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I'm working on a program which reads millions of floating point numbers from a text file. This program runs inside of a game that I'm designing, so I need it to be fast (I'm loading an obj file). So far, loading a relatively small file takes about a minute (without precompilation) because of the slow speed of Convert.ToSingle(). Is there a faster way to do this?

EDIT: Here's the code I use to parse the Obj file

http://pastebin.com/TfgEge9J

using System;
using System.IO;
using System.Collections.Generic;
using OpenTK.Math;
using System.Drawing;
using PlatformLib;

public class ObjMeshLoader
{
    public static StreamReader[] LoadMeshes(string fileName)
    {
        StreamReader mreader = new StreamReader(PlatformLib.Platform.openFile(fileName));
        MemoryStream current = null;
        List<MemoryStream> mstreams = new List<MemoryStream>();
        StreamWriter mwriter = null;

        if (!mreader.ReadLine().Contains("#"))
        {
            mreader.BaseStream.Close();
            throw new Exception("Invalid header");
        }

        while (!mreader.EndOfStream)
        {
            string cmd = mreader.ReadLine();
            string line = cmd;
            line = line.Trim(splitCharacters);
            line = line.Replace("  ", " ");

            string[] parameters = line.Split(splitCharacters);
            if (parameters[0] == "mtllib")
            {
                loadMaterials(parameters[1]);
            }

            if (parameters[0] == "o")
            {
                if (mwriter != null)
                {
                    mwriter.Flush();
                    current.Position = 0;
                }

                current = new MemoryStream();
                mwriter = new StreamWriter(current);
                mwriter.WriteLine(parameters[1]);
                mstreams.Add(current);
            }
            else
            {
                if (mwriter != null)
                {
                    mwriter.WriteLine(cmd);
                    mwriter.Flush();
                }
            }
        }

        mwriter.Flush();
        current.Position = 0;
        List<StreamReader> readers = new List<StreamReader>();

        foreach (MemoryStream e in mstreams)
        {
            e.Position = 0;
            StreamReader sreader = new StreamReader(e);
            readers.Add(sreader);
        }

        return readers.ToArray();
    }

    public static bool Load(ObjMesh mesh, string fileName)
    {
        try
        {
            using (StreamReader streamReader = new StreamReader(Platform.openFile(fileName)))
            {
                Load(mesh, streamReader);
                streamReader.Close();
                return true;
            }
        }
        catch { return false; }
    }

    public static bool Load2(ObjMesh mesh, StreamReader streamReader, ObjMesh prevmesh)
    {
        if (prevmesh != null)
        {
            //mesh.Vertices = prevmesh.Vertices;
        }

        try
        {
            //streamReader.BaseStream.Position = 0;
            Load(mesh, streamReader);
            streamReader.Close();
#if DEBUG
            Console.WriteLine("Loaded "+mesh.Triangles.Length.ToString()+" triangles and"+mesh.Quads.Length.ToString()+" quadrilaterals parsed, with a grand total of "+mesh.Vertices.Length.ToString()+" vertices.");
#endif
            return true;
        }
        catch (Exception er) { Console.WriteLine(er); return false; }
    }

    static char[] splitCharacters = new char[] { ' ' };
    static List<Vector3> vertices;
    static List<Vector3> normals;
    static List<Vector2> texCoords;
    static Dictionary<ObjMesh.ObjVertex, int> objVerticesIndexDictionary;
    static List<ObjMesh.ObjVertex> objVertices;
    static List<ObjMesh.ObjTriangle> objTriangles;
    static List<ObjMesh.ObjQuad> objQuads;
    static Dictionary<string, Bitmap> materials = new Dictionary<string, Bitmap>();

    static void loadMaterials(string path)
    {
        StreamReader mreader = new StreamReader(Platform.openFile(path));
        string current = "";
        bool isfound = false;

        while (!mreader.EndOfStream)
        {
            string line = mreader.ReadLine();
            line = line.Trim(splitCharacters);
            line = line.Replace("  ", " ");

            string[] parameters = line.Split(splitCharacters);

