man/man3/Tcl_CreateMathFunc.3 - toolchains/skids - Git at Google

 '\"
 '\" Copyright (c) 1989-1993 The Regents of the University of California.
 '\" Copyright (c) 1994-1996 Sun Microsystems, Inc.
 '\"
 '\" See the file "license.terms" for information on usage and redistribution
 '\" of this file, and for a DISCLAIMER OF ALL WARRANTIES.
 '\"
 '\" RCS: @(#) $Id: CrtMathFnc.3,v 1.5 2001/05/30 08:57:05 dkf Exp $
 '\"
 '\" The definitions below are for supplemental macros used in Tcl/Tk
 '\" manual entries.
 '\"
 '\" .AP type name in/out ?indent?
 '\"	Start paragraph describing an argument to a library procedure.
 '\"	type is type of argument (int, etc.), in/out is either "in", "out",
 '\"	or "in/out" to describe whether procedure reads or modifies arg,
 '\"	and indent is equivalent to second arg of .IP (shouldn't ever be
 '\"	needed;  use .AS below instead)
 '\"
 '\" .AS ?type? ?name?
 '\"	Give maximum sizes of arguments for setting tab stops.  Type and
 '\"	name are examples of largest possible arguments that will be passed
 '\"	to .AP later.  If args are omitted, default tab stops are used.
 '\"
 '\" .BS
 '\"	Start box enclosure.  From here until next .BE, everything will be
 '\"	enclosed in one large box.
 '\"
 '\" .BE
 '\"	End of box enclosure.
 '\"
 '\" .CS
 '\"	Begin code excerpt.
 '\"
 '\" .CE
 '\"	End code excerpt.
 '\"
 '\" .VS ?version? ?br?
 '\"	Begin vertical sidebar, for use in marking newly-changed parts
 '\"	of man pages.  The first argument is ignored and used for recording
 '\"	the version when the .VS was added, so that the sidebars can be
 '\"	found and removed when they reach a certain age.  If another argument
 '\"	is present, then a line break is forced before starting the sidebar.
 '\"
 '\" .VE
 '\"	End of vertical sidebar.
 '\"
 '\" .DS
 '\"	Begin an indented unfilled display.
 '\"
 '\" .DE
 '\"	End of indented unfilled display.
 '\"
 '\" .SO
 '\"	Start of list of standard options for a Tk widget.  The
 '\"	options follow on successive lines, in four columns separated
 '\"	by tabs.
 '\"
 '\" .SE
 '\"	End of list of standard options for a Tk widget.
 '\"
 '\" .OP cmdName dbName dbClass
 '\"	Start of description of a specific option.  cmdName gives the
 '\"	option's name as specified in the class command, dbName gives
 '\"	the option's name in the option database, and dbClass gives
 '\"	the option's class in the option database.
 '\"
 '\" .UL arg1 arg2
 '\"	Print arg1 underlined, then print arg2 normally.
 '\"
 '\" RCS: @(#) $Id: man.macros,v 1.4 2000/08/25 06:18:32 ericm Exp $
 '\"
 '\"	# Set up traps and other miscellaneous stuff for Tcl/Tk man pages.
 .if t .wh -1.3i ^B
 .nr ^l \n(.l
 .ad b
 '\"	# Start an argument description
 .de AP
 .ie !"\\$4"" .TP \\$4
 .el \{\
 .   ie !"\\$2"" .TP \\n()Cu
 .   el          .TP 15
 .\}
 .ta \\n()Au \\n()Bu
 .ie !"\\$3"" \{\
 \&\\$1	\\fI\\$2\\fP	(\\$3)
 .\".b
 .\}
 .el \{\
 .br
 .ie !"\\$2"" \{\
 \&\\$1	\\fI\\$2\\fP
 .\}
 .el \{\
 \&\\fI\\$1\\fP
 .\}
 .\}
 ..
 '\"	# define tabbing values for .AP
 .de AS
 .nr )A 10n
 .if !"\\$1"" .nr )A \\w'\\$1'u+3n
 .nr )B \\n()Au+15n
 .\"
 .if !"\\$2"" .nr )B \\w'\\$2'u+\\n()Au+3n
 .nr )C \\n()Bu+\\w'(in/out)'u+2n
 ..
