temp work

Cargo.lock

@@ -282,18 +282,6 @@ name = "lazy_static"
 version = "1.4.0"
 source = "registry+https://github.com/rust-lang/crates.io-index"
 
-[[package]]
-name = "lexical-core"
-version = "0.4.6"
-source = "registry+https://github.com/rust-lang/crates.io-index"
-dependencies = [
- "arrayvec 0.4.11 (registry+https://github.com/rust-lang/crates.io-index)",
- "cfg-if 0.1.10 (registry+https://github.com/rust-lang/crates.io-index)",
- "rustc_version 0.2.3 (registry+https://github.com/rust-lang/crates.io-index)",
- "ryu 1.0.0 (registry+https://github.com/rust-lang/crates.io-index)",
- "static_assertions 0.3.4 (registry+https://github.com/rust-lang/crates.io-index)",
-]
-
 [[package]]
 name = "libc"
 version = "0.2.62"
@@ -394,16 +382,6 @@ dependencies = [
  "version_check 0.1.5 (registry+https://github.com/rust-lang/crates.io-index)",
 ]
 
-[[package]]
-name = "nom"
-version = "5.1.0"
-source = "registry+https://github.com/rust-lang/crates.io-index"
-dependencies = [
- "lexical-core 0.4.6 (registry+https://github.com/rust-lang/crates.io-index)",
- "memchr 2.2.1 (registry+https://github.com/rust-lang/crates.io-index)",
- "version_check 0.1.5 (registry+https://github.com/rust-lang/crates.io-index)",
-]
-
 [[package]]
 name = "num"
 version = "0.1.42"
@@ -751,14 +729,6 @@ name = "rustc-serialize"
 version = "0.3.24"
 source = "registry+https://github.com/rust-lang/crates.io-index"
 
-[[package]]
-name = "rustc_version"
-version = "0.2.3"
-source = "registry+https://github.com/rust-lang/crates.io-index"
-dependencies = [
- "semver 0.9.0 (registry+https://github.com/rust-lang/crates.io-index)",
-]
-
 [[package]]
 name = "ryu"
 version = "1.0.0"
@@ -784,7 +754,6 @@ dependencies = [
  "itertools 0.8.0 (registry+https://github.com/rust-lang/crates.io-index)",
  "lazy_static 1.4.0 (registry+https://github.com/rust-lang/crates.io-index)",
  "maplit 1.0.2 (registry+https://github.com/rust-lang/crates.io-index)",
- "nom 5.1.0 (registry+https://github.com/rust-lang/crates.io-index)",
  "radix_trie 0.1.5 (registry+https://github.com/rust-lang/crates.io-index)",
  "schala-lang-codegen 0.1.0",
  "schala-repl 0.1.0",
@@ -877,11 +846,6 @@ name = "smallvec"
 version = "0.6.10"
 source = "registry+https://github.com/rust-lang/crates.io-index"
 
