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Diffstat (limited to 'files/ja/web/mathml/authoring/index.html')
| -rw-r--r-- | files/ja/web/mathml/authoring/index.html | 8 |
1 files changed, 4 insertions, 4 deletions
diff --git a/files/ja/web/mathml/authoring/index.html b/files/ja/web/mathml/authoring/index.html index 8a1672d22b..65d2a7fcb8 100644 --- a/files/ja/web/mathml/authoring/index.html +++ b/files/ja/web/mathml/authoring/index.html @@ -175,7 +175,7 @@ m|math { <p>and get it automatically converted into MathML. This is still a work-in-progress, but could be improved in the future thanks to Web Components and shadow DOM. Alternatively, you can use the more traditional <a href="https://github.com/fred-wang/TeXZilla/wiki/Advanced-Usages#parsing-tex-expressions-in-your-web-page">Javascript parsing of expressions at load time</a> as all the other tools in this section do.</p> -<p>One simple client-side conversion tools is <a href="http://www1.chapman.edu/~jipsen/mathml/asciimath.html" title="http://www1.chapman.edu/~jipsen/mathml/asciimath.html">ASCIIMathML</a>. Just download the <a href="https://mathcs.chapman.edu/~jipsen/mathml/ASCIIMathML.js">ASCIIMathML.js</a> script and copy it to your Web site. Then on your Web pages, add a <code><script></code> tag to load ASCIIMathML and the mathematical expressions delimited by <code>`</code> (grave accent) will be automatically parsed and converted to MathML:</p> +<p>One simple client-side conversion tools is <a href="http://www1.chapman.edu/~jipsen/mathml/asciimath.html">ASCIIMathML</a>. Just download the <a href="https://mathcs.chapman.edu/~jipsen/mathml/ASCIIMathML.js">ASCIIMathML.js</a> script and copy it to your Web site. Then on your Web pages, add a <code><script></code> tag to load ASCIIMathML and the mathematical expressions delimited by <code>`</code> (grave accent) will be automatically parsed and converted to MathML:</p> <pre class="brush: html notranslate"><html> <head> @@ -189,7 +189,7 @@ m|math { ... </pre> -<p><a href="https://math.etsu.edu/LaTeXMathML/" title="http://math.etsu.edu/LaTeXMathML/">LaTeXMathML</a> is a similar script that allows to parse more LaTeX commands. The installation is similar: copy <a href="https://math.etsu.edu/LaTeXMathML/LaTeXMathML.js" title="http://math.etsu.edu/LaTeXMathML/LaTeXMathML.js">LaTeXMathML.js</a> and <a href="https://math.etsu.edu/LaTeXMathML/LaTeXMathML.standardarticle.css">LaTeXMathML.standardarticle.css</a>, add links in the header of your document and the LaTeX content of your Web page marked by the "LaTeX" class will be automatically parsed and converted to HTML+MathML:</p> +<p><a href="https://math.etsu.edu/LaTeXMathML/" title="http://math.etsu.edu/LaTeXMathML/">LaTeXMathML</a> is a similar script that allows to parse more LaTeX commands. The installation is similar: copy <a href="https://math.etsu.edu/LaTeXMathML/LaTeXMathML.js">LaTeXMathML.js</a> and <a href="https://math.etsu.edu/LaTeXMathML/LaTeXMathML.standardarticle.css">LaTeXMathML.standardarticle.css</a>, add links in the header of your document and the LaTeX content of your Web page marked by the "LaTeX" class will be automatically parsed and converted to HTML+MathML:</p> <pre class="brush: html notranslate"><span><<span class="start-tag">head</span>></span> <span>... @@ -221,7 +221,7 @@ This is a sample LaTeXML document. </div> ...