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|
// copyright (c) 2001 Lev Povalahev
#include "StdAfx.h"
#include "l3ds.h"
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <math.h>
//using namespace std;
//-------------------------------------------------------
// generic stuff
//-------------------------------------------------------
typedef unsigned long ulong;
#define SEEK_START 1900
#define SEEK_CURSOR 1901
// common chunks
// colors
#define COLOR_F 0x0010
#define COLOR_24 0x0011
#define LIN_COLOR_24 0x0012
#define LIN_COLOR_F 0x0013
// percentage
#define INT_PERCENTAGE 0x0030
#define FLOAT_PERCENTAGE 0x0031
// ambient light
#define AMBIENT_LIGHT 0x2100
#define MAIN3DS 0x4D4D
#define EDIT3DS 0x3D3D // this is the start of the editor config
// keyframer chunk ids
#define KFDATA 0xB000 // the keyframer section
#define KFHDR 0xB00A
#define OBJECT_NODE_TAG 0xB002
#define NODE_HDR 0xB010
#define PIVOT 0xB013
#define POS_TRACK_TAG 0xB020
#define ROT_TRACK_TAG 0xB021
#define SCL_TRACK_TAG 0xB022
// material entries
#define MAT_ENTRY 0xAFFF
#define MAT_NAME 0xA000
#define MAT_AMBIENT 0xA010
#define MAT_DIFFUSE 0xA020
#define MAT_SPECULAR 0xA030
#define MAT_SHININESS 0xA040
#define MAT_SHIN2PCT 0xA041
#define MAT_TRANSPARENCY 0xA050
#define MAT_SHADING 0xA100
#define MAT_TWO_SIDE 0xA081
#define MAT_ADDITIVE 0xA083
#define MAT_WIRE 0xA085
#define MAT_FACEMAP 0xA088
#define MAT_WIRESIZE 0xA087
#define MAT_DECAL 0xA082
#define MAT_TEXMAP 0xA200
#define MAT_MAPNAME 0xA300
#define MAT_MAP_TILING 0xA351
#define MAT_MAP_USCALE 0xA354
#define MAT_MAP_VSCALE 0xA356
#define MAT_MAP_UOFFSET 0xA358
#define MAT_MAP_VOFFSET 0xA35A
#define MAT_MAP_ANG 0xA35C
#define MAT_TEX2MAP 0xA33A
#define MAT_OPACMAP 0xA210
#define MAT_BUMPMAP 0xA230
#define MAT_SPECMAP 0xA204
#define MAT_SHINMAP 0xA33C
#define MAT_REFLMAP 0xA220
#define MAT_ACUBIC 0xA310
#define EDIT_OBJECT 0x4000
#define OBJ_TRIMESH 0x4100
#define OBJ_LIGHT 0x4600
#define OBJ_CAMERA 0x4700
#define LIT_OFF 0x4620
#define LIT_SPOT 0x4610
#define TRI_VERTEXLIST 0x4110
#define TRI_VERTEXOPTIONS 0x4111
#define TRI_FACELIST 0x4120
#define TRI_MAT_GROUP 0x4130
#define TRI_SMOOTH_GROUP 0x4150
#define TRI_FACEMAPPING 0x4140
#define TRI_MATRIX 0x4160
#define SPOTLIGHT 0x4610
//----------------------------------
#define MAX_SHARED_TRIS 100
// the error reporting routine
void ErrorMsg(const char *msg)
{
}
struct LChunk
{
unsigned short id;
uint start;
uint end;
};
struct LTri
{
unsigned short a;
unsigned short b;
unsigned short c;
ulong smoothingGroups;
LVector3 normal;
LVector3 tangent;
LVector3 binormal;
uint materialId;
};
// globals
LColor3 black = {0, 0, 0};
LVector3 zero3 = {0, 0, 0};
LVector4 zero4 = {0, 0, 0, 0};
LMap emptyMap = {0, "", 1, 1, 0, 0, 0};
LVector3 _4to3(const LVector4 &vec)
{
LVector3 t;
t.x = vec.x;
t.y = vec.y;
t.z = vec.z;
return t;
}
LVector3 AddVectors(const LVector3 &a, const LVector3 &b)
{
LVector3 t;
t.x = a.x+b.x;
t.y = a.y+b.y;
t.z = a.z+b.z;
return t;
}
LVector3 SubtractVectors(const LVector3 &a, const LVector3 &b)
{
LVector3 t;
t.x = a.x-b.x;
t.y = a.y-b.y;
t.z = a.z-b.z;
return t;
}
float VectorLength(const LVector3 &vec)
{
return (float)sqrt(vec.x*vec.x + vec.y*vec.y+vec.z*vec.z);
}
LVector3 NormalizeVector(const LVector3 &vec)
{
float a = VectorLength(vec);
if (a == 0)
return vec;
float b = 1/a;
LVector3 v;
v.x = vec.x*b;
v.y = vec.y*b;
v.z = vec.z*b;
return v;
}
LVector3 CrossProduct(const LVector3 &a, const LVector3 &b)
{
LVector3 v;
v.x = a.y*b.z - a.z*b.y;
v.y = a.z*b.x - a.x*b.z;
v.z = a.x*b.y - a.y*b.x;
return v;
}
void LoadIdentityMatrix(LMatrix4 &m)
{
for (int i = 0; i < 4; i++)
for (int j = 0; j < 4; j++)
m.m[i][j] = (i==j) ? 1.0f : 0.0f;
}
LVector4 VectorByMatrix(const LMatrix4 &m, const LVector4 &vec)
{
LVector4 res;
res.x = m.m[0][0]*vec.x + m.m[1][0]*vec.y + m.m[2][0]*vec.z + m.m[3][0]*vec.w;
