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QPQ-AG/sophia:v7.5.0 QPQ-AG/sophia:v7.4.0 QPQ-AG/sophia:v7.3.0 QPQ-AG/sophia:v7.2.1 QPQ-AG/sophia:v7.2.0 QPQ-AG/sophia:v7.1.0 QPQ-AG/sophia:v7.0.1 QPQ-AG/sophia:v7.0.0 QPQ-AG/sophia:v6.1.0 QPQ-AG/sophia:v6.0.2 QPQ-AG/sophia:v6.0.1 QPQ-AG/sophia:v6.0.0 QPQ-AG/sophia:v5.0.0 QPQ-AG/sophia:v4.3.0 QPQ-AG/sophia:v4.2.0 QPQ-AG/sophia:v4.1.0 QPQ-AG/sophia:v4.1.0-rc1 QPQ-AG/sophia:v4.0.0 QPQ-AG/sophia:v4.0.0-rc5 QPQ-AG/sophia:v4.0.0-rc4 QPQ-AG/sophia:v4.0.0-rc3 QPQ-AG/sophia:v4.0.0-rc1 QPQ-AG/sophia:v3.2.0 QPQ-AG/sophia:v3.1.0 QPQ-AG/sophia:v3.0.0 QPQ-AG/sophia:v2.1.0 QPQ-AG/sophia:v2.0.0 QPQ-AG/sophia:roma-v1 QPQ-AG/sophia:v2
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219 Commits
v4.0.0-rc1 ... v4.3.0

Author SHA1 Message Date
Radosław Rowicki 962ddf5303 Version push – 4.3.0 (#255) 
* Version push – 4.3.0

.

* Fixed ordering of diffs in CHANGELOG
 2020-04-02 15:10:53 +02:00
Radosław Rowicki 85b151aa65 Prepare 4.3.0 (#254) 2020-04-02 13:59:22 +02:00
Radosław Rowicki 93341dc13b Prepared for REPL usage (#218) 
* Prepared for REPL usage

Exposed expr parsing

ets init in constant

Exposing and fixing

exposed expr

This will be squashed either

Expose letdef

Error handling

exposed autoimport

remove unnecessary changes

Fix types

Parser update

Expose body parser

remove map_get warning

make dialyzer happy

* Formatting

Co-Authored-By: Hans Svensson <hanssv@gmail.com>

Co-authored-by: Hans Svensson <hanssv@gmail.com>
 2020-04-02 12:29:14 +02:00
Radosław Rowicki 98036eff65 Update TOC in sophia.md (#245) 2020-04-01 13:11:02 +02:00
Radosław Rowicki dc977f7354 Fixed example (#249) 2020-03-31 13:14:13 +02:00
Radosław Rowicki 4f554acee6 Fix error messages for some illegal constructions, fix absolute path includes (#251) 
* Updated tests, banned type decls and toplevel letvals

* Properly ban nested contracts

* Fix including by path

* Fix error message test

* Fix prettpr attr display. Make dialyzer happy

* More tests

* Fixed type printing

* Updated docs
 2020-03-30 14:52:16 +02:00
Radosław Rowicki 48b52cb501 Enchanted Frac library a bit (#253) 2020-03-29 17:14:01 +02:00
Ulf Norell 515838e2f9 Handle negative numbers in aci (#247) 
* Handle negative numbers in aci

Fixes aeternity/aesophia_http#59

* Updated CHANGELOG

Updated CHANGELOG1

Co-authored-by: radrow <radrowicki@gmail.com>
 2020-03-23 18:11:00 +01:00
Radosław Rowicki 83e03f3013 Added documentation (#239) 
* Added documentation

* Update readme

* Update readme

* Format fix

* Events

* Stdlib mention

* Frac doc

* Frac doc comparison warning

* Typos

* Format fix, TOC added

* Fixed link

* Update editor message

* Split TOC

* Moved out AEVM ABI

* Minor format

Co-Authored-By: Hans Svensson <hanssv@gmail.com>

* Typo

Co-Authored-By: Hans Svensson <hanssv@gmail.com>

* Grammar

Co-Authored-By: Hans Svensson <hanssv@gmail.com>

* Language

Co-authored-by: Hans Svensson <hanssv@gmail.com>
 2020-03-10 12:39:39 +01:00
Radosław Rowicki d7fa4d65ec More comments in stdlib (#237) 2020-02-25 12:56:51 +01:00
Radosław Rowicki bd7ed2ef8c Instant unification error on arguments count mismatch (#225) 
* Instant unification error on arguments count mismatch

* add testcase

* Add newline
 2020-02-21 10:28:55 +01:00
Radosław Rowicki 2bf65cfd98 Add Frac (#222) 
Fix bugs in Frac

Added optimizer
 2020-02-13 11:02:47 +01:00
Hans Svensson efd45df820 Merge pull request #212 from aeternity/GH-211-prepare_release_4_2_0 
Prepare release 4.2.0
 2020-01-15 11:58:47 +01:00
Hans Svensson a6f51d23f3 Bump version to 4.2.0 and fix CHANGELOG 2020-01-15 11:39:25 +01:00
Ulf Norell 4d4a14a9ab GH-196 pattern matching lhs (#210) 
* Allow block with separate type signature and definition of a function

