Updated CHANGELOG

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>
2020-03-23 12:48:47 +01:00 · 2020-03-10 12:39:39 +01:00 · 2020-02-25 12:56:51 +01:00 · 2020-02-21 10:28:55 +01:00 · 2020-02-13 11:02:47 +01:00 · 2020-01-15 11:58:47 +01:00
92 changed files with 7341 additions and 1726 deletions
@@ -6,14 +6,60 @@ and this project adheres to [Semantic Versioning](https://semver.org/spec/v2.0.0
 ## [Unreleased]
 ### Added
- Standard library support. `ListInternal` can be included implicitly if list comprehensions are used.
+- Added documentation (actually, moved from `protocol`)
- Added the `[a..b]` language construct, returning the list of numbers between
+- Added standard library docs. Moved builtin docs from `sophia.md` to
-  `a` and `b` (inclusive). Returns the empty list if `a` > `b`.
+  `sophia_stdlib.md`
 - Added library for rational numbers
 ### Changed
 - Optimized `List.aes` library
 ### Removed
-## [4.0.0-rc1] - 2019-08-22
+## [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/protocol/blob/master/contracts/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.
@@ -30,6 +76,20 @@ 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,
@@ -137,8 +197,10 @@ 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
+[Unreleased]: https://github.com/aeternity/aesophia/compare/v4.2.0...HEAD
-[4.0.0-rc1]: https://github.com/aeternity/aesophia/compare/v3.2.0...v4.0.0-rc1
+[4.2.0]: https://github.com/aeternity/aesophia/compare/v4.2.0...v4.1.0
 [4.1.0]: https://github.com/aeternity/aesophia/compare/v4.1.0...v4.0.0
 [4.0.0]: https://github.com/aeternity/aesophia/compare/v4.0.0...v3.2.0
 [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
@@ -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:
@@ -0,0 +1,176 @@
 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("Division by zero")
    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 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 = mul(a, inv(b))
 /** `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), loss))
  private function run_optimize(f : frac, loss : frac) : frac =
    let t = make_frac((num(f) + 1) / 2, (den(f) + 1)/2)
    if(gt(abs(sub(t, f)), loss)) f
    elif (eq(t, f)) f
    else run_optimize(t, loss)
@@ -12,35 +12,66 @@ namespace Func =
  function rapply(x : 'a, f : 'a => 'b) : 'b = f(x)
-  /* The Z combinator - replacement for local and anonymous recursion.
+/** 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))
-  function curry2(f : ('a, 'b) => 'c) : 'a => ('b => 'c) =
+/** 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) => 'd) : 'a => ('b => ('c => 'd)) =
+  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)
-  function uncurry2(f : 'a => ('b => 'c)) : ('a, 'b) => 'c =
+/** Opposite of curry. Gross
 */
  function uncurry2(f : 'a => ('b => 'x)) : ('a, 'b) => 'x =
    (x, y) => f(x)(y)
-  function uncurry3(f : 'a => ('b => ('c => 'd))) : ('a, 'b, 'c) => 'd =
+  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)
-  function tuplify2(f : ('a, 'b) => 'c) : (('a * 'b)) => 'c =
+/** 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) => 'd) : 'a * 'b * 'c => 'd =
+  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)
-  function untuplify2(f : 'a * 'b => 'c) : ('a, 'b) => 'c =
+/** Opposite of tuplify
 */
  function untuplify2(f : 'a * 'b => 'x) : ('a, 'b) => 'x =
    (x, y) => f((x, y))
-  function untuplify3(f : 'a * 'b * 'c => 'd) : ('a, 'b, 'c) => 'd =
+  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))
@@ -19,10 +19,15 @@ namespace List =
    [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)
@@ -50,14 +55,22 @@ namespace List =
    _::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 */
+/** 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) =
@@ -66,7 +79,8 @@ namespace List =
     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 */
+/** 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) =
@@ -75,6 +89,9 @@ namespace List =
     []   => 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) =
@@ -109,6 +126,8 @@ namespace List =
    []   => 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)
@@ -117,7 +136,8 @@ namespace List =
    []   => reverse(acc)
    h::t => filter_(p, t, if(p(h)) h::acc else acc)
-  /* Take `n` first elements */
+/** 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) =
@@ -126,7 +146,8 @@ namespace List =
      []   => reverse(acc)
      h::t => take_(n-1, t, h::acc)
-  /* Drop `n` first elements */
+/** 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
@@ -134,18 +155,23 @@ namespace List =
      []   => []
      h::t => drop(n-1, t)
-  /* Get the longest prefix of a list in which every element matches predicate `p` */
+/** 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 */
+/** 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` */
+/** 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)
@@ -155,7 +181,8 @@ namespace List =
    []   => (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)
@@ -171,7 +198,9 @@ namespace List =
  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. */
+/** 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)
@@ -181,7 +210,8 @@ namespace List =
    (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. */
+/** 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, [], [])
@@ -199,7 +229,8 @@ namespace List =
    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)
@@ -207,6 +238,8 @@ namespace List =
    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)
@@ -10,13 +10,18 @@ namespace Option =
    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)
@@ -40,10 +45,14 @@ namespace Option =
    (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)
@@ -53,22 +62,31 @@ namespace Option =
    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)
@@ -6,12 +6,18 @@ namespace Pair =
  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))
@@ -10,15 +10,23 @@ namespace Triple =
    (_, _, 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
@@ -29,9 +37,13 @@ namespace Triple =
  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)
@@ -2,7 +2,7 @@
 {erl_opts, [debug_info]}.
-{deps, [ {aebytecode, {git, "https://github.com/aeternity/aebytecode.git", {ref,"72b2a58"}}}
+{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, "4.2.0"},
         [aesophia, aebytecode, getopt]},
        {dev_mode, true},
@@ -1,7 +1,7 @@
 {"1.1.0",
 [{<<"aebytecode">>,
  {git,"https://github.com/aeternity/aebytecode.git",
-       {ref,"72b2a581d5a6d488a208331da88de1a488ac2da1"}},
+       {ref,"4f4d6d30cd2c46b3830454d650a424d513f69134"}},
  0},
 {<<"aeserialization">>,
  {git,"https://github.com/aeternity/aeserialization.git",
@@ -74,21 +74,9 @@ do_contract_interface(Type, ContractString, Options) ->
            string -> do_render_aci_json(JArray)
        end
    catch
-        %% The compiler errors.
+        throw:{error, Errors} -> {error, 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.
    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)}.
@@ -21,8 +21,8 @@ convert_typed(TypedTree, Options) ->
        case lists:last(TypedTree) of
            {contract, Attrs, {con, _, Con}, _} ->
                {proplists:get_value(payable, Attrs, false), Con};
-            _ ->
+            Decl ->
-                gen_error(last_declaration_must_be_contract)
+                gen_error({last_declaration_must_be_contract, Decl})
           end,
    NewIcode = aeso_icode:set_payable(Payable,
                   aeso_icode:set_name(Name, aeso_icode:new(Options))),
@@ -41,18 +41,19 @@ code([], Icode, Options) ->
 %% Generate error on correct format.
 -dialyzer({nowarn_function, gen_error/1}).
 gen_error(Error) ->
-    error({code_errors, [Error]}).
+    aeso_errors:throw(aeso_code_errors:format(Error)).
 %% Create default init function (only if state is unit).
-add_default_init_function(Icode = #{functions := Funs, state_type := State}, Options) ->
+add_default_init_function(Icode = #{namespace := NS, functions := Funs, state_type := State}, Options) ->
    NoCode        = proplists:get_value(no_code, Options, false),
    {_, _, QInit} = aeso_icode:qualify({id, [], "init"}, Icode),
    case lists:keymember(QInit, 1, Funs) of
        true -> Icode;
        false when NoCode -> Icode;
        false when State /= {tuple, []} ->
-            gen_error(missing_init_function);
+            gen_error({missing_init_function, NS});
        false ->
            Type  = {tuple, [typerep, {tuple, []}]},
            Value = #tuple{ cpts = [type_value({tuple, []}), {tuple, []}] },
@@ -66,7 +67,7 @@ contract_to_icode([{namespace, _, Name, Defs} | Rest], Icode) ->
    NS = aeso_icode:get_namespace(Icode),
    Icode1 = contract_to_icode(Defs, aeso_icode:enter_namespace(Name, Icode)),
    contract_to_icode(Rest, aeso_icode:set_namespace(NS, Icode1));
-contract_to_icode([{type_def, _Attrib, Id = {id, _, Name}, Args, Def} | Rest],
+contract_to_icode([Decl = {type_def, _Attrib, Id = {id, _, Name}, Args, Def} | Rest],
                  Icode = #{ types := Types, constructors := Constructors }) ->
    TypeDef = make_type_def(Args, Def, Icode),
    NewConstructors =
@@ -82,10 +83,14 @@ contract_to_icode([{type_def, _Attrib, Id = {id, _, Name}, Args, Def} | Rest],
    Icode1 = Icode#{ types := Types#{ TName => TypeDef },
                     constructors := maps:merge(Constructors, NewConstructors) },
    Icode2 = case Name of
-                "state" when Args == [] -> Icode1#{ state_type => ast_typerep(Def, Icode) };
+                "state" when Args == [] ->
-                "state"                 -> gen_error(state_type_cannot_be_parameterized);
+                     case is_first_order_type(Def) of
                         true  -> Icode1#{ state_type => ast_typerep(Def, Icode) };
                         false -> gen_error({higher_order_state, Decl})
                     end;
                "state"                 -> gen_error({parameterized_state, Id});
                "event" when Args == [] -> Icode1#{ event_type => Def };
-                "event"                 -> gen_error(event_type_cannot_be_parameterized);
+                "event"                 -> gen_error({parameterized_event, Id});
                _                       -> Icode1
             end,
    contract_to_icode(Rest, Icode2);
@@ -113,8 +118,12 @@ contract_to_icode([{letfun, Attrib, Name, Args, _What, Body={typed,_,_,T}}|Rest]
    NewIcode = ast_fun_to_icode(ast_id(QName), FunAttrs, FunArgs, FunBody, TypeRep, Icode),
    contract_to_icode(Rest, NewIcode);
 contract_to_icode([], Icode) -> Icode;
-contract_to_icode([{fun_decl, _, _, _} | Code], Icode) ->
+contract_to_icode([{fun_decl, _, Id, _} | Code], Icode = #{ options := Options }) ->
-    contract_to_icode(Code, Icode);
+    NoCode = proplists:get_value(no_code, Options, false),
    case aeso_icode:in_main_contract(Icode) andalso not NoCode of
        true  -> gen_error({missing_definition, Id});
        false -> contract_to_icode(Code, Icode)
    end;
 contract_to_icode([Decl | Code], Icode) ->
    io:format("Unhandled declaration: ~p\n", [Decl]),
    contract_to_icode(Code, Icode).
@@ -122,7 +131,7 @@ contract_to_icode([Decl | Code], Icode) ->
 ast_id({id, _, Id}) -> Id;
 ast_id({qid, _, Id}) -> Id.
-ast_args([{arg, _, Name, Type}|Rest], Acc, Icode) ->
+ast_args([{typed, _, Name, Type}|Rest], Acc, Icode) ->
    ast_args(Rest, [{ast_id(Name), ast_typerep1(Type, Icode)}| Acc], Icode);
 ast_args([], Acc, _Icode) -> lists:reverse(Acc).
@@ -140,20 +149,7 @@ ast_type(T, Icode) ->
 -define(option_t(A),    {app_t, _, {id, _, "option"}, [A]}).
 -define(map_t(K, V),    {app_t, _, {id, _, "map"}, [K, V]}).
 ast_body(?qid_app(["Chain","spend"], [To, Amount], _, _), Icode) ->
    prim_call(?PRIM_CALL_SPEND, ast_body(Amount, Icode), [ast_body(To, Icode)], [word], {tuple, []});
 ast_body(?qid_app([Con, "Chain", "event"], [Event], _, _), Icode = #{ contract_name := Con }) ->
    aeso_builtins:check_event_type(Icode),
    builtin_call({event, maps:get(event_type, Icode)}, [ast_body(Event, Icode)]);
 %% Chain environment
 ast_body(?qid_app(["Chain", "balance"], [Address], _, _), Icode) ->
    #prim_balance{ address = ast_body(Address, Icode) };
 ast_body(?qid_app(["Chain", "block_hash"], [Height], _, _), Icode) ->
    builtin_call(block_hash, [ast_body(Height, Icode)]);
 ast_body(?qid_app(["Call", "gas_left"], [], _, _), _Icode) ->
    prim_gas_left;
 ast_body({qid, _, ["Contract", "address"]}, _Icode)      -> prim_contract_address;
 ast_body({qid, _, ["Contract", "creator"]}, _Icode)      -> prim_contract_creator;
 ast_body({qid, _, ["Contract", "balance"]}, _Icode)      -> #prim_balance{ address = prim_contract_address };
@@ -166,133 +162,19 @@ ast_body({qid, _, ["Chain",    "timestamp"]}, _Icode)    -> prim_timestamp;
 ast_body({qid, _, ["Chain",    "block_height"]}, _Icode) -> prim_block_height;
 ast_body({qid, _, ["Chain",    "difficulty"]}, _Icode)   -> prim_difficulty;
 ast_body({qid, _, ["Chain",    "gas_limit"]}, _Icode)    -> prim_gas_limit;
 %% TODO: eta expand!
