434 lines
13 KiB
D
434 lines
13 KiB
D
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/**
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* An implementation of a multi-valued mapping, where one key may map to one
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* or more values.
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*/
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module http_primitives.multivalue_map;
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import http_primitives.optional;
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/**
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* A multi-valued mapping, where a key is mapped to one or more values. The map
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* can optionally be sorted by keys for O(log(n)) lookup and retrieval, and
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* O(n*log(n)) insertion, instead of the default linear search.
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*/
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struct MultiValueMap(KeyType, ValueType, bool Sorted = true, alias KeySort = (a, b) => a < b) {
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/// The internal structure used to store each key and set of values.
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static struct Entry {
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/// The key for this entry.
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KeyType key;
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/**
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* The list of values associated with this entry's key. This always
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* contains at least one value.
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*/
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ValueType[] values;
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/**
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* Gets a human-readable string representation of this entry.
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* Returns: A string representation of this entry.
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*/
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string toString() const {
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import std.conv : to;
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import std.algorithm : map, joiner;
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import std.array : array;
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string keyStr = key.to!string;
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string valuesStr = values
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.map!(v => "\""~v.to!string~"\"")
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.joiner(", ").array.to!string;
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return "\"" ~ keyStr ~ "\": " ~ valuesStr;
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}
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}
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/// The internal, sorted array of entries.
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private Entry[] entries;
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/**
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* Finds the index of the entry with a given key in the internal array.
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* Params:
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* k = The key to search for.
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* Returns: The index if it was found, or -1 if it doesn't exist.
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*/
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private long indexOf(KeyType k) const {
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if (entries.length == 0) return -1;
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if (entries.length == 1) {
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return entries[0].key == k ? 0 : -1;
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}
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static if (Sorted) {
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size_t startIdx = 0;
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size_t endIdx = entries.length - 1;
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while (startIdx <= endIdx) {
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size_t mid = startIdx + (endIdx - startIdx) / 2;
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if (entries[mid].key == k) return mid;
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if (KeySort(entries[mid].key, k)) {
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startIdx = mid + 1;
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} else {
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endIdx = mid - 1;
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}
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}
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return -1;
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} else {
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for (size_t idx = 0; idx < entries.length; idx++) {
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if (entries[idx].key == k) return idx;
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}
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return -1;
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}
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}
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/**
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* Attempts to get the entry for a given key. Complexity is O(log(keyCount)).
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* Params:
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* k = The key to look for.
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* Returns: An optional that may contain the entry that was found.
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*/
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private Optional!Entry getEntry(KeyType k) {
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long idx = indexOf(k);
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if (idx == -1) return Optional!Entry.empty();
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return Optional!Entry.of(entries[cast(size_t) idx]);
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}
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/**
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* Gets the number of unique keys in this map.
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* Returns: The number of unique keys in this map.
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*/
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size_t length() const {
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return entries.length;
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}
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/**
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* Determines if this map contains a value for the given key.
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* Params:
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* k = The key to search for.
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* Returns: True if at least one value exists for the given key.
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*/
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bool contains(KeyType k) const {
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return indexOf(k) != -1;
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}
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/**
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* Gets a list of all keys in this map, allocated in a new array.
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* Returns: The list of keys in this map.
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*/
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KeyType[] keys() const {
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KeyType[] keysArray = new KeyType[this.length()];
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foreach (size_t i, const Entry e; entries) {
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keysArray[i] = e.key;
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}
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return keysArray;
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}
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/**
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* Gets all values associated with a given key, allocated in a new array.
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* Params:
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* k = The key to get the values of.
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* Returns: The values associated with the given key, or an empty array if
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* no values exist for the key.
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*/
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ValueType[] getAll(KeyType k) const {
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long idx = indexOf(k);
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if (idx == -1) return [];
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return entries[cast(size_t) idx].values.dup;
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}
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/**
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* Gets the first value associated with a given key, as per the order in
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* which the values were inserted.
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* Params:
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* k = The key to get the first value of.
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* Returns: An optional contains the value, if there is at least one value
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* for the given key.
