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# ifndef cmProc4_h
# define cmProc4_h
# ifdef __cplusplus
extern " C " {
# endif
typedef struct
{
unsigned smpIdx ; // time tag sample index for val
cmMidiByte_t val ; //
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bool validFl ; //
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} cmScFolBufEle_t ;
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typedef struct
{
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unsigned pitch ;
unsigned scEvtIdx ;
} cmScFolEvt_t ;
typedef struct
{
unsigned evtCnt ; //
cmScFolEvt_t * evtV ; // pitchV[pitchCnt]
unsigned scIdx ; // index of the score loc (into cmScoreEvt[]) at this location
int barNumb ; // bar number of this location
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} cmScFolLoc_t ;
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typedef struct
{
cmObj obj ;
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cmReal_t srate ; //
cmScH_t scH ; // score handle
unsigned bufN ; // event buffer count
cmScFolBufEle_t * bufV ; // event buffer bufV[bufN] - bufV[bufN-1] newest event, bufV[boi] oldest event
int locN ; // count of score locations
cmScFolLoc_t * loc ; // score loc[locN]
unsigned sbi ; // oldest score window index
unsigned sei ; // newest score window index
unsigned msln ; // minimum score look ahead count
unsigned mswn ; // maximum score window length
unsigned forwardCnt ; // count of score loc's to look ahead for a match to the current pitch when the optimal edit-dist alignment does not produce a match for the current pitch
unsigned maxDist ; // max. dist allowed to still consider matching
unsigned minVel ; // notes < minVel are ignored
bool printFl ; // true if pitch tracker reporting should be included
bool noBackFl ; // prevent the tracker from going backwards in time
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unsigned * edWndMtx ;
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unsigned missCnt ; // current consecutive unmatched notes
unsigned matchCnt ; // current consecutive matched notes
unsigned eventIdx ; // events since reset
unsigned skipCnt ; // notes skipped due to velocity
unsigned ret_idx ; // last tracked location
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} cmScFol ;
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cmScFol * cmScFolAlloc ( cmCtx * ctx , cmScFol * p , cmReal_t srate , cmScH_t scH , unsigned bufN , unsigned minWndLookAhead , unsigned maxWndCnt , unsigned minVel ) ;
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cmRC_t cmScFolFree ( cmScFol * * pp ) ;
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cmRC_t cmScFolInit ( cmScFol * p , cmReal_t srate , cmScH_t scH , unsigned bufN , unsigned minWndLookAhead , unsigned maxWndCnt , unsigned minVel ) ;
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cmRC_t cmScFolFinal ( cmScFol * p ) ;
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// Jump to a score location and reset the internal state of the follower.
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cmRC_t cmScFolReset ( cmScFol * p , unsigned scoreIndex ) ;
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// Give the follower a MIDI performance event. Only MIDI note-on events are acted upon;
// all others are ignored.
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unsigned cmScFolExec ( cmScFol * p , unsigned smpIdx , unsigned status , cmMidiByte_t d0 , cmMidiByte_t d1 ) ;
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//=======================================================================================================================
typedef struct
{
unsigned pitch ;
unsigned scEvtIdx ;
bool matchFl ;
} cmScTrkEvt_t ;
typedef struct
{
unsigned evtCnt ; //
cmScTrkEvt_t * evtV ; // evtV[evtCnt]
unsigned scIdx ; // index of the score event (into cmScoreEvt[]) at this location
int barNumb ; // bar number of this location
} cmScTrkLoc_t ;
typedef struct
{
cmObj obj ;
cmScFol * sfp ;
double srate ;
cmScH_t scH ;
unsigned locN ;
cmScTrkLoc_t * loc ;
unsigned minVel ;
unsigned maxWndCnt ;
unsigned minWndLookAhead ;
bool printFl ;
int curLocIdx ;
unsigned evtIndex ;
} cmScTrk ;
cmScTrk * cmScTrkAlloc ( cmCtx * ctx , cmScTrk * p , cmReal_t srate , cmScH_t scH , unsigned bufN , unsigned minWndLookAhead , unsigned maxWndCnt , unsigned minVel ) ;
cmRC_t cmScTrkFree ( cmScTrk * * pp ) ;
cmRC_t cmScTrkInit ( cmScTrk * p , cmReal_t srate , cmScH_t scH , unsigned bufN , unsigned minWndLookAhead , unsigned maxWndCnt , unsigned minVel ) ;
cmRC_t cmScTrkFinal ( cmScTrk * p ) ;
// Jump to a score location and reset the internal state of the follower.
