732 lines
31 KiB
Groff
732 lines
31 KiB
Groff
.\"
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.\" bc.1 - the *roff document processor source for the bc manual
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.\"
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.\" This file is part of bc written for MINIX.
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.\" Copyright (C) 1991, 1992 Free Software Foundation, Inc.
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.\"
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.\" This program is free software; you can redistribute it and/or modify
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.\" it under the terms of the GNU General Public License as published by
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.\" the Free Software Foundation; either version 2 of the License , or
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.\" (at your option) any later version.
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.\"
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.\" This program is distributed in the hope that it will be useful,
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.\" but WITHOUT ANY WARRANTY; without even the implied warranty of
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.\" MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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.\" GNU General Public License for more details.
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.\"
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.\" You should have received a copy of the GNU General Public License
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.\" along with this program; see the file COPYING. If not, write to
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.\" the Free Software Foundation, 675 Mass Ave, Cambridge, MA 02139, USA.
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.\"
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.\" You may contact the author by:
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.\" e-mail: phil@cs.wwu.edu
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.\" us-mail: Philip A. Nelson
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.\" Computer Science Department, 9062
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.\" Western Washington University
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.\" Bellingham, WA 98226-9062
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.\"
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.\" $Id$
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.\"
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.TH bc 1 .\" "Command Manual" v1.02 "Feb 3, 1992"
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.SH NAME
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bc - An arbitrary precision calculator language
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.SH SYNTAX
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\fBbc\fR [ \fB-lws\fR ] [ \fI file ...\fR ]
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.SH VERSION
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This man page documents GNU bc version 1.02.
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.SH DESCRIPTION
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\fBbc\fR is a language that supports arbitrary precision numbers
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with interactive execution of statements. There are some similarities
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in the syntax to the C programming language.
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A standard math library is available by command line option.
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If requested, the math library is defined before processing any files.
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\fBbc\fR starts by processing code from all the files listed
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on the command line in the order listed. After all files have been
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processed, \fBbc\fR reads from the standard input. All code is
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executed as it is read. (If a file contains a command to halt the
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processor, \fBbc\fR will never read from the standard input.)
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.PP
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This version of \fBbc\fR contains several extensions beyond
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traditional \fBbc\fR implementations and the POSIX draft standard.
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Command line options can cause these extensions to print a warning
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or to be rejected. This
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document describes the language accepted by this processor.
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Extensions will be identified as such.
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.SS OPTIONS
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.IP -l
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Define the standard math library.
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.IP -w
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Give warnings for extensions to POSIX \fBbc\fR.
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.IP -s
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Process exactly the POSIX \fBbc\fR language.
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.SS NUMBERS
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The most basic element in \fBbc\fR is the number. Numbers are
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arbitrary precision numbers. This precision is both in the integer
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part and the fractional part. All numbers are represented internally
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in decimal and all computation is done in decimal. (This version
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truncates results from divide and multiply operations.) There are two
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attributes of numbers, the length and the scale. The length is the
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total number of significant decimal digits in a number and the scale
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is the total number of decimal digits after the decimal point. For
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example:
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.nf
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.RS
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.000001 has a length of 6 and scale of 6.
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1935.000 has a length of 7 and a scale of 3.
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.RE
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.fi
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.SS VARIABLES
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Numbers are stored in two types of variables, simple variables and
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arrays. Both simple variables and array variables are named. Names
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begin with a letter followed by any number of letters, digits and
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underscores. All letters must be lower case. (Full alpha-numeric
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names are an extension. In POSIX \fBbc\fR all names are a single
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lower case letter.) The type of variable is clear by the context
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because all array variable names will be followed by brackets ([]).
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.PP
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There are four special variables, \fBscale, ibase, obase,\fR and
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\fBlast\fR. \fBscale\fR defines how some operations use digits after the
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decimal point. The default value of \fBscale\fR is 0. \fBibase\fR
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and \fBobase\fR define the conversion base for input and output
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numbers. The default for both input and output is base 10.
