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require_relative "environment"
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require_relative "function"
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module Lox
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class Interpreter
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attr_reader :globals
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def initialize(env=Environment.new)
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@globals = env
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@env = @globals
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@locals = {}
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# We do **NOT** want struct equality for getting the depth of a local
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# since we can have multiple locals referencing the same variable in
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# different scopes on a single line.
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@locals.compare_by_identity
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@globals.define("clock", Class.new {
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def arity = 0
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def call(*) = Time.now.to_f
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def to_s = "<native fn>"
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})
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end
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# The book does printing and error catching here, but
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# we're going to do it in the runner instead.
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def interpret(stmts)
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stmts.each do |stmt|
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execute(stmt)
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end
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end
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def evaluate(expr) = expr.accept(self)
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def execute(stmt) = stmt.accept(self)
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def resolve(expr, depth)
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@locals[expr] = depth
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end
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def visit_block(stmt)
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execute_block(stmt.stmts, Environment.new(@env))
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nil
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end
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def execute_block(stmts, env)
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prev_env = @env
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@env = env
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stmts.each do |stmt|
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execute(stmt)
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end
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ensure
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@env = prev_env
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end
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def visit_expr(expr)
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evaluate(expr.expr)
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nil
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end
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def visit_function(stmt)
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function = Function.new(stmt, @env)
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@env.define(stmt.name.lexeme, function)
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nil
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end
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def visit_if(stmt)
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if truthy?(evaluate(stmt.cond))
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evaluate(stmt.then)
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elsif stmt.else
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evaluate(stmt.else)
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end
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nil
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end
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def visit_print(expr)
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puts stringify(evaluate(expr.expr))
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nil
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end
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def visit_return(stmt)
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value = stmt.value ? evaluate(stmt.value) : nil
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throw(:return, value)
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end
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def visit_var(stmt)
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value = stmt.initializer&.yield_self { evaluate(_1) }
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@env.define(stmt.name.lexeme, value)
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nil
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end
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def visit_while(stmt)
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while truthy?(evaluate(stmt.cond))
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execute(stmt.body)
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end
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nil
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end
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def visit_grouping(expr) = evaluate(expr.expr)
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def visit_literal(expr) = expr.value
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def visit_logical(expr)
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left = evaluate(expr.left)
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if expr.op.type == :OR
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return left if truthy?(left)
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else
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return left unless truthy?(left)
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end
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evaluate(expr.right)
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end
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def visit_unary(expr)
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right = evaluate(expr.right)
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case expr.op.type
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when :MINUS
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check_number_operand!(expr.op, right)
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-right
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when :BANG then !truthy?(right)
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else fail
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end
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end
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def visit_variable(expr)
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lookup_var(expr.name, expr)
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end
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def lookup_var(name, expr)
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if @locals.has_key?(expr)
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distance = @locals.fetch(expr)
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@env.get_at(distance, name.lexeme)
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else
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@globals.get(name)
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end
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end
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def visit_assign(expr)
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value = evaluate(expr.value)
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if @locals.has_key?(expr)
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distance = @locals.fetch(expr)
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@env.assign_at(distance, expr.name, value)
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else
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@globals.assign(expr.name, value)
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end
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value
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end
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def visit_binary(expr)
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left = evaluate(expr.left)
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right = evaluate(expr.right)
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case expr.op.type
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when :GREATER
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check_number_operands!(expr.op, left, right)
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left > right
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when :GREATER_EQUAL
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check_number_operands!(expr.op, left, right)
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left >= right
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when :LESS
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check_number_operands!(expr.op, left, right)
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left < right
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when :LESS_EQUAL
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check_number_operands!(expr.op, left, right)
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left <= right
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when :BANG_EQUAL then left != right
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when :EQUAL_EQUAL then left == right
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when :MINUS
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check_number_operands!(expr.op, left, right)
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left - right
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when :PLUS
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unless left.is_a?(Float) && right.is_a?(Float) || left.is_a?(String) && right.is_a?(String)
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raise RuntimeError.new(expr.op, "Operands must be two numbers or two strings.")
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end
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left + right
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when :SLASH
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check_number_operands!(expr.op, left, right)
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left / right
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when :STAR
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check_number_operands!(expr.op, left, right)
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left * right
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else fail
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end
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end
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def visit_call(expr)
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func = evaluate(expr.callee)
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args = expr.args.map { evaluate(_1) }
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raise RuntimeError.new(expr.paren, "Can only call functions and classes.") unless func.respond_to?(:call)
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raise RuntimeError.new(expr.paren, "Expected #{func.arity} arguments but got #{args.size}.") unless args.size == func.arity
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func.call(self, args)
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end
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private
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def truthy?(value) = !!value
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def check_number_operand!(token, operand)
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return if operand.is_a?(Float)
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raise RuntimeError.new(token, "Operand must be a number.")
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end
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def check_number_operands!(token, left, right)
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return if left.is_a?(Float) && right.is_a?(Float)
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raise RuntimeError.new(token, "Operands must be numbers.")
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end
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def stringify(value)
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return "nil" if value.nil?
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return value.to_s.sub(/\.0$/, "") if value.is_a?(Float)
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value.to_s
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end
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end
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end
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