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SabreTools/SabreTools.DatFiles/ItemDictionary.cs
Matt Nadareski 18c8ccef8e Linq no longer used here
2025-01-13 17:15:51 -05:00

1322 lines
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C#
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using System;
using System.Collections;
#if NET40_OR_GREATER || NETCOREAPP
using System.Collections.Concurrent;
#endif
using System.Collections.Generic;
using System.IO;
using System.Text.RegularExpressions;
#if NET40_OR_GREATER || NETCOREAPP
using System.Threading.Tasks;
#endif
using System.Xml.Serialization;
using Newtonsoft.Json;
using SabreTools.Core.Filter;
using SabreTools.Core.Tools;
using SabreTools.DatItems;
using SabreTools.DatItems.Formats;
using SabreTools.Hashing;
using SabreTools.IO.Logging;
using SabreTools.Matching.Compare;
// TODO: Remove IDictionary implementation
namespace SabreTools.DatFiles
{
/// <summary>
/// Item dictionary with statistics, bucketing, and sorting
/// </summary>
[JsonObject("items"), XmlRoot("items")]
public class ItemDictionary : IDictionary<string, List<DatItem>?>
{
#region Private instance variables
/// <summary>
/// Determine the bucketing key for all items
/// </summary>
private ItemKey bucketedBy;
/// <summary>
/// Determine merging type for all items
/// </summary>
private DedupeType mergedBy;
/// <summary>
/// Internal dictionary for the class
/// </summary>
#if NET40_OR_GREATER || NETCOREAPP
private readonly ConcurrentDictionary<string, List<DatItem>?> _items = [];
#else
private readonly Dictionary<string, List<DatItem>?> _items = [];
#endif
/// <summary>
/// Logging object
/// </summary>
private readonly Logger _logger;
#endregion
#region Publically available fields
#region Keys
/// <summary>
/// Get the keys from the file dictionary
/// </summary>
/// <returns>List of the keys</returns>
[JsonIgnore, XmlIgnore]
public ICollection<string> Keys
{
get { return _items.Keys; }
}
/// <summary>
/// Get the keys in sorted order from the file dictionary
/// </summary>
/// <returns>List of the keys in sorted order</returns>
[JsonIgnore, XmlIgnore]
public List<string> SortedKeys
{
get
{
List<string> keys = [.. _items.Keys];
keys.Sort(new NaturalComparer());
return keys;
}
}
#endregion
#region Statistics
/// <summary>
/// DAT statistics
/// </summary>
[JsonIgnore, XmlIgnore]
public DatStatistics DatStatistics { get; } = new DatStatistics();
#endregion
#endregion
#region Constructors
/// <summary>
/// Generic constructor
/// </summary>
public ItemDictionary()
{
bucketedBy = ItemKey.NULL;
mergedBy = DedupeType.None;
_logger = new Logger(this);
}
#endregion
#region Accessors
/// <summary>
/// Passthrough to access the file dictionary
/// </summary>
/// <param name="key">Key in the dictionary to reference</param>
public List<DatItem>? this[string key]
{
get
{
// Explicit lock for some weird corner cases
lock (key)
{
// Ensure the key exists
EnsureKey(key);
// Now return the value
return _items[key];
}
}
set
{
Remove(key);
if (value == null)
_items[key] = null;
else
Add(key, value);
}
}
/// <summary>
/// Add a value to the file dictionary
/// </summary>
/// <param name="key">Key in the dictionary to add to</param>
/// <param name="value">Value to add to the dictionary</param>
public void Add(string key, DatItem value)
{
// Explicit lock for some weird corner cases
lock (key)
{
// Ensure the key exists
EnsureKey(key);
// If item is null, don't add it
if (value == null)
return;
// Now add the value
_items[key]!.Add(value);
// Now update the statistics
DatStatistics.AddItemStatistics(value);
}
}
/// <summary>
/// Add a range of values to the file dictionary
/// </summary>
/// <param name="key">Key in the dictionary to add to</param>
/// <param name="value">Value to add to the dictionary</param>
public void Add(string key, List<DatItem>? value)
{
// Explicit lock for some weird corner cases
lock (key)
{
// If the value is null or empty, just return
if (value == null || value.Count == 0)
return;
// Ensure the key exists
EnsureKey(key);
// Now add the value
_items[key]!.AddRange(value);
// Now update the statistics
foreach (DatItem item in value)
{
DatStatistics.AddItemStatistics(item);
}
}
}
/// <summary>
/// Add a DatItem to the dictionary after checking
/// </summary>
/// <param name="item">Item data to check against</param>
/// <param name="statsOnly">True to only add item statistics while parsing, false otherwise</param>
/// <returns>The key for the item</returns>
