mofeu

Description: The uniqueness of a function into a set with at most one element. (Contributed by Zhi Wang, 1-Oct-2024)

	Ref	Expression
Hypotheses	mofeu.1	$⊢ G = A \times B$
	mofeu.2	$⊢ φ \to (B = \emptyset \to A = \emptyset)$
	mofeu.3	$⊢ φ \to \exists^{*} x x \in B$
Assertion	mofeu	$⊢ φ \to (F : A ⟶ B \leftrightarrow F = G)$

Proof

Step	Hyp	Ref	Expression
1		mofeu.1	$⊢ G = A \times B$
2		mofeu.2	$⊢ φ \to (B = \emptyset \to A = \emptyset)$
3		mofeu.3	$⊢ φ \to \exists^{*} x x \in B$
4	2	imp	$⊢ (φ \land B = \emptyset) \to A = \emptyset$
5		f00	$⊢ F : A ⟶ \emptyset \leftrightarrow (F = \emptyset \land A = \emptyset)$
6	5	rbaib	$⊢ A = \emptyset \to (F : A ⟶ \emptyset \leftrightarrow F = \emptyset)$
7	4 6	syl	$⊢ (φ \land B = \emptyset) \to (F : A ⟶ \emptyset \leftrightarrow F = \emptyset)$
8		feq3	$⊢ B = \emptyset \to (F : A ⟶ B \leftrightarrow F : A ⟶ \emptyset)$
9	8	adantl	$⊢ (φ \land B = \emptyset) \to (F : A ⟶ B \leftrightarrow F : A ⟶ \emptyset)$
10		xpeq2	$⊢ B = \emptyset \to A \times B = A \times \emptyset$
11		xp0	$⊢ A \times \emptyset = \emptyset$
12	10 11	eqtrdi	$⊢ B = \emptyset \to A \times B = \emptyset$
13	1 12	eqtrid	$⊢ B = \emptyset \to G = \emptyset$
14	13	adantl	$⊢ (φ \land B = \emptyset) \to G = \emptyset$
15	14	eqeq2d	$⊢ (φ \land B = \emptyset) \to (F = G \leftrightarrow F = \emptyset)$
16	7 9 15	3bitr4d	$⊢ (φ \land B = \emptyset) \to (F : A ⟶ B \leftrightarrow F = G)$
17		19.42v	$⊢ \exists y (φ \land B = \{y\}) \leftrightarrow (φ \land \exists y B = \{y\})$
18		fconst2g	$⊢ y \in V \to (F : A ⟶ \{y\} \leftrightarrow F = A \times \{y\})$
19	18	elv	$⊢ F : A ⟶ \{y\} \leftrightarrow F = A \times \{y\}$
20		feq3	$⊢ B = \{y\} \to (F : A ⟶ B \leftrightarrow F : A ⟶ \{y\})$
21		xpeq2	$⊢ B = \{y\} \to A \times B = A \times \{y\}$
22	21	eqeq2d	$⊢ B = \{y\} \to (F = A \times B \leftrightarrow F = A \times \{y\})$
23	20 22	bibi12d	$⊢ B = \{y\} \to ((F : A ⟶ B \leftrightarrow F = A \times B) \leftrightarrow (F : A ⟶ \{y\} \leftrightarrow F = A \times \{y\}))$
24	19 23	mpbiri	$⊢ B = \{y\} \to (F : A ⟶ B \leftrightarrow F = A \times B)$
25	1	eqeq2i	$⊢ F = G \leftrightarrow F = A \times B$
26	24 25	bitr4di	$⊢ B = \{y\} \to (F : A ⟶ B \leftrightarrow F = G)$
27	26	adantl	$⊢ (φ \land B = \{y\}) \to (F : A ⟶ B \leftrightarrow F = G)$
28	27	exlimiv	$⊢ \exists y (φ \land B = \{y\}) \to (F : A ⟶ B \leftrightarrow F = G)$
29	17 28	sylbir	$⊢ (φ \land \exists y B = \{y\}) \to (F : A ⟶ B \leftrightarrow F = G)$
30		mo0sn	$⊢ \exists^{*} x x \in B \leftrightarrow (B = \emptyset \lor \exists y B = \{y\})$
31	3 30	sylib	$⊢ φ \to (B = \emptyset \lor \exists y B = \{y\})$
32	16 29 31	mpjaodan	$⊢ φ \to (F : A ⟶ B \leftrightarrow F = G)$

Metamath Proof Explorer

Theorem mofeu

Proof