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

42 Commits
old_ceres ... zomp

Author SHA1 Message Date
zxq9 3771b6a5f2 Meta update 2024-11-12 19:13:20 +09:00
zxq9 ec316d2a0d Include shuffle 2024-11-08 11:33:09 +09:00
zxq9 6c6bf38d8c WIP 2024-11-01 14:04:45 +09:00
zxq9 9f90396023 Merge branch 'master' into zomp 2024-11-01 13:58:32 +09:00
Hans Svensson 927cd42592 Add check for number of type variables in type signature (#512) 
* Fix tvar string generation

* Add check for number of tvars in a single type signature

The number of tvars is limited by serialization (u8) to 255

* Added a comment in CHANGELOG

* Docs fixes

* Adding docs about the limitation on number of tvars

* Limit is 256, not 255

* Update CHANGELOG.md

Co-authored-by: Gaith Hallak <gaithhallak@gmail.com>

---------

Co-authored-by: Gaith Hallak <gaithhallak@gmail.com>
 2024-08-26 13:34:02 +02:00
Denis Davidyuk 16308a7840 Docs: Move poseidon outside of create (#510) 2024-08-12 09:02:56 +02:00
Denis Davidyuk 46a307432f Docs: Fix return value type in Auction example (#511) 2024-08-12 09:02:29 +02:00
Gaith Hallak 83dcc6dbc4 Upgrade to the latest aebytecode to fix C warnings (#509) 2024-05-24 15:46:21 +03:00
Hans Svensson ffdd4ecf26 Prepare release v8.0.0 (#506) 2024-04-18 09:15:34 +02:00
Hans Svensson 51bae61736 Add signature literals (#505) 
* Add signature literals + handle system alias types

* Add tests for signature literals + encode/decode

* Add to CHANGELOG

* Add in documentation

* Additional documentation
 2024-04-10 16:34:29 +02:00
Gaith Hallak 31301911a2 Docs: Mention the unit type in the literals section (#504) 2024-02-16 19:11:08 +03:00
Hans Svensson de426a210b Fix parser/pretty printer for OTP-27 (#502) 
* In OTP-27 else is made a keyword, so needs quouting

* Fix List.aes - remove unnecessary self-qualification

* Changelog
 2024-02-16 09:57:23 +01:00
Hans Svensson 944ed49f0b Allow self-qualification (#503) 
* Properly allow self-qualification

* Changelog

* Simplify logic as suggested by Ulf
 2024-02-16 09:56:26 +01:00
Radosław Rowicki 1387e814f8 Fix printing FCode with lifted lambdas (#501) 2024-02-04 09:24:41 +01:00
Hans Svensson 44d6982d66 Prepare release v8.0.0-rc1 2024-01-31 09:11:30 +01:00
Hans Svensson aa532046d3 [Ceres]: Improve documentation of new features 2024-01-31 09:11:30 +01:00
Hans Svensson fbaab570f2 [Ceres]: Handle Bytes.to_any_size in calldata (#495) 
* [Ceres] Handle Bytes.to_any_size in calldata

* Edit CHANGELOG
 2024-01-31 09:11:30 +01:00
Hans Svensson 1a80f3faa0 [Ceres]: Update delegation signature documentation (#494) 
* [Ceres]: Update delegation signature documentation

* Fix TYPOs
 2024-01-31 09:11:30 +01:00
Hans Svensson 745eeda858 [Ceres]: Raw pointers as bytes (#493) 
* DataPt should contain bytes() now that we have it

* Fix missing negation in docs
 2024-01-31 09:11:30 +01:00
Hans Svensson 78b758c337 [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
 2024-01-31 09:11:30 +01:00
Hans Svensson 108cb1f948 [Ceres]: Add Chain.network_id (#468) 
* Add Chain.network_id

* Bump aebytecode version
 2024-01-31 09:11:30 +01:00
Hans Svensson 2c8dcf8032 [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
 2024-01-31 09:11:30 +01:00
Hans Svensson c51d0a5e21 [Ceres]: Document generic all names delegation signatures (#440) 2024-01-31 09:11:30 +01:00
Hans Svensson e44174b71c [Ceres]: document changes to Auth.tx_hash (#439) 2024-01-31 09:11:30 +01:00
Hans Svensson dcea538e11 [Ceres]: Introduce AENSv2 to add raw data pointers (#426) 
Remove unused variable in AENSCompat
 2024-01-31 09:11:30 +01:00
Hans Svensson f60f9122ba [Ceres]: Add bitwise ops, Address.to_bytes and Crypto.poseidon 2024-01-31 09:11:30 +01:00
Hans Svensson 5c3b42aff1 Fix Typo and whitespace in sophia_features.md (#500) 2024-01-25 09:57:08 +01:00
Hans Svensson dbeb792ca5 Prepare release v4.7.1 (#497) 2024-01-23 16:14:03 +01:00
Hans Svensson f75455bb85 Bump pygments version (#496) 2024-01-23 15:55:12 +01:00
Gaith Hallak cdbd430f23 Disable unused type warnings for type used inside of records (#492) 
* Do not show warning for types used in records

* Exclude .vscode in .gitignore

* Update CHANGELOG.md
 2023-11-27 12:12:24 +03:00
Hans Svensson 03d6dd6ca2 Improve resolution of relative includes (#489) 
* Add aeso_utils:canonical_dir/1

* Add current file directory when resolving includes

* Add CHANGELOG

* Add documentation

* Add a test case

* Properly keep track of src_dir
 2023-09-14 15:00:30 +02:00
Hans Svensson 33229c3513 Prepare release v7.4.0 (#487) 2023-09-05 10:04:46 +02:00
Radosław Rowicki 002e55d529 Name lambdas by their locations (#486) 
* Name lambdas by their locations

