1 /* Copyright (C) 2005 The Scalable Software Infrastructure Project. All rights reserved.
2 
3    Redistribution and use in source and binary forms, with or without
4    modification, are permitted provided that the following conditions are met:
5    1. Redistributions of source code must retain the above copyright
6       notice, this list of conditions and the following disclaimer.
7    2. Redistributions in binary form must reproduce the above copyright
8       notice, this list of conditions and the following disclaimer in the
9       documentation and/or other materials provided with the distribution.
10    3. Neither the name of the project nor the names of its contributors
11       may be used to endorse or promote products derived from this software
12       without specific prior written permission.
13 
14    THIS SOFTWARE IS PROVIDED BY THE SCALABLE SOFTWARE INFRASTRUCTURE PROJECT
15    ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
16    TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
17    PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE SCALABLE SOFTWARE INFRASTRUCTURE
18    PROJECT BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY,
19    OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
20    SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
21    INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
22    CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
23    ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
24    POSSIBILITY OF SUCH DAMAGE.
25 */
26 
27 
28 #ifndef __LIS_MATVEC_H__
29 #define __LIS_MATVEC_H__
30 
31 #define LIS_MATVEC_SENDRECV \
32 		if( (A->np+A->pad)>(X->np+X->pad) ) \
33 		{ \
34 			X->value = (LIS_SCALAR *)lis_realloc(X->value,(A->np+A->pad)*sizeof(LIS_SCALAR)); \
35 			if( X->value==NULL ) \
36 			{ \
37 				LIS_SETERR_MEM((A->np+A->pad)*sizeof(LIS_SCALAR)); \
38 				return LIS_ERR_OUT_OF_MEMORY; \
39 			} \
40 			X->np  = A->np; \
41 			X->pad = A->pad; \
42 			x = X->value; \
43 		} \
44 		lis_send_recv(A->commtable,x)
45 
46 #define LIS_MATVEC_REALLOC \
47 		if( (A->np+A->pad)>(X->np+X->pad) ) \
48 		{ \
49 			X->value = (LIS_SCALAR *)lis_realloc(X->value,(A->np+A->pad)*sizeof(LIS_SCALAR)); \
50 			if( X->value==NULL ) \
51 			{ \
52 				LIS_SETERR_MEM((A->np+A->pad)*sizeof(LIS_SCALAR)); \
53 				return LIS_ERR_OUT_OF_MEMORY; \
54 			} \
55 			X->np  = A->np; \
56 			X->pad = A->pad; \
57 			x = X->value; \
58 		}
59 
60 #define LIS_MATVEC_REDUCE0 \
61 		if( (A->np+A->pad)>(Y->np+Y->pad) ) \
62 		{ \
63 			Y->value = (LIS_SCALAR *)lis_realloc(Y->value,(A->np+A->pad)*sizeof(LIS_SCALAR)); \
64 			if( Y->value==NULL ) \
65 			{ \
66 				LIS_SETERR_MEM((A->np+A->pad)*sizeof(LIS_SCALAR)); \
67 				return LIS_ERR_OUT_OF_MEMORY; \
68 			} \
69 			Y->np  = A->np; \
70 			Y->pad = A->pad; \
71 			y      = Y->value; \
72 		}
73 
74 #define LIS_MATVEC_REDUCE lis_reduce(A->commtable,y)
75 
76 typedef void (*LIS_MATVEC_XXX)(LIS_MATRIX A, LIS_SCALAR x[], LIS_SCALAR y[]);
77 typedef void (*LIS_MATVEC_XXXP)(LIS_MATRIX A, LIS_VECTOR X, LIS_VECTOR Y);
78 typedef LIS_INT (*LIS_MATVEC_FUNC)(LIS_MATRIX A, LIS_VECTOR X, LIS_VECTOR Y);
79 
80 #ifdef __cplusplus
