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Diff for /OpenXM/src/kan96xx/Kan/dr.sm1 between version 1.8 and 1.22

version 1.8, 2002/02/09 06:21:02 version 1.22, 2003/08/26 12:46:04
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 % $OpenXM: OpenXM/src/kan96xx/Kan/dr.sm1,v 1.7 2000/12/29 07:19:38 takayama Exp $  % $OpenXM: OpenXM/src/kan96xx/Kan/dr.sm1,v 1.21 2003/08/24 05:25:58 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.
   
Line 2322  newline
Line 2322  newline
   
 /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
Line 2506  newline
Line 2506  newline
 [(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 ::)
  ]   ]
Line 2534  newline
Line 2534  newline
   arg1    arg1
 } def  } def
   
   [(ord_w_all)
    [(ff [v1 w1 v2 w2 ... vm wm] ord_w d)
     (poly ff; string v1; integer w1; ...)
     (order of ff by the weight vector [w1 w2 ...])
     (Example: [(x,y,t) ring_of_polynomials 0] define_ring )
     (          (x^2 y^3-x-t). [(t) 1 ] ord_w_all ::)
    ]
   ] putUsages
   /ord_w_all {
     /arg2 set /arg1 set
     [/ord_w_all-in /fff /fff-in /www /rrr /iii /ddd /zzz /ddd-tmp] pushVariables
     [
       /fff arg1 def
       /www arg2 def
       fff (0). eq { /ddd -intInfinity def /ord_w_all.LLL goto} { } ifelse
       /ddd -intInfinity def
       fff (ring) dc /rrr set
       /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
          << www iii 1 add get >> mul
          ddd-tmp add /ddd-tmp set
        } for
        ddd-tmp ddd gt { /ddd ddd-tmp def }  {  } ifelse
        fff zzz eq { exit } {  } ifelse
        fff init /fff-in set
        fff fff-in sub /fff set
       } loop
       /ord_w_all.LLL
       /arg1 ddd def
     ] pop
     popVariables
     arg1
   } def
   
 [(laplace0)  [(laplace0)
  [   [
  (f [v1 ... vn] laplace0 g)   (f [v1 ... vn] laplace0 g)
Line 3282  newline
Line 3322  newline
 ]] putUsages  ]] putUsages
   
 /cancelCoeff {  /cancelCoeff {
     /arg1 set
     [(reduceContent) arg1] gbext 0 get
   } def
   /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 3645  $ [ff ff] fromVectors :: $ 
Line 3689  $ [ff ff] fromVectors :: $ 
   (it returns 1 else it returns 0.)    (it returns 1 else it returns 0.)
   $Example: (hoge) boundp ::$    $Example: (hoge) boundp ::$
 ]] putUsages  ]] putUsages
   [(isSubstr)
    [
     (s1 s2 isSubstr pos)
     (If s1 is a substring of s2, isSubstr returns the position in s2 from which)
     (s1 is contained in s2.)
     (If s1 is not a substring of s2, then isSubstr returns -1.)
    ]
   ] putUsages
   /isSubstr {
     /arg2 set /arg1 set
     [/in-isSubstr /s1 /s2 /i1 /i2 /n1 /n2
      /ans /flg
     ]  pushVariables
     [
       /s1 arg1 def
       /s2 arg2 def
       s1 (array) dc /s1 set
       s2 (array) dc /s2 set
       /n1 s1 length def
       /n2 s2 length def
       /ans -1 def
       0 1 n2 n1 sub {
         /i2 set
         /flg 1 def
         0 1 n1 1 sub {
           /i1 set
           s1 i1 get s2 i2 i1 add get eq {
           } {
             /flg 0 def exit
           } ifelse
         } for
         flg {
           /ans i2 def
           /isSubstr.L2 goto
         } { /ans -1 def } ifelse
       } for
       /isSubstr.L2
       /arg1 ans def
     ] pop
     popVariables
     arg1
   } def
   
   [(execve)
    [
      (command execve)
      ([arg0 arg1 arg2 ...] execve )
      (It executes the command by the system call execve.)
      (cf. system, forkExec)
    ]
   ] putUsages
   
   /execve {
     /execve.arg set
     [(forkExec) execve.arg [ ] 1] extension
   } def
   
   [(beginEcart)
    [
      (beginEcart)
      (Set the environments for the ecart division algorithm.)
    ]
   ] putUsages
   
   /beginEcart {
     (red@) (ecart) switch_function
     [(Ecart) 1] system_variable
     [(CheckHomogenization) 0] system_variable
     [(ReduceLowerTerms) 0] system_variable
     [(AutoReduce) 0] system_variable
     [(EcartAutomaticHomogenization) 0] system_variable
   } def
   
   [(endEcart)
    [
      (endEcart)
      (End of using the ecart division algorithm.)
    ]
   ] putUsages
   
   /endEcart {
     (red@) (standard) switch_function
     [(Ecart) 0] system_variable
     [(degreeShift) (reset)] homogenize pop
   } def
   
   /ord_ws_all {
     /arg2 set /arg1 set
     [(ord_ws_all) arg1 arg2] gbext
   } def
   [(ord_ws_all)
    [
      (fv wv ord_ws_all degree)
      (  ord_ws_all returns the ord with respect to the weight vector wv.)
      $Example: [(x,y) ring_of_differential_operators 0] define_ring  $
      $        (Dx^2+x*Dx*Dy+2). [(Dx) 1 (Dy) 1] weightv ord_ws_all ::  $
      (  )
      (fv [wv shiftv] ord_ws_all degree)
      (  ord_ws_all returns the ord with respect to the weight vector wv and)
      (  the shift vector shiftv.)
      $Example: [(x,y) ring_of_differential_operators 0] define_ring  $
      $        [(Dx^2+x*Dx*Dy+2). (Dx).] [[(Dx) 1 (Dy) 1] weightv [0 2]] ord_ws_all ::$
      (  )
      (cf: init, gbext.   Obsolete: ord_w, ord_w_all)
    ]
   ] putUsages
   
   [(newVector)
    [( n newVector vec)
   ]] putUsages
   /newVector {
     /arg1 set
     [/in-newVector /n] pushVariables
     [
       /n arg1 def
       [(newVector) n] extension /arg1 set
     ] pop
     popVariables
     arg1
   } def
   
   [(newMatrix)
    [( [m n] newMatrix mat)
   ]] putUsages
   /newMatrix {
     /arg1 set
     [/in-newMatrix /n] pushVariables
     [
       /n arg1 def
       [(newMatrix) n 0 get n 1 get] extension /arg1 set
     ] pop
     popVariables
     arg1
   } def
   
   
 ;  ;
   

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  Added in v.1.22

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