-[[package]]
-name = "static_assertions"
-version = "0.3.4"
-source = "registry+https://github.com/rust-lang/crates.io-index"
-
 [[package]]
 name = "stopwatch"
 version = "0.0.7"
@@ -1076,7 +1040,6 @@ dependencies = [
 "checksum kernel32-sys 0.2.2 (registry+https://github.com/rust-lang/crates.io-index)" = "7507624b29483431c0ba2d82aece8ca6cdba9382bff4ddd0f7490560c056098d"
 "checksum lazy_static 0.2.11 (registry+https://github.com/rust-lang/crates.io-index)" = "76f033c7ad61445c5b347c7382dd1237847eb1bce590fe50365dcb33d546be73"
 "checksum lazy_static 1.4.0 (registry+https://github.com/rust-lang/crates.io-index)" = "e2abad23fbc42b3700f2f279844dc832adb2b2eb069b2df918f455c4e18cc646"
-"checksum lexical-core 0.4.6 (registry+https://github.com/rust-lang/crates.io-index)" = "2304bccb228c4b020f3a4835d247df0a02a7c4686098d4167762cfbbe4c5cb14"
 "checksum libc 0.2.62 (registry+https://github.com/rust-lang/crates.io-index)" = "34fcd2c08d2f832f376f4173a231990fa5aef4e99fb569867318a227ef4c06ba"
 "checksum linefeed 0.6.0 (registry+https://github.com/rust-lang/crates.io-index)" = "28715d08e35c6c074f9ae6b2e6a2420bac75d050c66ecd669d7d5b98e2caa036"
 "checksum llvm-sys 70.2.1 (registry+https://github.com/rust-lang/crates.io-index)" = "e8e9fc46a848cf4170694144102ec07f6eada790d8b3d7e92ffa9cc7416fc869"
@@ -1089,7 +1052,6 @@ dependencies = [
 "checksum nix 0.14.1 (registry+https://github.com/rust-lang/crates.io-index)" = "6c722bee1037d430d0f8e687bbdbf222f27cc6e4e68d5caf630857bb2b6dbdce"
 "checksum nodrop 0.1.13 (registry+https://github.com/rust-lang/crates.io-index)" = "2f9667ddcc6cc8a43afc9b7917599d7216aa09c463919ea32c59ed6cac8bc945"
 "checksum nom 4.2.3 (registry+https://github.com/rust-lang/crates.io-index)" = "2ad2a91a8e869eeb30b9cb3119ae87773a8f4ae617f41b1eb9c154b2905f7bd6"
-"checksum nom 5.1.0 (registry+https://github.com/rust-lang/crates.io-index)" = "c433f4d505fe6ce7ff78523d2fa13a0b9f2690e181fc26168bcbe5ccc5d14e07"
 "checksum num 0.1.42 (registry+https://github.com/rust-lang/crates.io-index)" = "4703ad64153382334aa8db57c637364c322d3372e097840c72000dabdcf6156e"
 "checksum num-bigint 0.1.44 (registry+https://github.com/rust-lang/crates.io-index)" = "e63899ad0da84ce718c14936262a41cee2c79c981fc0a0e7c7beb47d5a07e8c1"
 "checksum num-complex 0.1.43 (registry+https://github.com/rust-lang/crates.io-index)" = "b288631d7878aaf59442cffd36910ea604ecd7745c36054328595114001c9656"
@@ -1129,7 +1091,6 @@ dependencies = [
 "checksum rust-argon2 0.5.1 (registry+https://github.com/rust-lang/crates.io-index)" = "4ca4eaef519b494d1f2848fc602d18816fed808a981aedf4f1f00ceb7c9d32cf"
 "checksum rustc-demangle 0.1.16 (registry+https://github.com/rust-lang/crates.io-index)" = "4c691c0e608126e00913e33f0ccf3727d5fc84573623b8d65b2df340b5201783"
 "checksum rustc-serialize 0.3.24 (registry+https://github.com/rust-lang/crates.io-index)" = "dcf128d1287d2ea9d80910b5f1120d0b8eede3fbf1abe91c40d39ea7d51e6fda"
-"checksum rustc_version 0.2.3 (registry+https://github.com/rust-lang/crates.io-index)" = "138e3e0acb6c9fb258b19b67cb8abd63c00679d2851805ea151465464fe9030a"
 "checksum ryu 1.0.0 (registry+https://github.com/rust-lang/crates.io-index)" = "c92464b447c0ee8c4fb3824ecc8383b81717b9f1e74ba2e72540aef7b9f82997"
 "checksum semver 0.9.0 (registry+https://github.com/rust-lang/crates.io-index)" = "1d7eb9ef2c18661902cc47e535f9bc51b78acd254da71d375c2f6720d9a40403"
 "checksum semver-parser 0.7.0 (registry+https://github.com/rust-lang/crates.io-index)" = "388a1df253eca08550bef6c72392cfe7c30914bf41df5269b68cbd6ff8f570a3"
@@ -1139,7 +1100,6 @@ dependencies = [
 "checksum siphasher 0.2.3 (registry+https://github.com/rust-lang/crates.io-index)" = "0b8de496cf83d4ed58b6be86c3a275b8602f6ffe98d3024a869e124147a9a3ac"
 "checksum smallstr 0.1.0 (registry+https://github.com/rust-lang/crates.io-index)" = "6aa65bb4d5b2bbc90d36af64e29802f788aa614783fa1d0df011800ddcec6e8e"
 "checksum smallvec 0.6.10 (registry+https://github.com/rust-lang/crates.io-index)" = "ab606a9c5e214920bb66c458cd7be8ef094f813f20fe77a54cc7dbfff220d4b7"
-"checksum static_assertions 0.3.4 (registry+https://github.com/rust-lang/crates.io-index)" = "7f3eb36b47e512f8f1c9e3d10c2c1965bc992bd9cdb024fa581e2194501c83d3"
 "checksum stopwatch 0.0.7 (registry+https://github.com/rust-lang/crates.io-index)" = "3d04b5ebc78da44d3a456319d8bc2783e7d8cc7ccbb5cb4dc3f54afbd93bf728"
 "checksum syn 0.15.44 (registry+https://github.com/rust-lang/crates.io-index)" = "9ca4b3b69a77cbe1ffc9e198781b7acb0c7365a883670e8f1c1bc66fba79a5c5"
 "checksum syn 1.0.5 (registry+https://github.com/rust-lang/crates.io-index)" = "66850e97125af79138385e9b88339cbcd037e3f28ceab8c5ad98e64f0f1f80bf"

TODO.md

@@ -1,8 +1,5 @@
 # Plan of attack
 
--ONLY two types of statement, Expressoin and Declaration
--modules and imports are just types of Declarables
-
 1. modify visitor so it can handle scopes
   -this is needed both to handle import scope correctly
   -and also to support making FQSNs aware of function parameters

schala-lang/language/Cargo.toml

@@ -15,7 +15,6 @@ stopwatch = "0.0.7"
 derivative = "1.0.3"
 colored = "1.8"
 radix_trie = "0.1.5"
-nom = "5.1.0"
 
 schala-lang-codegen = { path = "../codegen" }
 schala-repl = { path = "../../schala-repl" }

schala-lang/language/src/ast.rs

@@ -17,7 +17,7 @@ pub struct ItemId {
 }
 
 impl ItemId {
-  pub fn new(n: u32) -> ItemId {
+  fn new(n: u32) -> ItemId {
     ItemId { idx: n }
   }
 }

schala-lang/language/src/ast/operators.rs

@@ -68,10 +68,6 @@ impl BinOp {
     let s = token_kind_to_sigil(op_tok)?;
     Some(binop_precedences(s))
   }
-
-  pub fn precedence(&self) -> i32 {
-    binop_precedences(self.sigil.as_str())
-  }
 }
 
 fn token_kind_to_sigil<'a>(tok: &'a TokenKind) -> Option<&'a str> {

schala-lang/language/src/ast/visitor.rs

@@ -1,5 +1,6 @@
 use std::rc::Rc;
 use crate::ast::*;
+use crate::util::deref_optional_box;
 
