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There are two main drivers in Flang:
flang-newflang-new -fc1The compiler driver will allow you to control all compilation phases (i.e. preprocessing, frontend code-generation, middlend/backend code-optimisation and lowering, linking). For frontend specific tasks, the compiler driver creates a Fortran compilation job and delegates it to flang-new -fc1, the frontend driver.
The frontend driver glues all of the frontend libraries together and provides an easy-to-use and intuitive interface to the frontend. It accepts many frontend-specific options not available in flang-new and as such it provides a finer control over the frontend. Similarly to -Xclang in clang, you can use -Xflang to forward the frontend specific flags from the compiler directly to the frontend driver.
The main entry point for Flang‘s compiler driver is implemented in flang/tools/flang-driver/driver.cpp. Flang’s compiler driver is implemented in terms of Clang's driver library, clangDriver. This approach allows us to:
clang/include/clang/Driver/Options.td. For options that are common for both Flang and Clang, the corresponding definitions are shared.Internally, a clangDriver based compiler driver works by creating actions that correspond to various compilation phases, e.g. PreprocessJobClass, CompileJobClass, BackendJobClass or LinkJobClass from the clang::driver::Action::ActionClass enum. There are also other, more specialised actions, e.g. MigrateJobClass or InputClass, that do not map directly to common compilation steps. The actions to run are determined from the supplied compiler flags, e.g.
-E for PreprocessJobClass,-c for CompileJobClass.In most cases, the driver creates a chain of actions/jobs/phases where the output from one action is the input for the subsequent one. You can use the -ccc-print-phases flag to see the sequence of actions that the driver will create for your compiler invocation:
flang-new -ccc-print-phases -E file.f +- 0: input, "file.f", f95-cpp-input 1: preprocessor, {0}, f95
As you can see, for -E the driver creates only two jobs and stops immediately after preprocessing. The first job simply prepares the input. For -c, the pipeline of the created jobs is more complex:
flang-new -ccc-print-phases -c file.f +- 0: input, "file.f", f95-cpp-input +- 1: preprocessor, {0}, f95 +- 2: compiler, {1}, ir +- 3: backend, {2}, assembler 4: assembler, {3}, object
Note that currently Flang does not support code-generation and flang-new will fail during the second step above with the following error:
error: code-generation is not available yet
The other phases are printed nonetheless when using -ccc-print-phases, as that reflects what clangDriver, the library, will try to create and run.
For actions specific to the frontend (e.g. preprocessing or code generation), a command to call the frontend driver is generated (more specifically, an instance of clang::driver::Command). Every command is bound to an instance of clang::driver::Tool. For Flang we introduced a specialisation of this class: clang::driver::Flang. This class implements the logic to either translate or forward compiler options to the frontend driver, flang-new -fc1.
You can read more on the design of clangDriver in Clang's Driver Design & Internals.
Flang‘s frontend driver is the main interface between end-users and the Flang frontend. The high-level design is similar to Clang’s frontend driver, clang -cc1 and consists of the following classes:
CompilerInstance, which is a helper class that encapsulates and manages various objects that are always required by the frontend (e.g. AllSources, AllCookedSources, Parsing, CompilerInvocation, etc.). In most cases CompilerInstance` owns these objects, but it also can share them with its clients when required. It also implements utility methods to construct and manipulate them.CompilerInvocation encapsulates the configuration of the current invocation of the compiler as derived from the command-line options and the input files (in particular, file extensions). Among other things, it holds an instance of FrontendOptions. Like CompilerInstance, it owns the objects that it manages. It can share them with its clients that want to access them even after the corresponding CompilerInvocation has been destructed.FrontendOptions holds options that control the behaviour of the frontend, as well as e.g. the list of the input files. These options come either directly from the users (through command-line flags) or are derived from e.g. the host system configuration.FrontendAction and FrontendActions (the former being the base class for the latter) implement the actual actions to perform by the frontend. Usually there is one specialisation of FrontendActions for every compiler action flag (e.g. -E, -fdebug-unparse). These classes also contain various hooks that allow you to e.g. fine-tune the configuration of the frontend based on the input.This list is not exhaustive and only covers the main classes that implement the driver. The main entry point for the frontend driver, fc1_main, is implemented in flang/tools/flang-driver/driver.cpp. It can be accessed by invoking the compiler driver, flang-new, with the -fc1 flag.
The frontend driver will only run one action at a time. If you specify multiple action flags, only the last one will be taken into account. The default action is ParseSyntaxOnlyAction, which corresponds to -fsyntax-only. In other words, flang-new -fc1 <input-file> is equivalent to flang-new -fc1 -fsyntax-only <input-file>.