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\fBlast\fR (an extension) is a variable that has the value of the last
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printed number. These will be discussed in further detail where
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appropriate. All of these variables may have values assigned to them
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as well as used in expressions.
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.SS COMMENTS
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Comments in \fBbc\fR start with the characters \fB/*\fR and end with
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the characters \fB*/\fR. Comments may start anywhere and appear as a
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single space in the input. (This causes comments to delimit other
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input items. For example, a comment can not be found in the middle of
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a variable name.) Comments include any newlines (end of line) between
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the start and the end of the comment.
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.SS EXPRESSIONS
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The numbers are manipulated by expressions and statements. Since
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the language was designed to be interactive, statements and expressions
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are executed as soon as possible. There is no "main" program. Instead,
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code is executed as it is encountered. (Functions, discussed in
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detail later, are defined when encountered.)
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.PP
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A simple expression is just a constant. \fBbc\fR converts constants
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into internal decimal numbers using the current input base, specified
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by the variable \fBibase\fR. (There is an exception in functions.)
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The legal values of \fBibase\fR are 2 through 16 (F). Assigning a
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value outside this range to \fBibase\fR will result in a value of 2
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or 16. Input numbers may contain the characters 0-9 and A-F. (Note:
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They must be capitals. Lower case letters are variable names.)
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Single digit numbers always have the value of the digit regardless of
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the value of \fBibase\fR. (i.e. A = 10.) For multi-digit numbers,
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\fBbc\fR changes all input digits greater or equal to ibase to the
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value of \fBibase\fR-1. This makes the number \fBFFF\fR always be
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the largest 3 digit number of the input base.
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.PP
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Full expressions are similar to many other high level languages.
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Since there is only one kind of number, there are no rules for mixing
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types. Instead, there are rules on the scale of expressions. Every
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expression has a scale. This is derived from the scale of original
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numbers, the operation performed and in many cases, the value of the
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variable \fBscale\fR. Legal values of the variable \fBscale\fR are
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0 to the maximum number representable by a C integer.
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.PP
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In the following descriptions of legal expressions, "expr" refers to a
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complete expression and "var" refers to a simple or an array variable.
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A simple variable is just a
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.RS
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\fIname\fR
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.RE
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and an array variable is specified as
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.RS
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\fIname\fR[\fIexpr\fR]
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.RE
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Unless specifically
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mentioned the scale of the result is the maximum scale of the
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expressions involved.
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.IP "- expr"
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The result is the negation of the expression.
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.IP "++ var"
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The variable is incremented by one and the new value is the result of
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the expression.
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.IP "-- var"
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The variable
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is decremented by one and the new value is the result of the
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expression.
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.IP "var ++"
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The result of the expression is the value of
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the variable and then the variable is incremented by one.
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.IP "var --"
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The result of the expression is the value of the variable and then
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the variable is decremented by one.
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.IP "expr + expr"
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The result of the expression is the sum of the two expressions.
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.IP "expr - expr"
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The result of the expression is the difference of the two expressions.
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.IP "expr * expr"
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The result of the expression is the product of the two expressions.
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.IP "expr / expr"
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The result of the expression is the quotient of the two expressions.
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The scale of the result is the value of the variable \fBscale\fR.
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.IP "expr % expr"
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The result of the expression is the "remainder" and it is computed in the
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following way. To compute a%b, first a/b is computed to \fBscale\fR
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digits. That result is used to compute a-(a/b)*b to the scale of the
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maximum of \fBscale\fR+scale(b) and scale(a). If \fBscale\fR is set
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to zero and both expressions are integers this expression is the
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integer remainder function.
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.IP "expr ^ expr"
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The result of the expression is the value of the first raised to the
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second. The second expression must be an integer. (If the second
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expression is not an integer, a warning is generated and the
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expression is truncated to get an integer value.) The scale of the
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result is \fBscale\fR if the exponent is negative. If the exponent
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is positive the scale of the result is the minimum of the scale of the
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first expression times the value of the exponent and the maximum of
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\fBscale\fR and the scale of the first expression. (e.g. scale(a^b)
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= min(scale(a)*b, max( \fBscale,\fR scale(a))).) It should be noted
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that expr^0 will always return the value of 1.
