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unqlite.h
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unqlite.h
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/* This file was automatically generated. Do not edit (Except for compile time directives)! */
#ifndef _UNQLITE_H_
#define _UNQLITE_H_
/* Make sure we can call this stuff from C++ */
#ifdef __cplusplus
extern "C" {
#endif
/*
* Symisc UnQLite: An Embeddable NoSQL (Post Modern) Database Engine.
* Copyright (C) 2012-2018, Symisc Systems http://unqlite.org/
* Version 1.1.9
* For information on licensing, redistribution of this file, and for a DISCLAIMER OF ALL WARRANTIES
* please contact Symisc Systems via:
* or visit:
* http://unqlite.org/licensing.html
*/
/*
* Copyright (C) 2012, 2018 Symisc Systems, S.U.A.R.L [M.I.A.G Mrad Chems Eddine <[email protected]>].
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY SYMISC SYSTEMS ``AS IS'' AND ANY EXPRESS
* OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
* WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE, OR
* NON-INFRINGEMENT, ARE DISCLAIMED. IN NO EVENT SHALL SYMISC SYSTEMS
* BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR
* BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
* WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE
* OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN
* IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
/* $SymiscID: unqlite.h v1.2 Win10 2108-01-21 23:59:12 stable <[email protected]> $ */
#include <stdarg.h> /* needed for the definition of va_list */
/*
* Compile time engine version, signature, identification in the symisc source tree
* and copyright notice.
* Each macro have an equivalent C interface associated with it that provide the same
* information but are associated with the library instead of the header file.
* Refer to [unqlite_lib_version()], [unqlite_lib_signature()], [unqlite_lib_ident()] and
* [unqlite_lib_copyright()] for more information.
*/
/*
* The UNQLITE_VERSION C preprocessor macroevaluates to a string literal
* that is the unqlite version in the format "X.Y.Z" where X is the major
* version number and Y is the minor version number and Z is the release
* number.
*/
#define UNQLITE_VERSION "1.1.9"
/*
* The UNQLITE_VERSION_NUMBER C preprocessor macro resolves to an integer
* with the value (X*1000000 + Y*1000 + Z) where X, Y, and Z are the same
* numbers used in [UNQLITE_VERSION].
*/
#define UNQLITE_VERSION_NUMBER 1001008
/*
* The UNQLITE_SIG C preprocessor macro evaluates to a string
* literal which is the public signature of the unqlite engine.
* This signature could be included for example in a host-application
* generated Server MIME header as follows:
* Server: YourWebServer/x.x unqlite/x.x.x \r\n
*/
#define UNQLITE_SIG "unqlite/1.1.9"
/*
* UnQLite identification in the Symisc source tree:
* Each particular check-in of a particular software released
* by symisc systems have an unique identifier associated with it.
* This macro hold the one associated with unqlite.
*/
#define UNQLITE_IDENT "unqlite:b172a1e2c3f62fb35c8e1fb2795121f82356cad6"
/*
* Copyright notice.
* If you have any questions about the licensing situation, please
* visit http://unqlite.org/licensing.html
* or contact Symisc Systems via:
*/
#define UNQLITE_COPYRIGHT "Copyright (C) Symisc Systems, S.U.A.R.L [Mrad Chems Eddine <[email protected]>] 2012-2018, http://unqlite.org/"
/* Forward declaration to public objects */
typedef struct unqlite_io_methods unqlite_io_methods;
typedef struct unqlite_kv_methods unqlite_kv_methods;
typedef struct unqlite_kv_engine unqlite_kv_engine;
typedef struct jx9_io_stream unqlite_io_stream;
typedef struct jx9_context unqlite_context;
typedef struct jx9_value unqlite_value;
typedef struct unqlite_vfs unqlite_vfs;
typedef struct unqlite_vm unqlite_vm;
typedef struct unqlite unqlite;
/*
* ------------------------------
* Compile time directives
* ------------------------------
* For most purposes, UnQLite can be built just fine using the default compilation options.
* However, if required, the compile-time options documented below can be used to omit UnQLite
* features (resulting in a smaller compiled library size) or to change the default values
* of some parameters.
* Every effort has been made to ensure that the various combinations of compilation options
* work harmoniously and produce a working library.
*
* UNQLITE_ENABLE_THREADS
* This option controls whether or not code is included in UnQLite to enable it to operate
* safely in a multithreaded environment. The default is not. All mutexing code is omitted
* and it is unsafe to use UnQLite in a multithreaded program. When compiled with the
* UNQLITE_ENABLE_THREADS directive enabled, UnQLite can be used in a multithreaded program
* and it is safe to share the same virtual machine and engine handle between two or more threads.
* The value of UNQLITE_ENABLE_THREADS can be determined at run-time using the unqlite_lib_is_threadsafe()
* interface.
* When UnQLite has been compiled with threading support then the threading mode can be altered
* at run-time using the unqlite_lib_config() interface together with one of these verbs:
* UNQLITE_LIB_CONFIG_THREAD_LEVEL_SINGLE
* UNQLITE_LIB_CONFIG_THREAD_LEVEL_MULTI
* Platforms others than Windows and UNIX systems must install their own mutex subsystem via
* unqlite_lib_config() with a configuration verb set to UNQLITE_LIB_CONFIG_USER_MUTEX.
* Otherwise the library is not threadsafe.
* Note that you must link UnQLite with the POSIX threads library under UNIX systems (i.e: -lpthread).
*
* Options To Omit/Enable Features
*
* The following options can be used to reduce the size of the compiled library by omitting optional
* features. This is probably only useful in embedded systems where space is especially tight, as even
* with all features included the UnQLite library is relatively small. Don't forget to tell your
* compiler to optimize for binary size! (the -Os option if using GCC). Telling your compiler
* to optimize for size usually has a much larger impact on library footprint than employing
* any of these compile-time options.
*
* JX9_DISABLE_BUILTIN_FUNC
* Jx9 is shipped with more than 312 built-in functions suitable for most purposes like
* string and INI processing, ZIP extracting, Base64 encoding/decoding, JSON encoding/decoding
* and so forth.
* If this directive is enabled, then all built-in Jx9 functions are omitted from the build.
* Note that special functions such as db_create(), db_store(), db_fetch(), etc. are not omitted
* from the build and are not affected by this directive.
*
* JX9_ENABLE_MATH_FUNC
* If this directive is enabled, built-in math functions such as sqrt(), abs(), log(), ceil(), etc.
* are included in the build. Note that you may need to link UnQLite with the math library in same
* Linux/BSD flavor (i.e: -lm).
*
* JX9_DISABLE_DISK_IO
* If this directive is enabled, built-in VFS functions such as chdir(), mkdir(), chroot(), unlink(),
* sleep(), etc. are omitted from the build.
*
* UNQLITE_ENABLE_JX9_HASH_IO
* If this directive is enabled, built-in hash functions such as md5(), sha1(), md5_file(), crc32(), etc.
* are included in the build.
