77 ch[0]=c->op;ch[1]=
'\0';
80 ::Print(
"##command %d(%s), %d args\n",
83 c->arg1.Print(
NULL,spaces+2);
87 c->arg2.Print(
NULL,spaces+2);
89 c->arg3.Print(
NULL,spaces+2);
132 ((
intvec *)d)->show(t,spaces);
137 const ring r = (
const ring)d;
273 l->m[
i].Print(
NULL,spaces+3);
285 if (bb!=
NULL) { bb->blackbox_Print(bb,d); }
286 else {
::Print(
"Print: blackbox %d(bb=NULL)",t); }
291 if ((store!=
NULL)&&(store!=
this))
422 return (
void*)n2Copy((number2)d);
424 return (
void*)p2Copy((poly2)d);
436 return (
void *)
idCopy((ideal)d);
445 return (
void *)
pCopy((poly)d);
449 return (
void *)
nCopy((number)d);
480 if (
b!=
NULL)
return b->blackbox_Copy(
b,d);
484 Warn(
"s_internalCopy: cannot copy type %s(%d)",
512 number2 n=(number2)d;
598 Print(
"currRing? ref=%d\n",
R->ref);
611 if (cmd->arg1.rtyp!=0) cmd->arg1.CleanUp(r);
612 if (cmd->arg2.rtyp!=0) cmd->arg2.CleanUp(r);
613 if (cmd->arg3.rtyp!=0) cmd->arg3.CleanUp(r);
645 if (
b!=
NULL)
b->blackbox_destroy(
b,d);
649 Warn(
"s_internalDelete: cannot delete type %s(%d)",
666 else if (e->next==
NULL)
688 void *d=source->
Data();
774 sprintf(
s,
"int(%d)",(
int)(
long)d);
779 sprintf(
s,
"%d",(
int)(
long)d);
791 s = (
char*)
omAlloc(strlen((
char*) d) + 3);
792 sprintf(
s,
"\"%s\"", (
char*) d);
805 s = (
char*)
omAlloc(strlen(ps) + 10);
806 sprintf(
s,
"%s(%s)", (t ==
POLY_CMD ?
"poly" :
"vector"), ps);
817 return n2String((number2)d,typed);
851 char* ns = (
char*)
omAlloc(strlen(
s) + 40);
852 sprintf(ns,
"matrix(ideal(%s),%d,%d)",
s,
868 char* ns = (
char*)
omAlloc(strlen(
s) + 10);
869 sprintf(ns,
"%s(%s)", (t==
MODUL_CMD ?
"module" :
"ideal"),
s);
886 ns = (
char*)
omAlloc(strlen(
s) + 40);
887 sprintf(ns,
"intmat(intvec(%s),%d,%d)",
s,
v->rows(),
v->cols());
891 ns = (
char*)
omAlloc(strlen(
s) + 10);
892 sprintf(ns,
"intvec(%s)",
s);
907 char* ns = (
char*)
omAlloc0(strlen(
s) + 40);
908 sprintf(ns,
"bigintmat(bigintvec(%s),%d,%d)",
s, bim->
rows(), bim->
cols());
927 ns = (
char*)
omAlloc(strlen(
s) + strlen(
id) + 20);
928 sprintf(ns,
"\"%s\";%sideal(%s)",
s,(
dim == 2 ?
