qzdoom/src/dthinker.cpp

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/*
** dthinker.cpp
** Implements the base class for almost anything in a level that might think
**
**---------------------------------------------------------------------------
** Copyright 1998-2006 Randy Heit
** All rights reserved.
**
** Redistribution and use in source and binary forms, with or without
** modification, are permitted provided that the following conditions
** are met:
**
** 1. Redistributions of source code must retain the above copyright
** notice, this list of conditions and the following disclaimer.
** 2. Redistributions in binary form must reproduce the above copyright
** notice, this list of conditions and the following disclaimer in the
** documentation and/or other materials provided with the distribution.
** 3. The name of the author may not be used to endorse or promote products
** derived from this software without specific prior written permission.
**
** THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
** IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
** OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
** IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
** INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
** NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
** DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
** THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
** (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
** THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
**---------------------------------------------------------------------------
**
*/
#include "dthinker.h"
#include "stats.h"
#include "p_local.h"
#include "statnums.h"
#include "i_system.h"
#include "doomerrors.h"
#include "serializer.h"
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#include "d_player.h"
#include "vm.h"
#include "c_dispatch.h"
#include "v_text.h"
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static int ThinkCount;
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static cycle_t ThinkCycles;
extern cycle_t BotSupportCycles;
extern cycle_t ActionCycles;
extern int BotWTG;
IMPLEMENT_CLASS(DThinker, false, false)
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DThinker *NextToThink;
FThinkerList DThinker::Thinkers[MAX_STATNUM+2];
FThinkerList DThinker::FreshThinkers[MAX_STATNUM+1];
bool DThinker::bSerialOverride = false;
//==========================================================================
//
//
//
//==========================================================================
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void FThinkerList::AddTail(DThinker *thinker)
{
assert(thinker->PrevThinker == NULL && thinker->NextThinker == NULL);
assert(!(thinker->ObjectFlags & OF_EuthanizeMe));
if (Sentinel == NULL)
{
Sentinel = Create<DThinker>(DThinker::NO_LINK);
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Sentinel->ObjectFlags |= OF_Sentinel;
Sentinel->NextThinker = Sentinel;
Sentinel->PrevThinker = Sentinel;
GC::WriteBarrier(Sentinel);
}
DThinker *tail = Sentinel->PrevThinker;
assert(tail->NextThinker == Sentinel);
thinker->PrevThinker = tail;
thinker->NextThinker = Sentinel;
tail->NextThinker = thinker;
Sentinel->PrevThinker = thinker;
GC::WriteBarrier(thinker, tail);
GC::WriteBarrier(thinker, Sentinel);
GC::WriteBarrier(tail, thinker);
GC::WriteBarrier(Sentinel, thinker);
}
//==========================================================================
//
//
//
//==========================================================================
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DThinker *FThinkerList::GetHead() const
{
if (Sentinel == NULL || Sentinel->NextThinker == Sentinel)
{
return NULL;
}
assert(Sentinel->NextThinker->PrevThinker == Sentinel);
return Sentinel->NextThinker;
}
//==========================================================================
//
//
//
//==========================================================================
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DThinker *FThinkerList::GetTail() const
{
if (Sentinel == NULL || Sentinel->PrevThinker == Sentinel)
{
return NULL;
}
return Sentinel->PrevThinker;
}
//==========================================================================
//
//
//
//==========================================================================
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bool FThinkerList::IsEmpty() const
{
return Sentinel == NULL || Sentinel->NextThinker == NULL;
}
//==========================================================================
//
//
//
//==========================================================================
void DThinker::SaveList(FSerializer &arc, DThinker *node)
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{
if (node != NULL)
{
while (!(node->ObjectFlags & OF_Sentinel))
{
assert(node->NextThinker != NULL && !(node->NextThinker->ObjectFlags & OF_EuthanizeMe));
::Serialize<DThinker>(arc, nullptr, node, nullptr);
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node = node->NextThinker;
}
}
}
//==========================================================================
//
//
//
//==========================================================================
void DThinker::SerializeThinkers(FSerializer &arc, bool hubLoad)
{
//DThinker *thinker;
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//uint8_t stat;
//int statcount;
int i;
if (arc.isWriting())
{
arc.BeginArray("thinkers");
for (i = 0; i <= MAX_STATNUM; i++)
{
arc.BeginArray(nullptr);
SaveList(arc, Thinkers[i].GetHead());
SaveList(arc, FreshThinkers[i].GetHead());
arc.EndArray();
}
arc.EndArray();
}
else
{
if (arc.BeginArray("thinkers"))
{
for (i = 0; i <= MAX_STATNUM; i++)
{
if (arc.BeginArray(nullptr))
{
if (!hubLoad || i != STAT_STATIC) // do not load static thinkers in a hub transition because they'd just duplicate the active ones.
