We are getting very slow compile times, which can take upwards of 20+ minutes on dual core 2GHz, 2G Ram machines.

A lot of this is due to the size of our solution which has grown to 70+ projects, as well as VSS which is a bottle neck in itself when you have a lot of files. (swapping out VSS is not an option unfortunately, so I don't want this to descend into a VSS bash)

We are looking at merging projects. We are also looking at having multiple solutions to achieve greater separation of concerns and quicker compile times for each element of the application. This I can see will become a DLL hell as we try to keep things in synch.

I am interested to know how other teams have dealt with this scaling issue, what do you do when your code base reaches a critical mass that you are wasting half the day watching the status bar deliver compile messages.

UPDATE I neglected to mention this is a C# solution. Thanks for all the C++ suggestions, but it's been a few years since I've had to worry about headers.


Nice suggestions that have helped so far (not saying there aren't other nice suggestions below, just what has helped)

  • New 3GHz laptop - the power of lost utilization works wonders when whinging to management
  • Disable Anti Virus during compile
  • 'Disconnecting' from VSS (actually the network) during compile - I may get us to remove VS-VSS integration altogether and stick to using the VSS UI

Still not rip-snorting through a compile, but every bit helps.

Orion did mention in a comment that generics may have a play also. From my tests there does appear to be a minimal performance hit, but not high enough to sure - compile times can be inconsistent due to disc activity. Due to time limitations, my tests didn't include as many Generics, or as much code, as would appear in live system, so that may accumulate. I wouldn't avoid using generics where they are supposed to be used, just for compile time performance


We are testing the practice of building new areas of the application in new solutions, importing in the latest dlls as required, them integrating them into the larger solution when we are happy with them.

We may also do them same to existing code by creating temporary solutions that just encapsulate the areas we need to work on, and throwing them away after reintegrating the code. We need to weigh up the time it will take to reintegrate this code against the time we gain by not having Rip Van Winkle like experiences with rapid recompiling during development.

  • Wow I thought 20 second compile times were infuriatingly long. Feb 3, 2011 at 2:20
  • Try to advoid multiple solutions if at all possible, as refactoring becomes so much harder. Mar 25, 2011 at 12:25
  • You could use VSS outside of visual-studio that way you don’t get the overhead of visual-studio talking to VSS. Mar 25, 2011 at 12:36
  • How about the resources ? I can imagine they slow down the process. I've seen commercial software with exe files the size of CDs that you start from CD (not setup). They were full of videos, audio and pictures. So the software was just this one file....
    – Bitterblue
    Jul 22, 2014 at 13:09

34 Answers 34


The Chromium.org team listed several options for accelerating the build (at this point about half-way down the page):

In decreasing order of speedup:

  • Install Microsoft hotfix 935225.
  • Install Microsoft hotfix 947315.
  • Use a true multicore processor (ie. an Intel Core Duo 2; not a Pentium 4 HT).
  • Use 3 parallel builds. In Visual Studio 2005, you will find the option in Tools > Options... > Projects and Solutions > Build and Run > maximum number of parallel project builds.
  • Disable your anti-virus software for .ilk, .pdb, .cc, .h files and only check for viruses on modify. Disable scanning the directory where your sources reside. Don't do anything stupid.
  • Store and build the Chromium code on a second hard drive. It won't really speed up the build but at least your computer will stay responsive when you do gclient sync or a build.
  • Defragment your hard drive regularly.
  • Disable virtual memory.
  • 30
    By disable virtual memory I assume you mean disable swap, disabling virtual memory would require a rewrite of the entire OS ;p Jul 21, 2010 at 16:05
  • 9
    This look like an answer aimed at C++ builds not C# builds Mar 25, 2011 at 12:26
  • 2
    You're right! Though I should point out that I replied before he specified C#, and some of the fixes still apply.
    – Nate
    Mar 25, 2011 at 18:39
  • * Store the project on an SSD drive * Disable windows indexing (in a file manager, right click solution folder, Properties->Advanced, untick the "Allow files ... indexed ...")
    – nos
    Sep 24, 2014 at 7:41
  • +1 If you have enough RAM them keep project in RAM disk. It can improve performance dramatically upto 50-70%. check codeproject.com/Articles/197663/Speed-up-Visual-Studio-Builds for more information Apr 4, 2015 at 11:17

We have nearly 100 projects in one solution and a dev build time of only seconds :)

For local development builds we created a Visual Studio Addin that changes Project references to DLL references and unloads the unwanted projects (and an option to switch them back of course).

