My C++ template, incl. fancy colorized debug printouts
Use this template and you'll gain 350 rating right away! OK maybe not, but it has a bunch of cool features I built up while climbing from 1800 to 2150 in February-May of this year, and I bet some of them can be helpful to others too. Please, comment with feedback/suggestions/feature requests about how to make the template more useful :)
Before I get into details about the template's functionality, here are links to the current template version on GitHub and the version as of posting this blog. I think my debug printouts setup is the most novel and cool feature in the template, so I've also prepared a minimal version that adds only the dbg() functionality.
Specific cool tricks in the template
Debug printouts
Here's an output screenshot:
...and here's the code I used :
void solve() {
ll a = 14; double b = -3e-2; char c = '@'; string s = "Test String";
vector<ll> q = {1, 6, 4, 3, 5, 3, 1};
dbg(a, b, c, "", s, q);
dbgc("show this on left", make_pair(a, c)); // dbgc = "debug with 1st arg as comment"
dbgcP("diff colors", a, b); // uppercase letters change the color; all terminal colors are available
dbgc("expressions work too", 2*b, gcd(a, a+4));
el; // empty line
// complex/nested data structures work too.
map<pair<ll,ll>, V<string>> dat = {
{{3, 5}, {"abc", "def"}},
{{4, -1}, {"apple", "peach", "banana"}},
{{-5, 0}, {"tourist", "jiangly", "um_nik", "slime", "ksun48"}}
};
dbgY(dat);
// that may be pretty messy to read all on one line though, so we can use:
dbg(pdh(dat));
el;
// show how "regular output" lines look visibly different from dbg() lines.
cout << a << ' ' << b << ' ' << c << '\n';
// what if we have a big object and we want to "get the idea" of its contents
// without printing the whole thing?
vector<pll> vbig; FOR(k, 0, 100) {vbig.emplace_back(k, -k*k);}
dbgR(pdh(vbig, 10)); // short for "print_details_helper"
el;
// Advanced: pdhf lets me specify a function, so f(x) will be printed for each x in the structure.
dbg(pdhf(vbig, [&](auto x){return x.second;}, 5)); // pdhf = "print_details_helper_func"
dbgcBold("done!");
return;
}
Summary of key dbg() features
dbg(a, b, c)
prints line number, exact text you passed in, and the values of all those variables/expressions/objects. Optionaldbgc
version uses the first argument as a marker or comment, which is placed to the left. All printouts are indented to keep them visually separate from the normal outputs to cout.- Different color options so you can easily see which printouts came from which dbg() call without comparing line numbers every time. Default color is cyan if you just use dbg(); specify other colors with dbgP (purple), dbgY (yellow), and so on. All the ANSI terminal colors are provided except black; see the template code for the full list. dbgBold provides a special colorset with a bright red background.
- Handles pairs, tuples, and STL data structures including arbitrary nesting.
- All
dbg()
andel
stuff is removed at preprocessor stage if we didn't pass flag -DDCCLYDE_LOCAL when compiling. That means I don't need to bother commenting out these lines before submitting to online judges. (That's a big upgrade from regular cerr printouts, which won't cause WA at most judges but can easily cause TLE.) - pdh ("print details helper") functionality prints one entry per line; useful if we're printing a complex object since printing on one line can be hard to visually process. Template includes some extensions, demod above.
Real-life example
The demo above may make it seem like the different colors are just visually noisy instead of useful. Here's an example of how I'd use the printouts in "real life" on a recent div2 C. (OK, in a real competition I wouldn't use this many comments or printouts unless the implementation was more complicated, but I want to make the example understandable by everyone who sees this blog.)
Here's what I see when I run the sample test cases locally:
For short solutions, I normally just use random different colors for each printout. In more complicated programs I try to somewhat organize my color usage. For example, I sometimes use: Red = print out inputs as soon as I read them to confirm I loaded them correctly; Yellow = higher-level info, maybe printing out results of a big intermediate step or printing status once per outer loop cycle; Cyan (default) = less important stuff, or printouts coming from inside a work loop; Purple = printouts from inside a function call or nested loop.
"Unhackable" and faster unordered_map and unordered_set replacements
unordered_map
and unordered_set
are notoriously hackable and so generally should not be used on Codeforces; see classic blog post. Also, they are usually around 5x slower than the alternative gp_hash_table
; see another blog. My template defines replacements umap
and uset
which fix both of those problems, basically by implementing the recommendations from those linked posts. Bonus: my versions also happily hash arbitrary pairs, tuples, or iterable STL objects. I make it easy to toggle which implementation is used by umap
and uset
. Caveat: pairs and tuples work well, but hashing more complex stuff like std::vector
s can often lead to TLE.
