Andrzej Warzynski via llvm-dev
2020-Jun-02 12:08 UTC
[llvm-dev] [RFC] Refactor Clang: move frontend/driver/diagnostics code to LLVM
*TL;DR* We propose some non-trivial refactoring in Clang and LLVM to enable further work on Flang driver. *SUMMARY* We would like to start extracting the driver/frontend code from Clang (alongside the code that the driver/frontend depends on, e.g. Diagnostics) and move the components that could be re-used by non-C-based languages to LLVM. From our initial investigation we see that these changes will impact many projects (upstream and downstream) and will require big mechanical patches (our first attempt is implemented in [8]). This is not ideal, but seems unavoidable in the long-term. We would like to do this refactoring _before_ we start implementing the Flang driver upstream (OPTION 1 below). This way we avoid: * contaminating Clang with Fortran specific code (and vice versa) * introducing dependency on Clang in Flang The downside is that the refactoring is likely to be disruptive for many projects that use Clang. We will try our best to minimise this. Does this approach make sense? Are there any preferred alternatives? At this stage we'd like to discuss the overall direction. If folks are in favour, we'll send a separate RFC with a finer breakdown and more technical details for the refactoring. Below you will find more context for our use-case (the Flang driver) and possible alternatives. We hope that this will help the discussion. We would really appreciate your feedback! *BACKGROUND* Flang (formerly known as F18) has recently been merged into LLVM [1]. Our ambition, as a community, is to make it as flexible, robust and nice to work with as Clang. One of the major items to address is the implementation of a driver that would provide the flexibility and user experience similar to that available in Clang. The F18/Flang driver was already discussed on cfe-dev last year [2], but back then F18 (now llvm project/flang) was a separate project. In the original proposal it was assumed that initially Flang would depend (and extend where necessary) Clang's driver/frontend code. Since F18/Flang was an independent project, the refactoring of Clang/LLVM wasn't really considered. That design has been challenged since ([3], [10]), and also not much progress has been made. We would like to revisit that RFC from a slightly different angle. Since Flang is now part of LLVM's monorepo, we feel that refactoring Clang/LLVM _before_ we upstream the driver makes a lot of sense and is the natural first step. *ASSUMPTIONS & DESIGN GOALS* 1. We will re-use as much of the Clang's driver/frontend code as possible (this was previously proposed in [2]). 2. We want to avoid dependencies from Flang to Clang, both long-term (strong requirement) and short-term (might be difficult to achieve). This has recently come up in a discussion on one of our early patches [3] (tl;dr Steve Scalpone, the code owner of Flang, would prefer us to avoid this dependency), and was also suggested before by Eric Christopher [10]. 3. We will move the code that can be shared between Flang and Clang (and other projects) to LLVM. This idea has already come up on llvm-dev before [7] (in a slightly different context, and to a slightly different extent). The methods that are not language specific would be shared in an LLVM library. 4. The classes/types/methods that need specific changes for Fortran will be "copied" to Flang and adapted as needed. We should minimize (or even eliminate) any Fortran specific code from Clang and make sure that that lives in llvm-project/flang. *FLANG'S DEPENDENCIES ON CLANG* These are the dependencies on Clang that we have identified so far while prototyping the Flang driver. 1. All the machinery related to Diagnostics & SourceLocation. This is currently part of libclangBasic [4] and is used in _many_ places in Clang. The official documentation [5] suggests that this could be re-used for non-C-based languages. In particular, we feel that It would make a lot of sense for Flang to use it. Also, separating Clang's driver/frontend code and the diagnostics would require a lot of refactoring for no real benefit (and we feel that Flang should re-use Clang's driver/frontend code, see below). This dependency is used in many places, so moving it to LLVM will require a lot of (mostly) mechanical changes. We can't see an obvious way to split it into smaller chunks (see also below where we discuss the impact). 2. libclangFrontend & libclangDriver The Flang driver will use many methods from libClangDriver, libClangFrontend and libClangFrontendTool. Driver.h and Compilation.h from libClangDriver are responsible to call, pass the correct arguments and execute the driver. TextDiagnosticPrinter.h takes care of printing the driver diagnostics in case of errors. The Flang frontend will use CompilerInstance, CompilerInvocation, FrontendOptions, FrontendActions and Utils from libClangFrontend and libClangFrontendTool. These methods are responsible for translating the command line arguments to frontend Options and later to Actions to be executed by ExecuteCompilerInvocation. The translation from arguments to Actions happens with FrontendOption and FrontendActions. But it is the CompilerInvocation that has the pointers for the sequence of Actions that are required in a Compiler Instance. These methods are needed to implement Flang driver/frontend and contain actions/method/functions that seem to be language agnostic. *ALTERNATIVES* This is a summary of the alternative ways of implementing the Flang driver. We propose OPTION 1. If there are no major objections, we will draft a separate RFC with more technical details (we will also break it down into smaller pieces). Otherwise, what would be your preferred alternative and why? OPTION 1 We avoid dependency on Clang from Day 1. This is the ideal scenario that would guarantee that Clang and Flang are completely separate and that the common bits stay in LLVM instead. It would mean slower progress for us initially, but then other projects could benefit from the refactoring sooner rather than later. OPTION 2 We avoid dependency on clangBasic from day 1, but initially allow dependency on libClangFrontend & libClangDriver (or other libs specific to the driver/frontend). The dependency on libclang{Driver|Frontend} would gradually be removed/refactored out as the driver for Flang gains momentum. As mentioned earlier, there is plenty of code in libClangFrontend and libClangDriver that we'd like to re-use, but the separation between code that's specific to C-based languages and generic driver/frontend code is not always obvious. We think that refactoring the common bits in libClangFrontend and libClangDriver might simply be easier once: * we have a Flang driver that leverages these libraries, and, as a result, * we understand better what we could re-use and what's not that relevant to non-C-based languages. OPTION 3 We initially keep the dependency on Clang and re-visit this RFC later. This would be the least disruptive approach (at least for the time being) and would allow us to make us the most rapid progress (i.e. we would be focusing on implementing the features rather than refactoring). It would also inform the future refactoring better. But it was already pointed out that we should avoid dependencies on clang [3] and this would be a step in the opposite direction. Also, the build requirements for Flang would increase, and we feel that we should strive to reduce them instead [6]. If we missed any alternatives, please bring them up. *IMPACT ON OTHER PROJECTS* The refactoring will have non-trivial impact on other projects: * OPTION 1 and OPTION 2 - huge impact initially. * OPTION 3 - no impact initially, but most likely similar impact as OPTION 1 and OPTION 2 in the long term. From our initial investigation, extracting Diagnostics/SourceLocation from clangBasic and moving it to LLVM will be the most impactful change. Within llvm-project it is used in clang, clang-tools-extra, lldb and polly. Most of the changes will be mechanical, but will require touching many files. In order to get to a state where we could build libclang using the newly defined LLVM library, we had to touch ~850 files and make ~30k insertions/deletions. The result of this exercise is available in our development fork of llvm-project [8]. Please note: our patches on GitHub [8] are just experiments to illustrate the idea. It's work-in-progress that requires a lot of polishing. When/if up-streaming this, we would need to do some low-impact refactoring first. For example, currently ASTReader & ASTWriter are `friends` with DiagnosticsEngine [9]. That won't be possible when DiagnosticsEngine is moved to LLVM. On behalf of the Arm Fortran Team, Andrzej Warzynski REFERENCES [1] https://github.com/llvm/llvm-project/commit/b98ad941a40c96c841bceb171725c925500fce6c [2] http://lists.llvm.org/pipermail/cfe-dev/2019-June/062669.html [3] https://reviews.llvm.org/D79092 [4] https://github.com/llvm/llvm-project/blob/ad5d319ee85d31ee2b1ca5c29b3a10b340513fec/clang/lib/Basic/CMakeLists.txt#L45-L47 [5] https://clang.llvm.org/docs/InternalsManual.html#the-clang-basic-library [6] http://lists.llvm.org/pipermail/flang-dev/2019-November/000061.html [7] http://lists.llvm.org/pipermail/llvm-dev/2019-November/136743.html [8] https://github.com/banach-space/llvm-project/commits/andrzej/refactor_clangBasic [9] https://github.com/llvm/llvm-project/blob/b11ecd196540d87cb7db190d405056984740d2ce/clang/include/clang/Basic/Diagnostic.h#L985-L986 [10] https://reviews.llvm.org/D63607
Robinson, Paul via llvm-dev
2020-Jun-02 13:43 UTC
[llvm-dev] [cfe-dev] [RFC] Refactor Clang: move frontend/driver/diagnostics code to LLVM
> 1. All the machinery related to Diagnostics & SourceLocation. > > This is currently part of libclangBasic [4] and is used in _many_ places > in Clang. The official documentation [5] suggests that this could be > re-used for non-C-based languages. In particular, we feel that It would > make a lot of sense for Flang to use it. Also, separating Clang's > driver/frontend code and the diagnostics would require a lot of > refactoring for no real benefit (and we feel that Flang should re-use > Clang's driver/frontend code, see below). This dependency is used in > many places, so moving it to LLVM will require a lot of (mostly) > mechanical changes. We can't see an obvious way to split it into smaller > chunks (see also below where we discuss the impact).This totally makes sense to me. It has been a couple of decades but I remember working with the OpenVMS GEM compiler system, and it had all the source-management stuff in the equivalent of an LLVM library for use by all front-ends. A consistent view of source coordinates across the front-end and back-end was nice to have; I don't think moving the Clang notion into an LLVM library gets us there, but it's a step in a direction that I like. I can imagine that some of the driver stuff would also be reusable, but I don't have any direct experience to draw on there. Flang would obviously be the in-tree beneficiary; are there downstream projects that would like this change? I don't mean speculatively, have you tried asking around (Julia and Rust pop to mind)? Interested downstream consumers would provide a bit more motivation for such a widespread refactoring. --paulr
Andrzej Warzynski via llvm-dev
2020-Jun-02 16:04 UTC
[llvm-dev] [cfe-dev] [RFC] Refactor Clang: move frontend/driver/diagnostics code to LLVM
On 02/06/2020 14:43, Robinson, Paul wrote:> > Flang would obviously be the in-tree beneficiary; are there downstream > projects that would like this change? I don't mean speculatively, have > you tried asking around (Julia and Rust pop to mind)? Interested > downstream consumers would provide a bit more motivation for such a > widespread refactoring.That's a good suggestion, thank you! I've just posted the following: * Julia: https://discourse.julialang.org/t/refactoring-clang-could-this-benefit-julia/40621) * Rust: https://internals.rust-lang.org/t/refactoring-clang-could-this-benefit-rust/12479 * Swift: https://forums.swift.org/t/refactoring-clang-could-this-benefit-swift/37151 Hopefully somebody from those communities will comment here. If not, I will summarise any discussion happening outside llvm-dev in a separate message. Please let me know if you think that the above list is incomplete! -Andrzej
Chris Tetreault via llvm-dev
2020-Jun-02 17:04 UTC
[llvm-dev] [cfe-dev] [RFC] Refactor Clang: move frontend/driver/diagnostics code to LLVM
