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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
...
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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

32 Commits
new_ceres ... ceres

Author SHA1 Message Date
Hans Svensson a8d708cae0 [Ceres] Raw pointers as bytes (#493) 
* DataPt should contain bytes() now that we have it

* Fix missing negation in docs
 2023-12-15 13:27:12 +01:00
Hans Svensson 8f508383e0 [Ceres] Allow arbitrary sized message in Crypto.verify_sig (#481) 
* Allow arbitrary sized msg in signature verification

* Move Address.to_bytes documentation to correct place
 2023-08-24 16:14:40 +02:00
Hans Svensson 8668fd053e [Ceres] Add Chain.network_id (#468) 
* Add Chain.network_id

* Bump aebytecode version
 2023-08-24 14:48:39 +02:00
Hans Svensson b7ba430d65 [Ceres]: Add arbitrary size byte arrays (#456) 
* Extend compiler to allow bytes()/bytes as type

* Add split_any, to_fixed_size, size, to_any_size, Int.to_bytes and String.to_bytes

* Add tests

* Use and and not andalso in unify, some things have side-effects

* Bump to aebytecode v3.3.0

* Changelog + update documentation

* fix wording in documentation
 2023-08-24 14:48:35 +02:00
Hans Svensson 6bc7813f70 [Ceres]: Document generic all names delegation signatures (#440) 2023-08-24 14:45:12 +02:00
Hans Svensson bc020cf0b7 [Ceres]: document changes to Auth.tx_hash (#439) 2023-08-24 14:45:12 +02:00
Hans Svensson 31f8f36eb5 [Ceres]: Introduce AENSv2 to add raw data pointers (#426) 
Remove unused variable in AENSCompat
 2023-08-24 14:45:12 +02:00
Hans Svensson 88a23621f3 [Ceres]: Add bitwise ops, Address.to_bytes and Crypto.poseidon 2023-08-24 14:45:12 +02:00
Hans Svensson 5ed5c11b00 Let CERES compiler be v8.0.0 tentatively 2023-08-24 14:45:09 +02:00
Hans Svensson 9b518150c3 Fix typo in CHANGELOG 2023-08-24 13:00:42 +02:00
Hans Svensson 67948513d5 Prepare v7.3.0 (#484) 2023-08-24 10:59:42 +02:00
Hans Svensson 08fa372c24 Improve independence analysis in code optimizer (#483) 
* Improve independence analysis

* Changelog updated
 2023-08-24 09:43:40 +02:00
Hans Svensson 3b0ca28c8e Improve constraint solving (#480) 
* Clean up constraint solving a bit

* Make unify always return true or false

* Remove unused unify_throws field from Env

* Better structure for constraint solving

* Fix formatting of if_branches error

* More cleanup
 2023-08-23 09:43:49 +02:00
Gaith Hallak 86d7b36ba7 Unify typesigs when implementing interface funs (#469) 2023-07-17 13:32:11 +03:00
Gaith Hallak 43c8328615 Prepare v7.2.1 release (#466) 2023-06-29 15:46:23 +04:00
Gaith Hallak c15d411660 Fix bugs caused by the addition of debugging symbols (#464) 
* Fix get_catchalls bug

* Fix for event datatype
 2023-06-28 18:43:41 +04:00
Gaith Hallak b902226c26 Prepare v7.2.0 release (#462) 2023-06-19 13:21:44 +03:00
Hans Svensson c1e8195fd8 Document Chain.spend and sort Chain functions (#460) 
* Document Chain.spend and sort Chain functions

* Too little coffee, re-adding gas-limit
 2023-06-19 11:49:03 +02:00
Hans Svensson d5ff9d4a2f fix AENS.update stdlib doc (#459) 2023-06-15 22:45:39 +02:00
Gaith Hallak c395849684 Introduce debugging symbols (#424) 
* Add fann type and to_fann fun

* Add fann() to funcall

* Add fann() to closure

* Add fann() to set_state

* Add fann() to remote_u

* Add fann() to remote

* Add fann() to proj

* Add fann() to set_proj

* Add fann() to def and def_u

* Add fann() to op

* Add fann() to let

* Add fann() to lam

* Add fann() to builtin_u

* Add missing functions specs

* Dead code removal

* Fix the spec for compute_state_layout

* Add fann() to var

* Add fann() to switch

* Add fann() to lit and get_state

* Add fann() to builtin

* Add fann() to con

* Add fann() to tuple

* Add fann() to nil

* Fix missing fann() in tuple fexpr()

* Add dbgloc instruction to fate

* Add instructions lines to the debugging result

* Fix compiler tests

* Fix calldata tests

* Rname Ann to FAnn when the type is fann()

* Add line to fann()

* Change attributes for DBGLOC instruction

* Add file to fann()

* Add file to aeso_syntax:ann()

* Fix dialyzer warning

* Remove fann() from fsplit_pat() and fpat()

* Fill out empty fann() when possible

* Save debug locations for child contracts

* Include DBGLOC instructions in the compiler output

* Return an empty string instead of no_file atom

* Wrap args of DBGLOC in immediate tuple

* Upgrade aebytecode ref in rebar.config

* Add DBG_DEF and DBG_UNDEF

* Do not DBG_DEF vars with % prefix

* Do not use DBG_DEF and DBG_UNDEF on args

* Fix dbg_undef for args

* Rename DBGLOC to DBG_LOC

* Remove column from DBG_LOC

* Add missing dbg_loc in to_scode1

* Keep a single DBG_LOC instruction per line

* Remove col from fann

* Add DBG_LOC op to step at function sig

* Remove the variable-register map from debug output

* Use get_value/3 to handle default

* Use lookup instead of lookup_all

* List only needed attributes

* Make debug ops impure

* Split complicated code and add comment

* Fix annotations

* Fix indenting

* Remove dbg_loc before closure

* Add dbg_loc in to_scode

* Add DBG_CALL and DBG_RETURN

* Separate the split at CALL_T and loop

* Revert "Separate the split at CALL_T and loop"

This reverts commit 4ea823a7ca798c756b20cee32f928f41092c4959.

* Revert "Add DBG_CALL and DBG_RETURN"

This reverts commit c406c6feb09b6a5bb859c38d634f08208c901e5a.

* Disable tail call optimization for better debug call stack

* Rename env.debug to env.debug_info

* Upgrade aebytecode: Add DBG_CONTRACT

* Add DBG_CONTRACT instruction

* Check if a var name is fresh in separate function

* Add DBG_CONTRACT and DBG_LOC before DBG_DEF

* Save fresh names of pattern variables

* Implement fsplit_pat_vars for assign

* Set fann for switches

* Revert "Save fresh names of pattern variables"

This reverts commit d2473f982996336131477df2b2115c04a55a62cb.

* Add DBG_DEF for switch pattern vars

* Fix the inability to pattern match constructors

* Upgrade aebytecode dep

* Upgrade aebytecode dep

* Update the lock file

* Add annotations to fexpr var

* Fix issues with pretty-printing of fexprs

* Use FAnn instead of get_fann(Body)

* Upgrade aebytecode version

* Fix pp_fpat

* Fix pattern matching on fpat

* Update rename when a new rename comes up

* Upgrade aebytecode

* Remove the getopt dep

* Fix calldata tests

* Remove file committed by mistake

* Remove location anns from contract call type
 2023-06-13 14:36:48 +03:00
Hans Svensson 7bac15949c Introduce encode/decode_value to compiler (#457) 2023-06-01 13:23:21 +02:00
Gaith Hallak 7b6eba5319 Introduce contract-level compile-time constants (#432) 
* Allow compile-time constants as toplevel declarations

* Remove the test that fails on toplevel consts

* Warn when shadowing a constant

* Allow records to be used as compile time constants

* Allow data constructors in compile-time constants

* Disable some warnings for toplevel constants

Since variables and functions cannot be used in the definition of
a compile time constants, the following warnings are not going to be
reported:

* Used/Unused variable
* Used/Unused function

* Do not reverse constants declarations

* Add tests for all valid expressions

* Add test for accessing const from namespace

* Revert "Do not reverse constants declarations"

This reverts commit c4647fadacd134866e4be9c2ab4b0d54870a35fd.

* Add test for assigining constant to a constant

* Show empty map or record error when assigning to const

* Report all invalid constant expressions before fail

* Allow accessing records fields in toplevel consts

* Undo a mistake

* Add test for warning on const shadowing

* Show error message when using pattern matching for consts

* Remove unused error

* Ban toplevel constants in contract interfaces

* Varibles rename

* Change the error message for invalid_const_id

* Make constants public in namespaces and private in contracts

* Add a warning about unused constants in contracts

* Use ban_when_const for function applications

* Test for qualified access of constants in functions

* Add failing tests

* Add test for the unused const warning

* Update CHANGELOG

* Update all_syntax test file

* Treat expr and type inside bound as bound

* Allow typed ids to be used for constants

* List valid exprs in the error message for invalid exprs

* Fix tests

* Update the docs about constants

* Update syntax docs

* Check validity of const exprs in a separate functions

* Call both resolve_const and resolve_fun from resolve_var
 2023-04-12 14:20:41 +03:00
Gaith Hallak 99bb3fe1fb Mark only included files as potentially unused (#442) 
* Mark only included files as potentially unused

* Update CHANGELOG

* Add test
 2023-03-21 13:55:18 +03:00
Hans Svensson 311bf49505 Prepare v7.1.0 release (#438) 2023-02-24 09:40:06 +01:00
Denis Davidyuk 0e3bcba07d Fix markup in sophia_features.md (#437) 2023-02-15 13:27:29 +03:00
Marco Walz 699d1f7ab8 fix: use latest pygments version to generate docs (#435) 2023-02-02 08:32:54 +01:00
Marco Walz 1a40a93157 chore(deps): mkdocs version update (#434) 2023-02-02 10:16:27 +03:00
Gaith Hallak c078119bc4 Add hole expression (#433) 
* Add hole expressions

* Fix the issue of unreported holes

* Add tests

* New line in the end of the test file

* Update CHANGELOG

* Add hole expression to the docs

* Do not treat hole as a special type

* Update docs

* Update docs/sophia_features.md

Co-authored-by: Radosław Rowicki <35342116+radrow@users.noreply.github.com>

Co-authored-by: Radosław Rowicki <35342116+radrow@users.noreply.github.com>
 2023-01-12 16:23:36 +03:00
Gaith Hallak 31fd8fe24f Hide warning when calling with non-0 value arg (#431) 
* Hide warning when calling with non-0 value arg

* Update the tests

* Update CHANGELOG
 2022-12-12 11:44:24 +03:00
Nikita Fuchs 9ad8e26e88 Add clarification for Chain.timestamp in the stdlib docs (#429) 2022-12-07 17:34:55 +03:00
Gaith Hallak 5adeb6c93e Ban using contracts as namespaces (#428) 
* Ban calling contracts functions as functions namespaces

* Ban using contracts as namespaces

* Add tests

* Update CHANGELOG

* Separate guards with a semicolon
 2022-11-23 12:03:24 +03:00
Gaith Hallak 256df25af4 Check contracts and entrypoints modifiers when implementing interfaces (#427) 
* Check contracts and entrypoints modifiers when implementing interfaces

