| /netbsd-src/usr.bin/rpcgen/ |
| H A D | rpc_parse.h | 50 enum relation { enum 56 typedef enum relation relation; typedef 61 relation rel; 82 relation rel;
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| H A D | rpc_util.h | 113 int isvectordef(const char *, relation); 132 void emit_single_in_line(declaration *, int, relation);
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| H A D | rpc_cout.c | 67 static void print_ifstat(int, const char *, const char *, relation, 227 print_ifstat(int indent, const char *prefix, const char *type, relation rel, in print_ifstat() 615 relation rel = def->def.ty.rel; in emit_typedef() 627 relation rel = dec->rel; in print_stat() 669 emit_single_in_line(declaration *decl, int flag, relation rel) in emit_single_in_line()
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| H A D | rpc_util.c | 206 isvectordef(const char *type, relation rel) in isvectordef()
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| H A D | rpc_hout.c | 427 relation rel = def->def.ty.rel; in ptypedef()
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| /netbsd-src/external/apache2/llvm/dist/llvm/docs/ |
| H A D | HowToUseInstrMappings.rst | 27 describe all the instructions using that model. TableGen parses all the relation 28 models and uses the information to construct relation tables which relate 37 // relation model. 41 // a row of the relation table. Think of this as a set of properties shared 46 // in a column of the relation table. 51 // using this relation model. 55 // each column in the relation table. These are the instructions a key 81 // row in the resulting relation table. 90 // for a relation. Key instruction is passed as an argument 91 // to the function used for querying relation tables. Column instructions [all …]
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| /netbsd-src/external/mpl/dhcp/bind/dist/lib/dns/ |
| H A D | nsec.c | 319 dns_namereln_t relation; in dns_nsec_noexistnodata() local 338 relation = dns_name_fullcompare(name, nsecname, &order, &olabels); in dns_nsec_noexistnodata() 391 if (relation == dns_namereln_subdomain && in dns_nsec_noexistnodata() 405 if (relation == dns_namereln_subdomain && in dns_nsec_noexistnodata() 417 relation = dns_name_fullcompare(&nsec.next, name, &order, &nlabels); in dns_nsec_noexistnodata() 435 if (order > 0 && relation == dns_namereln_subdomain) { in dns_nsec_noexistnodata()
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| /netbsd-src/external/mpl/bind/dist/lib/dns/ |
| H A D | nsec.c | 346 dns_namereln_t relation; in dns_nsec_noexistnodata() 375 relation = dns_name_fullcompare(name, nsecname, &order, &olabels); in dns_nsec_noexistnodata() 428 if (relation == dns_namereln_subdomain && in dns_nsec_noexistnodata() 442 if (relation == dns_namereln_subdomain && in dns_nsec_noexistnodata() 454 relation = dns_name_fullcompare(&nsec.next, name, &order, &nlabels); in dns_nsec_noexistnodata() 472 if (order > 0 && relation == dns_namereln_subdomain) { in dns_nsec_noexistnodata() 347 dns_namereln_t relation; dns_nsec_noexistnodata() local
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| /netbsd-src/external/gpl3/gcc/dist/gcc/ |
| H A D | gimple-range-fold.cc | 931 relation_kind relation = src.query_relation (arg0, arg1); in range_of_builtin_ubsan_call() local 937 op->fold_range (r, type, ir0, ir1, relation); in range_of_builtin_ubsan_call() 1482 relation_kind relation = handler->op1_op2_relation (e0_range); in register_outgoing_edges() local 1483 if (relation != VREL_NONE) in register_outgoing_edges() 1484 register_relation (e0, relation, ssa1, ssa2); in register_outgoing_edges() 1488 relation_kind relation = handler->op1_op2_relation (e1_range); in register_outgoing_edges() local 1489 if (relation != VREL_NONE) in register_outgoing_edges() 1490 register_relation (e1, relation, ssa1, ssa2); in register_outgoing_edges() 1517 relation_kind relation = handler->op1_op2_relation (r); in register_outgoing_edges() local 1518 if (relation != VREL_NONE) in register_outgoing_edges() [all …]
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| H A D | value-relation.cc | 996 const value_relation &relation) in register_transitives() argument 1000 switch (relation.kind ()) in register_transitives() 1011 const_bitmap equiv1 = equiv_set (relation.op1 (), root_bb); in register_transitives() 1012 const_bitmap equiv2 = equiv_set (relation.op2 (), root_bb); in register_transitives() 1061 r1 = relation.op1 (); in register_transitives() 1063 r2 = relation.op2 (); in register_transitives() 1065 value_relation nr (relation.kind (), r1, r2); in register_transitives()
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| /netbsd-src/external/mpl/bind/dist/tests/dns/ |
| H A D | name_test.c | 51 dns_namereln_t relation; in ISC_RUN_TEST_IMPL() 57 dns_namereln_t relation; in ISC_RUN_TEST_IMPL() 109 relation = dns_name_fullcompare(name1, name1, &order, &nlabels); in ISC_RUN_TEST_IMPL() 110 assert_int_equal(relation, dns_namereln_equal); in ISC_RUN_TEST_IMPL() 118 relation = dns_name_fullcompare(name1, name2, &order, &nlabels); in ISC_RUN_TEST_IMPL() 119 assert_int_equal(relation, data[i].relation); in ISC_RUN_TEST_IMPL() 52 dns_namereln_t relation; ISC_RUN_TEST_IMPL() local 58 dns_namereln_t relation; ISC_RUN_TEST_IMPL() member
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| /netbsd-src/external/mit/isl/dist/doc/ |
