io.shiftleft.codepropertygraph.generated.traversals.TraversalNamespaceBase.scala Maven / Gradle / Ivy
package io.shiftleft.codepropertygraph.generated.traversals
import io.shiftleft.codepropertygraph.generated.nodes
import io.shiftleft.codepropertygraph.generated.accessors.languagebootstrap.*
final class TraversalNamespaceBase[NodeType <: nodes.NamespaceBase](val traversal: Iterator[NodeType]) extends AnyVal {
/** Traverse to name property */
def name: Iterator[String] =
traversal.map(_.name)
/** Traverse to nodes where the name matches the regular expression `value`
*/
def name(pattern: String): Iterator[NodeType] =
if (!flatgraph.misc.Regex.isRegex(pattern)) {
nameExact(pattern)
} else {
val matcher = flatgraph.misc.Regex.multilineMatcher(pattern)
traversal.filter { item => matcher.reset(item.name).matches }
}
/** Traverse to nodes where the name matches at least one of the regular expressions in `values`
*/
def name(patterns: String*): Iterator[NodeType] = {
val matchers = patterns.map(flatgraph.misc.Regex.multilineMatcher)
traversal.filter { item => matchers.exists { _.reset(item.name).matches } }
}
/** Traverse to nodes where name matches `value` exactly.
*/
def nameExact(value: String): Iterator[NodeType] = traversal match {
case init: flatgraph.misc.InitNodeIterator[flatgraph.GNode @unchecked] if init.isVirgin && init.hasNext =>
val someNode = init.next
flatgraph.Accessors
.getWithInverseIndex(someNode.graph, someNode.nodeKind, 39, value)
.asInstanceOf[Iterator[NodeType]]
case _ => traversal.filter { _.name == value }
}
/** Traverse to nodes where name matches one of the elements in `values` exactly.
*/
def nameExact(values: String*): Iterator[NodeType] =
if (values.length == 1) nameExact(values.head)
else {
val valueSet = values.toSet
traversal.filter { item => valueSet.contains(item.name) }
}
/** Traverse to nodes where name does not match the regular expression `value`.
*/
def nameNot(pattern: String): Iterator[NodeType] = {
if (!flatgraph.misc.Regex.isRegex(pattern)) {
traversal.filter { node => node.name != pattern }
} else {
val matcher = flatgraph.misc.Regex.multilineMatcher(pattern)
traversal.filterNot { item => matcher.reset(item.name).matches }
}
}
/** Traverse to nodes where name does not match any of the regular expressions in `values`.
*/
def nameNot(patterns: String*): Iterator[NodeType] = {
val matchers = patterns.map(flatgraph.misc.Regex.multilineMatcher)
traversal.filter { item => matchers.find { _.reset(item.name).matches }.isEmpty }
}
}