From 163521345aa6366fd1ed801b989b668b5c806f69 Mon Sep 17 00:00:00 2001 From: Chad Norvell Date: Wed, 26 Jun 2024 13:26:24 -0700 Subject: [PATCH] Support target collections This change adds two main features: 1. You can configure compile commands for certain targets or groups of targets to go into separate files For embedded systems development in particular, `clangd` doesn't work well with `compile_commands.json` generated for multiple targets. For example, if you have a build target that runs on your host machine in one configuration and another that runs on device in another configuration, `compile_commands.json` will contain multiple conflicting compile commands for the same source files. `clangd` will just use the first one it finds, which may not be the one you want to use for code intelligence. It's convenient to have separate compile commands files for each target, and switch the file `clangd` uses depending on how you want to navigate your code. By providing the `target_collections` argument, you can associate targets with named collections. Separate compile commands files will be generated for each of the specified collections, and will be placed in subdirectories with the specified names. This is most useful when you associate multiple targets with a collection, for example, to configure code intelligence to use the compile commands for all of the targets that build for one architecture or device. This means that you can now specify a target more than once, generating compile commands for builds of the same target but with different flags (e.g. `--platform`). Before, you implicitly could only specify each target once since the targets were dict keys. 2. You can specify a different output path If you are generating multiple compile commands files, its preferable not to output them into the workspace root. So you can specify a separate output path, relative to the workspace root. This patch doesn't change any existing behavior; if you don't add either of the new arguments to your invocation of `refresh_compile_commands`, everything will work exactly as it did before. --- refresh.template.py | 59 +++++++++++--- refresh_compile_commands.bzl | 147 ++++++++++++++++++++++++++++++++--- 2 files changed, 183 insertions(+), 23 deletions(-) diff --git a/refresh.template.py b/refresh.template.py index 3b33701..6ab9556 100644 --- a/refresh.template.py +++ b/refresh.template.py @@ -18,6 +18,7 @@ # Similarly, when upgrading, please search for that MIN_PY= tag. +import collections import concurrent.futures import enum import functools # MIN_PY=3.9: Replace `functools.lru_cache(maxsize=None)` with `functools.cache`. @@ -1405,20 +1406,54 @@ def main(): # End: template filled by Bazel ] - compile_command_entries = [] - for (target, flags) in target_flag_pairs: - compile_command_entries.extend(_get_commands(target, flags)) - - if not compile_command_entries: + target_groups = { + # Begin: template filled by Bazel + {target_groups} + # End: template filled by Bazel + } + + # Associates lists of compile commands with compile command "groups". + # __all__ is a special case: It contains all generated compile commands. + # Any other groups defined in `target_groups` will contain only + # the compile commands for the targets defined for those groups. + compile_command_sets = collections.defaultdict(list) + + for target_key, target_data in target_flag_pairs: + target, flags = target_data + commands = list(_get_commands(target, flags)) + # If the target is assigned to any groups, put the compile commands in the compile command sets for those groups. + groups_for_target = [group_name for group_name, target_keys in target_groups.items() if target_key in target_keys] + for group_name in groups_for_target: + compile_command_sets[group_name].extend(commands) + # Also put them into the main file. + compile_command_sets['__all__'].extend(commands) + + if len(compile_command_sets) <= 1 and len(compile_command_sets['__all__']) == 0: log_error(""">>> Not (over)writing compile_commands.json, since no commands were extracted and an empty file is of no use. There should be actionable warnings, above, that led to this.""") sys.exit(1) + + if not (root_dir := pathlib.Path({out_dir})).exists(): + root_dir.mkdir(parents=True) + # Chain output into compile_commands.json - with open('compile_commands.json', 'w') as output_file: - json.dump( - compile_command_entries, - output_file, - indent=2, # Yay, human readability! - check_circular=False # For speed. - ) + for group in compile_command_sets: + # If the target doesn't have a specified file name, put it into the "catch all" + # compilation database. + if group == '__all__': + file_path = root_dir / "compile_commands.json" + # Otherwise, write the database to the specific target file. + else: + target_dir = root_dir / group + target_dir.mkdir(exist_ok=True) + file_path = target_dir / "compile_commands.json" + + if (len(compile_command_sets[group]) > 0): + with open(file_path, 'w') as output_file: + json.dump( + compile_command_sets[group], + output_file, + indent=2, # Yay, human readability! + check_circular=False # For speed. + ) diff --git a/refresh_compile_commands.bzl b/refresh_compile_commands.bzl index 0210d42..4c9c3ec 100644 --- a/refresh_compile_commands.bzl +++ b/refresh_compile_commands.bzl @@ -36,6 +36,30 @@ refresh_compile_commands( # ^ excluding headers will speed up compile_commands.json generation *considerably* because we won't need to preprocess your code to figure out which headers you