res.y = m.m[0][1]*vec.x + m.m[1][1]*vec.y + m.m[2][1]*vec.z + m.m[3][1]*vec.w;
res.z = m.m[0][2]*vec.x + m.m[1][2]*vec.y + m.m[2][2]*vec.z + m.m[3][2]*vec.w;
res.w = m.m[0][3]*vec.x + m.m[1][3]*vec.y + m.m[2][3]*vec.z + m.m[3][3]*vec.w;
if (res.w != 0) {
float b = 1/res.w;
res.x *= b;
res.y *= b;
res.z *= b;
res.w = 1;
}
else {
res.w = 1;
}
return res;
}
void QuatToMatrix(const LVector4 &quat, LMatrix4 &m)
{
}
//-------------------------------------------------------
// LObject implementation
//-------------------------------------------------------
LObject::LObject()
{
m_name = "";//.clear();
}
LObject::~LObject()
{
// nothing here
}
void LObject::SetName(const std::string& value)
{
m_name = value;
}
const std::string& LObject::GetName()
{
return m_name;
}
bool LObject::IsObject(const std::string &name)
{
return (m_name == name);
}
//-------------------------------------------------------
// LMaterial implementation
//-------------------------------------------------------
LMaterial::LMaterial()
: LObject()
{
m_id = 0;
m_texMap1 = emptyMap;
m_texMap2 = emptyMap;
m_opacMap = emptyMap;
m_bumpMap = emptyMap;
m_reflMap = emptyMap;
m_specMap = emptyMap;
m_ambient = black;
m_diffuse = black;
m_specular = black;
m_shading = sGouraud;
m_shininess = 0;
m_transparency = 0;
}
LMaterial::~LMaterial()
{
}
uint LMaterial::GetID()
{
return m_id;
}
LMap& LMaterial::GetTextureMap1()
{
return m_texMap1;
}
LMap& LMaterial::GetTextureMap2()
{
return m_texMap2;
}
LMap& LMaterial::GetOpacityMap()
{
return m_opacMap;
}
LMap& LMaterial::GetSpecularMap()
{
return m_specMap;
}
LMap& LMaterial::GetBumpMap()
{
return m_bumpMap;
}
LMap& LMaterial::GetReflectionMap()
{
return m_reflMap;
}
LColor3 LMaterial::GetAmbientColor()
{
return m_ambient;
}
LColor3 LMaterial::GetDiffuseColor()
{
return m_diffuse;
}
LColor3 LMaterial::GetSpecularColor()
{
return m_specular;
}
float LMaterial::GetShininess()
{
return m_shininess;
}
float LMaterial::GetTransparency()
{
return m_transparency;
}
LShading LMaterial::GetShadingType()
{
return m_shading;
}
void LMaterial::SetID(uint value)
{
m_id = value;
}
void LMaterial::SetAmbientColor(const LColor3 &color)
{
m_ambient = color;
}
void LMaterial::SetDiffuseColor(const LColor3 &color)
{
m_diffuse = color;
}
void LMaterial::SetSpecularColor(const LColor3 &color)
{
m_specular = color;
}
void LMaterial::SetShininess(float value)
{
m_shininess = value;
if (m_shininess < 0)
m_shininess = 0;
if (m_shininess > 1)
m_shininess = 1;
}
void LMaterial::SetTransparency(float value)
{
m_transparency = value;
if (m_transparency < 0)
m_transparency = 0;
if (m_transparency > 1)
m_transparency = 1;
}
void LMaterial::SetShadingType(LShading shading)
{
m_shading = shading;
}
//-------------------------------------------------------
// LMesh implementation
//-------------------------------------------------------
LMesh::LMesh()
: LObject()
{
Clear();
}
LMesh::~LMesh()
{
Clear();
}
void LMesh::Clear()
{
m_vertices.clear();
m_normals.clear();
m_uv.clear();
m_tangents.clear();
m_binormals.clear();
m_triangles.clear();
m_tris.clear();
m_materials.clear();
LoadIdentityMatrix(m_matrix);
}
uint LMesh::GetVertexCount()
{
return m_vertices.size();
}
void LMesh::SetVertexArraySize(uint value)
{
m_vertices.resize(value);
m_normals.resize(value);
m_uv.resize(value);
m_tangents.resize(value);
m_binormals.resize(value);
}
uint LMesh::GetTriangleCount()
{
return m_triangles.size();
}
void LMesh::SetTriangleArraySize(uint value)
{
m_triangles.resize(value);
m_tris.resize(value);
}
const LVector4& LMesh::GetVertex(uint index)
{
return m_vertices[index];
}
const LVector3& LMesh::GetNormal(uint index)
{
return m_normals[index];
}
const LVector2& LMesh::GetUV(uint index)
{
return m_uv[index];
}
const LVector3& LMesh::GetTangent(uint index)
{
return m_tangents[index];
}
const LVector3& LMesh::GetBinormal(uint index)
{
return m_binormals[index];
}
void LMesh::SetVertex(const LVector4 &vec, uint index)
