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gzdoom-gles/src/dobjtype.cpp
Randy Heit 8d0c48bf81 - The garbage collector is now run one last time just before exiting the game. 
- Removed movie volume from the sound menu and renamed some of the other
  options to give the MIDI device name more room to display itself.
- Moved the midi device selection into the main sound menu.
- Added FMOD as MIDI device -1, to replace the MIDI mapper. This is still the
  default device. By default, it uses exactly the same DLS instruments as the
  Microsoft GS Wavetable Synth. If you have another set DLS level 1 patch set
  you want to use, set the snd_midipatchfile cvar to specify where it should
  load the instruments from.
- Changed the ProduceMIDI function to store its output into a TArray<BYTE>.
  An overloaded version wraps around it to continue to supply file-writing
  support for external Timidity++ usage.
- Added an FMOD credits banner to comply with their non-commercial license.
- Reimplemented the snd_buffersize cvar for the FMOD Ex sound system. Rather
  than a time in ms, this is now the length in samples of the DSP buffer.
  Also added the snd_buffercount cvar to offer complete control over the
  call to FMOD::System::setDSPBufferSize(). Note that with any snd_samplerate
  below about 44kHz, you will need to set snd_buffersize to avoid long
  latencies.
- Reimplemented the snd_output cvar for the FMOD Ex sound system.
- Changed snd_samplerate default to 0. This now means to use the default
  sample rate.
- Made snd_output, snd_output_format, snd_speakermode, snd_resampler, and
  snd_hrtf available through the menu.
- Split the HRTF effect selection into its own cvar: snd_hrtf.
- Removed 96000 Hz option from the menu. It's still available through the
  cvar, if desired.
- Fixed: If Windows sound init failed, retry with DirectSound. (Apparently,
  WASAPI doesn't work with more than two speakers and PCM-Float output at the
  same time.)
- Fixed: Area sounds only played from the front speakers once you got within
  the 2D panning area.


SVN r854 (trunk)
2008-03-26 04:27:07 +00:00

426 lines
11 KiB
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/*
** dobjtype.cpp
** Implements the type information class
**
**---------------------------------------------------------------------------
** Copyright 1998-2008 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 "dobject.h"
#include "i_system.h"
#include "actor.h"
#include "autosegs.h"
#include "templates.h"
TArray<PClass *> PClass::m_RuntimeActors;
TArray<PClass *> PClass::m_Types;
PClass *PClass::TypeHash[PClass::HASH_SIZE];
bool PClass::bShutdown;
// A harmless non_NULL FlatPointer for classes without pointers.
static const size_t TheEnd = ~0u;
static int STACK_ARGS cregcmp (const void *a, const void *b)
{
// VC++ introduces NULLs in the sequence. GCC seems to work as expected and not do it.
const ClassReg *class1 = *(const ClassReg **)a;
const ClassReg *class2 = *(const ClassReg **)b;
if (class1 == NULL) return 1;
if (class2 == NULL) return -1;
return strcmp (class1->Name, class2->Name);
}
void PClass::StaticInit ()
{
atterm (StaticShutdown);
// Sort classes by name to remove dependance on how the compiler ordered them.
REGINFO *head = &CRegHead;
REGINFO *tail = &CRegTail;
// MinGW's linker is linking the object files backwards for me now...
if (head > tail)
{
swap (head, tail);
}
qsort (head + 1, tail - head - 1, sizeof(REGINFO), cregcmp);
TAutoSegIterator<ClassReg *, &CRegHead, &CRegTail> probe;
while (++probe != NULL)
{
probe->RegisterClass ();
}
}
void PClass::StaticShutdown ()
{
TArray<size_t *> uniqueFPs(64);
unsigned int i, j;
for (i = 0; i < PClass::m_Types.Size(); ++i)
{
PClass *type = PClass::m_Types[i];
PClass::m_Types[i] = NULL;
if (type->FlatPointers != &TheEnd && type->FlatPointers != type->Pointers)
{
// FlatPointers are shared by many classes, so we must check for
// duplicates and only delete those that are unique.
for (j = 0; j < uniqueFPs.Size(); ++j)
{
if (type->FlatPointers == uniqueFPs[j])
{
break;
}
}
if (j == uniqueFPs.Size())
{
uniqueFPs.Push(const_cast<size_t *>(type->FlatPointers));
}
}
// For runtime classes, this call will also delete the PClass.
PClass::StaticFreeData (type);
}
for (i = 0; i < uniqueFPs.Size(); ++i)
{
delete[] uniqueFPs[i];
}
bShutdown = true;
}
void PClass::StaticFreeData (PClass *type)
{
if (type->Defaults != NULL)
{
delete[] type->Defaults;
type->Defaults = NULL;
}
type->FreeStateList ();
if (type->bRuntimeClass)
{
if (type->ActorInfo != NULL)
{
if (type->ActorInfo->OwnedStates != NULL)
{
delete[] type->ActorInfo->OwnedStates;
type->ActorInfo->OwnedStates = NULL;
}
if (type->ActorInfo->DamageFactors != NULL)
{
delete type->ActorInfo->DamageFactors;
type->ActorInfo->DamageFactors = NULL;
}
if (type->ActorInfo->PainChances != NULL)
{
delete type->ActorInfo->PainChances;
type->ActorInfo->PainChances = NULL;
}
delete type->ActorInfo;
type->ActorInfo = NULL;
}
delete type;
}
}
void ClassReg::RegisterClass ()
{
assert (MyClass != NULL);
// Add type to list
MyClass->ClassIndex = PClass::m_Types.Push (MyClass);
MyClass->TypeName = FName(Name+1);
MyClass->ParentClass = ParentType;
MyClass->Size = SizeOf;
MyClass->Pointers = Pointers;
MyClass->ConstructNative = ConstructNative;
MyClass->InsertIntoHash ();
}
void PClass::InsertIntoHash ()
{
// Add class to hash table. Classes are inserted into each bucket
// in ascending order by name index.
unsigned int bucket = TypeName % HASH_SIZE;
PClass **hashpos = &TypeHash[bucket];
while (*hashpos != NULL)
{
int lexx = int(TypeName) - int((*hashpos)->TypeName);
if (lexx > 0)
{ // This type should come later in the chain
hashpos = &((*hashpos)->HashNext);
}
else if (lexx == 0)
{ // This type has already been inserted
I_FatalError ("Tried to register class '%s' more than once.", TypeName.GetChars());
}
else
{ // Type comes right here
break;
}
}
HashNext = *hashpos;
*hashpos = this;
}
// Find a type, passed the name as a name
const PClass *PClass::FindClass (FName zaname)
{
if (zaname == NAME_None)
{
return NULL;
}
PClass *cls = TypeHash[zaname % HASH_SIZE];
while (cls != 0)
{
int lexx = int(zaname) - int(cls->TypeName);
if (lexx > 0)
{
cls = cls->HashNext;
}
else if (lexx == 0)
{
return cls;
}
else
{
break;
}
}
return NULL;
}
// Create a new object that this class represents
DObject *PClass::CreateNew () const
{
BYTE *mem = (BYTE *)M_Malloc (Size);
assert (mem != NULL);
// Set this object's defaults before constructing it.
if (Defaults!=NULL)
memcpy (mem, Defaults, Size);
else
memset (mem, 0, Size);
ConstructNative (mem);
((DObject *)mem)->SetClass (const_cast<PClass *>(this));
return (DObject *)mem;
}
// Create a new class based on an existing class
PClass *PClass::CreateDerivedClass (FName name, unsigned int size)
{
assert (size >= Size);
PClass *type = new PClass;
type->TypeName = name;
type->ParentClass = this;
type->Size = size;
type->Pointers = NULL;
type->ConstructNative = ConstructNative;
type->ClassIndex = m_Types.Push (type);
type->Meta = Meta;
type->Defaults = new BYTE[size];
memcpy (type->Defaults, Defaults, Size);
if (size > Size)
{
memset (type->Defaults + Size, 0, size - Size);
}
type->FlatPointers = NULL;
type->bRuntimeClass = true;
type->ActorInfo = NULL;
type->Symbols.SetParentTable (&this->Symbols);
type->InsertIntoHash();
// If this class has an actor info, then any classes derived from it
// also need an actor info.
if (this->ActorInfo != NULL)
{
FActorInfo *info = type->ActorInfo = new FActorInfo;
info->Class = type;
info->GameFilter = GAME_Any;
info->SpawnID = 0;
info->DoomEdNum = -1;
info->OwnedStates = NULL;
info->NumOwnedStates = 0;
info->Replacement = NULL;
info->Replacee = NULL;
info->StateList = NULL;
info->DamageFactors = NULL;
info->PainChances = NULL;
m_RuntimeActors.Push (type);
}
return type;
}
// Create the FlatPointers array, if it doesn't exist already.
// It comprises all the Pointers from superclasses plus this class's own Pointers.
// If this class does not define any new Pointers, then FlatPointers will be set
// to the same array as the super class's.
void PClass::BuildFlatPointers ()
{
if (FlatPointers != NULL)
{ // Already built: Do nothing.
return;
}
else if (ParentClass == NULL)
{ // No parent: FlatPointers is the same as Pointers.
if (Pointers == NULL)
{ // No pointers: Make FlatPointers a harmless non-NULL.
FlatPointers = &TheEnd;
}
else
{
FlatPointers = Pointers;
}
}
else
{
ParentClass->BuildFlatPointers ();
if (Pointers == NULL)
{ // No new pointers: Just use the same FlatPointers as the parent.
FlatPointers = ParentClass->FlatPointers;
}
else
{ // New pointers: Create a new FlatPointers array and add them.
int numPointers, numSuperPointers;
// Count pointers defined by this class.
for (numPointers = 0; Pointers[numPointers] != ~(size_t)0; numPointers++)
{ }
// Count pointers defined by superclasses.
for (numSuperPointers = 0; ParentClass->FlatPointers[numSuperPointers] != ~(size_t)0; numSuperPointers++)
{ }
// Concatenate them into a new array
size_t *flat = new size_t[numPointers + numSuperPointers + 1];
if (numSuperPointers > 0)
{
memcpy (flat, ParentClass->FlatPointers, sizeof(size_t)*numSuperPointers);
}
memcpy (flat + numSuperPointers, Pointers, sizeof(size_t)*(numPointers+1));
FlatPointers = flat;
}
}
}
void PClass::FreeStateList ()
{
if (ActorInfo != NULL && ActorInfo->StateList != NULL)
{
ActorInfo->StateList->Destroy();
M_Free (ActorInfo->StateList);
ActorInfo->StateList = NULL;
}
}
// Symbol tables ------------------------------------------------------------
PSymbolTable::~PSymbolTable ()
{
for (unsigned int i = 0; i < Symbols.Size(); ++i)
{
delete Symbols[i];
}
}
void PSymbolTable::SetParentTable (PSymbolTable *parent)
{
ParentSymbolTable = parent;
}
PSymbol *PSymbolTable::FindSymbol (FName symname, bool searchparents) const
{
int min, max;
min = 0;
max = (int)Symbols.Size() - 1;
while (min <= max)
{
unsigned int mid = (min + max) / 2;
PSymbol *sym = Symbols[mid];
if (sym->SymbolName == symname)
{
return sym;
}
else if (sym->SymbolName < symname)
{
min = mid + 1;
}
else
{
max = mid - 1;
}
}
if (searchparents && ParentSymbolTable != NULL)
{
return ParentSymbolTable->FindSymbol (symname, true);
}
return NULL;
}
PSymbol *PSymbolTable::AddSymbol (PSymbol *sym)
{
// Insert it in sorted order.
int min, max, mid;
min = 0;
max = (int)Symbols.Size() - 1;
while (min <= max)
{
mid = (min + max) / 2;
PSymbol *tsym = Symbols[mid];
if (tsym->SymbolName == sym->SymbolName)
{ // A symbol with this name already exists in the table
return NULL;
}
else if (tsym->SymbolName < sym->SymbolName)
{
min = mid + 1;
}
else
{
max = mid - 1;
}
}
// Good. The symbol is not in the table yet.
Symbols.Insert (MAX(min, max), sym);
return sym;
}
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