/** * JSON Simple/Stacked/Stateful Lexer. * - Does not buffer data * - Maintains state * - Callback oriented * - Lightweight and fast. One source file and one header file * * Copyright (C) 2012-2015 Mark Nunberg * See included LICENSE file for license details. */ #ifndef JSONSL_H_ #define JSONSL_H_ #include #include #include #include #include #include #ifdef __cplusplus extern "C" { #endif /* __cplusplus */ #ifdef JSONSL_USE_WCHAR typedef jsonsl_char_t wchar_t; typedef jsonsl_uchar_t unsigned wchar_t; #else typedef char jsonsl_char_t; typedef unsigned char jsonsl_uchar_t; #endif /* JSONSL_USE_WCHAR */ /* Stolen from http-parser.h, and possibly others */ #if defined(_WIN32) && !defined(__MINGW32__) && (!defined(_MSC_VER) || _MSC_VER<1600) typedef __int8 int8_t; typedef unsigned __int8 uint8_t; typedef __int16 int16_t; typedef unsigned __int16 uint16_t; typedef __int32 int32_t; typedef unsigned __int32 uint32_t; typedef __int64 int64_t; typedef unsigned __int64 uint64_t; #if !defined(_MSC_VER) || _MSC_VER<1400 typedef unsigned int size_t; typedef int ssize_t; #endif #else #include #endif #if (!defined(JSONSL_STATE_GENERIC)) && (!defined(JSONSL_STATE_USER_FIELDS)) #define JSONSL_STATE_GENERIC #endif /* !defined JSONSL_STATE_GENERIC */ #ifdef JSONSL_STATE_GENERIC #define JSONSL_STATE_USER_FIELDS #endif /* JSONSL_STATE_GENERIC */ /* Additional fields for component object */ #ifndef JSONSL_JPR_COMPONENT_USER_FIELDS #define JSONSL_JPR_COMPONENT_USER_FIELDS #endif #ifndef JSONSL_API /** * We require a /DJSONSL_DLL so that users already using this as a static * or embedded library don't get confused */ #if defined(_WIN32) && defined(JSONSL_DLL) #define JSONSL_API __declspec(dllexport) #else #define JSONSL_API #endif /* _WIN32 */ #endif /* !JSONSL_API */ #ifndef JSONSL_INLINE #if defined(_MSC_VER) #define JSONSL_INLINE __inline #elif defined(__GNUC__) #define JSONSL_INLINE __inline__ #else #define JSONSL_INLINE inline #endif /* _MSC_VER or __GNUC__ */ #endif /* JSONSL_INLINE */ #define JSONSL_MAX_LEVELS 512 struct jsonsl_st; typedef struct jsonsl_st *jsonsl_t; typedef struct jsonsl_jpr_st* jsonsl_jpr_t; /** * This flag is true when AND'd against a type whose value * must be in "quoutes" i.e. T_HKEY and T_STRING */ #define JSONSL_Tf_STRINGY 0xffff00 /** * Constant representing the special JSON types. * The values are special and aid in speed (the OBJECT and LIST * values are the char literals of their openings). * * Their actual value is a character which attempts to resemble * some mnemonic reference to the actual type. * * If new types are added, they must fit into the ASCII printable * range (so they should be AND'd with 0x7f and yield something * meaningful) */ #define JSONSL_XTYPE \ X(STRING, '"'|JSONSL_Tf_STRINGY) \ X(HKEY, '#'|JSONSL_Tf_STRINGY) \ X(OBJECT, '{') \ X(LIST, '[') \ X(SPECIAL, '^') \ X(UESCAPE, 'u') typedef enum { #define X(o, c) \ JSONSL_T_##o = c, JSONSL_XTYPE JSONSL_T_UNKNOWN = '?', /* Abstract 'root' object */ JSONSL_T_ROOT = 0 #undef X } jsonsl_type_t; /** * Subtypes for T_SPECIAL. We define them as flags * because more than one type can be applied to a * given object. */ #define JSONSL_XSPECIAL \ X(NONE, 0) \ X(SIGNED, 1<<0) \ X(UNSIGNED, 1<<1) \ X(TRUE, 1<<2) \ X(FALSE, 1<<3) \ X(NULL, 1<<4) \ X(FLOAT, 1<<5) \ X(EXPONENT, 1<<6) \ X(NONASCII, 1<<7) typedef enum { #define X(o,b) \ JSONSL_SPECIALf_##o = b, JSONSL_XSPECIAL #undef X /* Handy flags for checking */ JSONSL_SPECIALf_UNKNOWN = 1 << 8, /** @private Private */ JSONSL_SPECIALf_ZERO = 1 << 9 | JSONSL_SPECIALf_UNSIGNED, /** @private */ JSONSL_SPECIALf_DASH = 1 << 10, /** Type is numeric */ JSONSL_SPECIALf_NUMERIC = (JSONSL_SPECIALf_SIGNED| JSONSL_SPECIALf_UNSIGNED), /** Type is a boolean */ JSONSL_SPECIALf_BOOLEAN = (JSONSL_SPECIALf_TRUE|JSONSL_SPECIALf_FALSE), /** Type is an "extended", not integral type (but numeric) */ JSONSL_SPECIALf_NUMNOINT = (JSONSL_SPECIALf_FLOAT|JSONSL_SPECIALf_EXPONENT) } jsonsl_special_t; /** * These are the various types of stack (or other) events * which will trigger a callback. * Like the type constants, this are also mnemonic */ #define JSONSL_XACTION \ X(PUSH, '+') \ X(POP, '-') \ X(UESCAPE, 'U') \ X(ERROR, '!') typedef enum { #define X(a,c) \ JSONSL_ACTION_##a = c, JSONSL_XACTION JSONSL_ACTION_UNKNOWN = '?' #undef X } jsonsl_action_t; /** * Various errors which may be thrown while parsing JSON */ #define JSONSL_XERR \ /* Trailing garbage characters */ \ X(GARBAGE_TRAILING) \ /* We were expecting a 'special' (numeric, true, false, null) */ \ X(SPECIAL_EXPECTED) \ /* The 'special' value was incomplete */ \ X(SPECIAL_INCOMPLETE) \ /* Found a stray token */ \ X(STRAY_TOKEN) \ /* We were expecting a token before this one */ \ X(MISSING_TOKEN) \ /* Cannot insert because the container is not ready */ \ X(CANT_INSERT) \ /* Found a '\' outside a string */ \ X(ESCAPE_OUTSIDE_STRING) \ /* Found a ':' outside of a hash */ \ X(KEY_OUTSIDE_OBJECT) \ /* found a string outside of a container */ \ X(STRING_OUTSIDE_CONTAINER) \ /* Found a null byte in middle of string */ \ X(FOUND_NULL_BYTE) \ /* Current level exceeds limit specified in constructor */ \ X(LEVELS_EXCEEDED) \ /* Got a } as a result of an opening [ or vice versa */ \ X(BRACKET_MISMATCH) \ /* We expected a key, but got something else instead */ \ X(HKEY_EXPECTED) \ /* We got an illegal control character (bad whitespace or something) */ \ X(WEIRD_WHITESPACE) \ /* Found a \u-escape, but there were less than 4 following hex digits */ \ X(UESCAPE_TOOSHORT) \ /* Invalid two-character escape */ \ X(ESCAPE_INVALID) \ /* Trailing comma */ \ X(TRAILING_COMMA) \ /* An invalid number was passed in a numeric field */ \ X(INVALID_NUMBER) \ /* Value is missing for object */ \ X(VALUE_EXPECTED) \ /* The following are for JPR Stuff */ \ \ /* Found a literal '%' but it was only followed by a single valid hex digit */ \ X(PERCENT_BADHEX) \ /* jsonpointer URI is malformed '/' */ \ X(JPR_BADPATH) \ /* Duplicate slash */ \ X(JPR_DUPSLASH) \ /* No leading root */ \ X(JPR_NOROOT) \ /* Allocation failure */ \ X(ENOMEM) \ /* Invalid unicode codepoint detected (in case of escapes) */ \ X(INVALID_CODEPOINT) typedef enum { JSONSL_ERROR_SUCCESS = 0, #define X(e) \ JSONSL_ERROR_##e, JSONSL_XERR #undef X JSONSL_ERROR_GENERIC } jsonsl_error_t; /** * A state is a single level of the stack. * Non-private data (i.e. the 'data' field, see the STATE_GENERIC section) * will remain in tact until the item is popped. * * As a result, it means a parent state object may be accessed from a child * object, (the parents fields will all be valid). This allows a user to create * an ad-hoc hierarchy on top of the JSON one. * */ struct jsonsl_state_st { /** * The JSON object type */ unsigned int type; /** * The position (in terms of number of bytes since the first call to * jsonsl_feed()) at which the state was first pushed. This includes * opening tokens, if applicable. * * @note For strings (i.e. type & JSONSL_Tf_STRINGY is nonzero) this will * be the position of the first quote. * * @see jsonsl_st::pos which contains the _current_ position and can be * used during a POP callback to get the length of the element. */ size_t pos_begin; /**FIXME: This is redundant as the same information can be derived from * jsonsl_st::pos at pop-time */ size_t pos_cur; /** If this element is special, then its extended type is here */ unsigned short special_flags; /** * Level of recursion into nesting. This is mainly a convenience * variable, as this can technically be deduced from the lexer's * level parameter (though the logic is not that simple) */ unsigned short level; /** * how many elements in the object/list. * For objects (hashes), an element is either * a key or a value. Thus for one complete pair, * nelem will be 2. * * For special types, this will hold the sum of the digits. * This only holds true for values which are simple signed/unsigned * numbers. Otherwise a special flag is set, and extra handling is not * performed. */ uint32_t nelem; /*TODO: merge this and special_flags