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csharp-sdk-upm/Storage/Source/Public/IAVQuery.cs

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using System;
using System.Collections;
using System.Collections.Generic;
using System.Collections.ObjectModel;
using System.Linq;
using System.Text.RegularExpressions;
using System.Threading;
using System.Threading.Tasks;
using LeanCloud.Storage.Internal;
namespace LeanCloud
{
/// <summary>
/// Query 对象的基础接口
/// </summary>
public interface IAVQuery
{
}
/// <summary>
/// LeanCloud 存储对象的接触接口
/// </summary>
public interface IAVObject
{
}
public abstract class AVQueryBase<T> : IAVQuery
where T : IAVObject
{
internal string className;
internal Dictionary<string, object> where;
internal ReadOnlyCollection<string> orderBy;
internal ReadOnlyCollection<string> includes;
internal ReadOnlyCollection<string> selectedKeys;
internal String redirectClassNameForKey;
internal int? skip;
internal int? limit;
/// <summary>
/// 构建查询字符串
/// </summary>
/// <param name="includeClassName">是否包含 ClassName </param>
/// <returns></returns>
public IDictionary<string, object> BuildParameters(bool includeClassName = false)
{
Dictionary<string, object> result = new Dictionary<string, object>();
if (where != null)
{
result["where"] = PointerOrLocalIdEncoder.Instance.Encode(where);
}
if (orderBy != null)
{
result["order"] = string.Join(",", orderBy.ToArray());
}
if (skip != null)
{
result["skip"] = skip.Value;
}
if (limit != null)
{
result["limit"] = limit.Value;
}
if (includes != null)
{
result["include"] = string.Join(",", includes.ToArray());
}
if (selectedKeys != null)
{
result["keys"] = string.Join(",", selectedKeys.ToArray());
}
if (includeClassName)
{
result["className"] = className;
}
if (redirectClassNameForKey != null)
{
result["redirectClassNameForKey"] = redirectClassNameForKey;
}
return result;
}
public virtual Dictionary<string, object> Where
{
get
{
return this.where;
}
set
{
this.where = value;
}
}
public virtual IDictionary<string, object> MergeWhere(IDictionary<string, object> primary, IDictionary<string, object> secondary)
{
if (secondary == null)
{
return primary;
}
var newWhere = new Dictionary<string, object>(primary);
foreach (var pair in secondary)
{
var condition = pair.Value as IDictionary<string, object>;
if (newWhere.ContainsKey(pair.Key))
{
var oldCondition = newWhere[pair.Key] as IDictionary<string, object>;
if (oldCondition == null || condition == null)
{
throw new ArgumentException("More than one where clause for the given key provided.");
}
var newCondition = new Dictionary<string, object>(oldCondition);
foreach (var conditionPair in condition)
{
if (newCondition.ContainsKey(conditionPair.Key))
{
throw new ArgumentException("More than one condition for the given key provided.");
}
newCondition[conditionPair.Key] = conditionPair.Value;
}
newWhere[pair.Key] = newCondition;
}
else
{
newWhere[pair.Key] = pair.Value;
}
}
return newWhere;
}
}
public abstract class AVQueryPair<S, T>
where S : IAVQuery
where T : IAVObject
{
protected readonly string className;
protected readonly Dictionary<string, object> where;
protected readonly ReadOnlyCollection<string> orderBy;
protected readonly ReadOnlyCollection<string> includes;
protected readonly ReadOnlyCollection<string> selectedKeys;
protected readonly string redirectClassNameForKey;
protected readonly int? skip;
protected readonly int? limit;
internal string ClassName { get { return className; } }
private string relativeUri;
internal string RelativeUri
{
get
{
string rtn = string.Empty;
if (string.IsNullOrEmpty(relativeUri))
{
rtn = "classes/" + Uri.EscapeDataString(this.className);
}
else
{
rtn = relativeUri;
}
return rtn;
}
set
{
relativeUri = value;
}
}
public Dictionary<string, object> Condition
{
get { return this.where; }
}
protected AVQueryPair()
{
}
public abstract S CreateInstance(IDictionary<string, object> where = null,
IEnumerable<string> replacementOrderBy = null,
IEnumerable<string> thenBy = null,
int? skip = null,
int? limit = null,
IEnumerable<string> includes = null,
IEnumerable<string> selectedKeys = null,
string redirectClassNameForKey = null);
/// <summary>
/// Private constructor for composition of queries. A Source query is required,
/// but the remaining values can be null if they won't be changed in this
/// composition.
/// </summary>
protected AVQueryPair(AVQueryPair<S, T> source,
IDictionary<string, object> where = null,
IEnumerable<string> replacementOrderBy = null,
IEnumerable<string> thenBy = null,
int? skip = null,
int? limit = null,
IEnumerable<string> includes = null,
IEnumerable<string> selectedKeys = null,
string redirectClassNameForKey = null)
{
if (source == null)
{
throw new ArgumentNullException("Source");
}
className = source.className;
this.where = source.where;
this.orderBy = source.orderBy;
this.skip = source.skip;
this.limit = source.limit;
this.includes = source.includes;
this.selectedKeys = source.selectedKeys;
this.redirectClassNameForKey = source.redirectClassNameForKey;
if (where != null)
{
var newWhere = MergeWhereClauses(where);
this.where = new Dictionary<string, object>(newWhere);
}
if (replacementOrderBy != null)
{
this.orderBy = new ReadOnlyCollection<string>(replacementOrderBy.ToList());
}
if (thenBy != null)
{
if (this.orderBy == null)
{
throw new ArgumentException("You must call OrderBy before calling ThenBy.");
}
var newOrderBy = new List<string>(this.orderBy);
newOrderBy.AddRange(thenBy);
this.orderBy = new ReadOnlyCollection<string>(newOrderBy);
}
// Remove duplicates.
if (this.orderBy != null)
{
var newOrderBy = new HashSet<string>(this.orderBy);
this.orderBy = new ReadOnlyCollection<string>(newOrderBy.ToList<string>());
}
if (skip != null)
{
this.skip = (this.skip ?? 0) + skip;
}
if (limit != null)
{
this.limit = limit;
}
if (includes != null)
{
var newIncludes = MergeIncludes(includes);
this.includes = new ReadOnlyCollection<string>(newIncludes.ToList());
}
if (selectedKeys != null)
{
var newSelectedKeys = MergeSelectedKeys(selectedKeys);
this.selectedKeys = new ReadOnlyCollection<string>(newSelectedKeys.ToList());
}
if (redirectClassNameForKey != null)
{
this.redirectClassNameForKey = redirectClassNameForKey;
}
}
public AVQueryPair(string className)
{
if (string.IsNullOrEmpty(className))
{
throw new ArgumentNullException("className", "Must specify a AVObject class name when creating a AVQuery.");
}
this.className = className;
}
private HashSet<string> MergeIncludes(IEnumerable<string> includes)
{
if (this.includes == null)
{
return new HashSet<string>(includes);
}
var newIncludes = new HashSet<string>(this.includes);
foreach (var item in includes)
{
newIncludes.Add(item);
}
return newIncludes;
}
private HashSet<string> MergeSelectedKeys(IEnumerable<string> selectedKeys)
{
if (this.selectedKeys == null)
{
return new HashSet<string>(selectedKeys);
}
var newSelectedKeys = new HashSet<string>(this.selectedKeys);
foreach (var item in selectedKeys)
{
newSelectedKeys.Add(item);
}
return newSelectedKeys;
}
private IDictionary<string, object> MergeWhereClauses(IDictionary<string, object> where)
{
return MergeWhere(this.where, where);
}
public virtual IDictionary<string, object> MergeWhere(IDictionary<string, object> primary, IDictionary<string, object> secondary)
{
if (secondary == null)
{
return primary;
}
if (primary == null)
{
return secondary;
}
var newWhere = new Dictionary<string, object>(primary);
foreach (var pair in secondary)
{
var condition = pair.Value as IDictionary<string, object>;
if (newWhere.ContainsKey(pair.Key))
{
var oldCondition = newWhere[pair.Key] as IDictionary<string, object>;
if (oldCondition == null || condition == null)
{
throw new ArgumentException("More than one where clause for the given key provided.");
}
var newCondition = new Dictionary<string, object>(oldCondition);
foreach (var conditionPair in condition)
{
if (newCondition.ContainsKey(conditionPair.Key))
{
throw new ArgumentException("More than one condition for the given key provided.");
}
newCondition[conditionPair.Key] = conditionPair.Value;
}
newWhere[pair.Key] = newCondition;
}
else
{
newWhere[pair.Key] = pair.Value;
}
}
return newWhere;
}
/// <summary>
/// Constructs a query that is the or of the given queries.