 .AS Tcl_Interp Tcl_CreateInterp in/out
 '\"	# BS - start boxed text
 '\"	# ^y = starting y location
 '\"	# ^b = 1
 .de BS
 .br
 .mk ^y
 .nr ^b 1u
 .if n .nf
 .if n .ti 0
 .if n \l'\\n(.lu\(ul'
 .if n .fi
 ..
 '\"	# BE - end boxed text (draw box now)
 .de BE
 .nf
 .ti 0
 .mk ^t
 .ie n \l'\\n(^lu\(ul'
 .el \{\
 .\"	Draw four-sided box normally, but don't draw top of
 .\"	box if the box started on an earlier page.
 .ie !\\n(^b-1 \{\
 \h'-1.5n'\L'|\\n(^yu-1v'\l'\\n(^lu+3n\(ul'\L'\\n(^tu+1v-\\n(^yu'\l'|0u-1.5n\(ul'
 .\}
 .el \}\
 \h'-1.5n'\L'|\\n(^yu-1v'\h'\\n(^lu+3n'\L'\\n(^tu+1v-\\n(^yu'\l'|0u-1.5n\(ul'
 .\}
 .\}
 .fi
 .br
 .nr ^b 0
 ..
 '\"	# VS - start vertical sidebar
 '\"	# ^Y = starting y location
 '\"	# ^v = 1 (for troff;  for nroff this doesn't matter)
 .de VS
 .if !"\\$2"" .br
 .mk ^Y
 .ie n 'mc \s12\(br\s0
 .el .nr ^v 1u
 ..
 '\"	# VE - end of vertical sidebar
 .de VE
 .ie n 'mc
 .el \{\
 .ev 2
 .nf
 .ti 0
 .mk ^t
 \h'|\\n(^lu+3n'\L'|\\n(^Yu-1v\(bv'\v'\\n(^tu+1v-\\n(^Yu'\h'-|\\n(^lu+3n'
 .sp -1
 .fi
 .ev
 .\}
 .nr ^v 0
 ..
 '\"	# Special macro to handle page bottom:  finish off current
 '\"	# box/sidebar if in box/sidebar mode, then invoked standard
 '\"	# page bottom macro.
 .de ^B
 .ev 2
 'ti 0
 'nf
 .mk ^t
 .if \\n(^b \{\
 .\"	Draw three-sided box if this is the box's first page,
 .\"	draw two sides but no top otherwise.
 .ie !\\n(^b-1 \h'-1.5n'\L'|\\n(^yu-1v'\l'\\n(^lu+3n\(ul'\L'\\n(^tu+1v-\\n(^yu'\h'|0u'\c
 .el \h'-1.5n'\L'|\\n(^yu-1v'\h'\\n(^lu+3n'\L'\\n(^tu+1v-\\n(^yu'\h'|0u'\c
 .\}
 .if \\n(^v \{\
 .nr ^x \\n(^tu+1v-\\n(^Yu
 \kx\h'-\\nxu'\h'|\\n(^lu+3n'\ky\L'-\\n(^xu'\v'\\n(^xu'\h'|0u'\c
 .\}
 .bp
 'fi
 .ev
 .if \\n(^b \{\
 .mk ^y
 .nr ^b 2
 .\}
 .if \\n(^v \{\
 .mk ^Y
 .\}
 ..
 '\"	# DS - begin display
 .de DS
 .RS
 .nf
 .sp
 ..
 '\"	# DE - end display
 .de DE
 .fi
 .RE
 .sp
 ..
 '\"	# SO - start of list of standard options
 .de SO
 .SH "STANDARD OPTIONS"
 .LP
 .nf
 .ta 5.5c 11c
 .ft B
 ..
 '\"	# SE - end of list of standard options
 .de SE
 .fi
 .ft R
 .LP
 See the \\fBoptions\\fR manual entry for details on the standard options.
 ..
 '\"	# OP - start of full description for a single option
 .de OP
 .LP
 .nf
 .ta 4c
 Command-Line Name:	\\fB\\$1\\fR
 Database Name:	\\fB\\$2\\fR
 Database Class:	\\fB\\$3\\fR
 .fi
 .IP
 ..
 '\"	# CS - begin code excerpt
 .de CS
 .RS
 .nf
 .ta .25i .5i .75i 1i
 ..
 '\"	# CE - end code excerpt
 .de CE
 .fi
 .RE
 ..
