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#ifndef _LEDGER_H
#define _LEDGER_H "$Revision: 1.27 $"
//////////////////////////////////////////////////////////////////////
//
// Ledger Accounting Tool
//
// A command-line tool for general double-entry accounting.
//
// Copyright (c) 2003 John Wiegley <johnw@newartisans.com>
//
#include <iostream>
#include <string>
#include <vector>
#include <list>
#include <map>
#include <ctime>
#ifdef DEBUG
#include <cassert>
#else
#define assert(x)
#endif
#include <pcre.h> // Perl regular expression library
namespace ledger {
class amount;
class commodity
{
commodity(const commodity&);
public:
std::string name;
std::string symbol;
mutable amount * price; // the current price
bool prefix;
bool separate;
bool thousands;
bool european;
int precision;
explicit commodity() : price(NULL), prefix(false), separate(true),
thousands(false), european(false) {}
explicit commodity(const std::string& sym, bool pre = false,
bool sep = true, bool thou = true,
bool euro = false, int prec = 2);
~commodity();
};
typedef std::map<const std::string, commodity *> commodities_map;
typedef commodities_map::iterator commodities_map_iterator;
typedef std::pair<const std::string, commodity *> commodities_map_pair;
class amount
{
public:
virtual ~amount() {}
virtual commodity * commdty() const = 0;
virtual void set_commdty(commodity *) = 0;
virtual amount * copy() const = 0;
virtual amount * value(amount * pr = NULL) const = 0;
virtual amount * street(bool get_quotes) const = 0;
virtual bool has_price() const = 0;
virtual void set_value(const amount * pr) = 0;
// Test if the quantity is zero
virtual bool is_zero() const = 0;
// Assignment
virtual void credit(const amount * other) = 0;
virtual void negate() = 0;
// String conversion routines
virtual void parse(const std::string& num) = 0;
virtual const std::string as_str(bool full_prec = false) const = 0;
};
extern amount * create_amount(const std::string& value,
const amount * cost = NULL);
class mask
{
public:
bool exclude;
std::string pattern;
pcre * regexp;
explicit mask(const std::string& pattern);
mask(const mask&);
~mask() {
pcre_free(regexp);
}
bool match(const std::string& str) const;
};
typedef std::list<mask> regexps_map;
typedef std::list<mask>::iterator regexps_map_iterator;
typedef std::list<mask>::const_iterator regexps_map_const_iterator;
void record_regexp(const std::string& pattern, regexps_map& regexps);
void read_regexps(const std::string& path, regexps_map& regexps);
bool matches(const regexps_map& regexps, const std::string& str,
bool * by_exclusion = NULL);
class account;
class transaction
{
transaction(const transaction&);
public:
account * acct;
amount * cost;
std::string note;
bool is_virtual;
bool must_balance;
bool specified;
explicit transaction(account * _acct = NULL, amount * _cost = NULL)
: acct(_acct), cost(_cost),
is_virtual(false), must_balance(true), specified(false) {}
~transaction() {
if (cost)
delete cost;
}
const std::string acct_as_str() const;
void print(std::ostream& out, bool display_quantity = true,
bool display_price = true) const;
};
class book;
class entry
{
entry(const entry&);
public:
book * ledger;
std::time_t date;
std::string code;
std::string desc;
bool cleared;
std::list<transaction *> xacts;
explicit entry(book * l) : ledger(l), cleared(false) {}
// If we're running as a command-line tool, it's cheaper to just
// throw away the heap on exit, than spend time freeing things up
// like a good citizen.
~entry() {
for (std::list<transaction *>::iterator i = xacts.begin();
i != xacts.end();
i++) {
delete *i;
}
}
bool matches(const regexps_map& regexps) const;
bool validate(bool show_unaccounted = false) const;
bool finalize(bool do_compute = false);
void print(std::ostream& out, bool shortcut = true) const;
};
struct cmp_entry_date {
bool operator()(const entry * left, const entry * right) {
return std::difftime(left->date, right->date) < 0;
}
};
typedef std::vector<entry *> entries_list;
typedef entries_list::iterator entries_list_iterator;
typedef entries_list::reverse_iterator entries_list_reverse_iterator;
typedef entries_list::const_iterator entries_list_const_iterator;
class totals
{
totals(const totals&);
public:
typedef std::map<commodity *, amount *> map;
typedef map::iterator iterator;
typedef map::const_iterator const_iterator;
typedef std::pair<commodity *, amount *> pair;
map amounts;
totals() {}
~totals();
void credit(const amount * val);
void credit(const totals& other);
bool is_zero() const;
void print(std::ostream& out, int width) const;
};
typedef std::map<const std::string, account *> accounts_map;
typedef accounts_map::iterator accounts_map_iterator;
typedef std::pair<const std::string, account *> accounts_map_pair;
class account
{
account(const account&);
public:
account * parent;
std::string name;
#ifdef READ_GNUCASH
commodity * comm; // default commodity for this account
#endif
totals balance; // optional, parse-time computed balance
int checked; // 'balance' uses this for speed's sake
accounts_map children;
mutable std::string full_name;
explicit account() : parent(NULL), checked(0) {}
explicit account(const std::string& _name,
struct account * _parent = NULL)
: parent(_parent), name(_name), checked(0) {}
~account();
const std::string as_str() const;
};
class book
{
book(const book&);
public:
typedef std::map<regexps_map *,
std::list<transaction *> *> virtual_map;
typedef std::pair<regexps_map *,
std::list<transaction *> *> virtual_map_pair;
typedef virtual_map::const_iterator virtual_map_iterator;
commodities_map commodities;
accounts_map accounts;
accounts_map accounts_cache; // maps full names to accounts
virtual_map virtual_mapping;
entries_list entries;
int current_year;
book() {}
~book();
template<typename Compare>
void sort(Compare comp) {
std::sort(entries.begin(), entries.end(), comp);
}
void print(std::ostream& out, regexps_map& regexps, bool shortcut) const;
account * re_find_account(const std::string& regex);
account * find_account(const std::string& name, bool create = true);
};
extern book * main_ledger;
inline commodity::commodity(const std::string& sym, bool pre, bool sep,
bool thou, bool euro, int prec)
: symbol(sym), price(NULL), prefix(pre), separate(sep),
thousands(thou), european(euro), precision(prec) {
std::pair<commodities_map_iterator, bool> result =
main_ledger->commodities.insert(commodities_map_pair(sym, this));
assert(result.second);
}
// Parsing routines
extern book * parse_ledger(std::istream& in, regexps_map& regexps,
bool compute_balances);
#ifdef READ_GNUCASH
extern book * parse_gnucash(std::istream& in, bool compute_balances);
#endif
extern bool parse_date_mask(const char * date_str,
struct std::tm * result);
extern bool parse_date(const char * date_str, std::time_t * result,
const int year = -1);
extern void parse_price_setting(const std::string& setting);
} // namespace ledger
#endif // _LEDGER_H
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