/usr/share/tcltk/tcllib1.19/math/polynomials.tcl is in tcllib 1.19-dfsg-2.
This file is owned by root:root, with mode 0o644.
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# Implement procedures to deal with polynomial functions
#
namespace eval ::math::polynomials {
variable count 0 ;# Count the number of specific commands
namespace eval v {}
namespace export polynomial polynCmd evalPolyn \
degreePolyn coeffPolyn allCoeffsPolyn \
derivPolyn primitivePolyn \
addPolyn subPolyn multPolyn \
divPolyn remainderPolyn
}
# polynomial --
# Return a polynomial definition
#
# Arguments:
# coeffs The coefficients of the polynomial
# Result:
# Polynomial definition
#
proc ::math::polynomials::polynomial {coeffs} {
set rev_coeffs {}
set degree -1
set index 0
foreach coeff $coeffs {
if { ! [string is double -strict $coeff] } {
return -code error "Coefficients must be real numbers"
}
set rev_coeffs [concat $coeff $rev_coeffs]
if { $coeff != 0.0 } {
set degree $index
}
incr index
}
#
# The leading coefficient must be non-zero
#
return [list POLYNOMIAL [lrange $rev_coeffs end-$degree end]]
}
# polynCmd --
# Return a procedure that implements a polynomial evaluation
#
# Arguments:
# coeffs The coefficients of the polynomial (or a definition)
# Result:
# New procedure
#
proc ::math::polynomials::polynCmd {coeffs} {
variable count
if { [lindex $coeffs 0] == "POLYNOMIAL" } {
set coeffs [allCoeffsPolyn $coeffs]
}
set degree [expr {[llength $coeffs]-1}]
set body "expr \{[join $coeffs +\$x*(][string repeat ) $degree]\}"
incr count
set name "::math::polynomials::v::POLYN$count"
proc $name {x} $body
return $name
}
# evalPolyn --
# Evaluate a polynomial at a given coordinate
#
# Arguments:
# polyn Polynomial definition
# x Coordinate
# Result:
# Value at x
#
proc ::math::polynomials::evalPolyn {polyn x} {
if { [lindex $polyn 0] != "POLYNOMIAL" } {
return -code error "Not a polynomial"
}
if { ! [string is double $x] } {
return -code error "Coordinate must be a real number"
}
set result 0.0
foreach c [lindex $polyn 1] {
set result [expr {$result*$x+$c}]
}
return $result
}
# degreePolyn --
# Return the degree of the polynomial
#
# Arguments:
# polyn Polynomial definition
# Result:
# The degree
#
proc ::math::polynomials::degreePolyn {polyn} {
if { [lindex $polyn 0] != "POLYNOMIAL" } {
return -code error "Not a polynomial"
}
return [expr {[llength [lindex $polyn 1]]-1}]
}
# coeffPolyn --
# Return the coefficient of the index'th degree of the polynomial
#
# Arguments:
# polyn Polynomial definition
# index Degree for which to return the coefficient
# Result:
# The coefficient of degree "index"
#
proc ::math::polynomials::coeffPolyn {polyn index} {
if { [lindex $polyn 0] != "POLYNOMIAL" } {
return -code error "Not a polynomial"
}
set coeffs [lindex $polyn 1]
if { $index < 0 || $index > [llength $coeffs] } {
return -code error "Index must be between 0 and [llength $coeffs]"
}
return [lindex $coeffs end-$index]
}
# allCoeffsPolyn --
# Return the coefficients of the polynomial
#
# Arguments:
# polyn Polynomial definition
# Result:
# The coefficients in ascending order
#
proc ::math::polynomials::allCoeffsPolyn {polyn} {
if { [lindex $polyn 0] != "POLYNOMIAL" } {
return -code error "Not a polynomial"
}
set rev_coeffs [lindex $polyn 1]
set coeffs {}
foreach c $rev_coeffs {
set coeffs [concat $c $coeffs]
}
return $coeffs
}
# derivPolyn --
# Return the derivative of the polynomial
#
# Arguments:
# polyn Polynomial definition
# Result:
# The new polynomial
#
proc ::math::polynomials::derivPolyn {polyn} {
