void testing()
{
char buffer1[1024];
char buffer2[1024];
memset(buffer1, 0, 1000);
memset(buffer2, 0, 1000);
getstring(buffer1, 1000);
getstring(buffer2, 1000);
buffer1[strlen(buffer1) - 1] = '\0';
buffer2[strlen(buffer2) - 1] = '\0';
// Now we Load these into our Structures;
Number *Number1, *Number2;
Number1 = allocate_number(Number1);
Number2 = allocate_number(Number2);
Number1 = loadroutine(Number1, buffer1);
Number2 = loadroutine(Number2, buffer2);
recursivePrint(Number1);
printf("\n");
recursivePrint(Number2);
printf("\n");
}
void recursivePrint(tree_member * no, int (* imp)(void * p))
{
if(no != NULL) {
recursivePrint(no->esq, imp);
(* imp)(no->data);
recursivePrint(no->dir, imp);
}
}
void IntervalTree::recursivePrint(IntervalTreeNode* x) const
{
if(x != nil)
{
recursivePrint(x->left);
x->print(nil,root);
recursivePrint(x->right);
}
}
void recursivePrint(ofTypeNode *headNode){ // recursive print function
puts("recursively printing the linked list");
if(headNode != NULL){
printf("%c \n", headNode->nodeData);
recursivePrint(headNode->nextNode);
}
}
void recursivePrint(Number *num)
{
if(num->next != NULL) recursivePrint(num->next);
int i;
for(i = MAX_DIGITS_PER_NODE-1; i>=0; i--)
printf("%d", num->digits[i]);
}
void CImpactReport::recursivePrint(CResultsTree* pRoot,string prefix) {
if(pRoot != NULL) {
do{
CResultEntity* pEntity = pRoot->getEntity();
*m_pStream << prefix << pEntity->getMessage()->c_str()<<endl;
recursivePrint(pRoot->children(),prefix + " ");
} while((pRoot=pRoot->getNext())!=NULL);
}
}
int main()
{
Number *num;
num = allocate_number(num);
num = int_to_number(123344567, num);
recursivePrint(num);
// testing();
}
void recursivePrint(Queue q)
{
if(NULL == q.pHead)
{
}
else
{
printf("%d ", q.pHead->data);
q.pHead = q.pHead->pNext;
recursivePrint(q);
}
}
static void recursivePrint(const PrefixTreeVertex& vertex, unsigned depth)
{
dataLogF("%s", prefixTreeVertexToString(vertex, depth).utf8().data());
for (const auto& edge : vertex.edges) {
StringBuilder builder;
for (unsigned i = 0; i < depth * 2; ++i)
builder.append(' ');
builder.append("vertex edge: ");
builder.append(edge.term.toString());
builder.append('\n');
dataLogF("%s", builder.toString().utf8().data());
ASSERT(edge.child);
recursivePrint(*edge.child.get(), depth + 1);
}
}
std::ostream& ossimQuadTreeWarp::print(std::ostream& out) const
{
if(!isEmpty())
{
out << "___________VERTEX LIST____________________\n";
printVertices(out);
out << "___________TREE LIST____________________\n";
recursivePrint(out, theTree);
}
else
{
out << "<empty tree>\n";
}
return out;
}
void ossimQuadTreeWarp::recursivePrint(std::ostream& out,
ossimQuadTreeWarpNode* node)const
{
if(node)
{
out << (*node) << "\n";
}
if(!node->isLeaf())
{
for(ossim_uint32 i =0; i < node->theChildren.size();++i)
{
recursivePrint(out, node->theChildren[i]);
}
}
}
void CImpactReport::Descriptions() {
*m_pStream << "Impact description"<<endl<<endl;
TReportIterator iter;
string prefix = " ";
for(iter = m_Entries.begin(); iter != m_Entries.end(); iter++) {
CReportEntry* pEntry = *iter;
*m_pStream << " " <<pEntry->getMessage() << endl;
TReportEntities* pChildren = pEntry->GetChildren();
if(pChildren!=NULL) {
TReportIterator ChildrenIter;
int nIdx = 1;
for(ChildrenIter = pChildren->begin(); ChildrenIter != pChildren->end(); ChildrenIter++,nIdx++) {
CReportEntry* pChildEntry = *ChildrenIter;
*m_pStream << prefix << nIdx << "." << pChildEntry->getMessage()<<endl;
recursivePrint(pChildEntry->getResults(),prefix);
}
}
}
}
int main(int argc, char *argv[]){
int iCount;
int jCount;
for(iCount = 1; iCount < 3; iCount++){ // the number of words you have as arguments. Change this if you want more words as arguments, right now it is "Ada Lovelace"
for(jCount = 0; jCount < 10; jCount++){ // the max number of letters in your words (it's set to 10 because no words will be longer than 10) and my code handles if a word is shorter than the given int counter
if(argv[iCount][jCount] == '\0'){
break;
}
//printf("%c", argv[i][j]);
//puts("inserting a node");
printf("inserting nodeData %c \n", argv[iCount][jCount]);
headNode = insertData(argv[iCount][jCount], headNode);
}
puts("\n");
}
//printLinkedList(headNode);
recursivePrint(headNode);
puts("\nThis is for the Extra credit\n");
puts("printing the fourth letter");
printf("%c", headNode->nextNode->nextNode->nextNode->nodeData);
return 0;
}
void IntervalTree::print() const
{
recursivePrint(root->left);
}
void recursiveP(tree_header * pa, int (* imp)(void * p))
{
recursivePrint(pa->root, imp);
}
void CombinedURLFilters::print() const
{
recursivePrint(*m_prefixTreeRoot.get(), 0);
}
