CSY/reowolf Files · src/protocol/parser/visitor.rs · Centrum Wiskunde & Informatica (CWI)

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706db38f2849 10.4 KiB application/rls-services+xml Show Annotation Show as Raw Download as Raw
Preparatory work for union literals

Contains horrible parsing hacks that transmute function calls and
enum literals to union literals if appropriate. Pending the
implementation of the tokenizer the AST can be constructed more
neatly.
use crate::protocol::ast::*;
use crate::protocol::inputsource::*;
use crate::protocol::parser::{symbol_table::*, type_table::*, LexedModule};

type Unit = ();
pub(crate) type VisitorResult = Result<Unit, ParseError>;

/// Globally configured vector capacity for statement buffers in visitor 
/// implementations
pub(crate) const STMT_BUFFER_INIT_CAPACITY: usize = 256;
/// Globally configured vector capacity for expression buffers in visitor
/// implementations
pub(crate) const EXPR_BUFFER_INIT_CAPACITY: usize = 256;
/// Globally configured vector capacity for parser type buffers in visitor
/// implementations
pub(crate) const TYPE_BUFFER_INIT_CAPACITY: usize = 128;

/// General context structure that is used while traversing the AST.
pub(crate) struct Ctx<'p> {
    pub heap: &'p mut Heap,
    pub module: &'p LexedModule,
    pub symbols: &'p mut SymbolTable,
    pub types: &'p mut TypeTable,
}

/// Visitor is a generic trait that will fully walk the AST. The default
/// implementation of the visitors is to not recurse. The exception is the
/// top-level `visit_definition`, `visit_stmt` and `visit_expr` methods, which
/// call the appropriate visitor function.
pub(crate) trait Visitor2 {
    // Entry point
    fn visit_module(&mut self, ctx: &mut Ctx) -> VisitorResult {
        let mut def_index = 0;
        loop {
            let definition_id = {
                let root = &ctx.heap[ctx.module.root_id];
                if def_index >= root.definitions.len() {
                    return Ok(())
                }

                root.definitions[def_index]
            };

            self.visit_definition(ctx, definition_id)?;
            def_index += 1;
        }
    }

    // Definitions
    // --- enum matching
    fn visit_definition(&mut self, ctx: &mut Ctx, id: DefinitionId) -> VisitorResult {
        match &ctx.heap[id] {
            Definition::Enum(def) => {
                let def = def.this;
                self.visit_enum_definition(ctx, def)
            },
            Definition::Union(def) => {
                let def = def.this;
                self.visit_union_definition(ctx, def)
            }
            Definition::Struct(def) => {
                let def = def.this;
                self.visit_struct_definition(ctx, def)
            },
            Definition::Component(def) => {
                let def = def.this;
                self.visit_component_definition(ctx, def)
            },
            Definition::Function(def) => {
                let def = def.this;
                self.visit_function_definition(ctx, def)
            }
        }
    }

    // --- enum variant handling
    fn visit_enum_definition(&mut self, _ctx: &mut Ctx, _id: EnumId) -> VisitorResult { Ok(()) }
    fn visit_union_definition(&mut self, _ctx: &mut Ctx, _id: UnionId) -> VisitorResult{ Ok(()) }
    fn visit_struct_definition(&mut self, _ctx: &mut Ctx, _id: StructId) -> VisitorResult { Ok(()) }
    fn visit_component_definition(&mut self, _ctx: &mut Ctx, _id: ComponentId) -> VisitorResult { Ok(()) }
    fn visit_function_definition(&mut self, _ctx: &mut Ctx, _id: FunctionId) -> VisitorResult { Ok(()) }

