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resMatrixDense Class Reference

Public Member Functions

 resMatrixDense (const ideal _gls, const int special=SNONE)
 _gls: system of multivariate polynoms special: -1 -> resMatrixDense is a symbolic matrix 0,1, ... -> resMatrixDense ist eine u-Resultante, wobei special das lineare u-Polynom angibt More...
 
 ~resMatrixDense ()
 
resVectorgetMVector (const int i)
 column vector of matrix, index von 0 ... numVectors-1 More...
 
ideal getMatrix ()
 Returns the matrix M in an usable presentation. More...
 
ideal getSubMatrix ()
 Returns the submatrix M' of M in an usable presentation. More...
 
number getDetAt (const number *evpoint)
 Evaluate the determinant of the matrix M at the point evpoint where the ui's are replaced by the components of evpoint. More...
 
number getSubDet ()
 Evaluates the determinant of the submatrix M'. More...
 
- Public Member Functions inherited from resMatrixBase
 resMatrixBase ()
 
virtual ~resMatrixBase ()
 
virtual ideal getMatrix ()
 
virtual ideal getSubMatrix ()
 
virtual poly getUDet (const number *)
 
virtual number getDetAt (const number *)
 
virtual number getSubDet ()
 
virtual long getDetDeg ()
 
virtual IStateType initState () const
 

Private Member Functions

 resMatrixDense (const resMatrixDense &)
 deactivated copy constructor More...
 
void generateBaseData ()
 Generate the "matrix" M. More...
 
void generateMonomData (int deg, intvec *polyDegs, intvec *iVO)
 Generates needed set of monoms, split them into sets S0, ... Sn and check if reduced/nonreduced and calculate size of submatrix. More...
 
void generateMonoms (poly m, int var, int deg)
 Recursively generate all homogeneous monoms of (currRing->N) variables of degree deg. More...
 
void createMatrix ()
 Creates quadratic matrix M of size numVectors for later use. More...
 

Private Attributes

resVectorresVectorList
 
int veclistmax
 
int veclistblock
 
int numVectors
 
int subSize
 
matrix m
 

Additional Inherited Members

- Public Types inherited from resMatrixBase
enum  IStateType {
  none , ready , notInit , fatalError ,
  sparseError
}
 
- Protected Attributes inherited from resMatrixBase
IStateType istate
 
ideal gls
 
int linPolyS
 
ring sourceRing
 
int totDeg
 

Detailed Description

Definition at line 1929 of file mpr_base.cc.

Constructor & Destructor Documentation

◆ resMatrixDense() [1/2]

resMatrixDense::resMatrixDense ( const ideal  _gls,
const int  special = SNONE 
)

_gls: system of multivariate polynoms special: -1 -> resMatrixDense is a symbolic matrix 0,1, ... -> resMatrixDense ist eine u-Resultante, wobei special das lineare u-Polynom angibt

Definition at line 2064 of file mpr_base.cc.

2065 : resMatrixBase()
2066{
2067 int i;
2068
2069 sourceRing=currRing;
2070 gls= idCopy( _gls );
2071 linPolyS= special;
2072 m=NULL;
2073
2074 // init all
2075 generateBaseData();
2076
2077 totDeg= 1;
2078 for ( i= 0; i < IDELEMS(gls); i++ )
2079 {
2080 totDeg*=pTotaldegree( (gls->m)[i] );
2081 }
2082
2083 mprSTICKYPROT2(" resultant deg: %d\n",totDeg);
2084
2085 istate= resMatrixBase::ready;
2086}
i
int i
Definition: cfEzgcd.cc:132
resMatrixBase::gls
ideal gls
Definition: mpr_base.h:46
resMatrixBase::sourceRing
ring sourceRing
Definition: mpr_base.h:48
resMatrixBase::linPolyS
int linPolyS
Definition: mpr_base.h:47
resMatrixBase::istate
IStateType istate
Definition: mpr_base.h:44
resMatrixDense::generateBaseData
void generateBaseData()
Generate the "matrix" M.
Definition: mpr_base.cc:2343
idCopy
ideal idCopy(ideal A)
Definition: ideals.h:60
mprSTICKYPROT2
#define mprSTICKYPROT2(msg, arg)
Definition: mpr_global.h:55
NULL
#define NULL
Definition: omList.c:12
currRing
VAR ring currRing
Widely used global variable which specifies the current polynomial ring for Singular interpreter and ...
Definition: polys.cc:13
pTotaldegree
static long pTotaldegree(poly p)
Definition: polys.h:282
IDELEMS
#define IDELEMS(i)
Definition: simpleideals.h:23

◆ ~resMatrixDense()

resMatrixDense::~resMatrixDense ( )

Definition at line 2088 of file mpr_base.cc.