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.IP "( expr )"
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This alters the standard precedence to force the evaluation of the
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expression.
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.IP "var = expr"
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The variable is assigned the value of the expression.
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.IP "var <op>= expr"
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This is equivalent to "var = var <op> expr" with the exception that
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the "var" part is evaluated only once. This can make a difference if
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"var" is an array.
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.PP
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Relational expressions are a special kind of expression
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that always evaluate to 0 or 1, 0 if the relation is false and 1 if
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the relation is true. These may appear in any legal expression.
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(POSIX bc requires that relational expressions are used only in if,
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while, and for statements and that only one relational test may be
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done in them.) The relational operators are
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.IP "expr1 < expr2"
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The result is 1 if expr1 is strictly less than expr2.
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.IP "expr1 <= expr2"
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The result is 1 if expr1 is less than or equal to expr2.
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.IP "expr1 > expr2"
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The result is 1 if expr1 is strictly greater than expr2.
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.IP "expr1 >= expr2"
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The result is 1 if expr1 is greater than or equal to expr2.
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.IP "expr1 == expr2"
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The result is 1 if expr1 is equal to expr2.
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.IP "expr1 != expr2"
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The result is 1 if expr1 is not equal to expr2.
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.PP
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Boolean operations are also legal. (POSIX \fBbc\fR does NOT have
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boolean operations). The result of all boolean operations are 0 and 1
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(for false and true) as in relational expressions. The boolean
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operators are:
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.IP "!expr"
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The result is 1 if expr is 0.
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.IP "expr && expr"
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The result is 1 if both expressions are non-zero.
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.IP "expr || expr"
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The result is 1 if either expression is non-zero.
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.PP
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The expression precedence is as follows: (lowest to highest)
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.nf
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.RS
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|| operator, left associative
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&& operator, left associative
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! operator, nonassociative
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Relational operators, left associative
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Assignment operator, right associative
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+ and - operators, left associative
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*, / and % operators, left associative
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^ operator, right associative
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unary - operator, nonassociative
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++ and -- operators, nonassociative
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.RE
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.fi
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.PP
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This precedence was chosen so that POSIX compliant \fBbc\fR programs
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will run correctly. This will cause the use of the relational and
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logical operators to have some unusual behavior when used with
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assignment expressions. Consider the expression:
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.RS
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a = 3 < 5
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.RE
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.PP
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Most C programmers would assume this would assign the result of "3 <
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5" (the value 1) to the variable "a". What this does in \fBbc\fR is
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assign the value 3 to the variable "a" and then compare 3 to 5. It is
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best to use parenthesis when using relational and logical operators
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with the assignment operators.
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.PP
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There are a few more special expressions that are provided in \fBbc\fR.
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These have to do with user defined functions and standard
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functions. They all appear as "\fIname\fB(\fIparameters\fB)\fR".
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See the section on functions for user defined functions. The standard
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functions are:
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.IP "length ( expression )"
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The value of the length function is the number of significant digits in the
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expression.
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.IP "read ( )"
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The read function (an extension) will read a number from the standard
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input, regardless of where the function occurs. Beware, this can
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cause problems with the mixing of data and program in the standard input.
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The best use for this function is in a previously written program that
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needs input from the user, but never allows program code to be input
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from the user. The value of the read function is the number read from
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the standard input using the current value of the variable
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\fBibase\fR for the conversion base.
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.IP "scale ( expression )"
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The value of the scale function is the number of digits after the decimal
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point in the expression.
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.IP "sqrt ( expression )"
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The value of the sqrt function is the square root of the expression. If
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the expression is negative, a run time error is generated.
