feat: add runnable :samples module (#47 )

* build: scaffold :samples module (issue #37) * feat: add runnable, verified examples to :samples (issue #37) * ci,docs: run :samples in CI and document ./gradlew :samples:run (issue #37)
test: property-based tests for traversal & structural invariants (#38 ) (#46 )
2026-06-20 03:10:14 +02:00 · 2026-06-08 13:59:16 +02:00 · 2026-06-08 13:29:30 +02:00 · 2026-06-08 08:55:04 +02:00 · 2026-06-08 08:53:12 +02:00
10 changed files with 676 additions and 78 deletions
--- a/.github/workflows/test.yml
+++ b/.github/workflows/test.yml
@@ -23,7 +23,7 @@ jobs:
        include:
          - name: JVM / JS / Wasm / Native + API check
            os: ubuntu-latest
-            tasks: jvmTest jsNodeTest wasmJsNodeTest nativeTest apiCheck
+            tasks: jvmTest jsNodeTest wasmJsNodeTest nativeTest apiCheck :samples:test :samples:run
          - name: iOS
            os: macos-latest
            tasks: iosSimulatorArm64Test
--- a/.gitignore
+++ b/.gitignore
@@ -19,3 +19,6 @@ build/
 /.idea/jarRepositories.xml
 /.idea/deploymentTargetDropDown.xml
 /.idea/
 # Local superpowers working docs (design specs, plans) — not part of the repo
 docs/superpowers/
--- a/README.md
+++ b/README.md
@@ -213,6 +213,15 @@ val bigger = root.addChild(ImmutableTreeNode("Asia")) // root is unchanged; bigg
 bigger.preOrder().forEach { println(it.value) } // pre/post/level-order, nodeCount(), height()
 ```
 ## Examples
 A runnable `:samples` module bundles compile-checked, assertion-verified examples of the core API
 and the serialization, coroutines, and immutable modules. Run them with:
 ```
 ./gradlew :samples:run
 ```
 ## Notes
 `TreeNode` is mutable and not thread-safe. Add your own synchronization if you share a tree across
--- a/build.gradle.kts
+++ b/build.gradle.kts
@@ -59,6 +59,11 @@ repositories {
    mavenCentral()
 }
 apiValidation {
    // :samples is a dev-facing examples module, not a published artifact, so it has no .api dump.
    ignoredProjects.add("samples")
 }
 dependencies {
    // Include this module's own docs in the aggregation — DGP v2 requires the
    // aggregating project to list itself explicitly.
--- a/docs/superpowers/specs/2026-06-07-tree-enhancements-design.md
+++ b/docs/superpowers/specs/2026-06-07-tree-enhancements-design.md
@@ -1,77 +0,0 @@
 # Design — four additive enhancements to `tree-structure` (target 4.1.0)
 Date: 2026-06-07. Source issues: #34, #35, #36, #33. Integration: **four separate PRs**,
 one per issue (`Closes #NN`), matching the repo's per-issue PR convention (#32).
 ## Shared rules (every issue)
 - `explicitApi()` is on everywhere → every new public declaration is `public` with KDoc.
 - New tests live in `commonTest`, use `kotlin("test")`, and mirror the existing test style
  (`TreeNodeV4Test.kt`, `TreeNodeNavigationTest.kt`, …).
 - Add a bullet to `CHANGELOG.md` under `## [Unreleased]` → `### Added` (do **not** bump
  `PUBLISH_VERSION`; releases are a separate manual step).
 - Regenerate the binary-compatibility baseline with `./gradlew apiDump`; verify with `apiCheck`.
 - Do not modify the core public surface in a breaking way — these are additive only.
 ## #34 — Structural mutation helpers → **members on `TreeNode`**
 Members (not extensions) because they need the private `_children`/`_parent` and the cycle/parent
 validation.
 - Extract the existing inline validation from `addChild` into a private
  `validateAttachable(child)` and reuse it.
 - `insertChild(index: Int, child)` — validated insert at index (bounds `0.._children.size`).
 - `removeChildAt(index: Int): TreeNode<T>` — remove and return the detached child.
 - `replaceChild(index: Int, child): TreeNode<T>` — swap, return the old (now detached) child.
 - `moveChild(child, toIndex): Boolean` — reorder an existing direct child; no re-parent/cycle
  check needed (it is already a child); `false` if `child` is not a direct child.
 - `addChildren(vararg children)` — validated append of several (per-child `addChild` semantics).
 - `sortChildren(comparator: Comparator<TreeNode<T>>)` — stable in-place reorder.
 ## #35 — Query algorithms → **extensions** in new `TreeNodeQueryExt.kt`
 Built on the public API (`ancestors()`, `parent`, `depth()`, sequences). Return `null` when the
 two nodes are unrelated (different trees).
 - `lowestCommonAncestor(other): TreeNode<T>?` — deepest common node; includes self/other as
  candidates (`LCA(a, a) == a`, `LCA(a, descendantOfA) == a`).
 - `distance(other): Int?` — `depth(this) + depth(other) - 2 * depth(lca)`.
 - `pathBetween(other): List<TreeNode<T>>?` — `[this … lca … other]`.
 - `contains(value): Boolean` — value search over the subtree, including the receiver.
