#!/usr/bin/perl -w

#
#   beancounter --- A stock portfolio performance monitoring tool
#
#   Copyright (C) 1998 - 2006  Dirk Eddelbuettel <edd@debian.org>
#
#   This program is free software; you can redistribute it and/or modify
#   it under the terms of the GNU General Public License as published by
#   the Free Software Foundation; either version 2 of the License, or
#   (at your option) any later version.
#
#   This program is distributed in the hope that it will be useful,
#   but WITHOUT ANY WARRANTY; without even the implied warranty of
#   MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
#   GNU General Public License for more details.
#
#   You should have received a copy of the GNU General Public License
#   along with this program; if not, write to the Free Software
#   Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.

#   $Id: beancounter,v 1.87 2006/03/08 03:55:29 edd Exp $

# adjust @INC to let the current development version be found first
BEGIN { @INC = ( ".", @INC ) }
use strict;			# be careful out there, son
use Date::Manip;		# general date parsing / calcs
use English;			# explicit variable names
use Getopt::Long;		# long options
use vars qw($help $debug $verbose $fxarg $datearg $prevdatearg 
	    $rcfile $sqlrestriction $extrafx $updatedate
	    $dbsystem $dbname $fxupdate $commit $equityupdate
	    $hostarg $ubcfx $splitby);

use Finance::BeanCounter;	# beancounter functions

my $rcsversion = sprintf("%d.%d", q$Revision: 1.87 $ =~ /(\d+)\.(\d+)/); 

my $version = "0.8.6";		# updated from the debian/rules Makefile
my $db_min_schema = "0.6.0";	# minimum version of the database that we need
my $date =			# inner expression below is updated by RCS
  sprintf("%s", q$Date: 2006/03/08 03:55:29 $ =~ /\w*: (\d*\/\d*\/\d*)/);

my $rcfile = $ENV{HOME} . "/.beancounterrc";

($prevdatearg, $datearg, $equityupdate, $fxupdate, $commit, 
 $ubcfx, $splitby, $hostarg) = 
    ("6 month ago", "today", 1, 1, 1, 0, 2, "localhost");

my %options = ("help" 		=> \$help,
	       "debug"		=> \$debug,
	       "currency=s"	=> \$fxarg,
	       "date=s"		=> \$datearg,
	       "prevdate=s"	=> \$prevdatearg,
	       "restriction=s"	=> \$sqlrestriction,
	       "dbsystem=s"	=> \$dbsystem,
	       "dbname=s"	=> \$dbname,
	       "extrafx=s"	=> \$extrafx,
	       "rcfile=s"	=> \$rcfile,
	       "commit!"	=> \$commit,
	       "forceupdate=s"	=> \$updatedate,
	       "fxupdate!"	=> \$fxupdate,
	       "equityupdate!"	=> \$equityupdate,
	       "splitby=s"	=> \$splitby,
	       "host=s"		=> \$hostarg,
	       "ubcfx!"		=> \$ubcfx,
	       "verbose"	=> \$verbose);

help_and_exit() if (!GetOptions(%options) or $help or $#ARGV < 0);
$OUTPUT_AUTOFLUSH = 1;

my $command = shift @ARGV;

my %Config = GetConfig($rcfile, $debug, $verbose, $fxarg,
		       $extrafx, $updatedate, $dbsystem, $dbname, 
		       $fxupdate, $commit, $equityupdate, $ubcfx,
		       $hostarg, $command);

my $dbh = ConnectToDb();

if (TestInsufficientDatabaseSchema($dbh, $db_min_schema)) {
  warn "Database schema is not current. Please run 'update_beancounter'\n";
} elsif (!ParseDate($datearg)) {
  warn "Please correct the invalid --date argument $datearg.\n";
} elsif (!ParseDate($prevdatearg)) {
  warn "Please correct the invalid --prevdate argument $prevdatearg.\n";
} else {
  if ($command =~ /^plreport$/) {
    portfolio_report($sqlrestriction);
  } elsif ($command =~ /^backpopulate$/) {
    backpopulate(@ARGV);
  } elsif ($command =~ /^fxbackpopulate$/) {
    fxbackpopulate(@ARGV);
  } elsif ($command =~ /^addindex$/) {
    add_index(@ARGV);
  } elsif ($command =~ /^addstock$/) {
    add_stock(@ARGV);
  } elsif ($command =~ /^addportfolio$/) {
    add_portfolio(@ARGV);
  } elsif ($command =~ /^advancement$/) {
    portfolio_retracement($sqlrestriction, "advance");
  } elsif ($command =~ /^allreports$/) {
    day_end_report($sqlrestriction);
    portfolio_status($sqlrestriction);
    portfolio_risk($sqlrestriction);
    portfolio_retracement($sqlrestriction, "advance");
    portfolio_retracement($sqlrestriction, "retrace");
  } elsif ($command =~ /^dayendreport$/) {
    day_end_report($sqlrestriction);
  } elsif ($command =~ /^dailyjob$/) {
    portfolio_update($sqlrestriction);
    day_end_report($sqlrestriction);
    portfolio_status($sqlrestriction);
    portfolio_risk($sqlrestriction);
  } elsif ($command =~ /^delete$/) {
    delete_stock(@ARGV);
  } elsif ($command =~ /^destroydb$/) {
    deletedb(@ARGV);		# does not return
  } elsif ($command =~ /^quote$/) {
    quote(@ARGV);
  } elsif ($command =~ /^retracement$/) {
    portfolio_retracement($sqlrestriction, "retrace");
  } elsif ($command =~ /^risk$/) {
    portfolio_risk($sqlrestriction);
  } elsif ($command =~ /^status$/) {
    portfolio_status($sqlrestriction);
  } elsif ($command =~ /^update$/) {
    portfolio_update($sqlrestriction);
  } elsif ($command =~ /^lsportfolio$/) {
    lsportfolio($sqlrestriction);
  } elsif ($command =~ /^lspositions$/) {
    lspositions($sqlrestriction);
  } elsif ($command =~ /^deactivate$/) {
    inactive_stock(@ARGV);
  } elsif ($command =~ /^split$/) {
    split_stock(@ARGV);
  } elsif ($command =~ /^checkdbconnection$/) {
    CloseDB($dbh) or die("Cannot close db handle!\n");
    print "Successfully connected to database from beancounter script.\n"
	if $Config{debug};
    exit 1;
  } elsif ($command =~ /^warranty$/) {
    warranty();
  } else {
    warn "Ignoring unknown command '$command'\n";
  }
}

CloseDB($dbh);

exit 0;

# ---------------------- local functions ------------------------------------

sub help_and_exit {
  my $pmVersion = BeanCounterVersion;
  print STDERR "
beancounter -- A stock portfolio performance monitoring tool

beancounter version $version (RCS $rcsversion and $pmVersion) of $date
Copyright (C) 1998 - 2006 by Dirk Eddelbuettel <edd\@debian.org>
beancounter comes with ABSOLUTELY NO WARRANTY. This is free software, 
and you are welcome to redistribute it under certain conditions. 
Please try '$PROGRAM_NAME warranty' for more details, or visit the
website at   http://www.gnu.org/philosophy/free-sw.html 

Usage:
    beancounter [options] command [args]

Commands:
    addindex index symbol1 [symbol2 [...]]	        
				add stock(s) to market index 'index' 
    addportfolio symbol:nb:fx[:type:owner:price:date] [...]	
                                add n stock of s in currency fx to portfolio
				optional type, owner, purchase price and
                                purch. date can also be given (see example)
    addstock symbol ...		add stock(s) to database 
    advancement  	        report unrealized gains from lows
    allreports			combines, dayendreport, status and risk
    backpopulate  symbol ...	fill with historic data for given stock(s)
    checkdbconnection		test if connection to db can be established
    fxbackpopulate  symbol ...	fill with historic data for currency(ies)
    dailyjob			combines update, dayendreport, status + risk
    dayendreport		reports changes relative to the previous day
    deactivate symbol ...       set stock(s) inactive in stockinfo table
    delete arg ...		delete given stock(s) from database
    destroydb			delete the BeanCounter database
    lsportfolio                 list portfolio data
    plreport			p/l portfolio report against any other day
    retracement			report unreal. losses from highs (drawdowns)
    quote arg ...		report current data for given stock(s)
    risk			display a portfolio risk report 
    split arg ...               split-adjust price history and portfolio
    status			status report for a given date
    update			update the database with current day's data
    warranty			display short GNU GPL statement

Options:
    --help			show this help
    --verbose			more verbose operation, mostly for debugging
    --date date			use this as reference date for selected report
    --prevdate date		use this as the previous reference date
    --currency fx		use fx as the home currency
    --restriction sql		impose this SQL restriction
    --extrafx fx1,fx2           additional currencies to load
    --forceupdate date		force db to store new price info with date
    --[no]fxupdate 		enforce/suppress FX update [fxupdate]
    --[no]commit	        enforce/suppress database update [commit]
    --[no]equityupdate 		enforce/suppress Equity update, [update]
    --[no]ubcfx 		use/skip FX from UBC's Sauder school [skip]
    --splitby arg               split stock history + position by factor [2]
    --rcfile file		use different configuration file
    --dbsystem system		use db backend system, default is PostgreSQL
    --dbname name		use db name, default is beancounter

