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Add top-level definitions (#391)
This commit is contained in:
commit
fced0fff54
@ -49,8 +49,9 @@ type 'm scope_sigs_ctx = 'm scope_sig_ctx ScopeName.Map.t
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type 'm ctx = {
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structs : struct_ctx;
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enums : enum_ctx;
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scope_name : ScopeName.t;
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scope_name : ScopeName.t option;
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scopes_parameters : 'm scope_sigs_ctx;
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toplevel_vars : ('m Ast.expr Var.t * naked_typ) TopdefName.Map.t;
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scope_vars :
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('m Ast.expr Var.t * naked_typ * Desugared.Ast.io) ScopeVar.Map.t;
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subscope_vars :
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@ -59,21 +60,6 @@ type 'm ctx = {
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local_vars : ('m Scopelang.Ast.expr, 'm Ast.expr Var.t) Var.Map.t;
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}
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let empty_ctx
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(struct_ctx : struct_ctx)
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(enum_ctx : enum_ctx)
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(scopes_ctx : 'm scope_sigs_ctx)
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(scope_name : ScopeName.t) =
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{
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structs = struct_ctx;
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enums = enum_ctx;
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scope_name;
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scopes_parameters = scopes_ctx;
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scope_vars = ScopeVar.Map.empty;
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subscope_vars = SubScopeName.Map.empty;
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local_vars = Var.Map.empty;
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}
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let mark_tany m pos = Expr.with_ty m (Marked.mark pos TAny) ~pos
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(* Expression argument is used as a type witness, its type and positions aren't
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@ -222,6 +208,9 @@ let rec translate_expr (ctx : 'm ctx) (e : 'm Scopelang.Ast.expr) :
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Expr.estruct name fields m
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| EStructAccess { e; field; name } ->
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Expr.estructaccess (translate_expr ctx e) field name m
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| ETuple es -> Expr.etuple (List.map (translate_expr ctx) es) m
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| ETupleAccess { e; index; size } ->
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Expr.etupleaccess (translate_expr ctx e) index size m
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| EInj { e; cons; name } ->
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let e' = translate_expr ctx e in
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Expr.einj e' cons name m
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@ -437,17 +426,21 @@ let rec translate_expr (ctx : 'm ctx) (e : 'm Scopelang.Ast.expr) :
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(* We insert various log calls to record arguments and outputs of
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user-defined functions belonging to scopes *)
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let e1_func = translate_expr ctx f in
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let markings l =
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match l with
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let markings =
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match ctx.scope_name, Marked.unmark f with
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| Some sname, ELocation loc -> (
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match loc with
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| ScopelangScopeVar (v, _) ->
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[ScopeName.get_info ctx.scope_name; ScopeVar.get_info v]
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[ScopeName.get_info sname; ScopeVar.get_info v]
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| SubScopeVar (s, _, (v, _)) ->
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[ScopeName.get_info s; ScopeVar.get_info v]
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| ToplevelVar _ -> [])
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| _ -> []
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in
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let e1_func =
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match Marked.unmark f with
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| ELocation l -> tag_with_log_entry e1_func BeginCall (markings l)
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| _ -> e1_func
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match markings with
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| [] -> e1_func
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| m -> tag_with_log_entry e1_func BeginCall m
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in
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let new_args = List.map (translate_expr ctx) args in
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let input_typ, output_typ =
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@ -469,26 +462,35 @@ let rec translate_expr (ctx : 'm ctx) (e : 'm Scopelang.Ast.expr) :
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ctx.subscope_vars
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|> SubScopeName.Map.find (Marked.unmark sname)
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|> retrieve_in_and_out_typ_or_any var
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| ELocation (ToplevelVar tvar) -> (
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let _, typ =
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TopdefName.Map.find (Marked.unmark tvar) ctx.toplevel_vars
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in
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match typ with
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| TArrow ((tin, _), (tout, _)) -> tin, tout
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| _ ->
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Errors.raise_spanned_error (Expr.pos e)
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"Application of non-function toplevel variable")
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| _ -> TAny, TAny
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in
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let new_args =
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match Marked.unmark f, new_args with
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| ELocation l, [new_arg] ->
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match markings, new_args with
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| (_ :: _ as m), [new_arg] ->
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[
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tag_with_log_entry new_arg (VarDef input_typ)
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(markings l @ [Marked.mark (Expr.pos e) "input"]);
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(m @ [Marked.mark (Expr.pos e) "input"]);
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]
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| _ -> new_args
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in
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let new_e = Expr.eapp e1_func new_args m in
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let new_e =
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match Marked.unmark f with
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| ELocation l ->
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match markings with
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| [] -> new_e
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| m ->
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tag_with_log_entry
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(tag_with_log_entry new_e (VarDef output_typ)
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(markings l @ [Marked.mark (Expr.pos e) "output"]))
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EndCall (markings l)
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| _ -> new_e
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(m @ [Marked.mark (Expr.pos e) "output"]))
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EndCall m
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in
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new_e
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| EAbs { binder; tys } ->
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@ -536,6 +538,9 @@ let rec translate_expr (ctx : 'm ctx) (e : 'm Scopelang.Ast.expr) :
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%a's results. Maybe you forgot to qualify it as an output?"
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SubScopeName.format_t (Marked.unmark s) ScopeVar.format_t
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(Marked.unmark a) SubScopeName.format_t (Marked.unmark s))
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| ELocation (ToplevelVar v) ->
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let v, _ = TopdefName.Map.find (Marked.unmark v) ctx.toplevel_vars in
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Expr.evar v m
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| EIfThenElse { cond; etrue; efalse } ->
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Expr.eifthenelse (translate_expr ctx cond) (translate_expr ctx etrue)
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(translate_expr ctx efalse)
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@ -658,6 +663,11 @@ let translate_rule
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(a_var, Marked.unmark tau, a_io)))
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ctx.subscope_vars;
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} )
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| Definition ((ToplevelVar _, _), _, _, _) ->
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assert false
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(* A global variable can't be defined locally. The [Definition] constructor
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could be made more specific to avoid this case, but the added complexity
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didn't seem worth it *)
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| Call (subname, subindex, m) ->
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let subscope_sig = ScopeName.Map.find subname ctx.scopes_parameters in
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let all_subscope_vars = subscope_sig.scope_sig_local_vars in
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@ -861,15 +871,16 @@ let translate_rules
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new_ctx )
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let translate_scope_decl
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(struct_ctx : struct_ctx)
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(enum_ctx : enum_ctx)
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(sctx : 'm scope_sigs_ctx)
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(ctx : 'm ctx)
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(scope_name : ScopeName.t)
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(sigma : 'm Scopelang.Ast.scope_decl) :
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'm Ast.expr scope_body Bindlib.box * struct_ctx =
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let sigma_info = ScopeName.get_info sigma.scope_decl_name in
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let scope_sig = ScopeName.Map.find sigma.scope_decl_name sctx in
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let scope_sig =
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ScopeName.Map.find sigma.scope_decl_name ctx.scopes_parameters
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in
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let scope_variables = scope_sig.scope_sig_local_vars in
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let ctx = { ctx with scope_name = Some scope_name } in
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let ctx =
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(* the context must be initialized for fresh variables for all only-input
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scope variables *)
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@ -889,8 +900,7 @@ let translate_scope_decl
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ctx.scope_vars;
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}
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| _ -> ctx)
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(empty_ctx struct_ctx enum_ctx sctx scope_name)
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scope_variables
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ctx scope_variables
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in
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let scope_input_var = scope_sig.scope_sig_input_var in
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let scope_input_struct_name = scope_sig.scope_sig_input_struct in
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@ -981,10 +991,10 @@ let translate_scope_decl
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new_struct_ctx )
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let translate_program (prgm : 'm Scopelang.Ast.program) : 'm Ast.program =
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let scope_dependencies = Scopelang.Dependency.build_program_dep_graph prgm in
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Scopelang.Dependency.check_for_cycle_in_scope scope_dependencies;
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let scope_ordering =
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Scopelang.Dependency.get_scope_ordering scope_dependencies
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let defs_dependencies = Scopelang.Dependency.build_program_dep_graph prgm in
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Scopelang.Dependency.check_for_cycle_in_defs defs_dependencies;
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let defs_ordering =
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Scopelang.Dependency.get_defs_ordering defs_dependencies
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in
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let decl_ctx = prgm.program_ctx in
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let sctx : 'm scope_sigs_ctx =
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@ -1039,36 +1049,68 @@ let translate_program (prgm : 'm Scopelang.Ast.program) : 'm Ast.program =
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scope_sig_in_fields;
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scope_sig_out_fields = scope_return.out_struct_fields;
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})
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prgm.program_scopes
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prgm.Scopelang.Ast.program_scopes
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in
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let top_ctx =
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let toplevel_vars =
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TopdefName.Map.mapi
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(fun name (_, ty) ->
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Var.make (Marked.unmark (TopdefName.get_info name)), Marked.unmark ty)
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prgm.Scopelang.Ast.program_topdefs
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in
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{
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structs = decl_ctx.ctx_structs;
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enums = decl_ctx.ctx_enums;
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scope_name = None;
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scopes_parameters = sctx;
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scope_vars = ScopeVar.Map.empty;
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subscope_vars = SubScopeName.Map.empty;
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local_vars = Var.Map.empty;
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toplevel_vars;
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}
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in
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(* the resulting expression is the list of definitions of all the scopes,
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ending with the top-level scope. The decl_ctx is filled in left-to-right
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order, then the chained scopes aggregated from the right. *)
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let rec translate_scopes decl_ctx = function
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| scope_name :: next_scopes ->
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let rec translate_defs ctx = function
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| [] -> Bindlib.box Nil, ctx
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| def :: next ->
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let ctx, dvar, def =
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match def with
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| Scopelang.Dependency.Topdef gname ->
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let expr, ty = TopdefName.Map.find gname prgm.program_topdefs in
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let expr = translate_expr ctx expr in
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( ctx,
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fst (TopdefName.Map.find gname ctx.toplevel_vars),
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Bindlib.box_apply
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(fun e -> Topdef (gname, ty, e))
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(Expr.Box.lift expr) )
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| Scopelang.Dependency.Scope scope_name ->
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let scope = ScopeName.Map.find scope_name prgm.program_scopes in
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let scope_body, scope_in_struct =
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translate_scope_decl decl_ctx.ctx_structs decl_ctx.ctx_enums sctx
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scope_name scope
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translate_scope_decl ctx scope_name scope
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in
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let dvar = (ScopeName.Map.find scope_name sctx).scope_sig_scope_var in
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let decl_ctx =
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{
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decl_ctx with
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ctx_structs =
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( {
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ctx with
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structs =
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StructName.Map.union
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(fun _ _ -> assert false (* should not happen *))
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decl_ctx.ctx_structs scope_in_struct;
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}
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(fun _ _ -> assert false)
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ctx.structs scope_in_struct;
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},
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(ScopeName.Map.find scope_name sctx).scope_sig_scope_var,
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Bindlib.box_apply
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(fun body -> ScopeDef (scope_name, body))
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scope_body )
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in
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let scope_next, decl_ctx = translate_scopes decl_ctx next_scopes in
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let scope_next, ctx = translate_defs ctx next in
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let next_bind = Bindlib.bind_var dvar scope_next in
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( Bindlib.box_apply2
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(fun scope_body scope_next ->
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ScopeDef { scope_name; scope_body; scope_next })
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scope_body
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(Bindlib.bind_var dvar scope_next),
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decl_ctx )
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| [] -> Bindlib.box Nil, decl_ctx
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(fun item next_bind -> Cons (item, next_bind))
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def next_bind,
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ctx )
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in
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let scopes, decl_ctx = translate_scopes decl_ctx scope_ordering in
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{ scopes = Bindlib.unbox scopes; decl_ctx }
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let items, ctx = translate_defs top_ctx defs_ordering in
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{
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code_items = Bindlib.unbox items;
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decl_ctx = { decl_ctx with ctx_structs = ctx.structs };
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}
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@ -314,7 +314,7 @@ and evaluate_expr (ctx : decl_ctx) (e : 'm Ast.expr) : 'm Ast.expr =
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| EVar _ ->
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Errors.raise_spanned_error (Expr.pos e)
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"free variable found at evaluation (should not happen if term was \
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well-typed"
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well-typed)"
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| EApp { f = e1; args } -> (
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let e1 = evaluate_expr ctx e1 in
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let args = List.map (evaluate_expr ctx) args in
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@ -364,6 +364,17 @@ and evaluate_expr (ctx : decl_ctx) (e : 'm Ast.expr) : 'm Ast.expr =
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if the term was well-typed)"
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(Expr.format ctx ~debug:true)
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e StructName.format_t s)
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| ETuple es ->
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Marked.same_mark_as (ETuple (List.map (evaluate_expr ctx) es)) e
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| ETupleAccess { e = e1; index; size } -> (
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match evaluate_expr ctx e1 with
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| ETuple es, _ when List.length es = size -> List.nth es index
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| e ->
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Errors.raise_spanned_error (Expr.pos e)
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"The expression %a was expected to be a tuple of size %d (should not \
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happen if the term was well-typed)"
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(Expr.format ctx ~debug:true)
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e size)
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| EInj { e = e1; name; cons } ->
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let e1' = evaluate_expr ctx e1 in
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if is_empty_error e then Marked.same_mark_as (ELit LEmptyError) e
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|
@ -213,70 +213,11 @@ let rec partial_evaluation (ctx : partial_evaluation_ctx) (e : 'm expr) :
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let optimize_expr (decl_ctx : decl_ctx) (e : 'm expr) =
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partial_evaluation { var_values = Var.Map.empty; decl_ctx } e
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let rec scope_lets_map
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(t : 'a -> 'm expr -> (dcalc, 'm mark) boxed_gexpr)
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(ctx : 'a)
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(scope_body_expr : 'm expr scope_body_expr) :
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'm expr scope_body_expr Bindlib.box =
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match scope_body_expr with
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| Result e ->
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Bindlib.box_apply (fun e' -> Result e') (Expr.Box.lift (t ctx e))
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| ScopeLet scope_let ->
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let var, next = Bindlib.unbind scope_let.scope_let_next in
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let new_scope_let_expr = Expr.Box.lift (t ctx scope_let.scope_let_expr) in
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let new_next = scope_lets_map t ctx next in
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let new_next = Bindlib.bind_var var new_next in
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Bindlib.box_apply2
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(fun new_scope_let_expr new_next ->
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ScopeLet
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{
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scope_let with
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scope_let_expr = new_scope_let_expr;
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scope_let_next = new_next;
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})
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new_scope_let_expr new_next
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let rec scopes_map
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(t : 'a -> 'm expr -> (dcalc, 'm mark) boxed_gexpr)
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(ctx : 'a)
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(scopes : 'm expr scopes) : 'm expr scopes Bindlib.box =
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match scopes with
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| Nil -> Bindlib.box Nil
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| ScopeDef scope_def ->
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let scope_var, scope_next = Bindlib.unbind scope_def.scope_next in
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let scope_arg_var, scope_body_expr =
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Bindlib.unbind scope_def.scope_body.scope_body_expr
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in
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let new_scope_body_expr = scope_lets_map t ctx scope_body_expr in
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let new_scope_body_expr =
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Bindlib.bind_var scope_arg_var new_scope_body_expr
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in
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let new_scope_next = scopes_map t ctx scope_next in
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let new_scope_next = Bindlib.bind_var scope_var new_scope_next in
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Bindlib.box_apply2
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(fun new_scope_body_expr new_scope_next ->
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ScopeDef
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{
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scope_def with
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scope_next = new_scope_next;
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scope_body =
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{
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scope_def.scope_body with
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scope_body_expr = new_scope_body_expr;
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};
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})
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new_scope_body_expr new_scope_next
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let program_map
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(t : 'a -> 'm expr -> (dcalc, 'm mark) boxed_gexpr)
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(ctx : 'a)
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(p : 'm program) : 'm program Bindlib.box =
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Bindlib.box_apply
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(fun new_scopes -> { p with scopes = new_scopes })
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(scopes_map t ctx p.scopes)
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let optimize_program (p : 'm program) : 'm program =
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Bindlib.unbox
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(program_map partial_evaluation
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{ var_values = Var.Map.empty; decl_ctx = p.decl_ctx }
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(Program.map_exprs
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~f:
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(partial_evaluation
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{ var_values = Var.Map.empty; decl_ctx = p.decl_ctx })
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~varf:(fun v -> v)
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p)
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|
@ -197,6 +197,7 @@ type scope = {
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type program = {
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program_scopes : scope ScopeName.Map.t;
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program_topdefs : (expr * typ) TopdefName.Map.t;
|
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program_ctx : decl_ctx;
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}
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@ -216,15 +217,19 @@ let free_variables (def : rule RuleName.Map.t) : Pos.t ScopeDefMap.t =
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Pos.t ScopeDefMap.t =
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LocationSet.fold
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(fun (loc, loc_pos) acc ->
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ScopeDefMap.add
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(match loc with
|
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| DesugaredScopeVar (v, st) -> ScopeDef.Var (Marked.unmark v, st)
|
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let usage =
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match loc with
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| DesugaredScopeVar (v, st) ->
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Some (ScopeDef.Var (Marked.unmark v, st))
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| SubScopeVar (_, sub_index, sub_var) ->
|
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ScopeDef.SubScopeVar
|
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Some
|
||||
(ScopeDef.SubScopeVar
|
||||
( Marked.unmark sub_index,
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Marked.unmark sub_var,
|
||||
Marked.get_mark sub_index ))
|
||||
loc_pos acc)
|
||||
| ToplevelVar _ -> None
|
||||
in
|
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match usage with Some u -> ScopeDefMap.add u loc_pos acc | None -> acc)
|
||||
locs acc
|
||||
in
|
||||
RuleName.Map.fold
|
||||
|
@ -119,6 +119,7 @@ type scope = {
|
||||
|
||||
type program = {
|
||||
program_scopes : scope ScopeName.Map.t;
|
||||
program_topdefs : (expr * typ) TopdefName.Map.t;
|
||||
program_ctx : decl_ctx;
|
||||
}
|
||||
|
||||
|
@ -41,15 +41,24 @@ module Vertex = struct
|
||||
| Var (x, Some sx) -> Int.logxor (ScopeVar.hash x) (StateName.hash sx)
|
||||
| SubScope x -> SubScopeName.hash x
|
||||
|
||||
let compare = compare
|
||||
let compare x y =
|
||||
match x, y with
|
||||
| Var (x, xst), Var (y, yst) -> (
|
||||
match ScopeVar.compare x y with
|
||||
| 0 -> Option.compare StateName.compare xst yst
|
||||
| n -> n)
|
||||
| SubScope x, SubScope y -> SubScopeName.compare x y
|
||||
| Var _, _ -> -1
|
||||
| _, Var _ -> 1
|
||||
| SubScope _, _ -> .
|
||||
| _, SubScope _ -> .
|
||||
|
||||
let equal x y =
|
||||
match x, y with
|
||||
| Var (x, None), Var (y, None) -> ScopeVar.compare x y = 0
|
||||
| Var (x, Some sx), Var (y, Some sy) ->
|
||||
ScopeVar.compare x y = 0 && StateName.compare sx sy = 0
|
||||
| SubScope x, SubScope y -> SubScopeName.compare x y = 0
|
||||
| _ -> false
|
||||
| Var (x, sx), Var (y, sy) ->
|
||||
ScopeVar.equal x y && Option.equal StateName.equal sx sy
|
||||
| SubScope x, SubScope y -> SubScopeName.equal x y
|
||||
| (Var _ | SubScope _), _ -> false
|
||||
|
||||
let format_t (fmt : Format.formatter) (x : t) : unit =
|
||||
match x with
|
||||
@ -57,6 +66,11 @@ module Vertex = struct
|
||||
| Var (v, Some sv) ->
|
||||
Format.fprintf fmt "%a.%a" ScopeVar.format_t v StateName.format_t sv
|
||||
| SubScope v -> SubScopeName.format_t fmt v
|
||||
|
||||
let info = function
|
||||
| Var (v, None) -> ScopeVar.get_info v
|
||||
| Var (_, Some sv) -> StateName.get_info sv
|
||||
| SubScope v -> SubScopeName.get_info v
|
||||
end
|
||||
|
||||
(** On the edges, the label is the position of the expression responsible for
|
||||
@ -97,32 +111,13 @@ let check_for_cycle (scope : Ast.scope) (g : ScopeDependencies.t) : unit =
|
||||
List.flatten
|
||||
(List.map
|
||||
(fun v ->
|
||||
let var_str, var_info =
|
||||
match v with
|
||||
| Vertex.Var (v, None) ->
|
||||
Format.asprintf "%a" ScopeVar.format_t v, ScopeVar.get_info v
|
||||
| Vertex.Var (v, Some sv) ->
|
||||
( Format.asprintf "%a.%a" ScopeVar.format_t v
|
||||
StateName.format_t sv,
|
||||
StateName.get_info sv )
|
||||
| Vertex.SubScope v ->
|
||||
( Format.asprintf "%a" SubScopeName.format_t v,
|
||||
SubScopeName.get_info v )
|
||||
in
|
||||
let var_str = Format.asprintf "%a" Vertex.format_t v in
|
||||
let var_info = Vertex.info v in
|
||||
let succs = ScopeDependencies.succ_e g v in
|
||||
let _, edge_pos, succ =
|
||||
List.find (fun (_, _, succ) -> List.mem succ scc) succs
|
||||
in
|
||||
let succ_str =
|
||||
match succ with
|
||||
| Vertex.Var (v, None) ->
|
||||
Format.asprintf "%a" ScopeVar.format_t v
|
||||
| Vertex.Var (v, Some sv) ->
|
||||
Format.asprintf "%a.%a" ScopeVar.format_t v StateName.format_t
|
||||
sv
|
||||
| Vertex.SubScope v ->
|
||||
Format.asprintf "%a" SubScopeName.format_t v
|
||||
in
|
||||
let succ_str = Format.asprintf "%a" Vertex.format_t succ in
|
||||
[
|
||||
( Some ("Cycle variable " ^ var_str ^ ", declared:"),
|
||||
Marked.get_mark var_info );
|
||||
@ -171,7 +166,10 @@ let build_scope_dependencies (scope : Ast.scope) : ScopeDependencies.t =
|
||||
| ( Ast.ScopeDef.Var (v_defined, s_defined),
|
||||
Ast.ScopeDef.Var (v_used, s_used) ) ->
|
||||
(* simple case *)
|
||||
if v_used = v_defined && s_used = s_defined then
|
||||
if
|
||||
ScopeVar.equal v_used v_defined
|
||||
&& Option.equal StateName.equal s_used s_defined
|
||||
then
|
||||
(* variable definitions cannot be recursive *)
|
||||
Errors.raise_spanned_error fv_def_pos
|
||||
"The variable %a is used in one of its definitions, but \
|
||||
@ -199,7 +197,7 @@ let build_scope_dependencies (scope : Ast.scope) : ScopeDependencies.t =
|
||||
Ast.ScopeDef.SubScopeVar (used, _, _) ) ->
|
||||
(* here we are defining the input of a scope with the output of
|
||||
another subscope *)
|
||||
if used = defined then
|
||||
if SubScopeName.equal used defined then
|
||||
(* subscopes are not recursive functions *)
|
||||
Errors.raise_spanned_error fv_def_pos
|
||||
"The subscope %a is used when defining one of its inputs, \
|
||||
|
@ -58,6 +58,16 @@ let scope ctx env scope =
|
||||
{ scope with scope_defs; scope_assertions }
|
||||
|
||||
let program prg =
|
||||
let env =
|
||||
TopdefName.Map.fold
|
||||
(fun name (_e, ty) env -> Typing.Env.add_toplevel_var name ty env)
|
||||
prg.program_topdefs Typing.Env.empty
|
||||
in
|
||||
let program_topdefs =
|
||||
TopdefName.Map.map
|
||||
(fun (e, ty) -> Expr.unbox (expr prg.program_ctx env (Expr.box e)), ty)
|
||||
prg.program_topdefs
|
||||
in
|
||||
let env =
|
||||
ScopeName.Map.fold
|
||||
(fun scope_name scope env ->
|
||||
@ -70,9 +80,9 @@ let program prg =
|
||||
scope.scope_defs ScopeVar.Map.empty
|
||||
in
|
||||
Typing.Env.add_scope scope_name ~vars env)
|
||||
prg.program_scopes Typing.Env.empty
|
||||
prg.program_scopes env
|
||||
in
|
||||
let program_scopes =
|
||||
ScopeName.Map.map (scope prg.program_ctx env) prg.program_scopes
|
||||
in
|
||||
{ prg with program_scopes }
|
||||
{ prg with program_topdefs; program_scopes }
|
||||
|
@ -192,13 +192,18 @@ let rec check_formula (op, pos_op) e =
|
||||
(** Usage: [translate_expr scope ctxt naked_expr]
|
||||
|
||||
Translates [expr] into its desugared equivalent. [scope] is used to
|
||||
disambiguate the scope and subscopes variables than occur in the expression *)
|
||||
disambiguate the scope and subscopes variables than occur in the expression,
|
||||
[None] is assumed to mean a toplevel definition *)
|
||||
let rec translate_expr
|
||||
(scope : ScopeName.t)
|
||||
(scope : ScopeName.t option)
|
||||
(inside_definition_of : Ast.ScopeDef.t Marked.pos option)
|
||||
(ctxt : Name_resolution.context)
|
||||
(expr : Surface.Ast.expression) : Ast.expr boxed =
|
||||
let scope_ctxt = ScopeName.Map.find scope ctxt.scopes in
|
||||
let scope_vars =
|
||||
match scope with
|
||||
| None -> IdentName.Map.empty
|
||||
| Some s -> (ScopeName.Map.find s ctxt.scopes).var_idmap
|
||||
in
|
||||
let rec_helper = translate_expr scope inside_definition_of ctxt in
|
||||
let pos = Marked.get_mark expr in
|
||||
let emark = Untyped { pos } in
|
||||
@ -299,10 +304,13 @@ let rec translate_expr
|
||||
Expr.elit lit emark
|
||||
| Ident ([], (x, pos)) -> (
|
||||
(* first we check whether this is a local var, then we resort to scope-wide
|
||||
variables *)
|
||||
variables, then global variables *)
|
||||
match IdentName.Map.find_opt x ctxt.local_var_idmap with
|
||||
| Some uid ->
|
||||
Expr.make_var uid emark
|
||||
(* the whole box thing is to accomodate for this case *)
|
||||
| None -> (
|
||||
match IdentName.Map.find_opt x scope_ctxt.var_idmap with
|
||||
match IdentName.Map.find_opt x scope_vars with
|
||||
| Some (ScopeVar uid) ->
|
||||
(* If the referenced variable has states, then here are the rules to
|
||||
desambiguate. In general, only the last state can be referenced.
