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std.xml

Warning: This module is considered out-dated and not up to Phobos' current standards. It will remain until we have a suitable replacement, but be aware that it will not remain long term.
Classes and functions for creating and parsing XML

The basic architecture of this module is that there are standalone functions, classes for constructing an XML document from scratch (Tag, Element and Document), and also classes for parsing a pre-existing XML file (ElementParser and DocumentParser). The parsing classes may be used to build a Document, but that is not their primary purpose. The handling capabilities of DocumentParser and ElementParser are sufficiently customizable that you can make them do pretty much whatever you want.

Example: This example creates a DOM (Document Object Model) tree from an XML file.

import std.xml;
import std.stdio;
import std.string;
import std.file;

// books.xml is used in various samples throughout the Microsoft XML Core
// Services (MSXML) SDK.
//
// See http://msdn2.microsoft.com/en-us/library/ms762271(VS.85).aspx

void main()
{
    string s = cast(string)std.file.read("books.xml");

    // Check for well-formedness
    check(s);

    // Make a DOM tree
    auto doc = new Document(s);

    // Plain-print it
    writeln(doc);
}

Example: This example does much the same thing, except that the file is deconstructed and reconstructed by hand. This is more work, but the techniques involved offer vastly more power.

import std.xml;
import std.stdio;
import std.string;

struct Book
{
    string id;
    string author;
    string title;
    string genre;
    string price;
    string pubDate;
    string description;
}

void main()
{
    string s = cast(string)std.file.read("books.xml");

    // Check for well-formedness
    check(s);

    // Take it apart
    Book[] books;

    auto xml = new DocumentParser(s);
    xml.onStartTag["book"] = (ElementParser xml)
    {
        Book book;
        book.id = xml.tag.attr["id"];

        xml.onEndTag["author"]       = (in Element e) { book.author      = e.text(); };
        xml.onEndTag["title"]        = (in Element e) { book.title       = e.text(); };
        xml.onEndTag["genre"]        = (in Element e) { book.genre       = e.text(); };
        xml.onEndTag["price"]        = (in Element e) { book.price       = e.text(); };
        xml.onEndTag["publish-date"] = (in Element e) { book.pubDate     = e.text(); };
        xml.onEndTag["description"]  = (in Element e) { book.description = e.text(); };

        xml.parse();

        books ~= book;
    };
    xml.parse();

    // Put it back together again;
    auto doc = new Document(new Tag("catalog"));
    foreach(book;books)
    {
        auto element = new Element("book");
        element.tag.attr["id"] = book.id;

        element ~= new Element("author",      book.author);
        element ~= new Element("title",       book.title);
        element ~= new Element("genre",       book.genre);
        element ~= new Element("price",       book.price);
        element ~= new Element("publish-date",book.pubDate);
        element ~= new Element("description", book.description);

        doc ~= element;
    }

    // Pretty-print it
    writefln(join(doc.pretty(3),"\n"));
}
License:
Authors:
Janice Caron

Source: std/xml.d

bool isChar(dchar c);
Returns true if the character is a character according to the XML standard
Standards:
Parameters:
dchar c the character to be tested
bool isSpace(dchar c);
Returns true if the character is whitespace according to the XML standard
Only the following characters are considered whitespace in XML - space, tab, carriage return and linefeed
Standards:
Parameters:
dchar c the character to be tested
bool isDigit(dchar c);
Returns true if the character is a digit according to the XML standard
Standards:
Parameters:
dchar c the character to be tested
bool isLetter(dchar c);
Returns true if the character is a letter according to the XML standard
Standards:
Parameters:
dchar c the character to be tested
bool isIdeographic(dchar c);
Returns true if the character is an ideographic character according to the XML standard
Standards:
Parameters:
dchar c the character to be tested
bool isBaseChar(dchar c);
Returns true if the character is a base character according to the XML standard
Standards:
Parameters:
dchar c the character to be tested
bool isCombiningChar(dchar c);
Returns true if the character is a combining character according to the XML standard
Standards:
Parameters:
dchar c the character to be tested
bool isExtender(dchar c);
Returns true if the character is an extender according to the XML standard
Standards:
Parameters:
dchar c the character to be tested
S encode(S)(S s);
Encodes a string by replacing all characters which need to be escaped with appropriate predefined XML entities.
encode() escapes certain characters (ampersand, quote, apostrophe, less-than and greater-than), and similarly, decode() unescapes them. These functions are provided for convenience only. You do not need to use them when using the std.xml classes, because then all the encoding and decoding will be done for you automatically.

