Functions
ipprint.cc File Reference
#include <kernel/mod2.h>
#include <omalloc/omalloc.h>
#include <misc/intvec.h>
#include <polys/matpol.h>
#include <kernel/polys.h>
#include <kernel/ideals.h>
#include "tok.h"
#include "ipid.h"
#include "subexpr.h"
#include "ipshell.h"
#include "ipprint.h"
#include "attrib.h"

Go to the source code of this file.

Functions

static BOOLEAN ipPrint_INTVEC (leftv u)
 
static BOOLEAN ipPrint_INTMAT (leftv u)
 
static void ipPrint_MA0 (matrix m, const char *name)
 
static BOOLEAN ipPrint_MA (leftv u)
 
static BOOLEAN ipPrint_RING (leftv u)
 
static BOOLEAN ipPrint_CRING (leftv u)
 
static BOOLEAN ipPrint_V (leftv u)
 
BOOLEAN jjPRINT (leftv res, leftv u)
 
BOOLEAN jjDBPRINT (leftv res, leftv u)
 
static void ipPrintBetti (leftv u)
 
BOOLEAN jjPRINT_FORMAT (leftv res, leftv u, leftv v)
 

Function Documentation

§ ipPrint_CRING()

static BOOLEAN ipPrint_CRING ( leftv  u)
static

Definition at line 213 of file ipprint.cc.

214 {
215  coeffs r=(coeffs)u->Data();
216  if (nCoeff_is_Ring(r))
217  {
218  if (nCoeff_is_Domain(r)) PrintS("domain: ");
219  else PrintS("ring (with zero-divisors): ");
220  }
221  else PrintS("field: ");
222  PrintS(nCoeffName(r));
223  return FALSE;
224 }
#define FALSE
Definition: auxiliary.h:97
static FORCE_INLINE BOOLEAN nCoeff_is_Ring(const coeffs r)
Definition: coeffs.h:762
const ring r
Definition: syzextra.cc:208
The main handler for Singular numbers which are suitable for Singular polynomials.
static FORCE_INLINE char * nCoeffName(const coeffs cf)
Definition: coeffs.h:977
void PrintS(const char *s)
Definition: reporter.cc:284
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)
Definition: coeffs.h:773
void * Data()
Definition: subexpr.cc:1121

§ ipPrint_INTMAT()

static BOOLEAN ipPrint_INTMAT ( leftv  u)
static

Definition at line 42 of file ipprint.cc.

43 {
44  intvec *v=(intvec *)u->Data();
45  int i,j;
46  for(i=0;i<v->rows();i++)
47  {
48  for(j=0;j<v->cols();j++)
49  {
50  Print(" %5d",IMATELEM(*v,i+1,j+1));
51  }
52  PrintLn();
53  }
54  return FALSE;
55 }
void PrintLn()
Definition: reporter.cc:310
#define Print
Definition: emacs.cc:83
#define FALSE
Definition: auxiliary.h:97
int rows() const
Definition: intvec.h:88
Definition: intvec.h:14
int j
Definition: myNF.cc:70
int i
Definition: cfEzgcd.cc:123
const Variable & v
< [in] a sqrfree bivariate poly
Definition: facBivar.h:37
int cols() const
Definition: intvec.h:87
void * Data()
Definition: subexpr.cc:1121
#define IMATELEM(M, I, J)
Definition: intvec.h:77

§ ipPrint_INTVEC()

static BOOLEAN ipPrint_INTVEC ( leftv  u)
static

Definition at line 31 of file ipprint.cc.

32 {
33  intvec *v=(intvec *)u->Data();
34  v->show();
35  PrintLn();
36  return FALSE;
37 }
void PrintLn()
Definition: reporter.cc:310
#define FALSE
Definition: auxiliary.h:97
Definition: intvec.h:14
const Variable & v
< [in] a sqrfree bivariate poly
Definition: facBivar.h:37
void show(int mat=0, int spaces=0) const
Definition: intvec.cc:150
void * Data()
Definition: subexpr.cc:1121

§ ipPrint_MA()

static BOOLEAN ipPrint_MA ( leftv  u)
static

Definition at line 186 of file ipprint.cc.

