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9 Copyright 2005-2007 Adobe Systems Incorporated
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40 <div class=
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41 <h1>variant.hpp
</h1><a href=
"variant_8hpp.html">Go to the documentation of this file.
</a><div class=
"fragment"><pre class=
"fragment"><a name=
"l00001"></a>00001 <span class=
"comment">/*
</span>
42 <a name=
"l00002"></a>00002 <span class=
"comment"> Copyright
2005-
2007 Adobe Systems Incorporated
</span>
43 <a name=
"l00003"></a>00003 <span class=
"comment"> </span>
44 <a name=
"l00004"></a>00004 <span class=
"comment"> Use, modification and distribution are subject to the Boost Software License,
</span>
45 <a name=
"l00005"></a>00005 <span class=
"comment"> Version
1.0. (See accompanying file LICENSE_1_0.txt or copy at
</span>
46 <a name=
"l00006"></a>00006 <span class=
"comment"> http://www.boost.org/LICENSE_1_0.txt).
</span>
47 <a name=
"l00007"></a>00007 <span class=
"comment"></span>
48 <a name=
"l00008"></a>00008 <span class=
"comment"> See http://opensource.adobe.com/gil for most recent version including documentation.
</span>
49 <a name=
"l00009"></a>00009 <span class=
"comment">*/
</span>
50 <a name=
"l00010"></a>00010
51 <a name=
"l00011"></a>00011 <span class=
"comment">/*************************************************************************************************/
</span>
52 <a name=
"l00012"></a>00012
53 <a name=
"l00013"></a>00013 <span class=
"preprocessor">#ifndef GIL_DYNAMICIMAGE_VARIANT_HPP
</span>
54 <a name=
"l00014"></a>00014 <span class=
"preprocessor"></span><span class=
"preprocessor">#define GIL_DYNAMICIMAGE_VARIANT_HPP
</span>
55 <a name=
"l00015"></a>00015 <span class=
"preprocessor"></span>
56 <a name=
"l00024"></a>00024
57 <a name=
"l00025"></a>00025 <span class=
"preprocessor">#include
"../../gil_config.hpp"</span>
58 <a name=
"l00026"></a>00026 <span class=
"preprocessor">#include
"../../utilities.hpp"</span>
59 <a name=
"l00027"></a>00027 <span class=
"preprocessor">#include
<cstddef
></span>
60 <a name=
"l00028"></a>00028 <span class=
"preprocessor">#include
<cassert
></span>
61 <a name=
"l00029"></a>00029 <span class=
"preprocessor">#include
<algorithm
></span>
62 <a name=
"l00030"></a>00030 <span class=
"preprocessor">#include
<typeinfo
></span>
63 <a name=
"l00031"></a>00031 <span class=
"preprocessor">#include
<boost/bind.hpp
></span>
64 <a name=
"l00032"></a>00032
65 <a name=
"l00033"></a>00033 <span class=
"preprocessor">#include
<boost/mpl/transform.hpp
></span>
66 <a name=
"l00034"></a>00034 <span class=
"preprocessor">#include
<boost/mpl/size.hpp
></span>
67 <a name=
"l00035"></a>00035 <span class=
"preprocessor">#include
<boost/mpl/sizeof.hpp
></span>
68 <a name=
"l00036"></a>00036 <span class=
"preprocessor">#include
<boost/mpl/max.hpp
></span>
69 <a name=
"l00037"></a>00037 <span class=
"preprocessor">#include
<boost/mpl/at.hpp
></span>
70 <a name=
"l00038"></a>00038 <span class=
"preprocessor">#include
<boost/mpl/fold.hpp
></span>
71 <a name=
"l00039"></a>00039
72 <a name=
"l00040"></a>00040 <span class=
"keyword">namespace
</span>boost {
<span class=
"keyword">namespace
</span>gil {
73 <a name=
"l00041"></a>00041
74 <a name=
"l00042"></a>00042 <span class=
"keyword">namespace
</span>detail {
75 <a name=
"l00043"></a>00043 <span class=
"keyword">template
</span> <<span class=
"keyword">typename
</span> Types,
<span class=
"keyword">typename
</span> T
> <span class=
"keyword">struct
</span>type_to_index;
76 <a name=
"l00044"></a>00044 <span class=
"keyword">template
</span> <<span class=
"keyword">typename
</span> Op,
<span class=
"keyword">typename
</span> T
