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Annotation of OpenXM/src/k097/lib/restriction/Srestall_s.sm1, Revision 1.2

1.2     ! takayama    1: %% $OpenXM: OpenXM/src/k097/lib/restriction/Srestall_s.sm1,v 1.1 2000/12/10 10:04:04 takayama Exp $
1.1       takayama    2: %% Srestall_s.sm1,
                      3: %% Compute the cohomology groups of a free resolution
                      4: %%   truncated from above by the (-1,1) filtration
                      5: %% 2000.8.7  T.Oaku
                      6: %% /BFmessage 0 def controlled from cohom.sm1
                      7: (Srestall_s.sm1 2000.8.1) message
                      8: %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
                      9: %% The cohomology groups of the restriction without truncation from below
                     10: %% resolution [variables] [initial plane] k1 Srestall1
                     11: %% --> [0-th cohomology -1-th cohomology, ...,-degmax-th cohomology]
                     12: 1 /BFunknowns set  %% the number of the unknown functions
                     13:                    %% assumed 1 here
                     14:
                     15: /Srestall1 {
                     16: %   /arg5 set %% degmax
                     17:   /arg4 set %% k1
                     18:   /arg3 set %% [(t1) ... (td)]   variables to be replaced by 0
                     19:   /arg2 set %% [(t1) ... (td) (x1) ...] all variables
                     20:   /arg1 set %% resolution
                     21:   [
                     22:      /ff /bftt /k1 /degmax /syzlist /mveclist /cohomlist
                     23:      /ideg /gbase /o.syz /m1vec /m2vec /r1 /r2
                     24:      /i /syzi /j /syzij /maxtmp /max0 /ee /psi1index /zerolist
                     25:      /psi1 /psi1ker /psi2image
                     26:      /gbase1 /m1i /emonoi /nmono /bfDttmonoi /eei /dtp /k /psi1kervec
                     27:      /pn /pn0 /psi1i /psi1keri /m2i /nker /nim /cohm /psiall /psisyz /cohom0
                     28:      /syz0 /BFs /dimi
                     29:   ] pushVariables
                     30:   [
                     31:     /syzlist arg1 def  /ttxx arg2 def /bftt arg3 def
                     32:     /k1 arg4 def
1.2     ! takayama   33:
        !            34: %% BF unknowns should be set properly.  cf. misc-2015/06/lyon/q2.k
        !            35:     syzlist 0 get 0 get  isArray {
        !            36:      syzlist 0 get 0 get  length /BFunknowns set
        !            37:     } { /BFunknowns 1 def } ifelse
        !            38:
1.1       takayama   39:     syzlist length /degmax set
                     40:     bftt length /d set
                     41:     BFparlist /aa set  % parameters are defined in BFvarlist
                     42:     [BFs] ttxx join aa join /allvarlist set
                     43:     ttxx length /dn set
                     44:     ttxx {xtoDx} map /Dttxx set
                     45:     (s) /BFs set
                     46:
                     47:     /V_weight
                     48:         [ 0 1 d 1 sub
                     49:             { /i set bftt i get -1 }
                     50:           for
                     51:           0 1 d 1 sub
                     52:             { /i set bftt i get xtoDx 1 }
                     53:           for ] def
                     54:
                     55:     /BFs_weight
                     56:       [ [ BFs 1 ]
                     57:         [ 0 1 dn 1 sub
                     58:             { /i set Dttxx i get 1 }
                     59:           for
                     60:           0 1 dn 1 sub
                     61:             { /i set ttxx i get 1 }
                     62:           for ]
                     63:       ] def
                     64:
                     65:     [ allvarlist listtostring ring_of_differential_operators
                     66:       BFs_weight weight_vector 0 ] define_ring
                     67:     [ ] /cohomlist set
                     68:
                     69: %% Start the loop: (counter = ideg)
                     70:   0 1 degmax {/ideg set
                     71:
                     72: %%  (new loop: ) messagen ideg ::
                     73:
                     74:
                     75:     ideg 0 eq {
                     76:        1 /r0 set
                     77:        %% N.T.
                     78:        BFunknowns /r1 set
                     79:        [ 1 1 BFunknowns { pop [ (0) ]} for ] /gbase set
                     80:        [ 0 ] /m0vec set
                     81:        [ 1 1 BFunknowns { pop 0} for  ] /m1vec set
                     82:        %% end N.T.
