Merge branch 'dev' of gitlab.com:ligolang/ligo into rinderknecht@pprint
This commit is contained in:
commit
562f08dabc
31
src/passes/8-typer-new/README
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31
src/passes/8-typer-new/README
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@ -0,0 +1,31 @@
|
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Components:
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* assignments (passive data structure).
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Now: just a map from unification vars to types (pb: what about partial types?)
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maybe just local assignments (allow only vars as children of pair(α,β))
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* constraint propagation: (buch of constraints) → (new constraints * assignments)
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* sub-component: constraint selector (worklist / dynamic queries)
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* sub-sub component: constraint normalizer: remove dupes and give structure
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right now: union-find of unification vars
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later: better database-like organisation of knowledge
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* sub-sub component: lazy selector (don't re-try all selectors every time)
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For now: just re-try everytime
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* sub-component: propagation rule
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For now: break pair(a, b) = pair(c, d) into a = c, b = d
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* generalizer
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For now: ?
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Workflow:
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Start with empty assignments and structured database
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Receive a new constraint
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For each normalizer:
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Use the pre-selector to see if it can be applied
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Apply the normalizer, get some new items to insert in the structured database
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For each propagator:
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Use the selector to query the structured database and see if it can be applied
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Apply the propagator, get some new constraints and assignments
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Add the new assignments to the data structure.
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At some point (when?)
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For each generalizer:
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Use the generalizer's selector to see if it can be applied
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Apply the generalizer to produce a new type, possibly with some ∀s injected
|
69
src/passes/8-typer-new/constraint_databases.ml
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69
src/passes/8-typer-new/constraint_databases.ml
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@ -0,0 +1,69 @@
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module Map = RedBlackTrees.PolyMap
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module UF = UnionFind.Poly2
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open Ast_typed.Types
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(* Light wrapper for API for grouped_by_variable in the structured
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db, to access it modulo unification variable aliases. *)
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let get_constraints_related_to : type_variable -> structured_dbs -> constraints =
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fun variable dbs ->
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let variable , aliases = UF.get_or_set variable dbs.aliases in
|
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let dbs = { dbs with aliases } in
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match Map.find_opt variable dbs.grouped_by_variable with
|
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Some l -> l
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| None -> {
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constructor = [] ;
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poly = [] ;
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tc = [] ;
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}
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let add_constraints_related_to : type_variable -> constraints -> structured_dbs -> structured_dbs =
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fun variable c dbs ->
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(* let (variable_repr , _height) , aliases = UF.get_or_set variable dbs.aliases in
|
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let dbs = { dbs with aliases } in *)
|
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let variable_repr , aliases = UF.get_or_set variable dbs.aliases in
|
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let dbs = { dbs with aliases } in
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let grouped_by_variable = Map.update variable_repr (function
|
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None -> Some c
|
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| Some (x : constraints) -> Some {
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constructor = c.constructor @ x.constructor ;
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poly = c.poly @ x.poly ;
|
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tc = c.tc @ x.tc ;
|
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})
|
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dbs.grouped_by_variable
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in
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let dbs = { dbs with grouped_by_variable } in
|
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dbs
|
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|
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let merge_constraints : type_variable -> type_variable -> structured_dbs -> structured_dbs =
|
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fun variable_a variable_b dbs ->
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(* get old representant for variable_a *)
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let variable_repr_a , aliases = UF.get_or_set variable_a dbs.aliases in
|
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let dbs = { dbs with aliases } in
|
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(* get old representant for variable_b *)
|
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let variable_repr_b , aliases = UF.get_or_set variable_b dbs.aliases in
|
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let dbs = { dbs with aliases } in
|
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(* alias variable_a and variable_b together *)
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let aliases = UF.alias variable_a variable_b dbs.aliases in
|
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let dbs = { dbs with aliases } in
|
||||
|
||||
(* Replace the two entries in grouped_by_variable by a single one *)
|
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(
|
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let get_constraints ab =
|
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match Map.find_opt ab dbs.grouped_by_variable with
|
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| Some x -> x
|
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| None -> { constructor = [] ; poly = [] ; tc = [] } in
|
||||
let constraints_a = get_constraints variable_repr_a in
|
||||
let constraints_b = get_constraints variable_repr_b in
|
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let all_constraints = {
|
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constructor = constraints_a.constructor @ constraints_b.constructor ;
|
||||
poly = constraints_a.poly @ constraints_b.poly ;
|
||||
tc = constraints_a.tc @ constraints_b.tc ;
|
||||
} in
|
||||
let grouped_by_variable =
|
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Map.add variable_repr_a all_constraints dbs.grouped_by_variable in
|
||||
let dbs = { dbs with grouped_by_variable} in
|
||||
let grouped_by_variable =
|
||||
Map.remove variable_repr_b dbs.grouped_by_variable in
|
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let dbs = { dbs with grouped_by_variable} in
|
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dbs
|
||||
)
|
52
src/passes/8-typer-new/heuristic_break_ctor.ml
Normal file
52
src/passes/8-typer-new/heuristic_break_ctor.ml
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@ -0,0 +1,52 @@
|
||||
(* selector / propagation rule for breaking down composite types
|
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* For now: break pair(a, b) = pair(c, d) into a = c, b = d *)
|
||||
|
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open Ast_typed.Misc
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||||
open Ast_typed.Types
|
||||
open Solver_types
|
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|
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let selector : (type_constraint_simpl, output_break_ctor) selector =
|
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(* find two rules with the shape x = k(var …) and x = k'(var' …) *)
|
||||
fun type_constraint_simpl dbs ->
|
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match type_constraint_simpl with
|
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SC_Constructor c ->
|
||||
(* finding other constraints related to the same type variable and
|
||||
with the same sort of constraint (constructor vs. constructor)
|
||||
is symmetric *)
|
||||
let other_cs = (Constraint_databases.get_constraints_related_to c.tv dbs).constructor in
|
||||
let other_cs = List.filter (fun (o : c_constructor_simpl) -> Var.equal c.tv o.tv) other_cs in
|
||||
(* TODO double-check the conditions in the propagator, we had a
|
||||
bug here because the selector was too permissive. *)
|
||||
let cs_pairs = List.map (fun x -> { a_k_var = c ; a_k'_var' = x }) other_cs in
|
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WasSelected cs_pairs
|
||||
| SC_Alias _ -> WasNotSelected (* TODO: ??? (beware: symmetry) *)
|
||||
| SC_Poly _ -> WasNotSelected (* TODO: ??? (beware: symmetry) *)
|
||||
| SC_Typeclass _ -> WasNotSelected
|
||||
|
||||
let propagator : output_break_ctor propagator =
|
||||
fun selected dbs ->
|
||||
let () = ignore (dbs) in (* this propagator doesn't need to use the dbs *)
|
||||
let a = selected.a_k_var in
|
||||
let b = selected.a_k'_var' in
|
||||
|
||||
(* The selector is expected to provice two constraints with the shape x = k(var …) and x = k'(var' …) *)
|
||||
assert (Var.equal (a : c_constructor_simpl).tv (b : c_constructor_simpl).tv);
|
||||
|
||||
(* produce constraints: *)
|
||||
|
||||
(* a.tv = b.tv *)
|
||||
let eq1 = c_equation { tsrc = "solver: propagator: break_ctor a" ; t = P_variable a.tv} { tsrc = "solver: propagator: break_ctor b" ; t = P_variable b.tv} "propagator: break_ctor" in
|
||||
(* a.c_tag = b.c_tag *)
|
||||
if (Solver_should_be_generated.compare_simple_c_constant a.c_tag b.c_tag) <> 0 then
|
||||
failwith (Format.asprintf "type error: incompatible types, not same ctor %a vs. %a (compare returns %d)"
|
||||
Solver_should_be_generated.debug_pp_c_constructor_simpl a
|
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Solver_should_be_generated.debug_pp_c_constructor_simpl b
|
||||
(Solver_should_be_generated.compare_simple_c_constant a.c_tag b.c_tag))
|
||||
else
|
||||
(* a.tv_list = b.tv_list *)
|
||||
if List.length a.tv_list <> List.length b.tv_list then
|
||||
failwith "type error: incompatible types, not same length"
|
||||
else
|
||||
let eqs3 = List.map2 (fun aa bb -> c_equation { tsrc = "solver: propagator: break_ctor aa" ; t = P_variable aa} { tsrc = "solver: propagator: break_ctor bb" ; t = P_variable bb} "propagator: break_ctor") a.tv_list b.tv_list in
|
||||
let eqs = eq1 :: eqs3 in
|
||||
(eqs , []) (* no new assignments *)
|
53
src/passes/8-typer-new/heuristic_specialize1.ml
Normal file
53
src/passes/8-typer-new/heuristic_specialize1.ml
Normal file
@ -0,0 +1,53 @@
|
||||
(* selector / propagation rule for specializing polymorphic types
|
||||
* For now: (x = forall y, z) and (x = k'(var' …))
|
||||
* produces the new constraint (z[x |-> k'(var' …)])
|
||||
* where [from |-> to] denotes substitution. *)
|
||||
|
||||
module Core = Typesystem.Core
|
||||
open Ast_typed.Misc
|
||||
open Ast_typed.Types
|
||||
open Solver_types
|
||||
|
||||
let selector : (type_constraint_simpl, output_specialize1) selector =
|
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(* find two rules with the shape (x = forall b, d) and x = k'(var' …) or vice versa *)
|
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(* TODO: do the same for two rules with the shape (a = forall b, d) and tc(a…) *)
|
||||
(* TODO: do the appropriate thing for two rules with the shape (a = forall b, d) and (a = forall b', d') *)
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||||
fun type_constraint_simpl dbs ->
|
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match type_constraint_simpl with
|
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SC_Constructor c ->
|
||||
(* vice versa *)
|
||||
let other_cs = (Constraint_databases.get_constraints_related_to c.tv dbs).poly in
|
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let other_cs = List.filter (fun (x : c_poly_simpl) -> Var.equal c.tv x.tv) other_cs in
|
||||
let cs_pairs = List.map (fun x -> { poly = x ; a_k_var = c }) other_cs in
|
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WasSelected cs_pairs
|
||||
| SC_Alias _ -> WasNotSelected (* TODO: ??? *)
|
||||
| SC_Poly p ->
|
||||
let other_cs = (Constraint_databases.get_constraints_related_to p.tv dbs).constructor in
|
||||
let other_cs = List.filter (fun (x : c_constructor_simpl) -> Var.equal x.tv p.tv) other_cs in
|
||||
let cs_pairs = List.map (fun x -> { poly = p ; a_k_var = x }) other_cs in
|
||||
WasSelected cs_pairs
|
||||
| SC_Typeclass _ -> WasNotSelected
|
||||
|
||||
let propagator : output_specialize1 propagator =
|
||||
fun selected dbs ->
|
||||
let () = ignore (dbs) in (* this propagator doesn't need to use the dbs *)
|
||||
let a = selected.poly in
|
||||
let b = selected.a_k_var in
|
||||
|
||||
(* The selector is expected to provide two constraints with the shape (x = forall y, z) and x = k'(var' …) *)
|
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assert (Var.equal (a : c_poly_simpl).tv (b : c_constructor_simpl).tv);
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||||
|
||||
(* produce constraints: *)
|
||||
|
||||
(* create a fresh existential variable to instantiate the polymorphic type y *)
|
||||
let fresh_existential = Core.fresh_type_variable () in
|
||||
(* Produce the constraint (b.tv = a.body[a.binder |-> fresh_existential])
|
||||
The substitution is obtained by immediately applying the forall. *)
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||||
let apply = {
|
||||
tsrc = "solver: propagator: specialize1 apply" ;
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||||
t = P_apply { tf = { tsrc = "solver: propagator: specialize1 tf" ; t = P_forall a.forall };
|
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targ = { tsrc = "solver: propagator: specialize1 targ" ; t = P_variable fresh_existential }} } in
|
||||
let (reduced, new_constraints) = Typelang.check_applied @@ Typelang.type_level_eval apply in
|
||||
let eq1 = c_equation { tsrc = "solver: propagator: specialize1 eq1" ; t = P_variable b.tv } reduced "propagator: specialize1" in
|
||||
let eqs = eq1 :: new_constraints in
|
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(eqs, []) (* no new assignments *)
|
126
src/passes/8-typer-new/normalizer.ml
Normal file
126
src/passes/8-typer-new/normalizer.ml
Normal file
@ -0,0 +1,126 @@
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module Core = Typesystem.Core
|
||||
module Map = RedBlackTrees.PolyMap
|
||||
open Ast_typed.Misc
|
||||
open Ast_typed.Types
|
||||
open Solver_types
|
||||
|
||||
(* sub-sub component: constraint normalizer: remove dupes and give structure
|
||||
* right now: union-find of unification vars
|
||||
* later: better database-like organisation of knowledge *)
|
||||
|
||||
(* Each normalizer returns an updated database (after storing the
|
||||
incoming constraint) and a list of constraints, used when the
|
||||
normalizer rewrites the constraints e.g. into simpler ones. *)
|
||||
(* TODO: If implemented in a language with decent sets, should be 'b set not 'b list. *)
|
||||
type ('a , 'b) normalizer = structured_dbs -> 'a -> (structured_dbs * 'b list)
|
||||
|
||||
(** Updates the dbs.all_constraints field when new constraints are
|
||||
discovered.
|
||||
|
||||
This field contains a list of all the constraints, without any form of
|
||||
grouping or sorting. *)
|
||||
let normalizer_all_constraints : (type_constraint_simpl , type_constraint_simpl) normalizer =
|
||||
fun dbs new_constraint ->
|
||||
({ dbs with all_constraints = new_constraint :: dbs.all_constraints } , [new_constraint])
|
||||
|
||||
(** Updates the dbs.grouped_by_variable field when new constraints are
|
||||
discovered.
|
||||
|
||||
This field contains a map from type variables to lists of
|
||||
constraints that are related to that variable (in other words, the
|
||||
key appears in the equation).
|
||||
*)
|
||||
let normalizer_grouped_by_variable : (type_constraint_simpl , type_constraint_simpl) normalizer =
|
||||
fun dbs new_constraint ->
|
||||
let store_constraint tvars constraints =
|
||||
let aux dbs (tvar : type_variable) =
|
||||
Constraint_databases.add_constraints_related_to tvar constraints dbs
|
||||
in List.fold_left aux dbs tvars
|
||||
in
|
||||
let dbs = match new_constraint with
|
||||
SC_Constructor ({tv ; c_tag = _ ; tv_list} as c) -> store_constraint (tv :: tv_list) {constructor = [c] ; poly = [] ; tc = []}
|
||||
| SC_Typeclass ({tc = _ ; args} as c) -> store_constraint args {constructor = [] ; poly = [] ; tc = [c]}
|
||||
| SC_Poly ({tv; forall = _} as c) -> store_constraint [tv] {constructor = [] ; poly = [c] ; tc = []}
|
||||
| SC_Alias { a; b } -> Constraint_databases.merge_constraints a b dbs
|
||||
in (dbs , [new_constraint])
|
||||
|
||||
(** Stores the first assinment ('a = ctor('b, …)) that is encountered.
|
||||
|
||||
Subsequent ('a = ctor('b2, …)) with the same 'a are ignored.
|
||||
|
||||
TOOD: are we checking somewhere that 'b … = 'b2 … ? *)
|
||||
let normalizer_assignments : (type_constraint_simpl , type_constraint_simpl) normalizer =
|
||||
fun dbs new_constraint ->
|
||||
match new_constraint with
|
||||
| SC_Constructor ({tv ; c_tag = _ ; tv_list = _} as c) ->
|
||||
let assignments = Map.update tv (function None -> Some c | e -> e) dbs.assignments in
|
||||
let dbs = {dbs with assignments} in
|
||||
(dbs , [new_constraint])
|
||||
| _ ->
|
||||
(dbs , [new_constraint])
|
||||
|
||||
(* TODO: at some point there may be uses of named type aliases (type
|
||||
foo = int; let x : foo = 42). These should be inlined. *)
|
||||
|
||||
(** This function converts constraints from type_constraint to
|
||||
type_constraint_simpl. The former has more possible cases, and the
|
||||
latter uses a more minimalistic constraint language.
|
||||
|
||||
It does not modify the dbs, and only rewrites the constraint
|
||||
|
||||
TODO: update the code to show that the dbs are always copied as-is
|
||||
*)
|
||||
let rec normalizer_simpl : (type_constraint , type_constraint_simpl) normalizer =
|
||||
fun dbs new_constraint ->
|
||||
let insert_fresh a b =
|
||||
let fresh = Core.fresh_type_variable () in
|
||||
let (dbs , cs1) = normalizer_simpl dbs (c_equation { tsrc = "solver: normalizer: simpl 1" ; t = P_variable fresh } a "normalizer: simpl 1") in
|
||||
let (dbs , cs2) = normalizer_simpl dbs (c_equation { tsrc = "solver: normalizer: simpl 2" ; t = P_variable fresh } b "normalizer: simpl 2") in
|
||||
(dbs , cs1 @ cs2) in
|
||||
let split_constant a c_tag args =
|
||||
let fresh_vars = List.map (fun _ -> Core.fresh_type_variable ()) args in
|
||||
let fresh_eqns = List.map (fun (v,t) -> c_equation { tsrc = "solver: normalizer: split_constant" ; t = P_variable v } t "normalizer: split_constant") (List.combine fresh_vars args) in
|
||||
let (dbs , recur) = List.fold_map_acc normalizer_simpl dbs fresh_eqns in
|
||||
(dbs , [SC_Constructor {tv=a;c_tag;tv_list=fresh_vars;reason_constr_simpl=Format.asprintf "normalizer: split constant %a = %a (%a)" Var.pp a Ast_typed.PP_generic.constant_tag c_tag (PP_helpers.list_sep Ast_typed.PP_generic.type_value (fun ppf () -> Format.fprintf ppf ", ")) args}] @ List.flatten recur) in
|
||||
let gather_forall a forall = (dbs , [SC_Poly { tv=a; forall ; reason_poly_simpl="normalizer: gather_forall"}]) in
|
||||
let gather_alias a b = (dbs , [SC_Alias { a ; b ; reason_alias_simpl="normalizer: gather_alias"}]) in
|
||||
let reduce_type_app a b =
|
||||
let (reduced, new_constraints) = Typelang.check_applied @@ Typelang.type_level_eval b in
|
||||
let (dbs , recur) = List.fold_map_acc normalizer_simpl dbs new_constraints in
|
||||
let (dbs , resimpl) = normalizer_simpl dbs (c_equation a reduced "normalizer: reduce_type_app") in (* Note: this calls recursively but cant't fall in the same case. *)
|
||||
(dbs , resimpl @ List.flatten recur) in
|
||||
let split_typeclass args tc =
|
||||
let fresh_vars = List.map (fun _ -> Core.fresh_type_variable ()) args in
|
||||
let fresh_eqns = List.map (fun (v,t) -> c_equation { tsrc = "solver: normalizer: split typeclass" ; t = P_variable v} t "normalizer: split_typeclass") (List.combine fresh_vars args) in
|
||||
let (dbs , recur) = List.fold_map_acc normalizer_simpl dbs fresh_eqns in
|
||||
(dbs, [SC_Typeclass { tc ; args = fresh_vars ; reason_typeclass_simpl="normalizer: split_typeclass"}] @ List.flatten recur) in
|
||||
|
||||
match new_constraint.c with
|
||||
(* break down (forall 'b, body = forall 'c, body') into ('a = forall 'b, body and 'a = forall 'c, body')) *)
|
||||
| C_equation {aval=({ tsrc = _ ; t = P_forall _ } as a); bval=({ tsrc = _ ; t = P_forall _ } as b)} -> insert_fresh a b
|
||||
(* break down (forall 'b, body = c(args)) into ('a = forall 'b, body and 'a = c(args)) *)
|
||||
| C_equation {aval=({ tsrc = _ ; t = P_forall _ } as a); bval=({ tsrc = _ ; t = P_constant _ } as b)} -> insert_fresh a b
|
||||
(* break down (c(args) = c'(args')) into ('a = c(args) and 'a = c'(args')) *)
|
||||
| C_equation {aval=({ tsrc = _ ; t = P_constant _ } as a); bval=({ tsrc = _ ; t = P_constant _ } as b)} -> insert_fresh a b
|
||||
(* break down (c(args) = forall 'b, body) into ('a = c(args) and 'a = forall 'b, body) *)
|
||||
| C_equation {aval=({ tsrc = _ ; t = P_constant _ } as a); bval=({ tsrc = _ ; t = P_forall _ } as b)} -> insert_fresh a b
|
||||
| C_equation {aval={ tsrc = _ ; t = P_forall forall }; bval={ tsrc = _ ; t = P_variable b }} -> gather_forall b forall
|
||||
| C_equation {aval={ tsrc = _ ; t = P_variable a }; bval={ tsrc = _ ; t = P_forall forall }} -> gather_forall a forall
|
||||
| C_equation {aval={ tsrc = _ ; t = P_variable a }; bval={ tsrc = _ ; t = P_variable b }} -> gather_alias a b
|
||||
| C_equation {aval={ tsrc = _ ; t = P_variable a }; bval={ tsrc = _ ; t = P_constant { p_ctor_tag; p_ctor_args } }} -> split_constant a p_ctor_tag p_ctor_args
|
||||
| C_equation {aval={ tsrc = _ ; t = P_constant {p_ctor_tag; p_ctor_args} }; bval={ tsrc = _ ; t = P_variable b }} -> split_constant b p_ctor_tag p_ctor_args
|
||||
(* Reduce the type-level application, and simplify the resulting constraint + the extra constraints (typeclasses) that appeared at the forall binding site *)
|
||||
| C_equation {aval=(_ as a); bval=({ tsrc = _ ; t = P_apply _ } as b)} -> reduce_type_app a b
|
||||
| C_equation {aval=({ tsrc = _ ; t = P_apply _ } as a); bval=(_ as b)} -> reduce_type_app b a
|
||||
(* break down (TC(args)) into (TC('a, …) and ('a = arg) …) *)
|
||||
| C_typeclass { tc_args; typeclass } -> split_typeclass tc_args typeclass
|
||||
| C_access_label { c_access_label_tval; accessor; c_access_label_tvar } -> let _todo = ignore (c_access_label_tval, accessor, c_access_label_tvar) in failwith "TODO" (* tv, label, result *)
|
||||
|
||||
let normalizers : type_constraint -> structured_dbs -> (structured_dbs , 'modified_constraint) state_list_monad =
|
||||
fun new_constraint dbs ->
|
||||
(fun x -> x)
|
||||
@@ lift normalizer_grouped_by_variable
|
||||
@@ lift normalizer_assignments
|
||||
@@ lift normalizer_all_constraints
|
||||
@@ lift normalizer_simpl
|
||||
@@ lift_state_list_monad ~state:dbs ~list:[new_constraint]
|
@ -1,634 +1,24 @@
|
||||
open Trace
|
||||
|
||||
module Core = Typesystem.Core
|
||||
module Map = RedBlackTrees.PolyMap
|
||||
module Set = RedBlackTrees.PolySet
|
||||
module UF = UnionFind.Poly2
|
||||
|
||||
module Wrap = Wrap
|
||||
open Wrap
|
||||
open Ast_typed.Misc
|
||||
|
||||
(* TODO: remove this, it's not used anymore *)
|
||||
module TypeVariable =
|
||||
struct
|
||||
type t = Core.type_variable
|
||||
let compare a b = Var.compare a b
|
||||
let to_string = (fun s -> Format.asprintf "%a" Var.pp s)
|
||||
|
||||
end
|
||||
|
||||
|
||||
|
||||
(*
|
||||
|
||||
Components:
|
||||
* assignments (passive data structure).
|
||||
Now: just a map from unification vars to types (pb: what about partial types?)
|
||||
maybe just local assignments (allow only vars as children of pair(α,β))
|
||||
* constraint propagation: (buch of constraints) → (new constraints * assignments)
|
||||
* sub-component: constraint selector (worklist / dynamic queries)
|
||||
* sub-sub component: constraint normalizer: remove dupes and give structure
|
||||
right now: union-find of unification vars
|
||||
later: better database-like organisation of knowledge
|
||||
* sub-sub component: lazy selector (don't re-try all selectors every time)
|
||||
For now: just re-try everytime
|
||||
* sub-component: propagation rule
|
||||
For now: break pair(a, b) = pair(c, d) into a = c, b = d
|
||||
* generalizer
|
||||
For now: ?
|
||||
|
||||
Workflow:
|
||||
Start with empty assignments and structured database
|
||||
Receive a new constraint
|
||||
For each normalizer:
|
||||
Use the pre-selector to see if it can be applied
|
||||
Apply the normalizer, get some new items to insert in the structured database
|
||||
For each propagator:
|
||||
Use the selector to query the structured database and see if it can be applied
|
||||
Apply the propagator, get some new constraints and assignments
|
||||
Add the new assignments to the data structure.
|
||||
|
||||
At some point (when?)
|
||||
For each generalizer:
|
||||
Use the generalizer's selector to see if it can be applied
|
||||
Apply the generalizer to produce a new type, possibly with some ∀s injected
|
||||
|
||||
*)
|
||||
|
||||
open Ast_typed.Types
|
||||
|
||||
module UnionFindWrapper = struct
|
||||
(* Light wrapper for API for grouped_by_variable in the structured
|
||||
db, to access it modulo unification variable aliases. *)
|
||||
let get_constraints_related_to : type_variable -> structured_dbs -> constraints =
|
||||
fun variable dbs ->
|
||||
let variable , aliases = UF.get_or_set variable dbs.aliases in
|
||||
let dbs = { dbs with aliases } in
|
||||
match Map.find_opt variable dbs.grouped_by_variable with
|
||||
Some l -> l
|
||||
| None -> {
|
||||
constructor = [] ;
|
||||
poly = [] ;
|
||||
tc = [] ;
|
||||
}
|
||||
let add_constraints_related_to : type_variable -> constraints -> structured_dbs -> structured_dbs =
|
||||
fun variable c dbs ->
|
||||
(* let (variable_repr , _height) , aliases = UF.get_or_set variable dbs.aliases in
|
||||
let dbs = { dbs with aliases } in *)
|
||||
let variable_repr , aliases = UF.get_or_set variable dbs.aliases in
|
||||
let dbs = { dbs with aliases } in
|
||||
let grouped_by_variable = Map.update variable_repr (function
|
||||
None -> Some c
|
||||
| Some (x : constraints) -> Some {
|
||||
constructor = c.constructor @ x.constructor ;
|
||||
poly = c.poly @ x.poly ;
|
||||
tc = c.tc @ x.tc ;
|
||||
})
|
||||
dbs.grouped_by_variable
|
||||
in
|
||||
let dbs = { dbs with grouped_by_variable } in
|
||||
dbs
|
||||
|
||||
let merge_constraints : type_variable -> type_variable -> structured_dbs -> structured_dbs =
|
||||
fun variable_a variable_b dbs ->
|
||||
(* get old representant for variable_a *)
|
||||
let variable_repr_a , aliases = UF.get_or_set variable_a dbs.aliases in
|
||||
let dbs = { dbs with aliases } in
|
||||
(* get old representant for variable_b *)
|
||||
let variable_repr_b , aliases = UF.get_or_set variable_b dbs.aliases in
|
||||
let dbs = { dbs with aliases } in
|
||||
|
||||
(* alias variable_a and variable_b together *)
|
||||
let aliases = UF.alias variable_a variable_b dbs.aliases in
|
||||
let dbs = { dbs with aliases } in
|
||||
|
||||
(* Replace the two entries in grouped_by_variable by a single one *)
|
||||
(
|
||||
let get_constraints ab =
|
||||
match Map.find_opt ab dbs.grouped_by_variable with
|
||||
| Some x -> x
|
||||
| None -> { constructor = [] ; poly = [] ; tc = [] } in
|
||||
let constraints_a = get_constraints variable_repr_a in
|
||||
let constraints_b = get_constraints variable_repr_b in
|
||||
let all_constraints = {
|
||||
constructor = constraints_a.constructor @ constraints_b.constructor ;
|
||||
poly = constraints_a.poly @ constraints_b.poly ;
|
||||
tc = constraints_a.tc @ constraints_b.tc ;
|
||||
} in
|
||||
let grouped_by_variable =
|
||||
Map.add variable_repr_a all_constraints dbs.grouped_by_variable in
|
||||
let dbs = { dbs with grouped_by_variable} in
|
||||
let grouped_by_variable =
|
||||
Map.remove variable_repr_b dbs.grouped_by_variable in
|
||||
let dbs = { dbs with grouped_by_variable} in
|
||||
dbs
|
||||
)
|
||||
end
|
||||
|
||||
(* sub-sub component: constraint normalizer: remove dupes and give structure
|
||||
* right now: union-find of unification vars
|
||||
* later: better database-like organisation of knowledge *)
|
||||
|
||||
(* Each normalizer returns an updated database (after storing the
|
||||
incoming constraint) and a list of constraints, used when the
|
||||
normalizer rewrites the constraints e.g. into simpler ones. *)
|
||||
(* TODO: If implemented in a language with decent sets, should be 'b set not 'b list. *)
|
||||
type ('a , 'b) normalizer = structured_dbs -> 'a -> (structured_dbs * 'b list)
|
||||
|
||||
(** Updates the dbs.all_constraints field when new constraints are
|
||||
discovered.
