wordreference/libjson/JSONOptions.h

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#ifndef JSON_OPTIONS_H
#define JSON_OPTIONS_H
/**
* This file holds all of the compiling options for easy access and so
* that you don't have to remember them, or look them up all the time
*/
/*
* JSON_LIBRARY must be declared if libjson is compiled as a static or dynamic
* library. This exposes a C-style interface, but none of the inner workings of libjson
*/
//#define JSON_LIBRARY
/*
* JSON_STRICT removes all of libjson's extensions. Meaning no comments, no special numbers
*/
#define JSON_STRICT
/*
* JSON_DEBUG is used to perform extra error checking. Because libjson usually
* does on the fly parsing, validation is impossible, so this option will allow
* you to register an error callback so that you can record what is going wrong
* before the library crashes. This option does not protect from these errors,
* it simply tells you about them, which is nice for debugging, but not preferable
* for release candidates
*/
//#define JSON_DEBUG
/*
* JSON_ISO_STRICT turns off all code that uses non-standard C++. This removes all
* references to long long and long double as well as a few others
*/
//#define JSON_ISO_STRICT
/*
* JSON_SAFE performs similarly to JSON_DEBUG, except this option does protect
* from the errors that it encounters. This option is recommended for those who
* feel it's possible for their program to encounter invalid json.
*/
#define JSON_SAFE
/*
* JSON_STDERROR routes error messages to cerr instead of a callback, this
* option hides the callback registering function. This will usually display
* messages in the console
*/
//#define JSON_STDERROR
/*
* JSON_PREPARSE causes all parsing to be done immediately. By default, libjson
* parses nodes on the fly as they are needed, this makes parsing much faster if
* your program gets a lot of information that it doesn't need. An example of
* this would be a client application communicating with a server if the server
* returns things like last modified date and other things that you don't use.
*/
//#define JSON_PREPARSE
/*
* JSON_LESS_MEMORY will force libjson to let go of memory as quickly as it can
* this is recommended for software that has to run on less than optimal machines.
* It will cut libjson's memory usage by about 20%, but also run slightly slower.
* It's recommended that you also compile using the -Os option, as this will also
* reduce the size of the library
*/
//#define JSON_LESS_MEMORY
/*
* JSON_UNICODE tells libjson to use wstrings instead of regular strings, this
* means that libjson supports the full array of unicode characters, but also takes
* much more memory and processing power.
*/
#define JSON_UNICODE
/*
* JSON_REF_COUNT causes libjson to reference count JSONNodes, which makes copying
* and passing them around much faster. It is recommended that this stay on for
* most uses
*/
#define JSON_REF_COUNT
/*
* JSON_BINARY is used to support binary, which is base64 encoded and decoded by libjson,
* if this option is not turned off, no base64 support is included
*/
#define JSON_BINARY
/*
* JSON_EXPOSE_BASE64 is used to turn on the functionality of libjson's base64 encoding
* and decoding. This may be useful if you want to obfuscate your json, or send binary data over
* a network
*/
#define JSON_EXPOSE_BASE64
/*
* JSON_ITERATORS turns on all of libjson's iterating functionality. This would usually
* only be turned off while compiling for use with C
*/
#define JSON_ITERATORS
/*
* JSON_STREAM turns on libjson's streaming functionality. This allows you to give parts of
* your json into a stream, which will automatically hit a callback when full nodes are
* completed
*/
#define JSON_STREAM
/*
* JSON_MEMORY_CALLBACKS exposes functions to register callbacks for allocating, resizing,
* and freeing memory. Because libjson is designed for customizability, it is feasible
* that some users would like to further add speed by having the library utilize a memory
* pool. With this option turned on, the default behavior is still done internally unless
* a callback is registered. So you can have this option on and not use it.
*/
//#define JSON_MEMORY_CALLBACKS
/*
* JSON_MEMORY_MANAGE is used to create functionality to automatically track and clean
* up memory that has been allocated by the user. This includes strings, binary data, and
* nodes. It also exposes bulk delete functions.
*/
//#define JSON_MEMORY_MANAGE
/*
* JSON_MEMORY_POOL Turns on libjson's iteraction with mempool++. It is more efficient that simply
* connecting mempool++ to the callbacks because it integrates things internally and uses a number
* of memory pools. This value tells libjson how large of a memory pool to start out with. 500KB
* should suffice for most cases. libjson will distribute that within the pool for the best
* performance depending on other settings.
*/
//#define JSON_MEMORY_POOL 524288
/*
* JSON_MUTEX_CALLBACKS exposes functions to register callbacks to lock and unlock
* mutexs and functions to lock and unlock JSONNodes and all of it's children. This
* does not prevent other threads from accessing the node, but will prevent them from
* locking it. It is much easier for the end programmer to allow libjson to manage
* your mutexs because of reference counting and manipulating trees, libjson automatically
* tracks mutex controls for you, so you only ever lock what you need to
*/
//#define JSON_MUTEX_CALLBACKS
/*
* JSON_MUTEX_MANAGE lets you set mutexes and forget them, libjson will not only keep
* track of the mutex, but also keep a count of how many nodes are using it, and delete
* it when there are no more references
*/
//#define JSON_MUTEX_MANAGE
/*
* JSON_NO_C_CONSTS removes consts from the C interface. It still acts the same way, but
* this may be useful for using the header with languages or variants that don't have const
*/
//#define JSON_NO_C_CONSTS
/*
* JSON_OCTAL allows libjson to use octal values in numbers.