If the string is not modified, the original will be returned.
Standards:
Parameters:
S s The string to be encoded
Returns:
The encoded string
Examples:
writefln(encode("a > b")); // writes "a > b"
enum DecodeMode: int;
Mode to use for decoding.
NONE
Do not decode
LOOSE
Decode, but ignore errors
STRICT
Decode, and throw exception on error
string decode(string s, DecodeMode mode = DecodeMode.LOOSE);
Decodes a string by unescaping all predefined XML entities.
encode() escapes certain characters (ampersand, quote, apostrophe, less-than and greater-than), and similarly, decode() unescapes them. These functions are provided for convenience only. You do not need to use them when using the std.xml classes, because then all the encoding and decoding will be done for you automatically.

This function decodes the entities &, ", ', < and &gt, as well as decimal and hexadecimal entities such as €

If the string does not contain an ampersand, the original will be returned.

Note that the "mode" parameter can be one of DecodeMode.NONE (do not decode), DecodeMode.LOOSE (decode, but ignore errors), or DecodeMode.STRICT (decode, and throw a DecodeException in the event of an error).
Standards:
Parameters:
string s The string to be decoded
DecodeMode mode (optional) Mode to use for decoding. (Defaults to LOOSE).
Throws:
DecodeException if mode == DecodeMode.STRICT and decode fails
Returns:
The decoded string
Examples:
writefln(decode("a > b")); // writes "a > b"
class Document: std.xml.Element;
Class representing an XML document.
Standards:
string prolog;
Contains all text which occurs before the root element. Defaults to <?xml version="1.0"?>
string epilog;
Contains all text which occurs after the root element. Defaults to the empty string
this(string s);
Constructs a Document by parsing XML text.
This function creates a complete DOM (Document Object Model) tree.

The input to this function MUST be valid XML. This is enforced by DocumentParser's in contract.
Parameters:
string s the complete XML text.
this(const(Tag) tag);
Constructs a Document from a Tag.
Parameters:
const(Tag) tag the start tag of the document.
const bool opEquals(Object o);
Compares two Documents for equality
Examples:
Document d1,d2;
if (d1 == d2) { }
const int opCmp(Object o);
Compares two Documents
You should rarely need to call this function. It exists so that Documents can be used as associative array keys.
Examples:
Document d1,d2;
if (d1 < d2) { }
const @trusted size_t toHash();
Returns the hash of a Document
You should rarely need to call this function. It exists so that Documents can be used as associative array keys.
const string toString();
Returns the string representation of a Document. (That is, the complete XML of a document).
class Element: std.xml.Item;
Class representing an XML element.
Standards:
Tag tag;
The start tag of the element
Item[] items;
The element's items
Text[] texts;
The element's text items
CData[] cdatas;
The element's CData items
Comment[] comments;
The element's comments
ProcessingInstruction[] pis;
The element's processing instructions
Element[] elements;
The element's child elements
this(string name, string interior = null);
Constructs an Element given a name and a string to be used as a Text interior.
Parameters:
string name the name of the element.
string interior (optional) the string interior.
Examples:
auto element = new Element("title","Serenity")
    // constructs the element <title>Serenity</title>
this(const(Tag) tag_);
Constructs an Element from a Tag.
Parameters:
const(Tag) tag_ the start or empty tag of the element.
void opCatAssign(Text item);
Append a text item to the interior of this element
Parameters:
Text item the item you wish to append.
Examples:
Element element;
element ~= new Text("hello");
void opCatAssign(CData item);
Append a CData item to the interior of this element
Parameters:
CData item the item you wish to append.
Examples:
Element element;
element ~= new CData("hello");
void opCatAssign(Comment item);
Append a comment to the interior of this element
Parameters:
Comment item the item you wish to append.
Examples:
Element element;
element ~= new Comment("hello");
void opCatAssign(ProcessingInstruction item);
Append a processing instruction to the interior of this element
Parameters:
ProcessingInstruction item the item you wish to append.
Examples:
Element element;
element ~= new ProcessingInstruction("hello");
void opCatAssign(Element item);
Append a complete element to the interior of this element
Parameters:
Element item the item you wish to append.
Examples:
Element element;
Element other = new Element("br");
element ~= other;
   // appends element representing <br />
bool opEquals(Object o);
Compares two Elements for equality
Examples:
Element e1,e2;
if (e1 == e2) { }
int opCmp(Object o);
Compares two Elements
You should rarely need to call this function. It exists so that Elements can be used as associative array keys.
Examples:
Element e1,e2;
if (e1 < e2) { }
const size_t toHash();
Returns the hash of an Element
You should rarely need to call this function. It exists so that Elements can be used as associative array keys.
const string text(DecodeMode mode = DecodeMode.LOOSE);
Returns the decoded interior of an element.
The element is assumed to contain text only. So, for example, given XML such as "<title>Good &amp; Bad</title>", will return "Good & Bad".
Parameters:
DecodeMode mode (optional) Mode to use for decoding. (Defaults to LOOSE).
Throws:
DecodeException if decode fails
const string[] pretty(uint indent = 2);
Returns an indented string representation of this item
Parameters:
uint indent (optional) number of spaces by which to indent this element. Defaults to 2.
const string toString();
Returns the string representation of an Element
Examples:
auto element = new Element("br");
writefln(element.toString()); // writes "<br />"
enum TagType: int;
Tag types.
START
Used for start tags
END
Used for end tags
EMPTY
Used for empty tags
class Tag;
Class representing an XML tag.
Standards:
XML 1.0

