#ifndef JSONNODE_H #define JSONNODE_H #include "JSONDefs.h" //for string type #include "internalJSONNode.h" //internal structure for json value #ifdef JSON_BINARY #include "JSON_Base64.h" #endif #ifndef JSON_REF_COUNT #define makeUniqueInternal() (void)0 #endif #define JSON_CHECK_INTERNAL() JSON_ASSERT(internal, JSON_TEXT("no internal")) #ifdef JSON_MUTEX_CALLBACKS #define JSON_MUTEX_COPY_DECL ,void * parentMutex #define JSON_MUTEX_COPY_DECL2 ,void * parentMutex = 0 #else #define JSON_MUTEX_COPY_DECL #define JSON_MUTEX_COPY_DECL2 #endif #ifdef JSON_LIBRARY #define JSON_PTR_LIB * #define JSON_NEW(x) JSONNode::newJSONNode_Shallow(x) #define DECLARE_FOR_ALL_TYPES(foo)\ foo(long);\ foo(double);\ foo(bool);\ foo(const json_string &); #define DECLARE_FOR_ALL_TYPES_CONST(foo)\ foo(long) const;\ foo(double) const;\ foo(bool) const;\ foo(const json_string &) const;\ foo(const JSONNode &) const; #define IMPLEMENT_FOR_ALL_NUMBERS(foo)\ foo(long)\ foo(double) #else #define JSON_PTR_LIB #define JSON_NEW(x) x #define DECLARE_FOR_ALL_TYPES(foo)\ foo(char); foo(unsigned char);\ foo(short); foo(unsigned short);\ foo(int); foo(unsigned int);\ foo(long); foo(unsigned long);\ foo(float); foo(double);\ foo(bool);\ foo(const json_string &);\ foo(const json_char *); #define DECLARE_FOR_ALL_TYPES_CONST(foo)\ foo(char) const; foo(unsigned char) const;\ foo(short) const; foo(unsigned short) const;\ foo(int) const; foo(unsigned int) const;\ foo(long) const; foo(unsigned long) const;\ foo(float) const; foo(double) const;\ foo(bool) const;\ foo(const json_string &) const;\ foo(const JSONNode &) const;\ foo(const json_char *) const; #define IMPLEMENT_FOR_ALL_NUMBERS(foo)\ foo(char) foo(unsigned char)\ foo(short) foo(unsigned short)\ foo(int) foo(unsigned int)\ foo(long) foo(unsigned long)\ foo(float) foo(double) #endif #define IMPLEMENT_FOR_ALL_TYPES(foo)\ IMPLEMENT_FOR_ALL_NUMBERS(foo)\ foo(const json_string &)\ foo(bool) /* This class is mostly just a wrapper class around internalJSONNode, this class keeps the reference count and handles copy on write and such. This class is also responsible for argument checking and throwing exceptions if needed. */ class JSONNode { public: explicit JSONNode(char mytype = JSON_NODE); #define DECLARE_CTOR(type) JSONNode(const json_string & name_t, type value_t) DECLARE_FOR_ALL_TYPES(DECLARE_CTOR) JSONNode(const JSONNode & orig); ~JSONNode(void); json_index_t size(void) const; bool empty(void) const; void clear(void); unsigned char type(void) const; const json_char* name(void) const; void set_name(const json_string & newname); #ifdef JSON_COMMENTS void set_comment(const json_string & comment); json_string get_comment(void) const; #endif #ifndef JSON_PREPARSE void preparse(void); #endif #ifdef JSON_VALIDATE #ifndef JSON_SAFE #error JSON_VALIDATE also requires JSON_SAFE #endif bool validate(void); #endif json_string as_string(void) const; long as_int(void) const; double as_float(void) const; bool as_bool(void) const; JSONNode as_node(void) const; JSONNode as_array(void) const; #ifdef JSON_BINARY std::string as_binary(void) const; void set_binary(const unsigned char * bin, json_index_t bytes); #endif JSONNode & at(json_index_t pos); const JSONNode & at(json_index_t pos) const; JSONNode & operator[](json_index_t pos); const JSONNode & operator[](json_index_t pos) const; JSONNode & at(const json_string & name_t); const JSONNode & at(const json_string & name_t) const; #ifdef JSON_CASE_INSENSITIVE_FUNCTIONS JSONNode & at_nocase(const json_string & name_t); const