* Fix existing tests

* Add passing tests

* Add failing tests

* Update docs

* Update CHANGELOG
 2022-11-17 11:40:57 +03:00
58 changed files with 2641 additions and 1322 deletions
Expand all files Collapse all files
.github/workflows/requirements.txt
+3 -3
View File
@@ -1,5 +1,5 @@
mkdocs==1.2.4
mkdocs==1.4.2
mkdocs-simple-hooks==0.1.5
mkdocs-material==7.3.6
mkdocs-material==9.0.9
mike==1.1.2
pygments==2.12.0
pygments==2.14.0
CHANGELOG.md
+64 -2
View File
@@ -4,8 +4,63 @@ All notable changes to this project will 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).
## [CERES 8.0.0]
### Added
- Bitwise operations for integers: `band`, `bor`, `bxor`, `bnot`, `<<` and `>>`.
- `Int.mulmod` - combined builtin operation for multiplication and modulus.
- `Crypto.poseidon` - a ZK/SNARK-friendly hash function (over the BLS12-381 scalar field).
- `Address.to_bytes` - convert an address to its binary representation (for hashing, etc.).
- Raw data pointers added to AENS. In short we have introduced a new namespace
`AENSv2`; they contain types similar to the old `AENS`; `AENS.name` and
`AENS.pointee`, where the latter now has a constructor `DataPt(string)`. All
AENS actions have been moved to `AENSv2`, and `AENSv2.lookup` and
`AENSv2.update` consume and produce the new types. The old `AENS` namespace
only contains the old datatypes, that can be used to interface existing
contracts. Standard library `AENSCompat` is added to convert between old and
new pointers.
- Introduce arbitrary sized binary arrays (type `bytes()`); adding `Bytes.split_any`,
`Bytes.to_fixed_size`, `Bytes.to_any_size`, `Bytes.size`, `String.to_bytes`,
and `Int.to_bytes`; and adjust `Bytes.concat` to allow both fixed and arbitrary
sized byte arrays.
- `Chain.network_id` - a function to get hold of the Chain's network id.
### Changed
- `Crypto.verify_sig` is changed to have `msg : bytes()`. I.e. the
signed data can be of any length (used to be limited to `bytes(32)`/`hash`).
### Removed
- `Bitwise.aes` standard library is removed - the builtin operations are superior.
## [Unreleased]
### Added
### Changed
### Removed
### Fixed
## [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.
### Fixed
- Warning about unused include when there is no include.
## [7.1.0]
### Added
- Options to enable/disable certain optimizations.
- The ability to call a different instance of the current contract
```
@@ -14,9 +69,12 @@ and this project adheres to [Semantic Versioning](https://semver.org/spec/v2.0.0
entrypoint f(c : Main) : int = c.spend(10)
```
- Return a mapping from variables to FATE registers in the compilation output.
- Hole expression.
### Changed
- Type definitions serialised to ACI as `typedefs` field instead of `type_defs` to increase compatibility.
### Removed
- Check contracts and entrypoints modifiers when implementing interfaces.
- Contracts can no longer be used as namespaces.
- Do not show unused stateful warning for functions that call other contracts with a non-zero value argument.
### Fixed
- Typechecker crashes if Chain.create or Chain.clone are used without arguments.
@@ -371,7 +429,11 @@ 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/v7.0.1...HEAD
[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
[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
[6.1.0]: https://github.com/aeternity/aesophia/compare/v6.0.2...v6.1.0
docs/aeso_compiler.md
-2
View File
@@ -53,8 +53,6 @@ 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
+62 -4
View File
@@ -191,6 +191,17 @@ contract interface X : Z =
entrypoint z() = 1
```
#### Adding or removing modifiers
When a `contract` or a `contract interface` implements another `contract interface`, the `payable` and `stateful` modifiers can be kept or changed, both in the contract and in the entrypoints, according to the following rules:
1. A `payable` contract or interface can implement a `payable` interface or a non-`payable` interface.
2. A non-`payable` contract or interface can only implement a non-`payable` interface, and cannot implement a `payable` interface.
3. A `payable` entrypoint can implement a `payable` entrypoint or a non-`payable` entrypoint.
4. A non-`payable` entrypoint can only implement a non-`payable` entrypoint, and cannot implement a `payable` entrypoint.
5. A non-`stateful` entrypoint can implement a `stateful` entrypoint or a non-`stateful` entrypoint.
6. A `stateful` entrypoint can only implement a `stateful` entrypoint, and cannot implement a non-`stateful` entrypoint.
#### Subtyping and variance
Subtyping in Sophia follows common rules that take type variance into account. As described by [Wikipedia](https://en.wikipedia.org/wiki/Covariance_and_contravariance_(computer_science)),
@@ -245,10 +256,10 @@ datatype bi('a) = Bi // bi is bivariant on 'a
The following facts apply here:
- `co('a)` is a subtype of `co('b) when `'a` is a subtype of `'b`
- `ct('a)` is a subtype of `ct('b) when `'b` is a subtype of `'a`
- `in('a)` is a subtype of `in('b) when `'a` is equal to `'b`
- `bi('a)` is a subtype of `bi('b) always
- `co('a)` is a subtype of `co('b)` when `'a` is a subtype of `'b`
- `ct('a)` is a subtype of `ct('b)` when `'b` is a subtype of `'a`
- `in('a)` is a subtype of `in('b)` when `'a` is equal to `'b`
- `bi('a)` is a subtype of `bi('b)` always
That altogether induce the following rules of subtyping in Sophia:
@@ -549,6 +560,45 @@ Sophia has the following types:
| oracle_query('a, 'b) | `oq_2oRvyowJuJnEkxy58Ckkw77XfWJrmRgmGaLzhdqb67SKEL1gPY` |
| contract | `ct_Ez6MyeTMm17YnTnDdHTSrzMEBKmy7Uz2sXu347bTDPgVH2ifJ` |
## Hole expression
Hole expressions, written as `???`, are expressions that are used as a placeholder. During compilation, the compiler will generate a type error indication the type of the hole expression.
```
include "List.aes"
contract C =
entrypoint f() =
List.sum(List.map(???, [1,2,3]))
```
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
@@ -564,6 +614,14 @@ All operations are *safe* with respect to overflow and underflow.
The division and modulo operations throw an arithmetic error if the
right-hand operand is zero.
Sophia arbitrary-sized integers (FATE) also supports the following bitwise operations:
- bitwise and (`x band y`)
- bitwise or (`x bor y`)
- bitwise xor (`x bxor y`)
- bitwise not (`bnot x`)
- arithmetic bitshift left (`x << n`)
- arithmetic bitshift right (`x >> n`)
## Bit fields
Sophia integers do not support bit arithmetic. Instead there is a separate
docs/sophia_stdlib.md
+215 -137
View File
@@ -14,6 +14,7 @@ The out-of-the-box namespaces are:
- [Address](#address)
- [AENS](#aens)
- [AENSv2](#aensv2)
- [Auth](#auth)
- [Bits](#bits)
- [Bytes](#bytes)
@@ -31,6 +32,7 @@ The following ones need to be included as regular files with `.aes` suffix, for
include "List.aes"
```
- [AENSCompat](#aenscompat)
- [Bitwise](#bitwise)
- [BLS12_381](#bls12_381)
- [Func](#func)
@@ -55,6 +57,12 @@ Address.to_str(a : address) : string
Base58 encoded string
#### to_bytes
```
Address.to_bytes(a : address) : bytes(32)
```
The binary representation of the address.
#### is_contract
```
@@ -90,13 +98,10 @@ Cast address to contract type C (where `C` is a contract)
### AENS
The following functionality is available for interacting with the æternity
naming system (AENS).
If `owner` is equal to `Contract.address` the signature `signature` is
ignored, and can be left out since it is a named argument. Otherwise we need
a signature to prove that we are allowed to do AENS operations on behalf of
`owner`. The [signature is tied to a network id](https://github.com/aeternity/protocol/blob/iris/consensus/consensus.md#transaction-signature),
i.e. the signature material should be prefixed by the network id.
The old AENS namespace, kept in the compiler to be able to interact with
contracts from before Ceres, compiled using aesophia compiler version 7.x and
earlier. Used in [AENSCompat](#aenscompat) when converting between old and new
pointers.
#### Types
@@ -113,12 +118,41 @@ datatype pointee = AccountPt(address) | OraclePt(address)
| ContractPt(address) | ChannelPt(address)
```
### AENSv2
Note: introduced in v8.0
The following functionality is available for interacting with the æternity
naming system (AENS). If `owner` is equal to `Contract.address` the signature
`signature` is ignored, and can be left out since it is a named argument.
Otherwise we need a signature to prove that we are allowed to do AENS
operations on behalf of `owner`. The [signature is tied to a network
id](https://github.com/aeternity/protocol/blob/iris/consensus/consensus.md#transaction-signature),
i.e. the signature material should be prefixed by the network id.
#### Types
##### name
```
datatype name = Name(address, Chain.ttl, map(string, AENSv2.pointee))
```
##### pointee
```
datatype pointee = AccountPt(address) | OraclePt(address)
| ContractPt(address) | ChannelPt(address) | DataPt(bytes())
```
Note: on-chain there is a maximum length enforced for `DataPt`, it is 1024 bytes.
Sophia itself does _not_ enforce this.
#### Functions
##### resolve
```
AENS.resolve(name : string, key : string) : option('a)
AENSv2.resolve(name : string, key : string) : option('a)
```
Name resolution. Here `name` should be a registered name and `key` one of the attributes
@@ -129,41 +163,53 @@ type checked against this type at run time.
##### lookup
```
AENS.lookup(name : string) : option(AENS.name)
AENSv2.lookup(name : string) : option(AENSv2.name)
```
If `name` is an active name `AENS.lookup` returns a name object.
If `name` is an active name `AENSv2.lookup` returns a name object.
The three arguments to `Name` are `owner`, `expiry` and a map of the
`pointees` for the name. Note: the expiry of the name is always a fixed TTL.
For example:
```
let Some(Name(owner, FixedTTL(expiry), ptrs)) = AENS.lookup("example.chain")
let Some(AENSv2.Name(owner, FixedTTL(expiry), ptrs)) = AENSv2.lookup("example.chain")
```
Note: Changed to produce `AENSv2.name` in v8.0 (Ceres protocol upgrade).
##### preclaim
```
AENS.preclaim(owner : address, commitment_hash : hash, <signature : signature>) : unit
AENSv2.preclaim(owner : address, commitment_hash : hash, <signature : signature>) : unit
```
The [signature](./sophia_features.md#delegation-signature) should be over
`network id` + `owner address` + `Contract.address` (concatenated as byte arrays).
From Ceres (i.e. FATE VM version 3) the
[signature](./sophia_features.md#delegation-signature) can also be generic
(allowing _all_, existing and future, names to be delegated with one
signature), i.e. over `network id` + `owner address` + `string "AENS"` +
`Contract.address`.
##### claim
```
AENS.claim(owner : address, name : string, salt : int, name_fee : int, <signature : signature>) : unit
AENSv2.claim(owner : address, name : string, salt : int, name_fee : int, <signature : signature>) : unit
```
The [signature](./sophia_features.md#delegation-signature) should be over
