The first systematic study of all dipolarophile sites of 1,2-diazepine towards nitrile oxide as dipole via 1,3-dipolar cycloaddition reactions has been carried out. To this end, the structural and energetic aspects of seventy-two isomers were determined by means of ab initio and density functional theory methods at different levels of accuracy were performed on all peri- and regio-isomeric forms. The agreement between the calculated and the experimental geometries, regio- and periselectivity of the studied reaction is good in all instances. The dipole condensation with the norcaradiene dipolarophile has been considered seemingly for the first time. The bis-cycloadduct 3a,3b,7,10a-tetrahydro-10 H-[1,2] oxazolo [4,5-d] [1,2,4] oxadiazolo [4,5-b] [1,2] diazepine is the most stable one as predicted by all methods used in this work. However, the tautomerization study of all forms of 1,2-diazepine seems to rule out the existence of the tautomeric form that provides the above mentioned cycloadduct. Consequently, the bis-cycloadduct 5,10-dioxa-1,2,4,11-tetrazatricyclo[7,3,1,0 2 , 6 ]trideca-3,7,11-triene is the favored product of this reaction.