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Advanced Path-finding for Essentials

1,748
Posts
14
Years
I have converted this script: http://forum.chaos-project.com/index.php/topic,9784.0.html to be compatible with Essentials.

For instructions and a demo, visit the url above.

Code:
#+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+
# Advanced Pathfinding
# Author: ForeverZer0
# Version: 1.1
# Date: 5.30.2011
#+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+
#
# Introduction:
#   This is an advanced an highly intelligent pathfinding system. It allows for
#   the user to either through script or script call quickly and easily have
#   events or the game player automatically walk a path to a given set of
#   coordinates. The system is smart enough to quickly find paths through
#   relatively complex areas, and adjust on the fly for any obstacle that moves
#   to block its path. I used the A* algorithm, basic search algorithm used 
#   often for robotics. More on this algorithm can be read about here:
#
#               http://en.wikipedia.org/wiki/A*_search_algorithm
#
# Features:
#   - Fast and intelligent pathfinding
#   - Easy to use script calls
#   - Optional "range" parameter can have character find alternate locations
#     if the preferred one is blocked and they are within the given range.
#   - Optional callbacks can be given to have something execute if when the
#     character reaches its goal, or when it fails to do so.
#
# Instructions:
#   - Place script below default scripts, and above "Main".
#   - Use the following script call:
#
#     pathfind(X, Y, CHARACTER, RANGE, SUCCESS_PROC, FAIL_PROC)
#     
#     The X and Y are the only required arguments. The others can be omitted.
#     
#     X - The x-coordinate to pathfind to.
#     Y - The y-coordinate to pathfind to.
#
#     CHARACTER - Either an instance of the character ($game_player, 
#                 $game_map.events[ID], etc) or the ID of a character. The ID
#                 will be the event ID. Use -1 for the game player.
#
#     SUCCESS_PROC - A Proc object that will be executed when the player
#                    reaches the defined coordinates.
#     FAILURE_PROC - A Proc object that will be executed when the player
#                    cannot reach the defined coordinates.
#
#   - As default, the pathfinder will make 35 attempts to recalculate a route
#     that gets blocked. This value can be changed in game with the script
#     call:
#           $game_map.collision_retry = NUMBER
#
#     You can change the default value if desired by looking down to the first
#     class below in the main script.
#   - For longer pathfind routes, it is sometimes necessary to reset the 
#     search limiter. This may cause increased lag when an object blocks the
#     character from being able to move, but will increase the range that the
#     system can work with. Use the following script call:
#
#         $game_map.search_limiter = NUMBER  (Default 1000)
#
#   - If you are experiencing any compatibility problems, go to the Game_Map
#     class below and set @recalculate_paths to false. This will take away some
#     of the efficiency of recalculating collisions, but will improve may fix
#     your problem. 
#
# Compatibility:
#   Highly compatible. May experience issues with Custom Movement scripts,
#   but even then, it is unlikely.
#
# Credits/Thanks:
#   - ForeverZer0, for the script
#   - Special thanks to Jragyn for help making the big maze for the demo and
#     help testing.
#   - Credit goes to the Peter Hart, Nils Nilsson and Bertram Raphael for the
#     original search algorithm that was implemented
#
#+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+

#===============================================================================
# ** Game_Map
#===============================================================================

class Game_Map
  
  attr_accessor :collision_retry
  attr_accessor :recalculate_paths
  attr_accessor :search_limiter
  
  alias zer0_pathfinding_init initialize
  def initialize
    # Initialize instance variables used for pathfinding.
    @collision_retry = 35
    @recalculate_paths = true
    @search_limiter = 1000
    # Original method
    zer0_pathfinding_init
  end
end

#===============================================================================
# ** Interpreter
#===============================================================================

class Interpreter
  
  def pathfind(x, y, *args)
    args[0] = @event_id if args[0] == nil
    args[1] = 0 if args[1] == nil
    # Add a simpler call for using as a script call
    Pathfind.new(Node.new(x, y), *args)
  end
end

