NEWS
author wenzelm
Wed Mar 19 18:15:25 2008 +0100 (2008-03-19)
changeset 26335 961bbcc9d85b
parent 26333 68e5eee47a45
child 26355 9276633fdc24
permissions -rw-r--r--
removed redundant Nat.less_not_sym, Nat.less_asym;
renamed Nat.less_irrefl to less_irrefl_nat, no longer declared elim;
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Isabelle NEWS -- history user-relevant changes
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==============================================
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New in this Isabelle version
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----------------------------
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*** General ***
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* Syntax: symbol \<chi> is now considered a letter.  Potential
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INCOMPATIBILITY in identifier syntax etc.
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* Outer syntax: string tokens may contain arbitrary character codes
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specified via 3 decimal digits (as in SML).  E.g. "foo\095bar" for
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"foo_bar".
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* Outer syntax: string tokens no longer admit escaped white space,
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which was an accidental (undocumented) feature.  INCOMPATIBILITY, use
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white space directly.
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* Theory loader: use_thy (and similar operations) no longer set the
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implicit ML context, which was occasionally hard to predict and in
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conflict with concurrency.  INCOMPATIBILITY, use ML within Isar which
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provides a proper context already.
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* Theory loader: old-style ML proof scripts being *attached* to a thy
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file are no longer supported.  INCOMPATIBILITY, regular 'uses' and
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'use' within a theory file will do the job.
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*** Pure ***
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* Instantiation target allows for simultaneous specification of class
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instance operations together with an instantiation proof.
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Type-checking phase allows to refer to class operations uniformly.
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See HOL/Complex/Complex.thy for an Isar example and
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HOL/Library/Eval.thy for an ML example.
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* Indexing of literal facts: be more serious about including only
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facts from the visible specification/proof context, but not the
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background context (locale etc.).  Affects `prop` notation and method
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"fact".  INCOMPATIBILITY: need to name facts explicitly in rare
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situations.
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*** HOL ***
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* Theory Nat: removed redundant lemmas that merely duplicate lemmas of
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the same name in theory Orderings:
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  less_trans
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  less_linear
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  le_imp_less_or_eq
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  le_less_trans
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  less_le_trans
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  less_not_sym
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  less_asym
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Renamed less_imp_le to less_imp_le_nat, and less_irrefl to
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less_irrefl_nat.  Potential INCOMPATIBILITY due to more general types
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and different variable names.
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* Library/Option_ord.thy: Canonical order on option type.
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* Library/RBT.thy: New theory of red-black trees, an efficient
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implementation of finite maps.
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* Library/Countable.thy: Type class for countable types.
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* Theory Int: The representation of numerals has changed.  The infix
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operator BIT and the bit datatype with constructors B0 and B1 have
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disappeared.  INCOMPATIBILITY, use "Int.Bit0 x" and "Int.Bit1 y" in
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place of "x BIT bit.B0" and "y BIT bit.B1", respectively.  Theorems
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involving BIT, B0, or B1 have been renamed with "Bit0" or "Bit1"
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accordingly.
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* Theory Nat: definition of <= and < on natural numbers no longer
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depend on well-founded relations.  INCOMPATIBILITY.  Definitions
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le_def and less_def have disappeared.  Consider lemmas not_less
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[symmetric, where ?'a = nat] and less_eq [symmetric] instead.
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* Theory Finite_Set: locales ACf, ACe, ACIf, ACIfSL and ACIfSLlin
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(whose purpose mainly is for various fold_set functionals) have been
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abandoned in favour of the existing algebraic classes
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ab_semigroup_mult, comm_monoid_mult, ab_semigroup_idem_mult,
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lower_semilattice (resp. upper_semilattice) and linorder.
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INCOMPATIBILITY.
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* Theory Transitive_Closure: induct and cases rules now declare proper
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case_names ("base" and "step").  INCOMPATIBILITY.
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* Theorem Inductive.lfp_ordinal_induct generalized to complete
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lattices.  The form set-specific version is available as
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Inductive.lfp_ordinal_induct_set.
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* Theorems "power.simps" renamed to "power_int.simps".
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* Class semiring_div provides basic abstract properties of semirings
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with division and modulo operations.  Subsumes former class dvd_mod.
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* Merged theories IntDef, Numeral and IntArith into unified theory
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Int.  INCOMPATIBILITY.
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* Theory Library/Code_Index: type "index" now represents natural
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numbers rather than integers.  INCOMPATIBILITY.
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* New class "uminus" with operation "uminus" (split of from class
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"minus" which now only has operation "minus", binary).
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INCOMPATIBILITY.
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* New primrec package.  Specification syntax conforms in style to
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definition/function/....  No separate induction rule is provided.  The
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"primrec" command distinguishes old-style and new-style specifications
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by syntax.  The former primrec package is now named OldPrimrecPackage.
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When adjusting theories, beware: constants stemming for new-style
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primrec specifications have authentic syntax.
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* Library/Multiset: {#a, b, c#} abbreviates {#a#} + {#b#} + {#c#}.
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* Library/ListVector: new theory of arithmetic vector operations.
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* Constants "card", "internal_split", "option_map" now with authentic
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syntax.  INCOMPATIBILITY.
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* Definitions subset_def, psubset_def, set_diff_def, Compl_def,
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le_bool_def, less_bool_def, le_fun_def, less_fun_def, inf_bool_def,
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sup_bool_def, Inf_bool_def, Sup_bool_def, inf_fun_def, sup_fun_def,
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Inf_fun_def, Sup_fun_def, inf_set_def, sup_set_def, Inf_set_def,
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Sup_set_def, le_def, less_def, option_map_def now with object
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equality.  INCOMPATIBILITY.
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* Method "induction_scheme" derives user-specified induction rules
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from wellfounded induction and completeness of patterns. This factors
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out some operations that are done internally by the function package
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and makes them available separately. See "HOL/ex/Induction_Scheme.thy"
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for examples,
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* Records. Removed K_record, and replaced it by pure lambda term
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%x. c. The simplifier setup is now more robust against eta expansion.
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INCOMPATIBILITY: in cases explicitly referring to K_record.
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* Metis prover is now an order of magnitude faster, and also works
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with multithreading.
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* Sledgehammer no longer produces structured proofs by default. To enable, 
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declare [[sledgehammer_full = true]]. Attributes reconstruction_modulus,  
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reconstruction_sorts renamed sledgehammer_modulus, sledgehammer_sorts. 
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INCOMPATIBILITY.
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*** ZF ***
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* Renamed theories:
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  Datatype.thy  -> Datatype_ZF.thy
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  Inductive.thy -> Inductive_ZF.thy
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  Int.thy       -> Int_ZF.thy
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  IntDiv.thy    -> IntDiv_ZF.thy
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  Nat.thy       -> Nat_ZF.thy
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  List.thy      -> List_ZF.thy
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  Main.thy      -> Main_ZF.thy
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 This is to allow to load both ZF and HOL in the same session.
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 INCOMPATIBILITY: ZF theories that import individual theories below
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 Main might need to be adapted. For compatibility, a new 
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 "theory Main imports Main_ZF begin end" is provided, so if you just
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 imported "Main", no changes are needed.
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*** ML ***
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* ML within Isar: antiquotation @{const name} or @{const
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name(typargs)} produces statically-checked Const term.
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* The ``print mode'' is now a thread-local value derived from a global
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template (the former print_mode reference), thus access becomes
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non-critical.  The global print_mode reference is for session
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management only; user-code should use print_mode_value,
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print_mode_active, PrintMode.setmp etc.  INCOMPATIBILITY.
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* system/system_out provides a robust way to invoke external shell
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commands, with propagation of interrupts (after Poly/ML 5.2).  Do not
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use OS.Process.system etc. directly.
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*** System ***
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* System: removed obsolete THIS_IS_ISABELLE_BUILD feature.  NB: the
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documented way of changing the user's settings is via
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ISABELLE_HOME_USER/etc/settings, which is a fully featured bash
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script.
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* Default settings: PROOFGENERAL_OPTIONS no longer impose xemacs ---
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in accordance with Proof General 3.7, which prefers GNU emacs.
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* Multithreading.max_threads := 0 refers to the number of actual CPU
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cores of the underlying machine, which is a good starting point for
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optimal performance tuning.  The corresponding usedir option -M allows
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"max" as an alias for "0".  WARNING: does not work on certain versions
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of Mac OS (with Poly/ML 5.1).
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* isatool tty runs Isabelle process with plain tty interaction;
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optional line editor may be specified via ISABELLE_LINE_EDITOR
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setting, the default settings attempt to locate "ledit" and "rlwrap".
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* isatool browser now works with Cygwin as well, using general
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"javapath" function defined in Isabelle process environment.
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* isabelle-process: non-ML sessions are run with "nice", to prevent
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Isabelle from flooding interactive front-ends (notably ProofGeneral /
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XEmacs).
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* JVM class isabelle.IsabelleProcess (located in Isabelle/lib/classes)
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provides general wrapper for managing an Isabelle process in a robust
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fashion, with ``cooked'' output from stdin/stderr.
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* Rudimentary Isabelle plugin for jEdit (see Isabelle/lib/jedit),
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based on Isabelle/JVM process wrapper (see Isabelle/lib/classes).
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New in Isabelle2007 (November 2007)
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-----------------------------------
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*** General ***
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* More uniform information about legacy features, notably a
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warning/error of "Legacy feature: ...", depending on the state of the
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tolerate_legacy_features flag (default true). FUTURE INCOMPATIBILITY:
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legacy features will disappear eventually.
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* Theory syntax: the header format ``theory A = B + C:'' has been
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discontinued in favour of ``theory A imports B C begin''.  Use isatool
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fixheaders to convert existing theory files.  INCOMPATIBILITY.
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* Theory syntax: the old non-Isar theory file format has been
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discontinued altogether.  Note that ML proof scripts may still be used
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with Isar theories; migration is usually quite simple with the ML
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function use_legacy_bindings.  INCOMPATIBILITY.
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* Theory syntax: some popular names (e.g. 'class', 'declaration',
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'fun', 'help', 'if') are now keywords.  INCOMPATIBILITY, use double
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quotes.
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* Theory loader: be more serious about observing the static theory
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header specifications (including optional directories), but not the
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accidental file locations of previously successful loads.  The strict
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update policy of former update_thy is now already performed by
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use_thy, so the former has been removed; use_thys updates several
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theories simultaneously, just as 'imports' within a theory header
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specification, but without merging the results.  Potential
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INCOMPATIBILITY: may need to refine theory headers and commands
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ROOT.ML which depend on load order.
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* Theory loader: optional support for content-based file
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identification, instead of the traditional scheme of full physical
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path plus date stamp; configured by the ISABELLE_FILE_IDENT setting
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(cf. the system manual).  The new scheme allows to work with
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non-finished theories in persistent session images, such that source
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files may be moved later on without requiring reloads.
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* Theory loader: old-style ML proof scripts being *attached* to a thy
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file (with the same base name as the theory) are considered a legacy
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feature, which will disappear eventually. Even now, the theory loader
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no longer maintains dependencies on such files.
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* Syntax: the scope for resolving ambiguities via type-inference is
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now limited to individual terms, instead of whole simultaneous
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specifications as before. This greatly reduces the complexity of the
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syntax module and improves flexibility by separating parsing and
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type-checking. INCOMPATIBILITY: additional type-constraints (explicit
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'fixes' etc.) are required in rare situations.
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* Syntax: constants introduced by new-style packages ('definition',
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'abbreviation' etc.) are passed through the syntax module in
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``authentic mode''. This means that associated mixfix annotations
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really stick to such constants, independently of potential name space
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ambiguities introduced later on. INCOMPATIBILITY: constants in parse
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trees are represented slightly differently, may need to adapt syntax
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translations accordingly. Use CONST marker in 'translations' and
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@{const_syntax} antiquotation in 'parse_translation' etc.
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* Legacy goal package: reduced interface to the bare minimum required
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to keep existing proof scripts running.  Most other user-level
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functions are now part of the OldGoals structure, which is *not* open
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by default (consider isatool expandshort before open OldGoals).
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Removed top_sg, prin, printyp, pprint_term/typ altogether, because
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these tend to cause confusion about the actual goal (!) context being
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used here, which is not necessarily the same as the_context().
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* Command 'find_theorems': supports "*" wild-card in "name:"
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criterion; "with_dups" option.  Certain ProofGeneral versions might
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support a specific search form (see ProofGeneral/CHANGES).
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* The ``prems limit'' option (cf. ProofContext.prems_limit) is now -1
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by default, which means that "prems" (and also "fixed variables") are
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suppressed from proof state output.  Note that the ProofGeneral
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settings mechanism allows to change and save options persistently, but
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older versions of Isabelle will fail to start up if a negative prems
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limit is imposed.
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* Local theory targets may be specified by non-nested blocks of
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``context/locale/class ... begin'' followed by ``end''.  The body may
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contain definitions, theorems etc., including any derived mechanism
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that has been implemented on top of these primitives.  This concept
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generalizes the existing ``theorem (in ...)'' towards more versatility
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and scalability.
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* Proof General interface: proper undo of final 'end' command;
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discontinued Isabelle/classic mode (ML proof scripts).
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*** Document preparation ***
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* Added antiquotation @{theory name} which prints the given name,
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after checking that it refers to a valid ancestor theory in the
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current context.
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* Added antiquotations @{ML_type text} and @{ML_struct text} which
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check the given source text as ML type/structure, printing verbatim.
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* Added antiquotation @{abbrev "c args"} which prints the abbreviation
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"c args == rhs" given in the current context.  (Any number of
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arguments may be given on the LHS.)
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*** Pure ***
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* The 'class' package offers a combination of axclass and locale to
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achieve Haskell-like type classes in Isabelle.  Definitions and
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theorems within a class context produce both relative results (with
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implicit parameters according to the locale context), and polymorphic
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constants with qualified polymorphism (according to the class
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context).  Within the body context of a 'class' target, a separate
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syntax layer ("user space type system") takes care of converting
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between global polymorphic consts and internal locale representation.
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See src/HOL/ex/Classpackage.thy for examples (as well as main HOL).
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"isatool doc classes" provides a tutorial.
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* Generic code generator framework allows to generate executable
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code for ML and Haskell (including Isabelle classes).  A short usage
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sketch:
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    internal compilation:
haftmann@25199
   344
        export_code <list of constants (term syntax)> in SML
haftmann@20453
   345
    writing SML code to a file:
haftmann@25199
   346
        export_code <list of constants (term syntax)> in SML <filename>
haftmann@22735
   347
    writing OCaml code to a file:
haftmann@25199
   348
        export_code <list of constants (term syntax)> in OCaml <filename>
haftmann@20188
   349
    writing Haskell code to a bunch of files:
haftmann@25199
   350
        export_code <list of constants (term syntax)> in Haskell <filename>
haftmann@25199
   351
haftmann@25199
   352
    evaluating closed propositions to True/False using code generation:
haftmann@25184
   353
        method ``eval''
haftmann@25184
   354
haftmann@25184
   355
Reasonable default setup of framework in HOL.
haftmann@20453
   356
haftmann@20453
   357
Theorem attributs for selecting and transforming function equations theorems:
haftmann@20453
   358
haftmann@22845
   359
    [code fun]:        select a theorem as function equation for a specific constant
haftmann@22845
   360
    [code fun del]:    deselect a theorem as function equation for a specific constant
haftmann@22845
   361
    [code inline]:     select an equation theorem for unfolding (inlining) in place
haftmann@22845
   362
    [code inline del]: deselect an equation theorem for unfolding (inlining) in place
haftmann@20453
   363
haftmann@22735
   364
User-defined serializations (target in {SML, OCaml, Haskell}):
haftmann@20453
   365
haftmann@20453
   366
    code_const <and-list of constants (term syntax)>
haftmann@20453
   367
      {(target) <and-list of const target syntax>}+
haftmann@20453
   368
haftmann@20453
   369
    code_type <and-list of type constructors>
haftmann@20453
   370
      {(target) <and-list of type target syntax>}+
haftmann@20453
   371
haftmann@20453
   372
    code_instance <and-list of instances>
haftmann@20453
   373
      {(target)}+
haftmann@20453
   374
        where instance ::= <type constructor> :: <class>
haftmann@20453
   375
haftmann@20453
   376
    code_class <and_list of classes>
haftmann@20453
   377
      {(target) <and-list of class target syntax>}+
haftmann@20453
   378
        where class target syntax ::= <class name> {where {<classop> == <target syntax>}+}?
haftmann@20453
   379
haftmann@25199
   380
code_instance and code_class only are effective to target Haskell.
haftmann@22735
   381
wenzelm@25177
   382
For example usage see src/HOL/ex/Codegenerator.thy and
wenzelm@25177
   383
src/HOL/ex/Codegenerator_Pretty.thy.  A separate tutorial on code
wenzelm@24800
   384
generation from Isabelle/HOL theories is available via "isatool doc
wenzelm@24800
   385
codegen".
haftmann@20188
   386
wenzelm@25129
   387
* Code generator: consts in 'consts_code' Isar commands are now
wenzelm@25129
   388
referred to by usual term syntax (including optional type
wenzelm@25129
   389
annotations).
wenzelm@25129
   390
wenzelm@19254
   391
* Command 'no_translations' removes translation rules from theory
wenzelm@19254
   392
syntax.
wenzelm@19254
   393
wenzelm@19625
   394
* Overloaded definitions are now actually checked for acyclic
wenzelm@19714
   395
dependencies.  The overloading scheme is slightly more general than
wenzelm@19714
   396
that of Haskell98, although Isabelle does not demand an exact
wenzelm@19714
   397
correspondence to type class and instance declarations.
wenzelm@19714
   398
INCOMPATIBILITY, use ``defs (unchecked overloaded)'' to admit more
wenzelm@19714
   399
exotic versions of overloading -- at the discretion of the user!
wenzelm@19711
   400
wenzelm@19711
   401
Polymorphic constants are represented via type arguments, i.e. the
wenzelm@19711
   402
instantiation that matches an instance against the most general
wenzelm@19711
   403
declaration given in the signature.  For example, with the declaration
wenzelm@19711
   404
c :: 'a => 'a => 'a, an instance c :: nat => nat => nat is represented
wenzelm@19711
   405
as c(nat).  Overloading is essentially simultaneous structural
wenzelm@19711
   406
recursion over such type arguments.  Incomplete specification patterns
wenzelm@19714
   407
impose global constraints on all occurrences, e.g. c('a * 'a) on the
wenzelm@19715
   408
LHS means that more general c('a * 'b) will be disallowed on any RHS.
wenzelm@19714
   409
Command 'print_theory' outputs the normalized system of recursive
wenzelm@19714
   410
equations, see section "definitions".
wenzelm@19625
   411
wenzelm@24086
   412
* Configuration options are maintained within the theory or proof
wenzelm@24086
   413
context (with name and type bool/int/string), providing a very simple
wenzelm@24086
   414
interface to a poor-man's version of general context data.  Tools may
wenzelm@24110
   415
declare options in ML (e.g. using Attrib.config_int) and then refer to
wenzelm@24110
   416
these values using Config.get etc.  Users may change options via an
wenzelm@24110
   417
associated attribute of the same name.  This form of context
wenzelm@24110
   418
declaration works particularly well with commands 'declare' or
wenzelm@24110
   419
'using', for example ``declare [[foo = 42]]''.  Thus it has become
wenzelm@24110
   420
very easy to avoid global references, which would not observe Isar
wenzelm@24110
   421
toplevel undo/redo and fail to work with multithreading.
wenzelm@24086
   422
wenzelm@24172
   423
Various global ML references of Pure and HOL have been turned into
wenzelm@24172
   424
configuration options:
wenzelm@24172
   425
wenzelm@24172
   426
  Unify.search_bound		unify_search_bound
wenzelm@24172
   427
  Unify.trace_bound		unify_trace_bound
wenzelm@24172
   428
  Unify.trace_simp		unify_trace_simp
wenzelm@24172
   429
  Unify.trace_types		unify_trace_types
wenzelm@24172
   430
  Simplifier.simp_depth_limit	simp_depth_limit
wenzelm@24172
   431
  Blast.depth_limit		blast_depth_limit
wenzelm@24172
   432
  DatatypeProp.dtK		datatype_distinctness_limit
wenzelm@24172
   433
  fast_arith_neq_limit  	fast_arith_neq_limit
wenzelm@24172
   434
  fast_arith_split_limit	fast_arith_split_limit
wenzelm@24172
   435
wenzelm@24086
   436
* Named collections of theorems may be easily installed as context
wenzelm@24800
   437
data using the functor NamedThmsFun (see also
wenzelm@24086
   438
src/Pure/Tools/named_thms.ML).  The user may add or delete facts via
wenzelm@24110
   439
attributes; there is also a toplevel print command.  This facility is
wenzelm@24110
   440
just a common case of general context data, which is the preferred way
wenzelm@24110
   441
for anything more complex than just a list of facts in canonical
wenzelm@24110
   442
order.
wenzelm@24086
   443
wenzelm@24032
   444
* Isar: command 'declaration' augments a local theory by generic
wenzelm@24032
   445
declaration functions written in ML.  This enables arbitrary content
wenzelm@24032
   446
being added to the context, depending on a morphism that tells the
wenzelm@24032
   447
difference of the original declaration context wrt. the application
wenzelm@24032
   448
context encountered later on.
wenzelm@24032
   449
wenzelm@24032
   450
* Isar: proper interfaces for simplification procedures.  Command
wenzelm@24032
   451
'simproc_setup' declares named simprocs (with match patterns, and body
wenzelm@24032
   452
text in ML).  Attribute "simproc" adds/deletes simprocs in the current
wenzelm@24032
   453
context.  ML antiquotation @{simproc name} retrieves named simprocs.
wenzelm@24032
   454
wenzelm@24032
   455
* Isar: an extra pair of brackets around attribute declarations
wenzelm@24032
   456
abbreviates a theorem reference involving an internal dummy fact,
wenzelm@24032
   457
which will be ignored later --- only the effect of the attribute on
wenzelm@24032
   458
the background context will persist.  This form of in-place
wenzelm@24032
   459
declarations is particularly useful with commands like 'declare' and
wenzelm@24032
   460
'using', for example ``have A using [[simproc a]] by simp''.