*/
/* Symisc public definitions */
#if !defined(SYMISC_STANDARD_DEFS)
#define SYMISC_STANDARD_DEFS
#if defined (_WIN32) || defined (WIN32) || defined(__MINGW32__) || defined (_MSC_VER) || defined (_WIN32_WCE)
/* Windows Systems */
#if !defined(__WINNT__)
#define __WINNT__
#endif
/*
* Determine if we are dealing with WindowsCE - which has a much
* reduced API.
*/
#if defined(_WIN32_WCE)
#ifndef __WIN_CE__
#define __WIN_CE__
#endif /* __WIN_CE__ */
#endif /* _WIN32_WCE */
#else
/*
* By default we will assume that we are compiling on a UNIX systems.
* Otherwise the OS_OTHER directive must be defined.
*/
#if !defined(OS_OTHER)
#if !defined(__UNIXES__)
#define __UNIXES__
#endif /* __UNIXES__ */
#else
#endif /* OS_OTHER */
#endif /* __WINNT__/__UNIXES__ */
#if defined(_MSC_VER) || defined(__BORLANDC__)
typedef signed __int64 sxi64; /* 64 bits(8 bytes) signed int64 */
typedef unsigned __int64 sxu64; /* 64 bits(8 bytes) unsigned int64 */
#else
typedef signed long long int sxi64; /* 64 bits(8 bytes) signed int64 */
typedef unsigned long long int sxu64; /* 64 bits(8 bytes) unsigned int64 */
#endif /* _MSC_VER */
/* Signature of the consumer routine */
typedef int (*ProcConsumer)(const void *, unsigned int, void *);
/* Forward reference */
typedef struct SyMutexMethods SyMutexMethods;
typedef struct SyMemMethods SyMemMethods;
typedef struct SyString SyString;
typedef struct syiovec syiovec;
typedef struct SyMutex SyMutex;
typedef struct Sytm Sytm;
/* Scatter and gather array. */
struct syiovec
{
#if defined (__WINNT__)
/* Same fields type and offset as WSABUF structure defined one winsock2 header */
unsigned long nLen;
char *pBase;
#else
void *pBase;
unsigned long nLen;
#endif
};
struct SyString
{
const char *zString; /* Raw string (may not be null terminated) */
unsigned int nByte; /* Raw string length */
};
/* Time structure. */
struct Sytm
{
int tm_sec; /* seconds (0 - 60) */
int tm_min; /* minutes (0 - 59) */
int tm_hour; /* hours (0 - 23) */
int tm_mday; /* day of month (1 - 31) */
int tm_mon; /* month of year (0 - 11) */
int tm_year; /* year + 1900 */
int tm_wday; /* day of week (Sunday = 0) */
int tm_yday; /* day of year (0 - 365) */
int tm_isdst; /* is summer time in effect? */
char *tm_zone; /* abbreviation of timezone name */
long tm_gmtoff; /* offset from UTC in seconds */
};
/* Convert a tm structure (struct tm *) found in <time.h> to a Sytm structure */
#define STRUCT_TM_TO_SYTM(pTM, pSYTM) \
(pSYTM)->tm_hour = (pTM)->tm_hour;\
(pSYTM)->tm_min = (pTM)->tm_min;\
(pSYTM)->tm_sec = (pTM)->tm_sec;\
(pSYTM)->tm_mon = (pTM)->tm_mon;\
(pSYTM)->tm_mday = (pTM)->tm_mday;\
(pSYTM)->tm_year = (pTM)->tm_year + 1900;\
(pSYTM)->tm_yday = (pTM)->tm_yday;\
(pSYTM)->tm_wday = (pTM)->tm_wday;\
(pSYTM)->tm_isdst = (pTM)->tm_isdst;\
(pSYTM)->tm_gmtoff = 0;\
(pSYTM)->tm_zone = 0;
/* Convert a SYSTEMTIME structure (LPSYSTEMTIME: Windows Systems only ) to a Sytm structure */
#define SYSTEMTIME_TO_SYTM(pSYSTIME, pSYTM) \
(pSYTM)->tm_hour = (pSYSTIME)->wHour;\
(pSYTM)->tm_min = (pSYSTIME)->wMinute;\
(pSYTM)->tm_sec = (pSYSTIME)->wSecond;\
(pSYTM)->tm_mon = (pSYSTIME)->wMonth - 1;\
(pSYTM)->tm_mday = (pSYSTIME)->wDay;\
(pSYTM)->tm_year = (pSYSTIME)->wYear;\
(pSYTM)->tm_yday = 0;\
(pSYTM)->tm_wday = (pSYSTIME)->wDayOfWeek;\
(pSYTM)->tm_gmtoff = 0;\
(pSYTM)->tm_isdst = -1;\
(pSYTM)->tm_zone = 0;
/* Dynamic memory allocation methods. */
struct SyMemMethods
{
void * (*xAlloc)(unsigned int); /* [Required:] Allocate a memory chunk */
void * (*xRealloc)(void *, unsigned int); /* [Required:] Re-allocate a memory chunk */
void (*xFree)(void *); /* [Required:] Release a memory chunk */
unsigned int (*xChunkSize)(void *); /* [Optional:] Return chunk size */
int (*xInit)(void *); /* [Optional:] Initialization callback */
void (*xRelease)(void *); /* [Optional:] Release callback */
void *pUserData; /* [Optional:] First argument to xInit() and xRelease() */
};
/* Out of memory callback signature. */
typedef int (*ProcMemError)(void *);
/* Mutex methods. */
struct SyMutexMethods
{
int (*xGlobalInit)(void); /* [Optional:] Global mutex initialization */
void (*xGlobalRelease)(void); /* [Optional:] Global Release callback () */
SyMutex * (*xNew)(int); /* [Required:] Request a new mutex */
void (*xRelease)(SyMutex *); /* [Optional:] Release a mutex */
void (*xEnter)(SyMutex *); /* [Required:] Enter mutex */
int (*xTryEnter)(SyMutex *); /* [Optional:] Try to enter a mutex */
void (*xLeave)(SyMutex *); /* [Required:] Leave a locked mutex */
};
#if defined (_MSC_VER) || defined (__MINGW32__) || defined (__GNUC__) && defined (__declspec)
#define SX_APIIMPORT __declspec(dllimport)
#define SX_APIEXPORT __declspec(dllexport)
#else
#define SX_APIIMPORT
#define SX_APIEXPORT
#endif
/* Standard return values from Symisc public interfaces */
#define SXRET_OK 0 /* Not an error */
#define SXERR_MEM (-1) /* Out of memory */
#define SXERR_IO (-2) /* IO error */
#define SXERR_EMPTY (-3) /* Empty field */
#define SXERR_LOCKED (-4) /* Locked operation */
#define SXERR_ORANGE (-5) /* Out of range value */
#define SXERR_NOTFOUND (-6) /* Item not found */
#define SXERR_LIMIT (-7) /* Limit reached */
#define SXERR_MORE (-8) /* Need more input */
#define SXERR_INVALID (-9) /* Invalid parameter */
#define SXERR_ABORT (-10) /* User callback request an operation abort */
#define SXERR_EXISTS (-11) /* Item exists */
#define SXERR_SYNTAX (-12) /* Syntax error */
#define SXERR_UNKNOWN (-13) /* Unknown error */
#define SXERR_BUSY (-14) /* Busy operation */
#define SXERR_OVERFLOW (-15) /* Stack or buffer overflow */
#define SXERR_WILLBLOCK (-16) /* Operation will block */
#define SXERR_NOTIMPLEMENTED (-17) /* Operation not implemented */
#define SXERR_EOF (-18) /* End of input */
#define SXERR_PERM (-19) /* Permission error */
#define SXERR_NOOP (-20) /* No-op */
#define SXERR_FORMAT (-21) /* Invalid format */
#define SXERR_NEXT (-22) /* Not an error */
#define SXERR_OS (-23) /* System call return an error */
#define SXERR_CORRUPT (-24) /* Corrupted pointer */
#define SXERR_CONTINUE (-25) /* Not an error: Operation in progress */
#define SXERR_NOMATCH (-26) /* No match */
#define SXERR_RESET (-27) /* Operation reset */
#define SXERR_DONE (-28) /* Not an error */
#define SXERR_SHORT (-29) /* Buffer too short */
#define SXERR_PATH (-30) /* Path error */
#define SXERR_TIMEOUT (-31) /* Timeout */
#define SXERR_BIG (-32) /* Too big for processing */
#define SXERR_RETRY (-33) /* Retry your call */
#define SXERR_IGNORE (-63) /* Ignore */
#endif /* SYMISC_PUBLIC_DEFS */
/*
* Marker for exported interfaces.