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*/
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Optional!ValueType getFirst(KeyType k) const {
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long idx = indexOf(k);
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if (idx == -1) return Optional!ValueType.empty();
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return Optional!ValueType.of(entries[cast(size_t) idx].values[0]);
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}
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/**
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* Adds a single key -> value pair to the map, with time complexity of
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* O(n*log(n)) due to sorting the new entry by its key.
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* Params:
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* k = The key.
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* v = The value associated with the key.
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*/
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void add(KeyType k, ValueType v) {
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long idx = indexOf(k);
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if (idx == -1) {
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entries ~= Entry(k, [v]);
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static if (Sorted) {
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import std.algorithm.sorting : sort;
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sort!((a, b) => KeySort(a.key, b.key))(entries);
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}
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} else {
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entries[cast(size_t) idx].values ~= v;
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}
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}
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/**
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* Clears this map of all values.
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*/
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void clear() {
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entries.length = 0;
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}
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/**
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* Removes a key from the map, thus removing all values associated with
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* that key.
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* Params:
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* k = The key to remove.
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*/
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void remove(KeyType k) {
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long idx = indexOf(k);
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if (idx == -1) return;
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if (entries.length == 1) {
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clear();
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return;
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}
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if (idx + 1 < entries.length) {
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const i = cast(size_t) idx;
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entries[i .. $ - 1] = entries[i + 1 .. $];
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}
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entries.length = entries.length - 1;
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}
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/**
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* Gets this multivalue map as an associative array, where each key is
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* mapped to a list of values.
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* Returns: The associative array.
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*/
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ValueType[][KeyType] asAssociativeArray() const {
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ValueType[][KeyType] aa;
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foreach (const Entry entry; entries) {
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aa[entry.key] = entry.values.dup;
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}
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return aa;
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}
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/**
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* Constructs a multivalued map from an associative array.
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* Params:
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* aa = The associative array to use.
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* Returns: The multivalued map.
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*/
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static MultiValueMap fromAssociativeArray(ValueType[][KeyType] aa) {
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MultiValueMap m;
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foreach (KeyType k, ValueType[] values; aa) {
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foreach (ValueType v; values) {
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m.add(k, v);
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}
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}
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return m;
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}
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/**
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* Constructs a multivalued map from an associative array of single values.
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* Params:
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* aa = The associative array to use.
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* Returns: The multivalued map.
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*/
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static MultiValueMap fromAssociativeArray(ValueType[KeyType] aa) {
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MultiValueMap m;
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foreach (KeyType k, ValueType v; aa) {
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m.add(k, v);
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}
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return m;
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}
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/**
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* An efficient builder that can be used to construct a multivalued map
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* with successive `add` calls, which is more efficient than doing so
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* directly due to the builder's deferred sorting.
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*/
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static struct Builder {
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import std.array;
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private MultiValueMap m;
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private RefAppender!(Entry[]) entryAppender;
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/**
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* Adds a key -> value pair to the builder's map.
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* Params:
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* k = The key.
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* v = The value associated with the key.
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* Returns: A reference to the builder, for method chaining.
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*/
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ref Builder add(KeyType k, ValueType v) {
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if (entryAppender.data is null) entryAppender = appender(&m.entries);
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long idx = this.indexOf(k);
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if (idx == -1) {
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entryAppender ~= Entry(k, [v]);
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} else {
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m.entries[cast(size_t) idx].values ~= v;
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}
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return this;
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}
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/**
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* Builds the multivalued map.
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* Returns: The map that was created.
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*/
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MultiValueMap build() {
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if (m.entries.length == 0) return m;
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static if (Sorted) {
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import std.algorithm.sorting : sort;
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sort!((a, b) => KeySort(a.key, b.key))(m.entries);
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}
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return m;
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}
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private long indexOf(KeyType k) {
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foreach (i, entry; m.entries) {
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if (entry.key == k) return i;
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}
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return -1;
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}
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}
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// OPERATOR OVERLOADS below here
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/**
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* Implements the empty index operator, which just returns the entire list
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* of entries in this map.
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* Returns: The list of entries in this map.
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*/
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inout(Entry)[] opIndex() inout {
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return entries;
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}
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/**
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* Convenience overload to get the first value for a given key. Note: this
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* will throw an exception if no values exist for the given key. To avoid
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* this, use `getFirst` and deal with the missing value yourself.
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* Params:
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* key = The key to get the value of.
