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Diff for /OpenXM_contrib2/asir2000/include/ca.h between version 1.92 and 1.102

version 1.92, 2015/08/06 10:39:13 version 1.102, 2017/08/31 02:36:21
Line 45 
Line 45 
  * DEVELOPER SHALL HAVE NO LIABILITY IN CONNECTION WITH THE USE,   * DEVELOPER SHALL HAVE NO LIABILITY IN CONNECTION WITH THE USE,
  * PERFORMANCE OR NON-PERFORMANCE OF THE SOFTWARE.   * PERFORMANCE OR NON-PERFORMANCE OF THE SOFTWARE.
  *   *
  * $OpenXM: OpenXM_contrib2/asir2000/include/ca.h,v 1.91 2015/08/06 10:01:52 fujimoto Exp $   * $OpenXM: OpenXM_contrib2/asir2000/include/ca.h,v 1.101 2017/08/30 09:40:30 ohara Exp $
 */  */
 #include <stdio.h>  #include <stdio.h>
 #include <stdlib.h>  #include <stdlib.h>
 #include <gmp.h>  #include <gmp.h>
 #include <mpfr.h>  #include <mpc.h>
   #include <limits.h>
   
 /* from mpfr-impl.h */  /* from mpfr-impl.h */
 #define MPFR_PREC(x)      ((x)->_mpfr_prec)  #define MPFR_PREC(x)      ((x)->_mpfr_prec)
Line 59 
Line 60 
 #define MPFR_LAST_LIMB(x) ((MPFR_PREC (x) - 1) / GMP_NUMB_BITS)  #define MPFR_LAST_LIMB(x) ((MPFR_PREC (x) - 1) / GMP_NUMB_BITS)
 #define MPFR_LIMB_SIZE(x) (MPFR_LAST_LIMB (x) + 1)  #define MPFR_LIMB_SIZE(x) (MPFR_LAST_LIMB (x) + 1)
   
   #define RAT_CEIL(nm,dn) (((nm)+(dn)-1)/((dn)))
   #define MPFR_LIMB_SIZE_REAL(x) (RAT_CEIL(MPFR_PREC((x)),sizeof(mp_limb_t)*CHAR_BIT) * (sizeof(mp_limb_t)/sizeof(int)) )
   #define MPFR_LIMB_SIZE_BODY(x) (RAT_CEIL(MPFR_PREC((x)),sizeof(unsigned int)*CHAR_BIT))
   
 #if defined(hpux)  #if defined(hpux)
 #include <netinet/in.h>  #include <netinet/in.h>
 # define setbuffer(FP,buf,siz) setvbuf(FP,buf,_IOFBF,siz)  # define setbuffer(FP,buf,siz) setvbuf(FP,buf,_IOFBF,siz)
 #endif  #endif
   
 #if !defined(VISUAL) && !defined(__MINGW32__) && !defined(__MINGW64__)  #if !defined(VISUAL) && !defined(__MINGW32__)
 #include <unistd.h>  #include <unistd.h>
 #include <sys/param.h>  #include <sys/param.h>
 #endif  #endif
Line 77 
Line 82 
 #define alloca(x) __builtin_alloca(x)  #define alloca(x) __builtin_alloca(x)
 #endif  #endif
   
 #if defined(VISUAL) || defined(__MINGW32__) || defined(__MINGW64__)  #if defined(VISUAL) || defined(__MINGW32__)
 #include <limits.h>  #include <limits.h>
 #include <malloc.h>  #include <malloc.h>
 #endif  #endif
Line 94  typedef void * pointer;
Line 99  typedef void * pointer;
 #include <strings.h>  #include <strings.h>
 #else  #else
 #include <string.h>  #include <string.h>
 #if defined(VISUAL) || defined(__MINGW32__) || defined(__MINGW64__)  #if defined(VISUAL) || defined(__MINGW32__)
 #define index(s,c) strchr(s,c)  #define index(s,c) strchr(s,c)
 #define bzero(s,len) memset(s,0,len)  #define bzero(s,len) memset(s,0,len)
 #define bcopy(x,y,len) memcpy(y,x,len)  #define bcopy(x,y,len) memcpy(y,x,len)
Line 141  typedef void * pointer;
Line 146  typedef void * pointer;
 #define O_IMAT 24  #define O_IMAT 24
 /* IMAT */  /* IMAT */
 #define O_NBP 25  #define O_NBP 25
   #define O_DPM 26
   
