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Cleanup for `library_plan`, and put executables in subdirs. (Required moving dds.main.cpp)

default_compile_flags
vector-of-bool 5 anni fa
parent
commit
6e471b7880
4 ha cambiato i file con 140 aggiunte e 47 eliminazioni
  1. +0
    -0
      src/dds.main.cpp
  2. +53
    -29
      src/dds/build/plan/library.cpp
  3. +86
    -17
      src/dds/build/plan/library.hpp
  4. +1
    -1
      tests/test_drivers/catch/test_catch.py

src/dds/dds.main.cpp → src/dds.main.cpp Vedi File


+ 53
- 29
src/dds/build/plan/library.cpp Vedi File

@@ -4,78 +4,101 @@

#include <range/v3/view/concat.hpp>
#include <range/v3/view/filter.hpp>
#include <range/v3/view/transform.hpp>

#include <cassert>

using namespace dds;

library_plan library_plan::create(const library& lib,
const library_build_params& params,
const usage_requirement_map& ureqs) {
std::vector<compile_file_plan> compile_files;
std::vector<link_executable_plan> link_executables;
std::optional<create_archive_plan> create_archive;

// Source files are kept in three groups:
std::vector<source_file> app_sources;
std::vector<source_file> test_sources;
std::vector<source_file> lib_sources;

// Collect the source for this library. This will look for any compilable sources in the `src/`
// subdirectory of the library.
auto src_dir = lib.src_dir();
if (src_dir.exists()) {
// Sort each source file between the three source arrays, depending on
// the kind of source that we are looking at.
auto all_sources = src_dir.sources();
auto to_compile = all_sources | ranges::views::filter([&](const source_file& sf) {
return (sf.kind == source_kind::source
|| (sf.kind == source_kind::app && params.build_apps)
|| (sf.kind == source_kind::test && params.build_tests));
});

for (const auto& sfile : to_compile) {
for (const auto& sfile : all_sources) {
if (sfile.kind == source_kind::test) {
test_sources.push_back(sfile);
} else if (sfile.kind == source_kind::app) {
app_sources.push_back(sfile);
} else {
} else if (sfile.kind == source_kind::source) {
lib_sources.push_back(sfile);
} else {
assert(sfile.kind == source_kind::header);
}
}
}

// Load up the compile rules
auto compile_rules = lib.base_compile_rules();
compile_rules.enable_warnings() = params.enable_warnings;

// Apply our transitive usage requirements. This gives us the search directories for our
// dependencies.
for (const auto& use : lib.manifest().uses) {
ureqs.apply(compile_rules, use.namespace_, use.name);
}

for (const auto& sf : lib_sources) {
compile_files.emplace_back(compile_rules,
sf,
lib.manifest().name,
params.out_subdir / "obj");
}
// Convert the library sources into their respective file compilation plans.
auto lib_compile_files = //
lib_sources //
| ranges::views::transform([&](const source_file& sf) {
return compile_file_plan(compile_rules,
sf,
lib.manifest().name,
params.out_subdir / "obj");
})
| ranges::to_vector;

if (!lib_sources.empty()) {
create_archive.emplace(lib.manifest().name, params.out_subdir, std::move(compile_files));
// If we have any compiled library files, generate a static library archive
// for this library
std::optional<create_archive_plan> create_archive;
if (!lib_compile_files.empty()) {
create_archive.emplace(lib.manifest().name,
params.out_subdir,
std::move(lib_compile_files));
}

std::vector<fs::path> in_libs;
// Collect the paths to linker inputs that should be used when generating executables for this
// library.
std::vector<fs::path> link_libs;
for (auto& use : lib.manifest().uses) {
extend(in_libs, ureqs.link_paths(use.namespace_, use.name));
extend(link_libs, ureqs.link_paths(use.namespace_, use.name));
}
for (auto& link : lib.manifest().links) {
extend(in_libs, ureqs.link_paths(link.namespace_, link.name));
extend(link_libs, ureqs.link_paths(link.namespace_, link.name));
}

auto test_in_libs = in_libs;
extend(test_in_libs, params.test_link_files);
// Linker inputs for tests may contain additional code for test execution
auto test_link_libs = link_libs;
extend(test_link_libs, params.test_link_files);

// There may also be additional #include paths for test source files
auto test_rules = compile_rules.clone();
extend(test_rules.include_dirs(), params.test_include_dirs);

// Generate the plans to link any executables for this library
std::vector<link_executable_plan> link_executables;
for (const source_file& source : ranges::views::concat(app_sources, test_sources)) {
const bool is_test = source.kind == source_kind::test;
// Pick a subdir based on app/test
auto subdir
= source.kind == source_kind::test ? params.out_subdir / "test" : params.out_subdir;
const auto subdir_base = is_test ? params.out_subdir / "test" : params.out_subdir;
// Put test/app executables in a further subdirectory based on the source file path
const auto subdir
= subdir_base / fs::relative(source.path.parent_path(), lib.src_dir().path);
// Pick compile rules based on app/test
auto rules = source.kind == source_kind::test ? test_rules : compile_rules;
auto rules = is_test ? test_rules : compile_rules;
// Pick input libs based on app/test
auto& exe_link_libs = source.kind == source_kind::test ? test_in_libs : in_libs;
auto& exe_link_libs = is_test ? test_link_libs : link_libs;
// TODO: Apps/tests should only see the _public_ include dir, not both
link_executables.emplace_back(exe_link_libs,
compile_file_plan(rules,
@@ -86,6 +109,7 @@ library_plan library_plan::create(const library& lib,
source.path.stem().stem().string());
}

