<html><head><TITLE></TITLE></head>
<body>
<H2><A HREF ="#DOC.DOCU" > <IMG BORDER=0 SRC=down.gif></A>    </H2>
<TABLE>
<TR><TD VALIGN=top><IMG BORDER=0 SRC=icon1.gif> </TD><TD><A HREF=polynomial.html><B>polynomial</B></A> <br>
<I>This class implements efficient evaluation of uni-variate polynomials</I>
</TD></TR><TR><TD VALIGN=top><IMG BORDER=0 SRC=icon1.gif> </TD><TD><A HREF=hermite_polynomial.html><B>hermite_polynomial</B></A> <br>
<I>This class implements a special subset of polynomials</I>
</TD></TR><TR><TD VALIGN=top><IMG BORDER=0 SRC=icon1.gif> </TD><TD><A HREF=iml_sequence.html><B>iml_sequence</B></A> <br>
<I>This template class is a general purpose scalar-sequence manager</I>
</TD></TR><TR><TD VALIGN=top><IMG BORDER=0 SRC=icon1.gif> </TD><TD><A HREF=iml_imageframe_sequence.html><B>iml_imageframe_sequence</B></A> <br>
<I>This is an image frame index manager created using the 
<em>iml_sequence</em> template class and the IML_USINT scalar
type</I>
</TD></TR><TR><TD VALIGN=top><IMG BORDER=0 SRC=icon1.gif> </TD><TD><A HREF=scalar_rv.html><B>scalar_rv</B></A> <br>
<I>This is the base class for scalar random variable objects</I>
</TD></TR><TR><TD VALIGN=top><IMG BORDER=0 SRC=icon1.gif> </TD><TD><A HREF=unit_uniform_rv.html><B>unit_uniform_rv</B></A> <br>
<I>This is the base class for uniform random variable objects</I>
</TD></TR><TR><TD VALIGN=top><IMG BORDER=0 SRC=icon1.gif> </TD><TD><A HREF=matsumoto_MT19937B.html><B>matsumoto_MT19937B</B></A> <br>
<I>This class encapsulates Makoto Matsumoto's MERSENNE TWISTER 
random number generator</I>
</TD></TR><TR><TD VALIGN=top><IMG BORDER=0 SRC=icon1.gif> </TD><TD><A HREF=fsultra.html><B>fsultra</B></A> <br>
<I>This is the Swiss Army Knife approach to random number generators</I>
</TD></TR><TR><TD VALIGN=top><IMG BORDER=0 SRC=icon1.gif> </TD><TD><A HREF=uniform_rv.html><B>uniform_rv</B></A> <br>
<I>This class produces the interface for a user-accesible uniform random variable</I>
</TD></TR><TR><TD VALIGN=top><IMG BORDER=0 SRC=icon1.gif> </TD><TD><A HREF=gaussian_rv.html><B>gaussian_rv</B></A> <br>
<I>The class defines a Gaussian-random-number generator</I>
</TD></TR><TR><TD VALIGN=top><IMG BORDER=0 SRC=icon1.gif> </TD><TD><A HREF=exponential_rv.html><B>exponential_rv</B></A> <br>
<I>The class defines an Exponential-random-number generator</I>
</TD></TR><TR><TD VALIGN=top><IMG BORDER=0 SRC=icon1.gif>#define </TD><TD><B>IML_ULINT_MAX</B>(1.0/__IML_FNGEN_MAXPOWER__)<br>
<I>Maximum 32-bit unsigned integer value.</I>
</TD></TR><TR><TD VALIGN=top><IMG BORDER=0 SRC=icon1.gif>#define </TD><TD><B>IML_USINT_MAX</B><br>
<I>Maximum 16-bit unsigned integer value.</I>
</TD></TR><TR><TD VALIGN=top><IMG BORDER=0 SRC=icon1.gif>#define </TD><TD><B>IML_UBYTE_MAX</B><br>
<I>Maximum 8-bit unsigned integer value.</I>
</TD></TR><TR><TD VALIGN=top><IMG BORDER=0 SRC=icon1.gif>#define </TD><TD><B>IML_LINT_MAX</B><br>
<I>Maximum 32-bit signed integer value.</I>
</TD></TR><TR><TD VALIGN=top><IMG BORDER=0 SRC=icon1.gif>#define </TD><TD><B>IML_LINT_MIN</B>(-2147483648L)<br>
<I>Minimum 32-bit signed integer value.</I>
</TD></TR><TR><TD VALIGN=top><IMG BORDER=0 SRC=icon1.gif>#define </TD><TD><B>IML_SINT_MAX</B><br>
<I>Maximum 16-bit signed integer value.</I>
</TD></TR><TR><TD VALIGN=top><IMG BORDER=0 SRC=icon1.gif>#define </TD><TD><B>IML_SINT_MIN</B>(-32768)<br>
