bgfx/3rdparty/openctm/tools/obj.cpp

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2012-10-07 23:41:18 -04:00
//-----------------------------------------------------------------------------
// Product: OpenCTM tools
// File: obj.cpp
// Description: Implementation of the OBJ file format importer/exporter.
//-----------------------------------------------------------------------------
// Copyright (c) 2009-2010 Marcus Geelnard
//
// This software is provided 'as-is', without any express or implied
// warranty. In no event will the authors be held liable for any damages
// arising from the use of this software.
//
// Permission is granted to anyone to use this software for any purpose,
// including commercial applications, and to alter it and redistribute it
// freely, subject to the following restrictions:
//
// 1. The origin of this software must not be misrepresented; you must not
// claim that you wrote the original software. If you use this software
// in a product, an acknowledgment in the product documentation would be
// appreciated but is not required.
//
// 2. Altered source versions must be plainly marked as such, and must not
// be misrepresented as being the original software.
//
// 3. This notice may not be removed or altered from any source
// distribution.
//-----------------------------------------------------------------------------
#include <stdexcept>
#include <fstream>
#include <iomanip>
#include <string>
#include <sstream>
#include <vector>
#include <list>
#include "obj.h"
#include "common.h"
using namespace std;
class OBJFaceNode {
public:
OBJFaceNode()
{
v = vt = vn = 0;
}
void Set(int aIndex, int aValue)
{
if(aIndex == 0)
v = aValue;
else if(aIndex == 1)
vt = aValue;
else
vn = aValue;
}
int v, vt, vn;
};
// OBJ file face description class (three triangle corners, with one vertex,
// texcoord and normal index each).
class OBJFace {
public:
OBJFace()
{
}
// Contruct a face (one triangle) from an OBJ face description string
OBJFace(const string aStr)
{
// Start by finding the first and last non-whitespace char (trim)
size_t l = aStr.size();
size_t pos = 0, strEnd = l - 1;
while((pos < strEnd) && ((aStr[pos] == ' ') || (aStr[pos] == '\t')))
++ pos;
while((strEnd > pos) && ((aStr[strEnd] == ' ') || (aStr[strEnd] == '\t')))
-- strEnd;
// Extract three face corners (one triangle)
while((pos <= strEnd) && (aStr[pos] != ' ') && (aStr[pos] != '\t'))
{
// Extract three /-separated strings (v/vt/vn)
string v_s[3];
int j = 0;
while((pos <= strEnd) && (aStr[pos] != ' ') && (aStr[pos] != '\t') && (j < 3))
{
if(aStr[pos] != '/')
v_s[j] += aStr[pos];
else
++ j;
++ pos;
}
// Skip whitespaces
while((pos <= strEnd) && ((aStr[pos] == ' ') || (aStr[pos] == '\t')))
++ pos;
// Convert the strings to integers
mNodes.push_back(OBJFaceNode());
OBJFaceNode &n = mNodes.back();
for(int j = 0; j < 3; ++ j)
{
int value = 0;
if(v_s[j].size() > 0)
{
istringstream ss(v_s[j]);
ss >> value;
if(value > 0)
value --;
else if(value < 0)
throw runtime_error("Negative vertex references in OBJ files are not supported.");
else
throw runtime_error("Invalid index (zero) in OBJ file.");
}
n.Set(j, value);
}
}
}
list<OBJFaceNode> mNodes;
};
// Parse a 2 x float string as a Vector2
static Vector2 ParseVector2(const string aString)
{
Vector2 result;
istringstream sstr(aString);
sstr >> result.u;
sstr >> result.v;
return result;
}
// Parse a 3 x float string as a Vector3
static Vector3 ParseVector3(const string aString)
{
Vector3 result;
istringstream sstr(aString);
sstr >> result.x;
sstr >> result.y;
sstr >> result.z;
return result;
}
/// Import a mesh from an OBJ file.
