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/trueos/contrib/gdb/gdb/
HDlinespec.c478 struct symtabs_and_lines values, return_values; in decode_line_2() local
486 values.sals = (struct symtab_and_line *) in decode_line_2()
505 init_sal (&values.sals[i]); in decode_line_2()
508 values.sals[i] = find_function_start_sal (sym_arr[i], funfirstline); in decode_line_2()
509 if (values.sals[i].symtab) in decode_line_2()
513 values.sals[i].symtab->filename, in decode_line_2()
514 values.sals[i].line); in decode_line_2()
519 values.sals[i].line); in decode_line_2()
565 memcpy (return_values.sals, values.sals, in decode_line_2()
579 if (values.sals[num].pc) in decode_line_2()
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/trueos/contrib/apr-util/dbd/
HDapr_dbd_sqlite3.c446 static void dbd_sqlite3_bind(apr_dbd_prepared_t *statement, const char **values) in dbd_sqlite3_bind() argument
452 if (values[j] == NULL) { in dbd_sqlite3_bind()
460 char *data = (char *)values[j]; in dbd_sqlite3_bind()
461 int size = atoi((char*)values[++j]); in dbd_sqlite3_bind()
470 sqlite3_bind_text(stmt, i + 1, values[j], in dbd_sqlite3_bind()
471 strlen(values[j]), SQLITE_STATIC); in dbd_sqlite3_bind()
482 const char **values) in dbd_sqlite3_pquery() argument
495 dbd_sqlite3_bind(statement, values); in dbd_sqlite3_pquery()
513 const char **values; in dbd_sqlite3_pvquery() local
520 values = apr_palloc(pool, sizeof(*values) * statement->nvals); in dbd_sqlite3_pvquery()
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HDapr_dbd_pgsql.c610 const char **values, in dbd_pgsql_pquery_internal() argument
632 values, len, fmt, 0); in dbd_pgsql_pquery_internal()
636 values, len, fmt, 0); in dbd_pgsql_pquery_internal()
690 const char **values, in dbd_pgsql_bind() argument
696 if (values[j] == NULL) { in dbd_pgsql_bind()
703 val[i] = (char *)values[j]; in dbd_pgsql_bind()
704 len[i] = atoi(values[++j]); in dbd_pgsql_bind()
711 val[i] = values[j]; in dbd_pgsql_bind()
722 const char **values) in dbd_pgsql_pquery() argument
735 dbd_pgsql_bind(statement, values, val, len, fmt); in dbd_pgsql_pquery()
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HDapr_dbd_mysql.c611 const char **values, MYSQL_BIND *bind) in dbd_mysql_bind() argument
620 if (values[j] == NULL) { in dbd_mysql_bind()
628 bind[i].buffer = (void*)values[j]; in dbd_mysql_bind()
629 bind[i].buffer_length = atol(values[++j]); in dbd_mysql_bind()
636 bind[i].buffer = (void*)values[j]; in dbd_mysql_bind()
637 bind[i].buffer_length = strlen(values[j]); in dbd_mysql_bind()
670 const char **values) in dbd_mysql_pquery() argument
681 dbd_mysql_bind(statement, values, bind); in dbd_mysql_pquery()
694 const char **values; in dbd_mysql_pvquery() local
701 values = apr_palloc(pool, sizeof(*values) * statement->nvals); in dbd_mysql_pvquery()
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HDapr_dbd_oracle.c97 int seek, const char **values);
100 const char **values);
919 static void dbd_oracle_bind(apr_dbd_prepared_t *statement, const char **values) in dbd_oracle_bind() argument
927 if (values[j] == NULL) { in dbd_oracle_bind()
939 char *data = (char *)values[j]; in dbd_oracle_bind()
940 int size = atoi((char*)values[++j]); in dbd_oracle_bind()
956 char *data = (char *)values[j]; in dbd_oracle_bind()
957 int size = atoi((char*)values[++j]); in dbd_oracle_bind()
974 (dvoid*) values[j], in dbd_oracle_bind()
975 strlen(values[j]) + 1, in dbd_oracle_bind()
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/trueos/usr.sbin/nscd/
HDhashtable.h53 type *values; \
85 (table)->entries[var].field.values = malloc( \
88 assert((table)->entries[var].field.values != NULL);\
99 free((table)->entries[var].field.values); \
118 for ((var) = &((entry)->field.values[0]); \
119 (var) < &((entry)->field.values[(entry)->field.size]); \
134 (entry)->field.values = realloc((entry)->field.values, \
141 (entry)->field.values = realloc((entry)->field.values, \
172 memcpy(&(the_entry->field.values[the_entry->field.size++]), \
175 qsort(the_entry->field.values, the_entry->field.size, \
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/trueos/usr.sbin/bluetooth/bthidcontrol/
HDsdp.c67 static sdp_attr_t values[8]; variable
68 #define nvalues (sizeof(values)/sizeof(values[0]))
103 values[i].flags = SDP_ATTR_INVALID; in hid_sdp_query()
