explorer/ext/minicsv.h
moneroexamples 98661d9b67 first commit
2016-04-06 14:53:37 +08:00

762 lines
15 KiB
C++

// The MIT License (MIT)
// Minimalistic CSV Streams 1.6
// Copyright (C) 2014, by Wong Shao Voon (shaovoon@yahoo.com)
//
// http://opensource.org/licenses/MIT
//
// version 1.2 : make use of make_shared
// version 1.3 : fixed: to when reading the last line and it does not have linefeed
// added: skip_1st_line and skip_line functions to ifstream class
// version 1.4 : Removed the use of smart ptr.
// version 1.5 : Performance increase on writing without flushing every line.
// version 1.6 : Add string streams
// version 1.7 : You MUST specify the escape/unescape string when calling set_delimiter. Option to surround/trim string with quotes
// version 1.7.1 : Add stream operator overload usage in example.cpp
// Disable the surround/trim quote on text by default
// version 1.7.2 : Stream operator overload for const char*
// version 1.7.3 : Add num_of_delimiter method to ifstream and istringstream
// Fix g++ compilation errors
// version 1.7.4 : Add get_rest_of_line
// version 1.7.5 : Add terminate_on_blank_line variable. Set to false if your file format has blank lines in between.
// version 1.7.6 : Ignore delimiters within quotes during reading when enable_trim_quote_on_str is true;
// version 1.7.7 : Fixed multiple symbol linkage errors
//#define USE_BOOST_LEXICAL_CAST
#ifndef MiniCSV_H
#define MiniCSV_H
#include <string>
#include <sstream>
#include <fstream>
#ifdef USE_BOOST_LEXICAL_CAST
# include <boost/lexical_cast.hpp>
#endif
#define NEWLINE '\n'
namespace csv
{
inline std::string const & replace(std::string & src, std::string const & to_find, std::string const & to_replace)
{
size_t pos = 0;
while (std::string::npos != pos)
{
pos = src.find(to_find, pos);
if (std::string::npos != pos)
{
src.erase(pos, to_find.size());
src.insert(pos, to_replace);
pos += to_replace.size();
}
}
return src;
}
inline std::string trim_right(const std::string& str, const std::string& trimChars)
{
std::string result = "";
size_t endpos = str.find_last_not_of(trimChars);
if (std::string::npos != endpos)
{
result = str.substr(0, endpos + 1);
}
else
result = str;
return result;
}
inline std::string trim_left(const std::string& str, const std::string& trimChars)
{
std::string result = "";
size_t startpos = str.find_first_not_of(trimChars);
if (std::string::npos != startpos)
{
result = str.substr(startpos);
}
else
result = str;
return result;
}
inline std::string trim(const std::string& str, const std::string& trimChars)
{
return trim_left(trim_right(str, trimChars), trimChars);
}
class ifstream
{
public:
ifstream() : str(""), pos(0), delimiter(","), unescape_str("##"), trim_quote_on_str(false), trim_quote('\"'), terminate_on_blank_line(true)
{
}
ifstream(const char * file)
{
open(file);
}
void open(const char * file)
{
init();
istm.open(file, std::ios_base::in);
}
void init()
{
str = "";
pos = 0;
delimiter = ',';
unescape_str = "##";
trim_quote_on_str = false;
trim_quote = '\"';
terminate_on_blank_line = true;
}
void close()
{
istm.close();
}
bool is_open()
{
return istm.is_open();
}
void enable_trim_quote_on_str(bool enable, char quote)
{
trim_quote_on_str = enable;
trim_quote = quote;
}
// eof is replaced by read_line
//bool eof() const
void set_delimiter(char delimiter_, std::string const & unescape_str_)
{
delimiter = delimiter_;
unescape_str = unescape_str_;
}
std::string const & get_delimiter() const
