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| (* ========================================================================= *) | |
| (* Very trivial group theory, just to reach Lagrange theorem. *) | |
| (* NB: "Library/grouptheory.ml" has a more serious development of groups. *) | |
| (* ========================================================================= *) | |
| loadt "Library/prime.ml";; | |
| (* ------------------------------------------------------------------------- *) | |
| (* Definition of what a group is. *) | |
| (* ------------------------------------------------------------------------- *) | |
| let group = new_definition | |
| `group(g,( ** ),i,(e:A)) <=> | |
| (e IN g) /\ (!x. x IN g ==> i(x) IN g) /\ | |
| (!x y. x IN g /\ y IN g ==> (x ** y) IN g) /\ | |
| (!x y z. x IN g /\ y IN g /\ z IN g ==> (x ** (y ** z) = (x ** y) ** z)) /\ | |
| (!x. x IN g ==> (x ** e = x) /\ (e ** x = x)) /\ | |
| (!x. x IN g ==> (x ** i(x) = e) /\ (i(x) ** x = e))`;; | |
| (* ------------------------------------------------------------------------- *) | |
| (* Notion of a subgroup. *) | |
| (* ------------------------------------------------------------------------- *) | |
| let subgroup = new_definition | |
| `subgroup h (g,( ** ),i,(e:A)) <=> h SUBSET g /\ group(h,( ** ),i,e)`;; | |
| (* ------------------------------------------------------------------------- *) | |
| (* Lagrange theorem, introducing the coset representatives. *) | |
| (* ------------------------------------------------------------------------- *) | |
| let GROUP_LAGRANGE_COSETS = prove | |
| (`!g h ( ** ) i e. | |
| group (g,( ** ),i,e:A) /\ subgroup h (g,( ** ),i,e) /\ FINITE g | |
| ==> ?q. (CARD(g) = CARD(q) * CARD(h)) /\ | |
| (!b. b IN g ==> ?a x. a IN q /\ x IN h /\ (b = a ** x))`, | |
| REPEAT GEN_TAC THEN REWRITE_TAC[group; subgroup; SUBSET] THEN STRIP_TAC THEN | |
| ABBREV_TAC | |
| `coset = \a:A. {b:A | b IN g /\ (?x:A. x IN h /\ (b = a ** x))}` THEN | |
| SUBGOAL_THEN `!a:A. a IN g ==> a IN (coset a)` ASSUME_TAC THENL | |
| [GEN_TAC THEN DISCH_TAC THEN EXPAND_TAC "coset" THEN | |
| ASM_SIMP_TAC[IN_ELIM_THM] THEN ASM_MESON_TAC[]; | |
| ALL_TAC] THEN | |
| SUBGOAL_THEN `FINITE(h:A->bool)` ASSUME_TAC THENL | |
| [ASM_MESON_TAC[FINITE_SUBSET; SUBSET]; ALL_TAC] THEN | |
| SUBGOAL_THEN `!a. FINITE((coset:A->A->bool) a)` ASSUME_TAC THENL | |
| [GEN_TAC THEN EXPAND_TAC "coset" THEN | |