* changelog
 2023-09-04 18:50:37 +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
zxq9 f11697da1a Fix Sophia stdlib path resolution. 2023-04-28 23:43:05 +09:00
zxq9 fc2731fbbb Merge branch 'master' into zomp 2023-04-28 17:12:02 +09:00
zxq9 cc76f93dd7 Fix includes 2023-04-28 17:11:07 +09:00
zxq9 add82fe5ee Package for ZX/Zomp 2023-03-16 16:12:45 +09:00
59 changed files with 1453 additions and 726 deletions
Expand all files Collapse all files
.github/workflows/requirements.txt
+1 -1
View File
@@ -2,4 +2,4 @@ mkdocs==1.4.2
mkdocs-simple-hooks==0.1.5
mkdocs-material==9.0.9
mike==1.1.2
pygments==2.14.0
pygments==2.17.2
.gitignore
+1
View File
@@ -24,3 +24,4 @@ current_counterexample.eqc
test/contracts/test.aes
__pycache__
.docssite/docs/*.md
.vscode
CHANGELOG.md
+63 -1
View File
@@ -6,9 +6,66 @@ and this project adheres to [Semantic Versioning](https://semver.org/spec/v2.0.0
## [Unreleased]
### Added
- Added a check for number of type variables in a type signature; it is serialized using 8 bits,
so the upper limit is 256.
### Changed
### Removed
## [8.0.1]
### Changed
- Upgrade aebytecode to v3.4.1 to fix C warnings
## [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(bytes())`. 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.
- Allowing `Bytes.to_any_size` in calldata creation, to enable creation of arguments
with arbitray size.
- Signature literals `sg_...` - they have type `signature` (which is an alias for `bytes(64)`).
- Support for OTP-27 - no changes in behavior.
### 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`).
- System aliases are handled explicitly when converting to a Sophia value, this is only
observable for `signature` where a value of type `signature` is now represented as a
(new) signature literal.
- Allow self-qualification, i.e. referencing `X.foo` when in namespace `X`.
### Removed
- `Bitwise.aes` standard library is removed - the builtin operations are superior.
## [7.4.1]
### Changed
- Improve how includes with relative paths are resolved during parsing/compilation. Relative
include paths are now always relative to the file containing the `include` statement.
### Fixed
- Disable unused type warnings for types used inside of records.
## [7.4.0]
### Changed
- Names of lifted lambdas now consist of parent function's name and their
position in the source code.
### Fixed
- Lifted lambdas get their names assigned deterministically.
## [7.3.0]
### Fixed
- Fixed a bug with polymorphism that allowed functions with the same name but different type to be considered as implementations for their corresponding interface function.
- Fixed a bug in the byte code optimization that incorrectly reordered dependent instructions.
## [7.2.1]
### Fixed
@@ -399,7 +456,12 @@ 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/v7.2.1...HEAD
[Unreleased]: https://github.com/aeternity/aesophia/compare/v8.0.1...HEAD
[8.0.1]: https://github.com/aeternity/aesophia/compare/v8.0.0...v8.0.1
[8.0.0]: https://github.com/aeternity/aesophia/compare/v7.4.1...v8.0.0
[7.4.1]: https://github.com/aeternity/aesophia/compare/v7.4.0...v7.4.1
[7.4.0]: https://github.com/aeternity/aesophia/compare/v7.3.0...v7.4.0
[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
Emakefile
+1
View File
@@ -0,0 +1 @@
{"src/*", [debug_info, {i, "include/"}, {outdir, "ebin/"}]}.
docs/sophia_features.md
+83 -17
View File
@@ -84,7 +84,7 @@ the return value of the call.
```sophia
contract interface VotingType =
entrypoint : vote : string => unit
entrypoint vote : string => unit
contract Voter =
entrypoint tryVote(v : VotingType, alt : string) =
@@ -204,7 +204,7 @@ When a `contract` or a `contract interface` implements another `contract interfa
#### 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)),
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)),
>Variance refers to how subtyping between more complex types relates to subtyping between their components.
@@ -224,11 +224,11 @@ A good example of where it matters can be pictured by subtyping of function type
```sophia
contract interface Animal =
entrypoint age : () => int
contract Dog : Animal =
entrypoint age() = // ...
entrypoint woof() = "woof"
contract Cat : Animal =
entrypoint age() = // ...
entrypoint meow() = "meow"
@@ -295,6 +295,11 @@ of `A`.
- When a user-defined type `t('a)` is invariant in `'a`, then `t(A)` can never be
a subtype of `t(B)`.
#### Type variable limitation
Because of how FATE represents types as values there is a fixed upper limit (256)
of type variables that can be used in a single type signature.
## Mutable state
Sophia does not have arbitrary mutable state, but only a limited form of state
@@ -493,6 +498,24 @@ the file, except that error messages will refer to the original source
locations. The language will try to include each file at most one time automatically,
so even cyclic includes should be working without any special tinkering.
### Include files using relative paths
When including code from another file using the `include` statement, the path
is relative to _the file that includes it_. Consider the following file tree:
```
c1.aes
c3.aes
dir1/c2.aes
dir1/c3.aes
```
If `c1.aes` contains `include "c3.aes"` it will include the top level `c3.aes`,
while if `c2.aes` contained the same line it would as expected include
`dir1/c3.aes`.
Note: Prior to v7.5.0, it would consider the include path relative to _the main
contract file_ (or any explicitly set include path).
## Standard library
Sophia offers [standard library](sophia_stdlib.md) which exposes some
@@ -540,6 +563,7 @@ Sophia has the following types:
## Literals
| Type | Constant/Literal example(s) |
| ---------- | ------------------------------- |
| unit | () |
| int | `-1`, `2425`, `4598275923475723498573485768` |
| address | `ak_2gx9MEFxKvY9vMG5YnqnXWv1hCsX7rgnfvBLJS4aQurustR1rt` |
| bool | `true`, `false` |
@@ -554,7 +578,7 @@ Sophia has the following types:
| state | `state{ owner = Call.origin, magic_key = #a298105f }` |
| event | `EventX(0, "Hello")` |
| hash | `#000102030405060708090a0b0c0d0e0f000102030405060708090a0b0c0d0e0f` |
| signature | `#000102030405060708090a0b0c0d0e0f000102030405060708090a0b0c0d0e0f000102030405060708090a0b0c0d0e0f000102030405060708090a0b0c0d0e0f` |
| signature | `sg_MhibzTP1wWzGCTjtPFr1TiPqRJrrJqw7auvEuF5i3FdoALWqXLBDY6xxRRNUSPHK3EQTnTzF12EyspkxrSMxVHKsZeSMj`, `#000102030405060708090a0b0c0d0e0f000102030405060708090a0b0c0d0e0f000102030405060708090a0b0c0d0e0f000102030405060708090a0b0c0d0e0f` |
| Chain.ttl | `FixedTTL(1050)`, `RelativeTTL(50)` |
| oracle('a, 'b) | `ok_2YNyxd6TRJPNrTcEDCe9ra59SVUdp9FR9qWC5msKZWYD9bP9z5` |
| oracle_query('a, 'b) | `oq_2oRvyowJuJnEkxy58Ckkw77XfWJrmRgmGaLzhdqb67SKEL1gPY` |
@@ -610,14 +634,28 @@ arithmetic operations:
- remainder (`x mod y`), satisfying `y * (x / y) + x mod y == x` for non-zero `y`
- exponentiation (`x ^ y`)
All operations are *safe* with respect to overflow and underflow.
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`)
Note: Arithmetic bitshift treats the number as a signed integer (in 2s
complement), and "retains" the topmost bit. I.e. shifting in zeros if the
topmost bit was 0, and ones if it was one.
## Bit fields
Sophia integers do not support bit arithmetic. Instead there is a separate
type `bits`. See the standard library [documentation](sophia_stdlib.md#bits).
Originally Sophia integers did not support bit arithmetic. Instead we used a
separate type `bits` (see the standard library
[documentation](sophia_stdlib.md#bits)) - it is still provided as an
alternative to bit arithmetic.
A bit field can be of arbitrary size (but it is still represented by the
corresponding integer, so setting very high bits can be expensive).
@@ -922,16 +960,18 @@ functions are provided.
## AENS interface
Contracts can interact with the
[æternity naming system](https://github.com/aeternity/protocol/blob/master/AENS.md).
For this purpose the [AENS](sophia_stdlib.md#aens) library was exposed.
Contracts can interact with the [æternity naming
system](https://github.com/aeternity/protocol/blob/master/AENS.md). For this
purpose the [AENS](sophia_stdlib.md#aens) and later the
[AENSv2](sophia_stdlib.md#aensv2) library was exposed.
### Example
In this example we assume that the name `name` already exists, and is owned by
an account with address `addr`. In order to allow a contract `ct` to handle
`name` the account holder needs to create a
[signature](#delegation-signature) `sig` of `addr | name.hash | ct.address`.
`name` the account holder needs to create a [delegation
signature](#delegation-signature) `sig` from the name owner address `addr`, the
name hash and the contract address.
Armed with this information we can for example write a function that extends
the name if it expires within 1000 blocks:
@@ -1073,8 +1113,34 @@ however is in the gas consumption — while `abort` returns unused gas, a call t
## Delegation signature
Some chain operations (`Oracle.<operation>` and `AENS.<operation>`) have an
Some chain operations (`Oracle.<operation>` and `AENSv2.<operation>`) have an
optional delegation signature. This is typically used when a user/accounts
would like to allow a contract to act on it's behalf. The exact data to be
signed varies for the different operations, but in all cases you should prepend
the signature data with the `network_id` (`ae_mainnet` for the æternity mainnet, etc.).
would like to allow a contract to act on it's behalf.
### From Ceres
From the Ceres protocol version the delegation signatures have more structure,
including a unique tag, `network_id` and identifiers; there are five different
delegation signatures:
- AENS wildcard - the user signs: `owner account + contract`
- `AENS_PRECLAIM` - the user signs: `owner account + contract`
- `AENS_CLAIM, AENS_UPDATE, AENS_TRANSFER, AENS_REVOKE` - the user signs: `owner account + name hash + contract`
- `ORACLE_REGISTER, ORACLE_EXTEND` - the user signs: `owner account + contract`
- `ORACLE_RESPOND` - the user signs: `query id + contract`
See [Serialized signature
data](https://github.com/aeternity/protocol/blob/master/contracts/fate.md#from-ceres-serialized-signature-data)
for the exact structure used.
### Before ceres
The exact data to be signed varies for the different operations, but in all
cases you should prepend the signature data with the `network_id` (`ae_mainnet`
for the æternity mainnet, etc.).
There are four different delegation signatures:
- `AENS_PRECLAIM` - the user signs: owner `network_id + account + contract`
- `AENS_CLAIM, AENS_UPDATE, AENS_TRANSFER, AENS_REVOKE` - the user signs: `network_id + owner account + name hash + contract`
- `ORACLE_REGISTER, ORACLE_EXTEND` - the user signs: `network_id + owner account + contract`
- `ORACLE_RESPOND` - the user signs: `network_id + query id + contract`
docs/sophia_stdlib.md
+208 -131
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_ check for 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
@@ -129,74 +163,107 @@ 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).
The [signature](./sophia_features.md#delegation-signature) should be a
serialized structure containing `network id`, `owner address`, and
`Contract.address`.
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. containing `network id`, `owner address`, `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.
The [signature](./sophia_features.md#delegation-signature) should be a
serialized structure containing `network id`, `owner address`, and
`Contract.address`. Using the private key of `owner address` 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. containing `network id`, `owner address`, `name_hash`, and
`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.
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.
The [signature](./sophia_features.md#delegation-signature) should be a
serialized structure containing `network id`, `owner address`, and
`Contract.address`. Using the private key of `owner address` 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. containing `network id`, `owner address`, `name_hash`, and
`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.
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.
The [signature](./sophia_features.md#delegation-signature) should be a
serialized structure containing `network id`, `owner address`, and
`Contract.address`. Using the private key of `owner address` 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. containing `network id`, `owner address`, `name_hash`, and
`Contract.address`.
##### update
```
AENS.update(owner : address, name : string, expiry : option(Chain.ttl), client_ttl : option(int),
new_ptrs : option(map(string, AENS.pointee)), <signature : signature>) : unit
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).
The [signature](./sophia_features.md#delegation-signature) should be a
serialized structure containing `network id`, `owner address`, and
`Contract.address`. Using the private key of `owner address` 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. containing `network id`, `owner address`, `name_hash`, and
`Contract.address`.
### Auth
@@ -236,7 +303,10 @@ 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 +385,7 @@ 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 +393,7 @@ 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 +406,8 @@ 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 +417,38 @@ 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 +484,12 @@ 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
```
@@ -469,7 +578,6 @@ Chain.block_height : int"
The height of the current block (i.e. the block in which the current call will be included).
##### bytecode_hash
```
Chain.bytecode_hash : 'c => option(hash)
@@ -506,7 +614,6 @@ 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.
The type `'c` must be instantiated with a contract.
@@ -572,8 +679,8 @@ Example usage:
```
payable contract interface Auction =
entrypoint init : (int, string) => void
stateful payable entrypoint buy : (int) => ()
stateful entrypoint sell : (int) => ()
stateful payable entrypoint buy : (int) => unit
stateful entrypoint sell : (int) => unit
main contract Market =
type state = list(Auction)
@@ -625,6 +732,23 @@ Chain.gas_limit : int
The gas limit of the current block.
##### network\_id
```
Chain.network\_id : string
```
The network id of the chain.
#### 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.
##### spend
```
Chain.spend(to : address, amount : int) : unit
@@ -717,11 +841,14 @@ 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
```
@@ -754,12 +881,21 @@ 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 not preserving signedness). I.e. if you try to squeeze `-129` into a
single byte that will be indistinguishable from `127`.
### Map
@@ -818,11 +954,11 @@ Oracle.register(<signature : bytes(64)>, acct : address, qfee : int, ttl : Chain
Registers new oracle answering questions of type `'a` with answers of type `'b`.
* The `acct` is the address of the oracle to register (can be the same as the contract).
* `signature` is a signature proving that the contract is allowed to register the account -
the `network id` + `account address` + `contract address` (concatenated as byte arrays) is
[signed](./sophia_features.md#delegation-signature) with the
private key of the account, proving you have the private key of the oracle to be. If the
address is the same as the contract `sign` is ignored and can be left out entirely.
* The [signature](./sophia_features.md#delegation-signature) should be a
serialized structure containing `network id`, `account address`, and
`contract address`. Using the private key of `account address` for signing.
Proving you have the private key of the oracle to be. If the address is the same
as the contract `sign` is ignored and can be left out entirely.
* The `qfee` is the minimum query fee to be paid by a user when asking a question of the oracle.
* The `ttl` is the Time To Live for the oracle in key blocks, either relative to the current
key block height (`RelativeTTL(delta)`) or a fixed key block height (`FixedTTL(height)`).