2089{
2090 int i,j;
2091 for (i=0; i < numVectors; i++)
2092 {
2093 pDelete( &resVectorList[i].mon );
2094 pDelete( &resVectorList[i].dividedBy );
2095 for ( j=0; j < resVectorList[i].numColVectorSize; j++ )
2096 {
2097 nDelete( resVectorList[i].numColVector+j );
2098 }
2099 // OB: ????? (solve_s.tst)
2100 if (resVectorList[i].numColVector!=NULL)
2101 omfreeSize( (void *)resVectorList[i].numColVector,
2102 numVectors * sizeof( number ) );
2103 if (resVectorList[i].numColParNr!=NULL)
2104 omfreeSize( (void *)resVectorList[i].numColParNr,
2105 ((currRing->N)+1) * sizeof(int) );
2106 }
2107
2108 omFreeSize( (void *)resVectorList, veclistmax*sizeof( resVector ) );
2109
2110 // free matrix m
2111 if ( m != NULL )
2112 {
2113 idDelete((ideal *)&m);
2114 }
2115}
resMatrixDense::resVectorList
resVector * resVectorList
Definition: mpr_base.cc:1988
j
int j
Definition: facHensel.cc:110
idDelete
#define idDelete(H)
delete an ideal
Definition: ideals.h:29
nDelete
#define nDelete(n)
Definition: numbers.h:16
omFreeSize
#define omFreeSize(addr, size)
Definition: omAllocDecl.h:260
omfreeSize
#define omfreeSize(addr, size)
Definition: omAllocDecl.h:236
pDelete
#define pDelete(p_ptr)
Definition: polys.h:186
resVector::numColVectorSize
int numColVectorSize
size of numColVector
Definition: mpr_base.cc:2040

◆ resMatrixDense() [2/2]

resMatrixDense::resMatrixDense ( const resMatrixDense )
private

deactivated copy constructor

Member Function Documentation

◆ createMatrix()

void resMatrixDense::createMatrix ( )
private

Creates quadratic matrix M of size numVectors for later use.

u0, u1, ...,un are replaced by 0. Entries equal to 0 are not initialized ( == NULL)

Definition at line 2120 of file mpr_base.cc.

2121{
2122 int k,i,j;
2123 resVector *vecp;
2124
2125 m= mpNew( numVectors, numVectors );
2126
2127 for ( i= 1; i <= MATROWS( m ); i++ )
2128 for ( j= 1; j <= MATCOLS( m ); j++ )
2129 {
2130 MATELEM(m,i,j)= pInit();
2131 pSetCoeff0( MATELEM(m,i,j), nInit(0) );
2132 }
2133
2134
2135 for ( k= 0; k <= numVectors - 1; k++ )
2136 {
2137 if ( linPolyS == getMVector(k)->elementOfS )
2138 {
2139 mprSTICKYPROT(ST_DENSE_FR);
2140 for ( i= 0; i < (currRing->N); i++ )
2141 {
2142 MATELEM(m,numVectors-k,numVectors-(getMVector(k)->numColParNr)[i])= pInit();
2143 }
2144 }
2145 else
2146 {
2147 mprSTICKYPROT(ST_DENSE_NR);
2148 vecp= getMVector(k);
2149 for ( i= 0; i < numVectors; i++)
2150 {
2151 if ( !nIsZero( vecp->getElemNum(i) ) )
2152 {
2153 MATELEM(m,numVectors - k,i + 1)= pInit();
2154 pSetCoeff0( MATELEM(m,numVectors - k,i + 1), nCopy(vecp->getElemNum(i)) );
2155 }
2156 }
2157 }
2158 } // for
2159 mprSTICKYPROT("\n");
2160
2161#ifdef mprDEBUG_ALL
2162 for ( k= numVectors - 1; k >= 0; k-- )
2163 {
2164 if ( linPolyS == getMVector(k)->elementOfS )
2165 {
2166 for ( i=0; i < (currRing->N); i++ )
2167 {
2168 Print(" %d ",(getMVector(k)->numColParNr)[i]);
2169 }
2170 PrintLn();
2171 }
2172 }
2173 for (i=1; i <= numVectors; i++)
2174 {
2175 for (j=1; j <= numVectors; j++ )
2176 {
2177 pWrite0(MATELEM(m,i,j));PrintS(" ");
2178 }
2179 PrintLn();
2180 }
2181#endif
2182}
k
int k
Definition: cfEzgcd.cc:99
resMatrixDense::getMVector
resVector * getMVector(const int i)
column vector of matrix, index von 0 ... numVectors-1
Definition: mpr_base.cc:2463
Print
#define Print
Definition: emacs.cc:80
mpNew
matrix mpNew(int r, int c)
create a r x c zero-matrix
Definition: matpol.cc:37
MATELEM
#define MATELEM(mat, i, j)
1-based access to matrix
Definition: matpol.h:29
MATROWS
#define MATROWS(i)
Definition: matpol.h:26
MATCOLS
#define MATCOLS(i)
Definition: matpol.h:27
pSetCoeff0
#define pSetCoeff0(p, n)
Definition: monomials.h:59
mprSTICKYPROT
#define mprSTICKYPROT(msg)
Definition: mpr_global.h:54
ST_DENSE_NR
#define ST_DENSE_NR
Definition: mpr_global.h:65
ST_DENSE_FR
#define ST_DENSE_FR
Definition: mpr_global.h:64
nIsZero
#define nIsZero(n)
Definition: numbers.h:19
nCopy
#define nCopy(n)
Definition: numbers.h:15
nInit
#define nInit(i)
Definition: numbers.h:24
pWrite0
void pWrite0(poly p)
Definition: polys.h:309
pInit
#define pInit()
allocates a new monomial and initializes everything to 0
Definition: polys.h:61
PrintS
void PrintS(const char *s)
Definition: reporter.cc:284
PrintLn
void PrintLn()
Definition: reporter.cc:310
resVector::getElemNum
number getElemNum(const int i)
index von 0 ... numVectors-1
Definition: mpr_base.cc:2056

