The presentation of this document has been augmented to use XHTML rather than HTML, and to include all MathML examples as inlined MathML markup that should be rendered by a MathML enabled browser. The MathML examples that have been added, and which should be displayed in your browser, are marked like this.
Please refer to the errata for this document, which may include some normative corrections.
In addition to the HTML version, this document is also available in these non-normative formats: diff marked HTML version, XHTML+MathML version, and PDF version.
See also translations.
Copyright © 1998-2010 W3C® (MIT, ERCIM, Keio), All Rights Reserved. W3C liability, trademark and document use rules apply.
This specification defines the Mathematical Markup Language, or MathML. MathML is an XML application for describing mathematical notation and capturing both its structure and content. The goal of MathML is to enable mathematics to be served, received, and processed on the World Wide Web, just as HTML has enabled this functionality for text.
This specification of the markup language MathML is intended primarily for a readership consisting of those who will be developing or implementing renderers or editors using it, or software that will communicate using MathML as a protocol for input or output. It is not a User's Guide but rather a reference document.
MathML can be used to encode both mathematical notation and mathematical content. About thirty-eight of the MathML tags describe abstract notational structures, while another about one hundred and seventy provide a way of unambiguously specifying the intended meaning of an expression. Additional chapters discuss how the MathML content and presentation elements interact, and how MathML renderers might be implemented and should interact with browsers. Finally, this document addresses the issue of special characters used for mathematics, their handling in MathML, their presence in Unicode, and their relation to fonts.
While MathML is human-readable, authors typically will use equation editors, conversion programs, and other specialized software tools to generate MathML. Several versions of such MathML tools exist, both freely available software and commercial products, and more are under development.
This section describes the status of this document at the time of its publication. Other documents may supersede this document. A list of current W3C publications and the latest revision of this technical report can be found in the W3C technical reports index at http://www.w3.org/TR/.
This document was produced by the W3C Math Working Group as a Recommendation and is part of the W3C Math Activity. The goals of the W3C Math Working Group are discussed in the W3C Math WG Charter (revised July 2006). The authors of this document are the W3C Math Working Group members. A list of participants in the W3C Math Working Group is available.
This document has been reviewed by W3C Members, by software developers, and by other W3C groups and interested parties, and is endorsed by the Director as a W3C Recommendation. It is a stable document and may be used as reference material or cited from another document. W3C's role in making the Recommendation is to draw attention to the specification and to promote its widespread deployment. This enhances the functionality and interoperability of the Web.
The Working Group maintains a comprehensive Test Suite. This is publicly available and developers are encouraged to submit their results for display. The Test Results are public. They show at least two interoperable implementations for each essential test. Further details may be found in the Implementation Report.
Closely associated with the MathML 3.0 specification is A MathML for CSS Profile, also approved to be published as a Recommendation. This describes a profile of MathML 3.0 that can be well formatted with Cascading Style Sheets.
The MathML 2.0 (Second Edition) specification has been a W3C Recommendation since 2001. After its recommendation, a W3C Math Interest Group collected reports of experience with the deployment of MathML and identified issues with MathML that might be ameliorated. The rechartering of a Math Working Group did not signal any change in the overall design of MathML. The major additions in MathML 3 are support for bidirectional layout, better linebreaking and explicit positioning, elementary math notations, and a new strict content MathML vocabulary with well-defined semantics. The MathML 3 Specification has also been restructured.
This document was produced by a group operating under the 5 February 2004 W3C Patent Policy. W3C maintains a public list of any patent disclosures made in connection with the deliverables of the group; that page also includes instructions for disclosing a patent. An individual who has actual knowledge of a patent which the individual believes contains Essential Claim(s) must disclose the information in accordance with section 6 of the W3C Patent Policy.
Public discussion of MathML and issues of support through the W3C
for mathematics on the Web takes place on the public mailing list of the Math Working
Group (list archives).
To subscribe send an email to www-math-request@w3.org
with the word subscribe
in the subject line.
