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I have multiple goroutines in my program, each of which makes calls to fmt.Println without any explicit synchronization. Is this safe (i.e., will each line appear separately without data corruption), or do I need to create another goroutine with synchronization specifically to handle printing?

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It seems it's not totally guaranteed safe : groups.google.com/forum/?fromgroups=#!msg/golang-nuts/… –  dystroy Feb 4 '13 at 19:36
    
Are you using more than one thread? Have you set GOMAXPROCS > 1? –  Daniel Feb 4 '13 at 19:36
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I have not, but I'd like to know if what I'm doing is threadsafe in the general case. –  Taymon Feb 4 '13 at 19:55
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up vote 5 down vote accepted

No it's not safe even though you may not sometimes observe any troubles. IIRC, the fmt package tries to be on the safe side, so probably intermixing of some sort may occur but no process crash, hopefully.

This is an instance of a more universal Go documentation rule: Things are not safe for concurrent access unless specified otherwise or where obvious from context.

One can have a safe version of a nice subset of fmt.Print* functionality using the log package with some small initial setup.

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Everything fmt does falls back to w.Write() as can be seen here. Because there's no locking around it, everything falls back to the implementation of Write(). As there is still no locking (for Stdout at least), there is no guarantee your output will not be mixed.

I'd recommend using a global log routine.

Furthermore, if you simply want to log data, use the log package, which locks access to the output properly. See the implementation for reference.

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Well, it does seem like most things in fmt builds the string in an internal buffer, and call Write() once for each call to fmt.XXX - which will end up in one native write() call, which should be atomic –  nos Feb 4 '13 at 20:08
    
There is a buffer object, pp, yes. But I don't see where the call to Write is locked, which is necessary for this to be thread safe. –  nemo Feb 4 '13 at 20:17
    
@nos, IIUC write(2) is only atomic for the amount of bytes the device driver (or the underlying software stack) accepted. I mean, you might need several calls to write all your data, and in this case interleaving might occur naturally. –  kostix Feb 5 '13 at 7:44
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