public void LoadE1M1()
{
using (var wad = new Wad(WadPath.Doom1))
{
var flats = new FlatLookup(wad, true);
var textures = new TextureLookup(wad, true);
var map = wad.GetLumpNumber("E1M1");
var vertices = Vertex.FromWad(wad, map + 4);
var sectors = Sector.FromWad(wad, map + 8, flats);
var sides = SideDef.FromWad(wad, map + 3, textures, sectors);
var lines = LineDef.FromWad(wad, map + 2, vertices, sides);
var segs = Seg.FromWad(wad, map + 5, vertices, lines);
var subsectors = Subsector.FromWad(wad, map + 6, segs);
Assert.AreEqual(239, subsectors.Length);
Assert.AreEqual(8, subsectors[0].SegCount);
for (var i = 0; i < 8; i++)
{
Assert.IsTrue(segs[subsectors[0].FirstSeg + i] == segs[0 + i]);
}
Assert.AreEqual(1, subsectors[54].SegCount);
for (var i = 0; i < 1; i++)
{
Assert.IsTrue(segs[subsectors[54].FirstSeg + i] == segs[181 + i]);
}
Assert.AreEqual(2, subsectors[238].SegCount);
for (var i = 0; i < 2; i++)
{
Assert.IsTrue(segs[subsectors[238].FirstSeg + i] == segs[745 + i]);
}
}
}
public void LoadMap01()
{
using (var wad = new Wad(WadPath.Doom2))
{
var flats = new FlatLookup(wad, true);
var textures = new TextureLookup(wad, true);
var map = wad.GetLumpNumber("MAP01");
var vertices = Vertex.FromWad(wad, map + 4);
var sectors = Sector.FromWad(wad, map + 8, flats);
var sides = SideDef.FromWad(wad, map + 3, textures, sectors);
var lines = LineDef.FromWad(wad, map + 2, vertices, sides);
var segs = Seg.FromWad(wad, map + 5, vertices, lines);
var subsectors = Subsector.FromWad(wad, map + 6, segs);
Assert.AreEqual(194, subsectors.Length);
Assert.AreEqual(4, subsectors[0].SegCount);
for (var i = 0; i < 4; i++)
{
Assert.IsTrue(segs[subsectors[0].FirstSeg + i] == segs[i]);
}
Assert.AreEqual(4, subsectors[57].SegCount);
for (var i = 0; i < 4; i++)
{
Assert.IsTrue(segs[subsectors[57].FirstSeg + i] == segs[179 + i]);
}
Assert.AreEqual(4, subsectors[193].SegCount);
for (var i = 0; i < 4; i++)
{
Assert.IsTrue(segs[subsectors[193].FirstSeg + i] == segs[597 + i]);
}
}
}
public Line(Vertex start, Vertex end, SideDef side, bool isFrontSide, LineDef definition)
{
Start = start;
End = end;
Side = side;
IsFrontSide = isFrontSide;
Definition = definition;
}
public LineSeg(int v1, int v2, int angle, LineDef line, SideDef side, int offset)
{
V1 = v1;
V2 = v2;
Angle = angle;
Line = line;
Side = side;
Offset = offset;
}
public LineDef(int v1, int v2, int flags, int special, int tag, SideDef side0, SideDef side1)
{
V1 = v1;
V2 = v2;
Flags = flags;
Special = special;
Tag = tag;
Side0 = side0;
Side1 = side1;
}
public void LoadMap01()
{
using (var wad = new Wad(WadPath.Doom2))
{
var flats = new DummyFlatLookup(wad);
var textures = new DummyTextureLookup(wad);
var map = wad.GetLumpNumber("MAP01");
var vertices = Vertex.FromWad(wad, map + 4);
var sectors = Sector.FromWad(wad, map + 8, flats);
var sides = SideDef.FromWad(wad, map + 3, textures, sectors);
var lines = LineDef.FromWad(wad, map + 2, vertices, sides);
var segs = Seg.FromWad(wad, map + 5, vertices, lines);
Assert.AreEqual(601, segs.Length);
Assert.IsTrue(segs[0].Vertex1 == vertices[9]);
Assert.IsTrue(segs[0].Vertex2 == vertices[316]);
Assert.AreEqual(ToRadian(-32768), segs[0].Angle.ToRadian(), delta);
Assert.IsTrue(segs[0].LineDef == lines[8]);
Assert.IsTrue((segs[0].LineDef.Flags & LineFlags.TwoSided) != 0);
Assert.IsTrue(segs[0].FrontSector == segs[0].LineDef.FrontSide.Sector);
Assert.IsTrue(segs[0].BackSector == segs[0].LineDef.BackSide.Sector);
Assert.AreEqual(0, segs[0].Offset.ToDouble(), delta);
Assert.IsTrue(segs[42].Vertex1 == vertices[26]);
Assert.IsTrue(segs[42].Vertex2 == vertices[320]);
Assert.AreEqual(ToRadian(-22209), segs[42].Angle.ToRadian(), delta);
Assert.IsTrue(segs[42].LineDef == lines[33]);
Assert.IsTrue((segs[42].LineDef.Flags & LineFlags.TwoSided) != 0);
Assert.IsTrue(segs[42].FrontSector == segs[42].LineDef.BackSide.Sector);
Assert.IsTrue(segs[42].BackSector == segs[42].LineDef.FrontSide.Sector);
Assert.AreEqual(0, segs[42].Offset.ToDouble(), delta);
Assert.IsTrue(segs[103].Vertex1 == vertices[331]);
Assert.IsTrue(segs[103].Vertex2 == vertices[329]);
Assert.AreEqual(ToRadian(16384), segs[103].Angle.ToRadian(), delta);
Assert.IsTrue(segs[103].LineDef == lines[347]);
Assert.IsTrue((segs[103].LineDef.Flags & LineFlags.TwoSided) == 0);
Assert.IsTrue(segs[103].FrontSector == segs[103].LineDef.FrontSide.Sector);
Assert.IsTrue(segs[103].BackSector == null);
Assert.AreEqual(64, segs[103].Offset.ToDouble(), delta);
Assert.IsTrue(segs[600].Vertex1 == vertices[231]);
Assert.IsTrue(segs[600].Vertex2 == vertices[237]);
Assert.AreEqual(ToRadian(-16384), segs[600].Angle.ToRadian(), delta);
Assert.IsTrue(segs[600].LineDef == lines[271]);
Assert.IsTrue((segs[600].LineDef.Flags & LineFlags.TwoSided) != 0);
Assert.IsTrue(segs[600].FrontSector == segs[600].LineDef.BackSide.Sector);
Assert.IsTrue(segs[600].BackSector == segs[600].LineDef.FrontSide.Sector);
Assert.AreEqual(0, segs[600].Offset.ToDouble(), delta);
}
}
public void LoadE1M1()
{
using (var wad = new Wad(WadPath.Doom1))
{
var flats = new DummyFlatLookup(wad);
var textures = new DummyTextureLookup(wad);
var map = wad.GetLumpNumber("E1M1");
var vertices = Vertex.FromWad(wad, map + 4);
var sectors = Sector.FromWad(wad, map + 8, flats);
var sides = SideDef.FromWad(wad, map + 3, textures, sectors);
var lines = LineDef.FromWad(wad, map + 2, vertices, sides);
var segs = Seg.FromWad(wad, map + 5, vertices, lines);
Assert.AreEqual(747, segs.Length);
Assert.IsTrue(segs[0].Vertex1 == vertices[132]);
Assert.IsTrue(segs[0].Vertex2 == vertices[133]);
Assert.AreEqual(ToRadian(4156), segs[0].Angle.ToRadian(), delta);
Assert.IsTrue(segs[0].LineDef == lines[160]);
Assert.IsTrue((segs[0].LineDef.Flags & LineFlags.TwoSided) != 0);
Assert.IsTrue(segs[0].FrontSector == segs[0].LineDef.FrontSide.Sector);
Assert.IsTrue(segs[0].BackSector == segs[0].LineDef.BackSide.Sector);
Assert.AreEqual(0, segs[0].Offset.ToDouble(), delta);
Assert.IsTrue(segs[28].Vertex1 == vertices[390]);
Assert.IsTrue(segs[28].Vertex2 == vertices[131]);
Assert.AreEqual(ToRadian(-32768), segs[28].Angle.ToRadian(), delta);
Assert.IsTrue(segs[28].LineDef == lines[480]);
Assert.IsTrue((segs[0].LineDef.Flags & LineFlags.TwoSided) != 0);
Assert.IsTrue(segs[28].FrontSector == segs[28].LineDef.BackSide.Sector);
Assert.IsTrue(segs[28].BackSector == segs[28].LineDef.FrontSide.Sector);
Assert.AreEqual(0, segs[28].Offset.ToDouble(), delta);
Assert.IsTrue(segs[744].Vertex1 == vertices[446]);
Assert.IsTrue(segs[744].Vertex2 == vertices[374]);
Assert.AreEqual(ToRadian(-16384), segs[744].Angle.ToRadian(), delta);
Assert.IsTrue(segs[744].LineDef == lines[452]);
Assert.IsTrue((segs[744].LineDef.Flags & LineFlags.TwoSided) == 0);
Assert.IsTrue(segs[744].FrontSector == segs[744].LineDef.FrontSide.Sector);
Assert.IsTrue(segs[744].BackSector == null);
Assert.AreEqual(154, segs[744].Offset.ToDouble(), delta);
Assert.IsTrue(segs[746].Vertex1 == vertices[374]);
Assert.IsTrue(segs[746].Vertex2 == vertices[368]);
Assert.AreEqual(ToRadian(-13828), segs[746].Angle.ToRadian(), delta);
Assert.IsTrue(segs[746].LineDef == lines[451]);
Assert.IsTrue((segs[746].LineDef.Flags & LineFlags.TwoSided) == 0);
Assert.IsTrue(segs[746].FrontSector == segs[746].LineDef.FrontSide.Sector);
Assert.IsTrue(segs[746].BackSector == null);
Assert.AreEqual(0, segs[746].Offset.ToDouble(), delta);
}
}
public static SideDef ParseSideDef(IHaveAssignments block)
{
var parsedBlock = new SideDef();
block.GetValueFor("OffsetX").SetOptionalInteger(value => parsedBlock.OffsetX = value, "SideDef", "OffsetX");
block.GetValueFor("OffsetY").SetOptionalInteger(value => parsedBlock.OffsetY = value, "SideDef", "OffsetY");
block.GetValueFor("TextureTop").SetOptionalString(value => parsedBlock.TextureTop = value, "SideDef", "TextureTop");
block.GetValueFor("TextureBottom").SetOptionalString(value => parsedBlock.TextureBottom = value, "SideDef", "TextureBottom");
block.GetValueFor("TextureMiddle").SetOptionalString(value => parsedBlock.TextureMiddle = value, "SideDef", "TextureMiddle");
block.GetValueFor("Sector").SetRequiredInteger(value => parsedBlock.Sector = value, "SideDef", "Sector");
block.GetValueFor("Comment").SetOptionalString(value => parsedBlock.Comment = value, "SideDef", "Comment");
return(parsedBlock);
}
private static void Write(StreamWriter writer, SideDef sidedef)
{
writer.WriteLine("sidedef");
writer.WriteLine("{");
WriteProperty(writer, "offsetX", sidedef.OffsetX, 0);
WriteProperty(writer, "offsetY", sidedef.OffsetY, 0);
WriteProperty(writer, "textureTop", sidedef.TextureTop, Texture.None);
WriteProperty(writer, "textureBottom", sidedef.TextureBottom, Texture.None);
WriteProperty(writer, "textureMiddle", sidedef.TextureMiddle, Texture.None);
WriteProperty(writer, "sector", sidedef.Sector);
WriteProperty(writer, "comment", sidedef.Comment, "");
writer.WriteLine("}");
}
public void LoadMap01()
{
using (var wad = new Wad(WadPath.Doom2))
{
var flats = new DummyFlatLookup(wad);
var textures = new DummyTextureLookup(wad);
var map = wad.GetLumpNumber("MAP01");
var vertices = Vertex.FromWad(wad, map + 4);
var sectors = Sector.FromWad(wad, map + 8, flats);
var sides = SideDef.FromWad(wad, map + 3, textures, sectors);
var lines = LineDef.FromWad(wad, map + 2, vertices, sides);
Assert.AreEqual(370, lines.Length);
Assert.IsTrue(lines[0].Vertex1 == vertices[0]);
Assert.IsTrue(lines[0].Vertex2 == vertices[1]);
Assert.IsTrue((int)lines[0].Flags == 1);
Assert.IsTrue((int)lines[0].Special == 0);
Assert.IsTrue(lines[0].Tag == 0);
Assert.IsTrue(lines[0].FrontSide == sides[0]);
Assert.IsTrue(lines[0].BackSide == null);
Assert.IsTrue(lines[0].FrontSector == sides[0].Sector);
Assert.IsTrue(lines[0].BackSector == null);
Assert.IsTrue(lines[75].Vertex1 == vertices[73]);
