/[escript]/trunk/finley/src/Assemble_PDE_System2_3D.c
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Annotation of /trunk/finley/src/Assemble_PDE_System2_3D.c

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Revision 2748 - (hide annotations)
Tue Nov 17 07:32:59 2009 UTC (9 years, 8 months ago) by gross
File MIME type: text/plain
File size: 23909 byte(s)
Macro elements are implemented now. VTK writer for macro elements still needs testing.
1 gross 798
2 ksteube 1312 /*******************************************************
3 ksteube 1811 *
4 jfenwick 2548 * Copyright (c) 2003-2009 by University of Queensland
5 ksteube 1811 * Earth Systems Science Computational Center (ESSCC)
6     * http://www.uq.edu.au/esscc
7     *
8     * Primary Business: Queensland, Australia
9     * Licensed under the Open Software License version 3.0
10     * http://www.opensource.org/licenses/osl-3.0.php
11     *
12     *******************************************************/
13 ksteube 1312
14 ksteube 1811
15 gross 798 /**************************************************************/
16    
17     /* assembles the system of numEq PDEs into the stiffness matrix S right hand side F */
18     /* the shape functions for test and solution must be identical */
19    
20    
21     /* -(A_{k,i,m,j} u_m,j)_i-(B_{k,i,m} u_m)_i+C_{k,m,j} u_m,j-D_{k,m} u_m and -(X_{k,i})_i + Y_k */
22    
23     /* u has p.numComp components in a 3D domain. The shape functions for test and solution must be identical */
24     /* and row_NS == row_NN */
25    
26     /* Shape of the coefficients: */
27    
28     /* A = p.numEqu x 3 x p.numComp x 3 */
29     /* B = 3 x p.numEqu x p.numComp */
30     /* C = p.numEqu x 3 x p.numComp */
31     /* D = p.numEqu x p.numComp */
32     /* X = p.numEqu x 3 */
33     /* Y = p.numEqu */
34    
35    
36     /**************************************************************/
37    
38    
39     #include "Assemble.h"
40     #include "Util.h"
41 gross 853 #ifdef _OPENMP
42     #include <omp.h>
43     #endif
44 gross 798
45 gross 853
46 gross 798 /**************************************************************/
47    
48     void Finley_Assemble_PDE_System2_3D(Assemble_Parameters p, Finley_ElementFile* elements,
49     Paso_SystemMatrix* Mat, escriptDataC* F,
50     escriptDataC* A, escriptDataC* B, escriptDataC* C, escriptDataC* D, escriptDataC* X, escriptDataC* Y) {
51    
52     #define DIM 3
53     index_t color;
54 gross 2748 dim_t e, isub;
55     __const double *A_p, *B_p, *C_p, *D_p, *X_p, *Y_p, *A_q, *B_q, *C_q, *D_q, *X_q, *Y_q;
56 jfenwick 2271 double *EM_S, *EM_F, *Vol, *DSDX;
57 gross 853 index_t *row_index;
58     register dim_t q, s,r,k,m;
59     register double rtmp, rtmp0, rtmp1, rtmp2, rtmp00, rtmp01, rtmp02, rtmp10, rtmp11, rtmp12, rtmp20, rtmp21, rtmp22;
60     bool_t add_EM_F, add_EM_S;
61    
62 gross 798 bool_t extendedA=isExpanded(A);
63     bool_t extendedB=isExpanded(B);