104 values[i].attr = 0; in hid_sdp_query()
105 values[i].vlen = sizeof(buffer[i]); in hid_sdp_query()
106 values[i].value = buffer[i]; in hid_sdp_query()
113 if (sdp_search(ss, 1, &service, nattrs, attrs, nvalues, values) != 0) in hid_sdp_query()
120 if (values[i].flags != SDP_ATTR_OK) in hid_sdp_query()
123 switch (values[i].attr) { in hid_sdp_query()
125 control_psm = hid_sdp_parse_protocol_descriptor_list(&values[i]); in hid_sdp_query()
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/trueos/usr.sbin/bluetooth/sdpcontrol/
HDsearch.c60 static sdp_attr_t values[NRECS * attrs_len]; variable
61 #define values_len (sizeof(values)/sizeof(values[0]))
591 values[n].flags = SDP_ATTR_INVALID; in do_sdp_search()
592 values[n].attr = 0; in do_sdp_search()
593 values[n].vlen = BSIZE; in do_sdp_search()
594 values[n].value = buffer[n]; in do_sdp_search()
598 n = sdp_search(xs, 1, &service, attrs_len, attrs, values_len, values); in do_sdp_search()
604 if (values[n].flags != SDP_ATTR_OK) in do_sdp_search()
607 switch (values[n].attr) { in do_sdp_search()
610 if (values[n].vlen == 5) { in do_sdp_search()
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/trueos/contrib/ntp/scripts/monitoring/
HDloopwatch.config.SAMPLE15 # showoffs: yes/no control display of offset values
18 # showfreq: yes/no control display of frequency values
21 # showcmpl: yes/no control display of compliance values
24 # showoreg: yes/no control display of linear regression of offset values
27 # showfreg: yes/no control display of linear regression of frequency values
32 # values are interpreted using local time zone
34 # parts omitted from end default to lowest permitted values
40 # if a number is given, subtract this from sampling values for display
42 # offset values
46 # if a number is given, the sampling values are divided by this number
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/trueos/contrib/netbsd-tests/lib/libm/
HDt_atan.c39 } values[] = { variable
72 for (i = 0; i < __arraycount(values); i++) {
73 T_LIBM_CHECK(i, atan, values[i].x, values[i].y, 1.0e-15);
74 T_LIBM_CHECK(i, atanf, values[i].x, values[i].y, 1.0e-7);
HDt_acos.c67 } values[] = { variable
85 for (i = 0; i < __arraycount(values); i++) {
86 T_LIBM_CHECK(i, acos, values[i].x, values[i].y, 1.0e-15);
87 T_LIBM_CHECK(i, acosf, values[i].x, values[i].y, 1.0e-5);
HDt_cosh.c42 } values[] = { variable
72 for (i = 0; i < __arraycount(values); i++) { in ATF_TC_BODY()
73 x = values[i].x; in ATF_TC_BODY()
74 y = values[i].y; in ATF_TC_BODY()
75 eps = 1e-15 * values[i].e; in ATF_TC_BODY()
170 for (i = 0; i < __arraycount(values); i++) { in ATF_TC_BODY()
171 x = values[i].x; in ATF_TC_BODY()
172 y = values[i].y; in ATF_TC_BODY()
173 eps = 1e-6 * values[i].e; in ATF_TC_BODY()
HDt_sinh.c42 } values[] = { variable
71 for (i = 0; i < __arraycount(values); i++) { in ATF_TC_BODY()
72 x = values[i].x; in ATF_TC_BODY()
73 y = values[i].y; in ATF_TC_BODY()
74 eps = 1e-15 * values[i].e; in ATF_TC_BODY()
171 for (i = 0; i < __arraycount(values); i++) { in ATF_TC_BODY()
172 x = values[i].x; in ATF_TC_BODY()
173 y = values[i].y; in ATF_TC_BODY()
174 eps = 1e-6 * values[i].e; in ATF_TC_BODY()
HDt_asin.c38 } values[] = { variable
124 for (i = 0; i < __arraycount(values); i++) { in ATF_TC_BODY()
125 y = asin(values[i].x); in ATF_TC_BODY()
126 if (fabs(y - values[i].y) > eps) in ATF_TC_BODY()
128 values[i].x, values[i].y); in ATF_TC_BODY()
238 for (i = 0; i < __arraycount(values); i++) { in ATF_TC_BODY()
239 x = values[i].x; in ATF_TC_BODY()
240 y = values[i].y; in ATF_TC_BODY()
/trueos/sys/isa/
HDsyscons_isa.c205 sc_get_bios_values(bios_values_t *values) in sc_get_bios_values() argument
210 values->cursor_start = *(uint8_t *)BIOS_PADDRTOVADDR(0x461); in sc_get_bios_values()
211 values->cursor_end = *(uint8_t *)BIOS_PADDRTOVADDR(0x460); in sc_get_bios_values()
213 values->shift_state = ((shift & BIOS_CLKED) != 0 ? CLKED : 0) | in sc_get_bios_values()
218 values->cursor_start = 0; in sc_get_bios_values()
219 values->cursor_end = 32; in sc_get_bios_values()
220 values->shift_state = 0; in sc_get_bios_values()
222 values->bell_pitch = BELL_PITCH; in sc_get_bios_values()
/trueos/sys/dev/nand/
HDnand_if.m45 # Return values:
58 # Return values:
71 # Return values:
84 # Return values:
97 # Return values:
