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Merge remote-tracking branch 'origin/topic/vern/standalone-event-groups'

Browse source 
* origin/topic/vern/standalone-event-groups:
  tracking of event groups for compilation to standalone-C++
This commit is contained in:
Tim Wojtulewicz 2025-09-17 14:28:32 -07:00
commit ef9ffda2ef
19 changed files with 162 additions and 70 deletions
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6
CHANGES
View file

@ -1,3 +1,9 @@
8.1.0-dev.559 | 2025-09-17 14:28:32 -0700
* tracking of event groups for compilation to standalone-C++ (Vern Paxson, Corelight)
* Deprecate SetType, as it can be replaced by TableType (Vern Paxson, Corelight)
8.1.0-dev.555 | 2025-09-17 08:44:43 -0700 8.1.0-dev.555 | 2025-09-17 08:44:43 -0700
* Avoid starting up storage expiration thread with zero backends (Tim Wojtulewicz, Corelight) * Avoid starting up storage expiration thread with zero backends (Tim Wojtulewicz, Corelight)

2
VERSION
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@ -1 +1 @@
8.1.0-dev.555 8.1.0-dev.559

10
src/EventRegistry.h
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@ -216,6 +216,16 @@ public:
*/ */
void AddFunc(detail::ScriptFuncPtr f); void AddFunc(detail::ScriptFuncPtr f);
/**
* @return The name associated with the group.
*/
const auto& GetName() const { return name; }
/**
* @return The type of group.
*/
const auto& GetEventGroupKind() const { return kind; }
private: private:
void UpdateFuncBodies(); void UpdateFuncBodies();

21
src/Func.cc
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@ -295,10 +295,8 @@ ScriptFunc::ScriptFunc(std::string _name, FuncTypePtr ft, std::vector<StmtPtr> b
std::ranges::stable_sort(bodies, std::ranges::greater(), &Body::priority); std::ranges::stable_sort(bodies, std::ranges::greater(), &Body::priority);
if ( ! bodies.empty() ) { if ( ! bodies.empty() )
current_body = bodies[0].stmts; current_body = bodies[0];
current_priority = bodies[0].priority;
}
} }
ScriptFunc::~ScriptFunc() { ScriptFunc::~ScriptFunc() {
@ -562,13 +560,9 @@ void ScriptFunc::AddBody(StmtPtr new_body, const std::vector<IDPtr>& new_inits,
bodies.clear(); bodies.clear();
} }
Body b; current_body = Body{.stmts = new_body, .groups = {groups.begin(), groups.end()}, .priority = priority};
b.stmts = new_body;
b.groups = {groups.begin(), groups.end()};
current_body = new_body;
current_priority = b.priority = priority;
bodies.push_back(std::move(b)); bodies.push_back(current_body);
std::ranges::stable_sort(bodies, std::ranges::greater(), &Body::priority); std::ranges::stable_sort(bodies, std::ranges::greater(), &Body::priority);
} }
@ -577,18 +571,15 @@ void ScriptFunc::ReplaceBody(const StmtPtr& old_body, StmtPtr new_body) {
for ( auto body = bodies.begin(); body != bodies.end(); ++body ) for ( auto body = bodies.begin(); body != bodies.end(); ++body )
if ( body->stmts.get() == old_body.get() ) { if ( body->stmts.get() == old_body.get() ) {
if ( new_body ) { if ( new_body )
body->stmts = new_body; body->stmts = new_body;
current_priority = body->priority;
}
else else
bodies.erase(body); bodies.erase(body);
found_it = true; found_it = true;
current_body = *body;
break; break;
} }
current_body = new_body;
} }
bool ScriptFunc::DeserializeCaptures(BrokerListView data) { bool ScriptFunc::DeserializeCaptures(BrokerListView data) {

