| /dports/biology/molden/molden5.8/ambfor/ |
| H A D | tors.f | 439 trs1(3) = cos(angl)
440 trs1(4) = sin(angl)
445 trs2(3) = cos(angl)
446 trs2(4) = sin(angl)
451 trs3(3) = cos(angl)
452 trs3(4) = sin(angl)
457 trs4(3) = cos(angl)
458 trs4(4) = sin(angl)
521 trs1(3) = cos(angl)
522 trs1(4) = sin(angl)
[all …]
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| /dports/textproc/libwps/libwps-0.4.12/src/lib/ |
| H A D | WPSGraphicShape.cpp | 109 m_x = Vec2f(std::cos(angl)*m_x[0]-std::sin(angl)*m_x[1], in rotate()
110 std::sin(angl)*m_x[0]+std::cos(angl)*m_x[1])+decal; in rotate()
118 m_x1 = Vec2f(std::cos(angl)*m_x1[0]-std::sin(angl)*m_x1[1], in rotate()
119 std::sin(angl)*m_x1[0]+std::cos(angl)*m_x1[1])+decal; in rotate()
122 m_x2 = Vec2f(std::cos(angl)*m_x2[0]-std::sin(angl)*m_x2[1], in rotate()
123 std::sin(angl)*m_x2[0]+std::cos(angl)*m_x2[1])+decal; in rotate()
352 pt = Vec2f(std::cos(angl)*pt[0]-std::sin(angl)*pt[1], in rotate()
353 std::sin(angl)*pt[0]+std::cos(angl)*pt[1])+decal; in rotate()
471 pt=center+Vec2f(std::cos(angl)*rad[0],-std::sin(angl)*rad[1]); in addTo()
479 pt=center+Vec2f(std::cos(angl)*rad[0],-std::sin(angl)*rad[1]); in addTo()
[all …]
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| /dports/converters/p5-LaTeXML/LaTeXML-0.8.6/lib/LaTeXML/Package/ |
| H A D | actuarialangle.sty.ltxml | 33 Let('\lx@actuarialangle@angl', '\angl');
34 DefMath('\angl{}', '\lx@actuarialangle@angl{#1}');
36 DefMath('\angln', '\angl{n}');
37 DefMath('\anglr', '\angl{r}');
38 DefMath('\anglk', '\angl{k}');
|
| /dports/science/nwchem/nwchem-7b21660b82ebd85ef659f6fba7e1e73433b0bd0a/src/prepar/ |
| H A D | pre_hybrid.F | 12 real*8 angl
13 external angl
44 angle1=angl(xatm(1,nl(1)),xatm(1,i),xatm(1,nl(2)))
54 angle1=angl(xatm(1,nl(1)),xatm(1,i),xatm(1,nl(2)))
60 angle2=angl(xatm(1,nl(1)),xatm(1,i),xatm(1,nl(3)))
66 angle3=angl(xatm(1,nl(2)),xatm(1,i),xatm(1,nl(3)))
76 angle1=angl(xatm(1,nl(1)),xatm(1,i),xatm(1,nl(2)))
82 angle2=angl(xatm(1,nl(1)),xatm(1,i),xatm(1,nl(3)))
88 angle3=angl(xatm(1,nl(1)),xatm(1,i),xatm(1,nl(4)))
94 angle4=angl(xatm(1,nl(2)),xatm(1,i),xatm(1,nl(3)))
[all …]
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| /dports/science/nwchem-data/nwchem-7.0.2-release/src/argos/ |
| H A D | argos_prep_hybrid.F | 13 real*8 angl local
14 external angl
45 angle1=angl(xatm(1,nl(1)),xatm(1,i),xatm(1,nl(2)))
55 angle1=angl(xatm(1,nl(1)),xatm(1,i),xatm(1,nl(2)))
61 angle2=angl(xatm(1,nl(1)),xatm(1,i),xatm(1,nl(3)))
67 angle3=angl(xatm(1,nl(2)),xatm(1,i),xatm(1,nl(3)))
77 angle1=angl(xatm(1,nl(1)),xatm(1,i),xatm(1,nl(2)))
83 angle2=angl(xatm(1,nl(1)),xatm(1,i),xatm(1,nl(3)))
89 angle3=angl(xatm(1,nl(1)),xatm(1,i),xatm(1,nl(4)))
95 angle4=angl(xatm(1,nl(2)),xatm(1,i),xatm(1,nl(3)))