◆ generateBaseData()

void resMatrixDense::generateBaseData ( )
private

Generate the "matrix" M.

Each column is presented by a resVector holding all entries for this column.

Definition at line 2343 of file mpr_base.cc.

2344{
2345 int k,j,i;
2346 number matEntry;
2347 poly pmatchPos;
2348 poly pi,factor,pmp;
2349
2350 // holds the degrees of F0, F1, ..., Fn
2351 intvec polyDegs( IDELEMS(gls) );
2352 for ( k= 0; k < IDELEMS(gls); k++ )
2353 polyDegs[k]= pTotaldegree( (gls->m)[k] );
2354
2355 // the internal Variable Ordering
2356 // make sure that the homogenization variable goes last!
2357 intvec iVO( (currRing->N) );
2358 if ( linPolyS != SNONE )
2359 {
2360 iVO[(currRing->N) - 1]= linPolyS;
2361 int p=0;
2362 for ( k= (currRing->N) - 1; k >= 0; k-- )
2363 {
2364 if ( k != linPolyS )
2365 {
2366 iVO[p]= k;
2367 p++;
2368 }
2369 }
2370 }
2371 else
2372 {
2373 linPolyS= 0;
2374 for ( k= 0; k < (currRing->N); k++ )
2375 iVO[k]= (currRing->N) - k - 1;
2376 }
2377
2378 // the critical degree d= sum( deg(Fi) ) - n
2379 int sumDeg= 0;
2380 for ( k= 0; k < polyDegs.rows(); k++ )
2381 sumDeg+= polyDegs[k];
2382 sumDeg-= polyDegs.rows() - 1;
2383
2384 // generate the base data
2385 generateMonomData( sumDeg, &polyDegs, &iVO );
2386
2387 // generate "matrix"
2388 for ( k= numVectors - 1; k >= 0; k-- )
2389 {
2390 if ( resVectorList[k].elementOfS != linPolyS )
2391 {
2392 // column k is a normal column with numerical or symbolic entries
2393 // init stuff
2394 resVectorList[k].numColParNr= NULL;
2395 resVectorList[k].numColVectorSize= numVectors;
2396 resVectorList[k].numColVector= (number *)omAlloc( numVectors*sizeof( number ) );
2397 for ( i= 0; i < numVectors; i++ ) resVectorList[k].numColVector[i]= nInit(0);
2398
2399 // compute row poly
2400 poly pi= ppMult_qq( (gls->m)[ resVectorList[k].elementOfS ] , resVectorList[k].mon );
2401 pi= pp_DivideM( pi, resVectorList[k].dividedBy, currRing );
2402
2403 // fill in "matrix"
2404 while ( pi != NULL )
2405 {
2406 matEntry= nCopy(pGetCoeff(pi));
2407 pmatchPos= pLmInit( pi );
2408 pSetCoeff0( pmatchPos, nInit(1) );
2409
2410 for ( i= 0; i < numVectors; i++)
2411 if ( pLmEqual( pmatchPos, resVectorList[i].mon ) )
2412 break;
2413
2414 resVectorList[k].numColVector[numVectors - i - 1] = nCopy(matEntry);
2415
2416 pDelete( &pmatchPos );
2417 nDelete( &matEntry );
2418
2419 pIter( pi );
2420 }
2421 pDelete( &pi );
2422 }
2423 else
2424 {
2425 // column is a special column, i.e. is generated by S0 and F0
2426 // safe only the positions of the ui's in the column
2427 //mprPROTInl(" setup of numColParNr ",k);
2428 resVectorList[k].numColVectorSize= 0;
2429 resVectorList[k].numColVector= NULL;
2430 resVectorList[k].numColParNr= (int *)omAlloc0( ((currRing->N)+1) * sizeof(int) );
2431
2432 pi= (gls->m)[ resVectorList[k].elementOfS ];
2433 factor= pp_DivideM( resVectorList[k].mon, resVectorList[k].dividedBy, currRing );