|
||||
|
||||
This field contains a list of all the constraints, without any form of
|
||||
grouping or sorting. *)
|
||||
let normalizer_all_constraints : (type_constraint_simpl , type_constraint_simpl) normalizer =
|
||||
fun dbs new_constraint ->
|
||||
({ dbs with all_constraints = new_constraint :: dbs.all_constraints } , [new_constraint])
|
||||
|
||||
(** Updates the dbs.grouped_by_variable field when new constraints are
|
||||
discovered.
|
||||
|
||||
This field contains a map from type variables to lists of
|
||||
constraints that are related to that variable (in other words, the
|
||||
key appears in the equation).
|
||||
*)
|
||||
let normalizer_grouped_by_variable : (type_constraint_simpl , type_constraint_simpl) normalizer =
|
||||
fun dbs new_constraint ->
|
||||
let store_constraint tvars constraints =
|
||||
let aux dbs (tvar : type_variable) =
|
||||
UnionFindWrapper.add_constraints_related_to tvar constraints dbs
|
||||
in List.fold_left aux dbs tvars
|
||||
in
|
||||
let dbs = match new_constraint with
|
||||
SC_Constructor ({tv ; c_tag = _ ; tv_list} as c) -> store_constraint (tv :: tv_list) {constructor = [c] ; poly = [] ; tc = []}
|
||||
| SC_Typeclass ({tc = _ ; args} as c) -> store_constraint args {constructor = [] ; poly = [] ; tc = [c]}
|
||||
| SC_Poly ({tv; forall = _} as c) -> store_constraint [tv] {constructor = [] ; poly = [c] ; tc = []}
|
||||
| SC_Alias { a; b } -> UnionFindWrapper.merge_constraints a b dbs
|
||||
in (dbs , [new_constraint])
|
||||
|
||||
(** Stores the first assinment ('a = ctor('b, …)) that is encountered.
|
||||
|
||||
Subsequent ('a = ctor('b2, …)) with the same 'a are ignored.
|
||||
|
||||
TOOD: are we checking somewhere that 'b … = 'b2 … ? *)
|
||||
let normalizer_assignments : (type_constraint_simpl , type_constraint_simpl) normalizer =
|
||||
fun dbs new_constraint ->
|
||||
match new_constraint with
|
||||
| SC_Constructor ({tv ; c_tag = _ ; tv_list = _} as c) ->
|
||||
let assignments = Map.update tv (function None -> Some c | e -> e) dbs.assignments in
|
||||
let dbs = {dbs with assignments} in
|
||||
(dbs , [new_constraint])
|
||||
| _ ->
|
||||
(dbs , [new_constraint])
|
||||
|
||||
(** Evaluates a type-leval application. For now, only supports
|
||||
immediate beta-reduction at the root of the type. *)
|
||||
let type_level_eval : type_value -> type_value * type_constraint list =
|
||||
fun tv -> Typesystem.Misc.Substitution.Pattern.eval_beta_root ~tv
|
||||
|
||||
(** Checks that a type-level application has been fully reduced. For
|
||||
now, only some simple cases like applications of `forall`
|
||||
<polymorphic types are allowed. *)
|
||||
let check_applied ((reduced, _new_constraints) as x) =
|
||||
let () = match reduced with
|
||||
{ tsrc = _ ; t = P_apply _ } -> failwith "internal error: shouldn't happen" (* failwith "could not reduce type-level application. Arbitrary type-level applications are not supported for now." *)
|
||||
| _ -> ()
|
||||
in x
|
||||
|
||||
(* TODO: at some point there may be uses of named type aliases (type
|
||||
foo = int; let x : foo = 42). These should be inlined. *)
|
||||
|
||||
(** This function converts constraints from type_constraint to
|
||||
type_constraint_simpl. The former has more possible cases, and the
|
||||
latter uses a more minimalistic constraint language.
|
||||
|
||||
It does not modify the dbs, and only rewrites the constraint
|
||||
|
||||
TODO: update the code to show that the dbs are always copied as-is
|
||||
*)
|
||||
let rec normalizer_simpl : (type_constraint , type_constraint_simpl) normalizer =
|
||||
fun dbs new_constraint ->
|
||||
let insert_fresh a b =
|
||||
let fresh = Core.fresh_type_variable () in
|
||||
let (dbs , cs1) = normalizer_simpl dbs (c_equation { tsrc = "solver: normalizer: simpl 1" ; t = P_variable fresh } a "normalizer: simpl 1") in
|
||||
let (dbs , cs2) = normalizer_simpl dbs (c_equation { tsrc = "solver: normalizer: simpl 2" ; t = P_variable fresh } b "normalizer: simpl 2") in
|
||||
(dbs , cs1 @ cs2) in
|
||||
let split_constant a c_tag args =
|
||||
let fresh_vars = List.map (fun _ -> Core.fresh_type_variable ()) args in
|
||||
let fresh_eqns = List.map (fun (v,t) -> c_equation { tsrc = "solver: normalizer: split_constant" ; t = P_variable v } t "normalizer: split_constant") (List.combine fresh_vars args) in
|
||||
let (dbs , recur) = List.fold_map_acc normalizer_simpl dbs fresh_eqns in
|
||||
(dbs , [SC_Constructor {tv=a;c_tag;tv_list=fresh_vars;reason_constr_simpl=Format.asprintf "normalizer: split constant %a = %a (%a)" Var.pp a Ast_typed.PP_generic.constant_tag c_tag (PP_helpers.list_sep Ast_typed.PP_generic.type_value (fun ppf () -> Format.fprintf ppf ", ")) args}] @ List.flatten recur) in
|
||||
let gather_forall a forall = (dbs , [SC_Poly { tv=a; forall ; reason_poly_simpl="normalizer: gather_forall"}]) in
|
||||
let gather_alias a b = (dbs , [SC_Alias { a ; b ; reason_alias_simpl="normalizer: gather_alias"}]) in
|
||||
let reduce_type_app a b =
|
||||
let (reduced, new_constraints) = check_applied @@ type_level_eval b in
|
||||
let (dbs , recur) = List.fold_map_acc normalizer_simpl dbs new_constraints in
|
||||
let (dbs , resimpl) = normalizer_simpl dbs (c_equation a reduced "normalizer: reduce_type_app") in (* Note: this calls recursively but cant't fall in the same case. *)
|
||||
(dbs , resimpl @ List.flatten recur) in
|
||||
let split_typeclass args tc =
|
||||
let fresh_vars = List.map (fun _ -> Core.fresh_type_variable ()) args in
|
||||
let fresh_eqns = List.map (fun (v,t) -> c_equation { tsrc = "solver: normalizer: split typeclass" ; t = P_variable v} t "normalizer: split_typeclass") (List.combine fresh_vars args) in
|
||||
let (dbs , recur) = List.fold_map_acc normalizer_simpl dbs fresh_eqns in
|
||||
(dbs, [SC_Typeclass { tc ; args = fresh_vars ; reason_typeclass_simpl="normalizer: split_typeclass"}] @ List.flatten recur) in
|
||||
|
||||
match new_constraint.c with
|
||||
(* break down (forall 'b, body = forall 'c, body') into ('a = forall 'b, body and 'a = forall 'c, body')) *)
|
||||
| C_equation {aval=({ tsrc = _ ; t = P_forall _ } as a); bval=({ tsrc = _ ; t = P_forall _ } as b)} -> insert_fresh a b
|
||||
(* break down (forall 'b, body = c(args)) into ('a = forall 'b, body and 'a = c(args)) *)
|
||||
| C_equation {aval=({ tsrc = _ ; t = P_forall _ } as a); bval=({ tsrc = _ ; t = P_constant _ } as b)} -> insert_fresh a b
|
||||
(* break down (c(args) = c'(args')) into ('a = c(args) and 'a = c'(args')) *)
|
||||
| C_equation {aval=({ tsrc = _ ; t = P_constant _ } as a); bval=({ tsrc = _ ; t = P_constant _ } as b)} -> insert_fresh a b
|
||||
(* break down (c(args) = forall 'b, body) into ('a = c(args) and 'a = forall 'b, body) *)
|
||||
| C_equation {aval=({ tsrc = _ ; t = P_constant _ } as a); bval=({ tsrc = _ ; t = P_forall _ } as b)} -> insert_fresh a b
|
||||
| C_equation {aval={ tsrc = _ ; t = P_forall forall }; bval={ tsrc = _ ; t = P_variable b }} -> gather_forall b forall
|
||||
| C_equation {aval={ tsrc = _ ; t = P_variable a }; bval={ tsrc = _ ; t = P_forall forall }} -> gather_forall a forall
|
||||
| C_equation {aval={ tsrc = _ ; t = P_variable a }; bval={ tsrc = _ ; t = P_variable b }} -> gather_alias a b
|
||||
| C_equation {aval={ tsrc = _ ; t = P_variable a }; bval={ tsrc = _ ; t = P_constant { p_ctor_tag; p_ctor_args } }} -> split_constant a p_ctor_tag p_ctor_args
|
||||
| C_equation {aval={ tsrc = _ ; t = P_constant {p_ctor_tag; p_ctor_args} }; bval={ tsrc = _ ; t = P_variable b }} -> split_constant b p_ctor_tag p_ctor_args
|
||||
(* Reduce the type-level application, and simplify the resulting constraint + the extra constraints (typeclasses) that appeared at the forall binding site *)
|
||||
| C_equation {aval=(_ as a); bval=({ tsrc = _ ; t = P_apply _ } as b)} -> reduce_type_app a b
|
||||
| C_equation {aval=({ tsrc = _ ; t = P_apply _ } as a); bval=(_ as b)} -> reduce_type_app b a
|
||||
(* break down (TC(args)) into (TC('a, …) and ('a = arg) …) *)
|
||||
| C_typeclass { tc_args; typeclass } -> split_typeclass tc_args typeclass
|
||||
| C_access_label { c_access_label_tval; accessor; c_access_label_tvar } -> let _todo = ignore (c_access_label_tval, accessor, c_access_label_tvar) in failwith "TODO" (* tv, label, result *)
|
||||
|
||||
(* Random notes from live discussion. Kept here to include bits as a rationale later on / remind me of the discussion in the short term.
|
||||
* Feel free to erase if it rots here for too long.
|
||||
*
|
||||
* function (zetype, zevalue) { if (typeof(zevalue) != zetype) { ohlàlà; } else { return zevalue; } }
|
||||
*
|
||||
* let f = (fun {a : Type} (v : a) -> v)
|
||||
*
|
||||
* (forall 'a, 'a -> 'a) ~ (int -> int)
|
||||
* (forall {a : Type}, forall (v : a), a) ~ (forall (v : int), int)
|
||||
* ({a : Type} -> (v : a) -> a) ~ ((v : int) -> int)
|
||||
*
|
||||
* (@f int)
|
||||
*
|
||||
*
|
||||
* 'c 'c
|
||||
* 'd -> 'e && 'c ~ d && 'c ~ 'e
|
||||
* 'c -> 'c ???????????????wtf---->???????????? [ scope of 'c is fun z ]
|
||||
* 'tid ~ (forall 'c, 'c -> 'c)
|
||||
* let id = (fun z -> z) in
|
||||
* let ii = (fun z -> z + 0) : (int -> int) in
|
||||
*
|
||||
* 'a 'b ['a ~ 'b] 'a 'b
|
||||
* 'a 'a 'a 'a 'a
|
||||
* (forall 'a, 'a -> 'a -> 'a ) 'tid 'tid
|
||||
*
|
||||
* 'tid -> 'tid -> 'tid
|
||||
*
|
||||
* (forall 'a, 'a -> 'a -> 'a ) (forall 'c1, 'c1 -> 'c1) (int -> int)
|
||||
* (forall 'c1, 'c1 -> 'c1)~(int -> int)
|
||||
* ('c1 -> 'c1) ~ (int -> int)
|
||||
* (fun x y -> if random then x else y) id ii as toto
|
||||
* id "foo" *)
|
||||
|
||||
type ('state, 'elt) state_list_monad = { state: 'state ; list : 'elt list }
|
||||
let lift_state_list_monad ~state ~list = { state ; list }
|
||||
let lift f =
|
||||
fun { state ; list } ->
|
||||
let (new_state , new_lists) = List.fold_map_acc f state list in
|
||||
{ state = new_state ; list = List.flatten new_lists }
|
||||
|
||||
(* TODO: move this to the List module *)
|
||||
let named_fold_left f ~acc ~lst = List.fold_left (fun acc elt -> f ~acc ~elt) acc lst
|
||||
|
||||
module Fun = struct let id x = x end (* in stdlib as of 4.08, we're in 4.07 for now *)
|
||||
|
||||
let normalizers : type_constraint -> structured_dbs -> (structured_dbs , 'modified_constraint) state_list_monad =
|
||||
fun new_constraint dbs ->
|
||||
Fun.id
|
||||
@@ lift normalizer_grouped_by_variable
|
||||
@@ lift normalizer_assignments
|
||||
@@ lift normalizer_all_constraints
|
||||
@@ lift normalizer_simpl
|
||||
@@ lift_state_list_monad ~state:dbs ~list:[new_constraint]
|
||||
open Solver_types
|
||||
|
||||
(* sub-sub component: lazy selector (don't re-try all selectors every time)
|
||||
* For now: just re-try everytime *)
|
||||
|
||||
type 'old_constraint_type selector_input = 'old_constraint_type (* some info about the constraint just added, so that we know what to look for *)
|
||||
type 'selector_output selector_outputs =
|
||||
WasSelected of 'selector_output list
|
||||
| WasNotSelected
|
||||
type new_constraints = type_constraint list
|
||||
type new_assignments = c_constructor_simpl list
|
||||
|
||||
type ('old_constraint_type, 'selector_output) selector = 'old_constraint_type selector_input -> structured_dbs -> 'selector_output selector_outputs
|
||||
type 'selector_output propagator = 'selector_output -> structured_dbs -> new_constraints * new_assignments
|
||||
|
||||
(* selector / propagation rule for breaking down composite types
|
||||
* For now: break pair(a, b) = pair(c, d) into a = c, b = d *)
|
||||
|
||||
let selector_break_ctor : (type_constraint_simpl, output_break_ctor) selector =
|
||||
(* find two rules with the shape x = k(var …) and x = k'(var' …) *)
|
||||
fun type_constraint_simpl dbs ->
|
||||
match type_constraint_simpl with
|
||||
SC_Constructor c ->
|
||||
(* finding other constraints related to the same type variable and
|
||||
with the same sort of constraint (constructor vs. constructor)
|
||||
is symmetric *)
|
||||
let other_cs = (UnionFindWrapper.get_constraints_related_to c.tv dbs).constructor in
|
||||
let other_cs = List.filter (fun (o : c_constructor_simpl) -> Var.equal c.tv o.tv) other_cs in
|
||||
(* TODO double-check the conditions in the propagator, we had a
|
||||
bug here because the selector was too permissive. *)
|
||||
let cs_pairs = List.map (fun x -> { a_k_var = c ; a_k'_var' = x }) other_cs in
|
||||
WasSelected cs_pairs
|
||||
| SC_Alias _ -> WasNotSelected (* TODO: ??? (beware: symmetry) *)
|
||||
| SC_Poly _ -> WasNotSelected (* TODO: ??? (beware: symmetry) *)
|
||||
| SC_Typeclass _ -> WasNotSelected
|
||||
|
||||
(* TODO: move this to a more appropriate place and/or auto-generate it. *)
|
||||
let compare_simple_c_constant = function
|
||||
| C_arrow -> (function
|
||||
(* N/A -> 1 *)
|
||||
| C_arrow -> 0
|
||||
| C_option | C_record | C_variant | C_map | C_big_map | C_list | C_set | C_unit | C_string | C_nat | C_mutez | C_timestamp | C_int | C_address | C_bytes | C_key_hash | C_key | C_signature | C_operation | C_contract | C_chain_id -> -1)
|
||||
| C_option -> (function
|
||||
| C_arrow -> 1
|
||||
| C_option -> 0
|
||||
| C_record | C_variant | C_map | C_big_map | C_list | C_set | C_unit | C_string | C_nat | C_mutez | C_timestamp | C_int | C_address | C_bytes | C_key_hash | C_key | C_signature | C_operation | C_contract | C_chain_id -> -1)
|
||||
| C_record -> (function
|
||||
| C_arrow | C_option -> 1
|
||||
| C_record -> 0
|
||||
| C_variant | C_map | C_big_map | C_list | C_set | C_unit | C_string | C_nat | C_mutez | C_timestamp | C_int | C_address | C_bytes | C_key_hash | C_key | C_signature | C_operation | C_contract | C_chain_id -> -1)
|
||||
| C_variant -> (function
|
||||
| C_arrow | C_option | C_record -> 1
|
||||
| C_variant -> 0
|
||||
| C_map | C_big_map | C_list | C_set | C_unit | C_string | C_nat | C_mutez | C_timestamp | C_int | C_address | C_bytes | C_key_hash | C_key | C_signature | C_operation | C_contract | C_chain_id -> -1)
|
||||
| C_map -> (function
|
||||
| C_arrow | C_option | C_record | C_variant -> 1
|
||||
| C_map -> 0
|
||||
| C_big_map | C_list | C_set | C_unit | C_string | C_nat | C_mutez | C_timestamp | C_int | C_address | C_bytes | C_key_hash | C_key | C_signature | C_operation | C_contract | C_chain_id -> -1)
|
||||
| C_big_map -> (function
|
||||
| C_arrow | C_option | C_record | C_variant | C_map -> 1
|
||||
| C_big_map -> 0
|
||||
| C_list | C_set | C_unit | C_string | C_nat | C_mutez | C_timestamp | C_int | C_address | C_bytes | C_key_hash | C_key | C_signature | C_operation | C_contract | C_chain_id -> -1)
|
||||
| C_list -> (function
|
||||
| C_arrow | C_option | C_record | C_variant | C_map | C_big_map -> 1
|
||||
| C_list -> 0
|
||||
| C_set | C_unit | C_string | C_nat | C_mutez | C_timestamp | C_int | C_address | C_bytes | C_key_hash | C_key | C_signature | C_operation | C_contract | C_chain_id -> -1)
|
||||
| C_set -> (function
|
||||
| C_arrow | C_option | C_record | C_variant | C_map | C_big_map | C_list -> 1
|
||||
| C_set -> 0
|
||||
| C_unit | C_string | C_nat | C_mutez | C_timestamp | C_int | C_address | C_bytes | C_key_hash | C_key | C_signature | C_operation | C_contract | C_chain_id -> -1)
|
||||
| C_unit -> (function
|
||||
| C_arrow | C_option | C_record | C_variant | C_map | C_big_map | C_list | C_set -> 1
|
||||
| C_unit -> 0
|
||||
| C_string | C_nat | C_mutez | C_timestamp | C_int | C_address | C_bytes | C_key_hash | C_key | C_signature | C_operation | C_contract | C_chain_id -> -1)
|
||||
| C_string -> (function
|
||||
| C_arrow | C_option | C_record | C_variant | C_map | C_big_map | C_list | C_set | C_unit -> 1
|
||||
| C_string -> 0
|
||||
| C_nat | C_mutez | C_timestamp | C_int | C_address | C_bytes | C_key_hash | C_key | C_signature | C_operation | C_contract | C_chain_id -> -1)
|
||||
| C_nat -> (function
|
||||
| C_arrow | C_option | C_record | C_variant | C_map | C_big_map | C_list | C_set | C_unit | C_string -> 1
|
||||
| C_nat -> 0
|
||||
| C_mutez | C_timestamp | C_int | C_address | C_bytes | C_key_hash | C_key | C_signature | C_operation | C_contract | C_chain_id -> -1)
|
||||
| C_mutez -> (function
|
||||
| C_arrow | C_option | C_record | C_variant | C_map | C_big_map | C_list | C_set | C_unit | C_string | C_nat -> 1
|
||||
| C_mutez -> 0
|
||||
| C_timestamp | C_int | C_address | C_bytes | C_key_hash | C_key | C_signature | C_operation | C_contract | C_chain_id -> -1)
|
||||
| C_timestamp -> (function
|
||||
| C_arrow | C_option | C_record | C_variant | C_map | C_big_map | C_list | C_set | C_unit | C_string | C_nat | C_mutez -> 1
|
||||
| C_timestamp -> 0
|
||||
| C_int | C_address | C_bytes | C_key_hash | C_key | C_signature | C_operation | C_contract | C_chain_id -> -1)
|
||||
| C_int -> (function
|
||||
| C_arrow | C_option | C_record | C_variant | C_map | C_big_map | C_list | C_set | C_unit | C_string | C_nat | C_mutez | C_timestamp -> 1
|
||||
| C_int -> 0
|
||||
| C_address | C_bytes | C_key_hash | C_key | C_signature | C_operation | C_contract | C_chain_id -> -1)
|
||||
| C_address -> (function
|
||||
| C_arrow | C_option | C_record | C_variant | C_map | C_big_map | C_list | C_set | C_unit | C_string | C_nat | C_mutez | C_timestamp | C_int -> 1
|
||||
| C_address -> 0
|
||||
| C_bytes | C_key_hash | C_key | C_signature | C_operation | C_contract | C_chain_id -> -1)
|
||||
| C_bytes -> (function
|
||||
| C_arrow | C_option | C_record | C_variant | C_map | C_big_map | C_list | C_set | C_unit | C_string | C_nat | C_mutez | C_timestamp | C_int | C_address -> 1
|
||||
| C_bytes -> 0
|
||||
| C_key_hash | C_key | C_signature | C_operation | C_contract | C_chain_id -> -1)
|
||||
| C_key_hash -> (function
|
||||
| C_arrow | C_option | C_record | C_variant | C_map | C_big_map | C_list | C_set | C_unit | C_string | C_nat | C_mutez | C_timestamp | C_int | C_address | C_bytes -> 1
|
||||
| C_key_hash -> 0
|
||||
| C_key | C_signature | C_operation | C_contract | C_chain_id -> -1)
|
||||
| C_key -> (function
|
||||
| C_arrow | C_option | C_record | C_variant | C_map | C_big_map | C_list | C_set | C_unit | C_string | C_nat | C_mutez | C_timestamp | C_int | C_address | C_bytes | C_key_hash -> 1
|
||||
| C_key -> 0
|
||||
| C_signature | C_operation | C_contract | C_chain_id -> -1)
|
||||
| C_signature -> (function
|
||||
| C_arrow | C_option | C_record | C_variant | C_map | C_big_map | C_list | C_set | C_unit | C_string | C_nat | C_mutez | C_timestamp | C_int | C_address | C_bytes | C_key_hash | C_key -> 1
|
||||
| C_signature -> 0
|
||||
| C_operation | C_contract | C_chain_id -> -1)
|
||||
| C_operation -> (function
|
||||
| C_arrow | C_option | C_record | C_variant | C_map | C_big_map | C_list | C_set | C_unit | C_string | C_nat | C_mutez | C_timestamp | C_int | C_address | C_bytes | C_key_hash | C_key | C_signature -> 1
|
||||
| C_operation -> 0
|
||||
| C_contract | C_chain_id -> -1)
|
||||
| C_contract -> (function
|
||||
| C_arrow | C_option | C_record | C_variant | C_map | C_big_map | C_list | C_set | C_unit | C_string | C_nat | C_mutez | C_timestamp | C_int | C_address | C_bytes | C_key_hash | C_key | C_signature | C_operation -> 1
|
||||
| C_contract -> 0
|
||||
| C_chain_id -> -1)
|
||||
| C_chain_id -> (function
|
||||
| C_arrow | C_option | C_record | C_variant | C_map | C_big_map | C_list | C_set | C_unit | C_string | C_nat | C_mutez | C_timestamp | C_int | C_address | C_bytes | C_key_hash | C_key | C_signature | C_operation | C_contract -> 1
|
||||
| C_chain_id -> 0
|
||||
(* N/A -> -1 *)
|
||||
)
|
||||
|
||||
(* Using a pretty-printer from the PP.ml module creates a dependency
|
||||
loop, so the one that we need temporarily for debugging purposes
|
||||
has been copied here. *)
|
||||
let debug_pp_constant : _ -> constant_tag -> unit = fun ppf c_tag ->
|
||||
let ct = match c_tag with
|
||||
| T.C_arrow -> "arrow"
|
||||
| T.C_option -> "option"
|
||||
| T.C_record -> failwith "record"
|
||||
| T.C_variant -> failwith "variant"
|
||||
| T.C_map -> "map"
|
||||
| T.C_big_map -> "big_map"
|
||||
| T.C_list -> "list"
|
||||
| T.C_set -> "set"
|
||||
| T.C_unit -> "unit"
|
||||
| T.C_string -> "string"
|
||||
| T.C_nat -> "nat"
|
||||
| T.C_mutez -> "mutez"
|
||||
| T.C_timestamp -> "timestamp"
|
||||
| T.C_int -> "int"
|
||||
| T.C_address -> "address"
|
||||
| T.C_bytes -> "bytes"
|
||||
| T.C_key_hash -> "key_hash"
|
||||
| T.C_key -> "key"
|
||||
| T.C_signature -> "signature"
|
||||
| T.C_operation -> "operation"
|
||||
| T.C_contract -> "contract"
|
||||
| T.C_chain_id -> "chain_id"
|
||||
in
|
||||
Format.fprintf ppf "%s" ct
|
||||
|
||||
let debug_pp_c_constructor_simpl ppf { tv; c_tag; tv_list } =
|
||||
Format.fprintf ppf "CTOR %a %a(%a)" Var.pp tv debug_pp_constant c_tag PP_helpers.(list_sep Var.pp (const " , ")) tv_list
|
||||
|
||||
let propagator_break_ctor : output_break_ctor propagator =
|
||||
fun selected dbs ->
|
||||
let () = ignore (dbs) in (* this propagator doesn't need to use the dbs *)
|
||||
let a = selected.a_k_var in
|
||||
let b = selected.a_k'_var' in
|
||||
|
||||
(* The selector is expected to provice two constraints with the shape x = k(var …) and x = k'(var' …) *)
|
||||
assert (Var.equal (a : c_constructor_simpl).tv (b : c_constructor_simpl).tv);
|
||||
|
||||
(* produce constraints: *)
|
||||
|
||||
(* a.tv = b.tv *)
|
||||
let eq1 = c_equation { tsrc = "solver: propagator: break_ctor a" ; t = P_variable a.tv} { tsrc = "solver: propagator: break_ctor b" ; t = P_variable b.tv} "propagator: break_ctor" in
|
||||
(* a.c_tag = b.c_tag *)
|
||||
if (compare_simple_c_constant a.c_tag b.c_tag) <> 0 then
|
||||
failwith (Format.asprintf "type error: incompatible types, not same ctor %a vs. %a (compare returns %d)" debug_pp_c_constructor_simpl a debug_pp_c_constructor_simpl b (compare_simple_c_constant a.c_tag b.c_tag))
|
||||
else
|
||||
(* a.tv_list = b.tv_list *)
|
||||
if List.length a.tv_list <> List.length b.tv_list then
|
||||
failwith "type error: incompatible types, not same length"
|
||||
else
|
||||
let eqs3 = List.map2 (fun aa bb -> c_equation { tsrc = "solver: propagator: break_ctor aa" ; t = P_variable aa} { tsrc = "solver: propagator: break_ctor bb" ; t = P_variable bb} "propagator: break_ctor") a.tv_list b.tv_list in
|
||||
let eqs = eq1 :: eqs3 in
|
||||
(eqs , []) (* no new assignments *)
|
||||
|
||||
(* TODO : with our selectors, the selection depends on the order in which the constraints are added :-( :-( :-( :-(
|
||||
We need to return a lazy stream of constraints. *)
|
||||
|
||||
|
||||
|
||||
let (<?) ca cb =
|
||||
if ca = 0 then cb () else ca
|
||||
let rec compare_list f = function
|
||||
| hd1::tl1 -> (function
|
||||
[] -> 1
|
||||
| hd2::tl2 ->
|
||||
f hd1 hd2 <? fun () ->
|
||||
compare_list f tl1 tl2)
|
||||
| [] -> (function [] -> 0 | _::_ -> -1) (* This follows the behaviour of Pervasives.compare for lists of different length *)
|
||||
let compare_type_variable a b =
|
||||
Var.compare a b
|
||||
let compare_label (a:label) (b:label) =
|
||||
let Label a = a in