JSONNode & at_nocase(const json_string & name_t) const; #endif JSONNode & operator[](const json_string & name_t); const JSONNode & operator[](const json_string & name_t) const; #ifdef JSON_LIBRARY void push_back(JSONNode *node); #else void push_back(const JSONNode & node); #endif void reserve(json_index_t size); JSONNode JSON_PTR_LIB pop_back(json_index_t pos); JSONNode JSON_PTR_LIB pop_back(const json_string & name_t); #ifdef JSON_CASE_INSENSITIVE_FUNCTIONS JSONNode JSON_PTR_LIB pop_back_nocase(const json_string & name_t); #endif DECLARE_FOR_ALL_TYPES(JSONNode & operator = ) JSONNode & operator = (const JSONNode &); DECLARE_FOR_ALL_TYPES_CONST(bool operator ==) DECLARE_FOR_ALL_TYPES_CONST(bool operator !=) void nullify(void); void swap(JSONNode & other); void merge(JSONNode & other); void merge(unsigned int num, ...); JSONNode duplicate(void) const; void cast(char newtype); //iterator #ifdef JSON_ITERATORS #ifndef JSON_LIBRARY #define json_iterator_ptr(iter) iter.it #define ptr_to_json_iterator(iter) json_iterator(iter) struct iterator { inline iterator& operator ++(void){ ++it; return *this; } inline iterator& operator --(void){ --it; return *this; } inline iterator& operator +=(long i){ it += i; return *this; } inline iterator& operator -=(long i){ it -= i; return *this; } inline iterator operator ++(int){ iterator result(*this); ++it; return result; } inline iterator operator --(int){ iterator result(*this); --it; return result; } inline iterator operator +(long i) const { iterator result(*this); result.it += i; return result; } inline iterator operator -(long i) const { iterator result(*this); result.it -= i; return result; } inline JSONNode& operator [](size_t pos) const { return *it[pos]; }; inline JSONNode& operator *(void) const { return *(*it); } inline bool operator == (const iterator & other) const { return it == other.it; } inline bool operator != (const iterator & other) const { return it != other.it; } inline bool operator > (const iterator & other) const { return it > other.it; } inline bool operator >= (const iterator & other) const { return it >= other.it; } inline bool operator < (const iterator & other) const { return it < other.it; } inline bool operator <= (const iterator & other) const { return it <= other.it; } inline iterator & operator = (const iterator & orig){ it = orig.it; return *this; } iterator (const iterator & orig) : it(orig.it) {} private: JSONNode ** it; iterator(JSONNode ** starter) : it(starter) {} friend class JSONNode; }; typedef iterator json_iterator; struct const_iterator { inline const_iterator& operator ++(void){ ++it; return *this; } inline const_iterator& operator --(void){ --it; return *this; } inline const_iterator& operator +=(long i){ it += i; return *this; } inline const_iterator& operator -=(long i){ it -= i; return *this; } inline const_iterator operator ++(int){ const_iterator result(*this); ++it; return result; } inline const_iterator operator --(int){ const_iterator result(*this); --it; return result; } inline const_iterator operator +(long i) const { const_iterator result(*this); result.it += i; return result; } inline const_iterator operator -(long i) const { const_iterator result(*this); result.it -= i; return result; } inline const JSONNode& operator [](size_t pos) const { return const_cast(*it[pos]); }; inline const JSONNode& operator *(void) const { return const_cast(*(*it)); } inline bool operator == (const const_iterator & other) const { return it == other.it; } inline bool operator != (const const_iterator & other) const { return it != other.it; } inline bool operator > (const const_iterator & other) const { return it > other.it; } inline bool operator >= (const const_iterator & other) const { return it >= other.it; } inline bool operator < (const const_iterator & other) const { return it < other.it; } inline bool operator <= (const const_iterator & other) const { return it <= other.it; } inline const_iterator & operator = (const const_iterator & orig){ it = orig.it; return *this; } const_iterator (const const_iterator & orig) : it(orig.it) {} private: JSONNode ** it; const_iterator(JSONNode ** starter) : it(starter) {} friend class JSONNode; }; const_iterator begin(void) const; const_iterator end(void) const; struct reverse_iterator { inline reverse_iterator& operator ++(void){ --it; return *this; } inline reverse_iterator& operator --(void){ ++it; return *this; } inline reverse_iterator& operator +=(long i){ it -= i; return *this; } inline reverse_iterator& operator -=(long i){ it += i; return *this; } inline reverse_iterator operator ++(int){ reverse_iterator result(*this); --it; return result; } inline reverse_iterator operator --(int){ reverse_iterator result(*this); ++it; return result; } inline reverse_iterator operator +(long i) const { reverse_iterator result(*this); result.it -= i; return result; } inline reverse_iterator operator -(long i) const { reverse_iterator result(*this); result.it += i; return result; } inline JSONNode& operator [](size_t pos) const { return *it[pos]; }; inline JSONNode& operator *(void) const { return *(*it); } inline bool operator == (const reverse_iterator & other) const { return it == other.it; } inline bool operator != (const reverse_iterator & other) const { return it != other.it; } inline bool operator < (const reverse_iterator & other) const { return it > other.it; } inline bool operator <= (const reverse_iterator & other) const { return it >= other.it; } inline bool operator > (const reverse_iterator & other) const { return it < other.it; } inline bool operator >= (const reverse_iterator & other) const { return it <= other.it; } inline reverse_iterator & operator = (const reverse_iterator & orig){ it = orig.it; return *this; } reverse_iterator (const reverse_iterator & orig) : it(orig.it) {} private: JSONNode ** it; reverse_iterator(JSONNode ** starter) : it(starter) {} friend class JSONNode; }; reverse_iterator rbegin(void); reverse_iterator rend(void); struct reverse_const_iterator { inline reverse_const_iterator& operator ++(void){ --it; return *this; } inline reverse_const_iterator& operator --(void){ ++it; return *this; } inline reverse_const_iterator& operator +=(long i){ it -= i; return *this; } inline reverse_const_iterator& operator -=(long i){ it += i; return *this; } inline reverse_const_iterator operator ++(int){ reverse_const_iterator result(*this); --it; return result; } inline reverse_const_iterator operator --(int){ reverse_const_iterator result(*this); ++it; return result; } inline reverse_const_iterator operator +(long i) const { reverse_const_iterator result(*this); result.it -= i; return result; } inline reverse_const_iterator operator -(long i) const { reverse_const_iterator result(*this); result.it += i; return result; } inline const JSONNode& operator [](size_t pos) const { return const_cast(*it[pos]); }; inline const JSONNode& operator *(void) const { return const_cast(*(*it)); } inline bool operator == (const reverse_const_iterator & other) const { return it == other.it; } inline bool operator != (const reverse_const_iterator & other) const { return it != other.it; } inline bool operator < (const reverse_const_iterator & other) const { return it > other.it; } inline bool operator <= (const reverse_const_iterator & other) const { return it >= other.it; } inline bool operator > (const reverse_const_iterator & other) const { return it < other.it; } inline bool operator >= (const reverse_const_iterator & other) const { return it <= other.it; } inline reverse_const_iterator & operator = (const reverse_const_iterator & orig){ it = orig.it; return *this; } reverse_const_iterator (const reverse_const_iterator & orig) : it(orig.it) {} private: JSONNode ** it; reverse_const_iterator(JSONNode ** starter) : it(starter) {} friend class JSONNode; }; reverse_const_iterator rbegin(void) const; reverse_const_iterator rend(void) const; const_iterator find(const json_string & name_t) const; #ifdef JSON_CASE_INSENSITIVE_FUNCTIONS const_iterator find_nocase(const json_string & name_t) const; #endif reverse_iterator erase(reverse_iterator pos); reverse_iterator erase(reverse_iterator start, const reverse_iterator & end); iterator insert(iterator pos, const JSONNode & x); reverse_iterator insert(reverse_iterator pos, const JSONNode & x); iterator insert(iterator pos, const reverse_iterator & _start, const reverse_iterator & _end); reverse_iterator insert(reverse_iterator pos, const iterator & _start, const iterator & _end); reverse_iterator insert(reverse_iterator pos, const reverse_iterator & _start, const reverse_iterator & _end); json_iterator insert(json_iterator pos, const const_iterator & _start, const const_iterator & _end); reverse_iterator insert(reverse_iterator pos, const const_iterator & _start, const const_iterator & _end); json_iterator insert(json_iterator pos, const reverse_const_iterator & _start, const reverse_const_iterator & _end); reverse_iterator insert(reverse_iterator pos, const reverse_const_iterator & _start, const reverse_const_iterator & _end); #else typedef JSONNode** json_iterator; #define json_iterator_ptr(iter) iter #define ptr_to_json_iterator(iter) iter json_iterator insert(json_iterator pos, JSONNode * x); #endif json_iterator begin(void); json_iterator end(void); json_iterator find(const json_string & name_t); #ifdef JSON_CASE_INSENSITIVE_FUNCTIONS json_iterator find_nocase(const json_string & name_t); #endif json_iterator erase(json_iterator pos); json_iterator erase(json_iterator start, const json_iterator & end); json_iterator insert(json_iterator pos, const json_iterator & _start, const json_iterator & _end); #endif #ifdef JSON_MUTEX_CALLBACKS static void register_mutex_callbacks(json_mutex_callback_t lock, json_mutex_callback_t unlock, void * manager_lock); #ifdef JSON_MUTEX_MANAGE static void register_mutex_destructor(json_mutex_callback_t destroy); #endif static void set_global_mutex(void * mutex); void set_mutex(void * mutex); void lock(int thread); void unlock(int thread); struct auto_lock { public: auto_lock(JSONNode & node, int thread) : mynode(&node), mythread(thread){ mynode -> lock(mythread); } auto_lock(JSONNode *node, int thread) : mynode(node), mythread(thread){ mynode -> lock(mythread); } ~auto_lock(void){ mynode -> unlock(mythread); } private: auto_lock & operator = (const auto_lock &); auto_lock(const auto_lock &); JSONNode * mynode; int mythread; }; static void * getThisLock(JSONNode * pthis); #endif #ifdef JSON_UNIT_TEST static int getNodeAllocationCount(void); static int getNodeDeallocationCount(void); static int