| /external/deqp/framework/delibs/depool/ |
| D | dePoolMultiSet.h | 61 #define DE_DECLARE_POOL_MULTISET(TYPENAME, KEYTYPE) \ argument
63 DE_DECLARE_POOL_HASH(TYPENAME##Hash, KEYTYPE, int); \
65 typedef struct TYPENAME##_s \
69 TYPENAME##Hash* hash; \
70 } TYPENAME; \
72 TYPENAME* TYPENAME##_create (deMemPool* pool); \
73 void TYPENAME##_reset (TYPENAME* set); \
74 deBool TYPENAME##_setKeyCount (TYPENAME* set, KEYTYPE key, int newCount); \
76 DE_INLINE int TYPENAME##_getNumElements (const TYPENAME* set) \
81 DE_INLINE int TYPENAME##_getKeyCount (const TYPENAME* set, KEYTYPE key) \
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| D | dePoolSet.h | 66 #define DE_DECLARE_POOL_SET(TYPENAME, KEYTYPE) \ argument
68 typedef struct TYPENAME##Slot_s TYPENAME##Slot; \
70 struct TYPENAME##Slot_s \
73 TYPENAME##Slot* nextSlot; \
77 typedef struct TYPENAME##_s \
83 TYPENAME##Slot** slotTable; \
84 TYPENAME##Slot* slotFreeList; \
85 } TYPENAME; \
87 typedef struct TYPENAME##Iter_s \
89 const TYPENAME* hash; \
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| D | dePoolHeap.h | 57 #define DE_DECLARE_POOL_HEAP(TYPENAME, VALUETYPE, CMPFUNC) \ argument
59 DE_DECLARE_POOL_ARRAY(TYPENAME##Array, VALUETYPE); \
61 typedef struct TYPENAME##_s \
63 TYPENAME##Array* array; \
64 } TYPENAME; \
66 DE_INLINE TYPENAME* TYPENAME##_create (deMemPool* pool); \
67 DE_INLINE int TYPENAME##_getNumElements (const TYPENAME* heap) DE_UNUSED_FUNCTION; \
68 DE_INLINE deBool TYPENAME##_reserve (TYPENAME* heap, int capacity) DE_UNUSED_FUNCTION; \
69 DE_INLINE void TYPENAME##_reset (TYPENAME* heap) DE_UNUSED_FUNCTION; \
70 DE_INLINE void TYPENAME##_moveDown (TYPENAME* heap, int ndx) DE_UNUSED_FUNCTION; \
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| D | dePoolArray.h | 92 #define DE_DECLARE_POOL_ARRAY(TYPENAME, VALUETYPE) \ argument
94 typedef struct TYPENAME##_s \
104 } TYPENAME; \
106 DE_INLINE TYPENAME* TYPENAME##_create (deMemPool* pool); \
107 DE_INLINE int TYPENAME##_getNumElements (const TYPENAME* arr) DE_UNUSED_FUNCTION; \
108 DE_INLINE deBool TYPENAME##_reserve (TYPENAME* arr, int capacity) DE_UNUSED_FUNCTION; \
109 DE_INLINE deBool TYPENAME##_setSize (TYPENAME* arr, int size) DE_UNUSED_FUNCTION; \
110 DE_INLINE void TYPENAME##_reset (TYPENAME* arr) DE_UNUSED_FUNCTION; \
111 DE_INLINE VALUETYPE TYPENAME##_get (const TYPENAME* arr, int ndx) DE_UNUSED_FUNCTION; \
112 DE_INLINE void TYPENAME##_set (TYPENAME* arr, int ndx, VALUETYPE elem) DE_UNUSED_FUNCTION; \
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| D | dePoolHashSet.h | 57 #define DE_DECLARE_POOL_HASH_SET(TYPENAME, KEYTYPE, VALUETYPE) \ argument
59 DE_DECLARE_POOL_SET(TYPENAME##Set, VALUETYPE); \
60 DE_DECLARE_POOL_HASH(TYPENAME##Hash, KEYTYPE, TYPENAME##Set*); \
61 typedef struct TYPENAME##_s \
63 TYPENAME##Hash* hash; \
64 } TYPENAME; \
66 DE_INLINE TYPENAME* TYPENAME##_create (deMemPool* pool); \
67 DE_INLINE int TYPENAME##_getNumElements (const TYPENAME* hashSet) DE_UNUSED_FUNCTION; \
68 DE_INLINE TYPENAME##Hash* TYPENAME##_getHash (const TYPENAME* hashSet) DE_UNUSED_FUNCTION;…
69 DE_INLINE deBool TYPENAME##_insert (TYPENAME* hashSet, KEYTYPE key, VALUETYPE value) DE_UNUSED…
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| D | dePoolHashArray.h | 59 #define DE_DECLARE_POOL_HASH_ARRAY(TYPENAME, KEYTYPE, VALUETYPE, KEYARRAYTYPE, VALUEARRAYTYPE) \ argument
61 DE_DECLARE_POOL_ARRAY(TYPENAME##Array, VALUETYPE); \
62 DE_DECLARE_POOL_HASH(TYPENAME##Hash, KEYTYPE, int); \
66 TYPENAME##Hash* hash; \
67 TYPENAME##Array* array; \
68 } TYPENAME; \
70 TYPENAME* TYPENAME##_create (deMemPool* pool); \
71 deBool TYPENAME##_insert (TYPENAME* hashArray, KEYTYPE key, VALUETYPE value); \
72 deBool TYPENAME##_copyToArray (const TYPENAME* hashArray, KEYARRAYTYPE* keys, VALUEARRAYTYPE* val…
74 DE_INLINE int TYPENAME##_getNumElements (const TYPENAME* hashArray) DE_UNUSED_FUNCTION; \
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| D | dePoolHash.h | 67 #define DE_DECLARE_POOL_HASH(TYPENAME, KEYTYPE, VALUETYPE) \ argument
