Team Fortress 2 Source Code as on 22/4/2020
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//========= Copyright Valve Corporation, All rights reserved. ============//
//
// Purpose:
//
// $NoKeywords: $
//
//=============================================================================//
#include "unitlib/unitlib.h"
#include "datamodel/dmelement.h"
#include "movieobjects/movieobjects.h"
#include "datamodel/idatamodel.h"
#include "tier1/utlbuffer.h"
#include "filesystem.h"
#include "movieobjects/dmelog.h"
#include "choreoscene.h"
#include "choreoevent.h"
struct data_t
{
int tms; // tenths of a millisecond
float value;
int curvetype;
};
struct tvpair_t
{
int tms;
float expectedvalue;
};
data_t data[] =
{
{ 0, 0.0f, MAKE_CURVE_TYPE( INTERPOLATE_CATMULL_ROM_NORMALIZEX, INTERPOLATE_CATMULL_ROM_NORMALIZEX ) },
{ 10000, 0.5f, MAKE_CURVE_TYPE( INTERPOLATE_CATMULL_ROM_NORMALIZEX, INTERPOLATE_CATMULL_ROM_NORMALIZEX ) },
{ 20000, 0.5f, MAKE_CURVE_TYPE( INTERPOLATE_EASE_IN, INTERPOLATE_EASE_OUT ) },
{ 30000, 0.5f, MAKE_CURVE_TYPE( INTERPOLATE_EASE_OUT, INTERPOLATE_EASE_INOUT ) },
{ 40000, 0.5f, MAKE_CURVE_TYPE( INTERPOLATE_EASE_INOUT, INTERPOLATE_BSPLINE ) },
{ 50000, 0.5f, MAKE_CURVE_TYPE( INTERPOLATE_BSPLINE, INTERPOLATE_LINEAR_INTERP ) },
{ 60000, 1.0f, MAKE_CURVE_TYPE( INTERPOLATE_LINEAR_INTERP, INTERPOLATE_KOCHANEK_BARTELS ) },
{ 70000, 0.0f, MAKE_CURVE_TYPE( INTERPOLATE_KOCHANEK_BARTELS, INTERPOLATE_KOCHANEK_BARTELS_EARLY ) },
{ 80000, 0.5f, MAKE_CURVE_TYPE( INTERPOLATE_KOCHANEK_BARTELS_EARLY, INTERPOLATE_KOCHANEK_BARTELS_LATE ) },
{ 90000, 0.0f, MAKE_CURVE_TYPE( INTERPOLATE_KOCHANEK_BARTELS_LATE, INTERPOLATE_SIMPLE_CUBIC ) },
{ 100000, 0.25f, MAKE_CURVE_TYPE( INTERPOLATE_SIMPLE_CUBIC, INTERPOLATE_CATMULL_ROM ) },
{ 110000, 0.0f, MAKE_CURVE_TYPE( INTERPOLATE_CATMULL_ROM, INTERPOLATE_CATMULL_ROM_NORMALIZE ) },
{ 120000, 0.125f, MAKE_CURVE_TYPE( INTERPOLATE_CATMULL_ROM_NORMALIZE, INTERPOLATE_EXPONENTIAL_DECAY ) },
{ 130000, 0.0f, MAKE_CURVE_TYPE( INTERPOLATE_EXPONENTIAL_DECAY, INTERPOLATE_HOLD ) },
{ 140000, 0.0625f, MAKE_CURVE_TYPE( INTERPOLATE_CATMULL_ROM_NORMALIZEX, INTERPOLATE_EXPONENTIAL_DECAY ) },
{ 150000, 0.0f, MAKE_CURVE_TYPE( INTERPOLATE_CATMULL_ROM_NORMALIZEX, INTERPOLATE_CATMULL_ROM_NORMALIZEX ) },
};
#define NUM_DEF_TESTS 3
static data_t values1[] =
{
{ -1, 0.0f, 0 },
};
static data_t values2[] =
{
{ 5000, 0.5f, CURVE_DEFAULT },
{ -1, 0.0f, 0 },
};
static data_t values3[] =
{
{ 2500, 0.25f, CURVE_DEFAULT },
{ 7500, 0.75f, CURVE_DEFAULT },
{ -1, 0.0f, 0 },
};
static data_t *defaultvaluetest[ NUM_DEF_TESTS ] =
{
values1,
values2,
values3
};
#define NUM_TEST_VALUES 3
static tvpair_t expectedvalues1[NUM_TEST_VALUES] =
{
{ 0, 0.5f },
{ 5000, 0.5f },
{ 10000, 0.5f },
};
static tvpair_t expectedvalues2[NUM_TEST_VALUES] =
{
{ 0, 0.5f },
{ 5000, 0.5f },
{ 10000, 0.5f },
};
static tvpair_t expectedvalues3[NUM_TEST_VALUES] =
{
{ 0, 0.25f },
{ 5000, 0.5f },
{ 10000, 0.75f },
};