> <span class=
"keyword">struct
</span>reduce;
77 <a name=
"l00045"></a>00045 <span class=
"keyword">struct
</span>destructor_op {
78 <a name=
"l00046"></a>00046 <span class=
"keyword">typedef
</span> <span class=
"keywordtype">void
</span> result_type;
79 <a name=
"l00047"></a>00047 <span class=
"keyword">template
</span> <<span class=
"keyword">typename
</span> T
> result_type operator()(
<span class=
"keyword">const
</span> T
& t)
<span class=
"keyword"> const
</span>{ t.~T(); }
80 <a name=
"l00048"></a>00048 };
81 <a name=
"l00049"></a>00049 <span class=
"keyword">template
</span> <<span class=
"keyword">typename
</span> T,
<span class=
"keyword">typename
</span> Bits
> <span class=
"keywordtype">void
</span> copy_construct_in_place(
<span class=
"keyword">const
</span> T
& t, Bits
& bits);
82 <a name=
"l00050"></a>00050 <span class=
"keyword">template
</span> <<span class=
"keyword">typename
</span> Bits
> <span class=
"keyword">struct
</span>copy_construct_in_place_fn;
83 <a name=
"l00051"></a>00051 }
84 <a name=
"l00086"></a>00086 <span class=
"keyword">template
</span> <<span class=
"keyword">typename
</span> Types
> <span class=
"comment">// models MPL Random Access Container
</span>
85 <a name=
"l00087"></a><a class=
"code" href=
"g_i_l_0062.html">00087</a> <span class=
"keyword">class
</span><a class=
"code" href=
"g_i_l_0062.html" title=
"Represents a concrete instance of a run-time specified type from a set of typesA...">variant
</a> {
86 <a name=
"l00088"></a>00088 <span class=
"comment">// size in bytes of the largest type in Types
</span>
87 <a name=
"l00089"></a>00089 <span class=
"keyword">static
</span> <span class=
"keyword">const
</span> std::size_t MAX_SIZE = mpl::fold
<Types, mpl::size_t
<0>, mpl::max
<mpl::_1, mpl::sizeof_
<mpl::_2
> > >::type::value;
88 <a name=
"l00090"></a>00090 <span class=
"keyword">static
</span> <span class=
"keyword">const
</span> std::size_t NUM_TYPES = mpl::size
<Types
>::value;
89 <a name=
"l00091"></a>00091 <span class=
"keyword">public
</span>:
90 <a name=
"l00092"></a>00092 <span class=
"keyword">typedef
</span> Types types_t;
91 <a name=
"l00093"></a>00093
92 <a name=
"l00094"></a>00094 <span class=
"keyword">typedef
</span> <span class=
"keyword">struct
</span>{
<span class=
"keywordtype">char
</span> data[MAX_SIZE]; } base_t;
<span class=
"comment">// empty space equal to the size of the largest type in Types
</span>
93 <a name=
"l00095"></a>00095
94 <a name=
"l00096"></a>00096 <span class=
"comment">// Default constructor - default construct the first type
</span>
95 <a name=
"l00097"></a>00097 <a class=
"code" href=
"g_i_l_0062.html" title=
"Represents a concrete instance of a run-time specified type from a set of typesA...">variant
</a>() : _index(
0) {
<span class=
"keyword">new
</span>(
&_bits)
<span class=
"keyword">typename
</span> mpl::at_c
<Types,
0>::type(); }
96 <a name=
"l00098"></a>00098 <span class=
"keyword">virtual
</span> ~
<a class=
"code" href=
"g_i_l_0062.html" title=
"Represents a concrete instance of a run-time specified type from a set of typesA...">variant
</a>() { apply_operation(*
<span class=
"keyword">this
</span>, detail::destructor_op()); }
97 <a name=
"l00099"></a>00099
98 <a name=
"l00100"></a>00100 <span class=
"comment">// Throws std::bad_cast if T is not in Types
</span>
99 <a name=
"l00101"></a>00101 <span class=
"keyword">template
</span> <<span class=
"keyword">typename
</span> T
> <span class=
"keyword">explicit
</span> <a class=
"code" href=
"g_i_l_0062.html" title=
"Represents a concrete instance of a run-time specified type from a set of typesA...">variant
</a>(
<span class=
"keyword">const
</span> T
& obj){ _index=type_id
<T
