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#ifndef BOOST_PROPERTY_TREE_DETAIL_JSON_PARSER_PARSER_HPP
#define BOOST_PROPERTY_TREE_DETAIL_JSON_PARSER_PARSER_HPP
#include <boost/property_tree/json_parser/error.hpp>
#include <boost/ref.hpp>
#include <boost/bind.hpp>
#include <boost/format.hpp>
#include <iterator>
#include <sstream>
#include <string>
namespace boost { namespace property_tree {
namespace json_parser { namespace detail
{
template <typename Encoding, typename Iterator, typename Sentinel>
class source
{
public:
typedef typename std::iterator_traits<Iterator>::value_type
code_unit;
typedef bool (Encoding::*encoding_predicate)(code_unit c) const;
explicit source(Encoding& encoding) : encoding(encoding) {}
template <typename Range>
void set_input(const std::string& filename, const Range& r)
{
this->filename = filename;
cur = r.begin();
end = r.end();
// Note that there is no backtracking, so if e.g. a UTF-8 file
// starts with something that initially looks like a BOM but isn't,
// there's trouble.
// However, no valid JSON file can start with a UTF-8 EF byte.
encoding.skip_introduction(cur, end);
line = 1;
offset = 0;
}
bool done() const { return cur == end; }
void parse_error(const char* msg) {
BOOST_PROPERTY_TREE_THROW(
json_parser_error(msg, filename, line));
}
void next() {
if (encoding.is_nl(*cur)) {
++line;
offset = 0;
} else {
++offset;
}
++cur;
}
template <typename Action>
bool have(encoding_predicate p, Action& a) {
bool found = cur != end && (encoding.*p)(*cur);
if (found) {
a(*cur);
next();
}
return found;
}
bool have(encoding_predicate p) {
DoNothing n;
return have(p, n);
}
template <typename Action>
void expect(encoding_predicate p, const char* msg, Action& a) {
if (!have(p, a)) {
parse_error(msg);
}
}
void expect(encoding_predicate p, const char* msg) {
DoNothing n;
expect(p, msg, n);
}
code_unit need_cur(const char* msg) {
if (cur == end) {
parse_error(msg);
}
return *cur;
}
Iterator& raw_cur() { return cur; }
Sentinel raw_end() { return end; }
private:
struct DoNothing {
void operator ()(code_unit) const {}
};
Encoding& encoding;
Iterator cur;
Sentinel end;
std::string filename;
int line;
int offset;
};
template <typename Callbacks, typename Encoding, typename Iterator,
typename = typename std::iterator_traits<Iterator>
::iterator_category>
class number_callback_adapter
{
public:
number_callback_adapter(Callbacks& callbacks, Encoding& encoding,
Iterator& cur)
: callbacks(callbacks), encoding(encoding), first(cur), cur(cur)
{}
void operator ()(typename Encoding::external_char) {}
void finish() const {
callbacks.on_number(encoding.to_internal(first, cur));
}
private:
number_callback_adapter(const number_callback_adapter&);
Callbacks& callbacks;
Encoding& encoding;
Iterator first;
Iterator& cur;
};
template <typename Callbacks, typename Encoding, typename Iterator>
class number_callback_adapter<Callbacks, Encoding, Iterator,
std::input_iterator_tag>
{
public:
number_callback_adapter(Callbacks& callbacks, Encoding& encoding,
Iterator&)
: callbacks(callbacks), encoding(encoding), first(true)
{}
void operator ()(typename Encoding::external_char c) {
if (first) {
callbacks.on_begin_number();
first = false;
}
callbacks.on_digit(encoding.to_internal_trivial(c));
}
void finish() const {
callbacks.on_end_number();
}
private:
number_callback_adapter(const number_callback_adapter&);
Callbacks& callbacks;
Encoding& encoding;
bool first;
};
template <typename Callbacks, typename Encoding, typename Iterator,
typename = typename std::iterator_traits<Iterator>
::iterator_category>
class string_callback_adapter
{
public:
string_callback_adapter(Callbacks& callbacks, Encoding& encoding,
Iterator& cur)
: callbacks(callbacks), encoding(encoding), cur(cur),
run_begin(cur)
{}
void start_run() {
run_begin = cur;
}
void finish_run() {
callbacks.on_code_units(encoding.to_internal(run_begin, cur));
}
