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NEWS

author | blanchet |

Fri, 27 May 2011 10:30:07 +0200 | |

changeset 43007 | b48aa3492f0b |

parent 42897 | 6bc8a6dcb3e0 |

child 43206 | 831d28439b3a |

permissions | -rw-r--r-- |

minor doc adjustments

Isabelle NEWS -- history user-relevant changes ============================================== New in this Isabelle version ---------------------------- *** General *** * Theory loader: source files are identified by content via SHA1 digests. Discontinued former path/modtime identification and optional ISABELLE_FILE_IDENT plugin scripts. * Parallelization of nested Isar proofs is subject to Goal.parallel_proofs_threshold (default 100). See also isabelle usedir option -Q. * Discontinued support for Poly/ML 5.2, which was the last version without proper multithreading and TimeLimit implementation. * Discontinued old lib/scripts/polyml-platform, which has been obsolete since Isabelle2009-2. * Theory loader: source files are exclusively located via the master directory of each theory node (where the .thy file itself resides). The global load path (such as src/HOL/Library) is has been discontinued. INCOMPATIBILITY. * Various optional external tools are referenced more robustly and uniformly by explicit Isabelle settings as follows: ISABELLE_CSDP (formerly CSDP_EXE) ISABELLE_GHC (formerly EXEC_GHC or GHC_PATH) ISABELLE_OCAML (formerly EXEC_OCAML) ISABELLE_SWIPL (formerly EXEC_SWIPL) ISABELLE_YAP (formerly EXEC_YAP) Note that automated detection from the file-system or search path has been discontinued. INCOMPATIBILITY. * Name space: former unsynchronized references are now proper configuration options, with more conventional names: long_names ~> names_long short_names ~> names_short unique_names ~> names_unique Minor INCOMPATIBILITY, need to declare options in context like this: declare [[names_unique = false]] * Literal facts `prop` may contain dummy patterns, e.g. `_ = _`. Note that the result needs to be unique, which means fact specifications may have to be refined after enriching a proof context. * Isabelle/Isar reference manual provides more formal references in syntax diagrams. *** HOL *** * Finite_Set.thy: more coherent development of fold_set locales: locale fun_left_comm ~> locale comp_fun_commute locale fun_left_comm_idem ~> locale comp_fun_idem Both use point-free characterisation; interpretation proofs may need adjustment. INCOMPATIBILITY. * Code generation: - theory Library/Code_Char_ord provides native ordering of characters in the target language. * Declare ext [intro] by default. Rare INCOMPATIBILITY. * Nitpick: - Added "need" and "total_consts" options. - Reintroduced "show_skolems" option by popular demand. - Renamed attribute: nitpick_def ~> nitpick_unfold. INCOMPATIBILITY. * Sledgehammer: - sledgehammer available_provers ~> sledgehammer supported_provers INCOMPATIBILITY. - Added support for SNARK and ToFoF-E on SystemOnTPTP and for simply typed TPTP problems (TFF). - Added "type_sys", "max_mono_iters", and "max_new_mono_instances" options. * "try": - Added "simp:", "intro:", and "elim:" options. * Quickcheck: - Added "eval" option to evaluate terms for the found counterexample (currently only supported by the default (exhaustive) tester) - Added post-processing of terms to obtain readable counterexamples (currently only supported by the default (exhaustive) tester) * Function package: discontinued option "tailrec". INCOMPATIBILITY. Use partial_function instead. * HOL-Probability: - Caratheodory's extension lemma is now proved for ring_of_sets. - Infinite products of probability measures are now available. - Use extended reals instead of positive extended reals. INCOMPATIBILITY. *** Document preparation *** * Antiquotation @{rail} layouts railroad syntax diagrams, see also isar-ref manual. * Localized \isabellestyle switch can be used within blocks or groups like this: \isabellestyle{it} %preferred default {\isabellestylett @{text "typewriter stuff"}} * New term style "isub" as ad-hoc conversion of variables x1, y23 into subscripted form x\<^isub>1, y\<^isub>2\<^isub>3. * Predefined LaTeX macros for Isabelle symbols \<bind> and \<then> (e.g. see ~~/src/HOL/Library/Monad_Syntax.thy). *** ML *** * Isabelle_Process.is_active allows tools to check if the official process wrapper is running (Isabelle/Scala/jEdit) or the old TTY loop (better known as Proof General). * Structure Proof_Context follows standard naming scheme. Old ProofContext is still available for some time as legacy alias. * Structure Timing provides various operations for timing; supersedes former start_timing/end_timing etc. * Path.print is the official way to show file-system paths to users (including quotes etc.). * Inner syntax: identifiers in parse trees of generic categories "logic", "aprop", "idt" etc. carry position information (disguised as type constraints). Occasional INCOMPATIBILITY with non-compliant translations that choke on unexpected type constraints. Positions can be stripped in ML translations via Syntax.strip_positions / Syntax.strip_positions_ast, or via the syntax constant "_strip_positions" within parse trees. As last resort, positions can be disabled via the configuration option Syntax.positions, which is called "syntax_positions" in Isar attribute syntax. * Discontinued special status of various ML structures that contribute to structure Syntax (Ast, Lexicon, Mixfix, Parser, Printer etc.): less pervasive content, no inclusion in structure Syntax. INCOMPATIBILITY, refer directly to Ast.Constant, Lexicon.is_identifier, Syntax_Trans.mk_binder_tr etc. * Typed print translation: discontinued show_sorts argument, which is already available via context of "advanced" translation. * Refined PARALLEL_GOALS tactical: degrades gracefully for schematic goal states; body tactic needs to address all subgoals uniformly. * Slightly more special eq_list/eq_set, with shortcut involving pointer equality (assumes that eq relation is reflexive). * Classical tactics use proper Proof.context instead of historic types claset/clasimpset. Old-style declarations like addIs, addEs, addDs operate directly on Proof.context. Raw type claset retains its use as snapshot of the classical context, which can be recovered via (put_claset HOL_cs) etc. Type clasimpset has been discontinued. INCOMPATIBILITY, classical tactics and derived proof methods require proper Proof.context. New in Isabelle2011 (January 2011) ---------------------------------- *** General *** * Experimental Prover IDE based on Isabelle/Scala and jEdit (see src/Tools/jEdit). This also serves as IDE for Isabelle/ML, with useful tooltips and hyperlinks produced from its static analysis. The bundled component provides an executable Isabelle tool that can be run like this: Isabelle2011/bin/isabelle jedit * Significantly improved Isabelle/Isar implementation manual. * System settings: ISABELLE_HOME_USER now includes ISABELLE_IDENTIFIER (and thus refers to something like $HOME/.isabelle/Isabelle2011), while the default heap location within that directory lacks that extra suffix. This isolates multiple Isabelle installations from each other, avoiding problems with old settings in new versions. INCOMPATIBILITY, need to copy/upgrade old user settings manually. * Source files are always encoded as UTF-8, instead of old-fashioned ISO-Latin-1. INCOMPATIBILITY. Isabelle LaTeX documents might require the following package declarations: \usepackage[utf8]{inputenc} \usepackage{textcomp} * Explicit treatment of UTF-8 sequences as Isabelle symbols, such that a Unicode character is treated as a single symbol, not a sequence of non-ASCII bytes as before. Since Isabelle/ML string literals may contain symbols without further backslash escapes, Unicode can now be used here as well. Recall that Symbol.explode in ML provides a consistent view on symbols, while raw explode (or String.explode) merely give a byte-oriented representation. * Theory loader: source files are primarily located via the master directory of each theory node (where the .thy file itself resides). The global load path is still partially available as legacy feature. Minor INCOMPATIBILITY due to subtle change in file lookup: use explicit paths, relatively to the theory. * Special treatment of ML file names has been discontinued. Historically, optional extensions .ML or .sml were added on demand -- at the cost of clarity of file dependencies. Recall that Isabelle/ML files exclusively use the .ML extension. Minor INCOMPATIBILTY. * Various options that affect pretty printing etc. are now properly handled within the context via configuration options, instead of unsynchronized references or print modes. There are both ML Config.T entities and Isar declaration attributes to access these. ML (Config.T) Isar (attribute) eta_contract eta_contract show_brackets show_brackets show_sorts show_sorts show_types show_types show_question_marks show_question_marks show_consts show_consts show_abbrevs show_abbrevs Syntax.ast_trace syntax_ast_trace Syntax.ast_stat syntax_ast_stat Syntax.ambiguity_level syntax_ambiguity_level Goal_Display.goals_limit goals_limit Goal_Display.show_main_goal show_main_goal Method.rule_trace rule_trace Thy_Output.display thy_output_display Thy_Output.quotes thy_output_quotes Thy_Output.indent thy_output_indent Thy_Output.source thy_output_source Thy_Output.break thy_output_break Note that corresponding "..._default" references in ML may only be changed globally at the ROOT session setup, but *not* within a theory. The option "show_abbrevs" supersedes the former print mode "no_abbrevs" with inverted meaning. * More systematic naming of some configuration options. INCOMPATIBILITY. trace_simp ~> simp_trace debug_simp ~> simp_debug * Support for real valued configuration options, using simplistic floating-point notation that coincides with the inner syntax for float_token. * Support for real valued preferences (with approximative PGIP type): front-ends need to accept "pgint" values in float notation. INCOMPATIBILITY. * The IsabelleText font now includes Cyrillic, Hebrew, Arabic from DejaVu Sans. * Discontinued support for Poly/ML 5.0 and 5.1 versions. *** Pure *** * Command 'type_synonym' (with single argument) replaces somewhat outdated 'types', which is still available as legacy feature for some time. * Command 'nonterminal' (with 'and' separated list of arguments) replaces somewhat outdated 'nonterminals'. INCOMPATIBILITY. * Command 'notepad' replaces former 'example_proof' for experimentation in Isar without any result. INCOMPATIBILITY. * Locale interpretation commands 'interpret' and 'sublocale' accept lists of equations to map definitions in a locale to appropriate entities in the context of the interpretation. The 'interpretation' command already provided this functionality. * Diagnostic command 'print_dependencies' prints the locale instances that would be activated if the specified expression was interpreted in the current context. Variant "print_dependencies!" assumes a context without interpretations. * Diagnostic command 'print_interps' prints interpretations in proofs in addition to interpretations in theories. * Discontinued obsolete 'global' and 'local' commands to manipulate the theory name space. Rare INCOMPATIBILITY. The ML functions Sign.root_path and Sign.local_path may be applied directly where this feature is still required for historical reasons. * Discontinued obsolete 'constdefs' command. INCOMPATIBILITY, use 'definition' instead. * The "prems" fact, which refers to the accidental collection of foundational premises in the context, is now explicitly marked as legacy feature and will be discontinued soon. Consider using "assms" of the head statement or reference facts by explicit names. * Document antiquotations @{class} and @{type} print classes and type constructors. * Document antiquotation @{file} checks file/directory entries within the local file system. *** HOL *** * Coercive subtyping: functions can be declared as coercions and type inference will add them as necessary upon input of a term. Theory Complex_Main declares real :: nat => real and real :: int => real as coercions. A coercion function f is declared like this: declare [[coercion f]] To lift coercions through type constructors (e.g. from nat => real to nat list => real list), map functions can be declared, e.g. declare [[coercion_map map]] Currently coercion inference is activated only in theories including real numbers, i.e. descendants of Complex_Main. This is controlled by the configuration option "coercion_enabled", e.g. it can be enabled in other theories like this: declare [[coercion_enabled]] * Command 'partial_function' provides basic support for recursive function definitions over complete partial orders. Concrete instances are provided for i) the option type, ii) tail recursion on arbitrary types, and iii) the heap monad of Imperative_HOL. See src/HOL/ex/Fundefs.thy and src/HOL/Imperative_HOL/ex/Linked_Lists.thy for examples. * Function package: f.psimps rules are no longer implicitly declared as [simp]. INCOMPATIBILITY. * Datatype package: theorems generated for executable equality (class "eq") carry proper names and are treated as default code equations. * Inductive package: now offers command 'inductive_simps' to automatically derive instantiated and simplified equations for inductive predicates, similar to 'inductive_cases'. * Command 'enriched_type' allows to register properties of the functorial structure of types. * Improved infrastructure for term evaluation using code generator techniques, in particular static evaluation conversions. * Code generator: Scala (2.8 or higher) has been added to the target languages. * Code generator: globbing constant expressions "*" and "Theory.*" have been replaced by the more idiomatic "_" and "Theory._". INCOMPATIBILITY. * Code generator: export_code without explicit file declaration prints to standard output. INCOMPATIBILITY. * Code generator: do not print function definitions for case combinators any longer. * Code generator: simplification with rules determined with src/Tools/Code/code_simp.ML and method "code_simp". * Code generator for records: more idiomatic representation of record types. Warning: records are not covered by ancient SML code generation any longer. INCOMPATIBILITY. In cases of need, a suitable rep_datatype declaration helps to succeed then: record 'a foo = ... ... rep_datatype foo_ext ... * Records: logical foundation type for records does not carry a '_type' suffix any longer (obsolete due to authentic syntax). INCOMPATIBILITY. * Quickcheck now by default uses exhaustive testing instead of random testing. Random testing can be invoked by "quickcheck [random]", exhaustive testing by "quickcheck [exhaustive]". * Quickcheck instantiates polymorphic types with small finite datatypes by default. This enables a simple execution mechanism to handle quantifiers and function equality over the finite datatypes. * Quickcheck random generator has been renamed from "code" to "random". INCOMPATIBILITY. * Quickcheck now has a configurable time limit which is set to 30 seconds by default. This can be changed by adding [timeout = n] to the quickcheck command. The time limit for Auto Quickcheck is still set independently. * Quickcheck in locales considers interpretations of that locale for counter example search. * Sledgehammer: - Added "smt" and "remote_smt" provers based on the "smt" proof method. See the Sledgehammer manual for details ("isabelle doc sledgehammer"). - Renamed commands: sledgehammer atp_info ~> sledgehammer running_provers sledgehammer atp_kill ~> sledgehammer kill_provers sledgehammer available_atps ~> sledgehammer available_provers INCOMPATIBILITY. - Renamed options: sledgehammer [atps = ...] ~> sledgehammer [provers = ...] sledgehammer [atp = ...] ~> sledgehammer [prover = ...] sledgehammer [timeout = 77 s] ~> sledgehammer [timeout = 77] (and "ms" and "min" are no longer supported) INCOMPATIBILITY. * Nitpick: - Renamed options: nitpick [timeout = 77 s] ~> nitpick [timeout = 77] nitpick [tac_timeout = 777 ms] ~> nitpick [tac_timeout = 0.777] INCOMPATIBILITY. - Added support for partial quotient types. - Added local versions of the "Nitpick.register_xxx" functions. - Added "whack" option. - Allow registration of quotient types as codatatypes. - Improved "merge_type_vars" option to merge more types. - Removed unsound "fast_descrs" option. - Added custom symmetry breaking for datatypes, making it possible to reach higher cardinalities. - Prevent the expansion of too large definitions. * Proof methods "metis" and "meson" now have configuration options "meson_trace", "metis_trace", and "metis_verbose" that can be enabled to diagnose these tools. E.g. using [[metis_trace = true]] * Auto Solve: Renamed "Auto Solve Direct". The tool is now available manually as command 'solve_direct'. * The default SMT solver Z3 must be enabled explicitly (due to licensing issues) by setting the environment variable Z3_NON_COMMERCIAL in etc/settings of the component, for example. For commercial applications, the SMT solver CVC3 is provided as fall-back; changing the SMT solver is done via the configuration option "smt_solver". * Remote SMT solvers need to be referred to by the "remote_" prefix, i.e. "remote_cvc3" and "remote_z3". * Added basic SMT support for datatypes, records, and typedefs using the oracle mode (no proofs). Direct support of pairs has been dropped in exchange (pass theorems fst_conv snd_conv pair_collapse to the SMT support for a similar behavior). Minor INCOMPATIBILITY. * Changed SMT configuration options: - Renamed: z3_proofs ~> smt_oracle (with inverted meaning) z3_trace_assms ~> smt_trace_used_facts INCOMPATIBILITY. - Added: smt_verbose smt_random_seed smt_datatypes smt_infer_triggers smt_monomorph_limit cvc3_options remote_cvc3_options remote_z3_options yices_options * Boogie output files (.b2i files) need to be declared in the theory header. * Simplification procedure "list_to_set_comprehension" rewrites list comprehensions applied to List.set to set comprehensions. Occasional INCOMPATIBILITY, may be deactivated like this: declare [[simproc del: list_to_set_comprehension]] * Removed old version of primrec package. INCOMPATIBILITY. * Removed simplifier congruence rule of "prod_case", as has for long been the case with "split". INCOMPATIBILITY. * String.literal is a type, but not a datatype. INCOMPATIBILITY. * Removed [split_format ... and ... and ...] version of [split_format]. Potential INCOMPATIBILITY. * Predicate "sorted" now defined inductively, with nice induction rules. INCOMPATIBILITY: former sorted.simps now named sorted_simps. * Constant "contents" renamed to "the_elem", to free the generic name contents for other uses. INCOMPATIBILITY. * Renamed class eq and constant eq (for code generation) to class equal and constant equal, plus renaming of related facts and various tuning. INCOMPATIBILITY. * Dropped type classes mult_mono and mult_mono1. INCOMPATIBILITY. * Removed output syntax "'a ~=> 'b" for "'a => 'b option". INCOMPATIBILITY. * Renamed theory Fset to Cset, type Fset.fset to Cset.set, in order to avoid confusion with finite sets. INCOMPATIBILITY. * Abandoned locales equiv, congruent and congruent2 for equivalence relations. INCOMPATIBILITY: use equivI rather than equiv_intro (same for congruent(2)). * Some previously unqualified names have been qualified: types bool ~> HOL.bool nat ~> Nat.nat constants Trueprop ~> HOL.Trueprop True ~> HOL.True False ~> HOL.False op & ~> HOL.conj op | ~> HOL.disj op --> ~> HOL.implies op = ~> HOL.eq Not ~> HOL.Not The ~> HOL.The All ~> HOL.All Ex ~> HOL.Ex Ex1 ~> HOL.Ex1 Let ~> HOL.Let If ~> HOL.If Ball ~> Set.Ball Bex ~> Set.Bex Suc ~> Nat.Suc Pair ~> Product_Type.Pair fst ~> Product_Type.fst snd ~> Product_Type.snd curry ~> Product_Type.curry op : ~> Set.member Collect ~> Set.Collect INCOMPATIBILITY. * More canonical naming convention for some fundamental definitions: bot_bool_eq ~> bot_bool_def top_bool_eq ~> top_bool_def inf_bool_eq ~> inf_bool_def sup_bool_eq ~> sup_bool_def bot_fun_eq ~> bot_fun_def top_fun_eq ~> top_fun_def inf_fun_eq ~> inf_fun_def sup_fun_eq ~> sup_fun_def INCOMPATIBILITY. * More stylized fact names: expand_fun_eq ~> fun_eq_iff expand_set_eq ~> set_eq_iff set_ext ~> set_eqI nat_number ~> eval_nat_numeral INCOMPATIBILITY. * Refactoring of code-generation specific operations in theory List: constants null ~> List.null facts mem_iff ~> member_def null_empty ~> null_def INCOMPATIBILITY. Note that these were not supposed to be used regularly unless for striking reasons; their main purpose was code generation. Various operations from the Haskell prelude are used for generating Haskell code. * Term "bij f" is now an abbreviation of "bij_betw f UNIV UNIV". Term "surj f" is now an abbreviation of "range f = UNIV". The theorems bij_def and surj_def are unchanged. INCOMPATIBILITY. * Abolished some non-alphabetic type names: "prod" and "sum" replace "*" and "+" respectively. INCOMPATIBILITY. * Name "Plus" of disjoint sum operator "<+>" is now hidden. Write "Sum_Type.Plus" instead. * Constant "split" has been merged with constant "prod_case"; names of ML functions, facts etc. involving split have been retained so far, though. INCOMPATIBILITY. * Dropped old infix syntax "_ mem _" for List.member; use "_ : set _" instead. INCOMPATIBILITY. * Removed lemma "Option.is_none_none" which duplicates "is_none_def". INCOMPATIBILITY. * Former theory Library/Enum is now part of the HOL-Main image. INCOMPATIBILITY: all constants of the Enum theory now have to be referred to by its qualified name. enum ~> Enum.enum nlists ~> Enum.nlists product ~> Enum.product * Theory Library/Monad_Syntax provides do-syntax for monad types. Syntax in Library/State_Monad has been changed to avoid ambiguities. INCOMPATIBILITY. * Theory Library/SetsAndFunctions has been split into Library/Function_Algebras and Library/Set_Algebras; canonical names for instance definitions for functions; various improvements. INCOMPATIBILITY. * Theory Library/Multiset provides stable quicksort implementation of sort_key. * Theory Library/Multiset: renamed empty_idemp ~> empty_neutral. INCOMPATIBILITY. * Session Multivariate_Analysis: introduced a type class for euclidean space. Most theorems are now stated in terms of euclidean spaces instead of finite cartesian products. types real ^ 'n ~> 'a::real_vector ~> 'a::euclidean_space ~> 'a::ordered_euclidean_space (depends on your needs) constants _ $ _ ~> _ $$ _ \<chi> x. _ ~> \<chi>\<chi> x. _ CARD('n) ~> DIM('a) Also note that the indices are now natural numbers and not from some finite type. Finite cartesian products of euclidean spaces, products of euclidean spaces the real and complex numbers are instantiated to be euclidean_spaces. INCOMPATIBILITY. * Session Probability: introduced pextreal as positive extended real numbers. Use pextreal as value for measures. Introduce the Radon-Nikodym derivative, product spaces and Fubini's theorem for arbitrary sigma finite measures. Introduces Lebesgue measure based on the integral in Multivariate Analysis. INCOMPATIBILITY. * Session Imperative_HOL: revamped, corrected dozens of inadequacies. INCOMPATIBILITY. * Session SPARK (with image HOL-SPARK) provides commands to load and prove verification conditions generated by the SPARK Ada program verifier. See also src/HOL/SPARK and src/HOL/SPARK/Examples. *** HOL-Algebra *** * Theorems for additive ring operations (locale abelian_monoid and descendants) are generated by interpretation from their multiplicative counterparts. Names (in particular theorem names) have the mandatory qualifier 'add'. Previous theorem names are redeclared for compatibility. * Structure "int_ring" is now an abbreviation (previously a definition). This fits more natural with advanced interpretations. *** HOLCF *** * The domain package now runs in definitional mode by default: The former command 'new_domain' is now called 'domain'. To use the domain package in its original axiomatic mode, use 'domain (unsafe)'. INCOMPATIBILITY. * The new class "domain" is now the default sort. Class "predomain" is an unpointed version of "domain". Theories can be updated by replacing sort annotations as shown below. INCOMPATIBILITY. 'a::type ~> 'a::countable 'a::cpo ~> 'a::predomain 'a::pcpo ~> 'a::domain * The old type class "rep" has been superseded by class "domain". Accordingly, users of the definitional package must remove any "default_sort rep" declarations. INCOMPATIBILITY. * The domain package (definitional mode) now supports unpointed predomain argument types, as long as they are marked 'lazy'. (Strict arguments must be in class "domain".) For example, the following domain definition now works: domain natlist = nil | cons (lazy "nat discr") (lazy "natlist") * Theory HOLCF/Library/HOL_Cpo provides cpo and predomain class instances for types from main HOL: bool, nat, int, char, 'a + 'b, 'a option, and 'a list. Additionally, it configures fixrec and the domain package to work with these types. For example: fixrec isInl :: "('a + 'b) u -> tr" where "isInl$(up$(Inl x)) = TT" | "isInl$(up$(Inr y)) = FF" domain V = VFun (lazy "V -> V") | VCon (lazy "nat") (lazy "V list") * The "(permissive)" option of fixrec has been replaced with a per-equation "(unchecked)" option. See src/HOL/HOLCF/Tutorial/Fixrec_ex.thy for examples. INCOMPATIBILITY. * The "bifinite" class no longer fixes a constant "approx"; the class now just asserts that such a function exists. INCOMPATIBILITY. * Former type "alg_defl" has been renamed to "defl". HOLCF no longer defines an embedding of type 'a defl into udom by default; instances of "bifinite" and "domain" classes are available in src/HOL/HOLCF/Library/Defl_Bifinite.thy. * The syntax "REP('a)" has been replaced with "DEFL('a)". * The predicate "directed" has been removed. INCOMPATIBILITY. * The type class "finite_po" has been removed. INCOMPATIBILITY. * The function "cprod_map" has been renamed to "prod_map". INCOMPATIBILITY. * The monadic bind operator on each powerdomain has new binder syntax similar to sets, e.g. "\<Union>\<sharp>x\<in>xs. t" represents "upper_bind\<cdot>xs\<cdot>(\<Lambda> x. t)". * The infix syntax for binary union on each powerdomain has changed from e.g. "+\<sharp>" to "\<union>\<sharp>", for consistency with set syntax. INCOMPATIBILITY. * The constant "UU" has been renamed to "bottom". The syntax "UU" is still supported as an input translation. * Renamed some theorems (the original names are also still available). expand_fun_below ~> fun_below_iff below_fun_ext ~> fun_belowI expand_cfun_eq ~> cfun_eq_iff ext_cfun ~> cfun_eqI expand_cfun_below ~> cfun_below_iff below_cfun_ext ~> cfun_belowI cont2cont_Rep_CFun ~> cont2cont_APP * The Abs and Rep functions for various types have changed names. Related theorem names have also changed to match. INCOMPATIBILITY. Rep_CFun ~> Rep_cfun Abs_CFun ~> Abs_cfun Rep_Sprod ~> Rep_sprod Abs_Sprod ~> Abs_sprod Rep_Ssum ~> Rep_ssum Abs_Ssum ~> Abs_ssum * Lemmas with names of the form *_defined_iff or *_strict_iff have been renamed to *_bottom_iff. INCOMPATIBILITY. * Various changes to bisimulation/coinduction with domain package: - Definitions of "bisim" constants no longer mention definedness. - With mutual recursion, "bisim" predicate is now curried. - With mutual recursion, each type gets a separate coind theorem. - Variable names in bisim_def and coinduct rules have changed. INCOMPATIBILITY. * Case combinators generated by the domain package for type "foo" are now named "foo_case" instead of "foo_when". INCOMPATIBILITY. * Several theorems have been renamed to more accurately reflect the names of constants and types involved. INCOMPATIBILITY. thelub_const ~> lub_const lub_const ~> is_lub_const thelubI ~> lub_eqI is_lub_lub ~> is_lubD2 lubI ~> is_lub_lub unique_lub ~> is_lub_unique is_ub_lub ~> is_lub_rangeD1 lub_bin_chain ~> is_lub_bin_chain lub_fun ~> is_lub_fun thelub_fun ~> lub_fun thelub_cfun ~> lub_cfun thelub_Pair ~> lub_Pair lub_cprod ~> is_lub_prod thelub_cprod ~> lub_prod minimal_cprod ~> minimal_prod inst_cprod_pcpo ~> inst_prod_pcpo UU_I ~> bottomI compact_UU ~> compact_bottom deflation_UU ~> deflation_bottom finite_deflation_UU ~> finite_deflation_bottom * Many legacy theorem names have been discontinued. INCOMPATIBILITY. sq_ord_less_eq_trans ~> below_eq_trans sq_ord_eq_less_trans ~> eq_below_trans refl_less ~> below_refl trans_less ~> below_trans antisym_less ~> below_antisym antisym_less_inverse ~> po_eq_conv [THEN iffD1] box_less ~> box_below rev_trans_less ~> rev_below_trans not_less2not_eq ~> not_below2not_eq less_UU_iff ~> below_UU_iff flat_less_iff ~> flat_below_iff adm_less ~> adm_below adm_not_less ~> adm_not_below adm_compact_not_less ~> adm_compact_not_below less_fun_def ~> below_fun_def expand_fun_less ~> fun_below_iff less_fun_ext ~> fun_belowI less_discr_def ~> below_discr_def discr_less_eq ~> discr_below_eq less_unit_def ~> below_unit_def less_cprod_def ~> below_prod_def prod_lessI ~> prod_belowI Pair_less_iff ~> Pair_below_iff fst_less_iff ~> fst_below_iff snd_less_iff ~> snd_below_iff expand_cfun_less ~> cfun_below_iff less_cfun_ext ~> cfun_belowI injection_less ~> injection_below less_up_def ~> below_up_def not_Iup_less ~> not_Iup_below Iup_less ~> Iup_below up_less ~> up_below Def_inject_less_eq ~> Def_below_Def Def_less_is_eq ~> Def_below_iff spair_less_iff ~> spair_below_iff less_sprod ~> below_sprod spair_less ~> spair_below sfst_less_iff ~> sfst_below_iff ssnd_less_iff ~> ssnd_below_iff fix_least_less ~> fix_least_below dist_less_one ~> dist_below_one less_ONE ~> below_ONE ONE_less_iff ~> ONE_below_iff less_sinlD ~> below_sinlD less_sinrD ~> below_sinrD *** FOL and ZF *** * All constant names are now qualified internally and use proper identifiers, e.g. "IFOL.eq" instead of "op =". INCOMPATIBILITY. *** ML *** * Antiquotation @{assert} inlines a function bool -> unit that raises Fail if the argument is false. Due to inlining the source position of failed assertions is included in the error output. * Discontinued antiquotation @{theory_ref}, which is obsolete since ML text is in practice always evaluated with a stable theory checkpoint. Minor INCOMPATIBILITY, use (Theory.check_thy @{theory}) instead. * Antiquotation @{theory A} refers to theory A from the ancestry of the current context, not any accidental theory loader state as before. Potential INCOMPATIBILITY, subtle change in semantics. * Syntax.pretty_priority (default 0) configures the required priority of pretty-printed output and thus affects insertion of parentheses. * Syntax.default_root (default "any") configures the inner syntax category (nonterminal symbol) for parsing of terms. * Former exception Library.UnequalLengths now coincides with ListPair.UnequalLengths. * Renamed structure MetaSimplifier to Raw_Simplifier. Note that the main functionality is provided by structure Simplifier. * Renamed raw "explode" function to "raw_explode" to emphasize its meaning. Note that internally to Isabelle, Symbol.explode is used in almost all situations. * Discontinued obsolete function sys_error and exception SYS_ERROR. See implementation manual for further details on exceptions in Isabelle/ML. * Renamed setmp_noncritical to Unsynchronized.setmp to emphasize its meaning. * Renamed structure PureThy to Pure_Thy and moved most of its operations to structure Global_Theory, to emphasize that this is rarely-used global-only stuff. * Discontinued Output.debug. Minor INCOMPATIBILITY, use plain writeln instead (or tracing for high-volume output). * Configuration option show_question_marks only affects regular pretty printing of types and terms, not raw Term.string_of_vname. * ML_Context.thm and ML_Context.thms are no longer pervasive. Rare INCOMPATIBILITY, superseded by static antiquotations @{thm} and @{thms} for most purposes. * ML structure Unsynchronized is never opened, not even in Isar interaction mode as before. Old Unsynchronized.set etc. have been discontinued -- use plain := instead. This should be *rare* anyway, since modern tools always work via official context data, notably configuration options. * Parallel and asynchronous execution requires special care concerning interrupts. Structure Exn provides some convenience functions that avoid working directly with raw Interrupt. User code must not absorb interrupts -- intermediate handling (for cleanup etc.) needs to be followed by re-raising of the original exception. Another common source of mistakes are "handle _" patterns, which make the meaning of the program subject to physical effects of the environment. New in Isabelle2009-2 (June 2010) --------------------------------- *** General *** * Authentic syntax for *all* logical entities (type classes, type constructors, term constants): provides simple and robust correspondence between formal entities and concrete syntax. Within the parse tree / AST representations, "constants" are decorated by their category (class, type, const) and spelled out explicitly with their full internal name. Substantial INCOMPATIBILITY concerning low-level syntax declarations and translations (translation rules and translation functions in ML). Some hints on upgrading: - Many existing uses of 'syntax' and 'translations' can be replaced by more modern 'type_notation', 'notation' and 'abbreviation', which are independent of this issue. - 'translations' require markup within the AST; the term syntax provides the following special forms: CONST c -- produces syntax version of constant c from context XCONST c -- literally c, checked as constant from context c -- literally c, if declared by 'syntax' Plain identifiers are treated as AST variables -- occasionally the system indicates accidental variables via the error "rhs contains extra variables". Type classes and type constructors are marked according to their concrete syntax. Some old translations rules need to be written for the "type" category, using type constructor application instead of pseudo-term application of the default category "logic". - 'parse_translation' etc. in ML may use the following antiquotations: @{class_syntax c} -- type class c within parse tree / AST @{term_syntax c} -- type constructor c within parse tree / AST @{const_syntax c} -- ML version of "CONST c" above @{syntax_const c} -- literally c (checked wrt. 