#include "Evaluator.hpp"
#include "EvaluationException.hpp"
#include "../Script.hpp"

void Evaluator::Evaluate(BoundScriptStatement *statement) {
    EvaluateBlockStatement(statement);
}

void Evaluator::EvaluateStatement(BoundStatement *statement) {
    switch (statement->GetKind()){
        case BoundStatementKind ::Script: throw; // Should never happen
        case BoundStatementKind ::Block: return this -> EvaluateBlockStatement((BoundBlockStatement*)statement);
        case BoundStatementKind ::Expression: return this -> EvaluateExpressionStatement((BoundExpressionStatement*)statement);
    }
}

void Evaluator::EvaluateBlockStatement(BoundBlockStatement* statement) {
    for (auto s: statement->GetStatements()){
        this -> EvaluateStatement(s);
    }
}

void Evaluator::EvaluateExpressionStatement(BoundExpressionStatement *statement) {
    this->_scriptData->_lastValue = this -> EvaluateExpression(statement->GetExpression());
}

any *Evaluator::EvaluateExpression(BoundExpression *expression) {
    auto type = expression -> GetType();
    switch (type->GetClass()){
        case TypeClass ::Number:
        {
            auto numType = (NumericScriptType*)type;
            if (numType->IsAwareOfFloat()){
                if (numType->IsFloat()){
                    double d = this -> EvaluateFloatExpression(expression);
                    return new boost::any(d);
                } else{
                    long l = this -> EvaluateIntegerExpression(expression);
                    return new boost::any(l);
                }
            }
            break;
        }
    }
}

long Evaluator::EvaluateIntegerExpression(BoundExpression *expression) {
    auto exprType = expression->GetType();
    if (exprType->GetClass() != TypeClass::Number){
        throw EvaluationException("Can't evaluate expression as integer, it will not return a number.");
    }
    auto numType = (NumericScriptType*)exprType;
    if (numType->IsAwareOfFloat() && numType->IsFloat()){
        throw EvaluationException("Can't evaluate expression as integer, it will return a float, not an integer.");
    }
    switch (expression->GetKind()){
        case BoundExpressionKind ::LiteralInteger: return ((BoundLiteralIntegerExpression*)expression)->GetValue();
        case BoundExpressionKind ::Binary: return this -> EvaluateIntegerBinary((BoundBinaryExpression*)expression);

        case BoundExpressionKind ::LiteralFloat:
        case BoundExpressionKind ::LiteralString:
        case BoundExpressionKind ::LiteralBool:
        case BoundExpressionKind ::Bad:
            throw;
    }
}

double Evaluator::EvaluateFloatExpression(BoundExpression *expression) {
    auto exprType = expression->GetType();
    if (exprType->GetClass() != TypeClass::Number){
        throw EvaluationException("Can't evaluate expression as float, it will not return a number.");
    }
    auto numType = (NumericScriptType*)exprType;
    if (numType->IsAwareOfFloat() && !numType->IsFloat()){
        throw EvaluationException("Can't evaluate expression as integer, it will return an integer, not a float.");
    }
    switch (expression->GetKind()){
        case BoundExpressionKind ::LiteralFloat: return ((BoundLiteralFloatExpression*)expression)->GetValue();
        case BoundExpressionKind ::Binary: return this -> EvaluateFloatBinary((BoundBinaryExpression*)expression);

        case BoundExpressionKind ::LiteralInteger:
        case BoundExpressionKind ::LiteralString:
        case BoundExpressionKind ::LiteralBool:
        case BoundExpressionKind ::Bad:
            throw;
    }
}

bool Evaluator::EvaluateBoolExpression(BoundExpression *expression) {
    return false;
}

std::string Evaluator::EvaluateStringExpression(BoundExpression *expression) {
    return std::__cxx11::string();
}