Chapter 1.2: Arrays, Maps & Sets
Home | << Previous: Variables & Types | Arrays, Maps & Sets | Next: Classes & Inheritance >>
Wprowadzenie
Real DayZ mods deal with collections of things: lists of players, inventories of items, mappings from player IDs to permissions, sets of active zones. Enforce Script provides three collection types to handle these needs:
array<T>--- Dynamic, ordered, resizable list (the collection you will use most)map<K,V>--- Key-value associative container (hash map)set<T>--- Ordered collection with value-based removal
There are also static arrays (int arr[5]) for fixed-size data known at compile time. This chapter covers all of them in depth, including every available method, iteration patterns, and the subtle pitfalls that cause real bugs in production mods.
Tablice statyczne
Static arrays have a fixed size determined at compile time. They cannot grow or shrink. They are useful for small, known-size collections and are more memory-efficient than dynamic arrays.
Deklaracja i uzycie
c
void StaticArrayBasics()
{
// Declare with literal size
int numbers[5];
numbers[0] = 10;
numbers[1] = 20;
numbers[2] = 30;
numbers[3] = 40;
numbers[4] = 50;
// Declare with initializer list
float damages[3] = {10.5, 25.0, 50.0};
// Declare with const size
const int GRID_SIZE = 4;
string labels[GRID_SIZE];
// Access elements
int first = numbers[0]; // 10
float maxDmg = damages[2]; // 50.0
// Iterate with for loop
for (int i = 0; i < 5; i++)
{
Print(numbers[i]);
}
}Zasady tablic statycznych
- Size must be a compile-time constant (literal or
const int) - You cannot use a variable as the size:
int arr[myVar]is a compile error - Accessing an out-of-bounds index causes undefined behavior (no runtime bounds check)
- Static arrays are passed by reference to functions (unlike primitives)
c
// Static arrays as function parameters
void FillArray(int arr[3])
{
arr[0] = 100;
arr[1] = 200;
arr[2] = 300;
}
void Test()
{
int myArr[3];
FillArray(myArr);
Print(myArr[0]); // 100 -- the original was modified (passed by reference)
}Kiedy uzywac tablic statycznych
Use static arrays for:
- Vector/matrix data (
vector mat[3]for 3x3 rotation matrices) - Small fixed lookup tables
- Performance-critical hot paths where allocation matters
Use dynamic array<T> for everything else.
Dynamic Arrays: array<T>
Dynamic arrays are the most commonly used collection in DayZ modding. They can grow and shrink at runtime, support generics, and provide a rich set of methods.
Tworzenie
c
void CreateArrays()
{
// Method 1: new operator
array<string> names = new array<string>;
// Method 2: Initializer list
array<int> scores = {100, 85, 92, 78};
// Method 3: Using typedef
TStringArray items = new TStringArray; // same as array<string>
// Arrays of any type
array<float> distances = new array<float>;
array<bool> flags = new array<bool>;
array<vector> positions = new array<vector>;
array<PlayerBase> players = new array<PlayerBase>;
}Predefiniowane typedefs
DayZ provides shorthand typedefs for the most common array types:
c
typedef array<string> TStringArray;
typedef array<float> TFloatArray;
typedef array<int> TIntArray;
typedef array<bool> TBoolArray;
typedef array<vector> TVectorArray;You will encounter TStringArray constantly in DayZ code --- config parsing, chat messages, loot tables, and more.
Complete Array Method Reference
Dodawanie elementow
c
void AddingElements()
{
array<string> items = new array<string>;
// Insert: append to end, returns the new index
int idx = items.Insert("Bandage"); // idx == 0
idx = items.Insert("Morphine"); // idx == 1
idx = items.Insert("Saline"); // idx == 2
// items: ["Bandage", "Morphine", "Saline"]
// InsertAt: insert at specific index, shifts existing elements right
items.InsertAt("Epinephrine", 1);
// items: ["Bandage", "Epinephrine", "Morphine", "Saline"]
// InsertAll: append all elements from another array
array<string> moreItems = {"Tetracycline", "Charcoal"};
items.InsertAll(moreItems);
// items: ["Bandage", "Epinephrine", "Morphine", "Saline", "Tetracycline", "Charcoal"]
}Dostep do elementow
c
void AccessingElements()
{
array<string> items = {"Apple", "Banana", "Cherry", "Date"};
// Get: access by index
string first = items.Get(0); // "Apple"
string third = items.Get(2); // "Cherry"
// Bracket operator: same as Get
string second = items[1]; // "Banana"
// Set: replace element at index
items.Set(1, "Blueberry"); // items[1] is now "Blueberry"
// Count: number of elements
int count = items.Count(); // 4
// IsValidIndex: bounds check
bool valid = items.IsValidIndex(3); // true
bool invalid = items.IsValidIndex(4); // false
bool negative = items.IsValidIndex(-1); // false
}Wyszukiwanie
c
void SearchingArrays()
{
array<string> weapons = {"AKM", "M4A1", "Mosin", "IZH18", "AKM"};
// Find: returns first index of element, or -1 if not found
int idx = weapons.Find("Mosin"); // 2
int notFound = weapons.Find("FAL"); // -1
// Check existence
if (weapons.Find("M4A1") != -1)
Print("M4A1 found!");
// GetRandomElement: returns a random element
string randomWeapon = weapons.GetRandomElement();
// GetRandomIndex: returns a random valid index
int randomIdx = weapons.GetRandomIndex();
}Usuwanie elementow
This is where the most common bugs occur. Pay close attention to the difference between Remove and RemoveOrdered.
