Set version to chylex-25

Search results are tested for visibility on the screen. There is already an optimization that only checks results on visible lines, but the number of offset-to-XY conversions still scales linearly with the number of results, which can be very large in files with long lines.

A simple observation is that every line has a first and last offset that is visible on the screen (which may be different for each line due to proportional fonts).

This commit caches the visible offset range for every line involved in one search query, so testing visibility of a search result becomes a check if its offset is inside its line's visible offset range. Finding the visible offset range requires two XY-to-offset conversions per line, so the total number of conversions is bounded by the number of lines that can fit on the screen.

The worst case for this optimization is when every line has exactly one search result; before, this would lead to one offset-to-XY conversion per line, whereas now it leads to two XY-to-offset conversions per line. However, the maximum number of conversions is twice the number of visible lines, which will generally be very small.

build.gradle.kts

@@ -8,7 +8,7 @@ plugins {
 }
 
 group = "org.acejump"
-version = "chylex-23"
+version = "chylex-25"
 
 repositories {
   mavenCentral()
@@ -18,7 +18,7 @@ intellij {
   version.set("2024.2")
   updateSinceUntilBuild.set(false)
   
-  plugins.add("IdeaVIM:chylex-40")
+  plugins.add("IdeaVIM:chylex-41")
   plugins.add("com.intellij.classic.ui:242.20224.159")
   
   pluginsRepositories {

src/main/kotlin/org/acejump/action/AceVimAction.kt

@@ -16,7 +16,7 @@ import com.maddyhome.idea.vim.group.visual.vimSetSelection
 import com.maddyhome.idea.vim.helper.inVisualMode
 import com.maddyhome.idea.vim.helper.vimSelectionStart
 import com.maddyhome.idea.vim.newapi.vim
-import com.maddyhome.idea.vim.state.mode.Mode
+import com.maddyhome.idea.vim.state.mode.Mode.OP_PENDING
 import com.maddyhome.idea.vim.state.mode.SelectionType
 import org.acejump.boundaries.StandardBoundaries.AFTER_CARET
 import org.acejump.boundaries.StandardBoundaries.BEFORE_CARET
@@ -52,8 +52,8 @@ sealed class AceVimAction : DumbAwareAction() {
           }
           else {
             val vim = editor.vim
+            if (vim.mode is OP_PENDING) {
               val keyHandler = KeyHandler.getInstance()
-            if (keyHandler.isOperatorPending(vim.mode, keyHandler.keyHandlerState)) {
               val key = keyHandler.keyHandlerState.commandBuilder.keys.singleOrNull()?.keyChar
               
               keyHandler.fullReset(vim)
@@ -71,10 +71,10 @@ sealed class AceVimAction : DumbAwareAction() {
               if (action != null) {
                 ApplicationManager.getApplication().invokeLater {
                   WriteAction.run<Nothing> {
-                    keyHandler.keyHandlerState.commandBuilder.pushCommandPart(action)
+                    keyHandler.keyHandlerState.commandBuilder.addAction(action)
                     
                     val cmd = keyHandler.keyHandlerState.commandBuilder.buildCommand()
-                    val operatorArguments = OperatorArguments(vim.mode is Mode.OP_PENDING, cmd.rawCount, injector.vimState.mode)
+                    val operatorArguments = OperatorArguments(vim.mode is OP_PENDING, cmd.rawCount, injector.vimState.mode)
                     
                     injector.vimState.executingCommand = cmd
                     injector.actionExecutor.executeVimAction(vim, action, context, operatorArguments)

src/main/kotlin/org/acejump/boundaries/EditorOffsetCache.kt

@@ -18,6 +18,11 @@ sealed class EditorOffsetCache {
    */
   abstract fun visibleArea(editor: Editor): Pair<Point, Point>
   
+  /**
+   * Returns whether the offset is in the visible area rectangle.
+   */
+  abstract fun isVisible(editor: Editor, offset: Int): Boolean
+  
   /**
    * Returns the editor offset at the provided pixel coordinate.
    */
@@ -36,6 +41,7 @@ sealed class EditorOffsetCache {
   
   private class Cache : EditorOffsetCache() {
     private var visibleArea: Pair<Point, Point>? = null
+    private val lineToVisibleOffsetRange = Int2ObjectOpenHashMap<IntRange>()
     private val pointToOffset = Object2IntOpenHashMap<Point>().apply { defaultReturnValue(-1) }
     private val offsetToPoint = Int2ObjectOpenHashMap<Point>()
     
@@ -43,6 +49,24 @@ sealed class EditorOffsetCache {
       return visibleArea ?: Uncached.visibleArea(editor).also { visibleArea = it }
     }
     