{
if (index >= m_vertices.size())
return;
m_vertices[index] = vec;
}
void LMesh::SetNormal(const LVector3 &vec, uint index)
{
if (index >= m_vertices.size())
return;
m_normals[index] = vec;
}
void LMesh::SetUV(const LVector2 &vec, uint index)
{
if (index >= m_vertices.size())
return;
m_uv[index] = vec;
}
void LMesh::SetTangent(const LVector3 &vec, uint index)
{
if (index >= m_vertices.size())
return;
m_tangents[index] = vec;
}
void LMesh::SetBinormal(const LVector3 &vec, uint index)
{
if (index >= m_vertices.size())
return;
m_binormals[index] = vec;
}
const LTriangle& LMesh::GetTriangle(uint index)
{
return m_triangles[index];
}
LTriangle2 LMesh::GetTriangle2(uint index)
{
LTriangle2 f;
LTriangle t = GetTriangle(index);
f.vertices[0] = GetVertex(t.a);
f.vertices[1] = GetVertex(t.b);
f.vertices[2] = GetVertex(t.c);
f.vertexNormals[0] = GetNormal(t.a);
f.vertexNormals[1] = GetNormal(t.b);
f.vertexNormals[2] = GetNormal(t.c);
f.textureCoords[0] = GetUV(t.a);
f.textureCoords[1] = GetUV(t.b);
f.textureCoords[2] = GetUV(t.c);
LVector3 a, b;
a = SubtractVectors(_4to3(f.vertices[1]), _4to3(f.vertices[0]));
b = SubtractVectors(_4to3(f.vertices[1]), _4to3(f.vertices[2]));
f.faceNormal = CrossProduct(b, a);
f.faceNormal = NormalizeVector(f.faceNormal);
f.materialId = m_tris[index].materialId;
return f;
}
LMatrix4 LMesh::GetMatrix()
{
return m_matrix;
}
void LMesh::SetMatrix(LMatrix4 m)
{
m_matrix = m;
}
void LMesh::TransformVertices()
{
for (uint i=0; i<m_vertices.size(); i++)
m_vertices[i] = VectorByMatrix(m_matrix, m_vertices[i]);
LoadIdentityMatrix(m_matrix);
}
void LMesh::CalcNormals(bool useSmoothingGroups)
{
uint i;
// first calculate the face normals
for (i=0; i<m_triangles.size(); i++)
{
LVector3 a, b;
a = SubtractVectors(_4to3(m_vertices[m_tris[i].b]), _4to3(m_vertices[m_tris[i].a]));
b = SubtractVectors(_4to3(m_vertices[m_tris[i].b]), _4to3(m_vertices[m_tris[i].c]));
m_tris[i].normal = NormalizeVector(CrossProduct(b, a));
}
std::vector< std::vector<int> > array;
array.resize(m_vertices.size());
for (i=0; i<m_triangles.size(); i++)
{
uint k = m_tris[i].a;
array[k].push_back(i);
k = m_tris[i].b;
array[k].push_back(i);
k = m_tris[i].c;
array[k].push_back(i);
}
LVector3 temp;
if (!useSmoothingGroups)
{
// now calculate the normals without using smoothing groups
for (i=0; i<m_vertices.size(); i++)
{
temp = zero3;
int t = array[i].size();
for (int k=0; k<t; k++)
{
temp.x += m_tris[array[i][k]].normal.x;
temp.y += m_tris[array[i][k]].normal.y;
temp.z += m_tris[array[i][k]].normal.z;
}
m_normals[i] = NormalizeVector(temp);
}
}
else
{
// now calculate the normals _USING_ smoothing groups
// I'm assuming a triangle can only belong to one smoothing group at a time!
std::vector<ulong> smGroups;
std::vector< std::vector <uint> > smList;
uint loop_size = m_vertices.size();
for (i=0; i<loop_size; i++)
{
int t = array[i].size();
if (t == 0)
continue;
smGroups.clear();
smList.clear();
smGroups.push_back(m_tris[array[i][0]].smoothingGroups);
smList.resize(smGroups.size());
smList[smGroups.size()-1].push_back(array[i][0]);
// first build a list of smoothing groups for the vertex
for (int k=0; k<t; k++)
{
bool found = false;
for (uint j=0; j<smGroups.size(); j++)
{
if (m_tris[array[i][k]].smoothingGroups == smGroups[j])
{
smList[j].push_back(array[i][k]);
found = true;
}
}
if (!found)
{
smGroups.push_back(m_tris[array[i][k]].smoothingGroups);
smList.resize(smGroups.size());
smList[smGroups.size()-1].push_back(array[i][k]);
}
}
// now we have the list of faces for the vertex sorted by smoothing groups
// now duplicate the vertices so that there's only one smoothing group "per vertex"
if (smGroups.size() > 1)
for (uint j=1; j< smGroups.size(); j++)
{
m_vertices.push_back(m_vertices[i]);
m_normals.push_back(m_normals[i]);
m_uv.push_back(m_uv[i]);
m_tangents.push_back(m_tangents[i]);
m_binormals.push_back(m_binormals[i]);
