# HG changeset patch # User paulson # Date 995016665 -7200 # Node ID 5e1e952002e5b66bfe607fcf3049960de14996f1 # Parent e8095c2d3947e29c0d904996d29cfcc861b28d49 index file diff -r e8095c2d3947 -r 5e1e952002e5 doc-src/TutorialI/tutorial.ind --- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/doc-src/TutorialI/tutorial.ind Fri Jul 13 11:31:05 2001 +0200 @@ -0,0 +1,676 @@ +\begin{theindex} + + \item \emph {$\forall \tmspace +\thinmuskip {.1667em}$}, \bold{3}, + \bold{189} + \item \ttall, \bold{189} + \item \emph {$\exists \tmspace +\thinmuskip {.1667em}$}, \bold{3}, + \bold{189} + \item \texttt{?}, \hyperpage{5}, \bold{189} + \item \emph {$\varepsilon $}, \bold{189} + \item \isasymuniqex, \bold{3}, \bold{189} + \item \ttuniquex, \bold{189} + \item \emph {$\wedge $}, \bold{3}, \bold{189} + \item {\texttt {\&}}, \bold{189} + \item \texttt {=}, \bold{3} + \item \emph {$\DOTSB \relbar \joinrel \rightarrow $}, \bold{3}, + \bold{189} + \item \texttt {-->}, \bold{189} + \item \emph {$\neg $}, \bold{3}, \bold{189} + \item \verb$~$, \bold{189} + \item \emph {$\not =$}, \bold{189} + \item \verb$~=$, \bold{189} + \item \emph {$\vee $}, \bold{3}, \bold{189} + \item \ttor, \bold{189} + \item \emph {$\circ $}, \bold{189} + \item \emph {$\mid $}\nobreakspace {}\emph {$\mid $}, \bold{189} + \item \texttt {*}, \bold{20, 21}, \bold{189} + \item \texttt {+}, \bold{20, 21} + \item \texttt {-}, \bold{20, 21} + \item \emph {$\le $}, \bold{20, 21}, \bold{189} + \item \texttt {<=}, \bold{189} + \item \texttt {<}, \bold{20, 21} + \item \texttt{[]}, \bold{7} + \item \texttt{\#}, \bold{7} + \item \texttt{\at}, \bold{8}, \hyperpage{189} + \item \emph {$\in $}, \bold{189} + \item \texttt {:}, \bold{189} + \item \isasymnotin, \bold{189} + \item \verb$~:$, \bold{189} + \item \emph {$\subseteq $}, \bold{189} + \item \emph {$\subset $}, \bold{189} + \item \emph {$\cap $}, \bold{189} + \item \emph {$\cup $}, \bold{189} + \item \isasymInter, \bold{189} + \item \isasymUnion, \bold{189} + \item \isasyminverse, \bold{189} + \item \verb$^-1$, \bold{189} + \item \isactrlsup{\isacharasterisk}, \bold{189} + \item \verb$^$\texttt{*}, \bold{189} + \item \isasymAnd, \bold{10}, \bold{189} + \item \ttAnd, \bold{189} + \item \emph {$\equiv $}, \bold{23}, \bold{189} + \item \texttt {==}, \bold{189} + \item \emph {$\rightleftharpoons $}, \bold{23}, \bold{189} + \item \emph {$\rightharpoonup $}, \bold{23}, \bold{189} + \item \emph {$\leftharpoondown $}, \bold{23}, \bold{189} + \item \emph {$\Rightarrow $}, \bold{3}, \bold{189} + \item \texttt {=>}, \bold{189} + \item \texttt {<=}, \bold{189} + \item \emph {$\DOTSB \Relbar \joinrel \Rightarrow $}, \bold{189} + \item \texttt {==>}, \bold{189} + \item \emph {$\mathopen {[\mkern -3mu[}$}, \bold{10}, \bold{189} + \item \ttlbr, \bold{189} + \item \emph {$\mathclose {]\mkern -3mu]}$}, \bold{10}, \bold{189} + \item \ttrbr, \bold{189} + \item \emph {$\lambda $}, \bold{3}, \bold{189} + \item \texttt {\%}, \bold{189} + \item \texttt {,}, \bold{29} + \item \texttt {;}, \bold{5} + \item \emph {$\times $}, \bold{21}, \bold{189} + \item \texttt {'a}, \bold{3} + \item \texttt {()}, \bold{22} + \item \texttt {::}, \bold{4} + \item \isa {+} (tactical), \hyperpage{83} + \item \isa {<*lex*>}, \see{lexicographic product}{1} + \item \isa {?