64     bool_t extendedC=isExpanded(C);
65     bool_t extendedD=isExpanded(D);
66     bool_t extendedX=isExpanded(X);
67     bool_t extendedY=isExpanded(Y);
68 jfenwick 2271 double *F_p=(requireWrite(F), getSampleDataRW(F,0)); /* use comma, to get around the mixed code and declarations thing */
69 gross 2748 double *S=p.row_jac->BasisFunctions->S;
70     dim_t len_EM_S=p.row_numShapesTotal*p.col_numShapesTotal*p.numEqu*p.numComp;
71     dim_t len_EM_F=p.row_numShapesTotal*p.numEqu;
72 gross 798
73 jfenwick 2271 void* ABuff=allocSampleBuffer(A);
74     void* BBuff=allocSampleBuffer(B);
75     void* CBuff=allocSampleBuffer(C);
76     void* DBuff=allocSampleBuffer(D);
77     void* XBuff=allocSampleBuffer(X);
78     void* YBuff=allocSampleBuffer(Y);
79 gross 2748 #pragma omp parallel private(color,EM_S, EM_F, Vol, DSDX, A_p, B_p, C_p, D_p, X_p, Y_p, A_q, B_q, C_q, D_q, X_q, Y_q,row_index,q, s,r,k,m,rtmp, rtmp0, rtmp1, rtmp2, rtmp00, rtmp01, rtmp02, rtmp10, rtmp11, rtmp12, rtmp20, rtmp21, rtmp22,add_EM_F, add_EM_S, isub)
80 gross 798 {
81 gross 853 EM_S=THREAD_MEMALLOC(len_EM_S,double);
82     EM_F=THREAD_MEMALLOC(len_EM_F,double);
83 gross 2748 row_index=THREAD_MEMALLOC(p.row_numShapesTotal,index_t);
84 gross 853
85     if (!Finley_checkPtr(EM_S) && !Finley_checkPtr(EM_F) && !Finley_checkPtr(row_index) ) {
86 gross 798
87 gross 853 for (color=elements->minColor;color<=elements->maxColor;color++) {
88     /* open loop over all elements: */
89     #pragma omp for private(e) schedule(static)
90     for(e=0;e<elements->numElements;e++){
91     if (elements->Color[e]==color) {
92 gross 2748
93 jfenwick 2271 A_p=getSampleDataRO(A,e,ABuff);
94 gross 2748 B_p=getSampleDataRO(B,e,BBuff);
95     C_p=getSampleDataRO(C,e,CBuff);
96     D_p=getSampleDataRO(D,e,DBuff);
97     X_p=getSampleDataRO(X,e,XBuff);
98     Y_p=getSampleDataRO(Y,e,YBuff);
99    
100     for (isub=0;isub<p.numSub;isub++){
101    
102     Vol=&(p.row_jac->volume[INDEX3(0,isub,e, p.numQuadSub,p.numSub)]);
103     DSDX=&(p.row_jac->DSDX[INDEX5(0,0,0,isub,e,p.row_numShapesTotal,DIM,p.numQuadSub,p.numSub)]);
104     for (q=0;q<len_EM_S;++q) EM_S[q]=0;
105     for (q=0;q<len_EM_F;++q) EM_F[q]=0;
106     add_EM_F=FALSE;
107     add_EM_S=FALSE;
108    
109     /**************************************************************/
110     /* process A: */
111     /**************************************************************/
112     if (NULL!=A_p) {
113     add_EM_S=TRUE;
114     if (extendedA) {
115     A_q=&(A_p[INDEX6(0,0,0,0,0,isub, p.numEqu,DIM,p.numComp,DIM,p.numQuadSub)]);
116     for (s=0;s<p.row_numShapes;s++) {
117     for (r=0;r<p.col_numShapes;r++) {
118     for (k=0;k<p.numEqu;k++) {
119 gross 798 for (m=0;m<p.numComp;m++) {
120 gross 2748 rtmp=0;
121     for (q=0;q<p.numQuadSub;q++) {
122     rtmp+=Vol[q]*(
123     DSDX[INDEX3(s,0,q,p.row_numShapesTotal,DIM)]*A_q[INDEX5(k,0,m,0,q, p.numEqu,DIM,p.numComp,DIM)]*DSDX[INDEX3(r,0,q,p.row_numShapesTotal,DIM)]
