Difference between revisions of "Chained Dictionary Assignment"

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In this and the follow up [[Sorted_Dictionary_Assignment|Sorted Dictionary]] studio, you will build three implementations of a dictionary.  Each will be an immutable data structure.
 
In this and the follow up [[Sorted_Dictionary_Assignment|Sorted Dictionary]] studio, you will build three implementations of a dictionary.  Each will be an immutable data structure.
  
=Background=
+
=Reference=
 
==SML structure [https://smlfamily.github.io/Basis/option.html Option]==
 
==SML structure [https://smlfamily.github.io/Basis/option.html Option]==
 
  datatype 'a option = NONE | SOME of 'a
 
  datatype 'a option = NONE | SOME of 'a
Line 10: Line 10:
 
Note the [http://www.cs.cmu.edu/~rwh/isml/book.pdf#subsection.18.1.2 include] in the DICTIONARY signature.
 
Note the [http://www.cs.cmu.edu/~rwh/isml/book.pdf#subsection.18.1.2 include] in the DICTIONARY signature.
  
<nowiki>signature DICTIONARY_FUNCTOR_PARAMETER = sig
+
<syntaxhighlight lang="sml">
 +
signature DICTIONARY_FUNCTOR_PARAMETER = sig
 
     type (''k,'v) dictionary
 
     type (''k,'v) dictionary
 
     type ''k create_parameter_type
 
     type ''k create_parameter_type
Line 23: Line 24:
 
     val keys : (''k,'v) dictionary -> ''k list
 
     val keys : (''k,'v) dictionary -> ''k list
 
     val values : (''k,'v) dictionary -> 'v list
 
     val values : (''k,'v) dictionary -> 'v list
end</nowiki>
+
end
 +
</syntaxhighlight>
  
 
===create===
 
===create===
Line 33: Line 35:
  
 
# instead of mutating the provided dictionary, it returns an immutable updated dictionary.
 
# instead of mutating the provided dictionary, it returns an immutable updated dictionary.
# instead of returning null or the previously associated value, it returns an option of the associate value (along with the updated dictionary in a 2-tuple).
+
# instead of returning null or the previously associated value, it returns an option of the previously associated value (along with the updated dictionary in a 2-tuple).
  
 
===remove===
 
===remove===
Line 39: Line 41:
  
 
# instead of mutating the provided dictionary, it returns an immutable updated dictionary.
 
# instead of mutating the provided dictionary, it returns an immutable updated dictionary.
# instead of returning null or the previously associated value, it returns an option of the associate value (along with the updated dictionary in a 2-tuple).
+
# instead of returning null or the previously associated value, it returns an option of the previously associated value (along with the updated dictionary in a 2-tuple).
  
 
===entries===
 
===entries===
Line 55: Line 57:
 
One of [https://smlfamily.github.io/Basis/list.html List]'s higher order functions can be useful here.  Which one is it?
 
One of [https://smlfamily.github.io/Basis/list.html List]'s higher order functions can be useful here.  Which one is it?
  
<nowiki>fun keys(dict : (''k,'v) dictionary) : ''k list =  
+
<syntaxhighlight lang="sml">
raise Fail "NotYetImplemented"</nowiki>
+
fun keys(dict : (''k,'v) dictionary) : ''k list =  
 +
raise Fail "NotYetImplemented"
 +
</syntaxhighlight>
  
 
===values===
 
===values===
 
One of [https://smlfamily.github.io/Basis/list.html List]'s higher-order functions can be useful here.  Which one is it?
 
One of [https://smlfamily.github.io/Basis/list.html List]'s higher-order functions can be useful here.  Which one is it?
  
<nowiki>fun values(dict : (''k,'v) dictionary) : 'v list =  
+
<syntaxhighlight lang="sml">
raise Fail "NotYetImplemented"</nowiki>
+
fun values(dict : (''k,'v) dictionary) : 'v list =  
 +
raise Fail "NotYetImplemented"
 +
</syntaxhighlight>
  
 
==structure Chain==
 
==structure Chain==
Line 69: Line 75:
 
We implement structure Chain so we can use the code in both SingleChainedDictionary and HashedDictionary.
 