 #define N_Q 0  #define N_Q 0
 #define N_R 1  #define N_R 1
Line 419  typedef struct oDPV {
Line 425  typedef struct oDPV {
         struct oDP **body;          struct oDP **body;
 } *DPV;  } *DPV;
   
   
 typedef struct oUSINT {  typedef struct oUSINT {
         short id;          short id;
         short pad;          short pad;
Line 520  typedef struct oDCP {
Line 527  typedef struct oDCP {
   
 typedef struct oMP {  typedef struct oMP {
         struct oDL *dl;          struct oDL *dl;
         P c;          Obj c;
         struct oMP *next;          struct oMP *next;
 } *MP;  } *MP;
   
   typedef struct oDPM {
           short id;
           short nv;
           int sugar;
           struct oDMM *body;
   } *DPM;
   
   typedef struct oDMM {
     int pos;
           struct oDL *dl;
           Obj c;
           struct oDMM *next;
   } *DMM;
   
 typedef struct oDL {  typedef struct oDL {
         int td;          int td;
         int d[1];          int d[1];
Line 663  struct order_spec {
Line 684  struct order_spec {
         int nv;          int nv;
         int ispot; /* 1 means Position over Term (Pos then Term) */          int ispot; /* 1 means Position over Term (Pos then Term) */
         int pot_nelim; /* size of positions for pot-elimination order */          int pot_nelim; /* size of positions for pot-elimination order */
     int *top_weight;
     int module_rank;
     int *module_top_weight;
         union {          union {
                 int simple;                  int simple;
                 struct {                  struct {
Line 772  typedef unsigned int ModNum;
Line 796  typedef unsigned int ModNum;
 #define GCFREE(p) Risa_GC_free(p)  #define GCFREE(p) Risa_GC_free(p)
 #define CALLOC(d,e) MALLOC((d)*(e))  #define CALLOC(d,e) MALLOC((d)*(e))
   
 #if !defined(__CYGWIN__) && (defined(__GNUC__) || defined(vax) || defined(apollo) || defined(alloca) || defined(VISUAL) || defined(__MINGW32__) || defined(__MINGW64__))  #if 0
   #if !defined(__CYGWIN__) && (defined(__GNUC__) || defined(vax) || defined(apollo) || defined(alloca) || defined(VISUAL) || defined(__MINGW32__))
 #define ALLOCA(d) alloca(d)  #define ALLOCA(d) alloca(d)
 #else  #else
 #define ALLOCA(d) MALLOC(d)  #define ALLOCA(d) MALLOC(d)
 #endif  #endif
   #endif
   
   #define ALLOCA(d) MALLOC(d)
   
   /* for handling signals */
   #if defined(HAVE_SIGACTION)  /* POSIX */
   void (*set_signal(int sig, void (*handler)(int)))(int);
   #define set_signal_for_restart(x,y) (0)
   #else
   #define set_signal(x,y)             (signal(x,y))
   #define set_signal_for_restart(x,y) (signal(x,y))
   #endif
   