getInternalAllocationCount(void); static int getInternalDeallocationCount(void); static void incAllocCount(void); static void decAllocCount(void); static void incinternalAllocCount(void); static void decinternalAllocCount(void); #endif #ifdef JSON_WRITER json_string write(void); json_string write_formatted(void); #endif #ifdef JSON_DEBUG #ifndef JSON_LIBRARY JSONNode dump(void) const; #endif #endif static void deleteJSONNode(JSONNode * ptr); static JSONNode * newJSONNode_Shallow(const JSONNode & orig); JSON_PRIVATE static JSONNode * newJSONNode(const JSONNode & orig JSON_MUTEX_COPY_DECL2); static JSONNode * newJSONNode(internalJSONNode * internal_t); //used by JSONWorker JSONNode(const json_string & unparsed) : internal(internalJSONNode::newInternal(unparsed)) { //root, specialized because it can only be array or node incAllocCount(); } JSONNode(internalJSONNode * internal_t) : internal(internal_t){ //do not increment anything, this is only used in one case and it's already taken care of incAllocCount(); } JSONNode(bool, JSONNode & orig); void decRef(void); //decrements internal's counter, deletes it if needed #ifdef JSON_REF_COUNT void makeUniqueInternal(void); //makes internal it's own void merge(JSONNode * other); #endif #ifdef JSON_DEBUG #ifndef JSON_LIBRARY JSONNode dump(size_t & totalmemory); #endif #endif #ifdef JSON_ITERATORS #ifndef JSON_LIBRARY json_iterator insertFRR(json_iterator pos, JSONNode ** const _start, JSONNode ** const _end); reverse_iterator insertRRR(reverse_iterator pos, JSONNode ** const _start, JSONNode ** const _end); reverse_iterator insertRFF(reverse_iterator pos, JSONNode ** const _start, JSONNode ** const _end); #endif json_iterator insertFFF(json_iterator pos, JSONNode ** const _start, JSONNode ** const _end); #endif mutable internalJSONNode * internal; friend class JSONWorker; friend class internalJSONNode; }; /* Implementations are here to keep the class declaration cleaner. They can't be placed in a different file because they are inlined. */ inline JSONNode::JSONNode(char mytype) : internal(internalJSONNode::newInternal(mytype)) { JSON_ASSERT((mytype == JSON_NULL) || (mytype == JSON_STRING) || (mytype == JSON_NUMBER) || (mytype == JSON_BOOL) || (mytype == JSON_ARRAY) || (mytype == JSON_NODE), JSON_TEXT("Not a proper JSON type")); incAllocCount(); } inline JSONNode::JSONNode(const JSONNode & orig): internal(orig.internal -> incRef()) { incAllocCount(); } //this allows a temp node to simply transfer its contents, even with ref counting off inline JSONNode::JSONNode(bool, JSONNode & orig): internal(orig.internal){ orig.internal = 0; incAllocCount(); } inline JSONNode::~JSONNode(void){ if (internal) decRef(); decAllocCount(); } inline json_index_t JSONNode::size(void) const { JSON_CHECK_INTERNAL(); return internal -> size(); } inline bool JSONNode::empty(void) const { JSON_CHECK_INTERNAL(); return internal -> empty(); } inline void JSONNode::clear(void){ JSON_CHECK_INTERNAL(); if (!empty()) { makeUniqueInternal(); internal -> Children.clear(); } } inline unsigned char JSONNode::type(void) const { JSON_CHECK_INTERNAL(); return internal -> type(); } inline const json_char* JSONNode::name(void) const { JSON_CHECK_INTERNAL(); return internal -> name(); } inline void JSONNode::set_name(const json_string & newname){ JSON_CHECK_INTERNAL(); makeUniqueInternal(); internal -> setname(newname); } #ifdef JSON_COMMENTS inline void JSONNode::set_comment(const json_string & newname){ JSON_CHECK_INTERNAL(); makeUniqueInternal(); internal -> setcomment(newname); } inline json_string JSONNode::get_comment(void) const { JSON_CHECK_INTERNAL(); return internal -> getcomment(); } #endif inline json_string JSONNode::as_string(void) const { JSON_CHECK_INTERNAL(); return internal -> as_string(); } inline long JSONNode::as_int(void) const { JSON_CHECK_INTERNAL(); return internal -> as_int(); } inline double JSONNode::as_float(void) const { JSON_CHECK_INTERNAL(); return internal -> as_float(); } inline bool JSONNode::as_bool(void) const { JSON_CHECK_INTERNAL(); return internal -> as_bool(); } #ifdef JSON_BINARY inline void JSONNode::set_binary(const unsigned char * bin, json_index_t bytes){ JSON_CHECK_INTERNAL(); *this = JSONBase64::json_encode64(bin, bytes); } inline std::string JSONNode::as_binary(void) const { JSON_ASSERT_SAFE(type() == JSON_STRING, JSON_TEXT("using as_binary for a non-string type"), return EMPTY_STRING2;); JSON_CHECK_INTERNAL(); return JSONBase64::json_decode64(as_string()); } #endif inline JSONNode & JSONNode::operator[](const json_string & name_t){ JSON_CHECK_INTERNAL(); makeUniqueInternal(); return *(*(internal -> at(name_t))); } inline const JSONNode & JSONNode::operator[](const json_string & name_t) const { JSON_CHECK_INTERNAL(); return *(*(internal -> at(name_t))); } #ifdef JSON_LIBRARY inline void JSONNode::push_back(JSONNode * child){ #else inline void JSONNode::push_back(const JSONNode & child){ #endif JSON_CHECK_INTERNAL(); makeUniqueInternal(); internal -> push_back(child); } inline void JSONNode::reserve(json_index_t size){ makeUniqueInternal(); internal -> reserve(size); } inline JSONNode & JSONNode::operator = (const JSONNode & orig){ JSON_CHECK_INTERNAL(); #ifdef JSON_REF_COUNT if (internal == orig.internal) return *this; //don't want it accidentally deleting itself #endif decRef(); //dereference my current one internal = orig.internal -> incRef(); //increase reference of original return *this; } #ifndef JSON_LIBRARY inline JSONNode & JSONNode::operator = (const json_char * val){ JSON_CHECK_INTERNAL(); *this = json_string(val); return *this; } #endif #define NODE_SET_TYPED(type)\ inline JSONNode & JSONNode::operator = (type val){\ JSON_CHECK_INTERNAL();\ makeUniqueInternal();\ internal -> Set(val);\ return *this;\ } IMPLEMENT_FOR_ALL_TYPES(NODE_SET_TYPED) /* This section is the equality operators */ #define NODE_CHECK_EQUALITY(type)\ inline bool JSONNode::operator == (type val) const {\ JSON_CHECK_INTERNAL();\ return internal -> IsEqualToNum(val);\ } IMPLEMENT_FOR_ALL_NUMBERS(NODE_CHECK_EQUALITY) inline bool JSONNode::operator == (const json_string & val) const { JSON_CHECK_INTERNAL(); return internal -> IsEqualTo(val); } #ifndef JSON_LIBRARY inline bool JSONNode::operator == (const json_char * val) const { JSON_CHECK_INTERNAL(); return *this == json_string(val); } #endif inline bool JSONNode::operator == (bool val) const { JSON_CHECK_INTERNAL(); return internal -> IsEqualTo(val); } inline bool JSONNode::operator == (const JSONNode & val) const { JSON_CHECK_INTERNAL(); return internal -> IsEqualTo(val.internal); } /* This section is the inequality operators */ #define NODE_CHECK_INEQUALITY(type)\ inline bool JSONNode::operator != (type val) const {\ JSON_CHECK_INTERNAL();\ return !