void test_delete()
{
int status;
struct Contact c3;
int key;
key = 102;
status = pds_search_by_key(key, &c3);
if( status != PDS_SUCCESS ){
fprintf(stderr, "pds_search_by_key failed for key %d: errorcode %d\n", key, status);
}
else{
printContact(&c3);
}
key = 101;
status = pds_search_by_key(key, &c3);
if( status != PDS_SUCCESS ){
fprintf(stderr, "pds_search_by_key failed for key %d: errorcode %d\n", key, status);
}
else{
printContact(&c3);
}
key = 1020000;
status = pds_search_by_key(key, &c3);
if( status != PDS_SUCCESS ){
fprintf(stderr, "pds_search_by_key failed for key %d: errorcode %d\n", key, status);
}
else{
printContact(&c3);
}
}
void test_search()
{
int status;
struct Contact c1, c2, c3;
int key;
key = 102;
status = pds_delete_by_key(key);
if( status != PDS_SUCCESS ){
fprintf(stderr, "pds_delete_by_key failed for key %d: errorcode %d\n", key, status);
}else
{
//printf("KEY %d successfully deleted\n",key);
}
key = 102;
status = pds_search_by_key(key, &c3);
if( status != PDS_SUCCESS ){
fprintf(stderr, "pds_search_by_key failed for key %d: errorcode %d\n", key, status);
}
else{
printContact(&c3);
}
key = 1020000;
status = pds_delete_by_key(key);
if( status != PDS_SUCCESS ){
fprintf(stderr, "pds_delete_by_key failed for key %d: errorcode %d\n", key, status);
}
c1.contact_id = 102;
strcpy(c1.cname, "Contact #2");
strcpy(c1.mphone, "Phone #2");
strcpy(c1.email, "Email #2");
status = pds_store( &c1 );
if( status != PDS_SUCCESS ){
fprintf(stderr, "pds_store failed for key %d: errorcode %d\n", c1.contact_id, status);
}
else
{
//printf("Node successfully inserted....\n");
}
//status = pds_store( &c2 );
key = 102;
status = pds_search_by_key(key, &c3);
if( status != PDS_SUCCESS ){
fprintf(stderr, "pds_search_by_key failed for key %d: errorcode %d\n", key, status);
}
else{
printContact(&c3);
}
}
void printBook(FILE *output, const Book *book) {
for (int i = 0; i < book->size; ++i) {
if (book->contacts[i].exist) {
printContact(output, book, i);
}
}
}
void printFound(FILE *output, const Book *book, const char *str) {
for (int i = 0; i < book->size; ++i) {
if (book->contacts[i].exist) {
if (strstr(book->contacts[i].name, str) || strstr(book->contacts[i].number, str))
printContact(output, book, i);
}
}
}
void printList() {
contact *ptr;
ptr = head;
if(head == NULL)
puts("Empty yolodex.");
while(ptr != NULL)
{
puts("========================================");
printContact(ptr);
ptr = ptr->next;
}
puts("========================================");
}
void dWorldExportDIF (dWorldID w, FILE *file, const char *prefix)
{
PrintingContext c;
c.file = file;
#if defined(dSINGLE)
c.precision = 7;
#else
c.precision = 15;
#endif
c.indent = 1;
fprintf (file,"-- Dynamics Interchange Format v0.1\n\n%sworld = dynamics.world {\n",prefix);
c.print ("gravity",w->gravity);
c.print ("ODE = {");
c.indent++;
c.print ("ERP",w->global_erp);
c.print ("CFM",w->global_cfm);
c.print ("auto_disable = {");
c.indent++;
c.print ("linear_threshold",w->adis.linear_average_threshold);
c.print ("angular_threshold",w->adis.angular_average_threshold);
