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#include "internalJSONNode.h" //internal structure for json value
#ifdef JSON_BINARY
#include "JSON_Base64.h"
#endif
/*
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 json_string & unparsed) :
internal(internalJSONNode::newInternal(unparsed))
{ //root, specialized because it can only be array or node
incAllocCount();
}
inline JSONNode::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();
}
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 bool JSONNode::isnull(void) const
{
JSON_CHECK_INTERNAL();
return internal->type() == JSON_NULL;
}
inline JSONNode::operator bool() const
{
JSON_CHECK_INTERNAL();
return internal->type() != JSON_NULL;
}
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 CMStringW JSONNode::as_mstring(void) const
{
JSON_CHECK_INTERNAL();
return internal->as_mstring();
}
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_char *name_t)
{
return at(name_t);
}
inline const JSONNode & JSONNode::operator[](const json_char *name_t) const
{
return 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 JSONNode& JSONNode::operator<<(const JSONNode &node)
{
push_back(node);
return *this;
}
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<type>(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) const {
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) const {
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<JSONNode>(ptr);
#else
delete ptr;
#endif
}
inline JSONNode * _newJSONNode(const JSONNode & orig){
#ifdef JSON_MEMORY_CALLBACKS
return new(json_malloc<JSONNode>(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<JSONNode>(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<JSONNode>(1)) JSONNode(true, const_cast<JSONNode &>(orig));
#else
return new JSONNode(true, const_cast<JSONNode &>(orig));
#endif
}
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