/// <summary>
/// Read the material data from the specified stream.
/// </summary>
/// <param name="reader">The reader.</param>
/// <param name="path">The path. This can be null - it is only used for recording diagnostic information.</param>
/// <param name="loadTextureImages">if set to <c>true</c> [load texture images].</param>
/// <returns>
/// The results of the file load.
/// </returns>
private static FileLoadResult <List <Material> > Read(TextReader reader, string path, bool loadTextureImages)
{
// The model we are loading is a list of materials. During loading, we'll keep
// track of messages that may be useful to consumers.
var materials = new List <Material>();
var messages = new List <Message>();
// As we load, we're enriching the data of a Material object.
Material currentMaterial = null;
// Go through each line, keeping track of the line number.
var lineNumberCounter = 0;
string line;
while ((line = reader.ReadLine()) != null)
{
++lineNumberCounter;
// Strip any comments from the line and skip empty lines.
line = LineData.StripComments(line);
if (string.IsNullOrWhiteSpace(line))
{
continue;
}
// Try and read the line type and data.
string lineType, lineData;
if (LineData.TryReadLineType(line, out lineType, out lineData) == false)
{
continue;
}
if (lineType.IsLineType(LineTypeNewMaterial))
{
// Add a new material to the list, store it as the current one and set the name.
currentMaterial = new Material {
Name = lineData
};
materials.Add(currentMaterial);
}
else if (currentMaterial != null)
{
if (lineType.IsLineType(LineTypeMaterialAmbient))
{
currentMaterial.Ambient = ReadColour(lineData);
}
else if (lineType.IsLineType(LineTypeMaterialDiffuse))
{
currentMaterial.Diffuse = ReadColour(lineData);
}
else if (lineType.IsLineType(LineTypeMaterialSpecular))
{
currentMaterial.Specular = ReadColour(lineData);
}
else if (lineType.IsLineType(LineTypeMaterialShininess))
{
currentMaterial.Shininess = float.Parse(lineData);
}
else if (lineType.IsLineType(LineTypeOpticalDensity))
{
currentMaterial.OpticalDensity = float.Parse(lineData);
}
else if (lineType.IsLineType(LineTypeBumpStrength))
{
currentMaterial.BumpStrength = float.Parse(lineData);
}
else if (lineType.IsLineType(LineTypeTextureMapAmbient))
{
currentMaterial.TextureMapAmbient = ReadTextureMap(path, lineNumberCounter, messages, lineData, loadTextureImages);
}
else if (lineType.IsLineType(LineTypeTextureMapDiffuse))
{
currentMaterial.TextureMapDiffuse = ReadTextureMap(path, lineNumberCounter, messages, lineData, loadTextureImages);
}
else if (lineType.IsLineType(LineTypeTextureMapSpecular))
{
currentMaterial.TextureMapSpecular = ReadTextureMap(path, lineNumberCounter, messages, lineData, loadTextureImages);
}
else if (lineType.IsLineType(LineTypeTextureMapSpecularHighlight))
{
currentMaterial.TextureMapSpecularHighlight = ReadTextureMap(path, lineNumberCounter, messages, lineData, loadTextureImages);
}
else if (lineType.IsLineType(LineTypeTextureMapAlpha))
{
currentMaterial.TextureMapAlpha = ReadTextureMap(path, lineNumberCounter, messages, lineData, loadTextureImages);
}
else if (lineType.IsLineType(LineTypeTextureMapBump))
{
currentMaterial.TextureMapBump = ReadTextureMap(path, lineNumberCounter, messages, lineData, loadTextureImages);
}
else if (lineType.IsLineType(LineTypeDissolve) || lineType.IsLineType(LineTypeTransparent))
{
// Read the transparency.
currentMaterial.Transparency = float.Parse(lineData);
}
else if (lineType.IsLineType(LineTypeIlluminationModel))
{
currentMaterial.IlluminationModel = int.Parse(lineData);
}
else if (lineType.IsLineType("Tf"))
{
currentMaterial.TransmissionFilter = ReadColour(lineData);
}
else
{
// Anything we encounter here we don't understand.
messages.Add(new Message(MessageType.Warning, path, lineNumberCounter,
string.Format("Skipped unknown line type '{0}'.", lineType)));
}
}
else
{
// Anything we encounter here we don't understand.
messages.Add(new Message(MessageType.Warning, path, lineNumberCounter,
string.Format("Skipped unknown or out of context line type '{0}'.", lineType)));
}
}
// Return the model and messages as a file load result.
return(new FileLoadResult <List <Material> >(materials, messages));
}
/// <summary>
/// Internally used to reads the scene.