 .de UL
 \\$1\l'|0\(ul'\\$2
 ..
 .TH Tcl_CreateMathFunc 3 8.4 Tcl "Tcl Library Procedures"
 .BS
 .SH NAME
 Tcl_CreateMathFunc, Tcl_GetMathFuncInfo, Tcl_ListMathFuncs \- Define, query and enumerate math functions for expressions
 .SH SYNOPSIS
 .nf
 \fB#include <tcl.h>\fR
 .sp
 void
 \fBTcl_CreateMathFunc\fR(\fIinterp, name, numArgs, argTypes, proc, clientData\fR)
 .sp
 .VS 8.4
 int
 \fBTcl_GetMathFuncInfo\fR(\fIinterp, name, numArgsPtr, argTypesPtr, procPtr, clientDataPtr\fR)
 .sp
 Tcl_Obj *
 \fBTcl_ListMathFuncs\fR(\fIinterp, pattern\fR)
 .VE
 .SH ARGUMENTS
 .AS Tcl_ValueType *clientDataPtr
 .AP Tcl_Interp *interp in
 Interpreter in which new function will be defined.
 .VS 8.4
 .AP "CONST char" *name in
 .VE
 Name for new function.
 .AP int numArgs in
 Number of arguments to new function;  also gives size of \fIargTypes\fR array.
 .AP Tcl_ValueType *argTypes in
 Points to an array giving the permissible types for each argument to
 function.
 .AP Tcl_MathProc *proc in
 Procedure that implements the function.
 .AP ClientData clientData in
 Arbitrary one-word value to pass to \fIproc\fR when it is invoked.
 .AP int *numArgsPtr out
 Points to a variable that will be set to contain the number of
 arguments to the function.
 .AP Tcl_ValueType *argTypesPtr out
 Points to a variable that will be set to contain a pointer to an array
 giving the permissible types for each argument to the function which
 will need to be freed up using \fITcl_Free\fR.
 .AP Tcl_MathProc *procPtr out
 Points to a variable that will be set to contain a pointer to the
 implementation code for the function (or NULL if the function is
 implemented directly in bytecode.)
 .AP ClientData *clientDataPtr out
 Points to a variable that will be set to contain the clientData
 argument passed to \fITcl_CreateMathFunc\fR when the function was
 created if the function is not implemented directly in bytecode.
 .AP "CONST char" *pattern in
 Pattern to match against function names so as to filter them (by
 passing to \fITcl_StringMatch\fR), or NULL to not apply any filter.
 .BE

 .SH DESCRIPTION
 .PP
 Tcl allows a number of mathematical functions to be used in
 expressions, such as \fBsin\fR, \fBcos\fR, and \fBhypot\fR.
 \fBTcl_CreateMathFunc\fR allows applications to add additional functions
 to those already provided by Tcl or to replace existing functions.
 \fIName\fR is the name of the function as it will appear in expressions.
 If \fIname\fR doesn't already exist as a function then a new function
 is created.  If it does exist, then the existing function is replaced.
 \fINumArgs\fR and \fIargTypes\fR describe the arguments to the function.
 Each entry in the \fIargTypes\fR array must be either TCL_INT, TCL_DOUBLE,
 or TCL_EITHER to indicate whether the corresponding argument must be an
 integer, a double-precision floating value, or either, respectively.
 .PP
 Whenever the function is invoked in an expression Tcl will invoke
 \fIproc\fR.  \fIProc\fR should have arguments and result that match
 the type \fBTcl_MathProc\fR:
 .CS
 typedef int Tcl_MathProc(
 	ClientData \fIclientData\fR,
 	Tcl_Interp *\fIinterp\fR,
 	Tcl_Value *\fIargs\fR,
 	Tcl_Value *\fIresultPtr\fR);
 .CE
 .PP
 When \fIproc\fR is invoked the \fIclientData\fR and \fIinterp\fR
 arguments will be the same as those passed to \fBTcl_CreateMathFunc\fR.
 \fIArgs\fR will point to an array of \fInumArgs\fR Tcl_Value structures,
 which describe the actual arguments to the function:
 .CS
 typedef struct Tcl_Value {
 	Tcl_ValueType \fItype\fR;
 	long \fIintValue\fR;
 	double \fIdoubleValue\fR;
 } Tcl_Value;
 .CE
 .PP
 The \fItype\fR field indicates the type of the argument and is
 either TCL_INT or TCL_DOUBLE.