                     83:     }{
                     84:       syzlist  << ideg 1 sub >> get /gbase set
                     85:       r0 /r1 set
                     86:     } ifelse
                     87:     ideg degmax 1 sub gt {
                     88:       [ [ 1 1 r1 { pop (0) } for ] ] /o.syz set
                     89:     }{
                     90:       syzlist ideg get /o.syz   set
                     91:     } ifelse
                     92: %% (syzlist = ) messagen syzlist ::
                     93: %% (o.syz = ) messagen o.syz ::
                     94:
                     95: %%                                       o.syz       gbase
                     96: %%                                D^{r2} --> D^{r1} --> D^{r0}
                     97: %% with weight vectors:           m2vec      m1vec      m0vec
                     98: %% which will induce a complex
                     99: %%                              psi2              psi1
                    100: %%                 D_{Y->X}^{r2} --> D_{Y->X}^{r1} --> D_{Y->X}^{r0}
                    101:
                    102:     gbase length /r1 set
                    103:     o.syz length /r2 set
                    104:
                    105:   BFmessage {
                    106:     (m2vec = ) messagen m2vec message
                    107:     (o.syz = ) messagen o.syz pmat
                    108:     (m1vec = ) messagen m1vec message
                    109:     (gbase = ) messagen gbase pmat
                    110:     (m0vec = ) messagen m0vec message
                    111:   } { } ifelse
                    112:
                    113: %% Setting up a ring with V-order for computing ord_w
                    114:   [ttxx listtostring ring_of_differential_operators
                    115:     [V_weight] weight_vector 0 ] define_ring
                    116:
                    117: %% (Computing the weight vector m2vec from m1vec and syz) message
                    118:       /m2vec [
                    119:         0 1 r2 1 sub {/i set
                    120:           o.syz i get /syzi set
                    121:           0 /nonzero set
                    122:           0 1 r1 1 sub {/j set
                    123:             syzi j get expand /syzij set
                    124:             syzij (0). eq {  }{
                    125: %% (m1vec:) messagen m1vec j get ::
                    126: %% (syzij:) messagen syzij bftt fwh_order  :: syzij ::
                    127:               syzij bftt fwh_order  m1vec j get  add /maxtmp set
                    128: %% (maxtmp:) messagen maxtmp ::
                    129:               nonzero 0 eq { maxtmp /max0 set }{
                    130:                 maxtmp max0 gt { maxtmp /max0 set }{ } ifelse
                    131:               } ifelse
                    132:             1 /nonzero set
                    133:             } ifelse
                    134:           } for
                    135:         max0 } for ] def
                    136:
                    137: %% ee = [u1,...,ud] corresponds to [Dt1,...,Dtd] (for graduation)
                    138:     BFu /estr set
                    139:     /ee
                    140:       [ 1 1 d {/i set estr i toString 2 cat_n} for ]
                    141:     def
                    142:     [@@@.esymbol ] ee join /eee set
                    143:
                    144: %%(Setting up a ring that represents D_{Y->X}^{r1}) message
                    145:     eee length /neee set
                    146:     /eeemvec [ 1 1 neee {pop 1} for ] def
                    147:     eee [ ] [BFs] ttxx join eeemvec setupDringVshift
                    148:     bftt {xtoDx expand} map /bfDtt set
                    149:     [ ] /psi1 set
                    150:     [ ] /psi1index set
                    151:     [ ] /zerolist set
                    152:
                    153: %%(converting gbase to a list of polynomials) message
                    154:     /gbase1
                    155:       [ 0 1 r1 1 sub {/i set
                    156:           gbase i get {expand [[BFs expand (1).]] replace} map vector_to_poly
                    157:        } for ] def
                    158:
                    159:     gbase1 /gbase set
                    160:
                    161: %%(ideg =) messagen ideg ::
                    162: %%(Computing psi1) message
                    163: %%                        psi1
                    164: %% Computes  D_{Y->X}^{r1} -->  D_{Y->X}^{r0} induced by gbase
                    165: %% with weight  = k <= k1 - m1vec
                    166:     0 /dimi set
                    167:     0 1 r1 1 sub {/i set
                    168:       m1vec i get /m1i set
                    169:       ee {expand} map  0  k1 m1i sub monomials /emonoi set
                    170:       bfDtt  0  k1 m1i sub monomials /bfDttmonoi set
                    171:       bfDttmonoi length dimi add /dimi set
                    172:       emonoi length /nmono set
                    173:       0 1 nmono 1 sub {/j set
                    174:         @@@.esymbol  expand i npower /eei set
                    175:         emonoi j get eei mul /eei set
                    176:         gbase i get /dtp set
                    177:         bfDttmonoi j get dtp mul /dtp set
                    178:         0 1 d 1 sub {/k set
                    179:           dtp [[bftt k get expand (0).]] replace /dtp set
                    180:           dtp [[bfDtt k get  ee k get expand]] replace /dtp set
                    181:         } for
                    182:         dtp [[(h). (1).]] replace /dtp set
                    183:         dtp (0). eq {
