OpenXM/src/kan96xx/Kan/dr.sm1 - diff

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Diff for /OpenXM/src/kan96xx/Kan/dr.sm1 between version 1.34 and 1.48

version 1.34, 2004/09/01 05:06:09

version 1.48, 2005/02/27 05:28:06

Line 1

% $OpenXM: OpenXM/src/kan96xx/Kan/dr.sm1,v 1.33 2004/08/31 05:30:20 takayama Exp $

% $OpenXM: OpenXM/src/kan96xx/Kan/dr.sm1,v 1.47 2004/09/20 02:11:22 takayama Exp $

%% dr.sm1 (Define Ring) 1994/9/25, 26

%% This file is error clean.

Line 342

0 1 << set0 length 1 sub >>

{

/i set

<< set0 i get >> a eq

set0 i get tag , a tag , eq {

{

<< set0 i get >> a eq

/flag 1 def

{

}

/flag 1 def exit

{ }

}

ifelse

{ }

ifelse

} { } ifelse

} for

] pop

/arg1 flag def

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( Pointer to the ring. )

(Example: [$x,y$ ring_of_q_difference_operators $Qx,Qy$ elimination_order)

( 0] define_qring )

(cf. define_ring, set_up_ring@ <coefficient ring>, ring_def, << ,, >>)

(cf. define_ring, set_up_ring@ <coefficient ring>, ring_def, << __ >>)

]

] putUsages

/define_qring {

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(one may use the command )

( f (ring) data_conversion /R set)

(cf. define_ring, define_qring, system_variable, poly (ring) data_conversion)

(cf. << ,, >>)

(cf. << __ >>)

]

] putUsages

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gg (0). eq

{ 0 }

{ gg (ring) data_conversion /rr set

gg << var rr ,, >> degree

gg << var rr __ >> degree

} ifelse

} map def

%%degs message

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(type?) data_conversion RingP eq

} def

[(isByteArray)

[(obj isByteArray bool) ]

] putUsages

/isByteArray {

(type?) data_conversion ByteArrayP eq

} def

/toString.tmp {

/arg1 set

[/obj /fname] pushVariables

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{ obj (string) data_conversion } { } ifelse

obj isRational

{ obj (string) data_conversion } { } ifelse

obj isByteArray

{ obj (array) data_conversion toString } { } ifelse

obj tag 0 eq

{ (null) } { } ifelse

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/RationalFunctionP 16 def

/ClassP 17 def

/DoubleP 18 def

/ByteArrayP 19 def

/@.datatypeConstant.usage [

(IntegerP, LiteralP, StringP, ExecutableArrayP, ArrayP, PolyP, FileP, RingP,)

(UniversalNumberP, RationalFunctionP, ClassP, DoubleP)

(UniversalNumberP, RationalFunctionP, ClassP, DoubleP, ByteArrayP)

( return data type identifiers.)

(Example: 7 tag IntegerP eq ---> 1)

] def

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[(RationalFunctionP) @.datatypeConstant.usage ] putUsages

[(ClassP) @.datatypeConstant.usage ] putUsages

[(DoubleP) @.datatypeConstant.usage ] putUsages

[(ByteArrayP) @.datatypeConstant.usage ] putUsages

[(,,)

[(__)

[( string ring ,, polynomial)

[( string ring __ polynomial)

(Parse the <<string>> as an element in the <<ring>> and returns)

(the polynomial.)

(cf. define_ring, define_qring, ring_def)

(Example: [(x,y) ring_of_polynomials [[(x) 1]] weight_vector 7]define_ring)

( /myring set)

( ((x+y)^4) myring ,, /f set)

( ((x+y)^4) myring __ /f set)

]] putUsages

/,, {

/__ {

/arg2 set /arg1 set

[/rrr] pushVariables

[ arg1 tag StringP eq

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/arg1 arg1 expand def

[(CurrentRingp) rrr] system_variable

}

{(Argument Error for ,, ) error }

{(Argument Error for __ ) error }

ifelse

] pop

popVariables

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[( string .. universalNumber)

(Parse the << string >> as a universalNumber.)

(Example: (123431232123123).. /n set)

({ commands }.. executes the commands. << .. >> is equivalent to exec.)

]] putUsages

/.. { (universalNumber) data_conversion } def

/.. { dup tag 3 eq { exec } { (universalNumber) data_conversion} ifelse } def

[(dc)

[(Abbreviation of data_conversion.)