>();
<span class=
"keywordflow">if
</span> (_index==NUM_TYPES)
<span class=
"keywordflow">throw
</span> std::bad_cast(); detail::copy_construct_in_place(obj, _bits); }
100 <a name=
"l00102"></a>00102
101 <a name=
"l00103"></a>00103 <span class=
"comment">// When doSwap is true, swaps obj with the contents of the variant. obj will contain default-constructed instance after the call
</span>
102 <a name=
"l00104"></a>00104 <span class=
"keyword">template
</span> <<span class=
"keyword">typename
</span> T
> <span class=
"keyword">explicit
</span> <a class=
"code" href=
"g_i_l_0062.html" title=
"Represents a concrete instance of a run-time specified type from a set of typesA...">variant
</a>(T
& obj,
<span class=
"keywordtype">bool
</span> do_swap);
103 <a name=
"l00105"></a>00105
104 <a name=
"l00106"></a>00106 <span class=
"keyword">template
</span> <<span class=
"keyword">typename
</span> T
> <a class=
"code" href=
"g_i_l_0062.html" title=
"Represents a concrete instance of a run-time specified type from a set of typesA...">variant
</a>& operator=(
<span class=
"keyword">const
</span> T
& obj) {
<a class=
"code" href=
"g_i_l_0062.html" title=
"Represents a concrete instance of a run-time specified type from a set of typesA...">variant
</a> tmp(obj); swap(*
<span class=
"keyword">this
</span>,tmp);
<span class=
"keywordflow">return
</span> *
<span class=
"keyword">this
</span>; }
105 <a name=
"l00107"></a>00107 <a class=
"code" href=
"g_i_l_0062.html" title=
"Represents a concrete instance of a run-time specified type from a set of typesA...">variant
</a>& operator=(
<span class=
"keyword">const
</span> <a class=
"code" href=
"g_i_l_0062.html" title=
"Represents a concrete instance of a run-time specified type from a set of typesA...">variant
</a>& v) {
<a class=
"code" href=
"g_i_l_0062.html" title=
"Represents a concrete instance of a run-time specified type from a set of typesA...">variant
</a> tmp(v ); swap(*
<span class=
"keyword">this
</span>,tmp);
<span class=
"keywordflow">return
</span> *
<span class=
"keyword">this
</span>; }
106 <a name=
"l00108"></a>00108
107 <a name=
"l00109"></a>00109 <a class=
"code" href=
"g_i_l_0062.html" title=
"Represents a concrete instance of a run-time specified type from a set of typesA...">variant
</a>(
<span class=
"keyword">const
</span> <a class=
"code" href=
"g_i_l_0062.html" title=
"Represents a concrete instance of a run-time specified type from a set of typesA...">variant
</a>& v) : _index(v.
<a class=
"code" href=
"g_i_l_0062.html#ab24a1a4e3ad662acbc481b2ce8d8cb8">_index
</a>) { apply_operation(v, detail::copy_construct_in_place_fn
<base_t
>(_bits)); }
108 <a name=
"l00110"></a>00110 <span class=
"keyword">template
</span> <<span class=
"keyword">typename
</span> T
> <span class=
"keywordtype">void
</span> move_in(T
& obj) {
<a class=
"code" href=
"g_i_l_0062.html" title=
"Represents a concrete instance of a run-time specified type from a set of typesA...">variant
</a> tmp(obj,
<span class=
"keyword">true
</span>); swap(*
<span class=
"keyword">this
</span>,tmp); }
109 <a name=
"l00111"></a>00111
110 <a name=
"l00112"></a>00112 <span class=
"keyword">template
</span> <<span class=
"keyword">typename
</span> TS
> <span class=
"keyword">friend
</span> <span class=
"keywordtype">bool
</span> operator==(
<span class=
"keyword">const
</span> <a class=
"code" href=
"g_i_l_0062.html" title=
"Represents a concrete instance of a run-time specified type from a set of typesA...">variant
<TS
></a>& x,
<span class=
"keyword">const
</span> <a class=
"code" href=
"g_i_l_0062.html" title=
"Represents a concrete instance of a run-time specified type from a set of typesA...">variant
<TS
></a>& y);