{
return delimiter;
}
std::string const & get_unescape_str() const
{
return unescape_str;
}
void skip_line()
{
if(!istm.eof())
{
std::getline(istm, str);
pos = 0;
}
}
bool read_line()
{
this->str = "";
while(!istm.eof())
{
std::getline(istm, this->str);
pos = 0;
if (this->str.empty())
{
if (terminate_on_blank_line)
break;
else
continue;
}
return true;
}
return false;
}
std::string get_delimited_str()
{
std::string str = "";
char ch = '\0';
bool within_quote = false;
do
{
if(pos>=this->str.size())
{
this->str = "";
return unescape(str);
}
ch = this->str[pos];
if (trim_quote_on_str)
{
if (within_quote == false && ch == trim_quote && ((pos > 0 && this->str[pos - 1] == delimiter[0]) || pos == 0))
within_quote = true;
else if (within_quote && ch == trim_quote)
within_quote = false;
}
++(pos);
if (ch == delimiter[0] && within_quote == false)
break;
if (ch == '\r' || ch == '\n')
break;
str += ch;
}
while(true);
return unescape(str);
}
std::string unescape(std::string & src)
{
src = unescape_str.empty() ? src : replace(src, unescape_str, delimiter);
return trim_quote_on_str ? trim(src, std::string(1, trim_quote)) : src;
}
size_t num_of_delimiter() const
{
if (delimiter.size() == 0)
return 0;
size_t cnt = 0;
for (size_t i = 0; i < str.size(); ++i)
{
if (str[i] == delimiter[0])
++cnt;
}
return cnt;
}
std::string get_rest_of_line() const
{
return str.substr(pos);
}
const std::string& get_line() const
{
return str;
}
void enable_terminate_on_blank_line(bool enable)
{
terminate_on_blank_line = enable;
}
bool is_terminate_on_blank_line() const
{
return terminate_on_blank_line;
}
private:
std::ifstream istm;
std::string str;
size_t pos;
std::string delimiter;
std::string unescape_str;
bool trim_quote_on_str;
char trim_quote;
bool terminate_on_blank_line;
};
class ofstream
{
public:
ofstream() : after_newline(true), delimiter(","), escape_str("##"), surround_quote_on_str(false), surround_quote('\"')
{
}
ofstream(const char * file)
{
open(file);
}
void open(const char * file)
{
init();
ostm.open(file, std::ios_base::out);
}
void init()
{
after_newline = true;
delimiter = ',';
escape_str = "##";
surround_quote_on_str = false;
surround_quote = '\"';
}
void flush()
{
ostm.flush();
}
void close()
{
ostm.close();
}
bool is_open()
{
return ostm.is_open();
}
void enable_surround_quote_on_str(bool enable, char quote)
{
surround_quote_on_str = enable;
surround_quote = quote;
}
void set_delimiter(char delimiter_, std::string const & escape_str_)
{
delimiter = delimiter_;
escape_str = escape_str_;
}
std::string const & get_delimiter() const
{
return delimiter;
}
std::string const & get_escape_str() const
{
return escape_str;
}
void set_after_newline(bool after_newline_)
{
after_newline = after_newline_;
}
bool get_after_newline() const
{
return after_newline;
}
std::ofstream& get_ofstream()
{
return ostm;
}
void escape_and_output(std::string src)
{
ostm << ((escape_str.empty()) ? src : replace(src, delimiter, escape_str));
}
void escape_str_and_output(std::string src)
{
src = ((escape_str.empty()) ? src : replace(src, delimiter, escape_str));
if (surround_quote_on_str)
{
ostm << surround_quote << src << surround_quote;
}
else
{
ostm << src;
}
}
private:
std::ofstream ostm;
bool after_newline;
std::string delimiter;
std::string escape_str;
bool surround_quote_on_str;
char surround_quote;
};
} // ns csv
template<typename T>
csv::ifstream& operator >> (csv::ifstream& istm, T& val)
{
std::string str = istm.get_delimited_str();
