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authordgp <dgp@users.sourceforge.net>2007-10-26 20:11:50 (GMT)
committerdgp <dgp@users.sourceforge.net>2007-10-26 20:11:50 (GMT)
commit6b9dd216db20bac6c76552a6193d67a01e1d34ee (patch)
treeb86166558de62f70eef1a7524fac75f7b47a4f44 /doc/mathfunc.n
parent236c395276f8f1cf4d5b745ea490b4966e6eb148 (diff)
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* changes: Updated for 8.5b2 release.core_8_5_b2
* doc/*.1: Revert doc changes that broke * doc/*.3: `make html` so we can get the release * doc/*.n: out the door.
Diffstat (limited to 'doc/mathfunc.n')
-rw-r--r--doc/mathfunc.n59
1 files changed, 11 insertions, 48 deletions
diff --git a/doc/mathfunc.n b/doc/mathfunc.n
index 054e47d..53b3747 100644
--- a/doc/mathfunc.n
+++ b/doc/mathfunc.n
@@ -6,7 +6,7 @@
'\" See the file "license.terms" for information on usage and redistribution
'\" of this file, and for a DISCLAIMER OF ALL WARRANTIES.
'\"
-'\" RCS: @(#) $Id: mathfunc.n,v 1.14 2007/10/25 14:07:32 dkf Exp $
+'\" RCS: @(#) $Id: mathfunc.n,v 1.15 2007/10/26 20:11:53 dgp Exp $
'\"
.so man.macros
.TH mathfunc n 8.5 Tcl "Tcl Mathematical Functions"
@@ -85,13 +85,9 @@ package require \fBTcl 8.5\fR
.SH "DESCRIPTION"
.PP
The \fBexpr\fR command handles mathematical functions of the form
-.QW \fBsin($x)\fR
-or
-.QW \fBatan2($y,$x)\fR
-by converting them to calls of the form
-.QW "\fB[tcl::mathfunc::sin [expr {$x}]]\fR"
-or
-.QW "\fB[tcl::mathfunc::atan2 [expr {$y}] [expr {$x}]]\fR" .
+\fBsin($x)\fR or \fBatan2($y,$x)\fR by converting them to calls of the
+form \fB[tcl::mathfunc::sin [expr {$x}]]\fR or
+\fB[tcl::mathfunc::atan2 [expr {$y}] [expr {$x}]]\fR.
A number of math functions are available by default within the
namespace \fB::tcl::mathfunc\fR; these functions are also available
for code apart from \fBexpr\fR, by invoking the given commands
@@ -113,59 +109,46 @@ of which work solely with floating-point numbers unless otherwise noted:
.PP
.TP
\fBabs(\fIarg\fB)\fR
-.
Returns the absolute value of \fIarg\fR. \fIArg\fR may be either
integer or floating-point, and the result is returned in the same form.
.TP
\fBacos(\fIarg\fB)\fR
-.
Returns the arc cosine of \fIarg\fR, in the range [\fI0\fR,\fIpi\fR]
radians. \fIArg\fR should be in the range [\fI-1\fR,\fI1\fR].
.TP
\fBasin(\fIarg\fB)\fR
-.
Returns the arc sine of \fIarg\fR, in the range [\fI-pi/2\fR,\fIpi/2\fR]
radians. \fIArg\fR should be in the range [\fI-1\fR,\fI1\fR].
.TP
\fBatan(\fIarg\fB)\fR
-.
Returns the arc tangent of \fIarg\fR, in the range [\fI-pi/2\fR,\fIpi/2\fR]
radians.
.TP
\fBatan2(\fIy, x\fB)\fR
-.
Returns the arc tangent of \fIy\fR/\fIx\fR, in the range [\fI-pi\fR,\fIpi\fR]
radians. \fIx\fR and \fIy\fR cannot both be 0. If \fIx\fR is greater
than \fI0\fR, this is equivalent to \fBatan(\fIy/x\fB)\fR.
.TP
\fBbool(\fIarg\fB)\fR
-.
Accepts any numeric value, or any string acceptable to
\fBstring is boolean\fR, and returns the corresponding
boolean value \fB0\fR or \fB1\fR. Non-zero numbers are true.
Other numbers are false. Non-numeric strings produce boolean value in
-agreement with
-.QW "\fBstring is true\fR"
-and
-.QW "\fBstring is false\fR" .
+agreement with \fBstring is true\fR and \fBstring is false\fR.
.TP
\fBceil(\fIarg\fB)\fR
-.
Returns the smallest integral floating-point value (i.e. with a zero
fractional part) not less than \fIarg\fR. The argument may be any
numeric value.
.TP
\fBcos(\fIarg\fB)\fR
-.
Returns the cosine of \fIarg\fR, measured in radians.
.TP
\fBcosh(\fIarg\fB)\fR
-.
Returns the hyperbolic cosine of \fIarg\fR. If the result would cause
an overflow, an error is returned.
.TP
\fBdouble(\fIarg\fB)\fR
-.
The argument may be any numeric value,
If \fIarg\fR is a floating-point value, returns \fIarg\fR, otherwise converts
\fIarg\fR to floating-point and returns the converted value. May return
@@ -181,28 +164,23 @@ truncate their range to fit in particular storage widths.
