int main(int argc, char **argv) {
Lib3dsFile *file = lib3ds_file_new();
file->frames = 360;
{
Lib3dsMaterial *mat = lib3ds_material_new("c_tex");
lib3ds_file_insert_material(file, mat, -1);
strcpy(mat->texture1_map.name, "cube.tga");
mat->texture1_map.percent = 1.0;
mat = lib3ds_material_new("c_red");
lib3ds_file_insert_material(file, mat, -1);
mat->diffuse[0] = 1.0;
mat->diffuse[1] = 0.0;
mat->diffuse[2] = 0.0;
mat = lib3ds_material_new("c_blue");
lib3ds_file_insert_material(file, mat, -1);
mat->diffuse[0] = 0.0;
mat->diffuse[1] = 0.0;
mat->diffuse[2] = 1.0;
}
{
int i, j;
Lib3dsMesh *mesh = lib3ds_mesh_new("cube");
Lib3dsMeshInstanceNode *inst;
lib3ds_file_insert_mesh(file, mesh, -1);
lib3ds_mesh_resize_vertices(mesh, 8, 1, 0);
for (i = 0; i < 8; ++i) {
lib3ds_vector_copy(mesh->vertices[i], g_vertices[i]);
mesh->texcos[i][0] = g_texcoords[i][0];
mesh->texcos[i][1] = g_texcoords[i][1];
}
lib3ds_mesh_resize_faces(mesh, 12);
for (i = 0; i < 12; ++i) {
for (j = 0; j < 3; ++j) {
mesh->faces[i].index[j] = g_indices[i][j];
}
}
for (i = 0; i < 8; ++i) {
mesh->faces[i].material = 0;
}
for (i = 0; i < 2; ++i) {
mesh->faces[8+i].material = 1;
}
for (i = 0; i < 2; ++i) {
mesh->faces[10+i].material = 2;
}
inst = lib3ds_node_new_mesh_instance(mesh, "01", NULL, NULL, NULL);
lib3ds_file_append_node(file, (Lib3dsNode*)inst, NULL);
}
{
Lib3dsCamera *camera;
Lib3dsCameraNode *n;
Lib3dsTargetNode *t;
int i;
camera = lib3ds_camera_new("camera01");
lib3ds_file_insert_camera(file, camera, -1);
lib3ds_vector_make(camera->position, 0.0, -100, 0.0);
lib3ds_vector_make(camera->target, 0.0, 0.0, 0.0);
n = lib3ds_node_new_camera(camera);
t = lib3ds_node_new_camera_target(camera);
lib3ds_file_append_node(file, (Lib3dsNode*)n, NULL);
lib3ds_file_append_node(file, (Lib3dsNode*)t, NULL);
lib3ds_track_resize(&n->pos_track, 37);
for (i = 0; i <= 36; i++) {
n->pos_track.keys[i].frame = 10 * i;
lib3ds_vector_make(n->pos_track.keys[i].value,
(float)(100.0 * cos(2 * M_PI * i / 36.0)),
(float)(100.0 * sin(2 * M_PI * i / 36.0)),
50.0
);
}
}
if (!lib3ds_file_save(file, "cube.3ds")) {
fprintf(stderr, "ERROR: Saving 3ds file failed!\n");
}
lib3ds_file_free(file);
}
static Lib3dsBool
kfdata_read(Lib3dsFile *file, FILE *f)
{
Lib3dsChunk c;
Lib3dsWord chunk;
if (!lib3ds_chunk_read_start(&c, LIB3DS_KFDATA, f)) {
return(LIB3DS_FALSE);
}
while ((chunk=lib3ds_chunk_read_next(&c, f))!=0) {
switch (chunk) {
case LIB3DS_KFHDR:
{
file->keyf_revision=lib3ds_word_read(f);
if (!lib3ds_string_read(file->name, 12+1, f)) {
return(LIB3DS_FALSE);
}
file->frames=lib3ds_intd_read(f);
}
break;
case LIB3DS_KFSEG:
{
file->segment_from=lib3ds_intd_read(f);