    // Statements
    // --- enum matching
    fn visit_stmt(&mut self, ctx: &mut Ctx, id: StatementId) -> VisitorResult {
        match &ctx.heap[id] {
            Statement::Block(stmt) => {
                let this = stmt.this;
                self.visit_block_stmt(ctx, this)
            },
            Statement::Local(stmt) => {
                let this = stmt.this();
                self.visit_local_stmt(ctx, this)
            },
            Statement::Skip(stmt) => {
                let this = stmt.this;
                self.visit_skip_stmt(ctx, this)
            },
            Statement::Labeled(stmt) => {
                let this = stmt.this;
                self.visit_labeled_stmt(ctx, this)
            },
            Statement::If(stmt) => {
                let this = stmt.this;
                self.visit_if_stmt(ctx, this)
            },
            Statement::EndIf(_stmt) => Ok(()),
            Statement::While(stmt) => {
                let this = stmt.this;
                self.visit_while_stmt(ctx, this)
            },
            Statement::EndWhile(_stmt) => Ok(()),
            Statement::Break(stmt) => {
                let this = stmt.this;
                self.visit_break_stmt(ctx, this)
            },
            Statement::Continue(stmt) => {
                let this = stmt.this;
                self.visit_continue_stmt(ctx, this)
            },
            Statement::Synchronous(stmt) => {
                let this = stmt.this;
                self.visit_synchronous_stmt(ctx, this)
            },
            Statement::EndSynchronous(_stmt) => Ok(()),
            Statement::Return(stmt) => {
                let this = stmt.this;
                self.visit_return_stmt(ctx, this)
            },
            Statement::Assert(stmt) => {
                let this = stmt.this;
                self.visit_assert_stmt(ctx, this)
            },
            Statement::Goto(stmt) => {
                let this = stmt.this;
                self.visit_goto_stmt(ctx, this)
            },
            Statement::New(stmt) => {
                let this = stmt.this;
                self.visit_new_stmt(ctx, this)
            },
            Statement::Expression(stmt) => {
                let this = stmt.this;
                self.visit_expr_stmt(ctx, this)
            }
        }
    }

    fn visit_local_stmt(&mut self, ctx: &mut Ctx, id: LocalStatementId) -> VisitorResult {
        match &ctx.heap[id] {
            LocalStatement::Channel(stmt) => {
                let this = stmt.this;
                self.visit_local_channel_stmt(ctx, this)
            },
            LocalStatement::Memory(stmt) => {
                let this = stmt.this;
                self.visit_local_memory_stmt(ctx, this)
            },
        }
    }

    // --- enum variant handling
    fn visit_block_stmt(&mut self, _ctx: &mut Ctx, _id: BlockStatementId) -> VisitorResult { Ok(()) }
    fn visit_local_memory_stmt(&mut self, _ctx: &mut Ctx, _id: MemoryStatementId) -> VisitorResult { Ok(()) }
    fn visit_local_channel_stmt(&mut self, _ctx: &mut Ctx, _id: ChannelStatementId) -> VisitorResult { Ok(()) }
    fn visit_skip_stmt(&mut self, _ctx: &mut Ctx, _id: SkipStatementId) -> VisitorResult { Ok(()) }
    fn visit_labeled_stmt(&mut self, _ctx: &mut Ctx, _id: LabeledStatementId) -> VisitorResult { Ok(()) }
    fn visit_if_stmt(&mut self, _ctx: &mut Ctx, _id: IfStatementId) -> VisitorResult { Ok(()) }
    fn visit_while_stmt(&mut self, _ctx: &mut Ctx, _id: WhileStatementId) -> VisitorResult { Ok(()) }
    fn visit_break_stmt(&mut self, _ctx: &mut Ctx, _id: BreakStatementId) -> VisitorResult { Ok(()) }
    fn visit_continue_stmt(&mut self, _ctx: &mut Ctx, _id: ContinueStatementId) -> VisitorResult { Ok(()) }
    fn visit_synchronous_stmt(&mut self, _ctx: &mut Ctx, _id: SynchronousStatementId) -> VisitorResult { Ok(()) }
    fn visit_return_stmt(&mut self, _ctx: &mut Ctx, _id: ReturnStatementId) -> VisitorResult { Ok(()) }
    fn visit_assert_stmt(&mut self, _ctx: &mut Ctx, _id: AssertStatementId) -> VisitorResult { Ok(()) }
    fn visit_goto_stmt(&mut self, _ctx: &mut Ctx, _id: GotoStatementId) -> VisitorResult { Ok(()) }
    fn visit_new_stmt(&mut self, _ctx: &mut Ctx, _id: NewStatementId) -> VisitorResult { Ok(()) }
    fn visit_expr_stmt(&mut self, _ctx: &mut Ctx, _id: ExpressionStatementId) -> VisitorResult { Ok(()) }

