Metamath Proof Explorer

 |-  U = ( lub ` K )

 |-  A = ( Atoms ` K )

 |-  M = ( pmap ` K )

 |-  ._|_ = ( _|_P ` K )

 |-  ( oc ` K ) = ( oc ` K )

 |-  ( ( K e. HL /\ X C_ A ) -> ( ._|_ ` X ) = ( M ` ( ( oc ` K ) ` ( U ` X ) ) ) )

 |-  ( ( K e. HL /\ X C_ A ) -> ( ._|_ ` ( ._|_ ` X ) ) = ( ._|_ ` ( M ` ( ( oc ` K ) ` ( U ` X ) ) ) ) )

 |-  ( K e. HL -> K e. OP )

 |-  ( ( K e. HL /\ X C_ A ) -> K e. OP )

 |-  ( K e. HL -> K e. CLat )

 |-  ( Base ` K ) = ( Base ` K )

 |-  A C_ ( Base ` K )

 |-  ( ( X C_ A /\ A C_ ( Base ` K ) ) -> X C_ ( Base ` K ) )

 |-  ( X C_ A -> X C_ ( Base ` K ) )

 |-  ( ( K e. CLat /\ X C_ ( Base ` K ) ) -> ( U ` X ) e. ( Base ` K ) )

 |-  ( ( K e. HL /\ X C_ A ) -> ( U ` X ) e. ( Base ` K ) )

 |-  ( ( K e. OP /\ ( U ` X ) e. ( Base ` K ) ) -> ( ( oc ` K ) ` ( U ` X ) ) e. ( Base ` K ) )

 |-  ( ( K e. HL /\ X C_ A ) -> ( ( oc ` K ) ` ( U ` X ) ) e. ( Base ` K ) )

 |-  ( ( K e. HL /\ ( ( oc ` K ) ` ( U ` X ) ) e. ( Base ` K ) ) -> ( ._|_ ` ( M ` ( ( oc ` K ) ` ( U ` X ) ) ) ) = ( M ` ( ( oc ` K ) ` ( ( oc ` K ) ` ( U ` X ) ) ) ) )

 |-  ( ( K e. HL /\ X C_ A ) -> ( ._|_ ` ( M ` ( ( oc ` K ) ` ( U ` X ) ) ) ) = ( M ` ( ( oc ` K ) ` ( ( oc ` K ) ` ( U ` X ) ) ) ) )

 |-  ( ( K e. OP /\ ( U ` X ) e. ( Base ` K ) ) -> ( ( oc ` K ) ` ( ( oc ` K ) ` ( U ` X ) ) ) = ( U ` X ) )

 |-  ( ( K e. HL /\ X C_ A ) -> ( ( oc ` K ) ` ( ( oc ` K ) ` ( U ` X ) ) ) = ( U ` X ) )

 |-  ( ( K e. HL /\ X C_ A ) -> ( M ` ( ( oc ` K ) ` ( ( oc ` K ) ` ( U ` X ) ) ) ) = ( M ` ( U ` X ) ) )

 |-  ( ( K e. HL /\ X C_ A ) -> ( ._|_ ` ( ._|_ ` X ) ) = ( M ` ( U ` X ) ) )