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1	<?xml version='1.0' encoding='UTF-8' standalone='no'?>
2	<doxygen xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" xsi:noNamespaceSchemaLocation="compound.xsd" version="1.5.6">
3	<compounddef id="libDC_8cpp" kind="file">
4	<compoundname>libDC.cpp</compoundname>
5	<includes local="no">itpp/itbase.h</includes>
6	<includes refid="libDC_8h" local="yes">libDC.h</includes>
7	<incdepgraph>
8	<node id="300">
9	<label>itpp/itbase.h</label>
10	</node>
11	<node id="299">
12	<label>work/git/mixpp/bdm/math/libDC.cpp</label>
13	<link refid="libDC.cpp"/>
14	<childnode refid="300" relation="include">
15	</childnode>
16	<childnode refid="301" relation="include">
17	</childnode>
18	</node>
19	<node id="301">
20	<label>libDC.h</label>
21	<link refid="libDC_8h"/>
22	<childnode refid="300" relation="include">
23	</childnode>
24	</node>
25	</incdepgraph>
26	<sectiondef kind="func">
27	<memberdef kind="function" id="libDC_8cpp_1a797c793c4a08bf1b05d8259dfb2c676" prot="public" static="no" const="no" explicit="no" inline="no" virt="non-virtual">
28	<type>std::ostream &</type>
29	<definition>std::ostream& operator<<</definition>
30	<argsstring>(std::ostream &os, const fsqmat &ld)</argsstring>
31	<name>operator<<</name>
32	<param>
33	<type>std::ostream &</type>
34	<declname>os</declname>
35	</param>
36	<param>
37	<type>const <ref refid="classfsqmat" kindref="compound">fsqmat</ref> &</type>
38	<declname>ld</declname>
39	</param>
40	<briefdescription>
41	</briefdescription>
42	<detaileddescription>
43	</detaileddescription>
44	<inbodydescription>
45	</inbodydescription>
46	<location file="/home/smidl/work/git/mixpp/bdm/math/libDC.cpp" line="26" bodyfile="/home/smidl/work/git/mixpp/bdm/math/libDC.cpp" bodystart="26" bodyend="29"/>
47	</memberdef>
48	<memberdef kind="function" id="libDC_8cpp_13fdcec63285777e273bd639b0023d4bb" prot="public" static="no" const="no" explicit="no" inline="no" virt="non-virtual">
49	<type>std::ostream &</type>
50	<definition>std::ostream& operator<<</definition>
51	<argsstring>(std::ostream &os, const ldmat &ld)</argsstring>
52	<name>operator<<</name>
53	<param>
54	<type>std::ostream &</type>
55	<declname>os</declname>
56	</param>
57	<param>
58	<type>const <ref refid="classldmat" kindref="compound">ldmat</ref> &</type>
59	<declname>ld</declname>
60	</param>
61	<briefdescription>
62	</briefdescription>
63	<detaileddescription>
64	</detaileddescription>
65	<inbodydescription>
66	</inbodydescription>
67	<location file="/home/smidl/work/git/mixpp/bdm/math/libDC.cpp" line="74" bodyfile="/home/smidl/work/git/mixpp/bdm/math/libDC.cpp" bodystart="74" bodyend="78"/>
68	</memberdef>
69	<memberdef kind="function" id="libDC_8cpp_16715d039e6d5d97005cf9e2522dfa474" prot="public" static="no" const="no" explicit="no" inline="no" virt="non-virtual">
70	<type>mat</type>
71	<definition>mat ltuinv</definition>
72	<argsstring>(const mat &L)</argsstring>
73	<name>ltuinv</name>
74	<param>
75	<type>const mat &</type>
76	<declname>L</declname>
77	</param>
78	<briefdescription>
79	<para>Auxiliary function ltuinv; inversion of a triangular matrix;. </para> </briefdescription>
80	<detaileddescription>
81	</detaileddescription>
82	<inbodydescription>
83	</inbodydescription>
84	<location file="/home/smidl/work/git/mixpp/bdm/math/libDC.cpp" line="301" bodyfile="/home/smidl/work/git/mixpp/bdm/math/libDC.cpp" bodystart="301" bodyend="320"/>
85	<references refid="classsqmat_10abed904bdc0882373ba9adba919689d" compoundref="libDC_8h" startline="99">sqmat::dim</references>
86	<references refid="classldmat_1f74a64b99fe58a75ebd37bb679e121ea" compoundref="libDC_8h" startline="266">ldmat::L</references>
87	</memberdef>
88	<memberdef kind="function" id="libDC_8cpp_14ed56e73b49db8e7f4a63fa926a8dca4" prot="public" static="no" const="no" explicit="no" inline="no" virt="non-virtual">
89	<type>void</type>
90	<definition>void dydr</definition>
91	<argsstring>(double r, double f, double Dr, double Df, double R, int jl, int jh, double kr, int m, int mx)</argsstring>
92	<name>dydr</name>
93	<param>
94	<type>double *</type>
95	<declname>r</declname>
96	</param>
97	<param>
98	<type>double *</type>
99	<declname>f</declname>
100	</param>
101	<param>
102	<type>double *</type>
103	<declname>Dr</declname>
104	</param>
105	<param>
106	<type>double *</type>
107	<declname>Df</declname>
108	</param>
109	<param>
110	<type>double *</type>
111	<declname>R</declname>
112	</param>
113	<param>
114	<type>int</type>
115	<declname>jl</declname>
116	</param>
117	<param>
118	<type>int</type>
119	<declname>jh</declname>
120	</param>
121	<param>
122	<type>double *</type>
123	<declname>kr</declname>
124	</param>
125	<param>
126	<type>int</type>
127	<declname>m</declname>
128	</param>
129	<param>
130	<type>int</type>
131	<declname>mx</declname>
132	</param>
133	<briefdescription>
134	<para>Auxiliary function dydr; dyadic reduction. </para> </briefdescription>
135	<detaileddescription>
136	</detaileddescription>
137	<inbodydescription>
138	</inbodydescription>
139	<location file="/home/smidl/work/git/mixpp/bdm/math/libDC.cpp" line="352" bodyfile="/home/smidl/work/git/mixpp/bdm/math/libDC.cpp" bodystart="322" bodyend="382"/>
140	</memberdef>
141	</sectiondef>
142	<briefdescription>
143	</briefdescription>
144	<detaileddescription>
145	</detaileddescription>
146	<programlisting>
147	<codeline lineno="1"><highlight class="preprocessor">#include<sp/><itpp/itbase.h></highlight><highlight class="normal"></highlight></codeline>
148	<codeline lineno="2"><highlight class="normal"></highlight><highlight class="preprocessor">#include<sp/>"<ref refid="libDC_8h" kindref="compound" tooltip="Matrices in decomposed forms (LDL&#39;, LU, UDU&#39;, etc).">libDC.h</ref>"</highlight><highlight class="normal"></highlight></codeline>
149	<codeline lineno="3"><highlight class="normal"></highlight></codeline>
150	<codeline lineno="4"><highlight class="normal"></highlight><highlight class="keyword">using<sp/>namespace<sp/></highlight><highlight class="normal">itpp;</highlight></codeline>
151	<codeline lineno="5"><highlight class="normal"></highlight></codeline>
152	<codeline lineno="6"><highlight class="normal"></highlight><highlight class="keyword">using</highlight><highlight class="normal"><sp/>std::endl;</highlight></codeline>
153	<codeline lineno="7"><highlight class="normal"></highlight></codeline>
154	<codeline lineno="8" refid="classfsqmat_1b36530e155667fe9f1bd58394e50c65a" refkind="member"><highlight class="normal"></highlight><highlight class="keywordtype">void</highlight><highlight class="normal"><sp/><ref refid="classfsqmat_1b36530e155667fe9f1bd58394e50c65a" kindref="member">fsqmat::opupdt</ref><sp/>(<sp/></highlight><highlight class="keyword">const</highlight><highlight class="normal"><sp/>vec<sp/>&v,<sp/></highlight><highlight class="keywordtype">double</highlight><highlight class="normal"><sp/>w<sp/>)<sp/>{<ref refid="classfsqmat_1a7a1fcb9aae19d1e4daddfc9c22ce453" kindref="member" tooltip="Full matrix on which the operations are performed.">M</ref>+=outer_product<sp/>(<sp/>v,v*w<sp/>);};</highlight></codeline>
155	<codeline lineno="9" refid="classfsqmat_1cedf4f048309056f4262c930914dfda8" refkind="member"><highlight class="normal">mat<sp/><ref refid="classfsqmat_1cedf4f048309056f4262c930914dfda8" kindref="member" tooltip="Conversion to full matrix.">fsqmat::to_mat</ref>()<sp/><sp/>{</highlight><highlight class="keywordflow">return</highlight><highlight class="normal"><sp/><ref refid="classfsqmat_1a7a1fcb9aae19d1e4daddfc9c22ce453" kindref="member" tooltip="Full matrix on which the operations are performed.">M</ref>;};</highlight></codeline>
156	<codeline lineno="10" refid="classfsqmat_15530d2756b5d991de755e6121c9a452e" refkind="member"><highlight class="normal"></highlight><highlight class="keywordtype">void</highlight><highlight class="normal"><sp/><ref refid="classfsqmat_15530d2756b5d991de755e6121c9a452e" kindref="member" tooltip="Inplace symmetric multiplication by a SQUARE matrix , i.e. .">fsqmat::mult_sym</ref><sp/>(<sp/></highlight><highlight class="keyword">const</highlight><highlight class="normal"><sp/>mat<sp/>&C)<sp/>{<ref refid="classfsqmat_1a7a1fcb9aae19d1e4daddfc9c22ce453" kindref="member" tooltip="Full matrix on which the operations are performed.">M</ref>=C<sp/><ref refid="classfsqmat_1a7a1fcb9aae19d1e4daddfc9c22ce453" kindref="member" tooltip="Full matrix on which the operations are performed.">M</ref>C.T();};</highlight></codeline>
157	<codeline lineno="11" refid="classfsqmat_192052a8adc2054b63e42d1373d145c89" refkind="member"><highlight class="normal"></highlight><highlight class="keywordtype">void</highlight><highlight class="normal"><sp/><ref refid="classfsqmat_192052a8adc2054b63e42d1373d145c89" kindref="member" tooltip="Inplace symmetric multiplication by a SQUARE transpose of matrix , i.e. .">fsqmat::mult_sym_t</ref><sp/>(<sp/></highlight><highlight class="keyword">const</highlight><highlight class="normal"><sp/>mat<sp/>&C)<sp/>{<ref refid="classfsqmat_1a7a1fcb9aae19d1e4daddfc9c22ce453" kindref="member" tooltip="Full matrix on which the operations are performed.">M</ref>=C.T()<sp/><ref refid="classfsqmat_1a7a1fcb9aae19d1e4daddfc9c22ce453" kindref="member" tooltip="Full matrix on which the operations are performed.">M</ref>C;};</highlight></codeline>
158	<codeline lineno="12" refid="classfsqmat_1d4eddc3743c8865cc5ed92d14de0e3e3" refkind="member"><highlight class="normal"></highlight><highlight class="keywordtype">void</highlight><highlight class="normal"><sp/><ref refid="classfsqmat_15530d2756b5d991de755e6121c9a452e" kindref="member" tooltip="Inplace symmetric multiplication by a SQUARE matrix , i.e. .">fsqmat::mult_sym</ref><sp/>(<sp/></highlight><highlight class="keyword">const</highlight><highlight class="normal"><sp/>mat<sp/>&C,<sp/><ref refid="classfsqmat" kindref="compound" tooltip="Fake sqmat. This class maps sqmat operations to operations on full matrix.">fsqmat</ref><sp/>&U)</highlight><highlight class="keyword"><sp/>const<sp/></highlight><highlight class="normal">{<sp/>U.<ref refid="classfsqmat_1a7a1fcb9aae19d1e4daddfc9c22ce453" kindref="member" tooltip="Full matrix on which the operations are performed.">M</ref><sp/>=<sp/>(<sp/>C<sp/>(<ref refid="classfsqmat_1a7a1fcb9aae19d1e4daddfc9c22ce453" kindref="member" tooltip="Full matrix on which the operations are performed.">M</ref>C.T())<sp/>);};</highlight></codeline>
159	<codeline lineno="13" refid="classfsqmat_1ae4949ad2a32553c7fa04d6d1483770a" refkind="member"><highlight class="normal"></highlight><highlight class="keywordtype">void</highlight><highlight class="normal"><sp/><ref refid="classfsqmat_192052a8adc2054b63e42d1373d145c89" kindref="member" tooltip="Inplace symmetric multiplication by a SQUARE transpose of matrix , i.e. .">fsqmat::mult_sym_t</ref><sp/>(<sp/></highlight><highlight class="keyword">const</highlight><highlight class="normal"><sp/>mat<sp/>&C,<sp/><ref refid="classfsqmat" kindref="compound" tooltip="Fake sqmat. This class maps sqmat operations to operations on full matrix.">fsqmat</ref><sp/>&U)</highlight><highlight class="keyword"><sp/>const<sp/></highlight><highlight class="normal">{<sp/>U.<ref refid="classfsqmat_1a7a1fcb9aae19d1e4daddfc9c22ce453" kindref="member" tooltip="Full matrix on which the operations are performed.">M</ref><sp/>=<sp/>(<sp/>C.T()<sp/>(<ref refid="classfsqmat_1a7a1fcb9aae19d1e4daddfc9c22ce453" kindref="member" tooltip="Full matrix on which the operations are performed.">M</ref>C)<sp/>);};</highlight></codeline>