For instance,
```
function
  add : (int, int) => int
  add(x, y) = x + y
```

cc #196

* Allow pattern matching in left-hand sides

* Changelog

* Fix type spec

* partial case-on-constructor

* Changelog for pattern-matching lets
 2020-01-15 09:41:03 +01:00
Ulf Norell f7abaf07fa Add list comprehension match to test case 2019-12-16 17:04:49 +01:00
Ulf Norell d019e44924 Compile values to immediates when possible 2019-12-16 17:04:49 +01:00
Ulf Norell ad54134961 Parse negative literal patterns 2019-12-16 17:04:49 +01:00
Ulf Norell b51a79b5e1 Allow patterns in lets and list comprehension binds 2019-12-16 17:04:49 +01:00
Ulf Norell d844c4d276 Fix missing type annotation in list comprehension body 2019-12-12 09:39:13 +01:00
Ulf Norell 64e2fff91a Handle list comprehensions in pretty printer 2019-12-12 09:39:13 +01:00
Ulf Norell d4f291f252 Handle qualified constructors in patterns 2019-12-12 09:34:26 +01:00
Ulf Norell b9f585ebaf Merge pull request #205 from aeternity/fate-flatten-store 
FATE backend optimisations
 2019-12-12 09:22:37 +01:00
Ulf Norell 954af13f59 Fix debug printing of store registers 2019-12-12 09:14:34 +01:00
Ulf Norell 2e4558b3b4 Changelog 2019-12-10 12:57:52 +01:00
Ulf Norell a403a9d227 Unbox singleton tuples and records 2019-12-10 12:24:05 +01:00
Ulf Norell c7b846cbfe Merge pull request #190 from aeternity/GH-189-parse-error-crash 
Fix parse errors causing crashes instead of nice errors
 2019-12-09 10:27:20 +01:00
Ulf Norell bf5e2e2443 Fix parse errors causing crashes instead of nice errors 2019-12-09 08:45:55 +01:00
Ulf Norell 46a30b118f Get rid of unnecessary return instruction after tail-call 2019-11-26 13:33:11 +01:00
Ulf Norell bb1a45c557 Improve case-on-constructor optimisation 2019-11-26 13:10:58 +01:00
Ulf Norell 0a22c7a34a More let-floating 2019-11-26 13:10:58 +01:00
Ulf Norell c8153f94a6 More aggressive freshening to avoid shadowing issues 2019-11-26 13:10:58 +01:00
Ulf Norell 63d51baaa3 Dialyzer issues 2019-11-26 13:10:58 +01:00
Ulf Norell cb045b0256 whitespace 2019-11-26 13:10:58 +01:00
Ulf Norell c84064da7f Inline local functions and simplify case-on-constructor 2019-11-26 13:10:58 +01:00
Ulf Norell ad88797cef Proper handling of lets in term_to_fate 2019-11-26 13:10:58 +01:00
Ulf Norell 6c3932b10c Flattened state layout 
... with necessary optimizations.
 2019-11-26 13:10:56 +01:00
Ulf Norell 8d7c637241 Don't confuse variables and store registers in fate asm generation 2019-11-26 13:10:04 +01:00
Ulf Norell a8119f1219 Track state layout 
... but only default layout still.
 2019-11-26 13:10:04 +01:00
Ulf Norell d0fdd06d66 Change get_state and set_state fcode primitives to take a register 2019-11-26 13:10:04 +01:00
Ulf Norell 99ecda4b7b Fix warnings in test suites 2019-11-26 13:10:04 +01:00
Ulf Norell e645a8d034 Optimize before lambda lifting 
(lambdas are either in dead code or not dead, so dead code elimination won't be affected)
 2019-11-26 13:10:04 +01:00
Ulf Norell 499e2f8200 Handle records and type aliases correctly in fcode 2019-11-26 13:10:04 +01:00
Ulf Norell 5465b74ac9 Allow specifying store register in FATE backend 2019-11-26 13:10:04 +01:00
Hans Svensson 6ca63e4b40 Merge pull request #184 from aeternity/GH-181-prepare-4.1.0 
Bump version to 4.1.0
 2019-11-26 09:02:56 +01:00
Ulf Norell 08b6148223 Bump version to 4.1.0 2019-11-26 09:02:26 +01:00
Ulf Norell 8a47603b62 Merge pull request #182 from aeternity/GH-181-prepare-4.1.0-rc1 
GH-181 Prepare 4.1.0-rc1
 2019-11-25 12:16:03 +01:00
Ulf Norell d4c9d369b1 Remove aesophia_cli and aesophia_http stuff from change log 2019-11-25 12:07:05 +01:00
Ulf Norell 8984ecc32d Bump version numbers 2019-11-25 11:55:31 +01:00
Ulf Norell 025c837886 4.1.0-rc1 change log 2019-11-25 11:52:42 +01:00
Ulf Norell 06e6138de1 Merge release notes for 4.0.0 release candidates into 4.0.0 entry 2019-11-25 11:42:05 +01:00
Ulf Norell 7eb4423e70 Merge pull request #180 from aeternity/fate-optimization-fixes 
Sophia FATE backend overhaul
 2019-11-25 11:29:35 +01:00
Ulf Norell bd64260e37 Remove impossible case 
h/t dialyzer
 2019-11-25 10:42:37 +01:00
Ulf Norell 6380e04a97 Strip switches on variants with only catch-all 2019-11-19 16:39:01 +01:00
Ulf Norell 2be3c9194d Optimize switches with a single successful branch 
Typical case: require(_, _)
 2019-11-19 15:14:00 +01:00
Ulf Norell d0cfd9cbbe Export to_basic_blocks for tests 2019-11-19 13:11:06 +01:00
Ulf Norell 7f7f53e044 Fix issue in basic block generation 2019-11-19 13:10:56 +01:00
Ulf Norell 7d8a773d6a Fix type specs 2019-11-19 13:10:26 +01:00
Ulf Norell d3f5d7f5c5 Fix lost dependency when inlining switch target 2019-11-18 12:20:32 +01:00
Ulf Norell 0b474843f9 Protect against ill-typed code 2019-11-18 12:20:32 +01:00
Ulf Norell 1a628ab29f Fix bad annotations on switch-body 2019-11-18 12:20:32 +01:00
Ulf Norell 03ad1ad1dd Protect switch optimizations against ill-typed code 2019-11-18 12:20:32 +01:00
Ulf Norell bfcb9ab324 Annotate switch bodies 2019-11-18 12:20:32 +01:00
Ulf Norell 4cc88be296 Desugar STORE R a to POP R 2019-11-18 12:20:32 +01:00
Ulf Norell 505603ad71 More optimizations for impure instructions 2019-11-18 12:20:32 +01:00
Ulf Norell 2d7c860e3a Rewrite liveness analysis 2019-11-18 12:20:32 +01:00
Ulf Norell 4976e0402e Don't crash constant propagation on ill-typed code 2019-11-18 12:20:32 +01:00
Ulf Norell 0478df72fc Fix dependency analysis for loops 2019-11-18 12:20:32 +01:00
Ulf Norell 35b20800c9 Refactor argument inlining optimization 2019-11-18 12:20:32 +01:00
Ulf Norell d4c5c610ee Don't include stack and immediates in liveness annotations 2019-11-18 12:20:32 +01:00
Ulf Norell 6868bec3ed Fix bug in dependency analysis of GAS 2019-11-18 12:20:32 +01:00
Ulf Norell e5702c068c Impure == writes to the chain 
Reading is ok
 2019-11-18 12:20:31 +01:00
Ulf Norell a4b21063e3 Get rid of IsOp 2019-11-18 12:20:31 +01:00
Ulf Norell aca6b89fcf Store arguments are now separate from vars 2019-11-18 12:20:31 +01:00
Ulf Norell 13b196568b Handle reads from undefined variables in liveness analysis 
Doesn't affect well-formed code, but makes testing easier.
 2019-11-18 12:20:31 +01:00
Ulf Norell eba4f1c79c Call instructions read the function argument 2019-11-18 12:20:31 +01:00
Ulf Norell 1ca3018958 Don't run pretty printer if not pretty printing 2019-11-18 12:20:31 +01:00
Ulf Norell e6b5c5a526 Fix bug in short-cut for IS_NIL 2019-11-18 12:20:31 +01:00
Ulf Norell 47ad607dd5 Handle arbitrary store registers 2019-11-18 12:20:31 +01:00
Ulf Norell e8a54395bf Export optimize_fun for tests 2019-11-18 12:20:31 +01:00
Ulf Norell a87065c3a0 Merge pull request #177 from aeternity/GH-174-encode-decode-bits-lima 
GH-174 Encode/decode bits. Now also for Lima
 2019-11-18 12:19:47 +01:00
Ulf Norell 49f9ef955f Prefix format annotation for negative numbers 2019-11-18 12:16:04 +01:00
Ulf Norell f42353b300 Handle encoding/decoding bits 
Fixes GH-174
 2019-11-18 12:16:04 +01:00
Ulf Norell 5d23a76094 Merge pull request #173 from aeternity/GH-172-validate-byte-code 
Add function to validate byte code against source code
 2019-11-18 10:00:04 +01:00
Ulf Norell 878140e03c Add function to validate byte code against source code 2019-11-15 14:22:44 +01:00
Hans Svensson ac58eb4259 Merge pull request #171 from aeternity/GH-170-stdlib_in_escript 
Add stdlib include handling when inside an escript
 2019-11-11 11:40:29 +01:00
Hans Svensson 22b88bd393 Add stdlib include handling when inside an escript 2019-11-11 11:05:07 +01:00
Ulf Norell 83c3015899 Merge pull request #169 from aeternity/fix-illformed-lex-errors 
Fix mangled lex errors
 2019-10-21 09:00:43 +02:00
Ulf Norell ec9434fbfd Fix mangled lex errors 2019-10-21 08:53:32 +02:00
Hans Svensson b81312a714 Merge pull request #165 from aeternity/GH-164-prepare_release 
Prepare release - v4.0.0
 2019-10-11 15:52:29 +02:00
Hans Svensson 63c0b714d0 Prepare release - v4.0.0 2019-10-11 15:16:00 +02:00
Ulf Norell d018cc5819 Merge pull request #168 from aeternity/compiler-bug 
Fix bug in compiler optimization
 2019-10-10 14:35:56 +02:00
Ulf Norell f5b2732b04 Don't get rid of store updates! 2019-10-10 14:19:56 +02:00
Hans Svensson f86f7984f4 Merge pull request #167 from aeternity/radrow-patch-1 
Fix not instantiated uvar
 2019-10-10 08:31:48 +02:00
Radosław Rowicki 1ae0a42071 Fix not instantiated uvar 2019-10-09 17:42:12 +02:00
Ulf Norell 18ae801333 Merge pull request #162 from aeternity/address-to-contract 
Add Address.to_contract
 2019-10-01 14:28:32 +02:00
Ulf Norell 32d52f0abc Merge pull request #163 from aeternity/fail-on-multiple-contracts 
Fail on defined functions in contract prototypes
 2019-10-01 14:28:06 +02:00
Ulf Norell 5e6ff6c9a7 Nice type error if contract function is called as from a namespace 2019-10-01 14:13:56 +02:00
Ulf Norell 2d6d506d63 Fail on function definitions in contracts other than the main contract 2019-10-01 14:13:54 +02:00
Ulf Norell 482d22d46b Merge pull request #161 from aeternity/version-pragmas 
add pragma to check compiler version
 2019-10-01 14:10:06 +02:00
Ulf Norell a333888fb9 aebytecode commit 2019-09-30 14:47:26 +02:00
Ulf Norell 5fc6e18cd2 Add Address.to_contract 
Casts an address to a (any) contract type.
 2019-09-30 14:47:05 +02:00
Ulf Norell dd94a6bd67 add pragma to check compiler version 2019-09-27 17:31:10 +02:00
Hans Svensson 7f86b7d301 Merge pull request #160 from aeternity/prepare_rc5 
Prepare 4.0.0-rc5
 2019-09-27 09:34:49 +02:00
Hans Svensson e018c31ce1 Prepare 4.0.0-rc5 2019-09-27 09:06:52 +02:00
Ulf Norell 9234690d31 Merge pull request #159 from aeternity/more-compiler-fixes 
Fix issues with liveness analysis
 2019-09-27 08:45:37 +02:00
Ulf Norell 214a5f0a91 Fix issues with liveness analysis 2019-09-24 16:23:50 +02:00
Ulf Norell d4d3a9650a Merge pull request #158 from aeternity/fix-code-generation-bug 
Don't confuse variables and store registers in fate asm generation
 2019-09-24 14:55:08 +02:00
Ulf Norell b752965443 don't call aeb_fate_ops with {store, _} arg 
(to not upset dialyzer)
 2019-09-24 10:47:26 +02:00
Ulf Norell 0019d92e45 Don't confuse variables and store registers in fate asm generation 2019-09-23 16:52:16 +02:00
Ulf Norell 29f2168827 Merge pull request #157 from aeternity/big-number-literals 
Allow underscore separators in number and bytes literals
 2019-09-23 14:11:11 +02:00
Ulf Norell f81dc88526 Allow underscore separators in number and bytes literals 
For instance, `1_000_000_000` or `#FFFF_FFFF_FFFF_FFFF`
 2019-09-23 14:04:09 +02:00
Ulf Norell a21715a657 Merge pull request #156 from aeternity/fix-compiler-crash-bug 
Fix bug with missing fields causing compiler crash
 2019-09-23 11:56:30 +02:00
Ulf Norell 048c2ca98d Fix bug with missing fields causing compiler crash 
... if under a lambda or switch.
 2019-09-23 11:40:15 +02:00
Ulf Norell 662e5e70ef Merge pull request #153 from aeternity/src-loc-for-fun-app 
Fix bug with missing source location for function applications
 2019-09-14 15:36:02 +02:00
Ulf Norell 8e3483ced4 Merge pull request #154 from aeternity/bug-with-old-tuple-syntax 
Fix bug when using old tuple syntax
 2019-09-14 15:35:37 +02:00
Ulf Norell 6efc390bb6 Fix bug when using old tuple syntax 2019-09-14 14:44:25 +02:00
Ulf Norell 981027b2e7 Test case for function application source location 2019-09-14 12:12:55 +02:00
Ulf Norell 11d998b739 Set source location for function applications 2019-09-14 12:09:02 +02:00
Hans Svensson b481b3254b Merge pull request #152 from aeternity/prepare_rc4 
Prepare v4.0.0-rc4
 2019-09-13 08:12:05 +02:00
Hans Svensson 01a2efb7b8 Prepare v4.0.0-rc4 2019-09-13 08:08:47 +02:00
Hans Svensson a730fcc366 Merge pull request #151 from aeternity/fix_numeric_escapes 
Fix numeric escapes in strings
 2019-09-13 08:04:06 +02:00
Hans Svensson 457f9cf4ea Remove comment + CHANGELOG 2019-09-12 21:31:25 +02:00
Hans Svensson f34b6ed982 Fix numeric escapes 2019-09-12 21:17:01 +02:00
Hans Svensson 313c140c58 Merge pull request #150 from aeternity/fix_changelog 
Fix CHANGELOG
 2019-09-12 10:33:49 +02:00
Hans Svensson 48af37a41e Fix CHANGELOG 2019-09-12 10:29:11 +02:00
Hans Svensson 66511c9679 Merge pull request #149 from aeternity/fix_aevm_bytes_to_str 
Fix bug in Bytes.to_str
 2019-09-12 10:24:43 +02:00
Hans Svensson 8f0fe0b419 Fix bug in Bytes.to_str 2019-09-12 09:00:44 +02:00
Hans Svensson f80182ed18 Merge pull request #148 from aeternity/PT-168370661-prepare_4.0.0-rc3 
PT-168370661 prepare 4.0.0-RC3
 2019-09-11 09:55:21 +02:00
Hans Svensson d455671e24 Prepare v4.0.0-rc3 2019-09-10 15:14:19 +02:00
Hans Svensson 26a5a3b8ad implement option pp_assembler for FATE 2019-09-10 11:31:09 +02:00
Ulf Norell 92ac8b1f02 Merge pull request #147 from aeternity/bytes-concat 
Bytes.concat and Bytes.split
 2019-09-09 19:14:00 +02:00
Ulf Norell c849184c72 type spec 2019-09-09 18:47:06 +02:00
Ulf Norell f1b36c99ac Compile Bytes.concat/split for AEVM 2019-09-09 18:40:45 +02:00
Ulf Norell f09198b588 aebytecode commit 2019-09-09 18:40:45 +02:00
Ulf Norell cc531f9957 Test case for Bytes.concat/split 2019-09-09 18:40:45 +02:00
Ulf Norell 3ea8470dc8 Compile Bytes.concat and split to FATE 2019-09-09 18:40:45 +02:00
Ulf Norell 3ceeee22fa Don't forget to solve constraints 2019-09-09 18:40:45 +02:00
Ulf Norell e2ab41eeb2 Add Bytes.concat and Bytes.split to type checker 2019-09-09 18:40:45 +02:00
Ulf Norell 0f612ead90 Sort errors by position 2019-09-09 12:22:40 +02:00
Ulf Norell 9eeb9ab11d Don't freshen types in list comprehension generators 2019-09-09 11:00:26 +02:00
Ulf Norell 244ef6a6e2 Add a constraint field to type_sig 2019-09-09 11:00:26 +02:00
Ulf Norell 6551690dff Merge pull request #146 from aeternity/aevm-hash-on-bytes 
[AEVM] Compile Crypto.(hash_fun) to String.(hash_fun) for byte arrays
 2019-09-09 10:58:20 +02:00
Ulf Norell efe6f0ed06 [AEVM] Compile Crypto.(hash_fun) to String.(hash_fun) for byte arrays 2019-09-09 10:07:24 +02:00
Erik Stenman 263c297090 Upgrade aebytecode after eqc fix. (#145) 2019-09-06 15:20:01 +02:00
Erik Stenman d03cc50e03 Pt 168336524 renumber ops set base gas (#144) 
* Use latest aebytecode with new opnumbers and gas.
 2019-09-06 14:33:57 +02:00
Ulf Norell 76a789bd9e Merge pull request #143 from aeternity/minor-error-printing 
Minor error printing
 2019-09-06 12:10:33 +02:00
Hans Svensson 17f8cbb4d3 Merge pull request #141 from radrow/icode-char 
Added chars in AEVM
 2019-09-06 11:08:17 +02:00
Ulf Norell 46d244bfb4 aebytecode commit 2019-09-06 09:53:04 +02:00
Ulf Norell 9dac134477 Print the error kind in error messages 2019-09-06 09:51:17 +02:00
Ulf Norell 56b77f55fe Add json conversion of error messages 2019-09-06 09:37:02 +02:00
Hans Svensson 23534640c1 Merge pull request #142 from aeternity/more_structured_errors 
More structured errors - also in aeso_compiler
 2019-09-06 08:47:38 +02:00
Hans Svensson f07d1904ba Less redundant error message 2019-09-05 15:28:03 +02:00
Hans Svensson 47b3b9bcca Correct error type + new aebytecode 2019-09-05 15:14:17 +02:00
Hans Svensson 5a1acd9d18 Make aeso_compiler errors structured as well 2019-09-05 14:20:40 +02:00
radrow 92d1e10d0e Added chars in AEVM 2019-09-05 13:36:21 +02:00
Hans Svensson 37a37a169d File not found error 2019-09-05 11:16:31 +02:00
Ulf Norell ecfa04ba17 Merge pull request #140 from aeternity/PT-168026292-structured_error_messages 
PT-168026292 structured error messages
 2019-09-05 09:03:19 +02:00
Ulf Norell 97d58fcacd Nicer error for missing event type 2019-09-04 11:03:33 +02:00
Ulf Norell d8adfce465 Tests for unapplied builtins 2019-09-04 10:45:43 +02:00
Ulf Norell b9d141e035 Fix issue with AEVM eta expansion 2019-09-04 10:45:22 +02:00
Ulf Norell c37cc93abe Don't try to eta expand builtins with named arguments in AEVM 2019-09-04 10:21:30 +02:00
Ulf Norell 157ffbf9e2 Fix bug with unapplied builtins taking typerep arguments 
(Oracle builtins and AENS.resolve)
 2019-09-04 10:20:04 +02:00
Ulf Norell 602e99512f Fail gracefully on higher-order state in AEVM and accept it in FATE 2019-09-03 17:24:40 +02:00
Ulf Norell 325d69e96d Fail gracefully on bad top-level declaration 2019-09-03 17:24:06 +02:00
Ulf Norell 412b0b8b6d Improve some parse errors 2019-09-03 16:51:04 +02:00
Ulf Norell 61faa3e2dd Fix missing file name from type errors 2019-09-03 15:01:29 +02:00
Ulf Norell 69a4c1365b Test case for calling init function from inside the contract 2019-09-03 14:47:13 +02:00
Ulf Norell 0b56691533 Tell dialyzer to bugger off 2019-09-03 14:36:36 +02:00
Ulf Norell 30de1db163 More code errors 2019-09-03 14:35:13 +02:00
Ulf Norell adfa325f48 Don't use _main for the AEVM top entrypoint 2019-09-03 14:35:13 +02:00
Ulf Norell 0533ab27e1 Check that there are no maps in map keys already in type checker 2019-09-03 14:35:13 +02:00
Ulf Norell 510935d945 Framework and tests for code generation (icode/fcode) errors 2019-09-03 14:35:13 +02:00
Ulf Norell f2469a676d Refactor builtin compilation in icode 
- Eta expand instead of failing on unapplied builtins
 2019-09-03 14:35:13 +02:00
Ulf Norell db7bf7a730 Set error msg position to last occurrence of duplicate definition 2019-09-03 14:35:13 +02:00
Ulf Norell e37ac44726 Ensure that init is not payable 2019-09-03 14:35:13 +02:00
Hans Svensson 249b61238e Structured parse_errors and type_errors 2019-09-03 14:35:13 +02:00
Hans Svensson 9e955d5958 Remove unused aeso_constants 2019-09-03 14:35:13 +02:00
Hans Svensson f8cd3b87f3 Merge pull request #139 from aeternity/no-call-init 
No calls to init-function (except when creating contract)
 2019-09-03 13:17:06 +02:00
Hans Svensson f0c728ef1e set aebytecode commit 2019-09-03 13:15:19 +02:00
Ulf Norell 470970d937 Disallow calling init from inside the contract 2019-09-03 12:22:15 +02:00
Ulf Norell 58ab771dff Make init do the state updates in FATE (instead of a new INIT function) 2019-09-03 09:01:11 +02:00
Thomas Arts a50730155f Merge pull request #138 from aeternity/aens-at-full-node-ver-ta 
Compile name fee in contracts
 2019-09-02 11:07:59 +02:00
Thomas Arts e9f717a17b Update src/aeso_ast_to_icode.erl 
Co-Authored-By: Ulf Norell <ulf.norell@gmail.com>
 2019-09-02 10:21:35 +02:00
Ulf Norell 97ff1aac23 Merge pull request #136 from radrow/stdlib-extensions 
Updated some functions, renamed some stuff, added from_to IN STDLIB
 2019-09-02 09:56:56 +02:00
sennui 1ee5a57924 change aebytecode version, aeserialization and add enacl 2019-09-02 08:54:38 +02:00
Thomas Arts cf91a27fb2 Keep sign last 2019-09-01 10:58:49 +02:00
sennui 83d06977f9 add extra argument to claim for bidding 2019-09-01 10:58:49 +02:00
Ulf Norell 41e59506ba Merge pull request #137 from aeternity/polymorpism-checks 
Polymorphism checks
 2019-08-30 15:48:34 +02:00
Ulf Norell 062309e578 Type variables mentioned in local functions should not be flexible 
(cc #112)
 2019-08-30 14:22:31 +02:00
Radosław Rowicki 6408969cd3 Remove from_to_ 2019-08-30 14:06:46 +02:00
Radosław Rowicki 71a556ce81 nth update 2019-08-30 13:46:02 +02:00
Radosław Rowicki 256aadd575 [......] 
Co-Authored-By: Ulf Norell <ulf.norell@gmail.com>
 2019-08-30 13:44:26 +02:00
Ulf Norell f27ba528d8 aebytecode commit 2019-08-30 11:21:26 +02:00
Ulf Norell 6fd39d4cb1 Add checks for polymorphic/higher order oracles and higher order entrypoints (AEVM) 2019-08-30 11:18:20 +02:00
Ulf Norell 1ce95b32ac Add checks for polymorphic/higher order oracles and higher order entrypoints (FATE) 2019-08-30 11:18:20 +02:00
radrow 076d635dbe Fix errors 2019-08-29 15:32:10 +02:00
Radosław Rowicki 6d87960147 Merge pull request #135 from aeternity/radrow-patch-3 
Remove find_all from stdlib
 2019-08-29 15:25:22 +02:00
radrow 1d962f2001 Updated some functions, renamed, added from_to 2019-08-29 13:41:04 +02:00
Radosław Rowicki cce243e513 Remove find_all from stdlib 
It was just a duplicated `filter`
 2019-08-28 14:17:30 +02:00
Ulf Norell 60528e9128 Merge pull request #134 from aeternity/unit-to-typerep 
Add missing case for builtin unit type
 2019-08-28 10:19:10 +02:00
Ulf Norell 80075a9d36 Add missing case for builtin unit type 2019-08-28 09:45:25 +02:00
Ulf Norell d26fcace41 Merge pull request #133 from aeternity/stdlib-overhaul 
Stdlib overhaul
 2019-08-28 08:38:40 +02:00
Ulf Norell c51531f620 please dialyzer 2019-08-27 18:04:32 +02:00
Ulf Norell 3b2daf8cd6 Better errors when using old tuple type syntax 2019-08-27 15:08:56 +02:00
Ulf Norell 3ff93c5c89 Fix bug in include chasing 
... making it possible for the same file to be included multiple times
 2019-08-27 14:29:24 +02:00
Ulf Norell 850221aaf3 Remove no_implicit_stdlib option 2019-08-27 14:10:40 +02:00
Ulf Norell 3f1c23ace3 Use .. in list comprehension test 2019-08-27 14:00:23 +02:00
Ulf Norell 0efbcf302c Fix roundtrip test to ignore ListInternal 2019-08-27 14:00:02 +02:00
Ulf Norell 7705138ab2 auto-import ListInternal when using list comprehensions or [a..b] 2019-08-27 13:59:36 +02:00
Ulf Norell 5f733e01dd Implement [a..b] 2019-08-27 13:59:01 +02:00
Ulf Norell 79a928e530 Fix bad type specs 2019-08-27 13:56:02 +02:00
Ulf Norell d23208c191 Fix bugs in dependency analysis 2019-08-27 13:55:45 +02:00
Ulf Norell e7d3a5b9f2 Put flat_map in ListInternal.aes 2019-08-27 11:33:43 +02:00
Ulf Norell 02af75aa34 Move stdlib code to priv dir and don't do any implicit includes 2019-08-27 11:33:29 +02:00
Ulf Norell 9eed18f812 Merge pull request #132 from aeternity/fate-compiler-optimizations 
Fate compiler optimizations
 2019-08-26 08:25:40 +02:00
Ulf Norell 07cf162703 Fix performance problem in FATE optimiser caused by debug printing 2019-08-23 10:07:43 +02:00
Ulf Norell 20064b72fa Compile tail-calls to current function to jumps 2019-08-22 14:50:15 +02:00
Ulf Norell a942561907 Improved optimizations of FATE code 2019-08-22 14:49:48 +02:00
115 changed files with 8258 additions and 2309 deletions
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CHANGELOG.md
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@@ -9,8 +9,71 @@ and this project adheres to [Semantic Versioning](https://semver.org/spec/v2.0.0
### Changed
### Removed
## [4.0.0-rc1] - 2019-08-22
## [4.3.0]
### Added
- Added documentation (moved from `protocol`)
- `Frac.aes` library for rational numbers
- Added some more meaningful error messages
- Exported several parsing functionalities
- With option `keep_included` it is possible to see which files were included during the parse
- There is a function `run_parser` that be used to evaluate any parsing rule
- Exported parsers: `body`, `type` and `decl`
### Changed
- Performance improvements in the standard library
- Fixed ACI encoder to handle `-` unary operator
- Fixed including by absolute path
- Fixed variant type printing in the ACI error messages
- Fixed pretty printing of combined function clauses
### Removed
- `let` definitions are no longer supported in the toplevel of the contract
- type declarations are no longer supported
## [4.2.0] - 2020-01-15
### Added
- Allow separate entrypoint/function type signature and definition, and pattern
matching in left-hand sides:
```
function
length : list('a) => int
length([]) = 0
length(x :: xs) = 1 + length(xs)
```
- Allow pattern matching in list comprehension generators (filtering out match
failures):
```
function somes(xs : list(option('a))) : list('a) =
[ x | Some(x) <- xs ]
```
- Allow pattern matching in let-bindings (aborting on match failures):
```
function test(m : map(int, int)) =
let Some(x) = Map.lookup(m, 0)
x
```
### Changed
- FATE code generator improvements.
- Bug fix: Handle qualified constructors in patterns.
- Bug fix: Allow switching also on negative numbers.
### Removed
## [4.1.0] - 2019-11-26
### Added
- Support encoding and decoding bit fields in call arguments and results.
### Changed
- Various improvements to FATE code generator.
### Removed
## [4.0.0] - 2019-10-11
### Added
- `Address.to_contract` - casts an address to a (any) contract type.
- Pragma to check compiler version, e.g. `@compiler >= 4.0`.
- Handle numeric escapes, i.e. `"\x19Ethereum Signed Message:\n"`, and similar strings.
- `Bytes.concat` and `Bytes.split` are added to be able to
(de-)construct byte arrays.
- `[a..b]` language construct, returning the list of numbers between
`a` and `b` (inclusive). Returns the empty list if `a` > `b`.
- [Standard libraries](https://github.com/aeternity/aesophia/blob/master/docs/sophia_stdlib.md)
- Checks that `init` is not called from other functions.
- FATE backend - the compiler is able to produce VM code for both `AEVM` and `FATE`. Many
of the APIs now take `{backend, aevm | fate}` to decide wich backend to produce artifacts
for.
@@ -27,6 +90,20 @@ and this project adheres to [Semantic Versioning](https://semver.org/spec/v2.0.0
that shall be able to receive funds should be marked as payable. `Address.is_payable(a)`
can be used to check if an (contract) address is payable or not.
### Changed
- Nice type error if contract function is called as from a namespace.
- Fail on function definitions in contracts other than the main contract.
- Bug fix in variable optimization - don't discard writes to the store/state.
- Bug fixes in error reporting.
- Bug fix in variable liveness analysis for FATE.
- Error messages are changed into a uniform format, and more helpful
messages have been added.
- `Crypto.<hash_fun>` and `String.<hash_fun>` for byte arrays now only
hash the actual byte array - not the internal ABI format.
- More strict checks for polymorphic oracles and higher order oracles
and entrypoints.
- `AENS.claim` is updated with a `NameFee` field - to be able to do
name auctions within contracts.
- Fixed a bug in `Bytes.to_str` for AEVM.
- New syntax for tuple types. Now 0-tuple type is encoded as `unit` instead of `()` and
regular tuples are encoded by interspersing inner types with `*`, for instance `int * string`.
Parens are not necessary. Note it only affects the types, values remain as their were before,
@@ -134,8 +211,11 @@ and this project adheres to [Semantic Versioning](https://semver.org/spec/v2.0.0
- Simplify calldata creation - instead of passing a compiled contract, simply
pass a (stubbed) contract string.
[Unreleased]: https://github.com/aeternity/aesophia/compare/v4.0.0-rc1...HEAD
[4.0.0-rc1]: https://github.com/aeternity/aesophia/compare/v3.2.0...v4.0.0-rc1
[Unreleased]: https://github.com/aeternity/aesophia/compare/v4.3.0...HEAD
[4.3.0]: https://github.com/aeternity/aesophia/compare/v4.2.0...v4.3.0
[4.2.0]: https://github.com/aeternity/aesophia/compare/v4.1.0...v4.2.0
[4.1.0]: https://github.com/aeternity/aesophia/compare/v4.0.0...v4.1.0
[4.0.0]: https://github.com/aeternity/aesophia/compare/v3.2.0...v4.0.0
[3.2.0]: https://github.com/aeternity/aesophia/compare/v3.1.0...v3.2.0
[3.1.0]: https://github.com/aeternity/aesophia/compare/v3.0.0...v3.1.0
[3.0.0]: https://github.com/aeternity/aesophia/compare/v2.1.0...v3.0.0
README.md
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@@ -2,13 +2,19 @@
This is the __sophia__ compiler for the æternity system which compiles contracts written in __sophia__ code to the æternity VM code.
For more information about æternity smart contracts and the sophia language see [Smart Contracts](https://github.com/aeternity/protocol/blob/master/contracts/contracts.md) and the [Sophia Language](https://github.com/aeternity/protocol/blob/master/contracts/sophia.md).
It is an OTP application written in Erlang and is by default included in
[the æternity node](https://github.com/aeternity/epoch). However, it can
also be included in other systems to compile contracts coded in sophia which
can then be loaded into the æternity system.
## Documentation
* [Smart Contracts on aeternity Blockchain](https://github.com/aeternity/protocol/blob/master/contracts/contracts.md).
* [Sophia Documentation](docs/sophia.md).
* [Sophia Standard Library](docs/sophia_stdlib.md).
## Versioning
`aesophia` has a version that is only loosely connected to the version of the
@@ -17,6 +23,7 @@ minor/patch version. The `aesophia` compiler version MUST be bumped whenever
there is a change in how byte code is generated, but it MAY also be bumped upon
API changes etc.
## Interface Modules
The basic modules for interfacing the compiler:
docs/sophia.md
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docs/sophia_stdlib.md
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priv/stdlib/Frac.aes
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@@ -0,0 +1,183 @@
namespace Frac =
private function gcd(a : int, b : int) =
if (b == 0) a else gcd(b, a mod b)
private function abs_int(a : int) = if (a < 0) -a else a
datatype frac = Pos(int, int) | Zero | Neg(int, int)
/** Checks if the internal representation is correct.
* Numerator and denominator must be positive.
* Exposed for debug purposes
*/
function is_sane(f : frac) : bool = switch(f)
Pos(n, d) => n > 0 && d > 0
Zero => true
Neg(n, d) => n > 0 && d > 0
function num(f : frac) : int = switch(f)
Pos(n, _) => n
Neg(n, _) => -n
Zero => 0
function den(f : frac) : int = switch(f)
Pos(_, d) => d
Neg(_, d) => d
Zero => 1
function to_pair(f : frac) : int * int = switch(f)
Pos(n, d) => (n, d)
Neg(n, d) => (-n, d)
Zero => (0, 1)
function sign(f : frac) : int = switch(f)
Pos(_, _) => 1
Neg(_, _) => -1
Zero => 0
function to_str(f : frac) : string = switch(f)
Pos(n, d) => String.concat(Int.to_str(n), if (d == 1) "" else String.concat("/", Int.to_str(d)))
Neg(n, d) => String.concat("-", to_str(Pos(n, d)))
Zero => "0"
/** Reduce fraction to normal form
*/
function simplify(f : frac) : frac =
switch(f)
Neg(n, d) =>
let cd = gcd(n, d)
Neg(n / cd, d / cd)
Zero => Zero
Pos(n, d) =>
let cd = gcd(n, d)
