# FreeBSD Manual Pages

bc(1) General Commands Manual bc(1)NAMEbc - An arbitrary precision calculator languageSYNTAXbc[-hlwsqv] [long-options] [file...]VERSIONThis man page documents GNU bc version 1.06.DESCRIPTIONbcis a language that supports arbitrary precision numbers with inter- active execution of statements. There are some similarities in the syntax to the C programming language. A standard math library is available by command line option. If requested, the math library is defined before processing any files.bcstarts by processing code from all the files listed on the command line in the order listed. After all files have been processed,bcreads from the standard input. All code is executed as it is read. (If a file contains a command to halt the processor,bcwill never read from the standard input.) This version ofbccontains several extensions beyond traditionalbcimplementations and the POSIX draft standard. Command line options can cause these extensions to print a warning or to be rejected. This doc- ument describes the language accepted by this processor. Extensions will be identified as such.OPTIONS-h, --help Print the usage and exit. -i, --interactive Force interactive mode. -l, --mathlib Define the standard math library. -w, --warn Give warnings for extensions to POSIXbc. -s, --standard Process exactly the POSIXbclanguage. -q, --quiet Do not print the normal GNU bc welcome. -v, --version Print the version number and copyright and quit.NUMBERSThe most basic element inbcis the number. Numbers are arbitrary pre- cision numbers. This precision is both in the integer part and the fractional part. All numbers are represented internally in decimal and all computation is done in decimal. (This version truncates results from divide and multiply operations.) There are two attributes of num- bers, the length and the scale. The length is the total number of sig- nificant decimal digits in a number and the scale is the total number of decimal digits after the decimal point. For example: .000001 has a length of 6 and scale of 6. 1935.000 has a length of 7 and a scale of 3.VARIABLESNumbers are stored in two types of variables, simple variables and ar- rays. Both simple variables and array variables are named. Names be- gin with a letter followed by any number of letters, digits and under- scores. All letters must be lower case. (Full alpha-numeric names are an extension. In POSIXbcall names are a single lower case letter.) The type of variable is clear by the context because all array variable names will be followed by brackets ([]). There are four special variables,scale,ibase,obase,andlast.scaledefines how some operations use digits after the decimal point. The default value ofscaleis 0.ibaseandobasedefine the conversion base for input and output numbers. The default for both input and output is base 10.last(an extension) is a variable that has the value of the last printed number. These will be discussed in further detail where appropriate. All of these variables may have values assigned to them as well as used in expressions.COMMENTSComments inbcstart with the characters/*and end with the characters*/. Comments may start anywhere and appear as a single space in the input. (This causes comments to delimit other input items. For exam- ple, a comment can not be found in the middle of a variable name.) Comments include any newlines (end of line) between the start and the end of the comment. To support the use of scripts forbc, a single line comment has been added as an extension. A single line comment starts at a#character and continues to the next end of the line. The end of line character is not part of the comment and is processed normally.EXPRESSIONSThe numbers are manipulated by expressions and statements. Since the language was designed to be interactive, statements and expressions are executed as soon as possible. There is no "main" program. Instead, code is executed as it is encountered. (Functions, discussed in detail later, are defined when encountered.) A simple expression is just a constant.bcconverts constants into in- ternal decimal numbers using the current input base, specified by the variableibase. (There is an exception in functions.) The legal values ofibaseare 2 through 16. Assigning a value outside this range toibasewill result in a value of 2 or 16. Input numbers may contain the characters 0-9 and A-F. (Note: They must be capitals. Lower case let- ters are variable names.) Single digit numbers always have the value of the digit regardless of the value ofibase. (i.e. A = 10.) For multi-digit numbers,bcchanges all input digits greater or equal to ibase to the value ofibase-1. This makes the numberFFFalways be the largest 3 digit number of the input base. Full expressions are similar to many other high level languages. Since there is only one kind of number, there are no rules for mixing types. Instead, there are rules on the scale of expressions. Every expression has a scale. This is derived from the scale of original numbers, the operation performed and in many cases, the value of the variablescale. Legal values of the variablescaleare 0 to the maximum number repre- sentable by a C integer. In the following descriptions of legal expressions, "expr" refers to a complete expression and "var" refers to a simple or an array variable. A simple variable is just anameand an array variable is specified asname[expr] Unless specifically mentioned the scale of the result is the maximum scale of the expressions involved. - expr The result is the negation of the expression. ++ var The variable is incremented