Документ взят из кэша поисковой машины. Адрес оригинального документа : http://hea-www.harvard.edu/~alexey/calc-src.txt
Дата изменения: Sun Jun 3 07:06:23 2007
Дата индексирования: Mon Oct 1 21:02:24 2012
Кодировка:

Поисковые слова: hst
#!/usr/bin/perl
#
# v 02.06.2007
# Alexey Vikhlinin
# http://hea-www.harvard.edu/~alexey/calc.html
# some code is taken from Math::Trig;
#
# This script is provided 'as is' and without any warranty. For example,
# I'm not paying if you wrap it in a web form and your files get erased:)
#

use lib "/data/alexey3/soft/lib/perl5/site_perl/5.8.5"; # PATH TO Term::ReadLine::Perl
use Term::ReadLine;


$log10 = 2.30258509299405;
$pi = 3.14159265358979;
#-----------------------------------------------------------------------------
use constant pi => 3.14159265358979;
use constant EE => 2.718281828459045; # exp(1). Not 'e' because e is charge of electron

use constant Msun => 1.9891e+33;
use constant Lsun => 3.826e+33;
use constant Rsun => 6.9599e+10;
use constant c => 2.9979245620e+10; # speed of light
use constant G => 6.67259e-08; # gravitational constant
use constant e => 4.8032068e-10; # charge of electron
use constant h => 6.6260755e-27; # erg*s Planck's constant
use constant me => 9.1093897e-28; # mass of electron
use constant mp => 1.6726231e-24; # mass of proton
use constant alpha => 1/(h*c/(2*pi*e**2)); # fine structure constant
use constant sigmaT=> 6.6524616e-25; # Thomson cross section=8pi/3*re^2
use constant k => 1.380658e-16; # (erg/K) Boltzman constant
use constant NA => 6.0221367e+23; # mol^-1 Avogadro constant
use constant sigma => 5.67051e-5; # Stefan-Boltzmann constant

use constant keV => 1.602192e-9; use constant eV => 1.602192e-12; # erg
use constant pc => 3.085678e+18; use constant kpc => 1000*pc; use constant Mpc => 1000*kpc;
use constant AU => 14959787069100; # "astronomical unit"
#-----------------------------------------------------------------------------
use constant sec => 1; use constant s => sec;
# `sec' is used internally
use constant hour => 3600; use constant hr => hour; # not 'h' because h is Planck's const
use constant day => 24*hour; use constant yr => 365.242*day; use constant year=>yr;
use constant lb => 453.5924;
use constant oz => lb/16;
use constant A => 1e-8;
use constant cm => 1; use constant meter=>100; use constant m=>meter; use constant km=>1e5; use constant milimeter=>0.1;
# `meter' is used internally
use constant inch => 2.54; use constant ft => 12*inch; use constant feet => ft;
use constant mile => 1.609344e+05; use constant mph => mile/hour;
use constant knot => 5.144444e+01; use constant knots => knot;
use constant kg => 1e3;
use constant W => 1e7; # Watt
use constant Jy => 1e-26*W/meter**2; use constant mJy => 1e-3*Jy; # per Hz
use constant deg => pi/180; use constant arcmin => deg/60; use constant arcsec => arcmin/60;