file->segment_to=lib3ds_intd_read(f);
}
break;
case LIB3DS_KFCURTIME:
{
file->current_frame=lib3ds_intd_read(f);
}
break;
case LIB3DS_VIEWPORT_LAYOUT:
case LIB3DS_DEFAULT_VIEW:
{
lib3ds_chunk_read_reset(&c, f);
if (!lib3ds_viewport_read(&file->viewport_keyf, f)) {
return(LIB3DS_FALSE);
}
}
break;
case LIB3DS_AMBIENT_NODE_TAG:
{
Lib3dsNode *node;
node=lib3ds_node_new_ambient();
if (!node) {
return(LIB3DS_FALSE);
}
lib3ds_chunk_read_reset(&c, f);
if (!lib3ds_node_read(node, file, f)) {
return(LIB3DS_FALSE);
}
lib3ds_file_insert_node(file, node);
}
break;
case LIB3DS_OBJECT_NODE_TAG:
{
Lib3dsNode *node;
node=lib3ds_node_new_object();
if (!node) {
return(LIB3DS_FALSE);
}
lib3ds_chunk_read_reset(&c, f);
if (!lib3ds_node_read(node, file, f)) {
return(LIB3DS_FALSE);
}
lib3ds_file_insert_node(file, node);
}
break;
case LIB3DS_CAMERA_NODE_TAG:
{
Lib3dsNode *node;
node=lib3ds_node_new_camera();
if (!node) {
return(LIB3DS_FALSE);
}
lib3ds_chunk_read_reset(&c, f);
if (!lib3ds_node_read(node, file, f)) {
return(LIB3DS_FALSE);
}
lib3ds_file_insert_node(file, node);
}
break;
case LIB3DS_TARGET_NODE_TAG:
{
Lib3dsNode *node;
node=lib3ds_node_new_target();
if (!node) {
return(LIB3DS_FALSE);
}
lib3ds_chunk_read_reset(&c, f);
if (!lib3ds_node_read(node, file, f)) {
return(LIB3DS_FALSE);
}
lib3ds_file_insert_node(file, node);
}
break;
case LIB3DS_LIGHT_NODE_TAG:
case LIB3DS_SPOTLIGHT_NODE_TAG:
{
Lib3dsNode *node;
node=lib3ds_node_new_light();
if (!node) {
return(LIB3DS_FALSE);
}
lib3ds_chunk_read_reset(&c, f);
if (!lib3ds_node_read(node, file, f)) {
return(LIB3DS_FALSE);
}
lib3ds_file_insert_node(file, node);
}
break;
case LIB3DS_L_TARGET_NODE_TAG:
{
Lib3dsNode *node;
node=lib3ds_node_new_spot();
if (!node) {
return(LIB3DS_FALSE);
}
lib3ds_chunk_read_reset(&c, f);
if (!lib3ds_node_read(node, file, f)) {
return(LIB3DS_FALSE);
}
lib3ds_file_insert_node(file, node);
}
break;
default:
lib3ds_chunk_unknown(chunk);
}
}
lib3ds_chunk_read_end(&c, f);
return(LIB3DS_TRUE);
}
// TODO: Build own exporter class
void objectExporter::on_buttonBox_accepted()
{
QString fileName = QFileDialog::getSaveFileName(gloParent, "Save 3ds Object", ".", "3D Object (*.3ds)", 0, 0);
QList<trackHandler*> trackList = gloParent->getTrackList();
trackHandler* curTrack = trackList[ui->trackBox->currentIndex()];
trackMesh* mesh = curTrack->mMesh;
QVector<float> *vertices = new QVector<float>();
QVector<unsigned int> *indices = new QVector<unsigned int>();
QVector<unsigned int> *borders = new QVector<unsigned int>();
Lib3dsFile *file = lib3ds_file_new();
file->frames = 360;
{
Lib3dsMaterial* mat = lib3ds_material_new("coaster");
