using System.Linq; using FluentAssertions; using PKHeX.Core; using Xunit; namespace PKHeX.Tests.PKM { public class PIDIVTest { // Note: IVs are stored HP/ATK/DEF/SPE/SPA/SPD [Fact] public void PIDIVMatchingTest3() { // Method 1/2/4 var pk1 = new PK3 {PID = 0xE97E0000, IVs = new[] {17, 19, 20, 16, 13, 12}}; var ga1 = MethodFinder.Analyze(pk1); Assert.Equal(PIDType.Method_1, ga1.Type); var pk2 = new PK3 {PID = 0x5271E97E, IVs = new[] {02, 18, 03, 12, 22, 24}}; Assert.Equal(PIDType.Method_2, MethodFinder.Analyze(pk2).Type); var pk4 = new PK3 {PID = 0x31B05271, IVs = new[] {02, 18, 03, 05, 30, 11}}; Assert.Equal(PIDType.Method_4, MethodFinder.Analyze(pk4).Type); var gk1 = new PK3(); PIDGenerator.SetValuesFromSeed(gk1, ga1.Type, ga1.OriginSeed); Assert.Equal(pk1.PID, gk1.PID); Assert.True(gk1.IVs.SequenceEqual(pk1.IVs), "Unable to match generated PID to Method 1 IVs"); } [Fact] public void PIDIVMatchingTest3Unown() { // Method 1/2/4, reversed for Unown. var pk1U = new PK3 {PID = 0x815549A2, IVs = new[] {02, 26, 30, 30, 11, 26}, Species = 201}; // Unown-C Assert.Equal(PIDType.Method_1_Unown, MethodFinder.Analyze(pk1U).Type); var pk2U = new PK3 {PID = 0x8A7B5190, IVs = new[] {14, 02, 21, 30, 29, 15}, Species = 201}; // Unown-M Assert.Equal(PIDType.Method_2_Unown, MethodFinder.Analyze(pk2U).Type); var pk4U = new PK3 {PID = 0x5FA80D70, IVs = new[] {02, 06, 03, 26, 04, 19}, Species = 201}; // Unown-A Assert.Equal(PIDType.Method_4_Unown, MethodFinder.Analyze(pk4U).Type); } [Fact] public void PIDIVMatchingTest3Method3() { // Method 3, reversed for Unown. var m3R = new PK3 { PID = 0x3DD1BB49, IVs = new[] { 23, 12, 31, 09, 03, 03 }, Species = 001 }; // Regular var m3t = MethodFinder.Analyze(m3R).Type; Assert.Equal(PIDType.Method_3, m3t); var m3u = new PK3 { PID = 0xBB493DD1, IVs = new[] { 23, 12, 31, 09, 03, 03 }, Species = 201 }; // Unown var u3t = MethodFinder.Analyze(m3u).Type; Assert.Equal(PIDType.Method_3_Unown, u3t); } [Fact] public void PIDIVMatchingTest3Misc() { // Colosseum / XD var pk3 = new PK3 {PID = 0x0985A297, IVs = new[] {06, 01, 00, 07, 17, 07}}; var ak3 = MethodFinder.Analyze(pk3); Assert.Equal(PIDType.CXD, MethodFinder.Analyze(pk3).Type); var gk3 = new PK3(); PIDGenerator.SetValuesFromSeed(gk3, PIDType.CXD, ak3.OriginSeed); Assert.Equal(pk3.PID, gk3.PID); Assert.True(pk3.IVs.SequenceEqual(gk3.IVs), "Unable to match generated IVs to CXD spread"); // Channel Jirachi var pkC = new PK3 {PID = 0x264750D9, IVs = new[] {06, 31, 14, 27, 05, 27}, SID = 45819, OT_Gender = 1, Version = (int)GameVersion.R}; var akC = MethodFinder.Analyze(pkC); Assert.Equal(PIDType.Channel,akC.Type); var gkC = new PK3(); PIDGenerator.SetValuesFromSeed(gkC, PIDType.Channel, akC.OriginSeed); Assert.Equal(pkC.PID, gkC.PID); Assert.True(pkC.IVs.SequenceEqual(gkC.IVs), "Unable to match generated IVs to Channel spread"); } [Fact] public void PIDIVMatchingTest3Event() { // Restricted: TID/SID are zero. var pkR = new PK3 {PID = 0x0000E97E, IVs = new[] {17, 19, 20, 16, 13, 12}}; Assert.Equal(PIDType.BACD_R, MethodFinder.Analyze(pkR).Type); // Restricted