/// </summary>
/// <param name="queries">The list of AVQueries to 'or' together.</param>
/// <returns>A AVeQquery that is the 'or' of the passed in queries.</returns>
public static Q Or<Q, O>(IEnumerable<Q> queries)
where Q : AVQueryBase<O>
where O : IAVObject
{
string className = null;
var orValue = new List<IDictionary<string, object>>();
// We need to cast it to non-generic IEnumerable because of AOT-limitation
var nonGenericQueries = (IEnumerable)queries;
Q current = null;
foreach (var obj in nonGenericQueries)
{
var q = (Q)obj;
current = q;
if (className != null && q.className != className)
{
throw new ArgumentException(
"All of the queries in an or query must be on the same class.");
}
className = q.className;
var parameters = q.BuildParameters();
if (parameters.Count == 0)
{
continue;
}
object where;
if (!parameters.TryGetValue("where", out where) || parameters.Count > 1)
{
throw new ArgumentException(
"None of the queries in an or query can have non-filtering clauses");
}
orValue.Add(where as IDictionary<string, object>);
}
current.Where = new Dictionary<string, object>()
{
{"$or", orValue}
};
return current;
}
#region Order By
/// <summary>
/// Sorts the results in ascending order by the given key.
/// This will override any existing ordering for the query.
/// </summary>
/// <param name="key">The key to order by.</param>
/// <returns>A new query with the additional constraint.</returns>
public virtual S OrderBy(string key)
{
return CreateInstance(replacementOrderBy: new List<string> { key });
}
/// <summary>
/// Sorts the results in descending order by the given key.
/// This will override any existing ordering for the query.
/// </summary>
/// <param name="key">The key to order by.</param>
/// <returns>A new query with the additional constraint.</returns>
public virtual S OrderByDescending(string key)
{
return CreateInstance(replacementOrderBy: new List<string> { "-" + key });
}
/// <summary>
/// Sorts the results in ascending order by the given key, after previous
/// ordering has been applied.
///
/// This method can only be called if there is already an <see cref="OrderBy"/>
/// or <see cref="OrderByDescending"/>
/// on this query.
/// </summary>
/// <param name="key">The key to order by.</param>
/// <returns>A new query with the additional constraint.</returns>
public virtual S ThenBy(string key)
{
return CreateInstance(thenBy: new List<string> { key });
}
/// <summary>
/// Sorts the results in descending order by the given key, after previous
/// ordering has been applied.
///
/// This method can only be called if there is already an <see cref="OrderBy"/>
/// or <see cref="OrderByDescending"/> on this query.
/// </summary>
/// <param name="key">The key to order by.</param>
/// <returns>A new query with the additional constraint.</returns>
public virtual S ThenByDescending(string key)
{
return CreateInstance(thenBy: new List<string> { "-" + key });
}
#endregion
/// <summary>
/// Include nested AVObjects for the provided key. You can use dot notation
/// to specify which fields in the included objects should also be fetched.
/// </summary>
/// <param name="key">The key that should be included.</param>
/// <returns>A new query with the additional constraint.</returns>
public virtual S Include(string key)
{
return CreateInstance(includes: new List<string> { key });
}
/// <summary>
/// Restrict the fields of returned AVObjects to only include the provided key.
/// If this is called multiple times, then all of the keys specified in each of
/// the calls will be included.
/// </summary>
/// <param name="key">The key that should be included.</param>
/// <returns>A new query with the additional constraint.</returns>
public virtual S Select(string key)
{
return CreateInstance(selectedKeys: new List<string> { key });
}
/// <summary>
/// Skips a number of results before returning. This is useful for pagination
/// of large queries. Chaining multiple skips together will cause more results
/// to be skipped.
/// </summary>
/// <param name="count">The number of results to skip.</param>
/// <returns>A new query with the additional constraint.</returns>
public virtual S Skip(int count)
{
return CreateInstance(skip: count);
}
/// <summary>
/// Controls the maximum number of results that are returned. Setting a negative
/// limit denotes retrieval without a limit. Chaining multiple limits
/// results in the last limit specified being used. The default limit is
/// 100, with a maximum of 1000 results being returned at a time.
/// </summary>
/// <param name="count">The maximum number of results to return.</param>
/// <returns>A new query with the additional constraint.</returns>
public virtual S Limit(int count)
{
return CreateInstance(limit: count);
}
internal virtual S RedirectClassName(String key)
{
return CreateInstance(redirectClassNameForKey: key);
}
#region Where
/// <summary>
/// Adds a constraint to the query that requires a particular key's value to be
/// contained in the provided list of values.
/// </summary>
/// <param name="key">The key to check.</param>
/// <param name="values">The values that will match.</param>
/// <returns>A new query with the additional constraint.</returns>
public virtual S WhereContainedIn<TIn>(string key, IEnumerable<TIn> values)
{
return CreateInstance(where: new Dictionary<string, object> {
{ key, new Dictionary<string, object>{{"$in", values.ToList()}}}
});
}
/// <summary>
/// Add a constraint to the querey that requires a particular key's value to be
/// a list containing all of the elements in the provided list of values.
/// </summary>
/// <param name="key">The key to check.</param>
/// <param name="values">The values that will match.</param>
/// <returns>A new query with the additional constraint.</returns>
public virtual S WhereContainsAll<TIn>(string key, IEnumerable<TIn> values)
{
return CreateInstance(where: new Dictionary<string, object> {
{ key, new Dictionary<string, object>{{"$all", values.ToList()}}}
});
}
/// <summary>
/// Adds a constraint for finding string values that contain a provided string.
/// This will be slow for large data sets.
/// </summary>
/// <param name="key">The key that the string to match is stored in.</param>
/// <param name="substring">The substring that the value must contain.</param>
/// <returns>A new query with the additional constraint.</returns>
public virtual S WhereContains(string key, string substring)
{
return CreateInstance(where: new Dictionary<string, object> {
{ key, new Dictionary<string, object>{{"$regex", RegexQuote(substring)}}}
});
}
/// <summary>
/// Adds a constraint for finding objects that do not contain a given key.
/// </summary>
/// <param name="key">The key that should not exist.</param>
/// <returns>A new query with the additional constraint.</returns>
public virtual S WhereDoesNotExist(string key)
{
return CreateInstance(where: new Dictionary<string, object>{
{ key, new Dictionary<string, object>{{"$exists", false}}}
});
}
/// <summary>
/// Adds a constraint to the query that requires that a particular key's value
/// does not match another AVQuery. This only works on keys whose values are
/// AVObjects or lists of AVObjects.
/// </summary>
/// <param name="key">The key to check.</param>
/// <param name="query">The query that the value should not match.</param>
/// <returns>A new query with the additional constraint.</returns>
public virtual S WhereDoesNotMatchQuery<TOther>(string key, AVQuery<TOther> query)
where TOther : AVObject
{
return CreateInstance(where: new Dictionary<string, object> {
{ key, new Dictionary<string, object>{{"$notInQuery", query.BuildParameters(true)}}}
});
}
/// <summary>
/// Adds a constraint for finding string values that end with a provided string.
/// This will be slow for large data sets.
/// </summary>
/// <param name="key">The key that the string to match is stored in.</param>
/// <param name="suffix">The substring that the value must end with.</param>
/// <returns>A new query with the additional constraint.</returns>
public virtual S WhereEndsWith(string key, string suffix)
{
return CreateInstance(where: new Dictionary<string, object> {
{ key, new Dictionary<string, object>{{"$regex", RegexQuote(suffix) + "$"}}}
});
}
/// <summary>
/// Adds a constraint to the query that requires a particular key's value to be
/// equal to the provided value.