111 <a name=
"l00113"></a>00113 <span class=
"keyword">template
</span> <<span class=
"keyword">typename
</span> TS
> <span class=
"keyword">friend
</span> <span class=
"keywordtype">bool
</span> operator!=(
<span class=
"keyword">const
</span> <a class=
"code" href=
"g_i_l_0062.html" title=
"Represents a concrete instance of a run-time specified type from a set of typesA...">variant
<TS
></a>& x,
<span class=
"keyword">const
</span> <a class=
"code" href=
"g_i_l_0062.html" title=
"Represents a concrete instance of a run-time specified type from a set of typesA...">variant
<TS
></a>& y);
112 <a name=
"l00114"></a>00114
113 <a name=
"l00115"></a>00115 <span class=
"keyword">template
</span> <<span class=
"keyword">typename
</span> T
> <span class=
"keyword">static
</span> <span class=
"keywordtype">bool
</span> has_type() {
<span class=
"keywordflow">return
</span> type_id
<T
>()!=NUM_TYPES; }
114 <a name=
"l00116"></a>00116
115 <a name=
"l00117"></a>00117 <span class=
"keyword">template
</span> <<span class=
"keyword">typename
</span> T
> <span class=
"keyword">const
</span> T
& _dynamic_cast()
<span class=
"keyword"> const
</span>{
<span class=
"keywordflow">if
</span> (!current_type_is
<T
>())
<span class=
"keywordflow">throw
</span> std::bad_cast();
<span class=
"keywordflow">return
</span> *gil_reinterpret_cast_c
<const T*
>(
&_bits); }
116 <a name=
"l00118"></a>00118 <span class=
"keyword">template
</span> <<span class=
"keyword">typename
</span> T
> T
& _dynamic_cast() {
<span class=
"keywordflow">if
</span> (!current_type_is
<T
>())
<span class=
"keywordflow">throw
</span> std::bad_cast();
<span class=
"keywordflow">return
</span> *gil_reinterpret_cast
< T*
>(
&_bits); }
117 <a name=
"l00119"></a>00119
118 <a name=
"l00120"></a>00120 <span class=
"keyword">template
</span> <<span class=
"keyword">typename
</span> T
> <span class=
"keywordtype">bool
</span> current_type_is()
<span class=
"keyword"> const
</span>{
<span class=
"keywordflow">return
</span> type_id
<T
>()==_index; }
119 <a name=
"l00121"></a>00121
120 <a name=
"l00122"></a>00122 <span class=
"keyword">private
</span>:
121 <a name=
"l00123"></a>00123 <span class=
"keyword">template
</span> <<span class=
"keyword">typename
</span> T
> <span class=
"keyword">static
</span> std::size_t type_id() {
<span class=
"keywordflow">return
</span> <a class=
"code" href=
"g_i_l_0522.html" title=
"Returns the index corresponding to the first occurrance of a given given type in...">detail::type_to_index
<Types,T
>::value
</a>; }
122 <a name=
"l00124"></a>00124
123 <a name=
"l00125"></a>00125 <span class=
"keyword">template
</span> <<span class=
"keyword">typename
</span> Cs
> <span class=
"keyword">friend
</span> <span class=
"keywordtype">void
</span> swap(
<a class=
"code" href=
"g_i_l_0062.html" title=
"Represents a concrete instance of a run-time specified type from a set of typesA...">variant
<Cs
></a>& x,
<a class=
"code" href=
"g_i_l_0062.html" title=
"Represents a concrete instance of a run-time specified type from a set of typesA...">variant
<Cs
></a>& y);
124 <a name=
"l00126"></a>00126 <span class=
"keyword">template
</span> <<span class=
"keyword">typename
</span> Types2,
<span class=
"keyword">typename
</span> UnaryOp
> <span class=
"keyword">friend
</span> <span class=
"keyword">typename
</span> UnaryOp::result_type apply_operation(
<a class=
"code" href=
"g_i_l_0062.html" title=
"Represents a concrete instance of a run-time specified type from a set of typesA...">variant
<Types2
></a>& var, UnaryOp op);
125 <a name=
"l00127"></a>00127 <span class=
"keyword">template
</span> <<span class=
"keyword">typename
</span> Types2,
<span class=
"keyword">typename
</span> UnaryOp
