ssh client via regular OpenSSH tools, with authentic use of .ssh/config (notably proxy configuration);
tuned signature;
theory OG_Syntax
imports OG_Tactics Quote_Antiquote
begin
text\<open>Syntax for commands and for assertions and boolean expressions in
commands \<open>com\<close> and annotated commands \<open>ann_com\<close>.\<close>
abbreviation Skip :: "'a com" ("SKIP" 63)
where "SKIP \<equiv> Basic id"
abbreviation AnnSkip :: "'a assn \<Rightarrow> 'a ann_com" ("_//SKIP" [90] 63)
where "r SKIP \<equiv> AnnBasic r id"
notation
Seq ("_,,/ _" [55, 56] 55) and
AnnSeq ("_;;/ _" [60,61] 60)
syntax
"_Assign" :: "idt \<Rightarrow> 'b \<Rightarrow> 'a com" ("(\<acute>_ :=/ _)" [70, 65] 61)
"_AnnAssign" :: "'a assn \<Rightarrow> idt \<Rightarrow> 'b \<Rightarrow> 'a com" ("(_ \<acute>_ :=/ _)" [90,70,65] 61)
translations
"\<acute>x := a" \<rightharpoonup> "CONST Basic \<guillemotleft>\<acute>(_update_name x (\<lambda>_. a))\<guillemotright>"
"r \<acute>x := a" \<rightharpoonup> "CONST AnnBasic r \<guillemotleft>\<acute>(_update_name x (\<lambda>_. a))\<guillemotright>"
syntax
"_AnnCond1" :: "'a assn \<Rightarrow> 'a bexp \<Rightarrow> 'a ann_com \<Rightarrow> 'a ann_com \<Rightarrow> 'a ann_com"
("_ //IF _ /THEN _ /ELSE _ /FI" [90,0,0,0] 61)
"_AnnCond2" :: "'a assn \<Rightarrow> 'a bexp \<Rightarrow> 'a ann_com \<Rightarrow> 'a ann_com"
("_ //IF _ /THEN _ /FI" [90,0,0] 61)
"_AnnWhile" :: "'a assn \<Rightarrow> 'a bexp \<Rightarrow> 'a assn \<Rightarrow> 'a ann_com \<Rightarrow> 'a ann_com"
("_ //WHILE _ /INV _ //DO _//OD" [90,0,0,0] 61)
"_AnnAwait" :: "'a assn \<Rightarrow> 'a bexp \<Rightarrow> 'a com \<Rightarrow> 'a ann_com"
("_ //AWAIT _ /THEN /_ /END" [90,0,0] 61)
"_AnnAtom" :: "'a assn \<Rightarrow> 'a com \<Rightarrow> 'a ann_com" ("_//\<langle>_\<rangle>" [90,0] 61)
"_AnnWait" :: "'a assn \<Rightarrow> 'a bexp \<Rightarrow> 'a ann_com" ("_//WAIT _ END" [90,0] 61)
"_Cond" :: "'a bexp \<Rightarrow> 'a com \<Rightarrow> 'a com \<Rightarrow> 'a com"
("(0IF _/ THEN _/ ELSE _/ FI)" [0, 0, 0] 61)
"_Cond2" :: "'a bexp \<Rightarrow> 'a com \<Rightarrow> 'a com" ("IF _ THEN _ FI" [0,0] 56)
"_While_inv" :: "'a bexp \<Rightarrow> 'a assn \<Rightarrow> 'a com \<Rightarrow> 'a com"
("(0WHILE _/ INV _ //DO _ /OD)" [0, 0, 0] 61)
"_While" :: "'a bexp \<Rightarrow> 'a com \<Rightarrow> 'a com"
("(0WHILE _ //DO _ /OD)" [0, 0] 61)
translations
"IF b THEN c1 ELSE c2 FI" \<rightharpoonup> "CONST Cond \<lbrace>b\<rbrace> c1 c2"
"IF b THEN c FI" \<rightleftharpoons> "IF b THEN c ELSE SKIP FI"
"WHILE b INV i DO c OD" \<rightharpoonup> "CONST While \<lbrace>b\<rbrace> i c"
"WHILE b DO c OD" \<rightleftharpoons> "WHILE b INV CONST undefined DO c OD"
"r IF b THEN c1 ELSE c2 FI" \<rightharpoonup> "CONST AnnCond1 r \<lbrace>b\<rbrace> c1 c2"
"r IF b THEN c FI" \<rightharpoonup> "CONST AnnCond2 r \<lbrace>b\<rbrace> c"
"r WHILE b INV i DO c OD" \<rightharpoonup> "CONST AnnWhile r \<lbrace>b\<rbrace> i c"
"r AWAIT b THEN c END" \<rightharpoonup> "CONST AnnAwait r \<lbrace>b\<rbrace> c"
"r \<langle>c\<rangle>" \<rightleftharpoons> "r AWAIT CONST True THEN c END"
"r WAIT b END" \<rightleftharpoons> "r AWAIT b THEN SKIP END"
nonterminal prgs
syntax
"_PAR" :: "prgs \<Rightarrow> 'a" ("COBEGIN//_//COEND" [57] 56)