187 {
188  matrix m=(matrix)u->Data();
189  ipPrint_MA0(m,u->Name());
190  return FALSE;
191 }
#define FALSE
Definition: auxiliary.h:97
static void ipPrint_MA0(matrix m, const char *name)
Definition: ipprint.cc:60
const char * Name()
Definition: subexpr.h:122
ip_smatrix * matrix
int m
Definition: cfEzgcd.cc:119
void * Data()
Definition: subexpr.cc:1121

§ ipPrint_MA0()

static void ipPrint_MA0 ( matrix  m,
const char *  name 
)
static

Definition at line 60 of file ipprint.cc.

61 {
62  if ((MATCOLS(m)>0)&&(MATROWS(m)>0))
63  {
64  char **s=(char **)omAlloc(MATCOLS(m)*MATROWS(m)*sizeof(char*));
65  char *ss;
66  int *l=(int *)omAlloc0(MATCOLS(m)*sizeof(int));
67  int i,j,k;
68  int vl=si_max(colmax/MATCOLS(m),8);
69 
70  /* make enough space for the "largest" name*/
71  ss=(char *)omAlloc(14+strlen(name));
72  sprintf(ss,"%s[%d,%d]",name,MATCOLS(m),MATROWS(m));
73  vl=si_max(vl,(int)strlen(ss));
74  omFree(ss);
75 
76  /* convert all polys to string */
77  i=MATCOLS(m)*MATROWS(m)-1;
78  ss=pString(m->m[i]);
79  if ((int)strlen(ss)>colmax) { s[i]=NULL; omFree(ss); }
80  else s[i]=ss;
81  for(i--;i>=0;i--)
82  {
83  StringSetS("");
84  pString0(m->m[i]);
85  StringAppendS(",");
86  ss=StringEndS();
87  if ((int)strlen(ss)>colmax) s[i]=NULL;
88  else s[i]=ss;
89  }
90  /* look up the width of all columns, put it in l[col_nr] */
91  /* insert names for very long entries */
92  for(i=MATROWS(m)-1;i>=0;i--)
93  {
94  for(j=MATCOLS(m)-1;j>=0;j--)
95  {
96  if (s[i*MATCOLS(m)+j]==NULL)
97  {
98  ss=(char *)omAlloc(14+strlen(name));
99  s[i*MATCOLS(m)+j]=ss;
100  ss[0]='\0';
101  sprintf(ss,"%s[%d,%d]",name,i+1,j+1);
102  if ((i!=MATROWS(m)-1) || (j!=MATCOLS(m)-1))
103  {
104  strcat(ss,",");
105  vl=si_max(vl,(int)strlen(ss));
106  }
107  }
108  k=strlen(s[i*MATCOLS(m)+j]);
109  if (k>l[j]) l[j]=k;
110  }
111  }
112  /* does it fit on a line ? */
113  int maxlen=0;
114  for(j=MATCOLS(m)-1;j>=0;j--)
115  {
116  maxlen+=l[j];
117  }
118  if (maxlen>colmax)
119  {
120  /* NO, it does not fit, so retry: */
121  /* look up the width of all columns, clear very long entriess */
122  /* put length in l[col_nr] */
123  /* insert names for cleared entries */
124  for(j=MATCOLS(m)-1;j>=0;j--)
125  {
126  for(i=MATROWS(m)-1;i>=0;i--)
127  {
128  k=strlen(s[i*MATCOLS(m)+j]);
129  if (/*strlen(s[i*MATCOLS(m)+j])*/ k > vl)
130  {
131  omFree((ADDRESS)s[i*MATCOLS(m)+j]);
132  ss=(char *)omAlloc(14+strlen(name));
133  s[i*MATCOLS(m)+j]=ss;
134  ss[0]='\0';
135  sprintf(ss,"%s[%d,%d]",name,i+1,j+1);
136  if ((i!=MATROWS(m)-1) || (j!=MATCOLS(m)-1))
137  {
138  strcat(ss,",");
139  }
140  l[j]=strlen(s[i*MATCOLS(m)+j]);
141  if (l[j]>vl)
142  {
143 //#ifdef TEST
144 // PrintS("pagewidth too small in print(matrix)\n");
145 //#endif
146  vl=l[j]; /* make large names fit*/
147  }
148  i=MATROWS(m);
149  }
150  else
151  {
152  if (k>l[j]) l[j]=k;
153  }
154  }
155  }
156  }
157  /*output of the matrix*/
158  for(i=0;i<MATROWS(m);i++)
159  {
160  k=l[0];
161  Print("%-*.*s",l[0],l[0],s[i*MATCOLS(m)]);
162  omFree(s[i*MATCOLS(m)]);
163  for(j=1;j<MATCOLS(m);j++)
164  {
165  if (k+l[j]>colmax)
166  {
167  PrintS("\n ");
168  k=2;
169  }
170  k+=l[j];
171  Print("%-*.*s",l[j],l[j],s[i*MATCOLS(m)+j]);
172  omFree(s[i*MATCOLS(m)+j]);
173  }
174  PrintLn();
175  }
176  /* clean up */
177  omFreeSize((ADDRESS)s,MATCOLS(m)*MATROWS(m)*sizeof(char*));
178  omFreeSize((ADDRESS)l,MATCOLS(m)*sizeof(int));
179  }
180  else Print("%d x %d zero matrix\n",MATROWS(m),MATCOLS(m));
181 }
const CanonicalForm int s
Definition: facAbsFact.cc:55
char * pString(poly p)
Definition: polys.h:289
void PrintLn()
Definition: reporter.cc:310
#define Print
Definition: emacs.cc:83
#define omFreeSize(addr, size)
Definition: omAllocDecl.h:260
void * ADDRESS
Definition: auxiliary.h:118
int k
Definition: cfEzgcd.cc:93
char * StringEndS()
Definition: reporter.cc:151
#define omAlloc(size)
Definition: omAllocDecl.h:210
poly * m
Definition: matpol.h:19
int j
Definition: myNF.cc:70
#define omFree(addr)
Definition: omAllocDecl.h:261
void StringSetS(const char *st)
Definition: reporter.cc:128
void StringAppendS(const char *st)
Definition: reporter.cc:107
static int si_max(const int a, const int b)
Definition: auxiliary.h:123
int i
Definition: cfEzgcd.cc:123
void PrintS(const char *s)
Definition: reporter.cc:284
char name(const Variable &v)
Definition: factory.h:178
void pString0(poly p)
Definition: polys.h:290
#define MATCOLS(i)
Definition: matpol.h:28
#define NULL
Definition: omList.c:10
#define MATROWS(i)
Definition: matpol.h:27
int colmax
Definition: febase.cc:43
#define omAlloc0(size)
Definition: omAllocDecl.h:211
int l
Definition: cfEzgcd.cc:94