Pos(n / cd, d / cd)
/** Integer to rational division
*/
function make_frac(n : int, d : int) : frac =
if (d == 0) abort("Zero denominator")
elif (n == 0) Zero
elif ((n < 0) == (d < 0)) simplify(Pos(abs_int(n), abs_int(d)))
else simplify(Neg(abs_int(n), abs_int(d)))
function one() : frac = Pos(1, 1)
function zero() : frac = Zero
function eq(a : frac, b : frac) : bool =
let (na, da) = to_pair(a)
let (nb, db) = to_pair(b)
(na == nb && da == db) || na * db == nb * da // they are more likely to be normalized
function neq(a : frac, b : frac) : bool =
let (na, da) = to_pair(a)
let (nb, db) = to_pair(b)
(na != nb || da != db) && na * db != nb * da
function geq(a : frac, b : frac) : bool = num(a) * den(b) >= num(b) * den(a)
function leq(a : frac, b : frac) : bool = num(a) * den(b) =< num(b) * den(a)
function gt(a : frac, b : frac) : bool = num(a) * den(b) > num(b) * den(a)
function lt(a : frac, b : frac) : bool = num(a) * den(b) < num(b) * den(a)
function min(a : frac, b : frac) : frac = if (leq(a, b)) a else b
function max(a : frac, b : frac) : frac = if (geq(a, b)) a else b
function abs(f : frac) : frac = switch(f)
Pos(n, d) => Pos(n, d)
Zero => Zero
Neg(n, d) => Pos(n, d)
function from_int(n : int) : frac =
if (n > 0) Pos(n, 1)
elif (n < 0) Neg(-n, 1)
else Zero
function floor(f : frac) : int = switch(f)
Pos(n, d) => n / d
Zero => 0
Neg(n, d) => -(n + d - 1) / d
function ceil(f : frac) : int = switch(f)
Pos(n, d) => (n + d - 1) / d
Zero => 0
Neg(n, d) => -n / d
function round_to_zero(f : frac) : int = switch(f)
Pos(n, d) => n / d
Zero => 0
Neg(n, d) => -n / d
function round_from_zero(f : frac) : int = switch(f)
Pos(n, d) => (n + d - 1) / d
Zero => 0
Neg(n, d) => -(n + d - 1) / d
/** Round towards nearest integer. If two integers are in the same
* distance, choose the even one.
*/
function round(f : frac) : int =
let fl = floor(f)
let cl = ceil(f)
let dif_fl = abs(sub(f, from_int(fl)))
let dif_cl = abs(sub(f, from_int(cl)))
if (gt(dif_fl, dif_cl)) cl
elif (gt(dif_cl, dif_fl)) fl
elif (fl mod 2 == 0) fl
else cl
function add(a : frac, b : frac) : frac =
let (na, da) = to_pair(a)
let (nb, db) = to_pair(b)
if (da == db) make_frac(na + nb, da)
else make_frac(na * db + nb * da, da * db)
function neg(a : frac) : frac = switch(a)
Neg(n, d) => Pos(n, d)
Zero => Zero
Pos(n, d) => Neg(n, d)
function sub(a : frac, b : frac) : frac = add(a, neg(b))
function inv(a : frac) : frac = switch(a)
Neg(n, d) => Neg(d, n)
Zero => abort("Inversion of zero")
Pos(n, d) => Pos(d, n)
function mul(a : frac, b : frac) : frac = make_frac(num(a) * num(b), den(a) * den(b))
function div(a : frac, b : frac) : frac = switch(b)
Neg(n, d) => mul(a, Neg(d, n))
Zero => abort("Division by zero")
Pos(n, d) => mul(a, Pos(d, n))
/** `b` to the power of `e`
*/
function int_exp(b : frac, e : int) : frac =
if (sign(b) == 0 && e == 0) abort("Zero to the zero exponentation")
elif (e < 0) inv(int_exp_(b, -e))
else int_exp_(b, e)
private function int_exp_(b : frac, e : int) =
if (e == 0) from_int(1)
elif (e == 1) b
else
let half = int_exp_(b, e / 2)
if (e mod 2 == 1) mul(mul(half, half), b)
else mul(half, half)
/** Reduces the fraction's in-memory size by dividing its components by two until the
* the error is bigger than `loss` value
*/
function optimize(f : frac, loss : frac) : frac =
require(geq(loss, Zero), "negative loss optimize")
let s = sign(f)
mul(from_int(s), run_optimize(abs(f), abs(f), loss))
private function run_optimize(orig : frac, f : frac, loss : frac) : frac =
let (n, d) = to_pair(f)
let t = make_frac((n+1)/2, (d+1)/2)
if(gt(abs(sub(t, orig)), loss)) f
elif (eq(t, f)) f
else run_optimize(orig, t, loss)
priv/stdlib/Func.aes
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namespace Func =
function id(x : 'a) : 'a = x
function const(x : 'a) : 'b => 'a = (y) => x
function flip(f : ('a, 'b) => 'c) : ('b, 'a) => 'c = (b, a) => f(a, b)
function comp(f : 'b => 'c, g : 'a => 'b) : 'a => 'c = (x) => f(g(x))
function pipe(f : 'a => 'b, g : 'b => 'c) : 'a => 'c = (x) => g(f(x))
function rapply(x : 'a, f : 'a => 'b) : 'b = f(x)
/** The Z combinator - replacement for local and anonymous recursion.
*/
function recur(f : ('arg => 'res, 'arg) => 'res) : 'arg => 'res =
(x) => f(recur(f), x)
/** n-times composition with itself
*/
function iter(n : int, f : 'a => 'a) : 'a => 'a = iter_(n, f, (x) => x)
private function iter_(n : int, f : 'a => 'a, acc : 'a => 'a) : 'a => 'a =
if(n == 0) acc
elif(n == 1) comp(f, acc)
else iter_(n / 2, comp(f, f), if(n mod 2 == 0) acc else comp(f, acc))
/** Turns an ugly, bad and disgusting arity-n function into
* a beautiful and sweet function taking the first argument
* and returning a function watiting for the remaining ones
* in the same manner
*/
function curry2(f : ('a, 'b) => 'x) : 'a => ('b => 'x) =
(x) => (y) => f(x, y)
function curry3(f : ('a, 'b, 'c) => 'x) : 'a => ('b => ('c => 'x)) =
(x) => (y) => (z) => f(x, y, z)
function curry4(f : ('a, 'b, 'c, 'd) => 'x) : 'a => ('b => ('c => ('d => 'x))) =
(x) => (y) => (z) => (w) => f(x, y, z, w)
function curry5(f : ('a, 'b, 'c, 'd, 'e) => 'x) : 'a => ('b => ('c => ('d => ('e => 'x)))) =
(x) => (y) => (z) => (w) => (q) => f(x, y, z, w, q)
/** Opposite of curry. Gross
*/
function uncurry2(f : 'a => ('b => 'x)) : ('a, 'b) => 'x =
(x, y) => f(x)(y)
function uncurry3(f : 'a => ('b => ('c => 'x))) : ('a, 'b, 'c) => 'x =
(x, y, z) => f(x)(y)(z)
function uncurry4(f : 'a => ('b => ('c => ('d => 'x)))) : ('a, 'b, 'c, 'd) => 'x =
(x, y, z, w) => f(x)(y)(z)(w)
function uncurry5(f : 'a => ('b => ('c => ('d => ('e => 'x))))) : ('a, 'b, 'c, 'd, 'e) => 'x =
(x, y, z, w, q) => f(x)(y)(z)(w)(q)
/** Turns an arity-n function into a function taking n-tuple
*/
function tuplify2(f : ('a, 'b) => 'x) : (('a * 'b)) => 'x =
(t) => switch(t)
(x, y) => f(x, y)
function tuplify3(f : ('a, 'b, 'c) => 'x) : 'a * 'b * 'c => 'x =
(t) => switch(t)
(x, y, z) => f(x, y, z)
function tuplify4(f : ('a, 'b, 'c, 'd) => 'x) : 'a * 'b * 'c * 'd => 'x =
(t) => switch(t)
(x, y, z, w) => f(x, y, z, w)
function tuplify5(f : ('a, 'b, 'c, 'd, 'e) => 'x) : 'a * 'b * 'c * 'd * 'e => 'x =
(t) => switch(t)
(x, y, z, w, q) => f(x, y, z, w, q)
/** Opposite of tuplify
*/
function untuplify2(f : 'a * 'b => 'x) : ('a, 'b) => 'x =
(x, y) => f((x, y))
function untuplify3(f : 'a * 'b * 'c => 'x) : ('a, 'b, 'c) => 'x =
(x, y, z) => f((x, y, z))
function untuplify4(f : 'a * 'b * 'c * 'd => 'x) : ('a, 'b, 'c, 'd) => 'x =
(x, y, z, w) => f((x, y, z, w))
function untuplify5(f : 'a * 'b * 'c * 'd * 'e => 'x) : ('a, 'b, 'c, 'd, 'e) => 'x =
(x, y, z, w, q) => f((x, y, z, w, q))
priv/stdlib/List.aes
+247
View File
@@ -0,0 +1,247 @@
include "ListInternal.aes"
namespace List =
function is_empty(l : list('a)) : bool = switch(l)
[] => true
_ => false
function first(l : list('a)) : option('a) = switch(l)
[] => None
h::_ => Some(h)
function tail(l : list('a)) : option(list('a)) = switch(l)
[] => None
_::t => Some(t)
function last(l : list('a)) : option('a) = switch(l)
[] => None
[x] => Some(x)
_::t => last(t)
/** Finds first element of `l` fulfilling predicate `p` as `Some` or `None`
* if no such element exists.
*/
function find(p : 'a => bool, l : list('a)) : option('a) = switch(l)
[] => None
h::t => if(p(h)) Some(h) else find(p, t)
/** Returns list of all indices of elements from `l` that fulfill the predicate `p`.
*/
function find_indices(p : 'a => bool, l : list('a)) : list(int) = find_indices_(p, l, 0, [])
private function find_indices_( p : 'a => bool
, l : list('a)
, n : int
, acc : list(int)
) : list(int) = switch(l)
[] => reverse(acc)
h::t => find_indices_(p, t, n+1, if(p(h)) n::acc else acc)
function nth(n : int, l : list('a)) : option('a) =
switch(l)
[] => None
h::t => if(n == 0) Some(h) else nth(n-1, t)
/* Unsafe version of `nth` */
function get(n : int, l : list('a)) : 'a =
switch(l)
[] => abort(if(n < 0) "Negative index get" else "Out of index get")
h::t => if(n == 0) h else get(n-1, t)
function length(l : list('a)) : int = length_(l, 0)
private function length_(l : list('a), acc : int) : int = switch(l)
[] => acc
_::t => length_(t, acc + 1)
/** Creates an ascending sequence of all integer numbers
* between `a` and `b` (including `a` and `b`)
*/
function from_to(a : int, b : int) : list(int) = [a..b]
/** Creates an ascending sequence of integer numbers betweeen
* `a` and `b` jumping by given `step`. Includes `a` and takes
* `b` only if `(b - a) mod step == 0`. `step` should be bigger than 0.
*/
function from_to_step(a : int, b : int, s : int) : list(int) = from_to_step_(a, b, s, [])
private function from_to_step_(a, b, s, acc) =
if (a > b) reverse(acc) else from_to_step_(a + s, b, s, a :: acc)
/** Unsafe. Replaces `n`th element of `l` with `e`. Crashes on over/underflow
*/
function replace_at(n : int, e : 'a, l : list('a)) : list('a) =
if(n<0) abort("insert_at underflow") else replace_at_(n, e, l, [])
private function replace_at_(n : int, e : 'a, l : list('a), acc : list('a)) : list('a) =
switch(l)
[] => abort("replace_at overflow")
h::t => if (n == 0) reverse(e::acc) ++ t
else replace_at_(n-1, e, t, h::acc)
/** Unsafe. Adds `e` to `l` to be its `n`th element. Crashes on over/underflow
*/
function insert_at(n : int, e : 'a, l : list('a)) : list('a) =
if(n<0) abort("insert_at underflow") else insert_at_(n, e, l, [])
private function insert_at_(n : int, e : 'a, l : list('a), acc : list('a)) : list('a) =
if (n == 0) reverse(e::acc) ++ l
else switch(l)
[] => abort("insert_at overflow")
h::t => insert_at_(n-1, e, t, h::acc)
/** Assuming that cmp represents `<` comparison, inserts `x` before
* the first element in the list `l` which is greater than it
*/
function insert_by(cmp : (('a, 'a) => bool), x : 'a, l : list('a)) : list('a) =
insert_by_(cmp, x, l, [])
private function insert_by_(cmp : (('a, 'a) => bool), x : 'a, l : list('a), acc : list('a)) : list('a) =
switch(l)
[] => reverse(x::acc)
h::t =>
if(cmp(x, h)) // x < h
reverse(acc) ++ (x::l)
else
insert_by_(cmp, x, t, h::acc)
function foldr(cons : ('a, 'b) => 'b, nil : 'b, l : list('a)) : 'b = switch(l)
[] => nil
h::t => cons(h, foldr(cons, nil, t))
function foldl(rcons : ('b, 'a) => 'b, acc : 'b, l : list('a)) : 'b = switch(l)
[] => acc
h::t => foldl(rcons, rcons(acc, h), t)
function foreach(l : list('a), f : 'a => unit) : unit =
switch(l)
[] => ()
e::l' =>
f(e)
foreach(l', f)
function reverse(l : list('a)) : list('a) = foldl((lst, el) => el :: lst, [], l)
function map(f : 'a => 'b, l : list('a)) : list('b) = map_(f, l, [])
private function map_(f : 'a => 'b, l : list('a), acc : list('b)) : list('b) = switch(l)
[] => reverse(acc)
h::t => map_(f, t, f(h)::acc)
/** Effectively composition of `map` and `flatten`
*/
function flat_map(f : 'a => list('b), l : list('a)) : list('b) =
ListInternal.flat_map(f, l)
function filter(p : 'a => bool, l : list('a)) : list('a) = filter_(p, l, [])
private function filter_(p : 'a => bool, l : list('a), acc : list('a)) : list('a) = switch(l)
[] => reverse(acc)
h::t => filter_(p, t, if(p(h)) h::acc else acc)
/** Take `n` first elements
*/
function take(n : int, l : list('a)) : list('a) =
if(n < 0) abort("Take negative number of elements") else take_(n, l, [])
private function take_(n : int, l : list('a), acc : list('a)) : list('a) =
if(n == 0) reverse(acc)
else switch(l)
[] => reverse(acc)
h::t => take_(n-1, t, h::acc)
/** Drop `n` first elements
*/
function drop(n : int, l : list('a)) : list('a) =
if(n < 0) abort("Drop negative number of elements")
elif (n == 0) l
else switch(l)
[] => []
h::t => drop(n-1, t)
/** Get the longest prefix of a list in which every element
* matches predicate `p`
*/
function take_while(p : 'a => bool, l : list('a)) : list('a) = take_while_(p, l, [])
private function take_while_(p : 'a => bool, l : list('a), acc : list('a)) : list('a) = switch(l)
[] => reverse(acc)
h::t => if(p(h)) take_while_(p, t, h::acc) else reverse(acc)
/** Drop elements from `l` until `p` holds
*/
function drop_while(p : 'a => bool, l : list('a)) : list('a) = switch(l)
[] => []
h::t => if(p(h)) drop_while(p, t) else l
/** Splits list into two lists of elements that respectively
* match and don't match predicate `p`
*/
function partition(p : 'a => bool, l : list('a)) : (list('a) * list('a)) = partition_(p, l, [], [])
private function partition_( p : 'a => bool
, l : list('a)
, acc_t : list('a)
, acc_f : list('a)
) : (list('a) * list('a)) = switch(l)
[] => (reverse(acc_t), reverse(acc_f))
h::t => if(p(h)) partition_(p, t, h::acc_t, acc_f) else partition_(p, t, acc_t, h::acc_f)
/** Flattens list of lists into a single list
*/
function flatten(ll : list(list('a))) : list('a) = foldr((l1, l2) => l1 ++ l2, [], ll)
function all(p : 'a => bool, l : list('a)) : bool = switch(l)
[] => true
h::t => if(p(h)) all(p, t) else false
function any(p : 'a => bool, l : list('a)) : bool = switch(l)
[] => false
h::t => if(p(h)) true else any(p, t)
function sum(l : list(int)) : int = foldl ((a, b) => a + b, 0, l)
function product(l : list(int)) : int = foldl((a, b) => a * b, 1, l)
/** Zips two list by applying bimapping function on respective elements.
* Drops longer tail.
*/
function zip_with(f : ('a, 'b) => 'c, l1 : list('a), l2 : list('b)) : list('c) = zip_with_(f, l1, l2, [])
private function zip_with_( f : ('a, 'b) => 'c
, l1 : list('a)
, l2 : list('b)
, acc : list('c)
) : list('c) = switch ((l1, l2))
(h1::t1, h2::t2) => zip_with_(f, t1, t2, f(h1, h2)::acc)
_ => reverse(acc)
/** Zips two lists into list of pairs. Drops longer tail.
*/
function zip(l1 : list('a), l2 : list('b)) : list('a * 'b) = zip_with((a, b) => (a, b), l1, l2)
function unzip(l : list('a * 'b)) : list('a) * list('b) = unzip_(l, [], [])
private function unzip_( l : list('a * 'b)
, acc_l : list('a)
, acc_r : list('b)
) : (list('a) * list('b)) = switch(l)
[] => (reverse(acc_l), reverse(acc_r))
(left, right)::t => unzip_(t, left::acc_l, right::acc_r)
// TODO: Improve?
function sort(lesser_cmp : ('a, 'a) => bool, l : list('a)) : list('a) = switch(l)
[] => []
h::t => switch (partition((x) => lesser_cmp(x, h), t))
(lesser, bigger) => sort(lesser_cmp, lesser) ++ h::sort(lesser_cmp, bigger)
/** Puts `delim` between every two members of the list
*/
function intersperse(delim : 'a, l : list('a)) : list('a) = intersperse_(delim, l, [])
private function intersperse_(delim : 'a, l : list('a), acc : list('a)) : list('a) = switch(l)
[] => reverse(acc)
[e] => reverse(e::acc)
h::t => intersperse_(delim, t, delim::h::acc)
/** Effectively a zip with an infinite sequence of natural numbers
*/
function enumerate(l : list('a)) : list(int * 'a) = enumerate_(l, 0, [])
private function enumerate_(l : list('a), n : int, acc : list(int * 'a)) : list(int * 'a) = switch(l)
[] => reverse(acc)
h::t => enumerate_(t, n + 1, (n, h)::acc)
priv/stdlib/ListInternal.aes
+16
View File
@@ -0,0 +1,16 @@
namespace ListInternal =
// -- Flatmap ----------------------------------------------------------------
function flat_map(f : 'a => list('b), xs : list('a)) : list('b) =
switch(xs)
[] => []
x :: xs => f(x) ++ flat_map(f, xs)
// -- From..to ---------------------------------------------------------------
function from_to(a : int, b : int) : list(int) = from_to_(a, b, [])
private function from_to_(a, b, acc) =
if (a > b) acc else from_to_(a, b - 1, b :: acc)
priv/stdlib/Option.aes
+94
View File
@@ -0,0 +1,94 @@
include "List.aes"
namespace Option =
function is_none(o : option('a)) : bool = switch(o)
None => true
Some(_) => false
function is_some(o : option('a)) : bool = switch(o)
None => false
Some(_) => true
/** Catamorphism on `option`. Also known as inlined pattern matching.
*/
function match(n : 'b, s : 'a => 'b, o : option('a)) : 'b = switch(o)
None => n
Some(x) => s(x)
/** Escape option providing default if `None`
*/
function default(def : 'a, o : option('a)) : 'a = match(def, (x) => x, o)
/** Assume it is `Some`
*/
function force(o : option('a)) : 'a = default(abort("Forced None value"), o)
function on_elem(o : option('a), f : 'a => unit) : unit = match((), f, o)
function map(f : 'a => 'b, o : option('a)) : option('b) = switch(o)
None => None
Some(x) => Some(f(x))
function map2(f : ('a, 'b) => 'c
, o1 : option('a)
, o2 : option('b)
) : option('c) = switch((o1, o2))
(Some(x1), Some(x2)) => Some(f(x1, x2))
_ => None
function map3( f : ('a, 'b, 'c) => 'd
, o1 : option('a)
, o2 : option('b)
, o3 : option('c)
) : option('d) = switch((o1, o2, o3))
(Some(x1), Some(x2), Some(x3)) => Some(f(x1, x2, x3))
_ => None
/** Like `map`, but the function is in `option`
*/
function app_over(f : option ('a => 'b), o : option('a)) : option('b) = switch((f, o))
(Some(ff), Some(xx)) => Some(ff(xx))
_ => None
/** Monadic bind
*/
function flat_map(f : 'a => option('b), o : option('a)) : option('b) = switch(o)
None => None
Some(x) => f(x)
function to_list(o : option('a)) : list('a) = switch(o)
None => []
Some(x) => [x]
/** Turns list of options into a list of elements that are under `Some`s.
* Safe.
*/
function filter_options(l : list(option('a))) : list('a) = filter_options_(l, [])
private function filter_options_(l : list (option('a)), acc : list('a)) : list('a) = switch(l)
[] => List.reverse(acc)
None::t => filter_options_(t, acc)
Some(x)::t => filter_options_(t, x::acc)
/** Just like `filter_options` but requires all elements to be `Some` and returns
* None if any of them is not
*/
function seq_options(l : list (option('a))) : option (list('a)) = seq_options_(l, [])
private function seq_options_(l : list (option('a)), acc : list('a)) : option(list('a)) = switch(l)
[] => Some(List.reverse(acc))
None::t => None
Some(x)::t => seq_options_(t, x::acc)
/** Choose `Some` out of two if possible
*/
function choose(o1 : option('a), o2 : option('a)) : option('a) =
if(is_some(o1)) o1 else o2
/** Choose `Some` from list of options if possible
*/
function choose_first(l : list(option('a))) : option('a) = switch(l)
[] => None
None::t => choose_first(t)
Some(x)::_ => Some(x)
priv/stdlib/Pair.aes
+26
View File
@@ -0,0 +1,26 @@
namespace Pair =
function fst(t : ('a * 'b)) : 'a = switch(t)
(x, _) => x
function snd(t : ('a * 'b)) : 'b = switch(t)
(_, y) => y
/** Map over first
*/
function map1(f : 'a => 'c, t : ('a * 'b)) : ('c * 'b) = switch(t)
(x, y) => (f(x), y)
/** Map over second
*/
function map2(f : 'b => 'c, t : ('a * 'b)) : ('a * 'c) = switch(t)
(x, y) => (x, f(y))
/** Map over both
*/
function bimap(f : 'a => 'c, g : 'b => 'd, t : ('a * 'b)) : ('c * 'd) = switch(t)
(x, y) => (f(x), g(y))
function swap(t : ('a * 'b)) : ('b * 'a) = switch(t)
(x, y) => (y, x)
priv/stdlib/Triple.aes
+49
View File
@@ -0,0 +1,49 @@
namespace Triple =
function fst(t : ('a * 'b * 'c)) : 'a = switch(t)
(x, _, _) => x
function snd(t : ('a * 'b * 'c)) : 'b = switch(t)
(_, y, _) => y
function thd(t : ('a * 'b * 'c)) : 'c = switch(t)
(_, _, z) => z
/** Map over first
*/
function map1(f : 'a => 'm, t : ('a * 'b * 'c)) : ('m * 'b * 'c) = switch(t)
(x, y, z) => (f(x), y, z)
/** Map over second
*/
function map2(f : 'b => 'm, t : ('a * 'b * 'c)) : ('a * 'm * 'c) = switch(t)
(x, y, z) => (x, f(y), z)
/** Map over third
*/
function map3(f : 'c => 'm, t : ('a * 'b * 'c)) : ('a * 'b * 'm) = switch(t)
(x, y, z) => (x, y, f(z))
/** Map over all elements
*/
function trimap( f : 'a => 'x
, g : 'b => 'y
, h : 'c => 'z
, t : ('a * 'b * 'c)
) : ('x * 'y * 'z) = switch(t)
(x, y, z) => (f(x), g(y), h(z))
function swap(t : ('a * 'b * 'c)) : ('c * 'b * 'a) = switch(t)
(x, y, z) => (z, y, x)
/** Right rotation
*/
function rotr(t : ('a * 'b * 'c)) : ('c * 'a * 'b) = switch(t)
(x, y, z) => (z, x, y)
/** Left rotation
*/
function rotl(t : ('a * 'b * 'c)) : ('b * 'c * 'a) = switch(t)
(x, y, z) => (y, z, x)
rebar.config
+2 -2
View File
@@ -2,7 +2,7 @@
{erl_opts, [debug_info]}.
{deps, [ {aebytecode, {git, "https://github.com/aeternity/aebytecode.git", {ref,"10cc127"}}}
{deps, [ {aebytecode, {git, "https://github.com/aeternity/aebytecode.git", {ref,"4f4d6d3"}}}
, {getopt, "1.0.1"}
, {eblake2, "1.0.0"}
, {jsx, {git, "https://github.com/talentdeficit/jsx.git",
@@ -15,7 +15,7 @@
{base_plt_apps, [erts, kernel, stdlib, crypto, mnesia]}
]}.
{relx, [{release, {aesophia, "4.0.0-rc1"},
{relx, [{release, {aesophia, "4.3.0"},
[aesophia, aebytecode, getopt]},
{dev_mode, true},
rebar.lock
+6 -2
View File
@@ -1,17 +1,21 @@
{"1.1.0",
[{<<"aebytecode">>,
{git,"https://github.com/aeternity/aebytecode.git",
{ref,"10cc1278831ad7e90138533466ceef4bcafd74a9"}},
{ref,"4f4d6d30cd2c46b3830454d650a424d513f69134"}},
0},
{<<"aeserialization">>,
{git,"https://github.com/aeternity/aeserialization.git",
{ref,"816bf994ffb5cee218c3f22dc5fea296c9e0882e"}},
{ref,"47aaa8f5434b365c50a35bfd1490340b19241991"}},
1},
{<<"base58">>,
{git,"https://github.com/aeternity/erl-base58.git",
{ref,"60a335668a60328a29f9731b67c4a0e9e3d50ab6"}},
2},
{<<"eblake2">>,{pkg,<<"eblake2">>,<<"1.0.0">>},0},
{<<"enacl">>,
{git,"https://github.com/aeternity/enacl.git",
{ref,"26180f42c0b3a450905d2efd8bc7fd5fd9cece75"}},
2},
{<<"getopt">>,{pkg,<<"getopt">>,<<"1.0.1">>},0},
{<<"jsx">>,
{git,"https://github.com/talentdeficit/jsx.git",
src/aeso_aci.erl
+4 -14
View File
@@ -74,21 +74,9 @@ do_contract_interface(Type, ContractString, Options) ->
string -> do_render_aci_json(JArray)
end
catch
%% The compiler errors.
error:{parse_errors, Errors} ->
{error, join_errors("Parse errors", Errors, fun(E) -> E end)};
error:{type_errors, Errors} ->
{error, join_errors("Type errors", Errors, fun(E) -> E end)};
error:{code_errors, Errors} ->
{error, join_errors("Code errors", Errors,
fun (E) -> io_lib:format("~p", [E]) end)}
%% General programming errors in the compiler just signal error.
throw:{error, Errors} -> {error, Errors}
end.
join_errors(Prefix, Errors, Pfun) ->
Ess = [ Pfun(E) || E <- Errors ],
list_to_binary(string:join([Prefix|Ess], "\n")).
encode_contract(Contract = {contract, _, {con, _, Name}, _}) ->
C0 = #{name => encode_name(Name)},
@@ -141,7 +129,7 @@ encode_anon_args(Types) ->
encode_args(Args) -> [ encode_arg(A) || A <- Args ].
encode_arg({arg, _, Id, T}) ->
encode_arg({typed, _, Id, T}) ->
#{name => encode_type(Id),
type => encode_type(T)}.
@@ -206,6 +194,8 @@ encode_expr({bytes, _, B}) ->
encode_expr({Lit, _, L}) when Lit == oracle_pubkey; Lit == oracle_query_id;
Lit == contract_pubkey; Lit == account_pubkey ->
aeser_api_encoder:encode(Lit, L);
encode_expr({app, _, {'-', _}, [{int, _, N}]}) ->
encode_expr({int, [], -N});
encode_expr({app, _, F, As}) ->
Ef = encode_expr(F),
Eas = encode_exprs(As),
src/aeso_ast_infer_types.erl
+667 -319
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File diff suppressed because it is too large Load Diff
src/aeso_ast_to_fcode.erl
+663 -127
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File diff suppressed because it is too large Load Diff
src/aeso_ast_to_icode.erl
+456 -333
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File diff suppressed because it is too large Load Diff
src/aeso_builtins.erl
+128 -21
View File
@@ -10,6 +10,7 @@
-module(aeso_builtins).
-export([ builtin_function/1
, bytes_to_raw_string/2
, check_event_type/1
, used_builtins/1 ]).
@@ -44,7 +45,7 @@ builtin_deps1(addr_to_str) -> [{baseX_int, 58}];
builtin_deps1({baseX_int, X}) -> [{baseX_int_pad, X}];
builtin_deps1({baseX_int_pad, X}) -> [{baseX_int_encode, X}];
builtin_deps1({baseX_int_encode, X}) -> [{baseX_int_encode_, X}, {baseX_tab, X}, {baseX_digits, X}];
builtin_deps1({bytes_to_str, _}) -> [bytes_to_str_worker];
builtin_deps1({bytes_to_str, _}) -> [bytes_to_str_worker, bytes_to_str_worker_x];
builtin_deps1(string_reverse) -> [string_reverse_];
builtin_deps1(require) -> [abort];
builtin_deps1(_) -> [].
@@ -89,7 +90,13 @@ option_some(X) -> {tuple, [{integer, 1}, X]}.
-define(BSL(X, B), op('bsl', ?MUL(B, 8), X)).
-define(BSR(X, B), op('bsr', ?MUL(B, 8), X)).
op(Op, A, B) -> {binop, Op, operand(A), operand(B)}.
op(Op, A, B) -> simpl({binop, Op, operand(A), operand(B)}).
%% We generate a lot of B * 8 for integer B from BSL and BSR.
simpl({binop, '*', {integer, A}, {integer, B}}) when A >= 0, B >= 0, A * B < 1 bsl 256 ->
{integer, A * B};
simpl(Op) -> Op.
operand(A) when is_atom(A) -> v(A);
operand(I) when is_integer(I) -> {integer, I};
@@ -161,7 +168,10 @@ builtin_function(BF) ->
{baseX_int_encode_, X} -> bfun(BF, builtin_baseX_int_encode_(X));
{bytes_to_int, N} -> bfun(BF, builtin_bytes_to_int(N));
{bytes_to_str, N} -> bfun(BF, builtin_bytes_to_str(N));
{bytes_concat, A, B} -> bfun(BF, builtin_bytes_concat(A, B));
{bytes_split, A, B} -> bfun(BF, builtin_bytes_split(A, B));
bytes_to_str_worker -> bfun(BF, builtin_bytes_to_str_worker());
bytes_to_str_worker_x -> bfun(BF, builtin_bytes_to_str_worker_x());
string_reverse -> bfun(BF, builtin_string_reverse());
string_reverse_ -> bfun(BF, builtin_string_reverse_())
end.
@@ -512,40 +522,60 @@ builtin_bytes_to_int(N) when N > 32 ->
end,
{[{"b", pointer}], Body, word}.
builtin_bytes_to_str_worker() ->
%% Two versions of this helper function, worker for sections not even 16 bytes long
%% and worker_x for the full sized chunks.
builtin_bytes_to_str_worker_x() ->
<<Tab:256>> = <<"0123456789ABCDEF________________">>,
{[{"w", word}, {"offs", word}, {"acc", word}],
{seq, [{ifte, ?AND(?GT(offs, 0), ?EQ(0, ?MOD(offs, 16))),
{seq, [?V(acc), {inline_asm, [?A(?MSIZE), ?A(?MSTORE)]}]},
{inline_asm, []}},
{ifte, ?EQ(offs, 32), {inline_asm, [?A(?MSIZE)]},
{ifte, ?EQ(offs, 16), {seq, [?V(acc), {inline_asm, [?A(?MSIZE), ?A(?MSTORE), ?A(?MSIZE)]}]},
?LET(b, ?BYTE(offs, w),
?LET(lo, ?BYTE(?MOD(b, 16), Tab),
?LET(hi, ?BYTE(op('bsr', 4 , b), Tab),
?call(bytes_to_str_worker,
[?V(w), ?ADD(offs, 1), ?ADD(?BSL(acc, 2), ?ADD(?BSL(hi, 1), lo))]))))
}
]},
?call(bytes_to_str_worker_x, [?V(w), ?ADD(offs, 1), ?ADD(?BSL(acc, 2), ?ADD(?BSL(hi, 1), lo))]))))
},
word}.
builtin_bytes_to_str_worker() ->
<<Tab:256>> = <<"0123456789ABCDEF________________">>,
{[{"w", word}, {"offs", word}, {"acc", word}, {"stop", word}],
{ifte, ?EQ(stop, offs), {seq, [?BSL(acc, ?MUL(2, ?SUB(16, offs))), {inline_asm, [?A(?MSIZE), ?A(?MSTORE), ?A(?MSIZE)]}]},
?LET(b, ?BYTE(offs, w),
?LET(lo, ?BYTE(?MOD(b, 16), Tab),
?LET(hi, ?BYTE(op('bsr', 4 , b), Tab),
?call(bytes_to_str_worker, [?V(w), ?ADD(offs, 1), ?ADD(?BSL(acc, 2), ?ADD(?BSL(hi, 1), lo)), ?V(stop)]))))
},
word}.
builtin_bytes_to_str_body(Var, N) when N < 16 ->
[?call(bytes_to_str_worker, [?V(Var), ?I(0), ?I(0), ?I(N)])];
builtin_bytes_to_str_body(Var, 16) ->
[?call(bytes_to_str_worker_x, [?V(Var), ?I(0), ?I(0)])];
builtin_bytes_to_str_body(Var, N) when N < 32 ->
builtin_bytes_to_str_body(Var, 16) ++ [{inline_asm, [?A(?POP)]}] ++
[?call(bytes_to_str_worker, [?BSL(Var, 16), ?I(0), ?I(0), ?I(N - 16)])];
builtin_bytes_to_str_body(Var, 32) ->
builtin_bytes_to_str_body(Var, 16) ++ [{inline_asm, [?A(?POP)]}] ++
[?call(bytes_to_str_worker_x, [?BSL(Var, 16), ?I(0), ?I(0)])];
builtin_bytes_to_str_body(Var, N) when N > 32 ->
WholeWords = ((N + 31) div 32) - 1,
lists:append(
[ [?DEREF(w, ?ADD(Var, 32 * I), {seq, builtin_bytes_to_str_body(w, 32)}), {inline_asm, [?A(?POP)]}]
|| I <- lists:seq(0, WholeWords - 1) ]) ++
[ ?DEREF(w, ?ADD(Var, 32 * WholeWords), {seq, builtin_bytes_to_str_body(w, N - WholeWords * 32)}) ].
builtin_bytes_to_str(N) when N =< 32 ->
{[{"w", word}],
?LET(ret, {inline_asm, [?A(?MSIZE)]},
{seq, [?I(N * 2), {inline_asm, [?A(?MSIZE), ?A(?MSTORE)]},
?call(bytes_to_str_worker, [?V(w), ?I(0), ?I(0)]),
{inline_asm, [?A(?POP)]},
?V(ret)]}),
{seq, [?I(N * 2), {inline_asm, [?A(?MSIZE), ?A(?MSTORE)]}] ++
builtin_bytes_to_str_body(w, N) ++
[{inline_asm, [?A(?POP)]}, ?V(ret)]}),
string};
builtin_bytes_to_str(N) when N > 32 ->
Work = fun(I) ->
[?DEREF(w, ?ADD(p, 32 * I), ?call(bytes_to_str_worker, [?V(w), ?I(0), ?I(0)])),
{inline_asm, [?A(?POP)]}]
end,
{[{"p", pointer}],
?LET(ret, {inline_asm, [?A(?MSIZE)]},
{seq, [?I(N * 2), {inline_asm, [?A(?MSIZE), ?A(?MSTORE)]}] ++
lists:append([ Work(I) || I <- lists:seq(0, (N + 31) div 32 - 1) ]) ++
[?V(ret)]}),
builtin_bytes_to_str_body(p, N) ++
[{inline_asm, [?A(?POP)]}, ?V(ret)]}),
string}.
builtin_string_reverse() ->
@@ -575,3 +605,80 @@ builtin_string_reverse_() ->
builtin_addr_to_str() ->
{[{"a", word}], ?call({baseX_int, 58}, [?V(a)]), word}.
%% At most one word
%% | ..... | ========= | ........ |
%% Offs ^ ^- Len -^ TotalLen ^
bytes_slice(Offs, Len, TotalLen, Bytes) when TotalLen =< 32 ->
%% Bytes are packed into a single word
Masked =
case Offs of
0 -> Bytes;
_ -> ?MOD(Bytes, 1 bsl ((32 - Offs) * 8))
end,
Unpadded =
case 32 - (Offs + Len) of
0 -> Masked;
N -> ?BSR(Masked, N)
end,
case Len of
32 -> Unpadded;
_ -> ?BSL(Unpadded, 32 - Len)
end;
bytes_slice(Offs, Len, TotalLen, Bytes) when TotalLen > 32 ->
%% Bytes is a pointer to memory. The VM can read at non-aligned addresses.
%% Might read one word more than necessary.
Word = op('!', Offs, Bytes),
case Len == 32 of
true -> Word;
_ -> ?BSL(?BSR(Word, 32 - Len), 32 - Len)
end.
builtin_bytes_concat(A, B) ->
Type = fun(N) when N =< 32 -> word; (_) -> pointer end,
MkBytes = fun([W]) -> W;
(Ws) -> {tuple, Ws} end,
Words = fun(N) -> (N + 31) div 32 end,
WordsRes = Words(A + B),
Word = fun(I) when 32 * (I + 1) =< A -> bytes_slice(I * 32, 32, A, ?V(a));
(I) when 32 * I < A ->
Len = A rem 32,
Hi = bytes_slice(32 * I, Len, A, ?V(a)),
Lo = bytes_slice(0, min(32 - Len, B), B, ?V(b)),
?ADD(Hi, ?BSR(Lo, Len));
(I) ->
Offs = 32 * I - A,
Len = min(32, B - Offs),
bytes_slice(Offs, Len, B, ?V(b))
end,
Body =
case {A, B} of
{0, _} -> ?V(b);
{_, 0} -> ?V(a);
_ -> MkBytes([ Word(I) || I <- lists:seq(0, WordsRes - 1) ])
end,