> <span class=
"keyword">friend
</span> <span class=
"keyword">typename
</span> UnaryOp::result_type apply_operation(
<span class=
"keyword">const
</span> <a class=
"code" href=
"g_i_l_0062.html" title=
"Represents a concrete instance of a run-time specified type from a set of typesA...">variant
<Types2
></a>& var, UnaryOp op);
126 <a name=
"l00128"></a>00128 <span class=
"keyword">template
</span> <<span class=
"keyword">typename
</span> Types1,
<span class=
"keyword">typename
</span> Types2,
<span class=
"keyword">typename
</span> BinaryOp
> <span class=
"keyword">friend
</span> <span class=
"keyword">typename
</span> BinaryOp::result_type apply_operation(
<span class=
"keyword">const
</span> <a class=
"code" href=
"g_i_l_0062.html" title=
"Represents a concrete instance of a run-time specified type from a set of typesA...">variant
<Types1
></a>& arg1,
<span class=
"keyword">const
</span> <a class=
"code" href=
"g_i_l_0062.html" title=
"Represents a concrete instance of a run-time specified type from a set of typesA...">variant
<Types2
></a>& arg2, BinaryOp op);
127 <a name=
"l00129"></a>00129
128 <a name=
"l00130"></a>00130 base_t _bits;
129 <a name=
"l00131"></a>00131 std::size_t _index;
130 <a name=
"l00132"></a>00132 };
131 <a name=
"l00133"></a>00133
132 <a name=
"l00134"></a>00134 <span class=
"keyword">namespace
</span>detail {
133 <a name=
"l00135"></a>00135
134 <a name=
"l00136"></a>00136 <span class=
"keyword">template
</span> <<span class=
"keyword">typename
</span> T,
<span class=
"keyword">typename
</span> Bits
>
135 <a name=
"l00137"></a>00137 <span class=
"keywordtype">void
</span> copy_construct_in_place(
<span class=
"keyword">const
</span> T
& t, Bits
& bits) {
136 <a name=
"l00138"></a>00138 T
& b=*gil_reinterpret_cast
<T*
>(
&bits);
137 <a name=
"l00139"></a>00139 <span class=
"keyword">new
</span>(
&b)T(t);
<span class=
"comment">// default-construct
</span>
138 <a name=
"l00140"></a>00140 }
139 <a name=
"l00141"></a>00141
140 <a name=
"l00142"></a>00142 <span class=
"keyword">template
</span> <<span class=
"keyword">typename
</span> Bits
>
141 <a name=
"l00143"></a>00143 <span class=
"keyword">struct
</span>copy_construct_in_place_fn {
142 <a name=
"l00144"></a>00144 <span class=
"keyword">typedef
</span> <span class=
"keywordtype">void
</span> result_type;
143 <a name=
"l00145"></a>00145 Bits
& _dst;
144 <a name=
"l00146"></a>00146 copy_construct_in_place_fn(Bits
& dst) : _dst(dst) {}
145 <a name=
"l00147"></a>00147
146 <a name=
"l00148"></a>00148 <span class=
"keyword">template
</span> <<span class=
"keyword">typename
</span> T
> <span class=
"keywordtype">void
</span> operator()(
<span class=
"keyword">const
</span> T
& src)
<span class=
"keyword"> const
</span>{ copy_construct_in_place(src,_dst); }
147 <a name=
"l00149"></a>00149 };
148 <a name=
"l00150"></a>00150
149 <a name=
"l00151"></a>00151 <span class=
"keyword">template
</span> <<span class=
"keyword">typename
</span> Bits
>
150 <a name=
"l00152"></a>00152 <span class=
"keyword">struct
</span>equal_to_fn {
151 <a name=
"l00153"></a>00153 <span class=
"keyword">const
</span> Bits
& _dst;
152 <a name=
"l00154"></a>00154 equal_to_fn(
<span class=
"keyword">const
</span> Bits
& dst) : _dst(dst) {}
153 <a name=
"l00155"></a>00155
154 <a name=
"l00156"></a>00156 <span class=
"keyword">typedef
</span> <span class=
"keywordtype">bool
</span> result_type;
155 <a name=
"l00157"></a>00157 <span class=
"keyword">template
</span> <<span class=
"keyword">typename
</span> T
> result_type operator()(
<span class=
"keyword">const
</span> T
& x)
<span class=
"keyword"> const
</span>{
156 <a name=
"l00158"></a>00158 <span class=
"keywordflow">return