160	<codeline lineno="14" refid="classfsqmat_19fa853e1ca28f2a1a1c43377e798ecb1" refkind="member"><highlight class="normal"></highlight><highlight class="keywordtype">void</highlight><highlight class="normal"><sp/><ref refid="classfsqmat_19fa853e1ca28f2a1a1c43377e798ecb1" kindref="member" tooltip="Matrix inversion preserving the chosen form.">fsqmat::inv</ref><sp/>(<sp/><ref refid="classfsqmat" kindref="compound" tooltip="Fake sqmat. This class maps sqmat operations to operations on full matrix.">fsqmat</ref><sp/>&Inv<sp/>)<sp/>{mat<sp/>IM<sp/>=<sp/>itpp::inv<sp/>(<sp/><ref refid="classfsqmat_1a7a1fcb9aae19d1e4daddfc9c22ce453" kindref="member" tooltip="Full matrix on which the operations are performed.">M</ref><sp/>);<sp/>Inv=IM;};</highlight></codeline>
161	<codeline lineno="15" refid="classfsqmat_1cfa4c359483d2322f32d1d50050f8ac4" refkind="member"><highlight class="normal"></highlight><highlight class="keywordtype">void</highlight><highlight class="normal"><sp/><ref refid="classfsqmat_1cfa4c359483d2322f32d1d50050f8ac4" kindref="member" tooltip="Clearing matrix so that it corresponds to zeros.">fsqmat::clear</ref>()<sp/>{<ref refid="classfsqmat_1a7a1fcb9aae19d1e4daddfc9c22ce453" kindref="member" tooltip="Full matrix on which the operations are performed.">M</ref>.clear();};</highlight></codeline>
162	<codeline lineno="16" refid="classfsqmat_11929fbc9fe375f1d67f979d0d302336f" refkind="member"><highlight class="normal"><ref refid="classfsqmat_179e3f73e0ccd663c7f7e08083d272940" kindref="member" tooltip="Default initialization.">fsqmat::fsqmat</ref><sp/>(<sp/></highlight><highlight class="keyword">const</highlight><highlight class="normal"><sp/>mat<sp/>&M0<sp/>)<sp/>:<sp/><ref refid="classsqmat" kindref="compound" tooltip="Virtual class for representation of double symmetric matrices in square-root form...">sqmat</ref>(M0.<ref refid="classsqmat_1ecc2e2540f95a04f4449842588170f5b" kindref="member" tooltip="Reimplementing common functions of mat: cols().">cols</ref>())</highlight></codeline>
163	<codeline lineno="17"><highlight class="normal">{</highlight></codeline>
164	<codeline lineno="18"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>it_assert_debug<sp/>(<sp/>(<sp/>M0.cols()<sp/>==M0.rows()<sp/>),</highlight><highlight class="stringliteral">"M0<sp/>must<sp/>be<sp/>square"</highlight><highlight class="normal"><sp/>);</highlight></codeline>
165	<codeline lineno="19"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><ref refid="classfsqmat_1a7a1fcb9aae19d1e4daddfc9c22ce453" kindref="member" tooltip="Full matrix on which the operations are performed.">M</ref>=M0;</highlight></codeline>
166	<codeline lineno="20"><highlight class="normal">};</highlight></codeline>
167	<codeline lineno="21"><highlight class="normal"></highlight></codeline>
168	<codeline lineno="22"><highlight class="normal"></highlight><highlight class="comment">//fsqmat::fsqmat()<sp/>{};</highlight><highlight class="normal"></highlight></codeline>
169	<codeline lineno="23"><highlight class="normal"></highlight></codeline>
170	<codeline lineno="24" refid="classfsqmat_140eae99305e7c7240fa95cfec125b06f" refkind="member"><highlight class="normal"><ref refid="classfsqmat_179e3f73e0ccd663c7f7e08083d272940" kindref="member" tooltip="Default initialization.">fsqmat::fsqmat</ref>(</highlight><highlight class="keyword">const</highlight><highlight class="normal"><sp/></highlight><highlight class="keywordtype">int</highlight><highlight class="normal"><sp/>dim0):<sp/><ref refid="classsqmat" kindref="compound" tooltip="Virtual class for representation of double symmetric matrices in square-root form...">sqmat</ref>(dim0),<sp/><ref refid="classfsqmat_1a7a1fcb9aae19d1e4daddfc9c22ce453" kindref="member" tooltip="Full matrix on which the operations are performed.">M</ref>(dim0,dim0)<sp/>{};</highlight></codeline>
171	<codeline lineno="25"><highlight class="normal"></highlight></codeline>
172	<codeline lineno="26" refid="classfsqmat_1e06aba54d61e807b41bd68b5ee6ac22f" refkind="member"><highlight class="normal">std::ostream<sp/>&<ref refid="classfsqmat_1e06aba54d61e807b41bd68b5ee6ac22f" kindref="member" tooltip="print full matrix">operator<< </ref>(<sp/>std::ostream<sp/>&os,<sp/></highlight><highlight class="keyword">const</highlight><highlight class="normal"><sp/><ref refid="classfsqmat" kindref="compound" tooltip="Fake sqmat. This class maps sqmat operations to operations on full matrix.">fsqmat</ref><sp/>&ld<sp/>)<sp/>{</highlight></codeline>
173	<codeline lineno="27"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>os<sp/><<<sp/>ld.<ref refid="classfsqmat_1a7a1fcb9aae19d1e4daddfc9c22ce453" kindref="member" tooltip="Full matrix on which the operations are performed.">M</ref><sp/><<<sp/>endl;</highlight></codeline>
174	<codeline lineno="28"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight><highlight class="keywordflow">return</highlight><highlight class="normal"><sp/>os;</highlight></codeline>
175	<codeline lineno="29"><highlight class="normal">}</highlight></codeline>
176	<codeline lineno="30"><highlight class="normal"></highlight></codeline>
177	<codeline lineno="31"><highlight class="normal"></highlight></codeline>
178	<codeline lineno="32" refid="classldmat_1968113788422e858da23a477e98fd3a1" refkind="member"><highlight class="normal"><ref refid="classldmat_1a12dda6f529580b0377cc45226b43303" kindref="member" tooltip="Default constructor.">ldmat::ldmat</ref>(<sp/></highlight><highlight class="keyword">const</highlight><highlight class="normal"><sp/>mat<sp/>&exL,<sp/></highlight><highlight class="keyword">const</highlight><highlight class="normal"><sp/>vec<sp/>&exD<sp/>)<sp/>:<sp/><ref refid="classsqmat" kindref="compound" tooltip="Virtual class for representation of double symmetric matrices in square-root form...">sqmat</ref>(exD.length())<sp/>{</highlight></codeline>
179	<codeline lineno="33"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><ref refid="classldmat_14cce04824539c4a8d062d9a36d6e014e" kindref="member" tooltip="Positive vector .">D</ref><sp/>=<sp/>exD;</highlight></codeline>
180	<codeline lineno="34"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><ref refid="classldmat_1f74a64b99fe58a75ebd37bb679e121ea" kindref="member" tooltip="Lower-triangular matrix .">L</ref><sp/>=<sp/>exL;</highlight></codeline>
181	<codeline lineno="35"><highlight class="normal">}</highlight></codeline>
182	<codeline lineno="36"><highlight class="normal"></highlight></codeline>
183	<codeline lineno="37" refid="classldmat_1a12dda6f529580b0377cc45226b43303" refkind="member"><highlight class="normal"><ref refid="classldmat_1a12dda6f529580b0377cc45226b43303" kindref="member" tooltip="Default constructor.">ldmat::ldmat</ref>()<sp/>:<ref refid="classsqmat" kindref="compound" tooltip="Virtual class for representation of double symmetric matrices in square-root form...">sqmat</ref>(0)<sp/>{}</highlight></codeline>
184	<codeline lineno="38"><highlight class="normal"></highlight></codeline>
185	<codeline lineno="39" refid="classldmat_1163ee002a7858d104da1c59dd11f016d" refkind="member"><highlight class="normal"><ref refid="classldmat_1a12dda6f529580b0377cc45226b43303" kindref="member" tooltip="Default constructor.">ldmat::ldmat</ref>(</highlight><highlight class="keyword">const</highlight><highlight class="normal"><sp/></highlight><highlight class="keywordtype">int</highlight><highlight class="normal"><sp/>dim0):<sp/><ref refid="classsqmat" kindref="compound" tooltip="Virtual class for representation of double symmetric matrices in square-root form...">sqmat</ref>(dim0),<sp/><ref refid="classldmat_14cce04824539c4a8d062d9a36d6e014e" kindref="member" tooltip="Positive vector .">D</ref>(dim0),<ref refid="classldmat_1f74a64b99fe58a75ebd37bb679e121ea" kindref="member" tooltip="Lower-triangular matrix .">L</ref>(dim0,dim0)<sp/>{}</highlight></codeline>
186	<codeline lineno="40"><highlight class="normal"></highlight></codeline>
187	<codeline lineno="41" refid="classldmat_1abe16e0f86668ef61a9a4896c8565dee" refkind="member"><highlight class="normal"><ref refid="classldmat_1a12dda6f529580b0377cc45226b43303" kindref="member" tooltip="Default constructor.">ldmat::ldmat</ref>(</highlight><highlight class="keyword">const</highlight><highlight class="normal"><sp/>vec<sp/>D0):<ref refid="classsqmat" kindref="compound" tooltip="Virtual class for representation of double symmetric matrices in square-root form...">sqmat</ref>(D0.length())<sp/>{</highlight></codeline>
188	<codeline lineno="42"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><ref refid="classldmat_14cce04824539c4a8d062d9a36d6e014e" kindref="member" tooltip="Positive vector .">D</ref><sp/>=<sp/>D0;</highlight></codeline>
189	<codeline lineno="43"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><ref refid="classldmat_1f74a64b99fe58a75ebd37bb679e121ea" kindref="member" tooltip="Lower-triangular matrix .">L</ref><sp/>=<sp/>eye(<ref refid="classsqmat_10abed904bdc0882373ba9adba919689d" kindref="member" tooltip="dimension of the square matrix">dim</ref>);</highlight></codeline>
190	<codeline lineno="44"><highlight class="normal">}</highlight></codeline>
191	<codeline lineno="45"><highlight class="normal"></highlight></codeline>
192	<codeline lineno="46" refid="classldmat_15f21785358072d36892d538eed1d1ea5" refkind="member"><highlight class="normal"><ref refid="classldmat_1a12dda6f529580b0377cc45226b43303" kindref="member" tooltip="Default constructor.">ldmat::ldmat</ref>(<sp/></highlight><highlight class="keyword">const</highlight><highlight class="normal"><sp/>mat<sp/>&V<sp/>):<ref refid="classsqmat" kindref="compound" tooltip="Virtual class for representation of double symmetric matrices in square-root form...">sqmat</ref>(V.<ref refid="classldmat_10fceb6b5b637cec89bb0a3d2e6be1306" kindref="member" tooltip="access function">cols</ref>())<sp/>{</highlight></codeline>
193	<codeline lineno="47"><highlight class="normal"></highlight><highlight class="comment">//TODO<sp/>check<sp/>if<sp/>correct!!<sp/>Based<sp/>on<sp/>heuristic<sp/>observation<sp/>of<sp/>lu()</highlight><highlight class="normal"></highlight></codeline>
194	<codeline lineno="48"><highlight class="normal"></highlight></codeline>
195	<codeline lineno="49"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>it_assert_debug(<sp/><ref refid="classsqmat_10abed904bdc0882373ba9adba919689d" kindref="member" tooltip="dimension of the square matrix">dim</ref><sp/>==<sp/>V.rows(),</highlight><highlight class="stringliteral">"ldmat::ldmat<sp/>matrix<sp/>V<sp/>is<sp/>not<sp/>square!"</highlight><highlight class="normal"><sp/>);</highlight></codeline>
196	<codeline lineno="50"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight></codeline>
197	<codeline lineno="51"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight><highlight class="comment">//<sp/>L<sp/>and<sp/>D<sp/>will<sp/>be<sp/>allocated<sp/>by<sp/>ldform()</highlight><highlight class="normal"></highlight></codeline>
198	<codeline lineno="52"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight></codeline>
199	<codeline lineno="53"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight><highlight class="comment">//Chol<sp/>is<sp/>unstable</highlight><highlight class="normal"></highlight></codeline>
200	<codeline lineno="54"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>this-><ref refid="classldmat_1f291faa073e7bc8dfafc7ae93daa2506" kindref="member" tooltip="Transforms general into pure .">ldform</ref>(chol(V),ones(<ref refid="classsqmat_10abed904bdc0882373ba9adba919689d" kindref="member" tooltip="dimension of the square matrix">dim</ref>));</highlight></codeline>