| MATCH_MP_TAC FINITE_SUBSET THEN EXISTS_TAC `g:A->bool` THEN | |
| ASM_SIMP_TAC[IN_ELIM_THM; SUBSET]; | |
| ALL_TAC] THEN | |
| SUBGOAL_THEN | |
| `!a:A x:A y. a IN g /\ x IN g /\ y IN g /\ ((a ** x) :A = a ** y) | |
| ==> (x = y)` | |
| ASSUME_TAC THENL | |
| [REPEAT STRIP_TAC THEN | |
| SUBGOAL_THEN `(e:A ** x:A):A = e ** y` (fun th -> ASM_MESON_TAC[th]) THEN | |
| SUBGOAL_THEN | |
| `((i(a):A ** a:A) ** x) = (i(a) ** a) ** y` | |
| (fun th -> ASM_MESON_TAC[th]) THEN | |
| ASM_MESON_TAC[]; | |
| ALL_TAC] THEN | |
| SUBGOAL_THEN `!a:A. a IN g ==> (CARD(coset a :A->bool) = CARD(h:A->bool))` | |
| ASSUME_TAC THENL | |
| [REPEAT STRIP_TAC THEN | |
| SUBGOAL_THEN | |
| `(coset:A->A->bool) (a:A) = IMAGE (\x. a ** x) (h:A->bool)` | |
| SUBST1_TAC THENL | |
| [EXPAND_TAC "coset" THEN | |
| REWRITE_TAC[EXTENSION; IN_ELIM_THM; IN_IMAGE; IN_ELIM_THM] THEN | |
| ASM_MESON_TAC[]; | |
| ALL_TAC] THEN | |
| MATCH_MP_TAC CARD_IMAGE_INJ THEN ASM_REWRITE_TAC[] THEN | |
| ASM_MESON_TAC[]; | |
| ALL_TAC] THEN | |
| SUBGOAL_THEN `!x:A y. x IN g /\ y IN g ==> (i(x ** y) = i(y) ** i(x))` | |
| ASSUME_TAC THENL | |
| [REPEAT STRIP_TAC THEN | |
| FIRST_ASSUM MATCH_MP_TAC THEN | |
| EXISTS_TAC `(x:A ** y:A) :A` THEN ASM_SIMP_TAC[] THEN | |
| MATCH_MP_TAC EQ_TRANS THEN | |
| EXISTS_TAC `(x:A ** (y ** i(y))) ** i(x)` THEN | |
| ASM_MESON_TAC[]; | |
| ALL_TAC] THEN | |
| SUBGOAL_THEN `!x:A. x IN g ==> (i(i(x)) = x)` ASSUME_TAC THENL | |
| [REPEAT STRIP_TAC THEN FIRST_ASSUM MATCH_MP_TAC THEN | |
| EXISTS_TAC `(i:A->A)(x)` THEN ASM_MESON_TAC[]; | |
| ALL_TAC] THEN | |
| SUBGOAL_THEN | |
| `!a b. a IN g /\ b IN g | |
| ==> ((coset:A->A->bool) a = coset b) \/ | |
| ((coset a) INTER (coset b) = {})` | |
| ASSUME_TAC THENL | |
| [REPEAT STRIP_TAC THEN | |
| ASM_CASES_TAC `((i:A->A)(b) ** a:A) IN (h:A->bool)` THENL | |
| [DISJ1_TAC THEN EXPAND_TAC "coset" THEN | |
| REWRITE_TAC[EXTENSION; IN_ELIM_THM] THEN | |
| GEN_TAC THEN AP_TERM_TAC THEN | |
| SUBGOAL_THEN | |
| `!x:A. x IN h ==> (b ** (i(b) ** a:A) ** x = a ** x) /\ | |
| (a ** i(i(b) ** a) ** x = b ** x)` | |
| (fun th -> EQ_TAC THEN REPEAT STRIP_TAC THEN | |
| ASM_REWRITE_TAC[] THEN ASM_MESON_TAC[th]) THEN | |
| ASM_SIMP_TAC[]; | |
| ALL_TAC] THEN | |
| DISJ2_TAC THEN REWRITE_TAC[EXTENSION; NOT_IN_EMPTY; IN_INTER] THEN | |
| X_GEN_TAC `x:A` THEN EXPAND_TAC "coset" THEN REWRITE_TAC[IN_ELIM_THM] THEN | |