2434
2435 j=0;
2436 while ( pi != NULL )
2437 { // fill in "matrix"
2438 pmp= pMult( pCopy( factor ), pHead( pi ) );
2439 pTest( pmp );
2440
2441 for ( i= 0; i < numVectors; i++)
2442 if ( pLmEqual( pmp, resVectorList[i].mon ) )
2443 break;
2444
2445 resVectorList[k].numColParNr[j]= i;
2446 pDelete( &pmp );
2447 pIter( pi );
2448 j++;
2449 }
2450 pDelete( &pi );
2451 pDelete( &factor );
2452 }
2453 } // for ( k= numVectors - 1; k >= 0; k-- )
2454
2455 mprSTICKYPROT2(" size of matrix: %d\n",numVectors);
2456 mprSTICKYPROT2(" size of submatrix: %d\n",subSize);
2457
2458 // create the matrix M
2459 createMatrix();
2460
2461}
p
int p
Definition: cfModGcd.cc:4078
intvec
Definition: intvec.h:23
resMatrixDense::createMatrix
void createMatrix()
Creates quadratic matrix M of size numVectors for later use.
Definition: mpr_base.cc:2120
resMatrixDense::generateMonomData
void generateMonomData(int deg, intvec *polyDegs, intvec *iVO)
Generates needed set of monoms, split them into sets S0, ... Sn and check if reduced/nonreduced and c...
Definition: mpr_base.cc:2227
factor
CanonicalForm factor
Definition: facAbsFact.cc:97
pi
#define pi
Definition: libparse.cc:1145
pIter
#define pIter(p)
Definition: monomials.h:37
pGetCoeff
static number & pGetCoeff(poly p)
return an alias to the leading coefficient of p assumes that p != NULL NOTE: not copy
Definition: monomials.h:44
SNONE
#define SNONE
Definition: mpr_base.h:14
omAlloc
#define omAlloc(size)
Definition: omAllocDecl.h:210
omAlloc0
#define omAlloc0(size)
Definition: omAllocDecl.h:211
pp_DivideM
poly pp_DivideM(poly a, poly b, const ring r)
Definition: p_polys.cc:1629
pTest
#define pTest(p)
Definition: polys.h:414
pHead
#define pHead(p)
returns newly allocated copy of Lm(p), coef is copied, next=NULL, p might be NULL
Definition: polys.h:67
pLmEqual
#define pLmEqual(p1, p2)
Definition: polys.h:111
ppMult_qq
#define ppMult_qq(p, q)
Definition: polys.h:208
pLmInit
#define pLmInit(p)
like pInit, except that expvector is initialized to that of p, p must be != NULL
Definition: polys.h:64
pMult
#define pMult(p, q)
Definition: polys.h:207
pCopy
#define pCopy(p)
return a copy of the poly
Definition: polys.h:185
resVector::mon
poly mon
Definition: mpr_base.cc:2024
resVector::elementOfS
int elementOfS
number of the set S mon is element of
Definition: mpr_base.cc:2029
resVector::numColParNr
int * numColParNr
holds the index of u0, u1, ..., un, if (elementOfS == linPolyS) the size is given by (currRing->N)
Definition: mpr_base.cc:2034
resVector::numColVector
number * numColVector
holds the column vector if (elementOfS != linPolyS)
Definition: mpr_base.cc:2037

◆ generateMonomData()

void resMatrixDense::generateMonomData ( int  deg,
intvec polyDegs,
intvec iVO 
)
private

Generates needed set of monoms, split them into sets S0, ... Sn and check if reduced/nonreduced and calculate size of submatrix.

