/usr/include/proton/codec.h is in libqpid-proton2-dev 0.10-2.
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1222 1223 1224 1225 1226 1227 1228 1229 1230 1231 1232 1233 1234 1235 1236 1237 1238 1239 1240 1241 1242 1243 1244 1245 1246 1247 1248 1249 1250 1251 1252 1253 1254 1255 1256 1257 1258 1259 1260 1261 1262 1263 1264 1265 1266 1267 1268 1269 1270 | #ifndef PROTON_CODEC_H
#define PROTON_CODEC_H 1
/*
*
* Licensed to the Apache Software Foundation (ASF) under one
* or more contributor license agreements. See the NOTICE file
* distributed with this work for additional information
* regarding copyright ownership. The ASF licenses this file
* to you under the Apache License, Version 2.0 (the
* "License"); you may not use this file except in compliance
* with the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing,
* software distributed under the License is distributed on an
* "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
* KIND, either express or implied. See the License for the
* specific language governing permissions and limitations
* under the License.
*
*/
#include <proton/import_export.h>
#include <proton/object.h>
#include <proton/types.h>
#include <proton/error.h>
#include <proton/type_compat.h>
#include <stdarg.h>
#ifdef __cplusplus
extern "C" {
#endif
/**
* @file
*
* Data API for proton.
*
* @defgroup data Data
* @{
*/
/**
* Identifies an AMQP type.
*/
typedef enum {
/**
* The NULL AMQP type.
*/
PN_NULL = 1,
/**
* The boolean AMQP type.
*/
PN_BOOL = 2,
/**
* The unsigned byte AMQP type. An 8 bit unsigned integer.
*/
PN_UBYTE = 3,
/**
* The byte AMQP type. An 8 bit signed integer.
*/
PN_BYTE = 4,
/**
* The unsigned short AMQP type. A 16 bit unsigned integer.
*/
PN_USHORT = 5,
/**
* The short AMQP type. A 16 bit signed integer.
*/
PN_SHORT = 6,
/**
* The unsigned int AMQP type. A 32 bit unsigned integer.
*/
PN_UINT = 7,
/**
* The signed int AMQP type. A 32 bit signed integer.
*/
PN_INT = 8,
/**
* The char AMQP type. A 32 bit unicode character.
*/
PN_CHAR = 9,
/**
* The ulong AMQP type. An unsigned 32 bit integer.
*/
PN_ULONG = 10,
/**
* The long AMQP type. A signed 32 bit integer.
*/
PN_LONG = 11,
/**
* The timestamp AMQP type. A signed 64 bit value measuring
* milliseconds since the epoch.
*/
PN_TIMESTAMP = 12,
/**
* The float AMQP type. A 32 bit floating point value.
*/
PN_FLOAT = 13,
/**
* The double AMQP type. A 64 bit floating point value.
*/
PN_DOUBLE = 14,
/**
* The decimal32 AMQP type. A 32 bit decimal floating point value.
*/
PN_DECIMAL32 = 15,
/**
* The decimal64 AMQP type. A 64 bit decimal floating point value.
*/
PN_DECIMAL64 = 16,
/**
* The decimal128 AMQP type. A 128 bit decimal floating point value.
*/
PN_DECIMAL128 = 17,
/**
* The UUID AMQP type. A 16 byte UUID.
*/
PN_UUID = 18,
/**
* The binary AMQP type. A variable length sequence of bytes.
*/
PN_BINARY = 19,
/**
* The string AMQP type. A variable length sequence of unicode
* characters.
*/
PN_STRING = 20,
/**
* The symbol AMQP type. A variable length sequence of unicode
* characters.
*/
PN_SYMBOL = 21,
/**
* A described AMQP type.
*/
PN_DESCRIBED = 22,
/**
* An AMQP array. A monomorphic sequence of other AMQP values.
*/
PN_ARRAY = 23,
/**
* An AMQP list. A polymorphic sequence of other AMQP values.
*/
PN_LIST = 24,
/**
* An AMQP map. A polymorphic container of other AMQP values formed
* into key/value pairs.
*/
PN_MAP = 25
} pn_type_t;
/**
* Return a string name for an AMQP type.
*
* @param type an AMQP type
* @return the string name of the given type
*/
PN_EXTERN const char *pn_type_name(pn_type_t type);
/**
* A descriminated union that holds any scalar AMQP value. The type
* field indicates the AMQP type of the value, and the union may be
* used to access the value for a given type.