We implement structure Chain so we can use the code in both SingleChainedDictionary and HashedDictionary.
  
<nowiki>signature CHAIN = sig
+
<syntaxhighlight lang="sml">
 +
signature CHAIN = sig
 
val get : (''k*'v) list * ''k -> 'v option
 
val get : (''k*'v) list * ''k -> 'v option
 
val put : (''k*'v) list * ''k * 'v -> ((''k*'v) list * 'v option)
 
val put : (''k*'v) list * ''k * 'v -> ((''k*'v) list * 'v option)
 
val remove : (''k*'v) list * ''k -> ((''k*'v) list * 'v option)
 
val remove : (''k*'v) list * ''k -> ((''k*'v) list * 'v option)
end</nowiki>
+
end
 +
</syntaxhighlight>
 
===get===
 
===get===
<nowiki>fun get(chain : (''k*'v) list, key:''k) : 'v option =
+
<syntaxhighlight lang="sml">
     raise Fail "NotYetImplemented"</nowiki>
+
fun get(chain : (''k*'v) list, key:''k) : 'v option =
 +
     raise Fail "NotYetImplemented"
 +
</syntaxhighlight>
 
===put===
 
===put===
<nowiki>fun put(chain : (''k*'v) list, key:''k, value:'v) : (''k*'v) list * 'v option =
+
<syntaxhighlight lang="sml">
     raise Fail "NotYetImplemented"</nowiki>
+
fun put(chain : (''k*'v) list, key:''k, value:'v) : (''k*'v) list * 'v option =
 +
     raise Fail "NotYetImplemented"
 +
</syntaxhighlight>
  
 
===remove===
 
===remove===
<nowiki>fun remove(chain : (''k*'v) list, key : ''k) : (''k*'v) list * 'v option =
+
<syntaxhighlight lang="sml">
     raise Fail "NotYetImplemented"</nowiki>
+
fun remove(chain : (''k*'v) list, key : ''k) : (''k*'v) list * 'v option =
 +
     raise Fail "NotYetImplemented"
 +
</syntaxhighlight>
  
 
==structure SingleChainedDictionary==
 
==structure SingleChainedDictionary==
 
One can imagine the utility of having a simple Dictionary without the overhead of a HashTable.  Perhaps, the number of anticipated entries is small.  Perhaps, its performance is not critical.  Maybe the client wants to use a mutable key which would create an invalid HashedDictionary.  Whatever the reason, it seems like a reasonable and straightforward implementation of Dictionary to provide.
 
One can imagine the utility of having a simple Dictionary without the overhead of a HashTable.  Perhaps, the number of anticipated entries is small.  Perhaps, its performance is not critical.  Maybe the client wants to use a mutable key which would create an invalid HashedDictionary.  Whatever the reason, it seems like a reasonable and straightforward implementation of Dictionary to provide.
  
<nowiki>structure SingleChainedDictionary = DictionaryFn(struct
+
<syntaxhighlight lang="sml">
 +
structure SingleChainedDictionary = DictionaryFn(struct
 
      
 
      
 
     (* TODO: replace unit with the type you decide upon *)
 
     (* TODO: replace unit with the type you decide upon *)
Line 110: Line 125:
 
         raise Fail "NotYetImplemented"
 
         raise Fail "NotYetImplemented"
  
end)</nowiki>
+
end)
 +
</syntaxhighlight>
  
 
[[File:Single_chained_dictionary.svg|400px]]
 
[[File:Single_chained_dictionary.svg|400px]]
Line 117: Line 133:
 
Change the definition of <nowiki>type (''k,'v) dictionary</nowiki> to support SingleChainedDictionary.
 
Change the definition of <nowiki>type (''k,'v) dictionary</nowiki> to support SingleChainedDictionary.
  
<nowiki>(* TODO: replace unit with the type you decide upon *)
+
<syntaxhighlight lang="sml">
type (''k,'v) dictionary = unit</nowiki>
+
(* TODO: replace unit with the type you decide upon *)
 +
type (''k,'v) dictionary = unit
 +
</syntaxhighlight>
  
 
===type create_parameter_type===
 
===type create_parameter_type===
 
Leave create_parameter_type unchanged.  SingleChainedDictionary's create method accepts no parameters, so unit is the correct type.
 