*/
//#define JSON_OCTAL
/*
* JSON_WRITE_PRIORITY turns on libjson's writing capabilties. Without this libjson can only
* read and parse json, this allows it to write back out. Changing the value of the writer
* changes how libjson compiles, and how fast it will go when writing
*/
//#define JSON_WRITE_PRIORITY MED
/*
* JSON_READ_PRIORITY turns on libjson's reading capabilties. Changing the value of the reader
* changes how libjson compiles, and how fast it will go when writing
*/
#define JSON_READ_PRIORITY HIGH
/*
* JSON_NEWLINE affects how libjson writes. If this option is turned on, libjson
* will use whatever it's defined as for the newline signifier, otherwise, it will use
* standard unix \n.
*/
//#define JSON_NEWLINE "\r\n" //\r\n is standard for most windows and dos programs
/*
* JSON_INDENT affects how libjson writes. If this option is turned on, libjson
* will use \t to indent formatted json, otherwise it will use the number of characters
* that you specify. If this is not turned on, then it will use the tab (\t) character
*/
//#define JSON_INDENT " "
/*
* JSON_ESCAPE_WRITES tells the libjson engine to escape special characters when it writes
* out. If this option is turned off, the json it outputs may not adhere to JSON standards
*/
//#define JSON_ESCAPE_WRITES
/*
* JSON_COMMENTS tells libjson to store and write comments. libjson always supports
* parsing json that has comments in it as it simply ignores them, but with this option
* it keeps the comments and allows you to insert further comments
*/
//#define JSON_COMMENTS
/*
* JSON_WRITE_BASH_COMMENTS will cause libjson to write all comments in bash (#) style
* if this option is not turned on, then it will use C-style comments. Bash comments are
* all single line
*/
//#define JSON_WRITE_BASH_COMMENTS
/*
* JSON_WRITE_SINGLE_LINE_COMMENTS will cause libjson to write all comments in using //
* notation, or (#) if that option is on. Some parsers do not support multiline C comments
* although, this option is not needed for bash comments, as they are all single line anyway
*/
//#define JSON_WRITE_SINGLE_LINE_COMMENTS
/*
* JSON_ARRAY_SIZE_ON_ON_LINE allows you to put small arrays of primitives all on one line
* in a write_formatted. This is common for tuples, like coordinates. If must be defined
* as an integer
*/
//#define JSON_ARRAY_SIZE_ON_ONE_LINE 2
/*
* JSON_VALIDATE turns on validation features of libjson.
*/
#define JSON_VALIDATE
/*
* JSON_CASE_INSENSITIVE_FUNCTIONS turns on funtions for finding child nodes in a case-
* insenititve way
*/
//#define JSON_CASE_INSENSITIVE_FUNCTIONS
/*
* JSON_INDEX_TYPE allows you th change the size type for the children functions. If this
* option is not used then unsigned int is used. This option is useful for cutting down
* on memory, or using huge numbers of child nodes (over 4 billion)
*/
//#define JSON_INDEX_TYPE unsigned int
/*
* JSON_BOOL_TYPE lets you change the bool type for the C interface. Because before C99 there
* was no bool, and even then it's just a typedef, you may want to use something else. If this
* is not defined, it will revert to int
*/
//#define JSON_BOOL_TYPE char
/*
* JSON_INT_TYPE lets you change the int type for as_int. If you ommit this option, the default
* long will be used
*/
//#define JSON_INT_TYPE long
/*
* JSON_NUMBER_TYPE lets you change the number type for as_float as well as the internal storage for the
* number. If you omit this option, the default double will be used for most cases and float for JSON_LESS_MEMORY
*/
#define JSON_NUMBER_TYPE float
/*
* JSON_STRING_HEADER allows you to change the type of string that libjson uses both for the
* interface and internally. It must implement most of the STL string interface, but not all
* of it. Things like wxString or QString should wourk without much trouble
*/
//#define JSON_STRING_HEADER "../TestSuite/StringTest.h"
/*
* JSON_UNIT_TEST is used to maintain and debug the libjson. It makes all private
* members and functions public so that tests can do checks of the inner workings
* of libjson. This should not be turned on by end users.
*/
//#define JSON_UNIT_TEST
/*
* JSON_NO_EXCEPTIONS turns off any exception throwing by the library. It may still use exceptions
* internally, but the interface will never throw anything.
*/
//#define JSON_NO_EXCEPTIONS
/*
* JSON_DEPRECATED_FUNCTIONS turns on functions that have been deprecated, this is for backwards
* compatibility between major releases. It is highly recommended that you move your functions
* over to the new equivalents
*/
//#define JSON_DEPRECATED_FUNCTIONS
/*
* JSON_CASTABLE allows you to call as_bool on a number and have it do the 0 or not 0 check,
* it also allows you to ask for a string from a number, or boolean, and have it return the right thing.
* Without this option, those types of requests are undefined. It also exposes the as_array, as_node, and cast
* functions
*/
#define JSON_CASTABLE
/*
* JSON_SECURITY_MAX_NEST_LEVEL is a security measure added to make prevent against DoS attacks
* This only affects validation, as if you are worried about security attacks, then you are
* most certainly validating json before sending it to be parsed. This option allows you to limitl how many
* levels deep a JSON Node can go. 128 is a good depth to start with
*/
#define JSON_SECURITY_MAX_NEST_LEVEL 128
/*
* JSON_SECURITY_MAX_STRING_LENGTH is another security measure, preventing DoS attacks with very long
* strings of JSON. 32MB is the default value for this, this allows large images to be embedded
*/
#define JSON_SECURITY_MAX_STRING_LENGTH 33554432
/*
* JSON_SECURITY_MAX_STREAM_OBJECTS is a security measure for streams. It prevents DoS attacks with
* large number of objects hitting the stream all at once. 128 is a lot of objects, but not out of
* the question for high speed systems.
*/
#define JSON_SECURITY_MAX_STREAM_OBJECTS 128
#endif