Assert.IsTrue(lines[75].Vertex2 == vertices[74]);
Assert.IsTrue((int)lines[75].Flags == 4);
Assert.IsTrue((int)lines[75].Special == 103);
Assert.IsTrue(lines[75].Tag == 4);
Assert.IsTrue(lines[75].FrontSide == sides[97]);
Assert.IsTrue(lines[75].BackSide == sides[98]);
Assert.IsTrue(lines[75].FrontSector == sides[97].Sector);
Assert.IsTrue(lines[75].BackSector == sides[98].Sector);
Assert.IsTrue(lines[369].Vertex1 == vertices[293]);
Assert.IsTrue(lines[369].Vertex2 == vertices[299]);
Assert.IsTrue((int)lines[369].Flags == 21);
Assert.IsTrue((int)lines[369].Special == 0);
Assert.IsTrue(lines[369].Tag == 0);
Assert.IsTrue(lines[369].FrontSide == sides[527]);
Assert.IsTrue(lines[369].BackSide == sides[528]);
Assert.IsTrue(lines[369].FrontSector == sides[527].Sector);
Assert.IsTrue(lines[369].BackSector == sides[528].Sector);
}
}
public void LoadE1M1()
{
using (var wad = new Wad(WadPath.Doom1))
{
var flats = new DummyFlatLookup(wad);
var textures = new DummyTextureLookup(wad);
var map = wad.GetLumpNumber("E1M1");
var vertices = Vertex.FromWad(wad, map + 4);
var sectors = Sector.FromWad(wad, map + 8, flats);
var sides = SideDef.FromWad(wad, map + 3, textures, sectors);
var lines = LineDef.FromWad(wad, map + 2, vertices, sides);
Assert.AreEqual(486, lines.Length);
Assert.IsTrue(lines[0].Vertex1 == vertices[0]);
Assert.IsTrue(lines[0].Vertex2 == vertices[1]);
Assert.IsTrue((int)lines[0].Flags == 1);
Assert.IsTrue((int)lines[0].Special == 0);
Assert.IsTrue(lines[0].Tag == 0);
Assert.IsTrue(lines[0].FrontSide == sides[0]);
Assert.IsTrue(lines[0].BackSide == null);
Assert.IsTrue(lines[0].FrontSector == sides[0].Sector);
Assert.IsTrue(lines[0].BackSector == null);
Assert.IsTrue(lines[136].Vertex1 == vertices[110]);
Assert.IsTrue(lines[136].Vertex2 == vertices[111]);
Assert.IsTrue((int)lines[136].Flags == 28);
Assert.IsTrue((int)lines[136].Special == 63);
Assert.IsTrue(lines[136].Tag == 3);
Assert.IsTrue(lines[136].FrontSide == sides[184]);
Assert.IsTrue(lines[136].BackSide == sides[185]);
Assert.IsTrue(lines[136].FrontSector == sides[184].Sector);
Assert.IsTrue(lines[136].BackSector == sides[185].Sector);
Assert.IsTrue(lines[485].Vertex1 == vertices[309]);
Assert.IsTrue(lines[485].Vertex2 == vertices[294]);
Assert.IsTrue((int)lines[485].Flags == 12);
Assert.IsTrue((int)lines[485].Special == 0);
Assert.IsTrue(lines[485].Tag == 0);
Assert.IsTrue(lines[485].FrontSide == sides[664]);
Assert.IsTrue(lines[485].BackSide == sides[665]);
Assert.IsTrue(lines[485].FrontSector == sides[664].Sector);
Assert.IsTrue(lines[485].BackSector == sides[665].Sector);
}
}
static SideDef ProcessSideDef(ASTNode block)
{
var sideDef = new SideDef();
foreach (var assignment in block.Children.Skip(1))
{
var id = GetAssignmentIdentifier(assignment);
switch (id.ToLower())
{
case "offsetx":
sideDef.OffsetX = ReadInt(assignment, "SideDef.OffsetX");
break;
case "offsety":
sideDef.OffsetY = ReadInt(assignment, "SideDef.OffsetY");
break;
case "texturetop":
sideDef.TextureTop = ReadString(assignment, "SideDef.TextureTop");
break;
case "texturebottom":
sideDef.TextureBottom = ReadString(assignment, "SideDef.TextureBottom");
break;
case "texturemiddle":
sideDef.TextureMiddle = ReadString(assignment, "SideDef.TextureMiddle");
break;
case "sector":
sideDef.Sector = ReadInt(assignment, "SideDef.Sector");
break;
case "comment":
sideDef.Comment = ReadString(assignment, "SideDef.Comment");
break;
default:
sideDef.UnknownProperties.Add(new UnknownProperty(id, ReadRawValue(assignment)));
break;
}
}
return(sideDef);
}
static SideDef ProcessSideDef(Block block)
{
var sideDef = new SideDef();
foreach (var assignment in block.Fields)
{
switch (assignment.Name.ToLower())
{
case "offsetx":
sideDef.OffsetX = ReadIntValue(assignment, "SideDef.OffsetX");
break;
case "offsety":
sideDef.OffsetY = ReadIntValue(assignment, "SideDef.OffsetY");
break;
case "texturetop":
sideDef.TextureTop = ReadStringValue(assignment, "SideDef.TextureTop");
break;
case "texturebottom":
sideDef.TextureBottom = ReadStringValue(assignment, "SideDef.TextureBottom");
break;
case "texturemiddle":
sideDef.TextureMiddle = ReadStringValue(assignment, "SideDef.TextureMiddle");
break;
case "sector":
sideDef.Sector = ReadIntValue(assignment, "SideDef.Sector");
break;
case "comment":
sideDef.Comment = ReadStringValue(assignment, "SideDef.Comment");
break;
default:
sideDef.UnknownProperties.Add(new UnknownProperty(assignment.Name, assignment.ValueAsString()));
break;
}
}
return(sideDef);
}
public void LoadMap01()
{
using (var wad = new Wad(WadPath.Doom2))
{
var flats = new FlatLookup(wad, true);
var textures = new TextureLookup(wad, false);
var map = wad.GetLumpNumber("MAP01");
var vertices = Vertex.FromWad(wad, map + 4);
var sectors = Sector.FromWad(wad, map + 8, flats);
var sides = SideDef.FromWad(wad, map + 3, textures, sectors);
Assert.AreEqual(529, sides.Length);