/// </summary>
/// <param name="key">The key to check.</param>
/// <param name="value">The value that the AVObject must contain.</param>
/// <returns>A new query with the additional constraint.</returns>
public virtual S WhereEqualTo(string key, object value)
{
return CreateInstance(where: new Dictionary<string, object> {
{ key, value}
});
}
/// <summary>
/// Adds a constraint to the query that requires a particular key's size to be
/// equal to the provided size.
/// </summary>
/// <returns>The size equal to.</returns>
/// <param name="key">The key to check.</param>
/// <param name="size">The value that the size must be.</param>
/// <returns>A new query with the additional constraint.</returns>
public virtual S WhereSizeEqualTo(string key, uint size)
{
return CreateInstance(where: new Dictionary<string, object> {
{ key, new Dictionary<string, uint>{{"$size", size}}}
});
}
/// <summary>
/// Adds a constraint for finding objects that contain a given key.
/// </summary>
/// <param name="key">The key that should exist.</param>
/// <returns>A new query with the additional constraint.</returns>
public virtual S WhereExists(string key)
{
return CreateInstance(where: new Dictionary<string, object>{
{ key, new Dictionary<string, object>{{"$exists", true}}}
});
}
/// <summary>
/// Adds a constraint to the query that requires a particular key's value to be
/// greater than the provided value.
/// </summary>
/// <param name="key">The key to check.</param>
/// <param name="value">The value that provides a lower bound.</param>
/// <returns>A new query with the additional constraint.</returns>
public virtual S WhereGreaterThan(string key, object value)
{
return CreateInstance(where: new Dictionary<string, object>{
{ key, new Dictionary<string, object>{{"$gt", value}}}
});
}
/// <summary>
/// Adds a constraint to the query that requires a particular key's value to be
/// greater or equal to than the provided value.
/// </summary>
/// <param name="key">The key to check.</param>
/// <param name="value">The value that provides a lower bound.</param>
/// <returns>A new query with the additional constraint.</returns>
public virtual S WhereGreaterThanOrEqualTo(string key, object value)
{
return CreateInstance(where: new Dictionary<string, object>{
{ key, new Dictionary<string, object>{{"$gte", value}}}
});
}
/// <summary>
/// Adds a constraint to the query that requires a particular key's value to be
/// less than the provided value.
/// </summary>
/// <param name="key">The key to check.</param>
/// <param name="value">The value that provides an upper bound.</param>
/// <returns>A new query with the additional constraint.</returns>
public virtual S WhereLessThan(string key, object value)
{
return CreateInstance(where: new Dictionary<string, object>{
{ key, new Dictionary<string, object>{{"$lt", value}}}
});
}
/// <summary>
/// Adds a constraint to the query that requires a particular key's value to be
/// less than or equal to the provided value.
/// </summary>
/// <param name="key">The key to check.</param>
/// <param name="value">The value that provides a lower bound.</param>
/// <returns>A new query with the additional constraint.</returns>
public virtual S WhereLessThanOrEqualTo(string key, object value)
{
return CreateInstance(where: new Dictionary<string, object>{
{ key, new Dictionary<string, object>{{"$lte", value}}}
});
}
/// <summary>
/// Adds a regular expression constraint for finding string values that match the provided
/// regular expression. This may be slow for large data sets.
/// </summary>
/// <param name="key">The key that the string to match is stored in.</param>
/// <param name="regex">The regular expression pattern to match. The Regex must
/// have the <see cref="RegexOptions.ECMAScript"/> options flag set.</param>
/// <param name="modifiers">Any of the following supported PCRE modifiers:
/// <code>i</code> - Case insensitive search
/// <code>m</code> Search across multiple lines of input</param>
/// <returns>A new query with the additional constraint.</returns>
public virtual S WhereMatches(string key, Regex regex, string modifiers)
{
if (!regex.Options.HasFlag(RegexOptions.ECMAScript))
{
throw new ArgumentException(
"Only ECMAScript-compatible regexes are supported. Please use the ECMAScript RegexOptions flag when creating your regex.");
}
return CreateInstance(where: new Dictionary<string, object> {
{ key, EncodeRegex(regex, modifiers)}
});
}
/// <summary>
/// Adds a regular expression constraint for finding string values that match the provided
/// regular expression. This may be slow for large data sets.
/// </summary>
/// <param name="key">The key that the string to match is stored in.</param>
/// <param name="regex">The regular expression pattern to match. The Regex must
/// have the <see cref="RegexOptions.ECMAScript"/> options flag set.</param>
/// <returns>A new query with the additional constraint.</returns>
public virtual S WhereMatches(string key, Regex regex)
{
return WhereMatches(key, regex, null);
}
/// <summary>
/// Adds a regular expression constraint for finding string values that match the provided
/// regular expression. This may be slow for large data sets.
/// </summary>
/// <param name="key">The key that the string to match is stored in.</param>
/// <param name="pattern">The PCRE regular expression pattern to match.</param>
/// <param name="modifiers">Any of the following supported PCRE modifiers:
/// <code>i</code> - Case insensitive search
/// <code>m</code> Search across multiple lines of input</param>
/// <returns>A new query with the additional constraint.</returns>
public virtual S WhereMatches(string key, string pattern, string modifiers = null)
{
return WhereMatches(key, new Regex(pattern, RegexOptions.ECMAScript), modifiers);
}
/// <summary>
/// Adds a regular expression constraint for finding string values that match the provided
/// regular expression. This may be slow for large data sets.
/// </summary>
/// <param name="key">The key that the string to match is stored in.</param>
/// <param name="pattern">The PCRE regular expression pattern to match.</param>
/// <returns>A new query with the additional constraint.</returns>
public virtual S WhereMatches(string key, string pattern)
{
return WhereMatches(key, pattern, null);
}
/// <summary>
/// Adds a constraint to the query that requires a particular key's value
/// to match a value for a key in the results of another AVQuery.
/// </summary>
/// <param name="key">The key whose value is being checked.</param>
/// <param name="keyInQuery">The key in the objects from the subquery to look in.</param>
/// <param name="query">The subquery to run</param>
/// <returns>A new query with the additional constraint.</returns>
public virtual S WhereMatchesKeyInQuery<TOther>(string key,
string keyInQuery,
AVQuery<TOther> query) where TOther : AVObject
{
var parameters = new Dictionary<string, object> {
{ "query", query.BuildParameters(true)},
{ "key", keyInQuery}
};
return CreateInstance(where: new Dictionary<string, object> {
{ key, new Dictionary<string, object>{{"$select", parameters}}}
});
}
/// <summary>
/// Adds a constraint to the query that requires a particular key's value
/// does not match any value for a key in the results of another AVQuery.
/// </summary>
/// <param name="key">The key whose value is being checked.</param>
/// <param name="keyInQuery">The key in the objects from the subquery to look in.</param>
/// <param name="query">The subquery to run</param>
/// <returns>A new query with the additional constraint.</returns>
public virtual S WhereDoesNotMatchesKeyInQuery<TOther>(string key,
string keyInQuery,
AVQuery<TOther> query) where TOther : AVObject
{
var parameters = new Dictionary<string, object> {
{ "query", query.BuildParameters(true)},
{ "key", keyInQuery}
};
return CreateInstance(where: new Dictionary<string, object> {
{ key, new Dictionary<string, object>{{"$dontSelect", parameters}}}
});
}
/// <summary>
/// Adds a constraint to the query that requires that a particular key's value
/// matches another AVQuery. This only works on keys whose values are
/// AVObjects or lists of AVObjects.
/// </summary>
/// <param name="key">The key to check.</param>
/// <param name="query">The query that the value should match.</param>
/// <returns>A new query with the additional constraint.</returns>
public virtual S WhereMatchesQuery<TOther>(string key, AVQuery<TOther> query)
where TOther : AVObject
{
return CreateInstance(where: new Dictionary<string, object> {
{ key, new Dictionary<string, object>{{"$inQuery", query.BuildParameters(true)}}}
});
}
/// <summary>
/// Adds a proximity-based constraint for finding objects with keys whose GeoPoint
/// values are near the given point.
/// </summary>
/// <param name="key">The key that the AVGeoPoint is stored in.</param>
/// <param name="point">The reference AVGeoPoint.</param>
/// <returns>A new query with the additional constraint.</returns>
public virtual S WhereNear(string key, AVGeoPoint point)
{
return CreateInstance(where: new Dictionary<string, object> {
{ key, new Dictionary<string, object>{{"$nearSphere", point}}}
});
}
/// <summary>
/// Adds a constraint to the query that requires a particular key's value to be
/// contained in the provided list of values.