by one and the new value is the re- sult of the expression. -- var The variable is decremented by one and the new value is the re- sult of the expression. var ++ The result of the expression is the value of the variable and then the variable is incremented by one. var -- The result of the expression is the value of the variable and then the variable is decremented by one. expr + expr The result of the expression is the sum of the two expressions. expr - expr The result of the expression is the difference of the two ex- pressions. expr * expr The result of the expression is the product of the two expres- sions. expr / expr The result of the expression is the quotient of the two expres- sions. The scale of the result is the value of the variablescale. expr % expr The result of the expression is the "remainder" and it is com- puted in the following way. To compute a%b, first a/b is com- puted toscaledigits. That result is used to compute a-(a/b)*b to the scale of the maximum ofscale+scale(b) and scale(a). Ifscaleis set to zero and both expressions are integers this ex- pression is the integer remainder function. expr ^ expr The result of the expression is the value of the first raised to the second. The second expression must be an integer. (If the second expression is not an integer, a warning is generated and the expression is truncated to get an integer value.) The scale of the result isscaleif the exponent is negative. If the ex- ponent is positive the scale of the result is the minimum of the scale of the first expression times the value of the exponent and the maximum ofscaleand the scale of the first expression. (e.g. scale(a^b) = min(scale(a)*b, max(scale,scale(a))).) It should be noted that expr^0 will always return the value of 1. ( expr ) This alters the standard precedence to force the evaluation of the expression. var = expr The variable is assigned the value of the expression. var <op>= expr This is equivalent to "var = var <op> expr" with the exception that the "var" part is evaluated only once. This can make a difference if "var" is an array. Relational expressions are a special kind of expression that always evaluate to 0 or 1, 0 if the relation is false and 1 if the relation is true. These may appear in any legal expression. (POSIX bc requires that relational expressions are used only in if, while, and for state- ments and that only one relational test may be done in them.) The re- lational operators are expr1 < expr2 The result is 1 if expr1 is strictly less than expr2. expr1 <= expr2 The result is 1 if expr1 is less than or equal to expr2. expr1 > expr2 The result is 1 if expr1 is strictly greater than expr2. expr1 >= expr2 The result is 1 if expr1 is greater than or equal to expr2. expr1 == expr2 The result is 1 if expr1 is equal to expr2. expr1 != expr2 The result is 1 if expr1 is not equal to expr2. Boolean operations are also legal. (POSIXbcdoes NOT have boolean op- erations). The result of all boolean operations are 0 and 1 (for false and true) as in relational expressions. The boolean operators are: !expr The result is 1 if expr is 0. expr && expr The result is 1 if both expressions are non-zero. expr || expr The result is 1 if either expression is non-zero. The expression precedence is as follows: (lowest to highest) || operator, left associative && operator, left associative ! operator, nonassociative Relational operators, left associative Assignment operator, right associative + and - operators, left associative *, / and % operators, left associative ^ operator, right associative unary - operator, nonassociative ++ and -- operators, nonassociative This precedence was chosen so that POSIX compliantbcprograms will run correctly. This will cause the use of the relational and logical opera- tors to have some unusual behavior when used with assignment expres- sions. Consider the expression: a = 3 < 5 Most C programmers would assume this would assign the result of "3 < 5" (the value 1) to the variable "a". What this does inbcis assign the value 3 to the variable "a" and then compare 3 to 5. It is best to use parenthesis when using relational and logical operators with the as- signment operators. There are a few more special expressions that are provided inbc. These have to do with user defined functions and standard functions. They all appear as "name(parameters)". See the section on functions for user defined functions. The standard functions are: length ( expression ) The value of the length function is the number of significant digits in the expression. read ( ) The read function (an extension) will read a number from the standard input, regardless of where the function occurs. Be- ware, this can cause problems with the mixing of data and pro- gram in the standard input. The best use for this function is in a previously written program that needs input from the user, but never allows program code to be input from the user. The value of the read function is the number read from the standard input using the current value of the variableibasefor the con- version base. scale ( expression ) The value of the scale function is the number of digits after the decimal point in the expression. sqrt ( expression ) The value of the sqrt function is the square root of the expres- sion. If the expression is negative, a run time error is gener- ated.STATEMENTSStatements (as in most algebraic languages) provide the sequencing of expression evaluation. Inbcstatements are executed "as soon as pos- sible." Execution happens when a newline in encountered and there is one or more complete statements. Due to