'syntax' declarations) - Literal types within 'typed_print_translations', i.e. those *not* represented as pseudo-terms are represented verbatim. Use @{class c} or @{type_name c} here instead of the above syntax antiquotations. Note that old non-authentic syntax was based on unqualified base names, so all of the above "constant" names would coincide. Recall that 'print_syntax' and ML_command "set Syntax.trace_ast" help to diagnose syntax problems. * Type constructors admit general mixfix syntax, not just infix. * Concrete syntax may be attached to local entities without a proof body, too. This works via regular mixfix annotations for 'fix', 'def', 'obtain' etc. or via the explicit 'write' command, which is similar to the 'notation' command in theory specifications. * Discontinued unnamed infix syntax (legacy feature for many years) -- need to specify constant name and syntax separately. Internal ML datatype constructors have been renamed from InfixName to Infix etc. Minor INCOMPATIBILITY. * Schematic theorem statements need to be explicitly markup as such, via commands 'schematic_lemma', 'schematic_theorem', 'schematic_corollary'. Thus the relevance of the proof is made syntactically clear, which impacts performance in a parallel or asynchronous interactive environment. Minor INCOMPATIBILITY. * Use of cumulative prems via "!" in some proof methods has been discontinued (old legacy feature). * References 'trace_simp' and 'debug_simp' have been replaced by configuration options stored in the context. Enabling tracing (the case of debugging is similar) in proofs works via using [[trace_simp = true]] Tracing is then active for all invocations of the simplifier in subsequent goal refinement steps. Tracing may also still be enabled or disabled via the ProofGeneral settings menu. * Separate commands 'hide_class', 'hide_type', 'hide_const', 'hide_fact' replace the former 'hide' KIND command. Minor INCOMPATIBILITY. * Improved parallelism of proof term normalization: usedir -p2 -q0 is more efficient than combinations with -q1 or -q2. *** Pure *** * Proofterms record type-class reasoning explicitly, using the "unconstrain" operation internally. This eliminates all sort constraints from a theorem and proof, introducing explicit OFCLASS-premises. On the proof term level, this operation is automatically applied at theorem boundaries, such that closed proofs are always free of sort constraints. INCOMPATIBILITY for tools that inspect proof terms. * Local theory specifications may depend on extra type variables that are not present in the result type -- arguments TYPE('a) :: 'a itself are added internally. For example: definition unitary :: bool where "unitary = (ALL (x::'a) y. x = y)" * Predicates of locales introduced by classes carry a mandatory "class" prefix. INCOMPATIBILITY. * Vacuous class specifications observe default sort. INCOMPATIBILITY. * Old 'axclass' command has been discontinued. INCOMPATIBILITY, use 'class' instead. * Command 'code_reflect' allows to incorporate generated ML code into runtime environment; replaces immature code_datatype antiquotation. INCOMPATIBILITY. * Code generator: simple concept for abstract datatypes obeying invariants. * Code generator: details of internal data cache have no impact on the user space functionality any longer. * Methods "unfold_locales" and "intro_locales" ignore non-locale subgoals. This is more appropriate for interpretations with 'where'. INCOMPATIBILITY. * Command 'example_proof' opens an empty proof body. This allows to experiment with Isar, without producing any persistent result. * Commands 'type_notation' and 'no_type_notation' declare type syntax within a local theory context, with explicit checking of the constructors involved (in contrast to the raw 'syntax' versions). * Commands 'types' and 'typedecl' now work within a local theory context -- without introducing dependencies on parameters or assumptions, which is not possible in Isabelle/Pure. * Command 'defaultsort' has been renamed to 'default_sort', it works within a local theory context. Minor INCOMPATIBILITY. *** HOL *** * Command 'typedef' now works within a local theory context -- without introducing dependencies on parameters or assumptions, which is not possible in Isabelle/Pure/HOL. Note that the logical environment may contain multiple interpretations of local typedefs (with different non-emptiness proofs), even in a global theory context. * New package for quotient types. Commands 'quotient_type' and 'quotient_definition' may be used for defining types and constants by quotient constructions. An example is the type of integers created by quotienting pairs of natural numbers: fun intrel :: "(nat * nat) => (nat * nat) => bool" where "intrel (x, y) (u, v) = (x + v = u + y)" quotient_type int = "nat * nat" / intrel by (auto simp add: equivp_def expand_fun_eq) quotient_definition "0::int" is "(0::nat, 0::nat)" The method "lifting" can be used to lift of theorems from the underlying "raw" type to the quotient type. The example src/HOL/Quotient_Examples/FSet.thy includes such a quotient construction and provides a reasoning infrastructure for finite sets. * Renamed Library/Quotient.thy to Library/Quotient_Type.thy to avoid clash with new theory Quotient in Main HOL. * Moved the SMT binding into the main HOL session, eliminating separate HOL-SMT session. * List membership infix mem operation is only an input abbreviation. INCOMPATIBILITY. * Theory Library/Word.thy has been removed. Use library Word/Word.thy for future developements; former Library/Word.thy is still present in the AFP entry RSAPPS. * Theorem Int.int_induct renamed to Int.int_of_nat_induct and is no longer shadowed. INCOMPATIBILITY. * Dropped theorem duplicate comp_arith; use semiring_norm instead. INCOMPATIBILITY. * Dropped theorem RealPow.real_sq_order; use power2_le_imp_le instead. INCOMPATIBILITY. * Dropped normalizing_semiring etc; use the facts in semiring classes instead. INCOMPATIBILITY. * Dropped several real-specific versions of lemmas about floor and ceiling; use the generic lemmas from theory "Archimedean_Field" instead. INCOMPATIBILITY. floor_number_of_eq ~> floor_number_of le_floor_eq_number_of ~> number_of_le_floor le_floor_eq_zero ~> zero_le_floor le_floor_eq_one ~> one_le_floor floor_less_eq_number_of ~> floor_less_number_of floor_less_eq_zero ~> floor_less_zero floor_less_eq_one ~> floor_less_one less_floor_eq_number_of ~> number_of_less_floor less_floor_eq_zero ~> zero_less_floor less_floor_eq_one ~> one_less_floor floor_le_eq_number_of ~> floor_le_number_of floor_le_eq_zero ~> floor_le_zero floor_le_eq_one ~> floor_le_one floor_subtract_number_of ~> floor_diff_number_of floor_subtract_one ~> floor_diff_one ceiling_number_of_eq ~> ceiling_number_of ceiling_le_eq_number_of ~> ceiling_le_number_of ceiling_le_zero_eq ~> ceiling_le_zero ceiling_le_eq_one ~> ceiling_le_one less_ceiling_eq_number_of ~> number_of_less_ceiling less_ceiling_eq_zero ~> zero_less_ceiling less_ceiling_eq_one ~> one_less_ceiling ceiling_less_eq_number_of ~> ceiling_less_number_of ceiling_less_eq_zero ~> ceiling_less_zero ceiling_less_eq_one ~> ceiling_less_one le_ceiling_eq_number_of ~> number_of_le_ceiling le_ceiling_eq_zero ~> zero_le_ceiling le_ceiling_eq_one ~> one_le_ceiling ceiling_subtract_number_of ~> ceiling_diff_number_of ceiling_subtract_one ~> ceiling_diff_one * Theory "Finite_Set": various folding_XXX locales facilitate the application of the various fold combinators on finite sets. * Library theory "RBT" renamed to "RBT_Impl"; new library theory "RBT" provides abstract red-black tree type which is backed by "RBT_Impl" as implementation. INCOMPATIBILTY. * Theory Library/Coinductive_List has been removed -- superseded by AFP/thys/Coinductive. * Theory PReal, including the type "preal" and related operations, has been removed. INCOMPATIBILITY. * Real: new development using Cauchy Sequences. * Split off theory "Big_Operators" containing setsum, setprod, Inf_fin, Sup_fin, Min, Max from theory Finite_Set. INCOMPATIBILITY. * Theory "Rational" renamed to "Rat", for consistency with "Nat", "Int" etc. INCOMPATIBILITY. * Constant Rat.normalize needs to be qualified. INCOMPATIBILITY. * New set of rules "ac_simps" provides combined assoc / commute rewrites for all interpretations of the appropriate generic locales. * Renamed theory "OrderedGroup" to "Groups" and split theory "Ring_and_Field" into theories "Rings" and "Fields"; for more appropriate and more consistent names suitable for name prefixes within the HOL theories. INCOMPATIBILITY. * Some generic constants have been put to appropriate theories: - less_eq, less: Orderings - zero, one, plus, minus, uminus, times, abs, sgn: Groups - inverse, divide: Rings INCOMPATIBILITY. * More consistent naming of type classes involving orderings (and lattices): lower_semilattice ~> semilattice_inf upper_semilattice ~> semilattice_sup dense_linear_order ~> dense_linorder pordered_ab_group_add ~> ordered_ab_group_add pordered_ab_group_add_abs ~> ordered_ab_group_add_abs pordered_ab_semigroup_add ~> ordered_ab_semigroup_add pordered_ab_semigroup_add_imp_le ~> ordered_ab_semigroup_add_imp_le pordered_cancel_ab_semigroup_add ~> ordered_cancel_ab_semigroup_add pordered_cancel_comm_semiring ~> ordered_cancel_comm_semiring pordered_cancel_semiring ~> ordered_cancel_semiring pordered_comm_monoid_add ~> ordered_comm_monoid_add pordered_comm_ring ~> ordered_comm_ring pordered_comm_semiring ~> ordered_comm_semiring pordered_ring ~> ordered_ring pordered_ring_abs ~> ordered_ring_abs pordered_semiring ~> ordered_semiring ordered_ab_group_add ~> linordered_ab_group_add ordered_ab_semigroup_add ~> linordered_ab_semigroup_add ordered_cancel_ab_semigroup_add ~> linordered_cancel_ab_semigroup_add ordered_comm_semiring_strict ~> linordered_comm_semiring_strict ordered_field ~> linordered_field ordered_field_no_lb ~> linordered_field_no_lb ordered_field_no_ub ~> linordered_field_no_ub ordered_field_dense_linear_order ~> dense_linordered_field ordered_idom ~> linordered_idom ordered_ring ~> linordered_ring ordered_ring_le_cancel_factor ~> linordered_ring_le_cancel_factor ordered_ring_less_cancel_factor ~> linordered_ring_less_cancel_factor ordered_ring_strict ~> linordered_ring_strict ordered_semidom ~> linordered_semidom ordered_semiring ~> linordered_semiring ordered_semiring_1 ~> linordered_semiring_1 ordered_semiring_1_strict ~> linordered_semiring_1_strict ordered_semiring_strict ~> linordered_semiring_strict The following slightly odd type classes have been moved to a separate theory Library/Lattice_Algebras: lordered_ab_group_add ~> lattice_ab_group_add lordered_ab_group_add_abs ~> lattice_ab_group_add_abs lordered_ab_group_add_meet ~> semilattice_inf_ab_group_add lordered_ab_group_add_join ~> semilattice_sup_ab_group_add lordered_ring ~> lattice_ring INCOMPATIBILITY. * Refined field classes: - classes division_ring_inverse_zero, field_inverse_zero, linordered_field_inverse_zero include rule inverse 0 = 0 -- subsumes former division_by_zero class; - numerous lemmas have been ported from field to division_ring. INCOMPATIBILITY. * Refined algebra theorem collections: - dropped theorem group group_simps, use algebra_simps instead; - dropped theorem group ring_simps, use field_simps instead; - proper theorem collection field_simps subsumes former theorem groups field_eq_simps and field_simps; - dropped lemma eq_minus_self_iff which is a duplicate for equal_neg_zero. INCOMPATIBILITY. * Theory Finite_Set and List: some lemmas have been generalized from sets to lattices: fun_left_comm_idem_inter ~> fun_left_comm_idem_inf fun_left_comm_idem_union ~> fun_left_comm_idem_sup inter_Inter_fold_inter ~> inf_Inf_fold_inf union_Union_fold_union ~> sup_Sup_fold_sup Inter_fold_inter ~> Inf_fold_inf Union_fold_union ~> Sup_fold_sup inter_INTER_fold_inter ~> inf_INFI_fold_inf union_UNION_fold_union ~> sup_SUPR_fold_sup INTER_fold_inter ~> INFI_fold_inf UNION_fold_union ~> SUPR_fold_sup * Theory "Complete_Lattice": lemmas top_def and bot_def have been replaced by the more convenient lemmas Inf_empty and Sup_empty. Dropped lemmas Inf_insert_simp and Sup_insert_simp, which are subsumed by Inf_insert and Sup_insert. Lemmas Inf_UNIV and Sup_UNIV replace former Inf_Univ and Sup_Univ. Lemmas inf_top_right and sup_bot_right subsume inf_top and sup_bot respectively. INCOMPATIBILITY. * Reorganized theory Multiset: swapped notation of pointwise and multiset order: - pointwise ordering is instance of class order with standard syntax <= and <; - multiset ordering has syntax <=# and <#; partial order properties are provided by means of interpretation with prefix multiset_order; - less duplication, less historical organization of sections, conversion from associations lists to multisets, rudimentary code generation; - use insert_DiffM2 [symmetric] instead of elem_imp_eq_diff_union, if needed. Renamed: multiset_eq_conv_count_eq ~> multiset_ext_iff multi_count_ext ~> multiset_ext diff_union_inverse2 ~> diff_union_cancelR INCOMPATIBILITY. * Theory Permutation: replaced local "remove" by List.remove1. * Code generation: ML and OCaml code is decorated with signatures. * Theory List: added transpose. * Library/Nat_Bijection.thy is a collection of bijective functions between nat and other types, which supersedes the older libraries Library/Nat_Int_Bij.thy and HOLCF/NatIso.thy. INCOMPATIBILITY. Constants: Nat_Int_Bij.nat2_to_nat ~> prod_encode Nat_Int_Bij.nat_to_nat2 ~> prod_decode Nat_Int_Bij.int_to_nat_bij ~> int_encode Nat_Int_Bij.nat_to_int_bij ~> int_decode Countable.pair_encode ~> prod_encode NatIso.prod2nat ~> prod_encode NatIso.nat2prod ~> prod_decode NatIso.sum2nat ~> sum_encode NatIso.nat2sum ~> sum_decode NatIso.list2nat ~> list_encode NatIso.nat2list ~> list_decode NatIso.set2nat ~> set_encode NatIso.nat2set ~> set_decode Lemmas: Nat_Int_Bij.bij_nat_to_int_bij ~> bij_int_decode Nat_Int_Bij.nat2_to_nat_inj ~> inj_prod_encode Nat_Int_Bij.nat2_to_nat_surj ~> surj_prod_encode Nat_Int_Bij.nat_to_nat2_inj ~> inj_prod_decode Nat_Int_Bij.nat_to_nat2_surj ~> surj_prod_decode Nat_Int_Bij.i2n_n2i_id ~> int_encode_inverse Nat_Int_Bij.n2i_i2n_id ~> int_decode_inverse Nat_Int_Bij.surj_nat_to_int_bij ~> surj_int_encode Nat_Int_Bij.surj_int_to_nat_bij ~> surj_int_decode Nat_Int_Bij.inj_nat_to_int_bij ~> inj_int_encode Nat_Int_Bij.inj_int_to_nat_bij ~> inj_int_decode Nat_Int_Bij.bij_nat_to_int_bij ~> bij_int_encode Nat_Int_Bij.bij_int_to_nat_bij ~> bij_int_decode * Sledgehammer: - Renamed ATP commands: atp_info ~> sledgehammer running_atps atp_kill ~> sledgehammer kill_atps atp_messages ~> sledgehammer messages atp_minimize ~> sledgehammer minimize print_atps ~> sledgehammer available_atps INCOMPATIBILITY. - Added user's manual ("isabelle doc sledgehammer"). - Added option syntax and "sledgehammer_params" to customize Sledgehammer's behavior. See the manual for details. - Modified the Isar proof reconstruction code so that it produces direct proofs rather than proofs by contradiction. (This feature is still experimental.) - Made Isar proof reconstruction work for SPASS, remote ATPs, and in full-typed mode. - Added support for TPTP syntax for SPASS via the "spass_tptp" ATP. * Nitpick: - Added and implemented "binary_ints" and "bits" options. - Added "std" option and implemented support for nonstandard models. - Added and implemented "finitize" option to improve the precision of infinite datatypes based on a monotonicity analysis. - Added support for quotient types. - Added support for "specification" and "ax_specification" constructs. - Added support for local definitions (for "function" and "termination" proofs). - Added support for term postprocessors. - Optimized "Multiset.multiset" and "FinFun.finfun". - Improved efficiency of "destroy_constrs" optimization. - Fixed soundness bugs related to "destroy_constrs" optimization and record getters. - Fixed soundness bug related to higher-order constructors. - Fixed soundness bug when "full_descrs" is enabled. - Improved precision of set constructs. - Added "atoms" option. - Added cache to speed up repeated Kodkod invocations on the same problems. - Renamed "MiniSatJNI", "zChaffJNI", "BerkMinAlloy", and "SAT4JLight" to "MiniSat_JNI", "zChaff_JNI", "BerkMin_Alloy", and "SAT4J_Light". INCOMPATIBILITY. - Removed "skolemize", "uncurry", "sym_break", "flatten_prop", "sharing_depth", and "show_skolems" options. INCOMPATIBILITY. - Removed "nitpick_intro" attribute. INCOMPATIBILITY. * Method "induct" now takes instantiations of the form t, where t is not a variable, as a shorthand for "x == t", where x is a fresh variable. If this is not intended, t has to be enclosed in parentheses. By default, the equalities generated by definitional instantiations are pre-simplified, which may cause parameters of inductive cases to disappear, or may even delete some of the inductive cases. Use "induct (no_simp)" instead of "induct" to restore the old behaviour. The (no_simp) option is also understood by the "cases" and "nominal_induct" methods, which now perform pre-simplification, too. INCOMPATIBILITY. *** HOLCF *** * Variable names in lemmas generated by the domain package have changed; the naming scheme is now consistent with the HOL datatype package. Some proof scripts may be affected, INCOMPATIBILITY. * The domain package no longer defines the function "foo_copy" for recursive domain "foo". The reach lemma is now stated directly in terms of "foo_take". Lemmas and proofs that mention "foo_copy" must be reformulated in terms of "foo_take", INCOMPATIBILITY. * Most definedness lemmas generated by the domain package (previously of the form "x ~= UU ==> foo$x ~= UU") now have an if-and-only-if form like "foo$x = UU <-> x = UU", which works better as a simp rule. Proofs that used definedness lemmas as intro rules may break, potential INCOMPATIBILITY. * Induction and casedist rules generated by the domain package now declare proper case_names (one called "bottom", and one named for each constructor). INCOMPATIBILITY. * For mutually-recursive domains, separate "reach" and "take_lemma" rules are generated for each domain, INCOMPATIBILITY. foo_bar.reach ~> foo.reach bar.reach foo_bar.take_lemmas ~> foo.take_lemma bar.take_lemma * Some lemmas generated by the domain package have been renamed for consistency with the datatype package, INCOMPATIBILITY. foo.ind ~> foo.induct foo.finite_ind ~> foo.finite_induct foo.coind ~> foo.coinduct foo.casedist ~> foo.exhaust foo.exhaust ~> foo.nchotomy * For consistency with other definition packages, the fixrec package now generates qualified theorem names, INCOMPATIBILITY. foo_simps ~> foo.simps foo_unfold ~> foo.unfold foo_induct ~> foo.induct * The "fixrec_simp" attribute has been removed. The "fixrec_simp" method and internal fixrec proofs now use the default simpset instead. INCOMPATIBILITY. * The "contlub" predicate has been removed. Proof scripts should use lemma contI2 in place of monocontlub2cont, INCOMPATIBILITY. * The "admw" predicate has been removed, INCOMPATIBILITY. * The constants cpair, cfst, and csnd have been removed in favor of Pair, fst, and snd from Isabelle/HOL, INCOMPATIBILITY. *** ML *** * Antiquotations for basic formal entities: @{class NAME} -- type class @{class_syntax NAME} -- syntax representation of the above @{type_name NAME} -- logical type @{type_abbrev NAME} -- type abbreviation @{nonterminal NAME} -- type of concrete syntactic category @{type_syntax NAME} -- syntax representation of any of the above @{const_name NAME} -- logical constant (INCOMPATIBILITY) @{const_abbrev NAME} -- abbreviated constant @{const_syntax NAME} -- syntax representation of any of the above * Antiquotation @{syntax_const NAME} ensures that NAME refers to a raw syntax constant (cf. 'syntax' command). * Antiquotation @{make_string} inlines a function to print arbitrary values similar to the ML toplevel. The result is compiler dependent and may fall back on "?" in certain situations. * Diagnostic commands 'ML_val' and 'ML_command' may refer to antiquotations @{Isar.state} and @{Isar.goal}. This replaces impure Isar.state() and Isar.goal(), which belong to the old TTY loop and do not work with the asynchronous Isar document model. * Configuration options now admit dynamic default values, depending on the context or even global references. * SHA1.digest digests strings according to SHA-1 (see RFC 3174). It uses an efficient external library if available (for Poly/ML). * Renamed some important ML structures, while keeping the old names for some time as aliases within the structure Legacy: OuterKeyword ~> Keyword OuterLex ~> Token OuterParse ~> Parse OuterSyntax ~> Outer_Syntax PrintMode ~> Print_Mode SpecParse ~> Parse_Spec ThyInfo ~> Thy_Info ThyLoad ~> Thy_Load ThyOutput ~> Thy_Output TypeInfer ~> Type_Infer Note that "open Legacy" simplifies porting of sources, but forgetting to remove it again will complicate porting again in the future. * Most operations that refer to a global context are named accordingly, e.g. Simplifier.global_context or ProofContext.init_global. There are some situations where a global context actually works, but under normal circumstances one needs to pass the proper local context through the code! * Discontinued old TheoryDataFun with its copy/init operation -- data needs to be pure. Functor Theory_Data_PP retains the traditional Pretty.pp argument to merge, which is absent in the standard Theory_Data version. * Sorts.certify_sort and derived "cert" operations for types and terms no longer minimize sorts. Thus certification at the boundary of the inference kernel becomes invariant under addition of class relations, which is an important monotonicity principle. Sorts are now minimized in the syntax layer only, at the boundary between the end-user and the system. Subtle INCOMPATIBILITY, may have to use Sign.minimize_sort explicitly in rare situations. * Renamed old-style Drule.standard to Drule.export_without_context, to emphasize that this is in no way a standard operation. INCOMPATIBILITY. * Subgoal.FOCUS (and variants): resulting goal state is normalized as usual for resolution. Rare INCOMPATIBILITY. * Renamed varify/unvarify operations to varify_global/unvarify_global to emphasize that these only work in a global situation (which is quite rare). * Curried take and drop in library.ML; negative length is interpreted as infinity (as in chop). Subtle INCOMPATIBILITY. * Proof terms: type substitutions on proof constants now use canonical order of type variables. INCOMPATIBILITY for tools working with proof terms. * Raw axioms/defs may no longer carry sort constraints, and raw defs may no longer carry premises. User-level specifications are transformed accordingly by Thm.add_axiom/add_def. *** System *** * Discontinued special HOL_USEDIR_OPTIONS for the main HOL image; ISABELLE_USEDIR_OPTIONS applies uniformly to all sessions. Note that proof terms are enabled unconditionally in the new HOL-Proofs image. * Discontinued old ISABELLE and ISATOOL environment settings (legacy feature since Isabelle2009). Use ISABELLE_PROCESS and ISABELLE_TOOL, respectively. * Old lib/scripts/polyml-platform is superseded by the ISABELLE_PLATFORM setting variable, which defaults to the 32 bit variant, even on a 64 bit machine. The following example setting prefers 64 bit if available: ML_PLATFORM="${ISABELLE_PLATFORM64:-$ISABELLE_PLATFORM}" * The preliminary Isabelle/jEdit application demonstrates the emerging Isabelle/Scala layer for advanced prover interaction and integration. See src/Tools/jEdit or "isabelle jedit" provided by the properly built component. * "IsabelleText" is a Unicode font derived from Bitstream Vera Mono and Bluesky TeX fonts. It provides the usual Isabelle symbols, similar to the default assignment of the document preparation system (cf. isabellesym.sty). The Isabelle/Scala class Isabelle_System provides some operations for direct access to the font without asking the user for manual installation. New in Isabelle2009-1 (December 2009) ------------------------------------- *** General *** * Discontinued old form of "escaped symbols" such as \\<forall>. Only one backslash should be used, even in ML sources. *** Pure *** * Locale interpretation propagates mixins along the locale hierarchy. The currently only available mixins are the equations used to map local definitions to terms of the target domain of an interpretation. * Reactivated diagnostic command 'print_interps'. Use "print_interps loc" to print all interpretations of locale "loc" in the theory. Interpretations in proofs are not shown. * Thoroughly revised locales tutorial. New section on conditional interpretation. * On instantiation of classes, remaining undefined class parameters are formally declared. INCOMPATIBILITY. *** Document preparation *** * New generalized style concept for printing terms: @{foo (style) ...} instead of @{foo_style style ...} (old form is still retained for backward compatibility). Styles can be also applied for antiquotations prop, term_type and typeof. *** HOL *** * New proof method "smt" for a combination of first-order logic with equality, linear and nonlinear (natural/integer/real) arithmetic, and fixed-size bitvectors; there is also basic support for higher-order features (esp. lambda abstractions). It is an incomplete decision procedure based on external SMT solvers using the oracle mechanism; for the SMT solver Z3, this method is proof-producing. Certificates are provided to avoid calling the external solvers solely for re-checking proofs. Due to a remote SMT service there is no need for installing SMT solvers locally. See src/HOL/SMT. * New commands to load and prove verification conditions generated by the Boogie program verifier or derived systems (e.g. the Verifying C Compiler (VCC) or Spec#). See src/HOL/Boogie. * New counterexample generator tool 'nitpick' based on the Kodkod relational model finder. See src/HOL/Tools/Nitpick and src/HOL/Nitpick_Examples. * New commands 'code_pred' and 'values' to invoke the predicate compiler and to enumerate values of inductive predicates. * A tabled implementation of the reflexive transitive closure. * New implementation of quickcheck uses generic code generator; default generators are provided for all suitable HOL types, records and datatypes. Old quickcheck can be re-activated importing theory Library/SML_Quickcheck. * New testing tool Mirabelle for automated proof tools. Applies several tools and tactics like sledgehammer, metis, or quickcheck, to every proof step in a theory. To be used in batch mode via the "mirabelle" utility. * New proof method "sos" (sum of squares) for nonlinear real arithmetic (originally due to John Harison). It requires theory Library/Sum_Of_Squares. It is not a complete decision procedure but works well in practice on quantifier-free real arithmetic with +, -, *, ^, =, <= and <, i.e. boolean combinations of equalities and inequalities between polynomials. It makes use of external semidefinite programming solvers. Method "sos" generates a certificate that can be pasted into the proof thus avoiding the need to call an external tool every time the proof is checked. See src/HOL/Library/Sum_Of_Squares. * New method "linarith" invokes existing linear arithmetic decision procedure only. * New command 'atp_minimal' reduces result produced by Sledgehammer. * New Sledgehammer option "Full Types" in Proof General settings menu. Causes full type information to be output to the ATPs. This slows ATPs down considerably but eliminates a source of unsound "proofs" that fail later. * New method "metisFT": A version of metis that uses full type information in order to avoid failures of proof reconstruction. * New evaluator "approximate" approximates an real valued term using the same method as the approximation method. * Method "approximate" now supports arithmetic expressions as boundaries of intervals and implements interval splitting and Taylor series expansion. * ML antiquotation @{code_datatype} inserts definition of a datatype generated by the code generator; e.g. see src/HOL/Predicate.thy. * New theory SupInf of the supremum and infimum operators for sets of reals. * New theory Probability, which contains a development of measure theory, eventually leading to Lebesgue integration and probability. * Extended Multivariate Analysis to include derivation and Brouwer's fixpoint theorem. * Reorganization of number theory, INCOMPATIBILITY: - new number theory development for nat and int, in theories Divides and GCD as well as in new session Number_Theory - some constants and facts now suffixed with _nat and _int accordingly - former session NumberTheory now named Old_Number_Theory, including theories Legacy_GCD and Primes (prefer Number_Theory if possible) - moved theory Pocklington from src/HOL/Library to src/HOL/Old_Number_Theory * Theory GCD includes functions Gcd/GCD and Lcm/LCM for the gcd and lcm of finite and infinite sets. It is shown that they form a complete lattice. * Class semiring_div requires superclass no_zero_divisors and proof of div_mult_mult1; theorems div_mult_mult1, div_mult_mult2, div_mult_mult1_if, div_mult_mult1 and div_mult_mult2 have been generalized to class semiring_div, subsuming former theorems zdiv_zmult_zmult1, zdiv_zmult_zmult1_if, zdiv_zmult_zmult1 and zdiv_zmult_zmult2. div_mult_mult1 is now [simp] by default. INCOMPATIBILITY. * Refinements to lattice classes and sets: - less default intro/elim rules in locale variant, more default intro/elim rules in class variant: more uniformity - lemma ge_sup_conv renamed to le_sup_iff, in accordance with le_inf_iff - dropped lemma alias inf_ACI for inf_aci (same for sup_ACI and sup_aci) - renamed ACI to inf_sup_aci - new class "boolean_algebra" - class "complete_lattice" moved to separate theory "Complete_Lattice"; corresponding constants (and abbreviations) renamed and with authentic syntax: Set.Inf ~> Complete_Lattice.Inf Set.Sup ~> Complete_Lattice.Sup Set.INFI ~> Complete_Lattice.INFI Set.SUPR ~> Complete_Lattice.SUPR Set.Inter ~> Complete_Lattice.Inter Set.Union ~> Complete_Lattice.Union Set.INTER ~> Complete_Lattice.INTER Set.UNION ~> Complete_Lattice.UNION - authentic syntax for Set.Pow Set.image - mere abbreviations: Set.empty (for bot) Set.UNIV (for top) Set.inter (for inf, formerly Set.Int) Set.union (for sup, formerly Set.Un) Complete_Lattice.Inter (for Inf) Complete_Lattice.Union (for Sup) Complete_Lattice.INTER (for INFI) Complete_Lattice.UNION (for SUPR) - object-logic definitions as far as appropriate INCOMPATIBILITY. Care is required when theorems Int_subset_iff or Un_subset_iff are explicitly deleted as default simp rules; then also their lattice counterparts le_inf_iff and le_sup_iff have to be deleted to achieve the desired effect. * Rules inf_absorb1, inf_absorb2, sup_absorb1, sup_absorb2 are no simp rules by default any longer; the same applies to min_max.inf_absorb1 etc. INCOMPATIBILITY. * Rules sup_Int_eq and sup_Un_eq are no longer declared as pred_set_conv by default. INCOMPATIBILITY. * Power operations on relations and functions are now one dedicated constant "compow" with infix syntax "^^". Power operation on multiplicative monoids retains syntax "^" and is now defined generic in class power. INCOMPATIBILITY. * Relation composition "R O S" now has a more standard argument order: "R O S = {(x, z). EX y. (x, y) : R & (y, z) : S}". INCOMPATIBILITY, rewrite propositions with "S O R" --> "R O S". Proofs may occasionally break, since the O_assoc rule was not rewritten like this. Fix using O_assoc[symmetric]. The same applies to the curried version "R OO S". * Function "Inv" is renamed to "inv_into" and function "inv" is now an abbreviation for "inv_into UNIV". Lemmas are renamed accordingly. INCOMPATIBILITY. * Most rules produced by inductive and datatype package have mandatory prefixes. INCOMPATIBILITY. * Changed "DERIV_intros" to a dynamic fact, which can be augmented by the attribute of the same name. Each of the theorems in the list DERIV_intros assumes composition with an additional function and matches a variable to the derivative, which has to be solved by the Simplifier. Hence (auto intro!: DERIV_intros) computes the derivative of most elementary terms. Former Maclauren.DERIV_tac and Maclauren.deriv_tac should be replaced by (auto intro!: DERIV_intros). INCOMPATIBILITY. * Code generator attributes follow the usual underscore convention: code_unfold replaces code unfold code_post replaces code post etc. INCOMPATIBILITY. * Renamed methods: sizechange -> size_change induct_scheme -> induction_schema INCOMPATIBILITY. * Discontinued abbreviation "arbitrary" of constant "undefined". INCOMPATIBILITY, use "undefined" directly. * Renamed theorems: Suc_eq_add_numeral_1 -> Suc_eq_plus1 Suc_eq_add_numeral_1_left -> Suc_eq_plus1_left Suc_plus1 -> Suc_eq_plus1 *anti_sym -> *antisym* vector_less_eq_def -> vector_le_def INCOMPATIBILITY. * Added theorem List.map_map as [simp]. Removed List.map_compose. INCOMPATIBILITY. * Removed predicate "M hassize n" (<--> card M = n & finite M). INCOMPATIBILITY. *** HOLCF *** * Theory Representable defines a class "rep" of domains that are representable (via an ep-pair) in the universal domain type "udom". Instances are provided for all type constructors defined in HOLCF. * The 'new_domain' command is a purely definitional version of the domain package, for representable domains. Syntax is identical to the old domain package. The 'new_domain' package also supports indirect recursion using previously-defined type constructors. See src/HOLCF/ex/New_Domain.thy for examples. * Method "fixrec_simp" unfolds one step of a fixrec-defined constant on the left-hand side of an equation, and then performs simplification. Rewriting is done using rules declared with the "fixrec_simp" attribute. The "fixrec_simp" method is intended as a replacement for "fixpat"; see src/HOLCF/ex/Fixrec_ex.thy for examples. * The pattern-match compiler in 'fixrec' can now handle constructors with HOL function types. Pattern-match combinators for the Pair constructor are pre-configured. * The 'fixrec' package now produces better fixed-point induction rules for mutually-recursive definitions: Induction rules have conclusions of the form "P foo bar" instead of "P <foo, bar>". * The constant "sq_le" (with infix syntax "<<" or "\<sqsubseteq>") has been renamed to "below". The name "below" now replaces "less" in many theorem names. (Legacy theorem names using "less" are still supported as well.) * The 'fixrec' package now supports "bottom patterns". Bottom patterns can be used to generate strictness rules, or to make functions more strict (much like the bang-patterns supported by the Glasgow Haskell Compiler). See src/HOLCF/ex/Fixrec_ex.thy for examples. *** ML *** * Support for Poly/ML 5.3.0, with improved reporting of compiler errors and run-time exceptions, including detailed source positions. * Structure Name_Space (formerly NameSpace) now manages uniquely identified entries, with some additional information such as source position, logical grouping etc. * Theory and context data is now introduced by the simplified and modernized functors Theory_Data, Proof_Data, Generic_Data. Data needs to be pure, but the old TheoryDataFun for mutable data (with explicit copy operation) is still available for some time. * Structure Synchronized (cf. src/Pure/Concurrent/synchronized.ML) provides a high-level programming interface to synchronized state variables with atomic update. This works via pure function application within a critical section -- its runtime should be as short as possible; beware of deadlocks if critical code is nested, either directly or indirectly via other synchronized variables! * Structure Unsynchronized (cf. src/Pure/ML-Systems/unsynchronized.ML) wraps raw ML references, explicitly indicating their non-thread-safe behaviour. The Isar toplevel keeps this structure open, to accommodate Proof General as well as quick and dirty interactive experiments with references. * PARALLEL_CHOICE and PARALLEL_GOALS provide basic support for parallel tactical reasoning. * Tacticals Subgoal.FOCUS, Subgoal.FOCUS_PREMS, Subgoal.FOCUS_PARAMS are similar to SUBPROOF, but are slightly more flexible: only the specified parts of the subgoal are imported into the context, and the body tactic may introduce new subgoals and schematic variables. * Old tactical METAHYPS, which does not observe the proof context, has been renamed to Old_Goals.METAHYPS and awaits deletion. Use SUBPROOF or Subgoal.FOCUS etc. * Renamed functor TableFun to Table, and GraphFun to Graph. (Since functors have their own ML name space there is no point to mark them separately.) Minor INCOMPATIBILITY. * Renamed NamedThmsFun to Named_Thms. INCOMPATIBILITY. * Renamed several structures FooBar to Foo_Bar. Occasional, INCOMPATIBILITY. * Operations of structure Skip_Proof no longer require quick_and_dirty mode, which avoids critical setmp. * Eliminated old Attrib.add_attributes, Method.add_methods and related combinators for "args". INCOMPATIBILITY, need to use simplified Attrib/Method.setup introduced in Isabelle2009. * Proper context for simpset_of, claset_of, clasimpset_of. May fall back on global_simpset_of, global_claset_of, global_clasimpset_of as last resort. INCOMPATIBILITY. * Display.pretty_thm now requires a proper context (cf. former ProofContext.pretty_thm). May fall back on Display.pretty_thm_global or even Display.pretty_thm_without_context as last resort. INCOMPATIBILITY. * Discontinued Display.pretty_ctyp/cterm etc. INCOMPATIBILITY, use Syntax.pretty_typ/term directly, preferably with proper context instead of global theory. *** System *** * Further fine tuning of parallel proof checking, scales up to 8 cores (max. speedup factor 5.0). See also Goal.parallel_proofs in ML and usedir option -q. * Support for additional "Isabelle components" via etc/components, see also the system manual. * The isabelle makeall tool now operates on all components with IsaMakefile, not just hardwired "logics". * Removed "compress" option from isabelle-process and isabelle usedir; this is always enabled. * Discontinued support for Poly/ML 4.x versions. * Isabelle tool "wwwfind" provides web interface for 'find_theorems' on a given logic image. This requires the lighttpd webserver and is currently supported on Linux only. New in Isabelle2009 (April 2009) -------------------------------- *** General *** * Simplified main Isabelle executables, with less surprises on case-insensitive file-systems (such as Mac OS). - The main Isabelle tool wrapper is now called "isabelle" instead of "isatool." - The former "isabelle" alias for "isabelle-process" has been removed (should rarely occur to regular users). - The former "isabelle-interface" and its alias "Isabelle" have been removed (interfaces are now regular Isabelle tools). Within scripts and make files, the Isabelle environment variables ISABELLE_TOOL and ISABELLE_PROCESS replace old ISATOOL and ISABELLE, respectively. (The latter are still available as legacy feature.) The old isabelle-interface wrapper could react in confusing ways if the interface was uninstalled or changed otherwise. Individual interface tool configuration is now more explicit, see also the Isabelle system manual. In particular, Proof General is now available via "isabelle emacs". INCOMPATIBILITY, need to adapt derivative scripts. Users may need to purge installed copies of Isabelle executables and re-run "isabelle install -p ...", or use symlinks. * The default for ISABELLE_HOME_USER is now ~/.isabelle instead of the old ~/isabelle, which was slightly non-standard and apt to cause surprises on case-insensitive file-systems (such as Mac OS). INCOMPATIBILITY, need to move existing ~/isabelle/etc, ~/isabelle/heaps, ~/isabelle/browser_info to the new place. Special care is required when using older releases of Isabelle. Note that ISABELLE_HOME_USER can be changed in Isabelle/etc/settings of any Isabelle distribution, in order to use the new ~/.isabelle uniformly. * Proofs of fully specified statements are run in parallel on multi-core systems. A speedup factor of 2.5 to 3.2 can be expected on a regular 4-core machine, if the initial heap space is made reasonably large (cf. Poly/ML option -H). (Requires Poly/ML 5.2.1 or later.) * The main reference manuals ("isar-ref", "implementation", and "system") have been updated and extended. Formally checked references as hyperlinks are now available uniformly. *** Pure *** * Complete re-implementation of locales. INCOMPATIBILITY in several respects. The most important changes are listed below. See the Tutorial on Locales ("locales" manual) for details. - In locale expressions, instantiation replaces renaming. Parameters must be declared in a for clause. To aid compatibility with previous parameter inheritance, in locale declarations, parameters that are not 'touched' (instantiation position "_" or omitted) are implicitly added with their syntax at the beginning of the for clause. - Syntax from abbreviations and definitions in locales is available in locale expressions and context elements. The latter is particularly useful in locale declarations. - More flexible mechanisms to qualify names generated by locale expressions. Qualifiers (prefixes) may be specified in locale expressions, and can be marked as mandatory (syntax: "name!:") or optional (syntax "name?:"). The default depends for plain "name:" depends on the situation where a locale expression is used: in commands 'locale' and 'sublocale' prefixes are optional, in 'interpretation' and 'interpret' prefixes are mandatory. The old implicit qualifiers derived from the parameter names of a locale are no longer generated. - Command "sublocale l < e" replaces "interpretation l < e". The instantiation clause in "interpretation" and "interpret" (square brackets) is no longer available. Use locale expressions. - When converting proof scripts, mandatory qualifiers in 'interpretation' and 'interpret' should be retained by default, even if this is an INCOMPATIBILITY compared to former behavior. In the worst case, use the "name?:" form for non-mandatory ones. Qualifiers in locale expressions range over a single locale instance only. - Dropped locale element "includes". This is a major INCOMPATIBILITY. In existing theorem specifications replace the includes element by the respective context elements of the included locale, omitting those that are already present in the theorem specification. Multiple assume elements of a locale should be replaced by a single one involving the locale predicate. In the proof body, declarations (most notably theorems) may be regained by interpreting the respective locales in the proof context as required (command "interpret"). If using "includes" in replacement of a target solely because the parameter types in the theorem are not as general as in the target, consider declaring a new locale with additional type constraints on the parameters (context element "constrains"). - Discontinued "locale (open)". INCOMPATIBILITY. - Locale interpretation commands no longer attempt to simplify goal. INCOMPATIBILITY: in rare situations the generated goal differs. Use methods intro_locales and unfold_locales to clarify. - Locale interpretation commands no longer accept interpretation attributes. INCOMPATIBILITY. * Class declaration: so-called "base sort" must not be given in import list any longer, but is inferred from the specification. Particularly in HOL, write class foo = ... instead of class foo = type + ... * Class target: global versions of theorems stemming do not carry a parameter prefix any longer. INCOMPATIBILITY. * Class 'instance' command no longer accepts attached definitions. INCOMPATIBILITY, use proper 'instantiation' target instead. * Recovered hiding of consts, which was accidentally broken in Isabelle2007. Potential INCOMPATIBILITY, ``hide const c'' really makes c inaccessible; consider using ``hide (open) const c'' instead. * Slightly more coherent Pure syntax, with updated documentation in isar-ref manual. Removed locales meta_term_syntax and meta_conjunction_syntax: TERM and &&& (formerly &&) are now permanent, INCOMPATIBILITY in rare situations. Note that &&& should not be used directly in regular applications. * There is a new syntactic category "float_const" for signed decimal fractions (e.g. 123.45 or -123.45). * Removed exotic 'token_translation' command. INCOMPATIBILITY, use ML interface with 'setup' command instead. * Command 'local_setup' is similar to 'setup', but operates on a local theory context. * The 'axiomatization' command now only works within a global theory context. INCOMPATIBILITY. * Goal-directed proof now enforces strict proof irrelevance wrt. sort hypotheses. Sorts required in the course of reasoning need to be covered by the constraints in the initial statement, completed by the type instance information of the background theory. Non-trivial sort hypotheses, which rarely occur in practice, may be specified via vacuous propositions of the form SORT_CONSTRAINT('a::c). For example: lemma assumes "SORT_CONSTRAINT('a::empty)" shows