|
||||
let Label b = b in
|
||||
String.compare a b
|
||||
let rec compare_typeclass a b = compare_list (compare_list compare_type_expression) a b
|
||||
and compare_type_expression { tsrc = _ ; t = ta } { tsrc = _ ; t = tb } =
|
||||
(* Note: this comparison ignores the tsrc, the idea is that types
|
||||
will often be compared to see if they are the same, regardless of
|
||||
where the type comes from .*)
|
||||
compare_type_expression_ ta tb
|
||||
and compare_type_expression_ = function
|
||||
| P_forall { binder=a1; constraints=a2; body=a3 } -> (function
|
||||
| P_forall { binder=b1; constraints=b2; body=b3 } ->
|
||||
compare_type_variable a1 b1 <? fun () ->
|
||||
compare_list compare_type_constraint a2 b2 <? fun () ->
|
||||
compare_type_expression a3 b3
|
||||
| P_variable _ -> -1
|
||||
| P_constant _ -> -1
|
||||
| P_apply _ -> -1)
|
||||
| P_variable a -> (function
|
||||
| P_forall _ -> 1
|
||||
| P_variable b -> compare_type_variable a b
|
||||
| P_constant _ -> -1
|
||||
| P_apply _ -> -1)
|
||||
| P_constant { p_ctor_tag=a1; p_ctor_args=a2 } -> (function
|
||||
| P_forall _ -> 1
|
||||
| P_variable _ -> 1
|
||||
| P_constant { p_ctor_tag=b1; p_ctor_args=b2 } -> compare_simple_c_constant a1 b1 <? fun () -> compare_list compare_type_expression a2 b2
|
||||
| P_apply _ -> -1)
|
||||
| P_apply { tf=a1; targ=a2 } -> (function
|
||||
| P_forall _ -> 1
|
||||
| P_variable _ -> 1
|
||||
| P_constant _ -> 1
|
||||
| P_apply { tf=b1; targ=b2 } -> compare_type_expression a1 b1 <? fun () -> compare_type_expression a2 b2)
|
||||
and compare_type_constraint = fun { c = ca ; reason = ra } { c = cb ; reason = rb } ->
|
||||
let c = compare_type_constraint_ ca cb in
|
||||
if c < 0 then -1
|
||||
else if c = 0 then String.compare ra rb
|
||||
else 1
|
||||
and compare_type_constraint_ = function
|
||||
| C_equation { aval=a1; bval=a2 } -> (function
|
||||
| C_equation { aval=b1; bval=b2 } -> compare_type_expression a1 b1 <? fun () -> compare_type_expression a2 b2
|
||||
| C_typeclass _ -> -1
|
||||
| C_access_label _ -> -1)
|
||||
| C_typeclass { tc_args=a1; typeclass=a2 } -> (function
|
||||
| C_equation _ -> 1
|
||||
| C_typeclass { tc_args=b1; typeclass=b2 } -> compare_list compare_type_expression a1 b1 <? fun () -> compare_typeclass a2 b2
|
||||
| C_access_label _ -> -1)
|
||||
| C_access_label { c_access_label_tval=a1; accessor=a2; c_access_label_tvar=a3 } -> (function
|
||||
| C_equation _ -> 1
|
||||
| C_typeclass _ -> 1
|
||||
| C_access_label { c_access_label_tval=b1; accessor=b2; c_access_label_tvar=b3 } -> compare_type_expression a1 b1 <? fun () -> compare_label a2 b2 <? fun () -> compare_type_variable a3 b3)
|
||||
let compare_type_constraint_list = compare_list compare_type_constraint
|
||||
let compare_p_forall
|
||||
{ binder = a1; constraints = a2; body = a3 }
|
||||
{ binder = b1; constraints = b2; body = b3 } =
|
||||
compare_type_variable a1 b1 <? fun () ->
|
||||
compare_type_constraint_list a2 b2 <? fun () ->
|
||||
compare_type_expression a3 b3
|
||||
let compare_c_poly_simpl { tv = a1; forall = a2 } { tv = b1; forall = b2 } =
|
||||
compare_type_variable a1 b1 <? fun () ->
|
||||
compare_p_forall a2 b2
|
||||
let compare_c_constructor_simpl { reason_constr_simpl = _ ; tv=a1; c_tag=a2; tv_list=a3 } { reason_constr_simpl = _ ; tv=b1; c_tag=b2; tv_list=b3 } =
|
||||
(* We do not compare the reasons, as they are only for debugging and
|
||||
not part of the type *)
|
||||
compare_type_variable a1 b1 <? fun () -> compare_simple_c_constant a2 b2 <? fun () -> compare_list compare_type_variable a3 b3
|
||||
|
||||
let compare_output_specialize1 { poly = a1; a_k_var = a2 } { poly = b1; a_k_var = b2 } =
|
||||
compare_c_poly_simpl a1 b1 <? fun () ->
|
||||
compare_c_constructor_simpl a2 b2
|
||||
|
||||
let compare_output_break_ctor { a_k_var=a1; a_k'_var'=a2 } { a_k_var=b1; a_k'_var'=b2 } =
|
||||
compare_c_constructor_simpl a1 b1 <? fun () -> compare_c_constructor_simpl a2 b2
|
||||
|
||||
let selector_specialize1 : (type_constraint_simpl, output_specialize1) selector =
|
||||
(* find two rules with the shape (x = forall b, d) and x = k'(var' …) or vice versa *)
|
||||
(* TODO: do the same for two rules with the shape (a = forall b, d) and tc(a…) *)
|
||||
(* TODO: do the appropriate thing for two rules with the shape (a = forall b, d) and (a = forall b', d') *)
|
||||
fun type_constraint_simpl dbs ->
|
||||
match type_constraint_simpl with
|
||||
SC_Constructor c ->
|
||||
(* vice versa *)
|
||||
let other_cs = (UnionFindWrapper.get_constraints_related_to c.tv dbs).poly in
|
||||
let other_cs = List.filter (fun (x : c_poly_simpl) -> Var.equal c.tv x.tv) other_cs in
|
||||
let cs_pairs = List.map (fun x -> { poly = x ; a_k_var = c }) other_cs in
|
||||
WasSelected cs_pairs
|
||||
| SC_Alias _ -> WasNotSelected (* TODO: ??? *)
|
||||
| SC_Poly p ->
|
||||
let other_cs = (UnionFindWrapper.get_constraints_related_to p.tv dbs).constructor in
|
||||
let other_cs = List.filter (fun (x : c_constructor_simpl) -> Var.equal x.tv p.tv) other_cs in
|
||||
let cs_pairs = List.map (fun x -> { poly = p ; a_k_var = x }) other_cs in
|
||||
WasSelected cs_pairs
|
||||
| SC_Typeclass _ -> WasNotSelected
|
||||
|
||||
let propagator_specialize1 : output_specialize1 propagator =
|
||||
fun selected dbs ->
|
||||
let () = ignore (dbs) in (* this propagator doesn't need to use the dbs *)
|
||||
let a = selected.poly in
|
||||
let b = selected.a_k_var in
|
||||
|
||||
(* The selector is expected to provice two constraints with the shape (x = forall y, z) and x = k'(var' …) *)
|
||||
assert (Var.equal (a : c_poly_simpl).tv (b : c_constructor_simpl).tv);
|
||||
|
||||
(* produce constraints: *)
|
||||
|
||||
(* create a fresh existential variable to instantiate the polymorphic type y *)
|
||||
let fresh_existential = Core.fresh_type_variable () in
|
||||
(* Produce the constraint (b.tv = a.body[a.binder |-> fresh_existential])
|
||||
The substitution is obtained by immediately applying the forall. *)
|
||||
let apply = { tsrc = "solver: propagator: specialize1 apply" ; t = P_apply {tf = { tsrc = "solver: propagator: specialize1 tf" ; t = P_forall a.forall }; targ = { tsrc = "solver: propagator: specialize1 targ" ; t = P_variable fresh_existential }} } in
|
||||
let (reduced, new_constraints) = check_applied @@ type_level_eval apply in
|
||||
let eq1 = c_equation { tsrc = "solver: propagator: specialize1 eq1" ; t = P_variable b.tv } reduced "propagator: specialize1" in
|
||||
let eqs = eq1 :: new_constraints in
|
||||
(eqs, []) (* no new assignments *)
|
||||
|
||||
let select_and_propagate : ('old_input, 'selector_output) selector -> _ propagator -> _ -> 'a -> structured_dbs -> _ * new_constraints * new_assignments =
|
||||
fun selector propagator ->
|
||||
fun already_selected old_type_constraint dbs ->
|
||||
(* TODO: thread some state to know which selector outputs were already seen *)
|
||||
match selector old_type_constraint dbs with
|
||||
WasSelected selected_outputs ->
|
||||
let open RedBlackTrees.PolySet in
|
||||
let { set = already_selected ; duplicates = _ ; added = selected_outputs } = add_list selected_outputs already_selected in
|
||||
let Set.{ set = already_selected ; duplicates = _ ; added = selected_outputs } = Set.add_list selected_outputs already_selected in
|
||||
(* Call the propagation rule *)
|
||||
let new_contraints_and_assignments = List.map (fun s -> propagator s dbs) selected_outputs in
|
||||
let (new_constraints , new_assignments) = List.split new_contraints_and_assignments in
|
||||
@ -637,8 +27,9 @@ let select_and_propagate : ('old_input, 'selector_output) selector -> _ propagat
|
||||
| WasNotSelected ->
|
||||
(already_selected, [] , [])
|
||||
|
||||
let select_and_propagate_break_ctor = select_and_propagate selector_break_ctor propagator_break_ctor
|
||||
let select_and_propagate_specialize1 = select_and_propagate selector_specialize1 propagator_specialize1
|
||||
(* TODO: put the heuristics with their state in a list. *)
|
||||
let select_and_propagate_break_ctor = select_and_propagate Heuristic_break_ctor.selector Heuristic_break_ctor.propagator
|
||||
let select_and_propagate_specialize1 = select_and_propagate Heuristic_specialize1.selector Heuristic_specialize1.propagator
|
||||
|
||||
(* Takes a constraint, applies all selector+propagator pairs to it.
|
||||
Keeps track of which constraints have already been selected. *)
|
||||
@ -671,7 +62,7 @@ let rec select_and_propagate_all : _ -> type_constraint selector_input list -> s
|
||||
match new_constraints with
|
||||
| [] -> (already_selected, dbs)
|
||||
| new_constraint :: tl ->
|
||||
let { state = dbs ; list = modified_constraints } = normalizers new_constraint dbs in
|
||||
let { state = dbs ; list = modified_constraints } = Normalizer.normalizers new_constraint dbs in
|
||||
let (already_selected , new_constraints' , dbs) =
|
||||
List.fold_left
|
||||
(fun (already_selected , nc , dbs) c ->
|
||||
@ -686,42 +77,22 @@ let rec select_and_propagate_all : _ -> type_constraint selector_input list -> s
|
||||
|
||||
(* constraint propagation: (buch of constraints) → (new constraints * assignments) *)
|
||||
|
||||
|
||||
|
||||
|
||||
|
||||
(* Below is a draft *)
|
||||
|
||||
(* type state = {
|
||||
* (\* when α-renaming x to y, we put them in the same union-find class *\)
|
||||
* unification_vars : unionfind ;
|
||||
*
|
||||
* (\* assigns a value to the representant in the unionfind *\)
|
||||
* assignments : type_expression TypeVariableMap.t ;
|
||||
*
|
||||
* (\* constraints related to a type variable *\)
|
||||
* constraints : constraints TypeVariableMap.t ;
|
||||
* } *)
|
||||
|
||||
let initial_state : typer_state = (* {
|
||||
* unification_vars = UF.empty ;
|
||||
* constraints = TypeVariableMap.empty ;
|
||||
* assignments = TypeVariableMap.empty ;
|
||||
* } *)
|
||||
{
|
||||
structured_dbs =
|
||||
{
|
||||
all_constraints = [] ; (* type_constraint_simpl list *)
|
||||
aliases = UF.empty (fun s -> Format.asprintf "%a" Var.pp s) Var.compare ; (* unionfind *)
|
||||
assignments = Map.create ~cmp:Var.compare; (* c_constructor_simpl TypeVariableMap.t *)
|
||||
grouped_by_variable = Map.create ~cmp:Var.compare; (* constraints TypeVariableMap.t *)
|
||||
cycle_detection_toposort = (); (* unit *)
|
||||
} ;
|
||||
already_selected = {
|
||||
break_ctor = Set.create ~cmp:compare_output_break_ctor;
|
||||
specialize1 = Set.create ~cmp:compare_output_specialize1 ;
|
||||
let initial_state : typer_state = {
|
||||
structured_dbs =
|
||||
{
|
||||
all_constraints = ([] : type_constraint_simpl list) ;
|
||||
aliases = UF.empty (fun s -> Format.asprintf "%a" Var.pp s) Var.compare;
|
||||
assignments = (Map.create ~cmp:Var.compare : (type_variable, c_constructor_simpl) Map.t);
|
||||
grouped_by_variable = (Map.create ~cmp:Var.compare : (type_variable, constraints) Map.t);
|
||||
cycle_detection_toposort = ();
|
||||
} ;
|
||||
already_selected = {
|
||||
break_ctor = Set.create ~cmp:Solver_should_be_generated.compare_output_break_ctor;
|
||||
specialize1 = Set.create ~cmp:Solver_should_be_generated.compare_output_specialize1 ;
|
||||
}
|
||||
}
|
||||
}
|
||||
|
||||
(* This function is called when a program is fully compiled, and the
|
||||
typechecker's state is discarded. TODO: either get rid of the state
|
||||
@ -732,23 +103,6 @@ let initial_state : typer_state = (* {
|
||||
state any further. Suzanne *)
|
||||
let discard_state (_ : typer_state) = ()
|
||||
|
||||
(* let replace_var_in_state = fun (v : type_variable) (state : state) -> *)
|
||||
(* let aux_tv : type_expression -> _ = function *)
|
||||
(* | P_forall (w , cs , tval) -> failwith "TODO" *)
|
||||
(* | P_variable (w) -> *)
|
||||
(* if w = v then *)
|
||||
(* (*…*) *)
|
||||
(* else *)
|
||||
(* (*…*) *)
|
||||
(* | P_constant (c , args) -> failwith "TODO" *)
|
||||
(* | P_access_label (tv , label) -> failwith "TODO" in *)
|
||||
(* let aux_tc tc = *)
|
||||
(* List.map (fun l -> List.map aux_tv l) tc in *)
|
||||
(* let aux : type_constraint -> _ = function *)
|
||||
(* | C_equation (l , r) -> C_equation (aux_tv l , aux_tv r) *)
|
||||
(* | C_typeclass (l , rs) -> C_typeclass (List.map aux_tv l , aux_tc rs) *)
|
||||
(* in List.map aux state *)
|
||||
|
||||
(* This is the solver *)
|
||||
let aggregate_constraints : typer_state -> type_constraint list -> typer_state result = fun state newc ->
|
||||
(* TODO: Iterate over constraints *)
|
||||
@ -758,12 +112,6 @@ let aggregate_constraints : typer_state -> type_constraint list -> typer_state r
|
||||
(*let { constraints ; eqv } = state in
|
||||
ok { constraints = constraints @ newc ; eqv }*)
|
||||
|
||||
|
||||
|
||||
|
||||
|
||||
|
||||
|
||||
(* Later on, we'll ensure that all the heuristics register the
|
||||
existential/unification variables that they create, as well as the
|
||||
new constraints that they create. We will then check that they only
|
||||
|
214
src/passes/8-typer-new/solver_should_be_generated.ml
Normal file
214
src/passes/8-typer-new/solver_should_be_generated.ml
Normal file
@ -0,0 +1,214 @@
|
||||
(* The contents of this file should be auto-generated. *)
|
||||
|
||||
open Ast_typed.Types
|
||||
module T = Ast_typed.Types
|
||||
|
||||
let compare_simple_c_constant = function
|
||||
| C_arrow -> (function
|
||||
(* N/A -> 1 *)
|
||||
| C_arrow -> 0
|
||||
| C_option | C_record | C_variant | C_map | C_big_map | C_list | C_set | C_unit | C_string | C_nat | C_mutez | C_timestamp | C_int | C_address | C_bytes | C_key_hash | C_key | C_signature | C_operation | C_contract | C_chain_id -> -1)
|
||||
| C_option -> (function
|
||||
| C_arrow -> 1
|
||||
| C_option -> 0
|
||||
| C_record | C_variant | C_map | C_big_map | C_list | C_set | C_unit | C_string | C_nat | C_mutez | C_timestamp | C_int | C_address | C_bytes | C_key_hash | C_key | C_signature | C_operation | C_contract | C_chain_id -> -1)
|
||||
| C_record -> (function
|
||||
| C_arrow | C_option -> 1
|
||||
| C_record -> 0
|
||||
| C_variant | C_map | C_big_map | C_list | C_set | C_unit | C_string | C_nat | C_mutez | C_timestamp | C_int | C_address | C_bytes | C_key_hash | C_key | C_signature | C_operation | C_contract | C_chain_id -> -1)
|
||||
| C_variant -> (function
|
||||
| C_arrow | C_option | C_record -> 1
|
||||
| C_variant -> 0
|
||||
| C_map | C_big_map | C_list | C_set | C_unit | C_string | C_nat | C_mutez | C_timestamp | C_int | C_address | C_bytes | C_key_hash | C_key | C_signature | C_operation | C_contract | C_chain_id -> -1)
|
||||
| C_map -> (function
|
||||
| C_arrow | C_option | C_record | C_variant -> 1
|
||||
| C_map -> 0
|
||||
| C_big_map | C_list | C_set | C_unit | C_string | C_nat | C_mutez | C_timestamp | C_int | C_address | C_bytes | C_key_hash | C_key | C_signature | C_operation | C_contract | C_chain_id -> -1)
|
||||
| C_big_map -> (function
|
||||
| C_arrow | C_option | C_record | C_variant | C_map -> 1
|
||||
| C_big_map -> 0
|
||||
| C_list | C_set | C_unit | C_string | C_nat | C_mutez | C_timestamp | C_int | C_address | C_bytes | C_key_hash | C_key | C_signature | C_operation | C_contract | C_chain_id -> -1)
|
||||
| C_list -> (function
|
||||
| C_arrow | C_option | C_record | C_variant | C_map | C_big_map -> 1
|
||||
| C_list -> 0
|
||||
| C_set | C_unit | C_string | C_nat | C_mutez | C_timestamp | C_int | C_address | C_bytes | C_key_hash | C_key | C_signature | C_operation | C_contract | C_chain_id -> -1)
|
||||
| C_set -> (function
|
||||
| C_arrow | C_option | C_record | C_variant | C_map | C_big_map | C_list -> 1
|
||||
| C_set -> 0
|
||||
| C_unit | C_string | C_nat | C_mutez | C_timestamp | C_int | C_address | C_bytes | C_key_hash | C_key | C_signature | C_operation | C_contract | C_chain_id -> -1)
|
||||
| C_unit -> (function
|
||||
| C_arrow | C_option | C_record | C_variant | C_map | C_big_map | C_list | C_set -> 1
|
||||
| C_unit -> 0
|
||||
| C_string | C_nat | C_mutez | C_timestamp | C_int | C_address | C_bytes | C_key_hash | C_key | C_signature | C_operation | C_contract | C_chain_id -> -1)
|
||||
| C_string -> (function
|
||||
| C_arrow | C_option | C_record | C_variant | C_map | C_big_map | C_list | C_set | C_unit -> 1
|
||||
| C_string -> 0
|
||||
| C_nat | C_mutez | C_timestamp | C_int | C_address | C_bytes | C_key_hash | C_key | C_signature | C_operation | C_contract | C_chain_id -> -1)
|
||||
| C_nat -> (function
|
||||
| C_arrow | C_option | C_record | C_variant | C_map | C_big_map | C_list | C_set | C_unit | C_string -> 1
|
||||
| C_nat -> 0
|
||||
| C_mutez | C_timestamp | C_int | C_address | C_bytes | C_key_hash | C_key | C_signature | C_operation | C_contract | C_chain_id -> -1)
|
||||
| C_mutez -> (function
|
||||
| C_arrow | C_option | C_record | C_variant | C_map | C_big_map | C_list | C_set | C_unit | C_string | C_nat -> 1
|
||||
| C_mutez -> 0
|
||||
| C_timestamp | C_int | C_address | C_bytes | C_key_hash | C_key | C_signature | C_operation | C_contract | C_chain_id -> -1)
|
||||
| C_timestamp -> (function
|
||||
| C_arrow | C_option | C_record | C_variant | C_map | C_big_map | C_list | C_set | C_unit | C_string | C_nat | C_mutez -> 1
|
||||
| C_timestamp -> 0
|
||||
| C_int | C_address | C_bytes | C_key_hash | C_key | C_signature | C_operation | C_contract | C_chain_id -> -1)
|
||||
| C_int -> (function
|
||||
| C_arrow | C_option | C_record | C_variant | C_map | C_big_map | C_list | C_set | C_unit | C_string | C_nat | C_mutez | C_timestamp -> 1
|
||||
| C_int -> 0
|
||||
| C_address | C_bytes | C_key_hash | C_key | C_signature | C_operation | C_contract | C_chain_id -> -1)
|
||||
| C_address -> (function
|
||||
| C_arrow | C_option | C_record | C_variant | C_map | C_big_map | C_list | C_set | C_unit | C_string | C_nat | C_mutez | C_timestamp | C_int -> 1
|
||||
| C_address -> 0
|
||||
| C_bytes | C_key_hash | C_key | C_signature | C_operation | C_contract | C_chain_id -> -1)
|
||||
| C_bytes -> (function
|
||||
| C_arrow | C_option | C_record | C_variant | C_map | C_big_map | C_list | C_set | C_unit | C_string | C_nat | C_mutez | C_timestamp | C_int | C_address -> 1
|
||||
| C_bytes -> 0
|
||||
| C_key_hash | C_key | C_signature | C_operation | C_contract | C_chain_id -> -1)
|
||||
| C_key_hash -> (function
|
||||
| C_arrow | C_option | C_record | C_variant | C_map | C_big_map | C_list | C_set | C_unit | C_string | C_nat | C_mutez | C_timestamp | C_int | C_address | C_bytes -> 1
|
||||
| C_key_hash -> 0
|
||||
| C_key | C_signature | C_operation | C_contract | C_chain_id -> -1)
|
||||
| C_key -> (function
|
||||
| C_arrow | C_option | C_record | C_variant | C_map | C_big_map | C_list | C_set | C_unit | C_string | C_nat | C_mutez | C_timestamp | C_int | C_address | C_bytes | C_key_hash -> 1
|
||||
| C_key -> 0
|
||||
| C_signature | C_operation | C_contract | C_chain_id -> -1)
|
||||
| C_signature -> (function
|
||||
| C_arrow | C_option | C_record | C_variant | C_map | C_big_map | C_list | C_set | C_unit | C_string | C_nat | C_mutez | C_timestamp | C_int | C_address | C_bytes | C_key_hash | C_key -> 1
|
||||
| C_signature -> 0
|
||||
| C_operation | C_contract | C_chain_id -> -1)
|
||||
| C_operation -> (function
|
||||
| C_arrow | C_option | C_record | C_variant | C_map | C_big_map | C_list | C_set | C_unit | C_string | C_nat | C_mutez | C_timestamp | C_int | C_address | C_bytes | C_key_hash | C_key | C_signature -> 1
|
||||
| C_operation -> 0
|
||||
| C_contract | C_chain_id -> -1)
|
||||
| C_contract -> (function
|
||||
| C_arrow | C_option | C_record | C_variant | C_map | C_big_map | C_list | C_set | C_unit | C_string | C_nat | C_mutez | C_timestamp | C_int | C_address | C_bytes | C_key_hash | C_key | C_signature | C_operation -> 1
|
||||
| C_contract -> 0
|
||||
| C_chain_id -> -1)
|
||||
| C_chain_id -> (function
|
||||
| C_arrow | C_option | C_record | C_variant | C_map | C_big_map | C_list | C_set | C_unit | C_string | C_nat | C_mutez | C_timestamp | C_int | C_address | C_bytes | C_key_hash | C_key | C_signature | C_operation | C_contract -> 1
|
||||
| C_chain_id -> 0
|
||||
(* N/A -> -1 *)
|
||||
)
|
||||
|
||||
let (<?) ca cb =
|
||||
if ca = 0 then cb () else ca
|
||||
let rec compare_list f = function
|
||||
| hd1::tl1 -> (function
|
||||
[] -> 1
|
||||
| hd2::tl2 ->
|
||||
f hd1 hd2 <? fun () ->
|
||||
compare_list f tl1 tl2)
|
||||
| [] -> (function [] -> 0 | _::_ -> -1) (* This follows the behaviour of Pervasives.compare for lists of different length *)
|
||||
let compare_type_variable a b =
|
||||
Var.compare a b
|
||||
let compare_label (a:label) (b:label) =
|
||||
let Label a = a in
|
||||
let Label b = b in
|
||||
String.compare a b
|
||||
let rec compare_typeclass a b = compare_list (compare_list compare_type_expression) a b
|
||||
and compare_type_expression { tsrc = _ ; t = ta } { tsrc = _ ; t = tb } =
|
||||
(* Note: this comparison ignores the tsrc, the idea is that types
|
||||
will often be compared to see if they are the same, regardless of
|
||||
where the type comes from .*)
|
||||
compare_type_expression_ ta tb
|
||||
and compare_type_expression_ = function
|
||||
| P_forall { binder=a1; constraints=a2; body=a3 } -> (function
|
||||
| P_forall { binder=b1; constraints=b2; body=b3 } ->
|
||||
compare_type_variable a1 b1 <? fun () ->
|
||||
compare_list compare_type_constraint a2 b2 <? fun () ->
|
||||
compare_type_expression a3 b3
|
||||
| P_variable _ -> -1
|
||||
| P_constant _ -> -1
|
||||
| P_apply _ -> -1)
|
||||
| P_variable a -> (function
|
||||
| P_forall _ -> 1
|
||||
| P_variable b -> compare_type_variable a b
|
||||
| P_constant _ -> -1
|
||||
| P_apply _ -> -1)
|
||||
| P_constant { p_ctor_tag=a1; p_ctor_args=a2 } -> (function
|
||||
| P_forall _ -> 1
|
||||
| P_variable _ -> 1
|
||||
| P_constant { p_ctor_tag=b1; p_ctor_args=b2 } -> compare_simple_c_constant a1 b1 <? fun () -> compare_list compare_type_expression a2 b2
|
||||
| P_apply _ -> -1)
|
||||
| P_apply { tf=a1; targ=a2 } -> (function
|
||||
| P_forall _ -> 1
|
||||
| P_variable _ -> 1
|
||||
| P_constant _ -> 1
|
||||
| P_apply { tf=b1; targ=b2 } -> compare_type_expression a1 b1 <? fun () -> compare_type_expression a2 b2)
|
||||
and compare_type_constraint = fun { c = ca ; reason = ra } { c = cb ; reason = rb } ->
|
||||
let c = compare_type_constraint_ ca cb in
|
||||
if c < 0 then -1
|
||||
else if c = 0 then String.compare ra rb
|
||||
else 1
|
||||
and compare_type_constraint_ = function
|
||||
| C_equation { aval=a1; bval=a2 } -> (function
|
||||
| C_equation { aval=b1; bval=b2 } -> compare_type_expression a1 b1 <? fun () -> compare_type_expression a2 b2
|
||||
| C_typeclass _ -> -1
|
||||
| C_access_label _ -> -1)
|
||||
| C_typeclass { tc_args=a1; typeclass=a2 } -> (function
|
||||
| C_equation _ -> 1
|
||||
| C_typeclass { tc_args=b1; typeclass=b2 } -> compare_list compare_type_expression a1 b1 <? fun () -> compare_typeclass a2 b2
|
||||
| C_access_label _ -> -1)
|
||||
| C_access_label { c_access_label_tval=a1; accessor=a2; c_access_label_tvar=a3 } -> (function
|
||||
| C_equation _ -> 1
|
||||
| C_typeclass _ -> 1
|
||||
| C_access_label { c_access_label_tval=b1; accessor=b2; c_access_label_tvar=b3 } -> compare_type_expression a1 b1 <? fun () -> compare_label a2 b2 <? fun () -> compare_type_variable a3 b3)
|
||||
let compare_type_constraint_list = compare_list compare_type_constraint
|
||||
let compare_p_forall
|
||||
{ binder = a1; constraints = a2; body = a3 }
|
||||
{ binder = b1; constraints = b2; body = b3 } =
|
||||
compare_type_variable a1 b1 <? fun () ->
|
||||
compare_type_constraint_list a2 b2 <? fun () ->
|
||||
compare_type_expression a3 b3
|
||||
let compare_c_poly_simpl { tv = a1; forall = a2 } { tv = b1; forall = b2 } =
|
||||
compare_type_variable a1 b1 <? fun () ->
|
||||
compare_p_forall a2 b2
|
||||
let compare_c_constructor_simpl { reason_constr_simpl = _ ; tv=a1; c_tag=a2; tv_list=a3 } { reason_constr_simpl = _ ; tv=b1; c_tag=b2; tv_list=b3 } =
|
||||
(* We do not compare the reasons, as they are only for debugging and
|
||||
not part of the type *)
|
||||
compare_type_variable a1 b1 <? fun () -> compare_simple_c_constant a2 b2 <? fun () -> compare_list compare_type_variable a3 b3
|
||||
|
||||
(* TODO: use Ast_typed.Compare_generic.output_specialize1 etc. but don't compare the reasons *)
|
||||
let compare_output_specialize1 { poly = a1; a_k_var = a2 } { poly = b1; a_k_var = b2 } =
|
||||
compare_c_poly_simpl a1 b1 <? fun () ->
|
||||
compare_c_constructor_simpl a2 b2
|
||||
|
||||
let compare_output_break_ctor { a_k_var=a1; a_k'_var'=a2 } { a_k_var=b1; a_k'_var'=b2 } =
|
||||
compare_c_constructor_simpl a1 b1 <? fun () -> compare_c_constructor_simpl a2 b2
|
||||
|
||||
(* Using a pretty-printer from the PP.ml module creates a dependency
|
||||
loop, so the one that we need temporarily for debugging purposes
|
||||
has been copied here. *)
|
||||
let debug_pp_constant : _ -> constant_tag -> unit = fun ppf c_tag ->
|
||||
let ct = match c_tag with
|
||||
| T.C_arrow -> "arrow"
|
||||
| T.C_option -> "option"
|
||||
| T.C_record -> failwith "record"
|
||||
| T.C_variant -> failwith "variant"
|
||||
| T.C_map -> "map"
|
||||
| T.C_big_map -> "big_map"
|
||||
| T.C_list -> "list"
|
||||
| T.C_set -> "set"
|
||||
| T.C_unit -> "unit"
|
||||
| T.C_string -> "string"
|
||||
| T.C_nat -> "nat"
|
||||
| T.C_mutez -> "mutez"
|
||||
| T.C_timestamp -> "timestamp"
|
||||
| T.C_int -> "int"
|
||||
| T.C_address -> "address"
|
||||
| T.C_bytes -> "bytes"
|
||||
| T.C_key_hash -> "key_hash"
|
||||
| T.C_key -> "key"
|
||||
| T.C_signature -> "signature"
|
||||
| T.C_operation -> "operation"
|
||||
| T.C_contract -> "contract"
|
||||
| T.C_chain_id -> "chain_id"
|
||||
in
|
||||
Format.fprintf ppf "%s" ct
|
||||
|
||||
let debug_pp_c_constructor_simpl ppf { tv; c_tag; tv_list } =
|
||||
Format.fprintf ppf "CTOR %a %a(%a)" Var.pp tv debug_pp_constant c_tag PP_helpers.(list_sep Var.pp (const " , ")) tv_list
|
18
src/passes/8-typer-new/solver_types.ml
Normal file
18
src/passes/8-typer-new/solver_types.ml
Normal file
@ -0,0 +1,18 @@
|
||||
open Ast_typed.Types
|
||||
|
||||
type 'old_constraint_type selector_input = 'old_constraint_type (* some info about the constraint just added, so that we know what to look for *)
|
||||
type 'selector_output selector_outputs =
|
||||
WasSelected of 'selector_output list
|
||||
| WasNotSelected
|
||||
type new_constraints = type_constraint list
|
||||
type new_assignments = c_constructor_simpl list
|
||||
type ('old_constraint_type, 'selector_output) selector = 'old_constraint_type selector_input -> structured_dbs -> 'selector_output selector_outputs
|
||||
type 'selector_output propagator = 'selector_output -> structured_dbs -> new_constraints * new_assignments
|
||||
|
||||
(* state+list monad *)
|
||||
type ('state, 'elt) state_list_monad = { state: 'state ; list : 'elt list }
|
||||
let lift_state_list_monad ~state ~list = { state ; list }
|
||||
let lift f =
|
||||
fun { state ; list } ->
|
||||
let (new_state , new_lists) = List.fold_map_acc f state list in
|
||||
{ state = new_state ; list = List.flatten new_lists }
|
18
src/passes/8-typer-new/typelang.ml
Normal file
18
src/passes/8-typer-new/typelang.ml
Normal file
@ -0,0 +1,18 @@
|
||||
(* This file implements the type-level language. For now limited to
|
||||
type constants, type functions and their application. *)
|
||||
|
||||
open Ast_typed.Types
|
||||
|
||||
(** Evaluates a type-leval application. For now, only supports
|
||||
immediate beta-reduction at the root of the type. *)
|
||||
let type_level_eval : type_value -> type_value * type_constraint list =
|
||||
fun tv -> Typesystem.Misc.Substitution.Pattern.eval_beta_root ~tv
|
||||
|
||||
(** Checks that a type-level application has been fully reduced. For
|
||||
now, only some simple cases like applications of `forall`
|
||||
<polymorphic types are allowed. *)
|
||||
let check_applied ((reduced, _new_constraints) as x) =
|
||||
let () = match reduced with
|
||||
{ tsrc = _ ; t = P_apply _ } -> failwith "internal error: shouldn't happen" (* failwith "could not reduce type-level application. Arbitrary type-level applications are not supported for now." *)
|
||||
| _ -> ()
|
||||
in x
|
@ -416,11 +416,11 @@ and type_lambda e state {
|
||||
let%bind input_type' = bind_map_option (evaluate_type e) input_type in
|
||||
let%bind output_type' = bind_map_option (evaluate_type e) output_type in
|
||||
|
||||
let fresh : O.type_expression = t_variable (Solver.Wrap.fresh_binder ()) () in
|
||||
let fresh : O.type_expression = t_variable (Wrap.fresh_binder ()) () in
|
||||
let e' = Environment.add_ez_binder (binder) fresh e in
|
||||
|
||||
let%bind (result , state') = type_expression e' state result in
|
||||
let wrapped = Solver.Wrap.lambda fresh input_type' output_type' result.type_expression in
|
||||
let wrapped = Wrap.lambda fresh input_type' output_type' result.type_expression in
|
||||
ok (({binder;result}:O.lambda),state',wrapped)
|
||||
|
||||
and type_constant (name:I.constant') (lst:O.type_expression list) (tv_opt:O.type_expression option) : (O.constant' * O.type_expression) result =
|
||||
|
@ -2,6 +2,7 @@ module Types = Types
|
||||
module Environment = Environment
|
||||
module PP = PP
|
||||
module PP_generic = PP_generic
|
||||
module Compare_generic = Compare_generic
|
||||
module Combinators = struct
|
||||
include Combinators
|
||||
end
|
||||
|
@ -127,4 +127,3 @@ let fold_map__poly_set : type a state new_a . new_a extra_info__comparable -> (s
|
||||
ok (state , PolySet.add new_elt s) in
|
||||
let%bind (state , m) = PolySet.fold_inc aux s ~init:(ok (state, PolySet.create ~cmp:new_compare)) in
|
||||
ok (state , m)
|
||||
|
||||
|
159
src/test/contracts/id.ligo
Normal file
159
src/test/contracts/id.ligo
Normal file
@ -0,0 +1,159 @@
|
||||
type id is int
|
||||
|
||||
type id_details is
|
||||
record [
|
||||
owner: address;
|
||||
controller: address;
|
||||
profile: bytes;
|
||||
]
|
||||
|
||||
type buy is
|
||||
record [
|
||||
profile: bytes;
|
||||
initial_controller: option(address);
|
||||
]
|
||||
|
||||
type update_owner is
|
||||
record [
|
||||
id: id;
|
||||
new_owner: address;
|
||||
]
|
||||
|
||||
type update_details is
|
||||
record [
|
||||
id: id;
|
||||
new_profile: option(bytes);
|
||||
new_controller: option(address);
|
||||
]
|
||||
|
||||
type action is
|
||||
| Buy of buy
|
||||
| Update_owner of update_owner
|
||||
| Update_details of update_details
|
||||
| Skip of unit
|
||||
|
||||
(* The prices kept in storage can be changed by bakers, though they should only be
|
||||
adjusted down over time, not up. *)
|
||||
type storage is
|
||||
record [
|
||||
identities: big_map (id, id_details);
|
||||
next_id: int;
|
||||
name_price: tez;
|
||||
skip_price: tez;
|
||||
]
|
||||
|
||||
(** Preliminary thoughts on ids:
|
||||
|
||||
I very much like the simplicity of http://gurno.com/adam/mne/.
|
||||
5 three letter words means you have a 15 character identity, not actually more
|
||||
annoying than an IP address and a lot more memorable than the raw digits. This
|
||||
can be stored as a single integer which is then translated into the corresponding
|
||||
series of 5 words.
|
||||
|
||||
I in general like the idea of having a 'skip' mechanism, but it does need to cost
|
||||
something so people don't eat up the address space. 256 ^ 5 means you have a lot
|
||||
of address space, but if people troll by skipping a lot that could be eaten up.
|
||||
Should probably do some napkin calculations for how expensive skipping needs to
|
||||
be to deter people from doing it just to chew up address space.
|
||||
*)
|
||||
|
||||
function buy (const parameter : buy; const storage : storage) : list(operation) * storage is
|
||||
begin
|
||||
if amount = storage.name_price
|
||||
then skip
|
||||
else failwith("Incorrect amount paid.");
|
||||
const profile : bytes = parameter.profile;
|
||||
const initial_controller : option(address) = parameter.initial_controller;
|
||||
var identities : big_map (id, id_details) := storage.identities;
|
||||
const new_id : int = storage.next_id;
|
||||
const controller : address =
|
||||
case initial_controller of
|
||||
Some(addr) -> addr
|
||||
| None -> sender
|
||||
end;
|
||||
const new_id_details: id_details =
|
||||
record [
|
||||
owner = sender ;
|
||||
controller = controller ;
|
||||
profile = profile ;
|
||||
];
|
||||
identities[new_id] := new_id_details;
|
||||
end with ((nil : list(operation)), storage with record [
|
||||
identities = identities;
|
||||
next_id = new_id + 1;
|
||||
])
|
||||
|
||||
function update_owner (const parameter : update_owner; const storage : storage) :
|
||||
list(operation) * storage is
|
||||
begin
|
||||
if (amount =/= 0mutez)
|
||||
then
|
||||
begin
|
||||
failwith("Updating owner doesn't cost anything.");
|
||||
end
|
||||
else skip;
|
||||
const id : int = parameter.id;
|
||||
const new_owner : address = parameter.new_owner;
|
||||
var identities : big_map (id, id_details) := storage.identities;
|
||||
const id_details : id_details =
|
||||
case identities[id] of
|
||||
Some(id_details) -> id_details
|
||||
| None -> (failwith("This ID does not exist."): id_details)
|
||||
end;
|
||||
if sender = id_details.owner
|
||||
then skip;
|
||||
else failwith("You are not the owner of this ID.");
|
||||
id_details.owner := new_owner;
|
||||
identities[id] := id_details;
|
||||
end with ((nil: list(operation)), storage with record [ identities = identities; ])
|
||||
|
||||
function update_details (const parameter : update_details; const storage : storage ) :
|
||||
list(operation) * storage is
|
||||
begin
|
||||
if (amount =/= 0mutez)
|
||||
then failwith("Updating details doesn't cost anything.")
|
||||
else skip;
|
||||
const id : int = parameter.id;
|
||||
const new_profile : option(bytes) = parameter.new_profile;
|
||||
const new_controller : option(address) = parameter.new_controller;
|
||||
const identities : big_map (id, id_details) = storage.identities;
|
||||
const id_details: id_details =
|
||||
case identities[id] of
|
||||
Some(id_details) -> id_details
|
||||
| None -> (failwith("This ID does not exist."): id_details)
|
||||
end;
|
||||
if (sender = id_details.controller) or (sender = id_details.owner)
|
||||
then skip;
|
||||
else failwith("You are not the owner or controller of this ID.");
|
||||
const owner: address = id_details.owner;
|
||||
const profile: bytes =
|
||||
case new_profile of
|
||||
None -> (* Default *) id_details.profile
|
||||
| Some(new_profile) -> new_profile
|
||||
end;
|
||||
const controller: address =
|
||||
case new_controller of
|
||||
None -> (* Default *) id_details.controller
|
||||
| Some(new_controller) -> new_controller
|
||||
end;
|
||||
id_details.owner := owner;
|
||||
id_details.controller := controller;
|
||||
id_details.profile := profile;
|
||||
identities[id] := id_details;
|
||||
end with ((nil: list(operation)), storage with record [ identities = identities; ])
|
||||
|
||||
(* Let someone skip the next identity so nobody has to take one that's undesirable *)
|
||||
function skip_ (const p: unit; const storage: storage) : list(operation) * storage is
|
||||
begin
|
||||
if amount = storage.skip_price
|
||||
then skip
|
||||
else failwith("Incorrect amount paid.");
|
||||
end with ((nil: list(operation)), storage with record [ next_id = storage.next_id + 1; ])
|
||||
|
||||
function main (const action : action; const storage : storage) : list(operation) * storage is
|
||||
case action of
|
||||
| Buy(b) -> buy (b, storage)
|
||||
| Update_owner(uo) -> update_owner (uo, storage)
|
||||
| Update_details(ud) -> update_details (ud, storage)
|
||||
| Skip(s) -> skip_ (unit, storage)
|
||||
end;
|
@ -6,9 +6,21 @@ type id_details = {
|
||||
profile: bytes
|
||||
}
|
||||
|
||||
type buy = bytes * address option
|
||||
type update_owner = id * address
|
||||
type update_details = id * bytes option * address option
|
||||
type buy = {
|
||||
profile: bytes;
|
||||
initial_controller: address option;
|
||||
}
|
||||
|
||||
type update_owner = {
|
||||
id: id;
|
||||
new_owner: address;
|
||||
}
|
||||
|
||||
type update_details = {
|
||||
id: id;
|
||||
new_profile: bytes option;
|
||||
new_controller: address option;
|
||||
}
|
||||
|
||||
type action =
|
||||
| Buy of buy
|
||||
@ -19,7 +31,14 @@ type action =
|
||||
(* The prices kept in storage can be changed by bakers, though they
|
||||
should only be adjusted down over time, not up. *)
|
||||
|
||||
type storage = (id, id_details) big_map * int * (tez * tez)
|
||||
(* The prices kept in storage can be changed by bakers, though they should only be
|
||||
adjusted down over time, not up. *)
|
||||
type storage = {
|
||||
identities: (id, id_details) big_map;
|
||||
next_id: int;
|
||||
name_price: tez;
|
||||
skip_price: tez;
|
||||
}
|
||||
|
||||
type return = operation list * storage
|
||||
|
||||
@ -38,13 +57,17 @@ a lot that could be eaten up. Should probably do some napkin
|
||||
calculations for how expensive skipping needs to be to deter people
|
||||
from doing it just to chew up address space. *)
|
||||
|
||||
let buy (parameter, storage: (bytes * address option) * storage) =
|
||||
let void : unit =
|
||||
if Tezos.amount <> storage.2.0
|
||||
then (failwith "Incorrect amount paid.": unit) in
|
||||
let profile, initial_controller = parameter in
|
||||
let identities, new_id, prices = storage in
|
||||
let controller : address =
|
||||
let buy (parameter, storage: buy * storage) =
|
||||
let void: unit =
|
||||
if amount = storage.name_price
|
||||
then ()
|
||||
else (failwith "Incorrect amount paid.": unit)
|
||||
in
|
||||
let profile = parameter.profile in
|
||||
let initial_controller = parameter.initial_controller in
|
||||
let identities = storage.identities in
|
||||
let new_id = storage.next_id in
|
||||
let controller: address =
|
||||
match initial_controller with
|
||||
| Some addr -> addr
|
||||
| None -> sender in
|
||||
@ -54,74 +77,84 @@ let buy (parameter, storage: (bytes * address option) * storage) =
|
||||
profile = profile} in
|
||||
let updated_identities : (id, id_details) big_map =
|
||||
Big_map.update new_id (Some new_id_details) identities
|
||||
in ([]: operation list), (updated_identities, new_id + 1, prices)
|
||||
in
|
||||
([]: operation list), {storage with identities = updated_identities;
|
||||
next_id = new_id + 1;
|
||||
}
|
||||
|
||||
let update_owner (parameter, storage : (id * address) * storage) =
|
||||
if amount <> 0tez
|
||||
then (failwith "Updating owner doesn't cost anything.": return)
|
||||
let update_owner (parameter, storage: update_owner * storage) =
|
||||
if (amount <> 0mutez)
|
||||
then (failwith "Updating owner doesn't cost anything.": (operation list) * storage)
|
||||
else
|
||||
let id, new_owner = parameter in
|
||||
let identities, last_id, prices = storage in
|
||||
let current_id_details : id_details =
|
||||
match Big_map.find_opt id identities with
|
||||
| Some id_details -> id_details
|
||||
| None -> (failwith "This ID does not exist." : id_details) in
|
||||
let is_allowed : bool =
|
||||
if Tezos.sender = current_id_details.owner
|
||||
then true
|
||||
else (failwith "You are not the owner of this ID." : bool) in
|
||||
let updated_id_details : id_details = {
|
||||
let id = parameter.id in
|
||||
let new_owner = parameter.new_owner in
|
||||
let identities = storage.identities in
|
||||
let current_id_details: id_details =
|
||||
match Big_map.find_opt id identities with
|
||||
| Some id_details -> id_details
|
||||
| None -> (failwith "This ID does not exist.": id_details)
|
||||
in
|
||||
let u : unit =
|
||||
if sender = current_id_details.owner
|
||||
then ()
|
||||
else failwith "You are not the owner of this ID."
|
||||
in
|
||||
let updated_id_details: id_details = {
|
||||
owner = new_owner;
|
||||
controller = current_id_details.controller;
|
||||
profile = current_id_details.profile} in
|
||||
let updated_identities =
|
||||
Big_map.update id (Some updated_id_details) identities
|
||||
in ([]: operation list), (updated_identities, last_id, prices)
|
||||
profile = current_id_details.profile;
|
||||
}
|
||||
in
|
||||
let updated_identities = Big_map.update id (Some updated_id_details) identities in
|
||||
([]: operation list), {storage with identities = updated_identities}
|
||||
|
||||
let update_details (parameter, storage: (id * bytes option * address option) * storage) =
|
||||
if Tezos.amount <> 0tez
|
||||
then
|
||||
(failwith "Updating details doesn't cost anything." : return)
|
||||
let update_details (parameter, storage: update_details * storage) =
|
||||
if (amount <> 0mutez)
|
||||
then (failwith "Updating details doesn't cost anything.": (operation list) * storage)
|
||||
else
|
||||
let id, new_profile, new_controller = parameter in
|
||||
let identities, last_id, prices = storage in
|
||||
let current_id_details: id_details =
|
||||
match Big_map.find_opt id identities with
|
||||
| Some id_details -> id_details
|
||||
| None -> (failwith "This ID does not exist.": id_details) in
|
||||
let is_allowed : bool =
|
||||
if Tezos.sender = current_id_details.controller
|
||||
|| Tezos.sender = current_id_details.owner
|
||||
then true
|
||||
else
|
||||
(failwith ("You are not the owner or controller of this ID.")
|
||||
: bool) in
|
||||
let owner : address = current_id_details.owner in
|
||||
let profile : bytes =
|
||||
match new_profile with
|
||||
| None -> (* Default *) current_id_details.profile
|
||||
| Some new_profile -> new_profile in
|
||||
let controller : address =
|
||||
match new_controller with
|
||||
| None -> (* Default *) current_id_details.controller
|
||||
| Some new_controller -> new_controller in
|
||||
let updated_id_details: id_details = {
|
||||
owner = owner;
|
||||
controller = controller;
|
||||
profile = profile} in
|
||||
let id = parameter.id in
|
||||
let new_profile = parameter.new_profile in
|
||||
let new_controller = parameter.new_controller in
|
||||
let identities = storage.identities in
|
||||
let current_id_details: id_details =
|
||||
match Big_map.find_opt id identities with
|
||||
| Some id_details -> id_details
|
||||
| None -> (failwith "This ID does not exist.": id_details)
|
||||
in
|
||||
let u : unit =
|
||||
if (sender = current_id_details.controller) || (sender = current_id_details.owner)
|
||||
then ()
|
||||
else failwith ("You are not the owner or controller of this ID.")
|
||||
in
|
||||
let owner: address = current_id_details.owner in
|
||||
let profile: bytes =
|
||||
match new_profile with
|
||||
| None -> (* Default *) current_id_details.profile
|
||||
| Some new_profile -> new_profile
|
||||
in
|
||||
let controller: address =
|
||||
match new_controller with
|
||||
| None -> (* Default *) current_id_details.controller
|
||||
| Some new_controller -> new_controller
|
||||
in
|
||||
let updated_id_details: id_details = {
|
||||
owner = owner;
|
||||
controller = controller;
|
||||
profile = profile;
|
||||
}
|
||||
in
|
||||
let updated_identities: (id, id_details) big_map =
|
||||
Big_map.update id (Some updated_id_details) identities
|
||||
in ([]: operation list), (updated_identities, last_id, prices)
|
||||
Big_map.update id (Some updated_id_details) identities in
|
||||
([]: operation list), {storage with identities = updated_identities}
|
||||
|
||||
(* Let someone skip the next identity so nobody has to take one that's
|
||||
undesirable *)
|
||||
|
||||
let skip (p, storage: unit * storage) =
|
||||
let void : unit =
|
||||
if Tezos.amount <> storage.2.1
|
||||
then (failwith "Incorrect amount paid." : unit) in
|
||||
let identities, last_id, prices = storage in
|
||||
([]: operation list), (identities, last_id + 1, prices)
|
||||
(* Let someone skip the next identity so nobody has to take one that's undesirable *)
|
||||
let skip (p,storage: unit * storage) =
|
||||
let void: unit =
|
||||
if amount = storage.skip_price
|
||||
then ()
|
||||
else failwith "Incorrect amount paid."
|
||||
in
|
||||
([]: operation list), {storage with next_id = storage.next_id + 1}
|
||||
|
||||
let main (action, storage : action * storage) : return =
|
||||
match action with
|
||||
|
167
src/test/contracts/id.religo
Normal file
167
src/test/contracts/id.religo
Normal file
@ -0,0 +1,167 @@
|
||||
type id = int
|
||||
|
||||
type id_details = {
|
||||
owner: address,
|
||||
controller: address,
|
||||
profile: bytes,
|
||||
}
|
||||
|
||||
type buy = {
|
||||
profile: bytes,
|
||||
initial_controller: option(address),
|
||||
}
|
||||
|
||||
type update_owner = {
|
||||
id: id,
|
||||
new_owner: address,
|
||||
}
|
||||
|
||||
type update_details = {
|
||||
id: id,
|
||||
new_profile: option(bytes),
|
||||
new_controller: option(address),
|
||||
}
|
||||
|
||||
type action =
|
||||
| Buy(buy)
|
||||
| Update_owner(update_owner)
|
||||
| Update_details(update_details)
|
||||
| Skip(unit)
|
||||
|
||||
/* The prices kept in storage can be changed by bakers, though they should only be
|
||||
adjusted down over time, not up. */
|
||||
type storage = {
|
||||
identities: big_map (id, id_details),
|
||||
next_id: int,
|
||||
name_price: tez,
|
||||
skip_price: tez,
|
||||
}
|
||||
|
||||
/** Preliminary thoughts on ids:
|
||||
|
||||
I very much like the simplicity of http://gurno.com/adam/mne/.
|
||||
5 three letter words means you have a 15 character identity, not actually more
|
||||
annoying than an IP address and a lot more memorable than the raw digits. This
|
||||
can be stored as a single integer which is then translated into the corresponding
|
||||
series of 5 words.
|
||||
|
||||
I in general like the idea of having a 'skip' mechanism, but it does need to cost
|
||||
something so people don't eat up the address space. 256 ^ 5 means you have a lot
|
||||
of address space, but if people troll by skipping a lot that could be eaten up.
|
||||
Should probably do some napkin calculations for how expensive skipping needs to
|
||||
be to deter people from doing it just to chew up address space.