 ast_body({qid, _, ["Chain", "balance"]}, _Icode) ->
    gen_error({underapplied_primitive, 'Chain.balance'});
 ast_body({qid, _, ["Chain", "block_hash"]}, _Icode) ->
    gen_error({underapplied_primitive, 'Chain.block_hash'});
 ast_body({qid, _, ["Chain", "spend"]}, _Icode) ->
    gen_error({underapplied_primitive, 'Chain.spend'});
 %% State
 ast_body({qid, _, [Con, "state"]}, #{ contract_name := Con }) -> prim_state;
 ast_body(?qid_app([Con, "put"], [NewState], _, _), Icode = #{ contract_name := Con }) ->
    #prim_put{ state = ast_body(NewState, Icode) };
-ast_body({qid, _, [Con, "put"]}, #{ contract_name := Con }) ->
+ast_body({typed, _, Id = {qid, _, [Con, "put"]}, Type}, Icode = #{ contract_name := Con }) ->
-    gen_error({underapplied_primitive, put});   %% TODO: eta
+    eta_expand(Id, Type, Icode);
 %% Abort
 ast_body(?id_app("abort", [String], _, _), Icode) ->
    builtin_call(abort, [ast_body(String, Icode)]);
 ast_body(?id_app("require", [Bool, String], _, _), Icode) ->
    builtin_call(require, [ast_body(Bool, Icode), ast_body(String, Icode)]);
 %% Authentication
 ast_body({qid, _, ["Auth", "tx_hash"]}, _Icode) ->
    prim_call(?PRIM_CALL_AUTH_TX_HASH, #integer{value = 0},
              [], [], aeso_icode:option_typerep(word));
 %% Oracles
 ast_body(?qid_app(["Oracle", "register"], Args, _, ?oracle_t(QType, RType)), Icode) ->
    {Sign, [Acct, QFee, TTL]} = get_signature_arg(Args),
    prim_call(?PRIM_CALL_ORACLE_REGISTER, #integer{value = 0},
              [ast_body(Acct, Icode), ast_body(Sign, Icode), ast_body(QFee, Icode), ast_body(TTL, Icode),
               ast_type_value(QType, Icode), ast_type_value(RType, Icode)],
              [word, sign_t(), word, ttl_t(Icode), typerep, typerep], word);
 ast_body(?qid_app(["Oracle", "query_fee"], [Oracle], _, _), Icode) ->
    prim_call(?PRIM_CALL_ORACLE_QUERY_FEE, #integer{value = 0},
              [ast_body(Oracle, Icode)], [word], word);
 ast_body(?qid_app(["Oracle", "query"], [Oracle, Q, QFee, QTTL, RTTL], [_, QType, _, _, _], _), Icode) ->
    prim_call(?PRIM_CALL_ORACLE_QUERY, ast_body(QFee, Icode),
              [ast_body(Oracle, Icode), ast_body(Q, Icode), ast_body(QTTL, Icode), ast_body(RTTL, Icode)],
              [word, ast_type(QType, Icode), ttl_t(Icode), ttl_t(Icode)], word);
 ast_body(?qid_app(["Oracle", "extend"], Args, _, _), Icode) ->
    {Sign, [Oracle, TTL]} = get_signature_arg(Args),
    prim_call(?PRIM_CALL_ORACLE_EXTEND, #integer{value = 0},
              [ast_body(Oracle, Icode), ast_body(Sign, Icode), ast_body(TTL, Icode)],
              [word, sign_t(), ttl_t(Icode)], {tuple, []});
 ast_body(?qid_app(["Oracle", "respond"], Args, [_, _, RType], _), Icode) ->
    {Sign, [Oracle, Query, R]} = get_signature_arg(Args),
    prim_call(?PRIM_CALL_ORACLE_RESPOND, #integer{value = 0},
              [ast_body(Oracle, Icode), ast_body(Query, Icode), ast_body(Sign, Icode), ast_body(R, Icode)],
              [word, word, sign_t(), ast_type(RType, Icode)], {tuple, []});
 ast_body(?qid_app(["Oracle", "get_question"], [Oracle, Q], [_, ?query_t(QType, _)], _), Icode) ->
    prim_call(?PRIM_CALL_ORACLE_GET_QUESTION, #integer{value = 0},
              [ast_body(Oracle, Icode), ast_body(Q, Icode)], [word, word], ast_type(QType, Icode));
 ast_body(?qid_app(["Oracle", "get_answer"], [Oracle, Q], [_, ?query_t(_, RType)], _), Icode) ->
    prim_call(?PRIM_CALL_ORACLE_GET_ANSWER, #integer{value = 0},
              [ast_body(Oracle, Icode), ast_body(Q, Icode)], [word, word], aeso_icode:option_typerep(ast_type(RType, Icode)));
 ast_body(?qid_app(["Oracle", "check"], [Oracle], [?oracle_t(Q, R)], _), Icode) ->
    prim_call(?PRIM_CALL_ORACLE_CHECK, #integer{value = 0},
              [ast_body(Oracle, Icode), ast_type_value(Q, Icode), ast_type_value(R, Icode)],
              [word, typerep, typerep], word);
 ast_body(?qid_app(["Oracle", "check_query"], [Oracle, Query], [_, ?query_t(Q, R)], _), Icode) ->
    prim_call(?PRIM_CALL_ORACLE_CHECK_QUERY, #integer{value = 0},
              [ast_body(Oracle, Icode), ast_body(Query, Icode),
               ast_type_value(Q, Icode), ast_type_value(R, Icode)],
              [word, typerep, typerep], word);
 ast_body({qid, _, ["Oracle", "register"]}, _Icode)     -> gen_error({underapplied_primitive, 'Oracle.register'});
 ast_body({qid, _, ["Oracle", "query"]}, _Icode)        -> gen_error({underapplied_primitive, 'Oracle.query'});
 ast_body({qid, _, ["Oracle", "extend"]}, _Icode)       -> gen_error({underapplied_primitive, 'Oracle.extend'});
 ast_body({qid, _, ["Oracle", "respond"]}, _Icode)      -> gen_error({underapplied_primitive, 'Oracle.respond'});
 ast_body({qid, _, ["Oracle", "query_fee"]}, _Icode)    -> gen_error({underapplied_primitive, 'Oracle.query_fee'});
 ast_body({qid, _, ["Oracle", "get_answer"]}, _Icode)   -> gen_error({underapplied_primitive, 'Oracle.get_answer'});
 ast_body({qid, _, ["Oracle", "get_question"]}, _Icode) -> gen_error({underapplied_primitive, 'Oracle.get_question'});
 %% Name service
 ast_body(?qid_app(["AENS", "resolve"], [Name, Key], _, ?option_t(Type)), Icode) ->
    case is_monomorphic(Type) of
        true ->
            case ast_type(Type, Icode) of
                T when T == word; T == string -> ok;
                _ -> gen_error({invalid_result_type, 'AENS.resolve', Type})
            end,
            prim_call(?PRIM_CALL_AENS_RESOLVE, #integer{value = 0},
                      [ast_body(Name, Icode), ast_body(Key, Icode), ast_type_value(Type, Icode)],
                      [string, string, typerep], aeso_icode:option_typerep(ast_type(Type, Icode)));
        false ->
            gen_error({unresolved_result_type, 'AENS.resolve', Type})
    end;
 ast_body(?qid_app(["AENS", "preclaim"], Args, _, _), Icode) ->
    {Sign, [Addr, CHash]} = get_signature_arg(Args),
    prim_call(?PRIM_CALL_AENS_PRECLAIM, #integer{value = 0},
              [ast_body(Addr, Icode), ast_body(CHash, Icode), ast_body(Sign, Icode)],
              [word, word, sign_t()], {tuple, []});
 ast_body(?qid_app(["AENS", "claim"], Args, _, _), Icode) ->
    {Sign, [Addr, Name, Salt, NameFee]} = get_signature_arg(Args),
    prim_call(?PRIM_CALL_AENS_CLAIM, #integer{value = 0},
              [ast_body(Addr, Icode), ast_body(Name, Icode), ast_body(Salt, Icode), ast_body(NameFee, Icode), ast_body(Sign, Icode)],
              [word, string, word, word, sign_t()], {tuple, []});
 ast_body(?qid_app(["AENS", "transfer"], Args, _, _), Icode) ->
    {Sign, [FromAddr, ToAddr, Name]} = get_signature_arg(Args),
    prim_call(?PRIM_CALL_AENS_TRANSFER, #integer{value = 0},
              [ast_body(FromAddr, Icode), ast_body(ToAddr, Icode), ast_body(Name, Icode), ast_body(Sign, Icode)],
              [word, word, word, sign_t()], {tuple, []});
 ast_body(?qid_app(["AENS", "revoke"], Args, _, _), Icode) ->
    {Sign, [Addr, Name]} = get_signature_arg(Args),
    prim_call(?PRIM_CALL_AENS_REVOKE, #integer{value = 0},
              [ast_body(Addr, Icode), ast_body(Name, Icode), ast_body(Sign, Icode)],
              [word, word, sign_t()], {tuple, []});
 ast_body({qid, _, ["AENS", "resolve"]}, _Icode)  -> gen_error({underapplied_primitive, 'AENS.resolve'});
 ast_body({qid, _, ["AENS", "preclaim"]}, _Icode) -> gen_error({underapplied_primitive, 'AENS.preclaim'});
 ast_body({qid, _, ["AENS", "claim"]}, _Icode)    -> gen_error({underapplied_primitive, 'AENS.claim'});
 ast_body({qid, _, ["AENS", "transfer"]}, _Icode) -> gen_error({underapplied_primitive, 'AENS.transfer'});
 ast_body({qid, _, ["AENS", "revoke"]}, _Icode)   -> gen_error({underapplied_primitive, 'AENS.revoke'});
 %% Maps
 %% -- map lookup  m[k]
@@ -306,35 +188,6 @@ ast_body({map_get, _, Map, Key, Val}, Icode) ->
    Fun = {map_lookup_default, ast_typerep(ValType, Icode)},
    builtin_call(Fun, [ast_body(Map, Icode), ast_body(Key, Icode), ast_body(Val, Icode)]);
 %% -- lookup functions
 ast_body(?qid_app(["Map", "lookup"], [Key, Map], _, _), Icode) ->
    map_get(Key, Map, Icode);
 ast_body(?qid_app(["Map", "lookup_default"], [Key, Map, Val], _, _), Icode) ->
    {_, ValType} = check_monomorphic_map(Map, Icode),
    Fun = {map_lookup_default, ast_typerep(ValType, Icode)},
    builtin_call(Fun, [ast_body(Map, Icode), ast_body(Key, Icode), ast_body(Val, Icode)]);
 ast_body(?qid_app(["Map", "member"], [Key, Map], _, _), Icode) ->
    builtin_call(map_member, [ast_body(Map, Icode), ast_body(Key, Icode)]);
 ast_body(?qid_app(["Map", "size"], [Map], _, _), Icode) ->
    builtin_call(map_size, [ast_body(Map, Icode)]);
 ast_body(?qid_app(["Map", "delete"], [Key, Map], _, _), Icode) ->
    map_del(Key, Map, Icode);
 %% -- map conversion to/from list
 ast_body(App = ?qid_app(["Map", "from_list"], [List], _, MapType), Icode) ->
    Ann = aeso_syntax:get_ann(App),
    {KeyType, ValType} = check_monomorphic_map(Ann, MapType, Icode),
    builtin_call(map_from_list, [ast_body(List, Icode), map_empty(KeyType, ValType, Icode)]);
 ast_body(?qid_app(["Map", "to_list"], [Map], _, _), Icode) ->
    map_tolist(Map, Icode);
 ast_body({qid, _, ["Map", "from_list"]}, _Icode) -> gen_error({underapplied_primitive, 'Map.from_list'});
 %% ast_body({qid, _, ["Map", "to_list"]}, _Icode)   -> gen_error({underapplied_primitive, 'Map.to_list'});
 ast_body({qid, _, ["Map", "lookup"]}, _Icode)    -> gen_error({underapplied_primitive, 'Map.lookup'});
 ast_body({qid, _, ["Map", "lookup_default"]}, _Icode)    -> gen_error({underapplied_primitive, 'Map.lookup_default'});
 ast_body({qid, _, ["Map", "member"]}, _Icode)    -> gen_error({underapplied_primitive, 'Map.member'});
 %% -- map construction { k1 = v1, k2 = v2 }
 ast_body({typed, Ann, {map, _, KVs}, MapType}, Icode) ->
    {KeyType, ValType} = check_monomorphic_map(Ann, MapType, Icode),
@@ -356,104 +209,22 @@ ast_body({map, _, Map, [Upd]}, Icode) ->
 ast_body({map, Ann, Map, [Upd | Upds]}, Icode) ->
    ast_body({map, Ann, {map, Ann, Map, [Upd]}, Upds}, Icode);
 %% Crypto
 ast_body(?qid_app(["Crypto", "verify_sig"], [Msg, PK, Sig], _, _), Icode) ->
    prim_call(?PRIM_CALL_CRYPTO_VERIFY_SIG, #integer{value = 0},
              [ast_body(Msg, Icode), ast_body(PK, Icode), ast_body(Sig, Icode)],
              [word, word, sign_t()], word);
 ast_body(?qid_app(["Crypto", "verify_sig_secp256k1"], [Msg, PK, Sig], _, _), Icode) ->
    prim_call(?PRIM_CALL_CRYPTO_VERIFY_SIG_SECP256K1, #integer{value = 0},
              [ast_body(Msg, Icode), ast_body(PK, Icode), ast_body(Sig, Icode)],
              [bytes_t(32), bytes_t(64), bytes_t(64)], word);
 ast_body(?qid_app(["Crypto", "ecverify_secp256k1"], [Msg, Addr, Sig], _, _), Icode) ->
    prim_call(?PRIM_CALL_CRYPTO_ECVERIFY_SECP256K1, #integer{value = 0},
              [ast_body(Msg, Icode), ast_body(Addr, Icode), ast_body(Sig, Icode)],
              [word, bytes_t(20), bytes_t(65)], word);
 ast_body(?qid_app(["Crypto", "ecrecover_secp256k1"], [Msg, Sig], _, _), Icode) ->
    prim_call(?PRIM_CALL_CRYPTO_ECRECOVER_SECP256K1, #integer{value = 0},
              [ast_body(Msg, Icode), ast_body(Sig, Icode)],
              [word, bytes_t(65)], aeso_icode:option_typerep(bytes_t(20)));
 ast_body(?qid_app(["Crypto", "sha3"], [Term], [Type], _), Icode) ->
    generic_hash_primop(?PRIM_CALL_CRYPTO_SHA3, Term, Type, Icode);
 ast_body(?qid_app(["Crypto", "sha256"], [Term], [Type], _), Icode) ->
    generic_hash_primop(?PRIM_CALL_CRYPTO_SHA256, Term, Type, Icode);
 ast_body(?qid_app(["Crypto", "blake2b"], [Term], [Type], _), Icode) ->
    generic_hash_primop(?PRIM_CALL_CRYPTO_BLAKE2B, Term, Type, Icode);
 ast_body(?qid_app(["String", "sha256"], [String], _, _), Icode) ->
    string_hash_primop(?PRIM_CALL_CRYPTO_SHA256_STRING, String, Icode);
 ast_body(?qid_app(["String", "blake2b"], [String], _, _), Icode) ->
    string_hash_primop(?PRIM_CALL_CRYPTO_BLAKE2B_STRING, String, Icode);
 %% Strings
 %% -- String length
 ast_body(?qid_app(["String", "length"], [String], _, _), Icode) ->
    builtin_call(string_length, [ast_body(String, Icode)]);
 %% -- String concat
 ast_body(?qid_app(["String", "concat"], [String1, String2], _, _), Icode) ->
    builtin_call(string_concat, [ast_body(String1, Icode), ast_body(String2, Icode)]);
 %% -- String hash (sha3)
 ast_body(?qid_app(["String", "sha3"], [String], _, _), Icode) ->
    #unop{ op = 'sha3', rand = ast_body(String, Icode) };
 %% -- Bits
 ast_body(?qid_app(["Bits", Fun], Args, _, _), Icode)
        when Fun == "test"; Fun == "set"; Fun == "clear";
             Fun == "union"; Fun == "intersection"; Fun == "difference" ->
    C  = fun(N) when is_integer(N) -> #integer{ value = N };
            (X) -> X end,
    Bin = fun(O) -> fun(A, B) -> #binop{ op = O, left = C(A), right = C(B) } end end,
    And = Bin('band'),
    Or  = Bin('bor'),
    Bsl = fun(A, B) -> (Bin('bsl'))(B, A) end, %% flipped arguments
    Bsr = fun(A, B) -> (Bin('bsr'))(B, A) end,
    Neg = fun(A) -> #unop{ op = 'bnot', rand = C(A) } end,
    case [Fun | [ ast_body(Arg, Icode) || Arg <- Args ]] of
        ["test", Bits, Ix]     -> And(Bsr(Bits, Ix), 1);
        ["set", Bits, Ix]      -> Or(Bits, Bsl(1, Ix));
        ["clear", Bits, Ix]    -> And(Bits, Neg(Bsl(1, Ix)));
        ["union", A, B]        -> Or(A, B);
        ["intersection", A, B] -> And(A, B);
        ["difference", A, B]   -> And(A, Neg(And(A, B)))
    end;
 ast_body({qid, _, ["Bits", "none"]}, _Icode) ->
    #integer{ value = 0 };
 ast_body({qid, _, ["Bits", "all"]}, _Icode) ->
    #integer{ value = 1 bsl 256 - 1 };
 ast_body(?qid_app(["Bits", "sum"], [Bits], _, _), Icode) ->
    builtin_call(popcount, [ast_body(Bits, Icode), #integer{ value = 0 }]);
 %% -- Conversion
 ast_body(?qid_app(["Int", "to_str"], [Int], _, _), Icode) ->
    builtin_call(int_to_str, [ast_body(Int, Icode)]);
 ast_body(?qid_app(["Address", "to_str"], [Addr], _, _), Icode) ->
    builtin_call(addr_to_str, [ast_body(Addr, Icode)]);
 ast_body(?qid_app(["Address", "is_oracle"], [Addr], _, _), Icode) ->
    prim_call(?PRIM_CALL_ADDR_IS_ORACLE, #integer{value = 0},
              [ast_body(Addr, Icode)], [word], word);
 ast_body(?qid_app(["Address", "is_contract"], [Addr], _, _), Icode) ->
    prim_call(?PRIM_CALL_ADDR_IS_CONTRACT, #integer{value = 0},
              [ast_body(Addr, Icode)], [word], word);
 ast_body(?qid_app(["Address", "is_payable"], [Addr], _, _), Icode) ->
    prim_call(?PRIM_CALL_ADDR_IS_PAYABLE, #integer{value = 0},
              [ast_body(Addr, Icode)], [word], word);
 ast_body(?qid_app(["Bytes", "to_int"], [Bytes], _, _), Icode) ->
    {typed, _, _, {bytes_t, _, N}} = Bytes,
    builtin_call({bytes_to_int, N}, [ast_body(Bytes, Icode)]);
 ast_body(?qid_app(["Bytes", "to_str"], [Bytes], _, _), Icode) ->
    {typed, _, _, {bytes_t, _, N}} = Bytes,
    builtin_call({bytes_to_str, N}, [ast_body(Bytes, Icode)]);
 %% Other terms
 ast_body({id, _, Name}, _Icode) ->
    #var_ref{name = Name};
 ast_body({typed, _, Id = {qid, _, _}, Type}, Icode) ->
    case is_builtin_fun(Id, Icode) of
        true  -> eta_expand(Id, Type, Icode);
        false -> ast_body(Id, Icode)
    end;
 ast_body({qid, _, Name}, _Icode) ->
    #var_ref{name = Name};
 ast_body({bool, _, Bool}, _Icode) ->        %BOOL as ints
@@ -461,6 +232,8 @@ ast_body({bool, _, Bool}, _Icode) ->        %BOOL as ints
    #integer{value = Value};
 ast_body({int, _, Value}, _Icode) ->
    #integer{value = Value};
 ast_body({char, _, Value}, _Icode) ->
    #integer{value = Value};
 ast_body({bytes, _, Bin}, _Icode) ->
    case aeb_memory:binary_to_words(Bin) of
        [Word] -> #integer{value = Word};
@@ -482,16 +255,12 @@ ast_body({list,_,Args}, Icode) ->
 %% Typed contract calls
 ast_body({proj, _, {typed, _, Addr, {con, _, _}}, {id, _, "address"}}, Icode) ->
    ast_body(Addr, Icode);  %% Values of contract types _are_ addresses.