.VE 8.5
.TP
\fBexp(\fIarg\fB)\fR
-.
Returns the exponential of \fIarg\fR, defined as \fIe\fR**\fIarg\fR.
If the result would cause an overflow, an error is returned.
.TP
\fBfloor(\fIarg\fB)\fR
-.
Returns the largest integral floating-point value (i.e. with a zero
fractional part) not greater than \fIarg\fR. The argument may be
any numeric value.
.TP
\fBfmod(\fIx, y\fB)\fR
-.
Returns the floating-point remainder of the division of \fIx\fR by
\fIy\fR. If \fIy\fR is 0, an error is returned.
.TP
\fBhypot(\fIx, y\fB)\fR
-.
Computes the length of the hypotenuse of a right-angled triangle
-.QW "\fBsqrt(\fIx\fR*\fIx\fR+\fIy\fR*\fIy\fB)\fR" .
+\fBsqrt(\fIx\fR*\fIx\fR+\fIy\fR*\fIy\fB)\fR.
.TP
\fBint(\fIarg\fB)\fR
-.
The argument may be any numeric value. The integer part of \fIarg\fR
is determined, and then the low order bits of that integer value up
to the machine word size are returned as an integer value. For reference,
@@ -210,39 +188,32 @@ the number of bytes in the machine word are stored in
\fBtcl_platform(wordSize)\fR.
.TP
\fBisqrt(\fIarg\fB)\fR
-.
Computes the integer part of the square root of \fIarg\fR. \fIArg\fR must be
a positive value, either an integer or a floating point number.
Unlike \fBsqrt\fR, which is limited to the precision of a floating point
number, \fIisqrt\fR will return a result of arbitrary precision.
.TP
\fBlog(\fIarg\fB)\fR
-.
Returns the natural logarithm of \fIarg\fR. \fIArg\fR must be a
positive value.
.TP
\fBlog10(\fIarg\fB)\fR
-.
Returns the base 10 logarithm of \fIarg\fR. \fIArg\fR must be a
positive value.
.TP
\fBmax(\fIarg\fB, \fI...\fB)\fR
-.
Accepts one or more numeric arguments. Returns the one argument
with the greatest value.
.TP
\fBmin(\fIarg\fB, \fI...\fB)\fR
-.
Accepts one or more numeric arguments. Returns the one argument
with the least value.
.TP
\fBpow(\fIx, y\fB)\fR
-.
Computes the value of \fIx\fR raised to the power \fIy\fR. If \fIx\fR
is negative, \fIy\fR must be an integer value.
.TP
\fBrand()\fR
-.
Returns a pseudo-random floating-point value in the range (\fI0\fR,\fI1\fR).
The generator algorithm is a simple linear congruential generator that
is not cryptographically secure. Each result from \fBrand\fR completely
@@ -252,42 +223,34 @@ one-time passwords. The seed of the generator is initialized from the
internal clock of the machine or may be set with the \fBsrand\fR function.
.TP
\fBround(\fIarg\fB)\fR
-.
If \fIarg\fR is an integer value, returns \fIarg\fR, otherwise converts
\fIarg\fR to integer by rounding and returns the converted value.
.TP
\fBsin(\fIarg\fB)\fR
-.
Returns the sine of \fIarg\fR, measured in radians.
.TP
\fBsinh(\fIarg\fB)\fR
-.
Returns the hyperbolic sine of \fIarg\fR. If the result would cause
an overflow, an error is returned.
.TP
\fBsqrt(\fIarg\fB)\fR
-.
The argument may be any non-negative numeric value. Returns a floating-point
value that is the square root of \fIarg\fR. May return \fBInf\fR when the
argument is a numeric value that exceeds the square of the maximum value of
the floating-point range.
.TP
\fBsrand(\fIarg\fB)\fR
-.
The \fIarg\fR, which must be an integer, is used to reset the seed for
the random number generator of \fBrand\fR. Returns the first random
number (see \fBrand()\fR) from that seed. Each interpreter has its own seed.
.TP
\fBtan(\fIarg\fB)\fR
-.
Returns the tangent of \fIarg\fR, measured in radians.
.TP
\fBtanh(\fIarg\fB)\fR
-.
Returns the hyperbolic tangent of \fIarg\fR.
.TP
\fBwide(\fIarg\fB)\fR
-.
The argument may be any numeric value. The integer part of \fIarg\fR
is determined, and then the low order 64 bits of that integer value
are returned as an integer value.
@@ -302,8 +265,8 @@ for new implementations.
.SH "SEE ALSO"
expr(n), namespace(n)
.SH "COPYRIGHT"
-.nf
-Copyright \(co 1993 The Regents of the University of California.
-Copyright \(co 1994-2000 Sun Microsystems Incorporated.
-Copyright \(co 2005, 2006 by Kevin B. Kenny <kennykb@acm.org>.
-.fi
+Copyright (c) 1993 The Regents of the University of California.
+.br
+Copyright (c) 1994-2000 Sun Microsystems Incorporated.
+.br
+Copyright (c) 2005, 2006 by Kevin B. Kenny <kennykb@acm.org>.