*/
#define UNQLITE_APIEXPORT SX_APIEXPORT
/*
* If compiling for a processor that lacks floating point
* support, substitute integer for floating-point.
*/
#ifdef UNQLITE_OMIT_FLOATING_POINT
typedef sxi64 uqlite_real;
#else
typedef double unqlite_real;
#endif
typedef sxi64 unqlite_int64;
/* Standard UnQLite return values */
#define UNQLITE_OK SXRET_OK /* Successful result */
/* Beginning of error codes */
#define UNQLITE_NOMEM SXERR_MEM /* Out of memory */
#define UNQLITE_ABORT SXERR_ABORT /* Another thread have released this instance */
#define UNQLITE_IOERR SXERR_IO /* IO error */
#define UNQLITE_CORRUPT SXERR_CORRUPT /* Corrupt pointer */
#define UNQLITE_LOCKED SXERR_LOCKED /* Forbidden Operation */
#define UNQLITE_BUSY SXERR_BUSY /* The database file is locked */
#define UNQLITE_DONE SXERR_DONE /* Operation done */
#define UNQLITE_PERM SXERR_PERM /* Permission error */
#define UNQLITE_NOTIMPLEMENTED SXERR_NOTIMPLEMENTED /* Method not implemented by the underlying Key/Value storage engine */
#define UNQLITE_NOTFOUND SXERR_NOTFOUND /* No such record */
#define UNQLITE_NOOP SXERR_NOOP /* No such method */
#define UNQLITE_INVALID SXERR_INVALID /* Invalid parameter */
#define UNQLITE_EOF SXERR_EOF /* End Of Input */
#define UNQLITE_UNKNOWN SXERR_UNKNOWN /* Unknown configuration option */
#define UNQLITE_LIMIT SXERR_LIMIT /* Database limit reached */
#define UNQLITE_EXISTS SXERR_EXISTS /* Record exists */
#define UNQLITE_EMPTY SXERR_EMPTY /* Empty record */
#define UNQLITE_COMPILE_ERR (-70) /* Compilation error */
#define UNQLITE_VM_ERR (-71) /* Virtual machine error */
#define UNQLITE_FULL (-73) /* Full database (unlikely) */
#define UNQLITE_CANTOPEN (-74) /* Unable to open the database file */
#define UNQLITE_READ_ONLY (-75) /* Read only Key/Value storage engine */
#define UNQLITE_LOCKERR (-76) /* Locking protocol error */
/* end-of-error-codes */
/*
* Database Handle Configuration Commands.
*
* The following set of constants are the available configuration verbs that can
* be used by the host-application to configure an UnQLite database handle.
* These constants must be passed as the second argument to [unqlite_config()].
*
* Each options require a variable number of arguments.
* The [unqlite_config()] interface will return UNQLITE_OK on success, any other
* return value indicates failure.
* For a full discussion on the configuration verbs and their expected
* parameters, please refer to this page:
* http://unqlite.org/c_api/unqlite_config.html
*/
#define UNQLITE_CONFIG_JX9_ERR_LOG 1 /* TWO ARGUMENTS: const char **pzBuf, int *pLen */
#define UNQLITE_CONFIG_MAX_PAGE_CACHE 2 /* ONE ARGUMENT: int nMaxPage */
#define UNQLITE_CONFIG_ERR_LOG 3 /* TWO ARGUMENTS: const char **pzBuf, int *pLen */
#define UNQLITE_CONFIG_KV_ENGINE 4 /* ONE ARGUMENT: const char *zKvName */
#define UNQLITE_CONFIG_DISABLE_AUTO_COMMIT 5 /* NO ARGUMENTS */
#define UNQLITE_CONFIG_GET_KV_NAME 6 /* ONE ARGUMENT: const char **pzPtr */
/*
* UnQLite/Jx9 Virtual Machine Configuration Commands.
*
* The following set of constants are the available configuration verbs that can
* be used by the host-application to configure the Jx9 (Via UnQLite) Virtual machine.
* These constants must be passed as the second argument to the [unqlite_vm_config()]
* interface.
* Each options require a variable number of arguments.
* The [unqlite_vm_config()] interface will return UNQLITE_OK on success, any other return
* value indicates failure.
* There are many options but the most importants are: UNQLITE_VM_CONFIG_OUTPUT which install
* a VM output consumer callback, UNQLITE_VM_CONFIG_HTTP_REQUEST which parse and register
* a HTTP request and UNQLITE_VM_CONFIG_ARGV_ENTRY which populate the $argv array.
* For a full discussion on the configuration verbs and their expected parameters, please
* refer to this page:
* http://unqlite.org/c_api/unqlite_vm_config.html
*/
#define UNQLITE_VM_CONFIG_OUTPUT 1 /* TWO ARGUMENTS: int (*xConsumer)(const void *pOut, unsigned int nLen, void *pUserData), void *pUserData */
#define UNQLITE_VM_CONFIG_IMPORT_PATH 2 /* ONE ARGUMENT: const char *zIncludePath */
#define UNQLITE_VM_CONFIG_ERR_REPORT 3 /* NO ARGUMENTS: Report all run-time errors in the VM output */
#define UNQLITE_VM_CONFIG_RECURSION_DEPTH 4 /* ONE ARGUMENT: int nMaxDepth */
#define UNQLITE_VM_OUTPUT_LENGTH 5 /* ONE ARGUMENT: unsigned int *pLength */
#define UNQLITE_VM_CONFIG_CREATE_VAR 6 /* TWO ARGUMENTS: const char *zName, unqlite_value *pValue */
#define UNQLITE_VM_CONFIG_HTTP_REQUEST 7 /* TWO ARGUMENTS: const char *zRawRequest, int nRequestLength */
#define UNQLITE_VM_CONFIG_SERVER_ATTR 8 /* THREE ARGUMENTS: const char *zKey, const char *zValue, int nLen */
#define UNQLITE_VM_CONFIG_ENV_ATTR 9 /* THREE ARGUMENTS: const char *zKey, const char *zValue, int nLen */
#define UNQLITE_VM_CONFIG_EXEC_VALUE 10 /* ONE ARGUMENT: unqlite_value **ppValue */
#define UNQLITE_VM_CONFIG_IO_STREAM 11 /* ONE ARGUMENT: const unqlite_io_stream *pStream */
#define UNQLITE_VM_CONFIG_ARGV_ENTRY 12 /* ONE ARGUMENT: const char *zValue */
#define UNQLITE_VM_CONFIG_EXTRACT_OUTPUT 13 /* TWO ARGUMENTS: const void **ppOut, unsigned int *pOutputLen */
/*
* Storage engine configuration commands.
*
* The following set of constants are the available configuration verbs that can
* be used by the host-application to configure the underlying storage engine (i.e Hash, B+tree, R+tree).
* These constants must be passed as the first argument to [unqlite_kv_config()].
* Each options require a variable number of arguments.
* The [unqlite_kv_config()] interface will return UNQLITE_OK on success, any other return
* value indicates failure.
* For a full discussion on the configuration verbs and their expected parameters, please
* refer to this page:
* http://unqlite.org/c_api/unqlite_kv_config.html
*/
#define UNQLITE_KV_CONFIG_HASH_FUNC 1 /* ONE ARGUMENT: unsigned int (*xHash)(const void *,unsigned int) */
#define UNQLITE_KV_CONFIG_CMP_FUNC 2 /* ONE ARGUMENT: int (*xCmp)(const void *,const void *,unsigned int) */
/*
* Global Library Configuration Commands.
*
* The following set of constants are the available configuration verbs that can
* be used by the host-application to configure the whole library.
* These constants must be passed as the first argument to [unqlite_lib_config()].
*
* Each options require a variable number of arguments.
* The [unqlite_lib_config()] interface will return UNQLITE_OK on success, any other return
* value indicates failure.
* Notes:
* The default configuration is recommended for most applications and so the call to
* [unqlite_lib_config()] is usually not necessary. It is provided to support rare
* applications with unusual needs.
* The [unqlite_lib_config()] interface is not threadsafe. The application must insure that
* no other [unqlite_*()] interfaces are invoked by other threads while [unqlite_lib_config()]
* is running. Furthermore, [unqlite_lib_config()] may only be invoked prior to library
* initialization using [unqlite_lib_init()] or [unqlite_init()] or after shutdown
* by [unqlite_lib_shutdown()]. If [unqlite_lib_config()] is called after [unqlite_lib_init()]
* or [unqlite_init()] and before [unqlite_lib_shutdown()] then it will return UNQLITE_LOCKED.
* For a full discussion on the configuration verbs and their expected parameters, please
* refer to this page:
* http://unqlite.org/c_api/unqlite_lib.html
*/
#define UNQLITE_LIB_CONFIG_USER_MALLOC 1 /* ONE ARGUMENT: const SyMemMethods *pMemMethods */
#define UNQLITE_LIB_CONFIG_MEM_ERR_CALLBACK 2 /* TWO ARGUMENTS: int (*xMemError)(void *), void *pUserData */
#define UNQLITE_LIB_CONFIG_USER_MUTEX 3 /* ONE ARGUMENT: const SyMutexMethods *pMutexMethods */
#define UNQLITE_LIB_CONFIG_THREAD_LEVEL_SINGLE 4 /* NO ARGUMENTS */
#define UNQLITE_LIB_CONFIG_THREAD_LEVEL_MULTI 5 /* NO ARGUMENTS */
#define UNQLITE_LIB_CONFIG_VFS 6 /* ONE ARGUMENT: const unqlite_vfs *pVfs */
#define UNQLITE_LIB_CONFIG_STORAGE_ENGINE 7 /* ONE ARGUMENT: unqlite_kv_methods *pStorage */
#define UNQLITE_LIB_CONFIG_PAGE_SIZE 8 /* ONE ARGUMENT: int iPageSize */
/*
* These bit values are intended for use in the 3rd parameter to the [unqlite_open()] interface
* and in the 4th parameter to the xOpen method of the [unqlite_vfs] object.
*/
#define UNQLITE_OPEN_READONLY 0x00000001 /* Read only mode. Ok for [unqlite_open] */
#define UNQLITE_OPEN_READWRITE 0x00000002 /* Ok for [unqlite_open] */
#define UNQLITE_OPEN_CREATE 0x00000004 /* Ok for [unqlite_open] */
#define UNQLITE_OPEN_EXCLUSIVE 0x00000008 /* VFS only */
#define UNQLITE_OPEN_TEMP_DB 0x00000010 /* VFS only */
#define UNQLITE_OPEN_NOMUTEX 0x00000020 /* Ok for [unqlite_open] */
#define UNQLITE_OPEN_OMIT_JOURNALING 0x00000040 /* Omit journaling for this database. Ok for [unqlite_open] */
#define UNQLITE_OPEN_IN_MEMORY 0x00000080 /* An in memory database. Ok for [unqlite_open]*/
#define UNQLITE_OPEN_MMAP 0x00000100 /* Obtain a memory view of the whole file. Ok for [unqlite_open] */
/*
* Synchronization Type Flags
*
* When UnQLite invokes the xSync() method of an [unqlite_io_methods] object it uses
* a combination of these integer values as the second argument.
*
* When the UNQLITE_SYNC_DATAONLY flag is used, it means that the sync operation only
* needs to flush data to mass storage. Inode information need not be flushed.
* If the lower four bits of the flag equal UNQLITE_SYNC_NORMAL, that means to use normal
* fsync() semantics. If the lower four bits equal UNQLITE_SYNC_FULL, that means to use
* Mac OS X style fullsync instead of fsync().
*/
#define UNQLITE_SYNC_NORMAL 0x00002
#define UNQLITE_SYNC_FULL 0x00003
#define UNQLITE_SYNC_DATAONLY 0x00010
/*
* File Locking Levels
*
* UnQLite uses one of these integer values as the second
* argument to calls it makes to the xLock() and xUnlock() methods
* of an [unqlite_io_methods] object.
*/
#define UNQLITE_LOCK_NONE 0
#define UNQLITE_LOCK_SHARED 1
#define UNQLITE_LOCK_RESERVED 2
#define UNQLITE_LOCK_PENDING 3
#define UNQLITE_LOCK_EXCLUSIVE 4
/*
* CAPIREF: OS Interface: Open File Handle
*
* An [unqlite_file] object represents an open file in the [unqlite_vfs] OS interface
* layer.