uint t = m_vertices.size()-1;
for (uint h=0; h<smList[j].size(); h++)
{
if (m_tris[smList[j][h]].a == i)
m_tris[smList[j][h]].a = t;
if (m_tris[smList[j][h]].b == i)
m_tris[smList[j][h]].b = t;
if (m_tris[smList[j][h]].c == i)
m_tris[smList[j][h]].c = t;
}
}
}
// now rebuild a face list for each vertex, since the old one is invalidated
for (i=0; i<array.size(); i++)
array[i].clear();
array.clear();
array.resize(m_vertices.size());
for (i=0; i<m_triangles.size(); i++)
{
uint k = m_tris[i].a;
array[k].push_back(i);
k = m_tris[i].b;
array[k].push_back(i);
k = m_tris[i].c;
array[k].push_back(i);
}
// now compute the normals
for (i=0; i<m_vertices.size(); i++)
{
temp = zero3;
int t = array[i].size();
for (int k=0; k<t; k++)
{
temp.x += m_tris[array[i][k]].normal.x;
temp.y += m_tris[array[i][k]].normal.y;
temp.z += m_tris[array[i][k]].normal.z;
}
m_normals[i] = NormalizeVector(temp);
}
}
// copy m_tris to m_triangles
for (i=0; i<m_triangles.size(); i++)
{
m_triangles[i].a = m_tris[i].a;
m_triangles[i].b = m_tris[i].b;
m_triangles[i].c = m_tris[i].c;
}
}
void LMesh::CalcTextureSpace()
{
// a understandable description of how to do that can be found here:
// http://members.rogers.com/deseric/tangentspace.htm
// first calculate the tangent for each triangle
LVector3 x_vec,
y_vec,
z_vec;
LVector3 v1, v2;
for (uint i=0; i<m_triangles.size(); i++)
{
v1.x = m_vertices[m_tris[i].b].x - m_vertices[m_tris[i].a].x;
v1.y = m_uv[m_tris[i].b].x - m_uv[m_tris[i].a].x;
v1.z = m_uv[m_tris[i].b].y - m_uv[m_tris[i].a].y;
v2.x = m_vertices[m_tris[i].c].x - m_vertices[m_tris[i].a].x;
v2.y = m_uv[m_tris[i].c].x - m_uv[m_tris[i].a].x;
v2.z = m_uv[m_tris[i].c].y - m_uv[m_tris[i].a].y;
x_vec = CrossProduct(v1, v2);
v1.x = m_vertices[m_tris[i].b].y - m_vertices[m_tris[i].a].y;
v1.y = m_uv[m_tris[i].b].x - m_uv[m_tris[i].a].x;
v1.z = m_uv[m_tris[i].b].y - m_uv[m_tris[i].a].y;
v2.x = m_vertices[m_tris[i].c].y - m_vertices[m_tris[i].a].y;
v2.y = m_uv[m_tris[i].c].x - m_uv[m_tris[i].a].x;
v2.z = m_uv[m_tris[i].c].y - m_uv[m_tris[i].a].y;
y_vec = CrossProduct(v1, v2);
v1.x = m_vertices[m_tris[i].b].z - m_vertices[m_tris[i].a].z;
v1.y = m_uv[m_tris[i].b].x - m_uv[m_tris[i].a].x;
v1.z = m_uv[m_tris[i].b].y - m_uv[m_tris[i].a].y;
v2.x = m_vertices[m_tris[i].c].z - m_vertices[m_tris[i].a].z;
v2.y = m_uv[m_tris[i].c].x - m_uv[m_tris[i].a].x;
v2.z = m_uv[m_tris[i].c].y - m_uv[m_tris[i].a].y;
z_vec = CrossProduct(v1, v2);
m_tris[i].tangent.x = -(x_vec.y/x_vec.x);
m_tris[i].tangent.y = -(y_vec.y/y_vec.x);
m_tris[i].tangent.z = -(z_vec.y/z_vec.x);
m_tris[i].binormal.x = -(x_vec.z/x_vec.x);
m_tris[i].binormal.y = -(y_vec.z/y_vec.x);
m_tris[i].binormal.z = -(z_vec.z/z_vec.x);
}
// now for each vertex build a list of face that share this vertex
std::vector< std::vector<int> > array;
array.resize(m_vertices.size());
for (int i=0; i<(int)m_triangles.size(); i++)
{
uint k = m_tris[i].a;
array[k].push_back(i);
k = m_tris[i].b;
array[k].push_back(i);
k = m_tris[i].c;
array[k].push_back(i);
}
// now average the tangents and compute the binormals as (tangent X normal)
for (int i=0; i<(int)m_vertices.size(); i++)
{
v1 = zero3;
v2 = zero3;
int t = array[i].size();
for (int k=0; k<t; k++)
{
v1.x += m_tris[array[i][k]].tangent.x;
v1.y += m_tris[array[i][k]].tangent.y;
v1.z += m_tris[array[i][k]].tangent.z;
v2.x += m_tris[array[i][k]].binormal.x;
v2.y += m_tris[array[i][k]].binormal.y;
v2.z += m_tris[array[i][k]].binormal.z;
}
m_tangents[i] = NormalizeVector(v1);
//m_binormals[i] = NormalizeVector(v2);
m_binormals[i] = NormalizeVector(CrossProduct(m_tangents[i], m_normals[i]));
}
}
void LMesh::Optimize(LOptimizationLevel value)
{
switch (value)
{
case oNone:
TransformVertices();
break;
case oSimple:
TransformVertices();
CalcNormals(false);
break;
case oFull:
TransformVertices();
CalcNormals(true);
CalcTextureSpace();
break;
}
}
void LMesh::SetTri(const LTri &tri, uint index)