"\n" :
" "),
id);
932 ns = (
char*)
omAlloc(strlen(
s) + 4);
933 sprintf(ns,
"\"%s\"",
s);
952 s = (
pi->data.s.body);
957 char* ns = (
char*)
omAlloc(strlen(
s) + 4);
958 sprintf(ns,
"\"%s\"",
s);
969 char* ns = (
char*)
omAlloc(strlen(
s) + 10);
970 sprintf(ns,
"link(\"%s\")",
s);
984 if (bb!=
NULL)
return bb->blackbox_String(bb,d);
1003 return ((
idhdl)
h->data.ustring)->typ;
1076 if ((0<
e->start)&&(
e->start<=
l->nr+1))
1078 Subexpr tmp=
l->m[
e->start-1].e;
1079 l->m[
e->start-1].e=
e->next;
1080 r=
l->m[
e->start-1].Typ();
1081 e->next=
l->m[
e->start-1].e;
1082 l->m[
e->start-1].e=tmp;
1112 if ((0<
e->start)&&(
e->start<=
l->nr+1))
1114 l->m[
e->start-1].e=
e->next;
1115 r=
l->m[
e->start-1].LTyp();
1131 static snumber2 iiNumber2Data[4];
1132 static int iiCmatrix_index=0;
1145 return ((
idhdl)
h->data.ustring)->
data.ustring;
1166 return (
void *)
A->qideal->m[0];
1169 return (
void *)
nInit(0);
1209 r=(
char *)(
long)((*iv)[
index-1]);
1217 ||(
e->next->start<1)
1218 ||(
e->next->start>iv->
cols()))
1221 Werror(
"wrong range[%d,%d] in intmat %s(%dx%d)",
index,
e->next->start,
1222 this->Name(),iv->
rows(),iv->
cols());
1233 ||(
e->next->start<1)
1234 ||(
e->next->start>
m->cols()))
1237 Werror(
"wrong range[%d,%d] in bigintmat %s(%dx%d)",
index,
e->next->start,
1238 this->Name(),
m->rows(),
m->cols());
1250 ||(
e->next->start<1)
1251 ||(
e->next->start>
m->cols()))
1254 Werror(
"wrong range[%d,%d] in matrix %s(%dx%d)",
index,
e->next->start,
1255 this->Name(),
m->rows(),
m->cols());
1259 iiNumber2Data[iiCmatrix_index].cf=
m->basecoeffs();
1261 r=(
char*)&iiNumber2Data[iiCmatrix_index];
1262 iiCmatrix_index=(iiCmatrix_index+1) % 4;
1278 r=(
char *)I->m[
index-1];
1290 if ((
index>0)&& (
index<=(int)strlen((
char *)d)))
1292 r[0]=*(((
char *)d)+
index-1);
1307 memcpy(
this,&tmp,
sizeof(tmp));
1327 ||(
e->next->start<1)
1331 Werror(
"wrong range[%d,%d] in matrix %s(%dx%d)",
1356 char *dd=(
char *)
l->m[
index-1].data;
1357 int j=
e->next->start-1;
1359 if ((
j>=0) && (
j<(
int)strlen(dd)))
1371 Subexpr tmp=
l->m[
index-1].e;
1373 r=(
char *)
l->m[
index-1].Data();
1398 return &(
v->attribute);
1427 if ((0>=
e->start)||(
e->start>
l->nr+1))
1431 l->m[
e->start-1].e=
e->next;
1432 leftv r=
l->m[
e->start-1].LData();
1436 return &(
l->m[
e->start-1]);
1443 leftv sleftv::LHdl()
1455 if ((0>=
e->start)||(
e->start>
l->nr+1))
1459 l->m[
e->start-1].e=
e->next;
1460 leftv r=
l->m[
e->start-1].LHdl();
1464 return &(
l->m[
e->start-1]);
1485 Warn(
"%s is no standard basis",
h->Name());
1514 if ((*
id<
' ')||(*
id>(
char)126))
1516 Print(
"wrong id :%s:\n",
id);
1523 v->req_packhdl = pa;
1533 if (!isdigit(
id[0]))
1535 if (strcmp(
id,
"basering")==0)
1549 else if (strcmp(
id,
"Current")==0)
1565 h=
v->req_packhdl->idroot->get(
id,
myynest);
1590 v->data = (
void *)
p;
1601 if (ok && (
p!=
NULL))
1628 v->data = (
void *)
nInit(0);
1666 v->data = (
void *)
nInit(0);
1723 if (strcmp(
id,
"_")==0)