@@ -836,7 +972,7 @@ Examples:
```
#### get_question
#### get\_question
```
Oracle.get_question(o : oracle('a, 'b), q : oracle_query('a, 'b)) : 'a
```
@@ -849,12 +985,11 @@ Checks what was the question of query `q` on oracle `o`
Oracle.respond(<signature : bytes(64)>, o : oracle('a, 'b), q : oracle_query('a, 'b), 'b) : unit
```
Responds to the question `q` on `o`.
Unless the contract address is the same as the oracle address the `signature`
(which is an optional, named argument)
Responds to the question `q` on `o`. Unless the contract address is the same
as the oracle address the `signature` (which is an optional, named argument)
needs to be provided. Proving that we have the private key of the oracle by
[signing](./sophia_features.md#delegation-signature)
the `network id` + `oracle query id` + `contract address`
[signing](./sophia_features.md#delegation-signature) should be a serialized
structure containing `network id`, `oracle query id`, and `contract address`.
#### extend
@@ -867,7 +1002,7 @@ Extends TTL of an oracle.
* `o` is the oracle being extended
* `ttl` must be `RelativeTTL`. The time to live of `o` will be extended by this value.
#### query_fee
#### query\_fee
```
Oracle.query_fee(o : oracle('a, 'b)) : int
```
@@ -888,7 +1023,7 @@ Asks the oracle a question.
The call fails if the oracle could expire before an answer.
#### get_answer
#### get\_answer
```
Oracle.get_answer(o : oracle('a, 'b), q : oracle_query('a, 'b)) : option('b)
```
@@ -926,88 +1061,21 @@ 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
@@ -2403,6 +2471,15 @@ 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. String is UTF-8 encoded. I.e.
`String.length(s)` is not guaranteed to be equal to
`Bytes.size(String.to_bytes(s))`.
#### sha3
```
sha3(s : string) : hash
docs/sophia_syntax.md
+14 -7
View File
@@ -30,6 +30,7 @@ interface main using as for hiding
- `ContractAddress` base58-encoded 32 byte contract address with `ct_` prefix
- `OracleAddress` base58-encoded 32 byte oracle address with `ok_` prefix
- `OracleQueryId` base58-encoded 32 byte oracle query id with `oq_` prefix
- `Signature` base58-encoded 64 byte cryptographic signature with `sg_` prefix
Valid string escape codes are
@@ -239,6 +240,7 @@ 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
| Signature // Signature
| '???' // Hole expression 1 + ???
Generator ::= Pattern '<-' Expr // Generator
@@ -256,8 +258,8 @@ Path ::= Id // Record field
BinOp ::= '||' | '&&' | '<' | '>' | '=<' | '>=' | '==' | '!='
| '::' | '++' | '+' | '-' | '*' | '/' | 'mod' | '^'
| '|>'
UnOp ::= '-' | '!'
| 'band' | 'bor' | 'bxor' | '<<' | '>>' | '|>'
UnOp ::= '-' | '!' | 'bnot'
```
## Operators types
@@ -265,10 +267,11 @@ UnOp ::= '-' | '!'
| Operators | Type
| --- | ---
| `-` `+` `*` `/` `mod` `^` | arithmetic operators
| `!` `&&` `||` | logical operators
| `!` `&&` `\|\|` | logical operators
| `band` `bor` `bxor` `bnot` `<<` `>>` | bitwise operators
| `==` `!=` `<` `>` `=<` `>=` | comparison operators
| `::` `++` | list operators
| `|>` | functional operators
| `\|>` | functional operators
## Operator precedence
@@ -276,13 +279,17 @@ 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
| `\|\|` | right
| `\|>` | left
src/aeso_parse_lib.hrl → include/aeso_parse_lib.hrl
View File
src/aeso_utils.hrl → include/aeso_utils.hrl
View File
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/List.aes
+2 -2
View File
@@ -282,9 +282,9 @@ namespace List =
private function
asc : (('a, 'a) => bool, 'a, list('a), list('a)) => list(list('a))
asc(lt, x, acc, h::t) =
if(lt(h, x)) List.reverse(x::acc) :: monotonic_subs(lt, h::t)
if(lt(h, x)) reverse(x::acc) :: monotonic_subs(lt, h::t)
else asc(lt, h, x::acc, t)
asc(_, x, acc, []) = [List.reverse(x::acc)]
asc(_, x, acc, []) = [reverse(x::acc)]
/** Merges list of sorted lists
*/
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 -3
View File
@@ -2,7 +2,7 @@
{erl_opts, [debug_info]}.
{deps, [ {aebytecode, {git, "https://github.com/aeternity/aebytecode.git", {tag, "v3.3.0"}}}
{deps, [ {aebytecode, {git, "https://github.com/aeternity/aebytecode.git", {tag, "v3.4.1"}}}
, {eblake2, "1.0.0"}
, {jsx, {git, "https://github.com/talentdeficit/jsx.git", {tag, "2.8.0"}}}
]}.
@@ -13,8 +13,8 @@
{base_plt_apps, [erts, kernel, stdlib, crypto, mnesia]}
]}.
{relx, [{release, {aesophia, "7.2.1"},
[aesophia, aebytecode, getopt]},
{relx, [{release, {aesophia, "8.0.1"},
[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,"b38349274fc2bed98d7fe86877e6e1a2df302109"}},
{ref,"6bd6f82c70d800950ea1a2c70c364a4181ff5291"}},
0},
{<<"aeserialization">>,
{git,"https://github.com/aeternity/aeserialization.git",
{ref,"177bf604b2a05e940f92cf00e96e6e269e708245"}},
{ref,"b26e6d105424748ba1c27917267b7cff07f37802"}},
1},
{<<"base58">>,
{git,"https://github.com/aeternity/erl-base58.git",
@@ -14,7 +14,7 @@
{<<"eblake2">>,{pkg,<<"eblake2">>,<<"1.0.0">>},0},
{<<"enacl">>,
{git,"https://github.com/aeternity/enacl.git",
{ref,"793ddb502f7fe081302e1c42227dca70b09f8e17"}},
{ref,"4eb7ec70084ba7c87b1af8797c4c4e90c84f95a2"}},
2},
{<<"getopt">>,{pkg,<<"getopt">>,<<"1.0.1">>},1},
{<<"jsx">>,
rebar3
BIN
View File
Binary file not shown.
src/aeso_aci.erl
+36 -7
View File
@@ -8,6 +8,7 @@
%%%-------------------------------------------------------------------
-module(aeso_aci).
-vsn("8.0.1").
-export([ file/2
, file/3
@@ -198,7 +199,8 @@ encode_expr({bytes, _, B}) ->
<<N:Digits/unit:8>> = B,
list_to_binary(lists:flatten(io_lib:format("#~*.16.0b", [Digits*2, N])));
encode_expr({Lit, _, L}) when Lit == oracle_pubkey; Lit == oracle_query_id;
Lit == contract_pubkey; Lit == account_pubkey ->
Lit == contract_pubkey; Lit == account_pubkey;
Lit == signature ->
aeser_api_encoder:encode(Lit, L);
encode_expr({app, _, {'-', _}, [{int, _, N}]}) ->
encode_expr({int, [], -N});
@@ -221,16 +223,41 @@ do_render_aci_json(Json) ->
case Json of
JArray when is_list(JArray) -> JArray;
JObject when is_map(JObject) -> [JObject];
JText when is_binary(JText) ->
case jsx:decode(Json, [{labels, atom}, return_maps]) of
JArray when is_list(JArray) -> JArray;
JObject when is_map(JObject) -> [JObject];
_ -> error(bad_aci_json)
end
JText when is_binary(JText) -> decode(JText)
end,
DecodedContracts = [ decode_contract(C) || C <- Contracts ],
{ok, list_to_binary(string:join(DecodedContracts, "\n"))}.
decode(JSON) ->
case code:is_loaded(jsx) of
{file, _} ->
case jsx:decode(JSON, [{labels, atom}, return_maps]) of
JArray when is_list(JArray) -> JArray;
JObject when is_map(JObject) -> [JObject];
_ -> error(bad_aci_json)
end;
false ->
case zj:binary_decode(JSON) of
{ok, Decoded} when is_list(Decoded) -> atomize(Decoded);
{ok, Decoded} when is_map(Decoded) -> [atomize(Decoded)];
_ -> error(bad_aci_json)
end
end.
atomize(T) when is_map(T) ->
maps:fold(fun atomize/3, #{}, T);
atomize(T) when is_list(T) ->
lists:map(fun atomize/1, T);
atomize(T) ->
T.
atomize(K, V, M) when is_binary(K) ->
maps:put(binary_to_atom(K), atomize(V), M);
atomize(K, V, M) ->
maps:put(K, V, M).
decode_contract(#{contract := #{name := Name,
kind := Kind,
payable := Payable,
@@ -282,6 +309,8 @@ 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.erl
+1
View File
@@ -1,4 +1,5 @@
-module(aeso_ast).
-vsn("8.0.1").
-export([int/2,
line/1,
src/aeso_ast_infer_types.erl
+336 -240
View File
@@ -11,6 +11,7 @@
%%% instances of the compiler to be run in parallel.
-module(aeso_ast_infer_types).
-vsn("8.0.1").
-export([ infer/1
, infer/2
@@ -89,8 +90,9 @@
-type field_constraint() :: #field_constraint{} | #record_create_constraint{} | #is_contract_constraint{}.
-type byte_constraint() :: {is_bytes, utype()}
| {add_bytes, aeso_syntax:ann(), concat | split, utype(), utype(), utype()}.
-type byte_constraint() :: {is_bytes, term(), utype()}
| {is_fixed_bytes, term(), utype()}
| {add_bytes, aeso_syntax:ann(), concat | split | split_any, utype(), utype(), utype()}.
-type aens_resolve_constraint() :: {aens_resolve_type, utype()}.
-type oracle_type_constraint() :: {oracle_type, aeso_syntax:ann(), utype()}.
@@ -154,7 +156,6 @@
, in_pattern = false :: boolean()
, in_guard = false :: boolean()
, stateful = false :: boolean()
, unify_throws = true :: boolean()
, current_const = none :: none | aeso_syntax:id()
, current_function = none :: none | aeso_syntax:id()
, what = top :: top | namespace | contract | contract_interface
@@ -594,6 +595,8 @@ global_env() ->
TTL = {qid, Ann, ["Chain", "ttl"]},
Pointee = {qid, Ann, ["AENS", "pointee"]},
AENSName = {qid, Ann, ["AENS", "name"]},
PointeeV2 = {qid, Ann, ["AENSv2", "pointee"]},
AENSNameV2 = {qid, Ann, ["AENSv2", "name"]},
Fr = {qid, Ann, ["MCL_BLS12_381", "fr"]},
Fp = {qid, Ann, ["MCL_BLS12_381", "fp"]},
Fp2 = {tuple_t, Ann, [Fp, Fp]},
@@ -651,6 +654,7 @@ global_env() ->
{"block_height", Int},
{"difficulty", Int},
{"gas_limit", Int},
{"network_id", String},
{"bytecode_hash",FunC1(bytecode_hash, A, Option(Hash))},
{"create", Stateful(
FunN([ {named_arg_t, Ann, {id, Ann, "value"}, Int, {typed, Ann, {int, Ann, 0}, Int}}
@@ -729,14 +733,7 @@ global_env() ->
AENSScope = #scope
{ funs = MkDefs(
[{"resolve", Fun([String, String], option_t(Ann, A))},
{"preclaim", SignFun([Address, Hash], Unit)},
{"claim", SignFun([Address, String, Int, Int], Unit)},
{"transfer", SignFun([Address, Address, String], Unit)},
{"revoke", SignFun([Address, String], Unit)},
{"update", SignFun([Address, String, Option(TTL), Option(Int), Option(Map(String, Pointee))], Unit)},
{"lookup", Fun([String], option_t(Ann, AENSName))},
%% AENS pointee constructors
[%% AENS pointee constructors
{"AccountPt", Fun1(Address, Pointee)},
{"OraclePt", Fun1(Address, Pointee)},
{"ContractPt", Fun1(Address, Pointee)},
@@ -746,6 +743,26 @@ global_env() ->
])
, types = MkDefs([{"pointee", 0}, {"name", 0}]) },
AENSv2Scope = #scope
{ funs = MkDefs(
[{"resolve", Fun([String, String], option_t(Ann, A))},
{"preclaim", SignFun([Address, Hash], Unit)},
{"claim", SignFun([Address, String, Int, Int], Unit)},
{"transfer", SignFun([Address, Address, String], Unit)},
{"revoke", SignFun([Address, String], Unit)},
{"update", SignFun([Address, String, Option(TTL), Option(Int), Option(Map(String, PointeeV2))], Unit)},
{"lookup", Fun([String], option_t(Ann, AENSNameV2))},
%% AENS pointee constructors v2
{"AccountPt", Fun1(Address, PointeeV2)},
{"OraclePt", Fun1(Address, PointeeV2)},
{"ContractPt", Fun1(Address, PointeeV2)},
{"ChannelPt", Fun1(Address, PointeeV2)},
{"DataPt", Fun1(Bytes(any), PointeeV2)},
%% Name object constructor v2
{"Name", Fun([Address, TTL, Map(String, PointeeV2)], AENSNameV2)}
])
, types = MkDefs([{"pointee", 0}, {"name", 0}]) },
MapScope = #scope
{ funs = MkDefs(
[{"from_list", Fun1(List(Pair(K, V)), Map(K, V))},
@@ -759,13 +776,14 @@ global_env() ->
%% Crypto/Curve operations
CryptoScope = #scope
{ funs = MkDefs(
[{"verify_sig", Fun([Hash, Address, SignId], Bool)},
[{"verify_sig", Fun([Bytes('_'), Address, SignId], Bool)},
{"verify_sig_secp256k1", Fun([Hash, Bytes(64), SignId], Bool)},
{"ecverify_secp256k1", Fun([Hash, Bytes(20), Bytes(65)], Bool)},
{"ecrecover_secp256k1", Fun([Hash, Bytes(65)], Option(Bytes(20)))},
{"sha3", Fun1(A, Hash)},
{"sha256", Fun1(A, Hash)},
{"blake2b", Fun1(A, Hash)}]) },
{"blake2b", Fun1(A, Hash)},
{"poseidon", Fun([Int, Int], Int)}]) },
%% Fancy BLS12-381 crypto operations
MCL_BLS12_381_Scope = #scope
@@ -813,6 +831,7 @@ global_env() ->
[{"length", Fun1(String, Int)},
{"concat", Fun([String, String], String)},
{"to_list", Fun1(String, List(Char))},
{"to_bytes", Fun1(String, Bytes(any))},
{"from_list", Fun1(List(Char), String)},
{"to_upper", Fun1(String, String)},
{"to_lower", Fun1(String, String)},
@@ -843,21 +862,28 @@ global_env() ->
%% Bytes
BytesScope = #scope
{ funs = MkDefs(
[{"to_int", Fun1(Bytes(any), Int)},
{"to_str", Fun1(Bytes(any), String)},
{"concat", FunC(bytes_concat, [Bytes(any), Bytes(any)], Bytes(any))},
{"split", FunC(bytes_split, [Bytes(any)], Pair(Bytes(any), Bytes(any)))}
[{"to_int", Fun1(Bytes('_'), Int)},
{"to_str", Fun1(Bytes('_'), String)},
{"to_fixed_size", Fun1(Bytes(any), Option(Bytes(fixed)))},
{"to_any_size", Fun1(Bytes(fixed), Bytes(any))},
{"size", Fun1(Bytes('_'), Int)},
{"concat", FunC(bytes_concat, [Bytes('_'), Bytes('_')], Bytes('_'))},
{"split", FunC1(bytes_split, Bytes(fixed), Pair(Bytes(fixed), Bytes(fixed)))},
{"split_any", Fun([Bytes(any), Int], Option(Pair(Bytes(any), Bytes(any))))}
]) },
%% Conversion
IntScope = #scope{ funs = MkDefs([{"to_str", Fun1(Int, String)}]) },
IntScope = #scope{ funs = MkDefs([{"to_str", Fun1(Int, String)},
{"to_bytes", Fun([Int, Int], Bytes(any))},
{"mulmod", Fun([Int, Int, Int], Int)}]) },
AddressScope = #scope{ funs = MkDefs([{"to_str", Fun1(Address, String)},
{"to_bytes", Fun1(Address, Bytes(32))},
{"to_contract", FunC(address_to_contract, [Address], A)},
{"is_oracle", Fun1(Address, Bool)},
{"is_contract", Fun1(Address, Bool)},
{"is_payable", Fun1(Address, Bool)}]) },
#env{ scopes =
#{ [] => TopScope
, ["Chain"] => ChainScope
@@ -865,6 +891,7 @@ global_env() ->
, ["Call"] => CallScope
, ["Oracle"] => OracleScope
, ["AENS"] => AENSScope
, ["AENSv2"] => AENSv2Scope
, ["Map"] => MapScope
, ["Auth"] => AuthScope
, ["Crypto"] => CryptoScope
@@ -925,14 +952,14 @@ infer(Contracts, Options) ->
{Env1, Decls} = infer1(Env, Contracts1, [], Options),
when_warning(warn_unused_functions, fun() -> destroy_and_report_unused_functions() end),
when_option(warn_error, fun() -> destroy_and_report_warnings_as_type_errors() end),
WarningsUnsorted = lists:map(fun mk_warning/1, ets_tab2list(warnings)),
Warnings = aeso_warnings:sort_warnings(WarningsUnsorted),
{Env2, DeclsFolded, DeclsUnfolded} =
case proplists:get_value(dont_unfold, Options, false) of
true -> {Env1, Decls, Decls};
false -> E = on_scopes(Env1, fun(Scope) -> unfold_record_types(Env1, Scope) end),
{E, Decls, unfold_record_types(E, Decls)}
end,
WarningsUnsorted = lists:map(fun mk_warning/1, ets_tab2list(warnings)),
Warnings = aeso_warnings:sort_warnings(WarningsUnsorted),
case proplists:get_value(return_env, Options, false) of
false -> {DeclsFolded, DeclsUnfolded, Warnings};
true -> {Env2, DeclsFolded, DeclsUnfolded, Warnings}
@@ -1135,7 +1162,7 @@ infer_contract(Env0, What, Defs0, Options) ->
_ = bind_funs(lists:map(FunBind, Functions), #env{}),
FunMap = maps:from_list([ {FunName(Def), Def} || Def <- Functions ]),
check_reserved_entrypoints(FunMap),
DepGraph = maps:map(fun(_, Def) -> aeso_syntax_utils:used_ids(Def) end, FunMap),
DepGraph = maps:map(fun(_, Def) -> aeso_syntax_utils:used_ids(Env3#env.namespace, Def) end, FunMap),
SCCs = aeso_utils:scc(DepGraph),
{Env4, Defs1} = check_sccs(Env3, FunMap, SCCs, []),
%% Remove namespaces used in the current namespace
@@ -1582,7 +1609,7 @@ check_reserved_entrypoints(Funs) ->
check_fundecl(Env, {fun_decl, Ann, Id = {id, _, Name}, Type = {fun_t, _, _, _, _}}) ->
Type1 = {fun_t, _, Named, Args, Ret} = check_type(Env, Type),
TypeSig = {type_sig, Ann, none, Named, Args, Ret},
register_implementation(Id, TypeSig),
register_implementation(Env, Id, TypeSig),
{{Name, TypeSig}, {fun_decl, Ann, Id, Type1}};
check_fundecl(Env, {fun_decl, Ann, Id = {id, _, Name}, Type}) ->
type_error({fundecl_must_have_funtype, Ann, Id, Type}),
@@ -1590,13 +1617,16 @@ check_fundecl(Env, {fun_decl, Ann, Id = {id, _, Name}, Type}) ->
%% Register the function FunId as implemented by deleting it from the functions
%% to be implemented table if it is included there, or return true otherwise.
-spec register_implementation(FunId, FunSig) -> true | no_return() when
-spec register_implementation(env(), FunId, FunSig) -> true | no_return() when
FunId :: aeso_syntax:id(),
FunSig :: typesig().
register_implementation(Id, Sig) ->
register_implementation(Env, Id, Sig) ->
Name = name(Id),
case ets_lookup(functions_to_implement, Name) of
[{Name, Interface, Decl = {fun_decl, _, DeclId, _}}] ->
[{Name, Interface, Decl = {fun_decl, _, DeclId, FunT}}] ->
When = {implement_interface_fun, aeso_syntax:get_ann(Sig), Name, name(Interface)},
unify(Env, typesig_to_fun_t(Sig), FunT, When),
DeclStateful = aeso_syntax:get_ann(stateful, Decl, false),
