/* * Licensed 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. * * Copyright 2010-2015 Danny Robson */ #include "./tree.hpp" #include "./except.hpp" #include "./flat.hpp" #include "../cast.hpp" #include "../debug.hpp" #include "../io.hpp" #include "../maths.hpp" #include "../preprocessor.hpp" #include #include #include #include #include #include #include #include #include #include using json::tree::node; using json::tree::object; using json::tree::array; using json::tree::string; using json::tree::number; using json::tree::boolean; using json::tree::null; /////////////////////////////////////////////////////////////////////////////// namespace util { bool is_integer (const json::tree::number &node) { using R = json::tree::number::repr_t; switch (node.repr ()) { case R::REAL: return is_integer (node.real ()); case R::SINT: case R::UINT: return true; } unreachable (); } //----------------------------------------------------------------------------- bool is_integer (const json::tree::node &node) { return node.is_number () && is_integer (node.as_number ()); } } /////////////////////////////////////////////////////////////////////////////// template static typename std::vector>::const_iterator parse (typename std::vector>::const_iterator first, typename std::vector>::const_iterator last, std::unique_ptr &output); //----------------------------------------------------------------------------- template static typename std::vector>::const_iterator parse (typename std::vector>::const_iterator first, typename std::vector>::const_iterator last, json::tree::array &parent) { for (auto cursor = first; cursor != last; ) { if (cursor->tag == json::flat::type::ARRAY_END) return cursor + 1; std::unique_ptr value; cursor = ::parse (cursor, last, value); parent.insert (std::move (value)); } unreachable (); } //----------------------------------------------------------------------------- template static typename std::vector>::const_iterator parse (typename std::vector>::const_iterator first, typename std::vector>::const_iterator last, json::tree::object &parent) { for (auto cursor = first; cursor != last; ) { if (cursor->tag == json::flat::type::OBJECT_END) return cursor + 1; CHECK_EQ (cursor->tag, json::flat::type::STRING); std::string key (cursor->first + 1, cursor->last - 1); ++cursor; std::unique_ptr val; cursor = ::parse (cursor, last, val); parent.insert (key, std::move (val)); } unreachable (); } //----------------------------------------------------------------------------- template static typename std::vector>::const_iterator parse (typename std::vector>::const_iterator first, typename std::vector>::const_iterator last, std::unique_ptr &output) { CHECK (first != last); CHECK (output.get () == nullptr); using F = json::flat::type; switch (first->tag) { case F::NUL: output.reset (new json::tree::null ()); return first + 1; case F::BOOLEAN: CHECK (*first->first == 't' || *first->first == 'f'); output.reset (new json::tree::boolean (*first->first == 't')); return first + 1; case F::STRING: CHECK_NEQ (&*first->first, &*first->last); output.reset (new json::tree::string (first->first + 1, first->last - 1)); return first + 1; case F::INTEGER: { T start = first->first; bool negative = *start == '-'; if (negative) ++start; T finish = start; uintmax_t v = 0; while (isdigit (*finish)) v *= 10, v += *finish - '0', ++finish; if (finish == start || finish > first->last) throw json::parse_error ("invalid integer"); if (negative) output.reset (new json::tree::number (-intmax_t(v))); else output.reset (new json::tree::number (v)); return first + 1; } case F::REAL: { std::string str (first->first, first->last); output.reset (new json::tree::number (std::atof (str.c_str()))); return first + 1; } case F::ARRAY_BEGIN: { auto value = std::make_unique (); auto cursor = ::parse (first + 1, last, *value); output = std::move (value); return cursor; } case F::OBJECT_BEGIN: { auto value = std::make_unique (); auto cursor = ::parse (first + 1, last, *value); output = std::move (value); return cursor; } case F::UNKNOWN: case F::OBJECT_END: case F::ARRAY_END: unreachable (); } unreachable (); } /////////////////////////////////////////////////////////////////////////////// template std::unique_ptr json::tree::parse (const util::view src) { std::unique_ptr output; auto data = json::flat::parse (src); auto end = ::parse (data.cbegin (), data.cend (), output); CHECK (end == data.cend ()); (void)end; return output; } #define INSTANTIATE(KLASS) \ template \ std::unique_ptr \ json::tree::parse (util::view); MAP( INSTANTIATE, std::string::iterator, std::string::const_iterator, const char* restrict, const char*, char* restrict, char * ); #undef INSTANTIATE //----------------------------------------------------------------------------- std::unique_ptr json::tree::parse (const boost::filesystem::path &src) { const util::mapped_file data (src.string ().c_str ()); return parse (data.as_view ()); } /////////////////////////////////////////////////////////////////////////////// void json::tree::write (const json::tree::node &node, std::ostream &os) { node.write (os); } /////////////////////////////////////////////////////////////////////////////// // Type conversion const json::tree::object& json::tree::node::as_object (void) const& { throw json::type_error ("node is not an object"); } //----------------------------------------------------------------------------- const json::tree::array& json::tree::node::as_array (void) const& { throw json::type_error ("node is not an array"); } //----------------------------------------------------------------------------- const