{[{"a", Type(A)}, {"b", Type(B)}], Body, Type(A + B)}.
builtin_bytes_split(A, B) ->
Type = fun(N) when N =< 32 -> word; (_) -> pointer end,
MkBytes = fun([W]) -> W;
(Ws) -> {tuple, Ws} end,
Word = fun(I, Max) ->
bytes_slice(I, min(32, Max - I), A + B, ?V(c))
end,
Body =
case {A, B} of
{0, _} -> [?I(0), ?V(c)];
{_, 0} -> [?V(c), ?I(0)];
_ -> [MkBytes([ Word(I, A) || I <- lists:seq(0, A - 1, 32) ]),
MkBytes([ Word(I, A + B) || I <- lists:seq(A, A + B - 1, 32) ])]
end,
{[{"c", Type(A + B)}], {tuple, Body}, {tuple, [Type(A), Type(B)]}}.
bytes_to_raw_string(N, Term) when N =< 32 ->
{tuple, [?I(N), Term]};
bytes_to_raw_string(N, Term) when N > 32 ->
Elem = fun(I) -> #binop{op = '!', left = ?I(32 * I), right = ?V(bin)}
end,
Words = (N + 31) div 32,
?LET(bin, Term, {tuple, [?I(N) | [Elem(I) || I <- lists:seq(0, Words - 1)]]}).
src/aeso_code_errors.erl
+120
View File
@@ -0,0 +1,120 @@
%%%-------------------------------------------------------------------
%%% @author Ulf Norell
%%% @copyright (C) 2019, Aeternity Anstalt
%%% @doc
%%% Formatting of code generation errors.
%%% @end
%%%
%%%-------------------------------------------------------------------
-module(aeso_code_errors).
-export([format/1, pos/1]).
format({last_declaration_must_be_contract, Decl = {namespace, _, {con, _, C}, _}}) ->
Msg = io_lib:format("Expected a contract as the last declaration instead of the namespace '~s'\n",
[C]),
mk_err(pos(Decl), Msg);
format({missing_init_function, Con}) ->
Msg = io_lib:format("Missing init function for the contract '~s'.\n", [pp_expr(Con)]),
Cxt = "The 'init' function can only be omitted if the state type is 'unit'.\n",
mk_err(pos(Con), Msg, Cxt);
format({missing_definition, Id}) ->
Msg = io_lib:format("Missing definition of function '~s'.\n", [pp_expr(Id)]),
mk_err(pos(Id), Msg);
format({parameterized_state, Decl}) ->
Msg = "The state type cannot be parameterized.\n",
mk_err(pos(Decl), Msg);
format({parameterized_event, Decl}) ->
Msg = "The event type cannot be parameterized.\n",
mk_err(pos(Decl), Msg);
format({invalid_entrypoint, Why, Ann, {id, _, Name}, Thing}) ->
What = case Why of higher_order -> "higher-order (contains function types)";
polymorphic -> "polymorphic (contains type variables)" end,
ThingS = case Thing of
{argument, X, T} -> io_lib:format("argument\n~s\n", [pp_typed(X, T)]);
{result, T} -> io_lib:format("return type\n~s\n", [pp_type(2, T)])
end,
Bad = case Thing of
{argument, _, _} -> io_lib:format("has a ~s type", [What]);
{result, _} -> io_lib:format("is ~s", [What])
end,
Msg = io_lib:format("The ~sof entrypoint '~s' ~s.\n",
[ThingS, Name, Bad]),
case Why of
polymorphic -> mk_err(pos(Ann), Msg, "Use the FATE backend if you want polymorphic entrypoints.\n");
higher_order -> mk_err(pos(Ann), Msg)
end;
format({cant_compare_type_aevm, Ann, Op, Type}) ->
StringAndTuple = [ "- type string\n"
"- tuple or record of word type\n" || lists:member(Op, ['==', '!=']) ],
Msg = io_lib:format("Cannot compare values of type\n"
"~s\n"
"The AEVM only supports '~s' on values of\n"
"- word type (int, bool, bits, address, oracle(_, _), etc)\n"
"~s",
[pp_type(2, Type), Op, StringAndTuple]),
Cxt = "Use FATE if you need to compare arbitrary types.\n",
mk_err(pos(Ann), Msg, Cxt);
format({invalid_aens_resolve_type, Ann, T}) ->
Msg = io_lib:format("Invalid return type of AENS.resolve:\n"
"~s\n"
"It must be a string or a pubkey type (address, oracle, etc).\n",
[pp_type(2, T)]),
mk_err(pos(Ann), Msg);
format({unapplied_contract_call, Contract}) ->
Msg = io_lib:format("The AEVM does not support unapplied contract call to\n"
"~s\n", [pp_expr(2, Contract)]),
Cxt = "Use FATE if you need this.\n",
mk_err(pos(Contract), Msg, Cxt);
format({unapplied_builtin, Id}) ->
Msg = io_lib:format("The AEVM does not support unapplied use of ~s.\n", [pp_expr(0, Id)]),
Cxt = "Use FATE if you need this.\n",
mk_err(pos(Id), Msg, Cxt);
format({invalid_map_key_type, Why, Ann, Type}) ->
Msg = io_lib:format("Invalid map key type\n~s\n", [pp_type(2, Type)]),
Cxt = case Why of
polymorphic -> "Map keys cannot be polymorphic in the AEVM. Use FATE if you need this.\n";
function -> "Map keys cannot be higher-order.\n"
end,
mk_err(pos(Ann), Msg, Cxt);
format({invalid_oracle_type, Why, What, Ann, Type}) ->
WhyS = case Why of higher_order -> "higher-order (contain function types)";
polymorphic -> "polymorphic (contain type variables)" end,
Msg = io_lib:format("Invalid oracle type\n~s\n", [pp_type(2, Type)]),
Cxt = io_lib:format("The ~s type must not be ~s.\n", [What, WhyS]),
mk_err(pos(Ann), Msg, Cxt);
format({higher_order_state, {type_def, Ann, _, _, State}}) ->
Msg = io_lib:format("Invalid state type\n~s\n", [pp_type(2, State)]),
Cxt = "The state cannot contain functions in the AEVM. Use FATE if you need this.\n",
mk_err(pos(Ann), Msg, Cxt);
format(Err) ->
mk_err(aeso_errors:pos(0, 0), io_lib:format("Unknown error: ~p\n", [Err])).
pos(Ann) ->
File = aeso_syntax:get_ann(file, Ann, no_file),
Line = aeso_syntax:get_ann(line, Ann, 0),
Col = aeso_syntax:get_ann(col, Ann, 0),
aeso_errors:pos(File, Line, Col).
pp_typed(E, T) ->
prettypr:format(prettypr:nest(2,
lists:foldr(fun prettypr:beside/2, prettypr:empty(),
[aeso_pretty:expr(E), prettypr:text(" : "),
aeso_pretty:type(T)]))).
pp_expr(E) ->
pp_expr(0, E).
pp_expr(N, E) ->
prettypr:format(prettypr:nest(N, aeso_pretty:expr(E))).
pp_type(N, T) ->
prettypr:format(prettypr:nest(N, aeso_pretty:type(T))).
mk_err(Pos, Msg) ->
aeso_errors:new(code_error, Pos, lists:flatten(Msg)).
mk_err(Pos, Msg, Cxt) ->
aeso_errors:new(code_error, Pos, lists:flatten(Msg), lists:flatten(Cxt)).
src/aeso_compiler.erl
+180 -146
View File
@@ -15,6 +15,7 @@
, create_calldata/3 %% deprecated
, create_calldata/4
, version/0
, numeric_version/0
, sophia_type_to_typerep/1
, to_sophia_value/4 %% deprecated, need a backend
, to_sophia_value/5
@@ -22,6 +23,7 @@
, decode_calldata/4
, parse/2
, add_include_path/2
, validate_byte_code/3
]).
-include_lib("aebytecode/include/aeb_opcodes.hrl").
@@ -36,7 +38,7 @@
| pp_assembler
| pp_bytecode
| no_code
| no_implicit_stdlib
| keep_included
| {backend, aevm | fate}
| {include, {file_system, [string()]} |
{explicit_files, #{string() => binary()}}}
@@ -66,18 +68,29 @@ version() ->
{ok, list_to_binary(VsnString)}
end.
-spec file(string()) -> {ok, map()} | {error, binary()}.
-spec numeric_version() -> {ok, [non_neg_integer()]} | {error, term()}.
numeric_version() ->
case version() of
{ok, Bin} ->
[NoSuf | _] = binary:split(Bin, <<"-">>),
Numbers = binary:split(NoSuf, <<".">>, [global]),
{ok, [binary_to_integer(Num) || Num <- Numbers]};
{error, _} = Err ->
Err
end.
-spec file(string()) -> {ok, map()} | {error, [aeso_errors:error()]}.
file(Filename) ->
file(Filename, []).
-spec file(string(), options()) -> {ok, map()} | {error, binary()}.
-spec file(string(), options()) -> {ok, map()} | {error, [aeso_errors:error()]}.
file(File, Options0) ->
Options = add_include_path(File, Options0),
case read_contract(File) of
{ok, Bin} -> from_string(Bin, [{src_file, File} | Options]);
{error, Error} ->
ErrorString = [File,": ",file:format_error(Error)],
{error, join_errors("File errors", [ErrorString], fun(E) -> E end)}
Msg = lists:flatten([File,": ",file:format_error(Error)]),
{error, [aeso_errors:new(file_error, Msg)]}
end.
add_include_path(File, Options) ->
@@ -89,7 +102,7 @@ add_include_path(File, Options) ->
[{include, {file_system, [Cwd, Dir]}} | Options]
end.
-spec from_string(binary() | string(), options()) -> {ok, map()} | {error, binary()}.
-spec from_string(binary() | string(), options()) -> {ok, map()} | {error, [aeso_errors:error()]}.
from_string(Contract, Options) ->
from_string(proplists:get_value(backend, Options, aevm), Contract, Options).
@@ -99,22 +112,14 @@ from_string(Backend, ContractString, Options) ->
try
from_string1(Backend, ContractString, Options)
catch
%% The compiler errors.
error:{parse_errors, Errors} ->
{error, join_errors("Parse errors", Errors, fun(E) -> E end)};
error:{type_errors, Errors} ->
{error, join_errors("Type errors", Errors, fun(E) -> E end)};
error:{code_errors, Errors} ->
{error, join_errors("Code errors", Errors,
fun (E) -> io_lib:format("~p", [E]) end)}
%% General programming errors in the compiler just signal error.
throw:{error, Errors} -> {error, Errors}
end.
from_string1(aevm, ContractString, Options) ->
#{icode := Icode} = string_to_code(ContractString, Options),
TypeInfo = extract_type_info(Icode),
Assembler = assemble(Icode, Options),
pp_assembler(Assembler, Options),
pp_assembler(aevm, Assembler, Options),
ByteCodeList = to_bytecode(Assembler, Options),
ByteCode = << << B:8 >> || B <- ByteCodeList >>,
pp_bytecode(ByteCode, Options),
@@ -129,6 +134,7 @@ from_string1(aevm, ContractString, Options) ->
from_string1(fate, ContractString, Options) ->
#{fcode := FCode} = string_to_code(ContractString, Options),
FateCode = aeso_fcode_to_fate:compile(FCode, Options),
pp_assembler(fate, FateCode, Options),
ByteCode = aeb_fate_code:serialize(FateCode, []),
{ok, Version} = version(),
{ok, #{byte_code => ByteCode,
@@ -142,19 +148,10 @@ from_string1(fate, ContractString, Options) ->
-spec string_to_code(string(), options()) -> map().
string_to_code(ContractString, Options) ->
Ast = case lists:member(no_implicit_stdlib, Options) of
true -> parse(ContractString, Options);
false ->
IncludedSTD = sets:from_list(
[aeso_parser:hash_include(F, C)
|| {F, C} <- aeso_stdlib:stdlib_list()]),
InitAst = parse(ContractString, IncludedSTD, Options),
STD = parse_stdlib(),
STD ++ InitAst
end,
Ast = parse(ContractString, Options),
pp_sophia_code(Ast, Options),
pp_ast(Ast, Options),
{TypeEnv, TypedAst} = aeso_ast_infer_types:infer(Ast, [return_env]),
{TypeEnv, TypedAst} = aeso_ast_infer_types:infer(Ast, [return_env | Options]),
pp_typed_ast(TypedAst, Options),
case proplists:get_value(backend, Options, aevm) of
aevm ->
@@ -170,10 +167,6 @@ string_to_code(ContractString, Options) ->
type_env => TypeEnv}
end.
join_errors(Prefix, Errors, Pfun) ->
Ess = [ Pfun(E) || E <- Errors ],
list_to_binary(string:join([Prefix|Ess], "\n")).
-define(CALL_NAME, "__call").
-define(DECODE_NAME, "__decode").
@@ -185,7 +178,7 @@ join_errors(Prefix, Errors, Pfun) ->
%% a special return type (typerep, T)
-spec check_call(string(), string(), [string()], options()) -> {ok, string(), {[Type], Type}, [term()]}
| {ok, string(), [term()]}
| {error, term()}
| {error, [aeso_errors:error()]}
when Type :: term().
check_call(Source, "init" = FunName, Args, Options) ->
case check_call1(Source, FunName, Args, Options) of
@@ -240,16 +233,7 @@ check_call1(ContractString0, FunName, Args, Options) ->
{ok, FunName, CallArgs}
end
catch
error:{parse_errors, Errors} ->
{error, join_errors("Parse errors", Errors, fun (E) -> E end)};
error:{type_errors, Errors} ->
{error, join_errors("Type errors", Errors, fun (E) -> E end)};
error:{badmatch, {error, missing_call_function}} ->
{error, join_errors("Type errors", ["missing __call function"],
fun (E) -> E end)};
throw:Error -> %Don't ask
{error, join_errors("Code errors", [Error],
fun (E) -> io_lib:format("~p", [E]) end)}
throw:{error, Errors} -> {error, Errors}
end.
arguments_of_body(CallName, _FunName, Fcode) ->
@@ -297,27 +281,34 @@ last_contract_indent(Decls) ->
end.
-spec to_sophia_value(string(), string(), ok | error | revert, aeb_aevm_data:data()) ->
{ok, aeso_syntax:expr()} | {error, term()}.
{ok, aeso_syntax:expr()} | {error, [aeso_errors:error()]}.
to_sophia_value(ContractString, Fun, ResType, Data) ->
to_sophia_value(ContractString, Fun, ResType, Data, [{backend, aevm}]).
-spec to_sophia_value(string(), string(), ok | error | revert, binary(), options()) ->
{ok, aeso_syntax:expr()} | {error, term()}.
{ok, aeso_syntax:expr()} | {error, [aeso_errors:error()]}.
to_sophia_value(_, _, error, Err, _Options) ->
{ok, {app, [], {id, [], "error"}, [{string, [], Err}]}};
to_sophia_value(_, _, revert, Data, Options) ->
case proplists:get_value(backend, Options, aevm) of
aevm ->
case aeb_heap:from_binary(string, Data) of
{ok, Err} -> {ok, {app, [], {id, [], "abort"}, [{string, [], Err}]}};
{error, _} = Err -> Err
{ok, Err} ->
{ok, {app, [], {id, [], "abort"}, [{string, [], Err}]}};
{error, _} ->
Msg = "Could not interpret the revert message\n",
{error, [aeso_errors:new(data_error, Msg)]}
end;
fate ->
Err = aeb_fate_encoding:deserialize(Data),
{ok, {app, [], {id, [], "abort"}, [{string, [], Err}]}}
try aeb_fate_encoding:deserialize(Data) of
Err -> {ok, {app, [], {id, [], "abort"}, [{string, [], Err}]}}
catch _:_ ->
Msg = "Could not deserialize the revert message\n",
{error, [aeso_errors:new(data_error, Msg)]}
end
end;
to_sophia_value(ContractString, FunName, ok, Data, Options0) ->
Options = [no_implicit_stdlib, no_code | Options0],
Options = [no_code | Options0],
try
Code = string_to_code(ContractString, Options),
#{ typed_ast := TypedAst, type_env := TypeEnv} = Code,
@@ -334,51 +325,43 @@ to_sophia_value(ContractString, FunName, ok, Data, Options0) ->
{ok, aeso_vm_decode:from_aevm(VmType, Type, VmValue)}
catch throw:cannot_translate_to_sophia ->
Type0Str = prettypr:format(aeso_pretty:type(Type0)),
{error, join_errors("Translation error", [lists:flatten(io_lib:format("Cannot translate VM value ~p\n of type ~p\n to Sophia type ~s\n",
[Data, VmType, Type0Str]))],
fun (E) -> E end)}
Msg = io_lib:format("Cannot translate VM value ~p\n of type ~p\n to Sophia type ~s\n",
[Data, VmType, Type0Str]),
{error, [aeso_errors:new(data_error, Msg)]}
end;
{error, _Err} ->
{error, join_errors("Decode errors", [lists:flatten(io_lib:format("Failed to decode binary at type ~p", [VmType]))],
fun(E) -> E end)}
Msg = io_lib:format("Failed to decode binary as type ~p\n", [VmType]),
{error, [aeso_errors:new(data_error, Msg)]}
end;
fate ->
try
{ok, aeso_vm_decode:from_fate(Type, aeb_fate_encoding:deserialize(Data))}
catch throw:cannot_translate_to_sophia ->
{error, join_errors("Translation error",
[lists:flatten(io_lib:format("Cannot translate fate value ~p\n of Sophia type ~s\n",
[aeb_fate_encoding:deserialize(Data), Type]))],
fun (E) -> E end)};
_:R ->
{error, iolist_to_binary(io_lib:format("Decode error ~p: ~p\n", [R, erlang:get_stacktrace()]))}
Type1 = prettypr:format(aeso_pretty:type(Type0)),
Msg = io_lib:format("Cannot translate FATE value ~p\n of Sophia type ~s\n",
[aeb_fate_encoding:deserialize(Data), Type1]),
{error, [aeso_errors:new(data_error, Msg)]};
_:_ ->
Type1 = prettypr:format(aeso_pretty:type(Type0)),
Msg = io_lib:format("Failed to decode binary as type ~s\n", [Type1]),
{error, [aeso_errors:new(data_error, Msg)]}
end
end
catch
error:{parse_errors, Errors} ->
{error, join_errors("Parse errors", Errors, fun (E) -> E end)};
error:{type_errors, Errors} ->
{error, join_errors("Type errors", Errors, fun (E) -> E end)};
error:{badmatch, {error, missing_function}} ->
{error, join_errors("Type errors", ["no function: '" ++ FunName ++ "'"],
fun (E) -> E end)};
throw:Error -> %Don't ask
{error, join_errors("Code errors", [Error],
fun (E) -> io_lib:format("~p", [E]) end)}
throw:{error, Errors} -> {error, Errors}
end.
-spec create_calldata(string(), string(), [string()]) ->
{ok, binary(), aeb_aevm_data:type(), aeb_aevm_data:type()}
| {error, term()}.
| {error, [aeso_errors:error()]}.
create_calldata(Code, Fun, Args) ->
create_calldata(Code, Fun, Args, [{backend, aevm}]).
-spec create_calldata(string(), string(), [string()], [{atom(), any()}]) ->
{ok, binary()}
| {error, term()}.
{ok, binary()} | {error, [aeso_errors:error()]}.
create_calldata(Code, Fun, Args, Options0) ->
Options = [no_implicit_stdlib, no_code | Options0],
Options = [no_code | Options0],
case proplists:get_value(backend, Options, aevm) of
aevm ->
case check_call(Code, Fun, Args, Options) of
@@ -396,19 +379,19 @@ create_calldata(Code, Fun, Args, Options0) ->
-spec decode_calldata(string(), string(), binary()) ->
{ok, [aeso_syntax:type()], [aeso_syntax:expr()]}
| {error, term()}.
| {error, [aeso_errors:error()]}.
decode_calldata(ContractString, FunName, Calldata) ->
decode_calldata(ContractString, FunName, Calldata, [{backend, aevm}]).
decode_calldata(ContractString, FunName, Calldata, Options0) ->
Options = [no_implicit_stdlib, no_code | Options0],
Options = [no_code | Options0],
try
Code = string_to_code(ContractString, Options),
#{ typed_ast := TypedAst, type_env := TypeEnv} = Code,
{ok, Args, _} = get_decode_type(FunName, TypedAst),
DropArg = fun({arg, _, _, T}) -> T; (T) -> T end,
ArgTypes = lists:map(DropArg, Args),
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]),
@@ -424,14 +407,13 @@ decode_calldata(ContractString, FunName, Calldata, Options0) ->
{ok, ArgTypes, Values}
catch throw:cannot_translate_to_sophia ->
Type0Str = prettypr:format(aeso_pretty:type(Type0)),
{error, join_errors("Translation error",
[lists:flatten(io_lib:format("Cannot translate VM value ~p\n of type ~p\n to Sophia type ~s\n",
[VmValue, VmType, Type0Str]))],
fun (E) -> E end)}
Msg = io_lib:format("Cannot translate VM value ~p\n of type ~p\n to Sophia type ~s\n",
[VmValue, VmType, Type0Str]),
{error, [aeso_errors:new(data_error, Msg)]}
end;
{error, _Err} ->
{error, join_errors("Decode errors", [lists:flatten(io_lib:format("Failed to decode binary at type ~p", [VmType]))],
fun(E) -> E end)}
Msg = io_lib:format("Failed to decode calldata as type ~p\n", [VmType]),
{error, [aeso_errors:new(data_error, Msg)]}
end;
fate ->
case aeb_fate_abi:decode_calldata(FunName, Calldata) of
@@ -443,35 +425,30 @@ decode_calldata(ContractString, FunName, Calldata, Options0) ->
{ok, ArgTypes, AstArgs}
catch throw:cannot_translate_to_sophia ->
Type0Str = prettypr:format(aeso_pretty:type(Type0)),
{error, join_errors("Translation error",
[lists:flatten(io_lib:format("Cannot translate fate value ~p\n of Sophia type ~s\n",
[FateArgs, Type0Str]))],
fun (E) -> E end)}
Msg = io_lib:format("Cannot translate FATE value ~p\n to Sophia type ~s\n",
[FateArgs, Type0Str]),
{error, [aeso_errors:new(data_error, Msg)]}
end;
{error, _} ->
{error, join_errors("Decode errors", ["Failed to decode binary"],
fun(E) -> E end)}
Msg = io_lib:format("Failed to decode calldata binary\n", []),
{error, [aeso_errors:new(data_error, Msg)]}
end
end
catch
error:{parse_errors, Errors} ->
{error, join_errors("Parse errors", Errors, fun (E) -> E end)};
error:{type_errors, Errors} ->
{error, join_errors("Type errors", Errors, fun (E) -> E end)};
error:{badmatch, {error, missing_function}} ->
{error, join_errors("Type errors", ["no function: '" ++ FunName ++ "'"],
fun (E) -> E end)};
throw:Error -> %Don't ask
{error, join_errors("Code errors", [Error],
fun (E) -> io_lib:format("~p", [E]) end)}
throw:{error, Errors} -> {error, Errors}
end.
get_arg_icode(Funs) ->
case [ Args || {[_, ?CALL_NAME], _, _, {funcall, _, Args}, _} <- Funs ] of
[Args] -> Args;
[] -> error({missing_call_function, Funs})
[] -> error_missing_call_function()
end.
-dialyzer({nowarn_function, error_missing_call_function/0}).
error_missing_call_function() ->
Msg = "Internal error: missing '__call'-function",
aeso_errors:throw(aeso_errors:new(internal_error, Msg)).
get_call_type([{contract, _, _, Defs}]) ->
case [ {lists:last(QFunName), FunType}
|| {letfun, _, {id, _, ?CALL_NAME}, [], _Ret,
@@ -479,13 +456,14 @@ get_call_type([{contract, _, _, Defs}]) ->
{app, _,
{typed, _, {qid, _, QFunName}, FunType}, _}, _}} <- Defs ] of
[Call] -> {ok, Call};
[] -> {error, missing_call_function}
[] -> error_missing_call_function()
end;
get_call_type([_ | Contracts]) ->
%% The __call should be in the final contract
get_call_type(Contracts).
get_decode_type(FunName, [{contract, _, _, Defs}]) ->
-dialyzer({nowarn_function, get_decode_type/2}).
get_decode_type(FunName, [{contract, Ann, _, Defs}]) ->
GetType = fun({letfun, _, {id, _, Name}, Args, Ret, _}) when Name == FunName -> [{Args, Ret}];
({fun_decl, _, {id, _, Name}, {fun_t, _, _, Args, Ret}}) when Name == FunName -> [{Args, Ret}];
(_) -> [] end,
@@ -494,7 +472,10 @@ get_decode_type(FunName, [{contract, _, _, Defs}]) ->
[] ->
case FunName of
"init" -> {ok, [], {tuple_t, [], []}};
_ -> {error, missing_function}
_ ->
Msg = io_lib:format("Function '~s' is missing in contract\n", [FunName]),
Pos = aeso_code_errors:pos(Ann),
aeso_errors:throw(aeso_errors:new(data_error, Pos, Msg))
end
end;
get_decode_type(FunName, [_ | Contracts]) ->
@@ -528,6 +509,14 @@ icode_to_term(T = {map, KT, VT}, M) ->
#{};
_ -> throw({todo, M})
end;
icode_to_term(word, {unop, 'bnot', A}) ->
bnot icode_to_term(word, A);
icode_to_term(word, {binop, 'bor', A, B}) ->
icode_to_term(word, A) bor icode_to_term(word, B);
icode_to_term(word, {binop, 'bsl', A, B}) ->
icode_to_term(word, B) bsl icode_to_term(word, A);
icode_to_term(word, {binop, 'band', A, B}) ->
icode_to_term(word, A) band icode_to_term(word, B);
icode_to_term(typerep, _) ->
throw({todo, typerep});
icode_to_term(T, V) ->
@@ -566,9 +555,11 @@ pp_sophia_code(C, Opts)-> pp(C, Opts, pp_sophia_code, fun(Code) ->
pp_ast(C, Opts) -> pp(C, Opts, pp_ast, fun aeso_ast:pp/1).
pp_typed_ast(C, Opts)-> pp(C, Opts, pp_typed_ast, fun aeso_ast:pp_typed/1).
pp_icode(C, Opts) -> pp(C, Opts, pp_icode, fun aeso_icode:pp/1).
pp_assembler(C, Opts)-> pp(C, Opts, pp_assembler, fun aeb_asm:pp/1).
pp_bytecode(C, Opts) -> pp(C, Opts, pp_bytecode, fun aeb_disassemble:pp/1).
pp_assembler(aevm, C, Opts) -> pp(C, Opts, pp_assembler, fun aeb_asm:pp/1);
pp_assembler(fate, C, Opts) -> pp(C, Opts, pp_assembler, fun(Asm) -> io:format("~s", [aeb_fate_asm:pp(Asm)]) end).
pp(Code, Options, Option, PPFun) ->
case proplists:lookup(Option, Options) of
{Option, true} ->
@@ -577,19 +568,92 @@ pp(Code, Options, Option, PPFun) ->
ok
end.
%% -- Byte code validation ---------------------------------------------------
-define(protect(Tag, Code), fun() -> try Code catch _:Err1 -> throw({Tag, Err1}) end end()).
-spec validate_byte_code(map(), string(), options()) -> ok | {error, [aeso_errors:error()]}.
validate_byte_code(#{ byte_code := ByteCode, payable := Payable }, Source, Options) ->
Fail = fun(Err) -> {error, [aeso_errors:new(data_error, Err)]} end,
case proplists:get_value(backend, Options, aevm) of
B when B /= fate -> Fail(io_lib:format("Unsupported backend: ~s\n", [B]));
fate ->
try
FCode1 = ?protect(deserialize, aeb_fate_code:strip_init_function(aeb_fate_code:deserialize(ByteCode))),
{FCode2, SrcPayable} =
?protect(compile,
begin
{ok, #{ byte_code := SrcByteCode, payable := SrcPayable }} =
from_string1(fate, Source, Options),
FCode = aeb_fate_code:deserialize(SrcByteCode),
{aeb_fate_code:strip_init_function(FCode), SrcPayable}
end),
case compare_fate_code(FCode1, FCode2) of
ok when SrcPayable /= Payable ->
Not = fun(true) -> ""; (false) -> " not" end,
Fail(io_lib:format("Byte code contract is~s payable, but source code contract is~s.\n",
[Not(Payable), Not(SrcPayable)]));
ok -> ok;
{error, Why} -> Fail(io_lib:format("Byte code does not match source code.\n~s", [Why]))
end
catch
throw:{deserialize, _} -> Fail("Invalid byte code");
throw:{compile, {error, Errs}} -> {error, Errs}
end
end.
compare_fate_code(FCode1, FCode2) ->
Funs1 = aeb_fate_code:functions(FCode1),
Funs2 = aeb_fate_code:functions(FCode2),
Syms1 = aeb_fate_code:symbols(FCode1),
Syms2 = aeb_fate_code:symbols(FCode2),
FunHashes1 = maps:keys(Funs1),
FunHashes2 = maps:keys(Funs2),
case FunHashes1 == FunHashes2 of
false ->
InByteCode = [ binary_to_list(maps:get(H, Syms1)) || H <- FunHashes1 -- FunHashes2 ],
InSourceCode = [ binary_to_list(maps:get(H, Syms2)) || H <- FunHashes2 -- FunHashes1 ],
Msg = [ io_lib:format("- Functions in the byte code but not in the source code:\n"
" ~s\n", [string:join(InByteCode, ", ")]) || InByteCode /= [] ] ++
[ io_lib:format("- Functions in the source code but not in the byte code:\n"
" ~s\n", [string:join(InSourceCode, ", ")]) || InSourceCode /= [] ],
{error, Msg};
true ->
case lists:append([ compare_fate_fun(maps:get(H, Syms1), Fun1, Fun2)
|| {{H, Fun1}, {_, Fun2}} <- lists:zip(maps:to_list(Funs1),
maps:to_list(Funs2)) ]) of
[] -> ok;
Errs -> {error, Errs}
end
end.
compare_fate_fun(_Name, Fun, Fun) -> [];
compare_fate_fun(Name, {Attr, Type, _}, {Attr, Type, _}) ->
[io_lib:format("- The implementation of the function ~s is different.\n", [Name])];
compare_fate_fun(Name, {Attr1, Type, _}, {Attr2, Type, _}) ->
[io_lib:format("- The attributes of the function ~s differ:\n"
" Byte code: ~s\n"
" Source code: ~s\n",
[Name, string:join([ atom_to_list(A) || A <- Attr1 ], ", "),
string:join([ atom_to_list(A) || A <- Attr2 ], ", ")])];
compare_fate_fun(Name, {_, Type1, _}, {_, Type2, _}) ->
[io_lib:format("- The type of the function ~s differs:\n"
" Byte code: ~s\n"
" Source code: ~s\n",
[Name, pp_fate_sig(Type1), pp_fate_sig(Type2)])].
pp_fate_sig({[Arg], Res}) ->
io_lib:format("~s => ~s", [pp_fate_type(Arg), pp_fate_type(Res)]);
pp_fate_sig({Args, Res}) ->
io_lib:format("(~s) => ~s", [string:join([pp_fate_type(Arg) || Arg <- Args], ", "), pp_fate_type(Res)]).
pp_fate_type(T) -> io_lib:format("~w", [T]).
%% -------------------------------------------------------------------
-spec parse_stdlib() -> none() | aeso_syntax:ast().
parse_stdlib() ->
lists:foldr(
fun ({Lib, LibCode}, Acc) ->
parse(LibCode, [{src_file, binary_to_list(Lib)}]) ++ Acc
end,
[],
aeso_stdlib:stdlib_list()).
-spec sophia_type_to_typerep(string()) -> {error, bad_type} | {ok, aeb_aevm_data:type()}.
sophia_type_to_typerep(String) ->
{ok, Ast} = aeso_parser:type(String),
Ast = aeso_parser:run_parser(aeso_parser:type(), String),
try aeso_ast_to_icode:ast_typerep(Ast) of
Type -> {ok, Type}
catch _:_ -> {error, bad_type}
@@ -601,37 +665,7 @@ parse(Text, Options) ->
-spec parse(string(), sets:set(), aeso_compiler:options()) -> none() | aeso_syntax:ast().
parse(Text, Included, Options) ->
%% Try and return something sensible here!
case aeso_parser:string(Text, Included, Options) of
%% Yay, it worked!
{ok, Contract} -> Contract;
%% Scan errors.
{error, {Pos, scan_error}} ->
parse_error(Pos, "scan error");
{error, {Pos, scan_error_no_state}} ->
parse_error(Pos, "scan error");
%% Parse errors.
{error, {Pos, parse_error, Error}} ->
parse_error(Pos, Error);
{error, {Pos, ambiguous_parse, As}} ->
ErrorString = io_lib:format("Ambiguous ~p", [As]),
parse_error(Pos, ErrorString);
%% Include error
{error, {Pos, include_error, File}} ->
parse_error(Pos, io_lib:format("could not find include file '~s'", [File]))
end.
-spec parse_error(aeso_parse_lib:pos(), string()) -> none().
parse_error(Pos, ErrorString) ->
Error = io_lib:format("~s: ~s", [pos_error(Pos), ErrorString]),
error({parse_errors, [Error]}).
aeso_parser:string(Text, Included, Options).
read_contract(Name) ->
file:read_file(Name).
pos_error({Line, Pos}) ->
io_lib:format("line ~p, column ~p", [Line, Pos]);
pos_error({no_file, Line, Pos}) ->
pos_error({Line, Pos});
pos_error({File, Line, Pos}) ->
io_lib:format("file ~s, line ~p, column ~p", [File, Line, Pos]).
src/aeso_constants.erl
-42
View File
@@ -1,42 +0,0 @@
-module(aeso_constants).
-export([string/1, get_type/1]).
string(Str) ->
case aeso_parser:string("let _ = " ++ Str) of
{ok, [{letval, _, _, _, E}]} -> {ok, E};
{ok, Other} -> error({internal_error, should_be_letval, Other});
Err -> Err
end.
get_type(Str) ->
case aeso_parser:string("let _ = " ++ Str) of
{ok, [Ast]} ->
AstT = aeso_ast_infer_types:infer_constant(Ast),
T = ast_to_type(AstT),
{ok, T};
{ok, Other} -> error({internal_error, should_be_letval, Other});
Err -> Err
end.
ast_to_type({id, _, T}) ->
T;
ast_to_type({tuple_t, _, []}) -> "()";
ast_to_type({tuple_t, _, Ts}) ->
"(" ++ list_ast_to_type(Ts) ++ ")";
ast_to_type({app_t,_, {id, _, "list"}, [T]}) ->
lists:flatten("list(" ++ ast_to_type(T) ++ ")");
ast_to_type({app_t,_, {id, _, "option"}, [T]}) ->
lists:flatten("option(" ++ ast_to_type(T) ++ ")").
list_ast_to_type([T]) ->
ast_to_type(T);
list_ast_to_type([T|Ts]) ->
ast_to_type(T)
++ ", "
++ list_ast_to_type(Ts).
src/aeso_errors.erl
+112
View File
@@ -0,0 +1,112 @@
%%%-------------------------------------------------------------------
%%% @copyright (C) 2019, Aeternity Anstalt
%%% @doc ADT for structured error messages + formatting.
%%%
%%% @end
%%%-------------------------------------------------------------------
-module(aeso_errors).
-type src_file() :: no_file | iolist().
-record(pos, { file = no_file :: src_file()
, line = 0 :: non_neg_integer()
, col = 0 :: non_neg_integer()
}).
-type pos() :: #pos{}.
-type error_type() :: type_error | parse_error | code_error
| file_error | data_error | internal_error.
-record(err, { pos = #pos{} :: pos()
, type :: error_type()
, message :: iolist()
, context = none :: none | iolist()
}).
-opaque error() :: #err{}.
-export_type([error/0, pos/0]).
-export([ err_msg/1
, msg/1
, new/2
, new/3
, new/4
, pos/2
, pos/3
, pp/1
, to_json/1
, throw/1
, type/1
]).
new(Type, Msg) ->
new(Type, pos(0, 0), Msg).
new(Type, Pos, Msg) ->
#err{ type = Type, pos = Pos, message = Msg }.
new(Type, Pos, Msg, Ctxt) ->
#err{ type = Type, pos = Pos, message = Msg, context = Ctxt }.
pos(Line, Col) ->
#pos{ line = Line, col = Col }.
pos(File, Line, Col) ->
#pos{ file = File, line = Line, col = Col }.
-spec throw(_) -> ok | no_return().
throw([]) -> ok;
throw(Errs) when is_list(Errs) ->
SortedErrs = lists:sort(fun(E1, E2) -> E1#err.pos =< E2#err.pos end, Errs),
erlang:throw({error, SortedErrs});
throw(#err{} = Err) ->
erlang:throw({error, [Err]}).
msg(#err{ message = Msg, context = none }) -> Msg;
msg(#err{ message = Msg, context = Ctxt }) -> Msg ++ Ctxt.
err_msg(#err{ pos = Pos } = Err) ->