 It will match the \fIargTypes\fR value specified for the function unless
 the \fIargTypes\fR value was TCL_EITHER. Tcl converts
 the argument supplied in the expression to the type requested in
 \fIargTypes\fR, if that is necessary.
 Depending on the value of the \fItype\fR field, the \fIintValue\fR
 or \fIdoubleValue\fR field will contain the actual value of the argument.
 .PP
 \fIProc\fR should compute its result and store it either as an integer
 in \fIresultPtr->intValue\fR or as a floating value in
 \fIresultPtr->doubleValue\fR.
 It should set also \fIresultPtr->type\fR to either TCL_INT or TCL_DOUBLE
 to indicate which value was set.
 Under normal circumstances \fIproc\fR should return TCL_OK.
 If an error occurs while executing the function, \fIproc\fR should
 return TCL_ERROR and leave an error message in the interpreter's result.
 .PP
 .VS 8.4
 \fBTcl_GetMathFuncInfo\fR retrieves the values associated with
 function \fIname\fR that were passed to a preceding
 \fBTcl_CreateMathFunc\fR call.  Normally, the return code is
 \fBTCL_OK\fR but if the named function does not exist, \fBTCL_ERROR\fR
 is returned and an error message is placed in the interpreter's
 result.
 .PP
 If an error did not occur, the array reference placed in the variable
 pointed to by \fIargTypesPtr\fR is newly allocated, and should be
 released by passing it to \fBTcl_Free\fR.  Some functions (the
 standard set implemented in the core) are implemented directly at the
 bytecode level; attempting to retrieve values for them causes a NULL
 to be stored in the variable pointed to by \fIprocPtr\fR and the
 variable pointed to by \fIclientDataPtr\fR will not be modified.
 .PP
 \fBTcl_ListMathFuncs\fR returns a Tcl object containing a list of all
 the math functions defined in the interpreter whose name matches
 \fIpattern\fR.  In the case of an error, NULL is returned and an error
 message is left in the interpreter result, and otherwise the returned
 object will have a reference count of zero.
 .VE

 .SH KEYWORDS
 expression, mathematical function

 .SH "SEE ALSO"
 expr(n), info(n), Tcl_Free(3), Tcl_NewListObj(3)
	'\"
	'\" Copyright (c) 1989-1993 The Regents of the University of California.
	'\" Copyright (c) 1994-1996 Sun Microsystems, Inc.
	'\"
	'\" See the file "license.terms" for information on usage and redistribution
	'\" of this file, and for a DISCLAIMER OF ALL WARRANTIES.
	'\"
	'\" RCS: @(#) $Id: CrtMathFnc.3,v 1.5 2001/05/30 08:57:05 dkf Exp $
	'\"
	'\" The definitions below are for supplemental macros used in Tcl/Tk
	'\" manual entries.
	'\"
	'\" .AP type name in/out ?indent?
	'\" Start paragraph describing an argument to a library procedure.
	'\" type is type of argument (int, etc.), in/out is either "in", "out",
	'\" or "in/out" to describe whether procedure reads or modifies arg,
	'\" and indent is equivalent to second arg of .IP (shouldn't ever be
	'\" needed; use .AS below instead)
	'\"
	'\" .AS ?type? ?name?
	'\" Give maximum sizes of arguments for setting tab stops. Type and
	'\" name are examples of largest possible arguments that will be passed
	'\" to .AP later. If args are omitted, default tab stops are used.
	'\"
	'\" .BS
	'\" Start box enclosure. From here until next .BE, everything will be
	'\" enclosed in one large box.
	'\"
	'\" .BE
	'\" End of box enclosure.
	'\"
	'\" .CS
	'\" Begin code excerpt.
	'\"
	'\" .CE
	'\" End code excerpt.
	'\"
	'\" .VS ?version? ?br?
	'\" Begin vertical sidebar, for use in marking newly-changed parts
	'\" of man pages. The first argument is ignored and used for recording
	'\" the version when the .VS was added, so that the sidebars can be
	'\" found and removed when they reach a certain age. If another argument
	'\" is present, then a line break is forced before starting the sidebar.
	'\"
	'\" .VE
	'\" End of vertical sidebar.
	'\"
	'\" .DS
	'\" Begin an indented unfilled display.
