version 1.3, 2000/02/02 09:07:59 |
version 1.21, 2003/08/24 05:25:58 |
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% $OpenXM: OpenXM/src/kan96xx/Kan/dr.sm1,v 1.2 1999/11/08 00:16:05 takayama Exp $ |
% $OpenXM: OpenXM/src/kan96xx/Kan/dr.sm1,v 1.20 2003/08/24 05:19:42 takayama Exp $ |
%% dr.sm1 (Define Ring) 1994/9/25, 26 |
%% dr.sm1 (Define Ring) 1994/9/25, 26 |
%% This file is error clean. |
%% This file is error clean. |
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@@@.quiet { } |
@@@.quiet { } |
{ (macro package : dr.sm1, 9/26,1995 --- Version 2/2, 2000. ) message } ifelse |
{ (macro package : dr.sm1, 9/26,1995 --- Version 12/10, 2000. ) message } ifelse |
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/ctrlC-hook { |
/ctrlC-hook { |
%%% define your own routing in case of error. |
%%% define your own routing in case of error. |
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/arg1 set |
/arg1 set |
[/vars /n /i /xList /dList /param] pushVariables |
[/vars /n /i /xList /dList /param] pushVariables |
[ |
[ |
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(This is an obsolete macro. Use ring_of_differential_difference_operators) |
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error |
(mmLarger) (matrix) switch_function |
(mmLarger) (matrix) switch_function |
(mpMult) (difference) switch_function |
(mpMult) (difference) switch_function |
(red@) (module1) switch_function |
(red@) (module1) switch_function |
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} def |
} def |
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/ring_of_differential_difference_operators { |
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/arg1 set |
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[/vars /n /i /xList /dList /param /dvar /evar /vars2 ] pushVariables |
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[ |
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/vars arg1 def |
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vars tag 6 eq not { |
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( List is expected as the argument for ring_of_differential_difference_operators ) error |
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} { } ifelse |
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vars 0 get /dvar set |
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vars 1 get /evar set |
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(mmLarger) (matrix) switch_function |
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(mpMult) (difference) switch_function |
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(red@) (module1) switch_function |
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(groebner) (standard) switch_function |
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(isSameComponent) (x) switch_function |
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[dvar to_records pop] /vars set %[x y z] |
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vars reverse /xList set %[z y x] |
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[evar to_records pop] /vars2 set %[s1 s2] |
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vars2 reverse {@@@.Esymbol 2 1 roll 2 cat_n} map |
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xList |
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join /xList set %[Es2 Es1 z y x] |
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vars2 reverse |
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vars {@@@.Dsymbol 2 1 roll 2 cat_n} map |
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reverse join /dList set %[s2 s1 Dz Dy Dx] |
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[(H)] xList join [@@@.esymbol] join /xList set |
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[(h)] dList join [@@@.Esymbol] join /dList set |
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[0 1 1 << vars2 length 1 add >> << xList length >> |
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1 1 << vars2 length 1 add >> << xList length 1 sub >> ] /param set |
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[ xList dList param ] /arg1 set |
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] pop |
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popVariables |
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arg1 |
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} def |
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/reverse { |
/reverse { |
/arg1 set |
/arg1 set |
arg1 length 1 lt |
arg1 length 1 lt |
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(type?) data_conversion RationalFunctionP eq |
(type?) data_conversion RationalFunctionP eq |
} def |
} def |
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[(isRing) |
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[(obj isRing bool) ] |
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] putUsages |
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/isRing { |
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(type?) data_conversion RingP eq |
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} def |
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/toString.tmp { |
/toString.tmp { |
/arg1 set |
/arg1 set |
[/obj /fname] pushVariables |
[/obj /fname] pushVariables |
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/tolower.aux { |
/tolower.aux { |
/arg1 set |
/arg1 set |
arg1 64 gt arg1 96 lt and |
arg1 64 gt arg1 91 lt and |
{ arg1 32 add } |
{ arg1 32 add } |
{ arg1 } ifelse |
{ arg1 } ifelse |
} def |
} def |
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[(ord_w) |
[(ord_w) |
[(ff [v1 w1 v2 w2 ... vm wm] ord_w d) |
[(ff [v1 w1 v2 w2 ... vm wm] ord_w d) |
(poly ff; string v1; integer w1; ...) |
(poly ff; string v1; integer w1; ...) |
(order of ff by the weight vector [w1 w2 ...]) |
(order of the initial of ff by the weight vector [w1 w2 ...]) |
(Example: [(x,y) ring_of_polynomials 0] define_ring ) |
(Example: [(x,y) ring_of_polynomials 0] define_ring ) |
( (x^2 y^3-x). [(x) 2 (y) 1] ord_w ::) |
( (x^2 y^3-x). [(x) 2 (y) 1] ord_w ::) |
] |
] |
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arg1 |
arg1 |
} def |
} def |
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[(ord_w_all) |
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[(ff [v1 w1 v2 w2 ... vm wm] ord_w d) |
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(poly ff; string v1; integer w1; ...) |
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(order of ff by the weight vector [w1 w2 ...]) |
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(Example: [(x,y,t) ring_of_polynomials 0] define_ring ) |
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( (x^2 y^3-x-t). [(t) 1 ] ord_w_all ::) |
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] |
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] putUsages |
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/ord_w_all { |
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/arg2 set /arg1 set |
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[/ord_w_all-in /fff /fff-in /www /rrr /iii /ddd /zzz /ddd-tmp] pushVariables |
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[ |
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/fff arg1 def |
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/www arg2 def |
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fff (0). eq { /ddd -intInfinity def /ord_w_all.LLL goto} { } ifelse |
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/ddd -intInfinity def |
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fff (ring) dc /rrr set |