Seems reasonable to me. Much better than putting a bunch of Fortran stuff in clang. I wonder if, instead of just putting it in llvm, it makes sense to have some sort of "llvm-frontend" subproject? It could contain all the language agnostic frontend stuff being pulled out of clang, as well as the clang and flang frontends. We currently already kind of have this divide with clang being the only in tree frontend, having its own subproject outside of llvm and having all of this stuff. Thanks, Christopher Tetreault -----Original Message----- From: cfe-dev <cfe-dev-bounces at lists.llvm.org> On Behalf Of Andrzej Warzynski via cfe-dev Sent: Tuesday, June 2, 2020 5:08 AM To: llvm-dev at lists.llvm.org; cfe-dev at lists.llvm.org; flang-dev at lists.llvm.org Subject: [EXT] [cfe-dev] [RFC] Refactor Clang: move frontend/driver/diagnostics code to LLVM *TL;DR* We propose some non-trivial refactoring in Clang and LLVM to enable further work on Flang driver. *SUMMARY* We would like to start extracting the driver/frontend code from Clang (alongside the code that the driver/frontend depends on, e.g. Diagnostics) and move the components that could be re-used by non-C-based languages to LLVM. From our initial investigation we see that these changes will impact many projects (upstream and downstream) and will require big mechanical patches (our first attempt is implemented in [8]). This is not ideal, but seems unavoidable in the long-term. We would like to do this refactoring _before_ we start implementing the Flang driver upstream (OPTION 1 below). This way we avoid: * contaminating Clang with Fortran specific code (and vice versa) * introducing dependency on Clang in Flang The downside is that the refactoring is likely to be disruptive for many projects that use Clang. We will try our best to minimise this. Does this approach make sense? Are there any preferred alternatives? At this stage we'd like to discuss the overall direction. If folks are in favour, we'll send a separate RFC with a finer breakdown and more technical details for the refactoring. Below you will find more context for our use-case (the Flang driver) and possible alternatives. We hope that this will help the discussion. We would really appreciate your feedback! *BACKGROUND* Flang (formerly known as F18) has recently been merged into LLVM [1]. Our ambition, as a community, is to make it as flexible, robust and nice to work with as Clang. One of the major items to address is the implementation of a driver that would provide the flexibility and user experience similar to that available in Clang. The F18/Flang driver was already discussed on cfe-dev last year [2], but back then F18 (now llvm project/flang) was a separate project. In the original proposal it was assumed that initially Flang would depend (and extend where necessary) Clang's driver/frontend code. Since F18/Flang was an independent project, the refactoring of Clang/LLVM wasn't really considered. That design has been challenged since ([3], [10]), and also not much progress has been made. We would like to revisit that RFC from a slightly different angle. Since Flang is now part of LLVM's monorepo, we feel that refactoring Clang/LLVM _before_ we upstream the driver makes a lot of sense and is the natural first step. *ASSUMPTIONS & DESIGN GOALS* 1. We will re-use as much of the Clang's driver/frontend code as possible (this was previously proposed in [2]). 2. We want to avoid dependencies from Flang to Clang, both long-term (strong requirement) and short-term (might be difficult to achieve). This has recently come up in a discussion on one of our early patches [3] (tl;dr Steve Scalpone, the code owner of Flang, would prefer us to avoid this dependency), and was also suggested before by Eric Christopher [10]. 3. We will move the code that can be shared between Flang and Clang (and other projects) to LLVM. This idea has already come up on llvm-dev before [7] (in a slightly different context, and to a slightly different extent). The methods that are not language specific would be shared in an LLVM library. 4. The classes/types/methods that need specific changes for Fortran will be "copied" to Flang and adapted as needed. We should minimize (or even eliminate) any Fortran specific code from Clang and make sure that that lives in llvm-project/flang. *FLANG'S DEPENDENCIES ON CLANG* These are the dependencies on Clang that we have identified so far while prototyping the Flang driver. 1. All the machinery related to Diagnostics & SourceLocation. This is currently part of libclangBasic [4] and is used in _many_ places in Clang. The official documentation [5] suggests that this could be re-used for non-C-based languages. In particular, we feel that It would make a lot of sense for Flang to use it. Also, separating Clang's driver/frontend code and the diagnostics would require a lot of refactoring for no real benefit (and we feel that Flang should re-use Clang's driver/frontend code, see below). This dependency is used in many places, so moving it to LLVM will require a lot of (mostly) mechanical changes. We can't see an obvious way to split it into smaller chunks (see also below where we discuss the impact). 2. libclangFrontend & libclangDriver The Flang driver will use many methods from libClangDriver, libClangFrontend and libClangFrontendTool. Driver.h and Compilation.h from libClangDriver are responsible to call, pass the correct arguments and execute the driver. TextDiagnosticPrinter.h takes care of printing the driver diagnostics in case of errors. The Flang frontend will use CompilerInstance, CompilerInvocation, FrontendOptions, FrontendActions and Utils from libClangFrontend and libClangFrontendTool. These methods are responsible for translating the command line arguments to frontend Options and later to Actions to be executed by ExecuteCompilerInvocation. The translation from arguments to Actions happens with FrontendOption and FrontendActions. But it is the CompilerInvocation that has the pointers for the sequence of Actions that are required in a Compiler Instance. These methods are needed to implement Flang driver/frontend and contain actions/method/functions that seem to be language agnostic. *ALTERNATIVES* This is a summary of the alternative ways of implementing the Flang driver. We propose OPTION 1. If there are no major objections, we will draft a separate RFC with more technical details (we will also break it down into smaller pieces). Otherwise, what would be your preferred alternative and why? OPTION 1 We avoid dependency on Clang from Day 1. This is the ideal scenario that would guarantee that Clang and Flang are completely separate and that the common bits stay in LLVM instead. It would mean slower progress for us initially, but then other projects could benefit from the refactoring sooner rather than later. OPTION 2 We avoid dependency on clangBasic from day 1, but initially allow dependency on libClangFrontend & libClangDriver (or other libs specific to the driver/frontend). The dependency on libclang{Driver|Frontend} would gradually be removed/refactored out as the driver for Flang gains momentum. As mentioned earlier, there is plenty of code in libClangFrontend and libClangDriver that we'd like to re-use, but the separation between code that's specific to C-based languages and generic driver/frontend code is not always obvious. We think that refactoring the common bits in libClangFrontend and libClangDriver might simply be easier once: * we have a Flang driver that leverages these libraries, and, as a result, * we understand better what we could re-use and what's not that relevant to non-C-based languages. OPTION 3 We initially keep the dependency on Clang and re-visit this RFC later. This would be the least disruptive approach (at least for the time being) and would allow us to make us the most rapid progress (i.e. we would be focusing on implementing the features rather than refactoring). It would also inform the future refactoring better. But it was already pointed out that we should avoid dependencies on clang [3] and this would be a step in the opposite direction. Also, the build requirements for Flang would increase, and we feel that we should strive to reduce them instead [6]. If we missed any alternatives, please bring them up. *IMPACT ON OTHER PROJECTS* The refactoring will have non-trivial impact on other projects: * OPTION 1 and OPTION 2 - huge impact initially. * OPTION 3 - no impact initially, but most likely similar impact as OPTION 1 and OPTION 2 in the long term. From our initial investigation, extracting Diagnostics/SourceLocation from clangBasic and moving it to LLVM will be the most impactful change. Within llvm-project it is used in clang, clang-tools-extra, lldb and polly. Most of the changes will be mechanical, but will require touching many files. In order to get to a state where we could build libclang using the newly defined LLVM library, we had to touch ~850 files and make ~30k insertions/deletions. The result of this exercise is available in our development fork of llvm-project [8]. Please note: our patches on GitHub [8] are just experiments to illustrate the idea. It's work-in-progress that requires a lot of polishing. When/if up-streaming this, we would need to do some low-impact refactoring first. For example, currently ASTReader & ASTWriter are `friends` with DiagnosticsEngine [9]. That won't be possible when DiagnosticsEngine is moved to LLVM. On behalf of the Arm Fortran Team, Andrzej Warzynski REFERENCES [1] https://github.com/llvm/llvm-project/commit/b98ad941a40c96c841bceb171725c925500fce6c [2] http://lists.llvm.org/pipermail/cfe-dev/2019-June/062669.html [3] https://reviews.llvm.org/D79092 [4] https://github.com/llvm/llvm-project/blob/ad5d319ee85d31ee2b1ca5c29b3a10b340513fec/clang/lib/Basic/CMakeLists.txt#L45-L47 [5] https://clang.llvm.org/docs/InternalsManual.html#the-clang-basic-library [6] http://lists.llvm.org/pipermail/flang-dev/2019-November/000061.html [7] http://lists.llvm.org/pipermail/llvm-dev/2019-November/136743.html [8] https://github.com/banach-space/llvm-project/commits/andrzej/refactor_clangBasic [9] https://github.com/llvm/llvm-project/blob/b11ecd196540d87cb7db190d405056984740d2ce/clang/include/clang/Basic/Diagnostic.h#L985-L986 [10] https://reviews.llvm.org/D63607 _______________________________________________ cfe-dev mailing list cfe-dev at lists.llvm.org https://lists.llvm.org/cgi-bin/mailman/listinfo/cfe-dev
Johannes Doerfert via llvm-dev
2020-Jun-02 17:19 UTC
[llvm-dev] [cfe-dev] [RFC] Refactor Clang: move frontend/driver/diagnostics code to LLVM
Nice, thanks! FWIW, we started to move OpenMP frontend code into `llvm/lib/Frontend/OpenMP` for very similar reasons. Already then I was expecting the driver and other parts to follow. Another reason for driver code in "llvm-core", which I think is not mentioned below, is LTO, or linking in general. Right now OpenMP does weird linking stuff by invoking the driver instead of using the linker directly. One reason is that we need to know about toolchains, e.g., CUDA, which we don't in the linker anymore. Cheers, Johannes On 6/2/20 7:08 AM, Andrzej Warzynski via cfe-dev wrote: > *TL;DR* > > We propose some non-trivial refactoring in Clang and LLVM to enable further work on Flang driver. > > *SUMMARY* > We would like to start extracting the driver/frontend code from Clang (alongside the code that the driver/frontend depends on, e.g. Diagnostics) and move the components that could be re-used by non-C-based languages to LLVM. From our initial investigation we see that these changes will impact many projects (upstream and downstream) and will require big mechanical patches (our first attempt is implemented in [8]). This is not ideal, but seems unavoidable in the long-term. We would like to do this refactoring _before_ we start implementing the Flang driver upstream (OPTION 1 below). This way we avoid: > > * contaminating Clang with Fortran specific code (and vice versa) > * introducing dependency on Clang in Flang > > The downside is that the refactoring is likely to be disruptive for many projects that use Clang. We will try our best to minimise this. > > Does this approach make sense? Are there any preferred alternatives? At this stage we'd like to discuss the overall direction. If folks are in favour, we'll send a separate RFC with a finer breakdown and more technical details for the refactoring. > > Below you will find more context for our use-case (the Flang driver) and possible alternatives. We hope that this will help the discussion. We would really appreciate your feedback! > > > *BACKGROUND* > Flang (formerly known as F18) has recently been merged into LLVM [1]. Our ambition, as a community, is to make it as flexible, robust and nice to work with as Clang. One of the major items to address is the implementation of a driver that would provide the flexibility and user experience similar to that available in Clang. The F18/Flang driver was already discussed on cfe-dev last year [2], but back then F18 (now llvm project/flang) was a separate project. In the original proposal it was assumed that initially Flang would depend (and extend where necessary) Clang's driver/frontend code. Since F18/Flang was an independent project, the refactoring of Clang/LLVM wasn't really considered. That design has been challenged since ([3], [10]), and also not much progress has been made. We would like to revisit that RFC from a slightly different angle. Since Flang is now part of LLVM's monorepo, we feel that refactoring Clang/LLVM _before_ we upstream the driver makes a lot of sense and is the natural first step. > > *ASSUMPTIONS & DESIGN GOALS* > 1. We will re-use as much of the Clang's driver/frontend code as possible (this was previously proposed in [2]). > > 2. We want to avoid dependencies from Flang to Clang, both long-term (strong requirement) and