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# include "cwCommon.h"
# include "cwLog.h"
# include "cwCommonImpl.h"
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# include "cwTest.h"
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# include "cwMem.h"
# include "cwText.h"
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# include "cwFile.h"
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# include "cwObject.h"
# include "cwMidi.h"
# include "cwDynRefTbl.h"
# include "cwScoreParse.h"
# include "cwSfScore.h"
# include "cwPerfMeas.h"
# include "cwVectOps.h"
/*
1. if a performed event is part of a set then mark the set complete when all events in it have been performed .
2. when a set is marked as complete it should be evaluated immediately .
3. once a complete set is evaluated it is never evaluated again ( although incomplete sets may be evaluated again )
4. if a performed location is marked as a ' calc ' location and all sets have been evaluated then the calc . is executed .
5. if a performed location is past the next - calc - loc then the calc is executed .
6. if a calc has already been executed and an event that is part of the calc is recieved then the
associated set is updated and the calc is executed again .
7. if a performed event occurs on a trigger location then the section update is executed .
8. if a performed event occurs on a trigger location that has already been executed then the section update is NOT
performed again .
*/
namespace cw
{
namespace perf_meas
{
struct calc_str ;
typedef struct section_str
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{
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const struct section_str * prev_section ; // section prior to this section
const sfscore : : section_t * section ; // score section this section_t represents
struct calc_str * calc ; // calc record for this section
bool triggeredFl ; // This section has already been triggered
} section_t ;
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typedef struct meas_info_str
{
unsigned missEvtN ; // count of skipped events
unsigned missLocN ; // count of missed locations
unsigned transposeLocN ; // count of transposed locations
unsigned interpLocN ; // count of interpolated locations
unsigned vN ; // vN=locN for even,tempo vN=evtN for dyn
double * locSecV ; // locSecV[vN]
unsigned * locSecNV ; // locSecNV[vN] count of performed and interpolated notes (interpolated notes will have a False in the associated statusV[] location)
double * dSecV ; // dSecV[vN]
bool * statusV ; // statusV[vN] - true if this location was performed by at least one note
struct meas_info_str * link ;
} meas_info_t ;
struct loc_str ;
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typedef struct set_str
{
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struct loc_str * loc ; // end location for this set
const sfscore : : set_t * set ; // score set this set_t represents
meas_info_t * meas_info ; //
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unsigned lastPerfUpdateCnt ;
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double value ; // The value associated with this set. DBL_MAX on initialization
struct calc_str * calc ; // calc record to which this set belongs
struct set_str * alink ; // perf_meas_t* links
struct set_str * slink ; // loc_t.setL links
struct set_str * clink ; // calc_t.setL links
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} set_t ;
// The 'calc_t' record hold pointers to all the sets assigned to a given section.
// The record is different from a section record because it has a location assignment
// prior to the section which it is represents. This allows all the sets for
// a given section to be evaluated prior to the section being triggered.
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// The 'calc' record is assigned to the location of the last event in it's last set.
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typedef struct calc_str
{
set_t * setL ; // list of sets that this calc is applied to (links via set_t.clink)
section_t * section ; // section where this calc is applied
double value [ kValCnt ] ; // Aggregate var values for this section
} calc_t ;
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typedef struct loc_str
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{
unsigned locId ; // oloc location id and the index of this record into p->locA[]
section_t * section ; // section that begins on this location
set_t * setL ; // sets that end on this location (links via loc_t.slink)
calc_t * calc ; // calc that can be completed on this location.
} loc_t ;
typedef struct perf_meas_str
{
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params_t params ;
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sfscore : : handle_t scoreH ;
loc_t * locA ; // locA[locN]
unsigned locN ; // length of locA[]
set_t * setL ; // sets linked on alink
// Location index of the next section to be triggered.
unsigned last_section_loc_idx ;
// Location of the next calc record to be evaluated.