124     +DSDX[INDEX3(s,0,q,p.row_numShapesTotal,DIM)]*A_q[INDEX5(k,0,m,1,q, p.numEqu,DIM,p.numComp,DIM)]*DSDX[INDEX3(r,1,q,p.row_numShapesTotal,DIM)]
125     +DSDX[INDEX3(s,0,q,p.row_numShapesTotal,DIM)]*A_q[INDEX5(k,0,m,2,q, p.numEqu,DIM,p.numComp,DIM)]*DSDX[INDEX3(r,2,q,p.row_numShapesTotal,DIM)]
126     +DSDX[INDEX3(s,1,q,p.row_numShapesTotal,DIM)]*A_q[INDEX5(k,1,m,0,q, p.numEqu,DIM,p.numComp,DIM)]*DSDX[INDEX3(r,0,q,p.row_numShapesTotal,DIM)]
127     +DSDX[INDEX3(s,1,q,p.row_numShapesTotal,DIM)]*A_q[INDEX5(k,1,m,1,q, p.numEqu,DIM,p.numComp,DIM)]*DSDX[INDEX3(r,1,q,p.row_numShapesTotal,DIM)]
128     +DSDX[INDEX3(s,1,q,p.row_numShapesTotal,DIM)]*A_q[INDEX5(k,1,m,2,q, p.numEqu,DIM,p.numComp,DIM)]*DSDX[INDEX3(r,2,q,p.row_numShapesTotal,DIM)]
129     +DSDX[INDEX3(s,2,q,p.row_numShapesTotal,DIM)]*A_q[INDEX5(k,2,m,0,q, p.numEqu,DIM,p.numComp,DIM)]*DSDX[INDEX3(r,0,q,p.row_numShapesTotal,DIM)]
130     +DSDX[INDEX3(s,2,q,p.row_numShapesTotal,DIM)]*A_q[INDEX5(k,2,m,1,q, p.numEqu,DIM,p.numComp,DIM)]*DSDX[INDEX3(r,1,q,p.row_numShapesTotal,DIM)]
131     +DSDX[INDEX3(s,2,q,p.row_numShapesTotal,DIM)]*A_q[INDEX5(k,2,m,2,q, p.numEqu,DIM,p.numComp,DIM)]*DSDX[INDEX3(r,2,q,p.row_numShapesTotal,DIM)]);
132    
133     }
134     EM_S[INDEX4(k,m,s,r,p.numEqu,p.numComp,p.row_numShapesTotal)]+=rtmp;
135 gross 798 }
136 gross 2748 }
137     }
138     }
139     } else {
140     for (s=0;s<p.row_numShapes;s++) {
141     for (r=0;r<p.col_numShapes;r++) {
142     rtmp00=0;
143     rtmp01=0;
144     rtmp02=0;
145     rtmp10=0;
146     rtmp11=0;
147     rtmp12=0;
148     rtmp20=0;
149     rtmp21=0;
150     rtmp22=0;
151     for (q=0;q<p.numQuadSub;q++) {
152     rtmp0=Vol[q]*DSDX[INDEX3(s,0,q,p.row_numShapesTotal,DIM)];
153     rtmp00+=rtmp0*DSDX[INDEX3(r,0,q,p.row_numShapesTotal,DIM)];
154     rtmp01+=rtmp0*DSDX[INDEX3(r,1,q,p.row_numShapesTotal,DIM)];
155     rtmp02+=rtmp0*DSDX[INDEX3(r,2,q,p.row_numShapesTotal,DIM)];
156    
157     rtmp1=Vol[q]*DSDX[INDEX3(s,1,q,p.row_numShapesTotal,DIM)];
158     rtmp10+=rtmp1*DSDX[INDEX3(r,0,q,p.row_numShapesTotal,DIM)];
159     rtmp11+=rtmp1*DSDX[INDEX3(r,1,q,p.row_numShapesTotal,DIM)];
160     rtmp12+=rtmp1*DSDX[INDEX3(r,2,q,p.row_numShapesTotal,DIM)];
161    
162     rtmp2=Vol[q]*DSDX[INDEX3(s,2,q,p.row_numShapesTotal,DIM)];
163     rtmp20+=rtmp2*DSDX[INDEX3(r,0,q,p.row_numShapesTotal,DIM)];
164     rtmp21+=rtmp2*DSDX[INDEX3(r,1,q,p.row_numShapesTotal,DIM)];
165     rtmp22+=rtmp2*DSDX[INDEX3(r,2,q,p.row_numShapesTotal,DIM)];
166 gross 853 }
167     for (k=0;k<p.numEqu;k++) {
168     for (m=0;m<p.numComp;m++) {
169 gross 2748 EM_S[INDEX4(k,m,s,r,p.numEqu,p.numComp,p.row_numShapesTotal)]+= rtmp00*A_p[INDEX4(k,0,m,0, p.numEqu,DIM,p.numComp)]
170     +rtmp01*A_p[INDEX4(k,0,m,1, p.numEqu,DIM,p.numComp)]
171     +rtmp02*A_p[INDEX4(k,0,m,2, p.numEqu,DIM,p.numComp)]
172     +rtmp10*A_p[INDEX4(k,1,m,0, p.numEqu,DIM,p.numComp)]
173     +rtmp11*A_p[INDEX4(k,1,m,1, p.numEqu,DIM,p.numComp)]
