Metamath Proof Explorer

Theorem upgr1eopALT

Description: Alternate proof of upgr1eop , using the general theorem gropeld to transform a theorem for an arbitrary representation of a graph into a theorem for a graph represented as ordered pair. This general approach causes some overhead, which makes the proof longer than necessary (see proof of upgr1eop ). (Contributed by AV, 11-Oct-2020) (Proof modification is discouraged.) (New usage is discouraged.)

Ref Expression
Assertion upgr1eopALT V W A X B V C V V A B C UPGraph

Proof

Step Hyp Ref Expression
1 eqid Vtx g = Vtx g
2 simpllr V W A X B V C V Vtx g = V iEdg g = A B C A X
3 simplrl V W A X B V C V Vtx g = V iEdg g = A B C B V
4 eleq2 Vtx g = V B Vtx g B V
5 4 ad2antrl V W A X B V C V Vtx g = V iEdg g = A B C B Vtx g B V
6 3 5 mpbird V W A X B V C V Vtx g = V iEdg g = A B C B Vtx g
7 simplrr V W A X B V C V Vtx g = V iEdg g = A B C C V
8 eleq2 Vtx g = V C Vtx g C V
9 8 ad2antrl V W A X B V C V Vtx g = V iEdg g = A B C C Vtx g C V
10 7 9 mpbird V W A X B V C V Vtx g = V iEdg g = A B C C Vtx g
11 simprr V W A X B V C V Vtx g = V iEdg g = A B C iEdg g = A B C
12 1 2 6 10 11 upgr1e V W A X B V C V Vtx g = V iEdg g = A B C g UPGraph
13 12 ex V W A X B V C V Vtx g = V iEdg g = A B C g UPGraph
14 13 alrimiv V W A X B V C V g Vtx g = V iEdg g = A B C g UPGraph
15 simpll V W A X B V C V V W
16 snex A B C V
17 16 a1i V W A X B V C V A B C V
18 14 15 17 gropeld V W A X B V C V V A B C UPGraph