§ ipPrint_RING()

static BOOLEAN ipPrint_RING ( leftv  u)
static

Definition at line 196 of file ipprint.cc.

197 {
198  ring r=(ring)u->Data();
199  PrintS("polynomial ring, over a ");
200  if (rField_is_Ring(r))
201  {
202  if (rField_is_Domain(r)) PrintS("domain");
203  else PrintS("ring (with zero-divisors)");
204  }
205  else PrintS("field");
206  if (r->OrdSgn==1) PrintS(", global"); else PrintS(", local/mixed");
207  PrintS(" ordering\n");
208  rWrite(r, TRUE);
209  return FALSE;
210 }
#define FALSE
Definition: auxiliary.h:97
#define TRUE
Definition: auxiliary.h:101
static BOOLEAN rField_is_Domain(const ring r)
Definition: ring.h:480
const ring r
Definition: syzextra.cc:208
void PrintS(const char *s)
Definition: reporter.cc:284
void rWrite(ring r, BOOLEAN details)
Definition: ring.cc:236
static BOOLEAN rField_is_Ring(const ring r)
Definition: ring.h:477
void * Data()
Definition: subexpr.cc:1121

§ ipPrint_V()

static BOOLEAN ipPrint_V ( leftv  u)
static

Definition at line 229 of file ipprint.cc.