this immediate execution, new- lines are very important inbc. In fact, both a semicolon and a newline are used as statement separators. An improperly placed newline will cause a syntax error. Because newlines are statement separators, it is possible to hide a newline by using the backslash character. The se- quence "\<nl>", where <nl> is the newline appears tobcas whitespace instead of a newline. A statement list is a series of statements sepa- rated by semicolons and newlines. The following is a list ofbcstate- ments and what they do: (Things enclosed in brackets ([]) are optional parts of the statement.) expression This statement does one of two things. If the expression starts with "<variable> <assignment> ...", it is considered to be an assignment statement. If the expression is not an assignment statement, the expression is evaluated and printed to the out- put. After the number is printed, a newline is printed. For example, "a=1" is an assignment statement and "(a=1)" is an ex- pression that has an embedded assignment. All numbers that are printed are printed in the base specified by the variableobase. The legal values forobaseare 2 through BC_BASE_MAX. (See the section LIMITS.) For bases 2 through 16, the usual method of writing numbers is used. For bases greater than 16,bcuses a multi-character digit method of printing the numbers where each higher base digit is printed as a base 10 number. The multi- character digits are separated by spaces. Each digit contains the number of characters required to represent the base ten value of "obase-1". Since numbers are of arbitrary precision, some numbers may not be printable on a single output line. These long numbers will be split across lines using the "\" as the last character on a line. The maximum number of characters printed per line is 70. Due to the interactive nature ofbc, printing a number causes the side effect of assigning the printed value to the special variablelast. This allows the user to recover the last value printed without having to retype the expression that printed the number. Assigning tolastis legal and will overwrite the last printed value with the assigned value. The newly assigned value will remain until the next num- ber is printed or another value is assigned tolast. (Some in- stallations may allow the use of a single period (.) which is not part of a number as a short hand notation for forlast.) string The string is printed to the output. Strings start with a dou- ble quote character and contain all characters until the next double quote character. All characters are take literally, in- cluding any newline. No newline character is printed after the string.last. Strings in the print statement are printed to the output and may contain special characters. Special charac- ters start with the backslash character (\). The special char- acters recognized bybcare "a" (alert or bell), "b" (backspace), "f" (form feed), "n" (newline), "r" (carriage re- turn), "q" (double quote), "t" (tab), and "\" (backslash). Any other character following the backslash will be ignored. { statement_list } This is the compound statement. It allows multiple statements to be grouped together for execution.if( expression ) statement1 [elsestatement2] The if statement evaluates the expression and executes state- ment1 or statement2 depending on the value of the expression. If the expression is non-zero, statement1 is executed. If statement2 is present and the value of the expression is 0, then statement2 is executed. (The else clause is an extension.)while( expression ) statement The while statement will execute the statement while the expres- sion is non-zero. It evaluates the expression before each exe- cution of the statement. Termination of the loop is caused by a zero expression value or the execution of a break statement.for( [expression1] ; [expression2] ; [expression3] ) statement The for statement controls repeated execution of the statement. Expression1 is evaluated before the loop. Expression2 is evalu- ated before each execution of the statement. If it is non-zero, the statement is evaluated. If it is zero, the loop is termi- nated. After each execution of the statement, expression3 is evaluated before the reevaluation of expression2. If expres- sion1 or expression3 are missing, nothing is evaluated at the point they would be evaluated. If expression2 is missing, it is the same as substituting the value 1 for expression2. (The op- tional expressions are an extension. POSIXbcrequires all three expressions.) The following is equivalent code for the for statement: expression1; while (expression2) { statement; expression3; }breakThis statement causes a forced exit of the most recent enclosing while statement or for statement.continueThe continue statement (an extension) causes the most recent enclosing for statement to start the next iteration.haltThe halt statement (an extension) is an executed statement that causes thebcprocessor to quit only when it is executed. For example, "if (0 == 1) halt" will not causebcto terminate be- cause the halt is not executed.returnReturn the value 0 from a function. (See the section on func- tions.)return( expression ) Return the value of the expression from a function. (See the section on functions.) As an extension, the parenthesis are not required.PSEUDOSTATEMENTSThese statements are not statements in the traditional sense. They are not executed statements. Their function is performed at "compile" time.limitsPrint the local limits enforced by the local version ofbc. This is an extension.quitWhen the quit statement is