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This will be used for testing and in the future for reimplementing vimscript as a compile-to-lua language.
331 lines
10 KiB
HTML
331 lines
10 KiB
HTML
<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.01//EN" "http://www.w3.org/TR/html4/strict.dtd">
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<html>
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<head>
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<title>FFI Library</title>
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<meta http-equiv="Content-Type" content="text/html; charset=iso-8859-1">
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<meta name="Author" content="Mike Pall">
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<meta name="Copyright" content="Copyright (C) 2005-2013, Mike Pall">
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<meta name="Language" content="en">
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<link rel="stylesheet" type="text/css" href="bluequad.css" media="screen">
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<link rel="stylesheet" type="text/css" href="bluequad-print.css" media="print">
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</head>
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<body>
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<div id="site">
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<a href="http://luajit.org"><span>Lua<span id="logo">JIT</span></span></a>
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</div>
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<div id="head">
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<h1>FFI Library</h1>
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</div>
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<div id="nav">
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<ul><li>
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<a href="luajit.html">LuaJIT</a>
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<ul><li>
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<a href="http://luajit.org/download.html">Download <span class="ext">»</span></a>
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</li><li>
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<a href="install.html">Installation</a>
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</li><li>
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<a href="running.html">Running</a>
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</li></ul>
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</li><li>
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<a href="extensions.html">Extensions</a>
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<ul><li>
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<a class="current" href="ext_ffi.html">FFI Library</a>
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<ul><li>
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<a href="ext_ffi_tutorial.html">FFI Tutorial</a>
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</li><li>
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<a href="ext_ffi_api.html">ffi.* API</a>
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</li><li>
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<a href="ext_ffi_semantics.html">FFI Semantics</a>
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</li></ul>
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</li><li>
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<a href="ext_jit.html">jit.* Library</a>
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</li><li>
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<a href="ext_c_api.html">Lua/C API</a>
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</li></ul>
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</li><li>
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<a href="status.html">Status</a>
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<ul><li>
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<a href="changes.html">Changes</a>
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</li></ul>
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</li><li>
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<a href="faq.html">FAQ</a>
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</li><li>
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<a href="http://luajit.org/performance.html">Performance <span class="ext">»</span></a>
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</li><li>
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<a href="http://wiki.luajit.org/">Wiki <span class="ext">»</span></a>
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</li><li>
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<a href="http://luajit.org/list.html">Mailing List <span class="ext">»</span></a>
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</li></ul>
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</div>
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<div id="main">
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<p>
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The FFI library allows <b>calling external C functions</b> and
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<b>using C data structures</b> from pure Lua code.
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</p>
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<p>
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The FFI library largely obviates the need to write tedious manual
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Lua/C bindings in C. No need to learn a separate binding language
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— <b>it parses plain C declarations!</b> These can be
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cut-n-pasted from C header files or reference manuals. It's up to
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the task of binding large libraries without the need for dealing with
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fragile binding generators.
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</p>
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<p>
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The FFI library is tightly integrated into LuaJIT (it's not available
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as a separate module). The code generated by the JIT-compiler for
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accesses to C data structures from Lua code is on par with the
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code a C compiler would generate. Calls to C functions can
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be inlined in JIT-compiled code, unlike calls to functions bound via
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the classic Lua/C API.
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</p>
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<p>
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This page gives a short introduction to the usage of the FFI library.
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<em>Please use the FFI sub-topics in the navigation bar to learn more.</em>
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</p>
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<h2 id="call">Motivating Example: Calling External C Functions</h2>
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<p>
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It's really easy to call an external C library function:
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</p>
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<pre class="code mark">
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<span class="codemark">①
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②
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③</span>local ffi = require("ffi")
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ffi.cdef[[
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<span style="color:#00a000;">int printf(const char *fmt, ...);</span>
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]]
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ffi.C.printf("Hello %s!", "world")
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</pre>
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<p>
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So, let's pick that apart:
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</p>
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<p>
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<span class="mark">①</span> Load the FFI library.
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</p>
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<p>
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<span class="mark">②</span> Add a C declaration
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for the function. The part inside the double-brackets (in green) is
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just standard C syntax.
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</p>
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<p>
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<span class="mark">③</span> Call the named
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C function — Yes, it's that simple!
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</p>
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<p style="font-size: 8pt;">
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Actually, what goes on behind the scenes is far from simple: <span
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style="color:#4040c0;">③</span> makes use of the standard
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C library namespace <tt>ffi.C</tt>. Indexing this namespace with
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a symbol name (<tt>"printf"</tt>) automatically binds it to the
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standard C library. The result is a special kind of object which,
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when called, runs the <tt>printf</tt> function. The arguments passed
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to this function are automatically converted from Lua objects to the
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corresponding C types.
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</p>
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<p>
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Ok, so maybe the use of <tt>printf()</tt> wasn't such a spectacular
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example. You could have done that with <tt>io.write()</tt> and
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<tt>string.format()</tt>, too. But you get the idea ...
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</p>
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<p>
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So here's something to pop up a message box on Windows:
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</p>
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<pre class="code">
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local ffi = require("ffi")
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ffi.cdef[[
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<span style="color:#00a000;">int MessageBoxA(void *w, const char *txt, const char *cap, int type);</span>
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]]
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ffi.C.MessageBoxA(nil, "Hello world!", "Test", 0)
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</pre>
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<p>
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Bing! Again, that was far too easy, no?
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</p>
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<p style="font-size: 8pt;">
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Compare this with the effort required to bind that function using the
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classic Lua/C API: create an extra C file, add a C function
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that retrieves and checks the argument types passed from Lua and calls
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the actual C function, add a list of module functions and their
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names, add a <tt>luaopen_*</tt> function and register all module
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functions, compile and link it into a shared library (DLL), move it to
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the proper path, add Lua code that loads the module aaaand ... finally
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call the binding function. Phew!