*/
typedef struct {
/**
* Indicates the type of value the atom is currently pointing to.
* See ::pn_type_t for details on AMQP types.
*/
pn_type_t type;
union {
/**
* Valid when type is ::PN_BOOL.
*/
bool as_bool;
/**
* Valid when type is ::PN_UBYTE.
*/
uint8_t as_ubyte;
/**
* Valid when type is ::PN_BYTE.
*/
int8_t as_byte;
/**
* Valid when type is ::PN_USHORT.
*/
uint16_t as_ushort;
/**
* Valid when type is ::PN_SHORT.
*/
int16_t as_short;
/**
* Valid when type is ::PN_UINT.
*/
uint32_t as_uint;
/**
* Valid when type is ::PN_INT.
*/
int32_t as_int;
/**
* Valid when type is ::PN_CHAR.
*/
pn_char_t as_char;
/**
* Valid when type is ::PN_ULONG.
*/
uint64_t as_ulong;
/**
* Valid when type is ::PN_LONG.
*/
int64_t as_long;
/**
* Valid when type is ::PN_TIMESTAMP.
*/
pn_timestamp_t as_timestamp;
/**
* Valid when type is ::PN_FLOAT.
*/
float as_float;
/**
* Valid when type is ::PN_DOUBLE.
*/
double as_double;
/**
* Valid when type is ::PN_DECIMAL32.
*/
pn_decimal32_t as_decimal32;
/**
* Valid when type is ::PN_DECIMAL64.
*/
pn_decimal64_t as_decimal64;
/**
* Valid when type is ::PN_DECIMAL128.
*/
pn_decimal128_t as_decimal128;
/**
* Valid when type is ::PN_UUID.
*/
pn_uuid_t as_uuid;
/**
* Valid when type is ::PN_BINARY or ::PN_STRING or ::PN_SYMBOL.
* When the type is ::PN_STRING the field will point to utf8
* encoded unicode. When the type is ::PN_SYMBOL, the field will
* point to 7-bit ASCII. In the latter two cases, the bytes
* pointed to are *not* necessarily null terminated.
*/
pn_bytes_t as_bytes;
} u;
} pn_atom_t;
/**
* An AMQP Data object.
*
* A pn_data_t object provides an interface for decoding, extracting,
* creating, and encoding arbitrary AMQP data. A pn_data_t object
* contains a tree of AMQP values. Leaf nodes in this tree correspond
* to scalars in the AMQP type system such as @link ::PN_INT ints
* @endlink or @link ::PN_STRING strings @endlink. Non-leaf nodes in
* this tree correspond to compound values in the AMQP type system
* such as @link ::PN_LIST lists @endlink, @link ::PN_MAP maps
* @endlink, @link ::PN_ARRAY arrays @endlink, or @link ::PN_DESCRIBED
* described @endlink values. The root node of the tree is the
* pn_data_t object itself and can have an arbitrary number of
* children.
*
* A pn_data_t object maintains the notion of the current node and the
* current parent node. Siblings are ordered within their parent.
* Values are accessed and/or added by using the ::pn_data_next(),
* ::pn_data_prev(), ::pn_data_enter(), and ::pn_data_exit()
* operations to navigate to the desired location in the tree and
* using the supplied variety of pn_data_put_* / pn_data_get_*
* operations to access or add a value of the desired type.
*
* The pn_data_put_* operations will always add a value _after_ the
* current node in the tree. If the current node has a next sibling
* the pn_data_put_* operations will overwrite the value on this node.
* If there is no current node or the current node has no next sibling
* then one will be added. The pn_data_put_* operations always set the
* added/modified node to the current node. The pn_data_get_*
* operations read the value of the current node and do not change
* which node is current.
*
* The following types of scalar values are supported:
*
* - ::PN_NULL
* - ::PN_BOOL
* - ::PN_UBYTE
* - ::PN_USHORT
* - ::PN_SHORT
* - ::PN_UINT
* - ::PN_INT
* - ::PN_ULONG
* - ::PN_LONG
* - ::PN_FLOAT
* - ::PN_DOUBLE
* - ::PN_BINARY
* - ::PN_STRING
* - ::PN_SYMBOL
*
* The following types of compound values are supported:
*
* - ::PN_DESCRIBED
* - ::PN_ARRAY
* - ::PN_LIST
* - ::PN_MAP
*/
typedef struct pn_data_t pn_data_t;
/**
* Construct a pn_data_t object with the supplied initial capacity. A
* pn_data_t will grow automatically as needed, so an initial capacity
* of 0 is permitted.