void Import_OBJ(const char * aFileName, Mesh * aMesh)
{
// Clear the mesh
aMesh->Clear();
// Open the input file
ifstream inFile(aFileName, ios::in);
if(inFile.fail())
throw runtime_error("Could not open input file.");
// Mesh description - parsed from the OBJ file
list<Vector3> vertices;
list<Vector2> texCoords;
list<Vector3> normals;
list<OBJFace> faces;
// Parse the file
while(!inFile.eof())
{
// Read one line from the file (concatenate lines that end with "\")
string line;
getline(inFile, line);
while((line.size() > 0) && (line[line.size() - 1] == '\\') && !inFile.eof())
{
string nextLine;
getline(inFile, nextLine);
line = line.substr(0, line.size() - 1) + string(" ") + nextLine;
}
// Parse the line, if it is non-empty
if(line.size() >= 1)
{
if(line.substr(0, 2) == string("v "))
vertices.push_back(ParseVector3(line.substr(2)));
else if(line.substr(0, 3) == string("vt "))
texCoords.push_back(ParseVector2(line.substr(3)));
else if(line.substr(0, 3) == string("vn "))
normals.push_back(ParseVector3(line.substr(3)));
else if(line.substr(0, 2) == string("f "))
faces.push_back(OBJFace(line.substr(2)));
}
}
// Convert lists to vectors (for random element access)
vector<Vector3> verticesArray(vertices.begin(), vertices.end());
vector<Vector2> texCoordsArray(texCoords.begin(), texCoords.end());
vector<Vector3> normalsArray(normals.begin(), normals.end());
// Prepare vertices
aMesh->mVertices.resize(verticesArray.size());
if(texCoordsArray.size() > 0)
aMesh->mTexCoords.resize(verticesArray.size());
if(normalsArray.size() > 0)
aMesh->mNormals.resize(verticesArray.size());
// Prepare indices
int triCount = 0;
for(list<OBJFace>::iterator i = faces.begin(); i != faces.end(); ++ i)
{
int nodeCount = (*i).mNodes.size();
if(nodeCount >= 3)
triCount += (nodeCount - 2);
}
aMesh->mIndices.resize(triCount * 3);
// Iterate faces and extract vertex data
unsigned int idx = 0;
for(list<OBJFace>::iterator i = faces.begin(); i != faces.end(); ++ i)
{
OBJFace &f = (*i);
int nodes[3][3];
int nodeCount = 0;
for(list<OBJFaceNode>::iterator n = f.mNodes.begin(); n != f.mNodes.end(); ++ n)
{
// Collect polygon nodes for this face, turning it into triangles
if(nodeCount < 3)
{
nodes[nodeCount][0] = (*n).v;
nodes[nodeCount][1] = (*n).vt;
nodes[nodeCount][2] = (*n).vn;
}
else
{
nodes[1][0] = nodes[2][0];
nodes[1][1] = nodes[2][1];
nodes[1][2] = nodes[2][2];
nodes[2][0] = (*n).v;
nodes[2][1] = (*n).vt;
nodes[2][2] = (*n).vn;
}
++ nodeCount;
// Emit one triangle?
if(nodeCount >= 3)
{
aMesh->mIndices[idx ++] = nodes[0][0];
aMesh->mIndices[idx ++] = nodes[1][0];
aMesh->mIndices[idx ++] = nodes[2][0];
aMesh->mVertices[nodes[0][0]] = verticesArray[nodes[0][0]];
aMesh->mVertices[nodes[1][0]] = verticesArray[nodes[1][0]];
aMesh->mVertices[nodes[2][0]] = verticesArray[nodes[2][0]];
if(texCoordsArray.size() > 0)
{
aMesh->mTexCoords[nodes[0][0]] = texCoordsArray[nodes[0][1]];
aMesh->mTexCoords[nodes[1][0]] = texCoordsArray[nodes[1][1]];
aMesh->mTexCoords[nodes[2][0]] = texCoordsArray[nodes[2][1]];
}
if(normalsArray.size() > 0)
{
aMesh->mNormals[nodes[0][0]] = normalsArray[nodes[0][2]];
aMesh->mNormals[nodes[1][0]] = normalsArray[nodes[1][2]];
aMesh->mNormals[nodes[2][0]] = normalsArray[nodes[2][2]];
}
}
}
}
// Close the input file
inFile.close();
}
/// Export a mesh to an OBJ file.
void Export_OBJ(const char * aFileName, Mesh * aMesh, Options &aOptions)
{
// Open the output file
ofstream f(aFileName, ios::out);
if(f.fail())
throw runtime_error("Could not open output file.");
// What should we export?
bool exportTexCoords = aMesh->HasTexCoords() && !aOptions.mNoTexCoords;
bool exportNormals = aMesh->HasNormals() && !aOptions.mNoNormals;
// Set floating point precision
f << setprecision(8);
// Write comment
if(aMesh->mComment.size() > 0)
{
stringstream sstr(aMesh->mComment);
sstr.seekg(0);
while(!sstr.eof())
{
string line;
getline(sstr, line);
line = TrimString(line);
if(line.size() > 0)
f << "# " << line << endl;
}
}
// Write vertices
for(unsigned int i = 0; i < aMesh->mVertices.size(); ++ i)
f << "v " << aMesh->mVertices[i].x << " " << aMesh->mVertices[i].y << " " << aMesh->mVertices[i].z << endl;
// Write UV coordinates
if(exportTexCoords)
{
for(unsigned int i = 0; i < aMesh->mTexCoords.size(); ++ i)
f << "vt " << aMesh->mTexCoords[i].u << " " << aMesh->mTexCoords[i].v << endl;
}
// Write normals
if(exportNormals)
{
for(unsigned int i = 0; i < aMesh->mNormals.size(); ++ i)
f << "vn " << aMesh->mNormals[i].x << " " << aMesh->mNormals[i].y << " " << aMesh->mNormals[i].z << endl;
}
// Write faces
unsigned int triCount = aMesh->mIndices.size() / 3;
f << "s 1" << endl; // Put all faces in the same smoothing group
for(unsigned int i = 0; i < triCount; ++ i)
{
unsigned int idx = aMesh->mIndices[i * 3] + 1;
f << "f " << idx << "/";
if(exportTexCoords)
f << idx;
f << "/";
if(exportNormals)
f << idx;
idx = aMesh->mIndices[i * 3 + 1] + 1;
f << " " << idx << "/";
if(exportTexCoords)
f << idx;
f << "/";
if(exportNormals)
f << idx;
idx = aMesh->mIndices[i * 3 + 2] + 1;
f << " " << idx << "/";
if(exportTexCoords)
f << idx;
f << "/";
if(exportNormals)
f << idx;
f << endl;
}
// Close the output file
f.close();
}