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* Returns: The first value for the given key.
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*/
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ValueType opIndex(KeyType key) const {
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import std.conv : to;
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return getFirst(key).orElseThrow("No values exist for key " ~ key.to!string ~ ".");
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}
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/**
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* `opApply` implementation to allow iterating over this map by all pairs
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* of keys and values.
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* Params:
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* dg = The foreach body that uses each key -> value pair.
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* Returns: The result of the delegate call.
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*/
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int opApply(int delegate(const ref KeyType, const ref ValueType) dg) const {
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int result = 0;
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foreach (const Entry entry; entries) {
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foreach (ValueType value; entry.values) {
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result = dg(entry.key, value);
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if (result) break;
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}
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}
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return result;
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}
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/**
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* Implements opBinaryRight for the "in" operator, such that `k in m` will
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* resolve to the list of values for key `k` in the multivalue map `m` if
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* that key exists, or `null` if not.
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*
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* Params:
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* lhs = The key to use.
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* Returns: A list of values for the given key, or null if no such key exists.
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* ---
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* StringMultiValueMap m;
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* m.add("a", "hello");
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* assert("a" in m);
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* assert(("a" in m) == ["hello"]);
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* assert("b" !in m);
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* assert(("b" in m) is null);
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* ---
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*/
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ValueType[] opBinaryRight(string op : "in")(string lhs) {
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Optional!Entry optionalEntry = this.getEntry(lhs);
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if (optionalEntry) {
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Entry entry = optionalEntry.value;
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return entry.values;
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}
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return null;
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}
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/**
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* Converts this map into a human-readable string which lists each key and
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* all of the values for that key.
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* Returns: A string representation of this map.
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*/
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string toString() const {
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import std.format : format;
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return format!"%(%s\n%)"(entries);
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}
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}
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/**
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* A multivalued map of strings, where each string key refers to zero or more
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* string values. All keys are case-sensitive.
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*/
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alias StringMultiValueMap = MultiValueMap!(string, string);
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unittest {
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StringMultiValueMap m;
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m.add("a", "hello");
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assert(m.getFirst("a").orElseThrow == "hello");
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m.add("b", "bye");
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assert(m.getFirst("b").orElseThrow == "bye");
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assert(m.asAssociativeArray == ["a": ["hello"], "b": ["bye"]]);
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assert(m["b"] == "bye");
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m.remove("a");
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assert(!m.contains("a"));
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m.add("b", "hello");
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assert(m.getAll("b") == ["bye", "hello"]);
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m.clear();
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assert(m.length == 0);
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assert(!m.contains("a"));
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assert(!m.contains("b"));
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auto m2 = StringMultiValueMap.fromAssociativeArray(["a": "123", "b": "abc"]);
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assert(m2["a"] == "123");
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assert(m2["b"] == "abc");
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auto m3 = StringMultiValueMap.fromAssociativeArray(["a": [""], "b": [""], "c": ["hello"]]);
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assert(m3.contains("a"));
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assert(m3["a"] == "");
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assert(m3.contains("b"));
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assert(m3["b"] == "");
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assert(m3.contains("c"));
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assert(m3["c"] == "hello");
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// Test that opApply works:
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int n = 0;
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foreach (key, value; m3) {
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n++;
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}
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assert(n == 3);
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// Test opBinaryRight with "in" operator.
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StringMultiValueMap m4;
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m4.add("a", "1");
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assert("a" in m4);
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assert("b" !in m4);
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auto valuesA = "a" in m4;
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assert(valuesA == ["1"]);
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auto valuesB = "b" in m4;
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assert(valuesB is null);
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// Test opIndex with an empty index.
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StringMultiValueMap m5;
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assert(m5[] == []);
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m5.add("a", "123");
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assert(m5[] == [StringMultiValueMap.Entry("a", ["123"])]);
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// test on a const instance
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const(StringMultiValueMap) m6 = m5;
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assert(m6[] == [StringMultiValueMap.Entry("a", ["123"])]);
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// test the builder with multi-values
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StringMultiValueMap.Builder builder;
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builder.add("a", "123");
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builder.add("a", "456");
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assert(builder.build()[] == [StringMultiValueMap.Entry("a", ["123", "456"])], builder.build().toString);
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}
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