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/zzz (0) rrr ,, def |
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fff init /fff-in set |
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fff fff-in sub /fff set |
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{ |
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/ddd-tmp 0 def |
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0 2 www length 1 sub { |
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/iii set |
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fff-in << www iii get rrr ,, >> degree |
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<< www iii 1 add get >> mul |
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ddd-tmp add /ddd-tmp set |
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} for |
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ddd-tmp ddd gt { /ddd ddd-tmp def } { } ifelse |
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fff zzz eq { exit } { } ifelse |
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fff init /fff-in set |
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fff fff-in sub /fff set |
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} loop |
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/ord_w_all.LLL |
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/arg1 ddd def |
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] pop |
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popVariables |
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arg1 |
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} def |
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[(laplace0) |
[(laplace0) |
[ |
[ |
(f [v1 ... vn] laplace0 g) |
(f [v1 ... vn] laplace0 g) |
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]] putUsages |
]] putUsages |
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/cancelCoeff { |
/cancelCoeff { |
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/arg1 set |
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[(reduceContent) arg1] gbext 0 get |
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} def |
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/cancelCoeff_org { |
/arg1 set |
/arg1 set |
[/in-cancelCoeff /ff /gg /dd /dd2] pushVariables |
[/in-cancelCoeff /ff /gg /dd /dd2] pushVariables |
[ /ff arg1 def |
[ /ff arg1 def |
Line 3533 $ [ff ff] fromVectors :: $ |
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Line 3623 $ [ff ff] fromVectors :: $ |
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[(nl is the newline character.) |
[(nl is the newline character.) |
$Example: [(You can break line) nl (here.)] cat message$ |
$Example: [(You can break line) nl (here.)] cat message$ |
]] putUsages |
]] putUsages |
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/to_int { |
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/arg1 set |
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[/to-int /ob /ans] pushVariables |
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[ |
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/ob arg1 def |
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/ans ob def |
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ob isArray { |
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ob {to_int} map /ans set |
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/LLL.to_int goto |
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} { } ifelse |
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ob isInteger { |
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ob (universalNumber) dc /ans set |
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/LLL.to_int goto |
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} { } ifelse |
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/LLL.to_int |
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/arg1 ans def |
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] pop |
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popVariables |
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arg1 |
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} def |
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[(to_int) |
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[(obj to_int obj2) |
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(All integers in obj are changed to universalNumber.) |
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(Example: /ff [1 2 [(hello) (0).]] def ff { tag } map ::) |
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( ff to_int { tag } map :: ) |
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]] putUsages |
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/define_ring_variables { |
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[/in-define_ring_variables /drv._v /drv._p /drv._v0] pushVariables |
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%% You cannot use these names for names for polynomials. |
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[ |
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/drv._v getVariableNames def |
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/drv._v0 drv._v def |
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drv._v { dup /drv._p set (/) 2 1 roll ( $) drv._p ($. def ) } map cat |
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/drv._v set |
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% drv._v message |
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[(parse) drv._v] extension |
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] pop |
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popVariables |
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} def |
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[(define_ring_variables) |
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[(It binds a variable <<a>> in the current ring to the sm1 variable <<a>>.) |
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(For example, if x is a variable in the current ring, it defines the sm1) |
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(variable x by /x (x) def) |
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]] putUsages |
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/boundp { |
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/arg1 set |
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[/a /ans] pushVariables |
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[ |
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/a arg1 def |
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[(parse) [(/) a ( load tag 0 eq { /ans 0 def } ) |
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( { /ans 1 def } ifelse )] cat ] extension |
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/arg1 ans def |
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] pop |
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popVariables |
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arg1 |
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} def |
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[(boundp) |
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[( a boundp b) |
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(string a, b is 0 or 1.) |
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(If the variable named << a >> is bounded to a value,) |
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(it returns 1 else it returns 0.) |
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$Example: (hoge) boundp ::$ |
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]] putUsages |
