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| author | ymherklotz <ymherklotz@users.noreply.github.com> | 2021-01-22 21:30:03 +0000 |
|---|---|---|
| committer | ymherklotz <ymherklotz@users.noreply.github.com> | 2021-01-22 21:30:03 +0000 |
| commit | 8fcb210c336a50b81cf726e161ed82981bfbec5d (patch) | |
| tree | 62721434d7e6d3877d8f78a3fd628432fabe8fa2 /docs/using-vericert | |
| parent | aca7b8f57370ccdba41577c845361800ae6f8d39 (diff) | |
| download | vericert-docs-8fcb210c336a50b81cf726e161ed82981bfbec5d.tar.gz vericert-docs-8fcb210c336a50b81cf726e161ed82981bfbec5d.zip | |
deploy: a596c0c469d7c61b5ed8dfaf8805a926024a3a72
Diffstat (limited to 'docs/using-vericert')
| -rw-r--r-- | docs/using-vericert/index.html | 2 |
1 files changed, 1 insertions, 1 deletions
diff --git a/docs/using-vericert/index.html b/docs/using-vericert/index.html index c97296d..d410356 100644 --- a/docs/using-vericert/index.html +++ b/docs/using-vericert/index.html @@ -3,7 +3,7 @@ void matrix_multiply(int first[2][2], int second[2][2], int multiply[2][2]) { in void matrix_multiply(int first[2][2], int second[2][2], int multiply[2][2]) { int sum = 0; for (int c = 0; c < 2; c++) { for (int d = 0; d < 2; d++) { for (int k = 0; k < 2; k++) { sum = sum + first[c][k]*second[k][d]; } multiply[c][d] = sum; sum = 0; } } } int main() { int f[2][2] = {{1, 2}, {3, 4}}; int s[2][2] = {{5, 6}, {7, 8}}; int m[2][2] = {{0, 0}, {0, 0}}; matrix_multiply(f, s, m); return m[1][1]; } It can be compiled using the following command, assuming that vericert is somewhere on the path."><meta property="og:type" content="article"><meta property="og:url" content="https://vericert.ymhg.org/docs/using-vericert/"><title>Using Vericert | Vericert</title><link rel=manifest href=/manifest.json><link rel=icon href=/favicon.png type=image/x-icon><link rel=stylesheet href=/book.min.cc7f7da4e201466c24d4145b227311a8f1462dd7940d82e2d55c370645cf9541.css integrity="sha256-zH99pOIBRmwk1BRbInMRqPFGLdeUDYLi1Vw3BkXPlUE="><script defer src=/en.search.min.d59155e62a5c5b4ff8f90845580f2225b938da2b1506af250727aadcdc5122f1.js integrity="sha256-1ZFV5ipcW0/4+QhFWA8iJbk42isVBq8lByeq3NxRIvE="></script></head><body><input type=checkbox class="hidden toggle" id=menu-control> <input type=checkbox class="hidden toggle" id=toc-control><main class="container flex"><aside class=book-menu><nav><h2 class=book-brand><a href=/><span>Vericert</span></a></h2><div class=book-search><input type=text id=book-search-input placeholder=Search aria-label=Search maxlength=64 data-hotkeys=s/><div class="book-search-spinner hidden"></div><ul id=book-search-results></ul></div><ul><li><a href=https://vericert.ymhg.org/coq-style-guide/>Coq Style Guide</a></li><li><a href=https://vericert.ymhg.org/docs/>Docs</a><ul><li><a href=https://vericert.ymhg.org/docs/building/>Building Vericert</a></li><li><a href=https://vericert.ymhg.org/docs/using-vericert/ class=active>Using Vericert</a></li></ul></li></ul><ul><li><a href=https://github.com/ymherklotz/vericert target=_blank rel=noopener>Github</a></li></ul></nav><script>(function(){var menu=document.querySelector("aside.book-menu nav");addEventListener("beforeunload",function(event){localStorage.setItem("menu.scrollTop",menu.scrollTop);});menu.scrollTop=localStorage.getItem("menu.scrollTop");})();</script></aside><div class=book-page><header class=book-header><div class="flex align-center justify-between"><label for=menu-control><img src=/svg/menu.svg class=book-icon alt=Menu></label> <strong>Using Vericert</strong> -<label for=toc-control><img src=/svg/toc.svg class=book-icon alt="Table of Contents"></label></div><aside class="hidden clearfix"><nav id=TableOfContents></nav></aside></header><article class=markdown><p>Vericert can be used to translate a subset of C into Verilog. As a simple example, consider the following C file (<code>main.c</code>):</p><div class=highlight><pre class=chroma><code class=language-C data-lang=C><span class=kt>void</span> <span class=nf>matrix_multiply</span><span class=p>(</span><span class=kt>int</span> <span class=n>first</span><span class=p>[</span><span class=mi>2</span><span class=p>][</span><span class=mi>2</span><span class=p>],</span> <span class=kt>int</span> <span class=n>second</span><span class=p>[</span><span class=mi>2</span><span class=p>][</span><span class=mi>2</span><span class=p>],</span> <span class=kt>int</span> <span class=n>multiply</span><span class=p>[</span><span class=mi>2</span><span class=p>][</span><span class=mi>2</span><span class=p>])</span> <span class=p>{</span> +<label for=toc-control><img src=/svg/toc.svg class=book-icon alt="Table of Contents"></label></div><aside class="hidden clearfix"><nav id=TableOfContents></nav></aside></header><h1>Using Vericert</h1><article class=markdown><p>Vericert can be used to translate a subset of C into Verilog. As a simple example, consider the following C file (<code>main.c</code>):</p><div class=highlight><pre class=chroma><code class=language-C data-lang=C><span class=kt>void</span> <span class=nf>matrix_multiply</span><span class=p>(</span><span class=kt>int</span> <span class=n>first</span><span class=p>[</span><span class=mi>2</span><span class=p>][</span><span class=mi>2</span><span class=p>],</span> <span class=kt>int</span> <span class=n>second</span><span class=p>[</span><span class=mi>2</span><span class=p>][</span><span class=mi>2</span><span class=p>],</span> <span class=kt>int</span> <span class=n>multiply</span><span class=p>[</span><span class=mi>2</span><span class=p>][</span><span class=mi>2</span><span class=p>])</span> <span class=p>{</span> <span class=kt>int</span> <span class=n>sum</span> <span class=o>=</span> <span class=mi>0</span><span class=p>;</span> <span class=k>for</span> <span class=p>(</span><span class=kt>int</span> <span class=n>c</span> <span class=o>=</span> <span class=mi>0</span><span class=p>;</span> <span class=n>c</span> <span class=o><</span> <span class=mi>2</span><span class=p>;</span> <span class=n>c</span><span class=o>++</span><span class=p>)</span> <span class=p>{</span> <span class=k>for</span> <span class=p>(</span><span class=kt>int</span> <span class=n>d</span> <span class=o>=</span> <span class=mi>0</span><span class=p>;</span> <span class=n>d</span> <span class=o><</span> <span class=mi>2</span><span class=p>;</span> <span class=n>d</span><span class=o>++</span><span class=p>)</span> <span class=p>{</span> |