201	<codeline lineno="55"><highlight class="normal"></highlight><highlight class="comment">//<sp/><sp/><sp/><sp/><sp/><sp/>this->ldform(ul(V),ones(dim));</highlight><highlight class="normal"></highlight></codeline>
202	<codeline lineno="56"><highlight class="normal">}</highlight></codeline>
203	<codeline lineno="57"><highlight class="normal"></highlight></codeline>
204	<codeline lineno="58" refid="classldmat_10f0f6e083e6d947cf58097ffce3ccd1a" refkind="member"><highlight class="normal"></highlight><highlight class="keywordtype">void</highlight><highlight class="normal"><sp/><ref refid="classldmat_10f0f6e083e6d947cf58097ffce3ccd1a" kindref="member">ldmat::opupdt</ref>(<sp/></highlight><highlight class="keyword">const</highlight><highlight class="normal"><sp/>vec<sp/>&v,<sp/><sp/></highlight><highlight class="keywordtype">double</highlight><highlight class="normal"><sp/>w<sp/>)<sp/>{</highlight></codeline>
205	<codeline lineno="59"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight><highlight class="keywordtype">int</highlight><highlight class="normal"><sp/><ref refid="classsqmat_10abed904bdc0882373ba9adba919689d" kindref="member" tooltip="dimension of the square matrix">dim</ref><sp/>=<sp/><ref refid="classldmat_14cce04824539c4a8d062d9a36d6e014e" kindref="member" tooltip="Positive vector .">D</ref>.length();</highlight></codeline>
206	<codeline lineno="60"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight><highlight class="keywordtype">double</highlight><highlight class="normal"><sp/>kr;</highlight></codeline>
207	<codeline lineno="61"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>vec<sp/>r<sp/>=<sp/>v;</highlight></codeline>
208	<codeline lineno="62"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight><highlight class="comment">//beware!<sp/>it<sp/>is<sp/>potentionally<sp/>dangerous,<sp/>if<sp/>ITpp<sp/>change<sp/>_behaviour<sp/>of<sp/>_data()!</highlight><highlight class="normal"></highlight></codeline>
209	<codeline lineno="63"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight><highlight class="keywordtype">double</highlight><highlight class="normal"><sp/>*Lraw<sp/>=<sp/><ref refid="classldmat_1f74a64b99fe58a75ebd37bb679e121ea" kindref="member" tooltip="Lower-triangular matrix .">L</ref>._data();</highlight></codeline>
210	<codeline lineno="64"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight><highlight class="keywordtype">double</highlight><highlight class="normal"><sp/>*Draw<sp/>=<sp/><ref refid="classldmat_14cce04824539c4a8d062d9a36d6e014e" kindref="member" tooltip="Positive vector .">D</ref>._data();</highlight></codeline>
211	<codeline lineno="65"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight><highlight class="keywordtype">double</highlight><highlight class="normal"><sp/>*rraw<sp/>=<sp/>r._data();</highlight></codeline>
212	<codeline lineno="66"><highlight class="normal"></highlight></codeline>
213	<codeline lineno="67"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>it_assert_debug(<sp/>v.length()<sp/>==<sp/>dim,<sp/></highlight><highlight class="stringliteral">"LD::ldupdt<sp/>vector<sp/>v<sp/>is<sp/>not<sp/>compatible<sp/>with<sp/>this<sp/>ld."</highlight><highlight class="normal"><sp/>);</highlight></codeline>
214	<codeline lineno="68"><highlight class="normal"></highlight></codeline>
215	<codeline lineno="69"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight><highlight class="keywordflow">for</highlight><highlight class="normal"><sp/>(<sp/></highlight><highlight class="keywordtype">int</highlight><highlight class="normal"><sp/>i<sp/>=<sp/>dim<sp/>-<sp/>1;<sp/>i<sp/>>=<sp/>0;<sp/>i--<sp/>)<sp/>{</highlight></codeline>
216	<codeline lineno="70"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>dydr(<sp/>rraw,<sp/>Lraw<sp/>+<sp/>i,<sp/>&w,<sp/>Draw<sp/>+<sp/>i,<sp/>rraw<sp/>+<sp/>i,<sp/>0,<sp/>i,<sp/>&kr,<sp/>1,<sp/>dim<sp/>);</highlight></codeline>
217	<codeline lineno="71"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>}</highlight></codeline>
218	<codeline lineno="72"><highlight class="normal">}</highlight></codeline>
219	<codeline lineno="73"><highlight class="normal"></highlight></codeline>
220	<codeline lineno="74" refid="classldmat_1eaaa0baa6026b84cfcbced41c84599d1" refkind="member"><highlight class="normal">std::ostream<sp/>&<ref refid="classldmat_1eaaa0baa6026b84cfcbced41c84599d1" kindref="member" tooltip="print both L and D ">operator<< </ref>(<sp/>std::ostream<sp/>&os,<sp/></highlight><highlight class="keyword">const</highlight><highlight class="normal"><sp/><ref refid="classldmat" kindref="compound" tooltip="Matrix stored in LD form, (typically known as UD).">ldmat</ref><sp/>&ld<sp/>)<sp/>{</highlight></codeline>
221	<codeline lineno="75"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>os<sp/><<<sp/></highlight><highlight class="stringliteral">"L:"</highlight><highlight class="normal"><sp/><<<sp/>ld.<ref refid="classldmat_1f74a64b99fe58a75ebd37bb679e121ea" kindref="member" tooltip="Lower-triangular matrix .">L</ref><sp/><<<sp/>endl;</highlight></codeline>
222	<codeline lineno="76"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>os<sp/><<<sp/></highlight><highlight class="stringliteral">"D:"</highlight><highlight class="normal"><sp/><<<sp/>ld.<ref refid="classldmat_14cce04824539c4a8d062d9a36d6e014e" kindref="member" tooltip="Positive vector .">D</ref><sp/><<<sp/>endl;</highlight></codeline>
223	<codeline lineno="77"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight><highlight class="keywordflow">return</highlight><highlight class="normal"><sp/>os;</highlight></codeline>
224	<codeline lineno="78"><highlight class="normal">}</highlight></codeline>
225	<codeline lineno="79"><highlight class="normal"></highlight></codeline>
226	<codeline lineno="80" refid="classldmat_15b0515da8dc2293d9e4360b74cc26c9e" refkind="member"><highlight class="normal">mat<sp/><ref refid="classldmat_15b0515da8dc2293d9e4360b74cc26c9e" kindref="member" tooltip="Conversion to full matrix.">ldmat::to_mat</ref>()<sp/>{</highlight></codeline>
227	<codeline lineno="81"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight><highlight class="keywordtype">int</highlight><highlight class="normal"><sp/><ref refid="classsqmat_10abed904bdc0882373ba9adba919689d" kindref="member" tooltip="dimension of the square matrix">dim</ref><sp/>=<sp/><ref refid="classldmat_14cce04824539c4a8d062d9a36d6e014e" kindref="member" tooltip="Positive vector .">D</ref>.length();</highlight></codeline>
228	<codeline lineno="82"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>mat<sp/>V(<sp/>dim,<sp/>dim<sp/>);</highlight></codeline>
229	<codeline lineno="83"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight><highlight class="keywordtype">double</highlight><highlight class="normal"><sp/>sum;</highlight></codeline>
230	<codeline lineno="84"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight><highlight class="keywordtype">int</highlight><highlight class="normal"><sp/>r,<sp/>c,<sp/>cc;</highlight></codeline>
231	<codeline lineno="85"><highlight class="normal"></highlight></codeline>
232	<codeline lineno="86"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight><highlight class="keywordflow">for</highlight><highlight class="normal"><sp/>(<sp/>r<sp/>=<sp/>0;r<sp/><<sp/>dim;r++<sp/>)<sp/>{<sp/></highlight><highlight class="comment">//row<sp/>cycle</highlight><highlight class="normal"></highlight></codeline>
233	<codeline lineno="87"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight><highlight class="keywordflow">for</highlight><highlight class="normal"><sp/>(<sp/>c<sp/>=<sp/>r;c<sp/><<sp/>dim;c++<sp/>)<sp/>{</highlight></codeline>
234	<codeline lineno="88"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight><highlight class="comment">//column<sp/>cycle,<sp/>using<sp/>symmetricity<sp/>=><sp/>c=r!</highlight><highlight class="normal"></highlight></codeline>
235	<codeline lineno="89"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>sum<sp/>=<sp/>0.0;</highlight></codeline>
236	<codeline lineno="90"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight><highlight class="keywordflow">for</highlight><highlight class="normal"><sp/>(<sp/>cc<sp/>=<sp/>c;cc<sp/><<sp/>dim;cc++<sp/>)<sp/>{<sp/></highlight><highlight class="comment">//cycle<sp/>over<sp/>the<sp/>remaining<sp/>part<sp/>of<sp/>the<sp/>vector</highlight><highlight class="normal"></highlight></codeline>
237	<codeline lineno="91"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>sum<sp/>+=<sp/><ref refid="classldmat_1f74a64b99fe58a75ebd37bb679e121ea" kindref="member" tooltip="Lower-triangular matrix .">L</ref>(<sp/>cc,<sp/>r<sp/>)<sp/><sp/><ref refid="classldmat_14cce04824539c4a8d062d9a36d6e014e" kindref="member" tooltip="Positive vector .">D</ref>(<sp/>cc<sp/>)<sp/><sp/><ref refid="classldmat_1f74a64b99fe58a75ebd37bb679e121ea" kindref="member" tooltip="Lower-triangular matrix .">L</ref>(<sp/>cc,<sp/>c<sp/>);</highlight></codeline>
238	<codeline lineno="92"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight><highlight class="comment">//here<sp/>L(cc,r)<sp/>=<sp/>L(r,cc)';</highlight><highlight class="normal"></highlight></codeline>
239	<codeline lineno="93"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>}</highlight></codeline>
240	<codeline lineno="94"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>V(<sp/>r,<sp/>c<sp/>)<sp/>=<sp/>sum;</highlight></codeline>
241	<codeline lineno="95"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight><highlight class="comment">//<sp/>symmetricity</highlight><highlight class="normal"></highlight></codeline>
242	<codeline lineno="96"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight><highlight class="keywordflow">if</highlight><highlight class="normal"><sp/>(<sp/>r<sp/>!=<sp/>c<sp/>)<sp/>{V(<sp/>c,<sp/>r<sp/>)<sp/>=<sp/>sum;};</highlight></codeline>
243	<codeline lineno="97"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>}</highlight></codeline>
244	<codeline lineno="98"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>}</highlight></codeline>
245	<codeline lineno="99"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>mat<sp/>V2<sp/>=<sp/><ref refid="classldmat_1f74a64b99fe58a75ebd37bb679e121ea" kindref="member" tooltip="Lower-triangular matrix .">L</ref>.transpose()diag(<sp/><ref refid="classldmat_14cce04824539c4a8d062d9a36d6e014e" kindref="member" tooltip="Positive vector .">D</ref><sp/>)<ref refid="classldmat_1f74a64b99fe58a75ebd37bb679e121ea" kindref="member" tooltip="Lower-triangular matrix .">L</ref>;</highlight></codeline>
246	<codeline lineno="100"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight><highlight class="keywordflow">return</highlight><highlight class="normal"><sp/>V2;</highlight></codeline>
247	<codeline lineno="101"><highlight class="normal">}</highlight></codeline>
248	<codeline lineno="102"><highlight class="normal"></highlight></codeline>
249	<codeline lineno="103"><highlight class="normal"></highlight></codeline>