public string AddItem(DatItem item, bool statsOnly)
{
string key;
// If we have a Disk, Media, or Rom, clean the hash data
if (item is Disk disk)
{
// If the file has aboslutely no hashes, skip and log
if (disk.GetStringFieldValue(Models.Metadata.Disk.StatusKey).AsEnumValue<ItemStatus>() != ItemStatus.Nodump
&& string.IsNullOrEmpty(disk.GetStringFieldValue(Models.Metadata.Disk.MD5Key))
&& string.IsNullOrEmpty(disk.GetStringFieldValue(Models.Metadata.Disk.SHA1Key)))
{
_logger.Verbose($"Incomplete entry for '{disk.GetName()}' will be output as nodump");
disk.SetFieldValue<string?>(Models.Metadata.Disk.StatusKey, ItemStatus.Nodump.AsStringValue());
}
item = disk;
}
if (item is Media media)
{
// If the file has aboslutely no hashes, skip and log
if (string.IsNullOrEmpty(media.GetStringFieldValue(Models.Metadata.Media.MD5Key))
&& string.IsNullOrEmpty(media.GetStringFieldValue(Models.Metadata.Media.SHA1Key))
&& string.IsNullOrEmpty(media.GetStringFieldValue(Models.Metadata.Media.SHA256Key))
&& string.IsNullOrEmpty(media.GetStringFieldValue(Models.Metadata.Media.SpamSumKey)))
{
_logger.Verbose($"Incomplete entry for '{media.GetName()}' will be output as nodump");
}
item = media;
}
else if (item is Rom rom)
{
long? size = rom.GetInt64FieldValue(Models.Metadata.Rom.SizeKey);
// If we have the case where there is SHA-1 and nothing else, we don't fill in any other part of the data
if (size == null && !rom.HasHashes())
{
// No-op, just catch it so it doesn't go further
//logger.Verbose($"{Header.GetStringFieldValue(DatHeader.FileNameKey)}: Entry with only SHA-1 found - '{rom.GetName()}'");
}
// If we have a rom and it's missing size AND the hashes match a 0-byte file, fill in the rest of the info
else if ((size == 0 || size == null)
&& (string.IsNullOrEmpty(rom.GetStringFieldValue(Models.Metadata.Rom.CRCKey)) || rom.HasZeroHash()))
{
rom.SetFieldValue<string?>(Models.Metadata.Rom.SizeKey, Constants.SizeZero.ToString());
rom.SetFieldValue<string?>(Models.Metadata.Rom.CRCKey, ZeroHash.CRC32Str);
rom.SetFieldValue<string?>(Models.Metadata.Rom.MD2Key, null); // ZeroHash.GetString(HashType.MD2)
rom.SetFieldValue<string?>(Models.Metadata.Rom.MD4Key, null); // ZeroHash.GetString(HashType.MD4)
rom.SetFieldValue<string?>(Models.Metadata.Rom.MD5Key, ZeroHash.MD5Str);
rom.SetFieldValue<string?>(Models.Metadata.Rom.SHA1Key, ZeroHash.SHA1Str);
rom.SetFieldValue<string?>(Models.Metadata.Rom.SHA256Key, null); // ZeroHash.SHA256Str;
rom.SetFieldValue<string?>(Models.Metadata.Rom.SHA384Key, null); // ZeroHash.SHA384Str;
rom.SetFieldValue<string?>(Models.Metadata.Rom.SHA512Key, null); // ZeroHash.SHA512Str;
rom.SetFieldValue<string?>(Models.Metadata.Rom.SpamSumKey, null); // ZeroHash.SpamSumStr;
}
// If the file has no size and it's not the above case, skip and log
else if (rom.GetStringFieldValue(Models.Metadata.Rom.StatusKey).AsEnumValue<ItemStatus>() != ItemStatus.Nodump && (size == 0 || size == null))
{
//logger.Verbose($"{Header.GetStringFieldValue(DatHeader.FileNameKey)}: Incomplete entry for '{rom.GetName()}' will be output as nodump");
rom.SetFieldValue<string?>(Models.Metadata.Rom.StatusKey, ItemStatus.Nodump.AsStringValue());
}
// If the file has a size but aboslutely no hashes, skip and log
else if (rom.GetStringFieldValue(Models.Metadata.Rom.StatusKey).AsEnumValue<ItemStatus>() != ItemStatus.Nodump
&& size != null && size > 0
&& !rom.HasHashes())
{
//logger.Verbose($"{Header.GetStringFieldValue(DatHeader.FileNameKey)}: Incomplete entry for '{rom.GetName()}' will be output as nodump");
rom.SetFieldValue<string?>(Models.Metadata.Rom.StatusKey, ItemStatus.Nodump.AsStringValue());
}
item = rom;
}
// Get the key and add the file
key = item.GetKey(ItemKey.Machine);
// If only adding statistics, we add an empty key for games and then just item stats
if (statsOnly)
{
EnsureKey(key);
DatStatistics.AddItemStatistics(item);
}
else
{
Add(key, item);
}
return key;
}
/// <summary>
/// Remove any keys that have null or empty values
/// </summary>
internal void ClearEmpty()
{
string[] keys = [.. Keys];
foreach (string key in keys)
{
#if NET40_OR_GREATER || NETCOREAPP
// If the key doesn't exist, skip
if (!_items.TryGetValue(key, out var value))
continue;
// If the value is null, remove
else if (value == null)
_items.TryRemove(key, out _);
// If there are no non-blank items, remove
else if (value!.FindIndex(i => i != null && i is not Blank) == -1)
_items.TryRemove(key, out _);
#else
// If the key doesn't exist, skip
if (!_items.ContainsKey(key))