230 {
231  polyset m=NULL;
232  int l,j;
233  /*convert into an array of the components*/
234  p_Vec2Polys((poly)u->Data(), &m, &l, currRing);
235  /*output*/
236  PrintS("[");
237  j=0;
238  loop
239  {
240  PrintS(pString(m[j]));
241  j++;
242  if (j<l) PrintS(",");
243  else
244  {
245  PrintS("]\n");
246  break;
247  }
248  }
249  /* clean up */
250  for(j=l-1;j>=0;j--) pDelete(&m[j]);
251  omFreeSize((ADDRESS)m,l*sizeof(poly));
252  return FALSE;
253 }
char * pString(poly p)
Definition: polys.h:289
loop
Definition: myNF.cc:98
#define FALSE
Definition: auxiliary.h:97
#define omFreeSize(addr, size)
Definition: omAllocDecl.h:260
void * ADDRESS
Definition: auxiliary.h:118
ring currRing
Widely used global variable which specifies the current polynomial ring for Singular interpreter and ...
Definition: polys.cc:10
int j
Definition: myNF.cc:70
void p_Vec2Polys(poly v, poly **p, int *len, const ring r)
Definition: p_polys.cc:3475
int m
Definition: cfEzgcd.cc:119
void PrintS(const char *s)
Definition: reporter.cc:284
#define NULL
Definition: omList.c:10
poly * polyset
Definition: hutil.h:15
#define pDelete(p_ptr)
Definition: polys.h:169
void * Data()
Definition: subexpr.cc:1121
polyrec * poly
Definition: hilb.h:10
int l
Definition: cfEzgcd.cc:94

§ ipPrintBetti()

static void ipPrintBetti ( leftv  u)
static

Definition at line 350 of file ipprint.cc.

351 {
352  int i,j;
353  int row_shift=(int)((long)(atGet(u,"rowShift",INT_CMD)));
354  intvec * betti=(intvec *)u->Data();
355  // head line --------------------------------------------------------
356  PrintS(" "); // 6 spaces for no. and :
357  for(j=0;j<betti->cols();j++) Print(" %5d",j); // 6 spaces pro column
358  PrintS("\n------"); // 6 spaces for no. and :
359  for(j=0;j<betti->cols();j++) PrintS("------"); // 6 spaces pro column
360  PrintLn();
361  // the table --------------------------------------------------------
362  for(i=0;i<betti->rows();i++)
363  {
364  Print("%5d:",i+row_shift);
365  for(j=1;j<=betti->cols();j++)
366  {
367  int m=IMATELEM(*betti,i+1,j);
368  if (m==0)
369  PrintS(" -");
370  else
371  Print(" %5d",m);
372  }
373  PrintLn();
374  }
375  // sum --------------------------------------------------------------
376  PrintS("------"); // 6 spaces for no. and :
377  for(j=0;j<betti->cols();j++) PrintS("------"); // 6 spaces pro column
378  PrintS("\ntotal:");
379  for(j=0;j<betti->cols();j++)
380  {
381  int s=0;
382  for(i=0;i<betti->rows();i++)
383  {
384  s+=IMATELEM(*betti,i+1,j+1);
385  }
386  Print(" %5d",s); // 6 spaces pro column
387  }
388  PrintLn();
389 }
const CanonicalForm int s
Definition: facAbsFact.cc:55
void PrintLn()
Definition: reporter.cc:310
#define Print
Definition: emacs.cc:83
Definition: tok.h:94
int rows() const
Definition: intvec.h:88
Definition: intvec.h:14
int j
Definition: myNF.cc:70
int m
Definition: cfEzgcd.cc:119
int i
Definition: cfEzgcd.cc:123
void PrintS(const char *s)
Definition: reporter.cc:284
void * atGet(idhdl root, const char *name, int t, void *defaultReturnValue)
Definition: attrib.cc:135
int cols() const
Definition: intvec.h:87
void * Data()
Definition: subexpr.cc:1121
#define IMATELEM(M, I, J)
Definition: intvec.h:77

§ jjDBPRINT()

BOOLEAN jjDBPRINT ( leftv  res,
leftv  u 
)

Definition at line 322 of file ipprint.cc.

