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merge into: QPQ-AG/sophia:gh-485
Branches Tags
QPQ-AG/sophia:master QPQ-AG/sophia:prh-docs-fix QPQ-AG/sophia:uw-mldsa-crypto QPQ-AG/sophia:uw-rename-fix-deps QPQ-AG/sophia:bump_gmserialization QPQ-AG/sophia:zomp QPQ-AG/sophia:ceres QPQ-AG/sophia:gh-pages QPQ-AG/sophia:gh-485 QPQ-AG/sophia:dependabot/pip/dot-github/workflows/pygments-2.15.0 QPQ-AG/sophia:old_ceres QPQ-AG/sophia:ghallak/split-typechecker QPQ-AG/sophia:gh-400 QPQ-AG/sophia:new_ceres QPQ-AG/sophia:loop-op QPQ-AG/sophia:type-env QPQ-AG/sophia:ghallak/229 QPQ-AG/sophia:option-force-msg QPQ-AG/sophia:6.0.2 QPQ-AG/sophia:lima QPQ-AG/sophia:call-fee QPQ-AG/sophia:fix-ets QPQ-AG/sophia:mergesort QPQ-AG/sophia:lima-master-merge QPQ-AG/sophia:optionally_generate_aci QPQ-AG/sophia:changelog-update QPQ-AG/sophia:make-return-reserved-word QPQ-AG/sophia:radrow-patch-2 QPQ-AG/sophia:aens-subdomains QPQ-AG/sophia:aens-at-full-node-ver QPQ-AG/sophia:pt-166866806-claim-with-name-fee QPQ-AG/sophia:extend-aci-interface QPQ-AG/sophia:generalized_accounts_no_abi_move QPQ-AG/sophia:roma QPQ-AG/sophia:quickcheck-ci
QPQ-AG/sophia:v7.5.0 QPQ-AG/sophia:v7.4.0 QPQ-AG/sophia:v7.3.0 QPQ-AG/sophia:v7.2.1 QPQ-AG/sophia:v7.2.0 QPQ-AG/sophia:v7.1.0 QPQ-AG/sophia:v7.0.1 QPQ-AG/sophia:v7.0.0 QPQ-AG/sophia:v6.1.0 QPQ-AG/sophia:v6.0.2 QPQ-AG/sophia:v6.0.1 QPQ-AG/sophia:v6.0.0 QPQ-AG/sophia:v5.0.0 QPQ-AG/sophia:v4.3.0 QPQ-AG/sophia:v4.2.0 QPQ-AG/sophia:v4.1.0 QPQ-AG/sophia:v4.1.0-rc1 QPQ-AG/sophia:v4.0.0 QPQ-AG/sophia:v4.0.0-rc5 QPQ-AG/sophia:v4.0.0-rc4 QPQ-AG/sophia:v4.0.0-rc3 QPQ-AG/sophia:v4.0.0-rc1 QPQ-AG/sophia:v3.2.0 QPQ-AG/sophia:v3.1.0 QPQ-AG/sophia:v3.0.0 QPQ-AG/sophia:v2.1.0 QPQ-AG/sophia:v2.0.0 QPQ-AG/sophia:roma-v1 QPQ-AG/sophia:v2
..
pull from: QPQ-AG/sophia:gh-400
Branches Tags
QPQ-AG/sophia:prh-docs-fix QPQ-AG/sophia:uw-mldsa-crypto QPQ-AG/sophia:master QPQ-AG/sophia:uw-rename-fix-deps QPQ-AG/sophia:bump_gmserialization QPQ-AG/sophia:zomp QPQ-AG/sophia:ceres QPQ-AG/sophia:gh-pages QPQ-AG/sophia:gh-485 QPQ-AG/sophia:dependabot/pip/dot-github/workflows/pygments-2.15.0 QPQ-AG/sophia:old_ceres QPQ-AG/sophia:ghallak/split-typechecker QPQ-AG/sophia:gh-400 QPQ-AG/sophia:new_ceres QPQ-AG/sophia:loop-op QPQ-AG/sophia:type-env QPQ-AG/sophia:ghallak/229 QPQ-AG/sophia:option-force-msg QPQ-AG/sophia:6.0.2 QPQ-AG/sophia:lima QPQ-AG/sophia:call-fee QPQ-AG/sophia:fix-ets QPQ-AG/sophia:mergesort QPQ-AG/sophia:lima-master-merge QPQ-AG/sophia:optionally_generate_aci QPQ-AG/sophia:changelog-update QPQ-AG/sophia:make-return-reserved-word QPQ-AG/sophia:radrow-patch-2 QPQ-AG/sophia:aens-subdomains QPQ-AG/sophia:aens-at-full-node-ver QPQ-AG/sophia:pt-166866806-claim-with-name-fee QPQ-AG/sophia:extend-aci-interface QPQ-AG/sophia:generalized_accounts_no_abi_move QPQ-AG/sophia:roma QPQ-AG/sophia:quickcheck-ci
QPQ-AG/sophia:v7.5.0 QPQ-AG/sophia:v7.4.0 QPQ-AG/sophia:v7.3.0 QPQ-AG/sophia:v7.2.1 QPQ-AG/sophia:v7.2.0 QPQ-AG/sophia:v7.1.0 QPQ-AG/sophia:v7.0.1 QPQ-AG/sophia:v7.0.0 QPQ-AG/sophia:v6.1.0 QPQ-AG/sophia:v6.0.2 QPQ-AG/sophia:v6.0.1 QPQ-AG/sophia:v6.0.0 QPQ-AG/sophia:v5.0.0 QPQ-AG/sophia:v4.3.0 QPQ-AG/sophia:v4.2.0 QPQ-AG/sophia:v4.1.0 QPQ-AG/sophia:v4.1.0-rc1 QPQ-AG/sophia:v4.0.0 QPQ-AG/sophia:v4.0.0-rc5 QPQ-AG/sophia:v4.0.0-rc4 QPQ-AG/sophia:v4.0.0-rc3 QPQ-AG/sophia:v4.0.0-rc1 QPQ-AG/sophia:v3.2.0 QPQ-AG/sophia:v3.1.0 QPQ-AG/sophia:v3.0.0 QPQ-AG/sophia:v2.1.0 QPQ-AG/sophia:v2.0.0 QPQ-AG/sophia:roma-v1 QPQ-AG/sophia:v2

4 Commits
gh-485 .. gh-400

Author SHA1 Message Date
radrow 411399a39a . 2023-04-16 21:59:48 +02:00
radrow 8289f4af9d WIP split into files 2023-04-16 17:40:31 +02:00
radrow 3cd8c37399 . 2023-04-16 16:02:09 +02:00
radrow 8d7025f794 Cleanup pretty printing 2023-04-07 12:06:29 +02:00
32 changed files with 4942 additions and 5908 deletions
Expand all files Collapse all files
CHANGELOG.md
+10 -33
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@@ -1,39 +1,19 @@
# Changelog
All notable changes to this project will be documented in this file.
All notable changes to this project shall be documented in this file.
The format is based on [Keep a Changelog](https://keepachangelog.com/en/1.0.0/),
and this project adheres to [Semantic Versioning](https://semver.org/spec/v2.0.0.html).
and this project adheres to [Semantic
Versioning](https://semver.org/spec/v2.0.0.html). One deviation from _Keep a
Changelog_ is that "Unreleased" may suggest a specific version bump in case of
breaking changes.
## [Unreleased]
## [Unreleased] [8.x.x]
### Added
### Changed
- Names of lifted lambdas now consist of parent function's name and their
position in the source code.
- `pp_assembler` option to `pp_fate` as it is more specific.
### Removed
### Fixed
- Lifted lambdas get their names assigned deterministically.
## [7.3.0]
### Fixed
- Fixed a bug with polymorphism that allowed functions with the same name but different type to be considered as implementations for their corresponding interface function.
- Fixed a bug in the byte code optimization that incorrectly reordered dependent instructions.
## [7.2.1]
### Fixed
- Fixed bugs with the newly added debugging symbols
## [7.2.0]
### Added
- Toplevel compile-time constants
```
namespace N =
let nc = 1
contract C =
let cc = 2
```
- API functions for encoding/decoding Sophia values to/from FATE.
### Removed
- Remove the mapping from variables to FATE registers from the compilation output.
- `pp_sophia_code` option as it was a duplicate of `pp_ast`.
- `aeso_ast` module as it was unused.
### Fixed
- Warning about unused include when there is no include.
@@ -407,10 +387,7 @@ and this project adheres to [Semantic Versioning](https://semver.org/spec/v2.0.0
- Simplify calldata creation - instead of passing a compiled contract, simply
pass a (stubbed) contract string.
[Unreleased]: https://github.com/aeternity/aesophia/compare/v7.3.0...HEAD
[7.3.0]: https://github.com/aeternity/aesophia/compare/v7.2.1...v7.3.0
[7.2.1]: https://github.com/aeternity/aesophia/compare/v7.2.0...v7.2.1
[7.2.0]: https://github.com/aeternity/aesophia/compare/v7.1.0...v7.2.0
[Unreleased]: https://github.com/aeternity/aesophia/compare/v7.1.0...HEAD
[7.1.0]: https://github.com/aeternity/aesophia/compare/v7.0.1...v7.1.0
[7.0.1]: https://github.com/aeternity/aesophia/compare/v7.0.0...v7.0.1
[7.0.0]: https://github.com/aeternity/aesophia/compare/v6.1.0...v7.0.0
docs/aeso_compiler.md
+2
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@@ -53,6 +53,8 @@ The **pp_** options all print to standard output the following:
The option `include_child_contract_symbols` includes the symbols of child contracts functions in the generated fate code. It is turned off by default to avoid making contracts bigger on chain.
The option `debug_info` includes information related to debugging in the compiler output. Currently this option only includes the mapping from variables to registers.
#### Options to control which compiler optimizations should run:
By default all optimizations are turned on, to disable an optimization, it should be
docs/sophia_features.md
-26
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@@ -573,32 +573,6 @@ contract C =
A hole expression found in the example above will generate the error `` Found a hole of type `(int) => int` ``. This says that the compiler expects a function from `int` to `int` in place of the `???` placeholder.
## Constants
Constants in Sophia are contract-level bindings that can be used in either contracts or namespaces. The value of a constant can be a literal, another constant, or arithmetic operations applied to other constants. Lists, tuples, maps, and records can also be used to define a constant as long as their elements are also constants.
The following visibility rules apply to constants:
* Constants defined inside a contract are private in that contract. Thus, cannot be accessed through instances of their defining contract.
* Constants defined inside a namespace are public. Thus, can be used in other contracts or namespaces.
* Constants cannot be defined inside a contract interface.
When a constant is shadowed, it can be accessed using its qualified name:
```
contract C =
let c = 1
entrypoint f() =
let c = 2
c + C.c // the result is 3
```
The name of the constant must be an id; therefore, no pattern matching is allowed when defining a constant:
```
contract C
let x::y::_ = [1,2,3] // this will result in an error
```
## Arithmetic
Sophia integers (`int`) are represented by arbitrary-sized signed words and support the following
docs/sophia_stdlib.md
+34 -46
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@@ -190,7 +190,7 @@ using the private key of the `owner` account for signing.
##### update
```
AENS.update(owner : address, name : string, expiry : option(Chain.ttl), client_ttl : option(int),
new_ptrs : option(map(string, AENS.pointee)), <signature : signature>) : unit
new_ptrs : map(string, AENS.pointee), <signature : signature>) : unit
```
Updates the name. If the optional parameters are set to `None` that parameter
@@ -470,6 +470,38 @@ Chain.block_height : int"
The height of the current block (i.e. the block in which the current call will be included).
##### coinbase
```
Chain.coinbase : address
```
The address of the account that mined the current block.
##### timestamp
```
Chain.timestamp : int
```
The timestamp of the current block (unix time, milliseconds).
##### difficulty
```
Chain.difficulty : int
```
The difficulty of the current block.
##### gas
```
Chain.gas_limit : int
```
The gas limit of the current block.
##### bytecode_hash
```
Chain.bytecode_hash : 'c => option(hash)
@@ -533,7 +565,6 @@ main contract Market =
The typechecker must be certain about the created contract's type, so it is
worth writing it explicitly as shown in the example.
##### clone
```
Chain.clone : ( ref : 'c, gas : int, value : int, protected : bool, ...
@@ -592,54 +623,11 @@ implementation of the `init` function does not actually return `state`, but
calls `put` instead. Moreover, FATE prevents even handcrafted calls to `init`.
##### coinbase
```
Chain.coinbase : address
```
The address of the account that mined the current block.
##### difficulty
```
Chain.difficulty : int
```
The difficulty of the current block.
##### event
```
Chain.event(e : event) : unit
```
Emits the event. To use this function one needs to define the `event` type as a
`datatype` in the contract.
##### gas\_limit
```
Chain.gas_limit : int
```
The gas limit of the current block.
##### spend
```
Chain.spend(to : address, amount : int) : unit
```
Spend `amount` tokens to `to`. Will fail (and abort the contract) if contract
doesn't have `amount` tokens to transfer, or, if `to` is not `payable`.
##### timestamp
```
Chain.timestamp : int
```
The timestamp of the current block (unix time, milliseconds).
Emits the event. To use this function one needs to define the `event` type as a `datatype` in the contract.
### Char
docs/sophia_syntax.md
-1
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@@ -104,7 +104,6 @@ Implement ::= ':' Sep1(Con, ',')
Decl ::= 'type' Id ['(' TVar* ')'] '=' TypeAlias
| 'record' Id ['(' TVar* ')'] '=' RecordType
| 'datatype' Id ['(' TVar* ')'] '=' DataType
| 'let' Id [':' Type] '=' Expr
| (EModifier* 'entrypoint' | FModifier* 'function') Block(FunDecl)
| Using
rebar.config
+3 -2
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@@ -2,7 +2,8 @@
{erl_opts, [debug_info]}.
{deps, [ {aebytecode, {git, "https://github.com/aeternity/aebytecode.git", {tag, "v3.3.0"}}}
{deps, [ {aebytecode, {git, "https://github.com/aeternity/aebytecode.git", {tag, "v3.2.0"}}}
, {getopt, "1.0.1"}
, {eblake2, "1.0.0"}
, {jsx, {git, "https://github.com/talentdeficit/jsx.git", {tag, "2.8.0"}}}
]}.
@@ -13,7 +14,7 @@
{base_plt_apps, [erts, kernel, stdlib, crypto, mnesia]}
]}.
{relx, [{release, {aesophia, "7.3.0"},
{relx, [{release, {aesophia, "7.1.0"},
[aesophia, aebytecode, getopt]},
{dev_mode, true},
rebar.lock
+3 -3
View File
@@ -1,11 +1,11 @@
{"1.2.0",
[{<<"aebytecode">>,
{git,"https://github.com/aeternity/aebytecode.git",
{ref,"b38349274fc2bed98d7fe86877e6e1a2df302109"}},
{ref,"2a0a397afad6b45da52572170f718194018bf33c"}},
0},
{<<"aeserialization">>,
{git,"https://github.com/aeternity/aeserialization.git",
{ref,"177bf604b2a05e940f92cf00e96e6e269e708245"}},
{ref,"eb68fe331bd476910394966b7f5ede7a74d37e35"}},
1},
{<<"base58">>,
{git,"https://github.com/aeternity/erl-base58.git",
@@ -16,7 +16,7 @@
{git,"https://github.com/aeternity/enacl.git",
{ref,"793ddb502f7fe081302e1c42227dca70b09f8e17"}},
2},
{<<"getopt">>,{pkg,<<"getopt">>,<<"1.0.1">>},1},
{<<"getopt">>,{pkg,<<"getopt">>,<<"1.0.1">>},0},
{<<"jsx">>,
{git,"https://github.com/talentdeficit/jsx.git",
{ref,"3074d4865b3385a050badf7828ad31490d860df5"}},
src/aeso_ast.erl
-27
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@@ -1,27 +0,0 @@
-module(aeso_ast).
-export([int/2,
line/1,
pp/1,
pp_typed/1,
symbol/2,
symbol_name/1
]).
symbol(Line, Chars) -> {symbol, Line, Chars}.
int(Line, Int) -> {'Int', Line, Int}.
line({symbol, Line, _}) -> Line.
symbol_name({symbol, _, Name}) -> Name.
pp(Ast) ->
String = prettypr:format(aeso_pretty:decls(Ast, [])),
io:format("Ast:\n~s\n", [String]).
pp_typed(TypedAst) ->
%% io:format("Typed tree:\n~p\n",[TypedAst]),
String = prettypr:format(aeso_pretty:decls(TypedAst, [show_generated])),
io:format("Type ast:\n~s\n",[String]).
src/aeso_ast_code_analysis.erl
+154
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@@ -0,0 +1,154 @@
-module(aeso_ast_code_analysis).
all_warnings() ->
[ warn_unused_includes
, warn_unused_stateful
, warn_unused_variables
, warn_unused_typedefs
, warn_unused_return_value
, warn_unused_functions
, warn_shadowing
, warn_division_by_zero
, warn_negative_spend ].
when_warning(Warn, Do) ->
case lists:member(Warn, all_warnings()) of
false ->
create_type_errors(),
type_error({unknown_warning, Warn}),
destroy_and_report_type_errors(global_env());
true ->
case ets_tab_exists(warnings) of
true ->
IsEnabled = get_option(Warn, false),
IsAll = get_option(warn_all, false) andalso lists:member(Warn, all_warnings()),
if
IsEnabled orelse IsAll -> Do();
true -> ok
end;
false ->
ok
end
end.