 Document complexity (parent-walk based; O(depth) for LCA/distance, O(n) for `contains`).
 ## #36 — Customizable `prettyString()` → **extension** in new `TreeNodePrettyPrintExt.kt`
 - `data class TreeConnectors(branch, lastBranch, vertical, empty)` with a `companion`:
  `Default` (current Unicode box-drawing) and `Ascii`.
 - `fun TreeNode<T>.prettyString(connectors = TreeConnectors.Default,
  render: (value: T, depth: Int, isLast: Boolean) -> String = { v, _, _ -> v.toString() }): String`.
 - The no-arg member `prettyString()` is unchanged; member resolution wins for `node.prettyString()`,
  so existing behaviour and output are byte-for-byte identical.
 ## #33 — Immutable variant → **new module `:tree-structure-immutable`**
 Largest item; fully isolated from the other three except for `settings.gradle.kts`,
 `libs.versions.toml`, the root `build.gradle.kts` Dokka aggregation block, and `CHANGELOG.md`.
 - `settings.gradle.kts`: `include(":tree-structure-immutable")`.
 - New `build.gradle.kts` mirroring the serialization module's KMP target matrix; deps
  `api(project(":"))` + `kotlinx-collections-immutable`.
 - `libs.versions.toml`: add `kotlinx-collections-immutable` (a recent stable, e.g. 0.3.8) and
  wire it.
 - Root `build.gradle.kts`: add `dokka(project(":tree-structure-immutable"))` to the aggregation.
 - `ImmutableTreeNode<T>` backed by `persistentListOf` children; `addChild` / `removeChild` /
  `mapValues` return a new root with unchanged subtrees structurally shared. Mirror pre/post/
  level-order traversal helpers.
 - Its own `tree-structure-immutable/api/` baseline via `apiDump`.
 ## Orchestration
 - Four git worktrees off `origin/master`, one branch each (`feat/...`), for full isolation — no
  collisions on `TreeNode.kt`, `api/*.api`, or `CHANGELOG.md`.
 - A workflow pipelines each issue: implement (code + KDoc + tests + CHANGELOG + `apiDump`) and
  verify locally (`jvmTest` + `apiCheck`), then an adversarial reviewer checks issue-conformance,
  test quality, invariants, explicit API, `.api` freshness, and that it builds. Local checks are
  JVM-only for speed; CI validates the full KMP matrix on each PR.
 - Then push each passing branch and open a PR (`Closes #NN`); remove the worktrees afterward.
--- a/samples/build.gradle.kts
+++ b/samples/build.gradle.kts
@@ -0,0 +1,35 @@
 plugins {
    // No version: the Kotlin Gradle plugin is already on the build classpath via the root
    // project's kotlinMultiplatform plugin, so requesting a version here would clash.
    kotlin("jvm")
    application
 }
 kotlin {
    jvmToolchain(21)
 }
 application {
    mainClass.set("com.github.adriankuta.samples.SamplesKt")
 }
 repositories {
    mavenCentral()
 }
 dependencies {
    implementation(project(":"))
    implementation(project(":tree-structure-serialization"))
    implementation(project(":tree-structure-coroutines"))
    implementation(project(":tree-structure-immutable"))
    // ImmutableTreeNode.children returns a PersistentList, so consumers that touch it need
    // kotlinx.collections.immutable on their own classpath (the module declares it as implementation).
    implementation(libs.kotlinx.collections.immutable)
    testImplementation(kotlin("test"))
 }
 // kotlin("test") auto-selects the JUnit 5 adapter when the test task uses the JUnit Platform.
 tasks.test {
    useJUnitPlatform()
 }
--- a/samples/src/main/kotlin/com/github/adriankuta/samples/Samples.kt
+++ b/samples/src/main/kotlin/com/github/adriankuta/samples/Samples.kt
@@ -0,0 +1,121 @@
 package com.github.adriankuta.samples
 import com.github.adriankuta.datastructure.tree.TreeNode
 import com.github.adriankuta.datastructure.tree.ancestors
 import com.github.adriankuta.datastructure.tree.anyNode
 import com.github.adriankuta.datastructure.tree.countNodes
 import com.github.adriankuta.datastructure.tree.deepCopy
 import com.github.adriankuta.datastructure.tree.distance
 import com.github.adriankuta.datastructure.tree.filterNodes
 import com.github.adriankuta.datastructure.tree.findNode
 import com.github.adriankuta.datastructure.tree.isLeaf
 import com.github.adriankuta.datastructure.tree.leaves
 import com.github.adriankuta.datastructure.tree.levelOrderSequence
 import com.github.adriankuta.datastructure.tree.lowestCommonAncestor
 import com.github.adriankuta.datastructure.tree.mapValues
 import com.github.adriankuta.datastructure.tree.pathBetween
 import com.github.adriankuta.datastructure.tree.preOrderSequence
 import com.github.adriankuta.datastructure.tree.structurallyEquals
 import com.github.adriankuta.datastructure.tree.tree
 import com.github.adriankuta.datastructure.tree.coroutines.asFlow
 import com.github.adriankuta.datastructure.tree.coroutines.preOrderFlow
 import com.github.adriankuta.datastructure.tree.immutable.ImmutableTreeNode
 import com.github.adriankuta.datastructure.tree.immutable.preOrder
 import com.github.adriankuta.datastructure.tree.iterators.TreeNodeIterators
 import com.github.adriankuta.datastructure.tree.serialization.TreeNodeDto
 import com.github.adriankuta.datastructure.tree.serialization.toDto
 import com.github.adriankuta.datastructure.tree.serialization.toTreeNode
 import kotlinx.coroutines.flow.map
 import kotlinx.coroutines.flow.toList
 import kotlinx.coroutines.runBlocking
 import kotlinx.serialization.decodeFromString
 import kotlinx.serialization.encodeToString
 import kotlinx.serialization.json.Json
 private fun sampleTree(): TreeNode<String> = tree("World") {
    child("North America") {
        child("USA")
    }
    child("Europe") {
        child("Poland")
        child("Germany")
    }
 }
 /** Core API: DSL, pretty-print, traversal, navigation, functional, query, utilities, mutation. */
 fun coreSample(): String = buildString {
    val root = sampleTree()
    appendLine("prettyString():")
    append(root.prettyString())
    appendLine()
    appendLine("pre-order:   " + root.preOrderSequence().map { it.value }.toList())
    appendLine("level-order: " + root.levelOrderSequence().map { it.value }.toList())
    val usa = root.findNode { it == "USA" }!!