174     +rtmp12*A_p[INDEX4(k,1,m,2, p.numEqu,DIM,p.numComp)]
175     +rtmp20*A_p[INDEX4(k,2,m,0, p.numEqu,DIM,p.numComp)]
176     +rtmp21*A_p[INDEX4(k,2,m,1, p.numEqu,DIM,p.numComp)]
177     +rtmp22*A_p[INDEX4(k,2,m,2, p.numEqu,DIM,p.numComp)];
178 gross 853 }
179     }
180 gross 2748 }
181     }
182     }
183     }
184     /**************************************************************/
185     /* process B: */
186     /**************************************************************/
187     if (NULL!=B_p) {
188     add_EM_S=TRUE;
189     if (extendedB) {
190     B_q=&(B_p[INDEX5(0,0,0,0,isub, p.numEqu,DIM,p.numComp,p.numQuadSub)]);
191     for (s=0;s<p.row_numShapes;s++) {
192     for (r=0;r<p.col_numShapes;r++) {
193     for (k=0;k<p.numEqu;k++) {
194     for (m=0;m<p.numComp;m++) {
195     rtmp=0;
196     for (q=0;q<p.numQuadSub;q++) {
197     rtmp+=Vol[q]*S[INDEX2(r,q,p.row_numShapes)]*(
198     DSDX[INDEX3(s,0,q,p.row_numShapesTotal,DIM)]*B_q[INDEX4(k,0,m,q,p.numEqu,DIM,p.numComp)]
199     + DSDX[INDEX3(s,1,q,p.row_numShapesTotal,DIM)]*B_q[INDEX4(k,1,m,q,p.numEqu,DIM,p.numComp)]
200     + DSDX[INDEX3(s,2,q,p.row_numShapesTotal,DIM)]*B_q[INDEX4(k,2,m,q,p.numEqu,DIM,p.numComp)] );
201     }
202     EM_S[INDEX4(k,m,s,r,p.numEqu,p.numComp,p.row_numShapesTotal)]+=rtmp;
203     }
204     }
205     }
206     }
207     } else {
208     for (s=0;s<p.row_numShapes;s++) {
209     for (r=0;r<p.col_numShapes;r++) {
210     rtmp0=0;
211     rtmp1=0;
212     rtmp2=0;
213     for (q=0;q<p.numQuadSub;q++) {
214     rtmp=Vol[q]*S[INDEX2(r,q,p.row_numShapes)];
215     rtmp0+=rtmp*DSDX[INDEX3(s,0,q,p.row_numShapesTotal,DIM)];
216     rtmp1+=rtmp*DSDX[INDEX3(s,1,q,p.row_numShapesTotal,DIM)];
217     rtmp2+=rtmp*DSDX[INDEX3(s,2,q,p.row_numShapesTotal,DIM)];
218     }
219     for (k=0;k<p.numEqu;k++) {
220     for (m=0;m<p.numComp;m++) {
221     EM_S[INDEX4(k,m,s,r,p.numEqu,p.numComp,p.row_numShapesTotal)]+=rtmp0*B_p[INDEX3(k,0,m,p.numEqu,DIM)]
222     +rtmp1*B_p[INDEX3(k,1,m,p.numEqu,DIM)]
223     +rtmp2*B_p[INDEX3(k,2,m,p.numEqu,DIM)];
224     }
225     }
226     }
227     }
228 gross 853 }
229 gross 798 }
230 gross 2748 /**************************************************************/
231     /* process C: */
232     /**************************************************************/
233     if (NULL!=C_p) {
234     add_EM_S=TRUE;
235     if (extendedC) {
236     C_q=&(C_p[INDEX5(0,0,0,0,isub ,p.numEqu,p.numComp,DIM, p.numQuadSub)]);
237     for (s=0;s<p.row_numShapes;s++) {
238     for (r=0;r<p.col_numShapes;r++) {
239     for (k=0;k<p.numEqu;k++) {
240     for (m=0;m<p.numComp;m++) {
241     rtmp=0;
242     for (q=0;q<p.numQuadSub;q++) {
243     rtmp+=Vol[q]*S[INDEX2(s,q,p.row_numShapes)]*(
244     C_q[INDEX4(k,m,0,q,p.numEqu,p.numComp,DIM)]*DSDX[INDEX3(r,0,q,p.row_numShapesTotal,DIM)]
245     +C_q[INDEX4(k,m,1,q,p.numEqu,p.numComp,DIM)]*DSDX[INDEX3(r,1,q,p.row_numShapesTotal,DIM)]