short-term (might be difficult to achieve). This has recently come up in a discussion on one of our early patches [3] (tl;dr Steve Scalpone, the code owner of Flang, would prefer us to avoid this dependency), and was also suggested before by Eric Christopher [10]. > > 3. We will move the code that can be shared between Flang and Clang (and other projects) to LLVM. This idea has already come up on llvm-dev before [7] (in a slightly different context, and to a slightly different extent). The methods that are not language specific would be shared in an LLVM library. > > 4. The classes/types/methods that need specific changes for Fortran will be "copied" to Flang and adapted as needed. We should minimize (or even eliminate) any Fortran specific code from Clang and make sure that that lives in llvm-project/flang. > > *FLANG'S DEPENDENCIES ON CLANG* > These are the dependencies on Clang that we have identified so far while prototyping the Flang driver. > > 1. All the machinery related to Diagnostics & SourceLocation. > > This is currently part of libclangBasic [4] and is used in _many_ places in Clang. The official documentation [5] suggests that this could be re-used for non-C-based languages. In particular, we feel that It would make a lot of sense for Flang to use it. Also, separating Clang's driver/frontend code and the diagnostics would require a lot of refactoring for no real benefit (and we feel that Flang should re-use Clang's driver/frontend code, see below). This dependency is used in many places, so moving it to LLVM will require a lot of (mostly) mechanical changes. We can't see an obvious way to split it into smaller chunks (see also below where we discuss the impact). > > 2. libclangFrontend & libclangDriver > > The Flang driver will use many methods from libClangDriver, libClangFrontend and libClangFrontendTool. Driver.h and Compilation.h from libClangDriver are responsible to call, pass the correct arguments and execute the driver. TextDiagnosticPrinter.h takes care of printing the driver diagnostics in case of errors. > > The Flang frontend will use CompilerInstance, CompilerInvocation, FrontendOptions, FrontendActions and Utils from libClangFrontend and libClangFrontendTool. These methods are responsible for translating the command line arguments to frontend Options and later to Actions to be executed by ExecuteCompilerInvocation. The translation from arguments to Actions happens with FrontendOption and FrontendActions. But it is the CompilerInvocation that has the pointers for the sequence of Actions that are required in a Compiler Instance. These methods are needed to implement Flang driver/frontend and contain actions/method/functions that seem to be language agnostic. > > *ALTERNATIVES* > This is a summary of the alternative ways of implementing the Flang driver. We propose OPTION 1. If there are no major objections, we will draft a separate RFC with more technical details (we will also break it down into smaller pieces). Otherwise, what would be your preferred alternative and why? > > OPTION 1 > We avoid dependency on Clang from Day 1. > > This is the ideal scenario that would guarantee that Clang and Flang are completely separate and that the common bits stay in LLVM instead. It would mean slower progress for us initially, but then other projects could benefit from the refactoring sooner rather than later. > > OPTION 2 > We avoid dependency on clangBasic from day 1, but initially allow dependency on libClangFrontend & libClangDriver (or other libs specific to the driver/frontend). > > The dependency on libclang{Driver|Frontend} would gradually be removed/refactored out as the driver for Flang gains momentum. As mentioned earlier, there is plenty of code in libClangFrontend and libClangDriver that we'd like to re-use, but the separation between code that's specific to C-based languages and generic driver/frontend code is not always obvious. We think that refactoring the common bits in libClangFrontend and libClangDriver might simply be easier once: > > * we have a Flang driver that leverages these libraries, and, as a result, > * we understand better what we could re-use and what's not that relevant to non-C-based languages. > > OPTION 3 > We initially keep the dependency on Clang and re-visit this RFC later. > > This would be the least disruptive approach (at least for the time being) and would allow us to make us the most rapid progress (i.e. we would be focusing on implementing the features rather than refactoring). It would also inform the future refactoring better. But it was already pointed out that we should avoid dependencies on clang [3] and this would be a step in the opposite direction. Also, the build requirements for Flang would increase, and we feel that we should strive to reduce them instead [6]. > > If we missed any alternatives, please bring them up. > > *IMPACT ON OTHER PROJECTS* > The refactoring will have non-trivial impact on other projects: > > * OPTION 1 and OPTION 2 - huge impact initially. > * OPTION 3 - no impact initially, but most likely similar impact as OPTION 1 and OPTION 2 in the long term. > > From our initial investigation, extracting Diagnostics/SourceLocation from clangBasic and moving it to LLVM will be the most impactful change. Within llvm-project it is used in clang, clang-tools-extra, lldb and polly. Most of the changes will be mechanical, but will require touching many files. In order to get to a state where we could build libclang using the newly defined LLVM library, we had to touch ~850 files and make ~30k insertions/deletions. The result of this exercise is available in our development fork of llvm-project [8]. > > Please note: our patches on GitHub [8] are just experiments to illustrate the idea. It's work-in-progress that requires a lot of polishing. When/if up-streaming this, we would need to do some low-impact refactoring first. For example, currently ASTReader & ASTWriter are `friends` with DiagnosticsEngine [9]. That won't be possible when DiagnosticsEngine is moved to LLVM. > > > On behalf of the Arm Fortran Team, > Andrzej Warzynski > > REFERENCES > > [1] https://github.com/llvm/llvm-project/commit/b98ad941a40c96c841bceb171725c925500fce6c > [2] http://lists.llvm.org/pipermail/cfe-dev/2019-June/062669.html > [3] https://reviews.llvm.org/D79092 > [4] https://github.com/llvm/llvm-project/blob/ad5d319ee85d31ee2b1ca5c29b3a10b340513fec/clang/lib/Basic/CMakeLists.txt#L45-L47 > [5] https://clang.llvm.org/docs/InternalsManual.html#the-clang-basic-library > [6] http://lists.llvm.org/pipermail/flang-dev/2019-November/000061.html > [7] http://lists.llvm.org/pipermail/llvm-dev/2019-November/136743.html > [8] https://github.com/banach-space/llvm-project/commits/andrzej/refactor_clangBasic > [9] https://github.com/llvm/llvm-project/blob/b11ecd196540d87cb7db190d405056984740d2ce/clang/include/clang/Basic/Diagnostic.h#L985-L986 > [10] https://reviews.llvm.org/D63607 > _______________________________________________ > cfe-dev mailing list > cfe-dev at lists.llvm.org > https://lists.llvm.org/cgi-bin/mailman/listinfo/cfe-dev
Mehdi AMINI via llvm-dev
2020-Jun-02 18:22 UTC
[llvm-dev] [cfe-dev] [RFC] Refactor Clang: move frontend/driver/diagnostics code to LLVM
On Tue, Jun 2, 2020 at 10:45 AM Chris Tetreault via llvm-dev < llvm-dev at lists.llvm.org> wrote:> Seems reasonable to me. Much better than putting a bunch of Fortran stuff > in clang. > > I wonder if, instead of just putting it in llvm, it makes sense to have > some sort of "llvm-frontend" subproject? It could contain all the language > agnostic frontend stuff being pulled out of clang, as well as the clang and > flang frontends. We currently already kind of have this divide with clang > being the only in tree frontend, having its own subproject outside of llvm > and having all of this stuff. >+1: it seems like a large part of the code here wouldn't depend on LLVM IR and could just live on the side at the top-level? -- Mehdi> > Thanks, > Christopher Tetreault > > -----Original Message----- > From: cfe-dev <cfe-dev-bounces at lists.llvm.org> On Behalf Of Andrzej > Warzynski via cfe-dev > Sent: Tuesday, June 2, 2020 5:08 AM > To: llvm-dev at lists.llvm.org; cfe-dev at lists.llvm.org; > flang-dev at lists.llvm.org > Subject: [EXT] [cfe-dev] [RFC] Refactor Clang: move > frontend/driver/diagnostics code to LLVM > > *TL;DR* > > We propose some non-trivial refactoring in Clang and LLVM to enable > further work on Flang driver. > > *SUMMARY* > We would like to start extracting the driver/frontend code from Clang > (alongside the code that the driver/frontend depends on, e.g. > Diagnostics) and move the components that could be re-used by non-C-based > languages to LLVM. From our initial investigation we see that these changes > will impact many projects (upstream and downstream) and will require big > mechanical patches (our first attempt is implemented in [8]). This is not > ideal, but seems unavoidable in the long-term. We would like to do this > refactoring _before_ we start implementing the Flang driver upstream > (OPTION 1 below). This way we avoid: > > * contaminating Clang with Fortran specific code (and vice versa) > * introducing dependency on Clang in Flang > > The downside is that the refactoring is likely to be disruptive for many > projects that use Clang. We will try our best to minimise this. > > Does this approach make sense? Are there any preferred alternatives? At > this stage we'd like to discuss the overall direction. If folks are in > favour, we'll send a separate RFC with a finer breakdown and more technical > details for the refactoring. > > Below you will find more context for our use-case (the Flang driver) and > possible alternatives. We hope that this will help the discussion. We would > really appreciate your feedback! > > > *BACKGROUND* > Flang (formerly known as F18) has recently been merged into LLVM [1]. > Our ambition, as a community, is to make it as flexible, robust and nice > to work with as Clang. One of the major items to address is the > implementation of a driver that would provide the flexibility and user > experience similar to that available in Clang. The F18/Flang driver was > already discussed on cfe-dev last year [2], but back then F18 (now llvm > project/flang) was a separate project. In the original proposal it was > assumed that initially Flang would depend (and extend where necessary) > Clang's driver/frontend code. Since F18/Flang was an independent project, > the refactoring of Clang/LLVM wasn't really considered. That design has > been challenged since ([3], [10]), and also not much progress has been > made. We would like to revisit that RFC from a slightly different angle. > Since Flang is now part of LLVM's monorepo, we feel that refactoring > Clang/LLVM _before_ we upstream the driver makes a lot of sense and is the > natural first step. > > *ASSUMPTIONS & DESIGN GOALS* > 1. We will re-use as much of the Clang's driver/frontend code as possible > (this was previously proposed in [2]). > > 2. We want to avoid dependencies from Flang to Clang, both long-term > (strong requirement) and short-term (might be difficult to achieve). > This has recently come up in a discussion on one of our early patches [3] > (tl;dr Steve Scalpone, the code owner of Flang, would prefer us to avoid > this dependency), and was also suggested before by Eric Christopher [10]. > > 3. We will move the code that can be shared between Flang and Clang (and > other projects) to LLVM. This idea has already come up on llvm-dev before > [7] (in a slightly different context, and to a slightly different extent). > The methods that are not language specific would be shared in an LLVM > library. > > 4. The classes/types/methods that need specific changes for Fortran will > be "copied" to Flang and adapted as needed. We should minimize (or even > eliminate) any Fortran specific code from Clang and make sure that that > lives in llvm-project/flang. > > *FLANG'S DEPENDENCIES ON CLANG* > These are the dependencies on Clang that we have identified so far while > prototyping the Flang driver. > > 1. All the machinery related to Diagnostics & SourceLocation. > > This is currently part of libclangBasic [4] and is used in _many_ places > in Clang. The official documentation [5] suggests that this could be > re-used for non-C-based languages. In particular, we feel that It would > make a lot of sense for Flang to use it. Also, separating Clang's > driver/frontend code and the diagnostics would require a lot of refactoring > for no real benefit (and we feel that Flang should re-use Clang's > driver/frontend code, see below). This dependency is used in many places, > so moving it to LLVM will require a lot of (mostly) mechanical changes. We > can't see an obvious way to split it into smaller chunks (see also below > where we discuss the impact). > > 2. libclangFrontend & libclangDriver > > The Flang driver will use many methods from libClangDriver, > libClangFrontend and libClangFrontendTool. Driver.h and Compilation.h from > libClangDriver are responsible to call, pass the correct arguments and > execute the driver. TextDiagnosticPrinter.h takes care of printing the > driver diagnostics in case of