/// </summary>
/// <param name="key">The key to check.</param>
/// <param name="values">The values that will match.</param>
/// <returns>A new query with the additional constraint.</returns>
public virtual S WhereNotContainedIn<TIn>(string key, IEnumerable<TIn> values)
{
return CreateInstance(where: new Dictionary<string, object> {
{ key, new Dictionary<string, object>{{"$nin", values.ToList()}}}
});
}
/// <summary>
/// Adds a constraint to the query that requires a particular key's value not
/// to be equal to the provided value.
/// </summary>
/// <param name="key">The key to check.</param>
/// <param name="value">The value that that must not be equalled.</param>
/// <returns>A new query with the additional constraint.</returns>
public virtual S WhereNotEqualTo(string key, object value)
{
return CreateInstance(where: new Dictionary<string, object> {
{ key, new Dictionary<string, object>{{"$ne", value}}}
});
}
/// <summary>
/// Adds a constraint for finding string values that start with the provided string.
/// This query will use the backend index, so it will be fast even with large data sets.
/// </summary>
/// <param name="key">The key that the string to match is stored in.</param>
/// <param name="suffix">The substring that the value must start with.</param>
/// <returns>A new query with the additional constraint.</returns>
public virtual S WhereStartsWith(string key, string suffix)
{
return CreateInstance(where: new Dictionary<string, object> {
{ key, new Dictionary<string, object>{{"$regex", "^" + RegexQuote(suffix)}}}
});
}
/// <summary>
/// Add a constraint to the query that requires a particular key's coordinates to be
/// contained within a given rectangular geographic bounding box.
/// </summary>
/// <param name="key">The key to be constrained.</param>
/// <param name="southwest">The lower-left inclusive corner of the box.</param>
/// <param name="northeast">The upper-right inclusive corner of the box.</param>
/// <returns>A new query with the additional constraint.</returns>
public virtual S WhereWithinGeoBox(string key,
AVGeoPoint southwest,
AVGeoPoint northeast)
{
return this.CreateInstance(where: new Dictionary<string, object>
{
{
key,
new Dictionary<string, object>
{
{
"$within",
new Dictionary<string, object> {
{ "$box", new[] {southwest, northeast}}
}
}
}
}
});
}
/// <summary>
/// Adds a proximity-based constraint for finding objects with keys whose GeoPoint
/// values are near the given point and within the maximum distance given.
/// </summary>
/// <param name="key">The key that the AVGeoPoint is stored in.</param>
/// <param name="point">The reference AVGeoPoint.</param>
/// <param name="maxDistance">The maximum distance (in radians) of results to return.</param>
/// <returns>A new query with the additional constraint.</returns>
public virtual S WhereWithinDistance(
string key, AVGeoPoint point, AVGeoDistance maxDistance)
{
var nearWhere = new Dictionary<string, object> {
{ key, new Dictionary<string, object>{{"$nearSphere", point}}}
};
var mergedWhere = MergeWhere(nearWhere, new Dictionary<string, object> {
{ key, new Dictionary<string, object>{{"$maxDistance", maxDistance.Radians}}}
});
return CreateInstance(where: mergedWhere);
}
internal virtual S WhereRelatedTo(AVObject parent, string key)
{
return CreateInstance(where: new Dictionary<string, object> {
{
"$relatedTo",
new Dictionary<string, object> {
{ "object", parent},
{ "key", key}
}
}
});
}
#endregion
/// <summary>
/// Retrieves a list of AVObjects that satisfy this query from LeanCloud.
/// </summary>
/// <returns>The list of AVObjects that match this query.</returns>
public virtual Task<IEnumerable<T>> FindAsync()
{
return FindAsync(CancellationToken.None);
}
/// <summary>
/// Retrieves a list of AVObjects that satisfy this query from LeanCloud.
/// </summary>
/// <param name="cancellationToken">The cancellation token.</param>
/// <returns>The list of AVObjects that match this query.</returns>
public abstract Task<IEnumerable<T>> FindAsync(CancellationToken cancellationToken);
/// <summary>
/// Retrieves at most one AVObject that satisfies this query.
/// </summary>
/// <returns>A single AVObject that satisfies this query, or else null.</returns>
public virtual Task<T> FirstOrDefaultAsync()
{
return FirstOrDefaultAsync(CancellationToken.None);
}
/// <summary>
/// Retrieves at most one AVObject that satisfies this query.
/// </summary>
/// <param name="cancellationToken">The cancellation token.</param>
/// <returns>A single AVObject that satisfies this query, or else null.</returns>
public abstract Task<T> FirstOrDefaultAsync(CancellationToken cancellationToken);
/// <summary>
/// Retrieves at most one AVObject that satisfies this query.
/// </summary>
/// <returns>A single AVObject that satisfies this query.</returns>
/// <exception cref="AVException">If no results match the query.</exception>
public virtual Task<T> FirstAsync()
{
return FirstAsync(CancellationToken.None);
}
/// <summary>
/// Retrieves at most one AVObject that satisfies this query.
/// </summary>
/// <param name="cancellationToken">The cancellation token.</param>
/// <returns>A single AVObject that satisfies this query.</returns>
/// <exception cref="AVException">If no results match the query.</exception>
public abstract Task<T> FirstAsync(CancellationToken cancellationToken);
/// <summary>
/// Counts the number of objects that match this query.
/// </summary>
/// <returns>The number of objects that match this query.</returns>
public virtual Task<int> CountAsync()
{
return CountAsync(CancellationToken.None);
}
/// <summary>
/// Counts the number of objects that match this query.
/// </summary>
/// <param name="cancellationToken">The cancellation token.</param>
/// <returns>The number of objects that match this query.</returns>
public abstract Task<int> CountAsync(CancellationToken cancellationToken);
/// <summary>
/// Constructs a AVObject whose id is already known by fetching data
/// from the server.
/// </summary>
/// <param name="objectId">ObjectId of the AVObject to fetch.</param>
/// <returns>The AVObject for the given objectId.</returns>
public virtual Task<T> GetAsync(string objectId)
{
return GetAsync(objectId, CancellationToken.None);
}
/// <summary>
/// Constructs a AVObject whose id is already known by fetching data
/// from the server.
/// </summary>
/// <param name="objectId">ObjectId of the AVObject to fetch.</param>
/// <param name="cancellationToken">The cancellation token.</param>
/// <returns>The AVObject for the given objectId.</returns>
public abstract Task<T> GetAsync(string objectId, CancellationToken cancellationToken);
internal object GetConstraint(string key)
{
return where == null ? null : where.GetOrDefault(key, null);
}
/// <summary>
/// 构建查询字符串
/// </summary>
/// <param name="includeClassName">是否包含 ClassName </param>
/// <returns></returns>
public IDictionary<string, object> BuildParameters(bool includeClassName = false)
{
Dictionary<string, object> result = new Dictionary<string, object>();
if (where != null)
{
result["where"] = PointerOrLocalIdEncoder.Instance.Encode(where);
}
if (orderBy != null)
{
result["order"] = string.Join(",", orderBy.ToArray());
}
if (skip != null)
{
result["skip"] = skip.Value;
}
if (limit != null)
{
result["limit"] = limit.Value;
}
if (includes != null)
{
result["include"] = string.Join(",", includes.ToArray());
}
if (selectedKeys != null)
{
result["keys"] = string.Join(",", selectedKeys.ToArray());
}
if (includeClassName)
{
result["className"] = className;
}
if (redirectClassNameForKey != null)
{
result["redirectClassNameForKey"] = redirectClassNameForKey;
}
return result;
}
private string RegexQuote(string input)
{
return "\\Q" + input.Replace("\\E", "\\E\\\\E\\Q") + "\\E";
}
private string GetRegexOptions(Regex regex, string modifiers)
{
string result = modifiers ?? "";
if (regex.Options.HasFlag(RegexOptions.IgnoreCase) && !modifiers.Contains("i"))
{
result += "i";
}
if (regex.Options.HasFlag(RegexOptions.Multiline) && !modifiers.Contains("m"))
{
result += "m";
}
return result;
}
private IDictionary<string, object> EncodeRegex(Regex regex, string modifiers)
{
var options = GetRegexOptions(regex, modifiers);
var dict = new Dictionary<string, object>();
dict["$regex"] = regex.ToString();
if (!string.IsNullOrEmpty(options))
{
dict["$options"] = options;
}
return dict;
}
}
//public abstract class AVQueryBase<S, T> : IAVQueryTuple<S, T>
// where T : IAVObject
//{
// protected readonly string className;
// protected readonly Dictionary<string, object> where;
// protected readonly ReadOnlyCollection<string> orderBy;
// protected readonly ReadOnlyCollection<string> includes;
// protected readonly ReadOnlyCollection<string> selectedKeys;
// protected readonly String redirectClassNameForKey;
// protected readonly int? skip;
// protected readonly int? limit;
// internal string ClassName { get { return className; } }
// private string relativeUri;
// internal string RelativeUri
// {
// get
// {
// string rtn = string.Empty;
// if (string.IsNullOrEmpty(relativeUri))
// {
// rtn = "classes/" + Uri.EscapeDataString(this.className);
// }
// else
// {
// rtn = relativeUri;
// }
// return rtn;
// }
// set
// {
// relativeUri = value;
// }
// }
// public Dictionary<string, object> Condition
// {
// get { return this.where; }
// }
// protected AVQueryBase()
// {
// }
// internal abstract S CreateInstance(AVQueryBase<S, T> source,
// IDictionary<string, object> where = null,
// IEnumerable<string> replacementOrderBy = null,
// IEnumerable<string> thenBy = null,
// int? skip = null,
// int? limit = null,
// IEnumerable<string> includes = null,
// IEnumerable<string> selectedKeys = null,
// String redirectClassNameForKey = null);
// /// <summary>
// /// Private constructor for composition of queries. A Source query is required,
// /// but the remaining values can be null if they won't be changed in this
// /// composition.