 /* for setjmp/longjmp compatibility */  /* for setjmp/longjmp compatibility */
 #if defined(__CYGWIN__) || (defined(__x86_64) && !defined(__MINGW64__))  #if defined(__CYGWIN__) || defined(HAVE_SIGACTION) || (defined(__x86_64) && !defined(__MINGW32__))
 #define JMP_BUF sigjmp_buf  #define JMP_BUF sigjmp_buf
 #define SETJMP(x) sigsetjmp(x,~0)  #define SETJMP(x) sigsetjmp(x,~0)
 #define LONGJMP(x,y) siglongjmp(x,y)  #define LONGJMP(x,y) siglongjmp(x,y)
Line 855  bzero((char *)(q)->b,(w)*sizeof(unsigned int)))
Line 892  bzero((char *)(q)->b,(w)*sizeof(unsigned int)))
 #define NEWCOMP(c,n) ((c)=(COMP)MALLOC(sizeof(struct oCOMP)+((n)-1)*sizeof(Obj)),OID(c)=O_COMP)  #define NEWCOMP(c,n) ((c)=(COMP)MALLOC(sizeof(struct oCOMP)+((n)-1)*sizeof(Obj)),OID(c)=O_COMP)
 #define NEWDP(d) ((d)=(DP)MALLOC(sizeof(struct oDP)),OID(d)=O_DP)  #define NEWDP(d) ((d)=(DP)MALLOC(sizeof(struct oDP)),OID(d)=O_DP)
 #define NEWDPV(d) ((d)=(DPV)MALLOC(sizeof(struct oDPV)),OID(d)=O_DPV)  #define NEWDPV(d) ((d)=(DPV)MALLOC(sizeof(struct oDPV)),OID(d)=O_DPV)
   #define NEWDPM(d) ((d)=(DPM)MALLOC(sizeof(struct oDPM)),OID(d)=O_DPM)
 #define NEWUSINT(u) ((u)=(USINT)MALLOC_ATOMIC(sizeof(struct oUSINT)),OID(u)=O_USINT)  #define NEWUSINT(u) ((u)=(USINT)MALLOC_ATOMIC(sizeof(struct oUSINT)),OID(u)=O_USINT)
 #define NEWERR(e) ((e)=(ERR)MALLOC(sizeof(struct oERR)),OID(e)=O_ERR)  #define NEWERR(e) ((e)=(ERR)MALLOC(sizeof(struct oERR)),OID(e)=O_ERR)
 #define NEWMATHCAP(e) ((e)=(MATHCAP)MALLOC(sizeof(struct oMATHCAP)),OID(e)=O_MATHCAP)  #define NEWMATHCAP(e) ((e)=(MATHCAP)MALLOC(sizeof(struct oMATHCAP)),OID(e)=O_MATHCAP)
Line 871  bzero((char *)(q)->b,(w)*sizeof(unsigned int)))
Line 909  bzero((char *)(q)->b,(w)*sizeof(unsigned int)))
 #define NEWV(v) ((v)=(V)MALLOC(sizeof(struct oV)))  #define NEWV(v) ((v)=(V)MALLOC(sizeof(struct oV)))
 #define NEWVL(vl) ((vl)=(VL)MALLOC(sizeof(struct oVL)))  #define NEWVL(vl) ((vl)=(VL)MALLOC(sizeof(struct oVL)))
 #define NEWMP(m) ((m)=(MP)MALLOC(sizeof(struct oMP)))  #define NEWMP(m) ((m)=(MP)MALLOC(sizeof(struct oMP)))
   #define NEWDMM(m) ((m)=(DMM)MALLOC(sizeof(struct oDMM)))
 #define NEWDLBUCKET(a) ((a)=(DLBUCKET)MALLOC(sizeof(struct oDLBUCKET)))  #define NEWDLBUCKET(a) ((a)=(DLBUCKET)MALLOC(sizeof(struct oDLBUCKET)))
 #define NEWDPP(a) ((a)=(DP_pairs)MALLOC(sizeof(struct dp_pairs)))  #define NEWDPP(a) ((a)=(DP_pairs)MALLOC(sizeof(struct dp_pairs)))
   