False ... The result contains an implicit sort hypotheses as before -- SORT_CONSTRAINT premises are eliminated as part of the canonical rule normalization. * Generalized Isar history, with support for linear undo, direct state addressing etc. * Changed defaults for unify configuration options: unify_trace_bound = 50 (formerly 25) unify_search_bound = 60 (formerly 30) * Different bookkeeping for code equations (INCOMPATIBILITY): a) On theory merge, the last set of code equations for a particular constant is taken (in accordance with the policy applied by other parts of the code generator framework). b) Code equations stemming from explicit declarations (e.g. code attribute) gain priority over default code equations stemming from definition, primrec, fun etc. * Keyword 'code_exception' now named 'code_abort'. INCOMPATIBILITY. * Unified theorem tables for both code generators. Thus [code func] has disappeared and only [code] remains. INCOMPATIBILITY. * Command 'find_consts' searches for constants based on type and name patterns, e.g. find_consts "_ => bool" By default, matching is against subtypes, but it may be restricted to the whole type. Searching by name is possible. Multiple queries are conjunctive and queries may be negated by prefixing them with a hyphen: find_consts strict: "_ => bool" name: "Int" -"int => int" * New 'find_theorems' criterion "solves" matches theorems that directly solve the current goal (modulo higher-order unification). * Auto solve feature for main theorem statements: whenever a new goal is stated, "find_theorems solves" is called; any theorems that could solve the lemma directly are listed as part of the goal state. Cf. associated options in Proof General Isabelle settings menu, enabled by default, with reasonable timeout for pathological cases of higher-order unification. *** Document preparation *** * Antiquotation @{lemma} now imitates a regular terminal proof, demanding keyword 'by' and supporting the full method expression syntax just like the Isar command 'by'. *** HOL *** * Integrated main parts of former image HOL-Complex with HOL. Entry points Main and Complex_Main remain as before. * Logic image HOL-Plain provides a minimal HOL with the most important tools available (inductive, datatype, primrec, ...). This facilitates experimentation and tool development. Note that user applications (and library theories) should never refer to anything below theory Main, as before. * Logic image HOL-Main stops at theory Main, and thus facilitates experimentation due to shorter build times. * Logic image HOL-NSA contains theories of nonstandard analysis which were previously part of former HOL-Complex. Entry point Hyperreal remains valid, but theories formerly using Complex_Main should now use new entry point Hypercomplex. * Generic ATP manager for Sledgehammer, based on ML threads instead of Posix processes. Avoids potentially expensive forking of the ML process. New thread-based implementation also works on non-Unix platforms (Cygwin). Provers are no longer hardwired, but defined within the theory via plain ML wrapper functions. Basic Sledgehammer commands are covered in the isar-ref manual. * Wrapper scripts for remote SystemOnTPTP service allows to use sledgehammer without local ATP installation (Vampire etc.). Other provers may be included via suitable ML wrappers, see also src/HOL/ATP_Linkup.thy. * ATP selection (E/Vampire/Spass) is now via Proof General's settings menu. * The metis method no longer fails because the theorem is too trivial (contains the empty clause). * The metis method now fails in the usual manner, rather than raising an exception, if it determines that it cannot prove the theorem. * Method "coherent" implements a prover for coherent logic (see also src/Tools/coherent.ML). * Constants "undefined" and "default" replace "arbitrary". Usually "undefined" is the right choice to replace "arbitrary", though logically there is no difference. INCOMPATIBILITY. * Command "value" now integrates different evaluation mechanisms. The result of the first successful evaluation mechanism is printed. In square brackets a particular named evaluation mechanisms may be specified (currently, [SML], [code] or [nbe]). See further src/HOL/ex/Eval_Examples.thy. * Normalization by evaluation now allows non-leftlinear equations. Declare with attribute [code nbe]. * Methods "case_tac" and "induct_tac" now refer to the very same rules as the structured Isar versions "cases" and "induct", cf. the corresponding "cases" and "induct" attributes. Mutual induction rules are now presented as a list of individual projections (e.g. foo_bar.inducts for types foo and bar); the old format with explicit HOL conjunction is no longer supported. INCOMPATIBILITY, in rare situations a different rule is selected --- notably nested tuple elimination instead of former prod.exhaust: use explicit (case_tac t rule: prod.exhaust) here. * Attributes "cases", "induct", "coinduct" support "del" option. * Removed fact "case_split_thm", which duplicates "case_split". * The option datatype has been moved to a new theory Option. Renamed option_map to Option.map, and o2s to Option.set, INCOMPATIBILITY. * New predicate "strict_mono" classifies strict functions on partial orders. With strict functions on linear orders, reasoning about (in)equalities is facilitated by theorems "strict_mono_eq", "strict_mono_less_eq" and "strict_mono_less". * Some set operations are now proper qualified constants with authentic syntax. INCOMPATIBILITY: op Int ~> Set.Int op Un ~> Set.Un INTER ~> Set.INTER UNION ~> Set.UNION Inter ~> Set.Inter Union ~> Set.Union {} ~> Set.empty UNIV ~> Set.UNIV * Class complete_lattice with operations Inf, Sup, INFI, SUPR now in theory Set. * Auxiliary class "itself" has disappeared -- classes without any parameter are treated as expected by the 'class' command. * Leibnitz's Series for Pi and the arcus tangens and logarithm series. * Common decision procedures (Cooper, MIR, Ferrack, Approximation, Dense_Linear_Order) are now in directory HOL/Decision_Procs. * Theory src/HOL/Decision_Procs/Approximation provides the new proof method "approximation". It proves formulas on real values by using interval arithmetic. In the formulas are also the transcendental functions sin, cos, tan, atan, ln, exp and the constant pi are allowed. For examples see src/HOL/Descision_Procs/ex/Approximation_Ex.thy. * Theory "Reflection" now resides in HOL/Library. * Entry point to Word library now simply named "Word". INCOMPATIBILITY. * Made source layout more coherent with logical distribution structure: src/HOL/Library/RType.thy ~> src/HOL/Typerep.thy src/HOL/Library/Code_Message.thy ~> src/HOL/ src/HOL/Library/GCD.thy ~> src/HOL/ src/HOL/Library/Order_Relation.thy ~> src/HOL/ src/HOL/Library/Parity.thy ~> src/HOL/ src/HOL/Library/Univ_Poly.thy ~> src/HOL/ src/HOL/Real/ContNotDenum.thy ~> src/HOL/Library/ src/HOL/Real/Lubs.thy ~> src/HOL/ src/HOL/Real/PReal.thy ~> src/HOL/ src/HOL/Real/Rational.thy ~> src/HOL/ src/HOL/Real/RComplete.thy ~> src/HOL/ src/HOL/Real/RealDef.thy ~> src/HOL/ src/HOL/Real/RealPow.thy ~> src/HOL/ src/HOL/Real/Real.thy ~> src/HOL/ src/HOL/Complex/Complex_Main.thy ~> src/HOL/ src/HOL/Complex/Complex.thy ~> src/HOL/ src/HOL/Complex/FrechetDeriv.thy ~> src/HOL/Library/ src/HOL/Complex/Fundamental_Theorem_Algebra.thy ~> src/HOL/Library/ src/HOL/Hyperreal/Deriv.thy ~> src/HOL/ src/HOL/Hyperreal/Fact.thy ~> src/HOL/ src/HOL/Hyperreal/Integration.thy ~> src/HOL/ src/HOL/Hyperreal/Lim.thy ~> src/HOL/ src/HOL/Hyperreal/Ln.thy ~> src/HOL/ src/HOL/Hyperreal/Log.thy ~> src/HOL/ src/HOL/Hyperreal/MacLaurin.thy ~> src/HOL/ src/HOL/Hyperreal/NthRoot.thy ~> src/HOL/ src/HOL/Hyperreal/Series.thy ~> src/HOL/ src/HOL/Hyperreal/SEQ.thy ~> src/HOL/ src/HOL/Hyperreal/Taylor.thy ~> src/HOL/ src/HOL/Hyperreal/Transcendental.thy ~> src/HOL/ src/HOL/Real/Float ~> src/HOL/Library/ src/HOL/Real/HahnBanach ~> src/HOL/HahnBanach src/HOL/Real/RealVector.thy ~> src/HOL/ src/HOL/arith_data.ML ~> src/HOL/Tools src/HOL/hologic.ML ~> src/HOL/Tools src/HOL/simpdata.ML ~> src/HOL/Tools src/HOL/int_arith1.ML ~> src/HOL/Tools/int_arith.ML src/HOL/int_factor_simprocs.ML ~> src/HOL/Tools src/HOL/nat_simprocs.ML ~> src/HOL/Tools src/HOL/Real/float_arith.ML ~> src/HOL/Tools src/HOL/Real/float_syntax.ML ~> src/HOL/Tools src/HOL/Real/rat_arith.ML ~> src/HOL/Tools src/HOL/Real/real_arith.ML ~> src/HOL/Tools src/HOL/Library/Array.thy ~> src/HOL/Imperative_HOL src/HOL/Library/Heap_Monad.thy ~> src/HOL/Imperative_HOL src/HOL/Library/Heap.thy ~> src/HOL/Imperative_HOL src/HOL/Library/Imperative_HOL.thy ~> src/HOL/Imperative_HOL src/HOL/Library/Ref.thy ~> src/HOL/Imperative_HOL src/HOL/Library/Relational.thy ~> src/HOL/Imperative_HOL * If methods "eval" and "evaluation" encounter a structured proof state with !!/==>, only the conclusion is evaluated to True (if possible), avoiding strange error messages. * Method "sizechange" automates termination proofs using (a modification of) the size-change principle. Requires SAT solver. See src/HOL/ex/Termination.thy for examples. * Simplifier: simproc for let expressions now unfolds if bound variable occurs at most once in let expression body. INCOMPATIBILITY. * Method "arith": Linear arithmetic now ignores all inequalities when fast_arith_neq_limit is exceeded, instead of giving up entirely. * New attribute "arith" for facts that should always be used automatically by arithmetic. It is intended to be used locally in proofs, e.g. assumes [arith]: "x > 0" Global usage is discouraged because of possible performance impact. * New classes "top" and "bot" with corresponding operations "top" and "bot" in theory Orderings; instantiation of class "complete_lattice" requires instantiation of classes "top" and "bot". INCOMPATIBILITY. * Changed definition lemma "less_fun_def" in order to provide an instance for preorders on functions; use lemma "less_le" instead. INCOMPATIBILITY. * Theory Orderings: class "wellorder" moved here, with explicit induction rule "less_induct" as assumption. For instantiation of "wellorder" by means of predicate "wf", use rule wf_wellorderI. INCOMPATIBILITY. * Theory Orderings: added class "preorder" as superclass of "order". INCOMPATIBILITY: Instantiation proofs for order, linorder etc. slightly changed. Some theorems named order_class.* now named preorder_class.*. * Theory Relation: renamed "refl" to "refl_on", "reflexive" to "refl, "diag" to "Id_on". * Theory Finite_Set: added a new fold combinator of type ('a => 'b => 'b) => 'b => 'a set => 'b Occasionally this is more convenient than the old fold combinator which is now defined in terms of the new one and renamed to fold_image. * Theories Ring_and_Field and OrderedGroup: The lemmas "group_simps" and "ring_simps" have been replaced by "algebra_simps" (which can be extended with further lemmas!). At the moment both still exist but the former will disappear at some point. * Theory Power: Lemma power_Suc is now declared as a simp rule in class recpower. Type-specific simp rules for various recpower types have been removed. INCOMPATIBILITY, rename old lemmas as follows: rat_power_0 -> power_0 rat_power_Suc -> power_Suc realpow_0 -> power_0 realpow_Suc -> power_Suc complexpow_0 -> power_0 complexpow_Suc -> power_Suc power_poly_0 -> power_0 power_poly_Suc -> power_Suc * Theories Ring_and_Field and Divides: Definition of "op dvd" has been moved to separate class dvd in Ring_and_Field; a couple of lemmas on dvd has been generalized to class comm_semiring_1. Likewise a bunch of lemmas from Divides has been generalized from nat to class semiring_div. INCOMPATIBILITY. This involves the following theorem renames resulting from duplicate elimination: dvd_def_mod ~> dvd_eq_mod_eq_0 zero_dvd_iff ~> dvd_0_left_iff dvd_0 ~> dvd_0_right DIVISION_BY_ZERO_DIV ~> div_by_0 DIVISION_BY_ZERO_MOD ~> mod_by_0 mult_div ~> div_mult_self2_is_id mult_mod ~> mod_mult_self2_is_0 * Theory IntDiv: removed many lemmas that are instances of class-based generalizations (from Divides and Ring_and_Field). INCOMPATIBILITY, rename old lemmas as follows: dvd_diff -> nat_dvd_diff dvd_zminus_iff -> dvd_minus_iff mod_add1_eq -> mod_add_eq mod_mult1_eq -> mod_mult_right_eq mod_mult1_eq' -> mod_mult_left_eq mod_mult_distrib_mod -> mod_mult_eq nat_mod_add_left_eq -> mod_add_left_eq nat_mod_add_right_eq -> mod_add_right_eq nat_mod_div_trivial -> mod_div_trivial nat_mod_mod_trivial -> mod_mod_trivial zdiv_zadd_self1 -> div_add_self1 zdiv_zadd_self2 -> div_add_self2 zdiv_zmult_self1 -> div_mult_self2_is_id zdiv_zmult_self2 -> div_mult_self1_is_id zdvd_triv_left -> dvd_triv_left zdvd_triv_right -> dvd_triv_right zdvd_zmult_cancel_disj -> dvd_mult_cancel_left zmod_eq0_zdvd_iff -> dvd_eq_mod_eq_0[symmetric] zmod_zadd_left_eq -> mod_add_left_eq zmod_zadd_right_eq -> mod_add_right_eq zmod_zadd_self1 -> mod_add_self1 zmod_zadd_self2 -> mod_add_self2 zmod_zadd1_eq -> mod_add_eq zmod_zdiff1_eq -> mod_diff_eq zmod_zdvd_zmod -> mod_mod_cancel zmod_zmod_cancel -> mod_mod_cancel zmod_zmult_self1 -> mod_mult_self2_is_0 zmod_zmult_self2 -> mod_mult_self1_is_0 zmod_1 -> mod_by_1 zdiv_1 -> div_by_1 zdvd_abs1 -> abs_dvd_iff zdvd_abs2 -> dvd_abs_iff zdvd_refl -> dvd_refl zdvd_trans -> dvd_trans zdvd_zadd -> dvd_add zdvd_zdiff -> dvd_diff zdvd_zminus_iff -> dvd_minus_iff zdvd_zminus2_iff -> minus_dvd_iff zdvd_zmultD -> dvd_mult_right zdvd_zmultD2 -> dvd_mult_left zdvd_zmult_mono -> mult_dvd_mono zdvd_0_right -> dvd_0_right zdvd_0_left -> dvd_0_left_iff zdvd_1_left -> one_dvd zminus_dvd_iff -> minus_dvd_iff * Theory Rational: 'Fract k 0' now equals '0'. INCOMPATIBILITY. * The real numbers offer decimal input syntax: 12.34 is translated into 1234/10^2. This translation is not reversed upon output. * Theory Library/Polynomial defines an abstract type 'a poly of univariate polynomials with coefficients of type 'a. In addition to the standard ring operations, it also supports div and mod. Code generation is also supported, using list-style constructors. * Theory Library/Inner_Product defines a class of real_inner for real inner product spaces, with an overloaded operation inner :: 'a => 'a => real. Class real_inner is a subclass of real_normed_vector from theory RealVector. * Theory Library/Product_Vector provides instances for the product type 'a * 'b of several classes from RealVector and Inner_Product. Definitions of addition, subtraction, scalar multiplication, norms, and inner products are included. * Theory Library/Bit defines the field "bit" of integers modulo 2. In addition to the field operations, numerals and case syntax are also supported. * Theory Library/Diagonalize provides constructive version of Cantor's first diagonalization argument. * Theory Library/GCD: Curried operations gcd, lcm (for nat) and zgcd, zlcm (for int); carried together from various gcd/lcm developements in the HOL Distribution. Constants zgcd and zlcm replace former igcd and ilcm; corresponding theorems renamed accordingly. INCOMPATIBILITY, may recover tupled syntax as follows: hide (open) const gcd abbreviation gcd where "gcd == (%(a, b). GCD.gcd a b)" notation (output) GCD.gcd ("gcd '(_, _')") The same works for lcm, zgcd, zlcm. * Theory Library/Nat_Infinity: added addition, numeral syntax and more instantiations for algebraic structures. Removed some duplicate theorems. Changes in simp rules. INCOMPATIBILITY. * ML antiquotation @{code} takes a constant as argument and generates corresponding code in background and inserts name of the corresponding resulting ML value/function/datatype constructor binding in place. All occurrences of @{code} with a single ML block are generated simultaneously. Provides a generic and safe interface for instrumentalizing code generation. See src/HOL/Decision_Procs/Ferrack.thy for a more ambitious application. In future you ought to refrain from ad-hoc compiling generated SML code on the ML toplevel. Note that (for technical reasons) @{code} cannot refer to constants for which user-defined serializations are set. Refer to the corresponding ML counterpart directly in that cases. * Command 'rep_datatype': instead of theorem names the command now takes a list of terms denoting the constructors of the type to be represented as datatype. The characteristic theorems have to be proven. INCOMPATIBILITY. Also observe that the following theorems have disappeared in favour of existing ones: unit_induct ~> unit.induct prod_induct ~> prod.induct sum_induct ~> sum.induct Suc_Suc_eq ~> nat.inject Suc_not_Zero Zero_not_Suc ~> nat.distinct *** HOL-Algebra *** * New locales for orders and lattices where the equivalence relation is not restricted to equality. INCOMPATIBILITY: all order and lattice locales use a record structure with field eq for the equivalence. * New theory of factorial domains. * Units_l_inv and Units_r_inv are now simp rules by default. INCOMPATIBILITY. Simplifier proof that require deletion of l_inv and/or r_inv will now also require deletion of these lemmas. * Renamed the following theorems, INCOMPATIBILITY: UpperD ~> Upper_memD LowerD ~> Lower_memD least_carrier ~> least_closed greatest_carrier ~> greatest_closed greatest_Lower_above ~> greatest_Lower_below one_zero ~> carrier_one_zero one_not_zero ~> carrier_one_not_zero (collision with assumption) *** HOL-Nominal *** * Nominal datatypes can now contain type-variables. * Commands 'nominal_inductive' and 'equivariance' work with local theory targets. * Nominal primrec can now works with local theory targets and its specification syntax now conforms to the general format as seen in 'inductive' etc. * Method "perm_simp" honours the standard simplifier attributes (no_asm), (no_asm_use) etc. * The new predicate #* is defined like freshness, except that on the left hand side can be a set or list of atoms. * Experimental command 'nominal_inductive2' derives strong induction principles for inductive definitions. In contrast to 'nominal_inductive', which can only deal with a fixed number of binders, it can deal with arbitrary expressions standing for sets of atoms to be avoided. The only inductive definition we have at the moment that needs this generalisation is the typing rule for Lets in the algorithm W: Gamma |- t1 : T1 (x,close Gamma T1)::Gamma |- t2 : T2 x#Gamma ----------------------------------------------------------------- Gamma |- Let x be t1 in t2 : T2 In this rule one wants to avoid all the binders that are introduced by "close Gamma T1". We are looking for other examples where this feature might be useful. Please let us know. *** HOLCF *** * Reimplemented the simplification procedure for proving continuity subgoals. The new simproc is extensible; users can declare additional continuity introduction rules with the attribute [cont2cont]. * The continuity simproc now uses a different introduction rule for solving continuity subgoals on terms with lambda abstractions. In some rare cases the new simproc may fail to solve subgoals that the old one could solve, and "simp add: cont2cont_LAM" may be necessary. Potential INCOMPATIBILITY. * Command 'fixrec': specification syntax now conforms to the general format as seen in 'inductive' etc. See src/HOLCF/ex/Fixrec_ex.thy for examples. INCOMPATIBILITY. *** ZF *** * Proof of Zorn's Lemma for partial orders. *** ML *** * Multithreading for Poly/ML 5.1/5.2 is no longer supported, only for Poly/ML 5.2.1 or later. Important note: the TimeLimit facility depends on multithreading, so timouts will not work before Poly/ML 5.2.1! * High-level support for concurrent ML programming, see src/Pure/Cuncurrent. The data-oriented model of "future values" is particularly convenient to organize independent functional computations. The concept of "synchronized variables" provides a higher-order interface for components with shared state, avoiding the delicate details of mutexes and condition variables. (Requires Poly/ML 5.2.1 or later.) * ML bindings produced via Isar commands are stored within the Isar context (theory or proof). Consequently, commands like 'use' and 'ML' become thread-safe and work with undo as expected (concerning top-level bindings, not side-effects on global references). INCOMPATIBILITY, need to provide proper Isar context when invoking the compiler at runtime; really global bindings need to be given outside a theory. (Requires Poly/ML 5.2 or later.) * Command 'ML_prf' is analogous to 'ML' but works within a proof context. Top-level ML bindings are stored within the proof context in a purely sequential fashion, disregarding the nested proof structure. ML bindings introduced by 'ML_prf' are discarded at the end of the proof. (Requires Poly/ML 5.2 or later.) * Simplified ML attribute and method setup, cf. functions Attrib.setup and Method.setup, as well as Isar commands 'attribute_setup' and 'method_setup'. INCOMPATIBILITY for 'method_setup', need to simplify existing code accordingly, or use plain 'setup' together with old Method.add_method. * Simplified ML oracle interface Thm.add_oracle promotes 'a -> cterm to 'a -> thm, while results are always tagged with an authentic oracle name. The Isar command 'oracle' is now polymorphic, no argument type is specified. INCOMPATIBILITY, need to simplify existing oracle code accordingly. Note that extra performance may be gained by producing the cterm carefully, avoiding slow Thm.cterm_of. * Simplified interface for defining document antiquotations via ThyOutput.antiquotation, ThyOutput.output, and optionally ThyOutput.maybe_pretty_source. INCOMPATIBILITY, need to simplify user antiquotations accordingly, see src/Pure/Thy/thy_output.ML for common examples. * More systematic treatment of long names, abstract name bindings, and name space operations. Basic operations on qualified names have been move from structure NameSpace to Long_Name, e.g. Long_Name.base_name, Long_Name.append. Old type bstring has been mostly replaced by abstract type binding (see structure Binding), which supports precise qualification by packages and local theory targets, as well as proper tracking of source positions. INCOMPATIBILITY, need to wrap old bstring values into Binding.name, or better pass through abstract bindings everywhere. See further src/Pure/General/long_name.ML, src/Pure/General/binding.ML and src/Pure/General/name_space.ML * Result facts (from PureThy.note_thms, ProofContext.note_thms, LocalTheory.note etc.) now refer to the *full* internal name, not the bstring as before. INCOMPATIBILITY, not detected by ML type-checking! * Disposed old type and term read functions (Sign.read_def_typ, Sign.read_typ, Sign.read_def_terms, Sign.read_term, Thm.read_def_cterms, Thm.read_cterm etc.). INCOMPATIBILITY, should use regular Syntax.read_typ, Syntax.read_term, Syntax.read_typ_global, Syntax.read_term_global etc.; see also OldGoals.read_term as last resort for legacy applications. * Disposed old declarations, tactics, tactic combinators that refer to the simpset or claset of an implicit theory (such as Addsimps, Simp_tac, SIMPSET). INCOMPATIBILITY, should use @{simpset} etc. in embedded ML text, or local_simpset_of with a proper context passed as explicit runtime argument. * Rules and tactics that read instantiations (read_instantiate, res_inst_tac, thin_tac, subgoal_tac etc.) now demand a proper proof context, which is required for parsing and type-checking. Moreover, the variables are specified as plain indexnames, not string encodings thereof. INCOMPATIBILITY. * Generic Toplevel.add_hook interface allows to analyze the result of transactions. E.g. see src/Pure/ProofGeneral/proof_general_pgip.ML for theorem dependency output of transactions resulting in a new theory state. * ML antiquotations: block-structured compilation context indicated by \<lbrace> ... \<rbrace>; additional antiquotation forms: @{binding name} - basic name binding @{let ?pat = term} - term abbreviation (HO matching) @{note name = fact} - fact abbreviation @{thm fact} - singleton fact (with attributes) @{thms fact} - general fact (with attributes) @{lemma prop by method} - singleton goal @{lemma prop by meth1 meth2} - singleton goal @{lemma prop1 ... propN by method} - general goal @{lemma prop1 ... propN by meth1 meth2} - general goal @{lemma (open) ...} - open derivation *** System *** * The Isabelle "emacs" tool provides a specific interface to invoke Proof General / Emacs, with more explicit failure if that is not installed (the old isabelle-interface script silently falls back on isabelle-process). The PROOFGENERAL_HOME setting determines the installation location of the Proof General distribution. * Isabelle/lib/classes/Pure.jar provides basic support to integrate the Isabelle process into a JVM/Scala application. See Isabelle/lib/jedit/plugin for a minimal example. (The obsolete Java process wrapper has been discontinued.) * Added homegrown Isabelle font with unicode layout, see lib/fonts. * Various status messages (with exact source position information) are emitted, if proper markup print mode is enabled. This allows user-interface components to provide detailed feedback on internal prover operations. New in Isabelle2008 (June 2008) ------------------------------- *** General *** * The Isabelle/Isar Reference Manual (isar-ref) has been reorganized and updated, with formally checked references as hyperlinks. * Theory loader: use_thy (and similar operations) no longer set the implicit ML context, which was occasionally hard to predict and in conflict with concurrency. INCOMPATIBILITY, use ML within Isar which provides a proper context already. * Theory loader: old-style ML proof scripts being *attached* to a thy file are no longer supported. INCOMPATIBILITY, regular 'uses' and 'use' within a theory file will do the job. * Name space merge now observes canonical order, i.e. the second space is inserted into the first one, while existing entries in the first space take precedence. INCOMPATIBILITY in rare situations, may try to swap theory imports. * Syntax: symbol \<chi> is now considered a letter. Potential INCOMPATIBILITY in identifier syntax etc. * Outer syntax: string tokens no longer admit escaped white space, which was an accidental (undocumented) feature. INCOMPATIBILITY, use white space without escapes. * Outer syntax: string tokens may contain arbitrary character codes specified via 3 decimal digits (as in SML). E.g. "foo\095bar" for "foo_bar". *** Pure *** * Context-dependent token translations. Default setup reverts locally fixed variables, and adds hilite markup for undeclared frees. * Unused theorems can be found using the new command 'unused_thms'. There are three ways of invoking it: (1) unused_thms Only finds unused theorems in the current theory. (2) unused_thms thy_1 ... thy_n - Finds unused theorems in the current theory and all of its ancestors, excluding the theories thy_1 ... thy_n and all of their ancestors. (3) unused_thms thy_1 ... thy_n - thy'_1 ... thy'_m Finds unused theorems in the theories thy'_1 ... thy'_m and all of their ancestors, excluding the theories thy_1 ... thy_n and all of their ancestors. In order to increase the readability of the list produced by unused_thms, theorems that have been created by a particular instance of a theory command such as 'inductive' or 'function' are considered to belong to the same "group", meaning that if at least one theorem in this group is used, the other theorems in the same group are no longer reported as unused. Moreover, if all theorems in the group are unused, only one theorem in the group is displayed. Note that proof objects have to be switched on in order for unused_thms to work properly (i.e. !proofs must be >= 1, which is usually the case when using Proof General with the default settings). * Authentic naming of facts disallows ad-hoc overwriting of previous theorems within the same name space. INCOMPATIBILITY, need to remove duplicate fact bindings, or even accidental fact duplications. Note that tools may maintain dynamically scoped facts systematically, using PureThy.add_thms_dynamic. * Command 'hide' now allows to hide from "fact" name space as well. * Eliminated destructive theorem database, simpset, claset, and clasimpset. Potential INCOMPATIBILITY, really need to observe linear update of theories within ML code. * Eliminated theory ProtoPure and CPure, leaving just one Pure theory. INCOMPATIBILITY, object-logics depending on former Pure require additional setup PureThy.old_appl_syntax_setup; object-logics depending on former CPure need to refer to Pure. * Commands 'use' and 'ML' are now purely functional, operating on theory/local_theory. Removed former 'ML_setup' (on theory), use 'ML' instead. Added 'ML_val' as mere diagnostic replacement for 'ML'. INCOMPATIBILITY. * Command 'setup': discontinued implicit version with ML reference. * Instantiation target allows for simultaneous specification of class instance operations together with an instantiation proof. Type-checking phase allows to refer to class operations uniformly. See src/HOL/Complex/Complex.thy for an Isar example and src/HOL/Library/Eval.thy for an ML example. * Indexing of literal facts: be more serious about including only facts from the visible specification/proof context, but not the background context (locale etc.). Affects `prop` notation and method "fact". INCOMPATIBILITY: need to name facts explicitly in rare situations. * Method "cases", "induct", "coinduct": removed obsolete/undocumented "(open)" option, which used to expose internal bound variables to the proof text. * Isar statements: removed obsolete case "rule_context". INCOMPATIBILITY, better use explicit fixes/assumes. * Locale proofs: default proof step now includes 'unfold_locales'; hence 'proof' without argument may be used to unfold locale predicates. *** Document preparation *** * Simplified pdfsetup.sty: color/hyperref is used unconditionally for both pdf and dvi (hyperlinks usually work in xdvi as well); removed obsolete thumbpdf setup (contemporary PDF viewers do this on the spot); renamed link color from "darkblue" to "linkcolor" (default value unchanged, can be redefined via \definecolor); no longer sets "a4paper" option (unnecessary or even intrusive). * Antiquotation @{lemma A method} proves proposition A by the given method (either a method name or a method name plus (optional) method arguments in parentheses) and prints A just like @{prop A}. *** HOL *** * New primrec package. Specification syntax conforms in style to definition/function/.... No separate induction rule is provided. The "primrec" command distinguishes old-style and new-style specifications by syntax. The former primrec package is now named OldPrimrecPackage. When adjusting theories, beware: constants stemming from new-style primrec specifications have authentic syntax. * Metis prover is now an order of magnitude faster, and also works with multithreading. * Metis: the maximum number of clauses that can be produced from a theorem is now given by the attribute max_clauses. Theorems that exceed this number are ignored, with a warning printed. * Sledgehammer no longer produces structured proofs by default. To enable, declare [[sledgehammer_full = true]]. Attributes reconstruction_modulus, reconstruction_sorts renamed sledgehammer_modulus, sledgehammer_sorts. INCOMPATIBILITY. * Method "induct_scheme" derives user-specified induction rules from well-founded induction and completeness of patterns. This factors out some operations that are done internally by the function package and makes them available separately. See src/HOL/ex/Induction_Scheme.thy for examples. * More flexible generation of measure functions for termination proofs: Measure functions can be declared by proving a rule of the form "is_measure f" and giving it the [measure_function] attribute. The "is_measure" predicate is logically meaningless (always true), and just guides the heuristic. To find suitable measure functions, the termination prover sets up the goal "is_measure ?f" of the appropriate type and generates all solutions by prolog-style backwards proof using the declared rules. This setup also deals with rules like "is_measure f ==> is_measure (list_size f)" which accommodates nested datatypes that recurse through lists. Similar rules are predeclared for products and option types. * Turned the type of sets "'a set" into an abbreviation for "'a => bool" INCOMPATIBILITIES: - Definitions of overloaded constants on sets have to be replaced by definitions on => and bool. - Some definitions of overloaded operators on sets can now be proved using the definitions of the operators on => and bool. Therefore, the following theorems have been renamed: subset_def -> subset_eq psubset_def -> psubset_eq set_diff_def -> set_diff_eq Compl_def -> Compl_eq Sup_set_def -> Sup_set_eq Inf_set_def -> Inf_set_eq sup_set_def -> sup_set_eq inf_set_def -> inf_set_eq - Due to the incompleteness of the HO unification algorithm, some rules such as subst may require manual instantiation, if some of the unknowns in the rule is a set. - Higher order unification and forward proofs: The proof pattern have "P (S::'a set)" <...> then have "EX S. P S" .. no longer works (due to the incompleteness of the HO unification algorithm) and must be replaced by the pattern have "EX S. P S" proof show "P S" <...> qed - Calculational reasoning with subst (or similar rules): The proof pattern have "P (S::'a set)" <...> also have "S = T" <...> finally have "P T" . no longer works (for similar reasons as the previous example) and must be replaced by something like have "P (S::'a set)" <...> moreover have "S = T" <...> ultimately have "P T" by simp - Tactics or packages written in ML code: Code performing pattern matching on types via Type ("set", [T]) => ... must be rewritten. Moreover, functions like strip_type or binder_types no longer return the right value when applied to a type of the form T1 => ... => Tn => U => bool rather than T1 => ... => Tn => U set * Merged theories Wellfounded_Recursion, Accessible_Part and Wellfounded_Relations to theory Wellfounded. * Explicit class "eq" for executable equality. INCOMPATIBILITY. * Class finite no longer treats UNIV as class parameter. Use class enum from theory Library/Enum instead to achieve a similar effect. INCOMPATIBILITY. * Theory List: rule list_induct2 now has explicitly named cases "Nil" and "Cons". INCOMPATIBILITY. * HOL (and FOL): renamed variables in rules imp_elim and swap. Potential INCOMPATIBILITY. * Theory Product_Type: duplicated lemmas split_Pair_apply and injective_fst_snd removed, use split_eta and prod_eqI instead. Renamed upd_fst to apfst and upd_snd to apsnd. INCOMPATIBILITY. * Theory Nat: removed redundant lemmas that merely duplicate lemmas of the same name in theory Orderings: less_trans less_linear le_imp_less_or_eq le_less_trans less_le_trans less_not_sym less_asym Renamed less_imp_le to less_imp_le_nat, and less_irrefl to less_irrefl_nat. Potential INCOMPATIBILITY due to more general types and different variable names. * Library/Option_ord.thy: Canonical order on option type. * Library/RBT.thy: Red-black trees, an efficient implementation of finite maps. * Library/Countable.thy: Type class for countable types. * Theory Int: The representation of numerals has changed. The infix operator BIT and the bit datatype with constructors B0 and B1 have disappeared. INCOMPATIBILITY, use "Int.Bit0 x" and "Int.Bit1 y" in place of "x BIT bit.B0" and "y BIT bit.B1", respectively. Theorems involving BIT, B0, or B1 have been renamed with "Bit0" or "Bit1" accordingly. * Theory Nat: definition of <= and < on natural numbers no longer depend on well-founded relations. INCOMPATIBILITY. Definitions le_def and less_def have disappeared. Consider lemmas not_less [symmetric, where ?'a = nat] and less_eq [symmetric] instead. * Theory Finite_Set: locales ACf, ACe, ACIf, ACIfSL and ACIfSLlin (whose purpose mainly is for various fold_set functionals) have been abandoned in favor of the existing algebraic classes ab_semigroup_mult, comm_monoid_mult, ab_semigroup_idem_mult, lower_semilattice (resp. upper_semilattice) and linorder. INCOMPATIBILITY. * Theory Transitive_Closure: induct and cases rules now declare proper case_names ("base" and "step"). INCOMPATIBILITY. * Theorem Inductive.lfp_ordinal_induct generalized to complete lattices. The form set-specific version is available as Inductive.lfp_ordinal_induct_set. * Renamed theorems "power.simps" to "power_int.simps". INCOMPATIBILITY. * Class semiring_div provides basic abstract properties of semirings with division and modulo operations. Subsumes former class dvd_mod. * Merged theories IntDef, Numeral and IntArith into unified theory Int. INCOMPATIBILITY. * Theory Library/Code_Index: type "index" now represents natural numbers rather than integers. INCOMPATIBILITY. * New class "uminus" with operation "uminus" (split of from class "minus" which now only has operation "minus", binary). INCOMPATIBILITY. * Constants "card", "internal_split", "option_map" now with authentic syntax. INCOMPATIBILITY. * Definitions subset_def, psubset_def, set_diff_def, Compl_def, le_bool_def, less_bool_def, le_fun_def, less_fun_def, inf_bool_def, sup_bool_def, Inf_bool_def, Sup_bool_def, inf_fun_def, sup_fun_def, Inf_fun_def, Sup_fun_def, inf_set_def, sup_set_def, Inf_set_def, Sup_set_def, le_def, less_def, option_map_def now with object equality. INCOMPATIBILITY. * Records. Removed K_record, and replaced it by pure lambda term %x. c. The simplifier setup is now more robust against eta expansion. INCOMPATIBILITY: in cases explicitly referring to K_record. * Library/Multiset: {#a, b, c#} abbreviates {#a#} + {#b#} + {#c#}. * Library/ListVector: new theory of arithmetic vector operations. * Library/Order_Relation: new theory of various orderings as sets of pairs. Defines preorders, partial orders, linear orders and well-orders on sets and on types. *** ZF *** * Renamed some theories to allow to loading both ZF and HOL in the same session: Datatype -> Datatype_ZF Inductive -> Inductive_ZF Int -> Int_ZF IntDiv -> IntDiv_ZF Nat -> Nat_ZF List -> List_ZF Main -> Main_ZF INCOMPATIBILITY: ZF theories that import individual theories below Main might need to be adapted. Regular theory Main is still available, as trivial extension of Main_ZF. *** ML *** * ML within Isar: antiquotation @{const name} or @{const name(typargs)} produces statically-checked Const term. * Functor NamedThmsFun: data is available to the user as dynamic fact (of the same name). Removed obsolete print command. * Removed obsolete "use_legacy_bindings" function. * The ``print mode'' is now a thread-local value derived from a global template (the former print_mode reference), thus access becomes non-critical. The global print_mode reference is for session management only; user-code should use print_mode_value, print_mode_active, PrintMode.setmp etc. INCOMPATIBILITY. * Functions system/system_out provide a robust way to invoke external shell commands, with propagation of interrupts (requires Poly/ML 5.2.1). Do not use OS.Process.system etc. from the basis library! *** System *** * Default settings: PROOFGENERAL_OPTIONS no longer impose xemacs --- in accordance with Proof General 3.7, which prefers GNU emacs. * isatool tty runs Isabelle process with plain tty interaction; optional line editor may be specified via ISABELLE_LINE_EDITOR setting, the default settings attempt to locate "ledit" and "rlwrap". * isatool browser now works with Cygwin as well, using general "javapath" function defined in Isabelle process environment. * YXML notation provides a simple and efficient alternative to standard XML transfer syntax. See src/Pure/General/yxml.ML and isatool yxml as described in the Isabelle system manual. * JVM class isabelle.IsabelleProcess (located in Isabelle/lib/classes) provides general wrapper for managing an Isabelle process in a robust fashion, with ``cooked'' output from stdin/stderr. * Rudimentary Isabelle plugin for jEdit (see Isabelle/lib/jedit), based on Isabelle/JVM process wrapper (see Isabelle/lib/classes). * Removed obsolete THIS_IS_ISABELLE_BUILD feature. NB: the documented way of changing the user's settings is via ISABELLE_HOME_USER/etc/settings, which is a fully featured bash script. * Multithreading.max_threads := 0 refers to the number of actual CPU cores of the underlying machine, which is a good starting point for optimal performance tuning. The corresponding usedir option -M allows "max" as an alias for "0". WARNING: does not work on certain versions of Mac OS (with Poly/ML 5.1). * isabelle-process: non-ML sessions are run with "nice", to reduce the adverse effect of Isabelle flooding interactive front-ends (notably ProofGeneral / XEmacs). New in Isabelle2007 (November 2007) ----------------------------------- *** General *** * More uniform information about legacy features, notably a warning/error of "Legacy feature: ...", depending on the state of the tolerate_legacy_features flag (default true). FUTURE INCOMPATIBILITY: legacy features will disappear eventually. * Theory syntax: the header format ``theory A = B + C:'' has been discontinued in favour of ``theory A imports B C begin''. Use isatool fixheaders to convert existing theory files. INCOMPATIBILITY. * Theory syntax: the old non-Isar theory file format has been discontinued altogether. Note that ML proof scripts may still be used with Isar theories; migration is usually quite simple with the ML function use_legacy_bindings. INCOMPATIBILITY. * Theory syntax: some popular names (e.g. 