// /// </summary>
// protected AVQueryBase(AVQueryBase<S, T> source,
// IDictionary<string, object> where = null,
// IEnumerable<string> replacementOrderBy = null,
// IEnumerable<string> thenBy = null,
// int? skip = null,
// int? limit = null,
// IEnumerable<string> includes = null,
// IEnumerable<string> selectedKeys = null,
// String redirectClassNameForKey = null)
// {
// if (source == null)
// {
// throw new ArgumentNullException("Source");
// }
// className = source.className;
// this.where = source.where;
// this.orderBy = source.orderBy;
// this.skip = source.skip;
// this.limit = source.limit;
// this.includes = source.includes;
// this.selectedKeys = source.selectedKeys;
// this.redirectClassNameForKey = source.redirectClassNameForKey;
// if (where != null)
// {
// var newWhere = MergeWhereClauses(where);
// this.where = new Dictionary<string, object>(newWhere);
// }
// if (replacementOrderBy != null)
// {
// this.orderBy = new ReadOnlyCollection<string>(replacementOrderBy.ToList());
// }
// if (thenBy != null)
// {
// if (this.orderBy == null)
// {
// throw new ArgumentException("You must call OrderBy before calling ThenBy.");
// }
// var newOrderBy = new List<string>(this.orderBy);
// newOrderBy.AddRange(thenBy);
// this.orderBy = new ReadOnlyCollection<string>(newOrderBy);
// }
// // Remove duplicates.
// if (this.orderBy != null)
// {
// var newOrderBy = new HashSet<string>(this.orderBy);
// this.orderBy = new ReadOnlyCollection<string>(newOrderBy.ToList<string>());
// }
// if (skip != null)
// {
// this.skip = (this.skip ?? 0) + skip;
// }
// if (limit != null)
// {
// this.limit = limit;
// }
// if (includes != null)
// {
// var newIncludes = MergeIncludes(includes);
// this.includes = new ReadOnlyCollection<string>(newIncludes.ToList());
// }
// if (selectedKeys != null)
// {
// var newSelectedKeys = MergeSelectedKeys(selectedKeys);
// this.selectedKeys = new ReadOnlyCollection<string>(newSelectedKeys.ToList());
// }
// if (redirectClassNameForKey != null)
// {
// this.redirectClassNameForKey = redirectClassNameForKey;
// }
// }
// public AVQueryBase(string className)
// {
// if (string.IsNullOrEmpty(className))
// {
// throw new ArgumentNullException("className", "Must specify a AVObject class name when creating a AVQuery.");
// }
// this.className = className;
// }
// private HashSet<string> MergeIncludes(IEnumerable<string> includes)
// {
// if (this.includes == null)
// {
// return new HashSet<string>(includes);
// }
// var newIncludes = new HashSet<string>(this.includes);
// foreach (var item in includes)
// {
// newIncludes.Add(item);
// }
// return newIncludes;
// }
// private HashSet<String> MergeSelectedKeys(IEnumerable<String> selectedKeys)
// {
// if (this.selectedKeys == null)
// {
// return new HashSet<string>(selectedKeys);
// }
// var newSelectedKeys = new HashSet<String>(this.selectedKeys);
// foreach (var item in selectedKeys)
// {
// newSelectedKeys.Add(item);
// }
// return newSelectedKeys;
// }
// private IDictionary<string, object> MergeWhereClauses(IDictionary<string, object> where)
// {
// return MergeWhere(this.where, where);
// }
// public virtual IDictionary<string, object> MergeWhere(IDictionary<string, object> primary, IDictionary<string, object> secondary)
// {
// if (secondary == null)
// {
// return primary;
// }
// var newWhere = new Dictionary<string, object>(primary);
// foreach (var pair in secondary)
// {
// var condition = pair.Value as IDictionary<string, object>;
// if (newWhere.ContainsKey(pair.Key))
// {
// var oldCondition = newWhere[pair.Key] as IDictionary<string, object>;
// if (oldCondition == null || condition == null)
// {
// throw new ArgumentException("More than one where clause for the given key provided.");
// }
// var newCondition = new Dictionary<string, object>(oldCondition);
// foreach (var conditionPair in condition)
// {
// if (newCondition.ContainsKey(conditionPair.Key))
// {
// throw new ArgumentException("More than one condition for the given key provided.");
// }
// newCondition[conditionPair.Key] = conditionPair.Value;
// }
// newWhere[pair.Key] = newCondition;
// }
// else
// {
// newWhere[pair.Key] = pair.Value;
// }
// }
// return newWhere;
// }
// ///// <summary>
// ///// Constructs a query that is the or of the given queries.
// ///// </summary>
// ///// <param name="queries">The list of AVQueries to 'or' together.</param>
// ///// <returns>A AVQquery that is the 'or' of the passed in queries.</returns>
// //public static AVQuery<T> Or(IEnumerable<AVQuery<T>> queries)
// //{
// // string className = null;
// // var orValue = new List<IDictionary<string, object>>();
// // // We need to cast it to non-generic IEnumerable because of AOT-limitation
// // var nonGenericQueries = (IEnumerable)queries;
// // foreach (var obj in nonGenericQueries)
// // {
// // var q = (AVQuery<T>)obj;
// // if (className != null && q.className != className)
// // {
// // throw new ArgumentException(
// // "All of the queries in an or query must be on the same class.");
// // }
// // className = q.className;
// // var parameters = q.BuildParameters();
// // if (parameters.Count == 0)
// // {
// // continue;
// // }
// // object where;
// // if (!parameters.TryGetValue("where", out where) || parameters.Count > 1)
// // {
// // throw new ArgumentException(
// // "None of the queries in an or query can have non-filtering clauses");
// // }
// // orValue.Add(where as IDictionary<string, object>);
// // }
// // return new AVQuery<T>(new AVQuery<T>(className),
// // where: new Dictionary<string, object> {
// // {"$or", orValue}
// // });
// //}
// #region Order By
// /// <summary>
// /// Sorts the results in ascending order by the given key.
// /// This will override any existing ordering for the query.
// /// </summary>
// /// <param name="key">The key to order by.</param>
// /// <returns>A new query with the additional constraint.</returns>
// public virtual S OrderBy(string key)
// {
// return CreateInstance( replacementOrderBy: new List<string> { key });
// }
// /// <summary>
// /// Sorts the results in descending order by the given key.
// /// This will override any existing ordering for the query.
