518 lines
17 KiB
Rust
518 lines
17 KiB
Rust
//! # Reduced AST
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//! The reduced AST is a minimal AST designed to be built from the full AST after all possible
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//! static checks have been done. Consequently, the AST reduction phase does very little error
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//! checking itself - any errors should ideally be caught either by an earlier phase, or are
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//! runtime errors that the evaluator should handle. That said, becuase it does do table lookups
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//! that can in principle fail [especially at the moment with most static analysis not yet complete],
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//! there is an Expr variant `ReductionError` to handle these cases.
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//!
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//! A design decision to make - should the ReducedAST types contain all information about
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//! type/layout necessary for the evaluator to work? If so, then the evaluator should not
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//! have access to the symbol table at all and ReducedAST should carry that information. If not,
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//! then ReducedAST shouldn't be duplicating information that can be queried at runtime from the
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//! symbol table. But I think the former might make sense since ultimately the bytecode will be
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//! built from the ReducedAST.
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use std::rc::Rc;
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use std::str::FromStr;
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use crate::ast::*;
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use crate::symbol_table::{Symbol, SymbolSpec, SymbolTable, FullyQualifiedSymbolName};
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use crate::builtin::Builtin;
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#[derive(Debug)]
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pub struct ReducedAST(pub Vec<Stmt>);
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#[derive(Debug, Clone)]
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pub enum Stmt {
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PreBinding {
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name: Rc<String>,
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func: Func,
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},
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Binding {
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name: Rc<String>,
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constant: bool,
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expr: Expr,
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},
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Expr(Expr),
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Noop,
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}
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#[derive(Debug, Clone)]
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pub enum Expr {
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Unit,
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Lit(Lit),
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Tuple(Vec<Expr>),
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Func(Func),
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Sym(Rc<String>),
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Constructor {
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type_name: Rc<String>,
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name: Rc<String>,
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tag: usize,
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arity: usize, // n.b. arity here is always the value from the symbol table - if it doesn't match what it's being called with, that's an eval error, eval will handle it
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},
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Call {
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f: Box<Expr>,
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args: Vec<Expr>,
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},
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Assign {
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val: Box<Expr>,
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expr: Box<Expr>,
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},
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Conditional {
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cond: Box<Expr>,
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then_clause: Vec<Stmt>,
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else_clause: Vec<Stmt>,
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},
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ConditionalTargetSigilValue,
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CaseMatch {
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cond: Box<Expr>,
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alternatives: Vec<Alternative>
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},
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UnimplementedSigilValue,
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ReductionError(String),
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}
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pub type BoundVars = Vec<Option<Rc<String>>>; //remember that order matters here
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#[derive(Debug, Clone)]
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pub struct Alternative {
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pub matchable: Subpattern,
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pub item: Vec<Stmt>,
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}
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#[derive(Debug, Clone)]
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pub struct Subpattern {
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pub tag: Option<usize>,
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pub subpatterns: Vec<Option<Subpattern>>,
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pub bound_vars: BoundVars,
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pub guard: Option<Expr>,
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}
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#[derive(Debug, Clone)]
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pub enum Lit {
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Nat(u64),
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Int(i64),
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Float(f64),
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Bool(bool),
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StringLit(Rc<String>),
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}
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#[derive(Debug, Clone)]
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pub enum Func {
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BuiltIn(Builtin),
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UserDefined {
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name: Option<Rc<String>>,
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params: Vec<Rc<String>>,
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body: Vec<Stmt>,
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}
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}
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pub fn reduce(ast: &AST, symbol_table: &SymbolTable) -> ReducedAST {
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let mut reducer = Reducer { symbol_table };
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reducer.ast(ast)
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}
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struct Reducer<'a> {
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symbol_table: &'a SymbolTable
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}
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impl<'a> Reducer<'a> {
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fn ast(&mut self, ast: &AST) -> ReducedAST {
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let mut output = vec![];
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for statement in ast.statements.iter() {
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output.push(self.statement(statement));
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}
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ReducedAST(output)
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}
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fn statement(&mut self, stmt: &Meta<Statement>) -> Stmt {
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match &stmt.node().kind {
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StatementKind::Expression(expr) => Stmt::Expr(self.expression(&expr)),
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StatementKind::Declaration(decl) => self.declaration(&decl),