|
||||
@ -343,21 +351,28 @@ let rec translate_expr
|
||||
Some (List.hd (List.rev states)))
|
||||
in
|
||||
Expr.elocation (DesugaredScopeVar ((uid, pos), x_state)) emark
|
||||
| Some (SubScope _) | None ->
|
||||
| Some (SubScope _)
|
||||
(* Note: allowing access to a global variable with the same name as a
|
||||
subscope is disputable, but I see no good reason to forbid it either *)
|
||||
| None -> (
|
||||
match IdentName.Map.find_opt x ctxt.topdefs with
|
||||
| Some v ->
|
||||
Expr.elocation
|
||||
(ToplevelVar (v, Marked.get_mark (TopdefName.get_info v)))
|
||||
emark
|
||||
| None ->
|
||||
Name_resolution.raise_unknown_identifier
|
||||
"for a local or scope-wide variable" (x, pos))
|
||||
| Some uid ->
|
||||
Expr.make_var uid emark
|
||||
(* the whole box thing is to accomodate for this case *))
|
||||
"for a local, scope-wide or global variable" (x, pos))))
|
||||
| Ident (_path, _x) ->
|
||||
Errors.raise_spanned_error pos "Qualified paths are not supported yet"
|
||||
| Dotted (e, ((path, x), _ppos)) -> (
|
||||
match path, Marked.unmark e with
|
||||
| [], Ident ([], (y, _)) when Name_resolution.is_subscope_uid scope ctxt y
|
||||
->
|
||||
| [], Ident ([], (y, _))
|
||||
when Option.fold scope ~none:false ~some:(fun s ->
|
||||
Name_resolution.is_subscope_uid s ctxt y) ->
|
||||
(* In this case, y.x is a subscope variable *)
|
||||
let subscope_uid, subscope_real_uid =
|
||||
match IdentName.Map.find y scope_ctxt.var_idmap with
|
||||
match IdentName.Map.find y scope_vars with
|
||||
| SubScope (sub, sc) -> sub, sc
|
||||
| ScopeVar _ -> assert false
|
||||
in
|
||||
@ -383,8 +398,12 @@ let rec translate_expr
|
||||
Errors.raise_spanned_error pos "Qualified paths are not supported yet"
|
||||
in
|
||||
Expr.edstructaccess e (Marked.unmark x) str emark)
|
||||
| FunCall (f, arg) -> Expr.eapp (rec_helper f) [rec_helper arg] emark
|
||||
| FunCall (f, args) ->
|
||||
Expr.eapp (rec_helper f) (List.map rec_helper args) emark
|
||||
| ScopeCall ((([], sc_name), _), fields) ->
|
||||
if scope = None then
|
||||
Errors.raise_spanned_error pos
|
||||
"Scope calls are not allowed outside of a scope";
|
||||
let called_scope = Name_resolution.get_scope ctxt sc_name in
|
||||
let scope_def = ScopeName.Map.find called_scope ctxt.scopes in
|
||||
let in_struct =
|
||||
@ -739,7 +758,7 @@ let rec translate_expr
|
||||
| Builtin LastDayOfMonth -> Expr.eop LastDayOfMonth [TLit TDate, pos] emark
|
||||
|
||||
and disambiguate_match_and_build_expression
|
||||
(scope : ScopeName.t)
|
||||
(scope : ScopeName.t option)
|
||||
(inside_definition_of : Ast.ScopeDef.t Marked.pos option)
|
||||
(ctxt : Name_resolution.context)
|
||||
(cases : Surface.Ast.match_case Marked.pos list) :
|
||||
@ -906,11 +925,11 @@ let process_default
|
||||
(cons : Surface.Ast.expression) : Ast.rule =
|
||||
let just =
|
||||
match just with
|
||||
| Some just -> Some (translate_expr scope (Some def_key) ctxt just)
|
||||
| Some just -> Some (translate_expr (Some scope) (Some def_key) ctxt just)
|
||||
| None -> None
|
||||
in
|
||||
let just = merge_conditions precond just (Marked.get_mark def_key) in
|
||||
let cons = translate_expr scope (Some def_key) ctxt cons in
|
||||
let cons = translate_expr (Some scope) (Some def_key) ctxt cons in
|
||||
{
|
||||
rule_just = just;
|
||||
rule_cons = cons;
|
||||
@ -1037,7 +1056,7 @@ let process_assert
|
||||
(ass : Surface.Ast.assertion) : Ast.program =
|
||||
let scope : Ast.scope = ScopeName.Map.find scope_uid prgm.program_scopes in
|
||||
let ass =
|
||||
translate_expr scope_uid None ctxt
|
||||
translate_expr (Some scope_uid) None ctxt
|
||||
(match ass.Surface.Ast.assertion_condition with
|
||||
| None -> ass.Surface.Ast.assertion_content
|
||||
| Some cond ->
|
||||
@ -1071,7 +1090,7 @@ let process_scope_use_item
|
||||
(ctxt : Name_resolution.context)
|
||||
(prgm : Ast.program)
|
||||
(item : Surface.Ast.scope_use_item Marked.pos) : Ast.program =
|
||||
let precond = Option.map (translate_expr scope None ctxt) precond in
|
||||
let precond = Option.map (translate_expr (Some scope) None ctxt) precond in
|
||||
match Marked.unmark item with
|
||||
| Surface.Ast.Rule rule -> process_rule precond scope ctxt prgm rule
|
||||
| Surface.Ast.Definition def -> process_def precond scope ctxt prgm def
|
||||
@ -1146,6 +1165,55 @@ let process_scope_use
|
||||
(process_scope_use_item precond scope_uid ctxt)
|
||||
prgm use.scope_use_items
|
||||
|
||||
let process_topdef
|
||||
(ctxt : Name_resolution.context)
|
||||
(prgm : Ast.program)
|
||||
(def : S.top_def) : Ast.program =
|
||||
let id =
|
||||
IdentName.Map.find
|
||||
(Marked.unmark def.S.topdef_name)
|
||||
ctxt.Name_resolution.topdefs
|
||||
in
|
||||
let ty_pos = Marked.get_mark def.S.topdef_type in
|
||||
let translate_typ t =
|
||||
(* Todo: better helper function from a more appropriate place *)
|
||||
Name_resolution.process_base_typ ctxt
|
||||
(S.Data (Marked.unmark t), Marked.get_mark t)
|
||||
in
|
||||
let body_type = translate_typ def.S.topdef_type in
|
||||
let arg_types =
|
||||
List.map (fun (_, ty) -> translate_typ ty) def.S.topdef_args
|
||||
in
|
||||
let expr =
|
||||
let ctxt, rv_args =
|
||||
List.fold_left
|
||||
(fun (ctxt, rv_args) (v, _ty) ->
|
||||
let ctxt, a =
|
||||
Name_resolution.add_def_local_var ctxt (Marked.unmark v)
|
||||
in
|
||||
ctxt, a :: rv_args)
|
||||
(ctxt, []) def.S.topdef_args
|
||||
in
|
||||
let body = translate_expr None None ctxt def.S.topdef_expr in
|
||||
match rv_args with
|
||||
| [] -> body
|
||||
| rv_args ->
|
||||
Expr.make_abs
|
||||
(Array.of_list (List.rev rv_args))
|
||||
body arg_types
|
||||
(Marked.get_mark def.S.topdef_name)
|
||||
in
|
||||
let typ =
|
||||
List.fold_right
|
||||
(fun argty retty -> TArrow (argty, retty), ty_pos)
|
||||
arg_types body_type
|
||||
in
|
||||
{
|
||||
prgm with
|
||||
Ast.program_topdefs =
|
||||
TopdefName.Map.add id (Expr.unbox expr, typ) prgm.Ast.program_topdefs;
|
||||
}
|
||||
|
||||
let attribute_to_io (attr : Surface.Ast.scope_decl_context_io) : Ast.io =
|
||||
{
|
||||
Ast.io_output = attr.scope_decl_context_io_output;
|
||||
@ -1294,6 +1362,7 @@ let translate_program
|
||||
ctxt.Name_resolution.typedefs ScopeName.Map.empty;
|
||||
ctx_struct_fields = ctxt.Name_resolution.field_idmap;
|
||||
};
|
||||
Ast.program_topdefs = TopdefName.Map.empty;
|
||||
Ast.program_scopes;
|
||||
}
|
||||
in
|
||||
@ -1310,7 +1379,10 @@ let translate_program
|
||||
(fun prgm item ->
|
||||
match Marked.unmark item with
|
||||
| Surface.Ast.ScopeUse use -> process_scope_use ctxt prgm use
|
||||
| _ -> prgm)
|
||||
| Surface.Ast.Topdef def -> process_topdef ctxt prgm def
|
||||
| Surface.Ast.ScopeDecl _ | Surface.Ast.StructDecl _
|
||||
| Surface.Ast.EnumDecl _ ->
|
||||
prgm)
|
||||
prgm block
|
||||
| LawInclude _ | LawText _ -> prgm
|
||||
in
|
||||
|
@ -81,6 +81,7 @@ type context = {
|
||||
(** The names of the enum constructors. Constructor names can be shared
|
||||
between different enums *)
|
||||
scopes : scope_context ScopeName.Map.t; (** For each scope, its context *)
|
||||
topdefs : TopdefName.t IdentName.Map.t; (** Global definitions *)
|
||||
structs : struct_context StructName.Map.t;
|
||||
(** For each struct, its context *)
|
||||
enums : enum_context EnumName.Map.t; (** For each enum, its context *)
|
||||
@ -638,6 +639,15 @@ let process_name_item (ctxt : context) (item : Surface.Ast.code_item Marked.pos)
|
||||
(TEnum e_uid) ctxt.typedefs;
|
||||
}
|
||||
| ScopeUse _ -> ctxt
|
||||
| Topdef def ->
|
||||
let name, pos = def.topdef_name in
|
||||
Option.iter
|
||||
(fun use ->
|
||||
raise_already_defined_error (TopdefName.get_info use) name pos
|
||||
"toplevel definition")
|
||||
(IdentName.Map.find_opt name ctxt.topdefs);
|
||||
let uid = TopdefName.fresh def.topdef_name in
|
||||
{ ctxt with topdefs = IdentName.Map.add name uid ctxt.topdefs }
|
||||
|
||||
(** Process a code item that is a declaration *)
|
||||
let process_decl_item (ctxt : context) (item : Surface.Ast.code_item Marked.pos)
|
||||
@ -647,6 +657,7 @@ let process_decl_item (ctxt : context) (item : Surface.Ast.code_item Marked.pos)
|
||||
| StructDecl sdecl -> process_struct_decl ctxt sdecl
|
||||
| EnumDecl edecl -> process_enum_decl ctxt edecl
|
||||
| ScopeUse _ -> ctxt
|
||||
| Topdef _ -> ctxt
|
||||
|
||||
(** Process a code block *)
|
||||
let process_code_block
|
||||
@ -865,7 +876,7 @@ let process_scope_use (ctxt : context) (suse : Surface.Ast.scope_use) : context
|
||||
let process_use_item (ctxt : context) (item : Surface.Ast.code_item Marked.pos)
|
||||
: context =
|
||||
match Marked.unmark item with
|
||||
| ScopeDecl _ | StructDecl _ | EnumDecl _ -> ctxt
|
||||
| ScopeDecl _ | StructDecl _ | EnumDecl _ | Topdef _ -> ctxt
|
||||
| ScopeUse suse -> process_scope_use ctxt suse
|
||||
|
||||
(** {1 API} *)
|
||||
@ -877,6 +888,7 @@ let form_context (prgm : Surface.Ast.program) : context =
|
||||
local_var_idmap = IdentName.Map.empty;
|
||||
typedefs = IdentName.Map.empty;
|
||||
scopes = ScopeName.Map.empty;
|
||||
topdefs = IdentName.Map.empty;
|
||||
var_typs = ScopeVar.Map.empty;
|
||||
structs = StructName.Map.empty;
|
||||
field_idmap = IdentName.Map.empty;
|
||||
|
@ -81,6 +81,7 @@ type context = {
|
||||
(** The names of the enum constructors. Constructor names can be shared
|
||||
between different enums *)
|
||||
scopes : scope_context ScopeName.Map.t; (** For each scope, its context *)
|
||||
topdefs : TopdefName.t IdentName.Map.t; (** Global definitions *)
|
||||
structs : struct_context StructName.Map.t;
|
||||
(** For each struct, its context *)
|
||||
enums : enum_context EnumName.Map.t; (** For each enum, its context *)
|
||||
@ -149,6 +150,10 @@ val get_scope : context -> IdentName.t Marked.pos -> ScopeName.t
|
||||
(** Find a scope definition from the typedefs, failing if there is none or it
|
||||
has a different kind *)
|
||||
|
||||
val process_base_typ : context -> Surface.Ast.base_typ Marked.pos -> typ
|
||||
(** Convert a surface base type to an AST type *)
|
||||
(* Note: should probably be moved to a different module *)
|
||||
|
||||
(** {1 API} *)
|
||||
|
||||
val form_context : Surface.Ast.program -> context
|
||||
|
@ -237,14 +237,13 @@ let driver source_file (options : Cli.options) : int =
|
||||
( scope_uid,
|
||||
Option.get
|
||||
(Shared_ast.Scope.fold_left ~init:None
|
||||
~f:(fun acc scope_def _ ->
|
||||
if
|
||||
Shared_ast.ScopeName.compare scope_def.scope_name
|
||||
scope_uid
|
||||
= 0
|
||||
then Some scope_def.scope_body
|
||||
else acc)
|
||||
prgm.scopes) )
|
||||
~f:(fun acc def _ ->
|
||||
match def with
|
||||
| ScopeDef (name, body)
|
||||
when Shared_ast.ScopeName.equal name scope_uid ->
|
||||
Some body
|
||||
| _ -> acc)
|
||||
prgm.code_items) )
|
||||
else
|
||||
let prgrm_dcalc_expr =
|
||||
Shared_ast.Expr.unbox (Shared_ast.Program.to_expr prgm scope_uid)
|
||||
@ -357,7 +356,7 @@ let driver source_file (options : Cli.options) : int =
|
||||
p.Plugin.apply ~source_file ~output_file ~scope:options.ex_scope
|
||||
prgm type_ordering
|
||||
| (`Python | `Scalc | `Plugin (Plugin.Scalc _)) as backend -> (
|
||||
let prgm = Scalc.Compile_from_lambda.translate_program prgm in
|
||||
let prgm = Scalc.From_lambda.translate_program prgm in
|
||||
match backend with
|
||||
| `Scalc ->
|
||||
let _output_file, with_output = get_output_format () in
|
||||
@ -365,19 +364,15 @@ let driver source_file (options : Cli.options) : int =
|
||||
@@ fun fmt ->
|
||||
if Option.is_some options.ex_scope then
|
||||
Format.fprintf fmt "%a\n"
|
||||
(Scalc.Print.format_scope ~debug:options.debug
|
||||
(Scalc.Print.format_item ~debug:options.debug
|
||||
prgm.decl_ctx)
|
||||
(List.find
|
||||
(fun body ->
|
||||
body.Scalc.Ast.scope_body_name = scope_uid)
|
||||
prgm.scopes)
|
||||
else
|
||||
Format.fprintf fmt "%a\n"
|
||||
(Format.pp_print_list
|
||||
~pp_sep:(fun fmt () -> Format.fprintf fmt "\n\n")
|
||||
(fun fmt scope ->
|
||||
(Scalc.Print.format_scope prgm.decl_ctx) fmt scope))
|
||||
prgm.scopes
|
||||
(function
|
||||
| Scalc.Ast.SScope { scope_body_name; _ } ->
|
||||
scope_body_name = scope_uid
|
||||
| _ -> false)
|
||||
prgm.code_items)
|
||||
else Scalc.Print.format_program prgm.decl_ctx fmt prgm
|
||||
| `Python ->
|
||||
let output_file, with_output =
|
||||
get_output_format ~ext:".py" ()
|
||||
|
@ -166,19 +166,19 @@ let closure_conversion_expr (type m) (ctx : m ctx) (e : m expr) : m expr boxed =
|
||||
e'
|
||||
|
||||
let closure_conversion (p : 'm program) : 'm program Bindlib.box =
|
||||
let new_scopes, _ =
|
||||
Scope.fold_left
|
||||
~f:(fun (acc_new_scopes, global_vars) scope scope_var ->
|
||||
(* [acc_new_scopes] represents what has been translated in the past, it
|
||||
needs a continuation to attach the rest of the translated scopes. *)
|
||||
let _, new_code_items =
|
||||
Scope.fold_map
|
||||
~f:(fun toplevel_vars var code_item ->
|
||||
( Var.Set.add var toplevel_vars,
|
||||
match code_item with
|
||||
| ScopeDef (name, body) ->
|
||||
let scope_input_var, scope_body_expr =
|
||||
Bindlib.unbind scope.scope_body.scope_body_expr
|
||||
Bindlib.unbind body.scope_body_expr
|
||||
in
|
||||
let global_vars = Var.Set.add scope_var global_vars in
|
||||
let ctx =
|
||||
{
|
||||
name_context = Marked.unmark (ScopeName.get_info scope.scope_name);
|
||||
globally_bound_vars = global_vars;
|
||||
name_context = Marked.unmark (ScopeName.get_info name);
|
||||
globally_bound_vars = toplevel_vars;
|
||||
}
|
||||
in
|
||||
let new_scope_lets =
|
||||
@ -190,29 +190,25 @@ let closure_conversion (p : 'm program) : 'm program Bindlib.box =
|
||||
let new_scope_body_expr =
|
||||
Bindlib.bind_var scope_input_var new_scope_lets
|
||||
in
|
||||
( (fun next ->
|
||||
acc_new_scopes
|
||||
(Bindlib.box_apply2
|
||||
(fun new_scope_body_expr next ->
|
||||
ScopeDef
|
||||
{
|
||||
scope with
|
||||
scope_body =
|
||||
{
|
||||
scope.scope_body with
|
||||
scope_body_expr = new_scope_body_expr;
|
||||
};
|
||||
scope_next = next;
|
||||
})
|
||||
Bindlib.box_apply
|
||||
(fun scope_body_expr ->
|
||||
ScopeDef (name, { body with scope_body_expr }))
|
||||
new_scope_body_expr
|
||||
(Bindlib.bind_var scope_var next))),
|
||||
global_vars ))
|
||||
~init:
|
||||
( Fun.id,
|
||||
Var.Set.of_list
|
||||
(List.map Var.translate [handle_default; handle_default_opt]) )
|
||||
p.scopes
|
||||
| Topdef (name, ty, expr) ->
|
||||
let ctx =
|
||||
{
|
||||
name_context = Marked.unmark (TopdefName.get_info name);
|
||||
globally_bound_vars = toplevel_vars;
|
||||
}
|
||||
in
|
||||
Bindlib.box_apply
|
||||
(fun new_scopes -> { p with scopes = new_scopes })
|
||||
(new_scopes (Bindlib.box Nil))
|
||||
(fun e -> Topdef (name, ty, e))
|
||||
(Expr.Box.lift (closure_conversion_expr ctx expr)) ))
|
||||
~varf:(fun v -> v)
|
||||
(Var.Set.of_list
|
||||
(List.map Var.translate [handle_default; handle_default_opt]))
|
||||
p.code_items
|
||||
in
|
||||
Bindlib.box_apply
|
||||
(fun new_code_items -> { p with code_items = new_code_items })
|
||||
new_code_items
|
||||
|
@ -19,9 +19,10 @@ open Shared_ast
|
||||
module D = Dcalc.Ast
|
||||
module A = Ast
|
||||
|
||||
type 'm ctx = ('m D.expr, 'm A.expr Var.t) Var.Map.t
|
||||
(** This environment contains a mapping between the variables in Dcalc and their
|
||||
correspondance in Lcalc. *)
|
||||
type 'm ctx = unit
|
||||
(** This translation no longer needs a context at the moment, but we keep
|
||||
passing the argument through the functions in case the need arises with
|
||||
further evolutions. *)
|
||||
|
||||
let thunk_expr (type m) (e : m A.expr boxed) : m A.expr boxed =
|
||||
let dummy_var = Var.make "_" in
|
||||
@ -29,6 +30,8 @@ let thunk_expr (type m) (e : m A.expr boxed) : m A.expr boxed =
|
||||
let arg_t = Marked.mark pos (TLit TUnit) in
|
||||
Expr.make_abs [| dummy_var |] e [arg_t] pos
|
||||
|
||||
let translate_var : 'm D.expr Var.t -> 'm A.expr Var.t = Var.translate
|
||||
|
||||
let rec translate_default
|
||||
(ctx : 'm ctx)
|
||||
(exceptions : 'm D.expr list)
|
||||
@ -56,11 +59,14 @@ let rec translate_default
|
||||
and translate_expr (ctx : 'm ctx) (e : 'm D.expr) : 'm A.expr boxed =
|
||||
let m = Marked.get_mark e in
|
||||
match Marked.unmark e with
|
||||
| EVar v -> Expr.make_var (Var.Map.find v ctx) m
|
||||
| EVar v -> Expr.make_var (translate_var v) m
|
||||
| EStruct { name; fields } ->
|
||||
Expr.estruct name (StructField.Map.map (translate_expr ctx) fields) m
|
||||
| EStructAccess { name; e; field } ->
|
||||
Expr.estructaccess (translate_expr ctx e) field name m
|
||||
| ETuple es -> Expr.etuple (List.map (translate_expr ctx) es) m
|
||||
| ETupleAccess { e; index; size } ->
|
||||
Expr.etupleaccess (translate_expr ctx e) index size m
|
||||
| EInj { name; e; cons } -> Expr.einj (translate_expr ctx e) cons name m
|
||||
| EMatch { name; e; cases } ->
|
||||
Expr.ematch (translate_expr ctx e) name
|
||||
@ -88,16 +94,8 @@ and translate_expr (ctx : 'm ctx) (e : 'm D.expr) : 'm A.expr boxed =
|
||||
(Marked.get_mark e)
|
||||
| EAbs { binder; tys } ->
|
||||
let vars, body = Bindlib.unmbind binder in
|
||||
let ctx, lc_vars =
|
||||
Array.fold_right
|
||||
(fun var (ctx, lc_vars) ->
|
||||
let lc_var = Var.make (Bindlib.name_of var) in
|
||||
Var.Map.add var lc_var ctx, lc_var :: lc_vars)
|
||||
vars (ctx, [])
|
||||
in
|
||||
let lc_vars = Array.of_list lc_vars in
|
||||
let new_body = translate_expr ctx body in
|
||||
let new_binder = Expr.bind lc_vars new_body in
|
||||
let new_binder = Expr.bind (Array.map translate_var vars) new_body in
|
||||
Expr.eabs new_binder tys (Marked.get_mark e)
|
||||
| EDefault { excepts = [exn]; just; cons } when !Cli.optimize_flag ->
|
||||
(* FIXME: bad place to rely on a global flag *)
|
||||
@ -118,14 +116,14 @@ let rec translate_scope_lets
|
||||
| Result e ->
|
||||
Bindlib.box_apply (fun e -> Result e) (Expr.Box.lift (translate_expr ctx e))
|
||||
| ScopeLet scope_let ->
|
||||
let old_scope_let_var, scope_let_next =
|
||||
let scope_let_var, scope_let_next =
|
||||
Bindlib.unbind scope_let.scope_let_next
|
||||
in
|
||||
let new_scope_let_var = Var.make (Bindlib.name_of old_scope_let_var) in
|
||||
let new_scope_let_expr = translate_expr ctx scope_let.scope_let_expr in
|
||||
let new_ctx = Var.Map.add old_scope_let_var new_scope_let_var ctx in
|
||||
let new_scope_next = translate_scope_lets decl_ctx new_ctx scope_let_next in
|
||||
let new_scope_next = Bindlib.bind_var new_scope_let_var new_scope_next in
|
||||
let new_scope_next = translate_scope_lets decl_ctx ctx scope_let_next in
|
||||
let new_scope_next =
|
||||
Bindlib.bind_var (translate_var scope_let_var) new_scope_next
|
||||
in
|
||||
Bindlib.box_apply2
|
||||
(fun new_scope_next new_scope_let_expr ->
|
||||
ScopeLet
|
||||
@ -139,58 +137,38 @@ let rec translate_scope_lets
|
||||
new_scope_next
|
||||
(Expr.Box.lift new_scope_let_expr)
|
||||
|
||||
let rec translate_scopes
|
||||
let translate_items
|
||||
(decl_ctx : decl_ctx)
|
||||
(ctx : 'm ctx)
|
||||
(scopes : 'm D.expr scopes) : 'm A.expr scopes Bindlib.box =
|
||||
match scopes with
|
||||
| Nil -> Bindlib.box Nil
|
||||
| ScopeDef scope_def ->
|
||||
let old_scope_var, scope_next = Bindlib.unbind scope_def.scope_next in
|
||||
let new_scope_var =
|
||||
Var.make (Marked.unmark (ScopeName.get_info scope_def.scope_name))
|
||||
in
|
||||
let old_scope_input_var, scope_body_expr =
|
||||
Bindlib.unbind scope_def.scope_body.scope_body_expr
|
||||
in
|
||||
let new_scope_input_var = Var.make (Bindlib.name_of old_scope_input_var) in
|
||||
let new_ctx = Var.Map.add old_scope_input_var new_scope_input_var ctx in
|
||||
let new_scope_body_expr =
|
||||
translate_scope_lets decl_ctx new_ctx scope_body_expr
|
||||
in
|
||||
let new_scope_body_expr =
|
||||
Bindlib.bind_var new_scope_input_var new_scope_body_expr
|
||||
in
|
||||
let new_scope : 'm A.expr scope_body Bindlib.box =
|
||||
(scopes : 'm D.expr code_item_list) : 'm A.expr code_item_list Bindlib.box =
|
||||
Scope.map_ctx
|
||||
~f:
|
||||
(fun ctx -> function
|
||||
| Topdef (name, ty, e) ->
|
||||
( ctx,
|
||||
Bindlib.box_apply
|
||||
(fun new_scope_body_expr ->
|
||||
{
|
||||
scope_body_input_struct =
|
||||
scope_def.scope_body.scope_body_input_struct;
|
||||
scope_body_output_struct =
|
||||
scope_def.scope_body.scope_body_output_struct;
|
||||
scope_body_expr = new_scope_body_expr;
|
||||
})
|
||||
new_scope_body_expr
|
||||
(fun e -> Topdef (name, ty, e))
|
||||
(Expr.Box.lift (translate_expr ctx e)) )
|
||||
| ScopeDef (name, body) ->
|
||||
let scope_input_var, body_expr =
|
||||
Bindlib.unbind body.scope_body_expr
|
||||
in
|
||||
let new_ctx = Var.Map.add old_scope_var new_scope_var new_ctx in
|
||||
let scope_next =
|
||||
Bindlib.bind_var new_scope_var
|
||||
(translate_scopes decl_ctx new_ctx scope_next)
|
||||
let new_scope_body_expr =
|
||||
translate_scope_lets decl_ctx ctx body_expr
|
||||
in
|
||||
Bindlib.box_apply2
|
||||
(fun new_scope scope_next ->
|
||||
ScopeDef
|
||||
{
|
||||
scope_name = scope_def.scope_name;
|
||||
scope_body = new_scope;
|
||||
scope_next;
|
||||
})
|
||||
new_scope scope_next
|
||||
let new_body =
|
||||
Bindlib.bind_var (translate_var scope_input_var) new_scope_body_expr
|
||||
in
|
||||
( ctx,
|
||||
Bindlib.box_apply
|
||||
(fun scope_body_expr ->
|
||||
ScopeDef (name, { body with scope_body_expr }))
|
||||
new_body ))
|
||||
~varf:translate_var ctx scopes
|
||||
|
||||
let translate_program (prgm : 'm D.program) : 'm A.program =
|
||||
{
|
||||
scopes =
|
||||
Bindlib.unbox (translate_scopes prgm.decl_ctx Var.Map.empty prgm.scopes);
|
||||
code_items =
|
||||
Bindlib.unbox (translate_items prgm.decl_ctx () prgm.code_items);
|
||||
decl_ctx = prgm.decl_ctx;
|
||||
}
|
||||
|
@ -268,6 +268,19 @@ let rec translate_and_hoist (ctx : 'm ctx) (e : 'm D.expr) :
|
||||
let e1', hoists = translate_and_hoist ctx e1 in
|
||||
let e1' = Expr.estructaccess e1' field name mark in
|
||||
e1', hoists
|
||||
| ETuple es ->
|
||||
let hoists, es' =
|
||||
List.fold_left_map
|
||||
(fun hoists e ->
|
||||
let e, h = translate_and_hoist ctx e in
|
||||
h :: hoists, e)
|
||||
[] es
|
||||
in
|
||||
Expr.etuple es' mark, disjoint_union_maps (Expr.pos e) hoists
|
||||
| ETupleAccess { e = e1; index; size } ->
|
||||
let e1', hoists = translate_and_hoist ctx e1 in
|
||||
let e1' = Expr.etupleaccess e1' index size mark in
|
||||
e1', hoists
|
||||
| EInj { name; e = e1; cons } ->
|
||||
let e1', hoists = translate_and_hoist ctx e1 in
|
||||
let e1' = Expr.einj e1' cons name mark in
|
||||
@ -498,39 +511,34 @@ let translate_scope_body
|
||||
})
|
||||
(Bindlib.bind_var v' (translate_scope_let ctx' lets))
|
||||
|
||||
let rec translate_scopes (ctx : 'm ctx) (scopes : 'm D.expr scopes) :
|
||||
'm A.expr scopes Bindlib.box =
|
||||
match scopes with
|
||||
| Nil -> Bindlib.box Nil
|
||||
| ScopeDef { scope_name; scope_body; scope_next } ->
|
||||
let scope_var, next = Bindlib.unbind scope_next in
|
||||
let vmark =
|
||||
match Bindlib.unbind scope_body.scope_body_expr with
|
||||
| _, (Result e | ScopeLet { scope_let_expr = e; _ }) -> Marked.get_mark e
|
||||
in
|
||||
|
||||
let new_ctx = add_var vmark scope_var true ctx in
|
||||
let new_scope_name =
|
||||
(find ~info:"variable that was just created" scope_var new_ctx).var
|
||||
in
|
||||
|
||||
let translate_code_items (ctx : 'm ctx) (scopes : 'm D.expr code_item_list) :
|
||||
'm A.expr code_item_list Bindlib.box =
|
||||
let _ctx, scopes =
|
||||
Scope.fold_map
|
||||
~f:
|
||||
(fun ctx var -> function
|
||||
| Topdef (name, ty, e) ->
|
||||
( add_var (Marked.get_mark e) var true ctx,
|
||||
Bindlib.box_apply
|
||||
(fun e -> Topdef (name, ty, e))
|
||||
(Expr.Box.lift (translate_expr ~append_esome:false ctx e)) )
|
||||
| ScopeDef (scope_name, scope_body) ->
|
||||
( ctx,
|
||||
let scope_pos = Marked.get_mark (ScopeName.get_info scope_name) in
|
||||
|
||||
let new_body = translate_scope_body scope_pos ctx scope_body in
|
||||
let tail = translate_scopes new_ctx next in
|
||||
|
||||
Bindlib.box_apply2
|
||||
(fun body tail ->
|
||||
ScopeDef { scope_name; scope_body = body; scope_next = tail })
|
||||
new_body
|
||||
(Bindlib.bind_var new_scope_name tail)
|
||||
Bindlib.box_apply
|
||||
(fun body -> ScopeDef (scope_name, body))
|
||||
(translate_scope_body scope_pos ctx scope_body) ))
|
||||
~varf:Var.translate ctx scopes
|
||||
in
|
||||
scopes
|
||||
|
||||
let translate_program (prgm : 'm D.program) : 'm A.program =
|
||||
let inputs_structs =
|
||||
Scope.fold_left prgm.scopes ~init:[] ~f:(fun acc scope_def _ ->
|
||||
scope_def.scope_body.scope_body_input_struct :: acc)
|
||||
Scope.fold_left prgm.code_items ~init:[] ~f:(fun acc def _ ->
|
||||
match def with
|
||||
| ScopeDef (_, body) -> body.scope_body_input_struct :: acc
|
||||
| Topdef _ -> acc)
|
||||
in
|
||||
|
||||
(* Cli.debug_print @@ Format.asprintf "List of structs to modify: [%a]"
|
||||
(Format.pp_print_list D.StructName.format_t) inputs_structs; *)
|
||||
let decl_ctx =
|
||||
@ -557,9 +565,9 @@ let translate_program (prgm : 'm D.program) : 'm A.program =
|
||||
}
|
||||
in
|
||||
|
||||
let scopes =
|
||||
let code_items =
|
||||
Bindlib.unbox
|
||||
(translate_scopes { decl_ctx; vars = Var.Map.empty } prgm.scopes)
|
||||
(translate_code_items { decl_ctx; vars = Var.Map.empty } prgm.code_items)
|
||||
in
|
||||
|
||||
{ scopes; decl_ctx }
|
||||
{ code_items; decl_ctx }
|
||||
|
@ -53,16 +53,20 @@ let rec beta_expr (e : 'm expr) : 'm expr boxed =
|
||||
| _ -> visitor_map beta_expr e
|
||||
|
||||
let iota_optimizations (p : 'm program) : 'm program =
|
||||
let new_scopes = Scope.map_exprs ~f:iota_expr ~varf:(fun v -> v) p.scopes in
|
||||
{ p with scopes = Bindlib.unbox new_scopes }
|
||||
let new_code_items =
|
||||
Scope.map_exprs ~f:iota_expr ~varf:(fun v -> v) p.code_items
|
||||
in
|
||||
{ p with code_items = Bindlib.unbox new_code_items }
|
||||
|
||||
(* TODO: beta optimizations apply inlining of the program. We left the inclusion
|
||||
of beta-optimization as future work since its produce code that is harder to
|
||||
read, and can produce exponential blowup of the size of the generated
|
||||
program. *)
|
||||
let _beta_optimizations (p : 'm program) : 'm program =
|
||||
let new_scopes = Scope.map_exprs ~f:beta_expr ~varf:(fun v -> v) p.scopes in
|
||||
{ p with scopes = Bindlib.unbox new_scopes }
|
||||
let new_code_items =
|
||||
Scope.map_exprs ~f:beta_expr ~varf:(fun v -> v) p.code_items
|
||||
in
|
||||
{ p with code_items = Bindlib.unbox new_code_items }
|
||||
|
||||
let rec peephole_expr (e : 'm expr) : 'm expr boxed =
|
||||
let m = Marked.get_mark e in
|
||||
@ -95,10 +99,10 @@ let rec peephole_expr (e : 'm expr) : 'm expr boxed =
|
||||
| _ -> visitor_map peephole_expr e
|
||||
|
||||
let peephole_optimizations (p : 'm program) : 'm program =
|
||||
let new_scopes =
|
||||
Scope.map_exprs ~f:peephole_expr ~varf:(fun v -> v) p.scopes
|
||||
let new_code_items =
|
||||
Scope.map_exprs ~f:peephole_expr ~varf:(fun v -> v) p.code_items
|
||||
in
|
||||
{ p with scopes = Bindlib.unbox new_scopes }
|
||||
{ p with code_items = Bindlib.unbox new_code_items }
|
||||
|
||||
let optimize_program (p : 'm program) : untyped program =
|
||||
p |> iota_optimizations |> peephole_optimizations |> Program.untype
|
||||
|
@ -504,24 +504,27 @@ let rec format_scope_body_expr
|
||||
(format_scope_body_expr ctx)
|
||||
scope_let_next
|
||||
|
||||
let rec format_scopes
|
||||
let format_code_items
|
||||
(ctx : decl_ctx)
|
||||
(fmt : Format.formatter)
|
||||
(scopes : 'm Ast.expr scopes) : unit =
|
||||
match scopes with
|
||||
| Nil -> ()
|
||||
| ScopeDef scope_def ->
|
||||
(code_items : 'm Ast.expr code_item_list) : unit =
|
||||
Scope.fold_left
|
||||
~f:(fun () item var ->
|
||||
match item with
|
||||
| Topdef (_, typ, e) ->
|
||||
Format.fprintf fmt "@\n@\n@[<hov 2>let %a : %a =@\n%a@]" format_var var
|
||||
format_typ typ (format_expr ctx) e
|
||||
| ScopeDef (_, body) ->
|
||||
let scope_input_var, scope_body_expr =
|
||||
Bindlib.unbind scope_def.scope_body.scope_body_expr
|
||||
Bindlib.unbind body.scope_body_expr
|
||||
in
|
||||
let scope_var, scope_next = Bindlib.unbind scope_def.scope_next in
|
||||
Format.fprintf fmt "@\n@\n@[<hov 2>let %a (%a: %a.t) : %a.t =@\n%a@]%a"
|
||||
format_var scope_var format_var scope_input_var format_to_module_name
|
||||
(`Sname scope_def.scope_body.scope_body_input_struct)
|
||||
format_to_module_name
|
||||
(`Sname scope_def.scope_body.scope_body_output_struct)
|
||||
Format.fprintf fmt "@\n@\n@[<hov 2>let %a (%a: %a.t) : %a.t =@\n%a@]"
|
||||
format_var var format_var scope_input_var format_to_module_name
|
||||
(`Sname body.scope_body_input_struct) format_to_module_name
|
||||
(`Sname body.scope_body_output_struct)
|
||||
(format_scope_body_expr ctx)
|
||||
scope_body_expr (format_scopes ctx) scope_next
|
||||
scope_body_expr)
|
||||
~init:() code_items
|
||||
|
||||
let format_program
|
||||
(fmt : Format.formatter)
|
||||
@ -538,5 +541,6 @@ let format_program
|
||||
@\n\
|
||||
%a%a@\n\
|
||||
@?"