 //TODO maybe these functions should take closures that return a KeepRecursing | StopHere type,
 //or a tuple of (T, <that type>)
@@ -39,3 +40,126 @@ pub trait ASTVisitor: Sized {
   fn prefix_exp(&mut self, _op: &PrefixOp, _arg: &Expression) {}
   fn pattern(&mut self, _pat: &Pattern) {}
 }
+
+pub trait ASTVisitorNew: Sized {
+  fn expression(&mut self, _expression: &Expression) -> VisitResult { VisitResult::default() }
+  fn expression_kind(&mut self, _kind: &ExpressionKind) -> VisitResult { VisitResult::default() }
+
+  fn type_annotation(&mut self, _id: ItemId, _type_anno: Option<&TypeIdentifier>) -> VisitResult { VisitResult::default() }
+
+  fn named_struct(&mut self, _name: &QualifiedName, _fields: &Vec<(Rc<String>, Expression)>) -> VisitResult { VisitResult::default() }
+
+  fn nat_literal(&mut self, _id: ItemId, _n: u64)-> VisitResult { VisitResult::default() }
+  fn float_literal(&mut self, _id: ItemId,  _f: f64) -> VisitResult { VisitResult::default() }
+  fn string_literal(&mut self, _id: ItemId,  _s: &Rc<String>) -> VisitResult { VisitResult::default() }
+  fn bool_literal(&mut self, _id: ItemId, _b: bool) -> VisitResult { VisitResult::default() }
+
+  fn qualified_name(&mut self, _id: ItemId, _name: &QualifiedName) {}
+}
+
+enum VisitResult {
+  KeepRecursing,
+  Stop
+}
+
+impl std::default::Default for VisitResult {
+  fn default() -> VisitResult { VisitResult::KeepRecursing }
+}
+
+pub fn traverse<V: ASTVisitorNew>(visitor: &mut V, expression: &Expression) {
+  expresion(visitor, expresion)
+}
+
+fn expression<V: ASTVisitorNew>(visitor: &mut V, expression: &Expression) {
+  use ExpressionKind::*;
+
+  let Expression { id, kind, type_anno } = expression;
+
+  let output = match kind {
+    NatLiteral(n) => v.nat_literal(id, *n),
+    FloatLiteral(f) => v.float_literal(id, *f),
+    StringLiteral(s) => v.string_literal(id, s),
+    BoolLiteral(b) => v.bool_literal(d, *b),
+    BinExp(op, lhs, rhs) => {
+      expression(v, lhs);
+      expression(v, rhs);
+    },
+    PrefixExp(op, arg) => {
+      expression(v, arg);
+    }
+    TupleLiteral(exprs) => {
+      for expr in exprs {
+        expression(v, expr);
+      }
+    },
+    Value(name) => v.qualified_name(id, name),
+    NamedStruct { name, fields } => {
+      for (_, expr) in fields.iter() {
+        v.expression(expr);
+      }
+    }
+    Call { f, arguments } => {
+      expression(v, f);
+      for arg in args.iter() {
+        match arg {
+          InvocationArgument::Positional(expr) => {
+            expression(v, expr);
+          },
+          InvocationArgument::Keyword { expr, .. } => {
+            expression(v, expr);
+          },
+          Ignored => (),
+        }
+      }
+    },
+    Index { indexee, indexers } => {
+      expression(v, indexee);
+      for i in indexers.iter() {
+        expression(v, i);
+      }
+    },
+    IfExpression { discriminator, body } => {
+      discriminator.as_ref().map(|d| expression(v, d));
+      match body {
+        IfExpressionBody::SimpleConditional { then_case, else_case } => {
+          walk_block(v, then_case);
+          else_case.as_ref().map(|block| walk_block(v, block));
+        },
+        IfExpressionBody::SimplePatternMatch { pattern, then_case, else_case } => {
+          v.pattern(pattern);
+          walk_pattern(v, pattern);
+          walk_block(v, then_case);
+          else_case.as_ref().map(|block| walk_block(v, block));
+        },
+        IfExpressionBody::CondList(arms) => {
+          for arm in arms {
+            v.condition_arm(arm);
+            condition_arm(v, arm);
+          }
+        }
+      }
+    },
+    WhileExpression { condition, body } => (),
+    ForExpression { enumerators, body } => (),
+    Lambda { params , type_anno, body } => {
+      for param in params {
+        formal_param(v, param);
+      }
+      v.type_annotation(type_anno);
+    },
+    ListLiteral(exprs) => {
+      for expr in exprs {
+        expression(v, expr);
+      }
+    },
+  };
+  output
+}
+
+fn formal_param<V: ASTVisitorNew>(v: &mut V, param: &FormalParam) {
+  param.default.as_ref().map(|p| {
+    expression(v, p);
+  });
+  v.type_annotation(param.anno.as_ref());
+}
+

schala-lang/language/src/lib.rs

@@ -1,4 +1,7 @@
-#![feature(box_patterns, box_syntax, trace_macros, or_patterns)]
+#![feature(trace_macros)]
+#![feature(custom_attribute)]
+//#![feature(unrestricted_attribute_tokens)]
+#![feature(slice_patterns, box_patterns, box_syntax)]
 