%% Warnings (Unused includes)
potential_unused_include(Ann, SrcFile) ->
IsIncluded = aeso_syntax:get_ann(include_type, Ann, none) =/= none,
case IsIncluded of
false -> ok;
true ->
case aeso_syntax:get_ann(file, Ann, no_file) of
no_file -> ok;
File -> ets_insert(warnings, {unused_include, File, SrcFile})
end
end.
used_include(Ann) ->
case aeso_syntax:get_ann(file, Ann, no_file) of
no_file -> ok;
File -> ets_match_delete(warnings, {unused_include, File, '_'})
end.
%% Warnings (Unused stateful)
potential_unused_stateful(Ann, Fun) ->
case aeso_syntax:get_ann(stateful, Ann, false) of
false -> ok;
true -> ets_insert(warnings, {unused_stateful, Ann, Fun})
end.
used_stateful(Fun) ->
ets_match_delete(warnings, {unused_stateful, '_', Fun}).
%% Warnings (Unused type defs)
potential_unused_typedefs(Namespace, TypeDefs) ->
lists:map(fun({type_def, Ann, Id, Args, _}) ->
ets_insert(warnings, {unused_typedef, Ann, Namespace ++ qname(Id), length(Args)}) end, TypeDefs).
used_typedef(TypeAliasId, Arity) ->
ets_match_delete(warnings, {unused_typedef, '_', qname(TypeAliasId), Arity}).
%% Warnings (Unused variables)
potential_unused_variables(Namespace, Fun, Vars0) ->
Vars = [ Var || Var = {id, _, VarName} <- Vars0, VarName /= "_" ],
lists:map(fun({id, Ann, VarName}) ->
ets_insert(warnings, {unused_variable, Ann, Namespace, Fun, VarName}) end, Vars).
used_variable(Namespace, Fun, [VarName]) ->
ets_match_delete(warnings, {unused_variable, '_', Namespace, Fun, VarName});
used_variable(_, _, _) -> ok.
%% Warnings (Unused return value)
potential_unused_return_value({typed, Ann, {app, _, {typed, _, _, {fun_t, _, _, _, {id, _, Type}}}, _}, _}) when Type /= "unit" ->
ets_insert(warnings, {unused_return_value, Ann});
potential_unused_return_value(_) -> ok.
%% Warnings (Unused functions)
create_unused_functions() ->
ets_new(function_calls, [bag]),
ets_new(all_functions, [set]).
register_function_call(Caller, Callee) ->
ets_insert(function_calls, {Caller, Callee}).
potential_unused_function(#env{ what = namespace }, Ann, FunQName, FunId) ->
ets_insert(all_functions, {Ann, FunQName, FunId, not aeso_syntax:get_ann(private, Ann, false)});
potential_unused_function(_Env, Ann, FunQName, FunId) ->
ets_insert(all_functions, {Ann, FunQName, FunId, aeso_syntax:get_ann(entrypoint, Ann, false)}).
remove_used_funs(All) ->
{Used, Unused} = lists:partition(fun({_, _, _, IsUsed}) -> IsUsed end, All),
CallsByUsed = lists:flatmap(fun({_, F, _, _}) -> ets_lookup(function_calls, F) end, Used),
CalledFuns = sets:from_list(lists:map(fun({_, Callee}) -> Callee end, CallsByUsed)),
MarkUsedFun = fun(Fun, Acc) ->
case lists:keyfind(Fun, 2, Acc) of
false -> Acc;
T -> lists:keyreplace(Fun, 2, Acc, setelement(4, T, true))
end
end,
NewUnused = sets:fold(MarkUsedFun, Unused, CalledFuns),
case lists:keyfind(true, 4, NewUnused) of
false -> NewUnused;
_ -> remove_used_funs(NewUnused)
end.
destroy_and_report_unused_functions() ->
AllFuns = ets_tab2list(all_functions),
lists:map(fun({Ann, _, FunId, _}) -> ets_insert(warnings, {unused_function, Ann, name(FunId)}) end,
remove_used_funs(AllFuns)),
ets_delete(all_functions),
ets_delete(function_calls).
%% Warnings (Shadowing)
warn_potential_shadowing(_, "_", _) -> ok;
warn_potential_shadowing(Ann, Name, Vars) ->
case proplists:get_value(Name, Vars, false) of
false -> ok;
{AnnOld, _} -> ets_insert(warnings, {shadowing, Ann, Name, AnnOld})
end.
%% Warnings (Division by zero)
warn_potential_division_by_zero(Ann, Op, Args) ->
case {Op, Args} of
{{'/', _}, [_, {int, _, 0}]} -> ets_insert(warnings, {division_by_zero, Ann});
_ -> ok
end.
%% Warnings (Negative spends)
warn_potential_negative_spend(Ann, Fun, Args) ->
case {Fun, Args} of
{ {typed, _, {qid, _, ["Chain", "spend"]}, _}
, [_, {typed, _, {app, _, {'-', _}, [{typed, _, {int, _, X}, _}]}, _}]} when X > 0 ->
ets_insert(warnings, {negative_spend, Ann});
_ -> ok
end.
src/aeso_ast_infer_types.erl
-4340
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src/aeso_ast_to_fcode.erl
+483 -721
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File diff suppressed because it is too large Load Diff
src/aeso_ast_types_env.erl
+1474
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File diff suppressed because it is too large Load Diff
src/aeso_ast_types_errors.erl
+721
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@@ -0,0 +1,721 @@
-module(aeso_ast_types_errors).
cannot_unify(A, B, Cxt, When) ->
type_error({cannot_unify, A, B, Cxt, When}).
type_error(Err) ->
ets_insert(type_errors, Err).
mk_t_err(Pos, Msg) ->
aeso_errors:new(type_error, Pos, lists:flatten(Msg)).
mk_t_err(Pos, Msg, Ctxt) ->
aeso_errors:new(type_error, Pos, lists:flatten(Msg), lists:flatten(Ctxt)).
mk_t_err_from_warn(Warn) ->
aeso_warnings:warn_to_err(type_error, Warn).
mk_error({no_decls, File}) ->
Pos = aeso_errors:pos(File, 0, 0),
mk_t_err(Pos, "Empty contract");
mk_error({mismatched_decl_in_funblock, Name, Decl}) ->
Msg = io_lib:format("Mismatch in the function block. Expected implementation/type declaration of ~s function", [Name]),
mk_t_err(pos(Decl), Msg);
mk_error({higher_kinded_typevar, T}) ->
Msg = io_lib:format("Type `~s` is a higher kinded type variable "
"(takes another type as an argument)", [pp(instantiate(T))]
),
mk_t_err(pos(T), Msg);
mk_error({wrong_type_arguments, X, ArityGiven, ArityReal}) ->
Msg = io_lib:format("Arity for ~s doesn't match. Expected ~p, got ~p"
, [pp(instantiate(X)), ArityReal, ArityGiven]
),
mk_t_err(pos(X), Msg);
mk_error({unnamed_map_update_with_default, Upd}) ->
Msg = "Invalid map update with default",
mk_t_err(pos(Upd), Msg);
mk_error({fundecl_must_have_funtype, _Ann, Id, Type}) ->
Msg = io_lib:format("`~s` was declared with an invalid type `~s`. "
"Entrypoints and functions must have functional types"
, [pp(Id), pp(instantiate(Type))]),
mk_t_err(pos(Id), Msg);
mk_error({cannot_unify, A, B, Cxt, When}) ->
VarianceContext = case Cxt of
none -> "";
_ -> io_lib:format(" in a ~p context", [Cxt])
end,
Msg = io_lib:format("Cannot unify `~s` and `~s`" ++ VarianceContext,
[pp(instantiate(A)), pp(instantiate(B))]),
{Pos, Ctxt} = pp_when(When),
mk_t_err(Pos, Msg, Ctxt);
mk_error({hole_found, Ann, Type}) ->
Msg = io_lib:format("Found a hole of type `~s`", [pp(instantiate(Type))]),
mk_t_err(pos(Ann), Msg);
mk_error({unbound_variable, Id}) ->
Msg = io_lib:format("Unbound variable `~s`", [pp(Id)]),
case Id of
{qid, _, ["Chain", "event"]} ->
Cxt = "Did you forget to define the event type?",
mk_t_err(pos(Id), Msg, Cxt);
_ -> mk_t_err(pos(Id), Msg)
end;
mk_error({undefined_field, Id}) ->
Msg = io_lib:format("Unbound field ~s", [pp(Id)]),
mk_t_err(pos(Id), Msg);
mk_error({not_a_record_type, Type, Why}) ->
Msg = io_lib:format("Not a record type: `~s`", [pp_type(Type)]),
{Pos, Ctxt} = pp_why_record(Why),
mk_t_err(Pos, Msg, Ctxt);
mk_error({not_a_contract_type, Type, Cxt}) ->
Msg =
case Type of
{tvar, _, _} ->
"Unresolved contract type";
_ ->
io_lib:format("The type `~s` is not a contract type", [pp_type(Type)])
end,
{Pos, Cxt1} =
case Cxt of
{var_args, Ann, Fun} ->
{pos(Ann),
io_lib:format("when calling variadic function `~s`", [pp_expr(Fun)])};
{contract_literal, Lit} ->
{pos(Lit),
io_lib:format("when checking that the contract literal `~s` has the type `~s`",
[pp_expr(Lit), pp_type(Type)])};
{address_to_contract, Ann} ->
{pos(Ann),
io_lib:format("when checking that the call to `Address.to_contract` has the type `~s`",
[pp_type(Type)])}
end,
mk_t_err(Pos, Msg, Cxt1);
mk_error({non_linear_pattern, Pattern, Nonlinear}) ->
Msg = io_lib:format("Repeated name~s ~s in the pattern `~s`",
[plural("", "s", Nonlinear),
string:join(lists:map(fun(F) -> "`" ++ F ++ "`" end, Nonlinear), ", "),
pp_expr(Pattern)]),
mk_t_err(pos(Pattern), Msg);
mk_error({ambiguous_record, Fields = [{_, First} | _], Candidates}) ->
Msg = io_lib:format("Ambiguous record type with field~s ~s could be one of~s",
[plural("", "s", Fields),
string:join([ "`" ++ pp(F) ++ "`" || {_, F} <- Fields ], ", "),
[ ["\n - ", "`" ++ pp(C) ++ "`", " (at ", pp_loc(C), ")"] || C <- Candidates ]]),
mk_t_err(pos(First), Msg);
mk_error({missing_field, Field, Rec}) ->
Msg = io_lib:format("Record type `~s` does not have field `~s`",
[pp(Rec), pp(Field)]),
mk_t_err(pos(Field), Msg);
mk_error({missing_fields, Ann, RecType, Fields}) ->
Msg = io_lib:format("The field~s ~s ~s missing when constructing an element of type `~s`",
[plural("", "s", Fields),
string:join(lists:map(fun(F) -> "`" ++ F ++ "`" end, Fields), ", "),
plural("is", "are", Fields), pp(RecType)]),
mk_t_err(pos(Ann), Msg);
mk_error({no_records_with_all_fields, Fields = [{_, First} | _]}) ->
Msg = io_lib:format("No record type with field~s ~s",
[plural("", "s", Fields),
string:join([ "`" ++ pp(F) ++ "`" || {_, F} <- Fields ], ", ")]),
mk_t_err(pos(First), Msg);
mk_error({recursive_types_not_implemented, Types}) ->
S = plural(" is", "s are mutually", Types),
Msg = io_lib:format("The following type~s recursive, which is not yet supported:~s",
[S, [io_lib:format("\n - `~s` (at ~s)", [pp(T), pp_loc(T)]) || T <- Types]]),
mk_t_err(pos(hd(Types)), Msg);
mk_error({event_must_be_variant_type, Where}) ->
Msg = io_lib:format("The event type must be a variant type", []),
mk_t_err(pos(Where), Msg);
mk_error({indexed_type_must_be_word, Type, Type}) ->
Msg = io_lib:format("The indexed type `~s` is not a word type",
[pp_type(Type)]),
mk_t_err(pos(Type), Msg);
mk_error({indexed_type_must_be_word, Type, Type1}) ->
Msg = io_lib:format("The indexed type `~s` equals `~s` which is not a word type",
[pp_type(Type), pp_type(Type1)]),
mk_t_err(pos(Type), Msg);
mk_error({event_0_to_3_indexed_values, Constr}) ->
Msg = io_lib:format("The event constructor `~s` has too many indexed values (max 3)",
[name(Constr)]),
mk_t_err(pos(Constr), Msg);
mk_error({event_0_to_1_string_values, Constr}) ->
Msg = io_lib:format("The event constructor `~s` has too many non-indexed values (max 1)",
[name(Constr)]),
mk_t_err(pos(Constr), Msg);
mk_error({repeated_constructor, Cs}) ->
Msg = io_lib:format("Variant types must have distinct constructor names~s",
[[ io_lib:format("\n`~s` (at ~s)", [pp_typed(" - ", C, T), pp_loc(C)]) || {C, T} <- Cs ]]),
mk_t_err(pos(element(1, hd(Cs))), Msg);
mk_error({bad_named_argument, [], Name}) ->
Msg = io_lib:format("Named argument ~s supplied to function expecting no named arguments.",
[pp(Name)]),
mk_t_err(pos(Name), Msg);
mk_error({bad_named_argument, Args, Name}) ->
Msg = io_lib:format("Named argument `~s` is not one of the expected named arguments~s",
[pp(Name),
[ io_lib:format("\n - `~s`", [pp_typed("", Arg, Type)])
|| {named_arg_t, _, Arg, Type, _} <- Args ]]),
mk_t_err(pos(Name), Msg);
mk_error({unsolved_named_argument_constraint, #named_argument_constraint{name = Name, type = Type}}) ->
Msg = io_lib:format("Named argument ~s supplied to function with unknown named arguments.",
[pp_typed("", Name, Type)]),
mk_t_err(pos(Name), Msg);
mk_error({reserved_entrypoint, Name, Def}) ->
Msg = io_lib:format("The name '~s' is reserved and cannot be used for a "
"top-level contract function.", [Name]),
mk_t_err(pos(Def), Msg);
mk_error({duplicate_definition, Name, Locs}) ->
Msg = io_lib:format("Duplicate definitions of `~s` at~s",
[Name, [ ["\n - ", pp_loc(L)] || L <- Locs ]]),
mk_t_err(pos(lists:last(Locs)), Msg);
mk_error({duplicate_scope, Kind, Name, OtherKind, L}) ->
Msg = io_lib:format("The ~p `~s` has the same name as a ~p at ~s",
[Kind, pp(Name), OtherKind, pp_loc(L)]),
mk_t_err(pos(Name), Msg);
mk_error({include, _, {string, Pos, Name}}) ->
Msg = io_lib:format("Include of `~s` is not allowed, include only allowed at top level.",
[binary_to_list(Name)]),
mk_t_err(pos(Pos), Msg);
mk_error({namespace, _Pos, {con, Pos, Name}, _Def}) ->
Msg = io_lib:format("Nested namespaces are not allowed. Namespace `~s` is not defined at top level.",
[Name]),
mk_t_err(pos(Pos), Msg);
mk_error({Contract, _Pos, {con, Pos, Name}, _Impls, _Def}) when ?IS_CONTRACT_HEAD(Contract) ->
Msg = io_lib:format("Nested contracts are not allowed. Contract `~s` is not defined at top level.",
[Name]),
mk_t_err(pos(Pos), Msg);
mk_error({type_decl, _, {id, Pos, Name}, _}) ->
Msg = io_lib:format("Empty type declarations are not supported. Type `~s` lacks a definition",
[Name]),
mk_t_err(pos(Pos), Msg);
mk_error({letval, _Pos, {id, Pos, Name}, _Def}) ->
Msg = io_lib:format("Toplevel \"let\" definitions are not supported. Value `~s` could be replaced by 0-argument function.",
[Name]),
mk_t_err(pos(Pos), Msg);
mk_error({stateful_not_allowed, Id, Fun}) ->
Msg = io_lib:format("Cannot reference stateful function `~s` in the definition of non-stateful function `~s`.",
[pp(Id), pp(Fun)]),
mk_t_err(pos(Id), Msg);
mk_error({stateful_not_allowed_in_guards, Id}) ->
Msg = io_lib:format("Cannot reference stateful function `~s` in a pattern guard.",
[pp(Id)]),
mk_t_err(pos(Id), Msg);
mk_error({value_arg_not_allowed, Value, Fun}) ->
Msg = io_lib:format("Cannot pass non-zero value argument `~s` in the definition of non-stateful function `~s`.",
[pp_expr(Value), pp(Fun)]),
mk_t_err(pos(Value), Msg);
mk_error({init_depends_on_state, Which, [_Init | Chain]}) ->