wenzelm@24032
   461
wenzelm@23369
   462
* Isar: method "assumption" (and implicit closing of subproofs) now
wenzelm@23369
   463
takes simple non-atomic goal assumptions into account: after applying
wenzelm@23369
   464
an assumption as a rule the resulting subgoals are solved by atomic
wenzelm@23369
   465
assumption steps.  This is particularly useful to finish 'obtain'
wenzelm@23369
   466
goals, such as "!!x. (!!x. P x ==> thesis) ==> P x ==> thesis",
wenzelm@23369
   467
without referring to the original premise "!!x. P x ==> thesis" in the
wenzelm@23369
   468
Isar proof context.  POTENTIAL INCOMPATIBILITY: method "assumption" is
wenzelm@23369
   469
more permissive.
wenzelm@23369
   470
wenzelm@23369
   471
* Isar: implicit use of prems from the Isar proof context is
wenzelm@23369
   472
considered a legacy feature.  Common applications like ``have A .''
wenzelm@23369
   473
may be replaced by ``have A by fact'' or ``note `A`''.  In general,
wenzelm@23369
   474
referencing facts explicitly here improves readability and
wenzelm@23369
   475
maintainability of proof texts.
wenzelm@23369
   476
wenzelm@17865
   477
* Isar: improper proof element 'guess' is like 'obtain', but derives
wenzelm@17865
   478
the obtained context from the course of reasoning!  For example:
wenzelm@17865
   479
wenzelm@17865
   480
  assume "EX x y. A x & B y"   -- "any previous fact"
wenzelm@17865
   481
  then guess x and y by clarify
wenzelm@17865
   482
wenzelm@17865
   483
This technique is potentially adventurous, depending on the facts and
wenzelm@17865
   484
proof tools being involved here.
wenzelm@17865
   485
wenzelm@18020
   486
* Isar: known facts from the proof context may be specified as literal
wenzelm@18020
   487
propositions, using ASCII back-quote syntax.  This works wherever
wenzelm@18020
   488
named facts used to be allowed so far, in proof commands, proof
wenzelm@18020
   489
methods, attributes etc.  Literal facts are retrieved from the context
wenzelm@18020
   490
according to unification of type and term parameters.  For example,
wenzelm@18020
   491
provided that "A" and "A ==> B" and "!!x. P x ==> Q x" are known
wenzelm@18020
   492
theorems in the current context, then these are valid literal facts:
wenzelm@18020
   493
`A` and `A ==> B` and `!!x. P x ==> Q x" as well as `P a ==> Q a` etc.
wenzelm@18020
   494
wenzelm@18020
   495
There is also a proof method "fact" which does the same composition
wenzelm@18044
   496
for explicit goal states, e.g. the following proof texts coincide with
wenzelm@18044
   497
certain special cases of literal facts:
wenzelm@18020
   498
wenzelm@18020
   499
  have "A" by fact                 ==  note `A`
wenzelm@18020
   500
  have "A ==> B" by fact           ==  note `A ==> B`
wenzelm@18020
   501
  have "!!x. P x ==> Q x" by fact  ==  note `!!x. P x ==> Q x`
wenzelm@18020
   502
  have "P a ==> Q a" by fact       ==  note `P a ==> Q a`
wenzelm@18020
   503
wenzelm@20118
   504
* Isar: ":" (colon) is no longer a symbolic identifier character in
wenzelm@20118
   505
outer syntax.  Thus symbolic identifiers may be used without
wenzelm@20118
   506
additional white space in declarations like this: ``assume *: A''.
wenzelm@20118
   507
wenzelm@20013
   508
* Isar: 'print_facts' prints all local facts of the current context,
wenzelm@20013
   509
both named and unnamed ones.
wenzelm@20013
   510
wenzelm@18308
   511
* Isar: 'def' now admits simultaneous definitions, e.g.:
wenzelm@18308
   512
wenzelm@18308
   513
  def x == "t" and y == "u"
wenzelm@18308
   514
wenzelm@18540
   515
* Isar: added command 'unfolding', which is structurally similar to
wenzelm@18540
   516
'using', but affects both the goal state and facts by unfolding given
wenzelm@18815
   517
rewrite rules.  Thus many occurrences of the 'unfold' method or
wenzelm@18540
   518
'unfolded' attribute may be replaced by first-class proof text.
wenzelm@18540
   519
wenzelm@18815
   520
* Isar: methods 'unfold' / 'fold', attributes 'unfolded' / 'folded',
wenzelm@18815
   521
and command 'unfolding' now all support object-level equalities
wenzelm@18815
   522
(potentially conditional).  The underlying notion of rewrite rule is
wenzelm@18815
   523
analogous to the 'rule_format' attribute, but *not* that of the
wenzelm@18815
   524
Simplifier (which is usually more generous).
wenzelm@18815
   525
kleing@24238
   526
* Isar: the new attribute [rotated n] (default n = 1) rotates the
kleing@24238
   527
premises of a theorem by n. Useful in conjunction with drule.
kleing@24238
   528
wenzelm@19220
   529
* Isar: the goal restriction operator [N] (default N = 1) evaluates a
wenzelm@19220
   530
method expression within a sandbox consisting of the first N
wenzelm@19240
   531
sub-goals, which need to exist.  For example, ``simp_all [3]''
wenzelm@19240
   532
simplifies the first three sub-goals, while (rule foo, simp_all)[]
wenzelm@19240
   533
simplifies all new goals that emerge from applying rule foo to the
wenzelm@19240
   534
originally first one.
wenzelm@19220
   535
wenzelm@19814
   536
* Isar: schematic goals are no longer restricted to higher-order
wenzelm@19814
   537
patterns; e.g. ``lemma "?P(?x)" by (rule TrueI)'' now works as
wenzelm@19814
   538
expected.
wenzelm@19814
   539
wenzelm@18901
   540
* Isar: the conclusion of a long theorem statement is now either
wenzelm@18901
   541
'shows' (a simultaneous conjunction, as before), or 'obtains'
wenzelm@18901
   542
(essentially a disjunction of cases with local parameters and
wenzelm@18901
   543
assumptions).  The latter allows to express general elimination rules
wenzelm@18910
   544
adequately; in this notation common elimination rules look like this:
wenzelm@18901
   545
wenzelm@18901
   546
  lemma exE:    -- "EX x. P x ==> (!!x. P x ==> thesis) ==> thesis"
wenzelm@18901
   547
    assumes "EX x. P x"
wenzelm@18901
   548
    obtains x where "P x"
wenzelm@18901
   549
wenzelm@18901
   550
  lemma conjE:  -- "A & B ==> (A ==> B ==> thesis) ==> thesis"
wenzelm@18901
   551
    assumes "A & B"
wenzelm@18901
   552
    obtains A and B
wenzelm@18901
   553
wenzelm@18901
   554
  lemma disjE:  -- "A | B ==> (A ==> thesis) ==> (B ==> thesis) ==> thesis"
wenzelm@18901
   555
    assumes "A | B"
wenzelm@18901
   556
    obtains
wenzelm@18901
   557
      A
wenzelm@18901
   558
    | B
wenzelm@18901
   559
wenzelm@18910
   560
The subsequent classical rules even refer to the formal "thesis"
wenzelm@18901
   561
explicitly:
wenzelm@18901
   562
wenzelm@18901
   563
  lemma classical:     -- "(~ thesis ==> thesis) ==> thesis"
wenzelm@18901
   564
    obtains "~ thesis"
wenzelm@18901
   565
wenzelm@18910
   566
  lemma Peirce's_Law:  -- "((thesis ==> something) ==> thesis) ==> thesis"
wenzelm@18910
   567
    obtains "thesis ==> something"
wenzelm@18901
   568
wenzelm@18901
   569
The actual proof of an 'obtains' statement is analogous to that of the
wenzelm@18910
   570
Isar proof element 'obtain', only that there may be several cases.
wenzelm@18910
   571
Optional case names may be specified in parentheses; these will be
wenzelm@18910
   572
available both in the present proof and as annotations in the
wenzelm@18910
   573
resulting rule, for later use with the 'cases' method (cf. attribute
wenzelm@18910
   574
case_names).
wenzelm@18901
   575
wenzelm@21447
   576
* Isar: the assumptions of a long theorem statement are available as
wenzelm@21447
   577
"assms" fact in the proof context.  This is more appropriate than the
wenzelm@21447
   578
(historical) "prems", which refers to all assumptions of the current
wenzelm@21447
   579
context, including those from the target locale, proof body etc.
wenzelm@21447
   580
wenzelm@19263
   581
* Isar: 'print_statement' prints theorems from the current theory or
wenzelm@19263
   582
proof context in long statement form, according to the syntax of a
wenzelm@19263
   583
top-level lemma.
wenzelm@19263
   584
wenzelm@18901
   585
* Isar: 'obtain' takes an optional case name for the local context
wenzelm@18901
   586
introduction rule (default "that").
wenzelm@18901
   587
wenzelm@19587
   588
* Isar: removed obsolete 'concl is' patterns.  INCOMPATIBILITY, use
wenzelm@19587
   589
explicit (is "_ ==> ?foo") in the rare cases where this still happens
wenzelm@19587
   590
to occur.
wenzelm@19587
   591
wenzelm@19682
   592
* Pure: syntax "CONST name" produces a fully internalized constant
wenzelm@19682
   593
according to the current context.  This is particularly useful for
wenzelm@19682
   594
syntax translations that should refer to internal constant
wenzelm@19682
   595
representations independently of name spaces.
wenzelm@19682
   596
wenzelm@21537
   597
* Pure: syntax constant for foo (binder "FOO ") is called "foo_binder"
wenzelm@21537
   598
instead of "FOO ". This allows multiple binder declarations to coexist
wenzelm@21537
   599
in the same context.  INCOMPATIBILITY.
wenzelm@21537
   600
wenzelm@21209
   601
* Isar/locales: 'notation' provides a robust interface to the 'syntax'
wenzelm@21209
   602
primitive that also works in a locale context (both for constants and
wenzelm@24950
   603
fixed variables). Type declaration and internal syntactic representation
wenzelm@24950
   604
of given constants retrieved from the context. Likewise, the
wenzelm@24950
   605
'no_notation' command allows to remove given syntax annotations from the
wenzelm@24950
   606
current context.
wenzelm@19682
   607
wenzelm@19665
   608
* Isar/locales: new derived specification elements 'axiomatization',
wenzelm@19665
   609
'definition', 'abbreviation', which support type-inference, admit
wenzelm@19083
   610
object-level specifications (equality, equivalence).  See also the
wenzelm@19083
   611
isar-ref manual.  Examples:
wenzelm@19081
   612
wenzelm@19665
   613
  axiomatization
wenzelm@21595
   614
    eq  (infix "===" 50) where
wenzelm@21595
   615
    eq_refl: "x === x" and eq_subst: "x === y ==> P x ==> P y"
wenzelm@21595
   616
wenzelm@21595
   617
  definition "f x y = x + y + 1"
wenzelm@21595
   618
  definition g where "g x = f x x"
wenzelm@19081
   619
wenzelm@19363
   620
  abbreviation
wenzelm@21595
   621
    neq  (infix "=!=" 50) where
wenzelm@19363
   622
    "x =!= y == ~ (x === y)"
wenzelm@19081
   623
wenzelm@19083
   624
These specifications may be also used in a locale context.  Then the
wenzelm@19083
   625
constants being introduced depend on certain fixed parameters, and the
wenzelm@19083
   626
constant name is qualified by the locale base name.  An internal
wenzelm@19083
   627
abbreviation takes care for convenient input and output, making the
wenzelm@19088
   628
parameters implicit and using the original short name.  See also
wenzelm@25177
   629
src/HOL/ex/Abstract_NAT.thy for an example of deriving polymorphic
wenzelm@19083
   630
entities from a monomorphic theory.
wenzelm@19083
   631
wenzelm@19083
   632
Presently, abbreviations are only available 'in' a target locale, but
wenzelm@19363
   633
not inherited by general import expressions.  Also note that
wenzelm@19363
   634
'abbreviation' may be used as a type-safe replacement for 'syntax' +
wenzelm@24735
   635
'translations' in common applications.  The "no_abbrevs" print mode
wenzelm@24735
   636
prevents folding of abbreviations in term output.
wenzelm@19084
   637
wenzelm@19682
   638
Concrete syntax is attached to specified constants in internal form,
wenzelm@19682
   639
independently of name spaces.  The parse tree representation is
wenzelm@21209
   640
slightly different -- use 'notation' instead of raw 'syntax', and
wenzelm@19682
   641
'translations' with explicit "CONST" markup to accommodate this.
wenzelm@19665
   642
wenzelm@24800
   643
* Pure/Isar: unified syntax for new-style specification mechanisms
wenzelm@24800
   644
(e.g.  'definition', 'abbreviation', or 'inductive' in HOL) admits
wenzelm@24800
   645
full type inference and dummy patterns ("_").  For example:
wenzelm@24735
   646
wenzelm@24735
   647
  definition "K x _ = x"
wenzelm@24735
   648
wenzelm@24738
   649
  inductive conj for A B
wenzelm@24738
   650
  where "A ==> B ==> conj A B"
wenzelm@24738
   651
wenzelm@21735
   652
* Pure: command 'print_abbrevs' prints all constant abbreviations of
wenzelm@21735
   653
the current context.  Print mode "no_abbrevs" prevents inversion of
wenzelm@21735
   654
abbreviations on output.
wenzelm@21735
   655
wenzelm@24800
   656
* Isar/locales: improved parameter handling: use of locales "var" and
wenzelm@24800
   657
"struct" no longer necessary; - parameter renamings are no longer
wenzelm@24800
   658
required to be injective.  For example, this allows to define
wenzelm@24800
   659
endomorphisms as locale endom = homom mult mult h.
ballarin@19783
   660
ballarin@19931
   661
* Isar/locales: changed the way locales with predicates are defined.
ballarin@19931
   662
Instead of accumulating the specification, the imported expression is
wenzelm@22126
   663
now an interpretation.  INCOMPATIBILITY: different normal form of
wenzelm@22126
   664
locale expressions.  In particular, in interpretations of locales with
wenzelm@22126
   665
predicates, goals repesenting already interpreted fragments are not
wenzelm@22126
   666
removed automatically.  Use methods `intro_locales' and
wenzelm@22126
   667
`unfold_locales'; see below.
wenzelm@22126
   668
wenzelm@22126
   669
* Isar/locales: new methods `intro_locales' and `unfold_locales'
wenzelm@22126
   670
provide backward reasoning on locales predicates.  The methods are
wenzelm@22126
   671
aware of interpretations and discharge corresponding goals.
wenzelm@22126
   672
`intro_locales' is less aggressive then `unfold_locales' and does not
wenzelm@22126
   673
unfold predicates to assumptions.
ballarin@19931
   674
ballarin@19931
   675
* Isar/locales: the order in which locale fragments are accumulated
wenzelm@22126
   676
has changed.  This enables to override declarations from fragments due
wenzelm@22126
   677
to interpretations -- for example, unwanted simp rules.
ballarin@19931
   678
ballarin@23920
   679
* Isar/locales: interpretation in theories and proof contexts has been
ballarin@23920
   680
extended.  One may now specify (and prove) equations, which are
ballarin@23920
   681
unfolded in interpreted theorems.  This is useful for replacing
ballarin@23920
   682
defined concepts (constants depending on locale parameters) by
ballarin@23920
   683
concepts already existing in the target context.  Example:
ballarin@23920
   684
ballarin@23920
   685
  interpretation partial_order ["op <= :: [int, int] => bool"]
ballarin@23920
   686
    where "partial_order.less (op <=) (x::int) y = (x < y)"
ballarin@23920
   687
wenzelm@24800
   688
Typically, the constant `partial_order.less' is created by a
wenzelm@24800
   689
definition specification element in the context of locale
wenzelm@24800
   690
partial_order.
wenzelm@24800
   691
wenzelm@24859
   692
* Method "induct": improved internal context management to support
wenzelm@24800
   693
local fixes and defines on-the-fly. Thus explicit meta-level
wenzelm@24800
   694
connectives !!  and ==> are rarely required anymore in inductive goals
wenzelm@24800
   695
(using object-logic connectives for this purpose has been long
wenzelm@24800
   696
obsolete anyway). Common proof patterns are explained in
wenzelm@25177
   697
src/HOL/Induct/Common_Patterns.thy, see also
wenzelm@25177
   698
src/HOL/Isar_examples/Puzzle.thy and src/HOL/Lambda for realistic
wenzelm@25177
   699
examples.
wenzelm@24606
   700
wenzelm@24859
   701
* Method "induct": improved handling of simultaneous goals. Instead of
wenzelm@24606
   702
introducing object-level conjunction, the statement is now split into
wenzelm@24606
   703
several conclusions, while the corresponding symbolic cases are nested
wenzelm@24606
   704
accordingly. INCOMPATIBILITY, proofs need to be structured explicitly,
wenzelm@25177
   705
see src/HOL/Induct/Common_Patterns.thy, for example.
wenzelm@24606
   706
wenzelm@24859
   707
* Method "induct": mutual induction rules are now specified as a list
wenzelm@24800
   708
of rule sharing the same induction cases. HOL packages usually provide
wenzelm@24606
   709
foo_bar.inducts for mutually defined items foo and bar (e.g. inductive
wenzelm@24859
   710
predicates/sets or datatypes). INCOMPATIBILITY, users need to specify
wenzelm@24859
   711
mutual induction rules differently, i.e. like this:
wenzelm@18506
   712
wenzelm@18506
   713
  (induct rule: foo_bar.inducts)
wenzelm@18506
   714
  (induct set: foo bar)
wenzelm@24859
   715
  (induct pred: foo bar)
wenzelm@18506
   716
  (induct type: foo bar)
wenzelm@18506
   717
wenzelm@18506
   718
The ML function ProjectRule.projections turns old-style rules into the
wenzelm@18506
   719
new format.
wenzelm@18506
   720
wenzelm@24859
   721
* Method "coinduct": dual of induction, see
wenzelm@18399
   722
src/HOL/Library/Coinductive_List.thy for various examples.
wenzelm@18399
   723
wenzelm@24859
   724
* Method "cases", "induct", "coinduct": the ``(open)'' option is
wenzelm@24859
   725
considered a legacy feature.
wenzelm@24859
   726
wenzelm@20919
   727
* Attribute "symmetric" produces result with standardized schematic
wenzelm@20919
   728
variables (index 0).  Potential INCOMPATIBILITY.
wenzelm@20919
   729
wenzelm@22126
   730
* Simplifier: by default the simplifier trace only shows top level
wenzelm@22126
   731
rewrites now. That is, trace_simp_depth_limit is set to 1 by
wenzelm@22126
   732
default. Thus there is less danger of being flooded by the trace. The
wenzelm@22126
   733
trace indicates where parts have been suppressed.
nipkow@18674
   734
  
wenzelm@18536
   735
* Provers/classical: removed obsolete classical version of elim_format
wenzelm@18536
   736
attribute; classical elim/dest rules are now treated uniformly when
wenzelm@18536
   737
manipulating the claset.
wenzelm@18536
   738
wenzelm@18694
   739
* Provers/classical: stricter checks to ensure that supplied intro,
wenzelm@18694
   740
dest and elim rules are well-formed; dest and elim rules must have at
wenzelm@18694
   741
least one premise.
wenzelm@18694
   742
wenzelm@18694
   743
* Provers/classical: attributes dest/elim/intro take an optional
wenzelm@18695
   744
weight argument for the rule (just as the Pure versions).  Weights are
wenzelm@18696
   745
ignored by automated tools, but determine the search order of single
wenzelm@18694
   746
rule steps.
paulson@18557
   747
wenzelm@18536
   748
* Syntax: input syntax now supports dummy variable binding "%_. b",
wenzelm@18536
   749
where the body does not mention the bound variable.  Note that dummy
wenzelm@18536
   750
patterns implicitly depend on their context of bounds, which makes
wenzelm@18536
   751
"{_. _}" match any set comprehension as expected.  Potential
wenzelm@18536
   752
INCOMPATIBILITY -- parse translations need to cope with syntactic
wenzelm@18536
   753
constant "_idtdummy" in the binding position.
wenzelm@18536
   754
wenzelm@18536
   755
* Syntax: removed obsolete syntactic constant "_K" and its associated
wenzelm@18536
   756
parse translation.  INCOMPATIBILITY -- use dummy abstraction instead,
wenzelm@18536
   757
for example "A -> B" => "Pi A (%_. B)".
wenzelm@17779
   758
wenzelm@20582
   759
* Pure: 'class_deps' command visualizes the subclass relation, using
wenzelm@20582
   760
the graph browser tool.
wenzelm@20582
   761
wenzelm@24800
   762
* Pure: 'print_theory' now suppresses certain internal declarations by
wenzelm@24800
   763
default; use '!' option for full details.
wenzelm@20620
   764
wenzelm@17865
   765
nipkow@17806
   766
*** HOL ***
nipkow@17806
   767
wenzelm@25129
   768
* Method "metis" proves goals by applying the Metis general-purpose
wenzelm@25129
   769
resolution prover (see also http://gilith.com/software/metis/).
wenzelm@25129
   770
Examples are in the directory MetisExamples.  WARNING: the
wenzelm@25129
   771
Isabelle/HOL-Metis integration does not yet work properly with
wenzelm@25129
   772
multi-threading.
wenzelm@25129
   773
  
wenzelm@25129
   774
* Command 'sledgehammer' invokes external automatic theorem provers as
wenzelm@25129
   775
background processes.  It generates calls to the "metis" method if
wenzelm@25129
   776
successful. These can be pasted into the proof.  Users do not have to
wenzelm@25129
   777
wait for the automatic provers to return.  WARNING: does not really
wenzelm@25129
   778
work with multi-threading.