`network id` + `owner address` + `name_hash` + `Contract.address`
(concatenated as byte arrays)
using the private key of the `owner` account for signing.
`network id` + `owner address` + `name_hash` + `Contract.address` (concatenated
as byte arrays) using the private key of the `owner` account for signing.
From Ceres (i.e. FATE VM version 3) the
[signature](./sophia_features.md#delegation-signature) can also be generic
(allowing _all_, existing and future, names to be delegated with one
signature), i.e. over `network id` + `owner address` + `string "AENS"` +
`Contract.address`.
##### transfer
```
AENS.transfer(owner : address, new_owner : address, name : string, <signature : signature>) : unit
AENSv2.transfer(owner : address, new_owner : address, name : string, <signature : signature>) : unit
```
Transfers name to the new owner.
@@ -173,10 +219,16 @@ The [signature](./sophia_features.md#delegation-signature) should be over
(concatenated as byte arrays)
using the private key of the `owner` account for signing.
From Ceres (i.e. FATE VM version 3) the
[signature](./sophia_features.md#delegation-signature) can also be generic
(allowing _all_, existing and future, names to be delegated with one
signature), i.e. over `network id` + `owner address` + `string "AENS"` +
`Contract.address`.
##### revoke
```
AENS.revoke(owner : address, name : string, <signature : signature>) : unit
AENSv2.revoke(owner : address, name : string, <signature : signature>) : unit
```
Revokes the name to extend the ownership time.
@@ -186,17 +238,24 @@ The [signature](./sophia_features.md#delegation-signature) should be over
(concatenated as byte arrays)
using the private key of the `owner` account for signing.
From Ceres (i.e. FATE VM version 3) the
[signature](./sophia_features.md#delegation-signature) can also be generic
(allowing _all_, existing and future, names to be delegated with one
signature), i.e. over `network id` + `owner address` + `string "AENS"` +
`Contract.address`.
##### update
```
AENS.update(owner : address, name : string, expiry : option(Chain.ttl), client_ttl : option(int),
new_ptrs : map(string, AENS.pointee), <signature : signature>) : unit
AENSv2.update(owner : address, name : string, expiry : option(Chain.ttl), client_ttl : option(int),
new_ptrs : option(map(string, AENSv2.pointee)), <signature : signature>) : unit
```
Updates the name. If the optional parameters are set to `None` that parameter
will not be updated, for example if `None` is passed as `expiry` the expiry
block of the name is not changed.
Note: Changed to consume `AENSv2.pointee` in v8.0 (Ceres protocol upgrade).
### Auth
@@ -236,7 +295,10 @@ namespace Chain =
Auth.tx_hash : option(hash)
```
Gets the transaction hash during authentication.
Gets the transaction hash during authentication. Note: `Auth.tx_hash`
computation differs between protocol versions (changed in Ceres!), see
[aeserialisation](https://github.com/aeternity/protocol/blob/master/serializations.md)
specification for details.
### Bits
@@ -315,7 +377,7 @@ Each bit is true if and only if it was 1 in `a` and 0 in `b`
### Bytes
#### to_int
#### to\_int
```
Bytes.to_int(b : bytes(n)) : int
```
@@ -323,7 +385,7 @@ Bytes.to_int(b : bytes(n)) : int
Interprets the byte array as a big endian integer
#### to_str
#### to\_str
```
Bytes.to_str(b : bytes(n)) : string
```
@@ -336,7 +398,8 @@ Returns the hexadecimal representation of the byte array
Bytes.concat : (a : bytes(m), b : bytes(n)) => bytes(m + n)
```
Concatenates two byte arrays
Concatenates two byte arrays. If `m` and `n` are known at compile time, the
result can be used as a fixed size byte array, otherwise it has type `bytes()`.
#### split
@@ -346,6 +409,38 @@ Bytes.split(a : bytes(m + n)) : bytes(m) * bytes(n)
Splits a byte array at given index
#### split\_any
```
Bytes.split_any(a : bytes(), at : int) : option(bytes() * bytes(n))
```
Splits an arbitrary size byte array at index `at`. If `at` is positive split
from the beginning of the array, if `at` is negative, split `abs(at)` from the
_end_ of the array. If the array is shorter than `abs(at)` then `None` is
returned.
#### to\_fixed\_size
```
Bytes.to_fixed_size(a : bytes()) : option(bytes(n))
```
Converts an arbitrary size byte array to a fix size byte array. If `a` is
not `n` bytes, `None` is returned.
#### to\_any\_size
```
Bytes.to_any_size(a : bytes(n)) : bytes()
```
Converts a fixed size byte array to an arbitrary size byte array. This is a
no-op at run-time, and only used during type checking.
#### size
```
Bytes.size(a : bytes()) : int
```
Computes the lenght/size of a byte array.
### Call
@@ -381,6 +476,12 @@ Call.gas_price : int
The gas price of the current call.
#### mulmod
```
Int.mulmod : (a : int, b : int, q : int) : int
```
Combined multiplication and modulus, returns `(a * b) mod q`.
#### fee
```
@@ -469,39 +570,6 @@ 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.
##### 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)
@@ -538,6 +606,13 @@ charging the calling contract. Note that this won't be visible in `Call.value`
in the `init` call of the new contract. It will be included in
`Contract.balance`, however.
#### poseidon
```
Crypto.poseidon(x1 : int, x2 : int) : int
```
Hash two integers (in the scalar field of BLS12-381) to another integer (in the scalar
field of BLS12-281). This is a ZK/SNARK-friendly hash function.
The type `'c` must be instantiated with a contract.
@@ -565,6 +640,7 @@ 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, ...
@@ -623,11 +699,62 @@ 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.
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.
##### network\_id
```
Chain.network\_id : string
```
The network id of the chain.
##### 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).
### Char
@@ -705,11 +832,14 @@ Hash any object to blake2b
#### verify_sig
```
Crypto.verify_sig(msg : hash, pubkey : address, sig : signature) : bool
Crypto.verify_sig(msg : bytes(), pubkey : address, sig : signature) : bool
```
Checks if the signature of `msg` was made using private key corresponding to
the `pubkey`
the `pubkey`.
Note: before v8 of the compiler, `msg` had type `hash` (i.e. `bytes(32)`).
#### ecverify_secp256k1
```
@@ -742,12 +872,20 @@ Verifies a standard 64-byte ECDSA signature (`R || S`).
### Int
#### to_str
#### to\_str
```
Int.to_str : int => string
Int.to_str(n : int) : string
```
Casts integer to string using decimal representation
Casts the integer to a string (in decimal representation).
#### to\_bytes
```
Int.to_bytes(n : int, size : int) : bytes()
```
Casts the integer to a byte array with `size` bytes (big endian, truncating if
necessary).
### Map
@@ -914,88 +1052,21 @@ It returns `true` iff the oracle query exist and has the expected type.
These need to be explicitly included (with `.aes` suffix)
### Bitwise
### AENSCompat
Bitwise operations on arbitrary precision integers.
#### bsr
#### pointee\_to\_V2
```
Bitwise.bsr(n : int, x : int) : int
AENSCompat.pointee_to_V2(p : AENS.pointee) : AENSv2.pointee
```
Logical bit shift `x` right `n` positions.
Translate old pointee format to new, this is always possible.
#### bsl
#### pointee\_from\_V2
```
Bitwise.bsl(n : int, x : int) : int
AENSCompat.pointee_from_V2(p2 : AENSv2.pointee) : option(AENS.pointee)
```
Logical bit shift `x` left `n` positions.
#### bsli
```
Bitwise.bsli(n : int, x : int, lim : int) : int
```
Logical bit shift `x` left `n` positions, limit to `lim` bits.
#### band
```
Bitwise.band(x : int, y : int) : int
```
Bitwise `and` of `x` and `y`.
#### bor
```
Bitwise.bor(x : int, y : int) : int
```
Bitwise `or` of `x` and `y`.
#### bxor
```
Bitwise.bxor(x : int, y : int) : int
```
Bitwise `xor` of `x` and `y`.
#### bnot
```
Bitwise.bnot(x : int) : int
```
Bitwise `not` of `x`. Defined and implemented as `bnot(x) = bxor(x, -1)`.
#### uband
```
Bitwise.uband(x : int, y : int) : int
```
Bitwise `and` of _non-negative_ numbers `x` and `y`.
#### ubor
```
Bitwise.ubor(x : int, y : int) : int
```
Bitwise `or` of _non-negative_ `x` and `y`.
#### ubxor
```
Bitwise.ubxor(x : int, y : int) : int
```
Bitwise `xor` of _non-negative_ `x` and `y`.
Translate new pointee format to old, `DataPt` can't be translated, so `None` is returned in this case.
### BLS12\_381
@@ -2391,6 +2462,13 @@ to_int(s : string) : option(int)
Converts a decimal ("123", "-253") or a hexadecimal ("0xa2f", "-0xBBB") string into
an integer. If the string doesn't contain a valid number `None` is returned.
#### to\_bytes
```
to_bytes(s : string) : bytes()
```
Converts string into byte array.
#### sha3
```
sha3(s : string) : hash
docs/sophia_syntax.md
+10 -3
View File
@@ -104,6 +104,7 @@ 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
@@ -238,6 +239,7 @@ Expr ::= '(' LamArgs ')' '=>' Block(Stmt) // Anonymous function (x) => x +
| Int | Bytes | String | Char // Literals 123, 0xff, #00abc123, "foo", '%'
| AccountAddress | ContractAddress // Chain identifiers
| OracleAddress | OracleQueryId // Chain identifiers
| '???' // Hole expression 1 + ???
Generator ::= Pattern '<-' Expr // Generator
| 'if' '(' Expr ')' // Guard
@@ -254,8 +256,8 @@ Path ::= Id // Record field
BinOp ::= '||' | '&&' | '<' | '>' | '=<' | '>=' | '==' | '!='
| '::' | '++' | '+' | '-' | '*' | '/' | 'mod' | '^'
| '|>'
UnOp ::= '-' | '!'
| 'band' | 'bor' | 'bxor' | '<<' | '>>' | '|>'
UnOp ::= '-' | '!' | 'bnot'
```
## Operators types
@@ -264,6 +266,7 @@ UnOp ::= '-' | '!'
| --- | ---
| `-` `+` `*` `/` `mod` `^` | arithmetic operators
| `!` `&&` `||` | logical operators
| `band` `bor` `bxor` `bnot` `<<` `>>` | bitwise operators
| `==` `!=` `<` `>` `=<` `>=` | comparison operators
| `::` `++` | list operators
| `|>` | functional operators
@@ -274,13 +277,17 @@ In order of highest to lowest precedence.
| Operators | Associativity
| --- | ---
| `!` | right
| `!` `bnot`| right
| `^` | left
| `*` `/` `mod` | left
| `-` (unary) | right
| `+` `-` | left
| `<<` `>>` | left
| `::` `++` | right
| `<` `>` `=<` `>=` `==` `!=` | none
| `band` | left
| `bxor` | left
| `bor` | left
| `&&` | right
| `||` | right
| `|>` | left
priv/stdlib/AENSCompat.aes
+17
View File
@@ -0,0 +1,17 @@
namespace AENSCompat =
// Translate old format to new format - always possible
function pointee_to_V2(p : AENS.pointee) : AENSv2.pointee =
switch(p)
AENS.AccountPt(a) => AENSv2.AccountPt(a)
AENS.OraclePt(a) => AENSv2.OraclePt(a)
AENS.ContractPt(a) => AENSv2.ContractPt(a)
AENS.ChannelPt(a) => AENSv2.ChannelPt(a)
// Translate new format to old format - option type!
function pointee_from_V2(p2 : AENSv2.pointee) : option(AENS.pointee) =
switch(p2)
AENSv2.AccountPt(a) => Some(AENS.AccountPt(a))
AENSv2.OraclePt(a) => Some(AENS.OraclePt(a))
AENSv2.ContractPt(a) => Some(AENS.ContractPt(a))
AENSv2.ChannelPt(a) => Some(AENS.ChannelPt(a))
AENSv2.DataPt(_) => None
priv/stdlib/Bitwise.aes
-126
View File
@@ -1,126 +0,0 @@