*
* @param capacity the initial capacity
* @return the newly constructed pn_data_t
*/
PN_EXTERN pn_data_t *pn_data(size_t capacity);
/**
* Free a pn_data_t object.
*
* @param data a pn_data_t object or NULL
*/
PN_EXTERN void pn_data_free(pn_data_t *data);
/**
* Access the current error code for a given pn_data_t.
*
* @param data a pn_data_t object
* @return the current error code
*/
PN_EXTERN int pn_data_errno(pn_data_t *data);
/**
* Access the current error for a givn pn_data_t.
*
* Every pn_data_t has an error descriptor that is created with the
* pn_data_t and dies with the pn_data_t. The error descriptor is
* updated whenever an operation fails. The ::pn_data_error() function
* may be used to access a pn_data_t's error descriptor.
*
* @param data a pn_data_t object
* @return a pointer to the pn_data_t's error descriptor
*/
PN_EXTERN pn_error_t *pn_data_error(pn_data_t *data);
PN_EXTERN int pn_data_vfill(pn_data_t *data, const char *fmt, va_list ap);
PN_EXTERN int pn_data_fill(pn_data_t *data, const char *fmt, ...);
PN_EXTERN int pn_data_vscan(pn_data_t *data, const char *fmt, va_list ap);
PN_EXTERN int pn_data_scan(pn_data_t *data, const char *fmt, ...);
/**
* Clears a pn_data_t object.
*
* A cleared pn_data_t object is equivalent to a newly constructed
* one.
*
* @param data the pn_data_t object to clear
*/
PN_EXTERN void pn_data_clear(pn_data_t *data);
/**
* Returns the total number of nodes contained in a pn_data_t object.
* This includes all parents, children, siblings, grandchildren, etc.
* In other words the count of all ancesters and descendents of the
* current node, along with the current node if there is one.
*
* @param data a pn_data_t object
* @return the total number of nodes in the pn_data_t object
*/
PN_EXTERN size_t pn_data_size(pn_data_t *data);
/**
* Clears current node pointer and sets the parent to the root node.
* Clearing the current node sets it _before_ the first node, calling
* ::pn_data_next() will advance to the first node.
*/
PN_EXTERN void pn_data_rewind(pn_data_t *data);
/**
* Advances the current node to its next sibling and returns true. If
* there is no next sibling the current node remains unchanged and
* false is returned.
*
* @param data a pn_data_t object
* @return true iff the current node was changed
*/
PN_EXTERN bool pn_data_next(pn_data_t *data);
/**
* Moves the current node to its previous sibling and returns true. If
* there is no previous sibling the current node remains unchanged and
* false is returned.
*
* @param data a pn_data_t object
* @return true iff the current node was changed
*/
PN_EXTERN bool pn_data_prev(pn_data_t *data);
/**
* Sets the parent node to the current node and clears the current
* node. Clearing the current node sets it _before_ the first child,
* calling ::pn_data_next() advances to the first child. This
* operation will return false if there is no current node or if the
* current node is not a compound type.
*
* @param data a pn_data_object
* @return true iff the pointers to the current/parent nodes are changed
*/
PN_EXTERN bool pn_data_enter(pn_data_t *data);
/**
* Sets the current node to the parent node and the parent node to its
* own parent. This operation will return false if there is no current
* node or parent node.
*
* @param data a pn_data object
* @return true iff the pointers to the current/parent nodes are
* changed
*/
PN_EXTERN bool pn_data_exit(pn_data_t *data);
PN_EXTERN bool pn_data_lookup(pn_data_t *data, const char *name);
/**
* Access the type of the current node. Returns an undefined value if
* there is no current node.
*
* @param data a data object
* @return the type of the current node
*/
PN_EXTERN pn_type_t pn_data_type(pn_data_t *data);
/**
* Prints the contents of a pn_data_t object using ::pn_data_format()
* to stdout.
*
* @param data a pn_data_t object
* @return zero on success or an error on failure
*/
PN_EXTERN int pn_data_print(pn_data_t *data);
/**
* Formats the contents of a pn_data_t object in a human readable way
* and writes them to the indicated location. The size pointer must
* hold the amount of free space following the bytes pointer, and upon
* success will be updated to indicate how much space has been used.