continue;
// If the value is null, remove
else if (_items[key] == null)
_items.Remove(key);
// If there are no non-blank items, remove
else if (_items[key]!.FindIndex(i => i != null && i is not Blank) == -1)
_items.Remove(key);
#endif
}
}
/// <summary>
/// Remove all items marked for removal
/// </summary>
internal void ClearMarked()
{
string[] keys = [.. Keys];
foreach (string key in keys)
{
// Skip invalid item lists
List<DatItem>? oldItemList = this[key];
if (oldItemList == null)
return;
List<DatItem> newItemList = oldItemList.FindAll(i => i.GetBoolFieldValue(DatItem.RemoveKey) != true);
Remove(key);
Add(key, newItemList);
}
}
/// <summary>
/// Get if the file dictionary contains the key
/// </summary>
/// <param name="key">Key in the dictionary to check</param>
/// <returns>True if the key exists, false otherwise</returns>
public bool ContainsKey(string key)
{
// If the key is null, we return false since keys can't be null
if (key == null)
return false;
// Explicit lock for some weird corner cases
lock (key)
{
return _items.ContainsKey(key);
}
}
/// <summary>
/// Get if the file dictionary contains the key and value
/// </summary>
/// <param name="key">Key in the dictionary to check</param>
/// <param name="value">Value in the dictionary to check</param>
/// <returns>True if the key exists, false otherwise</returns>
public bool Contains(string key, DatItem value)
{
// If the key is null, we return false since keys can't be null
if (key == null)
return false;
// Explicit lock for some weird corner cases
lock (key)
{
#if NET40_OR_GREATER || NETCOREAPP
if (_items.TryGetValue(key, out var list) && list != null)
return list.Contains(value);
#else
if (_items.ContainsKey(key) && _items[key] != null)
return _items[key]!.Contains(value);
#endif
}
return false;
}
/// <summary>
/// Ensure the key exists in the items dictionary
/// </summary>
/// <param name="key">Key to ensure</param>
public void EnsureKey(string key)
{
// If the key is missing from the dictionary, add it
if (!_items.ContainsKey(key))
#if NET40_OR_GREATER || NETCOREAPP
_items.TryAdd(key, []);
#else
_items[key] = [];
#endif
}
/// <summary>
/// Get the items associated with a bucket name
/// </summary>
public List<DatItem> GetItemsForBucket(string? bucketName, bool filter = false)
{
if (bucketName == null)
return [];
if (!_items.ContainsKey(bucketName))
return [];
var items = _items[bucketName];
if (items == null)
return [];
var datItems = new List<DatItem>();
foreach (DatItem item in items)
{
if (!filter || item.GetBoolFieldValue(DatItem.RemoveKey) != true)
datItems.Add(item);
}
return datItems;
}
/// <summary>
/// Remove a key from the file dictionary if it exists
/// </summary>
/// <param name="key">Key in the dictionary to remove</param>
public bool Remove(string key)
{
// Explicit lock for some weird corner cases
lock (key)
{
// If the key doesn't exist, return
if (!ContainsKey(key) || _items[key] == null)
return false;
// Remove the statistics first
foreach (DatItem item in _items[key]!)
{
DatStatistics.RemoveItemStatistics(item);
}
// Remove the key from the dictionary
#if NET40_OR_GREATER || NETCOREAPP
return _items.TryRemove(key, out _);
#else
return _items.Remove(key);
#endif
}
}
/// <summary>
/// Remove the first instance of a value from the file dictionary if it exists
/// </summary>
/// <param name="key">Key in the dictionary to remove from</param>
/// <param name="value">Value to remove from the dictionary</param>
public bool Remove(string key, DatItem value)
{
// Explicit lock for some weird corner cases
lock (key)
{
// If the key and value doesn't exist, return
if (!Contains(key, value) || _items[key] == null)
return false;
// Remove the statistics first
DatStatistics.RemoveItemStatistics(value);
return _items[key]!.Remove(value);
}
}
/// <summary>
/// Reset a key from the file dictionary if it exists
/// </summary>
/// <param name="key">Key in the dictionary to reset</param>
public bool Reset(string key)
{
// If the key doesn't exist, return
if (!ContainsKey(key) || _items[key] == null)
return false;
// Remove the statistics first
foreach (DatItem item in _items[key]!)
{
DatStatistics.RemoveItemStatistics(item);
}
// Remove the key from the dictionary
_items[key] = [];
return true;
}
/// <summary>
/// Override the internal ItemKey value
/// </summary>
/// <param name="newBucket"></param>
public void SetBucketedBy(ItemKey newBucket)
{
bucketedBy = newBucket;
}
#endregion
// TODO: All internal, can this be put into a better location?
