396 lines
9.8 KiB
C++
396 lines
9.8 KiB
C++
#include "ledger.h"
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#include "debug.h"
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#include <vector>
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#include <fstream>
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#include <sstream>
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#include <cstring>
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#include <ctime>
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#include <cctype>
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#include <sys/stat.h>
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#define TIMELOG_SUPPORT 1
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namespace ledger {
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static char buf[4096];
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unsigned long binary_magic_number = 0xFFEED765;
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static unsigned long format_version = 0x0002000a;
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static std::vector<account_t *> accounts;
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static account_t::ident_t ident;
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static std::vector<commodity_t *> commodities;
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static commodity_t::ident_t c_ident;
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#ifdef RELEASE_LEVEL >= ALPHA
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#define read_binary_guard(in, id) { \
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unsigned short guard; \
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in.read((char *)&guard, sizeof(guard)); \
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assert(guard == id); \
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}
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#else
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#define read_binary_guard(in, id)
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#endif
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template <typename T>
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inline void read_binary_number(std::istream& in, T& num) {
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in.read((char *)&num, sizeof(num));
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}
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template <typename T>
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inline T read_binary_number(std::istream& in) {
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T num;
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in.read((char *)&num, sizeof(num));
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return num;
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}
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inline void read_binary_string(std::istream& in, std::string& str)
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{
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read_binary_guard(in, 0x3001);
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unsigned char len;
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read_binary_number(in, len);
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if (len) {
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in.read(buf, len);
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buf[len] = '\0';
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str = buf;
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}
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read_binary_guard(in, 0x3002);
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}
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inline std::string read_binary_string(std::istream& in)
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{
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read_binary_guard(in, 0x3001);
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unsigned char len;
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read_binary_number(in, len);
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if (len) {
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in.read(buf, len);
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buf[len] = '\0';
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read_binary_guard(in, 0x3002);
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return buf;
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}
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read_binary_guard(in, 0x3002);
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return "";
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}
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void read_binary_amount(std::istream& in, amount_t& amt)
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{
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commodity_t::ident_t id;
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read_binary_number(in, id);
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if (id == 0xffff)
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amt.commodity = NULL;
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else
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amt.commodity = commodities[id];
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amt.read_quantity(in);
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}
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transaction_t * read_binary_transaction(std::istream& in, entry_t * entry)
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{
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transaction_t * xact = new transaction_t(entry, NULL);
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account_t::ident_t id;
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read_binary_number(in, id);
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xact->account = accounts[id];
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xact->account->add_transaction(xact);
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read_binary_amount(in, xact->amount);
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read_binary_amount(in, xact->cost);
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read_binary_number(in, xact->flags);
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read_binary_string(in, xact->note);
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return xact;
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}
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entry_t * read_binary_entry(std::istream& in, journal_t * journal)
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{
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entry_t * entry = new entry_t;
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read_binary_number(in, entry->date);
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read_binary_number(in, entry->state);
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read_binary_string(in, entry->code);
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read_binary_string(in, entry->payee);
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for (unsigned long i = 0, count = read_binary_number<unsigned long>(in);
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i < count;
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i++) {
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transaction_t * xact = read_binary_transaction(in, entry);
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entry->transactions.push_back(xact);
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}
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return entry;
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}
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commodity_t * read_binary_commodity(std::istream& in)
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{
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commodity_t * commodity = new commodity_t;
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commodities.push_back(commodity);
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commodity_t::ident_t id;
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read_binary_number(in, id);
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commodity->ident = id;
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assert(id == commodities.size() - 1);
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read_binary_string(in, commodity->symbol);
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read_binary_string(in, commodity->name);
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read_binary_string(in, commodity->note);
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read_binary_number(in, commodity->precision);
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read_binary_number(in, commodity->flags);
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for (unsigned long i = 0, count = read_binary_number<unsigned long>(in);
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i < count;
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i++) {
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std::time_t when;
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read_binary_number(in, when);
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amount_t amt;
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read_binary_amount(in, amt);
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commodity->history.insert(history_pair(when, amt));
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}
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read_binary_amount(in, commodity->conversion);
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return commodity;
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}
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account_t * read_binary_account(std::istream& in, account_t * master = NULL)
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{
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account_t * acct = new account_t(NULL);
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accounts.push_back(acct);
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account_t::ident_t id;
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read_binary_number(in, id);
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acct->ident = id;
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assert(id == accounts.size() - 1);
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read_binary_number(in, id); // parent id
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if (id == 0xffff)
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acct->parent = NULL;
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else
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acct->parent = accounts[id];
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read_binary_string(in, acct->name);
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read_binary_string(in, acct->note);
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read_binary_number(in, acct->depth);
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// If all of the subaccounts will be added to a different master
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// account, throw away what we've learned about the recorded
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// journal's own master account.
