Theory Show.Shows_Literal
section ‹Show Based on String Literals›
theory Shows_Literal
imports
Main
Show_Instances
begin
text ‹In this theory we provide an alternative to the @{class show}-class, where
@{typ String.literal} instead of @{typ string} is used, with the aim that target-language
readable strings are used in generated code. In particular when writing Isabelle functions that
produce strings such as @{term "STR ''this is info for the user: ...''"},
this class might be useful.
To keep it simple, in contrast to @{class show}, here we do not enforce the show law.›
type_synonym showsl = "String.literal ⇒ String.literal"
definition showsl_of_shows :: "shows ⇒ showsl" where
"showsl_of_shows shws s = String.implode (shws []) + s"
definition showsl_lit :: "String.literal ⇒ showsl" where
"showsl_lit = (+)"
definition "showsl_paren s = showsl_lit (STR ''('') o s o showsl_lit (STR '')'')"
fun showsl_sep :: "('a ⇒ showsl) ⇒ showsl ⇒ 'a list ⇒ showsl"
where
"showsl_sep s sep [] = showsl_lit (STR '''')" |
"showsl_sep s sep [x] = s x" |
"showsl_sep s sep (x#xs) = s x o sep o showsl_sep s sep xs"
definition
showsl_list_gen :: "('a ⇒ showsl) ⇒ String.literal ⇒ String.literal
⇒ String.literal ⇒ String.literal ⇒ 'a list ⇒ showsl"
where
"showsl_list_gen showslx e l s r xs =
(if xs = [] then showsl_lit e
else showsl_lit l o showsl_sep showslx (showsl_lit s) xs o showsl_lit r)"
definition default_showsl_list :: "('a ⇒ showsl) ⇒ 'a list ⇒ showsl" where
"default_showsl_list sl = showsl_list_gen sl (STR ''[]'') (STR ''['') (STR '', '') (STR '']'')"
definition [code_unfold]: "char_zero = (48 :: integer)"
lemma char_zero: "char_zero = integer_of_char (CHR ''0'')" by code_simp
fun lit_of_digit :: "nat ⇒ String.literal" where
"lit_of_digit n =
String.implode [char_of_integer (char_zero + integer_of_nat n)]"
class showl =
fixes showsl :: "'a ⇒ showsl"
and showsl_list :: "'a list ⇒ showsl"
definition "showsl_lines desc_empty = showsl_list_gen showsl desc_empty (STR '''') (STR ''⏎'') (STR '''')"
abbreviation showl where "showl x ≡ showsl x (STR '''')"
instantiation char :: showl
begin
definition "showsl_char c = showsl_lit (String.implode [c])"
definition "showsl_list_char cs s = showsl_lit (String.implode cs) s"
instance ..
end
instantiation String.literal :: showl
begin
definition "showsl (s :: String.literal) = showsl_lit s"
definition "showsl_list (xs :: String.literal list) = default_showsl_list showsl xs"
instance ..
end
instantiation bool :: showl
begin
definition "showsl (b :: bool) = showsl_lit (if b then STR ''True'' else STR ''False'')"
definition "showsl_list (xs :: bool list) = default_showsl_list showsl xs"
instance ..
end
instantiation nat :: showl
begin
fun showsl_nat :: "nat ⇒ showsl" where
"showsl_nat n =
(if n < 10 then showsl_lit (lit_of_digit n)
else showsl_nat (n div 10) o showsl_lit (lit_of_digit (n mod 10)))"
definition "showsl_list (xs :: nat list) = default_showsl_list showsl xs"
instance ..
end
instantiation int :: showl
begin
definition "showsl_int i =
(if i < 0 then showsl_lit (STR ''-'') o showsl (nat (- i)) else showsl (nat i))"
definition "showsl_list (xs :: int list) = default_showsl_list showsl xs"
instance ..
end
instantiation integer :: showl
begin
definition showsl_integer :: "integer ⇒ showsl" where "showsl_integer i = showsl (int_of_integer i)"
definition showsl_list_integer :: "integer list ⇒ showsl" where "showsl_list_integer xs = default_showsl_list showsl xs"
instance ..
end
instantiation rat :: showl
begin
definition "showsl_rat x =
(case quotient_of x of (d, n) ⇒
if n = 1 then showsl d else showsl d o showsl_lit (STR ''/'') o showsl n)"
definition "showsl_list (xs :: rat list) = default_showsl_list showsl xs"
instance ..
end
instantiation unit :: showl
begin
definition "showsl (x :: unit) = showsl_lit (STR ''()'')"
definition "showsl_list (xs :: unit list) = default_showsl_list showsl xs"
instance ..
end
instantiation option :: (showl) showl
begin
fun showsl_option where
"showsl_option None = showsl_lit (STR ''None'')"
| "showsl_option (Some x) = showsl_lit (STR ''Some ('') o showsl x o showsl_lit (STR '')'')"
definition "showsl_list (xs :: 'a option list) = default_showsl_list showsl xs"
instance ..
end
instantiation sum :: (showl,showl) showl
begin
fun showsl_sum where
"showsl_sum (Inl x) = showsl_lit (STR ''Inl ('') o showsl x o showsl_lit (STR '')'')"
| "showsl_sum (Inr x) = showsl_lit (STR ''Inr ('') o showsl x o showsl_lit (STR '')'')"
definition "showsl_list (xs :: ('a + 'b) list) = default_showsl_list showsl xs"
instance ..
end
instantiation prod :: (showl,showl) showl
begin
fun showsl_prod where
"showsl_prod (Pair x y) = showsl_lit (STR ''('') o showsl x
o showsl_lit (STR '', '') o showsl y o showsl_lit (STR '')'')"
definition "showsl_list (xs :: ('a * 'b) list) = default_showsl_list showsl xs"
instance ..
end
definition [code_unfold]: "showsl_nl = showsl (STR ''⏎'')"
definition add_index :: "showsl ⇒ nat ⇒ showsl" where
"add_index s i = s o showsl_lit (STR ''.'') o showsl i"
instantiation list :: (showl) showl
begin
definition showsl_list :: "'a list ⇒ showsl" where
"showsl_list (xs :: 'a list) = showl_class.showsl_list xs"
definition "showsl_list_list (xs :: 'a list list) = default_showsl_list showsl xs"
instance ..
end
end