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.SS STATEMENTS
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Statements (as in most algebraic languages) provide the sequencing of
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expression evaluation. In \fBbc\fR statements are executed "as soon
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as possible." Execution happens when a newline in encountered and
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there is one or more complete statements. Due to this immediate
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execution, newlines are very important in \fBbc\fR. In fact, both a
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semicolon and a newline are used as statement separators. An
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improperly placed newline will cause a syntax error. Because newlines
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are statement separators, it is possible to hide a newline by using
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the backslash character. The sequence "\e<nl>", where <nl> is the
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newline appears to \fBbc\fR as whitespace instead of a newline. A
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statement list is a series of statements separated by semicolons and
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newlines. The following is a list of \fBbc\fR statements and what
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they do: (Things enclosed in brackets ([]) are optional parts of the
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statement.)
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.IP "expression"
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This statement does one of two things. If the expression starts with
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"<variable> <assignment> ...", it is considered to be an assignment
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statement. If the expression is not an assignment statement, the
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expression is evaluated and printed to the output. After the number
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is printed, a newline is printed. For example, "a=1" is an assignment
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statement and "(a=1)" is an expression that has an embedded
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assignment. All numbers that are printed are printed in the base
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specified by the variable \fBobase\fR. The legal values for \fB
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obase\fR are 2 through BC_BASE_MAX. (See the section LIMITS.) For
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bases 2 through 16, the usual method of writing numbers is used. For
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bases greater than 16, \fBbc\fR uses a multi-character digit method
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of printing the numbers where each higher base digit is printed as a
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base 10 number. The multi-character digits are separated by spaces.
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Each digit contains the number of characters required to represent the
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base ten value of "obase-1". Since numbers are of arbitrary
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precision, some numbers may not be printable on a single output line.
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These long numbers will be split across lines using the "\e" as the
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last character on a line. The maximum number of characters printed
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per line is 70. Due to the interactive nature of \fBbc\fR printing
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a number cause the side effect of assigning the printed value the
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special variable \fBlast\fR. This allows the user to recover the
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last value printed without having to retype the expression that
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printed the number. Assigning to \fBlast\fR is legal and will
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overwrite the last printed value with the assigned value. The newly
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assigned value will remain until the next number is printed or another
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value is assigned to \fBlast\fR.
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.IP "string"
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The string is printed to the output. Strings start with a double quote
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character and contain all characters until the next double quote character.
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All characters are take literally, including any newline. No newline
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character is printed after the string.
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.IP "\fBprint\fR list"
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The print statement (an extension) provides another method of output.
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The "list" is a list of strings and expressions separated by commas.
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Each string or expression is printed in the order of the list. No
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terminating newline is printed. Expressions are evaluated and their
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value is printed and assigned the variable \fBlast\fR. Strings
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in the print statement are printed to the output and may contain
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special characters. Special characters start with the backslash
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character (\e). The special characters recognized by \fBbc\fR are
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"b" (bell), "f" (form feed), "n" (newline), "r" (carriage return), "t"
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(tab), and "\e" (backslash). Any other character following the
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backslash will be ignored. This still does not allow the double quote
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character to be part of any string.
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.IP "{ statement_list }"
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This is the compound statement. It allows multiple statements to be
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grouped together for execution.
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.IP "\fBif\fR ( expression ) \fBthen\fR statement1 [\fBelse\fR statement2]"
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The if statement evaluates the expression and executes statement1 or
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statement2 depending on the value of the expression. If the expression
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is non-zero, statement1 is executed. If statement2 is present and
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the value of the expression is 0, then statement2 is executed. (The
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else clause is an extension.)
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.IP "\fBwhile\fR ( expression ) statement"
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The while statement will execute the statement while the expression
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is non-zero. It evaluates the expression before each execution of
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the statement. Termination of the loop is caused by a zero
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expression value or the execution of a break statement.
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.IP "\fBfor\fR ( [expression1] ; [expression2] ; [expression3] ) statement"
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The for statement controls repeated execution of the statement.
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Expression1 is evaluated before the loop. Expression2 is evaluated
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before each execution of the statement. If it is non-zero, the statement
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is evaluated. If it is zero, the loop is terminated. After each
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execution of the statement, expression3 is evaluated before the reevaluation
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of expression2. If expression1 or expression3 are missing, nothing is
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evaluated at the point they would be evaluated.
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If expression2 is missing, it is the same as substituting
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the value 1 for expression2. (The optional expressions are an
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extension. POSIX \fBbc\fR requires all three expressions.)
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The following is equivalent code for the for statement:
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.nf
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.RS
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expression1;
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while (expression2) {
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statement;
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expression3;
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}
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.RE
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.fi
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.IP "\fBbreak\fR"
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This statement causes a forced exit of the most recent enclosing while
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statement or for statement.
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.IP "\fBcontinue\fR"
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The continue statement (an extension) causes the most recent enclosing
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for statement to start the next iteration.
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.IP "\fBhalt\fR"
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The halt statement (an extension) is an executed statement that causes
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the \fBbc\fR processor to quit only when it is executed. For example,
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"if (0 == 1) halt" will not cause \fBbc\fR to terminate because the halt is
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not executed.
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.IP "\fBreturn\fR"
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Return the value 0 from a function. (See the section on functions.)
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.IP "\fBreturn\fR ( expression )"
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Return the value of the expression from a function. (See the section on
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functions.)
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.SS PSEUDO STATEMENTS
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These statements are not statements in the traditional sense. They are
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not executed statements. Their function is performed at "compile" time.
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.IP "\fBlimits\fR"
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Print the local limits enforced by the local version of \fBbc\fR. This
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is an extension.
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.IP "\fBquit\fR"
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When the quit statement is read, the \fBbc\fR processor
|
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is terminated, regardless of where the quit statement is found. For
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example, "if (0 == 1) quit" will cause \fBbc\fR to terminate.
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.IP "\fBwarranty\fR"
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Print a longer warranty notice. This is an extension.
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.SS FUNCTIONS
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Functions provide a method of defining a computation that can be executed
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later. Functions in
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.B bc
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always compute a value and return it to the caller. Function definitions
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|
are "dynamic" in the sense that a function is undefined until a definition
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is encountered in the input. That definition is then used until another
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definition function for the same name is encountered. The new definition
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then replaces the older definition. A function is defined as follows:
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.nf
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.RS
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\fBdefine \fIname \fB( \fIparameters \fB) { \fInewline
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\fI auto_list statement_list \fB}\fR
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.RE
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.fi
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A function call is just an expression of the form
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"\fIname\fB(\fIparameters\fB)\fR".
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.PP
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|
Parameters are numbers or arrays (an extension). In the function definition,
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zero or more parameters are defined by listing their names separated by
|
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commas. Numbers are only call by value parameters. Arrays are only
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call by variable. Arrays are specified in the parameter definition by
|
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the notation "\fIname\fB[]\fR". In the function call, actual parameters
|
|
are full expressions for number parameters. The same notation is used
|
|
for passing arrays as for defining array parameters. The named array is
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passed by variable to the function. Since function definitions are dynamic,
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parameter numbers and types are checked when a function is called. Any
|
|
mismatch in number or types of parameters will cause a runtime error.
|
|
A runtime error will also occur for the call to an undefined function.
|
|
.PP
|
|
The \fIauto_list\fR is an optional list of variables that are for
|
|
"local" use. The syntax of the auto list (if present) is "\fBauto
|
|
\fIname\fR, ... ;". (The semicolon is optional.) Each \fIname\fR is
|
|
the name of an auto variable. Arrays may be specified by using the
|
|
same notation as used in parameters. These variables have their
|
|
values pushed onto a stack at the start of the function. The
|
|
variables are then initialized to zero and used throughout the
|
|
execution of the function. At function exit, these variables are
|
|
popped so that the original value (at the time of the function call)
|
|
of these variables are restored. The parameters are really auto
|
|
variables that are initialized to a value provided in the function
|
|
call. Auto variables are different than traditional local variables
|
|
in the fact that if function A calls function B, B may access function
|
|
A's auto variables by just using the same name, unless function B has
|
|
called them auto variables. Due to the fact that auto variables and
|
|
parameters are pushed onto a stack, \fBbc\fR supports recursive functions.
|
|
.PP
|
|
The function body is a list of \fBbc\fR statements. Again, statements
|
|
are separated by semicolons or newlines. Return statements cause the
|
|
termination of a function and the return of a value. There are two
|
|
versions of the return statement. The first form, "\fBreturn\fR", returns
|
|
the value 0 to the calling expression. The second form,
|
|
"\fBreturn ( \fIexpression \fB)\fR", computes the value of the expression
|
|
and returns that value to the calling expression. There is an implied
|
|
"\fBreturn (0)\fR" at the end of every function. This allows a function
|
|
to terminate and return 0 without an explicit return statement.
|
|
.PP
|
|
Functions also change the usage of the variable \fBibase\fR. All
|
|
constants in the function body will be converted using the value of
|
|
\fBibase\fR at the time of the function call. Changes of \fBibase\fR
|
|
will be ignored during the execution of the function except for the
|
|
standard function \fBread\fR, which will always use the current value
|
|
of \fBibase\fR for conversion of numbers.
|
|
.SS MATH LIBRARY
|
|
If \fBbc\fR is invoked with the \fB-l\fR option, a math library is preloaded
|
|
and the default scale is set to 20. The math functions will calculate their
|
|
results to the scale set at the time of their call.
|
|
The math library defines the following functions:
|
|
.IP "s (\fIx\fR)"
|
|
The sine of x in radians.
|
|
.IP "c (\fIx\fR)"
|
|
The cosine of x in radians.
|
|
.IP "a (\fIx\fR)"
|
|
The arctangent of x.
|
|
.IP "l (\fIx\fR)"
|
|
The natural logarithm of x.
|
|
.IP "e (\fIx\fR)"
|
|
The exponential function of raising e to the value x.
|
|
.IP "j (\fIn,x\fR)"
|
|
The bessel function of integer order n of x.
|
|
.SS EXAMPLES
|
|
In /bin/sh, the following will assign the value of "pi" to the shell
|
|
variable \fBpi\fR.
|
|
.RS
|
|
\f(CW
|
|
pi=$(echo "scale=10; 4*a(1)" | bc -l)
|
|
\fR
|
|
.RE
|
|
.PP
|
|
The following is the definition of the exponential function used in the
|
|
math library. This function is written in POSIX \fBbc\fR.
|
|
.nf
|
|
.RS
|
|
\f(CW
|
|
scale = 20
|
|
|
|
/* Uses the fact that e^x = (e^(x/2))^2
|
|
When x is small enough, we use the series:
|
|
e^x = 1 + x + x^2/2! + x^3/3! + ...
|
|
*/
|
|
|
|
define e(x) {
|
|
auto a, d, e, f, i, m, v, z
|
|
|
|
/* Check the sign of x. */
|
|
if (x<0) {
|
|
m = 1
|
|
x = -x
|
|
}
|
|
|
|
/* Precondition x. */
|
|
z = scale;
|
|
scale = 4 + z + .44*x;
|
|
while (x > 1) {
|
|
f += 1;
|
|
x /= 2;
|
|
}
|
|
|
|
/* Initialize the variables. */
|
|
v = 1+x
|
|
a = x
|
|
d = 1
|
|
|
|
for (i=2; 1; i++) {
|
|
e = (a *= x) / (d *= i)
|
|
if (e == 0) {
|
|
if (f>0) while (f--) v = v*v;
|
|
scale = z
|
|
if (m) return (1/v);
|
|
return (v/1);
|
|
}
|
|
v += e
|
|
}
|
|
}
|
|
\fR
|
|
.RE
|
|
.fi
|
|
.PP
|
|
The following is code that uses the extended features of \fBbc\fR to
|
|
implement a simple program for calculating checkbook balances. This
|
|
program is best kept in a file so that it can be used many times
|
|
without having to retype it at every use.
