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Diffstat (limited to 'build2/scope.hxx')
-rw-r--r-- | build2/scope.hxx | 375 |
1 files changed, 375 insertions, 0 deletions
diff --git a/build2/scope.hxx b/build2/scope.hxx new file mode 100644 index 0000000..2be2b3a --- /dev/null +++ b/build2/scope.hxx @@ -0,0 +1,375 @@ +// file : build2/scope.hxx -*- C++ -*- +// copyright : Copyright (c) 2014-2017 Code Synthesis Ltd +// license : MIT; see accompanying LICENSE file + +#ifndef BUILD2_SCOPE_HXX +#define BUILD2_SCOPE_HXX + +#include <unordered_set> +#include <unordered_map> + +#include <libbutl/path-map.hxx> + +#include <build2/types.hxx> +#include <build2/utility.hxx> + +#include <build2/module.hxx> +#include <build2/variable.hxx> +#include <build2/target-key.hxx> +#include <build2/target-type.hxx> +#include <build2/rule-map.hxx> +#include <build2/operation.hxx> + +namespace build2 +{ + class scope + { + public: + // Absolute and normalized. + // + const dir_path& out_path () const {return *out_path_;} + const dir_path& src_path () const {return *src_path_;} + + // The first is a pointer to the key in scope_map. The second is a pointer + // to the src_root/base variable value, if any (i.e., it can be NULL). + // + const dir_path* out_path_ = nullptr; + const dir_path* src_path_ = nullptr; + + bool + root () const {return root_ == this;} + + scope* parent_scope () {return parent_;} + const scope* parent_scope () const {return parent_;} + + // Root scope of this scope or NULL if this scope is not (yet) + // in any (known) project. Note that if the scope itself is + // root, then this function return this. To get to the outer + // root, query the root scope of the parent. + // + scope* root_scope () {return root_;} + const scope* root_scope () const {return root_;} + + // Root scope of a strong amalgamation of this scope or NULL if + // this scope is not (yet) in any (known) project. If there is + // no strong amalgamation, then this function returns the root + // scope of the project (in other words, in this case a project + // is treated as its own strong amalgamation). + // + scope* strong_scope (); + const scope* strong_scope () const; + + // Root scope of the outermost amalgamation or NULL if this scope is not + // (yet) in any (known) project. If there is no amalgamation, then this + // function returns the root scope of the project (in other words, in this + // case a project is treated as its own amalgamation). + // + scope* weak_scope (); + const scope* weak_scope () const; + + // Variables. + // + public: + variable_map vars; + + // Lookup, including in outer scopes. If you only want to lookup in this + // scope, do it on the the variables map directly (and note that there + // will be no overrides). + // + lookup + operator[] (const variable& var) const + { + return find (var).first; + } + + lookup + operator[] (const variable* var) const // For cached variables. + { + assert (var != nullptr); + return operator[] (*var); + } + + lookup + operator[] (const string& name) const + { + const variable* var (var_pool.find (name)); + return var != nullptr ? operator[] (*var) : lookup (); + } + + // As above, but include target type/pattern-specific variables. + // + lookup + find (const variable& var, const target_key& tk) const + { + return find (var, tk.type, tk.name).first; + } + + lookup + find (const variable& var, const target_type& tt, const string& tn) const + { + return find (var, &tt, &tn).first; + } + + pair<lookup, size_t> + find (const variable& var, + const target_type* tt = nullptr, + const string* tn = nullptr) const + { + auto p (find_original (var, tt, tn)); + return var.override == nullptr ? p : find_override (var, move (p)); + } + + // Implementation details (used by scope target lookup). The start_depth + // can be used to skip a number of initial lookups. + // + pair<lookup, size_t> + find_original ( + const variable&, + const target_type* tt = nullptr, const string* tn = nullptr, + const target_type* gt = nullptr, const string* gn = nullptr, + size_t start_depth = 1) const; + + pair<lookup, size_t> + find_override (const variable&, + pair<lookup, size_t> original, + bool target = false) const; + + // Return a value suitable for assignment (or append if you only want to + // append to the value from this scope). If the value does not exist in + // this scope's map, then a new one with the NULL value is added and + // returned. Otherwise the existing value is returned. + // + value& + assign (const variable& var) {return vars.assign (var);} + + value& + assign (const variable* var) // For cached variables. + { + assert (var != nullptr); + return vars.assign (*var); + } + + value& + assign (string name) + { + return assign (variable_pool::instance.insert (move (name))); + } + + // Assign a typed non-overridable variable with normal visibility. + // + template <typename T> + value& + assign (string name) + { + return vars.assign (variable_pool::instance.insert<T> (move (name))); + } + + // Return a value suitable for appending. If the variable does not + // exist in this scope's map, then outer scopes are searched for + // the same variable. If found then a new variable with the found + // value is added to this scope and returned. Otherwise this + // function proceeds as assign(). + // + value& + append (const variable&); + + // Target type/pattern-specific variables. + // + variable_type_map target_vars; + + // Variable override cache (project root and global scope only). + // + // The key is the variable plus the innermost (scope-wise) variable map to + // which this override applies. See find_override() for details. + // + // Note: since it can be modified on any lookup (including during the + // execute phase), the cache is protected by its own mutex shard. + // + mutable + variable_cache<pair<const variable*, const variable_map*>> + override_cache; + + // Meta/operations supported by this project (set on the root + // scope only). + // + public: + build2::meta_operations meta_operations; + build2::operations operations; + + using path_type = build2::path; + + // Set of buildfiles already loaded for this scope. The included + // buildfiles are checked against the project's root scope while + // imported -- against the global scope (global_scope). + // + std::unordered_set<path_type> buildfiles; + + // Target types. + // + public: + target_type_map target_types; + + const target_type* + find_target_type (const string&, const scope** = nullptr) const; + + // Given a name, figure out its type, taking into account extensions, + // special names (e.g., '.' and '..'), or anything else that might be + // relevant. Also process the name (in place) by extracting the + // extension, adjusting dir/value, etc., (note that the dir is not + // necessarily normalized). Return NULL if not found. + // + const target_type* + find_target_type (name&, optional<string>& ext) const; + + // Dynamically derive a new target type from an existing one. Return the + // reference to the target type and an indicator of whether it was + // actually created. + // + pair<reference_wrapper<const target_type>, bool> + derive_target_type (const string& name, const target_type& base); + + template <typename T> + pair<reference_wrapper<const target_type>, bool> + derive_target_type (const string& name) + { + return derive_target_type (name, T::static_type); + } + + // Rules. + // + public: + rule_map rules; + + // Modules. + // + public: + loaded_module_map modules; // Only on root scope. + + public: + // RW access. + // + scope& + rw () const + { + assert (phase == run_phase::load); + return const_cast<scope&> (*this); + } + + // RW access to global scope (RO via global global_scope below). + // + scope& + global () {return *global_;} + + public: + static scope* global_; // Normally not accessed directly. + + private: + friend class parser; + friend class scope_map; + friend class temp_scope; + + // These two from <build2/file.hxx> set strong_. + // + friend void create_bootstrap_outer (scope&); + friend scope& create_bootstrap_inner (scope&, const dir_path&); + + explicit + scope (bool global): vars (global), target_vars (global) {} + + scope* parent_; + scope* root_; + scope* strong_ = nullptr; // Only set on root sopes. + // NULL means no strong amalgamtion. + }; + + // Temporary scope. The idea is to be able to create a temporary scope in + // order not to change the variables in the current scope. Such a scope is + // not entered in to the scope map. As a result it can only be used as a + // temporary set of variables. In particular, defining targetsdirectly in + // such a scope will surely end up badly. Defining any nested scopes will be + // as if defining such a scope in the parent (since path() returns parent's + // path). + // + class temp_scope: public scope + { + public: + temp_scope (scope& p) + : scope (false) // Not global. + { + out_path_ = p.out_path_; + src_path_ = p.src_path_; + parent_ = &p; + root_ = p.root_; + // No need to copy strong_ since we are never root scope. + } + }; + + // Scope map. + // + // Protected by the model mutex. Note that the scope map is only for paths + // from the out tree. + // + using scope_map_base = butl::dir_path_map<scope>; + + class scope_map: public scope_map_base + { + public: + // Note that we assume the first insertion into the map is always the + // global scope with empty key. + // + iterator + insert (const dir_path&, bool root); + + // Find the most qualified scope that encompasses this path. + // + const scope& + find (const dir_path& d) const + { + return const_cast<scope_map*> (this)->find (d); + } + + const scope& + find (const path& p) const + { + // Natural thing to do here would be to call find (p.directory ()). + // However, there could be a situation where the passed path is a + // directory (i.e., the calling code does not know what it is dealing + // with), so let's use the whole path. + // + return find (path_cast<dir_path> (p)); + } + + // RW access. + // + public: + scope_map& + rw () const + { + assert (phase == run_phase::load); + return const_cast<scope_map&> (*this); + } + + scope_map& + rw (scope&) const {return const_cast<scope_map&> (*this);} + + private: + static scope_map instance; + + // Entities that can access bypassing the lock proof. + // + friend variable_overrides reset (const strings&); + + scope& + find (const dir_path&); + + public: + static const scope_map& cinstance; // For var_pool initialization. + }; + + extern const scope_map& scopes; + extern const scope* global_scope; +} + +#include <build2/scope.ixx> + +#endif // BUILD2_SCOPE_HXX |