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Add FFTW3
author Chris Cannam
date Wed, 20 Mar 2013 15:35:50 +0000
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Chris@10 1 <html lang="en">
Chris@10 2 <head>
Chris@10 3 <title>Memory Allocation - FFTW 3.3.3</title>
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Chris@10 12 This manual is for FFTW
Chris@10 13 (version 3.3.3, 25 November 2012).
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Chris@10 15 Copyright (C) 2003 Matteo Frigo.
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Chris@10 17 Copyright (C) 2003 Massachusetts Institute of Technology.
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Chris@10 45 </head>
Chris@10 46 <body>
Chris@10 47 <div class="node">
Chris@10 48 <a name="Memory-Allocation"></a>
Chris@10 49 <p>
Chris@10 50 Previous:&nbsp;<a rel="previous" accesskey="p" href="Precision.html#Precision">Precision</a>,
Chris@10 51 Up:&nbsp;<a rel="up" accesskey="u" href="Data-Types-and-Files.html#Data-Types-and-Files">Data Types and Files</a>
Chris@10 52 <hr>
Chris@10 53 </div>
Chris@10 54
Chris@10 55 <h4 class="subsection">4.1.3 Memory Allocation</h4>
Chris@10 56
Chris@10 57 <pre class="example"> void *fftw_malloc(size_t n);
Chris@10 58 void fftw_free(void *p);
Chris@10 59 </pre>
Chris@10 60 <p><a name="index-fftw_005fmalloc-145"></a><a name="index-fftw_005ffree-146"></a>
Chris@10 61 These are functions that behave identically to <code>malloc</code> and
Chris@10 62 <code>free</code>, except that they guarantee that the returned pointer obeys
Chris@10 63 any special alignment restrictions imposed by any algorithm in FFTW
Chris@10 64 (e.g. for SIMD acceleration). See <a href="SIMD-alignment-and-fftw_005fmalloc.html#SIMD-alignment-and-fftw_005fmalloc">SIMD alignment and fftw_malloc</a>.
Chris@10 65 <a name="index-alignment-147"></a>
Chris@10 66
Chris@10 67 <p>Data allocated by <code>fftw_malloc</code> <em>must</em> be deallocated by
Chris@10 68 <code>fftw_free</code> and not by the ordinary <code>free</code>.
Chris@10 69
Chris@10 70 <p>These routines simply call through to your operating system's
Chris@10 71 <code>malloc</code> or, if necessary, its aligned equivalent
Chris@10 72 (e.g. <code>memalign</code>), so you normally need not worry about any
Chris@10 73 significant time or space overhead. You are <em>not required</em> to use
Chris@10 74 them to allocate your data, but we strongly recommend it.
Chris@10 75
Chris@10 76 <p>Note: in C++, just as with ordinary <code>malloc</code>, you must typecast
Chris@10 77 the output of <code>fftw_malloc</code> to whatever pointer type you are
Chris@10 78 allocating.
Chris@10 79 <a name="index-C_002b_002b-148"></a>
Chris@10 80
Chris@10 81 <p>We also provide the following two convenience functions to allocate
Chris@10 82 real and complex arrays with <code>n</code> elements, which are equivalent
Chris@10 83 to <code>(double *) fftw_malloc(sizeof(double) * n)</code> and
Chris@10 84 <code>(fftw_complex *) fftw_malloc(sizeof(fftw_complex) * n)</code>,
Chris@10 85 respectively:
Chris@10 86
Chris@10 87 <pre class="example"> double *fftw_alloc_real(size_t n);
Chris@10 88 fftw_complex *fftw_alloc_complex(size_t n);
Chris@10 89 </pre>
Chris@10 90 <p><a name="index-fftw_005falloc_005freal-149"></a><a name="index-fftw_005falloc_005fcomplex-150"></a>
Chris@10 91 The equivalent functions in other precisions allocate arrays of <code>n</code>
Chris@10 92 elements in that precision. e.g. <code>fftwf_alloc_real(n)</code> is
Chris@10 93 equivalent to <code>(float *) fftwf_malloc(sizeof(float) * n)</code>.
Chris@10 94 <a name="index-precision-151"></a>
Chris@10 95 <!-- -->
Chris@10 96
Chris@10 97 </body></html>
Chris@10 98