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I am trying to optimize a Haskell program. In the profiler output, I see that a lot of time is spent inside compare and == functions. But, the GHC profiler doesn't tell me anything more than the module name of those functions. I guess these are the GHC generated functions using deriving Eq and Ord. I wonder if there is an easy way to pinpoint where the actual problem is. For instance, using {-# SCC "more-specific-name" #-} for those functions.

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    compare and == are already the most specific names. They are the names of the methods from the Ord class. The deriving clause is an instance declaration where you defined the dictionary associated to an instance of the class. It seems like if you want to remove overloading from the code, but to do this you probably simply have to remove polymorphism from the code or use some PRAGMA for the compiler. – Bakuriu Jul 8 '15 at 18:38
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    I don't want to remove overloading. I just want to find out if == is for type A or B. It could be easily done for hand written instances: set a different name for the implementation of each instance. But, since the implementation of the Eq is hidden from me (unless I implement it myself, not using the deriving keyword), I cannot use the SCC pragma. – Oxy Jul 8 '15 at 18:53
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    By the way, compare and == are not the most specific names, I guess. They could be something like A.compare or == of B. – Oxy Jul 8 '15 at 18:57
  • I haven't used it, and it looks like it requires Template Haskell, but Data.Derive can spit out the code for derived instances, though possibly not the same code GHC generates. – NovaDenizen Jul 8 '15 at 21:06
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    There's a 3 year old open GHC feature request for this, which alas seems to have got little attention. – Ørjan Johansen Jul 10 '15 at 3:38
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Use -ddump-deriv to dump out the code for the actual derived instances GHC generates, then grab the code and put it under your own explicitly defined functions. Then explicitly derive the instances and point them at your functions.

  • This sounds to be a reasonable workaround, but I get weird field names such as g2_ag0CR and b_aidSP in the output. Optimization is also turned off with -O0, but it doesn't help. – Oxy Jul 9 '15 at 22:02
  • Those are unique names GHC generates. They're created there and only used there, so you can manually rename them to anything you want, like mytype_compare or mytype_eq. – NovaDenizen Jul 9 '15 at 22:06
  • All right, it seems that this approach is not so straight forward. I had to fix a lot of things manually, but I cannot figure out this one: there are a few calls to a $con2tag_Foo function, which I cannot find the definition in the dump. Do you have any idea about it? – Oxy Jul 9 '15 at 23:48
  • Googling for con2tag_Foo ghc found me this explanation. con2tag_Foo :: Foo ... -> Int# seems to be a function for converting a value of type Foo ... to an Int# tag for its constructor, numbered starting at 0, and is (or was, the file seems to have no HEAD version?) used to make more efficient instances of various classes. – Ørjan Johansen Jul 10 '15 at 4:05
  • $con2tag looks like it's deep internal GHC magic. I think it represents an inaccessible ghc-internal function created along with the datatype. – NovaDenizen Jul 10 '15 at 6:56

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