errors. > > The Flang frontend will use CompilerInstance, CompilerInvocation, > FrontendOptions, FrontendActions and Utils from libClangFrontend and > libClangFrontendTool. These methods are responsible for translating the > command line arguments to frontend Options and later to Actions to be > executed by ExecuteCompilerInvocation. The translation from arguments to > Actions happens with FrontendOption and FrontendActions. But it is the > CompilerInvocation that has the pointers for the sequence of Actions that > are required in a Compiler Instance. These methods are needed to implement > Flang driver/frontend and contain actions/method/functions that seem to be > language agnostic. > > *ALTERNATIVES* > This is a summary of the alternative ways of implementing the Flang > driver. We propose OPTION 1. If there are no major objections, we will > draft a separate RFC with more technical details (we will also break it > down into smaller pieces). Otherwise, what would be your preferred > alternative and why? > > OPTION 1 > We avoid dependency on Clang from Day 1. > > This is the ideal scenario that would guarantee that Clang and Flang are > completely separate and that the common bits stay in LLVM instead. It would > mean slower progress for us initially, but then other projects could > benefit from the refactoring sooner rather than later. > > OPTION 2 > We avoid dependency on clangBasic from day 1, but initially allow > dependency on libClangFrontend & libClangDriver (or other libs specific to > the driver/frontend). > > The dependency on libclang{Driver|Frontend} would gradually be > removed/refactored out as the driver for Flang gains momentum. As mentioned > earlier, there is plenty of code in libClangFrontend and libClangDriver > that we'd like to re-use, but the separation between code that's specific > to C-based languages and generic driver/frontend code is not always > obvious. We think that refactoring the common bits in libClangFrontend and > libClangDriver might simply be easier once: > > * we have a Flang driver that leverages these libraries, and, as a > result, > * we understand better what we could re-use and what's not that relevant > to non-C-based languages. > > OPTION 3 > We initially keep the dependency on Clang and re-visit this RFC later. > > This would be the least disruptive approach (at least for the time > being) and would allow us to make us the most rapid progress (i.e. we > would be focusing on implementing the features rather than refactoring). > It would also inform the future refactoring better. But it was already > pointed out that we should avoid dependencies on clang [3] and this would > be a step in the opposite direction. Also, the build requirements for Flang > would increase, and we feel that we should strive to reduce them instead > [6]. > > If we missed any alternatives, please bring them up. > > *IMPACT ON OTHER PROJECTS* > The refactoring will have non-trivial impact on other projects: > > * OPTION 1 and OPTION 2 - huge impact initially. > * OPTION 3 - no impact initially, but most likely similar impact as OPTION > 1 and OPTION 2 in the long term. > > From our initial investigation, extracting Diagnostics/SourceLocation > from clangBasic and moving it to LLVM will be the most impactful change. > Within llvm-project it is used in clang, clang-tools-extra, lldb and > polly. Most of the changes will be mechanical, but will require touching > many files. In order to get to a state where we could build libclang using > the newly defined LLVM library, we had to touch ~850 files and make ~30k > insertions/deletions. The result of this exercise is available in our > development fork of llvm-project [8]. > > Please note: our patches on GitHub [8] are just experiments to illustrate > the idea. It's work-in-progress that requires a lot of polishing. When/if > up-streaming this, we would need to do some low-impact refactoring first. > For example, currently ASTReader & ASTWriter are `friends` with > DiagnosticsEngine [9]. That won't be possible when DiagnosticsEngine is > moved to LLVM. > > > On behalf of the Arm Fortran Team, > Andrzej Warzynski > > REFERENCES > > [1] > > https://github.com/llvm/llvm-project/commit/b98ad941a40c96c841bceb171725c925500fce6c > [2] http://lists.llvm.org/pipermail/cfe-dev/2019-June/062669.html > [3] https://reviews.llvm.org/D79092 > [4] > > https://github.com/llvm/llvm-project/blob/ad5d319ee85d31ee2b1ca5c29b3a10b340513fec/clang/lib/Basic/CMakeLists.txt#L45-L47 > [5] > https://clang.llvm.org/docs/InternalsManual.html#the-clang-basic-library > [6] http://lists.llvm.org/pipermail/flang-dev/2019-November/000061.html > [7] http://lists.llvm.org/pipermail/llvm-dev/2019-November/136743.html > [8] > > https://github.com/banach-space/llvm-project/commits/andrzej/refactor_clangBasic > [9] > > https://github.com/llvm/llvm-project/blob/b11ecd196540d87cb7db190d405056984740d2ce/clang/include/clang/Basic/Diagnostic.h#L985-L986 > [10] https://reviews.llvm.org/D63607 > _______________________________________________ > cfe-dev mailing list > cfe-dev at lists.llvm.org > https://lists.llvm.org/cgi-bin/mailman/listinfo/cfe-dev > _______________________________________________ > LLVM Developers mailing list > llvm-dev at lists.llvm.org > https://lists.llvm.org/cgi-bin/mailman/listinfo/llvm-dev >-------------- next part -------------- An HTML attachment was scrubbed... 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Eli Friedman via llvm-dev
2020-Jun-02 19:51 UTC
[llvm-dev] [cfe-dev] [RFC] Refactor Clang: move frontend/driver/diagnostics code to LLVM
> -----Original Message----- > From: cfe-dev <cfe-dev-bounces at lists.llvm.org> On Behalf Of Robinson, Paul > via cfe-dev > Sent: Tuesday, June 2, 2020 6:43 AM > To: Andrzej Warzynski <andrzej.warzynski at arm.com>; llvm- > dev at lists.llvm.org; flang-dev at lists.llvm.org; 'cfe-dev at lists.llvm.org' <cfe- > dev at lists.llvm.org> > Subject: [EXT] Re: [cfe-dev] [RFC] Refactor Clang: move > frontend/driver/diagnostics code to LLVM > > > 1. All the machinery related to Diagnostics & SourceLocation. > > > > This is currently part of libclangBasic [4] and is used in _many_ places > > in Clang. The official documentation [5] suggests that this could be > > re-used for non-C-based languages. In particular, we feel that It would > > make a lot of sense for Flang to use it. Also, separating Clang's > > driver/frontend code and the diagnostics would require a lot of > > refactoring for no real benefit (and we feel that Flang should re-use > > Clang's driver/frontend code, see below). This dependency is used in > > many places, so moving it to LLVM will require a lot of (mostly) > > mechanical changes. We can't see an obvious way to split it into smaller > > chunks (see also below where we discuss the impact). > > This totally makes sense to me. It has been a couple of decades but I > remember working with the OpenVMS GEM compiler system, and it had all > the source-management stuff in the equivalent of an LLVM library for > use by all front-ends. A consistent view of source coordinates across > the front-end and back-end was nice to have; I don't think moving the > Clang notion into an LLVM library gets us there, but it's a step in a > direction that I like.Separate from clang, LLVM itself actually has its own infrastructure for source locations and diagnostics, which is used by various tools that parse text. See llvm/Support/SourceMgr.h. The reason this was implemented separately is that clang's infrastructure is overly complicated for most uses. One, it's designed to support rich source locations out of C macro expansions. Two, there's a bunch of infrastructure for managing the diagnostics themselves: warning levels, warning groups, etc. If you don't need either of those, the clang infrastructure is overkill, and harder to use. It's possible that flang's needs are similar enough to clang that it actually wants all the clang infrastructure. But I can't imagine anyone else would want to use it over simpler alternatives. Mapping source locations from LLVM IR back to the frontend is a separate issue, which I don't think is related to this. We probably don't want to tie LLVM IR to any specific frontend representation of source code, and there isn't really any need. See, for example, http://llvm.org/docs/LangRef.html#inline-asm-metadata . -Eli
comex via llvm-dev
2020-Jun-02 23:21 UTC
[llvm-dev] [cfe-dev] [RFC] Refactor Clang: move frontend/driver/diagnostics code to LLVM
While this is a different area of the codebase, another thing that would benefit greatly from being moved out of Clang is function call ABI handling. Currently, that handling is split awkwardly between Clang and LLVM proper, forcing frontends that implement C FFI to either recreate the Clang parts themselves (like Rust does), depend on Clang (like Swift does), or live with FFI just not working with some function signatures. I'm not sure what Flang currently does, but my understanding is that Flang does support C FFI, so it would probably benefit from this as well. Just something to consider. :)
Richard Smith via llvm-dev
2020-Jun-03 00:37 UTC
[llvm-dev] [cfe-dev] [RFC] Refactor Clang: move frontend/driver/diagnostics code to LLVM
On Tue, 2 Jun 2020 at 05:08, Andrzej Warzynski via cfe-dev < cfe-dev at lists.llvm.org> wrote:> *TL;DR* > > We propose some non-trivial refactoring in Clang and LLVM to enable > further work on Flang driver. > > *SUMMARY* > We would like to start extracting the driver/frontend code from Clang > (alongside the code that the driver/frontend depends on, e.g. > Diagnostics) and move the components that could be re-used by > non-C-based languages to LLVM. From our initial investigation we see > that these changes will impact many projects (upstream and downstream) > and will require big mechanical patches (our first attempt is > implemented in [8]). This is not ideal, but seems unavoidable in the > long-term. We would like to do this refactoring _before_ we start > implementing the Flang driver upstream (OPTION 1 below). This way we avoid: > > * contaminating Clang with Fortran specific code (and vice versa) > * introducing dependency on Clang in Flang > > The downside is that the refactoring is likely to be disruptive for many > projects that use Clang. We will try our best to minimise this. > > Does this approach make sense? Are there any preferred alternatives? At > this stage we'd like to discuss the overall direction. If folks are in > favour, we'll send a separate RFC with a finer breakdown and more > technical details for the refactoring. > > Below you will find more context for our use-case (the Flang driver) and > possible alternatives. We hope that this will help the discussion. We > would really appreciate your feedback! >Generally, I think this is a good idea, and a healthy direction for LLVM overall. We need to be careful to do this in a way that doesn't introduce complexity or overheads in Clang, though, so we should proceed very cautiously. I also think you're skewing somewhat too far in favor of code reuse. Some of the Clang code you're identifying below is very carefully tuned and tailored to Clang's use, and the amount of it that could reasonably be shared with another project (carefully tuned and tailored to that project's use) is probably small, unless we heavily generalize it. Such generalization is likely not going to be worth its development and maintenance costs.