/// </summary>
/// <param name="reader">The reader.</param>
/// <param name="path">The path.</param>
/// <param name="loadTextureImages">if set to <c>true</c> [load texture images].</param>
/// <returns>
/// The file load result.
/// </returns>
private static FileLoadResult <Scene> ReadScene(StreamReader reader, string path, bool loadTextureImages)
{
// Keep track of messages and the raw data we will use to build a scene.
var messages = new List <Message>();
var uvs = new List <Vector2>();
var normals = new List <Vector3>();
var vertices = new List <Vector3>();
var interimFaces = new List <InterimFace>();
var materials = new List <Material>();
var groups = new List <Group>();
string objectName = null;
// State changing data is loaded as we go through the file - once loaded, state changing
// data applies to all subsequent elements until it is explicitly changed by introducing
// new state changing data.
Group currentGroup = null;
string currentMaterialName = null;
// Read line by line.
string line;
int lineNumberCounter = 0;
while ((line = reader.ReadLine()) != null)
{
++lineNumberCounter;
// Strip any comments from the line and skip empty lines.
line = LineData.StripComments(line);
if (string.IsNullOrWhiteSpace(line))
{
continue;
}
// Try and read the line type and data.
string lineType, lineData;
if (LineData.TryReadLineType(line, out lineType, out lineData) == false)
{
continue;
}
// Read texture coordinates.
if (lineType.IsLineType(LineTypeTextureCoordinate))
{
try
{
// Split the line data into texture coordinates.
var dataStrings = lineData.Split(dataSeparators, StringSplitOptions.RemoveEmptyEntries);
// Add the UV.
uvs.Add(new Vector2
{
X = float.Parse(dataStrings[0]),
Y = float.Parse(dataStrings[1])
});
}
catch (Exception exception)
{
messages.Add(new Message(MessageType.Error, path, lineNumberCounter,
"There was an error reading the texture coordinate data.", exception));
}
}
else if (lineType.IsLineType(LineTypeNormalCoordinate))
{
try
{
// Split the line data into normal coordinates.
var dataStrings = lineData.Split(dataSeparators, StringSplitOptions.RemoveEmptyEntries);
normals.Add(new Vector3
{
X = float.Parse(dataStrings[0]),
Y = float.Parse(dataStrings[1]),
Z = float.Parse(dataStrings[2])
});
}
catch (Exception exception)
{
messages.Add(new Message(MessageType.Error, path, lineNumberCounter,
"There was an error reading the normal data.", exception));
}
}
else if (lineType.IsLineType(LineTypeVertex))
{
try
{
// Split the line data into vertex coordinates.
var dataStrings = lineData.Split(dataSeparators, StringSplitOptions.RemoveEmptyEntries);
vertices.Add(new Vector3
{
X = float.Parse(dataStrings[0]),
Y = float.Parse(dataStrings[1]),
Z = float.Parse(dataStrings[2])
});
}
catch (Exception exception)
{
messages.Add(new Message(MessageType.Error, path, lineNumberCounter,
"There was an error reading the vertex data.", exception));
}
}
else if (lineType.IsLineType(LineTypeFace))
{
try
{
var indices = new List <Index>();
// Split the line data into index strings.
var indexStrings = lineData.Split(dataSeparators, StringSplitOptions.RemoveEmptyEntries);
foreach (var indexString in indexStrings)
{
// Split the parts.