unsigned next_section_loc_idx ;
unsigned next_calc_loc_idx ;
} perf_meas_t ;
perf_meas_t * _handleToPtr ( handle_t h )
{ return handleToPtr < handle_t , perf_meas_t > ( h ) ; }
inline unsigned _loc_id_to_index ( perf_meas_t * p , unsigned locId )
{
if ( locId > = p - > locN )
return kInvalidIdx ;
assert ( locId = = p - > locA [ locId ] . locId ) ;
return locId ;
}
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void _destroy_meas_info_records ( set_t * set )
{
meas_info_t * m = set - > meas_info ;
while ( m ! = nullptr )
{
meas_info_t * m0 = m - > link ;
mem : : release ( m - > locSecV ) ;
mem : : release ( m - > locSecNV ) ;
mem : : release ( m - > dSecV ) ;
mem : : release ( m - > statusV ) ;
mem : : release ( m ) ;
m = m0 ;
}
}
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rc_t _destroy ( perf_meas_t * p )
{
rc_t rc = kOkRC ;
for ( unsigned i = 0 ; i < p - > locN ; + + i )
{
set_t * s = p - > locA [ i ] . setL ;
while ( s ! = nullptr )
{
set_t * s0 = s - > slink ;
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_destroy_meas_info_records ( s ) ;
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mem : : release ( s ) ;
s = s0 ;
}
mem : : release ( p - > locA [ i ] . section ) ;
mem : : release ( p - > locA [ i ] . calc ) ;
}
mem : : release ( p - > locA ) ;
mem : : release ( p ) ;
return rc ;
}
set_t * _find_set ( perf_meas_t * p , unsigned setId )
{
for ( set_t * s = p - > setL ; s ! = nullptr ; s = s - > alink )
if ( s - > set - > id = = setId )
return s ;
cwLogError ( kInvalidIdRC , " The setId '%i' is not valid. " , setId ) ;
return nullptr ;
}
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meas_info_t * _create_meas_info_record ( set_t * set )
{
meas_info_t * m = mem : : allocZ < meas_info_t > ( ) ;
m - > vN = set - > set - > varId = = score_parse : : kDynVarIdx ? set - > set - > evtCnt : set - > set - > locN ;
m - > locSecV = mem : : allocZ < double > ( m - > vN ) ;
m - > locSecNV = mem : : allocZ < unsigned > ( m - > vN ) ;
m - > dSecV = mem : : allocZ < double > ( m - > vN ) ;
m - > statusV = mem : : allocZ < bool > ( m - > vN ) ;
if ( set - > meas_info = = nullptr )
set - > meas_info = m ;
else
{
meas_info_t * m0 = set - > meas_info ;
while ( m0 - > link ! = nullptr )
m0 = m0 - > link ;
m0 - > link = m ;
}
return m ;
}
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calc_t * _create_calc_record ( perf_meas_t * p , sfscore : : section_t * section )
{
rc_t rc = kOkRC ;
calc_t * calc = mem : : allocZ < calc_t > ( ) ;
for ( unsigned i = 0 ; i < section - > setCnt ; + + i )
{
set_t * s ;
if ( ( s = _find_set ( p , section - > setArray [ i ] - > id ) ) = = nullptr )
{
rc = cwLogError ( kInvalidIdRC , " Error forming section set list for the section '%s'. " , cwStringNullGuard ( section - > label ) ) ;
goto errLabel ;
}
s - > calc = calc ;
s - > clink = calc - > setL ;
calc - > setL = s ;
}
errLabel :
if ( rc ! = kOkRC )
mem : : release ( calc ) ;
return calc ;
}
void _advance_next_calc_and_section_indexes ( perf_meas_t * p , unsigned cur_section_idx )
{
p - > last_section_loc_idx = cur_section_idx ;
p - > next_calc_loc_idx = kInvalidIdx ;
p - > next_section_loc_idx = kInvalidIdx ;
// Set 'last_section_loc_idx' and 'next_calc_loc_idx'
for ( unsigned i = cur_section_idx + 1 ; i < p - > locN & & ( p - > next_section_loc_idx = = kInvalidIdx | | p - > next_calc_loc_idx = = kInvalidIdx ) ; + + i )
{
if ( p - > next_section_loc_idx = = kInvalidIdx & & p - > locA [ i ] . section ! = nullptr )
p - > next_section_loc_idx = i ;
if ( p - > next_calc_loc_idx = = kInvalidIdx & & p - > locA [ i ] . calc ! = nullptr )
p - > next_calc_loc_idx = i ;
}
if ( p - > next_section_loc_idx = = kInvalidIdx )
cwLogInfo ( " End-of-score reached on section index. " ) ;
else
if ( p - > next_calc_loc_idx = = kInvalidIdx )
cwLogWarning ( " No 'next calc index' was found for the section at location:%i " , p - > next_section_loc_idx ) ;
}
void _reset_loc ( loc_t & loc )
{
if ( loc . section ! = nullptr )
loc . section - > triggeredFl = false ;
if ( loc . calc ! = nullptr )
{
for ( set_t * set = loc . calc - > setL ; set ! = nullptr ; set = set - > clink )
{
set - > value = std : : numeric_limits < double > : : max ( ) ;
set - > lastPerfUpdateCnt = 0 ;
}
std : : for_each ( loc . calc - > value , loc . calc - > value + kValCnt , [ ] ( double & x ) { x = std : : numeric_limits < double > : : max ( ) ; } ) ;
}
}
rc_t _reset ( perf_meas_t * p , unsigned init_locId )
{
rc_t rc = kOkRC ;
unsigned i = 0 ;
unsigned init_loc_idx = kInvalidIdx ;
for ( ; i < p - > locN ; + + i )
{
if ( p - > locA [ i ] . locId = = init_locId )
init_loc_idx = i ;
// reset all locations at and after the init. loc
if ( init_loc_idx ! = kInvalidIdx )
_reset_loc ( p - > locA [ i ] ) ;
}
if ( init_loc_idx = = kInvalidIdx )
{
rc = cwLogError ( kInvalidIdRC , " The initial location id '%i' is not valid. " , init_locId ) ;
goto errLabel ;
}
_advance_next_calc_and_section_indexes ( p , init_loc_idx ) ;
errLabel :
return rc ;
}
double _calc_set_list_mean ( const set_t * setL , unsigned varTypeId )
{
double sum = 0.0 ;
unsigned n = 0 ;
for ( const set_t * s = setL ; s ! = nullptr ; s = s - > clink )
if ( s - > set - > varId = = varTypeId & & s - > value ! = std : : numeric_limits < double > : : max ( ) )
{
sum + = s - > value ;
n + = 1 ;
}
return n > 0 ? sum / n : 0.0 ;
}
void _eval_one_dynamic_set ( perf_meas_t * p , set_t * set )
{
double sum = 0 ;
unsigned n = 0 ;
for ( unsigned i = 0 ; i < set - > set - > evtCnt ; + + i )
{
const sfscore : : event_t * e = set - > set - > evtArray [ i ] ;
if ( e - > perfFl )
{
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sum + = e - > dynLevel > e - > perfDynLevel ? e - > dynLevel - e - > perfDynLevel : e - > perfDynLevel - e - > dynLevel ;
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n + = 1 ;
}
}
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set - > value = n = = 0 ? 0 : sum / n ;
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}
// Calc chord onset time as the avg. onset over of all notes in the chord.