Definition at line 2227 of file mpr_base.cc.

2228{
2229 int i,j,k;
2230
2231 // init monomData
2232 veclistblock= 512;
2233 veclistmax= veclistblock;
2234 resVectorList= (resVector *)omAlloc( veclistmax*sizeof( resVector ) );
2235
2236 // Init resVector()s
2237 for ( j= veclistmax - 1; j >= 0; j-- ) resVectorList[j].init();
2238 numVectors= 0;
2239
2240 // Generate all monoms of degree deg
2241 poly start= pOne();
2242 generateMonoms( start, 1, deg );
2243 pDelete( & start );
2244
2245 mprSTICKYPROT("\n");
2246
2247 // Check for reduced monoms
2248 // First generate polyDegs.rows() monoms
2249 // x(k)^(polyDegs[k]), 0 <= k < polyDegs.rows()
2250 ideal pDegDiv= idInit( polyDegs->rows(), 1 );
2251 for ( k= 0; k < polyDegs->rows(); k++ )
2252 {
2253 poly p= pOne();
2254 pSetExp( p, k + 1, (*polyDegs)[k] );
2255 pSetm( p );
2256 (pDegDiv->m)[k]= p;
2257 }
2258
2259 // Now check each monom if it is reduced.
2260 // A monom monom is called reduced if there exists
2261 // exactly one x(k)^(polyDegs[k]) that divides the monom.
2262 int divCount;
2263 for ( j= numVectors - 1; j >= 0; j-- )
2264 {
2265 divCount= 0;
2266 for ( k= 0; k < IDELEMS(pDegDiv); k++ )
2267 if ( pLmDivisibleByNoComp( (pDegDiv->m)[k], resVectorList[j].mon ) )
2268 divCount++;
2269 resVectorList[j].isReduced= (divCount == 1);
2270 }
2271
2272 // create the sets S(k)s
2273 // a monom x(i)^deg, deg given, is element of the set S(i)
2274 // if all x(0)^(polyDegs[0]) ... x(i-1)^(polyDegs[i-1]) DONT divide
2275 // x(i)^deg and only x(i)^(polyDegs[i]) divides x(i)^deg
2276 bool doInsert;
2277 for ( k= 0; k < iVO->rows(); k++)
2278 {
2279 //mprPROTInl(" ------------ var:",(*iVO)[k]);
2280 for ( j= numVectors - 1; j >= 0; j-- )
2281 {
2282 //mprPROTPnl("testing monom",resVectorList[j].mon);
2283 if ( resVectorList[j].elementOfS == SFREE )
2284 {
2285 //mprPROTnl("\tfree");
2286 if ( pLmDivisibleByNoComp( (pDegDiv->m)[ (*iVO)[k] ], resVectorList[j].mon ) )
2287 {
2288 //mprPROTPnl("\tdivisible by ",(pDegDiv->m)[ (*iVO)[k] ]);
2289 doInsert=TRUE;
2290 for ( i= 0; i < k; i++ )
2291 {
2292 //mprPROTPnl("\tchecking db ",(pDegDiv->m)[ (*iVO)[i] ]);
2293 if ( pLmDivisibleByNoComp( (pDegDiv->m)[ (*iVO)[i] ], resVectorList[j].mon ) )
2294 {
2295 //mprPROTPnl("\t and divisible by",(pDegDiv->m)[ (*iVO)[i] ]);
2296 doInsert=FALSE;
2297 break;
2298 }
2299 }
2300 if ( doInsert )
2301 {
2302 //mprPROTInl("\t------------------> S ",(*iVO)[k]);
2303 resVectorList[j].elementOfS= (*iVO)[k];
2304 resVectorList[j].dividedBy= pCopy( (pDegDiv->m)[ (*iVO)[i] ] );
2305 }
2306 }
2307 }
2308 }
2309 }
2310
2311 // size of submatrix M', equal to number of nonreduced monoms
2312 // (size of matrix M is equal to number of monoms=numVectors)
2313 subSize= 0;
2314 int sub;
2315 for ( i= 0; i < polyDegs->rows(); i++ )
2316 {
2317 sub= 1;
2318 for ( k= 0; k < polyDegs->rows(); k++ )
2319 if ( i != k ) sub*= (*polyDegs)[k];
2320 subSize+= sub;
2321 }
2322 subSize= numVectors - subSize;
2323
2324 // pDegDiv wieder freigeben!
2325 idDelete( &pDegDiv );
2326
2327#ifdef mprDEBUG_ALL
2328 // Print a list of monoms and their properties
2329 PrintS("// \n");
2330 for ( j= numVectors - 1; j >= 0; j-- )
2331 {
2332 Print("// %s, S(%d), db ",
2333 resVectorList[j].isReduced?"reduced":"nonreduced",
2334 resVectorList[j].elementOfS);
2335 pWrite0(resVectorList[j].dividedBy);
2336 PrintS(" monom ");
2337 pWrite(resVectorList[j].mon);
2338 }
2339 Print("// size: %d, subSize: %d\n",numVectors,subSize);
2340#endif
2341}
TRUE
#define TRUE
Definition: auxiliary.h:100
FALSE
#define FALSE
Definition: auxiliary.h:96
intvec::rows
int rows() const
Definition: intvec.h:96
resMatrixDense::generateMonoms
void generateMonoms(poly m, int var, int deg)
Recursively generate all homogeneous monoms of (currRing->N) variables of degree deg.
Definition: mpr_base.cc:2187
isReduced
long isReduced(const mat_zz_p &M)
Definition: facFqBivar.cc:1468
SFREE
#define SFREE
Definition: mpr_base.h:15
LinTree::init
void init()
Definition: lintree.cc:864
pSetm
#define pSetm(p)
Definition: polys.h:271
pWrite
void pWrite(poly p)
Definition: polys.h:308
pSetExp
#define pSetExp(p, i, v)
Definition: polys.h:42
pOne
#define pOne()
Definition: polys.h:315
pLmDivisibleByNoComp
#define pLmDivisibleByNoComp(a, b)
like pLmDivisibleBy, does not check components
Definition: polys.h:142
idInit
ideal idInit(int idsize, int rank)
initialise an ideal / module
Definition: simpleideals.cc:35
resVector::dividedBy
poly dividedBy
Definition: mpr_base.cc:2025
resVector::isReduced
bool isReduced
Definition: mpr_base.cc:2026