-ast_body({app, _, {typed, _, {proj, _, {typed, _, Addr, {con, _, Contract}}, {id, _, FunName}},
+ast_body({app, _, {typed, _, {proj, _, Addr, {id, _, FunName}},
                             {fun_t, _, NamedT, ArgsT, OutT}}, Args0}, Icode) ->
    NamedArgs = [Arg || Arg = {named_arg, _, _, _} <- Args0],
    Args      = Args0 -- NamedArgs,
    ArgOpts   = [ {Name, ast_body(Value, Icode)}   || {named_arg,   _, {id, _, Name}, Value} <- NamedArgs ],
    Defaults  = [ {Name, ast_body(Default, Icode)} || {named_arg_t, _, {id, _, Name}, _, Default} <- NamedT ],
    %% TODO: eta expand
    length(Args) /= length(ArgsT) andalso
        gen_error({underapplied_contract_call,
                   string:join([Contract, FunName], ".")}),
    ArgsI = [ ast_body(Arg, Icode) || Arg <- Args ],
    ArgType = ast_typerep({tuple_t, [], ArgsT}),
    Gas    = proplists:get_value("gas",   ArgOpts ++ Defaults),
@@ -509,9 +278,8 @@ ast_body({app, _, {typed, _, {proj, _, {typed, _, Addr, {con, _, Contract}}, {id
       %% entrypoint on the callee side.
        type_hash= #integer{value = 0}
      };
-ast_body({proj, _, {typed, _, _, {con, _, Contract}}, {id, _, FunName}}, _Icode) ->
+ast_body({proj, _, Con = {typed, _, _, {con, _, _}}, _Fun}, _Icode) ->
-    gen_error({underapplied_contract_call,
+    gen_error({unapplied_contract_call, Con});
               string:join([Contract, FunName], ".")});
 ast_body({con, _, Name}, Icode) ->
    Tag = aeso_icode:get_constructor_tag([Name], Icode),
@@ -529,7 +297,7 @@ ast_body({app, _, {'..', _}, [A, B]}, Icode) ->
    #funcall
    { function = #var_ref{ name = ["ListInternal", "from_to"] }
    , args     = [ast_body(A, Icode), ast_body(B, Icode)] };
-ast_body({app,As,Fun,Args}, Icode) ->
+ast_body({app, As, Fun, Args}, Icode) ->
    case aeso_syntax:get_ann(format, As) of
        infix  ->
            {Op, _} = Fun,
@@ -540,24 +308,33 @@ ast_body({app,As,Fun,Args}, Icode) ->
            [A]     = Args,
            #unop{op = Op, rand = ast_body(A, Icode)};
        _ ->
-            #funcall{function=ast_body(Fun, Icode),
+            {typed, _, Fun1, {fun_t, _, _, ArgsT, RetT}} = Fun,
-                     args=[ast_body(A, Icode) || A <- Args]}
+            case is_builtin_fun(Fun1, Icode) of
                true  -> builtin_code(As, Fun1, Args, ArgsT, RetT, Icode);
                false ->
                    #funcall{function=ast_body(Fun, Icode),
                             args=[ast_body(A, Icode) || A <- Args]}
            end
    end;
 ast_body({list_comp, _, Yield, []}, Icode) ->
    #list{elems = [ast_body(Yield, Icode)]};
-ast_body({list_comp, As, Yield, [{comprehension_bind, {typed, Arg, ArgType}, BindExpr}|Rest]}, Icode) ->
+ast_body({list_comp, As, Yield, [{comprehension_bind, {typed, _, Pat, ArgType}, BindExpr}|Rest]}, Icode) ->
    Arg  = "%lc",
    Body = {switch, As, {typed, As, {id, As, Arg}, ArgType},
                [{'case', As, Pat, {list_comp, As, Yield, Rest}},
                 {'case', As, {id, As, "_"}, {list, As, []}}]},
    #funcall
        { function = #var_ref{ name = ["ListInternal", "flat_map"] }
        , args =
-              [ #lambda{ args=[#arg{name = ast_id(Arg), type = ast_type(ArgType, Icode)}]
+              [ #lambda{ args=[#arg{name = Arg, type = ast_type(ArgType, Icode)}]
-                       , body = ast_body({list_comp, As, Yield, Rest}, Icode)
+                       , body = ast_body(Body, Icode)
                       }
              , ast_body(BindExpr, Icode)
              ]
        };
 ast_body({list_comp, As, Yield, [{comprehension_if, AsIF, Cond}|Rest]}, Icode) ->
    ast_body({'if', AsIF, Cond, {list_comp, As, Yield, Rest}, {list, As, []}}, Icode);
-ast_body({list_comp, As, Yield, [LV = {letval, _, _, _, _}|Rest]}, Icode) ->
+ast_body({list_comp, As, Yield, [LV = {letval, _, _, _}|Rest]}, Icode) ->
    ast_body({block, As, [LV, {list_comp, As, Yield, Rest}]}, Icode);
 ast_body({list_comp, As, Yield, [LF = {letfun, _, _, _, _, _}|Rest]}, Icode) ->
    ast_body({block, As, [LF, {list_comp, As, Yield, Rest}]}, Icode);
@@ -571,11 +348,16 @@ ast_body({switch,_,A,Cases}, Icode) ->
    #switch{expr=ast_body(A, Icode),
            cases=[{ast_body(Pat, Icode),ast_body(Body, Icode)}
              || {'case',_,Pat,Body} <- Cases]};
-ast_body({block,As,[{letval,_,Pat,_,E}|Rest]}, Icode) ->
+ast_body({block, As, [{letval, _, Pat, E} | Rest]}, Icode) ->
-    #switch{expr=ast_body(E, Icode),
+    E1    = ast_body(E, Icode),
-            cases=[{ast_body(Pat, Icode),ast_body({block,As,Rest}, Icode)}]};
+    Pat1  = ast_body(Pat, Icode),
    Rest1 = ast_body({block, As, Rest}, Icode),
    #switch{expr  = E1,
            cases = [{Pat1, Rest1}]};
 ast_body({block, As, [{letfun, Ann, F, Args, _Type, Expr} | Rest]}, Icode) ->
-    ast_body({block, As, [{letval, Ann, F, unused, {lam, Ann, Args, Expr}} | Rest]}, Icode);
+    ToArg   = fun({typed, Ann1, Id, T}) -> {arg, Ann1, Id, T} end,    %% Pattern matching has been desugared
    LamArgs = lists:map(ToArg, Args),
    ast_body({block, As, [{letval, Ann, F, {lam, Ann, LamArgs, Expr}} | Rest]}, Icode);
 ast_body({block,_,[]}, _Icode) ->
    #tuple{cpts=[]};
 ast_body({block,_,[E]}, Icode) ->
@@ -600,8 +382,6 @@ ast_body({typed,_,{record,Attrs,Fields},{record_t,DefFields}}, Icode) ->
                        ast_body(E, Icode)
                end
                || {field_t,_,{id,_,Name},_} <- DefFields]};
 ast_body({typed,_,{record,Attrs,_Fields},T}, _Icode) ->
    gen_error({record_has_bad_type,Attrs,T});
 ast_body({proj,_,{typed,_,Record,{record_t,Fields}},{id,_,FieldName}}, Icode) ->
    [Index] = [I
              || {I,{field_t,_,{id,_,Name},_}} <-
@@ -638,16 +418,14 @@ ast_binop(Op, Ann, {typed, _, A, Type}, B, Icode)
    when Op == '=='; Op == '!=';
         Op == '<';  Op == '>';
         Op == '<='; Op == '=<'; Op == '>=' ->
-    Monomorphic = is_monomorphic(Type),
+    [ gen_error({cant_compare_type_aevm, Ann, Op, Type}) || not is_simple_type(Type) ],
    case ast_typerep(Type, Icode) of
        _ when not Monomorphic ->
            gen_error({cant_compare_polymorphic_type, Ann, Op, Type});
        word   -> #binop{op = Op, left = ast_body(A, Icode), right = ast_body(B, Icode)};
        OtherType ->
            Neg = case Op of
                    '==' -> fun(X) -> X end;
                    '!=' -> fun(X) -> #unop{ op = '!', rand = X } end;
-                    _    -> gen_error({cant_compare, Ann, Op, Type})
+                    _    -> gen_error({cant_compare_type_aevm, Ann, Op, Type})
                  end,
            Args = [ast_body(A, Icode), ast_body(B, Icode)],
            Builtin =
@@ -658,10 +436,10 @@ ast_binop(Op, Ann, {typed, _, A, Type}, B, Icode)
                        case lists:usort(Types) of
                            [word] ->
                                builtin_call(str_equal_p, [ #integer{value = 32 * length(Types)} | Args]);
-                            _ -> gen_error({cant_compare, Ann, Op, Type})
+                            _ -> gen_error({cant_compare_type_aevm, Ann, Op, Type})
                        end;
                    _ ->
-                        gen_error({cant_compare, Ann, Op, Type})
+                        gen_error({cant_compare_type_aevm, Ann, Op, Type})
                end,
            Neg(Builtin)
    end;
@@ -670,18 +448,315 @@ ast_binop('++', _, A, B, Icode) ->
 ast_binop(Op, _, A, B, Icode) ->
    #binop{op = Op, left = ast_body(A, Icode), right = ast_body(B, Icode)}.
 is_builtin_fun({qid, _, ["Chain","spend"]}, _Icode)                          -> true;
 is_builtin_fun({qid, _, [Con, "Chain", "event"]}, #{ contract_name := Con }) -> true;
 is_builtin_fun({qid, _, ["Chain", "balance"]}, _Icode)                       -> true;
 is_builtin_fun({qid, _, ["Chain", "block_hash"]}, _Icode)                    -> true;
 is_builtin_fun({qid, _, ["Call", "gas_left"]}, _Icode)                       -> true;
 is_builtin_fun({id, _, "abort"}, _Icode)                                     -> true;
 is_builtin_fun({id, _, "require"}, _Icode)                                   -> true;
 is_builtin_fun({qid, _, ["Oracle", "register"]}, _Icode)                     -> true;
 is_builtin_fun({qid, _, ["Oracle", "query_fee"]}, _Icode)                    -> true;
 is_builtin_fun({qid, _, ["Oracle", "query"]}, _Icode)                        -> true;
 is_builtin_fun({qid, _, ["Oracle", "extend"]}, _Icode)                       -> true;
 is_builtin_fun({qid, _, ["Oracle", "respond"]}, _Icode)                      -> true;
 is_builtin_fun({qid, _, ["Oracle", "get_question"]}, _Icode)                 -> true;
 is_builtin_fun({qid, _, ["Oracle", "get_answer"]}, _Icode)                   -> true;
 is_builtin_fun({qid, _, ["Oracle", "check"]}, _Icode)                        -> true;
 is_builtin_fun({qid, _, ["Oracle", "check_query"]}, _Icode)                  -> true;
 is_builtin_fun({qid, _, ["AENS", "resolve"]}, _Icode)                        -> true;
 is_builtin_fun({qid, _, ["AENS", "preclaim"]}, _Icode)                       -> true;
 is_builtin_fun({qid, _, ["AENS", "claim"]}, _Icode)                          -> true;
 is_builtin_fun({qid, _, ["AENS", "transfer"]}, _Icode)                       -> true;
 is_builtin_fun({qid, _, ["AENS", "revoke"]}, _Icode)                         -> true;
 is_builtin_fun({qid, _, ["Map", "lookup"]}, _Icode)                          -> true;
 is_builtin_fun({qid, _, ["Map", "lookup_default"]}, _Icode)                  -> true;
 is_builtin_fun({qid, _, ["Map", "member"]}, _Icode)                          -> true;
 is_builtin_fun({qid, _, ["Map", "size"]}, _Icode)                            -> true;
 is_builtin_fun({qid, _, ["Map", "delete"]}, _Icode)                          -> true;
 is_builtin_fun({qid, _, ["Map", "from_list"]}, _Icode)                       -> true;
 is_builtin_fun({qid, _, ["Map", "to_list"]}, _Icode)                         -> true;
 is_builtin_fun({qid, _, ["Crypto", "verify_sig"]}, _Icode)                   -> true;
 is_builtin_fun({qid, _, ["Crypto", "verify_sig_secp256k1"]}, _Icode)         -> true;
 is_builtin_fun({qid, _, ["Crypto", "ecverify_secp256k1"]}, _Icode)           -> true;
 is_builtin_fun({qid, _, ["Crypto", "ecrecover_secp256k1"]}, _Icode)          -> true;
 is_builtin_fun({qid, _, ["Crypto", "sha3"]}, _Icode)                         -> true;
 is_builtin_fun({qid, _, ["Crypto", "sha256"]}, _Icode)                       -> true;
 is_builtin_fun({qid, _, ["Crypto", "blake2b"]}, _Icode)                      -> true;
 is_builtin_fun({qid, _, ["String", "sha256"]}, _Icode)                       -> true;
 is_builtin_fun({qid, _, ["String", "blake2b"]}, _Icode)                      -> true;
 is_builtin_fun({qid, _, ["String", "length"]}, _Icode)                       -> true;
 is_builtin_fun({qid, _, ["String", "concat"]}, _Icode)                       -> true;
 is_builtin_fun({qid, _, ["String", "sha3"]}, _Icode)                         -> true;
 is_builtin_fun({qid, _, ["Bits", "test"]}, _Icode)                           -> true;
 is_builtin_fun({qid, _, ["Bits", "set"]}, _Icode)                            -> true;
 is_builtin_fun({qid, _, ["Bits", "clear"]}, _Icode)                          -> true;
 is_builtin_fun({qid, _, ["Bits", "union"]}, _Icode)                          -> true;
 is_builtin_fun({qid, _, ["Bits", "intersection"]}, _Icode)                   -> true;
 is_builtin_fun({qid, _, ["Bits", "difference"]}, _Icode)                     -> true;
 is_builtin_fun({qid, _, ["Bits", "sum"]}, _Icode)                            -> true;
 is_builtin_fun({qid, _, ["Int", "to_str"]}, _Icode)                          -> true;
 is_builtin_fun({qid, _, ["Address", "to_str"]}, _Icode)                      -> true;
 is_builtin_fun({qid, _, ["Address", "is_oracle"]}, _Icode)                   -> true;
 is_builtin_fun({qid, _, ["Address", "is_contract"]}, _Icode)                 -> true;
 is_builtin_fun({qid, _, ["Address", "is_payable"]}, _Icode)                  -> true;
 is_builtin_fun({qid, _, ["Address", "to_contract"]}, _Icode)                 -> true;
 is_builtin_fun({qid, _, ["Bytes", "to_int"]}, _Icode)                        -> true;
 is_builtin_fun({qid, _, ["Bytes", "to_str"]}, _Icode)                        -> true;
 is_builtin_fun({qid, _, ["Bytes", "concat"]}, _Icode)                        -> true;
 is_builtin_fun({qid, _, ["Bytes", "split"]}, _Icode)                         -> true;
 is_builtin_fun(_, _)                                                         -> false.