    val poland = root.findNode { it == "Poland" }!!
    appendLine("usa.depth():       " + usa.depth())
    appendLine("usa.ancestors():   " + usa.ancestors().map { it.value })
    appendLine("root.leaves():     " + root.leaves().map { it.value })
    appendLine("usa.isLeaf:        " + usa.isLeaf)
    appendLine("anyNode == Poland: " + root.anyNode { it == "Poland" })
    appendLine("filterNodes len>5: " + root.filterNodes { it.length > 5 }.map { it.value })
    appendLine("countNodes 'U*':   " + root.countNodes { it.startsWith("U") })
    appendLine("mapValues length:  " + root.mapValues { it.length }.preOrderSequence().map { it.value }.toList())
    appendLine("deepCopy equals:   " + root.structurallyEquals(root.deepCopy()))
    appendLine("lowestCommonAncestor(USA, Poland): " + usa.lowestCommonAncestor(poland)?.value)
    appendLine("pathBetween(USA, Poland):          " + usa.pathBetween(poland)?.map { it.value })
    appendLine("distance(USA, Poland):             " + usa.distance(poland))
    appendLine("nodeCount(): " + root.nodeCount())
    appendLine("height():    " + root.height())
    appendLine("path(USA):   " + root.path(usa)?.map { it.value })
    // Mutation on a copy; the shared sampleTree() stays untouched.
    val mutable = root.deepCopy()
    mutable.addChild(TreeNode("Asia"))
    mutable.findNode { it == "Germany" }?.detach()
    appendLine("after addChild(Asia) + detach(Germany): " + mutable.preOrderSequence().map { it.value }.toList())
 }
 /** Serialization satellite: TreeNode -> TreeNodeDto -> JSON -> TreeNodeDto -> TreeNode round-trip. */
 fun serializationSample(): String = buildString {
    val root = sampleTree()
    val json = Json.encodeToString(root.toDto())
    appendLine("JSON: $json")
    val restored = Json.decodeFromString<TreeNodeDto<String>>(json).toTreeNode()
    appendLine("round-trips structurallyEquals: " + root.structurallyEquals(restored))
 }
 /** Coroutines satellite: traverse the tree as a cold Flow. */
 fun coroutinesSample(): String = buildString {
    val root = sampleTree()
    val preOrder = runBlocking { root.preOrderFlow().map { it.value }.toList() }
    val levelOrder = runBlocking { root.asFlow(TreeNodeIterators.LevelOrder).map { it.value }.toList() }
    appendLine("preOrderFlow():     $preOrder")
    appendLine("asFlow(LevelOrder): $levelOrder")
 }
 /** Immutable satellite: persistent tree; every op returns a new root, leaving the original intact. */
 fun immutableSample(): String = buildString {
    val root = ImmutableTreeNode("World").addChild(ImmutableTreeNode("Europe"))
    val bigger = root.addChild(ImmutableTreeNode("Asia"))
    appendLine("root.children:   " + root.children.map { it.value })
    appendLine("bigger.children: " + bigger.children.map { it.value })
    appendLine("root unchanged:  " + (root.children.size == 1))
    appendLine("bigger.mapValues uppercase preOrder: " + bigger.mapValues { it.uppercase() }.preOrder().map { it.value })
 }
 fun main() {
    println("== Core ==")
    println(coreSample())
    println("== Serialization ==")
    println(serializationSample())
    println("== Coroutines ==")
    println(coroutinesSample())
    println("== Immutable ==")
    println(immutableSample())
 }
--- a/samples/src/test/kotlin/com/github/adriankuta/samples/SamplesTest.kt
+++ b/samples/src/test/kotlin/com/github/adriankuta/samples/SamplesTest.kt
@@ -0,0 +1,46 @@
 package com.github.adriankuta.samples
 import kotlin.test.Test
 import kotlin.test.assertContains
 class SamplesTest {
    @Test
    fun coreSampleRendersTreeAndTraversals() {
        val out = coreSample()
        assertContains(
            out,
            "World\n" +
                "├── North America\n" +
                "│   └── USA\n" +
                "└── Europe\n" +
                "    ├── Poland\n" +
                "    └── Germany\n",
        )
        assertContains(out, "[World, North America, USA, Europe, Poland, Germany]")
        assertContains(out, "[North America, World]") // usa.ancestors()
        assertContains(out, "[USA, Poland, Germany]") // root.leaves()
    }
    @Test
    fun serializationSampleRoundTrips() {
        val out = serializationSample()
        assertContains(out, "\"World\"")
        assertContains(out, "round-trips structurallyEquals: true")
    }
    @Test
