Serious-Engine/Sources/Engine/Base/Anim.cpp

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/* Copyright (c) 2002-2012 Croteam Ltd.
This program is free software; you can redistribute it and/or modify
it under the terms of version 2 of the GNU General Public License as published by
the Free Software Foundation
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License along
with this program; if not, write to the Free Software Foundation, Inc.,
51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. */
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#include <Engine/StdH.h>
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#include <Engine/Base/Anim.h>
#include <Engine/Base/Memory.h>
#include <Engine/Base/Stream.h>
#include <Engine/Base/Timer.h>
#include <Engine/Math/Functions.h>
#include <Engine/Templates/Stock_CAnimData.h>
#include <Engine/Base/ListIterator.inl>
#include <Engine/Templates/DynamicArray.cpp>
/*
* One animation of an animateable object
*/
class COneAnim
{
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public:
COneAnim();
~COneAnim();
// copy constructor
COneAnim &operator=(const COneAnim &oaAnim);
NAME oa_Name;
TIME oa_SecsPerFrame; // speed of this animation
INDEX oa_NumberOfFrames;
INDEX *oa_FrameIndices; // array of frame indices
};
/*
* Node used for linking ptrs to COneAnim objects while loading
* script file before turning them into an array
* Class is used only for loading script files
*/
class COneAnimNode
{
public:
~COneAnimNode();
COneAnimNode(COneAnim *AnimToInsert, CListHead *LH);
CListNode coan_Node;
COneAnim *coan_OneAnim;
};
COneAnimNode::~COneAnimNode()
{
ASSERT( coan_OneAnim != NULL);
delete coan_OneAnim;
}
/*
* This temporary list head class is used for automatic deleting of temporary list on exit
*/
class CTmpListHead : public CListHead
{
public:
~CTmpListHead();
};
CTmpListHead::~CTmpListHead()
{
FORDELETELIST(COneAnimNode, coan_Node, *this, it)
delete &it.Current();
}
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// Remember ptr to animation and add this node at the end of given animation list
COneAnimNode::COneAnimNode(COneAnim *AnimToInsert, CListHead *LH)
{
coan_OneAnim = AnimToInsert;
LH->AddTail( coan_Node);
}
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// Constructor sets invalid data
COneAnim::COneAnim()
{
oa_FrameIndices = NULL;
}
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// Free allocated frame indices array for this animation
COneAnim::~COneAnim()
{
ASSERT(oa_FrameIndices != NULL);
FreeMemory( oa_FrameIndices);
oa_FrameIndices = NULL;
}
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/*
* Copy constructor.
*/
COneAnim &COneAnim::operator=(const COneAnim &oaAnim)
{
ASSERT( oaAnim.oa_NumberOfFrames > 0);
strcpy(oa_Name, oaAnim.oa_Name);
oa_SecsPerFrame = oaAnim.oa_SecsPerFrame;
oa_NumberOfFrames = oaAnim.oa_NumberOfFrames;
if( oa_FrameIndices != NULL)
{
FreeMemory(oa_FrameIndices);
}
oa_FrameIndices = (INDEX *) AllocMemory( sizeof(INDEX) * oa_NumberOfFrames);
for( INDEX iFrame = 0; iFrame<oa_NumberOfFrames; iFrame++)
{
oa_FrameIndices[ iFrame] = oaAnim.oa_FrameIndices[ iFrame];
}
return *this;
}
// Remember given file name and add this node into string list
CFileNameNode::CFileNameNode(const char *NewFileName, CListHead *LH)
{
ASSERT(NewFileName != NULL);
ASSERT(strlen(NewFileName)>0);
strcpy( cfnn_FileName, NewFileName);
LH->AddTail( cfnn_Node);
}
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CAnimData::CAnimData()
{
ad_Anims = NULL;
ad_NumberOfAnims = 0;
}
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CAnimData::~CAnimData()
{
Clear();
}
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void CAnimData::Clear()
{
if(ad_Anims != NULL)
delete[] ad_Anims;
ad_Anims = NULL;
ad_NumberOfAnims = 0;
// clear serial object
CSerial::Clear();
}
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// get amount of memory used by this object
SLONG CAnimData::GetUsedMemory(void)
{
SLONG slUsed = sizeof(*this)+sizeof(COneAnim)*ad_NumberOfAnims;
slUsed += strlen(GetName())+1;
for(INDEX iAnim=0; iAnim<ad_NumberOfAnims; iAnim++) {
slUsed += ad_Anims[iAnim].oa_NumberOfFrames*sizeof(INDEX);
}
return slUsed;
}
// check if this kind of objects is auto-freed
BOOL CAnimData::IsAutoFreed(void)
{
return FALSE;
}
/////////////////////////////////////////////////////////////////////
// Reference counting functions
void CAnimData::AddReference(void)
{
ASSERT(this!=NULL);
MarkUsed();
}
void CAnimData::RemReference(void)
{
ASSERT(this!=NULL);
RemReference_internal();
}
void CAnimData::RemReference_internal(void)
{
