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// file : libbuild2/config/utility.hxx -*- C++ -*-
// license : MIT; see accompanying LICENSE file
#ifndef LIBBUILD2_CONFIG_UTILITY_HXX
#define LIBBUILD2_CONFIG_UTILITY_HXX
#include <libbuild2/types.hxx>
#include <libbuild2/forward.hxx>
#include <libbuild2/utility.hxx>
#include <libbuild2/scope.hxx>
#include <libbuild2/variable.hxx>
#include <libbuild2/config/types.hxx>
#include <libbuild2/export.hxx>
namespace build2
{
// Note that the utility functions in this file are part of the build system
// core rather than the config module. They define the basic configuration
// semantics that should be applicable to both transient configurations as
// well as to other implementations of configuration persistence.
//
// The only persistence-specific aspects of this functionality are marking
// of the variables as to be persisted (saved, potentially with flags),
// establishing the module saving order (priority), configuration creation
// (the create meta-operation implementation), as well as configure and
// disfigure hooks (for example, for second-level configuration). These are
// accessed through the config module entry points (which are NULL for
// transient configurations). Note also that the exact interpretation of the
// save flags/function and module order depends on the config module
// implementation (which may ignore them as not applicable). An
// implementation may also define custom save flags (for example, accessible
// through the config.save attribute). Such flags should start from
// 0x100000000.
//
// See below for the save function (last argument) semantics.
//
LIBBUILD2_SYMEXPORT extern void
(*config_save_variable) (scope&,
const variable&,
optional<uint64_t>,
pair<names_view, const char*> (*)(const scope&,
const value&,
const value*,
names&));
LIBBUILD2_SYMEXPORT extern void
(*config_save_environment) (scope&, const char*);
LIBBUILD2_SYMEXPORT extern void
(*config_save_module) (scope&, const char*, int);
LIBBUILD2_SYMEXPORT extern const string&
(*config_preprocess_create) (context&,
values&,
vector_view<opspec>&,
bool,
const location&);
LIBBUILD2_SYMEXPORT extern bool
(*config_configure_post) (scope&, bool (*)(action, const scope&));
LIBBUILD2_SYMEXPORT extern bool
(*config_disfigure_pre) (scope&, bool (*)(action, const scope&));
namespace config
{
// Mark a variable to be saved during configuration.
//
// Note: the save_*_omitted flags work best when undefined or (one of) the
// omitted value(s) is the default (see a note in lookup_config()
// documentation for details).
//
// The below lookup_*() functions mark the default value by setting
// value::extra to 1. Note that it's exactly 1 and not "not 0" since other
// values could have other meaning (see, for example, package skeleton
// in bpkg).
//
const uint64_t save_default_commented = 0x01; // Based on value::extra.
const uint64_t save_null_omitted = 0x02; // Treat NULL as undefined.
const uint64_t save_empty_omitted = 0x04; // Treat empty as undefined.
const uint64_t save_false_omitted = 0x08; // Treat false as undefined.
const uint64_t save_base = 0x10; // Custom save with base.
// The optional save function can be used to implement custom variable
// saving, for example, as a difference appended to the base value or to
// complete relative paths (if abs_dir_path does not fit). The base
// argument is the value of this variable from the outer scope (if any)
// and is only calculated if the save_base flag is specified. The second
// half of the result is the assignment operator to use.
//
using save_variable_function =
pair<names_view, const char*> (const scope& rs,
const value&,
const value* base,
names& storage);
inline void
save_variable (scope& rs,
const variable& var,
uint64_t flags = 0,
save_variable_function* func = nullptr)
{
if (config_save_variable != nullptr)
config_save_variable (rs, var, flags, func);
}
// Mark a variable as "unsaved" (always transient).
//
// Such variables are not very common and are usually used to control the
// process of configuration itself.
//
inline void
unsave_variable (scope& rs, const variable& var)
{
if (config_save_variable != nullptr)
config_save_variable (rs, var, nullopt, nullptr);
}
// Mark an environment variable to be saved during hermetic configuration.
//
// Some notes/suggestions on saving environment variables for tools (e.g.,
// compilers, etc):
//
// 1. We want to save variables that affect the result (e.g., build
// output) rather than byproducts (e.g., diagnostics).