	'\"
	'\" .DE
	'\" End of indented unfilled display.
	'\"
	'\" .SO
	'\" Start of list of standard options for a Tk widget. The
	'\" options follow on successive lines, in four columns separated
	'\" by tabs.
	'\"
	'\" .SE
	'\" End of list of standard options for a Tk widget.
	'\"
	'\" .OP cmdName dbName dbClass
	'\" Start of description of a specific option. cmdName gives the
	'\" option's name as specified in the class command, dbName gives
	'\" the option's name in the option database, and dbClass gives
	'\" the option's class in the option database.
	'\"
	'\" .UL arg1 arg2
	'\" Print arg1 underlined, then print arg2 normally.
	'\"
	'\" RCS: @(#) $Id: man.macros,v 1.4 2000/08/25 06:18:32 ericm Exp $
	'\"
	'\" # Set up traps and other miscellaneous stuff for Tcl/Tk man pages.
	.if t .wh -1.3i ^B
	.nr ^l \n(.l
	.ad b
	'\" # Start an argument description
	.de AP
	.ie !"\\$4"" .TP \\$4
	.el \{\
	. ie !"\\$2"" .TP \\n()Cu
	. el .TP 15
	.\}
	.ta \\n()Au \\n()Bu
	.ie !"\\$3"" \{\
	\&\\$1 \\fI\\$2\\fP (\\$3)
	.\".b
	.\}
	.el \{\
	.br
	.ie !"\\$2"" \{\
	\&\\$1 \\fI\\$2\\fP
	.\}
	.el \{\
	\&\\fI\\$1\\fP
	.\}
	.\}
	..
	'\" # define tabbing values for .AP
	.de AS
	.nr )A 10n
	.if !"\\$1"" .nr )A \\w'\\$1'u+3n
	.nr )B \\n()Au+15n
	.\"
	.if !"\\$2"" .nr )B \\w'\\$2'u+\\n()Au+3n
	.nr )C \\n()Bu+\\w'(in/out)'u+2n
	..
	.AS Tcl_Interp Tcl_CreateInterp in/out
	'\" # BS - start boxed text
	'\" # ^y = starting y location
	'\" # ^b = 1
	.de BS
	.br
	.mk ^y
	.nr ^b 1u
	.if n .nf
	.if n .ti 0
	.if n \l'\\n(.lu\(ul'
	.if n .fi
	..
	'\" # BE - end boxed text (draw box now)
	.de BE
	.nf
	.ti 0
	.mk ^t
	.ie n \l'\\n(^lu\(ul'
	.el \{\
	.\" Draw four-sided box normally, but don't draw top of
	.\" box if the box started on an earlier page.
	.ie !\\n(^b-1 \{\
	\h'-1.5n'\L'\|\\n(^yu-1v'\l'\\n(^lu+3n\(ul'\L'\\n(^tu+1v-\\n(^yu'\l'\|0u-1.5n\(ul'
	.\}
	.el \}\
	\h'-1.5n'\L'\|\\n(^yu-1v'\h'\\n(^lu+3n'\L'\\n(^tu+1v-\\n(^yu'\l'\|0u-1.5n\(ul'
	.\}
	.\}
	.fi
	.br
	.nr ^b 0
	..
	'\" # VS - start vertical sidebar
	'\" # ^Y = starting y location
	'\" # ^v = 1 (for troff; for nroff this doesn't matter)
	.de VS
	.if !"\\$2"" .br
	.mk ^Y
	.ie n 'mc \s12\(br\s0
	.el .nr ^v 1u
	..
	'\" # VE - end of vertical sidebar
	.de VE
	.ie n 'mc
	.el \{\
	.ev 2
	.nf
	.ti 0
	.mk ^t
	\h'\|\\n(^lu+3n'\L'\|\\n(^Yu-1v\(bv'\v'\\n(^tu+1v-\\n(^Yu'\h'-\|\\n(^lu+3n'
	.sp -1
	.fi
	.ev
	.\}
	.nr ^v 0
	..
	'\" # Special macro to handle page bottom: finish off current
	'\" # box/sidebar if in box/sidebar mode, then invoked standard
	'\" # page bottom macro.
	.de ^B
	.ev 2
	'ti 0
	'nf
	.mk ^t
	.if \\n(^b \{\
	.\" Draw three-sided box if this is the box's first page,
	.\" draw two sides but no top otherwise.