1748 v->data = (
char *)
h;
1774 char *what=(
char *)(d->arg1.Data());
1792 else if (d->op==
'=')
1800 const char *n=d->arg1.name;
1801 nok=(n ==
NULL) || d->arg2.Eval();
1804 int save_typ=d->arg1.rtyp;
1806 if (d->arg1.rtyp!=
IDHDL)
1809 if (d->arg1.rtyp==
IDHDL)
1824 memcpy(&d->arg1,&t,
sizeof(
sleftv));
1826 nok=nok||
iiAssign(&d->arg1,&d->arg2);
1831 memset(&d->arg1,0,
sizeof(
sleftv));
1843 if ((toktype==
CMD_M)
1849 if (d->argc>=1) nok=d->arg1.Eval();
1850 if ((!nok) && (d->argc>=2))
1854 memcpy(d->arg1.next,&d->arg2,
sizeof(
sleftv));
1857 if ((!nok) && (d->argc==3))
1861 memcpy(d->arg1.next->next,&d->arg3,
sizeof(
sleftv));
1875 else if (d->argc==1)
1883 nok=nok||d->arg2.Eval();
1889 nok=nok||d->arg2.Eval();
1890 nok=nok||d->arg3.Eval();
1891 nok=nok||
iiExprArith3(&tmp,d->op,&d->arg1,&d->arg2,&d->arg3);
1903 memcpy(
this,&tmp,
sizeof(tmp));
1931 ideal
id=(ideal)
Data();
1933 int i=
id->ncols*
id->nrows-1;
bigintmat * bimCopy(const bigintmat *b)
same as copy constructor - apart from it being able to accept NULL as input
#define BIMATELEM(M, I, J)
blackbox * getBlackboxStuff(const int t)
return the structure to the type given by t
CanonicalForm map(const CanonicalForm &primElem, const Variable &alpha, const CanonicalForm &F, const Variable &beta)
map from to such that is mapped onto
char * String()
IO: String returns a singular string containing the matrix, needs freeing afterwards.
void killAll(const ring r)
Class used for (list of) interpreter objects.
char * String(void *d=NULL, BOOLEAN typed=FALSE, int dim=1)
Called for conversion to string (used by string(..), write(..),..)
void CleanUp(ring r=currRing)
void Print(leftv store=NULL, int spaces=0)
Called by type_cmd (e.g. "r;") or as default in jPRINT.
static FORCE_INLINE number n_Copy(number n, const coeffs r)
return a copy of 'n'
static FORCE_INLINE char * nCoeffString(const coeffs cf)
TODO: make it a virtual method of coeffs, together with: Decompose & Compose, rParameter & rPar.
static FORCE_INLINE BOOLEAN nCoeff_is_GF(const coeffs r)
static FORCE_INLINE char * nCoeffName(const coeffs cf)
#define n_Test(a, r)
BOOLEAN n_Test(number a, const coeffs r)
@ n_long_C
complex floating point (GMP) numbers
static FORCE_INLINE char const ** n_ParameterNames(const coeffs r)
Returns a (const!) pointer to (const char*) names of parameters.
static FORCE_INLINE void n_Delete(number *p, const coeffs r)
delete 'p'
static FORCE_INLINE int n_NumberOfParameters(const coeffs r)
Returns the number of parameters.
static FORCE_INLINE void n_Write(number n, const coeffs r, const BOOLEAN bShortOut=TRUE)
static FORCE_INLINE BOOLEAN nCoeff_is_algExt(const coeffs r)
TRUE iff r represents an algebraic extension field.
void nKillChar(coeffs r)
undo all initialisations
const CanonicalForm int s
const Variable & v
< [in] a sqrfree bivariate poly
void nfShowMipo(const coeffs r)
Show the mininimal polynom.... NOTE: this is used by char * sleftv::String(void *d,...
