Name | Type | is_array | initial_value |
library Table /* made by Bribe, special thanks to Vexorian & Nestharus, version 4.1.0.1.
One map, one hashtable. Welcome to NewTable 4.1.0.1
This newest iteration of Table introduces the new HashTable struct.
You can now instantiate HashTables which enables the use of large
parent and large child keys, just like a standard hashtable. Previously,
the user would have to instantiate a Table to do this on their own which -
while doable - is something the user should not have to do if I can add it
to this resource myself (especially if they are inexperienced).
This library was originally called NewTable so it didn't conflict with
the API of Table by Vexorian. However, the damage is done and it's too
late to change the library name now. To help with damage control, I
have provided an extension library called TableBC, which bridges all
the functionality of Vexorian's Table except for 2-D string arrays &
the ".flush(integer)" method. I use ".flush()" to flush a child hash-
table, because I wanted the API in NewTable to reflect the API of real
hashtables (I thought this would be more intuitive).
API
------------
struct Table
| static method create takes nothing returns Table
| create a new Table
|
| method destroy takes nothing returns nothing
| destroy it
|
| method flush takes nothing returns nothing
| flush all stored values inside of it
|
| method remove takes integer key returns nothing
| remove the value at index "key"
|
| method operator []= takes integer key, $TYPE$ value returns nothing
| assign "value" to index "key"
|
| method operator [] takes integer key returns $TYPE$
| load the value at index "key"
|
| method has takes integer key returns boolean
| whether or not the key was assigned
|
----------------
struct TableArray
| static method operator [] takes integer array_size returns TableArray
| create a new array of Tables of size "array_size"
|
| method destroy takes nothing returns nothing
| destroy it
|
| method flush takes nothing returns nothing
| flush and destroy it
|
| method operator size takes nothing returns integer
| returns the size of the TableArray
|
| method operator [] takes integer key returns Table
| returns a Table accessible exclusively to index "key"
*/
globals
private integer less = 0 //Index generation for TableArrays (below 0).
private integer more = 8190 //Index generation for Tables.
//Configure it if you use more than 8190 "key" variables in your map (this will never happen though).
private hashtable ht = InitHashtable()
private key sizeK
private key listK
endglobals
private struct dex extends array
static method operator size takes nothing returns Table
return sizeK
endmethod
static method operator list takes nothing returns Table
return listK
endmethod
endstruct
private struct handles extends array
method has takes integer key returns boolean
return HaveSavedHandle(ht, this, key)
endmethod
method remove takes integer key returns nothing
call RemoveSavedHandle(ht, this, key)
endmethod
endstruct
private struct agents extends array
method operator []= takes integer key, agent value returns nothing
call SaveAgentHandle(ht, this, key, value)
endmethod
endstruct
//! textmacro NEW_ARRAY_BASIC takes SUPER, FUNC, TYPE
private struct $TYPE$s extends array
method operator [] takes integer key returns $TYPE$
return Load$FUNC$(ht, this, key)
endmethod
method operator []= takes integer key, $TYPE$ value returns nothing
call Save$FUNC$(ht, this, key, value)
endmethod
method has takes integer key returns boolean
return HaveSaved$SUPER$(ht, this, key)
endmethod
method remove takes integer key returns nothing
call RemoveSaved$SUPER$(ht, this, key)
endmethod
endstruct
private module $TYPE$m
method operator $TYPE$ takes nothing returns $TYPE$s
return this
endmethod
endmodule
//! endtextmacro
//! textmacro NEW_ARRAY takes FUNC, TYPE
private struct $TYPE$s extends array
method operator [] takes integer key returns $TYPE$
return Load$FUNC$Handle(ht, this, key)
endmethod
method operator []= takes integer key, $TYPE$ value returns nothing
call Save$FUNC$Handle(ht, this, key, value)
endmethod
method has takes integer key returns boolean
return HaveSavedHandle(ht, this, key)
endmethod
method remove takes integer key returns nothing
call RemoveSavedHandle(ht, this, key)
endmethod
endstruct
private module $TYPE$m
method operator $TYPE$ takes nothing returns $TYPE$s
return this
endmethod
endmodule
//! endtextmacro
//Run these textmacros to include the entire hashtable API as wrappers.