Examples:
    beancounter update --forceupdate today
    beancounter addportfolio SUNW:100:USD:401k:joe:14.10:20011205 VOD.L:50:GBP
    beancounter addstock CBOT LNUX RHAT COR.TO
    beancounter backpopulate MSFT SUNW --prevdate 19940101 --date 19981231
    beancounter fxbackpopulate EUR --prevdate 20010101 --date yesterday
    beancounter dayendreport --restriction \"type = '401k'\"
    beancounter status --date 20000816 --restriction \"currency='USD'\"
    beancounter split --splitby 3 --prevdate 1990-01-01 ABC CDE

\n";
  exit 1;
}

sub warranty {
  my $BeanCounterVersion = BeanCounterVersion;
  open (FILE, "< $PROGRAM_NAME");
  my $over = 0;			# have we already had comment lines?
  while (<FILE>) {		# show header
    last if (m/\$Id/);		# quit if we reach the RCS code
    next unless (m/^\#\s+/ or $over);
    $over = 1;			# note the new state
    $ARG =~ s/^\#//;		# minus the leading '#'
    print STDERR $ARG;
  }
  close(FILE);
  print STDERR "   beancounter version $version ($BeanCounterVersion) as of $date\n\n";
}

sub build_lines {
  my $len = shift;
  my $tl = "=" x $len;		# thick line
  my $fl = "-" x $len;		# fine line
  return ($tl,$fl);
}

sub display_report {
  my ($pretty_date, $pretty_prev_date, $prices, $prev_prices,
      $fx_prices, $prev_fx_prices, $shares, $fx, $pricedate) = @_;
  my ($tl,$fl) = build_lines(79);

  print "$tl\n" . "Profit / loss\t\t  from $pretty_prev_date" .
    "\tto $pretty_date  abs, rel change" . "\n$fl\n";
  my (%value, %value_prev);
  foreach my $key (sort keys %$shares) {
    my ($name,$count) = split /:/, $key;
    if (Date_Cmp($pricedate->{$name}, $Config{lastbizday}) != 0) {
      $value{$name} += $shares->{$key} * $prices->{$name} 
	* $fx_prices->{$fx->{$name}} / $fx_prices->{$Config{currency}};
      $value_prev{$name} += $shares->{$key} * $prices->{$name} 
	* $fx_prices->{$fx->{$name}}/$fx_prices->{$Config{currency}};
    } elsif ( defined($prev_prices->{$name}) ) {
      $value{$name} += $shares->{$key} * $prices->{$name} 
	* $fx_prices->{$fx->{$name}} / $fx_prices->{$Config{currency}};
      $value_prev{$name} += $shares->{$key} * $prev_prices->{$name} 
	* $prev_fx_prices->{$fx->{$name}}/$prev_fx_prices->{$Config{currency}};
    } else {
      $value{$name} += $shares->{$key} * $prices->{$name}
	* $fx_prices->{$fx->{$name}} / $fx_prices->{$Config{currency}};
      $value_prev{$name} += $shares->{$key}
	* $prev_fx_prices->{$fx->{$name}}/$prev_fx_prices->{$Config{currency}};
    }
  }
  my ($assets, $assets_prev) = (0,0);
  foreach my $name (sort keys %value) {
    my $value = $value{$name};
    my $value_prev = $value_prev{$name};
    print "$name $value_prev\n" if $Config{verbose};
    if (Date_Cmp($pricedate->{$name}, $Config{lastbizday}) != 0) {
      printf("%*s %3s %19s %10.2f %8.2f\n", 
	     -18, substr($name,0,17), $fx->{$name}, 
	     " (from $pricedate->{$name})",
	     $value, $prices->{$name}); 
    } elsif ( ($value_prev == 0) || (!defined($prev_prices->{$name})) ) {
      printf("%*s %3s %20s %10.2f %8.2f %8.2f %7s\n", 
	     -18, substr($name,0,17), $Config{currency}, 
	     "(no price available)",
	     $value, $prices->{$name}, 
	     $value-$value_prev, 
	     "N/A"); 
    } else {
      printf("%*s %3s %10.2f %8.2f %10.2f %8.2f %8.2f %6.2f%%\n", 
	     -18, substr($name,0,17), $Config{currency}, 
	     $value_prev, $prev_prices->{$name},
	     $value, $prices->{$name}, 
	     $value-$value_prev, 
	     100*($value/$value_prev-1)*Sign($value)); 
    }
    $assets += $value;
    $assets_prev += $value_prev;
  }
  print "$fl\n";
  printf("%-16s   %3s %10.2f          %10.2f      %12.2f %6.2f%%\n", 
	 "Grand Total",  $Config{currency}, $assets_prev, $assets, 
	 $assets-$assets_prev, 100*($assets/$assets_prev-1));
  print "$tl\n";
}

sub display_status {
  my ($date, $pretty_date, $prices, $pricedates, $fx_prices, $shares, $fx,
      $cost, $pdate, $cash) = @_;

  my ($tl,$fl) = build_lines(79);
  print "$tl\n" . "\t\t\tPortfolio Status on $pretty_date\n$fl\n";
  printf("%*s %6s %14s %16s %11s %9s\n%s\n",
	 -18, "Name", "Shares", "Close", "Position", "Held", 
	 "Return", $fl);
  my (%value, %totalshares);
  foreach my $key (sort keys %$shares) {
    my ($name,$count) = split /:/, $key;
    $value{$name} += $shares->{$key} * $prices->{$name} 
      * $fx_prices->{$fx->{$name}} / $fx_prices->{$Config{currency}};
    $totalshares{$name} += $shares->{$key};
  }
  my ($assets,$weightedreturn,$assetbase) = (0,0,0);
  foreach my $name (sort keys %value) {
    my $value = $value{$name};
    my ($daysheld,$return) = ("", "");
    if (defined($pdate->{$name})) { # if we have a purchase date
      $daysheld = Delta_Format(DateCalc($pdate->{$name}, $date,
					undef, 2), 0, "%dt");
      if (defined($cost->{$name}) and $daysheld >= 0) {
 	$return = ($prices->{$name} / $cost->{$name} - 1) 
	  * 100 * Sign($totalshares{$name});
 	# annualise if held longer than > 1 year
	$return *= 365 / $daysheld if ($daysheld > 365);
	# weigh returns by the invested amount, not the current value
	# NB this omits possible changes in the FX rate
	my $invested = $value / $prices->{$name} * $cost->{$name};
	$weightedreturn += $return * $invested;
	$assetbase += $invested;
      }
    }
    printf("%*s %6d   %3s %8.2f   %3s %10.2f  %s %s\n", 
	   -18, substr($name,0,17), 
	   $totalshares{$name},  
	   $fx->{$name}, 
	   $prices->{$name},
	   $Config{currency}, 
	   $value,
	   $daysheld ne "" ? sprintf("%5d days", $daysheld) : $daysheld, 
	   $return ne ""   ? sprintf("%8.1f%%", $return) : $return);
    $assets += $value;
  }

  foreach my $name (sort keys %{$cash}) { # cash part
    my $value = $cash->{$name}{value} * $fx_prices->{$cash->{$name}{fx}} 
      / $fx_prices->{$Config{currency}}; # adjust for FX
    $assets += $value;
    $assetbase += $value;

    printf("%*s %s %3s %10.2f\n", 
	   -16, substr($name,0,16), " " x 25,
	   $Config{currency},
	   $value,
	  );
  }

  print "$fl\n";
  printf("%-16s %29s %10.2f %20s\n", 
	 "Grand Total",  $Config{currency}, $assets, 
	 $assetbase ? sprintf("%20.2f%%",$weightedreturn/$assetbase) : "NaN");
  print "$fl\n";
  print "Returns are annualized if the holding period exceeds one year.\n";
  print "$tl\n";