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if (master) {
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delete acct;
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acct = master;
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}
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for (account_t::ident_t i = 0,
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count = read_binary_number<account_t::ident_t>(in);
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i < count;
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i++) {
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account_t * child = read_binary_account(in);
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child->parent = acct;
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acct->add_account(child);
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}
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return acct;
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}
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unsigned int read_binary_journal(std::istream& in,
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journal_t * journal,
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account_t * master)
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{
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ident = 0;
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c_ident = 0;
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if (read_binary_number<unsigned long>(in) != binary_magic_number ||
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read_binary_number<unsigned long>(in) != format_version)
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return 0;
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for (unsigned short i = 0,
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count = read_binary_number<unsigned short>(in);
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i < count;
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i++) {
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std::string path = read_binary_string(in);
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std::time_t old_mtime;
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read_binary_number(in, old_mtime);
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struct stat info;
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stat(path.c_str(), &info);
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if (std::difftime(info.st_mtime, old_mtime) > 0)
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return 0;
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journal->sources.push_back(path);
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}
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journal->master = read_binary_account(in, master);
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for (account_t::ident_t i = 0,
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count = read_binary_number<account_t::ident_t>(in);
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i < count;
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i++) {
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commodity_t * commodity = read_binary_commodity(in);
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std::pair<commodities_map::iterator, bool> result
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= commodity_t::commodities.insert(commodities_pair(commodity->symbol,
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commodity));
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assert(result.second || master);
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}
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unsigned int count = read_binary_number<unsigned long>(in);
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for (unsigned long i = 0;
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i < count;
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i++) {
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entry_t * entry = read_binary_entry(in, journal);
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journal->entries.push_back(entry);
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}
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accounts.clear();
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commodities.clear();
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return count;
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}
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#ifdef RELEASE_LEVEL >= ALPHA
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#define write_binary_guard(in, id) { \
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unsigned short guard = id; \
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out.write((char *)&guard, sizeof(guard)); \
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}
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#else
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#define write_binary_guard(in, id)
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#endif
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template <typename T>
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inline void write_binary_number(std::ostream& out, T num) {
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out.write((char *)&num, sizeof(num));
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}
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inline void write_binary_string(std::ostream& out, const std::string& str)
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{
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write_binary_guard(out, 0x3001);
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unsigned char len = str.length();
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write_binary_number(out, len);
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if (len)
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out.write(str.c_str(), len);
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write_binary_guard(out, 0x3002);
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}
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void write_binary_amount(std::ostream& out, const amount_t& amt)
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{
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if (amt.commodity)
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write_binary_number(out, amt.commodity->ident);
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else
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write_binary_number<commodity_t::ident_t>(out, 0xffff);
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amt.write_quantity(out);
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}
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void write_binary_transaction(std::ostream& out, transaction_t * xact)
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{
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write_binary_number(out, xact->account->ident);
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write_binary_amount(out, xact->amount);
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write_binary_amount(out, xact->cost);
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write_binary_number(out, xact->flags);
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write_binary_string(out, xact->note);
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}
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void write_binary_entry(std::ostream& out, entry_t * entry)
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{
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write_binary_number(out, entry->date);
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write_binary_number(out, entry->state);
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write_binary_string(out, entry->code);
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write_binary_string(out, entry->payee);
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write_binary_number<unsigned long>(out, entry->transactions.size());
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for (transactions_list::const_iterator i = entry->transactions.begin();
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i != entry->transactions.end();
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i++)
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write_binary_transaction(out, *i);
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}
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void write_binary_commodity(std::ostream& out, commodity_t * commodity)
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{
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write_binary_number(out, c_ident);
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commodity->ident = c_ident;
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++c_ident;
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write_binary_string(out, commodity->symbol);
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write_binary_string(out, commodity->name);
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write_binary_string(out, commodity->note);
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write_binary_number(out, commodity->precision);
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write_binary_number(out, commodity->flags);
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write_binary_number<unsigned long>(out, commodity->history.size());
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for (history_map::const_iterator i = commodity->history.begin();
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i != commodity->history.end();
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i++) {
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write_binary_number(out, (*i).first);
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write_binary_amount(out, (*i).second);
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}
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write_binary_amount(out, commodity->conversion);
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}
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void write_binary_account(std::ostream& out, account_t * account)
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{
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write_binary_number(out, ident);
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account->ident = ident;
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++ident;
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if (account->parent)
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write_binary_number(out, account->parent->ident);
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else
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write_binary_number<account_t::ident_t>(out, 0xffff);
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write_binary_string(out, account->name);
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write_binary_string(out, account->note);
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write_binary_number(out, account->depth);
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write_binary_number<account_t::ident_t>(out, account->accounts.size());
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for (accounts_map::iterator i = account->accounts.begin();
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i != account->accounts.end();
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i++)
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write_binary_account(out, (*i).second);
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}
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void write_binary_journal(std::ostream& out, journal_t * journal,
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strings_list * files)
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{
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write_binary_number(out, binary_magic_number);
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write_binary_number(out, format_version);
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if (! files) {
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write_binary_number<unsigned short>(out, 0);
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} else {
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write_binary_number<unsigned short>(out, files->size());
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for (strings_list::const_iterator i = files->begin();
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i != files->end();
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i++) {
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write_binary_string(out, *i);
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struct stat info;
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stat((*i).c_str(), &info);
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write_binary_number(out, std::time_t(info.st_mtime));
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}
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}
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write_binary_account(out, journal->master);
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write_binary_number<commodity_t::ident_t>(out, commodity_t::commodities.size() - 1);
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for (commodities_map::const_iterator i = commodity_t::commodities.begin();
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i != commodity_t::commodities.end();
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i++)
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if (! (*i).first.empty())
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write_binary_commodity(out, (*i).second);
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write_binary_number<unsigned long>(out, journal->entries.size());
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for (entries_list::const_iterator i = journal->entries.begin();
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i != journal->entries.end();
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i++)
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write_binary_entry(out, *i);
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}
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} // namespace ledger
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