lists:flatten(io_lib:format("~s~s", [str_pos(Pos), msg(Err)])).
str_pos(#pos{file = no_file, line = L, col = C}) ->
io_lib:format("~p:~p:", [L, C]);
str_pos(#pos{file = F, line = L, col = C}) ->
io_lib:format("~s:~p:~p:", [F, L, C]).
type(#err{ type = Type }) -> Type.
pp(#err{ type = Kind, pos = Pos } = Err) ->
lists:flatten(io_lib:format("~s~s:\n~s", [pp_kind(Kind), pp_pos(Pos), msg(Err)])).
pp_kind(type_error) -> "Type error";
pp_kind(parse_error) -> "Parse error";
pp_kind(code_error) -> "Code generation error";
pp_kind(file_error) -> "File error";
pp_kind(data_error) -> "Data error";
pp_kind(internal_error) -> "Internal error".
pp_pos(#pos{file = no_file, line = 0, col = 0}) ->
"";
pp_pos(#pos{file = no_file, line = L, col = C}) ->
io_lib:format(" at line ~p, col ~p", [L, C]);
pp_pos(#pos{file = F, line = L, col = C}) ->
io_lib:format(" in '~s' at line ~p, col ~p", [F, L, C]).
to_json(#err{pos = Pos, type = Type, message = Msg, context = Cxt}) ->
Json = #{ pos => pos_to_json(Pos),
type => atom_to_binary(Type, utf8),
message => iolist_to_binary(Msg) },
case Cxt of
none -> Json;
_ -> Json#{ context => iolist_to_binary(Cxt) }
end.
pos_to_json(#pos{ file = File, line = Line, col = Col }) ->
Json = #{ line => Line, col => Col },
case File of
no_file -> Json;
_ -> Json#{ file => iolist_to_binary(File) }
end.
src/aeso_fcode_to_fate.erl
+438 -279
View File
File diff suppressed because it is too large Load Diff
src/aeso_icode.erl
+7
View File
@@ -16,6 +16,7 @@
set_payable/2,
enter_namespace/2,
get_namespace/1,
in_main_contract/1,
qualify/2,
set_functions/2,
map_typerep/2,
@@ -74,10 +75,12 @@ builtin_types() ->
Word = fun([]) -> word end,
#{ "bool" => Word
, "int" => Word
, "char" => Word
, "bits" => Word
, "string" => fun([]) -> string end
, "address" => Word
, "hash" => Word
, "unit" => fun([]) -> {tuple, []} end
, "signature" => fun([]) -> {tuple, [word, word]} end
, "oracle" => fun([_, _]) -> word end
, "oracle_query" => fun([_, _]) -> word end
@@ -119,6 +122,10 @@ enter_namespace(NS, Icode = #{ namespace := NS1 }) ->
enter_namespace(NS, Icode) ->
Icode#{ namespace => NS }.
-spec in_main_contract(icode()) -> boolean().
in_main_contract(#{ namespace := {con, _, Main}, contract_name := Main }) -> true;
in_main_contract(_Icode) -> false.
-spec get_namespace(icode()) -> false | aeso_syntax:con() | aeso_syntax:qcon().
get_namespace(Icode) -> maps:get(namespace, Icode, false).
src/aeso_icode_to_asm.erl
+2 -2
View File
@@ -27,7 +27,7 @@ convert(#{ contract_name := _ContractName
},
_Options) ->
%% Create a function dispatcher
DispatchFun = {"_main", [], [{"arg", "_"}],
DispatchFun = {"%main", [], [{"arg", "_"}],
{switch, {var_ref, "arg"},
[{{tuple, [fun_hash(Fun),
{tuple, make_args(Args)}]},
@@ -44,7 +44,7 @@ convert(#{ contract_name := _ContractName
%% taken from the stack
StopLabel = make_ref(),
StatefulStopLabel = make_ref(),
MainFunction = lookup_fun(Funs, "_main"),
MainFunction = lookup_fun(Funs, "%main"),
StateTypeValue = aeso_ast_to_icode:type_value(StateType),
src/aeso_parse_lib.erl
+60 -4
View File
@@ -9,12 +9,14 @@
-module(aeso_parse_lib).
-export([parse/2,
return/1, fail/0, fail/1, map/2, bind/2,
return/1, fail/0, fail/1, fail/2, map/2, bind/2,
lazy/1, choice/1, choice/2, tok/1, layout/0,
left/2, right/2, between/3, optional/1,
many/1, many1/1, sep/2, sep1/2,
infixl/2, infixr/2]).
-export([current_file/0, set_current_file/1]).
%% -- Types ------------------------------------------------------------------
-export_type([parser/1, parser_expr/1, pos/0, token/0, tokens/0]).
@@ -98,6 +100,10 @@ apply_p(X, K) -> K(X).
-spec lazy(fun(() -> parser(A))) -> parser(A).
lazy(Delayed) -> ?lazy(Delayed).
%% @doc A parser that always fails at a known location.
-spec fail(pos(), term()) -> parser(none()).
fail(Pos, Err) -> ?fail({Pos, Err}).
%% @doc A parser that always fails.
-spec fail(term()) -> parser(none()).
fail(Err) -> ?fail(Err).
@@ -155,7 +161,7 @@ layout() -> ?layout.
-spec parse(parser(A), tokens()) -> {ok, A} | {error, term()}.
parse(P, S) ->
case parse1(apply_p(P, fun(X) -> {return_plus, X, {fail, no_error}} end), S) of
{[], {Pos, Err}} -> {error, {Pos, parse_error, flatten_error(Err)}};
{[], {Pos, Err}} -> {error, {add_current_file(Pos), parse_error, flatten_error(Err)}};
{[A], _} -> {ok, A};
{As, _} -> {error, {{1, 1}, ambiguous_parse, As}}
end.
@@ -285,7 +291,7 @@ parse1({tok_bind, Map}, Ts, Acc, Err) ->
%% y + y)(4)
case maps:get(vclose, Map, '$not_found') of
'$not_found' ->
{Acc, unexpected_token_error(Ts, T)};
{Acc, unexpected_token_error(Ts, maps:keys(Map), T)};
F ->
VClose = {vclose, pos(T)},
Ts2 = pop_layout(VClose, Ts#ts{ last = VClose }),
@@ -322,12 +328,52 @@ current_pos(#ts{ tokens = [T | _] }) -> pos(T);
current_pos(#ts{ last = T }) -> end_pos(pos(T)).
-spec mk_error(#ts{}, term()) -> error().
mk_error(_Ts, {Pos, Err}) ->
{Pos, Err};
mk_error(Ts, Err) ->
{current_pos(Ts), Err}.
-spec unexpected_token_error(#ts{}, token()) -> error().
unexpected_token_error(Ts, T) ->
mk_error(Ts, io_lib:format("Unexpected token ~p", [tag(T)])).
unexpected_token_error(Ts, [], T).
unexpected_token_error(Ts, Expect, {Tag, _}) when Tag == vclose; Tag == vsemi ->
Braces = [')', ']', '}'],
Fix = case lists:filter(fun(T) -> lists:member(T, Braces) end, Expect) of
[] -> " Probable causes:\n"
" - something is missing in the previous statement, or\n"
" - this line should be indented more.";
[T | _] -> io_lib:format(" Did you forget a ~p?", [T])
end,
Msg = io_lib:format("Unexpected indentation.~s", [Fix]),
mk_error(Ts, Msg);
unexpected_token_error(Ts, Expect, T) ->
ExpectCon = lists:member(con, Expect),
ExpectId = lists:member(id, Expect),
Fix = case T of
{id, _, X} when ExpectCon, hd(X) /= $_ -> io_lib:format(" Did you mean ~s?", [mk_upper(X)]);
{con, _, X} when ExpectId -> io_lib:format(" Did you mean ~s?", [mk_lower(X)]);
{qcon, _, Xs} when ExpectCon -> io_lib:format(" Did you mean ~s?", [lists:last(Xs)]);
{qid, _, Xs} when ExpectId -> io_lib:format(" Did you mean ~s?", [lists:last(Xs)]);
_ -> ""
end,
mk_error(Ts, io_lib:format("Unexpected ~s.~s", [describe(T), Fix])).
mk_upper([C | Rest]) -> string:to_upper([C]) ++ Rest.
mk_lower([C | Rest]) -> string:to_lower([C]) ++ Rest.
describe({id, _, X}) -> io_lib:format("identifier ~s", [X]);
describe({con, _, X}) -> io_lib:format("identifier ~s", [X]);
describe({qid, _, Xs}) -> io_lib:format("qualified identifier ~s", [string:join(Xs, ".")]);
describe({qcon, _, Xs}) -> io_lib:format("qualified identifier ~s", [string:join(Xs, ".")]);
describe({tvar, _, X}) -> io_lib:format("type variable ~s", [X]);
describe({char, _, _}) -> "character literal";
describe({string, _, _}) -> "string literal";
describe({hex, _, _}) -> "integer literal";
describe({int, _, _}) -> "integer literal";
describe({bytes, _, _}) -> "bytes literal";
describe(T) -> io_lib:format("token '~s'", [tag(T)]).
%% Get the next token from a token stream. Inserts layout tokens if necessary.
-spec next_token(#ts{}) -> false | {token(), #ts{}}.
@@ -411,3 +457,13 @@ merge_with(Fun, Map1, Map2) ->
end, Map2, maps:to_list(Map1))
end.
%% Current source file
current_file() ->
get('$current_file').
set_current_file(File) ->
put('$current_file', File).
add_current_file({L, C}) -> {current_file(), L, C};
add_current_file(Pos) -> Pos.
src/aeso_parse_lib.hrl
+1 -1
View File
@@ -19,7 +19,7 @@
-import(aeso_parse_lib,
[tok/1, tok/2, between/3, many/1, many1/1, sep/2, sep1/2,
infixl/1, infixr/1, choice/1, choice/2, return/1, layout/0,
fail/0, fail/1, map/2, infixl/2, infixr/2, infixl1/2, infixr1/2,
fail/0, fail/1, fail/2, map/2, infixl/2, infixr/2, infixl1/2, infixr1/2,
left/2, right/2, optional/1]).
src/aeso_parser.erl
+157 -68
View File
@@ -3,21 +3,33 @@
%%% Description :
%%% Created : 1 Mar 2018 by Ulf Norell
-module(aeso_parser).
-compile({no_auto_import,[map_get/2]}).
-export([string/1,
string/2,
string/3,
auto_imports/1,
hash_include/2,
type/1]).
decl/0,
type/0,
body/0,
maybe_block/1,
run_parser/2,
run_parser/3]).
-include("aeso_parse_lib.hrl").
-import(aeso_parse_lib, [current_file/0, set_current_file/1]).
-type parse_result() :: {ok, aeso_syntax:ast()}
| {error, {aeso_parse_lib:pos(), atom(), term()}}
| {error, {aeso_parse_lib:pos(), atom()}}.
-type parse_result() :: aeso_syntax:ast() | {aeso_syntax:ast(), sets:set(include_hash())} | none().
-type include_hash() :: {string(), binary()}.
escape_errors({ok, Ok}) ->
Ok;
escape_errors({error, Err}) ->
parse_error(Err).
-spec string(string()) -> parse_result().
string(String) ->
string(String, sets:new(), []).
@@ -31,23 +43,48 @@ string(String, Opts) ->
-spec string(string(), sets:set(include_hash()), aeso_compiler:options()) -> parse_result().
string(String, Included, Opts) ->
case parse_and_scan(file(), String, Opts) of
{ok, AST} ->
expand_includes(AST, Included, Opts);
Err = {error, _} ->
Err
AST = run_parser(file(), String, Opts),
case expand_includes(AST, Included, Opts) of
{ok, AST1} -> AST1;
{error, Err} -> parse_error(Err)
end.
type(String) ->
parse_and_scan(type(), String, []).
run_parser(P, Inp) ->
escape_errors(parse_and_scan(P, Inp, [])).
run_parser(P, Inp, Opts) ->
escape_errors(parse_and_scan(P, Inp, Opts)).
parse_and_scan(P, S, Opts) ->
set_current_file(proplists:get_value(src_file, Opts, no_file)),
case aeso_scan:scan(S) of
{ok, Tokens} -> aeso_parse_lib:parse(P, Tokens);
Error -> Error
{error, {{Input, Pos}, _}} ->
{error, {Pos, scan_error, Input}}
end.
-dialyzer({nowarn_function, parse_error/1}).
parse_error(Err) ->
aeso_errors:throw(mk_error(Err)).
mk_p_err(Pos, Msg) ->
aeso_errors:new(parse_error, mk_pos(Pos), lists:flatten(Msg)).
mk_error({Pos, scan_error, Input}) ->
mk_p_err(Pos, io_lib:format("Lexical error on input: ~s\n", [Input]));
mk_error({Pos, parse_error, Err}) ->
Msg = io_lib:format("~s\n", [Err]),
mk_p_err(Pos, Msg);
mk_error({Pos, ambiguous_parse, As}) ->
Msg = io_lib:format("Ambiguous parse result: ~p\n", [As]),
mk_p_err(Pos, Msg);
mk_error({Pos, include_error, File}) ->
Msg = io_lib:format("Couldn't find include file '~s'\n", [File]),
mk_p_err(Pos, Msg).
mk_pos({Line, Col}) -> aeso_errors:pos(Line, Col);
mk_pos({File, Line, Col}) -> aeso_errors:pos(File, Line, Col).
%% -- Parsing rules ----------------------------------------------------------
file() -> choice([], block(decl())).
@@ -60,6 +97,7 @@ decl() ->
, ?RULE(token(payable), keyword(contract), con(), tok('='), maybe_block(decl()), add_modifiers([_1], {contract, _2, _3, _5}))
, ?RULE(keyword(namespace), con(), tok('='), maybe_block(decl()), {namespace, _1, _2, _4})
, ?RULE(keyword(include), str(), {include, get_ann(_1), _2})
, pragma()
%% Type declarations TODO: format annotation for "type bla" vs "type bla()"
, ?RULE(keyword(type), id(), {type_decl, _1, _2, []})
@@ -72,11 +110,29 @@ decl() ->
, ?RULE(keyword(datatype), id(), type_vars(), tok('='), typedef(variant), {type_def, _1, _2, _3, _5})
%% Function declarations
, ?RULE(modifiers(), fun_or_entry(), id(), tok(':'), type(), add_modifiers(_1, _2, {fun_decl, get_ann(_2), _3, _5}))
, ?RULE(modifiers(), fun_or_entry(), fundef(), add_modifiers(_1, _2, set_pos(get_pos(get_ann(_2)), _3)))
, ?RULE(modifiers(), fun_or_entry(), maybe_block(fundef_or_decl()), fun_block(_1, _2, _3))
, ?RULE(keyword('let'), valdef(), set_pos(get_pos(_1), _2))
])).
fun_block(Mods, Kind, [Decl]) ->
add_modifiers(Mods, Kind, set_pos(get_pos(Kind), Decl));
fun_block(Mods, Kind, Decls) ->
{block, get_ann(Kind), [ add_modifiers(Mods, Kind, Decl) || Decl <- Decls ]}.
fundef_or_decl() ->
choice([?RULE(id(), tok(':'), type(), {fun_decl, get_ann(_1), _1, _3}),
fundef()]).
pragma() ->
Op = choice([token(T) || T <- ['<', '=<', '==', '>=', '>']]),
?RULE(tok('@'), id("compiler"), Op, version(), {pragma, get_ann(_1), {compiler, element(1, _3), _4}}).
version() ->
?RULE(token(int), many({tok('.'), token(int)}), mk_version(_1, _2)).
mk_version({int, _, Maj}, Rest) ->
[Maj | [N || {_, {int, _, N}} <- Rest]].
fun_or_entry() ->
choice([?RULE(keyword(function), {function, _1}),
?RULE(keyword(entrypoint), {entrypoint, _1})]).
@@ -125,20 +181,19 @@ letdecl() ->
letdef() -> choice(valdef(), fundef()).
valdef() ->
choice(
?RULE(id(), tok('='), body(), {letval, [], _1, type_wildcard(), _3}),
?RULE(id(), tok(':'), type(), tok('='), body(), {letval, [], _1, _3, _5})).
?RULE(pattern(), tok('='), body(), {letval, [], _1, _3}).
fundef() ->
choice(
[ ?RULE(id(), args(), tok('='), body(), {letfun, [], _1, _2, type_wildcard(), _4})
, ?RULE(id(), args(), tok(':'), type(), tok('='), body(), {letfun, [], _1, _2, _4, _6})
[ ?RULE(id(), args(), tok('='), body(), {letfun, get_ann(_1), _1, _2, type_wildcard(get_ann(_1)), _4})
, ?RULE(id(), args(), tok(':'), type(), tok('='), body(), {letfun, get_ann(_1), _1, _2, _4, _6})
]).
args() -> paren_list(arg()).
args() -> paren_list(pattern()).
lam_args() -> paren_list(arg()).
arg() -> choice(
?RULE(id(), {arg, get_ann(_1), _1, type_wildcard()}),
?RULE(id(), {arg, get_ann(_1), _1, type_wildcard(get_ann(_1))}),
?RULE(id(), tok(':'), type(), {arg, get_ann(_1), _1, _3})).
%% -- Types ------------------------------------------------------------------
@@ -150,7 +205,7 @@ type() -> ?LAZY_P(type100()).
type100() -> type200().
type200() ->
?RULE(many({fun_domain(), keyword('=>')}), type300(), fun_t(_1, _2)).
?RULE(many({type300(), keyword('=>')}), type300(), fun_t(_1, _2)).
type300() ->
?RULE(sep1(type400(), tok('*')), tuple_t(get_ann(lists:nth(1, _1)), _1)).
@@ -169,16 +224,15 @@ type400() ->
typeAtom() ->
?LAZY_P(choice(
[ parens(type())
, args_t()
, id(), token(con), token(qcon), token(qid), tvar()
])).
fun_domain() -> ?LAZY_P(choice(
[ ?RULE(tok('('), tok(')'), [])
%% Note avoidance of ambiguity: `(int)` can be treated as:
%% - literally `int`
%% - list of arguments with just one element int. This approach is dropped.
, ?RULE(tok('('), type(), tok(','), sep1(type(), tok(',')), tok(')'), [_2|_4])
, ?RULE(type300(), [_1])
args_t() ->
?LAZY_P(choice(
[ ?RULE(tok('('), tok(')'), {args_t, get_ann(_1), []})
%% Singleton case handled separately
, ?RULE(tok('('), type(), tok(','), sep1(type(), tok(',')), tok(')'), {args_t, get_ann(_1), [_2|_4]})
])).
%% -- Statements -------------------------------------------------------------
@@ -200,7 +254,7 @@ branch() ->
?RULE(pattern(), keyword('=>'), body(), {'case', _2, _1, _3}).
pattern() ->
?LET_P(E, expr500(), parse_pattern(E)).
?LET_P(E, expr(), parse_pattern(E)).
%% -- Expressions ------------------------------------------------------------
@@ -210,7 +264,7 @@ expr100() ->
Expr100 = ?LAZY_P(expr100()),
Expr200 = ?LAZY_P(expr200()),
choice(
[ ?RULE(args(), keyword('=>'), body(), {lam, _2, _1, _3}) %% TODO: better location
[ ?RULE(lam_args(), keyword('=>'), body(), {lam, _2, _1, _3}) %% TODO: better location
, {'if', keyword('if'), parens(Expr100), Expr200, right(tok(else), Expr100)}
, ?RULE(Expr200, optional(right(tok(':'), type())),
case _2 of
@@ -259,7 +313,7 @@ comprehension_if() ->
?RULE(keyword('if'), parens(expr()), {comprehension_if, _1, _2}).
comprehension_bind() ->
?RULE(id(), tok('<-'), expr(), {comprehension_bind, _1, _3}).
?RULE(pattern(), tok('<-'), expr(), {comprehension_bind, _1, _3}).
arg_expr() ->
?LAZY_P(
@@ -286,7 +340,7 @@ map_key(Key, {ok, {_, Val}}) -> {map_key, Key, Val}.
elim(E, []) -> E;
elim(E, [{proj, Ann, P} | Es]) -> elim({proj, Ann, E, P}, Es);
elim(E, [{app, Ann, Args} | Es]) -> elim({app, Ann, E, Args}, Es);
elim(E, [{app, _Ann, Args} | Es]) -> elim({app, aeso_syntax:get_ann(E), E, Args}, Es);
elim(E, [{rec_upd, Ann, Flds} | Es]) -> elim(record_update(Ann, E, Flds), Es);
elim(E, [{map_get, Ann, Key} | Es]) -> elim({map_get, Ann, E, Key}, Es);
elim(E, [{map_get, Ann, Key, Val} | Es]) -> elim({map_get, Ann, E, Key, Val}, Es).
@@ -311,7 +365,9 @@ record(Fs) ->
bad_expr_err("Cannot use '@' in map construction", infix({lvalue, FAnn, LV}, {'@', Ann}, Id));
({field, FAnn, LV, _}) ->
bad_expr_err("Cannot use nested fields or keys in map construction", {lvalue, FAnn, LV}) end,
{map, Ann, lists:map(KV, Fs)}
{map, Ann, lists:map(KV, Fs)};
record_or_map_error ->
{record_or_map_error, get_ann(hd(Fs)), Fs}
end.
record_or_map(Fields) ->
@@ -323,9 +379,7 @@ record_or_map(Fields) ->
case lists:usort(lists:map(Kind, Fields)) of
[proj] -> record;
[map_get] -> map;
_ ->
[{field, Ann, _, _} | _] = Fields,
bad_expr_err("Mixed record fields and map keys in", {record, Ann, Fields})
_ -> record_or_map_error %% Defer error until type checking
end.
field_assignment() ->
@@ -380,7 +434,7 @@ token(Tag) ->
id(Id) ->
?LET_P({id, A, X} = Y, id(),
if X == Id -> Y;
true -> fail({A, "expected 'bytes'"})
true -> fail({A, "expected '" ++ Id ++ "'"})
end).
id_or_addr() ->
@@ -426,12 +480,6 @@ bracket_list(P) -> brackets(comma_sep(P)).
-spec pos_ann(ann_line(), ann_col()) -> ann().
pos_ann(Line, Col) -> [{file, current_file()}, {line, Line}, {col, Col}].
current_file() ->
get('$current_file').
set_current_file(File) ->
put('$current_file', File).
ann_pos(Ann) ->
{proplists:get_value(file, Ann),
proplists:get_value(line, Ann),
@@ -462,8 +510,8 @@ infix(L, Op, R) -> set_ann(format, infix, {app, get_ann(L), Op, [L, R]}).
prefixes(Ops, E) -> lists:foldr(fun prefix/2, E, Ops).
prefix(Op, E) -> set_ann(format, prefix, {app, get_ann(Op), Op, [E]}).
type_wildcard() ->
{id, [{origin, system}], "_"}.
type_wildcard(Ann) ->
{id, [{origin, system} | Ann], "_"}.
block_e(Stmts) ->
group_ifs(Stmts, []).
@@ -501,7 +549,8 @@ tuple_t(_Ann, [Type]) -> Type; %% Not a tuple
tuple_t(Ann, Types) -> {tuple_t, Ann, Types}.
fun_t(Domains, Type) ->
lists:foldr(fun({Dom, Ann}, T) -> {fun_t, Ann, [], Dom, T} end,
lists:foldr(fun({{args_t, _, Dom}, Ann}, T) -> {fun_t, Ann, [], Dom, T};
({Dom, Ann}, T) -> {fun_t, Ann, [], [Dom], T} end,
Type, Domains).
tuple_e(_Ann, [Expr]) -> Expr; %% Not a tuple
@@ -512,7 +561,9 @@ list_comp_e(Ann, Expr, Binds) -> {list_comp, Ann, Expr, Binds}.
-spec parse_pattern(aeso_syntax:expr()) -> aeso_parse_lib:parser(aeso_syntax:pat()).
parse_pattern({app, Ann, Con = {'::', _}, Es}) ->
{app, Ann, Con, lists:map(fun parse_pattern/1, Es)};
parse_pattern({app, Ann, Con = {con, _, _}, Es}) ->
parse_pattern({app, Ann, {'-', _}, [{int, _, N}]}) ->
{int, Ann, -N};
parse_pattern({app, Ann, Con = {Tag, _, _}, Es}) when Tag == con; Tag == qcon ->
{app, Ann, Con, lists:map(fun parse_pattern/1, Es)};
parse_pattern({tuple, Ann, Es}) ->
{tuple, Ann, lists:map(fun parse_pattern/1, Es)};
@@ -520,7 +571,10 @@ parse_pattern({list, Ann, Es}) ->
{list, Ann, lists:map(fun parse_pattern/1, Es)};
parse_pattern({record, Ann, Fs}) ->
{record, Ann, lists:map(fun parse_field_pattern/1, Fs)};
parse_pattern({typed, Ann, E, Type}) ->
{typed, Ann, parse_pattern(E), Type};
parse_pattern(E = {con, _, _}) -> E;
parse_pattern(E = {qcon, _, _}) -> E;
parse_pattern(E = {id, _, _}) -> E;
parse_pattern(E = {int, _, _}) -> E;
parse_pattern(E = {bool, _, _}) -> E;
@@ -533,14 +587,9 @@ parse_pattern(E) -> bad_expr_err("Not a valid pattern", E).
parse_field_pattern({field, Ann, F, E}) ->
{field, Ann, F, parse_pattern(E)}.
return_error({no_file, L, C}, Err) ->
fail(io_lib:format("~p:~p:\n~s", [L, C, Err]));
return_error({F, L, C}, Err) ->
fail(io_lib:format("In ~s at ~p:~p:\n~s", [F, L, C, Err])).
-spec ret_doc_err(ann(), prettypr:document()) -> aeso_parse_lib:parser(none()).
ret_doc_err(Ann, Doc) ->
return_error(ann_pos(Ann), prettypr:format(Doc)).
fail(ann_pos(Ann), prettypr:format(Doc)).
-spec bad_expr_err(string(), aeso_syntax:expr()) -> aeso_parse_lib:parser(none()).
bad_expr_err(Reason, E) ->
@@ -549,12 +598,21 @@ bad_expr_err(Reason, E) ->
prettypr:nest(2, aeso_pretty:expr(E))])).
%% -- Helper functions -------------------------------------------------------
expand_includes(AST, Included, Opts) ->
expand_includes(AST, Included, [], Opts).
expand_includes([], _Included, Acc, _Opts) ->
expand_includes(AST, Included, Opts) ->
Ann = [{origin, system}],
AST1 = [ {include, Ann, {string, Ann, File}}
|| File <- lists:usort(auto_imports(AST)) ] ++ AST,
expand_includes(AST1, Included, [], Opts).
expand_includes([], Included, Acc, Opts) ->
case lists:member(keep_included, Opts) of
false ->
{ok, lists:reverse(Acc)};
expand_includes([{include, Ann, {string, SAnn, File}} | AST], Included, Acc, Opts) ->
true ->
{ok, {lists:reverse(Acc), Included}}
end;
expand_includes([{include, Ann, {string, _SAnn, File}} | AST], Included, Acc, Opts) ->
case get_include_code(File, Ann, Opts) of
{ok, Code} ->
Hashed = hash_include(File, Code),
@@ -562,12 +620,9 @@ expand_includes([{include, Ann, {string, SAnn, File}} | AST], Included, Acc, Opt
false ->
Opts1 = lists:keystore(src_file, 1, Opts, {src_file, File}),
Included1 = sets:add_element(Hashed, Included),
case string(Code, Included1, Opts1) of
case parse_and_scan(file(), Code, Opts1) of
{ok, AST1} ->
Dependencies = [ {include, Ann, {string, SAnn, Dep}}
|| Dep <- aeso_stdlib:dependencies(File)
],
expand_includes(Dependencies ++ AST1 ++ AST, Included1, Acc, Opts);
expand_includes(AST1 ++ AST, Included1, Acc, Opts);
Err = {error, _} ->
Err
end;
@@ -590,15 +645,41 @@ read_file(File, Opts) ->
case maps:get(binary_to_list(File), Files, not_found) of
not_found -> {error, not_found};
Src -> {ok, Src}
end;
escript ->
try
Escript = escript:script_name(),
{ok, Sections} = escript:extract(Escript, []),
Archive = proplists:get_value(archive, Sections),
FileName = binary_to_list(filename:join([aesophia, priv, stdlib, File])),
case zip:extract(Archive, [{file_list, [FileName]}, memory]) of
{ok, [{_, Src}]} -> {ok, Src};
_ -> {error, not_found}
end
catch _:_ ->
{error, not_found}
end
end.
stdlib_options() ->
StdLibDir = aeso_stdlib:stdlib_include_path(),
case filelib:is_dir(StdLibDir) of
true -> [{include, {file_system, [StdLibDir]}}];
false -> [{include, escript}]
end.
get_include_code(File, Ann, Opts) ->
case {read_file(File, Opts), maps:find(File, aeso_stdlib:stdlib())} of
{{ok, _}, {ok,_ }} ->
return_error(ann_pos(Ann), "Illegal redefinition of standard library " ++ File);
{_, {ok, Lib}} ->
{ok, Lib};
case {read_file(File, Opts), read_file(File, stdlib_options())} of
{{ok, Bin}, {ok, _}} ->
case filename:basename(File) == File of
true -> { error
, fail( ann_pos(Ann)
, "Illegal redefinition of standard library " ++ binary_to_list(File))};
%% If a path is provided then the stdlib takes lower priority
false -> {ok, binary_to_list(Bin)}
end;
{_, {ok, Bin}} ->
{ok, binary_to_list(Bin)};
{{ok, Bin}, _} ->
{ok, binary_to_list(Bin)};
{_, _} ->
@@ -610,3 +691,11 @@ hash_include(File, Code) when is_binary(File) ->
hash_include(binary_to_list(File), Code);
hash_include(File, Code) when is_list(File) ->
{filename:basename(File), crypto:hash(sha256, Code)}.
auto_imports({comprehension_bind, _, _}) -> [<<"ListInternal.aes">>];
auto_imports({'..', _}) -> [<<"ListInternal.aes">>];
auto_imports(L) when is_list(L) ->
lists:flatmap(fun auto_imports/1, L);
auto_imports(T) when is_tuple(T) ->
auto_imports(tuple_to_list(T));
auto_imports(_) -> [].
src/aeso_pretty.erl
+39 -14
View File
@@ -145,22 +145,30 @@ decl(D, Options) ->
with_options(Options, fun() -> decl(D) end).
-spec decl(aeso_syntax:decl()) -> doc().
decl({contract, _, C, Ds}) ->
block(follow(text("contract"), hsep(name(C), text("="))), decls(Ds));
decl({contract, Attrs, C, Ds}) ->
Mod = fun({Mod, true}) when Mod == payable ->
text(atom_to_list(Mod));
(_) -> empty() end,
block(follow( hsep(lists:map(Mod, Attrs) ++ [text("contract")])
, hsep(name(C), text("="))), decls(Ds));
decl({namespace, _, C, Ds}) ->
block(follow(text("namespace"), hsep(name(C), text("="))), decls(Ds));
decl({pragma, _, Pragma}) -> pragma(Pragma);
decl({type_decl, _, T, Vars}) -> typedecl(alias_t, T, Vars);
decl({type_def, _, T, Vars, Def}) ->
Kind = element(1, Def),
equals(typedecl(Kind, T, Vars), typedef(Def));
decl({fun_decl, Ann, F, T}) ->
Mod = fun({Mod, true}) when Mod == private; Mod == stateful; Mod == payable ->
text(atom_to_list(Mod));
(_) -> empty() end,
Fun = case aeso_syntax:get_ann(entrypoint, Ann, false) of
true -> text("entrypoint");
false -> text("function")
end,
hsep(Fun, typed(name(F), T));
hsep(lists:map(Mod, Ann) ++ [Fun, typed(name(F), T)]);
decl(D = {letfun, Attrs, _, _, _, _}) ->
Mod = fun({Mod, true}) when Mod == private; Mod == stateful ->
Mod = fun({Mod, true}) when Mod == private; Mod == stateful; Mod == payable ->
text(atom_to_list(Mod));
(_) -> empty() end,
Fun = case aeso_syntax:get_ann(entrypoint, Attrs, false) of
@@ -168,7 +176,15 @@ decl(D = {letfun, Attrs, _, _, _, _}) ->
false -> "function"
end,
hsep(lists:map(Mod, Attrs) ++ [letdecl(Fun, D)]);
decl(D = {letval, _, _, _, _}) -> letdecl("let", D).
decl({fun_clauses, Ann, Name, Type, Clauses}) ->
above([ decl(D) || D <- [{fun_decl, Ann, Name, Type} | Clauses] ]);
decl(D = {letval, _, _, _}) -> letdecl("let", D);
decl({block, _, Ds}) ->
above([ decl(D) || D <- Ds ]).
-spec pragma(aeso_syntax:pragma()) -> doc().
pragma({compiler, Op, Ver}) ->
text("@compiler " ++ atom_to_list(Op) ++ " " ++ string:join([integer_to_list(N) || N <- Ver], ".")).
-spec expr(aeso_syntax:expr(), options()) -> doc().
expr(E, Options) ->
@@ -188,10 +204,10 @@ name({tvar, _, Name}) -> text(Name);
name({typed, _, Name, _}) -> name(Name).
-spec letdecl(string(), aeso_syntax:letbind()) -> doc().
letdecl(Let, {letval, _, F, T, E}) ->
block_expr(0, hsep([text(Let), typed(name(F), T), text("=")]), E);
letdecl(Let, {letval, _, P, E}) ->
block_expr(0, hsep([text(Let), expr(P), text("=")]), E);
letdecl(Let, {letfun, _, F, Args, T, E}) ->
block_expr(0, hsep([text(Let), typed(beside(name(F), args(Args)), T), text("=")]), E).
block_expr(0, hsep([text(Let), typed(beside(name(F), expr({tuple, [], Args})), T), text("=")]), E).
-spec args([aeso_syntax:arg()]) -> doc().
args(Args) ->
@@ -243,6 +259,8 @@ type({app_t, _, Type, Args}) ->
beside(type(Type), args_type(Args));
type({tuple_t, _, Args}) ->
tuple_type(Args);
type({args_t, _, Args}) ->
args_type(Args);
type({bytes_t, _, any}) -> text("bytes(_)");
type({bytes_t, _, Len}) ->
text(lists:concat(["bytes(", Len, ")"]));
@@ -298,6 +316,8 @@ expr_p(_, {tuple, _, Es}) ->
tuple(lists:map(fun expr/1, Es));
expr_p(_, {list, _, Es}) ->
list(lists:map(fun expr/1, Es));
expr_p(_, {list_comp, _, E, Binds}) ->
list([follow(expr(E), hsep(text("|"), par(punctuate(text(","), lists:map(fun lc_bind/1, Binds)), 0)), 0)]);
expr_p(_, {record, _, Fs}) ->
record(lists:map(fun field/1, Fs));
expr_p(_, {map, Ann, KVs}) ->
@@ -351,7 +371,8 @@ expr_p(_, {Type, _, Bin})
Type == oracle_query_id ->
text(binary_to_list(aeser_api_encoder:encode(Type, Bin)));
expr_p(_, {string, _, <<>>}) -> text("\"\"");
expr_p(_, {string, _, S}) -> term(binary_to_list(S));
expr_p(_, {string, _, S}) ->
text(io_lib:format("\"~s\"", [binary_to_list(S)]));
expr_p(_, {char, _, C}) ->
case C of
$' -> text("'\\''");
@@ -380,6 +401,13 @@ stmt_p({else, Else}) ->
_ -> block_expr(200, text("else"), Else)
end.
lc_bind({comprehension_bind, P, E}) ->
follow(hsep(expr(P), text("<-")), expr(E));
lc_bind({comprehension_if, _, E}) ->
beside([text("if("), expr(E), text(")")]);
lc_bind(Let) ->
letdecl("let", Let).
-spec bin_prec(aeso_syntax:bin_op()) -> {integer(), integer(), integer()}.
bin_prec('..') -> { 0, 0, 0}; %% Always printed inside '[ ]'
bin_prec('=') -> { 0, 0, 0}; %% Always printed inside '[ ]'
@@ -443,7 +471,7 @@ elim1(Get={map_get, _, _}) -> elim(Get);
elim1(Get={map_get, _, _, _}) -> elim(Get).
alt({'case', _, Pat, Body}) ->
block_expr(0, hsep(expr_p(500, Pat), text("=>")), Body).
block_expr(0, hsep(expr(Pat), text("=>")), Body).
block_expr(_, Header, {block, _, Ss}) ->
block(Header, statements(Ss));
@@ -453,7 +481,7 @@ block_expr(P, Header, E) ->
statements(Stmts) ->
above([ statement(S) || S <- Stmts ]).
statement(S = {letval, _, _, _, _}) -> letdecl("let", S);
statement(S = {letval, _, _, _}) -> letdecl("let", S);
statement(S = {letfun, _, _, _, _, _}) -> letdecl("let", S);
statement(E) -> expr(E).
@@ -466,6 +494,3 @@ get_elifs(If = {'if', Ann, Cond, Then, Else}, Elifs) ->
end;
get_elifs(Else, Elifs) -> {lists:reverse(Elifs), {else, Else}}.
fmt(Fmt, Args) -> text(lists:flatten(io_lib:format(Fmt, Args))).
term(X) -> fmt("~p", [X]).
src/aeso_scan.erl
+20 -9
View File
@@ -13,14 +13,15 @@
override/2, push/2, pop/1]).
lexer() ->
Number = fun(Digit) -> [Digit, "+(_", Digit, "+)*"] end,
DIGIT = "[0-9]",
HEXDIGIT = "[0-9a-fA-F]",
LOWER = "[a-z_]",
UPPER = "[A-Z]",
CON = [UPPER, "[a-zA-Z0-9_]*"],
INT = [DIGIT, "+"],
HEX = ["0x", HEXDIGIT, "+"],
BYTES = ["#", HEXDIGIT, "+"],
INT = Number(DIGIT),
HEX = ["0x", Number(HEXDIGIT)],
BYTES = ["#", Number(HEXDIGIT)],
WS = "[\\000-\\ ]+",
ID = [LOWER, "[a-zA-Z0-9_']*"],
TVAR = ["'", ID],
@@ -53,7 +54,7 @@ lexer() ->
, {CHAR, token(char, fun parse_char/1)}
, {STRING, token(string, fun parse_string/1)}
, {HEX, token(hex, fun parse_hex/1)}
, {INT, token(int, fun list_to_integer/1)}
, {INT, token(int, fun parse_int/1)}
, {BYTES, token(bytes, fun parse_bytes/1)}
%% Identifiers (qualified first!)
@@ -95,9 +96,11 @@ parse_char([$', C, $']) -> C.
unescape(Str) -> unescape(Str, []).
%% TODO: numeric escapes
unescape([$"], Acc) ->
list_to_binary(lists:reverse(Acc));
unescape([$\\, $x, D1, D2 | Chars ], Acc) ->
C = list_to_integer([D1, D2], 16),
unescape(Chars, [C | Acc]);
unescape([$\\, Code | Chars], Acc) ->
Ok = fun(C) -> unescape(Chars, [C | Acc]) end,
case Code of
@@ -115,10 +118,18 @@ unescape([$\\, Code | Chars], Acc) ->
unescape([C | Chars], Acc) ->
unescape(Chars, [C | Acc]).
parse_hex("0x" ++ Chars) -> list_to_integer(Chars, 16).
strip_underscores(S) ->