// /// </summary>
// /// <param name="key">The key to order by.</param>
// /// <returns>A new query with the additional constraint.</returns>
// public virtual S OrderByDescending(string key)
// {
// return CreateInstance( replacementOrderBy: new List<string> { "-" + key });
// }
// /// <summary>
// /// Sorts the results in ascending order by the given key, after previous
// /// ordering has been applied.
// ///
// /// This method can only be called if there is already an <see cref="OrderBy"/>
// /// or <see cref="OrderByDescending"/>
// /// on this query.
// /// </summary>
// /// <param name="key">The key to order by.</param>
// /// <returns>A new query with the additional constraint.</returns>
// public virtual S ThenBy(string key)
// {
// return CreateInstance( thenBy: new List<string> { key });
// }
// /// <summary>
// /// Sorts the results in descending order by the given key, after previous
// /// ordering has been applied.
// ///
// /// This method can only be called if there is already an <see cref="OrderBy"/>
// /// or <see cref="OrderByDescending"/> on this query.
// /// </summary>
// /// <param name="key">The key to order by.</param>
// /// <returns>A new query with the additional constraint.</returns>
// public virtual S ThenByDescending(string key)
// {
// return CreateInstance( thenBy: new List<string> { "-" + key });
// }
// #endregion
// /// <summary>
// /// Include nested AVObjects for the provided key. You can use dot notation
// /// to specify which fields in the included objects should also be fetched.
// /// </summary>
// /// <param name="key">The key that should be included.</param>
// /// <returns>A new query with the additional constraint.</returns>
// public virtual S Include(string key)
// {
// return CreateInstance( includes: new List<string> { key });
// }
// /// <summary>
// /// Restrict the fields of returned AVObjects to only include the provided key.
// /// If this is called multiple times, then all of the keys specified in each of
// /// the calls will be included.
// /// </summary>
// /// <param name="key">The key that should be included.</param>
// /// <returns>A new query with the additional constraint.</returns>
// public virtual S Select(string key)
// {
// return CreateInstance( selectedKeys: new List<string> { key });
// }
// /// <summary>
// /// Skips a number of results before returning. This is useful for pagination
// /// of large queries. Chaining multiple skips together will cause more results
// /// to be skipped.
// /// </summary>
// /// <param name="count">The number of results to skip.</param>
// /// <returns>A new query with the additional constraint.</returns>
// public virtual S Skip(int count)
// {
// return CreateInstance( skip: count);
// }
// /// <summary>
// /// Controls the maximum number of results that are returned. Setting a negative
// /// limit denotes retrieval without a limit. Chaining multiple limits
// /// results in the last limit specified being used. The default limit is
// /// 100, with a maximum of 1000 results being returned at a time.
// /// </summary>
// /// <param name="count">The maximum number of results to return.</param>
// /// <returns>A new query with the additional constraint.</returns>
// public virtual S Limit(int count)
// {
// return CreateInstance( limit: count);
// }
// internal virtual S RedirectClassName(String key)
// {
// return CreateInstance( redirectClassNameForKey: key);
// }
// #region Where
// /// <summary>
// /// Adds a constraint to the query that requires a particular key's value to be
// /// contained in the provided list of values.
// /// </summary>
// /// <param name="key">The key to check.</param>
// /// <param name="values">The values that will match.</param>
// /// <returns>A new query with the additional constraint.</returns>
// public virtual S WhereContainedIn<TIn>(string key, IEnumerable<TIn> values)
// {
// return CreateInstance( where: new Dictionary<string, object> {
// { key, new Dictionary<string, object>{{"$in", values.ToList()}}}
// });
// }
// /// <summary>
// /// Add a constraint to the querey that requires a particular key's value to be
// /// a list containing all of the elements in the provided list of values.
// /// </summary>
// /// <param name="key">The key to check.</param>
// /// <param name="values">The values that will match.</param>
// /// <returns>A new query with the additional constraint.</returns>
// public virtual S WhereContainsAll<TIn>(string key, IEnumerable<TIn> values)
// {
// return CreateInstance( where: new Dictionary<string, object> {
// { key, new Dictionary<string, object>{{"$all", values.ToList()}}}
// });
// }
// /// <summary>
// /// Adds a constraint for finding string values that contain a provided string.
// /// This will be slow for large data sets.
// /// </summary>
// /// <param name="key">The key that the string to match is stored in.</param>
// /// <param name="substring">The substring that the value must contain.</param>
// /// <returns>A new query with the additional constraint.</returns>
// public virtual S WhereContains(string key, string substring)
// {
// return CreateInstance( where: new Dictionary<string, object> {
// { key, new Dictionary<string, object>{{"$regex", RegexQuote(substring)}}}
// });
// }
// /// <summary>
// /// Adds a constraint for finding objects that do not contain a given key.
// /// </summary>
// /// <param name="key">The key that should not exist.</param>
// /// <returns>A new query with the additional constraint.</returns>
// public virtual S WhereDoesNotExist(string key)
// {
// return CreateInstance( where: new Dictionary<string, object>{
// { key, new Dictionary<string, object>{{"$exists", false}}}
// });
// }
// /// <summary>
// /// Adds a constraint to the query that requires that a particular key's value
// /// does not match another AVQuery. This only works on keys whose values are
// /// AVObjects or lists of AVObjects.
// /// </summary>
// /// <param name="key">The key to check.</param>
// /// <param name="query">The query that the value should not match.</param>
// /// <returns>A new query with the additional constraint.</returns>
// public virtual S WhereDoesNotMatchQuery<TOther>(string key, AVQuery<TOther> query)
// where TOther : AVObject
// {
// return CreateInstance( where: new Dictionary<string, object> {
// { key, new Dictionary<string, object>{{"$notInQuery", query.BuildParameters(true)}}}
// });
// }
// /// <summary>
// /// Adds a constraint for finding string values that end with a provided string.
// /// This will be slow for large data sets.
// /// </summary>
// /// <param name="key">The key that the string to match is stored in.</param>
// /// <param name="suffix">The substring that the value must end with.</param>
// /// <returns>A new query with the additional constraint.</returns>
// public virtual S WhereEndsWith(string key, string suffix)
// {
// return CreateInstance( where: new Dictionary<string, object> {
// { key, new Dictionary<string, object>{{"$regex", RegexQuote(suffix) + "$"}}}
// });
// }
// /// <summary>
// /// Adds a constraint to the query that requires a particular key's value to be
// /// equal to the provided value.
// /// </summary>
// /// <param name="key">The key to check.</param>
// /// <param name="value">The value that the AVObject must contain.</param>
// /// <returns>A new query with the additional constraint.</returns>
// public virtual S WhereEqualTo(string key, object value)
// {
// return CreateInstance( where: new Dictionary<string, object> {
// { key, value}
// });
// }
// /// <summary>
// /// Adds a constraint to the query that requires a particular key's size to be
// /// equal to the provided size.
// /// </summary>
// /// <returns>The size equal to.</returns>
// /// <param name="key">The key to check.</param>
// /// <param name="size">The value that the size must be.</param>
// /// <returns>A new query with the additional constraint.</returns>
// public virtual S WhereSizeEqualTo(string key, uint size)
// {
// return CreateInstance( where: new Dictionary<string, object> {
// { key, new Dictionary<string, uint>{{"$size", size}}}
// });
// }
// /// <summary>
// /// Adds a constraint for finding objects that contain a given key.
// /// </summary>
// /// <param name="key">The key that should exist.</param>
// /// <returns>A new query with the additional constraint.</returns>
// public virtual S WhereExists(string key)
// {
// return CreateInstance( where: new Dictionary<string, object>{
// { key, new Dictionary<string, object>{{"$exists", true}}}
// });
// }
// /// <summary>
// /// Adds a constraint to the query that requires a particular key's value to be
// /// greater than the provided value.
// /// </summary>
// /// <param name="key">The key to check.</param>
// /// <param name="value">The value that provides a lower bound.</param>
// /// <returns>A new query with the additional constraint.</returns>
// public virtual S WhereGreaterThan(string key, object value)
// {
// return CreateInstance( where: new Dictionary<string, object>{
// { key, new Dictionary<string, object>{{"$gt", value}}}
// });
// }
// /// <summary>
// /// Adds a constraint to the query that requires a particular key's value to be
// /// greater or equal to than the provided value.