* Individual OS interface implementations will want to subclass this object by appending
* additional fields for their own use. The pMethods entry is a pointer to an
* [unqlite_io_methods] object that defines methods for performing
* I/O operations on the open file.
*/
typedef struct unqlite_file unqlite_file;
struct unqlite_file {
const unqlite_io_methods *pMethods; /* Methods for an open file. MUST BE FIRST */
};
/*
* CAPIREF: OS Interface: File Methods Object
*
* Every file opened by the [unqlite_vfs] xOpen method populates an
* [unqlite_file] object (or, more commonly, a subclass of the
* [unqlite_file] object) with a pointer to an instance of this object.
* This object defines the methods used to perform various operations
* against the open file represented by the [unqlite_file] object.
*
* If the xOpen method sets the unqlite_file.pMethods element
* to a non-NULL pointer, then the unqlite_io_methods.xClose method
* may be invoked even if the xOpen reported that it failed. The
* only way to prevent a call to xClose following a failed xOpen
* is for the xOpen to set the unqlite_file.pMethods element to NULL.
*
* The flags argument to xSync may be one of [UNQLITE_SYNC_NORMAL] or
* [UNQLITE_SYNC_FULL]. The first choice is the normal fsync().
* The second choice is a Mac OS X style fullsync. The [UNQLITE_SYNC_DATAONLY]
* flag may be ORed in to indicate that only the data of the file
* and not its inode needs to be synced.
*
* The integer values to xLock() and xUnlock() are one of
*
* UNQLITE_LOCK_NONE
* UNQLITE_LOCK_SHARED
* UNQLITE_LOCK_RESERVED
* UNQLITE_LOCK_PENDING
* UNQLITE_LOCK_EXCLUSIVE
*
* xLock() increases the lock. xUnlock() decreases the lock.
* The xCheckReservedLock() method checks whether any database connection,
* either in this process or in some other process, is holding a RESERVED,
* PENDING, or EXCLUSIVE lock on the file. It returns true if such a lock exists
* and false otherwise.
*
* The xSectorSize() method returns the sector size of the device that underlies
* the file. The sector size is the minimum write that can be performed without
* disturbing other bytes in the file.
*
*/
struct unqlite_io_methods {
int iVersion; /* Structure version number (currently 1) */
int (*xClose)(unqlite_file*);
int (*xRead)(unqlite_file*, void*, unqlite_int64 iAmt, unqlite_int64 iOfst);
int (*xWrite)(unqlite_file*, const void*, unqlite_int64 iAmt, unqlite_int64 iOfst);
int (*xTruncate)(unqlite_file*, unqlite_int64 size);
int (*xSync)(unqlite_file*, int flags);
int (*xFileSize)(unqlite_file*, unqlite_int64 *pSize);
int (*xLock)(unqlite_file*, int);
int (*xUnlock)(unqlite_file*, int);
int (*xCheckReservedLock)(unqlite_file*, int *pResOut);
int (*xSectorSize)(unqlite_file*);
};
/*
* CAPIREF: OS Interface Object
*
* An instance of the unqlite_vfs object defines the interface between
* the UnQLite core and the underlying operating system. The "vfs"
* in the name of the object stands for "Virtual File System".
*
* Only a single vfs can be registered within the UnQLite core.
* Vfs registration is done using the [unqlite_lib_config()] interface
* with a configuration verb set to UNQLITE_LIB_CONFIG_VFS.
* Note that Windows and UNIX (Linux, FreeBSD, Solaris, Mac OS X, etc.) users
* does not have to worry about registering and installing a vfs since UnQLite
* come with a built-in vfs for these platforms that implements most the methods
* defined below.
*
* Clients running on exotic systems (ie: Other than Windows and UNIX systems)
* must register their own vfs in order to be able to use the UnQLite library.
*
* The value of the iVersion field is initially 1 but may be larger in
* future versions of UnQLite.
*
* The szOsFile field is the size of the subclassed [unqlite_file] structure
* used by this VFS. mxPathname is the maximum length of a pathname in this VFS.
*
* At least szOsFile bytes of memory are allocated by UnQLite to hold the [unqlite_file]
* structure passed as the third argument to xOpen. The xOpen method does not have to
* allocate the structure; it should just fill it in. Note that the xOpen method must
* set the unqlite_file.pMethods to either a valid [unqlite_io_methods] object or to NULL.
* xOpen must do this even if the open fails. UnQLite expects that the unqlite_file.pMethods
* element will be valid after xOpen returns regardless of the success or failure of the
* xOpen call.
*
*/
struct unqlite_vfs {
const char *zName; /* Name of this virtual file system [i.e: Windows, UNIX, etc.] */
int iVersion; /* Structure version number (currently 1) */
int szOsFile; /* Size of subclassed unqlite_file */
int mxPathname; /* Maximum file pathname length */
int (*xOpen)(unqlite_vfs*, const char *zName, unqlite_file*,unsigned int flags);
int (*xDelete)(unqlite_vfs*, const char *zName, int syncDir);
int (*xAccess)(unqlite_vfs*, const char *zName, int flags, int *pResOut);
int (*xFullPathname)(unqlite_vfs*, const char *zName,int buf_len,char *zBuf);
int (*xTmpDir)(unqlite_vfs*,char *zBuf,int buf_len);
int (*xSleep)(unqlite_vfs*, int microseconds);
int (*xCurrentTime)(unqlite_vfs*,Sytm *pOut);
int (*xGetLastError)(unqlite_vfs*, int, char *);
};
/*
* Flags for the xAccess VFS method
*
* These integer constants can be used as the third parameter to
* the xAccess method of an [unqlite_vfs] object. They determine
* what kind of permissions the xAccess method is looking for.
* With UNQLITE_ACCESS_EXISTS, the xAccess method
* simply checks whether the file exists.
* With UNQLITE_ACCESS_READWRITE, the xAccess method
* checks whether the named directory is both readable and writable
* (in other words, if files can be added, removed, and renamed within
* the directory).
* The UNQLITE_ACCESS_READWRITE constant is currently used only by the
* [temp_store_directory pragma], though this could change in a future
* release of UnQLite.
* With UNQLITE_ACCESS_READ, the xAccess method
* checks whether the file is readable. The UNQLITE_ACCESS_READ constant is
* currently unused, though it might be used in a future release of
* UnQLite.
*/
#define UNQLITE_ACCESS_EXISTS 0
#define UNQLITE_ACCESS_READWRITE 1
#define UNQLITE_ACCESS_READ 2
/*
* The type used to represent a page number. The first page in a file
* is called page 1. 0 is used to represent "not a page".
* A page number is an unsigned 64-bit integer.
*/
typedef sxu64 pgno;
/*
* A database disk page is represented by an instance
* of the follwoing structure.
*/
typedef struct unqlite_page unqlite_page;
struct unqlite_page
{
unsigned char *zData; /* Content of this page */
void *pUserData; /* Extra content */
pgno pgno; /* Page number for this page */
};
/*
* UnQLite handle to the underlying Key/Value Storage Engine (See below).