lists:filter(fun(C) -> C /= $_ end, S).
parse_bytes("#" ++ Chars) ->
N = list_to_integer(Chars, 16),
Digits = (length(Chars) + 1) div 2,
parse_hex("0x" ++ S) ->
list_to_integer(strip_underscores(S), 16).
parse_int(S) ->
list_to_integer(strip_underscores(S)).
parse_bytes("#" ++ S0) ->
S = strip_underscores(S0),
N = list_to_integer(S, 16),
Digits = (length(S) + 1) div 2,
<<N:Digits/unit:8>>.
src/aeso_stdlib.erl
+3 -420
View File
@@ -10,425 +10,8 @@
-module(aeso_stdlib).
-export([stdlib/0, stdlib_list/0, dependencies/1]).
-export([stdlib_include_path/0]).
stdlib() ->
maps:from_list(stdlib_list()).
stdlib_include_path() ->
filename:join([code:priv_dir(aesophia), "stdlib"]).
stdlib_list() ->
[ {<<"List.aes">>, std_list()}
, {<<"Func.aes">>, std_func()}
, {<<"Option.aes">>, std_option()}
, {<<"Pair.aes">>, std_pair()}
, {<<"Triple.aes">>, std_triple()}
].
dependencies(Q) ->
case Q of
<<"Option.aes">> ->
[<<"List.aes">>];
_ -> []
end.
std_func() ->
"
namespace Func =
function id(x : 'a) : 'a = x
function const(x : 'a) : 'b => 'a = (y) => x
function flip(f : ('a, 'b) => 'c) : ('b, 'a) => 'c = (b, a) => f(a, b)
function comp(f : 'b => 'c, g : 'a => 'b) : 'a => 'c = (x) => f(g(x))
function pipe(f : 'a => 'b, g : 'b => 'c) : 'a => 'c = (x) => g(f(x))
function rapply(x : 'a, f : 'a => 'b) : 'b = f(x)
/* The Z combinator - replacement for local and anonymous recursion.
*/
function recur(f : ('arg => 'res, 'arg) => 'res) : 'arg => 'res =
(x) => f(recur(f), x)
function iter(n : int, f : 'a => 'a) : 'a => 'a = iter_(n, f, (x) => x)
private function iter_(n : int, f : 'a => 'a, acc : 'a => 'a) : 'a => 'a =
if(n == 0) acc
elif(n == 1) comp(f, acc)
else iter_(n / 2, comp(f, f), if(n mod 2 == 0) acc else comp(f, acc))
function curry2(f : ('a, 'b) => 'c) : 'a => ('b => 'c) =
(x) => (y) => f(x, y)
function curry3(f : ('a, 'b, 'c) => 'd) : 'a => ('b => ('c => 'd)) =
(x) => (y) => (z) => f(x, y, z)
function uncurry2(f : 'a => ('b => 'c)) : ('a, 'b) => 'c =
(x, y) => f(x)(y)
function uncurry3(f : 'a => ('b => ('c => 'd))) : ('a, 'b, 'c) => 'd =
(x, y, z) => f(x)(y)(z)
function tuplify2(f : ('a, 'b) => 'c) : (('a * 'b)) => 'c =
(t) => switch(t)
(x, y) => f(x, y)
function tuplify3(f : ('a, 'b, 'c) => 'd) : 'a * 'b * 'c => 'd =
(t) => switch(t)
(x, y, z) => f(x, y, z)
function untuplify2(f : 'a * 'b => 'c) : ('a, 'b) => 'c =
(x, y) => f((x, y))
function untuplify3(f : 'a * 'b * 'c => 'd) : ('a, 'b, 'c) => 'd =
(x, y, z) => f((x, y, z))
".
std_list() ->"
namespace List =
function is_empty(l : list('a)) : bool = switch(l)
[] => true
_ => false
function first(l : list('a)) : option('a) = switch(l)
[] => None
h::_ => Some(h)
function tail(l : list('a)) : option(list('a)) = switch(l)
[] => None
_::t => Some(t)
function last(l : list('a)) : option('a) = switch(l)
[] => None
[x] => Some(x)
_::t => last(t)
function find(p : 'a => bool, l : list('a)) : option('a) = switch(l)
[] => None
h::t => if(p(h)) Some(h) else find(p, t)
function find_all(p : 'a => bool, l : list('a)) : list('a) = find_all_(p, l, [])
private function find_all_(p : 'a => bool, l : list('a), acc : list('a)) : list('a) = switch(l)
[] => reverse(acc)
h::t => find_all_(p, t, if(p(h)) h::acc else acc)
function find_indices(p : 'a => bool, l : list('a)) : list(int) = find_indices_(p, l, 0, [])
private function find_indices_( p : 'a => bool
, l : list('a)
, n : int
, acc : list(int)
) : list(int) = switch(l)
[] => reverse(acc)
h::t => find_indices_(p, t, n+1, if(p(h)) n::acc else acc)
function nth(n : int, l : list('a)) : option('a) = switch(l)
[] => None
h::t => if(n == 0) Some(h) else nth(n-1, t)
/* Unsafe version of `nth` */
function get(n : int, l : list('a)) : 'a = switch(l)
[] => abort(\"Out of index get\")
h::t => if(n == 0) h else get(n-1, t)
function length(l : list('a)) : int = length_(l, 0)
private function length_(l : list('a), acc : int) : int = switch(l)
[] => acc
_::t => length_(t, acc + 1)
/* Unsafe. Replaces `n`th element of `l` with `e`. Crashes on over/underflow */
function replace_at(n : int, e : 'a, l : list('a)) : list('a) =
if(n<0) abort(\"insert_at underflow\") else replace_at_(n, e, l, [])
private function replace_at_(n : int, e : 'a, l : list('a), acc : list('a)) : list('a) =
switch(l)
[] => abort(\"replace_at overflow\")
h::t => if (n == 0) reverse(e::acc) ++ t
else replace_at_(n-1, e, t, h::acc)
/* Unsafe. Adds `e` to `l` to be its `n`th element. Crashes on over/underflow */
function insert_at(n : int, e : 'a, l : list('a)) : list('a) =
if(n<0) abort(\"insert_at underflow\") else insert_at_(n, e, l, [])
private function insert_at_(n : int, e : 'a, l : list('a), acc : list('a)) : list('a) =
if (n == 0) reverse(e::acc) ++ l
else switch(l)
[] => abort(\"insert_at overflow\")
h::t => insert_at_(n-1, e, t, h::acc)
function insert_by(f : (('a, 'a) => bool), x : 'a, l : list('a)) : list('a) =
switch(l)
[] => [x]
(e :: l') =>
if(f(x, e))
e :: insert_by(f, x, l')
else
x :: l
function foldr(cons : ('a, 'b) => 'b, nil : 'b, l : list('a)) : 'b = switch(l)
[] => nil
h::t => cons(h, foldr(cons, nil, t))
function foldl(rcons : ('b, 'a) => 'b, acc : 'b, l : list('a)) : 'b = switch(l)
[] => acc
h::t => foldl(rcons, rcons(acc, h), t)
function foreach(f : 'a => unit, l : list('a)) : unit =
switch(l)
[] => ()
e :: l' =>
f(e)
foreach(f, l')
function reverse(l : list('a)) : list('a) = foldl((lst, el) => el :: lst, [], l)
function map(f : 'a => 'b, l : list('a)) : list('b) = map_(f, l, [])
private function map_(f : 'a => 'b, l : list('a), acc : list('b)) : list('b) = switch(l)
[] => reverse(acc)
h::t => map_(f, t, f(h)::acc)
function flat_map(f : 'a => list('b), l : list('a)) : list('b) = flat_map_(f, l, [])
private function flat_map_(f : 'a => list('b), l : list('a), acc : list('b)) : list('b) = switch(l)
[] => reverse(acc)
h::t => flat_map_(f, t, reverse(f(h)) ++ acc)
function filter(p : 'a => bool, l : list('a)) : list('a) = filter_(p, l, [])
private function filter_(p : 'a => bool, l : list('a), acc : list('a)) : list('a) = switch(l)
[] => reverse(acc)
h::t => filter_(p, t, if(p(h)) h::acc else acc)
/* Take `n` first elements */
function take(n : int, l : list('a)) : list('a) =
if(n < 0) abort(\"Take negative number of elements\") else take_(n, l, [])
private function take_(n : int, l : list('a), acc : list('a)) : list('a) =
if(n == 0) reverse(acc)
else switch(l)
[] => reverse(acc)
h::t => take_(n-1, t, h::acc)
/* Drop `n` first elements */
function drop(n : int, l : list('a)) : list('a) =
if(n < 0) abort(\"Drop negative number of elements\")
elif (n == 0) l
else switch(l)
[] => []
h::t => drop(n-1, t)
/* Get the longest prefix of a list in which every element matches predicate `p` */
function take_while(p : 'a => bool, l : list('a)) : list('a) = take_while_(p, l, [])
private function take_while_(p : 'a => bool, l : list('a), acc : list('a)) : list('a) = switch(l)
[] => reverse(acc)
h::t => if(p(h)) take_while_(p, t, h::acc) else reverse(acc)
/* Drop elements from `l` until `p` holds */
function drop_while(p : 'a => bool, l : list('a)) : list('a) = switch(l)
[] => []
h::t => if(p(h)) drop_while(p, t) else l
/* Splits list into two lists of elements that respectively match and don't match predicate `p` */
function partition(p : 'a => bool, l : list('a)) : (list('a) * list('a)) = partition_(p, l, [], [])
private function partition_( p : 'a => bool
, l : list('a)
, acc_t : list('a)
, acc_f : list('a)
) : (list('a) * list('a)) = switch(l)
[] => (reverse(acc_t), reverse(acc_f))
h::t => if(p(h)) partition_(p, t, h::acc_t, acc_f) else partition_(p, t, acc_t, h::acc_f)
function concats(ll : list(list('a))) : list('a) = foldr((l1, l2) => l1 ++ l2, [], ll)
function all(p : 'a => bool, l : list('a)) : bool = switch(l)
[] => true
h::t => if(p(h)) all(p, t) else false
function any(p : 'a => bool, l : list('a)) : bool = switch(l)
[] => false
h::t => if(p(h)) true else any(p, t)
function sum(l : list(int)) : int = foldl ((a, b) => a + b, 0, l)
function product(l : list(int)) : int = foldl((a, b) => a * b, 1, l)
/* Zips two list by applying bimapping function on respective elements. Drops longer tail. */
function zip_with(f : ('a, 'b) => 'c, l1 : list('a), l2 : list('b)) : list('c) = zip_with_(f, l1, l2, [])
private function zip_with_( f : ('a, 'b) => 'c
, l1 : list('a)
, l2 : list('b)
, acc : list('c)
) : list('c) = switch ((l1, l2))
(h1::t1, h2::t2) => zip_with_(f, t1, t2, f(h1, h2)::acc)
_ => reverse(acc)
/* Zips two lists into list of pairs. Drops longer tail. */
function zip(l1 : list('a), l2 : list('b)) : list('a * 'b) = zip_with((a, b) => (a, b), l1, l2)
function unzip(l : list('a * 'b)) : list('a) * list('b) = unzip_(l, [], [])
private function unzip_( l : list('a * 'b)
, acc_l : list('a)
, acc_r : list('b)
) : (list('a) * list('b)) = switch(l)
[] => (reverse(acc_l), reverse(acc_r))
(left, right)::t => unzip_(t, left::acc_l, right::acc_r)
// TODO: Improve?
function sort(lesser_cmp : ('a, 'a) => bool, l : list('a)) : list('a) = switch(l)
[] => []
h::t => switch (partition((x) => lesser_cmp(x, h), t))
(lesser, bigger) => sort(lesser_cmp, lesser) ++ h::sort(lesser_cmp, bigger)
function intersperse(delim : 'a, l : list('a)) : list('a) = intersperse_(delim, l, [])
private function intersperse_(delim : 'a, l : list('a), acc : list('a)) : list('a) = switch(l)
[] => reverse(acc)
[e] => reverse(e::acc)
h::t => intersperse_(delim, t, delim::h::acc)
function enumerate(l : list('a)) : list(int * 'a) = enumerate_(l, 0, [])
private function enumerate_(l : list('a), n : int, acc : list(int * 'a)) : list(int * 'a) = switch(l)
[] => reverse(acc)
h::t => enumerate_(t, n + 1, (n, h)::acc)
".
std_option() -> "
namespace Option =
function is_none(o : option('a)) : bool = switch(o)
None => true
Some(_) => false
function is_some(o : option('a)) : bool = switch(o)
None => false
Some(_) => true
function match(n : 'b, s : 'a => 'b, o : option('a)) : 'b = switch(o)
None => n
Some(x) => s(x)
function default(def : 'a, o : option('a)) : 'a = match(def, (x) => x, o)
function force(o : option('a)) : 'a = default(abort(\"Forced None value\"), o)
function on_elem(f : 'a => unit, o : option('a)) : unit = match((), f, o)
function map(f : 'a => 'b, o : option('a)) : option('b) = switch(o)
None => None
Some(x) => Some(f(x))
function map2(f : ('a, 'b) => 'c
, o1 : option('a)
, o2 : option('b)
) : option('c) = switch((o1, o2))
(Some(x1), Some(x2)) => Some(f(x1, x2))
_ => None
function map3( f : ('a, 'b, 'c) => 'd
, o1 : option('a)
, o2 : option('b)
, o3 : option('c)
) : option('d) = switch((o1, o2, o3))
(Some(x1), Some(x2), Some(x3)) => Some(f(x1, x2, x3))
_ => None
function app_over(f : option ('a => 'b), o : option('a)) : option('b) = switch((f, o))
(Some(ff), Some(xx)) => Some(ff(xx))
_ => None
function flat_map(f : 'a => option('b), o : option('a)) : option('b) = switch(o)
None => None
Some(x) => f(x)
function to_list(o : option('a)) : list('a) = switch(o)
None => []
Some(x) => [x]
function filter_options(l : list(option('a))) : list('a) = filter_options_(l, [])
private function filter_options_(l : list (option('a)), acc : list('a)) : list('a) = switch(l)
[] => List.reverse(acc)
None::t => filter_options_(t, acc)
Some(x)::t => filter_options_(t, x::acc)
function seq_options(l : list (option('a))) : option (list('a)) = seq_options_(l, [])
private function seq_options_(l : list (option('a)), acc : list('a)) : option(list('a)) = switch(l)
[] => Some(List.reverse(acc))
None::t => None
Some(x)::t => seq_options_(t, x::acc)
function choose(o1 : option('a), o2 : option('a)) : option('a) =
if(is_some(o1)) o1 else o2
function choose_first(l : list(option('a))) : option('a) = switch(l)
[] => None
None::t => choose_first(t)
Some(x)::_ => Some(x)
".
std_pair() -> "
namespace Pair =
function fst(t : ('a * 'b)) : 'a = switch(t)
(x, _) => x
function snd(t : ('a * 'b)) : 'b = switch(t)
(_, y) => y
function map1(f : 'a => 'c, t : ('a * 'b)) : ('c * 'b) = switch(t)
(x, y) => (f(x), y)
function map2(f : 'b => 'c, t : ('a * 'b)) : ('a * 'c) = switch(t)
(x, y) => (x, f(y))
function bimap(f : 'a => 'c, g : 'b => 'd, t : ('a * 'b)) : ('c * 'd) = switch(t)
(x, y) => (f(x), g(y))
function swap(t : ('a * 'b)) : ('b * 'a) = switch(t)
(x, y) => (y, x)
".
std_triple() -> "
namespace Triple =
function fst(t : ('a * 'b * 'c)) : 'a = switch(t)
(x, _, _) => x
function snd(t : ('a * 'b * 'c)) : 'b = switch(t)
(_, y, _) => y
function thd(t : ('a * 'b * 'c)) : 'c = switch(t)
(_, _, z) => z
function map1(f : 'a => 'm, t : ('a * 'b * 'c)) : ('m * 'b * 'c) = switch(t)
(x, y, z) => (f(x), y, z)
function map2(f : 'b => 'm, t : ('a * 'b * 'c)) : ('a * 'm * 'c) = switch(t)
(x, y, z) => (x, f(y), z)
function map3(f : 'c => 'm, t : ('a * 'b * 'c)) : ('a * 'b * 'm) = switch(t)
(x, y, z) => (x, y, f(z))
function trimap( f : 'a => 'x
, g : 'b => 'y
, h : 'c => 'z
, t : ('a * 'b * 'c)
) : ('x * 'y * 'z) = switch(t)
(x, y, z) => (f(x), g(y), h(z))
function swap(t : ('a * 'b * 'c)) : ('c * 'b * 'a) = switch(t)
(x, y, z) => (z, y, x)
function rotr(t : ('a * 'b * 'c)) : ('c * 'a * 'b) = switch(t)
(x, y, z) => (z, x, y)
function rotl(t : ('a * 'b * 'c)) : ('b * 'c * 'a) = switch(t)
(x, y, z) => (y, z, x)
".
src/aeso_syntax.erl
+24 -10
View File
@@ -13,7 +13,7 @@
-export_type([ann_line/0, ann_col/0, ann_origin/0, ann_format/0, ann/0]).
-export_type([name/0, id/0, con/0, qid/0, qcon/0, tvar/0, op/0]).
-export_type([bin_op/0, un_op/0]).
-export_type([decl/0, letbind/0, typedef/0]).
-export_type([decl/0, letbind/0, typedef/0, pragma/0]).
-export_type([arg/0, field_t/0, constructor_t/0, named_arg_t/0]).
-export_type([type/0, constant/0, expr/0, arg_expr/0, field/1, stmt/0, alt/0, lvalue/0, elim/0, pat/0]).
-export_type([ast/0]).
@@ -36,14 +36,25 @@
-type decl() :: {contract, ann(), con(), [decl()]}
| {namespace, ann(), con(), [decl()]}
| {type_decl, ann(), id(), [tvar()]}
| {pragma, ann(), pragma()}
| {type_decl, ann(), id(), [tvar()]} % Only for error msgs
| {type_def, ann(), id(), [tvar()], typedef()}
| {fun_decl, ann(), id(), type()}
| letbind().
| {fun_clauses, ann(), id(), type(), [letbind()]}
| {block, ann(), [decl()]}
| letfun()
| letval(). % Only for error msgs
-type compiler_version() :: [non_neg_integer()].
-type pragma() :: {compiler, '==' | '<' | '>' | '=<' | '>=', compiler_version()}.
-type letval() :: {letval, ann(), pat(), expr()}.
-type letfun() :: {letfun, ann(), id(), [pat()], type(), expr()}.
-type letbind()
:: {letval, ann(), id(), type(), expr()}
| {letfun, ann(), id(), [arg()], type(), expr()}.
:: letfun()
| letval().
-type arg() :: {arg, ann(), id(), type()}.
@@ -59,6 +70,7 @@
-type type() :: {fun_t, ann(), [named_arg_t()], [type()], type()}
| {app_t, ann(), type(), [type()]}
| {tuple_t, ann(), [type()]}
| {args_t, ann(), [type()]} %% old tuple syntax, old for error messages
| {bytes_t, ann(), integer() | any}
| id() | qid()
| con() | qcon() %% contracts
@@ -94,9 +106,8 @@
| {list, ann(), [expr()]}
| {list_comp, ann(), expr(), [comprehension_exp()]}
| {typed, ann(), expr(), type()}
| {record, ann(), [field(expr())]}
| {record, ann(), expr(), [field(expr())]} %% record update
| {map, ann(), expr(), [field(expr())]} %% map update
| {record_or_map(), ann(), [field(expr())]}
| {record_or_map(), ann(), expr(), [field(expr())]} %% record/map update
| {map, ann(), [{expr(), expr()}]}
| {map_get, ann(), expr(), expr()}
| {map_get, ann(), expr(), expr(), expr()}
@@ -105,8 +116,10 @@
| id() | qid() | con() | qcon()
| constant().
-type comprehension_exp() :: [{ comprehension_bind, ann(), id(), expr()}
| {comprehension_if, expr()}
-type record_or_map() :: record | map | record_or_map_error.
-type comprehension_exp() :: [ {comprehension_bind, pat(), expr()}
| {comprehension_if, ann(), expr()}
| letbind() ].
-type arg_expr() :: expr() | {named_arg, ann(), id(), expr()}.
@@ -133,6 +146,7 @@
-type pat() :: {app, ann(), con() | op(), [pat()]}
| {tuple, ann(), [pat()]}
| {list, ann(), [pat()]}
| {typed, ann(), pat(), type()}
| {record, ann(), [field(pat())]}
| constant()
| con()
src/aeso_syntax_utils.erl
+11 -11
View File
@@ -45,11 +45,11 @@ fold(Alg = #alg{zero = Zero, plus = Plus, scoped = Scoped}, Fun, K, X) ->
%% decl()
{contract, _, _, Ds} -> Decl(Ds);
{namespace, _, _, Ds} -> Decl(Ds);
{type_decl, _, I, _} -> BindType(I);
{type_def, _, I, _, D} -> Plus(BindType(I), Decl(D));
{fun_decl, _, _, T} -> Type(T);
{letval, _, F, T, E} -> Sum([BindExpr(F), Type(T), Expr(E)]);
{letfun, _, F, Xs, T, E} -> Sum([BindExpr(F), Type(T), Scoped(BindExpr(Xs), Expr(E))]);
{letval, _, P, E} -> Scoped(BindExpr(P), Expr(E));
{letfun, _, F, Xs, T, E} -> Sum([BindExpr(F), Type(T), Expr(Xs ++ [E])]);
{fun_clauses, _, _, T, Cs} -> Sum([Type(T) | [Decl(C) || C <- Cs]]);
%% typedef()
{alias_t, T} -> Type(T);
{record_t, Fs} -> Type(Fs);
@@ -74,10 +74,10 @@ fold(Alg = #alg{zero = Zero, plus = Plus, scoped = Scoped}, Fun, K, X) ->
{list_comp, _, Y, []} -> Expr(Y);
{list_comp, A, Y, [{comprehension_bind, I, E}|R]} ->
Plus(Expr(E), Scoped(BindExpr(I), Expr({list_comp, A, Y, R})));
{list_comp, A, Y, [{comprehension_if, E}|R]} ->
{list_comp, A, Y, [{comprehension_if, _, E}|R]} ->
Plus(Expr(E), Expr({list_comp, A, Y, R}));
{list_comp, A, Y, [D = {letval, _, F, _, _} | R]} ->
Plus(Decl(D), Scoped(BindExpr(F), Expr({list_comp, A, Y, R})));
{list_comp, A, Y, [D = {letval, _, Pat, _} | R]} ->
Plus(Decl(D), Scoped(BindExpr(Pat), Expr({list_comp, A, Y, R})));
{list_comp, A, Y, [D = {letfun, _, F, _, _, _} | R]} ->
Plus(Decl(D), Scoped(BindExpr(F), Expr({list_comp, A, Y, R})));
{typed, _, E, T} -> Plus(Expr(E), Type(T));
@@ -92,7 +92,7 @@ fold(Alg = #alg{zero = Zero, plus = Plus, scoped = Scoped}, Fun, K, X) ->
{field, _, LV, E} -> Expr([LV, E]);
{field, _, LV, _, E} -> Expr([LV, E]);
%% arg()
{arg, _, X, T} -> Plus(Expr(X), Type(T));
{arg, _, Y, T} -> Plus(BindExpr(Y), Type(T));
%% alt()
{'case', _, P, E} -> Scoped(BindExpr(P), Expr(E));
%% elim()
@@ -124,12 +124,12 @@ used_types([Top] = _CurrentNS, T) ->
entity_alg() ->
IsBound = fun({K, _}) -> lists:member(K, [bound_term, bound_type]) end,
Unbind = fun(bound_term) -> term; (bound_type) -> type end,
Remove = fun(Keys, Map) -> lists:foldl(fun maps:remove/2, Map, Keys) end,
Remove = fun(Keys, Map) -> maps:without(Keys, Map) end,
Scoped = fun(Xs, Ys) ->
Bound = [E || E <- maps:keys(Ys), IsBound(E)],
Others = Remove(Bound, Ys),
Bound = [E || E <- maps:keys(Xs), IsBound(E)],
Bound1 = [ {Unbind(Tag), X} || {Tag, X} <- Bound ],
maps:merge(Remove(Bound1, Xs), Others)
Others = Remove(Bound1, Ys),
maps:merge(Remove(Bound, Xs), Others)
end,
#alg{ zero = #{}
, plus = fun maps:merge/2
src/aeso_vm_decode.erl
+26 -4
View File
@@ -18,8 +18,13 @@ from_aevm(word, {id, _, "address"}, N) -> address_literal(ac
from_aevm(word, {app_t, _, {id, _, "oracle"}, _}, N) -> address_literal(oracle_pubkey, N);
from_aevm(word, {app_t, _, {id, _, "oracle_query"}, _}, N) -> address_literal(oracle_query_id, N);
from_aevm(word, {con, _, _Name}, N) -> address_literal(contract_pubkey, N);
from_aevm(word, {id, _, "int"}, N) -> <<N1:256/signed>> = <<N:256>>, {int, [], N1};
from_aevm(word, {id, _, "bits"}, N) -> error({todo, bits, N});
from_aevm(word, {id, _, "int"}, N0) ->
<<N:256/signed>> = <<N0:256>>,
if N < 0 -> {app, [{format, prefix}], {'-', []}, [{int, [], -N}]};
true -> {int, [], N} end;
from_aevm(word, {id, _, "bits"}, N0) ->
<<N:256/signed>> = <<N0:256>>,
make_bits(N);
from_aevm(word, {id, _, "bool"}, N) -> {bool, [], N /= 0};
from_aevm(word, {bytes_t, _, Len}, Val) when Len =< 32 ->
<<Bytes:Len/unit:8, _/binary>> = <<Val:32/unit:8>>,
@@ -55,6 +60,7 @@ from_aevm({variant, VmCons}, {variant_t, Cons}, {variant, Tag, Args})
VmTypes = lists:nth(Tag + 1, VmCons),
ConType = lists:nth(Tag + 1, Cons),
from_aevm(VmTypes, ConType, Args);
from_aevm([], {constr_t, _, Con, []}, []) -> Con;
from_aevm(VmTypes, {constr_t, _, Con, Types}, Args)
when length(VmTypes) == length(Types),
length(VmTypes) == length(Args) ->
@@ -70,8 +76,10 @@ from_fate({app_t, _, {id, _, "oracle"}, _}, ?FATE_ORACLE(Bin)) -> {oracle_pubkey
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, _, N}, ?FATE_BYTES(Bin)) when byte_size(Bin) == N -> {bytes, [], Bin};
from_fate({id, _, "bits"}, ?FATE_BITS(Bin)) -> error({todo, bits, Bin});
from_fate({id, _, "int"}, N) when is_integer(N) -> {int, [], N};
from_fate({id, _, "bits"}, ?FATE_BITS(N)) -> make_bits(N);
from_fate({id, _, "int"}, N) when is_integer(N) ->
if N < 0 -> {app, [{format, prefix}], {'-', []}, [{int, [], -N}]};
true -> {int, [], N} end;
from_fate({id, _, "bool"}, B) when is_boolean(B) -> {bool, [], B};
from_fate({id, _, "string"}, S) when is_binary(S) -> {string, [], S};
from_fate({app_t, _, {id, _, "list"}, [Type]}, List) when is_list(List) ->
@@ -105,9 +113,23 @@ from_fate({variant_t, Cons}, {variant, Ar, Tag, Args})
from_fate(ConType, ArgList);
_ -> throw(cannot_translate_to_sophia)
end;
from_fate({constr_t, _, Con, []}, []) -> Con;
from_fate({constr_t, _, Con, Types}, Args)
when length(Types) == length(Args) ->
{app, [], Con, [ from_fate(Type, Arg)
|| {Type, Arg} <- lists:zip(Types, Args) ]};
from_fate(_Type, _Data) ->
throw(cannot_translate_to_sophia).
make_bits(N) ->
Id = fun(F) -> {qid, [], ["Bits", F]} end,
if N < 0 -> make_bits(Id("clear"), Id("all"), 0, bnot N);
true -> make_bits(Id("set"), Id("none"), 0, N) end.
make_bits(_Set, Zero, _I, 0) -> Zero;
make_bits(Set, Zero, I, N) when 0 == N rem 2 ->
make_bits(Set, Zero, I + 1, N div 2);
make_bits(Set, Zero, I, N) ->
{app, [], Set, [make_bits(Set, Zero, I + 1, N div 2), {int, [], I}]}.
src/aesophia.app.src
+1 -1
View File
@@ -1,6 +1,6 @@
{application, aesophia,
[{description, "Contract Language for aeternity"},
{vsn, "4.0.0-rc1"},
{vsn, "4.3.0"},
{registered, []},
{applications,
[kernel,
test/aeso_abi_tests.erl
+62 -8
View File
@@ -72,6 +72,58 @@ encode_decode_sophia_test() ->
ok = Check("r", "{x = (\"foo\", 0), y = Red}"),
ok.
to_sophia_value_neg_test() ->
Code = [ "contract Foo =\n"
" entrypoint x(y : int) : string = \"hello\"\n" ],
{error, [Err1]} = aeso_compiler:to_sophia_value(Code, "x", ok, encode(12)),
?assertEqual("Data error:\nFailed to decode binary as type string\n", aeso_errors:pp(Err1)),
{error, [Err2]} = aeso_compiler:to_sophia_value(Code, "x", ok, encode(12), [{backend, fate}]),
?assertEqual("Data error:\nFailed to decode binary as type string\n", aeso_errors:pp(Err2)),
{error, [Err3]} = aeso_compiler:to_sophia_value(Code, "x", revert, encode(12)),
?assertEqual("Data error:\nCould not interpret the revert message\n", aeso_errors:pp(Err3)),
{error, [Err4]} = aeso_compiler:to_sophia_value(Code, "x", revert, encode(12), [{backend, fate}]),
?assertEqual("Data error:\nCould not deserialize the revert message\n", aeso_errors:pp(Err4)),
ok.
encode_calldata_neg_test() ->
Code = [ "contract Foo =\n"
" entrypoint x(y : int) : string = \"hello\"\n" ],
ExpErr1 = "Type error at line 5, col 34:\nCannot unify int\n and bool\n"
"when checking the application at line 5, column 34 of\n"
" x : (int) => string\nto arguments\n true : bool\n",
{error, [Err1]} = aeso_compiler:create_calldata(Code, "x", ["true"]),
?assertEqual(ExpErr1, aeso_errors:pp(Err1)),
{error, [Err2]} = aeso_compiler:create_calldata(Code, "x", ["true"], [{backend, fate}]),
?assertEqual(ExpErr1, aeso_errors:pp(Err2)),
ok.
decode_calldata_neg_test() ->
Code1 = [ "contract Foo =\n"
" entrypoint x(y : int) : string = \"hello\"\n" ],
Code2 = [ "contract Foo =\n"
" entrypoint x(y : string) : int = 42\n" ],
{ok, CallDataAEVM} = aeso_compiler:create_calldata(Code1, "x", ["42"]),
{ok, CallDataFATE} = aeso_compiler:create_calldata(Code1, "x", ["42"], [{backend, fate}]),
{error, [Err1]} = aeso_compiler:decode_calldata(Code2, "x", CallDataAEVM),
?assertEqual("Data error:\nFailed to decode calldata as type {tuple,[string]}\n", aeso_errors:pp(Err1)),
{error, [Err2]} = aeso_compiler:decode_calldata(Code2, "x", <<1,2,3>>, [{backend, fate}]),
?assertEqual("Data error:\nFailed to decode calldata binary\n", aeso_errors:pp(Err2)),
{error, [Err3]} = aeso_compiler:decode_calldata(Code2, "x", CallDataFATE, [{backend, fate}]),
?assertEqual("Data error:\nCannot translate FATE value \"*\"\n to Sophia type (string)\n", aeso_errors:pp(Err3)),
{error, [Err4]} = aeso_compiler:decode_calldata(Code2, "y", CallDataAEVM),
?assertEqual("Data error at line 1, col 1:\nFunction 'y' is missing in contract\n", aeso_errors:pp(Err4)),
{error, [Err5]} = aeso_compiler:decode_calldata(Code2, "y", CallDataFATE, [{backend, fate}]),
?assertEqual("Data error at line 1, col 1:\nFunction 'y' is missing in contract\n", aeso_errors:pp(Err5)),
ok.
encode_decode_sophia_string(SophiaType, String) ->
io:format("String ~p~n", [String]),
Code = [ "contract MakeCall =\n"
@@ -80,11 +132,11 @@ encode_decode_sophia_string(SophiaType, String) ->
, " record r = {x : an_alias(int), y : variant}\n"
, " datatype variant = Red | Blue(map(string, int))\n"
, " entrypoint foo : arg_type => arg_type\n" ],
case aeso_compiler:check_call(lists:flatten(Code), "foo", [String], [no_implicit_stdlib]) of
case aeso_compiler:check_call(lists:flatten(Code), "foo", [String], [no_code]) of
{ok, _, {[Type], _}, [Arg]} ->
io:format("Type ~p~n", [Type]),
Data = encode(Arg),
case aeso_compiler:to_sophia_value(Code, "foo", ok, Data, [no_implicit_stdlib]) of
case aeso_compiler:to_sophia_value(Code, "foo", ok, Data, [no_code]) of
{ok, Sophia} ->
lists:flatten(io_lib:format("~s", [prettypr:format(aeso_pretty:expr(Sophia))]));
{error, Err} ->
@@ -152,7 +204,7 @@ oracle_test() ->
" Oracle.get_question(o, q)\n",
{ok, _, {[word, word], {list, string}}, [16#123, 16#456]} =
aeso_compiler:check_call(Contract, "question", ["ok_111111111111111111111111111111ZrdqRz9",
"oq_1111111111111111111111111111113AFEFpt5"], [no_implicit_stdlib]),
"oq_1111111111111111111111111111113AFEFpt5"], [no_code]),
ok.
@@ -161,8 +213,10 @@ permissive_literals_fail_test() ->
"contract OracleTest =\n"
" stateful entrypoint haxx(o : oracle(list(string), option(int))) =\n"
" Chain.spend(o, 1000000)\n",
{error, <<"Type errors\nCannot unify", _/binary>>} =
aeso_compiler:check_call(Contract, "haxx", ["#123"], [no_implicit_stdlib]),
{error, [Err]} =
aeso_compiler:check_call(Contract, "haxx", ["#123"], []),
?assertMatch("Type error at line 3, col 5:\nCannot unify" ++ _, aeso_errors:pp(Err)),
?assertEqual(type_error, aeso_errors:type(Err)),
ok.
encode_decode_calldata(FunName, Types, Args) ->
@@ -173,8 +227,8 @@ encode_decode_calldata(FunName, Types, Args, RetType) ->
encode_decode_calldata_(Code, FunName, Args, RetType).
encode_decode_calldata_(Code, FunName, Args, RetVMType) ->
{ok, Calldata} = aeso_compiler:create_calldata(Code, FunName, Args, [no_implicit_stdlib]),
{ok, _, {ArgTypes, RetType}, _} = aeso_compiler:check_call(Code, FunName, Args, [{backend, aevm}, no_implicit_stdlib]),
{ok, Calldata} = aeso_compiler:create_calldata(Code, FunName, Args, []),
{ok, _, {ArgTypes, RetType}, _} = aeso_compiler:check_call(Code, FunName, Args, [{backend, aevm}, no_code]),
?assertEqual(RetType, RetVMType),
CalldataType = {tuple, [word, {tuple, ArgTypes}]},
{ok, {_Hash, ArgTuple}} = aeb_heap:from_binary(CalldataType, Calldata),
@@ -182,7 +236,7 @@ encode_decode_calldata_(Code, FunName, Args, RetVMType) ->
"init" ->
ok;
_ ->
{ok, _ArgTypes, ValueASTs} = aeso_compiler:decode_calldata(Code, FunName, Calldata, [no_implicit_stdlib]),
{ok, _ArgTypes, ValueASTs} = aeso_compiler:decode_calldata(Code, FunName, Calldata, []),
Values = [ prettypr:format(aeso_pretty:expr(V)) || V <- ValueASTs ],
?assertMatch({X, X}, {Args, Values})
end,
test/aeso_aci_tests.erl
+9 -10
View File
@@ -9,7 +9,7 @@ simple_aci_test_() ->
test_contract(N) ->
{Contract,MapACI,DecACI} = test_cases(N),
{ok,JSON} = aeso_aci:contract_interface(json, Contract, [no_implicit_stdlib]),
{ok,JSON} = aeso_aci:contract_interface(json, Contract),
?assertEqual([MapACI], JSON),
?assertEqual({ok, DecACI}, aeso_aci:render_aci_json(JSON)).
@@ -90,8 +90,7 @@ aci_test_() ->
fun() -> aci_test_contract(ContractName) end}
|| ContractName <- all_contracts()].
all_contracts() -> [C || C <- aeso_compiler_tests:compilable_contracts()
, not aeso_compiler_tests:wants_stdlib(C)].
all_contracts() -> aeso_compiler_tests:compilable_contracts().
aci_test_contract(Name) ->
String = aeso_test_utils:read_contract(Name),
@@ -107,20 +106,20 @@ aci_test_contract(Name) ->
ok.
check_stub(Stub, Options) ->
case aeso_parser:string(binary_to_list(Stub), Options) of
{ok, Ast} ->
try aeso_parser:string(binary_to_list(Stub), Options) of
Ast ->
try
%% io:format("AST: ~120p\n", [Ast]),
aeso_ast_infer_types:infer(Ast, [])
catch _:{type_errors, TE} ->
catch throw:{type_errors, TE} ->
io:format("Type error:\n~s\n", [TE]),
error(TE);
_:R ->
io:format("Error: ~p\n", [R]),
error(R)
end;
{error, E} ->
io:format("Error: ~p\n", [E]),
error({parse_error, E})
end
catch throw:{error, Errs} ->
_ = [ io:format("~s\n", [aeso_errors:pp(E)]) || E <- Errs ],
error({parse_errors, Errs})
end.
test/aeso_calldata_tests.erl
+32 -20
View File
@@ -21,21 +21,18 @@ calldata_test_() ->
ContractString = aeso_test_utils:read_contract(ContractName),
AevmExprs =
case not lists:member(ContractName, not_yet_compilable(aevm)) of
true -> ast_exprs(ContractString, Fun, Args, [{backend, aevm}]
++ [no_implicit_stdlib || not aeso_compiler_tests:wants_stdlib(ContractName)]);
true -> ast_exprs(ContractString, Fun, Args, [{backend, aevm}]);
false -> undefined
end,
FateExprs =
case not lists:member(ContractName, not_yet_compilable(fate)) of