Adding a new compiler option in Flang consists of two steps:
All of Flang's compiler and frontend driver options are defined in clang/include/clang/Driver/Options.td in Clang. When adding a new option to Flang, you will either:
clang), but not yet available in Flang, orThere are many predefined TableGen classes and records that you can use to fine tune your new option. The list of available configurations can be overwhelming at times. Sometimes the easiest approach is to find an existing option that has similar semantics to your new option and start by copying that.
For every new option, you will also have to define the visibility of the new option. This is controlled through the Flags field. You can use the following Flang specific option flags to control this:
FlangOption - this option will be available in the flang-new compiler driver,FC1Option - this option will be available in the flang-new -fc1 frontend driver,FlangOnlyOption - this option will not be visible in Clang drivers.Please make sure that options that you add are only visible in drivers that can support it. For example, options that only make sense for Fortran input files (e.g. -ffree-form) should not be visible in Clang and be marked as FlangOnlyOption.
When deciding what OptionGroup to use when defining a new option in the Options.td file, many new options fall into one of the following two categories:
Action_Group - options that define an action to run (e.g. -fsyntax-only, -E)f_Group - target independent compiler flags (e.g. -ffixed-form, -fopenmp) There are also other groups and occasionally you will use them instead of the groups listed above.First, every option needs to be parsed. Flang compiler options are parsed in two different places, depending on which driver they belong to:
flang/lib/Frontend/CompilerInvocation.cpp,clang/lib/Driver/ToolChains/Flang.cpp.The parsing will depend on the semantics encoded in the TableGen definition.
When adding a compiler driver option (i.e. an option that contains FlangOption among its Flags) that you also intend to be understood by the frontend, make sure that it is either forwarded to flang-new -fc1 or translated into some other option that is accepted by the frontend driver. In the case of options that contain both FlangOption and FC1Option among its flags, we usually just forward from flang-new to flang-new -fc1. This is then tested in flang/test/Driver/frontend-forward.F90.
What follows is usually very dependant on the meaning of the corresponding option. In general, regular compiler flags (e.g. -ffree-form) are mapped to some state within the driver. A lot of this state is stored within an instance of FrontendOptions, but there are other more specialised classes too. Action flags (e.g. -fsyntax-only) are usually more complex overall, but also more structured in terms of the implementation.
For options that correspond to an action (i.e. marked as Action_Group), you will have to define a dedicated instance of FrontendActions in flang/include/flang/Frontend/FrontendOptions.h. For example, for -fsyntax-only we defined:
class ParseSyntaxOnlyAction : public PrescanAndSemaAction { void ExecuteAction() override; };
Command line options are mapped to frontend actions through the Fortran::frontend::ActionKind enum. For every new action option that you add, you will have to add a dedicated entry in that enum (e.g. ParseSyntaxOnly for -fsyntax-only) and a corresponding case in ParseFrontendArgs function in the CompilerInvocation.cpp file, e.g.:
case clang::driver::options::OPT_fsyntax_only: opts.programAction_ = ParseSyntaxOnly; break;
Note that this simply sets the program/frontend action within the frontend driver. You still have make sure that the corresponding frontend action class is instantiated when your new action option is used. The relevant switch statement is implemented in Fortran::frontend::CreatedFrontendBaseAction in the ExecuteCompilerInvocation.cpp file. Here's an example for -fsyntax-only:
case ParseSyntaxOnly: return std::make_unique<ParseSyntaxOnlyAction>();
At this point you should be able to trigger that frontend action that you have just added using your new frontend option.
In LIT, we define two variables that you can use to invoke Flang's drivers:
%flang is expanded as flang-new (i.e. the compiler driver)%flang_fc1 is expanded as flang-new -fc1 (i.e. the frontend driver)For most regression tests for the frontend, you will want to use %flang_fc1. In some cases, the observable behaviour will be identical regardless of whether %flang or %flang_fc1 is used. However, when you are using %flang instead of %flang_fc1, the compiler driver will add extra flags to the frontend driver invocation (i.e. flang-new -fc1 -<extra-flags>). In some cases that might be exactly what you want to test. In fact, you can check these additional flags by using the -### compiler driver command line option.
Lastly, you can use ! REQUIRES: <feature> for tests that will only work when <feature> is available. For example, you can use! REQUIRES: shell to mark a test as only available on Unix-like systems (i.e. systems that contain a Unix shell). In practice this means that the corresponding test is skipped on Windows.