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rc_t _calc_loc_sec ( set_t * pm_set )
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{
rc_t rc = kOkRC ;
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const sfscore : : set_t * set = pm_set - > set ;
meas_info_t * m = pm_set - > meas_info ;
m - > missEvtN = 0 ;
assert ( set - > locN = = m - > vN ) ;
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vop : : zero ( m - > locSecV , set - > locN ) ;
vop : : zero ( m - > locSecNV , set - > locN ) ;
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// Get the time for each location by taking the mean
// of all events on the same location.
unsigned li = 0 ;
unsigned curLocId = set - > evtArray [ 0 ] - > oLocId ;
for ( unsigned i = 0 ; i < set - > evtCnt ; + + i )
{
if ( ! set - > evtArray [ i ] - > perfFl )
{
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+ + m - > missEvtN ;
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}
else
{
if ( curLocId ! = set - > evtArray [ i ] - > oLocId )
{
li + = 1 ;
curLocId = set - > evtArray [ i ] - > oLocId ;
}
if ( li > = set - > locN )
{
rc = cwLogError ( kAssertFailRC , " An invalid location id was encountered %i >= %i. " , li , set - > locN ) ;
goto errLabel ;
}
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m - > locSecV [ li ] + = set - > evtArray [ i ] - > perfSec ;
m - > locSecNV [ li ] + = 1 ;
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}
}
// Calc. mean.
for ( unsigned i = 0 ; i < set - > locN ; + + i )
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if ( m - > locSecNV [ i ] > 0 )
m - > locSecV [ i ] / = m - > locSecNV [ i ] ;
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errLabel :
return rc ;
}
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void _interpolate_time_of_missing_notes ( perf_meas_t * p , set_t * pm_set , unsigned & bi_ref , unsigned & ei_ref )
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{
bi_ref = kInvalidIdx ;
ei_ref = kInvalidIdx ;
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const sfscore : : set_t * set = pm_set - > set ;
meas_info_t * m = pm_set - > meas_info ;
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unsigned missN = 0 ;
unsigned ei = kInvalidIdx ;
unsigned bi = kInvalidIdx ;
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assert ( set - > locN = = m - > vN ) ;
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vop : : fill ( m - > statusV , set - > locN , false ) ;
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// for each location
for ( unsigned i = 0 ; i < set - > locN ; + + i )
{
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// if this location was missed
if ( m - > locSecNV [ i ] = = 0 )
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{
missN + = 1 ;
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m - > missLocN + = 1 ;
continue ;
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}
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// if this location was not in time order
if ( ei ! = kInvalidIdx & & ( m - > locSecV [ i ] - m - > locSecV [ ei ] ) < 0 )
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{
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missN + = 1 ;
m - > transposeLocN + = 1 ;
continue ;
}
// if there are unplayed notes between this note
// and the last played note at 'ei' then
// fill in the missing note times by splitting
// the gap time evenly - note that this will
// bias the evenness std to be lower than it
// should be.
if ( missN > 0 & & ei ! = kInvalidIdx )
{
double dsec = ( m - > locSecV [ i ] - m - > locSecV [ ei ] ) / ( missN + 1 ) ;
for ( unsigned j = ei + 1 ; j < i ; + + j )
{
m - > locSecV [ j ] = m - > locSecV [ j - 1 ] + dsec ;
m - > interpLocN + = 1 ;
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}
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}
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if ( bi = = kInvalidIdx )
bi = i ;
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m - > statusV [ i ] = true ;
missN = 0 ;
ei = i ; // ei=last valid location in m->locSecV[]
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}
bi_ref = bi ;
ei_ref = ei ;
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//vop::print( m->locSecV, set->locN, "%f ", "locSecV:" );
//vop::print( m->locSecNV, set->locN, "%i ", "locSecN:" );
//vop::print( m->statusV, set->locN, "%i ", "ok:");
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}
rc_t _eval_one_even_set ( perf_meas_t * p , set_t * pm_set )
{
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rc_t rc = kOkRC ;
const sfscore : : set_t * set = pm_set - > set ;
unsigned bi = kInvalidIdx ;
unsigned ei = kInvalidIdx ;
meas_info_t * m = pm_set - > meas_info ;
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assert ( set - > locN = = m - > vN ) ;
if ( ( rc = _calc_loc_sec ( pm_set ) ) ! = kOkRC )
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goto errLabel ;
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_interpolate_time_of_missing_notes ( p , pm_set , bi , ei ) ;
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vop : : zero ( m - > dSecV , set - > locN ) ;
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// Calc the std. deviation of the note delta times
// of all notes [bi:ei]. Note that if the notes
// before bi/after ei were skipped then they are
// left out of the calculation. However skipped notes
// interal to the range bi:ei were interpolated
// as perfectly even.