}

sub display_longstatus {
  my ($date, $pretty_date, $prices, $pricedates, $fx_prices, $shares, $fx,
      $cost, $pdate, $cash) = @_;

  my ($tl,$fl) = build_lines(79);
  print "$tl\n" . "\t\t\tPortfolio Status on $pretty_date\n$fl\n";
  printf("%*s %6s %14s %16s %11s %9s\n%s\n",
	 -18, "Name", "Shares", "Close", "Position", "Held", 
	 "Return", $fl);
  my (%value, %totalshares);
  foreach my $key (sort keys %$shares) {
    my ($name,$count) = split /:/, $key;
    $value{$key} += $shares->{$key} * $prices->{$name} 
      * $fx_prices->{$fx->{$name}} / $fx_prices->{$Config{currency}};
  }
  my ($assets,$weightedreturn,$assetbase) = (0,0,0);
  foreach my $key (sort keys %value) {
    my ($name,$count) = split /:/, $key;
    my $value = $value{$key};
    my ($daysheld,$return,$fxthen,$fxnow) = ("", "", 1.0, 1.0);
    if (defined($pdate->{$key})) { # if we have a purchase date
      $daysheld = Delta_Format(DateCalc($pdate->{$key}, $date,
					undef, 2), 0, "%dt");
      if (defined($cost->{$key}) and $daysheld >= 0 and $cost->{$key} != 0) {
	if ($fx->{$name} ne $Config{currency}) {
	  $fxthen = GetFXDatum($dbh, $pdate->{$key}, $fx->{$name});
	  $fxnow = GetFXDatum($dbh, $date, $fx->{$name});
	}
 	$return = (($prices->{$name} * $fxnow) / ($cost->{$key} * $fxthen) - 1)
	  * 100 * Sign($shares->{$key});
 	# annualise if held longer than > 1 year
	$return *= 365 / $daysheld if ($daysheld > 365);
	# weigh returns by the invested amount, not the current value
	# NB this omits possible changes in the FX rate
	my $invested = $value / $prices->{$name} * $cost->{$key};
	$weightedreturn += $return * $invested;
	$assetbase += $invested;
      }
    }
    printf("%*s %6d   %3s %8.2f   %3s %10.2f  %s %s\n", 
	   -18, substr($name,0,17), 
	   $shares->{$key},  
	   $fx->{$name}, 
	   $prices->{$name},
	   $Config{currency}, 
	   $value,
	   $daysheld ne "" ? sprintf("%5d days", $daysheld) : $daysheld, 
	   $return ne ""   ? sprintf("%8.1f%%", $return) : $return);
    $assets += $value;
  }

  foreach my $name (sort keys %{$cash}) { # cash part
    my $value = $cash->{$name}{value} * $fx_prices->{$cash->{$name}{fx}} 
      / $fx_prices->{$Config{currency}}; # adjust for FX
    $assets += $value;
    $assetbase += $value;

    printf("%*s %s %3s %10.2f\n", 
	   -16, substr($name,0,16), " " x 25,
	   $Config{currency},
	   $value,
	  );
  }

  print "$fl\n";
  printf("%-16s %29s %10.2f %20s\n", 
	 "Grand Total",  $Config{currency}, $assets, 
	 $assetbase ? sprintf("%20.2f%%",$weightedreturn/$assetbase) : "NaN");
  print "$fl\n";
  print "Returns are annualized if the holding period exceeds one year.\n";
  print "$tl\n";

}

sub display_riskreport {
  my ($pretty_date, $pretty_prev_date, $var, $pos, $vol, $quintile, $fx, 
      $crit, $margvar) = @_;

  my (%var);
  my ($varsum, $assets) = 0;
  foreach my $pkey (keys %$pos) {
    if (defined($pos->{$pkey}) && defined($vol->{$pkey})) {
      $var{$pkey} = $crit * sqrt($pos->{$pkey}**2 * $vol->{$pkey}**2);
      $varsum += $crit * sqrt($pos->{$pkey}**2 * $vol->{$pkey}**2);
      $assets += $pos->{$pkey};
    }
  }

  my ($tl,$fl) = build_lines(79);
  print "$tl\n" . "            Portfolio Risk on $pretty_date " .
    "going back to $pretty_prev_date\n$fl\n";
  printf("%*s %15s  %13s %10s %9s %7s\n%s\n",
	 -18, "Name", "Position", "1% Profit/Loss", "Volatility", 
	 "VaR", "margVaR", $tl); 

  foreach my $pkey (sort keys %$pos) {
    printf("%-18s %3s %11s %7s %7s %10s %9s %7d\n", 
	   substr($pkey,0,17), 
	   $Config{currency},	# NOT $fx->{$pkey}, !!
	   defined($pos->{$pkey})
	   ? sprintf("%11.2f", $pos->{$pkey})
	   : 'N/A',
	   defined($quintile->{$pkey}) 
	   ? sprintf("%6.1f%%", 100*$quintile->{$pkey})
	   : 'N/A',
	   defined($quintile->{$pkey}) 
	   ? sprintf("%7d", $pos->{$pkey}*$quintile->{$pkey}) 
	   : 'N/A',
	   defined($vol->{$pkey})
	   ? sprintf("%9.1f%%", 100*sqrt(252)*$vol->{$pkey})
	   : 'N/A', 
	   defined($var{$pkey})
	   ? sprintf("%8d", -($var{$pkey}))
	   : 'N/A',
	  $margvar->{$pkey});
  }
  printf("$fl\n%-18s %3s %11.2f  %24.1f%%  %8d\n$fl\n", 
	 "Portfolio level", $Config{currency}, $assets,
	 $var/$crit/$assets*100*sqrt(252), # back volatility out of VaR
	 -$var);
  printf("%s is %4.1f%% of assets, or %5.1f%% of VaR sum of %13d\n%s\n", 
	 "Portfolio VaR", $var/$assets*100, $var/$varsum*100, -$varsum, $tl);
  print 
"VaR calculations use a 99% confidence level and 1-day horizon.  Marginal VaR is\nthe change to the portfolio VaR attributable to adding this position. Computing\nthe 1% quintile of the return distribution,  which can be viewed as a non-para-\nmetric VaR estimate, requires at least 100 observations.\n";
  printf("$tl\n");
}

sub split_stock {
  my @arg = @_;

  my ($date, $prev_date, $pretty_date, $pretty_prev_date) 
    = GetTodaysAndPreviousDates();

  print "Splitting stockprices by $splitby from $prev_date to $date:";
  my $stmt  = qq{select date, previous_close, day_open, day_low, day_high, day_close, 
                        bid, ask, volume
	         from stockprices 
	         where symbol = ? 
	         and date <= ? 
	         and date >= ?
	         and day_close > 0
	         order by date
	        };
  print "split_stock():\n\$stmt = $stmt\n" if $Config{debug};
  my $sth = $dbh->prepare($stmt);

  foreach my $arg (sort @arg) {
    print " $arg ";
    my $rv = $sth->execute($arg, $date, $prev_date);
    my $dr = $sth->fetchall_arrayref;	# get data
    $sth->finish;
    for (my $i=0; $i<scalar(@{$dr}); $i++) { # add returns
      my $cmd = "update stockprices set";
      $cmd.= " previous_close = $dr->[$i][1]/$splitby," 
	if defined($dr->[$i][1]);
      $cmd.= " day_open = $dr->[$i][2]/$splitby," 
	if defined($dr->[$i][2]);
      $cmd.= " day_low = $dr->[$i][3]/$splitby," 
	if defined($dr->[$i][3]);
      $cmd.= " day_high = $dr->[$i][4]/$splitby," 
	if defined($dr->[$i][4]);
      $cmd.= " day_close = $dr->[$i][5]/$splitby," 
	if defined($dr->[$i][5]);
      $cmd.= " bid = $dr->[$i][6]/$splitby," 
	if defined($dr->[$i][6]);
      $cmd.= " ask = $dr->[$i][7]/$splitby," 
	if defined($dr->[$i][7]);
      $cmd.= " volume = $dr->[$i][8]*$splitby," 
	if defined($dr->[$i][8]);
      $cmd.= "where symbol     = '$arg' ";
      $cmd.= "and date         = '$dr->[$i][0]'";
      $cmd =~ s/,where/ where/;
      print "$cmd\n" if $Config{debug};
      if ($Config{commit}) {
	$dbh->do($cmd) or warn "Failed for $arg with $cmd\n";
	$dbh->commit();
      }
    }
  }
  print " Done.\n";

  print "Adjusting portfolio by $splitby:";
  $stmt  = qq{select shares, cost
	      from portfolio 
              where symbol = ?
             };
  print "split_stock():\n\$stmt = $stmt\n" if $Config{debug};
  $sth = $dbh->prepare($stmt);

  foreach my $arg (sort @arg) {
    print " $arg ";
    my $rv = $sth->execute($arg);
    my $dr = $sth->fetchall_arrayref;	# get data
    $sth->finish;
    for (my $i=0; $i<scalar(@{$dr}); $i++) { # add returns
      my $cmd = "update portfolio set";
      $cmd.= " shares = $dr->[$i][0]*$splitby,";
      $cmd.= " cost = $dr->[$i][1]/$splitby," 
	if defined($dr->[$i][1]);
      $cmd.= "where symbol  = '$arg' ";
      $cmd.= "and   shares  = '$dr->[$i][0]' ";
      $cmd.= "and   cost    = '$dr->[$i][1]' " if defined($dr->[$i][1]);
      $cmd =~ s/,where/ where/;
      print "$cmd\n" if $Config{debug};
      if ($Config{commit}) {
	$dbh->do($cmd) or warn "Failed for $arg with $cmd\n";
	$dbh->commit();
      }
    }
  }
  print " Done.\n";
}

sub lsportfolio {
  my @arg = @_;
  # statement for listing out portfolio
  my $stmt = qq{select * from portfolio };

