TutorialWidget* TutorialWidget::Make(Tutorial::WeakPtr tutorial, WorldMapLayer *worldMapLayer, MapProjector *projector)
{
TutorialWidget *widget = nullptr;
std::string name = tutorial.lock()->widgetName;
if (name == "Welcome") {
widget = TutorialWidgetWelcome::create(tutorial);
} else if (name == "FirstCell") {
widget = TutorialWidgetFirstCell::create(tutorial, worldMapLayer, projector);
} else if (name == "AfterFirstCell") {
widget = TutorialWidgetAfterFirstCell::create(tutorial, worldMapLayer, projector);
} else if (name == "StartFirstTask") {
widget = TutorialWidgetStartFirstTask::create(tutorial);
} else if (name == "SpinoffDrag") {
widget = TutorialWidgetSpinoff::create(tutorial, worldMapLayer, projector);
} else if (name == "SpinoffStep2") {
widget = TutorialWidgetInfluence::create(tutorial);
} else if (name == "InvestigationStarted") {
widget = TutorialWidgetInvestigationStarted::create(tutorial, worldMapLayer, projector);
} else if (name == "InvestigatorUncatched") {
widget = TutorialWidgetInvestigatorUncatched::create(tutorial, worldMapLayer, projector);
} else if (name == "Textual") {
widget = TutorialWidgetTextual::create(tutorial);
} else {
WRITE_ERR("Unknown tutorial widget: " + name);
}
return widget;
}
std::string VariablesSet::GetString(const std::string &name) const
{
const auto it = _strSet.find(name);
if (it != _strSet.end())
{
return it->second;
}
else
{
WRITE_ERR("Trying to access to unknown string variable \"" + name + "\" in VariablesSet");
return "";
}
}
Utils::GameTime VariablesSet::GetTime(const std::string &name) const
{
const auto it = _timeSet.find(name);
if (it != _timeSet.end())
{
return it->second;
}
else
{
WRITE_ERR("Trying to access to unknown time variable \"" + name + "\" in VariablesSet");
return 0;
}
}
bool VariablesSet::GetBool(const std::string &name) const
{
const auto it = _intSet.find(name);
if (it != _intSet.end())
{
return it->second != 0;
}
else
{
WRITE_ERR("Trying to access to unknown bool variable \"" + name + "\" in VariablesSet");
return false;
}
}
float VariablesSet::GetFloat(const std::string &name) const
{
const auto it = _floatSet.find(name);
if (it != _floatSet.end())
{
return it->second;
}
else
{
WRITE_ERR("Trying to access to unknown float variable \"" + name + "\" in VariablesSet");
return -1;
}
}
SpinoffDragAndDrop::SpinoffDragAndDrop(WorldMapLayer *worldMapLayer, MapProjector *proj,
Cell::WeakPtr cellFrom, const Vector2 &offsetToCenter)
: _worldMapLayer(worldMapLayer)
, _projector(proj)
, _state(State::STAY)
, _cellFrom(cellFrom)
, _attractionDist(30.0f)
, _isEnabled(true)
, _isAttracting(false)
{
if (_cellFrom.expired()) {
WRITE_ERR("MapDragAndDropWidget: Failed to create with unexisted cell");
}
init();
}
Boolean THD_write_datablock( THD_datablock *blk , Boolean write_brick )
{
THD_diskptr *dkptr ;
Boolean good ;
int id , nx , ny , nz , nv , nxy , nxyz , ibr ;
int atrank[ATRSIZE_DATASET_RANK] , atdims[ATRSIZE_DATASET_DIMENSIONS] ;
MRI_IMAGE *im ;
int save_order ;
int64_t nb , idone ;
int do_mripurge ;
/*-- sanity checks --*/
if( ! ISVALID_DATABLOCK(blk) ) return False ;
if( DBLK_IS_MASTERED(blk) ) return False ; /* 11 Jan 1999 */
if( DBLK_IS_MINC(blk) ) WRITE_ERR("MINC with bad name extension?") ;
/* 29 Oct 2001 */
if( DBLK_IS_ANALYZE(blk) ) WRITE_ERR("ANALYZE but bad name extension?") ;
/* 27 Aug 2002 */
if( DBLK_IS_NIFTI(blk) ) WRITE_ERR("NIFTI but bad name extension?") ;