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[(isSubstr) |
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[ |
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(s1 s2 isSubstr pos) |
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(If s1 is a substring of s2, isSubstr returns the position in s2 from which) |
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(s1 is contained in s2.) |
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(If s1 is not a substring of s2, then isSubstr returns -1.) |
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] |
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] putUsages |
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/isSubstr { |
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/arg2 set /arg1 set |
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[/in-isSubstr /s1 /s2 /i1 /i2 /n1 /n2 |
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/ans /flg |
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] pushVariables |
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[ |
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/s1 arg1 def |
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/s2 arg2 def |
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s1 (array) dc /s1 set |
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s2 (array) dc /s2 set |
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/n1 s1 length def |
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/n2 s2 length def |
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/ans -1 def |
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0 1 n2 n1 sub { |
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/i2 set |
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/flg 1 def |
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0 1 n1 1 sub { |
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/i1 set |
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s1 i1 get s2 i2 i1 add get eq { |
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} { |
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/flg 0 def exit |
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} ifelse |
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} for |
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flg { |
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/ans i2 def |
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/isSubstr.L2 goto |
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} { /ans -1 def } ifelse |
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} for |
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/isSubstr.L2 |
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/arg1 ans def |
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] pop |
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popVariables |
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arg1 |
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} def |
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[(execve) |
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[ |
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(command execve) |
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([arg0 arg1 arg2 ...] execve ) |
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(It executes the command by the system call execve.) |
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(cf. system, forkExec) |
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] |
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] putUsages |
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/execve { |
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/execve.arg set |
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[(forkExec) execve.arg [ ] 1] extension |
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} def |
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[(beginEcart) |
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[ |
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(beginEcart) |
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(Set the environments for the ecart division algorithm.) |
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] |
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] putUsages |
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/beginEcart { |
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(red@) (ecart) switch_function |
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[(Ecart) 1] system_variable |
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[(CheckHomogenization) 0] system_variable |
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[(ReduceLowerTerms) 0] system_variable |
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[(AutoReduce) 0] system_variable |
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[(EcartAutomaticHomogenization) 0] system_variable |
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} def |
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[(endEcart) |
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[ |
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(endEcart) |
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(End of using the ecart division algorithm.) |
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] |
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] putUsages |
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/endEcart { |
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(red@) (standard) switch_function |
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[(Ecart) 0] system_variable |
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[(degreeShift) (reset)] homogenize pop |
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} def |
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/ord_ws_all { |
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/arg2 set /arg1 set |
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[(ord_ws_all) arg1 arg2] gbext |
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} def |
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[(ord_ws_all) |
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[ |
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(fv wv ord_ws_all degree) |
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( ord_ws_all returns the ord with respect to the weight vector wv.) |
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$Example: [(x,y) ring_of_differential_operators 0] define_ring $ |
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$ (Dx^2+x*Dx*Dy+2). [(Dx) 1 (Dy) 1] weightv ord_ws_all :: $ |
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( ) |
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(fv [wv shiftv] ord_ws_all degree) |
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( ord_ws_all returns the ord with respect to the weight vector wv and) |
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( the shift vector shiftv.) |
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$Example: [(x,y) ring_of_differential_operators 0] define_ring $ |
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$ [(Dx^2+x*Dx*Dy+2). (Dx).] [[(Dx) 1 (Dy) 1] weightv [0 2]] ord_ws_all ::$ |
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( ) |
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(cf: init, gbext. Obsolete: ord_w, ord_w_all) |
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] |
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] putUsages |
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; |
; |
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