if { [lindex $polyn 0] != "POLYNOMIAL" } {
return -code error "Not a polynomial"
}
set coeffs [lindex $polyn 1]
set new_coeffs {}
set idx [degreePolyn $polyn]
foreach c [lrange $coeffs 0 end-1] {
lappend new_coeffs [expr {$idx*$c}]
incr idx -1
}
return [list POLYNOMIAL $new_coeffs]
}
# primitivePolyn --
# Return the primitive of the polynomial
#
# Arguments:
# polyn Polynomial definition
# Result:
# The new polynomial
#
proc ::math::polynomials::primitivePolyn {polyn} {
if { [lindex $polyn 0] != "POLYNOMIAL" } {
return -code error "Not a polynomial"
}
set coeffs [lindex $polyn 1]
set new_coeffs {}
set idx [llength $coeffs]
foreach c [lrange $coeffs 0 end] {
lappend new_coeffs [expr {$c/double($idx)}]
incr idx -1
}
return [list POLYNOMIAL [concat $new_coeffs 0.0]]
}
# addPolyn --
# Add two polynomials and return the result
#
# Arguments:
# polyn1 First polynomial or a scalar
# polyn2 Second polynomial or a scalar
# Result:
# The sum of the two polynomials
# Note:
# Make sure that the first coefficient is not zero
#
proc ::math::polynomials::addPolyn {polyn1 polyn2} {
if { [llength $polyn1] == 1 && [string is double -strict $polyn1] } {
set polyn1 [polynomial $polyn1]
}
if { [llength $polyn2] == 1 && [string is double -strict $polyn2] } {
set polyn2 [polynomial $polyn2]
}
if { [lindex $polyn1 0] != "POLYNOMIAL" ||
[lindex $polyn2 0] != "POLYNOMIAL" } {
return -code error "Both arguments must be polynomials or a real number"
}
set coeffs1 [lindex $polyn1 1]
set coeffs2 [lindex $polyn2 1]
set extra1 [expr {[llength $coeffs2]-[llength $coeffs1]}]
while { $extra1 > 0 } {
set coeffs1 [concat 0.0 $coeffs1]
incr extra1 -1
}
set extra2 [expr {[llength $coeffs1]-[llength $coeffs2]}]
while { $extra2 > 0 } {
set coeffs2 [concat 0.0 $coeffs2]
incr extra2 -1
}
set new_coeffs {}
foreach c1 $coeffs1 c2 $coeffs2 {
lappend new_coeffs [expr {$c1+$c2}]
}
while { [lindex $new_coeffs 0] == 0.0 } {
set new_coeffs [lrange $new_coeffs 1 end]
}
return [list POLYNOMIAL $new_coeffs]
}
# subPolyn --
# Subtract two polynomials and return the result
#
# Arguments:
# polyn1 First polynomial or a scalar
# polyn2 Second polynomial or a scalar
# Result:
# The difference of the two polynomials
# Note:
# Make sure that the first coefficient is not zero
#
proc ::math::polynomials::subPolyn {polyn1 polyn2} {
if { [llength $polyn1] == 1 && [string is double -strict $polyn1] } {
set polyn1 [polynomial $polyn1]
}
if { [llength $polyn2] == 1 && [string is double -strict $polyn2] } {
set polyn2 [polynomial $polyn2]
}
if { [lindex $polyn1 0] != "POLYNOMIAL" ||
[lindex $polyn2 0] != "POLYNOMIAL" } {
return -code error "Both arguments must be polynomials or a real number"
}
set coeffs1 [lindex $polyn1 1]
set coeffs2 [lindex $polyn2 1]
set extra1 [expr {[llength $coeffs2]-[llength $coeffs1]}]
while { $extra1 > 0 } {
set coeffs1 [concat 0.0 $coeffs1]
incr extra1 -1
}
set extra2 [expr {[llength $coeffs1]-[llength $coeffs2]}]
while { $extra2 > 0 } {
set coeffs2 [concat 0.0 $coeffs2]
incr extra2 -1
}
set new_coeffs {}
foreach c1 $coeffs1 c2 $coeffs2 {
lappend new_coeffs [expr {$c1-$c2}]
}
while { [lindex $new_coeffs 0] == 0.0 } {
set new_coeffs [lrange $new_coeffs 1 end]
}
return [list POLYNOMIAL $new_coeffs]
}
# multPolyn --
# Multiply two polynomials and return the result
#
# Arguments:
# polyn1 First polynomial or a scalar
# polyn2 Second polynomial or a scalar
# Result:
# The difference of the two polynomials
# Note:
# Make sure that the first coefficient is not zero
#
proc ::math::polynomials::multPolyn {polyn1 polyn2} {