> *BACKGROUND* > Flang (formerly known as F18) has recently been merged into LLVM [1]. > Our ambition, as a community, is to make it as flexible, robust and nice > to work with as Clang. One of the major items to address is the > implementation of a driver that would provide the flexibility and user > experience similar to that available in Clang. The F18/Flang driver was > already discussed on cfe-dev last year [2], but back then F18 (now llvm > project/flang) was a separate project. In the original proposal it was > assumed that initially Flang would depend (and extend where necessary) > Clang's driver/frontend code. Since F18/Flang was an independent > project, the refactoring of Clang/LLVM wasn't really considered. That > design has been challenged since ([3], [10]), and also not much progress > has been made. We would like to revisit that RFC from a slightly > different angle. Since Flang is now part of LLVM's monorepo, we feel > that refactoring Clang/LLVM _before_ we upstream the driver makes a lot > of sense and is the natural first step. > > *ASSUMPTIONS & DESIGN GOALS* > 1. We will re-use as much of the Clang's driver/frontend code as > possible (this was previously proposed in [2]). > > 2. We want to avoid dependencies from Flang to Clang, both long-term > (strong requirement) and short-term (might be difficult to achieve). > This has recently come up in a discussion on one of our early patches > [3] (tl;dr Steve Scalpone, the code owner of Flang, would prefer us to > avoid this dependency), and was also suggested before by Eric > Christopher [10]. > > 3. We will move the code that can be shared between Flang and Clang (and > other projects) to LLVM. This idea has already come up on llvm-dev > before [7] (in a slightly different context, and to a slightly different > extent). The methods that are not language specific would be shared in > an LLVM library. > > 4. The classes/types/methods that need specific changes for Fortran will > be "copied" to Flang and adapted as needed. We should minimize (or even > eliminate) any Fortran specific code from Clang and make sure that that > lives in llvm-project/flang. > > *FLANG'S DEPENDENCIES ON CLANG* > These are the dependencies on Clang that we have identified so far while > prototyping the Flang driver. > > 1. All the machinery related to Diagnostics & SourceLocation. > > This is currently part of libclangBasic [4] and is used in _many_ places > in Clang. The official documentation [5] suggests that this could be > re-used for non-C-based languages. In particular, we feel that It would > make a lot of sense for Flang to use it. Also, separating Clang's > driver/frontend code and the diagnostics would require a lot of > refactoring for no real benefit (and we feel that Flang should re-use > Clang's driver/frontend code, see below). This dependency is used in > many places, so moving it to LLVM will require a lot of (mostly) > mechanical changes. We can't see an obvious way to split it into smaller > chunks (see also below where we discuss the impact). >I do not think it is necessarily going to be reasonable to move all machinery related to SourceLocation (in particular, all of clang's SourceManager) into LLVM. The ideas and data structure underpinning SourceLocation and SourceManager are quite general (a concatenated hierarchical slab of contiguous blocks, with linear indexing within those blocks), but the details are much more specific to Clang and the C-family languages it represents. Things like the support for object-like and function-like macros, macro arguments, #include, splitting >> tokens for C++, and so on, all make sense for Clang, but probably make less sense for Fortran, where a different set of kinds of block would probably be desired instead. This isn't something that can be trivially generalized and extended, either; we carefully bit-pack various things into our block representations, and as a result, we're quite tightly fitted to the needs of Clang, and would probably not want to move away from that position. However, I do think there is common infrastructure that can be extracted, with some significant work done to generalize the SourceManager infrastructure and make it tailorable to the needs of Clang and Flang (and any other consumers of it that might come along). I could imagine moving all of the complexity to do with what kinds of SLocEntry are supported into a traits type, and having a reusable template that can generate a data structure that the Clang and Flang SourceManagers can be implemented in terms of. Clang's SourceLocation is probably almost directly useable as-is -- it has hardcoded assumptions about a particular bit being reserved to indicate a location within a C preprocessor macro, but we can move that to a static method on Clang SourceManager, and then I think SourceLocation can be directly shared between the two projects. (One big asterisk on the above: will Flang want an integrated C preprocessor? If so, then we're now talking about a much larger chunk of Clang, including the lexer, preprocessor, identifier tables, the Token type, and it may be best to simply acknowledge that Flang has a dependency on Clang to supply all that, rather than moving it into LLVM.) The layers below SourceManager -- FileManager, the VFS, and so on -- all seem like they should be reasonable to share between projects. Some of the diagnostics engine seems reasonable to share: specifically, the tablegen-driven diagnostic table generation, most of the diagnostics engine (including support for diagnostics pragmas that change the set of warnings enabled at different source locations), and the formatting code for non-clang-specific types are all relatively reusable. If you want to reuse the TextDiagnosticPrinter, I think that will need some refactoring; it's currently tied into the specific needs of Clang's SourceManager (for handling textual inclusion and macro expansion in the way that C-family languages deal with those things). I expect it would be possible to factor out an interface that Clang could implement to provide the necessary customizations. Before we factor out the diagnostics engine, we should fix the longstanding issue that it requires a global monolithic table covering all diagnostics, and is consequently unable to properly respect layering. I think this is very much fixable, but it requires someone to do the work to fix it :) Looking at your branch, I immediately see a few things there that are unacceptable changes: moving clang's TokenKinds.def, Specifiers.h, and OpenCLImageTypes.def into LLVM is not OK. But I assume you're aware of that already. =)> 2. libclangFrontend & libclangDriver > > The Flang driver will use many methods from libClangDriver, > libClangFrontend and libClangFrontendTool. Driver.h and Compilation.h > from libClangDriver are responsible to call, pass the correct arguments > and execute the driver. TextDiagnosticPrinter.h takes care of printing > the driver diagnostics in case of errors. > > The Flang frontend will use CompilerInstance, CompilerInvocation, > FrontendOptions, FrontendActions and Utils from libClangFrontend and > libClangFrontendTool. These methods are responsible for translating the > command line arguments to frontend Options and later to Actions to be > executed by ExecuteCompilerInvocation. The translation from arguments to > Actions happens with FrontendOption and FrontendActions. But it is the > CompilerInvocation that has the pointers for the sequence of Actions > that are required in a Compiler Instance. These methods are needed to > implement Flang driver/frontend and contain actions/method/functions > that seem to be language agnostic. >I think this is going too far in attempting to reuse Clang code. CompilerInvocation, for example, is almost exclusively dealing in parsing Clang's -cc1 flags, which I would expect to have very little overlap with Flang's flags, and CompilerInstance exists (in part) to manage and own all the Clang-specific global objects (the parser, sema, the module loader, the AST consumer). Flang should not be going anywhere near this stuff, and should be implementing its own frontend. There may be some clang-independent parts that can be factored out, but I would expect them to be small enough that we can address them on a case-by-case basis. The interesting thing to factor out is the parsing of command-line options, but that's already been done. I think your approach here should be to assume as a baseline that you reuse none of clang's Frontend library, but if you find general pieces that can meaningfully be extracted, we can talk about those pieces in isolation. For the driver, I think the picture is very different. It seems to me that we should only have one LLVM driver, that can build C-family languages, Fortran code, or both at the same time (or invoke lld etc). To that end, I think it would be reasonable to move clang's driver out to a separate LLVM project (maybe that's llvm/, maybe it's somewhere new such as driver/), and extend it to be able to invoke flang actions in addition to clang actions. Then the only difference between the clang and flang drivers would be which frontend is directly linked into the driver binary and which one is invoked by exec'ing a different binary. That would imply that all the parts of Clang that are depended on by the driver are also moved out (I think the main parts here are flags and diagnostics, and via the diagnostics layer, source locations). This will require some decoupling between the Clang driver and frontend (currently Clang's Options.td contains various driver options that are marked as also being options for Clang's -cc1 mode; duplicating those in CC1Options.td is probably acceptable, if we're going to split the driver and frontend into two different projects), and some shared support code (eg, clang's sanitizers list) will presumably end up in the driver, because we don't want a driver -> *lang dependency.> *ALTERNATIVES* > This is a summary of the alternative ways of implementing the Flang > driver. We propose OPTION 1. If there are no major objections, we will > draft a separate RFC with more technical details (we will also break it > down into smaller pieces). Otherwise, what would be your preferred > alternative and why? > > OPTION 1 > We avoid dependency on Clang from Day 1. > > This is the ideal scenario that would guarantee that Clang and Flang are > completely separate and that the common bits stay in LLVM instead. It > would mean slower progress for us initially, but then other projects > could benefit from the refactoring sooner rather than later. > > OPTION 2 > We avoid dependency on clangBasic from day 1, but initially allow > dependency on libClangFrontend & libClangDriver (or other libs specific > to the driver/frontend). > > The dependency on libclang{Driver|Frontend} would gradually be > removed/refactored out as the driver for Flang gains momentum. As > mentioned earlier, there is plenty of code in libClangFrontend and > libClangDriver that we'd like to re-use, but the separation between code > that's specific to C-based languages and generic driver/frontend code is > not always obvious. We think that refactoring the common bits in > libClangFrontend and libClangDriver might simply be easier once: > > * we have a Flang driver that leverages these libraries, and, as a > result, > * we understand better what we could re-use and what's not that > relevant to non-C-based languages. > > OPTION 3 > We initially keep the dependency on Clang and re-visit this RFC later. > > This would be the least disruptive approach (at least for the time > being) and would allow us to make us the most rapid progress (i.e. we > would be focusing on implementing the features rather than refactoring). > It would also inform the future refactoring better. But it was already > pointed out that we should avoid dependencies on clang [3] and this > would be a step in the opposite direction. Also, the build requirements > for Flang would increase, and we feel that we should strive to reduce > them instead [6]. > > If we missed any alternatives, please bring them up. >I don't think I can express an opinion without knowing whether you intend for Flang to ever support an integrated C preprocessor. If not, then option 1 seems appropriate. But if so, then I think we have a choice between factoring out all of clang below the parser or just acknowledging that Flang depends on Clang for its lexical layer and deciding to keep a flang -> clang dependency forever.> *IMPACT ON OTHER PROJECTS* > The refactoring will have non-trivial impact on other projects: > > * OPTION 1 and OPTION 2 - huge impact initially. > * OPTION 3 - no impact initially, but most likely similar impact as > OPTION 1 and OPTION 2 in the long term. > > From our initial investigation, extracting Diagnostics/SourceLocation > from clangBasic and moving it to LLVM will be the most impactful change. > Within llvm-project it is used in clang, clang-tools-extra, lldb and > polly. Most of the changes will be mechanical, but will require touching > many files. In order to get to a state where we could build libclang > using the newly defined LLVM library, we had to touch ~850 files and > make ~30k insertions/deletions. The result of this exercise is available > in our development fork of llvm-project [8]. > > Please note: our patches on GitHub [8] are just experiments to > illustrate the idea. It's work-in-progress that requires a lot of > polishing. When/if up-streaming this, we would need to do some > low-impact refactoring first. For example, currently ASTReader & > ASTWriter are `friends` with DiagnosticsEngine [9]. That won't be > possible when DiagnosticsEngine is moved to LLVM. > > > On behalf of the Arm Fortran Team, > Andrzej Warzynski > > REFERENCES > > [1] > > https://github.com/llvm/llvm-project/commit/b98ad941a40c96c841bceb171725c925500fce6c > [2] http://lists.llvm.org/pipermail/cfe-dev/2019-June/062669.html > [3] https://reviews.llvm.org/D79092 > [4] > > https://github.com/llvm/llvm-project/blob/ad5d319ee85d31ee2b1ca5c29b3a10b340513fec/clang/lib/Basic/CMakeLists.txt#L45-L47 > [5] > https://clang.llvm.org/docs/InternalsManual.html#the-clang-basic-library > [6] http://lists.llvm.org/pipermail/flang-dev/2019-November/000061.html > [7] http://lists.llvm.org/pipermail/llvm-dev/2019-November/136743.html > [8] > > https://github.com/banach-space/llvm-project/commits/andrzej/refactor_clangBasic > [9] > > https://github.com/llvm/llvm-project/blob/b11ecd196540d87cb7db190d405056984740d2ce/clang/include/clang/Basic/Diagnostic.h#L985-L986 > [10] https://reviews.llvm.org/D63607 > _______________________________________________ > cfe-dev mailing list > cfe-dev at lists.llvm.org > https://lists.llvm.org/cgi-bin/mailman/listinfo/cfe-dev >-------------- next part -------------- An HTML attachment was scrubbed... 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David Greene via llvm-dev
2020-Jun-03 15:41 UTC