250	<codeline lineno="104" refid="classldmat_1a60f2c7e4f3c6a7738eaaaab81ffad20" refkind="member"><highlight class="normal"></highlight><highlight class="keywordtype">void</highlight><highlight class="normal"><sp/><ref refid="classldmat_1a60f2c7e4f3c6a7738eaaaab81ffad20" kindref="member" tooltip="Add another matrix in LD form with weight w.">ldmat::add</ref>(<sp/></highlight><highlight class="keyword">const</highlight><highlight class="normal"><sp/><ref refid="classldmat" kindref="compound" tooltip="Matrix stored in LD form, (typically known as UD).">ldmat</ref><sp/>&ld2,<sp/></highlight><highlight class="keywordtype">double</highlight><highlight class="normal"><sp/>w<sp/>)<sp/>{</highlight></codeline>
251	<codeline lineno="105"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight><highlight class="keywordtype">int</highlight><highlight class="normal"><sp/><ref refid="classsqmat_10abed904bdc0882373ba9adba919689d" kindref="member" tooltip="dimension of the square matrix">dim</ref><sp/>=<sp/><ref refid="classldmat_14cce04824539c4a8d062d9a36d6e014e" kindref="member" tooltip="Positive vector .">D</ref>.length();</highlight></codeline>
252	<codeline lineno="106"><highlight class="normal"></highlight></codeline>
253	<codeline lineno="107"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>it_assert_debug(<sp/>ld2.<ref refid="classldmat_14cce04824539c4a8d062d9a36d6e014e" kindref="member" tooltip="Positive vector .">D</ref>.length()<sp/>==<sp/>dim,<sp/></highlight><highlight class="stringliteral">"LD.add()<sp/>incompatible<sp/>sizes<sp/>of<sp/>LDs;"</highlight><highlight class="normal"><sp/>);</highlight></codeline>
254	<codeline lineno="108"><highlight class="normal"></highlight></codeline>
255	<codeline lineno="109"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight><highlight class="comment">//Fixme<sp/>can<sp/>be<sp/>done<sp/>more<sp/>efficiently<sp/>either<sp/>via<sp/>dydr<sp/>or<sp/>ldform</highlight><highlight class="normal"></highlight></codeline>
256	<codeline lineno="110"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight><highlight class="keywordflow">for</highlight><highlight class="normal"><sp/>(<sp/></highlight><highlight class="keywordtype">int</highlight><highlight class="normal"><sp/>r<sp/>=<sp/>0;<sp/>r<sp/><<sp/>dim;<sp/>r++<sp/>)<sp/>{</highlight></codeline>
257	<codeline lineno="111"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight><highlight class="comment">//<sp/>Add<sp/>columns<sp/>of<sp/>ld2.L'<sp/>(i.e.<sp/>rows<sp/>of<sp/>ld2.L)<sp/>as<sp/>dyads<sp/>weighted<sp/>by<sp/>ld2.D</highlight><highlight class="normal"></highlight></codeline>
258	<codeline lineno="112"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>this-><ref refid="classldmat_10f0f6e083e6d947cf58097ffce3ccd1a" kindref="member">opupdt</ref>(<sp/>ld2.<ref refid="classldmat_1f74a64b99fe58a75ebd37bb679e121ea" kindref="member" tooltip="Lower-triangular matrix .">L</ref>.get_row(<sp/>r<sp/>),<sp/>w*ld2.<ref refid="classldmat_14cce04824539c4a8d062d9a36d6e014e" kindref="member" tooltip="Positive vector .">D</ref>(<sp/>r<sp/>)<sp/>);</highlight></codeline>
259	<codeline lineno="113"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>}</highlight></codeline>
260	<codeline lineno="114"><highlight class="normal">}</highlight></codeline>
261	<codeline lineno="115"><highlight class="normal"></highlight></codeline>
262	<codeline lineno="116" refid="classldmat_14d6e401de9607332305c27e67972a07a" refkind="member"><highlight class="normal"></highlight><highlight class="keywordtype">void</highlight><highlight class="normal"><sp/><ref refid="classldmat_14d6e401de9607332305c27e67972a07a" kindref="member" tooltip="Clearing matrix so that it corresponds to zeros.">ldmat::clear</ref>(){<ref refid="classldmat_1f74a64b99fe58a75ebd37bb679e121ea" kindref="member" tooltip="Lower-triangular matrix .">L</ref>.clear();<sp/></highlight><highlight class="keywordflow">for</highlight><highlight class="normal"><sp/>(<sp/></highlight><highlight class="keywordtype">int</highlight><highlight class="normal"><sp/>i=0;i<<ref refid="classldmat_1f74a64b99fe58a75ebd37bb679e121ea" kindref="member" tooltip="Lower-triangular matrix .">L</ref>.cols();i++<sp/>){<ref refid="classldmat_1f74a64b99fe58a75ebd37bb679e121ea" kindref="member" tooltip="Lower-triangular matrix .">L</ref>(<sp/>i,i<sp/>)=1;};<sp/><ref refid="classldmat_14cce04824539c4a8d062d9a36d6e014e" kindref="member" tooltip="Positive vector .">D</ref>.clear();}</highlight></codeline>
263	<codeline lineno="117"><highlight class="normal"></highlight></codeline>
264	<codeline lineno="118" refid="classldmat_12c160cb123c1102face7a50ec566a031" refkind="member"><highlight class="normal"></highlight><highlight class="keywordtype">void</highlight><highlight class="normal"><sp/><ref refid="classldmat_12c160cb123c1102face7a50ec566a031" kindref="member" tooltip="Matrix inversion preserving the chosen form.">ldmat::inv</ref>(<sp/><ref refid="classldmat" kindref="compound" tooltip="Matrix stored in LD form, (typically known as UD).">ldmat</ref><sp/>&Inv<sp/>)</highlight><highlight class="keyword"><sp/>const<sp/></highlight><highlight class="normal">{</highlight></codeline>
265	<codeline lineno="119"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>Inv.<ref refid="classldmat_14d6e401de9607332305c27e67972a07a" kindref="member" tooltip="Clearing matrix so that it corresponds to zeros.">clear</ref>();<sp/><sp/><sp/></highlight><highlight class="comment">//Inv<sp/>=<sp/>zero<sp/>in<sp/>LD</highlight><highlight class="normal"></highlight></codeline>
266	<codeline lineno="120"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>mat<sp/>U<sp/>=<sp/>ltuinv(<sp/><ref refid="classldmat_1f74a64b99fe58a75ebd37bb679e121ea" kindref="member" tooltip="Lower-triangular matrix .">L</ref><sp/>);</highlight></codeline>
267	<codeline lineno="121"><highlight class="normal"></highlight></codeline>
268	<codeline lineno="122"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>Inv.<ref refid="classldmat_1f291faa073e7bc8dfafc7ae93daa2506" kindref="member" tooltip="Transforms general into pure .">ldform</ref>(<sp/>U.transpose(),<sp/>1.0<sp/>/<sp/><ref refid="classldmat_14cce04824539c4a8d062d9a36d6e014e" kindref="member" tooltip="Positive vector .">D</ref><sp/>);</highlight></codeline>
269	<codeline lineno="123"><highlight class="normal">}</highlight></codeline>
270	<codeline lineno="124"><highlight class="normal"></highlight></codeline>
271	<codeline lineno="125" refid="classldmat_1e967b9425007f0cb6cd59b845f9756d8" refkind="member"><highlight class="normal"></highlight><highlight class="keywordtype">void</highlight><highlight class="normal"><sp/><ref refid="classldmat_1e967b9425007f0cb6cd59b845f9756d8" kindref="member" tooltip="Inplace symmetric multiplication by a SQUARE matrix , i.e. .">ldmat::mult_sym</ref>(<sp/></highlight><highlight class="keyword">const</highlight><highlight class="normal"><sp/>mat<sp/>&C)<sp/>{</highlight></codeline>
272	<codeline lineno="126"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>mat<sp/>A<sp/>=<sp/><ref refid="classldmat_1f74a64b99fe58a75ebd37bb679e121ea" kindref="member" tooltip="Lower-triangular matrix .">L</ref>*C.T();</highlight></codeline>
273	<codeline lineno="127"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>this-><ref refid="classldmat_1f291faa073e7bc8dfafc7ae93daa2506" kindref="member" tooltip="Transforms general into pure .">ldform</ref>(A,<ref refid="classldmat_14cce04824539c4a8d062d9a36d6e014e" kindref="member" tooltip="Positive vector .">D</ref>);</highlight></codeline>
274	<codeline lineno="128"><highlight class="normal">}</highlight></codeline>
275	<codeline lineno="129"><highlight class="normal"></highlight></codeline>
276	<codeline lineno="130" refid="classldmat_14fd155f38eb6dd5af4bdf9c98a7999a9" refkind="member"><highlight class="normal"></highlight><highlight class="keywordtype">void</highlight><highlight class="normal"><sp/><ref refid="classldmat_14fd155f38eb6dd5af4bdf9c98a7999a9" kindref="member" tooltip="Inplace symmetric multiplication by a SQUARE transpose of matrix , i.e. .">ldmat::mult_sym_t</ref>(<sp/></highlight><highlight class="keyword">const</highlight><highlight class="normal"><sp/>mat<sp/>&C)<sp/>{</highlight></codeline>
277	<codeline lineno="131"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>mat<sp/>A<sp/>=<sp/><ref refid="classldmat_1f74a64b99fe58a75ebd37bb679e121ea" kindref="member" tooltip="Lower-triangular matrix .">L</ref>*C;</highlight></codeline>
278	<codeline lineno="132"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>this-><ref refid="classldmat_1f291faa073e7bc8dfafc7ae93daa2506" kindref="member" tooltip="Transforms general into pure .">ldform</ref>(A,<ref refid="classldmat_14cce04824539c4a8d062d9a36d6e014e" kindref="member" tooltip="Positive vector .">D</ref>);</highlight></codeline>
279	<codeline lineno="133"><highlight class="normal">}</highlight></codeline>
280	<codeline lineno="134"><highlight class="normal"></highlight></codeline>
281	<codeline lineno="135" refid="classldmat_1e7207748909325bb0f99b43f090a2b7e" refkind="member"><highlight class="normal"></highlight><highlight class="keywordtype">void</highlight><highlight class="normal"><sp/><ref refid="classldmat_1e967b9425007f0cb6cd59b845f9756d8" kindref="member" tooltip="Inplace symmetric multiplication by a SQUARE matrix , i.e. .">ldmat::mult_sym</ref>(<sp/></highlight><highlight class="keyword">const</highlight><highlight class="normal"><sp/>mat<sp/>&C,<sp/><ref refid="classldmat" kindref="compound" tooltip="Matrix stored in LD form, (typically known as UD).">ldmat</ref><sp/>&U)</highlight><highlight class="keyword"><sp/>const<sp/></highlight><highlight class="normal">{</highlight></codeline>
282	<codeline lineno="136"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>mat<sp/>A=<ref refid="classldmat_1f74a64b99fe58a75ebd37bb679e121ea" kindref="member" tooltip="Lower-triangular matrix .">L</ref>*C.T();<sp/></highlight><highlight class="comment">//could<sp/>be<sp/>done<sp/>more<sp/>efficiently<sp/>using<sp/>BLAS</highlight><highlight class="normal"></highlight></codeline>
283	<codeline lineno="137"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>U.<ref refid="classldmat_1f291faa073e7bc8dfafc7ae93daa2506" kindref="member" tooltip="Transforms general into pure .">ldform</ref>(A,<ref refid="classldmat_14cce04824539c4a8d062d9a36d6e014e" kindref="member" tooltip="Positive vector .">D</ref>);</highlight></codeline>
284	<codeline lineno="138"><highlight class="normal">}</highlight></codeline>
285	<codeline lineno="139"><highlight class="normal"></highlight></codeline>
286	<codeline lineno="140" refid="classldmat_1f94dc3a233f3d40fc853d8d4ac3b8eab" refkind="member"><highlight class="normal"></highlight><highlight class="keywordtype">void</highlight><highlight class="normal"><sp/><ref refid="classldmat_14fd155f38eb6dd5af4bdf9c98a7999a9" kindref="member" tooltip="Inplace symmetric multiplication by a SQUARE transpose of matrix , i.e. .">ldmat::mult_sym_t</ref>(<sp/></highlight><highlight class="keyword">const</highlight><highlight class="normal"><sp/>mat<sp/>&C,<sp/><ref refid="classldmat" kindref="compound" tooltip="Matrix stored in LD form, (typically known as UD).">ldmat</ref><sp/>&U)</highlight><highlight class="keyword"><sp/>const<sp/></highlight><highlight class="normal">{</highlight></codeline>
287	<codeline lineno="141"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>mat<sp/>A=<ref refid="classldmat_1f74a64b99fe58a75ebd37bb679e121ea" kindref="member" tooltip="Lower-triangular matrix .">L</ref>*C;</highlight></codeline>
288	<codeline lineno="142"><highlight class="normal"></highlight><highlight class="comment">/*<sp/><sp/><sp/><sp/><sp/><sp/>vec<sp/>nD=zeros(U.rows());</highlight></codeline>