lib3ds_file_insert_material(file, mat, -1);
mat->diffuse[0] = curTrack->trackColors[0].red()/255.f;
mat->diffuse[1] = curTrack->trackColors[0].green()/255.f;
mat->diffuse[2] = curTrack->trackColors[0].blue()/255.f;
}
{
for(int section = 0; section < curTrack->trackData->lSections.size(); ++section) {
vertices->clear();
indices->clear();
borders->clear();
mesh->build3ds(section, vertices, indices, borders);
float* fvertices = new float[vertices->size()];
for(int i = 0; i < vertices->size()/3; ++i) {
fvertices[3*i+0] = vertices->at(3*i+0);
fvertices[3*i+1] = -vertices->at(3*i+2);
fvertices[3*i+2] = vertices->at(3*i+1);
//exportScreen->doFastExport();
}
for(int subIndex = 0; subIndex < borders->size()-2; subIndex+= 2) {
int fromVIndex = borders->at(subIndex)/3;
int toVIndex = borders->at(subIndex+2)/3;
int fromIIndex = borders->at(subIndex+1)/3;
int toIIndex = borders->at(subIndex+3)/3;
int i, j;
QString name = QString::number(section).append(QString("_").append(QString::number(subIndex/2)));
Lib3dsMesh *mesh = lib3ds_mesh_new(name.toLocal8Bit().data());
Lib3dsMeshInstanceNode *inst;
lib3ds_file_insert_mesh(file, mesh, -1);
lib3ds_mesh_resize_vertices(mesh, toVIndex-fromVIndex, 1, 0);
for (i = 0; i < toVIndex-fromVIndex; ++i) {
lib3ds_vector_copy(mesh->vertices[i], &fvertices[(i+fromVIndex)*3]);
mesh->texcos[i][0] = 0.f;
mesh->texcos[i][1] = 0.f;
}
lib3ds_mesh_resize_faces(mesh, toIIndex-fromIIndex);
for (i = 0; i < toIIndex-fromIIndex; ++i) {
for (j = 0; j < 3; ++j) {
mesh->faces[i].index[j] = indices->at(3*(i+fromIIndex)+j)-fromVIndex;
mesh->faces[i].material = 0;
}
}
inst = lib3ds_node_new_mesh_instance(mesh, name.toLocal8Bit().data(), NULL, NULL, NULL);
lib3ds_file_append_node(file, (Lib3dsNode*)inst, NULL);
}
delete[] fvertices;
}
}
{
Lib3dsCamera *camera;
Lib3dsCameraNode *n;
Lib3dsTargetNode *t;
int i;
camera = lib3ds_camera_new("camera01");
lib3ds_file_insert_camera(file, camera, -1);
lib3ds_vector_make(camera->position, 0.0, -100, 0.0);
lib3ds_vector_make(camera->target, 0.0, 0.0, 0.0);
n = lib3ds_node_new_camera(camera);
t = lib3ds_node_new_camera_target(camera);
lib3ds_file_append_node(file, (Lib3dsNode*)n, NULL);
lib3ds_file_append_node(file, (Lib3dsNode*)t, NULL);
lib3ds_track_resize(&n->pos_track, 37);
for (i = 0; i <= 36; i++) {
n->pos_track.keys[i].frame = 10 * i;
lib3ds_vector_make(n->pos_track.keys[i].value,
(float)(100.0 * cos(2 * F_PI * i / 36.0)),
(float)(100.0 * sin(2 * F_PI * i / 36.0)),
50.0
);
}
}
if (!lib3ds_file_save(file, fileName.toLocal8Bit().data())) {
qDebug("ERROR: Saving 3ds file failed!\n");
}
lib3ds_file_free(file);
delete indices;
delete vertices;
}