#region Bucketing
/// <summary>
/// Take the arbitrarily bucketed Files Dictionary and convert to one bucketed by a user-defined method
/// </summary>
/// <param name="bucketBy">ItemKey enum representing how to bucket the individual items</param>
/// <param name="dedupeType">Dedupe type that should be used</param>
/// <param name="lower">True if the key should be lowercased (default), false otherwise</param>
/// <param name="norename">True if games should only be compared on game and file name, false if system and source are counted</param>
internal void BucketBy(ItemKey bucketBy, DedupeType dedupeType, bool lower = true, bool norename = true)
{
// If we have a situation where there's no dictionary or no keys at all, we skip
if (_items == null || _items.Count == 0)
return;
// If the sorted type isn't the same, we want to sort the dictionary accordingly
if (bucketedBy != bucketBy && bucketBy != ItemKey.NULL)
{
_logger.User($"Organizing roms by {bucketBy}");
PerformBucketing(bucketBy, lower, norename);
}
// If the merge type isn't the same, we want to merge the dictionary accordingly
if (mergedBy != dedupeType)
{
_logger.User($"Deduping roms by {dedupeType}");
PerformDeduplication(bucketBy, dedupeType);
}
// If the merge type is the same, we want to sort the dictionary to be consistent
else
{
_logger.User($"Sorting roms by {bucketBy}");
PerformSorting();
}
}
/// <summary>
/// List all duplicates found in a DAT based on a DatItem
/// </summary>
/// <param name="datItem">Item to try to match</param>
/// <param name="sorted">True if the DAT is already sorted accordingly, false otherwise (default)</param>
/// <returns>List of matched DatItem objects</returns>
/// <remarks>This also sets the remove flag on any duplicates found</remarks>
internal List<DatItem> GetDuplicates(DatItem datItem, bool sorted = false)
{
List<DatItem> output = [];
// Check for an empty rom list first
if (DatStatistics.TotalCount == 0)
return output;
// We want to get the proper key for the DatItem
string key = SortAndGetKey(datItem, sorted);
// If the key doesn't exist, return the empty list
if (!ContainsKey(key))
return output;
// Try to find duplicates
List<DatItem>? roms = this[key];
if (roms == null)
return output;
List<DatItem> left = [];
for (int i = 0; i < roms.Count; i++)
{
DatItem other = roms[i];
if (other.GetBoolFieldValue(DatItem.RemoveKey) == true)
{
left.Add(other);
continue;
}
if (datItem.Equals(other))
{
other.SetFieldValue<bool?>(DatItem.RemoveKey, true);
output.Add(other);
}
else
{
left.Add(other);
}
}
// Add back all roms with the proper flags
Remove(key);
Add(key, output);
Add(key, left);
return output;
}
/// <summary>
/// Check if a DAT contains the given DatItem
/// </summary>
/// <param name="datItem">Item to try to match</param>
/// <param name="sorted">True if the DAT is already sorted accordingly, false otherwise (default)</param>
/// <returns>True if it contains the rom, false otherwise</returns>
internal bool HasDuplicates(DatItem datItem, bool sorted = false)
{
// Check for an empty rom list first
if (DatStatistics.TotalCount == 0)
return false;
// We want to get the proper key for the DatItem
string key = SortAndGetKey(datItem, sorted);
// If the key doesn't exist, return the empty list
if (!ContainsKey(key))
return false;
// Try to find duplicates
List<DatItem>? roms = this[key];
if (roms == null)
return false;
return roms.FindIndex(r => datItem.Equals(r)) > -1;
}
/// <summary>
/// Get the highest-order Field value that represents the statistics
/// </summary>
private ItemKey GetBestAvailable()
{
// Get the required counts
long diskCount = DatStatistics.GetItemCount(ItemType.Disk);
long mediaCount = DatStatistics.GetItemCount(ItemType.Media);
long romCount = DatStatistics.GetItemCount(ItemType.Rom);
long nodumpCount = DatStatistics.GetStatusCount(ItemStatus.Nodump);
// If all items are supposed to have a SHA-512, we bucket by that
if (diskCount + mediaCount + romCount - nodumpCount == DatStatistics.GetHashCount(HashType.SHA512))
return ItemKey.SHA512;
// If all items are supposed to have a SHA-384, we bucket by that
else if (diskCount + mediaCount + romCount - nodumpCount == DatStatistics.GetHashCount(HashType.SHA384))
return ItemKey.SHA384;
// If all items are supposed to have a SHA-256, we bucket by that
else if (diskCount + mediaCount + romCount - nodumpCount == DatStatistics.GetHashCount(HashType.SHA256))
return ItemKey.SHA256;
// If all items are supposed to have a SHA-1, we bucket by that
else if (diskCount + mediaCount + romCount - nodumpCount == DatStatistics.GetHashCount(HashType.SHA1))