if { [llength $polyn1] == 1 && [string is double -strict $polyn1] } {
set polyn1 [polynomial $polyn1]
}
if { [llength $polyn2] == 1 && [string is double -strict $polyn2] } {
set polyn2 [polynomial $polyn2]
}
if { [lindex $polyn1 0] != "POLYNOMIAL" ||
[lindex $polyn2 0] != "POLYNOMIAL" } {
return -code error "Both arguments must be polynomials or a real number"
}
set coeffs1 [lindex $polyn1 1]
set coeffs2 [lindex $polyn2 1]
#
# Take care of the null polynomial
#
if { $coeffs1 == {} || $coeffs2 == {} } {
return [polynomial {}]
}
set zeros {}
foreach c $coeffs1 {
lappend zeros 0.0
}
set new_coeffs [lrange $zeros 1 end]
foreach c $coeffs2 {
lappend new_coeffs 0.0
}
set idx 0
foreach c $coeffs1 {
set term_coeffs {}
foreach c2 $coeffs2 {
lappend term_coeffs [expr {$c*$c2}]
}
set term_coeffs [concat [lrange $zeros 0 [expr {$idx-1}]] \
$term_coeffs \
[lrange $zeros [expr {$idx+1}] end]]
set sum_coeffs {}
foreach t $term_coeffs n $new_coeffs {
lappend sum_coeffs [expr {$t+$n}]
}
set new_coeffs $sum_coeffs
incr idx
}
return [list POLYNOMIAL $new_coeffs]
}
# divPolyn --
# Divide two polynomials and return the quotient
#
# Arguments:
# polyn1 First polynomial or a scalar
# polyn2 Second polynomial or a scalar
# Result:
# The difference of the two polynomials
# Note:
# Make sure that the first coefficient is not zero
#
proc ::math::polynomials::divPolyn {polyn1 polyn2} {
if { [llength $polyn1] == 1 && [string is double -strict $polyn1] } {
set polyn1 [polynomial $polyn1]
}
if { [llength $polyn2] == 1 && [string is double -strict $polyn2] } {
set polyn2 [polynomial $polyn2]
}
if { [lindex $polyn1 0] != "POLYNOMIAL" ||
[lindex $polyn2 0] != "POLYNOMIAL" } {
return -code error "Both arguments must be polynomials or a real number"
}
set coeffs1 [lindex $polyn1 1]
set coeffs2 [lindex $polyn2 1]
#
# Take care of the null polynomial
#
if { $coeffs1 == {} } {
return [polynomial {}]
}
if { $coeffs2 == {} } {
return -code error "Denominator can not be zero"
}
foreach {quotient remainder} [DivRemPolyn $polyn1 $polyn2] {break}
return $quotient
}
# remainderPolyn --
# Divide two polynomials and return the remainder
#
# Arguments:
# polyn1 First polynomial or a scalar
# polyn2 Second polynomial or a scalar
# Result:
# The difference of the two polynomials
# Note:
# Make sure that the first coefficient is not zero
#
proc ::math::polynomials::remainderPolyn {polyn1 polyn2} {
if { [llength $polyn1] == 1 && [string is double -strict $polyn1] } {
set polyn1 [polynomial $polyn1]
}
if { [llength $polyn2] == 1 && [string is double -strict $polyn2] } {
set polyn2 [polynomial $polyn2]
}
if { [lindex $polyn1 0] != "POLYNOMIAL" ||
[lindex $polyn2 0] != "POLYNOMIAL" } {
return -code error "Both arguments must be polynomials or a real number"
}
set coeffs1 [lindex $polyn1 1]
set coeffs2 [lindex $polyn2 1]
#
# Take care of the null polynomial
#
if { $coeffs1 == {} } {
return [polynomial {}]
}
if { $coeffs2 == {} } {
return -code error "Denominator can not be zero"
}
foreach {quotient remainder} [DivRemPolyn $polyn1 $polyn2] {break}
return $remainder
}
# DivRemPolyn --
# Divide two polynomials and return the quotient and remainder
#
# Arguments:
# polyn1 First polynomial or a scalar
# polyn2 Second polynomial or a scalar
# Result:
# The difference of the two polynomials
# Note:
# Make sure that the first coefficient is not zero
#
proc ::math::polynomials::DivRemPolyn {polyn1 polyn2} {