wenzelm@25129
   779
wenzelm@24804
   780
* New "auto_quickcheck" feature tests outermost goal statements for
wenzelm@24804
   781
potential counter-examples.  Controlled by ML references
wenzelm@24804
   782
auto_quickcheck (default true) and auto_quickcheck_time_limit (default
wenzelm@25129
   783
5000 milliseconds).  Fails silently if statements is outside of
wenzelm@25129
   784
executable fragment, or any other codgenerator problem occurs.
wenzelm@24804
   785
haftmann@25184
   786
* New constant "undefined" with axiom "undefined x = undefined".
haftmann@25184
   787
haftmann@25184
   788
* Added class "HOL.eq", allowing for code generation with polymorphic
haftmann@25184
   789
equality.
haftmann@25184
   790
haftmann@25184
   791
* Some renaming of class constants due to canonical name prefixing in
haftmann@25184
   792
the new 'class' package:
haftmann@25184
   793
haftmann@25184
   794
    HOL.abs ~> HOL.abs_class.abs
haftmann@25184
   795
    HOL.divide ~> HOL.divide_class.divide
haftmann@25184
   796
    0 ~> HOL.zero_class.zero
haftmann@25184
   797
    1 ~> HOL.one_class.one
haftmann@25184
   798
    op + ~> HOL.plus_class.plus
haftmann@25184
   799
    op - ~> HOL.minus_class.minus
haftmann@25184
   800
    uminus ~> HOL.minus_class.uminus
haftmann@25184
   801
    op * ~> HOL.times_class.times
haftmann@25184
   802
    op < ~> HOL.ord_class.less
haftmann@25184
   803
    op <= > HOL.ord_class.less_eq
haftmann@25184
   804
    Nat.power ~> Power.power_class.power
haftmann@25184
   805
    Nat.size ~> Nat.size_class.size
haftmann@25184
   806
    Numeral.number_of ~> Numeral.number_class.number_of
haftmann@25184
   807
    FixedPoint.Inf ~> Lattices.complete_lattice_class.Inf
haftmann@25184
   808
    FixedPoint.Sup ~> Lattices.complete_lattice_class.Sup
haftmann@25184
   809
    Orderings.min ~> Orderings.ord_class.min
haftmann@25184
   810
    Orderings.max ~> Orderings.ord_class.max
haftmann@25184
   811
    Divides.op div ~> Divides.div_class.div
haftmann@25184
   812
    Divides.op mod ~> Divides.div_class.mod
haftmann@25184
   813
    Divides.op dvd ~> Divides.div_class.dvd
haftmann@25184
   814
haftmann@25184
   815
INCOMPATIBILITY.  Adaptions may be required in the following cases:
haftmann@25184
   816
haftmann@25184
   817
a) User-defined constants using any of the names "plus", "minus",
haftmann@25184
   818
"times", "less" or "less_eq". The standard syntax translations for
haftmann@25184
   819
"+", "-" and "*" may go wrong.  INCOMPATIBILITY: use more specific
haftmann@25184
   820
names.
haftmann@25184
   821
haftmann@25184
   822
b) Variables named "plus", "minus", "times", "less", "less_eq"
haftmann@25184
   823
INCOMPATIBILITY: use more specific names.
haftmann@25184
   824
haftmann@25184
   825
c) Permutative equations (e.g. "a + b = b + a")
haftmann@25184
   826
Since the change of names also changes the order of terms, permutative
haftmann@25184
   827
rewrite rules may get applied in a different order. Experience shows
haftmann@25184
   828
that this is rarely the case (only two adaptions in the whole Isabelle
haftmann@25184
   829
distribution).  INCOMPATIBILITY: rewrite proofs
haftmann@25184
   830
haftmann@25184
   831
d) ML code directly refering to constant names
haftmann@25184
   832
This in general only affects hand-written proof tactics, simprocs and
haftmann@25184
   833
so on.  INCOMPATIBILITY: grep your sourcecode and replace names.
haftmann@25184
   834
Consider using @{const_name} antiquotation.
haftmann@25184
   835
haftmann@25184
   836
* New class "default" with associated constant "default".
haftmann@25184
   837
haftmann@25184
   838
* Function "sgn" is now overloaded and available on int, real, complex
haftmann@25184
   839
(and other numeric types), using class "sgn".  Two possible defs of
haftmann@25184
   840
sgn are given as equational assumptions in the classes sgn_if and
haftmann@25184
   841
sgn_div_norm; ordered_idom now also inherits from sgn_if.
haftmann@25184
   842
INCOMPATIBILITY.
haftmann@25184
   843
haftmann@25184
   844
* Locale "partial_order" now unified with class "order" (cf. theory
haftmann@25184
   845
Orderings), added parameter "less".  INCOMPATIBILITY.
haftmann@25184
   846
haftmann@25184
   847
* Renamings in classes "order" and "linorder": facts "refl", "trans" and
haftmann@25184
   848
"cases" to "order_refl", "order_trans" and "linorder_cases", to avoid
haftmann@25184
   849
clashes with HOL "refl" and "trans".  INCOMPATIBILITY.
haftmann@25184
   850
haftmann@25184
   851
* Classes "order" and "linorder": potential INCOMPATIBILITY due to
haftmann@25184
   852
changed order of proof goals in instance proofs.
haftmann@25184
   853
haftmann@25184
   854
* The transitivity reasoner for partial and linear orders is set up
haftmann@25184
   855
for classes "order" and "linorder".  Instances of the reasoner are available
haftmann@25184
   856
in all contexts importing or interpreting the corresponding locales.
haftmann@25184
   857
Method "order" invokes the reasoner separately; the reasoner
haftmann@25184
   858
is also integrated with the Simplifier as a solver.  Diagnostic
haftmann@25184
   859
command 'print_orders' shows the available instances of the reasoner
haftmann@25184
   860
in the current context.
haftmann@25184
   861
haftmann@25184
   862
* Localized monotonicity predicate in theory "Orderings"; integrated
haftmann@25184
   863
lemmas max_of_mono and min_of_mono with this predicate.
haftmann@25184
   864
INCOMPATIBILITY.
haftmann@25184
   865
haftmann@25184
   866
* Formulation of theorem "dense" changed slightly due to integration
haftmann@25184
   867
with new class dense_linear_order.
haftmann@25184
   868
haftmann@25184
   869
* Uniform lattice theory development in HOL.
haftmann@25184
   870
haftmann@25184
   871
    constants "meet" and "join" now named "inf" and "sup"
haftmann@25184
   872
    constant "Meet" now named "Inf"
haftmann@25184
   873
haftmann@25184
   874
    classes "meet_semilorder" and "join_semilorder" now named
haftmann@25184
   875
      "lower_semilattice" and "upper_semilattice"
haftmann@25184
   876
    class "lorder" now named "lattice"
haftmann@25184
   877
    class "comp_lat" now named "complete_lattice"
haftmann@25184
   878
haftmann@25184
   879
    Instantiation of lattice classes allows explicit definitions
haftmann@25184
   880
    for "inf" and "sup" operations (or "Inf" and "Sup" for complete lattices).
haftmann@25184
   881
haftmann@25184
   882
  INCOMPATIBILITY.  Theorem renames:
haftmann@25184
   883
haftmann@25184
   884
    meet_left_le            ~> inf_le1
haftmann@25184
   885
    meet_right_le           ~> inf_le2
haftmann@25184
   886
    join_left_le            ~> sup_ge1
haftmann@25184
   887
    join_right_le           ~> sup_ge2
haftmann@25184
   888
    meet_join_le            ~> inf_sup_ord
haftmann@25184
   889
    le_meetI                ~> le_infI
haftmann@25184
   890
    join_leI                ~> le_supI
haftmann@25184
   891
    le_meet                 ~> le_inf_iff
haftmann@25184
   892
    le_join                 ~> ge_sup_conv
haftmann@25184
   893
    meet_idempotent         ~> inf_idem
haftmann@25184
   894
    join_idempotent         ~> sup_idem
haftmann@25184
   895
    meet_comm               ~> inf_commute
haftmann@25184
   896
    join_comm               ~> sup_commute
haftmann@25184
   897
    meet_leI1               ~> le_infI1
haftmann@25184
   898
    meet_leI2               ~> le_infI2
haftmann@25184
   899
    le_joinI1               ~> le_supI1
haftmann@25184
   900
    le_joinI2               ~> le_supI2
haftmann@25184
   901
    meet_assoc              ~> inf_assoc
haftmann@25184
   902
    join_assoc              ~> sup_assoc
haftmann@25184
   903
    meet_left_comm          ~> inf_left_commute
haftmann@25184
   904
    meet_left_idempotent    ~> inf_left_idem
haftmann@25184
   905
    join_left_comm          ~> sup_left_commute
haftmann@25184
   906
    join_left_idempotent    ~> sup_left_idem
haftmann@25184
   907
    meet_aci                ~> inf_aci
haftmann@25184
   908
    join_aci                ~> sup_aci
haftmann@25184
   909
    le_def_meet             ~> le_iff_inf
haftmann@25184
   910
    le_def_join             ~> le_iff_sup
haftmann@25184
   911
    join_absorp2            ~> sup_absorb2
haftmann@25184
   912
    join_absorp1            ~> sup_absorb1
haftmann@25184
   913
    meet_absorp1            ~> inf_absorb1
haftmann@25184
   914
    meet_absorp2            ~> inf_absorb2
haftmann@25184
   915
    meet_join_absorp        ~> inf_sup_absorb
haftmann@25184
   916
    join_meet_absorp        ~> sup_inf_absorb
haftmann@25184
   917
    distrib_join_le         ~> distrib_sup_le
haftmann@25184
   918
    distrib_meet_le         ~> distrib_inf_le
haftmann@25184
   919
haftmann@25184
   920
    add_meet_distrib_left   ~> add_inf_distrib_left
haftmann@25184
   921
    add_join_distrib_left   ~> add_sup_distrib_left
haftmann@25184
   922
    is_join_neg_meet        ~> is_join_neg_inf
haftmann@25184
   923
    is_meet_neg_join        ~> is_meet_neg_sup
haftmann@25184
   924
    add_meet_distrib_right  ~> add_inf_distrib_right
haftmann@25184
   925
    add_join_distrib_right  ~> add_sup_distrib_right
haftmann@25184
   926
    add_meet_join_distribs  ~> add_sup_inf_distribs
haftmann@25184
   927
    join_eq_neg_meet        ~> sup_eq_neg_inf
haftmann@25184
   928
    meet_eq_neg_join        ~> inf_eq_neg_sup
haftmann@25184
   929
    add_eq_meet_join        ~> add_eq_inf_sup
haftmann@25184
   930
    meet_0_imp_0            ~> inf_0_imp_0
haftmann@25184
   931
    join_0_imp_0            ~> sup_0_imp_0
haftmann@25184
   932
    meet_0_eq_0             ~> inf_0_eq_0
haftmann@25184
   933
    join_0_eq_0             ~> sup_0_eq_0
haftmann@25184
   934
    neg_meet_eq_join        ~> neg_inf_eq_sup
haftmann@25184
   935
    neg_join_eq_meet        ~> neg_sup_eq_inf
haftmann@25184
   936
    join_eq_if              ~> sup_eq_if
haftmann@25184
   937
haftmann@25184
   938
    mono_meet               ~> mono_inf
haftmann@25184
   939
    mono_join               ~> mono_sup
haftmann@25184
   940
    meet_bool_eq            ~> inf_bool_eq
haftmann@25184
   941
    join_bool_eq            ~> sup_bool_eq
haftmann@25184
   942
    meet_fun_eq             ~> inf_fun_eq
haftmann@25184
   943
    join_fun_eq             ~> sup_fun_eq
haftmann@25184
   944
    meet_set_eq             ~> inf_set_eq
haftmann@25184
   945
    join_set_eq             ~> sup_set_eq
haftmann@25184
   946
    meet1_iff               ~> inf1_iff
haftmann@25184
   947
    meet2_iff               ~> inf2_iff
haftmann@25184
   948
    meet1I                  ~> inf1I
haftmann@25184
   949
    meet2I                  ~> inf2I
haftmann@25184
   950
    meet1D1                 ~> inf1D1
haftmann@25184
   951
    meet2D1                 ~> inf2D1
haftmann@25184
   952
    meet1D2                 ~> inf1D2
haftmann@25184
   953
    meet2D2                 ~> inf2D2
haftmann@25184
   954
    meet1E                  ~> inf1E
haftmann@25184
   955
    meet2E                  ~> inf2E
haftmann@25184
   956
    join1_iff               ~> sup1_iff
haftmann@25184
   957
    join2_iff               ~> sup2_iff
haftmann@25184
   958
    join1I1                 ~> sup1I1
haftmann@25184
   959
    join2I1                 ~> sup2I1
haftmann@25184
   960
    join1I1                 ~> sup1I1
haftmann@25184
   961
    join2I2                 ~> sup1I2
haftmann@25184
   962
    join1CI                 ~> sup1CI
haftmann@25184
   963
    join2CI                 ~> sup2CI
haftmann@25184
   964
    join1E                  ~> sup1E
haftmann@25184
   965
    join2E                  ~> sup2E
haftmann@25184
   966
haftmann@25184
   967
    is_meet_Meet            ~> is_meet_Inf
haftmann@25184
   968
    Meet_bool_def           ~> Inf_bool_def
haftmann@25184
   969
    Meet_fun_def            ~> Inf_fun_def
haftmann@25184
   970
    Meet_greatest           ~> Inf_greatest
haftmann@25184
   971
    Meet_lower              ~> Inf_lower
haftmann@25184
   972
    Meet_set_def            ~> Inf_set_def
haftmann@25184
   973
haftmann@25184
   974
    Sup_def                 ~> Sup_Inf
haftmann@25184
   975
    Sup_bool_eq             ~> Sup_bool_def
haftmann@25184
   976
    Sup_fun_eq              ~> Sup_fun_def
haftmann@25184
   977
    Sup_set_eq              ~> Sup_set_def
haftmann@25184
   978
haftmann@25184
   979
    listsp_meetI            ~> listsp_infI
haftmann@25184
   980
    listsp_meet_eq          ~> listsp_inf_eq
haftmann@25184
   981
haftmann@25184
   982
    meet_min                ~> inf_min
haftmann@25184
   983
    join_max                ~> sup_max
haftmann@25184
   984
haftmann@25184
   985
* Added syntactic class "size"; overloaded constant "size" now has
haftmann@25184
   986
type "'a::size ==> bool"
haftmann@25184
   987
wenzelm@24800
   988
* Internal reorganisation of `size' of datatypes: size theorems
wenzelm@24800
   989
"foo.size" are no longer subsumed by "foo.simps" (but are still
wenzelm@24800
   990
simplification rules by default!); theorems "prod.size" now named
haftmann@25184
   991
"*.size".
haftmann@25184
   992
haftmann@25184
   993
* Class "div" now inherits from class "times" rather than "type".
haftmann@25184
   994
INCOMPATIBILITY.
wenzelm@24800
   995
wenzelm@24800
   996
* HOL/Finite_Set: "name-space" locales Lattice, Distrib_lattice,
wenzelm@24800
   997
Linorder etc.  have disappeared; operations defined in terms of
wenzelm@24800
   998
fold_set now are named Inf_fin, Sup_fin.  INCOMPATIBILITY.
wenzelm@24800
   999
wenzelm@25129
  1000
* HOL/Nat: neq0_conv no longer declared as iff.  INCOMPATIBILITY.
wenzelm@25129
  1001
wenzelm@24800
  1002
* HOL-Word: New extensive library and type for generic, fixed size
wenzelm@24800
  1003
machine words, with arithemtic, bit-wise, shifting and rotating
wenzelm@24800
  1004
operations, reflection into int, nat, and bool lists, automation for
wenzelm@24800
  1005
linear arithmetic (by automatic reflection into nat or int), including
wenzelm@24800
  1006
lemmas on overflow and monotonicity.  Instantiated to all appropriate
wenzelm@24800
  1007
arithmetic type classes, supporting automatic simplification of
wenzelm@24800
  1008
numerals on all operations.
kleing@24333
  1009
kleing@24333
  1010
* Library/Boolean_Algebra: locales for abstract boolean algebras.
kleing@24333
  1011
kleing@24333
  1012
* Library/Numeral_Type: numbers as types, e.g. TYPE(32).
kleing@24333
  1013
haftmann@23850
  1014
* Code generator library theories:
haftmann@24993
  1015
  - Code_Integer represents HOL integers by big integer literals in target
haftmann@23850
  1016
    languages.
haftmann@24993
  1017
  - Code_Char represents HOL characters by character literals in target
haftmann@23850
  1018
    languages.
haftmann@24993
  1019
  - Code_Char_chr like Code_Char, but also offers treatment of character
haftmann@24993
  1020
    codes; includes Code_Integer.
wenzelm@24800
  1021
  - Executable_Set allows to generate code for finite sets using lists.
wenzelm@24800
  1022
  - Executable_Rat implements rational numbers as triples (sign, enumerator,
haftmann@23850
  1023
    denominator).
wenzelm@24800
  1024
  - Executable_Real implements a subset of real numbers, namly those
haftmann@23850
  1025
    representable by rational numbers.
wenzelm@24800
  1026
  - Efficient_Nat implements natural numbers by integers, which in general will
haftmann@23850
  1027
    result in higher efficency; pattern matching with 0/Suc is eliminated;
haftmann@24993
  1028
    includes Code_Integer.
haftmann@24993
  1029
  - Code_Index provides an additional datatype index which is mapped to
haftmann@24993
  1030
    target-language built-in integers.
haftmann@24993
  1031
  - Code_Message provides an additional datatype message_string} which is isomorphic to
haftmann@24993
  1032
    strings; messages are mapped to target-language strings.
haftmann@23850
  1033
berghofe@23783
  1034
* New package for inductive predicates
berghofe@23783
  1035
berghofe@23783
  1036
  An n-ary predicate p with m parameters z_1, ..., z_m can now be defined via
berghofe@23783
  1037
berghofe@23783
  1038
    inductive
berghofe@23783
  1039
      p :: "U_1 => ... => U_m => T_1 => ... => T_n => bool"
berghofe@23783
  1040
      for z_1 :: U_1 and ... and z_n :: U_m
berghofe@23783
  1041
    where
berghofe@23783
  1042
      rule_1: "... ==> p z_1 ... z_m t_1_1 ... t_1_n"
berghofe@23783
  1043
    | ...
berghofe@23783
  1044
wenzelm@24800
  1045
  with full support for type-inference, rather than
berghofe@23783
  1046
berghofe@23783
  1047
    consts s :: "U_1 => ... => U_m => (T_1 * ... * T_n) set"
berghofe@23783
  1048
berghofe@23783
  1049
    abbreviation p :: "U_1 => ... => U_m => T_1 => ... => T_n => bool"
berghofe@23783
  1050
    where "p z_1 ... z_m x_1 ... x_n == (x_1, ..., x_n) : s z_1 ... z_m"
berghofe@23783
  1051
berghofe@23783
  1052
    inductive "s z_1 ... z_m"
berghofe@23783
  1053
    intros
berghofe@23783
  1054
      rule_1: "... ==> (t_1_1, ..., t_1_n) : s z_1 ... z_m"
berghofe@23783
  1055
      ...
berghofe@23783
  1056
berghofe@23783
  1057
  For backward compatibility, there is a wrapper allowing inductive
berghofe@23783
  1058
  sets to be defined with the new package via
berghofe@23783
  1059
berghofe@23783
  1060
    inductive_set
berghofe@23783
  1061
      s :: "U_1 => ... => U_m => (T_1 * ... * T_n) set"
berghofe@23783
  1062
      for z_1 :: U_1 and ... and z_n :: U_m
berghofe@23783
  1063
    where
berghofe@23783
  1064
      rule_1: "... ==> (t_1_1, ..., t_1_n) : s z_1 ... z_m"
berghofe@23783
  1065
    | ...
berghofe@23783
  1066
berghofe@23783
  1067
  or
berghofe@23783
  1068
berghofe@23783
  1069
    inductive_set
berghofe@23783
  1070
      s :: "U_1 => ... => U_m => (T_1 * ... * T_n) set"
berghofe@23783
  1071
      and p :: "U_1 => ... => U_m => T_1 => ... => T_n => bool"
berghofe@23783
  1072
      for z_1 :: U_1 and ... and z_n :: U_m
berghofe@23783
  1073
    where
berghofe@23783
  1074
      "p z_1 ... z_m x_1 ... x_n == (x_1, ..., x_n) : s z_1 ... z_m"
berghofe@23783
  1075
    | rule_1: "... ==> p z_1 ... z_m t_1_1 ... t_1_n"
berghofe@23783
  1076
    | ...
berghofe@23783
  1077
berghofe@23783
  1078
  if the additional syntax "p ..." is required.
berghofe@23783
  1079
wenzelm@25177
  1080
  Numerous examples can be found in the subdirectories src/HOL/Auth,
wenzelm@25177
  1081
  src/HOL/Bali, src/HOL/Induct, and src/HOL/MicroJava.
berghofe@23783
  1082
berghofe@23783
  1083
  INCOMPATIBILITIES:
berghofe@23783
  1084
berghofe@23783
  1085
  - Since declaration and definition of inductive sets or predicates
wenzelm@24800
  1086
    is no longer separated, abbreviations involving the newly
wenzelm@24800
  1087
    introduced sets or predicates must be specified together with the
wenzelm@24800
  1088
    introduction rules after the 'where' keyword (see above), rather
wenzelm@24800
  1089
    than before the actual inductive definition.
wenzelm@24800
  1090
wenzelm@24800
  1091
  - The variables in induction and elimination rules are now
wenzelm@24800
  1092
    quantified in the order of their occurrence in the introduction
wenzelm@24800
  1093
    rules, rather than in alphabetical order. Since this may break
wenzelm@24800
  1094
    some proofs, these proofs either have to be repaired, e.g. by
wenzelm@24800
  1095
    reordering the variables a_i_1 ... a_i_{k_i} in Isar 'case'
wenzelm@24800
  1096
    statements of the form
berghofe@23783
  1097
berghofe@23783
  1098
      case (rule_i a_i_1 ... a_i_{k_i})
berghofe@23783
  1099
berghofe@23783
  1100
    or the old order of quantification has to be restored by explicitly adding
berghofe@23783
  1101
    meta-level quantifiers in the introduction rules, i.e.
