class Tag { public:
vector< pair< string , string > > att; string title; string queryFormat; vector< Tag > children; bool closeTag; Tag(){} Tag(string s){ s.erase(s.end() -1); s.erase(s.begin() , s.begin() + 1); if (s[0] == '/') { closeTag = true; s.erase(s.begin() , s.begin() + 1); }else{ closeTag = false; } replace(s.begin() , s.end() , '=' , ' '); replace(s.begin() , s.end() , '\"' , ' '); stringstream ss (s); string key ; string val; ss>>title; while (ss) { ss>> key>>val; att.push_back(make_pair(key,val)); } ; att.erase(att.end() -1 ); }};
int main(int argc, char const *argv[]) {
int t , q; string line; getline(cin , line); istringstream input(line); input>>t>>q; vector<string> ta , qa; vector<Tag> tags; for (int i =0 ; i< t; i++) { string temp; getline(cin , temp); ta.push_back(temp); } for (int i =0 ; i< q; i++) { string temp; getline(cin , temp); qa.push_back(temp); } for (int i =0 ; i< ta.size(); i++) { Tag tag = Tag(ta[i]); tags.push_back(tag); } vector<string> currentParents; map<string , string> tagsQuires; for (int i =0 ; i< tags.size(); i++) { if (!tags[i].closeTag) { currentParents.push_back(tags[i].title); } for (int j = i+1 ; j < (tags.size() - (i + 1)); j++) { if (tags[j].title != tags[i].title ) { if (!tags[j].closeTag) { tags[i].children.push_back(tags[j]); } }else{ j = tags.size(); } } if ( tags[i].closeTag ) { currentParents.erase(currentParents.end()-1); // for (int k = 0; k < currentParents.size(); k++) // { // cout<<currentParents[k]<<" "; // } // cout<<currentParents.size()<<" for "<<tags[i].title<<endl; if (currentParents.size()> 0) { for (int l = 0; l < currentParents.size(); l++) { tagsQuires[tags[i].title] += (currentParents[l] +'.'); } tagsQuires[tags[i].title] += tags[i].title; }else{ tagsQuires[tags[i].title] = currentParents[0]; } } } for (auto i = tags.begin(); i != tags.end(); ++i) { if ((*i).closeTag) { tags.erase(i); i--; } } for (int i =0 ; i< qa.size(); i++) { stringstream ss (qa[i]); string query; string qf = qa[i]; string tag; string value; string result = ""; while (getline(ss, query , '.')){ }; replace(query.begin() , query.end() , '~' , ' '); replace(qf.begin() , qf.end() , '~' , ' '); stringstream ssQuery (query); stringstream ssf(qf); ssQuery>>tag>>value; ssf>>qf; for (int j = 0; j < tags.size(); j++) { if (tags[j].title == tag) { vector< pair<string , string> > m = tags[j].att; for (int k = 0; k < m.size(); k++) { if (m[k].first == value) { result = m[k].second; } } } } if (result != "" && tagsQuires[tag] == qf) { cout<<result<<endl; }else{ cout<<"Not Found!"<<endl; } } return 0;}
using a systematic approach...
#include <cmath> #include <cstdio> #include <vector> #include <iostream> #include <algorithm> using namespace std; static char c_bracket_open = '<'; static char c_bracket_close = '>'; static char c_tag_close = '/'; static char c_equal = '='; static char c_space = ' '; static char c_quotas = '"'; static char c_tilda = '~'; static const char * s_tag_closing = " >"; static const char * s_query_delimiters = ".~"; static const char * s_erase_simbols = " \t\n\r\f\v"; static const char * s_error_message = "Not Found!"; namespace HRML { inline string & rtrim( string & s ) { s.erase( s.find_last_not_of( s_erase_simbols ) + 1 ); return s; } inline string & ltrim( string & s ) { s.erase( 0, s.find_first_not_of( s_erase_simbols )); return s; } inline string & trim( string & s ) { return ltrim( rtrim( s )); } class Object { public: bool operator==( const string & name ) const { return m_name == name; } string m_name; }; class Attribute : public Object { public: string m_value; }; class Tag : public Object { public: vector< Attribute > m_vAttr; vector< Tag > m_vTag; Tag * parent = nullptr; }; } // HRML using namespace HRML; int main() { int tags = 0; cin >> tags; int queries = 0; cin >> queries; string str; std::getline( cin, str ); vector< Tag > doc; Tag * current_tag = nullptr; for( int i = 0; i < tags; i++ ) { std::getline( cin, str ); if( str.empty() ) continue; size_t n = 0; if( str[ n ] == c_bracket_open ) { if( str[ n + 1 ] == c_tag_close ) { if( current_tag ) current_tag = current_tag->parent; continue; } else { Tag tag; if( current_tag == nullptr ) { doc.push_back( tag ); current_tag = & doc.back(); } else { tag.parent = current_tag; current_tag->m_vTag.push_back( tag ); current_tag = & current_tag->m_vTag.back(); } n++; auto pos = str.find_first_of( s_tag_closing, n ); current_tag->m_name = str.substr( n, pos - n ); if( str[ pos ] == c_bracket_close ) { continue; } else { n = str.find_first_not_of( c_space, pos ); while( str[ n ] != c_bracket_close ) { pos = str.find( c_equal, n ); Attribute attr; attr.m_name = str.substr( n, pos - n ); attr.m_name = trim( attr.m_name ); n = pos; pos = str.find( c_quotas, n ); n = pos + 1; pos = str.find( c_quotas, n ); attr.m_value = str.substr( n, pos -n ); n = pos + 1; current_tag->m_vAttr.push_back( attr ); n = str.find_first_not_of( c_space, n ); } } } } } for( int i = 0; i < queries; i++ ) { std::getline( cin, str ); size_t n = 0; current_tag = nullptr; auto pos = str.find_first_of( s_query_delimiters, n ); while( pos != string::npos ) { auto tag_name = str.substr( n, pos - n ); n = pos + 1; auto & tags_vector = current_tag ? current_tag->m_vTag : doc; auto it = std::find( tags_vector.begin(), tags_vector.end(), tag_name ); if( tags_vector.end() == it ) { pos = string::npos; break; } else { current_tag = & ( * it ); } if( str[ pos ] == c_tilda ) break; pos = str.find_first_of( s_query_delimiters, n ); } if( pos == string::npos ) { cout << s_error_message << endl; } else { n = pos + 1; auto attr_name = str.substr( n, pos - n ); auto it = std::find( current_tag->m_vAttr.begin(), current_tag->m_vAttr.end(), attr_name ); if( current_tag->m_vAttr.end() != it ) { cout << ( * it ).m_value << endl; } else { cout << s_error_message << endl; } } } return 0; }
how you all conqured that much level knowledge .What is your's source. I'm learning from 3 months and still i solved only 19 question
Got it worked,
#include <cmath> #include <cstdio> #include <vector> #include <iostream> #include <algorithm> #include <map> #include <string> using namespace std; // struct Node{ // map<string,string> attr_map; // map<string,Node> childMap; // Node * parent = nullptr; // string tag_name; // }; string getHash(const vector<string> & vec){ string hash = ""; for (auto c:vec){ hash += c+"."; } return hash; } int main() { /* Enter your code here. Read input from STDIN. Print output to STDOUT */ uint32_t N,Q; cin >> N >> Q; vector <string> stack; bool listing_flg = true; map<string,map<string,string>> tagMap; for (int i=0;i<N;i++){ string s; cin >> s; // string hash_ = getHash(stack); // cout << "|" << hash_ <<"\n"; // Determine Starting Tag or Ending Tag if (s.find("/") != string::npos) { // Go to the next line if this is a end tag // string tag_name = s.substr(2, s.length()-3); // auto tail = stack.back(); stack.pop_back(); } else { // Starting Tag. Scan attributes map<string,string> attr_map; string hash_prefix = getHash(stack); if (s.find(">")==string::npos){ s = s.substr(s.find("<")+1); tagMap[hash_prefix + s] = attr_map; stack.push_back(s); } else { // no attribute for this tag, skip following auto start_pos = s.find("<"); auto end_pos = s.find(">"); tagMap[hash_prefix + s.substr(start_pos+1, end_pos-start_pos-1)] = attr_map; stack.push_back(s.substr(start_pos+1, end_pos-start_pos-1)); continue; } string attr; cin >> attr; // ">" is end of the line bool val_flg = false; string attr_name; string attr_value; while (attr.find(">") == string::npos){ if (attr.compare("=")==0) { attr.clear(); cin >> attr; continue; } else if (attr.find(">") != string::npos){ auto delimit_pos = attr.find("="); attr_name = attr.substr(0, delimit_pos-1); attr_value = attr.substr(delimit_pos+1, attr.length() - attr_name.length() - 2); tagMap[hash_prefix+s][attr_name] = attr_value; val_flg = false; } else { if (val_flg){ val_flg = false; attr_value = attr.substr(1,attr.length()-2); tagMap[hash_prefix+s][attr_name] = attr_value; } else { val_flg = true; attr_name = attr; } } attr.clear(); cin >> attr; } // handle the last value attr_value = attr.substr(1,attr.length()-3); tagMap[hash_prefix+s][attr_name] = attr_value; } } //// Read query for (int i=0; i< Q; i++){ string q; cin >> q; auto tilde_pos = q.find("~"); auto hash_key = q.substr(0,tilde_pos); auto attr_name = q.substr(tilde_pos+1, q.length() - hash_key.length() - 1); // cout << hash_key << "|" << attr_name << '\n'; if (tagMap.find(hash_key)==tagMap.end()){ cout<< "Not Found!" << endl; } else { auto it = tagMap.find(hash_key); if (it->second.find(attr_name)==it->second.end()){ cout << "Not Found!" <<endl; } else { auto it2 = it->second.find(attr_name); cout << it2->second <<endl; } } } return 0; }
The example was confusing me. I thought this just has single nested tag1 -> tag2 -> tag3 ... ->tagN, so I created a linked list and each node has a map contains attributes.
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