 //! `schala-lang` is where the Schala programming language is actually implemented. 
 //! It defines the `Schala` type, which contains the state for a Schala REPL, and implements
@@ -30,7 +33,6 @@ mod debugging;
 
 mod tokenizing;
 mod ast;
-mod parser;
 mod parsing;
 #[macro_use]
 mod symbol_table;

schala-lang/language/src/parser.rs

@@ -1,598 +0,0 @@
-extern crate nom;
-
-use std::rc::Rc;
-use std::str::FromStr;
-
-use nom::IResult;
-use nom::character::complete::{one_of, space0, alphanumeric0};
-use nom::bytes::complete::{tag, take, take_while, take_while1, take_until};
-use nom::combinator::{cut, cond, map, map_res, value, opt, verify};
-use nom::multi::{separated_list, separated_nonempty_list, many1, many0};
-use nom::error::{context, ParseError, VerboseError, ErrorKind, make_error};
-use nom::branch::alt;
-use nom::sequence::{pair, tuple, delimited, preceded};
-
-use crate::ast::*;
-use crate::builtin::Builtin;
-
-type ParseResult<'a, T> = IResult<&'a str, T, VerboseError<&'a str>>;
-
-pub fn ws<'a, O, E: ParseError<&'a str>, F>(parser: F) -> impl Fn(&'a str) -> IResult<&'a str, O, E>
-where
-    F: Fn(&'a str) -> IResult<&'a str, O, E>,
-    {
-      delimited(space0, parser, space0)
-    }
-
-fn statement_sep(text: &str) -> ParseResult<()> {
-  value((), one_of("\n;"))(text)
-}
-
-fn single_alphabetic_character(text: &str) -> ParseResult<char> {
-  let p = verify(take(1usize), |s: &str| s.chars().nth(0).map(|c| c.is_alphabetic()).unwrap_or(false));
-  map(p, |s: &str| s.chars().nth(0).unwrap())(text)
-}
-
-fn single_alphanumeric_character(text: &str) -> ParseResult<char> {
-  let p = verify(take(1usize), |s: &str| s.chars().nth(0).map(|c| c.is_alphanumeric() || c == '_').unwrap_or(false));
-  map(p, |s: &str| s.chars().nth(0).unwrap())(text)
-}
-
-fn identifier(text: &str) -> ParseResult<Rc<String>> {
-  use nom::character::complete::char;
-  map(alt((
-    pair(char('_'), many1(single_alphanumeric_character)),
-    pair(single_alphabetic_character, many0(single_alphanumeric_character))
-  )),
-  |(first, rest): (char, Vec<char>)| Rc::new(format!("{}{}", first, rest.into_iter().collect::<String>()))
-  )(text)
-}
-
-const OPERATOR_CHARS: &'static str = "~`!@#$%^&*-+=<>?/|";
-fn operator(text: &str) -> ParseResult<Vec<char>> {
-  many1(one_of(OPERATOR_CHARS))(text)
-}
-
-fn binop(text: &str) -> ParseResult<BinOp> {
-  context("Binop", map(
-      operator,
-      |op| BinOp::from_sigil(&op.into_iter().collect::<String>())
-  ))(text)
-}
-
-fn bool_literal(text: &str) -> ParseResult<ExpressionKind> {
-  let p = alt((
-    value(true, tag("true")),
-    value(false, tag("false"))
-  ));
-  context("Bool literal", map(p, ExpressionKind::BoolLiteral))(text)
-}
-
-fn number_literal(text: &str) -> ParseResult<ExpressionKind> {
-  let num_lit = many1(alt((
-    map(one_of("1234567890"), |s: char| Some(s)),
-    value(None, nom::character::complete::char('_')),
-  )));
-
-  let (text, n) = map_res(num_lit,
-    |digits: Vec<Option<char>>| {
-      let num_str: String = digits.into_iter().filter_map(|x| x).collect();
-      u64::from_str_radix(&num_str, 10)
-    })(text)?;
-
-  Ok((text, ExpressionKind::NatLiteral(n)))
-}
-
-fn binary_literal(text: &str) -> ParseResult<ExpressionKind> {
-  let p = preceded(tag("0b"), cut(take_while1(|c: char| c == '0' || c == '1')));
-  let (rest, n): (&str, u64) = map_res(
-    p, |hex_str: &str| u64::from_str_radix(hex_str, 2)
-  )(text)?;
-  let expr = ExpressionKind::NatLiteral(n);
-  Ok((rest, expr))
-}
-
-fn hex_literal(text: &str) -> ParseResult<ExpressionKind> {
-  let p = preceded(tag("0x"), cut(take_while1(|c: char| c.is_digit(16))));
-  let (rest, n): (&str, u64) = map_res(
-    p, |hex_str: &str| u64::from_str_radix(hex_str, 16)
-  )(text)?;
-  let expr = ExpressionKind::NatLiteral(n);
-  Ok((rest, expr))
-}
-
-fn string_literal(text: &str) -> ParseResult<ExpressionKind> {
-  use nom::character::complete::char;
-  let (text, string_output) = delimited(
-    char('"'), take_until("\""), char('"')
-  )(text)?;
-  let expr = ExpressionKind::StringLiteral(Rc::new(string_output.to_string()));
-  Ok((text, expr))
-}
-
-fn literal(text: &str) -> ParseResult<ExpressionKind> {
-  alt((
-    string_literal,
-    hex_literal,
-    binary_literal,
-    number_literal,
-    bool_literal,
-  ))(text)
-}
-
-fn paren_expr(text: &str) -> ParseResult<ExpressionKind> {
-  context("Paren expression", delimited(tag("("), ws(expression_kind), tag(")")))(text)
-}
-
-fn prefix_op(text: &str) -> ParseResult<PrefixOp> {
-  use nom::character::complete::char;
-  let p = alt((char('+'), char('-'), char('!')));
-  map(p, |sigil| PrefixOp::from_str(&sigil.to_string()).unwrap())(text)
-}
-
-fn qualified_name(text: &str) -> ParseResult<QualifiedName> {
-  map(
-    separated_nonempty_list(tag("::"), identifier),
-    |components| QualifiedName { id: ItemId::new(0), components }
-  )(text)
-}
-
-fn identifier_expr(text: &str) -> ParseResult<ExpressionKind> {
