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//
// Var.cpp
//
// Library: Foundation
// Package: Core
// Module: Var
//
// Copyright (c) 2007, Applied Informatics Software Engineering GmbH.
// and Contributors.
//
// SPDX-License-Identifier: BSL-1.0
//
#include "Poco/Dynamic/Var.h"
#include "Poco/Dynamic/Struct.h"
#include <algorithm>
#include <cctype>
#include <vector>
#include <list>
#include <deque>
namespace Poco {
namespace Dynamic {
Var::Var()
#ifdef POCO_NO_SOO
: _pHolder(0)
#endif
{
}
Var::Var(const char* pVal)
#ifdef POCO_NO_SOO
: _pHolder(new VarHolderImpl<std::string>(pVal))
{
}
#else
{
construct(std::string(pVal));
}
#endif
Var::Var(const Var& other)
#ifdef POCO_NO_SOO
: _pHolder(other._pHolder ? other._pHolder->clone() : 0)
{
}
#else
{
if ((this != &other) && !other.isEmpty())
construct(other);
}
#endif
Var::~Var()
{
destruct();
}
Var& Var::operator = (const Var& rhs)
{
#ifdef POCO_NO_SOO
Var tmp(rhs);
swap(tmp);
#else
if ((this != &rhs) && !rhs.isEmpty())
construct(rhs);
else if ((this != &rhs) && rhs.isEmpty())
_placeholder.erase();
#endif
return *this;
}
const Var Var::operator + (const Var& other) const
{
if (isInteger())
{
if (isSigned())
return add<Poco::Int64>(other);
else
return add<Poco::UInt64>(other);
}
else if (isNumeric())
return add<double>(other);
else if (isString())
return add<std::string>(other);
else
throw InvalidArgumentException("Invalid operation for this data type.");
}
Var& Var::operator += (const Var& other)
{
if (isInteger())
{
if (isSigned())
return *this = add<Poco::Int64>(other);
else
return *this = add<Poco::UInt64>(other);
}
else if (isNumeric())
return *this = add<double>(other);
else if (isString())
return *this = add<std::string>(other);
else
throw InvalidArgumentException("Invalid operation for this data type.");
}
const Var Var::operator - (const Var& other) const
{
if (isInteger())
{
if (isSigned())
return subtract<Poco::Int64>(other);
else
return subtract<Poco::UInt64>(other);
}
else if (isNumeric())
return subtract<double>(other);
else
throw InvalidArgumentException("Invalid operation for this data type.");
}
Var& Var::operator -= (const Var& other)
{
if (isInteger())
{
if (isSigned())
return *this = subtract<Poco::Int64>(other);
else
return *this = subtract<Poco::UInt64>(other);
}
else if (isNumeric())
return *this = subtract<double>(other);
else
throw InvalidArgumentException("Invalid operation for this data type.");
}
const Var Var::operator * (const Var& other) const
{
if (isInteger())
{
if (isSigned())
return multiply<Poco::Int64>(other);
else
return multiply<Poco::UInt64>(other);
}
else if (isNumeric())
return multiply<double>(other);
else
throw InvalidArgumentException("Invalid operation for this data type.");
}
Var& Var::operator *= (const Var& other)
{
if (isInteger())
{
if (isSigned())
return *this = multiply<Poco::Int64>(other);
else
return *this = multiply<Poco::UInt64>(other);
}
else if (isNumeric())
return *this = multiply<double>(other);
else
throw InvalidArgumentException("Invalid operation for this data type.");
}
const Var Var::operator / (const Var& other) const
{
if (isInteger())
{
if (isSigned())
return divide<Poco::Int64>(other);
else
return divide<Poco::UInt64>(other);
}
else if (isNumeric())
return divide<double>(other);
else
throw InvalidArgumentException("Invalid operation for this data type.");
}
Var& Var::operator /= (const Var& other)
{
if (isInteger())
{
if (isSigned())
return *this = divide<Poco::Int64>(other);
else
return *this = divide<Poco::UInt64>(other);
}
else if (isNumeric())
return *this = divide<double>(other);
else
throw InvalidArgumentException("Invalid operation for this data type.");
}
Var& Var::operator ++ ()
{
if (!isInteger())
throw InvalidArgumentException("Invalid operation for this data type.");