template <typename Sentinel, typename EncodingErrorFn>
void process_codepoint(Sentinel end, EncodingErrorFn error_fn) {
encoding.skip_codepoint(cur, end, error_fn);
}
private:
string_callback_adapter(const string_callback_adapter&);
Callbacks& callbacks;
Encoding& encoding;
Iterator& cur;
Iterator run_begin;
};
template <typename Callbacks, typename Encoding, typename Iterator>
class string_callback_adapter<Callbacks, Encoding, Iterator,
std::input_iterator_tag>
{
public:
string_callback_adapter(Callbacks& callbacks, Encoding& encoding,
Iterator& cur)
: callbacks(callbacks), encoding(encoding), cur(cur)
{}
void start_run() {}
void finish_run() {}
template <typename Sentinel, typename EncodingErrorFn>
void process_codepoint(Sentinel end, EncodingErrorFn error_fn) {
encoding.transcode_codepoint(cur, end,
boost::bind(&Callbacks::on_code_unit,
boost::ref(callbacks), _1),
error_fn);
}
private:
string_callback_adapter(const string_callback_adapter&);
Callbacks& callbacks;
Encoding& encoding;
Iterator& cur;
};
template <typename Callbacks, typename Encoding, typename Iterator,
typename Sentinel>
class parser
{
typedef detail::number_callback_adapter<Callbacks, Encoding, Iterator>
number_adapter;
typedef detail::string_callback_adapter<Callbacks, Encoding, Iterator>
string_adapter;
typedef detail::source<Encoding, Iterator, Sentinel> source;
typedef typename source::code_unit code_unit;
public:
parser(Callbacks& callbacks, Encoding& encoding)
: callbacks(callbacks), encoding(encoding), src(encoding)
{}
template <typename Range>
void set_input(const std::string& filename, const Range& r) {
src.set_input(filename, r);
}
void finish() {
skip_ws();
if (!src.done()) {
parse_error("garbage after data");
}
}
void parse_value() {
if (parse_object()) return;
if (parse_array()) return;
if (parse_string()) return;
if (parse_boolean()) return;
if (parse_null()) return;
if (parse_number()) return;
parse_error("expected value");
}
bool parse_null() {
skip_ws();
if (!have(&Encoding::is_n)) {
return false;
}
expect(&Encoding::is_u, "expected 'null'");
expect(&Encoding::is_l, "expected 'null'");
expect(&Encoding::is_l, "expected 'null'");
callbacks.on_null();
return true;
}
bool parse_boolean() {
skip_ws();
if (have(&Encoding::is_t)) {
expect(&Encoding::is_r, "expected 'true'");
expect(&Encoding::is_u, "expected 'true'");
expect(&Encoding::is_e, "expected 'true'");
callbacks.on_boolean(true);
return true;
}
if (have(&Encoding::is_f)) {
expect(&Encoding::is_a, "expected 'false'");
expect(&Encoding::is_l, "expected 'false'");
expect(&Encoding::is_s, "expected 'false'");
expect(&Encoding::is_e, "expected 'false'");
callbacks.on_boolean(false);
return true;
}
return false;
}
bool parse_number() {
skip_ws();
number_adapter adapter(callbacks, encoding, src.raw_cur());
bool started = false;
if (have(&Encoding::is_minus, adapter)) {
started = true;
}
if (!have(&Encoding::is_0, adapter) && !parse_int_part(adapter)) {
if (started) {
parse_error("expected digits after -");
}
return false;
}
parse_frac_part(adapter);
parse_exp_part(adapter);
adapter.finish();
return true;
}
bool parse_string() {
skip_ws();
if (!have(&Encoding::is_quote)) {
return false;
}
callbacks.on_begin_string();
string_adapter adapter(callbacks, encoding, src.raw_cur());
while (!encoding.is_quote(need_cur("unterminated string"))) {
if (encoding.is_backslash(*src.raw_cur())) {
adapter.finish_run();
next();
parse_escape();
adapter.start_run();
} else {
adapter.process_codepoint(src.raw_end(),
boost::bind(&parser::parse_error,
this, "invalid code sequence"));
}
}
adapter.finish_run();
callbacks.on_end_string();
next();
return true;
}
bool parse_array() {
skip_ws();
if (!have(&Encoding::is_open_bracket)) {
return false;
}
callbacks.on_begin_array();
skip_ws();
if (have(&Encoding::is_close_bracket)) {
callbacks.on_end_array();
return true;
}
do {
parse_value();
skip_ws();
} while (have(&Encoding::is_comma));