69 typedef struct TYPENAME##Slot_s TYPENAME##Slot; \
71 struct TYPENAME##Slot_s \
74 TYPENAME##Slot* nextSlot; \
79 typedef struct TYPENAME##_s \
85 TYPENAME##Slot** slotTable; \
86 TYPENAME##Slot* slotFreeList; \
87 } TYPENAME; \
89 typedef struct TYPENAME##Iter_s \
91 const TYPENAME* hash; \
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| /external/elfutils/0.153/lib/ |
| D | dynamicsizehash.c | 316 # define TYPENAME(name) _TYPENAME (name) macro
323 p = ((TYPENAME(NAME) *) p)->next;
342 p = ((TYPENAME(NAME) *) p)->next;
348 __builtin_prefetch (((TYPENAME(NAME) *) p)->next, 0, 2);
350 return ((TYPENAME(NAME) *) (*ptr = p))->data;
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| /external/chromium_org/third_party/protobuf/src/google/protobuf/ |
| D | generated_message_reflection.cc | 676 #define DEFINE_PRIMITIVE_ACCESSORS(TYPENAME, TYPE, PASSTYPE, CPPTYPE) \ argument
677 PASSTYPE GeneratedMessageReflection::Get##TYPENAME( \
679 USAGE_CHECK_ALL(Get##TYPENAME, SINGULAR, CPPTYPE); \
681 return GetExtensionSet(message).Get##TYPENAME( \
688 void GeneratedMessageReflection::Set##TYPENAME( \
691 USAGE_CHECK_ALL(Set##TYPENAME, SINGULAR, CPPTYPE); \
693 return MutableExtensionSet(message)->Set##TYPENAME( \
700 PASSTYPE GeneratedMessageReflection::GetRepeated##TYPENAME( \
703 USAGE_CHECK_ALL(GetRepeated##TYPENAME, REPEATED, CPPTYPE); \
705 return GetExtensionSet(message).GetRepeated##TYPENAME( \
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| /external/protobuf/src/google/protobuf/ |
| D | generated_message_reflection.cc | 674 #define DEFINE_PRIMITIVE_ACCESSORS(TYPENAME, TYPE, PASSTYPE, CPPTYPE) \ argument
675 PASSTYPE GeneratedMessageReflection::Get##TYPENAME( \
677 USAGE_CHECK_ALL(Get##TYPENAME, SINGULAR, CPPTYPE); \
679 return GetExtensionSet(message).Get##TYPENAME( \
686 void GeneratedMessageReflection::Set##TYPENAME( \
689 USAGE_CHECK_ALL(Set##TYPENAME, SINGULAR, CPPTYPE); \
691 return MutableExtensionSet(message)->Set##TYPENAME( \
698 PASSTYPE GeneratedMessageReflection::GetRepeated##TYPENAME( \
701 USAGE_CHECK_ALL(GetRepeated##TYPENAME, REPEATED, CPPTYPE); \
703 return GetExtensionSet(message).GetRepeated##TYPENAME( \
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| /external/bison/tests/ |
| D | cxx-type.at | 71 %token TYPENAME ID
78 %destructor { free_node ($$); } stmt expr decl declarator TYPENAME ID
102 | TYPENAME '(' expr ')'
108 decl : TYPENAME declarator ';'
110 | TYPENAME declarator '=' expr ';'
191 tok = isupper ((unsigned char) buffer[0]) ? TYPENAME : ID;
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| /external/chromium_org/v8/src/ |
| D | typedarray.js | 400 macro DATA_VIEW_GETTER_SETTER(TYPENAME)
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| /external/bison/data/ |
| D | c.m4 | 425 # SYMBOL-ACTION, SYMBOL-TYPENAME)
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| /external/bison/doc/ |
| D | bison.texi | 998 %token TYPENAME ID
1019 | TYPENAME '(' expr ')'
1026 TYPENAME declarator ';'
1028 | TYPENAME declarator '=' expr ';'
1048 (assuming that @samp{T} is recognized as a @code{TYPENAME} and
8124 @code{IDENTIFIER} and @code{TYPENAME}. When @code{yylex} finds an
8126 to decide which token type to return: @code{TYPENAME} if the identifier is
8131 but @code{TYPENAME} is not. @code{TYPENAME} can start a declaration, but
8134 typedef name, either @code{TYPENAME} or @code{IDENTIFIER} is
12310 @c LocalWords: glr YYSTYPE TYPENAME prog dprec printf decl init stmtMerge POSIX
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| D | bison.info | 1614 %token TYPENAME ID
1635 | TYPENAME '(' expr ')'
1642 TYPENAME declarator ';'
1644 | TYPENAME declarator '=' expr ';'
1659 as a `TYPENAME' and `x' as an `ID'). Bison detects this as a
7712 `IDENTIFIER' and `TYPENAME'. When `yylex' finds an identifier, it
7714 which token type to return: `TYPENAME' if the identifier is declared as
7719 expression, but `TYPENAME' is not. `TYPENAME' can start a declaration,
7722 shadow a typedef name, either `TYPENAME' or `IDENTIFIER' is
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