berghofe@23783
  1102
berghofe@23783
  1103
      | rule_i: "!!a_i_1 ... a_i_{k_i}. ... ==> p z_1 ... z_m t_i_1 ... t_i_n"
berghofe@23783
  1104
berghofe@23783
  1105
  - The format of the elimination rules is now
berghofe@23783
  1106
berghofe@23783
  1107
      p z_1 ... z_m x_1 ... x_n ==>
berghofe@23783
  1108
        (!!a_1_1 ... a_1_{k_1}. x_1 = t_1_1 ==> ... ==> x_n = t_1_n ==> ... ==> P)
berghofe@23783
  1109
        ==> ... ==> P
berghofe@23783
  1110
berghofe@23783
  1111
    for predicates and
berghofe@23783
  1112
berghofe@23783
  1113
      (x_1, ..., x_n) : s z_1 ... z_m ==>
berghofe@23783
  1114
        (!!a_1_1 ... a_1_{k_1}. x_1 = t_1_1 ==> ... ==> x_n = t_1_n ==> ... ==> P)
berghofe@23783
  1115
        ==> ... ==> P
berghofe@23783
  1116
berghofe@23783
  1117
    for sets rather than
berghofe@23783
  1118
berghofe@23783
  1119
      x : s z_1 ... z_m ==>
berghofe@23783
  1120
        (!!a_1_1 ... a_1_{k_1}. x = (t_1_1, ..., t_1_n) ==> ... ==> P)
berghofe@23783
  1121
        ==> ... ==> P
berghofe@23783
  1122
wenzelm@24800
  1123
    This may require terms in goals to be expanded to n-tuples
wenzelm@24800
  1124
    (e.g. using case_tac or simplification with the split_paired_all
wenzelm@24800
  1125
    rule) before the above elimination rule is applicable.
wenzelm@24800
  1126
wenzelm@24800
  1127
  - The elimination or case analysis rules for (mutually) inductive
wenzelm@24800
  1128
    sets or predicates are now called "p_1.cases" ... "p_k.cases". The
wenzelm@24800
  1129
    list of rules "p_1_..._p_k.elims" is no longer available.
berghofe@23783
  1130
krauss@25198
  1131
* New package "function"/"fun" for general recursive functions,
krauss@25198
  1132
supporting mutual and nested recursion, definitions in local contexts,
krauss@25198
  1133
more general pattern matching and partiality. See HOL/ex/Fundefs.thy
krauss@25198
  1134
for small examples, and the separate tutorial on the function
krauss@25198
  1135
package. The old recdef "package" is still available as before, but
krauss@25198
  1136
users are encouraged to use the new package.
krauss@25198
  1137
krauss@25198
  1138
* Method "lexicographic_order" automatically synthesizes termination
krauss@25198
  1139
relations as lexicographic combinations of size measures. 
krauss@25198
  1140
wenzelm@24800
  1141
* Case-expressions allow arbitrary constructor-patterns (including
wenzelm@24800
  1142
"_") and take their order into account, like in functional
wenzelm@24800
  1143
programming.  Internally, this is translated into nested
wenzelm@24800
  1144
case-expressions; missing cases are added and mapped to the predefined
wenzelm@24800
  1145
constant "undefined". In complicated cases printing may no longer show
wenzelm@24800
  1146
the original input but the internal form. Lambda-abstractions allow
wenzelm@24800
  1147
the same form of pattern matching: "% pat1 => e1 | ..." is an
wenzelm@24800
  1148
abbreviation for "%x. case x of pat1 => e1 | ..." where x is a new
wenzelm@24800
  1149
variable.
nipkow@23564
  1150
huffman@23468
  1151
* IntDef: The constant "int :: nat => int" has been removed; now "int"
wenzelm@24800
  1152
is an abbreviation for "of_nat :: nat => int". The simplification
wenzelm@24800
  1153
rules for "of_nat" have been changed to work like "int" did
wenzelm@24800
  1154
previously.  Potential INCOMPATIBILITY:
huffman@23468
  1155
  - "of_nat (Suc m)" simplifies to "1 + of_nat m" instead of "of_nat m + 1"
huffman@23468
  1156
  - of_nat_diff and of_nat_mult are no longer default simp rules
huffman@23377
  1157
chaieb@23295
  1158
* Method "algebra" solves polynomial equations over (semi)rings using
wenzelm@24800
  1159
Groebner bases. The (semi)ring structure is defined by locales and the
wenzelm@24800
  1160
tool setup depends on that generic context. Installing the method for
wenzelm@24800
  1161
a specific type involves instantiating the locale and possibly adding
wenzelm@24800
  1162
declarations for computation on the coefficients.  The method is
wenzelm@24800
  1163
already instantiated for natural numbers and for the axiomatic class
wenzelm@24800
  1164
of idoms with numerals.  See also the paper by Chaieb and Wenzel at
wenzelm@24800
  1165
CALCULEMUS 2007 for the general principles underlying this
wenzelm@24800
  1166
architecture of context-aware proof-tools.
wenzelm@24800
  1167
wenzelm@25033
  1168
* Method "ferrack" implements quantifier elimination over
wenzelm@25033
  1169
special-purpose dense linear orders using locales (analogous to
wenzelm@25033
  1170
"algebra"). The method is already installed for class
wenzelm@25033
  1171
{ordered_field,recpower,number_ring} which subsumes real, hyperreal,
wenzelm@25033
  1172
rat, etc.
wenzelm@25033
  1173
wenzelm@24800
  1174
* Former constant "List.op @" now named "List.append".  Use ML
wenzelm@24800
  1175
antiquotations @{const_name List.append} or @{term " ... @ ... "} to
wenzelm@24800
  1176
circumvent possible incompatibilities when working on ML level.
wenzelm@24800
  1177
haftmann@24996
  1178
* primrec: missing cases mapped to "undefined" instead of "arbitrary".
haftmann@22845
  1179
wenzelm@24800
  1180
* New function listsum :: 'a list => 'a for arbitrary monoids.
wenzelm@24800
  1181
Special syntax: "SUM x <- xs. f x" (and latex variants)
wenzelm@24800
  1182
wenzelm@24800
  1183
* New syntax for Haskell-like list comprehension (input only), eg.
wenzelm@25177
  1184
[(x,y). x <- xs, y <- ys, x ~= y], see also src/HOL/List.thy.
wenzelm@24800
  1185
wenzelm@24800
  1186
* The special syntax for function "filter" has changed from [x :
wenzelm@24800
  1187
xs. P] to [x <- xs. P] to avoid an ambiguity caused by list
wenzelm@24800
  1188
comprehension syntax, and for uniformity.  INCOMPATIBILITY.
wenzelm@24800
  1189
wenzelm@24800
  1190
* [a..b] is now defined for arbitrary linear orders.  It used to be
wenzelm@24800
  1191
defined on nat only, as an abbreviation for [a..<Suc b]
wenzelm@24800
  1192
INCOMPATIBILITY.
wenzelm@24800
  1193
wenzelm@24800
  1194
* Renamed lemma "set_take_whileD"  to "set_takeWhileD".
wenzelm@24800
  1195
wenzelm@25177
  1196
* New functions "sorted" and "sort" in src/HOL/List.thy.
wenzelm@24800
  1197
wenzelm@24800
  1198
* New lemma collection field_simps (an extension of ring_simps) for
wenzelm@24800
  1199
manipulating (in)equations involving division. Multiplies with all
wenzelm@24800
  1200
denominators that can be proved to be non-zero (in equations) or
wenzelm@24800
  1201
positive/negative (in inequations).
nipkow@23480
  1202
nipkow@23480
  1203
* Lemma collections ring_eq_simps, group_eq_simps and ring_distrib
wenzelm@24800
  1204
have been improved and renamed to ring_simps, group_simps and
wenzelm@24800
  1205
ring_distribs.  Removed lemmas field_xyz in theory Ring_and_Field
wenzelm@24800
  1206
because they were subsumed by lemmas xyz.  INCOMPATIBILITY.
wenzelm@24800
  1207
wenzelm@25177
  1208
* Theory Library/Commutative_Ring: switched from recdef to function
wenzelm@24800
  1209
package; constants add, mul, pow now curried.  Infix syntax for
wenzelm@24800
  1210
algebraic operations.
haftmann@22735
  1211
wenzelm@24800
  1212
* Dropped redundant lemma def_imp_eq in favor of meta_eq_to_obj_eq.
haftmann@22218
  1213
INCOMPATIBILITY.
haftmann@22218
  1214
wenzelm@24800
  1215
* Dropped redundant lemma if_def2 in favor of if_bool_eq_conj.
haftmann@22218
  1216
INCOMPATIBILITY.
haftmann@22218
  1217
wenzelm@22126
  1218
* HOL/records: generalised field-update to take a function on the
wenzelm@22126
  1219
field rather than the new value: r(|A := x|) is translated to A_update
wenzelm@22126
  1220
(K x) r The K-combinator that is internally used is called K_record.
schirmer@21226
  1221
INCOMPATIBILITY: Usage of the plain update functions has to be
schirmer@21226
  1222
adapted.
schirmer@21226
  1223
 
wenzelm@24800
  1224
* Class "semiring_0" now contains annihilation axioms x * 0 = 0 and 0
wenzelm@24800
  1225
* x = 0, which are required for a semiring.  Richer structures do not
wenzelm@24800
  1226
inherit from semiring_0 anymore, because this property is a theorem
wenzelm@24800
  1227
there, not an axiom.  INCOMPATIBILITY: In instances of semiring_0,
wenzelm@24800
  1228
there is more to prove, but this is mostly trivial.
wenzelm@24800
  1229
wenzelm@24800
  1230
* Class "recpower" is generalized to arbitrary monoids, not just
wenzelm@24800
  1231
commutative semirings.  INCOMPATIBILITY: may need to incorporate
haftmann@25163
  1232
commutativity or semiring properties additionally.
haftmann@21215
  1233
haftmann@21099
  1234
* Constant "List.list_all2" in List.thy now uses authentic syntax.
wenzelm@24800
  1235
INCOMPATIBILITY: translations containing list_all2 may go wrong,
wenzelm@24800
  1236
better use 'abbreviation'.
wenzelm@24800
  1237
wenzelm@24800
  1238
* Renamed constant "List.op mem" to "List.member".  INCOMPATIBILITY.
wenzelm@24800
  1239
wenzelm@22126
  1240
* Numeral syntax: type 'bin' which was a mere type copy of 'int' has
wenzelm@24800
  1241
been abandoned in favour of plain 'int'.  INCOMPATIBILITY --
wenzelm@22126
  1242
significant changes for setting up numeral syntax for types:
wenzelm@24800
  1243
  - New constants Numeral.pred and Numeral.succ instead
haftmann@20485
  1244
      of former Numeral.bin_pred and Numeral.bin_succ.
haftmann@20485
  1245
  - Use integer operations instead of bin_add, bin_mult and so on.
haftmann@20485
  1246
  - Numeral simplification theorems named Numeral.numeral_simps instead of Bin_simps.
haftmann@20485
  1247
  - ML structure Bin_Simprocs now named Int_Numeral_Base_Simprocs.
haftmann@20485
  1248
wenzelm@25177
  1249
See src/HOL/Integ/IntArith.thy for an example setup.
wenzelm@25177
  1250
wenzelm@25177
  1251
* Command 'normal_form' computes the normal form of a term that may
wenzelm@25177
  1252
contain free variables.  For example ``normal_form "rev [a, b, c]"''
wenzelm@25177
  1253
produces ``[b, c, a]'' (without proof).  This command is suitable for
wenzelm@25177
  1254
heavy-duty computations because the functions are compiled to ML
wenzelm@25177
  1255
first.  Correspondingly, a method "normalization" is provided.  See
wenzelm@25177
  1256
further src/HOL/ex/NormalForm.thy and src/Tools/nbe.ML.
nipkow@19895
  1257
wenzelm@17996
  1258
* Alternative iff syntax "A <-> B" for equality on bool (with priority
wenzelm@17996
  1259
25 like -->); output depends on the "iff" print_mode, the default is
wenzelm@17996
  1260
"A = B" (with priority 50).
wenzelm@17996
  1261
wenzelm@21265
  1262
* Relations less (<) and less_eq (<=) are also available on type bool.
wenzelm@21265
  1263
Modified syntax to disallow nesting without explicit parentheses,
wenzelm@24800
  1264
e.g. "(x < y) < z" or "x < (y < z)", but NOT "x < y < z".  Potential
wenzelm@24800
  1265
INCOMPATIBILITY.
wenzelm@21265
  1266
nipkow@18674
  1267
* "LEAST x:A. P" expands to "LEAST x. x:A & P" (input only).
nipkow@18674
  1268
krauss@20716
  1269
* Relation composition operator "op O" now has precedence 75 and binds
krauss@20716
  1270
stronger than union and intersection. INCOMPATIBILITY.
krauss@20716
  1271
wenzelm@22126
  1272
* The old set interval syntax "{m..n(}" (and relatives) has been
wenzelm@22126
  1273
removed.  Use "{m..<n}" (and relatives) instead.
nipkow@19377
  1274
wenzelm@17865
  1275
* In the context of the assumption "~(s = t)" the Simplifier rewrites
wenzelm@24800
  1276
"t = s" to False (by simproc "neq").  INCOMPATIBILITY, consider using
wenzelm@24800
  1277
``declare [[simproc del: neq]]''.
wenzelm@24800
  1278
wenzelm@24800
  1279
* Simplifier: "m dvd n" where m and n are numbers is evaluated to
wenzelm@24800
  1280
True/False.
wenzelm@24800
  1281
wenzelm@24800
  1282
* Theorem Cons_eq_map_conv no longer declared as "simp".
nipkow@19211
  1283
ballarin@19279
  1284
* Theorem setsum_mult renamed to setsum_right_distrib.
ballarin@19279
  1285
nipkow@19211
  1286
* Prefer ex1I over ex_ex1I in single-step reasoning, e.g. by the
wenzelm@22126
  1287
``rule'' method.
wenzelm@22126
  1288
wenzelm@24800
  1289
* Reimplemented methods "sat" and "satx", with several improvements:
wenzelm@24800
  1290
goals no longer need to be stated as "<prems> ==> False", equivalences
wenzelm@24800
  1291
(i.e. "=" on type bool) are handled, variable names of the form
wenzelm@24800
  1292
"lit_<n>" are no longer reserved, significant speedup.
wenzelm@24800
  1293
wenzelm@24800
  1294
* Methods "sat" and "satx" can now replay MiniSat proof traces.
wenzelm@22126
  1295
zChaff is still supported as well.
wenzelm@22126
  1296
wenzelm@22126
  1297
* 'inductive' and 'datatype': provide projections of mutual rules,
wenzelm@22126
  1298
bundled as foo_bar.inducts;
wenzelm@22126
  1299
wenzelm@22126
  1300
* Library: moved theories Parity, GCD, Binomial, Infinite_Set to
wenzelm@22126
  1301
Library.
wenzelm@21256
  1302
wenzelm@21256
  1303
* Library: moved theory Accessible_Part to main HOL.
wenzelm@19572
  1304
wenzelm@18446
  1305
* Library: added theory Coinductive_List of potentially infinite lists
wenzelm@18446
  1306
as greatest fixed-point.
wenzelm@18399
  1307
wenzelm@19254
  1308
* Library: added theory AssocList which implements (finite) maps as
schirmer@19252
  1309
association lists.
webertj@17809
  1310
wenzelm@24800
  1311
* Method "evaluation" solves goals (i.e. a boolean expression)
wenzelm@24800
  1312
efficiently by compiling it to ML.  The goal is "proved" (via an
wenzelm@24800
  1313
oracle) if it evaluates to True.
wenzelm@20807
  1314
wenzelm@20807
  1315
* Linear arithmetic now splits certain operators (e.g. min, max, abs)
wenzelm@24800
  1316
also when invoked by the simplifier.  This results in the Simplifier
wenzelm@24800
  1317
being more powerful on arithmetic goals.  INCOMPATIBILITY.
wenzelm@24800
  1318
Configuration option fast_arith_split_limit=0 recovers the old
wenzelm@24800
  1319
behavior.
webertj@20217
  1320
wenzelm@22126
  1321
* Support for hex (0x20) and binary (0b1001) numerals.
wenzelm@19254
  1322
wenzelm@20807
  1323
* New method: reify eqs (t), where eqs are equations for an
wenzelm@20807
  1324
interpretation I :: 'a list => 'b => 'c and t::'c is an optional
wenzelm@20807
  1325
parameter, computes a term s::'b and a list xs::'a list and proves the
wenzelm@20807
  1326
theorem I xs s = t. This is also known as reification or quoting. The
wenzelm@20807
  1327
resulting theorem is applied to the subgoal to substitute t with I xs
wenzelm@20807
  1328
s.  If t is omitted, the subgoal itself is reified.
wenzelm@20807
  1329
wenzelm@20807
  1330
* New method: reflection corr_thm eqs (t). The parameters eqs and (t)
wenzelm@20807
  1331
are as explained above. corr_thm is a theorem for I vs (f t) = I vs t,
wenzelm@20807
  1332
where f is supposed to be a computable function (in the sense of code
wenzelm@20807
  1333
generattion). The method uses reify to compute s and xs as above then
wenzelm@20807
  1334
applies corr_thm and uses normalization by evaluation to "prove" f s =
wenzelm@20807
  1335
r and finally gets the theorem t = r, which is again applied to the
wenzelm@25177
  1336
subgoal. An Example is available in src/HOL/ex/ReflectionEx.thy.
wenzelm@25177
  1337
wenzelm@25177
  1338
* Reflection: Automatic reification now handels binding, an example is
wenzelm@25177
  1339
available in src/HOL/ex/ReflectionEx.thy
wenzelm@20807
  1340
wenzelm@25397
  1341
* HOL-Statespace: ``State Spaces: The Locale Way'' introduces a
schirmer@25409
  1342
command 'statespace' that is similar to 'record', but introduces an
wenzelm@25397
  1343
abstract specification based on the locale infrastructure instead of
wenzelm@25397
  1344
HOL types.  This leads to extra flexibility in composing state spaces,
wenzelm@25397
  1345
in particular multiple inheritance and renaming of components.
wenzelm@25397
  1346
wenzelm@25397
  1347
wenzelm@19653
  1348
*** HOL-Complex ***
wenzelm@19653
  1349
huffman@22971
  1350
* Hyperreal: Functions root and sqrt are now defined on negative real
huffman@22971
  1351
inputs so that root n (- x) = - root n x and sqrt (- x) = - sqrt x.
huffman@22971
  1352
Nonnegativity side conditions have been removed from many lemmas, so
huffman@22971
  1353
that more subgoals may now be solved by simplification; potential
huffman@22971
  1354
INCOMPATIBILITY.
huffman@22971
  1355
wenzelm@24800
  1356
* Real: new type classes formalize real normed vector spaces and
huffman@21791
  1357
algebras, using new overloaded constants scaleR :: real => 'a => 'a
huffman@21791
  1358
and norm :: 'a => real.
huffman@21791
  1359
wenzelm@24800
  1360
* Real: constant of_real :: real => 'a::real_algebra_1 injects from
wenzelm@24800
  1361
reals into other types. The overloaded constant Reals :: 'a set is now
wenzelm@24800
  1362
defined as range of_real; potential INCOMPATIBILITY.
wenzelm@24800
  1363
wenzelm@24800
  1364
* Real: proper support for ML code generation, including 'quickcheck'.
nipkow@23013
  1365
Reals are implemented as arbitrary precision rationals.
nipkow@23013
  1366
wenzelm@22126
  1367
* Hyperreal: Several constants that previously worked only for the
wenzelm@22126
  1368
reals have been generalized, so they now work over arbitrary vector
wenzelm@22126
  1369
spaces. Type annotations may need to be added in some cases; potential
wenzelm@22126
  1370
INCOMPATIBILITY.
huffman@21791
  1371
huffman@22972
  1372
  Infinitesimal  :: ('a::real_normed_vector) star set
huffman@22972
  1373
  HFinite        :: ('a::real_normed_vector) star set
huffman@22972
  1374
  HInfinite      :: ('a::real_normed_vector) star set
huffman@21791
  1375
  approx         :: ('a::real_normed_vector) star => 'a star => bool
huffman@21791
  1376
  monad          :: ('a::real_normed_vector) star => 'a star set
huffman@21791
  1377
  galaxy         :: ('a::real_normed_vector) star => 'a star set
huffman@22972
  1378
  (NS)LIMSEQ     :: [nat => 'a::real_normed_vector, 'a] => bool
huffman@21791
  1379
  (NS)convergent :: (nat => 'a::real_normed_vector) => bool
huffman@21791
  1380
  (NS)Bseq       :: (nat => 'a::real_normed_vector) => bool
huffman@21791
  1381
  (NS)Cauchy     :: (nat => 'a::real_normed_vector) => bool
huffman@21791
  1382
  (NS)LIM        :: ['a::real_normed_vector => 'b::real_normed_vector, 'a, 'b] => bool
huffman@21791
  1383
  is(NS)Cont     :: ['a::real_normed_vector => 'b::real_normed_vector, 'a] => bool
huffman@21791
  1384
  deriv          :: ['a::real_normed_field => 'a, 'a, 'a] => bool
huffman@22972
  1385
  sgn            :: 'a::real_normed_vector => 'a
huffman@23116
  1386
  exp            :: 'a::{recpower,real_normed_field,banach} => 'a
huffman@21791
  1387
huffman@21791
  1388
* Complex: Some complex-specific constants are now abbreviations for
wenzelm@22126
  1389
overloaded ones: complex_of_real = of_real, cmod = norm, hcmod =
wenzelm@22126
  1390
hnorm.  Other constants have been entirely removed in favor of the
wenzelm@22126
  1391
polymorphic versions (INCOMPATIBILITY):
huffman@21791
  1392
huffman@21791
  1393
  approx        <-- capprox
huffman@21791
  1394
  HFinite       <-- CFinite
huffman@21791
  1395
  HInfinite     <-- CInfinite
huffman@21791
  1396
  Infinitesimal <-- CInfinitesimal
huffman@21791
  1397
  monad         <-- cmonad
huffman@21791
  1398
  galaxy        <-- cgalaxy
huffman@21791
  1399
  (NS)LIM       <-- (NS)CLIM, (NS)CRLIM
huffman@21791
  1400
  is(NS)Cont    <-- is(NS)Contc, is(NS)contCR
huffman@21791
  1401
  (ns)deriv     <-- (ns)cderiv
huffman@21791
  1402
wenzelm@19653
  1403
wenzelm@24801
  1404
*** HOL-Algebra ***
wenzelm@24801
  1405
wenzelm@24801
  1406
* Formalisation of ideals and the quotient construction over rings.
