Difference between revisions of "Intermediate C++ Game Programming Tutorial 24"
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[https://youtu.be/JlPsCoCO99o Tutorial 24.1] | [https://youtu.be/JlPsCoCO99o Tutorial 24.1] | ||
− | * The <code>std::map</code> class [https://youtu.be/JlPsCoCO99o?t=0m46s 0:46] | + | * The <code>std::map<KeyType,ValueType></code> class [https://youtu.be/JlPsCoCO99o?t=0m46s 0:46] |
− | ** keys to lookup (associated with) values | + | ** Maps consist of keys to lookup (associated with) values |
− | ** <code>insert</code> to insert (key,value) pairs | + | ** <code>map.insert(key,value)</code> to insert (key,value) pairs |
+ | ** <code>map[key]</code> returns the value for a key | ||
Revision as of 00:23, 8 December 2019
Associative containers are super useful, both as a convenient fast way to create dictionary or mapping for real-world problems like managing game resources, and as a data structure to help solve more abstract algorithmic computer science problems. And hash tables are fast as balls.
Contents
Topics Covered
Part 1
-
std::map
container interface - Binary tree data structure
-
std::map
key requirements (comparison) -
std::map
gotchas (std::remove_if
andconst
keys) -
std::set
-
std::multimap
andstd::multiset
Part 2
- Hash table performance vs. binary tree performance
- Hash table data structure
-
std::unordered_map
key requirements - Hash combining
-
std::unordered_map
bucket interface and hashing policy - When to choose
std::map
overstd::unordered_map
Video Timestamp Index
- The
std::map<KeyType,ValueType>
class 0:46- Maps consist of keys to lookup (associated with) values
-
map.insert(key,value)
to insert (key,value) pairs -
map[key]
returns the value for a key
- [WORK-IN-PROGRESS]
Homework Assignment
The homework for this video is to enable use of a custom datatype in unordered_map
hashing over multiple (4) members of that datatype. The solution video is here.