[all …]
|
| H A D | argos_prepare_hybrid.F | 13 real*8 angl
14 external angl
45 angle1=angl(xatm(1,nl(1)),xatm(1,i),xatm(1,nl(2)))
55 angle1=angl(xatm(1,nl(1)),xatm(1,i),xatm(1,nl(2)))
61 angle2=angl(xatm(1,nl(1)),xatm(1,i),xatm(1,nl(3)))
67 angle3=angl(xatm(1,nl(2)),xatm(1,i),xatm(1,nl(3)))
77 angle1=angl(xatm(1,nl(1)),xatm(1,i),xatm(1,nl(2)))
83 angle2=angl(xatm(1,nl(1)),xatm(1,i),xatm(1,nl(3)))
89 angle3=angl(xatm(1,nl(1)),xatm(1,i),xatm(1,nl(4)))
95 angle4=angl(xatm(1,nl(2)),xatm(1,i),xatm(1,nl(3)))
[all …]
|
| /dports/science/nwchem-data/nwchem-7.0.2-release/src/prepar/ |
| H A D | pre_hybrid.F | 12 real*8 angl
13 external angl
44 angle1=angl(xatm(1,nl(1)),xatm(1,i),xatm(1,nl(2)))
54 angle1=angl(xatm(1,nl(1)),xatm(1,i),xatm(1,nl(2)))
60 angle2=angl(xatm(1,nl(1)),xatm(1,i),xatm(1,nl(3)))
66 angle3=angl(xatm(1,nl(2)),xatm(1,i),xatm(1,nl(3)))
76 angle1=angl(xatm(1,nl(1)),xatm(1,i),xatm(1,nl(2)))
82 angle2=angl(xatm(1,nl(1)),xatm(1,i),xatm(1,nl(3)))
88 angle3=angl(xatm(1,nl(1)),xatm(1,i),xatm(1,nl(4)))
94 angle4=angl(xatm(1,nl(2)),xatm(1,i),xatm(1,nl(3)))
[all …]
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| /dports/science/nwchem/nwchem-7b21660b82ebd85ef659f6fba7e1e73433b0bd0a/src/argos/ |
| H A D | argos_prepare_hybrid.F | 13 real*8 angl
14 external angl
45 angle1=angl(xatm(1,nl(1)),xatm(1,i),xatm(1,nl(2)))
55 angle1=angl(xatm(1,nl(1)),xatm(1,i),xatm(1,nl(2)))
61 angle2=angl(xatm(1,nl(1)),xatm(1,i),xatm(1,nl(3)))
67 angle3=angl(xatm(1,nl(2)),xatm(1,i),xatm(1,nl(3)))
77 angle1=angl(xatm(1,nl(1)),xatm(1,i),xatm(1,nl(2)))
83 angle2=angl(xatm(1,nl(1)),xatm(1,i),xatm(1,nl(3)))
89 angle3=angl(xatm(1,nl(1)),xatm(1,i),xatm(1,nl(4)))
95 angle4=angl(xatm(1,nl(2)),xatm(1,i),xatm(1,nl(3)))
[all …]
|
| H A D | argos_prep_hybrid.F | 13 real*8 angl
14 external angl
45 angle1=angl(xatm(1,nl(1)),xatm(1,i),xatm(1,nl(2)))
55 angle1=angl(xatm(1,nl(1)),xatm(1,i),xatm(1,nl(2)))
61 angle2=angl(xatm(1,nl(1)),xatm(1,i),xatm(1,nl(3)))
67 angle3=angl(xatm(1,nl(2)),xatm(1,i),xatm(1,nl(3)))
77 angle1=angl(xatm(1,nl(1)),xatm(1,i),xatm(1,nl(2)))
83 angle2=angl(xatm(1,nl(1)),xatm(1,i),xatm(1,nl(3)))
89 angle3=angl(xatm(1,nl(1)),xatm(1,i),xatm(1,nl(4)))
95 angle4=angl(xatm(1,nl(2)),xatm(1,i),xatm(1,nl(3)))
[all …]
|
| /dports/textproc/libmwaw03/libmwaw-0.3.20/src/lib/ |
| H A D | MWAWGraphicShape.cxx | 126 m_x = MWAWVec2f(std::cos(angl)*m_x[0]-std::sin(angl)*m_x[1], in rotate()
127 std::sin(angl)*m_x[0]+std::cos(angl)*m_x[1])+decal; in rotate()
134 m_x1 = MWAWVec2f(std::cos(angl)*m_x1[0]-std::sin(angl)*m_x1[1], in rotate()
135 std::sin(angl)*m_x1[0]+std::cos(angl)*m_x1[1])+decal; in rotate()
138 m_x2 = MWAWVec2f(std::cos(angl)*m_x2[0]-std::sin(angl)*m_x2[1], in rotate()