12
src/Func.h
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@ -68,7 +68,7 @@ public:
struct Body { struct Body {
detail::StmtPtr stmts; detail::StmtPtr stmts;
std::forward_list<EventGroupPtr> groups; std::forward_list<EventGroupPtr> groups;
int priority; int priority = 0;
// If any of the groups are disabled, this body is disabled. // If any of the groups are disabled, this body is disabled.
// The disabled field is updated from EventGroup instances. // The disabled field is updated from EventGroup instances.
bool disabled = false; bool disabled = false;
@ -265,8 +265,7 @@ public:
*/ */
void ReplaceBody(const detail::StmtPtr& old_body, detail::StmtPtr new_body); void ReplaceBody(const detail::StmtPtr& old_body, detail::StmtPtr new_body);
StmtPtr CurrentBody() const { return current_body; } auto CurrentBody() const { return current_body; }
int CurrentPriority() const { return current_priority; }
/** /**
* Returns the function's frame size. * Returns the function's frame size.
@ -322,11 +321,8 @@ private:
OffsetMap* captures_offset_mapping = nullptr; OffsetMap* captures_offset_mapping = nullptr;
// The most recently added/updated body ... // A copy of the most recently added/updated Body.
StmtPtr current_body; Body current_body;
// ... and its priority.
int current_priority = 0;
}; };
using built_in_func = ValPtr (*)(Frame* frame, const Args* args); using built_in_func = ValPtr (*)(Frame* frame, const Args* args);

33
src/script_opt/CPP/DeclFunc.cc
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@ -1,5 +1,6 @@
// See the file "COPYING" in the main distribution directory for copyright. // See the file "COPYING" in the main distribution directory for copyright.
#include "zeek/EventRegistry.h"
#include "zeek/script_opt/CPP/Compile.h" #include "zeek/script_opt/CPP/Compile.h"
namespace zeek::detail { namespace zeek::detail {
@ -15,8 +16,9 @@ void CPPCompile::DeclareFunc(const FuncInfo& func) {
auto f = func.Func(); auto f = func.Func();
const auto& body = func.Body(); const auto& body = func.Body();
auto priority = func.Priority(); auto priority = func.Priority();
const auto& e_g = func.EventGroups();
CreateFunction(f->GetType(), pf, fname, body, priority, nullptr, f->Flavor()); CreateFunction(f->GetType(), pf, fname, body, priority, nullptr, f->Flavor(), &e_g);
if ( f->GetBodies().size() == 1 ) if ( f->GetBodies().size() == 1 )
compiled_simple_funcs[f->GetName()] = fname; compiled_simple_funcs[f->GetName()] = fname;
@ -42,7 +44,8 @@ void CPPCompile::DeclareLambda(const LambdaExpr* l, const ProfileFunc* pf) {
} }
void CPPCompile::CreateFunction(const FuncTypePtr& ft, const ProfileFunc* pf, const string& fname, const StmtPtr& body, void CPPCompile::CreateFunction(const FuncTypePtr& ft, const ProfileFunc* pf, const string& fname, const StmtPtr& body,
int priority, const LambdaExpr* l, FunctionFlavor flavor) { int priority, const LambdaExpr* l, FunctionFlavor flavor,
const std::forward_list<EventGroupPtr>* e_g) {
const auto& yt = ft->Yield(); const auto& yt = ft->Yield();
in_hook = flavor == FUNC_FLAVOR_HOOK; in_hook = flavor == FUNC_FLAVOR_HOOK;
@ -103,9 +106,29 @@ void CPPCompile::CreateFunction(const FuncTypePtr& ft, const ProfileFunc* pf, co
compiled_funcs.emplace(fname); compiled_funcs.emplace(fname);
} }
body_hashes[fname] = pf->HashVal(); string module_group;
body_priorities[fname] = priority; vector<string> attr_groups;
body_locs[fname] = body->GetLocationInfo();
if ( e_g )
for ( auto g : *e_g ) {
const auto& name = g->GetName();
if ( g->GetEventGroupKind() == EventGroupKind::Module ) {
if ( module_group.empty() )
module_group = g->GetName();
else {
ASSERT(module_group == name);
}
}
else
attr_groups.push_back(name);
}
body_info[fname] = {.hash = pf->HashVal(),
.priority = priority,
.loc = body->GetLocationInfo(),
.module = module_group,
.groups = std::move(attr_groups)};
body_names.emplace(body.get(), fname); body_names.emplace(body.get(), fname);
} }