'class', 'declaration', 'fun', 'help', 'if') are now keywords. INCOMPATIBILITY, use double quotes. * Theory loader: be more serious about observing the static theory header specifications (including optional directories), but not the accidental file locations of previously successful loads. The strict update policy of former update_thy is now already performed by use_thy, so the former has been removed; use_thys updates several theories simultaneously, just as 'imports' within a theory header specification, but without merging the results. Potential INCOMPATIBILITY: may need to refine theory headers and commands ROOT.ML which depend on load order. * Theory loader: optional support for content-based file identification, instead of the traditional scheme of full physical path plus date stamp; configured by the ISABELLE_FILE_IDENT setting (cf. the system manual). The new scheme allows to work with non-finished theories in persistent session images, such that source files may be moved later on without requiring reloads. * Theory loader: old-style ML proof scripts being *attached* to a thy file (with the same base name as the theory) are considered a legacy feature, which will disappear eventually. Even now, the theory loader no longer maintains dependencies on such files. * Syntax: the scope for resolving ambiguities via type-inference is now limited to individual terms, instead of whole simultaneous specifications as before. This greatly reduces the complexity of the syntax module and improves flexibility by separating parsing and type-checking. INCOMPATIBILITY: additional type-constraints (explicit 'fixes' etc.) are required in rare situations. * Syntax: constants introduced by new-style packages ('definition', 'abbreviation' etc.) are passed through the syntax module in ``authentic mode''. This means that associated mixfix annotations really stick to such constants, independently of potential name space ambiguities introduced later on. INCOMPATIBILITY: constants in parse trees are represented slightly differently, may need to adapt syntax translations accordingly. Use CONST marker in 'translations' and @{const_syntax} antiquotation in 'parse_translation' etc. * Legacy goal package: reduced interface to the bare minimum required to keep existing proof scripts running. Most other user-level functions are now part of the OldGoals structure, which is *not* open by default (consider isatool expandshort before open OldGoals). Removed top_sg, prin, printyp, pprint_term/typ altogether, because these tend to cause confusion about the actual goal (!) context being used here, which is not necessarily the same as the_context(). * Command 'find_theorems': supports "*" wild-card in "name:" criterion; "with_dups" option. Certain ProofGeneral versions might support a specific search form (see ProofGeneral/CHANGES). * The ``prems limit'' option (cf. ProofContext.prems_limit) is now -1 by default, which means that "prems" (and also "fixed variables") are suppressed from proof state output. Note that the ProofGeneral settings mechanism allows to change and save options persistently, but older versions of Isabelle will fail to start up if a negative prems limit is imposed. * Local theory targets may be specified by non-nested blocks of ``context/locale/class ... begin'' followed by ``end''. The body may contain definitions, theorems etc., including any derived mechanism that has been implemented on top of these primitives. This concept generalizes the existing ``theorem (in ...)'' towards more versatility and scalability. * Proof General interface: proper undo of final 'end' command; discontinued Isabelle/classic mode (ML proof scripts). *** Document preparation *** * Added antiquotation @{theory name} which prints the given name, after checking that it refers to a valid ancestor theory in the current context. * Added antiquotations @{ML_type text} and @{ML_struct text} which check the given source text as ML type/structure, printing verbatim. * Added antiquotation @{abbrev "c args"} which prints the abbreviation "c args == rhs" given in the current context. (Any number of arguments may be given on the LHS.) *** Pure *** * The 'class' package offers a combination of axclass and locale to achieve Haskell-like type classes in Isabelle. Definitions and theorems within a class context produce both relative results (with implicit parameters according to the locale context), and polymorphic constants with qualified polymorphism (according to the class context). Within the body context of a 'class' target, a separate syntax layer ("user space type system") takes care of converting between global polymorphic consts and internal locale representation. See src/HOL/ex/Classpackage.thy for examples (as well as main HOL). "isatool doc classes" provides a tutorial. * Generic code generator framework allows to generate executable code for ML and Haskell (including Isabelle classes). A short usage sketch: internal compilation: export_code <list of constants (term syntax)> in SML writing SML code to a file: export_code <list of constants (term syntax)> in SML <filename> writing OCaml code to a file: export_code <list of constants (term syntax)> in OCaml <filename> writing Haskell code to a bunch of files: export_code <list of constants (term syntax)> in Haskell <filename> evaluating closed propositions to True/False using code generation: method ``eval'' Reasonable default setup of framework in HOL. Theorem attributs for selecting and transforming function equations theorems: [code fun]: select a theorem as function equation for a specific constant [code fun del]: deselect a theorem as function equation for a specific constant [code inline]: select an equation theorem for unfolding (inlining) in place [code inline del]: deselect an equation theorem for unfolding (inlining) in place User-defined serializations (target in {SML, OCaml, Haskell}): code_const <and-list of constants (term syntax)> {(target) <and-list of const target syntax>}+ code_type <and-list of type constructors> {(target) <and-list of type target syntax>}+ code_instance <and-list of instances> {(target)}+ where instance ::= <type constructor> :: <class> code_class <and_list of classes> {(target) <and-list of class target syntax>}+ where class target syntax ::= <class name> {where {<classop> == <target syntax>}+}? code_instance and code_class only are effective to target Haskell. For example usage see src/HOL/ex/Codegenerator.thy and src/HOL/ex/Codegenerator_Pretty.thy. A separate tutorial on code generation from Isabelle/HOL theories is available via "isatool doc codegen". * Code generator: consts in 'consts_code' Isar commands are now referred to by usual term syntax (including optional type annotations). * Command 'no_translations' removes translation rules from theory syntax. * Overloaded definitions are now actually checked for acyclic dependencies. The overloading scheme is slightly more general than that of Haskell98, although Isabelle does not demand an exact correspondence to type class and instance declarations. INCOMPATIBILITY, use ``defs (unchecked overloaded)'' to admit more exotic versions of overloading -- at the discretion of the user! Polymorphic constants are represented via type arguments, i.e. the instantiation that matches an instance against the most general declaration given in the signature. For example, with the declaration c :: 'a => 'a => 'a, an instance c :: nat => nat => nat is represented as c(nat). Overloading is essentially simultaneous structural recursion over such type arguments. Incomplete specification patterns impose global constraints on all occurrences, e.g. c('a * 'a) on the LHS means that more general c('a * 'b) will be disallowed on any RHS. Command 'print_theory' outputs the normalized system of recursive equations, see section "definitions". * Configuration options are maintained within the theory or proof context (with name and type bool/int/string), providing a very simple interface to a poor-man's version of general context data. Tools may declare options in ML (e.g. using Attrib.config_int) and then refer to these values using Config.get etc. Users may change options via an associated attribute of the same name. This form of context declaration works particularly well with commands 'declare' or 'using', for example ``declare [[foo = 42]]''. Thus it has become very easy to avoid global references, which would not observe Isar toplevel undo/redo and fail to work with multithreading. Various global ML references of Pure and HOL have been turned into configuration options: Unify.search_bound unify_search_bound Unify.trace_bound unify_trace_bound Unify.trace_simp unify_trace_simp Unify.trace_types unify_trace_types Simplifier.simp_depth_limit simp_depth_limit Blast.depth_limit blast_depth_limit DatatypeProp.dtK datatype_distinctness_limit fast_arith_neq_limit fast_arith_neq_limit fast_arith_split_limit fast_arith_split_limit * Named collections of theorems may be easily installed as context data using the functor NamedThmsFun (see also src/Pure/Tools/named_thms.ML). The user may add or delete facts via attributes; there is also a toplevel print command. This facility is just a common case of general context data, which is the preferred way for anything more complex than just a list of facts in canonical order. * Isar: command 'declaration' augments a local theory by generic declaration functions written in ML. This enables arbitrary content being added to the context, depending on a morphism that tells the difference of the original declaration context wrt. the application context encountered later on. * Isar: proper interfaces for simplification procedures. Command 'simproc_setup' declares named simprocs (with match patterns, and body text in ML). Attribute "simproc" adds/deletes simprocs in the current context. ML antiquotation @{simproc name} retrieves named simprocs. * Isar: an extra pair of brackets around attribute declarations abbreviates a theorem reference involving an internal dummy fact, which will be ignored later --- only the effect of the attribute on the background context will persist. This form of in-place declarations is particularly useful with commands like 'declare' and 'using', for example ``have A using [[simproc a]] by simp''. * Isar: method "assumption" (and implicit closing of subproofs) now takes simple non-atomic goal assumptions into account: after applying an assumption as a rule the resulting subgoals are solved by atomic assumption steps. This is particularly useful to finish 'obtain' goals, such as "!!x. (!!x. P x ==> thesis) ==> P x ==> thesis", without referring to the original premise "!!x. P x ==> thesis" in the Isar proof context. POTENTIAL INCOMPATIBILITY: method "assumption" is more permissive. * Isar: implicit use of prems from the Isar proof context is considered a legacy feature. Common applications like ``have A .'' may be replaced by ``have A by fact'' or ``note `A`''. In general, referencing facts explicitly here improves readability and maintainability of proof texts. * Isar: improper proof element 'guess' is like 'obtain', but derives the obtained context from the course of reasoning! For example: assume "EX x y. A x & B y" -- "any previous fact" then guess x and y by clarify This technique is potentially adventurous, depending on the facts and proof tools being involved here. * Isar: known facts from the proof context may be specified as literal propositions, using ASCII back-quote syntax. This works wherever named facts used to be allowed so far, in proof commands, proof methods, attributes etc. Literal facts are retrieved from the context according to unification of type and term parameters. For example, provided that "A" and "A ==> B" and "!!x. P x ==> Q x" are known theorems in the current context, then these are valid literal facts: `A` and `A ==> B` and `!!x. P x ==> Q x" as well as `P a ==> Q a` etc. There is also a proof method "fact" which does the same composition for explicit goal states, e.g. the following proof texts coincide with certain special cases of literal facts: have "A" by fact == note `A` have "A ==> B" by fact == note `A ==> B` have "!!x. P x ==> Q x" by fact == note `!!x. P x ==> Q x` have "P a ==> Q a" by fact == note `P a ==> Q a` * Isar: ":" (colon) is no longer a symbolic identifier character in outer syntax. Thus symbolic identifiers may be used without additional white space in declarations like this: ``assume *: A''. * Isar: 'print_facts' prints all local facts of the current context, both named and unnamed ones. * Isar: 'def' now admits simultaneous definitions, e.g.: def x == "t" and y == "u" * Isar: added command 'unfolding', which is structurally similar to 'using', but affects both the goal state and facts by unfolding given rewrite rules. Thus many occurrences of the 'unfold' method or 'unfolded' attribute may be replaced by first-class proof text. * Isar: methods 'unfold' / 'fold', attributes 'unfolded' / 'folded', and command 'unfolding' now all support object-level equalities (potentially conditional). The underlying notion of rewrite rule is analogous to the 'rule_format' attribute, but *not* that of the Simplifier (which is usually more generous). * Isar: the new attribute [rotated n] (default n = 1) rotates the premises of a theorem by n. Useful in conjunction with drule. * Isar: the goal restriction operator [N] (default N = 1) evaluates a method expression within a sandbox consisting of the first N sub-goals, which need to exist. For example, ``simp_all [3]'' simplifies the first three sub-goals, while (rule foo, simp_all)[] simplifies all new goals that emerge from applying rule foo to the originally first one. * Isar: schematic goals are no longer restricted to higher-order patterns; e.g. ``lemma "?P(?x)" by (rule TrueI)'' now works as expected. * Isar: the conclusion of a long theorem statement is now either 'shows' (a simultaneous conjunction, as before), or 'obtains' (essentially a disjunction of cases with local parameters and assumptions). The latter allows to express general elimination rules adequately; in this notation common elimination rules look like this: lemma exE: -- "EX x. P x ==> (!!x. P x ==> thesis) ==> thesis" assumes "EX x. P x" obtains x where "P x" lemma conjE: -- "A & B ==> (A ==> B ==> thesis) ==> thesis" assumes "A & B" obtains A and B lemma disjE: -- "A | B ==> (A ==> thesis) ==> (B ==> thesis) ==> thesis" assumes "A | B" obtains A | B The subsequent classical rules even refer to the formal "thesis" explicitly: lemma classical: -- "(~ thesis ==> thesis) ==> thesis" obtains "~ thesis" lemma Peirce's_Law: -- "((thesis ==> something) ==> thesis) ==> thesis" obtains "thesis ==> something" The actual proof of an 'obtains' statement is analogous to that of the Isar proof element 'obtain', only that there may be several cases. Optional case names may be specified in parentheses; these will be available both in the present proof and as annotations in the resulting rule, for later use with the 'cases' method (cf. attribute case_names). * Isar: the assumptions of a long theorem statement are available as "assms" fact in the proof context. This is more appropriate than the (historical) "prems", which refers to all assumptions of the current context, including those from the target locale, proof body etc. * Isar: 'print_statement' prints theorems from the current theory or proof context in long statement form, according to the syntax of a top-level lemma. * Isar: 'obtain' takes an optional case name for the local context introduction rule (default "that"). * Isar: removed obsolete 'concl is' patterns. INCOMPATIBILITY, use explicit (is "_ ==> ?foo") in the rare cases where this still happens to occur. * Pure: syntax "CONST name" produces a fully internalized constant according to the current context. This is particularly useful for syntax translations that should refer to internal constant representations independently of name spaces. * Pure: syntax constant for foo (binder "FOO ") is called "foo_binder" instead of "FOO ". This allows multiple binder declarations to coexist in the same context. INCOMPATIBILITY. * Isar/locales: 'notation' provides a robust interface to the 'syntax' primitive that also works in a locale context (both for constants and fixed variables). Type declaration and internal syntactic representation of given constants retrieved from the context. Likewise, the 'no_notation' command allows to remove given syntax annotations from the current context. * Isar/locales: new derived specification elements 'axiomatization', 'definition', 'abbreviation', which support type-inference, admit object-level specifications (equality, equivalence). See also the isar-ref manual. Examples: axiomatization eq (infix "===" 50) where eq_refl: "x === x" and eq_subst: "x === y ==> P x ==> P y" definition "f x y = x + y + 1" definition g where "g x = f x x" abbreviation neq (infix "=!=" 50) where "x =!= y == ~ (x === y)" These specifications may be also used in a locale context. Then the constants being introduced depend on certain fixed parameters, and the constant name is qualified by the locale base name. An internal abbreviation takes care for convenient input and output, making the parameters implicit and using the original short name. See also src/HOL/ex/Abstract_NAT.thy for an example of deriving polymorphic entities from a monomorphic theory. Presently, abbreviations are only available 'in' a target locale, but not inherited by general import expressions. Also note that 'abbreviation' may be used as a type-safe replacement for 'syntax' + 'translations' in common applications. The "no_abbrevs" print mode prevents folding of abbreviations in term output. Concrete syntax is attached to specified constants in internal form, independently of name spaces. The parse tree representation is slightly different -- use 'notation' instead of raw 'syntax', and 'translations' with explicit "CONST" markup to accommodate this. * Pure/Isar: unified syntax for new-style specification mechanisms (e.g. 'definition', 'abbreviation', or 'inductive' in HOL) admits full type inference and dummy patterns ("_"). For example: definition "K x _ = x" inductive conj for A B where "A ==> B ==> conj A B" * Pure: command 'print_abbrevs' prints all constant abbreviations of the current context. Print mode "no_abbrevs" prevents inversion of abbreviations on output. * Isar/locales: improved parameter handling: use of locales "var" and "struct" no longer necessary; - parameter renamings are no longer required to be injective. For example, this allows to define endomorphisms as locale endom = homom mult mult h. * Isar/locales: changed the way locales with predicates are defined. Instead of accumulating the specification, the imported expression is now an interpretation. INCOMPATIBILITY: different normal form of locale expressions. In particular, in interpretations of locales with predicates, goals repesenting already interpreted fragments are not removed automatically. Use methods `intro_locales' and `unfold_locales'; see below. * Isar/locales: new methods `intro_locales' and `unfold_locales' provide backward reasoning on locales predicates. The methods are aware of interpretations and discharge corresponding goals. `intro_locales' is less aggressive then `unfold_locales' and does not unfold predicates to assumptions. * Isar/locales: the order in which locale fragments are accumulated has changed. This enables to override declarations from fragments due to interpretations -- for example, unwanted simp rules. * Isar/locales: interpretation in theories and proof contexts has been extended. One may now specify (and prove) equations, which are unfolded in interpreted theorems. This is useful for replacing defined concepts (constants depending on locale parameters) by concepts already existing in the target context. Example: interpretation partial_order ["op <= :: [int, int] => bool"] where "partial_order.less (op <=) (x::int) y = (x < y)" Typically, the constant `partial_order.less' is created by a definition specification element in the context of locale partial_order. * Method "induct": improved internal context management to support local fixes and defines on-the-fly. Thus explicit meta-level connectives !! and ==> are rarely required anymore in inductive goals (using object-logic connectives for this purpose has been long obsolete anyway). Common proof patterns are explained in src/HOL/Induct/Common_Patterns.thy, see also src/HOL/Isar_examples/Puzzle.thy and src/HOL/Lambda for realistic examples. * Method "induct": improved handling of simultaneous goals. Instead of introducing object-level conjunction, the statement is now split into several conclusions, while the corresponding symbolic cases are nested accordingly. INCOMPATIBILITY, proofs need to be structured explicitly, see src/HOL/Induct/Common_Patterns.thy, for example. * Method "induct": mutual induction rules are now specified as a list of rule sharing the same induction cases. HOL packages usually provide foo_bar.inducts for mutually defined items foo and bar (e.g. inductive predicates/sets or datatypes). INCOMPATIBILITY, users need to specify mutual induction rules differently, i.e. like this: (induct rule: foo_bar.inducts) (induct set: foo bar) (induct pred: foo bar) (induct type: foo bar) The ML function ProjectRule.projections turns old-style rules into the new format. * Method "coinduct": dual of induction, see src/HOL/Library/Coinductive_List.thy for various examples. * Method "cases", "induct", "coinduct": the ``(open)'' option is considered a legacy feature. * Attribute "symmetric" produces result with standardized schematic variables (index 0). Potential INCOMPATIBILITY. * Simplifier: by default the simplifier trace only shows top level rewrites now. That is, trace_simp_depth_limit is set to 1 by default. Thus there is less danger of being flooded by the trace. The trace indicates where parts have been suppressed. * Provers/classical: removed obsolete classical version of elim_format attribute; classical elim/dest rules are now treated uniformly when manipulating the claset. * Provers/classical: stricter checks to ensure that supplied intro, dest and elim rules are well-formed; dest and elim rules must have at least one premise. * Provers/classical: attributes dest/elim/intro take an optional weight argument for the rule (just as the Pure versions). Weights are ignored by automated tools, but determine the search order of single rule steps. * Syntax: input syntax now supports dummy variable binding "%_. b", where the body does not mention the bound variable. Note that dummy patterns implicitly depend on their context of bounds, which makes "{_. _}" match any set comprehension as expected. Potential INCOMPATIBILITY -- parse translations need to cope with syntactic constant "_idtdummy" in the binding position. * Syntax: removed obsolete syntactic constant "_K" and its associated parse translation. INCOMPATIBILITY -- use dummy abstraction instead, for example "A -> B" => "Pi A (%_. B)". * Pure: 'class_deps' command visualizes the subclass relation, using the graph browser tool. * Pure: 'print_theory' now suppresses certain internal declarations by default; use '!' option for full details. *** HOL *** * Method "metis" proves goals by applying the Metis general-purpose resolution prover (see also http://gilith.com/software/metis/). Examples are in the directory MetisExamples. WARNING: the Isabelle/HOL-Metis integration does not yet work properly with multi-threading. * Command 'sledgehammer' invokes external automatic theorem provers as background processes. It generates calls to the "metis" method if successful. These can be pasted into the proof. Users do not have to wait for the automatic provers to return. WARNING: does not really work with multi-threading. * New "auto_quickcheck" feature tests outermost goal statements for potential counter-examples. Controlled by ML references auto_quickcheck (default true) and auto_quickcheck_time_limit (default 5000 milliseconds). Fails silently if statements is outside of executable fragment, or any other codgenerator problem occurs. * New constant "undefined" with axiom "undefined x = undefined". * Added class "HOL.eq", allowing for code generation with polymorphic equality. * Some renaming of class constants due to canonical name prefixing in the new 'class' package: HOL.abs ~> HOL.abs_class.abs HOL.divide ~> HOL.divide_class.divide 0 ~> HOL.zero_class.zero 1 ~> HOL.one_class.one op + ~> HOL.plus_class.plus op - ~> HOL.minus_class.minus uminus ~> HOL.minus_class.uminus op * ~> HOL.times_class.times op < ~> HOL.ord_class.less op <= > HOL.ord_class.less_eq Nat.power ~> Power.power_class.power Nat.size ~> Nat.size_class.size Numeral.number_of ~> Numeral.number_class.number_of FixedPoint.Inf ~> Lattices.complete_lattice_class.Inf FixedPoint.Sup ~> Lattices.complete_lattice_class.Sup Orderings.min ~> Orderings.ord_class.min Orderings.max ~> Orderings.ord_class.max Divides.op div ~> Divides.div_class.div Divides.op mod ~> Divides.div_class.mod Divides.op dvd ~> Divides.div_class.dvd INCOMPATIBILITY. Adaptions may be required in the following cases: a) User-defined constants using any of the names "plus", "minus", "times", "less" or "less_eq". The standard syntax translations for "+", "-" and "*" may go wrong. INCOMPATIBILITY: use more specific names. b) Variables named "plus", "minus", "times", "less", "less_eq" INCOMPATIBILITY: use more specific names. c) Permutative equations (e.g. "a + b = b + a") Since the change of names also changes the order of terms, permutative rewrite rules may get applied in a different order. Experience shows that this is rarely the case (only two adaptions in the whole Isabelle distribution). INCOMPATIBILITY: rewrite proofs d) ML code directly refering to constant names This in general only affects hand-written proof tactics, simprocs and so on. INCOMPATIBILITY: grep your sourcecode and replace names. Consider using @{const_name} antiquotation. * New class "default" with associated constant "default". * Function "sgn" is now overloaded and available on int, real, complex (and other numeric types), using class "sgn". Two possible defs of sgn are given as equational assumptions in the classes sgn_if and sgn_div_norm; ordered_idom now also inherits from sgn_if. INCOMPATIBILITY. * Locale "partial_order" now unified with class "order" (cf. theory Orderings), added parameter "less". INCOMPATIBILITY. * Renamings in classes "order" and "linorder": facts "refl", "trans" and "cases" to "order_refl", "order_trans" and "linorder_cases", to avoid clashes with HOL "refl" and "trans". INCOMPATIBILITY. * Classes "order" and "linorder": potential INCOMPATIBILITY due to changed order of proof goals in instance proofs. * The transitivity reasoner for partial and linear orders is set up for classes "order" and "linorder". Instances of the reasoner are available in all contexts importing or interpreting the corresponding locales. Method "order" invokes the reasoner separately; the reasoner is also integrated with the Simplifier as a solver. Diagnostic command 'print_orders' shows the available instances of the reasoner in the current context. * Localized monotonicity predicate in theory "Orderings"; integrated lemmas max_of_mono and min_of_mono with this predicate. INCOMPATIBILITY. * Formulation of theorem "dense" changed slightly due to integration with new class dense_linear_order. * Uniform lattice theory development in HOL. constants "meet" and "join" now named "inf" and "sup" constant "Meet" now named "Inf" classes "meet_semilorder" and "join_semilorder" now named "lower_semilattice" and "upper_semilattice" class "lorder" now named "lattice" class "comp_lat" now named "complete_lattice" Instantiation of lattice classes allows explicit definitions for "inf" and "sup" operations (or "Inf" and "Sup" for complete lattices). INCOMPATIBILITY. Theorem renames: meet_left_le ~> inf_le1 meet_right_le ~> inf_le2 join_left_le ~> sup_ge1 join_right_le ~> sup_ge2 meet_join_le ~> inf_sup_ord le_meetI ~> le_infI join_leI ~> le_supI le_meet ~> le_inf_iff le_join ~> ge_sup_conv meet_idempotent ~> inf_idem join_idempotent ~> sup_idem meet_comm ~> inf_commute join_comm ~> sup_commute meet_leI1 ~> le_infI1 meet_leI2 ~> le_infI2 le_joinI1 ~> le_supI1 le_joinI2 ~> le_supI2 meet_assoc ~> inf_assoc join_assoc ~> sup_assoc meet_left_comm ~> inf_left_commute meet_left_idempotent ~> inf_left_idem join_left_comm ~> sup_left_commute join_left_idempotent ~> sup_left_idem meet_aci ~> inf_aci join_aci ~> sup_aci le_def_meet ~> le_iff_inf le_def_join ~> le_iff_sup join_absorp2 ~> sup_absorb2 join_absorp1 ~> sup_absorb1 meet_absorp1 ~> inf_absorb1 meet_absorp2 ~> inf_absorb2 meet_join_absorp ~> inf_sup_absorb join_meet_absorp ~> sup_inf_absorb distrib_join_le ~> distrib_sup_le distrib_meet_le ~> distrib_inf_le add_meet_distrib_left ~> add_inf_distrib_left add_join_distrib_left ~> add_sup_distrib_left is_join_neg_meet ~> is_join_neg_inf is_meet_neg_join ~> is_meet_neg_sup add_meet_distrib_right ~> add_inf_distrib_right add_join_distrib_right ~> add_sup_distrib_right add_meet_join_distribs ~> add_sup_inf_distribs join_eq_neg_meet ~> sup_eq_neg_inf meet_eq_neg_join ~> inf_eq_neg_sup add_eq_meet_join ~> add_eq_inf_sup meet_0_imp_0 ~> inf_0_imp_0 join_0_imp_0 ~> sup_0_imp_0 meet_0_eq_0 ~> inf_0_eq_0 join_0_eq_0 ~> sup_0_eq_0 neg_meet_eq_join ~> neg_inf_eq_sup neg_join_eq_meet ~> neg_sup_eq_inf join_eq_if ~> sup_eq_if mono_meet ~> mono_inf mono_join ~> mono_sup meet_bool_eq ~> inf_bool_eq join_bool_eq ~> sup_bool_eq meet_fun_eq ~> inf_fun_eq join_fun_eq ~> sup_fun_eq meet_set_eq ~> inf_set_eq join_set_eq ~> sup_set_eq meet1_iff ~> inf1_iff meet2_iff ~> inf2_iff meet1I ~> inf1I meet2I ~> inf2I meet1D1 ~> inf1D1 meet2D1 ~> inf2D1 meet1D2 ~> inf1D2 meet2D2 ~> inf2D2 meet1E ~> inf1E meet2E ~> inf2E join1_iff ~> sup1_iff join2_iff ~> sup2_iff join1I1 ~> sup1I1 join2I1 ~> sup2I1 join1I1 ~> sup1I1 join2I2 ~> sup1I2 join1CI ~> sup1CI join2CI ~> sup2CI join1E ~> sup1E join2E ~> sup2E is_meet_Meet ~> is_meet_Inf Meet_bool_def ~> Inf_bool_def Meet_fun_def ~> Inf_fun_def Meet_greatest ~> Inf_greatest Meet_lower ~> Inf_lower Meet_set_def ~> Inf_set_def Sup_def ~> Sup_Inf Sup_bool_eq ~> Sup_bool_def Sup_fun_eq ~> Sup_fun_def Sup_set_eq ~> Sup_set_def listsp_meetI ~> listsp_infI listsp_meet_eq ~> listsp_inf_eq meet_min ~> inf_min join_max ~> sup_max * Added syntactic class "size"; overloaded constant "size" now has type "'a::size ==> bool" * Internal reorganisation of `size' of datatypes: size theorems "foo.size" are no longer subsumed by "foo.simps" (but are still simplification rules by default!); theorems "prod.size" now named "*.size". * Class "div" now inherits from class "times" rather than "type". INCOMPATIBILITY. * HOL/Finite_Set: "name-space" locales Lattice, Distrib_lattice, Linorder etc. have disappeared; operations defined in terms of fold_set now are named Inf_fin, Sup_fin. INCOMPATIBILITY. * HOL/Nat: neq0_conv no longer declared as iff. INCOMPATIBILITY. * HOL-Word: New extensive library and type for generic, fixed size machine words, with arithemtic, bit-wise, shifting and rotating operations, reflection into int, nat, and bool lists, automation for linear arithmetic (by automatic reflection into nat or int), including lemmas on overflow and monotonicity. Instantiated to all appropriate arithmetic type classes, supporting automatic simplification of numerals on all operations. * Library/Boolean_Algebra: locales for abstract boolean algebras. * Library/Numeral_Type: numbers as types, e.g. TYPE(32). * Code generator library theories: - Code_Integer represents HOL integers by big integer literals in target languages. - Code_Char represents HOL characters by character literals in target languages. - Code_Char_chr like Code_Char, but also offers treatment of character codes; includes Code_Integer. - Executable_Set allows to generate code for finite sets using lists. - Executable_Rat implements rational numbers as triples (sign, enumerator, denominator). - Executable_Real implements a subset of real numbers, namly those representable by rational numbers. - Efficient_Nat implements natural numbers by integers, which in general will result in higher efficency; pattern matching with 0/Suc is eliminated; includes Code_Integer. - Code_Index provides an additional datatype index which is mapped to target-language built-in integers. - Code_Message provides an additional datatype message_string which is isomorphic to strings; messages are mapped to target-language strings. * New package for inductive predicates An n-ary predicate p with m parameters z_1, ..., z_m can now be defined via inductive p :: "U_1 => ... => U_m => T_1 => ... => T_n => bool" for z_1 :: U_1 and ... and z_n :: U_m where rule_1: "... ==> p z_1 ... z_m t_1_1 ... t_1_n" | ... with full support for type-inference, rather than consts s :: "U_1 => ... => U_m => (T_1 * ... * T_n) set" abbreviation p :: "U_1 => ... => U_m => T_1 => ... => T_n => bool" where "p z_1 ... z_m x_1 ... x_n == (x_1, ..., x_n) : s z_1 ... z_m" inductive "s z_1 ... z_m" intros rule_1: "... ==> (t_1_1, ..., t_1_n) : s z_1 ... z_m" ... For backward compatibility, there is a wrapper allowing inductive sets to be defined with the new package via inductive_set s :: "U_1 => ... => U_m => (T_1 * ... * T_n) set" for z_1 :: U_1 and ... and z_n :: U_m where rule_1: "... ==> (t_1_1, ..., t_1_n) : s z_1 ... z_m" | ... or inductive_set s :: "U_1 => ... => U_m => (T_1 * ... * T_n) set" and p :: "U_1 => ... => U_m => T_1 => ... => T_n => bool" for z_1 :: U_1 and ... and z_n :: U_m where "p z_1 ... z_m x_1 ... x_n == (x_1, ..., x_n) : s z_1 ... z_m" | rule_1: "... ==> p z_1 ... z_m t_1_1 ... t_1_n" | ... if the additional syntax "p ..." is required. Numerous examples can be found in the subdirectories src/HOL/Auth, src/HOL/Bali, src/HOL/Induct, and src/HOL/MicroJava. INCOMPATIBILITIES: - Since declaration and definition of inductive sets or predicates is no longer separated, abbreviations involving the newly introduced sets or predicates must be specified together with the introduction rules after the 'where' keyword (see above), rather than before the actual inductive definition. - The variables in induction and elimination rules are now quantified in the order of their occurrence in the introduction rules, rather than in alphabetical order. Since this may break some proofs, these proofs either have to be repaired, e.g. by reordering the variables a_i_1 ... a_i_{k_i} in Isar 'case' statements of the form case (rule_i a_i_1 ... a_i_{k_i}) or the old order of quantification has to be restored by explicitly adding meta-level quantifiers in the introduction rules, i.e. | rule_i: "!!a_i_1 ... a_i_{k_i}. ... ==> p z_1 ... z_m t_i_1 ... t_i_n" - The format of the elimination rules is now p z_1 ... z_m x_1 ... x_n ==> (!!a_1_1 ... a_1_{k_1}. x_1 = t_1_1 ==> ... ==> x_n = t_1_n ==> ... ==> P) ==> ... ==> P for predicates and (x_1, ..., x_n) : s z_1 ... z_m ==> (!!a_1_1 ... a_1_{k_1}. x_1 = t_1_1 ==> ... ==> x_n = t_1_n ==> ... ==> P) ==> ... ==> P for sets rather than x : s z_1 ... z_m ==> (!!a_1_1 ... a_1_{k_1}. x = (t_1_1, ..., t_1_n) ==> ... ==> P) ==> ... ==> P This may require terms in goals to be expanded to n-tuples (e.g. using case_tac or simplification with the split_paired_all rule) before the above elimination rule is applicable. - The elimination or case analysis rules for (mutually) inductive sets or predicates are now called "p_1.cases" ... "p_k.cases". The list of rules "p_1_..._p_k.elims" is no longer available. * New package "function"/"fun" for general recursive functions, supporting mutual and nested recursion, definitions in local contexts, more general pattern matching and partiality. See HOL/ex/Fundefs.thy for small examples, and the separate tutorial on the function package. The old recdef "package" is still available as before, but users are encouraged to use the new package. * Method "lexicographic_order" automatically synthesizes termination relations as lexicographic combinations of size measures. * Case-expressions allow arbitrary constructor-patterns (including "_") and take their order into account, like in functional programming. Internally, this is translated into nested case-expressions; missing cases are added and mapped to the predefined constant "undefined". In complicated cases printing may no longer show the original input but the internal form. Lambda-abstractions allow the same form of pattern matching: "% pat1 => e1 | ..." is an abbreviation for "%x. case x of pat1 => e1 | ..." where x is a new variable. * IntDef: The constant "int :: nat => int" has been removed; now "int" is an abbreviation for "of_nat :: nat => int". The simplification rules for "of_nat" have been changed to work like "int" did previously. Potential INCOMPATIBILITY: - "of_nat (Suc m)" simplifies to "1 + of_nat m" instead of "of_nat m + 1" - of_nat_diff and of_nat_mult are no longer default simp rules * Method "algebra" solves polynomial equations over (semi)rings using Groebner bases. The (semi)ring structure is defined by locales and the tool setup depends on that generic context. Installing the method for a specific type involves instantiating the locale and possibly adding declarations for computation on the coefficients. The method is already instantiated for natural numbers and for the axiomatic class of idoms with numerals. See also the paper by Chaieb and Wenzel at CALCULEMUS 2007 for the general principles underlying this architecture of context-aware proof-tools. * Method "ferrack" implements quantifier elimination over special-purpose dense linear orders using locales (analogous to "algebra"). The method is already installed for class {ordered_field,recpower,number_ring} which subsumes real, hyperreal, rat, etc. * Former constant "List.op @" now named "List.append". Use ML antiquotations @{const_name List.append} or @{term " ... @ ... "} to circumvent possible incompatibilities when working on ML level. * primrec: missing cases mapped to "undefined" instead of "arbitrary". * New function listsum :: 'a list => 'a for arbitrary monoids. Special syntax: "SUM x <- xs. f x" (and latex variants) * New syntax for Haskell-like list comprehension (input only), eg. [(x,y). x <- xs, y <- ys, x ~= y], see also src/HOL/List.thy. * The special syntax for function "filter" has changed from [x : xs. P] to [x <- xs. P] to avoid an ambiguity caused by list comprehension syntax, and for uniformity. INCOMPATIBILITY. * [a..b] is now defined for arbitrary linear orders. It used to be defined on nat only, as an abbreviation for [a..