1999/11/01 Tidy Release 22 Oct 1999 * @version 1.7, 1999/12/06 Tidy Release 30 Nov 1999 * @version 1.8, 2000/01/22 Tidy Release 13 Jan 2000 * @version 1.9, 2000/06/03 Tidy Release 30 Apr 2000 * @version 1.10, 2000/07/22 Tidy Release 8 Jul 2000 * @version 1.11, 2000/08/16 Tidy Release 4 Aug 2000 */ /* Used for elements and text nodes element name is null for text nodes start and end are offsets into lexbuf which contains the textual content of all elements in the parse tree. parent and content allow traversal of the parse tree in any direction. attributes are represented as a linked list of AttVal nodes which hold the strings for attribute/value pairs. */ public class Node { public static final short RootNode = 0; public static final short DocTypeTag = 1; public static final short CommentTag = 2; public static final short ProcInsTag = 3; public static final short TextNode = 4; public static final short StartTag = 5; public static final short EndTag = 6; public static final short StartEndTag = 7; public static final short CDATATag = 8; public static final short SectionTag = 9; public static final short AspTag = 10; public static final short JsteTag = 11; public static final short PhpTag = 12; protected Node parent; protected Node prev; protected Node next; protected Node last; protected int start; /* start of span onto text array */ protected int end; /* end of span onto text array */ protected byte[] textarray; /* the text array */ protected short type; /* TextNode, StartTag, EndTag etc. */ protected boolean closed; /* true if closed by explicit end tag */ protected boolean implicit; /* true if inferred */ protected boolean linebreak; /* true if followed by a line break */ protected Dict was; /* old tag when it was changed */ protected Dict tag; /* tag's dictionary definition */ protected String element; /* name (null for text nodes) */ protected AttVal attributes; protected Node content; public Node() { this(TextNode, null, 0, 0); } public Node(short type, byte[] textarray, int start, int end) { this.parent = null; this.prev = null; this.next = null; this.last = null; this.start = start; this.end = end; this.textarray = textarray; this.type = type; this.closed = false; this.implicit = false; this.linebreak = false; this.was = null; this.tag = null; this.element = null; this.attributes = null; this.content = null; } public Node(short type, byte[] textarray, int start, int end, String element, TagTable tt) { this.parent = null; this.prev = null; this.next = null; this.last = null; this.start = start; this.end = end; this.textarray = textarray; this.type = type; this.closed = false; this.implicit = false; this.linebreak = false; this.was = null; this.tag = null; this.element = element; this.attributes = null; this.content = null; if (type == StartTag || type == StartEndTag || type == EndTag) tt.findTag(this); } /* used to clone heading nodes when split by an
*/ protected Object clone() { Node node = new Node(); node.parent = this.parent; if (this.textarray != null) { node.textarray = new byte[this.end - this.start]; node.start = 0; node.end = this.end - this.start; if (node.end > 0) System.arraycopy(this.textarray, this.start, node.textarray, node.start, node.end); } node.type = this.type; node.closed = this.closed; node.implicit = this.implicit; node.linebreak = this.linebreak; node.was = this.was; node.tag = this.tag; if (this.element != null) node.element = this.element; if (this.attributes != null) node.attributes = (AttVal)this.attributes.clone(); return node; } public AttVal getAttrByName(String name) { AttVal attr; for (attr = this.attributes; attr != null; attr = attr.next) { if (name != null && attr.attribute != null && attr.attribute.equals(name)) break; } return attr; } /* default method for checking an element's attributes */ public void checkAttributes( Lexer lexer ) { AttVal attval; for (attval = this.attributes; attval != null; attval = attval.next) attval.checkAttribute( lexer, this ); } public void checkUniqueAttributes(Lexer lexer) { AttVal attval; for (attval = this.attributes; attval != null; attval = attval.next) { if (attval.asp == null && attval.php == null) attval.checkUniqueAttribute(lexer, this); } } public void addAttribute(String name, String value) { AttVal av = new AttVal(null, null, null, null, '"', name, value); av.dict = AttributeTable.getDefaultAttributeTable().findAttribute(av); if (this.attributes == null) this.attributes = av; else /* append to end of attributes */ { AttVal here = this.attributes; while (here.next != null) here = here.next; here.next = av; } } /* remove attribute from node then free it */ public void removeAttribute(AttVal attr) { AttVal av; AttVal prev = null; AttVal next; for (av = this.attributes; av != null; av = next) { next = av.next; if (av == attr) { if (prev != null) prev.next = next; else this.attributes = next; } else prev = av; } } /* find doctype element */ public Node findDocType() { Node node; for (node = this.content; node != null && node.type != DocTypeTag; node = node.next); return node; } public void discardDocType() { Node node; node = findDocType(); if (node != null) { if (node.prev != null) node.prev.next = node.next; else node.parent.content = node.next; if (node.next != null) node.next.prev = node.prev; node.next = null; } } /* remove node from markup tree and discard it */ public static Node discardElement(Node element) { Node next = null; if (element != null) { next = element.next; removeNode(element); } return next; } /* insert node into markup tree */ public static void insertNodeAtStart(Node element, Node node) { node.parent = element; if (element.content == null) element.last = node; else element.content.prev = node; // AQ added 13 Apr 2000 node.next = element.content; node.prev = null; element.content = node; } /* insert node into markup tree */ public static void insertNodeAtEnd(Node element, Node node) { node.parent = element; node.prev = element.last; if (element.last != null) element.last.next = node; else element.content = node; element.last = node; } /* insert node into markup tree in pace of element which is moved to become the child of the node */ public static void insertNodeAsParent(Node element, Node node) { node.content = element; node.last = element; node.parent = element.parent; element.parent = node; if (node.parent.content == element) node.parent.content = node; if (node.parent.last == element) node.parent.last = node; node.prev = element.prev; element.prev = null; if (node.prev != null) node.prev.next = node; node.next = element.next; element.next = null; if (node.next != null) node.next.prev = node; } /* insert node into markup tree before element */ public static void insertNodeBeforeElement(Node element, Node node) { Node parent; parent = element.parent; node.parent = parent; node.next = element; node.prev = element.prev; element.prev = node; if (node.prev != null) node.prev.next = node; if (parent.content == element) parent.content = node; } /* insert node into markup tree after element */ public static void insertNodeAfterElement(Node element, Node node) { Node parent; parent = element.parent; node.parent = parent; // AQ - 13Jan2000 fix for parent == null if (parent != null && parent.last == element) parent.last = node; else { node.next = element.next; // AQ - 13Jan2000 fix for node.next == null if (node.next != null) node.next.prev = node; } element.next = node; node.prev = element; } public static void trimEmptyElement(Lexer lexer, Node element) { TagTable tt = lexer.configuration.tt; if (lexer.canPrune(element)) { if (element.type != TextNode) Report.warning(lexer, element, null, Report.TRIM_EMPTY_ELEMENT); discardElement(element); } else if (element.tag == tt.tagP && element.content == null) { /* replace

by

to preserve formatting */ Node node = lexer.inferredTag("br"); Node.coerceNode(lexer, element, tt.tagBr); Node.insertNodeAfterElement(element, node); } } /* This maps hello world to hello world If last child of element is a text node then trim trailing white space character moving it to after element's end tag. */ public static void trimTrailingSpace(Lexer lexer, Node element, Node last) { byte c; TagTable tt = lexer.configuration.tt; if (last != null && last.type == Node.TextNode && last.end > last.start) { c = lexer.lexbuf[last.end - 1]; if (c == 160 || c == (byte)' ') { /* take care with   */ if (element.tag == tt.tagTd || element.tag == tt.tagTh) { if (last.end > last.start + 1) last.end -= 1; } else { last.end -= 1; if (((element.tag.model & Dict.CM_INLINE) != 0) && !((element.tag.model & Dict.CM_FIELD) != 0)) lexer.insertspace = true; /* if empty string then delete from parse tree */ if (last.start == last.end) trimEmptyElement(lexer, last); } } } } /* This maps