                    184:           zerolist [eei] join /zerolist set
                    185:         }{
                    186:           psi1index [eei] join /psi1index set
                    187:           psi1 [dtp] join /psi1 set
                    188:         } ifelse
                    189:       } for
                    190:     } for
                    191:
                    192: (i = ) messagen ideg message
                    193: (dim of the i-th truncated complex = ) messagen dimi message
                    194:
                    195: %%(ideg =) messagen ideg ::
                    196: %%(psi1 obtained.) message
                    197: %%(Computing psi1ker) message
                    198:
                    199: %% Computing psi1ker := Ker psi1 :
                    200:     psi1 length 0 eq {
                    201:       [ ] /psi1ker set
                    202:     }{
                    203:       psi1 {[[(h). (1).]] replace homogenize} map /psi1 set
                    204:       [psi1 [(needSyz)]] groebner 2 get /psi1kervec set
                    205:       psi1kervec length /pn set
                    206:       psi1index length /pn0 set
                    207:       [ ] /psi1ker set
                    208:       0 1 pn 1 sub {/i set
                    209:         psi1kervec i get /psi1i set
                    210:         (0). /psi1keri set
                    211:         0 1 pn0 1 sub {/j set
                    212:           psi1index j get psi1i j get mul psi1keri add /psi1keri set
                    213:         } for
                    214:         psi1ker [ psi1keri [[(h). (1).]] replace ] join /psi1ker set
                    215:       } for
                    216:     } ifelse
                    217:     zerolist psi1ker join /psi1ker set
                    218: % Is it all right to use reducedBase here?
                    219: %    psi1ker length 0 eq { }{
                    220: %      psi1ker reducedBase /psi1ker set
                    221: %    } ifelse
                    222: %%(ideg =) messagen ideg ::
                    223: %%(psi1ker obtained.) message
                    224: %%(Computing psi2image ...) message
                    225:
                    226: %%                                     psi2
                    227: %% Computes the image of  D_{Y->X}^{r2} -->  D_{Y->X}^{r1} induced by syz
                    228: %% with weight  m2vec <= k <= k1 - m2vec
                    229:     /psi2image [
                    230:       0 1 r2 1 sub {/i set
                    231:         o.syz i get {expand [[BFs expand (1).]] replace} map /syzi set
                    232:         syzi vector_to_poly /syzi set
                    233:         m2vec i get /m2i set
                    234:         bfDtt  0  k1 m2i sub monomials /bfDttmonoi set
                    235:         bfDttmonoi length /nmono set
                    236:         0 1 nmono 1 sub {/j set
                    237:           bfDttmonoi j get syzi mul /syzij set
                    238:           0 1 d 1 sub {/k set
                    239:             syzij [[bftt k get expand (0).]] replace /syzij set
                    240:             syzij [[bfDtt k get ee k get expand]] replace /syzij set
                    241:           } for
                    242:           syzij [[(h). (1).]] replace /syzij set
                    243:           syzij (0). eq { }{syzij} ifelse
                    244:         } for
                    245:       } for
                    246:     ] def
                    247:
                    248: %(psi2image obtained.) message
                    249: %(ideg = ) messagen ideg ::
                    250: %(psi1ker = ) message psi1ker ::
                    251: %(psi2image =) message psi2image ::
                    252:
                    253: %% Computes the quotient module  psi1ker/psi2image
                    254:     psi1ker length /nker set
                    255:     nker 0 eq {
                    256:       [0 [ ]] /cohom set
                    257:     }{
                    258:       psi2image length /nim set
                    259:       psi1ker psi2image join /psiall set
                    260:       psiall {homogenize} map /psiall set
                    261:       [psiall [(needSyz)]] groebner 2 get /psisyz set
                    262:       psisyz {nker proj vector_to_poly [[(h). (1).]] replace} map /cohom set
                    263:       cohom {remove0} map /cohom set
                    264:       cohom length 0 eq {
                    265:         [nker [ ]] /cohom set
                    266:       }{
                    267:         cohom {homogenize} map /cohom set
                    268:         [cohom] groebner 0 get reducedBase /cohom set
                    269:         cohom {[[(h). (1).]] replace} map /cohom set
                    270:         [nker cohom] trimModule /cohom set
                    271:       } ifelse
                    272:     } ifelse
                    273:     cohomlist [cohom] join /cohomlist set
                    274:     0 ideg sub print (-th cohomology:  ) messagen
                    275:     cohom message
                    276:     r1 /r0 set
                    277:     r2 /r1 set
                    278:     m1vec /m0vec set
                    279:     m2vec /m1vec set
                    280:   } for
                    281:
                    282:   cohomlist /arg1 set
                    283:   ] pop
                    284:   popVariables
                    285:   arg1
                    286: } def
                    287:
                    288:
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