*/
typedef void * unqlite_kv_handle;
/*
* UnQLite pager IO methods.
*
* An instance of the following structure define the exported methods of the UnQLite pager
* to the underlying Key/Value storage engine.
*/
typedef struct unqlite_kv_io unqlite_kv_io;
struct unqlite_kv_io
{
unqlite_kv_handle pHandle; /* UnQLite handle passed as the first parameter to the
* method defined below.
*/
unqlite_kv_methods *pMethods; /* Underlying storage engine */
/* Pager methods */
int (*xGet)(unqlite_kv_handle,pgno,unqlite_page **);
int (*xLookup)(unqlite_kv_handle,pgno,unqlite_page **);
int (*xNew)(unqlite_kv_handle,unqlite_page **);
int (*xWrite)(unqlite_page *);
int (*xDontWrite)(unqlite_page *);
int (*xDontJournal)(unqlite_page *);
int (*xDontMkHot)(unqlite_page *);
int (*xPageRef)(unqlite_page *);
int (*xPageUnref)(unqlite_page *);
int (*xPageSize)(unqlite_kv_handle);
int (*xReadOnly)(unqlite_kv_handle);
unsigned char * (*xTmpPage)(unqlite_kv_handle);
void (*xSetUnpin)(unqlite_kv_handle,void (*xPageUnpin)(void *));
void (*xSetReload)(unqlite_kv_handle,void (*xPageReload)(void *));
void (*xErr)(unqlite_kv_handle,const char *);
};
/*
* Key/Value Storage Engine Cursor Object
*
* An instance of a subclass of the following object defines a cursor
* used to scan through a key-value storage engine.
*/
typedef struct unqlite_kv_cursor unqlite_kv_cursor;
struct unqlite_kv_cursor
{
unqlite_kv_engine *pStore; /* Must be first */
/* Subclasses will typically add additional fields */
};
/*
* Possible seek positions.
*/
#define UNQLITE_CURSOR_MATCH_EXACT 1
#define UNQLITE_CURSOR_MATCH_LE 2
#define UNQLITE_CURSOR_MATCH_GE 3
/*
* Key/Value Storage Engine.
*
* A Key-Value storage engine is defined by an instance of the following
* object.
* UnQLite works with run-time interchangeable storage engines (i.e. Hash, B+Tree, R+Tree, LSM, etc.).
* The storage engine works with key/value pairs where both the key
* and the value are byte arrays of arbitrary length and with no restrictions on content.
* UnQLite come with two built-in KV storage engine: A Virtual Linear Hash (VLH) storage
* engine is used for persistent on-disk databases with O(1) lookup time and an in-memory
* hash-table or Red-black tree storage engine is used for in-memory databases.
* Future versions of UnQLite might add other built-in storage engines (i.e. LSM).
* Registration of a Key/Value storage engine at run-time is done via [unqlite_lib_config()]
* with a configuration verb set to UNQLITE_LIB_CONFIG_STORAGE_ENGINE.
*/
struct unqlite_kv_engine
{
const unqlite_kv_io *pIo; /* IO methods: MUST be first */
/* Subclasses will typically add additional fields */
};
/*
* Key/Value Storage Engine Virtual Method Table.
*
* Key/Value storage engine methods is defined by an instance of the following
* object.
* Registration of a Key/Value storage engine at run-time is done via [unqlite_lib_config()]
* with a configuration verb set to UNQLITE_LIB_CONFIG_STORAGE_ENGINE.
*/
struct unqlite_kv_methods
{
const char *zName; /* Storage engine name [i.e. Hash, B+tree, LSM, R-tree, Mem, etc.]*/
int szKv; /* 'unqlite_kv_engine' subclass size */
int szCursor; /* 'unqlite_kv_cursor' subclass size */
int iVersion; /* Structure version, currently 1 */
/* Storage engine methods */
int (*xInit)(unqlite_kv_engine *,int iPageSize);
void (*xRelease)(unqlite_kv_engine *);
int (*xConfig)(unqlite_kv_engine *,int op,va_list ap);
int (*xOpen)(unqlite_kv_engine *,pgno);
int (*xReplace)(
unqlite_kv_engine *,
const void *pKey,int nKeyLen,
const void *pData,unqlite_int64 nDataLen
);
int (*xAppend)(
unqlite_kv_engine *,
const void *pKey,int nKeyLen,
const void *pData,unqlite_int64 nDataLen
);
void (*xCursorInit)(unqlite_kv_cursor *);
int (*xSeek)(unqlite_kv_cursor *,const void *pKey,int nByte,int iPos); /* Mandatory */
int (*xFirst)(unqlite_kv_cursor *);
int (*xLast)(unqlite_kv_cursor *);
int (*xValid)(unqlite_kv_cursor *);
int (*xNext)(unqlite_kv_cursor *);
int (*xPrev)(unqlite_kv_cursor *);
int (*xDelete)(unqlite_kv_cursor *);
int (*xKeyLength)(unqlite_kv_cursor *,int *);
int (*xKey)(unqlite_kv_cursor *,int (*xConsumer)(const void *,unsigned int,void *),void *pUserData);
int (*xDataLength)(unqlite_kv_cursor *,unqlite_int64 *);
int (*xData)(unqlite_kv_cursor *,int (*xConsumer)(const void *,unsigned int,void *),void *pUserData);
void (*xReset)(unqlite_kv_cursor *);
void (*xCursorRelease)(unqlite_kv_cursor *);
};
/*
* UnQLite journal file suffix.
*/
#ifndef UNQLITE_JOURNAL_FILE_SUFFIX
#define UNQLITE_JOURNAL_FILE_SUFFIX "_unqlite_journal"
#endif
/*
* Call Context - Error Message Serverity Level.
*
* The following constans are the allowed severity level that can
* passed as the second argument to the [unqlite_context_throw_error()] or
* [unqlite_context_throw_error_format()] interfaces.
* Refer to the official documentation for additional information.
*/
#define UNQLITE_CTX_ERR 1 /* Call context error such as unexpected number of arguments, invalid types and so on. */
#define UNQLITE_CTX_WARNING 2 /* Call context Warning */
#define UNQLITE_CTX_NOTICE 3 /* Call context Notice */
/*
* C-API-REF: Please refer to the official documentation for interfaces
* purpose and expected parameters.