true -> ast_exprs(ContractString, Fun, Args, [{backend, fate}]
++ [no_implicit_stdlib || not aeso_compiler_tests:wants_stdlib(ContractName)]);
true -> ast_exprs(ContractString, Fun, Args, [{backend, fate}]);
false -> undefined
end,
case FateExprs == undefined orelse AevmExprs == undefined of
true -> ok;
false ->
?assertEqual(FateExprs, AevmExprs)
end
ParsedExprs = parse_args(Fun, Args),
[ ?assertEqual(ParsedExprs, AevmExprs) || AevmExprs /= undefined ],
[ ?assertEqual(ParsedExprs, FateExprs) || FateExprs /= undefined ],
ok
end} || {ContractName, Fun, Args} <- compilable_contracts()].
calldata_aci_test_() ->
@@ -47,29 +44,42 @@ calldata_aci_test_() ->
io:format("ACI:\n~s\n", [ContractACIBin]),
AevmExprs =
case not lists:member(ContractName, not_yet_compilable(aevm)) of
true -> ast_exprs(ContractACI, Fun, Args, [{backend, aevm}]
++ [no_implicit_stdlib || not aeso_compiler_tests:wants_stdlib(ContractName)]);
true -> ast_exprs(ContractACI, Fun, Args, [{backend, aevm}]);
false -> undefined
end,
FateExprs =
case not lists:member(ContractName, not_yet_compilable(fate)) of
true -> ast_exprs(ContractACI, Fun, Args, [{backend, fate}]
++ [no_implicit_stdlib || not aeso_compiler_tests:wants_stdlib(ContractName)]);
true -> ast_exprs(ContractACI, Fun, Args, [{backend, fate}]);
false -> undefined
end,
case FateExprs == undefined orelse AevmExprs == undefined of
true -> ok;
false ->
?assertEqual(FateExprs, AevmExprs)
end
ParsedExprs = parse_args(Fun, Args),
[ ?assertEqual(ParsedExprs, AevmExprs) || AevmExprs /= undefined ],
[ ?assertEqual(ParsedExprs, FateExprs) || FateExprs /= undefined ],
ok
end} || {ContractName, Fun, Args} <- compilable_contracts()].
parse_args(Fun, Args) ->
[{contract, _, _, [{letfun, _, _, _, _, {app, _, _, AST}}]}] =
aeso_parser:string("contract Temp = function foo() = " ++ Fun ++ "(" ++ string:join(Args, ", ") ++ ")"),
strip_ann(AST).
strip_ann(T) when is_tuple(T) ->
strip_ann1(setelement(2, T, []));
strip_ann(X) -> strip_ann1(X).
strip_ann1({map, [], KVs}) ->
{map, [], [{strip_ann(K), strip_ann(V)} || {K, V} <- KVs]};
strip_ann1(T) when is_tuple(T) ->
list_to_tuple(strip_ann1(tuple_to_list(T)));
strip_ann1(L) when is_list(L) ->
lists:map(fun strip_ann/1, L);
strip_ann1(X) -> X.
ast_exprs(ContractString, Fun, Args, Opts) ->
{ok, Data} = (catch aeso_compiler:create_calldata(ContractString, Fun, Args, Opts)),
{ok, _Types, Exprs} = (catch aeso_compiler:decode_calldata(ContractString, Fun, Data, Opts)),
?assert(is_list(Exprs)),
Exprs.
strip_ann(Exprs).
check_errors(Expect, ErrorString) ->
%% This removes the final single \n as well.
@@ -89,7 +99,9 @@ compilable_contracts() ->
{"maps", "init", []},
{"funargs", "menot", ["false"]},
{"funargs", "append", ["[\"false\", \" is\", \" not\", \" true\"]"]},
%% TODO {"funargs", "bitsum", ["Bits.all"]},
{"funargs", "bitsum", ["Bits.all"]},
{"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", "sjutton", ["#0011012003100011012003100011012003"]},
{"funargs", "sextiosju", ["#01020304050607080910111213141516171819202122232425262728293031323334353637383940"
test/aeso_compiler_tests.erl
+636 -177
View File
@@ -12,6 +12,14 @@
-include_lib("eunit/include/eunit.hrl").
run_test(Test) ->
TestFun = list_to_atom(lists:concat([Test, "_test_"])),
[ begin
io:format("~s\n", [Label]),
Fun()
end || {Label, Fun} <- ?MODULE:TestFun() ],
ok.
%% Very simply test compile the given contracts. Only basic checks
%% are made on the output, just that it is a binary which indicates
%% that the compilation worked.
@@ -32,16 +40,34 @@ simple_compile_test_() ->
end
end} || ContractName <- compilable_contracts(), Backend <- [aevm, fate],
not lists:member(ContractName, not_yet_compilable(Backend))] ++
[ {"Test file not found error",
fun() ->
{error, Errors} = aeso_compiler:file("does_not_exist.aes"),
ExpErr = <<"File error:\ndoes_not_exist.aes: no such file or directory">>,
check_errors([ExpErr], Errors)
end} ] ++
[ {"Testing error messages of " ++ ContractName,
fun() ->
case compile(aevm, ContractName) of
<<"Type errors\n", ErrorString/binary>> ->
check_errors(lists:sort(ExpectedErrors), ErrorString);
<<"Parse errors\n", ErrorString/binary>> ->
check_errors(lists:sort(ExpectedErrors), ErrorString)
end
Errors = compile(aevm, ContractName),
check_errors(ExpectedErrors, Errors)
end} ||
{ContractName, ExpectedErrors} <- failing_contracts() ] ++
[ {"Testing " ++ atom_to_list(Backend) ++ " code generation error messages of " ++ ContractName,
fun() ->
Errors = compile(Backend, ContractName),
Expect =
case is_binary(ExpectedError) of
true -> [ExpectedError];
false ->
case proplists:get_value(Backend, ExpectedError, no_error) of
no_error -> no_error;
Err -> [Err]
end
end,
check_errors(Expect, Errors)
end} ||
{ContractName, ExpectedError} <- failing_code_gen_contracts(),
Backend <- [aevm, fate] ] ++
[ {"Testing include with explicit files",
fun() ->
FileSystem = maps:from_list(
@@ -63,11 +89,15 @@ simple_compile_test_() ->
Backend == fate -> 20 end,
?assertMatch({_, _, true}, {SizeDeadCode, SizeNoDeadCode, SizeDeadCode + Delta < SizeNoDeadCode}),
ok
end} || Backend <- [aevm, fate] ].
end} || Backend <- [aevm, fate] ] ++
[].
check_errors(Expect, ErrorString) ->
%% This removes the final single \n as well.
Actual = binary:split(<<ErrorString/binary,$\n>>, <<"\n\n">>, [global,trim]),
check_errors(no_error, Actual) -> ?assertMatch(#{}, Actual);
check_errors(Expect, #{}) ->
?assertEqual({error, Expect}, ok);
check_errors(Expect0, Actual0) ->
Expect = lists:sort(Expect0),
Actual = [ list_to_binary(string:trim(aeso_errors:pp(Err))) || Err <- Actual0 ],
case {Expect -- Actual, Actual -- Expect} of
{[], Extra} -> ?assertMatch({unexpected, []}, {unexpected, Extra});
{Missing, []} -> ?assertMatch({missing, []}, {missing, Missing});
@@ -76,14 +106,14 @@ check_errors(Expect, ErrorString) ->
compile(Backend, Name) ->
compile(Backend, Name,
[{include, {file_system, [aeso_test_utils:contract_path()]}}]
++ [no_implicit_stdlib || not wants_stdlib(Name)]).
[{include, {file_system, [aeso_test_utils:contract_path()]}}]).
compile(Backend, Name, Options) ->
String = aeso_test_utils:read_contract(Name),
case aeso_compiler:from_string(String, [{src_file, Name}, {backend, Backend} | Options]) of
case aeso_compiler:from_string(String, [{src_file, Name ++ ".aes"}, {backend, Backend} | Options]) of
{ok, Map} -> Map;
{error, ErrorString} -> ErrorString
{error, ErrorString} when is_binary(ErrorString) -> ErrorString;
{error, Errors} -> Errors
end.
%% compilable_contracts() -> [ContractName].
@@ -108,6 +138,7 @@ compilable_contracts() ->
"test",
"builtin_bug",
"builtin_map_get_bug",
"lc_record_bug",
"nodeadcode",
"deadcode",
"variant_types",
@@ -121,6 +152,7 @@ compilable_contracts() ->
"address_chain",
"namespace_bug",
"bytes_to_x",
"bytes_concat",
"aens",
"tuple_match",
"cyclic_include",
@@ -128,7 +160,12 @@ compilable_contracts() ->
"double_include",
"manual_stdlib_include",
"list_comp",
"payable"
"payable",
"unapplied_builtins",
"underscore_number_literals",
"qualified_constructor",
"let_patterns",
"lhs_matching"
].
not_yet_compilable(fate) -> [];
@@ -136,251 +173,673 @@ not_yet_compilable(aevm) -> [].
%% Contracts that should produce type errors
-define(Pos(Kind, File, Line, Col), (list_to_binary(Kind))/binary, " error in '",
(list_to_binary(File))/binary, ".aes' at line " ??Line ", col " ??Col ":\n").
-define(Pos(Line, Col), ?Pos(__Kind, __File, Line, Col)).
-define(ERROR(Kind, Name, Errs),
(fun() ->
__Kind = Kind,
__File = ??Name,
{__File, Errs}
end)()).
-define(TYPE_ERROR(Name, Errs), ?ERROR("Type", Name, Errs)).
-define(PARSE_ERROR(Name, Errs), ?ERROR("Parse", Name, Errs)).
failing_contracts() ->
[ {"name_clash",
[<<"Duplicate definitions of abort at\n"
{ok, V} = aeso_compiler:numeric_version(),
Version = list_to_binary(string:join([integer_to_list(N) || N <- V], ".")),
%% Parse errors
[ ?PARSE_ERROR(field_parse_error,
[<<?Pos(5, 26)
"Cannot use nested fields or keys in record construction: p.x">>])
, ?PARSE_ERROR(vsemi, [<<?Pos(3, 3) "Unexpected indentation. Did you forget a '}'?">>])
, ?PARSE_ERROR(vclose, [<<?Pos(4, 3) "Unexpected indentation. Did you forget a ']'?">>])
, ?PARSE_ERROR(indent_fail, [<<?Pos(3, 2) "Unexpected token 'entrypoint'.">>])
%% Type errors
, ?TYPE_ERROR(name_clash,
[<<?Pos(14, 3)
"Duplicate definitions of abort at\n"
" - (builtin location)\n"
" - line 14, column 3">>,
<<"Duplicate definitions of require at\n"
<<?Pos(15, 3)
"Duplicate definitions of require at\n"
" - (builtin location)\n"
" - line 15, column 3">>,
<<"Duplicate definitions of double_def at\n"
<<?Pos(11, 3)
"Duplicate definitions of double_def at\n"
" - line 10, column 3\n"
" - line 11, column 3">>,
<<"Duplicate definitions of double_proto at\n"
<<?Pos(5, 3)
"Duplicate definitions of double_proto at\n"
" - line 4, column 3\n"
" - line 5, column 3">>,
<<"Duplicate definitions of proto_and_def at\n"
<<?Pos(8, 3)
"Duplicate definitions of proto_and_def at\n"
" - line 7, column 3\n"
" - line 8, column 3">>,
<<"Duplicate definitions of put at\n"
<<?Pos(16, 3)
"Duplicate definitions of put at\n"
" - (builtin location)\n"
" - line 16, column 3">>,
<<"Duplicate definitions of state at\n"
<<?Pos(17, 3)
"Duplicate definitions of state at\n"
" - (builtin location)\n"
" - line 17, column 3">>]}
, {"type_errors",
[<<"Unbound variable zz at line 17, column 23">>,
<<"Cannot unify int\n"
" - line 17, column 3">>])
, ?TYPE_ERROR(type_errors,
[<<?Pos(17, 23)
"Unbound variable zz at line 17, column 23">>,
<<?Pos(26, 9)
"Cannot unify int\n"
" and list(int)\n"
"when checking the application at line 26, column 9 of\n"
" (::) : (int, list(int)) => list(int)\n"
"to arguments\n"
" x : int\n"
" x : int">>,
<<"Cannot unify string\n"
<<?Pos(9, 48)
"Cannot unify string\n"
" and int\n"
"when checking the assignment of the field\n"
" x : map(string, string) (at line 9, column 48)\n"
"to the old value __x and the new value\n"
" __x {[\"foo\"] @ x = x + 1} : map(string, int)">>,
<<"Cannot unify int\n"
<<?Pos(34, 47)
"Cannot unify int\n"
" and string\n"
"when checking the type of the expression at line 34, column 47\n"
" 1 : int\n"
"against the expected type\n"
" string">>,
<<"Cannot unify string\n"
<<?Pos(34, 52)
"Cannot unify string\n"
" and int\n"
"when checking the type of the expression at line 34, column 52\n"
" \"bla\" : string\n"
"against the expected type\n"
" int">>,
<<"Cannot unify string\n"
<<?Pos(32, 18)
"Cannot unify string\n"
" and int\n"
"when checking the type of the expression at line 32, column 18\n"
" \"x\" : string\n"
"against the expected type\n"
" int">>,
<<"Cannot unify string\n"
<<?Pos(11, 58)
"Cannot unify string\n"
" and int\n"
"when checking the type of the expression at line 11, column 58\n"
" \"foo\" : string\n"
"against the expected type\n"
" int">>,
<<"Cannot unify int\n"
<<?Pos(38, 13)
"Cannot unify int\n"
" and string\n"
"when comparing the types of the if-branches\n"
" - w : int (at line 38, column 13)\n"
" - z : string (at line 39, column 10)">>,
<<"Not a record type: string\n"
<<?Pos(22, 40)
"Not a record type: string\n"
"arising from the projection of the field y (at line 22, column 40)">>,
<<"Not a record type: string\n"
<<?Pos(21, 44)
"Not a record type: string\n"
"arising from an assignment of the field y (at line 21, column 44)">>,
<<"Not a record type: string\n"
<<?Pos(20, 40)
"Not a record type: string\n"
"arising from an assignment of the field y (at line 20, column 40)">>,
<<"Not a record type: string\n"
<<?Pos(19, 37)
"Not a record type: string\n"
"arising from an assignment of the field y (at line 19, column 37)">>,
<<"Ambiguous record type with field y (at line 13, column 27) could be one of\n"
<<?Pos(13, 27)
"Ambiguous record type with field y (at line 13, column 27) could be one of\n"
" - r (at line 4, column 10)\n"
" - r' (at line 5, column 10)">>,
<<"Repeated name x in pattern\n"
<<?Pos(26, 7)
"Repeated name x in pattern\n"
" x :: x (at line 26, column 7)">>,
<<"Repeated argument x to function repeated_arg (at line 44, column 14).">>,
<<"Repeated argument y to function repeated_arg (at line 44, column 14).">>,
<<"No record type with fields y, z (at line 14, column 24)">>,
<<"The field z is missing when constructing an element of type r2 (at line 15, column 26)">>,
<<"Record type r2 does not have field y (at line 15, column 24)">>,
<<"Let binding at line 47, column 5 must be followed by an expression">>,
<<"Let binding at line 50, column 5 must be followed by an expression">>,
<<"Let binding at line 54, column 5 must be followed by an expression">>,
<<"Let binding at line 58, column 5 must be followed by an expression">>]}
, {"init_type_error",
[<<"Cannot unify string\n"
<<?Pos(44, 14)
"Repeated names x, y in pattern\n"
" (x : int, y, x : string, y : bool) (at line 44, column 14)">>,
<<?Pos(44, 39)
"Cannot unify int\n"
" and string\n"
"when checking the type of the expression at line 44, column 39\n"
" x : int\n"
"against the expected type\n"
" string">>,
<<?Pos(44, 72)
"Cannot unify int\n"
" and string\n"
"when checking the type of the expression at line 44, column 72\n"
" x : int\n"
"against the expected type\n"
" string">>,
<<?Pos(14, 24)
"No record type with fields y, z (at line 14, column 24)">>,
<<?Pos(15, 26)
"The field z is missing when constructing an element of type r2 (at line 15, column 26)">>,
<<?Pos(15, 24)
"Record type r2 does not have field y (at line 15, column 24)">>,
<<?Pos(47, 5)
"Let binding at line 47, column 5 must be followed by an expression">>,
<<?Pos(50, 5)
"Let binding at line 50, column 5 must be followed by an expression">>,
<<?Pos(54, 5)
"Let binding at line 54, column 5 must be followed by an expression">>,
<<?Pos(58, 5)
"Let binding at line 58, column 5 must be followed by an expression">>,
<<?Pos(63, 5)
"Cannot unify int\n"
" and bool\n"
"when checking the type of the expression at line 63, column 5\n"
" id(n) : int\n"
"against the expected type\n"
" bool">>])
, ?TYPE_ERROR(init_type_error,
[<<?Pos(7, 3)
"Cannot unify string\n"
" and map(int, int)\n"
"when checking that 'init' returns a value of type 'state' at line 7, column 3">>]}
, {"missing_state_type",
[<<"Cannot unify string\n"
"when checking that 'init' returns a value of type 'state' at line 7, column 3">>])
, ?TYPE_ERROR(missing_state_type,
[<<?Pos(5, 3)
"Cannot unify string\n"
" and unit\n"
"when checking that 'init' returns a value of type 'state' at line 5, column 3">>]}
, {"missing_fields_in_record_expression",
[<<"The field x is missing when constructing an element of type r('a) (at line 7, column 42)">>,
<<"The field y is missing when constructing an element of type r(int) (at line 8, column 42)">>,
<<"The fields y, z are missing when constructing an element of type r('a) (at line 6, column 42)">>]}
, {"namespace_clash",
[<<"The contract Call (at line 4, column 10) has the same name as a namespace at (builtin location)">>]}
, {"bad_events",
[<<"The indexed type string (at line 9, column 25) is not a word type">>,
<<"The indexed type alias_string (at line 10, column 25) equals string which is not a word type">>]}
, {"bad_events2",
[<<"The event constructor BadEvent1 (at line 9, column 7) has too many non-indexed values (max 1)">>,
<<"The event constructor BadEvent2 (at line 10, column 7) has too many indexed values (max 3)">>]}
, {"type_clash",
[<<"Cannot unify int\n"
"when checking that 'init' returns a value of type 'state' at line 5, column 3">>])
, ?TYPE_ERROR(missing_fields_in_record_expression,
[<<?Pos(7, 42)
"The field x is missing when constructing an element of type r('a) (at line 7, column 42)">>,
<<?Pos(8, 42)
"The field y is missing when constructing an element of type r(int) (at line 8, column 42)">>,
<<?Pos(6, 42)
"The fields y, z are missing when constructing an element of type r('a) (at line 6, column 42)">>])
, ?TYPE_ERROR(namespace_clash,
[<<?Pos(4, 10)
"The contract Call (at line 4, column 10) has the same name as a namespace at (builtin location)">>])
, ?TYPE_ERROR(bad_events,
[<<?Pos(9, 25)
"The indexed type string (at line 9, column 25) is not a word type">>,
<<?Pos(10, 25)
"The indexed type alias_string (at line 10, column 25) equals string which is not a word type">>])
, ?TYPE_ERROR(bad_events2,
[<<?Pos(9, 7)
"The event constructor BadEvent1 (at line 9, column 7) has too many non-indexed values (max 1)">>,
<<?Pos(10, 7)
"The event constructor BadEvent2 (at line 10, column 7) has too many indexed values (max 3)">>])
, ?TYPE_ERROR(type_clash,
[<<?Pos(12, 42)
"Cannot unify int\n"
" and string\n"
"when checking the record projection at line 12, column 42\n"
" r.foo : (gas : int, value : int) => Remote.themap\n"
"against the expected type\n"
" (gas : int, value : int) => map(string, int)">>]}
, {"bad_include_and_ns",
[<<"Include of 'included.aes' at line 2, column 11\nnot allowed, include only allowed at top level.">>,
<<"Nested namespace not allowed\nNamespace 'Foo' at line 3, column 13 not defined at top level.">>]}
, {"bad_address_literals",
[<<"The type bytes(32) is not a contract type\n"
"when checking that the contract literal at line 32, column 5\n"
" ct_Ez6MyeTMm17YnTnDdHTSrzMEBKmy7Uz2sXu347bTDPgVH2ifJ\n"
"has the type\n"
" bytes(32)">>,
<<"The type oracle(int, bool) is not a contract type\n"
"when checking that the contract literal at line 30, column 5\n"
" ct_Ez6MyeTMm17YnTnDdHTSrzMEBKmy7Uz2sXu347bTDPgVH2ifJ\n"
"has the type\n"
" oracle(int, bool)">>,
<<"The type address is not a contract type\n"
"when checking that the contract literal at line 28, column 5\n"
" ct_Ez6MyeTMm17YnTnDdHTSrzMEBKmy7Uz2sXu347bTDPgVH2ifJ\n"
"has the type\n"
" address">>,
<<"Cannot unify oracle_query('a, 'b)\n"
" and Remote\n"
"when checking the type of the expression at line 25, column 5\n"
" oq_2oRvyowJuJnEkxy58Ckkw77XfWJrmRgmGaLzhdqb67SKEL1gPY :\n"
" oracle_query('a, 'b)\n"
"against the expected type\n"
" Remote">>,
<<"Cannot unify oracle_query('c, 'd)\n"
" and bytes(32)\n"
"when checking the type of the expression at line 23, column 5\n"
" oq_2oRvyowJuJnEkxy58Ckkw77XfWJrmRgmGaLzhdqb67SKEL1gPY :\n"
" oracle_query('c, 'd)\n"
"against the expected type\n"
" bytes(32)">>,
<<"Cannot unify oracle_query('e, 'f)\n"
" and oracle(int, bool)\n"
"when checking the type of the expression at line 21, column 5\n"
" oq_2oRvyowJuJnEkxy58Ckkw77XfWJrmRgmGaLzhdqb67SKEL1gPY :\n"
" oracle_query('e, 'f)\n"
"against the expected type\n"
" oracle(int, bool)">>,
<<"Cannot unify oracle('g, 'h)\n"
" and Remote\n"
"when checking the type of the expression at line 18, column 5\n"
" ok_2YNyxd6TRJPNrTcEDCe9ra59SVUdp9FR9qWC5msKZWYD9bP9z5 :\n"
" oracle('g, 'h)\n"
"against the expected type\n"
" Remote">>,
<<"Cannot unify oracle('i, 'j)\n"
" and bytes(32)\n"
"when checking the type of the expression at line 16, column 5\n"
" ok_2YNyxd6TRJPNrTcEDCe9ra59SVUdp9FR9qWC5msKZWYD9bP9z5 :\n"
" oracle('i, 'j)\n"
"against the expected type\n"
" bytes(32)">>,
<<"Cannot unify oracle('k, 'l)\n"
" and oracle_query(int, bool)\n"
"when checking the type of the expression at line 14, column 5\n"
" ok_2YNyxd6TRJPNrTcEDCe9ra59SVUdp9FR9qWC5msKZWYD9bP9z5 :\n"
" oracle('k, 'l)\n"
"against the expected type\n"
" oracle_query(int, bool)">>,
<<"Cannot unify address\n"
" (gas : int, value : int) => map(string, int)">>])
, ?TYPE_ERROR(not_toplevel_include,
[<<?Pos(2, 11)
"Include of 'included.aes' at line 2, column 11\nnot allowed, include only allowed at top level.">>])
, ?TYPE_ERROR(not_toplevel_namespace,
[<<?Pos(2, 13)
"Nested namespaces are not allowed\nNamespace 'Foo' at line 2, column 13 not defined at top level.">>])
, ?TYPE_ERROR(not_toplevel_contract,
[<<?Pos(2, 12)
"Nested contracts are not allowed\nContract 'Con' at line 2, column 12 not defined at top level.">>])
, ?TYPE_ERROR(bad_address_literals,
[<<?Pos(11, 5)
"Cannot unify address\n"
" and oracle(int, bool)\n"
"when checking the type of the expression at line 11, column 5\n"
" ak_2gx9MEFxKvY9vMG5YnqnXWv1hCsX7rgnfvBLJS4aQurustR1rt : address\n"
"against the expected type\n"
" oracle(int, bool)">>,
<<"Cannot unify address\n"
<<?Pos(9, 5)
"Cannot unify address\n"
" and Remote\n"
"when checking the type of the expression at line 9, column 5\n"
" ak_2gx9MEFxKvY9vMG5YnqnXWv1hCsX7rgnfvBLJS4aQurustR1rt : address\n"
"against the expected type\n"
" Remote">>,
<<"Cannot unify address\n"
<<?Pos(7, 5)
"Cannot unify address\n"
" and bytes(32)\n"
"when checking the type of the expression at line 7, column 5\n"
" ak_2gx9MEFxKvY9vMG5YnqnXWv1hCsX7rgnfvBLJS4aQurustR1rt : address\n"
"against the expected type\n"
" bytes(32)">>]}
, {"stateful",
[<<"Cannot reference stateful function Chain.spend (at line 13, column 35)\nin the definition of non-stateful function fail1.">>,
<<"Cannot reference stateful function local_spend (at line 14, column 35)\nin the definition of non-stateful function fail2.">>,
<<"Cannot reference stateful function Chain.spend (at line 16, column 15)\nin the definition of non-stateful function fail3.">>,
<<"Cannot reference stateful function Chain.spend (at line 20, column 31)\nin the definition of non-stateful function fail4.">>,
<<"Cannot reference stateful function Chain.spend (at line 35, column 47)\nin the definition of non-stateful function fail5.">>,
<<"Cannot pass non-zero value argument 1000 (at line 48, column 57)\nin the definition of non-stateful function fail6.">>,
<<"Cannot pass non-zero value argument 1000 (at line 49, column 56)\nin the definition of non-stateful function fail7.">>,
<<"Cannot pass non-zero value argument 1000 (at line 52, column 17)\nin the definition of non-stateful function fail8.">>]}
, {"bad_init_state_access",
[<<"The init function should return the initial state as its result and cannot write the state,\n"
" bytes(32)">>,
<<?Pos(14, 5)
"Cannot unify oracle('a, 'b)\n"
" and oracle_query(int, bool)\n"
"when checking the type of the expression at line 14, column 5\n"
" ok_2YNyxd6TRJPNrTcEDCe9ra59SVUdp9FR9qWC5msKZWYD9bP9z5 :\n"
" oracle('a, 'b)\n"
"against the expected type\n"
" oracle_query(int, bool)">>,
<<?Pos(16, 5)
"Cannot unify oracle('c, 'd)\n"
" and bytes(32)\n"
"when checking the type of the expression at line 16, column 5\n"
" ok_2YNyxd6TRJPNrTcEDCe9ra59SVUdp9FR9qWC5msKZWYD9bP9z5 :\n"
" oracle('c, 'd)\n"
"against the expected type\n"
" bytes(32)">>,
<<?Pos(18, 5)
"Cannot unify oracle('e, 'f)\n"
" and Remote\n"
"when checking the type of the expression at line 18, column 5\n"
" ok_2YNyxd6TRJPNrTcEDCe9ra59SVUdp9FR9qWC5msKZWYD9bP9z5 :\n"
" oracle('e, 'f)\n"
"against the expected type\n"
" Remote">>,
<<?Pos(21, 5)
"Cannot unify oracle_query('g, 'h)\n"
" and oracle(int, bool)\n"
"when checking the type of the expression at line 21, column 5\n"
" oq_2oRvyowJuJnEkxy58Ckkw77XfWJrmRgmGaLzhdqb67SKEL1gPY :\n"
" oracle_query('g, 'h)\n"
"against the expected type\n"
" oracle(int, bool)">>,
<<?Pos(23, 5)
"Cannot unify oracle_query('i, 'j)\n"
" and bytes(32)\n"
"when checking the type of the expression at line 23, column 5\n"
" oq_2oRvyowJuJnEkxy58Ckkw77XfWJrmRgmGaLzhdqb67SKEL1gPY :\n"
" oracle_query('i, 'j)\n"
"against the expected type\n"
" bytes(32)">>,
<<?Pos(25, 5)
"Cannot unify oracle_query('k, 'l)\n"
" and Remote\n"
"when checking the type of the expression at line 25, column 5\n"
" oq_2oRvyowJuJnEkxy58Ckkw77XfWJrmRgmGaLzhdqb67SKEL1gPY :\n"
" oracle_query('k, 'l)\n"
"against the expected type\n"
" Remote">>,
<<?Pos(28, 5)
"The type address is not a contract type\n"
"when checking that the contract literal\n"
" ct_Ez6MyeTMm17YnTnDdHTSrzMEBKmy7Uz2sXu347bTDPgVH2ifJ\n"
"has the type\n"
" address">>,
<<?Pos(30, 5)
"The type oracle(int, bool) is not a contract type\n"
"when checking that the contract literal\n"
" ct_Ez6MyeTMm17YnTnDdHTSrzMEBKmy7Uz2sXu347bTDPgVH2ifJ\n"
"has the type\n"
" oracle(int, bool)">>,
<<?Pos(32, 5)
"The type bytes(32) is not a contract type\n"
"when checking that the contract literal\n"
" ct_Ez6MyeTMm17YnTnDdHTSrzMEBKmy7Uz2sXu347bTDPgVH2ifJ\n"
"has the type\n"
" bytes(32)">>,
<<?Pos(34, 5),
"The type address is not a contract type\n"
"when checking that the call to\n"
" Address.to_contract\n"
"has the type\n"
" address">>])
, ?TYPE_ERROR(stateful,
[<<?Pos(13, 35)
"Cannot reference stateful function Chain.spend (at line 13, column 35)\nin the definition of non-stateful function fail1.">>,
<<?Pos(14, 35)
"Cannot reference stateful function local_spend (at line 14, column 35)\nin the definition of non-stateful function fail2.">>,
<<?Pos(16, 15)
"Cannot reference stateful function Chain.spend (at line 16, column 15)\nin the definition of non-stateful function fail3.">>,
<<?Pos(20, 31)
"Cannot reference stateful function Chain.spend (at line 20, column 31)\nin the definition of non-stateful function fail4.">>,
<<?Pos(35, 47)
"Cannot reference stateful function Chain.spend (at line 35, column 47)\nin the definition of non-stateful function fail5.">>,
<<?Pos(48, 57)
"Cannot pass non-zero value argument 1000 (at line 48, column 57)\nin the definition of non-stateful function fail6.">>,
<<?Pos(49, 56)
"Cannot pass non-zero value argument 1000 (at line 49, column 56)\nin the definition of non-stateful function fail7.">>,
<<?Pos(52, 17)
"Cannot pass non-zero value argument 1000 (at line 52, column 17)\nin the definition of non-stateful function fail8.">>])
, ?TYPE_ERROR(bad_init_state_access,
[<<?Pos(11, 5)
"The init function should return the initial state as its result and cannot write the state,\n"
"but it calls\n"
" - set_state (at line 11, column 5), which calls\n"
" - roundabout (at line 8, column 38), which calls\n"
" - put (at line 7, column 39)">>,
<<"The init function should return the initial state as its result and cannot read the state,\n"
<<?Pos(12, 5)
"The init function should return the initial state as its result and cannot read the state,\n"
"but it calls\n"
" - new_state (at line 12, column 5), which calls\n"
" - state (at line 5, column 29)">>,
<<"The init function should return the initial state as its result and cannot read the state,\n"
<<?Pos(13, 13)
"The init function should return the initial state as its result and cannot read the state,\n"
"but it calls\n"
" - state (at line 13, column 13)">>]}
, {"field_parse_error",
[<<"line 6, column 1: In field_parse_error at 5:26:\n"
"Cannot use nested fields or keys in record construction: p.x\n">>]}
, {"modifier_checks",
[<<"The function all_the_things (at line 11, column 3) cannot be both public and private.">>,
<<"Namespaces cannot contain entrypoints (at line 3, column 3). Use 'function' instead.">>,
<<"The contract Remote (at line 5, column 10) has no entrypoints. Since Sophia version 3.2, public\ncontract functions must be declared with the 'entrypoint' keyword instead of\n'function'.">>,
<<"The entrypoint wha (at line 12, column 3) cannot be private. Use 'function' instead.">>,
<<"Use 'entrypoint' for declaration of foo (at line 6, column 3):\n entrypoint foo : () => unit">>,
<<"Use 'entrypoint' instead of 'function' for public function foo (at line 10, column 3):\n entrypoint foo() = ()">>,
<<"Use 'entrypoint' instead of 'function' for public function foo (at line 6, column 3):\n entrypoint foo : () => unit">>]}
, {"list_comp_not_a_list",
[<<"Cannot unify int\n and list('a)\nwhen checking rvalue of list comprehension binding at line 2, column 36\n 1 : int\nagainst type \n list('a)">>
]}
, {"list_comp_if_not_bool",
[<<"Cannot unify int\n and bool\nwhen checking the type of the expression at line 2, column 44\n 3 : int\nagainst the expected type\n bool">>
]}
, {"list_comp_bad_shadow",
[<<"Cannot unify int\n and string\nwhen checking the type of the pattern at line 2, column 53\n x : int\nagainst the expected type\n string">>
]}
" - state (at line 13, column 13)">>])
, ?TYPE_ERROR(modifier_checks,
[<<?Pos(11, 3)
"The function all_the_things (at line 11, column 3) cannot be both public and private.">>,
<<?Pos(3, 3)
"Namespaces cannot contain entrypoints (at line 3, column 3). Use 'function' instead.">>,
<<?Pos(5, 10)
"The contract Remote (at line 5, column 10) has no entrypoints. Since Sophia version 3.2, public\ncontract functions must be declared with the 'entrypoint' keyword instead of\n'function'.">>,
<<?Pos(12, 3)
"The entrypoint wha (at line 12, column 3) cannot be private. Use 'function' instead.">>,
<<?Pos(6, 3)
"Use 'entrypoint' for declaration of foo (at line 6, column 3):\n entrypoint foo : () => unit">>,
<<?Pos(10, 3)
"Use 'entrypoint' instead of 'function' for public function foo (at line 10, column 3):\n entrypoint foo() = ()">>,
<<?Pos(6, 3)
"Use 'entrypoint' instead of 'function' for public function foo (at line 6, column 3):\n entrypoint foo : () => unit">>])
, ?TYPE_ERROR(list_comp_not_a_list,
[<<?Pos(2, 36)
"Cannot unify int\n and list('a)\nwhen checking rvalue of list comprehension binding at line 2, column 36\n 1 : int\nagainst type \n list('a)">>
])
, ?TYPE_ERROR(list_comp_if_not_bool,
[<<?Pos(2, 44)
"Cannot unify int\n and bool\nwhen checking the type of the expression at line 2, column 44\n 3 : int\nagainst the expected type\n bool">>
])
, ?TYPE_ERROR(list_comp_bad_shadow,
[<<?Pos(2, 53)
"Cannot unify int\n and string\nwhen checking the type of the pattern at line 2, column 53\n x : int\nagainst the expected type\n string">>
])
, ?TYPE_ERROR(map_as_map_key,
[<<?Pos(5, 25)
"Invalid key type\n"
" map(int, int)\n"
"Map keys cannot contain other maps.">>,
<<?Pos(6, 25)
"Invalid key type\n"
" lm\n"
"Map keys cannot contain other maps.">>])
, ?TYPE_ERROR(calling_init_function,
[<<?Pos(7, 28)
"The 'init' function is called exclusively by the create contract transaction\n"
