pkg/kernel/coq/Syntax.v - sdk.git - Git at Google

 Require Export SyntaxRaw.
 Require Import Common.

 Scheme dart_type_ind_mutual := Induction for dart_type Sort Prop
   with interface_type_ind_mutual := Induction for interface_type Sort Prop
   with function_type_ind_mutual := Induction for function_type Sort Prop.

 Scheme expression_ind_mutual := Induction for expression Sort Prop
   with variable_get_ind_mutual := Induction for variable_get Sort Prop
   with property_get_ind_mutual := Induction for property_get Sort Prop
   with invocation_expression_ind_mutual := Induction for invocation_expression Sort Prop
   with method_invocation_ind_mutual := Induction for method_invocation Sort Prop
   with constructor_invocation_ind_mutual := Induction for constructor_invocation Sort Prop
   with arguments_ind_mutual := Induction for arguments Sort Prop.

 Scheme statement_ind_mutual := Induction for statement Sort Prop
   with expression_statement_ind_mutual := Induction for expression_statement Sort Prop
   with block_ind_mutual := Induction for block Sort Prop
   with return_ind_mutual := Induction for return_statement Sort Prop
   with variable_declaration_ind_mutual := Induction for variable_declaration Sort Prop
 .

 Definition dart_type_induction prop :=
   dart_type_ind_mutual
     prop
     (fun i => prop (DT_Interface_Type i))
     (fun f => prop (DT_Function_Type f)).

 Definition expr_induction prop :=
   expression_ind_mutual
     (fun e => prop e)
     (fun v => prop (E_Variable_Get v))
     (fun p => prop (E_Property_Get p))
     (fun ie => prop (E_Invocation_Expression ie))
     (fun mi => prop (E_Invocation_Expression (IE_Method_Invocation mi)))
     (fun ci => prop (E_Invocation_Expression (IE_Constructor_Invocation ci)))
     (fun args => let (param) := args in prop param).

 (* Since blocks contain lists of statements, we can't just use Scheme to
    generate a good induction prinicple. *)
 Section Statement_Mutual_Induction.
   Variable P : statement -> Prop.
   Hypothesis Return : forall r, P (S_Return_Statement r).
   Hypothesis VarDecl : forall vd, P (S_Variable_Declaration vd).
   Hypothesis Expr : forall e, P (S_Expression_Statement e).
   Hypothesis Blk : forall ss, Forall P ss -> P (S_Block (Block ss)).

   Fixpoint statement_induction s : P s :=
     match s with
     | S_Return_Statement r => Return r
     | S_Expression_Statement e => Expr e
     | S_Variable_Declaration vd => VarDecl vd
     | S_Block (Block ss) =>
       let ss_all := (fix rec (ss : list statement) : Forall P ss :=
                      match ss with
                      | nil => Forall_nil _
                      | (s::ss) => Forall_cons _ (statement_induction s) (rec ss)
                      end) ss in
       Blk ss ss_all
     end.
 End Statement_Mutual_Induction.
	Require Export SyntaxRaw.
	Require Import Common.

	Scheme dart_type_ind_mutual := Induction for dart_type Sort Prop
	with interface_type_ind_mutual := Induction for interface_type Sort Prop
	with function_type_ind_mutual := Induction for function_type Sort Prop.

	Scheme expression_ind_mutual := Induction for expression Sort Prop
	with variable_get_ind_mutual := Induction for variable_get Sort Prop
	with property_get_ind_mutual := Induction for property_get Sort Prop
	with invocation_expression_ind_mutual := Induction for invocation_expression Sort Prop
	with method_invocation_ind_mutual := Induction for method_invocation Sort Prop
	with constructor_invocation_ind_mutual := Induction for constructor_invocation Sort Prop
	with arguments_ind_mutual := Induction for arguments Sort Prop.

	Scheme statement_ind_mutual := Induction for statement Sort Prop
	with expression_statement_ind_mutual := Induction for expression_statement Sort Prop
	with block_ind_mutual := Induction for block Sort Prop
	with return_ind_mutual := Induction for return_statement Sort Prop
	with variable_declaration_ind_mutual := Induction for variable_declaration Sort Prop
	.

	Definition dart_type_induction prop :=
	dart_type_ind_mutual
	prop
	(fun i => prop (DT_Interface_Type i))
	(fun f => prop (DT_Function_Type f)).

	Definition expr_induction prop :=
	expression_ind_mutual
	(fun e => prop e)
	(fun v => prop (E_Variable_Get v))
	(fun p => prop (E_Property_Get p))
	(fun ie => prop (E_Invocation_Expression ie))
	(fun mi => prop (E_Invocation_Expression (IE_Method_Invocation mi)))
	(fun ci => prop (E_Invocation_Expression (IE_Constructor_Invocation ci)))
	(fun args => let (param) := args in prop param).

	(* Since blocks contain lists of statements, we can't just use Scheme to
	generate a good induction prinicple. *)
	Section Statement_Mutual_Induction.
	Variable P : statement -> Prop.
	Hypothesis Return : forall r, P (S_Return_Statement r).
	Hypothesis VarDecl : forall vd, P (S_Variable_Declaration vd).
	Hypothesis Expr : forall e, P (S_Expression_Statement e).
	Hypothesis Blk : forall ss, Forall P ss -> P (S_Block (Block ss)).

	Fixpoint statement_induction s : P s :=
	match s with
	\| S_Return_Statement r => Return r
	\| S_Expression_Statement e => Expr e
	\| S_Variable_Declaration vd => VarDecl vd
	\| S_Block (Block ss) =>
	let ss_all := (fix rec (ss : list statement) : Forall P ss :=
	match ss with
	\| nil => Forall_nil _
	\| (s::ss) => Forall_cons _ (statement_induction s) (rec ss)
	end) ss in
	Blk ss ss_all
	end.
	End Statement_Mutual_Induction.