#include <stdexcept>
#include "color.h"
-#include "ex.h"
#include "idx.h"
#include "ncmul.h"
#include "numeric.h"
exvector free_indices, dummy_indices;
find_free_and_dummy(all_indices, free_indices, dummy_indices);
- // d.abc*d.abc=40/3
+ // d.abc d.abc = 40/3
if (dummy_indices.size() == 3) {
*self = numeric(40, 3);
*other = _ex1();
return true;
- // d.akl*d.bkl=5/3*delta.ab
+ // d.akl d.bkl = 5/3 delta.ab
} else if (dummy_indices.size() == 2) {
exvector a;
back_insert_iterator<exvector> ita(a);
*other = _ex1();
return true;
}
+
+ } else if (is_ex_exactly_of_type(other->op(0), su3t)) {
+
+ // d.abc T.b T.c = 5/6 T.a
+ if (other+1 != v.end()
+ && is_ex_exactly_of_type(other[1].op(0), su3t)
+ && ex_to_indexed(*self).has_dummy_index_for(other[1].op(1))) {
+
+ exvector self_indices = ex_to_indexed(*self).get_indices();
+ exvector dummy_indices;
+ dummy_indices.push_back(other[0].op(1));
+ dummy_indices.push_back(other[1].op(1));
+ int sig;
+ ex a = permute_free_index_to_front(self_indices, dummy_indices, sig);
+ *self = numeric(5, 6);
+ other[0] = color_T(a, ex_to_color(other[0]).get_representation_label());
+ other[1] = _ex1();
+ return true;
+ }
}
return false;
exvector dummy_indices;
dummy_indices = ex_to_indexed(*self).get_dummy_indices(ex_to_indexed(*other));
- // f.abc*f.abc=24
+ // f.abc f.abc = 24
if (dummy_indices.size() == 3) {
*self = 24;
*other = _ex1();
return true;
- // f.akl*f.bkl=3*delta.ab
+ // f.akl f.bkl = 3 delta.ab
} else if (dummy_indices.size() == 2) {
int sign1, sign2;
ex a = permute_free_index_to_front(ex_to_indexed(*self).get_indices(), dummy_indices, sign1);
*other = _ex1();
return true;
}
+
+ } else if (is_ex_exactly_of_type(other->op(0), su3t)) {
+
+ // f.abc T.b T.c = 3/2 I T.a
+ if (other+1 != v.end()
+ && is_ex_exactly_of_type(other[1].op(0), su3t)
+ && ex_to_indexed(*self).has_dummy_index_for(other[1].op(1))) {
+
+ exvector self_indices = ex_to_indexed(*self).get_indices();
+ exvector dummy_indices;
+ dummy_indices.push_back(other[0].op(1));
+ dummy_indices.push_back(other[1].op(1));
+ int sig;
+ ex a = permute_free_index_to_front(self_indices, dummy_indices, sig);
+ *self = numeric(3, 2) * sig * I;
+ other[0] = color_T(a, ex_to_color(other[0]).get_representation_label());
+ other[1] = _ex1();
+ return true;
+ }
}
return false;