|
||||
(format_ctx type_ordering) p.decl_ctx (format_scopes p.decl_ctx)
|
||||
p.scopes)
|
||||
(format_ctx type_ordering) p.decl_ctx
|
||||
(format_code_items p.decl_ctx)
|
||||
p.code_items)
|
||||
|
@ -329,48 +329,49 @@ module To_jsoo = struct
|
||||
Format.fprintf fmt "%a@\n" format_enum_decl (e, find_enum e ctx))
|
||||
(type_ordering @ scope_structs)
|
||||
|
||||
let fmt_input_struct_name fmt (scope_def : 'a expr scope_def) =
|
||||
format_struct_name fmt scope_def.scope_body.scope_body_input_struct
|
||||
let fmt_input_struct_name fmt (scope_body : 'a expr scope_body) =
|
||||
format_struct_name fmt scope_body.scope_body_input_struct
|
||||
|
||||
let fmt_output_struct_name fmt (scope_def : 'a expr scope_def) =
|
||||
format_struct_name fmt scope_def.scope_body.scope_body_output_struct
|
||||
let fmt_output_struct_name fmt (scope_body : 'a expr scope_body) =
|
||||
format_struct_name fmt scope_body.scope_body_output_struct
|
||||
|
||||
let rec format_scopes_to_fun
|
||||
(ctx : decl_ctx)
|
||||
let format_scopes_to_fun
|
||||
(_ctx : decl_ctx)
|
||||
(fmt : Format.formatter)
|
||||
(scopes : 'e scopes) =
|
||||
match scopes with
|
||||
| Nil -> ()
|
||||
| ScopeDef scope_def ->
|
||||
let scope_var, scope_next = Bindlib.unbind scope_def.scope_next in
|
||||
(scopes : 'e code_item_list) =
|
||||
Scope.fold_left
|
||||
~f:(fun () code_item var ->
|
||||
match code_item with
|
||||
| Topdef _ -> ()
|
||||
| ScopeDef (_name, body) ->
|
||||
let fmt_fun_call fmt _ =
|
||||
Format.fprintf fmt "@[<hv>%a@ |> %a_of_jsoo@ |> %a@ |> %a_to_jsoo@]"
|
||||
fmt_input_struct_name scope_def fmt_input_struct_name scope_def
|
||||
format_var scope_var fmt_output_struct_name scope_def
|
||||
fmt_input_struct_name body fmt_input_struct_name body format_var
|
||||
var fmt_output_struct_name body
|
||||
in
|
||||
Format.fprintf fmt
|
||||
"@\n@\n@[<hov 2>let %a@ (%a : %a Js.t)@ : %a Js.t =@\n%a@]@\n%a"
|
||||
format_var scope_var fmt_input_struct_name scope_def
|
||||
fmt_input_struct_name scope_def fmt_output_struct_name scope_def
|
||||
fmt_fun_call () (format_scopes_to_fun ctx) scope_next
|
||||
"@\n@\n@[<hov 2>let %a@ (%a : %a Js.t)@ : %a Js.t =@\n%a@]@\n"
|
||||
format_var var fmt_input_struct_name body fmt_input_struct_name body
|
||||
fmt_output_struct_name body fmt_fun_call ())
|
||||
~init:() scopes
|
||||
|
||||
let rec format_scopes_to_callbacks
|
||||
(ctx : decl_ctx)
|
||||
let format_scopes_to_callbacks
|
||||
(_ctx : decl_ctx)
|
||||
(fmt : Format.formatter)
|
||||
(scopes : 'e scopes) : unit =
|
||||
match scopes with
|
||||
| Nil -> ()
|
||||
| ScopeDef scope_def ->
|
||||
let scope_var, scope_next = Bindlib.unbind scope_def.scope_next in
|
||||
(scopes : 'e code_item_list) : unit =
|
||||
Scope.fold_left
|
||||
~f:(fun () code_item var ->
|
||||
match code_item with
|
||||
| Topdef _ -> ()
|
||||
| ScopeDef (_name, body) ->
|
||||
let fmt_meth_name fmt _ =
|
||||
Format.fprintf fmt "method %a : (%a Js.t -> %a Js.t) Js.callback"
|
||||
format_var_camel_case scope_var fmt_input_struct_name scope_def
|
||||
fmt_output_struct_name scope_def
|
||||
format_var_camel_case var fmt_input_struct_name body
|
||||
fmt_output_struct_name body
|
||||
in
|
||||
Format.fprintf fmt "@,@[<hov 2>%a =@ Js.wrap_callback@ %a@]@,%a"
|
||||
fmt_meth_name () format_var scope_var
|
||||
(format_scopes_to_callbacks ctx)
|
||||
scope_next
|
||||
Format.fprintf fmt "@,@[<hov 2>%a =@ Js.wrap_callback@ %a@]@,"
|
||||
fmt_meth_name () format_var var)
|
||||
~init:() scopes
|
||||
|
||||
let format_program
|
||||
(fmt : Format.formatter)
|
||||
@ -411,9 +412,9 @@ module To_jsoo = struct
|
||||
(Option.fold ~none:"" ~some:(fun name -> name) module_name)
|
||||
(format_ctx type_ordering) prgm.decl_ctx
|
||||
(format_scopes_to_fun prgm.decl_ctx)
|
||||
prgm.scopes fmt_lib_name ()
|
||||
prgm.code_items fmt_lib_name ()
|
||||
(format_scopes_to_callbacks prgm.decl_ctx)
|
||||
prgm.scopes)
|
||||
prgm.code_items)
|
||||
end
|
||||
|
||||
let apply
|
||||
|
@ -48,13 +48,14 @@ module To_json = struct
|
||||
Format.fprintf fmt "%s" s
|
||||
|
||||
let rec find_scope_def (target_name : string) :
|
||||
'm expr scopes -> 'm expr scope_def option = function
|
||||
'm expr code_item_list -> (ScopeName.t * 'm expr scope_body) option =
|
||||
function
|
||||
| Nil -> None
|
||||
| ScopeDef scope_def ->
|
||||
let name = Format.asprintf "%a" ScopeName.format_t scope_def.scope_name in
|
||||
if name = target_name then Some scope_def
|
||||
else
|
||||
let _, next_scope = Bindlib.unbind scope_def.scope_next in
|
||||
| Cons (ScopeDef (name, body), _)
|
||||
when String.equal target_name (Marked.unmark (ScopeName.get_info name)) ->
|
||||
Some (name, body)
|
||||
| Cons (_, next_bind) ->
|
||||
let _, next_scope = Bindlib.unbind next_bind in
|
||||
find_scope_def target_name next_scope
|
||||
|
||||
let fmt_tlit fmt (tlit : typ_lit) =
|
||||
@ -101,7 +102,7 @@ module To_json = struct
|
||||
let fmt_definitions
|
||||
(ctx : decl_ctx)
|
||||
(fmt : Format.formatter)
|
||||
(scope_def : 'e scope_def) =
|
||||
((_scope_name, scope_body) : ScopeName.t * 'e scope_body) =
|
||||
let get_name t =
|
||||
match Marked.unmark t with
|
||||
| TStruct sname -> Format.asprintf "%a" format_struct_name sname
|
||||
@ -198,13 +199,13 @@ module To_json = struct
|
||||
format_enum_name ename fmt_enum_properties ename
|
||||
| _ -> ()))
|
||||
(collect_required_type_defs_from_scope_input
|
||||
scope_def.scope_body.scope_body_input_struct)
|
||||
scope_body.scope_body_input_struct)
|
||||
|
||||
let format_program
|
||||
(fmt : Format.formatter)
|
||||
(scope : string)
|
||||
(prgm : 'm Lcalc.Ast.program) =
|
||||
match find_scope_def scope prgm.scopes with
|
||||
match find_scope_def scope prgm.code_items with
|
||||
| None -> Cli.error_print "Internal error: scope '%s' not found." scope
|
||||
| Some scope_def ->
|
||||
Cli.call_unstyled (fun _ ->
|
||||
@ -220,7 +221,7 @@ module To_json = struct
|
||||
(fmt_definitions prgm.decl_ctx)
|
||||
scope_def
|
||||
(fmt_struct_properties prgm.decl_ctx)
|
||||
scope_def.scope_body.scope_body_input_struct)
|
||||
(snd scope_def).scope_body_input_struct)
|
||||
end
|
||||
|
||||
let apply
|
||||
|
@ -18,18 +18,18 @@ open Catala_utils
|
||||
open Shared_ast
|
||||
module D = Dcalc.Ast
|
||||
module L = Lcalc.Ast
|
||||
module TopLevelName = Uid.Make (Uid.MarkedString) ()
|
||||
module LocalName = Uid.Make (Uid.MarkedString) ()
|
||||
module FuncName = Uid.Gen ()
|
||||
module VarName = Uid.Gen ()
|
||||
|
||||
let dead_value = LocalName.fresh ("dead_value", Pos.no_pos)
|
||||
let handle_default = TopLevelName.fresh ("handle_default", Pos.no_pos)
|
||||
let handle_default_opt = TopLevelName.fresh ("handle_default_opt", Pos.no_pos)
|
||||
let dead_value = VarName.fresh ("dead_value", Pos.no_pos)
|
||||
let handle_default = FuncName.fresh ("handle_default", Pos.no_pos)
|
||||
let handle_default_opt = FuncName.fresh ("handle_default_opt", Pos.no_pos)
|
||||
|
||||
type expr = naked_expr Marked.pos
|
||||
|
||||
and naked_expr =
|
||||
| EVar : LocalName.t -> naked_expr
|
||||
| EFunc : TopLevelName.t -> naked_expr
|
||||
| EVar : VarName.t -> naked_expr
|
||||
| EFunc : FuncName.t -> naked_expr
|
||||
| EStruct : expr list * StructName.t -> naked_expr
|
||||
| EStructFieldAccess : expr * StructField.t * StructName.t -> naked_expr
|
||||
| EInj : expr * EnumConstructor.t * EnumName.t -> naked_expr
|
||||
@ -39,9 +39,9 @@ and naked_expr =
|
||||
| EOp : (lcalc, _) operator -> naked_expr
|
||||
|
||||
type stmt =
|
||||
| SInnerFuncDef of LocalName.t Marked.pos * func
|
||||
| SLocalDecl of LocalName.t Marked.pos * typ
|
||||
| SLocalDef of LocalName.t Marked.pos * expr
|
||||
| SInnerFuncDef of VarName.t Marked.pos * func
|
||||
| SLocalDecl of VarName.t Marked.pos * typ
|
||||
| SLocalDef of VarName.t Marked.pos * expr
|
||||
| STryExcept of block * except * block
|
||||
| SRaise of except
|
||||
| SIfThenElse of expr * block * block
|
||||
@ -49,7 +49,7 @@ type stmt =
|
||||
expr
|
||||
* EnumName.t
|
||||
* (block (* Statements corresponding to arm closure body*)
|
||||
* (* Variable instantiated with enum payload *) LocalName.t)
|
||||
* (* Variable instantiated with enum payload *) VarName.t)
|
||||
list (** Each block corresponds to one case of the enum *)
|
||||
| SReturn of naked_expr
|
||||
| SAssert of naked_expr
|
||||
@ -57,14 +57,19 @@ type stmt =
|
||||
and block = stmt Marked.pos list
|
||||
|
||||
and func = {
|
||||
func_params : (LocalName.t Marked.pos * typ) list;
|
||||
func_params : (VarName.t Marked.pos * typ) list;
|
||||
func_body : block;
|
||||
}
|
||||
|
||||
type scope_body = {
|
||||
scope_body_name : ScopeName.t;
|
||||
scope_body_var : TopLevelName.t;
|
||||
scope_body_var : FuncName.t;
|
||||
scope_body_func : func;
|
||||
}
|
||||
|
||||
type program = { decl_ctx : decl_ctx; scopes : scope_body list }
|
||||
type code_item =
|
||||
| SVar of { var : VarName.t; expr : expr }
|
||||
| SFunc of { var : FuncName.t; func : func }
|
||||
| SScope of scope_body
|
||||
|
||||
type program = { decl_ctx : decl_ctx; code_items : code_item list }
|
||||
|
@ -21,10 +21,10 @@ module L = Lcalc.Ast
|
||||
module D = Dcalc.Ast
|
||||
|
||||
type 'm ctxt = {
|
||||
func_dict : ('m L.expr, A.TopLevelName.t) Var.Map.t;
|
||||
func_dict : ('m L.expr, A.FuncName.t) Var.Map.t;
|
||||
decl_ctx : decl_ctx;
|
||||
var_dict : ('m L.expr, A.LocalName.t) Var.Map.t;
|
||||
inside_definition_of : A.LocalName.t option;
|
||||
var_dict : ('m L.expr, A.VarName.t) Var.Map.t;
|
||||
inside_definition_of : A.VarName.t option;
|
||||
context_name : string;
|
||||
}
|
||||
|
||||
@ -90,14 +90,14 @@ let rec translate_expr (ctxt : 'm ctxt) (expr : 'm L.expr) : A.block * A.expr =
|
||||
| ELit l -> [], (A.ELit l, Expr.pos expr)
|
||||
| _ ->
|
||||
let tmp_var =
|
||||
A.LocalName.fresh
|
||||
A.VarName.fresh
|
||||
( (*This piece of logic is used to make the code more readable. TODO:
|
||||
should be removed when
|
||||
https://github.com/CatalaLang/catala/issues/240 is fixed. *)
|
||||
(match ctxt.inside_definition_of with
|
||||
| None -> ctxt.context_name
|
||||
| Some v ->
|
||||
let v = Marked.unmark (A.LocalName.get_info v) in
|
||||
let v = Marked.unmark (A.VarName.get_info v) in
|
||||
let tmp_rex = Re.Pcre.regexp "^temp_" in
|
||||
if Re.Pcre.pmatch ~rex:tmp_rex v then v else "temp_" ^ v),
|
||||
Expr.pos expr )
|
||||
@ -106,7 +106,7 @@ let rec translate_expr (ctxt : 'm ctxt) (expr : 'm L.expr) : A.block * A.expr =
|
||||
{
|
||||
ctxt with
|
||||
inside_definition_of = Some tmp_var;
|
||||
context_name = Marked.unmark (A.LocalName.get_info tmp_var);
|
||||
context_name = Marked.unmark (A.VarName.get_info tmp_var);
|
||||
}
|
||||
in
|
||||
let tmp_stmts = translate_statements ctxt expr in
|
||||
@ -133,7 +133,7 @@ and translate_statements (ctxt : 'm ctxt) (block_expr : 'm L.expr) : A.block =
|
||||
List.fold_left
|
||||
(fun var_dict (x, _) ->
|
||||
Var.Map.add x
|
||||
(A.LocalName.fresh (Bindlib.name_of x, binder_pos))
|
||||
(A.VarName.fresh (Bindlib.name_of x, binder_pos))
|
||||
var_dict)
|
||||
ctxt.var_dict vars_tau;
|
||||
}
|
||||
@ -159,7 +159,7 @@ and translate_statements (ctxt : 'm ctxt) (block_expr : 'm L.expr) : A.block =
|
||||
ctxt with
|
||||
inside_definition_of = Some (Marked.unmark x);
|
||||
context_name =
|
||||
Marked.unmark (A.LocalName.get_info (Marked.unmark x));
|
||||
Marked.unmark (A.VarName.get_info (Marked.unmark x));
|
||||
}
|
||||
in
|
||||
let arg_stmts, new_arg = translate_expr ctxt arg in
|
||||
@ -174,7 +174,7 @@ and translate_statements (ctxt : 'm ctxt) (block_expr : 'm L.expr) : A.block =
|
||||
let vars_tau = List.map2 (fun x tau -> x, tau) (Array.to_list vars) tys in
|
||||
let closure_name =
|
||||
match ctxt.inside_definition_of with
|
||||
| None -> A.LocalName.fresh (ctxt.context_name, Expr.pos block_expr)
|
||||
| None -> A.VarName.fresh (ctxt.context_name, Expr.pos block_expr)
|
||||
| Some x -> x
|
||||
in
|
||||
let ctxt =
|
||||
@ -184,7 +184,7 @@ and translate_statements (ctxt : 'm ctxt) (block_expr : 'm L.expr) : A.block =
|
||||
List.fold_left
|
||||
(fun var_dict (x, _) ->
|
||||
Var.Map.add x
|
||||
(A.LocalName.fresh (Bindlib.name_of x, binder_pos))
|
||||
(A.VarName.fresh (Bindlib.name_of x, binder_pos))
|
||||
var_dict)
|
||||
ctxt.var_dict vars_tau;
|
||||
inside_definition_of = None;
|
||||
@ -215,7 +215,7 @@ and translate_statements (ctxt : 'm ctxt) (block_expr : 'm L.expr) : A.block =
|
||||
assert (Array.length vars = 1);
|
||||
let var = vars.(0) in
|
||||
let scalc_var =
|
||||
A.LocalName.fresh (Bindlib.name_of var, Expr.pos arg)
|
||||
A.VarName.fresh (Bindlib.name_of var, Expr.pos arg)
|
||||
in
|
||||
let ctxt =
|
||||
{ ctxt with var_dict = Var.Map.add var scalc_var ctxt.var_dict }
|
||||
@ -272,8 +272,8 @@ and translate_statements (ctxt : 'm ctxt) (block_expr : 'm L.expr) : A.block =
|
||||
let rec translate_scope_body_expr
|
||||
(scope_name : ScopeName.t)
|
||||
(decl_ctx : decl_ctx)
|
||||
(var_dict : ('m L.expr, A.LocalName.t) Var.Map.t)
|
||||
(func_dict : ('m L.expr, A.TopLevelName.t) Var.Map.t)
|
||||
(var_dict : ('m L.expr, A.VarName.t) Var.Map.t)
|
||||
(func_dict : ('m L.expr, A.FuncName.t) Var.Map.t)
|
||||
(scope_expr : 'm L.expr scope_body_expr) : A.block =
|
||||
match scope_expr with
|
||||
| Result e ->
|
||||
@ -292,7 +292,7 @@ let rec translate_scope_body_expr
|
||||
| ScopeLet scope_let ->
|
||||
let let_var, scope_let_next = Bindlib.unbind scope_let.scope_let_next in
|
||||
let let_var_id =
|
||||
A.LocalName.fresh (Bindlib.name_of let_var, scope_let.scope_let_pos)
|
||||
A.VarName.fresh (Bindlib.name_of let_var, scope_let.scope_let_pos)
|
||||
in
|
||||
let new_var_dict = Var.Map.add let_var let_var_id var_dict in
|
||||
(match scope_let.scope_let_kind with
|
||||
@ -330,54 +330,136 @@ let rec translate_scope_body_expr
|
||||
scope_let_next
|
||||
|
||||
let translate_program (p : 'm L.program) : A.program =
|
||||
{
|
||||
decl_ctx = p.decl_ctx;
|
||||
scopes =
|
||||
(let _, new_scopes =
|
||||
let _, _, rev_items =
|
||||
Scope.fold_left
|
||||
~f:(fun (func_dict, new_scopes) scope_def scope_var ->
|
||||
~f:(fun (func_dict, var_dict, rev_items) code_item var ->
|
||||
match code_item with
|
||||
| ScopeDef (name, body) ->
|
||||
let scope_input_var, scope_body_expr =
|
||||
Bindlib.unbind scope_def.scope_body.scope_body_expr
|
||||
in
|
||||
let input_pos =
|
||||
Marked.get_mark (ScopeName.get_info scope_def.scope_name)
|
||||
Bindlib.unbind body.scope_body_expr
|
||||
in
|
||||
let input_pos = Marked.get_mark (ScopeName.get_info name) in
|
||||
let scope_input_var_id =
|
||||
A.LocalName.fresh (Bindlib.name_of scope_input_var, input_pos)
|
||||
A.VarName.fresh (Bindlib.name_of scope_input_var, input_pos)
|
||||
in
|
||||
let var_dict =
|
||||
Var.Map.singleton scope_input_var scope_input_var_id
|
||||
let var_dict_local =
|
||||
Var.Map.add scope_input_var scope_input_var_id var_dict
|
||||
in
|
||||
let new_scope_body =
|
||||
translate_scope_body_expr scope_def.scope_name p.decl_ctx
|
||||
var_dict func_dict scope_body_expr
|
||||
translate_scope_body_expr name p.decl_ctx var_dict_local func_dict
|
||||
scope_body_expr
|
||||
in
|
||||
let func_id =
|
||||
A.TopLevelName.fresh (Bindlib.name_of scope_var, Pos.no_pos)
|
||||
in
|
||||
let func_dict = Var.Map.add scope_var func_id func_dict in
|
||||
( func_dict,
|
||||
let func_id = A.FuncName.fresh (Bindlib.name_of var, Pos.no_pos) in
|
||||
( Var.Map.add var func_id func_dict,
|
||||
var_dict,
|
||||
A.SScope
|
||||
{
|
||||
Ast.scope_body_name = scope_def.scope_name;
|
||||
Ast.scope_body_name = name;
|
||||
Ast.scope_body_var = func_id;
|
||||
scope_body_func =
|
||||
{
|
||||
A.func_params =
|
||||
[
|
||||
( (scope_input_var_id, input_pos),
|
||||
( TStruct scope_def.scope_body.scope_body_input_struct,
|
||||
input_pos ) );
|
||||
(TStruct body.scope_body_input_struct, input_pos) );
|
||||
];
|
||||
A.func_body = new_scope_body;
|
||||
};
|
||||
}
|
||||
:: new_scopes ))
|
||||
:: rev_items )
|
||||
| Topdef (name, _, (EAbs abs, _)) ->
|
||||
(* Toplevel function def *)
|
||||
let func_id = A.FuncName.fresh (Bindlib.name_of var, Pos.no_pos) in
|
||||
let args_a, expr = Bindlib.unmbind abs.binder in
|
||||
let args = Array.to_list args_a in
|
||||
let args_id =
|
||||
List.map2
|
||||
(fun v ty ->
|
||||
let pos = Marked.get_mark ty in
|
||||
(A.VarName.fresh (Bindlib.name_of v, pos), pos), ty)
|
||||
args abs.tys
|
||||
in
|
||||
let block, expr =
|
||||
let ctxt =
|
||||
{
|
||||
func_dict;
|
||||
decl_ctx = p.decl_ctx;
|
||||
var_dict =
|
||||
List.fold_left2
|
||||
(fun map arg ((id, _), _) -> Var.Map.add arg id map)
|
||||
var_dict args args_id;
|
||||
inside_definition_of = None;
|
||||
context_name = Marked.unmark (TopdefName.get_info name);
|
||||
}
|
||||
in
|
||||
translate_expr ctxt expr
|
||||
in
|
||||
let body_block =
|
||||
block @ [A.SReturn (Marked.unmark expr), Marked.get_mark expr]
|
||||
in
|
||||
( Var.Map.add var func_id func_dict,
|
||||
var_dict,
|
||||
A.SFunc
|
||||
{
|
||||
var = func_id;
|
||||
func = { A.func_params = args_id; A.func_body = body_block };
|
||||
}
|
||||
:: rev_items )
|
||||
| Topdef (name, _ty, expr) ->
|
||||
(* Toplevel constant def *)
|
||||
let var_id = A.VarName.fresh (Bindlib.name_of var, Pos.no_pos) in
|
||||
let block, expr =
|
||||
let ctxt =
|
||||
{
|
||||
func_dict;
|
||||
decl_ctx = p.decl_ctx;
|
||||
var_dict;
|
||||
inside_definition_of = None;
|
||||
context_name = Marked.unmark (TopdefName.get_info name);
|
||||
}
|
||||
in
|
||||
translate_expr ctxt expr
|
||||
in
|
||||
(* If the evaluation of the toplevel expr requires preliminary
|
||||
statements, we lift its computation into an auxiliary function *)
|
||||
let rev_items =
|
||||
match block with
|
||||
| [] -> A.SVar { var = var_id; expr } :: rev_items
|
||||
| block ->
|
||||
let pos = Marked.get_mark expr in
|
||||
let func_id =
|
||||
A.FuncName.fresh (Bindlib.name_of var ^ "_aux", pos)
|
||||
in
|
||||
(* The list is being built in reverse order *)
|
||||
A.SVar
|
||||
{ var = var_id; expr = A.EApp ((EFunc func_id, pos), []), pos }
|
||||
:: A.SFunc
|
||||
{
|
||||
var = func_id;
|
||||
func =
|
||||
{
|
||||
A.func_params = [];
|
||||
A.func_body =
|
||||
block
|
||||
@ [
|
||||
( A.SReturn (Marked.unmark expr),
|
||||
Marked.get_mark expr );
|
||||
];
|
||||
};
|
||||
}
|
||||
:: rev_items
|
||||
in
|
||||
( func_dict,
|
||||
(* No need to add func_id since the function will only be called
|
||||
right here *)
|
||||
Var.Map.add var var_id var_dict,
|
||||
rev_items ))
|
||||
~init:
|
||||
( (if !Cli.avoid_exceptions_flag then
|
||||
Var.Map.singleton L.handle_default_opt A.handle_default_opt
|
||||
else Var.Map.singleton L.handle_default A.handle_default),
|
||||
Var.Map.empty,
|
||||
[] )
|
||||
p.scopes
|
||||
p.code_items
|
||||
in
|
||||
List.rev new_scopes);
|
||||
}
|
||||
{ decl_ctx = p.decl_ctx; code_items = List.rev rev_items }
|
@ -20,9 +20,12 @@ open Ast
|
||||
|
||||
let needs_parens (_e : expr) : bool = false
|
||||
|
||||
let format_local_name (fmt : Format.formatter) (v : LocalName.t) : unit =
|
||||
Format.fprintf fmt "%a_%s" LocalName.format_t v
|
||||
(string_of_int (LocalName.hash v))
|
||||
let format_var_name (fmt : Format.formatter) (v : VarName.t) : unit =
|
||||
Format.fprintf fmt "%a_%s" VarName.format_t v (string_of_int (VarName.hash v))
|
||||
|
||||
let format_func_name (fmt : Format.formatter) (v : FuncName.t) : unit =
|
||||
Format.fprintf fmt "%a_%s" FuncName.format_t v
|
||||
(string_of_int (FuncName.hash v))
|
||||
|
||||
let rec format_expr
|
||||
(decl_ctx : decl_ctx)
|
||||
@ -37,8 +40,8 @@ let rec format_expr
|
||||
else Format.fprintf fmt "%a" format_expr e
|
||||
in
|
||||
match Marked.unmark e with
|
||||
| EVar v -> Format.fprintf fmt "%a" format_local_name v
|
||||
| EFunc v -> Format.fprintf fmt "%a" TopLevelName.format_t v
|
||||
| EVar v -> Format.fprintf fmt "%a" format_var_name v
|
||||
| EFunc v -> Format.fprintf fmt "%a" format_func_name v
|
||||
| EStruct (es, s) ->
|
||||
Format.fprintf fmt "@[<hov 2>%a@ %a%a%a@]" StructName.format_t s
|
||||
Print.punctuation "{"
|
||||
@ -75,6 +78,7 @@ let rec format_expr
|
||||
| EApp ((EOp op, _), [arg1]) ->
|
||||
Format.fprintf fmt "@[<hov 2>%a@ %a@]" Print.operator op format_with_parens
|
||||
arg1
|
||||
| EApp (f, []) -> Format.fprintf fmt "@[<hov 2>%a@ ()@]" format_expr f
|
||||
| EApp (f, args) ->
|
||||
Format.fprintf fmt "@[<hov 2>%a@ %a@]" format_expr f
|
||||
(Format.pp_print_list
|
||||
@ -92,22 +96,22 @@ let rec format_statement
|
||||
match Marked.unmark stmt with
|
||||
| SInnerFuncDef (name, func) ->
|
||||
Format.fprintf fmt "@[<hov 2>%a@ %a@ %a@ %a@]@\n@[<v 2> %a@]" Print.keyword
|
||||
"let" format_local_name (Marked.unmark name)
|
||||
"let" format_var_name (Marked.unmark name)
|
||||
(Format.pp_print_list
|
||||
~pp_sep:(fun fmt () -> Format.fprintf fmt "@ ")
|
||||
(fun fmt ((name, _), typ) ->
|
||||
Format.fprintf fmt "%a%a %a@ %a%a" Print.punctuation "("
|
||||
format_local_name name Print.punctuation ":" (Print.typ decl_ctx)
|
||||
typ Print.punctuation ")"))
|
||||
format_var_name name Print.punctuation ":" (Print.typ decl_ctx) typ
|
||||
Print.punctuation ")"))
|
||||
func.func_params Print.punctuation "="
|
||||
(format_block decl_ctx ~debug)
|
||||
func.func_body
|
||||
| SLocalDecl (name, typ) ->
|
||||
Format.fprintf fmt "@[<hov 2>%a %a %a@ %a@]" Print.keyword "decl"
|
||||
format_local_name (Marked.unmark name) Print.punctuation ":"
|
||||
format_var_name (Marked.unmark name) Print.punctuation ":"
|
||||
(Print.typ decl_ctx) typ
|
||||
| SLocalDef (name, naked_expr) ->
|
||||
Format.fprintf fmt "@[<hov 2>%a %a@ %a@]" format_local_name
|
||||
Format.fprintf fmt "@[<hov 2>%a %a@ %a@]" format_var_name
|
||||
(Marked.unmark name) Print.punctuation "="
|
||||
(format_expr decl_ctx ~debug)
|
||||
naked_expr
|
||||
@ -147,7 +151,7 @@ let rec format_statement
|
||||
(fun fmt ((case, _), (arm_block, payload_name)) ->
|
||||
Format.fprintf fmt "%a %a%a@ %a @[<v 2>%a@ %a@]" Print.punctuation
|
||||
"|" Print.enum_constructor case Print.punctuation ":"
|
||||
format_local_name payload_name Print.punctuation "→"
|
||||
format_var_name payload_name Print.punctuation "→"
|
||||
(format_block decl_ctx ~debug)
|
||||
arm_block))
|
||||
(List.combine
|
||||
@ -165,20 +169,35 @@ and format_block
|
||||
(format_statement decl_ctx ~debug)
|
||||
fmt block
|
||||
|
||||
let format_scope
|
||||
(decl_ctx : decl_ctx)
|
||||
?(debug : bool = false)
|
||||
(fmt : Format.formatter)
|
||||
(body : scope_body) : unit =
|
||||
if debug then () else ();
|
||||
Format.fprintf fmt "@[<hov 2>%a@ %a@ %a@ %a@]@\n@[<v 2> %a@]" Print.keyword
|
||||
"let" TopLevelName.format_t body.scope_body_var
|
||||
(Format.pp_print_list
|
||||
~pp_sep:(fun fmt () -> Format.fprintf fmt "@ ")
|
||||
(fun fmt ((name, _), typ) ->
|
||||
Format.fprintf fmt "%a%a %a@ %a%a" Print.punctuation "("
|
||||
format_local_name name Print.punctuation ":" (Print.typ decl_ctx) typ
|
||||
Print.punctuation ")"))
|
||||
body.scope_body_func.func_params Print.punctuation "="
|
||||
(format_block decl_ctx ~debug)
|
||||
body.scope_body_func.func_body
|
||||
let format_item decl_ctx ?debug ppf def =
|
||||
Format.pp_open_hvbox ppf 2;
|
||||
Format.pp_open_hovbox ppf 4;
|
||||
Print.keyword ppf "let ";
|
||||
let () =
|
||||
match def with
|
||||
| SVar { var; expr } ->
|
||||
format_var_name ppf var;
|
||||
Print.punctuation ppf " =";
|
||||
Format.pp_close_box ppf ();
|
||||
Format.pp_print_space ppf ();
|
||||
format_expr decl_ctx ?debug ppf expr
|
||||
| SScope { scope_body_var = var; scope_body_func = func; _ }
|
||||
| SFunc { var; func } ->
|
||||
format_func_name ppf var;
|
||||
Format.pp_print_list
|
||||
(fun ppf (arg, ty) ->
|
||||
Format.fprintf ppf "@ (%a: %a)" format_var_name (Marked.unmark arg)
|
||||
(Print.typ decl_ctx) ty)
|
||||
ppf func.func_params;
|
||||
Print.punctuation ppf " =";
|
||||
Format.pp_close_box ppf ();
|
||||
Format.pp_print_space ppf ();
|
||||
format_block decl_ctx ?debug ppf func.func_body
|
||||
in
|
||||
Format.pp_close_box ppf ();
|
||||
Format.pp_print_cut ppf ()
|
||||
|
||||
let format_program decl_ctx ?debug ppf prg =
|
||||
Format.pp_open_vbox ppf 0;
|
||||
Format.pp_print_list (format_item decl_ctx ?debug) ppf prg.code_items;
|
||||
Format.pp_close_box ppf ()
|
||||
|
@ -14,9 +14,12 @@
|
||||
License for the specific language governing permissions and limitations under
|
||||
the License. *)
|
||||
|
||||
val format_scope :
|
||||
val format_item :
|
||||
Shared_ast.decl_ctx ->
|
||||
?debug:bool ->
|
||||
Format.formatter ->
|
||||
Ast.scope_body ->
|
||||
Ast.code_item ->
|
||||
unit
|
||||
|
||||
val format_program :
|
||||
Shared_ast.decl_ctx -> ?debug:bool -> Format.formatter -> Ast.program -> unit
|
||||
|
@ -12,13 +12,13 @@ The module describing the abstract syntax tree is:
|
||||
|
||||
{1 Compilation from lambda calculus }
|
||||
|
||||
{!module: Scalc.Compile_from_lambda} Performs the classical translation
|
||||
{!module: Scalc.From_lambda} Performs the classical translation
|
||||
from an expression-based language to a statement-based language. Union types
|
||||
are eliminated in favor of tagged unions.