(*this == val);\ } IMPLEMENT_FOR_ALL_TYPES(NODE_CHECK_INEQUALITY) NODE_CHECK_INEQUALITY(const JSONNode &) #ifndef JSON_LIBRARY NODE_CHECK_INEQUALITY(const json_char * ) #endif inline void JSONNode::nullify(void){ JSON_CHECK_INTERNAL(); makeUniqueInternal(); internal -> Nullify(); } inline void JSONNode::swap(JSONNode & other){ JSON_CHECK_INTERNAL(); internalJSONNode * temp = other.internal; other.internal = internal; internal = temp; JSON_CHECK_INTERNAL(); } inline void JSONNode::decRef(void){ //decrements internal's counter, deletes it if needed JSON_CHECK_INTERNAL(); #ifdef JSON_REF_COUNT internal -> decRef(); if (internal -> hasNoReferences()) { internalJSONNode::deleteInternal(internal); } #else internalJSONNode::deleteInternal(internal); #endif } #ifdef JSON_REF_COUNT inline void JSONNode::makeUniqueInternal() { //makes internal it's own JSON_CHECK_INTERNAL(); internal = internal -> makeUnique(); //might return itself or a new one that's exactly the same } #endif #ifdef JSON_ITERATORS inline JSONNode::json_iterator JSONNode::begin(void){ JSON_CHECK_INTERNAL(); JSON_ASSERT(type() == JSON_NODE || type() == JSON_ARRAY, JSON_TEXT("iterating a non-iteratable node")); makeUniqueInternal(); return json_iterator(internal -> begin()); } inline JSONNode::json_iterator JSONNode::end(void){ JSON_CHECK_INTERNAL(); JSON_ASSERT(type() == JSON_NODE || type() == JSON_ARRAY, JSON_TEXT("iterating a non-iteratable node")); makeUniqueInternal(); return json_iterator(internal -> end()); } #ifndef JSON_LIBRARY inline JSONNode::const_iterator JSONNode::begin(void) const { JSON_CHECK_INTERNAL(); JSON_ASSERT(type() == JSON_NODE || type() == JSON_ARRAY, JSON_TEXT("iterating a non-iteratable node")); return JSONNode::const_iterator(internal -> begin()); } inline JSONNode::const_iterator JSONNode::end(void) const { JSON_CHECK_INTERNAL(); JSON_ASSERT(type() == JSON_NODE || type() == JSON_ARRAY, JSON_TEXT("iterating a non-iteratable node")); return JSONNode::const_iterator(internal -> end()); } inline JSONNode::reverse_iterator JSONNode::rbegin(void){ JSON_CHECK_INTERNAL(); JSON_ASSERT(type() == JSON_NODE || type() == JSON_ARRAY, JSON_TEXT("iterating a non-iteratable node")); makeUniqueInternal(); return JSONNode::reverse_iterator(internal -> end() - 1); } inline JSONNode::reverse_iterator JSONNode::rend(void){ JSON_CHECK_INTERNAL(); JSON_ASSERT(type() == JSON_NODE || type() == JSON_ARRAY, JSON_TEXT("iterating a non-iteratable node")); makeUniqueInternal(); return JSONNode::reverse_iterator(internal -> begin() - 1); } inline JSONNode::reverse_const_iterator JSONNode::rbegin(void) const { JSON_CHECK_INTERNAL(); JSON_ASSERT(type() == JSON_NODE || type() == JSON_ARRAY, JSON_TEXT("iterating a non-iteratable node")); return JSONNode::reverse_const_iterator(internal -> end() - 1); } inline JSONNode::reverse_const_iterator JSONNode::rend(void) const { JSON_CHECK_INTERNAL(); JSON_ASSERT(type() == JSON_NODE || type() == JSON_ARRAY, JSON_TEXT("iterating a non-iteratable node")); return JSONNode::reverse_const_iterator(internal -> begin() - 1); } inline JSONNode::iterator JSONNode::insert(json_iterator pos, const const_iterator & _start, const const_iterator & _end){ return insertFFF(pos, _start.it, _end.it); } inline JSONNode::reverse_iterator JSONNode::insert(reverse_iterator pos, const const_iterator & _start, const const_iterator & _end){ return insertRFF(pos, _start.it, _end.it); } inline JSONNode::reverse_iterator JSONNode::insert(reverse_iterator pos, const iterator & _start, const iterator & _end){ return insertRFF(pos, _start.it, _end.it); } inline JSONNode::reverse_iterator JSONNode::insert(reverse_iterator pos, const reverse_const_iterator & _start, const reverse_const_iterator & _end){ return insertRRR(pos, _start.it, _end.it); } inline JSONNode::reverse_iterator JSONNode::insert(reverse_iterator pos, const reverse_iterator & _start, const reverse_iterator & _end){ return insertRRR(pos, _start.it, _end.it); } inline JSONNode::iterator JSONNode::insert(json_iterator pos, const reverse_const_iterator & _start, const reverse_const_iterator & _end){ return insertFRR(pos, _start.it, _end.it); } inline JSONNode::iterator JSONNode::insert(iterator pos, const reverse_iterator & _start, const reverse_iterator & _end){ return insertFRR(pos, _start.it, _end.it); } #endif inline JSONNode::json_iterator JSONNode::insert(json_iterator pos, const json_iterator & _start, const json_iterator & _end){ return insertFFF(pos, json_iterator_ptr(_start), json_iterator_ptr(_end)); } #endif #ifdef JSON_WRITER inline json_string JSONNode::write(void){ JSON_CHECK_INTERNAL(); JSON_ASSERT_SAFE(type() == JSON_NODE || type() == JSON_ARRAY, JSON_TEXT("Writing a non-writable node"), return JSON_TEXT("");); return internal -> Write(0xFFFFFFFF, true); } inline json_string JSONNode::write_formatted(void){ JSON_CHECK_INTERNAL(); JSON_ASSERT_SAFE(type() == JSON_NODE || type() == JSON_ARRAY, JSON_TEXT("Writing a non-writable node"), return JSON_TEXT("");); return internal -> Write(0, true); } #endif #ifndef JSON_PREPARSE inline void JSONNode::preparse(void){ JSON_CHECK_INTERNAL(); internal -> preparse(); } #endif #ifdef JSON_VALIDATE inline bool JSONNode::validate(void){ JSON_CHECK_INTERNAL(); if (type() == JSON_NULL) return false; JSON_ASSERT_SAFE(type() == JSON_NODE || type() == JSON_ARRAY, JSON_TEXT("Validating non root node"), return false;); #ifndef JSON_PREPARSE internal -> Fetch(); //will nullify it if it's bad #endif if (type() == JSON_NULL) return false; return internal -> validate(); } #endif #ifdef JSON_DEBUG #ifndef JSON_LIBRARY inline JSONNode JSONNode::dump(void) const { JSON_CHECK_INTERNAL(); JSONNode dumpage(JSON_NODE); dumpage.push_back(JSON_NEW(JSONNode(JSON_TEXT("this"), (long)this))); size_t total = 0; JSONNode node = internal -> Dump(total); dumpage.push_back(JSON_NEW(JSONNode(JSON_TEXT("total bytes used"), total))); dumpage.push_back(JSON_NEW(JSONNode(JSON_TEXT("bytes used"), sizeof(JSONNode)))); dumpage.push_back(JSON_NEW(node)); return dumpage; } inline JSONNode JSONNode::dump(size_t & totalmemory){ JSON_CHECK_INTERNAL(); JSONNode dumpage(JSON_NODE); dumpage.push_back(JSON_NEW(JSONNode(JSON_TEXT("this"), (long)this))); dumpage.push_back(JSON_NEW(JSONNode(JSON_TEXT("bytes used"), sizeof(JSONNode)))); dumpage.push_back(JSON_NEW(internal -> Dump(totalmemory))); return dumpage; } #endif #endif inline void JSONNode::deleteJSONNode(JSONNode * ptr){ #ifdef JSON_MEMORY_CALLBACKS ptr -> ~JSONNode(); libjson_free(ptr); #else delete ptr; #endif } inline JSONNode * _newJSONNode(const JSONNode & orig){ #ifdef JSON_MEMORY_CALLBACKS return new(json_malloc(1)) JSONNode(orig); #else return new JSONNode(orig); #endif } inline JSONNode * JSONNode::newJSONNode(const JSONNode & orig JSON_MUTEX_COPY_DECL){ #ifdef JSON_MUTEX_CALLBACKS if (parentMutex){ JSONNode * temp = _newJSONNode(orig); temp -> set_mutex(parentMutex); return temp; } #endif return _newJSONNode(orig); } inline JSONNode * JSONNode::newJSONNode(internalJSONNode * internal_t){ #ifdef JSON_MEMORY_CALLBACKS return new(json_malloc(1)) JSONNode(internal_t); #else return new JSONNode(internal_t); #endif } inline JSONNode * JSONNode::newJSONNode_Shallow(const JSONNode & orig){ #ifdef JSON_MEMORY_CALLBACKS return new(json_malloc(1)) JSONNode(true, const_cast(orig)); #else return new JSONNode(true, const_cast(orig)); #endif } #endif