//Don't be intimidated by the number of macros - Vexorian's map optimizer is
//supposed to kill functions which inline (all of these functions inline).
//! runtextmacro NEW_ARRAY_BASIC("Real", "Real", "real")
//! runtextmacro NEW_ARRAY_BASIC("Boolean", "Boolean", "boolean")
//! runtextmacro NEW_ARRAY_BASIC("String", "Str", "string")
//New textmacro to allow table.integer[] syntax for compatibility with textmacros that might desire it.
//! runtextmacro NEW_ARRAY_BASIC("Integer", "Integer", "integer")
//! runtextmacro NEW_ARRAY("Player", "player")
//! runtextmacro NEW_ARRAY("Widget", "widget")
//! runtextmacro NEW_ARRAY("Destructable", "destructable")
//! runtextmacro NEW_ARRAY("Item", "item")
//! runtextmacro NEW_ARRAY("Unit", "unit")
//! runtextmacro NEW_ARRAY("Ability", "ability")
//! runtextmacro NEW_ARRAY("Timer", "timer")
//! runtextmacro NEW_ARRAY("Trigger", "trigger")
//! runtextmacro NEW_ARRAY("TriggerCondition", "triggercondition")
//! runtextmacro NEW_ARRAY("TriggerAction", "triggeraction")
//! runtextmacro NEW_ARRAY("TriggerEvent", "event")
//! runtextmacro NEW_ARRAY("Force", "force")
//! runtextmacro NEW_ARRAY("Group", "group")
//! runtextmacro NEW_ARRAY("Location", "location")
//! runtextmacro NEW_ARRAY("Rect", "rect")
//! runtextmacro NEW_ARRAY("BooleanExpr", "boolexpr")
//! runtextmacro NEW_ARRAY("Sound", "sound")
//! runtextmacro NEW_ARRAY("Effect", "effect")
//! runtextmacro NEW_ARRAY("UnitPool", "unitpool")
//! runtextmacro NEW_ARRAY("ItemPool", "itempool")
//! runtextmacro NEW_ARRAY("Quest", "quest")
//! runtextmacro NEW_ARRAY("QuestItem", "questitem")
//! runtextmacro NEW_ARRAY("DefeatCondition", "defeatcondition")
//! runtextmacro NEW_ARRAY("TimerDialog", "timerdialog")
//! runtextmacro NEW_ARRAY("Leaderboard", "leaderboard")
//! runtextmacro NEW_ARRAY("Multiboard", "multiboard")
//! runtextmacro NEW_ARRAY("MultiboardItem", "multiboarditem")
//! runtextmacro NEW_ARRAY("Trackable", "trackable")
//! runtextmacro NEW_ARRAY("Dialog", "dialog")
//! runtextmacro NEW_ARRAY("Button", "button")
//! runtextmacro NEW_ARRAY("TextTag", "texttag")
//! runtextmacro NEW_ARRAY("Lightning", "lightning")
//! runtextmacro NEW_ARRAY("Image", "image")
//! runtextmacro NEW_ARRAY("Ubersplat", "ubersplat")
//! runtextmacro NEW_ARRAY("Region", "region")
//! runtextmacro NEW_ARRAY("FogState", "fogstate")
//! runtextmacro NEW_ARRAY("FogModifier", "fogmodifier")
//! runtextmacro NEW_ARRAY("Hashtable", "hashtable")
struct Table extends array
// Implement modules for intuitive syntax (tb.handle; tb.unit; etc.)