+    override fun isVisible(editor: Editor, offset: Int): Boolean {
+      val visualLine = editor.offsetToVisualLine(offset, false)
+      
+      var visibleRange = lineToVisibleOffsetRange.get(visualLine)
+      if (visibleRange == null) {
+        val (topLeft, bottomRight) = visibleArea(editor)
+        val lineY = editor.visualLineToY(visualLine)
+        
+        val firstVisibleOffset = xyToOffset(editor, Point(topLeft.x, lineY))
+        val lastVisibleOffset = xyToOffset(editor, Point(bottomRight.x, lineY))
+        
+        visibleRange = firstVisibleOffset..lastVisibleOffset
+        lineToVisibleOffsetRange.put(visualLine, visibleRange)
+      }
+      
+      return offset in visibleRange
+    }
+    
     override fun xyToOffset(editor: Editor, pos: Point): Int {
       val offset = pointToOffset.getInt(pos)
       
@@ -51,7 +75,6 @@ sealed class EditorOffsetCache {
       }
       
       return Uncached.xyToOffset(editor, pos).also {
-        @Suppress("ReplacePutWithAssignment")
         pointToOffset.put(pos, it)
       }
     }
@@ -64,7 +87,6 @@ sealed class EditorOffsetCache {
       }
       
       return Uncached.offsetToXY(editor, offset).also {
-        @Suppress("ReplacePutWithAssignment")
         offsetToPoint.put(offset, it)
       }
     }
@@ -80,6 +102,15 @@ sealed class EditorOffsetCache {
       )
     }
     
+    override fun isVisible(editor: Editor, offset: Int): Boolean {
+      val (topLeft, bottomRight) = visibleArea(editor)
+      val pos = offsetToXY(editor, offset)
+      val x = pos.x
+      val y = pos.y
+      
+      return x >= topLeft.x && y >= topLeft.y && x <= bottomRight.x && y <= bottomRight.y
+    }
+    
     override fun xyToOffset(editor: Editor, pos: Point): Int {
       return editor.logicalPositionToOffset(editor.xyToLogicalPosition(pos))
     }

src/main/kotlin/org/acejump/boundaries/StandardBoundaries.kt

@@ -13,23 +13,7 @@ enum class StandardBoundaries : Boundaries {
     }
     
     override fun isOffsetInside(editor: Editor, offset: Int, cache: EditorOffsetCache): Boolean {
-      
+      return cache.isVisible(editor, offset)
-      // If we are not using a cache, calling getOffsetRange will cause additional 1-2 pixel coordinate -> offset lookups, which is a lot
-      // more expensive than one lookup compared against the visible area.
-      
-      // However, if we are using a cache, it's likely that the topmost and bottommost positions are already cached whereas the provided
-      // offset isn't, so we save a lookup for every offset outside the range.
-      
-      if (cache !== EditorOffsetCache.Uncached && offset !in getOffsetRange(editor, cache)) {
-        return false
-      }
-      
-      val (topLeft, bottomRight) = cache.visibleArea(editor)
-      val pos = cache.offsetToXY(editor, offset)
-      val x = pos.x
-      val y = pos.y
-      
-      return x >= topLeft.x && y >= topLeft.y && x <= bottomRight.x && y <= bottomRight.y
     }
   },
   

src/main/kotlin/org/acejump/input/EditorKeyListener.kt

@@ -10,7 +10,6 @@ import com.intellij.openapi.editor.actionSystem.TypedActionHandler
  * sessions' own handlers.
  */
 internal object EditorKeyListener : TypedActionHandler {
-  private val action = TypedAction.getInstance()
   private val attached = mutableMapOf<Editor, TypedActionHandler>()
   private var originalHandler: TypedActionHandler? = null
   
@@ -20,8 +19,9 @@ internal object EditorKeyListener : TypedActionHandler {
   
   fun attach(editor: Editor, callback: TypedActionHandler) {
     if (attached.isEmpty()) {
-      originalHandler = action.rawHandler
+      val typedAction = TypedAction.getInstance()
-      action.setupRawHandler(this)
+      originalHandler = typedAction.rawHandler
+      typedAction.setupRawHandler(this)
     }
     
     attached[editor] = callback
@@ -31,7 +31,7 @@ internal object EditorKeyListener : TypedActionHandler {
     attached.remove(editor)
     
     if (attached.isEmpty()) {
-      originalHandler?.let(action::setupRawHandler)
+      originalHandler?.let(TypedAction.getInstance()::setupRawHandler)
       originalHandler = null
     }
   }

src/main/kotlin/org/acejump/search/SearchProcessor.kt

@@ -3,6 +3,7 @@ package org.acejump.search
 import com.intellij.openapi.editor.Editor
 import it.unimi.dsi.fastutil.ints.IntArrayList
 import org.acejump.boundaries.Boundaries
+import org.acejump.boundaries.EditorOffsetCache
 import org.acejump.clone
 import org.acejump.config.AceConfig
 import org.acejump.immutableText
@@ -17,9 +18,10 @@ class SearchProcessor private constructor(query: SearchQuery, val boundaries: Bo
     
     if (regex != null) {
       for (editor in editors) {
+        val cache = EditorOffsetCache.new()
         val offsets = IntArrayList()
         