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_pAnimStock->Release(this);
}
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// creates given number of default animations (1 frame, given name and speed)
void CAnimData::CreateAnimations( INDEX ctAnimations, CTString strName/*="None"*/,
INDEX iDefaultFrame/*=0*/, TIME tmSpeed/*=0.02f*/)
{
ASSERT(strlen(strName)<NAME_SIZE);
// clear existing animations
Clear();
// set new number of anims
ad_NumberOfAnims = ctAnimations;
// create requested number of animations
ad_Anims = new COneAnim[ctAnimations];
// set default data for aeach new animation
for( INDEX iAnimations=0; iAnimations<ctAnimations; iAnimations++)
{
// set default (or given) name
strcpy(ad_Anims[ iAnimations].oa_Name, strName);
// set default (or given) speed
ad_Anims[ iAnimations].oa_SecsPerFrame = tmSpeed;
// create one frame for this animation
ad_Anims[ iAnimations].oa_NumberOfFrames = 1;
ad_Anims[ iAnimations].oa_FrameIndices = (INDEX *) AllocMemory( sizeof(INDEX));
ad_Anims[ iAnimations].oa_FrameIndices[0] = iDefaultFrame;
}
}
// replaces frames array with given one
void CAnimData::SetFrames( INDEX iAnimation, INDEX ctFrames, INDEX *pNewFrames)
{
ASSERT(iAnimation<ad_NumberOfAnims);
// clear existing animation
if(ad_Anims[iAnimation].oa_FrameIndices != NULL)
{
FreeMemory( ad_Anims[iAnimation].oa_FrameIndices);
}
// create array for new frames
ad_Anims[iAnimation].oa_FrameIndices = (INDEX *) AllocMemory( sizeof(INDEX)*ctFrames);
// copy given array of frames
for( INDEX iFrames=0; iFrames<ctFrames; iFrames++)
{
ad_Anims[iAnimation].oa_FrameIndices[ iFrames]=pNewFrames[iFrames];
}
// set new number of frames
ad_Anims[iAnimation].oa_NumberOfFrames = ctFrames;
}
// Fill animation data to contain one animation named "OnlyAnim" with one frame
void CAnimData::DefaultAnimation()
{
ASSERT( ad_Anims == NULL);
ad_NumberOfAnims = 1;
ad_Anims = new COneAnim[1];
strcpy( ad_Anims->oa_Name,"OnlyAnim");
ad_Anims->oa_SecsPerFrame = (TIME) 0.02;
ad_Anims->oa_NumberOfFrames = 1;
ad_Anims->oa_FrameIndices = (INDEX *) AllocMemory( sizeof(INDEX));
ad_Anims->oa_FrameIndices[0] = 0;
}
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// Returns index of given frame name in global frame names list. If it is not found
// new CFileNameObject is added into frames list
INDEX FindFrameIndex( CListHead *pFrameFileList, const char *pFileName)
{
UWORD i=0;
FOREACHINLIST(CFileNameNode, cfnn_Node, *pFrameFileList, it) {
if( strcmpi(it->cfnn_FileName, pFileName) == 0)
return( i);
i++;
}
new CFileNameNode( pFileName, pFrameFileList);
return( i);
}
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CTString GetFrameFileName( CListHead *pFrameFileList, INDEX iMemberInList)
{
ASSERT( iMemberInList<pFrameFileList->Count());
UWORD iMember=0;
FOREACHINLIST(CFileNameNode, cfnn_Node, *pFrameFileList, it)
{
if( iMember == iMemberInList) return CTString( it->cfnn_FileName);
iMember++;
}
ASSERTALWAYS( "Frame with given index is not found in list of frames");
return "";
}
// If found given word at the beginning of curently loaded line
#define EQUAL_SUB_STR( str) (strnicmp( ld_line, str, strlen(str)) == 0)
// Loads part of given script file until word AnimEnd is reached
// Fills ACanimData (its instance) with apropriate data (animations and their frame indices)
// and fills given list head with string nodes containing file names representing frames
// needed to be loaded by a parent object
void CAnimData::LoadFromScript_t( CTStream *File, CListHead *pFrameFileList) // throw char *
{
UWORD i;
char error_str[ 256];
char key_word[ 256];
char base_path[ PATH_MAX] = "";
char file_name[ PATH_MAX];
char anim_name[ 256];
char full_path[ PATH_MAX];
char ld_line[ 128];
CTmpListHead TempAnimationList;
SLONG lc;
//BOOL ret_val;
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//ASSERT( ad_Anims == NULL);
// clears possible animations
CAnimData::Clear();
//ret_val = TRUE;
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FOREVER
{
// Repeat reading of one line of script file until it is not empty or comment
do
{
File->GetLine_t(ld_line, 128);
}
while( (strlen( ld_line)== 0) || (ld_line[0]==';'));
// If key-word is "/*", search end of comment block
if( EQUAL_SUB_STR( "/*"))
{
do
{
File->GetLine_t(ld_line, 128);
}
while( !EQUAL_SUB_STR( "*/"));
}
// If key-word is "DIRECTORY", remember it and add "\" character at the end of new path
// if it is not yet there
else if( EQUAL_SUB_STR( "DIRECTORY"))
{
// !!! FIXME : rcg10092001 You can't uppercase filenames!
//_strupr( ld_line);
sscanf( ld_line, "DIRECTORY %s", base_path);
// !!! FIXME : rcg10092001 Use CFileSystem::GetDirSeparator().