#==============================================================================
# ** Pathfind
#==============================================================================

class Pathfind

  attr_reader   :route                  
  attr_accessor :range   
  attr_reader   :goal
  attr_reader   :found
  attr_reader   :character                                
  attr_accessor :success_proc          
  attr_accessor :failure_proc         
  attr_accessor :target    
  attr_accessor :collisions       
  
  def initialize(node, char = -1, range = 0, *callbacks)
    # Set the character. Can either us an ID or an instance of a Game_Character.
    # A value of -1, which is default, is the Game_Player.
    if char.is_a?(Integer)
      @character = (char == -1) ? $game_player : $game_map.events[char]
    elsif char.is_a?(Game_Character)
      @character = char
    end
    # Set forcing flag. Will be disabled for recalculating on the fly.
    @forcing = true
    # Call a public method, since this method may need to be used again,
    # and "initialize" is private.
    setup(node, range, *callbacks)
  end
  
  def setup(node, range = 0, *callbacks)
    # Initialize the node we are trying to get to.
    @target = Node.new(node.x, node.y)
    @goal = @target.clone
    # Set beginning nodes and required variables.
    @start_node = Node.new(@character.x, @character.y)
    @nearest = Node.new(0, 0, 0, -1)
    @range, @found, @collisions = range, false, 0
    # Set callbacks for success and failure if included, else nil.
    @success_proc = callbacks[0]
    @failure_proc= callbacks[1]
    # Initialize sets to track open and closed nodes
    @open_set, @close_set = [@start_node], {}  
    # Find the optimal path
    calculate_path
  end

  def calculate_path
    # Only do calculation if goal is actually passable, unless we only
    # need to get close or within range
    if @character.passable?(@goal.x, @goal.y, 0) || @range > 0
      # Initialize counter
      counter, wait = 0, 0
      until @open_set.empty?

        counter += 1
        # Give up if pathfinding is taking more than 500 iterations
        if counter >= $game_map.search_limiter
          @found = false
          break
        end
        # Get the node with lowest cost and add it to the closed list
        @current_node = get_current
        @close_set[[@current_node.x, @current_node.y]] = @current_node
        if @current_node == @goal ||
           (@range > 0 && @goal.in_range?(@current_node, @range))
          # We reached goal, exit the loop!
          @target = @goal
          @goal, @found = @current_node, true
          break
        else # if not goal
          # Keep track of the node with the lowest cost so far
          if @current_node.heuristic < @nearest.heuristic || 
            @nearest.heuristic < 1
            @nearest = @current_node
          end
          # Get adjacent nodes and check if they can be added to the open list
          neighbor_nodes(@current_node).each {|neighbor|
            # Skip Node if it already exists in one of the lists.
            next if can_skip?(neighbor)
            # Add node to open list following the binary heap conventions
            @open_set.push(neighbor)
            arrange(@open_set.size - 1)
          }
        end
      end
    end
    # If no path was found, see if we can get close to goal
    unless @found
      if @range > 0 && @nearest.heuristic > 0  
        # Create an alternate path.
        setup(@nearest, @range, @success_proc, @failure_proc)
      elsif @failure_proc != nil && (($game_map.collision_retry == 0) ||
        (@collisions > $game_map.collision_retry))
        # If out of retries, call the Proc for failure if defined 
        @failure_proc.call
      end
    end
    # Create the move route using the generated path
    create_move_route 
  end

  def create_move_route
    # There's no path to generate if no path was found
    return if !@found
    # Create a new move route that isn't repeatable
    @route = RPG::MoveRoute.new
    @route.repeat = false
    # Generate path by starting from goal and following parents
    node = @goal
    while node.parent
      # Get direction from parent to node as RPG::MoveCommand
      code = case direction(node.parent.x, node.parent.y, node.x, node.y)
      when 2 then 4 # Up
      when 4 then 3 # Left
      when 6 then 2 # Right
      when 8 then 1 # Down
      else; 0
      end
      # Add movement code to the start of the array
      @route.list.unshift(RPG::MoveCommand.new(code)) if code != 0
      node = node.parent
    end
    # If the path should be assigned to the character
    if (@forcing && [email protected]?)
      @collisions = 0
      @character.paths = [] if @character.paths == nil
      @character.paths.push(self) 
      @character.force_move_route(@route) if @character.paths.size == 1
    end
    # Reset forcing flag if needed
    @forcing = true
    # Return the constructed RPG::MoveRoute
    return @route
  end
  