|
||||
|
||||
Related modules:
|
||||
|
||||
{!modules: Scalc.Compile_from_lambda}
|
||||
{!modules: Scalc.From_lambda}
|
||||
|
||||
{1 Backends}
|
||||
|
||||
|
@ -203,16 +203,16 @@ let format_name_cleaned (fmt : Format.formatter) (s : string) : unit =
|
||||
module StringMap = Map.Make (String)
|
||||
module IntMap = Map.Make (Int)
|
||||
|
||||
(** For each `LocalName.t` defined by its string and then by its hash, we keep
|
||||
(** For each `VarName.t` defined by its string and then by its hash, we keep
|
||||
track of which local integer id we've given it. This is used to keep
|
||||
variable naming with low indices rather than one global counter for all
|
||||
variables. TODO: should be removed when
|
||||
https://github.com/CatalaLang/catala/issues/240 is fixed. *)
|
||||
let string_counter_map : int IntMap.t StringMap.t ref = ref StringMap.empty
|
||||
|
||||
let format_var (fmt : Format.formatter) (v : LocalName.t) : unit =
|
||||
let v_str = Marked.unmark (LocalName.get_info v) in
|
||||
let hash = LocalName.hash v in
|
||||
let format_var (fmt : Format.formatter) (v : VarName.t) : unit =
|
||||
let v_str = Marked.unmark (VarName.get_info v) in
|
||||
let hash = VarName.hash v in
|
||||
let local_id =
|
||||
match StringMap.find_opt v_str !string_counter_map with
|
||||
| Some ids -> (
|
||||
@ -241,10 +241,13 @@ let format_var (fmt : Format.formatter) (v : LocalName.t) : unit =
|
||||
else if local_id = 0 then format_name_cleaned fmt v_str
|
||||
else Format.fprintf fmt "%a_%d" format_name_cleaned v_str local_id
|
||||
|
||||
let format_toplevel_name (fmt : Format.formatter) (v : TopLevelName.t) : unit =
|
||||
let v_str = Marked.unmark (TopLevelName.get_info v) in
|
||||
let format_func_name (fmt : Format.formatter) (v : FuncName.t) : unit =
|
||||
let v_str = Marked.unmark (FuncName.get_info v) in
|
||||
format_name_cleaned fmt v_str
|
||||
|
||||
let format_var_name (fmt : Format.formatter) (v : VarName.t) : unit =
|
||||
Format.fprintf fmt "%a_%s" VarName.format_t v (string_of_int (VarName.hash v))
|
||||
|
||||
let needs_parens (e : expr) : bool =
|
||||
match Marked.unmark e with
|
||||
| ELit (LBool _ | LUnit) | EVar _ | EOp _ -> false
|
||||
@ -276,7 +279,7 @@ let rec format_expression (ctx : decl_ctx) (fmt : Format.formatter) (e : expr) :
|
||||
unit =
|
||||
match Marked.unmark e with
|
||||
| EVar v -> format_var fmt v
|
||||
| EFunc f -> format_toplevel_name fmt f
|
||||
| EFunc f -> format_func_name fmt f
|
||||
| EStruct (es, s) ->
|
||||
Format.fprintf fmt "%a(%a)" format_struct_name s
|
||||
(Format.pp_print_list
|
||||
@ -348,12 +351,12 @@ let rec format_expression (ctx : decl_ctx) (fmt : Format.formatter) (e : expr) :
|
||||
Format.fprintf fmt "%a(%a)" format_op (op, Pos.no_pos)
|
||||
(format_expression ctx) arg1
|
||||
| EApp ((EFunc x, pos), args)
|
||||
when Ast.TopLevelName.compare x Ast.handle_default = 0
|
||||
|| Ast.TopLevelName.compare x Ast.handle_default_opt = 0 ->
|
||||
when Ast.FuncName.compare x Ast.handle_default = 0
|
||||
|| Ast.FuncName.compare x Ast.handle_default_opt = 0 ->
|
||||
Format.fprintf fmt
|
||||
"%a(@[<hov 0>SourcePosition(filename=\"%s\",@ start_line=%d,@ \
|
||||
start_column=%d,@ end_line=%d, end_column=%d,@ law_headings=%a), %a)@]"
|
||||
format_toplevel_name x (Pos.get_file pos) (Pos.get_start_line pos)
|
||||
format_func_name x (Pos.get_file pos) (Pos.get_start_line pos)
|
||||
(Pos.get_start_column pos) (Pos.get_end_line pos) (Pos.get_end_column pos)
|
||||
format_string_list (Pos.get_law_info pos)
|
||||
(Format.pp_print_list
|
||||
@ -400,7 +403,7 @@ let rec format_statement
|
||||
| SSwitch (e1, e_name, [(case_none, _); (case_some, case_some_var)])
|
||||
when EnumName.compare e_name L.option_enum = 0 ->
|
||||
(* We translate the option type with an overloading by Python's [None] *)
|
||||
let tmp_var = LocalName.fresh ("perhaps_none_arg", Pos.no_pos) in
|
||||
let tmp_var = VarName.fresh ("perhaps_none_arg", Pos.no_pos) in
|
||||
Format.fprintf fmt
|
||||
"%a = %a@\n\
|
||||
@[<hov 4>if %a is None:@\n\
|
||||
@ -418,7 +421,7 @@ let rec format_statement
|
||||
cases
|
||||
(EnumConstructor.Map.bindings (EnumName.Map.find e_name ctx.ctx_enums))
|
||||
in
|
||||
let tmp_var = LocalName.fresh ("match_arg", Pos.no_pos) in
|
||||
let tmp_var = VarName.fresh ("match_arg", Pos.no_pos) in
|
||||
Format.fprintf fmt "%a = %a@\n@[<hov 4>if %a@]" format_var tmp_var
|
||||
(format_expression ctx) e1
|
||||
(Format.pp_print_list
|
||||
@ -583,7 +586,7 @@ let format_program
|
||||
(* We disable the style flag in order to enjoy formatting from the
|
||||
pretty-printers of Dcalc and Lcalc but without the color terminal
|
||||
markers. *)
|
||||
Cli.call_unstyled (fun _ ->
|
||||
Cli.call_unstyled (fun () ->
|
||||
Format.fprintf fmt
|
||||
"# This file has been generated by the Catala compiler, do not edit!\n\
|
||||
@\n\
|
||||
@ -591,20 +594,25 @@ let format_program
|
||||
from typing import Any, List, Callable, Tuple\n\
|
||||
from enum import Enum\n\
|
||||
@\n\
|
||||
%a@\n\
|
||||
@[<v>%a@]@\n\
|
||||
@\n\
|
||||
%a@?"
|
||||
(format_ctx type_ordering) p.decl_ctx
|
||||
(Format.pp_print_list
|
||||
~pp_sep:(fun fmt () -> Format.fprintf fmt "@\n@\n")
|
||||
(fun fmt body ->
|
||||
let { Ast.func_params; Ast.func_body } = body.scope_body_func in
|
||||
Format.fprintf fmt "@[<hov 4>def %a(%a):@\n%a@]"
|
||||
format_toplevel_name body.scope_body_var
|
||||
(Format.pp_print_list ~pp_sep:Format.pp_print_newline (fun fmt ->
|
||||
function
|
||||
| SVar { var; expr } ->
|
||||
Format.fprintf fmt "@[<hv 4>%a = (@,%a@,@])@," format_var_name var
|
||||
(format_expression p.decl_ctx)
|
||||
expr
|
||||
| SFunc { var; func }
|
||||
| SScope { scope_body_var = var; scope_body_func = func; _ } ->
|
||||
let { Ast.func_params; Ast.func_body } = func in
|
||||
Format.fprintf fmt "@[<hv 4>def %a(%a):@\n%a@]@," format_func_name
|
||||
var
|
||||
(Format.pp_print_list
|
||||
~pp_sep:(fun fmt () -> Format.fprintf fmt ", ")
|
||||
(fun fmt (var, typ) ->
|
||||
Format.fprintf fmt "%a:%a" format_var (Marked.unmark var)
|
||||
format_typ typ))
|
||||
func_params (format_block p.decl_ctx) func_body))
|
||||
p.scopes)
|
||||
p.code_items)
|
||||
|
@ -53,6 +53,7 @@ type 'm scope_decl = {
|
||||
|
||||
type 'm program = {
|
||||
program_scopes : 'm scope_decl ScopeName.Map.t;
|
||||
program_topdefs : ('m expr * typ) TopdefName.Map.t;
|
||||
program_ctx : decl_ctx;
|
||||
}
|
||||
|
||||
@ -69,12 +70,23 @@ let type_rule decl_ctx env = function
|
||||
Call (sc_name, ssc_name, Typed { pos; ty = Marked.mark pos TAny })
|
||||
|
||||
let type_program (prg : 'm program) : typed program =
|
||||
let typing_env =
|
||||
TopdefName.Map.fold
|
||||
(fun name (_, ty) -> Typing.Env.add_toplevel_var name ty)
|
||||
prg.program_topdefs Typing.Env.empty
|
||||
in
|
||||
let program_topdefs =
|
||||
TopdefName.Map.map
|
||||
(fun (expr, typ) ->
|
||||
Expr.unbox (Typing.expr prg.program_ctx ~env:typing_env ~typ expr), typ)
|
||||
prg.program_topdefs
|
||||
in
|
||||
let typing_env =
|
||||
ScopeName.Map.fold
|
||||
(fun scope_name scope_decl ->
|
||||
let vars = ScopeVar.Map.map fst scope_decl.scope_sig in
|
||||
Typing.Env.add_scope scope_name ~vars)
|
||||
prg.program_scopes Typing.Env.empty
|
||||
prg.program_scopes typing_env
|
||||
in
|
||||
let program_scopes =
|
||||
ScopeName.Map.map
|
||||
@ -98,4 +110,4 @@ let type_program (prg : 'm program) : typed program =
|
||||
{ scope_decl with scope_decl_rules; scope_mark })
|
||||
prg.program_scopes
|
||||
in
|
||||
{ prg with program_scopes }
|
||||
{ prg with program_topdefs; program_scopes }
|
||||
|
@ -45,6 +45,7 @@ type 'm scope_decl = {
|
||||
|
||||
type 'm program = {
|
||||
program_scopes : 'm scope_decl ScopeName.Map.t;
|
||||
program_topdefs : ('m expr * typ) TopdefName.Map.t;
|
||||
program_ctx : decl_ctx;
|
||||
}
|
||||
|
||||
|
@ -19,7 +19,46 @@
|
||||
|
||||
open Catala_utils
|
||||
open Shared_ast
|
||||
module SVertex = ScopeName
|
||||
|
||||
type vertex = Scope of ScopeName.t | Topdef of TopdefName.t
|
||||
|
||||
module SVertex = struct
|
||||
type t = vertex
|
||||
(* While we enforce that globals don't depend on scopes, and could therefore
|
||||
compute two separate dependency graphs and traverse them one after the
|
||||
other, code-wise it's simpler to have a single graph including both *)
|
||||
|
||||
let compare v1 v2 =
|
||||
match v1, v2 with
|
||||
| Scope s1, Scope s2 -> ScopeName.compare s1 s2
|
||||
| Topdef g1, Topdef g2 -> TopdefName.compare g1 g2
|
||||
| Scope _, _ -> -1
|
||||
| _, Scope _ -> 1
|
||||
| Topdef _, _ | _, Topdef _ -> .
|
||||
|
||||
let equal v1 v2 =
|
||||
match v1, v2 with
|
||||
| Scope s1, Scope s2 -> ScopeName.equal s1 s2
|
||||
| Topdef g1, Topdef g2 -> TopdefName.equal g1 g2
|
||||
| (Scope _ | Topdef _), _ -> false
|
||||
|
||||
let hash = function
|
||||
| Scope s -> ScopeName.hash s
|
||||
| Topdef g -> TopdefName.hash g
|
||||
|
||||
let to_string v =
|
||||
Format.asprintf "%a"
|
||||
(fun ppf -> function
|
||||
| Scope s -> ScopeName.format_t ppf s
|
||||
| Topdef g -> TopdefName.format_t ppf g)
|
||||
v
|
||||
|
||||
let info = function
|
||||
| Scope s -> ScopeName.get_info s
|
||||
| Topdef g -> TopdefName.get_info g
|
||||
end
|
||||
|
||||
module VMap = Map.Make (SVertex)
|
||||
|
||||
(** On the edges, the label is the expression responsible for the use of the
|
||||
function *)
|
||||
@ -38,56 +77,81 @@ module STopologicalTraversal = Graph.Topological.Make (SDependencies)
|
||||
module SSCC = Graph.Components.Make (SDependencies)
|
||||
(** Tarjan's stongly connected components algorithm, provided by OCamlGraph *)
|
||||
|
||||
let rec expr_used_scopes e =
|
||||
let rec expr_used_defs e =
|
||||
let recurse_subterms e =
|
||||
Expr.shallow_fold
|
||||
(fun e -> ScopeName.Map.union (fun _ x _ -> Some x) (expr_used_scopes e))
|
||||
e ScopeName.Map.empty
|
||||
(fun e -> VMap.union (fun _ x _ -> Some x) (expr_used_defs e))
|
||||
e VMap.empty
|
||||
in
|
||||
match e with
|
||||
| ELocation (ToplevelVar (v, pos)), _ -> VMap.singleton (Topdef v) pos
|
||||
| (EScopeCall { scope; _ }, m) as e ->
|
||||
ScopeName.Map.add scope (Expr.mark_pos m) (recurse_subterms e)
|
||||
VMap.add (Scope scope) (Expr.mark_pos m) (recurse_subterms e)
|
||||
| EAbs { binder; _ }, _ ->
|
||||
let _, body = Bindlib.unmbind binder in
|
||||
expr_used_scopes body
|
||||
expr_used_defs body
|
||||
| e -> recurse_subterms e
|
||||
|
||||
let rule_used_scopes = function
|
||||
let rule_used_defs = function
|
||||
| Ast.Assertion e | Ast.Definition (_, _, _, e) ->
|
||||
(* TODO: maybe this info could be passed on from previous passes without
|
||||
walking through all exprs again *)
|
||||
expr_used_scopes e
|
||||
expr_used_defs e
|
||||
| Ast.Call (subscope, subindex, _) ->
|
||||
ScopeName.Map.singleton subscope
|
||||
VMap.singleton (Scope subscope)
|
||||
(Marked.get_mark (SubScopeName.get_info subindex))
|
||||
|
||||
let build_program_dep_graph (prgm : 'm Ast.program) : SDependencies.t =
|
||||
let g = SDependencies.empty in
|
||||
let g =
|
||||
TopdefName.Map.fold
|
||||
(fun v _ g -> SDependencies.add_vertex g (Topdef v))
|
||||
prgm.program_topdefs g
|
||||
in
|
||||
let g =
|
||||
ScopeName.Map.fold
|
||||
(fun v _ g -> SDependencies.add_vertex g v)
|
||||
(fun v _ g -> SDependencies.add_vertex g (Scope v))
|
||||
prgm.program_scopes g
|
||||
in
|
||||
let g =
|
||||
TopdefName.Map.fold
|
||||
(fun glo_name (expr, _) g ->
|
||||
let used_defs = expr_used_defs expr in
|
||||
if VMap.mem (Topdef glo_name) used_defs then
|
||||
Errors.raise_spanned_error
|
||||
(Marked.get_mark (TopdefName.get_info glo_name))
|
||||
"The Topdef %a has a definition that refers to itself, which is \
|
||||
forbidden since Catala does not provide recursion"
|
||||
TopdefName.format_t glo_name;
|
||||
VMap.fold
|
||||
(fun def pos g ->
|
||||
let edge = SDependencies.E.create def pos (Topdef glo_name) in
|
||||
SDependencies.add_edge_e g edge)
|
||||
used_defs g)
|
||||
prgm.program_topdefs g
|
||||
in
|
||||
ScopeName.Map.fold
|
||||
(fun scope_name scope g ->
|
||||
List.fold_left
|
||||
(fun g rule ->
|
||||
let used_scopes = rule_used_scopes rule in
|
||||
if ScopeName.Map.mem scope_name used_scopes then
|
||||
let used_defs = rule_used_defs rule in
|
||||
if VMap.mem (Scope scope_name) used_defs then
|
||||
Errors.raise_spanned_error
|
||||
(Marked.get_mark (ScopeName.get_info scope.Ast.scope_decl_name))
|
||||
"The scope %a is calling into itself as a subscope, which is \
|
||||
forbidden since Catala does not provide recursion"
|
||||
ScopeName.format_t scope.Ast.scope_decl_name;
|
||||
ScopeName.Map.fold
|
||||
(fun used_scope pos g ->
|
||||
let edge = SDependencies.E.create used_scope pos scope_name in
|
||||
VMap.fold
|
||||
(fun used_def pos g ->
|
||||
let edge =
|
||||
SDependencies.E.create used_def pos (Scope scope_name)
|
||||
in
|
||||
SDependencies.add_edge_e g edge)
|
||||
used_scopes g)
|
||||
used_defs g)
|
||||
g scope.Ast.scope_decl_rules)
|
||||
prgm.program_scopes g
|
||||
|
||||
let check_for_cycle_in_scope (g : SDependencies.t) : unit =
|
||||
let check_for_cycle_in_defs (g : SDependencies.t) : unit =
|
||||
(* if there is a cycle, there will be an strongly connected component of
|
||||
cardinality > 1 *)
|
||||
let sccs = SSCC.scc_list g in
|
||||
@ -97,14 +161,12 @@ let check_for_cycle_in_scope (g : SDependencies.t) : unit =
|
||||
List.flatten
|
||||
(List.map
|
||||
(fun v ->
|
||||
let var_str, var_info =
|
||||
Format.asprintf "%a" ScopeName.format_t v, ScopeName.get_info v
|
||||
in
|
||||
let var_str, var_info = SVertex.to_string v, SVertex.info v in
|
||||
let succs = SDependencies.succ_e g v in
|
||||
let _, edge_pos, succ =
|
||||
List.find (fun (_, _, succ) -> List.mem succ scc) succs
|
||||
in
|
||||
let succ_str = Format.asprintf "%a" ScopeName.format_t succ in
|
||||
let succ_str = SVertex.to_string succ in
|
||||
[
|
||||
( Some ("Cycle variable " ^ var_str ^ ", declared:"),
|
||||
Marked.get_mark var_info );
|
||||
@ -119,7 +181,7 @@ let check_for_cycle_in_scope (g : SDependencies.t) : unit =
|
||||
Errors.raise_multispanned_error spans
|
||||
"Cyclic dependency detected between scopes!"
