/dports/astro/geographiclib/GeographicLib-1.52/maxima/ |
H A D | gearea.mac | 24 sin(beta) = cos(gamma0)*sin(sigma) 25 dlambda = dsigma * sin(gamma0) / (1 - cos(gamma0)^2*sin(sigma)^2) 27 k^2 = ep^2*cos(gamma0)^2 30 dA = dsigma*sin(gamma0)*cos(gamma0)*sin(sigma)/2*e^2*a^2*sqrt(1+ep^2)* 36 dA0 = dsigma*sin(gamma0)*cos(gamma0)*sin(sigma)/2* 38 / (1 - cos(gamma0)^2*sin(sigma)^2) 39 = dsigma*sin(gamma0)*cos(gamma0)*sin(sigma)/2*e^2*a^2*sqrt(1+ep^2) 43 dA-dA0 = dsigma*sin(gamma0)*cos(gamma0)*sin(sigma)/2*e^2*a^2*sqrt(1+ep^2)* 52 dA-dA0 = dsigma*sin(gamma0)*cos(gamma0)*sin(sigma)/2*e^2*a^2* 59 dA-dA0 = e^2*a^2*dsigma*sin(gamma0)*cos(gamma0)* [all …]
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/dports/science/nwchem-data/nwchem-7.0.2-release/src/cons/ |
H A D | cons_input.F | 22 double precision k,r,K0,gcut0,gamma0,coef(20) 162 if(cons_harm_bondings_input(n,indx,coef,K0,gamma0)) then 163 call cons_add_bondings(namespace,n,indx,coef,K0,gamma0,rtdb) 179 if(cons_penalty_bondings_input(n,indx,coef,K0,gcut0,gamma0)) 182 > gcut0,gamma0,rtdb) 326 logical function cons_harm_bondings_input(n,indx,coef,K0,gamma0) 336 double precision coef(*),K0,gamma0 347 gamma0 = ftest 377 > gcut0,gamma0) 387 double precision coef(*),K0,gcut0,gamma0 [all …]
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H A D | cons_springs.F | 391 double precision K0,gamma0,gamm 415 gamma0 = dbl_mb(i_gamma0+i-1) 425 > K0,gamma0 471 double precision gamma0,K0,gamm 494 gamma0 = dbl_mb(i_gamma0+i-1) 504 > K0,gamma0 785 > K0,gcut0,gamma0 866 > K0,gcut0,gamma0 1231 energy = K0*(gamm-gamma0)**2 1263 energy = K0*(gamm-gamma0)**2 [all …]
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/dports/science/nwchem/nwchem-7b21660b82ebd85ef659f6fba7e1e73433b0bd0a/src/cons/ |
H A D | cons_input.F | 22 double precision k,r,K0,gcut0,gamma0,c0,coef(20) 162 if(cons_harm_bondings_input(n,indx,coef,K0,gamma0)) then 163 call cons_add_bondings(namespace,n,indx,coef,K0,gamma0,rtdb) 180 > K0,gcut0,gamma0,c0)) 183 > gcut0,gamma0,c0,rtdb) 327 logical function cons_harm_bondings_input(n,indx,coef,K0,gamma0) 337 double precision coef(*),K0,gamma0 348 gamma0 = ftest 378 > gcut0,gamma0,c0) 388 double precision coef(*),K0,gcut0,gamma0,c0 [all …]
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H A D | cons_springs.F | 391 double precision K0,gamma0,gamm 415 gamma0 = dbl_mb(i_gamma0+i-1) 425 > K0,gamma0 471 double precision gamma0,K0,gamm 494 gamma0 = dbl_mb(i_gamma0+i-1) 504 > K0,gamma0 796 gamma0 = dbl_mb(i_gamma0+i-1) 807 > K0,gcut0,gamma0,c0 890 > K0,gcut0,gamma0,c0 1257 energy = K0*(gamm-gamma0)**2 [all …]
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/dports/science/lammps/lammps-stable_29Sep2021/src/DIPOLE/ |
