1186192ed1
Summary: Replace include/leveldb with include/rocksdb. Test Plan: make clean; make check make clean; make release Differential Revision: https://reviews.facebook.net/D12489
552 lines
16 KiB
C++
552 lines
16 KiB
C++
/**
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* A (persistent) Redis API built using the rocksdb backend.
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* Implements Redis Lists as described on: http://redis.io/commands#list
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*
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* @throws All functions may throw a RedisListException on error/corruption.
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*
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* @notes Internally, the set of lists is stored in a rocksdb database,
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* mapping keys to values. Each "value" is the list itself, storing
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* some kind of internal representation of the data. All the
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* representation details are handled by the RedisListIterator class.
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* The present file should be oblivious to the representation details,
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* handling only the client (Redis) API, and the calls to rocksdb.
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*
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* @TODO Presently, all operations take at least O(NV) time where
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* N is the number of elements in the list, and V is the average
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* number of bytes per value in the list. So maybe, with merge operator
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* we can improve this to an optimal O(V) amortized time, since we
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* wouldn't have to read and re-write the entire list.
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*
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* @author Deon Nicholas (dnicholas@fb.com)
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* Copyright 2013 Facebook
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*/
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#include "redis_lists.h"
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#include <iostream>
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#include <memory>
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#include <cmath>
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#include "rocksdb/slice.h"
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#include "util/coding.h"
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namespace leveldb
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{
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/// Constructors
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RedisLists::RedisLists(const std::string& db_path,
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Options options, bool destructive)
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: put_option_(),
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get_option_() {
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// Store the name of the database
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db_name_ = db_path;
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// If destructive, destroy the DB before re-opening it.
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if (destructive) {
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DestroyDB(db_name_, Options());
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}
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// Now open and deal with the db
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DB* db;
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Status s = DB::Open(options, db_name_, &db);
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if (!s.ok()) {
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std::cerr << "ERROR " << s.ToString() << std::endl;
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assert(false);
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}
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db_ = std::unique_ptr<DB>(db);
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}
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/// Accessors
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// Number of elements in the list associated with key
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// : throws RedisListException
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int RedisLists::Length(const std::string& key) {
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// Extract the string data representing the list.
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std::string data;
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db_->Get(get_option_, key, &data);
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// Return the length
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RedisListIterator it(data);
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return it.Length();
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}
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// Get the element at the specified index in the (list: key)
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// Returns <empty> ("") on out-of-bounds
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// : throws RedisListException
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bool RedisLists::Index(const std::string& key, int32_t index,
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std::string* result) {
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// Extract the string data representing the list.
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std::string data;
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db_->Get(get_option_, key, &data);
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// Handle REDIS negative indices (from the end); fast iff Length() takes O(1)
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if (index < 0) {
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index = Length(key) - (-index); //replace (-i) with (N-i).
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}
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// Iterate through the list until the desired index is found.
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int curIndex = 0;
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RedisListIterator it(data);
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while(curIndex < index && !it.Done()) {
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++curIndex;
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it.Skip();
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}
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// If we actually found the index
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if (curIndex == index && !it.Done()) {
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Slice elem;
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it.GetCurrent(&elem);
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if (result != NULL) {
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*result = elem.ToString();
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}
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return true;
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} else {
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return false;
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}
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}
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// Return a truncated version of the list.
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// First, negative values for first/last are interpreted as "end of list".
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// So, if first == -1, then it is re-set to index: (Length(key) - 1)
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// Then, return exactly those indices i such that first <= i <= last.
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// : throws RedisListException
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std::vector<std::string> RedisLists::Range(const std::string& key,
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int32_t first, int32_t last) {
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// Extract the string data representing the list.
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std::string data;
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db_->Get(get_option_, key, &data);
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// Handle negative bounds (-1 means last element, etc.)