{
if (index >= m_triangles.size())
return;
m_tris[index] = tri;
}
LTri& LMesh::GetTri(uint index)
{
return m_tris[index];
}
uint LMesh::GetMaterial(uint index)
{
return m_materials[index];
}
uint LMesh::AddMaterial(uint id)
{
m_materials.push_back(id);
return m_materials.size()-1;
}
uint LMesh::GetMaterialCount()
{
return m_materials.size();
}
//-------------------------------------------------------
// LLight implementation
//-------------------------------------------------------
LLight::LLight()
: LObject()
{
Clear();
}
LLight::~LLight()
{
}
void LLight::Clear()
{
m_pos.x = m_pos.y = m_pos.z = 0.0f;
m_color.r = m_color.g = m_color.b = 0.0f;
m_spotlight = false;
}
void LLight::SetPosition(LVector3 vec)
{
m_pos = vec;
}
LVector3 LLight::GetPosition()
{
return m_pos;
}
void LLight::SetColor(LColor3 color)
{
m_color = color;
}
LColor3 LLight::GetColor()
{
return m_color;
}
void LLight::SetSpotlight(bool value)
{
m_spotlight = value;
}
bool LLight::GetSpotlight()
{
return m_spotlight;
}
void LLight::SetTarget(LVector3 target)
{
m_target = target;
}
LVector3 LLight::GetTarget()
{
return m_target;
}
void LLight::SetHotspot(float value)
{
m_hotspot = value;
}
float LLight::GetHotspot()
{
return m_hotspot;
}
void LLight::SetFalloff(float value)
{
m_falloff = value;
}
float LLight::GetFalloff()
{
return m_falloff;
}
//-------------------------------------------------------
// LImporter implementation
//-------------------------------------------------------
LImporter::LImporter()
{
Clear();
}
LImporter::~LImporter()
{
Clear();
}
uint LImporter::GetMeshCount()
{
return m_meshes.size();
}
uint LImporter::GetLightCount()
{
return m_lights.size();
}
uint LImporter::GetMaterialCount()
{
return m_materials.size();
}
LMesh& LImporter::GetMesh(uint index)
{
return m_meshes[index];
}
LLight& LImporter::GetLight(uint index)
{
return m_lights[index];
}
LMaterial& LImporter::GetMaterial(uint index)
{
return m_materials[index];
}
LMaterial* LImporter::FindMaterial(const std::string& name)
{
for (uint i=0; i<m_materials.size(); i++)
if (m_materials[i].IsObject(name))
return &m_materials[i];
return 0;
}
LMesh* LImporter::FindMesh(const std::string& name)
{
for (uint i=0; i<m_meshes.size(); i++)
if (m_meshes[i].IsObject(name))
return &m_meshes[i];
return 0;
}
LLight* LImporter::FindLight(const std::string& name)
{
for (uint i=0; i<m_lights.size(); i++)
if (m_lights[i].IsObject(name))
return &m_lights[i];
return 0;
}
void LImporter::Clear()
{
m_meshes.clear();
m_lights.clear();
m_materials.clear();
m_optLevel = oFull;
}
void LImporter::SetOptimizationLevel(LOptimizationLevel value)
{
m_optLevel = value;
}
LOptimizationLevel LImporter::GetOptimizationLevel()
{
return m_optLevel;
}
//-------------------------------------------------------
// L3DS implementation
//-------------------------------------------------------
L3DS::L3DS()
: LImporter()
{
m_buffer = 0;
m_bufferSize = 0;
m_pos = 0;
m_eof = false;
}
L3DS::L3DS(const char *filename)
: LImporter()
{
m_buffer = 0;
m_bufferSize = 0;
m_pos = 0;
m_eof = false;
LoadFile(filename);
}
L3DS::~L3DS()
{
if (m_bufferSize > 0)
free(m_buffer);
}
bool L3DS::LoadFile(const char *filename)
{
FILE *f;
f = fopen(filename, "rb");
if (f == 0)
{
ErrorMsg("L3DS::LoadFile - cannot open file");
return false;
}
fseek(f, 0, SEEK_END);
m_bufferSize = ftell(f);
fseek(f, 0, SEEK_SET);
m_buffer = (unsigned char*) calloc(m_bufferSize, 1);
if (m_buffer == 0)
{
ErrorMsg("L3DS::LoadFile - not enough memory (malloc failed)");
return false;
}
if (fread(m_buffer, m_bufferSize, 1, f) != 1)
{
fclose(f);
free(m_buffer);
m_bufferSize = 0;
ErrorMsg("L3DS::LoadFile - error reading from file");
return false;
}
fclose(f);
Clear();
bool res = Read3DS();
free(m_buffer);
m_buffer = 0;
m_bufferSize = 0;
return res;
}
short L3DS::ReadShort()
{
if ((m_buffer!=0) && (m_bufferSize != 0) && ((m_pos+2)<m_bufferSize))