set coeffs1 [lindex $polyn1 1]
set coeffs2 [lindex $polyn2 1]
set steps [expr { [degreePolyn $polyn1] - [degreePolyn $polyn2] + 1 }]
#
# Special case: polynomial 1 has lower degree than polynomial 2
#
if { $steps <= 0 } {
return [list [polynomial 0.0] $polyn1]
} else {
set extra_coeffs {}
for { set i 1 } { $i < $steps } { incr i } {
lappend extra_coeffs 0.0
}
lappend extra_coeffs 1.0
}
set c2 [lindex $coeffs2 0]
set quot_coeffs {}
for { set i 0 } { $i < $steps } { incr i } {
set c1 [lindex $coeffs1 0]
set factor [expr {$c1/$c2}]
set fpolyn [multPolyn $polyn2 \
[polynomial [lrange $extra_coeffs $i end]]]
set newpol [subPolyn $polyn1 [multPolyn $fpolyn $factor]]
#
# Due to rounding errors, a very small, parasitical
# term may still exist. Remove it
#
if { [degreePolyn $newpol] == [degreePolyn $polyn1] } {
set new_coeffs [lrange [allCoeffsPolyn $newpol] 0 end-1]
set newpol [polynomial $new_coeffs]
}
set polyn1 $newpol
set coeffs1 [lindex $polyn1 1]
set quot_coeffs [concat $factor $quot_coeffs]
}
set quotient [polynomial $quot_coeffs]
return [list $quotient $polyn1]
}
#
# Announce our presence
#
package provide math::polynomials 1.0.1
# some tests --
#
if { 0 } {
set prec $::tcl_precision
if {![package vsatisfies [package provide Tcl] 8.5]} {
set ::tcl_precision 17
} else {
set ::tcl_precision 0
}
set f1 [::math::polynomials::polynomial {1 2 3}]
set f2 [::math::polynomials::polynomial {1 2 3 0}]
set f3 [::math::polynomials::polynomial {0 0 0 0}]
set f4 [::math::polynomials::polynomial {5 7}]
set cmdf1 [::math::polynomials::polynCmd {1 2 3}]
foreach x {0 1 2 3 4 5} {
puts "[::math::polynomials::evalPolyn $f1 $x] -- \
[expr {1.0+2.0*$x+3.0*$x*$x}] -- \
[$cmdf1 $x] -- [::math::polynomials::evalPolyn $f3 $x]"
}
puts "Degree: [::math::polynomials::degreePolyn $f1] (expected: 2)"
puts "Degree: [::math::polynomials::degreePolyn $f2] (expected: 2)"
foreach d {0 1 2} {
puts "Coefficient $d = [::math::polynomials::coeffPolyn $f2 $d]"
}
puts "All coefficients = [::math::polynomials::allCoeffsPolyn $f2]"
puts "Derivative = [::math::polynomials::derivPolyn $f1]"
puts "Primitive = [::math::polynomials::primitivePolyn $f1]"
puts "Add: [::math::polynomials::addPolyn $f1 $f4]"
puts "Add: [::math::polynomials::addPolyn $f4 $f1]"
puts "Subtract: [::math::polynomials::subPolyn $f1 $f4]"
puts "Multiply: [::math::polynomials::multPolyn $f1 $f4]"
set f1 [::math::polynomials::polynomial {1 2 3}]
set f2 [::math::polynomials::polynomial {0 1}]
puts "Divide: [::math::polynomials::divPolyn $f1 $f2]"
puts "Remainder: [::math::polynomials::remainderPolyn $f1 $f2]"
set f1 [::math::polynomials::polynomial {1 2 3}]
set f2 [::math::polynomials::polynomial {1 1}]
puts "Divide: [::math::polynomials::divPolyn $f1 $f2]"
puts "Remainder: [::math::polynomials::remainderPolyn $f1 $f2]"
set f1 [::math::polynomials::polynomial {1 2 3}]
set f2 [::math::polynomials::polynomial {0 1}]
set f3 [::math::polynomials::divPolyn $f2 $f1]
set coeffs [::math::polynomials::allCoeffsPolyn $f3]
puts "Coefficients: $coeffs"
set f3 [::math::polynomials::divPolyn $f1 $f2]
set coeffs [::math::polynomials::allCoeffsPolyn $f3]
puts "Coefficients: $coeffs"
set f1 [::math::polynomials::polynomial {1 2 3}]
set f2 [::math::polynomials::polynomial {0}]
set f3 [::math::polynomials::divPolyn $f2 $f1]
set coeffs [::math::polynomials::allCoeffsPolyn $f3]
puts "Coefficients: $coeffs"
set ::tcl_precision $prec
}
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