H A D | angle_dipole.cpp | 39 gamma0 = nullptr; in AngleDipole() 49 memory->destroy(gamma0); in ~AngleDipole() 93 deltaGamma = cosGamma - cos(gamma0[type]); in compute() 146 memory->create(gamma0, n + 1, "angle:gamma0"); in allocate() 172 gamma0[i] = gamma0_one / 180.0 * MY_PI; in coeff() 196 return gamma0[i]; in equilibrium_angle() 206 fwrite(&gamma0[1], sizeof(double), atom->nangletypes, fp); in write_restart() 219 utils::sfread(FLERR, &gamma0[1], sizeof(double), atom->nangletypes, fp, nullptr, error); in read_restart() 222 MPI_Bcast(&gamma0[1], atom->nangletypes, MPI_DOUBLE, 0, world); in read_restart() 233 for (int i = 1; i <= atom->nangletypes; i++) fprintf(fp, "%d %g %g\n", i, k[i], gamma0[i]); in write_data() [all …]
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/dports/science/quantum-espresso/q-e-qe-6.7.0/atomic/src/ |
H A D | dirsol.f90 | 68 factor,gamma0, & local 208 gamma0=sqrt(kcur**2-4.0_DP*(abyt*zed)**2) 211 f0 = (kcur+gamma0)/(2.0_DP*abyt*zed) 216 g0 = (kcur-gamma0)/(2.0_DP*abyt*zed) 219 f1 = - (ecur-vzero) * abyt * g0 / ( gamma0 - kcur + 1.0_DP ) 220 g1 = (ecur-vzero+tbya**2) * abyt * f0 / ( gamma0 + kcur + 1.0_DP ) 221 f2 = - (ecur-vzero) * abyt * g1 / ( gamma0 - kcur + 2.0_DP ) 222 g2 = (ecur-vzero+tbya**2) * abyt * f1 / ( gamma0 + kcur + 2.0_DP ) 226 yy(ir,1) = grid%r(ir)**gamma0*(f0+grid%r(ir)*(f1+grid%r(ir)*f2)) 227 yy(ir,2) = grid%r(ir)**gamma0*(g0+grid%r(ir)*(g1+grid%r(ir)*g2))
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H A D | dir_outward.f90 | 60 gamma0, & local 147 f0 = (kcur+gamma0)/(2.0_DP*abyt*zed) 151 g0 = (kcur-gamma0)/(2.0_DP*abyt*zed) 160 yy(ir,1) = r(ir)**gamma0 * ( f0 + r(ir) * ( f1 + r(ir) * f2 ) ) 161 yy(ir,2) = r(ir)**gamma0 * ( g0 + r(ir) * ( g1 + r(ir) * g2 ) )
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/dports/science/code_saturne/code_saturne-7.1.0/src/cfbl/ |
H A D | cs_cf_thermo.c | 357 cs_real_t gamma0; in cs_cf_thermo_te_from_dp() local 370 ener[ii] = (pres[ii]+gamma0*psginf) / ((gamma0-1.)*dens[ii]) + 0.5*v2; in cs_cf_thermo_te_from_dp() 425 cs_real_t gamma0; in cs_cf_thermo_de_from_pt() local 494 cs_real_t gamma0; in cs_cf_thermo_dt_from_pe() local 509 dens[ii] = (pres[ii]+gamma0*psginf) / ((gamma0-1.)*enint); in cs_cf_thermo_dt_from_pe() 569 cs_real_t gamma0; in cs_cf_thermo_pe_from_dt() local 642 cs_real_t gamma0; in cs_cf_thermo_pt_from_de() local 657 pres[ii] = (gamma0-1.)*dens[ii]*enint - gamma0*psginf; in cs_cf_thermo_pt_from_de() 742 cs_real_t gamma0; in cs_cf_thermo_c_square() local 809 cs_real_t gamma0; in cs_cf_thermo_beta() local [all …]
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/dports/science/dakota/dakota-6.13.0-release-public.src-UI/packages/external/VPISparseGrid/test/ |