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if( base_path[ strlen( base_path) - 1] != '\\')
strcat( base_path,"\\");
}
// Key-word animation must follow its name (in same line),
// its speed and its number of frames (new lines)
else if( EQUAL_SUB_STR( "ANIMATION"))
{
if( strlen( ld_line) <= (strlen( "ANIMATION") + 1))
{
throw("You have to give descriptive name to every animation.");
}
// Create new animation
COneAnim *poaOneAnim = new COneAnim;
_strupr( ld_line);
sscanf( ld_line, "ANIMATION %s", poaOneAnim->oa_Name);
File->GetLine_t(ld_line, 128);
if( !EQUAL_SUB_STR( "SPEED"))
{
throw("Expecting key word \"SPEED\" after key word \"ANIMATION\".");
}
_strupr( ld_line);
sscanf( ld_line, "SPEED %f", &poaOneAnim->oa_SecsPerFrame);
CDynamicArray<CTString> astrFrames;
SLONG slLastPos;
FOREVER
{
slLastPos = File->GetPos_t();
File->GetLine_t(ld_line, 128);
_strupr( ld_line);
// jump over old key word "FRAMES" and comments
if( EQUAL_SUB_STR( "FRAMES") || (ld_line[0]==';') ) continue;
// key words that start or end animations or empty line breaks frame reading
if( (EQUAL_SUB_STR( "ANIMATION")) ||
(strlen( ld_line)== 0) ||
(EQUAL_SUB_STR( "ANIM_END")) ) break;
sscanf( ld_line, "%s", key_word);
if( key_word == CTString( "ANIM"))
{
// read file name from line and add it at the end of last path string loaded
sscanf( ld_line, "%s %s", error_str, anim_name);
// search trough all allready readed animations for macro one
FOREACHINLIST(COneAnimNode, coan_Node, TempAnimationList, itOAN)
{
if( itOAN->coan_OneAnim->oa_Name == CTString( anim_name))
{
CTString *pstrMacroFrames = astrFrames.New( itOAN->coan_OneAnim->oa_NumberOfFrames);
for( INDEX iMacroFrame = 0; iMacroFrame<itOAN->coan_OneAnim->oa_NumberOfFrames; iMacroFrame++)
{
*pstrMacroFrames = GetFrameFileName( pFrameFileList, itOAN->coan_OneAnim->oa_FrameIndices[iMacroFrame]);
pstrMacroFrames++;
}
}
}
}
else
{
// read file name from line and add it at the end of last path string loaded
sscanf( ld_line, "%s", file_name);
sprintf( full_path, "%s%s", base_path, file_name);
CTString *pstrNewFile = astrFrames.New(1);
*pstrNewFile = CTString( full_path);
}
}
if( astrFrames.Count() == 0)
{
ThrowF_t( "Can't find any frames for animation %s.\nThere must be at least 1 frame "
"per animation.\nList of frames must start at line after line containing key"
"word SPEED.", poaOneAnim->oa_Name);
}
// set position before last line readed
File->SetPos_t( slLastPos);
// Allocate array of indices
poaOneAnim->oa_NumberOfFrames = astrFrames.Count();
poaOneAnim->oa_FrameIndices = (INDEX *) AllocMemory( poaOneAnim->oa_NumberOfFrames * sizeof( INDEX));
INDEX iFrame = 0;
FOREACHINDYNAMICARRAY( astrFrames, CTString, itStrFrame)
{
// find existing index (of insert new one) for this file name into FileNameList
poaOneAnim->oa_FrameIndices[ iFrame] = FindFrameIndex( pFrameFileList, *itStrFrame);
iFrame++;
}
// clear used array
astrFrames.Clear();
// Add this new animation instance to temporary animation list
new COneAnimNode( poaOneAnim, &TempAnimationList);
ad_NumberOfAnims ++;
}
else if( EQUAL_SUB_STR( "ANIM_END"))
break;
else
{
sprintf(error_str, "Incorrect word readed from script file.\n");
strcat(error_str, "Probable cause: missing \"ANIM_END\" key-word at end of animation list.");
throw(error_str);
}
}
lc = TempAnimationList.Count();
ASSERT(lc!=0);
// create array of OneAnim object containing members as many as temporary list
ad_Anims = new COneAnim[ lc];
// copy list to array
lc=0;
FOREACHINLIST(COneAnimNode, coan_Node, TempAnimationList, it2)
{
strcpy( ad_Anims[ lc].oa_Name, it2->coan_OneAnim->oa_Name);
ad_Anims[ lc].oa_SecsPerFrame = it2->coan_OneAnim->oa_SecsPerFrame;
ad_Anims[ lc].oa_NumberOfFrames = it2->coan_OneAnim->oa_NumberOfFrames;
ad_Anims[ lc].oa_FrameIndices = (INDEX *) AllocMemory( ad_Anims[ lc].oa_NumberOfFrames *
sizeof(INDEX));
for( i=0; i<it2->coan_OneAnim->oa_NumberOfFrames; i++)
ad_Anims[ lc].oa_FrameIndices[ i] = it2->coan_OneAnim->oa_FrameIndices[ i];
lc++;
}
FORDELETELIST( COneAnimNode, coan_Node, TempAnimationList, litDel)
delete &litDel.Current();
}
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void CAnimData::Write_t( CTStream *ostrFile) // throw char *
{
SLONG i;
// First we save main ID
ostrFile->WriteID_t( CChunkID( "ADAT"));
// Then we save number of how many animations do we have and then save them all
ostrFile->Write_t( &ad_NumberOfAnims, sizeof( INDEX));
for( i=0; i<ad_NumberOfAnims; i++)
{
// Next block saves all data for one animation
ostrFile->Write_t( &ad_Anims[i].oa_Name, sizeof( NAME));
ostrFile->Write_t( &ad_Anims[i].oa_SecsPerFrame, sizeof( TIME));
ostrFile->Write_t( &ad_Anims[i].oa_NumberOfFrames, sizeof( INDEX));
ostrFile->Write_t( ad_Anims[i].oa_FrameIndices,
ad_Anims[i].oa_NumberOfFrames * sizeof( INDEX));
}
}
