PKHeX/PKHeX.Core/Saves/Util/SaveExtensions.cs
ReignOfComputer 7625ab66b4 Fix Import Count on Load Boxes (#2308)
Calculation was wrong if non-overwrite is selected. Also fixed OCD-triggering extra space in output message.
2019-05-15 09:11:48 -07:00

221 lines
10 KiB
C#

using System;
using System.Collections.Generic;
using System.Diagnostics;
using System.IO;
using System.Linq;
using static PKHeX.Core.MessageStrings;
namespace PKHeX.Core
{
public static class SaveExtensions
{
/// <summary>
/// Checks if the <see cref="PKM"/> is compatible with the input <see cref="SaveFile"/>, and makes any necessary modifications to force compatibility.
/// </summary>
/// <remarks>Should only be used when forcing a backwards conversion to sanitize the PKM fields to the target format.
/// If the PKM is compatible, some properties may be forced to sanitized values.</remarks>
/// <param name="SAV">Save File target that the PKM will be injected.</param>
/// <param name="pk">PKM input that is to be injected into the Save File.</param>
/// <returns>Indication whether or not the PKM is compatible.</returns>
public static bool IsPKMCompatibleWithModifications(this SaveFile SAV, PKM pk) => PKMConverter.IsPKMCompatibleWithModifications(pk, SAV);
/// <summary>
/// Sets the details of a path to a <see cref="SaveFile"/> object.
/// </summary>
/// <param name="sav">Save File to set path details to.</param>
/// <param name="path">Full Path of the file</param>
public static void SetFileInfo(this SaveFile sav, string path)
{
if (!sav.Exportable) // Blank save file
{
sav.FileFolder = sav.FilePath = string.Empty;
sav.FileName = "Blank Save File";
return;
}
sav.FilePath = path;
sav.FileFolder = Path.GetDirectoryName(path);
sav.FileName = string.Empty;
var bakName = Util.CleanFileName(sav.BAKName);
sav.FileName = Path.GetFileName(path);
if (sav.FileName?.EndsWith(bakName) == true)
sav.FileName = sav.FileName.Substring(0, sav.FileName.Length - bakName.Length);
}
/// <summary>
/// Gets suggested export options for the savefile.
/// </summary>
/// <param name="sav"></param>
/// <param name="ext"></param>
/// <returns></returns>
public static ExportFlags GetSuggestedFlags(this SaveFile sav, string ext)
{
var flags = ExportFlags.None;
if (ext == ".dsv")
flags |= ExportFlags.IncludeFooter;
if (ext == ".gci" || (sav is IGCSaveFile gc && !gc.IsMemoryCardSave))
flags |= ExportFlags.IncludeHeader;
return flags;
}
/// <summary>
/// Checks a <see cref="PKM"/> file for compatibility to the <see cref="SaveFile"/>.
/// </summary>
/// <param name="SAV"><see cref="SaveFile"/> that is being checked.</param>
/// <param name="pkm"><see cref="PKM"/> that is being tested for compatibility.</param>
/// <returns></returns>
public static IReadOnlyList<string> IsPKMCompatible(this SaveFile SAV, PKM pkm)
{
IBasicStrings strings = GameInfo.Strings;
return SAV.GetSaveFileErrata(pkm, strings);
}
private static IReadOnlyList<string> GetSaveFileErrata(this SaveFile SAV, PKM pkm, IBasicStrings strings)
{
var errata = new List<string>();
if (SAV.Generation > 1)
{
ushort held = (ushort)pkm.HeldItem;
var itemstr = GameInfo.Strings.GetItemStrings(pkm.Format, (GameVersion) pkm.Version);
if (held > itemstr.Count)
errata.Add($"{MsgIndexItemRange} {held}");
else if (held > SAV.MaxItemID)
errata.Add($"{MsgIndexItemGame} {itemstr[held]}");
else if (!pkm.CanHoldItem(SAV.HeldItems))
errata.Add($"{MsgIndexItemHeld} {itemstr[held]}");
}
if (pkm.Species > strings.Species.Count)
errata.Add($"{MsgIndexSpeciesRange} {pkm.Species}");
else if (SAV.MaxSpeciesID < pkm.Species)
errata.Add($"{MsgIndexSpeciesGame} {strings.Species[pkm.Species]}");
if (!SAV.Personal[pkm.Species].IsFormeWithinRange(pkm.AltForm) && !FormConverter.IsValidOutOfBoundsForme(pkm.Species, pkm.AltForm, pkm.GenNumber))
errata.Add(string.Format(LegalityCheckStrings.LFormInvalidRange, Math.Max(0, SAV.Personal[pkm.Species].FormeCount - 1), pkm.AltForm));
if (pkm.Moves.Any(m => m > strings.Move.Count))
errata.Add($"{MsgIndexMoveRange} {string.Join(", ", pkm.Moves.Where(m => m > strings.Move.Count).Select(m => m.ToString()))}");
else if (pkm.Moves.Any(m => m > SAV.MaxMoveID))
errata.Add($"{MsgIndexMoveGame} {string.Join(", ", pkm.Moves.Where(m => m > SAV.MaxMoveID).Select(m => strings.Move[m]))}");
if (pkm.Ability > strings.Ability.Count)
errata.Add($"{MsgIndexAbilityRange} {pkm.Ability}");
else if (pkm.Ability > SAV.MaxAbilityID)
errata.Add($"{MsgIndexAbilityGame} {strings.Ability[pkm.Ability]}");
return errata;
}
/// <summary>
/// Imports compatible <see cref="PKM"/> data to the <see cref="SAV"/>, starting at the provided box.