</pre> -<p><a href="https://mathscribe.com/author/jqmath.html" title="http://mathscribe.com/author/jqmath.html">jqMath</a> is another script to parse a simple LaTeX-like syntax but which also accepts non-ASCII characters like <code>√{∑↙{n=1}↖{+∞} 6/n^2} = π²</code> to write <math> <mrow> <msqrt> <mrow class="ma-repel-adj"> <munderover> <mo>∑</mo> <mrow> <mi>n</mi> <mo>=</mo> <mn>1</mn> </mrow> <mrow> <mo>+</mo> <mi>∞</mi> </mrow> </munderover> <mfrac> <mn>6</mn> <msup> <mi>n</mi> <mn>2</mn> </msup> </mfrac> </mrow> </msqrt> <mo>=</mo> <mi>π²</mi> </mrow> </math>. The installation is similar: download and copy the relevant <a href="https://mathscribe.com/downloads/mathscribe-unix-0.4.0.zip">Javascript and CSS files</a> on your Web site and reference them in your page header (see the <code>COPY-ME.html</code> file from the zip archive for an example). One of the advantage of jqMath over the previous scripts is that it will automatically add some simple CSS rules to do the mathematical layout and make the formulas readable on browsers with limited MathML support.</p> +<p><a href="https://mathscribe.com/author/jqmath.html">jqMath</a> is another script to parse a simple LaTeX-like syntax but which also accepts non-ASCII characters like <code>√{∑↙{n=1}↖{+∞} 6/n^2} = π²</code> to write <math> <mrow> <msqrt> <mrow class="ma-repel-adj"> <munderover> <mo>∑</mo> <mrow> <mi>n</mi> <mo>=</mo> <mn>1</mn> </mrow> <mrow> <mo>+</mo> <mi>∞</mi> </mrow> </munderover> <mfrac> <mn>6</mn> <msup> <mi>n</mi> <mn>2</mn> </msup> </mfrac> </mrow> </msqrt> <mo>=</mo> <mi>π²</mi> </mrow> </math>. The installation is similar: download and copy the relevant <a href="https://mathscribe.com/downloads/mathscribe-unix-0.4.0.zip">Javascript and CSS files</a> on your Web site and reference them in your page header (see the <code>COPY-ME.html</code> file from the zip archive for an example). One of the advantage of jqMath over the previous scripts is that it will automatically add some simple CSS rules to do the mathematical layout and make the formulas readable on browsers with limited MathML support.</p> <h3 id="端末上の応用プログラム">端末上の応用プログラム</h3> @@ -246,7 +246,7 @@ This is a sample LaTeXML document. <p><a href="https://github.com/fred-wang/TeXZilla">TeXZilla</a> can be used <a href="https://github.com/fred-wang/TeXZilla/wiki/Using-TeXZilla#usage-from-the-command-line">from the command line</a> and will essentially have the same support as itex2MML described below. However, the stream filter behavior is not implemented yet.</p> -<p>If you only want to parse simple LaTeX mathematical expressions, you might want to try tools like <a href="https://golem.ph.utexas.edu/~distler/blog/itex2MML.html" title="http://golem.ph.utexas.edu/~distler/blog/itex2MML.html">itex2MML</a> or <a href="http://gva.noekeon.org/blahtexml/">Blahtex</a>. The latter is often available on Linux distributions. Let's consider the former, which was originally written by Paul Gartside at the beginning of the Mozilla MathML project and has been maintained by Jacques Distler since then. It's a small stream filter written in C/C++ and generated with flex and bison ; in particular it is very fast. Install flex/bison as well as the classical compiler and make tools. On Unix, you can then download itex2MML, build and install it:</p> +<p>If you only want to parse simple LaTeX mathematical expressions, you might want to try tools like <a href="https://golem.ph.utexas.edu/~distler/blog/itex2MML.html">itex2MML</a> or <a href="http://gva.noekeon.org/blahtexml/">Blahtex</a>. The latter is often available on Linux distributions. Let's consider the former, which was originally written by Paul Gartside at the beginning of the Mozilla MathML project and has been maintained by Jacques Distler since then. It's a small stream filter written in C/C++ and generated with flex and bison ; in particular it is very fast. Install flex/bison as well as the classical compiler and make tools. On Unix, you can then download itex2MML, build and install it:</p> <pre class="brush: bash notranslate">wget http://golem.ph.utexas.edu/~distler/blog/files/itexToMML.tar.gz; \ tar -xzf itexToMML.tar.gz; \ |