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If applicable, add the following below this CDDL HEADER, with the fields enclosed by brackets "[]" replaced with your own identifying information: Portions Copyright [yyyy] [name of copyright owner] .TH DC 1 "Aug 29, 2003" .SH NAME dc \- desk calculator .SH SYNOPSIS .LP .nf \fB/usr/bin/dc\fR [\fIfilename\fR] .fi .LP .nf \fB/usr/xpg6/bin/dc\fR [\fIfilename\fR] .fi .SH DESCRIPTION .sp .LP \fBdc\fR is an arbitrary precision arithmetic package. Ordinarily it operates on decimal integers, but one may specify an input base, output base, and a number of fractional digits to be maintained. The overall structure of \fBdc\fR is a stacking (reverse Polish) calculator. If an argument is given, input is taken from that file until its end, then from the standard input. .sp .LP \fBbc\fR is a preprocessor for \fBdc\fR that provides infix notation and a C-like syntax that implements functions. \fBbc\fR also provides reasonable control structures for programs. See \fBbc\fR(1). .SH USAGE .SS "/usr/bin/dc, /usr/xpg6/bin/dc" .sp .LP The following constructions are recognized under both \fB/usr/bin/dc\fR and \fB/usr/xpg6/bin/dc\fR: .sp .ne 2 .na \fB\fInumber\fR\fR .ad .RS 15n The value of the number is pushed on the stack. A number is an unbroken string of the digits 0\(mi9. It may be preceded by an underscore (\fB_\fR) to input a negative number. Numbers may contain decimal points. .RE .sp .ne 2 .na \fB\fBs\fR\fIx\fR\fR .ad .RS 15n The top of the stack is popped and stored into a register named \fIx\fR, where \fIx\fR may be any character. If the \fBs\fR is capitalized, \fIx\fR is treated as a stack and the value is pushed on it. .RE .sp .ne 2 .na \fB\fBl\fR\fIx\fR\fR .ad .RS 15n The value in register \fIx\fR is pushed on the stack. The register \fIx\fR is not altered. All registers start with zero value. If the \fBl\fR is capitalized, register \fIx\fR is treated as a stack and its top value is popped onto the main stack. .RE .sp .ne 2 .na \fB\fBd\fR\fR .ad .RS 15n The top value on the stack is duplicated. .RE .sp .ne 2 .na \fB\fBp\fR\fR .ad .RS 15n The top value on the stack is printed. The top value remains unchanged. .RE .sp .ne 2 .na \fB\fBP\fR\fR .ad .RS 15n Interprets the top of the stack as an ASCII string, removes it, and prints it. .RE .sp .ne 2 .na \fB\fBf\fR\fR .ad .RS 15n All values on the stack are printed. .RE .sp .ne 2 .na \fB\fBq\fR\fR .ad .RS 15n Exits the program. If executing a string, the recursion level is popped by two. .RE .sp .ne 2 .na \fB\fBQ\fR\fR .ad .RS 15n Exits the program. The top value on the stack is popped and the string execution level is popped by that value. .RE .sp .ne 2 .na \fB\fBx\fR\fR .ad .RS 15n Treats the top element of the stack as a character string and executes it as a string of \fBdc\fR commands. .RE .sp .ne 2 .na \fB\fBX\fR\fR .ad .RS 15n Replaces the number on the top of the stack with its scale factor. .RE .sp .ne 2 .na \fB\fB[ ... ]\fR\fR .ad .RS 15n Puts the bracketed ASCII string onto the top of the stack. .RE .sp .ne 2 .na \fB\fB<\fR\fIx \fR \fB>\fR\fIx \fR \fB=\fR\fIx \fR\fR .ad .RS 15n The top two elements of the stack are popped and compared. Register \fIx\fR is evaluated if they obey the stated relation. .RE .sp .ne 2 .na \fB\fBv\fR\fR .ad .RS 15n Replaces the top element on the stack by its square root. Any existing fractional part of the argument is taken into account, but otherwise the scale factor is ignored. .RE .sp .ne 2 .na \fB\fB!