cmRC_t cmScTrkReset ( cmScTrk * p , unsigned scoreIndex ) ;
// Give the follower a MIDI performance event. Only MIDI note-on events are acted upon;
// all others are ignored.
unsigned cmScTrkExec ( cmScTrk * p , unsigned smpIdx , unsigned status , cmMidiByte_t d0 , cmMidiByte_t d1 ) ;
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//=======================================================================================================================
//
// Simplified string alignment function based on Levenshtein edit distance.
//
enum { kEdMinIdx , kEdSubIdx , kEdDelIdx , kEdInsIdx , kEdCnt } ;
typedef struct
{
unsigned v [ kEdCnt ] ;
bool matchFl ;
bool transFl ;
} ed_val ;
typedef struct ed_path_str
{
unsigned code ;
unsigned ri ;
unsigned ci ;
bool matchFl ;
bool transFl ;
struct ed_path_str * next ;
} ed_path ;
/*
Backtracking :
m [ rn , cn ] is organized to indicate the mutation operations
on s0 [ 0 : rn - 1 ] or s1 [ 0 : cn - 1 ] during backtracking .
Backtracking begins at cell m [ rn - 1 , cn - 1 ] and proceeds
up and left toward m [ 0 , 0 ] . The action to perform during
backtracking is determined by examinging which values
int m [ ] . v [ 1 : 3 ] match m [ ] . v [ 0 ] .
Match Next Cell
Index Operation Location
- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
1 Substitute char s0 [ ri - 1 ] move diagonally ; up - left
2 Delete char s0 [ ri - 1 ] move up .
3 Delete char s1 [ ci - 1 ] move left .
( same as inserting blank
into after s [ ri - 1 ]
Note that more than one value in m [ ] . v [ 1 : 3 ] may match
m [ ] . v [ 0 ] . In this case the candidate solution branches
at this point in the candidate selection processes .
*/
typedef struct
{
const char * s0 ; // forms rows of m[] - mutate to match s1 - rn=strlen(s0)
const char * s1 ; // forms columns of m[] - target string - cn=strlen(s1)
unsigned rn ; // length of s0 + 1
unsigned cn ; // length of s1 + 1
ed_val * m ; // m[rn,cn]
unsigned pn ; // rn+cn
ed_path * p_mem ; // pmem[ 2*pn ];
ed_path * p_avl ; // available path record linked list
ed_path * p_cur ; // current path linked list
ed_path * p_opt ; // p_opt[pn] current best alignment
double s_opt ; // score of the current best alignment
} ed_r ;
// print the DP matrix ed_r.m[rn,cn].
void ed_print_mtx ( ed_r * r ) ;
// Initialize ed_r.
void ed_init ( ed_r * r , const char * s0 , const char * s1 ) ;
// Fill in the DP matrix.
void ed_calc_mtx ( ed_r * r ) ;
// Traverse the possible alignments in the DP matrix and determine the optimal alignment.
void ed_align ( ed_r * r ) ;
// Print the optimal alignment p_opt[]
void ed_print_opt ( ed_r * r ) ;
// Free resource allocated by ed_init().
void ed_free ( ed_r * r ) ;
// Main test function.
void ed_main ( ) ;
//=======================================================================================================================
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//=======================================================================================================================
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enum
{
kSaMinIdx ,
kSaSubIdx , // 'substitute' - may or may not match
kSaDelIdx , // 'delete' - delete a MIDI note
kSaInsIdx , // 'insert' - insert a space in the score
kSaCnt
} ;
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// Dynamic Programming (DP) matrix element
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typedef struct
{
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unsigned v [ kSaCnt ] ; //
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bool matchFl ; // if this is a substitute; is it also a match?
bool transFl ; // if this is a substitute; is this the second element in a reversed pair?