"_prg" :: "['a, 'a] \<Rightarrow> prgs" ("_//_" [60, 90] 57)
"_prgs" :: "['a, 'a, prgs] \<Rightarrow> prgs" ("_//_//\<parallel>//_" [60,90,57] 57)
"_prg_scheme" :: "['a, 'a, 'a, 'a, 'a] \<Rightarrow> prgs"
("SCHEME [_ \<le> _ < _] _// _" [0,0,0,60, 90] 57)
translations
"_prg c q" \<rightleftharpoons> "[(CONST Some c, q)]"
"_prgs c q ps" \<rightleftharpoons> "(CONST Some c, q) # ps"
"_PAR ps" \<rightleftharpoons> "CONST Parallel ps"
"_prg_scheme j i k c q" \<rightleftharpoons> "CONST map (\<lambda>i. (CONST Some c, q)) [j..<k]"
print_translation \<open>
let
fun quote_tr' f (t :: ts) =
Term.list_comb (f $ Syntax_Trans.quote_tr' \<^syntax_const>\<open>_antiquote\<close> t, ts)
| quote_tr' _ _ = raise Match;
fun annquote_tr' f (r :: t :: ts) =
Term.list_comb (f $ r $ Syntax_Trans.quote_tr' \<^syntax_const>\<open>_antiquote\<close> t, ts)
| annquote_tr' _ _ = raise Match;
val assert_tr' = quote_tr' (Syntax.const \<^syntax_const>\<open>_Assert\<close>);
fun bexp_tr' name ((Const (\<^const_syntax>\<open>Collect\<close>, _) $ t) :: ts) =
quote_tr' (Syntax.const name) (t :: ts)
| bexp_tr' _ _ = raise Match;
fun annbexp_tr' name (r :: (Const (\<^const_syntax>\<open>Collect\<close>, _) $ t) :: ts) =
annquote_tr' (Syntax.const name) (r :: t :: ts)
| annbexp_tr' _ _ = raise Match;
fun assign_tr' (Abs (x, _, f $ k $ Bound 0) :: ts) =
quote_tr' (Syntax.const \<^syntax_const>\<open>_Assign\<close> $ Syntax_Trans.update_name_tr' f)
(Abs (x, dummyT, Syntax_Trans.const_abs_tr' k) :: ts)
| assign_tr' _ = raise Match;
fun annassign_tr' (r :: Abs (x, _, f $ k $ Bound 0) :: ts) =
quote_tr' (Syntax.const \<^syntax_const>\<open>_AnnAssign\<close> $ r $ Syntax_Trans.update_name_tr' f)
(Abs (x, dummyT, Syntax_Trans.const_abs_tr' k) :: ts)
| annassign_tr' _ = raise Match;
fun Parallel_PAR [(Const (\<^const_syntax>\<open>Cons\<close>, _) $
(Const (\<^const_syntax>\<open>Pair\<close>, _) $ (Const (\<^const_syntax>\<open>Some\<close>,_) $ t1 ) $ t2) $
Const (\<^const_syntax>\<open>Nil\<close>, _))] = Syntax.const \<^syntax_const>\<open>_prg\<close> $ t1 $ t2
| Parallel_PAR [(Const (\<^const_syntax>\<open>Cons\<close>, _) $
(Const (\<^const_syntax>\<open>Pair\<close>, _) $ (Const (\<^const_syntax>\<open>Some\<close>, _) $ t1) $ t2) $ ts)] =
Syntax.const \<^syntax_const>\<open>_prgs\<close> $ t1 $ t2 $ Parallel_PAR [ts]
| Parallel_PAR _ = raise Match;
fun Parallel_tr' ts = Syntax.const \<^syntax_const>\<open>_PAR\<close> $ Parallel_PAR ts;
in
[(\<^const_syntax>\<open>Collect\<close>, K assert_tr'),
(\<^const_syntax>\<open>Basic\<close>, K assign_tr'),
(\<^const_syntax>\<open>Cond\<close>, K (bexp_tr' \<^syntax_const>\<open>_Cond\<close>)),
(\<^const_syntax>\<open>While\<close>, K (bexp_tr' \<^syntax_const>\<open>_While_inv\<close>)),
(\<^const_syntax>\<open>AnnBasic\<close>, K annassign_tr'),
(\<^const_syntax>\<open>AnnWhile\<close>, K (annbexp_tr' \<^syntax_const>\<open>_AnnWhile\<close>)),
(\<^const_syntax>\<open>AnnAwait\<close>, K (annbexp_tr' \<^syntax_const>\<open>_AnnAwait\<close>)),
(\<^const_syntax>\<open>AnnCond1\<close>, K (annbexp_tr' \<^syntax_const>\<open>_AnnCond1\<close>)),
(\<^const_syntax>\<open>AnnCond2\<close>, K (annbexp_tr' \<^syntax_const>\<open>_AnnCond2\<close>))]
end
\<close>
end