|
||||
*/
|
||||
|
||||
let buy = ((parameter, storage): (buy, storage)) : (list(operation), storage) => {
|
||||
let void: unit =
|
||||
if (amount == storage.name_price) { (); }
|
||||
else { failwith("Incorrect amount paid."); };
|
||||
let profile = parameter.profile;
|
||||
let initial_controller = parameter.initial_controller;
|
||||
let identities = storage.identities;
|
||||
let new_id = storage.next_id;
|
||||
let controller: address =
|
||||
switch (initial_controller) {
|
||||
| Some(addr) => addr
|
||||
| None => sender
|
||||
};
|
||||
let new_id_details: id_details = {
|
||||
owner : sender,
|
||||
controller : controller,
|
||||
profile : profile,
|
||||
};
|
||||
let updated_identities: big_map (id, id_details) =
|
||||
Big_map.update(new_id, Some(new_id_details), identities);
|
||||
(([]: list(operation)), { ...storage,
|
||||
identities : updated_identities,
|
||||
next_id : new_id + 1,
|
||||
});
|
||||
};
|
||||
|
||||
let update_owner = ((parameter, storage): (update_owner, storage)) : (list(operation), storage) => {
|
||||
let void: unit =
|
||||
if (amount != 0mutez) {
|
||||
failwith("Updating owner doesn't cost anything.");
|
||||
}
|
||||
else { (); };
|
||||
let id : int = parameter.id;
|
||||
let new_owner = parameter.new_owner;
|
||||
let identities = storage.identities;
|
||||
let current_id_details: id_details =
|
||||
switch (Big_map.find_opt(id, identities)) {
|
||||
| Some(id_details) => id_details
|
||||
| None => (failwith("This ID does not exist."): id_details)
|
||||
};
|
||||
let u: unit =
|
||||
if (sender == current_id_details.owner) { (); }
|
||||
else { failwith("You are not the owner of this ID."); };
|
||||
let updated_id_details: id_details = {
|
||||
owner : new_owner,
|
||||
controller : current_id_details.controller,
|
||||
profile : current_id_details.profile,
|
||||
};
|
||||
let updated_identities = Big_map.update(id, (Some updated_id_details), identities);
|
||||
(([]: list(operation)), { ...storage, identities : updated_identities });
|
||||
};
|
||||
|
||||
let update_details = ((parameter, storage): (update_details, storage)) :
|
||||
(list(operation), storage) => {
|
||||
let void : unit =
|
||||
if (amount != 0mutez) {
|
||||
failwith("Updating details doesn't cost anything.");
|
||||
}
|
||||
else { (); };
|
||||
let id = parameter.id;
|
||||
let new_profile = parameter.new_profile;
|
||||
let new_controller = parameter.new_controller;
|
||||
let identities = storage.identities;
|
||||
let current_id_details: id_details =
|
||||
switch (Big_map.find_opt(id, identities)) {
|
||||
| Some(id_details) => id_details
|
||||
| None => (failwith("This ID does not exist."): id_details)
|
||||
};
|
||||
let u: unit =
|
||||
if ((sender != current_id_details.controller) &&
|
||||
(sender != current_id_details.owner)) {
|
||||
failwith ("You are not the owner or controller of this ID.")
|
||||
}
|
||||
else { (); };
|
||||
let owner: address = current_id_details.owner;
|
||||
let profile: bytes =
|
||||
switch (new_profile) {
|
||||
| None => /* Default */ current_id_details.profile
|
||||
| Some(new_profile) => new_profile
|
||||
};
|
||||
let controller: address =
|
||||
switch (new_controller) {
|
||||
| None => /* Default */ current_id_details.controller
|
||||
| Some new_controller => new_controller
|
||||
};
|
||||
let updated_id_details: id_details = {
|
||||
owner : owner,
|
||||
controller : controller,
|
||||
profile : profile,
|
||||
};
|
||||
let updated_identities: big_map (id, id_details) =
|
||||
Big_map.update(id, (Some updated_id_details), identities);
|
||||
(([]: list(operation)), { ...storage, identities : updated_identities });
|
||||
};
|
||||
|
||||
/* Let someone skip the next identity so nobody has to take one that's undesirable */
|
||||
let skip = ((p,storage): (unit, storage)) => {
|
||||
let void : unit =
|
||||
if (amount != storage.skip_price) {
|
||||
failwith("Incorrect amount paid.");
|
||||
}
|
||||
else { (); };
|
||||
(([]: list(operation)), { ...storage, next_id : storage.next_id + 1 });
|
||||
};
|
||||
|
||||
let main = ((action, storage): (action, storage)) : (list(operation), storage) => {
|
||||
switch (action) {
|
||||
| Buy(b) => buy((b, storage))
|
||||
| Update_owner(uo) => update_owner((uo, storage))
|
||||
| Update_details ud => update_details((ud, storage))
|
||||
| Skip s => skip(((), storage))
|
||||
};
|
||||
};
|
243
src/test/examples/cameligo/id.mligo
Normal file
243
src/test/examples/cameligo/id.mligo
Normal file
@ -0,0 +1,243 @@
|
||||
(*_*
|
||||
name: ID Contract (CameLIGO)
|
||||
language: cameligo
|
||||
compile:
|
||||
entrypoint: main
|
||||
dryRun:
|
||||
entrypoint: main
|
||||
parameters: |
|
||||
Buy (
|
||||
{
|
||||
profile=0x0501000000026869;
|
||||
initial_controller=Some(("tz1KqTpEZ7Yob7QbPE4Hy4Wo8fHG8LhKxZSx": address))
|
||||
}
|
||||
)
|
||||
storage: |
|
||||
{
|
||||
identities=Big_map.literal[
|
||||
(1,
|
||||
{owner=("tz1KqTpEZ7Yob7QbPE4Hy4Wo8fHG8LhKxZSx" : address);
|
||||
controller=("tz1gjaF81ZRRvdzjobyfVNsAeSC6PScjfQwN" : address);
|
||||
profile=0x0501000000026869}
|
||||
);
|
||||
];
|
||||
next_id=2;
|
||||
name_price=0tez;
|
||||
skip_price=333mutez
|
||||
}
|
||||
deploy:
|
||||
entrypoint: main
|
||||
storage: |
|
||||
{
|
||||
identities=Big_map.literal[
|
||||
(1,
|
||||
{owner=("tz1KqTpEZ7Yob7QbPE4Hy4Wo8fHG8LhKxZSx" : address);
|
||||
controller=("tz1gjaF81ZRRvdzjobyfVNsAeSC6PScjfQwN" : address);
|
||||
profile=0x0501000000026869}
|
||||
);
|
||||
];
|
||||
next_id=2;
|
||||
name_price=10tez;
|
||||
skip_price=333mutez
|
||||
}
|
||||
evaluateValue:
|
||||
entrypoint: ""
|
||||
evaluateFunction:
|
||||
entrypoint: buy
|
||||
parameters: |
|
||||
{
|
||||
profile=0x0501000000026869;
|
||||
initial_controller=Some(("tz1KqTpEZ7Yob7QbPE4Hy4Wo8fHG8LhKxZSx": address))
|
||||
},
|
||||
|
||||
{
|
||||
identities=Big_map.literal[
|
||||
(1,
|
||||
{owner=("tz1KqTpEZ7Yob7QbPE4Hy4Wo8fHG8LhKxZSx" : address);
|
||||
controller=("tz1gjaF81ZRRvdzjobyfVNsAeSC6PScjfQwN" : address);
|
||||
profile=0x0501000000026869}
|
||||
);
|
||||
];
|
||||
next_id=2;
|
||||
name_price=0tez;
|
||||
skip_price=333mutez
|
||||
}
|
||||
*_*)
|
||||
|
||||
type id = int
|
||||
|
||||
type id_details = {
|
||||
owner: address;
|
||||
controller: address;
|
||||
profile: bytes;
|
||||
}
|
||||
|
||||
type buy = {
|
||||
profile: bytes;
|
||||
initial_controller: address option;
|
||||
}
|
||||
|
||||
type update_owner = {
|
||||
id: id;
|
||||
new_owner: address;
|
||||
}
|
||||
|
||||
type update_details = {
|
||||
id: id;
|
||||
new_profile: bytes option;
|
||||
new_controller: address option;
|
||||
}
|
||||
|
||||
type action =
|
||||
| Buy of buy
|
||||
| Update_owner of update_owner
|
||||
| Update_details of update_details
|
||||
| Skip of unit
|
||||
|
||||
(* The prices kept in storage can be changed by bakers, though they should only be
|
||||
adjusted down over time, not up. *)
|
||||
type storage = {
|
||||
identities: (id, id_details) big_map;
|
||||
next_id: int;
|
||||
name_price: tez;
|
||||
skip_price: tez;
|
||||
}
|
||||
|
||||
(** Preliminary thoughts on ids:
|
||||
|
||||
I very much like the simplicity of http://gurno.com/adam/mne/
|
||||
|
||||
Five three letter words means you have a 15 character identity, not actually more
|
||||
annoying than an IP address and a lot more memorable than the raw digits. This
|
||||
can be stored as a single integer which is then translated into the corresponding
|
||||
series of 5 words.
|
||||
|
||||
I, in general like the idea of having a 'skip' mechanism, but it does need to cost
|
||||
something so people don't eat up the address space. 256 ^ 5 means you have a lot
|
||||
of address space, but if people troll by skipping a lot that could be eaten up.
|
||||
Should probably do some napkin calculations for how expensive skipping needs to
|
||||
be to deter people from doing it just to chew up address space.
|
||||
*)
|
||||
|
||||
let buy (parameter, storage: buy * storage) =
|
||||
let void: unit =
|
||||
if amount = storage.name_price
|
||||
then ()
|
||||
else (failwith "Incorrect amount paid.": unit)
|
||||
in
|
||||
let profile = parameter.profile in
|
||||
let initial_controller = parameter.initial_controller in
|
||||
let identities = storage.identities in
|
||||
let new_id = storage.next_id in
|
||||
let controller: address =
|
||||
match initial_controller with
|
||||
| Some addr -> addr
|
||||
| None -> sender
|
||||
in
|
||||
let new_id_details: id_details = {
|
||||
owner = sender ;
|
||||
controller = controller ;
|
||||
profile = profile ;
|
||||
}
|
||||
in
|
||||
let updated_identities: (id, id_details) big_map =
|
||||
Big_map.update new_id (Some new_id_details) identities
|
||||
in
|
||||
([]: operation list), {identities = updated_identities;
|
||||
next_id = new_id + 1;
|
||||
name_price = storage.name_price;
|
||||
skip_price = storage.skip_price;
|
||||
}
|
||||
|
||||
let update_owner (parameter, storage: update_owner * storage) =
|
||||
if (amount <> 0mutez)
|
||||
then (failwith "Updating owner doesn't cost anything.": (operation list) * storage)
|
||||
else
|
||||
let id = parameter.id in
|
||||
let new_owner = parameter.new_owner in
|
||||
let identities = storage.identities in
|
||||
let current_id_details: id_details =
|
||||
match Big_map.find_opt id identities with
|
||||
| Some id_details -> id_details
|
||||
| None -> (failwith "This ID does not exist.": id_details)
|
||||
in
|
||||
let is_allowed: bool =
|
||||
if sender = current_id_details.owner
|
||||
then true
|
||||
else (failwith "You are not the owner of this ID.": bool)
|
||||
in
|
||||
let updated_id_details: id_details = {
|
||||
owner = new_owner;
|
||||
controller = current_id_details.controller;
|
||||
profile = current_id_details.profile;
|
||||
}
|
||||
in
|
||||
let updated_identities = Big_map.update id (Some updated_id_details) identities in
|
||||
([]: operation list), {identities = updated_identities;
|
||||
next_id = storage.next_id;
|
||||
name_price = storage.name_price;
|
||||
skip_price = storage.skip_price;
|
||||
}
|
||||
|
||||
let update_details (parameter, storage: update_details * storage) =
|
||||
if (amount <> 0mutez)
|
||||
then (failwith "Updating details doesn't cost anything.": (operation list) * storage)
|
||||
else
|
||||
let id = parameter.id in
|
||||
let new_profile = parameter.new_profile in
|
||||
let new_controller = parameter.new_controller in
|
||||
let identities = storage.identities in
|
||||
let current_id_details: id_details =
|
||||
match Big_map.find_opt id identities with
|
||||
| Some id_details -> id_details
|
||||
| None -> (failwith "This ID does not exist.": id_details)
|
||||
in
|
||||
let is_allowed: bool =
|
||||
if (sender = current_id_details.controller) || (sender = current_id_details.owner)
|
||||
then true
|
||||
else (failwith ("You are not the owner or controller of this ID."): bool)
|
||||
in
|
||||
let owner: address = current_id_details.owner in
|
||||
let profile: bytes =
|
||||
match new_profile with
|
||||
| None -> (* Default *) current_id_details.profile
|
||||
| Some new_profile -> new_profile
|
||||
in
|
||||
let controller: address =
|
||||
match new_controller with
|
||||
| None -> (* Default *) current_id_details.controller
|
||||
| Some new_controller -> new_controller
|
||||
in
|
||||
let updated_id_details: id_details = {
|
||||
owner = owner;
|
||||
controller = controller;
|
||||
profile = profile;
|
||||
}
|
||||
in
|
||||
let updated_identities: (id, id_details) big_map =
|
||||
Big_map.update id (Some updated_id_details) identities in
|
||||
([]: operation list), {identities = updated_identities;
|
||||
next_id = storage.next_id;
|
||||
name_price = storage.name_price;
|
||||
skip_price = storage.skip_price;
|
||||
}
|
||||
|
||||
(* Let someone skip the next identity so nobody has to take one that's undesirable *)
|
||||
let skip (p,storage: unit * storage) =
|
||||
let void: unit =
|
||||
if amount = storage.skip_price
|
||||
then ()
|
||||
else (failwith "Incorrect amount paid.": unit)
|
||||
in
|
||||
([]: operation list), {identities = storage.identities;
|
||||
next_id = storage.next_id + 1;
|
||||
name_price = storage.name_price;
|
||||
skip_price = storage.skip_price;
|
||||
}
|
||||
|
||||
let main (action, storage: action * storage) : operation list * storage =
|
||||
match action with
|
||||
| Buy b -> buy (b, storage)
|
||||
| Update_owner uo -> update_owner (uo, storage)
|
||||
| Update_details ud -> update_details (ud, storage)
|
||||
| Skip s -> skip ((), storage)
|
242
src/test/examples/pascaligo/id.ligo
Normal file
242
src/test/examples/pascaligo/id.ligo
Normal file
@ -0,0 +1,242 @@
|
||||
(*_*
|
||||
name: ID Contract (PascaLIGO)
|
||||
language: pascaligo
|
||||
compile:
|
||||
entrypoint: main
|
||||
dryRun:
|
||||
entrypoint: main
|
||||
parameters: |
|
||||
Buy (
|
||||
record [
|
||||
profile=0x0501000000026869;
|
||||
initial_controller=Some(("tz1KqTpEZ7Yob7QbPE4Hy4Wo8fHG8LhKxZSx": address))
|
||||
]
|
||||
)
|
||||
storage: |
|
||||
record [
|
||||
identities=big_map[
|
||||
1->record
|
||||
[owner=("tz1KqTpEZ7Yob7QbPE4Hy4Wo8fHG8LhKxZSx" : address);
|
||||
controller=("tz1gjaF81ZRRvdzjobyfVNsAeSC6PScjfQwN" : address);
|
||||
profile=0x0501000000026869]
|
||||
];
|
||||
next_id=2;
|
||||
name_price=0tez;
|
||||
skip_price=50mutez;
|
||||
]
|
||||
deploy:
|
||||
entrypoint: main
|
||||
storage: |
|
||||
record [
|
||||
identities=big_map[
|
||||
1->record
|
||||
[owner=("tz1KqTpEZ7Yob7QbPE4Hy4Wo8fHG8LhKxZSx" : address);
|
||||
controller=("tz1gjaF81ZRRvdzjobyfVNsAeSC6PScjfQwN" : address);
|
||||
profile=0x0501000000026869]
|
||||
];
|
||||
next_id=2;
|
||||
name_price=0tez;
|
||||
skip_price=50mutez;
|
||||
]
|
||||
evaluateValue:
|
||||
entrypoint: ""
|
||||
evaluateFunction:
|
||||
entrypoint: buy
|
||||
parameters: |
|
||||
(
|
||||
record [
|
||||
profile=0x0501000000026869;
|
||||
initial_controller=Some(("tz1KqTpEZ7Yob7QbPE4Hy4Wo8fHG8LhKxZSx": address))
|
||||
],
|
||||
|
||||
record [ identities=big_map[
|
||||
1->record
|
||||
[owner=("tz1KqTpEZ7Yob7QbPE4Hy4Wo8fHG8LhKxZSx" : address);
|
||||
controller=("tz1gjaF81ZRRvdzjobyfVNsAeSC6PScjfQwN" : address);
|
||||
profile=0x0501000000026869]
|
||||
];
|
||||
next_id=2;
|
||||
name_price=0tez;
|
||||
skip_price=333mutez;
|
||||
]
|
||||
)
|
||||
*_*)
|
||||
|
||||
type id is int
|
||||
|
||||
type id_details is
|
||||
record [
|
||||
owner: address;
|
||||
controller: address;
|
||||
profile: bytes;
|
||||
]
|
||||
|
||||
type buy is
|
||||
record [
|
||||
profile: bytes;
|
||||
initial_controller: option(address);
|
||||
]
|
||||
|
||||
type update_owner is
|
||||
record [
|
||||
id: id;
|
||||
new_owner: address;
|
||||
]
|
||||
|
||||
type update_details is
|
||||
record [
|
||||
id: id;
|
||||
new_profile: option(bytes);
|
||||
new_controller: option(address);
|
||||
]
|
||||
|
||||
type action is
|
||||
| Buy of buy
|
||||
| Update_owner of update_owner
|
||||
| Update_details of update_details
|
||||
| Skip of unit
|
||||
|
||||
(* The prices kept in storage can be changed by bakers, though they should only be
|
||||
adjusted down over time, not up. *)
|
||||
type storage is
|
||||
record [
|
||||
identities: big_map (id, id_details);
|
||||
next_id: int;
|
||||
name_price: tez;
|
||||
skip_price: tez;
|
||||
]
|
||||
|
||||
(** Preliminary thoughts on ids:
|
||||
|
||||
I very much like the simplicity of http://gurno.com/adam/mne/.
|
||||
5 three letter words means you have a 15 character identity, not actually more
|
||||
annoying than an IP address and a lot more memorable than the raw digits. This
|
||||
can be stored as a single integer which is then translated into the corresponding
|
||||
series of 5 words.
|
||||
|
||||
I in general like the idea of having a 'skip' mechanism, but it does need to cost
|
||||
something so people don't eat up the address space. 256 ^ 5 means you have a lot
|
||||
of address space, but if people troll by skipping a lot that could be eaten up.
|
||||
Should probably do some napkin calculations for how expensive skipping needs to
|
||||
be to deter people from doing it just to chew up address space.
|
||||
*)
|
||||
|
||||
function buy (const parameter : buy; const storage : storage) : list(operation) * storage is
|
||||
begin
|
||||
if amount = storage.name_price
|
||||
then skip
|
||||
else failwith("Incorrect amount paid.");
|
||||
const profile : bytes = parameter.profile;
|
||||
const initial_controller : option(address) = parameter.initial_controller;
|
||||
var identities : big_map (id, id_details) := storage.identities;
|
||||
const new_id : int = storage.next_id;
|
||||
const controller : address =
|
||||
case initial_controller of
|
||||
Some(addr) -> addr
|
||||
| None -> sender
|
||||
end;
|
||||
const new_id_details: id_details =
|
||||
record [
|
||||
owner = sender ;
|
||||
controller = controller ;
|
||||
profile = profile ;
|
||||
];
|
||||
identities[new_id] := new_id_details;
|
||||
end with ((nil : list(operation)), record [
|
||||
identities = identities;
|
||||
next_id = new_id + 1;
|
||||
name_price = storage.name_price;
|
||||
skip_price = storage.skip_price;
|
||||
])
|
||||
|
||||
function update_owner (const parameter : update_owner; const storage : storage) :
|
||||
list(operation) * storage is
|
||||
begin
|
||||
if (amount =/= 0mutez)
|
||||
then
|
||||
begin
|
||||
failwith("Updating owner doesn't cost anything.");
|
||||
end
|
||||
else skip;
|
||||
const id : int = parameter.id;
|
||||
const new_owner : address = parameter.new_owner;
|
||||
var identities : big_map (id, id_details) := storage.identities;
|
||||
const id_details : id_details =
|
||||
case identities[id] of
|
||||
Some(id_details) -> id_details
|
||||
| None -> (failwith("This ID does not exist."): id_details)
|
||||
end;
|
||||
var is_allowed : bool := False;
|
||||
if sender = id_details.owner
|
||||
then is_allowed := True
|
||||
else failwith("You are not the owner of this ID.");
|
||||
id_details.owner := new_owner;
|
||||
identities[id] := id_details;
|
||||
end with ((nil: list(operation)), record [
|
||||
identities = identities;
|
||||
next_id = storage.next_id;
|
||||
name_price = storage.name_price;
|
||||
skip_price = storage.skip_price;
|
||||
])
|
||||
|
||||
function update_details (const parameter : update_details; const storage : storage ) :
|
||||
list(operation) * storage is
|
||||
begin
|
||||
if (amount =/= 0mutez)
|
||||
then failwith("Updating details doesn't cost anything.")
|
||||
else skip;
|
||||
const id : int = parameter.id;
|
||||
const new_profile : option(bytes) = parameter.new_profile;
|
||||
const new_controller : option(address) = parameter.new_controller;
|
||||
const identities : big_map (id, id_details) = storage.identities;
|
||||
const id_details: id_details =
|
||||
case identities[id] of
|
||||
Some(id_details) -> id_details
|
||||
| None -> (failwith("This ID does not exist."): id_details)
|
||||
end;
|
||||
var is_allowed : bool := False;
|
||||
if (sender = id_details.controller) or (sender = id_details.owner)
|
||||
then is_allowed := True
|
||||
else failwith("You are not the owner or controller of this ID.");
|
||||
const owner: address = id_details.owner;
|
||||
const profile: bytes =
|
||||
case new_profile of
|
||||
None -> (* Default *) id_details.profile
|
||||
| Some(new_profile) -> new_profile
|
||||
end;
|
||||
const controller: address =
|
||||
case new_controller of
|
||||
None -> (* Default *) id_details.controller
|
||||
| Some(new_controller) -> new_controller
|
||||
end;
|
||||
id_details.owner := owner;
|
||||
id_details.controller := controller;
|
||||
id_details.profile := profile;
|
||||
identities[id] := id_details;
|
||||
end with ((nil: list(operation)), record [
|
||||
identities = identities;
|
||||
next_id = storage.next_id;
|
||||
name_price = storage.name_price;
|
||||
skip_price = storage.skip_price;
|
||||
])
|
||||
|
||||
(* Let someone skip the next identity so nobody has to take one that's undesirable *)
|
||||
function skip_ (const p: unit; const storage: storage) : list(operation) * storage is
|
||||
begin
|
||||
if amount = storage.skip_price
|
||||
then skip
|
||||
else failwith("Incorrect amount paid.");
|
||||
end with ((nil: list(operation)), record [
|
||||
identities = storage.identities;
|
||||
next_id = storage.next_id + 1;
|
||||
name_price = storage.name_price;
|
||||
skip_price = storage.skip_price;
|
||||
])
|
||||
|
||||
function main (const action : action; const storage : storage) : list(operation) * storage is
|
||||
case action of
|
||||
| Buy(b) -> buy (b, storage)
|
||||
| Update_owner(uo) -> update_owner (uo, storage)
|
||||
| Update_details(ud) -> update_details (ud, storage)
|
||||
| Skip(s) -> skip_ (unit, storage)
|
||||
end;
|
248
src/test/examples/reasonligo/id.religo
Normal file
248
src/test/examples/reasonligo/id.religo
Normal file
@ -0,0 +1,248 @@
|
||||
/* (*_*
|
||||
name: ID Contract (ReasonLIGO)
|
||||
language: reasonligo
|
||||
compile:
|
||||
entrypoint: main
|
||||
dryRun:
|
||||
entrypoint: main
|
||||
parameters: |
|
||||
Buy (
|
||||
{
|
||||
profile: 0x0501000000026869,
|
||||
initial_controller: Some(("tz1gjaF81ZRRvdzjobyfVNsAeSC6PScjfQwN" : address))
|
||||
}
|
||||
)
|
||||
storage: |
|
||||
{
|
||||
identities:Big_map.literal([
|
||||
(1,
|
||||
{owner:("tz1KqTpEZ7Yob7QbPE4Hy4Wo8fHG8LhKxZSx" : address),
|
||||
controller:("tz1KqTpEZ7Yob7QbPE4Hy4Wo8fHG8LhKxZSx": address), profile:0x0501000000026869}
|
||||
)
|
||||
]),
|
||||
next_id:2,
|
||||
name_price:0tez,
|
||||
skip_price:333mutez
|
||||
}
|
||||
deploy:
|
||||
entrypoint: main
|
||||
storage: |
|
||||
{
|
||||
identities:Big_map.literal([
|
||||
(1,
|
||||
{owner:("tz1KqTpEZ7Yob7QbPE4Hy4Wo8fHG8LhKxZSx" : address), controller:("tz1KqTpEZ7Yob7QbPE4Hy4Wo8fHG8LhKxZSx": address), profile:0x0501000000026869}
|
||||
)
|
||||
]),
|
||||
next_id:2,
|
||||
name_price:10tez,
|
||||
skip_price:333mutez
|
||||
}
|
||||
evaluateValue:
|
||||
entrypoint: ""
|
||||
evaluateFunction:
|
||||
entrypoint: buy
|
||||
parameters: |
|
||||
(
|
||||
{
|
||||
profile: 0x0501000000026869,
|
||||
initial_controller: Some(("tz1gjaF81ZRRvdzjobyfVNsAeSC6PScjfQwN" : address))
|
||||
},
|
||||
{
|
||||
identities:Big_map.literal([
|
||||
(1,
|
||||
{owner:("tz1KqTpEZ7Yob7QbPE4Hy4Wo8fHG8LhKxZSx" : address),
|
||||
controller:("tz1KqTpEZ7Yob7QbPE4Hy4Wo8fHG8LhKxZSx": address),
|
||||
profile:0x0501000000026869}
|
||||
)
|
||||
]),
|
||||
next_id:2,
|
||||
name_price:0tez,
|
||||
skip_price:333mutez
|
||||
}
|
||||
)
|
||||
*_*) */
|
||||
|
||||
type id = int
|
||||
|
||||
type id_details = {
|
||||
owner: address,
|
||||
controller: address,
|
||||
profile: bytes,
|
||||
}
|
||||
|
||||
type buy = {
|
||||
profile: bytes,
|
||||
initial_controller: option(address),
|
||||
}
|
||||
|
||||
type update_owner = {
|
||||
id: id,
|
||||
new_owner: address,
|
||||
}
|
||||
|
||||
type update_details = {
|
||||
id: id,
|
||||
new_profile: option(bytes),
|
||||
new_controller: option(address),
|
||||
}
|
||||
|
||||
type action =
|
||||
| Buy(buy)
|
||||
| Update_owner(update_owner)
|
||||
| Update_details(update_details)
|
||||
| Skip(unit)
|
||||
|
||||
/* The prices kept in storage can be changed by bakers, though they should only be
|
||||
adjusted down over time, not up. */
|
||||
type storage = {
|
||||
identities: big_map (id, id_details),
|
||||
next_id: int,
|
||||
name_price: tez,
|
||||
skip_price: tez,
|
||||
}
|
||||
|
||||
/** Preliminary thoughts on ids:
|
||||
|
||||
I very much like the simplicity of http://gurno.com/adam/mne/.
|
||||
5 three letter words means you have a 15 character identity, not actually more
|
||||
annoying than an IP address and a lot more memorable than the raw digits. This
|
||||
can be stored as a single integer which is then translated into the corresponding
|
||||
series of 5 words.