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// print #define <animation name> lines for all animations into given file
void CAnimData::ExportAnimationNames_t( CTStream *ostrFile, CTString strAnimationPrefix) // throw char *
{
char chrLine[ 256];
// for each animation
for( INDEX iAnimation=0; iAnimation<ad_NumberOfAnims; iAnimation++)
{
// prepare one #define line (add prefix)
sprintf( chrLine, "#define %s%s %d", (const char *) strAnimationPrefix, ad_Anims[ iAnimation].oa_Name,
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iAnimation);
// put it into file
ostrFile->PutLine_t( chrLine);
}
}
// Get info about some animation
void CAnimData::GetAnimInfo(INDEX iAnimNo, CAnimInfo &aiInfo) const
{
if(iAnimNo>=ad_NumberOfAnims) {
iAnimNo = 0;
}
strcpy( aiInfo.ai_AnimName, ad_Anims[ iAnimNo].oa_Name);
aiInfo.ai_SecsPerFrame = ad_Anims[ iAnimNo].oa_SecsPerFrame;
aiInfo.ai_NumberOfFrames = ad_Anims[ iAnimNo].oa_NumberOfFrames;
}
// Add animation
void CAnimData::AddAnimation(void)
{
COneAnim *pNewAnims = new COneAnim[ ad_NumberOfAnims+1];
for( INDEX iOldAnim=0; iOldAnim<ad_NumberOfAnims; iOldAnim++)
{
pNewAnims[ iOldAnim] = ad_Anims[ iOldAnim];
}
// set default values for added animation
strcpy(pNewAnims[ ad_NumberOfAnims].oa_Name, "New animation");
pNewAnims[ ad_NumberOfAnims].oa_SecsPerFrame = 0.02f;
// create one frame for this animation
pNewAnims[ ad_NumberOfAnims].oa_NumberOfFrames = 1;
pNewAnims[ ad_NumberOfAnims].oa_FrameIndices = (INDEX *) AllocMemory( sizeof( INDEX));
pNewAnims[ ad_NumberOfAnims].oa_FrameIndices[0] = 0;
// release old array
delete[] ad_Anims;
// copy animations ptr
ad_Anims = pNewAnims;
ad_NumberOfAnims++;
}
// replaces requested animation's name with given one
void CAnimData::SetName( INDEX iAnimation, CTString strNewName)
{
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ASSERT(strlen(strNewName)<NAME_SIZE);
strcpy( ad_Anims[iAnimation].oa_Name, strNewName);
}
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// replaces requested animation's speed with given one
void CAnimData::SetSpeed( INDEX iAnimation, TIME tmSpeed)
{
ad_Anims[iAnimation].oa_SecsPerFrame = tmSpeed;
}
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// obtains frame index for given place in array representing given animation
INDEX CAnimData::GetFrame( INDEX iAnimation, INDEX iFramePlace)
{
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ASSERT( iFramePlace<ad_Anims[iAnimation].oa_NumberOfFrames);
return ad_Anims[iAnimation].oa_FrameIndices[iFramePlace];
}
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// sets frame index for given place in array representing given animation
void CAnimData::SetFrame( INDEX iAnimation, INDEX iFramePlace, INDEX iNewFrame)
{
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ASSERT( iFramePlace<ad_Anims[iAnimation].oa_NumberOfFrames);
ad_Anims[iAnimation].oa_FrameIndices[iFramePlace] = iNewFrame;
}
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/* Get number of animations. */
INDEX CAnimData::GetAnimsCt(void) const
{
return ad_NumberOfAnims;
}
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// Delete animation
void CAnimData::DeleteAnimation(INDEX iAnim)
{
if( ad_NumberOfAnims <= 1) return;
COneAnim *pNewAnims = new COneAnim[ ad_NumberOfAnims-1];
INDEX iNewAnim = 0;
for( INDEX iOldAnim=0; iOldAnim<ad_NumberOfAnims; iOldAnim++)
{
// copy all animations except one to delete
if( iOldAnim != iAnim)
{
pNewAnims[ iNewAnim] = ad_Anims[ iOldAnim];
iNewAnim++;
}
}
// release old array of animation
delete[] ad_Anims;
// copy animations ptr
ad_Anims = pNewAnims;
ad_NumberOfAnims--;
}
// While loading object containing DataObject and expect DataObject definition to be
// loaded, call its Load function. Then it will call this Read function to load data
// from an open file
void CAnimData::Read_t( CTStream *istrFile) // throw char *
{
ASSERT( ad_Anims == NULL);
SLONG i;
// First we recognize main ID
istrFile->ExpectID_t( CChunkID( "ADAT"));
// Then we load and create number of animations
(*istrFile)>>ad_NumberOfAnims;
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ad_Anims = new COneAnim[ ad_NumberOfAnims];
for( i=0; i<ad_NumberOfAnims; i++)
{
// Next block reads and allocates all data for one animation
istrFile->Read_t(ad_Anims[i].oa_Name, sizeof (ad_Anims[i].oa_Name)); // char[32]
(*istrFile)>>ad_Anims[i].oa_SecsPerFrame;
(*istrFile)>>ad_Anims[i].oa_NumberOfFrames;
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ad_Anims[i].oa_FrameIndices = (INDEX *)
AllocMemory( ad_Anims[i].oa_NumberOfFrames * sizeof( INDEX));
for (SLONG j = 0; j < ad_Anims[i].oa_NumberOfFrames; j++)
(*istrFile)>>ad_Anims[i].oa_FrameIndices[j];
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}
}
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/*
* Default constructor.