<I>Minimum 16-bit signed integer value.</I>
</TD></TR><TR><TD VALIGN=top><IMG BORDER=0 SRC=icon1.gif>#define </TD><TD><B>IML_BYTE_MAX</B><br>
<I>Maximum 8-bit signed integer value.</I>
</TD></TR><TR><TD VALIGN=top><IMG BORDER=0 SRC=icon1.gif>#define </TD><TD><B>IML_BYTE_MIN</B>(-128)<br>
<I>Minimum 8-bit signed integer value.</I>
</TD></TR><TR><TD VALIGN=top><IMG BORDER=0 SRC=icon1.gif> </TD><TD><A HREF=iml_complex.html><B>iml_complex</B></A> <br>
<I>This class provides a minimal complex number type</I>
</TD></TR><TR><TD VALIGN=top><IMG BORDER=0 SRC=icon1.gif> </TD><TD><A HREF=iml_fcomplex.html><B>iml_fcomplex</B></A> <br>
<I>32-bit floating point complex number</I>
</TD></TR><TR><TD VALIGN=top><IMG BORDER=0 SRC=icon1.gif> </TD><TD><A HREF=iml_dcomplex.html><B>iml_dcomplex</B></A> <br>
<I>64-bit floating point complex number</I>
</TD></TR><TR><TD VALIGN=top><IMG BORDER=0 SRC=icon1.gif> </TD><TD><A HREF=iml_ldcomplex.html><B>iml_ldcomplex</B></A> <br>
<I>80-bit floating point complex number, if IEEE long doubles are suported</I>
</TD></TR><TR><TD VALIGN=top><IMG BORDER=0 SRC=icon1.gif> </TD><TD><A HREF=iml_image.html><B>iml_image</B></A> <br>
<I>A readable and writable base-class image for typed images</I>
</TD></TR><TR><TD VALIGN=top><IMG BORDER=0 SRC=icon1.gif> </TD><TD><A HREF=iml_typed_image.html><B>iml_typed_image</B></A> <br>
<I>An image base-class image for scalar and vector images</I>
</TD></TR><TR><TD VALIGN=top><IMG BORDER=0 SRC=icon1.gif> </TD><TD><A HREF=iml_scalar_image.html><B>iml_scalar_image</B></A> <br>
<I>A template image class for scalar images</I>
</TD></TR><TR><TD VALIGN=top><IMG BORDER=0 SRC=icon1.gif> </TD><TD><A HREF=iml_vector_image.html><B>iml_vector_image</B></A> <br>
<I>A template image class for vector images</I>
</TD></TR><TR><TD VALIGN=top><IMG BORDER=0 SRC=icon1.gif> </TD><TD><A HREF=iml_complex_image.html><B>iml_complex_image</B></A> <br>
<I>A template image class for complex images</I>
</TD></TR><TR><TD VALIGN=top><IMG BORDER=0 SRC=icon1.gif>typedef  <!1><A HREF="iml_scalar_image.html">iml_scalar_image</A> <IML_BYTE,			IML_BYTE_IMAGE>   </TD><TD><B>iml_byte_image</B><br>
<I>A signed-byte instance of a scalar-valued-pixel image</I>
</TD></TR><TR><TD VALIGN=top><IMG BORDER=0 SRC=icon1.gif>typedef  <!1><A HREF="iml_scalar_image.html">iml_scalar_image</A> <IML_UBYTE,			IML_UBYTE_IMAGE>   </TD><TD><B>iml_ubyte_image</B><br>
<I>An unsigned-byte instance of a scalar-valued-pixel image</I>
</TD></TR><TR><TD VALIGN=top><IMG BORDER=0 SRC=icon1.gif>typedef  <!1><A HREF="iml_scalar_image.html">iml_scalar_image</A> <IML_SINT,			IML_SINT_IMAGE>   </TD><TD><B>iml_sint_image</B><br>
<I>A signed 16-bit-integer instance of a scalar-valued-pixel image</I>
</TD></TR><TR><TD VALIGN=top><IMG BORDER=0 SRC=icon1.gif>typedef  <!1><A HREF="iml_scalar_image.html">iml_scalar_image</A> <IML_USINT,			IML_USINT_IMAGE>   </TD><TD><B>iml_usint_image</B><br>
<I>An unsigned 16-bit-integer instance of a scalar-valued-pixel image</I>
</TD></TR><TR><TD VALIGN=top><IMG BORDER=0 SRC=icon1.gif>typedef  <!1><A HREF="iml_scalar_image.html">iml_scalar_image</A> <IML_LINT,			IML_LINT_IMAGE>   </TD><TD><B>iml_lint_image</B><br>
<I>A signed 32-bit-integer instance of a scalar-valued-pixel image</I>
</TD></TR><TR><TD VALIGN=top><IMG BORDER=0 SRC=icon1.gif>typedef  <!1><A HREF="iml_scalar_image.html">iml_scalar_image</A> <IML_ULINT,			IML_ULINT_IMAGE>   </TD><TD><B>iml_ulint_image</B><br>
