paulxstretch/deps/juce/examples/Assets/WavefrontObjParser.h

366 lines
12 KiB
C
Raw Permalink Normal View History

/*
==============================================================================
This file is part of the JUCE examples.
Copyright (c) 2020 - Raw Material Software Limited
The code included in this file is provided under the terms of the ISC license
http://www.isc.org/downloads/software-support-policy/isc-license. Permission
To use, copy, modify, and/or distribute this software for any purpose with or
without fee is hereby granted provided that the above copyright notice and
this permission notice appear in all copies.
THE SOFTWARE IS PROVIDED "AS IS" WITHOUT ANY WARRANTY, AND ALL WARRANTIES,
WHETHER EXPRESSED OR IMPLIED, INCLUDING MERCHANTABILITY AND FITNESS FOR
PURPOSE, ARE DISCLAIMED.
==============================================================================
*/
#pragma once
#include <map>
//==============================================================================
/**
This is a quick-and-dirty parser for the 3D OBJ file format.
Just call load() and if there aren't any errors, the 'shapes' array should
be filled with all the shape objects that were loaded from the file.
*/
class WavefrontObjFile
{
public:
WavefrontObjFile() {}
Result load (const String& objFileContent)
{
shapes.clear();
return parseObjFile (StringArray::fromLines (objFileContent));
}
Result load (const File& file)
{
sourceFile = file;
return load (file.loadFileAsString());
}
//==============================================================================
typedef juce::uint32 Index;
struct Vertex { float x, y, z; };
struct TextureCoord { float x, y; };
struct Mesh
{
Array<Vertex> vertices, normals;
Array<TextureCoord> textureCoords;
Array<Index> indices;
};
struct Material
{
Material() noexcept
{
zerostruct (ambient);
zerostruct (diffuse);
zerostruct (specular);
zerostruct (transmittance);
zerostruct (emission);
}
String name;
Vertex ambient, diffuse, specular, transmittance, emission;
float shininess = 1.0f, refractiveIndex = 0.0f;
String ambientTextureName, diffuseTextureName,
specularTextureName, normalTextureName;
StringPairArray parameters;
};
struct Shape
{
String name;
Mesh mesh;
Material material;
};
OwnedArray<Shape> shapes;
private:
//==============================================================================
File sourceFile;
struct TripleIndex
{
TripleIndex() noexcept {}
bool operator< (const TripleIndex& other) const noexcept
{
if (this == &other)
return false;
if (vertexIndex != other.vertexIndex)
return vertexIndex < other.vertexIndex;
if (textureIndex != other.textureIndex)
return textureIndex < other.textureIndex;
return normalIndex < other.normalIndex;
}
int vertexIndex = -1, textureIndex = -1, normalIndex = -1;
};
struct IndexMap
{
std::map<TripleIndex, Index> map;
Index getIndexFor (TripleIndex i, Mesh& newMesh, const Mesh& srcMesh)
{
const std::map<TripleIndex, Index>::iterator it (map.find (i));
if (it != map.end())
return it->second;
auto index = (Index) newMesh.vertices.size();
if (isPositiveAndBelow (i.vertexIndex, srcMesh.vertices.size()))
newMesh.vertices.add (srcMesh.vertices.getReference (i.vertexIndex));
if (isPositiveAndBelow (i.normalIndex, srcMesh.normals.size()))
newMesh.normals.add (srcMesh.normals.getReference (i.normalIndex));
if (isPositiveAndBelow (i.textureIndex, srcMesh.textureCoords.size()))
newMesh.textureCoords.add (srcMesh.textureCoords.getReference (i.textureIndex));
map[i] = index;
return index;
}
};
static float parseFloat (String::CharPointerType& t)
{
t.incrementToEndOfWhitespace();
return (float) CharacterFunctions::readDoubleValue (t);
}
static Vertex parseVertex (String::CharPointerType t)
{
Vertex v;
v.x = parseFloat (t);
v.y = parseFloat (t);
v.z = parseFloat (t);
return v;
}
static TextureCoord parseTextureCoord (String::CharPointerType t)
{
TextureCoord tc;
tc.x = parseFloat (t);
tc.y = parseFloat (t);
return tc;
}
static bool matchToken (String::CharPointerType& t, const char* token)
{
auto len = (int) strlen (token);
if (CharacterFunctions::compareUpTo (CharPointer_ASCII (token), t, len) == 0)
{
auto end = t + len;
if (end.isEmpty() || end.isWhitespace())
{
t = end.findEndOfWhitespace();
return true;
}
}
return false;
}
struct Face
{
Face (String::CharPointerType t)
{
while (! t.isEmpty())
triples.add (parseTriple (t));
}
Array<TripleIndex> triples;