|
||||
|
||||
let get_scope_ordering (g : SDependencies.t) : ScopeName.t list =
|
||||
let get_defs_ordering (g : SDependencies.t) : SVertex.t list =
|
||||
List.rev (STopologicalTraversal.fold (fun sd acc -> sd :: acc) g [])
|
||||
|
||||
module TVertex = struct
|
||||
|
@ -22,14 +22,16 @@ open Shared_ast
|
||||
|
||||
(** {1 Scope dependencies} *)
|
||||
|
||||
type vertex = Scope of ScopeName.t | Topdef of TopdefName.t
|
||||
|
||||
(** On the edges, the label is the expression responsible for the use of the
|
||||
function *)
|
||||
module SDependencies :
|
||||
Graph.Sig.P with type V.t = ScopeName.t and type E.label = Pos.t
|
||||
Graph.Sig.P with type V.t = vertex and type E.label = Pos.t
|
||||
|
||||
val build_program_dep_graph : 'm Ast.program -> SDependencies.t
|
||||
val check_for_cycle_in_scope : SDependencies.t -> unit
|
||||
val get_scope_ordering : SDependencies.t -> ScopeName.t list
|
||||
val check_for_cycle_in_defs : SDependencies.t -> unit
|
||||
val get_defs_ordering : SDependencies.t -> vertex list
|
||||
|
||||
(** {1 Type dependencies} *)
|
||||
|
||||
|
@ -71,6 +71,7 @@ let rec translate_expr (ctx : ctx) (e : Desugared.Ast.expr) :
|
||||
| WholeVar _ -> failwith "should not happen"
|
||||
| States states -> Marked.same_mark_as (List.assoc state states) s_var))
|
||||
m
|
||||
| ELocation (ToplevelVar v) -> Expr.elocation (ToplevelVar v) m
|
||||
| EVar v -> Expr.evar (Var.Map.find v ctx.var_mapping) m
|
||||
| EStruct { name; fields } ->
|
||||
Expr.estruct name (StructField.Map.map (translate_expr ctx) fields) m
|
||||
@ -93,6 +94,9 @@ let rec translate_expr (ctx : ctx) (e : Desugared.Ast.expr) :
|
||||
name
|
||||
in
|
||||
Expr.estructaccess e' field name m
|
||||
| ETuple es -> Expr.etuple (List.map (translate_expr ctx) es) m
|
||||
| ETupleAccess { e; index; size } ->
|
||||
Expr.etupleaccess (translate_expr ctx e) index size m
|
||||
| EInj { e; cons; name } -> Expr.einj (translate_expr ctx e) cons name m
|
||||
| EMatch { e; name; cases } ->
|
||||
Expr.ematch (translate_expr ctx e) name
|
||||
@ -724,6 +728,10 @@ let translate_program (pgrm : Desugared.Ast.program) : untyped Ast.program =
|
||||
pgrm.Desugared.Ast.program_ctx.ctx_scopes
|
||||
in
|
||||
{
|
||||
Ast.program_topdefs =
|
||||
TopdefName.Map.map
|
||||
(fun (e, ty) -> Expr.unbox (translate_expr ctx e), ty)
|
||||
pgrm.program_topdefs;
|
||||
Ast.program_scopes =
|
||||
ScopeName.Map.map (translate_scope ctx) pgrm.program_scopes;
|
||||
program_ctx = { pgrm.program_ctx with ctx_scopes };
|
||||
|
@ -77,7 +77,7 @@ let scope ?(debug = false) ctx fmt (name, decl) =
|
||||
(Print.typ ctx) typ Print.punctuation "="
|
||||
(fun fmt e ->
|
||||
match Marked.unmark loc with
|
||||
| SubScopeVar _ -> Print.expr ctx fmt e
|
||||
| SubScopeVar _ | ToplevelVar _ -> Print.expr ctx fmt e
|
||||
| ScopelangScopeVar v -> (
|
||||
match
|
||||
Marked.unmark
|
||||
@ -98,6 +98,24 @@ let scope ?(debug = false) ctx fmt (name, decl) =
|
||||
SubScopeName.format_t subscope_name Print.punctuation "]"))
|
||||
decl.scope_decl_rules
|
||||
|
||||
let print_topdef ctx ppf name (e, ty) =
|
||||
Format.pp_open_vbox ppf 2;
|
||||
let () =
|
||||
Format.pp_open_hovbox ppf 2;
|
||||
Print.keyword ppf "let";
|
||||
Format.pp_print_space ppf ();
|
||||
TopdefName.format_t ppf name;
|
||||
Print.punctuation ppf ":";
|
||||
Format.pp_print_space ppf ();
|
||||
Print.typ ctx ppf ty;
|
||||
Format.pp_print_space ppf ();
|
||||
Print.punctuation ppf "=";
|
||||
Format.pp_close_box ppf ()
|
||||
in
|
||||
Format.pp_print_cut ppf ();
|
||||
Print.expr ctx ppf e;
|
||||
Format.pp_close_box ppf ()
|
||||
|
||||
let program ?(debug : bool = false) (fmt : Format.formatter) (p : 'm program) :
|
||||
unit =
|
||||
let ctx = p.program_ctx in
|
||||
@ -116,6 +134,11 @@ let program ?(debug : bool = false) (fmt : Format.formatter) (p : 'm program) :
|
||||
enum ctx fmt n e;
|
||||
pp_sep fmt ())
|
||||
ctx.ctx_enums;
|
||||
TopdefName.Map.iter
|
||||
(fun name def ->
|
||||
print_topdef ctx fmt name def;
|
||||
pp_sep fmt ())
|
||||
p.program_topdefs;
|
||||
Format.pp_print_list ~pp_sep (scope ~debug ctx) fmt
|
||||
(ScopeName.Map.bindings p.program_scopes);
|
||||
Format.pp_close_box fmt ()
|
||||
|
@ -23,6 +23,7 @@
|
||||
open Catala_utils
|
||||
module Runtime = Runtime_ocaml.Runtime
|
||||
module ScopeName = Uid.Gen ()
|
||||
module TopdefName = Uid.Gen ()
|
||||
module StructName = Uid.Gen ()
|
||||
module StructField = Uid.Gen ()
|
||||
module EnumName = Uid.Gen ()
|
||||
@ -245,6 +246,9 @@ type 'a glocation =
|
||||
| SubScopeVar :
|
||||
ScopeName.t * SubScopeName.t Marked.pos * ScopeVar.t Marked.pos
|
||||
-> [< desugared | scopelang ] glocation
|
||||
| ToplevelVar :
|
||||
TopdefName.t Marked.pos
|
||||
-> [< desugared | scopelang ] glocation
|
||||
|
||||
type ('a, 't) gexpr = (('a, 't) naked_gexpr, 't) Marked.t
|
||||
(** General expressions: groups all expression cases of the different ASTs, and
|
||||
@ -301,6 +305,13 @@ and ('a, 't) naked_gexpr =
|
||||
cases : ('a, 't) gexpr EnumConstructor.Map.t;
|
||||
}
|
||||
-> ('a any, 't) naked_gexpr
|
||||
| ETuple : ('a, 't) gexpr list -> ('a any, 't) naked_gexpr
|
||||
| ETupleAccess : {
|
||||
e : ('a, 't) gexpr;
|
||||
index : int;
|
||||
size : int;
|
||||
}
|
||||
-> ('a any, 't) naked_gexpr
|
||||
(* Early stages *)
|
||||
| ELocation :
|
||||
'a glocation
|
||||
@ -337,13 +348,6 @@ and ('a, 't) naked_gexpr =
|
||||
('a, 't) gexpr
|
||||
-> (([< desugared | scopelang | dcalc ] as 'a), 't) naked_gexpr
|
||||
(* Lambda calculus with exceptions *)
|
||||
| ETuple : ('a, 't) gexpr list -> ((lcalc as 'a), 't) naked_gexpr
|
||||
| ETupleAccess : {
|
||||
e : ('a, 't) gexpr;
|
||||
index : int;
|
||||
size : int;
|
||||
}
|
||||
-> ((lcalc as 'a), 't) naked_gexpr
|
||||
| ERaise : except -> ((lcalc as 'a), 't) naked_gexpr
|
||||
| ECatch : {
|
||||
body : ('a, 't) gexpr;
|
||||
@ -409,6 +413,7 @@ type 'e scope_let = {
|
||||
scope_let_typ : typ;
|
||||
scope_let_expr : 'e;
|
||||
scope_let_next : ('e, 'e scope_body_expr) binder;
|
||||
(* todo ? Factorise the code_item _list type below and use it here *)
|
||||
scope_let_pos : Pos.t;
|
||||
}
|
||||
constraint 'e = (_ any, _ mark) gexpr
|
||||
@ -434,19 +439,15 @@ type 'e scope_body = {
|
||||
a result expression that uses the let-binded variables. The first binder is
|
||||
the argument of type [scope_body_input_struct]. *)
|
||||
|
||||
type 'e scope_def = {
|
||||
scope_name : ScopeName.t;
|
||||
scope_body : 'e scope_body;
|
||||
scope_next : ('e, 'e scopes) binder;
|
||||
}
|
||||
constraint 'e = (_ any, _ mark) gexpr
|
||||
type 'e code_item =
|
||||
| ScopeDef of ScopeName.t * 'e scope_body
|
||||
| Topdef of TopdefName.t * typ * 'e
|
||||
|
||||
(** Finally, we do the same transformation for the whole program for the kinded
|
||||
lets. This permit us to use bindlib variables for scopes names. *)
|
||||
and 'e scopes =
|
||||
(* A chained list, but with a binder for each element into the next: [x := let a
|
||||
= e1 in e2] is thus [Cons (e1, {a. Cons (e2, {x. Nil})})] *)
|
||||
type 'e code_item_list =
|
||||
| Nil
|
||||
| ScopeDef of 'e scope_def
|
||||
constraint 'e = (_ any, _ mark) gexpr
|
||||
| Cons of 'e code_item * ('e, 'e code_item_list) binder
|
||||
|
||||
type struct_ctx = typ StructField.Map.t StructName.Map.t
|
||||
type enum_ctx = typ EnumConstructor.Map.t EnumName.Map.t
|
||||
@ -464,4 +465,4 @@ type decl_ctx = {
|
||||
ctx_scopes : scope_out_struct ScopeName.Map.t;
|
||||
}
|
||||
|
||||
type 'e program = { decl_ctx : decl_ctx; scopes : 'e scopes }
|
||||
type 'e program = { decl_ctx : decl_ctx; code_items : 'e code_item_list }
|
||||
|
@ -469,12 +469,15 @@ let compare_location
|
||||
SubScopeVar (_, (ysubindex, _), (ysubvar, _)) ) ->
|
||||
let c = SubScopeName.compare xsubindex ysubindex in
|
||||
if c = 0 then ScopeVar.compare xsubvar ysubvar else c
|
||||
| ToplevelVar (vx, _), ToplevelVar (vy, _) -> TopdefName.compare vx vy
|
||||
| DesugaredScopeVar _, _ -> -1
|
||||
| _, DesugaredScopeVar _ -> 1
|
||||
| ScopelangScopeVar _, _ -> -1
|
||||
| _, ScopelangScopeVar _ -> 1
|
||||
| SubScopeVar _, _ -> .
|
||||
| _, SubScopeVar _ -> .
|
||||
| SubScopeVar _, _ -> -1
|
||||
| _, SubScopeVar _ -> 1
|
||||
| ToplevelVar _, _ -> .
|
||||
| _, ToplevelVar _ -> .
|
||||
|
||||
let equal_location a b = compare_location a b = 0
|
||||
let equal_except ex1 ex2 = ex1 = ex2
|
||||
|
@ -43,10 +43,10 @@ val subst :
|
||||
('a, 't) gexpr list ->
|
||||
('a, 't) gexpr
|
||||
|
||||
val etuple : (lcalc, 't) boxed_gexpr list -> 't -> (lcalc, 't) boxed_gexpr
|
||||
val etuple : ('a any, 't) boxed_gexpr list -> 't -> ('a, 't) boxed_gexpr
|
||||
|
||||
val etupleaccess :
|
||||
(lcalc, 't) boxed_gexpr -> int -> int -> 't -> (lcalc, 't) boxed_gexpr
|
||||
('a any, 't) boxed_gexpr -> int -> int -> 't -> ('a, 't) boxed_gexpr
|
||||
|
||||
val earray : ('a any, 't) boxed_gexpr list -> 't -> ('a, 't) boxed_gexpr
|
||||
val elit : 'a any glit -> 't -> ('a, 't) boxed_gexpr
|
||||
@ -304,7 +304,7 @@ val make_default :
|
||||
- [<ex | false :- _>], when [ex] is a single exception, is rewritten as [ex] *)
|
||||
|
||||
val make_tuple :
|
||||
(lcalc, 'm mark) boxed_gexpr list -> 'm mark -> (lcalc, 'm mark) boxed_gexpr
|
||||
('a any, 'm mark) boxed_gexpr list -> 'm mark -> ('a, 'm mark) boxed_gexpr
|
||||
(** Builds a tuple; the mark argument is only used as witness and for position
|
||||
when building 0-uples *)
|
||||
|
||||
|
@ -66,6 +66,7 @@ let location (type a) (fmt : Format.formatter) (l : a glocation) : unit =
|
||||
| SubScopeVar (_, subindex, subvar) ->
|
||||
Format.fprintf fmt "%a.%a" SubScopeName.format_t (Marked.unmark subindex)
|
||||
ScopeVar.format_t (Marked.unmark subvar)
|
||||
| ToplevelVar v -> TopdefName.format_t fmt (Marked.unmark v)
|
||||
|
||||
let enum_constructor (fmt : Format.formatter) (c : EnumConstructor.t) : unit =
|
||||
Cli.format_with_style [ANSITerminal.magenta] fmt
|
||||
|
@ -17,19 +17,19 @@
|
||||
|
||||
open Definitions
|
||||
|
||||
let map_exprs ~f ~varf { scopes; decl_ctx } =
|
||||
let map_exprs ~f ~varf { code_items; decl_ctx } =
|
||||
Bindlib.box_apply
|
||||
(fun scopes -> { scopes; decl_ctx })
|
||||
(Scope.map_exprs ~f ~varf scopes)
|
||||
(fun code_items -> { code_items; decl_ctx })
|
||||
(Scope.map_exprs ~f ~varf code_items)
|
||||
|
||||
let get_scope_body { scopes; _ } scope =
|
||||
let get_scope_body { code_items; _ } scope =
|
||||
match
|
||||
Scope.fold_left ~init:None
|
||||
~f:(fun acc scope_def _ ->
|
||||
if ScopeName.equal scope_def.scope_name scope then
|
||||
Some scope_def.scope_body
|
||||
else acc)
|
||||
scopes
|
||||
~f:(fun acc item _ ->
|
||||
match item with
|
||||
| ScopeDef (name, body) when ScopeName.equal scope name -> Some body
|
||||
| _ -> acc)
|
||||
code_items
|
||||
with
|
||||
| None -> raise Not_found
|
||||
| Some body -> body
|
||||
@ -40,14 +40,14 @@ let untype : 'm. ('a, 'm mark) gexpr program -> ('a, untyped mark) gexpr program
|
||||
|
||||
let rec find_scope name vars = function
|
||||
| Nil -> raise Not_found
|
||||
| ScopeDef { scope_name; scope_body; _ } when scope_name = name ->
|
||||
List.rev vars, scope_body
|
||||
| ScopeDef { scope_next; _ } ->
|
||||
let var, next = Bindlib.unbind scope_next in
|
||||
| Cons (ScopeDef (n, body), _) when ScopeName.equal name n ->
|
||||
List.rev vars, body
|
||||
| Cons (_, next_bind) ->
|
||||
let var, next = Bindlib.unbind next_bind in
|
||||
find_scope name (var :: vars) next
|
||||
|
||||
let to_expr p main_scope =
|
||||
let _, main_scope_body = find_scope main_scope [] p.scopes in
|
||||
Scope.unfold p.decl_ctx p.scopes
|
||||
let _, main_scope_body = find_scope main_scope [] p.code_items in
|
||||
Scope.unfold p.decl_ctx p.code_items
|
||||
(Scope.get_body_mark main_scope_body)
|
||||
(ScopeName main_scope)
|
||||
|
@ -50,53 +50,72 @@ let map_exprs_in_lets :
|
||||
Bindlib.box_apply (fun res -> Result res) (Expr.Box.lift (f res)))
|
||||
scope_body_expr
|
||||
|
||||
let rec fold_left ~f ~init scopes =
|
||||
match scopes with
|
||||
let rec fold_left ~f ~init = function
|
||||
| Nil -> init
|
||||
| ScopeDef scope_def ->
|
||||
let var, next = Bindlib.unbind scope_def.scope_next in
|
||||
fold_left ~f ~init:(f init scope_def var) next
|
||||
| Cons (item, next_bind) ->
|
||||
let var, next = Bindlib.unbind next_bind in
|
||||
fold_left ~f ~init:(f init item var) next
|
||||
|
||||
let rec fold_right ~f ~init scopes =
|
||||
match scopes with
|
||||
let rec fold_right ~f ~init = function
|
||||
| Nil -> init
|
||||
| ScopeDef scope_def ->
|
||||
let var_next, next = Bindlib.unbind scope_def.scope_next in
|
||||
| Cons (item, next_bind) ->
|
||||
let var_next, next = Bindlib.unbind next_bind in
|
||||
let result_next = fold_right ~f ~init next in
|
||||
f scope_def var_next result_next
|
||||
f item var_next result_next
|
||||
|
||||
let map ~f scopes =
|
||||
fold_right
|
||||
~f:(fun scope_def var_next acc ->
|
||||
let new_def = f scope_def in
|
||||
let new_next = Bindlib.bind_var var_next acc in
|
||||
let rec map ~f ~varf = function
|
||||
| Nil -> Bindlib.box Nil
|
||||
| Cons (item, next_bind) ->
|
||||
let item = f item in
|
||||
let next_bind =
|
||||
let var, next = Bindlib.unbind next_bind in
|
||||
Bindlib.bind_var (varf var) (map ~f ~varf next)
|
||||
in
|
||||
Bindlib.box_apply2
|
||||
(fun new_def new_next ->
|
||||
ScopeDef { new_def with scope_next = new_next })
|
||||
new_def new_next)
|
||||
~init:(Bindlib.box Nil) scopes
|
||||
(fun item next_bind -> Cons (item, next_bind))
|
||||
item next_bind
|
||||
|
||||
let rec map_ctx ~f ~varf ctx = function
|
||||
| Nil -> Bindlib.box Nil
|
||||
| Cons (item, next_bind) ->
|
||||
let ctx, item = f ctx item in
|
||||
let next_bind =
|
||||
let var, next = Bindlib.unbind next_bind in
|
||||
Bindlib.bind_var (varf var) (map_ctx ~f ~varf ctx next)
|
||||
in
|
||||
Bindlib.box_apply2
|
||||
(fun item next_bind -> Cons (item, next_bind))
|
||||
item next_bind
|
||||
|
||||
let rec fold_map ~f ~varf ctx = function
|
||||
| Nil -> ctx, Bindlib.box Nil
|
||||
| Cons (item, next_bind) ->
|
||||
let var, next = Bindlib.unbind next_bind in
|
||||
let ctx, item = f ctx var item in
|
||||
let ctx, next = fold_map ~f ~varf ctx next in
|
||||
let next_bind = Bindlib.bind_var (varf var) next in
|
||||
( ctx,
|
||||
Bindlib.box_apply2
|
||||
(fun item next_bind -> Cons (item, next_bind))
|
||||
item next_bind )
|
||||
|
||||
let map_exprs ~f ~varf scopes =
|
||||
fold_right
|
||||
~f:(fun scope_def var_next acc ->
|
||||
let scope_input_var, scope_lets =
|
||||
Bindlib.unbind scope_def.scope_body.scope_body_expr
|
||||
in
|
||||
let f = function
|
||||
| ScopeDef (name, body) ->
|
||||
let scope_input_var, scope_lets = Bindlib.unbind body.scope_body_expr in
|
||||
let new_body_expr = map_exprs_in_lets ~f ~varf scope_lets in
|
||||
let new_body_expr =
|
||||
Bindlib.bind_var (varf scope_input_var) new_body_expr
|
||||
in
|
||||
let new_next = Bindlib.bind_var (varf var_next) acc in
|
||||
Bindlib.box_apply2
|
||||
(fun scope_body_expr scope_next ->
|
||||
ScopeDef
|
||||
{
|
||||
scope_def with
|
||||
scope_body = { scope_def.scope_body with scope_body_expr };
|
||||
scope_next;
|
||||
})
|
||||
new_body_expr new_next)
|
||||
~init:(Bindlib.box Nil) scopes
|
||||
Bindlib.box_apply
|
||||
(fun scope_body_expr -> ScopeDef (name, { body with scope_body_expr }))
|
||||
new_body_expr
|
||||
| Topdef (name, typ, expr) ->
|
||||
Bindlib.box_apply
|
||||
(fun e -> Topdef (name, typ, e))
|
||||
(Expr.Box.lift (f expr))
|
||||
in
|
||||
map ~f ~varf scopes
|
||||
|
||||
(* TODO: compute the expected body expr arrow type manually instead of [TAny]
|
||||
for double-checking types ? *)
|
||||
@ -164,7 +183,7 @@ let format
|
||||
|
||||
let rec unfold
|
||||
(ctx : decl_ctx)
|
||||
(s : 'e scopes)
|
||||
(s : 'e code_item_list)
|
||||
(mark : 'm mark)
|
||||
(main_scope : 'expr scope_name_or_var) : 'e boxed =
|
||||
match s with
|
||||
@ -172,23 +191,31 @@ let rec unfold
|
||||
match main_scope with
|
||||
| ScopeVar v -> Expr.make_var v mark
|
||||
| ScopeName _ -> failwith "should not happen")
|
||||
| ScopeDef { scope_name; scope_body; scope_next } ->
|
||||
let scope_var, scope_next = Bindlib.unbind scope_next in
|
||||
let scope_pos = Marked.get_mark (ScopeName.get_info scope_name) in
|
||||
let scope_body_mark = get_body_mark scope_body in
|
||||
let main_scope =
|
||||
| Cons (item, next_bind) ->
|
||||
let var, next = Bindlib.unbind next_bind in
|
||||
let typ, expr, pos, is_main =
|
||||
match item with
|
||||
| ScopeDef (name, body) ->
|
||||
let pos = Marked.get_mark (ScopeName.get_info name) in
|
||||
let body_mark = get_body_mark body in
|
||||
let is_main =
|
||||
match main_scope with
|
||||
| ScopeVar v -> ScopeVar v
|
||||
| ScopeName n ->
|
||||
if ScopeName.compare n scope_name = 0 then ScopeVar scope_var
|
||||
else ScopeName n
|
||||
| ScopeName n -> ScopeName.equal n name
|
||||
| ScopeVar _ -> false
|
||||
in
|
||||
Expr.make_let_in scope_var
|
||||
(build_typ_from_sig ctx scope_body.scope_body_input_struct
|
||||
scope_body.scope_body_output_struct scope_pos)
|
||||
(to_expr ctx scope_body scope_body_mark)
|
||||
(unfold ctx scope_next mark main_scope)
|
||||
scope_pos
|
||||
let typ =
|
||||
build_typ_from_sig ctx body.scope_body_input_struct
|
||||
body.scope_body_output_struct pos
|
||||
in
|
||||
let expr = to_expr ctx body body_mark in
|
||||
typ, expr, pos, is_main
|
||||
| Topdef (name, typ, expr) ->
|
||||
let pos = Marked.get_mark (TopdefName.get_info name) in
|
||||
typ, Expr.rebox expr, pos, false
|
||||
in
|
||||
let main_scope = if is_main then ScopeVar var else main_scope in
|
||||
let next = unfold ctx next mark main_scope in
|
||||
Expr.make_let_in var typ expr next pos
|
||||
|
||||
let rec free_vars_body_expr scope_lets =
|
||||
match scope_lets with
|
||||
@ -198,14 +225,15 @@ let rec free_vars_body_expr scope_lets =
|
||||
Var.Set.union (Expr.free_vars e)
|
||||
(Var.Set.remove v (free_vars_body_expr body))
|
||||
|
||||
let free_vars_body scope_body =
|
||||
let { scope_body_expr = binder; _ } = scope_body in
|
||||
let v, body = Bindlib.unbind binder in
|
||||
let free_vars_item = function
|
||||
| ScopeDef (_, { scope_body_expr; _ }) ->
|
||||
let v, body = Bindlib.unbind scope_body_expr in
|
||||
Var.Set.remove v (free_vars_body_expr body)
|
||||
| Topdef (_, _, expr) -> Expr.free_vars expr
|
||||
|
||||
let rec free_vars scopes =
|
||||
match scopes with
|
||||
| Nil -> Var.Set.empty
|
||||
| ScopeDef { scope_body = body; scope_next = next; _ } ->
|
||||
let v, next = Bindlib.unbind next in
|
||||
Var.Set.union (Var.Set.remove v (free_vars next)) (free_vars_body body)
|
||||
| Cons (item, next_bind) ->
|
||||
let v, next = Bindlib.unbind next_bind in
|
||||
Var.Set.union (Var.Set.remove v (free_vars next)) (free_vars_item item)
|
||||
|
@ -15,7 +15,8 @@
|
||||
License for the specific language governing permissions and limitations under
|
||||
the License. *)
|
||||
|
||||
(** Functions handling the scope structures of [shared_ast] *)
|
||||
(** Functions handling the code item structures of [shared_ast], in particular
|
||||
the scopes *)
|
||||
|
||||
open Catala_utils
|
||||
open Definitions
|
||||
@ -49,18 +50,18 @@ val map_exprs_in_lets :
|
||||
'expr2 scope_body_expr Bindlib.box
|
||||
|
||||
val fold_left :
|
||||
f:('a -> 'expr1 scope_def -> 'expr1 Var.t -> 'a) ->
|
||||
f:('a -> 'expr1 code_item -> 'expr1 Var.t -> 'a) ->
|
||||
init:'a ->
|
||||
'expr1 scopes ->
|
||||
'expr1 code_item_list ->
|
||||
'a
|
||||
(** Usage: [fold_left ~f:(fun acc scope_def scope_var -> ...) ~init scope_def],
|
||||
where [scope_var] is the variable bound to the scope in the next scopes to
|
||||
be examined. *)
|
||||
(** Usage: [fold_left ~f:(fun acc code_def code_var -> ...) ~init code_def],
|
||||
where [code_var] is the variable bound to the code item in the next code
|
||||
items to be examined. *)
|
||||
|
||||
val fold_right :
|
||||
f:('expr1 scope_def -> 'expr1 Var.t -> 'a -> 'a) ->
|
||||
f:('expr1 code_item -> 'expr1 Var.t -> 'a -> 'a) ->
|
||||
init:'a ->
|
||||
'expr1 scopes ->
|
||||
'expr1 code_item_list ->
|
||||
'a
|
||||
(** Usage:
|
||||
[fold_right_scope ~f:(fun scope_def scope_var acc -> ...) ~init scope_def],
|
||||
@ -68,15 +69,32 @@ val fold_right :
|
||||
be examined (which are before in the program order). *)
|
||||
|
||||
val map :
|
||||
f:('e scope_def -> 'e scope_def Bindlib.box) ->
|
||||
'e scopes ->
|
||||
'e scopes Bindlib.box
|
||||
f:('e1 code_item -> 'e2 code_item Bindlib.box) ->
|
||||
varf:('e1 Var.t -> 'e2 Var.t) ->
|
||||
'e1 code_item_list ->
|
||||
'e2 code_item_list Bindlib.box
|
||||
|
||||
val map_ctx :
|
||||
f:('ctx -> 'e1 code_item -> 'ctx * 'e2 code_item Bindlib.box) ->
|
||||
varf:('e1 Var.t -> 'e2 Var.t) ->
|
||||
'ctx ->
|
||||
'e1 code_item_list ->
|
||||
'e2 code_item_list Bindlib.box
|
||||
(** Similar to [map], but a context is passed left-to-right through the given
|
||||
function *)
|
||||
|
||||
val fold_map :
|
||||
f:('ctx -> 'e1 Var.t -> 'e1 code_item -> 'ctx * 'e2 code_item Bindlib.box) ->
|
||||
varf:('e1 Var.t -> 'e2 Var.t) ->
|
||||
'ctx ->
|
||||
'e1 code_item_list ->
|
||||
'ctx * 'e2 code_item_list Bindlib.box
|
||||
|
||||
val map_exprs :
|
||||
f:('expr1 -> 'expr2 boxed) ->
|
||||
varf:('expr1 Var.t -> 'expr2 Var.t) ->
|
||||
'expr1 scopes ->
|
||||
'expr2 scopes Bindlib.box
|
||||
'expr1 code_item_list ->
|
||||
'expr2 code_item_list Bindlib.box
|
||||
(** This is the main map visitor for all the expressions inside all the scopes
|
||||
of the program. *)
|
||||
|
||||
@ -103,7 +121,7 @@ type 'e scope_name_or_var = ScopeName of ScopeName.t | ScopeVar of 'e Var.t
|
||||
|
||||
val unfold :
|
||||
decl_ctx ->
|
||||
((_, 'm mark) gexpr as 'e) scopes ->
|
||||
((_, 'm mark) gexpr as 'e) code_item_list ->
|
||||
'm mark ->
|
||||
'e scope_name_or_var ->
|
||||
'e boxed
|
||||
@ -116,5 +134,5 @@ val build_typ_from_sig :
|
||||
(** {2 Analysis and tests} *)
|
||||
|
||||
val free_vars_body_expr : 'e scope_body_expr -> 'e Var.Set.t
|
||||
val free_vars_body : 'e scope_body -> 'e Var.Set.t
|
||||
val free_vars : 'e scopes -> 'e Var.Set.t
|
||||
val free_vars_item : 'e code_item -> 'e Var.Set.t
|
||||
val free_vars : 'e code_item_list -> 'e Var.Set.t
|
||||
|
@ -276,6 +276,7 @@ module Env = struct
|
||||
vars : ('e, unionfind_typ) Var.Map.t;
|
||||
scope_vars : A.typ A.ScopeVar.Map.t;
|
||||
scopes : A.typ A.ScopeVar.Map.t A.ScopeName.Map.t;
|
||||
toplevel_vars : A.typ A.TopdefName.Map.t;
|
||||
}
|
||||
|
||||
let empty =
|
||||
@ -283,10 +284,12 @@ module Env = struct
|
||||
vars = Var.Map.empty;
|
||||
scope_vars = A.ScopeVar.Map.empty;
|
||||
scopes = A.ScopeName.Map.empty;
|
||||
toplevel_vars = A.TopdefName.Map.empty;
|
||||
}
|
||||
|
||||
let get t v = Var.Map.find_opt v t.vars
|
||||
let get_scope_var t sv = A.ScopeVar.Map.find_opt sv t.scope_vars
|
||||
let get_toplevel_var t v = A.TopdefName.Map.find_opt v t.toplevel_vars
|
||||
|
||||
let get_subscope_out_var t scope var =
|
||||
Option.bind (A.ScopeName.Map.find_opt scope t.scopes) (fun vmap ->
|
||||
@ -301,6 +304,9 @@ module Env = struct
|
||||
let add_scope scope_name ~vars t =
|
||||
{ t with scopes = A.ScopeName.Map.add scope_name vars t.scopes }
|
||||
|
||||
let add_toplevel_var v typ t =
|
||||
{ t with toplevel_vars = A.TopdefName.Map.add v typ t.toplevel_vars }
|
||||
|
||||
let open_scope scope_name t =
|
||||
let scope_vars =
|
||||
A.ScopeVar.Map.union
|
||||
@ -361,6 +367,7 @@ and typecheck_expr_top_down :
|
||||
Env.get_scope_var env (Marked.unmark v)
|
||||
| SubScopeVar (scope, _, v) ->
|
||||
Env.get_subscope_out_var env scope (Marked.unmark v)
|
||||
| ToplevelVar v -> Env.get_toplevel_var env (Marked.unmark v)
|
||||
in
|
||||
let ty =
|
||||
match ty_opt with
|
||||
@ -777,7 +784,9 @@ let scope_body ctx env body =
|
||||
let var, e = Bindlib.unbind body.A.scope_body_expr in
|
||||
let env = Env.add var ty_in env in
|
||||
let e' = scope_body_expr ctx env ty_out e in
|
||||
( Bindlib.bind_var (Var.translate var) e',
|
||||
( Bindlib.box_apply
|
||||
(fun scope_body_expr -> { body with scope_body_expr })
|
||||
(Bindlib.bind_var (Var.translate var) e'),
|
||||
UnionFind.make
|
||||
(Marked.mark
|
||||
(get_pos body.A.scope_body_output_struct)
|
||||
@ -785,24 +794,29 @@ let scope_body ctx env body =
|
||||
|
||||
let rec scopes ctx env = function
|
||||
| A.Nil -> Bindlib.box A.Nil
|
||||
| A.ScopeDef def ->
|
||||
let body_e, ty_scope = scope_body ctx env def.scope_body in
|
||||
let scope_next =
|
||||
let scope_var, next = Bindlib.unbind def.scope_next in
|
||||
let env = Env.add scope_var ty_scope env in
|
||||
let next' = scopes ctx env next in
|
||||
Bindlib.bind_var (Var.translate scope_var) next'
|
||||
| A.Cons (item, next_bind) ->
|
||||
let var, next = Bindlib.unbind next_bind in
|
||||
let env, def =
|
||||
match item with
|
||||
| A.ScopeDef (name, body) ->
|
||||
let body_e, ty_scope = scope_body ctx env body in
|
||||
( Env.add var ty_scope env,
|
||||
Bindlib.box_apply (fun body -> A.ScopeDef (name, body)) body_e )
|
||||
| A.Topdef (name, typ, e) ->
|
||||
let e' = expr_raw ctx ~env ~typ e in
|
||||
let uf = (Marked.get_mark e').uf in
|
||||
let e' = Expr.map_marks ~f:get_ty_mark e' in
|
||||
( Env.add var uf env,
|
||||
Bindlib.box_apply
|
||||
(fun e -> A.Topdef (name, typ, e))
|
||||
(Expr.Box.lift e') )
|
||||
in
|
||||
Bindlib.box_apply2
|
||||
(fun scope_body_expr scope_next ->
|
||||
A.ScopeDef
|
||||
{
|
||||
def with
|
||||
scope_body = { def.scope_body with scope_body_expr };
|
||||
scope_next;
|
||||
})
|
||||
body_e scope_next
|
||||
let next' = scopes ctx env next in
|
||||
let next_bind' = Bindlib.bind_var (Var.translate var) next' in
|
||||
Bindlib.box_apply2 (fun item next -> A.Cons (item, next)) def next_bind'
|
||||
|
||||
let program prg =
|
||||
let scopes = Bindlib.unbox (scopes prg.A.decl_ctx Env.empty prg.A.scopes) in
|
||||
{ prg with scopes }
|
||||
let code_items =
|
||||
Bindlib.unbox (scopes prg.A.decl_ctx Env.empty prg.A.code_items)
|
||||
in
|
||||
{ prg with code_items }
|
||||
|
@ -24,6 +24,7 @@ module Env : sig
|
||||
|
||||
val empty : 'e t
|
||||
val add_var : 'e Var.t -> typ -> 'e t -> 'e t
|
||||
val add_toplevel_var : TopdefName.t -> typ -> 'e t -> 'e t
|
||||
val add_scope_var : ScopeVar.t -> typ -> 'e t -> 'e t
|
||||
val add_scope : ScopeName.t -> vars:typ ScopeVar.Map.t -> 'e t -> 'e t
|
||||
val open_scope : ScopeName.t -> 'e t -> 'e t
|
||||
|
@ -433,7 +433,7 @@ and naked_expression =