3
src/script_opt/CPP/DeclFunc.h
View file

@ -32,7 +32,8 @@ void DeclareLambda(const LambdaExpr* l, const ProfileFunc* pf);
// dynamic casting approach, which only requires one additional class. // dynamic casting approach, which only requires one additional class.
void CreateFunction(const FuncTypePtr& ft, const ProfileFunc* pf, const std::string& fname, const StmtPtr& body, void CreateFunction(const FuncTypePtr& ft, const ProfileFunc* pf, const std::string& fname, const StmtPtr& body,
int priority, const LambdaExpr* l, FunctionFlavor flavor); int priority, const LambdaExpr* l, FunctionFlavor flavor,
const std::forward_list<EventGroupPtr>* e_g = nullptr);
// Used for the case of creating a custom subclass of CPPStmt. // Used for the case of creating a custom subclass of CPPStmt.
void DeclareSubclass(const FuncTypePtr& ft, const ProfileFunc* pf, const std::string& fname, const std::string& args, void DeclareSubclass(const FuncTypePtr& ft, const ProfileFunc* pf, const std::string& fname, const std::string& args,

26
src/script_opt/CPP/Driver.cc
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@ -365,13 +365,19 @@ void CPPCompile::RegisterCompiledBody(const string& f) {
ASSERT(fi != func_index.end()); ASSERT(fi != func_index.end());
auto type_signature = casting_index[fi->second]; auto type_signature = casting_index[fi->second];
auto h = body_hashes[f]; const auto& bi = body_info[f];
auto p = body_priorities[f]; auto body_info =
auto loc = body_locs[f]; Fmt(bi.priority) + ", " + Fmt(bi.hash) + ", \"" + bi.loc->FileName() + " (C++)\", " + Fmt(bi.loc->FirstLine());
auto body_info = Fmt(p) + ", " + Fmt(h) + ", \"" + loc->FileName() + " (C++)\", " + Fmt(loc->FirstLine());
Emit("\tCPP_RegisterBody(\"%s\", (void*) %s, %s, %s, std::vector<std::string>(%s)),", f, f, Fmt(type_signature), string module_group = "\"" + bi.module + "\"";
body_info, events);
string attr_groups = "{";
for ( const auto& g : bi.groups )
attr_groups += " \"" + g + "\",";
attr_groups += " }";
Emit("\tCPP_RegisterBody(\"%s\", (void*) %s, %s, %s, std::vector<std::string>(%s), %s, %s),", f, f,
Fmt(type_signature), body_info, events, module_group, attr_groups);
} }
void CPPCompile::GenEpilog() { void CPPCompile::GenEpilog() {
@ -555,8 +561,12 @@ void CPPCompile::GenRegisterBodies() {
"auto f = make_intrusive<CPPDynStmt>(b.func_name.c_str(), b.func, b.type_signature, " "auto f = make_intrusive<CPPDynStmt>(b.func_name.c_str(), b.func, b.type_signature, "
"b.filename, b.line_num);"); "b.filename, b.line_num);");
auto reg = standalone ? "register_standalone_body" : "register_body"; if ( standalone )
Emit("%s__CPP(f, b.priority, b.h, b.events, finish_init__CPP);", reg); Emit(
"register_standalone_body__CPP(f, b.priority, b.h, b.events, b.module_group, b.attr_groups, "
"finish_init__CPP);");
else
Emit("register_body__CPP(f, b.priority, b.h, b.events, finish_init__CPP);");
EndBlock(); EndBlock();
EndBlock(); EndBlock();

8
src/script_opt/CPP/Emit.h
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@ -68,6 +68,14 @@ void Emit(const std::string& fmt, const std::string& arg1, const std::string& ar
NL(); NL();
} }
void Emit(const std::string& fmt, const std::string& arg1, const std::string& arg2, const std::string& arg3,
const std::string& arg4, const std::string& arg5, const std::string& arg6, const std::string& arg7) const {
Indent();
fprintf(write_file, fmt.c_str(), arg1.c_str(), arg2.c_str(), arg3.c_str(), arg4.c_str(), arg5.c_str(), arg6.c_str(),
arg7.c_str());
NL();
}
void NL() const { fputc('\n', write_file); } void NL() const { fputc('\n', write_file); }
// Indents to the current indentation level. // Indents to the current indentation level.

