/dports/textproc/py-xmlschema/xmlschema-1.8.2/tests/ |
H A D | test_xpath.py | 41 schema_proxy = XMLSchemaProxy(self.xs1, base_element=self.xs1.elements['vehicles']) 134 self.assertEqual(set(iter_schema_nodes(self.xs1)), vh_elements | {self.xs1}) 151 cars = self.xs1.elements['cars'] 152 car = self.xs1.find('//vh:car') 188 self.assertListEqual(self.xs1.findall("*"), self.xs1.findall("./*")) 189 self.assertEqual(self.xs1.find("./vh:bikes"), self.xs1.elements['bikes']) 192 self.assertNotEqual(self.xs1.find("./vh:vehicles/vh:cars"), self.xs1.elements['cars']) 193 self.assertNotEqual(self.xs1.find("/vh:vehicles/vh:cars"), self.xs1.elements['cars']) 194 self.assertEqual(self.xs1.find("vh:vehicles/vh:cars/.."), self.xs1.elements['vehicles']) 195 self.assertEqual(self.xs1.find("vh:vehicles/*/.."), self.xs1.elements['vehicles']) [all …]
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/dports/science/libxc/libxc-5.0.0/maple/ |
H A D | tpss_c.mpl | 11 tpss_csi2 := (z, xt, xs0, xs1) -> 19 tpss_C0 := (cc, z, xt, xs0, xs1) -> 27 tpss_par := (f_gga, rs, z, xt, xs0, xs1, ts0, ts1) -> 33 tpss_par := (f_gga, rs, z, xt, xs0, xs1, ts0, ts1) -> 36 + m_max(f_gga(rs*(2/(1 - z))^(1/3), -1, xs1, 0, xs1), f_gga(rs, z, xt, xs0, xs1))*(1 - z)/2 41 * f_gga(rs, z, xt, xs0, xs1): 44 tpss_f0 := (f_gga, rs, z, xt, xs0, xs1, ts0, ts1) -> 45 + tpss_par (f_gga, rs, z, xt, xs0, xs1, ts0, ts1) 46 + tpss_perp(f_gga, rs, z, xt, xs0, xs1, ts0, ts1): 49 tpss_f := (f_gga, rs, z, xt, xs0, xs1, ts0, ts1) -> [all …]
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H A D | op.mpl | 14 op_beta := (rs, z, xs0, xs1) -> 15 op_qab/b88_zab(1, op_enhancement, rs, z, xs0, xs1): 17 op_f := (rs, z, xt, xs0, xs1) -> 19 * (op_a1*op_beta(rs, z, xs0, xs1) + op_a2) 20 …/ (op_beta(rs, z, xs0, xs1)^4 + op_b1*op_beta(rs, z, xs0, xs1)^3 + op_b2*op_beta(rs, z, xs0, xs1)^… 22 f := (rs, z, xt, xs0, xs1) -> 23 op_f(rs, z, xt, xs0, xs1):
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H A D | b97.mpl | 14 b97_fpar := (lda_func, mgamma, cc, rs, z, xs0, xs1) -> 16 b97_fperp := (lda_func, mgamma, cc, rs, z, xs0, xs1) -> 0: 18 b97_fpar := (lda_func, mgamma, cc, rs, z, xs0, xs1) -> 20 + lda_stoll_par(lda_func, rs, -z) * b97_g(mgamma, cc, xs1): 22 b97_fperp := (lda_func, mgamma, cc, rs, z, xs0, xs1) -> 23 lda_stoll_perp(lda_func, rs, z) * b97_g(mgamma, cc, sqrt(xs0^2 + xs1^2)/sqrt(2)): 26 b97_f := (lda_func, gamma_ss, cc_ss, gamma_ab, cc_ab, rs, z, xs0, xs1) -> 27 + b97_fpar (lda_func, gamma_ss, cc_ss, rs, z, xs0, xs1) 28 + b97_fperp(lda_func, gamma_ab, cc_ab, rs, z, xs0, xs1):