read, thebcprocessor is terminated, regardless of where the quit statement is found. For example, "if (0 == 1) quit" will causebcto terminate.warrantyPrint a longer warranty notice. This is an extension.FUNCTIONSFunctions provide a method of defining a computation that can be exe- cuted later. Functions inbcalways compute a value and return it to the caller. Function definitions are "dynamic" in the sense that a function is undefined until a definition is encountered in the input. That definition is then used until another definition function for the same name is encountered. The new definition then replaces the older definition. A function is defined as follows:definename(parameters){newlineauto_liststatement_list}A function call is just an expression of the form "name(parameters)". Parameters are numbers or arrays (an extension). In the function defi- nition, zero or more parameters are defined by listing their names sep- arated by commas. Numbers are only call by value parameters. Arrays are only call by variable. Arrays are specified in the parameter defi- nition by the notation "name[]". In the function call, actual parame- ters are full expressions for number parameters. The same notation is used for passing arrays as for defining array parameters. The named array is passed by variable to the function. Since function defini- tions are dynamic, parameter numbers and types are checked when a func- tion 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. Theauto_listis an optional list of variables that are for "local" use. The syntax of the auto list (if present) is "autoname, ... ;". (The semicolon is optional.) Eachnameis the name of an auto vari- able. 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 because 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,bcsupports recursive functions. The function body is a list ofbcstatements. Again, statements are separated by semicolons or newlines. Return statements cause the ter- mination of a function and the return of a value. There are two ver- sions of the return statement. The first form, "return", returns the value 0 to the calling expression. The second form, "return(expres-sion)", computes the value of the expression and returns that value to the calling expression. There is an implied "return(0)" at the end of every function. This allows a function to terminate and return 0 with- out an explicit return statement. Functions also change the usage of the variableibase. All constants in the function body will be converted using the value ofibaseat the time of the function call. Changes ofibasewill be ignored during the execution of the function except for the standard functionread, which will always use the current value ofibasefor conversion of numbers. As an extension, the format of the definition has been slightly re- laxed. The standard requires the opening brace be on the same line as thedefinekeyword and all other parts must be on following lines. This version ofbcwill allow any number of newlines before and after the opening brace of the function. For example, the following defini- tions are legal. define d (n) { return (2*n); } define d (n) { return (2*n); }MATHLIBRARYIfbcis invoked with the-loption, 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 li- brary defines the following functions: s (x) The sine of x, x is in radians. c (x) The cosine of x, x is in radians. a (x) The arctangent of x, arctangent returns radians. l (x) The natural logarithm of x. e (x) The exponential function of raising e to the value x. j (n,x) The bessel function of integer order n of x.EXAMPLESIn /bin/sh, the following will assign the value of "pi" to the shell variablepi. pi=$(echo "scale=10; 4*a(1)" | bc -l) The following is the definition of the exponential function used in the math library. This function is written in POSIXbc. 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 } } The following is code that uses the extended features ofbcto imple- ment 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. scale=2 print "\nCheck book program!\n" print " Remember, deposits are negative transactions.\n" print " Exit by a 0 transaction.\n\n" print "Initial balance? "; bal = read() bal /= 1 print "\n" while (1) { "current balance = "; bal "transaction? "; trans = read() if (trans == 0) break; bal -= trans bal /= 1 } quit The following is the definition of the recursive factorial function. define f (x) { if (x <= 1) return (1); return (f(x-1) * x); }READLINEANDLIBEDITOPTIONSGNUbccan be compiled (via a configure option) to use the GNUreadlineinput editor library or the BSDlibeditlibrary. This allows the user to do editing of lines before sending them tobc. It also allows for a history of previous lines typed. When this option is selected,bchas one more special variable. This special variable,historyis the num- ber of lines of history retained. Forreadline, a value of -1 means that an unlimited number of history lines are retained. Setting the value ofhistoryto a positive number restricts the number of history lines to the number given. The value of 0 disables the history fea- ture. The default value is 100. For more information, read the user manuals for the GNUreadline,historyand BSDlibeditlibraries. One can not enable bothreadlineandlibeditat the same time.DIFFERENCESThis version ofbcwas 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 usingdc(1).This version is a single process which parses and runs a byte code translation of the program. There is an "undocu- mented" option (-c) that causes the program to output the byte code to the standard output