*/
/* Database Engine Handle */
UNQLITE_APIEXPORT int unqlite_open(unqlite **ppDB,const char *zFilename,unsigned int iMode);
UNQLITE_APIEXPORT int unqlite_config(unqlite *pDb,int nOp,...);
UNQLITE_APIEXPORT int unqlite_close(unqlite *pDb);
/* Key/Value (KV) Store Interfaces */
UNQLITE_APIEXPORT int unqlite_kv_store(unqlite *pDb,const void *pKey,int nKeyLen,const void *pData,unqlite_int64 nDataLen);
UNQLITE_APIEXPORT int unqlite_kv_append(unqlite *pDb,const void *pKey,int nKeyLen,const void *pData,unqlite_int64 nDataLen);
UNQLITE_APIEXPORT int unqlite_kv_store_fmt(unqlite *pDb,const void *pKey,int nKeyLen,const char *zFormat,...);
UNQLITE_APIEXPORT int unqlite_kv_append_fmt(unqlite *pDb,const void *pKey,int nKeyLen,const char *zFormat,...);
UNQLITE_APIEXPORT int unqlite_kv_fetch(unqlite *pDb,const void *pKey,int nKeyLen,void *pBuf,unqlite_int64 /* in|out */*pBufLen);
UNQLITE_APIEXPORT int unqlite_kv_fetch_callback(unqlite *pDb,const void *pKey,
int nKeyLen,int (*xConsumer)(const void *,unsigned int,void *),void *pUserData);
UNQLITE_APIEXPORT int unqlite_kv_delete(unqlite *pDb,const void *pKey,int nKeyLen);
UNQLITE_APIEXPORT int unqlite_kv_config(unqlite *pDb,int iOp,...);
/* Document (JSON) Store Interfaces powered by the Jx9 Scripting Language */
UNQLITE_APIEXPORT int unqlite_compile(unqlite *pDb,const char *zJx9,int nByte,unqlite_vm **ppOut);
UNQLITE_APIEXPORT int unqlite_compile_file(unqlite *pDb,const char *zPath,unqlite_vm **ppOut);
UNQLITE_APIEXPORT int unqlite_vm_config(unqlite_vm *pVm,int iOp,...);
UNQLITE_APIEXPORT int unqlite_vm_exec(unqlite_vm *pVm);
UNQLITE_APIEXPORT int unqlite_vm_reset(unqlite_vm *pVm);
UNQLITE_APIEXPORT int unqlite_vm_release(unqlite_vm *pVm);
UNQLITE_APIEXPORT int unqlite_vm_dump(unqlite_vm *pVm, int (*xConsumer)(const void *, unsigned int, void *), void *pUserData);
UNQLITE_APIEXPORT unqlite_value * unqlite_vm_extract_variable(unqlite_vm *pVm,const char *zVarname);
/* Cursor Iterator Interfaces */
UNQLITE_APIEXPORT int unqlite_kv_cursor_init(unqlite *pDb,unqlite_kv_cursor **ppOut);
UNQLITE_APIEXPORT int unqlite_kv_cursor_release(unqlite *pDb,unqlite_kv_cursor *pCur);
UNQLITE_APIEXPORT int unqlite_kv_cursor_seek(unqlite_kv_cursor *pCursor,const void *pKey,int nKeyLen,int iPos);
UNQLITE_APIEXPORT int unqlite_kv_cursor_first_entry(unqlite_kv_cursor *pCursor);
UNQLITE_APIEXPORT int unqlite_kv_cursor_last_entry(unqlite_kv_cursor *pCursor);
UNQLITE_APIEXPORT int unqlite_kv_cursor_valid_entry(unqlite_kv_cursor *pCursor);
UNQLITE_APIEXPORT int unqlite_kv_cursor_next_entry(unqlite_kv_cursor *pCursor);
UNQLITE_APIEXPORT int unqlite_kv_cursor_prev_entry(unqlite_kv_cursor *pCursor);
UNQLITE_APIEXPORT int unqlite_kv_cursor_key(unqlite_kv_cursor *pCursor,void *pBuf,int *pnByte);
UNQLITE_APIEXPORT int unqlite_kv_cursor_key_callback(unqlite_kv_cursor *pCursor,int (*xConsumer)(const void *,unsigned int,void *),void *pUserData);
UNQLITE_APIEXPORT int unqlite_kv_cursor_data(unqlite_kv_cursor *pCursor,void *pBuf,unqlite_int64 *pnData);
UNQLITE_APIEXPORT int unqlite_kv_cursor_data_callback(unqlite_kv_cursor *pCursor,int (*xConsumer)(const void *,unsigned int,void *),void *pUserData);
UNQLITE_APIEXPORT int unqlite_kv_cursor_delete_entry(unqlite_kv_cursor *pCursor);
UNQLITE_APIEXPORT int unqlite_kv_cursor_reset(unqlite_kv_cursor *pCursor);
/* Manual Transaction Manager */
UNQLITE_APIEXPORT int unqlite_begin(unqlite *pDb);
UNQLITE_APIEXPORT int unqlite_commit(unqlite *pDb);
UNQLITE_APIEXPORT int unqlite_rollback(unqlite *pDb);
/* Utility interfaces */
UNQLITE_APIEXPORT int unqlite_util_load_mmaped_file(const char *zFile,void **ppMap,unqlite_int64 *pFileSize);
UNQLITE_APIEXPORT int unqlite_util_release_mmaped_file(void *pMap,unqlite_int64 iFileSize);
UNQLITE_APIEXPORT int unqlite_util_random_string(unqlite *pDb,char *zBuf,unsigned int buf_size);
UNQLITE_APIEXPORT unsigned int unqlite_util_random_num(unqlite *pDb);
/* In-process extending interfaces */
UNQLITE_APIEXPORT int unqlite_create_function(unqlite_vm *pVm,const char *zName,int (*xFunc)(unqlite_context *,int,unqlite_value **),void *pUserData);
UNQLITE_APIEXPORT int unqlite_delete_function(unqlite_vm *pVm, const char *zName);
UNQLITE_APIEXPORT int unqlite_create_constant(unqlite_vm *pVm,const char *zName,void (*xExpand)(unqlite_value *, void *),void *pUserData);
UNQLITE_APIEXPORT int unqlite_delete_constant(unqlite_vm *pVm, const char *zName);
/* On Demand Object allocation interfaces */
UNQLITE_APIEXPORT unqlite_value * unqlite_vm_new_scalar(unqlite_vm *pVm);
UNQLITE_APIEXPORT unqlite_value * unqlite_vm_new_array(unqlite_vm *pVm);
UNQLITE_APIEXPORT int unqlite_vm_release_value(unqlite_vm *pVm,unqlite_value *pValue);
UNQLITE_APIEXPORT unqlite_value * unqlite_context_new_scalar(unqlite_context *pCtx);
UNQLITE_APIEXPORT unqlite_value * unqlite_context_new_array(unqlite_context *pCtx);
UNQLITE_APIEXPORT void unqlite_context_release_value(unqlite_context *pCtx,unqlite_value *pValue);
/* Dynamically Typed Value Object Management Interfaces */
UNQLITE_APIEXPORT int unqlite_value_int(unqlite_value *pVal, int iValue);
UNQLITE_APIEXPORT int unqlite_value_int64(unqlite_value *pVal, unqlite_int64 iValue);
UNQLITE_APIEXPORT int unqlite_value_bool(unqlite_value *pVal, int iBool);
UNQLITE_APIEXPORT int unqlite_value_null(unqlite_value *pVal);