#ifdef USE_BOOST_LEXICAL_CAST
val = boost::lexical_cast<T>(str);
#else
std::istringstream is(str);
is >> val;
#endif
return istm;
}
template<>
inline csv::ifstream& operator >> (csv::ifstream& istm, std::string& val)
{
val = istm.get_delimited_str();
return istm;
}
template<typename T>
csv::ofstream& operator << (csv::ofstream& ostm, const T& val)
{
if(!ostm.get_after_newline())
ostm.get_ofstream() << ostm.get_delimiter();
std::ostringstream os_temp;
os_temp << val;
ostm.escape_and_output(os_temp.str());
ostm.set_after_newline(false);
return ostm;
}
template<typename T>
csv::ofstream& operator << (csv::ofstream& ostm, const T* val)
{
if (!ostm.get_after_newline())
ostm.get_ofstream() << ostm.get_delimiter();
std::ostringstream os_temp;
os_temp << *val;
ostm.escape_and_output(os_temp.str());
ostm.set_after_newline(false);
return ostm;
}
template<>
inline csv::ofstream& operator << (csv::ofstream& ostm, const std::string& val)
{
if (!ostm.get_after_newline())
ostm.get_ofstream() << ostm.get_delimiter();
std::string temp = val;
ostm.escape_str_and_output(temp);
ostm.set_after_newline(false);
return ostm;
}
template<>
inline csv::ofstream& operator << (csv::ofstream& ostm, const char& val)
{
if(val==NEWLINE)
{
ostm.get_ofstream() << NEWLINE;
ostm.set_after_newline(true);
}
else
{
std::ostringstream os_temp;
os_temp << val;
ostm.escape_and_output(os_temp.str());
}
return ostm;
}
template<>
inline csv::ofstream& operator << (csv::ofstream& ostm, const char* val)
{
const std::string temp = val;
ostm << temp;
return ostm;
}
namespace csv
{
class istringstream
{
public:
istringstream(const char * text)
: str("")
, pos(0)
, delimiter(",")
, unescape_str("##")
, trim_quote_on_str(false)
, trim_quote('\"')
, terminate_on_blank_line(true)
{
istm.str(text);
}
void enable_trim_quote_on_str(bool enable, char quote)
{
trim_quote_on_str = enable;
trim_quote = quote;
}
void set_delimiter(char delimiter_, std::string const & unescape_str_)
{
delimiter = delimiter_;
unescape_str = unescape_str_;
}
std::string const & get_delimiter() const
{
return delimiter;
}
std::string const & get_unescape_str() const
{
return unescape_str;
}
void skip_line()
{
std::getline(istm, str);
pos = 0;
}
bool read_line()
{
this->str = "";
while (!istm.eof())
{
std::getline(istm, this->str);
pos = 0;
if (this->str.empty())
{
if (terminate_on_blank_line)
break;
else
continue;
}
return true;
}
return false;
return false;
}
std::string get_delimited_str()
{
std::string str = "";
char ch = '\0';
bool within_quote = false;
do
{
if (pos >= this->str.size())
{
this->str = "";
return unescape(str);
}
ch = this->str[pos];
if (trim_quote_on_str)
{
if (within_quote == false && ch == trim_quote && ((pos > 0 && this->str[pos - 1] == delimiter[0]) || pos == 0))
within_quote = true;
else if (within_quote && ch == trim_quote)
within_quote = false;
}
++(pos);
if (ch == delimiter[0] && within_quote == false)
break;
if (ch == '\r' || ch == '\n')
break;
str += ch;
} while (true);
return unescape(str);
}
std::string unescape(std::string & src)
{
src = unescape_str.empty() ? src : replace(src, unescape_str, delimiter);
return trim_quote_on_str ? trim(src, std::string(1, trim_quote)) : src;
}
size_t num_of_delimiter() const
{
if (delimiter.size() == 0)
return 0;
size_t cnt = 0;
for (size_t i = 0; i < str.size(); ++i)
{
if (str[i] == delimiter[0])
++cnt;
}
return cnt;
}
std::string get_rest_of_line() const
{
return str.substr(pos);
}