*
* @param data a pn_data_t object
* @param bytes a buffer to write the output to
* @param size a pointer to the size of the buffer
* @return zero on succes, or an error on failure
*/
PN_EXTERN int pn_data_format(pn_data_t *data, char *bytes, size_t *size);
/**
* Writes the contents of a data object to the given buffer as an AMQP
* data stream.
*
* @param data the data object to encode
* @param bytes the buffer for encoded data
* @param size the size of the buffer
*
* @param ssize_t returns the size of the encoded data on success or
* an error code on failure
*/
PN_EXTERN ssize_t pn_data_encode(pn_data_t *data, char *bytes, size_t size);
/**
* Returns the number of bytes needed to encode a data object.
*
* @param data the data object
*
* @param ssize_t returns the size of the encoded data or an error code if data is invalid.
*/
PN_EXTERN ssize_t pn_data_encoded_size(pn_data_t *data);
/**
* Decodes a single value from the contents of the AMQP data stream
* into the current data object. Note that if the pn_data_t object is
* pointing to a current node, the decoded value will overwrite the
* current one. If the pn_data_t object has no current node then a
* node will be appended to the current parent. If there is no current
* parent then a node will be appended to the pn_data_t itself.
*
* Upon success, this operation returns the number of bytes consumed
* from the AMQP data stream. Upon failure, this operation returns an
* error code.
*
* @param data a pn_data_t object
* @param bytes a pointer to an encoded AMQP data stream
* @param size the size of the encoded AMQP data stream
* @return the number of bytes consumed from the AMQP data stream or an error code
*/
PN_EXTERN ssize_t pn_data_decode(pn_data_t *data, const char *bytes, size_t size);
/**
* Puts an empty list value into a pn_data_t. Elements may be filled
* by entering the list node using ::pn_data_enter() and using
* ::pn_data_put_* to add the desired contents. Once done,
* ::pn_data_exit() may be used to return to the current level in the
* tree and put more values.
*
* @code
* pn_data_t *data = pn_data(0);
* ...
* pn_data_put_list(data);
* pn_data_enter(data);
* pn_data_put_int(data, 1);
* pn_data_put_int(data, 2);
* pn_data_put_int(data, 3);
* pn_data_exit(data);
* ...
* @endcode
*
* @param data a pn_data_t object
* @return zero on success or an error code on failure
*/
PN_EXTERN int pn_data_put_list(pn_data_t *data);
/**
* Puts an empty map value into a pn_data_t. Elements may be filled by
* entering the map node and putting alternating key value pairs.
*
* @code
* pn_data_t *data = pn_data(0);
* ...
* pn_data_put_map(data);
* pn_data_enter(data);
* pn_data_put_string(data, pn_bytes(3, "key"));
* pn_data_put_string(data, pn_bytes(5, "value"));
* pn_data_exit(data);
* ...
* @endcode
*
* @param data a pn_data_t object
* @return zero on success or an error code on failure
*/
PN_EXTERN int pn_data_put_map(pn_data_t *data);
/**
* Puts an empty array value into a pn_data_t. Elements may be filled
* by entering the array node and putting the element values. The
* values must all be of the specified array element type. If an array
* is described then the first child value of the array is the
* descriptor and may be of any type.
*
* @code
* pn_data_t *data = pn_data(0);
* ...
* pn_data_put_array(data, false, PN_INT);
* pn_data_enter(data);
* pn_data_put_int(data, 1);
* pn_data_put_int(data, 2);
* pn_data_put_int(data, 3);
* pn_data_exit(data);
* ...
* pn_data_put_array(data, True, Data.DOUBLE);
* pn_data_enter(data);
* pn_data_put_symbol(data, "array-descriptor");
* pn_data_put_double(data, 1.1);
* pn_data_put_double(data, 1.2);
* pn_data_put_double(data, 1.3);
* pn_data_exit(data);
* ...
* @endcode
*
* @param data a pn_data_t object
* @param described specifies whether the array is described
* @param type the type of the array
*
* @return zero on success or an error code on failure
*/
PN_EXTERN int pn_data_put_array(pn_data_t *data, bool described, pn_type_t type);
/**
* Puts a described value into a pn_data_t object. A described node
* has two children, the descriptor and the value. These are specified
* by entering the node and putting the desired values.
*
* @code
* pn_data_t *data = pn_data(0);
* ...
* pn_data_put_described(data);
* pn_data_enter(data);
* pn_data_put_symbol(data, pn_bytes(16, "value-descriptor"));
* pn_data_put_string(data, pn_bytes(9, "the value"));
* pn_data_exit(data);
* ...