if ( ( ei - bi ) + 1 > 2 )
{
// calc the delta time for each time in locV[]
unsigned stdN = 0 ;
for ( unsigned i = bi + 1 ; i < = ei ; + + i )
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m - > dSecV [ stdN + + ] = m - > locSecV [ i ] - m - > locSecV [ i - 1 ] ;
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//printf("Even: skipped evt:%i skipped locs:%i interp:%i bi:%i ei:%i final N:%i\n",m->missEvtN,m->missLocN,m->interpLocN,bi,ei,stdN);
//vop::print( m->dSecV, stdN, "%f ", "std:" );
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pm_set - > value = vop : : std ( m - > dSecV , stdN ) ;
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}
errLabel :
return rc ;
}
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rc_t _eval_one_tempo_set ( perf_meas_t * p , set_t * pm_set )
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{
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rc_t rc = kOkRC ;
const sfscore : : set_t * set = pm_set - > set ;
meas_info_t * m = pm_set - > meas_info ;
unsigned bi = kInvalidIdx ;
unsigned ei = kInvalidIdx ;
assert ( set - > locN = = m - > vN ) ;
if ( ( rc = _calc_loc_sec ( pm_set ) ) ! = kOkRC )
goto errLabel ;
_interpolate_time_of_missing_notes ( p , pm_set , bi , ei ) ;
vop : : zero ( m - > dSecV , set - > locN ) ;
if ( ( ei - bi ) + 1 > 2 )
{
// calc the delta time for each time in locV[]
unsigned dsecN = 0 ;
for ( unsigned i = bi + 1 ; i < = ei ; + + i )
m - > dSecV [ dsecN + + ] = m - > locSecV [ i ] - m - > locSecV [ i - 1 ] ;
//printf("Tempo: skipped evt:%i skipped locs:%i interp:%i bi:%i ei:%i final N:%i\n",m->missEvtN,m->missLocN,m->interpLocN,bi,ei,dsecN);
//vop::print( m->dSecV, dsecN, "%f ", "dsecV:" );
double sec_per_beat = vop : : mean ( m - > dSecV , dsecN ) ;
double bpm = 60.0 / sec_per_beat ;
pm_set - > value = bpm ;
}
errLabel :
return rc ;
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}
void _aggregate_dynamic_meas_set_values ( perf_meas_t * p , calc_t * calc )
{
calc - > value [ kDynValIdx ] = _calc_set_list_mean ( calc - > setL , score_parse : : kDynVarIdx ) ;
}
void _aggregate_even_meas_set_values ( perf_meas_t * p , calc_t * calc )
{
calc - > value [ kEvenValIdx ] = _calc_set_list_mean ( calc - > setL , score_parse : : kEvenVarIdx ) ;
}
void _aggregate_tempo_meas_set_values ( perf_meas_t * p , calc_t * calc )
{
calc - > value [ kTempoValIdx ] = _calc_set_list_mean ( calc - > setL , score_parse : : kTempoVarIdx ) ;
}
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void _aggregate_cost_meas_set_values ( perf_meas_t * p , calc_t * calc )
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{
if ( calc - > section - > prev_section ! = nullptr )
{
unsigned beg_loc_idx = calc - > section - > prev_section - > section - > locPtr - > index ;
unsigned end_loc_idx = calc - > section - > section - > locPtr - > index ;
const sfscore : : loc_t * loc = loc_base ( p - > scoreH ) + beg_loc_idx ;
const sfscore : : loc_t * loc_end = loc_base ( p - > scoreH ) + end_loc_idx ;
double sum = 0 ;
unsigned n = 0 ;
for ( ; loc < loc_end ; + + loc )
for ( unsigned i = 0 ; i < loc - > evtCnt ; + + i )
if ( loc - > evtArray [ i ] - > perfFl & & loc - > evtArray [ i ] - > perfMatchCost ! = std : : numeric_limits < double > : : max ( ) )
{
sum + = loc - > evtArray [ i ] - > perfMatchCost ;
n + = 1 ;
}
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calc - > value [ kMatchCostValIdx ] = n = = 0 ? 0 : sum / n ;
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}
}
set_t * _use_slink ( set_t * s ) { return s - > slink ; }
set_t * _use_clink ( set_t * s ) { return s - > clink ; }
// Set 'force_fl' to true if the sets should be evaluated even if they are not complete.