-  map(qualified_name, ExpressionKind::Value)(text)
-}
-
-fn primary_expr(text: &str) -> ParseResult<ExpressionKind> {
-  // primary := literal | paren_expr | if_expr | for_expr | while_expr | identifier_expr | lambda_expr | anonymous_struct | list_expr
-
-  alt((
-    if_expr,
-    for_expr,
-    while_expr,
-    literal,
-    paren_expr,
-    lambda_expr,
-    identifier_expr,
-  ))(text)
-}
-
-fn lambda_expr(text: &str) -> ParseResult<ExpressionKind> {
-  let p = preceded(ws(tag("\\")),
-    tuple((ws(lambda_param_list), ws(opt(type_anno)), ws(block))));
-  context("Lambda expression",
-    map(p, |(params, type_anno, body)| ExpressionKind::Lambda { params, type_anno, body })
-  )(text)
-}
-
-fn lambda_param_list(text: &str) -> ParseResult<Vec<FormalParam>> {
-  alt((
-    map(formal_param, |x| vec![x]),
-    formal_params
-  ))(text)
-}
-
-
-fn while_expr(text: &str) -> ParseResult<ExpressionKind> {
-  let p = preceded(tag("while"), tuple((ws(while_cond), ws(block))));
-  let m = map(p, |(condition, body)| {
-    let condition = condition.map(Box::new);
-    ExpressionKind::WhileExpression {condition, body}
-  });
-  context("While expression", m)(text)
-}
-
-fn while_cond(text: &str) -> ParseResult<Option<Expression>> {
-  //TODO support is constructs?
-  context("While condition",
-   map(opt(ws(expression_kind)),
-   |maybe_expr_kind| maybe_expr_kind.map(|kind| Expression::new(ItemId::new(0), kind)))
-  )(text)
-}
-
-fn for_expr(text: &str) -> ParseResult<ExpressionKind> {
-  //TODO do I need something like no struct literal here?
-  let en = alt((
-    map(enumerator, |e| vec![e]),
-    delimited(tag("{"), enumerators, tag("}"))
-  ));
-  context("For expression",
-  preceded(tag("for"),
-  cut(
-    map(tuple((ws(en), for_expr_body)),
-    |(enumerators, body)| ExpressionKind::ForExpression { enumerators, body: Box::new(body) }
-  ))))(text)
-}
-
-
-fn enumerators(text: &str) -> ParseResult<Vec<Enumerator>> {
-  separated_nonempty_list(alt((value((), tag(",")), statement_sep)),
-    enumerator)(text)
-}
-
-fn enumerator(text: &str) -> ParseResult<Enumerator> {
-  map(
-    tuple((ws(identifier), ws(tag("<-")), ws(expression))),
-  |(id, _, generator)| Enumerator { id, generator }
-  )(text)
-}
-
-fn for_expr_body(text: &str) -> ParseResult<ForBody> {
-  context("For expression body",
-  alt((
-    map(preceded(ws(tag("return")), expression), ForBody::MonadicReturn),
-    map(block, ForBody::StatementBlock),
-  )))(text)
-}
-
-fn invocation_argument(text: &str) -> ParseResult<InvocationArgument> {
-  use nom::character::complete::char;
-  alt((
-    value(InvocationArgument::Ignored, pair(char('_'), alphanumeric0)),
-    map(expression_kind, |kind: ExpressionKind| InvocationArgument::Positional(
-        Expression {  id: ItemId::new(0), kind, type_anno: None }))
-    //map(identifier, |id: Rc<String>| 
-  ))(text)
-}
-
-fn if_expr(text: &str) -> ParseResult<ExpressionKind> {
-  let p = preceded(tag("if"), pair(ws(discriminator), ws(if_expr_body)));
-  map(p, |(discriminator, body)| {
-    let discriminator = discriminator.map(Box::new);
-    let body = Box::new(body);
-    ExpressionKind::IfExpression { discriminator, body }
-  }) (text)
-}
-
-fn discriminator(text: &str) -> ParseResult<Option<Expression>> {
-  use nom::combinator::verify;
-  cond(text.chars().next().map(|c| c != '{').unwrap_or(true),
-    expression
-  )(text)
-}
-
-fn if_expr_body(text: &str) -> ParseResult<IfExpressionBody> {
-  alt((
-    preceded(tag("then"), simple_conditional),
-    preceded(tag("is"), simple_pattern_match),
-    cond_block,
-  ))(text)
-}
-
-fn simple_conditional(text: &str) -> ParseResult<IfExpressionBody> {
-  map(
-    pair(expr_or_block, else_case),
-    |(then_case, else_case)| IfExpressionBody::SimpleConditional { then_case, else_case }
-  )(text)
-}
-
-fn else_case(text: &str) -> ParseResult<Option<Block>> {
-  opt(preceded(tag("else"), expr_or_block))(text)
-}
-
-fn simple_pattern_match(text: &str) -> ParseResult<IfExpressionBody> {
-  let p = tuple((pattern, tag("then"), expr_or_block, else_case));
-  map(p, |(pattern, _, then_case, else_case)| 
-    IfExpressionBody::SimplePatternMatch { pattern, then_case, else_case }
-  )(text)
-}
-
-fn pattern(text: &str) -> ParseResult<Pattern> {
-  use nom::character::complete::char;
-
-  let t = delimited(char('('), 
-    separated_nonempty_list(char(','), pattern),
-    char(')')
-  );
-
-  alt((
-    map(t, |patterns| Pattern::TuplePattern(patterns)),
-    simple_pattern,
-  ))(text)
-}
-
-fn simple_pattern(text: &str) -> ParseResult<Pattern> {
-  alt((
-    value(Pattern::Ignored, tag("_")),
-    tuple_struct_pattern,
-    record_pattern,
-    map(pattern_literal, Pattern::Literal),
-    map(qualified_name, Pattern::VarOrName),
-  ))(text)
-}
-
-fn tuple_struct_pattern(text: &str) -> ParseResult<Pattern> {
-  let p = tuple((
-    qualified_name, 
-    delimited(ws(tag("(")),