  • Build our entire solution once
  • Unload the projects we are not currently working on and change all project references to DLL references.
  • Before check-in change all references back from DLL to project references.

Our builds now only take seconds when we are working on only a few projects at a time. We can also still debug the additional projects as it links to the debug DLLs. The tool typically takes 10-30 seconds to make a large number of changes, but you don't have to do it that often.

Update May 2015

The deal I made (in comments below), was that I would release the plugin to Open Source if it gets enough interest. 4 years later it has only 44 votes (and Visual Studio now has two subsequent versions), so it is currently a low-priority project.

  • 2
    Also used this technique, with a solution having 180 projects. This helped a lot. You can even use the command line to build the entire solution `devenv.exe /build yoursolution /takealookatthedoc``... so you work with only few projects, and when required, you recompile the whole solution in a cmd line (after a get latest version for exemple)
    – Steve B
    Sep 17, 2011 at 10:06
  • Do you have any links that describe how this is done? I don't mean writing a VS plugin. Rather, the specific tasks described Feb 11, 2012 at 15:54
  • @Daniel Dyson: How detailed do you need to know? It all comes down to 1) loading any unloaded projects 2) iterating the solution/project/reference hierarchy 3) finding projects with references to other projects 4) changing the "chosen" references to DLL references (with correct hint paths) then 5) unloading the unwanted projects. "Chosen" is either via content menu (i.e. the selected projects(s)) or via a checkbox tree to select items. Feb 13, 2012 at 9:21
  • @HiTechMagic it would be nice to publish your addin :)
    – Michel
    Feb 22, 2012 at 8:07
  • 1
    @HiTechMagic Ah, sorry to hear that. But yes, releasing it as open source means we can all help. Please post the github link here if you do release it.
    – georgiosd
    Aug 11, 2013 at 8:40

I had a similar issue on a solution with 21 projects and 1/2 million LOC. The biggest difference was getting faster hard drives. From the performance monitor the 'Avg. Disk Queue' would jump up significantly on the laptop indicating the hard drive was the bottle neck.

Here's some data for total rebuild times...

1) Laptop, Core 2 Duo 2GHz, 5400 RPM Drive (not sure of cache. Was standard Dell inspiron).

Rebuild Time = 112 seconds.

2) Desktop (standard issue), Core 2 Duo 2.3Ghz, single 7200RPM Drive 8MB Cache.

Rebuild Time = 72 seconds.

3) Desktop Core 2 Duo 3Ghz, single 10000 RPM WD Raptor

Rebuild Time = 39 seconds.

The 10,000 RPM drive can not be understated. Builds where significantly quicker plus everything else like displaying documentation, using file explorer was noticable quicker. It was a big productivity boost by speeding the code-build-run cycle.

Given what companies spend on developer salaries it is insane how much they can waste buy equiping them with the same PCs as the receptionist uses.

  • 4
    How would a SSD compare to the raptor. Even faster i gues
    – RvdK
    May 27, 2010 at 8:48
  • 4
    Yup. My Laptop with an Intel X25M is faster in all aspects than my desktop with a WD Raptor.
    – CAD bloke
    Sep 4, 2010 at 4:56
  • 4
    It might sound surprising, but it currently isn't worth investing into a 10000 RPM drive. The reason is that the better 7200 RPM drives are faster at the outer rim. So, what one must do is create a small partition. The first partition is at the outer rim, this partition will be faster than a 7200 RPM drive, plus you still have space for a second large partition to store things on.
    – darklon
    Sep 16, 2010 at 12:22
  • 2
    @cornelius: can I get a link that elaborates your point? The only way the outer rim of a 7200 could be faster than the outer rim of a 10000 would be if the 7200s tended to have radius, which maybe could be, but really this trick would be sort of a hack and wouldn't provide benefit for the rest of the hard drive storage on the 7200 that is below the equilibrium radius at which the two drives have equal tangential velocity.
    – eremzeit
    Aug 9, 2011 at 18:55
  • 2
    I'm with CADbloke. We used raptors until last year when the price point lowered on SSDs to the point that we only use SSDs for the primary drives in our laptops/desktops. The speed increase is fantastic and is easily the single biggest factor in how long it takes to compile our solutions.
    – NotMe
    Dec 18, 2013 at 14:54

For C# .NET builds, you can use .NET Demon. It's a product that takes over the Visual Studio build process to make it faster.