| H A D | implementation.tex | 27 A {\em polyhedral relation}\index{polyhedral relation} 48 Let $R \in \Z^n \to 2^{\Z^{d+d}}$ be a relation. 54 Let $R \in \Z^n \to 2^{\Z^{d+d}}$ be a relation. 64 Let $R \in \Z^n \to 2^{\Z^{d+d}}$ be a relation. 92 Let $R \in \Z^n \to 2^{\Z^{d+d}}$ be a relation. 108 basic set or basic relation that contains a given set or relation. 520 the constraints of a set or relation in disjunctive normal form. 840 Let $R \in \Z^n \to 2^{\Z^{d+d}}$ be a relation and 842 a positive number, then power $k$ of relation $R$ is defined as 856 Let $R \in \Z^n \to 2^{\Z^{d+d}}$ be a relation, [all …]
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| H A D | user.pod | 77 is now expressed as the domain of the resulting relation. 133 Note that the space of an C<isl_aff> is that of relation. 226 Note that the may dependence relation returned by 1029 Whenever a new set, relation or similar object is created from scratch, 1062 for a relation, the space 1964 the domain or range of a relation can be a nested relation. 2159 A basic set or relation can be converted to a set or relation 2193 union set or relation is known to contain elements in exactly one 2241 from a universe set or relation, adding equality and/or 2347 A basic set or relation can also be constructed from two matrices [all …]
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| /netbsd-src/external/apache2/llvm/dist/libcxx/include/ |
| H A D | concepts | 117 // [concept.relation], concept relation 119 concept relation = see below; 431 // [concept.relation] 433 concept relation = 439 concept equivalence_relation = relation<_Rp, _Tp, _Up>; 443 concept strict_weak_order = relation<_Rp, _Tp, _Up>;
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| /netbsd-src/external/gpl3/gcc.old/dist/libstdc++-v3/include/std/ |
| H A D | concepts | 347 /// [concept.relation], concept relation 349 concept relation 355 concept equivalence_relation = relation<_Rel, _Tp, _Up>; 359 concept strict_weak_order = relation<_Rel, _Tp, _Up>;
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| /netbsd-src/external/gpl3/gcc/dist/libstdc++-v3/include/std/ |
| H A D | concepts | 347 /// [concept.relation], concept relation 349 concept relation 355 concept equivalence_relation = relation<_Rel, _Tp, _Up>; 359 concept strict_weak_order = relation<_Rel, _Tp, _Up>;
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| /netbsd-src/external/mit/isl/dist/test_inputs/codegen/ |
| H A D | empty.in | 2 # executed relation and fail to detect this emptiness.
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| /netbsd-src/external/lgpl3/mpc/dist/tests/ |
| H A D | tan.dat | 109 # [conj] gives no new relation since nan has no sign 110 # [odd] gives no new relation since we already considered y < 0
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| /netbsd-src/external/bsd/openldap/dist/doc/guide/admin/ |
| H A D | appendix-ldap-result-codes.sdf | 11 We have expanded the description of each error in relation to the OpenLDAP 50 relation to other operations (of same or different type).
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| /netbsd-src/usr.sbin/altq/libaltq/ |
| H A D | qop.c | 1005 * when a new filter is added, we check the relation to the existing filters 1039 int relation; in add_filter_rule() local 1051 relation = filt_check_relation(&front->fltr, &back->fltr); in add_filter_rule() 1053 switch (relation) { in add_filter_rule()
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| /netbsd-src/external/gpl3/gcc/dist/gcc/doc/ |
| H A D | loop.texi | 210 relation, and breath-first search order, respectively. 521 inserts a single @code{chrec_dont_know} in the dependence relation 590 The structure describing the relation between two data references is 601 set to @code{NULL_TREE} if there exist a dependence relation between the 602 data references, and the description of this dependence relation is 605 @item a boolean that determines whether the dependence relation can be
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| /netbsd-src/external/gpl3/gcc.old/dist/gcc/doc/ |
| H A D | loop.texi | 209 relation, and breath-first search order, respectively. 520 inserts a single @code{chrec_dont_know} in the dependence relation 589 The structure describing the relation between two data references is 600 set to @code{NULL_TREE} if there exist a dependence relation between the 601 data references, and the description of this dependence relation is 604 @item a boolean that determines whether the dependence relation can be
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| /netbsd-src/external/apache2/llvm/dist/clang/docs/analyzer/developer-docs/ |
| H A D | InitializerLists.rst | 200 class for that if we eg. want it typed). The problem is that the relation 202 immaterial, similarly to the relation between ``SymbolRegionValue`` and its parent 257 all. For ghost member variables, the relation with their parent region (which
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| /netbsd-src/external/bsd/am-utils/dist/ |
| H A D | ldap-id.ms | 41 relation between this schema and the automount schema elements in [HOWARD]
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| H A D | ldap-id.txt | 25 are prefixed by amdSchema-id to be assigned later. The relation between this
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