The basic chapter structure of this document is based on the earlier MathML 2.0 Recommendation [MathML2]. That MathML 2.0 itself was a revision of the earlier W3C Recommendation MathML 1.01 [MathML1]; MathML 3.0 is a revision of the W3C Recommendation MathML 2.0. It differs from it in that all previous chapters have been updated, some new elements and attributes added and some deprecated. Much has been moved to separate documents containing explanatory material, material on characters and entities and on the MathML DOM. The discussion of character entities has led to the document XML Entity Definitions for Characters [Entities], which is now a W3C Recommendation. The concern with use of CSS with MathML has led to the document A MathML for CSS Profile [MathMLforCSS], which is a W3C Recommendation accompanying this one.
The biggest differences from MathML 2.0 (Second Edition) are in Chapters 4 and 5, although there have been smaller improvements throughout the specification. A more detailed description of changes from the previous Recommendation follows.
Much of the non-normative explication that formerly was found in Chapters 1 and 2, and many examples from elsewhere in the previous MathML specifications, were removed from the MathML3 specification and planned to be incorporated into a MathML Primer to be prepared as a separate document. It is expected this will help the use of this formal MathML3 specification as a reference document in implementations, and offer the new user better help in understanding MathML's deployment. The remaining content of Chapters 1 and 2 has been edited to reflect the changes elsewhere in the document, and in the rapidly evolving Web environment. Some of the text in them went back to early days of the Web and XML, and its explanations are now commonplace.
Chapter 3, on presentation-oriented markup, adds new material on linebreaking,
and on markup for elementary math notations used in many
countries (mstack
, mlongdiv
and other
associated elements). Other changes include revisions to
the mglyph
, mpadded
and maction
elements and significant unification and cleanup of attribute
values.
Earlier work, as recorded in the W3C Note Arabic
mathematical notation, has allowed clarification of the
relationship with bidirectional text and examples
with RTL text have been added.
Chapter 4, on content-oriented markup, contains major changes and additions. The meaning of the actual content remains as before in principle, but a lot of work has been done on expressing it better. A few new elements have been added.
Chapter 5 has been refined as its purpose has been further clarified to deal with the mixing of markup languages. This chapter deals, in particular, with interrelations of parts of the MathML specification, especially with presentation and content markup.
Chapter 6 is a new addition which deals with the issues of interaction of MathML with a host environment. This chapter deals with interrelations of the MathML specification with XML and HTML, but in the context of deployment on the Web. In particular there is a discussion of the interaction of CSS with MathML.
Chapter 7 replaces the previous Chapter 6, and has been rewritten and reorganized to reflect the new situation in regard to Unicode, and the changed W3C context with regard to named character entities. The new W3C specification XML Entity Definitions for Characters, which incorporates those used for mathematics has become a a W3C Recommendation, [Entities].
The Appendices, of which there are eight shown, have been reworked. Appendix A now contains the new RelaxNG schema for MathML3 as well as discussion of MathML3 DTD issues. Appendix B addresses media types associated with MathML and implicitly constitutes a request for the registration of three new ones, as is now standard for work from the W3C. Appendix C contains a new simplified and reconsidered Operator Dictionary. Appendices D, E, F, G and H contain similar non-normative material to that in the previous specification, now appropriately updated.
A fuller discussion of the document's evolution can be found in Appendix F Changes.