Assert.AreEqual(0, sides[0].TextureOffset.ToDouble(), delta);
Assert.AreEqual(0, sides[0].RowOffset.ToDouble(), delta);
Assert.AreEqual(0, sides[0].TopTexture);
Assert.AreEqual(0, sides[0].BottomTexture);
Assert.AreEqual("BRONZE1", textures[sides[0].MiddleTexture].Name);
Assert.IsTrue(sides[0].Sector == sectors[9]);
Assert.AreEqual(0, sides[312].TextureOffset.ToDouble(), delta);
Assert.AreEqual(0, sides[312].RowOffset.ToDouble(), delta);
Assert.AreEqual(0, sides[312].TopTexture);
Assert.AreEqual(0, sides[312].BottomTexture);
Assert.AreEqual("DOORTRAK", textures[sides[312].MiddleTexture].Name);
Assert.IsTrue(sides[312].Sector == sectors[31]);
Assert.AreEqual(24, sides[512].TextureOffset.ToDouble(), delta);
Assert.AreEqual(0, sides[512].RowOffset.ToDouble(), delta);
Assert.AreEqual(0, sides[512].TopTexture);
Assert.AreEqual(0, sides[512].BottomTexture);
Assert.AreEqual("SUPPORT2", textures[sides[512].MiddleTexture].Name);
Assert.IsTrue(sides[512].Sector == sectors[52]);
Assert.AreEqual(0, sides[528].TextureOffset.ToDouble(), delta);
Assert.AreEqual(0, sides[528].RowOffset.ToDouble(), delta);
Assert.AreEqual(0, sides[528].TopTexture);
Assert.AreEqual(0, sides[528].BottomTexture);
Assert.AreEqual(0, sides[528].MiddleTexture);
Assert.IsTrue(sides[528].Sector == sectors[11]);
}
}
public void LoadE1M1()
{
using (var wad = new Wad(WadPath.Doom1))
{
var flats = new FlatLookup(wad, true);
var textures = new TextureLookup(wad, false);
var map = wad.GetLumpNumber("E1M1");
var vertices = Vertex.FromWad(wad, map + 4);
var sectors = Sector.FromWad(wad, map + 8, flats);
var sides = SideDef.FromWad(wad, map + 3, textures, sectors);
Assert.AreEqual(666, sides.Length);
Assert.AreEqual(0, sides[0].TextureOffset.ToDouble(), delta);
Assert.AreEqual(0, sides[0].RowOffset.ToDouble(), delta);
Assert.AreEqual(0, sides[0].TopTexture);
Assert.AreEqual(0, sides[0].BottomTexture);
Assert.AreEqual("DOOR3", textures[sides[0].MiddleTexture].Name);
Assert.IsTrue(sides[0].Sector == sectors[30]);
Assert.AreEqual(32, sides[480].TextureOffset.ToDouble(), delta);
Assert.AreEqual(0, sides[480].RowOffset.ToDouble(), delta);
Assert.AreEqual("EXITSIGN", textures[sides[480].TopTexture].Name);
Assert.AreEqual(0, sides[480].BottomTexture);
Assert.AreEqual(0, sides[480].MiddleTexture);
Assert.IsTrue(sides[480].Sector == sectors[70]);
Assert.AreEqual(0, sides[650].TextureOffset.ToDouble(), delta);
Assert.AreEqual(88, sides[650].RowOffset.ToDouble(), delta);
Assert.AreEqual("STARTAN3", textures[sides[650].TopTexture].Name);
Assert.AreEqual("STARTAN3", textures[sides[650].BottomTexture].Name);
Assert.AreEqual(0, sides[650].MiddleTexture);
Assert.IsTrue(sides[650].Sector == sectors[1]);
Assert.AreEqual(0, sides[665].TextureOffset.ToDouble(), delta);
Assert.AreEqual(0, sides[665].RowOffset.ToDouble(), delta);
Assert.AreEqual(0, sides[665].TopTexture);
Assert.AreEqual(0, sides[665].BottomTexture);
Assert.AreEqual(0, sides[665].MiddleTexture);
Assert.IsTrue(sides[665].Sector == sectors[23]);
}
}
public void LoadMap01()
{
using (var wad = new Wad(WadPath.Doom2))
{
var flats = new FlatLookup(wad, true);
var textures = new TextureLookup(wad, true);
var map = wad.GetLumpNumber("MAP01");
var vertices = Vertex.FromWad(wad, map + 4);
var sectors = Sector.FromWad(wad, map + 8, flats);
var sides = SideDef.FromWad(wad, map + 3, textures, sectors);
var lines = LineDef.FromWad(wad, map + 2, vertices, sides);
var reject = Reject.FromWad(wad, map + 9, sectors);
foreach (var sector in sectors)
{
Assert.IsFalse(reject.Check(sector, sector));
}
foreach (var line in lines)
{
if (line.BackSector != null)
{
Assert.IsFalse(reject.Check(line.FrontSector, line.BackSector));
}
}
foreach (var s1 in sectors)
{
foreach (var s2 in sectors)
{
var result1 = reject.Check(s1, s2);
var result2 = reject.Check(s2, s1);
Assert.AreEqual(result1, result2);
}
}
Assert.IsTrue(reject.Check(sectors[10], sectors[49]));
Assert.IsTrue(reject.Check(sectors[7], sectors[36]));
Assert.IsTrue(reject.Check(sectors[17], sectors[57]));
}
}
public void LoadMap01()
{
using (var wad = new Wad(WadPath.Doom2))
{
var flats = new FlatLookup(wad, true);
var textures = new TextureLookup(wad, true);
var map = wad.GetLumpNumber("MAP01");
var vertices = Vertex.FromWad(wad, map + 4);
var sectors = Sector.FromWad(wad, map + 8, flats);
var sides = SideDef.FromWad(wad, map + 3, textures, sectors);
var lines = LineDef.FromWad(wad, map + 2, vertices, sides);
var segs = Seg.FromWad(wad, map + 5, vertices, lines);
var subsectors = Subsector.FromWad(wad, map + 6, segs);
var nodes = Node.FromWad(wad, map + 7, subsectors);
Assert.AreEqual(193, nodes.Length);
Assert.AreEqual(64, nodes[0].X.ToDouble(), delta);
Assert.AreEqual(1024, nodes[0].Y.ToDouble(), delta);
Assert.AreEqual(0, nodes[0].Dx.ToDouble(), delta);
Assert.AreEqual(-64, nodes[0].Dy.ToDouble(), delta);
