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+<a name="Complex-DFTs"></a>
+Next:&nbsp;<a rel="next" accesskey="n" href="Planner-Flags.html#Planner-Flags">Planner Flags</a>,
+Previous:&nbsp;<a rel="previous" accesskey="p" href="Basic-Interface.html#Basic-Interface">Basic Interface</a>,
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+
+<h4 class="subsection">4.3.1 Complex DFTs</h4>
+
+<pre class="example">     fftw_plan fftw_plan_dft_1d(int n,
+                                fftw_complex *in, fftw_complex *out,
+                                int sign, unsigned flags);
+     fftw_plan fftw_plan_dft_2d(int n0, int n1,
+                                fftw_complex *in, fftw_complex *out,
+                                int sign, unsigned flags);
+     fftw_plan fftw_plan_dft_3d(int n0, int n1, int n2,
+                                fftw_complex *in, fftw_complex *out,
+                                int sign, unsigned flags);
+     fftw_plan fftw_plan_dft(int rank, const int *n,
+                             fftw_complex *in, fftw_complex *out,
+                             int sign, unsigned flags);
+</pre>
+   <p><a name="index-fftw_005fplan_005fdft_005f1d-154"></a><a name="index-fftw_005fplan_005fdft_005f2d-155"></a><a name="index-fftw_005fplan_005fdft_005f3d-156"></a><a name="index-fftw_005fplan_005fdft-157"></a>
+Plan a complex input/output discrete Fourier transform (DFT) in zero or
+more dimensions, returning an <code>fftw_plan</code> (see <a href="Using-Plans.html#Using-Plans">Using Plans</a>).
+
+   <p>Once you have created a plan for a certain transform type and
+parameters, then creating another plan of the same type and parameters,
+but for different arrays, is fast and shares constant data with the
+first plan (if it still exists).
+
+   <p>The planner returns <code>NULL</code> if the plan cannot be created.  A
+non-<code>NULL</code> plan is always returned by the basic interface unless
+you are using a customized FFTW configuration supporting a restricted
+set of transforms.
+
+<h5 class="subsubheading">Arguments</h5>
+
+     <ul>
+<li><code>rank</code> is the dimensionality of the transform (it should be the
+size of the array <code>*n</code>), and can be any non-negative integer.  The
+`<samp><span class="samp">_1d</span></samp>', `<samp><span class="samp">_2d</span></samp>', and `<samp><span class="samp">_3d</span></samp>' planners correspond to a
+<code>rank</code> of <code>1</code>, <code>2</code>, and <code>3</code>, respectively.  A
+<code>rank</code> of zero is equivalent to a transform of size 1, i.e. a copy
+of one number from input to output.
+
+     <li><code>n</code>, or <code>n0</code>/<code>n1</code>/<code>n2</code>, or <code>n[rank]</code>,
+respectively, gives the size of the transform dimensions.  They can be
+any positive integer.
+
+          <ul>
+<li><a name="index-row_002dmajor-158"></a>Multi-dimensional arrays are stored in row-major order with dimensions:
+<code>n0</code> x <code>n1</code>; or <code>n0</code> x <code>n1</code> x <code>n2</code>; or
+<code>n[0]</code> x <code>n[1]</code> x ... x <code>n[rank-1]</code>. 
+See <a href="Multi_002ddimensional-Array-Format.html#Multi_002ddimensional-Array-Format">Multi-dimensional Array Format</a>. 
+<li>FFTW is best at handling sizes of the form
+2<sup>a</sup> 3<sup>b</sup> 5<sup>c</sup> 7<sup>d</sup>
+        11<sup>e</sup> 13<sup>f</sup>,where e+f is either 0 or 1, and the other exponents
+are arbitrary.  Other sizes are computed by means of a slow,
+general-purpose algorithm (which nevertheless retains <i>O</i>(<i>n</i>&nbsp;log&nbsp;<i>n</i>)
+
+          <p>performance even for prime sizes).  It is possible to customize FFTW
+for different array sizes; see <a href="Installation-and-Customization.html#Installation-and-Customization">Installation and Customization</a>. 
+Transforms whose sizes are powers of 2 are especially fast. 
+</ul>
+
+     <li><code>in</code> and <code>out</code> point to the input and output arrays of the
+transform, which may be the same (yielding an in-place transform). 
+<a name="index-in_002dplace-159"></a>These arrays are overwritten during planning, unless
+<code>FFTW_ESTIMATE</code> is used in the flags.  (The arrays need not be
+initialized, but they must be allocated.)
+
+     <p>If <code>in == out</code>, the transform is <dfn>in-place</dfn> and the input
+array is overwritten. If <code>in != out</code>, the two arrays must
+not overlap (but FFTW does not check for this condition).
+
+     <li><code>sign</code> is the sign of the exponent in the formula that defines the
+Fourier transform.  It can be -1 (= <code>FFTW_FORWARD</code>) or
++1 (= <code>FFTW_BACKWARD</code>).
+
+     <li><a name="index-flags-160"></a><code>flags</code> is a bitwise OR (`<samp><span class="samp">|</span></samp>') of zero or more planner flags,
+as defined in <a href="Planner-Flags.html#Planner-Flags">Planner Flags</a>.
+
+</ul>
+
+   <p>FFTW computes an unnormalized transform: computing a forward followed by
+a backward transform (or vice versa) will result in the original data
+multiplied by the size of the transform (the product of the dimensions). 
+<a name="index-normalization-161"></a>For more information, see <a href="What-FFTW-Really-Computes.html#What-FFTW-Really-Computes">What FFTW Really Computes</a>.
+
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