{
int size = arc.ArraySize();
for (int j = 0; j < size; j++)
{
DThinker *thinker = nullptr;
arc(nullptr, thinker);
if (thinker != nullptr)
{
// This may be a player stored in their ancillary list. Remove
// them first before inserting them into the new list.
if (thinker->NextThinker != nullptr)
{
thinker->Remove();
}
// Thinkers with the OF_JustSpawned flag set go in the FreshThinkers
// list. Anything else goes in the regular Thinkers list.
if (thinker->ObjectFlags & OF_EuthanizeMe)
{
// This thinker was destroyed during the loading process. Do
// not link it into any list.
}
else if (thinker->ObjectFlags & OF_JustSpawned)
{
FreshThinkers[i].AddTail(thinker);
thinker->PostSerialize();
}
else
{
Thinkers[i].AddTail(thinker);
thinker->PostSerialize();
}
}
}
}
arc.EndArray();
}
}
arc.EndArray();
}
}
}
//==========================================================================
//
//
//
//==========================================================================
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DThinker::DThinker (int statnum) throw()
{
NextThinker = NULL;
PrevThinker = NULL;
if (bSerialOverride)
{ // The serializer will insert us into the right list
return;
}
ObjectFlags |= OF_JustSpawned;
if ((unsigned)statnum > MAX_STATNUM)
{
statnum = MAX_STATNUM;
}
FreshThinkers[statnum].AddTail (this);
}
DThinker::DThinker(no_link_type foo) throw()
{
foo; // Avoid unused argument warnings.
}
DThinker::~DThinker ()
{
assert(NextThinker == NULL && PrevThinker == NULL);
}
void DThinker::OnDestroy ()
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{
assert((NextThinker != NULL && PrevThinker != NULL) ||
(NextThinker == NULL && PrevThinker == NULL));
if (NextThinker != NULL)
{
Remove();
}
Super::OnDestroy();
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}
//==========================================================================
//
//
//
//==========================================================================
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void DThinker::Remove()
{
if (this == NextToThink)
{
NextToThink = NextThinker;
}
DThinker *prev = PrevThinker;
DThinker *next = NextThinker;
assert(prev != NULL && next != NULL);
assert((ObjectFlags & OF_Sentinel) || (prev != this && next != this));
assert(prev->NextThinker == this);
assert(next->PrevThinker == this);
prev->NextThinker = next;
next->PrevThinker = prev;
GC::WriteBarrier(prev, next);
GC::WriteBarrier(next, prev);
NextThinker = NULL;
PrevThinker = NULL;
}
//==========================================================================
//
//
//
//==========================================================================
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void DThinker::PostBeginPlay ()
{
}
DEFINE_ACTION_FUNCTION(DThinker, PostBeginPlay)
{
PARAM_SELF_PROLOGUE(DThinker);
self->PostBeginPlay();
return 0;
}
void DThinker::CallPostBeginPlay()
{
ObjectFlags |= OF_Spawned;
IFVIRTUAL(DThinker, PostBeginPlay)
{
// Without the type cast this picks the 'void *' assignment...