2
src/script_opt/CPP/Func.h
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@ -90,6 +90,8 @@ struct CompiledScript {
CPPStmtPtr body; CPPStmtPtr body;
int priority; int priority;
std::vector<std::string> events; std::vector<std::string> events;
std::string module_group;
std::vector<std::string> attr_groups;
void (*finish_init_func)(); void (*finish_init_func)();
}; };

6
src/script_opt/CPP/GenFunc.cc
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@ -224,10 +224,10 @@ p_hash_type CPPCompile::BodyHash(const Stmt* body) {
ASSERT(bn != body_names.end()); ASSERT(bn != body_names.end());
auto& body_name = bn->second; auto& body_name = bn->second;
auto bh = body_hashes.find(body_name); auto bi = body_info.find(body_name);
ASSERT(bh != body_hashes.end()); ASSERT(bi != body_info.end());
return bh->second; return bi->second.hash;
} }
string CPPCompile::GenArgs(const RecordTypePtr& params, const Expr* e) { string CPPCompile::GenArgs(const RecordTypePtr& params, const Expr* e) {

17
src/script_opt/CPP/GenFunc.h
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@ -51,15 +51,16 @@ std::unordered_map<std::string, std::string> compiled_simple_funcs;
// Maps function bodies to the names we use for them. // Maps function bodies to the names we use for them.
std::unordered_map<const Stmt*, std::string> body_names; std::unordered_map<const Stmt*, std::string> body_names;
// Maps function names to hashes of bodies. struct BodyInfo {
std::unordered_map<std::string, p_hash_type> body_hashes; p_hash_type hash = 0;
int priority = 0;
const Location* loc = nullptr; // for better-than-nothing error reporting
std::string module; // if non-nil, used for "module" event groups
std::vector<std::string> groups; // attribute-based event groups
};
// Maps function names to priorities, for hooks & event handlers. // Maps function names to their body info.
std::unordered_map<std::string, int> body_priorities; std::unordered_map<std::string, BodyInfo> body_info;
// Maps function names to script locations, for better-than-nothing error
// reporting.
std::unordered_map<std::string, const Location*> body_locs;
// Maps function names to events relevant to them. // Maps function names to events relevant to them.
std::unordered_map<std::string, std::vector<std::string>> body_events; std::unordered_map<std::string, std::vector<std::string>> body_events;

6
src/script_opt/CPP/Inits.cc
View file

@ -284,9 +284,9 @@ void CPPCompile::GenStandaloneActivation() {
// We didn't wind up compiling it. // We didn't wind up compiling it.
continue; continue;
auto bh = body_hashes.find(bname); auto bi = body_info.find(bname);
ASSERT(bh != body_hashes.end()); ASSERT(bi != body_info.end());
func_bodies[f].push_back(bh->second); func_bodies[f].push_back(bi->second.hash);
} }
for ( auto& fb : func_bodies ) { for ( auto& fb : func_bodies ) {

39
src/script_opt/CPP/RuntimeInitSupport.cc
View file

@ -46,16 +46,22 @@ void register_type__CPP(TypePtr t, const string& name) {
} }
void register_body__CPP(CPPStmtPtr body, int priority, p_hash_type hash, vector<string> events, void (*finish_init)()) { void register_body__CPP(CPPStmtPtr body, int priority, p_hash_type hash, vector<string> events, void (*finish_init)()) {
compiled_scripts[hash] = {std::move(body), priority, std::move(events), finish_init}; compiled_scripts[hash] = {std::move(body), priority, std::move(events), {}, {}, finish_init};
} }
static unordered_map<p_hash_type, CompiledScript> compiled_standalone_scripts; static unordered_map<p_hash_type, CompiledScript> compiled_standalone_scripts;
void register_standalone_body__CPP(CPPStmtPtr body, int priority, p_hash_type hash, vector<string> events, void register_standalone_body__CPP(CPPStmtPtr body, int priority, p_hash_type hash, vector<string> events,
std::string module_group, std::vector<std::string> attr_groups,
void (*finish_init)()) { void (*finish_init)()) {
// For standalone scripts we don't actually need finish_init, but // For standalone scripts we don't actually need finish_init, but
// we keep it for symmetry with compiled_scripts. // we keep it for symmetry with compiled_scripts.
compiled_standalone_scripts[hash] = {std::move(body), priority, std::move(events), finish_init}; compiled_standalone_scripts[hash] = {.body = std::move(body),
.priority = priority,
.events = std::move(events),
.module_group = std::move(module_group),
.attr_groups = std::move(attr_groups),
.finish_init_func = finish_init};
} }
void register_lambda__CPP(CPPStmtPtr body, p_hash_type hash, const char* name, TypePtr t, bool has_captures) { void register_lambda__CPP(CPPStmtPtr body, p_hash_type hash, const char* name, TypePtr t, bool has_captures) {
@ -86,6 +92,19 @@ void register_scripts__CPP(p_hash_type h, void (*callback)()) {
standalone_callbacks[h] = callback; standalone_callbacks[h] = callback;
} }
// Updates "groups" with the event groups present in "cs".
static void update_event_groups(const CompiledScript& cs, unordered_set<EventGroupPtr> groups) {
if ( ! cs.module_group.empty() ) {
auto er = event_registry->RegisterGroup(EventGroupKind::Module, cs.module_group);
groups.insert(std::move(er));
}
for ( const auto& g : cs.attr_groups ) {
auto er = event_registry->RegisterGroup(EventGroupKind::Attribute, g);
groups.insert(std::move(er));
}
}
void activate_bodies__CPP(const char* fn, const char* module, bool exported, TypePtr t, vector<p_hash_type> hashes) { void activate_bodies__CPP(const char* fn, const char* module, bool exported, TypePtr t, vector<p_hash_type> hashes) {
auto ft = cast_intrusive<FuncType>(t); auto ft = cast_intrusive<FuncType>(t);
auto fg = lookup_ID(fn, module, false, false, false); auto fg = lookup_ID(fn, module, false, false, false);
@ -108,7 +127,7 @@ void activate_bodies__CPP(const char* fn, const char* module, bool exported, Typ
fg->SetVal(v); fg->SetVal(v);
} }
auto f = v->AsFunc(); auto f = cast_intrusive<ScriptFunc>(v->AsFuncVal()->AsFuncPtr());
// Events we need to register. // Events we need to register.
unordered_set<string> events; unordered_set<string> events;
@ -116,6 +135,9 @@ void activate_bodies__CPP(const char* fn, const char* module, bool exported, Typ
if ( ft->Flavor() == FUNC_FLAVOR_EVENT ) if ( ft->Flavor() == FUNC_FLAVOR_EVENT )
events.insert(fn); events.insert(fn);
// Groups we need to add f to.
unordered_set<EventGroupPtr> groups;
vector<detail::IDPtr> no_inits; // empty initialization vector vector<detail::IDPtr> no_inits; // empty initialization vector
int num_params = ft->Params()->NumFields(); int num_params = ft->Params()->NumFields();
@ -129,10 +151,15 @@ void activate_bodies__CPP(const char* fn, const char* module, bool exported, Typ
added_bodies[fn].insert(h); added_bodies[fn].insert(h);
events.insert(cs.events.begin(), cs.events.end()); events.insert(cs.events.begin(), cs.events.end());
update_event_groups(cs, groups);
} }
for ( const auto& e : events ) for ( const auto& e : events )
event_registry->Register(e); event_registry->Register(e);
for ( auto& g : groups )
g->AddFunc(f);
} }
IDPtr lookup_global__CPP(const char* g, const TypePtr& t, const GlobalCharacteristics& gc) { IDPtr lookup_global__CPP(const char* g, const TypePtr& t, const GlobalCharacteristics& gc) {
@ -183,6 +210,7 @@ FuncValPtr lookup_func__CPP(string name, int num_bodies, vector<p_hash_type> has
vector<StmtPtr> bodies; vector<StmtPtr> bodies;
vector<int> priorities; vector<int> priorities;
unordered_set<EventGroupPtr> groups;
for ( auto h : hashes ) { for ( auto h : hashes ) {
auto cs = compiled_scripts.find(h); auto cs = compiled_scripts.find(h);
@ -201,10 +229,15 @@ FuncValPtr lookup_func__CPP(string name, int num_bodies, vector<p_hash_type> has
// the semantics for Register explicitly allow it. // the semantics for Register explicitly allow it.
for ( auto& e : f.events ) for ( auto& e : f.events )
event_registry->Register(e); event_registry->Register(e);
update_event_groups(f, groups);
} }
auto sf = make_intrusive<ScriptFunc>(std::move(name), std::move(ft), std::move(bodies), std::move(priorities)); auto sf = make_intrusive<ScriptFunc>(std::move(name), std::move(ft), std::move(bodies), std::move(priorities));
for ( auto& g : groups )
g->AddFunc(sf);
return make_intrusive<FuncVal>(std::move(sf)); return make_intrusive<FuncVal>(std::move(sf));
} }

3
src/script_opt/CPP/RuntimeInitSupport.h
View file

@ -48,7 +48,8 @@ extern void register_body__CPP(CPPStmtPtr body, int priority, p_hash_type hash,
// Same but for standalone function bodies. // Same but for standalone function bodies.
extern void register_standalone_body__CPP(CPPStmtPtr body, int priority, p_hash_type hash, extern void register_standalone_body__CPP(CPPStmtPtr body, int priority, p_hash_type hash,
std::vector<std::string> events, void (*finish_init)()); std::vector<std::string> events, std::string module_group,
std::vector<std::string> attr_groups, void (*finish_init)());
// Registers a lambda body as associated with the given hash. Includes // Registers a lambda body as associated with the given hash. Includes
// the name of the lambda (so it can be made available as a quasi-global // the name of the lambda (so it can be made available as a quasi-global

9
src/script_opt/CPP/RuntimeInits.h
View file

@ -547,7 +547,8 @@ protected:
// code that loops over a vector of these to perform the registrations. // code that loops over a vector of these to perform the registrations.
struct CPP_RegisterBody { struct CPP_RegisterBody {
CPP_RegisterBody(std::string _func_name, void* _func, int _type_signature, int _priority, p_hash_type _h, CPP_RegisterBody(std::string _func_name, void* _func, int _type_signature, int _priority, p_hash_type _h,
const char* _filename, int _line_num, std::vector<std::string> _events) const char* _filename, int _line_num, std::vector<std::string> _events, std::string _module_group,
std::vector<std::string> _attr_groups)
: func_name(std::move(_func_name)), : func_name(std::move(_func_name)),
func(_func), func(_func),
type_signature(_type_signature), type_signature(_type_signature),
@ -555,7 +556,9 @@ struct CPP_RegisterBody {
h(_h), h(_h),
filename(_filename), filename(_filename),
line_num(_line_num), line_num(_line_num),
events(std::move(_events)) {} events(std::move(_events)),
module_group(std::move(_module_group)),
attr_groups(std::move(_attr_groups)) {}
std::string func_name; // name of the function std::string func_name; // name of the function
void* func; // pointer to C++ void* func; // pointer to C++
@ -565,6 +568,8 @@ struct CPP_RegisterBody {
const char* filename; const char* filename;
int line_num; int line_num;
std::vector<std::string> events; std::vector<std::string> events;
std::string module_group;
std::vector<std::string> attr_groups;
}; };
} // namespace zeek::detail } // namespace zeek::detail

6
src/script_opt/Inline.cc
View file

@ -299,7 +299,11 @@ void Inliner::CoalesceEventHandlers(ScriptFuncPtr func, const std::vector<Func::
PostInline(oi, inlined_func); PostInline(oi, inlined_func);
funcs.emplace_back(inlined_func, new_scope, merged_body, 0); // We don't need to worry about event groups because the CoalescedScriptFunc
// wrapper checks at run-time for whether any handlers have been disabled,
// and if so skips coalesced execution.
Func::Body body{.stmts = merged_body};
funcs.emplace_back(inlined_func, new_scope, std::move(body));
auto pf = std::make_shared<ProfileFunc>(inlined_func.get(), merged_body, true); auto pf = std::make_shared<ProfileFunc>(inlined_func.get(), merged_body, true);
funcs.back().SetProfile(std::move(pf)); funcs.back().SetProfile(std::move(pf));

9
src/script_opt/ScriptOpt.cc
View file

@ -41,7 +41,7 @@ void analyze_func(ScriptFuncPtr f) {
// Even if we're analyzing only a subset of the scripts, we still // Even if we're analyzing only a subset of the scripts, we still
// track all functions here because the inliner will need the full list. // track all functions here because the inliner will need the full list.
ASSERT(f->GetScope()); ASSERT(f->GetScope());
funcs.emplace_back(f, f->GetScope(), f->CurrentBody(), f->CurrentPriority()); funcs.emplace_back(f, f->GetScope(), f->CurrentBody());
} }
void analyze_lambda(LambdaExpr* l) { void analyze_lambda(LambdaExpr* l) {
@ -78,7 +78,8 @@ void analyze_global_stmts(Stmt* stmts) {
global_stmts->SetScope(sc); global_stmts->SetScope(sc);
global_stmts_ind = funcs.size(); global_stmts_ind = funcs.size();
funcs.emplace_back(global_stmts, sc, stmts->ThisPtr(), 0); Func::Body body{.stmts = stmts->ThisPtr()};
funcs.emplace_back(global_stmts, sc, std::move(body));
} }
std::pair<StmtPtr, ScopePtr> get_global_stmts() { std::pair<StmtPtr, ScopePtr> get_global_stmts() {
@ -90,7 +91,7 @@ std::pair<StmtPtr, ScopePtr> get_global_stmts() {
void add_func_analysis_pattern(AnalyOpt& opts, const char* pat) { void add_func_analysis_pattern(AnalyOpt& opts, const char* pat) {
try { try {
std::string full_pat = std::string("^(") + pat + ")$"; std::string full_pat = std::string("^(") + pat + ")$";
opts.only_funcs.emplace_back(full_pat); opts.only_funcs.emplace_back(std::move(full_pat));
} catch ( const std::regex_error& e ) { } catch ( const std::regex_error& e ) {
reporter->FatalError("bad file analysis pattern: %s", pat); reporter->FatalError("bad file analysis pattern: %s", pat);
} }
@ -99,7 +100,7 @@ void add_func_analysis_pattern(AnalyOpt& opts, const char* pat) {
void add_file_analysis_pattern(AnalyOpt& opts, const char* pat) { void add_file_analysis_pattern(AnalyOpt& opts, const char* pat) {
try { try {
std::string full_pat = std::string("^.*(") + pat + ").*$"; std::string full_pat = std::string("^.*(") + pat + ").*$";
opts.only_files.emplace_back(full_pat); opts.only_files.emplace_back(std::move(full_pat));
} catch ( const std::regex_error& e ) { } catch ( const std::regex_error& e ) {
reporter->FatalError("bad file analysis pattern: %s", pat); reporter->FatalError("bad file analysis pattern: %s", pat);
} }

14
src/script_opt/ScriptOpt.h
View file

@ -149,19 +149,20 @@ using ScriptFuncPtr = IntrusivePtr<ScriptFunc>;
// Info we need for tracking an instance of a function. // Info we need for tracking an instance of a function.
class FuncInfo { class FuncInfo {
public: public:
FuncInfo(ScriptFuncPtr _func, ScopePtr _scope, StmtPtr _body, int _priority) FuncInfo(ScriptFuncPtr _func, ScopePtr _scope, Func::Body _body)
: func(std::move(_func)), scope(std::move(_scope)), body(std::move(_body)), priority(_priority) {} : func(std::move(_func)), scope(std::move(_scope)), body(std::move(_body)) {}
ScriptFunc* Func() const { return func.get(); } ScriptFunc* Func() const { return func.get(); }
const ScriptFuncPtr& FuncPtr() const { return func; } const ScriptFuncPtr& FuncPtr() const { return func; }
const ScopePtr& Scope() const { return scope; } const ScopePtr& Scope() const { return scope; }
const StmtPtr& Body() const { return body; } const StmtPtr& Body() const { return body.stmts; }
int Priority() const { return priority; } int Priority() const { return body.priority; }
auto EventGroups() const { return body.groups; }
const ProfileFunc* Profile() const { return pf.get(); } const ProfileFunc* Profile() const { return pf.get(); }
std::shared_ptr<ProfileFunc> ProfilePtr() const { return pf; } std::shared_ptr<ProfileFunc> ProfilePtr() const { return pf; }
void SetScope(ScopePtr new_scope) { scope = std::move(new_scope); } void SetScope(ScopePtr new_scope) { scope = std::move(new_scope); }
void SetBody(StmtPtr new_body) { body = std::move(new_body); } void SetBody(StmtPtr new_body) { body.stmts = std::move(new_body); }
void SetProfile(std::shared_ptr<ProfileFunc> _pf) { pf = std::move(_pf); } void SetProfile(std::shared_ptr<ProfileFunc> _pf) { pf = std::move(_pf); }
bool ShouldAnalyze() const { return should_analyze; } bool ShouldAnalyze() const { return should_analyze; }
@ -178,9 +179,8 @@ public:
protected: protected:
ScriptFuncPtr func; ScriptFuncPtr func;
ScopePtr scope; ScopePtr scope;
StmtPtr body; Func::Body body;
std::shared_ptr<ProfileFunc> pf; std::shared_ptr<ProfileFunc> pf;
int priority;
// Whether to analyze this function at all, per optimization selection // Whether to analyze this function at all, per optimization selection
// via --optimize-file/--optimize-func. If those flags aren't used, // via --optimize-file/--optimize-func. If those flags aren't used,