43 for(i=0;i<v->
rows();i++)
45 for(j=0;j<v->
cols();j++)
68 ss=(
char *)
omAlloc(14+strlen(name));
70 vl=
si_max(vl,(
int)strlen(ss));
95 ss=(
char *)
omAlloc(14+strlen(name));
98 sprintf(ss,
"%s[%d,%d]",name,i+1,j+1);
102 vl=
si_max(vl,(
int)strlen(ss));
129 ss=(
char *)
omAlloc(14+strlen(name));
132 sprintf(ss,
"%s[%d,%d]",name,i+1,j+1);
195 PrintS(
"polynomial ring, over a ");
199 else PrintS(
"ring (with zero-divisors)");
202 if (r->OrdSgn==1)
PrintS(
", global");
203 else if (r->MixedOrder==1)
PrintS(
", mixed");
215 else PrintS(
"ring (with zero-divisors): ");
245 for(j=l-1;j>=0;j--)
pDelete(&m[j]);
306 if (s[l-1]==
'\n') s[l-1]=
'\0';
321 print= (((int)((
long)(u->
Data()))) > 0);
347 int row_shift=(int)((
long)(
atGet(u,
"rowShift",
INT_CMD)));
351 for(j=0;j<betti->
cols();j++)
Print(
" %5d",j);
353 for(j=0;j<betti->
cols();j++)
PrintS(
"------");
356 for(i=0;i<betti->
rows();i++)
358 Print(
"%5d:",i+row_shift);
359 for(j=1;j<=betti->
cols();j++)
371 for(j=0;j<betti->
cols();j++)
PrintS(
"------");
373 for(j=0;j<betti->
cols();j++)
376 for(i=0;i<betti->
rows();i++)
405 if (strlen(ns) == 3 && ns[1] ==
'2')
411 if (strcmp(ns,
"%l") == 0)
416 char* ns = (
char*)
omAlloc(strlen((
char*) res->
data) + 2);
417 strcpy(ns, (
char*) res->
data);
423 else if (strcmp(ns,
"%t") == 0)
429 ((
char*)res->
data)[strlen((
char*)res->
data) -1] =
'\0';
431 else if (strcmp(ns,
"%;") == 0)
438 else if (strcmp(ns,
"%p") == 0)
454 char* ns = (
char*)
omAlloc(strlen((
char*) res->
data) + 2);
455 strcpy(ns, (
char*) res->
data);
const CanonicalForm int s
Class used for (list of) interpreter objects.
static BOOLEAN ipPrint_RING(ring r)
static BOOLEAN ipPrint_INTVEC(intvec *v)
BOOLEAN iiExprArith1(leftv res, leftv a, int op)
Compatiblity layer for legacy polynomial operations (over currRing)
ideal id_Copy(ideal h1, const ring r)
copy an ideal
static BOOLEAN ipPrint_MA(leftv u)
#define omFreeSize(addr, size)
void id_Delete(ideal *h, ring r)
deletes an ideal/module/matrix
static BOOLEAN rField_is_Domain(const ring r)
static BOOLEAN ipPrint_CRING(coeffs r)
void Print(leftv store=NULL, int spaces=0)
Called by type_cmd (e.g. "r;") or as default in jPRINT.
static FORCE_INLINE BOOLEAN nCoeff_is_Ring(const coeffs r)
char * String(void *d=NULL, BOOLEAN typed=FALSE, int dim=1)
Called for conversion to string (used by string(..), write(..),..)
BOOLEAN jjPRINT(leftv res, leftv u)
The main handler for Singular numbers which are suitable for Singular polynomials.
void StringSetS(const char *st)
void StringAppendS(const char *st)
void p_Vec2Polys(poly v, poly **p, int *len, const ring r)
static FORCE_INLINE char * nCoeffName(const coeffs cf)
void ipPrint_MA0(matrix m, const char *name)
static BOOLEAN ipPrint_V(poly u)
static int si_max(const int a, const int b)
void PrintS(const char *s)
char name(const Variable &v)
matrix id_Module2Matrix(ideal mod, const ring R)
void rWrite(ring r, BOOLEAN details)
const Variable & v
< [in] a sqrfree bivariate poly
void * atGet(idhdl root, const char *name, int t, void *defaultReturnValue)
static BOOLEAN rField_is_Ring(const ring r)
static FORCE_INLINE BOOLEAN nCoeff_is_Domain(const coeffs r)
returns TRUE, if r is a field or r has no zero divisors (i.e is a domain)
static void ipPrintBetti(leftv u)
void show(int mat=0, int spaces=0) const
BOOLEAN jjDBPRINT(leftv res, leftv u)
ring currRing
Widely used global variable which specifies the current polynomial ring for Singular interpreter and ...
static BOOLEAN ipPrint_INTMAT(intvec *v)
BOOLEAN jjPRINT_FORMAT(leftv res, leftv u, leftv v)
#define IMATELEM(M, I, J)