wenzelm@24801
  1407
wenzelm@24801
  1408
* Order and lattice theory no longer based on records.
wenzelm@24801
  1409
INCOMPATIBILITY.
wenzelm@24801
  1410
wenzelm@24801
  1411
* Renamed lemmas least_carrier -> least_closed and greatest_carrier ->
wenzelm@24801
  1412
greatest_closed.  INCOMPATIBILITY.
wenzelm@24801
  1413
wenzelm@24801
  1414
* Method algebra is now set up via an attribute.  For examples see
wenzelm@24801
  1415
Ring.thy.  INCOMPATIBILITY: the method is now weaker on combinations
wenzelm@24801
  1416
of algebraic structures.
wenzelm@24801
  1417
wenzelm@24801
  1418
* Renamed theory CRing to Ring.
wenzelm@24801
  1419
wenzelm@24801
  1420
wenzelm@24801
  1421
*** HOL-Nominal ***
wenzelm@24801
  1422
wenzelm@25148
  1423
* Substantial, yet incomplete support for nominal datatypes (binding
wenzelm@25177
  1424
structures) based on HOL-Nominal logic.  See src/HOL/Nominal and
wenzelm@25177
  1425
src/HOL/Nominal/Examples.  Prospective users should consult
wenzelm@25148
  1426
http://isabelle.in.tum.de/nominal/
wenzelm@25148
  1427
wenzelm@24801
  1428
wenzelm@17878
  1429
*** ML ***
wenzelm@17878
  1430
wenzelm@24643
  1431
* ML basics: just one true type int, which coincides with IntInf.int
wenzelm@24643
  1432
(even on SML/NJ).
wenzelm@24643
  1433
wenzelm@22138
  1434
* ML within Isar: antiquotations allow to embed statically-checked
wenzelm@22138
  1435
formal entities in the source, referring to the context available at
wenzelm@22138
  1436
compile-time.  For example:
wenzelm@22138
  1437
wenzelm@25142
  1438
ML {* @{sort "{zero,one}"} *}
wenzelm@22138
  1439
ML {* @{typ "'a => 'b"} *}
wenzelm@22138
  1440
ML {* @{term "%x. x"} *}
wenzelm@22138
  1441
ML {* @{prop "x == y"} *}
wenzelm@22138
  1442
ML {* @{ctyp "'a => 'b"} *}
wenzelm@22138
  1443
ML {* @{cterm "%x. x"} *}
wenzelm@22138
  1444
ML {* @{cprop "x == y"} *}
wenzelm@22138
  1445
ML {* @{thm asm_rl} *}
wenzelm@22138
  1446
ML {* @{thms asm_rl} *}
wenzelm@24692
  1447
ML {* @{type_name c} *}
wenzelm@25142
  1448
ML {* @{type_syntax c} *}
wenzelm@22376
  1449
ML {* @{const_name c} *}
wenzelm@22376
  1450
ML {* @{const_syntax c} *}
wenzelm@22138
  1451
ML {* @{context} *}
wenzelm@22138
  1452
ML {* @{theory} *}
wenzelm@22138
  1453
ML {* @{theory Pure} *}
wenzelm@24692
  1454
ML {* @{theory_ref} *}
wenzelm@24692
  1455
ML {* @{theory_ref Pure} *}
wenzelm@22138
  1456
ML {* @{simpset} *}
wenzelm@22138
  1457
ML {* @{claset} *}
wenzelm@22138
  1458
ML {* @{clasimpset} *}
wenzelm@22138
  1459
wenzelm@22151
  1460
The same works for sources being ``used'' within an Isar context.
wenzelm@22151
  1461
wenzelm@22152
  1462
* ML in Isar: improved error reporting; extra verbosity with
wenzelm@24706
  1463
ML_Context.trace enabled.
wenzelm@22152
  1464
wenzelm@19032
  1465
* Pure/General/table.ML: the join operations now works via exceptions
wenzelm@24706
  1466
DUP/SAME instead of type option. This is simpler in simple cases, and
wenzelm@19081
  1467
admits slightly more efficient complex applications.
wenzelm@18446
  1468
wenzelm@24800
  1469
* Pure: 'advanced' translation functions (parse_translation etc.) now
wenzelm@24800
  1470
use Context.generic instead of just theory.
wenzelm@24800
  1471
wenzelm@18642
  1472
* Pure: datatype Context.generic joins theory/Proof.context and
wenzelm@18644
  1473
provides some facilities for code that works in either kind of
wenzelm@18642
  1474
context, notably GenericDataFun for uniform theory and proof data.
wenzelm@18642
  1475
wenzelm@18737
  1476
* Pure: simplified internal attribute type, which is now always
wenzelm@24706
  1477
Context.generic * thm -> Context.generic * thm. Global (theory) vs.
wenzelm@24706
  1478
local (Proof.context) attributes have been discontinued, while
wenzelm@24706
  1479
minimizing code duplication. Thm.rule_attribute and
wenzelm@24706
  1480
Thm.declaration_attribute build canonical attributes; see also structure
wenzelm@24706
  1481
Context for further operations on Context.generic, notably
wenzelm@24706
  1482
GenericDataFun. INCOMPATIBILITY, need to adapt attribute type
wenzelm@19006
  1483
declarations and definitions.
wenzelm@19006
  1484
wenzelm@24800
  1485
* Context data interfaces (Theory/Proof/GenericDataFun): removed
wenzelm@24800
  1486
name/print, uninitialized data defaults to ad-hoc copy of empty value,
wenzelm@24800
  1487
init only required for impure data. INCOMPATIBILITY: empty really need
wenzelm@24800
  1488
to be empty (no dependencies on theory content!)
wenzelm@24800
  1489
wenzelm@19508
  1490
* Pure/kernel: consts certification ignores sort constraints given in
wenzelm@24800
  1491
signature declarations. (This information is not relevant to the
wenzelm@24800
  1492
logic, but only for type inference.) SIGNIFICANT INTERNAL CHANGE,
wenzelm@24800
  1493
potential INCOMPATIBILITY.
wenzelm@19508
  1494
wenzelm@19508
  1495
* Pure: axiomatic type classes are now purely definitional, with
wenzelm@19508
  1496
explicit proofs of class axioms and super class relations performed
wenzelm@24706
  1497
internally. See Pure/axclass.ML for the main internal interfaces --
wenzelm@19508
  1498
notably AxClass.define_class supercedes AxClass.add_axclass, and
wenzelm@24706
  1499
AxClass.axiomatize_class/classrel/arity supersede
wenzelm@19508
  1500
Sign.add_classes/classrel/arities.
wenzelm@19508
  1501
wenzelm@19006
  1502
* Pure/Isar: Args/Attrib parsers operate on Context.generic --
wenzelm@19006
  1503
global/local versions on theory vs. Proof.context have been
wenzelm@19006
  1504
discontinued; Attrib.syntax and Method.syntax have been adapted
wenzelm@19006
  1505
accordingly.  INCOMPATIBILITY, need to adapt parser expressions for
wenzelm@19006
  1506
attributes, methods, etc.
wenzelm@18642
  1507
wenzelm@18446
  1508
* Pure: several functions of signature "... -> theory -> theory * ..."
wenzelm@18446
  1509
have been reoriented to "... -> theory -> ... * theory" in order to
wenzelm@18446
  1510
allow natural usage in combination with the ||>, ||>>, |-> and
wenzelm@18446
  1511
fold_map combinators.
haftmann@18051
  1512
wenzelm@21647
  1513
* Pure: official theorem names (closed derivations) and additional
wenzelm@21647
  1514
comments (tags) are now strictly separate.  Name hints -- which are
wenzelm@21647
  1515
maintained as tags -- may be attached any time without affecting the
wenzelm@21647
  1516
derivation.
wenzelm@21647
  1517
wenzelm@18020
  1518
* Pure: primitive rule lift_rule now takes goal cterm instead of an
wenzelm@18145
  1519
actual goal state (thm).  Use Thm.lift_rule (Thm.cprem_of st i) to
wenzelm@18020
  1520
achieve the old behaviour.
wenzelm@18020
  1521
wenzelm@18020
  1522
* Pure: the "Goal" constant is now called "prop", supporting a
wenzelm@18020
  1523
slightly more general idea of ``protecting'' meta-level rule
wenzelm@18020
  1524
statements.
wenzelm@18020
  1525
wenzelm@20040
  1526
* Pure: Logic.(un)varify only works in a global context, which is now
wenzelm@20040
  1527
enforced instead of silently assumed.  INCOMPATIBILITY, may use
wenzelm@20040
  1528
Logic.legacy_(un)varify as temporary workaround.
wenzelm@20040
  1529
wenzelm@20090
  1530
* Pure: structure Name provides scalable operations for generating
wenzelm@20090
  1531
internal variable names, notably Name.variants etc.  This replaces
wenzelm@20090
  1532
some popular functions from term.ML:
wenzelm@20090
  1533
wenzelm@20090
  1534
  Term.variant		->  Name.variant
wenzelm@24800
  1535
  Term.variantlist	->  Name.variant_list
wenzelm@20090
  1536
  Term.invent_names	->  Name.invent_list
wenzelm@20090
  1537
wenzelm@20090
  1538
Note that low-level renaming rarely occurs in new code -- operations
wenzelm@20090
  1539
from structure Variable are used instead (see below).
wenzelm@20090
  1540
wenzelm@20040
  1541
* Pure: structure Variable provides fundamental operations for proper
wenzelm@20040
  1542
treatment of fixed/schematic variables in a context.  For example,
wenzelm@20040
  1543
Variable.import introduces fixes for schematics of given facts and
wenzelm@20040
  1544
Variable.export reverses the effect (up to renaming) -- this replaces
wenzelm@20040
  1545
various freeze_thaw operations.
wenzelm@20040
  1546
wenzelm@18567
  1547
* Pure: structure Goal provides simple interfaces for
wenzelm@17981
  1548
init/conclude/finish and tactical prove operations (replacing former
wenzelm@20040
  1549
Tactic.prove).  Goal.prove is the canonical way to prove results
wenzelm@20040
  1550
within a given context; Goal.prove_global is a degraded version for
wenzelm@20040
  1551
theory level goals, including a global Drule.standard.  Note that
wenzelm@20040
  1552
OldGoals.prove_goalw_cterm has long been obsolete, since it is
wenzelm@20040
  1553
ill-behaved in a local proof context (e.g. with local fixes/assumes or
wenzelm@20040
  1554
in a locale context).
wenzelm@17981
  1555
wenzelm@24706
  1556
* Pure/Syntax: generic interfaces for parsing (Syntax.parse_term etc.)
wenzelm@24706
  1557
and type checking (Syntax.check_term etc.), with common combinations
wenzelm@24706
  1558
(Syntax.read_term etc.). These supersede former Sign.read_term etc.
wenzelm@24706
  1559
which are considered legacy and await removal.
wenzelm@24706
  1560
wenzelm@24920
  1561
* Pure/Syntax: generic interfaces for type unchecking
wenzelm@24920
  1562
(Syntax.uncheck_terms etc.) and unparsing (Syntax.unparse_term etc.),
wenzelm@24920
  1563
with common combinations (Syntax.pretty_term, Syntax.string_of_term
wenzelm@24920
  1564
etc.).  Former Sign.pretty_term, Sign.string_of_term etc. are still
wenzelm@24924
  1565
available for convenience, but refer to the very same operations using
wenzelm@24924
  1566
a mere theory instead of a full context.
wenzelm@24920
  1567
wenzelm@18815
  1568
* Isar: simplified treatment of user-level errors, using exception
wenzelm@18687
  1569
ERROR of string uniformly.  Function error now merely raises ERROR,
wenzelm@18686
  1570
without any side effect on output channels.  The Isar toplevel takes
wenzelm@18686
  1571
care of proper display of ERROR exceptions.  ML code may use plain
wenzelm@18686
  1572
handle/can/try; cat_error may be used to concatenate errors like this:
wenzelm@18686
  1573
wenzelm@18686
  1574
  ... handle ERROR msg => cat_error msg "..."
wenzelm@18686
  1575
wenzelm@18686
  1576
Toplevel ML code (run directly or through the Isar toplevel) may be
wenzelm@18687
  1577
embedded into the Isar toplevel with exception display/debug like
wenzelm@18687
  1578
this:
wenzelm@18686
  1579
wenzelm@18686
  1580
  Isar.toplevel (fn () => ...)
wenzelm@18686
  1581
wenzelm@18686
  1582
INCOMPATIBILITY, removed special transform_error facilities, removed
wenzelm@18686
  1583
obsolete variants of user-level exceptions (ERROR_MESSAGE,
wenzelm@18686
  1584
Context.PROOF, ProofContext.CONTEXT, Proof.STATE, ProofHistory.FAIL)
wenzelm@18686
  1585
-- use plain ERROR instead.
wenzelm@18686
  1586
wenzelm@18815
  1587
* Isar: theory setup now has type (theory -> theory), instead of a
wenzelm@18722
  1588
list.  INCOMPATIBILITY, may use #> to compose setup functions.
wenzelm@18722
  1589
wenzelm@24706
  1590
* Isar: ML toplevel pretty printer for type Proof.context, subject to
wenzelm@24706
  1591
ProofContext.debug/verbose flags.
wenzelm@18815
  1592
wenzelm@18815
  1593
* Isar: Toplevel.theory_to_proof admits transactions that modify the
wenzelm@18815
  1594
theory before entering a proof state.  Transactions now always see a
wenzelm@18815
  1595
quasi-functional intermediate checkpoint, both in interactive and
wenzelm@18590
  1596
batch mode.
wenzelm@18567
  1597
wenzelm@24867
  1598
* Isar: simplified interfaces for outer syntax.  Renamed
wenzelm@24867
  1599
OuterSyntax.add_keywords to OuterSyntax.keywords.  Removed
wenzelm@24867
  1600
OuterSyntax.add_parsers -- this functionality is now included in
wenzelm@24867
  1601
OuterSyntax.command etc.  INCOMPATIBILITY.
wenzelm@24867
  1602
wenzelm@17878
  1603
* Simplifier: the simpset of a running simplification process now
wenzelm@17878
  1604
contains a proof context (cf. Simplifier.the_context), which is the
wenzelm@17878
  1605
very context that the initial simpset has been retrieved from (by
wenzelm@17890
  1606
simpset_of/local_simpset_of).  Consequently, all plug-in components
wenzelm@17878
  1607
(solver, looper etc.) may depend on arbitrary proof data.
wenzelm@17878
  1608
wenzelm@17878
  1609
* Simplifier.inherit_context inherits the proof context (plus the
wenzelm@17878
  1610
local bounds) of the current simplification process; any simproc
wenzelm@17878
  1611
etc. that calls the Simplifier recursively should do this!  Removed
wenzelm@17878
  1612
former Simplifier.inherit_bounds, which is already included here --
wenzelm@17890
  1613
INCOMPATIBILITY.  Tools based on low-level rewriting may even have to
wenzelm@17890
  1614
specify an explicit context using Simplifier.context/theory_context.
wenzelm@17878
  1615
wenzelm@17878
  1616
* Simplifier/Classical Reasoner: more abstract interfaces
wenzelm@17878
  1617
change_simpset/claset for modifying the simpset/claset reference of a
wenzelm@17878
  1618
theory; raw versions simpset/claset_ref etc. have been discontinued --
wenzelm@17878
  1619
INCOMPATIBILITY.
wenzelm@17878
  1620
wenzelm@18540
  1621
* Provers: more generic wrt. syntax of object-logics, avoid hardwired
wenzelm@18540
  1622
"Trueprop" etc.
wenzelm@18540
  1623
wenzelm@17878
  1624
wenzelm@20988
  1625
*** System ***
wenzelm@20988
  1626
wenzelm@25433
  1627
* settings: the default heap location within ISABELLE_HOME_USER now
wenzelm@25433
  1628
includes ISABELLE_IDENTIFIER.  This simplifies use of multiple
wenzelm@25433
  1629
Isabelle installations.
wenzelm@21471
  1630
wenzelm@20988
  1631
* isabelle-process: option -S (secure mode) disables some critical
wenzelm@20988
  1632
operations, notably runtime compilation and evaluation of ML source
wenzelm@20988
  1633
code.
wenzelm@20988
  1634
wenzelm@24891
  1635
* Basic Isabelle mode for jEdit, see Isabelle/lib/jedit/.
wenzelm@24891
  1636
wenzelm@24801
  1637
* Support for parallel execution, using native multicore support of
wenzelm@24800
  1638
Poly/ML 5.1.  The theory loader exploits parallelism when processing
wenzelm@24800
  1639
independent theories, according to the given theory header
wenzelm@24800
  1640
specifications. The maximum number of worker threads is specified via
wenzelm@24800
  1641
usedir option -M or the "max-threads" setting in Proof General. A
wenzelm@24800
  1642
speedup factor of 1.5--3.5 can be expected on a 4-core machine, and up
wenzelm@24800
  1643
to 6 on a 8-core machine.  User-code needs to observe certain
wenzelm@24800
  1644
guidelines for thread-safe programming, see appendix A in the Isar
wenzelm@24800
  1645
Implementation manual.
wenzelm@24210
  1646
wenzelm@17754
  1647
wenzelm@25448
  1648
wenzelm@17720
  1649
New in Isabelle2005 (October 2005)
wenzelm@17720
  1650
----------------------------------
wenzelm@14655
  1651
wenzelm@14655
  1652
*** General ***
wenzelm@14655
  1653
nipkow@15130
  1654
* Theory headers: the new header syntax for Isar theories is
nipkow@15130
  1655
nipkow@15130
  1656
  theory <name>
wenzelm@16234
  1657
  imports <theory1> ... <theoryN>
wenzelm@16234
  1658
  uses <file1> ... <fileM>
nipkow@15130
  1659
  begin
nipkow@15130
  1660
wenzelm@16234
  1661
where the 'uses' part is optional.  The previous syntax
wenzelm@16234
  1662
wenzelm@16234
  1663
  theory <name> = <theory1> + ... + <theoryN>:
wenzelm@16234
  1664
wenzelm@16717
  1665
will disappear in the next release.  Use isatool fixheaders to convert
wenzelm@16717
  1666
existing theory files.  Note that there is no change in ancient
wenzelm@17371
  1667
non-Isar theories now, but these will disappear soon.
nipkow@15130
  1668
berghofe@15475
  1669
* Theory loader: parent theories can now also be referred to via
wenzelm@16234
  1670
relative and absolute paths.
wenzelm@16234
  1671
wenzelm@17408
  1672
* Command 'find_theorems' searches for a list of criteria instead of a
wenzelm@17408
  1673
list of constants. Known criteria are: intro, elim, dest, name:string,
wenzelm@17408
  1674
simp:term, and any term. Criteria can be preceded by '-' to select
wenzelm@17408
  1675
theorems that do not match. Intro, elim, dest select theorems that
wenzelm@17408
  1676
match the current goal, name:s selects theorems whose fully qualified
wenzelm@17408
  1677
name contain s, and simp:term selects all simplification rules whose
wenzelm@17408
  1678
lhs match term.  Any other term is interpreted as pattern and selects
wenzelm@17408
  1679
all theorems matching the pattern. Available in ProofGeneral under
wenzelm@17408
  1680
'ProofGeneral -> Find Theorems' or C-c C-f.  Example:
wenzelm@16234
  1681
wenzelm@17275
  1682
  C-c C-f (100) "(_::nat) + _ + _" intro -name: "HOL."
wenzelm@16234
  1683
wenzelm@16234
  1684
prints the last 100 theorems matching the pattern "(_::nat) + _ + _",
wenzelm@16234
  1685
matching the current goal as introduction rule and not having "HOL."
wenzelm@16234
  1686
in their name (i.e. not being defined in theory HOL).
wenzelm@16013
  1687
wenzelm@17408
  1688
* Command 'thms_containing' has been discontinued in favour of
wenzelm@17408
  1689
'find_theorems'; INCOMPATIBILITY.
wenzelm@17408
  1690
wenzelm@17385
  1691
* Communication with Proof General is now 8bit clean, which means that
wenzelm@17385
  1692
Unicode text in UTF-8 encoding may be used within theory texts (both
wenzelm@17408
  1693
formal and informal parts).  Cf. option -U of the Isabelle Proof
wenzelm@17538
  1694
General interface.  Here are some simple examples (cf. src/HOL/ex):
wenzelm@17538
  1695
wenzelm@17538
  1696
  http://isabelle.in.tum.de/library/HOL/ex/Hebrew.html
wenzelm@17538
  1697
  http://isabelle.in.tum.de/library/HOL/ex/Chinese.html
wenzelm@17385
  1698
wenzelm@17425
  1699
* Improved efficiency of the Simplifier and, to a lesser degree, the
wenzelm@17425
  1700
Classical Reasoner.  Typical big applications run around 2 times
wenzelm@17425
  1701
faster.
