198 lines
6.2 KiB
Rust
198 lines
6.2 KiB
Rust
use crate::ast::*;
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#[derive(Debug)]
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pub enum Recursion {
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Continue,
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Stop,
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}
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pub trait ASTVisitor: Sized {
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fn expression(&mut self, _expression: &Expression) -> Recursion {
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Recursion::Continue
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}
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fn declaration(&mut self, _declaration: &Declaration, _id: &ItemId) -> Recursion {
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Recursion::Continue
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}
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fn import(&mut self, _import: &ImportSpecifier) -> Recursion {
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Recursion::Continue
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}
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fn pattern(&mut self, _pat: &Pattern) -> Recursion {
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Recursion::Continue
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}
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}
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pub fn walk_ast<V: ASTVisitor>(v: &mut V, ast: &AST) {
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walk_block(v, &ast.statements);
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}
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pub fn walk_block<V: ASTVisitor>(v: &mut V, block: &Block) {
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use StatementKind::*;
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for statement in block.statements.iter() {
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match statement.kind {
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StatementKind::Expression(ref expr) => {
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walk_expression(v, expr);
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}
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Declaration(ref decl) => {
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walk_declaration(v, decl, &statement.id);
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}
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Import(ref import_spec) => {
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v.import(import_spec);
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}
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Flow(ref flow_control) =>
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if let FlowControl::Return(Some(ref retval)) = flow_control {
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walk_expression(v, retval);
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},
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}
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}
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}
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pub fn walk_declaration<V: ASTVisitor>(v: &mut V, decl: &Declaration, id: &ItemId) {
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use Declaration::*;
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if let Recursion::Continue = v.declaration(decl, id) {
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match decl {
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FuncDecl(_sig, block) => {
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walk_block(v, block);
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}
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Binding { name: _, constant: _, type_anno: _, expr } => {
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walk_expression(v, expr);
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}
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Module { name: _, items } => {
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walk_block(v, items);
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}
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_ => (),
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};
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}
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}
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pub fn walk_expression<V: ASTVisitor>(v: &mut V, expr: &Expression) {
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use ExpressionKind::*;
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if let Recursion::Continue = v.expression(expr) {
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match &expr.kind {
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NatLiteral(_) | FloatLiteral(_) | StringLiteral(_) | BoolLiteral(_) | Value(_) => (),
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BinExp(_, lhs, rhs) => {
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walk_expression(v, lhs);
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walk_expression(v, rhs);
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}
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PrefixExp(_, arg) => {
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walk_expression(v, arg);
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}
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TupleLiteral(exprs) =>
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for expr in exprs {
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walk_expression(v, expr);
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},
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NamedStruct { name: _, fields } =>
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for (_, expr) in fields.iter() {
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walk_expression(v, expr);
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},
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Call { f, arguments } => {
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walk_expression(v, f);
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for arg in arguments.iter() {
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match arg {
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InvocationArgument::Positional(expr) | InvocationArgument::Keyword { expr, .. } =>
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walk_expression(v, expr),
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_ => (),
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}
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}
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}
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Index { indexee, indexers } => {
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walk_expression(v, indexee);
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for indexer in indexers.iter() {
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walk_expression(v, indexer);
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}
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}
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IfExpression { discriminator, body } => {
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if let Some(d) = discriminator.as_ref() {
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walk_expression(v, d);
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}
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walk_if_expr_body(v, body.as_ref());
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}
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WhileExpression { condition, body } => {
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if let Some(d) = condition.as_ref() {
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walk_expression(v, d);
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}
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walk_block(v, body);
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}
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ForExpression { enumerators, body } => {
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for enumerator in enumerators {
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walk_expression(v, &enumerator.generator);
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}
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match body.as_ref() {
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ForBody::MonadicReturn(expr) => walk_expression(v, expr),
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ForBody::StatementBlock(block) => walk_block(v, block),
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};
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}
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Lambda { params: _, type_anno: _, body } => {
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walk_block(v, body);
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}
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Access { name: _, expr } => {
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walk_expression(v, expr);
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}
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ListLiteral(exprs) =>
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for expr in exprs {
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walk_expression(v, expr);
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},
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};
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}
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}
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pub fn walk_if_expr_body<V: ASTVisitor>(v: &mut V, body: &IfExpressionBody) {
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use IfExpressionBody::*;
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match body {
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SimpleConditional { then_case, else_case } => {
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walk_block(v, then_case);
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if let Some(block) = else_case.as_ref() {
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walk_block(v, block)
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}
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}
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SimplePatternMatch { pattern, then_case, else_case } => {
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walk_pattern(v, pattern);
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walk_block(v, then_case);
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if let Some(block) = else_case.as_ref() {
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walk_block(v, block)
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}
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}
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CondList(arms) =>
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for arm in arms {
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match arm.condition {
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Condition::Pattern(ref pat) => {
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walk_pattern(v, pat);
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}
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Condition::TruncatedOp(ref _binop, ref expr) => {
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walk_expression(v, expr);
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}
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Condition::Else => (),
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}
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if let Some(ref guard) = arm.guard {
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walk_expression(v, guard);
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}
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walk_block(v, &arm.body);
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},
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}
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}
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pub fn walk_pattern<V: ASTVisitor>(v: &mut V, pat: &Pattern) {
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use Pattern::*;
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if let Recursion::Continue = v.pattern(pat) {
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match pat {
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TuplePattern(patterns) =>
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for pat in patterns {
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walk_pattern(v, pat);
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},
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TupleStruct(_, patterns) =>
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for pat in patterns {
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walk_pattern(v, pat);
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},
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Record(_, name_and_patterns) =>
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for (_, pat) in name_and_patterns {
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walk_pattern(v, pat);
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},
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_ => (),
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};
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}
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}
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