Leave create_parameter_type unchanged.  SingleChainedDictionary's create method accepts no parameters, so unit is the correct type.
  
<nowiki>type ''k create_parameter_type = unit</nowiki>
+
<syntaxhighlight lang="sml">
 
+
type ''k create_parameter_type = unit
 +
</syntaxhighlight>
 
=== create function ===
 
=== create function ===
<nowiki>fun create() : (''k,'v) dictionary =  
+
<syntaxhighlight lang="sml">
raise Fail "NotYetImplemented"</nowiki>
+
fun create() : (''k,'v) dictionary =  
 +
raise Fail "NotYetImplemented"
 +
</syntaxhighlight>
  
 
=== get ===
 
=== get ===
<nowiki>fun get(dict : (''k,'v) dictionary, key : ''k) : 'v option =  
+
<syntaxhighlight lang="sml">
raise Fail "NotYetImplemented"</nowiki>
+
fun get(dict : (''k,'v) dictionary, key : ''k) : 'v option =  
 +
raise Fail "NotYetImplemented"
 +
</syntaxhighlight>
  
 
remember to use the Chain structure.
 
remember to use the Chain structure.
  
 
=== put ===
 
=== put ===
<nowiki>put(dict : (''k,'v) dictionary, key : ''k , value : 'v) : (''k,'v) dictionary * 'v option =
+
<syntaxhighlight lang="sml">
raise Fail "NotYetImplemented"</nowiki>
+
fun put(dict : (''k,'v) dictionary, key : ''k , value : 'v) : (''k,'v) dictionary * 'v option =
 +
raise Fail "NotYetImplemented"
 +
</syntaxhighlight>
  
 
remember to use the Chain structure.
 
remember to use the Chain structure.
  
 
=== remove ===
 
=== remove ===
<nowiki>fun entries(dict : (''k,'v) dictionary) : (''k*'v) list =
+
<syntaxhighlight lang="sml">
raise Fail "NotYetImplemented"</nowiki>
+
fun remove(dict : (''k,'v) dictionary, key : ''k) : (''k,'v) dictionary * 'v option =
 +
raise Fail "NotYetImplemented"
 +
</syntaxhighlight>
  
 
remember to use the Chain structure.
 
remember to use the Chain structure.
Line 150: Line 177:
 
Define the entries method so we can take advantage of the <code>keys</code> and <code>values</code> functions you implemented on <code>functor DictionaryFn</code>.
 
Define the entries method so we can take advantage of the <code>keys</code> and <code>values</code> functions you implemented on <code>functor DictionaryFn</code>.
  
<nowiki>fun entries(dict : (''k,'v) dictionary) : (''k*'v) list =
+
<syntaxhighlight lang="sml">
raise Fail "NotYetImplemented"</nowiki>
+
fun entries(dict : (''k,'v) dictionary) : (''k*'v) list =
 +
raise Fail "NotYetImplemented"
 +
</syntaxhighlight>
  
 
==structure HashedDictionary==
 
==structure HashedDictionary==
Line 170: Line 199:
  
 
=== shell ===
 
=== shell ===
<nowiki>structure HashedDictionary = DictionaryFn(struct
+
<syntaxhighlight lang="sml">
 +
structure HashedDictionary = DictionaryFn(struct
 
     type ''k hash_function = ''k -> int
 
     type ''k hash_function = ''k -> int
  
Line 182: Line 212:
  
 
     fun positive_remainder(v : int, n : int) : int =  
 
     fun positive_remainder(v : int, n : int) : int =  
let
+
        let
val result = v mod n  
+
            val result = v mod n  
in  
+
        in  
if result >= 0 then result else result+n
+
            if result >= 0 then result else result+n
end  
+
        end  
  
 
     fun getChainForKey(dict : (''k,'v) dictionary, key : ''k) : (''k*'v) list =
 
     fun getChainForKey(dict : (''k,'v) dictionary, key : ''k) : (''k*'v) list =
raise Fail "NotYetImplemented"
+
        raise Fail "NotYetImplemented"
  
 
     fun updateChainForKey(dict : (''k,'v) dictionary, key : ''k, updater_function) : (''k,'v) dictionary * 'v option =
 
     fun updateChainForKey(dict : (''k,'v) dictionary, key : ''k, updater_function) : (''k,'v) dictionary * 'v option =
raise Fail "NotYetImplemented"
+
        raise Fail "NotYetImplemented"
 