	.ie !\\n(^b-1 \h'-1.5n'\L'\|\\n(^yu-1v'\l'\\n(^lu+3n\(ul'\L'\\n(^tu+1v-\\n(^yu'\h'\|0u'\c
	.el \h'-1.5n'\L'\|\\n(^yu-1v'\h'\\n(^lu+3n'\L'\\n(^tu+1v-\\n(^yu'\h'\|0u'\c
	.\}
	.if \\n(^v \{\
	.nr ^x \\n(^tu+1v-\\n(^Yu
	\kx\h'-\\nxu'\h'\|\\n(^lu+3n'\ky\L'-\\n(^xu'\v'\\n(^xu'\h'\|0u'\c
	.\}
	.bp
	'fi
	.ev
	.if \\n(^b \{\
	.mk ^y
	.nr ^b 2
	.\}
	.if \\n(^v \{\
	.mk ^Y
	.\}
	..
	'\" # DS - begin display
	.de DS
	.RS
	.nf
	.sp
	..
	'\" # DE - end display
	.de DE
	.fi
	.RE
	.sp
	..
	'\" # SO - start of list of standard options
	.de SO
	.SH "STANDARD OPTIONS"
	.LP
	.nf
	.ta 5.5c 11c
	.ft B
	..
	'\" # SE - end of list of standard options
	.de SE
	.fi
	.ft R
	.LP
	See the \\fBoptions\\fR manual entry for details on the standard options.
	..
	'\" # OP - start of full description for a single option
	.de OP
	.LP
	.nf
	.ta 4c
	Command-Line Name: \\fB\\$1\\fR
	Database Name: \\fB\\$2\\fR
	Database Class: \\fB\\$3\\fR
	.fi
	.IP
	..
	'\" # CS - begin code excerpt
	.de CS
	.RS
	.nf
	.ta .25i .5i .75i 1i
	..
	'\" # CE - end code excerpt
	.de CE
	.fi
	.RE
	..
	.de UL
	\\$1\l'\|0\(ul'\\$2
	..
	.TH Tcl_CreateMathFunc 3 8.4 Tcl "Tcl Library Procedures"
	.BS
	.SH NAME
	Tcl_CreateMathFunc, Tcl_GetMathFuncInfo, Tcl_ListMathFuncs \- Define, query and enumerate math functions for expressions
	.SH SYNOPSIS
	.nf
	\fB#include <tcl.h>\fR
	.sp
	void
	\fBTcl_CreateMathFunc\fR(\fIinterp, name, numArgs, argTypes, proc, clientData\fR)
	.sp
	.VS 8.4
	int
	\fBTcl_GetMathFuncInfo\fR(\fIinterp, name, numArgsPtr, argTypesPtr, procPtr, clientDataPtr\fR)
	.sp
	Tcl_Obj *
	\fBTcl_ListMathFuncs\fR(\fIinterp, pattern\fR)
	.VE
	.SH ARGUMENTS
	.AS Tcl_ValueType *clientDataPtr
	.AP Tcl_Interp *interp in
	Interpreter in which new function will be defined.
	.VS 8.4
	.AP "CONST char" *name in
	.VE
	Name for new function.
	.AP int numArgs in
	Number of arguments to new function; also gives size of \fIargTypes\fR array.
	.AP Tcl_ValueType *argTypes in
	Points to an array giving the permissible types for each argument to
	function.
	.AP Tcl_MathProc *proc in
	Procedure that implements the function.
	.AP ClientData clientData in
	Arbitrary one-word value to pass to \fIproc\fR when it is invoked.
	.AP int *numArgsPtr out
	Points to a variable that will be set to contain the number of
	arguments to the function.
	.AP Tcl_ValueType *argTypesPtr out
	Points to a variable that will be set to contain a pointer to an array
	giving the permissible types for each argument to the function which
	will need to be freed up using \fITcl_Free\fR.
	.AP Tcl_MathProc *procPtr out
	Points to a variable that will be set to contain a pointer to the
	implementation code for the function (or NULL if the function is
	implemented directly in bytecode.)
	.AP ClientData *clientDataPtr out
	Points to a variable that will be set to contain the clientData
	argument passed to \fITcl_CreateMathFunc\fR when the function was
	created if the function is not implemented directly in bytecode.