//
// 2. Environment variables are often poorly documented (and not always in
// the ENVIRONMENT section; sometimes they are mentioned together with
// the corresponding option). A sensible approach in this case is to
// save documented (and perhaps well-known undocumented) variables --
// the user can always save additional variables if necessary. The way
// to discover undocumented environment variables is to grep the source
// code.
//
// 3. Sometime environment variables only affect certain modes of a tool.
// If such modes are not used, then there is no need to save the
// corresponding variables.
//
// 4. Finally, there could be environment variables that are incompatible
// with what we are doing (e.g., they change the mode of operation or
// some such; see GCC's DEPENDENCIES_OUTPUT for example). The two ways
// to deal with this is either clear them for each invocation or, if
// that's too burdensome and there is no good reason to have the build
// system invoked with such variables, detect their presence and fail.
// Note that unsetting them for the entire build system process is not
// an option since that would be racy.
//
// See also build2::hash_environment().
//
inline void
save_environment (scope& rs, const string& var)
{
if (config_save_environment != nullptr)
config_save_environment (rs, var.c_str ());
}
inline void
save_environment (scope& rs, const char* var)
{
if (config_save_environment != nullptr)
config_save_environment (rs, var);
}
inline void
save_environment (scope& rs, initializer_list<const char*> vars)
{
if (config_save_environment != nullptr)
{
for (const char* var: vars)
config_save_environment (rs, var);
}
}
inline void
save_environment (scope& rs, const cstrings& vars)
{
if (config_save_environment != nullptr)
{
for (const char* var: vars)
config_save_environment (rs, var);
}
}
inline void
save_environment (scope& rs, const strings& vars)
{
if (config_save_environment != nullptr)
{
for (const string& var: vars)
config_save_environment (rs, var.c_str ());
}
}
// A NULL-terminated list of variables (may itself be NULL).
//
inline void
save_environment (scope& rs, const char* const* vars)
{
if (vars != nullptr && config_save_environment != nullptr)
{
for (; *vars != nullptr; ++vars)
config_save_environment (rs, *vars);
}
}
// Establish module save order/priority with INT32_MIN being the highest.
// Modules with the same priority are saved in the order inserted.
//
// Generally, for user-editable persisten configuration, we want higher-
// level modules at the top of the file since that's the configuration
// that the user usually wants to change. As a result, we define the
// following priority bands/defaults:
//
// 101-200/150 - code generators (e.g., yacc, bison)
// 201-300/250 - compilers (e.g., C, C++),
// 301-400/350 - binutils (ar, ld)
//
inline void
save_module (scope& rs, const char* module, int prio = 0)
{
if (config_save_module != nullptr)
config_save_module (rs, module, prio);
}
// Post-configure and pre-disfigure hooks. Normally used to save/remove
// persistent state. Return true if anything has been done (used for
// diagnostics).
//
// The registration functions return true if the hook has been registered.
//
// Note that the hooks are called for the top-level project and all its
// subprojects (if registered in the subproject root scope), from outer to
// inner for configure and from inner to outer for disfigure. It's the
// responsibility of the hook implementation to handle any aggregation.
//
using configure_post_hook = bool (action, const scope&);
using disfigure_pre_hook = bool (action, const scope&);
inline bool
configure_post (scope& rs, configure_post_hook* h)
{
return config_configure_post != nullptr && config_configure_post (rs, h);
}
inline bool
disfigure_pre (scope& rs, disfigure_pre_hook* h)
{
return config_disfigure_pre != nullptr && config_disfigure_pre (rs, h);
}
// Lookup a config.* variable value and, if the value is defined, mark it
// as saved.
//
// The second version in addition sets the new_value argument to true if
// the value is "new" (but not to false; so it can be used to accumulate
// the result from multiple calls). A value is considered new if it was
// set to the default value (inherited or not, including overrides). We
// also treat command line overrides (inherited or not) as new. For this
// version new means either the default value was inherited or it was
// overridden. This flag is usually used to test that the new value is
// valid, print the configuration report, etc.
//
// Unlike the rest of the lookup_config() versions, this one leaves the
// unspecified value as undefined rather than setting it to a default
// value (in this case it also doesn't mark the variable for saving with
// the specified flags). This can be useful when we don't have a default
// value or in case we want the mentioning of the variable to be omitted
// from persistent storage (e.g., a config file) if the default value is
// used.
//
// Note also that we can first do the lookup without the default value and
// then, if there is no value, call the version with the default value and
// end up with the same result as if we called the default value version
// straight away. This is useful when computing the default value is
// expensive. It is also ok to call both versions multiple times provided
// the flags are the same.
//
lookup
lookup_config (scope& rs,
const variable&,
uint64_t save_flags = 0,
save_variable_function* = nullptr);
lookup
lookup_config (bool& new_value,
scope& rs,
const variable&,
uint64_t save_flags = 0,
save_variable_function* = nullptr);
// Note that the variable is expected to have already been entered.
//
inline lookup
lookup_config (scope& rs,
const string& var,
uint64_t save_flags = 0,
save_variable_function* func = nullptr)
{
// Note: go straight for the public variable pool.
//
return lookup_config (rs, rs.ctx.var_pool[var], save_flags, func);
}
inline lookup
lookup_config (bool& new_value,
scope& rs,
const string& var,
uint64_t save_flags = 0,
save_variable_function* func = nullptr)
{
// Note: go straight for the public variable pool.
//
return lookup_config (
new_value, rs, rs.ctx.var_pool[var], save_flags, func);
}
// Lookup a config.* variable value and, if the value is undefined, set it
// to the default. Always mark it as saved.
//
// If the default value is nullptr, then the unspecified value is set to
// NULL which can be used to distinguish between the "not yet configured",
// "configured as unspecified", and "configures as empty" cases which can
// have different semantics if the value is merged into a non-config.*
// variable. This default value is traditionally used for "optional"
// values such as command line options.
//
// The value is returned as lookup (even though it is always defined
// though potentially as NULL) in order to pass along its location (could
// be used to detect inheritance, etc).
//
// The second version in addition sets the new_value argument as described
// above. Note, however, that if the save_default_commented flag is
// specified, then the default value is never considered "new" since for
// such variables absence of a value means it is the default value. This
// flag is normally used for dynamically adjusting (e.g., hinted) default
// values.
//
// If override is true and the variable doesn't come from this root scope
// or from the command line (i.e., it is inherited from the amalgamation),
// then its value is "overridden" to the default value on this root scope.
//
// Note that while it may seem logical, these functions do not
// "reinterpret" defined values according to the save_*_omitted flags (for
// example, by returning the default value if the defined value is NULL
// and the save_null_omitted flag is specified). This is because such a
// reinterpretation may cause a diversion between the returned value and
// the re-queried config.* variable value if the defined value came from
// an override. To put another way, the save_*_omitted flags are purely to
// reduce the noise in config.build.
//
template <typename T>
lookup
lookup_config (scope& rs,
const variable&,
T&& default_value,
uint64_t save_flags = 0,
bool override = false);
template <typename T>
lookup
lookup_config (bool& new_value,
scope& rs,
const variable&,
T&& default_value,
uint64_t save_flags = 0,
bool override = false);
inline lookup
lookup_config (scope& rs,
const variable& var,
const char* default_value,
uint64_t save_flags = 0,
bool override = false)
{
return lookup_config (
rs, var, string (default_value), save_flags, override);
}
inline lookup
lookup_config (bool& new_value,
scope& rs,
const variable& var,
const char* default_value,
uint64_t save_flags = 0,
bool override = false)
{
return lookup_config (
new_value, rs, var, string (default_value), save_flags, override);
}
// Note that the variable is expected to have already been entered.
//
template <typename T>
inline lookup
lookup_config (scope& rs,
const string& var,
T&& default_value,
uint64_t save_flags = 0,
bool override = false)
{
// Note: go straight for the public variable pool.
//
return lookup_config (rs,
rs.ctx.var_pool[var],
std::forward<T> (default_value), // VC14
save_flags,
override);
}
template <typename T>
inline lookup
lookup_config (bool& new_value,
scope& rs,
const string& var,
T&& default_value,
uint64_t save_flags = 0,
bool override = false)
{
// Note: go straight for the public variable pool.
//
return lookup_config (new_value,
rs,
rs.ctx.var_pool[var],
std::forward<T> (default_value), // VC14
save_flags,
override);
}
inline lookup
lookup_config (scope& rs,
const string& var,
const char* default_value,
uint64_t save_flags = 0,
bool override = false)
{
return lookup_config (
rs, var, string (default_value), save_flags, override);
}
inline lookup
lookup_config (bool& new_value,
scope& rs,
const string& var,
const char* default_value,
uint64_t save_flags = 0,
bool override = false)
{
return lookup_config (
new_value, rs, var, string (default_value), save_flags, override);
}
// Helper functions for assigning/appending config.x.y value to x.y,
// essentially:
//
// rs.assign (var) = lookup_config (rs, "config." + var, default_value);
// rs.append (var) += lookup_config (rs, "config." + var, default_value);
//
template <typename V, typename T>
inline const V*
assign_config (scope& rs, scope& bs, string var, T&& default_value)
{
const V* cv (
cast_null<V> (
lookup_config (rs,
rs.var_pool (true).insert<V> ("config." + var),
std::forward<T> (default_value)))); // VC14
value& v (bs.assign<V> (move (var)));
if (cv != nullptr)
v = *cv;
return v.null ? nullptr : &v.as<V> ();
}
template <typename V, typename T>
inline const V*
append_config (scope& rs, scope& bs, string var, T&& default_value)
{
const V* cv (
cast_null<V> (
lookup_config (rs,
rs.var_pool (true).insert<V> ("config." + var),
std::forward<T> (default_value)))); // VC14
value& v (bs.append<V> (move (var)));
if (cv != nullptr)
v += *cv;
return v.null ? nullptr : &v.as<V> ();
}
// Check whether there are any variables specified from the config.<name>
// namespace. The idea is that we can check if there are any, say,
// config.install.* values. If there are none, then we can assume this
// functionality is not (yet) used and omit writing a whole bunch of NULL
// config.install.* values to the config.build file. We call this
// omitted/delayed configuration.
//
// Note that this function detects and ignores special config.* variables
// (such as config.*.configured) which may be used by a module to remember
// that it is unconfigured (e.g., in order to avoid re-running the tests,
// etc; see below). Additional variables (e.g., unsaved) can be ignored
// with the third argument. If specified, it should contain the part(s)
// after config.<name>.
//
LIBBUILD2_SYMEXPORT bool
specified_config (scope& rs,
const string& var,
initializer_list<const char*> ignore);
inline bool
specified_config (scope& rs, const string& var)
{
return specified_config (rs, var, {});
}
// Check if there is a false config.*.configured value. This mechanism can
// be used to "remember" that the module is left unconfigured in order to
// avoid re-running the tests, etc.
//
// @@ This functionality is WIP/unused and still has a number of issues:
//
// - This seems to be a subset of a bigger problem of caching discovered
// configuration results. In fact, what we do in the configured case,
// for example in the cc module (multiple path extraction runs, etc), is
// a lot more expensive.
//
// - The current semantics does not work well for the case where, say, the
// missing tool has appeared in PATH and can now be used via the default
// configuration. In fact, even reconfiguring will not help without a
// "nudge" (e.g., config.<tool>=<tool>). So maybe this value should be
// ignored during configuration? See the "Tool importation: unconfigured
// state" page for more notes.
//
LIBBUILD2_SYMEXPORT bool
unconfigured (scope& rs, const string& var);
// Set the config.*.configured value. Note that you only need to set it to
// false. It will be automatically ignored if there are any other config.*
// values for this module. Return true if this sets a new value.
//
LIBBUILD2_SYMEXPORT bool
unconfigured (scope& rs, const string& var, bool value);
// Return the origin of the value of the specified configuration variable
// plus the value itself. See $config.origin() for details.
//
// Throws invalid_argument if the passed variable is not config.*.
//
LIBBUILD2_SYMEXPORT pair<variable_origin, lookup>
origin (const scope& rs, const string& name);
LIBBUILD2_SYMEXPORT pair<variable_origin, lookup>
origin (const scope& rs, const variable&);
// As above but using the result of scope::lookup_original() or
// semantically equivalent (e.g., lookup_namespace()).
//
// Note that this version does not check that the variable is config.*.
//
LIBBUILD2_SYMEXPORT pair<variable_origin, lookup>
origin (const scope& rs, const variable&, pair<lookup, size_t> original);
}
}
#include <libbuild2/config/utility.ixx>
#include <libbuild2/config/utility.txx>
#endif // LIBBUILD2_CONFIG_UTILITY_HXX
|