| /dports/sysutils/atf-sun50i_h6/arm-trusted-firmware-2.5/lib/aarch32/ |
| H A D | arm32_aeabi_divmod.c | 25 unsigned int q_n; /* specifies if quotient shall be negative */ member
92 if (qr->q_n) in uint_div_qr()
100 struct qr qr = { .q_n = 0, .r_n = 0 }; in __aeabi_uidiv()
109 struct qr qr = { .q_n = 0, .r_n = 0 }; in __aeabi_uidivmod()
118 struct qr qr = { .q_n = 0, .r_n = 0 }; in __aeabi_idiv()
122 qr.q_n = 1; /* quotient shall be negate */ in __aeabi_idiv()
139 struct qr qr = { .q_n = 0, .r_n = 0 }; in __aeabi_idivmod()
143 qr.q_n = 1; /* quotient shall be negate */ in __aeabi_idivmod()
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| /dports/sysutils/atf-rk3399/arm-trusted-firmware-2.5/lib/aarch32/ |
| H A D | arm32_aeabi_divmod.c | 25 unsigned int q_n; /* specifies if quotient shall be negative */ member
92 if (qr->q_n) in uint_div_qr()
100 struct qr qr = { .q_n = 0, .r_n = 0 }; in __aeabi_uidiv()
109 struct qr qr = { .q_n = 0, .r_n = 0 }; in __aeabi_uidivmod()
118 struct qr qr = { .q_n = 0, .r_n = 0 }; in __aeabi_idiv()
122 qr.q_n = 1; /* quotient shall be negate */ in __aeabi_idiv()
139 struct qr qr = { .q_n = 0, .r_n = 0 }; in __aeabi_idivmod()
143 qr.q_n = 1; /* quotient shall be negate */ in __aeabi_idivmod()
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| /dports/sysutils/atf-sun50i_a64/arm-trusted-firmware-2.5/lib/aarch32/ |
| H A D | arm32_aeabi_divmod.c | 25 unsigned int q_n; /* specifies if quotient shall be negative */ member
92 if (qr->q_n) in uint_div_qr()
100 struct qr qr = { .q_n = 0, .r_n = 0 }; in __aeabi_uidiv()
109 struct qr qr = { .q_n = 0, .r_n = 0 }; in __aeabi_uidivmod()
118 struct qr qr = { .q_n = 0, .r_n = 0 }; in __aeabi_idiv()
122 qr.q_n = 1; /* quotient shall be negate */ in __aeabi_idiv()
139 struct qr qr = { .q_n = 0, .r_n = 0 }; in __aeabi_idivmod()
143 qr.q_n = 1; /* quotient shall be negate */ in __aeabi_idivmod()
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| /dports/sysutils/atf-rk3328/arm-trusted-firmware-2.5/lib/aarch32/ |
| H A D | arm32_aeabi_divmod.c | 25 unsigned int q_n; /* specifies if quotient shall be negative */ member
92 if (qr->q_n) in uint_div_qr()
100 struct qr qr = { .q_n = 0, .r_n = 0 }; in __aeabi_uidiv()
109 struct qr qr = { .q_n = 0, .r_n = 0 }; in __aeabi_uidivmod()
118 struct qr qr = { .q_n = 0, .r_n = 0 }; in __aeabi_idiv()
122 qr.q_n = 1; /* quotient shall be negate */ in __aeabi_idiv()
139 struct qr qr = { .q_n = 0, .r_n = 0 }; in __aeabi_idivmod()
143 qr.q_n = 1; /* quotient shall be negate */ in __aeabi_idivmod()
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| /dports/sysutils/atf-fvp/arm-trusted-firmware-2.5/lib/aarch32/ |
| H A D | arm32_aeabi_divmod.c | 25 unsigned int q_n; /* specifies if quotient shall be negative */ member
92 if (qr->q_n) in uint_div_qr()
100 struct qr qr = { .q_n = 0, .r_n = 0 }; in __aeabi_uidiv()
109 struct qr qr = { .q_n = 0, .r_n = 0 }; in __aeabi_uidivmod()
118 struct qr qr = { .q_n = 0, .r_n = 0 }; in __aeabi_idiv()
122 qr.q_n = 1; /* quotient shall be negate */ in __aeabi_idiv()
139 struct qr qr = { .q_n = 0, .r_n = 0 }; in __aeabi_idivmod()
143 qr.q_n = 1; /* quotient shall be negate */ in __aeabi_idivmod()
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| /dports/security/ADMsmb/ADMsmb_0.3/rpc_pipes/ |
| H A D | srvparse.c | 118 if (q_n == NULL) return NULL; in srv_io_q_net_share_enum()