UNQLITE_APIEXPORT int unqlite_value_double(unqlite_value *pVal, double Value);
UNQLITE_APIEXPORT int unqlite_value_string(unqlite_value *pVal, const char *zString, int nLen);
UNQLITE_APIEXPORT int unqlite_value_string_format(unqlite_value *pVal, const char *zFormat,...);
UNQLITE_APIEXPORT int unqlite_value_reset_string_cursor(unqlite_value *pVal);
UNQLITE_APIEXPORT int unqlite_value_resource(unqlite_value *pVal, void *pUserData);
UNQLITE_APIEXPORT int unqlite_value_release(unqlite_value *pVal);
/* Foreign Function Parameter Values */
UNQLITE_APIEXPORT int unqlite_value_to_int(unqlite_value *pValue);
UNQLITE_APIEXPORT int unqlite_value_to_bool(unqlite_value *pValue);
UNQLITE_APIEXPORT unqlite_int64 unqlite_value_to_int64(unqlite_value *pValue);
UNQLITE_APIEXPORT double unqlite_value_to_double(unqlite_value *pValue);
UNQLITE_APIEXPORT const char * unqlite_value_to_string(unqlite_value *pValue, int *pLen);
UNQLITE_APIEXPORT void * unqlite_value_to_resource(unqlite_value *pValue);
UNQLITE_APIEXPORT int unqlite_value_compare(unqlite_value *pLeft, unqlite_value *pRight, int bStrict);
/* Setting The Result Of A Foreign Function */
UNQLITE_APIEXPORT int unqlite_result_int(unqlite_context *pCtx, int iValue);
UNQLITE_APIEXPORT int unqlite_result_int64(unqlite_context *pCtx, unqlite_int64 iValue);
UNQLITE_APIEXPORT int unqlite_result_bool(unqlite_context *pCtx, int iBool);
UNQLITE_APIEXPORT int unqlite_result_double(unqlite_context *pCtx, double Value);
UNQLITE_APIEXPORT int unqlite_result_null(unqlite_context *pCtx);
UNQLITE_APIEXPORT int unqlite_result_string(unqlite_context *pCtx, const char *zString, int nLen);
UNQLITE_APIEXPORT int unqlite_result_string_format(unqlite_context *pCtx, const char *zFormat, ...);
UNQLITE_APIEXPORT int unqlite_result_value(unqlite_context *pCtx, unqlite_value *pValue);
UNQLITE_APIEXPORT int unqlite_result_resource(unqlite_context *pCtx, void *pUserData);
/* Dynamically Typed Value Object Query Interfaces */
UNQLITE_APIEXPORT int unqlite_value_is_int(unqlite_value *pVal);
UNQLITE_APIEXPORT int unqlite_value_is_float(unqlite_value *pVal);
UNQLITE_APIEXPORT int unqlite_value_is_bool(unqlite_value *pVal);
UNQLITE_APIEXPORT int unqlite_value_is_string(unqlite_value *pVal);
UNQLITE_APIEXPORT int unqlite_value_is_null(unqlite_value *pVal);
UNQLITE_APIEXPORT int unqlite_value_is_numeric(unqlite_value *pVal);
UNQLITE_APIEXPORT int unqlite_value_is_callable(unqlite_value *pVal);
UNQLITE_APIEXPORT int unqlite_value_is_scalar(unqlite_value *pVal);
UNQLITE_APIEXPORT int unqlite_value_is_json_array(unqlite_value *pVal);
UNQLITE_APIEXPORT int unqlite_value_is_json_object(unqlite_value *pVal);
UNQLITE_APIEXPORT int unqlite_value_is_resource(unqlite_value *pVal);
UNQLITE_APIEXPORT int unqlite_value_is_empty(unqlite_value *pVal);
/* JSON Array/Object Management Interfaces */
UNQLITE_APIEXPORT unqlite_value * unqlite_array_fetch(unqlite_value *pArray, const char *zKey, int nByte);
UNQLITE_APIEXPORT int unqlite_array_walk(unqlite_value *pArray, int (*xWalk)(unqlite_value *, unqlite_value *, void *), void *pUserData);
UNQLITE_APIEXPORT int unqlite_array_add_elem(unqlite_value *pArray, unqlite_value *pKey, unqlite_value *pValue);
UNQLITE_APIEXPORT int unqlite_array_add_strkey_elem(unqlite_value *pArray, const char *zKey, unqlite_value *pValue);
UNQLITE_APIEXPORT int unqlite_array_count(unqlite_value *pArray);
/* Call Context Handling Interfaces */
UNQLITE_APIEXPORT int unqlite_context_output(unqlite_context *pCtx, const char *zString, int nLen);
UNQLITE_APIEXPORT int unqlite_context_output_format(unqlite_context *pCtx,const char *zFormat, ...);
UNQLITE_APIEXPORT int unqlite_context_throw_error(unqlite_context *pCtx, int iErr, const char *zErr);
UNQLITE_APIEXPORT int unqlite_context_throw_error_format(unqlite_context *pCtx, int iErr, const char *zFormat, ...);
UNQLITE_APIEXPORT unsigned int unqlite_context_random_num(unqlite_context *pCtx);
UNQLITE_APIEXPORT int unqlite_context_random_string(unqlite_context *pCtx, char *zBuf, int nBuflen);
UNQLITE_APIEXPORT void * unqlite_context_user_data(unqlite_context *pCtx);
UNQLITE_APIEXPORT int unqlite_context_push_aux_data(unqlite_context *pCtx, void *pUserData);
UNQLITE_APIEXPORT void * unqlite_context_peek_aux_data(unqlite_context *pCtx);
UNQLITE_APIEXPORT unsigned int unqlite_context_result_buf_length(unqlite_context *pCtx);
UNQLITE_APIEXPORT const char * unqlite_function_name(unqlite_context *pCtx);
/* Call Context Memory Management Interfaces */
UNQLITE_APIEXPORT void * unqlite_context_alloc_chunk(unqlite_context *pCtx,unsigned int nByte,int ZeroChunk,int AutoRelease);
UNQLITE_APIEXPORT void * unqlite_context_realloc_chunk(unqlite_context *pCtx,void *pChunk,unsigned int nByte);
UNQLITE_APIEXPORT void unqlite_context_free_chunk(unqlite_context *pCtx,void *pChunk);
/* Global Library Management Interfaces */
UNQLITE_APIEXPORT int unqlite_lib_config(int nConfigOp,...);
UNQLITE_APIEXPORT int unqlite_lib_init(void);
UNQLITE_APIEXPORT int unqlite_lib_shutdown(void);
UNQLITE_APIEXPORT int unqlite_lib_is_threadsafe(void);
UNQLITE_APIEXPORT const char * unqlite_lib_version(void);
UNQLITE_APIEXPORT const char * unqlite_lib_signature(void);
UNQLITE_APIEXPORT const char * unqlite_lib_ident(void);
UNQLITE_APIEXPORT const char * unqlite_lib_copyright(void);
#ifdef __cplusplus
}
#endif
#endif /* _UNQLITE_H_ */