    fun coroutinesSampleCollectsFlows() {
        val out = coroutinesSample()
        assertContains(out, "preOrderFlow():     [World, North America, USA, Europe, Poland, Germany]")
        assertContains(out, "asFlow(LevelOrder): [World, North America, Europe, USA, Poland, Germany]")
    }
    @Test
    fun immutableSampleLeavesRootUnchanged() {
        val out = immutableSample()
        assertContains(out, "root.children:   [Europe]")
        assertContains(out, "bigger.children: [Europe, Asia]")
        assertContains(out, "root unchanged:  true")
    }
 }
--- a/settings.gradle.kts
+++ b/settings.gradle.kts
@@ -4,3 +4,4 @@ include(":tree-structure-serialization")
 include(":tree-structure-coroutines")
 include(":tree-structure-compose")
 include(":tree-structure-immutable")
 include(":samples")
--- a/src/commonTest/kotlin/com.github.adriankuta/datastructure.tree/TreeNodePropertyTest.kt
+++ b/src/commonTest/kotlin/com.github.adriankuta/datastructure.tree/TreeNodePropertyTest.kt
@@ -0,0 +1,455 @@
 package com.github.adriankuta.datastructure.tree
 import kotlin.random.Random
 import kotlin.test.Test
 import kotlin.test.assertContentEquals
 import kotlin.test.assertEquals
 import kotlin.test.assertFalse
 import kotlin.test.assertNotNull
 import kotlin.test.assertTrue
 /**
 * Property-based tests for traversal and structural invariants (issue #38).
 *
 * Instead of a handful of hand-written example trees, each property is checked against many
 * randomly generated trees. Generation is seeded ([BASE_SEED] + iteration index), so a failing case
 * is fully reproducible: rerun [randomTree] with the seed printed in the failure message. No
 * external dependency is used, so these run on every Kotlin target (JVM/JS/Wasm/Native).
 */
 class TreeNodePropertyTest {
    // -----------------------------------------------------------------------------------------
    // Traversal node-set invariants
    // -----------------------------------------------------------------------------------------
    @Test
    fun allThreeOrdersVisitTheSameSetOfNodes() = forEachRandomTree { tree, seed ->
        val pre = tree.preOrderSequence().toList()
        val post = tree.postOrderSequence().toList()
        val level = tree.levelOrderSequence().toList()
        assertEquals(pre.toSet(), post.toSet(), "pre vs post node set (seed=$seed)")
        assertEquals(pre.toSet(), level.toSet(), "pre vs level node set (seed=$seed)")
    }
    @Test
    fun allThreeOrdersHaveTheSameCardinalityAndNoDuplicates() = forEachRandomTree { tree, seed ->
        val pre = tree.preOrderSequence().toList()
        val post = tree.postOrderSequence().toList()
        val level = tree.levelOrderSequence().toList()
        val expectedSize = tree.nodeCount() + 1 // traversal includes the root; nodeCount excludes it
        assertEquals(expectedSize, pre.size, "pre-order size (seed=$seed)")
        assertEquals(expectedSize, post.size, "post-order size (seed=$seed)")
        assertEquals(expectedSize, level.size, "level-order size (seed=$seed)")
        assertEquals(pre.size, pre.toSet().size, "pre-order visits no node twice (seed=$seed)")
        assertEquals(post.size, post.toSet().size, "post-order visits no node twice (seed=$seed)")
        assertEquals(level.size, level.toSet().size, "level-order visits no node twice (seed=$seed)")
    }
    // -----------------------------------------------------------------------------------------
    // Per-order ordering invariants
    // -----------------------------------------------------------------------------------------
    @Test
    fun preOrderEmitsEverySubtreeAsAContiguousBlockAfterItsRoot() = forEachRandomTree { tree, seed ->
        val pre = tree.preOrderSequence().toList()
        val index = pre.indexMap()
        for (node in pre) {
            val start = index.getValue(node) + 1
            val block = pre.subList(start, start + node.nodeCount())
            assertEquals(node.descendants().toSet(), block.toSet(), "pre-order subtree of $node (seed=$seed)")
        }
    }
    @Test
    fun postOrderEmitsEverySubtreeAsAContiguousBlockBeforeItsRoot() = forEachRandomTree { tree, seed ->
        val post = tree.postOrderSequence().toList()
        val index = post.indexMap()
        for (node in post) {