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H A D | util.mpl | 90 gga_exchange_nsp := (func, rs, z, xs0, xs1) -> 92 gga_exchange := (func, rs, z, xs0, xs1) -> 94 gga_kinetic := (func, rs, z, xs0, xs1) -> 99 mgga_exchange := (func, rs, z, xs0, xs1, u0, u1, t0, t1) -> 101 mgga_kinetic := (func, rs, z, xs0, xs1, u0, u1) -> 104 gga_exchange_nsp := (func, rs, z, xs0, xs1) -> 106 gga_exchange := (func, rs, z, xs0, xs1) -> 108 gga_kinetic := (func, rs, z, xs0, xs1) -> 113 mgga_exchange := (func, rs, z, xs0, xs1, u0, u1, t0, t1) -> 115 mgga_kinetic := (func, rs, z, xs0, xs1, u0, u1) -> [all …]
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H A D | b97mv.mpl | 26 b97mv_fpar := (rs, z, xs0, xs1, ts0, ts1) -> 29 b97mv_fos := (rs, z, xs0, xs1, ts0, ts1) -> 0: 31 b97mv_fpar := (rs, z, xs0, xs1, ts0, ts1) -> 33 …pw , rs, -z, -1) * b97mv_g(b97mv_gamma_ss, b97mv_wx_ss, b97mv_par_ss, b97mv_par_n, xs1, ts1, 0): 35 b97mv_fos := (rs, z, xs0, xs1, ts0, ts1) -> 37 …* b97mv_g(b97mv_gamma_os, b97mv_wx_os, b97mv_par_os, b97mv_par_n, sqrt(xs0^2 + xs1^2)/sqrt(2), ts0… 40 b97mv_f := (rs, z, xs0, xs1, ts0, ts1) -> 41 + b97mv_fpar(rs, z, xs0, xs1, ts0, ts1) 42 + b97mv_fos(rs, z, xs0, xs1, ts0, ts1):
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H A D | th.mpl | 10 YY := (z, xt, xs0, xs1) -> 2*(XX(z, xs0)^2 + XX(-z, xs1)^2) - xt^2: 12 f_th := (rs, z, xt, xs0, xs1) -> add(params_a_omega[i] 15 * 1/2*(XX(z, xs0)^params_a_c[i] + XX(-z, xs1)^params_a_c[i]) 16 * YY(z, xt, xs0, xs1)^params_a_d[i], i=1..params_a_n)/n_total(rs):
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/dports/science/libxc/libxc-5.0.0/maple/mgga_exc/ |
H A D | mgga_c_pkzb.mpl | 17 pkzb_perp := (rs, z, xt, xs0, xs1, ts0, ts1) -> 0: 19 pkzb_par := (rs, z, xt, xs0, xs1, ts0, ts1) -> 22 pkzb_perp := (rs, z, xt, xs0, xs1, ts0, ts1) -> 23 + (1 + pkzb_c*(t_total(z, xs0^2, xs1^2)/(8*t_total(z, ts0, ts1)))^2) 24 * f_pbe(rs, z, xt, xs0, xs1): 26 pkzb_par := (rs, z, xt, xs0, xs1, ts0, ts1) -> 29 + (xs1^2/(8*ts1))^2*gga_stoll_par(f_pbe, rs, -z, xs1, -1) 33 pkzb_f := (rs, z, xt, xs0, xs1, ts0, ts1) -> 34 pkzb_perp(rs, z, xt, xs0, xs1, ts0, ts1) + pkzb_par(rs, z, xt, xs0, xs1, ts0, ts1): 36 f := (rs, z, xt, xs0, xs1, us0, us1, ts0, ts1) -> [all …]
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H A D | mgga_c_bc95.mpl | 23 bc95_gperp := (xs0, xs1) -> 1/(1 + params_a_copp*(xs0^2 + xs1^2)): 27 bc95_fpar := (rs, z, xs0, xs1, ts0, ts1) -> 30 bc95_fperp := (rs, z, xs0, xs1) -> 0: 32 bc95_fpar := (rs, z, xs0, xs1, ts0, ts1) -> 36 bc95_fperp := (rs, z, xs0, xs1) -> 37 lda_stoll_perp(f_pw, rs, z) * bc95_gperp(xs0, xs1): 40 f_bc95 := (rs, z, xs0, xs1, ts0, ts1) -> 41 + bc95_fpar (rs, z, xs0, xs1, ts0, ts1) 42 + bc95_fperp(rs, z, xs0, xs1): 44 f := (rs, z, xt, xs0, xs1, us0, us1, ts0, ts1) -> [all …]