c
void RemovingElements()
{
array<string> items = {"A", "B", "C", "D", "E"};
// Remove(index): FAST but UNORDERED
// Swaps the element at index with the LAST element, then shrinks the array
items.Remove(1); // Removes "B" by swapping with "E"
// items is now: ["A", "E", "C", "D"] -- ORDER CHANGED!
// RemoveOrdered(index): SLOW but preserves order
// Shifts all elements after the index left by one
items = {"A", "B", "C", "D", "E"};
items.RemoveOrdered(1); // Removes "B", shifts C,D,E left
// items is now: ["A", "C", "D", "E"] -- order preserved
// RemoveItem(value): finds the element and removes it (ordered)
items = {"A", "B", "C", "D", "E"};
items.RemoveItem("C");
// items is now: ["A", "B", "D", "E"]
// Clear: remove all elements
items.Clear();
// items.Count() == 0
}Rozmiar i pojemnosc
c
void SizingArrays()
{
array<int> data = new array<int>;
// Reserve: pre-allocate internal capacity (does NOT change Count)
// Use when you know how many elements you will add
data.Reserve(100);
// data.Count() == 0, but internal buffer is ready for 100 elements
// Resize: change the Count, filling new slots with default values
data.Resize(10);
// data.Count() == 10, all elements are 0
// Resize smaller truncates
data.Resize(5);
// data.Count() == 5
}Sortowanie i mieszanie
c
void OrderingArrays()
{
array<int> numbers = {5, 2, 8, 1, 9, 3};
// Sort ascending
numbers.Sort();
// numbers: [1, 2, 3, 5, 8, 9]
// Sort descending
numbers.Sort(true);
// numbers: [9, 8, 5, 3, 2, 1]
// Invert (reverse) the array
numbers = {1, 2, 3, 4, 5};
numbers.Invert();
// numbers: [5, 4, 3, 2, 1]
// Shuffle randomly
numbers.ShuffleArray();
// numbers: [3, 1, 5, 2, 4] (random order)
}Kopiowanie
c
void CopyingArrays()
{
array<string> original = {"A", "B", "C"};
// Copy: replaces all contents with a copy of another array
array<string> copy = new array<string>;
copy.Copy(original);
// copy: ["A", "B", "C"]
// Modifying copy does NOT affect original
// InsertAll: appends (does not replace)
array<string> combined = {"X", "Y"};
combined.InsertAll(original);
// combined: ["X", "Y", "A", "B", "C"]
}Debugowanie
c
void DebuggingArrays()
{
array<string> items = {"Bandage", "Morphine", "Saline"};
// Debug: prints all elements to script log
items.Debug();
// Output:
// [0] => Bandage
// [1] => Morphine
// [2] => Saline
}Iterowanie tablic
for Loop (Index-Based)
c
void ForLoopIteration()
{
array<string> items = {"AKM", "M4A1", "Mosin"};
for (int i = 0; i < items.Count(); i++)
{
Print(string.Format("[%1] %2", i, items[i]));
}
// [0] AKM
// [1] M4A1
// [2] Mosin
}foreach (Value Only)
c
void ForEachValue()
{
array<string> items = {"AKM", "M4A1", "Mosin"};
foreach (string weapon : items)
{
Print(weapon);
}
// AKM
// M4A1
// Mosin
}foreach (Index + Value)
c
void ForEachIndexValue()
{
array<string> items = {"AKM", "M4A1", "Mosin"};
foreach (int i, string weapon : items)
{
Print(string.Format("[%1] %2", i, weapon));
}
// [0] AKM
// [1] M4A1
// [2] Mosin
}Real-World Example: Finding the Nearest Player
c
PlayerBase FindNearestPlayer(vector origin, float maxRange)
{
array<Man> allPlayers = new array<Man>;
GetGame().GetPlayers(allPlayers);
PlayerBase nearest = null;
float nearestDist = maxRange;
foreach (Man man : allPlayers)
{
PlayerBase player;
if (!Class.CastTo(player, man))
continue;
if (!player.IsAlive())
continue;
float dist = vector.Distance(origin, player.GetPosition());
if (dist < nearestDist)
{
nearestDist = dist;
nearest = player;
}
}
return nearest;
}Maps: map<K,V>
Maps store key-value pairs. They are used when you need to look up a value by a key --- player data by UID, item prices by class name, permissions by role name, and so on.
