adapt Abstraction variant of LTExpr to allow multiple parameters
This avoids unneccesary recursive chaining and also allows abstractions with zero parameters.
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parent
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commit
f54f630b38
4 changed files with 39 additions and 27 deletions
15
src/expr.rs
15
src/expr.rs
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@ -39,9 +39,8 @@ pub enum LTExpr {
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body: Vec<LTExpr>
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},
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Abstraction {
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arg_id: String,
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arg_type: Option< laddertypes::TypeTerm >,
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val_expr: Box<LTExpr>
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args: Vec<(String, Option<laddertypes::TypeTerm>)>,
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body: Box<LTExpr>
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},
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Branch {
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condition: Box<LTExpr>,
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@ -68,11 +67,13 @@ impl LTExpr {
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}
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}
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pub fn abstraction(arg_id: &str, arg_typ: &str, val_expr: LTExpr) -> LTExpr {
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pub fn abstraction(args: Vec<(&str, &str)>, val_expr: LTExpr) -> LTExpr {
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LTExpr::Abstraction {
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arg_id: String::from(arg_id),
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arg_type: None,//typectx.write().unwrap().parse(arg_typ).expect("parse typeterm"),
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val_expr: Box::new(val_expr)
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args: args.into_iter().map(|(arg_name, arg_type)|
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( arg_name.into(), None )
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//typectx.write().unwrap().parse(t).expect("parse typeterm")
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).collect(),
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body: Box::new(val_expr)
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}
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}
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12
src/main.rs
12
src/main.rs
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@ -80,13 +80,19 @@ fn main() {
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}
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};
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let hello = λ _ {
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let hello = λ{
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print-nullterm hello-string;
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print-lenprefix pfxstr;
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};
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let isquare = λx (i* x x);
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hello 'X';
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hello;
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let isquare = λx (i* x x);
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let magnitude2 = λx y {
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i+ (isquare x) (isquare y);
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};
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magnitude2 8 16;
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emit '\n';
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emit (i+ '0' (isquare 3));
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emit '\n';
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@ -175,13 +175,16 @@ where It: Iterator<Item = char>
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Ok(LTIRToken::Lambda) => {
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if children.len() == 0 {
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tokens.next();
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let name = parse_symbol(tokens)?;
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let mut args = Vec::new();
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while let Some(Ok(LTIRToken::Symbol(_))) = tokens.peek() {
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args.push((parse_symbol(tokens)?, None));
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}
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let body = parse_expr(tokens)?;
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return Ok(LTExpr::Abstraction{
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arg_id: name,
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arg_type: None,
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val_expr: Box::new(body)
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args,
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body: Box::new(body)
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});
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} else {
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return Err(ParseError::UnexpectedToken);
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@ -100,7 +100,7 @@ impl ProcedureCompiler {
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}
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Statement::LetAssign{ var_id, val_expr } => {
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match val_expr {
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LTExpr::Abstraction { arg_id:_, arg_type:_, val_expr:_ } => {
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LTExpr::Abstraction { args:_, body:_ } => {
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self.symbols.write().unwrap()
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.declare_proc(
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var_id.clone(),
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@ -186,18 +186,20 @@ impl ProcedureCompiler {
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}
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self = self.compile(head);
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}
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LTExpr::Abstraction { arg_id: arg_name, arg_type, val_expr } => {
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LTExpr::Abstraction { args, body } => {
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for (arg_name, arg_type) in args.iter() {
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let id = self.symbols
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.write().unwrap()
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.declare_var(
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arg_name.clone(),
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laddertypes::TypeTerm::unit());
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arg_type.clone().unwrap_or(
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laddertypes::TypeTerm::unit())
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);
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self.asm = self.asm
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.lit( id )
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.call("data-frame-set");
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self = self.compile(val_expr);
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}
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self = self.compile(body);
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}
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LTExpr::Branch { condition, if_expr, else_expr } => {
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self = self.compile(condition);
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