289	<codeline lineno="143"><highlight class="comment"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>nD.replace_mid(0,<sp/>D);<sp/>//I<sp/>case<sp/>that<sp/>D<sp/><<sp/>nD*/</highlight><highlight class="normal"></highlight></codeline>
290	<codeline lineno="144"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>U.<ref refid="classldmat_1f291faa073e7bc8dfafc7ae93daa2506" kindref="member" tooltip="Transforms general into pure .">ldform</ref>(A,<ref refid="classldmat_14cce04824539c4a8d062d9a36d6e014e" kindref="member" tooltip="Positive vector .">D</ref>);</highlight></codeline>
291	<codeline lineno="145"><highlight class="normal">}</highlight></codeline>
292	<codeline lineno="146"><highlight class="normal"></highlight></codeline>
293	<codeline lineno="147"><highlight class="normal"></highlight></codeline>
294	<codeline lineno="148" refid="classldmat_12b42750ba4962d439aa52a77ae12949b" refkind="member"><highlight class="normal"></highlight><highlight class="keywordtype">double</highlight><highlight class="normal"><sp/><ref refid="classldmat_12b42750ba4962d439aa52a77ae12949b" kindref="member" tooltip="Logarithm of a determinant.">ldmat::logdet</ref>()</highlight><highlight class="keyword"><sp/>const<sp/></highlight><highlight class="normal">{</highlight></codeline>
295	<codeline lineno="149"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight><highlight class="keywordtype">double</highlight><highlight class="normal"><sp/>ldet<sp/>=<sp/>0.0;</highlight></codeline>
296	<codeline lineno="150"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight><highlight class="keywordtype">int</highlight><highlight class="normal"><sp/>i;</highlight></codeline>
297	<codeline lineno="151"><highlight class="normal"></highlight><highlight class="comment">//<sp/>sum<sp/>logarithms<sp/>of<sp/>diagobal<sp/>elements</highlight><highlight class="normal"></highlight></codeline>
298	<codeline lineno="152"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight><highlight class="keywordflow">for</highlight><highlight class="normal"><sp/>(<sp/>i=0;<sp/>i<<ref refid="classldmat_14cce04824539c4a8d062d9a36d6e014e" kindref="member" tooltip="Positive vector .">D</ref>.length();<sp/>i++<sp/>){ldet+=log(<sp/><ref refid="classldmat_14cce04824539c4a8d062d9a36d6e014e" kindref="member" tooltip="Positive vector .">D</ref>(<sp/>i<sp/>)<sp/>);};</highlight></codeline>
299	<codeline lineno="153"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight><highlight class="keywordflow">return</highlight><highlight class="normal"><sp/>ldet;</highlight></codeline>
300	<codeline lineno="154"><highlight class="normal">}</highlight></codeline>
301	<codeline lineno="155"><highlight class="normal"></highlight></codeline>
302	<codeline lineno="156" refid="classldmat_1d64f331b781903e913cb2ee836886f3f" refkind="member"><highlight class="normal"></highlight><highlight class="keywordtype">double</highlight><highlight class="normal"><sp/><ref refid="classldmat_1d64f331b781903e913cb2ee836886f3f" kindref="member" tooltip="Evaluates quadratic form ;.">ldmat::qform</ref>(<sp/></highlight><highlight class="keyword">const</highlight><highlight class="normal"><sp/>vec<sp/>&v<sp/>)</highlight><highlight class="keyword"><sp/>const<sp/></highlight><highlight class="normal">{</highlight></codeline>
303	<codeline lineno="157"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight><highlight class="keywordtype">double</highlight><highlight class="normal"><sp/>x<sp/>=<sp/>0.0,<sp/>sum;</highlight></codeline>
304	<codeline lineno="158"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight><highlight class="keywordtype">int</highlight><highlight class="normal"><sp/>i,j;</highlight></codeline>
305	<codeline lineno="159"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>vec<sp/>s(v.length());</highlight></codeline>
306	<codeline lineno="160"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>vec<sp/>S=<ref refid="classldmat_1f74a64b99fe58a75ebd37bb679e121ea" kindref="member" tooltip="Lower-triangular matrix .">L</ref>*v;</highlight></codeline>
307	<codeline lineno="161"><highlight class="normal"></highlight></codeline>
308	<codeline lineno="162"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight><highlight class="keywordflow">for</highlight><highlight class="normal"><sp/>(<sp/>i=0;<sp/>i<<ref refid="classldmat_14cce04824539c4a8d062d9a36d6e014e" kindref="member" tooltip="Positive vector .">D</ref>.length();<sp/>i++<sp/>)<sp/>{<sp/></highlight><highlight class="comment">//rows<sp/>of<sp/>L</highlight><highlight class="normal"></highlight></codeline>
309	<codeline lineno="163"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>sum<sp/>=<sp/>0.0;</highlight></codeline>
310	<codeline lineno="164"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight><highlight class="keywordflow">for</highlight><highlight class="normal"><sp/>(<sp/>j=0;<sp/>j<=i;<sp/>j++<sp/>){sum+=<ref refid="classldmat_1f74a64b99fe58a75ebd37bb679e121ea" kindref="member" tooltip="Lower-triangular matrix .">L</ref>(<sp/>i,j<sp/>)*v(<sp/>j<sp/>);}</highlight></codeline>
311	<codeline lineno="165"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>x<sp/>+=<ref refid="classldmat_14cce04824539c4a8d062d9a36d6e014e" kindref="member" tooltip="Positive vector .">D</ref>(<sp/>i<sp/>)sumsum;</highlight></codeline>
312	<codeline lineno="166"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>s(i)=sum;</highlight></codeline>
313	<codeline lineno="167"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>};</highlight></codeline>
314	<codeline lineno="168"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight><highlight class="keywordflow">return</highlight><highlight class="normal"><sp/>x;</highlight></codeline>
315	<codeline lineno="169"><highlight class="normal">}</highlight></codeline>
316	<codeline lineno="170"><highlight class="normal"></highlight></codeline>
317	<codeline lineno="171" refid="classldmat_1d876c5f83e02b3e809b35c9de5068f14" refkind="member"><highlight class="normal"></highlight><highlight class="keywordtype">double</highlight><highlight class="normal"><sp/><ref refid="classldmat_1d876c5f83e02b3e809b35c9de5068f14" kindref="member" tooltip="Evaluates quadratic form ;.">ldmat::invqform</ref>(<sp/></highlight><highlight class="keyword">const</highlight><highlight class="normal"><sp/>vec<sp/>&v<sp/>)</highlight><highlight class="keyword"><sp/>const<sp/></highlight><highlight class="normal">{</highlight></codeline>
318	<codeline lineno="172"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight><highlight class="keywordtype">double</highlight><highlight class="normal"><sp/>x<sp/>=<sp/>0.0;</highlight></codeline>
319	<codeline lineno="173"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight><highlight class="keywordtype">int</highlight><highlight class="normal"><sp/>i;</highlight></codeline>
320	<codeline lineno="174"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>vec<sp/>pom(v.length());</highlight></codeline>
321	<codeline lineno="175"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight></codeline>
322	<codeline lineno="176"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>backward_substitution(<ref refid="classldmat_1f74a64b99fe58a75ebd37bb679e121ea" kindref="member" tooltip="Lower-triangular matrix .">L</ref>.T(),v,pom);</highlight></codeline>
323	<codeline lineno="177"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight></codeline>
324	<codeline lineno="178"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight><highlight class="keywordflow">for</highlight><highlight class="normal"><sp/>(<sp/>i=0;<sp/>i<<ref refid="classldmat_14cce04824539c4a8d062d9a36d6e014e" kindref="member" tooltip="Positive vector .">D</ref>.length();<sp/>i++<sp/>)<sp/>{<sp/></highlight><highlight class="comment">//rows<sp/>of<sp/>L</highlight><highlight class="normal"></highlight></codeline>
325	<codeline lineno="179"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>x<sp/>+=pom(i)*pom(i)/<ref refid="classldmat_14cce04824539c4a8d062d9a36d6e014e" kindref="member" tooltip="Positive vector .">D</ref>(i);</highlight></codeline>
326	<codeline lineno="180"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>};</highlight></codeline>
327	<codeline lineno="181"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight><highlight class="keywordflow">return</highlight><highlight class="normal"><sp/>x;</highlight></codeline>
328	<codeline lineno="182"><highlight class="normal">}</highlight></codeline>
329	<codeline lineno="183"><highlight class="normal"></highlight></codeline>
330	<codeline lineno="184" refid="classldmat_1875b7e6dcf73ae7001329099019fdb1d" refkind="member"><highlight class="normal"><ref refid="classldmat" kindref="compound" tooltip="Matrix stored in LD form, (typically known as UD).">ldmat</ref>&<sp/><ref refid="classldmat_1875b7e6dcf73ae7001329099019fdb1d" kindref="member" tooltip="multiply by a scalar">ldmat::operator *= </ref>(<sp/></highlight><highlight class="keywordtype">double</highlight><highlight class="normal"><sp/>x<sp/>)<sp/>{</highlight></codeline>
331	<codeline lineno="185"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><ref refid="classldmat_14cce04824539c4a8d062d9a36d6e014e" kindref="member" tooltip="Positive vector .">D</ref>*=x;</highlight></codeline>
332	<codeline lineno="186"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight><highlight class="keywordflow">return</highlight><highlight class="normal"><sp/>*</highlight><highlight class="keyword">this</highlight><highlight class="normal">;</highlight></codeline>
333	<codeline lineno="187"><highlight class="normal">}</highlight></codeline>
334	<codeline lineno="188"><highlight class="normal"></highlight></codeline>
335	<codeline lineno="189" refid="classldmat_1fc380626ced6f9244fb58c5f0231174d" refkind="member"><highlight class="normal">vec<sp/><ref refid="classldmat_1fc380626ced6f9244fb58c5f0231174d" kindref="member" tooltip="Multiplies square root of by vector .">ldmat::sqrt_mult</ref>(<sp/></highlight><highlight class="keyword">const</highlight><highlight class="normal"><sp/>vec<sp/>&x<sp/>)</highlight><highlight class="keyword"><sp/>const<sp/></highlight><highlight class="normal">{</highlight></codeline>
336	<codeline lineno="190"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight><highlight class="keywordtype">int</highlight><highlight class="normal"><sp/>i,j;</highlight></codeline>
337	<codeline lineno="191"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>vec<sp/>res(<sp/><ref refid="classsqmat_10abed904bdc0882373ba9adba919689d" kindref="member" tooltip="dimension of the square matrix">dim</ref><sp/>);</highlight></codeline>
338	<codeline lineno="192"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight><highlight class="comment">//double<sp/>sum;</highlight><highlight class="normal"></highlight></codeline>
339	<codeline lineno="193"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight><highlight class="keywordflow">for</highlight><highlight class="normal"><sp/>(<sp/>i=0;i<<ref refid="classsqmat_10abed904bdc0882373ba9adba919689d" kindref="member" tooltip="dimension of the square matrix">dim</ref>;i++<sp/>)<sp/>{</highlight><highlight class="comment">//for<sp/>each<sp/>element<sp/>of<sp/>result</highlight><highlight class="normal"></highlight></codeline>
340	<codeline lineno="194"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>res(<sp/>i<sp/>)<sp/>=<sp/>0.0;</highlight></codeline>