  # optional sql clauses for listing out portfolio
  if ($sqlrestriction) {
    $stmt = $stmt . qq{where $sqlrestriction };
  } elsif ($fxarg) {
    $stmt = $stmt . qq{where currency='$fxarg' };
  } elsif ($datearg ne "today") {
    $stmt = $stmt . qq{where date='$datearg' };
  } else {			# need a default clause
    $stmt = $stmt . qq{where date > '1970-01-01' };
  }
  $stmt = $stmt . 
    qq{and symbol in (select symbol from stockinfo where active) } .
    qq{order by date};

  print "Portfolio listing sql statement:\n$stmt\n" if $Config{verbose};

  my ($tl,$fl) = build_lines(79);

  # perform the access
  my $sth = $dbh->prepare($stmt);
  my $rows = $sth->execute;
  if ( defined($rows) and $rows > 0 ) {
    # print the results
    print "$tl\n\t\t\tPortfolio listing\n$fl\n";
    printf "%-10.10s%8.8s%8.8s%12.12s%12.12s%12.12s%17.17s\n$fl\n",
        "Symbol", "Shares", "FX", "  Type", "  Owner", "    Cost", "    Date";
    while (my @row_ary = $sth->fetchrow_array) {
      my ($stock, $nb, $fx, $type, $owner, $cost, $date) = @row_ary;
      printf "%-10.10s%8d%8s%12s%12s%12.2f%17s\n",
       $stock, $nb, $fx, $type, $owner, $cost, $date;
    }
    print "$tl\n";
  }
  $sth->finish;
}

sub lspositions {
  my $res = shift;

  my ($date, $prev_date, $pretty_date, $pretty_prev_date) 
    = GetTodaysAndPreviousDates();
  my ($fx, $prices, $prev_prices, $shares, $pricedate) 
    = GetPriceData($dbh,$date,$res);
  $fx->{'home currency'} = $Config{currency};

  my ($tl,$fl) = build_lines(79);

  # statement for listing out portfolio
  my $stmt = qq{select p.symbol, p.shares, p.currency, p.type, p.owner, } .
    qq{p.cost, p.date, s.name from portfolio p, stockinfo s };

  # optional sql clauses for listing out portfolio
  if ($sqlrestriction) {
    $stmt = $stmt . qq{where $sqlrestriction };
  } else {			# need a default clause
    $stmt = $stmt . qq{where p.date > '1970-01-01' };
  }
  if ($fxarg) {
    $stmt = $stmt . qq{and p.currency='$fxarg' };
  }
  $stmt = $stmt . 
    qq{and s.active } .
    qq{and p.symbol = s.symbol } .
    qq{order by p.date};

  print "Portfolio listing sql statement:\n$stmt\n" if $Config{verbose};

  # perform the access
  my $sth = $dbh->prepare($stmt);
  my $rows = $sth->execute;

  if ( defined($rows) and $rows > 0 ) {
    # print the results
    print "$tl\n\t\t\t\tPortfolio listing\n$fl\n";
    printf "%-7.7s%7.7s%5.5s%8.8s%8.8s%8.8s%12.12s%8.8s%11s\n$fl\n",
        "Symbol", "Shares", "FX", "  Type", "  Owner", "    Cost", "    Date",
	" Price", " Net";
    my $sum = 0;
    while (my @row_ary = $sth->fetchrow_array) {
      my ($fxthen,$fxnow) = (1.0,1.0);
      my ($stock, $nb, $fx, $type, $owner, $cost, $pfdate, $name) = @row_ary;
      if ($fx ne $Config{currency}) {
	$fxthen = GetFXDatum($dbh, $pfdate, $fx);
	$fxnow = GetFXDatum($dbh, $date, $fx);
	print "Running SQL for $pfdate and $fx: $fxthen -> $fxnow\n" if $Config{debug};
      }
      my $pnl = $nb * ($prices->{$name}*$fxnow - $cost*$fxthen);
      printf "%-7.7s%7d%5s%8s%8s%8.2f%12s%8.2f%11.2f\n",
       $stock, $nb, $fx, $type, $owner, $cost, $pfdate, $prices->{$name}, $pnl;
      $sum = $sum + $pnl;
    }
    printf "$fl\nTotal profit or loss\t\t\t\t\t%18.2f\n$tl\n", $sum;
  }
  $sth->finish;
}

sub day_end_report {
  my $res = shift;

  # day-end report is always relative to the previous day, we enforce previous
  # date of 24 hrs before given date by unsetting any cmdline argument that 
  # there might have been as the function will then return previous biz day
  my $prevdatesaved = $prevdatearg;
  $prevdatearg = undef; 

  my ($date, $prev_date, $pretty_date, $pretty_prev_date) 
    = GetTodaysAndPreviousDates();
  my ($fx, $prices, $prev_prices, $shares, $pricedate) 
    = GetPriceData($dbh,$date,$res);
  $fx->{'home currency'} = $Config{currency};

  my ($fx_prices) = GetFXData($dbh, $date, $fx);
  my ($prev_fx_prices) = GetFXData($dbh, $prev_date, $fx);
  display_report($pretty_date, $pretty_prev_date, $prices, $prev_prices,
		 $fx_prices, $prev_fx_prices, $shares, $fx, $pricedate);

  $prevdatearg = $prevdatesaved; # and reset any potential cmdline arg
}

sub portfolio_retracement {
  my ($res, $mode) = @_;

  ## need to do a sanity checks on the date
  die "Error: '$prevdatearg' not prior to '$datearg'.\n"
    unless (Date_Cmp(ParseDate($prevdatearg), ParseDate($datearg)) < 0);
  die "Error: '$prevdatearg' is not at least 30 days prior to '$datearg'.\n"
    unless (Delta_Format(DateCalc(ParseDate($prevdatearg), ParseDate($datearg),
				  undef, 2), 0, "%dt") > 30);

  my ($date, $prev_date, $pretty_date, $pretty_prev_date) 
    = GetTodaysAndPreviousDates();

  my ($fx, $prices, $tmp1, $shares, $pricedate) = 
    GetPriceData($dbh,$date,$res);

  $fx->{'home currency'} = $Config{currency};
  my ($fx_prices)      = GetFXData($dbh, $date, $fx);

  my ($highprev, $lowprev) = GetRetracementData($dbh, $date, $prev_date,
						$res, $fx_prices);

  my (%value, %totalshares);
  foreach my $key (sort keys %$shares) {
    my ($name,$count) = split /:/, $key;
    $value{$name} += $shares->{$key} * $prices->{$name} 
      * $fx_prices->{$fx->{$name}} / $fx_prices->{$Config{currency}};
    $totalshares{$name} += $shares->{$key};
  }

  my $text = ($mode eq "advance") ? "Advances" : "Retracement";

  my ($tl,$fl) = build_lines(79);
  my ($totaldown, $weightedup, $assetbase) = (0,0,0);
  print "$tl\n";
  printf("%-17s", $text);
  print " shares    price    value   $prev_date to $date  unreal. ";
  print "" . ($mode eq "advance") ? "gain" : "loss";
  print "\n$fl\n";
  foreach (sort keys %$prices) {
    my ($downperc,$downamount,$refprice);
    $refprice = $highprev->{$ARG}; # compare to recent high, or low for short
    if (($mode eq "retrace" and $totalshares{$ARG} < 0) or   # or inverse of it
	($mode eq "advance" and $totalshares{$ARG} > 0)) {   # if advance
      $refprice = $lowprev->{$ARG};
    }

    $downperc = $prices->{$ARG}/$refprice - 1;
    $downamount = $totalshares{$ARG} * ($prices->{$ARG} - $refprice)
      * $fx_prices->{$fx->{$ARG}} / $fx_prices->{$Config{currency}};
    printf("%-17s %6d %8.2f %10.2f %8.2f %10.2f%%  %12.2f\n",
	   substr($ARG, 0, 17), 
	   $totalshares{$ARG}, $prices->{$ARG}, $value{$ARG},
	   $refprice, 100*$downperc, $downamount);
    $totaldown += $downamount;
    $assetbase += $value{$ARG};
  }
  print "$fl\n";
  printf("%-29s     %10.2f            %8.2f%% %13.2f\n",
	 "Aggregate", $assetbase,
	 100*$totaldown/$assetbase, $totaldown);
  print "$tl\n";
}

sub portfolio_risk {
  my $res = shift;
  my $crit = 2.326348;		# 1% critical value of the Normal distribution
  #my $crit = 1.644584;		# 5% critical value of the Normal distribution

  ## need to do a sanity checks on the date
  die "Error: '$prevdatearg' not prior to '$datearg'.\n"
    unless (Date_Cmp(ParseDate($prevdatearg), ParseDate($datearg)) < 0);
  die "Error: '$prevdatearg' is not at least 30 days prior to '$datearg'.\n"
    unless (Delta_Format(DateCalc(ParseDate($prevdatearg), ParseDate($datearg),
				  undef, 2), 0, "%dt") > 30);

  my ($date, $prev_date, $pretty_date, $pretty_prev_date) 
    = GetTodaysAndPreviousDates();

  my ($fx, $prices, $tmp1, $shares, $pricedate) = 
    GetPriceData($dbh,$date,$res);