            if (parameters[0] == "newmtl")
            {
                if (materials.ContainsKey(parameters[1]))
                {
                    isfound = true;
                }
                else
                {
                    current = parameters[1];
                }
            }

            if (parameters[0] == "map_Kd")
            {
                if (!isfound)
                {
                    string filename = "";
                    for (int i = 1; i < parameters.Length; i++)
                    {
                        filename += parameters[i];
                    }

                    string searcher = "\\" + "\\";

                    filename.Replace(searcher, "\\");
                    Bitmap mymap = new Bitmap(filename);
                    materials.Add(current, mymap);
                    isfound = false;
                }
            }
        }
    }

    static float parsefloat(string val)
    {
        return Convert.ToSingle(val);
    }

    int remaining = 0;

    static string GetLine(string text, ref int pos)
    {
        string retval = text.Substring(pos, text.IndexOf(Environment.NewLine, pos));
        pos = text.IndexOf(Environment.NewLine, pos);
        return retval;
    }

    static void Load(ObjMesh mesh, StreamReader textReader)
    {
        //try {
        //vertices = null;
        //objVertices = null;
        if (vertices == null)
        {
            vertices = new List<Vector3>();
        }

        if (normals == null)
        {
            normals = new List<Vector3>();
        }

        if (texCoords == null)
        {
            texCoords = new List<Vector2>();
        }

        if (objVerticesIndexDictionary == null)
        {
            objVerticesIndexDictionary = new Dictionary<ObjMesh.ObjVertex, int>();
        }

        if (objVertices == null)
        {
            objVertices = new List<ObjMesh.ObjVertex>();
        }

        objTriangles = new List<ObjMesh.ObjTriangle>();
        objQuads = new List<ObjMesh.ObjQuad>();

        mesh.vertexPositionOffset = vertices.Count;

        string line;
        string alltext = textReader.ReadToEnd();
        int pos = 0;

        while ((line = GetLine(alltext, pos)) != null)
        {
            if (line.Length < 2)
            {
                break;
            }

            //line = line.Trim(splitCharacters);
            //line = line.Replace("  ", " ");

            string[] parameters = line.Split(splitCharacters);

            switch (parameters[0])
            {

                case "usemtl":
                    //Material specification
                    try
                    {
                        mesh.Material = materials[parameters[1]];
                    }
                    catch (KeyNotFoundException)
                    {
                        Console.WriteLine("WARNING: Texture parse failure: " + parameters[1]);
                    }

                    break;
                case "p": // Point
                    break;
                case "v": // Vertex
                    float x = parsefloat(parameters[1]);
                    float y = parsefloat(parameters[2]);
                    float z = parsefloat(parameters[3]);
                    vertices.Add(new Vector3(x, y, z));
                    break;
                case "vt": // TexCoord
                    float u = parsefloat(parameters[1]);
                    float v = parsefloat(parameters[2]);
                    texCoords.Add(new Vector2(u, v));
                    break;
                case "vn": // Normal
                    float nx = parsefloat(parameters[1]);
                    float ny = parsefloat(parameters[2]);
                    float nz = parsefloat(parameters[3]);
                    normals.Add(new Vector3(nx, ny, nz));
                    break;
                case "f":
                    switch (parameters.Length)
                    {
                        case 4:
                            ObjMesh.ObjTriangle objTriangle = new ObjMesh.ObjTriangle();
                            objTriangle.Index0 = ParseFaceParameter(parameters[1]);
                            objTriangle.Index1 = ParseFaceParameter(parameters[2]);
                            objTriangle.Index2 = ParseFaceParameter(parameters[3]);
                            objTriangles.Add(objTriangle);
                            break;
                        case 5:
                            ObjMesh.ObjQuad objQuad = new ObjMesh.ObjQuad();
                            objQuad.Index0 = ParseFaceParameter(parameters[1]);
                            objQuad.Index1 = ParseFaceParameter(parameters[2]);
                            objQuad.Index2 = ParseFaceParameter(parameters[3]);
                            objQuad.Index3 = ParseFaceParameter(parameters[4]);
                            objQuads.Add(objQuad);
                            break;
                    }
                    break;
            }
        }
        //}catch(Exception er) {
        //  Console.WriteLine(er);
        //  Console.WriteLine("Successfully recovered. Bounds/Collision checking may fail though");
        //}
        mesh.Vertices = objVertices.ToArray();
        mesh.Triangles = objTriangles.ToArray();
        mesh.Quads = objQuads.ToArray();
        textReader.BaseStream.Close();
    }