void _eval_set_list ( perf_meas_t * p , set_t * setL , set_t * ( * link_func ) ( set_t * ) )
{
// for each set at this location
for ( set_t * s = setL ; s ! = nullptr ; s = link_func ( s ) )
{
// if this set has not been eval'd or has been updated with new perf. information since it was last eval'd
if ( s - > lastPerfUpdateCnt = = 0 | | s - > set - > perfUpdateCnt > s - > lastPerfUpdateCnt )
{
s - > lastPerfUpdateCnt = s - > set - > perfUpdateCnt ;
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if ( p - > params . print_rt_events_fl )
cwLogInfo ( " Set %i eval. " , s - > set - > id ) ;
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switch ( s - > set - > varId )
{
case score_parse : : kDynVarIdx :
_eval_one_dynamic_set ( p , s ) ;
break ;
case score_parse : : kEvenVarIdx :
_eval_one_even_set ( p , s ) ;
break ;
case score_parse : : kTempoVarIdx :
_eval_one_tempo_set ( p , s ) ;
break ;
default :
cwLogError ( kInvalidIdRC , " Unknown var type (%i) encountered while evaluating sets. " , s - > set - > varId ) ;
assert ( 0 ) ;
}
}
}
}
rc_t _update_sets ( perf_meas_t * p , unsigned loc_idx )
{
rc_t rc = kOkRC ;
if ( p - > locA [ loc_idx ] . setL ! = nullptr & & are_all_loc_set_events_performed ( p - > scoreH , loc_idx ) )
_eval_set_list ( p , p - > locA [ loc_idx ] . setL , _use_slink ) ;
return rc ;
}
rc_t _update_calc ( perf_meas_t * p , unsigned loc_idx )
{
rc_t rc = kOkRC ;
// if the loc is past the next_calc_loc_idx or is equal to next_calc_loc_idx and all the set events have been performed for the location
if ( p - > next_calc_loc_idx ! = kInvalidIdx
& & ( loc_idx > p - > next_calc_loc_idx
| | ( loc_idx = = p - > next_calc_loc_idx
& & are_all_loc_set_events_performed ( p - > scoreH , loc_idx ) ) ) )
{
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if ( p - > params . print_rt_events_fl )
cwLogInfo ( " Calc: Loc:%i nci:%i " , loc_idx , p - > next_calc_loc_idx ) ;
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calc_t * calc = p - > locA [ p - > next_calc_loc_idx ] . calc ;
assert ( calc ! = nullptr ) ;
// eval any sets that have not already been evaluated - even if they are not complete
_eval_set_list ( p , calc - > setL , _use_clink ) ;
// aggregate the measurements from each measurement type into a single scalar values.
_aggregate_dynamic_meas_set_values ( p , calc ) ;
_aggregate_even_meas_set_values ( p , calc ) ;
_aggregate_tempo_meas_set_values ( p , calc ) ;
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_aggregate_cost_meas_set_values ( p , calc ) ;
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}
return rc ;
}
rc_t _update_section ( perf_meas_t * p , unsigned loc_idx , result_t & resultRef )
{
rc_t rc = kOkRC ;
// if next_section_loc_idx == kInvalidIdx then the end of the score has been encountered
// (or we are in an invalid state)
if ( p - > next_section_loc_idx = = kInvalidIdx )
{
cwLogWarning ( " End-of-score or invalid state encountered (next_section_loc_idx==kInvalidIdx). " ) ;
goto errLabel ;
}
// TODO: Should the following be a loop which iterates
// until p->next_section_loc_idx > loc_idx
if ( p - > next_section_loc_idx < = loc_idx )
{
assert ( p - > locA [ p - > next_section_loc_idx ] . section ! = nullptr ) ;
section_t * section = p - > locA [ p - > next_section_loc_idx ] . section ;
if ( section - > triggeredFl = = false )
{
assert ( section - > section ! = nullptr & & section - > section - > locPtr ! = nullptr ) ;
resultRef . loc = loc_idx ;
resultRef . sectionLoc = section - > section - > locPtr - > index ;
resultRef . sectionLabel = section - > section - > label ;
if ( section - > calc = = nullptr )
cwLogWarning ( " No sets assigned to section %s " , cwStringNullGuard ( section - > section - > label ) ) ;
else
{
resultRef . valueA = section - > calc - > value ;
resultRef . valueN = kValCnt ;
}
section - > triggeredFl = true ;
_advance_next_calc_and_section_indexes ( p , p - > next_section_loc_idx ) ;
//cwLogInfo("Section %s triggered.",cwStringNullGuard(resultRef.sectionLabel));
}
}
errLabel :
return rc ;
}
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template < typename T >
rc_t _write_result_vector ( file : : handle_t fH , section_t * section , set_t * set , const char * opLabel , const char * fmt , const T * vect , unsigned locN )