DeclPayable = aeso_syntax:get_ann(payable, Decl, false),
@@ -1624,7 +1654,7 @@ infer_nonrec(Env, LetFun) ->
create_constraints(),
NewLetFun = {{_, Sig}, _} = infer_letfun(Env, LetFun),
check_special_funs(Env, NewLetFun),
register_implementation(get_letfun_id(LetFun), Sig),
register_implementation(Env, get_letfun_id(LetFun), Sig),
solve_then_destroy_and_report_unsolved_constraints(Env),
Result = {TypeSig, _} = instantiate(NewLetFun),
print_typesig(TypeSig),
@@ -1654,11 +1684,11 @@ infer_letrec(Env, Defs) ->
Inferred =
[ begin
Res = {{Name, TypeSig}, LetFun} = infer_letfun(ExtendEnv, LF),
register_implementation(get_letfun_id(LetFun), TypeSig),
register_implementation(Env, get_letfun_id(LetFun), TypeSig),
Got = proplists:get_value(Name, Funs),
Expect = typesig_to_fun_t(TypeSig),
unify(Env, Got, Expect, {check_typesig, Name, Got, Expect}),
solve_constraints(Env),
solve_all_constraints(Env),
?PRINT_TYPES("Checked ~s : ~s\n",
[Name, pp(dereference_deep(Got))]),
Res
@@ -1731,8 +1761,27 @@ desugar_clauses(Ann, Fun, {type_sig, _, _, _, ArgTypes, RetType}, Clauses) ->
end.
print_typesig({Name, TypeSig}) ->
assert_tvars(Name, TypeSig),
?PRINT_TYPES("Inferred ~s : ~s\n", [Name, pp(TypeSig)]).
assert_tvars(Name, TS) ->
TVars = assert_tvars_(TS, #{}),
case maps:size(TVars) > 256 of
true ->
type_error({too_many_tvars, Name, TS});
false ->
ok
end.
assert_tvars_({tvar, _, TV}, TVars) ->
TVars#{TV => ok};
assert_tvars_(T, TVars) when is_tuple(T) ->
assert_tvars_(tuple_to_list(T), TVars);
assert_tvars_(Ts, TVars) when is_list(Ts) ->
lists:foldl(fun(T, TVars1) -> assert_tvars_(T, TVars1) end, TVars, Ts);
assert_tvars_(_, TVars) ->
TVars.
arg_type(ArgAnn, {id, Ann, "_"}) ->
case aeso_syntax:get_ann(origin, Ann, user) of
system -> fresh_uvar(ArgAnn);
@@ -1771,8 +1820,8 @@ lookup_name(Env = #env{ namespace = NS, current_function = CurFn }, As, Id, Opti
Freshen = proplists:get_value(freshen, Options, false),
check_stateful(Env, Id, Ty),
Ty1 = case Ty of
{type_sig, _, _, _, _, _} -> freshen_type_sig(As, Ty);
_ when Freshen -> freshen_type(As, Ty);
{type_sig, _, _, _, _, _} -> freshen_type_sig(As, Ty, [{fun_name, Id}]);
_ when Freshen -> freshen_type(As, Ty, [{fun_name, Id}]);
_ -> Ty
end,
{set_qname(QId, Id), Ty1}
@@ -1906,6 +1955,8 @@ infer_expr(_Env, Body={bytes, As, Bin}) ->
{typed, As, Body, {bytes_t, As, byte_size(Bin)}};
infer_expr(_Env, Body={account_pubkey, As, _}) ->
{typed, As, Body, {id, As, "address"}};
infer_expr(_Env, Body={signature, As, Bin}) when byte_size(Bin) == 64 ->
{typed, As, Body, {bytes_t, As, 64}};
infer_expr(_Env, Body={oracle_pubkey, As, _}) ->
Q = fresh_uvar(As),
R = fresh_uvar(As),
@@ -2014,7 +2065,7 @@ infer_expr(Env, {app, Ann, Fun, Args0} = App) ->
unify(Env, FunType, {fun_t, [], NamedArgsVar, ArgTypes, GeneralResultType}, When),
when_warning(warn_negative_spend, fun() -> warn_potential_negative_spend(Ann, NewFun1, NewArgs) end),
[ add_constraint({aens_resolve_type, GeneralResultType})
|| element(3, FunName) =:= ["AENS", "resolve"] ],
|| element(3, FunName) =:= ["AENSv2", "resolve"] ],
[ add_constraint({oracle_type, Ann, OType})
|| OType <- [get_oracle_type(FunName, ArgTypes, GeneralResultType)],
OType =/= false ],
@@ -2144,6 +2195,8 @@ check_valid_const_expr({bytes, _, _}) ->
true;
check_valid_const_expr({account_pubkey, _, _}) ->
true;
check_valid_const_expr({signature, _, _}) ->
true;
check_valid_const_expr({oracle_pubkey, _, _}) ->
true;
check_valid_const_expr({oracle_query_id, _, _}) ->
@@ -2394,6 +2447,11 @@ infer_infix({IntOp, As})
IntOp == '^'; IntOp == 'mod' ->
Int = {id, As, "int"},
{fun_t, As, [], [Int, Int], Int};
infer_infix({BitOp, As})
when BitOp == 'band'; BitOp == 'bor'; BitOp == 'bxor';
BitOp == '<<'; BitOp == '>>' ->
Int = {id, As, "int"},
{fun_t, As, [], [Int, Int], Int};
infer_infix({RelOp, As})
when RelOp == '=='; RelOp == '!=';
RelOp == '<'; RelOp == '>';
@@ -2421,6 +2479,9 @@ infer_infix({'|>', As}) ->
infer_prefix({'!',As}) ->
Bool = {id, As, "bool"},
{fun_t, As, [], [Bool], Bool};
infer_prefix({BitOp,As}) when BitOp =:= 'bnot' ->
Int = {id, As, "int"},
{fun_t, As, [], [Int], Int};
infer_prefix({IntOp,As}) when IntOp =:= '-' ->
Int = {id, As, "int"},
{fun_t, As, [], [Int], Int}.
@@ -2573,61 +2634,124 @@ get_constraints() ->
destroy_constraints() ->
ets_delete(constraints).
-spec solve_constraints(env()) -> ok.
solve_constraints(Env) ->
%% First look for record fields that appear in only one type definition
IsAmbiguous =
fun(#field_constraint{
record_t = RecordType,
field = Field={id, _Attrs, FieldName},
field_t = FieldType,
kind = Kind,
context = When }) ->
Arity = fun_arity(dereference_deep(FieldType)),
FieldInfos = case Arity of
none -> lookup_record_field(Env, FieldName, Kind);
_ -> lookup_record_field_arity(Env, FieldName, Arity, Kind)
end,
case FieldInfos of
[] ->
type_error({undefined_field, Field}),
false;
[#field_info{field_t = FldType, record_t = RecType}] ->
create_freshen_tvars(),
FreshFldType = freshen(FldType),
FreshRecType = freshen(RecType),
destroy_freshen_tvars(),
unify(Env, FreshFldType, FieldType, {field_constraint, FreshFldType, FieldType, When}),
unify(Env, FreshRecType, RecordType, {record_constraint, FreshRecType, RecordType, When}),
false;
_ ->
%% ambiguity--need cleverer strategy
true
end;
(_) -> true
end,
AmbiguousConstraints = lists:filter(IsAmbiguous, get_constraints()),
%% Solve all constraints by iterating until no-progress
% The two passes on AmbiguousConstraints are needed
solve_ambiguous_constraints(Env, AmbiguousConstraints ++ AmbiguousConstraints).
-spec solve_all_constraints(env()) -> ok.
solve_all_constraints(Env) ->
Constraints = [C || C <- get_constraints(), not one_shot_field_constraint(Env, C) ],
solve_constraints_top(Env, Constraints).
-spec solve_ambiguous_constraints(env(), [constraint()]) -> ok.
solve_ambiguous_constraints(Env, Constraints) ->
Unknown = solve_known_record_types(Env, Constraints),
if Unknown == [] -> ok;
length(Unknown) < length(Constraints) ->
%% progress! Keep trying.
solve_ambiguous_constraints(Env, Unknown);
solve_constraints_top(Env, Constraints) ->
UnsolvedCs = solve_constraints(Env, Constraints),
Progress = solve_unknown_record_constraints(Env, UnsolvedCs),
if length(UnsolvedCs) < length(Constraints) orelse Progress == true ->
solve_constraints_top(Env, UnsolvedCs);
true ->
case solve_unknown_record_types(Env, Unknown) of
true -> %% Progress!
solve_ambiguous_constraints(Env, Unknown);
_ -> ok %% No progress. Report errors later.
end
ok
end.
-spec solve_constraints(env(), [constraint()]) -> [constraint()].
solve_constraints(Env, Constraints) ->
[ C1 || C <- Constraints, C1 <- [dereference_deep(C)], not solve_constraint(Env, C1) ].
solve_unknown_record_constraints(Env, Constraints) ->
FieldCs = lists:filter(fun(#field_constraint{record_t = {uvar, _, _}}) -> true; (_) -> false end, Constraints),
FieldCsUVars = lists:usort([UVar || #field_constraint{record_t = UVar = {uvar, _, _}} <- FieldCs]),
FieldConstraint = fun(#field_constraint{ field = F, kind = K, context = Ctx }) -> {K, Ctx, F} end,
FieldsForUVar = fun(UVar) ->
[ FieldConstraint(FC) || FC = #field_constraint{record_t = U} <- FieldCs, U == UVar ]
end,
Solutions = [ solve_for_uvar(Env, UVar, FieldsForUVar(UVar)) || UVar <- FieldCsUVars ],
case lists:member(true, Solutions) of
true -> true;
false -> Solutions
end.
%% -- Simple constraints --
%% Returns true if solved (unified or type error)
solve_constraint(_Env, #field_constraint{record_t = {uvar, _, _}}) ->
false;
solve_constraint(Env, #field_constraint{record_t = RecordType,
field = Field = {id, _As, FieldName},
field_t = FieldType,
context = When}) ->
RecId = record_type_name(RecordType),
Attrs = aeso_syntax:get_ann(RecId),
case lookup_type(Env, RecId) of
{_, {_Ann, {Formals, {What, Fields}}}} when What =:= record_t; What =:= contract_t ->
FieldTypes = [{Name, Type} || {field_t, _, {id, _, Name}, Type} <- Fields],
case proplists:get_value(FieldName, FieldTypes) of
undefined ->
type_error({missing_field, Field, RecId});
FldType ->
solve_field_constraint(Env, FieldType, FldType, RecordType, app_t(Attrs, RecId, Formals), When)
end;
_ ->
type_error({not_a_record_type, instantiate(RecordType), When})
end,
true;
solve_constraint(Env, C = #dependent_type_constraint{}) ->
check_named_argument_constraint(Env, C);
solve_constraint(Env, C = #named_argument_constraint{}) ->
check_named_argument_constraint(Env, C);
solve_constraint(_Env, {is_bytes, _, _}) -> false;
solve_constraint(_Env, {is_fixed_bytes, _, _}) -> false;
solve_constraint(Env, {add_bytes, Ann, Action, A0, B0, C0}) ->
A = unfold_types_in_type(Env, dereference(A0)),
B = unfold_types_in_type(Env, dereference(B0)),
C = unfold_types_in_type(Env, dereference(C0)),
case {A, B, C} of
{{bytes_t, _, M}, {bytes_t, _, N}, _} when is_integer(M), is_integer(N) ->
unify(Env, {bytes_t, Ann, M + N}, C, {at, Ann});
{{bytes_t, _, M}, _, {bytes_t, _, R}} when is_integer(M), is_integer(R), R >= M ->
unify(Env, {bytes_t, Ann, R - M}, B, {at, Ann});
{_, {bytes_t, _, N}, {bytes_t, _, R}} when is_integer(N), is_integer(R), R >= N ->
unify(Env, {bytes_t, Ann, R - N}, A, {at, Ann});
{{bytes_t, _, _}, {bytes_t, _, _}, _} when Action == concat ->
unify(Env, {bytes_t, Ann, any}, C, {at, Ann});
_ -> false
end;
solve_constraint(_, _) -> false.
one_shot_field_constraint(Env, #field_constraint{record_t = RecordType,
field = Field = {id, _As, FieldName},
field_t = FieldType,
kind = Kind,
context = When}) ->
Arity = fun_arity(dereference_deep(FieldType)),
FieldInfos = case Arity of
none -> lookup_record_field(Env, FieldName, Kind);
_ -> lookup_record_field_arity(Env, FieldName, Arity, Kind)
end,
case FieldInfos of
[] ->
type_error({undefined_field, Field}),
true;
[#field_info{field_t = FldType, record_t = RecType}] ->
solve_field_constraint(Env, FieldType, FldType, RecordType, RecType, When),
true;
_ ->
false
end;
one_shot_field_constraint(_Env, _Constraint) ->
false.
solve_field_constraint(Env, FieldType, FldType, RecordType, RecType, When) ->
create_freshen_tvars(),
FreshFldType = freshen(FldType),
FreshRecType = freshen(RecType),
destroy_freshen_tvars(),
unify(Env, FreshFldType, FieldType, {field_constraint, FreshFldType, FieldType, When}),
unify(Env, FreshRecType, RecordType, {record_constraint, FreshRecType, RecordType, When}).
solve_then_destroy_and_report_unsolved_constraints(Env) ->
solve_constraints(Env),
solve_all_constraints(Env),
destroy_and_report_unsolved_constraints(Env).
destroy_and_report_unsolved_constraints(Env) ->
@@ -2645,7 +2769,8 @@ destroy_and_report_unsolved_constraints(Env) ->
(_) -> false
end, OtherCs2),
{BytesCs, OtherCs4} =
lists:partition(fun({is_bytes, _}) -> true;
lists:partition(fun({is_bytes, _, _}) -> true;
({is_fixed_bytes, _, _}) -> true;
({add_bytes, _, _, _, _, _}) -> true;
(_) -> false
end, OtherCs3),
@@ -2658,21 +2783,10 @@ destroy_and_report_unsolved_constraints(Env) ->
(_) -> false
end, OtherCs5),
Unsolved = [ S || S <- [ solve_constraint(Env, dereference_deep(C)) || C <- NamedArgCs ],
S == unsolved ],
[ type_error({unsolved_named_argument_constraint, C}) || C <- Unsolved ],
Unknown = solve_known_record_types(Env, FieldCs),
if Unknown == [] -> ok;
true ->
case solve_unknown_record_types(Env, Unknown) of
true -> ok;
Errors -> [ type_error(Err) || Err <- Errors ]
end
end,
check_field_constraints(Env, FieldCs),
check_record_create_constraints(Env, CreateCs),
check_is_contract_constraints(Env, ContractCs),
check_named_args_constraints(Env, NamedArgCs),
check_bytes_constraints(Env, BytesCs),
check_aens_resolve_constraints(Env, AensResolveCs),
check_oracle_type_constraints(Env, OracleTypeCs),
@@ -2690,20 +2804,21 @@ get_oracle_type(_Fun, _Args, _Ret) -> false.
%% -- Named argument constraints --
%% If false, a type error has been emitted, so it's safe to drop the constraint.
-spec check_named_argument_constraint(env(), named_argument_constraint()) -> true | false | unsolved.
%% True if solved (unified or type error), false otherwise
-spec check_named_argument_constraint(env(), named_argument_constraint()) -> true | false.
check_named_argument_constraint(_Env, #named_argument_constraint{ args = {uvar, _, _} }) ->
unsolved;
false;
check_named_argument_constraint(Env,
C = #named_argument_constraint{ args = Args,
name = Id = {id, _, Name},
type = Type }) ->
case [ T || {named_arg_t, _, {id, _, Name1}, T, _} <- Args, Name1 == Name ] of
[] ->
type_error({bad_named_argument, Args, Id}),
false;
[T] -> unify(Env, T, Type, {check_named_arg_constraint, C}), true
end;
type_error({bad_named_argument, Args, Id});
[T] ->
unify(Env, T, Type, {check_named_arg_constraint, C})
end,
true;
check_named_argument_constraint(Env,
#dependent_type_constraint{ named_args_t = NamedArgsT0,
named_args = NamedArgs,
@@ -2720,10 +2835,11 @@ check_named_argument_constraint(Env,
ArgEnv = maps:from_list([ {Name, GetVal(Name, Default)}
|| {named_arg_t, _, {id, _, Name}, _, Default} <- NamedArgsT ]),
GenType1 = specialize_dependent_type(ArgEnv, GenType),
unify(Env, GenType1, SpecType, {check_expr, App, GenType1, SpecType}),
true;
_ -> unify(Env, GenType, SpecType, {check_expr, App, GenType, SpecType}), true
end.
unify(Env, GenType1, SpecType, {check_expr, App, GenType1, SpecType});
_ ->
unify(Env, GenType, SpecType, {check_expr, App, GenType, SpecType})
end,
true.
specialize_dependent_type(Env, Type) ->
case dereference(Type) of
@@ -2739,70 +2855,44 @@ specialize_dependent_type(Env, Type) ->
_ -> Type %% Currently no deep dependent types
end.
%% -- Bytes constraints --
check_field_constraints(Env, Constraints) ->
UnsolvedFieldCs = solve_constraints(Env, Constraints),
case solve_unknown_record_constraints(Env, UnsolvedFieldCs) of
true -> ok;
Errors -> [ type_error(Err) || Err <- Errors ]
end.
solve_constraint(_Env, #field_constraint{record_t = {uvar, _, _}}) ->
not_solved;
solve_constraint(Env, C = #field_constraint{record_t = RecType,
field = FieldName,
field_t = FieldType,
context = When}) ->
RecId = record_type_name(RecType),
Attrs = aeso_syntax:get_ann(RecId),
case lookup_type(Env, RecId) of
{_, {_Ann, {Formals, {What, Fields}}}} when What =:= record_t; What =:= contract_t ->
FieldTypes = [{Name, Type} || {field_t, _, {id, _, Name}, Type} <- Fields],
{id, _, FieldString} = FieldName,
case proplists:get_value(FieldString, FieldTypes) of
undefined ->
type_error({missing_field, FieldName, RecId}),
not_solved;
FldType ->
create_freshen_tvars(),
FreshFldType = freshen(FldType),
FreshRecType = freshen(app_t(Attrs, RecId, Formals)),
destroy_freshen_tvars(),
unify(Env, FreshFldType, FieldType, {field_constraint, FreshFldType, FieldType, When}),
unify(Env, FreshRecType, RecType, {record_constraint, FreshRecType, RecType, When}),
C
end;
_ ->
type_error({not_a_record_type, instantiate(RecType), When}),
not_solved
end;
solve_constraint(Env, C = #dependent_type_constraint{}) ->
check_named_argument_constraint(Env, C);
solve_constraint(Env, C = #named_argument_constraint{}) ->
check_named_argument_constraint(Env, C);
solve_constraint(_Env, {is_bytes, _}) -> ok;
solve_constraint(Env, {add_bytes, Ann, _, A0, B0, C0}) ->
A = unfold_types_in_type(Env, dereference(A0)),
B = unfold_types_in_type(Env, dereference(B0)),
C = unfold_types_in_type(Env, dereference(C0)),
case {A, B, C} of
{{bytes_t, _, M}, {bytes_t, _, N}, _} -> unify(Env, {bytes_t, Ann, M + N}, C, {at, Ann});
{{bytes_t, _, M}, _, {bytes_t, _, R}} when R >= M -> unify(Env, {bytes_t, Ann, R - M}, B, {at, Ann});
{_, {bytes_t, _, N}, {bytes_t, _, R}} when R >= N -> unify(Env, {bytes_t, Ann, R - N}, A, {at, Ann});
_ -> ok
end;
solve_constraint(_, _) -> ok.
check_named_args_constraints(Env, Constraints) ->
UnsolvedNamedArgCs = solve_constraints(Env, Constraints),
[ type_error({unsolved_named_argument_constraint, C}) || C <- UnsolvedNamedArgCs ].
check_bytes_constraints(Env, Constraints) ->
InAddConstraint = [ T || {add_bytes, _, _, A, B, C} <- Constraints,
T <- [A, B, C],
element(1, T) /= bytes_t ],
InSplitConstraint = [ T || {add_bytes, _, split, A, B, C} <- Constraints,
T <- [A, B, C],
element(1, T) /= bytes_t ],
%% Skip is_bytes constraints for types that occur in add_bytes constraints