    public static void Clear()
    {
        objVerticesIndexDictionary = null;
        vertices = null;
        normals = null;
        texCoords = null;
        objVertices = null;
        objTriangles = null;
        objQuads = null;
    }

    static char[] faceParamaterSplitter = new char[] { '/' };

    static int ParseFaceParameter(string faceParameter)
    {
        Vector3 vertex = new Vector3();
        Vector2 texCoord = new Vector2();
        Vector3 normal = new Vector3();

        string[] parameters = faceParameter.Split(faceParamaterSplitter);

        int vertexIndex = Convert.ToInt32(parameters[0]);

        if (vertexIndex < 0) vertexIndex = vertices.Count + vertexIndex;
        else vertexIndex = vertexIndex - 1;

        //Hmm. This seems to be broken.
        try
        {
            vertex = vertices[vertexIndex];
        }
        catch (Exception)
        {
            throw new Exception("Vertex recognition failure at " + vertexIndex.ToString());
        }

        if (parameters.Length > 1)
        {
            int texCoordIndex = Convert.ToInt32(parameters[1]);

            if (texCoordIndex < 0) texCoordIndex = texCoords.Count + texCoordIndex;
            else texCoordIndex = texCoordIndex - 1;

            try
            {
                texCoord = texCoords[texCoordIndex];
            }
            catch (Exception)
            {
                Console.WriteLine("ERR: Vertex " + vertexIndex + " not found. ");
                throw new DllNotFoundException(vertexIndex.ToString());
            }
        }

        if (parameters.Length > 2)
        {
            int normalIndex = Convert.ToInt32(parameters[2]);

            if (normalIndex < 0) normalIndex = normals.Count + normalIndex;
            else normalIndex = normalIndex - 1;

            normal = normals[normalIndex];
        }

        return FindOrAddObjVertex(ref vertex, ref texCoord, ref normal);
    }

    static int FindOrAddObjVertex(ref Vector3 vertex, ref Vector2 texCoord, ref Vector3 normal)
    {
        ObjMesh.ObjVertex newObjVertex = new ObjMesh.ObjVertex();
        newObjVertex.Vertex = vertex;
        newObjVertex.TexCoord = texCoord;
        newObjVertex.Normal = normal;

        int index;

        if (objVerticesIndexDictionary.TryGetValue(newObjVertex, out index))
        {
            return index;
        }
        else
        {
            objVertices.Add(newObjVertex);
            objVerticesIndexDictionary[newObjVertex] = objVertices.Count - 1;
            return objVertices.Count - 1;
        }
    }
}
share|improve this question
5  
why do you use a text file in the first place? Consider a binary file, then you can read the float's directly. –  BrokenGlass Apr 23 '11 at 22:35
    
Yes. Neither float.Parse nor Single.Parse work fast enough. –  IDWMaster Apr 23 '11 at 22:35
1  
@Heandel: float.Parse is the same as Single.Parse, which is what Convert.ToSingle calls when given a string. –  David Brown Apr 23 '11 at 22:36
3  
You won't get any better results from other string parsing methods. Go for the binary format. –  Ekin Koc Apr 23 '11 at 22:38
2  
@IDWMaster: Just FYI, getting 30 times faster than my version is physically impossible (without multithreading). I took out all the parsing data and just said return 0; in my code, and it still didn't beat itself by a factor of 30. I think the problem is with how you're reading the file, not with the parsing; if you're using something like StreamReader.ReadLine (or anything else that allocates a string or an array), that will decrease the performance considerably. Would you mind posting sample code so we see what you're doing? –  Mehrdad Apr 23 '11 at 23:44

5 Answers 5

up vote 5 down vote accepted

Based on your description and the code you've posted, I'm going to bet that your problem isn't with the reading, the parsing, or the way you're adding things to your collections. The most likely problem is that your ObjMesh.Objvertex structure doesn't override GetHashCode. (I'm assuming that you're using code similar to http://www.opentk.com/files/ObjMesh.cs.