| REWRITE_TAC[TAUT `(a /\ b) /\ (a /\ c) <=> a /\ b /\ c`] THEN | |
| DISCH_THEN(CONJUNCTS_THEN2 ASSUME_TAC MP_TAC) THEN | |
| DISCH_THEN(CONJUNCTS_THEN2 (X_CHOOSE_THEN `y:A` STRIP_ASSUME_TAC) | |
| (X_CHOOSE_THEN `z:A` STRIP_ASSUME_TAC)) THEN | |
| SUBGOAL_THEN `(i(b:A) ** a ** y):A = i(b) ** b ** z` ASSUME_TAC THENL | |
| [ASM_MESON_TAC[]; ALL_TAC] THEN | |
| SUBGOAL_THEN `(i(b:A) ** a:A ** y):A = e ** z` ASSUME_TAC THENL | |
| [ASM_MESON_TAC[]; ALL_TAC] THEN | |
| SUBGOAL_THEN `(i(b:A) ** a:A ** y):A = z` ASSUME_TAC THENL | |
| [ASM_MESON_TAC[]; ALL_TAC] THEN | |
| SUBGOAL_THEN `((i(b:A) ** a:A) ** y):A = z` ASSUME_TAC THENL | |
| [ASM_MESON_TAC[]; ALL_TAC] THEN | |
| SUBGOAL_THEN `((i(b:A) ** a:A) ** y) ** i(y) = z ** i(y)` ASSUME_TAC THENL | |
| [ASM_MESON_TAC[]; ALL_TAC] THEN | |
| SUBGOAL_THEN `(i(b:A) ** a:A) ** (y ** i(y)) = z ** i(y)` ASSUME_TAC THENL | |
| [ASM_MESON_TAC[]; ALL_TAC] THEN | |
| SUBGOAL_THEN `(i(b:A) ** a:A) ** e = z ** i(y)` ASSUME_TAC THENL | |
| [ASM_MESON_TAC[]; ALL_TAC] THEN | |
| SUBGOAL_THEN `(i(b:A) ** a:A):A = z ** i(y)` ASSUME_TAC THENL | |
| [ASM_MESON_TAC[]; ALL_TAC] THEN | |
| ASM_MESON_TAC[]; | |
| ALL_TAC] THEN | |
| EXISTS_TAC `{c:A | ?a:A. a IN g /\ (c = (@)(coset a))}` THEN | |
| MATCH_MP_TAC(TAUT `a /\ (a ==> b) ==> b /\ a`) THEN CONJ_TAC THENL | |
| [X_GEN_TAC `b:A` THEN DISCH_TAC THEN | |
| EXISTS_TAC `(@)((coset:A->A->bool) b)` THEN | |
| REWRITE_TAC[RIGHT_EXISTS_AND_THM] THEN CONJ_TAC THENL | |
| [REWRITE_TAC[IN_ELIM_THM] THEN EXISTS_TAC `b:A` THEN | |
| ASM_REWRITE_TAC[]; | |
| ALL_TAC] THEN | |
| SUBGOAL_THEN `(@)((coset:A->A->bool) b) IN (coset b)` MP_TAC THENL | |
| [REWRITE_TAC[IN] THEN MATCH_MP_TAC SELECT_AX THEN | |
| ASM_MESON_TAC[IN]; | |
| ALL_TAC] THEN | |
| FIRST_ASSUM(fun th -> GEN_REWRITE_TAC (LAND_CONV o RAND_CONV o RATOR_CONV) | |
| [SYM th]) THEN | |
| REWRITE_TAC[] THEN | |
| ABBREV_TAC `C = (@)((coset:A->A->bool) b)` THEN | |
| REWRITE_TAC[IN_ELIM_THM] THEN | |
| DISCH_THEN(CONJUNCTS_THEN2 ASSUME_TAC | |
| (X_CHOOSE_THEN `c:A` STRIP_ASSUME_TAC)) THEN | |
| EXISTS_TAC `(i:A->A)(c)` THEN ASM_SIMP_TAC[] THEN | |
| ASM_MESON_TAC[]; | |
| ALL_TAC] THEN | |
| ABBREV_TAC `q = {c:A | ?a:A. a IN g /\ (c = (@)(coset a))}` THEN | |
| DISCH_TAC THEN | |
| SUBGOAL_THEN | |
| `!a:A b. a IN g /\ b IN g /\ a IN coset(b) ==> b IN coset(a)` | |
| ASSUME_TAC THENL | |
| [REPEAT GEN_TAC THEN EXPAND_TAC "coset" THEN | |