} cmScAlignVal_t ;
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// List record used to track a path through the DP matrix p->m[,]
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typedef struct cmScAlignPath_str
{
unsigned code ;
unsigned ri ;
unsigned ci ;
bool matchFl ;
bool transFl ;
unsigned locIdx ;
struct cmScAlignPath_str * next ;
} cmScAlignPath_t ;
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// Score note event record
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typedef struct
{
unsigned pitch ;
} cmScAlignScEvt_t ;
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// Score location record.
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typedef struct
{
unsigned evtCnt ; //
cmScAlignScEvt_t * evtV ; // evtV[evtCnt]
unsigned scLocIdx ; // scH score location index
int barNumb ; // bar number of this location
} cmScAlignLoc_t ;
typedef struct
{
unsigned locIdx ; // location assoc'd with this MIDI evt (cmInvalidIdx if not a positive-match)
unsigned cbCnt ; // count of times this event has been sent via the callback
unsigned mni ; // unique identifier for this event since previous call to cmScAlignReset().
unsigned smpIdx ; // time stamp of this event
unsigned pitch ; // MIDI note pitch
unsigned vel ; // " " velocity
} cmScAlignMidiEvt_t ;
typedef struct
{
unsigned locIdx ; // loc[] sync. location
unsigned smpIdx ; //
unsigned mni ; // MIDI event unique index
unsigned pitch ; // MIDI event pitch which may not match the score event pitch
unsigned vel ; // " " velocity
bool matchFl ;
bool transFl ;
bool foundFl ;
} cmScAlignResult_t ;
//
typedef void ( * cmScAlignCb_t ) ( void * cbArg , unsigned scLocIdx , unsigned mni , unsigned pitch , unsigned vel ) ;
typedef struct
{
cmObj obj ;
cmScAlignCb_t cbFunc ; //
void * cbArg ; //
cmScH_t scH ; //
double srate ; //
unsigned locN ; // length of loc[]
cmScAlignLoc_t * loc ; // loc[locN] score array
unsigned rn ; // length of midiBuf[] (mn+1)
unsigned cn ; // length of score window (scWndN+1)
unsigned mn ; // length of midiBuf[] (rn-1)
cmScAlignMidiEvt_t * midiBuf ; // midiBuf[ mn ]
unsigned mbi ; // index of first element in midiBuf[] - this is required because the MIDI buf fills from the end to the beginning
unsigned mni ; // index of event in midiBuf[p->mn] - increments on each note inserted into midiBuf[] - zeroed by cmScAlignReset().
cmScAlignVal_t * m ; // m[rn,cn]
unsigned pn ; // rn+cn
cmScAlignPath_t * p_mem ; // pmem[ 2*pn ];
cmScAlignPath_t * p_avl ; // available path record linked list
cmScAlignPath_t * p_cur ; // current path linked list
cmScAlignPath_t * p_opt ; // p_opt[pn] current best alignment
double s_opt ; // score of the current best alignment
unsigned esi ; // loc[] index of latest positive match
unsigned missCnt ; // count of consecutive trailing MIDI events without positive matches
unsigned scanCnt ;
bool printFl ;
unsigned begScanLocIdx ; // begin the search at this score locations scWnd[begScanLocIdx:begScanLocIdx+p->cn-1]
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unsigned begSyncLocIdx ; // initial sync location
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unsigned resN ; // count of records in res[] == 2*cmScoreEvtCount()
cmScAlignResult_t * res ; // res[resN]
unsigned ri ; //
int stepCnt ; // count of loc[] locations to step ahead/back during a cmScAlignStep() operation.
int maxStepMissCnt ; // max. consecutive trailing non-positive matches before a scan takes place.