125 DBG_RW_IVAL("ptr_srv_name", depth, base, io, q, q_n->ptr_srv_name); q += 4; in srv_io_q_net_share_enum()
126 q = smb_io_unistr2(io, &(q_n->uni_srv_name), q, base, align, depth); in srv_io_q_net_share_enum()
130 DBG_RW_IVAL("share_level ", depth, base, io, q, q_n->share_level); q += 4; in srv_io_q_net_share_enum()
131 DBG_RW_IVAL("switch_value ", depth, base, io, q, q_n->switch_value); q += 4; in srv_io_q_net_share_enum()
133 DBG_RW_IVAL("ptr_share_info", depth, base, io, q, q_n->ptr_share_info); q += 4; in srv_io_q_net_share_enum()
134 if (q_n->ptr_share_info != 0) in srv_io_q_net_share_enum()
136 switch (q_n->switch_value) in srv_io_q_net_share_enum()
140 q = srv_io_share_1_ctr(io, &(q_n->share.info1), q, base, align, depth); in srv_io_q_net_share_enum()
146 tab_depth(depth), q_n->switch_value)); in srv_io_q_net_share_enum()
[all …]
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| H A D | pipesrvsvc.c | 145 static int srv_reply_net_share_enum(SRV_Q_NET_SHARE_ENUM *q_n, in srv_reply_net_share_enum() argument
154 make_srv_net_share_enum(&r_n, q_n->share_level, q_n->switch_value, status); in srv_reply_net_share_enum()
170 SRV_Q_NET_SHARE_ENUM q_n; in api_srv_net_share_info() local
173 srv_io_q_net_share_enum(True, &q_n, data + 0x18, data, 4, 0); in api_srv_net_share_info()
181 *rdata_len = srv_reply_net_share_enum(&q_n, *rdata + 0x18, *rdata, 0x0); in api_srv_net_share_info()
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| /dports/cad/ghdl/ghdl-1.0.0/testsuite/vests/vhdl-93/ashenden/compliant/ |
| H A D | ch_21_fg_21_05.vhd | 28 port ( s_n, r_n : in bit; q, q_n : inout bit ); port
32 postponed process (q, q_n) is
34 assert now = 0 fs or q = not q_n
35 report "implementation error: q /= not q_n";
45 gate_1 : q <= s_n nand q_n;
46 gate_2 : q_n <= r_n nand q;
60 signal s_n, r_n, q, q_n : bit; signal
65 port map ( s_n, r_n, q, q_n );
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| H A D | ch_05_tb_05_07.vhd | 34 q_n <= '0' when s = '1' else
47 signal q, q_n : bit; signal
52 port map ( s => s, r => r, q => q, q_n => q_n );
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| H A D | ch_05_tb_05_06.vhd | 34 signal q, q_n : bit; signal
39 port map ( s => s, r => r, q => q, q_n => q_n );
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| /dports/cad/ghdl/ghdl-1.0.0/testsuite/vests/vhdl-ams/ashenden/compliant/misc-topics/ |
| H A D | SR_flipflop.vhd | 21 port ( s_n, r_n : in bit; q, q_n : inout bit ); port
25 postponed process (q, q_n) is
27 assert now = 0 fs or q = not q_n
28 report "implementation error: q /= not q_n";
38 gate_1 : q <= s_n nand q_n;
39 gate_2 : q_n <= r_n nand q;
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| /dports/cad/ghdl/ghdl-1.0.0/testsuite/vests/vhdl-ams/ashenden/compliant/analog-modeling/ |
| H A D | inline_19a.vhd | 39 signal q, q_n : std_ulogic; signal
50 q <= '0'; q_n <= '1';
53 q <= '1'; q_n <= '0';
68 signal q, q_n : std_ulogic; signal
77 q_n <= '1' after 20 ns;
90 signal q, q_n : std_ulogic; signal
99 q_n <= '1';
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| H A D | timer.vhd | 36 signal q_n : std_ulogic := '1'; signal
40 if q_n = '1' use
49 q <= '0'; q_n <= '1';
51 q <= '1'; q_n <= '0';
55 clamp_change : process ( q_n ) is
|
| /dports/math/pari/pari-2.13.3/src/functions/number_theoretical/ |
| H A D | contfracpnqn | 5 Help: contfracpnqn(x, {n=-1}): [p_n,p_{n-1}; q_n,q_{n-1}] corresponding to the
7 p_0/q_0 up to p_n/q_n.