return ItemKey.SHA1;
// If all items are supposed to have a MD5, we bucket by that
else if (diskCount + mediaCount + romCount - nodumpCount == DatStatistics.GetHashCount(HashType.MD5))
return ItemKey.MD5;
// If all items are supposed to have a MD4, we bucket by that
else if (diskCount + mediaCount + romCount - nodumpCount == DatStatistics.GetHashCount(HashType.MD4))
return ItemKey.MD4;
// If all items are supposed to have a MD2, we bucket by that
else if (diskCount + mediaCount + romCount - nodumpCount == DatStatistics.GetHashCount(HashType.MD2))
return ItemKey.MD2;
// Otherwise, we bucket by CRC
else
return ItemKey.CRC;
}
/// <summary>
/// Perform bucketing based on the item key provided
/// </summary>
/// <param name="bucketBy">ItemKey enum representing how to bucket the individual items</param>
/// <param name="lower">True if the key should be lowercased, false otherwise</param>
/// <param name="norename">True if games should only be compared on game and file name, false if system and source are counted</param>
private void PerformBucketing(ItemKey bucketBy, bool lower, bool norename)
{
// Set the sorted type
bucketedBy = bucketBy;
// Reset the merged type since this might change the merge
mergedBy = DedupeType.None;
// First do the initial sort of all of the roms inplace
List<string> oldkeys = [.. Keys];
#if NET452_OR_GREATER || NETCOREAPP
Parallel.For(0, oldkeys.Count, Core.Globals.ParallelOptions, k =>
#elif NET40_OR_GREATER
Parallel.For(0, oldkeys.Count, k =>
#else
for (int k = 0; k < oldkeys.Count; k++)
#endif
{
string key = oldkeys[k];
if (this[key] == null)
Remove(key);
// Now add each of the roms to their respective keys
for (int i = 0; i < this[key]!.Count; i++)
{
DatItem item = this[key]![i];
if (item == null)
continue;
// We want to get the key most appropriate for the given sorting type
string newkey = item.GetKey(bucketBy, lower, norename);
// If the key is different, move the item to the new key
if (newkey != key)
{
Add(newkey, item);
Remove(key, item);
i--; // This make sure that the pointer stays on the correct since one was removed
}
}
// If the key is now empty, remove it
if (this[key]!.Count == 0)
Remove(key);
#if NET40_OR_GREATER || NETCOREAPP
});
#else
}
#endif
}
/// <summary>
/// Perform deduplication based on the deduplication type provided
/// </summary>
/// <param name="bucketBy">ItemKey enum representing how to bucket the individual items</param>
/// <param name="dedupeType">Dedupe type that should be used</param>
private void PerformDeduplication(ItemKey bucketBy, DedupeType dedupeType)
{
// Set the sorted type
mergedBy = dedupeType;
List<string> keys = [.. Keys];
#if NET452_OR_GREATER || NETCOREAPP
Parallel.ForEach(keys, Core.Globals.ParallelOptions, key =>
#elif NET40_OR_GREATER
Parallel.ForEach(keys, key =>
#else
foreach (var key in keys)
#endif
{
// Get the possibly unsorted list
List<DatItem>? sortedlist = this[key];
if (sortedlist == null)
#if NET40_OR_GREATER || NETCOREAPP
return;
#else
continue;
#endif
// Sort the list of items to be consistent
DatFileTool.Sort(ref sortedlist, false);
// If we're merging the roms, do so
if (dedupeType == DedupeType.Full || (dedupeType == DedupeType.Game && bucketBy == ItemKey.Machine))
sortedlist = DatFileTool.Merge(sortedlist);
// Add the list back to the dictionary
Reset(key);
Add(key, sortedlist);
#if NET40_OR_GREATER || NETCOREAPP
});
#else
}
#endif
}
/// <summary>
/// Perform inplace sorting of the dictionary
/// </summary>
private void PerformSorting()
{
List<string> keys = [.. Keys];
#if NET452_OR_GREATER || NETCOREAPP
Parallel.ForEach(keys, Core.Globals.ParallelOptions, key =>
#elif NET40_OR_GREATER
Parallel.ForEach(keys, key =>
#else
foreach (var key in keys)
#endif
{
// Get the possibly unsorted list
List<DatItem>? sortedlist = this[key];
// Sort the list of items to be consistent
if (sortedlist != null)
DatFileTool.Sort(ref sortedlist, false);
#if NET40_OR_GREATER || NETCOREAPP
});
#else
}
#endif
}
/// <summary>
/// Sort the input DAT and get the key to be used by the item
/// </summary>
/// <param name="datItem">Item to try to match</param>
/// <param name="sorted">True if the DAT is already sorted accordingly, false otherwise (default)</param>
/// <returns>Key to try to use</returns>
private string SortAndGetKey(DatItem datItem, bool sorted = false)
{
// If we're not already sorted, take care of it
if (!sorted)
BucketBy(GetBestAvailable(), DedupeType.None);
// Now that we have the sorted type, we get the proper key
return datItem.GetKey(bucketedBy);
}
#endregion
// TODO: All internal, can this be put into a better location?