hello world to

hello world Trims initial space, by moving it before the start tag, or if this element is the first in parent's content, then by discarding the space */ public static void trimInitialSpace(Lexer lexer, Node element, Node text) { Node prev, node; // GLP: Local fix to Bug 119789. Remove this comment when parser.c is updated. // 31-Oct-00. if (text.type == TextNode && text.textarray[text.start] == (byte)' ' && (text.start < text.end)) { if (((element.tag.model & Dict.CM_INLINE) != 0) && !((element.tag.model & Dict.CM_FIELD) != 0) && element.parent.content != element) { prev = element.prev; if (prev != null && prev.type == TextNode) { if (prev.textarray[prev.end - 1] != (byte)' ') prev.textarray[prev.end++] = (byte)' '; ++element.start; } else /* create new node */ { node = lexer.newNode(); // Local fix for bug 228486 (GLP). This handles the case // where we need to create a preceeding text node but there are // no "slots" in textarray that we can steal from the current // element. Therefore, we create a new textarray containing // just the blank. When Tidy is fixed, this should be removed. if (element.start >= element.end) { node.start = 0; node.end = 1; node.textarray = new byte[1]; } else { node.start = element.start++; node.end = element.start; node.textarray = element.textarray; } node.textarray[node.start] = (byte)' '; node.prev = prev; if (prev != null) prev.next = node; node.next = element; element.prev = node; node.parent = element.parent; } } /* discard the space in current node */ ++text.start; } } /* Move initial and trailing space out. This routine maps: hello world to hello world and hello world to hello world */ public static void trimSpaces(Lexer lexer, Node element) { Node text = element.content; TagTable tt = lexer.configuration.tt; if (text != null && text.type == Node.TextNode && element.tag != tt.tagPre) trimInitialSpace(lexer, element, text); text = element.last; if (text != null && text.type == Node.TextNode) trimTrailingSpace(lexer, element, text); } public boolean isDescendantOf(Dict tag) { Node parent; for (parent = this.parent; parent != null; parent = parent.parent) { if (parent.tag == tag) return true; } return false; } /* the doctype has been found after other tags, and needs moving to before the html element */ public static void insertDocType(Lexer lexer, Node element, Node doctype) { TagTable tt = lexer.configuration.tt; Report.warning(lexer, element, doctype, Report.DOCTYPE_AFTER_TAGS); while (element.tag != tt.tagHtml) element = element.parent; insertNodeBeforeElement(element, doctype); } public Node findBody(TagTable tt) { Node node; node = this.content; while (node != null && node.tag != tt.tagHtml) node = node.next; if (node == null) return null; node = node.content; while (node != null && node.tag != tt.tagBody) node = node.next; return node; } public boolean isElement() { return (this.type == StartTag || this.type == StartEndTag ? true : false); } /* unexpected content in table row is moved to just before the table in accordance with Netscape and IE. This code assumes that node hasn't been inserted into the row. */ public static void moveBeforeTable(Node row, Node node, TagTable tt) { Node table; /* first find the table element */ for (table = row.parent; table != null; table = table.parent) { if (table.tag == tt.tagTable) { if (table.parent.content == table) table.parent.content = node; node.prev = table.prev; node.next = table; table.prev = node; node.parent = table.parent; if (node.prev != null) node.prev.next = node; break; } } } /* if a table row is empty then insert an empty cell this practice is consistent with browser behavior and avoids potential problems with row spanning cells */ public static void fixEmptyRow(Lexer lexer, Node row) { Node cell; if (row.content == null) { cell = lexer.inferredTag("td"); insertNodeAtEnd(row, cell); Report.warning(lexer, row, cell, Report.MISSING_STARTTAG); } } public static void coerceNode(Lexer lexer, Node node, Dict tag) { Node tmp = lexer.inferredTag(tag.name); Report.warning(lexer, node, tmp, Report.OBSOLETE_ELEMENT); node.was = node.tag; node.tag = tag; node.type = StartTag; node.implicit = true; node.element = tag.name; } /* extract a node and its children from a markup tree */ public static void removeNode(Node node) { if (node.prev != null) node.prev.next = node.next; if (node.next != null) node.next.prev = node.prev; if (node.parent != null) { if (node.parent.content == node) node.parent.content = node.next; if (node.parent.last == node) node.parent.last = node.prev; } node.parent = node.prev = node.next = null; } public static boolean insertMisc(Node element, Node node) { if (node.type == CommentTag || node.type == ProcInsTag || node.type == CDATATag || node.type == SectionTag || node.type == AspTag || node.type == JsteTag || node.type == PhpTag) { insertNodeAtEnd(element, node); return true; } return false; } /* used to determine how attributes without values should be printed this was introduced to deal with user defined tags e.g. Cold Fusion */ public static boolean isNewNode(Node node) { if (node != null && node.tag != null) { return ((node.tag.model & Dict.CM_NEW) != 0); } return true; } public boolean hasOneChild() { return (this.content != null && this.content.next == null); } /* find html element */ public Node findHTML(TagTable tt) { Node node; for (node = this.content; node != null && node.tag != tt.tagHtml; node = node.next); return node; } public Node findHEAD(TagTable tt) { Node node; node = this.findHTML(tt); if (node != null) { for (node = node.content; node != null && node.tag != tt.tagHead; node = node.next); } return node; } public boolean checkNodeIntegrity() { Node child; boolean found = false; if (this.prev != null) { if (this.prev.next != this) return false; } if (this.next != null) { if (this.next.prev != this) return false; } if (this.parent != null) { if (this.prev == null && this.parent.content != this) return false; if (this.next == null && this.parent.last != this) return false; for (child = this.parent.content; child != null; child = child.next) if (child == this) { found = true; break; } if (!found) return false; } for (child = this.content; child != null; child = child.next) if (!child.checkNodeIntegrity()) return false; return true; } /* Add class="foo" to node */ public static void addClass(Node node, String classname) { AttVal classattr = node.getAttrByName("class"); /* if there already is a class attribute then append class name after a space */ if (classattr != null) { classattr.value = classattr.value + " " + classname; } else /* create new class attribute */ node.addAttribute("class", classname); } /* --------------------- DEBUG -------------------------- */ private static final String[] nodeTypeString = { "RootNode", "DocTypeTag", "CommentTag", "ProcInsTag", "TextNode", "StartTag", "EndTag", "StartEndTag", "SectionTag", "AspTag", "PhpTag" }; public String toString() { String s = ""; Node n = this; while (n != null) { s += "[Node type="; s += nodeTypeString[n.type]; s += ",element="; if (n.element != null) s += n.element; else s += "null"; if (n.type == TextNode || n.type == CommentTag || n.type == ProcInsTag) { s += ",text="; if (n.textarray != null && n.start <= n.end) { s += "\""; s += Lexer.getString(n.textarray, n.start, n.end - n.start); s += "\""; } else { s += "null"; } } s += ",content="; if (n.content != null) s += n.content.toString(); else s += "null"; s += "]"; if (n.next != null) s += ","; n = n.next; } return s; } /* --------------------- END DEBUG ---------------------- */ /* --------------------- DOM ---------------------------- */ protected org.w3c.dom.Node adapter = null; protected org.w3c.dom.Node getAdapter() { if (adapter == null) { switch (this.type) { case RootNode: adapter = new DOMDocumentImpl(this); break; case StartTag: case StartEndTag: adapter = new DOMElementImpl(this); break; case DocTypeTag: adapter = new DOMDocumentTypeImpl(this); break; case CommentTag: adapter = new DOMCommentImpl(this); break; case TextNode: adapter = new DOMTextImpl(this); break; case CDATATag: adapter = new DOMCDATASectionImpl(this); break; case ProcInsTag: adapter = new DOMProcessingInstructionImpl(this); break; default: adapter = new DOMNodeImpl(this); } } return adapter; } protected Node cloneNode(boolean deep) { Node node = (Node)this.clone(); if (deep) { Node child; Node newChild; for (child = this.content; child != null; child = child.next) { newChild = child.cloneNode(deep); insertNodeAtEnd(node, newChild); } } return node; } protected void setType(short newType) { this.type = newType; } /* --------------------- END DOM ------------------------ */ }