@compiler >= 4.3
namespace Bitwise =
// bit shift 'x' right 'n' postions
function bsr(n : int, x : int) : int =
let step = 2^n
let res = x / step
if (x >= 0 || x mod step == 0)
res
else
res - 1
// bit shift 'x' left 'n' positions
function bsl(n : int, x : int) : int =
x * 2^n
// bit shift 'x' left 'n' positions, limit at 'lim' bits
function bsli(n : int, x : int, lim : int) : int =
(x * 2^n) mod (2^lim)
// bitwise 'and' for arbitrary precision integers
function band(a : int, b : int) : int =
if (a >= 0 && b >= 0)
uband_(a, b)
elif (b >= 0)
ubnand_(b, -1 - a)
elif (a >= 0)
ubnand_(a, -1 - b)
else
-1 - ubor_(-1 - a, -1 - b)
// bitwise 'or' for arbitrary precision integers
function
bor : (int, int) => int
bor(0, b) = b
bor(a, 0) = a
bor(a : int, b : int) : int =
if (a >= 0 && b >= 0)
ubor_(a, b)
elif (b >= 0)
-1 - ubnand_(-1 - a, b)
elif (a >= 0)
-1 - ubnand_(-1 - b, a)
else
-1 - uband_(-1 - a, -1 - b)
// bitwise 'xor' for arbitrary precision integers
function
bxor : (int, int) => int
bxor(0, b) = b
bxor(a, 0) = a
bxor(a, b) =
if (a >= 0 && b >= 0)
ubxor_(a, b)
elif (b >= 0)
-1 - ubxor_(-1 - a, b)
elif (a >= 0)
-1 - ubxor_(a, -1 - b)
else
ubxor_(-1 - a, -1 - b)
// bitwise 'not' for arbitrary precision integers
function bnot(a : int) = bxor(a, -1)
// Bitwise 'and' for non-negative integers
function uband(a : int, b : int) : int =
require(a >= 0 && b >= 0, "uband is only defined for non-negative integers")
switch((a, b))
(0, _) => 0
(_, 0) => 0
_ => uband__(a, b, 1, 0)
private function uband_(a, b) = uband__(a, b, 1, 0)
private function
uband__(0, b, val, acc) = acc
uband__(a, 0, val, acc) = acc
uband__(a, b, val, acc) =
switch (a mod 2 + b mod 2)
2 => uband__(a / 2, b / 2, val * 2, acc + val)
_ => uband__(a / 2, b / 2, val * 2, acc)
// Bitwise 'or' for non-negative integers
function ubor(a, b) =
require(a >= 0 && b >= 0, "ubor is only defined for non-negative integers")
switch((a, b))
(0, _) => b
(_, 0) => a
_ => ubor__(a, b, 1, 0)
private function ubor_(a, b) = ubor__(a, b, 1, 0)
private function
ubor__(0, 0, val, acc) = acc
ubor__(a, b, val, acc) =
switch (a mod 2 + b mod 2)
0 => ubor__(a / 2, b / 2, val * 2, acc)
_ => ubor__(a / 2, b / 2, val * 2, acc + val)
//Bitwise 'xor' for non-negative integers
function
ubxor : (int, int) => int
ubxor(0, b) = b
ubxor(a, 0) = a
ubxor(a, b) =
require(a >= 0 && b >= 0, "ubxor is only defined for non-negative integers")
ubxor__(a, b, 1, 0)
private function ubxor_(a, b) = ubxor__(a, b, 1, 0)
private function
ubxor__(0, 0, val, acc) = acc
ubxor__(a, b, val, acc) =
switch(a mod 2 + b mod 2)
1 => ubxor__(a / 2, b / 2, val * 2, acc + val)
_ => ubxor__(a / 2, b / 2, val * 2, acc)
private function ubnand_(a, b) = ubnand__(a, b, 1, 0)
private function
ubnand__(0, b, val, acc) = acc
ubnand__(a, b, val, acc) =
switch((a mod 2, b mod 2))
(1, 0) => ubnand__(a / 2, b / 2, val * 2, acc + val)
_ => ubnand__(a / 2, b / 2, val * 2, acc)
priv/stdlib/String.aes
+3
View File
@@ -1,5 +1,8 @@
include "List.aes"
namespace String =
// Gives a bytes() representation of the string
function to_bytes(s : string) : bytes() = StringInternal.to_bytes(s)
// Computes the SHA3/Keccak hash of the string
function sha3(s : string) : hash = StringInternal.sha3(s)
// Computes the SHA256 hash of the string.
rebar.config
+3 -4
View File
@@ -2,8 +2,7 @@
{erl_opts, [debug_info]}.
{deps, [ {aebytecode, {git, "https://github.com/aeternity/aebytecode.git", {tag, "v3.2.0"}}}
, {getopt, "1.0.1"}
{deps, [ {aebytecode, {git, "https://github.com/aeternity/aebytecode.git", {tag, "v3.4.0"}}}
, {eblake2, "1.0.0"}
, {jsx, {git, "https://github.com/talentdeficit/jsx.git", {tag, "2.8.0"}}}
]}.
@@ -14,8 +13,8 @@
{base_plt_apps, [erts, kernel, stdlib, crypto, mnesia]}
]}.
{relx, [{release, {aesophia, "7.0.1"},
[aesophia, aebytecode, getopt]},
{relx, [{release, {aesophia, "8.0.0"},
[aesophia, aebytecode]},
{dev_mode, true},
{include_erts, false},
rebar.lock
+3 -3
View File
@@ -1,11 +1,11 @@
{"1.2.0",
[{<<"aebytecode">>,
{git,"https://github.com/aeternity/aebytecode.git",
{ref,"2a0a397afad6b45da52572170f718194018bf33c"}},
{ref,"009e0361922037f978f9c0ef357d4d1be8559928"}},
0},
{<<"aeserialization">>,
{git,"https://github.com/aeternity/aeserialization.git",
{ref,"eb68fe331bd476910394966b7f5ede7a74d37e35"}},
{ref,"177bf604b2a05e940f92cf00e96e6e269e708245"}},
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">>},0},
{<<"getopt">>,{pkg,<<"getopt">>,<<"1.0.1">>},1},
{<<"jsx">>,
{git,"https://github.com/talentdeficit/jsx.git",
{ref,"3074d4865b3385a050badf7828ad31490d860df5"}},
src/aeso_aci.erl
+2
View File
@@ -282,6 +282,8 @@ decode_type(#{list := [Et]}) ->
decode_type(#{map := Ets}) ->
Ts = decode_types(Ets),
["map",$(,lists:join(",", Ts),$)];
decode_type(#{bytes := any}) ->
["bytes()"];
decode_type(#{bytes := Len}) ->
["bytes(", integer_to_list(Len), ")"];
decode_type(#{variant := Ets}) ->
src/aeso_ast_infer_types.erl
+631 -274
View File
File diff suppressed because it is too large Load Diff
src/aeso_ast_to_fcode.erl
+749 -526
View File
File diff suppressed because it is too large Load Diff
src/aeso_compiler.erl
+74 -33
View File
@@ -12,6 +12,8 @@
, file/2
, from_string/2
, check_call/4
, decode_value/4
, encode_value/4
, create_calldata/3
, create_calldata/4
, version/0
@@ -117,7 +119,7 @@ from_string1(ContractString, Options) ->
, warnings := Warnings } = string_to_code(ContractString, Options),
#{ child_con_env := ChildContracts } = FCodeEnv,
SavedFreshNames = maps:get(saved_fresh_names, FCodeEnv, #{}),
{FateCode, VarsRegs} = aeso_fcode_to_fate:compile(ChildContracts, FCode, SavedFreshNames, Options),
FateCode = aeso_fcode_to_fate:compile(ChildContracts, FCode, SavedFreshNames, Options),
pp_assembler(FateCode, Options),
ByteCode = aeb_fate_code:serialize(FateCode, []),
{ok, Version} = version(),
@@ -130,13 +132,7 @@ from_string1(ContractString, Options) ->
payable => maps:get(payable, FCode),
warnings => Warnings
},
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)}.
{ok, maybe_generate_aci(Res, FoldedTypedAst, Options)}.
maybe_generate_aci(Result, FoldedTypedAst, Options) ->
case proplists:get_value(aci, Options) of
@@ -188,30 +184,55 @@ 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(ContractString0, Options),
{FateCode, _} = aeso_fcode_to_fate:compile(ChildContracts, OrgFcode, #{}, []),
, ast := Ast} = string_to_code(Contract0, 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)),
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}
Contract = insert_call_function(Ast, Contract0, CallName, Call),
{ok, CallName, string_to_code(Contract, Options)}
catch
throw:{error, Errors} -> {error, Errors}
end.
arguments_of_body(CallName, _FunName, Fcode) ->
get_call_body(CallName, #{fcode := Fcode}) ->
#{body := Body} = maps:get({entrypoint, list_to_binary(CallName)}, maps:get(functions, Fcode)),
{def, _FName, Args} = Body,
%% FName is either {entrypoint, list_to_binary(FunName)} or 'init'
[ aeso_fcode_to_fate:term_to_fate(A) || A <- Args ].
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.
first_none_match(_CallName, _Hashes, []) ->
error(unable_to_find_unique_call_name);
@@ -224,14 +245,31 @@ first_none_match(CallName, Hashes, [Char|Chars]) ->
end.
%% Add the __call function to a contract.
-spec insert_call_function(aeso_syntax:ast(), string(), string(), string(), [string()]) -> string().
insert_call_function(Ast, Code, Call, FunName, Args) ->
-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}) ->
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().
@@ -274,22 +312,25 @@ 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]),
try
{ok, aeso_vm_decode:from_fate(Type, aeb_fate_encoding:deserialize(Data))}
catch throw:cannot_translate_to_sophia ->
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(Data), Type1]),
{error, [aeso_errors:new(data_error, Msg)]};
_:_ ->
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
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))}
catch throw:cannot_translate_to_sophia ->
Type1 = prettypr:format(aeso_pretty:type(Type)),
Msg = io_lib:format("Cannot translate FATE value ~p\n of Sophia type ~s",
[aeb_fate_encoding:deserialize(FateData), Type1]),
{error, [aeso_errors:new(data_error, Msg)]};
_:_ ->
Type1 = prettypr:format(aeso_pretty:type(Type)),
Msg = io_lib:format("Failed to decode binary as type ~s", [Type1]),
{error, [aeso_errors:new(data_error, Msg)]}
end.
-spec create_calldata(string(), string(), [string()]) ->
{ok, binary()} | {error, [aeso_errors:error()]}.
create_calldata(Code, Fun, Args) ->
src/aeso_fcode_to_fate.erl
+239 -122
View File
@@ -52,7 +52,8 @@
tailpos = true,
child_contracts = #{},
saved_fresh_names = #{},
options = [] }).
options = [],
debug_info = false }).
%% -- Debugging --------------------------------------------------------------
@@ -81,24 +82,16 @@ 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)]),
FateCode1 = case proplists:get_value(include_child_contract_symbols, Options, false) of
false -> FateCode;
true -> add_child_symbols(ChildContracts, FateCode)
end,
{FateCode1, get_variables_registers()}.
case proplists:get_value(include_child_contract_symbols, Options, false) of
false -> FateCode;
true -> add_child_symbols(ChildContracts, FateCode)
end.
make_function_id(X) ->
aeb_fate_code:symbol_identifier(make_function_name(X)).
@@ -123,31 +116,15 @@ 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 = Attrs0 -- [stateful], %% Only track private and payable from here.
Attrs = [ A || A <- Attrs0, A == private orelse A == payable ],
Env = init_env(ChildContracts, ContractName, Functions, Name, Args, SavedFreshNames, Options),
[ add_variables_register(Env, Arg, Register) ||
proplists:get_value(debug_info, Options, false),
{Arg, Register} <- Env#env.vars ],
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
SCode = to_scode(Env, Body),
{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}).
DbgSCode = dbg_contract(Env) ++ dbg_loc(Env, Attrs0) ++ dbg_scoped_vars(Env, ArgsNames, SCode),
{Attrs, {ArgTypes, ResType1}, DbgSCode}.
-define(tvars, '$tvars').
@@ -194,20 +171,20 @@ types_to_scode(Ts) -> lists:map(fun type_to_scode/1, Ts).
%% -- Environment functions --
init_env(ChildContracts, ContractName, FunNames, Name, Args, SavedFreshNames, Options) ->
#env{ vars = [ {X, {arg, I}} || {I, {X, _}} <- with_ixs(Args) ],
contract = ContractName,
child_contracts = ChildContracts,
locals = FunNames,
current_function = Name,
options = Options,
tailpos = true,
saved_fresh_names = SavedFreshNames }.
#env{ vars = [ {X, {arg, I}} || {I, {X, _}} <- with_ixs(Args) ],
contract = ContractName,
child_contracts = ChildContracts,
locals = FunNames,
current_function = Name,
options = Options,
tailpos = true,
saved_fresh_names = SavedFreshNames,
debug_info = proplists:get_value(debug_info, Options, false) }.
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) ->
@@ -234,7 +211,7 @@ serialize_contract_code(Env, C) ->