WhichCalls = fun("put") -> ""; ("state") -> ""; (_) -> ", which calls" end,
Msg = io_lib:format("The `init` function should return the initial state as its result and cannot ~s the state, but it calls~s",
[if Which == put -> "write"; true -> "read" end,
[ io_lib:format("\n - `~s` (at ~s)~s", [Fun, pp_loc(Ann), WhichCalls(Fun)])
|| {[_, Fun], Ann} <- Chain]]),
mk_t_err(pos(element(2, hd(Chain))), Msg);
mk_error({missing_body_for_let, Ann}) ->
Msg = io_lib:format("Let binding must be followed by an expression.", []),
mk_t_err(pos(Ann), Msg);
mk_error({public_modifier_in_contract, Decl}) ->
Decl1 = mk_entrypoint(Decl),
Msg = io_lib:format("Use `entrypoint` instead of `function` for public function `~s`: `~s`",
[pp_expr(element(3, Decl)),
prettypr:format(aeso_pretty:decl(Decl1))]),
mk_t_err(pos(Decl), Msg);
mk_error({init_must_be_an_entrypoint, Decl}) ->
Decl1 = mk_entrypoint(Decl),
Msg = io_lib:format("The init function must be an entrypoint: ~s",
[prettypr:format(prettypr:nest(2, aeso_pretty:decl(Decl1)))]),
mk_t_err(pos(Decl), Msg);
mk_error({init_must_not_be_payable, Decl}) ->
Msg = io_lib:format("The init function cannot be payable. "
"You don't need the 'payable' annotation to be able to attach "
"funds to the create contract transaction.",
[]),
mk_t_err(pos(Decl), Msg);
mk_error({proto_must_be_entrypoint, Decl}) ->
Decl1 = mk_entrypoint(Decl),
Msg = io_lib:format("Use `entrypoint` for declaration of `~s`: `~s`",
[pp_expr(element(3, Decl)),
prettypr:format(aeso_pretty:decl(Decl1))]),
mk_t_err(pos(Decl), Msg);
mk_error({proto_in_namespace, Decl}) ->
Msg = io_lib:format("Namespaces cannot contain function prototypes.", []),
mk_t_err(pos(Decl), Msg);
mk_error({entrypoint_in_namespace, Decl}) ->
Msg = io_lib:format("Namespaces cannot contain entrypoints. Use `function` instead.", []),
mk_t_err(pos(Decl), Msg);
mk_error({private_entrypoint, Decl}) ->
Msg = io_lib:format("The entrypoint `~s` cannot be private. Use `function` instead.",
[pp_expr(element(3, Decl))]),
mk_t_err(pos(Decl), Msg);
mk_error({private_and_public, Decl}) ->
Msg = io_lib:format("The function `~s` cannot be both public and private.",
[pp_expr(element(3, Decl))]),
mk_t_err(pos(Decl), Msg);
mk_error({contract_has_no_entrypoints, Con}) ->
Msg = io_lib:format("The contract `~s` has no entrypoints. Since Sophia version 3.2, public "
"contract functions must be declared with the `entrypoint` keyword instead of "
"`function`.", [pp_expr(Con)]),
mk_t_err(pos(Con), Msg);
mk_error({definition_in_contract_interface, Ann, {id, _, Id}}) ->
Msg = "Contract interfaces cannot contain defined functions or entrypoints.",
Cxt = io_lib:format("Fix: replace the definition of `~s` by a type signature.", [Id]),
mk_t_err(pos(Ann), Msg, Cxt);
mk_error({unbound_type, Type}) ->
Msg = io_lib:format("Unbound type ~s.", [pp_type(Type)]),
mk_t_err(pos(Type), Msg);
mk_error({new_tuple_syntax, Ann, Ts}) ->
Msg = io_lib:format("Invalid type `~s`. The syntax of tuple types changed in Sophia version 4.0. Did you mean `~s`",
[pp_type({args_t, Ann, Ts}), pp_type({tuple_t, Ann, Ts})]),
mk_t_err(pos(Ann), Msg);
mk_error({map_in_map_key, Ann, KeyType}) ->
Msg = io_lib:format("Invalid key type `~s`", [pp_type(KeyType)]),
Cxt = "Map keys cannot contain other maps.",
mk_t_err(pos(Ann), Msg, Cxt);
mk_error({cannot_call_init_function, Ann}) ->
Msg = "The 'init' function is called exclusively by the create contract transaction "
"and cannot be called from the contract code.",
mk_t_err(pos(Ann), Msg);
mk_error({contract_treated_as_namespace, Ann, [Con, Fun] = QName}) ->
Msg = io_lib:format("Invalid call to contract entrypoint `~s`.", [string:join(QName, ".")]),
Cxt = io_lib:format("It must be called as `c.~s` for some `c : ~s`.", [Fun, Con]),
mk_t_err(pos(Ann), Msg, Cxt);
mk_error({bad_top_level_decl, Decl}) ->
What = case element(1, Decl) of
letval -> "function or entrypoint";
_ -> "contract or namespace"
end,
Id = element(3, Decl),
Msg = io_lib:format("The definition of '~s' must appear inside a ~s.",
[pp_expr(Id), What]),
mk_t_err(pos(Decl), Msg);
mk_error({unknown_byte_length, Type}) ->
Msg = io_lib:format("Cannot resolve length of byte array.", []),
mk_t_err(pos(Type), Msg);
mk_error({unsolved_bytes_constraint, Ann, concat, A, B, C}) ->
Msg = io_lib:format("Failed to resolve byte array lengths in call to Bytes.concat with arguments of type\n"
"~s (at ~s)\n~s (at ~s)\nand result type\n~s (at ~s)",
[pp_type(" - ", A), pp_loc(A), pp_type(" - ", B),
pp_loc(B), pp_type(" - ", C), pp_loc(C)]),
mk_t_err(pos(Ann), Msg);
mk_error({unsolved_bytes_constraint, Ann, split, A, B, C}) ->
Msg = io_lib:format("Failed to resolve byte array lengths in call to Bytes.split with argument of type\n"
"~s (at ~s)\nand result types\n~s (at ~s)\n~s (at ~s)",
[ pp_type(" - ", C), pp_loc(C), pp_type(" - ", A), pp_loc(A),
pp_type(" - ", B), pp_loc(B)]),
mk_t_err(pos(Ann), Msg);
mk_error({failed_to_get_compiler_version, Err}) ->
Msg = io_lib:format("Failed to get compiler version. Error: ~p", [Err]),
mk_t_err(pos(0, 0), Msg);
mk_error({compiler_version_mismatch, Ann, Version, Op, Bound}) ->
PrintV = fun(V) -> string:join([integer_to_list(N) || N <- V], ".") end,
Msg = io_lib:format("Cannot compile with this version of the compiler, "
"because it does not satisfy the constraint"
" ~s ~s ~s", [PrintV(Version), Op, PrintV(Bound)]),
mk_t_err(pos(Ann), Msg);
mk_error({empty_record_or_map_update, Expr}) ->
Msg = io_lib:format("Empty record/map update `~s`", [pp_expr(Expr)]),
mk_t_err(pos(Expr), Msg);
mk_error({mixed_record_and_map, Expr}) ->
Msg = io_lib:format("Mixed record fields and map keys in `~s`", [pp_expr(Expr)]),
mk_t_err(pos(Expr), Msg);
mk_error({named_argument_must_be_literal_bool, Name, Arg}) ->
Msg = io_lib:format("Invalid `~s` argument `~s`. "
"It must be either `true` or `false`.",
[Name, pp_expr(instantiate(Arg))]),
mk_t_err(pos(Arg), Msg);
mk_error({conflicting_updates_for_field, Upd, Key}) ->
Msg = io_lib:format("Conflicting updates for field '~s'", [Key]),
mk_t_err(pos(Upd), Msg);
mk_error({ambiguous_main_contract, Ann}) ->
Msg = "Could not deduce the main contract. You can point it out manually with the `main` keyword.",
mk_t_err(pos(Ann), Msg);
mk_error({main_contract_undefined, Ann}) ->
Msg = "No contract defined.",
mk_t_err(pos(Ann), Msg);
mk_error({multiple_main_contracts, Ann}) ->
Msg = "Only one main contract can be defined.",
mk_t_err(pos(Ann), Msg);
mk_error({unify_varargs, When}) ->
Msg = "Cannot infer types for variable argument list.",
{Pos, Ctxt} = pp_when(When),
mk_t_err(Pos, Msg, Ctxt);
mk_error({clone_no_contract, Ann}) ->
Msg = "Chain.clone requires `ref` named argument of contract type.",
mk_t_err(pos(Ann), Msg);
mk_error({contract_lacks_definition, Type, When}) ->
Msg = io_lib:format(
"~s is not implemented.",
[pp_type(Type)]
),
{Pos, Ctxt} = pp_when(When),
mk_t_err(Pos, Msg, Ctxt);
mk_error({ambiguous_name, Name, QIds}) ->
Msg = io_lib:format("Ambiguous name `~s` could be one of~s",
[pp(Name),
[io_lib:format("\n - `~s` (at ~s)", [pp(QId), pp_loc(QId)]) || QId <- QIds]]),
mk_t_err(pos(Name), Msg);
mk_error({using_undefined_namespace, Ann, Namespace}) ->
Msg = io_lib:format("Cannot use undefined namespace ~s", [Namespace]),
mk_t_err(pos(Ann), Msg);
mk_error({using_undefined_namespace_parts, Ann, Namespace, Parts}) ->
PartsStr = lists:concat(lists:join(", ", Parts)),
Msg = io_lib:format("The namespace ~s does not define the following names: ~s", [Namespace, PartsStr]),
mk_t_err(pos(Ann), Msg);
mk_error({unknown_warning, Warning}) ->
Msg = io_lib:format("Trying to report unknown warning: ~p", [Warning]),
mk_t_err(pos(0, 0), Msg);
mk_error({empty_record_definition, Ann, Name}) ->
Msg = io_lib:format("Empty record definitions are not allowed. Cannot define the record `~s`", [Name]),
mk_t_err(pos(Ann), Msg);
mk_error({unimplemented_interface_function, ConId, InterfaceName, FunName}) ->
Msg = io_lib:format("Unimplemented entrypoint `~s` from the interface `~s` in the contract `~s`", [FunName, InterfaceName, pp(ConId)]),
mk_t_err(pos(ConId), Msg);
mk_error({referencing_undefined_interface, InterfaceId}) ->
Msg = io_lib:format("Trying to implement or extend an undefined interface `~s`", [pp(InterfaceId)]),
mk_t_err(pos(InterfaceId), Msg);
mk_error({missing_definition, Id}) ->
Msg = io_lib:format("Missing definition of function `~s`", [name(Id)]),
mk_t_err(pos(Id), Msg);
mk_error({parameterized_state, Ann}) ->
Msg = "The state type cannot be parameterized",
mk_t_err(pos(Ann), Msg);
mk_error({parameterized_event, Ann}) ->
Msg = "The event type cannot be parameterized",
mk_t_err(pos(Ann), Msg);
mk_error({missing_init_function, Con}) ->
Msg = io_lib:format("Missing `init` function for the contract `~s`.", [name(Con)]),
Cxt = "The `init` function can only be omitted if the state type is `unit`",
mk_t_err(pos(Con), Msg, Cxt);
mk_error({higher_order_entrypoint, Ann, {id, _, Name}, Thing}) ->
What = "higher-order (contains function types)",
ThingS = case Thing of
{argument, X, T} -> io_lib:format("argument\n~s`\n", [pp_typed(" `", X, T)]);
{result, T} -> io_lib:format("return type\n~s`\n", [pp_type(" `", T)])
end,
Bad = case Thing of
{argument, _, _} -> io_lib:format("has a ~s type", [What]);
{result, _} -> io_lib:format("is ~s", [What])
end,
Msg = io_lib:format("The ~sof entrypoint `~s` ~s",
[ThingS, Name, Bad]),
mk_t_err(pos(Ann), Msg);
mk_error({invalid_aens_resolve_type, Ann, T}) ->
Msg = io_lib:format("Invalid return type of `AENS.resolve`:\n"
"~s`\n"
"It must be a `string` or a pubkey type (`address`, `oracle`, etc)",
[pp_type(" `", T)]),
mk_t_err(pos(Ann), Msg);
mk_error({invalid_oracle_type, Why, What, Ann, Type}) ->
WhyS = case Why of higher_order -> "higher-order (contain function types)";
polymorphic -> "polymorphic (contain type variables)" end,
Msg = io_lib:format("Invalid oracle type\n~s`", [pp_type(" `", Type)]),
Cxt = io_lib:format("The ~s type must not be ~s", [What, WhyS]),
mk_t_err(pos(Ann), Msg, Cxt);
mk_error({interface_implementation_conflict, Contract, I1, I2, Fun}) ->
Msg = io_lib:format("Both interfaces `~s` and `~s` implemented by "
"the contract `~s` have a function called `~s`",
[name(I1), name(I2), name(Contract), name(Fun)]),
mk_t_err(pos(Contract), Msg);
mk_error({function_should_be_entrypoint, Impl, Base, Interface}) ->
Msg = io_lib:format("`~s` must be declared as an entrypoint instead of a function "
"in order to implement the entrypoint `~s` from the interface `~s`",
[name(Impl), name(Base), name(Interface)]),
mk_t_err(pos(Impl), Msg);
mk_error({entrypoint_cannot_be_stateful, Impl, Base, Interface}) ->
Msg = io_lib:format("`~s` cannot be stateful because the entrypoint `~s` in the "
"interface `~s` is not stateful",
[name(Impl), name(Base), name(Interface)]),
mk_t_err(pos(Impl), Msg);
mk_error({entrypoint_must_be_payable, Impl, Base, Interface}) ->
Msg = io_lib:format("`~s` must be payable because the entrypoint `~s` in the "
"interface `~s` is payable",
[name(Impl), name(Base), name(Interface)]),
mk_t_err(pos(Impl), Msg);
mk_error({unpreserved_payablity, Kind, ContractCon, InterfaceCon}) ->
KindStr = case Kind of
contract -> "contract";
contract_interface -> "interface"
end,
Msg = io_lib:format("Non-payable ~s `~s` cannot implement payable interface `~s`",
[KindStr, name(ContractCon), name(InterfaceCon)]),
mk_t_err(pos(ContractCon), Msg);
mk_error(Err) ->
Msg = io_lib:format("Unknown error: ~p", [Err]),
mk_t_err(pos(0, 0), Msg).
mk_warning({unused_include, FileName, SrcFile}) ->
Msg = io_lib:format("The file `~s` is included but not used.", [FileName]),
aeso_warnings:new(aeso_errors:pos(SrcFile, 0, 0), Msg);
mk_warning({unused_stateful, Ann, FunName}) ->
Msg = io_lib:format("The function `~s` is unnecessarily marked as stateful.", [name(FunName)]),
aeso_warnings:new(pos(Ann), Msg);
mk_warning({unused_variable, Ann, _Namespace, _Fun, VarName}) ->
Msg = io_lib:format("The variable `~s` is defined but never used.", [VarName]),
aeso_warnings:new(pos(Ann), Msg);
mk_warning({unused_typedef, Ann, QName, _Arity}) ->
Msg = io_lib:format("The type `~s` is defined but never used.", [lists:last(QName)]),
aeso_warnings:new(pos(Ann), Msg);
mk_warning({unused_return_value, Ann}) ->
Msg = io_lib:format("Unused return value.", []),
aeso_warnings:new(pos(Ann), Msg);
mk_warning({unused_function, Ann, FunName}) ->
Msg = io_lib:format("The function `~s` is defined but never used.", [FunName]),
aeso_warnings:new(pos(Ann), Msg);
mk_warning({shadowing, Ann, VarName, AnnOld}) ->
Msg = io_lib:format("The definition of `~s` shadows an older definition at ~s.", [VarName, pp_loc(AnnOld)]),
aeso_warnings:new(pos(Ann), Msg);
mk_warning({division_by_zero, Ann}) ->
Msg = io_lib:format("Division by zero.", []),
aeso_warnings:new(pos(Ann), Msg);
mk_warning({negative_spend, Ann}) ->
Msg = io_lib:format("Negative spend.", []),
aeso_warnings:new(pos(Ann), Msg);
mk_warning(Warn) ->
Msg = io_lib:format("Unknown warning: ~p", [Warn]),
aeso_warnings:new(Msg).
mk_entrypoint(Decl) ->
Ann = [entrypoint | lists:keydelete(public, 1,
lists:keydelete(private, 1,
aeso_syntax:get_ann(Decl))) -- [public, private]],
aeso_syntax:set_ann(Ann, Decl).
