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// file : libbuild2/operation.hxx -*- C++ -*-
// license : MIT; see accompanying LICENSE file
#ifndef LIBBUILD2_OPERATION_HXX
#define LIBBUILD2_OPERATION_HXX
#include <libbutl/string-table.hxx>
#include <libbuild2/types.hxx>
#include <libbuild2/forward.hxx>
#include <libbuild2/utility.hxx>
#include <libbuild2/action.hxx>
#include <libbuild2/recipe.hxx>
#include <libbuild2/target-state.hxx>
#include <libbuild2/export.hxx>
namespace build2
{
// Meta-operation info.
//
// Normally a list of resolved and matched targets to execute. But can be
// something else, depending on the meta-operation.
//
// The state is used to print structured result state. If it is not unknown,
// then this is assumed to be a target.
//
struct action_target
{
const void* target = nullptr;
target_state state = target_state::unknown;
action_target () = default;
action_target (const void* t): target (t) {}
template <typename T>
const T&
as () const {return *static_cast<const T*> (target);}
};
class action_targets: public vector<action_target>
{
public:
using vector<action_target>::vector;
void
reset () {for (auto& x: *this) x.state = target_state::unknown;}
};
struct meta_operation_info
{
const meta_operation_id id;
const string name;
// Name derivatives for diagnostics. If empty, then the meta-
// operation need not be mentioned.
//
const string name_do; // E.g., [to] 'configure'.
const string name_doing; // E.g., [while] 'configuring'.
const string name_did; // E.g., 'configured'.
const string name_done; // E.g., 'is configured'.
// Whether to bootstrap outer projects. If load() below calls load_root(),
// then this must be true. Note that this happens before
// meta_operation_pre() is called.
//
const bool bootstrap_outer;
// The first argument in all the callbacks is the meta-operation
// parameters.
//
// If the meta-operation expects parameters, then it should have a
// non-NULL meta_operation_pre(). Failed that, any parameters will be
// diagnosed as unexpected.
// Start of meta-operation and operation batches.
//
// If operation_pre() is not NULL, then it may translate default_id
// (and only default_id) to some other operation. If not translated,
// then default_id is used. If, however, operation_pre() is NULL,
// then default_id is translated to update_id.
//
void (*meta_operation_pre) (context&, const values&, const location&);
operation_id (*operation_pre) (context&, const values&, operation_id);
// Meta-operation-specific logic to load the buildfile, search and match
// the targets, and execute the action on the targets.
//
void (*load) (const values&,
scope& root,
const path& buildfile,
const dir_path& out_base,
const dir_path& src_base,
const location&);
void (*search) (const values&,
const scope& root,
const scope& base,
const path& buildfile,
const target_key&,
const location&,
action_targets&);
// Diagnostics levels:
//
// 0 - none (for structured result).
// 1 - failures only (for pre-operations).
// 2 - all (for normal operations).
//
// The false progress argument can be used to suppress progress. If it is
// true, then whether the progress is shown is meta operation-specific (in
// other words, you can suppress it but not force it).
//
void (*match) (const values&, action, action_targets&,
uint16_t diag, bool progress);
void (*execute) (const values&, action, action_targets&,
uint16_t diag, bool progress);
// End of operation and meta-operation batches.
//
void (*operation_post) (context&, const values&, operation_id);
void (*meta_operation_post) (context&, const values&);
// Optional prerequisite exclusion override callback. See include() for
// details. Note that it's not called for include_type::normal without
// operation-specific override.
//
include_type (*include) (action,
const target&,
const prerequisite_member&,
include_type,
lookup&);
};
// Built-in meta-operations.
//
// perform
//
// Load the buildfile. This is the default implementation that first
// calls root_pre(), then creates the scope for out_base, and, finally,
// loads the buildfile unless it has already been loaded for the root
// scope.
//
LIBBUILD2_SYMEXPORT void
perform_load (const values&,
scope&,
const path&,
const dir_path&,
const dir_path&,
const location&);
// Search and match the target. This is the default implementation
// that does just that and adds a pointer to the target to the list.
//
LIBBUILD2_SYMEXPORT void
perform_search (const values&,
const scope&,
const scope&,
const path&,
const target_key&,
const location&,
action_targets&);
LIBBUILD2_SYMEXPORT void
perform_match (const values&, action, action_targets&,
uint16_t diag, bool prog);
// Execute the action on the list of targets. This is the default
// implementation that does just that while issuing appropriate
// diagnostics (unless quiet).
//
LIBBUILD2_SYMEXPORT void
perform_execute (const values&, action, const action_targets&,
uint16_t diag, bool prog);
LIBBUILD2_SYMEXPORT extern const meta_operation_info mo_noop;
LIBBUILD2_SYMEXPORT extern const meta_operation_info mo_perform;
LIBBUILD2_SYMEXPORT extern const meta_operation_info mo_info;
// Return true if params does not contain no_subprojects.
//
bool
info_subprojects (const values& params);
// Operation info.
//
// NOTE: keep POD-like to ensure can be constant-initialized in order to
// sidestep static initialization order (relied upon in operation
// aliasing).
//
struct operation_info
{
// If outer_id is not 0, then use that as the outer part of the
// action.