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int listLen = Length(key);
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if (first < 0) {
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first = listLen - (-first); // Replace (-x) with (N-x)
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}
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if (last < 0) {
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last = listLen - (-last);
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}
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// Verify bounds (and truncate the range so that it is valid)
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first = std::max(first, 0);
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last = std::min(last, listLen-1);
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int len = std::max(last-first+1, 0);
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// Initialize the resulting list
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std::vector<std::string> result(len);
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// Traverse the list and update the vector
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int curIdx = 0;
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Slice elem;
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for (RedisListIterator it(data); !it.Done() && curIdx<=last; it.Skip()) {
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if (first <= curIdx && curIdx <= last) {
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it.GetCurrent(&elem);
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result[curIdx-first].assign(elem.data(),elem.size());
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}
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++curIdx;
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}
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// Return the result. Might be empty
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return result;
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}
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// Print the (list: key) out to stdout. For debugging mostly. Public for now.
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void RedisLists::Print(const std::string& key) {
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// Extract the string data representing the list.
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std::string data;
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db_->Get(get_option_, key, &data);
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// Iterate through the list and print the items
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Slice elem;
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for (RedisListIterator it(data); !it.Done(); it.Skip()) {
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it.GetCurrent(&elem);
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std::cout << "ITEM " << elem.ToString() << std::endl;
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}
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//Now print the byte data
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RedisListIterator it(data);
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std::cout << "==Printing data==" << std::endl;
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std::cout << data.size() << std::endl;
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std::cout << it.Size() << " " << it.Length() << std::endl;
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Slice result = it.WriteResult();
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std::cout << result.data() << std::endl;
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if (true) {
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std::cout << "size: " << result.size() << std::endl;
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const char* val = result.data();
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for(int i=0; i<(int)result.size(); ++i) {
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std::cout << (int)val[i] << " " << (val[i]>=32?val[i]:' ') << std::endl;
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}
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std::cout << std::endl;
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}
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}
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/// Insert/Update Functions
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/// Note: The "real" insert function is private. See below.
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// InsertBefore and InsertAfter are simply wrappers around the Insert function.
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int RedisLists::InsertBefore(const std::string& key, const std::string& pivot,
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const std::string& value) {
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return Insert(key, pivot, value, false);
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}
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int RedisLists::InsertAfter(const std::string& key, const std::string& pivot,
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const std::string& value) {
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return Insert(key, pivot, value, true);
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}
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// Prepend value onto beginning of (list: key)
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// : throws RedisListException
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int RedisLists::PushLeft(const std::string& key, const std::string& value) {
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// Get the original list data
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std::string data;
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db_->Get(get_option_, key, &data);
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// Construct the result
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RedisListIterator it(data);
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it.Reserve(it.Size() + it.SizeOf(value));
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it.InsertElement(value);
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// Push the data back to the db and return the length
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db_->Put(put_option_, key, it.WriteResult());
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return it.Length();
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}
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// Append value onto end of (list: key)
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// TODO: Make this O(1) time. Might require MergeOperator.
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// : throws RedisListException
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int RedisLists::PushRight(const std::string& key, const std::string& value) {
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// Get the original list data
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std::string data;
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db_->Get(get_option_, key, &data);
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// Create an iterator to the data and seek to the end.
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RedisListIterator it(data);
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it.Reserve(it.Size() + it.SizeOf(value));
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while (!it.Done()) {
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it.Push(); // Write each element as we go
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}
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// Insert the new element at the current position (the end)
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it.InsertElement(value);
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// Push it back to the db, and return length
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db_->Put(put_option_, key, it.WriteResult());
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return it.Length();
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}
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// Set (list: key)[idx] = val. Return true on success, false on fail.