Tworzenie
c
void CreateMaps()
{
// Standard creation
map<string, int> prices = new map<string, int>;
// Maps of various types
map<string, float> multipliers = new map<string, float>;
map<int, string> idToName = new map<int, string>;
map<string, ref array<string>> categories = new map<string, ref array<string>>;
}Predefiniowane typedefs map
c
typedef map<string, int> TStringIntMap;
typedef map<string, string> TStringStringMap;
typedef map<int, string> TIntStringMap;
typedef map<string, float> TStringFloatMap;Complete Map Method Reference
Wstawianie i aktualizacja
c
void MapInsertUpdate()
{
map<string, int> inventory = new map<string, int>;
// Insert: add a new key-value pair
// Returns true if the key was new, false if it already existed
bool isNew = inventory.Insert("Bandage", 5); // true (new key)
isNew = inventory.Insert("Bandage", 10); // false (key exists, value NOT updated)
// inventory["Bandage"] is still 5!
// Set: insert OR update (this is what you usually want)
inventory.Set("Bandage", 10); // Now inventory["Bandage"] == 10
inventory.Set("Morphine", 3); // New key added
inventory.Set("Morphine", 7); // Existing key updated to 7
}Critical distinction: Insert() does not update existing keys. Set() does. When in doubt, use Set().
Dostep do wartosci
c
void MapAccess()
{
map<string, int> prices = new map<string, int>;
prices.Set("AKM", 5000);
prices.Set("M4A1", 7500);
prices.Set("Mosin", 2000);
// Get: returns value, or default (0 for int) if key not found
int akmPrice = prices.Get("AKM"); // 5000
int falPrice = prices.Get("FAL"); // 0 (not found, returns default)
// Find: safe access, returns true if key exists and sets the out parameter
int price;
bool found = prices.Find("M4A1", price); // found == true, price == 7500
bool notFound = prices.Find("SVD", price); // notFound == false, price unchanged
// Contains: check if key exists (no value retrieval)
bool hasAKM = prices.Contains("AKM"); // true
bool hasFAL = prices.Contains("FAL"); // false
// Count: number of key-value pairs
int count = prices.Count(); // 3
}Usuwanie
c
void MapRemove()
{
map<string, int> data = new map<string, int>;
data.Set("a", 1);
data.Set("b", 2);
data.Set("c", 3);
// Remove: remove by key
data.Remove("b");
// data now has: {"a": 1, "c": 3}
// Clear: remove all entries
data.Clear();
// data.Count() == 0
}Dostep po indeksie
Maps support positional access, but it is O(n) --- use it for iteration, not frequent lookups.
c
void MapIndexAccess()
{
map<string, int> data = new map<string, int>;
data.Set("alpha", 1);
data.Set("beta", 2);
data.Set("gamma", 3);
// Access by internal index (O(n), order is insertion order)
for (int i = 0; i < data.Count(); i++)
{
string key = data.GetKey(i);
int value = data.GetElement(i);
Print(string.Format("%1 = %2", key, value));
}
}Wyodrenianie kluczy i wartosci
c
void MapExtraction()
{
map<string, int> prices = new map<string, int>;
prices.Set("AKM", 5000);
prices.Set("M4A1", 7500);
prices.Set("Mosin", 2000);
// Get all keys as an array
array<string> keys = prices.GetKeyArray();
// keys: ["AKM", "M4A1", "Mosin"]
// Get all values as an array
array<int> values = prices.GetValueArray();
// values: [5000, 7500, 2000]
}Real-World Example: Player Tracking
c
class PlayerTracker
{
protected ref map<string, vector> m_LastPositions; // UID -> position
protected ref map<string, float> m_PlayTime; // UID -> seconds
void PlayerTracker()
{
m_LastPositions = new map<string, vector>;
m_PlayTime = new map<string, float>;
}
void OnPlayerConnect(string uid)
{
m_PlayTime.Set(uid, 0);
}
void OnPlayerDisconnect(string uid)
{
m_LastPositions.Remove(uid);
m_PlayTime.Remove(uid);
}
void UpdatePlayer(string uid, vector pos, float deltaTime)
{
m_LastPositions.Set(uid, pos);
float current = 0;
m_PlayTime.Find(uid, current);
m_PlayTime.Set(uid, current + deltaTime);
}
float GetPlayTime(string uid)
{
float time = 0;
m_PlayTime.Find(uid, time);
return time;
}
}Sets: set<T>
Sets are ordered collections similar to arrays, but with semantics oriented toward value-based operations (find and remove by value). They are less commonly used than arrays and maps.