11 $[p_n,p_{n-1};q_n,q_{n-1}]$ in the standard notation of continued fractions,
12 so $p_n/q_n=a_0+1/(a_1+\dots+1/a_n)$. If $x$ is a matrix with two rows
15 $p_n/q_n=(1/b_0)(a_0+b_1/(a_1+\dots+b_n/a_n))$. Note that in this case one
19 $p_n/q_n$. (All convergents if $x$ is too small to compute the $n+1$
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| /dports/cad/ghdl/ghdl-1.0.0/testsuite/vests/vhdl-ams/ashenden/compliant/generics/ |
| H A D | timer.vhd | 35 signal q_n : std_ulogic := '1'; signal
39 if q_n = '1' use
48 q <= '0'; q_n <= '1';
50 q <= '1'; q_n <= '0';
54 break on q_n;
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| /dports/devel/hyperscan/boost_1_75_0/boost/math/special_functions/ |
| H A D | jacobi_theta.hpp | 292 RealType q_n = 0, last_q_n, delta, result = 0; in jacobi_theta1tau_imp() local
314 last_q_n = q_n; in jacobi_theta1tau_imp()
316 delta = q_n * sin(RealType(2*n+1)*z); in jacobi_theta1tau_imp()
349 RealType q_n = 0, last_q_n, delta, result = 0; in jacobi_theta2tau_imp() local
369 last_q_n = q_n; in jacobi_theta2tau_imp()
371 delta = q_n * cos(RealType(2*n+1)*z); in jacobi_theta2tau_imp()
403 RealType q_n = 0, last_q_n, delta, result = 0; in jacobi_theta3m1tau_imp() local
410 last_q_n = q_n; in jacobi_theta3m1tau_imp()
412 delta = q_n * cos(RealType(2*n)*z); in jacobi_theta3m1tau_imp()
488 last_q_n = q_n; in jacobi_theta4m1tau_imp()
[all …]
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| /dports/devel/R-cran-BH/BH/inst/include/boost/math/special_functions/ |
| H A D | jacobi_theta.hpp | 292 RealType q_n = 0, last_q_n, delta, result = 0; in jacobi_theta1tau_imp() local
314 last_q_n = q_n; in jacobi_theta1tau_imp()
316 delta = q_n * sin(RealType(2*n+1)*z); in jacobi_theta1tau_imp()
349 RealType q_n = 0, last_q_n, delta, result = 0; in jacobi_theta2tau_imp() local
369 last_q_n = q_n; in jacobi_theta2tau_imp()
371 delta = q_n * cos(RealType(2*n+1)*z); in jacobi_theta2tau_imp()
403 RealType q_n = 0, last_q_n, delta, result = 0; in jacobi_theta3m1tau_imp() local
410 last_q_n = q_n; in jacobi_theta3m1tau_imp()
412 delta = q_n * cos(RealType(2*n)*z); in jacobi_theta3m1tau_imp()
488 last_q_n = q_n; in jacobi_theta4m1tau_imp()
[all …]
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| /dports/math/stanmath/math-4.2.0/lib/boost_1.75.0/boost/math/special_functions/ |
| H A D | jacobi_theta.hpp | 292 RealType q_n = 0, last_q_n, delta, result = 0; in jacobi_theta1tau_imp() local
314 last_q_n = q_n; in jacobi_theta1tau_imp()
316 delta = q_n * sin(RealType(2*n+1)*z); in jacobi_theta1tau_imp()
349 RealType q_n = 0, last_q_n, delta, result = 0; in jacobi_theta2tau_imp() local
369 last_q_n = q_n; in jacobi_theta2tau_imp()
371 delta = q_n * cos(RealType(2*n+1)*z); in jacobi_theta2tau_imp()