pp_when({todo, What}) -> {pos(0, 0), io_lib:format("[TODO] ~p", [What])};
pp_when({at, Ann}) -> {pos(Ann), io_lib:format("at ~s", [pp_loc(Ann)])};
pp_when({check_typesig, Name, Inferred, Given}) ->
{pos(Given),
io_lib:format("when checking the definition of `~s`\n"
" inferred type: `~s`\n"
" given type: `~s`",
[Name, pp(instantiate(Inferred)), pp(instantiate(Given))])};
pp_when({infer_app, Fun, NamedArgs, Args, Inferred0, ArgTypes0}) ->
Inferred = instantiate(Inferred0),
ArgTypes = instantiate(ArgTypes0),
{pos(Fun),
io_lib:format("when checking the application of\n"
" `~s`\n"
"to arguments~s",
[pp_typed("", Fun, Inferred),
[ ["\n ", "`" ++ pp_expr(NamedArg) ++ "`"] || NamedArg <- NamedArgs ] ++
[ ["\n ", "`" ++ pp_typed("", Arg, ArgT) ++ "`"]
|| {Arg, ArgT} <- lists:zip(Args, ArgTypes) ] ])};
pp_when({field_constraint, FieldType0, InferredType0, Fld}) ->
FieldType = instantiate(FieldType0),
InferredType = instantiate(InferredType0),
{pos(Fld),
case Fld of
{var_args, _Ann, _Fun} ->
io_lib:format("when checking contract construction of type\n~s (at ~s)\nagainst the expected type\n~s\n",
[pp_type(" ", FieldType),
pp_loc(Fld),
pp_type(" ", InferredType)
]);
{field, _Ann, LV, Id, E} ->
io_lib:format("when checking the assignment of the field `~s` to the old value `~s` and the new value `~s`",
[pp_typed("", {lvalue, [], LV}, FieldType),
pp(Id),
pp_typed("", E, InferredType)]);
{field, _Ann, LV, E} ->
io_lib:format("when checking the assignment of the field `~s` to the value `~s`",
[pp_typed("", {lvalue, [], LV}, FieldType),
pp_typed("", E, InferredType)]);
{proj, _Ann, _Rec, _Fld} ->
io_lib:format("when checking the record projection `~s` against the expected type `~s`",
[pp_typed(" ", Fld, FieldType),
pp_type(" ", InferredType)])
end};
pp_when({record_constraint, RecType0, InferredType0, Fld}) ->
RecType = instantiate(RecType0),
InferredType = instantiate(InferredType0),
{Pos, WhyRec} = pp_why_record(Fld),
case Fld of
{var_args, _Ann, _Fun} ->
{Pos,
io_lib:format("when checking that contract construction of type\n~s\n~s\n"
"matches the expected type\n~s",
[pp_type(" ", RecType), WhyRec, pp_type(" ", InferredType)]
)
};
{field, _Ann, _LV, _Id, _E} ->
{Pos,
io_lib:format("when checking that the record type\n~s\n~s\n"
"matches the expected type\n~s",
[pp_type(" ", RecType), WhyRec, pp_type(" ", InferredType)])};
{field, _Ann, _LV, _E} ->
{Pos,
io_lib:format("when checking that the record type\n~s\n~s\n"
"matches the expected type\n~s",
[pp_type(" ", RecType), WhyRec, pp_type(" ", InferredType)])};
{proj, _Ann, Rec, _FldName} ->
{pos(Rec),
io_lib:format("when checking that the expression\n~s (at ~s)\nhas type\n~s\n~s",
[pp_typed(" ", Rec, InferredType), pp_loc(Rec),
pp_type(" ", RecType), WhyRec])}
end;
pp_when({if_branches, Then, ThenType0, Else, ElseType0}) ->
{ThenType, ElseType} = instantiate({ThenType0, ElseType0}),
Branches = [ {Then, ThenType} | [ {B, ElseType} || B <- if_branches(Else) ] ],
{pos(element(1, hd(Branches))),
io_lib:format("when comparing the types of the if-branches\n"
"~s", [ [ io_lib:format("~s (at ~s)\n", [pp_typed(" - ", B, BType), pp_loc(B)])
|| {B, BType} <- Branches ] ])};
pp_when({case_pat, Pat, PatType0, ExprType0}) ->
{PatType, ExprType} = instantiate({PatType0, ExprType0}),
{pos(Pat),
io_lib:format("when checking the type of the pattern `~s` against the expected type `~s`",
[pp_typed("", Pat, PatType),
pp_type(ExprType)])};
pp_when({check_expr, Expr, Inferred0, Expected0}) ->
{Inferred, Expected} = instantiate({Inferred0, Expected0}),
{pos(Expr),
io_lib:format("when checking the type of the expression `~s` against the expected type `~s`",
[pp_typed("", Expr, Inferred), pp_type(Expected)])};
pp_when({checking_init_type, Ann}) ->
{pos(Ann),
io_lib:format("when checking that `init` returns a value of type `state`", [])};
pp_when({list_comp, BindExpr, Inferred0, Expected0}) ->
{Inferred, Expected} = instantiate({Inferred0, Expected0}),
{pos(BindExpr),
io_lib:format("when checking rvalue of list comprehension binding `~s` against type `~s`",
[pp_typed("", BindExpr, Inferred), pp_type(Expected)])};
pp_when({check_named_arg_constraint, C}) ->
{id, _, Name} = Arg = C#named_argument_constraint.name,
[Type | _] = [ Type || {named_arg_t, _, {id, _, Name1}, Type, _} <- C#named_argument_constraint.args, Name1 == Name ],
Err = io_lib:format("when checking named argument `~s` against inferred type `~s`",
[pp_typed("", Arg, Type), pp_type(C#named_argument_constraint.type)]),
{pos(Arg), Err};
pp_when({checking_init_args, Ann, Con0, ArgTypes0}) ->
Con = instantiate(Con0),
ArgTypes = instantiate(ArgTypes0),
{pos(Ann),
io_lib:format("when checking arguments of `~s`'s init entrypoint to match\n(~s)",
[pp_type(Con), string:join([pp_type(A) || A <- ArgTypes], ", ")])
};
pp_when({return_contract, App, Con0}) ->
Con = instantiate(Con0),
{pos(App)
, io_lib:format("when checking that expression returns contract of type `~s`", [pp_type(Con)])
};
pp_when({arg_name, Id1, Id2, When}) ->
{Pos, Ctx} = pp_when(When),
{Pos
, io_lib:format("when unifying names of named arguments: `~s` and `~s`\n~s", [pp_expr(Id1), pp_expr(Id2), Ctx])
};
pp_when({var_args, Ann, Fun}) ->
{pos(Ann)
, io_lib:format("when resolving arguments of variadic function `~s`", [pp_expr(Fun)])
};
pp_when(unknown) -> {pos(0,0), ""}.
-spec pp_why_record(why_record()) -> {pos(), iolist()}.
pp_why_record({var_args, Ann, Fun}) ->
{pos(Ann),
io_lib:format("arising from resolution of variadic function `~s`",
[pp_expr(Fun)])};
pp_why_record(Fld = {field, _Ann, LV, _E}) ->
{pos(Fld),
io_lib:format("arising from an assignment of the field `~s`",
[pp_expr({lvalue, [], LV})])};
pp_why_record(Fld = {field, _Ann, LV, _Alias, _E}) ->
{pos(Fld),
io_lib:format("arising from an assignment of the field `~s`",
[pp_expr({lvalue, [], LV})])};
pp_why_record({proj, _Ann, Rec, FldName}) ->
{pos(Rec),
io_lib:format("arising from the projection of the field `~s`",
[pp(FldName)])}.
if_branches(If = {'if', Ann, _, Then, Else}) ->
case proplists:get_value(format, Ann) of
elif -> [Then | if_branches(Else)];
_ -> [If]
end;
if_branches(E) -> [E].
pp_typed(Label, E, T = {type_sig, _, _, _, _, _}) -> pp_typed(Label, E, typesig_to_fun_t(T));
pp_typed(Label, {typed, _, Expr, _}, Type) ->
pp_typed(Label, Expr, Type);
pp_typed(Label, Expr, Type) ->
pp_expr(Label, {typed, [], Expr, Type}).
pp_expr(Expr) ->
pp_expr("", Expr).
pp_expr(Label, Expr) ->
prettypr:format(prettypr:beside(prettypr:text(Label), aeso_pretty:expr(Expr, [show_generated])), 80, 80).
pp_type(Type) ->
pp_type("", Type).
pp_type(Label, Type) ->
prettypr:format(prettypr:beside(prettypr:text(Label), aeso_pretty:type(Type, [show_generated])), 80, 80).
src_file(T) -> aeso_syntax:get_ann(file, T, no_file).
include_type(T) -> aeso_syntax:get_ann(include_type, T, none).
line_number(T) -> aeso_syntax:get_ann(line, T, 0).
column_number(T) -> aeso_syntax:get_ann(col, T, 0).
pos(T) -> aeso_errors:pos(src_file(T), line_number(T), column_number(T)).
pos(L, C) -> aeso_errors:pos(L, C).
loc(T) ->
{src_file(T), include_type(T), line_number(T), column_number(T)}.
pp_loc(T) ->
{File, IncludeType, Line, Col} = loc(T),
case {Line, Col} of
{0, 0} -> "(builtin location)";
_ -> case IncludeType of
none -> io_lib:format("line ~p, column ~p", [Line, Col]);
_ -> io_lib:format("line ~p, column ~p in ~s", [Line, Col, File])
end
end.
plural(No, _Yes, [_]) -> No;
plural(_No, Yes, _) -> Yes.
pp(T = {type_sig, _, _, _, _, _}) ->
pp(typesig_to_fun_t(T));
pp([]) ->
"";
pp([T]) ->
pp(T);
pp([T|Ts]) ->
[pp(T), ", "|pp(Ts)];
pp({id, _, Name}) ->
Name;
pp({qid, _, Name}) ->
string:join(Name, ".");
pp({con, _, Name}) ->
Name;
pp({qcon, _, Name}) ->
string:join(Name, ".");
pp({uvar, _, Ref}) ->
%% Show some unique representation
["?u" | integer_to_list(erlang:phash2(Ref, 16384)) ];
pp({tvar, _, Name}) ->
Name;
pp({if_t, _, Id, Then, Else}) ->
["if(", pp([Id, Then, Else]), ")"];
pp({tuple_t, _, []}) ->
"unit";
pp({tuple_t, _, Cpts}) ->
["(", string:join(lists:map(fun pp/1, Cpts), " * "), ")"];
pp({bytes_t, _, any}) -> "bytes(_)";
pp({bytes_t, _, Len}) ->
["bytes(", integer_to_list(Len), ")"];
pp({app_t, _, T, []}) ->
pp(T);
pp({app_t, _, Type, Args}) ->
[pp(Type), "(", pp(Args), ")"];
pp({named_arg_t, _, Name, Type, _Default}) ->
[pp(Name), " : ", pp(Type)];
pp({fun_t, _, Named = {uvar, _, _}, As, B}) ->
["(", pp(Named), " | ", pp(As), ") => ", pp(B)];
pp({fun_t, _, Named, As, B}) when is_list(Named) ->
["(", pp(Named ++ As), ") => ", pp(B)];
pp(Other) ->
io_lib:format("~p", [Other]).
plural(No, _Yes, [_]) -> No;
plural(_No, Yes, _) -> Yes.
src/aeso_ast_types_infer.erl
+1434
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src/aeso_ast_types_solve.erl
+344
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@@ -0,0 +1,344 @@
-module(aeso_ast_types_solve).
-spec solve_constraints(env()) -> ok.
solve_constraints(Env) ->
%% First look for record fields that appear in only one type definition
IsAmbiguous =
fun(#field_constraint{
record_t = RecordType,
field = Field={id, _Attrs, FieldName},
field_t = FieldType,
kind = Kind,
context = When }) ->
Arity = fun_arity(dereference_deep(FieldType)),
FieldInfos = case Arity of
none -> lookup_record_field(Env, FieldName, Kind);
_ -> lookup_record_field_arity(Env, FieldName, Arity, Kind)
end,
case FieldInfos of
[] ->
type_error({undefined_field, Field}),
false;
[#field_info{field_t = FldType, record_t = RecType}] ->
create_freshen_tvars(),
FreshFldType = freshen(FldType),
FreshRecType = freshen(RecType),
destroy_freshen_tvars(),
unify(Env, FreshFldType, FieldType, {field_constraint, FreshFldType, FieldType, When}),
unify(Env, FreshRecType, RecordType, {record_constraint, FreshRecType, RecordType, When}),
false;
_ ->
%% ambiguity--need cleverer strategy
true
end;
(_) -> true
end,
AmbiguousConstraints = lists:filter(IsAmbiguous, get_constraints()),
% The two passes on AmbiguousConstraints are needed
solve_ambiguous_constraints(Env, AmbiguousConstraints ++ AmbiguousConstraints).
-spec solve_ambiguous_constraints(env(), [constraint()]) -> ok.
solve_ambiguous_constraints(Env, Constraints) ->
Unknown = solve_known_record_types(Env, Constraints),
if Unknown == [] -> ok;
length(Unknown) < length(Constraints) ->
%% progress! Keep trying.
solve_ambiguous_constraints(Env, Unknown);
true ->
case solve_unknown_record_types(Env, Unknown) of
true -> %% Progress!
solve_ambiguous_constraints(Env, Unknown);
_ -> ok %% No progress. Report errors later.
end
end.
solve_then_destroy_and_report_unsolved_constraints(Env) ->
solve_constraints(Env),
destroy_and_report_unsolved_constraints(Env).
destroy_and_report_unsolved_constraints(Env) ->
{FieldCs, OtherCs} =
lists:partition(fun(#field_constraint{}) -> true; (_) -> false end,
get_constraints()),
{CreateCs, OtherCs1} =
lists:partition(fun(#record_create_constraint{}) -> true; (_) -> false end,
OtherCs),
{ContractCs, OtherCs2} =
lists:partition(fun(#is_contract_constraint{}) -> true; (_) -> false end, OtherCs1),
{NamedArgCs, OtherCs3} =
lists:partition(fun(#dependent_type_constraint{}) -> true;
(#named_argument_constraint{}) -> true;
(_) -> false
end, OtherCs2),
{BytesCs, OtherCs4} =
lists:partition(fun({is_bytes, _}) -> true;
({add_bytes, _, _, _, _, _}) -> true;
(_) -> false
end, OtherCs3),
{AensResolveCs, OtherCs5} =
lists:partition(fun({aens_resolve_type, _}) -> true;
(_) -> false
end, OtherCs4),
{OracleTypeCs, []} =
lists:partition(fun({oracle_type, _, _}) -> true;
(_) -> false
end, OtherCs5),
Unsolved = [ S || S <- [ solve_constraint(Env, dereference_deep(C)) || C <- NamedArgCs ],
S == unsolved ],
[ type_error({unsolved_named_argument_constraint, C}) || C <- Unsolved ],
Unknown = solve_known_record_types(Env, FieldCs),
if Unknown == [] -> ok;
true ->
case solve_unknown_record_types(Env, Unknown) of
true -> ok;
Errors -> [ type_error(Err) || Err <- Errors ]
end
end,
check_record_create_constraints(Env, CreateCs),
check_is_contract_constraints(Env, ContractCs),
check_bytes_constraints(Env, BytesCs),
check_aens_resolve_constraints(Env, AensResolveCs),
check_oracle_type_constraints(Env, OracleTypeCs),
destroy_constraints().
%% If false, a type error has been emitted, so it's safe to drop the constraint.
-spec check_named_argument_constraint(env(), named_argument_constraint()) -> true | false | unsolved.
check_named_argument_constraint(_Env, #named_argument_constraint{ args = {uvar, _, _} }) ->
unsolved;
check_named_argument_constraint(Env,
C = #named_argument_constraint{ args = Args,
name = Id = {id, _, Name},
type = Type }) ->
case [ T || {named_arg_t, _, {id, _, Name1}, T, _} <- Args, Name1 == Name ] of
[] ->
type_error({bad_named_argument, Args, Id}),
false;
[T] -> unify(Env, T, Type, {check_named_arg_constraint, C}), true
end;
check_named_argument_constraint(Env,
#dependent_type_constraint{ named_args_t = NamedArgsT0,
named_args = NamedArgs,
general_type = GenType,
specialized_type = SpecType,
context = {check_return, App} }) ->
NamedArgsT = dereference(NamedArgsT0),
case dereference(NamedArgsT0) of
[_ | _] = NamedArgsT ->
GetVal = fun(Name, Default) ->
hd([ Val || {named_arg, _, {id, _, N}, Val} <- NamedArgs, N == Name] ++
[ Default ])
end,
ArgEnv = maps:from_list([ {Name, GetVal(Name, Default)}
|| {named_arg_t, _, {id, _, Name}, _, Default} <- NamedArgsT ]),
GenType1 = specialize_dependent_type(ArgEnv, GenType),
unify(Env, GenType1, SpecType, {check_expr, App, GenType1, SpecType}),
true;
_ -> unify(Env, GenType, SpecType, {check_expr, App, GenType, SpecType}), true
end.
solve_constraint(_Env, #field_constraint{record_t = {uvar, _, _}}) ->
not_solved;
solve_constraint(Env, C = #field_constraint{record_t = RecType,
field = FieldName,
field_t = FieldType,
context = When}) ->
RecId = record_type_name(RecType),
Attrs = aeso_syntax:get_ann(RecId),
case lookup_type(Env, RecId) of
{_, {_Ann, {Formals, {What, Fields}}}} when What =:= record_t; What =:= contract_t ->
FieldTypes = [{Name, Type} || {field_t, _, {id, _, Name}, Type} <- Fields],
{id, _, FieldString} = FieldName,
case proplists:get_value(FieldString, FieldTypes) of
undefined ->
type_error({missing_field, FieldName, RecId}),
not_solved;
FldType ->
create_freshen_tvars(),
FreshFldType = freshen(FldType),
FreshRecType = freshen(app_t(Attrs, RecId, Formals)),
destroy_freshen_tvars(),
unify(Env, FreshFldType, FieldType, {field_constraint, FreshFldType, FieldType, When}),
unify(Env, FreshRecType, RecType, {record_constraint, FreshRecType, RecType, When}),
C
end;
_ ->
type_error({not_a_record_type, instantiate(RecType), When}),
not_solved
end;
solve_constraint(Env, C = #dependent_type_constraint{}) ->
check_named_argument_constraint(Env, C);
solve_constraint(Env, C = #named_argument_constraint{}) ->
check_named_argument_constraint(Env, C);
solve_constraint(_Env, {is_bytes, _}) -> ok;
solve_constraint(Env, {add_bytes, Ann, _, A0, B0, C0}) ->
A = unfold_types_in_type(Env, dereference(A0)),
B = unfold_types_in_type(Env, dereference(B0)),
C = unfold_types_in_type(Env, dereference(C0)),
case {A, B, C} of
{{bytes_t, _, M}, {bytes_t, _, N}, _} -> unify(Env, {bytes_t, Ann, M + N}, C, {at, Ann});
{{bytes_t, _, M}, _, {bytes_t, _, R}} when R >= M -> unify(Env, {bytes_t, Ann, R - M}, B, {at, Ann});
{_, {bytes_t, _, N}, {bytes_t, _, R}} when R >= N -> unify(Env, {bytes_t, Ann, R - N}, A, {at, Ann});
_ -> ok
end;
solve_constraint(_, _) -> ok.
check_bytes_constraints(Env, Constraints) ->
InAddConstraint = [ T || {add_bytes, _, _, A, B, C} <- Constraints,
T <- [A, B, C],
element(1, T) /= bytes_t ],
%% Skip is_bytes constraints for types that occur in add_bytes constraints
%% (no need to generate error messages for both is_bytes and add_bytes).