341	<codeline lineno="195"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight><highlight class="keywordflow">for</highlight><highlight class="normal"><sp/>(<sp/>j=i;j<dim;j++<sp/>)<sp/>{</highlight><highlight class="comment">//sum<sp/>D(j)L(:,i).x</highlight><highlight class="normal"></highlight></codeline>
342	<codeline lineno="196"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>res(<sp/>i<sp/>)<sp/>+=<sp/>sqrt(<sp/><ref refid="classldmat_14cce04824539c4a8d062d9a36d6e014e" kindref="member" tooltip="Positive vector .">D</ref>(<sp/>j<sp/>)<sp/>)<ref refid="classldmat_1f74a64b99fe58a75ebd37bb679e121ea" kindref="member" tooltip="Lower-triangular matrix .">L</ref>(<sp/>j,i<sp/>)x(<sp/>j<sp/>);</highlight></codeline>
343	<codeline lineno="197"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>}</highlight></codeline>
344	<codeline lineno="198"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>}</highlight></codeline>
345	<codeline lineno="199"><highlight class="normal"></highlight><highlight class="comment">//<sp/><sp/><sp/><sp/><sp/><sp/>vec<sp/>res2<sp/>=<sp/>L.transpose()diag(<sp/>sqrt(<sp/>D<sp/>)<sp/>)x;</highlight><highlight class="normal"></highlight></codeline>
346	<codeline lineno="200"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight><highlight class="keywordflow">return</highlight><highlight class="normal"><sp/>res;</highlight></codeline>
347	<codeline lineno="201"><highlight class="normal">}</highlight></codeline>
348	<codeline lineno="202"><highlight class="normal"></highlight></codeline>
349	<codeline lineno="203" refid="classldmat_1f291faa073e7bc8dfafc7ae93daa2506" refkind="member"><highlight class="normal"></highlight><highlight class="keywordtype">void</highlight><highlight class="normal"><sp/><ref refid="classldmat_1f291faa073e7bc8dfafc7ae93daa2506" kindref="member" tooltip="Transforms general into pure .">ldmat::ldform</ref>(</highlight><highlight class="keyword">const</highlight><highlight class="normal"><sp/>mat<sp/>&A,</highlight><highlight class="keyword">const</highlight><highlight class="normal"><sp/>vec<sp/>&D0<sp/>)</highlight></codeline>
350	<codeline lineno="204"><highlight class="normal">{</highlight></codeline>
351	<codeline lineno="205"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight><highlight class="keywordtype">int</highlight><highlight class="normal"><sp/>m<sp/>=<sp/>A.rows();</highlight></codeline>
352	<codeline lineno="206"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight><highlight class="keywordtype">int</highlight><highlight class="normal"><sp/>n<sp/>=<sp/>A.cols();</highlight></codeline>
353	<codeline lineno="207"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight><highlight class="keywordtype">int</highlight><highlight class="normal"><sp/>mn<sp/>=<sp/>(m<n)<sp/>?<sp/>m<sp/>:n<sp/>;</highlight></codeline>
354	<codeline lineno="208"><highlight class="normal"></highlight></codeline>
355	<codeline lineno="209"><highlight class="normal"></highlight><highlight class="comment">//<sp/><sp/><sp/><sp/><sp/><sp/>it_assert_debug(<sp/>A.cols()==dim,"ldmat::ldform<sp/>A<sp/>is<sp/>not<sp/>compatible"<sp/>);</highlight><highlight class="normal"></highlight></codeline>
356	<codeline lineno="210"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>it_assert_debug(<sp/>D0.length()==A.rows(),</highlight><highlight class="stringliteral">"ldmat::ldform<sp/>Vector<sp/>D<sp/>must<sp/>have<sp/>the<sp/>length<sp/>as<sp/>row<sp/>count<sp/>of<sp/>A"</highlight><highlight class="normal"><sp/>);</highlight></codeline>
357	<codeline lineno="211"><highlight class="normal"></highlight></codeline>
358	<codeline lineno="212"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><ref refid="classldmat_1f74a64b99fe58a75ebd37bb679e121ea" kindref="member" tooltip="Lower-triangular matrix .">L</ref>=concat_vertical(<sp/>zeros(<sp/>n,n<sp/>),<sp/>diag(<sp/>sqrt(<sp/>D0<sp/>)<sp/>)*A<sp/>);</highlight></codeline>
359	<codeline lineno="213"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><ref refid="classldmat_14cce04824539c4a8d062d9a36d6e014e" kindref="member" tooltip="Positive vector .">D</ref>=zeros(<sp/>n+m<sp/>);</highlight></codeline>
360	<codeline lineno="214"><highlight class="normal"></highlight></codeline>
361	<codeline lineno="215"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight><highlight class="comment">//unnecessary<sp/>big<sp/>L<sp/>and<sp/>D<sp/>will<sp/>be<sp/>made<sp/>smaller<sp/>at<sp/>the<sp/>end<sp/>of<sp/>file<sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight><highlight class="normal"></highlight></codeline>
362	<codeline lineno="216"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>vec<sp/>w=zeros(<sp/>n+m<sp/>);</highlight></codeline>
363	<codeline lineno="217"><highlight class="normal"><sp/><sp/><sp/></highlight></codeline>
364	<codeline lineno="218"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight><highlight class="keywordtype">double</highlight><highlight class="normal"><sp/>sum,<sp/>beta,<sp/>pom;</highlight></codeline>
365	<codeline lineno="219"><highlight class="normal"></highlight></codeline>
366	<codeline lineno="220"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight><highlight class="keywordtype">int</highlight><highlight class="normal"><sp/>cc=0;</highlight></codeline>
367	<codeline lineno="221"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight><highlight class="keywordtype">int</highlight><highlight class="normal"><sp/>i=n;<sp/></highlight><highlight class="comment">//<sp/>indexovani<sp/>o<sp/>1<sp/>niz,<sp/>nez<sp/>v<sp/>matlabu</highlight><highlight class="normal"></highlight></codeline>
368	<codeline lineno="222"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight><highlight class="keywordtype">int</highlight><highlight class="normal"><sp/>ii,j,jj;</highlight></codeline>
369	<codeline lineno="223"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight><highlight class="keywordflow">while</highlight><highlight class="normal"><sp/>(<sp/>(i>n-mn-cc)<sp/>&&<sp/>(i>0)<sp/>)<sp/></highlight></codeline>
370	<codeline lineno="224"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>{</highlight></codeline>
371	<codeline lineno="225"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>i--;</highlight></codeline>
372	<codeline lineno="226"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>sum<sp/>=<sp/>0.0;</highlight></codeline>
373	<codeline lineno="227"><highlight class="normal"></highlight></codeline>
374	<codeline lineno="228"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight><highlight class="keywordtype">int</highlight><highlight class="normal"><sp/>last_v<sp/>=<sp/>m+i-n+cc+1;</highlight></codeline>
375	<codeline lineno="229"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight></codeline>
376	<codeline lineno="230"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>vec<sp/>v<sp/>=<sp/>zeros(<sp/>last_v<sp/>+<sp/>1<sp/>);<sp/></highlight><highlight class="comment">//prepare<sp/>v</highlight><highlight class="normal"></highlight></codeline>
377	<codeline lineno="231"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight><highlight class="keywordflow">for</highlight><highlight class="normal"><sp/>(<sp/>ii=n-cc-1;ii<m+i+1;ii++<sp/>)<sp/></highlight></codeline>
378	<codeline lineno="232"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>{</highlight></codeline>
379	<codeline lineno="233"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>sum+=<sp/><ref refid="classldmat_1f74a64b99fe58a75ebd37bb679e121ea" kindref="member" tooltip="Lower-triangular matrix .">L</ref>(<sp/>ii,i<sp/>)*<ref refid="classldmat_1f74a64b99fe58a75ebd37bb679e121ea" kindref="member" tooltip="Lower-triangular matrix .">L</ref>(<sp/>ii,i<sp/>);</highlight></codeline>
380	<codeline lineno="234"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>v(<sp/>ii-n+cc+1<sp/>)=<ref refid="classldmat_1f74a64b99fe58a75ebd37bb679e121ea" kindref="member" tooltip="Lower-triangular matrix .">L</ref>(<sp/>ii,i<sp/>);<sp/></highlight><highlight class="comment">//assign<sp/>v</highlight><highlight class="normal"></highlight></codeline>
381	<codeline lineno="235"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>}</highlight></codeline>
382	<codeline lineno="236"><highlight class="normal"></highlight></codeline>
383	<codeline lineno="237"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight><highlight class="keywordflow">if</highlight><highlight class="normal"><sp/>(<sp/><ref refid="classldmat_1f74a64b99fe58a75ebd37bb679e121ea" kindref="member" tooltip="Lower-triangular matrix .">L</ref>(<sp/>m+i,i<sp/>)==0<sp/>)<sp/></highlight></codeline>
384	<codeline lineno="238"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>beta<sp/>=<sp/>sqrt(<sp/>sum<sp/>);<sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight></codeline>
385	<codeline lineno="239"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight><highlight class="keywordflow">else</highlight><highlight class="normal"></highlight></codeline>
386	<codeline lineno="240"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>beta<sp/>=<sp/><ref refid="classldmat_1f74a64b99fe58a75ebd37bb679e121ea" kindref="member" tooltip="Lower-triangular matrix .">L</ref>(<sp/>m+i,i<sp/>)+sign(<sp/><ref refid="classldmat_1f74a64b99fe58a75ebd37bb679e121ea" kindref="member" tooltip="Lower-triangular matrix .">L</ref>(<sp/>m+i,i<sp/>)<sp/>)*sqrt(<sp/>sum<sp/>);<sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight></codeline>
387	<codeline lineno="241"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/></highlight></codeline>
388	<codeline lineno="242"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight><highlight class="keywordflow">if</highlight><highlight class="normal"><sp/>(<sp/>std::fabs(<sp/>beta<sp/>)<eps<sp/>)</highlight></codeline>
389	<codeline lineno="243"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>{</highlight></codeline>
390	<codeline lineno="244"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>cc++;</highlight></codeline>
391	<codeline lineno="245"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>L.set_row(<sp/>n-cc,<sp/>L.get_row(<sp/>m+i<sp/>)<sp/>);</highlight></codeline>
392	<codeline lineno="246"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>L.set_row(<sp/>m+i,zeros(L.cols())<sp/>);</highlight></codeline>
393	<codeline lineno="247"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><ref refid="classldmat_14cce04824539c4a8d062d9a36d6e014e" kindref="member" tooltip="Positive vector .">D</ref>(<sp/>m+i<sp/>)=0;<sp/><ref refid="classldmat_1f74a64b99fe58a75ebd37bb679e121ea" kindref="member" tooltip="Lower-triangular matrix .">L</ref>(<sp/>m+i,i<sp/>)=1;</highlight></codeline>
394	<codeline lineno="248"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>L.set_submatrix(<sp/>n-cc,m+i-1,i,i,0<sp/>);</highlight></codeline>
395	<codeline lineno="249"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight><highlight class="keywordflow">continue</highlight><highlight class="normal">;</highlight></codeline>
396	<codeline lineno="250"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>}</highlight></codeline>
397	<codeline lineno="251"><highlight class="normal"></highlight></codeline>
398	<codeline lineno="252"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>sum-=v(last_v)*v(last_v);</highlight></codeline>
399	<codeline lineno="253"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>sum/=beta*beta;</highlight></codeline>
400	<codeline lineno="254"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>sum++;</highlight></codeline>
