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package org.checkerframework.common.value;
import java.util.LinkedHashSet;
import java.util.Set;
import org.checkerframework.common.basetype.BaseTypeChecker;
import org.checkerframework.common.basetype.BaseTypeVisitor;
import org.checkerframework.common.value.util.Range;
import org.checkerframework.framework.source.SupportedOptions;
/**
* The Constant Value Checker is a constant propagation analysis: for each variable, it determines
* whether that variable's value can be known at compile time.
*
* The Constant Value Checker has no dependencies, but it does trust {@code
* org.checkerframework.checker.index.qual.Positive} annotations from the Index Checker. This means
* that if the Value Checker is run on code containing {@code Positive} annotations, then the Index
* Checker also needs to be run to guarantee soundness.
*
* @checker_framework.manual #constant-value-checker Constant Value Checker
*/
@SupportedOptions({
ValueChecker.REPORT_EVAL_WARNS,
ValueChecker.IGNORE_RANGE_OVERFLOW,
ValueChecker.NON_NULL_STRINGS_CONCATENATION
})
public class ValueChecker extends BaseTypeChecker {
/**
* Command-line option to warn the user if a @StaticallyExecutable method can't load and run at
* compile time.
*/
public static final String REPORT_EVAL_WARNS = "reportEvalWarns";
/** Command-line option to ignore the possibility of overflow for range annotations. */
public static final String IGNORE_RANGE_OVERFLOW = "ignoreRangeOverflow";
/** Command-line option that assumes most expressions in String concatenations can be null. */
public static final String NON_NULL_STRINGS_CONCATENATION = "nonNullStringsConcatenation";
@Override
protected BaseTypeVisitor> createSourceVisitor() {
return new ValueVisitor(this);
}
@Override
protected Set> getImmediateSubcheckerClasses() {
// Don't call super otherwise MethodVal will be added as a subChecker
// which creates a circular dependency.
return new LinkedHashSet<>(0);
}
@Override
public boolean shouldResolveReflection() {
// Because this checker is a subchecker of MethodVal,
// reflection can't be resolved.
return false;
}
@Override
public void typeProcessingOver() {
// Reset ignore overflow.
Range.ignoreOverflow = false;
super.typeProcessingOver();
}
}