Skip = fun({is_bytes, T}) -> lists:member(T, InAddConstraint);
(_) -> false end,
[ check_bytes_constraint(Env, C) || C <- Constraints, not Skip(C) ].
check_bytes_constraint(Env, {is_bytes, Type}) ->
Type1 = unfold_types_in_type(Env, instantiate(Type)),
case Type1 of
{bytes_t, _, _} -> ok;
_ ->
type_error({unknown_byte_length, Type})
end;
check_bytes_constraint(Env, {add_bytes, Ann, Fun, A0, B0, C0}) ->
A = unfold_types_in_type(Env, instantiate(A0)),
B = unfold_types_in_type(Env, instantiate(B0)),
C = unfold_types_in_type(Env, instantiate(C0)),
case {A, B, C} of
{{bytes_t, _, _M}, {bytes_t, _, _N}, {bytes_t, _, _R}} ->
ok; %% If all are solved we checked M + N == R in solve_constraint.
_ -> type_error({unsolved_bytes_constraint, Ann, Fun, A, B, C})
end.
check_aens_resolve_constraints(_Env, []) ->
ok;
check_aens_resolve_constraints(Env, [{aens_resolve_type, Type} | Rest]) ->
Type1 = unfold_types_in_type(Env, instantiate(Type)),
{app_t, _, {id, _, "option"}, [Type2]} = Type1,
case Type2 of
{id, _, "string"} -> ok;
{id, _, "address"} -> ok;
{con, _, _} -> ok;
{app_t, _, {id, _, "oracle"}, [_, _]} -> ok;
{app_t, _, {id, _, "oracle_query"}, [_, _]} -> ok;
_ -> type_error({invalid_aens_resolve_type, aeso_syntax:get_ann(Type), Type2})
end,
check_aens_resolve_constraints(Env, Rest).
check_oracle_type_constraints(_Env, []) ->
ok;
check_oracle_type_constraints(Env, [{oracle_type, Ann, OType} | Rest]) ->
Type = unfold_types_in_type(Env, instantiate(OType)),
{app_t, _, {id, _, "oracle"}, [QType, RType]} = Type,
ensure_monomorphic(QType, {invalid_oracle_type, polymorphic, query, Ann, Type}),
ensure_monomorphic(RType, {invalid_oracle_type, polymorphic, response, Ann, Type}),
ensure_first_order(QType, {invalid_oracle_type, higher_order, query, Ann, Type}),
ensure_first_order(RType, {invalid_oracle_type, higher_order, response, Ann, Type}),
check_oracle_type_constraints(Env, Rest).
%% -- Field constraints --
check_record_create_constraints(_, []) -> ok;
check_record_create_constraints(Env, [C | Cs]) ->
#record_create_constraint{
record_t = Type,
fields = Fields,
context = When } = C,
Type1 = unfold_types_in_type(Env, instantiate(Type)),
try lookup_type(Env, record_type_name(Type1)) of
{_QId, {_Ann, {_Args, {record_t, RecFields}}}} ->
ActualNames = [ Fld || {field_t, _, {id, _, Fld}, _} <- RecFields ],
GivenNames = [ Fld || {id, _, Fld} <- Fields ],
case ActualNames -- GivenNames of %% We know already that we don't have too many fields
[] -> ok;
Missing -> type_error({missing_fields, When, Type1, Missing})
end;
_ -> %% We can get here if there are other type errors.
ok
catch _:_ -> %% Might be unsolved, we get a different error in that case
ok
end,
check_record_create_constraints(Env, Cs).
check_is_contract_constraints(_Env, []) -> ok;
check_is_contract_constraints(Env, [C | Cs]) ->
#is_contract_constraint{ contract_t = Type, context = Cxt, force_def = ForceDef } = C,
Type1 = unfold_types_in_type(Env, instantiate(Type)),
TypeName = record_type_name(Type1),
case lookup_type(Env, TypeName) of
{_, {_Ann, {[], {contract_t, _}}}} ->
case not ForceDef orelse is_contract_defined(TypeName) of
true -> ok;
false -> type_error({contract_lacks_definition, Type1, Cxt})
end;
_ -> type_error({not_a_contract_type, Type1, Cxt})
end,
check_is_contract_constraints(Env, Cs).
-spec solve_unknown_record_types(env(), [field_constraint()]) -> true | [tuple()].
solve_unknown_record_types(Env, Unknown) ->
UVars = lists:usort([UVar || #field_constraint{record_t = UVar = {uvar, _, _}} <- Unknown]),
Solutions = [solve_for_uvar(Env, UVar, [{Kind, When, Field}
|| #field_constraint{record_t = U, field = Field, kind = Kind, context = When} <- Unknown,
U == UVar])
|| UVar <- UVars],
case lists:member(true, Solutions) of
true -> true;
false -> Solutions
end.
%% This will solve all kinds of constraints but will only return the
%% unsolved field constraints
-spec solve_known_record_types(env(), [constraint()]) -> [field_constraint()].
solve_known_record_types(Env, Constraints) ->
DerefConstraints = lists:map(fun(C = #field_constraint{record_t = RecordType}) ->
C#field_constraint{record_t = dereference(RecordType)};
(C) -> dereference_deep(C)
end, Constraints),
SolvedConstraints = lists:map(fun(C) -> solve_constraint(Env, dereference_deep(C)) end, DerefConstraints),
Unsolved = DerefConstraints--SolvedConstraints,
lists:filter(fun(#field_constraint{}) -> true; (_) -> false end, Unsolved).
solve_for_uvar(Env, UVar = {uvar, Attrs, _}, Fields0) ->
Fields = [{Kind, Fld} || {Kind, _, Fld} <- Fields0],
[{_, When, _} | _] = Fields0, %% Get the location from the first field
%% If we have 'create' constraints they must be complete.
Covering = lists:usort([ Name || {create, {id, _, Name}} <- Fields ]),
%% Does this set of fields uniquely identify a record type?
FieldNames = [ Name || {_Kind, {id, _, Name}} <- Fields ],
UniqueFields = lists:usort(FieldNames),
Candidates = [RecType || #field_info{record_t = RecType} <- lookup_record_field(Env, hd(FieldNames))],
TypesAndFields = [case lookup_type(Env, record_type_name(RecType)) of
{_, {_, {_, {record_t, RecFields}}}} ->
{RecType, [Field || {field_t, _, {id, _, Field}, _} <- RecFields]};
{_, {_, {_, {contract_t, ConFields}}}} ->
%% TODO: is this right?
{RecType, [Field || {field_t, _, {id, _, Field}, _} <- ConFields]};
false -> %% impossible?
error({no_definition_for, record_type_name(RecType), in, Env})
end
|| RecType <- Candidates],
PartialSolutions =
lists:sort([{RecType, if Covering == [] -> []; true -> RecFields -- Covering end}
|| {RecType, RecFields} <- TypesAndFields,
UniqueFields -- RecFields == []]),
Solutions = [RecName || {RecName, []} <- PartialSolutions],
apply_typesig_constraint(_Ann, none, _FunT) -> ok;
apply_typesig_constraint(Ann, address_to_contract, {fun_t, _, [], [_], Type}) ->
add_constraint([#is_contract_constraint{ contract_t = Type,
context = {address_to_contract, Ann}}]);
apply_typesig_constraint(Ann, bytes_concat, {fun_t, _, [], [A, B], C}) ->
add_constraint({add_bytes, Ann, concat, A, B, C});
apply_typesig_constraint(Ann, bytes_split, {fun_t, _, [], [C], {tuple_t, _, [A, B]}}) ->
add_constraint({add_bytes, Ann, split, A, B, C});
apply_typesig_constraint(Ann, bytecode_hash, {fun_t, _, _, [Con], _}) ->
add_constraint([#is_contract_constraint{ contract_t = Con,
context = {bytecode_hash, Ann} }]).
src/aeso_compiler.erl
+45 -87
View File
@@ -12,8 +12,6 @@
, file/2
, from_string/2
, check_call/4
, decode_value/4
, encode_value/4
, create_calldata/3
, create_calldata/4
, version/0
@@ -31,11 +29,10 @@
-include("aeso_utils.hrl").
-type option() :: pp_sophia_code
| pp_ast
-type option() :: pp_ast
| pp_types
| pp_typed_ast
| pp_assembler
| pp_fate
| no_code
| keep_included
| debug_mode
@@ -119,8 +116,8 @@ from_string1(ContractString, Options) ->
, warnings := Warnings } = string_to_code(ContractString, Options),
#{ child_con_env := ChildContracts } = FCodeEnv,
SavedFreshNames = maps:get(saved_fresh_names, FCodeEnv, #{}),
FateCode = aeso_fcode_to_fate:compile(ChildContracts, FCode, SavedFreshNames, Options),
pp_assembler(FateCode, Options),
{FateCode, VarsRegs} = aeso_fcode_to_fate:compile(ChildContracts, FCode, SavedFreshNames, Options),
pp_fate(FateCode, Options),
ByteCode = aeb_fate_code:serialize(FateCode, []),
{ok, Version} = version(),
Res = #{byte_code => ByteCode,
@@ -132,7 +129,13 @@ from_string1(ContractString, Options) ->
payable => maps:get(payable, FCode),
warnings => Warnings
},
{ok, maybe_generate_aci(Res, FoldedTypedAst, Options)}.
ResDbg = Res#{variables_registers => VarsRegs},
FinalRes =
case proplists:get_value(debug_info, Options, false) of
true -> ResDbg;
false -> Res
end,
{ok, maybe_generate_aci(FinalRes, FoldedTypedAst, Options)}.
maybe_generate_aci(Result, FoldedTypedAst, Options) ->
case proplists:get_value(aci, Options) of
@@ -146,7 +149,6 @@ maybe_generate_aci(Result, FoldedTypedAst, Options) ->
-spec string_to_code(string(), options()) -> map().
string_to_code(ContractString, Options) ->
Ast = parse(ContractString, Options),
pp_sophia_code(Ast, Options),
pp_ast(Ast, Options),
{TypeEnv, FoldedTypedAst, UnfoldedTypedAst, Warnings} = aeso_ast_infer_types:infer(Ast, [return_env | Options]),
pp_typed_ast(UnfoldedTypedAst, Options),
@@ -184,55 +186,30 @@ check_call(Source, FunName, Args, Options) ->
check_call1(Source, FunName, Args, Options).
check_call1(ContractString0, FunName, Args, Options) ->
case add_extra_call(ContractString0, {call, FunName, Args}, Options) of
{ok, CallName, Code} ->
{def, _, _, FcodeArgs} = get_call_body(CallName, Code),
{ok, FunName, [ aeso_fcode_to_fate:term_to_fate(A) || A <- FcodeArgs ]};
Err = {error, _} ->
Err
end.
add_extra_call(Contract0, Call, Options) ->
try
%% First check the contract without the __call function
#{fcode := OrgFcode
, fcode_env := #{child_con_env := ChildContracts}
, ast := Ast} = string_to_code(Contract0, Options),
FateCode = aeso_fcode_to_fate:compile(ChildContracts, OrgFcode, #{}, []),
, ast := Ast} = string_to_code(ContractString0, Options),
{FateCode, _} = aeso_fcode_to_fate:compile(ChildContracts, OrgFcode, #{}, []),
%% collect all hashes and compute the first name without hash collision to
SymbolHashes = maps:keys(aeb_fate_code:symbols(FateCode)),
CallName = first_none_match(?CALL_NAME, SymbolHashes,
lists:seq($1, $9) ++ lists:seq($A, $Z) ++ lists:seq($a, $z)),
Contract = insert_call_function(Ast, Contract0, CallName, Call),
{ok, CallName, string_to_code(Contract, Options)}
ContractString = insert_call_function(Ast, ContractString0, CallName, FunName, Args),
#{fcode := Fcode} = string_to_code(ContractString, Options),
CallArgs = arguments_of_body(CallName, FunName, Fcode),
{ok, FunName, CallArgs}
catch
throw:{error, Errors} -> {error, Errors}
end.
get_call_body(CallName, #{fcode := Fcode}) ->
arguments_of_body(CallName, _FunName, Fcode) ->
#{body := Body} = maps:get({entrypoint, list_to_binary(CallName)}, maps:get(functions, Fcode)),
Body.
encode_value(Contract0, Type, Value, Options) ->
case add_extra_call(Contract0, {value, Type, Value}, Options) of
{ok, CallName, Code} ->
Body = get_call_body(CallName, Code),
{ok, aeb_fate_encoding:serialize(aeso_fcode_to_fate:term_to_fate(Body))};
Err = {error, _} ->
Err
end.
decode_value(Contract0, Type, FateValue, Options) ->
case add_extra_call(Contract0, {type, Type}, Options) of
{ok, CallName, Code} ->
#{ unfolded_typed_ast := TypedAst
, type_env := TypeEnv} = Code,
{ok, _, Type0} = get_decode_type(CallName, TypedAst),
Type1 = aeso_ast_infer_types:unfold_types_in_type(TypeEnv, Type0, [unfold_record_types, unfold_variant_types]),
fate_data_to_sophia_value(Type0, Type1, FateValue);
Err = {error, _} ->
Err
end.
{def, _FName, Args} = Body,
%% FName is either {entrypoint, list_to_binary(FunName)} or 'init'
[ aeso_fcode_to_fate:term_to_fate(A) || A <- Args ].
first_none_match(_CallName, _Hashes, []) ->
error(unable_to_find_unique_call_name);
@@ -245,31 +222,14 @@ first_none_match(CallName, Hashes, [Char|Chars]) ->
end.
%% Add the __call function to a contract.
-spec insert_call_function(aeso_syntax:ast(), string(), string(),
{call, string(), [string()]} | {value, string(), string()} | {type, string()}) -> string().
insert_call_function(Ast, Code, Call, {call, FunName, Args}) ->
-spec insert_call_function(aeso_syntax:ast(), string(), string(), string(), [string()]) -> string().
insert_call_function(Ast, Code, Call, FunName, Args) ->
Ind = last_contract_indent(Ast),
lists:flatten(
[ Code,
"\n\n",
lists:duplicate(Ind, " "),
"stateful entrypoint ", Call, "() = ", FunName, "(", string:join(Args, ","), ")\n"
]);
insert_call_function(Ast, Code, Call, {value, Type, Value}) ->
Ind = last_contract_indent(Ast),
lists:flatten(
[ Code,
"\n\n",
lists:duplicate(Ind, " "),
"entrypoint ", Call, "() : ", Type, " = ", Value, "\n"
]);
insert_call_function(Ast, Code, Call, {type, Type}) ->
Ind = last_contract_indent(Ast),
lists:flatten(
[ Code,
"\n\n",
lists:duplicate(Ind, " "),
"entrypoint ", Call, "(val : ", Type, ") = val\n"
]).
-spec insert_init_function(string(), options()) -> string().