The class invariant guarantees
  • that type is a valid enum TagType value
  • that name consists of valid characters
  • that each attribute name consists of valid characters
TagType type;
Type of tag
string name;
Tag name
string[string] attr;
Associative array of attributes
this(string name, TagType type = TagType.START);
Constructs an instance of Tag with a specified name and type
The constructor does not initialize the attributes. To initialize the attributes, you access the attr member variable.
Parameters:
string name the Tag's name
TagType type (optional) the Tag's type. If omitted, defaults to TagType.START.
Examples:
auto tag = new Tag("img",Tag.EMPTY);
tag.attr["src"] = "http://example.com/example.jpg";
const bool opEquals(Object o);
Compares two Tags for equality
You should rarely need to call this function. It exists so that Tags can be used as associative array keys.
Examples:
Tag tag1,tag2
if (tag1 == tag2) { }
const int opCmp(Object o);
Compares two Tags
Examples:
Tag tag1,tag2
if (tag1 < tag2) { }
const size_t toHash();
Returns the hash of a Tag
You should rarely need to call this function. It exists so that Tags can be used as associative array keys.
const string toString();
Returns the string representation of a Tag
Examples:
auto tag = new Tag("book",TagType.START);
writefln(tag.toString()); // writes "<book>"
const @property bool isStart();
Returns true if the Tag is a start tag
Examples:
if (tag.isStart) { }
const @property bool isEnd();
Returns true if the Tag is an end tag
Examples:
if (tag.isEnd) { }
const @property bool isEmpty();
Returns true if the Tag is an empty tag
Examples:
if (tag.isEmpty) { }
class Comment: std.xml.Item;
Class representing a comment
this(string content);
Construct a comment
Parameters:
string content the body of the comment
Throws:
CommentException if the comment body is illegal (contains "--" or exactly equals "-")
Examples:
auto item = new Comment("This is a comment");
   // constructs <!--This is a comment-->
bool opEquals(Object o);
Compares two comments for equality
Examples:
Comment item1,item2;
if (item1 == item2) { }
int opCmp(Object o);
Compares two comments
You should rarely need to call this function. It exists so that Comments can be used as associative array keys.
Examples:
Comment item1,item2;
if (item1 < item2) { }
const size_t toHash();
Returns the hash of a Comment
You should rarely need to call this function. It exists so that Comments can be used as associative array keys.
const string toString();
Returns a string representation of this comment
const @property bool isEmptyXML();
Returns false always
class CData: std.xml.Item;
Class representing a Character Data section
this(string content);
Construct a character data section
Parameters:
string content the body of the character data segment
Throws:
CDataException if the segment body is illegal (contains "]]>")
Examples:
auto item = new CData("<b>hello</b>");
   // constructs <![CDATA[<b>hello</b>]]>
bool opEquals(Object o);
Compares two CDatas for equality
Examples:
CData item1,item2;
if (item1 == item2) { }
int opCmp(Object o);
Compares two CDatas
You should rarely need to call this function. It exists so that CDatas can be used as associative array keys.
Examples:
CData item1,item2;
if (item1 < item2) { }
const size_t toHash();
Returns the hash of a CData
You should rarely need to call this function. It exists so that CDatas can be used as associative array keys.
const string toString();
Returns a string representation of this CData section
const @property bool isEmptyXML();
Returns false always
class Text: std.xml.Item;
Class representing a text (aka Parsed Character Data) section
this(string content);
Construct a text (aka PCData) section
Parameters:
string content the text. This function encodes the text before insertion, so it is safe to insert any text
Examples:
auto Text = new CData("a < b");
   // constructs a &lt; b
bool opEquals(Object o);
Compares two text sections for equality
Examples:
Text item1,item2;
if (item1 == item2) { }
int opCmp(Object o);
Compares two text sections
You should rarely need to call this function. It exists so that Texts can be used as associative array keys.
Examples:
Text item1,item2;
if (item1 < item2) { }
const size_t toHash();
Returns the hash of a text section
You should rarely need to call this function. It exists so that Texts can be used as associative array keys.
const string toString();
Returns a string representation of this Text section
const @property bool isEmptyXML();
Returns true if the content is the empty string
class XMLInstruction: std.xml.Item;
Class representing an XML Instruction section
this(string content);
Construct an XML Instruction section
Parameters:
string content the body of the instruction segment
Throws:
XIException if the segment body is illegal (contains ">")
Examples:
auto item = new XMLInstruction("ATTLIST");
   // constructs <!ATTLIST>
bool opEquals(Object o);
Compares two XML instructions for equality
Examples:
XMLInstruction item1,item2;
if (item1 == item2) { }
int opCmp(Object o);
Compares two XML instructions
You should rarely need to call this function. It exists so that XmlInstructions can be used as associative array keys.
Examples:
XMLInstruction item1,item2;
if (item1 < item2) { }
const size_t toHash();
Returns the hash of an XMLInstruction
You should rarely need to call this function. It exists so that XmlInstructions can be used as associative array keys.
const string toString();
Returns a string representation of this XmlInstruction
const @property bool isEmptyXML();
Returns false always
class ProcessingInstruction: std.xml.Item;
Class representing a Processing Instruction section
this(string content);
Construct a Processing Instruction section
Parameters:
string content the body of the instruction segment
Throws:
PIException if the segment body is illegal (contains "?>")
Examples:
auto item = new ProcessingInstruction("php");
   // constructs <?php?>
bool opEquals(Object o);
Compares two processing instructions for equality
Examples:
ProcessingInstruction item1,item2;
if (item1 == item2) { }
int opCmp(Object o);
Compares two processing instructions
You should rarely need to call this function. It exists so that ProcessingInstructions can be used as associative array keys.
Examples:
ProcessingInstruction item1,item2;
if (item1 < item2) { }
const size_t toHash();
Returns the hash of a ProcessingInstruction
You should rarely need to call this function. It exists so that ProcessingInstructions can be used as associative array keys.
const string toString();
Returns a string representation of this ProcessingInstruction
const @property bool isEmptyXML();
Returns false always
abstract class Item;
Abstract base class for XML items
abstract bool opEquals(Object o);
Compares with another Item of same type for equality
abstract int opCmp(Object o);
Compares with another Item of same type
abstract const size_t toHash();
Returns the hash of this item
abstract const string toString();
Returns a string representation of this item
const string[] pretty(uint indent);
Returns an indented string representation of this item
Parameters:
uint indent number of spaces by which to indent child elements
abstract const @property bool isEmptyXML();
Returns true if the item represents empty XML text
class DocumentParser: std.xml.ElementParser;
Class for parsing an XML Document.
This is a subclass of ElementParser. Most of the useful functions are documented there.
Standards:
Bugs:
Currently only supports UTF documents.