H A D | sandia_cubature_prb.cpp | 200 double gamma0; in cn_geg_test() local 267 gamma0 = 1.0; in cn_geg_test() 442 double gamma0; in cn_jac_test() local 650 double gamma0; in cn_leg_test() local 1588 gamma0 = 1.0; in gw_tests() 1608 gamma0 = 2.0; in gw_tests() 1629 gamma0 = 1.0; in gw_tests() 1651 gamma0 = 2.0; in gw_tests() 1694 gamma0 = 2.0; in gw_tests() 1714 gamma0 = 1.0; in gw_tests() [all …]
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/dports/math/vtk6/VTK-6.2.0/ThirdParty/libproj4/vtklibproj4/ |
H A D | proj_omerc.c | 101 gamma0, lamc = 0., lam1 = 0., lam2 = 0., phi1 = 0., phi2 =0., alpha_c = 0.; 148 gamma0 = asin(sin(alpha_c) / D); 152 alpha_c = asin(D*sin(gamma0 = gammaval)); 158 tan(gamma0)) / P->B; 172 gamma0 = atan(2. * sin(P->B * proj_adjlon(lam1 - P->lam0)) / 174 gammaval = alpha_c = asin(D * sin(gamma0)); 176 P->singam = sin(gamma0); 177 P->cosgam = cos(gamma0); 189 F = 0.5 * gamma0;
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/dports/math/reduce/Reduce-svn5758-src/packages/redlog/regressions/reals/rlposqe/ |
H A D | ab07hopf9.tst | 10 - vv2 < 0) and (((((( gamma0*theta - theta*vv1*vv3**9 - theta*vv1 = 0 11 and gamma0*mu + lambda1*vv1 - vv2 = 0) and 9*alpha*gamma0 - 21 + theta*vv3**9 + theta = 0) and - theta < 0) and - gamma0 < 0) and - mu
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H A D | ab07hopf9.rlg | 14 - vv2 < 0) and (((((( gamma0*theta - theta*vv1*vv3**9 - theta*vv1 = 0 15 and gamma0*mu + lambda1*vv1 - vv2 = 0) and 9*alpha*gamma0 - 25 + theta*vv3**9 + theta = 0) and - theta < 0) and - gamma0 < 0) and - mu
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/dports/math/reduce/Reduce-svn5758-src/packages/redlog/regressions/reals/rlposqea/ |
H A D | ab07hopf9.tst | 10 - vv2 < 0) and (((((( gamma0*theta - theta*vv1*vv3**9 - theta*vv1 = 0 11 and gamma0*mu + lambda1*vv1 - vv2 = 0) and 9*alpha*gamma0 - 21 + theta*vv3**9 + theta = 0) and - theta < 0) and - gamma0 < 0) and - mu
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/dports/math/R-cran-mcmc/mcmc/tests/ |
H A D | initseq.R | 22 all.equal(gamma[1], out$gamma0) 42 all.equal(2 * sum(out$Gamma.pos) - out$gamma0, out$var.pos) 43 all.equal(2 * sum(out$Gamma.dec) - out$gamma0, out$var.dec) 44 all.equal(2 * sum(out$Gamma.con) - out$gamma0, out$var.con)
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/dports/math/py-sympy/sympy-1.9/sympy/physics/tests/ |
H A D | test_physics_matrices.py | 56 gamma0 = mgamma(0) 63 assert gamma5 == gamma0 * gamma1 * gamma2 * gamma3 * I 65 assert gamma0 * gamma0 == eye(4) * minkowski_tensor[0, 0]
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/dports/science/xcrysden/xcrysden-1.6.2/F/SRC_nn/ |
H A D | dirlat.f | 25 gamma0=acos(cosg1) 51 BR2(1,1)=1.0d0*sin(gamma0)*sin(beta1) 52 BR2(1,2)=1.0d0*cos(gamma0)*sin(beta1) 64 write(*,*) alpha0,beta0,gamma0,ortho,br2