"and cannot be called from the contract code.">>])
, ?TYPE_ERROR(bad_top_level_decl,
[<<?Pos(1, 1) "The definition of 'square' must appear inside a contract or namespace.">>])
, ?TYPE_ERROR(missing_event_type,
[<<?Pos(3, 5)
"Unbound variable Chain.event at line 3, column 5\n"
"Did you forget to define the event type?">>])
, ?TYPE_ERROR(bad_bytes_concat,
[<<?Pos(12, 40)
"Failed to resolve byte array lengths in call to Bytes.concat with arguments of type\n"
" - 'g (at line 12, column 20)\n"
" - 'h (at line 12, column 23)\n"
"and result type\n"
" - bytes(10) (at line 12, column 28)">>,
<<?Pos(13, 28)
"Failed to resolve byte array lengths in call to Bytes.concat with arguments of type\n"
" - 'd (at line 13, column 20)\n"
" - 'e (at line 13, column 23)\n"
"and result type\n"
" - 'f (at line 13, column 14)">>,
<<?Pos(15, 5)
"Cannot unify bytes(26)\n"
" and bytes(25)\n"
"at line 15, column 5">>,
<<?Pos(17, 5)
"Failed to resolve byte array lengths in call to Bytes.concat with arguments of type\n"
" - bytes(6) (at line 16, column 24)\n"
" - 'b (at line 16, column 34)\n"
"and result type\n"
" - 'c (at line 16, column 39)">>,
<<?Pos(19, 25)
"Cannot resolve length of byte array.">>])
, ?TYPE_ERROR(bad_bytes_split,
[<<?Pos(13, 5)
"Failed to resolve byte array lengths in call to Bytes.split with argument of type\n"
" - 'f (at line 12, column 20)\n"
"and result types\n"
" - 'e (at line 12, column 25)\n"
" - bytes(20) (at line 12, column 29)">>,
<<?Pos(16, 5)
"Failed to resolve byte array lengths in call to Bytes.split with argument of type\n"
" - bytes(15) (at line 15, column 24)\n"
"and result types\n"
" - 'c (at line 16, column 5)\n"
" - 'd (at line 16, column 5)">>,
<<?Pos(19, 5)
"Failed to resolve byte array lengths in call to Bytes.split with argument of type\n"
" - 'b (at line 18, column 20)\n"
"and result types\n"
" - bytes(20) (at line 18, column 25)\n"
" - 'a (at line 18, column 37)">>])
, ?TYPE_ERROR(wrong_compiler_version,
[<<?Pos(1, 1)
"Cannot compile with this version of the compiler,\n"
"because it does not satisfy the constraint ", Version/binary, " < 1.0">>,
<<?Pos(2, 1)
"Cannot compile with this version of the compiler,\n"
"because it does not satisfy the constraint ", Version/binary, " == 9.9.9">>])
, ?TYPE_ERROR(multiple_contracts,
[<<?Pos(2, 3)
"Only the main contract can contain defined functions or entrypoints.\n"
"Fix: replace the definition of 'foo' by a type signature.">>])
, ?TYPE_ERROR(contract_as_namespace,
[<<?Pos(5, 28)
"Invalid call to contract entrypoint 'Foo.foo'.\n"
"It must be called as 'c.foo' for some c : Foo.">>])
, ?TYPE_ERROR(toplevel_let,
[<<?Pos(2, 7)
"Toplevel \"let\" definitions are not supported\n"
"Value this_is_illegal at line 2, column 7 could be replaced by 0-argument function">>])
, ?TYPE_ERROR(empty_typedecl,
[<<?Pos(2, 8)
"Empty type declarations are not supported\n"
"Type t at line 2, column 8 lacks a definition">>])
, ?TYPE_ERROR(higher_kinded_type,
[<<?Pos(2, 35)
"Type 'm is a higher kinded type variable\n"
"(takes another type as an argument)">>])
, ?TYPE_ERROR(bad_arity,
[<<?Pos(3, 20)
"Arity for id doesn't match. Expected 1, got 0">>,
<<?Pos(3, 25)
"Cannot unify int\n"
" and id\n"
"when checking the type of the expression at line 3, column 25\n"
" 123 : int\n"
"against the expected type\n"
" id">>,
<<?Pos(4, 20)
"Arity for id doesn't match. Expected 1, got 2">>,
<<?Pos(4, 35)
"Cannot unify int\n"
" and id(int, int)\n"
"when checking the type of the expression at line 4, column 35\n"
" 123 : int\n"
"against the expected type\n"
" id(int, int)">>])
, ?TYPE_ERROR(bad_unnamed_map_update_default,
[<<?Pos(4, 17)
"Invalid map update with default">>])
, ?TYPE_ERROR(non_functional_entrypoint,
[<<?Pos(2, 14)
"f at line 2, column 14 was declared with an invalid type int.\n"
"Entrypoints and functions must have functional types">>])
, ?TYPE_ERROR(bad_records,
[<<?Pos(3, 16)
"Mixed record fields and map keys in\n"
" {x = 0, [0] = 1}">>,
<<?Pos(4, 6)
"Mixed record fields and map keys in\n"
" r {x = 0, [0] = 1}">>,
<<?Pos(5, 6)
"Empty record/map update\n"
" r {}">>
])
, ?TYPE_ERROR(bad_number_of_args,
[<<?Pos(3, 39)
"Cannot unify () => unit\n"
" and (int) => 'a\n",
"when checking the application at line 3, column 39 of\n"
" f : () => unit\n"
"to arguments\n"
" 1 : int">>,
<<?Pos(4, 20)
"Cannot unify (int, string) => 'e\n"
" and (int) => 'd\n"
"when checking the application at line 4, column 20 of\n"
" g : (int, string) => 'e\n"
"to arguments\n"
" 1 : int">>,
<<?Pos(5, 20)
"Cannot unify (int, string) => 'c\n"
" and (string) => 'b\n"
"when checking the application at line 5, column 20 of\n"
" g : (int, string) => 'c\nto arguments\n"
" \"Litwo, ojczyzno moja\" : string">>
])
].
wants_stdlib(Name) ->
lists:member
(Name,
[ "stdlib_include",
"list_comp",
"list_comp_not_a_list",
"list_comp_if_not_bool",
"list_comp_bad_shadow"
]).
-define(Path(File), "code_errors/" ??File).
-define(Msg(File, Line, Col, Err), <<?Pos("Code generation", ?Path(File), Line, Col) Err>>).
-define(SAME(File, Line, Col, Err), {?Path(File), ?Msg(File, Line, Col, Err)}).
-define(AEVM(File, Line, Col, Err), {?Path(File), [{aevm, ?Msg(File, Line, Col, Err)}]}).
-define(FATE(File, Line, Col, Err), {?Path(File), [{fate, ?Msg(File, Line, Col, Err)}]}).
-define(BOTH(File, Line, Col, ErrAEVM, ErrFATE),
{?Path(File), [{aevm, ?Msg(File, Line, Col, ErrAEVM)},
{fate, ?Msg(File, Line, Col, ErrFATE)}]}).
failing_code_gen_contracts() ->
[ ?SAME(last_declaration_must_be_contract, 1, 1,
"Expected a contract as the last declaration instead of the namespace 'LastDeclarationIsNotAContract'")
, ?SAME(missing_definition, 2, 14,
"Missing definition of function 'foo'.")
, ?AEVM(polymorphic_entrypoint, 2, 17,
"The argument\n"
" x : 'a\n"
"of entrypoint 'id' has a polymorphic (contains type variables) type.\n"
"Use the FATE backend if you want polymorphic entrypoints.")
, ?AEVM(polymorphic_entrypoint_return, 2, 3,
"The return type\n"
" 'a\n"
"of entrypoint 'fail' is polymorphic (contains type variables).\n"
"Use the FATE backend if you want polymorphic entrypoints.")
, ?SAME(higher_order_entrypoint, 2, 20,
"The argument\n"
" f : (int) => int\n"
"of entrypoint 'apply' has a higher-order (contains function types) type.")
, ?SAME(higher_order_entrypoint_return, 2, 3,
"The return type\n"
" (int) => int\n"
"of entrypoint 'add' is higher-order (contains function types).")
, ?SAME(missing_init_function, 1, 10,
"Missing init function for the contract 'MissingInitFunction'.\n"
"The 'init' function can only be omitted if the state type is 'unit'.")
, ?SAME(parameterised_state, 3, 8,
"The state type cannot be parameterized.")
, ?SAME(parameterised_event, 3, 12,
"The event type cannot be parameterized.")
, ?SAME(polymorphic_aens_resolve, 4, 5,
"Invalid return type of AENS.resolve:\n"
" 'a\n"
"It must be a string or a pubkey type (address, oracle, etc).")
, ?SAME(bad_aens_resolve, 6, 5,
"Invalid return type of AENS.resolve:\n"
" list(int)\n"
"It must be a string or a pubkey type (address, oracle, etc).")
, ?AEVM(polymorphic_compare, 4, 5,
"Cannot compare values of type\n"
" 'a\n"
"The AEVM only supports '==' on values of\n"
"- word type (int, bool, bits, address, oracle(_, _), etc)\n"
"- type string\n"
"- tuple or record of word type\n"
"Use FATE if you need to compare arbitrary types.")
, ?AEVM(complex_compare, 4, 5,
"Cannot compare values of type\n"
" (string * int)\n"
"The AEVM only supports '!=' on values of\n"
"- word type (int, bool, bits, address, oracle(_, _), etc)\n"
"- type string\n"
"- tuple or record of word type\n"
"Use FATE if you need to compare arbitrary types.")
, ?AEVM(complex_compare_leq, 4, 5,
"Cannot compare values of type\n"
" (int * int)\n"
"The AEVM only supports '=<' on values of\n"
"- word type (int, bool, bits, address, oracle(_, _), etc)\n"
"Use FATE if you need to compare arbitrary types.")
, ?AEVM(higher_order_compare, 4, 5,
"Cannot compare values of type\n"
" (int) => int\n"
"The AEVM only supports '<' on values of\n"
"- word type (int, bool, bits, address, oracle(_, _), etc)\n"
"Use FATE if you need to compare arbitrary types.")
, ?AEVM(unapplied_contract_call, 6, 19,
"The AEVM does not support unapplied contract call to\n"
" r : Remote\n"
"Use FATE if you need this.")
, ?AEVM(unapplied_named_arg_builtin, 4, 15,
"The AEVM does not support unapplied use of Oracle.register.\n"
"Use FATE if you need this.")
, ?AEVM(polymorphic_map_keys, 4, 34,
"Invalid map key type\n"
" 'a\n"
"Map keys cannot be polymorphic in the AEVM. Use FATE if you need this.")
, ?AEVM(higher_order_map_keys, 4, 42,
"Invalid map key type\n"
" (int) => int\n"
"Map keys cannot be higher-order.")
, ?SAME(polymorphic_query_type, 3, 5,
"Invalid oracle type\n"
" oracle('a, 'b)\n"
"The query type must not be polymorphic (contain type variables).")
, ?SAME(polymorphic_response_type, 3, 5,
"Invalid oracle type\n"
" oracle(string, 'r)\n"
"The response type must not be polymorphic (contain type variables).")
, ?SAME(higher_order_query_type, 3, 5,
"Invalid oracle type\n"
" oracle((int) => int, string)\n"
"The query type must not be higher-order (contain function types).")
, ?SAME(higher_order_response_type, 3, 5,
"Invalid oracle type\n"
" oracle(string, (int) => int)\n"
"The response type must not be higher-order (contain function types).")
, ?AEVM(higher_order_state, 3, 3,
"Invalid state type\n"
" {f : (int) => int}\n"
"The state cannot contain functions in the AEVM. Use FATE if you need this.")
].
validation_test_() ->
[{"Validation fail: " ++ C1 ++ " /= " ++ C2,
fun() ->
Actual = case validate(C1, C2) of
{error, Errs} -> Errs;
ok -> #{}
end,
check_errors(Expect, Actual)
end} || {C1, C2, Expect} <- validation_fails()] ++
[{"Validation of " ++ C,
fun() ->
?assertEqual(ok, validate(C, C))
end} || C <- compilable_contracts()].
validation_fails() ->
[{"deadcode", "nodeadcode",
[<<"Data error:\n"
"Byte code does not match source code.\n"
"- Functions in the source code but not in the byte code:\n"
" .MyList.map2">>]},
{"validation_test1", "validation_test2",
[<<"Data error:\n"
"Byte code does not match source code.\n"
"- The implementation of the function code_fail is different.\n"
"- The attributes of the function attr_fail differ:\n"
" Byte code: payable\n"
" Source code: \n"
"- The type of the function type_fail differs:\n"
" Byte code: integer => integer\n"
" Source code: {tvar,0} => {tvar,0}">>]},
{"validation_test1", "validation_test3",
[<<"Data error:\n"
"Byte code contract is not payable, but source code contract is.">>]}].
validate(Contract1, Contract2) ->
ByteCode = #{ fate_code := FCode } = compile(fate, Contract1),
FCode1 = aeb_fate_code:serialize(aeb_fate_code:strip_init_function(FCode)),
Source = aeso_test_utils:read_contract(Contract2),
aeso_compiler:validate_byte_code(ByteCode#{ byte_code := FCode1 }, Source,
[{backend, fate}, {include, {file_system, [aeso_test_utils:contract_path()]}}]).
test/aeso_parser_tests.erl
+16 -14
View File
@@ -4,6 +4,8 @@
-include_lib("eunit/include/eunit.hrl").
id(X) -> X.
simple_contracts_test_() ->
{foreach,
fun() -> ok end,
@@ -14,8 +16,8 @@ simple_contracts_test_() ->
" function id(x) = x\n",
?assertMatch(
[{contract, _, {con, _, "Identity"},
[{letfun, _, {id, _, "id"}, [{arg, _, {id, _, "x"}, {id, _, "_"}}], {id, _, "_"},
{id, _, "x"}}]}], parse_string(Text, [no_implicit_stdlib])),
[{letfun, _, {id, _, "id"}, [{id, _, "x"}], {id, _, "_"},
{id, _, "x"}}]}], parse_string(Text)),
ok
end},
{"Operator precedence test.",
@@ -30,7 +32,7 @@ simple_contracts_test_() ->
end,
Parse = fun(S) ->
try remove_line_numbers(parse_expr(S))
catch _:_ -> ?assertMatch(ok, {parse_fail, S}) end
catch _:_ -> ?assertMatch(ok, id({parse_fail, S})) end
end,
CheckParens = fun(Expr) ->
?assertEqual(Parse(NoPar(Expr)), Parse(Par(Expr)))
@@ -38,8 +40,7 @@ simple_contracts_test_() ->
LeftAssoc = fun(Op) -> CheckParens({{a, Op, b}, Op, c}) end,
RightAssoc = fun(Op) -> CheckParens({a, Op, {b, Op, c}}) end,
NonAssoc = fun(Op) ->
OpAtom = list_to_atom(Op),
?assertError({error, {_, parse_error, _}},
?assertThrow({error, [_]},
parse_expr(NoPar({a, Op, {b, Op, c}}))) end,
Stronger = fun(Op1, Op2) ->
CheckParens({{a, Op1, b}, Op2, c}),
@@ -74,24 +75,25 @@ roundtrip_contract(Name) ->
parse_string(Text) -> parse_string(Text, []).
parse_string(Text, Opts) ->
case aeso_parser:string(Text, Opts) of
{ok, Contract} -> Contract;
Err -> error(Err)
end.
aeso_parser:string(Text, Opts).
parse_expr(Text) ->
[{letval, _, _, _, Expr}] =
parse_string("let _ = " ++ Text, [no_implicit_stdlib]),
[{letval, _, _, Expr}] =
parse_string("let _ = " ++ Text),
Expr.
round_trip(Text) ->
Contract = parse_string(Text, [no_implicit_stdlib]),
Text1 = prettypr:format(aeso_pretty:decls(Contract)),
Contract1 = parse_string(Text1, [no_implicit_stdlib]),
Contract = parse_string(Text),
Text1 = prettypr:format(aeso_pretty:decls(strip_stdlib(Contract))),
Contract1 = parse_string(Text1),
NoSrcLoc = remove_line_numbers(Contract),
NoSrcLoc1 = remove_line_numbers(Contract1),
?assertMatch(NoSrcLoc, diff(NoSrcLoc, NoSrcLoc1)).
strip_stdlib([{namespace, _, {con, _, "ListInternal"}, _} | Decls]) ->
strip_stdlib(Decls);
strip_stdlib(Decls) -> Decls.
remove_line_numbers({line, _L}) -> {line, 0};
remove_line_numbers({col, _C}) -> {col, 0};
remove_line_numbers([H|T]) ->
test/contracts/05_greeter.aes
+1 -2
View File
@@ -58,8 +58,7 @@ contract Greeter =
let state = { greeting = "Hello" }
let setGreeting =
(greeting: string) =>
function setGreeting(greeting: string) =
state{ greeting = greeting }
test/contracts/address_literals.aes
+2
View File
@@ -11,4 +11,6 @@ contract AddressLiterals =
oq_2oRvyowJuJnEkxy58Ckkw77XfWJrmRgmGaLzhdqb67SKEL1gPY
entrypoint contr() : Remote =
ct_Ez6MyeTMm17YnTnDdHTSrzMEBKmy7Uz2sXu347bTDPgVH2ifJ
entrypoint contr_addr() : Remote =
Address.to_contract(addr())
test/contracts/aens.aes
+5 -4
View File
@@ -22,14 +22,16 @@ contract AENSTest =
stateful entrypoint claim(addr : address,
name : string,
salt : int) : unit =
AENS.claim(addr, name, salt)
salt : int,
name_fee : int) : unit =
AENS.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, signature = sign)
AENS.claim(addr, name, salt, name_fee, signature = sign)
// TODO: update() -- how to handle pointers?
@@ -52,4 +54,3 @@ contract AENSTest =
name : string,
sign : signature) : unit =
AENS.revoke(owner, name, signature = sign)
test/contracts/all_syntax.aes
+63 -29
View File
@@ -1,44 +1,78 @@
// Try to cover all syntactic constructs.
@compiler > 0
@compiler =< 10.1.1.1.1.1.2.3.4
contract AllSyntaxType =
type typeDecl /* bla */
type paramTypeDecl('a, 'b)
namespace Ns =
datatype d('a) = D | S(int) | M('a, list('a), int)
private function fff() = 123
stateful entrypoint
f (1, x) = (_) => x
payable contract AllSyntaxType =
/** Multi-
* line
* comment
*/
function foo : _
stateful function foo : _
entrypoint bar : int => (int * 'a)
contract AllSyntax =
type typeDecl = int
type paramTypeDecl('a, 'b) = (('a, 'b) => 'b) => list('a) => 'b => 'b
datatype mickiewicz = Adam | Mickiewicz
record goethe('a, 'b) = {
johann : int,
wolfgang : 'a,
von : 'a * 'b * int,
goethe : unit
}
type dante = Ns.d(int)
type shakespeare('a) = goethe('a, 'a)
record nestedRecord = { x : int }
record recordType = { z : nestedRecord, y : int }
datatype variantType('a) = None | Some('a)
type state = shakespeare(int)
let valWithType : map(int, int) => option(int) = (m) => Map.get(m, 42)
let valNoType =
if(valWithType(Map.empty) == None)
print(42 mod 10 * 5 / 3)
entrypoint init() = {
johann = 1000,
wolfgang = -10,
von = (2 + 2, 0, List.sum([x | k <- [1,2,3]
, let l = k + 1
, if(l < 10)
, let f(x) = x + 100
, Adam <- [Adam, Mickiewicz]
, let x = f(l)
])),
goethe = () }
function funWithType(x : int, y) : int * list(int) = (x, 0 :: [y] ++ [])
function funNoType() =
let foo = (x, y : bool) =>
if (! (y && x =< 0x0b || true)) [x]
else [11..20]
let setY(r : recordType) : unit = r{ y = 5 }
let setX(r : recordType, x : int) : recordType = r { z.x = x } // nested record update
let getY(r) = switch(r) {y = y} => y
switch (funWithType(1, -2))
(x, [y, z]) => bar({x = z, y = -y + - -z * (-1)})
(x, y :: _) => ()
function f() =
let kp = "nietzsche"
let p = "Пушкин"
let k(x : bytes(8)) : bytes(8) = Bytes.to_int(#fedcba9876543210)
let hash : address = #01ab0fff11
let b = false
let qcon = Mod.Con
let str = "blabla\nfoo"
let chr = '"'
let f : () => address = () => ak_2gx9MEFxKvY9vMG5YnqnXWv1hCsX7rgnfvBLJS4aQurustR1rt
if(Bits.test(Bits.all, 10))
abort("ohno")
if(true && false)
require(true, "ohyes")
elif(false || 2 == 2)
()
else
()
if(true) f(1,2)((1,2))
else switch(1::[1,2,3])
[] => 1
a::b => 123
1::2::3 => 123123
[2,3,4] => 1
_ => 13
1::[2] => 2138
put(state{johann = 1})
let m = {["foo"] = 19, /*hey wanna talk about inlined comments?*/ ["bar"] = 42}
let n = {}
m{ ["x" = 0] @ z = z + state.johann }
let sh : shakespeare(shakespeare(int)) =
{wolfgang = state}
sh{wolfgang.wolfgang = sh.wolfgang} // comment
test/contracts/bad_address_literals.aes
+2
View File
@@ -30,4 +30,6 @@ contract AddressLiterals =
ct_Ez6MyeTMm17YnTnDdHTSrzMEBKmy7Uz2sXu347bTDPgVH2ifJ
entrypoint contr3() : bytes(32) =
ct_Ez6MyeTMm17YnTnDdHTSrzMEBKmy7Uz2sXu347bTDPgVH2ifJ
entrypoint contr4() : address =
Address.to_contract(Contract.address)
test/contracts/bad_arity.aes
+4
View File
@@ -0,0 +1,4 @@
contract C =
type id('a) = 'a
entrypoint f() : id = 123
entrypoint g() : id(int, int) = 123
test/contracts/bad_bytes_concat.aes
+19
View File
@@ -0,0 +1,19 @@
contract BytesConcat =
entrypoint test1(x : bytes(10), y : bytes(20)) =
Bytes.concat(x, y)
entrypoint test2(x : bytes(10), y) : bytes(15) =
Bytes.concat(x, y)
entrypoint test3(x, y : bytes(20)) : bytes(25) =
Bytes.concat(x, y)
entrypoint fail1(x, y) : bytes(10) = Bytes.concat(x, y)
entrypoint fail2(x, y) = Bytes.concat(x, y)
entrypoint fail3(x : bytes(6), y : bytes(20)) : bytes(25) =
Bytes.concat(x, y)
entrypoint fail4(x : bytes(6), y) : _ =
Bytes.concat(x, y)
entrypoint fail5(x) = Bytes.to_str(x)
test/contracts/bad_bytes_split.aes
+20
View File
@@ -0,0 +1,20 @@
contract BytesSplit =
entrypoint test1(x) : bytes(10) * bytes(20) =
Bytes.split(x)
entrypoint test2(x : bytes(15)) : bytes(10) * _ =
Bytes.split(x)
entrypoint test3(x : bytes(25)) : _ * bytes(20) =
Bytes.split(x)
entrypoint fail1(x) : _ * bytes(20) =
Bytes.split(x)
entrypoint fail2(x : bytes(15)) : _ =
Bytes.split(x)
entrypoint fail3(x) : bytes(20) * _ =
Bytes.split(x)
test/contracts/bad_number_of_args.aes
+6
View File
@@ -0,0 +1,6 @@
contract Test =
entrypoint f() = ()
entrypoint g(x : int, y : string) = f(1)
entrypoint h() = g(1)
entrypoint i() = g("Litwo, ojczyzno moja")
test/contracts/bad_records.aes
+5
View File
@@ -0,0 +1,5 @@
contract BadRecord =
entrypoint foo() =
let r = {x = 0, [0] = 1}
r{x = 0, [0] = 1}
r{}
test/contracts/bad_top_level_decl.aes
+3
View File
@@ -0,0 +1,3 @@
function square(x) = x ^ 2
contract Main =
entrypoint main() = square(10)
test/contracts/bad_unnamed_map_update_default.aes
+5
View File
@@ -0,0 +1,5 @@
contract C =
entrypoint f() =
let z = 123
{}{ [1 = 0] = z + 1 }
2
test/contracts/basic_auth.aes
+2
View File
@@ -15,3 +15,5 @@ contract BasicAuth =
entrypoint to_sign(h : hash, n : int) =
Crypto.blake2b((h, n))
entrypoint weird_string() : string =
"\x19Weird String\x42\nMore\n"
test/contracts/bytes_concat.aes
+4
View File
@@ -0,0 +1,4 @@
contract BytesConcat =
entrypoint rot(a : bytes(3)) =
switch (Bytes.split(a))
(b, c) => Bytes.concat(c : bytes(2), b)
test/contracts/calling_init_function.aes
+7
View File
@@ -0,0 +1,7 @@
contract CallingInitFunction =
type state = int * int
entrypoint init() = (1, 2)
entrypoint call_init() = init()
test/contracts/code_errors/bad_aens_resolve.aes
+9
View File
@@ -0,0 +1,9 @@
contract BadAENSresolve =
type t('a) = option(list('a))
function fail() : t(int) =
AENS.resolve("foo.aet", "whatever")
entrypoint main() = ()
test/contracts/code_errors/complex_compare.aes
+4
View File
@@ -0,0 +1,4 @@
contract ComplexCompare =
entrypoint test(x : string * int) =
("foo", 1) != x
test/contracts/code_errors/complex_compare_leq.aes
+4
View File
@@ -0,0 +1,4 @@
contract ComplexCompare =
entrypoint test(x : int) =
(1, 2) =< (x, x + 1)
test/contracts/code_errors/higher_order_compare.aes
+8
View File
@@ -0,0 +1,8 @@
contract HigherOrderCompare =
function cmp(x : int => int, y) : bool =
x < y
entrypoint test() =
let f(x) = (y) => x + y
cmp(f(1), f(2))
test/contracts/code_errors/higher_order_entrypoint.aes
+2
View File
@@ -0,0 +1,2 @@
contract HigherOrderEntrypoint =
entrypoint apply(f : int => int, x : int) = f(x)
test/contracts/code_errors/higher_order_entrypoint_return.aes
+2
View File
@@ -0,0 +1,2 @@
contract HigherOrderEntrypoint =
entrypoint add(x : int) = (y) => x + y
test/contracts/code_errors/higher_order_map_keys.aes
+6
View File
@@ -0,0 +1,6 @@
contract MapAsMapKey =
type t('key) = map('key, int)
function foo(m) : t(int => int) = {[m] = 0}
entrypoint main() = ()
test/contracts/code_errors/higher_order_query_type.aes
+5
View File
@@ -0,0 +1,5 @@
contract HigherOrderQueryType =
stateful function foo(o) : oracle_query(_, string ) =
Oracle.query(o, (x) => x + 1, 100, RelativeTTL(100), RelativeTTL(100))
entrypoint main() = ()
test/contracts/code_errors/higher_order_response_type.aes
+5
View File
@@ -0,0 +1,5 @@
contract HigherOrderResponseType =
stateful function foo(o, q : oracle_query(string, _)) =
Oracle.respond(o, q, (x) => x + 1)
entrypoint main() = ()
test/contracts/code_errors/higher_order_state.aes
+7
View File
@@ -0,0 +1,7 @@
contract HigherOrderState =
record state = {f : int => int}
entrypoint init() = {f = (x) => x}
entrypoint apply(n) = state.f(n)
stateful entrypoint inc() = put(state{ f = (x) => state.f(x + 1) })
test/contracts/code_errors/last_declaration_must_be_contract.aes
+2
View File
@@ -0,0 +1,2 @@
namespace LastDeclarationIsNotAContract =
function add(x, y) = x + y
test/contracts/code_errors/missing_definition.aes
+3
View File
@@ -0,0 +1,3 @@
contract MissingDefinition =
entrypoint foo : int => int
entrypoint main() = foo(0)
test/contracts/code_errors/missing_init_function.aes
+3
View File
@@ -0,0 +1,3 @@
contract MissingInitFunction =
type state = int * int
test/contracts/code_errors/parameterised_event.aes
+4
View File
@@ -0,0 +1,4 @@
contract ParameterisedEvent =
datatype event('a) = Event(int)
test/contracts/code_errors/parameterised_state.aes
+4
View File
@@ -0,0 +1,4 @@
contract ParameterisedState =
type state('a) = list('a)
test/contracts/code_errors/polymorphic_aens_resolve.aes
+7
View File
@@ -0,0 +1,7 @@
contract PolymorphicAENSresolve =
function fail() : option('a) =
AENS.resolve("foo.aet", "whatever")
entrypoint main() = ()
test/contracts/code_errors/polymorphic_compare.aes
+7
View File
@@ -0,0 +1,7 @@
contract PolymorphicCompare =
function cmp(x : 'a, y : 'a) : bool =
x == y
entrypoint test() =
cmp(4, 6) && cmp(true, false)
test/contracts/code_errors/polymorphic_entrypoint.aes
+3
View File
@@ -0,0 +1,3 @@
contract PolymorphicEntrypoint =
entrypoint id(x : 'a) : 'a = x
test/contracts/code_errors/polymorphic_entrypoint_return.aes
+3
View File
@@ -0,0 +1,3 @@
contract PolymorphicEntrypoint =
entrypoint fail() : 'a = abort("fail")
test/contracts/code_errors/polymorphic_map_keys.aes
+6
View File
@@ -0,0 +1,6 @@
contract MapAsMapKey =
type t('key) = map('key, int)
function foo(m) : t('a) = {[m] = 0}
entrypoint main() = ()
test/contracts/code_errors/polymorphic_query_type.aes
+5
View File
@@ -0,0 +1,5 @@
contract PolymorphicQueryType =
stateful function is_oracle(o) =
Oracle.check(o)
entrypoint main() = ()
test/contracts/code_errors/polymorphic_response_type.aes
+5
View File
@@ -0,0 +1,5 @@
contract PolymorphicResponseType =
function is_oracle(o : oracle(string, 'r)) =
Oracle.check(o)
entrypoint main(o : oracle(string, int)) = is_oracle(o)
test/contracts/code_errors/unapplied_contract_call.aes
+9
View File
@@ -0,0 +1,9 @@
contract Remote =
entrypoint foo : int => int
contract UnappliedContractCall =
function f(r) = r.foo
entrypoint test(r) = f(r)(0)
test/contracts/code_errors/unapplied_named_arg_builtin.aes
+5
View File
@@ -0,0 +1,5 @@
contract UnappliedNamedArgBuiltin =
// Allowed in FATE, but not AEVM
stateful entrypoint main(s) =
let reg = Oracle.register
reg(signature = s, Contract.address, 100, RelativeTTL(100)) : oracle(int, int)
test/contracts/complex_types.aes
+1 -1
View File
@@ -50,7 +50,7 @@ contract ComplexTypes =
entrypoint remote_pair(n : int, s : string) : int * string =
state.worker.pair(gas = 10000, n, s)
entrypoint map(f, xs) =
function map(f, xs) =
switch(xs)
[] => []
x :: xs => f(x) :: map(f, xs)
test/contracts/contract_as_namespace.aes
+6
View File
@@ -0,0 +1,6 @@
contract Foo =
entrypoint foo : () => int
contract Fail =
entrypoint bad() : int = Foo.foo()
test/contracts/empty_typedecl.aes
+3
View File
@@ -0,0 +1,3 @@
contract C =
type t
entrypoint f() = 123
test/contracts/factorial.aes
+4 -4
View File
@@ -11,7 +11,7 @@ contract Factorial =
stateful entrypoint set_worker(worker) = put(state{worker = worker})
entrypoint fac(x : int) : int =
if(x == 0) 1
else x * state.worker.fac(x - 1)
entrypoint
fac : int => int
fac(0) = 1
fac(x) = x * state.worker.fac(x - 1)
test/contracts/higher_kinded_type.aes
+3
View File
@@ -0,0 +1,3 @@
contract IWantToBelieve =
type stateT('s, 'm, 'a) = 's => 'm('a * 's)
entrypoint s() = 123
test/contracts/indent_fail.aes
+3
View File
@@ -0,0 +1,3 @@
contract IndentFail =
entrypoint twoSpace() = ()
entrypoint oneSpace() = ()
test/contracts/lc_record_bug.aes
+4
View File
@@ -0,0 +1,4 @@
contract Foo =
record r = {x : int}
// Crashed in the backend due to missing type annotation on the lc body.
entrypoint lc(xs) = [ {x = x} | x <- xs ]
test/contracts/let_patterns.aes
+15
View File
@@ -0,0 +1,15 @@
contract LetPatterns =
record r = {x : int, y : int, b : bool}
entrypoint test() = foo([1, 0], (2, 3), Some(4), {x = 5, y = 6, b = false})
entrypoint foo(xs : list(int), p : int * int, some : option(int), r : r) =
let x :: _ = xs
let (a, b) = p
let Some(n) = some
let {x = i, y = j} = r
x + a + b + n + i + j
entrypoint lc(xs : list(option(int))) : list(int) =
[ x | Some(x) <- xs ]
test/contracts/lhs_matching.aes
+22
View File
@@ -0,0 +1,22 @@
contract LHSMatching =
function from_some(Some(x)) = x
function
length : list('a) => int
length([]) = 0
length(_ :: xs) = 1 + length(xs)
function
append([], ys) = ys
append(x :: xs, ys) = x :: append(xs, ys)
function local_match(xs : list('a)) =
let null([]) = true
let null(_ :: _) = false
!null(xs)
entrypoint main() =
from_some(Some([0]))
++ append([length([true]), 2, 3], [4, 5, 6])
++ [7 | if (local_match([false]))]
test/contracts/list_comp.aes
+1 -1
View File
@@ -14,7 +14,7 @@ contract ListComp =
entrypoint l3_true() = [[":)", ":("], [":)", ":("]]
entrypoint l4() = [(a, b, c) | let is_pit(a, b, c) = a*a + b*b == c*c
, let base = [1,2,3,4,5,6,7,8,9,10]
, let base = [1..10]
, a <- base
, b <- base, if (b >= a)
, c <- base, if (c >= b)
test/contracts/local_poly_fail.aes
+7
View File
@@ -0,0 +1,7 @@
contract Fail =
entrypoint tttt() : bool * int =
let f(x : 'a) : 'a = x
(f(true), f(1))
test/contracts/manual_stdlib_include.aes
+1 -2
View File
@@ -1,5 +1,4 @@
// This contract should be compiled with no_implicit_stdlib option.
// It should include Lists.aes implicitly however, because Option.aes depends on it.
// This should include Lists.aes implicitly, since Option.aes does.
include "Option.aes"
contract Test =
test/contracts/map_as_map_key.aes
+6
View File
@@ -0,0 +1,6 @@
contract MapAsMapKey =
type t('key) = map('key, int)
type lm = list(map(int, int))
entrypoint foo(m) : t(map(int, int)) = {[m] = 0}
entrypoint bar(m) : t(lm) = Map.delete(m, {})
test/contracts/missing_event_type.aes
+3
View File
@@ -0,0 +1,3 @@
contract MissingEventType =
entrypoint main() =
Chain.event("MAIN")
test/contracts/multi_sig.aes
+2 -2
View File
@@ -15,7 +15,7 @@ contract MultiSig =
| OwnerRemoved (address) // of { .removedOwner : Address }
| ReqChanged (int) // of { .newReq : int }
let maxOwners : int = 250
function maxOwners() : int = 250
record state = { nRequired : int
, nOwners : int
@@ -68,7 +68,7 @@ contract MultiSig =
switch(check_pending(callhash()))
CheckFail(state') => { state = state' }
CheckOk(state') =>
if(state.nOwners >= maxOwners) () /* TODO */
if(state.nOwners >= maxOwners()) () /* TODO */
else
let nOwners' = state'.nOwners + 1
{ state = state' { owners = Map.insert(nOwners', newOwner, state'.owners)
test/contracts/multiple_contracts.aes
+5
View File
@@ -0,0 +1,5 @@
contract ContractOne =
entrypoint foo() = "foo"
contract ContractTwo =
entrypoint bar() = "bar"
test/contracts/non_functional_entrypoint.aes
+5
View File
@@ -0,0 +1,5 @@
contract C1 =
entrypoint f : int
contract C =
entrypoint f() = 123
test/contracts/not_toplevel_contract.aes
+6
View File
@@ -0,0 +1,6 @@
namespace BadNs =
contract Con =
entrypoint e : () => int
contract Con =
entrypoint foo() = 43
test/contracts/not_toplevel_include.aes
+5
View File
@@ -0,0 +1,5 @@
namespace BadNs =
include "included.aes"
contract Con =
entrypoint foo() = 43
test/contracts/bad_include_and_ns.aes → test/contracts/not_toplevel_namespace.aes
+1 -2
View File
@@ -1,5 +1,4 @@
contract Bad =
include "included.aes"
contract BadCon =
namespace Foo =
function foo() = 42
test/contracts/qualified_constructor.aes
+8
View File
@@ -0,0 +1,8 @@
namespace Foo =
datatype x = A | B(int)
contract Bar =
entrypoint f(a : Foo.x) =
switch(a)
Foo.A => 0
Foo.B(n) => n

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