@@ -312,23 +272,20 @@ to_sophia_value(ContractString, FunName, ok, Data, Options0) ->
{ok, _, Type0} = get_decode_type(FunName, TypedAst),
Type = aeso_ast_infer_types:unfold_types_in_type(TypeEnv, Type0, [unfold_record_types, unfold_variant_types]),
fate_data_to_sophia_value(Type0, Type, Data)
catch
throw:{error, Errors} -> {error, Errors}
end.
fate_data_to_sophia_value(Type, UnfoldedType, FateData) ->
try
{ok, aeso_vm_decode:from_fate(UnfoldedType, aeb_fate_encoding:deserialize(FateData))}
{ok, aeso_vm_decode:from_fate(Type, aeb_fate_encoding:deserialize(Data))}
catch throw:cannot_translate_to_sophia ->
Type1 = prettypr:format(aeso_pretty:type(Type)),
Type1 = prettypr:format(aeso_pretty:type(Type0)),
Msg = io_lib:format("Cannot translate FATE value ~p\n of Sophia type ~s",
[aeb_fate_encoding:deserialize(FateData), Type1]),
[aeb_fate_encoding:deserialize(Data), Type1]),
{error, [aeso_errors:new(data_error, Msg)]};
_:_ ->
Type1 = prettypr:format(aeso_pretty:type(Type)),
Type1 = prettypr:format(aeso_pretty:type(Type0)),
Msg = io_lib:format("Failed to decode binary as type ~s", [Type1]),
{error, [aeso_errors:new(data_error, Msg)]}
end
catch
throw:{error, Errors} -> {error, Errors}
end.
-spec create_calldata(string(), string(), [string()]) ->
@@ -406,21 +363,22 @@ get_decode_type(FunName, [_ | Contracts]) ->
%% The __decode should be in the final contract
get_decode_type(FunName, Contracts).
pp_sophia_code(C, Opts)-> pp(C, Opts, pp_sophia_code, fun(Code) ->
io:format("~s\n", [prettypr:format(aeso_pretty:decls(Code))])
end).
pp_ast(C, Opts) -> pp(C, Opts, pp_ast, fun aeso_ast:pp/1).
pp_typed_ast(C, Opts)-> pp(C, Opts, pp_typed_ast, fun aeso_ast:pp_typed/1).
pp_ast(C, Opts) ->
[ io:format("AST:\n~s\n",
[prettypr:format(aeso_pretty:decls(Ast, []))])
|| true <- proplists:get_value(pp_ast, Opts)
].
pp_assembler(C, Opts) -> pp(C, Opts, pp_assembler, fun(Asm) -> io:format("~s", [aeb_fate_asm:pp(Asm)]) end).
pp_typed_ast(C, Opts) ->
[ io:format("Typed AST:\n~s\n",
[prettypr:format(aeso_pretty:decls(Ast, [show_generated]))])
|| true <- proplists:get_value(pp_typed_ast, Opts)
].
pp(Code, Options, Option, PPFun) ->
case proplists:lookup(Option, Options) of
{Option1, true} when Option1 =:= Option ->
PPFun(Code);
none ->
ok
end.
pp_fate(C, Opts) ->
[ io:format("FATE:\n~s\n", [aeb_fate_asm:pp(Asm)])
|| true <- proplists:get_value(pp_fate, Opts)
].
%% -- Byte code validation ---------------------------------------------------
src/aeso_fcode_to_fate.erl
+101 -182
View File
@@ -52,8 +52,7 @@
tailpos = true,
child_contracts = #{},
saved_fresh_names = #{},
options = [],
debug_info = false }).
options = [] }).
%% -- Debugging --------------------------------------------------------------
@@ -82,16 +81,24 @@ code_error(Err) ->
compile(FCode, SavedFreshNames, Options) ->
compile(#{}, FCode, SavedFreshNames, Options).
compile(ChildContracts, FCode, SavedFreshNames, Options) ->
try
compile1(ChildContracts, FCode, SavedFreshNames, Options)
after
put(variables_registers, undefined)
end.
compile1(ChildContracts, FCode, SavedFreshNames, Options) ->
#{ contract_name := ContractName,
functions := Functions } = FCode,
SFuns = functions_to_scode(ChildContracts, ContractName, Functions, SavedFreshNames, Options),
SFuns1 = optimize_scode(SFuns, Options),
FateCode = to_basic_blocks(SFuns1),
?debug(compile, Options, "~s\n", [aeb_fate_asm:pp(FateCode)]),
case proplists:get_value(include_child_contract_symbols, Options, false) of
FateCode1 = case proplists:get_value(include_child_contract_symbols, Options, false) of
false -> FateCode;
true -> add_child_symbols(ChildContracts, FateCode)
end.
end,
{FateCode1, get_variables_registers()}.
make_function_id(X) ->
aeb_fate_code:symbol_identifier(make_function_name(X)).
@@ -116,15 +123,31 @@ functions_to_scode(ChildContracts, ContractName, Functions, SavedFreshNames, Opt
function_to_scode(ChildContracts, ContractName, Functions, Name, Attrs0, Args, Body, ResType, SavedFreshNames, Options) ->
{ArgTypes, ResType1} = typesig_to_scode(Args, ResType),
Attrs = [ A || A <- Attrs0, A == private orelse A == payable ],
Attrs = Attrs0 -- [stateful], %% Only track private and payable from here.
Env = init_env(ChildContracts, ContractName, Functions, Name, Args, SavedFreshNames, Options),
ArgsNames = [ X || {X, _} <- lists:reverse(Env#env.vars) ],
%% DBG_LOC is added before the function body to make it possible to break
%% at the function signature
[ add_variables_register(Env, Arg, Register) ||
proplists:get_value(debug_info, Options, false),
{Arg, Register} <- Env#env.vars ],
SCode = to_scode(Env, Body),
DbgSCode = dbg_contract(Env) ++ dbg_loc(Env, Attrs0) ++ dbg_scoped_vars(Env, ArgsNames, SCode),
{Attrs, {ArgTypes, ResType1}, DbgSCode}.
{Attrs, {ArgTypes, ResType1}, SCode}.
get_variables_registers() ->
case get(variables_registers) of
undefined -> #{};
Vs -> Vs
end.
add_variables_register(Env = #env{saved_fresh_names = SavedFreshNames}, Name, Register) ->
Olds = get_variables_registers(),
RealName = maps:get(Name, SavedFreshNames, Name),
FunName =
case Env#env.current_function of
event -> "Chain.event";
{entrypoint, BinName} -> binary_to_list(BinName);
{local_fun, QualName} -> lists:last(QualName)
end,
New = {Env#env.contract, FunName, RealName},
put(variables_registers, Olds#{New => Register}).
-define(tvars, '$tvars').
@@ -178,13 +201,13 @@ init_env(ChildContracts, ContractName, FunNames, Name, Args, SavedFreshNames, Op
current_function = Name,
options = Options,
tailpos = true,
saved_fresh_names = SavedFreshNames,
debug_info = proplists:get_value(debug_info, Options, false) }.
saved_fresh_names = SavedFreshNames }.
next_var(#env{ vars = Vars }) ->
1 + lists:max([-1 | [J || {_, {var, J}} <- Vars]]).
bind_var(Name, Var, Env = #env{ vars = Vars }) ->
proplists:get_value(debug_info, Env#env.options, false) andalso add_variables_register(Env, Name, Var),
Env#env{ vars = [{Name, Var} | Vars] }.
bind_local(Name, Env) ->
@@ -211,7 +234,7 @@ serialize_contract_code(Env, C) ->
Options = Env#env.options,
SavedFreshNames = Env#env.saved_fresh_names,
FCode = maps:get(C, Env#env.child_contracts),
FateCode = compile(Env#env.child_contracts, FCode, SavedFreshNames, Options),
{FateCode, _} = compile1(Env#env.child_contracts, FCode, SavedFreshNames, Options),
ByteCode = aeb_fate_code:serialize(FateCode, []),
{ok, Version} = aeso_compiler:version(),
OriginalSourceCode = proplists:get_value(original_src, Options, ""),
@@ -245,44 +268,44 @@ lit_to_fate(Env, L) ->
term_to_fate(E) -> term_to_fate(#env{}, #{}, E).
term_to_fate(GlobEnv, E) -> term_to_fate(GlobEnv, #{}, E).
term_to_fate(GlobEnv, _Env, {lit, _, L}) ->
term_to_fate(GlobEnv, _Env, {lit, L}) ->
lit_to_fate(GlobEnv, L);
%% negative literals are parsed as 0 - N
term_to_fate(_GlobEnv, _Env, {op, _, '-', [{lit, _, {int, 0}}, {lit, _, {int, N}}]}) ->
term_to_fate(_GlobEnv, _Env, {op, '-', [{lit, {int, 0}}, {lit, {int, N}}]}) ->
aeb_fate_data:make_integer(-N);
term_to_fate(_GlobEnv, _Env, {nil, _}) ->
term_to_fate(_GlobEnv, _Env, nil) ->
aeb_fate_data:make_list([]);
term_to_fate(GlobEnv, Env, {op, _, '::', [Hd, Tl]}) ->
term_to_fate(GlobEnv, Env, {op, '::', [Hd, Tl]}) ->
%% The Tl will translate into a list, because FATE lists are just lists
[term_to_fate(GlobEnv, Env, Hd) | term_to_fate(GlobEnv, Env, Tl)];
term_to_fate(GlobEnv, Env, {tuple, _, As}) ->
term_to_fate(GlobEnv, Env, {tuple, As}) ->
aeb_fate_data:make_tuple(list_to_tuple([ term_to_fate(GlobEnv, Env, A) || A<-As]));
term_to_fate(GlobEnv, Env, {con, _, Ar, I, As}) ->
term_to_fate(GlobEnv, Env, {con, Ar, I, As}) ->
FateAs = [ term_to_fate(GlobEnv, Env, A) || A <- As ],
aeb_fate_data:make_variant(Ar, I, list_to_tuple(FateAs));
term_to_fate(_GlobEnv, _Env, {builtin, _, bits_all, []}) ->
term_to_fate(_GlobEnv, _Env, {builtin, bits_all, []}) ->
aeb_fate_data:make_bits(-1);
term_to_fate(_GlobEnv, _Env, {builtin, _, bits_none, []}) ->
term_to_fate(_GlobEnv, _Env, {builtin, bits_none, []}) ->
aeb_fate_data:make_bits(0);
term_to_fate(GlobEnv, _Env, {op, _, bits_set, [B, I]}) ->
term_to_fate(GlobEnv, _Env, {op, bits_set, [B, I]}) ->
{bits, N} = term_to_fate(GlobEnv, B),
J = term_to_fate(GlobEnv, I),
{bits, N bor (1 bsl J)};
term_to_fate(GlobEnv, _Env, {op, _, bits_clear, [B, I]}) ->
term_to_fate(GlobEnv, _Env, {op, bits_clear, [B, I]}) ->
{bits, N} = term_to_fate(GlobEnv, B),
J = term_to_fate(GlobEnv, I),
{bits, N band bnot (1 bsl J)};
term_to_fate(GlobEnv, Env, {'let', _, X, E, Body}) ->
term_to_fate(GlobEnv, Env, {'let', X, E, Body}) ->
Env1 = Env#{ X => term_to_fate(GlobEnv, Env, E) },
term_to_fate(GlobEnv, Env1, Body);
term_to_fate(_GlobEnv, Env, {var, _, X}) ->
term_to_fate(_GlobEnv, Env, {var, X}) ->
case maps:get(X, Env, undefined) of
undefined -> throw(not_a_fate_value);
V -> V
end;
term_to_fate(_GlobEnv, _Env, {builtin, _, map_empty, []}) ->
term_to_fate(_GlobEnv, _Env, {builtin, map_empty, []}) ->
aeb_fate_data:make_map(#{});
term_to_fate(GlobEnv, Env, {op, _, map_set, [M, K, V]}) ->
term_to_fate(GlobEnv, Env, {op, map_set, [M, K, V]}) ->
Map = term_to_fate(GlobEnv, Env, M),
Map#{term_to_fate(GlobEnv, Env, K) => term_to_fate(GlobEnv, Env, V)};
term_to_fate(_GlobEnv, _Env, _) ->
@@ -290,59 +313,52 @@ term_to_fate(_GlobEnv, _Env, _) ->
to_scode(Env, T) ->
try term_to_fate(Env, T) of
V ->
FAnn = element(2, T),
[dbg_loc(Env, FAnn), push(?i(V))]
V -> [push(?i(V))]
catch throw:not_a_fate_value ->
to_scode1(Env, T)
end.
to_scode1(Env, {lit, Ann, L}) ->
[ dbg_loc(Env, Ann), push(?i(lit_to_fate(Env, L))) ];
to_scode1(Env, {lit, L}) ->
[push(?i(lit_to_fate(Env, L)))];
to_scode1(Env, {nil, Ann}) ->
[ dbg_loc(Env, Ann), aeb_fate_ops:nil(?a) ];
to_scode1(_Env, nil) ->
[aeb_fate_ops:nil(?a)];
to_scode1(Env, {var, Ann, X}) ->
[ dbg_loc(Env, Ann), push(lookup_var(Env, X)) ];
to_scode1(Env, {var, X}) ->
[push(lookup_var(Env, X))];
to_scode1(Env, {con, Ann, Ar, I, As}) ->
to_scode1(Env, {con, Ar, I, As}) ->
N = length(As),
[ dbg_loc(Env, Ann),
[to_scode(notail(Env), A) || A <- As],
[[to_scode(notail(Env), A) || A <- As],
aeb_fate_ops:variant(?a, ?i(Ar), ?i(I), ?i(N))];
to_scode1(Env, {tuple, Ann, As}) ->
to_scode1(Env, {tuple, As}) ->
N = length(As),
[ dbg_loc(Env, Ann),
[ to_scode(notail(Env), A) || A <- As ],
[[ to_scode(notail(Env), A) || A <- As ],
tuple(N)];
to_scode1(Env, {proj, Ann, E, I}) ->
[ dbg_loc(Env, Ann),
to_scode(notail(Env), E),
to_scode1(Env, {proj, E, I}) ->
[to_scode(notail(Env), E),
aeb_fate_ops:element_op(?a, ?i(I), ?a)];
to_scode1(Env, {set_proj, Ann, R, I, E}) ->
[ dbg_loc(Env, Ann),
to_scode(notail(Env), E),
to_scode1(Env, {set_proj, R, I, E}) ->
[to_scode(notail(Env), E),
to_scode(notail(Env), R),
aeb_fate_ops:setelement(?a, ?i(I), ?a, ?a)];
to_scode1(Env, {op, Ann, Op, Args}) ->
[ dbg_loc(Env, Ann) | call_to_scode(Env, op_to_scode(Op), Args) ];
to_scode1(Env, {op, Op, Args}) ->
call_to_scode(Env, op_to_scode(Op), Args);
to_scode1(Env, {'let', Ann, X, {var, _, Y}, Body}) ->
to_scode1(Env, {'let', X, {var, Y}, Body}) ->
Env1 = bind_var(X, lookup_var(Env, Y), Env),
[ dbg_loc(Env, Ann) | dbg_scoped_vars(Env1, [X], to_scode(Env1, Body)) ];
to_scode1(Env, {'let', Ann, X, Expr, Body}) ->
to_scode(Env1, Body);
to_scode1(Env, {'let', X, Expr, Body}) ->
{I, Env1} = bind_local(X, Env),
SCode = [ to_scode(notail(Env), Expr),
[ to_scode(notail(Env), Expr),
aeb_fate_ops:store({var, I}, {stack, 0}),
to_scode(Env1, Body) ],
[ dbg_loc(Env, Ann) | dbg_scoped_vars(Env1, [X], SCode) ];
to_scode(Env1, Body) ];
to_scode1(Env = #env{ current_function = Fun, tailpos = true, debug_info = false }, {def, Ann, Fun, Args}) ->
to_scode1(Env = #env{ current_function = Fun, tailpos = true }, {def, Fun, Args}) ->
%% Tail-call to current function, f(e0..en). Compile to
%% [ let xi = ei ]
%% [ STORE argi xi ]
@@ -355,62 +371,61 @@ to_scode1(Env = #env{ current_function = Fun, tailpos = true, debug_info = false
aeb_fate_ops:store({var, I}, ?a)],
{[I | Is], Acc1, Env2}
end, {[], [], Env}, Args),
[ dbg_loc(Env, Ann),
Code,
[ Code,
[ aeb_fate_ops:store({arg, I}, {var, J})
|| {I, J} <- lists:zip(lists:seq(0, length(Vars) - 1),
lists:reverse(Vars)) ],
loop ];
to_scode1(Env, {def, Ann, Fun, Args}) ->
to_scode1(Env, {def, Fun, Args}) ->
FName = make_function_id(Fun),
Lbl = aeb_fate_data:make_string(FName),
[ dbg_loc(Env, Ann) | call_to_scode(Env, local_call(Env, ?i(Lbl)), Args) ];
to_scode1(Env, {funcall, Ann, Fun, Args}) ->
[ dbg_loc(Env, Ann) | call_to_scode(Env, [to_scode(Env, Fun), local_call(Env, ?a)], Args) ];
call_to_scode(Env, local_call(Env, ?i(Lbl)), Args);
to_scode1(Env, {funcall, Fun, Args}) ->
call_to_scode(Env, [to_scode(Env, Fun), local_call(Env, ?a)], Args);
to_scode1(Env, {builtin, Ann, B, Args}) ->
[ dbg_loc(Env, Ann) | builtin_to_scode(Env, B, Args) ];
to_scode1(Env, {builtin, B, Args}) ->
builtin_to_scode(Env, B, Args);
to_scode1(Env, {remote, Ann, ArgsT, RetT, Ct, Fun, [Gas, Value, Protected | Args]}) ->
to_scode1(Env, {remote, ArgsT, RetT, Ct, Fun, [Gas, Value, Protected | Args]}) ->
Lbl = make_function_id(Fun),
{ArgTypes, RetType0} = typesig_to_scode([{"_", T} || T <- ArgsT], RetT),
ArgType = ?i(aeb_fate_data:make_typerep({tuple, ArgTypes})),
RetType = ?i(aeb_fate_data:make_typerep(RetType0)),
SCode = case Protected of
{lit, _, {bool, false}} ->
case Protected of
{lit, {bool, false}} ->
case Gas of
{builtin, _, call_gas_left, _} ->
{builtin, call_gas_left, _} ->
Call = aeb_fate_ops:call_r(?a, Lbl, ArgType, RetType, ?a),
call_to_scode(Env, Call, [Ct, Value | Args]);
_ ->
Call = aeb_fate_ops:call_gr(?a, Lbl, ArgType, RetType, ?a, ?a),
call_to_scode(Env, Call, [Ct, Value, Gas | Args])
end;
{lit, _, {bool, true}} ->
{lit, {bool, true}} ->
Call = aeb_fate_ops:call_pgr(?a, Lbl, ArgType, RetType, ?a, ?a, ?i(true)),
call_to_scode(Env, Call, [Ct, Value, Gas | Args]);
_ ->
Call = aeb_fate_ops:call_pgr(?a, Lbl, ArgType, RetType, ?a, ?a, ?a),
call_to_scode(Env, Call, [Ct, Value, Gas, Protected | Args])
end,
[ dbg_loc(Env, Ann) | SCode ];
end;
to_scode1(Env, {get_state, Ann, Reg}) ->
[ dbg_loc(Env, Ann), push(?s(Reg)) ];
to_scode1(Env, {set_state, Ann, Reg, Val}) ->
[ dbg_loc(Env, Ann) | call_to_scode(Env, [{'STORE', ?s(Reg), ?a}, tuple(0)], [Val]) ];
to_scode1(_Env, {get_state, Reg}) ->
[push(?s(Reg))];
to_scode1(Env, {set_state, Reg, Val}) ->
call_to_scode(Env, [{'STORE', ?s(Reg), ?a},
tuple(0)], [Val]);
to_scode1(Env, {closure, Ann, Fun, FVs}) ->
[ to_scode(Env, {tuple, Ann, [{lit, Ann, {string, make_function_id(Fun)}}, FVs]}) ];
to_scode1(Env, {closure, Fun, FVs}) ->
to_scode(Env, {tuple, [{lit, {string, make_function_id(Fun)}}, FVs]});
to_scode1(Env, {switch, Ann, Case}) ->
[ dbg_loc(Env, Ann) | split_to_scode(Env, Case) ].