*/
CAnimObject::CAnimObject(void)
{
// set invalid data for validation check
ao_AnimData = NULL;
ao_tmAnimStart = 0.0f;
ao_iCurrentAnim = -1;
ao_iLastAnim = -1;
ao_ulFlags = AOF_PAUSED;
}
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/* Destructor. */
CAnimObject::~CAnimObject(void)
{
if(ao_AnimData != NULL) ao_AnimData->RemReference();
}
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// copy from another object of same class
ENGINE_API void CAnimObject::Copy(CAnimObject &aoOther)
{
SetData(aoOther.GetData());
ao_tmAnimStart = aoOther.ao_tmAnimStart;
ao_iCurrentAnim = aoOther.ao_iCurrentAnim;
ao_iLastAnim = aoOther.ao_iLastAnim;
ao_ulFlags = aoOther.ao_ulFlags;
}
// synchronize with another animation object (set same anim and frames)
ENGINE_API void CAnimObject::Synchronize(CAnimObject &aoOther)
{
// copy animations, time and flags
INDEX ctAnims = GetAnimsCt();
ao_tmAnimStart = aoOther.ao_tmAnimStart;
ao_iCurrentAnim = ClampUp(aoOther.ao_iCurrentAnim, ctAnims-1);
ao_iLastAnim = ClampUp(aoOther.ao_iLastAnim, ctAnims-1);
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ao_ulFlags = aoOther.ao_ulFlags;
}
/*
* Get animation's length.
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*/
FLOAT CAnimObject::GetAnimLength(INDEX iAnim) const
{
if(ao_AnimData == NULL) return 1.0f;
ASSERT( ao_AnimData != NULL);
if(iAnim>=ao_AnimData->ad_NumberOfAnims) {
iAnim = 0;
}
ASSERT( (iAnim >= 0) && (iAnim < ao_AnimData->ad_NumberOfAnims) );
COneAnim *pCOA = &ao_AnimData->ad_Anims[iAnim];
return pCOA->oa_NumberOfFrames*pCOA->oa_SecsPerFrame;
}
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FLOAT CAnimObject::GetCurrentAnimLength(void) const
{
return GetAnimLength(ao_iCurrentAnim);
}
/*
* Calculate frame that coresponds to given time.
*/
INDEX CAnimObject::FrameInTime(TIME time) const
{
ASSERT( ao_AnimData != NULL);
ASSERT( (ao_iCurrentAnim >= 0) && (ao_iCurrentAnim < ao_AnimData->ad_NumberOfAnims) );
INDEX iFrameInAnim;
COneAnim *pCOA = &ao_AnimData->ad_Anims[ao_iCurrentAnim];
if( ao_ulFlags&AOF_PAUSED) {
// return index of paused frame inside global frame array
iFrameInAnim = ClipFrame(pCOA->oa_NumberOfFrames + ClipFrame( FloatToInt(ao_tmAnimStart/pCOA->oa_SecsPerFrame)));
} else {
// return index of frame inside global frame array of frames in given moment
iFrameInAnim = ClipFrame( FloatToInt((time - ao_tmAnimStart)/pCOA->oa_SecsPerFrame));
}
return pCOA->oa_FrameIndices[iFrameInAnim];
}
/*
* Pauses animation
*/
void CAnimObject::PauseAnim(void)
{
if( ao_ulFlags&AOF_PAUSED) return; // dont pause twice
ao_ulFlags |= AOF_PAUSED;
ao_tmAnimStart = _pTimer->CurrentTick() - ao_tmAnimStart; // set difference from current time as start time,
MarkChanged(); // so get frame will get correct current frame
}
/*
* Continues paused animation
*/
void CAnimObject::ContinueAnim(void)
{
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if( !(ao_ulFlags&AOF_PAUSED)) return;
// calculate freezed frame index inside current animation (not in global list of frames!)