|
||||
|
||||
I in general like the idea of having a 'skip' mechanism, but it does need to cost
|
||||
something so people don't eat up the address space. 256 ^ 5 means you have a lot
|
||||
of address space, but if people troll by skipping a lot that could be eaten up.
|
||||
Should probably do some napkin calculations for how expensive skipping needs to
|
||||
be to deter people from doing it just to chew up address space.
|
||||
*/
|
||||
|
||||
let buy = ((parameter, storage): (buy, storage)) : (list(operation), storage) => {
|
||||
let void: unit =
|
||||
if (amount == storage.name_price) { (); }
|
||||
else { failwith("Incorrect amount paid."); };
|
||||
let profile = parameter.profile;
|
||||
let initial_controller = parameter.initial_controller;
|
||||
let identities = storage.identities;
|
||||
let new_id = storage.next_id;
|
||||
let controller: address =
|
||||
switch (initial_controller) {
|
||||
| Some(addr) => addr
|
||||
| None => sender
|
||||
};
|
||||
let new_id_details: id_details = {
|
||||
owner : sender,
|
||||
controller : controller,
|
||||
profile : profile,
|
||||
};
|
||||
let updated_identities: big_map (id, id_details) =
|
||||
Big_map.update(new_id, Some(new_id_details), identities);
|
||||
(([]: list(operation)), {
|
||||
identities : updated_identities,
|
||||
next_id : new_id + 1,
|
||||
name_price : storage.name_price,
|
||||
skip_price : storage.skip_price,
|
||||
});
|
||||
};
|
||||
|
||||
let update_owner = ((parameter, storage): (update_owner, storage)) : (list(operation), storage) => {
|
||||
let void: unit =
|
||||
if (amount != 0mutez) {
|
||||
failwith("Updating owner doesn't cost anything.");
|
||||
}
|
||||
else { (); };
|
||||
let id : int = parameter.id;
|
||||
let new_owner = parameter.new_owner;
|
||||
let identities = storage.identities;
|
||||
let current_id_details: id_details =
|
||||
switch (Big_map.find_opt(id, identities)) {
|
||||
| Some(id_details) => id_details
|
||||
| None => (failwith("This ID does not exist."): id_details)
|
||||
};
|
||||
let is_allowed: bool =
|
||||
if (sender == current_id_details.owner) { true; }
|
||||
else { (failwith("You are not the owner of this ID."): bool); };
|
||||
let updated_id_details: id_details = {
|
||||
owner : new_owner,
|
||||
controller : current_id_details.controller,
|
||||
profile : current_id_details.profile,
|
||||
};
|
||||
let updated_identities = Big_map.update(id, (Some updated_id_details), identities);
|
||||
(([]: list(operation)), {
|
||||
identities : updated_identities,
|
||||
next_id : storage.next_id,
|
||||
name_price : storage.name_price,
|
||||
skip_price : storage.skip_price,
|
||||
});
|
||||
};
|
||||
|
||||
let update_details = ((parameter, storage): (update_details, storage)) :
|
||||
(list(operation), storage) => {
|
||||
let void : unit =
|
||||
if (amount != 0mutez) {
|
||||
failwith("Updating details doesn't cost anything.");
|
||||
}
|
||||
else { (); };
|
||||
let id = parameter.id;
|
||||
let new_profile = parameter.new_profile;
|
||||
let new_controller = parameter.new_controller;
|
||||
let identities = storage.identities;
|
||||
let current_id_details: id_details =
|
||||
switch (Big_map.find_opt(id, identities)) {
|
||||
| Some(id_details) => id_details
|
||||
| None => (failwith("This ID does not exist."): id_details)
|
||||
};
|
||||
let is_allowed: bool =
|
||||
if ((sender != current_id_details.controller) &&
|
||||
(sender != current_id_details.owner)) {
|
||||
(failwith ("You are not the owner or controller of this ID."): bool)
|
||||
}
|
||||
else { true; };
|
||||
let owner: address = current_id_details.owner;
|
||||
let profile: bytes =
|
||||
switch (new_profile) {
|
||||
| None => /* Default */ current_id_details.profile
|
||||
| Some(new_profile) => new_profile
|
||||
};
|
||||
let controller: address =
|
||||
switch (new_controller) {
|
||||
| None => /* Default */ current_id_details.controller
|
||||
| Some new_controller => new_controller
|
||||
};
|
||||
let updated_id_details: id_details = {
|
||||
owner : owner,
|
||||
controller : controller,
|
||||
profile : profile,
|
||||
};
|
||||
let updated_identities: big_map (id, id_details) =
|
||||
Big_map.update(id, (Some updated_id_details), identities);
|
||||
(([]: list(operation)), {
|
||||
identities : updated_identities,
|
||||
next_id : storage.next_id,
|
||||
name_price : storage.name_price,
|
||||
skip_price : storage.skip_price,
|
||||
});
|
||||
};
|
||||
|
||||
/* Let someone skip the next identity so nobody has to take one that's undesirable */
|
||||
let skip = ((p,storage): (unit, storage)) => {
|
||||
let void : unit =
|
||||
if (amount != storage.skip_price) {
|
||||
failwith("Incorrect amount paid.");
|
||||
}
|
||||
else { (); };
|
||||
(([]: list(operation)), {
|
||||
identities : storage.identities,
|
||||
next_id : storage.next_id + 1,
|
||||
name_price : storage.name_price,
|
||||
skip_price : storage.skip_price,
|
||||
});
|
||||
};
|
||||
|
||||
let main = ((action, storage): (action, storage)) : (list(operation), storage) => {
|
||||
switch (action) {
|
||||
| Buy(b) => buy((b, storage))
|
||||
| Update_owner(uo) => update_owner((uo, storage))
|
||||
| Update_details ud => update_details((ud, storage))
|
||||
| Skip s => skip(((), storage))
|
||||
};
|
||||
};
|
@ -40,9 +40,10 @@ let buy_id () =
|
||||
("controller", e_address owner_addr) ;
|
||||
("profile", owner_website)]
|
||||
in
|
||||
let storage = e_tuple [(e_big_map [(e_int 0, id_details_1)]) ;
|
||||
e_int 1;
|
||||
e_tuple [e_mutez 1000000 ; e_mutez 1000000]]
|
||||
let storage = e_record_ez [("identities", (e_big_map [(e_int 0, id_details_1)])) ;
|
||||
("next_id", e_int 1) ;
|
||||
("name_price", e_mutez 1000000) ;
|
||||
("skip_price", e_mutez 1000000) ; ]
|
||||
in
|
||||
let new_addr = first_owner in
|
||||
let options = Proto_alpha_utils.Memory_proto_alpha.make_options
|
||||
@ -54,11 +55,15 @@ let buy_id () =
|
||||
("controller", e_address new_addr) ;
|
||||
("profile", new_website)]
|
||||
in
|
||||
let param = e_pair owner_website (e_some (e_address new_addr)) in
|
||||
let new_storage = e_tuple [(e_big_map [(e_int 0, id_details_1) ;
|
||||
(e_int 1, id_details_2)]) ;
|
||||
e_int 2;
|
||||
e_tuple [e_mutez 1000000 ; e_mutez 1000000]]
|
||||
let param = e_record_ez [("profile", owner_website) ;
|
||||
("initial_controller", (e_some (e_address new_addr))) ;
|
||||
] in
|
||||
let new_storage = e_record_ez [("identities", (e_big_map
|
||||
[(e_int 0, id_details_1) ;
|
||||
(e_int 1, id_details_2)])) ;
|
||||
("next_id", e_int 2) ;
|
||||
("name_price", e_mutez 1000000) ;
|
||||
("skip_price", e_mutez 1000000) ; ]
|
||||
in
|
||||
let%bind () = expect_eq ~options (program, state) "buy"
|
||||
(e_pair param storage)
|
||||
@ -73,9 +78,10 @@ let buy_id_sender_addr () =
|
||||
("controller", e_address owner_addr) ;
|
||||
("profile", owner_website)]
|
||||
in
|
||||
let storage = e_tuple [(e_big_map [(e_int 0, id_details_1)]) ;
|
||||
e_int 1;
|
||||
e_tuple [e_mutez 1000000 ; e_mutez 1000000]]
|
||||
let storage = e_record_ez [("identities", (e_big_map [(e_int 0, id_details_1)])) ;
|
||||
("next_id", e_int 1) ;
|
||||
("name_price", e_mutez 1000000) ;
|
||||
("skip_price", e_mutez 1000000) ; ]
|
||||
in
|
||||
let new_addr = first_owner in
|
||||
let options = Proto_alpha_utils.Memory_proto_alpha.make_options
|
||||
@ -87,11 +93,14 @@ let buy_id_sender_addr () =
|
||||
("controller", e_address new_addr) ;
|
||||
("profile", new_website)]
|
||||
in
|
||||
let param = e_pair owner_website (e_typed_none (t_address ())) in
|
||||
let new_storage = e_tuple [(e_big_map [(e_int 0, id_details_1) ;
|
||||
(e_int 1, id_details_2)]) ;
|
||||
e_int 2;
|
||||
e_tuple [e_mutez 1000000 ; e_mutez 1000000]]
|
||||
let param = e_record_ez [("profile", owner_website) ;
|
||||
("initial_controller", (e_typed_none (t_address ())))] in
|
||||
let new_storage = e_record_ez [("identities", (e_big_map
|
||||
[(e_int 0, id_details_1) ;
|
||||
(e_int 1, id_details_2)])) ;
|
||||
("next_id", e_int 2) ;
|
||||
("name_price", e_mutez 1000000) ;
|
||||
("skip_price", e_mutez 1000000) ; ]
|
||||
in
|
||||
let%bind () = expect_eq ~options (program, state) "buy"
|
||||
(e_pair param storage)
|
||||
@ -107,16 +116,18 @@ let buy_id_wrong_amount () =
|
||||
("controller", e_address owner_addr) ;
|
||||
("profile", owner_website)]
|
||||
in
|
||||
let storage = e_tuple [(e_big_map [(e_int 0, id_details_1)]) ;
|
||||
e_int 1;
|
||||
e_tuple [e_mutez 1000000 ; e_mutez 1000000]]
|
||||
let storage = e_record_ez [("identities", (e_big_map [(e_int 0, id_details_1)])) ;
|
||||
("next_id", e_int 1) ;
|
||||
("name_price", e_mutez 1000000) ;
|
||||
("skip_price", e_mutez 1000000) ; ]
|
||||
in
|
||||
let new_addr = first_owner in
|
||||
let options = Proto_alpha_utils.Memory_proto_alpha.make_options
|
||||
~sender:first_contract
|
||||
~amount:(Memory_proto_alpha.Protocol.Alpha_context.Tez.fifty_cents) ()
|
||||
in
|
||||
let param = e_pair owner_website (e_some (e_address new_addr)) in
|
||||
let param = e_record_ez [("profile", owner_website) ;
|
||||
("initial_controller", (e_some (e_address new_addr)))] in
|
||||
let%bind () = expect_string_failwith ~options (program, state) "buy"
|
||||
(e_pair param storage)
|
||||
"Incorrect amount paid."
|
||||
@ -144,20 +155,24 @@ let update_details_owner () =
|
||||
let id_details_2_diff = e_record_ez [("owner", e_address new_addr) ;
|
||||
("controller", e_address new_addr) ;
|
||||
("profile", new_website)] in
|
||||
let storage = e_tuple [(e_big_map [(e_int 0, id_details_1) ;
|
||||
(e_int 1, id_details_2)]) ;
|
||||
e_int 2;
|
||||
e_tuple [e_mutez 1000000 ; e_mutez 1000000]]
|
||||
let storage = e_record_ez [("identities", (e_big_map
|
||||
[(e_int 0, id_details_1) ;
|
||||
(e_int 1, id_details_2)])) ;
|
||||
("next_id", e_int 2) ;
|
||||
("name_price", e_mutez 1000000) ;
|
||||
("skip_price", e_mutez 1000000) ; ]
|
||||
in
|
||||
let new_storage = e_tuple [(e_big_map [(e_int 0, id_details_1) ;
|
||||
(e_int 1, id_details_2_diff)]) ;
|
||||
e_int 2;
|
||||
e_tuple [e_mutez 1000000 ; e_mutez 1000000]]
|
||||
let new_storage = e_record_ez [("identities", (e_big_map
|
||||
[(e_int 0, id_details_1) ;
|
||||
(e_int 1, id_details_2_diff)])) ;
|
||||
("next_id", e_int 2) ;
|
||||
("name_price", e_mutez 1000000) ;
|
||||
("skip_price", e_mutez 1000000) ; ]
|
||||
in
|
||||
let details = e_bytes_string "ligolang.org" in
|
||||
let param = e_tuple [e_int 1 ;
|
||||
e_some details ;
|
||||
e_some (e_address new_addr)] in
|
||||
let param = e_record_ez [("id", e_int 1) ;
|
||||
("new_profile", e_some details) ;
|
||||
("new_controller", e_some (e_address new_addr))] in
|
||||
let%bind () = expect_eq ~options (program, state) "update_details"
|
||||
(e_pair param storage)
|
||||
(e_pair (e_list []) new_storage)
|
||||
@ -185,20 +200,24 @@ let update_details_controller () =
|
||||
let id_details_2_diff = e_record_ez [("owner", e_address owner_addr) ;
|
||||
("controller", e_address owner_addr) ;
|
||||
("profile", new_website)] in
|
||||
let storage = e_tuple [(e_big_map [(e_int 0, id_details_1) ;
|
||||
(e_int 1, id_details_2)]) ;
|
||||
e_int 2;
|
||||
e_tuple [e_mutez 1000000 ; e_mutez 1000000]]
|
||||
let storage = e_record_ez [("identities", (e_big_map
|
||||
[(e_int 0, id_details_1) ;
|
||||
(e_int 1, id_details_2)])) ;
|
||||
("next_id", e_int 2) ;
|
||||
("name_price", e_mutez 1000000) ;
|
||||
("skip_price", e_mutez 1000000) ; ]
|
||||
in
|
||||
let new_storage = e_tuple [(e_big_map [(e_int 0, id_details_1) ;
|
||||
(e_int 1, id_details_2_diff)]) ;
|
||||
e_int 2;
|
||||
e_tuple [e_mutez 1000000 ; e_mutez 1000000]]
|
||||
let new_storage = e_record_ez [("identities", (e_big_map
|
||||
[(e_int 0, id_details_1) ;
|
||||
(e_int 1, id_details_2_diff)])) ;
|
||||
("next_id", e_int 2) ;
|
||||
("name_price", e_mutez 1000000) ;
|
||||
("skip_price", e_mutez 1000000) ; ]
|
||||
in
|
||||
let details = e_bytes_string "ligolang.org" in
|
||||
let param = e_tuple [e_int 1 ;
|
||||
e_some details ;
|
||||
e_some (e_address owner_addr)] in
|
||||
let param = e_record_ez [("id", e_int 1) ;
|
||||
("new_profile", e_some details) ;
|
||||
("new_controller", e_some (e_address owner_addr))] in
|
||||
let%bind () = expect_eq ~options (program, state) "update_details"
|
||||
(e_pair param storage)
|
||||
(e_pair (e_list []) new_storage)
|
||||
@ -224,15 +243,17 @@ let update_details_nonexistent () =
|
||||
("controller", e_address new_addr) ;
|
||||
("profile", new_website)]
|
||||
in
|
||||
let storage = e_tuple [(e_big_map [(e_int 0, id_details_1) ;
|
||||
(e_int 1, id_details_2)]) ;
|
||||
e_int 2;
|
||||
e_tuple [e_mutez 1000000 ; e_mutez 1000000]]
|
||||
let storage = e_record_ez [("identities", (e_big_map
|
||||
[(e_int 0, id_details_1) ;
|
||||
(e_int 1, id_details_2)])) ;
|
||||
("next_id", e_int 2) ;
|
||||
("name_price", e_mutez 1000000) ;
|
||||
("skip_price", e_mutez 1000000) ; ]
|
||||
in
|
||||
let details = e_bytes_string "ligolang.org" in
|
||||
let param = e_tuple [e_int 2 ;
|
||||
e_some details ;
|
||||
e_some (e_address owner_addr)] in
|
||||
let param = e_record_ez [("id", e_int 2) ;
|
||||
("new_profile", e_some details) ;
|
||||
("new_controller", e_some (e_address owner_addr))] in
|
||||
let%bind () = expect_string_failwith ~options (program, state) "update_details"
|
||||
(e_pair param storage)
|
||||
"This ID does not exist."
|
||||
@ -257,15 +278,17 @@ let update_details_wrong_addr () =
|
||||
("controller", e_address new_addr) ;
|
||||
("profile", new_website)]
|
||||
in
|
||||
let storage = e_tuple [(e_big_map [(e_int 0, id_details_1) ;
|
||||
(e_int 1, id_details_2)]) ;
|
||||
e_int 2;
|
||||
e_tuple [e_mutez 1000000 ; e_mutez 1000000]]
|
||||
let storage = e_record_ez [("identities", (e_big_map
|
||||
[(e_int 0, id_details_1) ;
|
||||
(e_int 1, id_details_2)])) ;
|
||||
("next_id", e_int 2) ;
|
||||
("name_price", e_mutez 1000000) ;
|
||||
("skip_price", e_mutez 1000000) ; ]
|
||||
in
|
||||
let details = e_bytes_string "ligolang.org" in
|
||||
let param = e_tuple [e_int 0 ;
|
||||
e_some details ;
|
||||
e_some (e_address owner_addr)] in
|
||||
let param = e_record_ez [("id", e_int 0) ;
|
||||
("new_profile", e_some details) ;
|
||||
("new_controller", e_some (e_address owner_addr))] in
|
||||
let%bind () = expect_string_failwith ~options (program, state) "update_details"
|
||||
(e_pair param storage)
|
||||
"You are not the owner or controller of this ID."
|
||||
@ -291,14 +314,16 @@ let update_details_unchanged () =
|
||||
("controller", e_address new_addr) ;
|
||||
("profile", new_website)]
|
||||
in
|
||||
let storage = e_tuple [(e_big_map [(e_int 0, id_details_1) ;
|
||||
(e_int 1, id_details_2)]) ;
|
||||
e_int 2;
|
||||
e_tuple [e_mutez 1000000 ; e_mutez 1000000]]
|
||||
let storage = e_record_ez [("identities", (e_big_map
|
||||
[(e_int 0, id_details_1) ;
|
||||
(e_int 1, id_details_2)])) ;
|
||||
("next_id", e_int 2) ;
|
||||
("name_price", e_mutez 1000000) ;
|
||||
("skip_price", e_mutez 1000000) ; ]
|
||||
in
|
||||
let param = e_tuple [e_int 1 ;
|
||||
e_typed_none (t_bytes ()) ;
|
||||
e_typed_none (t_address ())] in
|
||||
let param = e_record_ez [("id", e_int 1) ;
|
||||
("new_profile", e_typed_none (t_bytes ())) ;
|
||||
("new_controller", e_typed_none (t_address ()))] in
|
||||
let%bind () = expect_eq ~options (program, state) "update_details"
|
||||
(e_pair param storage)
|
||||
(e_pair (e_list []) storage)
|
||||
@ -326,17 +351,22 @@ let update_owner () =
|
||||
let id_details_2_diff = e_record_ez [("owner", e_address owner_addr) ;
|
||||
("controller", e_address new_addr) ;
|
||||
("profile", new_website)] in
|
||||
let storage = e_tuple [(e_big_map [(e_int 0, id_details_1) ;
|
||||
(e_int 1, id_details_2)]) ;
|
||||
e_int 2;
|
||||
e_tuple [e_mutez 1000000 ; e_mutez 1000000]]
|
||||
let storage = e_record_ez [("identities", (e_big_map
|
||||
[(e_int 0, id_details_1) ;
|
||||
(e_int 1, id_details_2)])) ;
|
||||
("next_id", e_int 2) ;
|
||||
("name_price", e_mutez 1000000) ;
|
||||
("skip_price", e_mutez 1000000) ; ]
|
||||
in
|
||||
let new_storage = e_tuple [(e_big_map [(e_int 0, id_details_1) ;
|
||||
(e_int 1, id_details_2_diff)]) ;
|
||||
e_int 2;
|
||||
e_tuple [e_mutez 1000000 ; e_mutez 1000000]]
|
||||
let new_storage = e_record_ez [("identities", (e_big_map
|
||||
[(e_int 0, id_details_1) ;
|
||||
(e_int 1, id_details_2_diff)])) ;
|
||||
("next_id", e_int 2) ;
|
||||
("name_price", e_mutez 1000000) ;
|
||||
("skip_price", e_mutez 1000000) ; ]
|
||||
in
|
||||
let param = e_pair (e_int 1) (e_address owner_addr) in
|
||||
let param = e_record_ez [("id", e_int 1) ;
|
||||
("new_owner", e_address owner_addr)] in
|
||||
let%bind () = expect_eq ~options (program, state) "update_owner"
|
||||
(e_pair param storage)
|
||||
(e_pair (e_list []) new_storage)
|
||||
@ -362,12 +392,15 @@ let update_owner_nonexistent () =
|
||||
("controller", e_address new_addr) ;
|
||||
("profile", new_website)]
|
||||
in
|
||||
let storage = e_tuple [(e_big_map [(e_int 0, id_details_1) ;
|
||||
(e_int 1, id_details_2)]) ;
|
||||
e_int 2;
|
||||
e_tuple [e_mutez 1000000 ; e_mutez 1000000]]
|
||||
let storage = e_record_ez [("identities", (e_big_map
|
||||
[(e_int 0, id_details_1) ;
|
||||
(e_int 1, id_details_2)])) ;
|
||||
("next_id", e_int 2) ;
|
||||
("name_price", e_mutez 1000000) ;
|
||||
("skip_price", e_mutez 1000000) ; ]
|
||||
in
|
||||
let param = e_pair (e_int 2) (e_address new_addr) in
|
||||
let param = e_record_ez [("id", e_int 2);
|
||||
("new_owner", e_address new_addr)] in
|
||||
let%bind () = expect_string_failwith ~options (program, state) "update_owner"
|
||||
(e_pair param storage)
|
||||
"This ID does not exist."
|
||||
@ -393,12 +426,15 @@ let update_owner_wrong_addr () =
|
||||
("controller", e_address new_addr) ;
|
||||
("profile", new_website)]
|
||||
in
|
||||
let storage = e_tuple [(e_big_map [(e_int 0, id_details_1) ;
|
||||
(e_int 1, id_details_2)]) ;
|
||||
e_int 2;
|
||||
e_tuple [e_mutez 1000000 ; e_mutez 1000000]]
|
||||
let storage = e_record_ez [("identities", (e_big_map
|
||||
[(e_int 0, id_details_1) ;
|
||||
(e_int 1, id_details_2)])) ;
|
||||
("next_id", e_int 2) ;
|
||||
("name_price", e_mutez 1000000) ;
|
||||
("skip_price", e_mutez 1000000) ; ]
|
||||
in
|
||||
let param = e_pair (e_int 0) (e_address new_addr) in
|
||||
let param = e_record_ez [("id", e_int 0);
|
||||
("new_owner", e_address new_addr)] in
|
||||
let%bind () = expect_string_failwith ~options (program, state) "update_owner"
|
||||
(e_pair param storage)
|
||||
"You are not the owner of this ID."
|
||||
@ -422,15 +458,19 @@ let skip () =
|
||||
("controller", e_address new_addr) ;
|
||||
("profile", new_website)]
|
||||
in
|
||||
let storage = e_tuple [(e_big_map [(e_int 0, id_details_1) ;
|
||||
(e_int 1, id_details_2)]) ;
|
||||
e_int 2;
|
||||
e_tuple [e_mutez 1000000 ; e_mutez 1000000]]
|
||||
let storage = e_record_ez [("identities", (e_big_map
|
||||
[(e_int 0, id_details_1) ;
|
||||
(e_int 1, id_details_2)])) ;
|
||||
("next_id", e_int 2) ;
|
||||
("name_price", e_mutez 1000000) ;
|
||||
("skip_price", e_mutez 1000000) ; ]
|
||||
in
|
||||
let new_storage = e_tuple [(e_big_map [(e_int 0, id_details_1) ;
|
||||
(e_int 1, id_details_2)]) ;
|
||||
e_int 3;
|
||||
e_tuple [e_mutez 1000000 ; e_mutez 1000000]]
|
||||
let new_storage = e_record_ez [("identities", (e_big_map
|
||||
[(e_int 0, id_details_1) ;
|
||||
(e_int 1, id_details_2)])) ;
|
||||
("next_id", e_int 3) ;
|
||||
("name_price", e_mutez 1000000) ;
|
||||
("skip_price", e_mutez 1000000) ; ]
|
||||
in
|
||||
let%bind () = expect_eq ~options (program, state) "skip"
|
||||
(e_pair (e_unit ()) storage)
|
||||
@ -456,17 +496,19 @@ let skip_wrong_amount () =
|
||||
("controller", e_address new_addr) ;
|
||||
("profile", new_website)]
|
||||
in
|
||||
let storage = e_tuple [(e_big_map [(e_int 0, id_details_1) ;
|
||||
(e_int 1, id_details_2)]) ;
|
||||
e_int 2;
|
||||
e_tuple [e_mutez 1000000 ; e_mutez 1000000]]
|
||||
let storage = e_record_ez [("identities", (e_big_map
|
||||
[(e_int 0, id_details_1) ;
|
||||
(e_int 1, id_details_2)])) ;
|
||||
("next_id", e_int 2) ;
|
||||
("name_price", e_mutez 1000000) ;
|
||||
("skip_price", e_mutez 1000000) ; ]
|
||||
in
|
||||
let%bind () = expect_string_failwith ~options (program, state) "skip"
|
||||
(e_pair (e_unit ()) storage)
|
||||
"Incorrect amount paid."
