#include <jsoncons/json_encoder.hpp>
template<
class CharT,
class Sink>
> basic_json_encoder : public jsoncons::basic_json_visitor<CharT>
template<
class CharT,
class Sink>
> basic_compact_json_encoder : public jsoncons::basic_json_visitor<CharT>basic_json_encoder and basic_compact_json_encoder are noncopyable and nonmoveable.
Four specializations for common character types and sink types are defined for both the pretty print and compressed serializers:
| Type | Definition |
|---|---|
| json_stream_encoder | basic_json_encoder<char,jsoncons::stream_sink> |
| json_string_encoder | basic_json_encoder<char,jsoncons::string_sinkstd::string> |
| wjson_stream_encoder | basic_json_encoder<wchar_t,jsoncons::stream_sink<wchar_t>> |
| wjson_string_encoder | basic_json_encoder<wchar_t,jsoncons::string_sinkstd::wstring> |
| compact_json_stream_encoder (since 0.151.2) | basic_compact_json_encoder<char,jsoncons::stream_sink> |
| compact_json_string_encoder (since 0.151.2) | basic_compact_json_encoder<char,jsoncons::string_sinkstd::string> |
| compact_wjson_stream_encoder (since 0.151.2) | basic_compact_json_encoder<wchar_t,jsoncons::stream_sink<wchar_t>> |
| compact_wjson_string_encoder (since 0.151.2) | basic_compact_json_encoder<wchar_t,jsoncons::string_sinkstd::wstring> |
| Type | Definition |
|---|---|
| char_type | CharT |
| sink_type | Sink |
| string_view_type |
explicit basic_json_encoder(Sink&& sink)
Constructs a new encoder that is associated with the destination sink.
basic_json_encoder(Sink&& sink,
const basic_json_options<CharT>& options)
Constructs a new encoder that is associated with the destination sink
and uses the specified json options.
virtual ~basic_json_encoder() noexcept
Inherited from basic_json_visitor
void flush(); (1)
bool begin_object(semantic_tag tag=semantic_tag::none,
const ser_context& context=ser_context()); (2)
bool begin_object(std::size_t length,
semantic_tag tag=semantic_tag::none,
const ser_context& context = ser_context()); (3)
bool end_object(const ser_context& context = ser_context()); (4)
bool begin_array(semantic_tag tag=semantic_tag::none,
const ser_context& context=ser_context()); (5)
bool begin_array(std::size_t length,
semantic_tag tag=semantic_tag::none,
const ser_context& context=ser_context()); (6)
bool end_array(const ser_context& context=ser_context()); (7)
bool key(const string_view_type& name,
const ser_context& context=ser_context()); (8)
bool null_value(semantic_tag tag = semantic_tag::none,
const ser_context& context=ser_context()); (9)
bool bool_value(bool value,
semantic_tag tag = semantic_tag::none,
const ser_context& context=ser_context()); (10)
bool string_value(const string_view_type& value,
semantic_tag tag = semantic_tag::none,
const ser_context& context=ser_context()); (11)
bool byte_string_value(const byte_string_view& source,
semantic_tag tag=semantic_tag::none,
const ser_context& context=ser_context()); (12) (until 0.152.0)
template <class Source>
bool byte_string_value(const Source& souce,
semantic_tag tag=semantic_tag::none,
const ser_context& context=ser_context()); (12) (since 0.152.0)
template <class Source>
bool byte_string_value(const Source& souce,
uint64_t ext_tag,
const ser_context& context=ser_context()); (13) (since 0.152.0)
bool uint64_value(uint64_t value,
semantic_tag tag = semantic_tag::none,
const ser_context& context=ser_context()); (14)
bool int64_value(int64_t value,
semantic_tag tag = semantic_tag::none,
const ser_context& context=ser_context()); (15)
bool half_value(uint16_t value,
semantic_tag tag = semantic_tag::none,
const ser_context& context=ser_context()); (16)
bool double_value(double value,
semantic_tag tag = semantic_tag::none,
const ser_context& context=ser_context()); (17)
bool begin_object(semantic_tag tag,
const ser_context& context,
std::error_code& ec); (18)
bool begin_object(std::size_t length,
semantic_tag tag,
const ser_context& context,
std::error_code& ec); (19)
bool end_object(const ser_context& context,
std::error_code& ec); (20)
bool begin_array(semantic_tag tag,
const ser_context& context,
std::error_code& ec); (21)
bool begin_array(std::size_t length,
semantic_tag tag,
const ser_context& context,
std::error_code& ec); (22)
bool end_array(const ser_context& context,
std::error_code& ec); (23)
bool key(const string_view_type& name,
const ser_context& context,
std::error_code& ec); (24)
bool null_value(semantic_tag tag,
const ser_context& context,
std::error_code& ec); (25)
bool bool_value(bool value,
semantic_tag tag,
const ser_context& context,
std::error_code& ec); (26)
bool string_value(const string_view_type& value,
semantic_tag tag,
const ser_context& context,
std::error_code& ec); (27)
bool byte_string_value(const byte_string_view& source,
semantic_tag tag,
const ser_context& context,
std::error_code& ec); (28) (until 0.152.0)
template <class Source>
bool byte_string_value(const Source& source,
semantic_tag tag,
const ser_context& context,
std::error_code& ec); (28) (since 0.152.0)
template <class Source>