{
rc_t rc ;
if ( ( rc = file : : printf ( fH , " %s,%i,%s,%s,%i, " ,
section - > section - > label ,
set = = nullptr ? - 1 : set - > set - > id ,
set = = nullptr ? " " : score_parse : : var_index_to_char ( set - > set - > varId ) ,
opLabel ,
locN ) ) ! = kOkRC )
{
rc = cwLogError ( rc , " Perf. measure vector header write failed. " ) ;
goto errLabel ;
}
for ( const T * v = vect ; v < vect + locN ; + + v )
if ( ( rc = file : : printf ( fH , fmt , * v ) ) ! = kOkRC )
{
rc = cwLogError ( rc , " Perf. measure vector write failed. " ) ;
goto errLabel ;
}
if ( ( rc = file : : printf ( fH , " \n " ) ) ! = kOkRC )
{
rc = cwLogError ( rc , " Perf. measure vector EOL failed. " ) ;
goto errLabel ;
}
errLabel :
return rc ;
}
double dbl_max_to_neg_one ( double x )
{ return x = = std : : numeric_limits < double > : : max ( ) ? - 1.0 : x ; }
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}
}
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cw : : rc_t cw : : perf_meas : : create ( handle_t & hRef , sfscore : : handle_t scoreH , const params_t & params )
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{
rc_t rc ;
if ( ( rc = destroy ( hRef ) ) ! = kOkRC )
return rc ;
perf_meas_t * p = mem : : allocZ < perf_meas_t > ( ) ;
const sfscore : : loc_t * locA = sfscore : : loc_base ( scoreH ) ;
const section_t * prev_section = nullptr ;
p - > scoreH = scoreH ;
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p - > params = params ;
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p - > locN = loc_count ( scoreH ) ;
p - > locA = mem : : allocZ < loc_t > ( p - > locN ) ;
p - > next_section_loc_idx = kInvalidIdx ;
p - > next_calc_loc_idx = kInvalidIdx ;
// for each score location
for ( unsigned i = 0 ; i < p - > locN ; + + i )
{
// the index of the record into p->locA[]
// is the same as the locId of the associated location
assert ( i = = locA [ i ] . index ) ;
p - > locA [ i ] . locId = locA [ i ] . index ;
// if this location is the end of a set (or sets) ...
for ( sfscore : : set_t * s = locA [ i ] . setList ; s ! = nullptr ; s = s - > llink )
{
// ... link the sets onto this location record
set_t * set = mem : : allocZ < set_t > ( ) ;
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set - > loc = p - > locA + i ;
set - > set = s ;
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set - > slink = p - > locA [ i ] . setL ;
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p - > locA [ i ] . setL = set ;
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set - > alink = p - > setL ;
p - > setL = set ;
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_create_meas_info_record ( set ) ;
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}
// if this location is the start of a new section
if ( locA [ i ] . begSectPtr ! = nullptr )
{
p - > locA [ i ] . section = mem : : allocZ < section_t > ( ) ;
p - > locA [ i ] . section - > prev_section = prev_section ;
p - > locA [ i ] . section - > section = locA [ i ] . begSectPtr ;
prev_section = p - > locA [ i ] . section ;
if ( locA [ i ] . begSectPtr - > measLocPtr ! = nullptr )
{
// get the loc of the last event in the last set that applies to this section
// (this is where the sets that supply this section will be evaluated)
unsigned calc_loc_idx = locA [ i ] . begSectPtr - > measLocPtr - > index ;
assert ( calc_loc_idx < p - > locN ) ;
// verify that the 'calc' location is <= the section location
if ( calc_loc_idx > locA [ i ] . index )
{
rc = cwLogError ( kInvalidStateRC , " The last loc %i of the last set in section '%s' is after the section start at loc: %i. " , calc_loc_idx , cwStringNullGuard ( locA [ i ] . begSectPtr - > label ) , i ) ;
goto errLabel ;
}
// verify that that the calc location is available
if ( p - > locA [ calc_loc_idx ] . calc ! = nullptr )
{
rc = cwLogError ( kInvalidStateRC , " A given location (%i) may only have one 'calc' record. " , calc_loc_idx ) ;
goto errLabel ;
}
// create the 'calc' record preceding this section
if ( ( p - > locA [ calc_loc_idx ] . calc = _create_calc_record ( p , locA [ i ] . begSectPtr ) ) = = nullptr )
{
rc = cwLogError ( kInvalidIdRC , " The 'calc' object create failed at location %i " , calc_loc_idx ) ;
goto errLabel ;
}