 %% -- Code generation for builtin functions --
 %% Chain operations
 builtin_code(_, {qid, _, ["Chain","spend"]}, [To, Amount], _, _, Icode) ->
    prim_call(?PRIM_CALL_SPEND, ast_body(Amount, Icode), [ast_body(To, Icode)], [word], {tuple, []});
 builtin_code(_, {qid, _, [Con, "Chain", "event"]}, [Event], _, _, Icode = #{ contract_name := Con }) ->
    aeso_builtins:check_event_type(Icode),
    builtin_call({event, maps:get(event_type, Icode)}, [ast_body(Event, Icode)]);
 builtin_code(_, {qid, _, ["Chain", "balance"]}, [Address], _, _, Icode) ->
    #prim_balance{ address = ast_body(Address, Icode) };
 builtin_code(_, {qid, _, ["Chain", "block_hash"]}, [Height], _, _, Icode) ->
    builtin_call(block_hash, [ast_body(Height, Icode)]);
 builtin_code(_, {qid, _, ["Call", "gas_left"]}, [], _, _, _Icode) ->
    prim_gas_left;
 %% Abort
 builtin_code(_, {id, _, "abort"}, [String], _, _, Icode) ->
    builtin_call(abort, [ast_body(String, Icode)]);
 builtin_code(_, {id, _, "require"}, [Bool, String], _, _, Icode) ->
    builtin_call(require, [ast_body(Bool, Icode), ast_body(String, Icode)]);
 %% Oracles
 builtin_code(_, {qid, Ann, ["Oracle", "register"]}, Args, _, OracleType = ?oracle_t(QType, RType), Icode) ->
    check_oracle_type(Ann, OracleType),
    {Sign, [Acct, QFee, TTL]} = get_signature_arg(Args),
    prim_call(?PRIM_CALL_ORACLE_REGISTER, #integer{value = 0},
              [ast_body(Acct, Icode), ast_body(Sign, Icode), ast_body(QFee, Icode), ast_body(TTL, Icode),
               ast_type_value(QType, Icode), ast_type_value(RType, Icode)],
              [word, sign_t(), word, ttl_t(Icode), typerep, typerep], word);
 builtin_code(_, {qid, _, ["Oracle", "query_fee"]}, [Oracle], [_], _, Icode) ->
    prim_call(?PRIM_CALL_ORACLE_QUERY_FEE, #integer{value = 0},
              [ast_body(Oracle, Icode)], [word], word);
 builtin_code(_, {qid, Ann, ["Oracle", "query"]}, [Oracle, Q, QFee, QTTL, RTTL], [OracleType, QType, _, _, _], _, Icode) ->
    check_oracle_type(Ann, OracleType),
    prim_call(?PRIM_CALL_ORACLE_QUERY, ast_body(QFee, Icode),
              [ast_body(Oracle, Icode), ast_body(Q, Icode), ast_body(QTTL, Icode), ast_body(RTTL, Icode)],
              [word, ast_type(QType, Icode), ttl_t(Icode), ttl_t(Icode)], word);
 builtin_code(_, {qid, _, ["Oracle", "extend"]}, Args, [_, _], _, Icode) ->
    {Sign, [Oracle, TTL]} = get_signature_arg(Args),
    prim_call(?PRIM_CALL_ORACLE_EXTEND, #integer{value = 0},
              [ast_body(Oracle, Icode), ast_body(Sign, Icode), ast_body(TTL, Icode)],
              [word, sign_t(), ttl_t(Icode)], {tuple, []});
 builtin_code(_, {qid, Ann, ["Oracle", "respond"]}, Args, [OracleType, _, RType], _, Icode) ->
    check_oracle_type(Ann, OracleType),
    {Sign, [Oracle, Query, R]} = get_signature_arg(Args),
    prim_call(?PRIM_CALL_ORACLE_RESPOND, #integer{value = 0},
              [ast_body(Oracle, Icode), ast_body(Query, Icode), ast_body(Sign, Icode), ast_body(R, Icode)],
              [word, word, sign_t(), ast_type(RType, Icode)], {tuple, []});
 builtin_code(_, {qid, Ann, ["Oracle", "get_question"]}, [Oracle, Q], [OracleType, ?query_t(QType, _)], _, Icode) ->
    check_oracle_type(Ann, OracleType),
    prim_call(?PRIM_CALL_ORACLE_GET_QUESTION, #integer{value = 0},
              [ast_body(Oracle, Icode), ast_body(Q, Icode)], [word, word], ast_type(QType, Icode));
 builtin_code(_, {qid, Ann, ["Oracle", "get_answer"]}, [Oracle, Q], [OracleType, ?query_t(_, RType)], _, Icode) ->
    check_oracle_type(Ann, OracleType),
    prim_call(?PRIM_CALL_ORACLE_GET_ANSWER, #integer{value = 0},
              [ast_body(Oracle, Icode), ast_body(Q, Icode)], [word, word], aeso_icode:option_typerep(ast_type(RType, Icode)));
 builtin_code(_, {qid, Ann, ["Oracle", "check"]}, [Oracle], [OracleType = ?oracle_t(Q, R)], _, Icode) ->
    check_oracle_type(Ann, OracleType),
    prim_call(?PRIM_CALL_ORACLE_CHECK, #integer{value = 0},
              [ast_body(Oracle, Icode), ast_type_value(Q, Icode), ast_type_value(R, Icode)],
              [word, typerep, typerep], word);
 builtin_code(_, {qid, Ann, ["Oracle", "check_query"]}, [Oracle, Query], [OracleType, ?query_t(Q, R)], _, Icode) ->
    check_oracle_type(Ann, OracleType),
    prim_call(?PRIM_CALL_ORACLE_CHECK_QUERY, #integer{value = 0},
              [ast_body(Oracle, Icode), ast_body(Query, Icode),
               ast_type_value(Q, Icode), ast_type_value(R, Icode)],
              [word, typerep, typerep], word);
 %% Name service
 builtin_code(_, {qid, Ann, ["AENS", "resolve"]}, [Name, Key], _, ?option_t(Type), Icode) ->
    case is_monomorphic(Type) of
        true ->
            case ast_type(Type, Icode) of
                T when T == word; T == string -> ok;
                _ -> gen_error({invalid_aens_resolve_type, Ann, Type})
            end,
            prim_call(?PRIM_CALL_AENS_RESOLVE, #integer{value = 0},
                      [ast_body(Name, Icode), ast_body(Key, Icode), ast_type_value(Type, Icode)],
                      [string, string, typerep], aeso_icode:option_typerep(ast_type(Type, Icode)));
        false ->
            gen_error({invalid_aens_resolve_type, Ann, Type})
    end;
 builtin_code(_, {qid, _, ["AENS", "preclaim"]}, Args, _, _, Icode) ->
    {Sign, [Addr, CHash]} = get_signature_arg(Args),
    prim_call(?PRIM_CALL_AENS_PRECLAIM, #integer{value = 0},
              [ast_body(Addr, Icode), ast_body(CHash, Icode), ast_body(Sign, Icode)],
              [word, word, sign_t()], {tuple, []});
 builtin_code(_, {qid, _, ["AENS", "claim"]}, Args, _, _, Icode) ->
    {Sign, [Addr, Name, Salt, NameFee]} = get_signature_arg(Args),
    prim_call(?PRIM_CALL_AENS_CLAIM, #integer{value = 0},
              [ast_body(Addr, Icode), ast_body(Name, Icode), ast_body(Salt, Icode), ast_body(NameFee, Icode), ast_body(Sign, Icode)],
              [word, string, word, word, sign_t()], {tuple, []});
 builtin_code(_, {qid, _, ["AENS", "transfer"]}, Args, _, _, Icode) ->
    {Sign, [FromAddr, ToAddr, Name]} = get_signature_arg(Args),
    prim_call(?PRIM_CALL_AENS_TRANSFER, #integer{value = 0},
              [ast_body(FromAddr, Icode), ast_body(ToAddr, Icode), ast_body(Name, Icode), ast_body(Sign, Icode)],
              [word, word, word, sign_t()], {tuple, []});
 builtin_code(_, {qid, _, ["AENS", "revoke"]}, Args, _, _, Icode) ->
    {Sign, [Addr, Name]} = get_signature_arg(Args),
    prim_call(?PRIM_CALL_AENS_REVOKE, #integer{value = 0},
              [ast_body(Addr, Icode), ast_body(Name, Icode), ast_body(Sign, Icode)],
              [word, word, sign_t()], {tuple, []});
 %% -- Maps
 %% -- lookup functions
 builtin_code(_, {qid, _, ["Map", "lookup"]}, [Key, Map], _, _, Icode) ->
    map_get(Key, Map, Icode);
 builtin_code(_, {qid, _, ["Map", "lookup_default"]}, [Key, Map, Val], _, _, Icode) ->
    {_, ValType} = check_monomorphic_map(Map, Icode),
    Fun = {map_lookup_default, ast_typerep(ValType, Icode)},
    builtin_call(Fun, [ast_body(Map, Icode), ast_body(Key, Icode), ast_body(Val, Icode)]);
 builtin_code(_, {qid, _, ["Map", "member"]}, [Key, Map], _, _, Icode) ->
    builtin_call(map_member, [ast_body(Map, Icode), ast_body(Key, Icode)]);
 builtin_code(_, {qid, _, ["Map", "size"]}, [Map], _, _, Icode) ->
    builtin_call(map_size, [ast_body(Map, Icode)]);
 builtin_code(_, {qid, _, ["Map", "delete"]}, [Key, Map], _, _, Icode) ->
    map_del(Key, Map, Icode);
 %% -- map conversion to/from list
 builtin_code(_, {qid, Ann, ["Map", "from_list"]}, [List], _, MapType, Icode) ->
    {KeyType, ValType} = check_monomorphic_map(Ann, MapType, Icode),
    builtin_call(map_from_list, [ast_body(List, Icode), map_empty(KeyType, ValType, Icode)]);
 builtin_code(_, {qid, _, ["Map", "to_list"]}, [Map], _, _, Icode) ->
    map_tolist(Map, Icode);
 %% Crypto
 builtin_code(_, {qid, _, ["Crypto", "verify_sig"]}, [Msg, PK, Sig], _, _, Icode) ->
    prim_call(?PRIM_CALL_CRYPTO_VERIFY_SIG, #integer{value = 0},
              [ast_body(Msg, Icode), ast_body(PK, Icode), ast_body(Sig, Icode)],
              [word, word, sign_t()], word);
 builtin_code(_, {qid, _, ["Crypto", "verify_sig_secp256k1"]}, [Msg, PK, Sig], _, _, Icode) ->
    prim_call(?PRIM_CALL_CRYPTO_VERIFY_SIG_SECP256K1, #integer{value = 0},
              [ast_body(Msg, Icode), ast_body(PK, Icode), ast_body(Sig, Icode)],
              [bytes_t(32), bytes_t(64), bytes_t(64)], word);
 builtin_code(_, {qid, _, ["Crypto", "ecverify_secp256k1"]}, [Msg, Addr, Sig], _, _, Icode) ->
    prim_call(?PRIM_CALL_CRYPTO_ECVERIFY_SECP256K1, #integer{value = 0},
              [ast_body(Msg, Icode), ast_body(Addr, Icode), ast_body(Sig, Icode)],
              [word, bytes_t(20), bytes_t(65)], word);
 builtin_code(_, {qid, _, ["Crypto", "ecrecover_secp256k1"]}, [Msg, Sig], _, _, Icode) ->
    prim_call(?PRIM_CALL_CRYPTO_ECRECOVER_SECP256K1, #integer{value = 0},
              [ast_body(Msg, Icode), ast_body(Sig, Icode)],
              [word, bytes_t(65)], aeso_icode:option_typerep(bytes_t(20)));
 builtin_code(_, {qid, _, ["Crypto", Op]}, [Term], [Type], _, Icode)
        when Op == "sha3"; Op == "sha256"; Op == "blake2b" ->
    generic_hash_primop(list_to_atom(Op), ast_body(Term, Icode), Type, Icode);
 builtin_code(_, {qid, _, ["String", Op]}, [String], _, _, Icode)
        when Op == "sha3"; Op == "sha256"; Op == "blake2b" ->
    string_hash_primop(list_to_atom(Op), ast_body(String, Icode));
 %% Strings
 %% -- String length
 builtin_code(_, {qid, _, ["String", "length"]}, [String], _, _, Icode) ->
    builtin_call(string_length, [ast_body(String, Icode)]);
 %% -- String concat
 builtin_code(_, {qid, _, ["String", "concat"]}, [String1, String2], _, _, Icode) ->
    builtin_call(string_concat, [ast_body(String1, Icode), ast_body(String2, Icode)]);
 builtin_code(_, {qid, _, ["Bits", Fun]}, Args, _, _, Icode)
        when Fun == "test"; Fun == "set"; Fun == "clear";
             Fun == "union"; Fun == "intersection"; Fun == "difference" ->
    C  = fun(N) when is_integer(N) -> #integer{ value = N };
            (X) -> X end,
    Bin = fun(O) -> fun(A, B) -> #binop{ op = O, left = C(A), right = C(B) } end end,
    And = Bin('band'),
    Or  = Bin('bor'),
    Bsl = fun(A, B) -> (Bin('bsl'))(B, A) end, %% flipped arguments
    Bsr = fun(A, B) -> (Bin('bsr'))(B, A) end,
    Neg = fun(A) -> #unop{ op = 'bnot', rand = C(A) } end,
    case [Fun | [ ast_body(Arg, Icode) || Arg <- Args ]] of
        ["test", Bits, Ix]     -> And(Bsr(Bits, Ix), 1);
        ["set", Bits, Ix]      -> Or(Bits, Bsl(1, Ix));
        ["clear", Bits, Ix]    -> And(Bits, Neg(Bsl(1, Ix)));
        ["union", A, B]        -> Or(A, B);
        ["intersection", A, B] -> And(A, B);
        ["difference", A, B]   -> And(A, Neg(And(A, B)))
    end;
 builtin_code(_, {qid, _, ["Bits", "sum"]}, [Bits], _, _, Icode) ->
    builtin_call(popcount, [ast_body(Bits, Icode), #integer{ value = 0 }]);
 builtin_code(_, {qid, _, ["Int", "to_str"]}, [Int], _, _, Icode) ->
    builtin_call(int_to_str, [ast_body(Int, Icode)]);
 builtin_code(_, {qid, _, ["Address", "to_str"]}, [Addr], _, _, Icode) ->
    builtin_call(addr_to_str, [ast_body(Addr, Icode)]);
 builtin_code(_, {qid, _, ["Address", "is_oracle"]}, [Addr], _, _, Icode) ->
    prim_call(?PRIM_CALL_ADDR_IS_ORACLE, #integer{value = 0},
              [ast_body(Addr, Icode)], [word], word);
 builtin_code(_, {qid, _, ["Address", "is_contract"]}, [Addr], _, _, Icode) ->
    prim_call(?PRIM_CALL_ADDR_IS_CONTRACT, #integer{value = 0},
              [ast_body(Addr, Icode)], [word], word);
 builtin_code(_, {qid, _, ["Address", "is_payable"]}, [Addr], _, _, Icode) ->
    prim_call(?PRIM_CALL_ADDR_IS_PAYABLE, #integer{value = 0},
              [ast_body(Addr, Icode)], [word], word);
 builtin_code(_, {qid, _, ["Address", "to_contract"]}, [Addr], _, _, Icode) ->
    ast_body(Addr, Icode);
 builtin_code(_, {qid, _, ["Bytes", "to_int"]}, [Bytes], _, _, Icode) ->
    {typed, _, _, {bytes_t, _, N}} = Bytes,
    builtin_call({bytes_to_int, N}, [ast_body(Bytes, Icode)]);
 builtin_code(_, {qid, _, ["Bytes", "to_str"]}, [Bytes], _, _, Icode) ->
    {typed, _, _, {bytes_t, _, N}} = Bytes,
    builtin_call({bytes_to_str, N}, [ast_body(Bytes, Icode)]);
 builtin_code(_, {qid, _, ["Bytes", "concat"]}, [A, B], [TypeA, TypeB], _, Icode) ->
    {bytes_t, _, M} = TypeA,
    {bytes_t, _, N} = TypeB,
    builtin_call({bytes_concat, M, N}, [ast_body(A, Icode), ast_body(B, Icode)]);
 builtin_code(_, {qid, _, ["Bytes", "split"]}, [A], _, ResType, Icode) ->
    {tuple_t, _, [{bytes_t, _, M}, {bytes_t, _, N}]} = ResType,
    builtin_call({bytes_split, M, N}, [ast_body(A, Icode)]);
 builtin_code(_As, Fun, _Args, _ArgsT, _RetT, _Icode) ->
    gen_error({missing_code_for, Fun}).