Antishiny: PID is incremented 2 times to lose shininess. var pkRA = new PK3 {PID = 0x0000E980, IVs = new[] {17, 19, 20, 16, 13, 12}, TID = 01337, SID = 60486}; Assert.Equal(PIDType.BACD_R_A, MethodFinder.Analyze(pkRA).Type); // Unrestricted: TID/SID are zero. var pkU = new PK3 {PID = 0x67DBFC33, IVs = new[] {12, 25, 27, 30, 02, 31}}; Assert.Equal(PIDType.BACD_U, MethodFinder.Analyze(pkU).Type); // Unrestricted Antishiny: PID is incremented 5 times to lose shininess. var pkUA = new PK3 {PID = 0x67DBFC38, IVs = new[] {12, 25, 27, 30, 02, 31}, TID = 01337, SID = 40657}; Assert.Equal(PIDType.BACD_U_A, MethodFinder.Analyze(pkUA).Type); // berry fix zigzagoon: seed 0x0020 var pkRS = new PK3 {PID = 0x38CA4EA0, IVs = new[] {00, 20, 28, 11, 19, 00}, TID = 30317, SID = 00000}; var a_pkRS = MethodFinder.Analyze(pkRS); Assert.Equal(PIDType.BACD_R_S, a_pkRS.Type); Assert.True(0x0020 == a_pkRS.OriginSeed, "Unable to match PID to BACD-R shiny spread origin seed"); var gkRS = new PK3 { TID = 30317, SID = 00000 }; PIDGenerator.SetValuesFromSeed(gkRS, PIDType.BACD_R_S, a_pkRS.OriginSeed); Assert.Equal(pkRS.PID, gkRS.PID); Assert.True(pkRS.IVs.SequenceEqual(gkRS.IVs), "Unable to match generated IVs to BACD-R shiny spread"); // Unrestricted Antishiny nyx var nyxUA = new PK3 {PID = 0xBD3DF676, IVs = new[] {00, 15, 05, 04, 21, 05}, TID = 80, SID = 0}; var nyx_pkUA = MethodFinder.Analyze(nyxUA); Assert.Equal(PIDType.BACD_U_AX, nyx_pkUA.Type); } [Fact] public void PIDIVMatchingTest4() { // Cute Charm: Male Bulbasaur var pkCC = new PK4 {PID = 0x00000037, IVs = new[] {16, 13, 12, 02, 18, 03}, Species = 1, Gender = 0}; Assert.Equal(PIDType.CuteCharm, MethodFinder.Analyze(pkCC).Type); // Antishiny Mystery Gift: TID/SID are zero. Original PID of 0x5271E97E is rerolled. var pkASR = new PK4 {PID = 0x07578CB7, IVs = new[] {16, 13, 12, 02, 18, 03}}; Assert.Equal(PIDType.G4MGAntiShiny, MethodFinder.Analyze(pkASR).Type); // Chain Shiny: TID/SID are zero. var pkCS = new PK4 {PID = 0xA9C1A9C6, IVs = new[] {22, 14, 23, 24, 11, 04}}; Assert.Equal(PIDType.ChainShiny, MethodFinder.Analyze(pkCS).Type); } [Fact] public void PIDIVMatchingTest5() { // Shiny Mystery Gift PGF; IVs are unrelated. var pkS5 = new PK5 {PID = 0xBEEF0037, TID = 01337, SID = 48097}; Assert.Equal(PIDType.G5MGShiny, MethodFinder.Analyze(pkS5).Type); } [Fact] public void PIDIVPokeSpotTest() { // XD PokeSpots: Check all 3 Encounter Slots (examples are one for each location). var pkPS0 = new PK3 { PID = 0x7B2D9DA7 }; // Zubat (Cave) Assert.True(MethodFinder.GetPokeSpotSeeds(pkPS0, 0).Any(), "PokeSpot encounter info mismatch (Common)"); var pkPS1 = new PK3 { PID = 0x3EE9AF66 }; // Gligar (Rock) Assert.True(MethodFinder.GetPokeSpotSeeds(pkPS1, 1).Any(), "PokeSpot encounter info mismatch (Uncommon)"); var pkPS2 = new PK3 { PID = 0x9B667F3C }; // Surskit (Oasis) Assert.True(MethodFinder.GetPokeSpotSeeds(pkPS2, 2).Any(), "PokeSpot encounter info mismatch (Rare)"); } [Fact] public void PIDIVPokewalkerTest() { var pkPW = new[] { new PK4 { Species = 