 
  
 
     fun get(dict : (''k,'v) dictionary, key : ''k) : 'v option =  
 
     fun get(dict : (''k,'v) dictionary, key : ''k) : 'v option =  
Line 205: Line 234:
  
 
     fun entries(dict : (''k,'v) dictionary) : (''k*'v) list =
 
     fun entries(dict : (''k,'v) dictionary) : (''k*'v) list =
raise Fail "NotYetImplemented"
+
        raise Fail "NotYetImplemented"
  
end)</nowiki>
+
end)
 +
</syntaxhighlight>
  
 
[[File:Hash table 5 0 1 1 1 1 1 LL.svg]]
 
[[File:Hash table 5 0 1 1 1 1 1 LL.svg]]
Line 214: Line 244:
 
Change the definition of <nowiki>type (''k,'v) dictionary</nowiki> to support HashedDictionary.
 
Change the definition of <nowiki>type (''k,'v) dictionary</nowiki> to support HashedDictionary.
  
<nowiki>(* TODO: replace unit with the type you decide upon *)
+
<syntaxhighlight lang="sml">
type (''k,'v) dictionary = unit</nowiki>
+
(* TODO: replace unit with the type you decide upon *)
 +
type (''k,'v) dictionary = unit
 +
</syntaxhighlight>
  
 
===type create_parameter_type===
 
===type create_parameter_type===
 
Leave create_parameter_type unchanged.  HashedDictionary's create method accepts two parameters: an int for the requested bucket count and a hash_function.
 
Leave create_parameter_type unchanged.  HashedDictionary's create method accepts two parameters: an int for the requested bucket count and a hash_function.
  
<nowiki>type ''k create_parameter_type = (int * (''k hash_function))</nowiki>
+
<syntaxhighlight lang="sml">
 +
type ''k create_parameter_type = (int * (''k hash_function))
 +
</syntaxhighlight>
  
 
=== create ===
 
=== create ===
<nowiki>fun create() : (''k,'v) dictionary =  
+
<syntaxhighlight lang="sml">
raise Fail "NotYetImplemented"</nowiki>
+
fun create() : (''k,'v) dictionary =  
 +
raise Fail "NotYetImplemented"
 +
</syntaxhighlight>
  
 
=== positive_remainder ===
 
=== positive_remainder ===
 
Hash codes can be negative.  Vector indices cannot.  Use this function to ensure a valid index.
 
Hash codes can be negative.  Vector indices cannot.  Use this function to ensure a valid index.
  
<nowiki>fun positive_remainder(v : int, n : int) : int =  
+
<syntaxhighlight lang="sml">
 +
fun positive_remainder(v : int, n : int) : int =  
 
let
 
let
 
val result = v mod n  
 
val result = v mod n  
 
in  
 
in  
 
if result >= 0 then result else result+n
 
if result >= 0 then result else result+n
end</nowiki>
+
end
 
+
</syntaxhighlight>
=== getChainForKey ===
 
<nowiki>fun getChainForKey(dict : (''k,'v) dictionary, key : ''k) : (''k*'v) list =
 
raise Fail "NotYetImplemented"</nowiki>
 
 
 
=== updateChainForKey ===
 
<nowiki>fun updateChainForKey(dict : (''k,'v) dictionary, key : ''k, updater_function) : (''k,'v) dictionary * 'v option =
 
raise Fail "NotYetImplemented"</nowiki>
 
  
 
=== get ===
 
=== get ===
<nowiki>fun get(dict : (''k,'v) dictionary, key : ''k) : 'v option =  
+
<syntaxhighlight lang="sml">
raise Fail "NotYetImplemented"</nowiki>
+
fun get(dict : (''k,'v) dictionary, key : ''k) : 'v option =  
 +
raise Fail "NotYetImplemented"
 +
</syntaxhighlight>
  
 
remember to use the Chain structure.
 
remember to use the Chain structure.
  
