org.jetbrains.kotlin.fir.resolve.dfa.FlowPath.kt Maven / Gradle / Ivy
/*
* Copyright 2010-2023 JetBrains s.r.o. and Kotlin Programming Language contributors.
* Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
*/
package org.jetbrains.kotlin.fir.resolve.dfa
import org.jetbrains.kotlin.fir.FirElement
import org.jetbrains.kotlin.fir.resolve.dfa.cfg.EdgeLabel
/**
* Sealed class representing a type of path through a [Control Flow Graph (CFG) Node][org.jetbrains.kotlin.fir.resolve.dfa.cfg.CFGNode] used
* for data flow analysis. Most CFG nodes only have a single data flow path through them, but there are times when a node may require
* multiple paths to be calculated. The most common use case is for `finally` code blocks, where multiple code paths may enter, but these
* paths diverge after exiting the code block. Consider the following (very) contrived example:
*
* ```kotlin
* fun test() {
* var x: Any? = null
* while (true) {
* try {
* x = "" // (1)
* doSomething()
* } catch (e: Exception) {
* x = 1 // (2)
* break // (3)
* } finally {
* x.inc() // (4) Should be error.
* x.length // (5) Should be error.
* }
* x.length // (6) Should be OK.
* }
* x.inc() // (7) Should be OK.
* }
* ```
*
* A few things to note here:
*
* 1. The statement at (1) implies all following code can smartcast `x` to be a `String`.
* 2. The statement at (2) implies all following code can smartcast `x` to be a `Int`.
* 3. The statement at (3) is the only way to exit the infinite `while` loop without throwing an exception.
* 4. Both of the statements at (4) and (5) should be considered errors because it is unknown through which path they will be reached. It is
* possible to reach them only through (1) or after an exception is caught and going through (2).
* 5. The statement at (6) should compile successfully since the only way to reach it is if the `try-catch-finally` expression completes
* without exception, therefore only executing the statement at (1) and ***not*** (2).
* 6. The statement at (7) should compile successfully since the only way to reach it is if an exception is caught and processed by the
* `catch` block, therefore executing the statement at (2).
*
* To achieve this behavior, multiple data flows must be maintained through the `finally` code block for use by each path that comes after.
* In the above example, 3 separate flows must be maintained:
*
* 1. A flow which will be used within the `finally` block itself. This data flow is a combination of all flows which lead into the
* `finally` block.
* 2. A flow which will be used when the entire `try` expression exits by jumping out of the while loop. This data flow is a continuation of
* the data flow leading into the `finally` block from the `break` statement.
* 3. A flow which will be used when the entire `try` expression exits without exception or jumping. This data flow is a continuation of the
* data flow leading into the `finally` block from the main `try` block.
*/
sealed class FlowPath {
/**
* The [FlowPath] which represents the combination of all flows leading into a CFG Node.
*/
data object Default : FlowPath()
/**
* The [FlowPath] which represents the combination of all flows leading into a CFG Node that follow an edge with the specified
* [edge label][EdgeLabel]. The edge label is also combined with an [FIR element][FirElement] as the same edge label can be used for
* multiple flows. For example, a `finally` block within another `finally` block will require multiple
* [normal paths][org.jetbrains.kotlin.fir.resolve.dfa.cfg.NormalPath] through each that diverge at different nodes.
*/
data class CfgEdge(val label: EdgeLabel, val fir: FirElement) : FlowPath()
}
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