to_scode1(Env, {switch, Case}) ->
split_to_scode(Env, Case).
local_call( Env = #env{debug_info = false}, Fun) when Env#env.tailpos -> aeb_fate_ops:call_t(Fun);
local_call( Env, Fun) when Env#env.tailpos -> aeb_fate_ops:call_t(Fun);
local_call(_Env, Fun) -> aeb_fate_ops:call(Fun).
split_to_scode(Env, {nosplit, Renames, Expr}) ->
[switch_body, dbg_scoped_vars(Env, Renames, to_scode(Env, Expr))];
split_to_scode(Env, {nosplit, Expr}) ->
[switch_body, to_scode(Env, Expr)];
split_to_scode(Env, {split, {tuple, _}, X, Alts}) ->
{Def, Alts1} = catchall_to_scode(Env, X, Alts),
Arg = lookup_var(Env, X),
@@ -634,7 +649,7 @@ builtin_to_scode(Env, chain_bytecode_hash, [_Addr] = Args) ->
builtin_to_scode(Env, chain_clone,
[InitArgsT, GasCap, Value, Prot, Contract | InitArgs]) ->
case GasCap of
{builtin, _, call_gas_left, _} ->
{builtin, call_gas_left, _} ->
call_to_scode(Env, aeb_fate_ops:clone(?a, ?a, ?a, ?a),
[Contract, InitArgsT, Value, Prot | InitArgs]
);
@@ -736,77 +751,6 @@ push(A) -> {'STORE', ?a, A}.
tuple(0) -> push(?i({tuple, {}}));
tuple(N) -> aeb_fate_ops:tuple(?a, N).
%% -- Debug info functions --
dbg_contract(#env{debug_info = false}) ->
[];
dbg_contract(#env{contract = Contract}) ->
[{'DBG_CONTRACT', {immediate, Contract}}].
dbg_loc(#env{debug_info = false}, _) ->
[];
dbg_loc(_Env, Ann) ->
File = case proplists:get_value(file, Ann, no_file) of
no_file -> "";
F -> F
end,
Line = proplists:get_value(line, Ann, undefined),
case Line of
undefined -> [];
_ -> [{'DBG_LOC', {immediate, File}, {immediate, Line}}]
end.
dbg_scoped_vars(#env{debug_info = false}, _, SCode) ->
SCode;
dbg_scoped_vars(_Env, [], SCode) ->
SCode;
dbg_scoped_vars(Env, [{SavedVarName, Var} | Rest], SCode) ->
dbg_scoped_vars(Env, Rest, dbg_scoped_var(Env, SavedVarName, Var, SCode));
dbg_scoped_vars(Env = #env{saved_fresh_names = SavedFreshNames}, [Var | Rest], SCode) ->
SavedVarName = maps:get(Var, SavedFreshNames, Var),
dbg_scoped_vars(Env, Rest, dbg_scoped_var(Env, SavedVarName, Var, SCode)).
dbg_scoped_var(Env, SavedVarName, Var, SCode) ->
case SavedVarName == "_" orelse is_fresh_name(SavedVarName) of
true ->
SCode;
false ->
Register = lookup_var(Env, Var),
Def = [{'DBG_DEF', {immediate, SavedVarName}, Register}],
Undef = [{'DBG_UNDEF', {immediate, SavedVarName}, Register}],
Def ++ dbg_undef(Undef, SCode)
end.
is_fresh_name([$% | _]) ->
true;
is_fresh_name(_) ->
false.
dbg_undef(_Undef, missing) ->
missing;
dbg_undef(Undef, loop) ->
[Undef, loop];
dbg_undef(Undef, switch_body) ->
[switch_body, Undef];
dbg_undef(Undef, {switch, Arg, Type, Alts, Catch}) ->
NewAlts = [ dbg_undef(Undef, Alt) || Alt <- Alts ],
NewCatch = dbg_undef(Undef, Catch),
NewSwitch = {switch, Arg, Type, NewAlts, NewCatch},
NewSwitch;
dbg_undef(Undef, SCode) when is_list(SCode) ->
lists:droplast(SCode) ++ [dbg_undef(Undef, lists:last(SCode))];
dbg_undef(Undef, SCode) when is_tuple(SCode); is_atom(SCode) ->
[Mnemonic | _] =
case is_tuple(SCode) of
true -> tuple_to_list(SCode);
false -> [SCode]
end,
Op = aeb_fate_opcodes:m_to_op(Mnemonic),
case aeb_fate_opcodes:end_bb(Op) of
true -> [Undef, SCode];
false -> [SCode, Undef]
end.
%% -- Phase II ---------------------------------------------------------------
%% Optimize
@@ -942,10 +886,6 @@ attributes(I) ->
loop -> Impure(pc, []);
switch_body -> Pure(none, []);
'RETURN' -> Impure(pc, []);
{'DBG_LOC', _, _} -> Impure(none, []);
{'DBG_DEF', _, _} -> Impure(none, []);
{'DBG_UNDEF', _, _} -> Impure(none, []);
{'DBG_CONTRACT', _} -> Impure(none, []);
{'RETURNR', A} -> Impure(pc, A);
{'CALL', A} -> Impure(?a, [A]);
{'CALL_R', A, _, B, C, D} -> Impure(?a, [A, B, C, D]);
@@ -1141,15 +1081,10 @@ independent({i, _, I}, {i, _, J}) ->
StackI = lists:member(?a, [WI | RI]),
StackJ = lists:member(?a, [WJ | RJ]),
ReadStoreI = [] /= [ x || {store, _} <- RI ],
ReadStoreJ = [] /= [ x || {store, _} <- RJ ],
if WI == pc; WJ == pc -> false; %% no jumps
not (PureI or PureJ) -> false; %% at least one is pure
StackI and StackJ -> false; %% cannot both use the stack
WI == WJ -> false; %% cannot write to the same register
ReadStoreI and not PureJ -> false; %% can't read store/state if other is impure
ReadStoreJ and not PureI -> false; %% can't read store/state if other is impure
true ->
%% and cannot write to each other's inputs
not lists:member(WI, RJ) andalso
@@ -1670,23 +1605,7 @@ bb(_Name, Code) ->
Blocks = lists:flatmap(fun split_calls/1, Blocks1),
Labels = maps:from_list([ {Ref, I} || {I, {Ref, _}} <- with_ixs(Blocks) ]),
BBs = [ set_labels(Labels, B) || B <- Blocks ],
maps:from_list(dbg_loc_filter(BBs)).
%% Filter DBG_LOC instructions to keep one instruction per line
dbg_loc_filter(BBs) ->
dbg_loc_filter(BBs, [], [], sets:new()).
dbg_loc_filter([], _, AllBlocks, _) ->
lists:reverse(AllBlocks);
dbg_loc_filter([{I, []} | Rest], AllOps, AllBlocks, DbgLocs) ->
dbg_loc_filter(Rest, [], [{I, lists:reverse(AllOps)} | AllBlocks], DbgLocs);
dbg_loc_filter([{I, [Op = {'DBG_LOC', _, _} | Ops]} | Rest], AllOps, AllBlocks, DbgLocs) ->
case sets:is_element(Op, DbgLocs) of
true -> dbg_loc_filter([{I, Ops} | Rest], AllOps, AllBlocks, DbgLocs);
false -> dbg_loc_filter([{I, Ops} | Rest], [Op | AllOps], AllBlocks, sets:add_element(Op, DbgLocs))
end;
dbg_loc_filter([{I, [Op | Ops]} | Rest], AllOps, AllBlocks, DbgLocs) ->
dbg_loc_filter([{I, Ops} | Rest], [Op | AllOps], AllBlocks, DbgLocs).
maps:from_list(BBs).
%% -- Break up scode into basic blocks --
src/aeso_parser.erl
+19 -126
View File
@@ -8,22 +8,17 @@
-export([string/1,
string/2,
string/3,
auto_imports/1,
hash_include/2,
decl/0,
type/0,
body/0,
maybe_block/1,
run_parser/2,
run_parser/3]).
run_parser/2]).
-include("aeso_parse_lib.hrl").
-import(aeso_parse_lib, [current_file/0, set_current_file/1,
current_include_type/0, set_current_include_type/1]).
-type parse_result() :: aeso_syntax:ast() | {aeso_syntax:ast(), sets:set(include_hash())} | none().
-type include_hash() :: {string(), binary()}.
-type parse_result() :: aeso_syntax:ast() | none().
escape_errors({ok, Ok}) ->
@@ -31,32 +26,21 @@ escape_errors({ok, Ok}) ->
escape_errors({error, Err}) ->
parse_error(Err).
-spec string(string()) -> parse_result().
string(String) ->
string(String, sets:new(), []).
-spec module(string()) -> parse_result().
module(String) ->
module(String, []).
-spec string(string(), aeso_compiler:options()) -> parse_result().
string(String, Opts) ->
case lists:keyfind(src_file, 1, Opts) of
{src_file, File} -> string(String, sets:add_element(File, sets:new()), Opts);
false -> string(String, sets:new(), Opts)
end.
-spec string(string(), sets:set(include_hash()), aeso_compiler:options()) -> parse_result().
string(String, Included, Opts) ->
-spec module(string(), aeso_compiler:options()) -> parse_result().
module(String, Opts) ->
AST = run_parser(file(), String, Opts),
case expand_includes(AST, Included, Opts) of
{ok, AST1} -> AST1;
{error, Err} -> parse_error(Err)
end.
add_auto_imports(AST).
run_parser(P, Inp) ->
escape_errors(parse_and_scan(P, Inp, [])).
escape_errors(scan_and_parse(P, Inp, [])).
run_parser(P, Inp, Opts) ->
escape_errors(parse_and_scan(P, Inp, Opts)).
escape_errors(scan_and_parse(P, Inp, Opts)).
parse_and_scan(P, S, Opts) ->
scan_and_parse(P, S, Opts) ->
set_current_file(proplists:get_value(src_file, Opts, no_file)),
set_current_include_type(proplists:get_value(include_type, Opts, none)),
case aeso_scan:scan(S) of
@@ -560,6 +544,9 @@ pos_ann(Line, Col) ->
, {line, Line}
, {col, Col} ].
top_ann() ->
pos_ann(0, 0).
ann_pos(Ann) ->
{proplists:get_value(file, Ann),
proplists:get_value(line, Ann),
@@ -681,107 +668,13 @@ bad_expr_err(Reason, E) ->
%% -- Helper functions -------------------------------------------------------
expand_includes(AST, Included, Opts) ->
add_auto_imports(AST) ->
Ann = [{origin, system}],
AST1 = [ {include, Ann, {string, Ann, File}}
|| File <- lists:usort(auto_imports(AST)) ] ++ AST,
expand_includes(AST1, Included, [], Opts).
[ {using, Ann, {con, Ann, Import}}
|| Import <- lists:usort(auto_imports(AST)) ] ++ AST.
expand_includes([], Included, Acc, Opts) ->
case lists:member(keep_included, Opts) of
false ->
{ok, lists:reverse(Acc)};
true ->
{ok, {lists:reverse(Acc), Included}}
end;
expand_includes([{include, Ann, {string, _SAnn, File}} | AST], Included, Acc, Opts) ->
case get_include_code(File, Ann, Opts) of
{ok, Code} ->
Hashed = hash_include(File, Code),
case sets:is_element(Hashed, Included) of
false ->
SrcFile = proplists:get_value(src_file, Opts, no_file),
IncludeType = case proplists:get_value(file, Ann) of
SrcFile -> direct;
_ -> indirect
end,
Opts1 = lists:keystore(src_file, 1, Opts, {src_file, File}),
Opts2 = lists:keystore(include_type, 1, Opts1, {include_type, IncludeType}),
Included1 = sets:add_element(Hashed, Included),
case parse_and_scan(file(), Code, Opts2) of
{ok, AST1} ->
expand_includes(AST1 ++ AST, Included1, Acc, Opts);
Err = {error, _} ->
Err
end;
true ->
expand_includes(AST, Included, Acc, Opts)
end;
Err = {error, _} ->
Err
end;
expand_includes([E | AST], Included, Acc, Opts) ->
expand_includes(AST, Included, [E | Acc], Opts).
read_file(File, Opts) ->
case proplists:get_value(include, Opts, {explicit_files, #{}}) of
{file_system, Paths} ->
CandidateNames = [ filename:join(Dir, File) || Dir <- Paths ],
lists:foldr(fun(F, {error, _}) -> file:read_file(F);
(_F, OK) -> OK end, {error, not_found}, CandidateNames);
{explicit_files, Files} ->
case maps:get(binary_to_list(File), Files, not_found) of
not_found -> {error, not_found};
Src -> {ok, Src}
end;
escript ->
try
Escript = escript:script_name(),
{ok, Sections} = escript:extract(Escript, []),
Archive = proplists:get_value(archive, Sections),
FileName = binary_to_list(filename:join([aesophia, priv, stdlib, File])),
case zip:extract(Archive, [{file_list, [FileName]}, memory]) of
{ok, [{_, Src}]} -> {ok, Src};
_ -> {error, not_found}
end
catch _:_ ->
{error, not_found}
end
end.
stdlib_options() ->
StdLibDir = aeso_stdlib:stdlib_include_path(),
case filelib:is_dir(StdLibDir) of
true -> [{include, {file_system, [StdLibDir]}}];
false -> [{include, escript}]
end.
get_include_code(File, Ann, Opts) ->
case {read_file(File, Opts), read_file(File, stdlib_options())} of
{{ok, Bin}, {ok, _}} ->
case filename:basename(File) == File of
true -> { error
, fail( ann_pos(Ann)
, "Illegal redefinition of standard library " ++ binary_to_list(File))};
%% If a path is provided then the stdlib takes lower priority
false -> {ok, binary_to_list(Bin)}
end;
{_, {ok, Bin}} ->
{ok, binary_to_list(Bin)};
{{ok, Bin}, _} ->
{ok, binary_to_list(Bin)};
{_, _} ->
{error, {ann_pos(Ann), include_error, File}}
end.
-spec hash_include(string() | binary(), string()) -> include_hash().
hash_include(File, Code) when is_binary(File) ->
hash_include(binary_to_list(File), Code);
hash_include(File, Code) when is_list(File) ->
{filename:basename(File), crypto:hash(sha256, Code)}.
auto_imports({comprehension_bind, _, _}) -> [<<"ListInternal.aes">>];
auto_imports({'..', _}) -> [<<"ListInternal.aes">>];
auto_imports({comprehension_bind, _, _}) -> ["ListInternal"];
auto_imports({'..', _}) -> ["ListInternal"];
auto_imports(L) when is_list(L) ->
lists:flatmap(fun auto_imports/1, L);
auto_imports(T) when is_tuple(T) ->
src/aeso_pretty.erl
-1
View File
@@ -526,4 +526,3 @@ get_elifs(If = {'if', Ann, Cond, Then, Else}, Elifs) ->
_ -> {lists:reverse(Elifs), If}
end;
get_elifs(Else, Elifs) -> {lists:reverse(Elifs), {else, Else}}.
src/aeso_syntax.erl
+25 -14
View File
@@ -10,23 +10,23 @@
-export([get_ann/1, get_ann/2, get_ann/3, set_ann/2, qualify/2]).