// set the calc.section pointer and the section.calc pointer
p - > locA [ calc_loc_idx ] . calc - > section = p - > locA [ i ] . section ;
p - > locA [ i ] . section - > calc = p - > locA [ calc_loc_idx ] . calc ;
}
}
}
if ( ( rc = _reset ( p , 0 ) ) ! = kOkRC )
{
rc = cwLogError ( rc , " Perf. meas initial reset failed. " ) ;
goto errLabel ;
}
hRef . set ( p ) ;
errLabel :
if ( rc ! = kOkRC )
_destroy ( p ) ;
return rc ;
}
cw : : rc_t cw : : perf_meas : : destroy ( handle_t & hRef )
{
rc_t rc = kOkRC ;
if ( ! hRef . isValid ( ) )
return rc ;
perf_meas_t * p = _handleToPtr ( hRef ) ;
if ( ( rc = _destroy ( p ) ) ! = kOkRC )
{
rc = cwLogError ( rc , " Destroy failed. " ) ;
return rc ;
}
hRef . clear ( ) ;
return rc ;
}
cw : : rc_t cw : : perf_meas : : reset ( handle_t h , unsigned init_locId )
{
perf_meas_t * p = _handleToPtr ( h ) ;
return _reset ( p , init_locId ) ;
}
cw : : rc_t cw : : perf_meas : : exec ( handle_t h , const sfscore : : event_t * event , result_t & resultRef )
{
rc_t rc = kOkRC ;
perf_meas_t * p = _handleToPtr ( h ) ;
unsigned loc_idx ;
resultRef = { } ;
resultRef . loc = kInvalidIdx ;
resultRef . sectionLoc = kInvalidIdx ;
// get the index of the location record associated with this event
if ( ( loc_idx = _loc_id_to_index ( p , event - > oLocId ) ) = = kInvalidIdx )
{
cwLogError ( kInvalidIdRC , " The event loc %i is not valid. " , event - > oLocId ) ;
goto errLabel ;
}
// if this event is prior to the last triggered section then ignore it
if ( p - > last_section_loc_idx ! = kInvalidIdx & & loc_idx < p - > last_section_loc_idx )
{
cwLogWarning ( " Backtrack before last triggered section loc:%i < last section:%i. " , loc_idx , p - > last_section_loc_idx ) ;
goto errLabel ;
}
// if this location is attached to a set then eval the set if it is complete
if ( ( rc = _update_sets ( p , loc_idx ) ) ! = kOkRC )
{
rc = cwLogError ( rc , " Set update failed. " ) ;
goto errLabel ;
}
// if this location is at or after 'next_calc_loc_idx' then evaluate the calc record
if ( ( rc = _update_calc ( p , loc_idx ) ) ! = kOkRC )
{
rc = cwLogError ( rc , " Calc. update failed. " ) ;
goto errLabel ;
}
// if this location is at or after the next section then update the section from the calc.
if ( ( rc = _update_section ( p , loc_idx , resultRef ) ) ! = kOkRC )
{
rc = cwLogError ( rc , " Section update failed. " ) ;
goto errLabel ;
}
errLabel :
if ( rc ! = kOkRC )
rc = cwLogError ( rc , " Perf-meas exec failed. " ) ;
return rc ;
}
void cw : : perf_meas : : report ( handle_t h )
{
perf_meas_t * p = _handleToPtr ( h ) ;
for ( unsigned i = 0 ; i < p - > locN ; + + i )
{
loc_t * loc = p - > locA + i ;
bool fl = loc - > section | | loc - > setL | | loc - > calc ;
if ( fl )
printf ( " %i : " , loc - > locId ) ;
if ( loc - > section )
{
printf ( " section:%s " , loc - > section - > section - > label ) ;
}
set_t * s ;
if ( loc - > setL ! = nullptr )
{
printf ( " set: " ) ;
for ( s = loc - > setL ; s ! = nullptr ; s = s - > slink )
printf ( " %i " , s - > set - > id ) ;
}
if ( loc - > calc ! = nullptr )
{
printf ( " calc: " ) ;
for ( s = loc - > calc - > setL ; s ! = nullptr ; s = s - > clink )
printf ( " %i " , s - > set - > id ) ;
}
if ( fl )
printf ( " \n " ) ;
}
}
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cw : : rc_t cw : : perf_meas : : write_result_json ( handle_t h ,
const char * player_name ,
const char * perf_date ,
unsigned perf_take_numb ,
const char * out_fname )
{
rc_t rc = kOkRC ;
perf_meas_t * p = _handleToPtr ( h ) ;
object_t * root = newDictObject ( ) ;
object_t * sectionL = root - > insert_pair ( " sectionL " , newListObject ( ) ) ;
for ( loc_t * loc = p - > locA ; loc < p - > locA + p - > locN ; + + loc )
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if ( loc - > section ! = nullptr & & loc - > section - > calc ! = nullptr & & loc - > section - > triggeredFl )
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{
object_t * sect = newDictObject ( sectionL ) ;
const double * valueV = loc - > section - > calc - > value ;
object_t * setL = newListObject ( ) ;
sect - > putv ( " label " , loc - > section - > section - > label ,
" player_name " , player_name ,
" perf_date " , perf_date ,
" perf_take_numb " , perf_take_numb ,
" locId " , loc - > locId ,