use. # However, if you use clangd and are looking for speed, we strongly recommend you follow the instructions below instead, since clangd is going to regularly infer the wrong commands for headers and give you lots of annoyingly unnecessary red squigglies. + # Need to create separate files for specific targets? Give those targets a name and their compile commands file will be written into a subdirectory with that name. + # target_groups = { + # "host": "//:host_build", + # "target": "//:target_build", + # } + + # You can define target groups, sort of like "meta-targets" that contain combination of compile commands from the specified targets. + # This is useful for multi-architecture projects, where you might be building the same files in multiple different ways depending on what architecture or device the code will run on. + # It only makes sense to get code intelligence for a consistent build, so you can produce consistent compile commands with target groups. + # Targets only need to be specified in either `targets` or `target_groups`; there's no need to add them to both. + # target_groups = { + # "host": [ + # "//:host_build", + # "//:host_tests", + # ], + # "target": [ + # ["//:target_build", "--platform=//:target_device --important_flag"], + # ], + # } + + + # Need to write compile commands to some directory other than the workspace root? Provide a path relative to the workspace root. This is useful if you use target groups. + # out_dir = ".compile_commands" + # Need things to run faster? [Either for compile_commands.json generation or clangd indexing.] # First: You might be able to refresh compile_commands.json slightly less often, making the current runtime okay. # If you're adding files, clangd should make pretty decent guesses at completions, using commands from nearby files. And if you're deleting files, there's not a problem. So you may not need to rerun refresh.py on every change to BUILD files. Instead, maybe refresh becomes something you run every so often when you can spare the time, making the current runtime okay. @@ -62,26 +86,116 @@ load("@bazel_tools//tools/cpp:toolchain_utils.bzl", "find_cpp_toolchain") def refresh_compile_commands( name, targets = None, + target_groups = None, + out_dir = None, exclude_headers = None, exclude_external_sources = False, **kwargs): # For the other common attributes. Tags, compatible_with, etc. https://docs.bazel.build/versions/main/be/common-definitions.html#common-attributes. + + # Given `targets` that may be absent, or be a single string target: + # targets = "//:some_target" + # + # ... or be a list of string targets: + # targets = [ + # "//:some_target", + # "//:another_target" + # ] + # + # ... or be a dict of string targets and build flags: + # targets = { + # "//:some_target": "--flag ...", + # "//:another_target": "--arg ..." + # } + # + # And given `target_groups` that may be absent, or have a group name associated with a string target or list of string targets: + # target_groups = { + # "host": "//:host_target", + # "device": [ + # "//:device_target", + # ... + # ] + # } + # + # ... or have group names associated with lists of string targets with build flags: + # target_groups = { + # "host": [ + # ("//:host_target", "--flag ..."), + # ("//:test_target", "--platform=//:host_platform"), + # ... + # ], + # "device": [ + # ("//:device_target", "--arg ..."), + # ("//:test_target", "--platform=//:device_platform"), + # ... + # ] + # } + # + # ... we want to produce a `string_dict_list` that we can pass into the Python script template to assemble the `target_flag_pairs`. + # A simple dict with target name keys isn't adequate, because we can specify a target more than once with different build flags (see the last example above). + # So we assemble a dict where the keys are unique to each target+flag combination, and the values are a list of strings in this format: [, ] + # + # That takes care of the `target_flag_pairs`, which determines which targets to generate compile commands for. + # + # Associating compile commands with target groups is easier; we pass `target_groups`, but with the target names and flags concatenated in the same way + # as described above. This lets us associate each target+flag combination we generate compile commands for with its membership(s) in target groups. + + target_group_targets_list = [] + serialized_target_groups = {} + + if target_groups: + # Convert the targets specified in `target_groups` into the format we'll use with `targets`, so we can combine them into one list of targets to generate compile commands for. + for targets_for_group in target_groups.values(): + # You can specify a bare string target if the group only has one target. + if type(targets_for_group) != "list": + targets_for_group = [targets_for_group] + + for target in targets_for_group: + # The target can either be a plain string target name, or a tuple of a target name and build flags, similar to the format of `targets`. + if type(target) == "list": + target_name, flags = target + else: + target_name = target + flags = "" + + target_data = (_make_label_absolute(target_name), flags) + + # Targets may appear in multiple groups. We don't want duplicates in the final list, but Starlark doesn't have Python's set class. So we de-duplicate manually. + if target_data not in target_group_targets_list: + target_group_targets_list.append(target_data) + + # Assemble the association between target groups and their targets. + for group, targets_for_group in