            val end = index.getValue(node)
            val block = post.subList(end - node.nodeCount(), end)
            assertEquals(node.descendants().toSet(), block.toSet(), "post-order subtree of $node (seed=$seed)")
        }
    }
    @Test
    fun levelOrderVisitsNodesInNonDecreasingDepth() = forEachRandomTree { tree, seed ->
        val depths = tree.levelOrderSequence().map { it.depth() }.toList()
        for (i in 1 until depths.size) {
            assertTrue(depths[i - 1] <= depths[i], "level-order depth not monotonic at $i (seed=$seed)")
        }
    }
    @Test
    fun preAndLevelOrderVisitEveryParentBeforeItsChildren() = forEachRandomTree { tree, seed ->
        for (order in listOf(tree.preOrderSequence(), tree.levelOrderSequence())) {
            val index = order.toList().indexMap()
            for (node in index.keys) {
                for (child in node.children) {
                    assertTrue(index.getValue(node) < index.getValue(child), "parent before child (seed=$seed)")
                }
            }
        }
    }
    @Test
    fun postOrderVisitsEveryChildBeforeItsParent() = forEachRandomTree { tree, seed ->
        val index = tree.postOrderSequence().toList().indexMap()
        for (node in index.keys) {
            for (child in node.children) {
                assertTrue(index.getValue(child) < index.getValue(node), "child before parent (seed=$seed)")
            }
        }
    }
    // -----------------------------------------------------------------------------------------
    // depth / height invariants
    // -----------------------------------------------------------------------------------------
    @Test
    fun depthMatchesAnIndependentBfsLevelAndEveryChildIsOneDeeper() = forEachRandomTree { tree, seed ->
        assertEquals(0, tree.depth(), "root depth (seed=$seed)")
        // Independent oracle: derive each node's level by walking DOWN through children (BFS), then
        // cross-check against depth(), which walks UP through parent pointers. A bug in the parent
        // walk cannot corrupt both derivations identically.
        val levelByNode = HashMap<TreeNode<Int>, Int>()
        levelByNode[tree] = 0
        val queue = ArrayDeque<TreeNode<Int>>()
        queue.add(tree)
        while (queue.isNotEmpty()) {
            val node = queue.removeFirst()
            for (child in node.children) {
                levelByNode[child] = levelByNode.getValue(node) + 1
                queue.add(child)
            }
        }
        for (node in tree) {
            assertEquals(levelByNode.getValue(node), node.depth(), "depth matches BFS level (seed=$seed)")
            for (child in node.children) {
                assertEquals(node.depth() + 1, child.depth(), "child depth (seed=$seed)")
            }
        }
    }
    @Test
    fun heightEqualsDeepestDescendantDistanceAndLeavesHaveHeightZero() = forEachRandomTree { tree, seed ->
        for (node in tree) {
            val expected = node.asSequence().maxOf { it.depth() } - node.depth()
            assertEquals(expected, node.height(), "height of $node (seed=$seed)")
            if (node.isLeaf) assertEquals(0, node.height(), "leaf height (seed=$seed)")
        }
    }
    // -----------------------------------------------------------------------------------------
    // nodeCount invariants
    // -----------------------------------------------------------------------------------------
    @Test
    fun nodeCountEqualsDescendantCountForEveryNode() = forEachRandomTree { tree, seed ->
        for (node in tree) {
            // Independent oracle: nodeCount() walks an explicit stack; the pre-order sequence is a
            // separate traversal, so agreeing pins the count without circularity.
            assertEquals(node.asSequence().count() - 1, node.nodeCount(), "nodeCount vs traversal (seed=$seed)")
            // Recursive self-consistency: a node's count is the sum of (each child + its subtree).
            assertEquals(node.children.sumOf { it.nodeCount() + 1 }, node.nodeCount(), "nodeCount recursive sum (seed=$seed)")
        }
    }
    @Test
    fun nodeCountAndTraversalStayConsistentAcrossAttachAndDetach() = forEachRandomTree { tree, seed ->
        // A second, independent tree we graft onto a random node of `tree`, then remove again.