  $fx->{'home currency'} = $Config{currency};
  my ($fx_prices)      = GetFXData($dbh, $date, $fx);

  my ($var, $pos, $vol, $quintile, $margvar) = 
    GetRiskData($dbh, $date, $prev_date, $res, $fx_prices, $crit);

  display_riskreport($pretty_date, $pretty_prev_date, $var, $pos, 
		     $vol, $quintile, $fx, $crit, $margvar);
}

sub portfolio_status {
  my $res = shift;

  my ($date, $prev_date) = GetTodaysAndPreviousDates();
  # override with optional dates, if supplied
  $date      = UnixDate(ParseDate($datearg),    "%Y%m%d") if ($datearg); 
  # create 'prettier' non-ISO 8601 form
  my $pretty_date = UnixDate(ParseDate($date), "%d %b %Y");

  my ($fx, $prices, $prev_prices, $shares, $pricedates, $cost, $pdate) = 
    GetPriceData($dbh,$date,$res);

  $fx->{'home currency'} = $Config{currency};
  my ($fx_prices)      = GetFXData($dbh, $date, $fx);

  my $cash = GetCashData($dbh, $date, $res);

  display_longstatus($date, $pretty_date, $prices, $pricedates,
		     $fx_prices, $shares, $fx, $cost, $pdate, $cash);
}

# portfolio_report -- with two "free" dates, ie from last month to last week
sub portfolio_report {
  my $res = shift;

  ## need to do a sanity check on the date
  unless (Date_Cmp(ParseDate($prevdatearg), ParseDate($datearg)) < 0) {
    warn "Error: Date $prevdatearg not prior to date $datearg\n";
  }

  my ($date, $prev_date, $pretty_date, $pretty_prev_date) 
    = GetTodaysAndPreviousDates();

  my ($fx, $prices, $tmp1, $shares, $pricedate) = 
    GetPriceData($dbh,$date,$res);
  my ($tmp2, $prev_prices, $tmp3, $tmp4, $prev_pricedate) = 
    GetPriceData($dbh,$prev_date,$res);

  $fx->{'home currency'} = $Config{currency};
  my ($fx_prices)      = GetFXData($dbh, $date, $fx);
  my ($prev_fx_prices) = GetFXData($dbh, $prev_date, $fx);

  display_report($pretty_date, $pretty_prev_date, $prices, $prev_prices,
		 $fx_prices, $prev_fx_prices, $shares, $fx, $pricedate,
		 $prev_pricedate);
}

sub portfolio_update {
  my $res = shift;
  UpdateFXviaUBC($dbh, $res) if $Config{fxupdate} and $Config{ubcfx};
  UpdateFXDatabase($dbh, $res) if $Config{fxupdate}; # update FX db
  UpdateDatabase($dbh, $res) if $Config{equityupdate};
}

sub backpopulate {
  my @arg = @_;
  my $fromdate = 19990101;	# default to start in Jan of 1999
  my $todate = UnixDate(ParseDate("yesterday"),"%Y%m%d");

  $fromdate = UnixDate(ParseDate($prevdatearg),"%Y%m%d") if ($prevdatearg); 
  $todate   = UnixDate(ParseDate($datearg),"%Y%m%d") if ($datearg); 

  my $stmt = qq{ select symbol from stockinfo where symbol = ? };
  my $sth;
  if (@arg) {
    $sth = $dbh->prepare($stmt);
  }
  foreach my $symbol (@arg) {
    # we need to query the DB to see if this symbol was registered
    my $rv = $sth->execute(uc $symbol);

    # Yahoo only returns .csv for non-us stocks in 200 data point lots
    my @startdates;
    my @enddates;

    # build an array pair of start and endates which increment from
    # $fromdate to $todate in about 190 business day steps
    my $yahoostartdate = $fromdate;
    my $yahooenddate = substr DateCalc($yahoostartdate,
				       "+190 business days"),0,8;

    # enter/continue this loop if end date is still further 
    # out than $yahooenddate
    while ($yahooenddate < $todate) {
      print "Date Pair: $yahoostartdate to $yahooenddate\n" 
	if $Config{verbose};
      push @startdates,$yahoostartdate;
      push @enddates,$yahooenddate;
      # move the start date of the next pair to 1 past end of the last pair
      $yahoostartdate = substr DateCalc($yahooenddate,
					"+1 business days"),0,8;
      # calculate the next end date - add 190 business days
      $yahooenddate = substr DateCalc($yahoostartdate,
				      "+190 business days"),0,8;	

    }

    # get the last date pair which will end precisely on $todate
    if ($yahooenddate >= $todate) {
      # this date range does not require any breaking up

      print "Final Date Pair: $yahoostartdate to $todate\n" 
	if $Config{verbose};
      push @startdates,$yahoostartdate;
      push @enddates,$todate;
    }

    # write all the stocks we find into the db
    while (my $r = $sth->fetch) {
      # roughly, if a symbol has a non-us exchange ie it has a dot in 
      # the symbol name then yahoo will only give us 200 data points at 
      # one go so we need to loop through the various dates
      if ($r->[0]=~/.+\..+/) {
        # loop through the startdates/enddates array pairs getting 
	#the data as we go
        while ($yahoostartdate=pop @startdates) {
	  # get the matching end date as well
	  $yahooenddate=pop @enddates;
	  print "   Adding $r->[0] from $yahooenddate to $yahoostartdate\n";
	  my @arr = GetHistoricalData($r->[0], 
				      $yahoostartdate, $yahooenddate);
          PrintHistoricalData($r->[0], @arr) if $Config{verbose};
          DatabaseHistoricalData($dbh, $r->[0], @arr);
        }
      } else {
      	print "   Adding $r->[0] from $fromdate to $todate\n";
        my @arr = GetHistoricalData($r->[0], $fromdate, $todate);
        PrintHistoricalData($r->[0], @arr) if $Config{verbose};
        DatabaseHistoricalData($dbh, $r->[0], @arr);
      }
    }
    $sth->finish;
  }
}

sub fxbackpopulate {
  my @arg = @_;
  my $fromdate = 20000101;	# default to start in Jan of 2000
  my $todate = UnixDate(ParseDate("yesterday"),"%Y%m%d");

  $fromdate = UnixDate(ParseDate($prevdatearg),"%Y%m%d") if ($prevdatearg); 
  $todate   = UnixDate(ParseDate($datearg),"%Y%m%d") if ($datearg); 

  if ($Config{ubcfx}) {		# if we use PACIFIC at UBC's Sauder School
    my $aref = GetUBCFXData(\@arg, $fromdate, $todate);
    #print "   backpopulating ", join(" ",@arg), 
    #	" from $fromdate to $todate\n" if $Config{debug};
    #no equiv. here: #PrintHistoricalData($iso, @arr) if $Config{verbose};
    DatabaseHistoricalUBCFX($dbh, $aref, @arg);
    ##DatabaseHistoricalFXData($dbh, GetYahooCurrency($iso), @arr);
  } else {
    foreach my $iso (@arg) {
      my $fx = GetYahooCurrency($iso);
      if (defined($fx) and $fx ne "") {
	print "   backpopulating $iso (using $fx) from $fromdate to $todate\n";
	  #if $Config{debug};
	my (@arr) = GetHistoricalData($fx, $fromdate, $todate);
	PrintHistoricalData($fx, @arr) if $Config{verbose};
	DatabaseHistoricalFXData($dbh, $fx, @arr);
      } else {
	print "** Ignoring $iso which is not currently known to " .
	  "the internal tables\n";
      }
    }
  }
}


sub quote {
  my @arg = @_;
  my @data = GetDailyData(@arg); 	# fetch data 
  my %data = ParseDailyData(@data); 	# fill assoc. array
  ReportDailyData(%data);		# report data
}


sub add_index {
  my @arg = @_;
  my $index = shift @arg;	# get the index argument
  foreach my $arg (@arg) {	# and loop over the stocks
    my $cmd = "insert into indices values ( '$arg', '$index' );";
    print "$cmd\n" if $Config{verbose};
    $dbh->do($cmd) or warn "\nFailed with $cmd\n";
    $dbh->commit();		# the ODBC driver needs that for a weird reason
  }
}


sub add_stock {
  my @arg = @_;
  my @data = GetDailyData(@arg);
  my %data = ParseDailyData(@data);
  ReportDailyData(%data) if $Config{verbose};
  DatabaseInfoData($dbh, %data);
  DatabaseDailyData($dbh, %data);
}


sub add_portfolio {
  my @arg = @_;

  # statement for insertion into portfolio
  my $stmt = qq{insert into portfolio values ( ?, ?, ?, ?, ?, ?, ? );};
  my $sth;

  # statement to check if this symbol already in info
  my $infostmt = qq{ select symbol from stockinfo where symbol = ? };
  my $infosth;
  if (@arg) {
    $infosth = $dbh->prepare($infostmt);
  }
  my @symbol;

  foreach my $arg (@arg) {	# and loop over the stocks
    my ($stock,$nb,$fx,$type,$owner,$cost,$date) 
      = (undef, undef, undef, undef, undef, undef, undef);
    print "Inserting $arg\n" if $Config{verbose};
    ($stock,$nb,$fx,$type,$owner,$cost,$date) = split /:/, $arg;
    $stock = uc $stock;		# uppercase it
    $fx = $Config{currency} unless defined($fx);
    if (defined($stock) and defined($nb)) {
      if (!defined($sth)) {
	$sth = $dbh->prepare($stmt);
      }
      $sth->execute($stock, $nb, $fx, $type, $owner, $cost, $date);
      $sth->finish;
      $dbh->commit();		# the ODBC driver needs that for a weird reason
    } else {
      warn "Ignoring invalid argument $arg\n";
    }