implement realm
implement integerm
implement booleanm
implement stringm
implement playerm
implement widgetm
implement destructablem
implement itemm
implement unitm
implement abilitym
implement timerm
implement triggerm
implement triggerconditionm
implement triggeractionm
implement eventm
implement forcem
implement groupm
implement locationm
implement rectm
implement boolexprm
implement soundm
implement effectm
implement unitpoolm
implement itempoolm
implement questm
implement questitemm
implement defeatconditionm
implement timerdialogm
implement leaderboardm
implement multiboardm
implement multiboarditemm
implement trackablem
implement dialogm
implement buttonm
implement texttagm
implement lightningm
implement imagem
implement ubersplatm
implement regionm
implement fogstatem
implement fogmodifierm
implement hashtablem
method operator handle takes nothing returns handles
return this
endmethod
method operator agent takes nothing returns agents
return this
endmethod
//set this = tb[GetSpellAbilityId()]
method operator [] takes integer key returns Table
return LoadInteger(ht, this, key) //return this.integer[key]
endmethod
//set tb[389034] = 8192
method operator []= takes integer key, Table tb returns nothing
call SaveInteger(ht, this, key, tb) //set this.integer[key] = tb
endmethod
//set b = tb.has(2493223)
method has takes integer key returns boolean
return HaveSavedInteger(ht, this, key) //return this.integer.has(key)
endmethod
//call tb.remove(294080)
method remove takes integer key returns nothing
call RemoveSavedInteger(ht, this, key) //call this.integer.remove(key)
endmethod
//Remove all data from a Table instance
method flush takes nothing returns nothing
call FlushChildHashtable(ht, this)
endmethod
//local Table tb = Table.create()
static method create takes nothing returns Table
local Table this = dex.list[0]
if this == 0 then
set this = more + 1
set more = this
else
set dex.list[0] = dex.list[this]
call dex.list.remove(this) //Clear hashed memory
endif
debug set dex.list[this] = -1
return this
endmethod
// Removes all data from a Table instance and recycles its index.
//
// call tb.destroy()
//
method destroy takes nothing returns nothing
debug if dex.list[this] != -1 then
debug call BJDebugMsg("Table Error: Tried to double-free instance: " + I2S(this))
debug return
debug endif
call this.flush()
set dex.list[this] = dex.list[0]
set dex.list[0] = this
endmethod
//! runtextmacro optional TABLE_BC_METHODS()
endstruct
//! runtextmacro optional TABLE_BC_STRUCTS()
struct TableArray extends array
//Returns a new TableArray to do your bidding. Simply use:
//
// local TableArray ta = TableArray[array_size]
//
static method operator [] takes integer array_size returns TableArray
local Table tb = dex.size[array_size] //Get the unique recycle list for this array size
local TableArray this = tb[0] //The last-destroyed TableArray that had this array size
debug if array_size <= 0 then
debug call BJDebugMsg("TypeError: Invalid specified TableArray size: " + I2S(array_size))
debug return 0
debug endif
if this == 0 then
set this = less - array_size
set less = this
else
set tb[0] = tb[this] //Set the last destroyed to the last-last destroyed
call tb.remove(this) //Clear hashed memory
endif
set dex.size[this] = array_size //This remembers the array size
return this
endmethod
//Returns the size of the TableArray
method operator size takes nothing returns integer
return dex.size[this]
endmethod
//This magic method enables two-dimensional[array][syntax] for Tables,
//similar to the two-dimensional utility provided by hashtables them-
//selves.
//
//ta[integer a].unit[integer b] = unit u
//ta[integer a][integer c] = integer d
//
//Inline-friendly when not running in debug mode
//
method operator [] takes integer key returns Table
static if DEBUG_MODE then
local integer i = this.size
if i == 0 then
call BJDebugMsg("IndexError: Tried to get key from invalid TableArray instance: " + I2S(this))
return 0
elseif key < 0 or key >= i then
call BJDebugMsg("IndexError: Tried to get key [" + I2S(key) + "] from outside TableArray bounds: " + I2S(i))
return 0
endif
endif
return this + key
endmethod
//Destroys a TableArray without flushing it; I assume you call .flush()
//if you want it flushed too. This is a public method so that you don't
//have to loop through all TableArray indices to flush them if you don't
//need to (ie. if you were flushing all child-keys as you used them).