 eta_expand(Id = {_, Ann0, _}, Type = {fun_t, _, [], ArgsT, _}, Icode) ->
    Ann = [{origin, system} | Ann0],
    Xs  = [ {arg, Ann, {id, Ann, "%" ++ integer_to_list(I)}, T} ||
            {I, T} <- lists:zip(lists:seq(1, length(ArgsT)), ArgsT) ],
    Args = [ {typed, Ann, X, T} || {arg, _, X, T} <- Xs ],
    ast_body({lam, Ann, Xs, {app, Ann, {typed, Ann, Id, Type}, Args}}, Icode);
 eta_expand(Id, _Type, _Icode) ->
    gen_error({unapplied_builtin, Id}).
 check_monomorphic_map({typed, Ann, _, MapType}, Icode) ->
    check_monomorphic_map(Ann, MapType, Icode).
-check_monomorphic_map(Ann, Type = ?map_t(KeyType, ValType), Icode) ->
+-dialyzer({nowarn_function, check_monomorphic_map/3}).
-    case is_monomorphic(KeyType) of
+check_monomorphic_map(Ann, ?map_t(KeyType, ValType), _Icode) ->
-        true  ->
+    Err = fun(Why) -> gen_error({invalid_map_key_type, Why, Ann, KeyType}) end,
-            case has_maps(ast_type(KeyType, Icode)) of
+    [ Err(polymorphic) || not is_monomorphic(KeyType) ],
-                false -> {KeyType, ValType};
+    [ Err(function)    || not is_first_order_type(KeyType) ],
-                true  -> gen_error({cant_use_map_as_map_keys, Ann, Type})
+    {KeyType, ValType}.
            end;
        false -> gen_error({cant_compile_map_with_polymorphic_keys, Ann, Type})
    end.
 map_empty(KeyType, ValType, Icode) ->
    prim_call(?PRIM_CALL_MAP_EMPTY, #integer{value = 0},
@@ -689,8 +764,8 @@ map_empty(KeyType, ValType, Icode) ->
               ast_type_value(ValType, Icode)],
              [typerep, typerep], word).
-map_get(Key, Map = {typed, Ann, _, MapType}, Icode) ->
+map_get(Key, Map = {typed, _Ann, _, MapType}, Icode) ->
-    {_KeyType, ValType} = check_monomorphic_map(Ann, MapType, Icode),
+    {_KeyType, ValType} = check_monomorphic_map(aeso_syntax:get_ann(Key), MapType, Icode),
    builtin_call({map_lookup, ast_type(ValType, Icode)}, [ast_body(Map, Icode), ast_body(Key, Icode)]).
 map_put(Key, Val, Map, Icode) ->
@@ -720,14 +795,29 @@ map_upd(Key, Default, ValFun, Map = {typed, Ann, _, MapType}, Icode) ->
    builtin_call(FunName, Args).
 check_entrypoint_type(Ann, Name, Args, Ret) ->
-    Check = fun(T, Err) ->
+    CheckFirstOrder = fun(T, Err) ->
-                case is_simple_type(T) of
+                case is_first_order_type(T) of
                    false -> gen_error(Err);
                    true  -> ok
                end end,
-    [ Check(T, {entrypoint_argument_must_have_simple_type, Ann1, Name, X, T})
+    CheckMonomorphic = fun(T, Err) ->
-      || {arg, Ann1, X, T} <- Args ],
+                case is_monomorphic(T) of
-    Check(Ret, {entrypoint_must_have_simple_return_type, Ann, Name, Ret}).
+                    false -> gen_error(Err);
                    true  -> ok
                end end,
    [ CheckFirstOrder(T, {invalid_entrypoint, higher_order, Ann1, Name, {argument, X, T}})
      || {typed, Ann1, X, T} <- Args ],
    CheckFirstOrder(Ret, {invalid_entrypoint, higher_order, Ann, Name, {result, Ret}}),
    [ CheckMonomorphic(T, {invalid_entrypoint, polymorphic, Ann1, Name, {argument, X, T}})
      || {typed, Ann1, X, T} <- Args ],
    CheckMonomorphic(Ret, {invalid_entrypoint, polymorphic, Ann, Name, {result, Ret}}).
 check_oracle_type(Ann, Type = ?oracle_t(QType, RType)) ->
    [ gen_error({invalid_oracle_type, Why, Which, Ann, Type})
      || {Why, Check} <- [{polymorphic, fun is_monomorphic/1},
                          {higher_order, fun is_first_order_type/1}],
         {Which, T}   <- [{query, QType}, {response, RType}],
         not Check(T) ].
 is_simple_type({tvar, _, _})        -> false;
 is_simple_type({fun_t, _, _, _, _}) -> false;
@@ -735,6 +825,11 @@ is_simple_type(Ts) when is_list(Ts) -> lists:all(fun is_simple_type/1, Ts);
 is_simple_type(T) when is_tuple(T)  -> is_simple_type(tuple_to_list(T));
 is_simple_type(_)                   -> true.
 is_first_order_type({fun_t, _, _, _, _}) -> false;
 is_first_order_type(Ts) when is_list(Ts) -> lists:all(fun is_first_order_type/1, Ts);
 is_first_order_type(T) when is_tuple(T)  -> is_first_order_type(tuple_to_list(T));
 is_first_order_type(_)                   -> true.
 is_monomorphic({tvar, _, _}) -> false;
 is_monomorphic([H|T]) ->
  is_monomorphic(H) andalso is_monomorphic(T);
@@ -761,15 +856,29 @@ prim_call(Prim, Amount, Args, ArgTypes, OutType) ->
                         type_hash= #integer{value = TypeHash}
                       }.
-generic_hash_primop(PrimOp, Term, Type, Icode) ->
+generic_hash_primop(Op, Arg, {bytes_t, _, N}, _Icode) ->
    %% Compile hashing bytes to String.hash. Makes it easier for the user to
    %% predict the result.
    string_hash_primop(Op, aeso_builtins:bytes_to_raw_string(N, Arg));
 generic_hash_primop(Op, Arg, Type, Icode) ->
    PrimOp = case Op of
                 sha3    -> ?PRIM_CALL_CRYPTO_SHA3;
                 sha256  -> ?PRIM_CALL_CRYPTO_SHA256;
                 blake2b -> ?PRIM_CALL_CRYPTO_BLAKE2B
             end,
    ArgType   = ast_type(Type, Icode),
    TypeValue = type_value(ArgType),
    prim_call(PrimOp, #integer{value = 0},
-        [TypeValue, ast_body(Term, Icode)],
+              [TypeValue, Arg], [typerep, ArgType], word).
        [typerep, ArgType], word).
-string_hash_primop(PrimOp, String, Icode) ->
+string_hash_primop(sha3, String) ->
-    prim_call(PrimOp, #integer{value = 0}, [ast_body(String, Icode)], [string], word).
+    #unop{ op = 'sha3', rand = String };
 string_hash_primop(Op, String) ->
    PrimOp = case Op of
                 sha256 -> ?PRIM_CALL_CRYPTO_SHA256_STRING;
                 blake2b -> ?PRIM_CALL_CRYPTO_BLAKE2B_STRING
             end,
    prim_call(PrimOp, #integer{value = 0}, [String], [string], word).
 make_type_def(Args, Def, Icode = #{ type_vars := TypeEnv }) ->
    TVars = [ X || {tvar, _, X} <- Args ],
@@ -870,14 +979,6 @@ ast_fun_to_icode(Name, Attrs, Args, Body, TypeRep, #{functions := Funs} = Icode)
    NewFuns = [{Name, Attrs, Args, Body, TypeRep}| Funs],
    aeso_icode:set_functions(NewFuns, Icode).
 has_maps({map, _, _})   -> true;
 has_maps(word)          -> false;
 has_maps(string)        -> false;
 has_maps(typerep)       -> false;
 has_maps({list, T})     -> has_maps(T);
 has_maps({tuple, Ts})   -> lists:any(fun has_maps/1, Ts);
 has_maps({variant, Cs}) -> lists:any(fun has_maps/1, lists:append(Cs)).
 %% A function is private if not an 'entrypoint', or if it's not defined in the
 %% main contract name space. (NOTE: changes when we introduce inheritance).
 is_private(Ann, #{ contract_name := MainContract } = Icode) ->
@@ -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))),
+     {ifte, ?EQ(offs, 16), {seq, [?V(acc), {inline_asm, [?A(?MSIZE), ?A(?MSTORE), ?A(?MSIZE)]}]},
-                    {seq, [?V(acc), {inline_asm, [?A(?MSIZE), ?A(?MSTORE)]}]},
+         ?LET(b,  ?BYTE(offs, w),
-                    {inline_asm, []}},
+         ?LET(lo, ?BYTE(?MOD(b, 16), Tab),
-            {ifte, ?EQ(offs, 32), {inline_asm, [?A(?MSIZE)]},
+         ?LET(hi, ?BYTE(op('bsr', 4 , b), Tab),
-                ?LET(b,  ?BYTE(offs, w),
+         ?call(bytes_to_str_worker_x, [?V(w), ?ADD(offs, 1), ?ADD(?BSL(acc, 2), ?ADD(?BSL(hi, 1), lo))]))))
-                ?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))]))))
            }
           ]},
     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)]},
+     {seq, [?I(N * 2), {inline_asm, [?A(?MSIZE), ?A(?MSTORE)]}] ++
-            ?call(bytes_to_str_worker, [?V(w), ?I(0), ?I(0)]),
+            builtin_bytes_to_str_body(w, N) ++
-            {inline_asm, [?A(?POP)]},
+            [{inline_asm, [?A(?POP)]}, ?V(ret)]}),
            ?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) ]) ++
+            builtin_bytes_to_str_body(p, N) ++
-           [?V(ret)]}),
+            [{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)]]}).
@@ -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)).
@@ -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").
@@ -65,18 +67,29 @@ 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)],
+            Msg = lists:flatten([File,": ",file:format_error(Error)]),
-	    {error, join_errors("File errors", [ErrorString], fun(E) -> E end)}
+            {error, [aeso_errors:new(file_error, Msg)]}
    end.
 add_include_path(File, Options) ->
@@ -88,7 +101,7 @@ 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).
@@ -98,22 +111,14 @@ from_string(Backend, ContractString, Options) ->
    try
        from_string1(Backend, ContractString, Options)
    catch
-        %% The compiler errors.
+        throw:{error, Errors} -> {error, 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.
    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),
@@ -128,6 +133,7 @@ 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,
@@ -144,7 +150,7 @@ string_to_code(ContractString, Options) ->
    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 ->
@@ -160,10 +166,6 @@ 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").
@@ -175,7 +177,7 @@ 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
@@ -230,16 +232,7 @@ check_call1(ContractString0, FunName, Args, Options) ->
                {ok, FunName, CallArgs}
        end
    catch
-        error:{parse_errors, Errors} ->
+        throw:{error, Errors} -> {error, 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)}
    end.
 arguments_of_body(CallName, _FunName, Fcode) ->
@@ -287,24 +280,31 @@ 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}]}};
+                {ok, Err} ->
-                {error, _} = Err -> 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),
+            try aeb_fate_encoding:deserialize(Data) of
-            {ok, {app, [], {id, [], "abort"}, [{string, [], Err}]}}
+                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_code | Options0],
@@ -324,49 +324,41 @@ 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",
+                            Msg = io_lib:format("Cannot translate VM value ~p\n  of type ~p\n  to Sophia type ~s\n",
-                                                                                    [Data, VmType, Type0Str]))],
+                                                [Data, VmType, Type0Str]),
-                                                fun (E) -> E end)}
+                            {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]))],
+                        Msg = io_lib:format("Failed to decode binary as type ~p\n", [VmType]),
-                                            fun(E) -> E end)}
+                        {error, [aeso_errors:new(data_error, Msg)]}
                end;
            fate ->
-               try
+                try
-                   {ok, aeso_vm_decode:from_fate(Type, aeb_fate_encoding:deserialize(Data))}
+                    {ok, aeso_vm_decode:from_fate(Type, aeb_fate_encoding:deserialize(Data))}
-               catch throw:cannot_translate_to_sophia ->
+                catch throw:cannot_translate_to_sophia ->
-                   {error, join_errors("Translation error",
+                        Type1 = prettypr:format(aeso_pretty:type(Type)),
-                                       [lists:flatten(io_lib:format("Cannot translate fate value ~p\n of Sophia type ~s\n",
+                        Msg = io_lib:format("Cannot translate FATE value ~p\n  of Sophia type ~s\n",
-                                                                    [aeb_fate_encoding:deserialize(Data), Type]))],
+                                            [aeb_fate_encoding:deserialize(Data), Type1]),
-                                       fun (E) -> E end)};
+                        {error, [aeso_errors:new(data_error, Msg)]};
-                     _:R ->
+                      _:_ ->
-                   {error, iolist_to_binary(io_lib:format("Decode error ~p: ~p\n", [R, erlang:get_stacktrace()]))}
+                        Type1 = prettypr:format(aeso_pretty:type(Type)),
                        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} ->
+        throw:{error, Errors} -> {error, 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)}
    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()}
+                             {ok, binary()} | {error, [aeso_errors:error()]}.