If there is an encoding attribute in the prolog, it is ignored.
this(string xmlText_);
Constructs a DocumentParser.
The input to this function MUST be valid XML. This is enforced by the function's in contract.
Parameters:
string xmlText_ the entire XML document as text
class ElementParser;
Class for parsing an XML element.
Standards:
XML 1.0

Note that you cannot construct instances of this class directly. You can construct a DocumentParser (which is a subclass of ElementParser), but otherwise, Instances of ElementParser will be created for you by the library, and passed your way via onStartTag handlers.
const @property const(Tag) tag();
The Tag at the start of the element being parsed. You can read this to determine the tag's name and attributes.
ParserHandler[string] onStartTag;
Register a handler which will be called whenever a start tag is encountered which matches the specified name. You can also pass null as the name, in which case the handler will be called for any unmatched start tag.
Examples:
// Call this function whenever a <podcast> start tag is encountered
onStartTag["podcast"] = (ElementParser xml)
{
    // Your code here
    //
    // This is a a closure, so code here may reference
    // variables which are outside of this scope
};

// call myEpisodeStartHandler (defined elsewhere) whenever an <episode>
// start tag is encountered
onStartTag["episode"] = &myEpisodeStartHandler;

// call delegate dg for all other start tags
onStartTag[null] = dg;

This library will supply your function with a new instance of ElementHandler, which may be used to parse inside the element whose start tag was just found, or to identify the tag attributes of the element, etc.