{
short *w = (short*)(m_buffer+m_pos);
short s = *w;//(short)*(m_buffer+m_pos);
m_pos += 2;
return s;
}
m_eof = true;
return 0;
}
int L3DS::ReadInt()
{
if ((m_buffer!=0) && (m_bufferSize != 0) && ((m_pos+4)<m_bufferSize))
{
int *w = (int*)(m_buffer+m_pos);
int s = *w;//(int)*(m_buffer+m_pos);
m_pos += 4;
return s;
}
m_eof = true;
return 0;
}
char L3DS::ReadChar()
{
if ((m_buffer!=0) && (m_bufferSize != 0) && ((m_pos+1)<m_bufferSize))
{
char s = (char)*(m_buffer+m_pos);
m_pos += 1;
return s;
}
m_eof = true;
return 0;
}
float L3DS::ReadFloat()
{
if ((m_buffer!=0) && (m_bufferSize != 0) && ((m_pos+4)<m_bufferSize))
{
float *w = (float*)(m_buffer+m_pos);
float s = *w;//(float)*(m_buffer+m_pos);
m_pos += 4;
return s;
}
m_eof = true;
return 0.0;
}
byte L3DS::ReadByte()
{
if ((m_buffer!=0) && (m_bufferSize != 0) && ((m_pos+1)<m_bufferSize))
{
byte s = (byte)*(m_buffer+m_pos);
m_pos += 1;
return s;
}
m_eof = true;
return 0;
}
int L3DS::ReadASCIIZ(char *buf, int max_count)
{
int count;
if ((m_buffer==0) || (m_bufferSize == 0) || (m_pos>=m_bufferSize))
{
count = 0;
m_eof = true;
return count;
}
count = 0;
char c = ReadChar();
while ((c!=0) && (count<max_count-1))
{
buf[count] = c;
count ++;
c = ReadChar();
}
buf[count] = 0;
return count;
}
void L3DS::Seek(int offset, int origin)
{
if (origin == SEEK_START)
m_pos = offset;
if (origin == SEEK_CURSOR)
m_pos += offset;
if (m_pos >= m_bufferSize)
m_pos = m_bufferSize-1;
m_eof = false;
}
uint L3DS::Pos()
{
return m_pos;
}
LChunk L3DS::ReadChunk()
{
LChunk chunk;
chunk.id = ReadShort();
int a = ReadInt();
chunk.start = Pos();
chunk.end = chunk.start+a-6;
return chunk;
}
bool L3DS::FindChunk(LChunk &target, const LChunk &parent)
{
if (Pos() >= parent.end)
return false;
LChunk chunk;
chunk = ReadChunk();
while (( chunk.id != target.id) && (chunk.end <= parent.end))
{
SkipChunk(chunk);
if (chunk.end >= parent.end)
break;
chunk = ReadChunk();
}
if (chunk.id == target.id)
{
target.start = chunk.start;
target.end = chunk.end;
return true;
}
return false;
}
void L3DS::SkipChunk(const LChunk &chunk)
{
Seek(chunk.end, SEEK_START);
}
void L3DS::GotoChunk(const LChunk &chunk)
{
Seek(chunk.start, SEEK_START);
}
LColor3 L3DS::ReadColor(const LChunk &chunk)
{
LColor3 col = black;
GotoChunk(chunk);
switch (chunk.id)
{
case COLOR_F:
col.r = ReadFloat();
col.g = ReadFloat();
col.b = ReadFloat();
break;
case COLOR_24:
col.r = ReadByte()/255.0f;
col.g = ReadByte()/255.0f;
col.b = ReadByte()/255.0f;
break;
case LIN_COLOR_F:
col.r = ReadFloat();
col.g = ReadFloat();
col.b = ReadFloat();
break;
case LIN_COLOR_24:
col.r = ReadByte()/255.0f;
col.g = ReadByte()/255.0f;
col.b = ReadByte()/255.0f;
break;
default:
ErrorMsg("L3DS::ReadColor - error this is not a color chunk");
}
return col;
}
float L3DS::ReadPercentage(const LChunk &chunk)
{
GotoChunk(chunk);
switch (chunk.id)
{
case INT_PERCENTAGE:
return (ReadShort()/100.0f);
case FLOAT_PERCENTAGE:
return ReadFloat();
}
ErrorMsg("L3DS::ReadPercentage - error, the chunk is not a percentage chunk");
return 0;
}
bool L3DS::Read3DS()
{
LChunk mainchunk;
LChunk edit;
edit.id = EDIT3DS;
mainchunk = ReadChunk();
if (mainchunk.id != MAIN3DS)
{
ErrorMsg("L3DS::Read3DS - wrong file format");
return false;
}
if (!FindChunk(edit, mainchunk))
return false;
LChunk obj;
LChunk ml;
GotoChunk(edit);
obj.id = MAT_ENTRY;
while (FindChunk(obj, edit))
{
ReadMaterial(obj);
SkipChunk(obj);
}
GotoChunk(edit);
obj.id = EDIT_OBJECT;
{
while (FindChunk(obj, edit))
{
ReadASCIIZ(m_objName, 99);
ml = ReadChunk();
if (ml.id == OBJ_TRIMESH)
ReadMesh(ml);
if (ml.id == OBJ_LIGHT)
ReadLight(ml);
SkipChunk(obj);
}
}
// read the keyframer data here to find out correct object orientation
LChunk keyframer;
keyframer.id = KFDATA;
LChunk objtrack;
objtrack.id = OBJECT_NODE_TAG;
GotoChunk(mainchunk);
if (FindChunk(keyframer, mainchunk))
{ // keyframer chunk is present
GotoChunk(keyframer);