|
||||
| CollectionOp of collection_op * expression
|
||||
| MemCollection of expression * expression
|
||||
| TestMatchCase of expression * match_case_pattern Marked.pos
|
||||
| FunCall of expression * expression
|
||||
| FunCall of expression * expression list
|
||||
| ScopeCall of
|
||||
(path * uident Marked.pos) Marked.pos
|
||||
* (lident Marked.pos * expression) list
|
||||
@ -737,17 +737,46 @@ type scope_decl = {
|
||||
name = "scope_decl_iter";
|
||||
}]
|
||||
|
||||
type top_def = {
|
||||
topdef_name : lident Marked.pos;
|
||||
topdef_args : (lident Marked.pos * base_typ_data Marked.pos) list;
|
||||
(** Empty list if this is not a function *)
|
||||
topdef_type : base_typ_data Marked.pos;
|
||||
(** Output type if this is a function *)
|
||||
topdef_expr : expression;
|
||||
}
|
||||
[@@deriving
|
||||
visitors
|
||||
{
|
||||
variety = "map";
|
||||
ancestors = ["lident_map"; "typ_map"; "expression_map"];
|
||||
name = "top_def_map";
|
||||
},
|
||||
visitors
|
||||
{
|
||||
variety = "iter";
|
||||
ancestors = ["lident_iter"; "typ_iter"; "expression_iter"];
|
||||
name = "top_def_iter";
|
||||
}]
|
||||
|
||||
type code_item =
|
||||
| ScopeUse of scope_use
|
||||
| ScopeDecl of scope_decl
|
||||
| StructDecl of struct_decl
|
||||
| EnumDecl of enum_decl
|
||||
| Topdef of top_def
|
||||
[@@deriving
|
||||
visitors
|
||||
{
|
||||
variety = "map";
|
||||
ancestors =
|
||||
["scope_decl_map"; "enum_decl_map"; "struct_decl_map"; "scope_use_map"];
|
||||
[
|
||||
"scope_decl_map";
|
||||
"enum_decl_map";
|
||||
"struct_decl_map";
|
||||
"scope_use_map";
|
||||
"top_def_map";
|
||||
];
|
||||
name = "code_item_map";
|
||||
},
|
||||
visitors
|
||||
@ -759,6 +788,7 @@ type code_item =
|
||||
"enum_decl_iter";
|
||||
"struct_decl_iter";
|
||||
"scope_use_iter";
|
||||
"top_def_iter";
|
||||
];
|
||||
name = "code_item_iter";
|
||||
}]
|
||||
|
@ -601,14 +601,16 @@ let rec lex_code (lexbuf : lexbuf) : token =
|
||||
Buffer.add_string cents (String.make (2 - Buffer.length cents) '0');
|
||||
L.update_acc lexbuf;
|
||||
MONEY_AMOUNT (Buffer.contents units, Buffer.contents cents)
|
||||
| Rep (digit, 4), '-', Rep (digit, 2), '-', Rep (digit, 2) ->
|
||||
| '|', Rep (digit, 4), '-', Rep (digit, 2), '-', Rep (digit, 2), '|' ->
|
||||
let rex =
|
||||
Re.(compile @@ whole_string @@ seq [
|
||||
char '|';
|
||||
group (repn digit 4 None);
|
||||
char '-';
|
||||
group (repn digit 2 None);
|
||||
char '-';
|
||||
group (repn digit 2 None);
|
||||
char '|';
|
||||
])
|
||||
in
|
||||
let date_parts = R.get_substring (R.exec ~rex (Utf8.lexeme lexbuf)) in
|
||||
@ -687,9 +689,6 @@ let rec lex_code (lexbuf : lexbuf) : token =
|
||||
| ']' ->
|
||||
L.update_acc lexbuf;
|
||||
RBRACKET
|
||||
| '|' ->
|
||||
L.update_acc lexbuf;
|
||||
BAR
|
||||
| ':' ->
|
||||
L.update_acc lexbuf;
|
||||
COLON
|
||||
@ -705,6 +704,9 @@ let rec lex_code (lexbuf : lexbuf) : token =
|
||||
| '.' ->
|
||||
L.update_acc lexbuf;
|
||||
DOT
|
||||
| ',' ->
|
||||
L.update_acc lexbuf;
|
||||
COMMA
|
||||
| uppercase, Star (uppercase | lowercase | digit | '_' | '\'') ->
|
||||
(* Name of constructor *)
|
||||
L.update_acc lexbuf;
|
||||
|
@ -84,7 +84,6 @@ let token_list_language_agnostic : (string * token) list =
|
||||
"-", MINUS KPoly;
|
||||
"*", MULT KPoly;
|
||||
"/", DIV KPoly;
|
||||
"|", BAR;
|
||||
":", COLON;
|
||||
";", SEMICOLON;
|
||||
"--", ALT;
|
||||
|
File diff suppressed because it is too large
Load Diff
@ -38,6 +38,7 @@ end>
|
||||
%left PLUS MINUS PLUSPLUS
|
||||
%left MULT DIV
|
||||
%right apply OF CONTAINS FOR SUCH WITH
|
||||
%right COMMA
|
||||
%right unop_expr
|
||||
%right CONTENT
|
||||
%nonassoc UIDENT
|
||||
@ -181,9 +182,9 @@ let naked_expression ==
|
||||
| e = struct_or_enum_inject ; <>
|
||||
| e1 = expression ;
|
||||
OF ;
|
||||
e2 = expression ; {
|
||||
FunCall (e1, e2)
|
||||
} %prec apply
|
||||
args = funcall_args ; {
|
||||
FunCall (e1, args)
|
||||
}
|
||||
| OUTPUT ; OF ;
|
||||
c = addpos(quident) ;
|
||||
fields = option(scope_call_args) ; {
|
||||
@ -303,7 +304,7 @@ let literal :=
|
||||
money_amount_cents = cents;
|
||||
}
|
||||
}
|
||||
| BAR ; d = DATE_LITERAL ; BAR ; {
|
||||
| d = DATE_LITERAL ; {
|
||||
let (y,m,d) = d in
|
||||
LDate {
|
||||
literal_date_year = y;
|
||||
@ -322,6 +323,10 @@ let scope_call_args ==
|
||||
fields
|
||||
}
|
||||
|
||||
let funcall_args :=
|
||||
| e = expression; { [e] } %prec apply
|
||||
| e = expression; COMMA; el = funcall_args ; { e :: el }
|
||||
|
||||
let minmax ==
|
||||
| MAXIMUM ; { true }
|
||||
| MINIMUM ; { false }
|
||||
@ -596,6 +601,13 @@ let enum_decl_line :=
|
||||
}
|
||||
}
|
||||
|
||||
let var_content ==
|
||||
| ~ = lident ; CONTENT ; ty = addpos(typ) ; <>
|
||||
let depends_stance ==
|
||||
| DEPENDS ; args = separated_nonempty_list(COMMA,var_content) ; <>
|
||||
| DEPENDS ; LPAREN ; args = separated_nonempty_list(COMMA,var_content) ; RPAREN ; <>
|
||||
| { [] }
|
||||
|
||||
let code_item :=
|
||||
| SCOPE ; c = uident ;
|
||||
e = option(preceded(UNDER_CONDITION,expression)) ;
|
||||
@ -627,6 +639,17 @@ let code_item :=
|
||||
enum_decl_cases = cases;
|
||||
}
|
||||
}
|
||||
| DECLARATION ; name = lident ;
|
||||
CONTENT ; ty = addpos(typ) ;
|
||||
args = depends_stance ;
|
||||
DEFINED_AS ; e = expression ; {
|
||||
Topdef {
|
||||
topdef_name = name;
|
||||
topdef_args = args;
|
||||
topdef_type = ty;
|
||||
topdef_expr = e;
|
||||
}
|
||||
}
|
||||
|
||||
let code :=
|
||||
| code = list(addpos(code_item)) ; <>
|
||||
|
@ -37,11 +37,11 @@
|
||||
%token<string * string> DECIMAL_LITERAL
|
||||
%token<string * string> MONEY_AMOUNT
|
||||
%token BEGIN_CODE TEXT
|
||||
%token COLON ALT DATA BAR
|
||||
%token COLON ALT DATA
|
||||
%token OF INTEGER COLLECTION CONTAINS AMONG
|
||||
%token RULE CONDITION DEFINED_AS
|
||||
%token<Ast.op_kind> LESSER GREATER LESSER_EQUAL GREATER_EQUAL
|
||||
%token LET EXISTS IN SUCH THAT
|
||||
%token LET EXISTS IN SUCH THAT COMMA
|
||||
%token DOT AND OR XOR LPAREN RPAREN EQUAL
|
||||
%token CARDINAL ASSERTION FIXED BY YEAR MONTH DAY
|
||||
%token<Ast.op_kind> PLUS MINUS MULT DIV
|
||||
|
@ -370,27 +370,29 @@ let rec generate_verification_conditions_scope_body_expr
|
||||
in
|
||||
new_ctx, vc_list @ new_vcs, assert_list @ new_asserts
|
||||
|
||||
let rec generate_verification_conditions_scopes
|
||||
let generate_verification_conditions_code_items
|
||||
(decl_ctx : decl_ctx)
|
||||
(scopes : 'm expr scopes)
|
||||
(code_items : 'm expr code_item_list)
|
||||
(s : ScopeName.t option) : verification_condition list =
|
||||
match scopes with
|
||||
| Nil -> []
|
||||
| ScopeDef scope_def ->
|
||||
Scope.fold_left
|
||||
~f:(fun vcs item _ ->
|
||||
match item with
|
||||
| Topdef _ -> []
|
||||
| ScopeDef (name, body) ->
|
||||
let is_selected_scope =
|
||||
match s with
|
||||
| Some s when ScopeName.compare s scope_def.scope_name = 0 -> true
|
||||
| Some s when ScopeName.equal s name -> true
|
||||
| None -> true
|
||||
| _ -> false
|
||||
in
|
||||
let vcs =
|
||||
let new_vcs =
|
||||
if is_selected_scope then
|
||||
let _scope_input_var, scope_body_expr =
|
||||
Bindlib.unbind scope_def.scope_body.scope_body_expr
|
||||
Bindlib.unbind body.scope_body_expr
|
||||
in
|
||||
let ctx =
|
||||
{
|
||||
current_scope_name = scope_def.scope_name;
|
||||
current_scope_name = name;
|
||||
decl = decl_ctx;
|
||||
input_vars = [];
|
||||
scope_variables_typs =
|
||||
@ -402,22 +404,28 @@ let rec generate_verification_conditions_scopes
|
||||
}
|
||||
in
|
||||
let _, vcs, asserts =
|
||||
generate_verification_conditions_scope_body_expr ctx scope_body_expr
|
||||
generate_verification_conditions_scope_body_expr ctx
|
||||
scope_body_expr
|
||||
in
|
||||
let combined_assert =
|
||||
conjunction_exprs asserts
|
||||
(Typed
|
||||
{ pos = Pos.no_pos; ty = Marked.mark Pos.no_pos (TLit TBool) })
|
||||
{
|
||||
pos = Pos.no_pos;
|
||||
ty = Marked.mark Pos.no_pos (TLit TBool);
|
||||
})
|
||||
in
|
||||
List.map (fun vc -> { vc with vc_asserts = combined_assert }) vcs
|
||||
else []
|
||||
in
|
||||
let _scope_var, next = Bindlib.unbind scope_def.scope_next in
|
||||
generate_verification_conditions_scopes decl_ctx next s @ vcs
|
||||
new_vcs @ vcs)
|
||||
~init:[] code_items
|
||||
|
||||
let generate_verification_conditions (p : 'm program) (s : ScopeName.t option) :
|
||||
verification_condition list =
|
||||
let vcs = generate_verification_conditions_scopes p.decl_ctx p.scopes s in
|
||||
let vcs =
|
||||
generate_verification_conditions_code_items p.decl_ctx p.code_items s
|
||||
in
|
||||
(* We sort this list by scope name and then variable name to ensure consistent
|
||||
output for testing*)
|
||||
List.sort
|
||||
|
@ -676,6 +676,8 @@ and translate_expr (ctx : context) (vc : typed expr) : context * Expr.expr =
|
||||
in
|
||||
let ctx, s = translate_expr ctx e in
|
||||
ctx, Expr.mk_app ctx.ctx_z3 accessor [s]
|
||||
| ETuple _ -> failwith "[Z3 encoding] ETuple unsupported"
|
||||
| ETupleAccess _ -> failwith "[Z3 encoding] ETupleAccess unsupported"
|
||||
| EInj { e; cons; name } ->
|
||||
(* This node corresponds to creating a value for the enumeration [en], by
|
||||
calling the [idx]-th constructor of enum [en], with argument [e] *)
|
||||
|
Binary file not shown.
@ -358,6 +358,7 @@
|
||||
match expr with pattern
|
||||
-- Case1 of x: ...
|
||||
-- Case2 : ...
|
||||
-- anything : ...
|
||||
```
|
||||
\end{catala}
|
||||
\\
|
||||
@ -389,7 +390,7 @@
|
||||
\\
|
||||
Direct scope call & \begin{catala}
|
||||
```catala
|
||||
outut of Scope1
|
||||
output of Scope1
|
||||
with { -- fld1: 9 -- fld2: true }
|
||||
```
|
||||
\end{catala}
|
||||
|
@ -364,6 +364,7 @@
|
||||
selon expr sous forme
|
||||
-- Cas1 de x: ...
|
||||
-- Cas2 : ...
|
||||
-- n'importe quel : ...
|
||||
```
|
||||
\end{catala}
|
||||
\\
|
||||
@ -422,7 +423,7 @@
|
||||
\\
|
||||
Déclaration d'énumération & \begin{catala}
|
||||
```catala
|
||||
déclaration énumeration Énum1:
|
||||
déclaration énumération Énum1:
|
||||
-- Cas1 contenu entier
|
||||
-- Cas2
|
||||
```
|
||||
|
@ -29,7 +29,7 @@ scope Test1:
|
||||
```catala-test-inline
|
||||
$ catala Interpret -s Test1
|
||||
[ERROR] Syntax error at token "scope"
|
||||
Message: unexpected token
|
||||
Message: expected either 'condition', or 'content' followed by the expected variable type
|
||||
Autosuggestion: did you mean "content", or maybe "condition"?
|
||||
|
||||
Error token:
|
||||
@ -73,7 +73,7 @@ scope Test2:
|
||||
```catala-test-inline
|
||||
$ catala Interpret -s Test2
|
||||
[ERROR] Syntax error at token "scope"
|
||||
Message: unexpected token
|
||||
Message: expected either 'condition', or 'content' followed by the expected variable type
|
||||
Autosuggestion: did you mean "content", or maybe "condition"?
|
||||
|
||||
Error token:
|
||||
@ -117,7 +117,7 @@ scope Test3:
|
||||
```catala-test-inline
|
||||
$ catala Interpret -s Test3
|
||||
[ERROR] Syntax error at token "scope"
|
||||
Message: unexpected token
|
||||
Message: expected either 'condition', or 'content' followed by the expected variable type
|
||||
Autosuggestion: did you mean "content", or maybe "condition"?
|
||||
|
||||
Error token:
|
||||
@ -163,7 +163,7 @@ scope Test4:
|
||||
```catala-test-inline
|
||||
$ catala Interpret -s Test4
|
||||
[ERROR] Syntax error at token "scope"
|
||||
Message: unexpected token
|
||||
Message: expected either 'condition', or 'content' followed by the expected variable type
|
||||
Autosuggestion: did you mean "content", or maybe "condition"?
|
||||
|
||||
Error token:
|
||||
|
6900
french_law/js/french_law.js
generated
6900
french_law/js/french_law.js
generated
File diff suppressed because one or more lines are too long
356
french_law/ocaml/law_source/aides_logement.ml
generated
356
french_law/ocaml/law_source/aides_logement.ml
generated
@ -2201,7 +2201,7 @@ let calcul_equivalence_loyer_minimale (calcul_equivalence_loyer_minimale_in: Cal
|
||||
"Prologue : aides au logement"]} ([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=2676; start_column=14; end_line=2676; end_column=41;
|
||||
start_line=2685; start_column=14; end_line=2685; end_column=41;
|
||||
law_headings=["Article 31";
|
||||
"Chapitre V : Calcul de l'aide personnalisée au logement en secteur logement-foyer";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
@ -2239,8 +2239,8 @@ let calcul_equivalence_loyer_minimale (calcul_equivalence_loyer_minimale_in: Cal
|
||||
"Prologue : aides au logement"]} ([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=2641; start_column=5;
|
||||
end_line=2641; end_column=26;
|
||||
start_line=2650; start_column=5;
|
||||
end_line=2650; end_column=26;
|
||||
law_headings=["Article 31";
|
||||
"Chapitre V : Calcul de l'aide personnalisée au logement en secteur logement-foyer";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
@ -2275,7 +2275,7 @@ let calcul_equivalence_loyer_minimale (calcul_equivalence_loyer_minimale_in: Cal
|
||||
TrancheRevenu.taux = (decimal_of_string "0.328")})|]))|])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=2592; start_column=14; end_line=2592; end_column=38;
|
||||
start_line=2601; start_column=14; end_line=2601; end_column=38;
|
||||
law_headings=["Article 31";
|
||||
"Chapitre V : Calcul de l'aide personnalisée au logement en secteur logement-foyer";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
@ -7166,7 +7166,7 @@ let calcul_aide_personnalisee_logement_foyer (calcul_aide_personnalisee_logement
|
||||
"Prologue : aides au logement"]} ([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=2556; start_column=14; end_line=2556; end_column=35;
|
||||
start_line=2565; start_column=14; end_line=2565; end_column=35;
|
||||
law_headings=["Article 30";
|
||||
"Chapitre V : Calcul de l'aide personnalisée au logement en secteur logement-foyer";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
@ -7192,7 +7192,7 @@ let calcul_aide_personnalisee_logement_foyer (calcul_aide_personnalisee_logement
|
||||
"Prologue : aides au logement"]} ([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=2531; start_column=14; end_line=2531; end_column=41;
|
||||
start_line=2540; start_column=14; end_line=2540; end_column=41;
|
||||
law_headings=["Article 28";
|
||||
"Chapitre V : Calcul de l'aide personnalisée au logement en secteur logement-foyer";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
@ -7218,7 +7218,7 @@ let calcul_aide_personnalisee_logement_foyer (calcul_aide_personnalisee_logement
|
||||
"Prologue : aides au logement"]} ([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=2542; start_column=14; end_line=2542; end_column=42;
|
||||
start_line=2551; start_column=14; end_line=2551; end_column=42;
|
||||
law_headings=["Article 29";
|
||||
"Chapitre V : Calcul de l'aide personnalisée au logement en secteur logement-foyer";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
@ -7343,8 +7343,8 @@ let calcul_aide_personnalisee_logement_foyer (calcul_aide_personnalisee_logement
|
||||
"Prologue : aides au logement"]} ([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=2477; start_column=14;
|
||||
end_line=2477; end_column=48;
|
||||
start_line=2486; start_column=14;
|
||||
end_line=2486; end_column=48;
|
||||
law_headings=["Article 27";
|
||||
"Chapitre V : Calcul de l'aide personnalisée au logement en secteur logement-foyer";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
@ -7876,7 +7876,7 @@ let calcul_aide_personnalisee_logement_foyer (calcul_aide_personnalisee_logement
|
||||
"Prologue : aides au logement"]} ([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=2705; start_column=14; end_line=2705; end_column=41;
|
||||
start_line=2714; start_column=14; end_line=2714; end_column=41;
|
||||
law_headings=["Article 32";
|
||||
"Chapitre V : Calcul de l'aide personnalisée au logement en secteur logement-foyer";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
@ -7905,7 +7905,7 @@ let calcul_aide_personnalisee_logement_foyer (calcul_aide_personnalisee_logement
|
||||
"Prologue : aides au logement"]} ([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=2566; start_column=14; end_line=2566; end_column=48;
|
||||
start_line=2575; start_column=14; end_line=2575; end_column=48;
|
||||
law_headings=["Article 30";
|
||||
"Chapitre V : Calcul de l'aide personnalisée au logement en secteur logement-foyer";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
@ -8791,7 +8791,7 @@ let calcul_aide_personnalisee_logement_accession_propriete (calcul_aide_personna
|
||||
"Prologue : aides au logement"]} ([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=2335; start_column=14; end_line=2335; end_column=41;
|
||||
start_line=2344; start_column=14; end_line=2344; end_column=41;
|
||||
law_headings=["Article 20"; "Article 18";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
true)) (fun (_: unit) -> money_of_cents_string "500"))
|
||||
@ -8816,7 +8816,7 @@ let calcul_aide_personnalisee_logement_accession_propriete (calcul_aide_personna
|
||||
"Prologue : aides au logement"]} ([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=2346; start_column=14; end_line=2346; end_column=42;
|
||||
start_line=2355; start_column=14; end_line=2355; end_column=42;
|
||||
law_headings=["Article 21"; "Article 18";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
true)) (fun (_: unit) -> money_of_cents_string "1000"))
|
||||
@ -8841,7 +8841,7 @@ let calcul_aide_personnalisee_logement_accession_propriete (calcul_aide_personna
|
||||
"Prologue : aides au logement"]} ([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=2355; start_column=15; end_line=2355; end_column=49;
|
||||
start_line=2364; start_column=15; end_line=2364; end_column=49;
|
||||
law_headings=["Article 22"; "Article 18";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
true)) (fun (_: unit) -> money_of_cents_string "2211133"))
|
||||
@ -8866,7 +8866,7 @@ let calcul_aide_personnalisee_logement_accession_propriete (calcul_aide_personna
|
||||
"Prologue : aides au logement"]} ([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=2448; start_column=14; end_line=2448; end_column=48;
|
||||
start_line=2457; start_column=14; end_line=2457; end_column=48;
|
||||
law_headings=["Article 26"; "Article 18";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
true)) (fun (_: unit) -> decimal_of_string "16.25"))
|
||||
@ -8891,7 +8891,7 @@ let calcul_aide_personnalisee_logement_accession_propriete (calcul_aide_personna
|
||||
"Prologue : aides au logement"]} ([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=2370; start_column=14; end_line=2370; end_column=47;
|
||||
start_line=2379; start_column=14; end_line=2379; end_column=47;
|
||||
law_headings=["Article 23"; "Article 18";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
true)) (fun (_: unit) -> money_of_cents_string "560085"))
|
||||
@ -8916,7 +8916,7 @@ let calcul_aide_personnalisee_logement_accession_propriete (calcul_aide_personna
|
||||
"Prologue : aides au logement"]} ([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=2371; start_column=14; end_line=2371; end_column=47;
|
||||
start_line=2380; start_column=14; end_line=2380; end_column=47;
|
||||
law_headings=["Article 23"; "Article 18";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
true)) (fun (_: unit) -> decimal_of_string "0.208"))
|
||||
@ -8941,7 +8941,7 @@ let calcul_aide_personnalisee_logement_accession_propriete (calcul_aide_personna
|
||||
"Prologue : aides au logement"]} ([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=2372; start_column=14; end_line=2372; end_column=47;
|
||||
start_line=2381; start_column=14; end_line=2381; end_column=47;
|
||||
law_headings=["Article 23"; "Article 18";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
true)) (fun (_: unit) -> decimal_of_string "0.416"))
|
||||
@ -9081,7 +9081,7 @@ let calcul_aide_personnalisee_logement_accession_propriete (calcul_aide_personna
|
||||
"Prologue : aides au logement"]} ([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=2430; start_column=14; end_line=2430; end_column=50;
|
||||
start_line=2439; start_column=14; end_line=2439; end_column=50;
|
||||
law_headings=["Article 25"; "Article 18";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
true))
|
||||
@ -9182,8 +9182,8 @@ let calcul_aide_personnalisee_logement_accession_propriete (calcul_aide_personna
|
||||
([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=2403; start_column=7;
|
||||
end_line=2403; end_column=18;
|
||||
start_line=2412; start_column=7;
|
||||
end_line=2412; end_column=18;
|
||||
law_headings=["Article 24"; "Article 18";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
(o_and
|
||||
@ -9291,8 +9291,8 @@ let calcul_aide_personnalisee_logement_accession_propriete (calcul_aide_personna
|
||||
([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=2324; start_column=29;
|
||||
end_line=2324; end_column=64;
|
||||
start_line=2333; start_column=29;
|
||||
end_line=2333; end_column=64;
|
||||
law_headings=["Article 19"; "Article 18";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
(o_gte_dat_dat date_courante_
|
||||
@ -9506,7 +9506,7 @@ let calcul_aide_personnalisee_logement_accession_propriete (calcul_aide_personna
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=806; start_column=5;
|
||||
end_line=812; end_column=36;
|
||||
end_line=821; end_column=36;
|
||||
law_headings=["Article 18";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
(o_and
|
||||
@ -9515,12 +9515,16 @@ let calcul_aide_personnalisee_logement_accession_propriete (calcul_aide_personna
|
||||
(o_and
|
||||
(o_gte_dat_dat param_
|
||||
(date_of_numbers (1992) (6) (30)))
|
||||
(o_and
|
||||
(o_lte_dat_dat param_
|
||||
(date_of_numbers (1994) (11) (27)))
|
||||
(o_and
|
||||
(match anciennete_logement_
|
||||
with
|
||||
| NeufOuAncien.Neuf _ -> false
|
||||
| NeufOuAncien.Ancien ameliore_par_occupant_ ->
|
||||
(match ameliore_par_occupant_
|
||||
(match
|
||||
ameliore_par_occupant_
|
||||
with
|
||||
| AmelioreParOccupant.Oui _ ->
|
||||
true
|
||||
@ -9532,7 +9536,7 @@ let calcul_aide_personnalisee_logement_accession_propriete (calcul_aide_personna
|
||||
| TypePret.D331_63_64 _ -> true
|
||||
| TypePret.D331_59_8 _ -> false
|
||||
| TypePret.D331_76_1 _ -> false
|
||||
| TypePret.Autre _ -> false))))))
|
||||
| TypePret.Autre _ -> false)))))))
|
||||
(fun (_: unit) ->
|
||||
o_mult_mon_rat
|
||||
( if
|
||||
@ -9576,8 +9580,8 @@ let calcul_aide_personnalisee_logement_accession_propriete (calcul_aide_personna
|
||||
([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=1052; start_column=5;
|
||||
end_line=1056; end_column=36;
|
||||
start_line=1061; start_column=5;
|
||||
end_line=1065; end_column=36;
|
||||
law_headings=["Article 18";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
(o_and
|
||||
@ -9703,8 +9707,8 @@ let calcul_aide_personnalisee_logement_accession_propriete (calcul_aide_personna
|
||||
([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=1085; start_column=5;
|
||||
end_line=1089; end_column=36;
|
||||
start_line=1094; start_column=5;
|
||||
end_line=1098; end_column=36;
|
||||
law_headings=["Article 18";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
(o_and
|
||||
@ -9830,8 +9834,8 @@ let calcul_aide_personnalisee_logement_accession_propriete (calcul_aide_personna
|
||||
([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=1118; start_column=5;
|
||||
end_line=1122; end_column=36;
|
||||
start_line=1127; start_column=5;
|
||||
end_line=1131; end_column=36;
|
||||
law_headings=["Article 18";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
(o_and
|
||||
@ -9957,8 +9961,8 @@ let calcul_aide_personnalisee_logement_accession_propriete (calcul_aide_personna
|
||||
([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=1151; start_column=5;
|
||||
end_line=1155; end_column=36;
|
||||
start_line=1160; start_column=5;
|
||||
end_line=1164; end_column=36;
|
||||
law_headings=["Article 18";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
(o_and
|
||||
@ -10084,8 +10088,8 @@ let calcul_aide_personnalisee_logement_accession_propriete (calcul_aide_personna
|
||||
([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=1184; start_column=5;
|
||||
end_line=1188; end_column=36;
|
||||
start_line=1193; start_column=5;
|
||||
end_line=1197; end_column=36;
|
||||
law_headings=["Article 18";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
(o_and
|
||||
@ -10211,8 +10215,8 @@ let calcul_aide_personnalisee_logement_accession_propriete (calcul_aide_personna
|
||||
([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=1217; start_column=5;
|
||||
end_line=1221; end_column=36;
|
||||
start_line=1226; start_column=5;
|
||||
end_line=1230; end_column=36;
|
||||
law_headings=["Article 18";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
(o_and
|
||||
@ -10338,8 +10342,8 @@ let calcul_aide_personnalisee_logement_accession_propriete (calcul_aide_personna
|
||||
([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=1250; start_column=5;
|
||||
end_line=1254; end_column=36;
|
||||
start_line=1259; start_column=5;
|
||||
end_line=1263; end_column=36;
|
||||
law_headings=["Article 18";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
(o_and
|
||||
@ -10465,8 +10469,8 @@ let calcul_aide_personnalisee_logement_accession_propriete (calcul_aide_personna
|
||||
([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=1283; start_column=5;
|
||||
end_line=1287; end_column=36;
|
||||
start_line=1292; start_column=5;
|
||||
end_line=1296; end_column=36;
|
||||
law_headings=["Article 18";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
(o_and
|
||||
@ -10584,8 +10588,8 @@ let calcul_aide_personnalisee_logement_accession_propriete (calcul_aide_personna
|
||||
([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=1316; start_column=5;
|
||||
end_line=1320; end_column=36;
|
||||
start_line=1325; start_column=5;
|
||||
end_line=1329; end_column=36;
|
||||
law_headings=["Article 18";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
(o_and
|
||||
@ -10711,8 +10715,8 @@ let calcul_aide_personnalisee_logement_accession_propriete (calcul_aide_personna
|
||||
([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=1349; start_column=5;
|
||||
end_line=1353; end_column=36;
|
||||
start_line=1358; start_column=5;
|
||||
end_line=1362; end_column=36;
|
||||
law_headings=["Article 18";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
(o_and
|
||||
@ -10830,8 +10834,8 @@ let calcul_aide_personnalisee_logement_accession_propriete (calcul_aide_personna
|
||||