It does this by analyzing the changes you made, and builds only the project you actually changed, as well as other projects that actually relied on the changes you made. That means if you only change internal code, only one project needs to build.

  • Isn't that what VS already does? Or you mean irrelevant changes like comments etc are discarded?
    – nawfal
    Dec 31, 2013 at 6:50
  • 1
    Redgate has unfortunately stopped the work on .net demon, so it's not working above VS 2013 Mar 5, 2015 at 9:42

Turn off your antivirus. It adds ages to the compile time.

  • 2
    ... for the code/compile folder. Turning of AV protection as a blanket-coverage rule isn't a brilliant idea. :o) Feb 5, 2010 at 9:10
  • 5
    You don't really need to turn it off, configuring it properly is usually enough. Add exceptions to the file types the compiler/linker works with. Some antivirus packages have these exceptions added by default, some don't.
    – darklon
    Sep 16, 2010 at 12:32
  • @cornelius What is the proper anti-virus configuration? Can you provide details? (maybe in a separate question?) Jan 30, 2011 at 16:22
  • @Pavel: Well, exclude file types that the compiler works with, for C++ that would be things like .o, .pdb, .ilk, .lib, .cpp, .h. Also, some antivirus software (eg. Avira AntiVir) allows you to set to scan files on read, write or both. Setting it to scan on read will give you 99% protection.
    – darklon
    Feb 10, 2011 at 22:25

Use distributed compilation. Xoreax IncrediBuild can cut compilation time down to few minutes.

I've used it on a huge C\C++ solution which usually takes 5-6 hours to compile. IncrediBuild helped to reduce this time to 15 minutes.

  • Installing IncrediBuild on several spare PCs reduced compile time by factor 10 or more for our C++ project with almost no administration effort.
    – Stiefel
    Mar 8, 2011 at 12:19
  • had the same experience aku... however link was still an issue hehe May 31, 2011 at 1:37
  • If you are going this route, then simply having a couple dedicated build servers would work. However it looks like the OP was trying to fix build times on the local dev machines.
    – NotMe
    Dec 18, 2013 at 14:55

Instructions for reducing your Visual Studio compile time to a few seconds

Visual Studio is unfortunately not smart enough to distinguish an assembly's interface changes from inconsequential code body changes. This fact, when combined with a large intertwined solutions, can sometimes create a perfect storm of unwanted 'full-builds' nearly every time you change a single line of code.

A strategy to overcome this is to disable the automatic reference-tree builds. To do this, use the 'Configuration Manager' (Build / Configuration Manager...then in the Active solution configuration dropdown, choose 'New') to create a new build configuration called 'ManualCompile' that copies from the Debug configuration, but do not check the 'Create new project configurations' checkbox. In this new build configuration, uncheck every project so that none of them will build automatically. Save this configuration by hitting 'Close'. This new build configuration is added to your solution file.

You can switch from one build configuration to another via the build configuration dropdown at the top of your IDE screen (the one that usually shows either 'Debug' or 'Release'). Effectively this new ManualCompile build configuration will render useless the Build menu options for: 'Build Solution' or 'Rebuild Solution'. Thus, when you are in the ManualCompile mode, you must manually build each project that you are modifying, which can be done by right-clicking on each affected project in the Solution Explorer, and then selecting 'Build' or 'Rebuild'. You should see that your overall compile times will now be mere seconds.

For this strategy to work, it is necessary for the VersionNumber found in the AssemblyInfo and GlobalAssemblyInfo files to remain static on the developer's machine (not during release builds of course), and that you don't sign your DLLs.

A potential risk of using this ManualCompile strategy is that the developer might forget to compile required projects, and when they start the debugger, they get unexpected results (unable to attach debugger, files not found, etc.). To avoid this, it is probably best to use the 'Debug' build configuration to compile a larger coding effort, and only use the ManualCompile build configuration during unit testing or for making quick changes that are of limited scope.


If this is C or C++, and you're not using precompiled headers, you should be.