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H A D | mgga_c_b88.mpl | 25 b88_par := (rs, z, xs0, xs1, ts0, ts1) -> 28 b88_cab := (rs, z, xs0, xs1) -> 0: 30 b88_par := (rs, z, xs0, xs1, ts0, ts1) -> 32 + b88_css(rs, -z, xs1, ts1): 34 b88_cab := (rs, z, xs0, xs1) -> 36 * b88_zab(cab, b88_f, rs, z, xs0, xs1)^2 * ( 38 / b88_zab(cab, b88_f, rs, z, xs0, xs1) 42 b88_c_f := (rs, z, xs0, xs1, ts0, ts1) -> 43 + b88_cab(rs, z, xs0, xs1) 44 + b88_par(rs, z, xs0, xs1, ts0, ts1): [all …]
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H A D | mgga_c_vsxc.mpl | 24 vsxc_fpar := (rs, z, xs0, xs1, ts0, ts1) -> 29 vsxc_fperp := (rs, z, xs0, xs1, ts0, ts1) -> 0: 37 vsxc_fpar := (rs, z, xs0, xs1, ts0, ts1) -> 39 + vsxc_comp(rs, -z, -1, xs1, ts1): 41 vsxc_fperp := (rs, z, xs0, xs1, ts0, ts1) -> 43 * gtv4(params_a_alpha_ab, params_a_dab, sqrt(xs0^2 + xs1^2), 2*(ts0 + ts1 - 2*K_FACTOR_C)): 46 vsxc_f := (rs, z, xs0, xs1, ts0, ts1) -> 47 + vsxc_fpar (rs, z, xs0, xs1, ts0, ts1) 48 + vsxc_fperp(rs, z, xs0, xs1, ts0, ts1): 50 f := (rs, z, xt, xs0, xs1, us0, us1, ts0, ts1) -> [all …]
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H A D | mgga_c_m05.mpl | 25 m05_fpar := (rs, z, xs0, xs1, t0, t1) -> 37 m05_fpar := (rs, z, xs0, xs1, t0, t1) -> 39 + m05_comp(rs, -z, -1, xs1, t1): 41 m05_fperp := (rs, z, xs0, xs1, t0, t1) -> 43 * b97_g(params_a_gamma_ab, params_a_cab, sqrt(xs0^2 + xs1^2)): 46 m05_f := (rs, z, xs0, xs1, t0, t1) -> 47 + m05_fpar (rs, z, xs0, xs1, t0, t1) 48 + m05_fperp(rs, z, xs0, xs1, t0, t1): 50 f := (rs, z, xt, xs0, xs1, u0, u1, t0, t1) -> 51 m05_f(rs, z, xs0, xs1, t0, t1):
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H A D | mgga_xc_b98.mpl | 30 b98_f := (rs, z, xs0, xs1, us0, us1, ts0, ts1) -> 36 b98_f := (rs, z, xs0, xs1, us0, us1, ts0, ts1) -> 40 * b98_g( b98_gamma_x, params_a_c_x, b98_q(xs1, us1, ts1)) 44 * b98_g(b98_gamma_ss, params_a_c_ss, b98_q(xs1, us1, ts1)) * Fermi_D(xs1, ts1) 46 * b98_g(b98_gamma_ab, params_a_c_ab, (b98_q(xs0, us0, ts0) + b98_q(xs1, us1, ts1))/2): 49 f := (rs, z, xt, xs0, xs1, us0, us1, ts0, ts1) -> 50 b98_f(rs, z, xs0, xs1, us0, us1, ts0, ts1):
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H A D | hyb_mgga_xc_wb97mv.mpl | 47 wb97mv_f := (rs, z, xs0, xs1, ts0, ts1) -> 50 wb97mv_f := (rs, z, xs0, xs1, ts0, ts1) -> 54 * b97mv_g(b97mv_gamma_x, b97mv_wx_ss, b97mv_par_x, b97mv_par_n, xs1, ts1, 0): 57 f := (rs, z, xt, xs0, xs1, us0, us1, ts0, ts1) -> 58 wb97mv_f(rs, z, xs0, xs1, ts0, ts1) + 59 b97mv_f(rs, z, xs0, xs1, ts0, ts1):
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H A D | mgga_xc_b97mv.mpl | 45 b97mv_f_aux := (rs, z, xs0, xs1, ts0, ts1) -> 48 b97mv_f_aux := (rs, z, xs0, xs1, ts0, ts1) -> 52 * b97mv_g(b97mv_gamma_x, b97mv_wx_ss, b97mv_par_x, b97mv_par_n, xs1, ts1, 0): 55 f := (rs, z, xt, xs0, xs1, us0, us1, ts0, ts1) -> 56 + b97mv_f_aux(rs, z, xs0, xs1, ts0, ts1) 57 + b97mv_f(rs, z, xs0, xs1, ts0, ts1):