|
||||
in ok ()
|
||||
|
||||
let main = test_suite "ID Layer" [
|
||||
let main = test_suite "ID Layer (CameLIGO)" [
|
||||
test "buy" buy_id ;
|
||||
test "buy (sender addr)" buy_id_sender_addr ;
|
||||
test "buy (wrong amount)" buy_id_wrong_amount ;
|
||||
|
522
src/test/id_tests_p.ml
Normal file
522
src/test/id_tests_p.ml
Normal file
@ -0,0 +1,522 @@
|
||||
open Trace
|
||||
open Test_helpers
|
||||
open Ast_imperative
|
||||
|
||||
|
||||
let type_file f =
|
||||
let%bind typed,state = Ligo.Compile.Utils.type_file f "pascaligo" (Contract "main") in
|
||||
ok (typed,state)
|
||||
|
||||
let get_program =
|
||||
let s = ref None in
|
||||
fun () -> match !s with
|
||||
| Some s -> ok s
|
||||
| None -> (
|
||||
let%bind program = type_file "./contracts/id.ligo" in
|
||||
s := Some program ;
|
||||
ok program
|
||||
)
|
||||
|
||||
let compile_main () =
|
||||
let%bind typed_prg,_ = get_program () in
|
||||
let%bind mini_c_prg = Ligo.Compile.Of_typed.compile typed_prg in
|
||||
let%bind michelson_prg = Ligo.Compile.Of_mini_c.aggregate_and_compile_contract mini_c_prg "main" in
|
||||
let%bind (_contract: Tezos_utils.Michelson.michelson) =
|
||||
(* fails if the given entry point is not a valid contract *)
|
||||
Ligo.Compile.Of_michelson.build_contract michelson_prg in
|
||||
ok ()
|
||||
|
||||
let (first_owner , first_contract) =
|
||||
let open Proto_alpha_utils.Memory_proto_alpha in
|
||||
let id = List.nth dummy_environment.identities 0 in
|
||||
let kt = id.implicit_contract in
|
||||
Protocol.Alpha_context.Contract.to_b58check kt , kt
|
||||
|
||||
let buy_id () =
|
||||
let%bind program, state = get_program () in
|
||||
let owner_addr = addr 5 in
|
||||
let owner_website = e_bytes_string "ligolang.org" in
|
||||
let id_details_1 = e_record_ez [("owner", e_address owner_addr) ;
|
||||
("controller", e_address owner_addr) ;
|
||||
("profile", owner_website)]
|
||||
in
|
||||
let storage = e_record_ez [("identities", (e_big_map [(e_int 0, id_details_1)])) ;
|
||||
("next_id", e_int 1) ;
|
||||
("name_price", e_mutez 1000000) ;
|
||||
("skip_price", e_mutez 1000000) ; ]
|
||||
in
|
||||
let new_addr = first_owner in
|
||||
let options = Proto_alpha_utils.Memory_proto_alpha.make_options
|
||||
~sender:first_contract
|
||||
~amount:(Memory_proto_alpha.Protocol.Alpha_context.Tez.one) ()
|
||||
in
|
||||
let id_details_2 = e_record_ez [("owner", e_address new_addr) ;
|
||||
("controller", e_address new_addr) ;
|
||||
("profile", owner_website)]
|
||||
in
|
||||
let param = e_record_ez [("profile", owner_website) ;
|
||||
("initial_controller", (e_some (e_address new_addr))) ;
|
||||
] in
|
||||
let new_storage = e_record_ez [("identities", (e_big_map
|
||||
[(e_int 0, id_details_1) ;
|
||||
(e_int 1, id_details_2)])) ;
|
||||
("next_id", e_int 2) ;
|
||||
("name_price", e_mutez 1000000) ;
|
||||
("skip_price", e_mutez 1000000) ; ]
|
||||
in
|
||||
let%bind () = expect_eq ~options (program, state) "buy"
|
||||
(e_pair param storage)
|
||||
(e_pair (e_list []) new_storage)
|
||||
in ok ()
|
||||
|
||||
let buy_id_sender_addr () =
|
||||
let%bind program = get_program () in
|
||||
let owner_addr = addr 5 in
|
||||
let owner_website = e_bytes_string "ligolang.org" in
|
||||
let id_details_1 = e_record_ez [("owner", e_address owner_addr) ;
|
||||
("controller", e_address owner_addr) ;
|
||||
("profile", owner_website)]
|
||||
in
|
||||
let storage = e_record_ez [("identities", (e_big_map [(e_int 0, id_details_1)])) ;
|
||||
("next_id", e_int 1) ;
|
||||
("name_price", e_mutez 1000000) ;
|
||||
("skip_price", e_mutez 1000000) ; ]
|
||||
in
|
||||
let new_addr = first_owner in
|
||||
let options = Proto_alpha_utils.Memory_proto_alpha.make_options
|
||||
~sender:first_contract
|
||||
~amount:(Memory_proto_alpha.Protocol.Alpha_context.Tez.one) ()
|
||||
in
|
||||
let id_details_2 = e_record_ez [("owner", e_address new_addr) ;
|
||||
("controller", e_address new_addr) ;
|
||||
("profile", owner_website)]
|
||||
in
|
||||
let param = e_record_ez [("profile", owner_website) ;
|
||||
("initial_controller", (e_typed_none (t_address ())))] in
|
||||
let new_storage = e_record_ez [("identities", (e_big_map
|
||||
[(e_int 0, id_details_1) ;
|
||||
(e_int 1, id_details_2)])) ;
|
||||
("next_id", e_int 2) ;
|
||||
("name_price", e_mutez 1000000) ;
|
||||
("skip_price", e_mutez 1000000) ; ]
|
||||
in
|
||||
let%bind () = expect_eq ~options program "buy"
|
||||
(e_pair param storage)
|
||||
(e_pair (e_list []) new_storage)
|
||||
in ok ()
|
||||
|
||||
(* Test that contract fails if we attempt to buy an ID for the wrong amount *)
|
||||
let buy_id_wrong_amount () =
|
||||
let%bind program = get_program () in
|
||||
let owner_addr = addr 5 in
|
||||
let owner_website = e_bytes_string "ligolang.org" in
|
||||
let id_details_1 = e_record_ez [("owner", e_address owner_addr) ;
|
||||
("controller", e_address owner_addr) ;
|
||||
("profile", owner_website)]
|
||||
in
|
||||
let storage = e_record_ez [("identities", (e_big_map [(e_int 0, id_details_1)])) ;
|
||||
("next_id", e_int 1) ;
|
||||
("name_price", e_mutez 1000000) ;
|
||||
("skip_price", e_mutez 1000000) ; ]
|
||||
in
|
||||
let new_addr = first_owner in
|
||||
let options = Proto_alpha_utils.Memory_proto_alpha.make_options
|
||||
~sender:first_contract
|
||||
~amount:(Memory_proto_alpha.Protocol.Alpha_context.Tez.fifty_cents) ()
|
||||
in
|
||||
let param = e_record_ez [("profile", owner_website) ;
|
||||
("initial_controller", (e_some (e_address new_addr)))] in
|
||||
let%bind () = expect_string_failwith ~options program "buy"
|
||||
(e_pair param storage)
|
||||
"Incorrect amount paid."
|
||||
in ok ()
|
||||
|
||||
let update_details_owner () =
|
||||
let%bind program = get_program () in
|
||||
let owner_addr = addr 5 in
|
||||
let owner_website = e_bytes_string "ligolang.org" in
|
||||
let id_details_1 = e_record_ez [("owner", e_address owner_addr) ;
|
||||
("controller", e_address owner_addr) ;
|
||||
("profile", owner_website)]
|
||||
in
|
||||
let new_addr = first_owner in
|
||||
let options = Proto_alpha_utils.Memory_proto_alpha.make_options
|
||||
~sender:first_contract
|
||||
~amount:(Memory_proto_alpha.Protocol.Alpha_context.Tez.zero)
|
||||
()
|
||||
in
|
||||
let id_details_2 = e_record_ez [("owner", e_address new_addr) ;
|
||||
("controller", e_address owner_addr) ;
|
||||
("profile", owner_website)]
|
||||
in
|
||||
let id_details_2_diff = e_record_ez [("owner", e_address new_addr) ;
|
||||
("controller", e_address new_addr) ;
|
||||
("profile", owner_website)] in
|
||||
let storage = e_record_ez [("identities", (e_big_map
|
||||
[(e_int 0, id_details_1) ;
|
||||
(e_int 1, id_details_2)])) ;
|
||||
("next_id", e_int 2) ;
|
||||
("name_price", e_mutez 1000000) ;
|
||||
("skip_price", e_mutez 1000000) ; ]
|
||||
in
|
||||
let new_storage = e_record_ez [("identities", (e_big_map
|
||||
[(e_int 0, id_details_1) ;
|
||||
(e_int 1, id_details_2_diff)])) ;
|
||||
("next_id", e_int 2) ;
|
||||
("name_price", e_mutez 1000000) ;
|
||||
("skip_price", e_mutez 1000000) ; ]
|
||||
in
|
||||
let details = owner_website in
|
||||
let param = e_record_ez [("id", e_int 1) ;
|
||||
("new_profile", e_some details) ;
|
||||
("new_controller", e_some (e_address new_addr))] in
|
||||
let%bind () = expect_eq ~options program "update_details"
|
||||
(e_pair param storage)
|
||||
(e_pair (e_list []) new_storage)
|
||||
in ok ()
|
||||
|
||||
let update_details_controller () =
|
||||
let%bind program = get_program () in
|
||||
let owner_addr = addr 5 in
|
||||
let owner_website = e_bytes_string "ligolang.org" in
|
||||
let id_details_1 = e_record_ez [("owner", e_address owner_addr) ;
|
||||
("controller", e_address owner_addr) ;
|
||||
("profile", owner_website)]
|
||||
in
|
||||
let new_addr = first_owner in
|
||||
let options = Proto_alpha_utils.Memory_proto_alpha.make_options
|
||||
~sender:first_contract
|
||||
~amount:(Memory_proto_alpha.Protocol.Alpha_context.Tez.zero)
|
||||
()
|
||||
in
|
||||
let new_website = owner_website in
|
||||
let id_details_2 = e_record_ez [("owner", e_address owner_addr) ;
|
||||
("controller", e_address new_addr) ;
|
||||
("profile", new_website)]
|
||||
in
|
||||
let id_details_2_diff = e_record_ez [("owner", e_address owner_addr) ;
|
||||
("controller", e_address owner_addr) ;
|
||||
("profile", new_website)] in
|
||||
let storage = e_record_ez [("identities", (e_big_map
|
||||
[(e_int 0, id_details_1) ;
|
||||
(e_int 1, id_details_2)])) ;
|
||||
("next_id", e_int 2) ;
|
||||
("name_price", e_mutez 1000000) ;
|
||||
("skip_price", e_mutez 1000000) ; ]
|
||||
in
|
||||
let new_storage = e_record_ez [("identities", (e_big_map
|
||||
[(e_int 0, id_details_1) ;
|
||||
(e_int 1, id_details_2_diff)])) ;
|
||||
("next_id", e_int 2) ;
|
||||
("name_price", e_mutez 1000000) ;
|
||||
("skip_price", e_mutez 1000000) ; ]
|
||||
in
|
||||
let details = e_bytes_string "ligolang.org" in
|
||||
let param = e_record_ez [("id", e_int 1) ;
|
||||
("new_profile", e_some details) ;
|
||||
("new_controller", e_some (e_address owner_addr))] in
|
||||
let%bind () = expect_eq ~options program "update_details"
|
||||
(e_pair param storage)
|
||||
(e_pair (e_list []) new_storage)
|
||||
in ok ()
|
||||
|
||||
(* Test that contract fails when we attempt to update details of nonexistent ID *)
|
||||
let update_details_nonexistent () =
|
||||
let%bind program = get_program () in
|
||||
let owner_addr = addr 5 in
|
||||
let owner_website = e_bytes_string "ligolang.org" in
|
||||
let id_details_1 = e_record_ez [("owner", e_address owner_addr) ;
|
||||
("controller", e_address owner_addr) ;
|
||||
("profile", owner_website)]
|
||||
in
|
||||
let new_addr = first_owner in
|
||||
let options = Proto_alpha_utils.Memory_proto_alpha.make_options
|
||||
~sender:first_contract
|
||||
~amount:(Memory_proto_alpha.Protocol.Alpha_context.Tez.zero)
|
||||
()
|
||||
in
|
||||
let new_website = e_bytes_string "ligolang.org" in
|
||||
let id_details_2 = e_record_ez [("owner", e_address new_addr) ;
|
||||
("controller", e_address new_addr) ;
|
||||
("profile", new_website)]
|
||||
in
|
||||
let storage = e_record_ez [("identities", (e_big_map
|
||||
[(e_int 0, id_details_1) ;
|
||||
(e_int 1, id_details_2)])) ;
|
||||
("next_id", e_int 2) ;
|
||||
("name_price", e_mutez 1000000) ;
|
||||
("skip_price", e_mutez 1000000) ; ]
|
||||
in
|
||||
let details = e_bytes_string "ligolang.org" in
|
||||
let param = e_record_ez [("id", e_int 2) ;
|
||||
("new_profile", e_some details) ;
|
||||
("new_controller", e_some (e_address owner_addr))] in
|
||||
let%bind () = expect_string_failwith ~options program "update_details"
|
||||
(e_pair param storage)
|
||||
"This ID does not exist."
|
||||
in ok ()
|
||||
|
||||
(* Test that contract fails when we attempt to update details from wrong addr *)
|
||||
let update_details_wrong_addr () =
|
||||
let%bind program = get_program () in
|
||||
let owner_addr = addr 5 in
|
||||
let owner_website = e_bytes_string "ligolang.org" in
|
||||
let id_details_1 = e_record_ez [("owner", e_address owner_addr) ;
|
||||
("controller", e_address owner_addr) ;
|
||||
("profile", owner_website)]
|
||||
in
|
||||
let new_addr = first_owner in
|
||||
let options = Proto_alpha_utils.Memory_proto_alpha.make_options
|
||||
~amount:(Memory_proto_alpha.Protocol.Alpha_context.Tez.zero)
|
||||
()
|
||||
in
|
||||
let new_website = e_bytes_string "ligolang.org" in
|
||||
let id_details_2 = e_record_ez [("owner", e_address new_addr) ;
|
||||
("controller", e_address new_addr) ;
|
||||
("profile", new_website)]
|
||||
in
|
||||
let storage = e_record_ez [("identities", (e_big_map
|
||||
[(e_int 0, id_details_1) ;
|
||||
(e_int 1, id_details_2)])) ;
|
||||
("next_id", e_int 2) ;
|
||||
("name_price", e_mutez 1000000) ;
|
||||
("skip_price", e_mutez 1000000) ; ]
|
||||
in
|
||||
let details = e_bytes_string "ligolang.org" in
|
||||
let param = e_record_ez [("id", e_int 0) ;
|
||||
("new_profile", e_some details) ;
|
||||
("new_controller", e_some (e_address owner_addr))] in
|
||||
let%bind () = expect_string_failwith ~options program "update_details"
|
||||
(e_pair param storage)
|
||||
"You are not the owner or controller of this ID."
|
||||
in ok ()
|
||||
|
||||
(* Test that giving none on both profile and controller address is a no-op *)
|
||||
let update_details_unchanged () =
|
||||
let%bind program = get_program () in
|
||||
let owner_addr = addr 5 in
|
||||
let owner_website = e_bytes_string "ligolang.org" in
|
||||
let id_details_1 = e_record_ez [("owner", e_address owner_addr) ;
|
||||
("controller", e_address owner_addr) ;
|
||||
("profile", owner_website)]
|
||||
in
|
||||
let new_addr = first_owner in
|
||||
let options = Proto_alpha_utils.Memory_proto_alpha.make_options
|
||||
~sender:first_contract
|
||||
~amount:(Memory_proto_alpha.Protocol.Alpha_context.Tez.zero)
|
||||
()
|
||||
in
|
||||
let new_website = e_bytes_string "ligolang.org" in
|
||||
let id_details_2 = e_record_ez [("owner", e_address new_addr) ;
|
||||
("controller", e_address new_addr) ;
|
||||
("profile", new_website)]
|
||||
in
|
||||
let storage = e_record_ez [("identities", (e_big_map
|
||||
[(e_int 0, id_details_1) ;
|
||||
(e_int 1, id_details_2)])) ;
|
||||
("next_id", e_int 2) ;
|
||||
("name_price", e_mutez 1000000) ;
|
||||
("skip_price", e_mutez 1000000) ; ]
|
||||
in
|
||||
let param = e_record_ez [("id", e_int 1) ;
|
||||
("new_profile", e_typed_none (t_bytes ())) ;
|
||||
("new_controller", e_typed_none (t_address ()))] in
|
||||
let%bind () = expect_eq ~options program "update_details"
|
||||
(e_pair param storage)
|
||||
(e_pair (e_list []) storage)
|
||||
in ok ()
|
||||
|
||||
let update_owner () =
|
||||
let%bind program = get_program () in
|
||||
let owner_addr = addr 5 in
|
||||
let owner_website = e_bytes_string "ligolang.org" in
|
||||
let id_details_1 = e_record_ez [("owner", e_address owner_addr) ;
|
||||
("controller", e_address owner_addr) ;
|
||||
("profile", owner_website)]
|
||||
in
|
||||
let new_addr = first_owner in
|
||||
let options = Proto_alpha_utils.Memory_proto_alpha.make_options
|
||||
~sender:first_contract
|
||||
~amount:(Memory_proto_alpha.Protocol.Alpha_context.Tez.zero)
|
||||
()
|
||||
in
|
||||
let new_website = e_bytes_string "ligolang.org" in
|
||||
let id_details_2 = e_record_ez [("owner", e_address new_addr) ;
|
||||
("controller", e_address new_addr) ;
|
||||
("profile", new_website)]
|
||||
in
|
||||
let id_details_2_diff = e_record_ez [("owner", e_address owner_addr) ;
|
||||
("controller", e_address new_addr) ;
|
||||
("profile", new_website)] in
|
||||
let storage = e_record_ez [("identities", (e_big_map
|
||||
[(e_int 0, id_details_1) ;
|
||||
(e_int 1, id_details_2)])) ;
|
||||
("next_id", e_int 2) ;
|
||||
("name_price", e_mutez 1000000) ;
|
||||
("skip_price", e_mutez 1000000) ; ]
|
||||
in
|
||||
let new_storage = e_record_ez [("identities", (e_big_map
|
||||
[(e_int 0, id_details_1) ;
|
||||
(e_int 1, id_details_2_diff)])) ;
|
||||
("next_id", e_int 2) ;
|
||||
("name_price", e_mutez 1000000) ;
|
||||
("skip_price", e_mutez 1000000) ; ]
|
||||
in
|
||||
let param = e_record_ez [("id", e_int 1) ;
|
||||
("new_owner", e_address owner_addr)] in
|
||||
let%bind () = expect_eq ~options program "update_owner"
|
||||
(e_pair param storage)
|
||||
(e_pair (e_list []) new_storage)
|
||||
in ok ()
|
||||
|
||||
(* Test that contract fails when we attempt to update owner of nonexistent ID *)
|
||||
let update_owner_nonexistent () =
|
||||
let%bind program = get_program () in
|
||||
let owner_addr = addr 5 in
|
||||
let owner_website = e_bytes_string "ligolang.org" in
|
||||
let id_details_1 = e_record_ez [("owner", e_address owner_addr) ;
|
||||
("controller", e_address owner_addr) ;
|
||||
("profile", owner_website)]
|
||||
in
|
||||
let new_addr = first_owner in
|
||||
let options = Proto_alpha_utils.Memory_proto_alpha.make_options
|
||||
~sender:first_contract
|
||||
~amount:(Memory_proto_alpha.Protocol.Alpha_context.Tez.zero)
|
||||
()
|
||||
in
|
||||
let new_website = e_bytes_string "ligolang.org" in
|
||||
let id_details_2 = e_record_ez [("owner", e_address new_addr) ;
|
||||
("controller", e_address new_addr) ;
|
||||
("profile", new_website)]
|
||||
in
|
||||
let storage = e_record_ez [("identities", (e_big_map
|
||||
[(e_int 0, id_details_1) ;
|
||||
(e_int 1, id_details_2)])) ;
|
||||
("next_id", e_int 2) ;
|
||||
("name_price", e_mutez 1000000) ;
|
||||
("skip_price", e_mutez 1000000) ; ]
|
||||
in
|
||||
let param = e_record_ez [("id", e_int 2);
|
||||
("new_owner", e_address new_addr)] in
|
||||
let%bind () = expect_string_failwith ~options program "update_owner"
|
||||
(e_pair param storage)
|
||||
"This ID does not exist."
|
||||
in ok ()
|
||||
|
||||
(* Test that contract fails when we attempt to update owner from non-owner addr *)
|
||||
let update_owner_wrong_addr () =
|
||||
let%bind program = get_program () in
|
||||
let owner_addr = addr 5 in
|
||||
let owner_website = e_bytes_string "ligolang.org" in
|
||||
let id_details_1 = e_record_ez [("owner", e_address owner_addr) ;
|
||||
("controller", e_address owner_addr) ;
|
||||
("profile", owner_website)]
|
||||
in
|
||||
let new_addr = first_owner in
|
||||
let options = Proto_alpha_utils.Memory_proto_alpha.make_options
|
||||
~sender:first_contract
|
||||
~amount:(Memory_proto_alpha.Protocol.Alpha_context.Tez.zero)
|
||||
()
|
||||
in
|
||||
let new_website = e_bytes_string "ligolang.org" in
|
||||
let id_details_2 = e_record_ez [("owner", e_address new_addr) ;
|
||||
("controller", e_address new_addr) ;
|
||||
("profile", new_website)]
|
||||
in
|
||||
let storage = e_record_ez [("identities", (e_big_map
|
||||
[(e_int 0, id_details_1) ;
|
||||
(e_int 1, id_details_2)])) ;
|
||||
("next_id", e_int 2) ;
|
||||
("name_price", e_mutez 1000000) ;
|
||||
("skip_price", e_mutez 1000000) ; ]
|
||||
in
|
||||
let param = e_record_ez [("id", e_int 0);
|
||||
("new_owner", e_address new_addr)] in
|
||||
let%bind () = expect_string_failwith ~options program "update_owner"
|
||||
(e_pair param storage)
|
||||
"You are not the owner of this ID."
|
||||
in ok ()
|
||||
|
||||
let skip () =
|
||||
let%bind program = get_program () in
|
||||
let owner_addr = addr 5 in
|
||||
let owner_website = e_bytes_string "ligolang.org" in
|
||||
let id_details_1 = e_record_ez [("owner", e_address owner_addr) ;
|
||||
("controller", e_address owner_addr) ;
|
||||
("profile", owner_website)]
|
||||
in
|
||||
let new_addr = first_owner in
|
||||
let options = Proto_alpha_utils.Memory_proto_alpha.make_options
|
||||
~sender:first_contract
|
||||
~amount:(Memory_proto_alpha.Protocol.Alpha_context.Tez.one) ()
|
||||
in
|
||||
let new_website = e_bytes_string "ligolang.org" in
|
||||
let id_details_2 = e_record_ez [("owner", e_address new_addr) ;
|
||||
("controller", e_address new_addr) ;
|
||||
("profile", new_website)]
|
||||
in
|
||||
let storage = e_record_ez [("identities", (e_big_map
|
||||
[(e_int 0, id_details_1) ;
|
||||
(e_int 1, id_details_2)])) ;
|
||||
("next_id", e_int 2) ;
|
||||
("name_price", e_mutez 1000000) ;
|
||||
("skip_price", e_mutez 1000000) ; ]
|
||||
in
|
||||
let new_storage = e_record_ez [("identities", (e_big_map
|
||||
[(e_int 0, id_details_1) ;
|
||||
(e_int 1, id_details_2)])) ;
|
||||
("next_id", e_int 3) ;
|
||||
("name_price", e_mutez 1000000) ;
|
||||
("skip_price", e_mutez 1000000) ; ]
|
||||
in
|
||||
let%bind () = expect_eq ~options program "skip_"
|
||||
(e_pair (e_unit ()) storage)
|
||||
(e_pair (e_list []) new_storage)
|
||||
in ok ()
|
||||
|
||||
(* Test that contract fails if we try to skip without paying the right amount *)
|
||||
let skip_wrong_amount () =
|
||||
let%bind program = get_program () in
|
||||
let owner_addr = addr 5 in
|
||||
let owner_website = e_bytes_string "ligolang.org" in
|
||||
let id_details_1 = e_record_ez [("owner", e_address owner_addr) ;
|
||||
("controller", e_address owner_addr) ;
|
||||
("profile", owner_website)]
|
||||
in
|
||||
let new_addr = first_owner in
|
||||
let options = Proto_alpha_utils.Memory_proto_alpha.make_options
|
||||
~sender:first_contract
|
||||
~amount:(Memory_proto_alpha.Protocol.Alpha_context.Tez.fifty_cents) ()
|
||||
in
|
||||
let new_website = e_bytes_string "ligolang.org" in
|
||||
let id_details_2 = e_record_ez [("owner", e_address new_addr) ;
|
||||
("controller", e_address new_addr) ;
|
||||
("profile", new_website)]
|
||||
in
|
||||
let storage = e_record_ez [("identities", (e_big_map
|
||||
[(e_int 0, id_details_1) ;
|
||||
(e_int 1, id_details_2)])) ;
|
||||
("next_id", e_int 2) ;
|
||||
("name_price", e_mutez 1000000) ;
|
||||
("skip_price", e_mutez 1000000) ; ]
|
||||
in
|
||||
let%bind () = expect_string_failwith ~options program "skip_"
|
||||
(e_pair (e_unit ()) storage)
|
||||
"Incorrect amount paid."
|
||||
in ok ()
|
||||
|
||||
let main = test_suite "ID Layer (PascaLIGO)" [
|
||||
test "buy" buy_id ;
|
||||
test "buy (sender addr)" buy_id_sender_addr ;
|
||||
test "buy (wrong amount)" buy_id_wrong_amount ;
|
||||
test "update_details (owner)" update_details_owner ;
|
||||
test "update_details (controller)" update_details_controller ;
|
||||
test "update_details_nonexistent" update_details_nonexistent ;
|
||||
test "update_details_wrong_addr" update_details_wrong_addr ;
|
||||
test "update_details_unchanged" update_details_unchanged ;
|
||||
test "update_owner" update_owner ;
|
||||
test "update_owner_nonexistent" update_owner_nonexistent ;
|
||||
test "update_owner_wrong_addr" update_owner_wrong_addr ;
|
||||
test "skip" skip ;
|
||||
test "skip (wrong amount)" skip_wrong_amount ;
|
||||
]
|
525
src/test/id_tests_r.ml
Normal file
525
src/test/id_tests_r.ml
Normal file
@ -0,0 +1,525 @@
|
||||
open Trace
|
||||
open Test_helpers
|
||||
open Ast_imperative
|
||||
|
||||
|
||||
let retype_file f =
|
||||
let%bind typed,state = Ligo.Compile.Utils.type_file f "reasonligo" (Contract "main") in
|
||||
ok (typed,state)
|
||||
|
||||
let get_program =
|
||||
let s = ref None in
|
||||
fun () -> match !s with
|
||||
| Some s -> ok s
|
||||
| None -> (
|
||||
let%bind program = retype_file "./contracts/id.religo" in
|
||||
s := Some program ;
|
||||
ok program
|
||||
)
|
||||
|
||||
let compile_main () =
|
||||
let%bind typed_prg,_ = get_program () in
|
||||
let%bind mini_c_prg = Ligo.Compile.Of_typed.compile typed_prg in
|
||||
let%bind michelson_prg = Ligo.Compile.Of_mini_c.aggregate_and_compile_contract mini_c_prg "main" in
|
||||
let%bind (_contract: Tezos_utils.Michelson.michelson) =
|
||||
(* fails if the given entry point is not a valid contract *)
|
||||
Ligo.Compile.Of_michelson.build_contract michelson_prg in
|
||||
ok ()
|
||||
|
||||
let (first_owner , first_contract) =
|
||||
let open Proto_alpha_utils.Memory_proto_alpha in
|
||||
let id = List.nth dummy_environment.identities 0 in
|
||||
let kt = id.implicit_contract in
|
||||
Protocol.Alpha_context.Contract.to_b58check kt , kt
|
||||
|
||||
let buy_id () =
|
||||
let%bind program = get_program () in
|
||||
let owner_addr = addr 5 in
|
||||
let owner_website = e_bytes_string "ligolang.org" in
|
||||
let id_details_1 = e_record_ez [("owner", e_address owner_addr) ;
|
||||
("controller", e_address owner_addr) ;
|
||||
("profile", owner_website)]
|
||||
in
|
||||
let storage = e_record_ez [("identities", (e_big_map [(e_int 0, id_details_1)])) ;
|
||||
("next_id", e_int 1) ;
|
||||
("name_price", e_mutez 1000000) ;
|
||||
("skip_price", e_mutez 1000000) ; ]
|
||||
in
|
||||
let new_addr = first_owner in
|
||||
let options = Proto_alpha_utils.Memory_proto_alpha.make_options
|
||||
~sender:first_contract
|
||||
~amount:(Memory_proto_alpha.Protocol.Alpha_context.Tez.one) ()
|
||||
in
|
||||
let new_website = e_bytes_string "ligolang.org" in
|
||||
let id_details_2 = e_record_ez [("owner", e_address new_addr) ;
|
||||
("controller", e_address new_addr) ;
|
||||
("profile", new_website)]
|
||||
in
|
||||
let param = e_record_ez [("profile", owner_website) ;
|
||||
("initial_controller", (e_some (e_address new_addr))) ;
|
||||
] in
|
||||
let new_storage = e_record_ez [("identities", (e_big_map
|
||||
[(e_int 0, id_details_1) ;
|
||||
(e_int 1, id_details_2)])) ;
|
||||
("next_id", e_int 2) ;
|
||||
("name_price", e_mutez 1000000) ;
|
||||
("skip_price", e_mutez 1000000) ; ]
|
||||
in
|
||||
let%bind () = expect_eq ~options program "buy"
|
||||
(e_pair param storage)
|
||||
(e_pair (e_list []) new_storage)
|
||||
in ok ()
|
||||
|
||||
let buy_id_sender_addr () =
|
||||
let%bind program = get_program () in
|
||||
let owner_addr = addr 5 in
|
||||
let owner_website = e_bytes_string "ligolang.org" in
|
||||
let id_details_1 = e_record_ez [("owner", e_address owner_addr) ;
|
||||
("controller", e_address owner_addr) ;
|
||||
("profile", owner_website)]
|
||||
in
|
||||
let storage = e_record_ez [("identities", (e_big_map [(e_int 0, id_details_1)])) ;
|
||||
("next_id", e_int 1) ;
|
||||
("name_price", e_mutez 1000000) ;
|
||||
("skip_price", e_mutez 1000000) ; ]
|
||||
in
|
||||
let new_addr = first_owner in
|
||||
let options = Proto_alpha_utils.Memory_proto_alpha.make_options
|
||||
~sender:first_contract
|
||||
~amount:(Memory_proto_alpha.Protocol.Alpha_context.Tez.one) ()
|
||||
in
|
||||
let new_website = e_bytes_string "ligolang.org" in
|
||||
let id_details_2 = e_record_ez [("owner", e_address new_addr) ;
|
||||
("controller", e_address new_addr) ;
|
||||
("profile", new_website)]
|
||||
in
|
||||
let param = e_record_ez [("profile", owner_website) ;
|
||||
("initial_controller", (e_typed_none (t_address ())))] in
|
||||
let new_storage = e_record_ez [("identities", (e_big_map
|
||||
[(e_int 0, id_details_1) ;
|
||||
(e_int 1, id_details_2)])) ;
|
||||
("next_id", e_int 2) ;
|
||||
("name_price", e_mutez 1000000) ;
|
||||
("skip_price", e_mutez 1000000) ; ]
|
||||
in
|
||||
let%bind () = expect_eq ~options program "buy"
|
||||
(e_pair param storage)
|
||||
(e_pair (e_list []) new_storage)
|
||||
in ok ()
|
||||
|
||||
(* Test that contract fails if we attempt to buy an ID for the wrong amount *)
|
||||
let buy_id_wrong_amount () =
|
||||
let%bind program = get_program () in
|
||||
let owner_addr = addr 5 in
|
||||
let owner_website = e_bytes_string "ligolang.org" in
|
||||
let id_details_1 = e_record_ez [("owner", e_address owner_addr) ;
|
||||
("controller", e_address owner_addr) ;
|
||||
("profile", owner_website)]
|
||||
in
|
||||
let storage = e_record_ez [("identities", (e_big_map [(e_int 0, id_details_1)])) ;
|
||||
("next_id", e_int 1) ;
|
||||
("name_price", e_mutez 1000000) ;
|
||||
("skip_price", e_mutez 1000000) ; ]
|
||||
in
|
||||
let new_addr = first_owner in
|
||||
let options = Proto_alpha_utils.Memory_proto_alpha.make_options
|
||||
~sender:first_contract
|
||||
~amount:(Memory_proto_alpha.Protocol.Alpha_context.Tez.fifty_cents) ()
|
||||
in
|
||||
let param = e_record_ez [("profile", owner_website) ;
|
||||
("initial_controller", (e_some (e_address new_addr)))] in
|
||||
let%bind () = expect_string_failwith ~options program "buy"
|
||||
(e_pair param storage)
|
||||
"Incorrect amount paid."