-    separated_nonempty_list(ws(tag(",")), ws(pattern)),
-    ws(tag(")"))
-    )
-  ));
-  map(p, |(name, patterns)| Pattern::TupleStruct(name, patterns))(text)
-}
-
-fn record_pattern(text: &str) -> ParseResult<Pattern> {
-  let p = tuple((
-    qualified_name,
-    delimited(ws(tag("{")),
-    separated_nonempty_list(ws(tag(",")), ws(record_pattern_entry)), //TODO support newlines?
-    ws(tag("}")))
-  ));
-  map(p, |(name, members)| Pattern::Record(name, members))(text)
-}
-
-fn record_pattern_entry(text: &str) -> ParseResult<(Rc<String>, Pattern)> {
-  alt((
-    map(tuple((ws(identifier), ws(tag(":")), ws(pattern))),
-      |(name, _, pattern)| (name, pattern)),
-    map(identifier, |name|
-      (name.clone(), Pattern::Literal(PatternLiteral::StringPattern(name.clone())))
-    )
-  ))(text)
-}
-
-fn pattern_literal(text: &str) -> ParseResult<PatternLiteral> {
-  use PatternLiteral::*;
-  use nom::character::complete::char;
-  alt((
-    value(BoolPattern(true), tag("true")),
-    value(BoolPattern(false), tag("false")),
-    map(delimited(char('"'), take_until("\""), char('"')), |s: &str| StringPattern(Rc::new(s.to_string()))),
-  ))(text)
-    //TODO handle signed_number_literal
-}
-
-fn cond_block(text: &str) -> ParseResult<IfExpressionBody> {
-  use nom::character::complete::char;
-  //TODO maybe change this bit of syntax
-  let comma_or_delimitor = alt((value((), char(',')), statement_sep));
-  let p = delimited(char('{'),
-    separated_nonempty_list(comma_or_delimitor, cond_arm),
-  char('}'));
-  map(p, IfExpressionBody::CondList)(text)
-}
-
-fn cond_arm(text: &str) -> ParseResult<ConditionArm> {
-  let variant_1 = map(
-    tuple((condition, guard, tag("then"), expr_or_block)),
-    |(condition, guard, _, body)| ConditionArm { condition, guard, body }
-  );
-  let variant_2 = map(
-    preceded(tag("else"), expr_or_block),
-    |body| ConditionArm { condition: Condition::Else, guard: None, body }
-  );
-  alt((variant_1, variant_2))(text)
-}
-
-fn condition(text: &str) -> ParseResult<Condition> {
-  alt((
-    map(preceded(tag("is"), pattern), Condition::Pattern),
-    map(tuple((binop, expression)), |(op, expr)|
-      Condition::TruncatedOp(op, expr)),
-    map(expression, Condition::Expression),
-  ))(text)
-}
-
-fn guard(text: &str) -> ParseResult<Option<Expression>> {
-  opt(preceded(tag("if"), expression))(text)
-}
-
-fn expr_or_block(text: &str) -> ParseResult<Block> {
-  //TODO fix
-  alt((block, map(expression, |expr| vec![Statement { id: ItemId::new(0), kind: StatementKind::Expression(expr)}])))(text)
-}
-
-fn block(text: &str) -> ParseResult<Block> {
-  //TODO fix this so it can handle nested statements
-  let make_expr = |e| Statement { id: ItemId::new(0), kind: StatementKind::Expression(e) };
-  delimited(ws(tag("{")),
-    delimited(opt(many0(statement_sep)),
-      separated_list(many1(statement_sep),
-        map(expression, make_expr)
-      ),
-      opt(many0(statement_sep))
-    ),
-  ws(tag("}")))(text)
-}
-
-fn call_expr(text: &str) -> ParseResult<ExpressionKind> {
-  use nom::character::complete::char;
-  let parse_call = opt(
-    delimited(char('('), separated_list(char(','), invocation_argument), char(')'))
-  );
-  let p = pair(primary_expr, parse_call);
-  map(p, |(expr, call_part)| if let Some(arguments) = call_part {
-    let f = bx!(Expression { id: ItemId::new(0), kind: expr, type_anno: None }); 
-    ExpressionKind::Call { f, arguments }
-  } else {
-    expr
-  })(text)
-}
-
-fn prefix_expr(text: &str) -> ParseResult<ExpressionKind> {
-  let (text, pfx) = ws(opt(prefix_op))(text)?;
-  let (text, result) = call_expr(text)?;
-  match pfx {
-    None => Ok((text, result)),
-    Some(pfx) => {
-      let exp = Expression { id: ItemId::new(0), kind: result, type_anno: None }; 
-      Ok((text, ExpressionKind::PrefixExp(pfx, Box::new(exp))))
-    }
-  }
-}
-
-// this implements Pratt parsing, see http://journal.stuffwithstuff.com/2011/03/19/pratt-parsers-expression-parsing-made-easy/
-fn precedence_expr(text: &str) -> ParseResult<ExpressionKind> {
-  fn inner_precedence_expr(input: &str, precedence: i32) -> ParseResult<ExpressionKind> {
-    let (mut outer_rest, mut lhs) = prefix_expr(input)?;
-    loop {
-      let (rest, _) = space0(outer_rest)?;
-      let (rest, maybe_binop) = opt(binop)(rest)?;
-      let (new_precedence, binop) = match maybe_binop {
-        Some(binop) => (binop.precedence(), binop),
-        None => break,
-      };
-
-      if precedence >= new_precedence {
-        break;
-      }
-      let (rest, _) = space0(rest)?;
-      let (rest, rhs) = inner_precedence_expr(rest, new_precedence)?;
-      outer_rest = rest;
-      lhs = ExpressionKind::BinExp(binop,
-        bx!(Expression::new(ItemId::new(0), lhs)),
-        bx!(Expression::new(ItemId::new(0), rhs))
-      );
-    }
-    Ok((outer_rest, lhs))
-  }
-  context("Precedence expression",
-    |input| inner_precedence_expr(input, BinOp::min_precedence())
