| /dports/french/med/med-4.0.0/tests/c/2.3.6/ |
| H A D | test7.c | 44 med_int nse2; in main() local
91 se2_1 = (med_int*) calloc(tse2*nse2,sizeof(med_int)); in main()
92 se2_2 = (med_int*) malloc(sizeof(med_int)*tse2*nse2); in main()
93 nomse2 = (char*) malloc(MED_TAILLE_PNOM*nse2+1); in main()
94 numse2 = (med_int*) malloc(sizeof(med_int)*nse2); in main()
95 nufase2 = (med_int*) malloc(sizeof(med_int)*nse2); in main()
169 for (i=0;i<nse2*tse2;i++) in main()
173 for (i=0;i<nse2*tse2;i++) in main()
177 for (i=0;i<nse2;i++) { in main()
185 for (i=0;i<nse2;i++) in main()
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| H A D | test17.c | 46 med_int nse2; in main() local
91 se2 = (med_int*) malloc(sizeof(med_int)*tse2*nse2); in main()
92 nomse2 = (char*) malloc(MED_TAILLE_PNOM*nse2+1); in main()
93 numse2 = (med_int*) malloc(sizeof(med_int)*nse2); in main()
94 nufase2 = (med_int*) malloc(sizeof(med_int)*nse2); in main()
108 nufase2,nse2,MED_ARETE,MED_SEG2,MED_DESC) < 0) { in main()
132 if (nse2 > 0) { in main()
134 for (i=0;i<nse2*tse2;i++) in main()
138 for (i=0;i<nse2;i++) { in main()
146 for (i=0;i<nse2;i++) in main()
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| H A D | test6.c | 43 med_int nse2 = 5; in main() local
72 if ( MEDconnEcr(fid,maa,mdim,se2,MED_FULL_INTERLACE,nse2,MED_ARETE,MED_SEG2, in main()
80 if ( MEDnomEcr(fid,maa,nomse2,nse2,MED_ARETE,MED_SEG2) < 0 ) { in main()
86 if ( MEDnumEcr(fid,maa,numse2,nse2,MED_ARETE,MED_SEG2) < 0 ) { in main()
92 if ( MEDfamEcr(fid,maa,nufase2,nse2,MED_ARETE,MED_SEG2) < 0 ) { in main()
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| H A D | test16.c | 44 med_int nse2 = 5; in main() local
79 nufase2,nse2,MED_ARETE,MED_SEG2,MED_DESC)< 0 ) { in main()
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| /dports/french/med/med-4.0.0/tests/f/2.3.6/ |
| H A D | test6.f | 33 integer mdim,nse2,ntr3
34 parameter (nse2 = 5, ntr3 = 2, mdim = 2)
35 integer se2 (2*nse2)
36 character*16 nomse2(nse2)
37 integer numse2(nse2),nufase2(nse2)
70 & nse2,MED_ARETE,
79 call efnome(fid,maa,nomse2,nse2,MED_ARETE,
88 call efnume(fid,maa,numse2,nse2,
97 call effame(fid,maa,nufase2,nse2,
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| H A D | test7.f90 | 33 integer nse2 variable
65 nse2 = 0
67 & nse2,cret)
79 print *,"Nombre de MED_SEG2 : ",nse2," - nombre de MED_TRIA3 : ",ntr3
84 allocate ( se2(tse2*nse2), nomse2(nse2),numse2(nse2), nufase2(nse2),STAT=ret )
102 call efnoml(fid,maa,nomse2,nse2,MED_ARETE, &
114 call efnuml(fid,maa,numse2,nse2,MED_ARETE,MED_SEG2,ret)
125 call effaml(fid,maa,nufase2,nse2,MED_ARETE,MED_SEG2,cret)
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| H A D | test17.f90 | 33 integer :: cret,ret, nse2, mdim variable
61 call efnema(fid,maa,MED_CONN,MED_ARETE,MED_SEG2,MED_DESC,nse2,cret)
70 print *,"Nombre de MED_SEG2 : ",nse2," - nombre de MED_TRIA3 : ",ntr3
74 allocate(se2(tse2*nse2),nomse2(nse2),numse2(nse2),nufase2(nse2),STAT=ret)
85 & nufase2,nse2,MED_ARETE,MED_SEG2,MED_DESC,cret)
107 print *,"Connectivite des segments : ",nse2
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| H A D | test16.f | 34 integer cret, mdim, nse2, ntr3
36 parameter (mdim = 2,nse2 = 5,maa = "maa1", ntr3 = 2)