//
method destroy takes nothing returns nothing
local Table tb = dex.size[this.size]
debug if this.size == 0 then
debug call BJDebugMsg("TypeError: Tried to destroy an invalid TableArray: " + I2S(this))
debug return
debug endif
if tb == 0 then
//Create a Table to index recycled instances with their array size
set tb = Table.create()
set dex.size[this.size] = tb
endif
call dex.size.remove(this) //Clear the array size from hash memory
set tb[this] = tb[0]
set tb[0] = this
endmethod
private static Table tempTable
private static integer tempEnd
//Avoids hitting the op limit
private static method clean takes nothing returns nothing
local Table tb = .tempTable
local integer end = tb + 0x1000
if end < .tempEnd then
set .tempTable = end
call ForForce(bj_FORCE_PLAYER[0], function thistype.clean)
else
set end = .tempEnd
endif
loop
call tb.flush()
set tb = tb + 1
exitwhen tb == end
endloop
endmethod
//Flushes the TableArray and also destroys it. Doesn't get any more
//similar to the FlushParentHashtable native than this.
//
method flush takes nothing returns nothing
debug if this.size == 0 then
debug call BJDebugMsg("TypeError: Tried to flush an invalid TableArray instance: " + I2S(this))
debug return
debug endif
set .tempTable = this
set .tempEnd = this + this.size
call ForForce(bj_FORCE_PLAYER[0], function thistype.clean)
call this.destroy()
endmethod
endstruct
//NEW: Added in Table 4.0. A fairly simple struct but allows you to do more
//than that which was previously possible.
struct HashTable extends array
//Enables myHash[parentKey][childKey] syntax.
//Basically, it creates a Table in the place of the parent key if
//it didn't already get created earlier.
method operator [] takes integer index returns Table
local Table t = Table(this)[index]
if t == 0 then
set t = Table.create()
set Table(this)[index] = t //whoops! Forgot that line. I'm out of practice!
endif
return t
endmethod
//You need to call this on each parent key that you used if you
//intend to destroy the HashTable or simply no longer need that key.
method remove takes integer index returns nothing
local Table t = Table(this)[index]
if t != 0 then
call t.destroy()
call Table(this).remove(index)
endif
endmethod
//Added in version 4.1
method has takes integer index returns boolean
return Table(this).has(index)
endmethod
//HashTables are just fancy Table indices.
method destroy takes nothing returns nothing
call Table(this).destroy()
endmethod
//Like I said above...
static method create takes nothing returns thistype
return Table.create()
endmethod
endstruct
endlibrary
//TESH.scrollpos=0
//TESH.alwaysfold=0
native UnitAlive takes unit id returns boolean
library Wander uses Table optional TimerUtils
//==================================================================
// Version: 1.4.2
// Author: BPower
//==================================================================
// Libary Wander mimics the native Wander ability, while
// granting advanced controll over the unit movement.
//==================================================================
// Credits to:
// Vexorian for TimerUtils - wc3c.net/showthread.php?t=101322
// Bribe for Table - hiveworkshop.com/forums/jass-resources-412/snippet-new-table-188084/
//==================================================================
// API:
//
// Methods:
//
// static method operator [] takes unit whichUnit returns thistype
//
// static method create takes unit whichUnit, real range, real cooldown returns thistype
//
// method destroy takes nothing returns nothing
//
// method exists takes nothing returns boolean
//
// method pause takes nothing returns nothing
//
// method resume takes nothing returns nothing
//
// Fields:
//
// readonly unit source
// real radius
// real centerX
// real centerY
// real timeout ( The timer timeout )
// real random ( Optionally adds a random interval to the timer timeout )
// string order ( Either "move" or "attack" are recommended )
//
//==================================================================
// User settings:
globals
private constant real DEFAULT_TIMER_TIMEOUT = 1.0
private constant string DEFAULT_ORDER_STRING = "move"
endglobals
//==================================================================
// Wander code. Make changes carefully.