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} def

%%end of function

/rest { % returns remainder of a given list

/rest {

[ 2 1 roll aload length -1 roll pop ]

/arg1 set [(Krest) arg1] extension

} def

[(rest)

[(array rest the-rest-of-the-array)

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error

} ifelse

/myring base 0 get (ring) dc def

/zero (0) myring ,, def

/zero (0) myring __ def

base length 1 sub /n set

/minbase [ 0 1 n { /i set base i get } for ] def

0 1 n {

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[(variableNames) M2N 0 get] system_variable

f toString /f2 set

[(variableNames) M2N 3 get] system_variable

f2 M2N 2 get ,, /f2 set

f2 M2N 2 get __ /f2 set

} ifelse

[(CurrentRingp) cp] system_variable

/arg1 f2 def

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$/R2 set$

$[[(x) (Dx)] [((t-1) Dt) (z)]] /r0 set$

$r0 R1 R2 makeRingMap /maptable set$

$(Dx-1) R1 ,, /ff set$

$(Dx-1) R1 __ /ff set$

$ ff maptable ringmap :: $

]

] putUsages

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/rrr set

base { . } map /base set

} ifelse

vlist { dup isPolynomial { } { rrr ,, } ifelse } map /vlist set

vlist { dup isPolynomial { } { rrr __ } ifelse } map /vlist set

[(hilbert) base vlist] extension /ff set

[(CurrentRingp) rrrorg] system_variable

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/vv arg2 def

/f hhh 1 get def

f (0). eq { /ans [0] def /hilbReduce.label goto } { } ifelse

f vv << f (ring) dc >> ,, degree /vv set

f vv << f (ring) dc >> __ degree /vv set

hhh 0 get /d set

d d (integer) dc factorial /d set

d << vv (universalNumber) dc vv factorial >> idiv /d set

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{ /fn (0). def }

{

f (ring) dc /rrr set

v toString (^) n toString 3 cat_n rrr ,,

v toString (^) n toString 3 cat_n rrr __

f mul

[[v (0).] [(h) rrr ,, (1) rrr ,,]] replace /fn set

[[v (0).] [(h) rrr __ (1) rrr __]] replace /fn set

} ifelse

fn /arg1 set

] pop

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/ddd 0 def

0 2 www length 1 sub {

/iii set

fff << www iii get rrr ,, >> degree

fff << www iii get rrr __ >> degree

<< www iii 1 add get >> mul

ddd add /ddd set

} for

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fff (0). eq { /ddd -intInfinity def /ord_w_all.LLL goto} { } ifelse

/ddd -intInfinity def

fff (ring) dc /rrr set

/zzz (0) rrr ,, def

/zzz (0) rrr __ def

fff init /fff-in set

fff fff-in sub /fff set

{

/ddd-tmp 0 def

0 2 www length 1 sub {

/iii set

fff-in << www iii get rrr ,, >> degree

fff-in << www iii get rrr __ >> degree

<< www iii 1 add get >> mul

ddd-tmp add /ddd-tmp set

} for

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/v0 vv ii get (string) dc def

v0 (array) dc 0 get Dascii eq %% If the first character is D?

{ rule %% Dx-->x

[v0 rr ,,

[v0 rr __

v0 (array) dc rest { (string) dc} map aload length cat_n rr ,,]

v0 (array) dc rest { (string) dc} map aload length cat_n rr __]

append /rule set

}

{ rule %% x --> -Dx

[v0 rr ,,

[v0 rr __

(0).

[Dascii] v0 (array) dc join { (string) dc } map aload length

cat_n rr ,, sub

cat_n rr __ sub

]

append /rule set

} ifelse

} for

% rule message

ff rule replace [[(h) rr ,, (1) rr ,,]] replace /ans1 set

ff rule replace [[(h) rr __ (1) rr __]] replace /ans1 set

} ifelse

}

{

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{

/xx xx (string) dc def

/dxx [@@@.Dsymbol xx] cat def

/xx xx f (ring) dc ,, def

/xx xx f (ring) dc __ def

/dxx dxx f (ring) dc ,, def

/dxx dxx f (ring) dc __ def

/one (1) f (ring) dc ,, def

/one (1) f (ring) dc __ def

{

/g f init def

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f (0). eq { }

{

/rr f (ring) dc def

xx {toString rr ,, } map /xx set

xx {toString rr __ } map /xx set

dx {toString rr ,, } map /dx set

dx {toString rr __ } map /dx set

ss {toString rr ,, } map /ss set

ss {toString rr __ } map /ss set

/n xx length def

0 1 n 1 sub {

/i set

Line 3102 newline

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[

/f arg1 def /xx arg2 def /dx arg3 def /ss arg4 def

f (ring) dc /rr set

/one (1) rr ,, def %%

/one (1) rr __ def %%

/ww [ xx toString -1 dx toString 1 ] weightv def

f ww init f sub (0). eq { }

{ [(destraction2.1 : inhomogeneous with respect to )

Line 3874 $ [ff ff] fromVectors :: $

Line 3888 $ [ff ff] fromVectors :: $

[(>) (stringOut://@@@stdout) (2>) (stringOut://@@@stderr)] join

} def

[(,,,)

[(___)

[(reparse a polynomial or polynomials)]