void addIndices (Mesh& newMesh, const Mesh& srcMesh, IndexMap& indexMap)
{
TripleIndex i0 (triples[0]), i1, i2 (triples[1]);
for (auto i = 2; i < triples.size(); ++i)
{
i1 = i2;
i2 = triples.getReference (i);
newMesh.indices.add (indexMap.getIndexFor (i0, newMesh, srcMesh));
newMesh.indices.add (indexMap.getIndexFor (i1, newMesh, srcMesh));
newMesh.indices.add (indexMap.getIndexFor (i2, newMesh, srcMesh));
}
}
static TripleIndex parseTriple (String::CharPointerType& t)
{
TripleIndex i;
t.incrementToEndOfWhitespace();
i.vertexIndex = t.getIntValue32() - 1;
t = findEndOfFaceToken (t);
if (t.isEmpty() || t.getAndAdvance() != '/')
return i;
if (*t == '/')
{
++t;
}
else
{
i.textureIndex = t.getIntValue32() - 1;
t = findEndOfFaceToken (t);
if (t.isEmpty() || t.getAndAdvance() != '/')
return i;
}
i.normalIndex = t.getIntValue32() - 1;
t = findEndOfFaceToken (t);
return i;
}
static String::CharPointerType findEndOfFaceToken (String::CharPointerType t) noexcept
{
return CharacterFunctions::findEndOfToken (t, CharPointer_ASCII ("/ \t"), String().getCharPointer());
}
};
static Shape* parseFaceGroup (const Mesh& srcMesh,
Array<Face>& faceGroup,
const Material& material,
const String& name)
{
if (faceGroup.size() == 0)
return nullptr;
std::unique_ptr<Shape> shape (new Shape());
shape->name = name;
shape->material = material;
IndexMap indexMap;
for (auto& f : faceGroup)
f.addIndices (shape->mesh, srcMesh, indexMap);
return shape.release();
}
Result parseObjFile (const StringArray& lines)
{
Mesh mesh;
Array<Face> faceGroup;
Array<Material> knownMaterials;
Material lastMaterial;
String lastName;
for (auto lineNum = 0; lineNum < lines.size(); ++lineNum)
{
auto l = lines[lineNum].getCharPointer().findEndOfWhitespace();
if (matchToken (l, "v")) { mesh.vertices .add (parseVertex (l)); continue; }
if (matchToken (l, "vn")) { mesh.normals .add (parseVertex (l)); continue; }
if (matchToken (l, "vt")) { mesh.textureCoords.add (parseTextureCoord (l)); continue; }
if (matchToken (l, "f")) { faceGroup .add (Face (l)); continue; }
if (matchToken (l, "usemtl"))
{
auto name = String (l).trim();
for (auto i = knownMaterials.size(); --i >= 0;)
{
if (knownMaterials.getReference (i).name == name)
{
lastMaterial = knownMaterials.getReference (i);
break;
}
}
continue;
}
if (matchToken (l, "mtllib"))
{
auto r = parseMaterial (knownMaterials, String (l).trim());
continue;
}
if (matchToken (l, "g") || matchToken (l, "o"))
{
if (auto* shape = parseFaceGroup (mesh, faceGroup, lastMaterial, lastName))
shapes.add (shape);
faceGroup.clear();
lastName = StringArray::fromTokens (l, " \t", "")[0];
continue;
}
}
if (auto* shape = parseFaceGroup (mesh, faceGroup, lastMaterial, lastName))
shapes.add (shape);
return Result::ok();
}
Result parseMaterial (Array<Material>& materials, const String& filename)
{
jassert (sourceFile.exists());
auto f = sourceFile.getSiblingFile (filename);
if (! f.exists())
return Result::fail ("Cannot open file: " + filename);
auto lines = StringArray::fromLines (f.loadFileAsString());
materials.clear();
Material material;
for (auto line : lines)
{
auto l = line.getCharPointer().findEndOfWhitespace();
if (matchToken (l, "newmtl")) { materials.add (material); material.name = String (l).trim(); continue; }
if (matchToken (l, "Ka")) { material.ambient = parseVertex (l); continue; }
if (matchToken (l, "Kd")) { material.diffuse = parseVertex (l); continue; }
if (matchToken (l, "Ks")) { material.specular = parseVertex (l); continue; }
if (matchToken (l, "Kt")) { material.transmittance = parseVertex (l); continue; }
if (matchToken (l, "Ke")) { material.emission = parseVertex (l); continue; }
if (matchToken (l, "Ni")) { material.refractiveIndex = parseFloat (l); continue; }
if (matchToken (l, "Ns")) { material.shininess = parseFloat (l); continue; }
if (matchToken (l, "map_Ka")) { material.ambientTextureName = String (l).trim(); continue; }
if (matchToken (l, "map_Kd")) { material.diffuseTextureName = String (l).trim(); continue; }
if (matchToken (l, "map_Ks")) { material.specularTextureName = String (l).trim(); continue; }
if (matchToken (l, "map_Ns")) { material.normalTextureName = String (l).trim(); continue; }
auto tokens = StringArray::fromTokens (l, " \t", "");
if (tokens.size() >= 2)
material.parameters.set (tokens[0].trim(), tokens[1].trim());
}
materials.add (material);
return Result::ok();
}
JUCE_DECLARE_NON_COPYABLE_WITH_LEAK_DETECTOR (WavefrontObjFile)
};