 
=== put ===
 
=== put ===
<nowiki>put(dict : (''k,'v) dictionary, key : ''k , value : 'v) : (''k,'v) dictionary * 'v option =
+
<syntaxhighlight lang="sml">
raise Fail "NotYetImplemented"</nowiki>
+
fun put(dict : (''k,'v) dictionary, key : ''k , value : 'v) : (''k,'v) dictionary * 'v option =
 +
raise Fail "NotYetImplemented"
 +
</syntaxhighlight>
  
 
remember to use the Chain structure.
 
remember to use the Chain structure.
  
 
=== remove ===
 
=== remove ===
<nowiki>fun entries(dict : (''k,'v) dictionary) : (''k*'v) list =
+
<syntaxhighlight lang="sml">
raise Fail "NotYetImplemented"</nowiki>
+
fun remove(dict : (''k,'v) dictionary, key : ''k) : (''k,'v) dictionary * 'v option =
 +
raise Fail "NotYetImplemented"
 +
</syntaxhighlight>
  
 
remember to use the Chain structure.
 
remember to use the Chain structure.
Line 265: Line 301:
 
Define the entries method so we can take advantage of the <code>keys</code> and <code>values</code> functions you implemented on <code>functor DictionaryFn</code>.
 
Define the entries method so we can take advantage of the <code>keys</code> and <code>values</code> functions you implemented on <code>functor DictionaryFn</code>.
  
<nowiki>fun entries(dict : (''k,'v) dictionary) : (''k*'v) list =
+
<syntaxhighlight lang="sml">
raise Fail "NotYetImplemented"</nowiki>
+
fun entries(dict : (''k,'v) dictionary) : (''k*'v) list =
 +
raise Fail "NotYetImplemented"
 +
</syntaxhighlight>
  
 
=Testing=
 
=Testing=

Latest revision as of 19:35, 14 July 2023

Motivation

In this and the follow up Sorted Dictionary studio, you will build three implementations of a dictionary. Each will be an immutable data structure.

Reference

SML structure Option

datatype 'a option = NONE | SOME of 'a

Code To Investigate

signature Dictionary

Note the include in the DICTIONARY signature.

signature DICTIONARY_FUNCTOR_PARAMETER = sig
    type (''k,'v) dictionary
    type ''k create_parameter_type
    val create : ''k create_parameter_type -> (''k,'v) dictionary
    val get : ((''k,'v) dictionary *''k) -> 'v option
    val put : ((''k,'v) dictionary *''k *'v) -> (''k,'v) dictionary * 'v option
    val remove : ((''k,'v) dictionary *''k) -> (''k,'v) dictionary * 'v option
    val entries : (''k,'v) dictionary -> (''k*'v) list
end

signature DICTIONARY = sig include DICTIONARY_FUNCTOR_PARAMETER
    val keys : (''k,'v) dictionary -> ''k list
    val values : (''k,'v) dictionary -> 'v list
end

create

Specific to each structure. Creates an empty immutable Dictionary.

get

Behaves much like java.util.Map<K,V>'s get(key) method except instead of returning null or the associated value, it returns an option.

put

Behaves much like java.util.Map<K,V>'s put(key,value) method except

  1. instead of mutating the provided dictionary, it returns an immutable updated dictionary.
  2. instead of returning null or the previously associated value, it returns an option of the previously associated value (along with the updated dictionary in a 2-tuple).

remove

Behaves much like java.util.Map<K,V>'s remove(key) method except instead of returning null or the previously associated value, it returns an option.

  1. instead of mutating the provided dictionary, it returns an immutable updated dictionary.
  2. instead of returning null or the previously associated value, it returns an option of the previously associated value (along with the updated dictionary in a 2-tuple).

entries

Behaves much like java.util.Map<K,V>'s entrySet() method.

keys

Behaves much like java.util.Map<K,V>'s keySet() method.

values

Behaves much like java.util.Map<K,V>'s values() method.