Options = Env#env.options,
SavedFreshNames = Env#env.saved_fresh_names,
FCode = maps:get(C, Env#env.child_contracts),
{FateCode, _} = compile1(Env#env.child_contracts, FCode, SavedFreshNames, Options),
FateCode = compile(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, ""),
@@ -268,44 +245,44 @@ 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, _) ->
@@ -313,52 +290,59 @@ term_to_fate(_GlobEnv, _Env, _) ->
to_scode(Env, T) ->
try term_to_fate(Env, T) of
V -> [push(?i(V))]
V ->
FAnn = element(2, T),
[dbg_loc(Env, FAnn), push(?i(V))]
catch throw:not_a_fate_value ->
to_scode1(Env, T)
end.
to_scode1(Env, {lit, L}) ->
[push(?i(lit_to_fate(Env, L)))];
to_scode1(Env, {lit, Ann, L}) ->
[ dbg_loc(Env, Ann), push(?i(lit_to_fate(Env, L))) ];
to_scode1(_Env, nil) ->
[aeb_fate_ops:nil(?a)];
to_scode1(Env, {nil, Ann}) ->
[ dbg_loc(Env, Ann), aeb_fate_ops:nil(?a) ];
to_scode1(Env, {var, X}) ->
[push(lookup_var(Env, X))];
to_scode1(Env, {var, Ann, X}) ->
[ dbg_loc(Env, Ann), push(lookup_var(Env, X)) ];
to_scode1(Env, {con, Ar, I, As}) ->
to_scode1(Env, {con, Ann, Ar, I, As}) ->
N = length(As),
[[to_scode(notail(Env), A) || A <- As],
aeb_fate_ops:variant(?a, ?i(Ar), ?i(I), ?i(N))];
[ dbg_loc(Env, Ann),
[to_scode(notail(Env), A) || A <- As],
aeb_fate_ops:variant(?a, ?i(Ar), ?i(I), ?i(N)) ];
to_scode1(Env, {tuple, As}) ->
to_scode1(Env, {tuple, Ann, As}) ->
N = length(As),
[[ to_scode(notail(Env), A) || A <- As ],
tuple(N)];
[ dbg_loc(Env, Ann),
[ to_scode(notail(Env), A) || A <- As ],
tuple(N) ];
to_scode1(Env, {proj, E, I}) ->
[to_scode(notail(Env), E),
aeb_fate_ops:element_op(?a, ?i(I), ?a)];
to_scode1(Env, {proj, Ann, E, I}) ->
[ dbg_loc(Env, Ann),
to_scode(notail(Env), E),
aeb_fate_ops:element_op(?a, ?i(I), ?a) ];
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, {set_proj, Ann, R, I, E}) ->
[ dbg_loc(Env, Ann),
to_scode(notail(Env), E),
to_scode(notail(Env), R),
aeb_fate_ops:setelement(?a, ?i(I), ?a, ?a) ];
to_scode1(Env, {op, Op, Args}) ->
call_to_scode(Env, op_to_scode(Op), Args);
to_scode1(Env, {op, Ann, Op, Args}) ->
[ dbg_loc(Env, Ann) | call_to_scode(Env, op_to_scode(Op), Args) ];
to_scode1(Env, {'let', X, {var, Y}, Body}) ->
to_scode1(Env, {'let', Ann, X, {var, _, Y}, Body}) ->
Env1 = bind_var(X, lookup_var(Env, Y), Env),
to_scode(Env1, Body);
to_scode1(Env, {'let', X, Expr, Body}) ->
[ dbg_loc(Env, Ann) | dbg_scoped_vars(Env1, [X], to_scode(Env1, Body)) ];
to_scode1(Env, {'let', Ann, X, Expr, Body}) ->
{I, Env1} = bind_local(X, Env),
[ to_scode(notail(Env), Expr),
aeb_fate_ops:store({var, I}, {stack, 0}),
to_scode(Env1, Body) ];
SCode = [ 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_scode1(Env = #env{ current_function = Fun, tailpos = true }, {def, Fun, Args}) ->
to_scode1(Env = #env{ current_function = Fun, tailpos = true, debug_info = false }, {def, Ann, Fun, Args}) ->
%% Tail-call to current function, f(e0..en). Compile to
%% [ let xi = ei ]
%% [ STORE argi xi ]
@@ -371,61 +355,62 @@ to_scode1(Env = #env{ current_function = Fun, tailpos = true }, {def, Fun, Args}
aeb_fate_ops:store({var, I}, ?a)],
{[I | Is], Acc1, Env2}
end, {[], [], Env}, Args),
[ Code,
[ dbg_loc(Env, Ann),
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, Fun, Args}) ->
to_scode1(Env, {def, Ann, Fun, Args}) ->
FName = make_function_id(Fun),
Lbl = aeb_fate_data:make_string(FName),
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);
[ 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) ];
to_scode1(Env, {builtin, B, Args}) ->
builtin_to_scode(Env, B, Args);
to_scode1(Env, {builtin, Ann, B, Args}) ->
[ dbg_loc(Env, Ann) | builtin_to_scode(Env, B, Args) ];
to_scode1(Env, {remote, ArgsT, RetT, Ct, Fun, [Gas, Value, Protected | Args]}) ->
to_scode1(Env, {remote, Ann, 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)),
case Protected of
{lit, {bool, false}} ->
SCode = 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;
end,
[ dbg_loc(Env, Ann) | SCode ];
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, {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, {closure, Fun, FVs}) ->
to_scode(Env, {tuple, [{lit, {string, make_function_id(Fun)}}, FVs]});
to_scode1(Env, {closure, Ann, Fun, FVs}) ->
[ to_scode(Env, {tuple, Ann, [{lit, Ann, {string, make_function_id(Fun)}}, FVs]}) ];
to_scode1(Env, {switch, Case}) ->
split_to_scode(Env, Case).
to_scode1(Env, {switch, Ann, Case}) ->
[ dbg_loc(Env, Ann) | split_to_scode(Env, Case) ].
local_call( Env, Fun) when Env#env.tailpos -> aeb_fate_ops:call_t(Fun);
local_call(_Env, Fun) -> aeb_fate_ops:call(Fun).
local_call( Env = #env{debug_info = false}, 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, Expr}) ->
[switch_body, to_scode(Env, Expr)];
split_to_scode(Env, {nosplit, Renames, Expr}) ->
[switch_body, dbg_scoped_vars(Env, Renames, 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),
@@ -554,6 +539,14 @@ builtin_to_scode(Env, bytes_concat, [_, _] = Args) ->
call_to_scode(Env, aeb_fate_ops:bytes_concat(?a, ?a, ?a), Args);
builtin_to_scode(Env, bytes_split, [_, _] = Args) ->
call_to_scode(Env, aeb_fate_ops:bytes_split(?a, ?a, ?a), Args);
builtin_to_scode(Env, bytes_split_any, [_, _] = Args) ->
call_to_scode(Env, aeb_fate_ops:bytes_split_any(?a, ?a, ?a), Args);
builtin_to_scode(Env, bytes_to_fixed_size, [_, _] = Args) ->
call_to_scode(Env, aeb_fate_ops:bytes_to_fixed_size(?a, ?a, ?a), Args);
builtin_to_scode(Env, bytes_to_any_size, [A]) ->
[to_scode(Env, A)]; %% no_op!
builtin_to_scode(Env, bytes_size, [_] = Args) ->
call_to_scode(Env, aeb_fate_ops:bytes_size(?a, ?a), Args);
builtin_to_scode(Env, abort, [_] = Args) ->
call_to_scode(Env, aeb_fate_ops:abort(?a), Args);
builtin_to_scode(Env, exit, [_] = Args) ->
@@ -575,6 +568,8 @@ builtin_to_scode(_Env, chain_difficulty, []) ->
[aeb_fate_ops:difficulty(?a)];
builtin_to_scode(_Env, chain_gas_limit, []) ->
[aeb_fate_ops:gaslimit(?a)];
builtin_to_scode(_Env, chain_network_id, []) ->
[aeb_fate_ops:network_id(?a)];
builtin_to_scode(_Env, contract_balance, []) ->
[aeb_fate_ops:balance(?a)];
builtin_to_scode(_Env, contract_address, []) ->
@@ -649,7 +644,7 @@ 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]
);
@@ -682,6 +677,12 @@ op_to_scode('>=') -> aeb_fate_ops:egt(?a, ?a, ?a);
op_to_scode('==') -> aeb_fate_ops:eq(?a, ?a, ?a);
op_to_scode('!=') -> aeb_fate_ops:neq(?a, ?a, ?a);
op_to_scode('!') -> aeb_fate_ops:not_op(?a, ?a);
op_to_scode('bnot') -> aeb_fate_ops:bin_not(?a, ?a);
op_to_scode('band') -> aeb_fate_ops:bin_and(?a, ?a, ?a);
op_to_scode('bor') -> aeb_fate_ops:bin_or(?a, ?a, ?a);
op_to_scode('bxor') -> aeb_fate_ops:bin_xor(?a, ?a, ?a);
op_to_scode('<<') -> aeb_fate_ops:bin_sl(?a, ?a, ?a);
op_to_scode('>>') -> aeb_fate_ops:bin_sr(?a, ?a, ?a);
op_to_scode(map_get) -> aeb_fate_ops:map_lookup(?a, ?a, ?a);
op_to_scode(map_get_d) -> aeb_fate_ops:map_lookup(?a, ?a, ?a, ?a);
op_to_scode(map_set) -> aeb_fate_ops:map_update(?a, ?a, ?a, ?a);
@@ -692,6 +693,7 @@ op_to_scode(map_member) -> aeb_fate_ops:map_member(?a, ?a, ?a);
op_to_scode(map_size) -> aeb_fate_ops:map_size_(?a, ?a);
op_to_scode(stringinternal_length) -> aeb_fate_ops:str_length(?a, ?a);
op_to_scode(stringinternal_concat) -> aeb_fate_ops:str_join(?a, ?a, ?a);
op_to_scode(stringinternal_to_bytes) -> aeb_fate_ops:str_to_bytes(?a, ?a);
op_to_scode(stringinternal_to_list) -> aeb_fate_ops:str_to_list(?a, ?a);
op_to_scode(stringinternal_from_list) -> aeb_fate_ops:str_from_list(?a, ?a);
op_to_scode(stringinternal_to_lower) -> aeb_fate_ops:str_to_lower(?a, ?a);
@@ -706,7 +708,10 @@ op_to_scode(bits_intersection) -> aeb_fate_ops:bits_and(?a, ?a, ?a);
op_to_scode(bits_union) -> aeb_fate_ops:bits_or(?a, ?a, ?a);
op_to_scode(bits_difference) -> aeb_fate_ops:bits_diff(?a, ?a, ?a);
op_to_scode(address_to_str) -> aeb_fate_ops:addr_to_str(?a, ?a);
op_to_scode(address_to_bytes) -> aeb_fate_ops:addr_to_bytes(?a, ?a);
op_to_scode(int_to_str) -> aeb_fate_ops:int_to_str(?a, ?a);
op_to_scode(int_to_bytes) -> aeb_fate_ops:int_to_bytes(?a, ?a, ?a);
op_to_scode(int_mulmod) -> aeb_fate_ops:mulmod(?a, ?a, ?a, ?a);
op_to_scode(contract_to_address) -> aeb_fate_ops:contract_to_address(?a, ?a);
op_to_scode(address_to_contract) -> aeb_fate_ops:address_to_contract(?a, ?a);
op_to_scode(crypto_verify_sig) -> aeb_fate_ops:verify_sig(?a, ?a, ?a, ?a);
@@ -716,6 +721,7 @@ op_to_scode(crypto_ecrecover_secp256k1) -> aeb_fate_ops:ecrecover_secp256k1(?a,
op_to_scode(crypto_sha3) -> aeb_fate_ops:sha3(?a, ?a);
op_to_scode(crypto_sha256) -> aeb_fate_ops:sha256(?a, ?a);
op_to_scode(crypto_blake2b) -> aeb_fate_ops:blake2b(?a, ?a);
op_to_scode(crypto_poseidon) -> aeb_fate_ops:poseidon(?a, ?a, ?a);
op_to_scode(stringinternal_sha3) -> aeb_fate_ops:sha3(?a, ?a);
op_to_scode(stringinternal_sha256) -> aeb_fate_ops:sha256(?a, ?a);
op_to_scode(stringinternal_blake2b) -> aeb_fate_ops:blake2b(?a, ?a);
@@ -751,6 +757,77 @@ 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
@@ -886,6 +963,10 @@ 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]);
@@ -913,6 +994,13 @@ attributes(I) ->
{'DIV', A, B, C} -> Pure(A, [B, C]);
{'MOD', A, B, C} -> Pure(A, [B, C]);
{'POW', A, B, C} -> Pure(A, [B, C]);
{'MULMOD', A, B, C, D} -> Pure(A, [B, C, D]);
{'BAND', A, B, C} -> Pure(A, [B, C]);
{'BOR', A, B, C} -> Pure(A, [B, C]);
{'BXOR', A, B, C} -> Pure(A, [B, C]);
{'BNOT', A, B} -> Pure(A, [B]);
{'BSL', A, B, C} -> Pure(A, [B, C]);
{'BSR', A, B, C} -> Pure(A, [B, C]);
{'LT', A, B, C} -> Pure(A, [B, C]);
{'GT', A, B, C} -> Pure(A, [B, C]);
{'EQ', A, B, C} -> Pure(A, [B, C]);
@@ -943,9 +1031,11 @@ attributes(I) ->
{'APPEND', A, B, C} -> Pure(A, [B, C]);
{'STR_JOIN', A, B, C} -> Pure(A, [B, C]);
{'INT_TO_STR', A, B} -> Pure(A, B);
{'INT_TO_BYTES', A, B, C} -> Pure(A, [B, C]);
{'ADDR_TO_STR', A, B} -> Pure(A, B);
{'STR_REVERSE', A, B} -> Pure(A, B);
{'STR_LENGTH', A, B} -> Pure(A, B);
{'STR_TO_BYTES', A, B} -> Pure(A, B);
{'INT_TO_ADDR', A, B} -> Pure(A, B);
{'VARIANT', A, B, C, D} -> Pure(A, [?a, B, C, D]);
{'VARIANT_TEST', A, B, C} -> Pure(A, [B, C]);
@@ -965,18 +1055,23 @@ attributes(I) ->
{'SHA3', A, B} -> Pure(A, [B]);
{'SHA256', A, B} -> Pure(A, [B]);
{'BLAKE2B', A, B} -> Pure(A, [B]);
{'POSEIDON', A, B, C} -> Pure(A, [B, C]);
{'VERIFY_SIG', A, B, C, D} -> Pure(A, [B, C, D]);
{'VERIFY_SIG_SECP256K1', A, B, C, D} -> Pure(A, [B, C, D]);
{'ECVERIFY_SECP256K1', A, B, C, D} -> Pure(A, [B, C, D]);
{'ECRECOVER_SECP256K1', A, B, C} -> Pure(A, [B, C]);
{'CONTRACT_TO_ADDRESS', A, B} -> Pure(A, [B]);
{'ADDRESS_TO_CONTRACT', A, B} -> Pure(A, [B]);
{'ADDRESS_TO_BYTES', A, B} -> Pure(A, [B]);
{'AUTH_TX_HASH', A} -> Pure(A, []);
{'AUTH_TX', A} -> Pure(A, []);
{'BYTES_TO_INT', A, B} -> Pure(A, [B]);
{'BYTES_TO_STR', A, B} -> Pure(A, [B]);
{'BYTES_CONCAT', A, B, C} -> Pure(A, [B, C]);
{'BYTES_SPLIT', A, B, C} -> Pure(A, [B, C]);
{'BYTES_SPLIT_ANY', A, B, C} -> Pure(A, [B, C]);
{'BYTES_SIZE', A, B} -> Pure(A, B);
{'BYTES_TO_FIXED_SIZE', A, B, C} -> Pure(A, [B, C]);
{'ORACLE_CHECK', A, B, C, D} -> Pure(A, [B, C, D]);
