358 lines
8.7 KiB
Go
358 lines
8.7 KiB
Go
package evaluator
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import (
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"fmt"
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"code.jmug.me/jmug/interpreter-in-go/pkg/ast"
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"code.jmug.me/jmug/interpreter-in-go/pkg/object"
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)
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var (
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_NULL = &object.Null{}
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_TRUE = &object.Boolean{Value: true}
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_FALSE = &object.Boolean{Value: false}
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)
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func Eval(node ast.Node, env *object.Environment) object.Object {
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switch node := node.(type) {
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// Statements.
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case *ast.Program:
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return evalProgram(node.Statements, env)
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case *ast.ExpressionStatement:
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return Eval(node.Expression, env)
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// Expressions.
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case *ast.IntegerLiteral:
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return &object.Integer{Value: node.Value}
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case *ast.Boolean:
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return nativeBoolToBooleanObject(node.Value)
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case *ast.StringLiteral:
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return &object.String{Value: node.Value}
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case *ast.PrefixExpression:
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right := Eval(node.Right, env)
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if isError(right) {
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return right
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}
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return evalPrefixExpression(node.Operator, right)
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case *ast.InfixExpression:
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left := Eval(node.Left, env)
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if isError(left) {
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return left
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}
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right := Eval(node.Right, env)
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if isError(right) {
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return right
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}
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return evalInfixExpression(node.Operator, left, right)
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case *ast.BlockStatement:
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return evalBlockStatement(node.Statements, env)
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case *ast.IfExpression:
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return evalIfExpression(node, env)
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case *ast.ReturnStatement:
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ret := Eval(node.ReturnValue, env)
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if isError(ret) {
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return ret
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}
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return &object.ReturnValue{Value: ret}
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case *ast.LetStatement:
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val := Eval(node.Value, env)
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if isError(val) {
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return val
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}
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env.Set(node.Name.Value, val)
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case *ast.Identifier:
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return evalIdentifier(node, env)
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case *ast.FunctionLiteral:
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params := node.Parameters
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body := node.Body
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return &object.Function{Parameters: params, Body: body, Env: env}
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case *ast.CallExpression:
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fn := Eval(node.Function, env)
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if isError(fn) {
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return fn
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}
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args := evalExpressions(node.Arguments, env)
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if len(args) == 1 && isError(args[0]) {
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return args[0]
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}
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return applyFunction(fn, args)
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case *ast.ArrayLiteral:
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els := evalExpressions(node.Elements, env)
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if len(els) == 1 && isError(els[0]) {
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return els[0]
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}
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return &object.Array{Elements: els}
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case *ast.IndexExpression:
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left := Eval(node.Left, env)
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if isError(left) {
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return left
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}
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index := Eval(node.Index, env)
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if isError(index) {
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return index
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}
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return evalIndexExpression(left, index)
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case *ast.HashLiteral:
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return evalHashLiteral(node, env)
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}
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return nil
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}
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func evalProgram(stmts []ast.Statement, env *object.Environment) object.Object {
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var res object.Object
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for _, stmt := range stmts {
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res = Eval(stmt, env)
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switch res := res.(type) {
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case *object.ReturnValue:
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return res.Value
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case *object.Error:
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return res
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}
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}
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return res
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}
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func evalBlockStatement(stmts []ast.Statement, env *object.Environment) object.Object {
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var res object.Object
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for _, stmt := range stmts {
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res = Eval(stmt, env)
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if res != nil && (res.Type() == object.RETURN_VALUE_OBJ || res.Type() == object.ERROR_OBJ) {
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return res
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}
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}
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return res
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}
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func evalPrefixExpression(op string, right object.Object) object.Object {
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switch op {
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case "!":
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return evalBangOperatorExpression(right)
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case "-":
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return evalMinusPrefixOperatorExpression(right)
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default:
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return newError("unknown operator: %s%s", op, right.Type())
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}
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}
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func evalBangOperatorExpression(obj object.Object) object.Object {
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switch obj {
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case _TRUE:
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return _FALSE
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case _FALSE:
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return _TRUE
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case _NULL:
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return _TRUE
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default:
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return _FALSE
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}
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}
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func evalMinusPrefixOperatorExpression(obj object.Object) object.Object {
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if obj.Type() != object.INTEGER_OBJ {
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return newError("unknown operator: -%s", obj.Type())
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}
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val := obj.(*object.Integer).Value
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return &object.Integer{Value: -val}
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}
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func evalInfixExpression(op string, left, right object.Object) object.Object {
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switch {
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case left.Type() == object.INTEGER_OBJ && right.Type() == object.INTEGER_OBJ:
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return evalIntegerInfixExpression(op, left, right)
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case left.Type() == object.STRING_OBJ && right.Type() == object.STRING_OBJ:
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return evalStringInfixExpression(op, left, right)
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case op == "==":
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return nativeBoolToBooleanObject(left == right)
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case op == "!=":
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return nativeBoolToBooleanObject(left != right)
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case left.Type() != right.Type():
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return newError("type mismatch: %s %s %s",
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left.Type(), op, right.Type())
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default:
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return newError("unknown operator: %s %s %s",
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left.Type(), op, right.Type())
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}
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}
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func evalIntegerInfixExpression(op string, left, right object.Object) object.Object {