VMValue params[1] = { (DObject*)this };
VMCall(func, params, 1, nullptr, 0);
}
else
{
PostBeginPlay();
}
}
//==========================================================================
//
//
//
//==========================================================================
void DThinker::PostSerialize()
{
}
//==========================================================================
//
//
//
//==========================================================================
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DThinker *DThinker::FirstThinker (int statnum)
{
DThinker *node;
if ((unsigned)statnum > MAX_STATNUM)
{
statnum = MAX_STATNUM;
}
node = Thinkers[statnum].GetHead();
if (node == NULL)
{
node = FreshThinkers[statnum].GetHead();
if (node == NULL)
{
return NULL;
}
}
return node;
}
//==========================================================================
//
//
//
//==========================================================================
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void DThinker::ChangeStatNum (int statnum)
{
FThinkerList *list;
// This thinker should already be in a list; verify that.
assert(NextThinker != NULL && PrevThinker != NULL);
if ((unsigned)statnum > MAX_STATNUM)
{
statnum = MAX_STATNUM;
}
Remove();
if ((ObjectFlags & OF_JustSpawned) && statnum >= STAT_FIRST_THINKING)
{
list = &FreshThinkers[statnum];
}
else
{
list = &Thinkers[statnum];
}
list->AddTail(this);
}
DEFINE_ACTION_FUNCTION(DThinker, ChangeStatNum)
{
PARAM_SELF_PROLOGUE(DThinker);
PARAM_INT(stat);
self->ChangeStatNum(stat);
return 0;
}
//==========================================================================
//
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// Mark the first thinker of each list
//
//==========================================================================
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void DThinker::MarkRoots()
{
for (int i = 0; i <= MAX_STATNUM; ++i)
{
GC::Mark(Thinkers[i].Sentinel);
GC::Mark(FreshThinkers[i].Sentinel);
}
GC::Mark(Thinkers[MAX_STATNUM+1].Sentinel);
}
//==========================================================================
//
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// Destroy every thinker
//
//==========================================================================
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void DThinker::DestroyAllThinkers ()
{
int i;
for (i = 0; i <= MAX_STATNUM; i++)
{
if (i != STAT_TRAVELLING && i != STAT_STATIC)
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{
DestroyThinkersInList (Thinkers[i]);
DestroyThinkersInList (FreshThinkers[i]);
}
}
DestroyThinkersInList (Thinkers[MAX_STATNUM+1]);
GC::FullGC();
}
//==========================================================================
//
//
//
//==========================================================================
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void DThinker::DestroyThinkersInList (FThinkerList &list)
{
if (list.Sentinel != NULL)
{
for (DThinker *node = list.Sentinel->NextThinker; node != list.Sentinel; node = list.Sentinel->NextThinker)
{
assert(node != NULL);
node->Destroy();
}
list.Sentinel->Destroy();
list.Sentinel = NULL;
}
}
//==========================================================================
//
//
//
//==========================================================================
static unsigned int profilethinkers, profilelimit;
CCMD(profilethinkers)
{
const int argc = argv.argc();
if (argc == 2 || argc == 3)
{
const char *str = argv[1];
bool ascend = true;
if (*str == '+')
{
++str;
}
else if (*str == '-')
{
ascend = false;
++str;
}
int mode = 0;
switch (*str)
{
case 't': mode = ascend ? 7 : 8; break;
case 'a': mode = ascend ? 5 : 6; break;
case '#': mode = ascend ? 3 : 4; break;
case 'c': mode = ascend ? 1 : 2; break;
default: mode = atoi(str); break;
}
profilethinkers = mode;
profilelimit = argc == 3 ? atoi(argv[2]) : 0;
}
else
{
Printf(
"Usage: profilethinkers [+|-][t|a|#|c] [limit]\n"
" profilethinkers [1..8] [limit]\n\n"
"Sorting modes:\n"
TEXTCOLOR_YELLOW "c +c 1 " TEXTCOLOR_NORMAL "actor class, ascending\n"
TEXTCOLOR_YELLOW " -c 2 " TEXTCOLOR_NORMAL "actor class, descending\n"
TEXTCOLOR_YELLOW "# +# 3 " TEXTCOLOR_NORMAL "number of calls, ascending\n"
TEXTCOLOR_YELLOW " -# 4 " TEXTCOLOR_NORMAL "number of calls, descending\n"
TEXTCOLOR_YELLOW "a +a 5 " TEXTCOLOR_NORMAL "average time, ascending\n"
TEXTCOLOR_YELLOW " -a 6 " TEXTCOLOR_NORMAL "average time, descending\n"
TEXTCOLOR_YELLOW "t +t 7 " TEXTCOLOR_NORMAL "total time, ascending\n"
TEXTCOLOR_YELLOW " -t 8 " TEXTCOLOR_NORMAL "total time, descending\n");
}
}
struct ProfileInfo
{
int numcalls = 0;
cycle_t timer;
ProfileInfo()
{
timer.Reset();
}
};
TMap<FName, ProfileInfo> Profiles;
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void DThinker::RunThinkers ()
{
int i, count;
ThinkCount = 0;
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ThinkCycles.Reset();
BotSupportCycles.Reset();
ActionCycles.Reset();
BotWTG = 0;
ThinkCycles.Clock();
if (!profilethinkers)
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{
// Tick every thinker left from last time
for (i = STAT_FIRST_THINKING; i <= MAX_STATNUM; ++i)
{
TickThinkers(&Thinkers[i], NULL);
}
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// Keep ticking the fresh thinkers until there are no new ones.
do
{
count = 0;
for (i = STAT_FIRST_THINKING; i <= MAX_STATNUM; ++i)
{
count += TickThinkers(&FreshThinkers[i], &Thinkers[i]);
}
} while (count != 0);
}
else
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{
Profiles.Clear();
// Tick every thinker left from last time
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for (i = STAT_FIRST_THINKING; i <= MAX_STATNUM; ++i)
{
ProfileThinkers(&Thinkers[i], NULL);
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}
// Keep ticking the fresh thinkers until there are no new ones.
do
{
count = 0;
for (i = STAT_FIRST_THINKING; i <= MAX_STATNUM; ++i)
{
count += ProfileThinkers(&FreshThinkers[i], &Thinkers[i]);
}
} while (count != 0);
struct SortedProfileInfo
{
const char* className;
int numcalls;
double time;
};
TArray<SortedProfileInfo> sorted;
sorted.Grow(Profiles.CountUsed());
auto it = TMap<FName, ProfileInfo>::Iterator(Profiles);
TMap<FName, ProfileInfo>::Pair *pair;
while (it.NextPair(pair))
{
sorted.Push({ pair->Key.GetChars(), pair->Value.numcalls, pair->Value.timer.TimeMS() });
}
std::sort(sorted.begin(), sorted.end(), [](const SortedProfileInfo& left, const SortedProfileInfo& right)
{
switch (profilethinkers)
{
case 1: // by name, from A to Z
return stricmp(left.className, right.className) < 0;
case 2: // by name, from Z to A
return stricmp(right.className, left.className) < 0;
case 3: // number of calls, ascending
return left.numcalls < right.numcalls;
case 4: // number of calls, descending
return right.numcalls < left.numcalls;
case 5: // average time, ascending
return left.time / left.numcalls < right.time / right.numcalls;
case 6: // average time, descending
return right.time / right.numcalls < left.time / left.numcalls;
case 7: // total time, ascending
return left.time < right.time;
default: // total time, descending
return right.time < left.time;
}
});
Printf(TEXTCOLOR_YELLOW "Total, ms Averg, ms Calls Actor class\n");
Printf(TEXTCOLOR_YELLOW "---------- ---------- ------ --------------------\n");
const unsigned count = MIN(profilelimit > 0 ? profilelimit : UINT_MAX, sorted.Size());
for (unsigned i = 0; i < count; ++i)
{
const SortedProfileInfo& info = sorted[i];
Printf("%s%10.6f %s%10.6f %s%6d %s%s\n",
profilethinkers >= 7 ? TEXTCOLOR_YELLOW : TEXTCOLOR_WHITE, info.time,
profilethinkers == 5 || profilethinkers == 6 ? TEXTCOLOR_YELLOW : TEXTCOLOR_WHITE, info.time / info.numcalls,
profilethinkers == 3 || profilethinkers == 4 ? TEXTCOLOR_YELLOW : TEXTCOLOR_WHITE, info.numcalls,
profilethinkers == 1 || profilethinkers == 2 ? TEXTCOLOR_YELLOW : TEXTCOLOR_WHITE, info.className);
}
profilethinkers = 0;
}
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ThinkCycles.Unclock();
}
//==========================================================================
//
//
//
//==========================================================================
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int DThinker::TickThinkers (FThinkerList *list, FThinkerList *dest)
{
int count = 0;
DThinker *node = list->GetHead();
if (node == NULL)
{
return 0;
}
while (node != list->Sentinel)
{
++count;
NextToThink = node->NextThinker;
if (node->ObjectFlags & OF_JustSpawned)
{
// Leave OF_JustSpawn set until after Tick() so the ticker can check it.
if (dest != NULL)
{ // Move thinker from this list to the destination list
node->Remove();
dest->AddTail(node);
}
node->CallPostBeginPlay();
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}
else if (dest != NULL)
{
I_Error("There is a thinker in the fresh list that has already ticked.\n");
}
if (!(node->ObjectFlags & OF_EuthanizeMe))
{ // Only tick thinkers not scheduled for destruction
ThinkCount++;
node->CallTick();
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node->ObjectFlags &= ~OF_JustSpawned;
GC::CheckGC();
}
node = NextToThink;
}
return count;
}
//==========================================================================
//
//
//
//==========================================================================
int DThinker::ProfileThinkers(FThinkerList *list, FThinkerList *dest)
{
int count = 0;
DThinker *node = list->GetHead();
if (node == NULL)
{
return 0;
}
while (node != list->Sentinel)
{
++count;
NextToThink = node->NextThinker;
if (node->ObjectFlags & OF_JustSpawned)
{
// Leave OF_JustSpawn set until after Tick() so the ticker can check it.
if (dest != NULL)
{ // Move thinker from this list to the destination list
node->Remove();
dest->AddTail(node);
}
node->CallPostBeginPlay();
}
else if (dest != NULL)
{
I_Error("There is a thinker in the fresh list that has already ticked.\n");
}
if (!(node->ObjectFlags & OF_EuthanizeMe))
{ // Only tick thinkers not scheduled for destruction
ThinkCount++;
auto &prof = Profiles[node->GetClass()->TypeName];
prof.numcalls++;
prof.timer.Clock();
node->CallTick();
prof.timer.Unclock();
node->ObjectFlags &= ~OF_JustSpawned;
GC::CheckGC();
}
node = NextToThink;
}
return count;
}
//==========================================================================
//
//
//
//==========================================================================
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void DThinker::Tick ()
{
}
DEFINE_ACTION_FUNCTION(DThinker, Tick)
{
PARAM_SELF_PROLOGUE(DThinker);
self->Tick();
return 0;
}
void DThinker::CallTick()
{
IFVIRTUAL(DThinker, Tick)
{
// Without the type cast this picks the 'void *' assignment...
VMValue params[1] = { (DObject*)this };
VMCall(func, params, 1, nullptr, 0);
}
else Tick();
}
//==========================================================================
//
//
//
//==========================================================================
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size_t DThinker::PropagateMark()
{
// Do not choke on partially initialized objects (as happens when loading a savegame fails)
if (NextThinker != nullptr || PrevThinker != nullptr)
{
assert(NextThinker != nullptr && !(NextThinker->ObjectFlags & OF_EuthanizeMe));
assert(PrevThinker != nullptr && !(PrevThinker->ObjectFlags & OF_EuthanizeMe));
}
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GC::Mark(NextThinker);
GC::Mark(PrevThinker);
return Super::PropagateMark();
}
//==========================================================================
//
//
//
//==========================================================================
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FThinkerIterator::FThinkerIterator (const PClass *type, int statnum)
{
if ((unsigned)statnum > MAX_STATNUM)
{
m_Stat = STAT_FIRST_THINKING;
m_SearchStats = true;
}
else
{
m_Stat = statnum;
m_SearchStats = false;
}
m_ParentType = type;
m_CurrThinker = DThinker::Thinkers[m_Stat].GetHead();
m_SearchingFresh = false;
}
//==========================================================================
//
//
//
//==========================================================================
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FThinkerIterator::FThinkerIterator (const PClass *type, int statnum, DThinker *prev)
{
if ((unsigned)statnum > MAX_STATNUM)
{
m_Stat = STAT_FIRST_THINKING;
m_SearchStats = true;
}
else
{
m_Stat = statnum;
m_SearchStats = false;
}
m_ParentType = type;
if (prev == NULL || (prev->NextThinker->ObjectFlags & OF_Sentinel))
{
Reinit();
}
else
{
m_CurrThinker = prev->NextThinker;
m_SearchingFresh = false;
}
}
//==========================================================================
//
//
//
//==========================================================================
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void FThinkerIterator::Reinit ()
{
m_CurrThinker = DThinker::Thinkers[m_Stat].GetHead();
m_SearchingFresh = false;
}
//==========================================================================
//
//
//
//==========================================================================
DThinker *FThinkerIterator::Next (bool exact)
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{
if (m_ParentType == NULL)
{
return NULL;
}
do
{
do
{
if (m_CurrThinker != NULL)
{
while (!(m_CurrThinker->ObjectFlags & OF_Sentinel))
{
DThinker *thinker = m_CurrThinker;
m_CurrThinker = thinker->NextThinker;
if (exact)
{
if (thinker->IsA(m_ParentType)) return thinker;
}
else if (thinker->IsKindOf(m_ParentType))
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{
return thinker;
}
// This can actually happen when a Destroy call on 'thinker' happens to destroy 'm_CurrThinker'.
// In that case there is no chance to recover, we have to terminate the iteration of this list.
if (m_CurrThinker == nullptr) break;
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}
}
if ((m_SearchingFresh = !m_SearchingFresh))
{
m_CurrThinker = DThinker::FreshThinkers[m_Stat].GetHead();
}
} while (m_SearchingFresh);
if (m_SearchStats)
{
m_Stat++;
if (m_Stat > MAX_STATNUM)
{
m_Stat = STAT_FIRST_THINKING;
}
}
m_CurrThinker = DThinker::Thinkers[m_Stat].GetHead();
m_SearchingFresh = false;
} while (m_SearchStats && m_Stat != STAT_FIRST_THINKING);
return NULL;
}
//==========================================================================
//
// This is for scripting, which needs the iterator wrapped into an object with the needed functions exported.
// Unfortunately we cannot have templated type conversions in scripts.
//
//==========================================================================
class DThinkerIterator : public DObject, public FThinkerIterator
{
DECLARE_ABSTRACT_CLASS(DThinkerIterator, DObject)
public:
DThinkerIterator(PClass *cls, int statnum = MAX_STATNUM + 1)
: FThinkerIterator(cls, statnum)
{
}
};
IMPLEMENT_CLASS(DThinkerIterator, true, false);
DEFINE_ACTION_FUNCTION(DThinkerIterator, Create)
{
PARAM_PROLOGUE;
PARAM_CLASS_DEF(type, DThinker);
PARAM_INT_DEF(statnum);
ACTION_RETURN_OBJECT(Create<DThinkerIterator>(type, statnum));
}
DEFINE_ACTION_FUNCTION(DThinkerIterator, Next)
{
PARAM_SELF_PROLOGUE(DThinkerIterator);
ACTION_RETURN_OBJECT(self->Next());
}
DEFINE_ACTION_FUNCTION(DThinkerIterator, Reinit)
{
PARAM_SELF_PROLOGUE(DThinkerIterator);
self->Reinit();
return 0;
}
//==========================================================================
//
//
//
//==========================================================================
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ADD_STAT (think)
{
FString out;
out.Format ("Think time = %04.2f ms - %d thinkers, Action = %04.2f ms", ThinkCycles.TimeMS(), ThinkCount, ActionCycles.TimeMS());
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return out;
}