" dyn " , dbl_max_to_neg_one ( valueV [ kDynValIdx ] ) ,
" even " , dbl_max_to_neg_one ( valueV [ kEvenValIdx ] ) ,
" tempo " , dbl_max_to_neg_one ( valueV [ kTempoValIdx ] ) ,
" cost " , dbl_max_to_neg_one ( valueV [ kMatchCostValIdx ] ) ,
" setL " , setL ) ;
for ( set_t * set = loc - > section - > calc - > setL ; set ! = nullptr ; set = set - > clink )
{
object_t * set_o = newDictObject ( setL ) ;
set_o - > putv ( " type " , score_parse : : var_index_to_char ( set - > set - > varId ) ,
" setId " , set - > set - > id ,
" locId " , set - > loc - > locId ,
" value " , dbl_max_to_neg_one ( set - > value ) ,
" missEvtN " , set - > meas_info - > missEvtN ,
" missLocN " , set - > meas_info - > missLocN ,
" transposeLocN " , set - > meas_info - > transposeLocN ,
" interpLocN " , set - > meas_info - > interpLocN ) ;
set_o - > put_numeric_list ( " locSecV " , set - > meas_info - > locSecV , set - > meas_info - > vN ) ;
set_o - > put_numeric_list ( " locSecNV " , set - > meas_info - > locSecNV , set - > meas_info - > vN ) ;
set_o - > put_numeric_list ( " dSecV " , set - > meas_info - > dSecV , set - > meas_info - > vN ) ;
set_o - > put_numeric_list ( " statusV " , set - > meas_info - > statusV , set - > meas_info - > vN ) ;
}
}
if ( ( rc = objectToFile ( out_fname , root ) ) ! = kOkRC )
{
rc = cwLogError ( rc , " Perf. measurement JSON file write failed. " ) ;
goto errLabel ;
}
errLabel :
root - > free ( ) ;
return rc ;
}
cw : : rc_t cw : : perf_meas : : write_result_csv ( handle_t h , const char * out_fname )
{
rc_t rc = kOkRC ;
perf_meas_t * p = _handleToPtr ( h ) ;
file : : handle_t fH ;
if ( ( rc = file : : open ( fH , out_fname , file : : kWriteFl ) ) ! = kOkRC )
{
rc = cwLogError ( rc , " Perf. measure result file create failed on '%s'. " , cwStringNullGuard ( out_fname ) ) ;
goto errLabel ;
}
if ( ( rc = file : : printf ( fH , " section,set,type,op,value,missEvtN,missLocN,transposeLocN,interpLocN \n " ) ) ! = kOkRC )
{
rc = cwLogError ( rc , " Perf. measure title write failed. " ) ;
goto errLabel ;
}
for ( loc_t * loc = p - > locA ; loc < p - > locA + p - > locN ; + + loc )
if ( loc - > section ! = nullptr & & loc - > section - > calc ! = nullptr )
{
if ( ( rc = _write_result_vector ( fH , loc - > section , nullptr , " section " , " %f, " , loc - > section - > calc - > value , kValCnt ) ) ! = kOkRC )
{
rc = cwLogError ( rc , " Perf. measure file write result section header failed. " ) ;
goto errLabel ;
}
for ( set_t * set = loc - > section - > calc - > setL ; set ! = nullptr ; set = set - > clink )
{
if ( ( rc = file : : printf ( fH , " %s,%i,%s,summary,%f,%i,%i,%i,%i \n " ,
loc - > section - > section - > label ,
set - > set - > id ,
score_parse : : var_index_to_char ( set - > set - > varId ) ,
set - > value ! = std : : numeric_limits < double > : : max ( ) ? set - > value : 0 ,
set - > meas_info - > missEvtN ,
set - > meas_info - > missLocN ,
set - > meas_info - > transposeLocN ,
set - > meas_info - > interpLocN ) ) ! = kOkRC )
{
rc = cwLogError ( rc , " Perf. measure file write result failed. " ) ;
goto errLabel ;
}
if ( ( rc = _write_result_vector ( fH , loc - > section , set , " locSecV " , " %f, " , set - > meas_info - > locSecV , set - > set - > locN ) ) ! = kOkRC )
{
rc = cwLogError ( rc , " Perf.measure locSecV[] write result failed. " ) ;
goto errLabel ;
}
if ( ( rc = _write_result_vector ( fH , loc - > section , set , " locSecNV " , " %i, " , set - > meas_info - > locSecNV , set - > set - > locN ) ) ! = kOkRC )
{
rc = cwLogError ( rc , " Perf.measure locSecNV[] write result failed. " ) ;
goto errLabel ;
}
if ( ( rc = _write_result_vector ( fH , loc - > section , set , " dSecV " , " %f, " , set - > meas_info - > dSecV , set - > set - > locN ) ) ! = kOkRC )
{
rc = cwLogError ( rc , " Perf.measure dSecV[] write result failed. " ) ;
goto errLabel ;
}
if ( ( rc = _write_result_vector ( fH , loc - > section , set , " statusV " , " %i, " , set - > meas_info - > statusV , set - > set - > locN ) ) ! = kOkRC )
{
rc = cwLogError ( rc , " Perf.measure status[] write result failed. " ) ;
goto errLabel ;
}
}
}
if ( ( rc = file : : close ( fH ) ) ! = kOkRC )
{
rc = cwLogError ( rc , " Perf. meas. file close failed. " ) ;
goto errLabel ;
}
errLabel :
return rc ;
}
2023-09-13 00:30:53 +00:00