([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=1382; start_column=5;
|
||||
end_line=1386; end_column=36;
|
||||
start_line=1391; start_column=5;
|
||||
end_line=1395; end_column=36;
|
||||
law_headings=["Article 18";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
(o_and
|
||||
@ -10949,8 +10953,8 @@ let calcul_aide_personnalisee_logement_accession_propriete (calcul_aide_personna
|
||||
([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=1415; start_column=5;
|
||||
end_line=1419; end_column=36;
|
||||
start_line=1424; start_column=5;
|
||||
end_line=1428; end_column=36;
|
||||
law_headings=["Article 18";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
(o_and
|
||||
@ -11068,8 +11072,8 @@ let calcul_aide_personnalisee_logement_accession_propriete (calcul_aide_personna
|
||||
([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=1448; start_column=5;
|
||||
end_line=1452; end_column=36;
|
||||
start_line=1457; start_column=5;
|
||||
end_line=1461; end_column=36;
|
||||
law_headings=["Article 18";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
(o_and
|
||||
@ -11187,8 +11191,8 @@ let calcul_aide_personnalisee_logement_accession_propriete (calcul_aide_personna
|
||||
([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=1481; start_column=5;
|
||||
end_line=1485; end_column=36;
|
||||
start_line=1490; start_column=5;
|
||||
end_line=1494; end_column=36;
|
||||
law_headings=["Article 18";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
(o_and
|
||||
@ -11306,8 +11310,8 @@ let calcul_aide_personnalisee_logement_accession_propriete (calcul_aide_personna
|
||||
([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=1514; start_column=5;
|
||||
end_line=1518; end_column=36;
|
||||
start_line=1523; start_column=5;
|
||||
end_line=1527; end_column=36;
|
||||
law_headings=["Article 18";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
(o_and
|
||||
@ -11425,8 +11429,8 @@ let calcul_aide_personnalisee_logement_accession_propriete (calcul_aide_personna
|
||||
([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=1547; start_column=5;
|
||||
end_line=1551; end_column=36;
|
||||
start_line=1556; start_column=5;
|
||||
end_line=1560; end_column=36;
|
||||
law_headings=["Article 18";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
(o_and
|
||||
@ -11544,8 +11548,8 @@ let calcul_aide_personnalisee_logement_accession_propriete (calcul_aide_personna
|
||||
([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=1580; start_column=5;
|
||||
end_line=1584; end_column=36;
|
||||
start_line=1589; start_column=5;
|
||||
end_line=1593; end_column=36;
|
||||
law_headings=["Article 18";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
(o_and
|
||||
@ -11663,8 +11667,8 @@ let calcul_aide_personnalisee_logement_accession_propriete (calcul_aide_personna
|
||||
([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=1613; start_column=5;
|
||||
end_line=1617; end_column=36;
|
||||
start_line=1622; start_column=5;
|
||||
end_line=1626; end_column=36;
|
||||
law_headings=["Article 18";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
(o_and
|
||||
@ -11782,8 +11786,8 @@ let calcul_aide_personnalisee_logement_accession_propriete (calcul_aide_personna
|
||||
([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=1646; start_column=5;
|
||||
end_line=1650; end_column=36;
|
||||
start_line=1655; start_column=5;
|
||||
end_line=1659; end_column=36;
|
||||
law_headings=["Article 18";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
(o_and
|
||||
@ -11901,8 +11905,8 @@ let calcul_aide_personnalisee_logement_accession_propriete (calcul_aide_personna
|
||||
([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=1679; start_column=5;
|
||||
end_line=1683; end_column=36;
|
||||
start_line=1688; start_column=5;
|
||||
end_line=1692; end_column=36;
|
||||
law_headings=["Article 18";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
(o_and
|
||||
@ -12020,8 +12024,8 @@ let calcul_aide_personnalisee_logement_accession_propriete (calcul_aide_personna
|
||||
([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=1712; start_column=5;
|
||||
end_line=1716; end_column=36;
|
||||
start_line=1721; start_column=5;
|
||||
end_line=1725; end_column=36;
|
||||
law_headings=["Article 18";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
(o_and
|
||||
@ -12139,8 +12143,8 @@ let calcul_aide_personnalisee_logement_accession_propriete (calcul_aide_personna
|
||||
([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=1745; start_column=5;
|
||||
end_line=1749; end_column=36;
|
||||
start_line=1754; start_column=5;
|
||||
end_line=1758; end_column=36;
|
||||
law_headings=["Article 18";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
(o_and
|
||||
@ -12258,8 +12262,8 @@ let calcul_aide_personnalisee_logement_accession_propriete (calcul_aide_personna
|
||||
([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=1778; start_column=5;
|
||||
end_line=1782; end_column=36;
|
||||
start_line=1787; start_column=5;
|
||||
end_line=1791; end_column=36;
|
||||
law_headings=["Article 18";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
(o_and
|
||||
@ -12377,8 +12381,8 @@ let calcul_aide_personnalisee_logement_accession_propriete (calcul_aide_personna
|
||||
([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=1811; start_column=5;
|
||||
end_line=1815; end_column=36;
|
||||
start_line=1820; start_column=5;
|
||||
end_line=1824; end_column=36;
|
||||
law_headings=["Article 18";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
(o_and
|
||||
@ -12496,8 +12500,8 @@ let calcul_aide_personnalisee_logement_accession_propriete (calcul_aide_personna
|
||||
([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=1844; start_column=5;
|
||||
end_line=1848; end_column=36;
|
||||
start_line=1853; start_column=5;
|
||||
end_line=1857; end_column=36;
|
||||
law_headings=["Article 18";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
(o_and
|
||||
@ -12615,8 +12619,8 @@ let calcul_aide_personnalisee_logement_accession_propriete (calcul_aide_personna
|
||||
([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=1877; start_column=5;
|
||||
end_line=1881; end_column=36;
|
||||
start_line=1886; start_column=5;
|
||||
end_line=1890; end_column=36;
|
||||
law_headings=["Article 18";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
(o_and
|
||||
@ -12734,8 +12738,8 @@ let calcul_aide_personnalisee_logement_accession_propriete (calcul_aide_personna
|
||||
([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=1910; start_column=5;
|
||||
end_line=1914; end_column=36;
|
||||
start_line=1919; start_column=5;
|
||||
end_line=1923; end_column=36;
|
||||
law_headings=["Article 18";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
(o_and
|
||||
@ -12853,8 +12857,8 @@ let calcul_aide_personnalisee_logement_accession_propriete (calcul_aide_personna
|
||||
([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=1943; start_column=5;
|
||||
end_line=1947; end_column=36;
|
||||
start_line=1952; start_column=5;
|
||||
end_line=1956; end_column=36;
|
||||
law_headings=["Article 18";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
(o_and
|
||||
@ -12972,8 +12976,8 @@ let calcul_aide_personnalisee_logement_accession_propriete (calcul_aide_personna
|
||||
([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=1976; start_column=5;
|
||||
end_line=1980; end_column=36;
|
||||
start_line=1985; start_column=5;
|
||||
end_line=1989; end_column=36;
|
||||
law_headings=["Article 18";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
(o_and
|
||||
@ -13091,8 +13095,8 @@ let calcul_aide_personnalisee_logement_accession_propriete (calcul_aide_personna
|
||||
([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=2009; start_column=5;
|
||||
end_line=2013; end_column=36;
|
||||
start_line=2018; start_column=5;
|
||||
end_line=2022; end_column=36;
|
||||
law_headings=["Article 18";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
(o_and
|
||||
@ -13210,8 +13214,8 @@ let calcul_aide_personnalisee_logement_accession_propriete (calcul_aide_personna
|
||||
([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=2042; start_column=5;
|
||||
end_line=2046; end_column=36;
|
||||
start_line=2051; start_column=5;
|
||||
end_line=2055; end_column=36;
|
||||
law_headings=["Article 18";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
(o_and
|
||||
@ -13329,8 +13333,8 @@ let calcul_aide_personnalisee_logement_accession_propriete (calcul_aide_personna
|
||||
([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=2075; start_column=5;
|
||||
end_line=2079; end_column=36;
|
||||
start_line=2084; start_column=5;
|
||||
end_line=2088; end_column=36;
|
||||
law_headings=["Article 18";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
(o_and
|
||||
@ -13448,8 +13452,8 @@ let calcul_aide_personnalisee_logement_accession_propriete (calcul_aide_personna
|
||||
([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=2108; start_column=5;
|
||||
end_line=2112; end_column=36;
|
||||
start_line=2117; start_column=5;
|
||||
end_line=2121; end_column=36;
|
||||
law_headings=["Article 18";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
(o_and
|
||||
@ -13567,8 +13571,8 @@ let calcul_aide_personnalisee_logement_accession_propriete (calcul_aide_personna
|
||||
([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=2141; start_column=5;
|
||||
end_line=2145; end_column=36;
|
||||
start_line=2150; start_column=5;
|
||||
end_line=2154; end_column=36;
|
||||
law_headings=["Article 18";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
(o_and
|
||||
@ -13686,8 +13690,8 @@ let calcul_aide_personnalisee_logement_accession_propriete (calcul_aide_personna
|
||||
([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=2174; start_column=5;
|
||||
end_line=2178; end_column=36;
|
||||
start_line=2183; start_column=5;
|
||||
end_line=2187; end_column=36;
|
||||
law_headings=["Article 18";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
(o_and
|
||||
@ -13805,8 +13809,8 @@ let calcul_aide_personnalisee_logement_accession_propriete (calcul_aide_personna
|
||||
([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=2207; start_column=5;
|
||||
end_line=2211; end_column=36;
|
||||
start_line=2216; start_column=5;
|
||||
end_line=2220; end_column=36;
|
||||
law_headings=["Article 18";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
(o_and
|
||||
@ -13924,8 +13928,8 @@ let calcul_aide_personnalisee_logement_accession_propriete (calcul_aide_personna
|
||||
([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=2240; start_column=5;
|
||||
end_line=2243; end_column=36;
|
||||
start_line=2249; start_column=5;
|
||||
end_line=2252; end_column=36;
|
||||
law_headings=["Article 18";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
(o_and
|
||||
@ -14037,8 +14041,8 @@ let calcul_aide_personnalisee_logement_accession_propriete (calcul_aide_personna
|
||||
([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=2272; start_column=5;
|
||||
end_line=2275; end_column=36;
|
||||
start_line=2281; start_column=5;
|
||||
end_line=2284; end_column=36;
|
||||
law_headings=["Article 18";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
(o_and
|
||||
@ -15123,8 +15127,8 @@ let calcul_aide_personnalisee_logement_accession_propriete (calcul_aide_personna
|
||||
plafond_mensualite_d832_10_3_base_))|])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=2384; start_column=14;
|
||||
end_line=2384; end_column=42;
|
||||
start_line=2393; start_column=14;
|
||||
end_line=2393; end_column=42;
|
||||
law_headings=["Article 24"; "Article 18";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
(o_gte_dat_dat date_courante_
|
||||
@ -18606,7 +18610,7 @@ let calcul_allocation_logement_foyer (calcul_allocation_logement_foyer_in: Calcu
|
||||
"Prologue : aides au logement"]} ([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=4091; start_column=14; end_line=4091; end_column=42;
|
||||
start_line=4100; start_column=14; end_line=4100; end_column=42;
|
||||
law_headings=["Article 42";
|
||||
"Chapitre VII : Calcul des allocations de logement en secteur logement-foyer";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
@ -18630,7 +18634,7 @@ let calcul_allocation_logement_foyer (calcul_allocation_logement_foyer_in: Calcu
|
||||
"Prologue : aides au logement"]} ([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=4080; start_column=14; end_line=4080; end_column=41;
|
||||
start_line=4089; start_column=14; end_line=4089; end_column=41;
|
||||
law_headings=["Article 41";
|
||||
"Chapitre VII : Calcul des allocations de logement en secteur logement-foyer";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
@ -18654,7 +18658,7 @@ let calcul_allocation_logement_foyer (calcul_allocation_logement_foyer_in: Calcu
|
||||
"Prologue : aides au logement"]} ([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=4182; start_column=14; end_line=4182; end_column=51;
|
||||
start_line=4191; start_column=14; end_line=4191; end_column=51;
|
||||
law_headings=["Article 44";
|
||||
"Chapitre VII : Calcul des allocations de logement en secteur logement-foyer";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
@ -19099,8 +19103,8 @@ let calcul_allocation_logement_foyer (calcul_allocation_logement_foyer_in: Calcu
|
||||
"Prologue : aides au logement"]} ([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=4067; start_column=14;
|
||||
end_line=4067; end_column=41;
|
||||
start_line=4076; start_column=14;
|
||||
end_line=4076; end_column=41;
|
||||
law_headings=["Article 40";
|
||||
"Chapitre VII : Calcul des allocations de logement en secteur logement-foyer";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
@ -19167,8 +19171,8 @@ let calcul_allocation_logement_foyer (calcul_allocation_logement_foyer_in: Calcu
|
||||
"Prologue : aides au logement"]} ([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=4109; start_column=6;
|
||||
end_line=4109; end_column=79;
|
||||
start_line=4118; start_column=6;
|
||||
end_line=4118; end_column=79;
|
||||
law_headings=["Article 43";
|
||||
"Chapitre VII : Calcul des allocations de logement en secteur logement-foyer";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
@ -19202,8 +19206,8 @@ let calcul_allocation_logement_foyer (calcul_allocation_logement_foyer_in: Calcu
|
||||
"Prologue : aides au logement"]} ([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=4144; start_column=6;
|
||||
end_line=4145; end_column=38;
|
||||
start_line=4153; start_column=6;
|
||||
end_line=4154; end_column=38;
|
||||
law_headings=["Article 43";
|
||||
"Chapitre VII : Calcul des allocations de logement en secteur logement-foyer";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
@ -19246,8 +19250,8 @@ let calcul_allocation_logement_foyer (calcul_allocation_logement_foyer_in: Calcu
|
||||
([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=4162; start_column=6;
|
||||
end_line=4163; end_column=24;
|
||||
start_line=4171; start_column=6;
|
||||
end_line=4172; end_column=24;
|
||||
law_headings=["Article 43";
|
||||
"Chapitre VII : Calcul des allocations de logement en secteur logement-foyer";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
@ -19273,8 +19277,8 @@ let calcul_allocation_logement_foyer (calcul_allocation_logement_foyer_in: Calcu
|
||||
(money_of_cents_string "27365")))|])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=4126; start_column=6;
|
||||
end_line=4127; end_column=46;
|
||||
start_line=4135; start_column=6;
|
||||
end_line=4136; end_column=46;
|
||||
law_headings=["Article 43";
|
||||
"Chapitre VII : Calcul des allocations de logement en secteur logement-foyer";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
@ -20124,7 +20128,7 @@ let calcul_allocation_logement_accession_propriete (calcul_allocation_logement_a
|
||||
"Prologue : aides au logement"]} ([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=3954; start_column=14; end_line=3954; end_column=40;
|
||||
start_line=3963; start_column=14; end_line=3963; end_column=40;
|
||||
law_headings=["Article 35";
|
||||
"Chapitre IV : Calcul des allocations de logement en secteur accession";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
@ -20174,7 +20178,7 @@ let calcul_allocation_logement_accession_propriete (calcul_allocation_logement_a
|
||||
"Prologue : aides au logement"]} ([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=3964; start_column=14; end_line=3964; end_column=41;
|
||||
start_line=3973; start_column=14; end_line=3973; end_column=41;
|
||||
law_headings=["Article 36";
|
||||
"Chapitre IV : Calcul des allocations de logement en secteur accession";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
@ -20198,7 +20202,7 @@ let calcul_allocation_logement_accession_propriete (calcul_allocation_logement_a
|
||||
"Prologue : aides au logement"]} ([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=4018; start_column=14; end_line=4018; end_column=41;
|
||||
start_line=4027; start_column=14; end_line=4027; end_column=41;
|
||||
law_headings=["Article 38";
|
||||
"Chapitre IV : Calcul des allocations de logement en secteur accession";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
@ -20222,7 +20226,7 @@ let calcul_allocation_logement_accession_propriete (calcul_allocation_logement_a
|
||||
"Prologue : aides au logement"]} ([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=4043; start_column=14; end_line=4043; end_column=41;
|
||||
start_line=4052; start_column=14; end_line=4052; end_column=41;
|
||||
law_headings=["Article 39";
|
||||
"Chapitre IV : Calcul des allocations de logement en secteur accession";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
@ -20246,7 +20250,7 @@ let calcul_allocation_logement_accession_propriete (calcul_allocation_logement_a
|
||||
"Prologue : aides au logement"]} ([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=4025; start_column=14; end_line=4025; end_column=33;
|
||||
start_line=4034; start_column=14; end_line=4034; end_column=33;
|
||||
law_headings=["Article 38";
|
||||
"Chapitre IV : Calcul des allocations de logement en secteur accession";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
@ -20270,7 +20274,7 @@ let calcul_allocation_logement_accession_propriete (calcul_allocation_logement_a
|
||||
"Prologue : aides au logement"]} ([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=4036; start_column=14; end_line=4036; end_column=33;
|
||||
start_line=4045; start_column=14; end_line=4045; end_column=33;
|
||||
law_headings=["Article 39";
|
||||
"Chapitre IV : Calcul des allocations de logement en secteur accession";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
@ -20492,8 +20496,8 @@ let calcul_allocation_logement_accession_propriete (calcul_allocation_logement_a
|
||||
([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=3996; start_column=5;
|
||||
end_line=3996; end_column=16;
|
||||
start_line=4005; start_column=5;
|
||||
end_line=4005; end_column=16;
|
||||
law_headings=["Article 37";
|
||||
"Chapitre IV : Calcul des allocations de logement en secteur accession";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
@ -20513,8 +20517,8 @@ let calcul_allocation_logement_accession_propriete (calcul_allocation_logement_a
|
||||
(o_torat_int nombre_personnes_a_charge_))))|])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=3942; start_column=31;
|
||||
end_line=3942; end_column=58;
|
||||
start_line=3951; start_column=31;
|
||||
end_line=3951; end_column=58;
|
||||
law_headings=["Article 34";
|
||||
"Chapitre IV : Calcul des allocations de logement en secteur accession";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
@ -20609,8 +20613,8 @@ let calcul_allocation_logement_accession_propriete (calcul_allocation_logement_a
|
||||
([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=2904; start_column=5;
|
||||
end_line=2904; end_column=62;
|
||||
start_line=2913; start_column=5;
|
||||
end_line=2913; end_column=62;
|
||||
law_headings=["Article 33";
|
||||
"Chapitre IV : Calcul des allocations de logement en secteur accession";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
@ -20788,8 +20792,8 @@ let calcul_allocation_logement_accession_propriete (calcul_allocation_logement_a
|
||||
([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=2950; start_column=5;
|
||||
end_line=2950; end_column=62;
|
||||
start_line=2959; start_column=5;
|
||||
end_line=2959; end_column=62;
|
||||
law_headings=["Article 33";
|
||||
"Chapitre IV : Calcul des allocations de logement en secteur accession";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
@ -20967,8 +20971,8 @@ let calcul_allocation_logement_accession_propriete (calcul_allocation_logement_a
|
||||
([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=2996; start_column=5;
|
||||
end_line=2996; end_column=62;
|
||||
start_line=3005; start_column=5;
|
||||
end_line=3005; end_column=62;
|
||||
law_headings=["Article 33";
|
||||
"Chapitre IV : Calcul des allocations de logement en secteur accession";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
@ -21146,8 +21150,8 @@ let calcul_allocation_logement_accession_propriete (calcul_allocation_logement_a
|
||||
([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=3042; start_column=5;
|
||||
end_line=3042; end_column=62;
|
||||
start_line=3051; start_column=5;
|
||||
end_line=3051; end_column=62;
|
||||
law_headings=["Article 33";
|
||||
"Chapitre IV : Calcul des allocations de logement en secteur accession";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
@ -21325,8 +21329,8 @@ let calcul_allocation_logement_accession_propriete (calcul_allocation_logement_a
|
||||
([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=3088; start_column=5;
|
||||
end_line=3088; end_column=62;
|
||||
start_line=3097; start_column=5;
|
||||
end_line=3097; end_column=62;
|
||||
law_headings=["Article 33";
|
||||
"Chapitre IV : Calcul des allocations de logement en secteur accession";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
@ -21504,8 +21508,8 @@ let calcul_allocation_logement_accession_propriete (calcul_allocation_logement_a
|
||||
([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=3134; start_column=5;
|
||||
end_line=3134; end_column=62;
|
||||
start_line=3143; start_column=5;
|
||||
end_line=3143; end_column=62;
|
||||
law_headings=["Article 33";
|
||||
"Chapitre IV : Calcul des allocations de logement en secteur accession";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
@ -21683,8 +21687,8 @@ let calcul_allocation_logement_accession_propriete (calcul_allocation_logement_a
|
||||
([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=3180; start_column=5;
|
||||
end_line=3180; end_column=62;
|
||||
start_line=3189; start_column=5;
|
||||
end_line=3189; end_column=62;
|
||||
law_headings=["Article 33";
|
||||
"Chapitre IV : Calcul des allocations de logement en secteur accession";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
@ -21862,8 +21866,8 @@ let calcul_allocation_logement_accession_propriete (calcul_allocation_logement_a
|
||||
([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=3226; start_column=5;
|
||||
end_line=3226; end_column=62;
|
||||
start_line=3235; start_column=5;
|
||||
end_line=3235; end_column=62;
|
||||
law_headings=["Article 33";
|
||||
"Chapitre IV : Calcul des allocations de logement en secteur accession";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
@ -22024,8 +22028,8 @@ let calcul_allocation_logement_accession_propriete (calcul_allocation_logement_a
|
||||
([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=3271; start_column=5;
|
||||
end_line=3271; end_column=62;
|
||||
start_line=3280; start_column=5;
|
||||
end_line=3280; end_column=62;
|
||||
law_headings=["Article 33";
|
||||
"Chapitre IV : Calcul des allocations de logement en secteur accession";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
@ -22186,8 +22190,8 @@ let calcul_allocation_logement_accession_propriete (calcul_allocation_logement_a
|
||||
([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=3316; start_column=5;
|
||||
end_line=3316; end_column=62;
|
||||
start_line=3325; start_column=5;
|
||||
end_line=3325; end_column=62;
|
||||
law_headings=["Article 33";
|
||||
"Chapitre IV : Calcul des allocations de logement en secteur accession";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
@ -22348,8 +22352,8 @@ let calcul_allocation_logement_accession_propriete (calcul_allocation_logement_a
|
||||
([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=3361; start_column=5;
|
||||
end_line=3361; end_column=62;
|
||||
start_line=3370; start_column=5;
|
||||
end_line=3370; end_column=62;
|
||||
law_headings=["Article 33";
|
||||
"Chapitre IV : Calcul des allocations de logement en secteur accession";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
@ -22510,8 +22514,8 @@ let calcul_allocation_logement_accession_propriete (calcul_allocation_logement_a
|
||||
([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=3406; start_column=5;
|
||||
end_line=3406; end_column=62;
|
||||
start_line=3415; start_column=5;
|
||||
end_line=3415; end_column=62;
|
||||
law_headings=["Article 33";
|
||||
"Chapitre IV : Calcul des allocations de logement en secteur accession";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
@ -22672,8 +22676,8 @@ let calcul_allocation_logement_accession_propriete (calcul_allocation_logement_a
|
||||
([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=3451; start_column=5;
|
||||
end_line=3451; end_column=62;
|
||||
start_line=3460; start_column=5;
|
||||
end_line=3460; end_column=62;
|
||||
law_headings=["Article 33";
|
||||
"Chapitre IV : Calcul des allocations de logement en secteur accession";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
@ -22834,8 +22838,8 @@ let calcul_allocation_logement_accession_propriete (calcul_allocation_logement_a
|
||||
([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=3496; start_column=5;
|
||||
end_line=3496; end_column=62;
|
||||
start_line=3505; start_column=5;
|
||||
end_line=3505; end_column=62;
|
||||
law_headings=["Article 33";
|
||||
"Chapitre IV : Calcul des allocations de logement en secteur accession";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
@ -22996,8 +23000,8 @@ let calcul_allocation_logement_accession_propriete (calcul_allocation_logement_a
|
||||
([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=3541; start_column=5;
|
||||
end_line=3541; end_column=62;
|
||||
start_line=3550; start_column=5;
|
||||
end_line=3550; end_column=62;
|
||||
law_headings=["Article 33";
