| version 1.14, 2000/06/09 08:04:54 |
version 1.17, 2000/07/26 12:56:36 |
|
|
| /* $OpenXM: OpenXM/src/k097/lib/minimal/minimal.k,v 1.13 2000/06/08 08:37:53 takayama Exp $ */ |
/* $OpenXM: OpenXM/src/k097/lib/minimal/minimal.k,v 1.16 2000/06/15 07:38:36 takayama Exp $ */ |
| #define DEBUG 1 |
#define DEBUG 1 |
| /* #define ORDINARY 1 */ |
/* #define ORDINARY 1 */ |
| /* If you run this program on openxm version 1.1.2 (FreeBSD), |
/* If you run this program on openxm version 1.1.2 (FreeBSD), |
| Line 137 sm1(" [(AvoidTheSameRing)] pushEnv |
|
| Line 137 sm1(" [(AvoidTheSameRing)] pushEnv |
|
| |
|
| def SresolutionFrameWithTower(g,opt) { |
def SresolutionFrameWithTower(g,opt) { |
| local gbTower, ans, ff, count, startingGB, opts, skelton,withSkel, autof, |
local gbTower, ans, ff, count, startingGB, opts, skelton,withSkel, autof, |
| gbasis; |
gbasis, nohomog; |
| |
nohomog = false; |
| |
count = -1; |
| if (Length(Arglist) >= 2) { |
if (Length(Arglist) >= 2) { |
| if (IsInteger(opt)) count = opt; |
if (IsInteger(opt)) { |
| |
count = opt; |
| |
}else if (IsString(opt)) { |
| |
if (opt == "homogenized") { |
| |
nohomog = true; |
| |
}else{ |
| |
Println("Warning: unknown option"); |
| |
Println(opt); |
| |
} |
| |
} |
| }else{ |
}else{ |
| count = -1; |
count = -1; |
| } |
} |
| Line 153 def SresolutionFrameWithTower(g,opt) { |
|
| Line 164 def SresolutionFrameWithTower(g,opt) { |
|
| */ |
*/ |
| |
|
| sm1(" (mmLarger) (matrix) switch_function "); |
sm1(" (mmLarger) (matrix) switch_function "); |
| g = Map(g,"Shomogenize"); |
if (! nohomog) { |
| |
Println("Automatic homogenization."); |
| |
g = Map(g,"Shomogenize"); |
| |
}else{ |
| |
Println("No automatic homogenization."); |
| |
} |
| if (SonAutoReduce) { |
if (SonAutoReduce) { |
| sm1("[ (AutoReduce) ] system_variable /autof set "); |
sm1("[ (AutoReduce) ] system_variable /autof set "); |
| sm1("[ (AutoReduce) 1 ] system_variable "); |
sm1("[ (AutoReduce) 1 ] system_variable "); |
| Line 193 def SresolutionFrameWithTower(g,opt) { |
|
| Line 209 def SresolutionFrameWithTower(g,opt) { |
|
| } |
} |
| HelpAdd(["SresolutionFrameWithTower", |
HelpAdd(["SresolutionFrameWithTower", |
| ["It returs [resolution of the initial, gbTower, skelton, gbasis]", |
["It returs [resolution of the initial, gbTower, skelton, gbasis]", |
| |
"option: \"homogenized\" (no automatic homogenization) ", |
| "Example: Sweyl(\"x,y\");", |
"Example: Sweyl(\"x,y\");", |
| " a=SresolutionFrameWithTower([x^3,x*y,y^3-1]);"]]); |
" a=SresolutionFrameWithTower([x^3,x*y,y^3-1]);"]]); |
| |
|
| def SresolutionFrame(f,opt) { |
def SresolutionFrame(f,opt) { |
| local ans; |
local ans; |
| ans = SresolutionFrameWithTower(f); |
ans = SresolutionFrameWithTower(f,opt); |
| return(ans[0]); |
return(ans[0]); |
| } |
} |
| /* ---------------------------- */ |
/* ---------------------------- */ |
| Line 363 def Sdegree(f,tower,level) { |
|
| Line 380 def Sdegree(f,tower,level) { |
|
| |
|
| def SgenerateTable(tower) { |
def SgenerateTable(tower) { |
| local height, n,i,j, ans, ans_at_each_floor; |
local height, n,i,j, ans, ans_at_each_floor; |
| |
|
| |
/* |
| |
Print("SgenerateTable: tower=");Println(tower); |
| |
sm1(" print_switch_status "); */ |
| height = Length(tower); |
height = Length(tower); |
| ans = NewArray(height); |
ans = NewArray(height); |
| for (i=0; i<height; i++) { |
for (i=0; i<height; i++) { |