                             | {error, term()}.
 create_calldata(Code, Fun, Args, Options0) ->
    Options = [no_code | Options0],
    case proplists:get_value(backend, Options, aevm) of
@@ -386,7 +378,7 @@ 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}]).
@@ -397,8 +389,8 @@ decode_calldata(ContractString, FunName, Calldata, Options0) ->
        #{ typed_ast := TypedAst, type_env  := TypeEnv} = Code,
        {ok, Args, _} = get_decode_type(FunName, TypedAst),
-        DropArg       = fun({arg, _, _, T}) -> T; (T) -> T end,
+        GetType       = fun({typed, _, _, T}) -> T; (T) -> T end,
-        ArgTypes      = lists:map(DropArg, Args),
+        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]),
@@ -413,15 +405,14 @@ decode_calldata(ContractString, FunName, Calldata, Options0) ->
                            %% Values are Sophia expressions in AST format
                            {ok, ArgTypes, Values}
                        catch throw:cannot_translate_to_sophia ->
-                                Type0Str = prettypr:format(aeso_pretty:type(Type0)),
+                            Type0Str = prettypr:format(aeso_pretty:type(Type0)),
-                                {error, join_errors("Translation error",
+                            Msg = io_lib:format("Cannot translate VM value ~p\n  of type ~p\n  to Sophia type ~s\n",
-                                                    [lists:flatten(io_lib:format("Cannot translate VM value ~p\n  of type ~p\n  to Sophia type ~s\n",
+                                                [VmValue, VmType, Type0Str]),
-                                                                                 [VmValue, VmType, Type0Str]))],
+                            {error, [aeso_errors:new(data_error, Msg)]}
                                                    fun (E) -> E end)}
                        end;
                    {error, _Err} ->
-                        {error, join_errors("Decode errors", [lists:flatten(io_lib:format("Failed to decode binary at type ~p", [VmType]))],
+                        Msg = io_lib:format("Failed to decode calldata as type ~p\n", [VmType]),
-                                            fun(E) -> E end)}
+                        {error, [aeso_errors:new(data_error, Msg)]}
                end;
            fate ->
                case aeb_fate_abi:decode_calldata(FunName, Calldata) of
@@ -433,35 +424,30 @@ 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",
+                                Msg = io_lib:format("Cannot translate FATE value ~p\n  to Sophia type ~s\n",
-                                                    [lists:flatten(io_lib:format("Cannot translate fate value ~p\n of Sophia type ~s\n",
+                                                    [FateArgs, Type0Str]),
-                                                                                 [FateArgs, Type0Str]))],
+                                {error, [aeso_errors:new(data_error, Msg)]}
                                                    fun (E) -> E end)}
                        end;
                    {error, _} ->
-                        {error, join_errors("Decode errors", ["Failed to decode binary"],
+                        Msg = io_lib:format("Failed to decode calldata binary\n", []),
-                                            fun(E) -> E end)}
+                        {error, [aeso_errors:new(data_error, Msg)]}
                end
        end
    catch
-        error:{parse_errors, Errors} ->
+        throw:{error, Errors} -> {error, 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)}
    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,
@@ -469,13 +455,14 @@ 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,
@@ -484,7 +471,10 @@ 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]) ->
@@ -518,6 +508,14 @@ 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) ->
@@ -556,9 +554,11 @@ 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} ->
@@ -567,6 +567,87 @@ 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]).
 %% -------------------------------------------------------------------
 sophia_type_to_typerep(String) ->
@@ -582,37 +663,7 @@ 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!
+    aeso_parser:string(Text, Included, Options).
    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]}).
 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]).
@@ -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).
@@ -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.
@@ -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,
@@ -74,6 +75,7 @@ builtin_types() ->
    Word = fun([]) -> word end,
    #{ "bool"         => Word
     , "int"          => Word
     , "char"         => Word
     , "bits"         => Word
     , "string"       => fun([]) -> string end
     , "address"      => Word
@@ -120,6 +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).
@@ -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),
@@ -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.
@@ -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]).
@@ -11,10 +11,9 @@
         type/1]).
 -include("aeso_parse_lib.hrl").
 -import(aeso_parse_lib, [current_file/0, set_current_file/1]).
-type parse_result() :: {ok, aeso_syntax:ast()}
+-type parse_result() :: aeso_syntax:ast() | none().
                      | {error, {aeso_parse_lib:pos(), atom(), term()}}
                      | {error, {aeso_parse_lib:pos(), atom()}}.
 -type include_hash() :: {string(), binary()}.
@@ -33,21 +32,50 @@ string(String, Opts) ->
 string(String, Included, Opts) ->
    case parse_and_scan(file(), String, Opts) of
        {ok, AST} ->
-            expand_includes(AST, Included, Opts);
+            case expand_includes(AST, Included, Opts) of
-        Err = {error, _} ->
+                {ok, AST1}   -> AST1;
-            Err
+                {error, Err} -> parse_error(Err)
            end;
        {error, Err} ->
            parse_error(Err)
    end.
 type(String) ->
-    parse_and_scan(type(), String, []).
+    case parse_and_scan(type(), String, []) of
        {ok, AST}    -> {ok, AST};
        {error, Err} -> {error, [mk_error(Err)]}
    end.
 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 +88,7 @@ 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, []})
@@ -72,13 +101,31 @@ 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(), maybe_block(fundef_or_decl()), fun_block(_1, _2, _3))
-    , ?RULE(modifiers(), fun_or_entry(), fundef(),               add_modifiers(_1, _2, set_pos(get_pos(get_ann(_2)), _3)))
+    , ?RULE(keyword('let'), valdef(),set_pos(get_pos(_1), _2))
    , ?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}),
+    choice([?RULE(keyword(function),   {function,   _1}),
            ?RULE(keyword(entrypoint), {entrypoint, _1})]).
 modifiers() ->
@@ -125,20 +172,19 @@ letdecl() ->
 letdef() -> choice(valdef(), fundef()).
 valdef() ->
-    choice(
+    ?RULE(pattern(), tok('='), body(), {letval, [], _1, _3}).
        ?RULE(id(),                   tok('='), body(), {letval, [], _1, type_wildcard(), _3}),
        ?RULE(id(), tok(':'), type(), tok('='), body(), {letval, [], _1, _3, _5})).
 fundef() ->
    choice(
-    [ ?RULE(id(), args(),                   tok('='), body(), {letfun, [], _1, _2, type_wildcard(), _4})
+    [ ?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, [], _1, _2, _4, _6})
+    , ?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 ------------------------------------------------------------------
@@ -199,7 +245,7 @@ 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 ------------------------------------------------------------
@@ -209,7 +255,7 @@ 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
@@ -258,7 +304,7 @@ 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(
@@ -285,7 +331,7 @@ 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).
@@ -310,7 +356,9 @@ 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) ->
@@ -322,9 +370,7 @@ record_or_map(Fields) ->
    case lists:usort(lists:map(Kind, Fields)) of
        [proj]    -> record;
        [map_get] -> map;
-        _         ->
+        _         -> record_or_map_error %% Defer error until type checking
            [{field, Ann, _, _} | _] = Fields,
            bad_expr_err("Mixed record fields and map keys in", {record, Ann, Fields})
    end.
 field_assignment() ->
@@ -379,7 +425,7 @@ 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() ->
@@ -425,12 +471,6 @@ 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),
@@ -461,8 +501,8 @@ 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() ->
+type_wildcard(Ann) ->
-    {id, [{origin, system}], "_"}.
+    {id, [{origin, system} | Ann], "_"}.
 block_e(Stmts) ->
    group_ifs(Stmts, []).
@@ -512,7 +552,9 @@ 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 +562,10 @@ 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 +578,9 @@ 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) ->
@@ -591,16 +631,33 @@ 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() ->
-    [{include, {file_system, [aeso_stdlib:stdlib_include_path()]}}].
+    StdLibDir = aeso_stdlib:stdlib_include_path(),
    case filelib:is_dir(StdLibDir) of
        true  -> [{include, {file_system, [StdLibDir]}}];
        false -> [{include, escript}]
    end.
 get_include_code(File, Ann, Opts) ->
    case {read_file(File, Opts), read_file(File, stdlib_options())} of
        {{ok, _}, {ok,_ }} ->
-            return_error(ann_pos(Ann), "Illegal redefinition of standard library " ++ File);
+            fail(ann_pos(Ann), "Illegal redefinition of standard library " ++ File);
        {_, {ok, Bin}} ->
            {ok, binary_to_list(Bin)};
        {{ok, Bin}, _} ->
@@ -149,6 +149,7 @@ decl({contract, _, C, Ds}) ->
    block(follow(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),
@@ -168,7 +169,15 @@ 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 +197,10 @@ name({tvar, _, Name})  -> text(Name);
 name({typed, _, Name, _}) -> name(Name).
 -spec letdecl(string(), aeso_syntax:letbind()) -> doc().
-letdecl(Let, {letval, _, F, T, E}) ->
+letdecl(Let, {letval, _, P, E}) ->
-    block_expr(0, hsep([text(Let), typed(name(F), T), text("=")]), 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) ->
@@ -300,6 +309,8 @@ 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}) ->
@@ -382,6 +393,13 @@ 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 '[ ]'
@@ -445,7 +463,7 @@ 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));
@@ -455,7 +473,7 @@ 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).
@@ -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, "+"],
+    INT      = Number(DIGIT),
-    HEX      = ["0x", HEXDIGIT, "+"],
+    HEX      = ["0x", Number(HEXDIGIT)],
-    BYTES    = ["#", 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) ->
+parse_hex("0x" ++ S) ->
-    N      = list_to_integer(Chars, 16),
+    list_to_integer(strip_underscores(S), 16).
-    Digits = (length(Chars) + 1) div 2,
+
 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>>.
@@ -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 +36,21 @@
 -type decl() :: {contract, ann(), con(), [decl()]}
              | {namespace, ann(), con(), [decl()]}
              | {pragma, ann(), pragma()}
              | {type_decl, ann(), id(), [tvar()]}
              | {type_def, ann(), id(), [tvar()], typedef()}
              | {fun_decl, ann(), id(), type()}
              | {fun_clauses, ann(), id(), type(), [letbind()]}
              | {block, ann(), [decl()]}
              | letbind().
 -type compiler_version() :: [non_neg_integer()].
 -type pragma() :: {compiler, '==' | '<' | '>' | '=<' | '>=', compiler_version()}.
 -type letbind()
-    :: {letval, ann(), id(), type(), expr()}
+    :: {letval, ann(), pat(), expr()}
-     | {letfun, ann(), id(), [arg()], type(), expr()}.
+     | {letfun, ann(), id(), [pat()], type(), expr()}.
 -type arg() :: {arg, ann(), id(), type()}.
@@ -95,9 +102,8 @@
     | {list, ann(), [expr()]}
     | {list_comp, ann(), expr(), [comprehension_exp()]}
     | {typed, ann(), expr(), type()}
-     | {record, ann(), [field(expr())]}
+     | {record_or_map(), ann(), [field(expr())]}
-     | {record, ann(), expr(), [field(expr())]} %% record update
+     | {record_or_map(), ann(), expr(), [field(expr())]} %% record/map update
     | {map, ann(), expr(), [field(expr())]}    %% map update
     | {map, ann(), [{expr(), expr()}]}
     | {map_get, ann(), expr(), expr()}
     | {map_get, ann(), expr(), expr(), expr()}
@@ -106,7 +112,9 @@
     | id() | qid() | con() | qcon()
     | constant().
-type comprehension_exp() :: [ {comprehension_bind, id(), expr()}
+-type record_or_map() :: record | map | record_or_map_error.
 -type comprehension_exp() :: [ {comprehension_bind, pat(), expr()}
                             | {comprehension_if, ann(), expr()}
                             | letbind() ].
@@ -134,6 +142,7 @@
 -type pat() :: {app, ann(), con() | op(), [pat()]}
             | {tuple, ann(), [pat()]}
             | {list, ann(), [pat()]}
             | {typed, ann(), pat(), type()}
             | {record, ann(), [field(pat())]}
             | constant()
             | con()
@@ -48,8 +48,9 @@ fold(Alg = #alg{zero = Zero, plus = Plus, scoped = Scoped}, Fun, K, X) ->
            {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)]);
+            {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);
@@ -76,8 +77,8 @@ fold(Alg = #alg{zero = Zero, plus = Plus, scoped = Scoped}, Fun, K, X) ->
                Plus(Expr(E), Scoped(BindExpr(I), Expr({list_comp, A, Y, 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]} ->
+            {list_comp, A, Y, [D = {letval, _, Pat, _} | R]} ->
-                Plus(Decl(D), Scoped(BindExpr(F), Expr({list_comp, A, Y, 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));
@@ -18,9 +18,14 @@ 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, _, "int"}, N0) ->
-from_aevm(word, {id, _, "bits"},    N) -> error({todo, bits, N});
+    <<N:256/signed>> = <<N0:256>>,
-from_aevm(word, {id, _, "bool"},    N) -> {bool, [], N /= 0};
+    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>>,
    {bytes, [], <<Bytes:Len/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, _, "bits"},  ?FATE_BITS(N)) -> make_bits(N);
-from_fate({id, _, "int"},     N) when is_integer(N) -> {int, [], 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}]}.
@@ -1,6 +1,6 @@
 {application, aesophia,
 [{description, "Contract Language for aeternity"},
-  {vsn, "4.0.0-rc1"},
+  {vsn, "4.2.0"},
  {registered, []},
  {applications,
   [kernel,
@@ -62,7 +62,7 @@ encode_decode_sophia_test() ->
                                Other -> Other
                              end end,
    ok = Check("int", "42"),
-    ok = Check("int", "-42"),
+    ok = Check("int", "- 42"),
    ok = Check("bool", "true"),
    ok = Check("bool", "false"),
    ok = Check("string", "\"Hello\""),
@@ -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], []) 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, []) 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"], []),
+                                                        "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>>} =
+    {error, [Err]} =
-            aeso_compiler:check_call(Contract, "haxx", ["#123"], []),
+        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) ->
@@ -174,7 +228,7 @@ encode_decode_calldata(FunName, Types, Args, RetType) ->
 encode_decode_calldata_(Code, FunName, Args, RetVMType) ->
    {ok, Calldata} = aeso_compiler:create_calldata(Code, FunName, Args, []),
-    {ok, _, {ArgTypes, RetType}, _} = aeso_compiler:check_call(Code, FunName, Args, [{backend, aevm}]),
+    {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),
@@ -106,20 +106,20 @@ aci_test_contract(Name) ->
    ok.
 check_stub(Stub, Options) ->
-    case aeso_parser:string(binary_to_list(Stub), Options) of
+    try aeso_parser:string(binary_to_list(Stub), Options) of
-        {ok, Ast} ->
+        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;
+            end
-        {error, E} ->
+    catch throw:{error, Errs} ->
-            io:format("Error: ~p\n", [E]),
+        _ = [ io:format("~s\n", [aeso_errors:pp(E)]) || E <- Errs ],
-            error({parse_error, E})
+        error({parse_errors, Errs})
    end.