1 Introduction
1.1 Mathematics and its Notation
1.2 Origins and Goals
1.2.1 Design Goals of MathML
1.3 Overview
1.4 A First Example
2 MathML Fundamentals
2.1 MathML Syntax and Grammar
2.1.1 General Considerations
2.1.2 MathML and Namespaces
2.1.3 Children versus Arguments
2.1.4 MathML and Rendering
2.1.5 MathML Attribute Values
2.1.6 Attributes Shared by all MathML Elements
2.1.7 Collapsing Whitespace in Input
2.2 The Top-Level
math
Element
2.2.1 Attributes
2.2.2 Deprecated Attributes
2.3 Conformance
2.3.1 MathML Conformance
2.3.2 Handling of Errors
2.3.3 Attributes for unspecified data
3 Presentation Markup
3.1 Introduction
3.1.1 What Presentation Elements Represent
3.1.2 Terminology Used In This Chapter
3.1.3 Required Arguments
3.1.4 Elements with Special Behaviors
3.1.5 Directionality
3.1.6 Displaystyle and Scriptlevel
3.1.7 Linebreaking of Expressions
3.1.8 Warning about fine-tuning of presentation
3.1.9 Summary of Presentation Elements
3.1.10 Mathematics style attributes common to presentation elements
3.2 Token Elements
3.2.1 MathML characters in token elements
3.2.2 Mathematics style attributes common to token elements
3.2.3 Identifier <mi>
3.2.4 Number <mn>
3.2.5 Operator, Fence, Separator or Accent
<mo>
3.2.6 Text <mtext>
3.2.7 Space <mspace/>
3.2.8 String Literal <ms>
3.3 General Layout Schemata
3.3.1 Horizontally Group Sub-Expressions
<mrow>
3.3.2 Fractions <mfrac>
3.3.3 Radicals <msqrt>
, <mroot>
3.3.4 Style Change <mstyle>
3.3.5 Error Message <merror>
3.3.6 Adjust Space Around Content
<mpadded>
3.3.7 Making Sub-Expressions Invisible <mphantom>
3.3.8 Expression Inside Pair of Fences
<mfenced>
3.3.9 Enclose Expression Inside Notation
<menclose>
3.4 Script and Limit Schemata
3.4.1 Subscript <msub>
3.4.2 Superscript <msup>
3.4.3 Subscript-superscript Pair <msubsup>
3.4.4 Underscript <munder>
3.4.5 Overscript <mover>
3.4.6 Underscript-overscript Pair
<munderover>
3.4.7 Prescripts and Tensor Indices
<mmultiscripts>
3.5 Tabular Math
3.5.1 Table or Matrix
<mtable>
3.5.2 Row in Table or Matrix <mtr>
3.5.3 Labeled Row in Table or Matrix
<mlabeledtr>
3.5.4 Entry in Table or Matrix <mtd>
3.5.5 Alignment Markers
<maligngroup/>
, <malignmark/>
3.6 Elementary Math
3.6.1 Stacks of Characters <mstack>
3.6.2 Long Division <mlongdiv>
3.6.3 Group Rows with Similiar Positions <msgroup>
3.6.4 Rows in Elementary Math <msrow>
3.6.5 Carries, Borrows, and Crossouts <mscarries>
3.6.6 A Single Carry <mscarry>
3.6.7 Horizontal Line <msline/>
3.6.8 Elementary Math Examples
3.7 Enlivening Expressions
3.7.1 Bind Action to Sub-Expression
<maction>
3.8 Semantics and Presentation
4 Content Markup
4.1 Introduction
4.1.1 The Intent of Content Markup
4.1.2 The Structure and Scope of Content MathML Expressions
4.1.3 Strict Content MathML
4.1.4 Content Dictionaries
4.1.5 Content MathML Concepts
4.2 Content MathML Elements Encoding Expression Structure
4.2.1 Numbers <cn>
4.2.2 Content Identifiers <ci>
4.2.3 Content Symbols <csymbol>
4.2.4 String Literals <cs>
4.2.5 Function Application <apply>
4.2.6 Bindings and Bound Variables <bind>
and <bvar>
4.2.7 Structure Sharing <share>
4.2.8 Attribution via semantics
4.2.9 Error Markup <cerror>
4.2.10 Encoded Bytes <cbytes>
4.3 Content MathML for Specific Structures
4.3.1 Container Markup
4.3.2 Bindings with <apply>
4.3.3 Qualifiers