<Suc b] INCOMPATIBILITY. * Renamed lemma "set_take_whileD" to "set_takeWhileD". * New functions "sorted" and "sort" in src/HOL/List.thy. * New lemma collection field_simps (an extension of ring_simps) for manipulating (in)equations involving division. Multiplies with all denominators that can be proved to be non-zero (in equations) or positive/negative (in inequations). * Lemma collections ring_eq_simps, group_eq_simps and ring_distrib have been improved and renamed to ring_simps, group_simps and ring_distribs. Removed lemmas field_xyz in theory Ring_and_Field because they were subsumed by lemmas xyz. INCOMPATIBILITY. * Theory Library/Commutative_Ring: switched from recdef to function package; constants add, mul, pow now curried. Infix syntax for algebraic operations. * Dropped redundant lemma def_imp_eq in favor of meta_eq_to_obj_eq. INCOMPATIBILITY. * Dropped redundant lemma if_def2 in favor of if_bool_eq_conj. INCOMPATIBILITY. * HOL/records: generalised field-update to take a function on the field rather than the new value: r(|A := x|) is translated to A_update (K x) r The K-combinator that is internally used is called K_record. INCOMPATIBILITY: Usage of the plain update functions has to be adapted. * Class "semiring_0" now contains annihilation axioms x * 0 = 0 and 0 * x = 0, which are required for a semiring. Richer structures do not inherit from semiring_0 anymore, because this property is a theorem there, not an axiom. INCOMPATIBILITY: In instances of semiring_0, there is more to prove, but this is mostly trivial. * Class "recpower" is generalized to arbitrary monoids, not just commutative semirings. INCOMPATIBILITY: may need to incorporate commutativity or semiring properties additionally. * Constant "List.list_all2" in List.thy now uses authentic syntax. INCOMPATIBILITY: translations containing list_all2 may go wrong, better use 'abbreviation'. * Renamed constant "List.op mem" to "List.member". INCOMPATIBILITY. * Numeral syntax: type 'bin' which was a mere type copy of 'int' has been abandoned in favour of plain 'int'. INCOMPATIBILITY -- significant changes for setting up numeral syntax for types: - New constants Numeral.pred and Numeral.succ instead of former Numeral.bin_pred and Numeral.bin_succ. - Use integer operations instead of bin_add, bin_mult and so on. - Numeral simplification theorems named Numeral.numeral_simps instead of Bin_simps. - ML structure Bin_Simprocs now named Int_Numeral_Base_Simprocs. See src/HOL/Integ/IntArith.thy for an example setup. * Command 'normal_form' computes the normal form of a term that may contain free variables. For example ``normal_form "rev [a, b, c]"'' produces ``[b, c, a]'' (without proof). This command is suitable for heavy-duty computations because the functions are compiled to ML first. Correspondingly, a method "normalization" is provided. See further src/HOL/ex/NormalForm.thy and src/Tools/nbe.ML. * Alternative iff syntax "A <-> B" for equality on bool (with priority 25 like -->); output depends on the "iff" print_mode, the default is "A = B" (with priority 50). * Relations less (<) and less_eq (<=) are also available on type bool. Modified syntax to disallow nesting without explicit parentheses, e.g. "(x < y) < z" or "x < (y < z)", but NOT "x < y < z". Potential INCOMPATIBILITY. * "LEAST x:A. P" expands to "LEAST x. x:A & P" (input only). * Relation composition operator "op O" now has precedence 75 and binds stronger than union and intersection. INCOMPATIBILITY. * The old set interval syntax "{m..n(}" (and relatives) has been removed. Use "{m..<n}" (and relatives) instead. * In the context of the assumption "~(s = t)" the Simplifier rewrites "t = s" to False (by simproc "neq"). INCOMPATIBILITY, consider using ``declare [[simproc del: neq]]''. * Simplifier: "m dvd n" where m and n are numbers is evaluated to True/False. * Theorem Cons_eq_map_conv no longer declared as "simp". * Theorem setsum_mult renamed to setsum_right_distrib. * Prefer ex1I over ex_ex1I in single-step reasoning, e.g. by the ``rule'' method. * Reimplemented methods "sat" and "satx", with several improvements: goals no longer need to be stated as "<prems> ==> False", equivalences (i.e. "=" on type bool) are handled, variable names of the form "lit_<n>" are no longer reserved, significant speedup. * Methods "sat" and "satx" can now replay MiniSat proof traces. zChaff is still supported as well. * 'inductive' and 'datatype': provide projections of mutual rules, bundled as foo_bar.inducts; * Library: moved theories Parity, GCD, Binomial, Infinite_Set to Library. * Library: moved theory Accessible_Part to main HOL. * Library: added theory Coinductive_List of potentially infinite lists as greatest fixed-point. * Library: added theory AssocList which implements (finite) maps as association lists. * Method "evaluation" solves goals (i.e. a boolean expression) efficiently by compiling it to ML. The goal is "proved" (via an oracle) if it evaluates to True. * Linear arithmetic now splits certain operators (e.g. min, max, abs) also when invoked by the simplifier. This results in the Simplifier being more powerful on arithmetic goals. INCOMPATIBILITY. Configuration option fast_arith_split_limit=0 recovers the old behavior. * Support for hex (0x20) and binary (0b1001) numerals. * New method: reify eqs (t), where eqs are equations for an interpretation I :: 'a list => 'b => 'c and t::'c is an optional parameter, computes a term s::'b and a list xs::'a list and proves the theorem I xs s = t. This is also known as reification or quoting. The resulting theorem is applied to the subgoal to substitute t with I xs s. If t is omitted, the subgoal itself is reified. * New method: reflection corr_thm eqs (t). The parameters eqs and (t) are as explained above. corr_thm is a theorem for I vs (f t) = I vs t, where f is supposed to be a computable function (in the sense of code generattion). The method uses reify to compute s and xs as above then applies corr_thm and uses normalization by evaluation to "prove" f s = r and finally gets the theorem t = r, which is again applied to the subgoal. An Example is available in src/HOL/ex/ReflectionEx.thy. * Reflection: Automatic reification now handels binding, an example is available in src/HOL/ex/ReflectionEx.thy * HOL-Statespace: ``State Spaces: The Locale Way'' introduces a command 'statespace' that is similar to 'record', but introduces an abstract specification based on the locale infrastructure instead of HOL types. This leads to extra flexibility in composing state spaces, in particular multiple inheritance and renaming of components. *** HOL-Complex *** * Hyperreal: Functions root and sqrt are now defined on negative real inputs so that root n (- x) = - root n x and sqrt (- x) = - sqrt x. Nonnegativity side conditions have been removed from many lemmas, so that more subgoals may now be solved by simplification; potential INCOMPATIBILITY. * Real: new type classes formalize real normed vector spaces and algebras, using new overloaded constants scaleR :: real => 'a => 'a and norm :: 'a => real. * Real: constant of_real :: real => 'a::real_algebra_1 injects from reals into other types. The overloaded constant Reals :: 'a set is now defined as range of_real; potential INCOMPATIBILITY. * Real: proper support for ML code generation, including 'quickcheck'. Reals are implemented as arbitrary precision rationals. * Hyperreal: Several constants that previously worked only for the reals have been generalized, so they now work over arbitrary vector spaces. Type annotations may need to be added in some cases; potential INCOMPATIBILITY. Infinitesimal :: ('a::real_normed_vector) star set HFinite :: ('a::real_normed_vector) star set HInfinite :: ('a::real_normed_vector) star set approx :: ('a::real_normed_vector) star => 'a star => bool monad :: ('a::real_normed_vector) star => 'a star set galaxy :: ('a::real_normed_vector) star => 'a star set (NS)LIMSEQ :: [nat => 'a::real_normed_vector, 'a] => bool (NS)convergent :: (nat => 'a::real_normed_vector) => bool (NS)Bseq :: (nat => 'a::real_normed_vector) => bool (NS)Cauchy :: (nat => 'a::real_normed_vector) => bool (NS)LIM :: ['a::real_normed_vector => 'b::real_normed_vector, 'a, 'b] => bool is(NS)Cont :: ['a::real_normed_vector => 'b::real_normed_vector, 'a] => bool deriv :: ['a::real_normed_field => 'a, 'a, 'a] => bool sgn :: 'a::real_normed_vector => 'a exp :: 'a::{recpower,real_normed_field,banach} => 'a * Complex: Some complex-specific constants are now abbreviations for overloaded ones: complex_of_real = of_real, cmod = norm, hcmod = hnorm. Other constants have been entirely removed in favor of the polymorphic versions (INCOMPATIBILITY): approx <-- capprox HFinite <-- CFinite HInfinite <-- CInfinite Infinitesimal <-- CInfinitesimal monad <-- cmonad galaxy <-- cgalaxy (NS)LIM <-- (NS)CLIM, (NS)CRLIM is(NS)Cont <-- is(NS)Contc, is(NS)contCR (ns)deriv <-- (ns)cderiv *** HOL-Algebra *** * Formalisation of ideals and the quotient construction over rings. * Order and lattice theory no longer based on records. INCOMPATIBILITY. * Renamed lemmas least_carrier -> least_closed and greatest_carrier -> greatest_closed. INCOMPATIBILITY. * Method algebra is now set up via an attribute. For examples see Ring.thy. INCOMPATIBILITY: the method is now weaker on combinations of algebraic structures. * Renamed theory CRing to Ring. *** HOL-Nominal *** * Substantial, yet incomplete support for nominal datatypes (binding structures) based on HOL-Nominal logic. See src/HOL/Nominal and src/HOL/Nominal/Examples. Prospective users should consult http://isabelle.in.tum.de/nominal/ *** ML *** * ML basics: just one true type int, which coincides with IntInf.int (even on SML/NJ). * ML within Isar: antiquotations allow to embed statically-checked formal entities in the source, referring to the context available at compile-time. For example: ML {* @{sort "{zero,one}"} *} ML {* @{typ "'a => 'b"} *} ML {* @{term "%x. x"} *} ML {* @{prop "x == y"} *} ML {* @{ctyp "'a => 'b"} *} ML {* @{cterm "%x. x"} *} ML {* @{cprop "x == y"} *} ML {* @{thm asm_rl} *} ML {* @{thms asm_rl} *} ML {* @{type_name c} *} ML {* @{type_syntax c} *} ML {* @{const_name c} *} ML {* @{const_syntax c} *} ML {* @{context} *} ML {* @{theory} *} ML {* @{theory Pure} *} ML {* @{theory_ref} *} ML {* @{theory_ref Pure} *} ML {* @{simpset} *} ML {* @{claset} *} ML {* @{clasimpset} *} The same works for sources being ``used'' within an Isar context. * ML in Isar: improved error reporting; extra verbosity with ML_Context.trace enabled. * Pure/General/table.ML: the join operations now works via exceptions DUP/SAME instead of type option. This is simpler in simple cases, and admits slightly more efficient complex applications. * Pure: 'advanced' translation functions (parse_translation etc.) now use Context.generic instead of just theory. * Pure: datatype Context.generic joins theory/Proof.context and provides some facilities for code that works in either kind of context, notably GenericDataFun for uniform theory and proof data. * Pure: simplified internal attribute type, which is now always Context.generic * thm -> Context.generic * thm. Global (theory) vs. local (Proof.context) attributes have been discontinued, while minimizing code duplication. Thm.rule_attribute and Thm.declaration_attribute build canonical attributes; see also structure Context for further operations on Context.generic, notably GenericDataFun. INCOMPATIBILITY, need to adapt attribute type declarations and definitions. * Context data interfaces (Theory/Proof/GenericDataFun): removed name/print, uninitialized data defaults to ad-hoc copy of empty value, init only required for impure data. INCOMPATIBILITY: empty really need to be empty (no dependencies on theory content!) * Pure/kernel: consts certification ignores sort constraints given in signature declarations. (This information is not relevant to the logic, but only for type inference.) SIGNIFICANT INTERNAL CHANGE, potential INCOMPATIBILITY. * Pure: axiomatic type classes are now purely definitional, with explicit proofs of class axioms and super class relations performed internally. See Pure/axclass.ML for the main internal interfaces -- notably AxClass.define_class supercedes AxClass.add_axclass, and AxClass.axiomatize_class/classrel/arity supersede Sign.add_classes/classrel/arities. * Pure/Isar: Args/Attrib parsers operate on Context.generic -- global/local versions on theory vs. Proof.context have been discontinued; Attrib.syntax and Method.syntax have been adapted accordingly. INCOMPATIBILITY, need to adapt parser expressions for attributes, methods, etc. * Pure: several functions of signature "... -> theory -> theory * ..." have been reoriented to "... -> theory -> ... * theory" in order to allow natural usage in combination with the ||>, ||>>, |-> and fold_map combinators. * Pure: official theorem names (closed derivations) and additional comments (tags) are now strictly separate. Name hints -- which are maintained as tags -- may be attached any time without affecting the derivation. * Pure: primitive rule lift_rule now takes goal cterm instead of an actual goal state (thm). Use Thm.lift_rule (Thm.cprem_of st i) to achieve the old behaviour. * Pure: the "Goal" constant is now called "prop", supporting a slightly more general idea of ``protecting'' meta-level rule statements. * Pure: Logic.(un)varify only works in a global context, which is now enforced instead of silently assumed. INCOMPATIBILITY, may use Logic.legacy_(un)varify as temporary workaround. * Pure: structure Name provides scalable operations for generating internal variable names, notably Name.variants etc. This replaces some popular functions from term.ML: Term.variant -> Name.variant Term.variantlist -> Name.variant_list Term.invent_names -> Name.invent_list Note that low-level renaming rarely occurs in new code -- operations from structure Variable are used instead (see below). * Pure: structure Variable provides fundamental operations for proper treatment of fixed/schematic variables in a context. For example, Variable.import introduces fixes for schematics of given facts and Variable.export reverses the effect (up to renaming) -- this replaces various freeze_thaw operations. * Pure: structure Goal provides simple interfaces for init/conclude/finish and tactical prove operations (replacing former Tactic.prove). Goal.prove is the canonical way to prove results within a given context; Goal.prove_global is a degraded version for theory level goals, including a global Drule.standard. Note that OldGoals.prove_goalw_cterm has long been obsolete, since it is ill-behaved in a local proof context (e.g. with local fixes/assumes or in a locale context). * Pure/Syntax: generic interfaces for parsing (Syntax.parse_term etc.) and type checking (Syntax.check_term etc.), with common combinations (Syntax.read_term etc.). These supersede former Sign.read_term etc. which are considered legacy and await removal. * Pure/Syntax: generic interfaces for type unchecking (Syntax.uncheck_terms etc.) and unparsing (Syntax.unparse_term etc.), with common combinations (Syntax.pretty_term, Syntax.string_of_term etc.). Former Sign.pretty_term, Sign.string_of_term etc. are still available for convenience, but refer to the very same operations using a mere theory instead of a full context. * Isar: simplified treatment of user-level errors, using exception ERROR of string uniformly. Function error now merely raises ERROR, without any side effect on output channels. The Isar toplevel takes care of proper display of ERROR exceptions. ML code may use plain handle/can/try; cat_error may be used to concatenate errors like this: ... handle ERROR msg => cat_error msg "..." Toplevel ML code (run directly or through the Isar toplevel) may be embedded into the Isar toplevel with exception display/debug like this: Isar.toplevel (fn () => ...) INCOMPATIBILITY, removed special transform_error facilities, removed obsolete variants of user-level exceptions (ERROR_MESSAGE, Context.PROOF, ProofContext.CONTEXT, Proof.STATE, ProofHistory.FAIL) -- use plain ERROR instead. * Isar: theory setup now has type (theory -> theory), instead of a list. INCOMPATIBILITY, may use #> to compose setup functions. * Isar: ML toplevel pretty printer for type Proof.context, subject to ProofContext.debug/verbose flags. * Isar: Toplevel.theory_to_proof admits transactions that modify the theory before entering a proof state. Transactions now always see a quasi-functional intermediate checkpoint, both in interactive and batch mode. * Isar: simplified interfaces for outer syntax. Renamed OuterSyntax.add_keywords to OuterSyntax.keywords. Removed OuterSyntax.add_parsers -- this functionality is now included in OuterSyntax.command etc. INCOMPATIBILITY. * Simplifier: the simpset of a running simplification process now contains a proof context (cf. Simplifier.the_context), which is the very context that the initial simpset has been retrieved from (by simpset_of/local_simpset_of). Consequently, all plug-in components (solver, looper etc.) may depend on arbitrary proof data. * Simplifier.inherit_context inherits the proof context (plus the local bounds) of the current simplification process; any simproc etc. that calls the Simplifier recursively should do this! Removed former Simplifier.inherit_bounds, which is already included here -- INCOMPATIBILITY. Tools based on low-level rewriting may even have to specify an explicit context using Simplifier.context/theory_context. * Simplifier/Classical Reasoner: more abstract interfaces change_simpset/claset for modifying the simpset/claset reference of a theory; raw versions simpset/claset_ref etc. have been discontinued -- INCOMPATIBILITY. * Provers: more generic wrt. syntax of object-logics, avoid hardwired "Trueprop" etc. *** System *** * settings: the default heap location within ISABELLE_HOME_USER now includes ISABELLE_IDENTIFIER. This simplifies use of multiple Isabelle installations. * isabelle-process: option -S (secure mode) disables some critical operations, notably runtime compilation and evaluation of ML source code. * Basic Isabelle mode for jEdit, see Isabelle/lib/jedit/. * Support for parallel execution, using native multicore support of Poly/ML 5.1. The theory loader exploits parallelism when processing independent theories, according to the given theory header specifications. The maximum number of worker threads is specified via usedir option -M or the "max-threads" setting in Proof General. A speedup factor of 1.5--3.5 can be expected on a 4-core machine, and up to 6 on a 8-core machine. User-code needs to observe certain guidelines for thread-safe programming, see appendix A in the Isar Implementation manual. New in Isabelle2005 (October 2005) ---------------------------------- *** General *** * Theory headers: the new header syntax for Isar theories is theory <name> imports <theory1> ... <theoryN> uses <file1> ... <fileM> begin where the 'uses' part is optional. The previous syntax theory <name> = <theory1> + ... + <theoryN>: will disappear in the next release. Use isatool fixheaders to convert existing theory files. Note that there is no change in ancient non-Isar theories now, but these will disappear soon. * Theory loader: parent theories can now also be referred to via relative and absolute paths. * Command 'find_theorems' searches for a list of criteria instead of a list of constants. Known criteria are: intro, elim, dest, name:string, simp:term, and any term. Criteria can be preceded by '-' to select theorems that do not match. Intro, elim, dest select theorems that match the current goal, name:s selects theorems whose fully qualified name contain s, and simp:term selects all simplification rules whose lhs match term. Any other term is interpreted as pattern and selects all theorems matching the pattern. Available in ProofGeneral under 'ProofGeneral -> Find Theorems' or C-c C-f. Example: C-c C-f (100) "(_::nat) + _ + _" intro -name: "HOL." prints the last 100 theorems matching the pattern "(_::nat) + _ + _", matching the current goal as introduction rule and not having "HOL." in their name (i.e. not being defined in theory HOL). * Command 'thms_containing' has been discontinued in favour of 'find_theorems'; INCOMPATIBILITY. * Communication with Proof General is now 8bit clean, which means that Unicode text in UTF-8 encoding may be used within theory texts (both formal and informal parts). Cf. option -U of the Isabelle Proof General interface. Here are some simple examples (cf. src/HOL/ex): http://isabelle.in.tum.de/library/HOL/ex/Hebrew.html http://isabelle.in.tum.de/library/HOL/ex/Chinese.html * Improved efficiency of the Simplifier and, to a lesser degree, the Classical Reasoner. Typical big applications run around 2 times faster. *** Document preparation *** * Commands 'display_drafts' and 'print_drafts' perform simple output of raw sources. Only those symbols that do not require additional LaTeX packages (depending on comments in isabellesym.sty) are displayed properly, everything else is left verbatim. isatool display and isatool print are used as front ends (these are subject to the DVI/PDF_VIEWER and PRINT_COMMAND settings, respectively). * Command tags control specific markup of certain regions of text, notably folding and hiding. Predefined tags include "theory" (for theory begin and end), "proof" for proof commands, and "ML" for commands involving ML code; the additional tags "visible" and "invisible" are unused by default. Users may give explicit tag specifications in the text, e.g. ''by %invisible (auto)''. The interpretation of tags is determined by the LaTeX job during document preparation: see option -V of isatool usedir, or options -n and -t of isatool document, or even the LaTeX macros \isakeeptag, \isafoldtag, \isadroptag. Several document versions may be produced at the same time via isatool usedir (the generated index.html will link all of them). Typical specifications include ''-V document=theory,proof,ML'' to present theory/proof/ML parts faithfully, ''-V outline=/proof,/ML'' to fold proof and ML commands, and ''-V mutilated=-theory,-proof,-ML'' to omit these parts without any formal replacement text. The Isabelle site default settings produce ''document'' and ''outline'' versions as specified above. * Several new antiquotations: @{term_type term} prints a term with its type annotated; @{typeof term} prints the type of a term; @{const const} is the same as @{term const}, but checks that the argument is a known logical constant; @{term_style style term} and @{thm_style style thm} print a term or theorem applying a "style" to it @{ML text} Predefined styles are 'lhs' and 'rhs' printing the lhs/rhs of definitions, equations, inequations etc., 'concl' printing only the conclusion of a meta-logical statement theorem, and 'prem1' .. 'prem19' to print the specified premise. TermStyle.add_style provides an ML interface for introducing further styles. See also the "LaTeX Sugar" document practical applications. The ML antiquotation prints type-checked ML expressions verbatim. * Markup commands 'chapter', 'section', 'subsection', 'subsubsection', and 'text' support optional locale specification '(in loc)', which specifies the default context for interpreting antiquotations. For example: 'text (in lattice) {* @{thm inf_assoc}*}'. * Option 'locale=NAME' of antiquotations specifies an alternative context interpreting the subsequent argument. For example: @{thm [locale=lattice] inf_assoc}. * Proper output of proof terms (@{prf ...} and @{full_prf ...}) within a proof context. * Proper output of antiquotations for theory commands involving a proof context (such as 'locale' or 'theorem (in loc) ...'). * Delimiters of outer tokens (string etc.) now produce separate LaTeX macros (\isachardoublequoteopen, isachardoublequoteclose etc.). * isatool usedir: new option -C (default true) controls whether option -D should include a copy of the original document directory; -C false prevents unwanted effects such as copying of administrative CVS data. *** Pure *** * Considerably improved version of 'constdefs' command. Now performs automatic type-inference of declared constants; additional support for local structure declarations (cf. locales and HOL records), see also isar-ref manual. Potential INCOMPATIBILITY: need to observe strictly sequential dependencies of definitions within a single 'constdefs' section; moreover, the declared name needs to be an identifier. If all fails, consider to fall back on 'consts' and 'defs' separately. * Improved indexed syntax and implicit structures. First of all, indexed syntax provides a notational device for subscripted application, using the new syntax \<^bsub>term\<^esub> for arbitrary expressions. Secondly, in a local context with structure declarations, number indexes \<^sub>n or the empty index (default number 1) refer to a certain fixed variable implicitly; option show_structs controls printing of implicit structures. Typical applications of these concepts involve record types and locales. * New command 'no_syntax' removes grammar declarations (and translations) resulting from the given syntax specification, which is interpreted in the same manner as for the 'syntax' command. * 'Advanced' translation functions (parse_translation etc.) may depend on the signature of the theory context being presently used for parsing/printing, see also isar-ref manual. * Improved 'oracle' command provides a type-safe interface to turn an ML expression of type theory -> T -> term into a primitive rule of type theory -> T -> thm (i.e. the functionality of Thm.invoke_oracle is already included here); see also FOL/ex/IffExample.thy; INCOMPATIBILITY. * axclass: name space prefix for class "c" is now "c_class" (was "c" before); "cI" is no longer bound, use "c.intro" instead. INCOMPATIBILITY. This change avoids clashes of fact bindings for axclasses vs. locales. * Improved internal renaming of symbolic identifiers -- attach primes instead of base 26 numbers. * New flag show_question_marks controls printing of leading question marks in schematic variable names. * In schematic variable names, *any* symbol following \<^isub> or \<^isup> is now treated as part of the base name. For example, the following works without printing of awkward ".0" indexes: lemma "x\<^isub>1 = x\<^isub>2 ==> x\<^isub>2 = x\<^isub>1" by simp * Inner syntax includes (*(*nested*) comments*). * Pretty printer now supports unbreakable blocks, specified in mixfix annotations as "(00...)". * Clear separation of logical types and nonterminals, where the latter may only occur in 'syntax' specifications or type abbreviations. Before that distinction was only partially implemented via type class "logic" vs. "{}". Potential INCOMPATIBILITY in rare cases of improper use of 'types'/'consts' instead of 'nonterminals'/'syntax'. Some very exotic syntax specifications may require further adaption (e.g. Cube/Cube.thy). * Removed obsolete type class "logic", use the top sort {} instead. Note that non-logical types should be declared as 'nonterminals' rather than 'types'. INCOMPATIBILITY for new object-logic specifications. * Attributes 'induct' and 'cases': type or set names may now be locally fixed variables as well. * Simplifier: can now control the depth to which conditional rewriting is traced via the PG menu Isabelle -> Settings -> Trace Simp Depth Limit. * Simplifier: simplification procedures may now take the current simpset into account (cf. Simplifier.simproc(_i) / mk_simproc interface), which is very useful for calling the Simplifier recursively. Minor INCOMPATIBILITY: the 'prems' argument of simprocs is gone -- use prems_of_ss on the simpset instead. Moreover, the low-level mk_simproc no longer applies Logic.varify internally, to allow for use in a context of fixed variables. * thin_tac now works even if the assumption being deleted contains !! or ==>. More generally, erule now works even if the major premise of the elimination rule contains !! or ==>. * Method 'rules' has been renamed to 'iprover'. INCOMPATIBILITY. * Reorganized bootstrapping of the Pure theories; CPure is now derived from Pure, which contains all common declarations already. Both theories are defined via plain Isabelle/Isar .thy files. INCOMPATIBILITY: elements of CPure (such as the CPure.intro / CPure.elim / CPure.dest attributes) now appear in the Pure name space; use isatool fixcpure to adapt your theory and ML sources. * New syntax 'name(i-j, i-, i, ...)' for referring to specific selections of theorems in named facts via index ranges. * 'print_theorems': in theory mode, really print the difference wrt. the last state (works for interactive theory development only), in proof mode print all local facts (cf. 'print_facts'); * 'hide': option '(open)' hides only base names. * More efficient treatment of intermediate checkpoints in interactive theory development. * Code generator is now invoked via code_module (incremental code generation) and code_library (modular code generation, ML structures for each theory). INCOMPATIBILITY: new keywords 'file' and 'contains' must be quoted when used as identifiers. * New 'value' command for reading, evaluating and printing terms using the code generator. INCOMPATIBILITY: command keyword 'value' must be quoted when used as identifier. *** Locales *** * New commands for the interpretation of locale expressions in theories (1), locales (2) and proof contexts (3). These generate proof obligations from the expression specification. After the obligations have been discharged, theorems of the expression are added to the theory, target locale or proof context. The synopsis of the commands is a follows: (1) interpretation expr inst (2) interpretation target < expr (3) interpret expr inst Interpretation in theories and proof contexts require a parameter instantiation of terms from the current context. This is applied to specifications and theorems of the interpreted expression. Interpretation in locales only permits parameter renaming through the locale expression. Interpretation is smart in that interpretations that are active already do not occur in proof obligations, neither are instantiated theorems stored in duplicate. Use 'print_interps' to inspect active interpretations of a particular locale. For details, see the Isar Reference manual. Examples can be found in HOL/Finite_Set.thy and HOL/Algebra/UnivPoly.thy. INCOMPATIBILITY: former 'instantiate' has been withdrawn, use 'interpret' instead. * New context element 'constrains' for adding type constraints to parameters. * Context expressions: renaming of parameters with syntax redeclaration. * Locale declaration: 'includes' disallowed. * Proper static binding of attribute syntax -- i.e. types / terms / facts mentioned as arguments are always those of the locale definition context, independently of the context of later invocations. Moreover, locale operations (renaming and type / term instantiation) are applied to attribute arguments as expected. INCOMPATIBILITY of the ML interface: always pass Attrib.src instead of actual attributes; rare situations may require Attrib.attribute to embed those attributes into Attrib.src that lack concrete syntax. Attribute implementations need to cooperate properly with the static binding mechanism. Basic parsers Args.XXX_typ/term/prop and Attrib.XXX_thm etc. already do the right thing without further intervention. Only unusual applications -- such as "where" or "of" (cf. src/Pure/Isar/attrib.ML), which process arguments depending both on the context and the facts involved -- may have to assign parsed values to argument tokens explicitly. * Changed parameter management in theorem generation for long goal statements with 'includes'. INCOMPATIBILITY: produces a different theorem statement in rare situations. * Locale inspection command 'print_locale' omits notes elements. Use 'print_locale!' to have them included in the output. *** Provers *** * Provers/hypsubst.ML: improved version of the subst method, for single-step rewriting: it now works in bound variable contexts. New is 'subst (asm)', for rewriting an assumption. INCOMPATIBILITY: may rewrite a different subterm than the original subst method, which is still available as 'simplesubst'. * Provers/quasi.ML: new transitivity reasoners for transitivity only and quasi orders. * Provers/trancl.ML: new transitivity reasoner for transitive and reflexive-transitive closure of relations. * Provers/blast.ML: new reference depth_limit to make blast's depth limit (previously hard-coded with a value of 20) user-definable. * Provers/simplifier.ML has been moved to Pure, where Simplifier.setup is peformed already. Object-logics merely need to finish their initial simpset configuration as before. INCOMPATIBILITY. *** HOL *** * Symbolic syntax of Hilbert Choice Operator is now as follows: syntax (epsilon) "_Eps" :: "[pttrn, bool] => 'a" ("(3\<some>_./ _)" [0, 10] 10) The symbol \<some> is displayed as the alternative epsilon of LaTeX and x-symbol; use option '-m epsilon' to get it actually printed. Moreover, the mathematically important symbolic identifier \<epsilon> becomes available as variable, constant etc. INCOMPATIBILITY, * "x > y" abbreviates "y < x" and "x >= y" abbreviates "y <= x". Similarly for all quantifiers: "ALL x > y" etc. The x-symbol for >= is \<ge>. New transitivity rules have been added to HOL/Orderings.thy to support corresponding Isar calculations. * "{x:A. P}" abbreviates "{x. x:A & P}", and similarly for "\<in>" instead of ":". * theory SetInterval: changed the syntax for open intervals: Old New {..n(} {..<n} {)n..} {n<..} {m..n(} {m..<n} {)m..n} {m<..n} {)m..n(} {m<..<n} The old syntax is still supported but will disappear in the next release. For conversion use the following Emacs search and replace patterns (these are not perfect but work quite well): {)\([^\.]*\)\.\. -> {\1<\.\.} \.\.\([^(}]*\)(} -> \.\.<\1} * Theory Commutative_Ring (in Library): method comm_ring for proving equalities in commutative rings; method 'algebra' provides a generic interface. * Theory Finite_Set: changed the syntax for 'setsum', summation over finite sets: "setsum (%x. e) A", which used to be "\<Sum>x:A. e", is now either "SUM x:A. e" or "\<Sum>x \<in> A. e". The bound variable can be a tuple pattern. Some new syntax forms are available: "\<Sum>x | P. e" for "setsum (%x. e) {x. P}" "\<Sum>x = a..b. e" for "setsum (%x. e) {a..b}" "\<Sum>x = a..<b. e" for "setsum (%x. e) {a..<b}" "\<Sum>x < k. e" for "setsum (%x. e) {..