/// </summary>
/// <param name="SAV">Save File that will receive the <see cref="compat"/> data.</param>
/// <param name="compat">Compatible <see cref="PKM"/> data that can be set to the <see cref="SAV"/> without conversion.</param>
/// <param name="overwrite">Overwrite existing full slots. If true, will only overwrite empty slots.</param>
/// <param name="boxStart">First box to start loading to. All prior boxes are not modified.</param>
/// <param name="noSetb">Bypass option to not modify <see cref="PKM"/> properties when setting to Save File.</param>
/// <returns>Count of injected <see cref="PKM"/>.</returns>
public static int ImportPKMs(this SaveFile SAV, IEnumerable<PKM> compat, bool overwrite = false, int boxStart = 0, PKMImportSetting noSetb = PKMImportSetting.UseDefault)
{
int startCount = boxStart * SAV.BoxSlotCount;
int maxCount = SAV.SlotCount;
int index = startCount;
int nonOverwriteImport = 0;
foreach (var pk in compat)
{
if (overwrite)
{
while (SAV.IsSlotOverwriteProtected(index))
++index;
SAV.SetBoxSlotAtIndex(pk, index, noSetb);
}
else
{
index = SAV.NextOpenBoxSlot(index-1);
if (index < 0) // Boxes full!
break;
SAV.SetBoxSlotAtIndex(pk, index, noSetb);
nonOverwriteImport++;
}
if (++index == maxCount) // Boxes full!
break;
}
return (overwrite) ? index - startCount : nonOverwriteImport; // actual imported count
}
public static IEnumerable<PKM> GetCompatible(this SaveFile SAV, IEnumerable<PKM> pks)
{
var savtype = SAV.PKMType;
foreach (var temp in pks)
{
var pk = PKMConverter.ConvertToType(temp, savtype, out string c);
if (pk == null)
{
Debug.WriteLine(c);
continue;
}
if (PKMConverter.IsIncompatibleGB(pk.Format, SAV.Japanese, pk.Japanese))
{
c = PKMConverter.GetIncompatibleGBMessage(pk, SAV.Japanese);
Debug.WriteLine(c);
continue;
}
var compat = SAV.IsPKMCompatible(pk);
if (compat.Count > 0)
continue;
yield return pk;
}
}
/// <summary>
/// Gets a compatible <see cref="PKM"/> for editing with a new <see cref="SaveFile"/>.
/// </summary>
/// <param name="sav">SaveFile to receive the compatible <see cref="pk"/></param>
/// <param name="pk">Current Pokémon being edited</param>
/// <returns>Current Pokémon, assuming conversion is possible. If conversion is not possible, a blank <see cref="PKM"/> will be obtained from the <see cref="sav"/>.</returns>
public static PKM GetCompatiblePKM(this SaveFile sav, PKM pk = null)
{
if (pk == null)
return sav.BlankPKM;
if (pk.Format < 3 && sav.Generation < 7)
{
// gen1-2 compatibility check
if (pk.Japanese != sav.Japanese)
return sav.BlankPKM;
if (sav is SAV2 s2 && s2.Korean != pk.Korean)
return sav.BlankPKM;
}
return PKMConverter.ConvertToType(pk, sav.PKMType, out _) ?? sav.BlankPKM;
}
/// <summary>
/// Gets a blank file for the save file. If the template path exists, a template load will be attempted.
/// </summary>
/// <param name="sav">Save File to fetch a template for</param>
/// <param name="templatePath">Path to look for a template in</param>
/// <returns>Template if it exists, or a blank <see cref="PKM"/> from the <see cref="sav"/></returns>
public static PKM LoadTemplate(this SaveFile sav, string templatePath = null)
{
var blank = sav.BlankPKM;
if (!Directory.Exists(templatePath))
return blank;
var di = new DirectoryInfo(templatePath);
string path = Path.Combine(templatePath, $"{di.Name}.{blank.Extension}");
if (!File.Exists(path) || !PKX.IsPKM(new FileInfo(path).Length))
return blank;
var pk = PKMConverter.GetPKMfromBytes(File.ReadAllBytes(path), prefer: blank.Format);
return PKMConverter.ConvertToType(pk, sav.BlankPKM.GetType(), out path) ?? blank; // no sneaky plz; reuse string
}
}
}