//
const operation_id id;
const operation_id outer_id;
const char* name;
// Name derivatives for diagnostics. Note that unlike meta-operations,
// these can only be empty for the default operation (id 1), And
// meta-operations that make use of the default operation shall not
// have empty derivatives (failed which only target name will be
// printed).
//
const char* name_do; // E.g., [to] 'update'.
const char* name_doing; // E.g., [while] 'updating'.
const char* name_did; // E.g., [not] 'updated'.
const char* name_done; // E.g., 'is up to date'.
const execution_mode mode;
// This is the operation's concurrency multiplier. 0 means run serially, 1
// means run at hardware concurrency (or the concurrency specified by the
// user).
//
// Note: 0 and 1 are currently the only valid values.
//
const size_t concurrency;
// The first argument in all the callbacks is the operation parameters.
//
// If the operation expects parameters, then it should have a non-NULL
// pre(). Failed that, any parameters will be diagnosed as unexpected.
// If the returned operation_id's are not 0, then they are injected
// as pre/post operations for this operation. Can be NULL if unused.
// The returned operation_id shall not be default_id.
//
operation_id (*pre_operation) (
context&, const values&, meta_operation_id, const location&);
operation_id (*post_operation) (
context&, const values&, meta_operation_id);
// Operation-specific ad hoc rule callbacks. Essentially, if not NULL,
// then every ad hoc rule match and apply call for this operation is
// proxied through these functions.
//
bool (*adhoc_match) (const adhoc_rule&,
action, target&, const string&, match_extra&);
recipe (*adhoc_apply) (const adhoc_rule&, action, target&, match_extra&);
};
// Built-in operations.
//
LIBBUILD2_SYMEXPORT extern const operation_info op_default;
LIBBUILD2_SYMEXPORT extern const operation_info op_update;
LIBBUILD2_SYMEXPORT extern const operation_info op_clean;
// Global meta/operation tables. Each registered meta/operation
// is assigned an id which is used as an index in the per-project
// registered meta/operation lists.
//
// We have three types of meta/operations: built-in (e.g., perform,
// update), pre-defined (e.g., configure, test), and dynamically-
// defined. For built-in ones, both the id and implementation are
// part of the build2 core. For pre-defined, the id is registered
// as part of the core but the implementation is loaded as part of
// a module. The idea with pre-defined operations is that they have
// common, well-established semantics but could still be optional.
// Another aspect of pre-defined operations is that often rules
// across multiple modules need to know their ids. Finally,
// dynamically-defined meta/operations have their ids registered
// as part of a module load. In this case, the meta/operation is
// normally (but not necessarily) fully implemented by this module.
//
// Note also that the name of a meta/operation in a sense defines
// its semantics. It would be strange to have an operation called
// test that does two very different things in different projects.
//
// A built-in/pre-defined meta-operation can also provide a pre-processor
// callback that will be called for operation-specs before any project
// discovery/bootstrap is performed.
//
struct meta_operation_data
{
// The processor may modify the parameters, opspec, and change the
// meta-operation by returning a different name.
//
// If lifted is true then the operation name in opspec is bogus (has
// been lifted) and the default/empty name should be assumed instead.
//
using process_func = const string& (context&,
values&,
vector_view<opspec>&,
bool lifted,
const location&);
meta_operation_data () = default;
meta_operation_data (const char* n, process_func p = nullptr)
: name (n), process (p) {}
string name;
process_func* process;
};
inline ostream&
operator<< (ostream& os, const meta_operation_data& d)
{
return os << d.name;
}
using meta_operation_table = butl::string_table<meta_operation_id,
meta_operation_data>;
using operation_table = butl::string_table<operation_id>;
// This is a "sparse" vector in the sense that we may have "holes" that are
// represented as default-initialized empty instances (for example, NULL if
// T is a pointer). Also, lookup out of bounds is treated as a hole.
//
template <typename T, size_t N>
struct sparse_vector
{
using base_type = small_vector<T, N>;
using size_type = typename base_type::size_type;
void
insert (size_type i, T x)
{
size_type n (v_.size ());
if (i < n)
v_[i] = x;
else
{
if (n != i)
v_.resize (i, T ()); // Add holes.
v_.push_back (move (x));
}
}
T
operator[] (size_type i) const
{
return i < v_.size () ? v_[i] : T ();
}
bool
empty () const {return v_.empty ();}
// Note that this is more of a "max index" rather than size.
//
size_type
size () const {return v_.size ();}
private:
base_type v_;
};
// For operations we keep both the pointer to its description as well
// as to its operation variable (see var_include) which may belong to
// the project-private variable pool.
//
struct project_operation_info
{
const operation_info* info = nullptr;
const variable* ovar = nullptr; // Operation variable.
// Allow treating it as pointer to operation_info in most contexts.
//
operator const operation_info*() const {return info;}
bool operator== (nullptr_t) {return info == nullptr;}
bool operator!= (nullptr_t) {return info != nullptr;}
project_operation_info (const operation_info* i = nullptr, // VC14
const variable* v = nullptr)
: info (i), ovar (v) {}
};
using meta_operations = sparse_vector<const meta_operation_info*, 8>;
using operations = sparse_vector<project_operation_info, 10>;
}
namespace butl
{
template <>
struct string_table_traits<build2::meta_operation_data>
{
static const std::string&
key (const build2::meta_operation_data& d) {return d.name;}
};
}
#endif // LIBBUILD2_OPERATION_HXX
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