OpenXM/src/k097/lib/minimal/minimal.k - diff

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Diff for /OpenXM/src/k097/lib/minimal/minimal.k between version 1.32 and 1.36

version 1.32, 2000/12/10 09:34:28

version 1.36, 2007/07/03 22:28:11

Line 1

/* $OpenXM: OpenXM/src/k097/lib/minimal/minimal.k,v 1.31 2000/12/10 03:12:20 takayama Exp $ */

/* $OpenXM: OpenXM/src/k097/lib/minimal/minimal.k,v 1.35 2007/07/03 22:05:46 takayama Exp $ */

#define DEBUG 1

Sordinary = false;

/* If you run this program on openxm version 1.1.2 (FreeBSD),

Line 139 def Max(v) {

HelpAdd(["Max",

["Max(v) returns the maximal element in v."]]);

def Kernel(f) {

def Kernel(f,v) {

sm1(" [f] syz /FunctionValue set ");

local ans;

/* v : string or ring */

if (Length(Arglist) < 2) {

sm1(" [f] syz /ans set ");

}else{

sm1(" [f v] syz /ans set ");

}

return(ans);

}

def Syz(f) {

sm1(" [f] syz /FunctionValue set ");

Line 239 def StoTower() {

Line 246 def StoTower() {

}

def SsetTower(tower) {

sm1(" [(AvoidTheSameRing)] pushEnv

sm1(" [(AvoidTheSameRing)] pushEnv \

[ [(AvoidTheSameRing) 0] system_variable

[ [(AvoidTheSameRing) 0] system_variable \

[(gbListTower) tower (list) dc] system_variable

[(gbListTower) tower (list) dc] system_variable \

] pop popEnv ");

/* sm1("(hoge) message show_ring "); */

}

Line 351 def NewPolynomialVector(size) {

Line 358 def NewPolynomialVector(size) {

}

def SturnOffHomogenization() {

sm1("

sm1(" \

[(Homogenize)] system_variable 1 eq

[(Homogenize)] system_variable 1 eq \

{ Sverbose {

{ Sverbose { \

(Warning: Homogenization and ReduceLowerTerms options are automatically turned off.) message } { } ifelse

(Warning: Homogenization and ReduceLowerTerms options are automatically turned off.) message } { } ifelse \

[(Homogenize) 0] system_variable

[(Homogenize) 0] system_variable \

[(ReduceLowerTerms) 0] system_variable

[(ReduceLowerTerms) 0] system_variable \

} { } ifelse

} { } ifelse \

");

}

/* NOTE!!! Be careful these changes of global environmental variables.

Line 365 def SturnOffHomogenization() {

Line 372 def SturnOffHomogenization() {

after computation and interruption. August 15, 2000.

def SturnOnHomogenization() {

sm1("

sm1(" \

[(Homogenize)] system_variable 0 eq

[(Homogenize)] system_variable 0 eq \

{ Sverbose {

{ Sverbose { \

(Warning: Homogenization and ReduceLowerTerms options are automatically turned ON.) message } { } ifelse

(Warning: Homogenization and ReduceLowerTerms options are automatically turned ON.) message } { } ifelse \

[(Homogenize) 1] system_variable

[(Homogenize) 1] system_variable \

[(ReduceLowerTerms) 1] system_variable

[(ReduceLowerTerms) 1] system_variable \

} { } ifelse

} { } ifelse \

");

}

Line 1002 HelpAdd(["Sminimal",

Line 1009 HelpAdd(["Sminimal",

" Sweyl(\"x,y\",[[\"x\",-1,\"y\",-1,\"Dx\",1,\"Dy\",1]]);",

" b = ReParse(a[0]); sm1_pmat(b); ",

" 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.",

" ---> D^{m_3} --b[2]--> D^{m_2} --b[1]--> D^{m_1} --b[0]--> D^{m_0} ",

" Here D^{m_i} are the set of row vectors. "

]]);

def Sminimal(g,opt) {

local r, freeRes, redundantTable, reducer, maxLevel,

Line 1469 HelpAdd(["IsSameIdeal_h",

Line 1479 HelpAdd(["IsSameIdeal_h",

"cf. ReParse"

]]);

def ReParse(a) {

local c;

Output of S* functions may cause a trouble because it uses Schreyer orders.

if (IsArray(a)) {

In this case, use ReParse().

c = Map(a,"ReParse");

}else{

sm1(a," toString . /c set");

}

return(c);

}

HelpAdd(["ReParse",

["Reparse(obj): obj",

"It parses the given object in the current ring.",

"Outputs from SlaScala, Sschreyer may cause a trouble in other functions,",

"because it uses the Schreyer order.",

"In this case, ReParse the outputs from these functions.",

"cf. IsExaxt_h"

]]);

def ScheckIfSchreyer(s) {

local ss;

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