If you're not overriding GetHashCode, then your objVerticesIndexDictionary is going to perform very much like a linear list. That would account for the performance problem that you're experiencing.

I suggest that you look into providing a good GetHashCode method for your ObjMesh.Objvertex class.

See Why is ValueType.GetHashCode() implemented like it is? for information about the default GetHashCode implementation for value types and why it's not suitable for use in a hash table or dictionary.

share|improve this answer
    
Thanks! This helped a TON! Now that mesh loads nearly instantly! –  IDWMaster Apr 24 '11 at 16:59

I tested .Net string parsing once and the fastest function to parse text was the old VB Val() function. You could pull the relevant parts out of Microsoft.VisualBasic.Conversion Val(string)

Converting String to numbers

Comparison of relative test times (ms / 100000 conversions)
Double  Single  Integer    Int(w/ decimal point)
14      13      6          16                 Val(Str)
14      14      6          16                 Cxx(Val(Str)) e.g., CSng(Val(str))
22      21      17          e!                Convert.To(str)
23      21      16          e!                XX.Parse(str) e.g. Single.Parse()
30      31      31         32                 Cxx(str)

Val: fastest, part of VisualBasic dll, skips non-numeric,
ConvertTo and Parse: slower, part of core, exception on bad format (including decimal point)
Cxx: slowest (for strings), part of core, consistent times across formats
share|improve this answer

Edit 3: The problem is NOT with the parsing.

It's with how you read the file. If you read it properly, it would be faster; however, it seems like your reading is unusually slow. My original suspicion was that it was because of excess allocations, but it seems like there might be other problems with your code too, since that doesn't explain the entire slowdown.

Nevertheless, here's a piece of code I made that completely avoids all object allocations:

static void Main(string[] args)
{
    long counter = 0;
    var sw = Stopwatch.StartNew();
    var sb = new StringBuilder();
    var text = File.ReadAllText("spacestation.obj");
    for (int i = 0; i < text.Length; i++)
    {
        int start = i;
        while (i < text.Length &&
            (char.IsDigit(text[i]) || text[i] == '-' || text[i] == '.'))
        { i++; }
        if (i > start)
        {
            sb.Append(text, start, i - start); //Copy data to the buffer

            float value = Parse(sb); //Parse the data

            sb.Remove(0, sb.Length); //Clear the buffer
            counter++;
        }
    }
    sw.Stop();
    Console.WriteLine("{0:N0}", sw.Elapsed.TotalSeconds); //Only a few ms
}

with this parser:

const int MIN_POW_10 = -16, int MAX_POW_10 = 16,
    NUM_POWS_10 = MAX_POW_10 - MIN_POW_10 + 1;
static readonly float[] pow10 = GenerateLookupTable();
static float[] GenerateLookupTable()
{
    var result = new float[(-MIN_POW_10 + MAX_POW_10) * 10];
    for (int i = 0; i < result.Length; i++)
        result[i] = (float)((i / NUM_POWS_10) *
                Math.Pow(10, i % NUM_POWS_10 + MIN_POW_10));
    return result;
}
static float Parse(StringBuilder str)
{
    float result = 0;
    bool negate = false;
    int len = str.Length;
    int decimalIndex = str.Length;
    for (int i = len - 1; i >= 0; i--)
        if (str[i] == '.')
        { decimalIndex = i; break; }
    int offset = -MIN_POW_10 + decimalIndex;
    for (int i = 0; i < decimalIndex; i++)
        if (i != decimalIndex && str[i] != '-')
            result += pow10[(str[i] - '0') * NUM_POWS_10 + offset - i - 1];
        else if (str[i] == '-')
            negate = true;
    for (int i = decimalIndex + 1; i < len; i++)
        if (i != decimalIndex)
            result += pow10[(str[i] - '0') * NUM_POWS_10 + offset - i];
    if (negate)
        result = -result;
    return result;
}

it happens in a small fraction of a second.

