Annotation of OpenXM/src/kan96xx/Doc/cv2.sm1, Revision 1.1
1.1 ! maekawa 1: (cv0.sm1) run
! 2: ( ) message
! 3: (cv2.sm1 11/15, 1994. This program computes characteristic varieties) message
! 4: ( and multiplicities.) message
! 5: (Revised: 4/2, 1995, 11/5, 1998) message
! 6: (Type in charv and multi to see a demo.) message
! 7:
! 8: %%%%%%%%%%%%%%%%%% How to use %%%%%%%%%%%%%
! 9: % 1. Set your differential equation in Part A
! 10: % 2. Start sm1 and read this file.
! 11: % 3. Type in
! 12: % charv
! 13: % to get the characteristic variety.
! 14: % 4. Next set the localization rule by the command
! 15: % /locRule locRule1 def
! 16: % 5. And type in
! 17: % multi
! 18: % 6. to get the multiplicty.
! 19: % 7. goto 4
! 20: %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
! 21: % example
! 22: % sm1>charv ;
! 23: % sm1>/locRule locRule1 def multi ;
! 24: % sm1>/locRule locRule2 def multi ;
! 25: %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
! 26:
! 27:
! 28: %%%%%%%%%%Change here %%% set your data %%%%%%%%%%%%%%%%%%%%%%%%%%
! 29: %%% [Part A]
! 30: %%% Define variables
! 31: (x,y) /vars set
! 32: (a,b,b',c) /parameters set % Don't use t,e,H,h,E. They are reserved.
! 33: %%% Set your equations
! 34: [ ( Dx*(x*Dx+y*Dy+c-1)-(x*Dx+y*Dy+a)*(x*Dx+b) )
! 35: ( Dy*(x*Dx+y*Dy+c-1)-(x*Dx+y*Dy+a)*(y*Dy+b') )
! 36: ] /ff0 set
! 37: %%% If you can't get the result for general parameters, specialize
! 38: %%% the parameters.
! 39: [[$a$ $a$] [$b$ $b$]] /prule set
! 40: %%% [Part B] localization rules
! 41: %%% localization at the point x=2 y=3 Dx=0, Dy=0 on T^*_M M.
! 42: [[(x) (x+2)] [(y) (y+3)]] /locRule1 set %example 2
! 43: %%% localization at the point x=2 Dy=3 Dx=0, y=0 on T^*_V M where V={(x,0)}.
! 44: [[(x) (x+2)] [(Dy) (Dy+3)]] /locRule2 set %exmaple 2'
! 45: /locRule locRule1 def
! 46: %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
! 47:
! 48:
! 49: %%%%%%%%%%%%%% You don't need read the below.
! 50: /charv {
! 51: [ [vars to_records pop parameters to_records pop] { (,) 1 cat_n } map cat
! 52: ring_of_differential_operators
! 53: dvars elimination_order 0] swap01 define_ring
! 54: ff0 { . } map /ff set
! 55: ff { [[$h$. $1$.]] replace } map /ff set
! 56: ff { prule { {. } map } map replace } map /ff set
! 57: /ff ff homogenize def
! 58: [ff] groebner /ans set
! 59: ans 0 get {[[$h$. $1$.]] replace} map /gg set
! 60: (Now, you get the characteristic variety) message
! 61: gg characteristic-v print ( ) message ( ) message
! 62: gg characteristic-v 0 get {(string) data_conversion} map
! 63: /gg0 set
! 64: } def
! 65:
! 66:
! 67: /multi {
! 68: (Computing the multiplicity along T^*_Y M...) message
! 69:
! 70: (t) ring_of_differential_operators3 (t) lexicographic_order3 /r1 set
! 71: % t must be the most expensive.
! 72: dvars vars 2 cat_n
! 73: ring_of_polynomials2 ( ) elimination_order2 /r2 set
! 74:
! 75: parameters ring_of_polynomials2 ( ) elimination_order2 /r3 set
! 76: (H,h) ring_of_polynomials2 (H,h) lexicographic_order2 /r4 set
! 77: [r1 r2 add_rings r3 add_rings r4 add_rings 0] addSwap0k define_ring
! 78:
! 79: gg0 { . locRule {{ . } map} map replace} map
! 80:
! 81: (grade) (firstvec) switch_function
! 82: { homogenize [[$h$. $t$.]] replace (string) data_conversion } map /gg2 set
! 83:
! 84: [gg2 {.} map] groebner /gg2b set
! 85: gg2b 0 get {init} map { [[$t$. $1$.]] replace } map /gg3 set
! 86: gg3 {(string) data_conversion} map print
! 87: ( ) message
! 88: gg3 { parameters makeRule replace } map
! 89: {(string) data_conversion} map
! 90: [vars to_records pop] { (D) 2 1 roll 2 cat_n} map
! 91: [vars to_records pop] join
! 92: hilb ::
! 93: (The coefficient of h^2 is the multiplicity.) message
! 94: (grade) (module1) switch_function
! 95: } def
! 96:
! 97:
! 98: [vars to_records pop] { (D) 2 1 roll 2 cat_n (,) 2 cat_n } map cat /dvars set
! 99:
! 100:
! 101: /makeRule {
! 102: /arg1 set
! 103: [arg1 to_records pop] { [ 2 1 roll . $1$.] } map
! 104: } def
! 105:
! 106: /writeArray {
! 107: /arg2 set /arg1 set
! 108: [/fd /arr /k] pushVariables
! 109: [ /fd arg1 def
! 110: /arr arg2 def
! 111: fd ([ ) writestring
! 112: 0 1 arr length 1 sub
! 113: {
! 114: /k set
! 115: fd ($ ) writestring
! 116: fd arr k get writestring
! 117: fd ($ ) writestring
! 118: } for
! 119: fd ( ] ) writestring
! 120: ] pop
! 121: popVariables
! 122: } def
! 123:
! 124: /addSwap0k {
! 125: /arg1 set
! 126: [/rg /ch /tmp] pushVariables
! 127: [
! 128: arg1 0 get /rg set % ring
! 129: arg1 1 get /ch set % characteristics
! 130: [rg 0 get , rg 1 get , rg 2 get ,
! 131:
! 132: << rg 3 get length >>
! 133: matid
! 134: << rg 3 get length >>
! 135: 4 1 d_ij add %% add 1st row and 4th row
! 136: << rg 3 get >> mul /tmp set
! 137:
! 138: << rg 3 get length >>
! 139: 0 4 e_ij
! 140: tmp mul %% swap 1st row and 4 th row
! 141: ] /rg set
! 142: /arg1 [ rg ch ] def
! 143: ] pop
! 144: popVariables
! 145: arg1
! 146: } def
! 147:
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