* @endcode
*
* @param data a pn_data_t object
* @return zero on success or an error code on failure
*/
PN_EXTERN int pn_data_put_described(pn_data_t *data);
/**
* Puts a ::PN_NULL value.
*
* @param data a pn_data_t object
* @return zero on success or an error code on failure
*/
PN_EXTERN int pn_data_put_null(pn_data_t *data);
/**
* Puts a ::PN_BOOL value.
*
* @param data a pn_data_t object
* @param b the value
* @return zero on success or an error code on failure
*/
PN_EXTERN int pn_data_put_bool(pn_data_t *data, bool b);
/**
* Puts a ::PN_UBYTE value.
*
* @param data a pn_data_t object
* @param ub the value
* @return zero on success or an error code on failure
*/
PN_EXTERN int pn_data_put_ubyte(pn_data_t *data, uint8_t ub);
/**
* Puts a ::PN_BYTE value.
*
* @param data a pn_data_t object
* @param b the value
* @return zero on success or an error code on failure
*/
PN_EXTERN int pn_data_put_byte(pn_data_t *data, int8_t b);
/**
* Puts a ::PN_USHORT value.
*
* @param data a pn_data_t object
* @param us the value
* @return zero on success or an error code on failure
*/
PN_EXTERN int pn_data_put_ushort(pn_data_t *data, uint16_t us);
/**
* Puts a ::PN_SHORT value.
*
* @param data a pn_data_t object
* @param s the value
* @return zero on success or an error code on failure
*/
PN_EXTERN int pn_data_put_short(pn_data_t *data, int16_t s);
/**
* Puts a ::PN_UINT value.
*
* @param data a pn_data_t object
* @param ui the value
* @return zero on success or an error code on failure
*/
PN_EXTERN int pn_data_put_uint(pn_data_t *data, uint32_t ui);
/**
* Puts a ::PN_INT value.
*
* @param data a pn_data_t object
* @param i the value
* @return zero on success or an error code on failure
*/
PN_EXTERN int pn_data_put_int(pn_data_t *data, int32_t i);
/**
* Puts a ::PN_CHAR value.
*
* @param data a pn_data_t object
* @param c the value
* @return zero on success or an error code on failure
*/
PN_EXTERN int pn_data_put_char(pn_data_t *data, pn_char_t c);
/**
* Puts a ::PN_ULONG value.
*
* @param data a pn_data_t object
* @param ul the value
* @return zero on success or an error code on failure
*/
PN_EXTERN int pn_data_put_ulong(pn_data_t *data, uint64_t ul);
/**
* Puts a ::PN_LONG value.
*
* @param data a pn_data_t object
* @param l the value
* @return zero on success or an error code on failure
*/
PN_EXTERN int pn_data_put_long(pn_data_t *data, int64_t l);
/**
* Puts a ::PN_TIMESTAMP value.
*
* @param data a pn_data_t object
* @param t the value
* @return zero on success or an error code on failure
*/
PN_EXTERN int pn_data_put_timestamp(pn_data_t *data, pn_timestamp_t t);
/**
* Puts a ::PN_FLOAT value.
*
* @param data a pn_data_t object
* @param f the value
* @return zero on success or an error code on failure
*/
PN_EXTERN int pn_data_put_float(pn_data_t *data, float f);
/**
* Puts a ::PN_DOUBLE value.
*
* @param data a pn_data_t object
* @param d the value
* @return zero on success or an error code on failure
*/
PN_EXTERN int pn_data_put_double(pn_data_t *data, double d);
/**
* Puts a ::PN_DECIMAL32 value.
*
* @param data a pn_data_t object
* @param d the value
* @return zero on success or an error code on failure
*/
PN_EXTERN int pn_data_put_decimal32(pn_data_t *data, pn_decimal32_t d);
/**
* Puts a ::PN_DECIMAL64 value.
*
* @param data a pn_data_t object
* @param d the value
* @return zero on success or an error code on failure
*/
PN_EXTERN int pn_data_put_decimal64(pn_data_t *data, pn_decimal64_t d);
/**
* Puts a ::PN_DECIMAL128 value.
*
* @param data a pn_data_t object
* @param d the value
* @return zero on success or an error code on failure
*/
PN_EXTERN int pn_data_put_decimal128(pn_data_t *data, pn_decimal128_t d);
/**
* Puts a ::PN_UUID value.