json::tree::string& json::tree::node::as_string (void) const& { throw json::type_error ("node is not a string"); } //----------------------------------------------------------------------------- const json::tree::number& json::tree::node::as_number (void) const& { throw json::type_error ("node is not a number"); } //----------------------------------------------------------------------------- const json::tree::boolean& json::tree::node::as_boolean (void) const& { throw json::type_error ("node is not a boolean"); } //----------------------------------------------------------------------------- const json::tree::null& json::tree::node::as_null (void) const& { throw json::type_error ("node is not a null"); } /////////////////////////////////////////////////////////////////////////////// json::tree::object& json::tree::node::as_object (void)& { throw json::type_error ("node is not an object"); } //----------------------------------------------------------------------------- json::tree::array& json::tree::node::as_array (void)& { throw json::type_error ("node is not an array"); } //----------------------------------------------------------------------------- json::tree::string& json::tree::node::as_string (void)& { throw json::type_error ("node is not a string"); } //----------------------------------------------------------------------------- json::tree::number& json::tree::node::as_number (void)& { throw json::type_error ("node is not a number"); } //----------------------------------------------------------------------------- json::tree::boolean& json::tree::node::as_boolean (void)& { throw json::type_error ("node is not a boolean"); } //----------------------------------------------------------------------------- json::tree::null& json::tree::node::as_null (void)& { throw json::type_error ("node is not a null"); } /////////////////////////////////////////////////////////////////////////////// bool json::tree::node::as_bool (void) const { return !!as_boolean (); } //----------------------------------------------------------------------------- float json::tree::node::as_float (void) const { return static_cast (as_number ().real ()); } //----------------------------------------------------------------------------- double json::tree::node::as_double (void) const { return as_number ().real (); } //----------------------------------------------------------------------------- uintmax_t json::tree::node::as_uint (void) const { return as_number ().uint (); } //----------------------------------------------------------------------------- intmax_t json::tree::node::as_sint (void) const { return as_number ().sint (); } //----------------------------------------------------------------------------- const char* json::tree::node::as_chars (void) const& { return as_string ().native ().c_str (); } /////////////////////////////////////////////////////////////////////////////// namespace json { namespace tree { template <> bool node::as (void) const { return as_bool (); } //----------------------------------------------------------------------------- template <> float json::tree::node::as (void) const { return as_float (); } //----------------------------------------------------------------------------- template <> double json::tree::node::as (void) const { return as_double (); } //----------------------------------------------------------------------------- template <> uint32_t json::tree::node::as (void) const { return static_cast (as_uint ()); } //----------------------------------------------------------------------------- template <> uint64_t json::tree::node::as (void) const { return static_cast (as_uint ()); } //----------------------------------------------------------------------------- template <> int32_t json::tree::node::as (void) const { return static_cast (as_sint ()); } //----------------------------------------------------------------------------- template <> int64_t json::tree::node::as (void) const { return static_cast (as_sint ()); } } } /////////////////////////////////////////////////////////////////////////////// // Global operatoers bool json::tree::node::operator!= (const node &rhs) const { return !(*this == rhs); } //----------------------------------------------------------------------------- bool json::tree::node::operator==(const char *rhs) const { try { return as_string ().native () == rhs; } catch (const json::type_error&) { return false; } } //----------------------------------------------------------------------------- json::tree::node& json::tree::node::operator[] (const std::string &key)& { return as_object ()[key]; } //----------------------------------------------------------------------------- json::tree::node& json::tree::node::operator[] (size_t idx)& { return as_array()[idx]; } //----------------------------------------------------------------------------- const json::tree::node& json::tree::node::operator[] (const std::string &key) const& { return as_object ()[key]; } //----------------------------------------------------------------------------- const json::tree::node& json::tree::node::operator[] (size_t idx) const& { return as_array()[idx]; } /////////////////////////////////////////////////////////////////////////////// // Object json::tree::object::~object () { ; } //----------------------------------------------------------------------------- std::unique_ptr json::tree::object::clone (void) const { auto obj = std::make_unique (); for (auto &i: *this) obj->insert (i.first, i.second->clone ()); return std::move (obj); } //----------------------------------------------------------------------------- bool json::tree::object::operator ==(const json::tree::object &rhs) const { for (auto i = rhs.m_values.begin (), j = m_values.begin (); i != rhs.m_values.end () && j != m_values.end (); ++i, ++j) { if (i->first != j->first) return false; if ((*i->second) != (*j->second)) return false; } return true; } //----------------------------------------------------------------------------- void json::tree::object::insert (const std::string &_key, std::unique_ptr &&value) { m_values[_key] = move(value); } //----------------------------------------------------------------------------- json::tree::node& json::tree::object::operator[](const std::string &key)& { auto value = m_values.find (key); if (value == m_values.end ()) throw json::key_error (key); return *value->second; } //----------------------------------------------------------------------------- const json::tree::node& json::tree::object::operator[](const std::string &key) const& { auto value = m_values.find (key); if (value == m_values.end ()) throw json::key_error (key); return *value->second; } //----------------------------------------------------------------------------- bool json::tree::object::has (const std::string &key) const { return m_values.find (key) != m_values.end (); } //----------------------------------------------------------------------------- json::tree::object::const_iterator json::tree::object::find (const std::string &key) const { return m_values.find (key); } //----------------------------------------------------------------------------- json::tree::object::const_iterator json::tree::object::begin (void) const { return m_values.begin (); } //----------------------------------------------------------------------------- json::tree::object::const_iterator json::tree::object::end (void) const { return m_values.end (); } //----------------------------------------------------------------------------- size_t json::tree::object::size (void) const { return m_values.size (); } //----------------------------------------------------------------------------- void json::tree::object::clear (void) { m_values.clear (); } //----------------------------------------------------------------------------- void json::tree::object::erase (const std::string &key) { auto pos = m_values.find (key); if (pos == m_values.end ()) throw json::error ("erasing invalid key"); m_values.erase (key); } //----------------------------------------------------------------------------- std::ostream& json::tree::object::write (std::ostream &os) const { os << "{\n"; { util::indenter raii(os); for (auto i = m_values.begin (); i != m_values.end ();) { os << '"' << i->first << "\" : " << *i->second; if (++i != m_values.end ()) os << ",\n"; } } os << "\n}"; return os; } /////////////////////////////////////////////////////////////////////////////// // Array json::tree::array::~array() { m_values.clear (); } //----------------------------------------------------------------------------- std::unique_ptr json::tree::array::clone (void) const { auto ret = std::make_unique (); for (const auto &i: *this) ret->insert (i.clone ()); return std::move (ret); } //----------------------------------------------------------------------------- void json::tree::array::insert (std::unique_ptr &&_value) { m_values.push_back (move (_value)); } //----------------------------------------------------------------------------- bool json::tree::array::operator==(const json::tree::array &rhs) const { for (auto i = rhs.m_values.begin (), j = m_values.begin (); i != rhs.m_values.end () && j != m_values.end (); ++i, ++j) { if ((**i) != (**j)) return false; } return true; } //----------------------------------------------------------------------------- bool json::tree::array::operator== (const node &rhs) const { return rhs == *this; } //----------------------------------------------------------------------------- size_t json::tree::array::size (void) const { return m_values.size (); } //----------------------------------------------------------------------------- json::tree::node& json::tree::array::operator[] (size_t idx)& { return *m_values[idx]; } //----------------------------------------------------------------------------- const json::tree::node& json::tree::array::operator[] (size_t idx) const& { return *m_values[idx]; } //----------------------------------------------------------------------------- json::tree::array::iterator json::tree::array::begin (void) { return iterator (m_values.begin ()); } //----------------------------------------------------------------------------- json::tree::array::iterator json::tree::array::end (void) { return iterator (m_values.end ()); } //----------------------------------------------------------------------------- json::tree::array::const_iterator json::tree::array::begin (void) const { return const_iterator (m_values.begin ()); } //----------------------------------------------------------------------------- json::tree::array::const_iterator json::tree::array::end (void) const { return const_iterator (m_values.end ()); } //----------------------------------------------------------------------------- json::tree::array::const_iterator json::tree::array::cbegin (void) const { return const_iterator (m_values.cbegin ()); } //----------------------------------------------------------------------------- json::tree::array::const_iterator json::tree::array::cend (void) const { return const_iterator (m_values.cend ()); } //----------------------------------------------------------------------------- std::ostream& json::tree::array::write (std::ostream &os) const { os << "[\n"; { util::indenter raii(os); for (auto i = m_values.begin (); i != m_values.end (); ++i) { (*i)->write (os); if (i != m_values.end () - 1) os << ",\n"; } } os << "\n]"; return os; } /////////////////////////////////////////////////////////////////////////////// // String std::unique_ptr json::tree::string::clone (void) const { return std::make_unique (m_value); } //----------------------------------------------------------------------------- std::ostream& json::tree::string::write (std::ostream &os) const { os << '"' << m_value << '"'; return os; } //----------------------------------------------------------------------------- bool json::tree::string::operator== (const json::tree::string &rhs) const { return rhs.m_value == m_value; } //----------------------------------------------------------------------------- bool json::tree::string::operator== (const char *rhs) const { return rhs == m_value; } //----------------------------------------------------------------------------- bool json::tree::string::operator== (const std::string &rhs) const { return rhs == m_value; } /////////////////////////////////////////////////////////////////////////////// // Number std::unique_ptr json::tree::number::clone (void) const { switch (m_repr) { case REAL: return std::make_unique (m_value.r); case SINT: return std::make_unique (m_value.s); case UINT: return std::make_unique (m_value.u); } unreachable (); } //----------------------------------------------------------------------------- std::ostream& json::tree::number::write (std::ostream &os) const { auto old = int (os.precision ()); switch (m_repr) { case REAL: return os << std::numeric_limits::digits10 << m_value.r << std::setprecision (old); case SINT: return os << std::numeric_limits::digits10 << m_value.s << std::setprecision (old); case UINT: return os << std::numeric_limits::digits10 << m_value.u << std::setprecision (old); } unreachable (); } //----------------------------------------------------------------------------- bool json::tree::number::operator ==(const json::tree::number &rhs) const { if (repr () != rhs.repr ()) return false; switch (repr ()) { case REAL: return util::almost_equal (real (), rhs.real ()); case SINT: return util::almost_equal (sint (), rhs.sint ()); case UINT: return util::almost_equal (uint (), rhs.uint ()); } unreachable (); } //----------------------------------------------------------------------------- json::tree::number::real_t json::tree::number::real (void) const { if (m_repr != REAL) throw json::type_error ("number is not a real"); return m_value.r; } //----------------------------------------------------------------------------- json::tree::number::sint_t json::tree::number::sint (void) const { if (m_repr != SINT) throw json::type_error ("number is not a sint"); return m_value.s; } //----------------------------------------------------------------------------- json::tree::number::uint_t json::tree::number::uint (void) const { if (m_repr != UINT) throw json::type_error ("number is not a uint"); return m_value.u; } //----------------------------------------------------------------------------- json::tree::number::operator json::tree::number::real_t (void) const { return real (); } //----------------------------------------------------------------------------- json::tree::number::operator json::tree::number::sint_t (void) const { return sint (); } //----------------------------------------------------------------------------- json::tree::number::operator json::tree::number::uint_t (void) const { return uint (); } /////////////////////////////////////////////////////////////////////////////// // Boolean std::unique_ptr json::tree::boolean::clone (void) const { return std::make_unique (m_value); } //----------------------------------------------------------------------------- std::ostream& json::tree::boolean::write (std::ostream &os) const { os << (m_value ? "true" : "false"); return os; } //----------------------------------------------------------------------------- bool json::tree::boolean::operator ==(const json::tree::boolean &rhs) const { return rhs.m_value == m_value; } /////////////////////////////////////////////////////////////////////////////// // Null std::unique_ptr json::tree::null::clone (void) const { return std::make_unique (); } //----------------------------------------------------------------------------- std::ostream& json::tree::null::write (std::ostream &os) const { os << "null"; return os; } //----------------------------------------------------------------------------- std::ostream& json::tree::operator<< (std::ostream &os, const json::tree::node &n) { return n.write (os); } //----------------------------------------------------------------------------- // to_json namespace json { namespace tree { template <> std::unique_ptr io::serialise (const bool &b) { return std::unique_ptr (new boolean (b)); } template <> std::unique_ptr io::serialise (const std::nullptr_t &) { return std::unique_ptr (new null ()); } template <> std::unique_ptr io::serialise (const std::string &s) { return std::unique_ptr (new string (s)); } template <> std::unique_ptr io::serialise (const int32_t &i) { return std::unique_ptr (new number (intmax_t {i})); } template <> std::unique_ptr io::serialise (const int64_t &i) { return std::unique_ptr (new number (intmax_t {i})); } template <> std::unique_ptr io::serialise (const uint32_t &i) { return std::unique_ptr (new number (uintmax_t {i})); } template <> std::unique_ptr io::serialise (const uint64_t &i) { return std::unique_ptr (new number (uintmax_t {i})); } template <> std::unique_ptr io::serialise (const float &f) { return std::unique_ptr (new number (f)); } } }