Assert.AreEqual(1173, nodes[0].Bbox[0][Box.Top].ToDouble(), delta);
Assert.AreEqual(960, nodes[0].Bbox[0][Box.Bottom].ToDouble(), delta);
Assert.AreEqual(-64, nodes[0].Bbox[0][Box.Left].ToDouble(), delta);
Assert.AreEqual(64, nodes[0].Bbox[0][Box.Right].ToDouble(), delta);
Assert.AreEqual(1280, nodes[0].Bbox[1][Box.Top].ToDouble(), delta);
Assert.AreEqual(1024, nodes[0].Bbox[1][Box.Bottom].ToDouble(), delta);
Assert.AreEqual(64, nodes[0].Bbox[1][Box.Left].ToDouble(), delta);
Assert.AreEqual(128, nodes[0].Bbox[1][Box.Right].ToDouble(), delta);
Assert.AreEqual(32770, nodes[0].Children[0] + 0x10000);
Assert.AreEqual(32771, nodes[0].Children[1] + 0x10000);
Assert.AreEqual(640, nodes[57].X.ToDouble(), delta);
Assert.AreEqual(856, nodes[57].Y.ToDouble(), delta);
Assert.AreEqual(-88, nodes[57].Dx.ToDouble(), delta);
Assert.AreEqual(-16, nodes[57].Dy.ToDouble(), delta);
Assert.AreEqual(856, nodes[57].Bbox[0][Box.Top].ToDouble(), delta);
Assert.AreEqual(840, nodes[57].Bbox[0][Box.Bottom].ToDouble(), delta);
Assert.AreEqual(552, nodes[57].Bbox[0][Box.Left].ToDouble(), delta);
Assert.AreEqual(640, nodes[57].Bbox[0][Box.Right].ToDouble(), delta);
Assert.AreEqual(856, nodes[57].Bbox[1][Box.Top].ToDouble(), delta);
Assert.AreEqual(760, nodes[57].Bbox[1][Box.Bottom].ToDouble(), delta);
Assert.AreEqual(536, nodes[57].Bbox[1][Box.Left].ToDouble(), delta);
Assert.AreEqual(704, nodes[57].Bbox[1][Box.Right].ToDouble(), delta);
Assert.AreEqual(32829, nodes[57].Children[0] + 0x10000);
Assert.AreEqual(56, nodes[57].Children[1]);
Assert.AreEqual(96, nodes[192].X.ToDouble(), delta);
Assert.AreEqual(1280, nodes[192].Y.ToDouble(), delta);
Assert.AreEqual(32, nodes[192].Dx.ToDouble(), delta);
Assert.AreEqual(0, nodes[192].Dy.ToDouble(), delta);
Assert.AreEqual(1280, nodes[192].Bbox[0][Box.Top].ToDouble(), delta);
Assert.AreEqual(-960, nodes[192].Bbox[0][Box.Bottom].ToDouble(), delta);
Assert.AreEqual(-1304, nodes[192].Bbox[0][Box.Left].ToDouble(), delta);
Assert.AreEqual(2072, nodes[192].Bbox[0][Box.Right].ToDouble(), delta);
Assert.AreEqual(2688, nodes[192].Bbox[1][Box.Top].ToDouble(), delta);
Assert.AreEqual(1280, nodes[192].Bbox[1][Box.Bottom].ToDouble(), delta);
Assert.AreEqual(-1304, nodes[192].Bbox[1][Box.Left].ToDouble(), delta);
Assert.AreEqual(2072, nodes[192].Bbox[1][Box.Right].ToDouble(), delta);
Assert.AreEqual(147, nodes[192].Children[0]);
Assert.AreEqual(191, nodes[192].Children[1]);
}
}
public void LoadE1M1()
{
using (var wad = new Wad(WadPath.Doom1))
{
var flats = new FlatLookup(wad, true);
var textures = new TextureLookup(wad, true);
var map = wad.GetLumpNumber("E1M1");
var vertices = Vertex.FromWad(wad, map + 4);
var sectors = Sector.FromWad(wad, map + 8, flats);
var sides = SideDef.FromWad(wad, map + 3, textures, sectors);
var lines = LineDef.FromWad(wad, map + 2, vertices, sides);
var segs = Seg.FromWad(wad, map + 5, vertices, lines);
var subsectors = Subsector.FromWad(wad, map + 6, segs);
var nodes = Node.FromWad(wad, map + 7, subsectors);
Assert.AreEqual(238, nodes.Length);
Assert.AreEqual(1784, nodes[0].X.ToDouble(), delta);
Assert.AreEqual(-3448, nodes[0].Y.ToDouble(), delta);
Assert.AreEqual(-240, nodes[0].Dx.ToDouble(), delta);
Assert.AreEqual(64, nodes[0].Dy.ToDouble(), delta);
Assert.AreEqual(-3104, nodes[0].Bbox[0][Box.Top].ToDouble(), delta);
Assert.AreEqual(-3448, nodes[0].Bbox[0][Box.Bottom].ToDouble(), delta);
Assert.AreEqual(1520, nodes[0].Bbox[0][Box.Left].ToDouble(), delta);
Assert.AreEqual(2128, nodes[0].Bbox[0][Box.Right].ToDouble(), delta);
Assert.AreEqual(-3384, nodes[0].Bbox[1][Box.Top].ToDouble(), delta);
Assert.AreEqual(-3448, nodes[0].Bbox[1][Box.Bottom].ToDouble(), delta);
Assert.AreEqual(1544, nodes[0].Bbox[1][Box.Left].ToDouble(), delta);
Assert.AreEqual(1784, nodes[0].Bbox[1][Box.Right].ToDouble(), delta);
Assert.AreEqual(32768, nodes[0].Children[0] + 0x10000);
Assert.AreEqual(32769, nodes[0].Children[1] + 0x10000);
Assert.AreEqual(928, nodes[57].X.ToDouble(), delta);
Assert.AreEqual(-3360, nodes[57].Y.ToDouble(), delta);
Assert.AreEqual(0, nodes[57].Dx.ToDouble(), delta);
Assert.AreEqual(256, nodes[57].Dy.ToDouble(), delta);
Assert.AreEqual(-3104, nodes[57].Bbox[0][Box.Top].ToDouble(), delta);
Assert.AreEqual(-3360, nodes[57].Bbox[0][Box.Bottom].ToDouble(), delta);
Assert.AreEqual(928, nodes[57].Bbox[0][Box.Left].ToDouble(), delta);
Assert.AreEqual(1344, nodes[57].Bbox[0][Box.Right].ToDouble(), delta);
Assert.AreEqual(-3104, nodes[57].Bbox[1][Box.Top].ToDouble(), delta);
Assert.AreEqual(-3360, nodes[57].Bbox[1][Box.Bottom].ToDouble(), delta);
Assert.AreEqual(704, nodes[57].Bbox[1][Box.Left].ToDouble(), delta);
Assert.AreEqual(928, nodes[57].Bbox[1][Box.Right].ToDouble(), delta);
Assert.AreEqual(32825, nodes[57].Children[0] + 0x10000);
Assert.AreEqual(56, nodes[57].Children[1]);
Assert.AreEqual(2176, nodes[237].X.ToDouble(), delta);