    $infosth->execute($stock);
    push @symbol, $stock unless ($infosth->fetch);
    $infosth->finish;
  }

  if ($#symbol > -1) {		# if there are symbols to be added
    add_stock(@symbol)		# make sure 'new' stocks get added to DB
  }
}


# set 'active' field false in stockinfo table for 'symbol'
# no sql restrictions are applicable to the stockinfo table
sub inactive_stock {
  my @arg = @_;    # array of stock symbols
  # statement to check if this symbol already in info
  my $infostmt = qq{select symbol,active from stockinfo where symbol=?;};
  my $infosth = $dbh->prepare($infostmt);

  printf STDERR "infostmt:%s\n", $infostmt if $Config{verbose};

  ## for all arguments
  ##   if stock is 1) in info table and 2) active then deactive it
  ##   else report condition a) not in table or b) not active
  my @symbol;
  foreach my $arg (@arg) {	# and loop over the stocks
    my $stock = uc $arg;	# uppercase it

    print "Checking stock $stock\n" if $Config{verbose};
    $infosth->execute($stock);

    my ($symb, $active) = $infosth->fetchrow_array;
    $infosth->finish;
    if (! $symb) {
      printf STDERR "Symbol %s not in database, cannot deactive\n", $stock;
    } else {
      if ($active == 1) {
        push @symbol, $symb;
      } else {
        printf STDERR "Symbol %s is already deactivated\n", $symb;
      }
    }
  }

  # statement for updating stockinfo table
  my $stmt = qq{update stockinfo set active='false' where symbol=?;};
  my $sth = $dbh->prepare($stmt);
  print STDERR "inactive stock sql statement:\n$stmt\n" if $Config{verbose};

  if ($Config{commit}) {
    ## with $stock(s) in @symbol do the deed
    foreach my $stk (@symbol) {
      print STDERR "Inactivating stock $stk\n" if $Config{verbose};
      # perform the access
      $sth->execute($stk);
      $sth->finish;
      $dbh->commit();        # the ODBC driver needs that for a weird reason
    }
  }
}


sub delete_stock {
  my @arg = @_;

  foreach my $arg (@arg) {	# and loop over the stocks
    foreach my $table (qw/ stockinfo stockprices indices portfolio/) {
      my $cmd = "delete from $table where symbol = '$arg';";
      print "$cmd\n" if $Config{verbose};
      $dbh->do($cmd) or warn "\nFailed with $cmd\n";
      $dbh->commit();		# the ODBC driver needs that for a weird reason
    }
  }
}


sub deletedb {			# this unfortunately is PostgreSQL specific
  CloseDB($dbh);		# or we won't be able to close
  if (lc $Config{dbsystem} eq "mysql") {
    system("mysqladmin drop $Config{dbname}")
      or warn("Could not delete MySQL database $Config{dbname}");
    ## bad return value, will trigger die() even on success
  } elsif (lc $Config{dbsystem} eq "postgresql") {
    #  system("psql -q -c \"drop database beancounter\"") == 0 
    system("dropdb $Config{dbname}")	# requires PostgreSQL >= 7.1
      or warn("Could not delete Postgresql database $Config{dbname}");
    ## bad return value, will trigger die() even on success
  } elsif (lc $Config{dbsystem} eq "sqlite" or 		# sqlite v3
	   lc $Config{dbsystem} eq "sqlite2") {		# sqlite v2
    unlink($Config{dbname}) 
      or warn("Could not remove SQLite database $Config{dbname}");
  }
  exit(0);
}


__END__				# that's it, folks!  Documentation below

#---- Documentation ---------------------------------------------------------

=head1 NAME

beancounter - Stock portfolio performance monitor tool

=head1 SYNOPSYS

beancounter [options] command [command_arguments ...]

=head1 COMMANDS

 addindex index args       add stock(s) to market index 'indx'
 addportfolio sym:nb:fx:type:o:pp:pd ... 
                           add 'nb' stocks of company with symbol 'sym'
                           that are listed in currency 'fx' to the 
			   portfolio with optional 'type' and 'owner'
                           info, purchase price 'pp' and date 'pd'; 
                           see below for a complete example
 allreports		   combines dayendreport, status and risk 
 addstock arg ...          add stock(s) with symbol arg to the database
 advancement  		   report on unrealized gains from lows
 backpopulate  arg ...	   fill with historic data for given stock(s)
 checkdbconnection	   test if connection to db can be established
 dailyjob		   combines update, dayendreport, status + risk 
 dayendreport		   reports p/l changes relative to previous day
 deactivate symbol ...     set stock(s) inactive in stockinfo table
 delete arg ...	   	   delete given stock(s) from database
 destroydb                 delete the BeanCounter database
 fxbackpopulate  arg ...   fill with historic data for currency(ies)
 lsportfolio               list portfolio data
 plreport                  run an portfolio p/l report rel. to any day
 quote arg ...             report current data for given stock(s)
 retracement  		   report unrealized losses from highs (drawdowns)
 risk			   display a portfolio risk report
 split arg ...             split-adjust price history and portfolio
 status			   status summary report for portfolio
 update                    update the database with day's data
 warranty		   display the short GNU GPL statement

=head1 OPTIONS

 --help                    show this help
 --verbose		   more verbose operation, debugging
 --date date               report for this date (today)
 --prevdate date           relative to this date (yesterday)
 --currency fx		   set home currency
 --restriction sql	   impose SQL restriction
 --extrafx fx1,fx2,...     additional currencies to load
 --forceupdate date        force db to store new price info with date
 --rcfile file		   use different configuration file
 --[no]fxupdate  	   enforce/suppress FX update, default is update
 --[no]commit	  	   enforce/suppress database update, default is commit
 --[no]equityupdate        enforce/suppress Equity update, default is update
 --[no]ubcfx    	   use/skip FX from UBC's Sauder school, default skip
 --splitby arg             split stock history + position by this factor [2]
 --dbsystem system         use db backend system, default is PostgreSQL
 --dbname name	           use db name, default is beancounter

=head1 DESCRIPTION

B<beancounter> gathers and analyses stock market data to evaluate
portfolio performance.  It has several modes of operation. The first
main mode is data gathering: both current data (e.g. end-of-day
closing prices) and historical price data (to back-populate the
database) can be retrieved both automatically and efficiently with
subsequent local storage in a relational database system (either
F<PostgreSQL>, F<MySQL> or F<SQLite>) though any other system with an
F<ODBC> driver could be used). The second main mode is data analysis
where the stored data is evaluated to provide performance
information. Several canned reports types are already available.

Data is retrieved very efficiently in a single batch query per Yahoo!
host from the Yahoo! Finance web sites using Finance::YahooQuote
module (where version 0.18 or newer is required for proxy
support). Support exists for North America (i.e. US and Canada),
Europe (i.e. the Continent as well as Great Britain), several Asian
stock markets, Australia and New Zealand. 

B<beancounter> can aggregate the change in value for the entire
portfolio over arbitrary time horizons (provided historical data has
either been gathered or has been backpopulated). Using the powerful
date-parsing routine available to Perl (thanks to the F<Date::Manip>
modules), you can simply say 'from six months ago to today' (see below
for examples).

B<beancounter> has been written and tested under Linux. It should run
under any standard Unix as long as the required Perl modules are
installed, as as long as the database backend is found.

=head1 EXAMPLES

 beancounter update --forceupdate today

    This updates the database: it extends timeseries data (such as
    open, low, high, close, volume) with data for the current day,
    and overwrites static data (such as capital, price/earnings, ...) 
    with current data. All stocks held in the database are updated
    (unless the --restriction argument instructs otherwise). The 
    --forceupdate option lets the program corrects incorrect dates 
    returned from Yahoo! (which happens every now and so often), but
    be careful to correct for this on public holidays. Note that 
    the --restriction argument will be applied to the portfolio table,
    whereas the overall selection comes from the stockinfo table.

 beancounter addportfolio SUNW:100:USD:401k:joe:85.50:19991117 \
                          IBM:100:USD:401k:joe:90.25:20000320  \
                          SPY:50:USD:ira:joe:142.25:20000620

    This adds the two stocks Sun and IBM to the 401k portfolio of Joe,
    as well as SP500 'Spiders' to his IRA portfolio. The stocks are
    also added to the general stock info tables via an implicit call
    of the stockinfo command.

 beancounter addstock LNUX RHAT COR.TO

    This adds these three Linux companies to the database without adding
    them to any specific portfolios.

 beancounter backpopulate --prevdate '1 year ago' \
                          --date 'friday 1 week ago' IBM SUNW HWP

    This backpopulates the database with historic prices for three
    hardware companies. Note how the date specification is very general
    thanks to the underlying Date::Manip module.

 beancounter fxbackpopulate --prevdate '1 year ago' \
                          --date 'friday 1 week ago' CAD EUR GBP

    This backpopulates the database with historic prices for these
    three currencies. Note how the date specification is very general
    thanks to the underlying Date::Manip module.