%% (no need to generate error messages for both is_bytes and add_bytes).
Skip = fun({is_bytes, T}) -> lists:member(T, InAddConstraint);
Skip = fun({is_bytes, _, T}) -> lists:member(T, InAddConstraint);
({is_fixed_bytes, _, T}) -> lists:member(T, InSplitConstraint);
(_) -> false end,
[ check_bytes_constraint(Env, C) || C <- Constraints, not Skip(C) ].
check_bytes_constraint(Env, {is_bytes, Type}) ->
check_bytes_constraint(Env, {is_bytes, Ann, Type}) ->
Type1 = unfold_types_in_type(Env, instantiate(Type)),
case Type1 of
{bytes_t, _, _} -> ok;
{bytes_t, _, N} when is_integer(N); N == any -> ok;
_ ->
type_error({unknown_byte_length, Type})
type_error({unknown_byte_type, Ann, Type})
end;
check_bytes_constraint(Env, {is_fixed_bytes, Ann, Type}) ->
Type1 = unfold_types_in_type(Env, instantiate(Type)),
case Type1 of
{bytes_t, _, N} when is_integer(N) -> ok;
_ ->
type_error({unknown_byte_length, Ann, Type})
end;
check_bytes_constraint(Env, {add_bytes, Ann, Fun, A0, B0, C0}) ->
A = unfold_types_in_type(Env, instantiate(A0)),
@@ -2882,36 +2972,11 @@ check_is_contract_constraints(Env, [C | Cs]) ->
end,
check_is_contract_constraints(Env, Cs).
-spec solve_unknown_record_types(env(), [field_constraint()]) -> true | [tuple()].
solve_unknown_record_types(Env, Unknown) ->
UVars = lists:usort([UVar || #field_constraint{record_t = UVar = {uvar, _, _}} <- Unknown]),
Solutions = [solve_for_uvar(Env, UVar, [{Kind, When, Field}
|| #field_constraint{record_t = U, field = Field, kind = Kind, context = When} <- Unknown,
U == UVar])
|| UVar <- UVars],
case lists:member(true, Solutions) of
true -> true;
false -> Solutions
end.
%% This will solve all kinds of constraints but will only return the
%% unsolved field constraints
-spec solve_known_record_types(env(), [constraint()]) -> [field_constraint()].
solve_known_record_types(Env, Constraints) ->
DerefConstraints = lists:map(fun(C = #field_constraint{record_t = RecordType}) ->
C#field_constraint{record_t = dereference(RecordType)};
(C) -> dereference_deep(C)
end, Constraints),
SolvedConstraints = lists:map(fun(C) -> solve_constraint(Env, dereference_deep(C)) end, DerefConstraints),
Unsolved = DerefConstraints--SolvedConstraints,
lists:filter(fun(#field_constraint{}) -> true; (_) -> false end, Unsolved).
record_type_name({app_t, _Attrs, RecId, _Args}) when ?is_type_id(RecId) ->
RecId;
record_type_name(RecId) when ?is_type_id(RecId) ->
RecId;
record_type_name(_Other) ->
%% io:format("~p is not a record type\n", [Other]),
{id, [{origin, system}], "not_a_record_type"}.
solve_for_uvar(Env, UVar = {uvar, Attrs, _}, Fields0) ->
@@ -3019,7 +3084,8 @@ unfold_types_in_type(Env, {app_t, Ann, Id, Args}, Options) when ?is_type_id(Id)
unfold_types_in_type(Env, Id, Options) when ?is_type_id(Id) ->
%% Like the case above, but for types without parameters.
when_warning(warn_unused_typedefs, fun() -> used_typedef(Id, 0) end),
UnfoldRecords = proplists:get_value(unfold_record_types, Options, false),
UnfoldSysAlias = not proplists:get_value(not_unfold_system_alias_types, Options, false),
UnfoldRecords = proplists:get_value(unfold_record_types, Options, false),
UnfoldVariants = proplists:get_value(unfold_variant_types, Options, false),
case lookup_type(Env, Id) of
{_, {_, {[], {record_t, Fields}}}} when UnfoldRecords ->
@@ -3027,7 +3093,12 @@ unfold_types_in_type(Env, Id, Options) when ?is_type_id(Id) ->
{_, {_, {[], {variant_t, Constrs}}}} when UnfoldVariants ->
{variant_t, unfold_types_in_type(Env, Constrs, Options)};
{_, {_, {[], {alias_t, Type1}}}} ->
unfold_types_in_type(Env, Type1, Options);
case aeso_syntax:get_ann(Type1) of
[{origin, system}] when not UnfoldSysAlias ->
Id;
_ ->
unfold_types_in_type(Env, Type1, Options)
end;
_ ->
%% Not a record type, or ill-formed record type
Id
@@ -3084,16 +3155,12 @@ unify0(Env, A, B, Variance, When) ->
unify1(_Env, {uvar, _, R}, {uvar, _, R}, _Variance, _When) ->
true;
unify1(_Env, {uvar, _, _}, {fun_t, _, _, var_args, _}, _Variance, When) ->
type_error({unify_varargs, When});
unify1(Env, {uvar, A, R}, T, _Variance, When) ->
type_error({unify_varargs, When}),
false;
unify1(_Env, {uvar, A, R}, T, _Variance, When) ->
case occurs_check(R, T) of
true ->
if
Env#env.unify_throws ->
cannot_unify({uvar, A, R}, T, none, When);
true ->
ok
end,
cannot_unify({uvar, A, R}, T, none, When),
false;
false ->
ets_insert(type_vars, {R, T}),
@@ -3103,9 +3170,9 @@ unify1(Env, T, {uvar, A, R}, Variance, When) ->
unify1(Env, {uvar, A, R}, T, Variance, When);
unify1(_Env, {tvar, _, X}, {tvar, _, X}, _Variance, _When) -> true; %% Rigid type variables
unify1(Env, [A|B], [C|D], [V|Variances], When) ->
unify0(Env, A, C, V, When) andalso unify0(Env, B, D, Variances, When);
unify0(Env, A, C, V, When) and unify0(Env, B, D, Variances, When);
unify1(Env, [A|B], [C|D], Variance, When) ->
unify0(Env, A, C, Variance, When) andalso unify0(Env, B, D, Variance, When);
unify0(Env, A, C, Variance, When) and unify0(Env, B, D, Variance, When);
unify1(_Env, X, X, _Variance, _When) ->
true;
unify1(_Env, _A, {id, _, "void"}, Variance, _When)
@@ -3120,18 +3187,13 @@ unify1(Env, A = {con, _, NameA}, B = {con, _, NameB}, Variance, When) ->
case is_subtype(Env, NameA, NameB, Variance) of
true -> true;
false ->
if
Env#env.unify_throws ->
IsSubtype = is_subtype(Env, NameA, NameB, contravariant) orelse
is_subtype(Env, NameA, NameB, covariant),
Cxt = case IsSubtype of
true -> Variance;
false -> none
end,
cannot_unify(A, B, Cxt, When);
true ->
ok
end,
IsSubtype = is_subtype(Env, NameA, NameB, contravariant) orelse
is_subtype(Env, NameA, NameB, covariant),
Cxt = case IsSubtype of
true -> Variance;
false -> none
end,
cannot_unify(A, B, Cxt, When),
false
end;
unify1(_Env, {qid, _, Name}, {qid, _, Name}, _Variance, _When) ->
@@ -3145,13 +3207,15 @@ unify1(Env, {if_t, _, {id, _, Id}, Then1, Else1}, {if_t, _, {id, _, Id}, Then2,
unify0(Env, Else1, Else2, Variance, When);
unify1(_Env, {fun_t, _, _, _, _}, {fun_t, _, _, var_args, _}, _Variance, When) ->
type_error({unify_varargs, When});
type_error({unify_varargs, When}),
false;
unify1(_Env, {fun_t, _, _, var_args, _}, {fun_t, _, _, _, _}, _Variance, When) ->
type_error({unify_varargs, When});
type_error({unify_varargs, When}),
false;
unify1(Env, {fun_t, _, Named1, Args1, Result1}, {fun_t, _, Named2, Args2, Result2}, Variance, When)
when length(Args1) == length(Args2) ->
unify0(Env, Named1, Named2, opposite_variance(Variance), When) andalso
unify0(Env, Args1, Args2, opposite_variance(Variance), When) andalso
unify0(Env, Named1, Named2, opposite_variance(Variance), When) and
unify0(Env, Args1, Args2, opposite_variance(Variance), When) and
unify0(Env, Result1, Result2, Variance, When);
unify1(Env, {app_t, _, {Tag, _, F}, Args1}, {app_t, _, {Tag, _, F}, Args2}, Variance, When)
when length(Args1) == length(Args2), Tag == id orelse Tag == qid ->
@@ -3169,7 +3233,7 @@ unify1(Env, {tuple_t, _, As}, {tuple_t, _, Bs}, Variance, When)
when length(As) == length(Bs) ->
unify0(Env, As, Bs, Variance, When);
unify1(Env, {named_arg_t, _, Id1, Type1, _}, {named_arg_t, _, Id2, Type2, _}, Variance, When) ->
unify1(Env, Id1, Id2, Variance, {arg_name, Id1, Id2, When}),
unify1(Env, Id1, Id2, Variance, {arg_name, Id1, Id2, When}) andalso
unify1(Env, Type1, Type2, Variance, When);
%% The grammar is a bit inconsistent about whether types without
%% arguments are represented as applications to an empty list of
@@ -3178,13 +3242,8 @@ unify1(Env, {app_t, _, T, []}, B, Variance, When) ->
unify0(Env, T, B, Variance, When);
unify1(Env, A, {app_t, _, T, []}, Variance, When) ->
unify0(Env, A, T, Variance, When);
unify1(Env, A, B, _Variance, When) ->
if
Env#env.unify_throws ->
cannot_unify(A, B, none, When);
true ->
ok
end,
unify1(_Env, A, B, _Variance, When) ->
cannot_unify(A, B, none, When),
false.
is_subtype(_Env, NameA, NameB, invariant) ->
@@ -3265,49 +3324,59 @@ create_freshen_tvars() ->
destroy_freshen_tvars() ->
ets_delete(freshen_tvars).
freshen_type(Ann, Type) ->
freshen_type(Ann, Type, Ctx) ->
create_freshen_tvars(),
Type1 = freshen(Ann, Type),
Type1 = freshen(Ann, Type, Ctx),
destroy_freshen_tvars(),
Type1.
freshen(Type) ->
freshen(aeso_syntax:get_ann(Type), Type).
freshen(aeso_syntax:get_ann(Type), Type, none).
freshen(Ann, {tvar, _, Name}) ->
freshen(Ann, {tvar, _, Name}, _Ctx) ->
NewT = case ets_lookup(freshen_tvars, Name) of
[] -> fresh_uvar(Ann);
[{Name, T}] -> T
end,
ets_insert(freshen_tvars, {Name, NewT}),
NewT;
freshen(Ann, {bytes_t, _, any}) ->
freshen(Ann, {bytes_t, _, '_'}, Ctx) ->
X = fresh_uvar(Ann),
add_constraint({is_bytes, X}),
add_constraint({is_bytes, Ctx, X}),
X;
freshen(Ann, T) when is_tuple(T) ->
list_to_tuple(freshen(Ann, tuple_to_list(T)));
freshen(Ann, [A | B]) ->
[freshen(Ann, A) | freshen(Ann, B)];
freshen(_, X) ->
freshen(Ann, {bytes_t, _, fixed}, Ctx) ->
X = fresh_uvar(Ann),
add_constraint({is_fixed_bytes, Ctx, X}),
X;
freshen(Ann, {fun_t, FAnn, NamedArgs, Args, Result}, Ctx) when is_list(Args) ->
{fun_t, FAnn, freshen(Ann, NamedArgs, Ctx),
[ freshen(Ann, Arg, [{arg, Ix} | Ctx]) || {Arg, Ix} <- lists:zip(Args, lists:seq(1, length(Args))) ],
freshen(Ann, Result, [result | Ctx])};
freshen(Ann, {fun_t, FAnn, NamedArgs, Arg, Result}, Ctx) ->
{fun_t, FAnn, freshen(Ann, NamedArgs, Ctx), freshen(Ann, Arg, Ctx), freshen(Ann, Result, [result | Ctx])};
freshen(Ann, T, Ctx) when is_tuple(T) ->
list_to_tuple(freshen(Ann, tuple_to_list(T), Ctx));
freshen(Ann, [A | B], Ctx) ->
[freshen(Ann, A, Ctx) | freshen(Ann, B, Ctx)];
freshen(_, X, _Ctx) ->
X.
freshen_type_sig(Ann, TypeSig = {type_sig, _, Constr, _, _, _}) ->
FunT = freshen_type(Ann, typesig_to_fun_t(TypeSig)),
freshen_type_sig(Ann, TypeSig = {type_sig, _, Constr, _, _, _}, Ctx) ->
FunT = freshen_type(Ann, typesig_to_fun_t(TypeSig), Ctx),
apply_typesig_constraint(Ann, Constr, FunT),
FunT.
apply_typesig_constraint(_Ann, none, _FunT) -> ok;
apply_typesig_constraint(Ann, address_to_contract, {fun_t, _, [], [_], Type}) ->
add_constraint([#is_contract_constraint{ contract_t = Type,
context = {address_to_contract, Ann}}]);
context = {address_to_contract, Ann}}]);
apply_typesig_constraint(Ann, bytes_concat, {fun_t, _, [], [A, B], C}) ->
add_constraint({add_bytes, Ann, concat, A, B, C});
apply_typesig_constraint(Ann, bytes_split, {fun_t, _, [], [C], {tuple_t, _, [A, B]}}) ->
add_constraint({add_bytes, Ann, split, A, B, C});
apply_typesig_constraint(Ann, bytecode_hash, {fun_t, _, _, [Con], _}) ->
add_constraint([#is_contract_constraint{ contract_t = Con,
context = {bytecode_hash, Ann} }]).
context = {bytecode_hash, Ann} }]).
%% Dereferences all uvars and replaces the uninstantiated ones with a
@@ -3340,7 +3409,7 @@ instantiate1(X) ->
integer_to_tvar(X) when X < 26 ->
[$a + X];
integer_to_tvar(X) ->
[integer_to_tvar(X div 26)] ++ [$a + (X rem 26)].
integer_to_tvar(X div 26 - 1) ++ [$a + (X rem 26)].
%% Warnings
@@ -3522,7 +3591,6 @@ create_type_errors() ->
destroy_and_report_type_errors(Env) ->
Errors0 = lists:reverse(ets_tab2list(type_errors)),
%% io:format("Type errors now: ~p\n", [Errors0]),
ets_delete(type_errors),
Errors = [ mk_error(unqualify(Env, Err)) || Err <- Errors0 ],
aeso_errors:throw(Errors). %% No-op if Errors == []
@@ -3728,6 +3796,9 @@ mk_error({type_decl, _, {id, Pos, Name}, _}) ->
Msg = io_lib:format("Empty type declarations are not supported. Type `~s` lacks a definition",
[Name]),
mk_t_err(pos(Pos), Msg);
mk_error({too_many_tvars, Name, {type_sig, Pos, _, _, _, _}}) ->
Msg = io_lib:format("Too many type variables (max 256) in definition of `~s`", [Name]),
mk_t_err(pos(Pos), Msg);
mk_error({stateful_not_allowed, Id, Fun}) ->
Msg = io_lib:format("Cannot reference stateful function `~s` in the definition of non-stateful function `~s`.",
[pp(Id), pp(Fun)]),
@@ -3828,8 +3899,11 @@ mk_error({bad_top_level_decl, Decl}) ->
Msg = io_lib:format("The definition of '~s' must appear inside a ~s.",
[pp_expr(Id), What]),
mk_t_err(pos(Decl), Msg);
mk_error({unknown_byte_length, Type}) ->
Msg = io_lib:format("Cannot resolve length of byte array.", []),
mk_error({unknown_byte_type, Ctx, Type}) ->
Msg = io_lib:format("Cannot resolve type of byte array in\n ~s", [pp_context(Ctx)]),
mk_t_err(pos(Type), Msg);
mk_error({unknown_byte_length, Ctx, Type}) ->
Msg = io_lib:format("Cannot resolve length of byte array in\n ~s", [pp_context(Ctx)]),
mk_t_err(pos(Type), Msg);
mk_error({unsolved_bytes_constraint, Ann, concat, A, B, C}) ->
Msg = io_lib:format("Failed to resolve byte array lengths in call to Bytes.concat with arguments of type\n"
@@ -3843,6 +3917,12 @@ mk_error({unsolved_bytes_constraint, Ann, split, A, B, C}) ->
[ pp_type(" - ", C), pp_loc(C), pp_type(" - ", A), pp_loc(A),
pp_type(" - ", B), pp_loc(B)]),
mk_t_err(pos(Ann), Msg);
mk_error({unsolved_bytes_constraint, Ann, split_any, A, B, C}) ->
Msg = io_lib:format("Failed to resolve byte arrays in call to Bytes.split_any with argument of type\n"
"~s (at ~s)\nand result types\n~s (at ~s)\n~s (at ~s)",
[ pp_type(" - ", C), pp_loc(C), pp_type(" - ", A), pp_loc(A),
pp_type(" - ", B), pp_loc(B)]),
mk_t_err(pos(Ann), Msg);
mk_error({failed_to_get_compiler_version, Err}) ->
Msg = io_lib:format("Failed to get compiler version. Error: ~p", [Err]),
mk_t_err(pos(0, 0), Msg);
@@ -3940,7 +4020,7 @@ mk_error({higher_order_entrypoint, Ann, {id, _, Name}, Thing}) ->
[ThingS, Name, Bad]),
mk_t_err(pos(Ann), Msg);
mk_error({invalid_aens_resolve_type, Ann, T}) ->
Msg = io_lib:format("Invalid return type of `AENS.resolve`:\n"
Msg = io_lib:format("Invalid return type of `AENSv2.resolve`:\n"
"~s`\n"
"It must be a `string` or a pubkey type (`address`, `oracle`, etc)",
[pp_type(" `", T)]),
@@ -4117,8 +4197,8 @@ pp_when({if_branches, Then, ThenType0, Else, ElseType0}) ->
Branches = [ {Then, ThenType} | [ {B, ElseType} || B <- if_branches(Else) ] ],
{pos(element(1, hd(Branches))),
io_lib:format("when comparing the types of the if-branches\n"
"~s", [ [ io_lib:format("~s (at ~s)\n", [pp_typed(" - ", B, BType), pp_loc(B)])
|| {B, BType} <- Branches ] ])};
"~s", [string:join([ io_lib:format("~s (at ~s)", [pp_typed(" - ", B, BType), pp_loc(B)])
|| {B, BType} <- Branches ], "\n")])};
pp_when({case_pat, Pat, PatType0, ExprType0}) ->
{PatType, ExprType} = instantiate({PatType0, ExprType0}),
{pos(Pat),
@@ -4165,6 +4245,10 @@ pp_when({var_args, Ann, Fun}) ->
{pos(Ann)
, io_lib:format("when resolving arguments of variadic function `~s`", [pp_expr(Fun)])
};
pp_when({implement_interface_fun, Ann, Entrypoint, Interface}) ->
{ pos(Ann)
, io_lib:format("when implementing the entrypoint `~s` from the interface `~s`", [Entrypoint, Interface])
};
pp_when(unknown) -> {pos(0,0), ""}.
-spec pp_why_record(why_record()) -> {pos(), iolist()}.
@@ -4209,6 +4293,18 @@ pp_type(Type) ->
pp_type(Label, Type) ->
prettypr:format(prettypr:beside(prettypr:text(Label), aeso_pretty:type(Type, [show_generated])), 80, 80).
pp_context([{fun_name, Id}]) -> ["a call to ", pp(Id)];
pp_context([result | Ctx]) -> ["the result of ", pp_context(Ctx)];
pp_context([{arg, N} | Ctx]) ->
Cnt = fun(1) -> "first";
(2) -> "second";
(3) -> "third";
(I) -> io_lib:format("~pth", [I])
end,
["the ", Cnt(N), " argument of ", pp_context(Ctx)];
pp_context(none) -> "unknown context".
src_file(T) -> aeso_syntax:get_ann(file, T, no_file).
include_type(T) -> aeso_syntax:get_ann(include_type, T, none).
line_number(T) -> aeso_syntax:get_ann(line, T, 0).
@@ -4260,7 +4356,7 @@ pp({tuple_t, _, []}) ->
"unit";
pp({tuple_t, _, Cpts}) ->
["(", string:join(lists:map(fun pp/1, Cpts), " * "), ")"];
pp({bytes_t, _, any}) -> "bytes(_)";
pp({bytes_t, _, any}) -> "bytes()";
pp({bytes_t, _, Len}) ->
["bytes(", integer_to_list(Len), ")"];
pp({app_t, _, T, []}) ->
src/aeso_ast_to_fcode.erl
+131 -72
View File
@@ -8,6 +8,7 @@
%%%
%%%-------------------------------------------------------------------
-module(aeso_ast_to_fcode).
-vsn("8.0.1").
-export([ast_to_fcode/2, format_fexpr/1]).
-export_type([fcode/0, fexpr/0, fun_def/0]).
@@ -32,12 +33,13 @@
-type op() :: '+' | '-' | '*' | '/' | mod | '^' | '++' | '::' |
'<' | '>' | '=<' | '>=' | '==' | '!=' | '!' |
'band' | 'bor' | 'bxor' | 'bnot' | '<<' | '>>' |