into a union */ /** * Useful for an opening nest, this will prevent a callback from being * invoked on this item or any of its children */ int ignore_callback : 1; /** * Counter which is incremented each time an escape ('\') is encountered. * This is used internally for non-string types and should only be * inspected by the user if the state actually represents a string * type. */ unsigned int nescapes : 31; /** * Put anything you want here. if JSONSL_STATE_USER_FIELDS is here, then * the macro expansion happens here. * * You can use these fields to store hierarchical or 'tagging' information * for specific objects. * * See the documentation above for the lifetime of the state object (i.e. * if the private data points to allocated memory, it should be freed * when the object is popped, as the state object will be re-used) */ #ifndef JSONSL_STATE_GENERIC JSONSL_STATE_USER_FIELDS #else /** * Otherwise, this is a simple void * pointer for anything you want */ void *data; #endif /* JSONSL_STATE_USER_FIELDS */ }; /**Gets the number of elements in the list. * @param st The state. Must be of type JSONSL_T_LIST * @return number of elements in the list */ #define JSONSL_LIST_SIZE(st) ((st)->nelem) /**Gets the number of key-value pairs in an object * @param st The state. Must be of type JSONSL_T_OBJECT * @return the number of key-value pairs in the object */ #define JSONSL_OBJECT_SIZE(st) ((st)->nelem / 2) /**Gets the numeric value. * @param st The state. Must be of type JSONSL_T_SPECIAL and * special_flags must have the JSONSL_SPECIALf_NUMERIC flag * set. * @return the numeric value of the state. */ #define JSONSL_NUMERIC_VALUE(st) ((st)->nelem) /* * So now we need some special structure for keeping the * JPR info in sync. Preferrably all in a single block * of memory (there's no need for separate allocations. * So we will define a 'table' with the following layout * * Level nPosbl JPR1_last JPR2_last JPR3_last * * 0 1 NOMATCH POSSIBLE POSSIBLE * 1 0 NOMATCH NOMATCH COMPLETE * [ table ends here because no further path is possible] * * Where the JPR..n corresponds to the number of JPRs * requested, and nPosble is a quick flag to determine * * the number of possibilities. In the future this might * be made into a proper 'jump' table, * * Since we always mark JPRs from the higher levels descending * into the lower ones, a prospective child match would first * look at the parent table to check the possibilities, and then * see which ones were possible.. * * Thus, the size of this blob would be (and these are all ints here) * nLevels * nJPR * 2. * * the 'Width' of the table would be nJPR*2, and the 'height' would be * nlevels */ /** * This is called when a stack change ocurs. * * @param jsn The lexer * @param action The type of action, this can be PUSH or POP * @param state A pointer to the stack currently affected by the action * @param at A pointer to the position of the input buffer which triggered * this action. */ typedef void (*jsonsl_stack_callback)( jsonsl_t jsn, jsonsl_action_t action, struct jsonsl_state_st* state, const jsonsl_char_t *at); /** * This is called when an error is encountered. * Sometimes it's possible to 'erase' characters (by replacing them * with whitespace). If you think you have corrected the error, you * can return a true value, in which case the parser will backtrack * and try again. * * @param jsn The lexer * @param error The error which was thrown * @param state the current state * @param a pointer to the position of the input buffer which triggered * the error. Note that this is not const, this is because you have the * possibility of modifying the character in an attempt to correct the * error * * @return zero to bail, nonzero to try again (this only makes sense if * the input buffer has been modified by this callback) */ typedef int (*jsonsl_error_callback)( jsonsl_t jsn, jsonsl_error_t error, struct jsonsl_state_st* state, jsonsl_char_t *at); struct jsonsl_st { /** Public, read-only */ /** This is the current level of