bool byte_string_value(const Source& source,
uint64_t ext_tag,
const ser_context& context,
std::error_code& ec); (29) (since 0.152.0)
bool uint64_value(uint64_t value,
semantic_tag tag,
const ser_context& context,
std::error_code& ec); (30)
bool int64_value(int64_t value,
semantic_tag tag,
const ser_context& context,
std::error_code& ec); (31)
bool half_value(uint16_t value,
semantic_tag tag,
const ser_context& context,
std::error_code& ec); (32)
bool double_value(double value,
semantic_tag tag,
const ser_context& context,
std::error_code& ec); (33)
template <class T>
bool typed_array(const span<T>& data,
semantic_tag tag=semantic_tag::none,
const ser_context& context=ser_context()); (34)
bool typed_array(half_arg_t, const span<const uint16_t>& s,
semantic_tag tag = semantic_tag::none,
const ser_context& context = ser_context()); (35)
bool begin_multi_dim(const span<const size_t>& shape,
semantic_tag tag,
const ser_context& context); (36)
bool end_multi_dim(const ser_context& context=ser_context()); (37)
template <class T>
bool typed_array(const span<T>& data,
semantic_tag tag,
const ser_context& context,
std::error_code& ec); (38)
bool typed_array(half_arg_t, const span<const uint16_t>& s,
semantic_tag tag,
const ser_context& context,
std::error_code& ec); (39)
bool begin_multi_dim(const span<const size_t>& shape,
semantic_tag tag,
const ser_context& context,
std::error_code& ec); (40)
bool end_multi_dim(const ser_context& context,
std::error_code& ec); (41)
(1) Flushes whatever is buffered to the destination.
(2) Indicates the begining of an object of indefinite length.
Returns true if the consumer wishes to receive more events, false otherwise.
Throws a ser_error on parse errors.
(3) Indicates the begining of an object of known length.
Returns true if the consumer wishes to receive more events, false otherwise.
Throws a ser_error on parse errors.
(4) Indicates the end of an object.
Returns true if the consumer wishes to receive more events, false otherwise.
Throws a ser_error on parse errors.
(5) Indicates the beginning of an indefinite length array.
Returns true if the consumer wishes to receive more events, false otherwise.
Throws a ser_error on parse errors.
(6) Indicates the beginning of an array of known length.
Returns true if the consumer wishes to receive more events, false otherwise.
Throws a ser_error on parse errors.
(7) Indicates the end of an array.
Returns true if the consumer wishes to receive more events, false otherwise.
Throws a ser_error on parse errors.
(8) Writes the name part of an object name-value pair.
Returns true if the consumer wishes to receive more events, false otherwise.
Throws a ser_error on parse errors.
(9) Writes a null value.
Returns true if the consumer wishes to receive more events, false otherwise.
Throws a ser_error on parse errors.
(10) Writes a boolean value.
Returns true if the consumer wishes to receive more events, false otherwise.
Throws a ser_error on parse errors.
(11) Writes a text string value.
Returns true if the consumer wishes to receive more events, false otherwise.
Throws a ser_error on parse errors.
(12) Writes a byte string value source with a generic tag.
Type Source must be a container that has member functions data() and size(),
and member type value_type with size exactly 8 bits (since 0.152.0.)
Returns true if the consumer wishes to receive more events, false otherwise.
Throws a ser_error on parse errors.
(13) Writes a byte string value source with a format specific tag, ext_tag.
Type Source must be a container that has member functions data() and size(),
and member type value_type with size exactly 8 bits (since 0.152.0.)
Returns true if the consumer wishes to receive more events, false otherwise.
Throws a ser_error on parse errors.
(14) Writes a non-negative integer value.
Returns true if the consumer wishes to receive more events, false otherwise.
Throws a ser_error on parse errors.
(15) Writes a signed integer value.
Returns true if the consumer wishes to receive more events, false otherwise.
Throws a ser_error on parse errors.
(16) Writes a half precision floating point value.
Returns true if the consumer wishes to receive more events, false otherwise.
Throws a ser_error on parse errors.
(17) Writes a double precision floating point value.
Returns true if the consumer wishes to receive more events, false otherwise.
Throws a ser_error on parse errors.
(18)-(33) Same as (2)-(17), except sets ec and returns false on parse errors.
#include <iostream>
#include <boost/numeric/ublas/matrix.hpp>
#include <jsoncons/json_encoder.hpp>
using namespace jsoncons;
using boost::numeric::ublas::matrix;
int main()
{
matrix<double> A(2, 2);
A(0, 0) = 1;
A(0, 1) = 2;
A(1, 0) = 3;
A(1, 1) = 4;
json_options options;
json_stream_encoder os(std::cout, options);
os.begin_array();
for (std::size_t i = 0; i < A.size1(); ++i)
{
os.begin_array();
for (std::size_t j = 0; j < A.size2(); ++j)
{
os.double_value(A(i, j));
}
os.end_array();
}
os.end_array();
return 0;
}Output:
[
[1,2],
[3,4]
]