sub ln {log($_[0]);}
sub lg {log($_[0])/$log10;}
sub fact {$s=1; for ($i=2;$i<=$_[0];$i++) {$s*=$i;} return $s;}
sub r2d {$_[0]*180.0/$pi}
sub atan {atan2($_[0],1)}
sub tan {my $z = $_[0]; sin($z)/cos($z)}
sub acos {my $z = $_[0]; atan2(sqrt(1-$z*$z), $z)}
sub asin {my $z = $_[0]; atan2($z, sqrt(1-$z*$z))}
sub C {fact($_[0])/(fact($_[1])*fact(($_[0]-$_[1])))}
sub sind {sin($_[0]*pi/180)}
sub cosd {cos($_[0]*pi/180)}
sub tand {tan($_[0]*pi/180)}
sub asind {asin($_[0])*180/pi}
sub acosd {acos($_[0])*180/pi}
sub atand {atan($_[0])*180/pi}
sub sinh {my $x=$_[0]; (exp($x)-exp(-$x))/2.0;}
sub cosh {my $x=$_[0]; (exp($x)+exp(-$x))/2.0;}
sub asinh {my $x=$_[0]; log($x+sqrt(1+$x**2))}
sub acosh {my $x=$_[0]; log($x+sqrt($x**2-1))}
sub atanh {my $x=$_[0]; 0.5*(log(($x+1)/(1-$x)))}
sub acoth {my $x=$_[0]; atanh(1/$x)}
sub nint {
my $x = $_[0];
my $n = int($x);
if ( $x > 0 ) {
if ( $x-$n > 0.5) {
return $n+1;
}
else {
return $n;
}
}
else {
if ( $n-$x > 0.5) {
return $n-1;
}
else {
return $n;
}
}
}
sub CtoF { my $x = $_[0]; return 9*$x/5+32; }
sub FtoC { my $x = $_[0]; return ($x-32.)*5./9.;}
sub lgamma { # per code from numerical recipies
my $xx = $_[0];
my $j, $ser, $stp, $tmp, $x, $y;
my @cof = (0.0, 76.18009172947146, -86.50532032941677,
24.01409824083091, -1.231739572450155, 0.1208650973866179e-2,
-0.5395239384953e-5);
my $stp = 2.5066282746310005;

$x = $xx; $y = $x;
$tmp = $x + 5.5;
$tmp = ($x+0.5)*log($tmp)-$tmp;
$ser = 1.000000000190015;
foreach $j ( 1 .. 6 ) {
$y+=1.0;
$ser+=$cof[$j]/$y;
}
return $tmp + log($stp*$ser/$x);
}

sub gamma {
return exp(&lgamma ($_[0]));
}

%SHELLCOM=();
if ($ENV{"CALCRC"}) {do $ENV{"CALCRC"};} # personal settings

sub doeval {
# remove "calc " from the beginning of the line
s/^\s*calc\s//;
$origexpr = $_;

# Jan 19 2007: the shell is likely to put spaces around ( );
# for us this is unnecessary and indeed, harmful
# (breaks the 45mp -> (45*mp) subst.) So remove those spaces
s/(^| )([()])( |$)/$2/g;

# Jan 19 2007: I've seen in somebody's examples calc 6^2 meaning 6**2;
# this is wrong! Perl does something else to 6^2, so
s/\^/**/g;

# Used to be: s/(^|[^\w\+-])....
s/(^|[^\w])([\+-]?(?:\d+\.?\d*|\.\d+))([eE])([\+-]?\d+(?=$|[^\d\.]))/$1$2\371$4/g;
# 1.5e5 -> 1.5Ы5 so that scientific notations don't mess up with the charge of electron
s/(^\'|\'$)//g; # Trim single quotes in the beg/end of string

s/(^|[^a-zA-Z])s($|[^a-zA-Z])/$1sec$2/g; # s -> sec
s/(^|[^a-zA-Z])mm($|[^a-zA-Z])/$1milimeter$2/g;# mm -> milimeter
s/(^|[^a-zA-Z])m($|[^a-zA-Z])/$1meter$2/g;# m -> meter
s/(\W)([a-zA-Z]\w*)!/$1fact($2)/g; # $na_3! -> fact($n)

# Mon Feb 5 09:54:58 2007: also, 10.(me+mp) -> 10.*(me*mp)
s/(\d|\.)\s*\(/$1*\(/g; # 10(me+mp) -> 10*(me+mp)
# # s/(^|[^\w\371\+-])([\+-]?(?:\d+\.?\d*|\.\d+)(?:\371[\+-]?\d+)?)([a-zA-Z]+)(?=$|\W)/$1\($2*$3\)/g; # 45mp -> (45*mp) (to be able to 6me/3mp)
# s/(^|[^\w\371])((?:\d+\.?\d*|\.\d+)(?:\371[\+-]?\d+)?)([a-zA-Z]+)(?=[\$\/\*-\+\s]|$)/$1\($2*$3\)$4/g; # 45mp -> (45*mp) (to be able to 6me/3mp)
# Modified prev line on Jan 19 2007; was:
# s/(^|[^\w\371])((?:\d+\.?\d*|\.\d+)(?:\371[\+-]?\d+)?)([a-zA-Z]+)(?=$|\W)/$1\($2*$3\)/g; # 45mp -> (45*mp) (to be able to 6me/3mp)
# otherwise asind(0.5sqrt(2)) was broken