323 {
324  BOOLEAN print=(printlevel>myynest);
325  if ((u->next!=NULL)&&(u->Typ()==INT_CMD))
326  {
327  print= (((int)((long)(u->Data()))) > 0);
328  u=u->next;
329  }
330  if (print)
331  {
332  // BOOLEAN r=FALSE;
333  leftv h=u;
334  leftv hh;
335  while (h!=NULL)
336  {
337  hh=h->next;
338  h->next=NULL;
339  if (jjPRINT(res, h)) return TRUE;
340  PrintS((char*)res->data);
341  omFree(res->data);
342  PrintLn();
343  h->next=hh;
344  h=hh;
345  }
346  }
347  return FALSE;
348 }
Class used for (list of) interpreter objects.
Definition: subexpr.h:84
void PrintLn()
Definition: reporter.cc:310
Definition: tok.h:94
#define FALSE
Definition: auxiliary.h:97
#define TRUE
Definition: auxiliary.h:101
int Typ()
Definition: subexpr.cc:979
void * data
Definition: subexpr.h:90
int myynest
Definition: febase.cc:46
BOOLEAN jjPRINT(leftv res, leftv u)
Definition: ipprint.cc:255
#define omFree(addr)
Definition: omAllocDecl.h:261
void PrintS(const char *s)
Definition: reporter.cc:284
leftv next
Definition: subexpr.h:88
#define NULL
Definition: omList.c:10
void * Data()
Definition: subexpr.cc:1121
int printlevel
Definition: febase.cc:42
static Poly * h
Definition: janet.cc:978
int BOOLEAN
Definition: auxiliary.h:88

§ jjPRINT()

BOOLEAN jjPRINT ( leftv  res,
leftv  u 
)

Definition at line 255 of file ipprint.cc.

256 {
257  SPrintStart();
258  BOOLEAN bo=FALSE;
259  switch(u->Typ())
260  {
261  case INTVEC_CMD:
262  bo=ipPrint_INTVEC(u);
263  break;
264 
265  case INTMAT_CMD:
266  bo=ipPrint_INTMAT(u);
267  break;
268 
269  case MATRIX_CMD:
270  bo=ipPrint_MA(u);
271  break;
272 
273  case IDEAL_CMD:
274  {
275  char* s = u->String(NULL, FALSE, 2);
276  PrintS(s);
277  PrintLn();
278  omFree(s);
279  break;
280  }
281 
282  case MODUL_CMD:
283  {
285  ipPrint_MA0(m, u->Name());
286  id_Delete((ideal *) &m,currRing);
287  break;
288  }
289 
290  case VECTOR_CMD:
291  bo=ipPrint_V(u);
292  break;
293 
294  case RING_CMD:
295  bo=ipPrint_RING(u);
296  break;
297 
298  #ifdef SINGULAR_4_1
299  case CRING_CMD:
300  bo=ipPrint_CRING(u);
301  break;
302  #endif
303 
304  default:
305  u->Print();
306  break;
307  }
308  char *s=SPrintEnd();
309  if (u->next==NULL)
310  {
311  int l=strlen(s);
312  if (s[l-1]=='\n') s[l-1]='\0';
313  }
314  res->data=(void*)s;
315  return bo;
316 }
const CanonicalForm int s
Definition: facAbsFact.cc:55
void PrintLn()
Definition: reporter.cc:310
#define FALSE
Definition: auxiliary.h:97
ideal id_Copy(ideal h1, const ring r)
copy an ideal
static BOOLEAN ipPrint_MA(leftv u)
Definition: ipprint.cc:186
void id_Delete(ideal *h, ring r)
deletes an ideal/module/matrix
static BOOLEAN ipPrint_RING(leftv u)
Definition: ipprint.cc:196
static void ipPrint_MA0(matrix m, const char *name)
Definition: ipprint.cc:60
int Typ()
Definition: subexpr.cc:979
const char * Name()
Definition: subexpr.h:122
void Print(leftv store=NULL, int spaces=0)
Called by type_cmd (e.g. "r;") or as default in jPRINT.
Definition: subexpr.cc:73
char * String(void *d=NULL, BOOLEAN typed=FALSE, int dim=1)
Called for conversion to string (used by string(..), write(..),..)
Definition: subexpr.cc:723
void * data
Definition: subexpr.h:90
ring currRing
Widely used global variable which specifies the current polynomial ring for Singular interpreter and ...
Definition: polys.cc:10
Definition: tok.h:55
static BOOLEAN ipPrint_V(leftv u)
Definition: ipprint.cc:229
#define omFree(addr)
Definition: omAllocDecl.h:261
static BOOLEAN ipPrint_INTMAT(leftv u)
Definition: ipprint.cc:42
int m
Definition: cfEzgcd.cc:119
void PrintS(const char *s)
Definition: reporter.cc:284
matrix id_Module2Matrix(ideal mod, const ring R)
Definition: tok.h:99
static BOOLEAN ipPrint_CRING(leftv u)
Definition: ipprint.cc:213
char * SPrintEnd()
Definition: reporter.cc:273
leftv next
Definition: subexpr.h:88
#define NULL
Definition: omList.c:10
static BOOLEAN ipPrint_INTVEC(leftv u)
Definition: ipprint.cc:31
void * Data()
Definition: subexpr.cc:1121
void SPrintStart()
Definition: reporter.cc:246
int BOOLEAN
Definition: auxiliary.h:88
int l
Definition: cfEzgcd.cc:94

§ jjPRINT_FORMAT()

BOOLEAN jjPRINT_FORMAT ( leftv  res,
leftv  u,
leftv  v 
)

Definition at line 395 of file ipprint.cc.