expect(&Encoding::is_close_bracket, "expected ']' or ','");
callbacks.on_end_array();
return true;
}
bool parse_object() {
skip_ws();
if (!have(&Encoding::is_open_brace)) {
return false;
}
callbacks.on_begin_object();
skip_ws();
if (have(&Encoding::is_close_brace)) {
callbacks.on_end_object();
return true;
}
do {
if (!parse_string()) {
parse_error("expected key string");
}
skip_ws();
expect(&Encoding::is_colon, "expected ':'");
parse_value();
skip_ws();
} while (have(&Encoding::is_comma));
expect(&Encoding::is_close_brace, "expected '}' or ','");
callbacks.on_end_object();
return true;
}
private:
typedef typename source::encoding_predicate encoding_predicate;
void parse_error(const char* msg) { src.parse_error(msg); }
void next() { src.next(); }
template <typename Action>
bool have(encoding_predicate p, Action& a) { return src.have(p, a); }
bool have(encoding_predicate p) { return src.have(p); }
template <typename Action>
void expect(encoding_predicate p, const char* msg, Action& a) {
src.expect(p, msg, a);
}
void expect(encoding_predicate p, const char* msg) {
src.expect(p, msg);
}
code_unit need_cur(const char* msg) { return src.need_cur(msg); }
void skip_ws() {
while (have(&Encoding::is_ws)) {
}
}
bool parse_int_part(number_adapter& action) {
if (!have(&Encoding::is_digit0, action)) {
return false;
}
parse_digits(action);
return true;
}
void parse_frac_part(number_adapter& action) {
if (!have(&Encoding::is_dot, action)) {
return;
}
expect(&Encoding::is_digit, "need at least one digit after '.'",
action);
parse_digits(action);
}
void parse_exp_part(number_adapter& action) {
if (!have(&Encoding::is_eE, action)) {
return;
}
have(&Encoding::is_plusminus, action);
expect(&Encoding::is_digit, "need at least one digit in exponent",
action);
parse_digits(action);
}
void parse_digits(number_adapter& action) {
while (have(&Encoding::is_digit, action)) {
}
}
void parse_escape() {
if (have(&Encoding::is_quote)) {
feed(0x22);
} else if (have(&Encoding::is_backslash)) {
feed(0x5c);
} else if (have(&Encoding::is_slash)) {
feed(0x2f);
} else if (have(&Encoding::is_b)) {
feed(0x08); // backspace
} else if (have(&Encoding::is_f)) {
feed(0x0c); // formfeed
} else if (have(&Encoding::is_n)) {
feed(0x0a); // line feed
} else if (have(&Encoding::is_r)) {
feed(0x0d); // carriage return
} else if (have(&Encoding::is_t)) {
feed(0x09); // horizontal tab
} else if (have(&Encoding::is_u)) {
parse_codepoint_ref();
} else {
parse_error("invalid escape sequence");
}
}
unsigned parse_hex_quad() {
unsigned codepoint = 0;
for (int i = 0; i < 4; ++i) {
int value = encoding.decode_hexdigit(
need_cur("invalid escape sequence"));
if (value < 0) {
parse_error("invalid escape sequence");
}
codepoint *= 16;
codepoint += value;
next();
}
return codepoint;
}
static bool is_surrogate_high(unsigned codepoint) {
return (codepoint & 0xfc00) == 0xd800;
}
static bool is_surrogate_low(unsigned codepoint) {
return (codepoint & 0xfc00) == 0xdc00;
}
static unsigned combine_surrogates(unsigned high, unsigned low) {
return 0x010000 + (((high & 0x3ff) << 10) | (low & 0x3ff));
}
void parse_codepoint_ref() {
unsigned codepoint = parse_hex_quad();
if (is_surrogate_low(codepoint)) {
parse_error("invalid codepoint, stray low surrogate");
}
if (is_surrogate_high(codepoint)) {
expect(&Encoding::is_backslash,
"invalid codepoint, stray high surrogate");
expect(&Encoding::is_u,
"expected codepoint reference after high surrogate");
int low = parse_hex_quad();
if (!is_surrogate_low(low)) {
parse_error("expected low surrogate after high surrogate");
}
codepoint = combine_surrogates(codepoint, low);
}
feed(codepoint);
}
void feed(unsigned codepoint) {
encoding.feed_codepoint(codepoint,
boost::bind(&Callbacks::on_code_unit,
boost::ref(callbacks), _1));
}
Callbacks& callbacks;
Encoding& encoding;
source src;
};
}}}}
#endif
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