  • If pre-compiled headers work for you, then they're a good trick, but they only work if you can establish a strong common subset of headers that rarely change. If you keep having to precompile the headers most of the time that you build, then you aren't saving anything.
    – Tom Swirly
    Apr 29, 2011 at 16:54

We had a 80+ projects in our main solution which took around 4 to 6 minutes to build depending on what kind of machine a developer was working. We considered that to be way too long: for every single test it really eats away your FTEs.

So how to get faster build times? As you seem to already know it is the number of projects that really hurt the buildtime. Of course we did not want to get rid of all our projects and simply throw all sourcefiles into one. But we had some projects that we could combine nevertheless: As every "Repository project" in the solution had its own unittest project, we simply combined all the unittest projects into one global-unittest project. That cut down the number of projects with about 12 projects and somehow saved 40% of the time to build the entire solution.

We are thinking about another solution though.

Have you also tried to setup a new (second) solution with a new project? This second solution should simply incorporates all files using solution folders. Because you might be surprised to see the build time of that new solution-with-just-one-project.

However, working with two different solutions will take some carefull consideration. Developers might be inclined to actually -work- in the second solution and completely neglect the first. As the first solution with the 70+ projects will be the solution that takes care of your object-hierarchy, this should be the solution where your buildserver should run all your unittests. So the server for Continous Integration must be the first project/solution. You have to maintain your object-hierarchy, right.

The second solution with just one project (which will build mucho faster) will than be the project where testing and debugging will be done by all developers. You have to take care of them looking at the buildserver though! If anything breaks it MUST be fixed.


Make sure your references are Project references, and not directly to the DLLs in the library output directories.

Also, have these set to not copy locally except where absolutely necessary (The master EXE project).

  • Can you explain why this is faster? "Project references" implies project building (which is much slower than a direct DLL reference). May 11, 2015 at 10:01

I posted this response originally here: https://stackoverflow.com/questions/8440/visual-studio-optimizations#8473 You can find many other helpful hints on that page.

If you are using Visual Studio 2008, you can compile using the /MP flag to build a single project in parallel. I have read that this is also an undocumented feature in Visual Studio 2005, but have never tried myself.

You can build multiple projects in parallel by using the /M flag, but this is usually already set to the number of available cores on the machine, though this only applies to VC++ I believe.


I notice this question is ages old, but the topic is still of interest today. The same problem bit me lately, and the two things that improved build performance the most were (1) use a dedicated (and fast) disk for compiling and (2) use the same outputfolder for all projects, and set CopyLocal to False on project references.

Some additional resources:


Some analysis tools:

tools->options->VC++ project settings -> Build Timing = Yes will tell you build time for every vcproj.

Add /Bt switch to compiler command line to see how much every CPP file took

Use /showIncludes to catch nested includes (header files that include other header files), and see what files could save a lot of IO by using forward declarations.

This will help you optimize compiler performance by eliminating dependencies and performance hogs.


Before spending money to invest in faster hard drives, try building your project entirely on a RAM disk (assuming you have the RAM to spare). You can find various free RAM disk drivers on the net. You won't find any physical drive, including SSDs, that are faster than a RAM disk.

In my case, a project that took 5 minutes to build on a 6-core i7 on a 7200 RPM SATA drive with Incredibuild was reduced by only about 15 seconds by using a RAM disk. Considering the need to recopy to permanent storage and the potential for lost work, 15 seconds is not enough incentive to use a RAM disk and probably not much incentive to spend several hundreds of dollars on a high-RPM or SSD drive.

The small gain may indicate that the build was CPU bound or that Windows file caching was rather effective, but since both tests were done from a state where the files weren't cached, I lean heavily towards CPU-bound compiles.

Depending on the actual code you're compiling your mileage may vary -- so don't hesitate to test.


How big is your build directory after doing a complete build? If you stick with the default setup then every assembly that you build will copy all of the DLLs of its dependencies and its dependencies' dependencies etc. to its bin directory. In my previous job when working with a solution of ~40 projects my colleagues discovered that by far the most expensive part of the build process was copying these assemblies over and over, and that one build could generate gigabytes of copies of the same DLLs over and over again.

Here's some useful advice from Patrick Smacchia, author of NDepend, about what he believes should and shouldn't be separate assemblies:


There are basically two ways you can work around this, and both have drawbacks. One is to reduce the number of assemblies, which is obviously a lot of work. Another is to restructure your build directories so that all your bin folders are consolidated and projects do not copy their dependencies' DLLs - they don't need to because they are all in the same directory already. This dramatically reduces the number of files created and copied during a build, but it can be difficult to set up and can leave you with some difficulty pulling out only the DLLs required by a specific executable for packaging.