#region Filtering
/// <summary>
/// Execute all filters in a filter runner on the items in the dictionary
/// </summary>
/// <param name="filterRunner">Preconfigured filter runner to use</param>
internal void ExecuteFilters(FilterRunner filterRunner)
{
List<string> keys = [.. Keys];
#if NET452_OR_GREATER || NETCOREAPP
Parallel.ForEach(keys, Core.Globals.ParallelOptions, key =>
#elif NET40_OR_GREATER
Parallel.ForEach(keys, key =>
#else
foreach (var key in keys)
#endif
{
List<DatItem>? items = this[key];
if (items == null)
#if NET40_OR_GREATER || NETCOREAPP
return;
#else
continue;
#endif
// Filter all items in the current key
List<DatItem> newItems = [];
foreach (var item in items)
{
if (item.PassesFilter(filterRunner))
newItems.Add(item);
}
// Set the value in the key to the new set
this[key] = newItems;
#if NET40_OR_GREATER || NETCOREAPP
});
#else
}
#endif
}
/// <summary>
/// Use game descriptions as names, updating cloneof/romof/sampleof
/// </summary>
/// <param name="throwOnError">True if the error that is thrown should be thrown back to the caller, false otherwise</param>
internal void MachineDescriptionToName(bool throwOnError = false)
{
try
{
// First we want to get a mapping for all games to description
var mapping = CreateMachineToDescriptionMapping();
// Now we loop through every item and update accordingly
UpdateMachineNamesFromDescriptions(mapping);
}
catch (Exception ex) when (!throwOnError)
{
_logger.Warning(ex.ToString());
}
}
/// <summary>
/// Ensure that all roms are in their own game (or at least try to ensure)
/// </summary>
internal void SetOneRomPerGame()
{
// For each rom, we want to update the game to be "<game name>/<rom name>"
#if NET452_OR_GREATER || NETCOREAPP
Parallel.ForEach(Keys, Core.Globals.ParallelOptions, key =>
#elif NET40_OR_GREATER
Parallel.ForEach(Keys, key =>
#else
foreach (var key in Keys)
#endif
{
var items = this[key];
if (items == null)
#if NET40_OR_GREATER || NETCOREAPP
return;
#else
continue;
#endif
for (int i = 0; i < items.Count; i++)
{
SetOneRomPerGame(items[i]);
}
#if NET40_OR_GREATER || NETCOREAPP
});
#else
}
#endif
}
/// <summary>
/// Filter a DAT using 1G1R logic given an ordered set of regions
/// </summary>
/// <param name="regionList">List of regions in order of priority</param>
/// <remarks>
/// In the most technical sense, the way that the region list is being used does not
/// confine its values to be just regions. Since it's essentially acting like a
/// specialized version of the machine name filter, anything that is usually encapsulated
/// in parenthesis would be matched on, including disc numbers, languages, editions,
/// and anything else commonly used. Please note that, unlike other existing 1G1R
/// solutions, this does not have the ability to contain custom mappings of parent
/// to clone sets based on name, nor does it have the ability to match on the
/// Release DatItem type.
/// </remarks>
internal void SetOneGamePerRegion(List<string> regionList)
{
// If we have null region list, make it empty
regionList ??= [];
// For sake of ease, the first thing we want to do is bucket by game
BucketBy(ItemKey.Machine, DedupeType.None, norename: true);
// Then we want to get a mapping of all machines to parents
Dictionary<string, List<string>> parents = [];
foreach (string key in Keys)
{
DatItem item = this[key]![0];
// Get machine information
Machine? machine = item.GetFieldValue<Machine>(DatItem.MachineKey);
string? machineName = machine?.GetStringFieldValue(Models.Metadata.Machine.NameKey)?.ToLowerInvariant();
if (machine == null || machineName == null)
continue;
// Get the string values
string? cloneOf = machine.GetStringFieldValue(Models.Metadata.Machine.CloneOfKey)?.ToLowerInvariant();
string? romOf = machine.GetStringFieldValue(Models.Metadata.Machine.RomOfKey)?.ToLowerInvariant();
// Match on CloneOf first
if (!string.IsNullOrEmpty(cloneOf))
{
if (!parents.ContainsKey(cloneOf!))
parents.Add(cloneOf!, []);
parents[cloneOf!].Add(machineName);
}
// Then by RomOf
else if (!string.IsNullOrEmpty(romOf))
{
if (!parents.ContainsKey(romOf!))
parents.Add(romOf!, []);
parents[romOf!].Add(machineName);
}
// Otherwise, treat it as a parent
else
{
if (!parents.ContainsKey(machineName))
parents.Add(machineName, []);
parents[machineName].Add(machineName);
}
}
// Once we have the full list of mappings, filter out games to keep
foreach (string key in parents.Keys)
{
// Find the first machine that matches the regions in order, if possible
string? machine = default;
foreach (string region in regionList)
{
machine = parents[key].Find(m => Regex.IsMatch(m, @"\(.*" + region + @".*\)", RegexOptions.IgnoreCase));
if (machine != default)
break;
}
// If we didn't get a match, use the parent
if (machine == default)
machine = key;
// Remove the key from the list
parents[key].Remove(machine);
// Remove the rest of the items from this key
parents[key].ForEach(k => Remove(k));
}
// Finally, strip out the parent tags
RemoveTagsFromChild();
}
/// <summary>
/// Strip the dates from the beginning of scene-style set names
/// </summary>
internal void StripSceneDatesFromItems()