<k}" The latter form "\<Sum>x < k. e" used to be based on a separate function "Summation", which has been discontinued. * theory Finite_Set: in structured induction proofs, the insert case is now 'case (insert x F)' instead of the old counterintuitive 'case (insert F x)'. * The 'refute' command has been extended to support a much larger fragment of HOL, including axiomatic type classes, constdefs and typedefs, inductive datatypes and recursion. * New tactics 'sat' and 'satx' to prove propositional tautologies. Requires zChaff with proof generation to be installed. See HOL/ex/SAT_Examples.thy for examples. * Datatype induction via method 'induct' now preserves the name of the induction variable. For example, when proving P(xs::'a list) by induction on xs, the induction step is now P(xs) ==> P(a#xs) rather than P(list) ==> P(a#list) as previously. Potential INCOMPATIBILITY in unstructured proof scripts. * Reworked implementation of records. Improved scalability for records with many fields, avoiding performance problems for type inference. Records are no longer composed of nested field types, but of nested extension types. Therefore the record type only grows linear in the number of extensions and not in the number of fields. The top-level (users) view on records is preserved. Potential INCOMPATIBILITY only in strange cases, where the theory depends on the old record representation. The type generated for a record is called <record_name>_ext_type. Flag record_quick_and_dirty_sensitive can be enabled to skip the proofs triggered by a record definition or a simproc (if quick_and_dirty is enabled). Definitions of large records can take quite long. New simproc record_upd_simproc for simplification of multiple record updates enabled by default. Moreover, trivial updates are also removed: r(|x := x r|) = r. INCOMPATIBILITY: old proofs break occasionally, since simplification is more powerful by default. * typedef: proper support for polymorphic sets, which contain extra type-variables in the term. * Simplifier: automatically reasons about transitivity chains involving "trancl" (r^+) and "rtrancl" (r^*) by setting up tactics provided by Provers/trancl.ML as additional solvers. INCOMPATIBILITY: old proofs break occasionally as simplification may now solve more goals than previously. * Simplifier: converts x <= y into x = y if assumption y <= x is present. Works for all partial orders (class "order"), in particular numbers and sets. For linear orders (e.g. numbers) it treats ~ x < y just like y <= x. * Simplifier: new simproc for "let x = a in f x". If a is a free or bound variable or a constant then the let is unfolded. Otherwise first a is simplified to b, and then f b is simplified to g. If possible we abstract b from g arriving at "let x = b in h x", otherwise we unfold the let and arrive at g. The simproc can be enabled/disabled by the reference use_let_simproc. Potential INCOMPATIBILITY since simplification is more powerful by default. * Classical reasoning: the meson method now accepts theorems as arguments. * Prover support: pre-release of the Isabelle-ATP linkup, which runs background jobs to provide advice on the provability of subgoals. * Theory OrderedGroup and Ring_and_Field: various additions and improvements to faciliate calculations involving equalities and inequalities. The following theorems have been eliminated or modified (INCOMPATIBILITY): abs_eq now named abs_of_nonneg abs_of_ge_0 now named abs_of_nonneg abs_minus_eq now named abs_of_nonpos imp_abs_id now named abs_of_nonneg imp_abs_neg_id now named abs_of_nonpos mult_pos now named mult_pos_pos mult_pos_le now named mult_nonneg_nonneg mult_pos_neg_le now named mult_nonneg_nonpos mult_pos_neg2_le now named mult_nonneg_nonpos2 mult_neg now named mult_neg_neg mult_neg_le now named mult_nonpos_nonpos * The following lemmas in Ring_and_Field have been added to the simplifier: zero_le_square not_square_less_zero The following lemmas have been deleted from Real/RealPow: realpow_zero_zero realpow_two realpow_less zero_le_power realpow_two_le abs_realpow_two realpow_two_abs * Theory Parity: added rules for simplifying exponents. * Theory List: The following theorems have been eliminated or modified (INCOMPATIBILITY): list_all_Nil now named list_all.simps(1) list_all_Cons now named list_all.simps(2) list_all_conv now named list_all_iff set_mem_eq now named mem_iff * Theories SetsAndFunctions and BigO (see HOL/Library) support asymptotic "big O" calculations. See the notes in BigO.thy. *** HOL-Complex *** * Theory RealDef: better support for embedding natural numbers and integers in the reals. The following theorems have been eliminated or modified (INCOMPATIBILITY): exp_ge_add_one_self now requires no hypotheses real_of_int_add reversed direction of equality (use [symmetric]) real_of_int_minus reversed direction of equality (use [symmetric]) real_of_int_diff reversed direction of equality (use [symmetric]) real_of_int_mult reversed direction of equality (use [symmetric]) * Theory RComplete: expanded support for floor and ceiling functions. * Theory Ln is new, with properties of the natural logarithm * Hyperreal: There is a new type constructor "star" for making nonstandard types. The old type names are now type synonyms: hypreal = real star hypnat = nat star hcomplex = complex star * Hyperreal: Many groups of similarly-defined constants have been replaced by polymorphic versions (INCOMPATIBILITY): star_of <-- hypreal_of_real, hypnat_of_nat, hcomplex_of_complex starset <-- starsetNat, starsetC *s* <-- *sNat*, *sc* starset_n <-- starsetNat_n, starsetC_n *sn* <-- *sNatn*, *scn* InternalSets <-- InternalNatSets, InternalCSets starfun <-- starfun{Nat,Nat2,C,RC,CR} *f* <-- *fNat*, *fNat2*, *fc*, *fRc*, *fcR* starfun_n <-- starfun{Nat,Nat2,C,RC,CR}_n *fn* <-- *fNatn*, *fNat2n*, *fcn*, *fRcn*, *fcRn* InternalFuns <-- InternalNatFuns, InternalNatFuns2, Internal{C,RC,CR}Funs * Hyperreal: Many type-specific theorems have been removed in favor of theorems specific to various axiomatic type classes (INCOMPATIBILITY): add_commute <-- {hypreal,hypnat,hcomplex}_add_commute add_assoc <-- {hypreal,hypnat,hcomplex}_add_assocs OrderedGroup.add_0 <-- {hypreal,hypnat,hcomplex}_add_zero_left OrderedGroup.add_0_right <-- {hypreal,hcomplex}_add_zero_right right_minus <-- hypreal_add_minus left_minus <-- {hypreal,hcomplex}_add_minus_left mult_commute <-- {hypreal,hypnat,hcomplex}_mult_commute mult_assoc <-- {hypreal,hypnat,hcomplex}_mult_assoc mult_1_left <-- {hypreal,hypnat}_mult_1, hcomplex_mult_one_left mult_1_right <-- hcomplex_mult_one_right mult_zero_left <-- hcomplex_mult_zero_left left_distrib <-- {hypreal,hypnat,hcomplex}_add_mult_distrib right_distrib <-- hypnat_add_mult_distrib2 zero_neq_one <-- {hypreal,hypnat,hcomplex}_zero_not_eq_one right_inverse <-- hypreal_mult_inverse left_inverse <-- hypreal_mult_inverse_left, hcomplex_mult_inv_left order_refl <-- {hypreal,hypnat}_le_refl order_trans <-- {hypreal,hypnat}_le_trans order_antisym <-- {hypreal,hypnat}_le_anti_sym order_less_le <-- {hypreal,hypnat}_less_le linorder_linear <-- {hypreal,hypnat}_le_linear add_left_mono <-- {hypreal,hypnat}_add_left_mono mult_strict_left_mono <-- {hypreal,hypnat}_mult_less_mono2 add_nonneg_nonneg <-- hypreal_le_add_order * Hyperreal: Separate theorems having to do with type-specific versions of constants have been merged into theorems that apply to the new polymorphic constants (INCOMPATIBILITY): STAR_UNIV_set <-- {STAR_real,NatStar_real,STARC_complex}_set STAR_empty_set <-- {STAR,NatStar,STARC}_empty_set STAR_Un <-- {STAR,NatStar,STARC}_Un STAR_Int <-- {STAR,NatStar,STARC}_Int STAR_Compl <-- {STAR,NatStar,STARC}_Compl STAR_subset <-- {STAR,NatStar,STARC}_subset STAR_mem <-- {STAR,NatStar,STARC}_mem STAR_mem_Compl <-- {STAR,STARC}_mem_Compl STAR_diff <-- {STAR,STARC}_diff STAR_star_of_image_subset <-- {STAR_hypreal_of_real, NatStar_hypreal_of_real, STARC_hcomplex_of_complex}_image_subset starset_n_Un <-- starset{Nat,C}_n_Un starset_n_Int <-- starset{Nat,C}_n_Int starset_n_Compl <-- starset{Nat,C}_n_Compl starset_n_diff <-- starset{Nat,C}_n_diff InternalSets_Un <-- Internal{Nat,C}Sets_Un InternalSets_Int <-- Internal{Nat,C}Sets_Int InternalSets_Compl <-- Internal{Nat,C}Sets_Compl InternalSets_diff <-- Internal{Nat,C}Sets_diff InternalSets_UNIV_diff <-- Internal{Nat,C}Sets_UNIV_diff InternalSets_starset_n <-- Internal{Nat,C}Sets_starset{Nat,C}_n starset_starset_n_eq <-- starset{Nat,C}_starset{Nat,C}_n_eq starset_n_starset <-- starset{Nat,C}_n_starset{Nat,C} starfun_n_starfun <-- starfun{Nat,Nat2,C,RC,CR}_n_starfun{Nat,Nat2,C,RC,CR} starfun <-- starfun{Nat,Nat2,C,RC,CR} starfun_mult <-- starfun{Nat,Nat2,C,RC,CR}_mult starfun_add <-- starfun{Nat,Nat2,C,RC,CR}_add starfun_minus <-- starfun{Nat,Nat2,C,RC,CR}_minus starfun_diff <-- starfun{C,RC,CR}_diff starfun_o <-- starfun{NatNat2,Nat2,_stafunNat,C,C_starfunRC,_starfunCR}_o starfun_o2 <-- starfun{NatNat2,_stafunNat,C,C_starfunRC,_starfunCR}_o2 starfun_const_fun <-- starfun{Nat,Nat2,C,RC,CR}_const_fun starfun_inverse <-- starfun{Nat,C,RC,CR}_inverse starfun_eq <-- starfun{Nat,Nat2,C,RC,CR}_eq starfun_eq_iff <-- starfun{C,RC,CR}_eq_iff starfun_Id <-- starfunC_Id starfun_approx <-- starfun{Nat,CR}_approx starfun_capprox <-- starfun{C,RC}_capprox starfun_abs <-- starfunNat_rabs starfun_lambda_cancel <-- starfun{C,CR,RC}_lambda_cancel starfun_lambda_cancel2 <-- starfun{C,CR,RC}_lambda_cancel2 starfun_mult_HFinite_approx <-- starfunCR_mult_HFinite_capprox starfun_mult_CFinite_capprox <-- starfun{C,RC}_mult_CFinite_capprox starfun_add_capprox <-- starfun{C,RC}_add_capprox starfun_add_approx <-- starfunCR_add_approx starfun_inverse_inverse <-- starfunC_inverse_inverse starfun_divide <-- starfun{C,CR,RC}_divide starfun_n <-- starfun{Nat,C}_n starfun_n_mult <-- starfun{Nat,C}_n_mult starfun_n_add <-- starfun{Nat,C}_n_add starfun_n_add_minus <-- starfunNat_n_add_minus starfun_n_const_fun <-- starfun{Nat,C}_n_const_fun starfun_n_minus <-- starfun{Nat,C}_n_minus starfun_n_eq <-- starfun{Nat,C}_n_eq star_n_add <-- {hypreal,hypnat,hcomplex}_add star_n_minus <-- {hypreal,hcomplex}_minus star_n_diff <-- {hypreal,hcomplex}_diff star_n_mult <-- {hypreal,hcomplex}_mult star_n_inverse <-- {hypreal,hcomplex}_inverse star_n_le <-- {hypreal,hypnat}_le star_n_less <-- {hypreal,hypnat}_less star_n_zero_num <-- {hypreal,hypnat,hcomplex}_zero_num star_n_one_num <-- {hypreal,hypnat,hcomplex}_one_num star_n_abs <-- hypreal_hrabs star_n_divide <-- hcomplex_divide star_of_add <-- {hypreal_of_real,hypnat_of_nat,hcomplex_of_complex}_add star_of_minus <-- {hypreal_of_real,hcomplex_of_complex}_minus star_of_diff <-- hypreal_of_real_diff star_of_mult <-- {hypreal_of_real,hypnat_of_nat,hcomplex_of_complex}_mult star_of_one <-- {hypreal_of_real,hcomplex_of_complex}_one star_of_zero <-- {hypreal_of_real,hypnat_of_nat,hcomplex_of_complex}_zero star_of_le <-- {hypreal_of_real,hypnat_of_nat}_le_iff star_of_less <-- {hypreal_of_real,hypnat_of_nat}_less_iff star_of_eq <-- {hypreal_of_real,hypnat_of_nat,hcomplex_of_complex}_eq_iff star_of_inverse <-- {hypreal_of_real,hcomplex_of_complex}_inverse star_of_divide <-- {hypreal_of_real,hcomplex_of_complex}_divide star_of_of_nat <-- {hypreal_of_real,hcomplex_of_complex}_of_nat star_of_of_int <-- {hypreal_of_real,hcomplex_of_complex}_of_int star_of_number_of <-- {hypreal,hcomplex}_number_of star_of_number_less <-- number_of_less_hypreal_of_real_iff star_of_number_le <-- number_of_le_hypreal_of_real_iff star_of_eq_number <-- hypreal_of_real_eq_number_of_iff star_of_less_number <-- hypreal_of_real_less_number_of_iff star_of_le_number <-- hypreal_of_real_le_number_of_iff star_of_power <-- hypreal_of_real_power star_of_eq_0 <-- hcomplex_of_complex_zero_iff * Hyperreal: new method "transfer" that implements the transfer principle of nonstandard analysis. With a subgoal that mentions nonstandard types like "'a star", the command "apply transfer" replaces it with an equivalent one that mentions only standard types. To be successful, all free variables must have standard types; non- standard variables must have explicit universal quantifiers. * Hyperreal: A theory of Taylor series. *** HOLCF *** * Discontinued special version of 'constdefs' (which used to support continuous functions) in favor of the general Pure one with full type-inference. * New simplification procedure for solving continuity conditions; it is much faster on terms with many nested lambda abstractions (cubic instead of exponential time). * New syntax for domain package: selector names are now optional. Parentheses should be omitted unless argument is lazy, for example: domain 'a stream = cons "'a" (lazy "'a stream") * New command 'fixrec' for defining recursive functions with pattern matching; defining multiple functions with mutual recursion is also supported. Patterns may include the constants cpair, spair, up, sinl, sinr, or any data constructor defined by the domain package. The given equations are proven as rewrite rules. See HOLCF/ex/Fixrec_ex.thy for syntax and examples. * New commands 'cpodef' and 'pcpodef' for defining predicate subtypes of cpo and pcpo types. Syntax is exactly like the 'typedef' command, but the proof obligation additionally includes an admissibility requirement. The packages generate instances of class cpo or pcpo, with continuity and strictness theorems for Rep and Abs. * HOLCF: Many theorems have been renamed according to a more standard naming scheme (INCOMPATIBILITY): foo_inject: "foo$x = foo$y ==> x = y" foo_eq: "(foo$x = foo$y) = (x = y)" foo_less: "(foo$x << foo$y) = (x << y)" foo_strict: "foo$UU = UU" foo_defined: "... ==> foo$x ~= UU" foo_defined_iff: "(foo$x = UU) = (x = UU)" *** ZF *** * ZF/ex: theories Group and Ring provide examples in abstract algebra, including the First Isomorphism Theorem (on quotienting by the kernel of a homomorphism). * ZF/Simplifier: install second copy of type solver that actually makes use of TC rules declared to Isar proof contexts (or locales); the old version is still required for ML proof scripts. *** Cube *** * Converted to Isar theory format; use locales instead of axiomatic theories. *** ML *** * Pure/library.ML: added ##>, ##>>, #>> -- higher-order counterparts for ||>, ||>>, |>>, * Pure/library.ML no longer defines its own option datatype, but uses that of the SML basis, which has constructors NONE and SOME instead of None and Some, as well as exception Option.Option instead of OPTION. The functions the, if_none, is_some, is_none have been adapted accordingly, while Option.map replaces apsome. * Pure/library.ML: the exception LIST has been given up in favour of the standard exceptions Empty and Subscript, as well as Library.UnequalLengths. Function like Library.hd and Library.tl are superceded by the standard hd and tl functions etc. A number of basic list functions are no longer exported to the ML toplevel, as they are variants of predefined functions. The following suggests how one can translate existing code: rev_append xs ys = List.revAppend (xs, ys) nth_elem (i, xs) = List.nth (xs, i) last_elem xs = List.last xs flat xss = List.concat xss seq fs = List.app fs partition P xs = List.partition P xs mapfilter f xs = List.mapPartial f xs * Pure/library.ML: several combinators for linear functional transformations, notably reverse application and composition: x |> f f #> g (x, y) |-> f f #-> g * Pure/library.ML: introduced/changed precedence of infix operators: infix 1 |> |-> ||> ||>> |>> |>>> #> #->; infix 2 ?; infix 3 o oo ooo oooo; infix 4 ~~ upto downto; Maybe INCOMPATIBILITY when any of those is used in conjunction with other infix operators. * Pure/library.ML: natural list combinators fold, fold_rev, and fold_map support linear functional transformations and nesting. For example: fold f [x1, ..., xN] y = y |> f x1 |> ... |> f xN (fold o fold) f [xs1, ..., xsN] y = y |> fold f xs1 |> ... |> fold f xsN fold f [x1, ..., xN] = f x1 #> ... #> f xN (fold o fold) f [xs1, ..., xsN] = fold f xs1 #> ... #> fold f xsN * Pure/library.ML: the following selectors on type 'a option are available: the: 'a option -> 'a (*partial*) these: 'a option -> 'a where 'a = 'b list the_default: 'a -> 'a option -> 'a the_list: 'a option -> 'a list * Pure/General: structure AList (cf. Pure/General/alist.ML) provides basic operations for association lists, following natural argument order; moreover the explicit equality predicate passed here avoids potentially expensive polymorphic runtime equality checks. The old functions may be expressed as follows: assoc = uncurry (AList.lookup (op =)) assocs = these oo AList.lookup (op =) overwrite = uncurry (AList.update (op =)) o swap * Pure/General: structure AList (cf. Pure/General/alist.ML) provides val make: ('a -> 'b) -> 'a list -> ('a * 'b) list val find: ('a * 'b -> bool) -> ('c * 'b) list -> 'a -> 'c list replacing make_keylist and keyfilter (occassionally used) Naive rewrites: make_keylist = AList.make keyfilter = AList.find (op =) * eq_fst and eq_snd now take explicit equality parameter, thus avoiding eqtypes. Naive rewrites: eq_fst = eq_fst (op =) eq_snd = eq_snd (op =) * Removed deprecated apl and apr (rarely used). Naive rewrites: apl (n, op) =>>= curry op n apr (op, m) =>>= fn n => op (n, m) * Pure/General: structure OrdList (cf. Pure/General/ord_list.ML) provides a reasonably efficient light-weight implementation of sets as lists. * Pure/General: generic tables (cf. Pure/General/table.ML) provide a few new operations; existing lookup and update are now curried to follow natural argument order (for use with fold etc.); INCOMPATIBILITY, use (uncurry Symtab.lookup) etc. as last resort. * Pure/General: output via the Isabelle channels of writeln/warning/error etc. is now passed through Output.output, with a hook for arbitrary transformations depending on the print_mode (cf. Output.add_mode -- the first active mode that provides a output function wins). Already formatted output may be embedded into further text via Output.raw; the result of Pretty.string_of/str_of and derived functions (string_of_term/cterm/thm etc.) is already marked raw to accommodate easy composition of diagnostic messages etc. Programmers rarely need to care about Output.output or Output.raw at all, with some notable exceptions: Output.output is required when bypassing the standard channels (writeln etc.), or in token translations to produce properly formatted results; Output.raw is required when capturing already output material that will eventually be presented to the user a second time. For the default print mode, both Output.output and Output.raw have no effect. * Pure/General: Output.time_accumulator NAME creates an operator ('a -> 'b) -> 'a -> 'b to measure runtime and count invocations; the cumulative results are displayed at the end of a batch session. * Pure/General: File.sysify_path and File.quote_sysify path have been replaced by File.platform_path and File.shell_path (with appropriate hooks). This provides a clean interface for unusual systems where the internal and external process view of file names are different. * Pure: more efficient orders for basic syntactic entities: added fast_string_ord, fast_indexname_ord, fast_term_ord; changed sort_ord and typ_ord to use fast_string_ord and fast_indexname_ord (term_ord is NOT affected); structures Symtab, Vartab, Typtab, Termtab use the fast orders now -- potential INCOMPATIBILITY for code that depends on a particular order for Symtab.keys, Symtab.dest, etc. (consider using Library.sort_strings on result). * Pure/term.ML: combinators fold_atyps, fold_aterms, fold_term_types, fold_types traverse types/terms from left to right, observing natural argument order. Supercedes previous foldl_XXX versions, add_frees, add_vars etc. have been adapted as well: INCOMPATIBILITY. * Pure: name spaces have been refined, with significant changes of the internal interfaces -- INCOMPATIBILITY. Renamed cond_extern(_table) to extern(_table). The plain name entry path is superceded by a general 'naming' context, which also includes the 'policy' to produce a fully qualified name and external accesses of a fully qualified name; NameSpace.extend is superceded by context dependent Sign.declare_name. Several theory and proof context operations modify the naming context. Especially note Theory.restore_naming and ProofContext.restore_naming to get back to a sane state; note that Theory.add_path is no longer sufficient to recover from Theory.absolute_path in particular. * Pure: new flags short_names (default false) and unique_names (default true) for controlling output of qualified names. If short_names is set, names are printed unqualified. If unique_names is reset, the name prefix is reduced to the minimum required to achieve the original result when interning again, even if there is an overlap with earlier declarations. * Pure/TheoryDataFun: change of the argument structure; 'prep_ext' is now 'extend', and 'merge' gets an additional Pretty.pp argument (useful for printing error messages). INCOMPATIBILITY. * Pure: major reorganization of the theory context. Type Sign.sg and Theory.theory are now identified, referring to the universal Context.theory (see Pure/context.ML). Actual signature and theory content is managed as theory data. The old code and interfaces were spread over many files and structures; the new arrangement introduces considerable INCOMPATIBILITY to gain more clarity: Context -- theory management operations (name, identity, inclusion, parents, ancestors, merge, etc.), plus generic theory data; Sign -- logical signature and syntax operations (declaring consts, types, etc.), plus certify/read for common entities; Theory -- logical theory operations (stating axioms, definitions, oracles), plus a copy of logical signature operations (consts, types, etc.); also a few basic management operations (Theory.copy, Theory.merge, etc.) The most basic sign_of operations (Theory.sign_of, Thm.sign_of_thm etc.) as well as the sign field in Thm.rep_thm etc. have been retained for convenience -- they merely return the theory. * Pure: type Type.tsig is superceded by theory in most interfaces. * Pure: the Isar proof context type is already defined early in Pure as Context.proof (note that ProofContext.context and Proof.context are aliases, where the latter is the preferred name). This enables other Isabelle components to refer to that type even before Isar is present. * Pure/sign/theory: discontinued named name spaces (i.e. classK, typeK, constK, axiomK, oracleK), but provide explicit operations for any of these kinds. For example, Sign.intern typeK is now Sign.intern_type, Theory.hide_space Sign.typeK is now Theory.hide_types. Also note that former Theory.hide_classes/types/consts are now Theory.hide_classes_i/types_i/consts_i, while the non '_i' versions internalize their arguments! INCOMPATIBILITY. * Pure: get_thm interface (of PureThy and ProofContext) expects datatype thmref (with constructors Name and NameSelection) instead of plain string -- INCOMPATIBILITY; * Pure: cases produced by proof methods specify options, where NONE means to remove case bindings -- INCOMPATIBILITY in (RAW_)METHOD_CASES. * Pure: the following operations retrieve axioms or theorems from a theory node or theory hierarchy, respectively: Theory.axioms_of: theory -> (string * term) list Theory.all_axioms_of: theory -> (string * term) list PureThy.thms_of: theory -> (string * thm) list PureThy.all_thms_of: theory -> (string * thm) list * Pure: print_tac now outputs the goal through the trace channel. * Isar toplevel: improved diagnostics, mostly for Poly/ML only. Reference Toplevel.debug (default false) controls detailed printing and tracing of low-level exceptions; Toplevel.profiling (default 0) controls execution profiling -- set to 1 for time and 2 for space (both increase the runtime). * Isar session: The initial use of ROOT.ML is now always timed, i.e. the log will show the actual process times, in contrast to the elapsed wall-clock time that the outer shell wrapper produces. * Simplifier: improved handling of bound variables (nameless representation, avoid allocating new strings). Simprocs that invoke the Simplifier recursively should use Simplifier.inherit_bounds to avoid local name clashes. Failure to do so produces warnings "Simplifier: renamed bound variable ..."; set Simplifier.debug_bounds for further details. * ML functions legacy_bindings and use_legacy_bindings produce ML fact bindings for all theorems stored within a given theory; this may help in porting non-Isar theories to Isar ones, while keeping ML proof scripts for the time being. * ML operator HTML.with_charset specifies the charset begin used for generated HTML files. For example: HTML.with_charset "utf-8" use_thy "Hebrew"; HTML.with_charset "utf-8" use_thy "Chinese"; *** System *** * Allow symlinks to all proper Isabelle executables (Isabelle, isabelle, isatool etc.). * ISABELLE_DOC_FORMAT setting specifies preferred document format (for isatool doc, isatool mkdir, display_drafts etc.). * isatool usedir: option -f allows specification of the ML file to be used by Isabelle; default is ROOT.ML. * New isatool version outputs the version identifier of the Isabelle distribution being used. * HOL: new isatool dimacs2hol converts files in DIMACS CNF format (containing Boolean satisfiability problems) into Isabelle/HOL theories. New in Isabelle2004 (April 2004) -------------------------------- *** General *** * Provers/order.ML: new efficient reasoner for partial and linear orders. Replaces linorder.ML. * Pure: Greek letters (except small lambda, \<lambda>), as well as Gothic (\<aa>...\<zz>\<AA>...\<ZZ>), calligraphic (\<A>...\<Z>), and Euler (\<a>...\<z>), are now considered normal letters, and can therefore be used anywhere where an ASCII letter (a...zA...Z) has until now. COMPATIBILITY: This obviously changes the parsing of some terms, especially where a symbol has been used as a binder, say '\<Pi>x. ...', which is now a type error since \<Pi>x will be parsed as an identifier. Fix it by inserting a space around former symbols. Call 'isatool fixgreek' to try to fix parsing errors in existing theory and ML files. * Pure: Macintosh and Windows line-breaks are now allowed in theory files. * Pure: single letter sub/superscripts (\<^isub> and \<^isup>) are now allowed in identifiers. Similar to Greek letters \<^isub> is now considered a normal (but invisible) letter. For multiple letter subscripts repeat \<^isub> like this: x\<^isub>1\<^isub>2. * Pure: There are now sub-/superscripts that can span more than one character. Text between \<^bsub> and \<^esub> is set in subscript in ProofGeneral and LaTeX, text between \<^bsup> and \<^esup> in superscript. The new control characters are not identifier parts. * Pure: Control-symbols of the form \<^raw:...> will literally print the content of "..." to the latex file instead of \isacntrl... . The "..." may consist of any printable characters excluding the end bracket >. * Pure: Using new Isar command "finalconsts" (or the ML functions Theory.add_finals or Theory.add_finals_i) it is now possible to declare constants "final", which prevents their being given a definition later. It is useful for constants whose behaviour is fixed axiomatically rather than definitionally, such as the meta-logic connectives. * Pure: 'instance' now handles general arities with general sorts (i.e. intersections of classes), * Presentation: generated HTML now uses a CSS style sheet to make layout (somewhat) independent of content. It is copied from lib/html/isabelle.css. It can be changed to alter the colors/layout of generated pages. *** Isar *** * Tactic emulation methods rule_tac, erule_tac, drule_tac, frule_tac, cut_tac, subgoal_tac and thin_tac: - Now understand static (Isar) contexts. As a consequence, users of Isar locales are no longer forced to write Isar proof scripts. For details see Isar Reference Manual, paragraph 4.3.2: Further tactic emulations. - INCOMPATIBILITY: names of variables to be instantiated may no longer be enclosed in quotes. Instead, precede variable name with `?'. This is consistent with the instantiation attribute "where". * Attributes "where" and "of": - Now take type variables of instantiated theorem into account when reading the instantiation string. This fixes a bug that caused instantiated theorems to have too special types in some circumstances. - "where" permits explicit instantiations of type variables. * Calculation commands "moreover" and "also" no longer interfere with current facts ("this"), admitting arbitrary combinations with "then" and derived forms. * Locales: - Goal statements involving the context element "includes" no longer generate theorems with internal delta predicates (those ending on "_axioms") in the premise. Resolve particular premise with <locale>.intro to obtain old form. - Fixed bug in type inference ("unify_frozen") that prevented mix of target specification and "includes" elements in goal statement. - Rule sets <locale>.intro and <locale>.axioms no longer declared as [intro?] and [elim?] (respectively) by default. - Experimental command for instantiation of locales in proof contexts: instantiate <label>[<attrs>]: <loc> Instantiates locale <loc> and adds all its theorems to the current context taking into account their attributes. Label and attrs are optional modifiers, like in theorem declarations. If present, names of instantiated theorems are qualified with <label>, and the attributes <attrs> are applied after any attributes these theorems might have already. If the locale has assumptions, a chained fact of the form "<loc> t1 ... tn" is expected from which instantiations of the parameters are derived. The command does not support old-style locales declared with "locale (open)". A few (very simple) examples can be found in FOL/ex/LocaleInst.thy. * HOL: Tactic emulation methods induct_tac and case_tac understand static (Isar) contexts. *** HOL *** * Proof import: new image HOL4 contains the imported library from the HOL4 system with about 2500 theorems. It is imported by replaying proof terms produced by HOL4 in Isabelle. The HOL4 image can be used like any other Isabelle image. See HOL/Import/HOL/README for more information. * Simplifier: - Much improved handling of linear and partial orders. Reasoners for linear and partial orders are set up for type classes "linorder" and "order" respectively, and are added to the default simpset as solvers. This means that the simplifier can build transitivity chains to solve goals from the assumptions. - INCOMPATIBILITY: old proofs break occasionally. Typically, applications of blast or auto after simplification become unnecessary because the goal is solved by simplification already. * Numerics: new theory Ring_and_Field contains over 250 basic numerical laws, all proved in axiomatic type classes for semirings, rings and fields. * Numerics: - Numeric types (nat, int, and in HOL-Complex rat, real, complex, etc.) are now formalized using the Ring_and_Field theory mentioned above. - INCOMPATIBILITY: simplification and arithmetic behaves somewhat differently than before, because now they are set up once in a generic manner. - INCOMPATIBILITY: many type-specific arithmetic laws have gone. Look for the general versions in Ring_and_Field (and Power if they concern exponentiation). * Type "rat" of the rational numbers is now available in HOL-Complex. * Records: - Record types are now by default printed with their type abbreviation instead of the list of all field types. This can be configured via the reference "print_record_type_abbr". - Simproc "record_upd_simproc" for simplification of multiple updates added (not enabled by default). - Simproc "record_ex_sel_eq_simproc" to simplify EX x. sel r = x resp. EX x. x = sel r to True (not enabled by default). - Tactic "record_split_simp_tac" to split and simplify records added. * 'specification' command added, allowing for definition by specification. There is also an 'ax_specification' command that introduces the new constants axiomatically. * arith(_tac) is now able to generate counterexamples for reals as well. * HOL-Algebra: new locale "ring" for non-commutative rings. * HOL-ex: InductiveInvariant_examples illustrates advanced recursive function definitions, thanks to Sava Krsti\'{c} and John Matthews. * HOL-Matrix: a first theory for matrices in HOL with an application of matrix theory to linear programming. * Unions and Intersections: The latex output syntax of UN and INT has been changed from "\Union x \in A. B" to "\Union_{x \in A} B" i.e. the index formulae has become a subscript. Similarly for "\Union x. B", and for \Inter instead of \Union. * Unions and Intersections over Intervals: There is new short syntax "UN i<=n. A" for "UN i:{0..n}. A". There is also an x-symbol version with subscripts "\<Union>\<^bsub>i <= n\<^esub>. A" like in normal math, and corresponding versions for < and for intersection. * HOL/List: Ordering "lexico" is renamed "lenlex" and the standard lexicographic dictonary ordering has been added as "lexord". * ML: the legacy theory structures Int and List have been removed. They had conflicted with ML Basis Library structures having the same names. * 'refute' command added to search for (finite) countermodels. Only works for a fragment of HOL. The installation of an external SAT solver is highly recommended. See "HOL/Refute.thy" for details. * 'quickcheck' command: Allows to find counterexamples by evaluating formulae under an assignment of free variables to random values. In contrast to 'refute', it can deal with inductive datatypes, but cannot handle quantifiers. See "HOL/ex/Quickcheck_Examples.thy" for examples. *** HOLCF *** * Streams now come with concatenation and are part of the HOLCF image New in Isabelle2003 (May 2003) ------------------------------ *** General *** * Provers/simplifier: - Completely reimplemented method simp (ML: Asm_full_simp_tac): Assumptions are now subject to complete mutual simplification, not just from left to right. The simplifier now preserves the order of assumptions. Potential INCOMPATIBILITY: -- simp sometimes diverges where the old version did not, e.g. invoking simp on the goal [| P (f x); y = x; f x = f y |] ==> Q now gives rise to the infinite reduction sequence P(f x) --(f x = f y)--> P(f y) --(y = x)--> P(f x) --(f x = f y)--> ... Using "simp (asm_lr)" (ML: Asm_lr_simp_tac) instead often solves this kind of problem. -- Tactics combining classical reasoner and simplification (such as auto) are also affected by this change, because many of them rely on simp. They may sometimes diverge as well or yield a different numbers of subgoals. Try to use e.g. force, fastsimp, or safe instead of auto in case of problems. Sometimes subsequent calls to the classical reasoner will fail because a preceeding call to the simplifier too eagerly simplified the goal, e.g. deleted redundant premises. - The simplifier trace now shows the names of the applied rewrite rules - You can limit the number of recursive invocations of the simplifier during conditional rewriting (where the simplifie tries to solve the conditions before applying the rewrite rule): ML "simp_depth_limit := n" where n is an integer. Thus you can force termination where previously the simplifier would diverge. - Accepts free variables as head terms in congruence rules. Useful in Isar. - No longer aborts on failed congruence proof. Instead, the congruence is ignored. * Pure: New generic framework for extracting programs from constructive proofs. See HOL/Extraction.thy for an example instantiation, as well as HOL/Extraction for some case studies. * Pure: The main goal of the proof state is no longer shown by default, only the subgoals. This behaviour is controlled by a new flag. PG menu: Isabelle/Isar -> Settings -> Show Main Goal (ML: Proof.show_main_goal). * Pure: You can find all matching introduction rules for subgoal 1, i.e. all rules whose conclusion matches subgoal 1: PG menu: Isabelle/Isar -> Show me -> matching rules The rules are ordered by how closely they match the subgoal. In particular, rules that solve a subgoal outright are displayed first (or rather last, the way they are printed). (ML: ProofGeneral.print_intros()) * Pure: New flag trace_unify_fail causes unification to print diagnostic information (PG: in trace buffer) when it fails. This is useful for figuring out why single step proofs like rule, erule or assumption failed. * Pure: Locale specifications now produce predicate definitions according to the body of text (covering assumptions modulo local definitions); predicate "loc_axioms" covers newly introduced text, while "loc" is cumulative wrt. all included locale expressions; the latter view is presented only on export into the global theory context; potential INCOMPATIBILITY, use "(open)" option to fall back on the old view without predicates; * Pure: predefined locales "var" and "struct" are useful for sharing parameters (as in CASL, for example); just specify something like ``var x + var y + struct M'' as import; * Pure: improved thms_containing: proper indexing of facts instead of raw theorems; check validity of results wrt. current name space; include local facts of proof configuration (also covers active locales), cover fixed variables in index; may use "_" in term specification; an optional limit for the number of printed facts may be given (the default is 40); * Pure: disallow duplicate fact bindings within new-style theory files (batch-mode only); * Provers: improved induct method: assumptions introduced by case "foo" are split into "foo.hyps" (from the rule) and "foo.prems" (from the goal statement); "foo" still refers to all facts collectively; * Provers: the function blast.overloaded has been removed: all constants are regarded as potentially overloaded, which improves robustness in exchange for slight decrease in efficiency; * Provers/linorder: New generic prover for transitivity reasoning over linear orders. Note: this prover is not efficient! * Isar: preview of problems to finish 'show' now produce an error rather than just a warning (in interactive mode); *** HOL *** * arith(_tac) - Produces a counter example if it cannot prove a goal. Note that the counter example may be spurious if the goal is not a formula of quantifier-free linear arithmetic. In ProofGeneral the counter example appears in the trace buffer. - Knows about div k and mod k where k is a numeral of type nat or int. - Calls full Presburger arithmetic (by Amine Chaieb) if quantifier-free linear arithmetic fails. This takes account of quantifiers and divisibility. Presburger arithmetic can also be called explicitly via presburger(_tac). * simp's arithmetic capabilities have been enhanced a bit: it now takes ~= in premises into account (by performing a case split); * simp reduces "m*(n div m) + n mod m" to n, even if the two summands are distributed over a sum of terms; * New tactic "trans_tac" and method "trans" instantiate Provers/linorder.ML for axclasses "order" and "linorder" (predicates "<=", "<" and "="). * function INCOMPATIBILITIES: Pi-sets have been redefined and moved from main HOL to Library/FuncSet; constant "Fun.op o" is now called "Fun.comp"; * 'typedef' command has new option "open" to suppress the set definition; * functions Min and Max on finite sets have been introduced (theory Finite_Set); * attribute [symmetric] now works for relations as well; it turns (x,y) : R^-1 into (y,x) : R, and vice versa; * induct over a !!-quantified statement (say !!x1..xn): each "case" automatically performs "fix x1 .. xn" with exactly those names. * Map: `empty' is no longer a constant but a syntactic abbreviation for %x. None. Warning: empty_def now refers to the previously hidden definition of the empty set. * Algebra: formalization of classical algebra. Intended as base for any algebraic development in Isabelle. Currently covers group theory (up to Sylow's theorem) and ring theory (Universal Property of Univariate Polynomials). Contributions welcome; * GroupTheory: deleted, since its material has been moved to Algebra; * Complex: new directory of the complex numbers with numeric constants, nonstandard complex numbers, and some complex analysis, standard and nonstandard (Jacques Fleuriot); * HOL-Complex: new image for analysis, replacing HOL-Real and HOL-Hyperreal; * Hyperreal: introduced Gauge integration and hyperreal logarithms (Jacques Fleuriot); * Real/HahnBanach: updated and adapted to locales; * NumberTheory: added Gauss's law of quadratic reciprocity (by Avigad, Gray and Kramer); * UNITY: added the Meier-Sanders theory of progress sets; * MicroJava: bytecode verifier and lightweight bytecode verifier as abstract algorithms, instantiated to the JVM; * Bali: Java source language formalization. Type system, operational semantics, axiomatic semantics. Supported language features: classes, interfaces, objects,virtual methods, static methods, static/instance fields, arrays, access modifiers, definite assignment, exceptions. *** ZF *** * ZF/Constructible: consistency proof for AC (Gdel's constructible universe, etc.); * Main ZF: virtually all theories converted to new-style format; *** ML *** * Pure: Tactic.prove provides sane interface for internal proofs; omits the infamous "standard" operation, so this is more appropriate than prove_goalw_cterm in many situations (e.g. in simprocs); * Pure: improved error reporting of simprocs; * Provers: Simplifier.simproc(_i) provides sane interface for setting up simprocs; *** Document preparation *** * uses \par instead of \\ for line breaks in theory text. This may shift some page breaks in large documents. To get the old behaviour use \renewcommand{\isanewline}{\mbox{}\\\mbox{}} in root.tex. * minimized dependencies of isabelle.sty and isabellesym.sty on other packages * \<euro> now needs package babel/greek instead of marvosym (which broke \Rightarrow) * normal size for \<zero>...