*
* @param data a pn_data_t object
* @param u the value
* @return zero on success or an error code on failure
*/
PN_EXTERN int pn_data_put_uuid(pn_data_t *data, pn_uuid_t u);
/**
* Puts a ::PN_BINARY value. The bytes referenced by the pn_bytes_t
* argument are copied and stored inside the pn_data_t object.
*
* @param data a pn_data_t object
* @param bytes the value
* @return zero on success or an error code on failure
*/
PN_EXTERN int pn_data_put_binary(pn_data_t *data, pn_bytes_t bytes);
/**
* Puts a ::PN_STRING value. The bytes referenced by the pn_bytes_t
* argument are copied and stored inside the pn_data_t object.
*
* @param data a pn_data_t object
* @param string utf8 encoded unicode
* @return zero on success or an error code on failure
*/
PN_EXTERN int pn_data_put_string(pn_data_t *data, pn_bytes_t string);
/**
* Puts a ::PN_SYMBOL value. The bytes referenced by the pn_bytes_t
* argument are copied and stored inside the pn_data_t object.
*
* @param data a pn_data_t object
* @param symbol ascii encoded symbol
* @return zero on success or an error code on failure
*/
PN_EXTERN int pn_data_put_symbol(pn_data_t *data, pn_bytes_t symbol);
/**
* Puts any scalar value value.
*
* @param data a pn_data_t object
* @param atom the value
* @return zero on success or an error code on failure
*/
PN_EXTERN int pn_data_put_atom(pn_data_t *data, pn_atom_t atom);
/**
* If the current node is a list, return the number of elements,
* otherwise return zero. List elements can be accessed by entering
* the list.
*
* @code
* ...
* size_t count = pn_data_get_list(data);
* pn_data_enter(data);
* for (size_t i = 0; i < count; i++) {
* if (pn_data_next(data)) {
* switch (pn_data_type(data)) {
* case PN_STRING:
* ...
* break;
* case PN_INT:
* ...
* break;
* }
* }
* pn_data_exit(data);
* ...
* @endcode
.*
* @param data a pn_data_t object
* @return the size of a list node
*/
PN_EXTERN size_t pn_data_get_list(pn_data_t *data);
/**
* If the current node is a map, return the number of child elements,
* otherwise return zero. Key value pairs can be accessed by entering
* the map.
*
* @code
* ...
* size_t count = pn_data_get_map(data);
* pn_data_enter(data);
* for (size_t i = 0; i < count/2; i++) {
* // read key
* if (pn_data_next(data)) {
* switch (pn_data_type(data)) {
* case PN_STRING:
* ...
* break;
* ...
* }
* }
* ...
* // read value
* if (pn_data_next(data)) {
* switch (pn_data_type(data)) {
* case PN_INT:
* ...
* break;
* ...
* }
* }
* ...
* }
* pn_data_exit(data);
* ...
* @endcode
*
* @param data a pn_data_t object
* @return the number of child elements of a map node
*/
PN_EXTERN size_t pn_data_get_map(pn_data_t *data);
/**
* If the current node is an array, return the number of elements in
* the array, otherwise return 0. Array data can be accessed by
* entering the array. If the array is described, the first child node
* will be the descriptor, and the remaining @var count child nodes
* will be the elements of the array.
*
* @code
* ...
* size_t count = pn_data_get_array(data);
* bool described = pn_data_is_array_described(data);
* pn_type_t type = pn_data_get_array_type(data);
*
* pn_data_enter(data);
*
* if (described && pn_data_next(data)) {
* // the descriptor could be another type, but let's assume it's a symbol
* pn_bytes_t descriptor = pn_data_get_symbol(data);
* }
*
* for (size_t i = 0; i < count; i++) {
* if (pn_data_next(data)) {
* // all elements will be values of the array type retrieved above
* ...
* }
* }
* pn_data_exit(data);
* ...
* @endcode
*
* @param data a pn_data_t object
* @return the number of elements of an array node
*/
PN_EXTERN size_t pn_data_get_array(pn_data_t *data);
/**
* Returns true if the current node points to a described array.
*
* @param data a pn_data_t object
* @return true if the current node points to a described array
*/
PN_EXTERN bool pn_data_is_array_described(pn_data_t *data);
/**
* Return the array type if the current node points to an array,
* undefined otherwise.
*
* @param data a pn_data_t object
* @return the element type of an array node
*/
PN_EXTERN pn_type_t pn_data_get_array_type(pn_data_t *data);
/**
* Checks if the current node is a described value. The descriptor and
* value may be accessed by entering the described value node.
*
* @code
* ...