◆ generateMonoms()

void resMatrixDense::generateMonoms ( poly  m,
int  var,
int  deg 
)
private

Recursively generate all homogeneous monoms of (currRing->N) variables of degree deg.

Definition at line 2187 of file mpr_base.cc.

2188{
2189 if ( deg == 0 )
2190 {
2191 poly mon = pCopy( mm );
2192
2193 if ( numVectors == veclistmax )
2194 {
2195 resVectorList= (resVector * )omReallocSize( resVectorList,
2196 (veclistmax) * sizeof( resVector ),
2197 (veclistmax + veclistblock) * sizeof( resVector ) );
2198 int k;
2199 for ( k= veclistmax; k < (veclistmax + veclistblock); k++ )
2200 resVectorList[k].init();
2201 veclistmax+= veclistblock;
2202 mprSTICKYPROT(ST_DENSE_MEM);
2203
2204 }
2205 resVectorList[numVectors].init( mon );
2206 numVectors++;
2207 mprSTICKYPROT(ST_DENSE_NMON);
2208 return;
2209 }
2210 else
2211 {
2212 if ( var == (currRing->N)+1 ) return;
2213 poly newm = pCopy( mm );
2214 while ( deg >= 0 )
2215 {
2216 generateMonoms( newm, var+1, deg );
2217 pIncrExp( newm, var );
2218 pSetm( newm );
2219 deg--;
2220 }
2221 pDelete( & newm );
2222 }
2223
2224 return;
2225}
ST_DENSE_MEM
#define ST_DENSE_MEM
Definition: mpr_global.h:66
ST_DENSE_NMON
#define ST_DENSE_NMON
Definition: mpr_global.h:67
omReallocSize
#define omReallocSize(addr, o_size, size)
Definition: omAllocDecl.h:220
pIncrExp
#define pIncrExp(p, i)
Definition: polys.h:43
resVector::init
void init()
Definition: mpr_base.cc:2004

◆ getDetAt()

number resMatrixDense::getDetAt ( const number *  evpoint)
virtual

Evaluate the determinant of the matrix M at the point evpoint where the ui's are replaced by the components of evpoint.

Uses singclap_det from factory.

Reimplemented from resMatrixBase.

Definition at line 2550 of file mpr_base.cc.