</span> x==*gil_reinterpret_cast_c
<const T*
>(
&_dst);
157 <a name=
"l00159"></a>00159 }
158 <a name=
"l00160"></a>00160 };
159 <a name=
"l00161"></a>00161 }
160 <a name=
"l00162"></a>00162
161 <a name=
"l00163"></a>00163 <span class=
"comment">// When doSwap is true, swaps obj with the contents of the variant. obj will contain default-constructed instance after the call
</span>
162 <a name=
"l00164"></a>00164 <span class=
"keyword">template
</span> <<span class=
"keyword">typename
</span> Types
>
163 <a name=
"l00165"></a>00165 <span class=
"keyword">template
</span> <<span class=
"keyword">typename
</span> T
> variant
<Types
>::variant(T
& obj,
<span class=
"keywordtype">bool
</span> do_swap) {
164 <a name=
"l00166"></a>00166 _index=type_id
<T
>();
165 <a name=
"l00167"></a>00167 <span class=
"keywordflow">if
</span> (_index==NUM_TYPES)
<span class=
"keywordflow">throw
</span> std::bad_cast();
166 <a name=
"l00168"></a>00168
167 <a name=
"l00169"></a>00169 <span class=
"keywordflow">if
</span> (do_swap) {
168 <a name=
"l00170"></a>00170 <span class=
"keyword">new
</span>(
&_bits) T();
<span class=
"comment">// default construct
</span>
169 <a name=
"l00171"></a>00171 swap(obj, *gil_reinterpret_cast
<T*
>(
&_bits));
170 <a name=
"l00172"></a>00172 }
<span class=
"keywordflow">else
</span>
171 <a name=
"l00173"></a>00173 detail::copy_construct_in_place(const_cast
<const T
&>(obj), _bits);
172 <a name=
"l00174"></a>00174 }
173 <a name=
"l00175"></a>00175
174 <a name=
"l00176"></a>00176 <span class=
"keyword">template
</span> <<span class=
"keyword">typename
</span> Types
>
175 <a name=
"l00177"></a>00177 <span class=
"keywordtype">void
</span> swap(variant
<Types
>& x, variant
<Types
>& y) {
176 <a name=
"l00178"></a>00178 std::swap(x._bits,y._bits);
177 <a name=
"l00179"></a>00179 std::swap(x._index, y._index);
178 <a name=
"l00180"></a>00180 }
179 <a name=
"l00181"></a>00181
180 <a name=
"l00182"></a>00182 <span class=
"keyword">template
</span> <<span class=
"keyword">typename
</span> Types
>
181 <a name=
"l00183"></a>00183 <span class=
"keyword">inline
</span> <span class=
"keywordtype">bool
</span> operator==(
<span class=
"keyword">const
</span> variant
<Types
>& x,
<span class=
"keyword">const
</span> variant
<Types
>& y) {
182 <a name=
"l00184"></a>00184 <span class=
"keywordflow">return
</span> x._index==y._index
&& <a class=
"code" href=
"group___variant.html#g3dc0a90911c08815be11e1e49ec06037" title=
"Invokes a generic constant operation (represented as a binary function object) on...">apply_operation
</a>(x,detail::equal_to_fn
<<span class=
"keyword">typename
</span> variant
<Types
>::base_t
>(y._bits));
183 <a name=
"l00185"></a>00185 }
184 <a name=
"l00186"></a>00186
185 <a name=
"l00187"></a>00187 <span class=
"keyword">template
</span> <<span class=
"keyword">typename
</span> C
>
186 <a name=
"l00188"></a>00188 <span class=
"keyword">inline
</span> <span class=
"keywordtype">bool
</span> operator!=(
<span class=
"keyword">const
</span> variant
<C
>& x,
<span class=
"keyword">const
</span> variant
<C
>& y) {
187 <a name=
"l00189"></a>00189 <span class=
"keywordflow">return
</span> !(x==y);
188 <a name=
"l00190"></a>00190 }
189 <a name=
"l00191"></a>00191
190 <a name=
"l00192"></a>00192 } }
<span class=
"comment">// namespace boost::gil
</span>
191 <a name=
"l00193"></a>00193
192 <a name=
"l00194"></a>00194 <span class=
"preprocessor">#endif
</span>
194 <hr size=
"1"><address style=
"text-align: right;"><small>Generated on Sat May
2 13:
50:
15 2009 for Generic Image Library by
195 <a href=
"http://www.doxygen.org/index.html">
196 <img src=
"doxygen.png" alt=
"doxygen" align=
"middle" border=
"0"></a> 1.5.6 </small></address>