c.print ("average_samples",(int)w->adis.average_samples);
c.print ("idle_time",w->adis.idle_time);
c.print ("idle_steps",w->adis.idle_steps);
fprintf (file,"\t\t},\n\t},\n}\n");
c.indent -= 3;
// bodies
int num = 0;
fprintf (file,"%sbody = {}\n",prefix);
for (dxBody *b=w->firstbody; b; b=(dxBody*)b->next) {
b->tag = num;
fprintf (file,"%sbody[%d] = dynamics.body {\n\tworld = %sworld,\n",prefix,num,prefix);
c.indent++;
c.print ("pos",b->posr.pos);
c.print ("q",b->q,4);
c.print ("lvel",b->lvel);
c.print ("avel",b->avel);
c.print ("mass",b->mass.mass);
fprintf (file,"\tI = {{");
for (int i=0; i<3; i++) {
for (int j=0; j<3; j++) {
c.printReal (b->mass.I[i*4+j]);
if (j < 2) fputc (',',file);
}
if (i < 2) fprintf (file,"},{");
}
fprintf (file,"}},\n");
c.printNonzero ("com",b->mass.c);
c.print ("ODE = {");
c.indent++;
if (b->flags & dxBodyFlagFiniteRotation) c.print ("finite_rotation",1);
if (b->flags & dxBodyDisabled) c.print ("disabled",1);
if (b->flags & dxBodyNoGravity) c.print ("no_gravity",1);
if (b->flags & dxBodyAutoDisable) {
c.print ("auto_disable = {");
c.indent++;
c.print ("linear_threshold",b->adis.linear_average_threshold);
c.print ("angular_threshold",b->adis.angular_average_threshold);
c.print ("average_samples",(int)b->adis.average_samples);
c.print ("idle_time",b->adis.idle_time);
c.print ("idle_steps",b->adis.idle_steps);
c.print ("time_left",b->adis_timeleft);
c.print ("steps_left",b->adis_stepsleft);
c.indent--;
c.print ("},");
}
c.printNonzero ("facc",b->facc);
c.printNonzero ("tacc",b->tacc);
if (b->flags & dxBodyFlagFiniteRotationAxis) {
c.print ("finite_rotation_axis",b->finite_rot_axis);
}
c.indent--;
c.print ("},");
if (b->geom) {
c.print ("geometry = {");
c.indent++;
for (dxGeom *g=b->geom; g; g=g->body_next) {
c.print ("{");
c.indent++;
printGeom (c,g);
c.indent--;
c.print ("},");
}
c.indent--;
c.print ("},");
}
c.indent--;
c.print ("}");
num++;
}
// joints
num = 0;
fprintf (file,"%sjoint = {}\n",prefix);
for (dxJoint *j=w->firstjoint; j; j=(dxJoint*)j->next) {
c.indent++;
const char *name = getJointName (j);
fprintf (file,
"%sjoint[%d] = dynamics.%s_joint {\n"
"\tworld = %sworld,\n"
"\tbody = {"
,prefix,num,name,prefix);
if ( j->node[0].body )
fprintf (file,"%sbody[%d]",prefix,j->node[0].body->tag);
if ( j->node[1].body )
fprintf (file,",%sbody[%d]",prefix,j->node[1].body->tag);
fprintf (file,"}\n");
switch (j->type()) {
case dJointTypeBall: printBall (c,j); break;
case dJointTypeHinge: printHinge (c,j); break;
case dJointTypeSlider: printSlider (c,j); break;
case dJointTypeContact: printContact (c,j); break;
case dJointTypeUniversal: printUniversal (c,j); break;
case dJointTypeHinge2: printHinge2 (c,j); break;
case dJointTypeFixed: printFixed (c,j); break;
case dJointTypeAMotor: printAMotor (c,j); break;
case dJointTypeLMotor: printLMotor (c,j); break;
case dJointTypePR: printPR (c,j); break;
case dJointTypePU: printPU (c,j); break;
case dJointTypePiston: printPiston (c,j); break;
default: c.print("unknown joint");
}
c.indent--;
c.print ("}");
num++;
}
}