-export_type([ann_file/0, ann_line/0, ann_col/0, ann_origin/0, ann_format/0, ann/0]).
-export_type([ann_line/0, ann_col/0, ann_origin/0, ann_format/0, ann/0]).
-export_type([name/0, id/0, con/0, qid/0, qcon/0, tvar/0, op/0]).
-export_type([bin_op/0, un_op/0]).
-export_type([decl/0, letbind/0, typedef/0, pragma/0, fundecl/0]).
-export_type([top_decl/0, decl/0, letbind/0, typedef/0, pragma/0, fundecl/0]).
-export_type([arg/0, field_t/0, constructor_t/0, named_arg_t/0]).
-export_type([type/0, constant/0, expr/0, arg_expr/0, field/1, stmt/0, alt/0, lvalue/0, elim/0, pat/0]).
-export_type([ast/0]).
-type ast() :: [decl()].
-type ast() :: [top_decl()].
-type ann_line() :: integer().
-type ann_col() :: integer().
-type ann_origin() :: system | user.
-type ann_format() :: '?:' | hex | infix | prefix | elif.
-type ann_file() :: string() | no_file.
-type ann() :: [ {file, ann_file()} | {line, ann_line()} | {col, ann_col()} | {format, ann_format()} | {origin, ann_origin()}
-type ann() :: [ {line, ann_line()} | {col, ann_col()} | {file, ann_file()}
| {format, ann_format()} | {origin, ann_origin()}
| stateful | private | payable | main | interface | entrypoint].
-type name() :: string().
@@ -39,20 +39,31 @@
-type namespace_alias() :: none | con().
-type namespace_parts() :: none | {for, [id()]} | {hiding, [id()]}.
-type decl() :: {contract_main, ann(), con(), [con()], [decl()]}
| {contract_child, ann(), con(), [con()], [decl()]}
| {contract_interface, ann(), con(), [con()], [decl()]}
| {namespace, ann(), con(), [decl()]}
| {include, ann(), {string, ann(), string()}}
| {pragma, ann(), pragma()}
% Can't be toplevel
-type scoped_decl()
:: {contract_decl, ann(), con()}
| {namespace_decl, ann(), con()}
| {type_decl, ann(), id(), [tvar()]} % Only for error msgs
| {type_def, ann(), id(), [tvar()], typedef()}
| {fun_clauses, ann(), id(), type(), [letfun() | fundecl()]}
| {block, ann(), [decl()]}
| {using, ann(), con(), namespace_alias(), namespace_parts()}
| {block, ann(), [scoped_decl()]}
| fundecl()
| letfun()
| letval(). % Only for error msgs
| letval() % Only for error msgs
| decl().
% Toplevel, can be nested
-type decl()
:: {contract_main, ann(), con(), [con()], [scoped_decl()]}
| {contract_child, ann(), con(), [con()], [scoped_decl()]}
| {contract_interface, ann(), con(), [con()], [scoped_decl()]}
| {namespace, ann(), con(), [scoped_decl()]}
| {using, ann(), con(), namespace_alias(), namespace_parts()}.
% Toplevel only
-type top_decl()
:: {pragma, ann(), pragma()}
| decl().
-type compiler_version() :: [non_neg_integer()].
src/aeso_syntax_utils.erl
+3 -4
View File
@@ -31,13 +31,11 @@
| aeso_syntax:field(aeso_syntax:expr())
| aeso_syntax:stmt().
fold(Alg = #alg{zero = Zero, plus = Plus, scoped = Scoped}, Fun, K, X) ->
ExprKind = if K == bind_expr -> bind_expr; true -> expr end,
TypeKind = if K == bind_type -> bind_type; true -> type end,
Sum = fun(Xs) -> lists:foldl(Plus, Zero, Xs) end,
Same = fun(A) -> fold(Alg, Fun, K, A) end,
Decl = fun(D) -> fold(Alg, Fun, decl, D) end,
Type = fun(T) -> fold(Alg, Fun, TypeKind, T) end,
Expr = fun(E) -> fold(Alg, Fun, ExprKind, E) end,
Type = fun(T) -> fold(Alg, Fun, type, T) end,
Expr = fun(E) -> fold(Alg, Fun, expr, E) end,
BindExpr = fun(P) -> fold(Alg, Fun, bind_expr, P) end,
BindType = fun(T) -> fold(Alg, Fun, bind_type, T) end,
Top = Fun(K, X),
@@ -157,3 +155,4 @@ used(D) ->
(_, _) -> #{}
end, decl, D)),
lists:filter(NotBound, Xs).
src/aesophia.app.src
+1 -1
View File
@@ -1,6 +1,6 @@
{application, aesophia,
[{description, "Compiler for Aeternity Sophia language"},
{vsn, "7.3.0"},
{vsn, "7.1.0"},
{registered, []},
{applications,
[kernel,
test/aeso_compiler_tests.erl
+11 -86
View File
@@ -222,7 +222,6 @@ compilable_contracts() ->
"unapplied_contract_call",
"unapplied_named_arg_builtin",
"resolve_field_constraint_by_arity",
"toplevel_constants",
"test" % Custom general-purpose test file. Keep it last on the list.
].
@@ -287,11 +286,7 @@ warnings() ->
<<?PosW(48, 5)
"Unused return value.">>,
<<?PosW(60, 5)
"The function `dec` is defined but never used.">>,
<<?PosW(73, 9)
"The definition of `const` shadows an older definition at line 70, column 3.">>,
<<?PosW(84, 7)
"The constant `c` is defined but never used.">>
"The function `dec` is defined but never used.">>
]).
failing_contracts() ->
@@ -663,6 +658,10 @@ failing_contracts() ->
[<<?Pos(5, 28)
"Invalid call to contract entrypoint `Foo.foo`.\n"
"It must be called as `c.foo` for some `c : Foo`.">>])
, ?TYPE_ERROR(toplevel_let,
[<<?Pos(2, 7)
"Toplevel \"let\" definitions are not supported. "
"Value `this_is_illegal` could be replaced by 0-argument function.">>])
, ?TYPE_ERROR(empty_typedecl,
[<<?Pos(2, 8)
"Empty type declarations are not supported. "
@@ -860,21 +859,17 @@ failing_contracts() ->
<<?Pos(48, 5)
"Unused return value.">>,
<<?Pos(60, 5)
"The function `dec` is defined but never used.">>,
<<?Pos(73, 9)
"The definition of `const` shadows an older definition at line 70, column 3.">>,
<<?Pos(84, 7)
"The constant `c` is defined but never used.">>
"The function `dec` is defined but never used.">>
])
, ?TYPE_ERROR(polymorphism_contract_interface_recursive,
[<<?Pos(1,24)
"Trying to implement or extend an undefined interface `Z`">>
])
, ?TYPE_ERROR(polymorphism_contract_interface_same_name_different_type,
[<<?Pos(5,5)
"Cannot unify `char` and `int`\n"
"when implementing the entrypoint `f` from the interface `I1`">>
])
[<<?Pos(9,5)
"Duplicate definitions of `f` at\n"
" - line 8, column 5\n"
" - line 9, column 5">>])
, ?TYPE_ERROR(polymorphism_contract_missing_implementation,
[<<?Pos(4,20)
"Unimplemented entrypoint `f` from the interface `I1` in the contract `I2`">>
@@ -1198,74 +1193,6 @@ failing_contracts() ->
<<?Pos(13,20)
"Found a hole of type `'a`">>
])
, ?TYPE_ERROR(toplevel_constants_contract_as_namespace,
[<<?Pos(5,13)
"Invalid use of the contract constant `G.const`.\n"
"Toplevel contract constants can only be used in the contracts where they are defined.">>,
<<?Pos(10,11)
"Record type `G` does not have field `const`">>,
<<?Pos(10,11)
"Unbound field const">>,
<<?Pos(11,11)
"Record type `G` does not have field `const`">>,
<<?Pos(11,11)
"Unbound field const">>
])
, ?TYPE_ERROR(toplevel_constants_cycles,
[<<?Pos(2,21)
"Unbound variable `selfcycle`">>,
<<?Pos(4,5)
"Mutual recursion detected between the constants\n"
" - `cycle1` at line 4, column 5\n"
" - `cycle2` at line 5, column 5\n"
" - `cycle3` at line 6, column 5">>
])
, ?TYPE_ERROR(toplevel_constants_in_interface,
[<<?Pos(2,10)
"The name of the compile-time constant cannot have pattern matching">>,
<<?Pos(3,5)
"Cannot define toplevel constants inside a contract interface">>,
<<?Pos(4,5)
"Cannot define toplevel constants inside a contract interface">>
])
, ?TYPE_ERROR(toplevel_constants_invalid_expr,
[<<?Pos(10,9)
"Invalid expression in the definition of the constant `c01`\n"
"You can only use the following expressions as constants: literals, lists, tuples, maps, and other constants">>,
<<?Pos(11,9)
"Invalid expression in the definition of the constant `c02`\n"
"You can only use the following expressions as constants: literals, lists, tuples, maps, and other constants">>,
<<?Pos(12,9)
"Invalid expression in the definition of the constant `c03`\n"
"You can only use the following expressions as constants: literals, lists, tuples, maps, and other constants">>,
<<?Pos(13,9)
"Invalid expression in the definition of the constant `c04`\n"
"You can only use the following expressions as constants: literals, lists, tuples, maps, and other constants">>,
<<?Pos(14,9)
"Invalid expression in the definition of the constant `c05`\n"
"You can only use the following expressions as constants: literals, lists, tuples, maps, and other constants">>,
<<?Pos(17,9)
"Invalid expression in the definition of the constant `c07`\n"
"You can only use the following expressions as constants: literals, lists, tuples, maps, and other constants">>,
<<?Pos(18,9)
"Invalid expression in the definition of the constant `c08`\n"
"You can only use the following expressions as constants: literals, lists, tuples, maps, and other constants">>,
<<?Pos(19,9)
"Invalid expression in the definition of the constant `c09`\n"
"You can only use the following expressions as constants: literals, lists, tuples, maps, and other constants">>,
<<?Pos(20,9)
"Invalid expression in the definition of the constant `c10`\n"
"You can only use the following expressions as constants: literals, lists, tuples, maps, and other constants">>,
<<?Pos(21,9)
"Invalid expression in the definition of the constant `c11`\n"
"You can only use the following expressions as constants: literals, lists, tuples, maps, and other constants">>
])
, ?TYPE_ERROR(toplevel_constants_invalid_id,
[<<?Pos(2,9)
"The name of the compile-time constant cannot have pattern matching">>,
<<?Pos(3,9)
"The name of the compile-time constant cannot have pattern matching">>
])
].
validation_test_() ->
@@ -1313,9 +1240,7 @@ validate(Contract1, Contract2) ->
true -> [debug_mode];
false -> []
end ++
[ {src_file, lists:concat([Contract2, ".aes"])}
, {include, {file_system, [aeso_test_utils:contract_path()]}}
]);
[{include, {file_system, [aeso_test_utils:contract_path()]}}]);
Error -> print_and_throw(Error)
end.
test/contracts/all_syntax.aes
-3
View File
@@ -6,7 +6,6 @@
namespace Ns =
datatype d('a) = D | S(int) | M('a, list('a), int)
private function fff() = 123
let const = 1
stateful entrypoint
f (1, x) = (_) => x
@@ -34,8 +33,6 @@ contract AllSyntax =
type state = shakespeare(int)
let cc = "str"
entrypoint init() = {
johann = 1000,
wolfgang = -10,
test/contracts/toplevel_constants.aes
-64
View File
@@ -1,64 +0,0 @@
namespace N0 =
let nsconst = 1
namespace N =
let nsconst = N0.nsconst
contract C =
datatype event = EventX(int, string)
record account = { name : string,
balance : int }
let c01 = 2425
let c02 = -5
let c03 = ak_2gx9MEFxKvY9vMG5YnqnXWv1hCsX7rgnfvBLJS4aQurustR1rt
let c04 = true
let c05 = Bits.none
let c06 = #fedcba9876543210
let c07 = "str"
let c08 = [1, 2, 3]
let c09 = [(true, 24), (false, 19), (false, -42)]
let c10 = (42, "Foo", true)
let c11 = { name = "str", balance = 100000000 }
let c12 = {["foo"] = 19, ["bar"] = 42}
let c13 = Some(42)
let c14 = 11 : int
let c15 = EventX(0, "Hello")
let c16 = #000102030405060708090a0b0c0d0e0f000102030405060708090a0b0c0d0e0f
let c17 = #000102030405060708090a0b0c0d0e0f000102030405060708090a0b0c0d0e0f000102030405060708090a0b0c0d0e0f000102030405060708090a0b0c0d0e0f
let c18 = RelativeTTL(50)
let c19 = ok_2YNyxd6TRJPNrTcEDCe9ra59SVUdp9FR9qWC5msKZWYD9bP9z5
let c20 = oq_2oRvyowJuJnEkxy58Ckkw77XfWJrmRgmGaLzhdqb67SKEL1gPY
let c21 = ct_Ez6MyeTMm17YnTnDdHTSrzMEBKmy7Uz2sXu347bTDPgVH2ifJ : C
let c22 = N.nsconst
let c23 = c01
let c24 = c11.name
let c25 : int = 1
entrypoint f01() = c01
entrypoint f02() = c02
entrypoint f03() = c03
entrypoint f04() = c04
entrypoint f05() = c05
entrypoint f06() = c06
entrypoint f07() = c07
entrypoint f08() = c08
entrypoint f09() = c09
entrypoint f10() = c10
entrypoint f11() = c11
entrypoint f12() = c12
entrypoint f13() = c13
entrypoint f14() = c14
entrypoint f15() = c15
entrypoint f16() = c16
entrypoint f17() = c17
entrypoint f18() = c18
entrypoint f19() = c19
entrypoint f20() = c20
entrypoint f21() = c21
entrypoint f22() = c22
entrypoint f23() = c23
entrypoint f24() = c24
entrypoint f25() = c25
entrypoint fqual() = C.c01
test/contracts/toplevel_constants_contract_as_namespace.aes
-11
View File
@@ -1,11 +0,0 @@
contract G =
let const = 1
main contract C =
let c = G.const
stateful entrypoint f() =
let g = Chain.create() : G
g.const
g.const()
test/contracts/toplevel_constants_cycles.aes
-6
View File
@@ -1,6 +0,0 @@
contract C =
let selfcycle = selfcycle
let cycle1 = cycle2
let cycle2 = cycle3
let cycle3 = cycle1
test/contracts/toplevel_constants_in_interface.aes
-7
View File
@@ -1,7 +0,0 @@
contract interface I =
let (x::y::_) = [1,2,3]
let c = 10
let d = 10
contract C =
entrypoint init() = ()
test/contracts/toplevel_constants_invalid_expr.aes
-21
View File
@@ -1,21 +0,0 @@
main contract C =
record account = { name : string,
balance : int }
let one = 1
let opt = Some(5)
let acc = { name = "str", balance = 100000 }
let mpp = {["foo"] = 19, ["bar"] = 42}
let c01 = [x | x <- [1,2,3,4,5]]
let c02 = [x + k | x <- [1,2,3,4,5], let k = x*x]
let c03 = [x + y | x <- [1,2,3,4,5], let k = x*x, if (k > 5), y <- [k, k+1, k+2]]
let c04 = if (one > 2) 3 else 4
let c05 = switch (opt)
Some(x) => x
None => 2
let c07 = acc{ balance = one }
let c08 = mpp["foo"]
let c09 = mpp["non" = 10]
let c10 = mpp{["foo"] = 20}
let c11 = (x) => x + 1
test/contracts/toplevel_constants_invalid_id.aes
-3
View File
@@ -1,3 +0,0 @@
contract C =
let x::_ = [1,2,3,4]
let y::(p = z::_) = [1,2,3,4]
test/contracts/toplevel_let.aes
+3
View File
@@ -0,0 +1,3 @@
contract C =
let this_is_illegal = 2/0
entrypoint this_is_legal() = 2/0
test/contracts/warnings.aes
-21
View File
@@ -65,24 +65,3 @@ contract Remote =
contract C =
payable stateful entrypoint
call_missing_con() : int = (ct_1111111111111111111111111111112JF6Dz72 : Remote).id(value = 1, 0)
namespace ShadowingConst =
let const = 1
function f() =
let const = 2
const
namespace UnusedConstNamespace =
// No warnings should be shown even though const is not used
let const = 1
contract UnusedConstContract =
// Only `c` should show a warning because it is never used in the contract
let a = 1
let b = 2
let c = 3
entrypoint f() =
// Both normal access and qualified access should prevent the unused const warning
a + UnusedConstContract.b