} cmScAlign ;
cmScAlign * cmScAlignAlloc ( cmCtx * ctx , cmScAlign * p , cmScAlignCb_t cbFunc , void * cbArg , cmReal_t srate , cmScH_t scH , unsigned midiN , unsigned scWndN ) ;
cmRC_t cmScAlignFree ( cmScAlign * * pp ) ;
cmRC_t cmScAlignInit ( cmScAlign * p , cmScAlignCb_t cbFunc , void * cbArg , cmReal_t srate , cmScH_t scH , unsigned midiN , unsigned scWndN ) ;
cmRC_t cmScAlignFinal ( cmScAlign * p ) ;
void cmScAlignReset ( cmScAlign * p , unsigned begScanLocIdx ) ;
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cmRC_t cmScAlignExec ( cmScAlign * p , unsigned smpIdx , unsigned status , cmMidiByte_t d0 , cmMidiByte_t d1 ) ;
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bool cmScAlignInputMidi ( cmScAlign * p , unsigned smpIdx , unsigned status , cmMidiByte_t d0 , cmMidiByte_t d1 ) ;
// Scan from p->begScanLocIdx to the end of the score looking
// for the best match to p->midiBuf[].
// Returns the score location index which best matches the
// first note p->midiBuf[]. The score associated
// with this match is stored in s_opt.
unsigned cmScAlignScan ( cmScAlign * p , unsigned scanCnt ) ;
// Step forward/back by p->stepCnt from p->esi.
// If more than p->maxStepMissCnt consecutive MIDI events are
// missed then automatically run cmScAlignScan().
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// Return cmEofRC if the end of the score is encountered.
// Return cmSubSysFailRC if an internal scan resync. failed.
cmRC_t cmScAlignStep ( cmScAlign * p ) ;
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unsigned cmScAlignScanToTimeLineEvent ( cmScAlign * p , cmTlH_t tlH , cmTlObj_t * top , unsigned endSmpIdx ) ;
// Given a score, a time-line, and a marker on the time line scan the
// entire score looking for the best match between the first 'midiN'
// notes in each marker region and the score.
void cmScAlignScanMarkers ( cmRpt_t * rpt , cmTlH_t tlH , cmScH_t scH ) ;
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//=======================================================================================================================
typedef struct
{
unsigned mni ;
unsigned locIdx ;
unsigned pitch ;
unsigned vel ;
unsigned smpIdx ;
} cmScMeasMidi_t ;
typedef struct
{
cmScoreSet_t * set ; // A pointer to defining score set
unsigned bli ; // Begin index into sap->loc[].
unsigned eli ; // End index into sap->loc[].
unsigned bmi ; // Begin index into midi[].
unsigned emi ; // End index into midi[].
double * val ; // val[sap->eleCnt]
} cmScMeasSet_t ;
typedef struct
{
cmObj obj ;
cmScAlign * sap ;
unsigned mn ;
cmScMeasMidi_t * midi ;
} cmScMeas ;
cmScMeas * cmScMeasAlloc ( cmCtx * c , cmScMeas * p , double srate , cmScH_t scH ) ;
cmRC_t cmScMeasFree ( cmScMeas * * pp ) ;
cmRC_t cmScMeasInit ( cmScMeas * p , double srate , cmScH_t scH ) ;
cmRC_t cmScMeasFinal ( cmScMeas * p ) ;
cmRC_t cmScMeasExec ( cmScMeas * p , unsigned smpIdx , unsigned status , cmMidiByte_t d0 , cmMidiByte_t d1 , unsigned scLocIdx ) ;
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# ifdef __cplusplus
}
# endif
# endif