wenzelm@17425
  1702
wenzelm@15703
  1703
wenzelm@15703
  1704
*** Document preparation ***
wenzelm@15703
  1705
wenzelm@16234
  1706
* Commands 'display_drafts' and 'print_drafts' perform simple output
wenzelm@16234
  1707
of raw sources.  Only those symbols that do not require additional
wenzelm@16234
  1708
LaTeX packages (depending on comments in isabellesym.sty) are
wenzelm@16234
  1709
displayed properly, everything else is left verbatim.  isatool display
wenzelm@16234
  1710
and isatool print are used as front ends (these are subject to the
wenzelm@16234
  1711
DVI/PDF_VIEWER and PRINT_COMMAND settings, respectively).
wenzelm@16234
  1712
wenzelm@17047
  1713
* Command tags control specific markup of certain regions of text,
wenzelm@17047
  1714
notably folding and hiding.  Predefined tags include "theory" (for
wenzelm@17047
  1715
theory begin and end), "proof" for proof commands, and "ML" for
wenzelm@17047
  1716
commands involving ML code; the additional tags "visible" and
wenzelm@17047
  1717
"invisible" are unused by default.  Users may give explicit tag
wenzelm@17047
  1718
specifications in the text, e.g. ''by %invisible (auto)''.  The
wenzelm@17047
  1719
interpretation of tags is determined by the LaTeX job during document
wenzelm@17047
  1720
preparation: see option -V of isatool usedir, or options -n and -t of
wenzelm@17047
  1721
isatool document, or even the LaTeX macros \isakeeptag, \isafoldtag,
wenzelm@17047
  1722
\isadroptag.
wenzelm@17047
  1723
wenzelm@17047
  1724
Several document versions may be produced at the same time via isatool
wenzelm@17047
  1725
usedir (the generated index.html will link all of them).  Typical
wenzelm@17047
  1726
specifications include ''-V document=theory,proof,ML'' to present
wenzelm@17047
  1727
theory/proof/ML parts faithfully, ''-V outline=/proof,/ML'' to fold
wenzelm@17047
  1728
proof and ML commands, and ''-V mutilated=-theory,-proof,-ML'' to omit
wenzelm@17047
  1729
these parts without any formal replacement text.  The Isabelle site
wenzelm@17047
  1730
default settings produce ''document'' and ''outline'' versions as
wenzelm@17047
  1731
specified above.
wenzelm@16234
  1732
haftmann@17402
  1733
* Several new antiquotations:
wenzelm@15979
  1734
wenzelm@15979
  1735
  @{term_type term} prints a term with its type annotated;
wenzelm@15979
  1736
wenzelm@15979
  1737
  @{typeof term} prints the type of a term;
wenzelm@15979
  1738
wenzelm@16234
  1739
  @{const const} is the same as @{term const}, but checks that the
wenzelm@16234
  1740
  argument is a known logical constant;
wenzelm@15979
  1741
wenzelm@15979
  1742
  @{term_style style term} and @{thm_style style thm} print a term or
wenzelm@16234
  1743
  theorem applying a "style" to it
wenzelm@16234
  1744
wenzelm@17117
  1745
  @{ML text}
wenzelm@17117
  1746
wenzelm@16234
  1747
Predefined styles are 'lhs' and 'rhs' printing the lhs/rhs of
wenzelm@16234
  1748
definitions, equations, inequations etc., 'concl' printing only the
schirmer@17393
  1749
conclusion of a meta-logical statement theorem, and 'prem1' .. 'prem19'
wenzelm@16234
  1750
to print the specified premise.  TermStyle.add_style provides an ML
wenzelm@16234
  1751
interface for introducing further styles.  See also the "LaTeX Sugar"
wenzelm@17117
  1752
document practical applications.  The ML antiquotation prints
wenzelm@17117
  1753
type-checked ML expressions verbatim.
wenzelm@16234
  1754
wenzelm@17259
  1755
* Markup commands 'chapter', 'section', 'subsection', 'subsubsection',
wenzelm@17259
  1756
and 'text' support optional locale specification '(in loc)', which
wenzelm@17269
  1757
specifies the default context for interpreting antiquotations.  For
wenzelm@17269
  1758
example: 'text (in lattice) {* @{thm inf_assoc}*}'.
wenzelm@17259
  1759
wenzelm@17259
  1760
* Option 'locale=NAME' of antiquotations specifies an alternative
wenzelm@17259
  1761
context interpreting the subsequent argument.  For example: @{thm
wenzelm@17269
  1762
[locale=lattice] inf_assoc}.
wenzelm@17259
  1763
wenzelm@17097
  1764
* Proper output of proof terms (@{prf ...} and @{full_prf ...}) within
wenzelm@17097
  1765
a proof context.
wenzelm@17097
  1766
wenzelm@17097
  1767
* Proper output of antiquotations for theory commands involving a
wenzelm@17097
  1768
proof context (such as 'locale' or 'theorem (in loc) ...').
wenzelm@17097
  1769
wenzelm@17193
  1770
* Delimiters of outer tokens (string etc.) now produce separate LaTeX
wenzelm@17193
  1771
macros (\isachardoublequoteopen, isachardoublequoteclose etc.).
wenzelm@17193
  1772
wenzelm@17193
  1773
* isatool usedir: new option -C (default true) controls whether option
wenzelm@17193
  1774
-D should include a copy of the original document directory; -C false
wenzelm@17193
  1775
prevents unwanted effects such as copying of administrative CVS data.
wenzelm@17193
  1776
wenzelm@16234
  1777
wenzelm@16234
  1778
*** Pure ***
wenzelm@16234
  1779
wenzelm@16234
  1780
* Considerably improved version of 'constdefs' command.  Now performs
wenzelm@16234
  1781
automatic type-inference of declared constants; additional support for
wenzelm@16234
  1782
local structure declarations (cf. locales and HOL records), see also
wenzelm@16234
  1783
isar-ref manual.  Potential INCOMPATIBILITY: need to observe strictly
wenzelm@16234
  1784
sequential dependencies of definitions within a single 'constdefs'
wenzelm@16234
  1785
section; moreover, the declared name needs to be an identifier.  If
wenzelm@16234
  1786
all fails, consider to fall back on 'consts' and 'defs' separately.
wenzelm@16234
  1787
wenzelm@16234
  1788
* Improved indexed syntax and implicit structures.  First of all,
wenzelm@16234
  1789
indexed syntax provides a notational device for subscripted
wenzelm@16234
  1790
application, using the new syntax \<^bsub>term\<^esub> for arbitrary
wenzelm@16234
  1791
expressions.  Secondly, in a local context with structure
wenzelm@16234
  1792
declarations, number indexes \<^sub>n or the empty index (default
wenzelm@16234
  1793
number 1) refer to a certain fixed variable implicitly; option
wenzelm@16234
  1794
show_structs controls printing of implicit structures.  Typical
wenzelm@16234
  1795
applications of these concepts involve record types and locales.
wenzelm@16234
  1796
wenzelm@16234
  1797
* New command 'no_syntax' removes grammar declarations (and
wenzelm@16234
  1798
translations) resulting from the given syntax specification, which is
wenzelm@16234
  1799
interpreted in the same manner as for the 'syntax' command.
wenzelm@16234
  1800
wenzelm@16234
  1801
* 'Advanced' translation functions (parse_translation etc.) may depend
wenzelm@16234
  1802
on the signature of the theory context being presently used for
wenzelm@16234
  1803
parsing/printing, see also isar-ref manual.
wenzelm@16234
  1804
wenzelm@16856
  1805
* Improved 'oracle' command provides a type-safe interface to turn an
wenzelm@16856
  1806
ML expression of type theory -> T -> term into a primitive rule of
wenzelm@16856
  1807
type theory -> T -> thm (i.e. the functionality of Thm.invoke_oracle
wenzelm@16856
  1808
is already included here); see also FOL/ex/IffExample.thy;
wenzelm@16856
  1809
INCOMPATIBILITY.
wenzelm@16856
  1810
wenzelm@17275
  1811
* axclass: name space prefix for class "c" is now "c_class" (was "c"
wenzelm@17275
  1812
before); "cI" is no longer bound, use "c.intro" instead.
wenzelm@17275
  1813
INCOMPATIBILITY.  This change avoids clashes of fact bindings for
wenzelm@17275
  1814
axclasses vs. locales.
wenzelm@17275
  1815
wenzelm@16234
  1816
* Improved internal renaming of symbolic identifiers -- attach primes
wenzelm@16234
  1817
instead of base 26 numbers.
wenzelm@16234
  1818
wenzelm@16234
  1819
* New flag show_question_marks controls printing of leading question
wenzelm@16234
  1820
marks in schematic variable names.
wenzelm@16234
  1821
wenzelm@16234
  1822
* In schematic variable names, *any* symbol following \<^isub> or
wenzelm@16234
  1823
\<^isup> is now treated as part of the base name.  For example, the
wenzelm@16234
  1824
following works without printing of awkward ".0" indexes:
wenzelm@16234
  1825
wenzelm@16234
  1826
  lemma "x\<^isub>1 = x\<^isub>2 ==> x\<^isub>2 = x\<^isub>1"
wenzelm@16234
  1827
    by simp
wenzelm@16234
  1828
wenzelm@16234
  1829
* Inner syntax includes (*(*nested*) comments*).
wenzelm@16234
  1830
wenzelm@17548
  1831
* Pretty printer now supports unbreakable blocks, specified in mixfix
wenzelm@16234
  1832
annotations as "(00...)".
wenzelm@16234
  1833
wenzelm@16234
  1834
* Clear separation of logical types and nonterminals, where the latter
wenzelm@16234
  1835
may only occur in 'syntax' specifications or type abbreviations.
wenzelm@16234
  1836
Before that distinction was only partially implemented via type class
wenzelm@16234
  1837
"logic" vs. "{}".  Potential INCOMPATIBILITY in rare cases of improper
wenzelm@16234
  1838
use of 'types'/'consts' instead of 'nonterminals'/'syntax'.  Some very
wenzelm@16234
  1839
exotic syntax specifications may require further adaption
wenzelm@17691
  1840
(e.g. Cube/Cube.thy).
wenzelm@16234
  1841
wenzelm@16234
  1842
* Removed obsolete type class "logic", use the top sort {} instead.
wenzelm@16234
  1843
Note that non-logical types should be declared as 'nonterminals'
wenzelm@16234
  1844
rather than 'types'.  INCOMPATIBILITY for new object-logic
wenzelm@16234
  1845
specifications.
wenzelm@16234
  1846
ballarin@17095
  1847
* Attributes 'induct' and 'cases': type or set names may now be
ballarin@17095
  1848
locally fixed variables as well.
ballarin@17095
  1849
wenzelm@16234
  1850
* Simplifier: can now control the depth to which conditional rewriting
wenzelm@16234
  1851
is traced via the PG menu Isabelle -> Settings -> Trace Simp Depth
wenzelm@16234
  1852
Limit.
wenzelm@16234
  1853
wenzelm@16234
  1854
* Simplifier: simplification procedures may now take the current
wenzelm@16234
  1855
simpset into account (cf. Simplifier.simproc(_i) / mk_simproc
wenzelm@16234
  1856
interface), which is very useful for calling the Simplifier
wenzelm@16234
  1857
recursively.  Minor INCOMPATIBILITY: the 'prems' argument of simprocs
wenzelm@16234
  1858
is gone -- use prems_of_ss on the simpset instead.  Moreover, the
wenzelm@16234
  1859
low-level mk_simproc no longer applies Logic.varify internally, to
wenzelm@16234
  1860
allow for use in a context of fixed variables.
wenzelm@16234
  1861
wenzelm@16234
  1862
* thin_tac now works even if the assumption being deleted contains !!
wenzelm@16234
  1863
or ==>.  More generally, erule now works even if the major premise of
wenzelm@16234
  1864
the elimination rule contains !! or ==>.
wenzelm@16234
  1865
wenzelm@17597
  1866
* Method 'rules' has been renamed to 'iprover'. INCOMPATIBILITY.
nipkow@17590
  1867
wenzelm@16234
  1868
* Reorganized bootstrapping of the Pure theories; CPure is now derived
wenzelm@16234
  1869
from Pure, which contains all common declarations already.  Both
wenzelm@16234
  1870
theories are defined via plain Isabelle/Isar .thy files.
wenzelm@16234
  1871
INCOMPATIBILITY: elements of CPure (such as the CPure.intro /
wenzelm@16234
  1872
CPure.elim / CPure.dest attributes) now appear in the Pure name space;
wenzelm@16234
  1873
use isatool fixcpure to adapt your theory and ML sources.
wenzelm@16234
  1874
wenzelm@16234
  1875
* New syntax 'name(i-j, i-, i, ...)' for referring to specific
wenzelm@16234
  1876
selections of theorems in named facts via index ranges.
wenzelm@16234
  1877
wenzelm@17097
  1878
* 'print_theorems': in theory mode, really print the difference
wenzelm@17097
  1879
wrt. the last state (works for interactive theory development only),
wenzelm@17097
  1880
in proof mode print all local facts (cf. 'print_facts');
wenzelm@17097
  1881
wenzelm@17397
  1882
* 'hide': option '(open)' hides only base names.
wenzelm@17397
  1883
wenzelm@17275
  1884
* More efficient treatment of intermediate checkpoints in interactive
wenzelm@17275
  1885
theory development.
wenzelm@17275
  1886
berghofe@17663
  1887
* Code generator is now invoked via code_module (incremental code
wenzelm@17664
  1888
generation) and code_library (modular code generation, ML structures
wenzelm@17664
  1889
for each theory).  INCOMPATIBILITY: new keywords 'file' and 'contains'
wenzelm@17664
  1890
must be quoted when used as identifiers.
wenzelm@17664
  1891
wenzelm@17664
  1892
* New 'value' command for reading, evaluating and printing terms using
wenzelm@17664
  1893
the code generator.  INCOMPATIBILITY: command keyword 'value' must be
wenzelm@17664
  1894
quoted when used as identifier.
berghofe@17663
  1895
wenzelm@16234
  1896
wenzelm@16234
  1897
*** Locales ***
ballarin@17095
  1898
wenzelm@17385
  1899
* New commands for the interpretation of locale expressions in
wenzelm@17385
  1900
theories (1), locales (2) and proof contexts (3).  These generate
wenzelm@17385
  1901
proof obligations from the expression specification.  After the
wenzelm@17385
  1902
obligations have been discharged, theorems of the expression are added
wenzelm@17385
  1903
to the theory, target locale or proof context.  The synopsis of the
wenzelm@17385
  1904
commands is a follows:
wenzelm@17385
  1905
ballarin@17095
  1906
  (1) interpretation expr inst
ballarin@17095
  1907
  (2) interpretation target < expr
ballarin@17095
  1908
  (3) interpret expr inst
wenzelm@17385
  1909
ballarin@17095
  1910
Interpretation in theories and proof contexts require a parameter
ballarin@17095
  1911
instantiation of terms from the current context.  This is applied to
wenzelm@17385
  1912
specifications and theorems of the interpreted expression.
wenzelm@17385
  1913
Interpretation in locales only permits parameter renaming through the
wenzelm@17385
  1914
locale expression.  Interpretation is smart in that interpretations
wenzelm@17385
  1915
that are active already do not occur in proof obligations, neither are
wenzelm@17385
  1916
instantiated theorems stored in duplicate.  Use 'print_interps' to
wenzelm@17385
  1917
inspect active interpretations of a particular locale.  For details,
ballarin@17436
  1918
see the Isar Reference manual.  Examples can be found in
ballarin@17436
  1919
HOL/Finite_Set.thy and HOL/Algebra/UnivPoly.thy.
wenzelm@16234
  1920
wenzelm@16234
  1921
INCOMPATIBILITY: former 'instantiate' has been withdrawn, use
wenzelm@16234
  1922
'interpret' instead.
wenzelm@16234
  1923
wenzelm@17385
  1924
* New context element 'constrains' for adding type constraints to
wenzelm@17385
  1925
parameters.
wenzelm@17385
  1926
wenzelm@17385
  1927
* Context expressions: renaming of parameters with syntax
wenzelm@17385
  1928
redeclaration.
ballarin@17095
  1929
ballarin@17095
  1930
* Locale declaration: 'includes' disallowed.
ballarin@17095
  1931
wenzelm@16234
  1932
* Proper static binding of attribute syntax -- i.e. types / terms /
wenzelm@16234
  1933
facts mentioned as arguments are always those of the locale definition
wenzelm@16234
  1934
context, independently of the context of later invocations.  Moreover,
wenzelm@16234
  1935
locale operations (renaming and type / term instantiation) are applied
wenzelm@16234
  1936
to attribute arguments as expected.
wenzelm@16234
  1937
wenzelm@16234
  1938
INCOMPATIBILITY of the ML interface: always pass Attrib.src instead of
wenzelm@16234
  1939
actual attributes; rare situations may require Attrib.attribute to
wenzelm@16234
  1940
embed those attributes into Attrib.src that lack concrete syntax.
wenzelm@16234
  1941
Attribute implementations need to cooperate properly with the static
wenzelm@16234
  1942
binding mechanism.  Basic parsers Args.XXX_typ/term/prop and
wenzelm@16234
  1943
Attrib.XXX_thm etc. already do the right thing without further
wenzelm@16234
  1944
intervention.  Only unusual applications -- such as "where" or "of"
wenzelm@16234
  1945
(cf. src/Pure/Isar/attrib.ML), which process arguments depending both
wenzelm@16234
  1946
on the context and the facts involved -- may have to assign parsed
wenzelm@16234
  1947
values to argument tokens explicitly.
wenzelm@16234
  1948
wenzelm@16234
  1949
* Changed parameter management in theorem generation for long goal
wenzelm@16234
  1950
statements with 'includes'.  INCOMPATIBILITY: produces a different
wenzelm@16234
  1951
theorem statement in rare situations.
wenzelm@16234
  1952
ballarin@17228
  1953
* Locale inspection command 'print_locale' omits notes elements.  Use
ballarin@17228
  1954
'print_locale!' to have them included in the output.
ballarin@17228
  1955
wenzelm@16234
  1956
wenzelm@16234
  1957
*** Provers ***
wenzelm@16234
  1958
wenzelm@16234
  1959
* Provers/hypsubst.ML: improved version of the subst method, for
wenzelm@16234
  1960
single-step rewriting: it now works in bound variable contexts. New is
wenzelm@16234
  1961
'subst (asm)', for rewriting an assumption.  INCOMPATIBILITY: may
wenzelm@16234
  1962
rewrite a different subterm than the original subst method, which is
wenzelm@16234
  1963
still available as 'simplesubst'.
wenzelm@16234
  1964
wenzelm@16234
  1965
* Provers/quasi.ML: new transitivity reasoners for transitivity only
wenzelm@16234
  1966
and quasi orders.
wenzelm@16234
  1967
wenzelm@16234
  1968
* Provers/trancl.ML: new transitivity reasoner for transitive and
wenzelm@16234
  1969
reflexive-transitive closure of relations.
wenzelm@16234
  1970
wenzelm@16234
  1971
* Provers/blast.ML: new reference depth_limit to make blast's depth
wenzelm@16234
  1972
limit (previously hard-coded with a value of 20) user-definable.
wenzelm@16234
  1973
wenzelm@16234
  1974
* Provers/simplifier.ML has been moved to Pure, where Simplifier.setup
wenzelm@16234
  1975
is peformed already.  Object-logics merely need to finish their
wenzelm@16234
  1976
initial simpset configuration as before.  INCOMPATIBILITY.
wenzelm@15703
  1977
berghofe@15475
  1978
schirmer@14700
  1979
*** HOL ***
schirmer@14700
  1980
wenzelm@16234
  1981
* Symbolic syntax of Hilbert Choice Operator is now as follows:
wenzelm@14878
  1982
wenzelm@14878
  1983
  syntax (epsilon)
wenzelm@14878
  1984
    "_Eps" :: "[pttrn, bool] => 'a"    ("(3\<some>_./ _)" [0, 10] 10)
wenzelm@14878
  1985
wenzelm@16234
  1986
The symbol \<some> is displayed as the alternative epsilon of LaTeX
wenzelm@16234
  1987
and x-symbol; use option '-m epsilon' to get it actually printed.
wenzelm@16234
  1988
Moreover, the mathematically important symbolic identifier \<epsilon>
wenzelm@16234
  1989
becomes available as variable, constant etc.  INCOMPATIBILITY,
wenzelm@16234
  1990
wenzelm@16234
  1991
* "x > y" abbreviates "y < x" and "x >= y" abbreviates "y <= x".
wenzelm@16234
  1992
Similarly for all quantifiers: "ALL x > y" etc.  The x-symbol for >=
wenzelm@17371
  1993
is \<ge>. New transitivity rules have been added to HOL/Orderings.thy to
avigad@17016
  1994
support corresponding Isar calculations.
wenzelm@16234
  1995
wenzelm@16234
  1996
* "{x:A. P}" abbreviates "{x. x:A & P}", and similarly for "\<in>"
wenzelm@16234
  1997
instead of ":".
wenzelm@16234
  1998
wenzelm@16234
  1999
* theory SetInterval: changed the syntax for open intervals:
wenzelm@16234
  2000
wenzelm@16234
  2001
  Old       New
wenzelm@16234
  2002
  {..n(}    {..<n}
wenzelm@16234
  2003
  {)n..}    {n<..}
wenzelm@16234
  2004
  {m..n(}   {m..<n}
wenzelm@16234
  2005
  {)m..n}   {m<..n}
wenzelm@16234
  2006
  {)m..n(}  {m<..<n}
wenzelm@16234
  2007
wenzelm@16234
  2008
The old syntax is still supported but will disappear in the next
wenzelm@16234
  2009
release.  For conversion use the following Emacs search and replace
wenzelm@16234
  2010
patterns (these are not perfect but work quite well):
nipkow@15046
  2011
nipkow@15046
  2012
  {)\([^\.]*\)\.\.  ->  {\1<\.\.}
nipkow@15046
  2013
  \.\.\([^(}]*\)(}  ->  \.\.<\1}
nipkow@15046
  2014
wenzelm@17533
  2015
* Theory Commutative_Ring (in Library): method comm_ring for proving
wenzelm@17533
  2016
equalities in commutative rings; method 'algebra' provides a generic
wenzelm@17533
  2017
interface.