COneAnim *pCOA = &ao_AnimData->ad_Anims[ao_iCurrentAnim];
if (pCOA->oa_NumberOfFrames<=0) {
return;
}
INDEX iStoppedFrame = (pCOA->oa_NumberOfFrames + (SLONG)(ao_tmAnimStart/pCOA->oa_SecsPerFrame)
% pCOA->oa_NumberOfFrames) % pCOA->oa_NumberOfFrames;
// using current frame index calculate time so animation continues from same frame
ao_tmAnimStart = _pTimer->CurrentTick() - pCOA->oa_SecsPerFrame * iStoppedFrame;
ao_ulFlags &= ~AOF_PAUSED;
MarkChanged();
}
/*
* Offsets the animation phase
*/
void CAnimObject::OffsetPhase(TIME tm)
{
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ao_tmAnimStart += tm;
}
/*
* Loop anims forward
*/
void CAnimObject::NextAnim()
{
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ASSERT( ao_iCurrentAnim != -1);
ASSERT( ao_AnimData != NULL);
ao_iCurrentAnim = (ao_iCurrentAnim + 1) % ao_AnimData->ad_NumberOfAnims;
ao_iLastAnim = ao_iCurrentAnim;
ao_tmAnimStart = _pTimer->CurrentTick();
MarkChanged();
}
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/*
* Loop anims backward
*/
void CAnimObject::PrevAnim()
{
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ASSERT( ao_iCurrentAnim != -1);
ASSERT( ao_AnimData != NULL);
ao_iCurrentAnim = (ao_AnimData->ad_NumberOfAnims + ao_iCurrentAnim - 1) %
ao_AnimData->ad_NumberOfAnims;
ao_iLastAnim = ao_iCurrentAnim;
ao_tmAnimStart = _pTimer->CurrentTick();
MarkChanged();
}
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/*
* Selects frame for given time offset from animation start (0)
*/
void CAnimObject::SelectFrameInTime(TIME tmOffset)
{
ao_tmAnimStart = tmOffset; // set fixed start time
MarkChanged();
}
void CAnimObject::FirstFrame(void)
{
SelectFrameInTime(0.0f);
}
void CAnimObject::LastFrame(void)
{
class COneAnim *pCOA = &ao_AnimData->ad_Anims[ao_iCurrentAnim];
SelectFrameInTime(GetAnimLength(ao_iCurrentAnim)-pCOA->oa_SecsPerFrame);
}
/*
* Loop frames forward
*/
void CAnimObject::NextFrame()
{
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ASSERT( ao_iCurrentAnim != -1);
ASSERT( ao_AnimData != NULL);
ASSERT( ao_ulFlags&AOF_PAUSED);
ao_tmAnimStart += ao_AnimData->ad_Anims[ ao_iCurrentAnim].oa_SecsPerFrame;
MarkChanged();
}
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/*
* Loop frames backward
*/
void CAnimObject::PrevFrame()
{
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ASSERT( ao_iCurrentAnim != -1);
ASSERT( ao_AnimData != NULL);
ASSERT( ao_ulFlags&AOF_PAUSED);
ao_tmAnimStart -= ao_AnimData->ad_Anims[ ao_iCurrentAnim].oa_SecsPerFrame;
MarkChanged();
}
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/*
* Retrieves paused flag
*/
BOOL CAnimObject::IsPaused()
{
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return ao_ulFlags&AOF_PAUSED;
}
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/*
* Test if some updateable object is up to date with this anim object.
*/
BOOL CAnimObject::IsUpToDate(const CUpdateable &ud) const
{
// if the object itself has changed, or its data has changed
if (!CChangeable::IsUpToDate(ud) || !ao_AnimData->IsUpToDate(ud)) {
// something has changed
return FALSE;
}
// otherwise, nothing has changed
return TRUE;
}
/*
* Attach data to this object.
*/
void CAnimObject::SetData(CAnimData *pAD)
{
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// mark new data as referenced once more
if(pAD != NULL) pAD->AddReference();
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// mark old data as referenced once less
if(ao_AnimData != NULL) ao_AnimData->RemReference();
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// remember new data
ao_AnimData = pAD;
if( pAD != NULL) StartAnim( 0);
// mark that something has changed
MarkChanged();
}
// obtain anim and set it for this object
void CAnimObject::SetData_t(const CTFileName &fnmAnim) // throw char *
{
// if the filename is empty
if (fnmAnim=="") {
// release current anim
SetData(NULL);
// if the filename is not empty
} else {
// obtain it (adds one reference)
CAnimData *pad = _pAnimStock->Obtain_t(fnmAnim);
// set it as data (adds one more reference, and remove old reference)
SetData(pad);
// release it (removes one reference)
_pAnimStock->Release(pad);
// total reference count +1+1-1 = +1 for new data -1 for old data
}
}
/*
* Sets new animation (but doesn't starts it).
*/
void CAnimObject::SetAnim(INDEX iNew)
{
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if(ao_AnimData == NULL) return;
// clamp animation
if( iNew >= GetAnimsCt() )
{
iNew = 0;
}
// if new animation
if (ao_iCurrentAnim!=iNew) {
// remember starting time
ao_tmAnimStart = _pTimer->CurrentTick();
}
// set new animation number
ao_iCurrentAnim=iNew;
ao_iLastAnim=iNew;
// mark that something has changed
MarkChanged();
}
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/*
* Start new animation.