246     +C_q[INDEX4(k,m,2,q,p.numEqu,p.numComp,DIM)]*DSDX[INDEX3(r,2,q,p.row_numShapesTotal,DIM)]);
247     }
248     EM_S[INDEX4(k,m,s,r,p.numEqu,p.numComp,p.row_numShapesTotal)]+=rtmp;
249 gross 853 }
250 gross 2748 }
251     }
252     }
253     } else {
254     for (s=0;s<p.row_numShapes;s++) {
255     for (r=0;r<p.col_numShapes;r++) {
256     rtmp0=0;
257     rtmp1=0;
258     rtmp2=0;
259     for (q=0;q<p.numQuadSub;q++) {
260     rtmp=Vol[q]*S[INDEX2(s,q,p.row_numShapes)];
261     rtmp0+=rtmp*DSDX[INDEX3(r,0,q,p.row_numShapesTotal,DIM)];
262     rtmp1+=rtmp*DSDX[INDEX3(r,1,q,p.row_numShapesTotal,DIM)];
263     rtmp2+=rtmp*DSDX[INDEX3(r,2,q,p.row_numShapesTotal,DIM)];
264     }
265     for (k=0;k<p.numEqu;k++) {
266     for (m=0;m<p.numComp;m++) {
267     EM_S[INDEX4(k,m,s,r,p.numEqu,p.numComp,p.row_numShapesTotal)]+=rtmp0*C_p[INDEX3(k,m,0,p.numEqu,p.numComp)]
268     +rtmp1*C_p[INDEX3(k,m,1,p.numEqu,p.numComp)]
269     +rtmp2*C_p[INDEX3(k,m,2,p.numEqu,p.numComp)];
270     }
271     }
272     }
273     }
274     }
275     }
276     /************************************************************* */
277     /* process D */
278     /**************************************************************/
279     if (NULL!=D_p) {
280     add_EM_S=TRUE;
281     if (extendedD) {
282     D_q=&(D_p[INDEX4(0,0,0,isub ,p.numEqu,p.numComp, p.numQuadSub)]);
283     for (s=0;s<p.row_numShapes;s++) {
284     for (r=0;r<p.col_numShapes;r++) {
285     for (k=0;k<p.numEqu;k++) {
286     for (m=0;m<p.numComp;m++) {
287     rtmp=0;
288     for (q=0;q<p.numQuadSub;q++) {
289     rtmp+=Vol[q]*S[INDEX2(s,q,p.row_numShapes)]*D_q[INDEX3(k,m,q,p.numEqu,p.numComp)]*S[INDEX2(r,q,p.row_numShapes)];
290     }
291     EM_S[INDEX4(k,m,s,r,p.numEqu,p.numComp,p.row_numShapesTotal)]+=rtmp;
292     }
293     }
294     }
295     }
296     } else {
297     for (s=0;s<p.row_numShapes;s++) {
298     for (r=0;r<p.col_numShapes;r++) {
299     rtmp=0;
300     for (q=0;q<p.numQuadSub;q++) rtmp+=Vol[q]*S[INDEX2(s,q,p.row_numShapes)]*S[INDEX2(r,q,p.row_numShapes)];
301 gross 853 for (k=0;k<p.numEqu;k++) {
302 gross 2748 for (m=0;m<p.numComp;m++) {
303     EM_S[INDEX4(k,m,s,r,p.numEqu,p.numComp,p.row_numShapesTotal)]+=rtmp*D_p[INDEX2(k,m,p.numEqu)];
304     }
305 gross 853 }
306 gross 2748 }
307     }
308     }
309     }
310     /**************************************************************/
311     /* process X: */
312     /**************************************************************/
313     if (NULL!=X_p) {
314     add_EM_F=TRUE;
315     if (extendedX) {
316     X_q=&(X_p[INDEX4(0,0,0,isub, p.numEqu,DIM,p.numQuadSub)]);
317     for (s=0;s<p.row_numShapes;s++) {
318     for (k=0;k<p.numEqu;k++) {
319 gross 853 rtmp=0;
320 gross 2748 for (q=0;q<p.numQuadSub;q++) {
321     rtmp+=Vol[q]* ( DSDX[INDEX3(s,0,q,p.row_numShapesTotal,DIM)]*X_q[INDEX3(k,0,q,p.numEqu,DIM)]
322     + DSDX[INDEX3(s,1,q,p.row_numShapesTotal,DIM)]*X_q[INDEX3(k,1,q,p.numEqu,DIM)]