        val grafted = randomTree(Random(seed * 31 + 7), maxNodes = 20)
        val host = tree.toList().random(Random(seed xor SELECT_SALT))
        val countBefore = tree.nodeCount()
        val graftSize = grafted.nodeCount() + 1 // the grafted root plus its descendants
        host.addChild(grafted)
        assertEquals(countBefore + graftSize, tree.nodeCount(), "nodeCount after addChild (seed=$seed)")
        assertTrue(tree.toSet().containsAll(grafted.toList()), "grafted nodes now reachable (seed=$seed)")
        assertSameNode(host, grafted.parent, "graft re-parented (seed=$seed)")
        assertTrue(grafted.detach(), "detach returns true (seed=$seed)")
        assertEquals(countBefore, tree.nodeCount(), "nodeCount restored after detach (seed=$seed)")
        assertTrue(grafted.isRoot, "grafted is a root again (seed=$seed)")
        assertFalse(tree.toSet().contains(grafted), "grafted no longer reachable (seed=$seed)")
    }
    @Test
    fun removeAndReinsertKeepNodeCountAndPointersConsistent() = forEachRandomTree { tree, seed ->
        val rnd = Random(seed xor 0x55AA_55AAL)
        val parents = tree.toList().filter { it.children.isNotEmpty() }
        if (parents.isEmpty()) return@forEachRandomTree // single-node tree: nothing to remove
        val parent = parents.random(rnd)
        val countBefore = tree.nodeCount()
        val index = rnd.nextInt(parent.children.size)
        val subtreeSize = parent.children[index].nodeCount() + 1
        val removed = parent.removeChildAt(index)
        assertTrue(removed.isRoot, "removeChildAt detaches the child (seed=$seed)")
        assertEquals(countBefore - subtreeSize, tree.nodeCount(), "nodeCount drops by the subtree (seed=$seed)")
        assertFalse(tree.toSet().contains(removed), "removed subtree no longer reachable (seed=$seed)")
        val insertAt = rnd.nextInt(parent.children.size + 1)
        parent.insertChild(insertAt, removed)
        assertEquals(countBefore, tree.nodeCount(), "nodeCount restored after insertChild (seed=$seed)")
        assertSameNode(parent, removed.parent, "re-inserted subtree is re-parented (seed=$seed)")
        assertSameNode(removed, parent.children[insertAt], "re-inserted at the requested index (seed=$seed)")
        for (node in tree) {
            for (child in node.children) {
                assertSameNode(node, child.parent, "parent pointers stay consistent (seed=$seed)")
            }
        }
    }
    @Test
    fun clearRemovesEveryDescendantAndKeepsTheNodeAttached() = forEachRandomTree { tree, seed ->
        val node = tree.toList().random(Random(seed xor SELECT_SALT))
        val parentBefore = node.parent
        node.clear()
        assertEquals(0, node.nodeCount(), "nodeCount after clear (seed=$seed)")
        assertTrue(node.children.isEmpty(), "children empty after clear (seed=$seed)")
        assertSameNode(parentBefore, node.parent, "node keeps its own parent after clear (seed=$seed)")
    }
    // -----------------------------------------------------------------------------------------
    // Structural / parent-pointer invariants
    // -----------------------------------------------------------------------------------------
    @Test
    fun parentAndChildPointersAreConsistentForEveryNode() = forEachRandomTree { tree, seed ->
        assertTrue(tree.isRoot, "generated root is a root (seed=$seed)")
        for (node in tree) {
            assertEquals(node.parent == null, node.isRoot, "isRoot matches null parent (seed=$seed)")
            assertSameNode(tree, node.root(), "root() returns the tree root (seed=$seed)")
            for (child in node.children) {
                assertSameNode(node, child.parent, "child points back to parent (seed=$seed)")
            }
            val parent = node.parent
            if (parent != null) {
                assertTrue(parent.children.any { it === node }, "node listed in its parent (seed=$seed)")
                // Note: TreeNode is Iterable, so `list + node` would flatten the node's subtree —
                // compare siblings against the parent's other children directly instead.
                assertEquals(
                    parent.children.filter { it !== node }.toSet(),
                    node.siblings().toSet(),
                    "siblings are exactly the parent's other children (seed=$seed)",
                )
                assertFalse(node.siblings().any { it === node }, "siblings exclude self (seed=$seed)")
            }
        }
    }
    @Test
    fun ancestorChainOfEveryNodeTerminatesAtTheRoot() = forEachRandomTree { tree, seed ->
        for (node in tree) {
            val ancestors = node.ancestors()
            assertEquals(node.depth(), ancestors.size, "ancestor count equals depth (seed=$seed)")
            if (ancestors.isNotEmpty()) {
                assertSameNode(tree, ancestors.last(), "topmost ancestor is the root (seed=$seed)")
            }
            ancestors.forEach { assertTrue(it.depth() < node.depth(), "ancestors are shallower (seed=$seed)") }
        }
    }
    @Test
    fun leavesAreExactlyTheChildlessNodes() = forEachRandomTree { tree, seed ->
        assertEquals(tree.asSequence().filter { it.isLeaf }.toSet(), tree.leaves().toSet(), "leaves (seed=$seed)")
        assertTrue(tree.leaves().all { it.isLeaf }, "every leaf is childless (seed=$seed)")
        assertEquals(tree.toList().size, tree.descendants().size + 1, "descendants + self (seed=$seed)")
    }
    // -----------------------------------------------------------------------------------------
    // Transform / structural-equality invariants
    // -----------------------------------------------------------------------------------------
    @Test
    fun deepCopyAndIdentityMapPreserveShapeWithFreshNodes() = forEachRandomTree { tree, seed ->
        assertTrue(tree.structurallyEquals(tree), "structurallyEquals is reflexive (seed=$seed)")
        val copy = tree.deepCopy()
        assertTrue(copy.structurallyEquals(tree), "deepCopy is structurally equal (seed=$seed)")
        assertEquals(tree.nodeCount(), copy.nodeCount(), "deepCopy node count (seed=$seed)")
        assertEquals(tree.height(), copy.height(), "deepCopy height (seed=$seed)")