Code To Implement

functor DictionaryFn

Each implementation of dictionary can reuse the same functions which given a list of entries produce the keys and values. functor DictionaryFn accepts a signature parameter which defines all of the necessary functions besides keys and values. Critically, this includes the entries function which can be employed to support the keys and values functions.

keys

One of List's higher order functions can be useful here. Which one is it?

fun keys(dict : (''k,'v) dictionary) : ''k list = 
	raise Fail "NotYetImplemented"

values

One of List's higher-order functions can be useful here. Which one is it?

fun values(dict : (''k,'v) dictionary) : 'v list = 
	raise Fail "NotYetImplemented"

structure Chain

Both the SingleChainedDictionary and the HashedDictionary will leverage chaining to deal with collisions. A collision is where more than one (key, value) entry wants to be store in the same chain (a.k.a. list of (key, value) entries). For the SingleChainedDictionary, every unique key will "collide" with every other one since all of them will be stored in the single chain of the SingleChainedDictionary. For the HashedDictionary, there should be fewer collisions since there will be a multiple chains to spread the load, but handling collisions should be similar to the SingleChainedDictionary once the appropriate chain is determined.

We implement structure Chain so we can use the code in both SingleChainedDictionary and HashedDictionary.

signature CHAIN = sig
	val get : (''k*'v) list * ''k -> 'v option
	val put : (''k*'v) list * ''k * 'v -> ((''k*'v) list * 'v option)
	val remove : (''k*'v) list * ''k -> ((''k*'v) list * 'v option)
end

get

fun get(chain : (''k*'v) list, key:''k) : 'v option =
    raise Fail "NotYetImplemented"

put

fun put(chain : (''k*'v) list, key:''k, value:'v) : (''k*'v) list * 'v option =
    raise Fail "NotYetImplemented"

remove

fun remove(chain : (''k*'v) list, key : ''k) : (''k*'v) list * 'v option =
    raise Fail "NotYetImplemented"

structure SingleChainedDictionary

One can imagine the utility of having a simple Dictionary without the overhead of a HashTable. Perhaps, the number of anticipated entries is small. Perhaps, its performance is not critical. Maybe the client wants to use a mutable key which would create an invalid HashedDictionary. Whatever the reason, it seems like a reasonable and straightforward implementation of Dictionary to provide.

structure SingleChainedDictionary = DictionaryFn(struct
    
    (* TODO: replace unit with the type you decide upon *)
    type (''k,'v) dictionary = unit

    type ''k create_parameter_type = unit
    
    fun create() : (''k,'v) dictionary = 
        raise Fail "NotYetImplemented"

    fun get(dict : (''k,'v) dictionary, key : ''k) : 'v option = 
        raise Fail "NotYetImplemented"

    fun put(dict : (''k,'v) dictionary, key : ''k , value : 'v) : (''k,'v) dictionary * 'v option =
        raise Fail "NotYetImplemented"
	
    fun remove(dict : (''k,'v) dictionary, key : ''k) : (''k,'v) dictionary * 'v option =
        raise Fail "NotYetImplemented"

    fun entries(dict : (''k,'v) dictionary) : (''k*'v) list =
        raise Fail "NotYetImplemented"

end)

Single chained dictionary.svg

type dictionary

Change the definition of type (''k,'v) dictionary to support SingleChainedDictionary.

(* TODO: replace unit with the type you decide upon *)
type (''k,'v) dictionary = unit

type create_parameter_type

Leave create_parameter_type unchanged. SingleChainedDictionary's create method accepts no parameters, so unit is the correct type.

type ''k create_parameter_type = unit

create function

fun create() : (''k,'v) dictionary = 
	raise Fail "NotYetImplemented"

get

fun get(dict : (''k,'v) dictionary, key : ''k) : 'v option = 
	raise Fail "NotYetImplemented"

remember to use the Chain structure.

put

fun put(dict : (''k,'v) dictionary, key : ''k , value : 'v) : (''k,'v) dictionary * 'v option =
	raise Fail "NotYetImplemented"

remember to use the Chain structure.

remove

fun remove(dict : (''k,'v) dictionary, key : ''k) : (''k,'v) dictionary * 'v option =
	raise Fail "NotYetImplemented"

remember to use the Chain structure.