139 std::sin(angl)*m_x2[0]+std::cos(angl)*m_x2[1])+decal; in rotate()
392 pt = MWAWVec2f(std::cos(angl)*pt[0]-std::sin(angl)*pt[1], in rotate()
393 std::sin(angl)*pt[0]+std::cos(angl)*pt[1])+decal; in rotate()
530 pt=center+MWAWVec2f(std::cos(angl)*rad[0],-std::sin(angl)*rad[1]); in addTo()
538 pt=center+MWAWVec2f(std::cos(angl)*rad[0],-std::sin(angl)*rad[1]); in addTo()
[all …]
|
| /dports/science/py-pyscf/pyscf-2.0.1/pyscf/symm/ |
| H A D | basis.py | 202 angl = b[0]
203 n += _num_contract(b) * (angl*2+1)
503 angl = mol.bas_angular(ib)
505 degen = angl * 2 + 1
506 if angl == 1:
559 degen = angl * 2 + 1
560 if angl == 1:
576 if angl % 2:
597 angl = mol.bas_angular(ib)
599 degen = angl * 2 + 1
[all …]
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| /dports/cad/feappv/feappv-4.1i/program/ |
| H A D | ptrans.f | 2 subroutine ptrans(ia,angl,ul,p,s,nel,ndf,nst,isw) argument
34 real*8 angl(*),ul(nst,4),p(ndf,*),s(nst,nst) local
49 if(angl(i).ne.0.0d0) then
50 call pdegree(angl(i), sn,cs)
66 if(angl(i).ne.0.0d0) then
67 call pdegree(angl(i), sn,cs)
|
| H A D | pangl.f | 2 subroutine pangl(ix,nen,angl,angg,nrot) argument
25 real*8 angl(nen),angg(*) local
33 angl(n) = 0.0d0
37 angl(n) = angg(ii)
|
| /dports/cad/feappv/feappv-4.1i/plot/ |
| H A D | protv.f | 2 subroutine protv(nty,u,angl,ndm,ndf,numnp, du, flag) argument
30 real*8 u(ndf,*),angl(*),du(ndf,*) local
40 if(ndm.gt.1 .and. ndf.gt.1 .and. angl(n).ne.0.0d0) then
41 ang = angl(n)*0.017453292d0
|
| H A D | pdefm.f | 2 subroutine pdefm(x,b,c,angl,ndm,ndf,numnp, dr, flag) argument
36 real*8 x(ndm,*),b(ndf,*),angl(*),uu(3), vv(15), dr(3,*) local
46 if(ndm.gt.1 .and. ndf.gt.1 .and. angl(n).ne.0.0d0) then
47 call pdegree(angl(n), sn,cn)
|
| H A D | pltbou.f | 2 subroutine pltbou(id,x,angl,ip, ndm,ndf,numnp,nbou) argument
37 real*8 x(ndm,*),angl(*) local
47 if(angl(n).ne.0.0d0) then
48 ang = angl(n)*0.017453292d0
|
| H A D | pltfor.f | 2 subroutine pltfor(x,f,angl,id,ip,ndm,ndf,numnp,n1, isgn) argument
43 real*8 dd(3),xx(3,4),x(ndm,*),f(ndf,*),angl(*) local
102 if(angl(n).ne.0.0d0) then
103 ang = angl(n)*0.017453292d0
|
| /dports/cad/opencascade/opencascade-7.6.0/src/Geom2dInt/ |
| H A D | Geom2dInt_Geom2dCurveTool.cxx | 59 Standard_Real angl = 0.283079; //2.*ACos(1. - eps); in NbSamples() local
60 Standard_Integer n = RealToInt(Abs(U1 - U0) / angl); in NbSamples()
81 Standard_Real angl = 0.283079; //2.*ACos(1. - eps); in NbSamples() local
82 Standard_Integer n = RealToInt((C.LastParameter()-C.FirstParameter()) / angl); in NbSamples()
|
| /dports/misc/gimp-help-en/gimp-help-2.10.0/po/ca/ |
| H A D | preface.po | 212 msgstr "Andrew Pitonyak (anglès)"
216 msgstr "Jakub Friedl (txec, anglès)"
232 msgstr "Sally C. Barry (anglès)"
