let f1, f, g1, g be complex-valued Function; :: thesis: (f1 / f) + (g1 / g) = ((f1 (#) g) + (g1 (#) f)) / (f (#) g)
A1: dom ((f1 / f) + (g1 / g)) = (dom (f1 / f)) /\ (dom (g1 / g)) by VALUED_1:def 1
.= ((dom f1) /\ ((dom f) \ (f " {0 }))) /\ (dom (g1 / g)) by Def4
.= ((dom f1) /\ ((dom f) \ (f " {0 }))) /\ ((dom g1) /\ ((dom g) \ (g " {0 }))) by Def4
.= ((dom f1) /\ ((dom f) /\ ((dom f) \ (f " {0 })))) /\ ((dom g1) /\ ((dom g) \ (g " {0 }))) by Th11
.= (((dom f) /\ ((dom f) \ (f " {0 }))) /\ (dom f1)) /\ (((dom g) /\ ((dom g) \ (g " {0 }))) /\ (dom g1)) by Th11
.= ((dom f) /\ ((dom f) \ (f " {0 }))) /\ ((dom f1) /\ (((dom g) /\ ((dom g) \ (g " {0 }))) /\ (dom g1))) by XBOOLE_1:16
.= ((dom f) /\ ((dom f) \ (f " {0 }))) /\ (((dom f1) /\ ((dom g) /\ ((dom g) \ (g " {0 })))) /\ (dom g1)) by XBOOLE_1:16
.= ((dom f) /\ ((dom f) \ (f " {0 }))) /\ ((((dom f1) /\ (dom g)) /\ ((dom g) \ (g " {0 }))) /\ (dom g1)) by XBOOLE_1:16
.= ((dom f) /\ ((dom f) \ (f " {0 }))) /\ (((dom (f1 (#) g)) /\ ((dom g) \ (g " {0 }))) /\ (dom g1)) by VALUED_1:def 4
.= ((dom f) /\ ((dom f) \ (f " {0 }))) /\ ((dom (f1 (#) g)) /\ ((dom g1) /\ ((dom g) \ (g " {0 })))) by XBOOLE_1:16
.= (dom (f1 (#) g)) /\ ((((dom f) \ (f " {0 })) /\ (dom f)) /\ ((dom g1) /\ ((dom g) \ (g " {0 })))) by XBOOLE_1:16
.= (dom (f1 (#) g)) /\ (((dom f) \ (f " {0 })) /\ ((dom f) /\ ((dom g1) /\ ((dom g) \ (g " {0 }))))) by XBOOLE_1:16
.= (dom (f1 (#) g)) /\ (((dom f) \ (f " {0 })) /\ (((dom g1) /\ (dom f)) /\ ((dom g) \ (g " {0 })))) by XBOOLE_1:16
.= (dom (f1 (#) g)) /\ (((dom f) \ (f " {0 })) /\ ((dom (g1 (#) f)) /\ ((dom g) \ (g " {0 })))) by VALUED_1:def 4
.= (dom (f1 (#) g)) /\ ((dom (g1 (#) f)) /\ (((dom f) \ (f " {0 })) /\ ((dom g) \ (g " {0 })))) by XBOOLE_1:16
.= ((dom (f1 (#) g)) /\ (dom (g1 (#) f))) /\ (((dom f) \ (f " {0 })) /\ ((dom g) \ (g " {0 }))) by XBOOLE_1:16
.= (dom ((f1 (#) g) + (g1 (#) f))) /\ (((dom f) \ (f " {0 })) /\ ((dom g) \ (g " {0 }))) by VALUED_1:def 1
.= (dom ((f1 (#) g) + (g1 (#) f))) /\ ((dom (f (#) g)) \ ((f (#) g) " {0 })) by Th12
.= dom (((f1 (#) g) + (g1 (#) f)) / (f (#) g)) by Def4 ;
now
let c be set ; :: thesis: ( c in dom ((f1 / f) + (g1 / g)) implies ((f1 / f) + (g1 / g)) . c = (((f1 (#) g) + (g1 (#) f)) / (f (#) g)) . c )
assume A2: c in dom ((f1 / f) + (g1 / g)) ; :: thesis: ((f1 / f) + (g1 / g)) . c = (((f1 (#) g) + (g1 (#) f)) / (f (#) g)) . c
then A3: c in (dom (f1 / f)) /\ (dom (g1 / g)) by VALUED_1:def 1;
then A4: ( c in dom (f1 / f) & c in dom (g1 / g) ) by XBOOLE_0:def 4;
c in (dom (f1 (#) (f ^ ))) /\ (dom (g1 / g)) by A3, Th47;
then c in (dom (f1 (#) (f ^ ))) /\ (dom (g1 (#) (g ^ ))) by Th47;