[llvm-dev] [cfe-dev] [RFC] Refactor Clang: move frontend/driver/diagnostics code to LLVM
comex via cfe-dev <cfe-dev at lists.llvm.org> writes:> While this is a different area of the codebase, another thing that > would benefit greatly from being moved out of Clang is function call > ABI handling. Currently, that handling is split awkwardly between > Clang and LLVM proper, forcing frontends that implement C FFI to > either recreate the Clang parts themselves (like Rust does), depend on > Clang (like Swift does), or live with FFI just not working with some > function signatures. I'm not sure what Flang currently does, but my > understanding is that Flang does support C FFI, so it would probably > benefit from this as well. Just something to consider. :)Yep, C interop is part of the Fortran standard so flang will have to support it. This has been talked about before but as yet nothing has happened with it. Maybe this is our opportunity. -David
Steve Scalpone via llvm-dev
2020-Jun-03 20:06 UTC
[llvm-dev] [cfe-dev] [RFC] Refactor Clang: move frontend/driver/diagnostics code to LLVM
> One big asterisk on the above: will Flang want an integrated C preprocessor?Fortran compilers generally come with a preprocessor. Typically, the Fortran cpp language looks very similar to what one might find in a C or C++ compiler, however, because the lexing rules for Fortran are quite a bit different from C and C++, the actual the implementation is quite different too. Flang has an integrated pre-processor [1]. [1] https://github.com/flang-compiler/f18-llvm-project/blob/master/flang/documentation/Preprocessing.md From: llvm-dev <llvm-dev-bounces at lists.llvm.org> on behalf of Richard Smith via llvm-dev <llvm-dev at lists.llvm.org> Reply-To: "richard at metafoo.co.uk" <richard at metafoo.co.uk> Date: Tuesday, June 2, 2020 at 5:38 PM To: Andrzej Warzynski <andrzej.warzynski at arm.com> Cc: "llvm-dev at lists.llvm.org" <llvm-dev at lists.llvm.org>, flang-dev <flang-dev at lists.llvm.org>, Clang Dev <cfe-dev at lists.llvm.org> Subject: Re: [llvm-dev] [cfe-dev] [RFC] Refactor Clang: move frontend/driver/diagnostics code to LLVM External email: Use caution opening links or attachments On Tue, 2 Jun 2020 at 05:08, Andrzej Warzynski via cfe-dev <cfe-dev at lists.llvm.org<mailto:cfe-dev at lists.llvm.org>> wrote: *TL;DR* We propose some non-trivial refactoring in Clang and LLVM to enable further work on Flang driver. *SUMMARY* We would like to start extracting the driver/frontend code from Clang (alongside the code that the driver/frontend depends on, e.g. Diagnostics) and move the components that could be re-used by non-C-based languages to LLVM. From our initial investigation we see that these changes will impact many projects (upstream and downstream) and will require big mechanical patches (our first attempt is implemented in [8]). This is not ideal, but seems unavoidable in the long-term. We would like to do this refactoring _before_ we start implementing the Flang driver upstream (OPTION 1 below). This way we avoid: * contaminating Clang with Fortran specific code (and vice versa) * introducing dependency on Clang in Flang The downside is that the refactoring is likely to be disruptive for many projects that use Clang. We will try our best to minimise this. Does this approach make sense? Are there any preferred alternatives? At this stage we'd like to discuss the overall direction. If folks are in favour, we'll send a separate RFC with a finer breakdown and more technical details for the refactoring. Below you will find more context for our use-case (the Flang driver) and possible alternatives. We hope that this will help the discussion. We would really appreciate your feedback! Generally, I think this is a good idea, and a healthy direction for LLVM overall. We need to be careful to do this in a way that doesn't introduce complexity or overheads in Clang, though, so we should proceed very cautiously. I also think you're skewing somewhat too far in favor of code reuse. Some of the Clang code you're identifying below is very carefully tuned and tailored to Clang's use, and the amount of it that could reasonably be shared with another project (carefully tuned and tailored to that project's use) is probably small, unless we heavily generalize it. Such generalization is likely not going to be worth its development and maintenance costs. *BACKGROUND* Flang (formerly known as F18) has recently been merged into LLVM [1]. Our ambition, as a community, is to make it as flexible, robust and nice to work with as Clang. One of the major items to address is the implementation of a driver that would provide the flexibility and user experience similar to that available in Clang. The F18/Flang driver was already discussed on cfe-dev last year [2], but back then F18 (now llvm project/flang) was a separate project. In the original proposal it was assumed that initially Flang would depend (and extend where necessary) Clang's driver/frontend code. Since F18/Flang was an independent project, the refactoring of Clang/LLVM wasn't really considered. That design has been challenged since ([3], [10]), and also not much progress has been made. We would like to revisit that RFC from a slightly different angle. Since Flang is now part of LLVM's monorepo, we feel that refactoring Clang/LLVM _before_ we upstream the driver makes a lot of sense and is the natural first step. *ASSUMPTIONS & DESIGN GOALS* 1. We will re-use as much of the Clang's driver/frontend code as possible (this was previously proposed in [2]). 2. We want to avoid dependencies from Flang to Clang, both long-term (strong requirement) and short-term (might be difficult to achieve). This has recently come up in a discussion on one of our early patches [3] (tl;dr Steve Scalpone, the code owner of Flang, would prefer us to avoid this dependency), and was also suggested before by Eric Christopher [10]. 3. We will move the code that can be shared between Flang and Clang (and other projects) to LLVM. This idea has already come up on llvm-dev before [7] (in a slightly different context, and to a slightly different extent). The methods that are not language specific would be shared in an LLVM library. 4. The classes/types/methods that need specific changes for Fortran will be "copied" to Flang and adapted as needed. We should minimize (or even eliminate) any Fortran specific code from Clang and make sure that that lives in llvm-project/flang. *FLANG'S DEPENDENCIES ON CLANG* These are the dependencies on Clang that we have identified so far while prototyping the Flang driver. 1. All the machinery related to Diagnostics & SourceLocation. This is currently part of libclangBasic [4] and is used in _many_ places in Clang. The official documentation [5] suggests that this could be re-used for non-C-based languages. In particular, we feel that It would make a lot of sense for Flang to use it. Also, separating Clang's driver/frontend code and the diagnostics would require a lot of refactoring for no real benefit (and we feel that Flang should re-use Clang's driver/frontend code, see below). This dependency is used in many places, so moving it to LLVM will require a lot of (mostly) mechanical changes. We can't see an obvious way to split it into smaller chunks (see also below where we discuss the impact). I do not think it is necessarily going to be reasonable to move all machinery related to SourceLocation (in particular, all of clang's SourceManager) into LLVM. The ideas and data structure underpinning SourceLocation and SourceManager are quite general (a concatenated hierarchical slab of contiguous blocks, with linear indexing within those blocks), but the details are much more specific to Clang and the C-family languages it represents. Things like the support for object-like and function-like macros, macro arguments, #include, splitting >> tokens for C++, and so on, all make sense for Clang, but probably make less sense for Fortran, where a different set of kinds of block would probably be desired instead. This isn't something that can be trivially generalized and extended, either; we carefully bit-pack various things into our block representations, and as a result, we're quite tightly fitted to the needs of Clang, and would probably not want to move away from that position. However, I do think there is common infrastructure that can be extracted, with some significant work done to generalize the SourceManager infrastructure and make it tailorable to the needs of Clang and Flang (and any other consumers of it that might come along). I could imagine moving all of the complexity to do with what kinds of SLocEntry are supported into a traits type, and having a reusable template that can generate a data structure that the Clang and Flang SourceManagers can be implemented in terms of. Clang's SourceLocation is probably almost directly useable as-is -- it has hardcoded assumptions about a particular bit being reserved to indicate a location within a C preprocessor macro, but we can move that to a static method on Clang SourceManager, and then I think SourceLocation can be directly shared between the two projects. (One big asterisk on the above: will Flang want an integrated C preprocessor? If so, then we're now talking about a much larger chunk of Clang, including the lexer, preprocessor, identifier tables, the Token type, and it may be best to simply acknowledge that Flang has a dependency on Clang to supply all that, rather than moving it into LLVM.) The layers below SourceManager -- FileManager, the VFS, and so on -- all seem like they should be reasonable to share between projects. Some of the diagnostics engine seems reasonable to share: specifically, the tablegen-driven diagnostic table generation, most of the diagnostics engine (including support for diagnostics pragmas that change the set of warnings enabled at different source locations), and the formatting code for non-clang-specific types are all relatively reusable. If you want to reuse the TextDiagnosticPrinter, I think that will need some refactoring; it's currently tied into the specific needs of Clang's SourceManager (for handling textual inclusion and macro expansion in the way that C-family languages deal with those things). I expect it would be possible to factor out an interface that Clang could implement to provide the necessary customizations. Before we factor out the diagnostics engine, we should fix the longstanding issue that it requires a global monolithic table covering all diagnostics, and is consequently unable to properly respect layering. I think this is very much fixable, but it requires someone to do the work to fix it :) Looking at your branch, I immediately see a few things there that are unacceptable changes: moving clang's TokenKinds.def, Specifiers.h, and OpenCLImageTypes.def into LLVM is not OK. But I assume you're aware of that already. =) 2. libclangFrontend & libclangDriver The Flang driver will use many methods from libClangDriver, libClangFrontend and libClangFrontendTool. Driver.h and Compilation.h from libClangDriver are responsible to call, pass the correct arguments and execute the driver. TextDiagnosticPrinter.h takes care of printing the driver diagnostics in case of errors. The Flang frontend will use CompilerInstance, CompilerInvocation, FrontendOptions, FrontendActions and Utils from libClangFrontend and libClangFrontendTool. These methods are responsible for translating the command line arguments to frontend Options and later to Actions to be executed by ExecuteCompilerInvocation. The translation from arguments to Actions happens with FrontendOption and FrontendActions. But it is the CompilerInvocation that has the pointers for the sequence of Actions that are required in a Compiler Instance. These methods are needed to implement Flang driver/frontend and contain actions/method/functions that seem to be language agnostic. I think this is going too far in attempting to reuse Clang code. CompilerInvocation, for example, is almost exclusively dealing in parsing Clang's -cc1 flags, which I would expect to have very little overlap with Flang's flags, and CompilerInstance exists (in part) to manage and own all the Clang-specific global objects (the parser, sema, the module loader, the AST consumer). Flang should not be going anywhere near this stuff, and should be implementing its own frontend. There may be some clang-independent parts that can be factored out, but I would expect them to be small enough that we can address them on a case-by-case basis. The interesting thing to factor out is the parsing of command-line options, but that's already been done. I think your approach here should be to assume as a baseline that you reuse none of clang's Frontend library, but if you find general pieces that can meaningfully be extracted, we can talk about those pieces in isolation. For the driver, I think the picture is very different. It seems to me that we should only have one LLVM driver, that can build C-family languages, Fortran code, or both at the same time (or invoke lld etc). To that end, I think it would be reasonable to move clang's driver out to a separate LLVM project (maybe that's llvm/, maybe it's somewhere new such as