wenzelm@17389
  2018
wenzelm@17389
  2019
* Theory Finite_Set: changed the syntax for 'setsum', summation over
wenzelm@16234
  2020
finite sets: "setsum (%x. e) A", which used to be "\<Sum>x:A. e", is
wenzelm@17371
  2021
now either "SUM x:A. e" or "\<Sum>x \<in> A. e". The bound variable can
paulson@17189
  2022
be a tuple pattern.
wenzelm@16234
  2023
wenzelm@16234
  2024
Some new syntax forms are available:
wenzelm@16234
  2025
wenzelm@16234
  2026
  "\<Sum>x | P. e"      for     "setsum (%x. e) {x. P}"
wenzelm@16234
  2027
  "\<Sum>x = a..b. e"   for     "setsum (%x. e) {a..b}"
wenzelm@16234
  2028
  "\<Sum>x = a..<b. e"  for     "setsum (%x. e) {a..<b}"
wenzelm@16234
  2029
  "\<Sum>x < k. e"      for     "setsum (%x. e) {..<k}"
wenzelm@16234
  2030
wenzelm@16234
  2031
The latter form "\<Sum>x < k. e" used to be based on a separate
wenzelm@16234
  2032
function "Summation", which has been discontinued.
wenzelm@16234
  2033
wenzelm@16234
  2034
* theory Finite_Set: in structured induction proofs, the insert case
wenzelm@16234
  2035
is now 'case (insert x F)' instead of the old counterintuitive 'case
wenzelm@16234
  2036
(insert F x)'.
wenzelm@16234
  2037
wenzelm@16234
  2038
* The 'refute' command has been extended to support a much larger
wenzelm@16234
  2039
fragment of HOL, including axiomatic type classes, constdefs and
wenzelm@16234
  2040
typedefs, inductive datatypes and recursion.
wenzelm@16234
  2041
webertj@17700
  2042
* New tactics 'sat' and 'satx' to prove propositional tautologies.
webertj@17700
  2043
Requires zChaff with proof generation to be installed.  See
webertj@17700
  2044
HOL/ex/SAT_Examples.thy for examples.
webertj@17619
  2045
wenzelm@16234
  2046
* Datatype induction via method 'induct' now preserves the name of the
wenzelm@16234
  2047
induction variable. For example, when proving P(xs::'a list) by
wenzelm@16234
  2048
induction on xs, the induction step is now P(xs) ==> P(a#xs) rather
wenzelm@16234
  2049
than P(list) ==> P(a#list) as previously.  Potential INCOMPATIBILITY
wenzelm@16234
  2050
in unstructured proof scripts.
wenzelm@16234
  2051
wenzelm@16234
  2052
* Reworked implementation of records.  Improved scalability for
wenzelm@16234
  2053
records with many fields, avoiding performance problems for type
wenzelm@16234
  2054
inference. Records are no longer composed of nested field types, but
wenzelm@16234
  2055
of nested extension types. Therefore the record type only grows linear
wenzelm@16234
  2056
in the number of extensions and not in the number of fields.  The
wenzelm@16234
  2057
top-level (users) view on records is preserved.  Potential
wenzelm@16234
  2058
INCOMPATIBILITY only in strange cases, where the theory depends on the
wenzelm@16234
  2059
old record representation. The type generated for a record is called
wenzelm@16234
  2060
<record_name>_ext_type.
wenzelm@16234
  2061
wenzelm@16234
  2062
Flag record_quick_and_dirty_sensitive can be enabled to skip the
wenzelm@16234
  2063
proofs triggered by a record definition or a simproc (if
wenzelm@16234
  2064
quick_and_dirty is enabled).  Definitions of large records can take
wenzelm@16234
  2065
quite long.
wenzelm@16234
  2066
wenzelm@16234
  2067
New simproc record_upd_simproc for simplification of multiple record
wenzelm@16234
  2068
updates enabled by default.  Moreover, trivial updates are also
wenzelm@16234
  2069
removed: r(|x := x r|) = r.  INCOMPATIBILITY: old proofs break
wenzelm@16234
  2070
occasionally, since simplification is more powerful by default.
wenzelm@16234
  2071
wenzelm@17275
  2072
* typedef: proper support for polymorphic sets, which contain extra
wenzelm@17275
  2073
type-variables in the term.
wenzelm@17275
  2074
wenzelm@16234
  2075
* Simplifier: automatically reasons about transitivity chains
wenzelm@16234
  2076
involving "trancl" (r^+) and "rtrancl" (r^*) by setting up tactics
wenzelm@16234
  2077
provided by Provers/trancl.ML as additional solvers.  INCOMPATIBILITY:
wenzelm@16234
  2078
old proofs break occasionally as simplification may now solve more
wenzelm@16234
  2079
goals than previously.
wenzelm@16234
  2080
wenzelm@16234
  2081
* Simplifier: converts x <= y into x = y if assumption y <= x is
wenzelm@16234
  2082
present.  Works for all partial orders (class "order"), in particular
wenzelm@16234
  2083
numbers and sets.  For linear orders (e.g. numbers) it treats ~ x < y
wenzelm@16234
  2084
just like y <= x.
wenzelm@16234
  2085
wenzelm@16234
  2086
* Simplifier: new simproc for "let x = a in f x".  If a is a free or
wenzelm@16234
  2087
bound variable or a constant then the let is unfolded.  Otherwise
wenzelm@16234
  2088
first a is simplified to b, and then f b is simplified to g. If
wenzelm@16234
  2089
possible we abstract b from g arriving at "let x = b in h x",
wenzelm@16234
  2090
otherwise we unfold the let and arrive at g.  The simproc can be
wenzelm@16234
  2091
enabled/disabled by the reference use_let_simproc.  Potential
wenzelm@16234
  2092
INCOMPATIBILITY since simplification is more powerful by default.
webertj@15776
  2093
paulson@16563
  2094
* Classical reasoning: the meson method now accepts theorems as arguments.
paulson@16563
  2095
paulson@17595
  2096
* Prover support: pre-release of the Isabelle-ATP linkup, which runs background
paulson@17595
  2097
jobs to provide advice on the provability of subgoals.
paulson@17595
  2098
wenzelm@16891
  2099
* Theory OrderedGroup and Ring_and_Field: various additions and
wenzelm@16891
  2100
improvements to faciliate calculations involving equalities and
wenzelm@16891
  2101
inequalities.
wenzelm@16891
  2102
wenzelm@16891
  2103
The following theorems have been eliminated or modified
wenzelm@16891
  2104
(INCOMPATIBILITY):
avigad@16888
  2105
avigad@16888
  2106
  abs_eq             now named abs_of_nonneg
wenzelm@17371
  2107
  abs_of_ge_0        now named abs_of_nonneg
wenzelm@17371
  2108
  abs_minus_eq       now named abs_of_nonpos
avigad@16888
  2109
  imp_abs_id         now named abs_of_nonneg
avigad@16888
  2110
  imp_abs_neg_id     now named abs_of_nonpos
avigad@16888
  2111
  mult_pos           now named mult_pos_pos
avigad@16888
  2112
  mult_pos_le        now named mult_nonneg_nonneg
avigad@16888
  2113
  mult_pos_neg_le    now named mult_nonneg_nonpos
avigad@16888
  2114
  mult_pos_neg2_le   now named mult_nonneg_nonpos2
avigad@16888
  2115
  mult_neg           now named mult_neg_neg
avigad@16888
  2116
  mult_neg_le        now named mult_nonpos_nonpos
avigad@16888
  2117
obua@23495
  2118
* The following lemmas in Ring_and_Field have been added to the simplifier:
obua@23495
  2119
     
obua@23495
  2120
     zero_le_square
obua@23495
  2121
     not_square_less_zero 
obua@23495
  2122
obua@23495
  2123
  The following lemmas have been deleted from Real/RealPow:
obua@23495
  2124
  
obua@23495
  2125
     realpow_zero_zero
obua@23495
  2126
     realpow_two
obua@23495
  2127
     realpow_less
obua@23495
  2128
     zero_le_power
obua@23495
  2129
     realpow_two_le
obua@23495
  2130
     abs_realpow_two
obua@23495
  2131
     realpow_two_abs     
obua@23495
  2132
wenzelm@16891
  2133
* Theory Parity: added rules for simplifying exponents.
wenzelm@16891
  2134
nipkow@17092
  2135
* Theory List:
nipkow@17092
  2136
nipkow@17092
  2137
The following theorems have been eliminated or modified
nipkow@17092
  2138
(INCOMPATIBILITY):
nipkow@17092
  2139
nipkow@17092
  2140
  list_all_Nil       now named list_all.simps(1)
nipkow@17092
  2141
  list_all_Cons      now named list_all.simps(2)
nipkow@17092
  2142
  list_all_conv      now named list_all_iff
nipkow@17092
  2143
  set_mem_eq         now named mem_iff
nipkow@17092
  2144
wenzelm@16929
  2145
* Theories SetsAndFunctions and BigO (see HOL/Library) support
wenzelm@16929
  2146
asymptotic "big O" calculations.  See the notes in BigO.thy.
wenzelm@16929
  2147
avigad@16888
  2148
avigad@16888
  2149
*** HOL-Complex ***
avigad@16888
  2150
wenzelm@16891
  2151
* Theory RealDef: better support for embedding natural numbers and
wenzelm@16891
  2152
integers in the reals.
wenzelm@16891
  2153
wenzelm@16891
  2154
The following theorems have been eliminated or modified
wenzelm@16891
  2155
(INCOMPATIBILITY):
wenzelm@16891
  2156
avigad@17016
  2157
  exp_ge_add_one_self  now requires no hypotheses
avigad@17016
  2158
  real_of_int_add      reversed direction of equality (use [symmetric])
avigad@17016
  2159
  real_of_int_minus    reversed direction of equality (use [symmetric])
avigad@17016
  2160
  real_of_int_diff     reversed direction of equality (use [symmetric])
avigad@17016
  2161
  real_of_int_mult     reversed direction of equality (use [symmetric])
wenzelm@16891
  2162
wenzelm@16891
  2163
* Theory RComplete: expanded support for floor and ceiling functions.
avigad@16888
  2164
avigad@16962
  2165
* Theory Ln is new, with properties of the natural logarithm
avigad@16962
  2166
wenzelm@17423
  2167
* Hyperreal: There is a new type constructor "star" for making
wenzelm@17423
  2168
nonstandard types.  The old type names are now type synonyms:
wenzelm@17423
  2169
wenzelm@17423
  2170
  hypreal = real star
wenzelm@17423
  2171
  hypnat = nat star
wenzelm@17423
  2172
  hcomplex = complex star
wenzelm@17423
  2173
wenzelm@17423
  2174
* Hyperreal: Many groups of similarly-defined constants have been
huffman@17442
  2175
replaced by polymorphic versions (INCOMPATIBILITY):
wenzelm@17423
  2176
wenzelm@17423
  2177
  star_of <-- hypreal_of_real, hypnat_of_nat, hcomplex_of_complex
wenzelm@17423
  2178
wenzelm@17423
  2179
  starset      <-- starsetNat, starsetC
wenzelm@17423
  2180
  *s*          <-- *sNat*, *sc*
wenzelm@17423
  2181
  starset_n    <-- starsetNat_n, starsetC_n
wenzelm@17423
  2182
  *sn*         <-- *sNatn*, *scn*
wenzelm@17423
  2183
  InternalSets <-- InternalNatSets, InternalCSets
wenzelm@17423
  2184
huffman@17442
  2185
  starfun      <-- starfun{Nat,Nat2,C,RC,CR}
wenzelm@17423
  2186
  *f*          <-- *fNat*, *fNat2*, *fc*, *fRc*, *fcR*
huffman@17442
  2187
  starfun_n    <-- starfun{Nat,Nat2,C,RC,CR}_n
wenzelm@17423
  2188
  *fn*         <-- *fNatn*, *fNat2n*, *fcn*, *fRcn*, *fcRn*
huffman@17442
  2189
  InternalFuns <-- InternalNatFuns, InternalNatFuns2, Internal{C,RC,CR}Funs
wenzelm@17423
  2190
wenzelm@17423
  2191
* Hyperreal: Many type-specific theorems have been removed in favor of
huffman@17442
  2192
theorems specific to various axiomatic type classes (INCOMPATIBILITY):
huffman@17442
  2193
huffman@17442
  2194
  add_commute <-- {hypreal,hypnat,hcomplex}_add_commute
huffman@17442
  2195
  add_assoc   <-- {hypreal,hypnat,hcomplex}_add_assocs
huffman@17442
  2196
  OrderedGroup.add_0 <-- {hypreal,hypnat,hcomplex}_add_zero_left
huffman@17442
  2197
  OrderedGroup.add_0_right <-- {hypreal,hcomplex}_add_zero_right
wenzelm@17423
  2198
  right_minus <-- hypreal_add_minus
huffman@17442
  2199
  left_minus <-- {hypreal,hcomplex}_add_minus_left
huffman@17442
  2200
  mult_commute <-- {hypreal,hypnat,hcomplex}_mult_commute
huffman@17442
  2201
  mult_assoc <-- {hypreal,hypnat,hcomplex}_mult_assoc
huffman@17442
  2202
  mult_1_left <-- {hypreal,hypnat}_mult_1, hcomplex_mult_one_left
wenzelm@17423
  2203
  mult_1_right <-- hcomplex_mult_one_right
wenzelm@17423
  2204
  mult_zero_left <-- hcomplex_mult_zero_left
huffman@17442
  2205
  left_distrib <-- {hypreal,hypnat,hcomplex}_add_mult_distrib
wenzelm@17423
  2206
  right_distrib <-- hypnat_add_mult_distrib2
huffman@17442
  2207
  zero_neq_one <-- {hypreal,hypnat,hcomplex}_zero_not_eq_one
wenzelm@17423
  2208
  right_inverse <-- hypreal_mult_inverse
wenzelm@17423
  2209
  left_inverse <-- hypreal_mult_inverse_left, hcomplex_mult_inv_left
huffman@17442
  2210
  order_refl <-- {hypreal,hypnat}_le_refl
huffman@17442
  2211
  order_trans <-- {hypreal,hypnat}_le_trans
huffman@17442
  2212
  order_antisym <-- {hypreal,hypnat}_le_anti_sym
huffman@17442
  2213
  order_less_le <-- {hypreal,hypnat}_less_le
huffman@17442
  2214
  linorder_linear <-- {hypreal,hypnat}_le_linear
huffman@17442
  2215
  add_left_mono <-- {hypreal,hypnat}_add_left_mono
huffman@17442
  2216
  mult_strict_left_mono <-- {hypreal,hypnat}_mult_less_mono2
wenzelm@17423
  2217
  add_nonneg_nonneg <-- hypreal_le_add_order
wenzelm@17423
  2218
wenzelm@17423
  2219
* Hyperreal: Separate theorems having to do with type-specific
wenzelm@17423
  2220
versions of constants have been merged into theorems that apply to the
huffman@17442
  2221
new polymorphic constants (INCOMPATIBILITY):
huffman@17442
  2222
huffman@17442
  2223
  STAR_UNIV_set <-- {STAR_real,NatStar_real,STARC_complex}_set
huffman@17442
  2224
  STAR_empty_set <-- {STAR,NatStar,STARC}_empty_set
huffman@17442
  2225
  STAR_Un <-- {STAR,NatStar,STARC}_Un
huffman@17442
  2226
  STAR_Int <-- {STAR,NatStar,STARC}_Int
huffman@17442
  2227
  STAR_Compl <-- {STAR,NatStar,STARC}_Compl
huffman@17442
  2228
  STAR_subset <-- {STAR,NatStar,STARC}_subset
huffman@17442
  2229
  STAR_mem <-- {STAR,NatStar,STARC}_mem
huffman@17442
  2230
  STAR_mem_Compl <-- {STAR,STARC}_mem_Compl
huffman@17442
  2231
  STAR_diff <-- {STAR,STARC}_diff
huffman@17442
  2232
  STAR_star_of_image_subset <-- {STAR_hypreal_of_real, NatStar_hypreal_of_real,
huffman@17442
  2233
    STARC_hcomplex_of_complex}_image_subset
huffman@17442
  2234
  starset_n_Un <-- starset{Nat,C}_n_Un
huffman@17442
  2235
  starset_n_Int <-- starset{Nat,C}_n_Int
huffman@17442
  2236
  starset_n_Compl <-- starset{Nat,C}_n_Compl
huffman@17442
  2237
  starset_n_diff <-- starset{Nat,C}_n_diff
huffman@17442
  2238
  InternalSets_Un <-- Internal{Nat,C}Sets_Un
huffman@17442
  2239
  InternalSets_Int <-- Internal{Nat,C}Sets_Int
huffman@17442
  2240
  InternalSets_Compl <-- Internal{Nat,C}Sets_Compl
huffman@17442
  2241
  InternalSets_diff <-- Internal{Nat,C}Sets_diff
huffman@17442
  2242
  InternalSets_UNIV_diff <-- Internal{Nat,C}Sets_UNIV_diff
huffman@17442
  2243
  InternalSets_starset_n <-- Internal{Nat,C}Sets_starset{Nat,C}_n
huffman@17442
  2244
  starset_starset_n_eq <-- starset{Nat,C}_starset{Nat,C}_n_eq
huffman@17442
  2245
  starset_n_starset <-- starset{Nat,C}_n_starset{Nat,C}
huffman@17442
  2246
  starfun_n_starfun <-- starfun{Nat,Nat2,C,RC,CR}_n_starfun{Nat,Nat2,C,RC,CR}
huffman@17442
  2247
  starfun <-- starfun{Nat,Nat2,C,RC,CR}
huffman@17442
  2248
  starfun_mult <-- starfun{Nat,Nat2,C,RC,CR}_mult
huffman@17442
  2249
  starfun_add <-- starfun{Nat,Nat2,C,RC,CR}_add
huffman@17442
  2250
  starfun_minus <-- starfun{Nat,Nat2,C,RC,CR}_minus
huffman@17442
  2251
  starfun_diff <-- starfun{C,RC,CR}_diff
huffman@17442
  2252
  starfun_o <-- starfun{NatNat2,Nat2,_stafunNat,C,C_starfunRC,_starfunCR}_o
huffman@17442
  2253
  starfun_o2 <-- starfun{NatNat2,_stafunNat,C,C_starfunRC,_starfunCR}_o2
huffman@17442
  2254
  starfun_const_fun <-- starfun{Nat,Nat2,C,RC,CR}_const_fun
huffman@17442
  2255
  starfun_inverse <-- starfun{Nat,C,RC,CR}_inverse
huffman@17442
  2256
  starfun_eq <-- starfun{Nat,Nat2,C,RC,CR}_eq
huffman@17442
  2257
  starfun_eq_iff <-- starfun{C,RC,CR}_eq_iff
wenzelm@17423
  2258
  starfun_Id <-- starfunC_Id
huffman@17442
  2259
  starfun_approx <-- starfun{Nat,CR}_approx
huffman@17442
  2260
  starfun_capprox <-- starfun{C,RC}_capprox
wenzelm@17423
  2261
  starfun_abs <-- starfunNat_rabs
huffman@17442
  2262
  starfun_lambda_cancel <-- starfun{C,CR,RC}_lambda_cancel
huffman@17442
  2263
  starfun_lambda_cancel2 <-- starfun{C,CR,RC}_lambda_cancel2
wenzelm@17423
  2264
  starfun_mult_HFinite_approx <-- starfunCR_mult_HFinite_capprox
huffman@17442
  2265
  starfun_mult_CFinite_capprox <-- starfun{C,RC}_mult_CFinite_capprox
huffman@17442
  2266
  starfun_add_capprox <-- starfun{C,RC}_add_capprox
wenzelm@17423
  2267
  starfun_add_approx <-- starfunCR_add_approx
wenzelm@17423
  2268
  starfun_inverse_inverse <-- starfunC_inverse_inverse
huffman@17442
  2269
  starfun_divide <-- starfun{C,CR,RC}_divide
huffman@17442
  2270
  starfun_n <-- starfun{Nat,C}_n
huffman@17442
  2271
  starfun_n_mult <-- starfun{Nat,C}_n_mult
huffman@17442
  2272
  starfun_n_add <-- starfun{Nat,C}_n_add
wenzelm@17423
  2273
  starfun_n_add_minus <-- starfunNat_n_add_minus
huffman@17442
  2274
  starfun_n_const_fun <-- starfun{Nat,C}_n_const_fun
huffman@17442
  2275
  starfun_n_minus <-- starfun{Nat,C}_n_minus
huffman@17442
  2276
  starfun_n_eq <-- starfun{Nat,C}_n_eq
huffman@17442
  2277
huffman@17442
  2278
  star_n_add <-- {hypreal,hypnat,hcomplex}_add
huffman@17442
  2279
  star_n_minus <-- {hypreal,hcomplex}_minus
huffman@17442
  2280
  star_n_diff <-- {hypreal,hcomplex}_diff
huffman@17442
  2281
  star_n_mult <-- {hypreal,hcomplex}_mult
huffman@17442
  2282
  star_n_inverse <-- {hypreal,hcomplex}_inverse
huffman@17442
  2283
  star_n_le <-- {hypreal,hypnat}_le
huffman@17442
  2284
  star_n_less <-- {hypreal,hypnat}_less
huffman@17442
  2285
  star_n_zero_num <-- {hypreal,hypnat,hcomplex}_zero_num
huffman@17442
  2286
  star_n_one_num <-- {hypreal,hypnat,hcomplex}_one_num
wenzelm@17423
  2287
  star_n_abs <-- hypreal_hrabs
wenzelm@17423
  2288
  star_n_divide <-- hcomplex_divide
wenzelm@17423
  2289
huffman@17442
  2290
  star_of_add <-- {hypreal_of_real,hypnat_of_nat,hcomplex_of_complex}_add
huffman@17442
  2291
  star_of_minus <-- {hypreal_of_real,hcomplex_of_complex}_minus
wenzelm@17423
  2292
  star_of_diff <-- hypreal_of_real_diff
huffman@17442
  2293
  star_of_mult <-- {hypreal_of_real,hypnat_of_nat,hcomplex_of_complex}_mult
huffman@17442
  2294
  star_of_one <-- {hypreal_of_real,hcomplex_of_complex}_one
huffman@17442
  2295
  star_of_zero <-- {hypreal_of_real,hypnat_of_nat,hcomplex_of_complex}_zero
huffman@17442
  2296
  star_of_le <-- {hypreal_of_real,hypnat_of_nat}_le_iff
huffman@17442
  2297
  star_of_less <-- {hypreal_of_real,hypnat_of_nat}_less_iff
huffman@17442
  2298
  star_of_eq <-- {hypreal_of_real,hypnat_of_nat,hcomplex_of_complex}_eq_iff
huffman@17442
  2299
  star_of_inverse <-- {hypreal_of_real,hcomplex_of_complex}_inverse
huffman@17442
  2300
  star_of_divide <-- {hypreal_of_real,hcomplex_of_complex}_divide
huffman@17442
  2301
  star_of_of_nat <-- {hypreal_of_real,hcomplex_of_complex}_of_nat
huffman@17442
  2302
  star_of_of_int <-- {hypreal_of_real,hcomplex_of_complex}_of_int
huffman@17442
  2303
  star_of_number_of <-- {hypreal,hcomplex}_number_of
wenzelm@17423
  2304
  star_of_number_less <-- number_of_less_hypreal_of_real_iff
wenzelm@17423
  2305
  star_of_number_le <-- number_of_le_hypreal_of_real_iff
wenzelm@17423
  2306
  star_of_eq_number <-- hypreal_of_real_eq_number_of_iff
wenzelm@17423
  2307
  star_of_less_number <-- hypreal_of_real_less_number_of_iff
wenzelm@17423
  2308
  star_of_le_number <-- hypreal_of_real_le_number_of_iff
wenzelm@17423
  2309
  star_of_power <-- hypreal_of_real_power
wenzelm@17423
  2310
  star_of_eq_0 <-- hcomplex_of_complex_zero_iff
wenzelm@17423
  2311
huffman@17442
  2312
* Hyperreal: new method "transfer" that implements the transfer
huffman@17442
  2313
principle of nonstandard analysis. With a subgoal that mentions
huffman@17442
  2314
nonstandard types like "'a star", the command "apply transfer"
huffman@17442
  2315
replaces it with an equivalent one that mentions only standard types.
