Monthly Archives: June 2019

What IPFS Fails to Address?

If you were to visit today, you can clearly see that IPFS attacks the Web (and its underlying protocol HTTP) head-on. It is obvious that IPFS yearns to replace the Web as we use today partially or fully at some point in the future and decentralise it whilst yielding enough profits to its investors. Of course while there is nothing wrong with that, I think IPFS is no more adequate to replace the Web than BitTorrent or WebTorrent is, until it addresses content insemination problem.

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How many values are errors in Go?

This post is written as a follow-up on Go’s Error Handling Sucks – A quantitative analysis upon the request of Herb Sutter who asked for a rough percentage of function calls that return error information to all function calls.

For this purpose, I have used the following regex for capturing function calls that return an error:

[a-zA-Z0-9_]*[eE]rr(or)? *:?= *([a-zA-Z0-9_]*\.)*[a-z-A-Z0-9_]+\(

and the following regex for capturing any function call:


The first regex relies on the convention that error is the last (or the only) value of any function that returns error information.

The second regex has the following shortcomings which should be understood:

  • Casts are mistaken as function calls.
    E.g. ENFILE = syscall.Errno(0x17)
  • Counting built-in “functions” such as len, append etc might be undesirable.
  • Function definitions, imports, and consts are confused as function calls, but I filtered them in my calculations.

Lastly, I have used the following commands to count:

ag --go --stats-only "[a-zA-Z0-9_]*[eE]rr(or)? *:?= *([a-zA-Z0-9_]*\\.)*[a-z-A-Z0-9_]+\\("

ag --go -v "func|const \\(|import \\(" | ag --stats-only "([a-zA-Z0-9_]*\\.)*[a-z-A-Z0-9_]+\\("

Here are the results:

# of Calls Returning error# of Function CallsRatio
Moby (Docker)37,044310,73611.92%
Cockroach DB24,498254,9269.61%
Mattermost (server)22,737214,75610.59%

For the record, here are the repositories used and their respective commits:

Go’s Error Handling Sucks – A quantitative analysis

Go’s error handling sucks because it forces its developers to propagate errors up the callstack manually, whereas you could CATCH and THROW errors since 1972 using MacLisp according to Wikipedia.

Some claim that Go’s way of handling errors encourages developers to actually handle the damn errors instead of letting exceptions float freely in the hope of someone else handling it. I believe, on the contrary, the way we currently handle errors leads to visual satiation where your screen is filled with if err != nil { return ... } blocks as you manually propagate errors. It has become a masochistic cult where veterans are trying to convince newcomers that this is actually better.

Another shortcoming of Go’s errors is that they are extremely primitive. error is an interface with a single method Error() that returns a string intended for humans. That’s it. Callstack or any other debugging information is missing by default, unless you choose a third-party package such as pkg/errors and Wrap() your errors as you propagate them. The standard library doesn’t encourage sane behaviour either, forcing developers to either string-search or cast errors in undocumented ways.

To prove how inefficient this is, I’ll grep the source code of Go’s flagship projects for the following snippet:

if [...; ] err != nil {
    return ...

which is nothing but simply propagating the error up the callstck (i.e. return the error to the caller as soon as you encounter an error); something a compiler or a runtime would do if we were using a more modern language using the exceptions mechanism. For this purpose, I’ll use the following regex:

err != nil {\n\t*return

and multiply the number of times this occurs with 3, since it takes three lines of code.

# Lines of Go Code# Lines of Code for Manual PropagationRatio
Moby (Docker)1,013,08718,7385.55%
Cockroach DB776,34012,2384.73%

In conclusion, 3.88% of the Go code written (excluding comments and blanks) consist of manual error propagation, which is problematic.

Even Russ Cox admits it.