Line 917  DEG(DC(p))=ONE,COEF(DC(p))=(P)ONEM,NEXT(DC(p))=0)
Line 956  DEG(DC(p))=ONE,COEF(DC(p))=(P)ONEM,NEXT(DC(p))=0)
 #define MKSTR(a,b) (NEWSTR(a),(a)->body=(char *)(b))  #define MKSTR(a,b) (NEWSTR(a),(a)->body=(char *)(b))
 #define MKDP(n,m,d) (NEWDP(d),(d)->nv=(n),BDY(d)=(m))  #define MKDP(n,m,d) (NEWDP(d),(d)->nv=(n),BDY(d)=(m))
 #define MKDPV(len,m,d) (NEWDPV(d),(d)->len=(len),BDY(d)=(m))  #define MKDPV(len,m,d) (NEWDPV(d),(d)->len=(len),BDY(d)=(m))
   #define MKDPM(n,m,d) (NEWDPM(d),(d)->nv=(n),BDY(d)=(m))
 #define MKLM(b,l) (!(b)?(l)=0:(NEWLM(l),(l)->body=(b),(l)))  #define MKLM(b,l) (!(b)?(l)=0:(NEWLM(l),(l)->body=(b),(l)))
 #define MKGF2N(b,l) (!(b)?(l)=0:(NEWGF2N(l),(l)->body=(b),(l)))  #define MKGF2N(b,l) (!(b)?(l)=0:(NEWGF2N(l),(l)->body=(b),(l)))
 #define MKGFPN(b,l) (!(b)?(l)=0:(NEWGFPN(l),(l)->body=(b),(l)))  #define MKGFPN(b,l) (!(b)?(l)=0:(NEWGFPN(l),(l)->body=(b),(l)))
Line 942  if(!(r)){NEWDLBUCKET(r);(c)=(r);}else{NEWDLBUCKET(NEXT
Line 982  if(!(r)){NEWDLBUCKET(r);(c)=(r);}else{NEWDLBUCKET(NEXT
 if(!(r)){NEWVL(r);(c)=(r);}else{NEWVL(NEXT(c));(c)=NEXT(c);}  if(!(r)){NEWVL(r);(c)=(r);}else{NEWVL(NEXT(c));(c)=NEXT(c);}
 #define NEXTDPP(r,c) \  #define NEXTDPP(r,c) \
 if(!(r)){NEWDPP(r);(c)=(r);}else{NEWDPP(NEXT(c));(c)=NEXT(c);}  if(!(r)){NEWDPP(r);(c)=(r);}else{NEWDPP(NEXT(c));(c)=NEXT(c);}
   #define NEXTDMM(r,c) \
   if(!(r)){NEWDMM(r);(c)=(r);}else{NEWDMM(NEXT(c));(c)=NEXT(c);}
   
 /* convertors */  /* convertors */
 #define NTOQ(n,s,q) \  #define NTOQ(n,s,q) \
Line 1000  PL(NM(q))=1,BD(NM(q))[0]=(unsigned int)(n),DN(q)=0,(q)
Line 1042  PL(NM(q))=1,BD(NM(q))[0]=(unsigned int)(n),DN(q)=0,(q)
 #define UNIMQ(q) ((q)&&NUM(q)&&SFF(q)&&(CONT((MQ)q)==1))  #define UNIMQ(q) ((q)&&NUM(q)&&SFF(q)&&(CONT((MQ)q)==1))
 #define MUNIQ(q) ((q)&&NUM(q)&&RATN(q)&&(SGN((Q)q)==-1)&&UNIN(NM((Q)q))&&(!DN((Q)q)))  #define MUNIQ(q) ((q)&&NUM(q)&&RATN(q)&&(SGN((Q)q)==-1)&&UNIN(NM((Q)q))&&(!DN((Q)q)))
 #define MUNIMQ(q) ((q)&&NUM(q)&&SFF(q)&&(CONT((MQ)q)==-1))  #define MUNIMQ(q) ((q)&&NUM(q)&&SFF(q)&&(CONT((MQ)q)==-1))
   #define UNILM(n) ((n)&&UNIN(BDY(n)))
 #define UNIN(n) ((n)&&(PL(n)==1)&&(BD(n)[0]==1))  #define UNIN(n) ((n)&&(PL(n)==1)&&(BD(n)[0]==1))
 #define EVENN(n) ((!(n))||(!(BD(n)[0]%2)))  #define EVENN(n) ((!(n))||(!(BD(n)[0]%2)))
   