static tvpair_t *expectedvalues[ NUM_DEF_TESTS ] =
{
expectedvalues1,
expectedvalues2,
expectedvalues3
};
void ResetLog( CDmeFloatLog *log, bool useCurveTypes, int startIndex = 0, int endIndex = -1 )
{
log->ClearKeys();
CDmeCurveInfo *pCurveInfo = useCurveTypes ? log->GetOrCreateCurveInfo() : log->GetCurveInfo();
if ( useCurveTypes )
{
pCurveInfo->SetDefaultCurveType( MAKE_CURVE_TYPE( INTERPOLATE_CATMULL_ROM_NORMALIZEX, INTERPOLATE_CATMULL_ROM_NORMALIZEX ) );
}
else if ( !useCurveTypes && pCurveInfo )
{
g_pDataModel->DestroyElement( pCurveInfo->GetHandle() );
log->SetCurveInfo( NULL );
}
int i;
int c;
c = ARRAYSIZE( data );
for ( i = startIndex; i < c; ++i )
{
log->SetKey( DmeTime_t( data[ i ].tms ), data[ i ].value, useCurveTypes ? data[ i ].curvetype : CURVE_DEFAULT );
if ( endIndex != -1 && i >= endIndex )
break;
}
}
void CompareFloats( float f1, float f2, float tol, char const *fmt, ... )
{
float diff = fabs( f1 - f2 );
if ( diff < tol )
return;
char buf[ 256 ];
va_list argptr;
va_start( argptr, fmt );
_vsnprintf( buf, sizeof( buf ) - 1, fmt, argptr );
va_end( argptr );
Msg( buf );
}
DEFINE_TESTCASE_NOSUITE( DmxRunDefaultValueLogTest )
{
Msg( "Running CDmeTypedLog<float> default value (stereo channel w/ value 0.5) tests...\n" );
CDisableUndoScopeGuard sg;
DmFileId_t fileid = g_pDataModel->FindOrCreateFileId( "<DmxTestDmeLog>" );
for ( int i = 0; i < NUM_DEF_TESTS; ++i )
{
data_t *pdata = defaultvaluetest[ i ];
tvpair_t *pexpected = expectedvalues[ i ];
// Run each test
CDmeFloatLog *log = CreateElement<CDmeFloatLog>( "curve", fileid );
if ( !log )
{
Msg( "Unable to create CDmeFloatLog object!!!" );
continue;
}
log->SetDefaultValue( 0.5f );
if ( pdata )
{
// Run the test
for ( int j = 0; ; ++j )
{
if ( pdata[ j ].tms == -1 )
break;
log->SetKey( DmeTime_t( pdata[ j ].tms ), pdata[ j ].value );
}
}
// Now compare against expected values
for ( int j = 0; j < NUM_TEST_VALUES; ++j )
{
DmeTime_t t = DmeTime_t( pexpected[ j ].tms );
float v = pexpected[ j ].expectedvalue;
float logv = log->GetValue( t );
Shipping_Assert( v == logv );
}
DestroyElement( log );
}
g_pDataModel->RemoveFileId( fileid );
}
void RunDmeFloatLogTests( CDmeFloatLog *log )
{
Msg( " Testing general log data...\n" );
ResetLog( log, false );
CompareFloats( 0.5f, log->GetValue( DmeTime_t( 2.0f ) ), 0.000001f, "log->GetValue( 2.0 ) expected to be 0.5f\n" );
CompareFloats( 0.5f, log->GetValue( DmeTime_t( 2.5f ) ), 0.000001f, "log->GetValue( 2.5 ) expected to be 0.5f\n" );
CompareFloats( 0.5f, log->GetValue( DmeTime_t( 2.5f ) ), 0.000001f, "log->GetValue( 2.5 ) expected to be 0.5f\n" );
CompareFloats( 0.5f, log->GetValue( DmeTime_t( 6.5f ) ), 0.000001f, "log->GetValue( 6.5 ) expected to be 0.5f\n" );
CDmeCurveInfo *pCurveInfo = log->GetOrCreateCurveInfo();
int idx = log->FindKeyWithinTolerance( DmeTime_t( 6.0f ), DmeTime_t( 0 ) );
Shipping_Assert( log->GetKeyTime( idx ) == DmeTime_t( 6.0f ) );
log->SetKeyCurveType( idx, MAKE_CURVE_TYPE( INTERPOLATE_LINEAR_INTERP, INTERPOLATE_LINEAR_INTERP ) );