*/
void CAnimObject::StartAnim(INDEX iNew)
{
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if(ao_AnimData == NULL) return;
// set new animation
SetAnim( iNew);
// set pause off, looping on
ao_ulFlags = AOF_LOOPING;
}
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/* Start playing an animation. */
void CAnimObject::PlayAnim(INDEX iNew, ULONG ulFlags)
{
if(ao_AnimData == NULL) return;
// clamp animation
if( iNew >= GetAnimsCt() ) {
iNew = 0;
}
// if anim needs to be reset at start
if (!(ulFlags&AOF_NORESTART) || ao_iCurrentAnim!=iNew) {
// if smooth transition
if (ulFlags&AOF_SMOOTHCHANGE) {
// calculate time to end of the current anim
class COneAnim *pCOA = &ao_AnimData->ad_Anims[ao_iCurrentAnim];
TIME tmNow = _pTimer->CurrentTick();
TIME tmLength = GetCurrentAnimLength();
FLOAT fFrame = ((tmNow - ao_tmAnimStart)/pCOA->oa_SecsPerFrame);
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INDEX iFrame = INDEX(fFrame);
FLOAT fFract = fFrame-iFrame;
iFrame = ClipFrame(iFrame);
TIME tmPassed = (iFrame+fFract)*pCOA->oa_SecsPerFrame;
TIME tmLeft = tmLength-tmPassed;
// set time ahead to end of the current animation
ao_tmAnimStart = tmNow+tmLeft;
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// remember last animation
ao_iLastAnim = ao_iCurrentAnim;
// set new animation number
ao_iCurrentAnim = iNew;
// if normal transition
} else {
ao_iLastAnim = iNew;
ao_iCurrentAnim = iNew;
// remember starting time
ao_tmAnimStart = _pTimer->CurrentTick();
}
// if anim doesn't need be reset at start
} else {
// do nothing
NOTHING;
}
// set pause off, looping flag from flags
ao_ulFlags = ulFlags&(AOF_LOOPING|AOF_PAUSED);
// mark that something has changed
MarkChanged();
}
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/* Seamlessly continue playing another animation from same point. */
void CAnimObject::SwitchToAnim(INDEX iNew)
{
if(ao_AnimData == NULL) return;
// clamp animation
if( iNew >= GetAnimsCt() )
{
iNew = 0;
}
// set new animation number
ao_iCurrentAnim=iNew;
ao_iLastAnim = ao_iCurrentAnim;
}
/*
* Reset anim (restart)
*/
void CAnimObject::ResetAnim()
{
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if(ao_AnimData == NULL) return;
// remember starting time
ao_tmAnimStart = _pTimer->CurrentTick();
// mark that something has changed
MarkChanged();
}
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// Get info about some animation
void CAnimObject::GetAnimInfo(INDEX iAnimNo, CAnimInfo &aiInfo) const
{
if (iAnimNo >= ao_AnimData->ad_NumberOfAnims) {
iAnimNo = 0;
}
ASSERT( iAnimNo < ao_AnimData->ad_NumberOfAnims);
strcpy( aiInfo.ai_AnimName, ao_AnimData->ad_Anims[ iAnimNo].oa_Name);
aiInfo.ai_SecsPerFrame = ao_AnimData->ad_Anims[ iAnimNo].oa_SecsPerFrame;
aiInfo.ai_NumberOfFrames = ao_AnimData->ad_Anims[ iAnimNo].oa_NumberOfFrames;
}
// clip frame index to be inside valid range (wrap around for looping anims)
INDEX CAnimObject::ClipFrame(INDEX iFrame) const
{
if (ao_AnimData->ad_NumberOfAnims==0) {
return 0;
}
class COneAnim *pCOA = &ao_AnimData->ad_Anims[ao_iCurrentAnim];
// if looping
if (ao_ulFlags&AOF_LOOPING) {
// wrap-around
if (pCOA->oa_NumberOfFrames<=0) {
return 0;
}
return ULONG(iFrame)%pCOA->oa_NumberOfFrames;
// if not looping
} else {
// clamp
if (iFrame<0) {
return 0;
} else if (iFrame>=pCOA->oa_NumberOfFrames) {
return pCOA->oa_NumberOfFrames-1;
} else {
return iFrame;
}
}
}
// Get info about time passed until now in current animation
TIME CAnimObject::GetPassedTime(void) const
{
if(ao_AnimData == NULL) return 0.0f;
INDEX iStoppedFrame;
class COneAnim *pCOA = &ao_AnimData->ad_Anims[ao_iCurrentAnim];
if( !(ao_ulFlags&AOF_PAUSED))
iStoppedFrame = ClipFrame((INDEX)((_pTimer->CurrentTick() - ao_tmAnimStart)/pCOA->oa_SecsPerFrame));
else
iStoppedFrame = ClipFrame((INDEX)(ao_tmAnimStart/pCOA->oa_SecsPerFrame));
return( iStoppedFrame * pCOA->oa_SecsPerFrame);
}
/*
* If animation is finished
*/
BOOL CAnimObject::IsAnimFinished(void) const
{
if(ao_AnimData == NULL) return FALSE;
if(ao_ulFlags&AOF_LOOPING) return FALSE;
INDEX iStoppedFrame;
class COneAnim *pCOA = &ao_AnimData->ad_Anims[ao_iCurrentAnim];
if( !(ao_ulFlags&AOF_PAUSED))
iStoppedFrame = ClipFrame((INDEX)((_pTimer->CurrentTick() - ao_tmAnimStart)/pCOA->oa_SecsPerFrame));
else
iStoppedFrame = ClipFrame((INDEX)(ao_tmAnimStart/pCOA->oa_SecsPerFrame));
return( iStoppedFrame == pCOA->oa_NumberOfFrames-1);
}
// get number of animations in curent anim data
INDEX CAnimObject::GetAnimsCt(void) const
{
if(ao_AnimData == NULL) return 1;
ASSERT( ao_AnimData != NULL);
return( ao_AnimData->ad_NumberOfAnims);
}
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// get index of current animation
INDEX CAnimObject::GetAnim(void) const
{
return( ao_iCurrentAnim);
}
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/*
* Gets the number of current frame.