|
||||
"Chapitre IV : Calcul des allocations de logement en secteur accession";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
@ -23158,8 +23162,8 @@ let calcul_allocation_logement_accession_propriete (calcul_allocation_logement_a
|
||||
([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=3586; start_column=5;
|
||||
end_line=3586; end_column=62;
|
||||
start_line=3595; start_column=5;
|
||||
end_line=3595; end_column=62;
|
||||
law_headings=["Article 33";
|
||||
"Chapitre IV : Calcul des allocations de logement en secteur accession";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
@ -23320,8 +23324,8 @@ let calcul_allocation_logement_accession_propriete (calcul_allocation_logement_a
|
||||
([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=3631; start_column=5;
|
||||
end_line=3631; end_column=62;
|
||||
start_line=3640; start_column=5;
|
||||
end_line=3640; end_column=62;
|
||||
law_headings=["Article 33";
|
||||
"Chapitre IV : Calcul des allocations de logement en secteur accession";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
@ -23482,8 +23486,8 @@ let calcul_allocation_logement_accession_propriete (calcul_allocation_logement_a
|
||||
([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=3676; start_column=5;
|
||||
end_line=3676; end_column=62;
|
||||
start_line=3685; start_column=5;
|
||||
end_line=3685; end_column=62;
|
||||
law_headings=["Article 33";
|
||||
"Chapitre IV : Calcul des allocations de logement en secteur accession";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
@ -23644,8 +23648,8 @@ let calcul_allocation_logement_accession_propriete (calcul_allocation_logement_a
|
||||
([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=3721; start_column=5;
|
||||
end_line=3721; end_column=62;
|
||||
start_line=3730; start_column=5;
|
||||
end_line=3730; end_column=62;
|
||||
law_headings=["Article 33";
|
||||
"Chapitre IV : Calcul des allocations de logement en secteur accession";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
@ -23806,8 +23810,8 @@ let calcul_allocation_logement_accession_propriete (calcul_allocation_logement_a
|
||||
([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=3766; start_column=5;
|
||||
end_line=3766; end_column=62;
|
||||
start_line=3775; start_column=5;
|
||||
end_line=3775; end_column=62;
|
||||
law_headings=["Article 33";
|
||||
"Chapitre IV : Calcul des allocations de logement en secteur accession";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
@ -23968,8 +23972,8 @@ let calcul_allocation_logement_accession_propriete (calcul_allocation_logement_a
|
||||
([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=3811; start_column=5;
|
||||
end_line=3811; end_column=62;
|
||||
start_line=3820; start_column=5;
|
||||
end_line=3820; end_column=62;
|
||||
law_headings=["Article 33";
|
||||
"Chapitre IV : Calcul des allocations de logement en secteur accession";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
@ -24130,8 +24134,8 @@ let calcul_allocation_logement_accession_propriete (calcul_allocation_logement_a
|
||||
([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=3856; start_column=5;
|
||||
end_line=3856; end_column=32;
|
||||
start_line=3865; start_column=5;
|
||||
end_line=3865; end_column=32;
|
||||
law_headings=["Article 33";
|
||||
"Chapitre IV : Calcul des allocations de logement en secteur accession";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
@ -24536,8 +24540,8 @@ let calcul_allocation_logement_accession_propriete (calcul_allocation_logement_a
|
||||
param_)))))))))|])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=3976; start_column=24;
|
||||
end_line=3976; end_column=56;
|
||||
start_line=3985; start_column=24;
|
||||
end_line=3985; end_column=56;
|
||||
law_headings=["Article 37";
|
||||
"Chapitre IV : Calcul des allocations de logement en secteur accession";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
@ -24580,8 +24584,8 @@ let calcul_allocation_logement_accession_propriete (calcul_allocation_logement_a
|
||||
(fun (_: unit) -> raise EmptyError))|])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=3900; start_column=14;
|
||||
end_line=3900; end_column=46;
|
||||
start_line=3909; start_column=14;
|
||||
end_line=3909; end_column=46;
|
||||
law_headings=["Article 33";
|
||||
"Chapitre IV : Calcul des allocations de logement en secteur accession";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
@ -26917,7 +26921,7 @@ let eligibilite_prime_de_demenagement (eligibilite_prime_de_demenagement_in: Eli
|
||||
"Prologue : aides au logement"]} ([||])
|
||||
(fun (_: unit) -> (log_decision_taken
|
||||
{filename = "examples/aides_logement/arrete_2019-09-27.catala_fr";
|
||||
start_line=4197; start_column=14; end_line=4197; end_column=29;
|
||||
start_line=4206; start_column=14; end_line=4206; end_column=29;
|
||||
law_headings=["Article 45";
|
||||
"Chapitre VIII : Prime de déménagement";
|
||||
"Arrêté du 27 septembre 2019 relatif au calcul des aides personnelles au logement et de la prime de déménagement"]}
|
||||
|
23354
french_law/python/src/aides_logement.py
generated
23354
french_law/python/src/aides_logement.py
generated
File diff suppressed because it is too large
Load Diff
128
french_law/python/src/allocations_familiales.py
generated
128
french_law/python/src/allocations_familiales.py
generated
@ -551,16 +551,70 @@ def smic(smic_in:SmicIn):
|
||||
def temp_brut_horaire_1(_:Unit):
|
||||
return False
|
||||
def temp_brut_horaire_2(_:Unit):
|
||||
if ((date_courante >= date_of_numbers(2022,5,1)) and
|
||||
if ((date_courante >= date_of_numbers(2023,1,1)) and
|
||||
((date_courante <= date_of_numbers(2023,12,31)) and
|
||||
(residence == Collectivite(Collectivite_Code.Mayotte,
|
||||
Unit())))):
|
||||
return money_of_cents_string("851")
|
||||
else:
|
||||
raise EmptyError
|
||||
def temp_brut_horaire_3(_:Unit):
|
||||
if ((date_courante >= date_of_numbers(2023,1,1)) and
|
||||
((date_courante <= date_of_numbers(2023,12,31)) and
|
||||
((residence == Collectivite(Collectivite_Code.Metropole,
|
||||
Unit())) or ((residence ==
|
||||
Collectivite(Collectivite_Code.Guadeloupe, Unit())) or
|
||||
((residence == Collectivite(Collectivite_Code.Guyane,
|
||||
Unit())) or ((residence ==
|
||||
Collectivite(Collectivite_Code.Martinique, Unit())) or
|
||||
((residence == Collectivite(Collectivite_Code.LaReunion,
|
||||
Unit())) or ((residence ==
|
||||
Collectivite(Collectivite_Code.SaintBarthelemy, Unit())) or
|
||||
((residence == Collectivite(Collectivite_Code.SaintMartin,
|
||||
Unit())) or (residence ==
|
||||
Collectivite(Collectivite_Code.SaintPierreEtMiquelon,
|
||||
Unit()))))))))))):
|
||||
return money_of_cents_string("1127")
|
||||
else:
|
||||
raise EmptyError
|
||||
def temp_brut_horaire_4(_:Unit):
|
||||
if ((date_courante >= date_of_numbers(2022,8,1)) and
|
||||
((date_courante <= date_of_numbers(2022,12,31)) and
|
||||
(residence == Collectivite(Collectivite_Code.Mayotte,
|
||||
Unit())))):
|
||||
return money_of_cents_string("835")
|
||||
else:
|
||||
raise EmptyError
|
||||
def temp_brut_horaire_5(_:Unit):
|
||||
if ((date_courante >= date_of_numbers(2022,8,1)) and
|
||||
((date_courante <= date_of_numbers(2022,12,31)) and
|
||||
((residence == Collectivite(Collectivite_Code.Metropole,
|
||||
Unit())) or ((residence ==
|
||||
Collectivite(Collectivite_Code.Guadeloupe, Unit())) or
|
||||
((residence == Collectivite(Collectivite_Code.Guyane,
|
||||
Unit())) or ((residence ==
|
||||
Collectivite(Collectivite_Code.Martinique, Unit())) or
|
||||
((residence == Collectivite(Collectivite_Code.LaReunion,
|
||||
Unit())) or ((residence ==
|
||||
Collectivite(Collectivite_Code.SaintBarthelemy, Unit())) or
|
||||
((residence == Collectivite(Collectivite_Code.SaintMartin,
|
||||
Unit())) or (residence ==
|
||||
Collectivite(Collectivite_Code.SaintPierreEtMiquelon,
|
||||
Unit()))))))))))):
|
||||
return money_of_cents_string("1107")
|
||||
else:
|
||||
raise EmptyError
|
||||
def temp_brut_horaire_6(_:Unit):
|
||||
if ((date_courante >= date_of_numbers(2022,5,1)) and
|
||||
((date_courante <= date_of_numbers(2022,7,31)) and
|
||||
(residence == Collectivite(Collectivite_Code.Mayotte,
|
||||
Unit())))):
|
||||
return money_of_cents_string("819")
|
||||
else:
|
||||
raise EmptyError
|
||||
def temp_brut_horaire_3(_:Unit):
|
||||
def temp_brut_horaire_7(_:Unit):
|
||||
if ((date_courante >= date_of_numbers(2022,5,1)) and
|
||||
((date_courante <= date_of_numbers(2022,12,31)) and
|
||||
((date_courante <= date_of_numbers(2022,7,31)) and
|
||||
((residence == Collectivite(Collectivite_Code.Metropole,
|
||||
Unit())) or ((residence ==
|
||||
Collectivite(Collectivite_Code.Guadeloupe, Unit())) or
|
||||
@ -577,7 +631,7 @@ def smic(smic_in:SmicIn):
|
||||
return money_of_cents_string("1085")
|
||||
else:
|
||||
raise EmptyError
|
||||
def temp_brut_horaire_4(_:Unit):
|
||||
def temp_brut_horaire_8(_:Unit):
|
||||
if ((date_courante >= date_of_numbers(2022,1,1)) and
|
||||
((date_courante <= date_of_numbers(2022,4,30)) and
|
||||
(residence == Collectivite(Collectivite_Code.Mayotte,
|
||||
@ -585,7 +639,7 @@ def smic(smic_in:SmicIn):
|
||||
return money_of_cents_string("798")
|
||||
else:
|
||||
raise EmptyError
|
||||
def temp_brut_horaire_5(_:Unit):
|
||||
def temp_brut_horaire_9(_:Unit):
|
||||
if ((date_courante >= date_of_numbers(2022,1,1)) and
|
||||
((date_courante <= date_of_numbers(2022,4,30)) and
|
||||
((residence == Collectivite(Collectivite_Code.Metropole,
|
||||
@ -604,7 +658,7 @@ def smic(smic_in:SmicIn):
|
||||
return money_of_cents_string("1057")
|
||||
else:
|
||||
raise EmptyError
|
||||
def temp_brut_horaire_6(_:Unit):
|
||||
def temp_brut_horaire_10(_:Unit):
|
||||
if ((date_courante >= date_of_numbers(2021,1,1)) and
|
||||
((date_courante <= date_of_numbers(2021,12,31)) and
|
||||
(residence == Collectivite(Collectivite_Code.Mayotte,
|
||||
@ -612,7 +666,7 @@ def smic(smic_in:SmicIn):
|
||||
return money_of_cents_string("774")
|
||||
else:
|
||||
raise EmptyError
|
||||
def temp_brut_horaire_7(_:Unit):
|
||||
def temp_brut_horaire_11(_:Unit):
|
||||
if ((date_courante >= date_of_numbers(2021,1,1)) and
|
||||
((date_courante <= date_of_numbers(2021,12,31)) and
|
||||
((residence == Collectivite(Collectivite_Code.Metropole,
|
||||
@ -631,7 +685,7 @@ def smic(smic_in:SmicIn):
|
||||
return money_of_cents_string("1025")
|
||||
else:
|
||||
raise EmptyError
|
||||
def temp_brut_horaire_8(_:Unit):
|
||||
def temp_brut_horaire_12(_:Unit):
|
||||
if ((date_courante >= date_of_numbers(2020,1,1)) and
|
||||
((date_courante <= date_of_numbers(2020,12,31)) and
|
||||
(residence == Collectivite(Collectivite_Code.Mayotte,
|
||||
@ -639,7 +693,7 @@ def smic(smic_in:SmicIn):
|
||||
return money_of_cents_string("766")
|
||||
else:
|
||||
raise EmptyError
|
||||
def temp_brut_horaire_9(_:Unit):
|
||||
def temp_brut_horaire_13(_:Unit):
|
||||
if ((date_courante >= date_of_numbers(2020,1,1)) and
|
||||
((date_courante <= date_of_numbers(2020,12,31)) and
|
||||
((residence == Collectivite(Collectivite_Code.Metropole,
|
||||
@ -658,7 +712,7 @@ def smic(smic_in:SmicIn):
|
||||
return money_of_cents_string("1015")
|
||||
else:
|
||||
raise EmptyError
|
||||
def temp_brut_horaire_10(_:Unit):
|
||||
def temp_brut_horaire_14(_:Unit):
|
||||
if ((date_courante >= date_of_numbers(2019,1,1)) and
|
||||
((date_courante <= date_of_numbers(2019,12,31)) and
|
||||
(residence == Collectivite(Collectivite_Code.Mayotte,
|
||||
@ -666,7 +720,7 @@ def smic(smic_in:SmicIn):
|
||||
return money_of_cents_string("757")
|
||||
else:
|
||||
raise EmptyError
|
||||
def temp_brut_horaire_11(_:Unit):
|
||||
def temp_brut_horaire_15(_:Unit):
|
||||
if ((date_courante >= date_of_numbers(2019,1,1)) and
|
||||
((date_courante <= date_of_numbers(2019,12,31)) and
|
||||
((residence == Collectivite(Collectivite_Code.Metropole,
|
||||
@ -685,11 +739,15 @@ def smic(smic_in:SmicIn):
|
||||
return money_of_cents_string("1003")
|
||||
else:
|
||||
raise EmptyError
|
||||
temp_brut_horaire_12 = handle_default(SourcePosition(filename="examples/allocations_familiales/../smic/smic.catala_fr",
|
||||
temp_brut_horaire_16 = handle_default(SourcePosition(filename="examples/allocations_familiales/../smic/smic.catala_fr",
|
||||
start_line=11, start_column=12,
|
||||
end_line=11, end_column=24,
|
||||
law_headings=["Prologue",
|
||||
"Montant du salaire minimum de croissance"]), [temp_brut_horaire_11,
|
||||
"Montant du salaire minimum de croissance"]), [temp_brut_horaire_15,
|
||||
temp_brut_horaire_14,
|
||||
temp_brut_horaire_13,
|
||||
temp_brut_horaire_12,
|
||||
temp_brut_horaire_11,
|
||||
temp_brut_horaire_10,
|
||||
temp_brut_horaire_9,
|
||||
temp_brut_horaire_8,
|
||||
@ -702,13 +760,13 @@ def smic(smic_in:SmicIn):
|
||||
temp_brut_horaire_1,
|
||||
temp_brut_horaire)
|
||||
except EmptyError:
|
||||
temp_brut_horaire_12 = dead_value
|
||||
temp_brut_horaire_16 = dead_value
|
||||
raise NoValueProvided(SourcePosition(filename="examples/allocations_familiales/../smic/smic.catala_fr",
|
||||
start_line=11, start_column=12,
|
||||
end_line=11, end_column=24,
|
||||
law_headings=["Prologue",
|
||||
"Montant du salaire minimum de croissance"]))
|
||||
brut_horaire = temp_brut_horaire_12
|
||||
brut_horaire = temp_brut_horaire_16
|
||||
return Smic(brut_horaire = brut_horaire)
|
||||
|
||||
def base_mensuelle_allocations_familiales(base_mensuelle_allocations_familiales_in:BaseMensuelleAllocationsFamilialesIn):
|
||||
@ -1374,8 +1432,8 @@ def allocations_familiales(allocations_familiales_in:AllocationsFamilialesIn):
|
||||
except EmptyError:
|
||||
temp_enfant_le_plus_age_dot_enfants = dead_value
|
||||
raise NoValueProvided(SourcePosition(filename="examples/allocations_familiales/epilogue.catala_fr",
|
||||
start_line=32, start_column=14,
|
||||
end_line=32, end_column=40,
|
||||
start_line=33, start_column=14,
|
||||
end_line=33, end_column=40,
|
||||
law_headings=["Règles diverses",
|
||||
"Épilogue"]))
|
||||
enfant_le_plus_age_dot_enfants = temp_enfant_le_plus_age_dot_enfants
|
||||
@ -2996,8 +3054,8 @@ def interface_allocations_familiales(interface_allocations_familiales_in:Interfa
|
||||
except EmptyError:
|
||||
temp_enfants_a_charge_2 = dead_value
|
||||
raise NoValueProvided(SourcePosition(filename="examples/allocations_familiales/epilogue.catala_fr",
|
||||
start_line=75, start_column=11,
|
||||
end_line=75, end_column=27,
|
||||
start_line=76, start_column=11,
|
||||
end_line=76, end_column=27,
|
||||
law_headings=["Interface du programme",
|
||||
"Épilogue"]))
|
||||
enfants_a_charge_1 = temp_enfants_a_charge_2
|
||||
@ -3014,8 +3072,8 @@ def interface_allocations_familiales(interface_allocations_familiales_in:Interfa
|
||||
except EmptyError:
|
||||
temp_allocations_familiales_dot_personne_charge_effective_permanente_est_parent_1 = dead_value
|
||||
raise NoValueProvided(SourcePosition(filename="examples/allocations_familiales/epilogue.catala_fr",
|
||||
start_line=91, start_column=5,
|
||||
end_line=91, end_column=75,
|
||||
start_line=92, start_column=5,
|
||||
end_line=92, end_column=75,
|
||||
law_headings=["Interface du programme",
|
||||
"Épilogue"]))
|
||||
allocations_familiales_dot_personne_charge_effective_permanente_est_parent = temp_allocations_familiales_dot_personne_charge_effective_permanente_est_parent_1
|
||||
@ -3032,8 +3090,8 @@ def interface_allocations_familiales(interface_allocations_familiales_in:Interfa
|
||||
except EmptyError:
|
||||
temp_allocations_familiales_dot_personne_charge_effective_permanente_remplit_titre__i_1 = dead_value
|
||||
raise NoValueProvided(SourcePosition(filename="examples/allocations_familiales/epilogue.catala_fr",
|
||||
start_line=95, start_column=5,
|
||||
end_line=95, end_column=80,
|
||||
start_line=96, start_column=5,
|
||||
end_line=96, end_column=80,
|
||||
law_headings=["Interface du programme",
|
||||
"Épilogue"]))
|
||||
allocations_familiales_dot_personne_charge_effective_permanente_remplit_titre__i = temp_allocations_familiales_dot_personne_charge_effective_permanente_remplit_titre__i_1
|
||||
@ -3042,8 +3100,8 @@ def interface_allocations_familiales(interface_allocations_familiales_in:Interfa
|
||||
except EmptyError:
|
||||
temp_allocations_familiales_dot_ressources_menage = dead_value
|
||||
raise NoValueProvided(SourcePosition(filename="examples/allocations_familiales/epilogue.catala_fr",
|
||||
start_line=87, start_column=14,
|
||||
end_line=87, end_column=54,
|
||||
start_line=88, start_column=14,
|
||||
end_line=88, end_column=54,
|
||||
law_headings=["Interface du programme",
|
||||
"Épilogue"]))
|
||||
allocations_familiales_dot_ressources_menage = temp_allocations_familiales_dot_ressources_menage
|
||||
@ -3052,8 +3110,8 @@ def interface_allocations_familiales(interface_allocations_familiales_in:Interfa
|
||||
except EmptyError:
|
||||
temp_allocations_familiales_dot_residence = dead_value
|
||||
raise NoValueProvided(SourcePosition(filename="examples/allocations_familiales/epilogue.catala_fr",
|
||||
start_line=88, start_column=14,
|
||||
end_line=88, end_column=46,
|
||||
start_line=89, start_column=14,
|
||||
end_line=89, end_column=46,
|
||||
law_headings=["Interface du programme",
|
||||
"Épilogue"]))
|
||||
allocations_familiales_dot_residence = temp_allocations_familiales_dot_residence
|
||||
@ -3062,8 +3120,8 @@ def interface_allocations_familiales(interface_allocations_familiales_in:Interfa
|
||||
except EmptyError:
|
||||
temp_allocations_familiales_dot_date_courante = dead_value
|
||||
raise NoValueProvided(SourcePosition(filename="examples/allocations_familiales/epilogue.catala_fr",
|
||||
start_line=85, start_column=14,
|
||||
end_line=85, end_column=50,
|
||||
start_line=86, start_column=14,
|
||||
end_line=86, end_column=50,
|
||||
law_headings=["Interface du programme",
|
||||
"Épilogue"]))
|
||||
allocations_familiales_dot_date_courante = temp_allocations_familiales_dot_date_courante
|
||||
@ -3072,8 +3130,8 @@ def interface_allocations_familiales(interface_allocations_familiales_in:Interfa
|
||||
except EmptyError:
|
||||
temp_allocations_familiales_dot_enfants_a_charge = dead_value
|
||||
raise NoValueProvided(SourcePosition(filename="examples/allocations_familiales/epilogue.catala_fr",
|
||||
start_line=86, start_column=14,
|
||||
end_line=86, end_column=53,
|
||||
start_line=87, start_column=14,
|
||||
end_line=87, end_column=53,
|
||||
law_headings=["Interface du programme",
|
||||
"Épilogue"]))
|
||||
allocations_familiales_dot_enfants_a_charge = temp_allocations_familiales_dot_enfants_a_charge
|
||||
@ -3090,8 +3148,8 @@ def interface_allocations_familiales(interface_allocations_familiales_in:Interfa
|
||||
except EmptyError:
|
||||
temp_allocations_familiales_dot_avait_enfant_a_charge_avant_1er_janvier_2012_1 = dead_value
|
||||
raise NoValueProvided(SourcePosition(filename="examples/allocations_familiales/epilogue.catala_fr",
|
||||
start_line=99, start_column=5,
|
||||
end_line=99, end_column=72,
|
||||
start_line=100, start_column=5,
|
||||
end_line=100, end_column=72,
|
||||
law_headings=["Interface du programme",
|
||||
"Épilogue"]))
|
||||
allocations_familiales_dot_avait_enfant_a_charge_avant_1er_janvier_2012 = temp_allocations_familiales_dot_avait_enfant_a_charge_avant_1er_janvier_2012_1
|
||||
@ -3108,8 +3166,8 @@ def interface_allocations_familiales(interface_allocations_familiales_in:Interfa
|
||||
except EmptyError:
|
||||
temp_i_montant_verse = dead_value
|
||||
raise NoValueProvided(SourcePosition(filename="examples/allocations_familiales/epilogue.catala_fr",
|
||||
start_line=79, start_column=12,
|
||||
end_line=79, end_column=27,
|
||||
start_line=80, start_column=12,
|
||||
end_line=80, end_column=27,
|
||||
law_headings=["Interface du programme",
|
||||
"Épilogue"]))
|
||||
i_montant_verse = temp_i_montant_verse
|
||||
|
24
tests/test_name_resolution/bad/toplevel_defs.catala_en
Normal file
24
tests/test_name_resolution/bad/toplevel_defs.catala_en
Normal file
@ -0,0 +1,24 @@
|
||||
## Scope calls are not allowed outside of scopes
|
||||
|
||||
```catala
|
||||
declaration scope S1:
|
||||
output a content decimal
|
||||
|
||||
scope S1:
|
||||
definition a equals 44.2
|
||||
|
||||
declaration glob5 content decimal
|
||||
equals (output of S1).a
|
||||
```
|
||||
|
||||
```catala-test-inline
|
||||
$ catala typecheck
|
||||
[ERROR] Scope calls are not allowed outside of a scope
|
||||
|
||||
┌─⯈ tests/test_name_resolution/bad/toplevel_defs.catala_en:11.10-22:
|
||||
└──┐
|
||||
11 │ equals (output of S1).a
|
||||
│ ‾‾‾‾‾‾‾‾‾‾‾‾
|
||||
└─ Scope calls are not allowed outside of scopes
|
||||
#return code 255#
|
||||
```
|
194
tests/test_name_resolution/good/toplevel_defs.catala_en
Normal file
194
tests/test_name_resolution/good/toplevel_defs.catala_en
Normal file
@ -0,0 +1,194 @@
|
||||
## Test basic toplevel values defs
|
||||
|
||||
```catala
|
||||
declaration glob1 content decimal equals 44.12
|
||||
|
||||
declaration scope S:
|
||||
output a content decimal
|
||||
output b content A
|
||||
|
||||
declaration structure A:
|
||||
data y content boolean
|
||||
data z content decimal
|
||||
|
||||
declaration glob2 content A equals
|
||||
A { --y: glob1 >= 30. --z: 123. * 17. }
|
||||
|
||||
scope S:
|
||||
definition a equals glob1 * glob1
|
||||
definition b equals glob2
|
||||
```
|
||||
|
||||
```catala-test-inline
|
||||
$ catala Interpret -s S
|
||||
[RESULT] Computation successful! Results:
|
||||
[RESULT] a = 1946.5744
|
||||
[RESULT] b = A { "y"= true; "z"= 2091. }
|
||||
```
|
||||
|
||||
## Test toplevel function defs
|
||||
|
||||
```catala
|
||||
declaration glob3 content decimal
|
||||
depends on x content money
|
||||
equals decimal of x + 10.
|
||||
|
||||
declaration scope S2:
|
||||
output a content decimal
|
||||
|
||||
scope S2:
|
||||
definition a equals glob3 of $44 + 100.
|
||||
```
|
||||
|
||||
```catala-test-inline
|
||||
$ catala Interpret -s S2
|
||||
[RESULT] Computation successful! Results:
|
||||
[RESULT] a = 154.
|
||||
```
|
||||
|
||||
## Test function def with two args
|
||||
|
||||
```catala
|
||||
declaration glob4 content decimal
|
||||
depends on x content money, y content decimal
|
||||
equals decimal of x * y + 10.
|
||||
|
||||
declaration scope S3:
|
||||
output a content decimal
|
||||
|
||||
scope S3:
|
||||
definition a equals 50. + glob4 of $44, 55.
|
||||
```
|
||||
|
||||
```catala-test-inline
|
||||
$ catala Interpret -s S3
|
||||
[RESULT] Computation successful! Results:
|
||||
[RESULT] a = 2480.
|
||||
```
|
||||
|
||||
## Test inline defs in toplevel defs
|
||||
|
||||
(can't define inline functions yet)
|
||||
|
||||
```catala
|
||||
declaration glob5 content decimal equals
|
||||
let x equals decimal of 2 * 3. in
|
||||
let y equals 1000. in
|
||||
x * y
|
||||
|
||||
declaration scope S4:
|
||||
output a content decimal
|
||||
|
||||
scope S4:
|
||||
definition a equals glob5 + 1.
|
||||
```
|
||||
|
||||
```catala-test-inline
|
||||
$ catala Interpret -s S4
|
||||
[RESULT] Computation successful! Results:
|
||||
[RESULT] a = 6001.
|
||||
```
|
||||
|
||||
|
||||
```catala-test-inline
|
||||
$ catala scalc
|
||||
let glob1_2 = 44.12
|
||||
|
||||
let glob3_3 (x_3: money) = return to_rat_mon x_3 +. 10.
|
||||
|
||||
let glob4_4 (x_4: money) (y_5: decimal) = return to_rat_mon x_4 *. y_5 +. 10.
|
||||
|
||||
let glob5_aux_5 =
|
||||
decl glob5_7 : any;
|
||||
let glob5_7 (x_8 : decimal) =
|
||||
decl y_9 : decimal;
|
||||
y_9 = 1000.;
|
||||
return x_8 *. y_9;
|
||||
return glob5_7 to_rat_int 2 *. 3.
|
||||
|
||||
let glob5_6 = glob5_aux_5 ()
|
||||
|
||||
let glob2_10 = A {"y": glob1_2 >=. 30., "z": 123. *. 17.}
|
||||
|
||||
let S2_6 (S2_in_11: S2_in {}) =
|
||||
decl temp_a_13 : any;
|
||||
try:
|
||||
decl temp_a_16 : any;
|
||||
let temp_a_16 (__17 : unit) =
|
||||
return glob3_3 $44.00 +. 100.;
|
||||
decl temp_a_14 : any;
|
||||
let temp_a_14 (__15 : unit) =
|
||||
return true;
|
||||
temp_a_13 = handle_default_1 [] temp_a_14 temp_a_16
|
||||
with EmptyError:
|
||||
temp_a_13 = dead_value_1;
|
||||
raise NoValueProvided;
|
||||
decl a_12 : decimal;
|
||||
a_12 = temp_a_13;
|
||||
return S2 {"a": a_12}
|
||||
|
||||
let S3_7 (S3_in_18: S3_in {}) =
|
||||
decl temp_a_20 : any;
|
||||
try:
|
||||
decl temp_a_23 : any;
|
||||
let temp_a_23 (__24 : unit) =
|
||||
return 50. +. glob4_4 $44.00 55.;
|
||||
decl temp_a_21 : any;
|
||||
let temp_a_21 (__22 : unit) =
|
||||
return true;
|
||||
temp_a_20 = handle_default_1 [] temp_a_21 temp_a_23
|
||||
with EmptyError:
|
||||
temp_a_20 = dead_value_1;
|
||||
raise NoValueProvided;
|
||||
decl a_19 : decimal;
|
||||
a_19 = temp_a_20;
|
||||
return S3 {"a": a_19}
|
||||
|
||||
let S4_8 (S4_in_25: S4_in {}) =
|
||||
decl temp_a_27 : any;
|
||||
try:
|
||||
decl temp_a_30 : any;
|
||||
let temp_a_30 (__31 : unit) =
|
||||
return glob5_6 +. 1.;
|
||||
decl temp_a_28 : any;
|
||||
let temp_a_28 (__29 : unit) =
|
||||
return true;
|
||||
temp_a_27 = handle_default_1 [] temp_a_28 temp_a_30
|
||||
with EmptyError:
|
||||
temp_a_27 = dead_value_1;
|
||||
raise NoValueProvided;
|
||||
decl a_26 : decimal;
|
||||
a_26 = temp_a_27;
|
||||
return S4 {"a": a_26}
|
||||
|
||||
let S_9 (S_in_32: S_in {}) =
|
||||
decl temp_a_40 : any;
|
||||
try:
|
||||
decl temp_a_43 : any;
|
||||
let temp_a_43 (__44 : unit) =
|
||||
return glob1_2 *. glob1_2;
|
||||
decl temp_a_41 : any;
|
||||
let temp_a_41 (__42 : unit) =
|
||||
return true;
|
||||
temp_a_40 = handle_default_1 [] temp_a_41 temp_a_43
|
||||
with EmptyError:
|
||||
temp_a_40 = dead_value_1;
|
||||
raise NoValueProvided;
|
||||
decl a_33 : decimal;
|
||||
a_33 = temp_a_40;
|
||||
decl temp_b_35 : any;
|
||||
try:
|
||||
decl temp_b_38 : any;
|
||||
let temp_b_38 (__39 : unit) =
|
||||
return glob2_10;
|
||||
decl temp_b_36 : any;
|
||||
let temp_b_36 (__37 : unit) =
|
||||
return true;
|
||||
temp_b_35 = handle_default_1 [] temp_b_36 temp_b_38
|
||||
with EmptyError:
|
||||
temp_b_35 = dead_value_1;
|
||||
raise NoValueProvided;
|
||||
decl b_34 : A {"y": bool; "z": decimal};
|
||||
b_34 = temp_b_35;
|
||||
return S {"a": a_33, "b": b_34}
|
||||
```
|
@ -7,11 +7,12 @@ declaration scope Foo2:
|
||||
|
||||
```catala-test-inline
|
||||
$ catala Scalc -s Foo2 -O -t
|
||||
let Foo2 (Foo2_in_2 : Foo2_in {}) =
|
||||
let Foo2_3 (Foo2_in_2: Foo2_in {}) =
|
||||
decl temp_bar_4 : any;
|
||||
temp_bar_4 = dead_value_1;
|
||||
raise NoValueProvided;
|
||||
decl bar_3 : integer;
|
||||
bar_3 = temp_bar_4;
|
||||
return Foo2 {"bar": bar_3}
|
||||
|
||||
```
|
||||
|
Loading…
Reference in New Issue
Block a user