log->SetKeyCurveType( idx + 1, MAKE_CURVE_TYPE( INTERPOLATE_LINEAR_INTERP, INTERPOLATE_LINEAR_INTERP ) );
float val = log->GetValue( DmeTime_t( 6.5f ) );
float qval = log->GetValue( DmeTime_t( 6.25f ) );
CompareFloats( 0.5f, val, 0.000001f, "INTERPOLATE_LINEAR_INTERPlog->GetValue( 6500 ) expcted to be 0.5f\n" );
CompareFloats( 0.75f, qval, 0.000001f, "INTERPOLATE_LINEAR_INTERPlog->GetValue( 6250 ) expcted to be 0.75f\n" );
log->SetKeyCurveType( idx, MAKE_CURVE_TYPE( INTERPOLATE_CATMULL_ROM_NORMALIZEX, INTERPOLATE_CATMULL_ROM_NORMALIZEX ) );
log->SetKeyCurveType( idx + 1, MAKE_CURVE_TYPE( INTERPOLATE_CATMULL_ROM_NORMALIZEX, INTERPOLATE_CATMULL_ROM_NORMALIZEX ) );
float val2 = log->GetValue( DmeTime_t( 6.5f ) );
float qval2 = log->GetValue( DmeTime_t( 6.25f ) );
Shipping_Assert( val2 == val );
Shipping_Assert( qval2 != val );
log->SetKeyCurveType( idx, MAKE_CURVE_TYPE( INTERPOLATE_EASE_INOUT, INTERPOLATE_EASE_INOUT ) );
log->SetKeyCurveType( idx + 1, MAKE_CURVE_TYPE( INTERPOLATE_EASE_INOUT, INTERPOLATE_EASE_INOUT ) );
float val3 = log->GetValue( DmeTime_t( 6.5f ) );
float qval3 = log->GetValue( DmeTime_t( 6.25f ) );
Shipping_Assert( val3 == val );
Shipping_Assert( qval3 != val );
log->SetKeyCurveType( idx, MAKE_CURVE_TYPE( INTERPOLATE_EXPONENTIAL_DECAY, INTERPOLATE_EXPONENTIAL_DECAY ) );
log->SetKeyCurveType( idx + 1, MAKE_CURVE_TYPE( INTERPOLATE_EXPONENTIAL_DECAY, INTERPOLATE_EXPONENTIAL_DECAY ) );
float val4 = log->GetValue( DmeTime_t( 6.5f ) );
float qval4 = log->GetValue( DmeTime_t( 6.25f ) );
Shipping_Assert( val4 != val );
Shipping_Assert( qval4 != val );
log->SetKeyCurveType( idx, MAKE_CURVE_TYPE( INTERPOLATE_KOCHANEK_BARTELS, INTERPOLATE_KOCHANEK_BARTELS ) );
log->SetKeyCurveType( idx + 1, MAKE_CURVE_TYPE( INTERPOLATE_KOCHANEK_BARTELS, INTERPOLATE_KOCHANEK_BARTELS ) );
float val5 = log->GetValue( DmeTime_t( 6.5f ) );
float qval5 = log->GetValue( DmeTime_t( 6.25f ) );
Shipping_Assert( val5 == val );
Shipping_Assert( qval5 != val );
pCurveInfo->SetDefaultCurveType( MAKE_CURVE_TYPE( INTERPOLATE_KOCHANEK_BARTELS, INTERPOLATE_KOCHANEK_BARTELS ) );
log->SetKeyCurveType( idx, MAKE_CURVE_TYPE( INTERPOLATE_DEFAULT, INTERPOLATE_DEFAULT ) );
log->SetKeyCurveType( idx + 1, MAKE_CURVE_TYPE( INTERPOLATE_DEFAULT, INTERPOLATE_DEFAULT ) );
float val6 = log->GetValue( DmeTime_t( 6.5f ) );
float qval6 = log->GetValue( DmeTime_t( 6.25f ) );
Shipping_Assert( val5 == val6 );
Shipping_Assert( qval6 == qval5 );
}
void CompareLogToChoreo( CFlexAnimationTrack *track, CDmeFloatLog *log )
{
// Now run tests
for ( DmeTime_t t( 0 ); t < DmeTime_t( 20.0f ); t += DmeTime_t( 0.1f ) )
{
// Compare values
float dmevalue = log->GetValue( t );
float choreovalue = track->GetIntensity( t.GetSeconds() );
CompareFloats( dmevalue, choreovalue, 0.001f, "Time(%f sec) , dme [%f] choreo[%f], diff[%f]\n",
t.GetSeconds(),
dmevalue,
choreovalue,
fabs( dmevalue - choreovalue ) );
}
}