entries

Define the entries method so we can take advantage of the keys and values functions you implemented on functor DictionaryFn.

fun entries(dict : (''k,'v) dictionary) : (''k*'v) list =
	raise Fail "NotYetImplemented"

structure HashedDictionary

Reference

Abstract Data Type

HashTable on Wikipedia

Hash table

SML structure Vector

  1. tabulate : int * (int -> 'a) -> 'a vector
  2. length : 'a vector -> int
  3. sub : a vector * int -> 'a
  4. update : 'a vector * int * 'a -> 'a vector
  5. foldl : ('a * 'b -> 'b) -> 'b -> 'a vector -> 'b

shell

structure HashedDictionary = DictionaryFn(struct
    type ''k hash_function = ''k -> int

    (* TODO: replace unit with the type you decide upon *)
    type (''k,'v) dictionary = unit

    type ''k create_parameter_type = (int * (''k hash_function))

    fun create(bucket_count_request : int, hash : ''k hash_function) : (''k,'v) dictionary = 
        raise Fail "NotYetImplemented"

    fun positive_remainder(v : int, n : int) : int = 
        let
            val result = v mod n 
        in 
            if result >= 0 then result else result+n
        end 

    fun getChainForKey(dict : (''k,'v) dictionary, key : ''k) : (''k*'v) list =
        raise Fail "NotYetImplemented"

    fun updateChainForKey(dict : (''k,'v) dictionary, key : ''k, updater_function) : (''k,'v) dictionary * 'v option =
        raise Fail "NotYetImplemented"

    fun get(dict : (''k,'v) dictionary, key : ''k) : 'v option = 
        raise Fail "NotYetImplemented"

    fun put(dict : (''k,'v) dictionary, key : ''k , value : 'v) : (''k,'v) dictionary * 'v option =
        raise Fail "NotYetImplemented"

    fun remove(dict : (''k,'v) dictionary, key : ''k) : (''k,'v) dictionary * 'v option =
	raise Fail "NotYetImplemented"

    fun entries(dict : (''k,'v) dictionary) : (''k*'v) list =
        raise Fail "NotYetImplemented"

end)

Hash table 5 0 1 1 1 1 1 LL.svg

type dictionary

Change the definition of type (''k,'v) dictionary to support HashedDictionary.

(* TODO: replace unit with the type you decide upon *)
type (''k,'v) dictionary = unit

type create_parameter_type

Leave create_parameter_type unchanged. HashedDictionary's create method accepts two parameters: an int for the requested bucket count and a hash_function.

type ''k create_parameter_type = (int * (''k hash_function))

create

fun create() : (''k,'v) dictionary = 
	raise Fail "NotYetImplemented"

positive_remainder

Hash codes can be negative. Vector indices cannot. Use this function to ensure a valid index.

fun positive_remainder(v : int, n : int) : int = 
	let
		val result = v mod n 
	in 
		if result >= 0 then result else result+n
	end

get

fun get(dict : (''k,'v) dictionary, key : ''k) : 'v option = 
	raise Fail "NotYetImplemented"

remember to use the Chain structure.

put

fun put(dict : (''k,'v) dictionary, key : ''k , value : 'v) : (''k,'v) dictionary * 'v option =
	raise Fail "NotYetImplemented"

remember to use the Chain structure.

remove

fun remove(dict : (''k,'v) dictionary, key : ''k) : (''k,'v) dictionary * 'v option =
	raise Fail "NotYetImplemented"

remember to use the Chain structure.

entries

Define the entries method so we can take advantage of the keys and values functions you implemented on functor DictionaryFn.

fun entries(dict : (''k,'v) dictionary) : (''k*'v) list =
	raise Fail "NotYetImplemented"

Testing

source folder: src/test/sml/dictionary/chained
how to run with CM.make verbosity off: sml -Ccm.verbose=false run_chained_testing.sml
how to run with CM.make verbosity on: sml run_chained_testing.sml

note: ensure that you have removed all printing to receive credit for any assignment.

SML Error Messages

Pledge, Acknowledgments, Citations

file: exercise-chained-dictionary-pledge-acknowledgments-citations.txt

More info about the Honor Pledge