driver/), and extend it to be able to invoke flang actions in addition to clang actions. Then the only difference between the clang and flang drivers would be which frontend is directly linked into the driver binary and which one is invoked by exec'ing a different binary. That would imply that all the parts of Clang that are depended on by the driver are also moved out (I think the main parts here are flags and diagnostics, and via the diagnostics layer, source locations). This will require some decoupling between the Clang driver and frontend (currently Clang's Options.td contains various driver options that are marked as also being options for Clang's -cc1 mode; duplicating those in CC1Options.td is probably acceptable, if we're going to split the driver and frontend into two different projects), and some shared support code (eg, clang's sanitizers list) will presumably end up in the driver, because we don't want a driver -> *lang dependency. *ALTERNATIVES* This is a summary of the alternative ways of implementing the Flang driver. We propose OPTION 1. If there are no major objections, we will draft a separate RFC with more technical details (we will also break it down into smaller pieces). Otherwise, what would be your preferred alternative and why? OPTION 1 We avoid dependency on Clang from Day 1. This is the ideal scenario that would guarantee that Clang and Flang are completely separate and that the common bits stay in LLVM instead. It would mean slower progress for us initially, but then other projects could benefit from the refactoring sooner rather than later. OPTION 2 We avoid dependency on clangBasic from day 1, but initially allow dependency on libClangFrontend & libClangDriver (or other libs specific to the driver/frontend). The dependency on libclang{Driver|Frontend} would gradually be removed/refactored out as the driver for Flang gains momentum. As mentioned earlier, there is plenty of code in libClangFrontend and libClangDriver that we'd like to re-use, but the separation between code that's specific to C-based languages and generic driver/frontend code is not always obvious. We think that refactoring the common bits in libClangFrontend and libClangDriver might simply be easier once: * we have a Flang driver that leverages these libraries, and, as a result, * we understand better what we could re-use and what's not that relevant to non-C-based languages. OPTION 3 We initially keep the dependency on Clang and re-visit this RFC later. This would be the least disruptive approach (at least for the time being) and would allow us to make us the most rapid progress (i.e. we would be focusing on implementing the features rather than refactoring). It would also inform the future refactoring better. But it was already pointed out that we should avoid dependencies on clang [3] and this would be a step in the opposite direction. Also, the build requirements for Flang would increase, and we feel that we should strive to reduce them instead [6]. If we missed any alternatives, please bring them up. I don't think I can express an opinion without knowing whether you intend for Flang to ever support an integrated C preprocessor. If not, then option 1 seems appropriate. But if so, then I think we have a choice between factoring out all of clang below the parser or just acknowledging that Flang depends on Clang for its lexical layer and deciding to keep a flang -> clang dependency forever. *IMPACT ON OTHER PROJECTS* The refactoring will have non-trivial impact on other projects: * OPTION 1 and OPTION 2 - huge impact initially. * OPTION 3 - no impact initially, but most likely similar impact as OPTION 1 and OPTION 2 in the long term. From our initial investigation, extracting Diagnostics/SourceLocation from clangBasic and moving it to LLVM will be the most impactful change. Within llvm-project it is used in clang, clang-tools-extra, lldb and polly. Most of the changes will be mechanical, but will require touching many files. In order to get to a state where we could build libclang using the newly defined LLVM library, we had to touch ~850 files and make ~30k insertions/deletions. The result of this exercise is available in our development fork of llvm-project [8]. Please note: our patches on GitHub [8] are just experiments to illustrate the idea. It's work-in-progress that requires a lot of polishing. When/if up-streaming this, we would need to do some low-impact refactoring first. For example, currently ASTReader & ASTWriter are `friends` with DiagnosticsEngine [9]. That won't be possible when DiagnosticsEngine is moved to LLVM. On behalf of the Arm Fortran Team, Andrzej Warzynski REFERENCES [1] https://github.com/llvm/llvm-project/commit/b98ad941a40c96c841bceb171725c925500fce6c [2] http://lists.llvm.org/pipermail/cfe-dev/2019-June/062669.html [3] https://reviews.llvm.org/D79092 [4] https://github.com/llvm/llvm-project/blob/ad5d319ee85d31ee2b1ca5c29b3a10b340513fec/clang/lib/Basic/CMakeLists.txt#L45-L47 [5] https://clang.llvm.org/docs/InternalsManual.html#the-clang-basic-library [6] http://lists.llvm.org/pipermail/flang-dev/2019-November/000061.html [7] http://lists.llvm.org/pipermail/llvm-dev/2019-November/136743.html [8] https://github.com/banach-space/llvm-project/commits/andrzej/refactor_clangBasic [9] https://github.com/llvm/llvm-project/blob/b11ecd196540d87cb7db190d405056984740d2ce/clang/include/clang/Basic/Diagnostic.h#L985-L986 [10] https://reviews.llvm.org/D63607 _______________________________________________ cfe-dev mailing list cfe-dev at lists.llvm.org<mailto:cfe-dev at lists.llvm.org> https://lists.llvm.org/cgi-bin/mailman/listinfo/cfe-dev -------------- next part -------------- An HTML attachment was scrubbed... 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Michael Spencer via llvm-dev
2020-Jun-03 21:50 UTC
[llvm-dev] [cfe-dev] [RFC] Refactor Clang: move frontend/driver/diagnostics code to LLVM
On Tue, Jun 2, 2020 at 6:38 PM Richard Smith via llvm-dev < llvm-dev at lists.llvm.org> wrote:> On Tue, 2 Jun 2020 at 05:08, Andrzej Warzynski via cfe-dev < > cfe-dev at lists.llvm.org> wrote: > >> *TL;DR* >> >> We propose some non-trivial refactoring in Clang and LLVM to enable >> further work on Flang driver. >> >> *SUMMARY* >> We would like to start extracting the driver/frontend code from Clang >> (alongside the code that the driver/frontend depends on, e.g. >> Diagnostics) and move the components that could be re-used by >> non-C-based languages to LLVM. From our initial investigation we see >> that these changes will impact many projects (upstream and downstream) >> and will require big mechanical patches (our first attempt is >> implemented in [8]). This is not ideal, but seems unavoidable in the >> long-term. We would like to do this refactoring _before_ we start >> implementing the Flang driver upstream (OPTION 1 below). This way we >> avoid: >> >> * contaminating Clang with Fortran specific code (and vice versa) >> * introducing dependency on Clang in Flang >> >> The downside is that the refactoring is likely to be disruptive for many >> projects that use Clang. We will try our best to minimise this. >> >> Does this approach make sense? Are there any preferred alternatives? At >> this stage we'd like to discuss the overall direction. If folks are in >> favour, we'll send a separate RFC with a finer breakdown and more >> technical details for the refactoring. >> >> Below you will find more context for our use-case (the Flang driver) and >> possible alternatives. We hope that this will help the discussion. We >> would really appreciate your feedback! >> > > Generally, I think this is a good idea, and a healthy direction for LLVM > overall. We need to be careful to do this in a way that doesn't introduce > complexity or overheads in Clang, though, so we should proceed very > cautiously. > > I also think you're skewing somewhat too far in favor of code reuse. Some > of the Clang code you're identifying below is very carefully tuned and > tailored to Clang's use, and the amount of it that could reasonably be > shared with another project (carefully tuned and tailored to that project's > use) is probably small, unless we heavily generalize it. Such > generalization is likely not going to be worth its development and > maintenance costs. > > >> *BACKGROUND* >> Flang (formerly known as F18) has recently been merged into LLVM [1]. >> Our ambition, as a community, is to make it as flexible, robust and nice >> to work with as Clang. One of the major items to address is the >> implementation of a driver that would provide the flexibility and user >> experience similar to that available in Clang. The F18/Flang driver was >> already discussed on cfe-dev last year [2], but back then F18 (now llvm >> project/flang) was a separate project. In the original proposal it was >> assumed that initially Flang would depend (and extend where necessary) >> Clang's driver/frontend code. Since F18/Flang was an independent >> project, the refactoring of Clang/LLVM wasn't really considered. That >> design has been challenged since ([3], [10]), and also not much progress >> has been made. We would like to revisit that RFC from a slightly >> different angle. Since Flang is now part of LLVM's monorepo, we feel >> that refactoring Clang/LLVM _before_ we upstream the driver makes a lot >> of sense and is the natural first step. >> >> *ASSUMPTIONS & DESIGN GOALS* >> 1. We will re-use as much of the Clang's driver/frontend code as >> possible (this was previously proposed in [2]). >> >> 2. We want to avoid dependencies from Flang to Clang, both long-term >> (strong requirement) and short-term (might be difficult to achieve). >> This has recently come up in a discussion on one of our early patches >> [3] (tl;dr Steve Scalpone, the code owner of Flang, would prefer us to >> avoid this dependency), and was also suggested before by Eric >> Christopher [10]. >> >> 3. We will move the code that can be shared between Flang and Clang (and >> other projects) to LLVM. This idea has already come up on llvm-dev >> before [7] (in a slightly different context, and to a slightly different >> extent). The methods that are not language specific would be shared in >> an LLVM library. >> >> 4. The classes/types/methods that need specific changes for Fortran will >> be "copied" to Flang and adapted as needed. We should minimize (or even >> eliminate) any Fortran specific code from Clang and make sure that that >> lives in llvm-project/flang. >> >> *FLANG'S DEPENDENCIES ON CLANG* >> These are the dependencies on Clang that we have identified so far while >> prototyping the Flang driver. >> >> 1. All the machinery related to Diagnostics & SourceLocation. >> >> This is currently part of libclangBasic [4] and is used in _many_ places >> in Clang. The official documentation [5] suggests that this could be >> re-used for non-C-based languages. In particular, we feel that It would >> make a lot of sense for Flang to use it. Also, separating Clang's >> driver/frontend code and the diagnostics would require a lot of >> refactoring for no real benefit (and we feel that Flang should re-use >> Clang's driver/frontend code, see below). This dependency is used in >> many places, so moving it to LLVM will require a lot of (mostly) >> mechanical changes. We can't see an obvious way to split it into smaller >> chunks (see also below where we discuss the impact). >> > > I do not think it is necessarily going to be reasonable to move all > machinery related to SourceLocation (in particular, all of clang's > SourceManager) into LLVM. The ideas and data structure underpinning > SourceLocation and SourceManager are quite general (a concatenated > hierarchical slab of contiguous blocks, with linear indexing within those > blocks), but the details are much more specific to Clang and the C-family > languages it represents. Things like the support for object-like and > function-like macros, macro arguments, #include, splitting >> tokens for > C++, and so on, all make sense for Clang, but probably make less sense for > Fortran, where a different set of kinds of block would probably be desired > instead. This isn't something that can be trivially generalized and > extended, either; we carefully bit-pack various things into our block > representations, and as a result, we're quite tightly fitted to the needs > of Clang, and would probably not want to move away from that position. > > However, I do think there is common infrastructure that can be extracted, > with some significant work done to generalize the SourceManager > infrastructure and make it tailorable to the needs of Clang and Flang (and > any other consumers of it that might come along). I could imagine moving > all of the complexity to do with what kinds of SLocEntry are supported into > a traits type, and having a reusable template that can generate a data > structure that the Clang and Flang SourceManagers can be implemented in > terms of. > > Clang's SourceLocation is probably almost directly useable as-is -- it has > hardcoded assumptions about a particular bit being reserved to indicate a > location within a C preprocessor macro, but we can move that to a static > method on Clang SourceManager, and then I think