  def arrange(index)
    # Rearrange nodes in the open_set
    while index > 0
      # Break loop unless current item's cost is less than parent's
      break if @open_set[index].score > @open_set[index / 2].score
      # Bring lowest value to the top.
      temp = @open_set[index / 2]
      @open_set[index / 2] = @open_set[index]
      @open_set[index] = temp
      index /= 2
    end
  end
  
  def get_current
    return if @open_set.empty?
    return @open_set[0] if @open_set.size == 1
    # Set current node to local variable and replace it with the last
    current = @open_set[0]
    @open_set[0] = @open_set.pop
    # Loop and rearrange array according to the A* algorithm until done.
    y = 0   
    loop {
      x = y
      # If two children exist
      if 2 * x + 1 < @open_set.size
        if @open_set[2 * x].score <= @open_set[x].score
          y = 2 * x
          if @open_set[2 * x + 1].score <= @open_set[y].score
            y = 2 * x + 1 
          end
        end
      # If only one child exists
      elsif 2 * x < @open_set.size && 
        @open_set[2 * x].score <= @open_set[x].score
        y = 2 * x 
      end
      # Swap a child if it is less than the parent.
      break if x == y
      temp = @open_set[x]
      @open_set[x] = @open_set[y]
      @open_set[y] = temp
    }
    # Return the original first node (which was removed)
    return current
  end

  def direction(x1, y1, x2, y2)
    # Return the numerical direction between coordinates.
    return 6 if x1 > x2 # Right
    return 4 if x1 < x2 # Left
    return 2 if y1 > y2 # Bottom
    return 8 if y1 < y2 # Top
    return 0            
  end
  
  def neighbor_nodes(node)
    # Create array to hold the nodes, then check each direction.
    nodes = []
    nodes.push(get_neighbor(node.x + 1, node.y, node)) # Right
    nodes.push(get_neighbor(node.x - 1, node.y, node)) # Left
    nodes.push(get_neighbor(node.x, node.y + 1, node)) # Down
    nodes.push(get_neighbor(node.x, node.y - 1, node)) # Up
    # Remove any nil elements, then return results.
    return nodes.compact
  end
  
  def get_neighbor(x, y, parent)
    # Calculate direction, return new node if passable.
    direction = direction(x, y, parent.x, parent.y)
    if @character.passable?(parent.x, parent.y, direction)
      # The heuristic is simply the distance
      heuristics = ((x - @goal.x).abs + (y - @goal.y).abs)
      return Node.new(x, y, parent, parent.cost + 1, heuristics)
    end
  end
  
  def can_skip?(node)
    # Branch by if node is in either the open or closed set.
    if @open_set.include?(node)
      index = @open_set.index(node)
      return true if @open_set[index].score <= node.score
      # Swap them and update list order
      @open_set[index] = node
      arrange(index)
      return true
    elsif @close_set[[node.x, node.y]] != nil
      # If the existing passed node has a lower score than this one.
      return true if @close_set[[node.x, node.y]].score <= node.score
      # Update the existing node
      @close_set[[node.x, node.y]] = node
    end
    # Return false if no criteria was met.
    return false
  end
end

#==============================================================================
# ** Game_Character 
#==============================================================================

class Game_Character
  
  attr_accessor :paths 
  attr_accessor :move_route_forcing
  attr_accessor :move_route

  alias zer0_pathfinding_init initialize
  def initialize(map = nil)
    # Add public instance variable for paths
    @paths = []
    # Original method
    zer0_pathfinding_init(map)
  end
  
  def next_route
    # Stop any custom move route that may be occuring.
    if @move_route != nil
      # Set index and disable forcing of current route
      @move_route_index = @move_route.list.size
      @move_route_forcing = false
      # Reset to what it was originally
      @move_route = @original_move_route
      @move_route_index = @original_move_route_index
      @original_move_route = nil
    end
    # Remove first path from the paths array.
    @paths.shift
    # If there is another path to follow...
    if @paths[0] != nil
      # Setup path again to reflect any changes since original creation
      @forcing = false
      @paths[0].setup(@paths[0].target, @paths[0].range, 
        @paths[0].success_proc, @paths[0].failure_proc)
      force_move_route(@paths[0].route) if @paths[0].found
    end
  end
  