return *this = *this + 1;
}
const Var Var::operator ++ (int)
{
if (!isInteger())
throw InvalidArgumentException("Invalid operation for this data type.");
Var tmp(*this);
*this += 1;
return tmp;
}
Var& Var::operator -- ()
{
if (!isInteger())
throw InvalidArgumentException("Invalid operation for this data type.");
return *this = *this - 1;
}
const Var Var::operator -- (int)
{
if (!isInteger())
throw InvalidArgumentException("Invalid operation for this data type.");
Var tmp(*this);
*this -= 1;
return tmp;
}
bool Var::operator == (const Var& other) const
{
if (isEmpty() != other.isEmpty()) return false;
if (isEmpty() && other.isEmpty()) return true;
return convert<std::string>() == other.convert<std::string>();
}
bool Var::operator == (const char* other) const
{
if (isEmpty()) return false;
return convert<std::string>() == other;
}
bool Var::operator != (const Var& other) const
{
if (isEmpty() && other.isEmpty()) return false;
else if (isEmpty() || other.isEmpty()) return true;
return convert<std::string>() != other.convert<std::string>();
}
bool Var::operator != (const char* other) const
{
if (isEmpty()) return true;
return convert<std::string>() != other;
}
bool Var::operator < (const Var& other) const
{
if (isEmpty() || other.isEmpty()) return false;
return convert<std::string>() < other.convert<std::string>();
}
bool Var::operator <= (const Var& other) const
{
if (isEmpty() || other.isEmpty()) return false;
return convert<std::string>() <= other.convert<std::string>();
}
bool Var::operator > (const Var& other) const
{
if (isEmpty() || other.isEmpty()) return false;
return convert<std::string>() > other.convert<std::string>();
}
bool Var::operator >= (const Var& other) const
{
if (isEmpty() || other.isEmpty()) return false;
return convert<std::string>() >= other.convert<std::string>();
}
bool Var::operator || (const Var& other) const
{
if (isEmpty() || other.isEmpty()) return false;
return convert<bool>() || other.convert<bool>();
}
bool Var::operator && (const Var& other) const
{
if (isEmpty() || other.isEmpty()) return false;
return convert<bool>() && other.convert<bool>();
}
void Var::empty()
{
#ifdef POCO_NO_SOO
delete _pHolder;
_pHolder = 0;
#else
if (_placeholder.isLocal()) this->~Var();
else delete content();
_placeholder.erase();
#endif
}
void Var::clear()
{
#ifdef POCO_NO_SOO
delete _pHolder;
_pHolder = 0;
#else
if (_placeholder.isLocal()) this->~Var();
else delete content();
_placeholder.erase();
#endif
}
Var& Var::getAt(std::size_t n)
{
if (isVector())
return holderImpl<std::vector<Var>,
InvalidAccessException>("Not a vector.")->operator[](n);
else if (isList())
return holderImpl<std::list<Var>,
InvalidAccessException>("Not a list.")->operator[](n);
else if (isDeque())
return holderImpl<std::deque<Var>,
InvalidAccessException>("Not a deque.")->operator[](n);
else if (isStruct())
return structIndexOperator(holderImpl<Struct<int>,
InvalidAccessException>("Not a struct."), static_cast<int>(n));
else if (!isString() && !isEmpty() && (n == 0))
return *this;
throw RangeException("Index out of bounds.");
}
char& Var::at(std::size_t n)
{
if (isString())
{
return holderImpl<std::string,
InvalidAccessException>("Not a string.")->operator[](n);
}
throw InvalidAccessException("Not a string.");
}
Var& Var::getAt(const std::string& name)
{
return holderImpl<DynamicStruct,
InvalidAccessException>("Not a struct.")->operator[](name);
}
Var Var::parse(const std::string& val)
{
std::string::size_type t = 0;
return parse(val, t);
}
Var Var::parse(const std::string& val, std::string::size_type& pos)
{
// { -> an Object==DynamicStruct
// [ -> an array
// '/" -> a string (strip '/")
// other: also treat as string
skipWhiteSpace(val, pos);
if (pos < val.size())
{
switch (val[pos])
{