SourceLocation can be > directly shared between the two projects. > > (One big asterisk on the above: will Flang want an integrated C > preprocessor? If so, then we're now talking about a much larger chunk of > Clang, including the lexer, preprocessor, identifier tables, the Token > type, and it may be best to simply acknowledge that Flang has a dependency > on Clang to supply all that, rather than moving it into LLVM.) > > The layers below SourceManager -- FileManager, the VFS, and so on -- all > seem like they should be reasonable to share between projects. > > Some of the diagnostics engine seems reasonable to share: specifically, > the tablegen-driven diagnostic table generation, most of the diagnostics > engine (including support for diagnostics pragmas that change the set of > warnings enabled at different source locations), and the formatting code > for non-clang-specific types are all relatively reusable. If you want to > reuse the TextDiagnosticPrinter, I think that will need some refactoring; > it's currently tied into the specific needs of Clang's SourceManager (for > handling textual inclusion and macro expansion in the way that C-family > languages deal with those things). I expect it would be possible to factor > out an interface that Clang could implement to provide the necessary > customizations. > > Before we factor out the diagnostics engine, we should fix the > longstanding issue that it requires a global monolithic table covering all > diagnostics, and is consequently unable to properly respect layering. I > think this is very much fixable, but it requires someone to do the work to > fix it :) > > Looking at your branch, I immediately see a few things there that are > unacceptable changes: moving clang's TokenKinds.def, Specifiers.h, and > OpenCLImageTypes.def into LLVM is not OK. But I assume you're aware of that > already. =) > > >> 2. libclangFrontend & libclangDriver >> >> The Flang driver will use many methods from libClangDriver, >> libClangFrontend and libClangFrontendTool. Driver.h and Compilation.h >> from libClangDriver are responsible to call, pass the correct arguments >> and execute the driver. TextDiagnosticPrinter.h takes care of printing >> the driver diagnostics in case of errors. >> >> The Flang frontend will use CompilerInstance, CompilerInvocation, >> FrontendOptions, FrontendActions and Utils from libClangFrontend and >> libClangFrontendTool. These methods are responsible for translating the >> command line arguments to frontend Options and later to Actions to be >> executed by ExecuteCompilerInvocation. The translation from arguments to >> Actions happens with FrontendOption and FrontendActions. But it is the >> CompilerInvocation that has the pointers for the sequence of Actions >> that are required in a Compiler Instance. These methods are needed to >> implement Flang driver/frontend and contain actions/method/functions >> that seem to be language agnostic. >> > > I think this is going too far in attempting to reuse Clang code. > CompilerInvocation, for example, is almost exclusively dealing in parsing > Clang's -cc1 flags, which I would expect to have very little overlap with > Flang's flags, and CompilerInstance exists (in part) to manage and own all > the Clang-specific global objects (the parser, sema, the module loader, the > AST consumer). Flang should not be going anywhere near this stuff, and > should be implementing its own frontend. > > There may be some clang-independent parts that can be factored out, but I > would expect them to be small enough that we can address them on a > case-by-case basis. The interesting thing to factor out is the parsing of > command-line options, but that's already been done. I think your approach > here should be to assume as a baseline that you reuse none of clang's > Frontend library, but if you find general pieces that can meaningfully be > extracted, we can talk about those pieces in isolation. >I strongly agree here. It doesn't make sense for `CompilerInvocation` or `CompilerInstance` to know anything about Fortran as they are entirely about driving the Clang frontend (-cc1).> For the driver, I think the picture is very different. It seems to me that > we should only have one LLVM driver, that can build C-family languages, > Fortran code, or both at the same time (or invoke lld etc). To that end, I > think it would be reasonable to move clang's driver out to a separate LLVM > project (maybe that's llvm/, maybe it's somewhere new such as driver/), and > extend it to be able to invoke flang actions in addition to clang actions. > Then the only difference between the clang and flang drivers would be which > frontend is directly linked into the driver binary and which one is invoked > by exec'ing a different binary. That would imply that all the parts of > Clang that are depended on by the driver are also moved out (I think the > main parts here are flags and diagnostics, and via the diagnostics layer, > source locations). > > This will require some decoupling between the Clang driver and frontend > (currently Clang's Options.td contains various driver options that are > marked as also being options for Clang's -cc1 mode; duplicating those in > CC1Options.td is probably acceptable, if we're going to split the driver > and frontend into two different projects), and some shared support code > (eg, clang's sanitizers list) will presumably end up in the driver, because > we don't want a driver -> *lang dependency. >Also strongly agree here. Large chunks of the driver will end up being the same between Clang and Flang, but they should still be separate actions having separate `FrontendOptions` and `FrontendActions`. I feel this is a much larger refactoring than the current changeset and description implies. I'm OK with the direction of Option 1, but am concerned with the specific implementation details that have been described so far. I'll feel much better when the concerns Richard expressed have been addressed. - Michael Spencer> > >> *ALTERNATIVES* >> This is a summary of the alternative ways of implementing the Flang >> driver. We propose OPTION 1. If there are no major objections, we will >> draft a separate RFC with more technical details (we will also break it >> down into smaller pieces). Otherwise, what would be your preferred >> alternative and why? >> >> OPTION 1 >> We avoid dependency on Clang from Day 1. >> >> This is the ideal scenario that would guarantee that Clang and Flang are >> completely separate and that the common bits stay in LLVM instead. It >> would mean slower progress for us initially, but then other projects >> could benefit from the refactoring sooner rather than later. >> >> OPTION 2 >> We avoid dependency on clangBasic from day 1, but initially allow >> dependency on libClangFrontend & libClangDriver (or other libs specific >> to the driver/frontend). >> >> The dependency on libclang{Driver|Frontend} would gradually be >> removed/refactored out as the driver for Flang gains momentum. As >> mentioned earlier, there is plenty of code in libClangFrontend and >> libClangDriver that we'd like to re-use, but the separation between code >> that's specific to C-based languages and generic driver/frontend code is >> not always obvious. We think that refactoring the common bits in >> libClangFrontend and libClangDriver might simply be easier once: >> >> * we have a Flang driver that leverages these libraries, and, as a >> result, >> * we understand better what we could re-use and what's not that >> relevant to non-C-based languages. >> >> OPTION 3 >> We initially keep the dependency on Clang and re-visit this RFC later. >> >> This would be the least disruptive approach (at least for the time >> being) and would allow us to make us the most rapid progress (i.e. we >> would be focusing on implementing the features rather than refactoring). >> It would also inform the future refactoring better. But it was already >> pointed out that we should avoid dependencies on clang [3] and this >> would be a step in the opposite direction. Also, the build requirements >> for Flang would increase, and we feel that we should strive to reduce >> them instead [6]. >> >> If we missed any alternatives, please bring them up. >> > > I don't think I can express an opinion without knowing whether you intend > for Flang to ever support an integrated C preprocessor. If not, then option > 1 seems appropriate. But if so, then I think we have a choice between > factoring out all of clang below the parser or just acknowledging that > Flang depends on Clang for its lexical layer and deciding to keep a flang > -> clang dependency forever. > > >> *IMPACT ON OTHER PROJECTS* >> The refactoring will have non-trivial impact on other projects: >> >> * OPTION 1 and OPTION 2 - huge impact initially. >> * OPTION 3 - no impact initially, but most likely similar impact as >> OPTION 1 and OPTION 2 in the long term. >> >> From our initial investigation, extracting Diagnostics/SourceLocation >> from clangBasic and moving it to LLVM will be the most impactful change. >> Within llvm-project it is used in clang, clang-tools-extra, lldb and >> polly. Most of the changes will be mechanical, but will require touching >> many files. In order to get to a state where we could build libclang >> using the newly defined LLVM library, we had to touch ~850 files and >> make ~30k insertions/deletions. The result of this exercise is available >> in our development fork of llvm-project [8]. >> >> Please note: our patches on GitHub [8] are just experiments to >> illustrate the idea. It's work-in-progress that requires a lot of >> polishing. When/if up-streaming this, we would need to do some >> low-impact refactoring first. For example, currently ASTReader & >> ASTWriter are `friends` with DiagnosticsEngine [9]. That won't be >> possible when DiagnosticsEngine is moved to LLVM. >> >> >> On behalf of the Arm Fortran Team, >> Andrzej Warzynski >> >> REFERENCES >> >> [1] >> >> https://github.com/llvm/llvm-project/commit/b98ad941a40c96c841bceb171725c925500fce6c >> [2] http://lists.llvm.org/pipermail/cfe-dev/2019-June/062669.html >> [3] https://reviews.llvm.org/D79092 >> [4] >> >> https://github.com/llvm/llvm-project/blob/ad5d319ee85d31ee2b1ca5c29b3a10b340513fec/clang/lib/Basic/CMakeLists.txt#L45-L47 >> [5] >> https://clang.llvm.org/docs/InternalsManual.html#the-clang-basic-library >> [6] http://lists.llvm.org/pipermail/flang-dev/2019-November/000061.html >> [7] http://lists.llvm.org/pipermail/llvm-dev/2019-November/136743.html >> [8] >> >> https://github.com/banach-space/llvm-project/commits/andrzej/refactor_clangBasic >> [9] >> >> https://github.com/llvm/llvm-project/blob/b11ecd196540d87cb7db190d405056984740d2ce/clang/include/clang/Basic/Diagnostic.h#L985-L986 >> [10] https://reviews.llvm.org/D63607 >> _______________________________________________ >> cfe-dev mailing list >> cfe-dev at lists.llvm.org >> https://lists.llvm.org/cgi-bin/mailman/listinfo/cfe-dev >> > _______________________________________________ > LLVM Developers mailing list > llvm-dev at lists.llvm.org > https://lists.llvm.org/cgi-bin/mailman/listinfo/llvm-dev >-------------- next part -------------- An HTML attachment was scrubbed... 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Chris Lattner via llvm-dev
2020-Jun-03 23:26 UTC
[llvm-dev] [cfe-dev] [RFC] Refactor Clang: move frontend/driver/diagnostics code to LLVM
> On Jun 2, 2020, at 4:21 PM, comex via cfe-dev <cfe-dev at lists.llvm.org> wrote: > > While this is a different area of the codebase, another thing that > would benefit greatly from being moved out of Clang is function call > ABI handling. Currently, that handling is split awkwardly between > Clang and LLVM proper, forcing frontends that implement C FFI to > either recreate the Clang parts themselves (like Rust does), depend on > Clang (like Swift does), or live with FFI just not working with some > function signatures. I'm not sure what Flang currently does, but my > understanding is that Flang does support C FFI, so it would probably > benefit from this as well. Just something to consider. :)For what its worth, I think there is a pretty clear path on this, but it hinges on Clang moving to MLIR as its code generation backend (an intermediary to generating LLVM IR). The approach is to factor the ABI lower part of clang out of Clang itself into a specific dialect lowering pass, that works on a generic C type system (plus callout to extended type systems). MLIR has all the infra to support this, it is just a massive job to refactor all the things to change clang’s architecture. I also don’t think there is broad consensus on the direction for Clang here, but given that Flang is already using MLIR for this, maybe it would make sense to start work there. If you’re curious, I co-delivered a talk about this recently, the slides are available here <https://docs.google.com/presentation/d/11-VjSNNNJoRhPlLxFgvtb909it1WNdxTnQFipryfAPU/edit#slide=id.g7d334b12e5_0_4>. -Chris -------------- next part -------------- An HTML attachment was scrubbed... URL: <http://lists.llvm.org/pipermail/llvm-dev/attachments/20200603/6290f880/attachment.html>
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