323     + DSDX[INDEX3(s,2,q,p.row_numShapesTotal,DIM)]*X_q[INDEX3(k,2,q,p.numEqu,DIM)]);
324 gross 853 }
325 gross 2748 EM_F[INDEX2(k,s,p.numEqu)]+=rtmp;
326     }
327     }
328     } else {
329     for (s=0;s<p.row_numShapes;s++) {
330     rtmp0=0;
331     rtmp1=0;
332     rtmp2=0;
333     for (q=0;q<p.numQuadSub;q++) {
334     rtmp0+=Vol[q]*DSDX[INDEX3(s,0,q,p.row_numShapesTotal,DIM)];
335     rtmp1+=Vol[q]*DSDX[INDEX3(s,1,q,p.row_numShapesTotal,DIM)];
336     rtmp2+=Vol[q]*DSDX[INDEX3(s,2,q,p.row_numShapesTotal,DIM)];
337 gross 853 }
338 gross 2748 for (k=0;k<p.numEqu;k++) {
339     EM_F[INDEX2(k,s,p.numEqu)]+=rtmp0*X_p[INDEX2(k,0,p.numEqu)]
340     +rtmp1*X_p[INDEX2(k,1,p.numEqu)]
341     +rtmp2*X_p[INDEX2(k,2,p.numEqu)];
342     }
343 gross 853 }
344 gross 2748 }
345 gross 853 }
346 gross 2748 /**************************************************************/
347     /* process Y: */
348     /**************************************************************/
349     if (NULL!=Y_p) {
350     add_EM_F=TRUE;
351     if (extendedY) {
352     Y_q=&(Y_p[INDEX3(0,0,isub, p.numEqu,p.numQuadSub)]);
353     for (s=0;s<p.row_numShapes;s++) {
354     for (k=0;k<p.numEqu;k++) {
355     rtmp=0.;
356     for (q=0;q<p.numQuadSub;q++) rtmp+=Vol[q]*S[INDEX2(s,q,p.row_numShapes)]*Y_q[INDEX2(k,q,p.numEqu)];
357     EM_F[INDEX2(k,s,p.numEqu)]+=rtmp;
358 gross 798 }
359 gross 853 }
360 gross 2748 } else {
361     for (s=0;s<p.row_numShapes;s++) {
362     rtmp=0;
363     for (q=0;q<p.numQuadSub;q++) rtmp+=Vol[q]*S[INDEX2(s,q,p.row_numShapes)];
364     for (k=0;k<p.numEqu;k++) EM_F[INDEX2(k,s,p.numEqu)]+=rtmp*Y_p[k];
365 gross 798 }
366 gross 2748 }
367     }
368    
369     /***********************************************************************************************/
370     /* add the element matrices onto the matrix and right hand side */
371     /***********************************************************************************************/
372     for (q=0;q<p.row_numShapesTotal;q++) row_index[q]=p.row_DOF[elements->Nodes[INDEX2(p.row_node[INDEX2(q,isub,p.row_numShapesTotal)],e,p.NN)]];
373    
374     if (add_EM_F) Finley_Util_AddScatter(p.row_numShapesTotal,row_index,p.numEqu,EM_F,F_p, p.row_DOF_UpperBound);
375     if (add_EM_S) Finley_Assemble_addToSystemMatrix(Mat,p.row_numShapesTotal,row_index,p.numEqu,p.col_numShapesTotal,row_index,p.numComp,EM_S);
376     } /* end of subn */
377 gross 853 } /* end color check */
378     } /* end element loop */
379     } /* end color loop */
380    
381     THREAD_MEMFREE(EM_S);
382     THREAD_MEMFREE(EM_F);
383     THREAD_MEMFREE(row_index);
384 gross 798
385 gross 853 } /* end of pointer check */
386 gross 798 } /* end parallel region */
387 jfenwick 2271 freeSampleBuffer(ABuff);
388     freeSampleBuffer(BBuff);
389     freeSampleBuffer(CBuff);
390     freeSampleBuffer(DBuff);
391     freeSampleBuffer(XBuff);
392     freeSampleBuffer(YBuff);
393 gross 798 }

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