/* 28 Aug 2003 */
dkptr = blk->diskptr ;
if( ! ISVALID_DISKPTR(dkptr) ) WRITE_ERR("illegal file type") ;
if( strlen(dkptr->directory_name) == 0 ||
strlen(dkptr->header_name) == 0 ||
strlen(dkptr->filecode) == 0 )
WRITE_ERR("illegal file names stored in dataset") ;
if( dkptr->rank != 3 )
WRITE_ERR("cannot write non-3D datablock") ;
/*-- create directory if necessary --*/
if( ! THD_is_directory(dkptr->directory_name) ){
id = mkdir( dkptr->directory_name , THD_MKDIR_MODE ) ;
if( id != 0 ){
fprintf(stderr,
"\n"
"*** cannot mkdir new directory: %s\n"
" - Do you have permission to write to this disk?\n"
" - Is the disk full?\n" ,
dkptr->directory_name) ;
return False ;
}
}
/* 25 April 1998: deal with byte order issues */
if( native_order < 0 ){ /* initialization */
native_order = mri_short_order() ;
if( output_order < 0 ) THD_enviro_write_order() ;
}
if( dkptr->byte_order <= 0 ) dkptr->byte_order = native_order ;
save_order = (output_order > 0) ? output_order
: dkptr->byte_order ;
#if 0
fprintf(stderr,"THD_write_datablock: save_order=%d dkptr->byte_order=%d\n",
save_order, dkptr->byte_order ) ;
#endif
if( save_order != LSB_FIRST && save_order != MSB_FIRST )
save_order = native_order ;
if( save_order == LSB_FIRST )
THD_set_string_atr( blk , ATRNAME_BYTEORDER , LSB_FIRST_STRING ) ;
else if( save_order == MSB_FIRST )
THD_set_string_atr( blk , ATRNAME_BYTEORDER , MSB_FIRST_STRING ) ;
/*-- actually write attributes to disk --*/
good = THD_write_atr( blk ) ;
if( good == False )
WRITE_ERR(
"failure to write attributes - is disk full? do you have write permission?");
/*-- if not writing data, can exit --*/
if( write_brick == False || blk->brick == NULL ||
dkptr->storage_mode == STORAGE_UNDEFINED ) return True ;
if( dkptr->storage_mode == STORAGE_BY_VOLUMES ){ /* 20 Jun 2002 */
fprintf(stderr,"** Writing dataset by VOLUMES not yet supported.\n") ;
return False ;
}
/*-- check each brick for existence:
if none exist, cannot write, but is OK
if some but not all exist, cannot write, and is an error --*/
id = THD_count_potential_databricks( blk ) ;
if( id <= 0 ) return True ;
if( id < blk->nvals ){
ERROR_message("Write dataset error: only %d out of %d bricks in memory",
id,blk->nvals) ; return False ;
}
if( blk->malloc_type == DATABLOCK_MEM_UNDEFINED )
WRITE_ERR("undefined data exists in memory") ;
/*-- 13 Mar 2006: check for free disk space --*/
{ int mm = THD_freemegabytes( dkptr->header_name ) ;
int rr = blk->total_bytes / (1024l * 1024l) ;
if( mm >= 0 && mm <= rr )
WARNING_message("Disk space: writing file %s (%d MB),"
" but only %d free MB on disk" ,
dkptr->brick_name , rr , mm ) ;
}
/*-- write data out in whatever format is ordered --*/
nx = dkptr->dimsizes[0] ;
ny = dkptr->dimsizes[1] ; nxy = nx * ny ;
nz = dkptr->dimsizes[2] ; nxyz = nxy * nz ;
nv = dkptr->nvals ; nb = blk->total_bytes ;
switch( dkptr->storage_mode ){
default: WRITE_ERR("illegal storage_mode!") ; break ;
case STORAGE_BY_BRICK:{
FILE *far ;
Boolean purge_when_done = False , ok ;
int force_gzip=0 , csave=COMPRESS_NONE ;
/** if we have a mmap-ed file, copy into RAM (ugh) **/
if( blk->malloc_type == DATABLOCK_MEM_MMAP ){
char *bnew , *bold ;
int offset ;
bnew = (char *) malloc( (size_t)nb ) ; /* work space */
bold = DBLK_ARRAY(blk,0) ; /* start of mapped file */
if( bnew == NULL )
WRITE_ERR("cannot rewrite due to malloc failure - is memory exhausted?") ;