map_get | map_get_d | map_set | map_from_list | map_to_list |
map_delete | map_member | map_size | string_length |
string_concat | bits_set | bits_clear | bits_test | bits_sum |
bits_intersection | bits_union | bits_difference |
contract_to_address | address_to_contract | crypto_verify_sig | crypto_verify_sig_secp256k1 |
crypto_sha3 | crypto_sha256 | crypto_blake2b |
crypto_sha3 | crypto_sha256 | crypto_blake2b | crypto_poseidon |
crypto_ecverify_secp256k1 | crypto_ecrecover_secp256k1 |
mcl_bls12_381_g1_neg | mcl_bls12_381_g1_norm | mcl_bls12_381_g1_valid |
mcl_bls12_381_g1_is_zero | mcl_bls12_381_g1_add | mcl_bls12_381_g1_mul |
@@ -54,11 +56,15 @@
| {contract_pubkey, binary()}
| {oracle_pubkey, binary()}
| {oracle_query_id, binary()}
| {signature, binary()}
| {bool, false | true}
| {contract_code, string()} %% for CREATE, by name
| {typerep, ftype()}.
-type fann() :: [ {file, aeso_syntax:ann_file()} | {line, aeso_syntax:ann_line()} ].
-type fann() :: [ {file, aeso_syntax:ann_file()} |
{line, aeso_syntax:ann_line()} |
{col, aeso_syntax:ann_col()}
].
-type fexpr() :: {lit, fann(), flit()}
| {nil, fann()}
@@ -224,6 +230,12 @@ init_env(Options) ->
["AENS", "ContractPt"] => #con_tag{ tag = 2, arities = [1, 1, 1, 1] },
["AENS", "ChannelPt"] => #con_tag{ tag = 3, arities = [1, 1, 1, 1] },
["AENS", "Name"] => #con_tag{ tag = 0, arities = [3] },
["AENSv2", "AccountPt"] => #con_tag{ tag = 0, arities = [1, 1, 1, 1, 1] },
["AENSv2", "OraclePt"] => #con_tag{ tag = 1, arities = [1, 1, 1, 1, 1] },
["AENSv2", "ContractPt"] => #con_tag{ tag = 2, arities = [1, 1, 1, 1, 1] },
["AENSv2", "ChannelPt"] => #con_tag{ tag = 3, arities = [1, 1, 1, 1, 1] },
["AENSv2", "DataPt"] => #con_tag{ tag = 4, arities = [1, 1, 1, 1, 1] },
["AENSv2", "Name"] => #con_tag{ tag = 0, arities = [3] },
["Chain", "GAMetaTx"] => #con_tag{ tag = 0, arities = [2] },
["Chain", "PayingForTx"] => #con_tag{ tag = 0, arities = [2] },
["Chain", "SpendTx"] => #con_tag{ tag = 0, arities = ChainTxArities },
@@ -256,40 +268,45 @@ init_env(Options) ->
-spec builtins() -> builtins().
builtins() ->
MkName = fun(NS, Fun) ->
list_to_atom(string:to_lower(string:join(NS ++ [Fun], "_")))
MkName = fun
(["AENSv2"], Fun) ->
list_to_atom(string:to_lower("AENS_" ++ Fun));
(NS, Fun) ->
list_to_atom(string:to_lower(string:join(NS ++ [Fun], "_")))
end,
Scopes = [{[], [{"abort", 1}, {"require", 2}, {"exit", 1}]},
{["Chain"], [{"spend", 2}, {"balance", 1}, {"block_hash", 1}, {"coinbase", none},
{"timestamp", none}, {"block_height", none}, {"difficulty", none},
{"gas_limit", none}, {"bytecode_hash", 1}, {"create", variable}, {"clone", variable}]},
{"timestamp", none}, {"block_height", none}, {"difficulty", none}, {"gas_limit", none},
{"network_id", none}, {"bytecode_hash", 1}, {"create", variable}, {"clone", variable}]},
{["Contract"], [{"address", none}, {"balance", none}, {"creator", none}]},
{["Call"], [{"origin", none}, {"caller", none}, {"value", none}, {"gas_price", none}, {"fee", none},
{"gas_left", 0}]},
{["Oracle"], [{"register", 4}, {"expiry", 1}, {"query_fee", 1}, {"query", 5}, {"get_question", 2},
{"respond", 4}, {"extend", 3}, {"get_answer", 2},
{"check", 1}, {"check_query", 2}]},
{["AENS"], [{"resolve", 2}, {"preclaim", 3}, {"claim", 5}, {"transfer", 4},
{["AENSv2"], [{"resolve", 2}, {"preclaim", 3}, {"claim", 5}, {"transfer", 4},
{"revoke", 3}, {"update", 6}, {"lookup", 1}]},
{["Map"], [{"from_list", 1}, {"to_list", 1}, {"lookup", 2},
{"lookup_default", 3}, {"delete", 2}, {"member", 2}, {"size", 1}]},
{["Crypto"], [{"verify_sig", 3}, {"verify_sig_secp256k1", 3},
{"ecverify_secp256k1", 3}, {"ecrecover_secp256k1", 2},
{"sha3", 1}, {"sha256", 1}, {"blake2b", 1}]},
{"sha3", 1}, {"sha256", 1}, {"blake2b", 1}, {"poseidon", 2}]},
{["MCL_BLS12_381"], [{"g1_neg", 1}, {"g1_norm", 1}, {"g1_valid", 1}, {"g1_is_zero", 1}, {"g1_add", 2}, {"g1_mul", 2},
{"g2_neg", 1}, {"g2_norm", 1}, {"g2_valid", 1}, {"g2_is_zero", 1}, {"g2_add", 2}, {"g2_mul", 2},
{"gt_inv", 1}, {"gt_add", 2}, {"gt_mul", 2}, {"gt_pow", 2}, {"gt_is_one", 1},
{"pairing", 2}, {"miller_loop", 2}, {"final_exp", 1},
{"int_to_fr", 1}, {"int_to_fp", 1}, {"fr_to_int", 1}, {"fp_to_int", 1}]},
{["StringInternal"], [{"length", 1}, {"concat", 2}, {"to_list", 1}, {"from_list", 1},
{["StringInternal"], [{"length", 1}, {"concat", 2}, {"to_list", 1}, {"from_list", 1}, {"to_bytes", 1},
{"sha3", 1}, {"sha256", 1}, {"blake2b", 1}, {"to_lower", 1}, {"to_upper", 1}]},
{["Char"], [{"to_int", 1}, {"from_int", 1}]},
{["Auth"], [{"tx_hash", none}, {"tx", none}]},
{["Bits"], [{"set", 2}, {"clear", 2}, {"test", 2}, {"sum", 1}, {"intersection", 2},
{"union", 2}, {"difference", 2}, {"none", none}, {"all", none}]},
{["Bytes"], [{"to_int", 1}, {"to_str", 1}, {"concat", 2}, {"split", 1}]},
{["Int"], [{"to_str", 1}]},
{["Address"], [{"to_str", 1}, {"to_contract", 1}, {"is_oracle", 1}, {"is_contract", 1}, {"is_payable", 1}]}
{["Bytes"], [{"to_int", 1}, {"to_str", 1}, {"concat", 2}, {"split", 1}, {"to_fixed_size", 1},
{"to_any_size", 1}, {"size", 1}, {"split_any", 2}]},
{["Int"], [{"to_str", 1}, {"to_bytes", 2}, {"mulmod", 2}]},
{["Address"], [{"to_str", 1}, {"to_bytes", 1}, {"to_contract", 1},
{"is_oracle", 1}, {"is_contract", 1}, {"is_payable", 1}]}
],
maps:from_list([ {NS ++ [Fun], {MkName(NS, Fun), Arity}}
|| {NS, Funs} <- Scopes,
@@ -325,11 +342,13 @@ init_type_env() ->
["Chain", "ttl"] => ?type({variant, [[integer], [integer]]}),
["AENS", "pointee"] => ?type({variant, [[address], [address], [address], [address]]}),
["AENS", "name"] => ?type({variant, [[address, {variant, [[integer], [integer]]}, {map, string, {variant, [[address], [address], [address], [address]]}}]]}),
["AENSv2", "pointee"] => ?type({variant, [[address], [address], [address], [address], [{bytes, any}]]}),
["AENSv2", "name"] => ?type({variant, [[address, {variant, [[integer], [integer]]}, {map, string, {variant, [[address], [address], [address], [address], [{bytes, any}]]}}]]}),
["Chain", "ga_meta_tx"] => ?type({variant, [[address, integer]]}),
["Chain", "paying_for_tx"] => ?type({variant, [[address, integer]]}),
["Chain", "base_tx"] => ?type(BaseTx),
["MCL_BLS12_381", "fr"] => ?type({bytes, 32}),
["MCL_BLS12_381", "fp"] => ?type({bytes, 48})
["MCL_BLS12_381", "fr"] => ?type({bytes, 32}),
["MCL_BLS12_381", "fp"] => ?type({bytes, 48})
}.
-spec is_no_code(env()) -> boolean().
@@ -387,11 +406,23 @@ to_fcode(Env, [{namespace, _, {con, _, Con}, Decls} | Code]) ->
Env1 = decls_to_fcode(Env#{ context => {namespace, Con} }, Decls),
to_fcode(Env1, Code).
-spec ann_loc(aeso_syntax:ann() | fann()) -> {File, Line, Column} when
File :: string() | none,
Line :: non_neg_integer() | none,
Column :: non_neg_integer() | none.
ann_loc(Ann) ->
File = proplists:get_value(file, Ann, none),
Line = proplists:get_value(line, Ann, none),
Col = proplists:get_value(col, Ann, none),
{File, Line, Col}.
-spec to_fann(aeso_syntax:ann()) -> fann().
to_fann(Ann) ->
File = proplists:lookup(file, Ann),
Line = proplists:lookup(line, Ann),
[ X || X <- [File, Line], X =/= none ].
{File, Line, Col} = ann_loc(Ann),
[ {Tag, X} ||
{Tag, X} <- [{file, File}, {line, Line}, {col, Col}],
X =/= none, X =/= no_file
].
-spec get_fann(fexpr()) -> fann().
get_fann(FExpr) -> element(2, FExpr).
@@ -570,6 +601,7 @@ expr_to_fcode(_Env, _Type, {char, Ann, N}) -> {lit, to_fann(Ann), {in
expr_to_fcode(_Env, _Type, {bool, Ann, B}) -> {lit, to_fann(Ann), {bool, B}};
expr_to_fcode(_Env, _Type, {string, Ann, S}) -> {lit, to_fann(Ann), {string, S}};
expr_to_fcode(_Env, _Type, {account_pubkey, Ann, K}) -> {lit, to_fann(Ann), {account_pubkey, K}};
expr_to_fcode(_Env, _Type, {signature, Ann, K}) -> {lit, to_fann(Ann), {signature, K}};
expr_to_fcode(_Env, _Type, {contract_pubkey, Ann, K}) -> {lit, to_fann(Ann), {contract_pubkey, K}};
expr_to_fcode(_Env, _Type, {oracle_pubkey, Ann, K}) -> {lit, to_fann(Ann), {oracle_pubkey, K}};
expr_to_fcode(_Env, _Type, {oracle_query_id, Ann, K}) -> {lit, to_fann(Ann), {oracle_query_id, K}};
@@ -598,6 +630,9 @@ expr_to_fcode(Env, Type, {qid, Ann, X}) ->
{builtin_u, FAnn, B = bytes_split, Ar} ->
{fun_t, _, _, _, {tuple_t, _, [{bytes_t, _, N}, _]}} = Type,
{builtin_u, FAnn, B, Ar, [{lit, FAnn, {int, N}}]};
{builtin_u, FAnn, B = bytes_to_fixed_size, Ar} ->
{fun_t, _, _, _, {app_t, _, {id, _, "option"}, [{bytes_t, _, N}]}} = Type,
{builtin_u, FAnn, B, Ar, [{lit, FAnn, {int, N}}]};
Other -> Other
end;
@@ -733,8 +768,9 @@ expr_to_fcode(Env, Type, {app, Ann, {Op, _}, [A, B]}) when is_atom(Op) ->
expr_to_fcode(Env, _Type, {app, Ann, {Op, _}, [A]}) when is_atom(Op) ->
FAnn = to_fann(Ann),
case Op of
'-' -> {op, FAnn, '-', [{lit, FAnn, {int, 0}}, expr_to_fcode(Env, A)]};
'!' -> {op, FAnn, '!', [expr_to_fcode(Env, A)]}
'-' -> {op, FAnn, '-', [{lit, FAnn, {int, 0}}, expr_to_fcode(Env, A)]};
'bnot' -> {op, FAnn, 'bnot', [expr_to_fcode(Env, A)]};
'!' -> {op, FAnn, '!', [expr_to_fcode(Env, A)]}
end;
%% Function calls
@@ -1152,13 +1188,13 @@ stmts_to_fcode(Env, [Expr | Stmts]) ->
op_builtins() ->
[map_from_list, map_to_list, map_delete, map_member, map_size,
stringinternal_length, stringinternal_concat, stringinternal_to_list, stringinternal_from_list,
stringinternal_sha3, stringinternal_sha256, stringinternal_blake2b,
stringinternal_to_bytes, stringinternal_sha3, stringinternal_sha256, stringinternal_blake2b,
char_to_int, char_from_int, stringinternal_to_lower, stringinternal_to_upper,
bits_set, bits_clear, bits_test, bits_sum, bits_intersection, bits_union,
bits_difference, int_to_str, address_to_str, crypto_verify_sig,
address_to_contract,
crypto_verify_sig_secp256k1, crypto_sha3, crypto_sha256, crypto_blake2b,
crypto_ecverify_secp256k1, crypto_ecrecover_secp256k1,
bits_set, bits_clear, bits_test, bits_sum, bits_intersection, bits_union, bits_difference,
int_to_str, int_to_bytes, int_mulmod,
address_to_str, address_to_bytes, address_to_contract,
crypto_verify_sig, crypto_verify_sig_secp256k1, crypto_sha3, crypto_sha256, crypto_blake2b,
crypto_poseidon, crypto_ecverify_secp256k1, crypto_ecrecover_secp256k1,
mcl_bls12_381_g1_neg, mcl_bls12_381_g1_norm, mcl_bls12_381_g1_valid,
mcl_bls12_381_g1_is_zero, mcl_bls12_381_g1_add, mcl_bls12_381_g1_mul,
mcl_bls12_381_g2_neg, mcl_bls12_381_g2_norm, mcl_bls12_381_g2_valid,
@@ -1276,10 +1312,13 @@ event_function(_Env = #{event_type := {variant_t, EventCons}}, EventType = {vari
-spec lambda_lift(fcode()) -> fcode().
lambda_lift(FCode = #{ functions := Funs, state_layout := StateLayout }) ->
init_lambda_funs(),
Funs1 = maps:map(fun(_, Body) -> lambda_lift_fun(StateLayout, Body) end, Funs),
NewFuns = get_lambda_funs(),
FCode#{ functions := maps:merge(Funs1, NewFuns) }.
NewFuns =
[ {FunName, FunDef}
|| {ParentName, ParentDef} <- maps:to_list(Funs),
{NewParentDef, Lambdas} <- [lambda_lift_fun(StateLayout, ParentName, ParentDef)],
{FunName, FunDef} <- [{ParentName, NewParentDef} | maps:to_list(Lambdas)]
],
FCode#{ functions := maps:from_list(NewFuns) }.
-define(lambda_key, '%lambdalifted').
@@ -1287,18 +1326,42 @@ lambda_lift(FCode = #{ functions := Funs, state_layout := StateLayout }) ->
init_lambda_funs() -> put(?lambda_key, #{}).
-spec get_lambda_funs() -> term().
get_lambda_funs() -> erase(?lambda_key).
get_lambda_funs() ->
Lambdas = erase(?lambda_key),
%% Remove name feed entries and leave only actual functions
maps:filter(fun({fresh, _}, _) -> false;
(_, _) -> true
end, Lambdas).
-spec add_lambda_fun(fun_def()) -> fun_name().
add_lambda_fun(Def) ->
Name = fresh_fun(),
-spec add_lambda_fun(fun_name(), fann(), fun_def()) -> fun_name().
add_lambda_fun(Parent, FAnn, Def) ->
Funs = get(?lambda_key),
put(?lambda_key, Funs#{ Name => Def }),
LambdaId = maps:get({fresh, Parent}, Funs, 0),
Name = lambda_name(FAnn, LambdaId, Parent),
put(?lambda_key, Funs#{ Name => Def, {fresh, Parent} => LambdaId + 1}),
Name.
-spec lambda_lift_fun(state_layout(), fun_def()) -> fun_def().
lambda_lift_fun(Layout, Def = #{ body := Body }) ->
Def#{ body := lambda_lift_expr(Layout, Body) }.
-spec lambda_name(fann(), non_neg_integer(), fun_name()) -> fun_name().
lambda_name(FAnn, Id, PName) ->
PSName = case PName of
{entrypoint, N} -> [binary_to_list(N)];
{local_fun, Ns} -> Ns
end,
{_File, Line, Col} = ann_loc(FAnn),
Name = PSName ++
[ "%lambda"
, if is_integer(Line) -> integer_to_list(Line); true -> "" end
, if is_integer(Col) -> integer_to_list(Col); true -> "" end
, integer_to_list(Id)],
{local_fun, Name}.
-spec lambda_lift_fun(state_layout(), fun_name(), fun_def()) -> {fun_def(), #{var_name() => term()}}.
lambda_lift_fun(Layout, Name, Def = #{ body := Body }) ->
%% Not thread safe! We initialize state per functions not to depend on the order in which
%% functions are processed.
init_lambda_funs(),
NewDef = Def#{ body := lambda_lift_expr(Layout, Name, Body) },
{NewDef, get_lambda_funs()}.
-spec lifted_fun([var_name()], [var_name()], fexpr()) -> fun_def().
lifted_fun([Z], Xs, Body) ->
@@ -1316,21 +1379,20 @@ lifted_fun(FVs, Xs, Body) ->
body => lists:foldr(Proj, Body, indexed(FVs))
}.
-spec make_closure([var_name()], [var_name()], fexpr()) -> Closure when
-spec make_closure(fun_name(), fann(), [var_name()], [var_name()], fexpr()) -> Closure when
Closure :: fexpr().
make_closure(FVs, Xs, Body) ->
Fun = add_lambda_fun(lifted_fun(FVs, Xs, Body)),
FAnn = get_fann(Body),
make_closure(ParentName, FAnn, FVs, Xs, Body) ->
Name = add_lambda_fun(ParentName, FAnn, lifted_fun(FVs, Xs, Body)),
Tup = fun([Y]) -> Y; (Ys) -> {tuple, FAnn, Ys} end,
{closure, FAnn, Fun, Tup([{var, FAnn, Y} || Y <- FVs])}.
{closure, FAnn, Name, Tup([{var, FAnn, Y} || Y <- FVs])}.
-spec lambda_lift_expr(state_layout(), fexpr()) -> Closure when
-spec lambda_lift_expr(state_layout(), fun_name(), fexpr()) -> Closure when
Closure :: fexpr().
lambda_lift_expr(Layout, L = {lam, _, Xs, Body}) ->
lambda_lift_expr(Layout, Name, L = {lam, FAnn, Xs, Body}) ->
FVs = free_vars(L),
make_closure(FVs, Xs, lambda_lift_expr(Layout, Body));
lambda_lift_expr(Layout, UExpr) when element(1, UExpr) == def_u; element(1, UExpr) == builtin_u ->
[Tag, _, F, Ar | _] = tuple_to_list(UExpr),
make_closure(Name, FAnn, FVs, Xs, lambda_lift_expr(Layout, Name, Body));
lambda_lift_expr(Layout, Name, UExpr) when element(1, UExpr) == def_u; element(1, UExpr) == builtin_u ->
[Tag, FAnn, F, Ar | _] = tuple_to_list(UExpr),
ExtraArgs = case UExpr of
{builtin_u, _, _, _, TypeArgs} -> TypeArgs;
_ -> []
@@ -1341,41 +1403,41 @@ lambda_lift_expr(Layout, UExpr) when element(1, UExpr) == def_u; element(1, UExp
builtin_u -> builtin_to_fcode(Layout, get_fann(UExpr), F, Args);
def_u -> {def, get_fann(UExpr), F, Args}
end,
make_closure([], Xs, Body);
lambda_lift_expr(Layout, {remote_u, FAnn, ArgsT, RetT, Ct, F}) ->
make_closure(Name, FAnn, [], Xs, Body);
lambda_lift_expr(Layout, Name, {remote_u, FAnn, ArgsT, RetT, Ct, F}) ->
FVs = free_vars(Ct),
Ct1 = lambda_lift_expr(Layout, Ct),
Ct1 = lambda_lift_expr(Layout, Name, Ct),
NamedArgCount = 3,
Xs = [ lists:concat(["arg", I]) || I <- lists:seq(1, length(ArgsT) + NamedArgCount) ],
Args = [{var, [], X} || X <- Xs],
make_closure(FVs, Xs, {remote, FAnn, ArgsT, RetT, Ct1, F, Args});
lambda_lift_expr(Layout, Expr) ->
make_closure(Name, FAnn, FVs, Xs, {remote, FAnn, ArgsT, RetT, Ct1, F, Args});
lambda_lift_expr(Layout, Name, Expr) ->
case Expr of
{lit, _, _} -> Expr;
{nil, _} -> Expr;
{var, _, _} -> Expr;
{closure, _, _, _} -> Expr;
{def, FAnn, D, As} -> {def, FAnn, D, lambda_lift_exprs(Layout, As)};
{builtin, FAnn, B, As} -> {builtin, FAnn, B, lambda_lift_exprs(Layout, As)};
{remote, FAnn, ArgsT, RetT, Ct, F, As} -> {remote, FAnn, ArgsT, RetT, lambda_lift_expr(Layout, Ct), F, lambda_lift_exprs(Layout, As)};
{con, FAnn, Ar, C, As} -> {con, FAnn, Ar, C, lambda_lift_exprs(Layout, As)};
{tuple, FAnn, As} -> {tuple, FAnn, lambda_lift_exprs(Layout, As)};
{proj, FAnn, A, I} -> {proj, FAnn, lambda_lift_expr(Layout, A), I};
{set_proj, FAnn, A, I, B} -> {set_proj, FAnn, lambda_lift_expr(Layout, A), I, lambda_lift_expr(Layout, B)};
{op, FAnn, Op, As} -> {op, FAnn, Op, lambda_lift_exprs(Layout, As)};
{'let', FAnn, X, A, B} -> {'let', FAnn, X, lambda_lift_expr(Layout, A), lambda_lift_expr(Layout, B)};