the stack */ unsigned int level; /** Flag set to indicate we should stop processing */ unsigned int stopfl; /** * This is the current position, relative to the beginning * of the stream. */ size_t pos; /** This is the 'bytes' variable passed to feed() */ const jsonsl_char_t *base; /** Callback invoked for PUSH actions */ jsonsl_stack_callback action_callback_PUSH; /** Callback invoked for POP actions */ jsonsl_stack_callback action_callback_POP; /** Default callback for any action, if neither PUSH or POP callbacks are defined */ jsonsl_stack_callback action_callback; /** * Do not invoke callbacks for objects deeper than this level. * NOTE: This field establishes the lower bound for ignored callbacks, * and is thus misnamed. `min_ignore_level` would actually make more * sense, but we don't want to break API. */ unsigned int max_callback_level; /** The error callback. Invoked when an error happens. Should not be NULL */ jsonsl_error_callback error_callback; /* these are boolean flags you can modify. You will be called * about notification for each of these types if the corresponding * variable is true. */ /** * @name Callback Booleans. * These determine whether a callback is to be invoked for certain types of objects * @{*/ /** Boolean flag to enable or disable the invokcation for events on this type*/ int call_SPECIAL; int call_OBJECT; int call_LIST; int call_STRING; int call_HKEY; /*@}*/ /** * @name u-Escape handling * Special handling for the \\u-f00d type sequences. These are meant * to be translated back into the corresponding octet(s). * A special callback (if set) is invoked with *at=='u'. An application * may wish to temporarily suspend parsing and handle the 'u-' sequence * internally (or not). */ /*@{*/ /** Callback to be invoked for a u-escape */ jsonsl_stack_callback action_callback_UESCAPE; /** Boolean flag, whether to invoke the callback */ int call_UESCAPE; /** Boolean flag, whether we should return after encountering a u-escape: * the callback is invoked and then we return if this is true */ int return_UESCAPE; /*@}*/ struct { int allow_trailing_comma; } options; /** Put anything here */ void *data; /*@{*/ /** Private */ int in_escape; char expecting; char tok_last; int can_insert; unsigned int levels_max; #ifndef JSONSL_NO_JPR size_t jpr_count; jsonsl_jpr_t *jprs; /* Root pointer for JPR matching information */ size_t *jpr_root; #endif /* JSONSL_NO_JPR */ /*@}*/ /** * This is the stack. Its upper bound is levels_max, or the * nlevels argument passed to jsonsl_new. If you modify this structure, * make sure that this member is last. */ struct jsonsl_state_st stack[1]; }; /** * Creates a new lexer object, with capacity for recursion up to nlevels * * @param nlevels maximum recursion depth */ JSONSL_API jsonsl_t jsonsl_new(int nlevels); JSONSL_API jsonsl_t jsonsl_init(jsonsl_t jsn, int nlevels); JSONSL_API size_t jsonsl_get_size(int nlevels); /** * Feeds data into the lexer. * * @param jsn the lexer object * @param bytes new data to be fed * @param nbytes size of new data */ JSONSL_API void jsonsl_feed(jsonsl_t jsn, const jsonsl_char_t *bytes, size_t nbytes); /** * Resets the internal parser state. This does not free the parser * but does clean it internally, so that the next time feed() is called, * it will be treated as a new stream * * @param jsn the lexer */ JSONSL_API void jsonsl_reset(jsonsl_t jsn); /** * Frees the lexer, cleaning any allocated memory taken * * @param jsn the lexer */ JSONSL_API void jsonsl_destroy(jsonsl_t jsn); /** * Gets the 'parent' element, given the current one * * @param jsn the lexer * @param cur the current nest, which should be a struct jsonsl_nest_st */ static JSONSL_INLINE struct jsonsl_state_st *jsonsl_last_state(const jsonsl_t jsn, const struct jsonsl_state_st *state) { /* Don't complain about overriding array bounds */ if (state->level > 1) { return jsn->stack + state->level - 1; } else { return NULL; } } /** * Gets the state of the last fully consumed child of this parent. This is * only