show/hide this revision's text 4 Grammar improvement.

Are you asking about the overhead of using try/catch/finally when exceptions aren't thrown, or the overhead of using exceptions to control process flow? The latter is somewhat akin to using a stick of dynamite to light a toddler's birthday candle, and the associated overhead falls into the following areas:

  • You can normally expect additional cache misses due to the thrown exception accessing resident data that is not normally in the cache.

  • You can normally expect additional page faults due to the thrown exception accessing non-resident code and data , not normally in your application's working set.

    • for example, throwing the exception will require the CLR to find the location of the finally and catch blocks based on the current IP and the return IP of every frame until the exception is handled plus the filter block.
    • additional construction cost and name resolution in order to create the frames for diagnostic purposes, including reading of metadata etc.

    • both of the above items typically access "cold" code and data, so hard page faults are probable if you have memory pressure at all:

      • the CLR tries to put code and data that is used infrequently far from data that is used frequently to improve locality, so this works against you because you're forcing the cold to be hot.
      • the cost of the hard page faults, if any, will dwarf everything else.
  • Typical catch situations are often deep, therefore the above effects would tend to be magnified (increasing the likelihood of page faults).

As for the actual impact of the cost, this can vary a lot depending on what else is going on in your code at the time. Jon Skeet has a good summary here, with some useful links. I tend to agree with his statement that if you get to the point where exceptions are significantly hurting your performance, you have problems in terms of your use of exceptions beyond just the performance.
show/hide this revision's text 3 Added short section on the likely impact.

Are you asking about the overhead of using try/catch/finally when exceptions aren't thrown, or the overhead of using exceptions to control process flow? The latter is somewhat akin to using a stick of dynamite to light a toddler's birthday candle, and the associated overhead falls into the following areas:

  • You can normally expect additional cache misses due to the thrown exception accessing resident data that is not normally in the cache.

  • You can normally expect additional page faults due to the thrown exception accessing non-resident code and data, not normally in your application's working set.

    • for example, throwing the exception will require the CLR to find the location of the finally and catch blocks based on the current IP and the return IP of every frame until the exception is handled plus the filter block.
    • additional construction cost and name resolution in order to create the frames for diagnostic purposes, including reading of metadata etc.

    • both of the above items typically access "cold" code and data, so hard page faults are probable if you have memory pressure at all:

      • the CLR tries to put code and data that is used infrequently far from data that is used frequently to improve locality, so this works against you because you're forcing the cold to be hot.
      • the cost of the hard page faults, if any, will dwarf everything else.
  • Typical catch situations are often deep, therefore the above effects would tend to be magnified (increasing the likelihood of page faults).

As for the actual impact of the cost, this can vary a lot depending on what else is going on in your code at the time. Jon Skeet has a good summary here, with some useful links. I tend to agree with his statement that if you get to the point where exceptions are significantly hurting your performance, you have problems in terms of your use of exceptions beyond just the performance.
show/hide this revision's text 2 added 16 characters in body

Are you asking about the overhead of using try/catch/finally when exceptions aren't thrown, or the overhead of using exceptions to control process flow? The latter is somewhat akin to using a stick of dynamite to light a toddler's birthday candle, and the associated overhead falls into the following areas:

  • You can normally expect additional cache misses due to the thrown exception accessing resident data that is not normally in the cache.

  • You can normally expect additional page faults due to the thrown exception accessing non-resident code and data, not normally in your application's working set.

    o

    • for example, throwing the exception will require the CLR to find the location of the finally and catch blocks based on the current IP and the return IP of every frame until the exception is handled plus the filter block.

      o

    • additional construction cost and name resolution in order to create the frames for diagnostic purposes, including reading of metadata etc.

      o

    • both of the above items typically access "cold" code and data, so hard page faults are probable if you have memory pressure at all:

      • the CLR tries to put code and data that is used infrequently far from data that is used frequently to improve locality, so this works against you because you're forcing the cold to be hot.
      • the cost of the hard page faults, if any, will dwarf everything else.
  • Typical catch situations are often deep, therefore the above effects would tend to be magnified (increasing the likelihood of page faults).
show/hide this revision's text 1