4.3.4 Operator Classes
4.3.5 Non-strict Attributes
4.4 Content MathML for Specific Operators and Constants
4.4.1 Functions and Inverses
4.4.2 Arithmetic, Algebra and Logic
4.4.3 Relations
4.4.4 Calculus and Vector Calculus
4.4.5 Theory of Sets
4.4.6 Sequences and Series
4.4.7 Elementary classical functions
4.4.8 Statistics
4.4.9 Linear Algebra
4.4.10 Constant and Symbol Elements
4.5 Deprecated Content Elements
4.5.1 Declare <declare>
4.6 The Strict Content MathML Transformation
5 Mixing Markup Languages for Mathematical Expressions
5.1 Annotation Framework
5.1.1 Annotation elements
5.1.2 Annotation keys
5.1.3 Alternate representations
5.1.4 Content equivalents
5.1.5 Annotation references
5.2 Elements for Semantic Annotations
5.2.1 The semantics
element
5.2.2 The annotation
element
5.2.3 The annotation-xml
element
5.3 Combining Presentation and Content Markup
5.3.1 Presentation Markup in Content Markup
5.3.2 Content Markup in Presentation Markup
5.4 Parallel Markup
5.4.1 Top-level Parallel Markup
5.4.2 Parallel Markup via Cross-References
6 Interactions with the Host Environment
6.1 Introduction
6.2 Invoking MathML Processors
6.2.1 Recognizing MathML in XML
6.2.2 Resource Types for MathML Documents
6.2.3 Names of MathML Encodings
6.3 Transferring MathML
6.3.1 Basic Transfer Flavor Names and Contents
6.3.2 Recommended Behaviors when Transferring
6.3.3 Discussion
6.3.4 Examples
6.4 Combining MathML and Other Formats
6.4.1 Mixing MathML and XHTML
6.4.2 Mixing MathML and HTML, and other non-XML contexts
6.4.3 Linking
6.4.4 MathML and Graphical Markup
6.5 Using CSS with MathML
6.5.1 Order of processing attributes versus style sheets
6.5.2 Layout engines that lack native MathML support
7 Characters, Entities and Fonts
7.1 Introduction
7.2 Unicode Character Data
7.3 Entity Declarations
7.4 Special Characters Not in Unicode
7.5 Mathematical Alphanumeric Symbols
7.6 Non-Marking Characters
7.7 Anomalous Mathematical Characters
7.7.1 Keyboard Characters
7.7.2 Pseudo-scripts
7.7.3 Combining Characters
A Parsing MathML
A.1 Use of MathML as Well-Formed
XML
A.2 Using the RelaxNG Schema for MathML3
A.2.1 Full MathML
A.2.2 Elements Common to Presentation and Content MathML
A.2.3 The Grammar for Presentation MathML
A.2.4 The Grammar for Strict Content MathML3
A.2.5 The Grammar for Content MathML
A.2.6 MathML as a module in a RelaxNG Schema
A.3 Using the MathML DTD
A.3.1 Document Validation Issues
A.3.2 Attribute values in the MathML DTD
A.3.3 DOCTYPE declaration for MathML
A.4 Using the MathML XML Schema
A.4.1 Associating the MathML schema with MathML fragments
B Media Types Registrations
B.1 Selection of Media Types for
MathML Instances
B.2 Media type for Generic MathML
B.3 Media type for Presentation MathML
B.4 Media type for Content MathML
C Operator Dictionary (Non-Normative)
C.1 Indexing of the operator dictionary
C.2 Format of operator dictionary entries
C.3 Notes on lspace and
rspace attributes
C.4 Operator dictionary entries
D Glossary (Non-Normative)
E Working Group Membership and Acknowledgments (Non-Normative)
E.1 The Math Working Group Membership
E.2 Acknowledgments
F Changes (Non-Normative)
F.1 Changes between MathML 2.0 Second Edition and MathML 3.0
G Normative References
H References (Non-Normative)
I Index (Non-Normative)
I.1 MathML Elements
I.2 MathML Attributes