\fR\fR .ad .RS 15n Interprets the rest of the line as a shell command. .RE .sp .ne 2 .na \fB\fBc\fR\fR .ad .RS 15n All values on the stack are popped. .RE .sp .ne 2 .na \fB\fBi\fR\fR .ad .RS 15n The top value on the stack is popped and used as the number radix for further input. .RE .sp .ne 2 .na \fB\fBI\fR\fR .ad .RS 15n Pushes the input base on the top of the stack. .RE .sp .ne 2 .na \fB\fBo\fR\fR .ad .RS 15n The top value on the stack is popped and used as the number radix for further output. .RE .sp .ne 2 .na \fB\fBO\fR\fR .ad .RS 15n Pushes the output base on the top of the stack. .RE .sp .ne 2 .na \fB\fBk\fR\fR .ad .RS 15n The top of the stack is popped, and that value is used as a non-negative scale factor: the appropriate number of places are printed on output, and maintained during multiplication, division, and exponentiation. The interaction of scale factor, input base, and output base will be reasonable if all are changed together. .RE .sp .ne 2 .na \fB\fBK\fR\fR .ad .RS 15n Pushes the current scale factor on the top of the stack. .RE .sp .ne 2 .na \fB\fBz\fR\fR .ad .RS 15n The stack level is pushed onto the stack. .RE .sp .ne 2 .na \fB\fBZ\fR\fR .ad .RS 15n Replaces the number on the top of the stack with its length. .RE .sp .ne 2 .na \fB\fB?\fR\fR .ad .RS 15n A line of input is taken from the input source (usually the terminal) and executed. .RE .sp .ne 2 .na \fB\fBY\fR\fR .ad .RS 15n Displays \fBdc\fR debugging information. .RE .sp .ne 2 .na \fB\fB; :\fR\fR .ad .RS 15n Used by \fBbc\fR(1) for array operations. .RE .SS "/usr/bin/dc" .sp .LP The following construction is recognized under \fB/usr/bin/dc\fR, using the scale of whatever the result is. .sp .ne 2 .na \fB\fB+ \(mi / * % ^\fR\fR .ad .RS 18n The top two values on the stack are added (\fB+\fR), subtracted (\fB\(mi\fR), multiplied (\fB*\fR), divided (\fB/\fR), remaindered (\fB%\fR), or exponentiated (\fB^\fR). The two entries are popped off the stack; the result is pushed on the stack in their place. Any fractional part of an exponent is ignored. .RE .SS "/usr/xpg6/bin/dc" .sp .LP The following construction is recognized under \fB/usr/xpg6/bin/dc\fR. The results of division are forced to be a scale of 20. .sp .ne 2 .na \fB\fB+ \(mi / * % ^\fR\fR .ad .RS 18n The top two values on the stack are added (\fB+\fR), subtracted (\fB\(mi\fR), multiplied (\fB*\fR), divided (\fB/\fR), remaindered (\fB%\fR), or exponentiated (\fB^\fR). The two entries are popped off the stack. The result is pushed on the stack in their place. Any fractional part of an exponent is ignored. .sp Ensures that the scale set prior to division is the scale of the result. .RE .SH EXAMPLES .LP \fBExample 1 \fRPrinting the first ten values of n! .sp .LP This example prints the first ten values of n!: .sp .in +2 .nf [la1+dsa*pla10>y]sy 0sa1 lyx .fi .in -2 .sp .SH SEE ALSO .sp .LP \fBbc\fR(1), \fBattributes\fR(5) .SH DIAGNOSTICS .sp .ne 2 .na \fB\fIx\fR \fBis unimplemented\fR\fR .ad .RS 29n \fIx\fR is an octal number. .RE .sp .ne 2 .na \fB\fBout of space\fR\fR .ad .RS 29n The free list is exhausted (too many digits). .RE .sp .ne 2 .na \fB\fBout of stack space\fR\fR .ad .RS 29n Too many pushes onto the stack (stack overflow). .RE .sp .ne 2 .na \fB\fBempty stack\fR\fR .ad .RS 29n Too many pops from the stack (stack underflow). .RE .sp .ne 2 .na \fB\fBnesting depth\fR\fR .ad .RS 29n Too many levels of nested execution. .RE .sp .ne 2 .na \fB\fBdivide by 0\fR\fR .ad .RS 29n Division by zero. .RE .sp .ne 2 .na \fB\fBsqrt of neg number\fR\fR .ad .RS 29n Square root of a negative number is not defined (no imaginary numbers). .RE .sp .ne 2 .na \fB\fBexp not an integer\fR\fR .ad .RS 29n \fBdc\fR only processes integer exponentiation. .RE .sp .ne 2 .na \fB\fBexp too big\fR\fR .ad .RS 29n The largest exponent allowed is 999. .RE .sp .ne 2 .na \fB\fBinput base is too large\fR\fR .ad .RS 29n The input base x: 2<= x <= 16. .RE .sp .ne 2 .na \fB\fBinput base is too small\fR\fR .ad .RS 29n The input base x: 2<= x <= 16. .RE .sp .ne 2 .na \fB\fBoutput base is too large\fR\fR .ad .RS 29n The output base must be no larger than \fBBC_BASE_MAX\fR. .RE .sp .ne 2 .na \fB\fBinvalid scale factor\fR\fR .ad .RS 29n Scale factor cannot be less than 1. .RE .sp .ne 2 .na \fB\fBscale factor is too large\fR\fR .ad .RS 29n A scale factor cannot be larger than \fBBC_SCALE_MAX\fR. .RE .sp .ne 2 .na \fB\fBsymbol table overflow\fR\fR .ad .RS 29n Too many variables have been specified. .RE .sp .ne 2 .na \fB\fBinvalid index\fR\fR .ad .RS 29n Index cannot be less than 1. .RE .sp .ne 2 .na \fB\fBindex is too large\fR\fR .ad .RS 29n An index cannot be larger than \fBBC_DIM_MAX\fR. .RE