  alias zer0_recalculate_paths_move move_type_custom
  def move_type_custom
    if $game_map.recalculate_paths
      # Interrupt if not stopping
      return if jumping? || moving?
      # Loop until finally arriving at move command list
      while @move_route_index < @move_route.list.size
        # Get the move command at index
        command = @move_route.list[@move_route_index]
        # If command code is 0 (end of list)
        if command.code == 0
          # If [repeat action] option is ON
          if @move_route.repeat
            # Reset move route index to the top of the list
            @move_route_index = 0
          end
          # If [repeat action] option is OFF
          unless @move_route.repeat
            # If move route is forced and not repeating
            if @move_route_forcing and not @move_route.repeat
              # The move route is no longer forced (moving ended)
              @move_route_forcing = false
              # Restore original move route
              @move_route = @original_move_route
              @move_route_index = @original_move_route_index
              @original_move_route = nil
              # If there was a path to follow and we reached goal
              if @paths[0] != nil
                if self.x == @paths[0].goal.x && 
                  y == @paths[0].goal.y && @paths[0].success_proc
                  # Call success Proc if goal is reached and it is defined.
                  @paths[0].success_proc.call
                end
                next_route
              end
            end
            # Clear stop count
            @stop_count = 0
          end
          return
        end # if command.code == 0
        # For move commands (from move down to jump)
        if command.code <= 14
          # Branch by command code
          case command.code
          when 1 then move_down                 # Move down
          when 2 then move_left                 # Move left
          when 3 then move_right                # Move right
          when 4 then move_up                   # Move up
          when 5 then move_lower_left           # Move lower left
          when 6 then move_lower_right          # Move lower right
          when 7 then move_upper_left           # Move upper left
          when 8 then move_upper_right          # Move upper right
          when 9 then move_random               # Move random
          when 10 then move_toward_player       # Move toward player
          when 11 then move_away_from_player    # Move away from player
          when 12 then move_forward             # Step forward
          when 13 then move_backward            # Step backward
          when 14 then jump(command.parameters[0], command.parameters[1]) # Jump
          end
          # If movement failure occurs when "Ignore If Can't Move" is unchecked. 
          if !@move_route.skippable && !moving? && !jumping?
            # If path is current and collision limit is not reached
            if @paths[0] != nil && 
              @paths[0].collisions < $game_map.collision_retry
              # Setup path again to update starting location.
              # original goal node is used because pathfinding changes
              # the goal node to current node
              goal, range = @paths[0].target, @paths[0].range
              reach = @paths[0].success_proc
              fail = @paths[0].failure_proc
              counter = @paths[0].collisions + 1
              # Find another path to goal
              @paths[0] = Pathfind.new(goal, self, range, reach, fail)
              @paths[0].collisions = counter
              force_move_route(@paths[0].route) if @paths[0].found
              # Wait a bit before starting to follow the new path
              @wait_count = 6
              return
            elsif paths[0] != nil
              # Call failure Proc if defined and set move index.
              @move_route_index = @move_route.list.size
              @paths[0].failure_proc.call if @paths[0].failure_proc != nil
              next_route
            end
            # End method
            return
          end
          # Advance index
          @move_route_index += 1
          return
        end # if command.code <= 14
        # If waiting
        if command.code == 15
          # Set wait count (from provided parameter)
          @wait_count = command.parameters[0] * 2 - 1
          @move_route_index += 1
          return
        end # if command.code == 15
        # If direction change (turning) command
        if command.code >= 16 and command.code <= 26
          # Branch by command code
          case command.code
          when 16 then turn_down                      # Turn down
          when 17 then turn_left                      # Turn left
          when 18 then turn_right                     # Turn right
          when 19 then turn_up                        # Turn up
          when 20 then turn_right_90                  # Turn 90° right
          when 21 then turn_left_90                   # Turn 90° left
          when 22 then turn_180                       # Turn 180°
          when 23 then turn_right_or_left_90          # Turn 90° right or left
          when 24 then turn_random                    # Turn at Random
          when 25 then turn_toward_player             # Turn toward player
          when 26 then turn_away_from_player          # Turn away from player
          end
          @move_route_index += 1
          return
        end 
        # If other command (commands that don't 'return')
        if command.code >= 27
          # Branch by command code
          case command.code
          when 27                                              # Switch ON
            $game_switches[command.parameters[0]] = true
            $game_map.need_refresh = true
          when 28                                              # Switch OFF
            $game_switches[command.parameters[0]] = false
            $game_map.need_refresh = true
          when 29 then @move_speed = command.parameters[0]     # Change speed
          when 30 then @move_frequency = command.parameters[0] # Change freq
          when 31 then @walk_anime = true                      # Move ON
          when 32 then @walk_anime = false                     # Move OFF
          when 33 then @step_anime = true                      # Stop ON
          when 34 then @step_anime = false                     # Stop OFF
          when 35 then @direction_fix = true                   # Direction ON
          when 36 then @direction_fix = false                  # Direction OFF
          when 37 then @through = true                         # Through ON
          when 38 then @through = false                        # Through OFF
          when 39 then @always_on_top = true                   # On top ON
          when 40 then @always_on_top = false                  # On top OFF
          when 41                                              # Change Graphic
            # Can't change into a tile
            @tile_id = 0
            @character_name = command.parameters[0]
            @character_hue = command.parameters[1]
            # Update direction
            if @original_direction != command.parameters[2]
              @direction = command.parameters[2]
              @original_direction = @direction
              @prelock_direction = 0
            end
            # Update frame
            if @original_pattern != command.parameters[3]
              @pattern = command.parameters[3]
              @original_pattern = @pattern
            end
          when 42 then @opacity = command.parameters[0]        # Change Opacity
          when 43 then @blend_type = command.parameters[0]     # Change Blending
          when 44 then $game_system.se_play(command.parameters[0]) # Play SE
          when 45 then result = eval(command.parameters[0])    # Script
          end
          # Increment move index.
          @move_route_index += 1
        end
      end 
    else
      # Original method
      zer0_recalculate_paths_move
    end
  end 
end

#==============================================================================
# ** Node
#==============================================================================

class Node

  attr_accessor :x                      
  attr_accessor :y                       
  attr_accessor :parent                  
  attr_accessor :cost                 
  attr_accessor :heuristic                  

  def initialize(x, y, parent = nil, cost = 0, heuristic = 0)
    # Set public instance variables.
    @x, @y, @parent, @cost, @heuristic = x, y, parent, cost, heuristic
  end

  def score
    # Return the current "score" of this node
    return @cost + @heuristic
  end
  
  def in_range?(node, range)
    # Return true/false if Nodes are within RANGE of each other.
    return (@x - node.x).abs + (@y - node.y).abs <= range
  end

  def ==(node)
    # Returns true/false of whether self and other are equal.
    return ((node.is_a?(Node)) && (node.x == @x) && (node.y == @y))
  end
end
 
Last edited:
1,748
Posts
14
Years
how do I actually use it correctly? The directions aren't all that clear...


Simply put, in your event add a new script similar to this:

Code:
x = 25 # X Destination you want your event to be at
y = 4 # Y Destination you want your event to be at
id = nil # The ID of the event you want to move (0 for player or nil for the calling event)
pathfind(x, y, id, 1)

Change the values with comments to what is needed (and preferably remove the comments if the take more than 1 line of space up)
 
1,748
Posts
14
Years
Yes, here's another example:

Code:
x = 25 # X Destination you want your event to be at
y = 4 # Y Destination you want your event to be at
id = nil # The ID of the event you want to move (0 for player or nil for the calling event)
s = Proc.new { $game_switches[success_switch] = true } # On Success
f = Proc.new { $game_switches[failed_switch] = true } # On Failed
pathfind(x, y, id, 1, s, f)

Note that you must change success_switch and failed_switch to your desired switches you want to activate.
 
133
Posts
9
Years
  • Age 26
  • Seen Nov 17, 2018
This is a decent script, if you want to be lazy with coming up with a moveroute for a cutscene. Would be better if you could actually use the script in an event's autonomous movement, but this isn't what this was designed for, as evident by this error and the demo from the original website.

Spoiler:
 
Last edited:
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