| REWRITE_TAC[IN_ELIM_THM] THEN REWRITE_TAC[GSYM CONJ_ASSOC] THEN | |
| REPEAT(DISCH_THEN(CONJUNCTS_THEN2 ASSUME_TAC MP_TAC)) THEN | |
| DISCH_THEN(X_CHOOSE_THEN `c:A` STRIP_ASSUME_TAC) THEN | |
| ASM_REWRITE_TAC[] THEN EXISTS_TAC `(i:A->A) c` THEN | |
| ASM_REWRITE_TAC[] THEN ASM_MESON_TAC[]; | |
| ALL_TAC] THEN | |
| SUBGOAL_THEN | |
| `!a:A b c. a IN coset(b) /\ b IN coset(c) /\ c IN g ==> a IN coset(c)` | |
| ASSUME_TAC THENL | |
| [REPEAT GEN_TAC THEN EXPAND_TAC "coset" THEN | |
| REWRITE_TAC[IN_ELIM_THM] THEN | |
| STRIP_TAC THEN ASM_REWRITE_TAC[] THEN ASM_MESON_TAC[]; | |
| ALL_TAC] THEN | |
| SUBGOAL_THEN `!a:A b:A. a IN coset(b) ==> a IN g` ASSUME_TAC THENL | |
| [EXPAND_TAC "coset" THEN REWRITE_TAC[IN_ELIM_THM] THEN MESON_TAC[]; | |
| ALL_TAC] THEN | |
| SUBGOAL_THEN | |
| `!a:A b. a IN coset(b) /\ b IN g ==> (coset a = coset b)` | |
| ASSUME_TAC THENL | |
| [REWRITE_TAC[EXTENSION] THEN | |
| MAP_EVERY UNDISCH_TAC | |
| [`!a:A b:A. a IN coset(b) ==> a IN g`; | |
| `!a:A b c. a IN coset(b) /\ b IN coset(c) /\ c IN g ==> a IN coset(c)`; | |
| `!a:A b. a IN g /\ b IN g /\ a IN coset(b) ==> b IN coset(a)`] THEN | |
| MESON_TAC[]; | |
| ALL_TAC] THEN | |
| SUBGOAL_THEN `!a:A. a IN g ==> (@)(coset a):A IN (coset a)` ASSUME_TAC THENL | |
| [REPEAT STRIP_TAC THEN UNDISCH_TAC `!a:A. a IN g ==> a IN coset a` THEN | |
| DISCH_THEN(MP_TAC o SPEC `a:A`) THEN | |
| ASM_REWRITE_TAC[] THEN REWRITE_TAC[IN; SELECT_AX]; | |
| ALL_TAC] THEN | |
| SUBGOAL_THEN `!a:A. a IN q ==> a IN g` ASSUME_TAC THENL | |
| [GEN_TAC THEN EXPAND_TAC "q" THEN REWRITE_TAC[IN_ELIM_THM] THEN | |
| STRIP_TAC THEN ASM_REWRITE_TAC[] THEN ASM_MESON_TAC[]; | |
| ALL_TAC] THEN | |
| SUBGOAL_THEN | |
| `!a:A x:A a' x'. a IN q /\ a' IN q /\ x IN h /\ x' IN h /\ | |
| ((a' ** x') :A = a ** x) ==> (a' = a) /\ (x' = x)` | |
| ASSUME_TAC THENL | |
| [REPEAT GEN_TAC THEN EXPAND_TAC "q" THEN REWRITE_TAC[IN_ELIM_THM] THEN | |
| MATCH_MP_TAC(TAUT `(c ==> a /\ b ==> d) ==> a /\ b /\ c ==> d`) THEN | |
| STRIP_TAC THEN | |
| DISCH_THEN(CONJUNCTS_THEN2 | |
| (X_CHOOSE_THEN `a1:A` STRIP_ASSUME_TAC) | |
| (X_CHOOSE_THEN `a2:A` STRIP_ASSUME_TAC)) THEN | |
| SUBGOAL_THEN `a:A IN g /\ a' IN g` STRIP_ASSUME_TAC THENL | |
| [ASM_REWRITE_TAC[] THEN ASM_MESON_TAC[]; ALL_TAC] THEN | |
| MATCH_MP_TAC(TAUT `(a ==> b) /\ a ==> a /\ b`) THEN | |
| CONJ_TAC THENL [ASM_MESON_TAC[]; ALL_TAC] THEN | |
| SUBGOAL_THEN | |