{funcall, FAnn, A, Bs} -> {funcall, FAnn, lambda_lift_expr(Layout, A), lambda_lift_exprs(Layout, Bs)};
{set_state, FAnn, R, A} -> {set_state, FAnn, R, lambda_lift_expr(Layout, A)};
{def, FAnn, D, As} -> {def, FAnn, D, lambda_lift_exprs(Layout, Name, As)};
{builtin, FAnn, B, As} -> {builtin, FAnn, B, lambda_lift_exprs(Layout, Name, As)};
{remote, FAnn, ArgsT, RetT, Ct, F, As} -> {remote, FAnn, ArgsT, RetT, lambda_lift_expr(Layout, Name, Ct), F, lambda_lift_exprs(Layout, Name, As)};
{con, FAnn, Ar, C, As} -> {con, FAnn, Ar, C, lambda_lift_exprs(Layout, Name, As)};
{tuple, FAnn, As} -> {tuple, FAnn, lambda_lift_exprs(Layout, Name, As)};
{proj, FAnn, A, I} -> {proj, FAnn, lambda_lift_expr(Layout, Name, A), I};
{set_proj, FAnn, A, I, B} -> {set_proj, FAnn, lambda_lift_expr(Layout, Name, A), I, lambda_lift_expr(Layout, Name, B)};
{op, FAnn, Op, As} -> {op, FAnn, Op, lambda_lift_exprs(Layout, Name, As)};
{'let', FAnn, X, A, B} -> {'let', FAnn, X, lambda_lift_expr(Layout, Name, A), lambda_lift_expr(Layout, Name, B)};
{funcall, FAnn, A, Bs} -> {funcall, FAnn, lambda_lift_expr(Layout, Name, A), lambda_lift_exprs(Layout, Name, Bs)};
{set_state, FAnn, R, A} -> {set_state, FAnn, R, lambda_lift_expr(Layout, Name, A)};
{get_state, _, _} -> Expr;
{switch, FAnn, S} -> {switch, FAnn, lambda_lift_expr(Layout, S)};
{split, Type, X, Alts} -> {split, Type, X, lambda_lift_exprs(Layout, Alts)};
{nosplit, Rens, A} -> {nosplit, Rens, lambda_lift_expr(Layout, A)};
{'case', P, S} -> {'case', P, lambda_lift_expr(Layout, S)}
{switch, FAnn, S} -> {switch, FAnn, lambda_lift_expr(Layout, Name, S)};
{split, Type, X, Alts} -> {split, Type, X, lambda_lift_exprs(Layout, Name, Alts)};
{nosplit, Rens, A} -> {nosplit, Rens, lambda_lift_expr(Layout, Name, A)};
{'case', P, S} -> {'case', P, lambda_lift_expr(Layout, Name, S)}
end.
-spec lambda_lift_exprs(state_layout(), [fexpr()]) -> [Closure] when
-spec lambda_lift_exprs(state_layout(), fun_name(), [fexpr()]) -> [Closure] when
Closure :: fexpr().
lambda_lift_exprs(Layout, As) -> [lambda_lift_expr(Layout, A) || A <- As].
lambda_lift_exprs(Layout, Name, As) -> [lambda_lift_expr(Layout, Name, A) || A <- As].
%% -- Optimisations ----------------------------------------------------------
@@ -1900,9 +1962,6 @@ fresh_name_save(Name) ->
-spec fresh_name() -> var_name().
fresh_name() -> fresh_name("%").
-spec fresh_fun() -> fun_name().
fresh_fun() -> {local_fun, [fresh_name("^")]}.
-spec fresh_name(string()) -> var_name().
fresh_name(Prefix) ->
N = get('%fresh'),
src/aeso_compiler.erl
+24 -11
View File
@@ -7,6 +7,7 @@
%%% Created : 12 Dec 2017
%%%-------------------------------------------------------------------
-module(aeso_compiler).
-vsn("8.0.1").
-export([ file/1
, file/2
@@ -27,7 +28,7 @@
, validate_byte_code/3
]).
-include_lib("aebytecode/include/aeb_opcodes.hrl").
-include("$aebytecode_include/aeb_opcodes.hrl").
-include("aeso_utils.hrl").
@@ -42,6 +43,7 @@
| {include, {file_system, [string()]} |
{explicit_files, #{string() => binary()}}}
| {src_file, string()}
| {src_dir, string()}
| {aci, aeso_aci:aci_type()}.
-type options() :: [option()].
@@ -87,7 +89,9 @@ file(Filename) ->
file(File, Options0) ->
Options = add_include_path(File, Options0),
case read_contract(File) of
{ok, Bin} -> from_string(Bin, [{src_file, File} | Options]);
{ok, Bin} ->
SrcDir = aeso_utils:canonical_dir(filename:dirname(File)),
from_string(Bin, [{src_file, File}, {src_dir, SrcDir} | Options]);
{error, Error} ->
Msg = lists:flatten([File,": ",file:format_error(Error)]),
{error, [aeso_errors:new(file_error, Msg)]}
@@ -99,7 +103,7 @@ add_include_path(File, Options) ->
false ->
Dir = filename:dirname(File),
{ok, Cwd} = file:get_cwd(),
[{include, {file_system, [Cwd, Dir]}} | Options]
[{include, {file_system, [Cwd, aeso_utils:canonical_dir(Dir)]}} | Options]
end.
-spec from_string(binary() | string(), options()) -> {ok, map()} | {error, [aeso_errors:error()]}.
@@ -225,10 +229,13 @@ encode_value(Contract0, Type, Value, Options) ->
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,
#{ folded_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]),
Type1 = aeso_ast_infer_types:unfold_types_in_type(TypeEnv, Type0,
[ unfold_record_types
, unfold_variant_types
, not_unfold_system_alias_types ]),
fate_data_to_sophia_value(Type0, Type1, FateValue);
Err = {error, _} ->
Err
@@ -269,7 +276,7 @@ insert_call_function(Ast, Code, Call, {type, Type}) ->
[ Code,
"\n\n",
lists:duplicate(Ind, " "),
"entrypoint ", Call, "(val : ", Type, ") = val\n"
"entrypoint ", Call, "(val : ", Type, ") : ", Type, " = val\n"
]).
-spec insert_init_function(string(), options()) -> string().
@@ -308,9 +315,12 @@ to_sophia_value(ContractString, FunName, ok, Data, Options0) ->
Options = [no_code | Options0],
try
Code = string_to_code(ContractString, Options),
#{ unfolded_typed_ast := TypedAst, type_env := TypeEnv} = Code,
#{ folded_typed_ast := TypedAst, type_env := TypeEnv} = Code,
{ok, _, Type0} = get_decode_type(FunName, TypedAst),
Type = aeso_ast_infer_types:unfold_types_in_type(TypeEnv, Type0, [unfold_record_types, unfold_variant_types]),
Type = aeso_ast_infer_types:unfold_types_in_type(TypeEnv, Type0,
[ unfold_record_types
, unfold_variant_types
, not_unfold_system_alias_types]),
fate_data_to_sophia_value(Type0, Type, Data)
catch
@@ -357,14 +367,17 @@ decode_calldata(ContractString, FunName, Calldata, Options0) ->
Options = [no_code | Options0],
try
Code = string_to_code(ContractString, Options),
#{ unfolded_typed_ast := TypedAst, type_env := TypeEnv} = Code,
#{ folded_typed_ast := TypedAst, type_env := TypeEnv} = Code,
{ok, Args, _} = get_decode_type(FunName, TypedAst),
GetType = fun({typed, _, _, T}) -> T; (T) -> T end,
ArgTypes = lists:map(GetType, Args),
Type0 = {tuple_t, [], ArgTypes},
%% user defined data types such as variants needed to match against
Type = aeso_ast_infer_types:unfold_types_in_type(TypeEnv, Type0, [unfold_record_types, unfold_variant_types]),
Type = aeso_ast_infer_types:unfold_types_in_type(TypeEnv, Type0,
[ unfold_record_types
, unfold_variant_types
, not_unfold_system_alias_types]),
case aeb_fate_abi:decode_calldata(FunName, Calldata) of
{ok, FateArgs} ->
try
src/aeso_errors.erl
+1
View File
@@ -6,6 +6,7 @@
%%%-------------------------------------------------------------------
-module(aeso_errors).
-vsn("8.0.1").
-type src_file() :: no_file | iolist().
src/aeso_fcode_to_fate.erl
+50 -5
View File
@@ -8,6 +8,7 @@
%%%
%%%-------------------------------------------------------------------
-module(aeso_fcode_to_fate).
-vsn("8.0.1").
-export([compile/3, compile/4, term_to_fate/1, term_to_fate/2]).
@@ -235,6 +236,7 @@ lit_to_fate(Env, L) ->
{bytes, B} -> aeb_fate_data:make_bytes(B);
{bool, B} -> aeb_fate_data:make_boolean(B);
{account_pubkey, K} -> aeb_fate_data:make_address(K);
{signature, S} -> aeb_fate_data:make_bytes(S);
{contract_pubkey, K} -> aeb_fate_data:make_contract(K);
{oracle_pubkey, K} -> aeb_fate_data:make_oracle(K);
{oracle_query_id, H} -> aeb_fate_data:make_oracle_query(H);
@@ -285,6 +287,8 @@ term_to_fate(_GlobEnv, _Env, {builtin, _, map_empty, []}) ->
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, {builtin, _, bytes_to_any_size, [Bs]}) ->
term_to_fate(GlobEnv, Env, Bs);
term_to_fate(_GlobEnv, _Env, _) ->
throw(not_a_fate_value).
@@ -539,6 +543,14 @@ 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) ->
@@ -560,6 +572,8 @@ 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, []) ->
@@ -667,6 +681,12 @@ 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);
@@ -677,6 +697,7 @@ 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);
@@ -691,7 +712,10 @@ 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);
@@ -701,6 +725,7 @@ 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);
@@ -973,6 +998,13 @@ 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]);
@@ -1003,9 +1035,11 @@ 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]);
@@ -1025,18 +1059,23 @@ 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]);
@@ -1057,6 +1096,7 @@ 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]);
@@ -1141,11 +1181,16 @@ 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)
src/aeso_parse_lib.erl
+9 -1
View File
@@ -7,6 +7,7 @@
%%% @end
%%%-------------------------------------------------------------------
-module(aeso_parse_lib).
-vsn("8.0.1").
-export([parse/2,
return/1, fail/0, fail/1, fail/2, map/2, bind/2,
@@ -15,7 +16,7 @@
many/1, many1/1, sep/2, sep1/2,
infixl/2, infixr/2]).
-export([current_file/0, set_current_file/1,
-export([current_file/0, set_current_file/1, current_dir/0, set_current_dir/1,
current_include_type/0, set_current_include_type/1]).
%% -- Types ------------------------------------------------------------------
@@ -480,6 +481,13 @@ current_file() ->
set_current_file(File) ->
put('$current_file', File).
%% Current source directory
current_dir() ->
get('$current_dir').
set_current_dir(File) ->
put('$current_dir', File).
add_current_file({L, C}) -> {current_file(), L, C};
add_current_file(Pos) -> Pos.
src/aeso_parser.erl
+63 -28
View File
@@ -3,6 +3,7 @@
%%% Description :
%%% Created : 1 Mar 2018 by Ulf Norell
-module(aeso_parser).
-vsn("8.0.1").
-compile({no_auto_import,[map_get/2]}).
-export([string/1,
@@ -19,6 +20,7 @@
-include("aeso_parse_lib.hrl").
-import(aeso_parse_lib, [current_file/0, set_current_file/1,
current_dir/0, set_current_dir/1,
current_include_type/0, set_current_include_type/1]).
-type parse_result() :: aeso_syntax:ast() | {aeso_syntax:ast(), sets:set(include_hash())} | none().
@@ -58,6 +60,7 @@ run_parser(P, Inp, Opts) ->
parse_and_scan(P, S, Opts) ->
set_current_file(proplists:get_value(src_file, Opts, no_file)),
set_current_dir(proplists:get_value(src_dir, Opts, no_file)),
set_current_include_type(proplists:get_value(include_type, Opts, none)),
case aeso_scan:scan(S) of
{ok, Tokens} -> aeso_parse_lib:parse(P, Tokens);
@@ -264,10 +267,11 @@ 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)})
]).
@@ -299,7 +303,7 @@ stmt() ->
, {switch, keyword(switch), parens(expr()), maybe_block(branch())}
, {'if', keyword('if'), parens(expr()), body()}
, {elif, keyword(elif), parens(expr()), body()}
, {else, keyword(else), body()}
, {'else', keyword('else'), body()}
])).
branch() ->
@@ -323,7 +327,7 @@ expr100() ->
Expr150 = ?LAZY_P(expr150()),
choice(
[ ?RULE(lam_args(), keyword('=>'), body(), {lam, _2, _1, _3}) %% TODO: better location
, {'if', keyword('if'), parens(Expr100), Expr150, right(tok(else), Expr100)}
, {'if', keyword('if'), parens(Expr100), Expr150, right(tok('else'), Expr100)}
, ?RULE(Expr150, optional(right(tok(':'), type())),
case _2 of
none -> _1;
@@ -333,14 +337,19 @@ 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() ->
@@ -517,7 +526,7 @@ id_or_addr() ->
?RULE(id(), parse_addr_literal(_1)).
parse_addr_literal(Id = {id, Ann, Name}) ->
case lists:member(lists:sublist(Name, 3), ["ak_", "ok_", "oq_", "ct_"]) of
case lists:member(lists:sublist(Name, 3), ["ak_", "ok_", "oq_", "ct_", "sg_"]) of
false -> Id;
true ->
try aeser_api_encoder:decode(list_to_binary(Name)) of
@@ -556,6 +565,7 @@ bracket_list(P) -> brackets(comma_sep(P)).
-spec pos_ann(ann_line(), ann_col()) -> ann().
pos_ann(Line, Col) ->
[ {file, current_file()}
, {dir, current_dir()}
, {include_type, current_include_type()}
, {line, Line}
, {col, Col} ].
@@ -603,7 +613,7 @@ group_ifs([], Acc) ->
group_ifs([{'if', Ann, Cond, Then} | Stmts], Acc) ->
{Elses, Rest} = else_branches(Stmts, []),
group_ifs(Rest, [build_if(Ann, Cond, Then, Elses) | Acc]);
group_ifs([{else, Ann, _} | _], _) ->
group_ifs([{'else', Ann, _} | _], _) ->
fail({Ann, "No matching 'if' for 'else'"});
group_ifs([{elif, Ann, _, _} | _], _) ->
fail({Ann, "No matching 'if' for 'elif'"});
@@ -613,14 +623,14 @@ group_ifs([Stmt | Stmts], Acc) ->
build_if(Ann, Cond, Then, [{elif, Ann1, Cond1, Then1} | Elses]) ->
{'if', Ann, Cond, Then,
set_ann(format, elif, build_if(Ann1, Cond1, Then1, Elses))};
build_if(Ann, Cond, Then, [{else, _Ann, Else}]) ->
build_if(Ann, Cond, Then, [{'else', _Ann, Else}]) ->
{'if', Ann, Cond, Then, Else};
build_if(Ann, Cond, Then, []) ->
{'if', Ann, Cond, Then, {tuple, [{origin, system}], []}}.
else_branches([Elif = {elif, _, _, _} | Stmts], Acc) ->
else_branches(Stmts, [Elif | Acc]);
else_branches([Else = {else, _, _} | Stmts], Acc) ->
else_branches([Else = {'else', _, _} | Stmts], Acc) ->
{lists:reverse([Else | Acc]), Stmts};
else_branches(Stmts, Acc) ->
{lists:reverse(Acc), Stmts}.
@@ -696,7 +706,7 @@ expand_includes([], Included, Acc, Opts) ->
end;
expand_includes([{include, Ann, {string, _SAnn, File}} | AST], Included, Acc, Opts) ->
case get_include_code(File, Ann, Opts) of
{ok, Code} ->
{ok, AbsDir, Code} ->
Hashed = hash_include(File, Code),
case sets:is_element(Hashed, Included) of
false ->
@@ -706,9 +716,10 @@ expand_includes([{include, Ann, {string, _SAnn, File}} | AST], Included, Acc, Op
_ -> indirect
end,
Opts1 = lists:keystore(src_file, 1, Opts, {src_file, File}),
Opts2 = lists:keystore(include_type, 1, Opts1, {include_type, IncludeType}),
Opts2 = lists:keystore(src_dir, 1, Opts1, {src_dir, AbsDir}),
Opts3 = lists:keystore(include_type, 1, Opts2, {include_type, IncludeType}),
Included1 = sets:add_element(Hashed, Included),
case parse_and_scan(file(), Code, Opts2) of
case parse_and_scan(file(), Code, Opts3) of
{ok, AST1} ->
expand_includes(AST1 ++ AST, Included1, Acc, Opts);
Err = {error, _} ->
@@ -726,13 +737,12 @@ expand_includes([E | AST], Included, Acc, Opts) ->
read_file(File, Opts) ->
case proplists:get_value(include, Opts, {explicit_files, #{}}) of
{file_system, Paths} ->
CandidateNames = [ filename:join(Dir, File) || Dir <- Paths ],
lists:foldr(fun(F, {error, _}) -> file:read_file(F);
(_F, OK) -> OK end, {error, not_found}, CandidateNames);
lists:foldr(fun(Path, {error, _}) -> read_file_(Path, File);
(_Path, OK) -> OK end, {error, not_found}, Paths);
{explicit_files, Files} ->
case maps:get(binary_to_list(File), Files, not_found) of
not_found -> {error, not_found};
Src -> {ok, Src}
Src -> {ok, File, Src}
end;
escript ->
try
@@ -741,7 +751,7 @@ read_file(File, Opts) ->
Archive = proplists:get_value(archive, Sections),
FileName = binary_to_list(filename:join([aesophia, priv, stdlib, File])),
case zip:extract(Archive, [{file_list, [FileName]}, memory]) of
{ok, [{_, Src}]} -> {ok, Src};
{ok, [{_, Src}]} -> {ok, escript, Src};
_ -> {error, not_found}
end
catch _:_ ->
@@ -749,6 +759,13 @@ read_file(File, Opts) ->
end
end.
read_file_(Path, File) ->
AbsFile = filename:join(Path, File),
case file:read_file(AbsFile) of
{ok, Bin} -> {ok, aeso_utils:canonical_dir(filename:dirname(AbsFile)), Bin};
Err -> Err
end.
stdlib_options() ->
StdLibDir = aeso_stdlib:stdlib_include_path(),
case filelib:is_dir(StdLibDir) of
@@ -757,23 +774,37 @@ stdlib_options() ->
end.
get_include_code(File, Ann, Opts) ->
case {read_file(File, Opts), read_file(File, stdlib_options())} of
{{ok, Bin}, {ok, _}} ->
%% Temporarily extend include paths with the directory of the current file
Opts1 = include_current_file_dir(Opts, Ann),
case {read_file(File, Opts1), read_file(File, stdlib_options())} of
{{ok, Dir, Bin}, {ok, _}} ->
case filename:basename(File) == File of
true -> { error
, fail( ann_pos(Ann)
, "Illegal redefinition of standard library " ++ binary_to_list(File))};
%% If a path is provided then the stdlib takes lower priority
false -> {ok, binary_to_list(Bin)}
false -> {ok, Dir, binary_to_list(Bin)}
end;
{_, {ok, Bin}} ->
{ok, binary_to_list(Bin)};
{{ok, Bin}, _} ->
{ok, binary_to_list(Bin)};
{_, {ok, _, Bin}} ->
{ok, stdlib, binary_to_list(Bin)};
{{ok, Dir, Bin}, _} ->
{ok, Dir, binary_to_list(Bin)};
{_, _} ->
{error, {ann_pos(Ann), include_error, File}}
end.
include_current_file_dir(Opts, Ann) ->
case {proplists:get_value(dir, Ann, undefined),
proplists:get_value(include, Opts, undefined)} of
{undefined, _} -> Opts;
{CurrDir, {file_system, Paths}} ->
case lists:member(CurrDir, Paths) of
false -> [{include, {file_system, [CurrDir | Paths]}} | Opts];
true -> Opts
end;
{_, _} -> Opts
end.