Of course, this parser is poorly tested and has these current restrictions (and more):

  • Don't try parsing more digits (decimal and whole) than provided for in the array.

  • No error handling whatsoever.

  • Only parses decimals, not exponents! i.e. it can parse 1234.56 but not 1.23456E3.

  • Doesn't care about globalization/localization. Your file is only in a single format, so there's no point caring about that kind of stuff because you're probably using English to store it anyway.

It seems like you won't necessarily need this much overkill, but take a look at your code and try to figure out the bottleneck. It seems to be neither the reading nor the parsing.

share|improve this answer
    
Good job on the parser, but it's still not quite fast enough for my needs. –  IDWMaster Apr 23 '11 at 23:15
    
@IDWMaster: Just curious, how many times faster do you need it to be? –  Mehrdad Apr 23 '11 at 23:17
    
About 30 times faster. It loads pretty slow at the moment (a minute to load a simple OBJ file such as this one dl.dropbox.com/u/1854457/spacestation.obj). It's a real-time first person shooter game I'm working on, so it needs to load fast. –  IDWMaster Apr 23 '11 at 23:20
    
@IDWMaster: About how many floats are there in your file? (It's a bit hard to calculate when I'm looking at it right now.) –  Mehrdad Apr 23 '11 at 23:22
    
@IDWMaster: By the way, I think the bottleneck is reading the string, not parsing it. You're not creating a new string every single time, are you? If you're using Substring then that's a very big mistake. –  Mehrdad Apr 23 '11 at 23:25

Have you measured that the speed problem is really caused by Convert.ToSingle?

In the code you included, I see you create lists and dictionaries like this:

normals = new List<Vector3>();
texCoords = new List<Vector2>();
objVerticesIndexDictionary = new Dictionary<ObjMesh.ObjVertex, int>();

And then when you read the file, you add in the collection one item at a time. One of the possible optimizations would be to save total number of normals, texCoords, indexes and everything at the start of the file, and then initialize these collections by these numbers. This will pre-allocate the buffers used by collections, so adding items to the them will be pretty fast.

So the collection creation should look like this:

// These values should be stored at the beginning of the file
int totalNormals = Convert.ToInt32(textReader.ReadLine());
int totalTexCoords = Convert.ToInt32(textReader.ReadLine());
int totalIndexes = Convert.ToInt32(textReader.ReadLine());

normals = new List<Vector3>(totalNormals);
texCoords = new List<Vector2>(totalTexCoords);
objVerticesIndexDictionary = new Dictionary<ObjMesh.ObjVertex, int>(totalIndexes);

See List<T> Constructor (Int32) and Dictionary<TKey, TValue> Constructor (Int32).

share|improve this answer
    
ReadLine shouldn't even be used in the first place, I think that's the real issue. –  Mehrdad Apr 23 '11 at 23:31
    
Replaced ReadLine with substring –  IDWMaster Apr 24 '11 at 0:04
    
This would work, assuming I KNEW the total number at the start of the file. I don't know how many Vertices, texcoords, normals, quads, etc. at the start of the file, as per the Obj specification. –  IDWMaster Apr 24 '11 at 0:06
1  
But I really recommend to measure just about everything what's going on in your parser and see where is the performance sink. Try to use a profiler. –  Paya Apr 24 '11 at 0:14
1  
@Mehrdad: Actually using a profiler is less work than pausing the program several times (at least for me), and is much more reliable. –  Paya Apr 24 '11 at 0:26

This related question is for C++, but is definitely worth a read.

For reading as fast as possible, you're probably going to want to map the file into memory and then parse using some custom floating point parser, especially if you know the numbers are always in a specific format (i.e. you're the one generating the input files in the first place).

share|improve this answer
    
memory mapping is way over the top for this problem –  David Heffernan Apr 23 '11 at 23:08
    
Not if it's for a game :) –  PostMan Apr 23 '11 at 23:23
    
Tried that. Loaded the whole file into memory with ReadToEnd(), then parsed SubStrings of that text –  IDWMaster Apr 24 '11 at 0:04

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