| Line 438 def SmaxOfStrategy(a) { |
|
| Line 459 def SmaxOfStrategy(a) { |
|
| } |
} |
| |
|
| |
|
| def SlaScala(g) { |
def SlaScala(g,opt) { |
| local rf, tower, reductionTable, skel, redundantTable, bases, |
local rf, tower, reductionTable, skel, redundantTable, bases, |
| strategy, maxOfStrategy, height, level, n, i, |
strategy, maxOfStrategy, height, level, n, i, |
| freeRes,place, f, reducer,pos, redundant_seq,bettiTable,freeResV,ww, |
freeRes,place, f, reducer,pos, redundant_seq,bettiTable,freeResV,ww, |
| Line 447 def SlaScala(g) { |
|
| Line 468 def SlaScala(g) { |
|
| /* extern WeightOfSweyl; */ |
/* extern WeightOfSweyl; */ |
| ww = WeightOfSweyl; |
ww = WeightOfSweyl; |
| Print("WeightOfSweyl="); Println(WeightOfSweyl); |
Print("WeightOfSweyl="); Println(WeightOfSweyl); |
| rf = SresolutionFrameWithTower(g); |
rf = SresolutionFrameWithTower(g,opt); |
| Print("rf="); sm1_pmat(rf); |
Print("rf="); sm1_pmat(rf); |
| redundant_seq = 1; redundant_seq_ordinary = 1; |
redundant_seq = 1; redundant_seq_ordinary = 1; |
| tower = rf[1]; |
tower = rf[1]; |
| |
|
| |
Println("Generating reduction table which gives an order of reduction."); |
| |
Print("WeghtOfSweyl="); Println(WeightOfSweyl); |
| |
Print("tower"); Println(tower); |
| reductionTable = SgenerateTable(tower); |
reductionTable = SgenerateTable(tower); |
| |
Print("reductionTable="); sm1_pmat(reductionTable); |
| |
|
| skel = rf[2]; |
skel = rf[2]; |
| redundantTable = SnewArrayOfFormat(rf[1]); |
redundantTable = SnewArrayOfFormat(rf[1]); |
| redundantTable_ordinary = SnewArrayOfFormat(rf[1]); |
redundantTable_ordinary = SnewArrayOfFormat(rf[1]); |
| Line 472 def SlaScala(g) { |
|
| Line 499 def SlaScala(g) { |
|
| Println([level,i]); |
Println([level,i]); |
| reductionTable_tmp[i] = -200000; |
reductionTable_tmp[i] = -200000; |
| if (reductionTable[level,i] == strategy) { |
if (reductionTable[level,i] == strategy) { |
| Print("Processing "); Print([level,i]); |
Print("Processing [level,i]= "); Print([level,i]); |
| Print(" Strategy = "); Println(strategy); |
Print(" Strategy = "); Println(strategy); |
| if (level == 0) { |
if (level == 0) { |
| if (IsNull(redundantTable[level,i])) { |
if (IsNull(redundantTable[level,i])) { |
| Line 540 def SlaScala(g) { |
|
| Line 567 def SlaScala(g) { |
|
| bases = Sbases_to_vec(bases,bettiTable[i]); |
bases = Sbases_to_vec(bases,bettiTable[i]); |
| freeResV[i] = bases; |
freeResV[i] = bases; |
| } |
} |
| return([freeResV, redundantTable,reducer,bettiTable,redundantTable_ordinary]); |
return([freeResV, redundantTable,reducer,bettiTable,redundantTable_ordinary,rf]); |
| } |
} |
| |
|
| def SthereIs(reductionTable_tmp,strategy) { |
def SthereIs(reductionTable_tmp,strategy) { |
| Line 862 def Sbases_to_vec(bases,size) { |
|
| Line 889 def Sbases_to_vec(bases,size) { |
|
| |
|
| HelpAdd(["Sminimal", |
HelpAdd(["Sminimal", |
| ["It constructs the V-minimal free resolution by LaScala-Stillman's algorithm", |
["It constructs the V-minimal free resolution by LaScala-Stillman's algorithm", |
| |
"option: \"homogenized\" (no automatic homogenization ", |
| "Example: Sweyl(\"x,y\",[[\"x\",-1,\"y\",-1,\"Dx\",1,\"Dy\",1]]);", |
"Example: Sweyl(\"x,y\",[[\"x\",-1,\"y\",-1,\"Dx\",1,\"Dy\",1]]);", |
| " v=[[2*x*Dx + 3*y*Dy+6, 0],", |
" v=[[2*x*Dx + 3*y*Dy+6, 0],", |
| " [3*x^2*Dy + 2*y*Dx, 0],", |
" [3*x^2*Dy + 2*y*Dx, 0],", |