401	<codeline lineno="255"><highlight class="normal"></highlight></codeline>
402	<codeline lineno="256"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>v/=beta;</highlight></codeline>
403	<codeline lineno="257"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>v(last_v)=1;</highlight></codeline>
404	<codeline lineno="258"><highlight class="normal"></highlight></codeline>
405	<codeline lineno="259"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>pom=-2.0/sum;</highlight></codeline>
406	<codeline lineno="260"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight><highlight class="comment">//<sp/>echo<sp/>to<sp/>venca<sp/><sp/><sp/></highlight><highlight class="normal"></highlight></codeline>
407	<codeline lineno="261"><highlight class="normal"></highlight></codeline>
408	<codeline lineno="262"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight><highlight class="keywordflow">for</highlight><highlight class="normal"><sp/>(<sp/>j=i;j>=0;j--<sp/>)<sp/></highlight></codeline>
409	<codeline lineno="263"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>{</highlight></codeline>
410	<codeline lineno="264"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight><highlight class="keywordtype">double</highlight><highlight class="normal"><sp/>w_elem<sp/>=<sp/>0;<sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight></codeline>
411	<codeline lineno="265"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight><highlight class="keywordflow">for</highlight><highlight class="normal"><sp/>(<sp/>ii=n-<sp/><sp/><sp/><sp/><sp/>cc;ii<=m+i+1;ii++<sp/>)<sp/></highlight></codeline>
412	<codeline lineno="266"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>w_elem+=<sp/>v(<sp/>ii-n+cc<sp/>)*<ref refid="classldmat_1f74a64b99fe58a75ebd37bb679e121ea" kindref="member" tooltip="Lower-triangular matrix .">L</ref>(<sp/>ii-1,j<sp/>);<sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight></codeline>
413	<codeline lineno="267"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>w(j)=w_elem*pom;</highlight></codeline>
414	<codeline lineno="268"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>}</highlight></codeline>
415	<codeline lineno="269"><highlight class="normal"></highlight></codeline>
416	<codeline lineno="270"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight><highlight class="keywordflow">for</highlight><highlight class="normal"><sp/>(<sp/>ii=n-cc-1;ii<=m+i;ii++<sp/>)<sp/></highlight></codeline>
417	<codeline lineno="271"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight><highlight class="keywordflow">for</highlight><highlight class="normal"><sp/>(<sp/>jj=0;jj<i;jj++<sp/>)<sp/></highlight></codeline>
418	<codeline lineno="272"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><ref refid="classldmat_1f74a64b99fe58a75ebd37bb679e121ea" kindref="member" tooltip="Lower-triangular matrix .">L</ref>(<sp/>ii,jj<sp/>)+=<sp/>v(<sp/>ii-n+cc+1)*w(<sp/>jj<sp/>);</highlight></codeline>
419	<codeline lineno="273"><highlight class="normal"></highlight></codeline>
420	<codeline lineno="274"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight><highlight class="keywordflow">for</highlight><highlight class="normal"><sp/>(<sp/>ii=n-cc-1;ii<m+i;ii++<sp/>)</highlight></codeline>
421	<codeline lineno="275"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><ref refid="classldmat_1f74a64b99fe58a75ebd37bb679e121ea" kindref="member" tooltip="Lower-triangular matrix .">L</ref>(<sp/>ii,i<sp/>)=<sp/>0;</highlight></codeline>
422	<codeline lineno="276"><highlight class="normal"></highlight></codeline>
423	<codeline lineno="277"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><ref refid="classldmat_1f74a64b99fe58a75ebd37bb679e121ea" kindref="member" tooltip="Lower-triangular matrix .">L</ref>(<sp/>m+i,i<sp/>)+=w(<sp/>i<sp/>);</highlight></codeline>
424	<codeline lineno="278"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><ref refid="classldmat_14cce04824539c4a8d062d9a36d6e014e" kindref="member" tooltip="Positive vector .">D</ref>(<sp/>m+i<sp/>)=<ref refid="classldmat_1f74a64b99fe58a75ebd37bb679e121ea" kindref="member" tooltip="Lower-triangular matrix .">L</ref>(<sp/>m+i,i<sp/>)*<ref refid="classldmat_1f74a64b99fe58a75ebd37bb679e121ea" kindref="member" tooltip="Lower-triangular matrix .">L</ref>(<sp/>m+i,i<sp/>);</highlight></codeline>
425	<codeline lineno="279"><highlight class="normal"></highlight></codeline>
426	<codeline lineno="280"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight><highlight class="keywordflow">for</highlight><highlight class="normal"><sp/>(<sp/>ii=0;ii<=i;ii++<sp/>)<sp/></highlight></codeline>
427	<codeline lineno="281"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><ref refid="classldmat_1f74a64b99fe58a75ebd37bb679e121ea" kindref="member" tooltip="Lower-triangular matrix .">L</ref>(<sp/>m+i,ii<sp/>)/=<ref refid="classldmat_1f74a64b99fe58a75ebd37bb679e121ea" kindref="member" tooltip="Lower-triangular matrix .">L</ref>(<sp/>m+i,i<sp/>);<sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight></codeline>
428	<codeline lineno="282"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>}</highlight></codeline>
429	<codeline lineno="283"><highlight class="normal"></highlight></codeline>
430	<codeline lineno="284"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight><highlight class="keywordflow">if</highlight><highlight class="normal"><sp/>(<sp/>i>=0<sp/>)</highlight></codeline>
431	<codeline lineno="285"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight><highlight class="keywordflow">for</highlight><highlight class="normal"><sp/>(<sp/>ii=0;ii<i;ii++<sp/>)<sp/></highlight></codeline>
432	<codeline lineno="286"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>{</highlight></codeline>
433	<codeline lineno="287"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>jj<sp/>=<sp/><ref refid="classldmat_14cce04824539c4a8d062d9a36d6e014e" kindref="member" tooltip="Positive vector .">D</ref>.length()-1-n+ii;</highlight></codeline>
434	<codeline lineno="288"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><ref refid="classldmat_14cce04824539c4a8d062d9a36d6e014e" kindref="member" tooltip="Positive vector .">D</ref>(jj)<sp/>=<sp/>0;</highlight></codeline>
435	<codeline lineno="289"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>L.set_row(jj,zeros(L.cols()));<sp/></highlight><highlight class="comment">//TODO:<sp/>set_row<sp/>accepts<sp/>Num_T</highlight><highlight class="normal"></highlight></codeline>
436	<codeline lineno="290"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><ref refid="classldmat_1f74a64b99fe58a75ebd37bb679e121ea" kindref="member" tooltip="Lower-triangular matrix .">L</ref>(jj,jj)=1;</highlight></codeline>
437	<codeline lineno="291"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>}</highlight></codeline>
438	<codeline lineno="292"><highlight class="normal"></highlight></codeline>
439	<codeline lineno="293"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>L.del_rows(0,m-1);</highlight></codeline>
440	<codeline lineno="294"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><ref refid="classldmat_14cce04824539c4a8d062d9a36d6e014e" kindref="member" tooltip="Positive vector .">D</ref>.del(0,m-1);</highlight></codeline>
441	<codeline lineno="295"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight></codeline>
442	<codeline lineno="296"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><ref refid="classsqmat_10abed904bdc0882373ba9adba919689d" kindref="member" tooltip="dimension of the square matrix">dim</ref><sp/>=<sp/>L.rows();</highlight></codeline>
443	<codeline lineno="297"><highlight class="normal">}</highlight></codeline>
444	<codeline lineno="298"><highlight class="normal"></highlight></codeline>
445	<codeline lineno="300"><highlight class="normal"></highlight></codeline>
446	<codeline lineno="301" refid="libDC_8h_16715d039e6d5d97005cf9e2522dfa474" refkind="member"><highlight class="normal">mat<sp/>ltuinv(<sp/></highlight><highlight class="keyword">const</highlight><highlight class="normal"><sp/>mat<sp/>&<ref refid="classldmat_1f74a64b99fe58a75ebd37bb679e121ea" kindref="member" tooltip="Lower-triangular matrix .">L</ref><sp/>)<sp/>{</highlight></codeline>
447	<codeline lineno="302"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight><highlight class="keywordtype">int</highlight><highlight class="normal"><sp/><ref refid="classsqmat_10abed904bdc0882373ba9adba919689d" kindref="member" tooltip="dimension of the square matrix">dim</ref><sp/>=<sp/>L.cols();</highlight></codeline>
448	<codeline lineno="303"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>mat<sp/>Il<sp/>=<sp/>eye(<sp/>dim<sp/>);</highlight></codeline>
449	<codeline lineno="304"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight><highlight class="keywordtype">int</highlight><highlight class="normal"><sp/>i,<sp/>j,<sp/>k,<sp/>m;</highlight></codeline>
450	<codeline lineno="305"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight><highlight class="keywordtype">double</highlight><highlight class="normal"><sp/>s;</highlight></codeline>
451	<codeline lineno="306"><highlight class="normal"></highlight></codeline>
452	<codeline lineno="307"><highlight class="normal"></highlight><highlight class="comment">//Fixme<sp/>blind<sp/>transcription<sp/>of<sp/>ltuinv.m</highlight><highlight class="normal"></highlight></codeline>
453	<codeline lineno="308"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight><highlight class="keywordflow">for</highlight><highlight class="normal"><sp/>(<sp/>k<sp/>=<sp/>1;<sp/>k<sp/><<sp/>(<sp/>dim<sp/>);k++<sp/>)<sp/>{</highlight></codeline>
454	<codeline lineno="309"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight><highlight class="keywordflow">for</highlight><highlight class="normal"><sp/>(<sp/>i<sp/>=<sp/>0;<sp/>i<sp/><<sp/>(<sp/>dim<sp/>-<sp/>k<sp/>);i++<sp/>)<sp/>{</highlight></codeline>
455	<codeline lineno="310"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>j<sp/>=<sp/>i<sp/>+<sp/>k;<sp/></highlight><highlight class="comment">//change<sp/>in<sp/>.m<sp/>1+1=2,<sp/>here<sp/>0+0+1=1</highlight><highlight class="normal"></highlight></codeline>
456	<codeline lineno="311"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>s<sp/>=<sp/><ref refid="classldmat_1f74a64b99fe58a75ebd37bb679e121ea" kindref="member" tooltip="Lower-triangular matrix .">L</ref>(<sp/>j,<sp/>i<sp/>);</highlight></codeline>
457	<codeline lineno="312"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight><highlight class="keywordflow">for</highlight><highlight class="normal"><sp/>(<sp/>m<sp/>=<sp/>i<sp/>+<sp/>1;<sp/>m<sp/><<sp/>(<sp/>j<sp/>);<sp/>m++<sp/>)<sp/>{</highlight></codeline>
458	<codeline lineno="313"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>s<sp/>+=<sp/><ref refid="classldmat_1f74a64b99fe58a75ebd37bb679e121ea" kindref="member" tooltip="Lower-triangular matrix .">L</ref>(<sp/>m,<sp/>i<sp/>)<sp/>*<sp/>Il(<sp/>j,<sp/>m<sp/>);</highlight></codeline>
459	<codeline lineno="314"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>}</highlight></codeline>
460	<codeline lineno="315"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>Il(<sp/>j,<sp/>i<sp/>)<sp/>=<sp/>-s;</highlight></codeline>
461	<codeline lineno="316"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>}</highlight></codeline>
462	<codeline lineno="317"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>}</highlight></codeline>