    Unfortunately, Yahoo! is a little bone-headed in its implementation
    of historic FX rates -- these are stored to only two decimals 
    precision, just like stockprices. Unfortunately, convention is to
    use at least four if not six. Because of the limited information, 
    risk from FX changes will be underestimated.

 beancounter plreport --prevdate '1 month ago' --date 'today' \
			--restriction "owner='joe'"

    This calculates portfolio profits or losses over the last month. It
    also imposes the database restriction that only stocks owned by
    'joe' are to be included.

 beancounter status --restriction "type='401k'"

    This shows a portfolio status report with the restriction that only
    stocks from the '401k' account are to be included.

 beancounter risk --prevdate "6 month ago"

    This shows a portfolio risk report. This tries describes the 
    statistically plausible loss which should be exceeded only 1 out
    of 100 times (see below for more details).

 beancounter dailyjob --forceupdate today

    Run a complete 'job': update the database, show a day-end profit/loss
    report, show a portfolio status report and show a riskreport. In the
    update mode, override a potentially wrong date supplied by Yahoo!
    with the current date.

 beancounter split --splitby 3 --prevdate 1990-01-01 ABC CDE

    Split-adjusts the (hypothetical) stocks ABC and CDE by a factor
    of three: price data in the database is divided by three, volume
    increased by 3 and similarly, in the portfolio shares are increased
    and cost is descreased.  Default dates are --prevdate and --date
    which may need adjusting.

=head1 TUTORIAL

The following few paragraphs will illustrate the use of
B<beancounter>.  We will set up two fictional accounts for two
brothers Bob and Bill (so that we can illustrate the 'owner' column).
The prices below are completely fictitious, as are the portfolios.

We suppose that B<beancounter> is installed and that the
B<setup_beancounter> command has been run. We can then create a
two-stock (computer hardware) portfolio for Bob as follows:

 beancounter addportfolio SUNW:100:USD:401k:bob:85.50:19991117 \
                          IBM:100:USD:401k:bob:90.25:20000320

Here we specify that 100 shares each of Sun and IBM, priced in US
Dollars, are in Bob's portfolio which is tagged as a 401k retirement
account. The (fictitious) purchase price and date are also given.

Let's suppose that Bill prefers networking equipment, and that he has
a brokerage account in Canada:

 beancounter addportfolio CSCO:100:USD:spec:bill:78.00:19990817 \
                          NT:200:CAD:spec:bill:cad:90.25:20000212

Now we can backpopulate the database from 1998 onwards for all four stocks:

 beancounter backpopulate --prevdate 19980101 CSCO IBM NT SUNW

With this historical data in place, we now compare how Bob's portfolio
would have fared over the last 18 months:

 beancounter plreport --prevdate '18 months ago' \
  			--restriction "owner='bob'"

Note how we use double quotes to protect the arguments, and how the
SQL restriction contains a further single quote around the literal
string.

We can also review the performance for Bill at the most recent trading
day:

 beancounter dayendreport --restriction "owner='bill'"

or the status of holdings and their respective values:

 beancounter dayendreport --restriction "owner='bill'"

Similarly, a risk reports can be run on this portfolios per

 beancounter risk --restriction "owner='bill'"

=head1 MORE DETAILED COMMAND DESCRIPTION

B<addportfolio> is the most important 'position entry' command. As
with other commands, several arguments can be given at the same
time. For each of these, records are separated using a colon and
specify, in order, stock symbol, number of stocks held, currency,
account type, account owner, purchase price and purchase date.  Only
the first three arguments are required, the others are
optional. Executing B<addportfolio> implicitly executes B<addstock>. 
The account type column can be used to specify whether the account 
is, e.g., a tax-sheltered retirement account, or it could be used to
denote the brokerage company is it held at.

B<plreport> retrieves the most recent quotes(s). This is useful for
illiquid securities which might not have traded that day, or if a
public holiday occurred, or if there was a data error at Yahoo!. Two
dates can be specified which determine the period over which the
profit or loss is computed. This will fail if price data (or currency
data in the case of foreign stocks data) data is not available for
either of those two dates. This may be restrictive for foreign stocks
where we cannot backpopulate due to lack of public data source for
historical currency quotes. Major currencies can be retrieved from 
Yahoo!, but only to two decimals precisions.

B<dayendreport> is similar to B<plreport> but is always over a one-day
period.  It also uses only one date record by calculating performance
given the 'previous close' data.

B<status> shows holdings amounts, total position values, annualized 
returns in percentages and holding periods in days. Note that the 
annualized returns can appear excessive if, e.g., a ten-day return 
from a recently purchased stock is extrapolated to an annual time 
period.

B<risk> shows a portfolio risk report which describes the
statistically plausible loss which should be exceeded only 1 out of
100 times.  In other words, the loss estimate has a critical level of
99%. This risk level is estimated via two methods. The first is
non-parametric and assumes no particular model or distribution; it
computes the 1% quintile of the return distribution and displays it as
well as the corresponding asset value at risk.  The second method uses
the standard Value-at-Risk (VaR) approach. This uses the 1% critical
value of the Normal distribution and implicitly assumes a normal
distribution for returns. See C<http://www.gloriamundi.org> for more
introduction and references. If the distribution of normalitty was
perfectly true, both measures would coincide. A large difference
between the two estimates would indicate that the return distribution
might be rather non-normal.  Another view of the riskiness of a given
position is provided by the last column with the 'margVaR' heading. It
shows the marginal Value-at-Risk. Marginal VaR is commonly defined as
the risk contribution of the given position to the total portfolio,
and calculated as the difference in the VaR of the full portfolio and
the VaR of an otherwise identical portfolio with the given position
removed.  Note that calculating marginal VaR is fairly slow (on the
order of O(n^3) ].

B<retracement> shows a 'drawdown' report. Drawdown is commonly defined
as the percentage loss relative to the previous high. The default
period is used, but can be altered with the B<--date> and
B<--prevdate> options. The default period is also corrected for the
actual holding period. In other words, if a stock has been held for
two months, only those two months are used instead of the default of
six months -- but if the last months has been selected via
B<--prevdate> then it is used.  For short positions, the analysis is
inverted and relative to the previous low. The report displays each
stock, the number of shares held, the current price and holdings
value. The next two columns show the maximum price attained in the
examined period, and the percent decline relative to it. The last
column shows the unrealized loss relative to the maximum price over
the period. The aggregate holdings value, percent decline and
unrealized loss are shown as well.

B<advancement> does the opposite of drawdown -- it computes unrealized
gains relative to the minimum price in the period. The discussion in
the preceding paragraph applies `but inverted'.

B<lsportfolio> simply lists the content of the portfolio table.
A SQL restriction can be imposed.

B<addindex> adds stocks a the index table. Currently, no further
analysis references this table.

B<addstock> adds stocks to the database. From then on data will be
retrieved for the given symbol(s) and stored in the database whenever 
the B<update> command is executed.

B<backpopulate> fills the database with historic prices for the given
symbols and date period. Note that this works well for stocks and
mutual fund. Options have no historic data stored. Currencies are
stored with limited precision as noted above.

B<quote> simply shows a price quote  for the given symbol(s).

B<update> updates the database with quotes for all stocks for the 
given day. No output is generated making the command suitable for 
B<cron> execution.

B<dailyjob> is a simple convenience wrapper around B<update>,
B<dayendreport>, B<status> and B<risk>,

B<allreports> is a another covenience wrapper around B<dayendreport>, 
B<status> and B<risk>.

B<deactivate> will set the active column in stockinfo for the given
symbol(s) to false thereby inhibiting any further updates of symbol(s).
The existing data for symbol(s) is retained. Use this when a stock is
acquired, delisted, or you simply want to stop tracking it -- but do 
not want to purge the historical data.

B<split> adjusts the price database, and the portfolio holdings, for 
stock splits.  The default factor is 2, this can be adjusted with the
option B<--splitby>. The dates arguments can be set with B<--prevdate>
and B<--date>.

B<delete> removes the given symbols from the database.

B<destroydb> deletes the BeanCounter database.

B<checkdbconnection> simply opens and closes the database handle, and
returns a specified exit code which can then be tested. This is used
in the B<setup_beancounter> command.

B<warranty> display a short GNU General Public License statement.

=head1 MORE DETAILED OPTION DESCRIPTION

B<--currency> can be used to select a different I<home> currency. 
Instead of having all values converted to the default currency, the
selected currency is used.

B<--date> allows to choose a different reference date. This is then be
be used by commands working on a date, or date period, such as
B<plreport>, B<dayendreport>, B<backpopulate>, B<fxbackpopulate> or
B<status>. B<--prevdate> allows to choose a different start date for
return calculations, or data gathering.