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H A D | mgga_c_m06l.mpl | 20 m06l_f := (rs, z, xs0, xs1, ts0, ts1) -> 21 + m05_f(rs, z, xs0, xs1, ts0, ts1) 22 + vsxc_f(rs, z, xs0, xs1, ts0, ts1): 24 f := (rs, z, xt, xs0, xs1, us0, us1, ts0, ts1) -> 25 m06l_f(rs, z, xs0, xs1, ts0, ts1):
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/dports/science/libxc/libxc-5.0.0/maple/gga_exc/ |
H A D | gga_c_lyp.mpl | 32 t4 := (rs, z, xs0, xs1) -> 33 aux4*(1 - z^2)*(5/2 - delta(rs)/18)*(xs0^2*(1 + z)^(8/3) + xs1^2*(1 - z)^(8/3)): 34 t5 := (rs, z, xs0, xs1) -> 35 aux5*(1 - z^2)*(delta(rs) - 11)*(xs0^2*(1 + z)^(11/3) + xs1^2*(1 - z)^(11/3)): 36 t6 := (z, xs0, xs1) -> 37 -aux6*(2/3*(xs0^2*(1 + z)^(8/3) + xs1^2*(1 - z)^(8/3)) 38 -(1 + z)^2*xs1^2*(1 - z)^(8/3)/4 - (1 - z)^2*xs0^2*(1 + z)^(8/3)/4): 40 f_lyp := (rs, z, xt, xs0, xs1) -> params_a_A*(t1(rs/RS_FACTOR, z) + omega(rs/RS_FACTOR)*( 41 + t2(rs/RS_FACTOR, z, xt) + t3(z) + t4(rs/RS_FACTOR, z, xs0, xs1) 42 + t5(rs/RS_FACTOR, z, xs0, xs1) + t6(z, xs0, xs1) [all …]
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H A D | gga_c_optc.mpl | 21 optc_f2 := (rs, z, xt, xs0, xs1) -> f_pw91(rs, 1, xs0, xs0, 0): 23 optc_f2 := (rs, z, xt, xs0, xs1) -> 25 + f_pw91(rs*(2/(1 - z))^(1/3), -1, xs1, 0, xs1)*(1 - z)/2: 28 f := (rs, z, xt, xs0, xs1) -> 29 …+ params_a_c1*f_pw91(rs, z, xt, xs0, xs1) + (params_a_c2 - params_a_c1)*optc_f2(rs, z, xt, xs0, xs…
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H A D | hyb_gga_xc_wb97.mpl | 25 wb97_x := (rs, z, xs0, xs1) -> 28 wb97_x := (rs, z, xs0, xs1) -> 30 (1 - z)/2 * lda_x_erf_spin(rs*(2/(1 - z))^(1/3), 1) * b97_g(0.004, params_a_c_x, xs1) 33 f := (rs, z, xt, xs0, xs1) -> 34 wb97_x(rs, z, xs0, xs1) + 35 b97_f(f_pw, 0.2, params_a_c_ss, 0.006, params_a_c_ab, rs, z, xs0, xs1):
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/dports/math/stanmath/math-4.2.0/test/unit/math/prim/fun/ |
H A D | sort_test_util.hpp | 15 C xs1(1); in test_sort_asc_throws() local 16 xs1[0] = 1; in test_sort_asc_throws() 17 EXPECT_NO_THROW(sort_asc(xs1)); in test_sort_asc_throws() 18 xs1[0] = std::numeric_limits<double>::quiet_NaN(); in test_sort_asc_throws() 19 EXPECT_THROW(sort_asc(xs1), std::domain_error); in test_sort_asc_throws() 40 C xs1(1); in test_sort_desc_throws() local 41 xs1[0] = 1; in test_sort_desc_throws() 42 EXPECT_NO_THROW(sort_desc(xs1)); in test_sort_desc_throws() 43 xs1[0] = std::numeric_limits<double>::quiet_NaN(); in test_sort_desc_throws() 44 EXPECT_THROW(sort_desc(xs1), std::domain_error); in test_sort_desc_throws()