\<nine> (uses \mathbf instead of textcomp package) New in Isabelle2002 (March 2002) -------------------------------- *** Document preparation *** * greatly simplified document preparation setup, including more graceful interpretation of isatool usedir -i/-d/-D options, and more instructive isatool mkdir; users should basically be able to get started with "isatool mkdir HOL Test && isatool make"; alternatively, users may run a separate document processing stage manually like this: "isatool usedir -D output HOL Test && isatool document Test/output"; * theory dependency graph may now be incorporated into documents; isatool usedir -g true will produce session_graph.eps/.pdf for use with \includegraphics of LaTeX; * proper spacing of consecutive markup elements, especially text blocks after section headings; * support bold style (for single symbols only), input syntax is like this: "\<^bold>\<alpha>" or "\<^bold>A"; * \<bullet> is now output as bold \cdot by default, which looks much better in printed text; * added default LaTeX bindings for \<tturnstile> and \<TTurnstile>; note that these symbols are currently unavailable in Proof General / X-Symbol; new symbols \<zero>, \<one>, ..., \<nine>, and \<euro>; * isatool latex no longer depends on changed TEXINPUTS, instead isatool document copies the Isabelle style files to the target location; *** Isar *** * Pure/Provers: improved proof by cases and induction; - 'case' command admits impromptu naming of parameters (such as "case (Suc n)"); - 'induct' method divinates rule instantiation from the inductive claim; no longer requires excessive ?P bindings for proper instantiation of cases; - 'induct' method properly enumerates all possibilities of set/type rules; as a consequence facts may be also passed through *type* rules without further ado; - 'induct' method now derives symbolic cases from the *rulified* rule (before it used to rulify cases stemming from the internal atomized version); this means that the context of a non-atomic statement becomes is included in the hypothesis, avoiding the slightly cumbersome show "PROP ?case" form; - 'induct' may now use elim-style induction rules without chaining facts, using ``missing'' premises from the goal state; this allows rules stemming from inductive sets to be applied in unstructured scripts, while still benefitting from proper handling of non-atomic statements; NB: major inductive premises need to be put first, all the rest of the goal is passed through the induction; - 'induct' proper support for mutual induction involving non-atomic rule statements (uses the new concept of simultaneous goals, see below); - append all possible rule selections, but only use the first success (no backtracking); - removed obsolete "(simplified)" and "(stripped)" options of methods; - undeclared rule case names default to numbers 1, 2, 3, ...; - added 'print_induct_rules' (covered by help item in recent Proof General versions); - moved induct/cases attributes to Pure, methods to Provers; - generic method setup instantiated for FOL and HOL; * Pure: support multiple simultaneous goal statements, for example "have a: A and b: B" (same for 'theorem' etc.); being a pure meta-level mechanism, this acts as if several individual goals had been stated separately; in particular common proof methods need to be repeated in order to cover all claims; note that a single elimination step is *not* sufficient to establish the two conjunctions, so this fails: assume "A & B" then have A and B .. (*".." fails*) better use "obtain" in situations as above; alternative refer to multi-step methods like 'auto', 'simp_all', 'blast+' etc.; * Pure: proper integration with ``locales''; unlike the original version by Florian Kammller, Isar locales package high-level proof contexts rather than raw logical ones (e.g. we admit to include attributes everywhere); operations on locales include merge and rename; support for implicit arguments (``structures''); simultaneous type-inference over imports and text; see also HOL/ex/Locales.thy for some examples; * Pure: the following commands have been ``localized'', supporting a target locale specification "(in name)": 'lemma', 'theorem', 'corollary', 'lemmas', 'theorems', 'declare'; the results will be stored both within the locale and at the theory level (exported and qualified by the locale name); * Pure: theory goals may now be specified in ``long'' form, with ad-hoc contexts consisting of arbitrary locale elements. for example ``lemma foo: fixes x assumes "A x" shows "B x"'' (local syntax and definitions may be given, too); the result is a meta-level rule with the context elements being discharged in the obvious way; * Pure: new proof command 'using' allows to augment currently used facts after a goal statement ('using' is syntactically analogous to 'apply', but acts on the goal's facts only); this allows chained facts to be separated into parts given before and after a claim, as in ``from a and b have C using d and e <proof>''; * Pure: renamed "antecedent" case to "rule_context"; * Pure: new 'judgment' command records explicit information about the object-logic embedding (used by several tools internally); no longer use hard-wired "Trueprop"; * Pure: added 'corollary' command; * Pure: fixed 'token_translation' command; * Pure: removed obsolete 'exported' attribute; * Pure: dummy pattern "_" in is/let is now automatically lifted over bound variables: "ALL x. P x --> Q x" (is "ALL x. _ --> ?C x") supersedes more cumbersome ... (is "ALL x. _ x --> ?C x"); * Pure: method 'atomize' presents local goal premises as object-level statements (atomic meta-level propositions); setup controlled via rewrite rules declarations of 'atomize' attribute; example application: 'induct' method with proper rule statements in improper proof *scripts*; * Pure: emulation of instantiation tactics (rule_tac, cut_tac, etc.) now consider the syntactic context of assumptions, giving a better chance to get type-inference of the arguments right (this is especially important for locales); * Pure: "sorry" no longer requires quick_and_dirty in interactive mode; * Pure/obtain: the formal conclusion "thesis", being marked as ``internal'', may no longer be reference directly in the text; potential INCOMPATIBILITY, may need to use "?thesis" in rare situations; * Pure: generic 'sym' attribute which declares a rule both as pure 'elim?' and for the 'symmetric' operation; * Pure: marginal comments ``--'' may now occur just anywhere in the text; the fixed correlation with particular command syntax has been discontinued; * Pure: new method 'rules' is particularly well-suited for proof search in intuitionistic logic; a bit slower than 'blast' or 'fast', but often produces more compact proof terms with less detours; * Pure/Provers/classical: simplified integration with pure rule attributes and methods; the classical "intro?/elim?/dest?" declarations coincide with the pure ones; the "rule" method no longer includes classically swapped intros; "intro" and "elim" methods no longer pick rules from the context; also got rid of ML declarations AddXIs/AddXEs/AddXDs; all of this has some potential for INCOMPATIBILITY; * Provers/classical: attribute 'swapped' produces classical inversions of introduction rules; * Provers/simplifier: 'simplified' attribute may refer to explicit rules instead of full simplifier context; 'iff' attribute handles conditional rules; * HOL: 'typedef' now allows alternative names for Rep/Abs morphisms; * HOL: 'recdef' now fails on unfinished automated proofs, use "(permissive)" option to recover old behavior; * HOL: 'inductive' no longer features separate (collective) attributes for 'intros' (was found too confusing); * HOL: properly declared induction rules less_induct and wf_induct_rule; *** HOL *** * HOL: moved over to sane numeral syntax; the new policy is as follows: - 0 and 1 are polymorphic constants, which are defined on any numeric type (nat, int, real etc.); - 2, 3, 4, ... and -1, -2, -3, ... are polymorphic numerals, based binary representation internally; - type nat has special constructor Suc, and generally prefers Suc 0 over 1::nat and Suc (Suc 0) over 2::nat; This change may cause significant problems of INCOMPATIBILITY; here are some hints on converting existing sources: - due to the new "num" token, "-0" and "-1" etc. are now atomic entities, so expressions involving "-" (unary or binary minus) need to be spaced properly; - existing occurrences of "1" may need to be constraint "1::nat" or even replaced by Suc 0; similar for old "2"; - replace "#nnn" by "nnn", and "#-nnn" by "-nnn"; - remove all special provisions on numerals in proofs; * HOL: simp rules nat_number expand numerals on nat to Suc/0 representation (depends on bin_arith_simps in the default context); * HOL: symbolic syntax for x^2 (numeral 2); * HOL: the class of all HOL types is now called "type" rather than "term"; INCOMPATIBILITY, need to adapt references to this type class in axclass/classes, instance/arities, and (usually rare) occurrences in typings (of consts etc.); internally the class is called "HOL.type", ML programs should refer to HOLogic.typeS; * HOL/record package improvements: - new derived operations "fields" to build a partial record section, "extend" to promote a fixed record to a record scheme, and "truncate" for the reverse; cf. theorems "xxx.defs", which are *not* declared as simp by default; - shared operations ("more", "fields", etc.) now need to be always qualified) --- potential INCOMPATIBILITY; - removed "make_scheme" operations (use "make" with "extend") -- INCOMPATIBILITY; - removed "more" class (simply use "term") -- INCOMPATIBILITY; - provides cases/induct rules for use with corresponding Isar methods (for concrete records, record schemes, concrete more parts, and schematic more parts -- in that order); - internal definitions directly based on a light-weight abstract theory of product types over typedef rather than datatype; * HOL: generic code generator for generating executable ML code from specifications; specific support for HOL constructs such as inductive datatypes and sets, as well as recursive functions; can be invoked via 'generate_code' theory section; * HOL: canonical cases/induct rules for n-tuples (n = 3..7); * HOL: consolidated and renamed several theories. In particular: Ord.thy has been absorbed into HOL.thy String.thy has been absorbed into List.thy * HOL: concrete setsum syntax "\<Sum>i:A. b" == "setsum (%i. b) A" (beware of argument permutation!); * HOL: linorder_less_split superseded by linorder_cases; * HOL/List: "nodups" renamed to "distinct"; * HOL: added "The" definite description operator; move Hilbert's "Eps" to peripheral theory "Hilbert_Choice"; some INCOMPATIBILITIES: - Ex_def has changed, now need to use some_eq_ex * HOL: made split_all_tac safe; EXISTING PROOFS MAY FAIL OR LOOP, so in this (rare) case use: delSWrapper "split_all_tac" addSbefore ("unsafe_split_all_tac", unsafe_split_all_tac) * HOL: added safe wrapper "split_conv_tac" to claset; EXISTING PROOFS MAY FAIL; * HOL: introduced f^n = f o ... o f; warning: due to the limits of Isabelle's type classes, ^ on functions and relations has too general a domain, namely ('a * 'b) set and 'a => 'b; this means that it may be necessary to attach explicit type constraints; * HOL/Relation: the prefix name of the infix "O" has been changed from "comp" to "rel_comp"; INCOMPATIBILITY: a few theorems have been renamed accordingly (eg "compI" -> "rel_compI"). * HOL: syntax translations now work properly with numerals and records expressions; * HOL: bounded abstraction now uses syntax "%" / "\<lambda>" instead of "lam" -- INCOMPATIBILITY; * HOL: got rid of some global declarations (potential INCOMPATIBILITY for ML tools): const "()" renamed "Product_Type.Unity", type "unit" renamed "Product_Type.unit"; * HOL: renamed rtrancl_into_rtrancl2 to converse_rtrancl_into_rtrancl * HOL: removed obsolete theorem "optionE" (use "option.exhaust", or the "cases" method); * HOL/GroupTheory: group theory examples including Sylow's theorem (by Florian Kammller); * HOL/IMP: updated and converted to new-style theory format; several parts turned into readable document, with proper Isar proof texts and some explanations (by Gerwin Klein); * HOL-Real: added Complex_Numbers (by Gertrud Bauer); * HOL-Hyperreal is now a logic image; *** HOLCF *** * Isar: consts/constdefs supports mixfix syntax for continuous operations; * Isar: domain package adapted to new-style theory format, e.g. see HOLCF/ex/Dnat.thy; * theory Lift: proper use of rep_datatype lift instead of ML hacks -- potential INCOMPATIBILITY; now use plain induct_tac instead of former lift.induct_tac, always use UU instead of Undef; * HOLCF/IMP: updated and converted to new-style theory; *** ZF *** * Isar: proper integration of logic-specific tools and packages, including theory commands '(co)inductive', '(co)datatype', 'rep_datatype', 'inductive_cases', as well as methods 'ind_cases', 'induct_tac', 'case_tac', and 'typecheck' (with attribute 'TC'); * theory Main no longer includes AC; for the Axiom of Choice, base your theory on Main_ZFC; * the integer library now covers quotients and remainders, with many laws relating division to addition, multiplication, etc.; * ZF/UNITY: Chandy and Misra's UNITY is now available in ZF, giving a typeless version of the formalism; * ZF/AC, Coind, IMP, Resid: updated and converted to new-style theory format; * ZF/Induct: new directory for examples of inductive definitions, including theory Multiset for multiset orderings; converted to new-style theory format; * ZF: many new theorems about lists, ordinals, etc.; *** General *** * Pure/kernel: meta-level proof terms (by Stefan Berghofer); reference variable proof controls level of detail: 0 = no proofs (only oracle dependencies), 1 = lemma dependencies, 2 = compact proof terms; see also ref manual for further ML interfaces; * Pure/axclass: removed obsolete ML interface goal_subclass/goal_arity; * Pure/syntax: new token syntax "num" for plain numerals (without "#" of "xnum"); potential INCOMPATIBILITY, since -0, -1 etc. are now separate tokens, so expressions involving minus need to be spaced properly; * Pure/syntax: support non-oriented infixes, using keyword "infix" rather than "infixl" or "infixr"; * Pure/syntax: concrete syntax for dummy type variables admits genuine sort constraint specifications in type inference; e.g. "x::_::foo" ensures that the type of "x" is of sort "foo" (but not necessarily a type variable); * Pure/syntax: print modes "type_brackets" and "no_type_brackets" control output of nested => (types); the default behavior is "type_brackets"; * Pure/syntax: builtin parse translation for "_constify" turns valued tokens into AST constants; * Pure/syntax: prefer later declarations of translations and print translation functions; potential INCOMPATIBILITY: need to reverse multiple declarations for same syntax element constant; * Pure/show_hyps reset by default (in accordance to existing Isar practice); * Provers/classical: renamed addaltern to addafter, addSaltern to addSafter; * Provers/clasimp: ``iff'' declarations now handle conditional rules as well; * system: tested support for MacOS X; should be able to get Isabelle + Proof General to work in a plain Terminal after installing Poly/ML (e.g. from the Isabelle distribution area) and GNU bash alone (e.g. from http://www.apple.com); full X11, XEmacs and X-Symbol support requires further installations, e.g. from http://fink.sourceforge.net/); * system: support Poly/ML 4.1.1 (able to manage larger heaps); * system: reduced base memory usage by Poly/ML (approx. 20 MB instead of 40 MB), cf. ML_OPTIONS; * system: Proof General keywords specification is now part of the Isabelle distribution (see etc/isar-keywords.el); * system: support for persistent Proof General sessions (refrain from outdating all loaded theories on startup); user may create writable logic images like this: ``isabelle -q HOL Test''; * system: smart selection of Isabelle process versus Isabelle interface, accommodates case-insensitive file systems (e.g. HFS+); may run both "isabelle" and "Isabelle" even if file names are badly damaged (executable inspects the case of the first letter of its own name); added separate "isabelle-process" and "isabelle-interface"; * system: refrain from any attempt at filtering input streams; no longer support ``8bit'' encoding of old isabelle font, instead proper iso-latin characters may now be used; the related isatools "symbolinput" and "nonascii" have disappeared as well; * system: removed old "xterm" interface (the print modes "xterm" and "xterm_color" are still available for direct use in a suitable terminal); New in Isabelle99-2 (February 2001) ----------------------------------- *** Overview of INCOMPATIBILITIES *** * HOL: please note that theories in the Library and elsewhere often use the new-style (Isar) format; to refer to their theorems in an ML script you must bind them to ML identifers by e.g. val thm_name = thm "thm_name"; * HOL: inductive package no longer splits induction rule aggressively, but only as far as specified by the introductions given; the old format may be recovered via ML function complete_split_rule or attribute 'split_rule (complete)'; * HOL: induct renamed to lfp_induct, lfp_Tarski to lfp_unfold, gfp_Tarski to gfp_unfold; * HOL: contrapos, contrapos2 renamed to contrapos_nn, contrapos_pp; * HOL: infix "dvd" now has priority 50 rather than 70 (because it is a relation); infix "^^" has been renamed "``"; infix "``" has been renamed "`"; "univalent" has been renamed "single_valued"; * HOL/Real: "rinv" and "hrinv" replaced by overloaded "inverse" operation; * HOLCF: infix "`" has been renamed "$"; the symbol syntax is \<cdot>; * Isar: 'obtain' no longer declares "that" fact as simp/intro; * Isar/HOL: method 'induct' now handles non-atomic goals; as a consequence, it is no longer monotonic wrt. the local goal context (which is now passed through the inductive cases); * Document preparation: renamed standard symbols \<ll> to \<lless> and \<gg> to \<ggreater>; *** Document preparation *** * \isabellestyle{NAME} selects version of Isabelle output (currently available: are "it" for near math-mode best-style output, "sl" for slanted text style, and "tt" for plain type-writer; if no \isabellestyle command is given, output is according to slanted type-writer); * support sub/super scripts (for single symbols only), input syntax is like this: "A\<^sup>*" or "A\<^sup>\<star>"; * some more standard symbols; see Appendix A of the system manual for the complete list of symbols defined in isabellesym.sty; * improved isabelle style files; more abstract symbol implementation (should now use \isamath{...} and \isatext{...} in custom symbol definitions); * antiquotation @{goals} and @{subgoals} for output of *dynamic* goals state; Note that presentation of goal states does not conform to actual human-readable proof documents. Please do not include goal states into document output unless you really know what you are doing! * proper indentation of antiquoted output with proportional LaTeX fonts; * no_document ML operator temporarily disables LaTeX document generation; * isatool unsymbolize tunes sources for plain ASCII communication; *** Isar *** * Pure: Isar now suffers initial goal statements to contain unbound schematic variables (this does not conform to actual readable proof documents, due to unpredictable outcome and non-compositional proof checking); users who know what they are doing may use schematic goals for Prolog-style synthesis of proven results; * Pure: assumption method (an implicit finishing) now handles actual rules as well; * Pure: improved 'obtain' --- moved to Pure, insert "that" into initial goal, declare "that" only as Pure intro (only for single steps); the "that" rule assumption may now be involved in implicit finishing, thus ".." becomes a feasible for trivial obtains; * Pure: default proof step now includes 'intro_classes'; thus trivial instance proofs may be performed by ".."; * Pure: ?thesis / ?this / "..." now work for pure meta-level statements as well; * Pure: more robust selection of calculational rules; * Pure: the builtin notion of 'finished' goal now includes the ==-refl rule (as well as the assumption rule); * Pure: 'thm_deps' command visualizes dependencies of theorems and lemmas, using the graph browser tool; * Pure: predict failure of "show" in interactive mode; * Pure: 'thms_containing' now takes actual terms as arguments; * HOL: improved method 'induct' --- now handles non-atomic goals (potential INCOMPATIBILITY); tuned error handling; * HOL: cases and induct rules now provide explicit hints about the number of facts to be consumed (0 for "type" and 1 for "set" rules); any remaining facts are inserted into the goal verbatim; * HOL: local contexts (aka cases) may now contain term bindings as well; the 'cases' and 'induct' methods new provide a ?case binding for the result to be shown in each case; * HOL: added 'recdef_tc' command; * isatool convert assists in eliminating legacy ML scripts; *** HOL *** * HOL/Library: a collection of generic theories to be used together with main HOL; the theory loader path already includes this directory by default; the following existing theories have been moved here: HOL/Induct/Multiset, HOL/Induct/Acc (as Accessible_Part), HOL/While (as While_Combinator), HOL/Lex/Prefix (as List_Prefix); * HOL/Unix: "Some aspects of Unix file-system security", a typical modelling and verification task performed in Isabelle/HOL + Isabelle/Isar + Isabelle document preparation (by Markus Wenzel). * HOL/Algebra: special summation operator SUM no longer exists, it has been replaced by setsum; infix 'assoc' now has priority 50 (like 'dvd'); axiom 'one_not_zero' has been moved from axclass 'ring' to 'domain', this makes the theory consistent with mathematical literature; * HOL basics: added overloaded operations "inverse" and "divide" (infix "/"), syntax for generic "abs" operation, generic summation operator \<Sum>; * HOL/typedef: simplified package, provide more useful rules (see also HOL/subset.thy); * HOL/datatype: induction rule for arbitrarily branching datatypes is now expressed as a proper nested rule (old-style tactic scripts may require atomize_strip_tac to cope with non-atomic premises); * HOL: renamed theory "Prod" to "Product_Type", renamed "split" rule to "split_conv" (old name still available for compatibility); * HOL: improved concrete syntax for strings (e.g. allows translation rules with string literals); * HOL-Real-Hyperreal: this extends HOL-Real with the hyperreals and Fleuriot's mechanization of analysis, including the transcendental functions for the reals; * HOL/Real, HOL/Hyperreal: improved arithmetic simplification; *** CTT *** * CTT: x-symbol support for Pi, Sigma, -->, : (membership); note that "lam" is displayed as TWO lambda-symbols * CTT: theory Main now available, containing everything (that is, Bool and Arith); *** General *** * Pure: the Simplifier has been implemented properly as a derived rule outside of the actual kernel (at last!); the overall performance penalty in practical applications is about 50%, while reliability of the Isabelle inference kernel has been greatly improved; * print modes "brackets" and "no_brackets" control output of nested => (types) and ==> (props); the default behaviour is "brackets"; * Provers: fast_tac (and friends) now handle actual object-logic rules as assumptions as well; * system: support Poly/ML 4.0; * system: isatool install handles KDE version 1 or 2; New in Isabelle99-1 (October 2000) ---------------------------------- *** Overview of INCOMPATIBILITIES *** * HOL: simplification of natural numbers is much changed; to partly recover the old behaviour (e.g. to prevent n+n rewriting to #2*n) issue the following ML commands: Delsimprocs Nat_Numeral_Simprocs.cancel_numerals; Delsimprocs [Nat_Numeral_Simprocs.combine_numerals]; * HOL: simplification no longer dives into case-expressions; this is controlled by "t.weak_case_cong" for each datatype t; * HOL: nat_less_induct renamed to less_induct; * HOL: systematic renaming of the SOME (Eps) rules, may use isatool fixsome to patch .thy and .ML sources automatically; select_equality -> some_equality select_eq_Ex -> some_eq_ex selectI2EX -> someI2_ex selectI2 -> someI2 selectI -> someI select1_equality -> some1_equality Eps_sym_eq -> some_sym_eq_trivial Eps_eq -> some_eq_trivial * HOL: exhaust_tac on datatypes superceded by new generic case_tac; * HOL: removed obsolete theorem binding expand_if (refer to split_if instead); * HOL: the recursion equations generated by 'recdef' are now called f.simps instead of f.rules; * HOL: qed_spec_mp now also handles bounded ALL as well; * HOL: 0 is now overloaded, so the type constraint ":: nat" may sometimes be needed; * HOL: the constant for "f``x" is now "image" rather than "op ``"; * HOL: the constant for "f-``x" is now "vimage" rather than "op -``"; * HOL: the disjoint sum is now "<+>" instead of "Plus"; the cartesian product is now "<*>" instead of "Times"; the lexicographic product is now "<*lex*>" instead of "**"; * HOL: theory Sexp is now in HOL/Induct examples (it used to be part of main HOL, but was unused); better use HOL's datatype package; * HOL: removed "symbols" syntax for constant "override" of theory Map; the old syntax may be recovered as follows: syntax (symbols) override :: "('a ~=> 'b) => ('a ~=> 'b) => ('a ~=> 'b)" (infixl "\\<oplus>" 100) * HOL/Real: "rabs" replaced by overloaded "abs" function; * HOL/ML: even fewer consts are declared as global (see theories Ord, Lfp, Gfp, WF); this only affects ML packages that refer to const names internally; * HOL and ZF: syntax for quotienting wrt an equivalence relation changed from A/r to A//r; * ZF: new treatment of arithmetic (nat & int) may break some old proofs; * Isar: renamed some attributes (RS -> THEN, simplify -> simplified, rulify -> rule_format, elimify -> elim_format, ...); * Isar/Provers: intro/elim/dest attributes changed; renamed intro/intro!/intro!! flags to intro!/intro/intro? (in most cases, one should have to change intro!! to intro? only); replaced "delrule" by "rule del"; * Isar/HOL: renamed "intrs" to "intros" in inductive definitions; * Provers: strengthened force_tac by using new first_best_tac; * LaTeX document preparation: several changes of isabelle.sty (see lib/texinputs); *** Document preparation *** * formal comments (text blocks etc.) in new-style theories may now contain antiquotations of thm/prop/term/typ/text to be presented according to latex print mode; concrete syntax is like this: @{term[show_types] "f(x) = a + x"}; * isatool mkdir provides easy setup of Isabelle session directories, including proper document sources; * generated LaTeX sources are now deleted after successful run (isatool document -c); may retain a copy somewhere else via -D option of isatool usedir; * isatool usedir -D now lets isatool latex -o sty update the Isabelle style files, achieving self-contained LaTeX sources and simplifying LaTeX debugging; * old-style theories now produce (crude) LaTeX output as well; * browser info session directories are now self-contained (may be put on WWW server seperately); improved graphs of nested sessions; removed graph for 'all sessions'; * several improvements in isabelle style files; \isabellestyle{it} produces fake math mode output; \isamarkupheader is now \section by default; see lib/texinputs/isabelle.sty etc.; *** Isar *** * Isar/Pure: local results and corresponding term bindings are now subject to Hindley-Milner polymorphism (similar to ML); this accommodates incremental type-inference very nicely; * Isar/Pure: new derived language element 'obtain' supports generalized existence reasoning; * Isar/Pure: new calculational elements 'moreover' and 'ultimately' support accumulation of results, without applying any rules yet; useful to collect intermediate results without explicit name references, and for use with transitivity rules with more than 2 premises; * Isar/Pure: scalable support for case-analysis type proofs: new 'case' language element refers to local contexts symbolically, as produced by certain proof methods; internally, case names are attached to theorems as "tags"; * Isar/Pure: theory command 'hide' removes declarations from class/type/const name spaces; * Isar/Pure: theory command 'defs' supports option "(overloaded)" to indicate potential overloading; * Isar/Pure: changed syntax of local blocks from {{ }} to { }; * Isar/Pure: syntax of sorts made 'inner', i.e. have to write "{a,b,c}" instead of {a,b,c}; * Isar/Pure now provides its own version of intro/elim/dest attributes; useful for building new logics, but beware of confusion with the version in Provers/classical; * Isar/Pure: the local context of (non-atomic) goals is provided via case name 'antecedent'; * Isar/Pure: removed obsolete 'transfer' attribute (transfer of thms to the current context is now done automatically); * Isar/Pure: theory command 'method_setup' provides a simple interface for definining proof methods in ML; * Isar/Provers: intro/elim/dest attributes changed; renamed intro/intro!/intro!! flags to intro!/intro/intro? (INCOMPATIBILITY, in most cases, one should have to change intro!! to intro? only); replaced "delrule" by "rule del"; * Isar/Provers: new 'hypsubst' method, plain 'subst' method and 'symmetric' attribute (the latter supercedes [RS sym]); * Isar/Provers: splitter support (via 'split' attribute and 'simp' method modifier); 'simp' method: 'only:' modifier removes loopers as well (including splits); * Isar/Provers: Simplifier and Classical methods now support all kind of modifiers used in the past, including 'cong', 'iff', etc. * Isar/Provers: added 'fastsimp' and 'clarsimp' methods (combination of Simplifier and Classical reasoner); * Isar/HOL: new proof method 'cases' and improved version of 'induct' now support named cases; major packages (inductive, datatype, primrec, recdef) support case names and properly name parameters; * Isar/HOL: new transitivity rules for substitution in inequalities -- monotonicity conditions are extracted to be proven at end of calculations; * Isar/HOL: removed 'case_split' thm binding, should use 'cases' proof method anyway; * Isar/HOL: removed old expand_if = split_if; theorems if_splits = split_if split_if_asm; datatype package provides theorems foo.splits = foo.split foo.split_asm for each datatype; * Isar/HOL: tuned inductive package, rename "intrs" to "intros" (potential INCOMPATIBILITY), emulation of mk_cases feature for proof scripts: new 'inductive_cases' command and 'ind_cases' method; (Note: use "(cases (simplified))" method in proper proof texts); * Isar/HOL: added global 'arith_split' attribute for 'arith' method; * Isar: names of theorems etc. may be natural numbers as well; * Isar: 'pr' command: optional arguments for goals_limit and ProofContext.prems_limit; no longer prints theory contexts, but only proof states; * Isar: diagnostic commands 'pr', 'thm', 'prop', 'term', 'typ' admit additional print modes to be specified; e.g. "pr(latex)" will print proof state according to the Isabelle LaTeX style; * Isar: improved support for emulating tactic scripts, including proof methods 'rule_tac' etc., 'cut_tac', 'thin_tac', 'subgoal_tac', 'rename_tac', 'rotate_tac', 'tactic', and 'case_tac' / 'induct_tac' (for HOL datatypes); * Isar: simplified (more robust) goal selection of proof methods: 1st goal, all goals, or explicit goal specifier (tactic emulation); thus 'proof method scripts' have to be in depth-first order; * Isar: tuned 'let' syntax: replaced 'as' keyword by 'and'; * Isar: removed 'help' command, which hasn't been too helpful anyway; should instead use individual commands for printing items (print_commands, print_methods etc.); * Isar: added 'nothing' --- the empty list of theorems; *** HOL *** * HOL/MicroJava: formalization of a fragment of Java, together with a corresponding virtual machine and a specification of its bytecode verifier and a lightweight bytecode verifier, including proofs of type-safety; by Gerwin Klein, Tobias Nipkow, David von Oheimb, and Cornelia Pusch (see also the homepage of project Bali at http://isabelle.in.tum.de/Bali/); * HOL/Algebra: new theory of rings and univariate polynomials, by Clemens Ballarin; * HOL/NumberTheory: fundamental Theorem of Arithmetic, Chinese Remainder Theorem, Fermat/Euler Theorem, Wilson's Theorem, by Thomas M Rasmussen; * HOL/Lattice: fundamental concepts of lattice theory and order structures, including duals, properties of bounds versus algebraic laws, lattice operations versus set-theoretic ones, the Knaster-Tarski Theorem for complete lattices etc.; may also serve as a demonstration for abstract algebraic reasoning using axiomatic type classes, and mathematics-style proof in Isabelle/Isar; by Markus Wenzel; * HOL/Prolog: a (bare-bones) implementation of Lambda-Prolog, by David von Oheimb; * HOL/IMPP: extension of IMP with local variables and mutually recursive procedures, by David von Oheimb; * HOL/Lambda: converted into new-style theory and document; * HOL/ex/Multiquote: example of multiple nested quotations and anti-quotations -- basically a generalized version of de-Bruijn representation; very useful in avoiding lifting of operations; * HOL/record: added general record equality rule to simpset; fixed select-update simplification procedure to handle extended records as well; admit "r" as field name; * HOL: 0 is now overloaded over the new sort "zero", allowing its use with other numeric types and also as the identity of groups, rings, etc.; * HOL: new axclass plus_ac0 for addition with the AC-laws and 0 as identity. Types nat and int belong to this axclass; * HOL: greatly improved simplification involving numerals of type nat, int, real: (i + #8 + j) = Suc k simplifies to #7 + (i + j) = k i*j + k + j*#3*i simplifies to #4*(i*j) + k two terms #m*u and #n*u are replaced by #(m+n)*u (where #m, #n and u can implicitly be 1; this is simproc combine_numerals) and the term/formula #m*u+x ~~ #n*u+y simplifies simplifies to #(m-n)+x ~~ y or x ~~ #(n-m)+y, where ~~ is one of = < <= or - (simproc cancel_numerals); * HOL: meson_tac is available (previously in ex/meson.ML); it is a powerful prover for predicate logic but knows nothing of clasets; see ex/mesontest.ML and ex/mesontest2.ML for example applications; * HOL: new version of "case_tac" subsumes both boolean case split and "exhaust_tac" on datatypes; INCOMPATIBILITY: exhaust_tac no longer exists, may define val exhaust_tac = case_tac for ad-hoc portability; * HOL: simplification no longer dives into case-expressions: only the selector expression is simplified, but not the remaining arms; to enable full simplification of case-expressions for datatype t, you may remove t.weak_case_cong from the simpset, either globally (Delcongs [thm"t.weak_case_cong"];) or locally (delcongs [...]). * HOL/recdef: the recursion equations generated by 'recdef' for function 'f' are now called f.simps instead of f.rules; if all termination conditions are proved automatically, these simplification rules are added to the simpset, as in primrec; rules may be named individually as well, resulting in a separate list of theorems for each equation; * HOL/While is a new theory that provides a while-combinator. It permits the definition of tail-recursive functions without the provision of a termination measure. The latter is necessary once the invariant proof rule for while is applied. * HOL: new (overloaded) notation for the set of elements below/above some element: {..u}, {..u(}, {l..}, {)l..}. See theory SetInterval. * HOL: theorems impI, allI, ballI bound as "strip"; * HOL: new tactic induct_thm_tac: thm -> string -> int -> tactic induct_tac th "x1 ... xn" expects th to have a conclusion of the form P v1 ... vn and abbreviates res_inst_tac [("v1","x1"),...,("vn","xn")] th; * HOL/Real: "rabs" replaced by overloaded "abs" function; * HOL: theory Sexp now in HOL/Induct examples (it used to be part of main HOL, but was unused); * HOL: fewer consts declared as global (e.g. have to refer to "Lfp.lfp" instead of "lfp" internally; affects ML packages only); * HOL: tuned AST representation of nested pairs, avoiding bogus output in case of overlap with user translations (e.g. judgements over tuples); (note that the underlying logical represenation is still bogus); *** ZF *** * ZF: simplification automatically cancels common terms in arithmetic expressions over nat and int; * ZF: new treatment of nat to minimize type-checking: all operators coerce their operands to a natural number using the function natify, making the algebraic laws unconditional; * ZF: as above, for int: operators coerce their operands to an integer using the function intify; * ZF: the integer library now contains many of the usual laws for the orderings, including $<=, and monotonicity laws for $+ and $*; * ZF: new example ZF/ex/NatSum to demonstrate integer arithmetic simplification; * FOL and ZF: AddIffs now available, giving theorems of the form P<->Q to the simplifier and classical reasoner simultaneously; *** General *** * Provers: blast_tac now handles actual object-logic rules as assumptions; note that auto_tac uses blast_tac internally as well; * Provers: new functions rulify/rulify_no_asm: thm -> thm for turning outer -->/All/Ball into ==>/!!; qed_spec_mp now uses rulify_no_asm; * Provers: delrules now handles destruct rules as well (no longer need explicit make_elim); * Provers: Blast_tac now warns of and ignores "weak elimination rules" e.g. [| inj ?f; ?f ?x = ?f ?y; ?x = ?y ==> ?W |] ==> ?W use instead the strong form, [| inj ?f; ~ ?W ==> ?f ?x = ?f ?y; ?x = ?y ==> ?W |] ==> ?W in HOL, FOL and ZF the function cla_make_elim will create such rules from destruct-rules; * Provers: Simplifier.easy_setup provides a fast path to basic Simplifier setup for new object-logics; * Pure: AST translation rules no longer require constant head on LHS; * Pure: improved name spaces: ambiguous output is qualified; support for hiding of names; * system: smart setup of canonical ML_HOME, ISABELLE_INTERFACE, and XSYMBOL_HOME; no longer need to do manual configuration in most situations; * system: compression of ML heaps images may now be controlled via -c option of isabelle and isatool usedir (currently only observed by Poly/ML); * system: isatool installfonts may handle X-Symbol fonts as well (very useful for remote X11); * system: provide TAGS file for Isabelle sources; * ML: infix 'OF' is a version of 'MRS' with more appropriate argument order; * ML: renamed flags Syntax.trace_norm_ast to Syntax.trace_ast; global timing flag supersedes proof_timing and Toplevel.trace; * ML: new combinators |>> and |>>> for incremental transformations with secondary results (e.g. certain theory extensions): * ML: PureThy.add_defs gets additional argument to indicate potential overloading (usually false); * ML: PureThy.add_thms/add_axioms/add_defs now return theorems as results; New in Isabelle99 (October 1999) -------------------------------- *** Overview of INCOMPATIBILITIES (see below for more details) *** * HOL: The THEN and ELSE parts of conditional expressions (if P then x else y) are no longer simplified. (This allows the simplifier to unfold recursive functional programs.) To restore the old behaviour, declare Delcongs [if_weak_cong]; * HOL: Removed the obsolete syntax "Compl A"; use -A for set complement; * HOL: the predicate "inj" is now defined by translation to "inj_on"; * HOL/datatype: mutual_induct_tac no longer exists -- use induct_tac "x_1 ... x_n" instead of mutual_induct_tac ["x_1", ..., "x_n"] * HOL/typedef: fixed type inference for representing set; type arguments now have to occur explicitly on the rhs as type constraints; * ZF: The con_defs part of an inductive definition may no longer refer to constants declared in the same theory; * HOL, ZF: the function mk_cases, generated by the inductive definition package, has lost an argument. To simplify its result, it uses the default simpset instead of a supplied list of theorems. * HOL/List: the constructors of type list are now Nil and Cons; * Simplifier: the type of the infix ML functions setSSolver addSSolver setSolver addSolver is now simpset * solver -> simpset where `solver' is a new abstract type for packaging solvers. A solver is created via mk_solver: string -> (thm list -> int -> tactic) -> solver where the string argument is only a comment. *** Proof tools *** * Provers/Arith/fast_lin_arith.ML contains a functor for creating a decision procedure for linear arithmetic. Currently it is used for types `nat', `int', and `real' in HOL (see below); it can, should and will be instantiated for other types and logics as well. * The simplifier now accepts rewrite rules with flexible heads, eg hom ?f ==> ?f(?x+?y) = ?f ?x + ?f ?y They are applied like any rule with a non-pattern lhs, i.e. by first-order matching. *** General *** * New Isabelle/Isar subsystem provides an alternative to traditional tactical theorem proving; together with the ProofGeneral/isar user interface it offers an interactive environment for developing human readable proof documents (Isar == Intelligible semi-automated reasoning); for further information see isatool doc isar-ref, src/HOL/Isar_examples and http://isabelle.in.tum.de/Isar/ * improved and simplified presentation of theories: better HTML markup (including colors), graph views in several sizes; isatool usedir now provides a proper interface for user theories (via -P option); actual document preparation based on (PDF)LaTeX is available as well (for new-style theories only); see isatool doc system for more information; * native support for Proof General, both for classic Isabelle and Isabelle/Isar; * ML function thm_deps visualizes dependencies of theorems and lemmas, using the graph browser tool; * Isabelle manuals now also available as PDF; * theory loader rewritten from scratch (may not be fully bug-compatible); old loadpath variable has been replaced by show_path, add_path, del_path, reset_path functions; new operations such as update_thy, touch_thy, remove_thy, use/update_thy_only (see also isatool doc ref); * improved isatool install: option -k creates KDE application icon, option -p DIR installs standalone binaries; * added ML_PLATFORM setting (useful for cross-platform installations); more robust handling of platform specific ML images for SML/NJ; * the settings environment is now statically scoped, i.e. it is never created again in sub-processes invoked from isabelle, isatool, or Isabelle; * path element specification '~~' refers to '$ISABELLE_HOME'; * in locales, the "assumes" and "defines" parts may be omitted if empty; * new print_mode "xsymbols" for extended symbol support (e.g. genuine long arrows); * new print_mode "HTML"; * new flag show_tags controls display of tags of theorems (which are basically just comments that may be attached by some tools); * Isamode 2.6 requires patch to accomodate change of Isabelle font mode and goal output format: diff -r Isamode-2.6/elisp/isa-load.el Isamode/elisp/isa-load.el 244c244 < (list (isa-getenv "ISABELLE") "-msymbols" logic-name) --- > (list (isa-getenv "ISABELLE") "-misabelle_font" "-msymbols" logic-name) diff -r Isabelle-2.6/elisp/isa-proofstate.el Isamode/elisp/isa-proofstate.el 181c181 < (defconst proofstate-proofstart-regexp "^Level [0-9]+$" --- > (defconst proofstate-proofstart-regexp "^Level [0-9]+" * function bind_thms stores lists of theorems (cf. bind_thm); * new shorthand tactics ftac, eatac, datac, fatac; * qed (and friends) now accept "" as result name; in that case the theorem is not stored, but proper checks and presentation of the result still apply; * theorem database now also indexes constants "Trueprop", "all", "==>", "=="; thus thms_containing, findI etc. may retrieve more rules; *** HOL *** ** HOL arithmetic ** * There are now decision procedures for linear arithmetic over nat and int: 1. arith_tac copes with arbitrary formulae involving `=', `<', `<=', `+', `-', `Suc', `min', `max' and numerical constants; other subterms are treated as atomic; subformulae not involving type `nat' or `int' are ignored; quantified subformulae are ignored unless they are positive universal or negative existential. The tactic has to be invoked by hand and can be a little bit slow. In particular, the running time is exponential in the number of occurrences of `min' and `max', and `-' on `nat'. 