|
|
.nf
|
|
.RS
|
|
\f(CW
|
|
scale=2
|
|
print "\enCheck book program!\en"
|
|
print " Remember, deposits are negative transactions.\en"
|
|
print " Exit by a 0 transaction.\en\en"
|
|
|
|
print "Initial balance? "; bal = read()
|
|
bal /= 1
|
|
print "\en"
|
|
while (1) {
|
|
"current balance = "; bal
|
|
"transaction? "; trans = read()
|
|
if (trans == 0) break;
|
|
bal -= trans
|
|
bal /= 1
|
|
}
|
|
quit
|
|
\fR
|
|
.RE
|
|
.fi
|
|
.PP
|
|
The following is the definition of the recursive factorial function.
|
|
.nf
|
|
.RS
|
|
\f(CW
|
|
define f (x) {
|
|
if (x <= 1) return (1);
|
|
return (f(x-1) * x);
|
|
}
|
|
\fR
|
|
.RE
|
|
.fi
|
|
.SS DIFFERENCES
|
|
This version of
|
|
.B bc
|
|
was implemented from the POSIX P1003.2/D11 draft and contains
|
|
several differences and extensions relative to the draft and
|
|
traditional implementations.
|
|
It is not implemented in the traditional way using
|
|
.I dc(1).
|
|
This version is a single process which parses and runs a byte code
|
|
translation of the program. There is an "undocumented" option (-c)
|
|
that causes the program to output the byte code to
|
|
the standard output instead of running it. It was mainly used for
|
|
debugging the parser and preparing the math library.
|
|
.PP
|
|
A major source of differences is
|
|
extensions, where a feature is extended to add more functionality and
|
|
additions, where new features are added.
|
|
The following is the list of differences and extensions.
|
|
.IP LANG environment
|
|
This version does not conform to the POSIX standard in the processing
|
|
of the LANG environment variable and all environment variables starting
|
|
with LC_.
|
|
.IP names
|
|
Traditional and POSIX
|
|
.B bc
|
|
have single letter names for functions, variables and arrays. They have
|
|
been extended to be multi-character names that start with a letter and
|
|
may contain letters, numbers and the underscore character.
|
|
.IP Strings
|
|
Strings are not allowed to contain NUL characters. POSIX says all characters
|
|
must be included in strings.
|
|
.IP last
|
|
POSIX \fBbc\fR does not have a \fBlast\fR variable. Some implementations
|
|
of \fBbc\fR use the period (.) in a similar way.
|
|
.IP comparisons
|
|
POSIX \fBbc\fR allows comparisons only in the if statement, the while
|
|
statement, and the second expression of the for statement. Also, only
|
|
one relational operation is allowed in each of those statements.
|
|
.IP "if statement, else clause"
|
|
POSIX \fBbc\fR does not have an else clause.
|
|
.IP "for statement"
|
|
POSIX \fBbc\fR requires all expressions to be present in the for statement.
|
|
.IP "&&, ||, !"
|
|
POSIX \fBbc\fR does not have the logical operators.
|
|
.IP "read function"
|
|
POSIX \fBbc\fR does not have a read function.
|
|
.IP "print statement"
|
|
POSIX \fBbc\fR does not have a print statement .
|
|
.IP "continue statement"
|
|
POSIX \fBbc\fR does not have a continue statement.
|
|
.IP "array parameters"
|
|
POSIX \fBbc\fR does not have array parameters. Other implementations
|
|
of \fBbc\fR may have call by value array parameters.
|
|
.IP "=+, =-, =*, =/, =%, =^"
|
|
POSIX \fBbc\fR does not require these "old style" assignment operators to
|
|
be defined. This version may allow these "old style" assignments. Use
|
|
the limits statement to see if the installed version supports them. If
|
|
it does support the "old style" assignment operators, the statement
|
|
"a =- 1" will decrement \fBa\fR by 1 instead of setting \fBa\fR to the
|
|
value -1.
|
|
.IP "spaces in numbers"
|
|
Other implementations of \fBbc\fR allow spaces in numbers. For example,
|
|
"x=1 3" would assign the value 13 to the variable x. The same statement
|
|
would cause a syntax error in this version of \fBbc\fR.
|
|
.IP "errors and execution"
|
|
This implementation varies from other implementations in terms of what
|
|
code will be executed when syntax and other errors are found in the
|
|
program. If a syntax error is found in a function definition, error
|
|
recovery tries to find the beginning of a statement and continue to
|
|
parse the function. Once a syntax error is found in the function, the
|
|
function will not be callable and becomes undefined.