* // read a symbolically described string
* if (pn_data_is_described(data)) {
* pn_data_enter(data);
* pn_data_next(data);
* assert(pn_data_type(data) == PN_SYMBOL);
* pn_bytes_t symbol = pn_data_get_symbol(data);
* pn_data_next(data);
* assert(pn_data_type(data) == PN_STRING);
* pn_bytes_t utf8 = pn_data_get_string(data);
* pn_data_exit(data);
* }
* ...
* @endcode
*
* @param data a pn_data_t object
* @return true if the current node is a described type
*/
PN_EXTERN bool pn_data_is_described(pn_data_t *data);
/**
* Checks if the current node is a ::PN_NULL.
*
* @param data a pn_data_t object
* @return true iff the current node is ::PN_NULL
*/
PN_EXTERN bool pn_data_is_null(pn_data_t *data);
/**
* If the current node is a ::PN_BOOL, returns its value.
*
* @param data a pn_data_t object
*/
PN_EXTERN bool pn_data_get_bool(pn_data_t *data);
/**
* If the current node is a ::PN_UBYTE, return its value, otherwise
* return 0.
*
* @param data a pn_data_t object
*/
PN_EXTERN uint8_t pn_data_get_ubyte(pn_data_t *data);
/**
* If the current node is a signed byte, returns its value, returns 0
* otherwise.
*
* @param data a pn_data_t object
*/
PN_EXTERN int8_t pn_data_get_byte(pn_data_t *data);
/**
* If the current node is an unsigned short, returns its value,
* returns 0 otherwise.
*
* @param data a pn_data_t object
*/
PN_EXTERN uint16_t pn_data_get_ushort(pn_data_t *data);
/**
* If the current node is a signed short, returns its value, returns 0
* otherwise.
*
* @param data a pn_data_t object
*/
PN_EXTERN int16_t pn_data_get_short(pn_data_t *data);
/**
* If the current node is an unsigned int, returns its value, returns
* 0 otherwise.
*
* @param data a pn_data_t object
*/
PN_EXTERN uint32_t pn_data_get_uint(pn_data_t *data);
/**
* If the current node is a signed int, returns its value, returns 0
* otherwise.
*
* @param data a pn_data_t object
*/
PN_EXTERN int32_t pn_data_get_int(pn_data_t *data);
/**
* If the current node is a char, returns its value, returns 0
* otherwise.
*
* @param data a pn_data_t object
*/
PN_EXTERN pn_char_t pn_data_get_char(pn_data_t *data);
/**
* If the current node is an unsigned long, returns its value, returns
* 0 otherwise.
*
* @param data a pn_data_t object
*/
PN_EXTERN uint64_t pn_data_get_ulong(pn_data_t *data);
/**
* If the current node is an signed long, returns its value, returns 0
* otherwise.
*
* @param data a pn_data_t object
*/
PN_EXTERN int64_t pn_data_get_long(pn_data_t *data);
/**
* If the current node is a timestamp, returns its value, returns 0
* otherwise.
*
* @param data a pn_data_t object
*/
PN_EXTERN pn_timestamp_t pn_data_get_timestamp(pn_data_t *data);
/**
* If the current node is a float, returns its value, raises 0
* otherwise.
*
* @param data a pn_data_t object
*/
PN_EXTERN float pn_data_get_float(pn_data_t *data);
/**
* If the current node is a double, returns its value, returns 0
* otherwise.
*
* @param data a pn_data_t object
*/
PN_EXTERN double pn_data_get_double(pn_data_t *data);
/**
* If the current node is a decimal32, returns its value, returns 0
* otherwise.
*
* @param data a pn_data_t object
*/
PN_EXTERN pn_decimal32_t pn_data_get_decimal32(pn_data_t *data);
/**
* If the current node is a decimal64, returns its value, returns 0
* otherwise.
*
* @param data a pn_data_t object
*/
PN_EXTERN pn_decimal64_t pn_data_get_decimal64(pn_data_t *data);
/**
* If the current node is a decimal128, returns its value, returns 0
* otherwise.
*
* @param data a pn_data_t object
*/
PN_EXTERN pn_decimal128_t pn_data_get_decimal128(pn_data_t *data);
/**
* If the current node is a UUID, returns its value, returns None
* otherwise.
*
* @param data a pn_data_t object
* @return a uuid value
*/
PN_EXTERN pn_uuid_t pn_data_get_uuid(pn_data_t *data);
/**
* If the current node is binary, returns its value, returns ""
* otherwise. The pn_bytes_t returned will point to memory held inside
* the pn_data_t. When the pn_data_t is cleared or freed, this memory
* will be reclaimed.