        assertTrue(copy.toSet().intersect(tree.toSet()).isEmpty(), "deepCopy shares no node object (seed=$seed)")
        val mapped = tree.mapValues { it }
        assertTrue(mapped.structurallyEquals(tree), "identity mapValues preserves structure (seed=$seed)")
        assertTrue(mapped.toSet().intersect(tree.toSet()).isEmpty(), "mapValues yields fresh nodes (seed=$seed)")
    }
    // -----------------------------------------------------------------------------------------
    // Functional / value-query invariants
    // -----------------------------------------------------------------------------------------
    @Test
    fun valueQueriesAgreeWithTraversalOverUniqueValues() = forEachRandomTree { tree, seed ->
        val values = tree.asSequence().map { it.value }.toList()
        assertEquals(values.size, values.toSet().size, "generated values are unique (seed=$seed)")
        assertEquals(values.size, tree.countNodes { true }, "countNodes(true) == size (seed=$seed)")
        for (value in values) {
            assertTrue(tree.contains(value), "contains present value $value (seed=$seed)")
            assertNotNull(tree.findNode { it == value }, "findNode present value $value (seed=$seed)")
        }
        val absent = values.max() + 1 // values are unique and dense from 0, so this one is absent
        assertFalse(tree.contains(absent), "absent value not contained (seed=$seed)")
    }
    // -----------------------------------------------------------------------------------------
    // Query algorithms (lca / distance / pathBetween)
    // -----------------------------------------------------------------------------------------
    @Test
    fun lowestCommonAncestorIsTheDeepestSharedAncestor() = forEachRandomTree { tree, seed ->
        val nodes = tree.toList()
        val rnd = Random(seed xor 0x1234_5678L)
        repeat(PAIRS_PER_TREE) {
            val a = nodes.random(rnd)
            val b = nodes.random(rnd)
            val lca = a.lowestCommonAncestor(b)
            assertNotNull(lca, "lca within one tree is non-null (seed=$seed)")
            assertSameNode(lca, b.lowestCommonAncestor(a), "lca is symmetric (seed=$seed)")
            val ancestorsAndSelfA = (listOf(a) + a.ancestors()).toSet()
            val ancestorsAndSelfB = (listOf(b) + b.ancestors()).toSet()
            assertTrue(lca in ancestorsAndSelfA, "lca is an ancestor-or-self of a (seed=$seed)")
            assertTrue(lca in ancestorsAndSelfB, "lca is an ancestor-or-self of b (seed=$seed)")
            // Common ancestors form a chain, so the deepest one is unique; it must be the lca itself.
            val deepestShared = ancestorsAndSelfA.intersect(ancestorsAndSelfB).maxByOrNull { it.depth() }
            assertSameNode(deepestShared, lca, "lca is the deepest shared ancestor (seed=$seed)")
        }
    }
    @Test
    fun distanceAndPathBetweenAreConsistent() = forEachRandomTree { tree, seed ->
        val nodes = tree.toList()
        val rnd = Random(seed xor 0x0F0F_0F0FL)
        repeat(PAIRS_PER_TREE) {
            val a = nodes.random(rnd)
            val b = nodes.random(rnd)
            val distance = a.distance(b)
            assertNotNull(distance, "distance within one tree is non-null (seed=$seed)")
            assertTrue(distance >= 0, "distance is non-negative (seed=$seed)")
            assertEquals(distance, b.distance(a), "distance is symmetric (seed=$seed)")
            val path = a.pathBetween(b)
            assertNotNull(path, "path within one tree is non-null (seed=$seed)")
            assertSameNode(a, path.first(), "path starts at a (seed=$seed)")
            assertSameNode(b, path.last(), "path ends at b (seed=$seed)")
            assertEquals(distance, path.size - 1, "distance == path edges (seed=$seed)")
            assertEquals(path.size, path.toSet().size, "path has no repeated node (seed=$seed)")
            for (i in 1 until path.size) {
                val (p, q) = path[i - 1] to path[i]
                assertTrue(p.parent === q || q.parent === p, "consecutive path nodes are an edge (seed=$seed)")
            }
        }
    }
    @Test
    fun distanceAndPathToSelfAreTrivial() = forEachRandomTree { tree, seed ->
        val node = tree.toList().random(Random(seed xor SELECT_SALT))
        assertEquals(0, node.distance(node), "distance to self is 0 (seed=$seed)")
        assertSameNode(node, node.lowestCommonAncestor(node), "lca with self is self (seed=$seed)")
        assertEquals(listOf(node), node.pathBetween(node), "path to self is the singleton (seed=$seed)")
    }
    // -----------------------------------------------------------------------------------------
    // Termination and ordering on degenerate (deep / wide) trees
    // -----------------------------------------------------------------------------------------
    @Test
    fun everyTraversalTerminatesAndIsCorrectlyOrderedOnADeepChain() {
        val depth = 5_000
        val root = TreeNode(0)
        var current = root
        for (i in 1..depth) {
            val child = TreeNode(i)
            current.addChild(child)
            current = child
        }
        // On a chain pre- and level-order descend the chain; post-order returns it leaf-first. These
        // pin the actual ordering, not merely that every order visits the same number of nodes.
        assertContentEquals((0..depth).toList(), root.preOrderSequence().map { it.value }.toList(), "pre-order of a chain")
        assertContentEquals((0..depth).toList(), root.levelOrderSequence().map { it.value }.toList(), "level-order of a chain")
        assertContentEquals((depth downTo 0).toList(), root.postOrderSequence().map { it.value }.toList(), "post-order of a chain")
        assertEquals(depth, root.height(), "height on deep chain")
        assertEquals(depth, root.nodeCount(), "nodeCount on deep chain")
        assertEquals(depth, current.depth(), "depth of the deepest node")
    }
    @Test
    fun everyTraversalTerminatesAndIsCorrectlyOrderedOnAWideTree() {
        val width = 5_000
        val root = TreeNode(0)
        for (i in 1..width) root.addChild(TreeNode(i))
        // pre- and level-order list the root then its children in order; post-order lists the
        // children in order then the root.