] putUsages

/,,, {

/___ {

/arg1 set

[/in-reparse /ff] pushVariables

[

/ff arg1 def

ff tag 6 eq {

ff { ,,, } map /arg1 set

ff { ___ } map /arg1 set

} {

ff toString . /arg1 set

} ifelse

Line 4151 $ [ff ff] fromVectors :: $

Line 4165 $ [ff ff] fromVectors :: $

/getNode {

/arg2 set

/arg1 set

[/in-getNode /ob /key /rr /rr /ii] pushVariables

[/in-getNode /ob /key /rr /tt /ii] pushVariables

[

/ob arg1 def

/key arg2 def

/rr null def

{

ob isArray {

ob length 1 gt {

ob 0 get isString {

ob 0 get , key eq {

/rr ob 1 get def exit

} { } ifelse

}{ } ifelse

ob { key getNode , dup tag 0 eq {pop} { } ifelse } map /tt set

tt length 0 gt { /rr tt 0 get def exit }

{/rr null def exit } ifelse

} { } ifelse

ob isClass {

ob (array) dc /ob set

} { exit } ifelse

} { } ifelse

ob isClass , ob isArray or { } { exit } ifelse

ob 0 get key eq {

/rr ob def

exit

Line 4178 $ [ff ff] fromVectors :: $

Line 4206 $ [ff ff] fromVectors :: $

arg1

} def

[(getNode)

[(ob key getNode)

[(ob key getNode node-value)

(ob is a class object.)

(ob is a class object or an array.)

(The operator getNode returns the node with the key in ob.)

(The node is an array of the format [key attr-list node-list])

(When ob is a class, the node is an array of the format [key attr-list node-list])

(When ob is an array, the node is a value of key-value pairs.)

(Example:)

( /dog [(dog) [[(legs) 4] ] [ ]] [(class) (tree)] dc def)

( /man [(man) [[(legs) 2] ] [ ]] [(class) (tree)] dc def)

( /ma [(mammal) [ ] [man dog]] [(class) (tree)] dc def)

( ma (dog) getNode )

(Example 2:)

( [ [1 ] [2 3] [[(dog) 2]]] (dog) getNode ::)

]] putUsages

/cons {

/arg2 set /arg1 set

[/aa /bb] pushVariables

[

/aa arg1 def /bb arg2 def

[aa] (list) dc bb join /arg1 set

] pop

popVariables

arg1

} def

[(cons)

[(obj list cons list)

]] putUsages

/arrayToList {

/arg1 set

[/a /r] pushVariables

[

/a arg1 def

{

a isArray {

a { arrayToList } map /a set

a (list) dc /r set

exit

} { } ifelse

/r a def

exit

} loop

/arg1 r def

] pop

popVariables

arg1

} def

[(arrayToList)

[(a arrayToList list)

]] putUsages

/listToArray {

/arg1 set

[/a /r] pushVariables

[

/a arg1 def

{

a tag 12 eq {

a (array) dc /a set

a { listToArray } map /r set

exit

} { } ifelse

a tag 0 eq {

/r [ ] def

exit

} { } ifelse

/r a def

exit

} loop

/arg1 r def

] pop

popVariables

arg1

} def

[(listToArray)

[(list listToArray a)

]] putUsages

% Body is moved to smacro.sm1

[(makeInfix)

[(literal makeInfix)

(Change literal to an infix operator.)

(Example: /+ { add } def )

( /+ makeInfix)

( /s 0 def 1 1 100 { /i set s + i /s set } for s message)

( [ 1 2 3 ] { /i set i + 2 } map ::)

]] putUsages

/usages {

/arg1 set

[/name /flag /n /k /slist /m /i /sss] pushVariables

[/name /flag /n /k /slist /m /i /sss /key /ukeys] pushVariables

[

/name arg1 def

/flag true def

{ % begin loop

%BUG: should use regular expression in a future.

name isArray {

/ukeys @.usages { 0 get } map shell def

name { /key set [(regexec) key ukeys] extension

{ 0 get } map } map /sss set

exit

} { } ifelse

name tag 1 eq {

@.usages { 0 get } map shell { (, ) nl } map /sss set

exit

} {

/sss [ ] def

Line 4226 $ [ff ff] fromVectors :: $

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{name Usage /sss [(Usage of ) name ( could not obtained.) nl ] def}

{ }

ifelse

exit

} ifelse

} loop

/arg1 sss cat def

] pop

popVariables

Line 4235 $ [ff ff] fromVectors :: $

Line 4349 $ [ff ff] fromVectors :: $

[(usages)

[(key usages usages-as-a-string)

(num usages list-of-key-words)

([key1 key2 ... ] usages list-of-key-words : it accepts regular expressions.)

]] putUsages

/setMinus {

/arg2 set /arg1 set

[/aa /bb /i ] pushVariables

[

/aa arg1 def /bb arg2 def

[

0 1 aa length 1 sub {

/i set

aa i get bb memberQ {

} { aa i get } ifelse

} for

] /arg1 set

] pop

popVariables

arg1

} def

[(setMinus)

[(a b setMinus c)

]] putUsages

% Define some infix operators

/~add~ { add } def /~add~ makeInfix

/~sub~ { sub } def /~sub~ makeInfix

/~mul~ { mul } def /~mul~ makeInfix

/~div~ { div } def /~div~ makeInfix

/~power~ { power } def /~power~ makeInfix

/~put~ {

dup tag 3 eq { exec } { } ifelse put

} def

/~put~ makeInfix

/toTokensBySpace {

/arg1 set

[(cgiToTokens) arg1 [ ]] extension

} def

[(toTokensBySpace)

[

( string toTokensBySpace token_array )

]] putUsages

;

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