*
* @param data a pn_data_t object
*/
PN_EXTERN pn_bytes_t pn_data_get_binary(pn_data_t *data);
/**
* If the current node is a string, returns its value, returns ""
* otherwise. The pn_bytes_t returned will point to memory held inside
* the pn_data_t. When the pn_data_t is cleared or freed, this memory
* will be reclaimed.
*
* @param data a pn_data_t object
* @return a pn_bytes_t pointing to utf8
*/
PN_EXTERN pn_bytes_t pn_data_get_string(pn_data_t *data);
/**
* If the current node is a symbol, returns its value, returns ""
* otherwise. The pn_bytes_t returned will point to memory held inside
* the pn_data_t. When the pn_data_t is cleared or freed, this memory
* will be reclaimed.
*
* @param data a pn_data_t object
* @return a pn_bytes_t pointing to ascii
*/
PN_EXTERN pn_bytes_t pn_data_get_symbol(pn_data_t *data);
/**
* If the current node is a symbol, string, or binary, return the
* bytes representing its value. The pn_bytes_t returned will point to
* memory held inside the pn_data_t. When the pn_data_t is cleared or
* freed, this memory will be reclaimed.
*
* @param data a pn_data_t object
* @return a pn_bytes_t pointing to the node's value
*/
PN_EXTERN pn_bytes_t pn_data_get_bytes(pn_data_t *data);
/**
* If the current node is a scalar value, return it as a pn_atom_t.
*
* @param data a pn_data_t object
* @return the value of the current node as pn_atom_t
*/
PN_EXTERN pn_atom_t pn_data_get_atom(pn_data_t *data);
/**
* Copy the contents of another pn_data_t object. Any values in the
* data object will be lost.
*
* @param data a pn_data_t object
* @param src the sourc pn_data_t to copy from
* @return zero on success or an error code on failure
*/
PN_EXTERN int pn_data_copy(pn_data_t *data, pn_data_t *src);
/**
* Append the contents of another pn_data_t object.
*
* @param data a pn_data_t object
* @param src the sourc pn_data_t to append from
* @return zero on success or an error code on failure
*/
PN_EXTERN int pn_data_append(pn_data_t *data, pn_data_t *src);
/**
* Append up to _n_ values from the contents of another pn_data_t
* object.
*
* @param data a pn_data_t object
* @param src the sourc pn_data_t to append from
* @param limit the maximum number of values to append
* @return zero on success or an error code on failure
*/
PN_EXTERN int pn_data_appendn(pn_data_t *data, pn_data_t *src, int limit);
/**
* Modify a pn_data_t object to behave as if the current node is the
* root node of the tree. This impacts the behaviour of
* ::pn_data_rewind(), ::pn_data_next(), ::pn_data_prev(), and
* anything else that depends on the navigational state of the
* pn_data_t object. Use ::pn_data_widen() to reverse the effect of
* this operation.
*
* @param data a pn_data_t object
*/
PN_EXTERN void pn_data_narrow(pn_data_t *data);
/**
* Reverse the effect of ::pn_data_narrow().
*
* @param data a pn_data_t object
*/
PN_EXTERN void pn_data_widen(pn_data_t *data);
/**
* Returns a handle for the current navigational state of a pn_data_t
* so that it can be later restored using ::pn_data_restore().
*
* @param data a pn_data_t object
* @return a handle for the current navigational state
*/
PN_EXTERN pn_handle_t pn_data_point(pn_data_t *data);
/**
* Restores a prior navigational state that was saved using
* ::pn_data_point(). If the data object has been modified in such a
* way that the prior navigational state cannot be restored, then this
* will return false and the navigational state will remain unchanged,
* otherwise it will return true.
*
* @param data a pn_data_t object
* @param handle a handle referencing the saved navigational state
* @return true iff the prior navigational state was restored
*/
PN_EXTERN bool pn_data_restore(pn_data_t *data, pn_handle_t point);
/**
* Dumps a debug representation of the internal state of the pn_data_t
* object that includes its navigational state to stdout for debugging
* purposes.
*
* @param data a pn_data_t object that is behaving in a confusing way
*/
PN_EXTERN void pn_data_dump(pn_data_t *data);
/** @}
*/
#ifdef __cplusplus
}
#endif
#endif /* codec.h */
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