valid in the parent's POP callback. * * @param the lexer * @return A pointer to the child. */ static JSONSL_INLINE struct jsonsl_state_st *jsonsl_last_child(const jsonsl_t jsn, const struct jsonsl_state_st *parent) { return jsn->stack + (parent->level + 1); } /**Call to instruct the parser to stop parsing and return. This is valid * only from within a callback */ static JSONSL_INLINE void jsonsl_stop(jsonsl_t jsn) { jsn->stopfl = 1; } /** * This enables receiving callbacks on all events. Doesn't do * anything special but helps avoid some boilerplate. * This does not touch the UESCAPE callbacks or flags. */ static JSONSL_INLINE void jsonsl_enable_all_callbacks(jsonsl_t jsn) { jsn->call_HKEY = 1; jsn->call_STRING = 1; jsn->call_OBJECT = 1; jsn->call_SPECIAL = 1; jsn->call_LIST = 1; } /** * A macro which returns true if the current state object can * have children. This means a list type or an object type. */ #define JSONSL_STATE_IS_CONTAINER(state) \ (state->type == JSONSL_T_OBJECT || state->type == JSONSL_T_LIST) /** * These two functions, dump a string representation * of the error or type, respectively. They will never * return NULL */ JSONSL_API const char* jsonsl_strerror(jsonsl_error_t err); JSONSL_API const char* jsonsl_strtype(jsonsl_type_t jt); /** * Dumps global metrics to the screen. This is a noop unless * jsonsl was compiled with JSONSL_USE_METRICS */ JSONSL_API void jsonsl_dump_global_metrics(void); /* This macro just here for editors to do code folding */ #ifndef JSONSL_NO_JPR /** * @name JSON Pointer API * * JSONPointer API. This isn't really related to the lexer (at least not yet) * JSONPointer provides an extremely simple specification for providing * locations within JSON objects. We will extend it a bit and allow for * providing 'wildcard' characters by which to be able to 'query' the stream. * * See http://tools.ietf.org/html/draft-pbryan-zyp-json-pointer-00 * * Currently I'm implementing the 'single query' API which can only use a single * query component. In the future I will integrate my yet-to-be-published * Boyer-Moore-esque prefix searching implementation, in order to allow * multiple paths to be merged into one for quick and efficient searching. * * * JPR (as we'll refer to it within the source) can be used by splitting * the components into mutliple sections, and incrementally 'track' each * component. When JSONSL delivers a 'pop' callback for a string, or a 'push' * callback for an object, we will check to see whether the index matching * the component corresponding to the current level contains a match * for our path. * * In order to do this properly, a structure must be maintained within the * parent indicating whether its children are possible matches. This flag * will be 'inherited' by call children which may conform to the match * specification, and discarded by all which do not (thereby eliminating * their children from inheriting it). * * A successful match is a complete one. One can provide multiple paths with * multiple levels of matches e.g. * /foo/bar/baz/^/blah * * @{ */ /** The wildcard character */ #ifndef JSONSL_PATH_WILDCARD_CHAR #define JSONSL_PATH_WILDCARD_CHAR '^' #endif /* WILDCARD_CHAR */ #define JSONSL_XMATCH \ X(COMPLETE,1) \ X(POSSIBLE,0) \ X(NOMATCH,-1) \ X(TYPE_MISMATCH, -2) typedef enum { #define X(T,v) \ JSONSL_MATCH_##T = v, JSONSL_XMATCH #undef X JSONSL_MATCH_UNKNOWN } jsonsl_jpr_match_t; typedef enum { JSONSL_PATH_STRING = 1, JSONSL_PATH_WILDCARD, JSONSL_PATH_NUMERIC, JSONSL_PATH_ROOT, /* Special */ JSONSL_PATH_INVALID = -1, JSONSL_PATH_NONE = 0 } jsonsl_jpr_type_t; struct jsonsl_jpr_component_st { /** The string the component points to */ char *pstr; /** if this is a numeric type, the number is 'cached' here */ unsigned long idx; /** The length of the string */ size_t len; /** The type of component (NUMERIC or STRING) */ jsonsl_jpr_type_t ptype; /** Set this to true to enforce type checking between dict keys and array * indices. jsonsl_jpr_match() will return TYPE_MISMATCH if it