case '{':
return parseObject(val, pos);
case '[':
return parseArray(val, pos);
case '"':
return parseJSONString(val, pos);
default:
{
std::string str = parseString(val, pos);
if (str == "false")
return false;
if (str == "true")
return true;
bool isNumber = false;
bool isSigned = false;
int separators = 0;
int frac = 0;
int index = 0;
size_t size = str.size();
for (size_t i = 0; i < size ; ++i)
{
int ch = str[i];
if ((ch == '-' || ch == '+') && index == 0)
{
if (ch == '-')
isSigned = true;
}
else if (Ascii::isDigit(ch))
{
isNumber |= true;
}
else if (ch == '.' || ch == ',')
{
frac = ch;
++separators;
if (separators > 1)
return str;
}
else
return str;
++index;
}
if (frac && isNumber)
{
const double number = NumberParser::parseFloat(str, frac);
return Var(number);
}
else if (frac == 0 && isNumber && isSigned)
{
const Poco::Int64 number = NumberParser::parse64(str);
return number;
}
else if (frac == 0 && isNumber && !isSigned)
{
const Poco::UInt64 number = NumberParser::parseUnsigned64(str);
return number;
}
return str;
}
}
}
std::string empty;
return empty;
}
Var Var::parseObject(const std::string& val, std::string::size_type& pos)
{
poco_assert_dbg (pos < val.size() && val[pos] == '{');
++pos;
skipWhiteSpace(val, pos);
DynamicStruct aStruct;
while (val[pos] != '}' && pos < val.size())
{
std::string key = parseString(val, pos);
skipWhiteSpace(val, pos);
if (val[pos] != ':')
throw DataFormatException("Incorrect object, must contain: key : value pairs");
++pos; // skip past :
Var value = parse(val, pos);
aStruct.insert(key, value);
skipWhiteSpace(val, pos);
if (val[pos] == ',')
{
++pos;
skipWhiteSpace(val, pos);
}
}
if (val[pos] != '}')
throw DataFormatException("Unterminated object");
++pos;
return aStruct;
}
Var Var::parseArray(const std::string& val, std::string::size_type& pos)
{
poco_assert_dbg (pos < val.size() && val[pos] == '[');
++pos;
skipWhiteSpace(val, pos);
std::vector<Var> result;
while (val[pos] != ']' && pos < val.size())
{
result.push_back(parse(val, pos));
skipWhiteSpace(val, pos);
if (val[pos] == ',')
{
++pos;
skipWhiteSpace(val, pos);
}
}
if (val[pos] != ']')
throw DataFormatException("Unterminated array");
++pos;
return result;
}
std::string Var::parseString(const std::string& val, std::string::size_type& pos)
{
poco_assert_dbg (pos < val.size());
if (val[pos] == '"')
{
return parseJSONString(val, pos);
}
else
{
std::string result;
while (pos < val.size()
&& !Poco::Ascii::isSpace(val[pos])
&& val[pos] != ','
&& val[pos] != ']'
&& val[pos] != '}')
{
result += val[pos++];
}
return result;
}
}
std::string Var::parseJSONString(const std::string& val, std::string::size_type& pos)
{
poco_assert_dbg (pos < val.size() && val[pos] == '"');
++pos;
std::string result;
bool done = false;
while (pos < val.size() && !done)
{
switch (val[pos])
{
case '"':
done = true;
++pos;
break;
case '\\':
if (pos < val.size())
{
++pos;
switch (val[pos])
{
case 'b':
result += '\b';
break;
case 'f':
result += '\f';
break;
case 'n':
result += '\n';
break;
case 'r':
result += '\r';
break;
case 't':
result += '\t';
break;
default:
result += val[pos];
break;
}
break;
}
else
{
result += val[pos];
}
++pos;
break;
default:
result += val[pos++];
break;
}
}
if (!done) throw Poco::DataFormatException("unterminated JSON string");
return result;
}
void Var::skipWhiteSpace(const std::string& val, std::string::size_type& pos)
{
poco_assert_dbg (pos < val.size());
while (std::isspace(val[pos]) && pos < val.size())
++pos;
}
std::string Var::toString(const Var& any)
{
std::string res;
Impl::appendJSONValue(res, any);
return res;
}
Var& Var::structIndexOperator(VarHolderImpl<Struct<int> >* pStr, int n) const
{
return pStr->operator[](n);
}
} } // namespace Poco::Dynamic
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