2551{
2552 int k,i;
2553
2554 // copy evaluation point into matrix
2555 // p0, p1, ..., pn replace u0, u1, ..., un
2556 for ( k= numVectors - 1; k >= 0; k-- )
2557 {
2558 if ( linPolyS == getMVector(k)->elementOfS )
2559 {
2560 for ( i= 0; i < (currRing->N); i++ )
2561 {
2562 number np=pGetCoeff(MATELEM(m,numVectors-k,numVectors-(getMVector(k)->numColParNr)[i]));
2563 if (np!=NULL) nDelete(&np);
2564 pSetCoeff0( MATELEM(m,numVectors-k,numVectors-(getMVector(k)->numColParNr)[i]),
2565 nCopy(evpoint[i]) );
2566 }
2567 }
2568 }
2569
2570 mprSTICKYPROT(ST__DET);
2571
2572 // evaluate determinant of matrix m using factory singclap_det
2573 poly res= singclap_det( m, currRing );
2574
2575 // avoid errors for det==0
2576 number numres;
2577 if ( (res!=NULL) && (!nIsZero(pGetCoeff( res ))) )
2578 {
2579 numres= nCopy( pGetCoeff( res ) );
2580 }
2581 else
2582 {
2583 numres= nInit(0);
2584 mprPROT("0");
2585 }
2586 pDelete( &res );
2587
2588 mprSTICKYPROT(ST__DET);
2589
2590 return( numres );
2591}
singclap_det
poly singclap_det(const matrix m, const ring s)
Definition: clapsing.cc:1757
res
CanonicalForm res
Definition: facAbsFact.cc:60
ST__DET
#define ST__DET
Definition: mpr_global.h:78
mprPROT
#define mprPROT(msg)
Definition: mpr_global.h:41

◆ getMatrix()

ideal resMatrixDense::getMatrix ( )
virtual

Returns the matrix M in an usable presentation.

Reimplemented from resMatrixBase.

Definition at line 2469 of file mpr_base.cc.

2470{
2471 int i,j;
2472
2473 // copy matrix
2474 matrix resmat= mpNew(numVectors,numVectors);
2475 poly p;
2476 for (i=1; i <= numVectors; i++)
2477 {
2478 for (j=1; j <= numVectors; j++ )
2479 {
2480 p=MATELEM(m,i,j);
2481 if (( p!=NULL)
2482 && (!nIsZero(pGetCoeff(p)))
2483 && (pGetCoeff(p)!=NULL)
2484 )
2485 {
2486 MATELEM(resmat,i,j)= pCopy( p );
2487 }
2488 }
2489 }
2490 for (i=0; i < numVectors; i++)
2491 {
2492 if ( resVectorList[i].elementOfS == linPolyS )
2493 {
2494 for (j=1; j <= (currRing->N); j++ )
2495 {
2496 if ( MATELEM(resmat,numVectors-i,
2497 numVectors-resVectorList[i].numColParNr[j-1])!=NULL )
2498 pDelete( &MATELEM(resmat,numVectors-i,numVectors-resVectorList[i].numColParNr[j-1]) );
2499 MATELEM(resmat,numVectors-i,numVectors-resVectorList[i].numColParNr[j-1])= pOne();
2500 // FIX ME
2501 if ( FALSE )
2502 {
2503 pSetCoeff( MATELEM(resmat,numVectors-i,numVectors-resVectorList[i].numColParNr[j-1]), n_Param(j,currRing) );
2504 }
2505 else
2506 {
2507 pSetExp( MATELEM(resmat,numVectors-i,numVectors-resVectorList[i].numColParNr[j-1]), j, 1 );
2508 pSetm(MATELEM(resmat,numVectors-i,numVectors-resVectorList[i].numColParNr[j-1]));
2509 }
2510 }
2511 }
2512 }
2513
2514 // obachman: idMatrix2Module frees resmat !!
2515 ideal resmod= id_Matrix2Module(resmat,currRing);
2516 return resmod;
2517}
ip_smatrix
Definition: matpol.h:15
n_Param
static FORCE_INLINE number n_Param(const int iParameter, const coeffs r)
return the (iParameter^th) parameter as a NEW number NOTE: parameter numbering: 1....
Definition: coeffs.h:780
pSetCoeff
#define pSetCoeff(p, n)
deletes old coeff before setting the new one
Definition: polys.h:31
id_Matrix2Module
ideal id_Matrix2Module(matrix mat, const ring R)
converts mat to module, destroys mat
Definition: simpleideals.cc:1442

◆ getMVector()

resVector * resMatrixDense::getMVector ( const int  i)

column vector of matrix, index von 0 ... numVectors-1

Definition at line 2463 of file mpr_base.cc.