var parts = indexString.Split(new[] { '/' }, StringSplitOptions.None);
var vertex = MapIndex(vertices.Count, int.Parse(parts[0]));
var uv = (parts.Length > 1 && parts[1].Length > 0) ? (int?)MapIndex(uvs.Count, int.Parse(parts[1])) : null;
var normal = (parts.Length > 2 && parts[2].Length > 0) ? (int?)MapIndex(normals.Count, int.Parse(parts[2])) : null;
indices.Add(new Index
{
Vertex = vertex,
Uv = uv,
Normal = normal
});
}
interimFaces.Add(new InterimFace
{
materialName = currentMaterialName,
indices = indices,
@group = currentGroup
});
}
catch (Exception exception)
{
messages.Add(new Message(MessageType.Error, path, lineNumberCounter,
"There was an error reading the index data.", exception));
}
}
else if (lineType.IsLineType(LineTypeMaterialLibrary))
{
// The material file path is the line data.
var materialPath = lineData;
// If the path is relative, make it absolute based on the current directory (if we've been passed a path).
if (Path.IsPathRooted(lineData) == false && path != null)
{
materialPath = Path.Combine(Path.GetDirectoryName(path), materialPath);
}
// Read the material file.
try
{
var fileLoadResult = FileFormatMtl.Load(GD, materialPath, loadTextureImages);
materials.AddRange(fileLoadResult.Model);
messages.AddRange(fileLoadResult.Messages);
}
catch (Exception exception)
{
messages.Add(new Message(MessageType.Error, path, lineNumberCounter,
string.Format("Failed to load material file '{0}'.", materialPath), exception));
}
}
else if (lineType.IsLineType(LineTypeUseMaterial))
{
// The material name is simply the line data.
currentMaterialName = lineData;
}
else if (lineType.IsLineType(LineTypeGroup))
{
// Create a new group.
var groupNames = lineData.Split(dataSeparators, StringSplitOptions.RemoveEmptyEntries);
currentGroup = new Group(groupNames);
groups.Add(currentGroup);
}
else if (lineType.IsLineType(LineTypeSmoothingGroup))
{
// If we have no current group, we cannot set a smoothing group.
if (currentGroup == null)
{
messages.Add(new Message(MessageType.Warning, path, lineNumberCounter,
string.Format("Cannot set smoothing group '{0}' as the current context has no group.", lineData)));
}
else
{
// The smoothing group is an int, if we can get it.
int smoothingGroup;
if (int.TryParse(lineData, out smoothingGroup))
{
currentGroup.SetSmoothingGroup(smoothingGroup);
}
currentGroup.SetSmoothingGroup(null);
}
}
else if (lineType.IsLineType(LineTypeObjectName))
{
// Set the object name, warning if it's already set.
if (objectName != null)
{
messages.Add(new Message(MessageType.Warning, path, lineNumberCounter,
string.Format("An object name statement to set the name to '{0}' will overwrite the current object name '{1}'.", lineData, objectName)));
}
objectName = lineData;
}
else
{
messages.Add(new Message(MessageType.Warning, path, lineNumberCounter,
string.Format("Skipped unknown line type '{0}'.", lineType)));
}
}
// Currently we don't have faces, just indexes and material names. But now that we've loaded
// the entire file, we can map the material names to the actual materials.
var ungroupedFaces = new List <Face>();
foreach (var interimFace in interimFaces)
{
// If we have a material named but not in the set of materials, warn.
var material = materials.FirstOrDefault(m => m.Name == interimFace.materialName);
if (material == null)
{
messages.Add(new Message(MessageType.Warning, path, lineNumberCounter,
string.Format("Material '{0}' is referenced for a face, but not included in any material files.", interimFace.materialName)));
}
// If the face is grouped, add it to the group. Otherwise add it to the ungrouped faces.
var face = new Face(material, interimFace.indices);
if (interimFace.group != null)
{
interimFace.group.AddFace(face);
}
else
{
ungroupedFaces.Add(face);
}
}
return(new FileLoadResult <Scene>(new Scene(vertices, uvs, normals, ungroupedFaces, groups, materials, objectName), messages));
}