//==================================================================
globals
private Table table
endglobals
private module Init
private static method onInit takes nothing returns nothing
call thistype.init()
endmethod
endmodule
private function Random takes nothing returns real
return GetRandomReal(0., 1.)
endfunction
struct Wander// extends array
// implement Alloc
//
// Struct members:
readonly unit source
real radius
real centerX
real centerY
real timeout
real random
string order
private timer tmr
method operator exists takes nothing returns boolean
return tmr != null
endmethod
static method operator [] takes unit whichUnit returns thistype
return table[GetHandleId(whichUnit)]
endmethod
method pause takes nothing returns nothing
call PauseTimer(tmr)
endmethod
method resume takes nothing returns nothing
call ResumeTimer(tmr)
endmethod
method destroy takes nothing returns nothing
if not exists then
return
endif
call deallocate()
call table.remove(GetHandleId(source))
static if LIBRARY_TimerUtils then
call ReleaseTimer(tmr)
else
call table.remove(GetHandleId(tmr))
call DestroyTimer(tmr)
endif
set source = null
set tmr = null
endmethod
method issueWander takes nothing returns boolean
local real t = Random()*2*bj_PI
local real r = Random() + Random()
if r > 1. then
set r = (2 - r)*radius
else
set r = r*radius
endif
return IssuePointOrder(source, order, centerX + r*Cos(t), centerY + r*Sin(t))
endmethod
private static method onPeriodic takes nothing returns nothing
static if LIBRARY_TimerUtils then
local thistype this = GetTimerData(GetExpiredTimer())
else
local thistype this = table[GetHandleId(GetExpiredTimer())]
endif
if UnitAlive(source) then
// There are a few order ids, which eventually mess with the following unit order comparison.
// For example order id 851974. An endless going, undocumented order serving no obvious purpose.
if GetUnitCurrentOrder(source) == 0 and issueWander() then
call TimerStart(tmr, timeout + random*Random(), true, function thistype.onPeriodic)
else
// Update in short intervals until a wander order is issued.
call TimerStart(tmr, DEFAULT_TIMER_TIMEOUT, true, function thistype.onPeriodic)
endif
else
call destroy()
endif
endmethod
static method create takes unit whichUnit, real range, real cooldown returns thistype
local thistype this = thistype[whichUnit]
if not exists then
set this = thistype.allocate()
set source = whichUnit
set order = DEFAULT_ORDER_STRING
set table[GetHandleId(whichUnit)] = this
static if not LIBRARY_TimerUtils then
set tmr = CreateTimer()
set table[GetHandleId(tmr)] = this
else
set tmr = NewTimerEx(this)
endif
endif
set radius = range
set random = 0.
set centerX = GetUnitX(whichUnit)
set centerY = GetUnitY(whichUnit)
set timeout = RMaxBJ(0., cooldown)
call TimerStart(tmr, timeout, true, function thistype.onPeriodic)
return this
endmethod
private static method init takes nothing returns nothing
set table = Table.create()
endmethod
implement Init
endstruct
endlibrary
//TESH.scrollpos=0
//TESH.alwaysfold=0
scope DemoMap initializer Init
private function PassivePlayer takes nothing returns boolean
local Wander wander = Wander.create(GetFilterUnit(), 400, 7.)
set wander.random = 7
set wander.order = "move"
return false
endfunction
private function AggressivePlayer takes nothing returns boolean
local Wander wander = Wander.create(GetFilterUnit(), 600, 7.)
set wander.random = 3
set wander.order = "attack"
return false
endfunction
private function Init takes nothing returns nothing
call CreateFogModifierRectBJ(true, Player(0), FOG_OF_WAR_VISIBLE, GetPlayableMapRect())
call GroupEnumUnitsOfPlayer(bj_lastCreatedGroup, Player(PLAYER_NEUTRAL_AGGRESSIVE), Filter(function AggressivePlayer))
call GroupEnumUnitsOfPlayer(bj_lastCreatedGroup, Player(PLAYER_NEUTRAL_PASSIVE), Filter(function PassivePlayer))
endfunction
module Init
endmodule
endscope