    // Expressions
    // --- enum matching
    fn visit_expr(&mut self, ctx: &mut Ctx, id: ExpressionId) -> VisitorResult {
        match &ctx.heap[id] {
            Expression::Assignment(expr) => {
                let this = expr.this;
                self.visit_assignment_expr(ctx, this)
            },
            Expression::Conditional(expr) => {
                let this = expr.this;
                self.visit_conditional_expr(ctx, this)
            }
            Expression::Binary(expr) => {
                let this = expr.this;
                self.visit_binary_expr(ctx, this)
            }
            Expression::Unary(expr) => {
                let this = expr.this;
                self.visit_unary_expr(ctx, this)
            }
            Expression::Indexing(expr) => {
                let this = expr.this;
                self.visit_indexing_expr(ctx, this)
            }
            Expression::Slicing(expr) => {
                let this = expr.this;
                self.visit_slicing_expr(ctx, this)
            }
            Expression::Select(expr) => {
                let this = expr.this;
                self.visit_select_expr(ctx, this)
            }
            Expression::Array(expr) => {
                let this = expr.this;
                self.visit_array_expr(ctx, this)
            }
            Expression::Literal(expr) => {
                let this = expr.this;
                self.visit_literal_expr(ctx, this)
            }
            Expression::Call(expr) => {
                let this = expr.this;
                self.visit_call_expr(ctx, this)
            }
            Expression::Variable(expr) => {
                let this = expr.this;
                self.visit_variable_expr(ctx, this)
            }
        }
    }

    fn visit_assignment_expr(&mut self, _ctx: &mut Ctx, _id: AssignmentExpressionId) -> VisitorResult { Ok(()) }
    fn visit_conditional_expr(&mut self, _ctx: &mut Ctx, _id: ConditionalExpressionId) -> VisitorResult { Ok(()) }
    fn visit_binary_expr(&mut self, _ctx: &mut Ctx, _id: BinaryExpressionId) -> VisitorResult { Ok(()) }
    fn visit_unary_expr(&mut self, _ctx: &mut Ctx, _id: UnaryExpressionId) -> VisitorResult { Ok(()) }
    fn visit_indexing_expr(&mut self, _ctx: &mut Ctx, _id: IndexingExpressionId) -> VisitorResult { Ok(()) }
    fn visit_slicing_expr(&mut self, _ctx: &mut Ctx, _id: SlicingExpressionId) -> VisitorResult { Ok(()) }
    fn visit_select_expr(&mut self, _ctx: &mut Ctx, _id: SelectExpressionId) -> VisitorResult { Ok(()) }
    fn visit_array_expr(&mut self, _ctx: &mut Ctx, _id: ArrayExpressionId) -> VisitorResult { Ok(()) }
    fn visit_literal_expr(&mut self, _ctx: &mut Ctx, _id: LiteralExpressionId) -> VisitorResult { Ok(()) }
    fn visit_call_expr(&mut self, _ctx: &mut Ctx, _id: CallExpressionId) -> VisitorResult { Ok(()) }
    fn visit_variable_expr(&mut self, _ctx: &mut Ctx, _id: VariableExpressionId) -> VisitorResult { Ok(()) }

    // Types
    fn visit_parser_type(&mut self, _ctx: &mut Ctx, _id: ParserTypeId) -> VisitorResult { Ok(()) }
}