power::power(ex const & lh, ex const & rh) : basic(TINFO_power), basis(lh), exponent(rh)
{
debugmsg("power constructor from ex,ex",LOGLEVEL_CONSTRUCT);
- ASSERT(basis.return_type()==return_types::commutative);
+ GINAC_ASSERT(basis.return_type()==return_types::commutative);
}
power::power(ex const & lh, numeric const & rh) : basic(TINFO_power), basis(lh), exponent(rh)
{
debugmsg("power constructor from ex,numeric",LOGLEVEL_CONSTRUCT);
- ASSERT(basis.return_type()==return_types::commutative);
+ GINAC_ASSERT(basis.return_type()==return_types::commutative);
}
//////////
ex & power::let_op(int const i)
{
- ASSERT(i>=0);
- ASSERT(i<2);
+ GINAC_ASSERT(i>=0);
+ GINAC_ASSERT(i<2);
return i==0 ? basis : exponent;
}
|| res.is_rational()) {
return res;
}
- ASSERT(!num_exponent->is_integer()); // has been handled by now
+ GINAC_ASSERT(!num_exponent->is_integer()); // has been handled by now
// ^(c1,n/m) -> *(c1^q,c1^(n/m-q)), 0<(n/m-h)<1, q integer
if (basis_is_rational && exponent_is_rational
&& num_exponent->is_real()
ex const & sub_exponent=sub_power.exponent;
if (is_ex_exactly_of_type(sub_exponent,numeric)) {
numeric const & num_sub_exponent=ex_to_numeric(sub_exponent);
- ASSERT(num_sub_exponent!=numeric(1));
+ GINAC_ASSERT(num_sub_exponent!=numeric(1));
if (num_exponent->is_integer() || abs(num_sub_exponent)<1) {
return power(sub_basis,num_sub_exponent.mul(*num_exponent));
}
// ^(*(...,x;c1),c2) -> ^(*(...,x;1),c2)*c1^c2 (c1, c2 numeric(), c1>0)
// ^(*(...,x,c1),c2) -> ^(*(...,x;-1),c2)*(-c1)^c2 (c1, c2 numeric(), c1<0)
if (exponent_is_numerical && is_ex_exactly_of_type(ebasis,mul)) {
- ASSERT(!num_exponent->is_integer()); // should have been handled above
+ GINAC_ASSERT(!num_exponent->is_integer()); // should have been handled above
mul const & mulref=ex_to_mul(ebasis);
if (!mulref.overall_coeff.is_equal(exONE())) {
numeric const & num_coeff=ex_to_numeric(mulref.overall_coeff);
power(num_coeff,*num_exponent)))->
setflag(status_flags::dynallocated);
} else {
- ASSERT(num_coeff.compare(numZERO())<0);
+ GINAC_ASSERT(num_coeff.compare(numZERO())<0);
if (num_coeff.compare(numMINUSONE())!=0) {
mul * mulp=new mul(mulref);
mulp->overall_coeff=exMINUSONE();
int power::compare_same_type(basic const & other) const
{
- ASSERT(is_exactly_of_type(other, power));
+ GINAC_ASSERT(is_exactly_of_type(other, power));
power const & o=static_cast<power const &>(const_cast<basic &>(other));
int cmpval;
term.reserve(m+1);
for (l=0; l<m-1; l++) {
ex const & b=a.op(l);
- ASSERT(!is_ex_exactly_of_type(b,add));
- ASSERT(!is_ex_exactly_of_type(b,power)||
+ GINAC_ASSERT(!is_ex_exactly_of_type(b,add));
+ GINAC_ASSERT(!is_ex_exactly_of_type(b,power)||
!is_ex_exactly_of_type(ex_to_power(b).exponent,numeric)||
!ex_to_numeric(ex_to_power(b).exponent).is_pos_integer());
if (is_ex_exactly_of_type(b,mul)) {
}
ex const & b=a.op(l);
- ASSERT(!is_ex_exactly_of_type(b,add));
- ASSERT(!is_ex_exactly_of_type(b,power)||
+ GINAC_ASSERT(!is_ex_exactly_of_type(b,add));
+ GINAC_ASSERT(!is_ex_exactly_of_type(b,power)||
!is_ex_exactly_of_type(ex_to_power(b).exponent,numeric)||
!ex_to_numeric(ex_to_power(b).exponent).is_pos_integer());
if (is_ex_exactly_of_type(b,mul)) {
for (epvector::const_iterator cit0=a.seq.begin(); cit0!=last; ++cit0) {
ex const & b=a.recombine_pair_to_ex(*cit0);
- ASSERT(!is_ex_exactly_of_type(b,add));
- ASSERT(!is_ex_exactly_of_type(b,power)||
+ GINAC_ASSERT(!is_ex_exactly_of_type(b,add));
+ GINAC_ASSERT(!is_ex_exactly_of_type(b,power)||
!is_ex_exactly_of_type(ex_to_power(b).exponent,numeric)||
!ex_to_numeric(ex_to_power(b).exponent).is_pos_integer());
if (is_ex_exactly_of_type(b,mul)) {
}
}
- ASSERT(sum.size()==(a.seq.size()*(a.seq.size()+1))/2);
+ GINAC_ASSERT(sum.size()==(a.seq.size()*(a.seq.size()+1))/2);
return (new add(sum))->setflag(status_flags::dynallocated);
}
ex const & r=(*cit0).rest;
ex const & c=(*cit0).coeff;
- ASSERT(!is_ex_exactly_of_type(r,add));
- ASSERT(!is_ex_exactly_of_type(r,power)||
+ GINAC_ASSERT(!is_ex_exactly_of_type(r,add));
+ GINAC_ASSERT(!is_ex_exactly_of_type(r,power)||
!is_ex_exactly_of_type(ex_to_power(r).exponent,numeric)||
!ex_to_numeric(ex_to_power(r).exponent).is_pos_integer()||
!is_ex_exactly_of_type(ex_to_power(r).basis,add)||
}
}
- ASSERT(sum.size()==(a.seq.size()*(a.seq.size()+1))/2);
+ GINAC_ASSERT(sum.size()==(a.seq.size()*(a.seq.size()+1))/2);
// second part: add terms coming from overall_factor (if != 0)
if (!a.overall_coeff.is_equal(exZERO())) {
sum.push_back(expair(ex_to_numeric(a.overall_coeff).power_dyn(numTWO()),exONE()));
}
- ASSERT(sum.size()==(a_nops*(a_nops+1))/2);
+ GINAC_ASSERT(sum.size()==(a_nops*(a_nops+1))/2);
return (new add(sum))->setflag(status_flags::dynallocated);
}