81 extern "C"
82 {
83 #endif
84 	extern LIS_MATVEC_FUNC LIS_MATVEC;
85 	extern LIS_MATVEC_FUNC LIS_MATVECH;
86 
87 /*******************/
88 /* CSR             */
89 /*******************/
90 
91 	extern void lis_matvec_csr(LIS_MATRIX A, LIS_SCALAR x[], LIS_SCALAR y[]);
92 	extern void lis_matvech_csr(LIS_MATRIX A, LIS_SCALAR x[], LIS_SCALAR y[]);
93 	extern void lis_matvec_csr_mp(LIS_MATRIX A, LIS_VECTOR X, LIS_VECTOR Y);
94 	extern void lis_matvec_csr_mp2(LIS_MATRIX A, LIS_VECTOR X, LIS_VECTOR Y);
95 	extern void lis_matvech_csr_mp(LIS_MATRIX A, LIS_VECTOR X, LIS_VECTOR Y);
96 	extern void lis_matvech_csr_mp2(LIS_MATRIX A, LIS_VECTOR X, LIS_VECTOR Y);
97 
98 /*******************/
99 /* CSC             */
100 /*******************/
101 
102 	extern void lis_matvec_csc(LIS_MATRIX A, LIS_SCALAR x[], LIS_SCALAR y[]);
103 	extern void lis_matvech_csc(LIS_MATRIX A, LIS_SCALAR x[], LIS_SCALAR y[]);
104 	extern void lis_matvec_csc_mp(LIS_MATRIX A, LIS_VECTOR X, LIS_VECTOR Y);
105 	extern void lis_matvec_csc_mp2(LIS_MATRIX A, LIS_VECTOR X, LIS_VECTOR Y);
106 	extern void lis_matvech_csc_mp(LIS_MATRIX A, LIS_VECTOR X, LIS_VECTOR Y);
107 	extern void lis_matvech_csc_mp2(LIS_MATRIX A, LIS_VECTOR X, LIS_VECTOR Y);
108 
109 /*******************/
110 /* MSR             */
111 /*******************/
112 
113 	extern void lis_matvec_msr(LIS_MATRIX A, LIS_SCALAR x[], LIS_SCALAR y[]);
114 	extern void lis_matvech_msr(LIS_MATRIX A, LIS_SCALAR x[], LIS_SCALAR y[]);
115 
116 /*******************/
117 /* ELL             */
118 /*******************/
119 
120 	extern void lis_matvec_ell(LIS_MATRIX A, LIS_SCALAR x[], LIS_SCALAR y[]);
121 	extern void lis_matvech_ell(LIS_MATRIX A, LIS_SCALAR x[], LIS_SCALAR y[]);
122 
123 /*******************/
124 /* DIA             */
125 /*******************/
126 
127 	extern void lis_matvec_dia(LIS_MATRIX A, LIS_SCALAR x[], LIS_SCALAR y[]);
128 	extern void lis_matvech_dia(LIS_MATRIX A, LIS_SCALAR x[], LIS_SCALAR y[]);
129 
130 /*******************/
131 /* JAD             */
132 /*******************/
133 
134 	extern void lis_matvec_jad(LIS_MATRIX A, LIS_SCALAR x[], LIS_SCALAR y[]);
135        	extern void lis_matvec_jad_u7_1(LIS_MATRIX A, LIS_SCALAR x[], LIS_SCALAR y[]);
136 	extern void lis_matvech_jad(LIS_MATRIX A, LIS_SCALAR x[], LIS_SCALAR y[]);
137 
138 /*******************/
139 /* DNS             */
140 /*******************/
141 
142 	extern void lis_matvec_dns(LIS_MATRIX A, LIS_SCALAR x[], LIS_SCALAR y[]);
143 	extern void lis_matvech_dns(LIS_MATRIX A, LIS_SCALAR x[], LIS_SCALAR y[]);
144 
145 /*******************/
146 /* COO             */
147 /*******************/
148 
149 	extern void lis_matvec_coo(LIS_MATRIX A, LIS_SCALAR x[], LIS_SCALAR y[]);
150 	extern void lis_matvech_coo(LIS_MATRIX A, LIS_SCALAR x[], LIS_SCALAR y[]);
151 
152 /*******************/
153 /* VBR             */
154 /*******************/
155 
156 	extern void lis_matvec_vbr(LIS_MATRIX A, LIS_SCALAR x[], LIS_SCALAR y[]);
157 	extern void lis_matvech_vbr(LIS_MATRIX A, LIS_SCALAR x[], LIS_SCALAR y[]);
158 
159 /*******************/
160 /* BSR             */
161 /*******************/
162 
163 	extern LIS_MATVEC_XXX lis_matvec_bsr_xxx[4][4];
164 	extern void lis_matvec_bsr(LIS_MATRIX A, LIS_SCALAR x[], LIS_SCALAR y[]);
165 	extern void lis_matvec_bsr_1x1(LIS_MATRIX A, LIS_SCALAR x[], LIS_SCALAR y[]);
166 	extern void lis_matvec_bsr_1x2(LIS_MATRIX A, LIS_SCALAR x[], LIS_SCALAR y[]);
167 	extern void lis_matvec_bsr_1x3(LIS_MATRIX A, LIS_SCALAR x[], LIS_SCALAR y[]);
168 	extern void lis_matvec_bsr_1x4(LIS_MATRIX A, LIS_SCALAR x[], LIS_SCALAR y[]);
169 	extern void lis_matvec_bsr_2x1(LIS_MATRIX A, LIS_SCALAR x[], LIS_SCALAR y[]);
170 	extern void lis_matvec_bsr_2x2(LIS_MATRIX A, LIS_SCALAR x[], LIS_SCALAR y[]);
171 	extern void lis_matvec_bsr_2x3(LIS_MATRIX A, LIS_SCALAR x[], LIS_SCALAR y[]);
172 	extern void lis_matvec_bsr_2x4(LIS_MATRIX A, LIS_SCALAR x[], LIS_SCALAR y[]);
173 	extern void lis_matvec_bsr_3x1(LIS_MATRIX A, LIS_SCALAR x[], LIS_SCALAR y[]);
174 	extern void lis_matvec_bsr_3x2(LIS_MATRIX A, LIS_SCALAR x[], LIS_SCALAR y[]);
175 	extern void lis_matvec_bsr_3x3(LIS_MATRIX A, LIS_SCALAR x[], LIS_SCALAR y[]);
176 	extern void lis_matvec_bsr_3x4(LIS_MATRIX A, LIS_SCALAR x[], LIS_SCALAR y[]);
177 	extern void lis_matvec_bsr_4x1(LIS_MATRIX A, LIS_SCALAR x[], LIS_SCALAR y[]);
178 	extern void lis_matvec_bsr_4x2(LIS_MATRIX A, LIS_SCALAR x[], LIS_SCALAR y[]);
179 	extern void lis_matvec_bsr_4x3(LIS_MATRIX A, LIS_SCALAR x[], LIS_SCALAR y[]);
180 	extern void lis_matvec_bsr_4x4(LIS_MATRIX A, LIS_SCALAR x[], LIS_SCALAR y[]);
181 	extern void lis_matvech_bsr(LIS_MATRIX A, LIS_SCALAR x[], LIS_SCALAR y[]);
182 
183 /*******************/
184 /* BSC             */
185 /*******************/
186 
187 	extern LIS_MATVEC_XXX lis_matvec_bsc_xxx[4][4];
188 	extern void lis_matvec_bsc(LIS_MATRIX A, LIS_SCALAR x[], LIS_SCALAR y[]);
189 	extern void lis_matvec_bsc_1x1(LIS_MATRIX A, LIS_SCALAR x[], LIS_SCALAR y[]);
190 	extern void lis_matvec_bsc_1x2(LIS_MATRIX A, LIS_SCALAR x[], LIS_SCALAR y[]);
191 	extern void lis_matvec_bsc_1x3(LIS_MATRIX A, LIS_SCALAR x[], LIS_SCALAR y[]);
192 	extern void lis_matvec_bsc_1x4(LIS_MATRIX A, LIS_SCALAR x[], LIS_SCALAR y[]);
193 	extern void lis_matvec_bsc_2x1(LIS_MATRIX A, LIS_SCALAR x[], LIS_SCALAR y[]);
194 	extern void lis_matvec_bsc_2x2(LIS_MATRIX A, LIS_SCALAR x[], LIS_SCALAR y[]);
195 	extern void lis_matvec_bsc_2x3(LIS_MATRIX A, LIS_SCALAR x[], LIS_SCALAR y[]);
196 	extern void lis_matvec_bsc_2x4(LIS_MATRIX A, LIS_SCALAR x[], LIS_SCALAR y[]);
197 	extern void lis_matvec_bsc_3x1(LIS_MATRIX A, LIS_SCALAR x[], LIS_SCALAR y[]);
198 	extern void lis_matvec_bsc_3x2(LIS_MATRIX A, LIS_SCALAR x[], LIS_SCALAR y[]);
199 	extern void lis_matvec_bsc_3x3(LIS_MATRIX A, LIS_SCALAR x[], LIS_SCALAR y[]);
200 	extern void lis_matvec_bsc_3x4(LIS_MATRIX A, LIS_SCALAR x[], LIS_SCALAR y[]);
201 	extern void lis_matvec_bsc_4x1(LIS_MATRIX A, LIS_SCALAR x[], LIS_SCALAR y[]);
202 	extern void lis_matvec_bsc_4x2(LIS_MATRIX A, LIS_SCALAR x[], LIS_SCALAR y[]);
203 	extern void lis_matvec_bsc_4x3(LIS_MATRIX A, LIS_SCALAR x[], LIS_SCALAR y[]);
204 	extern void lis_matvec_bsc_4x4(LIS_MATRIX A, LIS_SCALAR x[], LIS_SCALAR y[]);
205 	extern void lis_matvech_bsc(LIS_MATRIX A, LIS_SCALAR x[], LIS_SCALAR y[]);
206 
207 #ifdef __cplusplus
208 }
209 #endif
210 
211 #endif
212