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authorBoris Kolpackov <boris@codesynthesis.com>2022-10-13 13:59:37 +0200
committerBoris Kolpackov <boris@codesynthesis.com>2022-10-13 13:59:37 +0200
commit21d12900fd08b7c2e33626803d094f44f269ae19 (patch)
treefa305a675c0a91a95d94ff74d726d651afc6f230
parente9e9c5c20f70367ce33e023455c7080186e615e2 (diff)
Fix couple of corner cases in public/private variable model
-rw-r--r--libbuild2/context.hxx90
-rw-r--r--libbuild2/variable.hxx4
2 files changed, 49 insertions, 45 deletions
diff --git a/libbuild2/context.hxx b/libbuild2/context.hxx
index b426ea0..1d46309 100644
--- a/libbuild2/context.hxx
+++ b/libbuild2/context.hxx
@@ -160,6 +160,53 @@ namespace build2
//
class LIBBUILD2_SYMEXPORT context
{
+ public:
+ // In order to perform each operation the build system goes through the
+ // following phases:
+ //
+ // load - load the buildfiles
+ // match - search prerequisites and match rules
+ // execute - execute the matched rule
+ //
+ // The build system starts with a "serial load" phase and then continues
+ // with parallel match and execute. Match, however, can be interrupted
+ // both with load and execute.
+ //
+ // Match can be interrupted with "exclusive load" in order to load
+ // additional buildfiles. Similarly, it can be interrupted with (parallel)
+ // execute in order to build targetd required to complete the match (for
+ // example, generated source code or source code generators themselves).
+ //
+ // Such interruptions are performed by phase change that is protected by
+ // phase_mutex (which is also used to synchronize the state changes
+ // between phases).
+ //
+ // Serial load can perform arbitrary changes to the build state. Exclusive
+ // load, however, can only perform "island appends". That is, it can
+ // create new "nodes" (variables, scopes, etc) but not (semantically)
+ // change already existing nodes or invalidate any references to such (the
+ // idea here is that one should be able to load additional buildfiles as
+ // long as they don't interfere with the existing build state). The
+ // "islands" are identified by the load_generation number (1 for the
+ // initial/serial load). It is incremented in case of a phase switch and
+ // can be stored in various "nodes" to verify modifications are only done
+ // "within the islands". Another example of invalidation would be
+ // insertion of a new scope "under" an existing target thus changing its
+ // scope hierarchy (and potentially even its base scope). This would be
+ // bad because we may have made decisions based on the original hierarchy,
+ // for example, we may have queried a variable which in the new hierarchy
+ // would "see" a new value from the newly inserted scope.
+ //
+ // The special load_generation value 0 indicates initialization before
+ // anything has been loaded. Currently, it is changed to 1 at the end
+ // of the context constructor.
+ //
+ // Note must come (and thus initialized) before the data_ member.
+ //
+ run_phase phase = run_phase::load;
+ size_t load_generation = 0;
+
+ private:
struct data;
unique_ptr<data> data_;
@@ -227,49 +274,6 @@ namespace build2
const vector<name>* trace_match = nullptr;
const vector<name>* trace_execute = nullptr;
- // In order to perform each operation the build system goes through the
- // following phases:
- //
- // load - load the buildfiles
- // match - search prerequisites and match rules
- // execute - execute the matched rule
- //
- // The build system starts with a "serial load" phase and then continues
- // with parallel match and execute. Match, however, can be interrupted
- // both with load and execute.
- //
- // Match can be interrupted with "exclusive load" in order to load
- // additional buildfiles. Similarly, it can be interrupted with (parallel)
- // execute in order to build targetd required to complete the match (for
- // example, generated source code or source code generators themselves).
- //
- // Such interruptions are performed by phase change that is protected by
- // phase_mutex (which is also used to synchronize the state changes
- // between phases).
- //
- // Serial load can perform arbitrary changes to the build state. Exclusive
- // load, however, can only perform "island appends". That is, it can
- // create new "nodes" (variables, scopes, etc) but not (semantically)
- // change already existing nodes or invalidate any references to such (the
- // idea here is that one should be able to load additional buildfiles as
- // long as they don't interfere with the existing build state). The
- // "islands" are identified by the load_generation number (1 for the
- // initial/serial load). It is incremented in case of a phase switch and
- // can be stored in various "nodes" to verify modifications are only done
- // "within the islands". Another example of invalidation would be
- // insertion of a new scope "under" an existing target thus changing its
- // scope hierarchy (and potentially even its base scope). This would be
- // bad because we may have made decisions based on the original hierarchy,
- // for example, we may have queried a variable which in the new hierarchy
- // would "see" a new value from the newly inserted scope.
- //
- // The special load_generation value 0 indicates initialization before
- // anything has been loaded. Currently, it is changed to 1 at the end
- // of the context constructor.
- //
- run_phase phase = run_phase::load;
- size_t load_generation = 0;
-
// A "tri-mutex" that keeps all the threads in one of the three phases.
// When a thread wants to switch a phase, it has to wait for all the other
// threads to do the same (or release their phase locks). The load phase
diff --git a/libbuild2/variable.hxx b/libbuild2/variable.hxx
index cc4792e..b281844 100644
--- a/libbuild2/variable.hxx
+++ b/libbuild2/variable.hxx
@@ -1420,12 +1420,12 @@ namespace build2
variable_pool& operator= (const variable_pool&) = delete;
public:
- // RW access (only for shared pools).
+ // RW access (only for shared pools plus the temp_scope special case).
//
variable_pool&
rw () const
{
- assert (shared_->phase == run_phase::load);
+ assert (shared_ == nullptr || shared_->phase == run_phase::load);
return const_cast<variable_pool&> (*this);
}