Precompiled header
When compiling on judge server, the template uses a few includes:
#include <tgmath.h>
#include <bits/stdc++.h>
#include <ext/pb_ds/assoc_container.hpp>
#include <ext/pb_ds/tree_policy.hpp>
When compiling locally, the template instead just uses #include "/home/dcclyde/puzzles/code/templates/superheader.h"
. That's because superheader.h is a local file that has all those same includes, except I've set up a precompiled header which makes my compilations several seconds faster. The difference is approximately 6s -> 1.5s on my older laptop, but only 2.5s -> 1.0s on my current machine. Basically, depending on your computer this hack might be pretty important for keeping the compile time manageable despite all the template's #includes and #defines.
I'm not recommending a specific guide for how to build a precompiled header because the correct steps may depend on your OS and machine configuration. However, I was able to make it work pretty quickly once I searched Google for precompiled header C++ gcc ubuntu
, so I hope you'll have good luck here too.
I/O shortcuts
These aren't a huge deal, but they do save me from typing the same annoying lines of code in every problem.
// INPUT
lls(R, C); // declare and read from stdin two long longs called R and C. Can also use ints, chars, strings to read those other datatypes.
ll1(a, b); // same as lls except decrement the variables by 1 after reading; useful when problems give 1-indexed inputs but I want to work with 0-indexed
V<int> q;
rv(R, q); // resize q to size R and then fill all entries from stdin
rv1(R, q); // same as rv except decrement by 1 after reading
// OUTPUT
ps(a, b, R); // same as cout << a << ' ' << b << ' ' << R << '\n';
ps1(a, b); // same as cout << a+1 << ' ' << b+1 << '\n'; notice we ADD 1 when outputting.
pv(q); // output space-separated all on one line, with newline at the end
pv1(q); // same as pv but add 1 to each output
Compilation and usage notes
Sample compile+run command: g++ --std=c++20 -DDCCLYDE_LOCAL template.cpp && ./a.out
The template requires C++17 or higher. It also works better on 64-bit systems, just because lately I use long long
instead of int
by default due to the negligible speed difference on modern machines including online judges.
I submit to Codeforces using GNU C++20 (64)
and AtCoder using C++ (GCC 9.2.1)
.
The template will be nicer to use if your editor has a shortcut for code folding between #pragma region
and #pragma endregion
. I use VS Code and I have keyboard shortcuts bound for "Fold All Regions" and "Unfold All Regions". I also use the "Better Comments" extension, which explains why some of the comments have special flags at the start (they show up in different colors on my screen).
What a good template can (and can't) do for you
The main things I think a template can help with are:
- Reduce repetitive typing: save 1-5 minutes on every problem by using small prewritten functions/macros for I/O, binary searches, etc. On CF this is pretty important, since getting problems A and B in 1-3 mins instead of 5-10 minutes helps my rating a lot. Less code typed for each problem also means less chances for typos, so it becomes a little easier to code correctly.
- Make debugging faster and easier: even when the intermediate steps are producing complicated data structures, the dbg() functionality lets me track down unexpected/buggy behaviour very fast. Before I had this template I used to code new debug printouts on every problem, and coding the printouts would distract me from focusing fully on thinking through my logic to actually find the mistake.
Overall, the template makes it way easier and faster for me to go from "having the right idea" to "getting AC". I always feel frustrated if I think of the correct plan but don't end up getting AC. My template makes the implementation process much smoother which helps me feel motivated and confident during contests and training, especially with new ideas/algorithms that I'm not very comfortable with.
Unfortunately, a template can't help you have the right solution ideas in the first place. For that you can instead read the thousands of blogs that already exist with more general advice about how to train ;)
I've read some CF blogs where strong coders say that a good coder shouldn't rely on a long template. I also see a very wide variety in template lengths even among LGMs. Overall, I think template size can just be personal preference, and you should experiment to see what feels best to you.
Special thanks
When creating my template, I started from Benq's TemplateLong.cpp (GitHub). My version is very different, but I still use lots of minor convenience features from his template.
The dbg() functionality is my heavily modified version of ideas stolen from tourist and tantam75, see blog.
Of course I've taken ideas or code from a ton of other sources too, mostly other CF blogs. Thanks everyone!
Questions, suggestions, advice?
I'm very interested to hear to advice about how to accomplish the same things in a better way, or feature requests that would make the template easier to use or more helpful, or even just random questions about why I did things a certain way. Some of my "weird" decisions are made on purpose to get around non-obvious issues that I didn't discuss in this blog, and others may be just because I'm clumsy with some of the tools I'm using here, so even asking "silly" questions can be useful — either I'll explain something you didn't see, or I'll learn something from your idea.
This is my first blog post after using Codeforces off and on for 6+ years, so I'm also interested to hear advice about how to make a more useful blog next time.