	.AP "CONST char" *pattern in
	Pattern to match against function names so as to filter them (by
	passing to \fITcl_StringMatch\fR), or NULL to not apply any filter.
	.BE

	.SH DESCRIPTION
	.PP
	Tcl allows a number of mathematical functions to be used in
	expressions, such as \fBsin\fR, \fBcos\fR, and \fBhypot\fR.
	\fBTcl_CreateMathFunc\fR allows applications to add additional functions
	to those already provided by Tcl or to replace existing functions.
	\fIName\fR is the name of the function as it will appear in expressions.
	If \fIname\fR doesn't already exist as a function then a new function
	is created. If it does exist, then the existing function is replaced.
	\fINumArgs\fR and \fIargTypes\fR describe the arguments to the function.
	Each entry in the \fIargTypes\fR array must be either TCL_INT, TCL_DOUBLE,
	or TCL_EITHER to indicate whether the corresponding argument must be an
	integer, a double-precision floating value, or either, respectively.
	.PP
	Whenever the function is invoked in an expression Tcl will invoke
	\fIproc\fR. \fIProc\fR should have arguments and result that match
	the type \fBTcl_MathProc\fR:
	.CS
	typedef int Tcl_MathProc(
	ClientData \fIclientData\fR,
	Tcl_Interp *\fIinterp\fR,
	Tcl_Value *\fIargs\fR,
	Tcl_Value *\fIresultPtr\fR);
	.CE
	.PP
	When \fIproc\fR is invoked the \fIclientData\fR and \fIinterp\fR
	arguments will be the same as those passed to \fBTcl_CreateMathFunc\fR.
	\fIArgs\fR will point to an array of \fInumArgs\fR Tcl_Value structures,
	which describe the actual arguments to the function:
	.CS
	typedef struct Tcl_Value {
	Tcl_ValueType \fItype\fR;
	long \fIintValue\fR;
	double \fIdoubleValue\fR;
	} Tcl_Value;
	.CE
	.PP
	The \fItype\fR field indicates the type of the argument and is
	either TCL_INT or TCL_DOUBLE.
	It will match the \fIargTypes\fR value specified for the function unless
	the \fIargTypes\fR value was TCL_EITHER. Tcl converts
	the argument supplied in the expression to the type requested in
	\fIargTypes\fR, if that is necessary.
	Depending on the value of the \fItype\fR field, the \fIintValue\fR
	or \fIdoubleValue\fR field will contain the actual value of the argument.
	.PP
	\fIProc\fR should compute its result and store it either as an integer
	in \fIresultPtr->intValue\fR or as a floating value in
	\fIresultPtr->doubleValue\fR.
	It should set also \fIresultPtr->type\fR to either TCL_INT or TCL_DOUBLE
	to indicate which value was set.
	Under normal circumstances \fIproc\fR should return TCL_OK.
	If an error occurs while executing the function, \fIproc\fR should
	return TCL_ERROR and leave an error message in the interpreter's result.
	.PP
	.VS 8.4
	\fBTcl_GetMathFuncInfo\fR retrieves the values associated with
	function \fIname\fR that were passed to a preceding
	\fBTcl_CreateMathFunc\fR call. Normally, the return code is
	\fBTCL_OK\fR but if the named function does not exist, \fBTCL_ERROR\fR
	is returned and an error message is placed in the interpreter's
	result.
	.PP
	If an error did not occur, the array reference placed in the variable
	pointed to by \fIargTypesPtr\fR is newly allocated, and should be
	released by passing it to \fBTcl_Free\fR. Some functions (the
	standard set implemented in the core) are implemented directly at the
	bytecode level; attempting to retrieve values for them causes a NULL
	to be stored in the variable pointed to by \fIprocPtr\fR and the
	variable pointed to by \fIclientDataPtr\fR will not be modified.
	.PP
	\fBTcl_ListMathFuncs\fR returns a Tcl object containing a list of all
	the math functions defined in the interpreter whose name matches
	\fIpattern\fR. In the case of an error, NULL is returned and an error
	message is left in the interpreter result, and otherwise the returned
	object will have a reference count of zero.
	.VE

	.SH KEYWORDS
	expression, mathematical function

	.SH "SEE ALSO"
	expr(n), info(n), Tcl_Free(3), Tcl_NewListObj(3)