  • I have left the job that this was an issue for a while back, but in my new position, this is exactly what we have implemented! Cheers. JC
    – johnc
    Jan 10, 2011 at 20:51

Perhaps take some common functions and make some libraries, that way the same sources are not being compiled over and over again for multiple projects.

If you are worried about different versions of DLLs getting mixed up, use static libraries.

  • The DLL (and its various cousins likes shared libraries) is almost always a bad idea for an application developer today. Executables are small, even if you link in every last library you use and the amount of memory you save by sharing the code is also small. DLLs hark back to the days when program code footprint in memory and on disk was of key importance, but the size of data, of memory, and of disk have grown much faster than the size of programs.
    – Tom Swirly
    Apr 29, 2011 at 16:58

Turn off VSS integration. You may not have a choice in using it, but DLLs get "accidentally" renamed all the time...

And definitely check your pre-compiled header settings. Bruce Dawson's guide is a bit old, but still very good - check it out: http://www.cygnus-software.com/papers/precompiledheaders.html

  • Certainly we can turn off integration to VSS and drive it through Source Safe UI instead. Nice thought
    – johnc
    Sep 11, 2008 at 2:15

I have a project which has 120 or more exes, libs and dlls and takes a considerable time to build. I use a tree of batch files that call make files from one master batch file. I have had problems with odd things from incremental (or was it temperamental) headers in the past so I avoid them now. I do a full build infrequently, and usually leave it to the end of the day while I go for a walk for an hour (so I can only guess it takes about half an hour). So I understand why that is unworkable for working and testing.

For working and testing I have another set of batch files for each app (or module or library) which also have all the debugging settings in place -- but these still call the same make files. I may switch DEBUG on of off from time to time and also decide on builds or makes or if I want to also build libs that the module may depend on, and so on.

The batch file also copies the completed result into the (or several) test folders. Depending of the settings this completes in several seconds to a minute (as opposed to say half an hour).

I used a different IDE (Zeus) as I like to have control over things like .rc files, and actually prefer to compile from the command line, even though I am using MS compliers.

Happy to post an example of this batch file if anyone is interested.


Disable file system indexing on your source directories (specifically the obj directories if you want your source searchable)


If this is a web app, setting batch build to true can help depending on the scenario.

<compilation defaultLanguage="c#" debug="true" batch="true" >  

You can find an overview here: http://weblogs.asp.net/bradleyb/archive/2005/12/06/432441.aspx


You also may want to check for circular project references. It was an issue for me once.

That is:

Project A references Project B

Project B references Project C

Project C references Project A

  • 1
    If this was the case, the solution would never compile.
    – Michael
    Feb 24, 2012 at 17:19
  • @Michael it will compile if you reference dll's in the debug directory, instead of using project references. Jan 3, 2016 at 3:33

One cheaper alternative to Xoreax IB is the use of what I call uber-file builds. It's basically a .cpp file that has

#include "file1.cpp"
#include "file2.cpp"
#include "fileN.cpp"

Then you compile the uber units instead of the individual modules. We've seen compile times from from 10-15 minutes down to 1-2 minutes. You might have to experiemnt with how many #includes per uber file make sense. Depends on the projects. etc. Maybe you include 10 files, maybe 20.

You pay a cost so beware:

  1. You can't right click a file and say "compile..." as you have to exclude the individual cpp files from the build and include only the uber cpp files
  2. You have to be careful of static global variable conflicts.
  3. When you add new modules, you have to keep the uber files up to date

It's kind of a pain, but for a project that is largely static in terms of new modules, the intial pain might be worth it. I've seen this method beat IB in some cases.


If it's a C++ project, then you should be using precompiled headers. This makes a massive difference in compile times. Not sure what cl.exe is really doing (with not using precompiled headers), it seems to be looking for lots of STL headers in all of the wrong places before finally going to the correct location. This adds entire seconds to every single .cpp file being compiled. Not sure if this is a cl.exe bug, or some sort of STL problem in VS2008.


Looking at the machine that you're building on, is it optimally configured?

