package org.springframework.expression.spel.ast;
import org.springframework.asm.Label;
import org.springframework.asm.MethodVisitor;
import org.springframework.expression.EvaluationException;
import org.springframework.expression.TypedValue;
import org.springframework.expression.spel.CodeFlow;
import org.springframework.expression.spel.ExpressionState;
import org.springframework.expression.spel.SpelEvaluationException;
import org.springframework.expression.spel.SpelMessage;
import org.springframework.util.Assert;
import org.springframework.util.ObjectUtils;
public class Ternary extends SpelNodeImpl {
public Ternary(int pos, SpelNodeImpl... args) {
super(pos, args);
}
@Override
public TypedValue getValueInternal(ExpressionState state) throws EvaluationException {
Boolean value = this.children[0].getValue(state, Boolean.class);
if (value == null) {
throw new SpelEvaluationException(getChild(0).getStartPosition(),
SpelMessage.TYPE_CONVERSION_ERROR, "null", "boolean");
}
TypedValue result = this.children[value ? 1 : 2].getValueInternal(state);
computeExitTypeDescriptor();
return result;
}
@Override
public String toStringAST() {
return getChild(0).toStringAST() + " ? " + getChild(1).toStringAST() + " : " + getChild(2).toStringAST();
}
private void computeExitTypeDescriptor() {
if (this.exitTypeDescriptor == null && this.children[1].exitTypeDescriptor != null &&
this.children[2].exitTypeDescriptor != null) {
String leftDescriptor = this.children[1].exitTypeDescriptor;
String rightDescriptor = this.children[2].exitTypeDescriptor;
if (ObjectUtils.nullSafeEquals(leftDescriptor, rightDescriptor)) {
this.exitTypeDescriptor = leftDescriptor;
}
else {
this.exitTypeDescriptor = "Ljava/lang/Object";
}
}
}
@Override
public boolean isCompilable() {
SpelNodeImpl condition = this.children[0];
SpelNodeImpl left = this.children[1];
SpelNodeImpl right = this.children[2];
return (condition.isCompilable() && left.isCompilable() && right.isCompilable() &&
CodeFlow.isBooleanCompatible(condition.exitTypeDescriptor) &&
left.exitTypeDescriptor != null && right.exitTypeDescriptor != null);
}
@Override
public void generateCode(MethodVisitor mv, CodeFlow cf) {
computeExitTypeDescriptor();
cf.enterCompilationScope();
this.children[0].generateCode(mv, cf);
String lastDesc = cf.lastDescriptor();
Assert.state(lastDesc != null, "No last descriptor");
if (!CodeFlow.isPrimitive(lastDesc)) {
CodeFlow.insertUnboxInsns(mv, 'Z', lastDesc);
}
cf.exitCompilationScope();
Label elseTarget = new Label();
Label endOfIf = new Label();
mv.visitJumpInsn(IFEQ, elseTarget);
cf.enterCompilationScope();
this.children[1].generateCode(mv, cf);
if (!CodeFlow.isPrimitive(this.exitTypeDescriptor)) {
lastDesc = cf.lastDescriptor();
Assert.state(lastDesc != null, "No last descriptor");
CodeFlow.insertBoxIfNecessary(mv, lastDesc.charAt(0));
}
cf.exitCompilationScope();
mv.visitJumpInsn(GOTO, endOfIf);
mv.visitLabel(elseTarget);
cf.enterCompilationScope();
this.children[2].generateCode(mv, cf);
if (!CodeFlow.isPrimitive(this.exitTypeDescriptor)) {
lastDesc = cf.lastDescriptor();
Assert.state(lastDesc != null, "No last descriptor");
CodeFlow.insertBoxIfNecessary(mv, lastDesc.charAt(0));
}
cf.exitCompilationScope();
mv.visitLabel(endOfIf);
cf.pushDescriptor(this.exitTypeDescriptor);
}
}