*/
INDEX CAnimObject::GetFrame(void) const
{
return FrameInTime(_pTimer->CurrentTick()); // return frame index that coresponds to current moment
}
/* Gets number of frames in current anim. */
INDEX CAnimObject::GetFramesInCurrentAnim(void) const
{
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ASSERT( ao_AnimData != NULL);
return ao_AnimData->ad_Anims[ao_iCurrentAnim].oa_NumberOfFrames;
}
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/*
* Get information for linear interpolation beetween frames.
*/
void CAnimObject::GetFrame( INDEX &iFrame0, INDEX &iFrame1, FLOAT &fRatio) const
{
if(ao_AnimData == NULL ||
ao_AnimData->ad_NumberOfAnims<=0 ||
ao_AnimData->ad_Anims[ao_iCurrentAnim].oa_NumberOfFrames<=0)
{
iFrame0 = 0;
iFrame1 = 0;
fRatio =0.0f;
return;
}
ASSERT( ao_AnimData != NULL);
ASSERT( (ao_iCurrentAnim >= 0) && (ao_iCurrentAnim < ao_AnimData->ad_NumberOfAnims) );
TIME tmNow = _pTimer->CurrentTick() + _pTimer->GetLerpFactor()*_pTimer->TickQuantum;
if( ao_ulFlags&AOF_PAUSED)
{
// return index of paused frame inside global frame array
class COneAnim *pCOA = &ao_AnimData->ad_Anims[ao_iCurrentAnim];
INDEX iStoppedFrame = ClipFrame((SLONG)(ao_tmAnimStart/pCOA->oa_SecsPerFrame));
iFrame0 = iFrame1 = pCOA->oa_FrameIndices[ iStoppedFrame];
fRatio = 0.0f;
}
else
{
// return index of frame inside global frame array of frames in given moment
TIME tmCurrentRelative = tmNow - ao_tmAnimStart;
if (tmCurrentRelative>=0) {
class COneAnim *pOA0 = &ao_AnimData->ad_Anims[ao_iCurrentAnim];
float fFrameNow = (tmCurrentRelative)/pOA0->oa_SecsPerFrame;
iFrame0 = pOA0->oa_FrameIndices[ ClipFrame(ULONG(fFrameNow))];
iFrame1 = pOA0->oa_FrameIndices[ ClipFrame(ULONG(fFrameNow+1))];
fRatio = fFrameNow - (float)floor(fFrameNow);
} else {
class COneAnim *pOA0 = &ao_AnimData->ad_Anims[ao_iLastAnim];
class COneAnim *pOA1 = &ao_AnimData->ad_Anims[ao_iCurrentAnim];
INDEX iAnim = ao_iCurrentAnim;
((CAnimObject*)this)->ao_iCurrentAnim = ao_iLastAnim;
float fFrameNow = tmCurrentRelative/pOA0->oa_SecsPerFrame+pOA0->oa_NumberOfFrames;
iFrame0 = pOA0->oa_FrameIndices[ Clamp(SLONG(fFrameNow), 0, pOA0->oa_NumberOfFrames-1)];
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INDEX iFrameNext = SLONG(fFrameNow+1);
if (iFrameNext>=pOA0->oa_NumberOfFrames) {
iFrame1 = pOA1->oa_FrameIndices[0];
} else {
iFrame1 = pOA0->oa_FrameIndices[ Clamp(iFrameNext, 0, pOA0->oa_NumberOfFrames-1)];
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}
((CAnimObject*)this)->ao_iCurrentAnim = iAnim;
fRatio = fFrameNow - (float)floor(fFrameNow);
}
}
}
void CAnimObject::Write_t( CTStream *pstr) // throw char *
{
(*pstr).WriteID_t("ANOB");
(*pstr)<<ao_tmAnimStart;
(*pstr)<<ao_iCurrentAnim;
(*pstr)<<ao_iLastAnim;
(*pstr)<<ao_ulFlags;
}
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void CAnimObject::Read_t( CTStream *pstr) // throw char *
{
if ((*pstr).PeekID_t()==CChunkID("ANOB")) {
(*pstr).ExpectID_t("ANOB");
(*pstr)>>ao_tmAnimStart;
(*pstr)>>ao_iCurrentAnim;
(*pstr)>>ao_iLastAnim;
(*pstr)>>ao_ulFlags;
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} else {
(*pstr)>>ao_tmAnimStart;
(*pstr)>>ao_iCurrentAnim;
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ao_iLastAnim = ao_iCurrentAnim;
ao_ulFlags = 0;
}
// clamp animation
if (ao_AnimData==NULL || ao_iCurrentAnim >= GetAnimsCt() )
{
ao_iCurrentAnim = 0;
}
// clamp animation
if (ao_AnimData==NULL || ao_iLastAnim >= GetAnimsCt() )
{
ao_iLastAnim = 0;
}
}