|
||||
in ok ()
|
||||
|
||||
let update_details_owner () =
|
||||
let%bind program = get_program () in
|
||||
let owner_addr = addr 5 in
|
||||
let owner_website = e_bytes_string "ligolang.org" in
|
||||
let id_details_1 = e_record_ez [("owner", e_address owner_addr) ;
|
||||
("controller", e_address owner_addr) ;
|
||||
("profile", owner_website)]
|
||||
in
|
||||
let new_addr = first_owner in
|
||||
let options = Proto_alpha_utils.Memory_proto_alpha.make_options
|
||||
~sender:first_contract
|
||||
~amount:(Memory_proto_alpha.Protocol.Alpha_context.Tez.zero)
|
||||
()
|
||||
in
|
||||
let new_website = e_bytes_string "ligolang.org" in
|
||||
let id_details_2 = e_record_ez [("owner", e_address new_addr) ;
|
||||
("controller", e_address owner_addr) ;
|
||||
("profile", new_website)]
|
||||
in
|
||||
let id_details_2_diff = e_record_ez [("owner", e_address new_addr) ;
|
||||
("controller", e_address new_addr) ;
|
||||
("profile", new_website)] in
|
||||
let storage = e_record_ez [("identities", (e_big_map
|
||||
[(e_int 0, id_details_1) ;
|
||||
(e_int 1, id_details_2)])) ;
|
||||
("next_id", e_int 2) ;
|
||||
("name_price", e_mutez 1000000) ;
|
||||
("skip_price", e_mutez 1000000) ; ]
|
||||
in
|
||||
let new_storage = e_record_ez [("identities", (e_big_map
|
||||
[(e_int 0, id_details_1) ;
|
||||
(e_int 1, id_details_2_diff)])) ;
|
||||
("next_id", e_int 2) ;
|
||||
("name_price", e_mutez 1000000) ;
|
||||
("skip_price", e_mutez 1000000) ; ]
|
||||
in
|
||||
let details = e_bytes_string "ligolang.org" in
|
||||
let param = e_record_ez [("id", e_int 1) ;
|
||||
("new_profile", e_some details) ;
|
||||
("new_controller", e_some (e_address new_addr))] in
|
||||
let%bind () = expect_eq ~options program "update_details"
|
||||
(e_pair param storage)
|
||||
(e_pair (e_list []) new_storage)
|
||||
in ok ()
|
||||
|
||||
let update_details_controller () =
|
||||
let%bind program = get_program () in
|
||||
let owner_addr = addr 5 in
|
||||
let owner_website = e_bytes_string "ligolang.org" in
|
||||
let id_details_1 = e_record_ez [("owner", e_address owner_addr) ;
|
||||
("controller", e_address owner_addr) ;
|
||||
("profile", owner_website)]
|
||||
in
|
||||
let new_addr = first_owner in
|
||||
let options = Proto_alpha_utils.Memory_proto_alpha.make_options
|
||||
~sender:first_contract
|
||||
~amount:(Memory_proto_alpha.Protocol.Alpha_context.Tez.zero)
|
||||
()
|
||||
in
|
||||
let new_website = e_bytes_string "ligolang.org" in
|
||||
let id_details_2 = e_record_ez [("owner", e_address owner_addr) ;
|
||||
("controller", e_address new_addr) ;
|
||||
("profile", new_website)]
|
||||
in
|
||||
let id_details_2_diff = e_record_ez [("owner", e_address owner_addr) ;
|
||||
("controller", e_address owner_addr) ;
|
||||
("profile", new_website)] in
|
||||
let storage = e_record_ez [("identities", (e_big_map
|
||||
[(e_int 0, id_details_1) ;
|
||||
(e_int 1, id_details_2)])) ;
|
||||
("next_id", e_int 2) ;
|
||||
("name_price", e_mutez 1000000) ;
|
||||
("skip_price", e_mutez 1000000) ; ]
|
||||
in
|
||||
let new_storage = e_record_ez [("identities", (e_big_map
|
||||
[(e_int 0, id_details_1) ;
|
||||
(e_int 1, id_details_2_diff)])) ;
|
||||
("next_id", e_int 2) ;
|
||||
("name_price", e_mutez 1000000) ;
|
||||
("skip_price", e_mutez 1000000) ; ]
|
||||
in
|
||||
let details = e_bytes_string "ligolang.org" in
|
||||
let param = e_record_ez [("id", e_int 1) ;
|
||||
("new_profile", e_some details) ;
|
||||
("new_controller", e_some (e_address owner_addr))] in
|
||||
let%bind () = expect_eq ~options program "update_details"
|
||||
(e_pair param storage)
|
||||
(e_pair (e_list []) new_storage)
|
||||
in ok ()
|
||||
|
||||
(* Test that contract fails when we attempt to update details of nonexistent ID *)
|
||||
let update_details_nonexistent () =
|
||||
let%bind program = get_program () in
|
||||
let owner_addr = addr 5 in
|
||||
let owner_website = e_bytes_string "ligolang.org" in
|
||||
let id_details_1 = e_record_ez [("owner", e_address owner_addr) ;
|
||||
("controller", e_address owner_addr) ;
|
||||
("profile", owner_website)]
|
||||
in
|
||||
let new_addr = first_owner in
|
||||
let options = Proto_alpha_utils.Memory_proto_alpha.make_options
|
||||
~sender:first_contract
|
||||
~amount:(Memory_proto_alpha.Protocol.Alpha_context.Tez.zero)
|
||||
()
|
||||
in
|
||||
let new_website = e_bytes_string "ligolang.org" in
|
||||
let id_details_2 = e_record_ez [("owner", e_address new_addr) ;
|
||||
("controller", e_address new_addr) ;
|
||||
("profile", new_website)]
|
||||
in
|
||||
let storage = e_record_ez [("identities", (e_big_map
|
||||
[(e_int 0, id_details_1) ;
|
||||
(e_int 1, id_details_2)])) ;
|
||||
("next_id", e_int 2) ;
|
||||
("name_price", e_mutez 1000000) ;
|
||||
("skip_price", e_mutez 1000000) ; ]
|
||||
in
|
||||
let details = e_bytes_string "ligolang.org" in
|
||||
let param = e_record_ez [("id", e_int 2) ;
|
||||
("new_profile", e_some details) ;
|
||||
("new_controller", e_some (e_address owner_addr))] in
|
||||
let%bind () = expect_string_failwith ~options program "update_details"
|
||||
(e_pair param storage)
|
||||
"This ID does not exist."
|
||||
in ok ()
|
||||
|
||||
(* Test that contract fails when we attempt to update details from wrong addr *)
|
||||
let update_details_wrong_addr () =
|
||||
let%bind program = get_program () in
|
||||
let owner_addr = addr 5 in
|
||||
let owner_website = e_bytes_string "ligolang.org" in
|
||||
let id_details_1 = e_record_ez [("owner", e_address owner_addr) ;
|
||||
("controller", e_address owner_addr) ;
|
||||
("profile", owner_website)]
|
||||
in
|
||||
let new_addr = first_owner in
|
||||
let options = Proto_alpha_utils.Memory_proto_alpha.make_options
|
||||
~amount:(Memory_proto_alpha.Protocol.Alpha_context.Tez.zero)
|
||||
()
|
||||
in
|
||||
let new_website = e_bytes_string "ligolang.org" in
|
||||
let id_details_2 = e_record_ez [("owner", e_address new_addr) ;
|
||||
("controller", e_address new_addr) ;
|
||||
("profile", new_website)]
|
||||
in
|
||||
let storage = e_record_ez [("identities", (e_big_map
|
||||
[(e_int 0, id_details_1) ;
|
||||
(e_int 1, id_details_2)])) ;
|
||||
("next_id", e_int 2) ;
|
||||
("name_price", e_mutez 1000000) ;
|
||||
("skip_price", e_mutez 1000000) ; ]
|
||||
in
|
||||
let details = e_bytes_string "ligolang.org" in
|
||||
let param = e_record_ez [("id", e_int 0) ;
|
||||
("new_profile", e_some details) ;
|
||||
("new_controller", e_some (e_address owner_addr))] in
|
||||
let%bind () = expect_string_failwith ~options program "update_details"
|
||||
(e_pair param storage)
|
||||
"You are not the owner or controller of this ID."
|
||||
in ok ()
|
||||
|
||||
(* Test that giving none on both profile and controller address is a no-op *)
|
||||
let update_details_unchanged () =
|
||||
let%bind program = get_program () in
|
||||
let owner_addr = addr 5 in
|
||||
let owner_website = e_bytes_string "ligolang.org" in
|
||||
let id_details_1 = e_record_ez [("owner", e_address owner_addr) ;
|
||||
("controller", e_address owner_addr) ;
|
||||
("profile", owner_website)]
|
||||
in
|
||||
let new_addr = first_owner in
|
||||
let options = Proto_alpha_utils.Memory_proto_alpha.make_options
|
||||
~sender:first_contract
|
||||
~amount:(Memory_proto_alpha.Protocol.Alpha_context.Tez.zero)
|
||||
()
|
||||
in
|
||||
let new_website = e_bytes_string "ligolang.org" in
|
||||
let id_details_2 = e_record_ez [("owner", e_address new_addr) ;
|
||||
("controller", e_address new_addr) ;
|
||||
("profile", new_website)]
|
||||
in
|
||||
let storage = e_record_ez [("identities", (e_big_map
|
||||
[(e_int 0, id_details_1) ;
|
||||
(e_int 1, id_details_2)])) ;
|
||||
("next_id", e_int 2) ;
|
||||
("name_price", e_mutez 1000000) ;
|
||||
("skip_price", e_mutez 1000000) ; ]
|
||||
in
|
||||
let param = e_record_ez [("id", e_int 1) ;
|
||||
("new_profile", e_typed_none (t_bytes ())) ;
|
||||
("new_controller", e_typed_none (t_address ()))] in
|
||||
let%bind () = expect_eq ~options program "update_details"
|
||||
(e_pair param storage)
|
||||
(e_pair (e_list []) storage)
|
||||
in ok ()
|
||||
|
||||
let update_owner () =
|
||||
let%bind program = get_program () in
|
||||
let owner_addr = addr 5 in
|
||||
let owner_website = e_bytes_string "ligolang.org" in
|
||||
let id_details_1 = e_record_ez [("owner", e_address owner_addr) ;
|
||||
("controller", e_address owner_addr) ;
|
||||
("profile", owner_website)]
|
||||
in
|
||||
let new_addr = first_owner in
|
||||
let options = Proto_alpha_utils.Memory_proto_alpha.make_options
|
||||
~sender:first_contract
|
||||
~amount:(Memory_proto_alpha.Protocol.Alpha_context.Tez.zero)
|
||||
()
|
||||
in
|
||||
let new_website = e_bytes_string "ligolang.org" in
|
||||
let id_details_2 = e_record_ez [("owner", e_address new_addr) ;
|
||||
("controller", e_address new_addr) ;
|
||||
("profile", new_website)]
|
||||
in
|
||||
let id_details_2_diff = e_record_ez [("owner", e_address owner_addr) ;
|
||||
("controller", e_address new_addr) ;
|
||||
("profile", new_website)] in
|
||||
let storage = e_record_ez [("identities", (e_big_map
|
||||
[(e_int 0, id_details_1) ;
|
||||
(e_int 1, id_details_2)])) ;
|
||||
("next_id", e_int 2) ;
|
||||
("name_price", e_mutez 1000000) ;
|
||||
("skip_price", e_mutez 1000000) ; ]
|
||||
in
|
||||
let new_storage = e_record_ez [("identities", (e_big_map
|
||||
[(e_int 0, id_details_1) ;
|
||||
(e_int 1, id_details_2_diff)])) ;
|
||||
("next_id", e_int 2) ;
|
||||
("name_price", e_mutez 1000000) ;
|
||||
("skip_price", e_mutez 1000000) ; ]
|
||||
in
|
||||
let param = e_record_ez [("id", e_int 1) ;
|
||||
("new_owner", e_address owner_addr)] in
|
||||
let%bind () = expect_eq ~options program "update_owner"
|
||||
(e_pair param storage)
|
||||
(e_pair (e_list []) new_storage)
|
||||
in ok ()
|
||||
|
||||
(* Test that contract fails when we attempt to update owner of nonexistent ID *)
|
||||
let update_owner_nonexistent () =
|
||||
let%bind program = get_program () in
|
||||
let owner_addr = addr 5 in
|
||||
let owner_website = e_bytes_string "ligolang.org" in
|
||||
let id_details_1 = e_record_ez [("owner", e_address owner_addr) ;
|
||||
("controller", e_address owner_addr) ;
|
||||
("profile", owner_website)]
|
||||
in
|
||||
let new_addr = first_owner in
|
||||
let options = Proto_alpha_utils.Memory_proto_alpha.make_options
|
||||
~sender:first_contract
|
||||
~amount:(Memory_proto_alpha.Protocol.Alpha_context.Tez.zero)
|
||||
()
|
||||
in
|
||||
let new_website = e_bytes_string "ligolang.org" in
|
||||
let id_details_2 = e_record_ez [("owner", e_address new_addr) ;
|
||||
("controller", e_address new_addr) ;
|
||||
("profile", new_website)]
|
||||
in
|
||||
let storage = e_record_ez [("identities", (e_big_map
|
||||
[(e_int 0, id_details_1) ;
|
||||
(e_int 1, id_details_2)])) ;
|
||||
("next_id", e_int 2) ;
|
||||
("name_price", e_mutez 1000000) ;
|
||||
("skip_price", e_mutez 1000000) ; ]
|
||||
in
|
||||
let param = e_record_ez [("id", e_int 2);
|
||||
("new_owner", e_address new_addr)] in
|
||||
let%bind () = expect_string_failwith ~options program "update_owner"
|
||||
(e_pair param storage)
|
||||
"This ID does not exist."
|
||||
in ok ()
|
||||
|
||||
(* Test that contract fails when we attempt to update owner from non-owner addr *)
|
||||
let update_owner_wrong_addr () =
|
||||
let%bind program = get_program () in
|
||||
let owner_addr = addr 5 in
|
||||
let owner_website = e_bytes_string "ligolang.org" in
|
||||
let id_details_1 = e_record_ez [("owner", e_address owner_addr) ;
|
||||
("controller", e_address owner_addr) ;
|
||||
("profile", owner_website)]
|
||||
in
|
||||
let new_addr = first_owner in
|
||||
let options = Proto_alpha_utils.Memory_proto_alpha.make_options
|
||||
~sender:first_contract
|
||||
~amount:(Memory_proto_alpha.Protocol.Alpha_context.Tez.zero)
|
||||
()
|
||||
in
|
||||
let new_website = e_bytes_string "ligolang.org" in
|
||||
let id_details_2 = e_record_ez [("owner", e_address new_addr) ;
|
||||
("controller", e_address new_addr) ;
|
||||
("profile", new_website)]
|
||||
in
|
||||
let storage = e_record_ez [("identities", (e_big_map
|
||||
[(e_int 0, id_details_1) ;
|
||||
(e_int 1, id_details_2)])) ;
|
||||
("next_id", e_int 2) ;
|
||||
("name_price", e_mutez 1000000) ;
|
||||
("skip_price", e_mutez 1000000) ; ]
|
||||
in
|
||||
let param = e_record_ez [("id", e_int 0);
|
||||
("new_owner", e_address new_addr)] in
|
||||
let%bind () = expect_string_failwith ~options program "update_owner"
|
||||
(e_pair param storage)
|
||||
"You are not the owner of this ID."
|
||||
in ok ()
|
||||
|
||||
let skip () =
|
||||
let%bind program = get_program () in
|
||||
let owner_addr = addr 5 in
|
||||
let owner_website = e_bytes_string "ligolang.org" in
|
||||
let id_details_1 = e_record_ez [("owner", e_address owner_addr) ;
|
||||
("controller", e_address owner_addr) ;
|
||||
("profile", owner_website)]
|
||||
in
|
||||
let new_addr = first_owner in
|
||||
let options = Proto_alpha_utils.Memory_proto_alpha.make_options
|
||||
~sender:first_contract
|
||||
~amount:(Memory_proto_alpha.Protocol.Alpha_context.Tez.one) ()
|
||||
in
|
||||
let new_website = e_bytes_string "ligolang.org" in
|
||||
let id_details_2 = e_record_ez [("owner", e_address new_addr) ;
|
||||
("controller", e_address new_addr) ;
|
||||
("profile", new_website)]
|
||||
in
|
||||
let storage = e_record_ez [("identities", (e_big_map
|
||||
[(e_int 0, id_details_1) ;
|
||||
(e_int 1, id_details_2)])) ;
|
||||
("next_id", e_int 2) ;
|
||||
("name_price", e_mutez 1000000) ;
|
||||
("skip_price", e_mutez 1000000) ; ]
|
||||
in
|
||||
let new_storage = e_record_ez [("identities", (e_big_map
|
||||
[(e_int 0, id_details_1) ;
|
||||
(e_int 1, id_details_2)])) ;
|
||||
("next_id", e_int 3) ;
|
||||
("name_price", e_mutez 1000000) ;
|
||||
("skip_price", e_mutez 1000000) ; ]
|
||||
in
|
||||
let%bind () = expect_eq ~options program "skip"
|
||||
(e_pair (e_unit ()) storage)
|
||||
(e_pair (e_list []) new_storage)
|
||||
in ok ()
|
||||
|
||||
(* Test that contract fails if we try to skip without paying the right amount *)
|
||||
let skip_wrong_amount () =
|
||||
let%bind program = get_program () in
|
||||
let owner_addr = addr 5 in
|
||||
let owner_website = e_bytes_string "ligolang.org" in
|
||||
let id_details_1 = e_record_ez [("owner", e_address owner_addr) ;
|
||||
("controller", e_address owner_addr) ;
|
||||
("profile", owner_website)]
|
||||
in
|
||||
let new_addr = first_owner in
|
||||
let options = Proto_alpha_utils.Memory_proto_alpha.make_options
|
||||
~sender:first_contract
|
||||
~amount:(Memory_proto_alpha.Protocol.Alpha_context.Tez.fifty_cents) ()
|
||||
in
|
||||
let new_website = e_bytes_string "ligolang.org" in
|
||||
let id_details_2 = e_record_ez [("owner", e_address new_addr) ;
|
||||
("controller", e_address new_addr) ;
|
||||
("profile", new_website)]
|
||||
in
|
||||
let storage = e_record_ez [("identities", (e_big_map
|
||||
[(e_int 0, id_details_1) ;
|
||||
(e_int 1, id_details_2)])) ;
|
||||
("next_id", e_int 2) ;
|
||||
("name_price", e_mutez 1000000) ;
|
||||
("skip_price", e_mutez 1000000) ; ]
|
||||
in
|
||||
let%bind () = expect_string_failwith ~options program "skip"
|
||||
(e_pair (e_unit ()) storage)
|
||||
"Incorrect amount paid."
|
||||
in ok ()
|
||||
|
||||
let main = test_suite "ID Layer (ReasonLIGO)" [
|
||||
test "buy" buy_id ;
|
||||
test "buy (sender addr)" buy_id_sender_addr ;
|
||||
test "buy (wrong amount)" buy_id_wrong_amount ;
|
||||
test "update_details (owner)" update_details_owner ;
|
||||
test "update_details (controller)" update_details_controller ;
|
||||
test "update_details_nonexistent" update_details_nonexistent ;
|
||||
test "update_details_wrong_addr" update_details_wrong_addr ;
|
||||
test "update_details_unchanged" update_details_unchanged ;
|
||||
test "update_owner" update_owner ;
|
||||
test "update_owner_nonexistent" update_owner_nonexistent ;
|
||||
test "update_owner_wrong_addr" update_owner_wrong_addr ;
|
||||
test "skip" skip ;
|
||||
test "skip (wrong amount)" skip_wrong_amount ;
|
||||
]
|
@ -11,6 +11,8 @@ let () =
|
||||
Coase_tests.main ;
|
||||
Vote_tests.main ;
|
||||
Id_tests.main ;
|
||||
Id_tests_p.main ;
|
||||
Id_tests_r.main ;
|
||||
Multisig_tests.main ;
|
||||
Multisig_v2_tests.main ;
|
||||
Replaceable_id_tests.main ;
|
||||
|
@ -4,12 +4,6 @@ const join = require('path').join;
|
||||
const fs = require('fs');
|
||||
const YAML = require('yamljs');
|
||||
|
||||
const CURATED_EXAMPLES = [
|
||||
'cameligo/arithmetic-contract.ligo',
|
||||
'pascaligo/arithmetic-contract.ligo',
|
||||
'reasonligo/arithmetic-contract.ligo'
|
||||
];
|
||||
|
||||
function urlFriendlyHash(content) {
|
||||
const hash = createHash('md5');
|
||||
hash.update(content);
|
||||
@ -109,6 +103,15 @@ async function main() {
|
||||
// const EXAMPLES_GLOB = '**/*.ligo';
|
||||
// const files = await findFiles(EXAMPLES_GLOB, EXAMPLES_DIR);
|
||||
|
||||
const CURATED_EXAMPLES = [
|
||||
'pascaligo/arithmetic-contract.ligo',
|
||||
'cameligo/arithmetic-contract.ligo',
|
||||
'reasonligo/arithmetic-contract.ligo',
|
||||
'pascaligo/id.ligo',
|
||||
'cameligo/id.mligo',
|
||||
'reasonligo/id.religo',
|
||||
];
|
||||
|
||||
const EXAMPLES_DEST_DIR = join(process.cwd(), 'build', 'static', 'examples');
|
||||
fs.mkdirSync(EXAMPLES_DEST_DIR, { recursive: true });
|
||||
|
||||
|
@ -17,7 +17,7 @@ export interface ExamplesState {
|
||||
|
||||
export class ChangeSelectedAction {
|
||||
public readonly type = ActionType.ChangeSelected;
|
||||
constructor(public payload: ExamplesState['selected']) {}
|
||||
constructor(public payload: ExamplesState['selected']) { }
|
||||
}
|
||||
|
||||
export class ClearSelectedAction {
|
||||
@ -33,9 +33,12 @@ export const DEFAULT_STATE: ExamplesState = {
|
||||
|
||||
if (process.env.NODE_ENV === 'development') {
|
||||
DEFAULT_STATE.list = [
|
||||
{ id: 'MzkMQ1oiVHJqbcfUuVFKTw', name: 'CameLIGO Contract' },
|
||||
{ id: 'FEb62HL7onjg1424eUsGSg', name: 'PascaLIGO Contract' },
|
||||
{ id: 'JPhSOehj_2MFwRIlml0ymQ', name: 'ReasonLIGO Contract' }
|
||||
{ id: 'MzkMQ1oiVHJqbcfUuVFKTw', name: 'Increment Example CameLIGO ' },
|
||||
{ id: 'FEb62HL7onjg1424eUsGSg', name: 'Increment Example PascaLIGO' },
|
||||
{ id: 'JPhSOehj_2MFwRIlml0ymQ', name: 'Increment Example ReasonLIGO' },
|
||||
{ id: 'ehDv-Xaf70mQoiPhQDTAUQ', name: 'ID Example CameLIGO' },
|
||||
{ id: 'CpnK7TFuUjJiQTT8KiiGyQ', name: 'ID Example ReasonLIGO' },
|
||||
{ id: 'yP-THvmURsaqHxpwCravWg', name: 'ID Example PascaLIGO' },
|
||||
];
|
||||
}
|
||||
|
||||
|
@ -24,7 +24,7 @@ describe('Share', () => {
|
||||
await responseCallback;
|
||||
|
||||
const actualShareLink = await page.evaluate(getInputValue, 'share-link');
|
||||
const expectedShareLink = `${API_HOST}/p/WxKPBq9-mkZ_kq4cMHXfCQ`;
|
||||
const expectedShareLink = `${API_HOST}/p/2GnQR0cUYeO7feAw71SJYQ`
|
||||
|
||||
expect(actualShareLink).toEqual(expectedShareLink);
|
||||
done();
|
||||
|
Loading…
Reference in New Issue
Block a user