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}
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}
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fn block(&mut self, block: &Block) -> Vec<Stmt> {
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block.iter().map(|stmt| self.statement(stmt)).collect()
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}
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fn invocation_argument(&mut self, invoc: &InvocationArgument) -> Expr {
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use crate::ast::InvocationArgument::*;
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match invoc {
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Positional(ex) => self.expression(ex),
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Keyword { .. } => Expr::UnimplementedSigilValue,
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Ignored => Expr::UnimplementedSigilValue,
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}
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}
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fn expression(&mut self, expr: &Meta<Expression>) -> Expr {
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use crate::ast::ExpressionKind::*;
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let symbol_table = self.symbol_table;
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let ref node = expr.node();
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let ref input = node.kind;
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match input {
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NatLiteral(n) => Expr::Lit(Lit::Nat(*n)),
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FloatLiteral(f) => Expr::Lit(Lit::Float(*f)),
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StringLiteral(s) => Expr::Lit(Lit::StringLit(s.clone())),
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BoolLiteral(b) => Expr::Lit(Lit::Bool(*b)),
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BinExp(binop, lhs, rhs) => self.binop(binop, lhs, rhs),
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PrefixExp(op, arg) => self.prefix(op, arg),
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Value(qualified_name) => {
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let ref id = qualified_name.id;
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let ref sym_name = match symbol_table.get_fqsn_from_id(id) {
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Some(fqsn) => fqsn,
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None => return Expr::ReductionError(format!("FQSN lookup for Value {:?} failed", qualified_name)),
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};
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//TODO this probably needs to change
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let FullyQualifiedSymbolName(ref v) = sym_name;
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let name = v.last().unwrap().name.clone();
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match symbol_table.lookup_by_fqsn(&sym_name) {
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Some(Symbol { spec: SymbolSpec::DataConstructor { index, type_args, type_name}, .. }) => Expr::Constructor {
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type_name: type_name.clone(),
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name: name.clone(),
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tag: index.clone(),
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arity: type_args.len(),
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},
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_ => Expr::Sym(name.clone()),
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}
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},
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Call { f, arguments } => self.reduce_call_expression(f, arguments),
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TupleLiteral(exprs) => Expr::Tuple(exprs.iter().map(|e| self.expression(e)).collect()),
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IfExpression { discriminator, body } => self.reduce_if_expression(discriminator, body),
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Lambda { params, body, .. } => self.reduce_lambda(params, body),
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NamedStruct { name, fields } => self.reduce_named_struct(name.node(), fields),
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Index { .. } => Expr::UnimplementedSigilValue,
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WhileExpression { .. } => Expr::UnimplementedSigilValue,
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ForExpression { .. } => Expr::UnimplementedSigilValue,
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ListLiteral { .. } => Expr::UnimplementedSigilValue,
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}
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}
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fn reduce_lambda(&mut self, params: &Vec<FormalParam>, body: &Block) -> Expr {
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Expr::Func(Func::UserDefined {
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name: None,
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params: params.iter().map(|param| param.name.clone()).collect(),
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body: self.block(body),
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})
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}
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fn reduce_named_struct(&mut self, name: &QualifiedName, fields: &Vec<(Rc<String>, Meta<Expression>)>) -> Expr {
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let symbol_table = self.symbol_table;
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let ref sym_name = match symbol_table.get_fqsn_from_id(&name.id) {
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Some(fqsn) => fqsn,
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None => return Expr::ReductionError(format!("FQSN lookup for name {:?} failed", name)),
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};
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let FullyQualifiedSymbolName(ref v) = sym_name;
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let ref name = v.last().unwrap().name;
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let (type_name, index, members_from_table) = match symbol_table.lookup_by_fqsn(&sym_name) {
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Some(Symbol { spec: SymbolSpec::RecordConstructor { members, type_name, index }, .. }) => (type_name.clone(), index, members),
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_ => return Expr::ReductionError("Not a record constructor".to_string()),
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};
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let arity = members_from_table.len();
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let mut args: Vec<(Rc<String>, Expr)> = fields.iter()
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.map(|(name, expr)| (name.clone(), self.expression(expr)))
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.collect();
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args.as_mut_slice()
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.sort_unstable_by(|(name1, _), (name2, _)| name1.cmp(name2)); //arbitrary - sorting by alphabetical order
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let args = args.into_iter().map(|(_, expr)| expr).collect();
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//TODO make sure this sorting actually works
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let f = box Expr::Constructor { type_name, name: name.clone(), tag: *index, arity, };
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Expr::Call { f, args }
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}
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fn reduce_call_expression(&mut self, func: &Meta<Expression>, arguments: &Vec<InvocationArgument>) -> Expr {
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Expr::Call {
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f: Box::new(self.expression(func)),
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args: arguments.iter().map(|arg| self.invocation_argument(arg)).collect(),
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}
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}
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fn reduce_if_expression(&mut self, discriminator: &Discriminator, body: &IfExpressionBody) -> Expr {
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let symbol_table = self.symbol_table;
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let cond = Box::new(match *discriminator {
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Discriminator::Simple(ref expr) => self.expression(expr),
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Discriminator::BinOp(ref _expr, ref _binop) => panic!("Can't yet handle binop discriminators")
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});
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match *body {
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IfExpressionBody::SimpleConditional(ref then_clause, ref else_clause) => {
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let then_clause = self.block(then_clause);