37 integer se2 (2*nse2)
38 character*16 nomse2(nse2)
39 integer numse2(nse2),nufase2(nse2)
73 C nufase2,nse2,MED_ARETE,MED_SEG2,MED_DESC,cret)
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| /dports/french/med/med-4.0.0/tests/f/ |
| H A D | test6.f | 33 integer mdim,nse2,ntr3,sdim
34 parameter (nse2=5, ntr3=2, mdim=2, sdim=2)
35 integer se2 (2*nse2)
36 character*16 nomse2(nse2)
37 integer numse2(nse2),nufase2(nse2)
79 & MED_NO_INTERLACE,nse2,se2,cret)
88 & MED_SEG2,nse2,nomse2,cret)
97 & MED_SEG2,nse2,numse2,cret)
106 & MED_SEG2,nse2,nufase2,cret)
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| H A D | test16.f | 34 integer cret, mdim, nse2, ntr3, sdim
36 parameter (mdim = 2,nse2 = 5,maa = "maa1", ntr3 = 2, sdim=2)
37 integer se2 (2*nse2)
38 character*16 nomse2(nse2)
39 integer numse2(nse2),nufase2(nse2)
78 & MED_SEG2,MED_DESCENDING,MED_NO_INTERLACE,nse2,se2,
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| H A D | test7.f90 | 33 integer nse2 variable
72 nse2 = 0
73 …NO_DT,MED_NO_IT,MED_DESCENDING_EDGE,MED_SEG2,MED_CONNECTIVITY,MED_DESCENDING,chgt,tsf,nse2,cret)
88 print *,"Nombre de MED_SEG2 : ",nse2," - nombre de MED_TRIA3 : ",ntr3
93 allocate (se2(tse2*nse2),se21(tse2*nse2),nomse2(nse2),numse2(nse2), nufase2(nse2),STAT=ret )
123 call mfrcre(fid,nse2,1,edim,2,MED_FULL_INTERLACE,MED_GLOBAL_STMODE, &
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| H A D | test17.f90 | 33 integer :: cret, ret, nse2, mdim, sdim variable
65 …ED_NO_DT,MED_NO_IT,MED_DESCENDING_EDGE,MED_SEG2,MED_CONNECTIVITY,MED_DESCENDING,chgt,tsf,nse2,cret)
74 print *,"Nombre de MED_SEG2 : ",nse2," - nombre de MED_TRIA3 : ",ntr3
78 allocate(se2(tse2*nse2),nomse2(nse2),numse2(nse2),nufase2(nse2),STAT=ret)
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| /dports/french/med/med-4.0.0/tests/c/ |
| H A D | test7.c | 44 med_int nse2; in main() local
119 se2_1 = (med_int*) calloc(tse2*nse2,sizeof(med_int)); in main()
121 nomse2 = (char*) malloc(MED_SNAME_SIZE*nse2+1); in main()
122 numse2 = (med_int*) malloc(sizeof(med_int)*nse2); in main()
123 nufase2 = (med_int*) malloc(sizeof(med_int)*nse2); in main()
131 if ( MEDfilterEntityCr( fid, nse2, 1, sdim, 2, in main()
225 for (i=0;i<nse2*tse2;i++) in main()
229 for (i=0;i<nse2*tse2;i++) in main()
233 for (i=0;i<nse2;i++) { in main()
241 for (i=0;i<nse2;i++) in main()
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| H A D | test17.c | 47 med_int nse2; in main() local
102 if ((nse2 = MEDmeshnEntity(fid, maa, MED_NO_DT, MED_NO_IT, in main()
119 se2 = (med_int*) malloc(sizeof(med_int)*tse2*nse2); in main()
120 nomse2 = (char*) malloc(MED_SNAME_SIZE*nse2+1); in main()
121 numse2 = (med_int*) malloc(sizeof(med_int)*nse2); in main()
122 nufase2 = (med_int*) calloc(nse2,sizeof(med_int)); in main()
160 if (nse2 > 0) { in main()
162 for (i=0;i<nse2*tse2;i++) in main()
166 for (i=0;i<nse2;i++) { in main()
174 for (i=0;i<nse2;i++) in main()
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| H A D | test6.c | 43 med_int nse2 = 5; in main() local
77 MED_FULL_INTERLACE, nse2,se2) < 0 ) { in main()
86 MED_DESCENDING_EDGE,MED_SEG2,nse2,nomse2) < 0) { in main()
93 MED_DESCENDING_EDGE,MED_SEG2,nse2,numse2) < 0) { in main()
