Go to the source code of this file.
Returns TRUE if.
- LM(p) | LM(lcm)
- LC(p) | LC(lcm) only if ring
- Exists i, j:
- LE(p, i) != LE(lcm, i)
- LE(p1, i) != LE(lcm, i) ==> LCM(p1, p) != lcm
- LE(p, j) != LE(lcm, j)
- LE(p2, j) != LE(lcm, j) ==> LCM(p2, p) != lcm
Definition at line 21 of file kpolys.cc.
27 for (j=(
R->N); j; j--)
30 for (j=(
R->N); j; j--)
36 for (k=(
R->N); k>j; k--)
55 for (k=(
R->N); k>j; k--)
61 for (k=j-1; k!=0 ; k--)
int lcm(unsigned long *l, unsigned long *a, unsigned long *b, unsigned long p, int dega, int degb)
#define pGetComp(p)
Component.
static long p_GetExp(const poly p, const unsigned long iBitmask, const int VarOffset)
get a single variable exponent : the integer VarOffset encodes:
Definition at line 75 of file kpolys.cc.
81 for (j=
R->real_var_end; j>=
R->real_var_start; j--)
84 for (j=
R->real_var_end; j>=
R->real_var_start; j--)
90 for (k=(
R->N); k>j; k--)
91 for (k=
R->real_var_end; k>j; k--)
97 for (k=j-1; k>=
R->real_var_start; k--)
110 for (k=
R->real_var_end; k>j; k--)
116 for (k=j-1; k>=
R->real_var_start; k--)
int lcm(unsigned long *l, unsigned long *a, unsigned long *b, unsigned long p, int dega, int degb)
#define pGetComp(p)
Component.
static long p_GetExp(const poly p, const unsigned long iBitmask, const int VarOffset)
get a single variable exponent : the integer VarOffset encodes: