intros.
destruct N1 as [ ni_iso1 ni_commutes1 ].
destruct N2 as [ ni_iso2 ni_commutes2 ].
- exists (fun A => id_comp (ni_iso1 A) (ni_iso2 A)).
+ exists (fun A => iso_comp (ni_iso1 A) (ni_iso2 A)).
abstract (intros; simpl;
setoid_rewrite <- associativity;
setoid_rewrite <- ni_commutes1;
Defined.
Definition ni_respects
- `{A:Category}`{B:Category}`{C:Category}
- {F0obj}{F0:Functor A B F0obj}
- {F1obj}{F1:Functor A B F1obj}
- {G0obj}{G0:Functor B C G0obj}
- {G1obj}{G1:Functor B C G1obj}
+ `{A:Category}`{B:Category}
+ {F0obj}(F0:Functor A B F0obj)
+ {F1obj}(F1:Functor A B F1obj)
+ `{C:Category}
+ {G0obj}(G0:Functor B C G0obj)
+ {G1obj}(G1:Functor B C G1obj)
: (F0 <~~~> F1) -> (G0 <~~~> G1) -> ((F0 >>>> G0) <~~~> (F1 >>>> G1)).
intro phi.
intro psi.
destruct psi as [ psi_niso psi_comm ].
destruct phi as [ phi_niso phi_comm ].
refine {| ni_iso :=
- (fun a => id_comp ((@functors_preserve_isos _ _ _ _ _ _ _ G0) _ _ (phi_niso a)) (psi_niso (F1obj a))) |}.
+ (fun a => iso_comp ((@functors_preserve_isos _ _ _ _ _ _ _ G0) _ _ (phi_niso a)) (psi_niso (F1obj a))) |}.
abstract (intros; simpl;
setoid_rewrite <- associativity;
setoid_rewrite fmor_preserves_comp;
intros.
destruct N1 as [ ni_iso1 ni_commutes1 ].
destruct N2 as [ ni_iso2 ni_commutes2 ].
- exists (fun A => id_comp (ni_iso1 A) (ni_iso2 A)).
+ exists (fun A => iso_comp (ni_iso1 A) (ni_iso2 A)).
abstract (intros; simpl;
setoid_rewrite <- associativity;
setoid_rewrite <- ni_commutes1;
Defined.
Definition if_respects
- `{A:Category}`{B:Category}`{C:Category}
- {F0obj}{F0:Functor A B F0obj}
- {F1obj}{F1:Functor A B F1obj}
- {G0obj}{G0:Functor B C G0obj}
- {G1obj}{G1:Functor B C G1obj}
+ `{A:Category}`{B:Category}
+ {F0obj}(F0:Functor A B F0obj)
+ {F1obj}(F1:Functor A B F1obj)
+ `{C:Category}
+ {G0obj}(G0:Functor B C G0obj)
+ {G1obj}(G1:Functor B C G1obj)
: (F0 ≃ F1) -> (G0 ≃ G1) -> ((F0 >>>> G0) ≃ (F1 >>>> G1)).
intro phi.
intro psi.
destruct psi as [ psi_niso psi_comm ].
destruct phi as [ phi_niso phi_comm ].
- exists (fun a => id_comp ((@functors_preserve_isos _ _ _ _ _ _ _ G0) _ _ (phi_niso a)) (psi_niso (F1obj a))).
+ exists (fun a => iso_comp ((@functors_preserve_isos _ _ _ _ _ _ _ G0) _ _ (phi_niso a)) (psi_niso (F1obj a))).
abstract (intros; simpl;
setoid_rewrite <- associativity;
setoid_rewrite fmor_preserves_comp;
Context
`{C1:Category}`{C2:Category}
`{D1:Category}`{D2:Category}
- {F1Obj}{F1:@Functor _ _ C1 _ _ D1 F1Obj}
- {F2Obj}{F2:@Functor _ _ C2 _ _ D2 F2Obj}
+ {F1Obj}(F1:@Functor _ _ C1 _ _ D1 F1Obj)
+ {F2Obj}(F2:@Functor _ _ C2 _ _ D2 F2Obj)
`{E1:Category}`{E2:Category}
- {G1Obj}{G1:@Functor _ _ D1 _ _ E1 G1Obj}
- {G2Obj}{G2:@Functor _ _ D2 _ _ E2 G2Obj}.
+ {G1Obj}(G1:@Functor _ _ D1 _ _ E1 G1Obj)
+ {G2Obj}(G2:@Functor _ _ D2 _ _ E2 G2Obj).
Definition ni_prod_comp_iso A : (((F1 >>>> G1) **** (F2 >>>> G2)) A) ≅ (((F1 **** F2) >>>> (G1 **** G2)) A).
unfold functor_fobj.