memcpy( bnew , bold , (size_t)nb ) ; /* make a copy, */
munmap( (void *) bold , (size_t)nb ) ; /* then unmap file */
/* fix sub-brick pointers */
offset = 0 ;
for( ibr=0 ; ibr < nv ; ibr++ ){
mri_fix_data_pointer( (void *)(bnew+offset) , DBLK_BRICK(blk,ibr) ) ;
offset += DBLK_BRICK_BYTES(blk,ibr) ;
DBLK_BRICK(blk,ibr)->fondisk = 0 ; /* 31 Jan 2007 */
}
purge_when_done = True ;
} /** fall thru to here if have a malloc-ed dataset **/
if( save_order != native_order ) purge_when_done = True ;
/** delete old file, if any **/
COMPRESS_unlink( dkptr->brick_name ) ; /* Feb 1998 */
/** create new file **/
id = strlen(dkptr->directory_name) ;
ok = ( dkptr->directory_name[id-1] == '/' ) ;
if( ok ) sprintf( dkptr->brick_name , "%s%s.%s",
dkptr->directory_name ,
dkptr->filecode , DATASET_BRICK_SUFFIX );
else sprintf( dkptr->brick_name , "%s/%s.%s",
dkptr->directory_name ,
dkptr->filecode , DATASET_BRICK_SUFFIX );
/** COMPRESS for output added Feb 1998 */
if( compress_mode == COMPRESS_NOFILE ) THD_enviro_write_compression() ;
#ifdef COMPRESS_GZIP
/*-- 02 Mar 2001: check if we will force gzip --*/
if( compress_mode == COMPRESS_NONE && AFNI_yesenv("AFNI_AUTOGZIP") ){
double entrop = ENTROPY_datablock(blk) ;
force_gzip = (entrop < 2.7) ;
#if 0
fprintf(stderr,"Entropy=%g ==> forcing write gzip on %s\n",entrop,dkptr->brick_name) ;
#endif
} else {
force_gzip = 0 ;
}
if( force_gzip ){
csave = compress_mode ; compress_mode = COMPRESS_GZIP ;
}
#endif
far = COMPRESS_fopen_write( dkptr->brick_name , compress_mode ) ;
if( far == NULL ){
if( compress_mode != COMPRESS_NONE ){
compress_mode = COMPRESS_NONE ; force_gzip = 0 ;
far = COMPRESS_fopen_write( dkptr->brick_name , compress_mode ) ;
}
}
if( far == NULL )
WRITE_ERR("cannot open output brick file - do you have write permission?") ;
/** write each brick out in a separate operation **/
idone = 0 ;
for( ibr=0 ; ibr < nv ; ibr++ ){
do_mripurge = MRI_IS_PURGED( DBLK_BRICK(blk,ibr) ) ;
if( do_mripurge ) mri_unpurge( DBLK_BRICK(blk,ibr) ) ;
if( save_order != native_order ){ /* 25 April 1998 */
switch( DBLK_BRICK_TYPE(blk,ibr) ){
default: break ;
case MRI_short:
mri_swap2( DBLK_BRICK_NVOX(blk,ibr) , DBLK_ARRAY(blk,ibr) ) ;
break ;
case MRI_complex: /* 23 Nov 1999 */
mri_swap4( 2*DBLK_BRICK_NVOX(blk,ibr), DBLK_ARRAY(blk,ibr)) ;
break ;
case MRI_float: /* 23 Nov 1999 */
case MRI_int:
mri_swap4( DBLK_BRICK_NVOX(blk,ibr) , DBLK_ARRAY(blk,ibr) ) ;
break ;
}
}
idone += fwrite( DBLK_ARRAY(blk,ibr), 1, DBLK_BRICK_BYTES(blk,ibr), far );
if( do_mripurge ){ /* 31 Jan 2007 */
if( !purge_when_done ) mri_purge( DBLK_BRICK(blk,ibr) ) ;
else mri_clear( DBLK_BRICK(blk,ibr) ) ;
}
} /* end of loop over sub-bricks */
COMPRESS_fclose(far) ;
if( purge_when_done ){
if( blk->malloc_type == DATABLOCK_MEM_MMAP ){
free( DBLK_ARRAY(blk,0) ) ;
for( ibr=0 ; ibr < nv ; ibr++ )
mri_clear_data_pointer( DBLK_BRICK(blk,ibr) ) ;
} else {
THD_purge_datablock( blk , DATABLOCK_MEM_MALLOC ) ;
}
}
if( compress_mode >= 0 || save_order != native_order ){
blk->malloc_type = DATABLOCK_MEM_MALLOC ;
}
DBLK_mmapfix(blk) ; /* 28 Mar 2005 */
if( force_gzip ) compress_mode = csave ; /* 02 Mar 2001 */
if( idone != blk->total_bytes )
WRITE_ERR("Write error in brick file: Is disk full, or write_protected?") ;
dkptr->byte_order = save_order ; /* 23 Nov 1999 */
return True ;
}
break ;
} /* end of switch over data storage mode */
return False ; /* should NEVER be reached */
}