Assert.AreEqual(-2304, nodes[237].Y.ToDouble(), delta);
Assert.AreEqual(0, nodes[237].Dx.ToDouble(), delta);
Assert.AreEqual(-256, nodes[237].Dy.ToDouble(), delta);
Assert.AreEqual(-2048, nodes[237].Bbox[0][Box.Top].ToDouble(), delta);
Assert.AreEqual(-4064, nodes[237].Bbox[0][Box.Bottom].ToDouble(), delta);
Assert.AreEqual(-768, nodes[237].Bbox[0][Box.Left].ToDouble(), delta);
Assert.AreEqual(2176, nodes[237].Bbox[0][Box.Right].ToDouble(), delta);
Assert.AreEqual(-2048, nodes[237].Bbox[1][Box.Top].ToDouble(), delta);
Assert.AreEqual(-4864, nodes[237].Bbox[1][Box.Bottom].ToDouble(), delta);
Assert.AreEqual(2176, nodes[237].Bbox[1][Box.Left].ToDouble(), delta);
Assert.AreEqual(3808, nodes[237].Bbox[1][Box.Right].ToDouble(), delta);
Assert.AreEqual(131, nodes[237].Children[0]);
Assert.AreEqual(236, nodes[237].Children[1]);
}
}
async Task Game()
{
Lump[] lumps;
try
{
using (var iwad = File.Open(@"E:\Steam\steamapps\common\DOOM 3 BFG Edition\base\wads\DOOM2.WAD", FileMode.Open, FileAccess.Read, FileShare.Read))
{
byte[] rec = new byte[16];
await iwad.ReadAsync(rec, 0, 12);
int num = BitConverter.ToInt32(rec, 4);
int ofs = BitConverter.ToInt32(rec, 8);
iwad.Seek((long)ofs, SeekOrigin.Begin);
// Read the lump table:
byte[] dir = new byte[16 * num];
await iwad.ReadAsync(dir, 0, 16 *num);
lumps = new Lump[num];
for (int i = 0; i < num; ++i)
{
// Read the lump data from the table:
int position = BitConverter.ToInt32(dir, i * 16 + 0);
int size = BitConverter.ToInt32(dir, i * 16 + 4);
string name = Encoding.ASCII.GetString(dir, i * 16 + 8, 8).TrimEnd(new char[] { '\0' });
byte[] data;
if (size > 0)
{
data = new byte[size];
iwad.Seek((long)position, SeekOrigin.Begin);
await iwad.ReadAsync(data, 0, size);
}
else
{
data = null;
}
// Record the lump and its data:
lumps[i] = new Lump(name, position, size, data);
}
}
int ml = FindLump(lumps, mapLumpName);
// Find center of map:
var minPos = new Vertex(Int16.MaxValue, Int16.MaxValue);
var maxPos = new Vertex(Int16.MinValue, Int16.MinValue);
// Read vertexes:
var vertexesLump = lumps[ml + (int)MapLump.VERTEXES];
int numVertexes = vertexesLump.Size / (2 + 2);
vertexes = new Vertex[numVertexes];
for (int i = 0; i < numVertexes; ++i)
{
short x = BitConverter.ToInt16(vertexesLump.Data, i * 2 * sizeof(Int16));
short y = BitConverter.ToInt16(vertexesLump.Data, i * 2 * sizeof(Int16) + sizeof(Int16));
if (x < minPos.X)
{
minPos = new Vertex(x, minPos.Y);
}
if (y < minPos.Y)
{
minPos = new Vertex(minPos.X, y);
}
if (x > maxPos.X)
{
maxPos = new Vertex(x, maxPos.Y);
}
if (y > maxPos.Y)
{
maxPos = new Vertex(maxPos.X, y);
}
vertexes[i] = new Vertex(x, y);
}
// Calculate center:
int mapw = (maxPos.X - minPos.X);
int maph = (maxPos.Y - minPos.Y);
var center = new Vertex(mapw / 2 + minPos.X, maph / 2 + minPos.Y);
MapCoordToVector3(new Vertex3(center, 64), out centerPos);
cameraDistance = Math.Max(mapw, maph) / scale;
cameraHeight = cameraDistance * 0.8f;
// Read sectors:
var sectorsLump = lumps[ml + (int)MapLump.SECTORS];
const int sectorSize = (sizeof(short) * 5) + (8 * 2);
int numSectors = sectorsLump.Size / sectorSize;
sectors = new Sector[numSectors];
for (int i = 0; i < numSectors; ++i)
{
short floorheight = BitConverter.ToInt16(sectorsLump.Data, (i * sectorSize) + (sizeof(short) * 0));
short ceilingheight = BitConverter.ToInt16(sectorsLump.Data, (i * sectorSize) + (sizeof(short) * 1));
string floorpic = Encoding.ASCII.GetString(sectorsLump.Data, (i * sectorSize) + 0 + (sizeof(short) * 2), 8).ASCIIZ();
string ceilingpic = Encoding.ASCII.GetString(sectorsLump.Data, (i * sectorSize) + 8 + (sizeof(short) * 2), 8).ASCIIZ();
short lightlevel = BitConverter.ToInt16(sectorsLump.Data, (i * sectorSize) + 16 + (sizeof(short) * 2));
short special = BitConverter.ToInt16(sectorsLump.Data, (i * sectorSize) + 16 + (sizeof(short) * 3));
short tag = BitConverter.ToInt16(sectorsLump.Data, (i * sectorSize) + 16 + (sizeof(short) * 4));
sectors[i] = new Sector(floorheight, ceilingheight, floorpic, ceilingpic, lightlevel, special, tag);
}
// Read sidedefs:
var sidedefsLump = lumps[ml + (int)MapLump.SIDEDEFS];
const int sidedefSize = (sizeof(short) * 3) + (8 * 3);
int numSidedefs = sidedefsLump.Size / sidedefSize;
sidedefs = new SideDef[numSidedefs];
for (int i = 0; i < numSidedefs; ++i)
{
short textureoffset = BitConverter.ToInt16(sidedefsLump.Data, (i * sidedefSize) + (sizeof(short) * 0));
short rowoffset = BitConverter.ToInt16(sidedefsLump.Data, (i * sidedefSize) + (sizeof(short) * 1));
string toptexture = Encoding.ASCII.GetString(sidedefsLump.Data, (i * sidedefSize) + 0 + (sizeof(short) * 2), 8).ASCIIZ();
string bottomtexture = Encoding.ASCII.GetString(sidedefsLump.Data, (i * sidedefSize) + 8 + (sizeof(short) * 2), 8).ASCIIZ();
string midtexture = Encoding.ASCII.GetString(sidedefsLump.Data, (i * sidedefSize) + 16 + (sizeof(short) * 2), 8).ASCIIZ();
// Front sector, towards viewer.