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let else_clause = match else_clause {
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None => vec![],
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Some(stmts) => self.block(stmts),
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};
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Expr::Conditional { cond, then_clause, else_clause }
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},
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IfExpressionBody::SimplePatternMatch(ref pat, ref then_clause, ref else_clause) => {
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let then_clause = self.block(then_clause);
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let else_clause = match else_clause {
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None => vec![],
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Some(stmts) => self.block(stmts),
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};
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let alternatives = vec![
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pat.to_alternative(then_clause, symbol_table),
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Alternative {
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matchable: Subpattern {
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tag: None,
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subpatterns: vec![],
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bound_vars: vec![],
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guard: None,
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},
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item: else_clause
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},
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];
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Expr::CaseMatch {
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cond,
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alternatives,
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}
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},
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IfExpressionBody::GuardList(ref guard_arms) => {
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let mut alternatives = vec![];
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for arm in guard_arms {
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match arm.guard {
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Guard::Pat(ref p) => {
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let item = self.block(&arm.body);
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let alt = p.to_alternative(item, symbol_table);
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alternatives.push(alt);
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},
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Guard::HalfExpr(HalfExpr { op: _, expr: _ }) => {
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return Expr::UnimplementedSigilValue
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}
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}
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}
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Expr::CaseMatch { cond, alternatives }
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}
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}
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}
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fn binop(&mut self, binop: &BinOp, lhs: &Box<Meta<Expression>>, rhs: &Box<Meta<Expression>>) -> Expr {
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let operation = Builtin::from_str(binop.sigil()).ok();
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match operation {
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Some(Builtin::Assignment) => Expr::Assign {
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val: Box::new(self.expression(&*lhs)),
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expr: Box::new(self.expression(&*rhs)),
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},
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Some(op) => {
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let f = Box::new(Expr::Func(Func::BuiltIn(op)));
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Expr::Call { f, args: vec![self.expression(&*lhs), self.expression(&*rhs)] }
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},
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None => {
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//TODO handle a user-defined operation
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Expr::UnimplementedSigilValue
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}
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}
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}
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fn prefix(&mut self, prefix: &PrefixOp, arg: &Box<Meta<Expression>>) -> Expr {
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match prefix.builtin {
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Some(op) => {
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let f = Box::new(Expr::Func(Func::BuiltIn(op)));
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Expr::Call { f, args: vec![self.expression(arg)] }
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},
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None => { //TODO need this for custom prefix ops
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Expr::UnimplementedSigilValue
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}
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}
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}
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fn declaration(&mut self, declaration: &Declaration) -> Stmt {
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use self::Declaration::*;
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match declaration {
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Binding {name, constant, expr, .. } => Stmt::Binding { name: name.clone(), constant: *constant, expr: self.expression(expr) },
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FuncDecl(Signature { name, params, .. }, statements) => Stmt::PreBinding {
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name: name.clone(),
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func: Func::UserDefined {
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name: Some(name.clone()),
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params: params.iter().map(|param| param.name.clone()).collect(),
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body: self.block(&statements),
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}
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},
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TypeDecl { .. } => Stmt::Noop,
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TypeAlias(_, _) => Stmt::Noop,
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Interface { .. } => Stmt::Noop,
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Impl { .. } => Stmt::Expr(Expr::UnimplementedSigilValue),
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_ => Stmt::Expr(Expr::UnimplementedSigilValue)
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}
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}
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}
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/* ig var pat
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* x is SomeBigOldEnum(_, x, Some(t))
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*/
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fn handle_symbol(symbol: Option<&Symbol>, inner_patterns: &Vec<Pattern>, symbol_table: &SymbolTable) -> Subpattern {
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use self::Pattern::*;
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let tag = symbol.map(|symbol| match symbol.spec {
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SymbolSpec::DataConstructor { index, .. } => index.clone(),
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_ => panic!("Symbol is not a data constructor - this should've been caught in type-checking"),
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});
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let bound_vars = inner_patterns.iter().map(|p| match p {
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VarOrName(qualified_name) => {
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let fqsn = symbol_table.get_fqsn_from_id(&qualified_name.id);
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let symbol_exists = fqsn.and_then(|fqsn| symbol_table.lookup_by_fqsn(&fqsn)).is_some();
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if symbol_exists {
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None
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} else {
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let QualifiedName { components, .. } = qualified_name;
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if components.len() == 1 {
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Some(components[0].clone())
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} else {
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panic!("Bad variable name in pattern");
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}