<I>An unsigned 32-bit-integer instance of a scalar-valued-pixel image</I>
</TD></TR><TR><TD VALIGN=top><IMG BORDER=0 SRC=icon1.gif>typedef  <!1><A HREF="iml_scalar_image.html">iml_scalar_image</A> <IML_FLOAT,			IML_FLOAT_IMAGE>   </TD><TD><B>iml_float_image</B><br>
<I>A 32-bit floating-point instance of a scalar-valued-pixel image</I>
</TD></TR><TR><TD VALIGN=top><IMG BORDER=0 SRC=icon1.gif>typedef  <!1><A HREF="iml_scalar_image.html">iml_scalar_image</A> <IML_DOUBLE,		IML_DOUBLE_IMAGE>   </TD><TD><B>iml_double_image</B><br>
<I>An 64-bit floating-point instance of a scalar-valued-pixel image</I>
</TD></TR><TR><TD VALIGN=top><IMG BORDER=0 SRC=icon1.gif>typedef  <!1><A HREF="iml_scalar_image.html">iml_scalar_image</A> <IML_LDOUBLE,		IML_LDOUBLE_IMAGE>   </TD><TD><B>iml_ldouble_image</B><br>
<I>An 80-bit floating-point instance of a scalar-valued-pixel image</I>
</TD></TR><TR><TD VALIGN=top><IMG BORDER=0 SRC=icon1.gif>typedef  <!1><A HREF="iml_complex_image.html">iml_complex_image</A> <<!1><A HREF="iml_fcomplex.html">iml_fcomplex</A>,	IML_FLOAT,		IML_FCOMPLEX_IMAGE>   </TD><TD><B>iml_fcomplex_image</B><br>
<I>A 32-bit floating-point, complex valued instance of a vector-valued-pixel 
image</I>
</TD></TR><TR><TD VALIGN=top><IMG BORDER=0 SRC=icon1.gif>typedef  <!1><A HREF="iml_complex_image.html">iml_complex_image</A> <<!1><A HREF="iml_dcomplex.html">iml_dcomplex</A>,	IML_DOUBLE,		IML_DCOMPLEX_IMAGE>   </TD><TD><B>iml_dcomplex_image</B><br>
<I>An 64-bit floating-point, complex valued instance of a vector-valued-pixel 
image</I>
</TD></TR><TR><TD VALIGN=top><IMG BORDER=0 SRC=icon1.gif> </TD><TD><A HREF=iml_rofn.html><B>iml_rofn</B></A> <br>
<I>This class provides the interface for <em>read-only functions</em></I>
</TD></TR><TR><TD VALIGN=top><IMG BORDER=0 SRC=icon1.gif> </TD><TD><A HREF=inverse_distance_rofn.html><B>inverse_distance_rofn</B></A> <br>
<I>An <em>inverse-distance</em> function</I>
</TD></TR><TR><TD VALIGN=top><IMG BORDER=0 SRC=icon1.gif> </TD><TD><A HREF=iml_trig_rofn.html><B>iml_trig_rofn</B></A> <br>
<I>This is a base class for trigonometric style functions</I>
</TD></TR><TR><TD VALIGN=top><IMG BORDER=0 SRC=icon1.gif> </TD><TD><A HREF=iml_cos_rofn.html><B>iml_cos_rofn</B></A> <br>
<I>An n-dimensional cosine</I>
</TD></TR><TR><TD VALIGN=top><IMG BORDER=0 SRC=icon1.gif> </TD><TD><A HREF=iml_polar_cos_rofn.html><B>iml_polar_cos_rofn</B></A> <br>
<I>A polar cosine</I>
</TD></TR><TR><TD VALIGN=top><IMG BORDER=0 SRC=icon1.gif> </TD><TD><A HREF=iml_gaussian_rofn.html><B>iml_gaussian_rofn</B></A> <br>
<I>An n-dimensional Gaussian</I>
</TD></TR><TR><TD VALIGN=top><IMG BORDER=0 SRC=icon1.gif> </TD><TD><A HREF=iml_gabor_rofn.html><B>iml_gabor_rofn</B></A> <br>
<I>This function is an n-dimensional gaussian multplied by an n-dimensional
cosine</I>
</TD></TR><TR><TD VALIGN=top><IMG BORDER=0 SRC=icon1.gif> </TD><TD><A HREF=iml_image_file.html><B>iml_image_file</B></A> <br>
<I>This is the class used to manage n-dimensional images stored
on disk</I>
</TD></TR>
</TABLE>
<A NAME="DOC.DOCU">
<DL></DL><P><I><A HREF="aindex.html"> alphabetic index</A></I>  <I><A HREF="HIER.html"> hierarchy of classes</A></I><P></BODY><hr>

<P Align=right><I>generated by <A HREF="http://www.zib.de/Visual/software/doc++/index.html">doc++</A></I>