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source: GTP/trunk/Lib/Vis/Preprocessing/src/UnigraphicsParser.cpp @ 2176

Revision 2176, 5.5 KB checked in by mattausch, 17 years ago (diff)
removed using namespace std from .h

Line
1	#include <stdlib.h>
2	#include <iostream>
3	#include <list>
4	#include <map>
5
6	#include "Vector3.h"
7	#include "Mesh.h"
8	#include "SceneGraph.h"
9
10	#include "UnigraphicsParser.h"
11	#include "Material.h"
12	#include "Environment.h"
13	#include "ResourceManager.h"
14	#include "Triangle3.h"
15	#include "IntersectableWrapper.h"
16	#include "Polygon3.h"
17
18	using namespace std;
19
20	namespace GtpVisibilityPreprocessor {
21
22	#define ROTATE_SCENE 0
23	// HACK
24	static void RotateMesh(Mesh *mesh)
25	{
26	VertexContainer::iterator it, it_end = mesh->mVertices.end();
27
28	const float angle = 30.0f * PI / 180.0f;
29	const Matrix4x4 rot = RotationYMatrix(angle);
30
31	for (it = mesh->mVertices.begin(); it != it_end; ++ it)
32	{
33	(it) = rot (*it);
34	}
35	}
36
37
38	struct ltstr
39	{
40	bool operator()(const string s1, const string s2) const
41	{
42	return s1 < s2;
43	}
44	};
45
46	bool
47	UnigraphicsParser::ParseFile(const string filename,
48	SceneGraphNode *root,
49	const bool loadMeshes,
50	vector<FaceParentInfo> *parents)
51	{
52	map<string, Vector3, ltstr> vht; // hash table for vectors
53	map<string, Vector3, ltstr> cht; // hash table for colors
54
55	FILE *file;
56	char str[80];
57	Face *face;
58
59	float x,y,z;
60	//int i;
61
62	if ((file = fopen(filename.c_str(),"rt")) == NULL)
63	return false;
64
65	int meshGrouping;
66	Environment::GetSingleton()->GetIntValue("Unigraphics.meshGrouping",
67	meshGrouping);
68
69	Mesh *currentMesh = MeshManager::GetSingleton()->CreateResource();
70
71	while(fscanf(file,"%s",str)!=EOF)
72	{
73	switch (str[0])
74	{
75	case 'c':
76	if (strcmp(str,"c_rgb")==0)
77	{
78	cout<<"c";
79	cout.flush();
80	// vertex
81	fscanf(file,"%s",str); // label
82	fscanf(file,"%f %f %f",&x,&y,&z);
83
84	cht[str] = Vector3(x,y,z); // swap the file coordinates
85	}
86	break;
87
88	case 'v': // is it v ?
89	cout<<".";
90	cout.flush();
91	// vertex
92	fscanf(file,"%s",str); // label
93	fscanf(file,"%f %f %f",&x,&y,&z);
94
95	vht[str] = Vector3(x,z,-y); // swap the file coordinates
96	// vptr = new Vector3C(x,y,z); // swap the file coordinates
97	break;
98
99	case 'f':
100	{
101	cout << "+";
102	VertexContainer vertices;
103	VertexIndexContainer vertexIndices;
104
105	// face
106	fscanf(file,"%s",str); // label may be ?
107	if (str[0]!='(')
108	fscanf(file,"%s",str);
109
110	map<string, Vector3, ltstr>::const_iterator c = vht.find(&str[1]);
111
112	if (c == vht.end())
113	{
114	cout<<"error reading file : "<< filename
115	<<" ---missing vertex:"<<str<<endl; exit(1);
116	}
117
118	vertices.push_back((*c).second);
119
120	fscanf(file,"%s",str); // get the vertex label
121
122	while(str[0]!=')')
123	{
124	c = vht.find(str);
125	if (c == vht.end())
126	{
127	cout << "error reading file : " << filename << " -- missing vertex\n";
128	exit(1);
129	}
130
131	vertices.push_back((*c).second);
132	fscanf(file,"%s",str); // get the next vertex label
133	}
134
135	// add vertices to the mesh vertex list
136	int index = (int)currentMesh->mVertices.size();
137
138	for (int i=0; i < (int)vertices.size(); ++ i, ++ index)
139	{
140	currentMesh->mVertices.push_back(vertices[i]);
141	vertexIndices.push_back(index);
142	}
143
144	face = new Face(vertexIndices);
145
146	fscanf(file,"%s",str); // get the next vertex label
147
148	if (str[0]!=';')
149	{
150	c = cht.find(str);
151	if (currentMesh->mMaterial == NULL)
152	{
153	Material *mat = MaterialManager::GetSingleton()->CreateResource();
154	if (c != cht.end())
155	{
156	mat->mDiffuseColor = RgbColor((c).second.x, (c).second.y, (*c).second.z);
157	currentMesh->mMaterial = mat;
158	}
159	else
160	{
161	currentMesh->AssignRandomMaterial();
162	}
163	}
164	}
165
166	currentMesh->AddFace(face);
167
168	if (loadMeshes &&
169	(meshGrouping != 0 && currentMesh->mFaces.size() >= meshGrouping))
170	{
171	if (ROTATE_SCENE)
172	{
173	RotateMesh(currentMesh);
174	}
175
176	currentMesh->Preprocess();
177	// make an instance of this mesh
178	MeshInstance *mi = new MeshInstance(currentMesh);
179	root->mGeometry.push_back(mi);
180	currentMesh = MeshManager::GetSingleton()->CreateResource();
181	}
182	}
183	break;
184	} /* end face */
185
186	// get the rest of the line
187	fgets(str,80,file);
188	}
189
190	if (!currentMesh->mVertices.empty())
191	{
192	if (ROTATE_SCENE)
193	{
194	RotateMesh(currentMesh);
195	}
196
197	if (!loadMeshes)
198	{
199	// hack: just triangulate current mesh
200	FaceContainer::const_iterator fit, fit_begin = currentMesh->mFaces.begin(),
201	fit_end = currentMesh->mFaces.end();
202
203	for (fit = fit_begin; fit != fit_end; ++ fit)
204	{
205	// triangulate the faces
206	Face face = fit;
207	vector<Triangle3> triangles;
208
209	Polygon3 poly(face, currentMesh);
210	poly.Triangulate(triangles);
211
212	vector<Triangle3>::const_iterator tit, tit_end = triangles.end();
213
214	for (tit = triangles.begin(); tit != tit_end; ++ tit)
215	{
216	if ((*tit).CheckValidity())
217	{
218	// create new triangle intersectable
219	TriangleIntersectable ti = new TriangleIntersectable(tit);
220	//cout << "t: " << (*tit) << endl;
221	root->mGeometry.push_back(ti);
222	}
223	else
224	{
225	cout << "error tri:\n" << (*tit) << endl;
226	}
227	}
228	}
229	// not needed anymore
230	MeshManager::GetSingleton()->DestroyEntry(currentMesh->GetId());
231	}
232	else
233	{
234	currentMesh->Preprocess();
235	MeshInstance *mi = new MeshInstance(currentMesh);
236	root->mGeometry.push_back(mi);
237	}
238	}
239
240	fclose(file);
241	return true;
242	}
243
244	}

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