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/dports/math/py-statsmodels/statsmodels-0.13.1/statsmodels/sandbox/regression/ |
H A D | kernridgeregress_class.py | 137 xs1 = xs1a*np.ones((1,4)) + 1/(1.0+np.exp(np.random.randn(m,k))) 138 xs1 /= np.std(xs1[::k,:],0) # normalize scale, could use cov to normalize 139 y1true = np.sum(np.sin(xs1)+np.sqrt(xs1),1)[:,np.newaxis] 145 yhatr1 = gp1.predict(xs1) 154 gp2 = GaussProcess(xs1[::stride,:],y1[::stride,:], kernel=kernel_rbf, 156 yhatr2 = gp2.predict(xs1) 170 xs1 = np.linspace(1,upper,m)[:,np.newaxis] 171 y1true = np.sum(np.sin(xs1**2),1)[:,np.newaxis]/xs1 178 yhatr1 = gp1.predict(xs1) 187 gp2 = GaussProcess(xs1[::stride,:],y1[::stride,:], kernel=kernel_rbf, [all …]
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H A D | example_kernridge.py | 15 xs1 = np.sin(xs)#[:,np.newaxis] variable 16 y1true = np.sum(xs1 + 0.01*np.sqrt(np.abs(xs1)),1)[:,np.newaxis] 20 xstrain = xs1[::stride,:] 22 xstrain = np.r_[xs1[:m/2,:], xs1[m/2+10:,:]] 27 yhatr1 = gp1.predict(xs1)
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/dports/emulators/riscv-isa-sim/riscv-isa-sim-4f12984/riscv/ |
H A D | rocc.h | 11 unsigned xs1 : 1; member 27 virtual reg_t custom0(rocc_insn_t insn, reg_t xs1, reg_t xs2); 28 virtual reg_t custom1(rocc_insn_t insn, reg_t xs1, reg_t xs2); 29 virtual reg_t custom2(rocc_insn_t insn, reg_t xs1, reg_t xs2); 30 virtual reg_t custom3(rocc_insn_t insn, reg_t xs1, reg_t xs2); 41 reg_t xs1 = u.r.xs1 ? RS1 : -1; \ 43 reg_t xd = rocc->method_name(u.r, xs1, xs2); \
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/dports/graphics/netpbm/netpbm-10.91.01/test/ |
H A D | pamenlarge-pbm.test | 29 for xs1 in `seq 15` 31 xs2=$((30-$xs1)) 32 pamenlarge -xscale=$xs1 ${complete256_pbm} | pamenlarge -xscale=$xs2 | cksum 33 if [ $xs1 != $xs2 ]; then 34 pamenlarge -xscale=$xs2 ${complete256_pbm} | pamenlarge -xscale=$xs1 | cksum 36 pamenlarge -xscale=$(($xs1 * $xs2)) ${complete256_pbm} | cksum
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/dports/math/cgal/CGAL-5.3/include/CGAL/ |
H A D | Arr_polycurve_basic_traits_2.h | 214 const Arr_parameter_space ps_x1 = ps_x(xs1, ce1); in operator() 223 const Arr_parameter_space ps_y1 = ps_y(xs1, ce1); in operator() 232 return opposite(cmp_x_on_bnd(p2, xs1, ce1)); in operator() 299 return opposite(cmp_x_on_bnd(p2, xs1, ce1)); in operator() 687 max_vertex(xs1) : min_vertex(xs1); in operator() 696 max_vertex(xs1) : min_vertex(xs1); in operator() 703 max_vertex(xs1) : min_vertex(xs1); in operator() 708 max_vertex(xs1) : min_vertex(xs1); in operator() 1550 const X_monotone_subcurve_2& xs1 = 1607 const X_monotone_subcurve_2& xs1 = [all …]
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