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/dports/devel/boost-docs/boost_1_72_0/boost/geometry/srs/projections/proj/ |
H A D | omerc.hpp | 168 gamma0, lamc=0, lam1=0, lam2=0, phi1=0, phi2=0, alpha_c=0; in setup_omerc() local 225 gamma0 = aasin(sin(alpha_c) / D); in setup_omerc() 229 alpha_c = aasin(D*sin(gamma0 = gamma)); in setup_omerc() 231 tan(gamma0)) / proj_parm.B; in setup_omerc() 245 gamma0 = atan(2. * sin(proj_parm.B * adjlon(lam1 - par.lam0)) / in setup_omerc() 247 gamma = alpha_c = aasin(D * sin(gamma0)); in setup_omerc() 249 proj_parm.singam = sin(gamma0); in setup_omerc() 250 proj_parm.cosgam = cos(gamma0); in setup_omerc() 262 F = 0.5 * gamma0; in setup_omerc()
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/dports/devel/hyperscan/boost_1_75_0/boost/geometry/srs/projections/proj/ |
H A D | omerc.hpp | 168 gamma0, lamc=0, lam1=0, lam2=0, phi1=0, phi2=0, alpha_c=0; in setup_omerc() local 225 gamma0 = aasin(sin(alpha_c) / D); in setup_omerc() 229 alpha_c = aasin(D*sin(gamma0 = gamma)); in setup_omerc() 231 tan(gamma0)) / proj_parm.B; in setup_omerc() 245 gamma0 = atan(2. * sin(proj_parm.B * adjlon(lam1 - par.lam0)) / in setup_omerc() 247 gamma = alpha_c = aasin(D * sin(gamma0)); in setup_omerc() 249 proj_parm.singam = sin(gamma0); in setup_omerc() 250 proj_parm.cosgam = cos(gamma0); in setup_omerc() 262 F = 0.5 * gamma0; in setup_omerc()
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/dports/math/vtk9/VTK-9.1.0/ThirdParty/libproj/vtklibproj/src/ |
H A D | PJ_omerc.c | 127 gamma0, lamc=0, lam1=0, lam2=0, phi1=0, phi2=0, alpha_c=0; in PROJECTION() local 189 gamma0 = asin(sin(alpha_c) / D); in PROJECTION() 193 alpha_c = asin(D*sin(gamma0 = gamma)); in PROJECTION() 199 tan(gamma0)) / Q->B; in PROJECTION() 213 gamma0 = atan(2. * sin(Q->B * adjlon(lam1 - P->lam0)) / in PROJECTION() 215 gamma = alpha_c = asin(D * sin(gamma0)); in PROJECTION() 217 Q->singam = sin(gamma0); in PROJECTION() 218 Q->cosgam = cos(gamma0); in PROJECTION() 230 F = 0.5 * gamma0; in PROJECTION()
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/dports/devel/R-cran-BH/BH/inst/include/boost/geometry/srs/projections/proj/ |
H A D | omerc.hpp | 168 gamma0, lamc=0, lam1=0, lam2=0, phi1=0, phi2=0, alpha_c=0; in setup_omerc() local 225 gamma0 = aasin(sin(alpha_c) / D); in setup_omerc() 229 alpha_c = aasin(D*sin(gamma0 = gamma)); in setup_omerc() 231 tan(gamma0)) / proj_parm.B; in setup_omerc() 245 gamma0 = atan(2. * sin(proj_parm.B * adjlon(lam1 - par.lam0)) / in setup_omerc() 247 gamma = alpha_c = aasin(D * sin(gamma0)); in setup_omerc() 249 proj_parm.singam = sin(gamma0); in setup_omerc() 250 proj_parm.cosgam = cos(gamma0); in setup_omerc() 262 F = 0.5 * gamma0; in setup_omerc()
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/dports/math/stanmath/math-4.2.0/lib/boost_1.75.0/boost/geometry/srs/projections/proj/ |