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l := left.(*object.Integer).Value
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r := right.(*object.Integer).Value
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switch op {
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case "+":
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return &object.Integer{Value: l + r}
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case "-":
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return &object.Integer{Value: l - r}
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case "*":
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return &object.Integer{Value: l * r}
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case "/":
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return &object.Integer{Value: l / r}
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case "<":
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return nativeBoolToBooleanObject(l < r)
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case ">":
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return nativeBoolToBooleanObject(l > r)
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case "==":
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return nativeBoolToBooleanObject(l == r)
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case "!=":
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return nativeBoolToBooleanObject(l != r)
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default:
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return newError("unknown operator: %s %s %s",
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left.Type(), op, right.Type())
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}
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}
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func evalStringInfixExpression(op string, left, right object.Object) object.Object {
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if op != "+" {
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return newError(
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"unknown operator: %s %s %s",
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left.Type(), op, right.Type(),
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)
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}
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l := left.(*object.String).Value
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r := right.(*object.String).Value
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return &object.String{Value: l + r}
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}
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func evalIfExpression(ifExp *ast.IfExpression, env *object.Environment) object.Object {
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cond := Eval(ifExp.Condition, env)
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if isError(cond) {
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return cond
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}
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if isTruthy(cond) {
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return Eval(ifExp.Consequence, env)
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} else if ifExp.Alternative != nil {
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return Eval(ifExp.Alternative, env)
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}
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return _NULL
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}
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func evalIdentifier(exp *ast.Identifier, env *object.Environment) object.Object {
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if val, ok := env.Get(exp.Value); ok {
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return val
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}
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if val, ok := builtins[exp.Value]; ok {
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return val
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}
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return newError("identifier not found: " + exp.Value)
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}
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func evalExpressions(
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exps []ast.Expression,
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env *object.Environment,
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) []object.Object {
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var res []object.Object
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for _, exp := range exps {
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ev := Eval(exp, env)
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if isError(ev) {
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return []object.Object{ev}
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}
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res = append(res, ev)
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}
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return res
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}
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func evalIndexExpression(left, index object.Object) object.Object {
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switch {
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case left.Type() == object.ARRAY_OBJ && index.Type() == object.INTEGER_OBJ:
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return evalArrayIndexExpression(left, index)
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case left.Type() == object.HASH_OBJ:
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return evalHashIndexExpression(left, index)
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default:
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return newError("index operator not supported: %s", left.Type())
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}
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}
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func evalArrayIndexExpression(arrayObj, indexObj object.Object) object.Object {
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array := arrayObj.(*object.Array).Elements
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index := indexObj.(*object.Integer).Value
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if index < 0 || index >= int64(len(array)) {
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return _NULL
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}
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return array[index]
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}
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func evalHashIndexExpression(hashObj, index object.Object) object.Object {
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hash := hashObj.(*object.Hash)
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hashable, okHash := index.(object.Hashable)
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if !okHash {
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return newError("unusable as hash key: %s", index.Type())
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}
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pair, okPair := hash.Pairs[hashable.HashKey()]
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if !okPair {
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return _NULL
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}
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return pair.Value
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}
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func evalHashLiteral(hash *ast.HashLiteral, env *object.Environment) object.Object {
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pairs := map[object.HashKey]object.HashPair{}
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for ke, ve := range hash.Pairs {
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k := Eval(ke, env)
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if isError(k) {
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return k
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}
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hashable, ok := k.(object.Hashable)
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if !ok {
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return newError("unusable as hash key: %s", k.Type())
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}
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v := Eval(ve, env)
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if isError(v) {
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return v
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}
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hashKey := hashable.HashKey()
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pairs[hashKey] = object.HashPair{Key: k, Value: v}
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}
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return &object.Hash{Pairs: pairs}
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}
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func applyFunction(fnObj object.Object, args []object.Object) object.Object {
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switch fn := fnObj.(type) {
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case *object.Function:
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env := extendFunctionEnv(fn, args)
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ret := Eval(fn.Body, env)
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return unwrapReturnValue(ret)
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case *object.Builtin:
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return fn.Fn(args...)
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}
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return newError("not a function: %s", fnObj.Type())
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}
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func extendFunctionEnv(fn *object.Function, args []object.Object) *object.Environment {
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env := object.NewEnclosedEnvironment(fn.Env)
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for pi, param := range fn.Parameters {
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env.Set(param.Value, args[pi])
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}
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return env
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}
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func unwrapReturnValue(obj object.Object) object.Object {
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if ret, ok := obj.(*object.ReturnValue); ok {
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return ret.Value
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}
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return obj
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}
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func isTruthy(obj object.Object) bool {
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switch obj {
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case _TRUE:
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return true
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case _FALSE:
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return false
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case _NULL:
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return false
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}
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return true
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}
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func nativeBoolToBooleanObject(b bool) object.Object {
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if b {
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return _TRUE
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}
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return _FALSE
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}
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func newError(format string, a ...any) *object.Error {
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return &object.Error{Message: fmt.Sprintf(format, a...)}
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}
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func isError(obj object.Object) bool {
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return obj != nil && obj.Type() == object.ERROR_OBJ
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}
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