const char * Tok2Cmdname(int tok)
const char * iiTwoOps(int t)
BOOLEAN yyInRingConstruction
#define IMATELEM(M, I, J)
intvec * ivCopy(const intvec *o)
BOOLEAN iiExprArith2(leftv res, leftv a, int op, leftv b, BOOLEAN proccall)
BOOLEAN iiExprArith1(leftv res, leftv a, int op)
BOOLEAN iiExprArithM(leftv res, leftv a, int op)
BOOLEAN iiExprArith3(leftv res, int op, leftv a, leftv b, leftv c)
void jjNormalizeQRingId(leftv I)
void jjNormalizeQRingP(poly &p)
BOOLEAN iiAssign(leftv l, leftv r, BOOLEAN toplevel)
const char * piProcinfo(procinfov pi, const char *request)
idhdl ggetid(const char *n)
void killhdl(idhdl h, package proot)
BOOLEAN piKill(procinfov pi)
package paCopy(package pack)
BOOLEAN iiMake_proc(idhdl pn, package pack, leftv sl)
int iiDeclCommand(leftv sy, leftv name, int lev, int t, idhdl *root, BOOLEAN isring, BOOLEAN init_b)
BOOLEAN iiCheckRing(int i)
lists syConvRes(syStrategy syzstr, BOOLEAN toDel, int add_row_shift)
void paPrint(const char *n, package p)
BOOLEAN lRingDependend(lists L)
char * lString(lists l, BOOLEAN typed, int dim)
map maCopy(map theMap, const ring r)
char * iiStringMatrix(matrix im, int dim, const ring r, char ch)
matrix mp_Copy(matrix a, const ring r)
copies matrix a (from ring r to r)
void iiWriteMatrix(matrix im, const char *n, int dim, const ring r, int spaces)
set spaces to zero by default
#define MATELEM(mat, i, j)
static number & pGetCoeff(poly p)
return an alias to the leading coefficient of p assumes that p != NULL NOTE: not copy
The main handler for Singular numbers which are suitable for Singular polynomials.
#define omCheckAddr(addr)
#define omCheckIf(cond, test)
#define omCheckAddrSize(addr, size)
#define omFreeBin(addr, bin)
#define omFreeBinAddr(addr)
#define omGetSpecBin(size)
static int index(p_Length length, p_Ord ord)
static void p_Delete(poly *p, const ring r)
static poly p_Copy(poly p, const ring r)
returns a copy of p
ring currRing
Widely used global variable which specifies the current polynomial ring for Singular interpreter and ...
Compatiblity layer for legacy polynomial operations (over currRing)
#define pIsConstant(p)
like above, except that Comp might be != 0
static void pLmFree(poly p)
frees the space of the monomial m, assumes m != NULL coef is not freed, m is not advanced
#define pCopy(p)
return a copy of the poly
void StringSetS(const char *st)
void StringAppendS(const char *st)
void PrintNSpaces(const int n)
void PrintS(const char *s)
void Werror(const char *fmt,...)
void rWrite(ring r, BOOLEAN details)
int r_IsRingVar(const char *n, char **names, int N)
static BOOLEAN rField_is_GF(const ring r)
const char * slStatus(si_link l, const char *request)
static si_link slCopy(si_link l)
static char * slString(si_link l)
void id_Delete(ideal *h, ring r)
deletes an ideal/module/matrix
static omBin size_two_bin
void syMake(leftv v, const char *id, package pa)
void s_internalDelete(const int t, void *d, const ring r)
static void * s_internalCopy(const int t, void *d)
void * slInternalCopy(leftv source, const int t, void *d, Subexpr e)
BOOLEAN assumeStdFlag(leftv h)
procinfov piCopy(procinfov pi)
syStrategy syCopy(syStrategy syzstr)
void syKillComputation(syStrategy syzstr, ring r=currRing)
void syPrint(syStrategy syzstr, const char *currRingName)