then ( c in dom (f1 (#) (f ^ )) & c in dom (g1 (#) (g ^ )) ) by XBOOLE_0:def 4;
then ( c in (dom f1) /\ (dom (f ^ )) & c in (dom g1) /\ (dom (g ^ )) ) by VALUED_1:def 4;
then A5: ( c in dom f1 & c in dom (f ^ ) & c in dom g1 & c in dom (g ^ ) ) by XBOOLE_0:def 4;
then A6: ( f . c <> 0 & g . c <> 0 ) by Th13;
( c in (dom f1) /\ (dom g1) & c in (dom (f ^ )) /\ (dom (g ^ )) ) by A5, XBOOLE_0:def 4;
then ( c in (dom f1) /\ (dom g1) & c in dom ((f ^ ) (#) (g ^ )) ) by VALUED_1:def 4;
then A7: ( c in (dom f1) /\ (dom g1) & c in dom ((f (#) g) ^ ) ) by Th43;
( dom (g ^ ) c= dom g & dom (f ^ ) c= dom f ) by Th11;
then ( c in (dom f1) /\ (dom g) & c in (dom g1) /\ (dom f) ) by A5, XBOOLE_0:def 4;
then ( c in dom (f1 (#) g) & c in dom (g1 (#) f) ) by VALUED_1:def 4;
then c in (dom (f1 (#) g)) /\ (dom (g1 (#) f)) by XBOOLE_0:def 4;
then A8: c in dom ((f1 (#) g) + (g1 (#) f)) by VALUED_1:def 1;
then c in (dom ((f1 (#) g) + (g1 (#) f))) /\ (dom ((f (#) g) ^ )) by A7, XBOOLE_0:def 4;
then c in dom (((f1 (#) g) + (g1 (#) f)) (#) ((f (#) g) ^ )) by VALUED_1:def 4;
then A9: c in dom (((f1 (#) g) + (g1 (#) f)) / (f (#) g)) by Th47;
thus ((f1 / f) + (g1 / g)) . c = ((f1 / f) . c) + ((g1 / g) . c) by A2, VALUED_1:def 1
.= ((f1 . c) * ((f . c) " )) + ((g1 / g) . c) by A4, Def4
.= ((f1 . c) * (1 * ((f . c) " ))) + (((g1 . c) * 1) * ((g . c) " )) by A4, Def4
.= ((f1 . c) * (((g . c) * ((g . c) " )) * ((f . c) " ))) + ((g1 . c) * (1 * ((g . c) " ))) by A6, XCMPLX_0:def 7
.= ((f1 . c) * ((g . c) * (((g . c) " ) * ((f . c) " )))) + ((g1 . c) * (((f . c) * ((f . c) " )) * ((g . c) " ))) by A6, XCMPLX_0:def 7
.= ((f1 . c) * ((g . c) * (((g . c) * (f . c)) " ))) + ((g1 . c) * ((f . c) * (((f . c) " ) * ((g . c) " )))) by XCMPLX_1:205
.= ((f1 . c) * ((g . c) * (((f . c) * (g . c)) " ))) + ((g1 . c) * ((f . c) * (((f . c) * (g . c)) " ))) by XCMPLX_1:205
.= ((f1 . c) * ((g . c) * (((f (#) g) . c) " ))) + ((g1 . c) * ((f . c) * (((f . c) * (g . c)) " ))) by VALUED_1:5
.= (((f1 . c) * (g . c)) * (((f (#) g) . c) " )) + ((g1 . c) * ((f . c) * (((f (#) g) . c) " ))) by VALUED_1:5
.= (((f1 (#) g) . c) * (((f (#) g) . c) " )) + (((g1 . c) * (f . c)) * (((f (#) g) . c) " )) by VALUED_1:5
.= (((f1 (#) g) . c) * (((f (#) g) . c) " )) + (((g1 (#) f) . c) * (((f (#) g) . c) " )) by VALUED_1:5
.= (((f1 (#) g) . c) + ((g1 (#) f) . c)) * (((f (#) g) . c) " )
.= (((f1 (#) g) + (g1 (#) f)) . c) * (((f (#) g) . c) " ) by A8, VALUED_1:def 1
.= (((f1 (#) g) + (g1 (#) f)) / (f (#) g)) . c by A9, Def4 ; :: thesis: verum
end;
hence (f1 / f) + (g1 / g) = ((f1 (#) g) + (g1 (#) f)) / (f (#) g) by A1, FUNCT_1:9; :: thesis: verum