huffman@17442
  2316
To be successful, all free variables must have standard types; non-
huffman@17442
  2317
standard variables must have explicit universal quantifiers.
huffman@17442
  2318
wenzelm@17641
  2319
* Hyperreal: A theory of Taylor series.
wenzelm@17641
  2320
wenzelm@14655
  2321
wenzelm@14682
  2322
*** HOLCF ***
wenzelm@14682
  2323
wenzelm@17533
  2324
* Discontinued special version of 'constdefs' (which used to support
wenzelm@17533
  2325
continuous functions) in favor of the general Pure one with full
wenzelm@17533
  2326
type-inference.
wenzelm@17533
  2327
wenzelm@17533
  2328
* New simplification procedure for solving continuity conditions; it
wenzelm@17533
  2329
is much faster on terms with many nested lambda abstractions (cubic
huffman@17442
  2330
instead of exponential time).
huffman@17442
  2331
wenzelm@17533
  2332
* New syntax for domain package: selector names are now optional.
huffman@17442
  2333
Parentheses should be omitted unless argument is lazy, for example:
huffman@17442
  2334
huffman@17442
  2335
  domain 'a stream = cons "'a" (lazy "'a stream")
huffman@17442
  2336
wenzelm@17533
  2337
* New command 'fixrec' for defining recursive functions with pattern
wenzelm@17533
  2338
matching; defining multiple functions with mutual recursion is also
wenzelm@17533
  2339
supported.  Patterns may include the constants cpair, spair, up, sinl,
wenzelm@17533
  2340
sinr, or any data constructor defined by the domain package. The given
wenzelm@17533
  2341
equations are proven as rewrite rules. See HOLCF/ex/Fixrec_ex.thy for
wenzelm@17533
  2342
syntax and examples.
wenzelm@17533
  2343
wenzelm@17533
  2344
* New commands 'cpodef' and 'pcpodef' for defining predicate subtypes
wenzelm@17533
  2345
of cpo and pcpo types. Syntax is exactly like the 'typedef' command,
wenzelm@17533
  2346
but the proof obligation additionally includes an admissibility
wenzelm@17533
  2347
requirement. The packages generate instances of class cpo or pcpo,
wenzelm@17533
  2348
with continuity and strictness theorems for Rep and Abs.
huffman@17442
  2349
huffman@17584
  2350
* HOLCF: Many theorems have been renamed according to a more standard naming
huffman@17584
  2351
scheme (INCOMPATIBILITY):
huffman@17584
  2352
huffman@17584
  2353
  foo_inject:  "foo$x = foo$y ==> x = y"
huffman@17584
  2354
  foo_eq:      "(foo$x = foo$y) = (x = y)"
huffman@17584
  2355
  foo_less:    "(foo$x << foo$y) = (x << y)"
huffman@17584
  2356
  foo_strict:  "foo$UU = UU"
huffman@17584
  2357
  foo_defined: "... ==> foo$x ~= UU"
huffman@17584
  2358
  foo_defined_iff: "(foo$x = UU) = (x = UU)"
huffman@17584
  2359
wenzelm@14682
  2360
paulson@14885
  2361
*** ZF ***
paulson@14885
  2362
wenzelm@16234
  2363
* ZF/ex: theories Group and Ring provide examples in abstract algebra,
wenzelm@16234
  2364
including the First Isomorphism Theorem (on quotienting by the kernel
wenzelm@16234
  2365
of a homomorphism).
wenzelm@15089
  2366
wenzelm@15089
  2367
* ZF/Simplifier: install second copy of type solver that actually
wenzelm@16234
  2368
makes use of TC rules declared to Isar proof contexts (or locales);
wenzelm@16234
  2369
the old version is still required for ML proof scripts.
wenzelm@15703
  2370
wenzelm@15703
  2371
wenzelm@17445
  2372
*** Cube ***
wenzelm@17445
  2373
wenzelm@17445
  2374
* Converted to Isar theory format; use locales instead of axiomatic
wenzelm@17445
  2375
theories.
wenzelm@17445
  2376
wenzelm@17445
  2377
wenzelm@15703
  2378
*** ML ***
wenzelm@15703
  2379
haftmann@21339
  2380
* Pure/library.ML: added ##>, ##>>, #>> -- higher-order counterparts
haftmann@21339
  2381
for ||>, ||>>, |>>,
haftmann@21339
  2382
wenzelm@15973
  2383
* Pure/library.ML no longer defines its own option datatype, but uses
wenzelm@16234
  2384
that of the SML basis, which has constructors NONE and SOME instead of
wenzelm@16234
  2385
None and Some, as well as exception Option.Option instead of OPTION.
wenzelm@16234
  2386
The functions the, if_none, is_some, is_none have been adapted
wenzelm@16234
  2387
accordingly, while Option.map replaces apsome.
wenzelm@15973
  2388
wenzelm@16860
  2389
* Pure/library.ML: the exception LIST has been given up in favour of
wenzelm@16860
  2390
the standard exceptions Empty and Subscript, as well as
wenzelm@16860
  2391
Library.UnequalLengths.  Function like Library.hd and Library.tl are
wenzelm@16860
  2392
superceded by the standard hd and tl functions etc.
wenzelm@16860
  2393
wenzelm@16860
  2394
A number of basic list functions are no longer exported to the ML
wenzelm@16860
  2395
toplevel, as they are variants of predefined functions.  The following
wenzelm@16234
  2396
suggests how one can translate existing code:
wenzelm@15973
  2397
wenzelm@15973
  2398
    rev_append xs ys = List.revAppend (xs, ys)
wenzelm@15973
  2399
    nth_elem (i, xs) = List.nth (xs, i)
wenzelm@15973
  2400
    last_elem xs = List.last xs
wenzelm@15973
  2401
    flat xss = List.concat xss
wenzelm@16234
  2402
    seq fs = List.app fs
wenzelm@15973
  2403
    partition P xs = List.partition P xs
wenzelm@15973
  2404
    mapfilter f xs = List.mapPartial f xs
wenzelm@15973
  2405
wenzelm@16860
  2406
* Pure/library.ML: several combinators for linear functional
wenzelm@16860
  2407
transformations, notably reverse application and composition:
wenzelm@16860
  2408
wenzelm@17371
  2409
  x |> f                f #> g
wenzelm@17371
  2410
  (x, y) |-> f          f #-> g
wenzelm@16860
  2411
haftmann@17495
  2412
* Pure/library.ML: introduced/changed precedence of infix operators:
haftmann@17495
  2413
haftmann@17495
  2414
  infix 1 |> |-> ||> ||>> |>> |>>> #> #->;
haftmann@17495
  2415
  infix 2 ?;
haftmann@17495
  2416
  infix 3 o oo ooo oooo;
haftmann@17495
  2417
  infix 4 ~~ upto downto;
haftmann@17495
  2418
haftmann@17495
  2419
Maybe INCOMPATIBILITY when any of those is used in conjunction with other
haftmann@17495
  2420
infix operators.
haftmann@17495
  2421
wenzelm@17408
  2422
* Pure/library.ML: natural list combinators fold, fold_rev, and
haftmann@16869
  2423
fold_map support linear functional transformations and nesting.  For
wenzelm@16860
  2424
example:
wenzelm@16860
  2425
wenzelm@16860
  2426
  fold f [x1, ..., xN] y =
wenzelm@16860
  2427
    y |> f x1 |> ... |> f xN
wenzelm@16860
  2428
wenzelm@16860
  2429
  (fold o fold) f [xs1, ..., xsN] y =
wenzelm@16860
  2430
    y |> fold f xs1 |> ... |> fold f xsN
wenzelm@16860
  2431
wenzelm@16860
  2432
  fold f [x1, ..., xN] =
wenzelm@16860
  2433
    f x1 #> ... #> f xN
wenzelm@16860
  2434
wenzelm@16860
  2435
  (fold o fold) f [xs1, ..., xsN] =
wenzelm@16860
  2436
    fold f xs1 #> ... #> fold f xsN
wenzelm@16860
  2437
wenzelm@17408
  2438
* Pure/library.ML: the following selectors on type 'a option are
wenzelm@17408
  2439
available:
wenzelm@17408
  2440
wenzelm@17408
  2441
  the:               'a option -> 'a  (*partial*)
wenzelm@17408
  2442
  these:             'a option -> 'a  where 'a = 'b list
haftmann@17402
  2443
  the_default: 'a -> 'a option -> 'a
haftmann@17402
  2444
  the_list:          'a option -> 'a list
haftmann@17402
  2445
wenzelm@17408
  2446
* Pure/General: structure AList (cf. Pure/General/alist.ML) provides
wenzelm@17408
  2447
basic operations for association lists, following natural argument
haftmann@17564
  2448
order; moreover the explicit equality predicate passed here avoids
haftmann@17495
  2449
potentially expensive polymorphic runtime equality checks.
haftmann@17495
  2450
The old functions may be expressed as follows:
wenzelm@17408
  2451
wenzelm@17408
  2452
  assoc = uncurry (AList.lookup (op =))
wenzelm@17408
  2453
  assocs = these oo AList.lookup (op =)
wenzelm@17408
  2454
  overwrite = uncurry (AList.update (op =)) o swap
wenzelm@17408
  2455
haftmann@17564
  2456
* Pure/General: structure AList (cf. Pure/General/alist.ML) provides
haftmann@17564
  2457
haftmann@17564
  2458
  val make: ('a -> 'b) -> 'a list -> ('a * 'b) list
haftmann@17564
  2459
  val find: ('a * 'b -> bool) -> ('c * 'b) list -> 'a -> 'c list
haftmann@17564
  2460
haftmann@17564
  2461
replacing make_keylist and keyfilter (occassionally used)
haftmann@17564
  2462
Naive rewrites:
haftmann@17564
  2463
haftmann@17564
  2464
  make_keylist = AList.make
haftmann@17564
  2465
  keyfilter = AList.find (op =)
haftmann@17564
  2466
haftmann@17564
  2467
* eq_fst and eq_snd now take explicit equality parameter, thus
haftmann@17564
  2468
  avoiding eqtypes. Naive rewrites:
haftmann@17564
  2469
haftmann@17564
  2470
    eq_fst = eq_fst (op =)
haftmann@17564
  2471
    eq_snd = eq_snd (op =)
haftmann@17564
  2472
haftmann@17564
  2473
* Removed deprecated apl and apr (rarely used).
haftmann@17564
  2474
  Naive rewrites:
haftmann@17564
  2475
haftmann@17564
  2476
    apl (n, op) =>>= curry op n
haftmann@17564
  2477
    apr (op, m) =>>= fn n => op (n, m)
haftmann@17564
  2478
wenzelm@17408
  2479
* Pure/General: structure OrdList (cf. Pure/General/ord_list.ML)
wenzelm@17408
  2480
provides a reasonably efficient light-weight implementation of sets as
wenzelm@17408
  2481
lists.
wenzelm@17408
  2482
wenzelm@17408
  2483
* Pure/General: generic tables (cf. Pure/General/table.ML) provide a
wenzelm@17408
  2484
few new operations; existing lookup and update are now curried to
wenzelm@17408
  2485
follow natural argument order (for use with fold etc.);
wenzelm@17408
  2486
INCOMPATIBILITY, use (uncurry Symtab.lookup) etc. as last resort.
wenzelm@17408
  2487
wenzelm@17408
  2488
* Pure/General: output via the Isabelle channels of
wenzelm@17408
  2489
writeln/warning/error etc. is now passed through Output.output, with a
wenzelm@17408
  2490
hook for arbitrary transformations depending on the print_mode
wenzelm@17408
  2491
(cf. Output.add_mode -- the first active mode that provides a output
wenzelm@17408
  2492
function wins).  Already formatted output may be embedded into further
wenzelm@17408
  2493
text via Output.raw; the result of Pretty.string_of/str_of and derived
wenzelm@17408
  2494
functions (string_of_term/cterm/thm etc.) is already marked raw to
wenzelm@17408
  2495
accommodate easy composition of diagnostic messages etc.  Programmers
wenzelm@17408
  2496
rarely need to care about Output.output or Output.raw at all, with
wenzelm@17408
  2497
some notable exceptions: Output.output is required when bypassing the
wenzelm@17408
  2498
standard channels (writeln etc.), or in token translations to produce
wenzelm@17408
  2499
properly formatted results; Output.raw is required when capturing
wenzelm@17408
  2500
already output material that will eventually be presented to the user
wenzelm@17408
  2501
a second time.  For the default print mode, both Output.output and
wenzelm@17408
  2502
Output.raw have no effect.
wenzelm@17408
  2503
wenzelm@17408
  2504
* Pure/General: Output.time_accumulator NAME creates an operator ('a
wenzelm@17408
  2505
-> 'b) -> 'a -> 'b to measure runtime and count invocations; the
wenzelm@17408
  2506
cumulative results are displayed at the end of a batch session.
wenzelm@17408
  2507
wenzelm@17408
  2508
* Pure/General: File.sysify_path and File.quote_sysify path have been
wenzelm@17408
  2509
replaced by File.platform_path and File.shell_path (with appropriate
wenzelm@17408
  2510
hooks).  This provides a clean interface for unusual systems where the
wenzelm@17408
  2511
internal and external process view of file names are different.
wenzelm@17408
  2512
wenzelm@16689
  2513
* Pure: more efficient orders for basic syntactic entities: added
wenzelm@16689
  2514
fast_string_ord, fast_indexname_ord, fast_term_ord; changed sort_ord
wenzelm@16689
  2515
and typ_ord to use fast_string_ord and fast_indexname_ord (term_ord is
wenzelm@16689
  2516
NOT affected); structures Symtab, Vartab, Typtab, Termtab use the fast
wenzelm@16689
  2517
orders now -- potential INCOMPATIBILITY for code that depends on a
wenzelm@16689
  2518
particular order for Symtab.keys, Symtab.dest, etc. (consider using
wenzelm@16689
  2519
Library.sort_strings on result).
wenzelm@16689
  2520
wenzelm@17408
  2521
* Pure/term.ML: combinators fold_atyps, fold_aterms, fold_term_types,
wenzelm@17408
  2522
fold_types traverse types/terms from left to right, observing natural
wenzelm@17408
  2523
argument order.  Supercedes previous foldl_XXX versions, add_frees,
wenzelm@17408
  2524
add_vars etc. have been adapted as well: INCOMPATIBILITY.
wenzelm@17408
  2525
wenzelm@16151
  2526
* Pure: name spaces have been refined, with significant changes of the
wenzelm@16234
  2527
internal interfaces -- INCOMPATIBILITY.  Renamed cond_extern(_table)
wenzelm@16234
  2528
to extern(_table).  The plain name entry path is superceded by a
wenzelm@16234
  2529
general 'naming' context, which also includes the 'policy' to produce
wenzelm@16234
  2530
a fully qualified name and external accesses of a fully qualified
wenzelm@16234
  2531
name; NameSpace.extend is superceded by context dependent
wenzelm@16234
  2532
Sign.declare_name.  Several theory and proof context operations modify
wenzelm@16234
  2533
the naming context.  Especially note Theory.restore_naming and
wenzelm@16234
  2534
ProofContext.restore_naming to get back to a sane state; note that
wenzelm@16234
  2535
Theory.add_path is no longer sufficient to recover from
wenzelm@16234
  2536
Theory.absolute_path in particular.
wenzelm@16234
  2537
wenzelm@16234
  2538
* Pure: new flags short_names (default false) and unique_names
wenzelm@16234
  2539
(default true) for controlling output of qualified names.  If
wenzelm@16234
  2540
short_names is set, names are printed unqualified.  If unique_names is
wenzelm@16234
  2541
reset, the name prefix is reduced to the minimum required to achieve
wenzelm@16234
  2542
the original result when interning again, even if there is an overlap
wenzelm@16234
  2543
with earlier declarations.
wenzelm@16151
  2544
wenzelm@16456
  2545
* Pure/TheoryDataFun: change of the argument structure; 'prep_ext' is
wenzelm@16456
  2546
now 'extend', and 'merge' gets an additional Pretty.pp argument
wenzelm@16456
  2547
(useful for printing error messages).  INCOMPATIBILITY.
wenzelm@16456
  2548
wenzelm@16456
  2549
* Pure: major reorganization of the theory context.  Type Sign.sg and
wenzelm@16456
  2550
Theory.theory are now identified, referring to the universal
wenzelm@16456
  2551
Context.theory (see Pure/context.ML).  Actual signature and theory
wenzelm@16456
  2552
content is managed as theory data.  The old code and interfaces were
wenzelm@16456
  2553
spread over many files and structures; the new arrangement introduces
wenzelm@16456
  2554
considerable INCOMPATIBILITY to gain more clarity:
wenzelm@16456
  2555
wenzelm@16456
  2556
  Context -- theory management operations (name, identity, inclusion,
wenzelm@16456
  2557
    parents, ancestors, merge, etc.), plus generic theory data;
wenzelm@16456
  2558
wenzelm@16456
  2559
  Sign -- logical signature and syntax operations (declaring consts,
wenzelm@16456
  2560
    types, etc.), plus certify/read for common entities;
wenzelm@16456
  2561
wenzelm@16456
  2562
  Theory -- logical theory operations (stating axioms, definitions,
wenzelm@16456
  2563
    oracles), plus a copy of logical signature operations (consts,
wenzelm@16456
  2564
    types, etc.); also a few basic management operations (Theory.copy,
wenzelm@16456
  2565
    Theory.merge, etc.)
wenzelm@16456
  2566
wenzelm@16456
  2567
The most basic sign_of operations (Theory.sign_of, Thm.sign_of_thm
wenzelm@16456
  2568
etc.) as well as the sign field in Thm.rep_thm etc. have been retained
wenzelm@16456
  2569
for convenience -- they merely return the theory.
wenzelm@16456
  2570
wenzelm@17193
  2571
* Pure: type Type.tsig is superceded by theory in most interfaces.
wenzelm@17193
  2572
wenzelm@16547
  2573
* Pure: the Isar proof context type is already defined early in Pure
wenzelm@16547
  2574
as Context.proof (note that ProofContext.context and Proof.context are
wenzelm@16547
  2575
aliases, where the latter is the preferred name).  This enables other
wenzelm@16547
  2576
Isabelle components to refer to that type even before Isar is present.
wenzelm@16547
  2577
wenzelm@16373
  2578
* Pure/sign/theory: discontinued named name spaces (i.e. classK,
wenzelm@16373
  2579
typeK, constK, axiomK, oracleK), but provide explicit operations for
wenzelm@16373
  2580
any of these kinds.  For example, Sign.intern typeK is now
wenzelm@16373
  2581
Sign.intern_type, Theory.hide_space Sign.typeK is now
wenzelm@16373
  2582
Theory.hide_types.  Also note that former
wenzelm@16373
  2583
Theory.hide_classes/types/consts are now
wenzelm@16373
  2584
Theory.hide_classes_i/types_i/consts_i, while the non '_i' versions
wenzelm@16373
  2585
internalize their arguments!  INCOMPATIBILITY.
wenzelm@16373
  2586
wenzelm@16506
  2587
* Pure: get_thm interface (of PureThy and ProofContext) expects
wenzelm@16506
  2588
datatype thmref (with constructors Name and NameSelection) instead of
wenzelm@16506
  2589
plain string -- INCOMPATIBILITY;
wenzelm@16506
  2590
wenzelm@16151
  2591
* Pure: cases produced by proof methods specify options, where NONE
wenzelm@16234
  2592
means to remove case bindings -- INCOMPATIBILITY in
wenzelm@16234
  2593
(RAW_)METHOD_CASES.
wenzelm@16151
  2594
wenzelm@16373
  2595
* Pure: the following operations retrieve axioms or theorems from a