c
void SetExamples()
{
set<string> activeZones = new set<string>;
// Insert: add an element
activeZones.Insert("NWAF");
activeZones.Insert("Tisy");
activeZones.Insert("Balota");
// Find: returns index or -1
int idx = activeZones.Find("Tisy"); // 1
int missing = activeZones.Find("Zelenogorsk"); // -1
// Get: access by index
string first = activeZones.Get(0); // "NWAF"
// Count
int count = activeZones.Count(); // 3
// Remove by index
activeZones.Remove(0);
// activeZones: ["Tisy", "Balota"]
// RemoveItem: remove by value
activeZones.RemoveItem("Tisy");
// activeZones: ["Balota"]
// Clear
activeZones.Clear();
}Kiedy uzywac Set vs Array
In practice, most DayZ modders use array<T> for almost everything because:
set<T>has fewer methods thanarray<T>array<T>providesFind()for search andRemoveItem()for value-based removal- The API you need is typically on
array<T>already
Use set<T> when your code semantically represents a set (no meaningful order, focused on membership testing), or when you encounter it in vanilla DayZ code and need to interface with it.
Iterowanie map
Maps support foreach for convenient iteration:
foreach with Key-Value
c
void IterateMap()
{
map<string, int> scores = new map<string, int>;
scores.Set("Alice", 150);
scores.Set("Bob", 230);
scores.Set("Charlie", 180);
// foreach with key and value
foreach (string name, int score : scores)
{
Print(string.Format("%1: %2 points", name, score));
}
// Alice: 150 points
// Bob: 230 points
// Charlie: 180 points
}Index-Based for Loop
c
void IterateMapByIndex()
{
map<string, int> scores = new map<string, int>;
scores.Set("Alice", 150);
scores.Set("Bob", 230);
for (int i = 0; i < scores.Count(); i++)
{
string key = scores.GetKey(i);
int val = scores.GetElement(i);
Print(string.Format("%1 = %2", key, val));
}
}Zagniezdzone kolekcje
Collections can contain other collections. When storing reference types (like arrays) inside a map, use ref to manage ownership.
c
class LootTable
{
// Map from category name to list of class names
protected ref map<string, ref array<string>> m_Categories;
void LootTable()
{
m_Categories = new map<string, ref array<string>>;
// Create category arrays
ref array<string> medical = new array<string>;
medical.Insert("Bandage");
medical.Insert("Morphine");
medical.Insert("Saline");
ref array<string> weapons = new array<string>;
weapons.Insert("AKM");
weapons.Insert("M4A1");
m_Categories.Set("medical", medical);
m_Categories.Set("weapons", weapons);
}
string GetRandomFromCategory(string category)
{
array<string> items;
if (!m_Categories.Find(category, items))
return "";
if (items.Count() == 0)
return "";
return items.GetRandomElement();
}
}Najczestsze bledy
1. Remove vs RemoveOrdered: The Silent Bug
Remove(index) is fast but changes the order by swapping with the last element. If you are iterating forward and removing, this causes skipped elements:
c
// BAD: skips elements because Remove swaps order
array<int> nums = {1, 2, 3, 4, 5};
for (int i = 0; i < nums.Count(); i++)
{
if (nums[i] % 2 == 0)
nums.Remove(i); // After removing index 1, element at index 1 is now "5"
// and we skip to index 2, missing "5"
}
// GOOD: iterate backward when removing
array<int> nums2 = {1, 2, 3, 4, 5};
for (int j = nums2.Count() - 1; j >= 0; j--)
{
if (nums2[j] % 2 == 0)
nums2.Remove(j); // Safe: removing from the end doesn't affect lower indices
}
// ALSO GOOD: use RemoveOrdered with backward iteration for order preservation
array<int> nums3 = {1, 2, 3, 4, 5};
for (int k = nums3.Count() - 1; k >= 0; k--)
{
if (nums3[k] % 2 == 0)
nums3.RemoveOrdered(k);
}
// nums3: [1, 3, 5] in original order2. Array Index Out of Bounds
Enforce Script does not throw exceptions for out-of-bounds access --- it silently returns garbage or crashes. Always check bounds.