-  )(text)
-}
-
-fn expression_kind(text: &str) -> ParseResult<ExpressionKind> {
-  context("Expression kind", ws(precedence_expr))(text)
-}
-
-fn type_anno(text: &str) -> ParseResult<TypeIdentifier> {
-  preceded(ws(tag(":")), ws(type_name))(text)
-}
-
-fn type_name(text: &str) -> ParseResult<TypeIdentifier> {
-  //TODO incomplete
-  let (text, name) = identifier(text)?;
-  let id = TypeIdentifier::Singleton(TypeSingletonName { name, params: vec![] });
-  Ok((text, id))
-}
-
-pub fn expression(text: &str) -> ParseResult<Expression> {
-  let (rest, (kind, type_anno)) = ws(pair(expression_kind, opt(type_anno)))(text)?;
-  let expr = Expression { id: ItemId::new(0), kind, type_anno };
-  Ok((rest, expr))
-}
-
-fn import(text: &str) -> ParseResult<ImportSpecifier> {
-  let p = preceded(
-    tag("import"),
-    separated_nonempty_list(tag("::"), identifier)
-  );
-  map(p, |path_components| ImportSpecifier {
-    id: ItemId::new(0),
-    path_components,
-    imported_names: ImportedNames::LastOfPath, //TODO finish
-  })(text)
-}
-
-fn module(text: &str) -> ParseResult<ModuleSpecifier> {
-  let p = tuple((tag("module"), ws(identifier), ws(block)));
-  map(p, |(_, name, contents)| ModuleSpecifier { name, contents })
-    (text)
-}
-
-fn declaration(text: &str) -> ParseResult<Declaration> {
-  alt((
-    func_declaration,
-    type_declaration,
-  ))(text)
-}
-
-fn func_declaration(text: &str) -> ParseResult<Declaration> {
-  use Declaration::*;
-  let p = tuple((func_signature, ws(opt(block))));
-  map(p, |(signature, maybe_block)| match maybe_block {
-    Some(block) => FuncDecl(signature, block),
-    None => FuncSig(signature),
-  })(text)
-}
-
-fn func_signature(text: &str) -> ParseResult<Signature> {
-  let p = preceded(tag("fn"), cut(tuple((ws(identifier), ws(formal_params), opt(ws(type_anno))))));
-  //TODO fix op
-  map(p, |(name, params, type_anno)| Signature { name, params, type_anno, operator: false })
-    (text)
-}
-
-fn formal_params(text: &str) -> ParseResult<Vec<FormalParam>> {
-  delimited(tag("("), ws(separated_list(ws(tag(",")), formal_param)), tag(")"))(text)
-}
-
-fn formal_param(text: &str) -> ParseResult<FormalParam> {
-  let default = opt(preceded(ws(tag("=")), ws(expression)));
-  let p = tuple((ws(identifier), opt(ws(type_anno)), default));
-  map(p, |(name, anno, default)|
-    FormalParam { name, anno, default })(text)
-}
-
-fn type_declaration(text: &str) -> ParseResult<Declaration> {
-  preceded(tag("type"), ws(type_declaration_body))(text)
-}
-
-fn type_declaration_body(text: &str) -> ParseResult<Declaration> {
-  let t = tuple((opt(tag("mut")), ws(type_singleton_name), ws(tag("=")), ws(type_body)));
-  alt((
-    preceded(tag("alias"), ws(type_alias)),
-    map(t, |(mut_kw, name, _, body)| {
-      Declaration::TypeDecl { name, body, mutable: mut_kw.is_some() }
-    })
-  ))(text)
-}
-
-fn type_body(text: &str) -> ParseResult<TypeBody> {
-  let p = separated_nonempty_list(ws(tag("|")), variant_specifier);
-  map(p, TypeBody)(text)
-}
-
-fn variant_specifier(text: &str) -> ParseResult<Variant> {
-  use self::Variant::*;
-  let tuple_struct =
-    delimited(tag("("), separated_nonempty_list(ws(tag(",")), type_name), ws(tag(")")));
-  //TODO record
-
-  let p = tuple((identifier, opt(tuple_struct)));
-  map(p, |(name, maybe_tuple_members)| match maybe_tuple_members {
-    Some(members) => TupleStruct(name, members),
-    None => UnitStruct(name),
-  })(text)
-}
-
-fn type_singleton_name(text: &str) -> ParseResult<TypeSingletonName> {
-  let p = tuple((identifier, opt(delimited(tag("<"),
-    separated_nonempty_list(tag(","), ws(type_name)),
-  tag(">")))));
-  map(p, |(name, params)| TypeSingletonName { name, params: params.unwrap_or(vec![]) })(text)
-}
-
-fn type_alias(text: &str) -> ParseResult<Declaration> {
-  let p = tuple((ws(identifier), ws(tag("=")), ws(identifier)));
-  map(p, |(alias, _, original)| Declaration::TypeAlias { alias, original })
-    (text)
-}
-
-fn statement(text: &str) -> ParseResult<Statement> {
-  let p = alt((
-    map(import, StatementKind::Import),
-    map(module, StatementKind::Module),
-    map(declaration, StatementKind::Declaration),
-    map(expression, StatementKind::Expression),
-  ));
-  map(p, |kind| Statement { id: ItemId::new(0), kind })(text)
-}
-
-pub fn parse_ast(text: &str) -> ParseResult<AST> {
-  map(separated_list(statement_sep, statement),
-  |statements| AST { id: ItemId::new(0), statements }
-  )(text)
-}
-
-pub fn perform_parsing(input: &str) -> Result<String, String> {
-  let output = match parse_ast(input) {
-    Ok((rest, ast)) => format!("{:?} (rest: {})", ast, rest),
-    Err(nom::Err::Incomplete(needed)) => format!("Incomplete: {:?}" ,needed),
-    Err(nom::Err::Error(verbose_error) | nom::Err::Failure(verbose_error)) => {
-      format!("Verbose Error: ` {:?} `", verbose_error)
-      //nom::error::convert_error(input, verbose_error)
-    }
-  };
-      
-  Ok(output)
-}