const std::string& get_line() const
{
return str;
}
void enable_terminate_on_blank_line(bool enable)
{
terminate_on_blank_line = enable;
}
bool is_terminate_on_blank_line() const
{
return terminate_on_blank_line;
}
private:
std::istringstream istm;
std::string str;
size_t pos;
std::string delimiter;
std::string unescape_str;
bool trim_quote_on_str;
char trim_quote;
bool terminate_on_blank_line;
};
class ostringstream
{
public:
ostringstream() : after_newline(true), delimiter(","), escape_str("##"), surround_quote_on_str(false), surround_quote('\"')
{
}
void enable_surround_quote_on_str(bool enable, char quote)
{
surround_quote_on_str = enable;
surround_quote = quote;
}
void set_delimiter(char delimiter_, std::string const & escape_str_)
{
delimiter = delimiter_;
escape_str = escape_str_;
}
std::string const & get_delimiter() const
{
return delimiter;
}
std::string const & get_escape_str() const
{
return escape_str;
}
void set_after_newline(bool after_newline_)
{
after_newline = after_newline_;
}
bool get_after_newline() const
{
return after_newline;
}
std::ostringstream& get_ostringstream()
{
return ostm;
}
std::string get_text()
{
return ostm.str();
}
void escape_and_output(std::string src)
{
ostm << ((escape_str.empty()) ? src : replace(src, delimiter, escape_str));
}
void escape_str_and_output(std::string src)
{
src = ((escape_str.empty()) ? src : replace(src, delimiter, escape_str));
if (surround_quote_on_str)
{
ostm << surround_quote << src << surround_quote;
}
else
{
ostm << src;
}
}
private:
std::ostringstream ostm;
bool after_newline;
std::string delimiter;
std::string escape_str;
bool surround_quote_on_str;
char surround_quote;
};
} // ns csv
template<typename T>
csv::istringstream& operator >> (csv::istringstream& istm, T& val)
{
std::string str = istm.get_delimited_str();
#ifdef USE_BOOST_LEXICAL_CAST
val = boost::lexical_cast<T>(str);
#else
std::istringstream is(str);
is >> val;
#endif
return istm;
}
template<>
inline csv::istringstream& operator >> (csv::istringstream& istm, std::string& val)
{
val = istm.get_delimited_str();
return istm;
}
template<typename T>
csv::ostringstream& operator << (csv::ostringstream& ostm, const T& val)
{
if (!ostm.get_after_newline())
ostm.get_ostringstream() << ostm.get_delimiter();
std::ostringstream os_temp;
os_temp << val;
ostm.escape_and_output(os_temp.str());
ostm.set_after_newline(false);
return ostm;
}
template<typename T>
csv::ostringstream& operator << (csv::ostringstream& ostm, const T* val)
{
if (!ostm.get_after_newline())
ostm.get_ostringstream() << ostm.get_delimiter();
std::ostringstream os_temp;
os_temp << val;
ostm.escape_and_output(os_temp.str());
ostm.set_after_newline(false);
return ostm;
}
template<>
inline csv::ostringstream& operator << (csv::ostringstream& ostm, const std::string& val)
{
if (!ostm.get_after_newline())
ostm.get_ostringstream() << ostm.get_delimiter();
std::string temp = val;
ostm.escape_str_and_output(temp);
ostm.set_after_newline(false);
return ostm;
}
template<>
inline csv::ostringstream& operator << (csv::ostringstream& ostm, const char& val)
{
if (val == NEWLINE)
{
ostm.get_ostringstream() << NEWLINE;
ostm.set_after_newline(true);
}
else
{
std::ostringstream os_temp;
os_temp << val;
ostm.escape_and_output(os_temp.str());
}
return ostm;
}
template<>
inline csv::ostringstream& operator << (csv::ostringstream& ostm, const char* val)
{
const std::string temp = val;
ostm << temp;
return ostm;
}
#endif // MiniCSV_H