110 # Return values:
120 # Return values:
130 # Return values:
140 # Return values:
/trueos/contrib/gcc/
HDpointer-set.c199 void **values; member
213 result->values = XCNEWVEC (void *, result->n_slots); in pointer_map_create()
221 XDELETEVEC (pmap->values); in pointer_map_destroy()
237 return &pmap->values[n]; in pointer_map_contains()
272 new_values[n] = pmap->values[i]; in pointer_map_insert()
276 XDELETEVEC (pmap->values); in pointer_map_insert()
280 pmap->values = new_values; in pointer_map_insert()
290 return &pmap->values[n]; in pointer_map_insert()
302 if (pmap->keys[i] && !fn (pmap->keys[i], &pmap->values[i], data)) in pointer_map_traverse()
HDlibgcov.c189 cs_ptr->sum_all += ci_ptr->values[c_num]; in gcov_exit()
190 if (cs_ptr->run_max < ci_ptr->values[c_num]) in gcov_exit()
191 cs_ptr->run_max = ci_ptr->values[c_num]; in gcov_exit()
231 gcov_type *values[GCOV_COUNTERS]; in gcov_exit() local
277 cs_ptr->sum_all += ci_ptr->values[c_num]; in gcov_exit()
278 if (cs_ptr->run_max < ci_ptr->values[c_num]) in gcov_exit()
279 cs_ptr->run_max = ci_ptr->values[c_num]; in gcov_exit()
289 values[c_ix] = gi_ptr->counts[c_ix].values; in gcov_exit()
376 (*merge) (values[c_ix], n_counts); in gcov_exit()
377 values[c_ix] += n_counts; in gcov_exit()
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/trueos/contrib/wpa/hostapd/
HDhlr_auc_gw.milenage_db2 # The example Ki, OPc, and AMF values here are from 3GPP TS 35.208 v6.0.0
4 # These values can be used for both UMTS (EAP-AKA) and GSM (EAP-SIM)
5 # authentication. In case of GSM/EAP-SIM, AMF and SQN values are not used, but
6 # dummy values will need to be included in this file.
11 # These values are from Test Set 19 which has the AMF separation bit set to 1
/trueos/sys/powerpc/powerpc/
HDsc_machdep.c79 sc_get_bios_values(bios_values_t *values) in sc_get_bios_values() argument
81 values->cursor_start = 0; in sc_get_bios_values()
82 values->cursor_end = 32; in sc_get_bios_values()
83 values->shift_state = 0; in sc_get_bios_values()
/trueos/sys/mips/mips/
HDsc_machdep.c79 sc_get_bios_values(bios_values_t *values) in sc_get_bios_values() argument
81 values->cursor_start = 0; in sc_get_bios_values()
82 values->cursor_end = 32; in sc_get_bios_values()
83 values->shift_state = 0; in sc_get_bios_values()
/trueos/sys/arm/arm/
HDsc_machdep.c79 sc_get_bios_values(bios_values_t *values) in sc_get_bios_values() argument
81 values->cursor_start = 0; in sc_get_bios_values()
82 values->cursor_end = 32; in sc_get_bios_values()
83 values->shift_state = 0; in sc_get_bios_values()
/trueos/contrib/llvm/tools/lldb/include/lldb/Core/
HDUniqueCStringMap.h223 GetValues (const char *unique_cstr, std::vector<T> &values) const in GetValues() argument
225 const size_t start_size = values.size(); in GetValues()
232 values.push_back (pos->value); in GetValues()
237 return values.size() - start_size; in GetValues()
241 GetValues (const RegularExpression& regex, std::vector<T> &values) const in GetValues() argument
243 const size_t start_size = values.size(); in GetValues()
249 values.push_back (pos->value); in GetValues()
252 return values.size() - start_size; in GetValues()
/trueos/lib/libdispatch/src/
HDtrace.h228 struct dispatch_timer_source_s *values, uint64_t deadline, in _dispatch_trace_timer_params() argument
244 params->deadline = _dispatch_trace_time2nano2(values->target, in _dispatch_trace_timer_params()
245 values->target < now ? 0 : values->target - now); in _dispatch_trace_timer_params()
247 params->interval = _dispatch_trace_time2nano(values->interval); in _dispatch_trace_timer_params()
248 params->leeway = _dispatch_trace_time2nano(values->leeway); in _dispatch_trace_timer_params()
262 struct dispatch_timer_source_s *values) in _dispatch_trace_timer_configure() argument
266 ds->ds_refs), _dispatch_trace_timer_params(ident, values, 0, in _dispatch_trace_timer_configure()
313 #define _dispatch_trace_timer_configure(ds, ident, values) \ argument
314 do { (void)(ds); (void)(ident); (void)(values); } while(0)
/trueos/usr.bin/lastcomm/tests/
HDREADME5 1. Run values.sh for a given architecture and accounting version.
9 4. Compare the reported values in VERSION-ARCH.out against the
10 *.time values found in the file that values.sh generated.

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