We just got our build time for our largest C++ enterprise-scale product down from 19 hours to 16 minutes by ensuring the right SATA filter driver was installed.


  • Drive speed is certainly a contributing factor
    – johnc
    Dec 1, 2009 at 21:11
  • Not optimally configured. 2gb RAM is way too little to start with.
    – TomTom
    Sep 14, 2010 at 22:44

There's undocumented /MP switch in Visual Studio 2005, see http://lahsiv.net/blog/?p=40, which would enable parallel compilation on file basis rather than project basis. This may speed up compiling of the last project, or, if you compile one project.


When choosing a CPU: L1 cache size seems to have a huge impact on compilation time. Also, it is usually better to have 2 fast cores than 4 slow ones. Visual Studio doesn't use the extra cores very effectively. (I base this on my experience with the C++ compiler, but it is probably also true for the C# one.)


I'm also now convinced there is a problem with VS2008. I'm running it on a dual core Intel laptop with 3G Ram, with anti-virus switched off. Compiling the solution is often quite slick, but if I have been debugging a subsequent recompile will often slow down to a crawl. It is clear from the continuous main disk light that there is a disk I/O bottleneck (you can hear it, too). If I cancel the build and shutdown VS the disk activity stops. Restart VS, reload the solution and then rebuild, and it is much faster. Unitl the next time

My thoughts are that this is a memory paging issue - VS just runs out of memory and the O/S starts page swapping to try to make space but VS is demanding more than page swapping can deliver, so it slows down to a crawl. I can't think of any other explanation.

VS definitely is not a RAD tool, is it?

  • I had that problem with VS2005 too - definitely paging
    – johnc
    Oct 5, 2010 at 22:13

Does your company happen to use Entrust for their PKI/Encryption solution by any chance? It turns out, we were having abysmal build performance for a fairly large website built in C#, taking 7+ minutes on a Rebuild-All.

My machine is an i7-3770 with 16gb ram and a 512GB SSD, so performance should not have been that bad. I noticed my build times were insanely faster on an older secondary machine building the same codebase. So I fired up ProcMon on both machines, profiled the builds, and compared the results.

Lo and behold, the slow-performing machine had one difference -- a reference to the Entrust.dll in the stacktrace. Using this newly acquired info, I continued to search StackOverflow and found this: MSBUILD (VS2010) very slow on some machines. According to the accepted answer the problem lies in the fact the Entrust handler was processing the .NET certificate checks instead of the native Microsoft handler. Tt is also suggested that Entrust v10 solves this issue that is prevalent in Entrust 9.

I currently have it uninstalled and my build times plummeted to 24 seconds. YYMV with the number of projects you currently are building and may not directly address the scaling issue you were inquiring about. I will post an edit to this response if I can provide a fix without resorting to an uninstallation the software.


It's sure there's a problem with VS2008. Because the only thing I've done it's to install VS2008 for upgrading my project which has been created with VS2005. I've only got 2 projects in my solution. It isn't big. Compilation with VS2005 : 30 secondes Compilation with VS2008 : 5 minutes

  • There must be another issue there, 2 projects should run fine on a decent machine
    – johnc
    Mar 31, 2009 at 18:21

Nice suggestions that have helped so far (not saying there aren't other nice suggestions below, if you are having issues, I recommend reading then, just what has helped us)

  • New 3GHz laptop - the power of lost utilization works wonders when whinging to management
  • Disable Anti Virus during compile
  • 'Disconnecting' from VSS (actually the network) during compile - I may get us to remove VS-VSS integration altogether and stick to using the VSS UI

Still not rip-snorting through a compile, but every bit helps.

We are also testing the practice of building new areas of the application in new solutions, importing in the latest dlls as required, them integrating them into the larger solution when we are happy with them.

We may also do them same to existing code by creating temporary solutions that just encapsulate the areas we need to work on, and throwing them away after reintegrating the code. We need to weigh up the time it will take to reintegrate this code against the time we gain by not having Rip Van Winkle like experiences with rapid recompiling during development.

Orion did mention in a comment that generics may have a play also. From my tests there does appear to be a minimal performance hit, but not high enough to sure - compile times can be inconsistent due to disc activity. Due to time limitations, my tests didn't include as many Generics, or as much code, as would appear in live system, so that may accumulate. I wouldn't avoid using generics where they are supposed to be used, just for compile time performance

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