Note that your function will be called for both start tags and empty tags. That is, we make no distinction between <br></br> and <br/>.
ElementHandler[string] onEndTag;
Register a handler which will be called whenever an end tag is encountered which matches the specified name. You can also pass null as the name, in which case the handler will be called for any unmatched end tag.
Examples:
// Call this function whenever a </podcast> end tag is encountered
onEndTag["podcast"] = (in Element e)
{
    // Your code here
    //
    // This is a a closure, so code here may reference
    // variables which are outside of this scope
};

// call myEpisodeEndHandler (defined elsewhere) whenever an </episode>
// end tag is encountered
onEndTag["episode"] = &myEpisodeEndHandler;

// call delegate dg for all other end tags
onEndTag[null] = dg;

Note that your function will be called for both start tags and empty tags. That is, we make no distinction between <br></br> and <br/>.
@property void onText(Handler handler);
Register a handler which will be called whenever text is encountered.
Examples:
// Call this function whenever text is encountered
onText = (string s)
{
    // Your code here

    // The passed parameter s will have been decoded by the time you see
    // it, and so may contain any character.
    //
    // This is a a closure, so code here may reference
    // variables which are outside of this scope
};
void onTextRaw(Handler handler);
Register an alternative handler which will be called whenever text is encountered. This differs from onText in that onText will decode the text, whereas onTextRaw will not. This allows you to make design choices, since onText will be more accurate, but slower, while onTextRaw will be faster, but less accurate. Of course, you can still call decode() within your handler, if you want, but you'd probably want to use onTextRaw only in circumstances where you know that decoding is unnecessary.
Examples:
// Call this function whenever text is encountered
onText = (string s)
{
    // Your code here

    // The passed parameter s will NOT have been decoded.
    //
    // This is a a closure, so code here may reference
    // variables which are outside of this scope
};
@property void onCData(Handler handler);
Register a handler which will be called whenever a character data segment is encountered.
Examples:
// Call this function whenever a CData section is encountered
onCData = (string s)
{
    // Your code here

    // The passed parameter s does not include the opening <![CDATA[
    // nor closing ]]>
    //
    // This is a a closure, so code here may reference
    // variables which are outside of this scope
};
@property void onComment(Handler handler);
Register a handler which will be called whenever a comment is encountered.
Examples:
// Call this function whenever a comment is encountered
onComment = (string s)
{
    // Your code here

    // The passed parameter s does not include the opening <!-- nor
    // closing -->
    //
    // This is a a closure, so code here may reference
    // variables which are outside of this scope
};
@property void onPI(Handler handler);
Register a handler which will be called whenever a processing instruction is encountered.
Examples:
// Call this function whenever a processing instruction is encountered
onPI = (string s)
{
    // Your code here

    // The passed parameter s does not include the opening <? nor
    // closing ?>
    //
    // This is a a closure, so code here may reference
    // variables which are outside of this scope
};
@property void onXI(Handler handler);
Register a handler which will be called whenever an XML instruction is encountered.
Examples:
// Call this function whenever an XML instruction is encountered
// (Note: XML instructions may only occur preceding the root tag of a
// document).
onPI = (string s)
{
    // Your code here

    // The passed parameter s does not include the opening <! nor
    // closing >
    //
    // This is a a closure, so code here may reference
    // variables which are outside of this scope
};
void parse();
Parse an XML element.
Parsing will continue until the end of the current element. Any items encountered for which a handler has been registered will invoke that handler.
Throws:
various kinds of XMLException
const string toString();
Returns that part of the element which has already been parsed
void check(string s);
Check an entire XML document for well-formedness
Parameters:
string s the document to be checked, passed as a string
Throws:
CheckException if the document is not well formed

CheckException's toString() method will yield the complete hierarchy of parse failure (the XML equivalent of a stack trace), giving the line and column number of every failure at every level.
class XMLException: object.Exception;
The base class for exceptions thrown by this module
class CommentException: std.xml.XMLException;
Thrown during Comment constructor
class CDataException: std.xml.XMLException;
Thrown during CData constructor
class XIException: std.xml.XMLException;
Thrown during XMLInstruction constructor
class PIException: std.xml.XMLException;
Thrown during ProcessingInstruction constructor
class TextException: std.xml.XMLException;
Thrown during Text constructor
class DecodeException: std.xml.XMLException;
Thrown during decode()
class InvalidTypeException: std.xml.XMLException;
Thrown if comparing with wrong type
class TagException: std.xml.XMLException;
Thrown when parsing for Tags
class CheckException: std.xml.XMLException;
Thrown during check()
CheckException err;
Parent in hierarchy
string msg;
Name of production rule which failed to parse, or specific error message
size_t line;
Line number at which parse failure occurred
size_t column;
Column number at which parse failure occurred