@@ -29,11 +29,10 @@ calldata_test_() ->
                  true -> ast_exprs(ContractString, Fun, Args, [{backend, fate}]);
                  false -> undefined
              end,
-           case FateExprs == undefined orelse AevmExprs == undefined of
+           ParsedExprs = parse_args(Fun, Args),
-               true -> ok;
+           [ ?assertEqual(ParsedExprs, AevmExprs) || AevmExprs /= undefined ],
-               false ->
+           [ ?assertEqual(ParsedExprs, FateExprs) || FateExprs /= undefined ],
-                   ?assertEqual(FateExprs, AevmExprs)
+           ok
           end
        end} || {ContractName, Fun, Args} <- compilable_contracts()].
 calldata_aci_test_() ->
@@ -53,19 +52,34 @@ calldata_aci_test_() ->
                  true -> ast_exprs(ContractACI, Fun, Args, [{backend, fate}]);
                  false -> undefined
              end,
-           case FateExprs == undefined orelse AevmExprs == undefined of
+           ParsedExprs = parse_args(Fun, Args),
-               true -> ok;
+           [ ?assertEqual(ParsedExprs, AevmExprs) || AevmExprs /= undefined ],
-               false ->
+           [ ?assertEqual(ParsedExprs, FateExprs) || FateExprs /= undefined ],
-                   ?assertEqual(FateExprs, AevmExprs)
+           ok
           end
        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.
@@ -85,7 +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"
@@ -12,62 +12,92 @@
 -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.
 simple_compile_test_() ->
-     [ {"Testing the " ++ ContractName ++ " contract with the " ++ atom_to_list(Backend) ++ " backend",
+    [ {"Testing the " ++ ContractName ++ " contract with the " ++ atom_to_list(Backend) ++ " backend",
-        fun() ->
+       fun() ->
-            case compile(Backend, ContractName) of
+           case compile(Backend, ContractName) of
-                #{byte_code := ByteCode,
+               #{byte_code := ByteCode,
-                  contract_source := _,
+                 contract_source := _,
-                  type_info := _} when Backend == aevm ->
+                 type_info := _} when Backend == aevm ->
-                    ?assertMatch(Code when is_binary(Code), ByteCode);
+                   ?assertMatch(Code when is_binary(Code), ByteCode);
-                #{fate_code := Code} when Backend == fate ->
+               #{fate_code := Code} when Backend == fate ->
-                    Code1 = aeb_fate_code:deserialize(aeb_fate_code:serialize(Code)),
+                   Code1 = aeb_fate_code:deserialize(aeb_fate_code:serialize(Code)),
-                    ?assertMatch({X, X}, {Code1, Code});
+                   ?assertMatch({X, X}, {Code1, Code});
-                ErrBin ->
+               ErrBin ->
-                    io:format("\n~s", [ErrBin]),
+                   io:format("\n~s", [ErrBin]),
-                    error(ErrBin)
+                   error(ErrBin)
-            end
+           end
-        end} || ContractName <- compilable_contracts(), Backend <- [aevm, fate],
+       end} || ContractName <- compilable_contracts(), Backend <- [aevm, fate],
-                not lists:member(ContractName, not_yet_compilable(Backend))] ++
+               not lists:member(ContractName, not_yet_compilable(Backend))] ++
-     [ {"Testing error messages of " ++ ContractName,
+    [ {"Test file not found error",
-        fun() ->
+       fun() ->
-            case compile(aevm, ContractName) of
+           {error, Errors} = aeso_compiler:file("does_not_exist.aes"),
-                <<"Type errors\n", ErrorString/binary>> ->
+           ExpErr = <<"File error:\ndoes_not_exist.aes: no such file or directory">>,
-                    check_errors(lists:sort(ExpectedErrors), ErrorString);
+           check_errors([ExpErr], Errors)
-                <<"Parse errors\n", ErrorString/binary>> ->
+       end} ] ++
-                    check_errors(lists:sort(ExpectedErrors), ErrorString)
+    [ {"Testing error messages of " ++ ContractName,
-            end
+       fun() ->
-        end} ||
+           Errors = compile(aevm, ContractName),
-            {ContractName, ExpectedErrors} <- failing_contracts() ] ++
+           check_errors(ExpectedErrors, Errors)
-     [ {"Testing include with explicit files",
+       end} ||
-        fun() ->
+           {ContractName, ExpectedErrors} <- failing_contracts() ] ++
-            FileSystem = maps:from_list(
+    [ {"Testing " ++ atom_to_list(Backend) ++ " code generation error messages of " ++ ContractName,
-                [ begin
+       fun() ->
-                    {ok, Bin} = file:read_file(filename:join([aeso_test_utils:contract_path(), File])),
+           Errors = compile(Backend, ContractName),
-                    {File, Bin}
+           Expect =
-                  end || File <- ["included.aes", "../contracts/included2.aes"] ]),
+               case is_binary(ExpectedError) of
-            #{byte_code := Code1} = compile(aevm, "include", [{include, {explicit_files, FileSystem}}]),
+                   true  -> [ExpectedError];
-            #{byte_code := Code2} = compile(aevm, "include"),
+                   false ->
-            ?assertMatch(true, Code1 == Code2)
+                       case proplists:get_value(Backend, ExpectedError, no_error) of
-        end} ] ++
+                           no_error -> no_error;
-     [ {"Testing deadcode elimination for " ++ atom_to_list(Backend),
+                           Err      -> [Err]
-        fun() ->
+                       end
-            #{ byte_code := NoDeadCode } = compile(Backend, "nodeadcode"),
+               end,
-            #{ byte_code := DeadCode   } = compile(Backend, "deadcode"),
+           check_errors(Expect, Errors)
-            SizeNoDeadCode = byte_size(NoDeadCode),
+       end} ||
-            SizeDeadCode   = byte_size(DeadCode),
+           {ContractName, ExpectedError} <- failing_code_gen_contracts(),
-            Delta          = if Backend == aevm -> 40;
+           Backend <- [aevm, fate] ] ++
-                                Backend == fate -> 20 end,
+    [ {"Testing include with explicit files",
-            ?assertMatch({_, _, true}, {SizeDeadCode, SizeNoDeadCode, SizeDeadCode + Delta < SizeNoDeadCode}),
+       fun() ->
-            ok
+           FileSystem = maps:from_list(
-        end} || Backend <- [aevm, fate] ].
+               [ begin
                   {ok, Bin} = file:read_file(filename:join([aeso_test_utils:contract_path(), File])),
                   {File, Bin}
                 end || File <- ["included.aes", "../contracts/included2.aes"] ]),
           #{byte_code := Code1} = compile(aevm, "include", [{include, {explicit_files, FileSystem}}]),
           #{byte_code := Code2} = compile(aevm, "include"),
           ?assertMatch(true, Code1 == Code2)
       end} ] ++
    [ {"Testing deadcode elimination for " ++ atom_to_list(Backend),
       fun() ->
           #{ byte_code := NoDeadCode } = compile(Backend, "nodeadcode"),
           #{ byte_code := DeadCode   } = compile(Backend, "deadcode"),
           SizeNoDeadCode = byte_size(NoDeadCode),
           SizeDeadCode   = byte_size(DeadCode),
           Delta          = if Backend == aevm -> 40;
                               Backend == fate -> 20 end,
           ?assertMatch({_, _, true}, {SizeDeadCode, SizeNoDeadCode, SizeDeadCode + Delta < SizeNoDeadCode}),
           ok
       end} || Backend <- [aevm, fate] ] ++
    [].
-check_errors(Expect, ErrorString) ->
+check_errors(no_error, Actual) -> ?assertMatch(#{}, Actual);
-    %% This removes the final single \n as well.
+check_errors(Expect, #{}) ->
-    Actual = binary:split(<<ErrorString/binary,$\n>>, <<"\n\n">>, [global,trim]),
+    ?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});
@@ -80,9 +110,10 @@ compile(Backend, Name) ->
 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;
+        {ok, Map}                                        -> Map;
-        {error, ErrorString} -> ErrorString
+        {error, ErrorString} when is_binary(ErrorString) -> ErrorString;
        {error, Errors}                                  -> Errors
    end.
 %% compilable_contracts() -> [ContractName].
@@ -107,6 +138,7 @@ compilable_contracts() ->
     "test",
     "builtin_bug",
     "builtin_map_get_bug",
     "lc_record_bug",
     "nodeadcode",
     "deadcode",
     "variant_types",
@@ -120,6 +152,7 @@ compilable_contracts() ->
     "address_chain",
     "namespace_bug",
     "bytes_to_x",
     "bytes_concat",
     "aens",
     "tuple_match",
     "cyclic_include",
@@ -127,7 +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) -> [];
@@ -135,242 +173,631 @@ 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",
+    {ok, V} = aeso_compiler:numeric_version(),
-       [<<"Duplicate definitions of abort at\n"
+    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">>]}
+          "  - line 17, column 3">>])
-    , {"type_errors",
+    , ?TYPE_ERROR(type_errors,
-       [<<"Unbound variable zz at line 17, column 23">>,
+       [<<?Pos(17, 23)
-        <<"Cannot unify int\n"
+          "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).">>,
+        <<?Pos(44, 14)
-        <<"Repeated argument y to function repeated_arg (at line 44, column 14).">>,
+          "Repeated names x, y in pattern\n"
-        <<"No record type with fields y, z (at line 14, column 24)">>,
+          "  (x : int, y, x : string, y : bool) (at line 44, column 14)">>,
-        <<"The field z is missing when constructing an element of type r2 (at line 15, column 26)">>,
+        <<?Pos(44, 39)
-        <<"Record type r2 does not have field y (at line 15, column 24)">>,
+          "Cannot unify int\n"
-        <<"Let binding at line 47, column 5 must be followed by an expression">>,
+          "         and string\n"
-        <<"Let binding at line 50, column 5 must be followed by an expression">>,
+          "when checking the type of the expression at line 44, column 39\n"
-        <<"Let binding at line 54, column 5 must be followed by an expression">>,
+          "  x : int\n"
-        <<"Let binding at line 58, column 5 must be followed by an expression">>]}
+          "against the expected type\n"
-    , {"init_type_error",
+          "  string">>,
-       [<<"Cannot unify string\n"
+        <<?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">>]}
+          "when checking that 'init' returns a value of type 'state' at line 7, column 3">>])
-    , {"missing_state_type",
+    , ?TYPE_ERROR(missing_state_type,
-       [<<"Cannot unify string\n"
+       [<<?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">>]}
+          "when checking that 'init' returns a value of type 'state' at line 5, column 3">>])
-    , {"missing_fields_in_record_expression",
+    , ?TYPE_ERROR(missing_fields_in_record_expression,
-       [<<"The field x is missing when constructing an element of type r('a) (at line 7, column 42)">>,
+       [<<?Pos(7, 42)
-        <<"The field y is missing when constructing an element of type r(int) (at line 8, column 42)">>,
+          "The field x is missing when constructing an element of type r('a) (at line 7, column 42)">>,
-        <<"The fields y, z are missing when constructing an element of type r('a) (at line 6, column 42)">>]}
+        <<?Pos(8, 42)
-    , {"namespace_clash",
+          "The field y is missing when constructing an element of type r(int) (at line 8, column 42)">>,
-       [<<"The contract Call (at line 4, column 10) has the same name as a namespace at (builtin location)">>]}
+        <<?Pos(6, 42)
-    , {"bad_events",
+          "The fields y, z are missing when constructing an element of type r('a) (at line 6, column 42)">>])
-        [<<"The indexed type string (at line 9, column 25) is not a word type">>,
+    , ?TYPE_ERROR(namespace_clash,
-         <<"The indexed type alias_string (at line 10, column 25) equals string which is not a word type">>]}
+       [<<?Pos(4, 10)
-    , {"bad_events2",
+          "The contract Call (at line 4, column 10) has the same name as a namespace at (builtin location)">>])
-        [<<"The event constructor BadEvent1 (at line 9, column 7) has too many non-indexed values (max 1)">>,
+    , ?TYPE_ERROR(bad_events,
-         <<"The event constructor BadEvent2 (at line 10, column 7) has too many indexed values (max 3)">>]}
+        [<<?Pos(9, 25)
-    , {"type_clash",
+           "The indexed type string (at line 9, column 25) is not a word type">>,
-        [<<"Cannot unify int\n"
+         <<?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)">>]}
+           "  (gas : int, value : int) => map(string, int)">>])
-    , {"bad_include_and_ns",
+    , ?TYPE_ERROR(bad_include_and_ns,
-        [<<"Include of 'included.aes' at line 2, column 11\nnot allowed, include only allowed at top level.">>,
+        [<<?Pos(2, 11)
-         <<"Nested namespace not allowed\nNamespace 'Foo' at line 3, column 13 not defined at top level.">>]}
+           "Include of 'included.aes' at line 2, column 11\nnot allowed, include only allowed at top level.">>,
-    , {"bad_address_literals",
+         <<?Pos(3, 13)
-        [<<"The type bytes(32) is not a contract type\n"
+           "Nested namespace not allowed\nNamespace 'Foo' at line 3, column 13 not defined at top level.">>])
-           "when checking that the contract literal at line 32, column 5\n"
+    , ?TYPE_ERROR(bad_address_literals,
-           "  ct_Ez6MyeTMm17YnTnDdHTSrzMEBKmy7Uz2sXu347bTDPgVH2ifJ\n"
+        [<<?Pos(11, 5)
-           "has the type\n"
+           "Cannot unify address\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"
           "         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)">>]}
+           "  bytes(32)">>,
-    , {"stateful",
+         <<?Pos(14, 5)
-       [<<"Cannot reference stateful function Chain.spend (at line 13, column 35)\nin the definition of non-stateful function fail1.">>,
+           "Cannot unify oracle('a, 'b)\n"
-        <<"Cannot reference stateful function local_spend (at line 14, column 35)\nin the definition of non-stateful function fail2.">>,
+           "         and oracle_query(int, bool)\n"
-        <<"Cannot reference stateful function Chain.spend (at line 16, column 15)\nin the definition of non-stateful function fail3.">>,
+           "when checking the type of the expression at line 14, column 5\n"
-        <<"Cannot reference stateful function Chain.spend (at line 20, column 31)\nin the definition of non-stateful function fail4.">>,
+           "  ok_2YNyxd6TRJPNrTcEDCe9ra59SVUdp9FR9qWC5msKZWYD9bP9z5 :\n"
-        <<"Cannot reference stateful function Chain.spend (at line 35, column 47)\nin the definition of non-stateful function fail5.">>,
+           "    oracle('a, 'b)\n"
-        <<"Cannot pass non-zero value argument 1000 (at line 48, column 57)\nin the definition of non-stateful function fail6.">>,
+           "against the expected type\n"
-        <<"Cannot pass non-zero value argument 1000 (at line 49, column 56)\nin the definition of non-stateful function fail7.">>,
+           "  oracle_query(int, bool)">>,
-        <<"Cannot pass non-zero value argument 1000 (at line 52, column 17)\nin the definition of non-stateful function fail8.">>]}
+         <<?Pos(16, 5)
-    , {"bad_init_state_access",
+           "Cannot unify oracle('c, 'd)\n"
-       [<<"The init function should return the initial state as its result and cannot write the state,\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)">>]}
+          "  - state (at line 13, column 13)">>])
-    , {"field_parse_error",
+    , ?TYPE_ERROR(modifier_checks,
-       [<<"line 6, column 1: In field_parse_error at 5:26:\n"
+       [<<?Pos(11, 3)
-          "Cannot use nested fields or keys in record construction: p.x\n">>]}
+          "The function all_the_things (at line 11, column 3) cannot be both public and private.">>,
-    , {"modifier_checks",
+        <<?Pos(3, 3)
-       [<<"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.">>,
-        <<"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'.">>,
+          "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.">>,
+        <<?Pos(12, 3)
-        <<"Use 'entrypoint' for declaration of foo (at line 6, column 3):\n  entrypoint foo : () => unit">>,
+          "The entrypoint wha (at line 12, column 3) cannot be private. Use 'function' instead.">>,
-        <<"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">>]}
+          "Use 'entrypoint' for declaration of foo (at line 6, column 3):\n  entrypoint foo : () => unit">>,
-    , {"list_comp_not_a_list",
+        <<?Pos(10, 3)
-      [<<"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)">>
+          "Use 'entrypoint' instead of 'function' for public function foo (at line 10, column 3):\n  entrypoint foo() = ()">>,
-      ]}
+        <<?Pos(6, 3)
-    , {"list_comp_if_not_bool",
+          "Use 'entrypoint' instead of 'function' for public function foo (at line 6, column 3):\n  entrypoint foo : () => unit">>])
-      [<<"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_not_a_list,
-      ]}
+      [<<?Pos(2, 36)
-    , {"list_comp_bad_shadow",
+         "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)">>
-      [<<"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(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(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">>
                  ])
    ].