{
// Set the regex pattern to use
const string pattern = @"([0-9]{2}\.[0-9]{2}\.[0-9]{2}-)(.*?-.*?)";
// Now process all of the roms
#if NET452_OR_GREATER || NETCOREAPP
Parallel.ForEach(Keys, Core.Globals.ParallelOptions, key =>
#elif NET40_OR_GREATER
Parallel.ForEach(Keys, key =>
#else
foreach (var key in Keys)
#endif
{
var items = this[key];
if (items == null)
#if NET40_OR_GREATER || NETCOREAPP
return;
#else
continue;
#endif
for (int j = 0; j < items.Count; j++)
{
DatItem item = items[j];
if (Regex.IsMatch(item.GetFieldValue<Machine>(DatItem.MachineKey)!.GetStringFieldValue(Models.Metadata.Machine.NameKey)!, pattern))
item.GetFieldValue<Machine>(DatItem.MachineKey)!.SetFieldValue<string?>(Models.Metadata.Machine.NameKey, Regex.Replace(item.GetFieldValue<Machine>(DatItem.MachineKey)!.GetStringFieldValue(Models.Metadata.Machine.NameKey)!, pattern, "$2"));
if (Regex.IsMatch(item.GetFieldValue<Machine>(DatItem.MachineKey)!.GetStringFieldValue(Models.Metadata.Machine.DescriptionKey)!, pattern))
item.GetFieldValue<Machine>(DatItem.MachineKey)!.SetFieldValue<string?>(Models.Metadata.Machine.DescriptionKey, Regex.Replace(item.GetFieldValue<Machine>(DatItem.MachineKey)!.GetStringFieldValue(Models.Metadata.Machine.DescriptionKey)!, pattern, "$2"));
items[j] = item;
}
Remove(key);
Add(key, items);
#if NET40_OR_GREATER || NETCOREAPP
});
#else
}
#endif
}
/// <summary>
/// Create machine to description mapping dictionary
/// </summary>
private IDictionary<string, string> CreateMachineToDescriptionMapping()
{
#if NET40_OR_GREATER || NETCOREAPP
ConcurrentDictionary<string, string> mapping = new();
#else
Dictionary<string, string> mapping = [];
#endif
#if NET452_OR_GREATER || NETCOREAPP
Parallel.ForEach(Keys, Core.Globals.ParallelOptions, key =>
#elif NET40_OR_GREATER
Parallel.ForEach(Keys, key =>
#else
foreach (var key in Keys)
#endif
{
var items = this[key];
if (items == null)
#if NET40_OR_GREATER || NETCOREAPP
return;
#else
continue;
#endif
foreach (DatItem item in items)
{
// Get the current machine
var machine = item.GetFieldValue<Machine>(DatItem.MachineKey);
if (machine == null)
continue;
// Get the values to check against
string? machineName = machine.GetStringFieldValue(Models.Metadata.Machine.NameKey);
string? machineDesc = machine.GetStringFieldValue(Models.Metadata.Machine.DescriptionKey);
if (machineName == null || machineDesc == null)
continue;
// If the key mapping doesn't exist, add it
#if NET40_OR_GREATER || NETCOREAPP
mapping.TryAdd(machineName, machineDesc.Replace('/', '_').Replace("\"", "''").Replace(":", " -"));
#else
mapping[machineName] = machineDesc.Replace('/', '_').Replace("\"", "''").Replace(":", " -");
#endif
}
#if NET40_OR_GREATER || NETCOREAPP
});
#else
}
#endif
return mapping;
}
/// <summary>
/// Set internal names to match One Rom Per Game (ORPG) logic
/// </summary>
/// <param name="datItem">DatItem to run logic on</param>
private static void SetOneRomPerGame(DatItem datItem)
{
// If the item name is null
string? machineName = datItem.GetName();
if (machineName == null)
return;
// Get the current machine
var machine = datItem.GetFieldValue<Machine>(DatItem.MachineKey);
if (machine == null)
return;
// Remove extensions from Rom items
if (datItem is Rom)
{
string[] splitname = machineName.Split('.');
machineName = machine.GetStringFieldValue(Models.Metadata.Machine.NameKey)
+ $"/{string.Join(".", splitname, 0, splitname.Length > 1 ? splitname.Length - 1 : 1)}";
}
// Strip off "Default" prefix only for ORPG
if (machineName.StartsWith("Default"))
machineName = machineName.Substring("Default".Length + 1);
datItem.GetFieldValue<Machine>(DatItem.MachineKey)!.SetFieldValue<string?>(Models.Metadata.Machine.NameKey, machineName);
datItem.SetName(Path.GetFileName(datItem.GetName()));
}
/// <summary>
/// Update machine names from descriptions according to mappings
/// </summary>
private void UpdateMachineNamesFromDescriptions(IDictionary<string, string> mapping)
{
#if NET452_OR_GREATER || NETCOREAPP
Parallel.ForEach(Keys, Core.Globals.ParallelOptions, key =>
#elif NET40_OR_GREATER
Parallel.ForEach(Keys, key =>
#else
foreach (var key in Keys)
#endif
{
var items = this[key];
if (items == null)
#if NET40_OR_GREATER || NETCOREAPP
return;
#else
continue;
#endif
List<DatItem> newItems = [];
foreach (DatItem item in items)
{
// Update machine name
if (!string.IsNullOrEmpty(item.GetFieldValue<Machine>(DatItem.MachineKey)!.GetStringFieldValue(Models.Metadata.Machine.NameKey)) && mapping.ContainsKey(item.GetFieldValue<Machine>(DatItem.MachineKey)!.GetStringFieldValue(Models.Metadata.Machine.NameKey)!))
item.GetFieldValue<Machine>(DatItem.MachineKey)!.SetFieldValue<string?>(Models.Metadata.Machine.NameKey, mapping[item.GetFieldValue<Machine>(DatItem.MachineKey)!.GetStringFieldValue(Models.Metadata.Machine.NameKey)!]);
// Update cloneof
if (!string.IsNullOrEmpty(item.GetFieldValue<Machine>(DatItem.MachineKey)!.GetStringFieldValue(Models.Metadata.Machine.CloneOfKey)) && mapping.ContainsKey(item.GetFieldValue<Machine>(DatItem.MachineKey)!.GetStringFieldValue(Models.Metadata.Machine.CloneOfKey)!))