while (FindChunk(objtrack, keyframer))
{
ReadKeyframeData(objtrack);
SkipChunk(objtrack);
}
}
for (uint i=0; i<m_meshes.size(); i++) {
m_meshes[i].Optimize(m_optLevel);
}
m_pos = 0;
strcpy(m_objName, "");
return true;
}
void L3DS::ReadLight(const LChunk &parent)
{
float t;
LVector3 v;
LLight light;
light.SetName(m_objName);
GotoChunk(parent);
LChunk chunk = ReadChunk();
if (chunk.id == OBJ_LIGHT)
{
v.x = ReadFloat();
v.y = ReadFloat();
v.z = ReadFloat();
if (chunk.end < parent.end)
chunk = ReadChunk();
while (chunk.end <= parent.end)
{
switch (chunk.id)
{
case COLOR_24:
case COLOR_F:
case LIN_COLOR_F:
case LIN_COLOR_24:
light.SetColor(ReadColor(chunk));
break;
case SPOTLIGHT:
v.x = ReadFloat();
v.y = ReadFloat();
v.z = ReadFloat();
light.SetTarget(v);
t = ReadFloat();
light.SetHotspot(t);
t = ReadFloat();
light.SetFalloff(t);
break;
default:
break;
}
SkipChunk(chunk);
if (chunk.end >= parent.end)
break;
chunk = ReadChunk();
}
}
m_lights.push_back(light);
}
void L3DS::ReadMesh(const LChunk &parent)
{
unsigned short count, i;
LVector4 p;
LMatrix4 m;
LVector2 t;
p.w = 1.0f;
LMesh mesh;
mesh.SetName(m_objName);
GotoChunk(parent);
LChunk chunk = ReadChunk();
while (chunk.end <= parent.end)
{
switch (chunk.id)
{
case TRI_VERTEXLIST:
count = ReadShort();
mesh.SetVertexArraySize(count);
for (i=0; i < count; i++)
{
p.x = ReadFloat();
p.y = ReadFloat();
p.z = ReadFloat();
mesh.SetVertex(p, i);
}
break;
case TRI_FACEMAPPING:
count = ReadShort();
if (mesh.GetVertexCount() == 0)
mesh.SetVertexArraySize(count);
for (i=0; i < count; i++)
{
t.x = ReadFloat();
t.y = ReadFloat();
mesh.SetUV(t, i);
}
break;
case TRI_FACELIST:
ReadFaceList(chunk, mesh);
break;
case TRI_MATRIX:
{
for (int i = 0; i < 4; i++)
for (int j = 0; j < 3; j++)
m.m[i][j] = ReadFloat();
m.m[0][3] = 0.0f;
m.m[1][3] = 0.0f;
m.m[2][3] = 0.0f;
m.m[3][3] = 1.0f;
mesh.SetMatrix(m);
}
break;
default:
break;
}
SkipChunk(chunk);
if (chunk.end >= parent.end)
break;
chunk = ReadChunk();
}
m_meshes.push_back(mesh);
}
void L3DS::ReadFaceList(const LChunk &chunk, LMesh &mesh)
{
// variables
unsigned short count, t;
uint i;
LTri tri;
LChunk ch;
char str[20];
//uint mat;
// consistency checks
if (chunk.id != TRI_FACELIST)
{
ErrorMsg("L3DS::ReadFaceList - internal error: wrong chunk passed as parameter");
return;
}
GotoChunk(chunk);
tri.smoothingGroups = 1;
// read the number of faces
count = ReadShort();
mesh.SetTriangleArraySize(count);
for (i=0; i<count; i++)
{
tri.a = ReadShort();
tri.b = ReadShort();
tri.c = ReadShort();
ReadShort();
mesh.SetTri(tri, i);
}
// now read the optional chunks
ch = ReadChunk();
while (ch.end <= chunk.end)
{
switch (ch.id)
{
case TRI_MAT_GROUP: {
ReadASCIIZ(str, 20);
int mat_id = FindMaterial(str)->GetID();
mesh.AddMaterial(mat_id);
count = ReadShort();
for (i=0; i<count; i++) {
t = ReadShort();
mesh.GetTri(t).materialId = mat_id;
}
}
break;
case TRI_SMOOTH_GROUP:
for (i=0; i<mesh.GetTriangleCount(); i++)
mesh.GetTri(i).smoothingGroups = (ulong) ReadInt();
break;
}
SkipChunk(ch);
ch = ReadChunk();
}
}
void L3DS::ReadMaterial(const LChunk &parent)
{
// variables
LChunk chunk;
LChunk child;
char str[30];
LMaterial mat;
short sh;
GotoChunk(parent);
chunk = ReadChunk();
while (chunk.end <= parent.end)
{
switch (chunk.id)
{
case MAT_NAME:
ReadASCIIZ(str, 30);
mat.SetName(str);
break;
case MAT_AMBIENT:
child = ReadChunk();
mat.SetAmbientColor(ReadColor(child));
break;
case MAT_DIFFUSE:
child = ReadChunk();
mat.SetDiffuseColor(ReadColor(child));
break;
case MAT_SPECULAR:
child = ReadChunk();
mat.SetSpecularColor(ReadColor(child));
break;
case MAT_SHININESS:
child = ReadChunk();
mat.SetShininess(ReadPercentage(child));
break;
case MAT_TRANSPARENCY:
child = ReadChunk();
mat.SetTransparency(ReadPercentage(child));
break;
case MAT_SHADING:
sh = ReadShort();
switch (sh)
{
case 0:
mat.SetShadingType(sWireframe);
break;
case 1:
mat.SetShadingType(sFlat);