void ResetChoreo( CFlexAnimationTrack *track, bool useCurveTypes, int startIndex = 0, int endIndex = -1 )
{
track->Clear();
int i;
int c;
c = ARRAYSIZE( data );
for ( i = startIndex; i < c; ++i )
{
data_t *e = &data[ i ];
float t = (float)e->tms / 10000.0f;
CExpressionSample *sample = track->AddSample( t, e->value );
Shipping_Assert( sample );
if ( useCurveTypes )
{
sample->SetCurveType( e->curvetype );
}
if ( endIndex != -1 && i >= endIndex )
break;
}
}
void RunDmeChoreoComparisons( CDmeFloatLog *log )
{
Msg( " Testing choreo-style log data...\n" );
ResetLog( log, true );
log->SetRightEdgeTime( DmeTime_t( 15.0f ) );
CChoreoScene *scene = new CChoreoScene( NULL );
CChoreoEvent *event = new CChoreoEvent( scene, CChoreoEvent::FLEXANIMATION, "test" );
event->SetStartTime( 0.0f );
event->SetEndTime( 15.0f );
CFlexAnimationTrack *track = new CFlexAnimationTrack( event );
track->SetFlexControllerName( "flextest" );
track->SetComboType( false );
ResetChoreo( track, true );
Msg( " Comparing default data...\n" );
CompareLogToChoreo( track, log );
ResetLog( log, true, 3, 14 );
ResetChoreo( track, true, 3, 14 );
Msg( " Comparing subset of data...\n" );
CompareLogToChoreo( track, log );
Msg( " Comparing left/right edge settings...\n" );
// Now test right and left edge stuff
// Enable left edge stuff
track->SetEdgeActive( true, true );
track->SetEdgeInfo( true, MAKE_CURVE_TYPE( INTERPOLATE_LINEAR_INTERP, INTERPOLATE_LINEAR_INTERP ), 0.75f );
track->SetEdgeActive( false, true );
track->SetEdgeInfo( false, MAKE_CURVE_TYPE( INTERPOLATE_EASE_OUT, INTERPOLATE_EASE_OUT ), 0.25f );
// Same settings for log
log->SetUseEdgeInfo( true );
log->SetDefaultEdgeZeroValue( 0.0f );
log->SetEdgeInfo( 0, true, 0.75f, MAKE_CURVE_TYPE( INTERPOLATE_LINEAR_INTERP, INTERPOLATE_LINEAR_INTERP ) );
log->SetEdgeInfo( 1, true, 0.25f, MAKE_CURVE_TYPE( INTERPOLATE_EASE_OUT, INTERPOLATE_EASE_OUT ) );
CompareLogToChoreo( track, log );
int i;
for ( i = 1; i < NUM_INTERPOLATE_TYPES; ++i )
{
Msg( " Comparing left/right edge settings[ %s ]...\n", Interpolator_NameForInterpolator( i, true ) );
float val = (float)i / (float)( NUM_INTERPOLATE_TYPES - 1 ) ;
// Now test right and left edge stuff with different data
track->SetEdgeInfo( true, MAKE_CURVE_TYPE( i, i ), val );
track->SetEdgeInfo( false, MAKE_CURVE_TYPE( i, i ), val );
log->SetEdgeInfo( 0, true, val, MAKE_CURVE_TYPE( i, i ) );
log->SetEdgeInfo( 1, true, val, MAKE_CURVE_TYPE( i, i ) );
CompareLogToChoreo( track, log );
}
delete event;
delete scene;
}
DEFINE_TESTCASE_NOSUITE( DmxTestDmeLog )
{
Msg( "Running CDmeTypedLog<float> tests...\n" );
CDisableUndoScopeGuard sg;
DmFileId_t fileid = g_pDataModel->FindOrCreateFileId( "<DmxTestDmeLog>" );
CDmeFloatLog *pElement = CreateElement<CDmeFloatLog>( "curve", fileid );
if ( !pElement )
{
Msg( "Unable to create CDmeFloatLog object!!!" );
return;
}
// Run tests
RunDmeFloatLogTests( pElement );
RunDmeChoreoComparisons( pElement );
g_pDataModel->RemoveFileId( fileid );
}