025, PID = 0x34000089, TID = 20790, SID = 39664, Gender = 0}, // Pikachu new PK4 { Species = 025, PID = 0x7DFFFF60, TID = 30859, SID = 63760, Gender = 1}, // Pikachu new PK4 { Species = 025, PID = 0x7DFFFF65, TID = 30859, SID = 63760, Gender = 1}, // Pikachu new PK4 { Species = 025, PID = 0x7E000003, TID = 30859, SID = 63760, Gender = 1}, // Pikachu new PK4 { Species = 025, PID = 0x2100008F, TID = 31526, SID = 42406, Gender = 0}, // Pikachu new PK4 { Species = 025, PID = 0x71FFFF5A, TID = 49017, SID = 12807, Gender = 1}, // Pikachu new PK4 { Species = 025, PID = 0xC0000001, TID = 17398, SID = 31936, Gender = 1}, // Pikachu new PK4 { Species = 025, PID = 0x2FFFFF5E, TID = 27008, SID = 42726, Gender = 1}, // Pikachu new PK4 { Species = 025, PID = 0x59FFFFFE, TID = 51223, SID = 28044, Gender = 0}, // Pikachu }; foreach (var pk in pkPW) Assert.Equal(PIDType.Pokewalker, MethodFinder.Analyze(pk).Type); } [Fact] public void PIDIVEncounterSlotTest() { // Modest Method 1 var pk = new PK3 {PID = 0x6937DA48, IVs = new[] {31, 31, 31, 31, 31, 31}}; var pidiv = MethodFinder.Analyze(pk); Assert.Equal(PIDType.Method_1, pidiv.Type); // Test for Method J { // Pearl pk.Version = (int) GameVersion.P; var results = FrameFinder.GetFrames(pidiv, pk).ToArray(); var failSync = results.Where(z => z.Lead == LeadRequired.SynchronizeFail); var noSync = results.Where(z => z.Lead == LeadRequired.None); var sync = results.Where(z => z.Lead == LeadRequired.Synchronize); failSync.Should().HaveCount(1); sync.Should().HaveCount(37); noSync.Should().HaveCount(2); const SlotType type = SlotType.Grass; var slots = new[] { 0, 1, 2, 3, 4, 5, 6, 7, 9 }; Assert.True(slots.All(s => results.Any(z => z.GetSlot(type) == s)), "Required slots not present."); var slotsForType = results.Where(z => !z.LevelSlotModified).Select(z => z.GetSlot(type)).Distinct().OrderBy(z => z); Assert.True(slotsForType.SequenceEqual(slots), "Unexpected slots present."); } // Test for Method H and K { // Sapphire // pk.Version = (int)GameVersion.S; // var results = FrameFinder.GetFrames(pidiv, pk); } } [Fact] public void PIDIVMethod4IVs() { var pk4 = new PK3 { PID = 0xFEE73213, IVs = new[] { 03, 29, 23, 30, 28, 24 } }; var analysis = MethodFinder.Analyze(pk4); analysis.Type.Should().Be(PIDType.Method_4); // See if any origin seed for the IVs matches what we expect // Load the IVs uint rand1 = 0; // HP/ATK/DEF uint rand3 = 0; // SPE/SPA/SPD var IVs = pk4.IVs; for (int i = 0; i < 3; i++) { rand1 |= (uint)IVs[i] << (5 * i); rand3 |= (uint)IVs[i+3] << (5 * i); } Assert.Contains(MethodFinder.GetSeedsFromIVsSkip(RNG.LCRNG, rand1, rand3), z => z == 0xFEE7047C); } [Fact] public void PIDIVSearchEuclid() { const uint seed = 0x2E15555E; const uint rand0 = 0x20AD96A9; const uint rand1 = 0x7E1DBEC8; var pidseeds = MethodFinder.GetSeedsFromPIDEuclid(RNG.XDRNG, rand0 >> 16, rand1 >> 16); var ivseeds = MethodFinder.GetSeedsFromIVsEuclid(RNG.XDRNG, (rand0 >> 16) & 0x7FFF, (rand1 >> 16) & 0x7FFF); Assert.Contains(pidseeds, z => z == seed); Assert.Contains(ivseeds, z => z == seed); } } }