463	<codeline lineno="318"><highlight class="normal"></highlight></codeline>
464	<codeline lineno="319"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight><highlight class="keywordflow">return</highlight><highlight class="normal"><sp/>Il;</highlight></codeline>
465	<codeline lineno="320"><highlight class="normal">}</highlight></codeline>
466	<codeline lineno="321"><highlight class="normal"></highlight></codeline>
467	<codeline lineno="322" refid="libDC_8h_14ed56e73b49db8e7f4a63fa926a8dca4" refkind="member"><highlight class="normal"></highlight><highlight class="keywordtype">void</highlight><highlight class="normal"><sp/>dydr(<sp/></highlight><highlight class="keywordtype">double</highlight><highlight class="normal"><sp/><sp/>r,<sp/></highlight><highlight class="keywordtype">double</highlight><highlight class="normal"><sp/>f,<sp/></highlight><highlight class="keywordtype">double</highlight><highlight class="normal"><sp/>Dr,<sp/></highlight><highlight class="keywordtype">double</highlight><highlight class="normal"><sp/>Df,<sp/></highlight><highlight class="keywordtype">double</highlight><highlight class="normal"><sp/>R,<sp/></highlight><highlight class="keywordtype">int</highlight><highlight class="normal"><sp/>jl,<sp/></highlight><highlight class="keywordtype">int</highlight><highlight class="normal"><sp/>jh,<sp/></highlight><highlight class="keywordtype">double</highlight><highlight class="normal"><sp/>kr,<sp/></highlight><highlight class="keywordtype">int</highlight><highlight class="normal"><sp/>m,<sp/></highlight><highlight class="keywordtype">int</highlight><highlight class="normal"><sp/>mx<sp/>)</highlight></codeline>
468	<codeline lineno="323"><highlight class="normal"></highlight><highlight class="comment">/********************************************************************</highlight></codeline>
469	<codeline lineno="324"><highlight class="comment"></highlight></codeline>
470	<codeline lineno="325"><highlight class="comment"><sp/><sp/><sp/>dydr<sp/>=<sp/>dyadic<sp/>reduction,<sp/>performs<sp/>transformation<sp/>of<sp/>sum<sp/>of</highlight></codeline>
471	<codeline lineno="326"><highlight class="comment"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>2<sp/>dyads<sp/>rDrr'+<sp/>fDff'<sp/>so<sp/>that<sp/>the<sp/>element<sp/>of<sp/>r<sp/>pointed</highlight></codeline>
472	<codeline lineno="327"><highlight class="comment"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>by<sp/>R<sp/>is<sp/>zeroed.<sp/>This<sp/>version<sp/>allows<sp/>Dr<sp/>to<sp/>be<sp/>NEGATIVE.<sp/>Hence<sp/>the<sp/>name<sp/>negdydr<sp/>or<sp/>dydr_withneg.</highlight></codeline>
473	<codeline lineno="328"><highlight class="comment"></highlight></codeline>
474	<codeline lineno="329"><highlight class="comment"><sp/><sp/><sp/>Parameters<sp/>:</highlight></codeline>
475	<codeline lineno="330"><highlight class="comment"><sp/><sp/><sp/><sp/><sp/>r<sp/>...<sp/>pointer<sp/>to<sp/>reduced<sp/>dyad</highlight></codeline>
476	<codeline lineno="331"><highlight class="comment"><sp/><sp/><sp/><sp/><sp/>f<sp/>...<sp/>pointer<sp/>to<sp/>reducing<sp/>dyad</highlight></codeline>
477	<codeline lineno="332"><highlight class="comment"><sp/><sp/><sp/><sp/><sp/>Dr<sp/>..<sp/>pointer<sp/>to<sp/>the<sp/>weight<sp/>of<sp/>reduced<sp/>dyad</highlight></codeline>
478	<codeline lineno="333"><highlight class="comment"><sp/><sp/><sp/><sp/><sp/>Df<sp/>..<sp/>pointer<sp/>to<sp/>the<sp/>weight<sp/>of<sp/>reducing<sp/>dyad</highlight></codeline>
479	<codeline lineno="334"><highlight class="comment"><sp/><sp/><sp/><sp/><sp/>R<sp/>...<sp/>pointer<sp/>to<sp/>the<sp/>element<sp/>of<sp/>r,<sp/>which<sp/>is<sp/>to<sp/>be<sp/>reduced<sp/>to</highlight></codeline>
480	<codeline lineno="335"><highlight class="comment"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>zero;<sp/>the<sp/>corresponding<sp/>element<sp/>of<sp/>f<sp/>is<sp/>assumed<sp/>to<sp/>be<sp/>1.</highlight></codeline>
481	<codeline lineno="336"><highlight class="comment"><sp/><sp/><sp/><sp/><sp/>jl<sp/>..<sp/>lower<sp/>index<sp/>of<sp/>the<sp/>range<sp/>within<sp/>which<sp/>the<sp/>dyads<sp/>are</highlight></codeline>
482	<codeline lineno="337"><highlight class="comment"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>modified</highlight></codeline>
483	<codeline lineno="338"><highlight class="comment"><sp/><sp/><sp/><sp/><sp/>ju<sp/>..<sp/>upper<sp/>index<sp/>of<sp/>the<sp/>range<sp/>within<sp/>which<sp/>the<sp/>dyads<sp/>are</highlight></codeline>
484	<codeline lineno="339"><highlight class="comment"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>modified</highlight></codeline>
485	<codeline lineno="340"><highlight class="comment"><sp/><sp/><sp/><sp/><sp/>kr<sp/>..<sp/>pointer<sp/>to<sp/>the<sp/>coefficient<sp/>used<sp/>in<sp/>the<sp/>transformation<sp/>of<sp/>r</highlight></codeline>
486	<codeline lineno="341"><highlight class="comment"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>rnew<sp/>=<sp/>r<sp/>+<sp/>kr*f</highlight></codeline>
487	<codeline lineno="342"><highlight class="comment"><sp/><sp/><sp/><sp/><sp/>m<sp/><sp/>..<sp/>number<sp/>of<sp/>rows<sp/>of<sp/>modified<sp/>matrix<sp/>(part<sp/>of<sp/>which<sp/>is<sp/>r)</highlight></codeline>
488	<codeline lineno="343"><highlight class="comment"><sp/><sp/>Remark<sp/>:<sp/>Constant<sp/>mzero<sp/>means<sp/>machine<sp/>zero<sp/>and<sp/>should<sp/>be<sp/>modified</highlight></codeline>
489	<codeline lineno="344"><highlight class="comment"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>according<sp/>to<sp/>the<sp/>precision<sp/>of<sp/>particular<sp/>machine</highlight></codeline>
490	<codeline lineno="345"><highlight class="comment"></highlight></codeline>
491	<codeline lineno="346"><highlight class="comment"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>V.<sp/>Peterka<sp/>17-7-89</highlight></codeline>
492	<codeline lineno="347"><highlight class="comment"></highlight></codeline>
493	<codeline lineno="348"><highlight class="comment"><sp/><sp/>Added:</highlight></codeline>
494	<codeline lineno="349"><highlight class="comment"><sp/><sp/><sp/><sp/><sp/>mx<sp/>..<sp/>number<sp/>of<sp/>rows<sp/>of<sp/>modified<sp/>matrix<sp/>(part<sp/>of<sp/>which<sp/>is<sp/>f)<sp/><sp/>-PN</highlight></codeline>
495	<codeline lineno="350"><highlight class="comment"></highlight></codeline>
496	<codeline lineno="351"><highlight class="comment">********************************************************************/</highlight><highlight class="normal"></highlight></codeline>
497	<codeline lineno="352"><highlight class="normal">{</highlight></codeline>
498	<codeline lineno="353"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight><highlight class="keywordtype">int</highlight><highlight class="normal"><sp/>j,<sp/>jm;</highlight></codeline>
499	<codeline lineno="354"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight><highlight class="keywordtype">double</highlight><highlight class="normal"><sp/>kD,<sp/>r0;</highlight></codeline>
500	<codeline lineno="355"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight><highlight class="keywordtype">double</highlight><highlight class="normal"><sp/>mzero<sp/>=<sp/>2.2e-16;</highlight></codeline>
501	<codeline lineno="356"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight><highlight class="keywordtype">double</highlight><highlight class="normal"><sp/>threshold<sp/>=<sp/>1e-4;</highlight></codeline>
502	<codeline lineno="357"><highlight class="normal"></highlight></codeline>
503	<codeline lineno="358"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight><highlight class="keywordflow">if</highlight><highlight class="normal"><sp/>(<sp/>fabs(<sp/>Dr<sp/>)<sp/><<sp/>mzero<sp/>)<sp/>Dr<sp/>=<sp/>0;</highlight></codeline>
504	<codeline lineno="359"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>r0<sp/>=<sp/>*R;</highlight></codeline>
505	<codeline lineno="360"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>*R<sp/>=<sp/>0.0;</highlight></codeline>
506	<codeline lineno="361"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>kD<sp/>=<sp/>*Df;</highlight></codeline>
507	<codeline lineno="362"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>kr<sp/>=<sp/>r0<sp/><sp/>*Dr;</highlight></codeline>
508	<codeline lineno="363"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>Df<sp/>=<sp/>kD<sp/>+<sp/>r0<sp/><sp/>(<sp/>*kr<sp/>);</highlight></codeline>
509	<codeline lineno="364"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight><highlight class="keywordflow">if</highlight><highlight class="normal"><sp/>(<sp/>*Df<sp/>><sp/>mzero<sp/>)<sp/>{</highlight></codeline>
510	<codeline lineno="365"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>kD<sp/>/=<sp/>*Df;</highlight></codeline>
511	<codeline lineno="366"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>kr<sp/>/=<sp/>Df;</highlight></codeline>
512	<codeline lineno="367"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>}<sp/></highlight><highlight class="keywordflow">else</highlight><highlight class="normal"><sp/>{</highlight></codeline>
513	<codeline lineno="368"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>kD<sp/>=<sp/>1.0;</highlight></codeline>
514	<codeline lineno="369"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>*kr<sp/>=<sp/>0.0;</highlight></codeline>
515	<codeline lineno="370"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight><highlight class="keywordflow">if</highlight><highlight class="normal"><sp/>(<sp/>*Df<sp/><<sp/>-threshold<sp/>)<sp/>{</highlight></codeline>
516	<codeline lineno="371"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>it_warning(<sp/></highlight><highlight class="stringliteral">"Problem<sp/>in<sp/>dydr:<sp/>subraction<sp/>of<sp/>dyad<sp/>results<sp/>in<sp/>negative<sp/>definitness.<sp/>Likely<sp/>mistake<sp/>in<sp/>calling<sp/>function."</highlight><highlight class="normal"><sp/>);</highlight></codeline>
517	<codeline lineno="372"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>}</highlight></codeline>
518	<codeline lineno="373"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>*Df<sp/>=<sp/>0.0;</highlight></codeline>
519	<codeline lineno="374"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>}</highlight></codeline>
520	<codeline lineno="375"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>Dr<sp/>=<sp/>kD;</highlight></codeline>
521	<codeline lineno="376"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>jm<sp/>=<sp/>mx<sp/>*<sp/>jl;</highlight></codeline>
522	<codeline lineno="377"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/></highlight><highlight class="keywordflow">for</highlight><highlight class="normal"><sp/>(<sp/>j<sp/>=<sp/>m<sp/><sp/>jl;<sp/>j<sp/><<sp/>mjh;<sp/>j<sp/>+=<sp/>m<sp/>)<sp/>{</highlight></codeline>
523	<codeline lineno="378"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>r[j]<sp/>-=<sp/><sp/>r0<sp/>*<sp/>f[jm];</highlight></codeline>
524	<codeline lineno="379"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>f[jm]<sp/>+=<sp/>kr<sp/><sp/>r[j];</highlight></codeline>
525	<codeline lineno="380"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>jm<sp/>+=<sp/>mx;</highlight></codeline>
526	<codeline lineno="381"><highlight class="normal"><sp/><sp/><sp/><sp/><sp/><sp/><sp/><sp/>}</highlight></codeline>
527	<codeline lineno="382"><highlight class="normal">}</highlight></codeline>
528	</programlisting>
529	<location file="/home/smidl/work/git/mixpp/bdm/math/libDC.cpp"/>
530	</compounddef>
531	</doxygen>

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