| Line 873 HelpAdd(["Sminimal", |
|
| Line 901 HelpAdd(["Sminimal", |
|
| " IsExact_h(b,[x,y]):", |
" IsExact_h(b,[x,y]):", |
| "Note: a[0] is the V-minimal resolution. a[3] is the Schreyer resolution."]]); |
"Note: a[0] is the V-minimal resolution. a[3] is the Schreyer resolution."]]); |
| |
|
| def Sminimal(g) { |
def Sminimal(g,opt) { |
| local r, freeRes, redundantTable, reducer, maxLevel, |
local r, freeRes, redundantTable, reducer, maxLevel, |
| minRes, seq, maxSeq, level, betti, q, bases, dr, |
minRes, seq, maxSeq, level, betti, q, bases, dr, |
| betti_levelplus, newbases, i, j,qq, tminRes; |
betti_levelplus, newbases, i, j,qq, tminRes; |
| r = SlaScala(g); |
if (Length(Arglist) < 2) { |
| |
opt = null; |
| |
} |
| |
ScheckIfSchreyer("Sminimal:0"); |
| |
r = SlaScala(g,opt); |
| /* Should I turn off the tower?? */ |
/* Should I turn off the tower?? */ |
| |
ScheckIfSchreyer("Sminimal:1"); |
| freeRes = r[0]; |
freeRes = r[0]; |
| redundantTable = r[1]; |
redundantTable = r[1]; |
| reducer = r[2]; |
reducer = r[2]; |
| Line 936 def Sminimal(g) { |
|
| Line 969 def Sminimal(g) { |
|
| } |
} |
| tminRes = Stetris(minRes,redundantTable); |
tminRes = Stetris(minRes,redundantTable); |
| return([SpruneZeroRow(tminRes), tminRes, |
return([SpruneZeroRow(tminRes), tminRes, |
| [ minRes, redundantTable, reducer,r[3],r[4]],r[0]]); |
[ minRes, redundantTable, reducer,r[3],r[4]],r[0],r[5]]); |
| /* r[4] is the redundantTable_ordinary */ |
/* r[4] is the redundantTable_ordinary */ |
| /* r[0] is the freeResolution */ |
/* r[0] is the freeResolution */ |
| |
/* r[5] is the skelton */ |
| } |
} |
| |
|
| |
|
| Line 1167 def Sschreyer(g) { |
|
| Line 1201 def Sschreyer(g) { |
|
| rf = SresolutionFrameWithTower(g); |
rf = SresolutionFrameWithTower(g); |
| redundant_seq = 1; redundant_seq_ordinary = 1; |
redundant_seq = 1; redundant_seq_ordinary = 1; |
| tower = rf[1]; |
tower = rf[1]; |
| |
Println("Generating reduction table which gives an order of reduction."); |
| |
Println("But, you are in Sschreyer...., you may not use LaScala-Stillman"); |
| |
Print("WeghtOfSweyl="); Println(WeightOfSweyl); |
| |
Print("tower"); Println(tower); |
| reductionTable = SgenerateTable(tower); |
reductionTable = SgenerateTable(tower); |
| skel = rf[2]; |
skel = rf[2]; |
| redundantTable = SnewArrayOfFormat(rf[1]); |
redundantTable = SnewArrayOfFormat(rf[1]); |
| Line 1730 HelpAdd(["ReParse", |
|
| Line 1768 HelpAdd(["ReParse", |
|
| "In this case, ReParse the outputs from these functions.", |
"In this case, ReParse the outputs from these functions.", |
| "cf. IsExaxt_h" |
"cf. IsExaxt_h" |
| ]]); |
]]); |
| |
|
| |
def ScheckIfSchreyer(s) { |
| |
local ss; |
| |
sm1(" (report) (grade) switch_function /ss set "); |
| |
if (ss != "module1v") { |
| |
Print("ScheckIfSchreyer: from "); Println(s); |
| |
Error("grade is not module1v"); |
| |
} |
| |
/* |
| |
sm1(" (report) (mmLarger) switch_function /ss set "); |
| |
if (ss != "tower") { |
| |
Print("ScheckIfSchreyer: from "); Println(s); |
| |
Error("mmLarger is not tower"); |
| |
} |
| |
*/ |
| |
sm1(" [(Schreyer)] system_variable (universalNumber) dc /ss set "); |
| |
if (ss != 1) { |
| |
Print("ScheckIfSchreyer: from "); Println(s); |
| |
Error("Schreyer order is not set."); |
| |
} |
| |
/* More check will be necessary. */ |
| |
return(true); |
| |
} |
| |
|
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