-        val offsetRange = boundaries.getOffsetRange(editor)
+        val offsetRange = boundaries.getOffsetRange(editor, cache)
         var result = regex.find(editor.immutableText, offsetRange.first)
         
         while (result != null) {
@@ -29,7 +31,7 @@ class SearchProcessor private constructor(query: SearchQuery, val boundaries: Bo
           if (highlightEnd > offsetRange.last) {
             break
           }
-          else if (boundaries.isOffsetInside(editor, index) && !editor.foldingModel.isOffsetCollapsed(index)) {
+          else if (boundaries.isOffsetInside(editor, index, cache) && !editor.foldingModel.isOffsetCollapsed(index)) {
             offsets.add(index)
           }
           

src/main/kotlin/org/acejump/search/Tagger.kt

@@ -3,6 +3,7 @@ package org.acejump.search
 import com.google.common.collect.ArrayListMultimap
 import com.intellij.openapi.editor.Editor
 import it.unimi.dsi.fastutil.ints.IntList
+import it.unimi.dsi.fastutil.objects.Object2IntOpenHashMap
 import org.acejump.boundaries.EditorOffsetCache
 import org.acejump.boundaries.StandardBoundaries.VISIBLE_ON_SCREEN
 import org.acejump.input.KeyLayoutCache
@@ -40,7 +41,7 @@ class Tagger(private val editors: List<Editor>, results: Map<Editor, IntList>) {
       .flatMap { (editor, sites) -> sites.map { site -> Tag(editor, site) } }
       .sortedWith(siteOrder(editors, caches))
     
-    tagMap = generateTags(tagSites).zip(tagSites).toMap()
+    tagMap = generateTags(tagSites.size).zip(tagSites).toMap()
   }
   
   internal fun type(char: Char): TaggingResult {
@@ -61,13 +62,15 @@ class Tagger(private val editors: List<Editor>, results: Map<Editor, IntList>) {
   }
   
   private companion object {
-    private fun generateTags(tagSites: List<Tag>): List<String> {
+    private fun generateTags(tagCount: Int): List<String> {
+      val allowedTagsSorted = KeyLayoutCache.allowedTagsSorted
       val tags = mutableListOf<String>()
       
       val containedSingleCharTags = mutableSetOf<Char>()
       val blockedSingleCharTags = mutableSetOf<Char>()
+      val doubleCharTagCountsByFirstChar = Object2IntOpenHashMap<Char>()
       
-      for (tag in KeyLayoutCache.allowedTagsSorted) {
+      for (tag in allowedTagsSorted) {
         val firstChar = tag.first()
         
         if (tag.length == 1) {
@@ -83,15 +86,41 @@ class Tagger(private val editors: List<Editor>, results: Map<Editor, IntList>) {
           }
           
           blockedSingleCharTags.add(firstChar)
+          doubleCharTagCountsByFirstChar.addTo(firstChar, 1)
         }
         
         tags.add(tag)
         
-        if (tags.size >= tagSites.size) {
+        if (tags.size >= tagCount) {
-          return tags
+          break
         }
       }
       
+      // In rare cases, the final tag list may contain a double character tag that is the only tag starting with its first character,
+      // so we replace it with the single character tag.
+      for (entry in doubleCharTagCountsByFirstChar.object2IntEntrySet()) {
+        if (entry.intValue != 1) {
+          continue
+        }
+        
+        tags.removeAt(tags.indexOfFirst { it.first() == entry.key })
+        
+        val tag = entry.key.toString()
+        var previousTagIndex = -1
+        
+        // The implementation of searching where to place the single character tag is theoretically slow,
+        // but getting here is so rare it doesn't matter.
+        for (i in allowedTagsSorted.indexOf(tag) - 1 downTo 0) {
+          previousTagIndex = tags.indexOf(allowedTagsSorted[i])
+          
+          if (previousTagIndex != -1) {
+            break
+          }
+        }
+        
+        tags.add(previousTagIndex + 1, tag)
+      }
+      
       return tags
     }