} (tactical), \hyperpage{83} + \item \texttt{|} (tactical), \hyperpage{83} + + \indexspace + + \item \isa {0}, \bold{20} + \item \texttt {0}, \bold{21} + + \indexspace + + \item abandon proof, \bold{11} + \item abandon theory, \bold{14} + \item \texttt {abs}, \bold{189} + \item \isa {abs_mult} (theorem), \bold{135} + \item \isa {add_2_eq_Suc} (theorem), \bold{133} + \item \isa {add_2_eq_Suc'} (theorem), \bold{133} + \item \isa {add_assoc} (theorem), \bold{134} + \item \isa {add_commute} (theorem), \bold{134} + \item \isa {add_left_commute} (theorem), \bold{134} + \item \isa {add_mult_distrib} (theorem), \bold{133} + \item \texttt {ALL}, \bold{189} + \item \isa {All} (constant), \hyperpage{93} + \item \isa {allE} (theorem), \bold{65} + \item \isa {allI} (theorem), \bold{64} + \item \isa {analz_Crypt_if} (theorem), \bold{186} + \item \isa {analz_idem} (theorem), \bold{180} + \item \isa {analz_mono} (theorem), \bold{180} + \item \isa {analz_synth} (theorem), \bold{180} + \item \isa {append_take_drop_id} (theorem), \bold{127} + \item apply, \bold{13} + \item \isa {arg_cong} (theorem), \bold{80} + \item \isa {arith}, \bold{21} + \item arithmetic, \hyperpage{20--21}, \hyperpage{31} + \item \textsc {ascii} symbols, \bold{189} + \item associative-commutative function, \hyperpage{158} + \item \isa {assumption} (method), \hyperpage{53} + \item assumptions + \subitem renaming, \hyperpage{66--67} + \subitem reusing, \hyperpage{67} + \item \isa {auto}, \hyperpage{36} + \item \isa {auto} (method), \hyperpage{76} + \item \isa {axclass}, \hyperpage{144--150} + \item axiom of choice, \hyperpage{70} + \item axiomatic type class, \hyperpage{144--150} + + \indexspace + + \item \isacommand {back} (command), \hyperpage{62} + \item \isa {Ball} (constant), \hyperpage{93} + \item \isa {ballI} (theorem), \bold{92} + \item \isa {best} (method), \hyperpage{75, 76} + \item \isa {Bex} (constant), \hyperpage{93} + \item \isa {bexE} (theorem), \bold{92} + \item \isa {bexI} (theorem), \bold{92} + \item \isa {bij_def} (theorem), \bold{94} + \item bijections, \hyperpage{94} + \item binomial coefficients, \hyperpage{93} + \item bisimulation, \bold{100} + \item \isa {blast} (method), \hyperpage{72--75} + \item \isa {bool}, \hyperpage{2}, \bold{3} + \item \isa {bspec} (theorem), \bold{92} + \item \isacommand{by} (command), \hyperpage{57} + + \indexspace + + \item \isa {card} (constant), \hyperpage{93} + \item \isa {card_Pow} (theorem), \bold{93} + \item \isa {card_Un_Int} (theorem), \bold{93} + \item cardinality, \hyperpage{93} + \item \isa {case}, \bold{3}, \hyperpage{4}, \bold{16}, + \hyperpage{30, 31} + \item case distinction, \bold{17} + \item case splits, \bold{29} + \item \isa {case_tac}, \bold{17} + \item \isa {case_tac} (method), \hyperpage{85} + \item \isa {clarify} (method), \hyperpage{74}, \hyperpage{76} + \item \isa {clarsimp} (method), \hyperpage{75, 76} + \item \isa {classical} (theorem), \bold{57} + \item closure + \subitem reflexive and transitive, \hyperpage{96--98} + \item \isa {coinduct} (theorem), \bold{100} + \item coinduction, \bold{100} + \item \isa {Collect} (constant), \hyperpage{93} + \item \isa {Collect_mem_eq} (theorem), \bold{91} + \item \isa {comp_def} (theorem), \bold{96} + \item \isa {comp_mono} (theorem), \bold{96} + \item \isa {Compl_iff} (theorem), \bold{90} + \item \isa {Compl_partition} (theorem), \bold{90} + \item \isa {Compl_Un} (theorem), \bold{90} + \item complement + \subitem of a set, \hyperpage{89} + \item composition + \subitem of functions, \bold{94} + \subitem of relations, \bold{96} + \item congruence rules, \bold{157} + \item \isa {conjE} (theorem), \bold{55} + \item \isa {conjI} (theorem), \bold{52} + \item \isa {Cons}, \bold{7} + \item \isa {constdefs}, \bold{23} + \item \isa {contrapos_nn} (theorem), \bold{57} + \item \isa {contrapos_np} (theorem), \bold{57} + \item \isa {contrapos_pn} (theorem), \bold{57} + \item \isa {contrapos_pp} (theorem), \bold{57} + \item contrapositives, \hyperpage{57} + \item converse + \subitem of a relation, \bold{96} + \item \isa {converse_comp} (theorem), \bold{96} + \item \isa {converse_iff} (theorem), \bold{96} + \item CTL, \hyperpage{100--110} + + \indexspace + + \item \isa {datatype}, \hyperpage{7}, \hyperpage{36--42} + \item \isa {defer}, \bold{14} + \item \isacommand {defer} (command), \hyperpage{84} + \item definition, \bold{23} + \subitem unfolding, \bold{28} + \item \isa {defs}, \bold{23} + \item descriptions + \subitem definite, \hyperpage{69} + \subitem indefinite, \hyperpage{70} + \item \isa {dest} (attribute), \hyperpage{86} + \item destruction rules, \hyperpage{55} + \item \isa {Diff_disjoint} (theorem), \bold{90} + \item \isa {diff_mult_distrib} (theorem), \bold{133} + \item difference + \subitem of sets, \bold{90} + \item \isa {disjCI} (theorem), \bold{58} + \item \isa {disjE} (theorem), \bold{54} + \item \isa {div}, \bold{20} + \item \isa {div_le_mono} (theorem), \bold{133} + \item \isa {div_mult1_eq} (theorem), \bold{133} + \item \isa {div_mult2_eq} (theorem), \bold{133} + \item \isa {div_mult_mult1} (theorem), \bold{133} + \item divides relation, \bold{68}, \hyperpage{78}, \hyperpage{85--87} + \item \isa {DIVISION_BY_ZERO_DIV} (theorem), \bold{134} + \item \isa {DIVISION_BY_ZERO_MOD} (theorem), \bold{134} + \item domain + \subitem of a relation, \hyperpage{96} + \item \isa {Domain_iff} (theorem), \bold{96} + \item done, \bold{11} + \item \isa {drule_tac} (method), \hyperpage{60}, \hyperpage{80} + \item \isa {dvd_add} (theorem), \bold{79}, \bold{134} + \item \isa {dvd_anti_sym} (theorem), \bold{134} + \item \isa {dvd_def} (theorem), \bold{68}, \bold{78}, \bold{134} + \item \isa {dvd_mod} (theorem), \bold{87} + \item \isa {dvd_mod_imp_dvd} (theorem), \bold{86} + \item \isa {dvd_refl} (theorem), \bold{79} + \item \isa {dvd_trans} (theorem), \bold{87} + + \indexspace + + \item \isa {elim!} (attribute), \hyperpage{115} + \item elimination rules, \hyperpage{53--54} + \item \isa {Eps} (constant), \hyperpage{93} + \item equality + \subitem of functions, \bold{93} + \subitem of sets, \bold{90} + \item \isa {equalityE} (theorem), \bold{90} + \item \isa {equalityI} (theorem), \bold{90} + \item \isa {erule}, \hyperpage{54} + \item \isa {erule_tac} (method), \hyperpage{60} + \item Euclid's algorithm, \hyperpage{85--87} + \item even numbers + \subitem defining inductively, \hyperpage{111--115} + \item \isa {even.cases} (theorem), \bold{114} + \item \isa {even.induct} (theorem), \bold{112} + \item \isa {even.step} (theorem), \bold{112} + \item \isa {even.zero} (theorem), \bold{112} + \item \texttt {EX}, \bold{189} + \item \isa {Ex} (constant), \hyperpage{93} + \item \isa {exE} (theorem), \bold{66} + \item \isa {exI} (theorem), \bold{66} + \item \isa {expand_fun_eq} (theorem), \bold{94} + \item \isa {ext} (theorem), \bold{93} + \item extensionality + \subitem for functions, \bold{93, 94} + \subitem for sets, \bold{90} + \item \ttEXU, \bold{189} + + \indexspace + + \item \isa {False}, \bold{3} + \item \isa {fast} (method), \hyperpage{75, 76} + \item \isa {finite} (symbol), \hyperpage{93} + \item \isa {Finites} (constant), \hyperpage{93} + \item fixed points, \hyperpage{100} + \item flag, \hyperpage{3, 4}, \hyperpage{31} + \subitem (re)setting, \bold{3} + \item \isa {force} (method), \hyperpage{75, 76} + \item formula, \bold{3} + \item forward proof, \hyperpage{76--82} + \item \isa {frule} (method), \hyperpage{67} + \item \isa {frule_tac} (method), \hyperpage{60} + \item \isa {fst}, \bold{21} + \item \isa {fun_upd_apply} (theorem), \bold{94} + \item \isa {fun_upd_upd} (theorem), \bold{94} + \item functions, \hyperpage{93--95} + + \indexspace + + \item \isa {gcd} (constant), \hyperpage{76--78}, \hyperpage{85--87} + \item \isa {gcd_mult_distrib2} (theorem), \bold{77} + \item generalizing for induction, \hyperpage{113} + \item \isa {gfp_unfold} (theorem), \bold{100} + \item Girard, Jean-Yves, \fnote{55} + \item ground terms example, \hyperpage{119--124} + \item \isa {gterm_Apply_elim} (theorem), \bold{123} + + \indexspace + + \item \isa {hd}, \bold{15} + \item higher-order pattern, \bold{159} + \item Hilbert's $\varepsilon$-operator, \hyperpage{69--71} + + \indexspace + + \item \isa {Id_def} (theorem), \bold{96} + \item \isa {id_def} (theorem), \bold{94} + \item identifier, \bold{4} + \subitem qualified, \bold{2} + \item identity function, \bold{94} + \item identity relation, \bold{96} + \item \isa {if}, \bold{3}, \hyperpage{4} + \item \isa {iff} (attribute), \hyperpage{73, 74}, \hyperpage{86}, + \hyperpage{114} + \item \isa {iffD1} (theorem), \bold{78} + \item \isa {iffD2} (theorem), \bold{78} + \item image + \subitem under a function, \bold{95} + \subitem under a relation, \bold{96} + \item \isa {image_compose} (theorem), \bold{95} + \item \isa {image_def} (theorem), \bold{95} + \item \isa {Image_iff} (theorem), \bold{96} + \item \isa {image_Int} (theorem), \bold{95} + \item \isa {image_Un} (theorem), \bold{95} + \item \isa {impI} (theorem), \bold{56} + \item implication, \hyperpage{56--57} + \item \isa {induct_tac}, \hyperpage{10}, \hyperpage{17}, + \hyperpage{50}, \hyperpage{172} + \item induction, \hyperpage{168--175} + \subitem recursion, \hyperpage{49--50} + \subitem structural, \bold{17} + \subitem well-founded, \hyperpage{99} + \item \isacommand {inductive} (command), \hyperpage{111} + \item inductive definition, \hyperpage{111--129} + \subitem simultaneous, \hyperpage{125} + \item \isacommand {inductive\_cases} (command), \hyperpage{115}, + \hyperpage{123} + \item \isa {infixr}, \bold{8} + \item \isa {inj_on_def} (theorem), \bold{94} + \item injections, \hyperpage{94} + \item inner syntax, \bold{9} + \item \isa {insert} (constant), \hyperpage{91} + \item \isa {insert} (method), \hyperpage{80--82} + \item \isa {insert_is_Un} (theorem), \bold{91} + \item instance, \bold{145} + \item \texttt {INT}, \bold{189} + \item \texttt {Int}, \bold{189} + \item \isa {INT_iff} (theorem), \bold{92} + \item \isa {IntD1} (theorem), \bold{89} + \item \isa {IntD2} (theorem), \bold{89} + \item \isa {INTER} (constant), \hyperpage{93} + \item \texttt {Inter}, \bold{189} + \item \isa {Inter_iff} (theorem), \bold{92} + \item intersection, \hyperpage{89} + \subitem indexed, \hyperpage{92} + \item \isa {IntI} (theorem), \bold{89} + \item \isa {intro} (method), \hyperpage{58} + \item \isa {intro!} (attribute), \hyperpage{112} + \item introduction rules, \hyperpage{52--53} + \item \isa {inv} (constant), \hyperpage{70} + \item \isa {inv_def} (theorem), \bold{70} + \item \isa {inv_f_f} (theorem), \bold{94} + \item \isa {inv_image_def} (theorem), \bold{99} + \item \isa {inv_inv_eq} (theorem), \bold{94} + \item inverse + \subitem of a function, \bold{94} + \subitem of a relation, \bold{96} + \item inverse image + \subitem of a function, \hyperpage{95} + \subitem of a relation, \hyperpage{98} + + \indexspace + + \item \isa {kill}, \bold{14} + + \indexspace + + \item \isa {le_less_trans} (theorem), \bold{171} + \item \isa {LEAST}, \bold{20} + \item least number operator, \hyperpage{69} + \item lemma, \hyperpage{11} + \item \isa {lemma}, \bold{11} + \item \isacommand {lemmas} (command), \hyperpage{77}, \hyperpage{86} + \item \isa {length}, \bold{15} + \item \isa {length_induct}, \bold{172} + \item \isa {less_than} (constant), \hyperpage{98} + \item \isa {less_than_iff} (theorem), \bold{98} + \item \isa {let}, \bold{3}, \hyperpage{4}, \hyperpage{29} + \item \isa {lex_prod_def} (theorem), \bold{99} + \item lexicographic product, \bold{99}, \hyperpage{160} + \item {\texttt{lfp}} + \subitem applications of, \see{CTL}{100} + \item \isa {lfp_induct} (theorem), \bold{100} + \item \isa {lfp_unfold} (theorem), \bold{100} + \item linear arithmetic, \bold{21} + \item \isa {list}, \hyperpage{2}, \bold{7}, \bold{15} + \item \isa {lists_Int_eq} (theorem), \bold{123} + \item \isa {lists_mono} (theorem), \bold{121} + + \indexspace + + \item \isa {Main}, \bold{2} + \item major premise, \bold{59} + \item \isa {max}, \bold{20, 21} + \item measure function, \bold{45}, \bold{98} + \item \isa {measure_def} (theorem), \bold{99} + \item \isa {mem_Collect_eq} (theorem), \bold{91} + \item meta-logic, \bold{64} + \item method, \bold{14} + \item \isa {min}, \bold{20, 21} + \item \isa {mod}, \bold{20} + \item \isa {mod_div_equality} (theorem), \bold{81}, \bold{133} + \item \isa {mod_if} (theorem), \bold{133} + \item \isa {mod_mult1_eq} (theorem), \bold{133} + \item \isa {mod_mult2_eq} (theorem), \bold{133} + \item \isa {mod_mult_distrib} (theorem), \bold{133} + \item \isa {mod_Suc} (theorem), \bold{80} + \item \emph{modus ponens}, \hyperpage{51}, \hyperpage{56} + \item \isa {mono_def} (theorem), \bold{100} + \item \isa {mono_Int} (theorem), \bold{123} + \item \isa {monoD} (theorem), \bold{100} + \item \isa {monoI} (theorem), \bold{100} + \item monotone functions, \bold{100}, \hyperpage{123} + \subitem and inductive definitions, \hyperpage{121--122} + \item \isa {mp} (theorem), \bold{56} + \item \isa {mult_commute} (theorem), \bold{61} + \item \isa {mult_le_mono} (theorem), \bold{133} + \item \isa {mult_le_mono1} (theorem), \bold{80} + \item \isa {mult_less_mono1} (theorem), \bold{133} + \item multiset ordering, \bold{99} + + \indexspace + + \item \isa {n_subsets} (theorem), \bold{93} + \item \isa {nat}, \hyperpage{2}, \bold{20} + \item \isa {nat_diff_split} (theorem), \bold{134} + \item natural deduction, \hyperpage{51--52} + \item \isa {neg_mod_bound} (theorem), \bold{135} + \item \isa {neg_mod_sign} (theorem), \bold{135} + \item negation, \hyperpage{57--59} + \item \isa {Nil}, \bold{7} + \item \isa {no_asm}, \bold{27} + \item \isa {no_asm_simp}, \bold{27} + \item \isa {no_asm_use}, \bold{28} + \item \isa {None}, \bold{22} + \item \isa {notE} (theorem), \bold{57} + \item \isa {notI} (theorem), \bold{57} + \item \isa {numeral_0_eq_0} (theorem), \bold{133} + \item \isa {numeral_1_eq_1} (theorem), \bold{133} + + \indexspace + + \item \isa {O} (symbol), \hyperpage{96} + \item \texttt {o}, \bold{189} + \item \isa {o_assoc} (theorem), \bold{94} + \item \isa {o_def} (theorem), \bold{94} + \item \isa {OF} (attribute), \hyperpage{78--79} + \item \isa {of} (attribute), \hyperpage{77}, \hyperpage{79} + \item \isa {oops}, \bold{11} + \item \isa {option}, \bold{22} + \item \isa {order_antisym} (theorem), \bold{69} + \item ordered rewriting, \bold{158} + \item outer syntax, \bold{9} + \item overloading, \hyperpage{144--146} + + \indexspace + + \item pair, \bold{21}, \hyperpage{137--140} + \item parent theory, \bold{2} + \item partial function, \hyperpage{164} + \item pattern, higher-order, \bold{159} + \item PDL, \hyperpage{102--105} + \item permutative rewrite rule, \bold{158} + \item \isa {pos_mod_bound} (theorem), \bold{135} + \item \isa {pos_mod_sign} (theorem), \bold{135} + \item \isa {pr}, \bold{14} + \item \isacommand {pr} (command), \hyperpage{83} + \item \isa {prefer}, \bold{14} + \item \isacommand {prefer} (command), \hyperpage{84} + \item primitive recursion, \bold{16} + \item \isa {primrec}, \hyperpage{8}, \bold{16}, \hyperpage{36--42} + \item product type, \see{pair}{1} + \item proof + \subitem abandon, \bold{11} + \item Proof General, \bold{5} + \item proofs + \subitem examples of failing, \hyperpage{71--72} + + \indexspace + + \item quantifiers + \subitem and inductive definitions, \hyperpage{119--121} + \subitem existential, \hyperpage{66} + \subitem for sets, \hyperpage{92} + \subitem instantiating, \hyperpage{68} + \subitem universal, \hyperpage{63--66} + + \indexspace + + \item \isa {r_into_rtrancl} (theorem), \bold{96} + \item \isa {r_into_trancl} (theorem), \bold{97} + \item \isa {R_O_Id} (theorem), \bold{96} + \item range + \subitem of a function, \hyperpage{95} + \subitem of a relation, \hyperpage{96} + \item \isa {range} (symbol), \hyperpage{95} + \item \isa {Range_iff} (theorem), \bold{96} + \item \isa {real_add_divide_distrib} (theorem), \bold{136} + \item \isa {real_dense} (theorem), \bold{136} + \item \isa {real_divide_divide1_eq} (theorem), \bold{136} + \item \isa {real_divide_divide2_eq} (theorem), \bold{136} + \item \isa {real_divide_minus_eq} (theorem), \bold{136} + \item \isa {real_minus_divide_eq} (theorem), \bold{136} + \item \isa {real_times_divide1_eq} (theorem), \bold{136} + \item \isa {real_times_divide2_eq} (theorem), \bold{136} + \item \isa {realpow_abs} (theorem), \bold{136} + \item \isa {recdef}, \hyperpage{45--50}, \hyperpage{160--168} + \item \isacommand {recdef} (command), \hyperpage{98} + \item \isa {recdef_cong}, \bold{164} + \item \isa {recdef_simp}, \bold{47} + \item \isa {recdef_wf}, \bold{162} + \item recursion + \subitem well-founded, \bold{161} + \item recursion induction, \hyperpage{49--50} + \item \isa {redo}, \bold{14} + \item relations, \hyperpage{95--98} + \subitem well-founded, \hyperpage{98--99} + \item \isa {relprime_dvd_mult} (theorem), \bold{78} + \item \isa {rename_tac} (method), \hyperpage{66--67} + \item \isa {rev}, \bold{8} + \item rewrite rule, \bold{26} + \subitem permutative, \bold{158} + \item rewriting, \bold{26} + \subitem ordered, \bold{158} + \item \isa {rotate_tac}, \bold{28} + \item \isa {rtrancl_idemp} (theorem), \bold{97} + \item \isa {rtrancl_induct} (theorem), \bold{97} + \item \isa {rtrancl_refl} (theorem), \bold{96} + \item \isa {rtrancl_trans} (theorem), \bold{96} + \item \isa {rtrancl_unfold} (theorem), \bold{96} + \item rule induction, \hyperpage{112--114} + \item rule inversion, \hyperpage{114--115}, \hyperpage{123--124} + \item \isa {rule_tac} (method), \hyperpage{60} + \subitem and renaming, \hyperpage{67} + + \indexspace + + \item \isa {safe} (method), \hyperpage{75, 76} + \item safe rules, \bold{73} + \item schematic variable, \bold{4} + \item \isa {set}, \hyperpage{2} + \item {\textit {set}} (type), \hyperpage{89} + \item set comprehensions, \hyperpage{91--92} + \item \isa {set_ext} (theorem), \bold{90} + \item sets, \hyperpage{89--93} + \subitem finite, \hyperpage{93} + \subitem notation for finite, \bold{91} + \item \isa {show_brackets}, \bold{4} + \item \isa {show_types}, \bold{3} + \item \texttt {show_types}, \hyperpage{14} + \item \isa {simp} (attribute), \bold{9}, \hyperpage{26} + \item \isa {simp} (method), \bold{26} + \item \isa {simp_all}, \hyperpage{26}, \hyperpage{36} + \item simplification, \hyperpage{25--32}, \hyperpage{157--160} + \subitem of let-expressions, \hyperpage{29} + \subitem ordered, \bold{158} + \subitem with definitions, \hyperpage{28} + \subitem with/of assumptions, \hyperpage{27} + \item simplification rule, \bold{26}, \hyperpage{159--160} + \item \isa {simplified} (attribute), \hyperpage{77}, \hyperpage{79} + \item simplifier, \bold{25} + \item \isa {size}, \bold{15} + \item \isa {snd}, \bold{21} + \item \isa {SOME} (symbol), \hyperpage{69} + \item \texttt {SOME}, \bold{189} + \item \isa {Some}, \bold{22} + \item \isa {some_equality} (theorem), \bold{69} + \item \isa {someI} (theorem), \bold{70}, \bold{75} + \item \isa {someI2} (theorem), \bold{70} + \item \isa {someI_ex} (theorem, \bold){71} + \item sort, \bold{150} + \item \isa {spec} (theorem), \bold{64} + \item \isa {split} (constant), \bold{137} + \item \isa {split} (method, attr.), \hyperpage{29--31} + \item split rule, \bold{30} + \item \isa {split_if}, \bold{30} + \item \isa {ssubst} (theorem), \bold{61} + \item structural induction, \bold{17} + \item \isa {subgoal_tac} (method), \hyperpage{81, 82} + \item subset relation, \bold{90} + \item \isa {subsetD} (theorem), \bold{90} + \item \isa {subsetI} (theorem), \bold{90} + \item \isa {subst} (method), \hyperpage{61} + \item substitution, \hyperpage{61--63} + \item \isa {Suc}, \bold{20} + \item \isa {Suc_leI} (theorem), \bold{171} + \item \isa {Suc_Suc_cases} (theorem), \bold{115} + \item \isa {surj_def} (theorem), \bold{94} + \item \isa {surj_f_inv_f} (theorem), \bold{94} + \item surjections, \hyperpage{94} + \item \isa {sym} (theorem), \bold{77} + \item syntax translation, \bold{23} + + \indexspace + + \item tactic, \bold{10} + \item tacticals, \hyperpage{82--83} + \item term, \bold{3} + \item \isa {term}, \bold{14} + \item term rewriting, \bold{26} + \item termination, \see{total function}{1} + \item \isa {THEN} (attribute), \bold{77}, \hyperpage{79}, + \hyperpage{86} + \item theorem, \hyperpage{11} + \item \isa {theorem}, \bold{9}, \hyperpage{11} + \item theory, \bold{2} + \subitem abandon, \bold{14} + \item theory file, \bold{2} + \item \isa {thm}, \bold{14} + \item \isa {tl}, \bold{15} + \item total function, \hyperpage{9} + \item \isa {trace_simp}, \bold{31} + \item tracing the simplifier, \bold{31} + \item \isa {trancl_converse} (theorem), \bold{97} + \item \isa {trancl_trans} (theorem), \bold{97} + \item \isa {translations}, \bold{23} + \item \isa {True}, \bold{3} + \item tuple, \see{pair}{1} + \item \isa {typ}, \bold{14} + \item type, \bold{2} + \item type constraint, \bold{4} + \item type declaration, \bold{150} + \item type definition, \bold{151} + \item type inference, \bold{3} + \item type synonym, \bold{22} + \item type variable, \bold{3} + \item \isa {typedecl}, \bold{151} + \item \isa {typedef}, \bold{151} + \item \isa {types}, \bold{22} + + \indexspace + + \item \texttt {UN}, \bold{189} + \item \texttt {Un}, \bold{189} + \item \isa {UN_E} (theorem), \bold{92} + \item \isa {UN_I} (theorem), \bold{92} + \item \isa {UN_iff} (theorem), \bold{92} + \item \isa {Un_subset_iff} (theorem), \bold{90} + \item underdefined function, \hyperpage{165} + \item \isa {undo}, \bold{14} + \item \isa {unfold}, \bold{28} + \item unification, \hyperpage{60--63} + \item \isa {UNION} (constant), \hyperpage{93} + \item \texttt {Union}, \bold{189} + \item union + \subitem indexed, \hyperpage{92} + \item \isa {Union_iff} (theorem), \bold{92} + \item \isa {unit}, \bold{22} + \item unknown, \bold{4} + \item unknowns, \bold{52} + \item unsafe rules, \bold{73} + \item updating a function, \bold{93} + + \indexspace + + \item variable, \bold{4} + \subitem schematic, \bold{4} + \subitem type, \bold{3} + \item \isa {vimage_Compl} (theorem), \bold{95} + \item \isa {vimage_def} (theorem), \bold{95} + + \indexspace + + \item \isa {wf_induct} (theorem), \bold{99} + \item \isa {wf_inv_image} (theorem), \bold{99} + \item \isa {wf_less_than} (theorem), \bold{98} + \item \isa {wf_lex_prod} (theorem), \bold{99} + \item \isa {wf_measure} (theorem), \bold{99} + \item \isa {while}, \bold{167} + + \indexspace + + \item \isa {zdiv_zadd1_eq} (theorem), \bold{135} + \item \isa {zdiv_zmult1_eq} (theorem), \bold{135} + \item \isa {zdiv_zmult2_eq} (theorem), \bold{135} + \item \isa {zmod_zadd1_eq} (theorem), \bold{135} + \item \isa {zmod_zmult1_eq} (theorem), \bold{135} + \item \isa {zmod_zmult2_eq} (theorem), \bold{135} + +\end{theindex}