// Done!
return library_plan{lib.manifest().name,
lib.path(),
std::move(create_archive),

+ 86
- 17
src/dds/build/plan/library.hpp Vedi File

@@ -12,26 +12,64 @@

namespace dds {

/**
* The parameters that tweak the behavior of building a library
*/
struct library_build_params {
/// The subdirectory of the build root in which this library should place its files.
fs::path out_subdir;
bool build_tests = false;
bool build_apps = false;
bool enable_warnings = false;
/// Whether tests should be compiled and linked for this library
bool build_tests = false;
/// Whether applications should be compiled and linked for this library
bool build_apps = false;
/// Whether compiler warnings should be enabled for building the source files in this library.
bool enable_warnings = false;

// Extras for compiling tests:
/// Directories that should be on the #include search path when compiling tests
std::vector<fs::path> test_include_dirs;
/// Files that should be added as inputs when linking test executables
std::vector<fs::path> test_link_files;
};

/**
* A `library_plan` is a composite object that keeps track of the parameters for building a library,
* including:
*
* - If the library has compilable library source files, a `create_archive_plan` that details the
* compilation of those source files and their collection into a static library archive.
* - The executables that need to be linked when this library is built. This includes any tests and
* apps that are part of this library. These can be enabled/disabled by setting the appropriate
* values in `library_build_params`.
* - The libraries that this library *uses*.
* - The libraries that this library *links*.
*
* While there is a public constructor, it is best to use the `create` named constructor, which will
* initialize all of the constructor parameters correctly.
*/
class library_plan {
std::string _name;
fs::path _source_root;
/// The name of the library
std::string _name;
/// The directory at the root of this library
fs::path _source_root;
/// The `create_archive_plan` for this library, if applicable
std::optional<create_archive_plan> _create_archive;
std::vector<link_executable_plan> _link_exes;
std::vector<lm::usage> _uses;
std::vector<lm::usage> _links;
/// The executables that should be linked as part of this library's build
std::vector<link_executable_plan> _link_exes;
/// The libraries that we use
std::vector<lm::usage> _uses;
/// The libraries that we link
std::vector<lm::usage> _links;

public:
/**
* Construct a new `library_plan`
* @param name The name of the library
* @param source_root The directory that contains this library
* @param ar The `create_archive_plan`, or `nullopt` for this library.
* @param exes The `link_executable_plan` objects for this library.
* @param uses The identities of the libraries that are used by this library
* @param links The identities of the libraries that are linked by this library
*/
library_plan(std::string_view name,
path_ref source_root,
std::optional<create_archive_plan> ar,
@@ -45,15 +83,46 @@ public:
, _uses(std::move(uses))
, _links(std::move(links)) {}

/**
* Get the name of the library
*/
auto& name() const noexcept { return _name; }
/**
* The directory that defines the source root of the library.
*/
path_ref source_root() const noexcept { return _source_root; }
auto& name() const noexcept { return _name; }
auto& create_archive() const noexcept { return _create_archive; }
auto& executables() const noexcept { return _link_exes; }
auto& uses() const noexcept { return _uses; }
auto& links() const noexcept { return _links; }

static library_plan
create(const library&, const library_build_params&, const usage_requirement_map&);
/**
* A `create_archive_plan` object, or `nullopt`, depending on if this library has compiled
* components
*/
auto& create_archive() const noexcept { return _create_archive; }
/**
* The executables that should be created by this library
*/
auto& executables() const noexcept { return _link_exes; }
/**
* The library identifiers that are used by this library
*/
auto& uses() const noexcept { return _uses; }
/**
* The library identifiers that are linked by this library
*/
auto& links() const noexcept { return _links; }

/**
* Named constructor: Create a new `library_plan` automatically from some build-time parameters.
*
* @param lib The `library` object from which we will inherit several properties.
* @param params Parameters controlling the build of the library. i.e. if we create tests,
* enable warnings, etc.
* @param ureqs The usage requirements map. This should be populated as appropriate.
*
* The `lib` parameter defines the usage requirements of this library, and they are looked up in
* the `ureqs` map. If there are any missing requirements, an exception will be thrown.
*/
static library_plan create(const library& lib,
const library_build_params& params,
const usage_requirement_map& ureqs);
};

} // namespace dds

+ 1
- 1
tests/test_drivers/catch/test_catch.py Vedi File

@@ -8,6 +8,6 @@ from dds_ci import proc
)
def test_catch_testdriver(dds: DDS):
dds.build(tests=True)
test_exe = dds.build_dir / f'test/calc{dds.exe_suffix}'
test_exe = dds.build_dir / f'test/testlib/calc{dds.exe_suffix}'
assert test_exe.exists()
assert proc.run([test_exe]).returncode == 0

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