236 msgstr "Daniel Egger (anglès)"
260 msgstr "Calum Mackay (anglès)"
268 msgstr "Mel Boyce (syngin) (anglès)"
304 msgstr "Daryl Lee (anglès)"
308 msgstr "William Skaggs (anglès)"
352 msgstr "Jan Smith (anglès)"
372 msgstr "Mick Curtis (anglès)"
[all …]
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| /dports/science/xcrysden/xcrysden-1.6.2/C/ |
| H A D | detnsplit.c | 39 double angl, minangl = PI; /* parameters to detemine min angle */ in DetNBonds() local
125 angl = acos ( dx1 * dx2 + dy1 * dy2 + dz1 * dz2 ); in DetNBonds()
127 if ( angl < minangl ) in DetNBonds()
129 minangl = angl; in DetNBonds()
130 if ( angl < 0.087) /* this is appr. 5 degrees */ in DetNBonds()
|
| /dports/games/libretro-scummvm/scummvm-7b1e929/engines/zvision/scripting/effects/ |
| H A D | distort_effect.cpp | 89 void DistortNode::setParams(float angl, float linScale) { in setParams() argument
92 table->setPanoramaFoV(angl); in setParams()
97 table->setTiltFoV(angl); in setParams()
|
| /dports/games/scummvm/scummvm-2.5.1/engines/zvision/scripting/effects/ |
| H A D | distort_effect.cpp | 89 void DistortNode::setParams(float angl, float linScale) { in setParams() argument
92 table->setPanoramaFoV(angl); in setParams()
97 table->setTiltFoV(angl); in setParams()
|
| /dports/games/ecwolf/ecwolf-1.3.3-src/src/ |
| H A D | wl_draw.cpp | 752 if(angl<0) angl+=FINEANGLES; in AsmRefresh()
753 if(angl>=ANG360) angl-=FINEANGLES; in AsmRefresh()
754 if(angl<ANG90) in AsmRefresh()
758 xstep=finetangent[ANG90-1-angl]; in AsmRefresh()
759 ystep=-finetangent[angl]; in AsmRefresh()
763 else if(angl<ANG180) in AsmRefresh()
767 xstep=-finetangent[angl-ANG90]; in AsmRefresh()
772 else if(angl<ANG270) in AsmRefresh()
777 ystep=finetangent[angl-ANG180]; in AsmRefresh()
781 else if(angl<ANG360) in AsmRefresh()
[all …]
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| /dports/science/py-dipy/dipy-1.4.1/dipy/reconst/tests/ |
| H A D | test_shore_metrics.py | 22 angl = [(0, 0), (60, 0)]
23 S, _ = multi_tensor(gtab, mevals, S0=100.0, angles=angl,
83 angles=angl, fractions=[50, 50])
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| /dports/graphics/libprojectm/projectm-3.1.12/presets/presets_tryptonaut/ |
| H A D | yin - 385 - Magic ride (distance based hue).milk | 147 wave_0_per_point34=angl=t*188.493;
149 wave_0_per_point36=mx=mx+t3*c*(snX*cos(angl)+fnX*sin(angl));
150 wave_0_per_point37=my=my+t3*c*(snY*cos(angl)+fnY*sin(angl));
151 wave_0_per_point38=mz=mz+t3*c*(snZ*cos(angl)+fnZ*sin(angl));
329 wave_3_per_point34=angl=6.2831*cos(628.3185*sample+2.54+40*sin(62.8318*sample+.56));
331 wave_3_per_point36=mx=mx+rr*cos(angl);
332 wave_3_per_point37=my=my+rr*(cos(angl)/sin(angl));
333 wave_3_per_point38=mz=mz+rr*sin(angl);
|