Line 1021  PL(NM(q))=1,BD(NM(q))[0]=(unsigned int)(n),DN(q)=0,(q)
Line 1064  PL(NM(q))=1,BD(NM(q))[0]=(unsigned int)(n),DN(q)=0,(q)
 #define FTOIF(i) ((int)(((unsigned int)(i)|0x80000000)))  #define FTOIF(i) ((int)(((unsigned int)(i)|0x80000000)))
   
 struct cdl {  struct cdl {
         P c;          Obj c;
         DL d;          DL d;
 };  };
   
Line 1129  void hybrid_mulup(int,UP,UP,UP *);
Line 1172  void hybrid_mulup(int,UP,UP,UP *);
   
 void getmod_lm(N *);  void getmod_lm(N *);
   
 int maxblenup(UP);  
 void monicup(UP,UP *);  
 void simpup(UP,UP *);  
 void simpnum(Num,Num *);  
 void decompp(P,Q,P *,P *);  
 void truncp(P,Q,P *);  
 void uremp(P,P,P *);  
 void ugcdp(P,P,P *);  
 void reversep(P,Q,P *);  
 void invmodp(P,Q,P *);  
 void addup(UP,UP,UP *);  
 void subup(UP,UP,UP *);  
 void chsgnup(UP,UP *);  
 void mulup(UP,UP,UP *);  
 void tmulup(UP,UP,int,UP *);  
 void squareup(UP,UP *);  
 void remup(UP,UP,UP *);  
 void remup_destructive(UP,UP);  
 void qrup(UP,UP,UP *,UP *);  
 void qrup_destructive(UP,UP);  
 void gcdup(UP,UP,UP *);  
 void reverseup(UP,int,UP *);  
 void invmodup(UP,int,UP *);  
 void pwrup(UP,Q,UP *);  
 void squarep_gf2n(VL,P,P *);  
 void kmulp(VL,P,P,P *);  
 void ksquarep(VL,P,P *);  
 void kmulup(UP,UP,UP *);  
 void ksquareup(UP,UP *);  
 void extractup(UP,int,int,UP *);  
 void copyup(UP,UP);  
 void c_copyup(UP,int,pointer *);  
 void kmulupmain(UP,UP,UP *);  
 void ksquareupmain(UP,UP *);  
 void rembymulup(UP,UP,UP *);  
 void rembymulup_special(UP,UP,UP,UP *);  
 void tkmulup(UP,UP,int,UP *);  
 void shiftup(UP,int,UP *);  
 void set_degreeup(UP,int);  
 void decompup(UP,int,UP *,UP *);  
 void truncup(UP,int,UP *);  
 void uptofmarray(int,UP,ModNum *);  
 void fmarraytoup(ModNum *,int,UP *);  
 void uiarraytoup(unsigned int **,int,int,UP *);  
 void adj_coefup(UP,N,N,UP *);  
 void uptolmup(UP,UP *);  
 void remcup(UP,N,UP *);  
 void fft_mulup(UP,UP,UP *);  
 void fft_squareup(UP,UP *);  
 void trunc_fft_mulup(UP,UP,int,UP *);  
 void shoup_fft_mulup(UP,UP,UP *);  
 void shoup_fft_squareup(UP,UP *);  
 void shoup_trunc_fft_mulup(UP,UP,int,UP *);  
 void crup(ModNum **,int,int *,int,N,UP *);  
 void shoup_crup(ModNum **,int,int *,int,N,N,UP *);  
 void squareup_gf2n(UP,UP *);  
 void powermodup_gf2n(UP,UP *);  
 void generic_powermodup_gf2n(UP,UP,Q,UP *);  
 void tracemodup_gf2n(UP,UP,Q,UP *);  
 void tracemodup_gf2n_slow(UP,UP,Q,UP *);  
 void tracemodup_gf2n_tab(UP,UP,Q,UP *);  
 void square_rem_tab_up_gf2n(UP,UP *,UP *);  
 void powertabup_gf2n(UP,UP,UP *);  
 void find_root_gf2n(UP,GF2N *);  
   