        assertContentEquals(listOf(0) + (1..width), root.preOrderSequence().map { it.value }.toList(), "pre-order of a star")
        assertContentEquals(listOf(0) + (1..width), root.levelOrderSequence().map { it.value }.toList(), "level-order of a star")
        assertContentEquals((1..width).toList() + 0, root.postOrderSequence().map { it.value }.toList(), "post-order of a star")
        assertEquals(1, root.height(), "height on wide tree")
        assertEquals(width, root.nodeCount(), "nodeCount on wide tree")
        assertTrue(root.children.all { it.depth() == 1 }, "every child of a wide root is at depth 1")
    }
 }
 // ---------------------------------------------------------------------------------------------
 // Random tree generation + property harness
 // ---------------------------------------------------------------------------------------------
 private const val ITERATIONS = 200
 private const val BASE_SEED = 0x5EEDL
 /** How many random node pairs each query property samples per generated tree. */
 private const val PAIRS_PER_TREE = 8
 /** Decorrelates node-selection RNGs from the tree-construction RNG that shares the same seed. */
 private const val SELECT_SALT = 0x2545_F491_4F6C_DD1DL
 /** Runs [property] against [iterations] freshly generated random trees, one per derived seed. */
 private fun forEachRandomTree(
    iterations: Int = ITERATIONS,
    maxNodes: Int = 80,
    property: (tree: TreeNode<Int>, seed: Long) -> Unit,
 ) {
    for (i in 0 until iterations) {
        val seed = BASE_SEED + i
        property(randomTree(Random(seed), maxNodes), seed)
    }
 }
 /**
 * Builds a random tree of `1..[maxNodes]` nodes by uniform random attachment: each new node (value
 * `1, 2, …`) is attached under a uniformly chosen existing node. This samples a broad spread of
 * shapes — chains, bushy, and lopsided trees, plus single-node trees — without the left-heavy skew
 * of a depth-first node budget, and is iterative so it never risks the call stack. Values are unique
 * and dense from `0` (the root). Deterministic for a given [random], so the seed reproduces it.
 */
 private fun randomTree(random: Random, maxNodes: Int): TreeNode<Int> {
    val size = random.nextInt(1, maxNodes + 1)
    val root = TreeNode(0)
    val nodes = ArrayList<TreeNode<Int>>(size)
    nodes.add(root)
    for (value in 1 until size) {
        val parent = nodes[random.nextInt(nodes.size)]
        val child = TreeNode(value)
        parent.addChild(child)
        nodes.add(child)
    }
    return root
 }
 /** Maps each node to its position in this traversal. Keys compare by identity (TreeNode equality). */
 private fun List<TreeNode<Int>>.indexMap(): Map<TreeNode<Int>, Int> =
    withIndex().associate { (i, node) -> node to i }
 /** Asserts two references point at the same node object (TreeNode uses identity equality). */
 private fun assertSameNode(expected: TreeNode<*>?, actual: TreeNode<*>?, message: String) {
    assertTrue(expected === actual, "$message — expected same node as $expected but was $actual")
 }
Author	SHA1	Message	Date
Adrian Kuta	1fce412815	feat: add runnable :samples module (#47 ) Some checks failed Test / JVM / JS / Wasm / Native + API check (push) Has been cancelled Details Test / iOS (push) Has been cancelled Details * build: scaffold :samples module (issue #37) * feat: add runnable, verified examples to :samples (issue #37) * ci,docs: run :samples in CI and document ./gradlew :samples:run (issue #37)	2026-06-08 13:59:16 +02:00
Adrian Kuta	2671c46f96	test: property-based tests for traversal & structural invariants (#38 ) (#46 ) Add TreeNodePropertyTest: 23 properties checked over many seeded, randomly generated trees instead of fixed examples. Covers the invariants from #38 — all three orders visit the same node set with matching cardinality; pre/post emit each subtree as a contiguous block; level-order is depth-monotonic; child.depth == parent.depth + 1 (cross-checked against an independent BFS level walk); nodeCount stays consistent across attach/detach, remove/insert and clear; and every traversal terminates and is correctly ordered on deep (5k-node chain) and wide (5k-child) trees. Also pins parent/child pointer consistency, ancestor/leaf/sibling correctness, deepCopy/mapValues shape preservation, and lca/distance/pathBetween. The generator builds trees by uniform random attachment (iterative, so it is stack-safe and free of left-heavy skew). Failures print the seed, so any case reproduces. No new dependency — the suite is pure commonTest and runs on every target (JVM/JS/Wasm/Native).	2026-06-08 13:29:30 +02:00
Adrian Kuta	f1e9a7bb54	chore: gitignore local superpowers working docs (docs/superpowers/)	2026-06-08 08:55:04 +02:00
Adrian Kuta	a7d5de1bba	docs: remove design spec accidentally committed in v4.1.1 release	2026-06-08 08:53:12 +02:00