403 RealType q_n = 0, last_q_n, delta, result = 0; in jacobi_theta3m1tau_imp() local
410 last_q_n = q_n; in jacobi_theta3m1tau_imp()
412 delta = q_n * cos(RealType(2*n)*z); in jacobi_theta3m1tau_imp()
488 last_q_n = q_n; in jacobi_theta4m1tau_imp()
[all …]
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| /dports/science/py-scipy/scipy-1.7.1/scipy/_lib/boost/boost/math/special_functions/ |
| H A D | jacobi_theta.hpp | 292 RealType q_n = 0, last_q_n, delta, result = 0; in jacobi_nd()
314 last_q_n = q_n; in jacobi_nd()
316 delta = q_n * sin(RealType(2*n+1)*z); in jacobi_nd()
349 RealType q_n = 0, last_q_n, delta, result = 0;
369 last_q_n = q_n;
371 delta = q_n * cos(RealType(2*n+1)*z);
403 RealType q_n = 0, last_q_n, delta, result = 0;
410 last_q_n = q_n;
412 delta = q_n * cos(RealType(2*n)*z);
488 last_q_n = q_n;
[all …]
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| /dports/cad/ghdl/ghdl-1.0.0/testsuite/vests/vhdl-ams/ashenden/compliant/digital-modeling/ |
| H A D | tb_S_R_flipflop-1.vhd | 27 q_n <= '0' when s = '1' else
40 signal q, q_n : bit; signal
45 port map ( s => s, r => r, q => q, q_n => q_n );
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| H A D | tb_S_R_flipflop.vhd | 27 signal q, q_n : bit; signal
32 port map ( s => s, r => r, q => q, q_n => q_n );
|
| /dports/science/lammps/lammps-stable_29Sep2021/doc/src/ |
| H A D | compute_hexorder_atom.rst | 35 Define a computation that calculates :math:`q_n` the bond-orientational
38 hexagonal symmetry in two-dimensional systems. For each atom, :math:`q_n`
43 q_n = \frac{1}{nnn}\sum_{j = 1}^{nnn} e^{n i \theta({\bf r}_{ij})}
61 neighbors used to calculate :math:`q_n`. The default value is 6.
76 The value of :math:`q_n` is set to zero for atoms not in the
104 real and imaginary parts :math:`q_n`, a complex number restricted to the
105 unit disk of the complex plane i.e. :math:`Re(q_n)^2 + Im(q_n)^2 <= 1`.
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| /dports/science/py-gpaw/gpaw-21.6.0/gpaw/atom/ |
| H A D | generator.py | 503 for e, s, q in zip(e_n, s_n, q_n):
519 A_nn = np.inner(s_n, q_n * dr)
539 q_n[:] = np.dot(inv(np.transpose(U_nn)), q_n)
558 for n, q in enumerate(q_n):
561 A_nn = np.inner(s_n, q_n * dr)
562 q_n[:] = np.dot(inv(np.transpose(A_nn)), q_n)
598 q_n = q_ln[l]
618 for q in q_n]
620 a_n = np.dot(q_n, s * dr)
833 H = np.dot(np.transpose(q_n),
[all …]
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| /dports/devel/glib20/glib-2.70.4/glib/ |
| H A D | gquark.h | 49 #define G_DEFINE_QUARK(QN, q_n) \ argument
51 q_n##_quark (void) \
|
| /dports/emulators/mess/mame-mame0226/3rdparty/sol2/sol/ |
| H A D | usertype_traits.hpp | 36 static const std::string& q_n = detail::demangle<T>(); in qualified_name() local
37 return q_n; in qualified_name()
|