{'ORACLE_CHECK_QUERY', A, B, C, D, E} -> Pure(A, [B, C, D, E]);
{'IS_ORACLE', A, B} -> Pure(A, [B]);
@@ -997,6 +1092,7 @@ attributes(I) ->
{'MICROBLOCK', A} -> Pure(A, []);
{'DIFFICULTY', A} -> Pure(A, []);
{'GASLIMIT', A} -> Pure(A, []);
{'NETWORK_ID', A} -> Pure(A, []);
{'GAS', A} -> Pure(A, []);
{'LOG0', A} -> Impure(none, [A]);
{'LOG1', A, B} -> Impure(none, [A, B]);
@@ -1081,11 +1177,16 @@ independent({i, _, I}, {i, _, J}) ->
StackI = lists:member(?a, [WI | RI]),
StackJ = lists:member(?a, [WJ | 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
true ->
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
not lists:member(WJ, RI)
@@ -1605,7 +1706,23 @@ 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(BBs).
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).
%% -- Break up scode into basic blocks --
src/aeso_parser.erl
+20 -7
View File
@@ -264,10 +264,11 @@ type300() ->
type400() ->
choice(
[?RULE(typeAtom(), optional(type_args()),
case _2 of
none -> _1;
{ok, Args} -> {app_t, get_ann(_1), _1, Args}
end),
any_bytes(
case _2 of
none -> _1;
{ok, Args} -> {app_t, get_ann(_1), _1, Args}
end)),
?RULE(id("bytes"), parens(token(int)),
{bytes_t, get_ann(_1), element(3, _2)})
]).
@@ -333,14 +334,19 @@ expr100() ->
expr150() -> infixl(expr200(), binop('|>')).
expr200() -> infixr(expr300(), binop('||')).
expr300() -> infixr(expr400(), binop('&&')).
expr300() -> infixr(expr325(), binop('&&')).
expr325() -> infixl(expr350(), binop('bor')).
expr350() -> infixl(expr375(), binop('bxor')).
expr375() -> infixl(expr400(), binop('band')).
expr400() -> infix(expr500(), binop(['<', '>', '=<', '>=', '==', '!='])).
expr500() -> infixr(expr600(), binop(['::', '++'])).
expr500() -> infixr(expr550(), binop(['::', '++'])).
expr550() -> infixl(expr600(), binop(['<<', '>>'])).
expr600() -> infixl(expr650(), binop(['+', '-'])).
expr650() -> ?RULE(many(token('-')), expr700(), prefixes(_1, _2)).
expr700() -> infixl(expr750(), binop(['*', '/', mod])).
expr750() -> infixl(expr800(), binop(['^'])).
expr800() -> ?RULE(many(token('!')), expr900(), prefixes(_1, _2)).
expr800() -> ?RULE(many(token('!')), expr850(), prefixes(_1, _2)).
expr850() -> ?RULE(many(token('bnot')), expr900(), prefixes(_1, _2)).
expr900() -> ?RULE(exprAtom(), many(elim()), elim(_1, _2)).
exprAtom() ->
@@ -359,9 +365,12 @@ exprAtom() ->
, ?RULE(tok('['), Expr, binop('..'), Expr, tok(']'), _3(_2, _4))
, ?RULE(keyword('('), comma_sep(Expr), tok(')'), tuple_e(_1, _2))
, letpat()
, hole()
])
end).
hole() -> ?RULE(token('???'), {id, get_ann(_1), "???"}).
comprehension_exp() ->
?LAZY_P(choice(
[ comprehension_bind()
@@ -784,3 +793,7 @@ auto_imports(L) when is_list(L) ->
auto_imports(T) when is_tuple(T) ->
auto_imports(tuple_to_list(T));
auto_imports(_) -> [].
any_bytes({id, Ann, "bytes"}) -> {bytes_t, Ann, any};
any_bytes({app_t, _, {id, Ann, "bytes"}, []}) -> {bytes_t, Ann, any};
any_bytes(Type) -> Type.
src/aeso_pretty.erl
+13 -5
View File
@@ -275,7 +275,9 @@ type({tuple_t, _, Args}) ->
tuple_type(Args);
type({args_t, _, Args}) ->
args_type(Args);
type({bytes_t, _, any}) -> text("bytes(_)");
type({bytes_t, _, any}) -> text("bytes()");
type({bytes_t, _, '_'}) -> text("bytes(_)");
type({bytes_t, _, fixed}) -> text("bytes(_)");
type({bytes_t, _, Len}) ->
text(lists:concat(["bytes(", Len, ")"]));
type({if_t, _, Id, Then, Else}) ->
@@ -436,15 +438,20 @@ bin_prec('=') -> { 0, 0, 0}; %% Always printed inside '[ ]'
bin_prec('@') -> { 0, 0, 0}; %% Only in error messages
bin_prec('|>') -> {150, 150, 200};
bin_prec('||') -> {200, 300, 200};
bin_prec('&&') -> {300, 400, 300};
bin_prec('&&') -> {300, 325, 300};
bin_prec('bor') -> {325, 350, 325};
bin_prec('bxor') -> {350, 375, 350};
bin_prec('band') -> {375, 400, 375};
bin_prec('<') -> {400, 500, 500};
bin_prec('>') -> {400, 500, 500};
bin_prec('=<') -> {400, 500, 500};
bin_prec('>=') -> {400, 500, 500};
bin_prec('==') -> {400, 500, 500};
bin_prec('!=') -> {400, 500, 500};
bin_prec('++') -> {500, 600, 500};
bin_prec('::') -> {500, 600, 500};
bin_prec('++') -> {500, 550, 500};
bin_prec('::') -> {500, 550, 500};
bin_prec('<<') -> {550, 600, 550};
bin_prec('>>') -> {550, 600, 550};
bin_prec('+') -> {600, 600, 650};
bin_prec('-') -> {600, 600, 650};
bin_prec('*') -> {700, 700, 750};
@@ -454,7 +461,8 @@ bin_prec('^') -> {750, 750, 800}.
-spec un_prec(aeso_syntax:un_op()) -> {integer(), integer()}.
un_prec('-') -> {650, 650};
un_prec('!') -> {800, 800}.
un_prec('!') -> {800, 800};
un_prec('bnot') -> {850, 850}.
equals(Ann, A, B) ->
{app, [{format, infix} | Ann], {'=', Ann}, [A, B]}.
src/aeso_scan.erl
+1 -1
View File
@@ -45,7 +45,7 @@ lexer() ->
Keywords = ["contract", "include", "let", "switch", "type", "record", "datatype", "if", "elif", "else", "function",
"stateful", "payable", "true", "false", "mod", "public", "entrypoint", "private", "indexed", "namespace",
"interface", "main", "using", "as", "for", "hiding"
"interface", "main", "using", "as", "for", "hiding", "band", "bor", "bxor", "bnot"
],
KW = string:join(Keywords, "|"),
src/aeso_syntax.erl
+5 -4
View File
@@ -10,7 +10,7 @@
-export([get_ann/1, get_ann/2, get_ann/3, set_ann/2, qualify/2]).
-export_type([ann_line/0, ann_col/0, ann_origin/0, ann_format/0, ann/0]).
-export_type([ann_file/0, 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]).
@@ -24,8 +24,9 @@
-type ann_col() :: integer().
-type ann_origin() :: system | user.
-type ann_format() :: '?:' | hex | infix | prefix | elif.
-type ann_file() :: string() | no_file.
-type ann() :: [ {line, ann_line()} | {col, ann_col()} | {format, ann_format()} | {origin, ann_origin()}
-type ann() :: [ {file, ann_file()} | {line, ann_line()} | {col, ann_col()} | {format, ann_format()} | {origin, ann_origin()}
| stateful | private | payable | main | interface | entrypoint].
-type name() :: string().
@@ -106,8 +107,8 @@
-type bin_op() :: '+' | '-' | '*' | '/' | mod | '^'
| '++' | '::' | '<' | '>' | '=<' | '>=' | '==' | '!='
| '||' | '&&' | '..' | '|>'.
-type un_op() :: '-' | '!'.
| '||' | '&&' | '..' | 'band' | 'bor' | 'bxor' | '>>' | '<<' | '|>'.
-type un_op() :: '-' | '!' | 'bnot'.
-type expr()
:: {lam, ann(), [arg()], expr()}
src/aeso_syntax_utils.erl
+4 -3
View File
@@ -31,11 +31,13 @@
| 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, type, T) end,
Expr = fun(E) -> fold(Alg, Fun, expr, E) end,
Type = fun(T) -> fold(Alg, Fun, TypeKind, T) end,
Expr = fun(E) -> fold(Alg, Fun, ExprKind, 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),
@@ -155,4 +157,3 @@ used(D) ->
(_, _) -> #{}
end, decl, D)),
lists:filter(NotBound, Xs).
src/aeso_vm_decode.erl
+18 -1
View File
@@ -15,6 +15,7 @@ from_fate({id, _, "address"}, ?FATE_ADDRESS(Bin)) -> {account_pubkey, [], Bin};
from_fate({app_t, _, {id, _, "oracle"}, _}, ?FATE_ORACLE(Bin)) -> {oracle_pubkey, [], Bin};
from_fate({app_t, _, {id, _, "oracle_query"}, _}, ?FATE_ORACLE_Q(Bin)) -> {oracle_query_id, [], Bin};
from_fate({con, _, _Name}, ?FATE_CONTRACT(Bin)) -> {contract_pubkey, [], Bin};
from_fate({bytes_t, _, any}, ?FATE_BYTES(Bin)) -> {bytes, [], Bin};
from_fate({bytes_t, _, N}, ?FATE_BYTES(Bin)) when byte_size(Bin) == N -> {bytes, [], Bin};
from_fate({id, _, "bits"}, ?FATE_BITS(N)) -> make_bits(N);
from_fate({id, _, "int"}, N) when is_integer(N) ->
@@ -78,6 +79,7 @@ from_fate_builtin(QType, Val) ->
Hsh = {bytes_t, [], 32},
I32 = {bytes_t, [], 32},
I48 = {bytes_t, [], 48},
Bts = {bytes_t, [], any},
Qid = fun(Name) -> {qid, [], Name} end,
Map = fun(KT, VT) -> {app_t, [], {id, [], "map"}, [KT, VT]} end,
ChainTxArities = [3, 0, 0, 0, 0, 0, 1, 1, 1, 2, 1, 2, 2, 1, 1, 1, 1, 1, 1, 1, 2, 0],
@@ -88,7 +90,7 @@ from_fate_builtin(QType, Val) ->
{["AENS", "name"], {variant, [3], 0, {Addr, TTL, Ptrs}}} ->
App(["AENS","Name"], [Chk(Adr, Addr), Chk(Qid(["Chain", "ttl"]), TTL),
Chk(Map(Str, Qid(["AENS", "pointee"])), Ptrs)]);
Chk(Map(Str, Qid(["AENS", "pointee"])), Ptrs)]);
{["AENS", "pointee"], {variant, [1, 1, 1, 1], 0, {Addr}}} ->
App(["AENS","AccountPt"], [Chk(Adr, Addr)]);
@@ -99,6 +101,21 @@ from_fate_builtin(QType, Val) ->
{["AENS", "pointee"], {variant, [1, 1, 1, 1], 3, {Addr}}} ->
App(["AENS","ChannelPt"], [Chk(Adr, Addr)]);
{["AENSv2", "name"], {variant, [3], 0, {Addr, TTL, Ptrs}}} ->
App(["AENSv2","Name"], [Chk(Adr, Addr), Chk(Qid(["Chain", "ttl"]), TTL),
Chk(Map(Str, Qid(["AENSv2", "pointee"])), Ptrs)]);
{["AENSv2", "pointee"], {variant, [1, 1, 1, 1, 1], 0, {Value}}} ->
App(["AENSv2","AccountPt"], [Chk(Adr, Value)]);
{["AENSv2", "pointee"], {variant, [1, 1, 1, 1, 1], 1, {Value}}} ->
App(["AENSv2","OraclePt"], [Chk(Adr, Value)]);
{["AENSv2", "pointee"], {variant, [1, 1, 1, 1, 1], 2, {Value}}} ->
App(["AENSv2","ContractPt"], [Chk(Adr, Value)]);
{["AENSv2", "pointee"], {variant, [1, 1, 1, 1, 1], 3, {Value}}} ->
App(["AENSv2","ChannelPt"], [Chk(Adr, Value)]);
{["AENSv2", "pointee"], {variant, [1, 1, 1, 1, 1], 4, {Value}}} ->
App(["AENSv2","DataPt"], [Chk(Bts, Value)]);
{["Chain", "ga_meta_tx"], {variant, [2], 0, {Addr, X}}} ->
App(["Chain","GAMetaTx"], [Chk(Adr, Addr), Chk(Int, X)]);
src/aesophia.app.src
+1 -1
View File
@@ -1,6 +1,6 @@
{application, aesophia,
[{description, "Compiler for Aeternity Sophia language"},
{vsn, "7.0.1"},
{vsn, "8.0.0"},
{registered, []},
{applications,
[kernel,
test/aeso_compiler_tests.erl
+163 -15
View File
@@ -69,6 +69,7 @@ simple_compile_test_() ->
[ {"Testing warning messages",
fun() ->
#{ warnings := Warnings } = compile("warnings", [warn_all]),
#{ warnings := [] } = compile("warning_unused_include_no_include", [warn_all]),
check_warnings(warnings(), Warnings)
end} ] ++
[].
@@ -169,6 +170,7 @@ compilable_contracts() ->
"namespace_bug",
"bytes_to_x",
"bytes_concat",
"bytes_misc",
"aens",
"aens_update",
"tuple_match",
@@ -205,6 +207,9 @@ compilable_contracts() ->
"polymorphism_variance_switching_chain_create",
"polymorphism_variance_switching_void_supertype",
"polymorphism_variance_switching_unify_with_interface_decls",
"polymorphism_preserve_or_add_payable_contract",
"polymorphism_preserve_or_add_payable_entrypoint",
"polymorphism_preserve_or_remove_stateful_entrypoint",
"missing_init_fun_state_unit",
"complex_compare_leq",
"complex_compare",
@@ -218,6 +223,8 @@ compilable_contracts() ->
"unapplied_contract_call",
"unapplied_named_arg_builtin",
"resolve_field_constraint_by_arity",
"toplevel_constants",
"ceres",
"test" % Custom general-purpose test file. Keep it last on the list.
].
@@ -282,7 +289,11 @@ warnings() ->
<<?PosW(48, 5)
"Unused return value.">>,
<<?PosW(60, 5)
"The function `dec` is defined but never used.">>
"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.">>
]).
failing_contracts() ->
@@ -438,6 +449,10 @@ failing_contracts() ->
[<<?Pos(12, 42)
"Cannot unify `int` and `string`\n"
"when checking the type of the expression `r.foo() : map(int, string)` "
"against the expected type `map(string, int)`">>,
<<?Pos(12, 42)
"Cannot unify `string` and `int`\n"