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}
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},
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_ => None,
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}).collect();
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let subpatterns = inner_patterns.iter().map(|p| match p {
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Ignored => None,
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VarOrName(_) => None,
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Literal(other) => Some(other.to_subpattern(symbol_table)),
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tp @ TuplePattern(_) => Some(tp.to_subpattern(symbol_table)),
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ts @ TupleStruct(_, _) => Some(ts.to_subpattern(symbol_table)),
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Record(..) => unimplemented!(),
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}).collect();
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let guard = None;
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/*
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let guard_equality_exprs: Vec<Expr> = subpatterns.iter().map(|p| match p {
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Literal(lit) => match lit {
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_ => unimplemented!()
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},
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_ => unimplemented!()
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}).collect();
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*/
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Subpattern {
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tag,
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subpatterns,
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guard,
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bound_vars,
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}
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}
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impl Pattern {
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fn to_alternative(&self, item: Vec<Stmt>, symbol_table: &SymbolTable) -> Alternative {
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let s = self.to_subpattern(symbol_table);
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Alternative {
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matchable: Subpattern {
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tag: s.tag,
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subpatterns: s.subpatterns,
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bound_vars: s.bound_vars,
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guard: s.guard,
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},
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item
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}
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}
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fn to_subpattern(&self, symbol_table: &SymbolTable) -> Subpattern {
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use self::Pattern::*;
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match self {
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TupleStruct(QualifiedName{ components, id }, inner_patterns) => {
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let fqsn = symbol_table.get_fqsn_from_id(&id);
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match fqsn.and_then(|fqsn| symbol_table.lookup_by_fqsn(&fqsn)) {
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Some(symbol) => handle_symbol(Some(symbol), inner_patterns, symbol_table),
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None => {
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panic!("Symbol {:?} not found", components);
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}
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}
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},
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TuplePattern(inner_patterns) => handle_symbol(None, inner_patterns, symbol_table),
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Record(_name, _pairs) => {
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unimplemented!()
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},
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Ignored => Subpattern { tag: None, subpatterns: vec![], guard: None, bound_vars: vec![] },
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Literal(lit) => lit.to_subpattern(symbol_table),
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VarOrName(QualifiedName { components, id }) => {
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// if fqsn is Some, treat this as a symbol pattern. If it's None, treat it
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// as a variable.
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println!("Calling VarOrName reduction with : {:?}", components);
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let fqsn = symbol_table.get_fqsn_from_id(&id);
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match fqsn.and_then(|fqsn| symbol_table.lookup_by_fqsn(&fqsn)) {
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Some(symbol) => handle_symbol(Some(symbol), &vec![], symbol_table),
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None => {
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let name = if components.len() == 1 {
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components[0].clone()
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} else {
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panic!("check this line of code yo");
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};
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Subpattern {
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tag: None,
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subpatterns: vec![],
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guard: None,
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bound_vars: vec![Some(name.clone())],
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}
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}
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}
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},
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}
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}
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}
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impl PatternLiteral {
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fn to_subpattern(&self, _symbol_table: &SymbolTable) -> Subpattern {
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use self::PatternLiteral::*;
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match self {
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NumPattern { neg, num } => {
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let comparison = Expr::Lit(match (neg, num) {
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(false, ExpressionKind::NatLiteral(n)) => Lit::Nat(*n),
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(false, ExpressionKind::FloatLiteral(f)) => Lit::Float(*f),
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(true, ExpressionKind::NatLiteral(n)) => Lit::Int(-1*(*n as i64)),
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(true, ExpressionKind::FloatLiteral(f)) => Lit::Float(-1.0*f),
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_ => panic!("This should never happen")
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});
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let guard = Some(Expr::Call {
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f: Box::new(Expr::Func(Func::BuiltIn(Builtin::Equality))),
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args: vec![comparison, Expr::ConditionalTargetSigilValue],
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});
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Subpattern {
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tag: None,
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subpatterns: vec![],
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guard,
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bound_vars: vec![],
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}
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},
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StringPattern(s) => {
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let guard = Some(Expr::Call {
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f: Box::new(Expr::Func(Func::BuiltIn(Builtin::Equality))),
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args: vec![Expr::Lit(Lit::StringLit(s.clone())), Expr::ConditionalTargetSigilValue]
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});
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|
|
|
Subpattern {
|
|
tag: None,
|
|
subpatterns: vec![],
|
|
guard,
|
|
bound_vars: vec![],
|
|
}
|
|
},
|
|
BoolPattern(b) => {
|
|
let guard = Some(if *b {
|
|
Expr::ConditionalTargetSigilValue
|
|
} else {
|
|
Expr::Call {
|
|
f: Box::new(Expr::Func(Func::BuiltIn(Builtin::BooleanNot))),
|
|
args: vec![Expr::ConditionalTargetSigilValue]
|
|
}
|
|
});
|
|
Subpattern {
|
|
tag: None,
|
|
subpatterns: vec![],
|
|
guard,
|
|
bound_vars: vec![],
|
|
}
|
|
},
|
|
}
|
|
}
|
|
|
|
}
|