 int cmpdl_composite(int,DL,DL);  int cmpdl_composite(int,DL,DL);
 int cmpdl_matrix(int,DL,DL);  int cmpdl_matrix(int,DL,DL);
 int cmpdl_order_pair(int,DL,DL);  int cmpdl_order_pair(int,DL,DL);
Line 1208  int cmpdl_revgradlex(int,DL,DL);
Line 1186  int cmpdl_revgradlex(int,DL,DL);
 int cmpdl_gradlex(int,DL,DL);  int cmpdl_gradlex(int,DL,DL);
 int cmpdl_revlex(int,DL,DL);  int cmpdl_revlex(int,DL,DL);
 int cmpdl_lex(int,DL,DL);  int cmpdl_lex(int,DL,DL);
 int compd(VL,DP,DP);  
 void adddl(int,DL,DL,DL *);  
 void divsdc(VL,DP,P,DP *);  
 void muldc(VL,DP,P,DP *);  
 void muldm(VL,DP,MP,DP *);  
 void muld(VL,DP,DP,DP *);  
 void chsgnd(DP,DP *);  
 void subd(VL,DP,DP,DP *);  
 void addd(VL,DP,DP,DP *);  
 int sugard(MP);  
 void nodetod(NODE,DP *);  
 void dtop(VL,VL,DP,P *);  
 void ptod(VL,VL,P,DP *);  
 void initd(struct order_spec *);  
   
 void adddv(VL,DPV,DPV,DPV *);  void adddv(VL,DPV,DPV,DPV *);
 void subdv(VL,DPV,DPV,DPV *);  void subdv(VL,DPV,DPV,DPV *);
Line 1229  void muldv(VL,DP,DPV,DPV *);
Line 1193  void muldv(VL,DP,DPV,DPV *);
 void chsgndv(DPV,DPV *);  void chsgndv(DPV,DPV *);
 int compdv(VL,DPV,DPV);  int compdv(VL,DPV,DPV);
   
   void adddpm(VL,DPM,DPM,DPM *);
   void subdpm(VL,DPM,DPM,DPM *);
   void mulobjdpm(VL,Obj,DPM,DPM *);
   void chsgndpm(DPM,DPM *);
   int compdpm(VL,DPM,DPM);
   
