Annotation of OpenXM/src/asir-contrib/packages/doc/Matrix.texi, Revision 1.2
1.2 ! okutani 1: @c $OpenXM$
1.1 takayama 2: @node Matrix operations,,, �$B$=$NB>$NH!?t�(B
3: @section Matrix operations
4: �$B%U%!%$%k�(B @file{gr} �$B$,I,MW$G$9�(B.
5: @menu
6: * mat_1::
7: * mat_diag::
8: * mat_trans::
9: * mat_inverse::
10: * mat_solve::
11: * mat_kernel::
12: @end menu
13:
14: @node mat_1,,, Matrix operations
15: @subsection @code{mat_1}
16: @findex mat_1
17: @table @t
18: @item mat_1(@var{N})
19: :: @var{N} �$B<!C10L9TNs$r@8@.$7$^$9�(B.
20: @end table
21: @table @var
22: @item return
23: �$B9TNs�(B
24: @item N
25: �$B@0?t�(B
26: @end table
27: @itemize @bullet
28: @item @code{mat_1}�$B$NNc�(B.
29: @end itemize
30: @example
31: [297] mat_1(1);
32: [ 1 ]
33:
34: [298] mat_1(2);
35: [ 1 0 ]
36: [ 0 1 ]
37:
38: [299] mat_1(3);
39: [ 1 0 0 ]
40: [ 0 1 0 ]
41: [ 0 0 1 ]
42: @end example
43:
44: @node mat_diag,,, Matrix operations
45: @subsection @code{mat_diag}
46: @findex mat_diag
47: @table @t
48: @item mat_diag(@var{L})
49: :: �$B%j%9%H�(B @var{L} �$B$NMWAG$rBP3Q@.J,$H$9$kBP3Q9TNs$r@8@.$7$^$9�(B.
50: @end table
51: @table @var
52: @item return
53: �$B9TNs�(B
54: @item L
55: �$B%j%9%H�(B
56: @end table
57: @itemize @bullet
58: @item @code{mat_diag}�$B$NNc�(B.
59: @end itemize
60: @example
61: [301] mat_diag([1,2,3]);
62: [ 1 0 0 ]
63: [ 0 2 0 ]
64: [ 0 0 3 ]
65:
66: [302] mat_diag([a,b,c]);
67: [ a 0 0 ]
68: [ 0 b 0 ]
69: [ 0 0 c ]
70: @end example
71:
72: @node mat_trans,,, Matrix operations
73: @subsection @code{mat_trans}
74: @findex mat_trans
75: @table @t
76: @item mat_trans(@var{A})
77: :: �$B9TNs�(B @var{A} �$B$NE>CV9TNs$r5a$a$^$9�(B.
78: @end table
79: @table @var
80: @item return
81: �$B9TNs�(B
82: @item A
83: �$B9TNs�(B or �$B%j%9%H�(B
84: @end table
85: @itemize @bullet
86: @item @code{mat_trans}�$B$NNc�(B.
87: @end itemize
88: @example
89: [303] mat_trans([[a,b],[c,d]]);
90: [ a c ]
91: [ b d ]
92:
93: [304] mat_trans([[1,2,3],[4,5,6],[7,8,9]]);
94: [ 1 4 7 ]
95: [ 2 5 8 ]
96: [ 3 6 9 ]
97: @end example
98:
99: @node mat_inverse,,, Matrix operations
100: @subsection @code{mat_inverse}
101: @findex mat_inverse
102: @table @t
103: @item mat_inverse(@var{A})
104: :: �$B9TNs�(B @var{A} �$B$N5U9TNs$r5a$a$^$9�(B.
105: @end table
106: @table @var
107: @item return
108: �$B9TNs�(B
109: @item A
110: �$B9TNs�(B or �$B%j%9%H�(B
111: @end table
112: @itemize @bullet
113: @item �$B9TNs�(B @var{A} �$B$N@.J,$OM-M}?t�(B or �$BB?9`<0�(B.
114: @item @code{mat_inverse}�$B$NNc�(B.
115: @end itemize
116: @example
117: [309] mat_inverse([[1,1],[1,2]]);
118: [ 2 -1 ]
119: [ -1 1 ]
120:
121: [310] mat_inverse([[a,b],[c,d]]);
122: [ (d)/(d*a-c*b) (-b)/(d*a-c*b) ]
123: [ (-c)/(d*a-c*b) (a)/(d*a-c*b) ]
124: @end example
125:
126: @node mat_solve,,, Matrix operations
127: @subsection @code{mat_solve}
128: @findex mat_solve
129: @table @t
130: @item mat_solve(@var{A},@var{X},@var{Y})
131: :: @code{mat_solve}�$B$OJ}Dx<0�(B A*X=Y �$B$N2r$r5a$a$^$9�(B.
132: @end table
133: @table @var
134: @item return
135: �$B%j%9%H�(B
136: @item A
137: �$B9TNs�(B or �$B%j%9%H�(B
138: @item X
139: �$B%Y%/%H%k�(B or �$B%j%9%H�(B
140: @item Y
141: �$B%Y%/%H%k�(B or �$B%j%9%H�(B
142: @end table
143: @itemize @bullet
144: @item �$B9TNs�(B @var{A} �$B$N@.J,$OM-M}?t�(B or �$BB?9`<0�(B.
145: @item @code{mat_solve}�$B$NNc�(B.
146: @end itemize
147: @example
148: [376] mat_solve([[1,-1],[2,3]],[x,y],[1,1]);
149: [[x,4/5],[y,-1/5]]
150:
151: [377] mat_solve([[a,b],[c,d]],[x,y],[1,1]);
152: [[x,(-b+d)/(d*a-c*b)],[y,(a-c)/(d*a-c*b)]]
153: @end example
154:
155: @node mat_kernel,,, Matrix operations
156: @subsection @code{mat_kernel}
157: @findex mat_kernel
158: @table @t
159: @item mat_kernel(@var{A})
160: :: @code{mat_kernel}�$B$O9TNs�(B A �$B$N�(B kernel �$B$N4pDl$r5a$a$^$9�(B.
161: @end table
162: @table @var
163: @item return
164: �$B%j%9%H�(B
165: @item A
166: �$B9TNs�(B or �$B%j%9%H�(B
167: @end table
168: @itemize @bullet
169: @item �$B9TNs�(B @var{A} �$B$N@.J,$OM-M}?t�(B or �$BB?9`<0�(B.
170: @item @code{mat_kernel}�$B$NNc�(B.
171: @end itemize
172: @example
173: [383] mat_kernel([[1,2,3,4],[1,0,1,0]]);
174: [2,[[1,0,-1,1/2],[0,1,0,-1/2]]]
175:
176: [384] mat_kernel([[1,2,3,4],[1,0,1,0],[0,0,0,1]]);
177: [1,[[1,1,-1,0]]]
178: @end example
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