schala-lang/language/src/parsing/test.rs

@@ -3,7 +3,7 @@ use std::cell::RefCell;
 use std::rc::Rc;
 use std::str::FromStr;
 
-use super::{Parser, ParseResult, tokenize, ParseError};
+use super::{Parser, ParseResult, tokenize};
 use crate::ast::*;
 use super::Declaration::*;
 use super::Signature;
@@ -13,7 +13,6 @@ use super::ExpressionKind::*;
 use super::Variant::*;
 use super::ForBody::*;
 
-/*
 fn make_parser(input: &str) -> Parser {
   let source_map = crate::source_map::SourceMap::new();
   let source_map_handle = Rc::new(RefCell::new(source_map));
@@ -22,19 +21,10 @@ fn make_parser(input: &str) -> Parser {
   parser.add_new_tokens(tokens);
   parser
 }
-*/
 
 fn parse(input: &str) -> ParseResult<AST> {
-  use crate::tokenizing::*;
-  crate::parser::parse_ast(input).map_err(|err| {
-    let token = Token { kind: TokenKind::Newline, location: crate::source_map::Location { line_num: 0, char_num: 0 } };
-    ParseError { production_name: None, msg: "".to_string(), token  }
-  })
-  .map(|(rest, s)| s)
-  /*
   let mut parser = make_parser(input);
   parser.parse()
-  */
 }
 
 macro_rules! parse_test {
@@ -92,11 +82,8 @@ macro_rules! ex {
   ($expr_type:expr, $type_anno:expr) => { Expression::with_anno(ItemIdStore::new_id(), $expr_type, $type_anno) };
   (s $expr_text:expr) => {
     {
-      /*
       let mut parser = make_parser($expr_text);
       parser.expression().unwrap()
-      */
-      crate::parser::expression($expr_text).unwrap().1
     }
   };
 }
@@ -118,16 +105,8 @@ macro_rules! exst {
   };
   (s $statement_text:expr) => {
     {
-      /*
       let mut parser = make_parser($statement_text);
       parser.statement().unwrap()
-      */
-      Statement {
-        kind: StatementKind::Expression(
-        crate::parser::expression($statement_text).unwrap().1
-        ),
-        id: ItemIdStore::new_id()
-    }
     }
   }
 }
@@ -618,13 +597,13 @@ fn more_advanced_lambdas() {
 #[test]
 fn while_expr() {
   parse_test_wrap_ast! {
-    "while { 3 }",
-    exst!(WhileExpression { condition: None, body: vec![ exst!(s "3")] })
+    "while { }",
+    exst!(WhileExpression { condition: None, body: vec![] })
   }
 
   parse_test_wrap_ast! {
-    "while a == b { 3 }",
-    exst!(WhileExpression { condition: Some(bx![ex![binexp!("==", val!("a"), val!("b"))]]), body: vec![ exst!(s "3")] })
+    "while a == b { }",
+    exst!(WhileExpression { condition: Some(bx![ex![binexp!("==", val!("a"), val!("b"))]]), body: vec![] })
   }
 }
 

schala-lang/language/src/schala.rs

@@ -10,7 +10,7 @@ use schala_repl::{ProgrammingLanguageInterface,
 ComputationRequest, ComputationResponse,
 LangMetaRequest, LangMetaResponse, GlobalOutputStats,
 DebugResponse, DebugAsk};
-use crate::{ast, reduced_ast, tokenizing, parsing, parser, eval, typechecking, symbol_table, source_map};
+use crate::{ast, reduced_ast, tokenizing, parsing, eval, typechecking, symbol_table, source_map};
 
 pub type SymbolTableHandle = Rc<RefCell<symbol_table::SymbolTable>>;
 pub type SourceMapHandle = Rc<RefCell<source_map::SourceMap>>;
@@ -319,8 +319,6 @@ impl ProgrammingLanguageInterface for Schala {
       total_duration, stage_durations
     };
 
-    let main_output = parser::perform_parsing(source);
-
     ComputationResponse {
       main_output,
       global_output_stats,

schala-repl/src/lib.rs

@@ -1,4 +1,5 @@
-#![feature(link_args, box_patterns, box_syntax, proc_macro_hygiene, decl_macro)]
+#![feature(link_args)]
+#![feature(slice_patterns, box_patterns, box_syntax, proc_macro_hygiene, decl_macro)]
 #![feature(plugin)]
 extern crate getopts;
 extern crate linefeed;