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package bjc.dicelang.v1.ast.optimization;
import bjc.dicelang.v1.ComplexDice;
import bjc.dicelang.v1.ast.DiceASTUtils;
import bjc.dicelang.v1.ast.nodes.IDiceASTNode;
import bjc.dicelang.v1.ast.nodes.IntegerLiteralNode;
import bjc.dicelang.v1.ast.nodes.OperatorDiceNode;
import bjc.utils.data.ITree;
import bjc.utils.data.Tree;
import bjc.utils.funcdata.IList;
/**
* Collapses operations with constants to constants
*
* @author ben
*
*/
public class ConstantCollapser implements IOptimizationPass {
private static final ArithmeticCollapser additionCollapser = new ArithmeticCollapser(
(left, right) -> left + right, OperatorDiceNode.ADD);
private static final ArithmeticCollapser divideCollapser = new ArithmeticCollapser(
(left, right) -> left / right, OperatorDiceNode.DIVIDE);
private static final ArithmeticCollapser multiplyCollapser = new ArithmeticCollapser(
(left, right) -> left * right, OperatorDiceNode.MULTIPLY);
private static final ArithmeticCollapser subtractCollapser = new ArithmeticCollapser(
(left, right) -> left - right, OperatorDiceNode.SUBTRACT);
private static final ArithmeticCollapser compoundCollapser = new ArithmeticCollapser(
(left, right) -> Integer.parseInt(Integer.toString(left) + Integer.toString(left)),
OperatorDiceNode.COMPOUND);
@Override
public ITree<IDiceASTNode> optimizeLeaf(IDiceASTNode leafNode) {
// We don't do anything special here
return new Tree<>(leafNode);
}
@Override
public ITree<IDiceASTNode> optimizeOperator(IDiceASTNode operator, IList<ITree<IDiceASTNode>> children) {
if(!operator.isOperator()) return new Tree<>(operator, children);
switch((OperatorDiceNode) operator) {
case ADD:
return additionCollapser.collapse(children);
case DIVIDE:
return divideCollapser.collapse(children);
case MULTIPLY:
return multiplyCollapser.collapse(children);
case SUBTRACT:
return subtractCollapser.collapse(children);
case COMPOUND:
return compoundCollapser.collapse(children);
case GROUP:
if(children.getSize() != 2) return new Tree<>(operator, children);
ComplexDice dice = new ComplexDice(DiceASTUtils.literalToExpression(children.getByIndex(0)),
DiceASTUtils.literalToExpression(children.getByIndex(1)));
if(dice.canOptimize()) return new Tree<>(new IntegerLiteralNode(dice.optimize()));
return new Tree<>(operator, children);
case ARRAY:
if(children.getSize() != 1) return new Tree<>(operator, children);
return children.first();
case ASSIGN:
case LET:
default:
// We don't optimize these operators
return new Tree<>(operator, children);
}
}
}
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