2. fast_arith_tac is a cut-down version of arith_tac: it only takes (negated) (in)equalities among the premises and the conclusion into account (i.e. no compound formulae) and does not know about `min' and `max', and `-' on `nat'. It is fast and is used automatically by the simplifier. NB: At the moment, these decision procedures do not cope with mixed nat/int formulae where the two parts interact, such as `m < n ==> int(m) < int(n)'. * HOL/Numeral provides a generic theory of numerals (encoded efficiently as bit strings); setup for types nat/int/real is in place; INCOMPATIBILITY: since numeral syntax is now polymorphic, rather than int, existing theories and proof scripts may require a few additional type constraints; * integer division and remainder can now be performed on constant arguments; * many properties of integer multiplication, division and remainder are now available; * An interface to the Stanford Validity Checker (SVC) is available through the tactic svc_tac. Propositional tautologies and theorems of linear arithmetic are proved automatically. SVC must be installed separately, and its results must be TAKEN ON TRUST (Isabelle does not check the proofs, but tags any invocation of the underlying oracle). For SVC see http://verify.stanford.edu/SVC * IsaMakefile: the HOL-Real target now builds an actual image; ** HOL misc ** * HOL/Real/HahnBanach: the Hahn-Banach theorem for real vector spaces (in Isabelle/Isar) -- by Gertrud Bauer; * HOL/BCV: generic model of bytecode verification, i.e. data-flow analysis for assembly languages with subtypes; * HOL/TLA (Lamport's Temporal Logic of Actions): major reorganization -- avoids syntactic ambiguities and treats state, transition, and temporal levels more uniformly; introduces INCOMPATIBILITIES due to changed syntax and (many) tactics; * HOL/inductive: Now also handles more general introduction rules such as "ALL y. (y, x) : r --> y : acc r ==> x : acc r"; monotonicity theorems are now maintained within the theory (maintained via the "mono" attribute); * HOL/datatype: Now also handles arbitrarily branching datatypes (using function types) such as datatype 'a tree = Atom 'a | Branch "nat => 'a tree" * HOL/record: record_simproc (part of the default simpset) takes care of selectors applied to updated records; record_split_tac is no longer part of the default claset; update_defs may now be removed from the simpset in many cases; COMPATIBILITY: old behavior achieved by claset_ref () := claset() addSWrapper record_split_wrapper; Delsimprocs [record_simproc] * HOL/typedef: fixed type inference for representing set; type arguments now have to occur explicitly on the rhs as type constraints; * HOL/recdef (TFL): 'congs' syntax now expects comma separated list of theorem names rather than an ML expression; * HOL/defer_recdef (TFL): like recdef but the well-founded relation can be supplied later. Program schemes can be defined, such as "While B C s = (if B s then While B C (C s) else s)" where the well-founded relation can be chosen after B and C have been given. * HOL/List: the constructors of type list are now Nil and Cons; INCOMPATIBILITY: while [] and infix # syntax is still there, of course, ML tools referring to List.list.op # etc. have to be adapted; * HOL_quantifiers flag superseded by "HOL" print mode, which is disabled by default; run isabelle with option -m HOL to get back to the original Gordon/HOL-style output; * HOL/Ord.thy: new bounded quantifier syntax (input only): ALL x<y. P, ALL x<=y. P, EX x<y. P, EX x<=y. P; * HOL basic syntax simplified (more orthogonal): all variants of All/Ex now support plain / symbolic / HOL notation; plain syntax for Eps operator is provided as well: "SOME x. P[x]"; * HOL/Sum.thy: sum_case has been moved to HOL/Datatype; * HOL/Univ.thy: infix syntax <*>, <+>, <**>, <+> eliminated and made thus available for user theories; * HOLCF/IOA/Sequents: renamed 'Cons' to 'Consq' to avoid clash with HOL/List; hardly an INCOMPATIBILITY since '>>' syntax is used all the time; * HOL: new tactic smp_tac: int -> int -> tactic, which applies spec several times and then mp; *** LK *** * the notation <<...>> is now available as a notation for sequences of formulas; * the simplifier is now installed * the axiom system has been generalized (thanks to Soren Heilmann) * the classical reasoner now has a default rule database *** ZF *** * new primrec section allows primitive recursive functions to be given directly (as in HOL) over datatypes and the natural numbers; * new tactics induct_tac and exhaust_tac for induction (or case analysis) over datatypes and the natural numbers; * the datatype declaration of type T now defines the recursor T_rec; * simplification automatically does freeness reasoning for datatype constructors; * automatic type-inference, with AddTCs command to insert new type-checking rules; * datatype introduction rules are now added as Safe Introduction rules to the claset; * the syntax "if P then x else y" is now available in addition to if(P,x,y); *** Internal programming interfaces *** * tuned simplifier trace output; new flag debug_simp; * structures Vartab / Termtab (instances of TableFun) offer efficient tables indexed by indexname_ord / term_ord (compatible with aconv); * AxClass.axclass_tac lost the theory argument; * tuned current_goals_markers semantics: begin / end goal avoids printing empty lines; * removed prs and prs_fn hook, which was broken because it did not include \n in its semantics, forcing writeln to add one uncoditionally; replaced prs_fn by writeln_fn; consider std_output: string -> unit if you really want to output text without newline; * Symbol.output subject to print mode; INCOMPATIBILITY: defaults to plain output, interface builders may have to enable 'isabelle_font' mode to get Isabelle font glyphs as before; * refined token_translation interface; INCOMPATIBILITY: output length now of type real instead of int; * theory loader actions may be traced via new ThyInfo.add_hook interface (see src/Pure/Thy/thy_info.ML); example application: keep your own database of information attached to *whole* theories -- as opposed to intra-theory data slots offered via TheoryDataFun; * proper handling of dangling sort hypotheses (at last!); Thm.strip_shyps and Drule.strip_shyps_warning take care of removing extra sort hypotheses that can be witnessed from the type signature; the force_strip_shyps flag is gone, any remaining shyps are simply left in the theorem (with a warning issued by strip_shyps_warning); New in Isabelle98-1 (October 1998) ---------------------------------- *** Overview of INCOMPATIBILITIES (see below for more details) *** * several changes of automated proof tools; * HOL: major changes to the inductive and datatype packages, including some minor incompatibilities of theory syntax; * HOL: renamed r^-1 to 'converse' from 'inverse'; 'inj_onto' is now called `inj_on'; * HOL: removed duplicate thms in Arith: less_imp_add_less should be replaced by trans_less_add1 le_imp_add_le should be replaced by trans_le_add1 * HOL: unary minus is now overloaded (new type constraints may be required); * HOL and ZF: unary minus for integers is now #- instead of #~. In ZF, expressions such as n#-1 must be changed to n#- 1, since #-1 is now taken as an integer constant. * Pure: ML function 'theory_of' renamed to 'theory'; *** Proof tools *** * Simplifier: 1. Asm_full_simp_tac is now more aggressive. 1. It will sometimes reorient premises if that increases their power to simplify. 2. It does no longer proceed strictly from left to right but may also rotate premises to achieve further simplification. For compatibility reasons there is now Asm_lr_simp_tac which is like the old Asm_full_simp_tac in that it does not rotate premises. 2. The simplifier now knows a little bit about nat-arithmetic. * Classical reasoner: wrapper mechanism for the classical reasoner now allows for selected deletion of wrappers, by introduction of names for wrapper functionals. This implies that addbefore, addSbefore, addaltern, and addSaltern now take a pair (name, tactic) as argument, and that adding two tactics with the same name overwrites the first one (emitting a warning). type wrapper = (int -> tactic) -> (int -> tactic) setWrapper, setSWrapper, compWrapper and compSWrapper are replaced by addWrapper, addSWrapper: claset * (string * wrapper) -> claset delWrapper, delSWrapper: claset * string -> claset getWrapper is renamed to appWrappers, getSWrapper to appSWrappers; * Classical reasoner: addbefore/addSbefore now have APPEND/ORELSE semantics; addbefore now affects only the unsafe part of step_tac etc.; this affects addss/auto_tac/force_tac, so EXISTING PROOFS MAY FAIL, but proofs should be fixable easily, e.g. by replacing Auto_tac by Force_tac; * Classical reasoner: setwrapper to setWrapper and compwrapper to compWrapper; added safe wrapper (and access functions for it); * HOL/split_all_tac is now much faster and fails if there is nothing to split. Some EXISTING PROOFS MAY REQUIRE ADAPTION because the order and the names of the automatically generated variables have changed. split_all_tac has moved within claset() from unsafe wrappers to safe wrappers, which means that !!-bound variables are split much more aggressively, and safe_tac and clarify_tac now split such variables. If this splitting is not appropriate, use delSWrapper "split_all_tac". Note: the same holds for record_split_tac, which does the job of split_all_tac for record fields. * HOL/Simplifier: Rewrite rules for case distinctions can now be added permanently to the default simpset using Addsplits just like Addsimps. They can be removed via Delsplits just like Delsimps. Lower-case versions are also available. * HOL/Simplifier: The rule split_if is now part of the default simpset. This means that the simplifier will eliminate all occurrences of if-then-else in the conclusion of a goal. To prevent this, you can either remove split_if completely from the default simpset by `Delsplits [split_if]' or remove it in a specific call of the simplifier using `... delsplits [split_if]'. You can also add/delete other case splitting rules to/from the default simpset: every datatype generates suitable rules `split_t_case' and `split_t_case_asm' (where t is the name of the datatype). * Classical reasoner / Simplifier combination: new force_tac (and derivatives Force_tac, force) combines rewriting and classical reasoning (and whatever other tools) similarly to auto_tac, but is aimed to solve the given subgoal completely. *** General *** * new top-level commands `Goal' and `Goalw' that improve upon `goal' and `goalw': the theory is no longer needed as an explicit argument - the current theory context is used; assumptions are no longer returned at the ML-level unless one of them starts with ==> or !!; it is recommended to convert to these new commands using isatool fixgoal (backup your sources first!); * new top-level commands 'thm' and 'thms' for retrieving theorems from the current theory context, and 'theory' to lookup stored theories; * new theory section 'locale' for declaring constants, assumptions and definitions that have local scope; * new theory section 'nonterminals' for purely syntactic types; * new theory section 'setup' for generic ML setup functions (e.g. package initialization); * the distribution now includes Isabelle icons: see lib/logo/isabelle-{small,tiny}.xpm; * isatool install - install binaries with absolute references to ISABELLE_HOME/bin; * isatool logo -- create instances of the Isabelle logo (as EPS); * print mode 'emacs' reserved for Isamode; * support multiple print (ast) translations per constant name; * theorems involving oracles are now printed with a suffixed [!]; *** HOL *** * there is now a tutorial on Isabelle/HOL (do 'isatool doc tutorial'); * HOL/inductive package reorganized and improved: now supports mutual definitions such as inductive EVEN ODD intrs null "0 : EVEN" oddI "n : EVEN ==> Suc n : ODD" evenI "n : ODD ==> Suc n : EVEN" new theorem list "elims" contains an elimination rule for each of the recursive sets; inductive definitions now handle disjunctive premises correctly (also ZF); INCOMPATIBILITIES: requires Inductive as an ancestor; component "mutual_induct" no longer exists - the induction rule is always contained in "induct"; * HOL/datatype package re-implemented and greatly improved: now supports mutually recursive datatypes such as datatype 'a aexp = IF_THEN_ELSE ('a bexp) ('a aexp) ('a aexp) | SUM ('a aexp) ('a aexp) | DIFF ('a aexp) ('a aexp) | NUM 'a and 'a bexp = LESS ('a aexp) ('a aexp) | AND ('a bexp) ('a bexp) | OR ('a bexp) ('a bexp) as well as indirectly recursive datatypes such as datatype ('a, 'b) term = Var 'a | App 'b ((('a, 'b) term) list) The new tactic mutual_induct_tac [<var_1>, ..., <var_n>] i performs induction on mutually / indirectly recursive datatypes. Primrec equations are now stored in theory and can be accessed via <function_name>.simps. INCOMPATIBILITIES: - Theories using datatypes must now have theory Datatype as an ancestor. - The specific <typename>.induct_tac no longer exists - use the generic induct_tac instead. - natE has been renamed to nat.exhaust - use exhaust_tac instead of res_inst_tac ... natE. Note that the variable names in nat.exhaust differ from the names in natE, this may cause some "fragile" proofs to fail. - The theorems split_<typename>_case and split_<typename>_case_asm have been renamed to <typename>.split and <typename>.split_asm. - Since default sorts of type variables are now handled correctly, some datatype definitions may have to be annotated with explicit sort constraints. - Primrec definitions no longer require function name and type of recursive argument. Consider using isatool fixdatatype to adapt your theories and proof scripts to the new package (backup your sources first!). * HOL/record package: considerably improved implementation; now includes concrete syntax for record types, terms, updates; theorems for surjective pairing and splitting !!-bound record variables; proof support is as follows: 1) standard conversions (selectors or updates applied to record constructor terms) are part of the standard simpset; 2) inject equations of the form ((x, y) = (x', y')) == x=x' & y=y' are made part of standard simpset and claset via addIffs; 3) a tactic for record field splitting (record_split_tac) is part of the standard claset (addSWrapper); To get a better idea about these rules you may retrieve them via something like 'thms "foo.simps"' or 'thms "foo.iffs"', where "foo" is the name of your record type. The split tactic 3) conceptually simplifies by the following rule: "(!!x. PROP ?P x) == (!!a b. PROP ?P (a, b))" Thus any record variable that is bound by meta-all will automatically blow up into some record constructor term, consequently the simplifications of 1), 2) apply. Thus force_tac, auto_tac etc. shall solve record problems automatically. * reorganized the main HOL image: HOL/Integ and String loaded by default; theory Main includes everything; * automatic simplification of integer sums and comparisons, using cancellation; * added option_map_eq_Some and not_Some_eq to the default simpset and claset; * added disj_not1 = "(~P | Q) = (P --> Q)" to the default simpset; * many new identities for unions, intersections, set difference, etc.; * expand_if, expand_split, expand_sum_case and expand_nat_case are now called split_if, split_split, split_sum_case and split_nat_case (to go with add/delsplits); * HOL/Prod introduces simplification procedure unit_eq_proc rewriting (?x::unit) = (); this is made part of the default simpset, which COULD MAKE EXISTING PROOFS FAIL under rare circumstances (consider 'Delsimprocs [unit_eq_proc];' as last resort); also note that unit_abs_eta_conv is added in order to counter the effect of unit_eq_proc on (%u::unit. f u), replacing it by f rather than by %u.f(); * HOL/Fun INCOMPATIBILITY: `inj_onto' is now called `inj_on' (which makes more sense); * HOL/Set INCOMPATIBILITY: rule `equals0D' is now a well-formed destruct rule; It and 'sym RS equals0D' are now in the default claset, giving automatic disjointness reasoning but breaking a few old proofs. * HOL/Relation INCOMPATIBILITY: renamed the relational operator r^-1 to 'converse' from 'inverse' (for compatibility with ZF and some literature); * HOL/recdef can now declare non-recursive functions, with {} supplied as the well-founded relation; * HOL/Set INCOMPATIBILITY: the complement of set A is now written -A instead of Compl A. The "Compl" syntax remains available as input syntax for this release ONLY. * HOL/Update: new theory of function updates: f(a:=b) == %x. if x=a then b else f x may also be iterated as in f(a:=b,c:=d,...); * HOL/Vimage: new theory for inverse image of a function, syntax f-``B; * HOL/List: - new function list_update written xs[i:=v] that updates the i-th list position. May also be iterated as in xs[i:=a,j:=b,...]. - new function `upt' written [i..j(] which generates the list [i,i+1,...,j-1], i.e. the upper bound is excluded. To include the upper bound write [i..j], which is a shorthand for [i..j+1(]. - new lexicographic orderings and corresponding wellfoundedness theorems. * HOL/Arith: - removed 'pred' (predecessor) function; - generalized some theorems about n-1; - many new laws about "div" and "mod"; - new laws about greatest common divisors (see theory ex/Primes); * HOL/Relation: renamed the relational operator r^-1 "converse" instead of "inverse"; * HOL/Induct/Multiset: a theory of multisets, including the wellfoundedness of the multiset ordering; * directory HOL/Real: a construction of the reals using Dedekind cuts (not included by default); * directory HOL/UNITY: Chandy and Misra's UNITY formalism; * directory HOL/Hoare: a new version of Hoare logic which permits many-sorted programs, i.e. different program variables may have different types. * calling (stac rew i) now fails if "rew" has no effect on the goal [previously, this check worked only if the rewrite rule was unconditional] Now rew can involve either definitions or equalities (either == or =). *** ZF *** * theory Main includes everything; INCOMPATIBILITY: theory ZF.thy contains only the theorems proved on ZF.ML; * ZF INCOMPATIBILITY: rule `equals0D' is now a well-formed destruct rule; It and 'sym RS equals0D' are now in the default claset, giving automatic disjointness reasoning but breaking a few old proofs. * ZF/Update: new theory of function updates with default rewrite rule f(x:=y) ` z = if(z=x, y, f`z) may also be iterated as in f(a:=b,c:=d,...); * in let x=t in u(x), neither t nor u(x) has to be an FOL term. * calling (stac rew i) now fails if "rew" has no effect on the goal [previously, this check worked only if the rewrite rule was unconditional] Now rew can involve either definitions or equalities (either == or =). * case_tac provided for compatibility with HOL (like the old excluded_middle_tac, but with subgoals swapped) *** Internal programming interfaces *** * Pure: several new basic modules made available for general use, see also src/Pure/README; * improved the theory data mechanism to support encapsulation (data kind name replaced by private Object.kind, acting as authorization key); new type-safe user interface via functor TheoryDataFun; generic print_data function becomes basically useless; * removed global_names compatibility flag -- all theory declarations are qualified by default; * module Pure/Syntax now offers quote / antiquote translation functions (useful for Hoare logic etc. with implicit dependencies); see HOL/ex/Antiquote for an example use; * Simplifier now offers conversions (asm_)(full_)rewrite: simpset -> cterm -> thm; * new tactical CHANGED_GOAL for checking that a tactic modifies a subgoal; * Display.print_goals function moved to Locale.print_goals; * standard print function for goals supports current_goals_markers variable for marking begin of proof, end of proof, start of goal; the default is ("", "", ""); setting current_goals_markers := ("<proof>", "</proof>", "<goal>") causes SGML like tagged proof state printing, for example; New in Isabelle98 (January 1998) -------------------------------- *** Overview of INCOMPATIBILITIES (see below for more details) *** * changed lexical syntax of terms / types: dots made part of long identifiers, e.g. "%x.x" no longer possible, should be "%x. x"; * simpset (and claset) reference variable replaced by functions simpset / simpset_ref; * no longer supports theory aliases (via merge) and non-trivial implicit merge of thms' signatures; * most internal names of constants changed due to qualified names; * changed Pure/Sequence interface (see Pure/seq.ML); *** General Changes *** * hierachically structured name spaces (for consts, types, axms, thms etc.); new lexical class 'longid' (e.g. Foo.bar.x) may render much of old input syntactically incorrect (e.g. "%x.x"); COMPATIBILITY: isatool fixdots ensures space after dots (e.g. "%x. x"); set long_names for fully qualified output names; NOTE: ML programs (special tactics, packages etc.) referring to internal names may have to be adapted to cope with fully qualified names; in case of severe backward campatibility problems try setting 'global_names' at compile time to have enrything declared within a flat name space; one may also fine tune name declarations in theories via the 'global' and 'local' section; * reimplemented the implicit simpset and claset using the new anytype data filed in signatures; references simpset:simpset ref etc. are replaced by functions simpset:unit->simpset and simpset_ref:unit->simpset ref; COMPATIBILITY: use isatool fixclasimp to patch your ML files accordingly; * HTML output now includes theory graph data for display with Java applet or isatool browser; data generated automatically via isatool usedir (see -i option, ISABELLE_USEDIR_OPTIONS); * defs may now be conditional; improved rewrite_goals_tac to handle conditional equations; * defs now admits additional type arguments, using TYPE('a) syntax; * theory aliases via merge (e.g. M=A+B+C) no longer supported, always creates a new theory node; implicit merge of thms' signatures is restricted to 'trivial' ones; COMPATIBILITY: one may have to use transfer:theory->thm->thm in (rare) cases; * improved handling of draft signatures / theories; draft thms (and ctyps, cterms) are automatically promoted to real ones; * slightly changed interfaces for oracles: admit many per theory, named (e.g. oracle foo = mlfun), additional name argument for invoke_oracle; * print_goals: optional output of const types (set show_consts and show_types); * improved output of warnings (###) and errors (***); * subgoal_tac displays a warning if the new subgoal has type variables; * removed old README and Makefiles; * replaced print_goals_ref hook by print_current_goals_fn and result_error_fn; * removed obsolete init_pps and init_database; * deleted the obsolete tactical STATE, which was declared by fun STATE tacfun st = tacfun st st; * cd and use now support path variables, e.g. $ISABELLE_HOME, or ~ (which abbreviates $HOME); * changed Pure/Sequence interface (see Pure/seq.ML); COMPATIBILITY: use isatool fixseq to adapt your ML programs (this works for fully qualified references to the Sequence structure only!); * use_thy no longer requires writable current directory; it always reloads .ML *and* .thy file, if either one is out of date; *** Classical Reasoner *** * Clarify_tac, clarify_tac, clarify_step_tac, Clarify_step_tac: new tactics that use classical reasoning to simplify a subgoal without splitting it into several subgoals; * Safe_tac: like safe_tac but uses the default claset; *** Simplifier *** * added simplification meta rules: (asm_)(full_)simplify: simpset -> thm -> thm; * simplifier.ML no longer part of Pure -- has to be loaded by object logics (again); * added prems argument to simplification procedures; * HOL, FOL, ZF: added infix function `addsplits': instead of `<simpset> setloop (split_tac <thms>)' you can simply write `<simpset> addsplits <thms>' *** Syntax *** * TYPE('a) syntax for type reflection terms; * no longer handles consts with name "" -- declare as 'syntax' instead; * pretty printer: changed order of mixfix annotation preference (again!); * Pure: fixed idt/idts vs. pttrn/pttrns syntactic categories; *** HOL *** * HOL: there is a new splitter `split_asm_tac' that can be used e.g. with `addloop' of the simplifier to faciliate case splitting in premises. * HOL/TLA: Stephan Merz's formalization of Lamport's Temporal Logic of Actions; * HOL/Auth: new protocol proofs including some for the Internet protocol TLS; * HOL/Map: new theory of `maps' a la VDM; * HOL/simplifier: simplification procedures nat_cancel_sums for cancelling out common nat summands from =, <, <= (in)equalities, or differences; simplification procedures nat_cancel_factor for cancelling common factor from =, <, <= (in)equalities over natural sums; nat_cancel contains both kinds of procedures, it is installed by default in Arith.thy -- this COULD MAKE EXISTING PROOFS FAIL; * HOL/simplifier: terms of the form `? x. P1(x) & ... & Pn(x) & x=t & Q1(x) & ... Qn(x)' (or t=x) are rewritten to `P1(t) & ... & Pn(t) & Q1(t) & ... Qn(t)', and those of the form `! x. P1(x) & ... & Pn(x) & x=t & Q1(x) & ... Qn(x) --> R(x)' (or t=x) are rewritten to `P1(t) & ... & Pn(t) & Q1(t) & ... Qn(t) --> R(t)', * HOL/datatype Each datatype `t' now comes with a theorem `split_t_case' of the form P(t_case f1 ... fn x) = ( (!y1 ... ym1. x = C1 y1 ... ym1 --> P(f1 y1 ... ym1)) & ... (!y1 ... ymn. x = Cn y1 ... ymn --> P(f1 y1 ... ymn)) ) and a theorem `split_t_case_asm' of the form P(t_case f1 ... fn x) = ~( (? y1 ... ym1. x = C1 y1 ... ym1 & ~P(f1 y1 ... ym1)) | ... (? y1 ... ymn. x = Cn y1 ... ymn & ~P(f1 y1 ... ymn)) ) which can be added to a simpset via `addsplits'. The existing theorems expand_list_case and expand_option_case have been renamed to split_list_case and split_option_case. * HOL/Arithmetic: - `pred n' is automatically converted to `n-1'. Users are strongly encouraged not to use `pred' any longer, because it will disappear altogether at some point. - Users are strongly encouraged to write "0 < n" rather than "n ~= 0". Theorems and proof tools have been modified towards this `standard'. * HOL/Lists: the function "set_of_list" has been renamed "set" (and its theorems too); the function "nth" now takes its arguments in the reverse order and has acquired the infix notation "!" as in "xs!n". * HOL/Set: UNIV is now a constant and is no longer translated to Compl{}; * HOL/Set: The operator (UN x.B x) now abbreviates (UN x:UNIV. B x) and its specialist theorems (like UN1_I) are gone. Similarly for (INT x.B x); * HOL/record: extensible records with schematic structural subtyping (single inheritance); EXPERIMENTAL version demonstrating the encoding, still lacks various theorems and concrete record syntax; *** HOLCF *** * removed "axioms" and "generated by" sections; * replaced "ops" section by extended "consts" section, which is capable of handling the continuous function space "->" directly; * domain package: . proves theorems immediately and stores them in the theory, . creates hierachical name space, . now uses normal mixfix annotations (instead of cinfix...), . minor changes to some names and values (for consistency), . e.g. cases -> casedist, dists_eq -> dist_eqs, [take_lemma] -> take_lemmas, . separator between mutual domain defs: changed "," to "and", . improved handling of sort constraints; now they have to appear on the left-hand side of the equations only; * fixed LAM <x,y,zs>.b syntax; * added extended adm_tac to simplifier in HOLCF -- can now discharge adm (%x. P (t x)), where P is chainfinite and t continuous; *** FOL and ZF *** * FOL: there is a new splitter `split_asm_tac' that can be used e.g. with `addloop' of the simplifier to faciliate case splitting in premises. * qed_spec_mp, qed_goal_spec_mp, qed_goalw_spec_mp are available, as in HOL, they strip ALL and --> from proved theorems; New in Isabelle94-8 (May 1997) ------------------------------ *** General Changes *** * new utilities to build / run / maintain Isabelle etc. (in parts still somewhat experimental); old Makefiles etc. still functional; * new 'Isabelle System Manual'; * INSTALL text, together with ./configure and ./build scripts; * reimplemented type inference for greater efficiency, better error messages and clean internal interface; * prlim command for dealing with lots of subgoals (an easier way of setting goals_limit); *** Syntax *** * supports alternative (named) syntax tables (parser and pretty printer); internal interface is provided by add_modesyntax(_i); * Pure, FOL, ZF, HOL, HOLCF now support symbolic input and output; to be used in conjunction with the Isabelle symbol font; uses the "symbols" syntax table; * added token_translation interface (may translate name tokens in arbitrary ways, dependent on their type (free, bound, tfree, ...) and the current print_mode); IMPORTANT: user print translation functions are responsible for marking newly introduced bounds (Syntax.mark_boundT); * token translations for modes "xterm" and "xterm_color" that display names in bold, underline etc. or colors (which requires a color version of xterm); * infixes may now be declared with names independent of their syntax; * added typed_print_translation (like print_translation, but may access type of constant); *** Classical Reasoner *** Blast_tac: a new tactic! It is often more powerful than fast_tac, but has some limitations. Blast_tac... + ignores addss, addbefore, addafter; this restriction is intrinsic + ignores elimination rules that don't have the correct format (the conclusion MUST be a formula variable) + ignores types, which can make HOL proofs fail + rules must not require higher-order unification, e.g. apply_type in ZF [message "Function Var's argument not a bound variable" relates to this] + its proof strategy is more general but can actually be slower * substitution with equality assumptions no longer permutes other assumptions; * minor changes in semantics of addafter (now called addaltern); renamed setwrapper to setWrapper and compwrapper to compWrapper; added safe wrapper (and access functions for it); * improved combination of classical reasoner and simplifier: + functions for handling clasimpsets + improvement of addss: now the simplifier is called _after_ the safe steps. + safe variant of addss called addSss: uses safe simplifications _during_ the safe steps. It is more complete as it allows multiple instantiations of unknowns (e.g. with slow_tac). *** Simplifier *** * added interface for simplification procedures (functions that produce *proven* rewrite rules on the fly, depending on current redex); * ordering on terms as parameter (used for ordered rewriting); * new functions delcongs, deleqcongs, and Delcongs. richer rep_ss; * the solver is now split into a safe and an unsafe part. This should be invisible for the normal user, except that the functions setsolver and addsolver have been renamed to setSolver and addSolver; added safe_asm_full_simp_tac; *** HOL *** * a generic induction tactic `induct_tac' which works for all datatypes and also for type `nat'; * a generic case distinction tactic `exhaust_tac' which works for all datatypes and also for type `nat'; * each datatype comes with a function `size'; * patterns in case expressions allow tuple patterns as arguments to constructors, for example `case x of [] => ... | (x,y,z)#ps => ...'; * primrec now also works with type nat; * recdef: a new declaration form, allows general recursive functions to be defined in theory files. See HOL/ex/Fib, HOL/ex/Primes, HOL/Subst/Unify. * the constant for negation has been renamed from "not" to "Not" to harmonize with FOL, ZF, LK, etc.; * HOL/ex/LFilter theory of a corecursive "filter" functional for infinite lists; * HOL/Modelcheck demonstrates invocation of model checker oracle; * HOL/ex/Ring.thy declares cring_simp, which solves equational problems in commutative rings, using axiomatic type classes for + and *; * more examples in HOL/MiniML and HOL/Auth; * more default rewrite rules for quantifiers, union/intersection; * a new constant `arbitrary == @x.False'; * HOLCF/IOA replaces old HOL/IOA; * HOLCF changes: derived all rules and arities + axiomatic type classes instead of classes + typedef instead of faking type definitions + eliminated the internal constants less_fun, less_cfun, UU_fun, UU_cfun etc. + new axclasses cpo, chfin, flat with flat < chfin < pcpo < cpo < po + eliminated the types void, one, tr + use unit lift and bool lift (with translations) instead of one and tr + eliminated blift from Lift3.thy (use Def instead of blift) all eliminated rules are derived as theorems --> no visible changes ; *** ZF *** * ZF now has Fast_tac, Simp_tac and Auto_tac. Union_iff is a now a default rewrite rule; this may affect some proofs. eq_cs is gone but can be put back as ZF_cs addSIs [equalityI]; New in Isabelle94-7 (November 96) --------------------------------- * allowing negative levels (as offsets) in prlev and choplev; * super-linear speedup for large simplifications; * FOL, ZF and HOL now use miniscoping: rewriting pushes quantifications in as far as possible (COULD MAKE EXISTING PROOFS FAIL); can suppress it using the command Delsimps (ex_simps @ all_simps); De Morgan laws are also now included, by default; * improved printing of ==> : ~: * new object-logic "Sequents" adds linear logic, while replacing LK and Modal (thanks to Sara Kalvala); * HOL/Auth: correctness proofs for authentication protocols; * HOL: new auto_tac combines rewriting and classical reasoning (many examples on HOL/Auth); * HOL: new command AddIffs for declaring theorems of the form P=Q to the rewriter and classical reasoner simultaneously; * function uresult no longer returns theorems in "standard" format; regain previous version by: val uresult = standard o uresult; New in Isabelle94-6 ------------------- * oracles -- these establish an interface between Isabelle and trusted external reasoners, which may deliver results as theorems; * proof objects (in particular record all uses of oracles); * Simp_tac, Fast_tac, etc. that refer to implicit simpset / claset; * "constdefs" section in theory files; * "primrec" section (HOL) no longer requires names; * internal type "tactic" now simply "thm -> thm Sequence.seq"; New in Isabelle94-5 ------------------- * reduced space requirements; * automatic HTML generation from theories; * theory files no longer require "..." (quotes) around most types; * new examples, including two proofs of the Church-Rosser theorem; * non-curried (1994) version of HOL is no longer distributed; New in Isabelle94-4 ------------------- * greatly reduced space requirements; * theory files (.thy) no longer require \...\ escapes at line breaks; * searchable theorem database (see the section "Retrieving theorems" on page 8 of the Reference Manual); * new examples, including Grabczewski's monumental case study of the Axiom of Choice; * The previous version of HOL renamed to Old_HOL; * The new version of HOL (previously called CHOL) uses a curried syntax for functions. Application looks like f a b instead of f(a,b); * Mutually recursive inductive definitions finally work in HOL; * In ZF, pattern-matching on tuples is now available in all abstractions and translates to the operator "split"; New in Isabelle94-3 ------------------- * new infix operator, addss, allowing the classical reasoner to perform simplification at each step of its search. Example: fast_tac (cs addss ss) * a new logic, CHOL, the same as HOL, but with a curried syntax for functions. Application looks like f a b instead of f(a,b). Also pairs look like (a,b) instead of <a,b>; * PLEASE NOTE: CHOL will eventually replace HOL! * In CHOL, pattern-matching on tuples is now available in all abstractions. It translates to the operator "split". A new theory of integers is available; * In ZF, integer numerals now denote two's-complement binary integers. Arithmetic operations can be performed by rewriting. See ZF/ex/Bin.ML; * Many new examples: I/O automata, Church-Rosser theorem, equivalents of the Axiom of Choice; New in Isabelle94-2 ------------------- * Significantly faster resolution; * the different sections in a .thy file can now be mixed and repeated freely; * Database of theorems for FOL, HOL and ZF. New commands including qed, qed_goal and bind_thm store theorems in the database. * Simple database queries: return a named theorem (get_thm) or all theorems of a given theory (thms_of), or find out what theory a theorem was proved in (theory_of_thm); * Bugs fixed in the inductive definition and datatype packages; * The classical reasoner provides deepen_tac and depth_tac, making FOL_dup_cs and HOL_dup_cs obsolete; * Syntactic ambiguities caused by the new treatment of syntax in Isabelle94-1 have been removed; * Simpler definition of function space in ZF; * new results about cardinal and ordinal arithmetic in ZF; * 'subtype' facility in HOL for introducing new types as subsets of existing types; :mode=text:wrap=hard:maxLineLen=72: