dongnd Although the problem states "We can call an attribute by referencing the tag, followed by a tilde, '~' and the name of the attribute", there are queries without tilde (~) (test case #4, #5). So be careful when parsing your queries. I think the author should describe the problem more clear.
mchchu Hi, How did you know the content of the test cases? And without the tilde how did the test cases specify the attribute name after a tag?
dongnd It's simple. Use your hackos to buy the test cases. One test case costs you 5 hackos.
mchchu How? Could you point out how to do this? Many thanks.
dongnd First you should have enough hackos to buy test cases (5 hackos/ testcase). Too see how many hackos you have currently, click on your login ID on the top right corner.You can click on 'Hackos' hyperlink to learn more about how to earn and use these hackos.
Now suppose that you have submit your solution and got some test cases which are failed. Move your mouse over a failed test case, you should see a popup message. Click the 'Download' hyperlink and you will see 'Purchase TestCase' window. Click yes to buy it. Then you will see 'Download TestCase' window. Click 'Input' or 'Output' to download the content of Input or Expected Output data respectively. Hope this helps.
ankit_chawrai349 the attribute without ~ should not be printed right???
spiky_jet Hi! So what is the correct behavior for queries without tilde? I guess there are some more inaccuracies in the descreption as I have the following custom input which works great, but any test case other than default fails:
12 8 <tag1 value = "HelloWorld"> <tag2 name = "Name1"> <tag3 name = "Name3"> </tag3> <tag4 name = "Name4" text = "Super"> <tag6 buzz = "Buzz6"> </tag6> </tag4> <tag5> </tag5> </tag2> </tag1> tag1.tag2~name tag1~name tag1~value tag1.tag2.tag3~name tag1.tag2.tag3~value tag1.tag2.tag4~text tag1.tag2.tag4.tag6~text tag1.tag2.tag4.tag6~buzz
As you see it has multilevel nesting, multiple attributes support, no attributes support (tabs are added for better visibility). Confused...
GrahamS Some of the Test Cases contain queries that have a . instead of the ~
These still expected to produce "Not Found!". For your example input, try the queries:tag1.value tag1.tag2.name
Also make sure you can handle attribute names with underscores in them and attribute values containing characters like $,.!
Very poor that the question didn't specify all this. It took me hours to figure out what was wrong.
spiky_jet Thanks a lot for the clarification!
A_Ray_Bolt [deleted]frieder_wittmann [deleted]frieder_wittmann [deleted]
ishan_nitj Test data and problem statement is modified now.
rwan7727 Using MAP STL:
int n,q; cin >> n >> q; cin.ignore(); map <string,string> attributeDB; // to store attribute-value pairs string inputstr,tag_preamble=""; // get each HRML line for (int i=0;i<n;i++) { getline(cin,inputstr); // for each HRML line, break it up into token words stringstream ss(inputstr); string word, attribute, value; size_t pos; while (getline(ss, word, ' ')) { // for each token word // tag detected -> adjust tag_preamble by +/- tag if (word[0]=='<') { string tag; if (word[1]=='/') { // it's tag closing tag=word.substr(2); tag=tag.substr(0,tag.length()-1); // rid of ">" pos=tag_preamble.find("."+tag); if (pos==string::npos) tag_preamble=""; else tag_preamble=tag_preamble.substr(0,pos); } else { // it's tag opening tag=word.substr(1); if (tag.find(">")!=string::npos) tag=tag.substr(0,tag.length()-1); // rid of ">" if (tag_preamble=="") tag_preamble=tag; else tag_preamble=tag_preamble+"."+tag; } } // value detected else if (word[0]=='"') { pos=word.find_last_of('"'); value=word.substr(1,pos-1); attributeDB[attribute]=value; // insert into DB } // attribute name detected else if (word[0]!='=') { attribute=tag_preamble + "~" + word; } } } // now we process the queries for (int i=0;i<q;i++) { getline(cin,inputstr); if (attributeDB.find(inputstr)==attributeDB.end()) cout << "Not Found!" << endl; else cout << attributeDB[inputstr] << endl; }
surajkumar_cse your code is simple and light
lucian_dinu93 Wow! Thank you!
wjcxczxy what does your 'tag_preamble=""' do in the code? Could you explain a bit?
edesig It clears the value of the string 'tag_preamble' :p Are you curious to know, what is the function of 'tag_preamble'? Try to figure out what are the keys in the map 'attributeDB'. You can analyse, how this map is built, or you can first take a look, how it's used:
for (int i=0;i<q;i++) { getline(cin,inputstr); if (attributeDB.find(inputstr)==attributeDB.end()) cout << "Not Found!" << endl; else cout << attributeDB[inputstr] << endl; }
walkesanket333 pos=tag_preamble.find("."+tag); if (pos==string::npos) tag_preamble=""; else tag_preamble=tag_preamble.substr(0,pos);
can anyone explains what this piece of code do actually im new to c++
intenserave what if two tags are not nested example
<tag1 att_name="att_value"> </tag1> <tag2> </tag>
is this case is included in the hackerank testcases?
tpgreene Yes, it still works. Because it resets "tag_preamble" when the closed tag is encountered:
pos=tag_preamble.find("."+tag); if (pos==string::npos) tag_preamble=""; else tag_preamble=tag_preamble.substr(0,pos);
So, if it doesn't find the opening part of the tag in the format of "something.tag" (meaning it is a sub-tag) in the first line (so pos==string::npos), that means this is the primary tag, so it resests it to nothing (tag_preamble="").
If it does find the tag in that format ("something.tag"), that means this is a sub-tag, so it erases the ".tag" part (leaving only the "something", which will be retained through future line iterations, as it is declared outside of the main for-loop), removing it from the pathway hierarchy for future elements when they are added to the map.
The elements are added to the map based on the string generated from tag_preamble. This is how they are pulled for printing later. So any final values would have the correct, full, corresponding index "pathway" via the [string] (tab_preamble) used to access the map.
farehaahmed47_fa i am new to the concept of map. Can you please recommend me some tutorial or video to get started with?
f20140463 Why are we using size_t data type?
zylatis You may get a performance increase if you use unordered_map as you are processing queries in order so the storage order doesn't matter.
arpit15945 My code outputs Not Found! in case the query doesn't contain a ~. Is that what is expected out of #4 and #5 as these are the ones failing for my code.
BugshotGG This problem is no-way a moderate one. Kinda hard and it falls to compilers knowledge and how lexical analysis and parsing really works. There is too much theory underlying this problem.
isgulkov It don't think there's any lexical analysis in this particular problem. Usual regexps work fine due to how stuff is laid out
CeriGuest Regex is not a standard part of C++. (C++11, perhaps.)
I agree with Bugshot. This turned out to be a tedious, irksome problem to solve. It wasn't conceptually hard; it was just fiddly and time-consuming.
CeriGuest I don't think so. Regex was part of TR1, but these extensions didn't become a part of the standard until C++11.
foxeed It's 2016 now and every major compiler vendor not only fully supports C++11, but C++14 as well. This is the state of C++ now and people are actually using it's features.
CeriGuest I'm sure that's jolly interesting, but C++ and C++11 are not the same thing, hence the fact that C++11 is a specific term.
As it happens, there are still some platforms for which you can't really use C++11 compilers, such as targeting Nintendo machines and PS Vita. If you're creating a cross-platform engine this does rather scupper any plans to implement it making full use of C++11.
foxeed If you read carefully enough my first statement, it contains a sentence "modern C++". "Modern" is not old, almost C-like language and it's a term that people use — just watch footage from this year's CppCon. I have this distinction made already, but thanks for trying to correct me. Hope I wasn't offending you much. :)
pete_programmer1 I don't mean this to sound rude, but which version would you rather was implied when using the general term C++? The two that make most sense are either the latest widely used version, or the oldest version... what is the oldest version? Did it have version names before C++98? I wouldn't want to have to assume versions before C++98.
I think it's safe to assume modern C++ as foxeed put it, and I would happily count that as at least C++11. I've been coding for about four years now, and I don't think I've ever used another version aside from on embedded systems, and even some of them have C++11 support now.
As for the question, it is a bit of a drastic step up from the question before. I've had fun figuring it out, although I've not had any luck passing the tests other than the first one... And I thought I'd done a pretty good and thourough job too! Oh well, on with the battle...
sfxtd To me the important thing is that, for this exercise, the compiler used when selecting the C++ environment supports the C++11 libraries.
edesig Regular expressions are standard tools for everyone.
shawxe This one was definitely quite a bit more difficult than most of the others I've encounterd so far. Here's the solution I came up with. I tried to write an actual parser rather than just use regex. I'm somewhat happy with it, but I think there are probably some aspects that could use a bit of tidying up.
#include <iostream> #include <vector> enum node_type { tag, label, value }; struct parse_tree_node { node_type nt; std::string name; std::vector<struct parse_tree_node*> children; struct parse_tree_node* parent; }; void utility_free(struct parse_tree_node* ptn) { for(auto const& value: ptn->children) utility_free(value); delete ptn; } int main(void) { struct parse_tree_node* root = new struct parse_tree_node; struct parse_tree_node* current_level = root; current_level->name = "ROOT"; current_level->nt = tag; int n, q; std::cin >> n >> q; // parse lines into tree for(int i = 0; i < n; i++) { while(std::cin.get() != '<') ; if(std::cin.peek() != '/') { char next_char; bool expecting_space = true; bool need_next = false; bool done = false; bool quoted_mode = false; struct parse_tree_node* new_node = new struct parse_tree_node; new_node->nt = tag; current_level->children.push_back(new_node); new_node->parent = current_level; current_level = new_node; while(!done) { next_char = std::cin.get(); if(!quoted_mode) switch(next_char) { case '"': quoted_mode = true; need_next = true; break; case '>': done = true; break; case ' ': if(!expecting_space) need_next = true; break; case '=': { struct parse_tree_node* parent_node = new_node; new_node = new struct parse_tree_node; new_node->nt = value; parent_node->children.push_back(new_node); expecting_space = true; need_next = false; break; } default: if(need_next) { struct parse_tree_node* parent_node = current_level;; new_node = new struct parse_tree_node; new_node->nt = label; parent_node->children.push_back(new_node); need_next = false; } new_node->name.append(1, next_char); expecting_space = false; break; } else { if(next_char != '"') new_node->name.append(1, next_char); else quoted_mode = false; } } } else { current_level = current_level->parent; while(std::cin.get() != '>') ; } } // process queries for(int i = 0; i < q; i++) { struct parse_tree_node* current_level = root; std::string qstr_part; char peek_char; bool tilde_mode = false; while((peek_char = std::cin.peek()) == ' ' || peek_char == '\n') std::cin.get(); while(true) { char next_char = std::cin.get(); if(next_char == '.' || next_char == '~') { bool found = false; tilde_mode = next_char == '~'; for(auto const& value: current_level->children) if(value->nt == tag && value->name == qstr_part) { current_level = value; qstr_part = ""; found = true; break; } if(!found) { char drop_char; std::cout << "Not Found!" << std::endl; while((drop_char = std::cin.get()) != '\n' && drop_char != EOF) ; break; } } else if(next_char == '\n' || next_char == EOF) { bool found = false; if(tilde_mode) for(auto const& value: current_level->children) if(value->nt == label && value->name == qstr_part) { // This next line is a little sketchy. std::cout << value->children[0]->name << std::endl; found = true; break; } if(!found) std::cout << "Not Found!" << std::endl; break; } else { qstr_part.append(1, next_char); } } } utility_free(root); return 0; }
man1998ishk hats off you
tigerleapgorge [deleted]lavistam Nice, almost as ugly as mine :P
I haven't touched C++ in a while and was trying to get some of the syntax back, my copy's and \0 etc are definitely not the right way to go all that could be done in 1 line.
I use "|" to differentiate "tags" from "attributes"
#include <cstdio> #include <vector> #include <iostream> #include <sstream> using namespace std; int search_for_tag(size_t start, string s_end, vector<string> &vec, string needle) { int curr = start; int end = vec.size(); string endcur; char buff[200]; while(true) { if(vec[curr][0] == '|') { //see if its the one if(!vec[curr].compare(needle)) { return curr; //see if its the end } else if (!vec[curr].compare(s_end) ){ return -1; //pass this tag } else { vec[curr].copy(buff,vec[curr].size(),0); buff[vec[curr].size()] = '\0'; endcur = "|" + string(buff); endcur.replace(1,1,"/"); while(vec[curr].compare(endcur)) { curr++; } curr++; if(curr == end) return -1; } } else { while(vec[curr][0] != '|') { curr ++; } } } } int search_for_att(size_t start, string s_end, vector<string> &vec, string needle) { int curr = start; while(vec[curr][0] != '|'){ if(!vec[curr].compare(needle)) { return curr; } curr++; if(curr == vec.size()) return -1; } return -1; } int main() { int tlines, qlines; string ints; getline(cin, ints); stringstream ss(ints); ss >> tlines; ss >> qlines; string line; char buf[200]; size_t del_tag; vector<string> contain; //Parse the shenanigans for(int i=0; i<tlines; i++) { getline(cin, line); del_tag = line.find_first_of(" >"); //Get Tag line.copy(buf,del_tag-1, 1); buf[del_tag-1] = '\0'; string tagbuf(buf); tagbuf = "|" + tagbuf; contain.push_back(tagbuf); size_t found = line.find("=", del_tag); while(found != string::npos) { //Get the attribute line.copy(buf, found-del_tag-2, del_tag + 1); buf[found-del_tag-2] = '\0'; string attbuf(buf); contain.push_back(attbuf); //move past the = del_tag = found + 2; found = line.find("\"", del_tag + 1); //Copy the value line.copy(buf,found - del_tag - 1, del_tag + 1); buf[found-del_tag -1] = '\0'; string valbuf(buf); contain.push_back(valbuf); del_tag = line.find(" ", found); found = line.find("=", found); } } //Query Time for(int i = 0; i < qlines; i++) { size_t startString = 0; bool typeTag = true; size_t startVec = 0; string endVec =""; bool notFound = true; string attval; string line; getline(cin,line); while (true) { //Get next token size_t found = line.find_first_of(".~", startString); if(found == string::npos) found = line.size(); line.copy(buf, found - startString, startString); buf[found - startString] = '\0'; string tagbuf(buf); //Check if its a Tag if(startString > 0 && line[startString-1] == '~') { typeTag = false; } else { tagbuf = "|" + tagbuf; } //Find a tag if(typeTag) { int res = search_for_tag(startVec,endVec,contain,tagbuf); if(res<0) { break; } else { startVec = res+1; endVec = "|" + tagbuf; endVec.replace(1,1,"/"); startString = found + 1; } } else { //Find an attibute int res = search_for_att(startVec,endVec,contain,tagbuf); if(res >=0) { attval = contain[res + 1]; notFound = false; } break; } } //Printing if(notFound) { cout << "Not Found!" << endl; } else { cout << attval << endl; } } return 0; }
lavistam I ended up changing everything I had written below because I couldn't sleep at night with how ugly the code was. I seemed to have ended up with an approach similar to yours:
1) Create a tag struct, that contains:
i) name ii) a map for tags iii) a map for attributes/values iv) pointer to parent tag2) Create a master map, that contains all first level tags
3) Create a current tag so that we can nest into and close them out.
#include <cstdio> #include <iostream> #include <sstream> #include <map> using namespace std; struct tagobj { string name; map<string, tagobj*> tmap; map<string, string> map_att; tagobj* prev = NULL; }; void delete_tags(tagobj* tag) { for (map<string, tagobj*>::iterator i = tag->tmap.begin() ; i != tag->tmap.end() ; i ++ ) { delete_tags(i->second); } delete(tag); } int main(){ //Setup a vector holding all first level tags map<string, tagobj*> main; //Current depth so as to nest tagobj* masterTag = NULL; int tlines, qlines; string ints; getline(cin, ints); stringstream ss(ints); ss >> tlines; ss >> qlines; string line; size_t del_tag; //Save the information for(int i=0; i<tlines; i++) { //Get Tag from line getline(cin, line); del_tag = line.find_first_of(" >"); string tag = line.substr(1,del_tag-1); //opening tags if(tag[0] != '/') { //Create Struct tagobj* currTag = new tagobj(); currTag->prev = masterTag; currTag->name = tag; //check if we add to master vector or previous: if(!masterTag) { main[currTag->name] = currTag; } else { masterTag->tmap[currTag->name] = currTag; } masterTag = currTag; //Add all attributes size_t found = line.find("=", del_tag); while(found != string::npos) { //Get the attribute string name = line.substr(del_tag + 1, found-del_tag-2); //move past the = del_tag = found + 2; found = line.find("\"", del_tag + 1); //Copy the value string value = line.substr(del_tag + 1,found - del_tag - 1); //add to map currTag->map_att[name]=value; //keep going del_tag = line.find(" ", found); found = line.find("=", found); } } else { //If its a closing Tag return main tag to its previous masterTag = masterTag->prev; } } for(int i=0; i < qlines; i++) { tagobj* masterq = NULL; getline(cin,line); size_t start = 0; string val; bool fnd; while (true) { size_t found = line.find_first_of(".~", start); string buff = line.substr(start,found-start); fnd = false; //looking for attribute if(start > 0 && line[start-1] == '~') { //Attributes have a sentinal //Check for bad input if(masterq) { val = masterq->map_att[buff]; if(!val.empty()){ fnd = true; } break; } } else { //Looking for a tag, if found, continue looking map<string, tagobj*> *bufobj = NULL; //Make sure to look in right place if(masterq) { bufobj = &(masterq->tmap); } else { bufobj = &main; } tagobj* frommap = (*bufobj)[buff]; if(frommap) { masterq = frommap; } else { break; } } start = found + 1; } //Printing Time: if(fnd) { cout << val << endl; } else { cout << "Not Found!" << endl; } } for (map<string, tagobj*>::iterator i = main.begin() ; i != main.end() ; i ++ ) { delete_tags(i->second); } }
dinesh24 Nice one man....
sankhadeep2007 Nice one....
shapeshifter42 I was shocked when I read that most of you are using regex for this (wouldn't mind so much if the question gave any hint as to what it was even testing us on). My first instinct was to read the data into a tree of some sort, after all, isn't that how HTML is done in a browser? You guys have not shown any code- are you just reading the input into some uber long string and regexing that?!
In the end I have created a map of elements (just a struct), each containing a map of attrs and a map of inner elements, so it works like a linked list of sorts. Then I just have to traverse this. Made it sound quite simple, but it's been many hours of work (and revisions as the limited examples didn't help).
Bearing in mind the other challenges have taken anything from a few mins to half an hour at most, I'd like to join in with the people complaining this question needs re-wording or re-grading.
1337Coder I also didn't use Regexes and have a similar map of children and attributes in every Tag. It worked, but I agree it took way too long for a "Medium" challenge, and I'm happy that the discussion board shows I'm not alone in this.
I'd say it's a medium challenge if you already know all the language quite well, but it's not a medium challenge in a language you were just introduced to.
I also found the wording a bit unclear.
aleathorn Yeah, I didn't use regex. I created my own "Tag" class with a map for attributes and a vector of sub "Tag"s. Similar to yours. I just can't traverse in reverse, which isn't needed. I then split the string up by writing an "explode" method that splits the string a vector of attributes and a string for the name. So, no regex needed. I find this much simpler.
The trickiest part for me was recursively adding the sub Tags properly. I could have done it in a much less elegant manner, with a lot more lines of code, but it was fun. The way I organized it makes searching much easier and cleaner.
I had it working perfectly, assuming "tag4~v2" would match the first tag with the name "tag4" and search for a v2 attribute, but that's not what they wanted. I'll have to read back to see if this was specified, but I found out through a failing test 4 I believe. So, I had to go back and rework all of my sub tag adding logic.
Curious - I ended up including my own "base" tag, just so I had a root tag to reference. Did you do anything like that?
Either way, I'll join the people complaining as well.
1337Coder Interesting, i also made my own root tag, because i wasn't sure whether there would be tests with more than one top level tag.
john_graham Yep...
took 2 1/2 days! Mainly due to being a little unfamiliar with regular expressions.
used regular expressions, and implemented:
a Tag class, with a root tag instance, allowing multiple top level tags, and, an Attribute class, responsible for parsing the name-value attributes.
lomparm I also didn't use Regex. To parse tag names, attributes and values I used find and string construction with iterators. I stored result in simple C++ map. For example: map["tag1.tag2~name"] = "Name1" Then I do simple query. No need for tree.
jessevsilverman Of everyone here, my approach was far the closest to yours.
I messed up a few times, at first I was writing more code than I needed given that the definition of the XRML data is guaranteed to have zero syntax errors, that was an interesting side trip and I found some new C++11 stuff that is nice but would have killed me on any timed test in the world.
Then I stripped things down. I'm all about regexes, and have used them for many years, but I agree that this problem totally gave no hint that they were part of what they were looking for.
People seem to say that everywhere except some embedded systems and game consoles they are now part of modern C++, meaning at least 0x11 -- that is nice and something that is important to remember for the future, but I still support plenty of code that doesn't have that available. In the future, we will all solve C++ parsing issues in regex for 15 minutes. Some of us are already there.
The other mistakes I made were good practice for newbie or rustie mistakes (someone who hasn't used C++ heavily for something like this for a while) -- I got bit in the ass by mixing << and getline() and choking on a newline -- COUGH!! -- *
There are so many, many, many choices for actually doing parsing, and of course the number of times you are writing something from scratch is absolutely dwarfed by the times it is appropriate to just link in an appropriate library that you know well and get on with it, but I guess going forward Perl-style regex is always one of them.
While using the STL algorithms often isn't the best choice for such parsing, I wanted practice in that anyway, because you use the same approach for all kinds of things that aren't parsing or even strings, so I'm happy with that approach.
This is an interesting problem, I probably also don't think it is moderate difficulty, the fact that there are so many radically different approaches to it with their own advantages and disadvantages seems to validate that.
Most correct answers to moderate problems would tend to look pretty similar I think, while the challenging ones are expected to have a million different valid solutions that differ radically.
- -- this documents my choice of the term "rustie" to describe developers or users who make what appear to be "newbie" mistakes that they would not have made before they got out of shape. It also applies to mistakes one will make once again if they go too long without practice, unless they have great memory.
zylatis Bingo, i did this as well but with unordered map. It requires more memory but makes lookup O(1) (sans hash collisions).
I also ran into 'the regex problem' i.e. people suggesting i do this despite knowing basically no regex.
Anyway, i just did a hash map of hashmaps so you get text["address"]["query"] and it was about 10 fairly verbose lines to parse the line and shove it in the hashmaps, could be refactored.
If space is really a premium a tree would help.
BugshotGG In the given example:
<tag1 value = "HelloWorld"> <tag2 name = "Name1"> </tag2> </tag1>is tag2~name legitimate or should we consider tag1.tag2~name only as legitimate?
jvinniec I think you can assume that "tag2~name" is NOT legitimate and should produce the "Not found!" message. It must be proceeded by its parent tag (i.e. "tag1.tag2~name"). At least that's what I assumed and I passed all cases.
pete_programmer1 That is a good question, I was wondering the same. The line "All tag names are unique." makes you wonder if that means there will never be both tag1.tag2 and simply tag2...
tenggpeter I thought that only tag1.tag2~name would be correct, but it turns out that tag2~name has to work too. This is my solution fails for all testcases except for #0.
idiotzavant my question here is, if this attribute value is valid:
<tag1 attr1 = "hello world 123"> </tag1>
Can an attribute value have spaces in them?
njb303 Test case input looks like it might be bugged; HackerRank is showing 4 blank lines between the "4 3" and the directives, instead of 4 element-definition lines.
seldon_wilson I'm having the exact same issue. Has anyone found why this is?
shaurya_nsit I think this is a easy problem, made complex by not sharing the errors, hiding the test cases, and then above all that stating the problem wrongly.
AbhishekVermaIIT Considering so many complaints about problem being marked "Medium", I would like to say, in fact, that is a clue about the solution. Scrolling through discussions, we can find several lengthy and complicated solutions. It isn't supposed to be that way.
The first most important step towards solving any problem is to read the problem well, and use all the information provided in the description properly. Failing to do that, the result will be messy code. Following line from constraints gives a big hint :All tag names are unique and the HRML source program is logically correct.
This means most of the hard-work had already been done. If we ignore this, we will be just writing needless code doing pointless computations. In stead, if we use the info properly, we'll surely get far elegant solution. Here's my approach for interested coders:#include <iostream> #include <map> using namespace std; map <string, string> tagMap; void createMap(int &n, string pretag) { if(!n) return; string line, tag, attr, value; getline(cin, line); int i=1; if(line[i]=='/') { // found closing tag while(line[i]!='>') i++; if(pretag.size()>(i-2)) // update tag tag = pretag.substr(0,pretag.size()-i+1); else tag = ""; } else { // found opening tag while(line[i]!=' ' && line[i]!='>') i++; tag = line.substr(1,i-1); // update tag if(pretag!="") tag = pretag + "." + tag; int j; while(line[i]!='>') { // go through attributes j = ++i; while(line[i]!=' ') i++; attr = line.substr(j,i-j); // attribute name while(line[i]!='\"') i++; j = ++i; while(line[i]!='\"') i++; value = line.substr(j,i-j); // attribute value i+= 1; tagMap[tag + "~" + attr] = value; } } createMap(--n, tag); } int main() { int n, q; cin >> n >> q; cin.ignore(); createMap(n,""); string attr, value; while(q--) { getline(cin,attr); value = tagMap[attr]; if(value=="") value = "Not Found!"; cout << value << endl; } return 0; }
maruderpio Thank you for this solution. I think this case should be classified as a higher level
zh2196 This problem should be put under the STL subdomain, I think. It becomes highly difficult to code without using STL.
cgtyky 
Isn't there a problem with how first test case inputs are send?
sebastianfastert see this comment
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