 void _printdp(DP);  void _printdp(DP);
 void _dp_sp_mod(DP,DP,int,DP *);  void _dp_sp_mod(DP,DP,int,DP *);
 void _dp_mod(DP,int,NODE,DP *);  void _dp_mod(DP,int,NODE,DP *);
Line 1257  void rtime_init(void);
Line 1227  void rtime_init(void);
 void setmod_gf2n(P);  void setmod_gf2n(P);
 void mt_sgenrand(unsigned long);  void mt_sgenrand(unsigned long);
 unsigned long mt_genrand(void);  unsigned long mt_genrand(void);
 #if defined(VISUAL) || defined(__MINGW32__) || defined(__MINGW64__)  #if defined(VISUAL) || defined(__MINGW32__)
 void srandom(unsigned int);  void srandom(unsigned int);
 unsigned int random(void);  unsigned int random(void);
 #endif  #endif
Line 1813  void pwrreal(Num,Num,Real *);
Line 1783  void pwrreal(Num,Num,Real *);
 void pwrmi(MQ,Q,MQ *);  void pwrmi(MQ,Q,MQ *);
 void pwrlm(LM,Q,LM *);  void pwrlm(LM,Q,LM *);
 void pwrum(int,UM,int,UM);  void pwrum(int,UM,int,UM);
 void reallocarray(char **,int *,int *,int);  void asir_reallocarray(char **,int *,int *,int);
 void reductr(VL,Obj,Obj *);  void reductr(VL,Obj,Obj *);
 void reimtocplx(Num,Num,Num *);  void reimtocplx(Num,Num,Num *);
 void rem2q(Q,Q,Q,Q *);  void rem2q(Q,Q,Q,Q *);
Line 2171  int has_fcoef(DP f);
Line 2141  int has_fcoef(DP f);
 int has_fcoef_p(P f);  int has_fcoef_p(P f);
 void initd(struct order_spec *spec);  void initd(struct order_spec *spec);
 void ptod(VL vl,VL dvl,P p,DP *pr);  void ptod(VL vl,VL dvl,P p,DP *pr);
 void dtop(VL vl,VL dvl,DP p,P *pr);  void dtop(VL vl,VL dvl,DP p,Obj *pr);
 void nodetod(NODE node,DP *dp);  void nodetod(NODE node,DP *dp);
 int sugard(MP m);  int sugard(MP m);
 void addd(VL vl,DP p1,DP p2,DP *pr);  void addd(VL vl,DP p1,DP p2,DP *pr);
Line 2187  void weyl_muld(VL vl,DP p1,DP p2,DP *pr);
Line 2157  void weyl_muld(VL vl,DP p1,DP p2,DP *pr);
 void weyl_muldm(VL vl,MP m0,DP p,DP *pr);  void weyl_muldm(VL vl,MP m0,DP p,DP *pr);
 void weyl_mulmm(VL vl,MP m0,MP m1,int n,struct cdl *rtab,int rtablen);  void weyl_mulmm(VL vl,MP m0,MP m1,int n,struct cdl *rtab,int rtablen);
 void comm_muld_tab(VL vl,int nv,struct cdl *t,int n,struct cdl *t1,int n1,struct cdl *rt);  void comm_muld_tab(VL vl,int nv,struct cdl *t,int n,struct cdl *t1,int n1,struct cdl *rt);
 void muldc(VL vl,DP p,P c,DP *pr);  void muldc(VL vl,DP p,Obj c,DP *pr);
 void divsdc(VL vl,DP p,P c,DP *pr);  void divsdc(VL vl,DP p,P c,DP *pr);
   void divdc(VL vl,DP p,Obj c,DP *pr);
 void adddl(int n,DL d1,DL d2,DL *dr);  void adddl(int n,DL d1,DL d2,DL *dr);
 void adddl_destructive(int n,DL d1,DL d2);  void adddl_destructive(int n,DL d1,DL d2);
 int compd(VL vl,DP p1,DP p2);  int compd(VL vl,DP p1,DP p2);
Line 2668  void mkwcz(int k,int l,Z *t);
Line 2639  void mkwcz(int k,int l,Z *t);
 int remzi(Z n,int m);  int remzi(Z n,int m);
   
   
 #if 0 && !defined(VISUAL) && !defined(__MINGW32__) && !defined(__MINGW64__)  #if 0 && !defined(VISUAL) && !defined(__MINGW32__)
 void bzero(const void *,int);  void bzero(const void *,int);
 void bcopy(const void *,void *,int);  void bcopy(const void *,void *,int);
 char *index(char *,int);  char *index(char *,int);
Line 2849  int poly_is_dependent(P p,V v);
Line 2820  int poly_is_dependent(P p,V v);
 int setsecureflag(char *name,int value);  int setsecureflag(char *name,int value);
 int sfdegtest(int dy,int bound,UM *d1c,int k,int *in);  int sfdegtest(int dy,int bound,UM *d1c,int k,int *in);
 int sgnz(Z n);  int sgnz(Z n);
   
   #if defined(VISUAL) || defined(__MINGW32__)
   void check_intr();
   void enter_signal_cs();
   void leave_signal_cs();
   void leave_signal_cs_all();
   #define LEAVE_SIGNAL_CS_ALL  leave_signal_cs_all()
   #else
   #define LEAVE_SIGNAL_CS_ALL
   #endif

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  Added in v.1.102

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