c
// BAD: no bounds check
array<string> items = {"A", "B", "C"};
string fourth = items[3]; // UNDEFINED BEHAVIOR: index 3 doesn't exist
// GOOD: check bounds
if (items.IsValidIndex(3))
{
string fourth2 = items[3];
}
// GOOD: check count
if (items.Count() > 0)
{
string last = items[items.Count() - 1];
}3. Forgetting to Create the Collection
Collections are objects and must be instantiated with new:
c
// BAD: null reference crash
array<string> items;
items.Insert("Test"); // CRASH: items is null
// GOOD: create first
array<string> items2 = new array<string>;
items2.Insert("Test");
// ALSO GOOD: initializer list creates automatically
array<string> items3 = {"Test"};4. Insert vs Set on Maps
Insert does not update existing keys --- it returns false and leaves the value unchanged:
c
map<string, int> data = new map<string, int>;
data.Insert("key", 100);
data.Insert("key", 200); // Returns false, value is STILL 100!
// Use Set to update
data.Set("key", 200); // Now value is 2005. Modifying a Collection During foreach
Do not add or remove elements from a collection while iterating over it with foreach. Build a separate list of elements to remove, then remove them afterward.
c
// BAD: modifying during iteration
array<string> items = {"A", "B", "C", "D"};
foreach (string item : items)
{
if (item == "B")
items.RemoveItem(item); // UNDEFINED: invalidates iterator
}
// GOOD: collect then remove
array<string> toRemove = new array<string>;
foreach (string item2 : items)
{
if (item2 == "B")
toRemove.Insert(item2);
}
foreach (string rem : toRemove)
{
items.RemoveItem(rem);
}6. Empty Array Safety
Always check if an array is both non-null and non-empty before accessing elements:
c
string GetFirstItem(array<string> items)
{
// Guard clause: null check + empty check
if (!items || items.Count() == 0)
return "";
return items[0];
}Cwiczenia praktyczne
Exercise 1: Inventory Counter
Create a function that takes an array<string> of item class names (with duplicates) and returns a map<string, int> counting how many of each item exists.
Example: {"Bandage", "Morphine", "Bandage", "Saline", "Bandage"} should produce {"Bandage": 3, "Morphine": 1, "Saline": 1}.
Exercise 2: Array Deduplication
Write a function array<string> RemoveDuplicates(array<string> input) that returns a new array with duplicates removed, preserving the order of first occurrence.
Exercise 3: Leaderboard
Create a map<string, int> of player names to kill counts. Write functions to:
- Add a kill for a player (creating the entry if needed)
- Get the top N players sorted by kills (hint: extract to arrays, sort)
- Remove all players with zero kills
Exercise 4: Position History
Create a class that stores the last 10 positions of a player (ring buffer using an array). It should:
- Add a new position (dropping the oldest if at capacity)
- Return the total distance traveled across all stored positions
- Return the average position
Exercise 5: Two-Way Lookup
Create a class with two maps that allows lookup in both directions: given a player UID, find their name; given a name, find their UID. Implement Register(uid, name), GetNameByUID(uid), GetUIDByName(name), and Unregister(uid).
Podsumowanie
| Collection | Type | Use Case | Key Difference |
|---|---|---|---|
| Static array | int arr[5] | Fixed-size, compile-time known | No resize, no methods |
| Dynamic array | array<T> | General-purpose ordered list | Rich API, resizable |
| Map | map<K,V> | Key-value lookup | Set() to insert/update |
| Set | set<T> | Value-based membership | Simpler than array, less common |
| Operation | Method | Notes |
|---|---|---|
| Add to end | Insert(val) | Returns index |
| Add at position | InsertAt(val, idx) | Shifts right |
| Remove fast | Remove(idx) | Swaps with last, unordered |
| Remove ordered | RemoveOrdered(idx) | Shifts left, preserves order |
| Remove by value | RemoveItem(val) | Finds then removes (ordered) |
| Find | Find(val) | Returns index or -1 |
| Count | Count() | Number of elements |
| Bounds check | IsValidIndex(idx) | Returns bool |
| Sort | Sort() / Sort(true) | Ascending / descending |
| Random | GetRandomElement() | Returns random value |
| foreach | foreach (T val : arr) | Value only |
| foreach indexed | foreach (int i, T val : arr) | Index + value |
Home | << Previous: Variables & Types | Arrays, Maps & Sets | Next: Classes & Inheritance >>