detects * that an array index is actually a child of a dictionary. */ short is_arridx; /* Extra fields (for more advanced searches. Default is empty) */ JSONSL_JPR_COMPONENT_USER_FIELDS }; struct jsonsl_jpr_st { /** Path components */ struct jsonsl_jpr_component_st *components; size_t ncomponents; /**Type of the match to be expected. If nonzero, will be compared against * the actual type */ unsigned match_type; /** Base of allocated string for components */ char *basestr; /** The original match string. Useful for returning to the user */ char *orig; size_t norig; }; /** * Create a new JPR object. * * @param path the JSONPointer path specification. * @param errp a pointer to a jsonsl_error_t. If this function returns NULL, * then more details will be in this variable. * * @return a new jsonsl_jpr_t object, or NULL on error. */ JSONSL_API jsonsl_jpr_t jsonsl_jpr_new(const char *path, jsonsl_error_t *errp); /** * Destroy a JPR object */ JSONSL_API void jsonsl_jpr_destroy(jsonsl_jpr_t jpr); /** * Match a JSON object against a type and specific level * * @param jpr the JPR object * @param parent_type the type of the parent (should be T_LIST or T_OBJECT) * @param parent_level the level of the parent * @param key the 'key' of the child. If the parent is an array, this should be * empty. * @param nkey - the length of the key. If the parent is an array (T_LIST), then * this should be the current index. * * NOTE: The key of the child means any kind of associative data related to the * element. Thus: <<< { "foo" : [ >>, * the opening array's key is "foo". * * @return a status constant. This indicates whether a match was excluded, possible, * or successful. */ JSONSL_API jsonsl_jpr_match_t jsonsl_jpr_match(jsonsl_jpr_t jpr, unsigned int parent_type, unsigned int parent_level, const char *key, size_t nkey); /** * Alternate matching algorithm. This matching algorithm does not use * JSONPointer but relies on a more structured searching mechanism. It * assumes that there is a clear distinction between array indices and * object keys. In this case, the jsonsl_path_component_st::ptype should * be set to @ref JSONSL_PATH_NUMERIC for an array index (the * jsonsl_path_comonent_st::is_arridx field will be removed in a future * version). * * @param jpr The path * @param parent The parent structure. Can be NULL if this is the root object * @param child The child structure. Should not be NULL * @param key Object key, if an object * @param nkey Length of object key * @return Status constant if successful * * @note * For successful matching, both the key and the path itself should be normalized * to contain 'proper' utf8 sequences rather than utf16 '\uXXXX' escapes. This * should currently be done in the application. Another version of this function * may use a temporary buffer in such circumstances (allocated by the application). * * Since this function also checks the state of the child, it should only * be called on PUSH callbacks, and not POP callbacks */ JSONSL_API jsonsl_jpr_match_t jsonsl_path_match(jsonsl_jpr_t jpr, const struct jsonsl_state_st *parent, const struct jsonsl_state_st *child, const char *key, size_t nkey); /** * Associate a set of JPR objects with a lexer instance. * This should be called before the lexer has been fed any data (and * behavior is undefined if you don't adhere to this). * * After using this function, you may subsequently call match_state() on * given states (presumably from within the callbacks). * * Note that currently the first JPR is the quickest and comes * pre-allocated with the state structure. Further JPR objects * are chained. * * @param jsn The lexer * @param jprs An array of jsonsl_jpr_t objects * @param njprs How many elements in the jprs array. */ JSONSL_API void jsonsl_jpr_match_state_init(jsonsl_t jsn, jsonsl_jpr_t *jprs, size_t njprs); /** * This follows the same semantics as the normal match, * except we infer parent and type information from the relevant state objects. * The match status (for all possible JPR