| `((coset:A->A->bool) a1 = coset a) /\ (coset a2 = coset a')` | |
| MP_TAC THENL | |
| [CONJ_TAC THEN CONV_TAC SYM_CONV THEN FIRST_ASSUM MATCH_MP_TAC THEN | |
| ASM_SIMP_TAC[]; | |
| ALL_TAC] THEN | |
| DISCH_THEN(CONJUNCTS_THEN SUBST_ALL_TAC) THEN | |
| ONCE_ASM_REWRITE_TAC[] THEN AP_TERM_TAC THEN | |
| FIRST_ASSUM MATCH_MP_TAC THEN ASM_REWRITE_TAC[] THEN | |
| EXPAND_TAC "coset" THEN REWRITE_TAC[IN_ELIM_THM] THEN | |
| ASM_REWRITE_TAC[] THEN EXISTS_TAC `(x:A ** (i:A->A)(x')):A` THEN | |
| ASM_SIMP_TAC[] THEN UNDISCH_TAC `(a':A ** x':A):A = a ** x` THEN | |
| DISCH_THEN(MP_TAC o C AP_THM `(i:A->A) x'` o AP_TERM `(**):A->A->A`) THEN | |
| DISCH_THEN(SUBST1_TAC o SYM) THEN ASM_MESON_TAC[]; | |
| ALL_TAC] THEN | |
| SUBGOAL_THEN `g = IMAGE (\(a:A,x:A). (a ** x):A) {(a,x) | a IN q /\ x IN h}` | |
| SUBST1_TAC THENL | |
| [REWRITE_TAC[EXTENSION; IN_IMAGE; IN_ELIM_THM] THEN | |
| REWRITE_TAC[EXISTS_PAIR_THM] THEN | |
| CONV_TAC(ONCE_DEPTH_CONV GEN_BETA_CONV) THEN | |
| REWRITE_TAC[PAIR_EQ] THEN | |
| REWRITE_TAC[CONJ_ASSOC; ONCE_REWRITE_RULE[CONJ_SYM] UNWIND_THM1] THEN | |
| ASM_MESON_TAC[]; | |
| ALL_TAC] THEN | |
| MATCH_MP_TAC EQ_TRANS THEN | |
| EXISTS_TAC `CARD {(a:A,x:A) | a IN q /\ x IN h}` THEN CONJ_TAC THENL | |
| [MATCH_MP_TAC CARD_IMAGE_INJ THEN CONJ_TAC THENL | |
| [REWRITE_TAC[FORALL_PAIR_THM; IN_ELIM_THM] THEN | |
| CONV_TAC(ONCE_DEPTH_CONV GEN_BETA_CONV) THEN | |
| REWRITE_TAC[PAIR_EQ] THEN REPEAT GEN_TAC THEN | |
| REPEAT(DISCH_THEN(CONJUNCTS_THEN2 STRIP_ASSUME_TAC MP_TAC)) THEN | |
| ASM_REWRITE_TAC[] THEN ASM_MESON_TAC[]; | |
| ALL_TAC] THEN | |
| MATCH_MP_TAC FINITE_PRODUCT THEN CONJ_TAC THEN | |
| MATCH_MP_TAC FINITE_SUBSET THEN EXISTS_TAC `g:A->bool` THEN | |
| ASM_REWRITE_TAC[SUBSET]; | |
| ALL_TAC] THEN | |
| MATCH_MP_TAC CARD_PRODUCT THEN CONJ_TAC THEN | |
| MATCH_MP_TAC FINITE_SUBSET THEN EXISTS_TAC `g:A->bool` THEN | |
| ASM_REWRITE_TAC[SUBSET]);; | |
| (* ------------------------------------------------------------------------- *) | |
| (* Traditional statement is only part of this. *) | |
| (* ------------------------------------------------------------------------- *) | |
| let GROUP_LAGRANGE = prove | |
| (`!g h ( ** ) i e. | |
| group (g,( ** ),i,e:A) /\ subgroup h (g,( ** ),i,e) /\ FINITE g | |
| ==> (CARD h) divides (CARD g)`, | |
| REPEAT GEN_TAC THEN DISCH_THEN(MP_TAC o MATCH_MP GROUP_LAGRANGE_COSETS) THEN | |
| MESON_TAC[DIVIDES_LMUL; DIVIDES_REFL]);; | |