item.GetFieldValue<Machine>(DatItem.MachineKey)!.SetFieldValue<string?>(Models.Metadata.Machine.CloneOfKey, mapping[item.GetFieldValue<Machine>(DatItem.MachineKey)!.GetStringFieldValue(Models.Metadata.Machine.CloneOfKey)!]);
// Update romof
if (!string.IsNullOrEmpty(item.GetFieldValue<Machine>(DatItem.MachineKey)!.GetStringFieldValue(Models.Metadata.Machine.RomOfKey)) && mapping.ContainsKey(item.GetFieldValue<Machine>(DatItem.MachineKey)!.GetStringFieldValue(Models.Metadata.Machine.RomOfKey)!))
item.GetFieldValue<Machine>(DatItem.MachineKey)!.SetFieldValue<string?>(Models.Metadata.Machine.RomOfKey, mapping[item.GetFieldValue<Machine>(DatItem.MachineKey)!.GetStringFieldValue(Models.Metadata.Machine.RomOfKey)!]);
// Update sampleof
if (!string.IsNullOrEmpty(item.GetFieldValue<Machine>(DatItem.MachineKey)!.GetStringFieldValue(Models.Metadata.Machine.SampleOfKey)) && mapping.ContainsKey(item.GetFieldValue<Machine>(DatItem.MachineKey)!.GetStringFieldValue(Models.Metadata.Machine.SampleOfKey)!))
item.GetFieldValue<Machine>(DatItem.MachineKey)!.SetFieldValue<string?>(Models.Metadata.Machine.SampleOfKey, mapping[item.GetFieldValue<Machine>(DatItem.MachineKey)!.GetStringFieldValue(Models.Metadata.Machine.SampleOfKey)!]);
// Add the new item to the output list
newItems.Add(item);
}
// Replace the old list of roms with the new one
Remove(key);
Add(key, newItems);
#if NET40_OR_GREATER || NETCOREAPP
});
#else
}
#endif
}
#endregion
// TODO: All internal, can this be put into a better location?
#region Splitting
/// <summary>
/// Remove all romof and cloneof tags from all games
/// </summary>
internal void RemoveTagsFromChild()
{
List<string> games = [.. Keys];
games.Sort();
foreach (string game in games)
{
// If the game has no items in it, we want to continue
var items = this[game];
if (items == null || items.Count == 0)
continue;
foreach (DatItem item in items)
{
item.GetFieldValue<Machine>(DatItem.MachineKey)!.SetFieldValue<string?>(Models.Metadata.Machine.CloneOfKey, null);
item.GetFieldValue<Machine>(DatItem.MachineKey)!.SetFieldValue<string?>(Models.Metadata.Machine.RomOfKey, null);
item.GetFieldValue<Machine>(DatItem.MachineKey)!.SetFieldValue<string?>(Models.Metadata.Machine.SampleOfKey, null);
}
}
}
#endregion
#region Statistics
/// <summary>
/// Recalculate the statistics for the Dat
/// </summary>
public void RecalculateStats()
{
// Wipe out any stats already there
DatStatistics.ResetStatistics();
// If we have a blank Dat in any way, return
if (_items == null)
return;
// Loop through and add
foreach (string key in _items.Keys)
{
List<DatItem>? datItems = _items[key];
if (datItems == null)
continue;
foreach (DatItem item in datItems)
{
DatStatistics.AddItemStatistics(item);
}
}
}
#endregion
#region IDictionary Implementations
public ICollection<List<DatItem>?> Values => ((IDictionary<string, List<DatItem>?>)_items).Values;
public int Count => ((ICollection<KeyValuePair<string, List<DatItem>?>>)_items).Count;
public bool IsReadOnly => ((ICollection<KeyValuePair<string, List<DatItem>?>>)_items).IsReadOnly;
public bool TryGetValue(string key, out List<DatItem>? value)
{
return ((IDictionary<string, List<DatItem>?>)_items).TryGetValue(key, out value);
}
public void Add(KeyValuePair<string, List<DatItem>?> item)
{
((ICollection<KeyValuePair<string, List<DatItem>?>>)_items).Add(item);
}
public void Clear()
{
((ICollection<KeyValuePair<string, List<DatItem>?>>)_items).Clear();
}
public bool Contains(KeyValuePair<string, List<DatItem>?> item)
{
return ((ICollection<KeyValuePair<string, List<DatItem>?>>)_items).Contains(item);
}
public void CopyTo(KeyValuePair<string, List<DatItem>?>[] array, int arrayIndex)
{
((ICollection<KeyValuePair<string, List<DatItem>?>>)_items).CopyTo(array, arrayIndex);
}
public bool Remove(KeyValuePair<string, List<DatItem>?> item)
{
return ((ICollection<KeyValuePair<string, List<DatItem>?>>)_items).Remove(item);
}
public IEnumerator<KeyValuePair<string, List<DatItem>?>> GetEnumerator()
{
return ((IEnumerable<KeyValuePair<string, List<DatItem>?>>)_items).GetEnumerator();
}
IEnumerator IEnumerable.GetEnumerator()
{
return ((IEnumerable)_items).GetEnumerator();
}
#endregion
}
}
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