"when checking the type of the expression `r.foo() : map(int, string)` "
"against the expected type `map(string, int)`">>])
, ?TYPE_ERROR(not_toplevel_include,
[<<?Pos(2, 11)
@@ -595,6 +610,21 @@ failing_contracts() ->
[<<?Pos(3, 5)
"Unbound variable `Chain.event`\n"
"Did you forget to define the event type?">>])
, ?TYPE_ERROR(bad_bytes_to_x,
[<<?Pos(3, 35)
"Cannot resolve length of byte array in\n"
" the result of a call to Bytes.to_fixed_size">>,
<<?Pos(4, 36)
"Cannot unify `bytes()` and `bytes(4)`\nwhen checking the application of\n"
" `Bytes.to_fixed_size : (bytes()) => option('a)`\n"
"to arguments\n"
" `b : bytes(4)`">>,
<<?Pos(4, 36)
"Cannot resolve length of byte array in\n"
" the result of a call to Bytes.to_fixed_size">>,
<<?Pos(5, 35)
"Cannot resolve length of byte array in\n"
" the first argument of a call to Bytes.to_any_size">>])
, ?TYPE_ERROR(bad_bytes_concat,
[<<?Pos(12, 40)
"Failed to resolve byte array lengths in call to Bytes.concat with arguments of type\n"
@@ -619,7 +649,8 @@ failing_contracts() ->
"and result type\n"
" - 'c (at line 16, column 39)">>,
<<?Pos(19, 25)
"Cannot resolve length of byte array.">>])
"Cannot resolve type of byte array in\n"
" the first argument of a call to Bytes.to_str">>])
, ?TYPE_ERROR(bad_bytes_split,
[<<?Pos(13, 5)
"Failed to resolve byte array lengths in call to Bytes.split with argument of type\n"
@@ -654,10 +685,6 @@ 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. "
@@ -855,20 +882,24 @@ failing_contracts() ->
<<?Pos(48, 5)
"Unused return value.">>,
<<?Pos(60, 5)
"The function `dec` is defined but never used.">>
"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.">>
])
, ?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(9,5)
"Duplicate definitions of `f` at\n"
" - line 8, column 5\n"
" - line 9, column 5">>])
[<<?Pos(5,5)
"Cannot unify `char` and `int`\n"
"when implementing the entrypoint `f` from the interface `I1`">>
])
, ?TYPE_ERROR(polymorphism_contract_missing_implementation,
[<<?Pos(4,20)
"Unimplemented function `f` from the interface `I1` in the contract `I2`">>
"Unimplemented entrypoint `f` from the interface `I1` in the contract `I2`">>
])
, ?TYPE_ERROR(polymorphism_contract_same_decl_multi_interface,
[<<?Pos(7,10)
@@ -919,6 +950,9 @@ failing_contracts() ->
<<?Pos(67,36)
"Cannot unify `Cat` and `Animal` in a contravariant context\n"
"when checking the application of\n `DT_INV : ((Cat) => Cat) => dt_inv(Cat)`\nto arguments\n `f_c_to_a : (Cat) => Animal`">>,
<<?Pos(67,36)
"Cannot unify `Cat` and `Animal` in a invariant context\n"
"when checking the type of the expression `DT_INV(f_c_to_a) : dt_inv(Cat)` against the expected type `dt_inv(Animal)`">>,
<<?Pos(68,36)
"Cannot unify `Cat` and `Animal` in a invariant context\n"
"when checking the type of the expression `DT_INV(f_c_to_c) : dt_inv(Cat)` against the expected type `dt_inv(Animal)`">>,
@@ -967,6 +1001,9 @@ failing_contracts() ->
<<?Pos(116,59)
"Cannot unify `Cat` and `Animal` in a contravariant context\n"
"when checking the type of the expression `DT_A_CONTRA_B_CONTRA(f_c_to_c_to_u) : dt_a_contra_b_contra(Cat, Cat)` against the expected type `dt_a_contra_b_contra(Animal, Animal)`">>,
<<?Pos(116,59)
"Cannot unify `Cat` and `Animal` in a contravariant context\n"
"when checking the type of the expression `DT_A_CONTRA_B_CONTRA(f_c_to_c_to_u) : dt_a_contra_b_contra(Cat, Cat)` against the expected type `dt_a_contra_b_contra(Animal, Animal)`">>,
<<?Pos(119,59)
"Cannot unify `Cat` and `Animal` in a contravariant context\n"
"when checking the type of the expression `DT_A_CONTRA_B_CONTRA(f_c_to_a_to_u) : dt_a_contra_b_contra(Cat, Animal)` against the expected type `dt_a_contra_b_contra(Animal, Cat)`">>,
@@ -1010,6 +1047,9 @@ failing_contracts() ->
<<?Pos(19,13)
"Cannot unify `Cat` and `Animal` in a contravariant context\n"
"when checking the type of the pattern `o07 : oracle(Animal, Cat)` against the expected type `oracle(Cat, Animal)`">>,
<<?Pos(19,13)
"Cannot unify `Animal` and `Cat` in a covariant context\n"
"when checking the type of the pattern `o07 : oracle(Animal, Cat)` against the expected type `oracle(Cat, Animal)`">>,
<<?Pos(20,13)
"Cannot unify `Cat` and `Animal` in a contravariant context\n"
"when checking the type of the pattern `o08 : oracle(Animal, Cat)` against the expected type `oracle(Cat, Cat)`">>,
@@ -1034,6 +1074,9 @@ failing_contracts() ->
<<?Pos(42,13)
"Cannot unify `Animal` and `Cat` in a covariant context\n"
"when checking the type of the pattern `q13 : oracle_query(Cat, Cat)` against the expected type `oracle_query(Animal, Animal)`">>,
<<?Pos(42,13)
"Cannot unify `Animal` and `Cat` in a covariant context\n"
"when checking the type of the pattern `q13 : oracle_query(Cat, Cat)` against the expected type `oracle_query(Animal, Animal)`">>,
<<?Pos(43,13)
"Cannot unify `Animal` and `Cat` in a covariant context\n"
"when checking the type of the pattern `q14 : oracle_query(Cat, Cat)` against the expected type `oracle_query(Animal, Cat)`">>,
@@ -1095,19 +1138,19 @@ failing_contracts() ->
])
, ?TYPE_ERROR(polymorphic_aens_resolve,
[<<?Pos(4,5)
"Invalid return type of `AENS.resolve`:\n"
"Invalid return type of `AENSv2.resolve`:\n"
" `'a`\n"
"It must be a `string` or a pubkey type (`address`, `oracle`, etc)">>
])
, ?TYPE_ERROR(bad_aens_resolve,
[<<?Pos(6,5)
"Invalid return type of `AENS.resolve`:\n"
"Invalid return type of `AENSv2.resolve`:\n"
" `list(int)`\n"
"It must be a `string` or a pubkey type (`address`, `oracle`, etc)">>
])
, ?TYPE_ERROR(bad_aens_resolve_using,
[<<?Pos(7,5)
"Invalid return type of `AENS.resolve`:\n"
"Invalid return type of `AENSv2.resolve`:\n"
" `list(int)`\n"
"It must be a `string` or a pubkey type (`address`, `oracle`, etc)">>
])
@@ -1152,6 +1195,111 @@ failing_contracts() ->
"to arguments\n"
" `Chain.create : (value : int, var_args) => 'c`">>
])
, ?TYPE_ERROR(polymorphism_add_stateful_entrypoint,
[<<?Pos(5,25)
"`f` cannot be stateful because the entrypoint `f` in the interface `I` is not stateful">>
])
, ?TYPE_ERROR(polymorphism_change_entrypoint_to_function,
[<<?Pos(6,14)
"`f` must be declared as an entrypoint instead of a function in order to implement the entrypoint `f` from the interface `I`">>
])
, ?TYPE_ERROR(polymorphism_non_payable_contract_implement_payable,
[<<?Pos(4,10)
"Non-payable contract `C` cannot implement payable interface `I`">>
])
, ?TYPE_ERROR(polymorphism_non_payable_interface_implement_payable,
[<<?Pos(4,20)
"Non-payable interface `H` cannot implement payable interface `I`">>
])
, ?TYPE_ERROR(polymorphism_remove_payable_entrypoint,
[<<?Pos(5,16)
"`f` must be payable because the entrypoint `f` in the interface `I` is payable">>
])
, ?TYPE_ERROR(calling_child_contract_entrypoint,
[<<?Pos(5,20)
"Invalid call to contract entrypoint `F.g`.\n"
"It must be called as `c.g` for some `c : F`.">>])
, ?TYPE_ERROR(using_contract_as_namespace,
[<<?Pos(5,3)
"Cannot use undefined namespace F">>])
, ?TYPE_ERROR(hole_expression,
[<<?Pos(5,13)
"Found a hole of type `bool`">>,
<<?Pos(6,17)
"Found a hole of type `string`">>,
<<?Pos(9,37)
"Found a hole of type `(int) => int`">>,
<<?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_() ->
test/aeso_parser_tests.erl
+1 -1
View File
@@ -53,7 +53,7 @@ simple_contracts_test_() ->
%% associativity
[ RightAssoc(Op) || Op <- ["||", "&&", "::", "++"] ],
[ NonAssoc(Op) || Op <- ["==", "!=", "<", ">", "=<", ">="] ],
[ LeftAssoc(Op) || Op <- ["+", "-", "*", "/", "mod"] ],
[ LeftAssoc(Op) || Op <- ["+", "-", "*", "/", "mod", "band", "bor", "bxor", "<<", ">>"] ],
%% precedence
[ Stronger(Op2, Op1) || [T1 , T2 | _] <- tails(Tiers), Op1 <- T1, Op2 <- T2 ],
test/aeso_scan_tests.erl
+2 -1
View File
@@ -39,7 +39,8 @@ all_tokens() ->
%% Symbols
lists:map(Lit, [',', '.', ';', '|', ':', '(', ')', '[', ']', '{', '}']) ++
%% Operators
lists:map(Lit, ['=', '==', '!=', '>', '<', '>=', '=<', '-', '+', '++', '*', '/', mod, ':', '::', '->', '=>', '||', '&&', '!']) ++
lists:map(Lit, ['=', '==', '!=', '>', '<', '>=', '=<', '-', '+', '++', '*', '/', mod,
':', '::', '->', '=>', '||', '&&', '!', 'band', 'bor', 'bxor', 'bnot' ,'<<', '>>']) ++
%% Keywords
lists:map(Lit, [contract, type, 'let', switch]) ++
%% Comment token (not an actual token), just for tests
test/contracts/aens.aes
+17 -17
View File
@@ -6,77 +6,77 @@ main contract AENSTest =
// Name resolution
stateful entrypoint resolve_word(name : string, key : string) : option(address) =
AENS.resolve(name, key)
AENSv2.resolve(name, key)
stateful entrypoint resolve_string(name : string, key : string) : option(string) =
AENS.resolve(name, key)
AENSv2.resolve(name, key)
stateful entrypoint resolve_contract(name : string, key : string) : option(C) =
AENS.resolve(name, key)
AENSv2.resolve(name, key)
stateful entrypoint resolve_oracle(name : string, key : string) : option(oracle(int, int)) =
AENS.resolve(name, key)
AENSv2.resolve(name, key)
stateful entrypoint resolve_oracle_query(name : string, key : string) : option(oracle_query(int, int)) =
AENS.resolve(name, key)
AENSv2.resolve(name, key)
// Transactions
stateful entrypoint preclaim(addr : address, // Claim on behalf of this account (can be Contract.address)
chash : hash) : unit = // Commitment hash
AENS.preclaim(addr, chash)
AENSv2.preclaim(addr, chash)
stateful entrypoint signedPreclaim(addr : address, // Claim on behalf of this account (can be Contract.address)
chash : hash, // Commitment hash
sign : signature) : unit = // Signed by addr (if not Contract.address)
AENS.preclaim(addr, chash, signature = sign)
AENSv2.preclaim(addr, chash, signature = sign)
stateful entrypoint claim(addr : address,
name : string,
salt : int,
name_fee : int) : unit =
AENS.claim(addr, name, salt, name_fee)
AENSv2.claim(addr, name, salt, name_fee)
stateful entrypoint signedClaim(addr : address,
name : string,
salt : int,
name_fee : int,
sign : signature) : unit =
AENS.claim(addr, name, salt, name_fee, signature = sign)
AENSv2.claim(addr, name, salt, name_fee, signature = sign)
stateful entrypoint update(owner : address,
name : string,
ttl : option(Chain.ttl),
client_ttl : option(int),
pointers : option(map(string, AENS.pointee))) : unit =
AENS.update(owner, name, ttl, client_ttl, pointers)
pointers : option(map(string, AENSv2.pointee))) : unit =
AENSv2.update(owner, name, ttl, client_ttl, pointers)
stateful entrypoint signedUpdate(owner : address,
name : string,
ttl : option(Chain.ttl),
client_ttl : option(int),
pointers : option(map(string, AENS.pointee)),
pointers : option(map(string, AENSv2.pointee)),
sign : signature) : unit =
AENS.update(owner, name, ttl, client_ttl, pointers, signature = sign)
AENSv2.update(owner, name, ttl, client_ttl, pointers, signature = sign)
stateful entrypoint transfer(owner : address,
new_owner : address,
name : string) : unit =
AENS.transfer(owner, new_owner, name)
AENSv2.transfer(owner, new_owner, name)
stateful entrypoint signedTransfer(owner : address,
new_owner : address,
name : string,
