--- a/doc-src/IsarRef/Thy/ZF_Specific.thy Mon Aug 27 23:37:16 2012 +0200
+++ /dev/null Thu Jan 01 00:00:00 1970 +0000
@@ -1,135 +0,0 @@
-theory ZF_Specific
-imports Base Main
-begin
-
-chapter {* Isabelle/ZF \label{ch:zf} *}
-
-section {* Type checking *}
-
-text {*
- The ZF logic is essentially untyped, so the concept of ``type
- checking'' is performed as logical reasoning about set-membership
- statements. A special method assists users in this task; a version
- of this is already declared as a ``solver'' in the standard
- Simplifier setup.
-
- \begin{matharray}{rcl}
- @{command_def (ZF) "print_tcset"}@{text "\<^sup>*"} & : & @{text "context \<rightarrow>"} \\
- @{method_def (ZF) typecheck} & : & @{text method} \\
- @{attribute_def (ZF) TC} & : & @{text attribute} \\
- \end{matharray}
-
- @{rail "
- @@{attribute (ZF) TC} (() | 'add' | 'del')
- "}
-
- \begin{description}
-
- \item @{command (ZF) "print_tcset"} prints the collection of
- typechecking rules of the current context.
-
- \item @{method (ZF) typecheck} attempts to solve any pending
- type-checking problems in subgoals.
-
- \item @{attribute (ZF) TC} adds or deletes type-checking rules from
- the context.
-
- \end{description}
-*}
-
-
-section {* (Co)Inductive sets and datatypes *}
-
-subsection {* Set definitions *}
-
-text {*
- In ZF everything is a set. The generic inductive package also
- provides a specific view for ``datatype'' specifications.
- Coinductive definitions are available in both cases, too.
-
- \begin{matharray}{rcl}
- @{command_def (ZF) "inductive"} & : & @{text "theory \<rightarrow> theory"} \\
- @{command_def (ZF) "coinductive"} & : & @{text "theory \<rightarrow> theory"} \\
- @{command_def (ZF) "datatype"} & : & @{text "theory \<rightarrow> theory"} \\
- @{command_def (ZF) "codatatype"} & : & @{text "theory \<rightarrow> theory"} \\
- \end{matharray}
-
- @{rail "
- (@@{command (ZF) inductive} | @@{command (ZF) coinductive}) domains intros hints
- ;
-
- domains: @'domains' (@{syntax term} + '+') ('<=' | '\<subseteq>') @{syntax term}
- ;
- intros: @'intros' (@{syntax thmdecl}? @{syntax prop} +)
- ;
- hints: @{syntax (ZF) \"monos\"}? condefs? \\
- @{syntax (ZF) typeintros}? @{syntax (ZF) typeelims}?
- ;
- @{syntax_def (ZF) \"monos\"}: @'monos' @{syntax thmrefs}
- ;
- condefs: @'con_defs' @{syntax thmrefs}
- ;
- @{syntax_def (ZF) typeintros}: @'type_intros' @{syntax thmrefs}
- ;
- @{syntax_def (ZF) typeelims}: @'type_elims' @{syntax thmrefs}
- "}
-
- In the following syntax specification @{text "monos"}, @{text
- typeintros}, and @{text typeelims} are the same as above.
-
- @{rail "
- (@@{command (ZF) datatype} | @@{command (ZF) codatatype}) domain? (dtspec + @'and') hints
- ;
-
- domain: ('<=' | '\<subseteq>') @{syntax term}
- ;
- dtspec: @{syntax term} '=' (con + '|')
- ;
- con: @{syntax name} ('(' (@{syntax term} ',' +) ')')?
- ;
- hints: @{syntax (ZF) \"monos\"}? @{syntax (ZF) typeintros}? @{syntax (ZF) typeelims}?
- "}
-
- See \cite{isabelle-ZF} for further information on inductive
- definitions in ZF, but note that this covers the old-style theory
- format.
-*}
-
-
-subsection {* Primitive recursive functions *}
-
-text {*
- \begin{matharray}{rcl}
- @{command_def (ZF) "primrec"} & : & @{text "theory \<rightarrow> theory"} \\
- \end{matharray}
-
- @{rail "
- @@{command (ZF) primrec} (@{syntax thmdecl}? @{syntax prop} +)
- "}
-*}
-
-
-subsection {* Cases and induction: emulating tactic scripts *}
-
-text {*
- The following important tactical tools of Isabelle/ZF have been
- ported to Isar. These should not be used in proper proof texts.
-
- \begin{matharray}{rcl}
- @{method_def (ZF) case_tac}@{text "\<^sup>*"} & : & @{text method} \\
- @{method_def (ZF) induct_tac}@{text "\<^sup>*"} & : & @{text method} \\
- @{method_def (ZF) ind_cases}@{text "\<^sup>*"} & : & @{text method} \\
- @{command_def (ZF) "inductive_cases"} & : & @{text "theory \<rightarrow> theory"} \\
- \end{matharray}
-
- @{rail "
- (@@{method (ZF) case_tac} | @@{method (ZF) induct_tac}) @{syntax goal_spec}? @{syntax name}
- ;
- @@{method (ZF) ind_cases} (@{syntax prop} +)
- ;
- @@{command (ZF) inductive_cases} (@{syntax thmdecl}? (@{syntax prop} +) + @'and')
- ;
- "}
-*}
-
-end