objects) is set in the *out parameter. * * If a match has succeeded, then its JPR object will be returned. In all other * instances, NULL is returned; * * @param jpr The jsonsl_jpr_t handle * @param state The jsonsl_state_st which is a candidate * @param key The hash key (if applicable, can be NULL if parent is list) * @param nkey Length of hash key (if applicable, can be zero if parent is list) * @param out A pointer to a jsonsl_jpr_match_t. This will be populated with * the match result * * @return If a match was completed in full, then the JPR object containing * the matching path will be returned. Otherwise, the return is NULL (note, this * does not mean matching has failed, it can still be part of the match: check * the out parameter). */ JSONSL_API jsonsl_jpr_t jsonsl_jpr_match_state(jsonsl_t jsn, struct jsonsl_state_st *state, const char *key, size_t nkey, jsonsl_jpr_match_t *out); /** * Cleanup any memory allocated and any states set by * match_state_init() and match_state() * @param jsn The lexer */ JSONSL_API void jsonsl_jpr_match_state_cleanup(jsonsl_t jsn); /** * Return a string representation of the match result returned by match() */ JSONSL_API const char *jsonsl_strmatchtype(jsonsl_jpr_match_t match); /* @}*/ /** * Utility function to convert escape sequences into their original form. * * The decoders I've sampled do not seem to specify a standard behavior of what * to escape/unescape. * * RFC 4627 Mandates only that the quoute, backslash, and ASCII control * characters (0x00-0x1f) be escaped. It is often common for applications * to escape a '/' - however this may also be desired behavior. the JSON * spec is not clear on this, and therefore jsonsl leaves it up to you. * * Additionally, sometimes you may wish to _normalize_ JSON. This is specifically * true when dealing with 'u-escapes' which can be expressed perfectly fine * as utf8. One use case for normalization is JPR string comparison, in which * case two effectively equivalent strings may not match because one is using * u-escapes and the other proper utf8. To normalize u-escapes only, pass in * an empty `toEscape` table, enabling only the `u` index. * * @param in The input string. * @param out An allocated output (should be the same size as in) * @param len the size of the buffer * @param toEscape - A sparse array of characters to unescape. Characters * which are not present in this array, e.g. toEscape['c'] == 0 will be * ignored and passed to the output in their original form. * @param oflags If not null, and a \uXXXX escape expands to a non-ascii byte, * then this variable will have the SPECIALf_NONASCII flag on. * * @param err A pointer to an error variable. If an error ocurrs, it will be * set in this variable * @param errat If not null and an error occurs, this will be set to point * to the position within the string at which the offending character was * encountered. * * @return The effective size of the output buffer. * * @note * This function now encodes the UTF8 equivalents of utf16 escapes (i.e. * 'u-escapes'). Previously this would encode the escapes as utf16 literals, * which while still correct in some sense was confusing for many (especially * considering that the inputs were variations of char). * * @note * The output buffer will never be larger than the input buffer, since * standard escape sequences (i.e. '\t') occupy two bytes in the source * but only one byte (when unescaped) in the output. Likewise u-escapes * (i.e. \uXXXX) will occupy six bytes in the source, but at the most * two bytes when escaped. */ JSONSL_API size_t jsonsl_util_unescape_ex(const char *in, char *out, size_t len, const int toEscape[128], unsigned *oflags, jsonsl_error_t *err, const char **errat); /** * Convenience macro to avoid passing too many parameters */ #define jsonsl_util_unescape(in, out, len, toEscape, err) \ jsonsl_util_unescape_ex(in, out, len, toEscape, NULL, err, NULL) #endif /* JSONSL_NO_JPR */ #ifdef __cplusplus } #endif /* __cplusplus */ #endif /* JSONSL_H_ */