instead of running it. It was mainly used for de- bugging the parser and preparing the math library. A major source of differences is extensions, where a feature is ex- tended to add more functionality and additions, where new features are added. The following is the list of differences and extensions. LANG This version does not conform to the POSIX standard in the pro- cessing of the LANG environment variable and all environment variables starting with LC_. names Traditional and POSIXbchave single letter names for functions, variables and arrays. They have been extended to be multi-char- acter names that start with a letter and may contain letters, numbers and the underscore character. Strings Strings are not allowed to contain NUL characters. POSIX says all characters must be included in strings. last POSIXbcdoes not have alastvariable. Some implementations ofbcuse the period (.) in a similar way. comparisons POSIXbcallows 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. if statement, else clause POSIXbcdoes not have an else clause. for statement POSIXbcrequires all expressions to be present in the for statement. &&, ||, ! POSIXbcdoes not have the logical operators. read function POSIXbcdoes not have a read function. print statement POSIXbcdoes not have a print statement . continue statement POSIXbcdoes not have a continue statement. return statement POSIXbcrequires parentheses around the return expression. array parameters POSIXbcdoes not (currently) support array parameters in full. The POSIX grammar allows for arrays in function definitions, but does not provide a method to specify an array as an actual pa- rameter. (This is most likely an oversight in the grammar.) Traditional implementations ofbchave only call by value array parameters. function format POSIXbcrequires the opening brace on the same line as thede-finekey word and theautostatement on the next line. =+, =-, =*, =/, =%, =^ POSIXbcdoes not require these "old style" assignment operators to be defined. This version may allow these "old style" assign- ments. 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 decrementaby 1 instead of settingato the value -1. spaces in numbers Other implementations ofbcallow spaces in numbers. For exam- ple, "x=1 3" would assign the value 13 to the variable x. The same statement would cause a syntax error in this version ofbc. 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 er- ror is found in the function, the function will not be callable and becomes undefined. Syntax errors in the interactive execu- tion code will invalidate the current execution block. The exe- cution block is terminated by an end of line that appears after a complete sequence of statements. For example, a = 1 b = 2 has two execution blocks and { a = 1 b = 2 } has one execution block. Any runtime error will terminate the execu- tion of the current execution block. A runtime warning will not termi- nate the current execution block. Interrupts During an interactive session, the SIGINT signal (usually gener- ated 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 in- terrupted. After all runtime structures have been cleaned up, a message will be printed to notify the user thatbcis 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 ofbc.LIMITSThe following are the limits currently in place for thisbcprocessor. Some of them may have been changed by an installation. Use the limits statement to see the actual values. BC_BASE_MAX The maximum output base is currently set at 999. The maximum input base is 16. BC_DIM_MAX This is currently an arbitrary limit of 65535 as distributed. Your installation may be different. 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. BC_STRING_MAX The limit on the number of characters in a string is INT_MAX characters. exponent The value of the exponent in the raise operation (^) is limited to LONG_MAX. variable names The current limit on the number of unique names is 32767 for each of simple variables, arrays and functions.ENVIRONMENT VARIABLESThe following environment variables are processed bybc: POSIXLY_CORRECT This is the same as the-soption. BC_ENV_ARGS This is another mechanism to get arguments tobc. The format is the same as the command line arguments. These arguments are processed first, so any files listed in the environent arguments are processed before any command line argument files. This al- lows the user to set up "standard" options and files to be pro- cessed at every invocation ofbc. The files in the environment variables would typically contain function definitions for func- tions the user wants defined every timebcis run. BC_LINE_LENGTH This should be an integer specifing the number of characters in an output line for numbers. This includes the backslash and new- line characters for long numbers.DIAGNOSTICSIf any file on the command line can not be opened,bcwill report that the file is unavailable and terminate. Also, there are compile and run time diagnostics that should be self-explanatory.BUGSError recovery is not very good yet. Email bug reports tobug-bc@gnu.org. Be sure to include the word ``bc'' somewhere in the ``Subject:'' field.AUTHORPhilip A. Nelson philnelson@acm.orgACKNOWLEDGEMENTSThe author would like to thank Steve Sommars (Steve.Sommars@att.com) for his extensive help in testing the implementation. Many great sug- gestions were given. This is a much better product due to his involve- ment. . bc(1)

NAME | SYNTAX | VERSION | DESCRIPTION | ENVIRONMENT VARIABLES | DIAGNOSTICS | BUGS | AUTHOR | ACKNOWLEDGEMENTS

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