target_groups.items(): + serialized_targets = [] + + for target in targets_for_group: + if type(target) == "list": + # If the target has flags, concat them with the target name. That's how we'll associate compile commands with groups on the Python side. + serialized_targets.append("".join(target)) + else: + serialized_targets.append(target) + + serialized_target_groups[group] = serialized_targets + + target_group_targets = {"{}{}".format(target, flags): [target, flags] for target, flags in target_group_targets_list} + # Convert the various, acceptable target shorthands into the dictionary format # In Python, `type(x) == y` is an antipattern, but [Starlark doesn't support inheritance](https://bazel.build/rules/language), so `isinstance` doesn't exist, and this is the correct way to switch on type. - if not targets: # Default to all targets in main workspace - targets = {"@//...": ""} + if not targets and not target_groups: # Default to all targets in main workspace + targets = {"@//...": ["@//...", ""]} + elif not targets: # In this case, targets were defined only in `target_groups` + targets = target_group_targets elif type(targets) == "select": # Allow select: https://bazel.build/reference/be/functions#select # Pass select() to _expand_template to make it work # see https://bazel.build/docs/configurable-attributes#faq-select-macro pass elif type(targets) == "list": # Allow specifying a list of targets w/o arguments - targets = {target: "" for target in targets} + absolute_targets = [_make_label_absolute(target) for target in targets] + targets = {target: [target, ""] for target in absolute_targets} | target_group_targets elif type(targets) != "dict": # Assume they've supplied a single string/label and wrap it - targets = {targets: ""} - - # Make any package-relative labels absolute - targets = { - target if target.startswith("/") or target.startswith("@") else "{}//{}:{}".format(native.repository_name(), native.package_name(), target.removeprefix(":")): flags for target, flags in targets.items() - } + targets = {targets: [targets, ""]} | target_group_targets + else: # Assume that they've provided a dict of targets with flags + absolute_targets = {_make_label_absolute(target): flags for target, flags in targets.items()} + targets = {"{}{}".format(target, flags): [target, flags] for target, flags in absolute_targets.items()} | target_group_targets # Create a wrapper script that prints a helpful error message if the python version is too old, generated from check_python_version.template.py version_checker_script_name = name + ".check_python_version.py" @@ -89,7 +203,7 @@ def refresh_compile_commands( # Generate the core, runnable python script from refresh.template.py script_name = name + ".py" - _expand_template(name = script_name, labels_to_flags = targets, exclude_headers = exclude_headers, exclude_external_sources = exclude_external_sources, **kwargs) + _expand_template(name = script_name, labels_to_flags = targets, labels_to_groups = serialized_target_groups, out_dir = out_dir, exclude_headers = exclude_headers, exclude_external_sources = exclude_external_sources, **kwargs) # Combine them so the wrapper calls the main script native.py_binary( @@ -101,6 +215,13 @@ def refresh_compile_commands( **kwargs ) +def _make_label_absolute(label): + # Make any package-relative labels absolute + return label if label.startswith("/") or label.startswith("@") else "{}//{}:{}".format(native.repository_name(), native.package_name(), label.removeprefix(":")) + +def _expand_target_group_targets(targets): + return "[\n" + "\n".join([" '{}',".format(target) for target in targets]) + "\n ]" + def _expand_template_impl(ctx): """Inject targets of interest--and other settings--into refresh.template.py, and set it up to be run.""" script = ctx.actions.declare_file(ctx.attr.name) @@ -111,7 +232,9 @@ def _expand_template_impl(ctx): substitutions = { # Note, don't delete whitespace. Correctly doing multiline indenting. " {target_flag_pairs}": "\n".join([" {},".format(pair) for pair in ctx.attr.labels_to_flags.items()]), + " {target_groups}": "\n".join([" '{}': {},".format(group_name, _expand_target_group_targets(targets)) for group_name, targets in ctx.attr.labels_to_groups.items()]), " {windows_default_include_paths}": "\n".join([" %r," % path for path in find_cpp_toolchain(ctx).built_in_include_directories]), # find_cpp_toolchain is from https://docs.bazel.build/versions/main/integrating-with-rules-cc.html + "{out_dir}": repr(ctx.attr.out_dir), "{exclude_headers}": repr(ctx.attr.exclude_headers), "{exclude_external_sources}": repr(ctx.attr.exclude_external_sources), "{print_args_executable}": repr(ctx.executable._print_args_executable.path), @@ -121,7 +244,9 @@ def _expand_template_impl(ctx): _expand_template = rule( attrs = { - "labels_to_flags": attr.string_dict(mandatory = True), # string keys instead of label_keyed because Bazel doesn't support parsing wildcard target patterns (..., *, :all) in BUILD attributes. + "labels_to_flags": attr.string_list_dict(mandatory = True), # string keys instead of label_keyed because Bazel doesn't support parsing wildcard target patterns (..., *, :all) in BUILD attributes. + "labels_to_groups": attr.string_list_dict(), + "out_dir": attr.string(default = "."), "exclude_external_sources": attr.bool(default = False), "exclude_headers": attr.string(values = ["all", "external", ""]), # "" needed only for compatibility with Bazel < 3.6.0 "_script_template": attr.label(allow_single_file = True, default = "refresh.template.py"),