396 {
397 /* ==================== betti ======================================== */
398  if ((u->Typ()==INTMAT_CMD)&&(strcmp((char *)v->Data(),"betti")==0))
399  {
400  SPrintStart();
401  ipPrintBetti(u);
402  char *s = SPrintEnd();
403  s[strlen(s)]='\0';
404  res->data=s;
405  }
406  else
407 /* ======================== end betti ================================= */
408  {
409  char* ns = omStrDup((char*) v->Data());
410  int dim = 1;
411  if (strlen(ns) == 3 && ns[1] == '2')
412  {
413  dim = 2;
414  ns[1] = ns[2];
415  ns[2] = '\0';
416  }
417  if (strcmp(ns,"%l") == 0)
418  {
419  res->data = (char*) u->String(NULL, TRUE, dim);
420  if (dim == 2)
421  {
422  char* ns = (char*) omAlloc(strlen((char*) res->data) + 2);
423  strcpy(ns, (char*) res->data);
424  omFree(res->data);
425  strcat(ns, "\n");
426  res->data = ns;
427  }
428  }
429  else if (strcmp(ns,"%t") == 0)
430  {
431  SPrintStart();
432  type_cmd(u);
433  res->data = SPrintEnd();
434  if (dim != 2)
435  ((char*)res->data)[strlen((char*)res->data) -1] = '\0';
436  }
437  else if (strcmp(ns,"%;") == 0)
438  {
439  SPrintStart();
440  u->Print();
441  if (dim == 2) PrintLn();
442  res->data = SPrintEnd();
443  }
444  else if (strcmp(ns,"%p") == 0)
445  {
446  iiExprArith1(res, u, PRINT_CMD);
447  }
448  else if (strcmp(ns,"%b") == 0 && (u->Typ()==INTMAT_CMD))
449  {
450  SPrintStart();
451  ipPrintBetti(u);
452  if (dim == 2) PrintLn();
453  res->data = SPrintEnd();
454  }
455  else
456  {
457  res->data = u->String(NULL, FALSE, dim);
458  if (dim == 2)
459  {
460  char* ns = (char*) omAlloc(strlen((char*) res->data) + 2);
461  strcpy(ns, (char*) res->data);
462  omFree(res->data);
463  strcat(ns, "\n");
464  res->data = ns;
465  }
466  }
467  omFree(ns);
468  }
469  return FALSE;
470 }
Definition: tok.h:152
const CanonicalForm int s
Definition: facAbsFact.cc:55
void PrintLn()
Definition: reporter.cc:310
BOOLEAN iiExprArith1(leftv res, leftv a, int op)
Definition: iparith.cc:8422
#define FALSE
Definition: auxiliary.h:97
#define TRUE
Definition: auxiliary.h:101
void type_cmd(leftv v)
Definition: ipshell.cc:244
int Typ()
Definition: subexpr.cc:979
#define omAlloc(size)
Definition: omAllocDecl.h:210
void Print(leftv store=NULL, int spaces=0)
Called by type_cmd (e.g. "r;") or as default in jPRINT.
Definition: subexpr.cc:73
char * String(void *d=NULL, BOOLEAN typed=FALSE, int dim=1)
Called for conversion to string (used by string(..), write(..),..)
Definition: subexpr.cc:723
void * data
Definition: subexpr.h:90
#define omFree(addr)
Definition: omAllocDecl.h:261
int dim(ideal I, ring r)
char * SPrintEnd()
Definition: reporter.cc:273
#define NULL
Definition: omList.c:10
static void ipPrintBetti(leftv u)
Definition: ipprint.cc:350
void * Data()
Definition: subexpr.cc:1121
void SPrintStart()
Definition: reporter.cc:246
#define omStrDup(s)
Definition: omAllocDecl.h:263