-spec hash_include(string() | binary(), string()) -> include_hash().
hash_include(File, Code) when is_binary(File) ->
hash_include(binary_to_list(File), Code);
@@ -787,3 +818,7 @@ 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
+18 -8
View File
@@ -6,6 +6,7 @@
%%% @end
%%%-------------------------------------------------------------------
-module(aeso_pretty).
-vsn("8.0.1").
-import(prettypr, [text/1, sep/1, above/2, beside/2, nest/2, empty/0]).
@@ -275,7 +276,9 @@ 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}) ->
@@ -385,7 +388,8 @@ expr_p(_, {Type, _, Bin})
when Type == account_pubkey;
Type == contract_pubkey;
Type == oracle_pubkey;
Type == oracle_query_id ->
Type == oracle_query_id;
Type == signature ->
text(binary_to_list(aeser_api_encoder:encode(Type, Bin)));
expr_p(_, {string, _, <<>>}) -> text("\"\"");
expr_p(_, {string, _, S}) ->
@@ -416,7 +420,7 @@ stmt_p({'if', _, Cond, Then}) ->
block_expr(200, beside(text("if"), paren(expr(Cond))), Then);
stmt_p({elif, _, Cond, Then}) ->
block_expr(200, beside(text("elif"), paren(expr(Cond))), Then);
stmt_p({else, Else}) ->
stmt_p({'else', Else}) ->
HideGenerated = not show_generated(),
case aeso_syntax:get_ann(origin, Else) of
system when HideGenerated -> empty();
@@ -436,15 +440,20 @@ 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 +463,8 @@ 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]}.
@@ -525,5 +535,5 @@ get_elifs(If = {'if', Ann, Cond, Then, Else}, Elifs) ->
elif -> get_elifs(Else, [{elif, Ann, Cond, Then} | Elifs]);
_ -> {lists:reverse(Elifs), If}
end;
get_elifs(Else, Elifs) -> {lists:reverse(Elifs), {else, Else}}.
get_elifs(Else, Elifs) -> {lists:reverse(Elifs), {'else', Else}}.
src/aeso_scan.erl
+2 -1
View File
@@ -6,6 +6,7 @@
%%% @end
%%%-------------------------------------------------------------------
-module(aeso_scan).
-vsn("8.0.1").
-export([scan/1, utf8_encode/1]).
@@ -45,7 +46,7 @@ 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_scan_lib.erl
+1
View File
@@ -5,6 +5,7 @@
%%% @end
%%%-------------------------------------------------------------------
-module(aeso_scan_lib).
-vsn("8.0.1").
-export([compile/1, string/3,
token/1, token/2, symbol/0, skip/0,
src/aeso_stdlib.erl
+3 -2
View File
@@ -9,9 +9,10 @@
%%%-------------------------------------------------------------------
-module(aeso_stdlib).
-vsn("8.0.1").
-export([stdlib_include_path/0]).
stdlib_include_path() ->
filename:join([code:priv_dir(aesophia), "stdlib"]).
{file, Path} = code:is_loaded(?MODULE),
filename:join(filename:dirname(filename:dirname(Path)), "priv/stdlib").
src/aeso_syntax.erl
+4 -2
View File
@@ -7,6 +7,7 @@
%%%-------------------------------------------------------------------
-module(aeso_syntax).
-vsn("8.0.1").
-export([get_ann/1, get_ann/2, get_ann/3, set_ann/2, qualify/2]).
@@ -100,6 +101,7 @@
| {contract_pubkey, ann(), binary()}
| {oracle_pubkey, ann(), binary()}
| {oracle_query_id, ann(), binary()}
| {signature, ann(), binary()}
| {string, ann(), binary()}
| {char, ann(), integer()}.
@@ -107,8 +109,8 @@
-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
+11 -2
View File
@@ -5,8 +5,9 @@
%%% @end
%%%-------------------------------------------------------------------
-module(aeso_syntax_utils).
-vsn("8.0.1").
-export([used_ids/1, used_types/2, used/1]).
-export([used_ids/1, used_ids/2, used_types/2, used/1]).
-record(alg, {zero, plus, scoped}).
@@ -110,8 +111,16 @@ fold(Alg = #alg{zero = Zero, plus = Plus, scoped = Scoped}, Fun, K, X) ->
%% Name dependencies
%% Used ids, top level
used_ids(E) ->
[ X || {{term, [X]}, _} <- used(E) ].
used_ids([], E).
%% Used ids, top level or in (current) namespace
used_ids(Ns, E) ->
[ lists:last(Xs) || {{term, Xs}, _} <- used(E), in_ns(Xs, Ns) ].
in_ns([_], _) -> true;
in_ns(Xs, Ns) -> lists:droplast(Xs) == Ns.
used_types([Top] = _CurrentNS, T) ->
F = fun({{type, [X]}, _}) -> [X];
src/aeso_utils.erl
+14 -1
View File
@@ -5,11 +5,24 @@
%%% @end
%%%-------------------------------------------------------------------
-module(aeso_utils).
-vsn("8.0.1").
-export([scc/1]).
-export([scc/1, canonical_dir/1]).
-export_type([graph/1]).
%% -- Simplistic canonical directory
%% Note: no attempts to be 100% complete
canonical_dir(Dir) ->
{ok, Cwd} = file:get_cwd(),
AbsName = filename:absname(Dir),
RelAbsName = filename:join(tl(filename:split(AbsName))),
case filelib:safe_relative_path(RelAbsName, Cwd) of
unsafe -> AbsName;
Simplified -> filename:absname(Simplified, "")
end.
%% -- Topological sort
-type graph(Node) :: #{Node => [Node]}. %% List of incoming edges (dependencies).
src/aeso_vm_decode.erl
+25 -2
View File
@@ -5,16 +5,21 @@
%%%-------------------------------------------------------------------
-module(aeso_vm_decode).
-vsn("8.0.1").
-export([ from_fate/2 ]).
-include_lib("aebytecode/include/aeb_fate_data.hrl").
-include("$aebytecode_include/aeb_fate_data.hrl").
-spec from_fate(aeso_syntax:type(), aeb_fate_data:fate_type()) -> aeso_syntax:expr().
from_fate({id, _, "address"}, ?FATE_ADDRESS(Bin)) -> {account_pubkey, [], Bin};
from_fate({id, _, "signature"}, ?FATE_BYTES(Bin)) -> {signature, [], Bin};
from_fate({id, _, "hash"}, ?FATE_BYTES(Bin)) -> {bytes, [], Bin};
from_fate({id, _, "unit"}, ?FATE_UNIT) -> {tuple, [], []};
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)) -> make_any_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 +83,7 @@ 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 +94,7 @@ 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 +105,21 @@ 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)]);
@@ -170,3 +191,5 @@ make_bits(Set, Zero, I, N) when 0 == N rem 2 ->
make_bits(Set, Zero, I, N) ->
{app, [], Set, [make_bits(Set, Zero, I + 1, N div 2), {int, [], I}]}.
make_any_bytes(Bin) ->
{app, [], {qid, [], ["Bytes", "to_any_size"]}, [{bytes, [], Bin}]}.
src/aeso_warnings.erl
+1
View File
@@ -1,4 +1,5 @@
-module(aeso_warnings).
-vsn("8.0.1").
-record(warn, { pos :: aeso_errors:pos()
, message :: iolist()
src/aesophia.app.src
+1 -2
View File
@@ -1,13 +1,12 @@
{application, aesophia,
[{description, "Compiler for Aeternity Sophia language"},
{vsn, "7.2.1"},
{vsn, "8.0.1"},
{registered, []},
{applications,
[kernel,
stdlib,
jsx,
syntax_tools,
getopt,
aebytecode,
eblake2
]},
test/aeso_calldata_tests.erl
+2
View File
@@ -85,6 +85,7 @@ compilable_contracts() ->
{"funargs", "bitsum", ["Bits.clear(Bits.clear(Bits.all, 4), 2)"]}, %% Order matters for test
{"funargs", "bitsum", ["Bits.set(Bits.set(Bits.none, 4), 2)"]},
{"funargs", "read", ["{label = \"question 1\", result = 4}"]},
{"funargs", "any_bytes", ["Bytes.to_any_size(#0011AA)"]},
{"funargs", "sjutton", ["#0011012003100011012003100011012003"]},
{"funargs", "sextiosju", ["#01020304050607080910111213141516171819202122232425262728293031323334353637383940"
"414243444546474849505152535455565758596061626364656667"]},
@@ -116,6 +117,7 @@ compilable_contracts() ->
{"funargs", "chain_base_tx", ["Chain.NameRevokeTx(#ffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffff)"]},
{"funargs", "chain_base_tx", ["Chain.NameTransferTx(ak_2dATVcZ9KJU5a8hdsVtTv21pYiGWiPbmVcU1Pz72FFqpk9pSRR, #ffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffff)"]},
{"funargs", "chain_base_tx", ["Chain.GAAttachTx"]},
{"funargs", "sig", ["sg_MhibzTP1wWzGCTjtPFr1TiPqRJrrJqw7auvEuF5i3FdoALWqXLBDY6xxRRNUSPHK3EQTnTzF12EyspkxrSMxVHKsZeSMj"]},
{"variant_types", "init", []},
{"basic_auth", "init", []},
{"address_literals", "init", []},
test/aeso_compiler_tests.erl
+51 -9
View File
@@ -70,6 +70,7 @@ simple_compile_test_() ->
fun() ->
#{ warnings := Warnings } = compile("warnings", [warn_all]),
#{ warnings := [] } = compile("warning_unused_include_no_include", [warn_all]),
#{ warnings := [] } = compile("warning_used_record_typedef", [warn_all]),
check_warnings(warnings(), Warnings)
end} ] ++
[].
@@ -161,6 +162,7 @@ compilable_contracts() ->
"state_handling",
"events",
"include",
"relative_include",
"basic_auth",
"basic_auth_tx",
"bitcoin_auth",
@@ -170,6 +172,7 @@ compilable_contracts() ->
"namespace_bug",
"bytes_to_x",
"bytes_concat",
"bytes_misc",
"aens",
"aens_update",
"tuple_match",
@@ -223,6 +226,7 @@ compilable_contracts() ->
"unapplied_named_arg_builtin",
"resolve_field_constraint_by_arity",
"toplevel_constants",
"ceres",
"test" % Custom general-purpose test file. Keep it last on the list.
].
@@ -447,6 +451,10 @@ 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)
@@ -604,6 +612,21 @@ 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"
@@ -628,7 +651,8 @@ 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"
@@ -871,10 +895,10 @@ failing_contracts() ->
"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 entrypoint `f` from the interface `I1` in the contract `I2`">>
@@ -928,6 +952,9 @@ 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)`">>,
@@ -976,6 +1003,9 @@ 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)`">>,
@@ -1019,6 +1049,9 @@ 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)`">>,
@@ -1043,6 +1076,9 @@ 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)`">>,
@@ -1104,19 +1140,19 @@ 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)">>
])
@@ -1266,6 +1302,10 @@ failing_contracts() ->
<<?Pos(3,9)
"The name of the compile-time constant cannot have pattern matching">>
])
, ?TYPE_ERROR(too_many_tvars,
[<<?Pos(2,3)
"Too many type variables (max 256) in definition of `too_many`">>
])
].
validation_test_() ->
@@ -1313,7 +1353,9 @@ validate(Contract1, Contract2) ->
true -> [debug_mode];
false -> []
end ++
[{include, {file_system, [aeso_test_utils:contract_path()]}}]);
[ {src_file, lists:concat([Contract2, ".aes"])}
, {include, {file_system, [aeso_test_utils:contract_path()]}}
]);
Error -> print_and_throw(Error)
end.
test/aeso_encode_decode_tests.erl
+40
View File
@@ -0,0 +1,40 @@
-module(aeso_encode_decode_tests).
-compile([export_all, nowarn_export_all]).
-include_lib("eunit/include/eunit.hrl").
-define(EMPTY, "contract C =\n entrypoint f() = true").
encode_decode_test_() ->
[ {lists:flatten(io_lib:format("Testing encode-decode roundtrip for ~p : ~p", [Value, {EType, DType}])),
fun() ->
{ok, SerRes} = aeso_compiler:encode_value(?EMPTY, EType, Value, []),
{ok, Expr} = aeso_compiler:decode_value(?EMPTY, DType, SerRes, []),
Value2 = prettypr:format(aeso_pretty:expr(Expr)),
?assertEqual(Value, Value2)
end} || {Value, EType, DType} <- test_data() ].
test_data() ->
lists:map(fun({V, T}) -> {V, T, T};
({V, T1, T2}) -> {V, T1, T2} end, data()).
data() ->
[ {"42", "int"}
, {"- 42", "int"}
, {"true", "bool"}
, {"ak_Ez6MyeTMm17YnTnDdHTSrzMEBKmy7Uz2sXu347bTDPgVH2ifJ", "address"}
, {"ct_Ez6MyeTMm17YnTnDdHTSrzMEBKmy7Uz2sXu347bTDPgVH2ifJ", "C"}
, {"Some(42)", "option(int)"}
, {"None", "option(int)"}
, {"(true, 42)", "bool * int"}
, {"{[1] = true, [3] = false}", "map(int, bool)"}
, {"()", "unit"}
, {"#000102030405060708090a0b0c0d0e0f000102030405060708090a0b0c0d0e0f", "hash"}
, {"#000102030405060708090a0b0c0d0e0f000102030405060708090a0b0c0d0e0f", "bytes(32)"}
, {"sg_MhibzTP1wWzGCTjtPFr1TiPqRJrrJqw7auvEuF5i3FdoALWqXLBDY6xxRRNUSPHK3EQTnTzF12EyspkxrSMxVHKsZeSMj", "signature"}
, {"sg_MhibzTP1wWzGCTjtPFr1TiPqRJrrJqw7auvEuF5i3FdoALWqXLBDY6xxRRNUSPHK3EQTnTzF12EyspkxrSMxVHKsZeSMj", "bytes(64)", "signature"}
, {"#0102030405060708090a0b0c0d0e0f101718192021222324252627282930313233343536373839401a1b1c1d1e1f202122232425262728293031323334353637", "bytes(64)"}
, {"#0102030405060708090a0b0c0d0e0f101718192021222324252627282930313233343536373839401a1b1c1d1e1f202122232425262728293031323334353637", "signature", "bytes(64)"}
].
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/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/ceres.aes
+15
View File
@@ -0,0 +1,15 @@
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)
let l = sg_MhibzTP1wWzGCTjtPFr1TiPqRJrrJqw7auvEuF5i3FdoALWqXLBDY6xxRRNUSPHK3EQTnTzF12EyspkxrSMxVHKsZeSMj
(a bor b band c bxor a << bnot b >> a, k, l)
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/dir1/bar.aes
+4
View File
@@ -0,0 +1,4 @@
include "../dir2/baz.aes"
namespace D =
function g() = E.h()
test/contracts/dir2/baz.aes
+3
View File
@@ -0,0 +1,3 @@
namespace E =
function h() = 42
test/contracts/funargs.aes
+4
View File
@@ -20,6 +20,8 @@ contract FunctionArguments =
entrypoint read(a : answer(int)) =
a.result
entrypoint any_bytes(b : bytes()) = b
entrypoint sjutton(b : bytes(17)) =
b
@@ -57,3 +59,5 @@ contract FunctionArguments =
entrypoint chain_ga_meta_tx(tx : Chain.ga_meta_tx) = true
entrypoint chain_paying_for_tx(tx : Chain.paying_for_tx) = true
entrypoint chain_base_tx(tx : Chain.base_tx) = true
entrypoint sig(sg : signature) = true
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/relative_include.aes
+3
View File
@@ -0,0 +1,3 @@
include "./dir1/bar.aes"
contract C =
entrypoint f() = D.g()
test/contracts/too_many_tvars.aes
+60
View File
@@ -0,0 +1,60 @@
contract C =
entrypoint too_many(
(_, _, _, _, _, _, _, _, _, _),
(_, _, _, _, _, _, _, _, _, _),
(_, _, _, _, _, _, _, _, _, _),
(_, _, _, _, _, _, _, _, _, _),
(_, _, _, _, _, _, _, _, _, _),
(_, _, _, _, _, _, _, _, _, _),
(_, _, _, _, _, _, _, _, _, _),
(_, _, _, _, _, _, _, _, _, _),
(_, _, _, _, _, _, _, _, _, _),
(_, _, _, _, _, _, _, _, _, _),
(_, _, _, _, _, _, _, _, _, _),
(_, _, _, _, _, _, _, _, _, _),
(_, _, _, _, _, _, _, _, _, _),
(_, _, _, _, _, _, _, _, _, _),
(_, _, _, _, _, _, _, _, _, _),
(_, _, _, _, _, _, _, _, _, _),
(_, _, _, _, _, _, _, _, _, _),
(_, _, _, _, _, _, _, _, _, _),
(_, _, _, _, _, _, _, _, _, _),
(_, _, _, _, _, _, _, _, _, _),
(_, _, _, _, _, _, _, _, _, _),
(_, _, _, _, _, _, _, _, _, _),
(_, _, _, _, _, _, _, _, _, _),
(_, _, _, _, _, _, _, _, _, _),
(_, _, _, _, _, _, _, _, _, _),
(_, _, _, _, _, _, _, _, _, _)) = 0
entrypoint not_too_many(
(_, _, _, _, _, _, _, _, _, _),
(_, _, _, _, _, _, _, _, _, _),
(_, _, _, _, _, _, _, _, _, _),
(_, _, _, _, _, _, _, _, _, _),
(_, _, _, _, _, _, _, _, _, _),
(_, _, _, _, _, _, _, _, _, _),
(_, _, _, _, _, _, _, _, _, _),
(_, _, _, _, _, _, _, _, _, _),
(_, _, _, _, _, _, _, _, _, _),
(_, _, _, _, _, _, _, _, _, _),
(_, _, _, _, _, _, _, _, _, _),
(_, _, _, _, _, _, _, _, _, _),
(_, _, _, _, _, _, _, _, _, _),
(_, _, _, _, _, _, _, _, _, _),
(_, _, _, _, _, _, _, _, _, _),
(_, _, _, _, _, _, _, _, _, _),
(_, _, _, _, _, _, _, _, _, _),
(_, _, _, _, _, _, _, _, _, _),
(_, _, _, _, _, _, _, _, _, _),
(_, _, _, _, _, _, _, _, _, _),
(_, _, _, _, _, _, _, _, _, _),
(_, _, _, _, _, _, _, _, _, _),
(_, _, _, _, _, _, _, _, _, _),
(_, _, _, _, _, _, _, _, _, _),
(_, _, _, _, _, _, _, _, _, _),
(_, _, _, _, _, _)) = 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/warning_used_record_typedef.aes
+5
View File
@@ -0,0 +1,5 @@
contract Test =
type option_int = option(int)
record option_point = {x: int, y: option_int}
entrypoint test_option_record(a: option_point) = a
zomp.meta
+21
View File
@@ -0,0 +1,21 @@
{name,"Sophia Compiler"}.
{type,lib}.
{modules,[]}.
{prefix,none}.
{desc,"The Sophia smart contract language for FATE blockchains"}.
{author,"QPQ AG & Aeternity Foundation"}.
{package_id,{"otpr","aesophia",{8,0,1}}}.
{deps,[{"otpr","aebytecode",{3,2,1}},
{"otpr","getopt",{1,0,2}},
{"otpr","eblake2",{1,0,0}},
{"otpr","zj",{1,1,0}}]}.
{key_name,none}.
{a_email,[]}.
{c_email,[]}.
{copyright,"(c) 2024 QPQ AG, 2018 Aeternity Foundation"}.
{file_exts,[]}.
{license,skip}.
{repo_url,"https://gitlab.com/ioecs/aesophia"}.
{tags,["gaju","gajumaru","blockchain","sophia","crypto","ae","compiler",
"puck"]}.
{ws_url,[]}.
zomp_prep
Executable
+19
View File
@@ -0,0 +1,19 @@
#! /bin/bash
# This is a small pre-packaging source generation and include correction script that should be
# run before packaging this project for use with ZX/Zomp.
rm -rf _build
cd src
for f in $(ls *.erl)
do
echo "Updating includes in: $f"
sed -i 's/aebytecode\/include\///g' "$f"
sed -i 's/\.\.\/include\///g' "$f"
sed -i 's/include_lib/include/g' "$f"
done
sed -i 's/aeb_opcodes\.hrl/\$aebytecode_include\/aeb_opcodes\.hrl/' aeso_compiler.erl
sed -i 's/aeb_fate_data\.hrl/\$aebytecode_include\/aeb_fate_data\.hrl/' aeso_vm_decode.erl
cd ..
rm -f ebin/*.beam
rm -f rebar*