sign : signature) : unit =
AENS.transfer(owner, new_owner, name, signature = sign)
AENSv2.transfer(owner, new_owner, name, signature = sign)
stateful entrypoint revoke(owner : address,
name : string) : unit =
AENS.revoke(owner, name)
AENSv2.revoke(owner, name)
stateful entrypoint signedRevoke(owner : address,
name : string,
sign : signature) : unit =
AENS.revoke(owner, name, signature = sign)
AENSv2.revoke(owner, name, signature = sign)
test/contracts/aens_update.aes
+27 -12
View File
@@ -1,17 +1,32 @@
contract AENSUpdate =
stateful entrypoint update_name(owner : address, name : string) =
let p1 : AENS.pointee = AENS.AccountPt(Call.caller)
let p2 : AENS.pointee = AENS.OraclePt(Call.caller)
let p3 : AENS.pointee = AENS.ContractPt(Call.caller)
let p4 : AENS.pointee = AENS.ChannelPt(Call.caller)
AENS.update(owner, name, None, None,
Some({ ["account_pubkey"] = p1, ["oracle_pubkey"] = p2,
["contract_pubkey"] = p3, ["misc"] = p4 }))
include "Option.aes"
include "String.aes"
include "AENSCompat.aes"
contract interface OldAENSContract =
entrypoint set : (string, string, AENS.pointee) => unit
entrypoint lookup : (string, string) => AENS.pointee
main contract AENSUpdate =
stateful entrypoint update_name(owner : address, name : string, b : bytes(2)) =
let p1 : AENSv2.pointee = AENSv2.AccountPt(Call.caller)
let p2 : AENSv2.pointee = AENSv2.OraclePt(Call.caller)
let p3 : AENSv2.pointee = AENSv2.ContractPt(Call.caller)
let p4 : AENSv2.pointee = AENSv2.ChannelPt(Call.caller)
let p5 : AENSv2.pointee = AENSv2.DataPt(String.to_bytes("any something will do"))
let p6 : AENSv2.pointee = AENSv2.DataPt(Int.to_bytes(1345, 4))
AENSv2.update(owner, name, None, None,
Some({ ["account_pubkey"] = p1, ["oracle_pubkey"] = p2,
["contract_pubkey"] = p3, ["misc"] = p4, ["data"] = p5, ["data2"] = p6 }))
stateful entrypoint old_interaction(c : OldAENSContract, owner : address, name : string) =
let p : AENS.pointee = c.lookup(name, "key1")
AENSv2.update(owner, name, None, None, Some({ ["key1"] = AENSCompat.pointee_to_V2(p) }))
switch(AENSv2.lookup(name))
Some(AENSv2.Name(_, _, pt_map)) =>
c.set(name, "key2", Option.force(AENSCompat.pointee_from_V2(pt_map["key1"])))
entrypoint get_ttl(name : string) =
switch(AENS.lookup(name))
Some(AENS.Name(_, FixedTTL(ttl), _)) => ttl
switch(AENSv2.lookup(name))
Some(AENSv2.Name(_, FixedTTL(ttl), _)) => ttl
entrypoint expiry(o : oracle(int, int)) : int =
Oracle.expiry(o)
test/contracts/all_syntax.aes
+3
View File
@@ -6,6 +6,7 @@
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
@@ -33,6 +34,8 @@ contract AllSyntax =
type state = shakespeare(int)
let cc = "str"
entrypoint init() = {
johann = 1000,
wolfgang = -10,
test/contracts/bad_aens_resolve.aes
+1 -1
View File
@@ -3,7 +3,7 @@ contract BadAENSresolve =
type t('a) = option(list('a))
function fail() : t(int) =
AENS.resolve("foo.aet", "whatever")
AENSv2.resolve("foo.aet", "whatever")
entrypoint main_fun() = ()
test/contracts/bad_aens_resolve_using.aes
+2 -2
View File
@@ -1,9 +1,9 @@
contract BadAENSresolve =
using AENS
using AENSv2
type t('a) = option(list('a))
function fail() : t(int) =
resolve("foo.aet", "whatever")
entrypoint main_fun() = ()
entrypoint main_fun() = ()
test/contracts/bad_bytes_to_x.aes
+5
View File
@@ -0,0 +1,5 @@
// include "String.aes"
contract BytesToX =
entrypoint fail1(b : bytes()) = Bytes.to_fixed_size(b)
entrypoint fail2(b : bytes(4)) = Bytes.to_fixed_size(b)
entrypoint fail3(b : bytes()) = Bytes.to_any_size(b)
test/contracts/bytes_misc.aes
+27
View File
@@ -0,0 +1,27 @@
include "String.aes"
contract BytesMisc =
entrypoint sizeFixed(b : bytes(4)) : int = Bytes.size(b)
entrypoint sizeAny(b : bytes()) : int = Bytes.size(b)
entrypoint int_to_bytes(i : int) : bytes() = Int.to_bytes(i, 16)
entrypoint test(b3 : bytes(3), b7 : bytes(7), bX : bytes, i : int, s : string) =
let bi = Int.to_bytes(i, 8)
let bs = String.to_bytes(s)
let b10 = Bytes.concat(b3, b7)
let (b4, b6 : bytes(6)) = Bytes.split(b10)
let Some((b8, b2)) = Bytes.split_any(bX, 8)
let bX7 = Bytes.concat(bX, b7)
let Some((b5, bX2)) = Bytes.split_any(bX7, 5)
let Some((b7b, b0)) = Bytes.split_any(bX, Bytes.size(b7))
let Some(b5b : bytes(5)) = Bytes.to_fixed_size(b5)
let (b1 : bytes(1), _) = Bytes.split(b5b)
[bi, bs, b0, Bytes.to_any_size(b1), b2, Bytes.to_any_size(b4), Bytes.to_any_size(b6), b7b, b8, bX2]
test/contracts/bytes_to_x.aes
+2
View File
@@ -6,3 +6,5 @@ contract BytesToX =
String.concat(Bytes.to_str(b), Bytes.to_str(#ffff))
entrypoint to_str_big(b : bytes(65)) : string =
Bytes.to_str(b)
entrypoint to_fixed(b : bytes()) : option(bytes(4)) = Bytes.to_fixed_size(b)
entrypoint to_any(b : bytes(4)) = Bytes.to_any_size(b)
test/contracts/calling_child_contract_entrypoint.aes
+5
View File
@@ -0,0 +1,5 @@
contract F =
entrypoint g() = 1
main contract C =
entrypoint f() = F.g()
test/contracts/ceres.aes
+14
View File
@@ -0,0 +1,14 @@
contract C =
entrypoint test() =
let a : int = 23
let b : int = 52
let c = a bor b
let d = c bxor b
let e = d band b
let f = bnot a
let g = f << 2
let h = g >> 2
let i = Int.mulmod(a, b, h)
let j = Crypto.poseidon(i, a)
let k : bytes(32) = Address.to_bytes(Call.origin)
(a bor b band c bxor a << bnot b >> a, k)
test/contracts/chain.aes
+5 -1
View File
@@ -2,7 +2,8 @@
contract ChainTest =
record state = { last_bf : address }
record state = { last_bf : address
, nw_id : string }
function init() : state =
{last_bf = Contract.address}
@@ -11,3 +12,6 @@ contract ChainTest =
function save_coinbase() =
put(state{last_bf = Chain.coinbase})
function save_network_id() =
put(state{nw_id = Chain.network_id})
test/contracts/hole_expression.aes
+13
View File
@@ -0,0 +1,13 @@
include "List.aes"
contract C =
entrypoint f() =
let ??? = true
let v = ???
let q = v == "str"
let xs = [1, 2, 3, 4]
switch (List.first(List.map(???, xs)))
Some(x) => x + 1
None => 0
function g() = ???
test/contracts/polymorphic_aens_resolve.aes
+1 -1
View File
@@ -1,7 +1,7 @@
contract PolymorphicAENSresolve =
function fail() : option('a) =
AENS.resolve("foo.aet", "whatever")
AENSv2.resolve("foo.aet", "whatever")
entrypoint main_fun() = ()
test/contracts/polymorphism_add_stateful_entrypoint.aes
+5
View File
@@ -0,0 +1,5 @@
contract interface I =
entrypoint f : () => int
contract C : I =
stateful entrypoint f() = 1
test/contracts/polymorphism_change_entrypoint_to_function.aes
+6
View File
@@ -0,0 +1,6 @@
contract interface I =
entrypoint f : () => int
contract C : I =
entrypoint init() = ()
function f() = 1
test/contracts/polymorphism_non_payable_contract_implement_payable.aes
+5
View File
@@ -0,0 +1,5 @@
payable contract interface I =
payable entrypoint f : () => int
contract C : I =
entrypoint f() = 123
test/contracts/polymorphism_non_payable_interface_implement_payable.aes
+8
View File
@@ -0,0 +1,8 @@
payable contract interface I =
payable entrypoint f : () => int
contract interface H : I =
payable entrypoint f : () => int
payable contract C : H =
entrypoint f() = 123
test/contracts/polymorphism_preserve_or_add_payable_contract.aes
+14
View File
@@ -0,0 +1,14 @@
contract interface F =
entrypoint f : () => int
payable contract interface G : F =
payable entrypoint f : () => int
entrypoint g : () => int
payable contract interface H =
payable entrypoint h : () => int
payable contract C : G, H =
payable entrypoint f() = 1
payable entrypoint g() = 2
payable entrypoint h() = 3
test/contracts/polymorphism_preserve_or_add_payable_entrypoint.aes
+7
View File
@@ -0,0 +1,7 @@
contract interface I =
payable entrypoint f : () => int
entrypoint g : () => int
contract C : I =
payable entrypoint f() = 1
payable entrypoint g() = 2
test/contracts/polymorphism_preserve_or_remove_stateful_entrypoint.aes
+7
View File
@@ -0,0 +1,7 @@
contract interface I =
stateful entrypoint f : () => int
stateful entrypoint g : () => int
contract C : I =
stateful entrypoint f() = 1
entrypoint g() = 2
test/contracts/polymorphism_remove_payable_entrypoint.aes
+5
View File
@@ -0,0 +1,5 @@
contract interface I =
payable entrypoint f : () => int
contract C : I =
entrypoint f() = 1
test/contracts/toplevel_constants.aes
+64
View File
@@ -0,0 +1,64 @@
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
@@ -0,0 +1,11 @@
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
@@ -0,0 +1,6 @@
contract C =
let selfcycle = selfcycle
let cycle1 = cycle2
let cycle2 = cycle3
let cycle3 = cycle1
test/contracts/toplevel_constants_in_interface.aes
+7
View File
@@ -0,0 +1,7 @@
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
@@ -0,0 +1,21 @@
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
@@ -0,0 +1,3 @@
contract C =
let x::_ = [1,2,3,4]
let y::(p = z::_) = [1,2,3,4]
test/contracts/toplevel_let.aes
-3
View File
@@ -1,3 +0,0 @@
contract C =
let this_is_illegal = 2/0
entrypoint this_is_legal() = 2/0
test/contracts/unapplied_builtins.aes
+6 -6
View File
@@ -2,10 +2,10 @@
// Named argument builtins are:
// Oracle.register
// Oracle.respond
// AENS.preclaim
// AENS.claim
// AENS.transfer
// AENS.revoke
// AENSv2.preclaim
// AENSv2.claim
// AENSv2.transfer
// AENSv2.revoke
// Oracle.extend
include "String.aes"
contract UnappliedBuiltins =
@@ -28,7 +28,7 @@ contract UnappliedBuiltins =
function oracle_get_answer() = Oracle.get_answer : (o, _) => _
function oracle_check() = Oracle.check : o => _
function oracle_check_query() = Oracle.check_query : (o, _) => _
function aens_resolve() = AENS.resolve : (_, _) => option(string)
function aens_resolve() = AENSv2.resolve : (_, _) => option(string)
function map_lookup() = Map.lookup : (_, m) => _
function map_lookup_default() = Map.lookup_default : (_, m, _) => _
function map_member() = Map.member : (_, m) => _
@@ -36,7 +36,7 @@ contract UnappliedBuiltins =
function map_delete() = Map.delete : (_, m) => _
function map_from_list() = Map.from_list : _ => m
function map_to_list() = Map.to_list : m => _
function crypto_verify_sig() = Crypto.verify_sig
function crypto_verify_sig() = Crypto.verify_sig : (bytes(), _, _) => _
function crypto_verify_sig_secp256k1() = Crypto.verify_sig_secp256k1
function crypto_ecverify_secp256k1() = Crypto.ecverify_secp256k1
function crypto_ecrecover_secp256k1() = Crypto.ecrecover_secp256k1
test/contracts/using_contract_as_namespace.aes
+7
View File
@@ -0,0 +1,7 @@
contract F =
entrypoint g() = 1
main contract C =
using F for [g]
entrypoint f() = g()
test/contracts/warning_unused_include_no_include.aes
+5
View File
@@ -0,0 +1,5 @@
namespace N =
function nconst() = 1
main contract C =
entrypoint f() = N.nconst()
test/contracts/warnings.aes
+29 -1
View File
@@ -12,7 +12,7 @@ namespace UnusedNamespace =
// Unused
private function h() = 3
contract Warnings =
main contract Warnings =
type state = int
@@ -58,3 +58,31 @@ namespace FunctionsAsArgs =
private function inc(n : int) : int = n + 1
// Never used
private function dec(n : int) : int = n - 1
contract Remote =
entrypoint id(_) = 0
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