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// : throws RedisListException
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bool RedisLists::Set(const std::string& key, int32_t index,
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const std::string& value) {
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// Get the original list data
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std::string data;
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db_->Get(get_option_, key, &data);
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// Handle negative index for REDIS (meaning -index from end of list)
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if (index < 0) {
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index = Length(key) - (-index);
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}
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// Iterate through the list until we find the element we want
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int curIndex = 0;
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RedisListIterator it(data);
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it.Reserve(it.Size() + it.SizeOf(value)); // Over-estimate is fine
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while(curIndex < index && !it.Done()) {
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it.Push();
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++curIndex;
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}
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// If not found, return false (this occurs when index was invalid)
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if (it.Done() || curIndex != index) {
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return false;
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}
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// Write the new element value, and drop the previous element value
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it.InsertElement(value);
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it.Skip();
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// Write the data to the database
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// Check status, since it needs to return true/false guarantee
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Status s = db_->Put(put_option_, key, it.WriteResult());
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// Success
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return s.ok();
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}
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/// Delete / Remove / Pop functions
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// Trim (list: key) so that it will only contain the indices from start..stop
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// Invalid indices will not generate an error, just empty,
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// or the portion of the list that fits in this interval
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// : throws RedisListException
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bool RedisLists::Trim(const std::string& key, int32_t start, int32_t stop) {
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// Get the original list data
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std::string data;
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db_->Get(get_option_, key, &data);
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// Handle negative indices in REDIS
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int listLen = Length(key);
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if (start < 0) {
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start = listLen - (-start);
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}
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if (stop < 0) {
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stop = listLen - (-stop);
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}
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// Truncate bounds to only fit in the list
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start = std::max(start, 0);
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stop = std::min(stop, listLen-1);
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// Construct an iterator for the list. Drop all undesired elements.
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int curIndex = 0;
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RedisListIterator it(data);
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it.Reserve(it.Size()); // Over-estimate
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while(!it.Done()) {
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// If not within the range, just skip the item (drop it).
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// Otherwise, continue as usual.
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if (start <= curIndex && curIndex <= stop) {
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it.Push();
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} else {
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it.Skip();
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}
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// Increment the current index
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++curIndex;
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}
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// Write the (possibly empty) result to the database
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Status s = db_->Put(put_option_, key, it.WriteResult());
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// Return true as long as the write succeeded
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return s.ok();
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}
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// Return and remove the first element in the list (or "" if empty)
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// : throws RedisListException
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bool RedisLists::PopLeft(const std::string& key, std::string* result) {
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// Get the original list data
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std::string data;
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db_->Get(get_option_, key, &data);
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// Point to first element in the list (if it exists), and get its value/size
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RedisListIterator it(data);
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if (it.Length() > 0) { // Proceed only if list is non-empty
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Slice elem;
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it.GetCurrent(&elem); // Store the value of the first element
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it.Reserve(it.Size() - it.SizeOf(elem));
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it.Skip(); // DROP the first item and move to next
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// Update the db
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db_->Put(put_option_, key, it.WriteResult());
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// Return the value
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if (result != NULL) {
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*result = elem.ToString();
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}
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return true;
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} else {
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return false;
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}
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}
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// Remove and return the last element in the list (or "" if empty)
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// TODO: Make this O(1). Might require MergeOperator.
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// : throws RedisListException
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bool RedisLists::PopRight(const std::string& key, std::string* result) {
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// Extract the original list data
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std::string data;
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db_->Get(get_option_, key, &data);
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// Construct an iterator to the data and move to last element
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RedisListIterator it(data);
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it.Reserve(it.Size());
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int len = it.Length();
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int curIndex = 0;
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while(curIndex < (len-1) && !it.Done()) {
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it.Push();
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++curIndex;
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}
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// Extract and drop/skip the last element
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if (curIndex == len-1) {
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assert(!it.Done()); // Sanity check. Should not have ended here.
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// Extract and pop the element
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Slice elem;
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it.GetCurrent(&elem); // Save value of element.
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it.Skip(); // Skip the element
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// Write the result to the database
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db_->Put(put_option_, key, it.WriteResult());
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// Return the value
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if (result != NULL) {
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*result = elem.ToString();
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}
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return true;
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} else {
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// Must have been an empty list
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assert(it.Done() && len==0 && curIndex == 0);
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return false;
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}
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}
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// Remove the (first or last) "num" occurrences of value in (list: key)
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// : throws RedisListException
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int RedisLists::Remove(const std::string& key, int32_t num,
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const std::string& value) {
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// Negative num ==> RemoveLast; Positive num ==> Remove First
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if (num < 0) {
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return RemoveLast(key, -num, value);
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} else if (num > 0) {
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return RemoveFirst(key, num, value);
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} else {
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return RemoveFirst(key, Length(key), value);
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}
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}
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// Remove the first "num" occurrences of value in (list: key).