// /// </summary>
// /// <param name="key">The key to check.</param>
// /// <param name="value">The value that provides a lower bound.</param>
// /// <returns>A new query with the additional constraint.</returns>
// public virtual S WhereGreaterThanOrEqualTo(string key, object value)
// {
// return CreateInstance( where: new Dictionary<string, object>{
// { key, new Dictionary<string, object>{{"$gte", value}}}
// });
// }
// /// <summary>
// /// Adds a constraint to the query that requires a particular key's value to be
// /// less than the provided value.
// /// </summary>
// /// <param name="key">The key to check.</param>
// /// <param name="value">The value that provides an upper bound.</param>
// /// <returns>A new query with the additional constraint.</returns>
// public virtual S WhereLessThan(string key, object value)
// {
// return CreateInstance( where: new Dictionary<string, object>{
// { key, new Dictionary<string, object>{{"$lt", value}}}
// });
// }
// /// <summary>
// /// Adds a constraint to the query that requires a particular key's value to be
// /// less than or equal to the provided value.
// /// </summary>
// /// <param name="key">The key to check.</param>
// /// <param name="value">The value that provides a lower bound.</param>
// /// <returns>A new query with the additional constraint.</returns>
// public virtual S WhereLessThanOrEqualTo(string key, object value)
// {
// return CreateInstance( where: new Dictionary<string, object>{
// { key, new Dictionary<string, object>{{"$lte", value}}}
// });
// }
// /// <summary>
// /// Adds a regular expression constraint for finding string values that match the provided
// /// regular expression. This may be slow for large data sets.
// /// </summary>
// /// <param name="key">The key that the string to match is stored in.</param>
// /// <param name="regex">The regular expression pattern to match. The Regex must
// /// have the <see cref="RegexOptions.ECMAScript"/> options flag set.</param>
// /// <param name="modifiers">Any of the following supported PCRE modifiers:
// /// <code>i</code> - Case insensitive search
// /// <code>m</code> Search across multiple lines of input</param>
// /// <returns>A new query with the additional constraint.</returns>
// public virtual S WhereMatches(string key, Regex regex, string modifiers)
// {
// if (!regex.Options.HasFlag(RegexOptions.ECMAScript))
// {
// throw new ArgumentException(
// "Only ECMAScript-compatible regexes are supported. Please use the ECMAScript RegexOptions flag when creating your regex.");
// }
// return CreateInstance( where: new Dictionary<string, object> {
// { key, EncodeRegex(regex, modifiers)}
// });
// }
// /// <summary>
// /// Adds a regular expression constraint for finding string values that match the provided
// /// regular expression. This may be slow for large data sets.
// /// </summary>
// /// <param name="key">The key that the string to match is stored in.</param>
// /// <param name="regex">The regular expression pattern to match. The Regex must
// /// have the <see cref="RegexOptions.ECMAScript"/> options flag set.</param>
// /// <returns>A new query with the additional constraint.</returns>
// public virtual S WhereMatches(string key, Regex regex)
// {
// return WhereMatches(key, regex, null);
// }
// /// <summary>
// /// Adds a regular expression constraint for finding string values that match the provided
// /// regular expression. This may be slow for large data sets.
// /// </summary>
// /// <param name="key">The key that the string to match is stored in.</param>
// /// <param name="pattern">The PCRE regular expression pattern to match.</param>
// /// <param name="modifiers">Any of the following supported PCRE modifiers:
// /// <code>i</code> - Case insensitive search
// /// <code>m</code> Search across multiple lines of input</param>
// /// <returns>A new query with the additional constraint.</returns>
// public virtual S WhereMatches(string key, string pattern, string modifiers = null)
// {
// return WhereMatches(key, new Regex(pattern, RegexOptions.ECMAScript), modifiers);
// }
// /// <summary>
// /// Adds a regular expression constraint for finding string values that match the provided
// /// regular expression. This may be slow for large data sets.
// /// </summary>
// /// <param name="key">The key that the string to match is stored in.</param>
// /// <param name="pattern">The PCRE regular expression pattern to match.</param>
// /// <returns>A new query with the additional constraint.</returns>
// public virtual S WhereMatches(string key, string pattern)
// {
// return WhereMatches(key, pattern, null);
// }
// /// <summary>
// /// Adds a constraint to the query that requires a particular key's value
// /// to match a value for a key in the results of another AVQuery.
// /// </summary>
// /// <param name="key">The key whose value is being checked.</param>
// /// <param name="keyInQuery">The key in the objects from the subquery to look in.</param>
// /// <param name="query">The subquery to run</param>
// /// <returns>A new query with the additional constraint.</returns>
// public virtual S WhereMatchesKeyInQuery<TOther>(string key,
// string keyInQuery,
// AVQuery<TOther> query) where TOther : AVObject
// {
// var parameters = new Dictionary<string, object> {
// { "query", query.BuildParameters(true)},
// { "key", keyInQuery}
// };
// return CreateInstance( where: new Dictionary<string, object> {
// { key, new Dictionary<string, object>{{"$select", parameters}}}
// });
// }
// /// <summary>
// /// Adds a constraint to the query that requires a particular key's value
// /// does not match any value for a key in the results of another AVQuery.
// /// </summary>
// /// <param name="key">The key whose value is being checked.</param>
// /// <param name="keyInQuery">The key in the objects from the subquery to look in.</param>
// /// <param name="query">The subquery to run</param>
// /// <returns>A new query with the additional constraint.</returns>
// public virtual S WhereDoesNotMatchesKeyInQuery<TOther>(string key,
// string keyInQuery,
// AVQuery<TOther> query) where TOther : AVObject
// {
// var parameters = new Dictionary<string, object> {
// { "query", query.BuildParameters(true)},
// { "key", keyInQuery}
// };
// return CreateInstance( where: new Dictionary<string, object> {
// { key, new Dictionary<string, object>{{"$dontSelect", parameters}}}
// });
// }
// /// <summary>
// /// Adds a constraint to the query that requires that a particular key's value
// /// matches another AVQuery. This only works on keys whose values are
// /// AVObjects or lists of AVObjects.
// /// </summary>
// /// <param name="key">The key to check.</param>
// /// <param name="query">The query that the value should match.</param>
// /// <returns>A new query with the additional constraint.</returns>
// public virtual S WhereMatchesQuery<TOther>(string key, AVQuery<TOther> query)
// where TOther : AVObject
// {
// return CreateInstance( where: new Dictionary<string, object> {
// { key, new Dictionary<string, object>{{"$inQuery", query.BuildParameters(true)}}}
// });
// }
// /// <summary>
// /// Adds a proximity-based constraint for finding objects with keys whose GeoPoint
// /// values are near the given point.
// /// </summary>
// /// <param name="key">The key that the AVGeoPoint is stored in.</param>
// /// <param name="point">The reference AVGeoPoint.</param>
// /// <returns>A new query with the additional constraint.</returns>
// public virtual S WhereNear(string key, AVGeoPoint point)
// {
// return CreateInstance( where: new Dictionary<string, object> {
// { key, new Dictionary<string, object>{{"$nearSphere", point}}}
// });
// }
// /// <summary>
// /// Adds a constraint to the query that requires a particular key's value to be
// /// contained in the provided list of values.
// /// </summary>
// /// <param name="key">The key to check.</param>
// /// <param name="values">The values that will match.</param>
// /// <returns>A new query with the additional constraint.</returns>
// public virtual S WhereNotContainedIn<TIn>(string key, IEnumerable<TIn> values)
// {
// return CreateInstance( where: new Dictionary<string, object> {
// { key, new Dictionary<string, object>{{"$nin", values.ToList()}}}
// });
// }
// /// <summary>
// /// Adds a constraint to the query that requires a particular key's value not
// /// to be equal to the provided value.
// /// </summary>
// /// <param name="key">The key to check.</param>
// /// <param name="value">The value that that must not be equalled.</param>
// /// <returns>A new query with the additional constraint.</returns>
// public virtual S WhereNotEqualTo(string key, object value)
// {
// return CreateInstance( where: new Dictionary<string, object> {
// { key, new Dictionary<string, object>{{"$ne", value}}}
// });
// }
// /// <summary>
// /// Adds a constraint for finding string values that start with the provided string.