H A D | omerc.hpp | 168 gamma0, lamc=0, lam1=0, lam2=0, phi1=0, phi2=0, alpha_c=0; in setup_omerc() local 225 gamma0 = aasin(sin(alpha_c) / D); in setup_omerc() 229 alpha_c = aasin(D*sin(gamma0 = gamma)); in setup_omerc() 231 tan(gamma0)) / proj_parm.B; in setup_omerc() 245 gamma0 = atan(2. * sin(proj_parm.B * adjlon(lam1 - par.lam0)) / in setup_omerc() 247 gamma = alpha_c = aasin(D * sin(gamma0)); in setup_omerc() 249 proj_parm.singam = sin(gamma0); in setup_omerc() 250 proj_parm.cosgam = cos(gamma0); in setup_omerc() 262 F = 0.5 * gamma0; in setup_omerc()
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/dports/science/py-scipy/scipy-1.7.1/scipy/_lib/boost/boost/geometry/srs/projections/proj/ |
H A D | omerc.hpp | 168 gamma0, lamc=0, lam1=0, lam2=0, phi1=0, phi2=0, alpha_c=0; in setup_omerc() local 225 gamma0 = aasin(sin(alpha_c) / D); in setup_omerc() 229 alpha_c = aasin(D*sin(gamma0 = gamma)); in setup_omerc() 231 tan(gamma0)) / proj_parm.B; in setup_omerc() 245 gamma0 = atan(2. * sin(proj_parm.B * adjlon(lam1 - par.lam0)) / in setup_omerc() 247 gamma = alpha_c = aasin(D * sin(gamma0)); in setup_omerc() 249 proj_parm.singam = sin(gamma0); in setup_omerc() 250 proj_parm.cosgam = cos(gamma0); in setup_omerc() 262 F = 0.5 * gamma0; in setup_omerc()
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/dports/math/deal.ii/dealii-803d21ff957e349b3799cd3ef2c840bc78734305/bundled/boost-1.70.0/include/boost/geometry/srs/projections/proj/ |
H A D | omerc.hpp | 174 gamma0, lamc=0, lam1=0, lam2=0, phi1=0, phi2=0, alpha_c=0; in setup_omerc() local 231 gamma0 = aasin(sin(alpha_c) / D); in setup_omerc() 235 alpha_c = aasin(D*sin(gamma0 = gamma)); in setup_omerc() 237 tan(gamma0)) / proj_parm.B; in setup_omerc() 251 gamma0 = atan(2. * sin(proj_parm.B * adjlon(lam1 - par.lam0)) / in setup_omerc() 253 gamma = alpha_c = aasin(D * sin(gamma0)); in setup_omerc() 255 proj_parm.singam = sin(gamma0); in setup_omerc() 256 proj_parm.cosgam = cos(gamma0); in setup_omerc() 268 F = 0.5 * gamma0; in setup_omerc()
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/dports/graphics/proj/proj-7.2.1/src/projections/ |
H A D | omerc.cpp | 126 gamma0, lamc=0, lam1=0, lam2=0, phi1=0, phi2=0, alpha_c=0; in PROJECTION() local 191 gamma0 = aasin(P->ctx, sin(alpha_c) / D); in PROJECTION() 195 alpha_c = aasin(P->ctx, D*sin(gamma0 = gamma)); in PROJECTION() 200 tan(gamma0)) / Q->B; in PROJECTION() 222 gamma0 = atan(2. * sin(Q->B * adjlon(lam1 - P->lam0)) / denom); in PROJECTION() 223 gamma = alpha_c = aasin(P->ctx, D * sin(gamma0)); in PROJECTION() 225 Q->singam = sin(gamma0); in PROJECTION() 226 Q->cosgam = cos(gamma0); in PROJECTION() 238 F = 0.5 * gamma0; in PROJECTION()
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