break;
case 2:
mat.SetShadingType(sGouraud);
break;
case 3:
mat.SetShadingType(sPhong);
break;
case 4:
mat.SetShadingType(sMetal);
break;
}
break;
case MAT_WIRE:
mat.SetShadingType(sWireframe);
break;
case MAT_TEXMAP:
ReadMap(chunk, mat.GetTextureMap1());
break;
case MAT_TEX2MAP:
ReadMap(chunk, mat.GetTextureMap2());
break;
case MAT_OPACMAP:
ReadMap(chunk, mat.GetOpacityMap());
break;
case MAT_BUMPMAP:
ReadMap(chunk, mat.GetBumpMap());
break;
case MAT_SPECMAP:
ReadMap(chunk, mat.GetSpecularMap());
break;
case MAT_REFLMAP:
child = ReadChunk();
mat.GetReflectionMap().strength = ReadPercentage(child);
SkipChunk(child);
child = ReadChunk();
if (child.id != MAT_MAPNAME)
{
ErrorMsg("L3DS::ReadMaterial - error, expected chunk not found");
return;
}
ReadASCIIZ(str, 30);
if (strcmp(str, "") == 0)
strcpy(mat.GetReflectionMap().mapName, "auto");
break;
}
SkipChunk(chunk);
chunk = ReadChunk();
}
m_materials.push_back(mat);
m_materials[m_materials.size()-1].SetID(m_materials.size()-1);
}
void L3DS::ReadMap(const LChunk &chunk, LMap& map)
{
LChunk child;
char str[20];
GotoChunk(chunk);
child = ReadChunk();
while (child.end <= chunk.end)
{
switch (child.id)
{
case INT_PERCENTAGE:
map.strength = ReadPercentage(child);
break;
case MAT_MAPNAME:
ReadASCIIZ(str, 20);
strcpy(map.mapName, str);
break;
case MAT_MAP_USCALE:
map.uScale = ReadFloat();
break;
case MAT_MAP_VSCALE:
map.vScale = ReadFloat();
break;
case MAT_MAP_UOFFSET:
map.uOffset = ReadFloat();
break;
case MAT_MAP_VOFFSET:
map.vOffset = ReadFloat();
break;
case MAT_MAP_ANG:
map.angle = ReadFloat();
break;
}
SkipChunk(child);
child = ReadChunk();
}
}
void L3DS::ReadKeyframeData(const LChunk &parent)
{
uint frames = 0;
LChunk node_hdr;
node_hdr.id = NODE_HDR;
char str[20];
LMesh *mesh;
GotoChunk(parent);
if (!FindChunk(node_hdr, parent))
return;
GotoChunk(node_hdr);
ReadASCIIZ(str, 19);
mesh = FindMesh(str);
if (mesh == 0)
return;
GotoChunk(parent);
// read the pivot
LVector3 pivot = zero3;
LChunk pivotchunk;
pivotchunk.id = PIVOT;
if (FindChunk(pivotchunk, parent))
{
GotoChunk(pivotchunk);
pivot.x = ReadFloat();
pivot.y = ReadFloat();
pivot.z = ReadFloat();
}
GotoChunk(parent);
// read frame 0 from the position track
LVector3 pos = zero3;
frames = 0;
LChunk poschunk;
poschunk.id = POS_TRACK_TAG;
if (FindChunk(poschunk, parent))
{
GotoChunk(poschunk);
// read the trackheader structure
ReadShort();
ReadInt();
ReadInt();
frames = ReadInt();
if (frames > 0)
{
ReadKeyheader();
pos.x = ReadFloat();
pos.y = ReadFloat();
pos.z = ReadFloat();
}
}
GotoChunk(parent);
// now read the rotation track
LVector4 rot = zero4;
LChunk rotchunk;
rotchunk.id = ROT_TRACK_TAG;
frames = 0;
if (FindChunk(rotchunk, parent))
{
GotoChunk(rotchunk);
// read the trackheader structure
ReadShort();
ReadInt();
ReadInt();
frames = ReadInt();
if (frames > 0)
{
ReadKeyheader();
rot.x = ReadFloat();
rot.y = ReadFloat();
rot.z = ReadFloat();
rot.w = ReadFloat();
}
}
GotoChunk(parent);
// now read the scaling chunk
LVector3 scale;
scale.x = 1;
scale.y = 1;
scale.z = 1;
LChunk scalechunk;
scalechunk.id = SCL_TRACK_TAG;
frames = 0;
if (FindChunk(scalechunk, parent))
{
GotoChunk(scalechunk);
// read the trackheader structure
ReadShort();
ReadInt();
ReadInt();
frames = ReadInt();
if (frames > 0)
{
ReadKeyheader();
scale.x = ReadFloat();
scale.y = ReadFloat();
scale.z = ReadFloat();
}
}
GotoChunk(parent);
}
long L3DS::ReadKeyheader()
{
long frame;
frame = ReadInt();
short opts = ReadShort();
if (opts & 32768) // 32768 is 1000000000000000 binary
{ // tension is present
ReadFloat();
}
if (opts & 16384) // 16384 is 0100000000000000 binary
{ // continuity is present
ReadFloat();
}
if (opts & 8192)
{ // bias info present
ReadFloat();
}
if (opts & 4096)
{ // "ease to" present
ReadFloat();
}
if (opts & 2048)
{ // "ease from" present
ReadFloat();
}
return frame;
}
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