 -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()]}}]).
@@ -4,6 +4,8 @@
 -include_lib("eunit/include/eunit.hrl").
 id(X) -> X.
 simple_contracts_test_() ->
    {foreach,
     fun() -> ok end,
@@ -14,7 +16,7 @@ simple_contracts_test_() ->
                   "  function id(x) = x\n",
            ?assertMatch(
                [{contract, _, {con, _, "Identity"},
-                    [{letfun, _, {id, _, "id"}, [{arg, _, {id, _, "x"}, {id, _, "_"}}], {id, _, "_"},
+                    [{letfun, _, {id, _, "id"}, [{id, _, "x"}], {id, _, "_"},
                        {id, _, "x"}}]}], parse_string(Text)),
            ok
       end},
@@ -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),
+                            ?assertThrow({error, [_]},
                            ?assertError({error, {_, parse_error, _}},
                                         parse_expr(NoPar({a, Op, {b, Op, c}}))) end,
            Stronger = fun(Op1, Op2) ->
                    CheckParens({{a, Op1, b}, Op2, c}),
@@ -74,13 +75,10 @@ roundtrip_contract(Name) ->
 parse_string(Text) -> parse_string(Text, []).
 parse_string(Text, Opts) ->
-    case aeso_parser:string(Text, Opts) of
+    aeso_parser:string(Text, Opts).
        {ok, Contract} -> Contract;
        Err -> error(Err)
    end.
 parse_expr(Text) ->
-    [{letval, _, _, _, Expr}] =
+    [{letval, _, _, Expr}] =
        parse_string("let _ = " ++ Text),
    Expr.
@@ -11,4 +11,6 @@ contract AddressLiterals =
    oq_2oRvyowJuJnEkxy58Ckkw77XfWJrmRgmGaLzhdqb67SKEL1gPY
  entrypoint contr() : Remote =
    ct_Ez6MyeTMm17YnTnDdHTSrzMEBKmy7Uz2sXu347bTDPgVH2ifJ
  entrypoint contr_addr() : Remote =
    Address.to_contract(addr())
@@ -30,4 +30,6 @@ contract AddressLiterals =
    ct_Ez6MyeTMm17YnTnDdHTSrzMEBKmy7Uz2sXu347bTDPgVH2ifJ
  entrypoint contr3() : bytes(32) =
    ct_Ez6MyeTMm17YnTnDdHTSrzMEBKmy7Uz2sXu347bTDPgVH2ifJ
  entrypoint contr4() : address =
    Address.to_contract(Contract.address)
@@ -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)
@@ -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)
@@ -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")
@@ -0,0 +1,5 @@
 contract BadRecord =
  entrypoint foo() =
    let r = {x = 0, [0] = 1}
    r{x = 0, [0] = 1}
    r{}
@@ -0,0 +1,3 @@
 function square(x) = x ^ 2
 contract Main =
  entrypoint main() = square(10)
@@ -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"
@@ -0,0 +1,4 @@
 contract BytesConcat =
  entrypoint rot(a : bytes(3)) =
    switch (Bytes.split(a))
      (b, c) => Bytes.concat(c : bytes(2), b)
@@ -0,0 +1,7 @@
 contract CallingInitFunction =
  type state = int * int
  entrypoint init() = (1, 2)
  entrypoint call_init() = init()
@@ -0,0 +1,9 @@
 contract BadAENSresolve =
  type t('a) = option(list('a))
  function fail() : t(int) =
    AENS.resolve("foo.aet", "whatever")
  entrypoint main() = ()
@@ -0,0 +1,4 @@
 contract ComplexCompare =
  entrypoint test(x : string * int) =
    ("foo", 1) != x
@@ -0,0 +1,4 @@
 contract ComplexCompare =
  entrypoint test(x : int) =
    (1, 2) =< (x, x + 1)
@@ -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))
@@ -0,0 +1,2 @@
 contract HigherOrderEntrypoint =
  entrypoint apply(f : int => int, x : int) = f(x)
@@ -0,0 +1,2 @@
 contract HigherOrderEntrypoint =
  entrypoint add(x : int) = (y) => x + y
@@ -0,0 +1,6 @@
 contract MapAsMapKey =
  type t('key) = map('key, int)
  function foo(m) : t(int => int) = {[m] = 0}
  entrypoint main() = ()
@@ -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() = ()
@@ -0,0 +1,5 @@
 contract HigherOrderResponseType =
  stateful function foo(o, q : oracle_query(string, _)) =
    Oracle.respond(o, q, (x) => x + 1)
  entrypoint main() = ()
@@ -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) })
@@ -0,0 +1,2 @@
 namespace LastDeclarationIsNotAContract =
  function add(x, y) = x + y
@@ -0,0 +1,3 @@
 contract MissingDefinition =
  entrypoint foo : int => int
  entrypoint main() = foo(0)
@@ -0,0 +1,3 @@
 contract MissingInitFunction =
  type state = int * int
@@ -0,0 +1,4 @@
 contract ParameterisedEvent =
  datatype event('a) = Event(int)
@@ -0,0 +1,4 @@
 contract ParameterisedState =
  type state('a) = list('a)
@@ -0,0 +1,7 @@
 contract PolymorphicAENSresolve =
  function fail() : option('a) =
    AENS.resolve("foo.aet", "whatever")
  entrypoint main() = ()
@@ -0,0 +1,7 @@
 contract PolymorphicCompare =
  function cmp(x : 'a, y : 'a) : bool =
    x == y
  entrypoint test() =
    cmp(4, 6) && cmp(true, false)
@@ -0,0 +1,3 @@
 contract PolymorphicEntrypoint =
  entrypoint id(x : 'a) : 'a = x
@@ -0,0 +1,3 @@
 contract PolymorphicEntrypoint =
  entrypoint fail() : 'a = abort("fail")
@@ -0,0 +1,6 @@
 contract MapAsMapKey =
  type t('key) = map('key, int)
  function foo(m) : t('a) = {[m] = 0}
  entrypoint main() = ()
@@ -0,0 +1,5 @@
 contract PolymorphicQueryType =
  stateful function is_oracle(o) =
    Oracle.check(o)
  entrypoint main() = ()
@@ -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)
@@ -0,0 +1,9 @@
 contract Remote =
  entrypoint foo : int => int
 contract UnappliedContractCall =
  function f(r) = r.foo
  entrypoint test(r) = f(r)(0)
@@ -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)
@@ -0,0 +1,6 @@
 contract Foo =
  entrypoint foo : () => int
 contract Fail =
  entrypoint bad() : int = Foo.foo()
@@ -11,7 +11,7 @@ contract Factorial =
  stateful entrypoint set_worker(worker) = put(state{worker = worker})
-  entrypoint fac(x : int) : int =
+  entrypoint
-    if(x == 0) 1
+    fac : int => int
-    else x * state.worker.fac(x - 1)
+    fac(0) = 1
-
+    fac(x) = x * state.worker.fac(x - 1)
@@ -0,0 +1,3 @@
 contract IndentFail =
  entrypoint twoSpace() = ()
 entrypoint oneSpace() = ()
@@ -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 ]
@@ -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 ]
@@ -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]))]
@@ -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, {})
@@ -0,0 +1,3 @@
 contract MissingEventType =
  entrypoint main() =
    Chain.event("MAIN")
@@ -0,0 +1,5 @@
 contract ContractOne =
  entrypoint foo() = "foo"
 contract ContractTwo =
  entrypoint bar() = "bar"
@@ -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
@@ -8,10 +8,9 @@ contract Stack =
  entrypoint init(ss : list(string)) = { stack = ss, size = length(ss) }
-  function length(xs) =
+  function
-    switch(xs)
+    length([])      = 0
-      [] => 0
+    length(_ :: xs) = length(xs) + 1
      _ :: xs => length(xs) + 1
  stateful entrypoint pop() : string =
    switch(state.stack)
@@ -57,3 +57,8 @@ contract Test =
    let f() = 0
    let g() = f()
  function id(x : 'a) : 'a = x
  entrypoint wrong_return(n : int) : bool =
    id(n)
@@ -0,0 +1,63 @@
 // Builtins without named arguments can appear unapplied in both AEVM and FATE.
 // Named argument builtins are:
 //    Oracle.register
 //    Oracle.respond
 //    AENS.preclaim
 //    AENS.claim
 //    AENS.transfer
 //    AENS.revoke
 //    Oracle.extend
 contract UnappliedBuiltins =
  entrypoint main() = ()
  type o = oracle(int, int)
  type t = list(int * string)
  type m = map(int, int)
  datatype event = Event(int)
  stateful function chain_spend()        = Chain.spend
  function chain_event()                 = Chain.event
  function chain_balance()               = Chain.balance
  function chain_block_hash()            = Chain.block_hash
  function call_gas_left()               = Call.gas_left
  function b_abort()                     = abort
  function b_require()                   = require
  function oracle_query_fee()            = Oracle.query_fee
  stateful function oracle_query()       = Oracle.query        : (o, _, _, _, _) => _
  function oracle_get_question()         = Oracle.get_question : (o, _) => _
  function oracle_get_answer()           = Oracle.get_answer   : (o, _) => _
  function oracle_check()                = Oracle.check        : o => _
  function oracle_check_query()          = Oracle.check_query  : (o, _) => _
  function aens_resolve()                = AENS.resolve        : (_, _) => option(string)
  function map_lookup()                  = Map.lookup          : (_, m) => _
  function map_lookup_default()          = Map.lookup_default  : (_, m, _) => _
  function map_member()                  = Map.member          : (_, m) => _
  function map_size()                    = Map.size : m => _
  function map_delete()                  = Map.delete : (_, m) => _
  function map_from_list()               = Map.from_list : _ => m
  function map_to_list()                 = Map.to_list : m => _
  function crypto_verify_sig()           = Crypto.verify_sig
  function crypto_verify_sig_secp256k1() = Crypto.verify_sig_secp256k1
  function crypto_ecverify_secp256k1()   = Crypto.ecverify_secp256k1
  function crypto_ecrecover_secp256k1()  = Crypto.ecrecover_secp256k1
  function crypto_sha3()                 = Crypto.sha3    : t => _
  function crypto_sha256()               = Crypto.sha256  : t => _
  function crypto_blake2b()              = Crypto.blake2b : t => _
  function string_sha256()               = String.sha256
  function string_blake2b()              = String.blake2b
  function string_length()               = String.length
  function string_concat()               = String.concat
  function string_sha3()                 = String.sha3
  function bits_test()                   = Bits.test
  function bits_set()                    = Bits.set
  function bits_clear()                  = Bits.clear
  function bits_union()                  = Bits.union
  function bits_intersection()           = Bits.intersection
  function bits_difference()             = Bits.difference
  function bits_sum()                    = Bits.sum
  function int_to_str()                  = Int.to_str
  function address_to_str()              = Address.to_str
  function address_is_oracle()           = Address.is_oracle
  function address_is_contract()         = Address.is_contract
  function address_is_payable()          = Address.is_payable
  function bytes_to_int()                = Bytes.to_int : bytes(10) => int
  function bytes_to_str()                = Bytes.to_str : bytes(99) => string
@@ -0,0 +1,13 @@
 contract UnderscoreNumberLiterals =
  entrypoint ints() : list(int) =
    [ 1_999_000_000,
      19_99_00_00_00,
      0xfff_FFF_010 ]
  entrypoint bytes() : list(bytes(4)) =
    [ #abcd_ef_00,
      #01_02_03_04,
      #aaaa_FFFF ]
@@ -0,0 +1,4 @@
 contract ValidationTest =
  payable entrypoint attr_fail() = ()
  entrypoint type_fail(x : int) = x
  entrypoint code_fail(x) = x + 1
@@ -0,0 +1,4 @@
 contract ValidationTest =
  entrypoint attr_fail() = ()
  entrypoint type_fail(x) = x
  entrypoint code_fail(x) = x - 1
@@ -0,0 +1,4 @@
 payable contract ValidationTest =
  payable entrypoint attr_fail() = ()
  entrypoint type_fail(x : int) = x
  entrypoint code_fail(x) = x + 1
@@ -0,0 +1,4 @@
 contract VClose =
  entrypoint missing_bracket() =
    let x = [1, 2, 3
  entrypoint bar() = ()
@@ -0,0 +1,3 @@
 contract VSemi =
  record missing_brace = { x : int
  entrypoint foo() = ()
@@ -0,0 +1,7 @@
@compiler < 1.0
@compiler == 9.9.9
@compiler >= 0.1
@compiler =< 100.0.1
 contract Fail =
  entrypoint foo() = ()
Author	SHA1	Message	Date
radrow	a5cbf2fd79	Updated CHANGELOG	2020-03-23 12:48:47 +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
		`@@ -0,0 +1,2 @@`
							`contract HigherOrderEntrypoint =`
							`entrypoint apply(f : int => int, x : int) = f(x)`
		`@@ -0,0 +1,2 @@`
							`contract HigherOrderEntrypoint =`
							`entrypoint add(x : int) = (y) => x + y`
		`@@ -0,0 +1,2 @@`
							`namespace LastDeclarationIsNotAContract =`
							`function add(x, y) = x + y`
		`@@ -0,0 +1,3 @@`
							`contract MissingInitFunction =`
							`type state = int * int`
		`@@ -0,0 +1,4 @@`
							`contract ParameterisedEvent =`

							`datatype event('a) = Event(int)`
		`@@ -0,0 +1,4 @@`
							`contract ParameterisedState =`

							`type state('a) = list('a)`
		`@@ -0,0 +1,3 @@`
							`contract PolymorphicEntrypoint =`
							`entrypoint id(x : 'a) : 'a = x`
		`@@ -0,0 +1,3 @@`
							`contract PolymorphicEntrypoint =`
							`entrypoint fail() : 'a = abort("fail")`