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// : throws RedisListException
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int RedisLists::RemoveFirst(const std::string& key, int32_t num,
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const std::string& value) {
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// Ensure that the number is positive
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assert(num >= 0);
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// Extract the original list data
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std::string data;
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db_->Get(get_option_, key, &data);
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// Traverse the list, appending all but the desired occurrences of value
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int numSkipped = 0; // Keep track of the number of times value is seen
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Slice elem;
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RedisListIterator it(data);
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it.Reserve(it.Size());
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while (!it.Done()) {
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it.GetCurrent(&elem);
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if (elem == value && numSkipped < num) {
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// Drop this item if desired
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it.Skip();
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++numSkipped;
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} else {
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// Otherwise keep the item and proceed as normal
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it.Push();
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}
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}
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// Put the result back to the database
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db_->Put(put_option_, key, it.WriteResult());
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// Return the number of elements removed
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return numSkipped;
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}
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// Remove the last "num" occurrences of value in (list: key).
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// TODO: I traverse the list 2x. Make faster. Might require MergeOperator.
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// : throws RedisListException
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int RedisLists::RemoveLast(const std::string& key, int32_t num,
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const std::string& value) {
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// Ensure that the number is positive
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assert(num >= 0);
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// Extract the original list data
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std::string data;
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db_->Get(get_option_, key, &data);
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// Temporary variable to hold the "current element" in the blocks below
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Slice elem;
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// Count the total number of occurrences of value
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int totalOccs = 0;
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for (RedisListIterator it(data); !it.Done(); it.Skip()) {
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it.GetCurrent(&elem);
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if (elem == value) {
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++totalOccs;
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}
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}
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// Construct an iterator to the data. Reserve enough space for the result.
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RedisListIterator it(data);
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int bytesRemoved = std::min(num,totalOccs)*it.SizeOf(value);
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it.Reserve(it.Size() - bytesRemoved);
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// Traverse the list, appending all but the desired occurrences of value.
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// Note: "Drop the last k occurrences" is equivalent to
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// "keep only the first n-k occurrences", where n is total occurrences.
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int numKept = 0; // Keep track of the number of times value is kept
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while(!it.Done()) {
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it.GetCurrent(&elem);
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// If we are within the deletion range and equal to value, drop it.
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// Otherwise, append/keep/push it.
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if (elem == value) {
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if (numKept < totalOccs - num) {
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it.Push();
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++numKept;
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} else {
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it.Skip();
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}
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} else {
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// Always append the others
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it.Push();
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}
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}
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// Put the result back to the database
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db_->Put(put_option_, key, it.WriteResult());
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// Return the number of elements removed
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return totalOccs - numKept;
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}
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/// Private functions
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// Insert element value into (list: key), right before/after
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// the first occurrence of pivot
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// : throws RedisListException
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int RedisLists::Insert(const std::string& key, const std::string& pivot,
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const std::string& value, bool insert_after) {
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// Get the original list data
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std::string data;
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db_->Get(get_option_, key, &data);
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// Construct an iterator to the data and reserve enough space for result.
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RedisListIterator it(data);
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it.Reserve(it.Size() + it.SizeOf(value));
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// Iterate through the list until we find the element we want
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Slice elem;
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bool found = false;
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while(!it.Done() && !found) {
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it.GetCurrent(&elem);
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// When we find the element, insert the element and mark found
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if (elem == pivot) { // Found it!
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found = true;
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if (insert_after == true) { // Skip one more, if inserting after it
|
|
it.Push();
|
|
}
|
|
it.InsertElement(value);
|
|
} else {
|
|
it.Push();
|
|
}
|
|
|
|
}
|
|
|
|
// Put the data (string) into the database
|
|
if (found) {
|
|
db_->Put(put_option_, key, it.WriteResult());
|
|
}
|
|
|
|
// Returns the new (possibly unchanged) length of the list
|
|
return it.Length();
|
|
}
|
|
|
|
|
|
}
|