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</p>
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<h2 id="cdata">Motivating Example: Using C Data Structures</h2>
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<p>
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The FFI library allows you to create and access C data
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structures. Of course the main use for this is for interfacing with
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C functions. But they can be used stand-alone, too.
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</p>
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<p>
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Lua is built upon high-level data types. They are flexible, extensible
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and dynamic. That's why we all love Lua so much. Alas, this can be
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inefficient for certain tasks, where you'd really want a low-level
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data type. E.g. a large array of a fixed structure needs to be
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implemented with a big table holding lots of tiny tables. This imposes
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both a substantial memory overhead as well as a performance overhead.
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</p>
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<p>
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Here's a sketch of a library that operates on color images plus a
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simple benchmark. First, the plain Lua version:
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</p>
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<pre class="code">
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local floor = math.floor
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local function image_ramp_green(n)
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local img = {}
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local f = 255/(n-1)
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for i=1,n do
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img[i] = { red = 0, green = floor((i-1)*f), blue = 0, alpha = 255 }
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end
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return img
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end
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local function image_to_grey(img, n)
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for i=1,n do
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local y = floor(0.3*img[i].red + 0.59*img[i].green + 0.11*img[i].blue)
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img[i].red = y; img[i].green = y; img[i].blue = y
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end
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end
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local N = 400*400
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local img = image_ramp_green(N)
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for i=1,1000 do
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image_to_grey(img, N)
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end
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</pre>
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<p>
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This creates a table with 160.000 pixels, each of which is a table
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holding four number values in the range of 0-255. First an image with
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a green ramp is created (1D for simplicity), then the image is
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converted to greyscale 1000 times. Yes, that's silly, but I was in
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need of a simple example ...
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</p>
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<p>
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And here's the FFI version. The modified parts have been marked in
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bold:
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</p>
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<pre class="code mark">
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<span class="codemark">①
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②
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③
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④
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③
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⑤</span><b>local ffi = require("ffi")
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ffi.cdef[[
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</b><span style="color:#00a000;">typedef struct { uint8_t red, green, blue, alpha; } rgba_pixel;</span><b>
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]]</b>
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local function image_ramp_green(n)
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<b>local img = ffi.new("rgba_pixel[?]", n)</b>
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local f = 255/(n-1)
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for i=<b>0,n-1</b> do
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<b>img[i].green = i*f</b>
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<b>img[i].alpha = 255</b>
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end
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return img
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end
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local function image_to_grey(img, n)
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for i=<b>0,n-1</b> do
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local y = <b>0.3*img[i].red + 0.59*img[i].green + 0.11*img[i].blue</b>
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img[i].red = y; img[i].green = y; img[i].blue = y
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end
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end
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local N = 400*400
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local img = image_ramp_green(N)
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for i=1,1000 do
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image_to_grey(img, N)
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end
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</pre>
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<p>
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Ok, so that wasn't too difficult:
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</p>
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<p>
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<span class="mark">①</span> First, load the FFI
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library and declare the low-level data type. Here we choose a
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<tt>struct</tt> which holds four byte fields, one for each component
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of a 4x8 bit RGBA pixel.
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</p>
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<p>
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<span class="mark">②</span> Creating the data
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structure with <tt>ffi.new()</tt> is straightforward — the
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<tt>'?'</tt> is a placeholder for the number of elements of a
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variable-length array.
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</p>
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<p>
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<span class="mark">③</span> C arrays are
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zero-based, so the indexes have to run from <tt>0</tt> to
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<tt>n-1</tt>. One might want to allocate one more element instead to
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simplify converting legacy code.
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</p>
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<p>
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<span class="mark">④</span> Since <tt>ffi.new()</tt>
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zero-fills the array by default, we only need to set the green and the
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alpha fields.
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</p>
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<p>
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<span class="mark">⑤</span> The calls to
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<tt>math.floor()</tt> can be omitted here, because floating-point
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numbers are already truncated towards zero when converting them to an
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integer. This happens implicitly when the number is stored in the
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fields of each pixel.
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</p>
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<p>
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Now let's have a look at the impact of the changes: first, memory
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consumption for the image is down from 22 Megabytes to
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640 Kilobytes (400*400*4 bytes). That's a factor of 35x less! So,
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yes, tables do have a noticeable overhead. BTW: The original program
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would consume 40 Megabytes in plain Lua (on x64).
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</p>
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<p>
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Next, performance: the pure Lua version runs in 9.57 seconds (52.9
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seconds with the Lua interpreter) and the FFI version runs in 0.48
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seconds on my machine (YMMV). That's a factor of 20x faster (110x
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faster than the Lua interpreter).
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</p>
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<p style="font-size: 8pt;">
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The avid reader may notice that converting the pure Lua version over
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to use array indexes for the colors (<tt>[1]</tt> instead of
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<tt>.red</tt>, <tt>[2]</tt> instead of <tt>.green</tt> etc.) ought to
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be more compact and faster. This is certainly true (by a factor of
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~1.7x). Switching to a struct-of-arrays would help, too.
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</p>
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<p style="font-size: 8pt;">
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However the resulting code would be less idiomatic and rather
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error-prone. And it still doesn't get even close to the performance of
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the FFI version of the code. Also, high-level data structures cannot
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be easily passed to other C functions, especially I/O functions,
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without undue conversion penalties.
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</p>
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<br class="flush">
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</div>
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<div id="foot">
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<hr class="hide">
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Copyright © 2005-2013 Mike Pall
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<span class="noprint">
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·
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<a href="contact.html">Contact</a>
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</span>
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</div>
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</body>
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</html>
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