2464{
2465 assume( i >= 0 && i < numVectors );
2466 return &resVectorList[i];
2467}
assume
#define assume(x)
Definition: mod2.h:389

◆ getSubDet()

number resMatrixDense::getSubDet ( )
virtual

Evaluates the determinant of the submatrix M'.

Since the matrix is numerically, no evaluation point is needed. Uses singclap_det from factory.

Reimplemented from resMatrixBase.

Definition at line 2593 of file mpr_base.cc.

2594{
2595 int k,i,j,l;
2596 resVector *vecp;
2597
2598 // generate quadratic matrix mat of size subSize
2599 matrix mat= mpNew( subSize, subSize );
2600
2601 for ( i= 1; i <= MATROWS( mat ); i++ )
2602 {
2603 for ( j= 1; j <= MATCOLS( mat ); j++ )
2604 {
2605 MATELEM(mat,i,j)= pInit();
2606 pSetCoeff0( MATELEM(mat,i,j), nInit(0) );
2607 }
2608 }
2609 j=1;
2610 for ( k= numVectors - 1; k >= 0; k-- )
2611 {
2612 vecp= getMVector(k);
2613 if ( vecp->isReduced ) continue;
2614 l=1;
2615 for ( i= numVectors - 1; i >= 0; i-- )
2616 {
2617 if ( getMVector(i)->isReduced ) continue;
2618 if ( vecp->getElemNum(numVectors - i - 1) && !nIsZero(vecp->getElemNum(numVectors - i - 1)) )
2619 {
2620 pSetCoeff(MATELEM(mat, j , l ), nCopy(vecp->getElemNum(numVectors - i - 1)));
2621 }
2622 /* else
2623 {
2624 MATELEM(mat, j , l )= pOne();
2625 pSetCoeff(MATELEM(mat, j , l ), nInit(0) );
2626 }
2627 */
2628 l++;
2629 }
2630 j++;
2631 }
2632
2633 poly res= singclap_det( mat, currRing );
2634
2635 number numres;
2636 if ((res != NULL) && (!nIsZero(pGetCoeff( res ))) )
2637 {
2638 numres= nCopy(pGetCoeff( res ));
2639 }
2640 else
2641 {
2642 numres= nInit(0);
2643 }
2644 pDelete( &res );
2645 return numres;
2646}
l
int l
Definition: cfEzgcd.cc:100

◆ getSubMatrix()

ideal resMatrixDense::getSubMatrix ( )
virtual

Returns the submatrix M' of M in an usable presentation.

Reimplemented from resMatrixBase.

Definition at line 2519 of file mpr_base.cc.

2520{
2521 int k,i,j,l;
2522 resVector *vecp;
2523
2524 // generate quadratic matrix resmat of size subSize
2525 matrix resmat= mpNew( subSize, subSize );
2526
2527 j=1;
2528 for ( k= numVectors - 1; k >= 0; k-- )
2529 {
2530 vecp= getMVector(k);
2531 if ( vecp->isReduced ) continue;
2532 l=1;
2533 for ( i= numVectors - 1; i >= 0; i-- )
2534 {
2535 if ( getMVector(i)->isReduced ) continue;
2536 if ( !nIsZero(vecp->getElemNum(numVectors - i - 1)) )
2537 {
2538 MATELEM(resmat,j,l)= pCopy( vecp->getElem(numVectors-i-1) );
2539 }
2540 l++;
2541 }
2542 j++;
2543 }
2544
2545 // obachman: idMatrix2Module frees resmat !!
2546 ideal resmod= id_Matrix2Module(resmat,currRing);
2547 return resmod;
2548}
resVector::getElem
poly getElem(const int i)
index von 0 ... numVectors-1
Definition: mpr_base.cc:2047

Field Documentation

◆ m

matrix resMatrixDense::m
private

Definition at line 1995 of file mpr_base.cc.

◆ numVectors

int resMatrixDense::numVectors
private

Definition at line 1992 of file mpr_base.cc.

◆ resVectorList

resVector* resMatrixDense::resVectorList
private

Definition at line 1988 of file mpr_base.cc.

◆ subSize

int resMatrixDense::subSize
private

Definition at line 1993 of file mpr_base.cc.

◆ veclistblock

int resMatrixDense::veclistblock
private

Definition at line 1991 of file mpr_base.cc.

◆ veclistmax

int resMatrixDense::veclistmax
private

Definition at line 1990 of file mpr_base.cc.

The documentation for this class was generated from the following file:
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