|
|
Syntax errors in the interactive execution code will invalidate the
|
|
current execution block. The execution block is terminated by an
|
|
end of line that appears after a complete sequence of statements.
|
|
For example,
|
|
.nf
|
|
.RS
|
|
a = 1
|
|
b = 2
|
|
.RE
|
|
.fi
|
|
has two execution blocks and
|
|
.nf
|
|
.RS
|
|
{ a = 1
|
|
b = 2 }
|
|
.RE
|
|
.fi
|
|
has one execution block. Any runtime error will terminate the execution
|
|
of the current execution block. A runtime warning will not terminate the
|
|
current execution block.
|
|
.IP "Interrupts"
|
|
During an interactive session, the SIGINT signal (usually generated by
|
|
the control-C character from the terminal) will cause execution of the
|
|
current execution block to be interrupted. It will display a "runtime"
|
|
error indicating which function was interrupted. After all runtime
|
|
structures have been cleaned up, a message will be printed to notify the
|
|
user that \fBbc\fR is ready for more input. All previously defined functions
|
|
remain defined and the value of all non-auto variables are the value at
|
|
the point of interruption. All auto variables and function parameters
|
|
are removed during the
|
|
clean up process. During a non-interactive
|
|
session, the SIGINT signal will terminate the entire run of \fBbc\fR.
|
|
.SS LIMITS
|
|
The following are the limits currently in place for this
|
|
.B bc
|
|
processor. Some of them may have been changed by an installation.
|
|
Use the limits statement to see the actual values.
|
|
.IP BC_BASE_MAX
|
|
The maximum output base is currently set at 999. The maximum input base
|
|
is 16.
|
|
.IP BC_DIM_MAX
|
|
This is currently an arbitrary limit of 65535 as distributed. Your
|
|
installation may be different.
|
|
.IP BC_SCALE_MAX
|
|
The number of digits after the decimal point is limited to INT_MAX digits.
|
|
Also, the number of digits before the decimal point is limited to INT_MAX
|
|
digits.
|
|
.IP BC_STRING_MAX
|
|
The limit on the number of characters in a string is INT_MAX characters.
|
|
.IP exponent
|
|
The value of the exponent in the raise operation (^) is limited to LONG_MAX.
|
|
.IP multiply
|
|
The multiply routine may yield incorrect results if a number
|
|
has more than LONG_MAX / 90 total digits. For 32 bit longs, this number is
|
|
23,860,929 digits.
|
|
.IP "code size"
|
|
Each function and the "main" program are limited to 10240 bytes of
|
|
compiled byte code each. This limit (BC_MAX_SEGS) can be easily changed
|
|
to have more than 10 segments of 1024 bytes.
|
|
.IP "variable names"
|
|
The current limit on the number of unique names is 32767 for each of
|
|
simple variables, arrays and functions.
|
|
.SH FILES
|
|
In most installations, \fBbc\fR is completely self-contained.
|
|
Where executable size is of importance or the C compiler does
|
|
not deal with very long strings, \fBbc\fR will read
|
|
the standard math library from the file /usr/local/lib/libmath.b.
|
|
(The actual location may vary. It may be /lib/libmath.b.)
|
|
.SH DIAGNOSTICS
|
|
If any file on the command line can not be opened, \fBbc\fR will report
|
|
that the file is unavailable and terminate. Also, there are compile
|
|
and run time diagnostics that should be self-explanatory.
|
|
.SH BUGS
|
|
Error recovery is not very good yet.
|
|
.SH AUTHOR
|
|
.nf
|
|
Philip A. Nelson
|
|
phil@cs.wwu.edu
|
|
.fi
|
|
.SH ACKNOWLEDGEMENTS
|
|
The author would like to thank Steve Sommars (sesv@iwtsf.att.com) for
|
|
his extensive help in testing the implementation. Many great suggestions
|
|
were given. This is a much better product due to his involvement.
|