s/([\d\.\)])\s*([a-zA-Z])/$1*$2/g; # 45a -> 45*a; )a-> )*a
s/(\w)\s+([a-zA-Z\d])/$1*$2/g; # Msun c**2 -> Msun*c**2
s/(^|\W)([abdfgijln-rt-z])(?=$|\W)/$1\$$2/g; # single letter lower-case
# variables
s{/([abdfgijln-r-t-z])(?=$|\W)}{/\$$1}g; # preceeded and followed by a
# non-word character are replaced
# with $variable; second substitution
# is needed in cases /n, because $1
# works incorrectly
s/(\d+)!/fact($1)/g; # 10! -> fact(10)
# factorial after the numbers is done last because otherwise the typo
# "calc 3.5!" results (silently) in 3.*fact(5)
s/(^|[^\w\.])0+(\d)/$1$2/g; # trim leading zeros in numbers

s/\371/e/g; # 1.5Ы5 -> 1.5e5 THIS MUST BE THE LAST TRANSFORMATION

if ($debug) {print STDERR "Debug: ",$_," format: ",$format,"\n";}
if ( !defined($_result_ = eval "$_") ) {
print STDERR "wrong expr: $origexpr -> $_\n";
}

if ( $commandline || (! /=/) ) { # ignore assignments in the stdin mode
if ($format =~ /^%l/ ) {
print $_result_,"\n";
}
else {
printf "$format\n", $_result_;
}
}
}

# ENV VARIABLES
sub check_env {
if ($ENV{"CALCFORMAT"}) {$format = $ENV{"CALCFORMAT"};} else {$format = "%g"}
if ($ENV{"CALCDEBUG"}) {$debug=1} else {$debug=0}
}

$_ = "@ARGV";
&check_env;

if ( /^-h$|^-help$/ ) {
&printconst;
exit 0;
}


if ( /\w/ ) {
$commandline = 1;
&doeval;
}
else {
$term = new Term::ReadLine 'Perl calc';

# print STDERR $term->ReadLine,"\n";

$prompt = "calc: ";
$OUT = $term->OUT || STDOUT;
while ( defined ($_ = $term->readline($prompt)) ) {
if (/^\s*history\s*$/ ) {
@govgov=$term->GetHistory;
foreach $gov ( @govgov ) {
if (! ($gov =~ /^\s*history\s*$/) ) {
print $gov,"\n";
}
}
next;
}
if (/^\s*calc\s*$/ ) {exec $0}
if (/^\s*setenv CALC/){@gov = split;$ENV{$gov[1]}=$gov[2];&check_env;next;}
if (/^\s*unsetenv CALC/){@gov = split;$ENV{$gov[1]}=0;&check_env;next;}
if (/^\s*-h\s*$/||/^\s*-help\s*$/||/^\s*help\s*$/){&printconst;next;}
@gov=split; if ($SHELLCOM{$gov[0]}) {$gov=shift(@gov);
system($SHELLCOM{$gov},@gov);
next;}
$commandline = 0;
&doeval;
}
# while ( ) {
# chop;
# $commandline = 0;
# &doeval;
# }
}

sub printconst {
$scriptname = $0;
while ( ) { print; }
open (SCR,$scriptname) || die "Can't open $scriptname";
while ( ) {
if (/^use constant |^\#------/) {
s/use constant //g;
s/=>/=/g;
print;
}
}
}

__END__
Available functions:
-------------------
exp, log, abs, sqrt, sin, cos, tan, asin, acos, atan, atan2(x,y)=atan(x/y)
sind, cosd, tand, asind, acosd, atand --- degree based trig. functions;
you can use the 'deg' constant instead.
sinh(x), cosh(x), asinh(x), acosh(x), atanh(x), acoth(x)
ln(x),lg(x) -> log_e(x), log_10(x)
gamma(x), lgamma(x) - Gamma and log(Gamma) functions
r2d(x) = x*180/pi; you can use the 'deg' constant instead
fact(n) = n!, C(n,k) = n!/(k!(n-k)!)
int, nint - integer portion and nearest integer
CtoF,FtoC - convert between degrees centrigrade and Fahrenheit.

Examples of usage can be found on http://hea-www.harvard.edu/~alexey/calc.html

Available constants (all units are in the cgs system):