100 MED_DESCENDING_EDGE,MED_SEG2,nse2,nufase2) < 0) { in main()
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| H A D | test16.c | 44 med_int nse2 = 5; in main() local
85 nse2,se2,MED_TRUE,nomse2,MED_TRUE,numse2,MED_TRUE,nufase2)< 0 ) { in main()
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| /dports/french/med/med-4.0.0/tests/python/ |
| H A D | test7.py | 53 nse2, chgt, trsf = MEDmeshnEntity(fid,maa,MED_NO_DT,MED_NO_IT, variable
59 print("Nombre de MED_SEG2 : %d - nombre de MED_TRIA3 : %d"%(nse2,ntr3))
63 se2_1 = MEDINT(tse2*nse2)
64 se2_2 = MEDINT(tse2*nse2)
65 numse2 = MEDINT(nse2)
66 nufase2 = MEDINT(nse2)
67 nomse2 = MEDCHAR(MED_SNAME_SIZE*nse2+1)
79 MEDfilterEntityCr( fid, nse2, 1, sdim, 2,
133 for i in range(nse2)])
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| H A D | test6.py | 38 nse2 = 5; variable
65 MED_FULL_INTERLACE, nse2,se2)
69 MED_DESCENDING_EDGE,MED_SEG2,nse2,nomse2)
73 MED_DESCENDING_EDGE,MED_SEG2,nse2,numse2)
77 MED_DESCENDING_EDGE,MED_SEG2,nse2,nufase2)
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| /dports/graphics/vpaint/vpaint-1.7/src/Gui/VectorAnimationComplex/ |
| H A D | AnimatedCycle.cpp | 718 nse2->setSide(side); in replaceInbetweenEdge()
721 newNodesAfter << nse2; in replaceInbetweenEdge()
762 quasiAfterNode->setBefore(nse2); in replaceInbetweenEdge()
794 nse2->setSide(nse->side()); in replaceInbetweenEdge()
800 nse2->setPrevious(nse->previous()); in replaceInbetweenEdge()
804 nse2->setNext(nkvnext->after()); in replaceInbetweenEdge()
808 nse2->setBefore(nke); in replaceInbetweenEdge()
811 nke->setAfter(nse2); in replaceInbetweenEdge()
812 nse2->setAfter(nse->after()); in replaceInbetweenEdge()
846 previousOfQuasiNextNode = nse2; in replaceInbetweenEdge()
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| /dports/math/py-matplotlib/matplotlib-3.4.3/examples/lines_bars_and_markers/ |
| H A D | cohere.py | 17 nse2 = np.random.randn(len(t)) # white noise 2 variable
21 s2 = np.sin(2 * np.pi * 10 * t) + nse2
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| H A D | csd_demo.py | 24 nse2 = np.random.randn(len(t)) # white noise 2 variable
28 cnse2 = np.convolve(nse2, r, mode='same') * dt # colored noise 2
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| /dports/math/py-matplotlib2/matplotlib-2.2.4/lib/mpl_examples/lines_bars_and_markers/ |
| H A D | cohere.py | 17 nse2 = np.random.randn(len(t)) # white noise 2 variable
21 s2 = np.sin(2 * np.pi * 10 * t) + nse2
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| H A D | csd_demo.py | 24 nse2 = np.random.randn(len(t)) # white noise 2 variable
28 cnse2 = np.convolve(nse2, r, mode='same') * dt # colored noise 2
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| /dports/math/py-matplotlib2/matplotlib-2.2.4/examples/lines_bars_and_markers/ |
| H A D | cohere.py | 17 nse2 = np.random.randn(len(t)) # white noise 2 variable
21 s2 = np.sin(2 * np.pi * 10 * t) + nse2
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| H A D | csd_demo.py | 24 nse2 = np.random.randn(len(t)) # white noise 2 variable
28 cnse2 = np.convolve(nse2, r, mode='same') * dt # colored noise 2
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