short sector = BitConverter.ToInt16(sidedefsLump.Data, (i * sidedefSize) + 24 + (sizeof(short) * 2));
sidedefs[i] = new SideDef(textureoffset, rowoffset, toptexture, bottomtexture, midtexture, sectors[sector]);
}
// Read linedefs:
var linedefsLump = lumps[ml + (int)MapLump.LINEDEFS];
const int linedefSize = sizeof(short) * 7;
int numLineDefs = linedefsLump.Size / linedefSize;
linedefs = new LineDef[numLineDefs];
var verts = new ListSet <Vertex3>(numVertexes * 4);
var quads = new List <Quad>(numLineDefs * 3);
for (int i = 0; i < numLineDefs; ++i)
{
short v1 = BitConverter.ToInt16(linedefsLump.Data, (i * linedefSize) + (sizeof(short) * 0));
short v2 = BitConverter.ToInt16(linedefsLump.Data, (i * linedefSize) + (sizeof(short) * 1));
short flags = BitConverter.ToInt16(linedefsLump.Data, (i * linedefSize) + (sizeof(short) * 2));
short special = BitConverter.ToInt16(linedefsLump.Data, (i * linedefSize) + (sizeof(short) * 3));
short tag = BitConverter.ToInt16(linedefsLump.Data, (i * linedefSize) + (sizeof(short) * 4));
short sidenum0 = BitConverter.ToInt16(linedefsLump.Data, (i * linedefSize) + (sizeof(short) * 5));
short sidenum1 = BitConverter.ToInt16(linedefsLump.Data, (i * linedefSize) + (sizeof(short) * 6));
// Look up SideDefs:
SideDef side0, side1;
if (sidenum0 >= 0)
{
side0 = sidedefs[sidenum0];
if (sidenum1 < 0)
{
// One-sided:
side1 = null;
quads.Add(new Quad(
verts.AddReturnIndex(new Vertex3(vertexes[v1], side0.Sector.Floorheight)),
verts.AddReturnIndex(new Vertex3(vertexes[v1], side0.Sector.Ceilingheight)),
verts.AddReturnIndex(new Vertex3(vertexes[v2], side0.Sector.Ceilingheight)),
verts.AddReturnIndex(new Vertex3(vertexes[v2], side0.Sector.Floorheight))
));
}
else
{
// Two-sided:
side1 = sidedefs[sidenum1];
if (side1.Sector.Floorheight < side0.Sector.Floorheight)
{
quads.Add(new Quad(
verts.AddReturnIndex(new Vertex3(vertexes[v1], side0.Sector.Floorheight)),
verts.AddReturnIndex(new Vertex3(vertexes[v1], side1.Sector.Floorheight)),
verts.AddReturnIndex(new Vertex3(vertexes[v2], side1.Sector.Floorheight)),
verts.AddReturnIndex(new Vertex3(vertexes[v2], side0.Sector.Floorheight))
));
}
else if (side1.Sector.Floorheight >= side0.Sector.Floorheight)
{
quads.Add(new Quad(
verts.AddReturnIndex(new Vertex3(vertexes[v1], side0.Sector.Floorheight)),
verts.AddReturnIndex(new Vertex3(vertexes[v1], side1.Sector.Floorheight)),
verts.AddReturnIndex(new Vertex3(vertexes[v2], side1.Sector.Floorheight)),
verts.AddReturnIndex(new Vertex3(vertexes[v2], side0.Sector.Floorheight))
));
}
if (side1.Sector.Ceilingheight < side0.Sector.Ceilingheight)
{
quads.Add(new Quad(
verts.AddReturnIndex(new Vertex3(vertexes[v1], side1.Sector.Ceilingheight)),
verts.AddReturnIndex(new Vertex3(vertexes[v1], side0.Sector.Ceilingheight)),
verts.AddReturnIndex(new Vertex3(vertexes[v2], side0.Sector.Ceilingheight)),
verts.AddReturnIndex(new Vertex3(vertexes[v2], side1.Sector.Ceilingheight))
));
}
else if (side1.Sector.Ceilingheight >= side0.Sector.Ceilingheight)
{
quads.Add(new Quad(
verts.AddReturnIndex(new Vertex3(vertexes[v1], side0.Sector.Ceilingheight)),
verts.AddReturnIndex(new Vertex3(vertexes[v1], side1.Sector.Ceilingheight)),
verts.AddReturnIndex(new Vertex3(vertexes[v2], side1.Sector.Ceilingheight)),
verts.AddReturnIndex(new Vertex3(vertexes[v2], side0.Sector.Ceilingheight))
));
}
}
}
else
{
throw new Exception("FAIL");
}
linedefs[i] = new LineDef(v1, v2, flags, special, tag, side0, side1);
}
quadIndices = quads.ToArray();
// Read segs:
const int segSize = sizeof(short) * 6;
var segsLump = lumps[ml + (int)MapLump.SEGS];
int numSegs = segsLump.Size / segSize;
segs = new LineSeg[numSegs];
for (int i = 0; i < numSegs; ++i)
{
short v1 = BitConverter.ToInt16(segsLump.Data, (i * segSize) + (sizeof(short) * 0));
short v2 = BitConverter.ToInt16(segsLump.Data, (i * segSize) + (sizeof(short) * 1));
short angle = BitConverter.ToInt16(segsLump.Data, (i * segSize) + (sizeof(short) * 2));
short linedef = BitConverter.ToInt16(segsLump.Data, (i * segSize) + (sizeof(short) * 3));
short side = BitConverter.ToInt16(segsLump.Data, (i * segSize) + (sizeof(short) * 4));
short offset = BitConverter.ToInt16(segsLump.Data, (i * segSize) + (sizeof(short) * 5));
var ldef = linedefs[linedef];
var sdef = ldef.Side0;
if (side != 0)
{
sdef = ldef.Side1;
}
segs[i] = new LineSeg(v1, v2, angle, ldef, sdef, offset);
}
// Read subsectors:
const int subsectorSize = sizeof(short) * 2;
var subsectorsLump = lumps[ml + (int)MapLump.SSECTORS];
var numSubsectors = subsectorsLump.Size / subsectorSize;
subsectors = new SubSector[numSubsectors];
for (int i = 0; i < numSubsectors; ++i)
{
short numsegs = BitConverter.ToInt16(subsectorsLump.Data, (i * subsectorSize) + (sizeof(short) * 0));
short firstseg = BitConverter.ToInt16(subsectorsLump.Data, (i * subsectorSize) + (sizeof(short) * 1));
// Pull out all the LineSegs for this subsector:
var mysegs = new LineSeg[numsegs];
Array.Copy(segs, firstseg, mysegs, 0, numsegs);
subsectors[i] = new SubSector(mysegs);
// Assert that all line segs in this subsector are in the same sector:
var sector = subsectors[i].Segs[0].Side.Sector;
Debug.Assert(subsectors[i].Segs.All(s => s.Side.Sector == sector));
}
// Build floor + ceil polygons from subsectors:
var fPolys = new List <Polygon>(numSubsectors);
var cPolys = new List <Polygon>(numSubsectors);
int fIndices = 0, cIndices = 0;
for (int i = 0; i < numSubsectors; ++i)
{
var sg = subsectors[i].Segs;
List <int> flind = new List <int>(sg.Length * 2);
List <int> ceind = new List <int>(sg.Length * 2);
for (int j = 0; j < sg.Length; ++j)
{
var seg = sg[j];
if (seg.Side == seg.Line.Side0)
{
flind.Add(verts.AddReturnIndex(new Vertex3(vertexes[seg.V1], seg.Side.Sector.Floorheight)));
flind.Add(verts.AddReturnIndex(new Vertex3(vertexes[seg.V2], seg.Side.Sector.Floorheight)));
ceind.Add(verts.AddReturnIndex(new Vertex3(vertexes[seg.V1], seg.Side.Sector.Ceilingheight)));
ceind.Add(verts.AddReturnIndex(new Vertex3(vertexes[seg.V2], seg.Side.Sector.Ceilingheight)));
}
else
{
flind.Add(verts.AddReturnIndex(new Vertex3(vertexes[seg.V2], seg.Side.Sector.Floorheight)));
flind.Add(verts.AddReturnIndex(new Vertex3(vertexes[seg.V1], seg.Side.Sector.Floorheight)));
ceind.Add(verts.AddReturnIndex(new Vertex3(vertexes[seg.V2], seg.Side.Sector.Ceilingheight)));
ceind.Add(verts.AddReturnIndex(new Vertex3(vertexes[seg.V1], seg.Side.Sector.Ceilingheight)));
}
}
fPolys.Add(new Polygon(flind.ToArray(), fIndices));
fIndices += flind.Count;
cPolys.Add(new Polygon(ceind.ToArray(), cIndices));
cIndices += ceind.Count;
}
// Generate vectors and quad indices for OpenGL:
quadVerts = new Vector3[verts.Count];
for (int i = 0; i < verts.Count; ++i)
{
MapCoordToVector3(verts[i], out quadVerts[i]);
}
floorPolys = fPolys.ToArray();
ceilPolys = cPolys.ToArray();
// Read things:
var thingsLump = lumps[ml + (int)MapLump.THINGS];
const int thingSize = sizeof(short) * 5;
int numThings = thingsLump.Size / thingSize;
for (int i = 0; i < numThings; ++i)
{
short x = BitConverter.ToInt16(thingsLump.Data, (i * thingSize) + (sizeof(short) * 0));
short y = BitConverter.ToInt16(thingsLump.Data, (i * thingSize) + (sizeof(short) * 1));
short angle = BitConverter.ToInt16(thingsLump.Data, (i * thingSize) + (sizeof(short) * 2));
short type = BitConverter.ToInt16(thingsLump.Data, (i * thingSize) + (sizeof(short) * 3));
short options = BitConverter.ToInt16(thingsLump.Data, (i * thingSize) + (sizeof(short) * 4));
#if false
// Player #1 start:
if (type == 1)
{
MapCoordToVector3(x, y, 0, out centerPos);
}
#endif
}
// Game loop:
while (true)
{
// Create a new Frame to update:
next = new Frame();
// Set up the frame state to render:
//next.bg = new Color4((float)rnd.NextDouble(), (float)rnd.NextDouble(), (float)rnd.NextDouble(), 1.0f);
// Set this as the next frame ready to be rendered:
Interlocked.Exchange(ref ready, next);
// Wait for the frame to be rendered:
rendered.WaitOne(16);
}
}
catch (Exception ex)
{
Console.WriteLine(ex.ToString());
Exit();
return;
}
}
public virtual void CreateSideDef(SideDef side)
{
}
public void LoadMap01()
{
using (var wad = new Wad(WadPath.Doom2))
{
var flats = new FlatLookup(wad, true);
var textures = new TextureLookup(wad, true);
var map = wad.GetLumpNumber("MAP01");
var vertices = Vertex.FromWad(wad, map + 4);
var sectors = Sector.FromWad(wad, map + 8, flats);
var sides = SideDef.FromWad(wad, map + 3, textures, sectors);
var lines = LineDef.FromWad(wad, map + 2, vertices, sides);
var blockMap = BlockMap.FromWad(wad, map + 10, lines);
{
var minX = vertices.Select(v => v.X.ToDouble()).Min();
var maxX = vertices.Select(v => v.X.ToDouble()).Max();
var minY = vertices.Select(v => v.Y.ToDouble()).Min();
var maxY = vertices.Select(v => v.Y.ToDouble()).Max();
Assert.AreEqual(blockMap.OriginX.ToDouble(), minX, 64);
Assert.AreEqual(blockMap.OriginY.ToDouble(), minY, 64);
Assert.AreEqual((blockMap.OriginX + BlockMap.MapBlockSize * blockMap.Width).ToDouble(), maxX, 128);
Assert.AreEqual((blockMap.OriginY + BlockMap.MapBlockSize * blockMap.Height).ToDouble(), maxY, 128);
}
var spots = new List <Tuple <int, int> >();
for (var blockY = -2; blockY < blockMap.Height + 2; blockY++)
{
for (var blockX = -2; blockX < blockMap.Width + 2; blockX++)
{
spots.Add(Tuple.Create(blockX, blockY));
}
}
var random = new Random(666);
for (var i = 0; i < 50; i++)
{
var ordered = spots.OrderBy(spot => random.NextDouble()).ToArray();
var total = 0;
foreach (var spot in ordered)
{
var blockX = spot.Item1;
var blockY = spot.Item2;
var minX = double.MaxValue;
var maxX = double.MinValue;
var minY = double.MaxValue;
var maxY = double.MinValue;
var count = 0;
blockMap.IterateLines(
blockX,
blockY,
line =>
{
if (count != 0)
{
minX = Math.Min(Math.Min(line.Vertex1.X.ToDouble(), line.Vertex2.X.ToDouble()), minX);
maxX = Math.Max(Math.Max(line.Vertex1.X.ToDouble(), line.Vertex2.X.ToDouble()), maxX);
minY = Math.Min(Math.Min(line.Vertex1.Y.ToDouble(), line.Vertex2.Y.ToDouble()), minY);
maxY = Math.Max(Math.Max(line.Vertex1.Y.ToDouble(), line.Vertex2.Y.ToDouble()), maxY);
}
count++;
return(true);
},
i + 1);
if (count > 1)
{
Assert.IsTrue(minX <= (blockMap.OriginX + BlockMap.MapBlockSize * (blockX + 1)).ToDouble());
Assert.IsTrue(maxX >= (blockMap.OriginX + BlockMap.MapBlockSize * blockX).ToDouble());
Assert.IsTrue(minY <= (blockMap.OriginY + BlockMap.MapBlockSize * (blockY + 1)).ToDouble());
Assert.IsTrue(maxY >= (blockMap.OriginY + BlockMap.MapBlockSize * blockY).ToDouble());
}
total += count;
}
Assert.AreEqual(lines.Length, total);
}
}
}