// /// This query will use the backend index, so it will be fast even with large data sets.
// /// </summary>
// /// <param name="key">The key that the string to match is stored in.</param>
// /// <param name="suffix">The substring that the value must start with.</param>
// /// <returns>A new query with the additional constraint.</returns>
// public virtual S WhereStartsWith(string key, string suffix)
// {
// return CreateInstance( where: new Dictionary<string, object> {
// { key, new Dictionary<string, object>{{"$regex", "^" + RegexQuote(suffix)}}}
// });
// }
// /// <summary>
// /// Add a constraint to the query that requires a particular key's coordinates to be
// /// contained within a given rectangular geographic bounding box.
// /// </summary>
// /// <param name="key">The key to be constrained.</param>
// /// <param name="southwest">The lower-left inclusive corner of the box.</param>
// /// <param name="northeast">The upper-right inclusive corner of the box.</param>
// /// <returns>A new query with the additional constraint.</returns>
// public virtual S WhereWithinGeoBox(string key,
// AVGeoPoint southwest,
// AVGeoPoint northeast)
// {
// return this.CreateInstance( where: new Dictionary<string, object>
// {
// {
// key,
// new Dictionary<string, object>
// {
// {
// "$within",
// new Dictionary<string, object> {
// { "$box", new[] {southwest, northeast}}
// }
// }
// }
// }
// });
// }
// /// <summary>
// /// Adds a proximity-based constraint for finding objects with keys whose GeoPoint
// /// values are near the given point and within the maximum distance given.
// /// </summary>
// /// <param name="key">The key that the AVGeoPoint is stored in.</param>
// /// <param name="point">The reference AVGeoPoint.</param>
// /// <param name="maxDistance">The maximum distance (in radians) of results to return.</param>
// /// <returns>A new query with the additional constraint.</returns>
// public virtual S WhereWithinDistance(
// string key, AVGeoPoint point, AVGeoDistance maxDistance)
// {
// var nearWhere = new Dictionary<string, object> {
// { key, new Dictionary<string, object>{{"$nearSphere", point}}}
// };
// var mergedWhere = MergeWhere(nearWhere, new Dictionary<string, object> {
// { key, new Dictionary<string, object>{{"$maxDistance", maxDistance.Radians}}}
// });
// return CreateInstance( where: mergedWhere);
// }
// internal virtual S WhereRelatedTo(AVObject parent, string key)
// {
// return CreateInstance( where: new Dictionary<string, object> {
// {
// "$relatedTo",
// new Dictionary<string, object> {
// { "object", parent},
// { "key", key}
// }
// }
// });
// }
// #endregion
// /// <summary>
// /// Retrieves a list of AVObjects that satisfy this query from LeanCloud.
// /// </summary>
// /// <returns>The list of AVObjects that match this query.</returns>
// public virtual Task<IEnumerable<T>> FindAsync()
// {
// return FindAsync(CancellationToken.None);
// }
// /// <summary>
// /// Retrieves a list of AVObjects that satisfy this query from LeanCloud.
// /// </summary>
// /// <param name="cancellationToken">The cancellation token.</param>
// /// <returns>The list of AVObjects that match this query.</returns>
// public abstract Task<IEnumerable<T>> FindAsync(CancellationToken cancellationToken);
// /// <summary>
// /// Retrieves at most one AVObject that satisfies this query.
// /// </summary>
// /// <returns>A single AVObject that satisfies this query, or else null.</returns>
// public virtual Task<T> FirstOrDefaultAsync()
// {
// return FirstOrDefaultAsync(CancellationToken.None);
// }
// /// <summary>
// /// Retrieves at most one AVObject that satisfies this query.
// /// </summary>
// /// <param name="cancellationToken">The cancellation token.</param>
// /// <returns>A single AVObject that satisfies this query, or else null.</returns>
// public abstract Task<T> FirstOrDefaultAsync(CancellationToken cancellationToken);
// /// <summary>
// /// Retrieves at most one AVObject that satisfies this query.
// /// </summary>
// /// <returns>A single AVObject that satisfies this query.</returns>
// /// <exception cref="AVException">If no results match the query.</exception>
// public virtual Task<T> FirstAsync()
// {
// return FirstAsync(CancellationToken.None);
// }
// /// <summary>
// /// Retrieves at most one AVObject that satisfies this query.
// /// </summary>
// /// <param name="cancellationToken">The cancellation token.</param>
// /// <returns>A single AVObject that satisfies this query.</returns>
// /// <exception cref="AVException">If no results match the query.</exception>
// public abstract Task<T> FirstAsync(CancellationToken cancellationToken);
// /// <summary>
// /// Counts the number of objects that match this query.
// /// </summary>
// /// <returns>The number of objects that match this query.</returns>
// public virtual Task<int> CountAsync()
// {
// return CountAsync(CancellationToken.None);
// }
// /// <summary>
// /// Counts the number of objects that match this query.
// /// </summary>
// /// <param name="cancellationToken">The cancellation token.</param>
// /// <returns>The number of objects that match this query.</returns>
// public abstract Task<int> CountAsync(CancellationToken cancellationToken);
// /// <summary>
// /// Constructs a AVObject whose id is already known by fetching data
// /// from the server.
// /// </summary>
// /// <param name="objectId">ObjectId of the AVObject to fetch.</param>
// /// <returns>The AVObject for the given objectId.</returns>
// public virtual Task<T> GetAsync(string objectId)
// {
// return GetAsync(objectId, CancellationToken.None);
// }
// /// <summary>
// /// Constructs a AVObject whose id is already known by fetching data
// /// from the server.
// /// </summary>
// /// <param name="objectId">ObjectId of the AVObject to fetch.</param>
// /// <param name="cancellationToken">The cancellation token.</param>
// /// <returns>The AVObject for the given objectId.</returns>
// public abstract Task<T> GetAsync(string objectId, CancellationToken cancellationToken);
// internal object GetConstraint(string key)
// {
// return where == null ? null : where.GetOrDefault(key, null);
// }
// /// <summary>
// /// 构建查询字符串
// /// </summary>
// /// <param name="includeClassName">是否包含 ClassName </param>
// /// <returns></returns>
// public IDictionary<string, object> BuildParameters(bool includeClassName = false)
// {
// Dictionary<string, object> result = new Dictionary<string, object>();
// if (where != null)
// {
// result["where"] = PointerOrLocalIdEncoder.Instance.Encode(where);
// }
// if (orderBy != null)
// {
// result["order"] = string.Join(",", orderBy.ToArray());
// }
// if (skip != null)
// {
// result["skip"] = skip.Value;
// }
// if (limit != null)
// {
// result["limit"] = limit.Value;
// }
// if (includes != null)
// {
// result["include"] = string.Join(",", includes.ToArray());
// }
// if (selectedKeys != null)
// {
// result["keys"] = string.Join(",", selectedKeys.ToArray());
// }
// if (includeClassName)
// {
// result["className"] = className;
// }
// if (redirectClassNameForKey != null)
// {
// result["redirectClassNameForKey"] = redirectClassNameForKey;
// }
// return result;
// }
// private string RegexQuote(string input)
// {
// return "\\Q" + input.Replace("\\E", "\\E\\\\E\\Q") + "\\E";
// }
// private string GetRegexOptions(Regex regex, string modifiers)
// {
// string result = modifiers ?? "";
// if (regex.Options.HasFlag(RegexOptions.IgnoreCase) && !modifiers.Contains("i"))
// {
// result += "i";
// }
// if (regex.Options.HasFlag(RegexOptions.Multiline) && !modifiers.Contains("m"))
// {
// result += "m";
// }
// return result;
// }
// private IDictionary<string, object> EncodeRegex(Regex regex, string modifiers)
// {
// var options = GetRegexOptions(regex, modifiers);
// var dict = new Dictionary<string, object>();
// dict["$regex"] = regex.ToString();
// if (!string.IsNullOrEmpty(options))
// {
// dict["$options"] = options;
// }
// return dict;
// }
// /// <summary>
// /// Serves as the default hash function.
// /// </summary>
// /// <returns>A hash code for the current object.</returns>
// public override int GetHashCode()
// {
// // TODO (richardross): Implement this.
// return 0;
// }
//}
}
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