B<--restriction> can be used to restrict the database selection. The
argument must be a valid part of valid SQL statement in the sense that
existing columns and operators have to be employed. The argument to
this option will be completed with a leading I<and>. The SQL
restriction will typcally be over elements of the I<portfolio> table
which comprises the columns I<symbol>, I<shares>, I<currency>,
I<type>, I<owner>, I<cost> and I<date>. A simple example would be
I<currency='CAD'>. Note that this has to protected by double quotes
I<"I> on the command-line.

B<--extrafx> allows to gather data on additional currency rates beyond
those automatically selected as shares are listed in them. A typical
example would be for a European investor wanting to convert from the
EUR in which the shares are listed into one of the member currencies
which B<beancounter> would no longer retrieve as shares are no longer
listed in these.

B<--forceupdate> allows to overwrite an potentially wrong date in the
database update. Unfortunately, it appears that Yahoo!  occasionally
reports correct prices with an incorrect date such as the previous
day's. In such a case, this option, along with an argument such as
'today' can override the bad date datapoint and avoid a hole in the
database. The downside of this approach is that it would "double" the
previous data in the case of a public holiday, or even if it was run
the weekend. A somewhat smarter comparison to previously stored data
might prevent that, but would be more complex to implement.

B<--rcfile> allows to specify a resource file different from the
default I<~/.beancounterrc>. 

B<--dbsystem> allows to switch to a different database backend. The
default is B<PostgreSQL> but B<MySQL> and B<SQLite> are also
supported. For B<SQLite>, the default is now version 3.* but the
previous version -- which is not binarily compatible -- is supported
as well with argument 'SQLite2'.

B<--dbsystem> allows to switch to an alternate database. The default
is 'beancounter'. This can be useful for testing new features.

B<--fxupdate> is a boolean switch to enforece updates of FX rates during
'update'. The default is 'true' but '--nofxupdate' can be used to suppress
the update of foreign exchange rates.

Similarly, B<--equityupdate> is a boolean switch to enforece, or
suppress updates of Equity (i.e. stock) data during 'update'. The
default is 'true' but '--noequityupdate' can be used to suppress the
update of foreign exchange rates.

B<--ubcfx> is a boolean switch to use the 'PACIFIC' FX rate service from the
Sauder School at UBC. This is useful when the default FX rate service at
Yahoo! is erratic, or unreliable. While the PACIFIC server provides a wider
variety of exchange rates, Yahoo! can still be useful as it can provide more
columns (open/high/low). However, during most of 2005, Yahoo! has been
unrealiable for the exchange rates and has not provided historical FX
data. On the other hand, the UBC service does not run on Canadian holidays so
it cannot really server as a full substitute. Contributions for a new data
acquisition, maybe via www.oanda.com would be welcome.

B<--splitby> can be used to set a stock split factor other than the default
of 2.

B<--host> can be used to point to a machine containing the PostgreSQL
or MySQL database. The machine can be remote, or it can be the actual
machine B<beancounter> is running on. If a hostname is given, tcp/ip
connection are used. If no hostname is given, the default value of
'localhost' implies that local socket connections are used which may
be easier to employ for less experienced adatabase users. 

Also, B<--commit> is a boolean switch to suppress actual
database updates if the negated B<--nocommit> is selected. This is
useful mostly in debugging contexts.

The B<--verbose> and B<--debug> switches can be used in debugging an
testing, and B<--help> triggers the display of help message. 

=head1 SYSTEM OVERVIEW

The following section details some of the database and configuration
options.

=head2 DATABASE REQUIREMENTS

B<beancounter> currently depends on either PostgreSQL, MySQL, SQLite
(version 2 or 3) or any other database for which an ODBC driver is
available (though the required tables would have to created manually
in the ODBC case). Yet another DB backend could be added provided
suitable Perl DBI drivers are available. For PostgreSQL, MySQL and
SQLite, the B<setup_beancounter> script can create and initialize the
database, form the required tables and fills them with some example
data. It is a starting point for local modifications.

The connection to the database is made via a dedicated function in the
B<BeanCounter.pm> module, changes would only have to be made there.
As of this writing the B<Perl DBI> (the database-independent interface
for Perl) is used along the DBI drivers for PostgreSQL, MySQL, SQLite
and ODBC. Ports for Oracle, Sybase, ... are encouraged.

=head2 CONFIG FILE

A configuration file F<~/.beancounterrc> is read if found. It
currently supports the following options:

=over 8

=item I<currency> to specify into which home currency holdings and
profits/losses have to be converted

=item I<host> to specify the database server on which the
B<BeanCounter> database resides (this is needed only for the alternate
connection via the DBI-Pg driver in case DBI-ODBC is not used)

=item I<user> to specify the userid for the database connection; if
needed. If not specified, the current user id is used.

=item I<passwd> to specify the password for the database connection,
if needed.

=item I<dbsystem> to select a database backend, e.g. to switch from
PostgreSQL to MySQL or SQLite or SQLite2 (the previous format of
SQLite).

=item I<dbsystem> to select a different default database name other
than the default of 'beancounter'

=item I<proxy> to specify the address of a firewall proxy server if
one is needed to connect to the Internet.

=item I<firewall> to specify a firewallid:firewallpasswd combination,
if needed.

=item I<odbc> is a switch to turn ODBC connection on or off

=item I<dsn> to use a different data source name when ODBC is used

An example file F<example.beancounterrc> should have come with the 
sources (or the Debian package); please consult this file for more
examples.

=back

=head2 ODBC CONFIGURATION

There are now several ODBC systems available for Linux / Unix. The
following F<~/.odbc.ini> work with the B<iODBC> library and the
B<PostgreSQL> ODBC driver on my Debian GNU/Linux system:

   [ODBC Data Sources]
   beancounter = BeanCounter Database

   [beancounter]
   Driver       = /usr/lib/libpsqlodbc.so
   Database     = beancounter
   Servername   = localhost

   [ODBC]
   InstallDir = /usr/lib

Alternatively, the B<unixODBC> library can be used with the following
scheme for F</etc/odbcinst.ini> (or F<~/.odbcinst.ini>) to define the
Postgres database drivers

   [PostgreSQL]
   Description     = PostgreSQL ODBC driver for Linux and Windows
   Driver          = /usr/lib/postgresql/lib/libodbcpsql.so
   Setup           = /usr/lib/odbc/libodbcpsqlS.so
   Debug           = 0
   CommLog         = 0
   FileUsage       = 1

after which F</etc/odbc.ini> (or F<~/.odbc.ini>) can be used to define
actual data sources as follows:

   [PostgreSQL]
   Description     = PostgreSQL template1
   Driver          = PostgreSQL
   Trace           = No
   TraceFile       = /tmp/odbc.log
   Database        = template1
   Servername      = localhost
   UserName        =
   Password        =
   Port            = 5432
   Protocol        = 6.4
   ReadOnly        = Yes
   RowVersioning   = No
   ShowSystemTables= No
   ShowOidColumn   = No
   FakeOidIndex    = No
   ConnSettings    =

   [beancounter]
   Description     = Beancounter DB (Postgresql)
   Driver          = Postgresql
   Trace           = No
   TraceFile       =
   Database        = beancounter
   Servername      = some.db.host.com
   UserName        =
   Password        =
   Port            = 5432
   Protocol        = 6.4
   ReadOnly        = No
   RowVersioning   = No
   ShowSystemTables= No
   ShowOidColumn   = No
   FakeOidIndex    = No
   ConnSettings    =


=head1 BUGS

B<Finance::BeanCounter> and B<beancounter> are so fresh that there are
only missing features :) Seriously, check the TODO list. This code or
its predecessors have been used by the author since the end of 1998.

=head1 SEE ALSO

F<Finance::BeanCounter.3pm>, F<smtm.1>, F<Finance::YahooQuote.3pm>,
F<LWP.3pm>, F<Date::Manip.3pm>, F<Statistics::Descriptive.3pm>,
F<setup_beancounter.1>, F<update_beancounter.1>.

=head1 COPYRIGHT

beancounter is (c) 2000 - 2006 by Dirk Eddelbuettel <edd@debian.org>

Updates to this program might appear at 
F<http://dirk.eddelbuettel.com/code/beancounter.html>.

This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2 of the License, or
(at your option) any later version.  There is NO warranty whatsoever.

The information that you obtain with this program may be copyrighted
by Yahoo! Inc., and is governed by their usage license.  See
F<http://www.yahoo.com/docs/info/gen_disclaimer.html> for more
information.

Equivalently, foreign exchange rates from F<http://fx.sauder.ubc.ca>
are for academic research and teaching. See
F<http://fx.sauder.ubc.ca/about.html> for more details.

=head1 ACKNOWLEDGEMENTS

The Finance::YahooQuote module, originally written by Dj Padzensky
(and on the web at F<http://www.padz.net/~djpadz/YahooQuote/> as well
as at F<http://dirk.eddelbuettel.com/code/yahooquote>) serves as the
backbone for data retrieval, which was also already very useful for the
real-time ticker F<http://dirk.eddelbuettel.com/code/smtm.html>.

=cut
