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- #ifndef cmProc4_h
- #define cmProc4_h
-
- #ifdef __cplusplus
- extern "C" {
- #endif
-
- //( { file_desc:"Processor Library 4" kw:[proclib]}
- //)
-
-
- //( { label:cmEditDist file_desc:"Simplified string alignment function based on Levenshtein edit distance." kw:[proc] }
-
- 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();
-
- //------------------------------------------------------------------------------------------------------------
- //)
-
- //( { label:cmScoreMatch file_desc:"Event oriented local score matching algorithm based on edit distance." kw:[proc] }
- enum
- {
- kSmMinIdx, //
- kSmSubIdx, // 'substitute' - may or may not match
- kSmDelIdx, // 'delete' - delete a MIDI note
- kSmInsIdx, // 'insert' - insert a space in the score
- kSmCnt
- };
-
- enum
- {
- kSmMatchFl = 0x01,
- kSmTransFl = 0x02,
- kSmTruePosFl = 0x04,
- kSmFalsePosFl = 0x08,
- kSmBarFl = 0x10,
- kSmNoteFl = 0x20
- };
-
- // Dynamic Programming (DP) matrix element
- typedef struct
- {
- unsigned v[kSmCnt]; // cost for each operation
- unsigned flags; // cmSmMatchFl | cmSmTransFl
- unsigned scEvtIdx;
- } cmScMatchVal_t;
-
- // List record used to track a path through the DP matrix p->m[,]
- typedef struct cmScMatchPath_str
- {
- unsigned code; // kSmXXXIdx
- unsigned ri; // matrix row index
- unsigned ci; // matrix col index
- unsigned flags; // cmSmMatchFl | cmSmTransFl
- unsigned locIdx; // p->loc index or cmInvalidIdx
- unsigned scEvtIdx; // scScore event index
- struct cmScMatchPath_str* next; //
- } cmScMatchPath_t;
-
- typedef struct cmScMatchEvt_str
- {
- unsigned pitch; //
- unsigned scEvtIdx; // scScore event index
- } cmScMatchEvt_t;
-
- // Score location record.
- typedef struct
- {
- unsigned evtCnt; // count of score events at this location (i.e. a chord will have more than one event at a given location)
- cmScMatchEvt_t* evtV; // evtV[evtCnt]
- unsigned scLocIdx; // scH score location index
- int barNumb; // bar number of this location
- } cmScMatchLoc_t;
-
- typedef struct
- {
- unsigned mni; // unique identifier for this MIDI note - used to recognize when the cmScMatcher backtracks.
- unsigned muid; // MIDI file event msg unique id (See cmMidiTrackMsg_t.uid)
- unsigned smpIdx; // time stamp of this event
- unsigned pitch; // MIDI note pitch
- unsigned vel; // " " velocity
- unsigned locIdx; // location assoc'd with this MIDI evt (cmInvalidIdx if not a matching or non-matching 'substitute')
- unsigned scEvtIdx; // cmScore event index assoc'd with this event
- } cmScMatchMidi_t;
-
- typedef struct
- {
- cmObj obj; //
- cmScH_t scH; // cmScore handle
- unsigned locN; //
- cmScMatchLoc_t* loc; // loc[locN]
- unsigned mrn; // max m[] row count (midi)
- unsigned rn; // cur m[] row count
- unsigned mcn; // max m[] column count (score)
- unsigned cn; // cur m[] column count
- unsigned mmn; // max length of midiBuf[] (mrn-1)
- unsigned msn; // max length of score window (mcn-1)
- cmScMatchVal_t* m; // m[mrn,mcn] DP matrix
- unsigned pn; // mrn+mcn
- cmScMatchPath_t* p_mem; // pmem[ 2*pn ] - path memory
- cmScMatchPath_t* p_avl; // available path record linked list
- cmScMatchPath_t* p_cur; // current path linked list
- cmScMatchPath_t* p_opt; // p_opt[pn] - current best alignment as a linked list
- double opt_cost; // last p_opt cost set by cmScMatchExec()
- } cmScMatch;
-
- /*
- 1) This matcher cannot handle multiple instances of the same pitch occuring
- at the same 'location'.
-
- 2) Because each note of a chord is spread out over multiple locations, and
- there is no way to indicate that a note in the chord is already 'in-use'.
- If a MIDI note which is part of the chord is repeated, in error, it will
- appear to be correct (a positive match will be assigned to
- the second (and possible successive notes)).
- */
-
- cmScMatch* cmScMatchAlloc( cmCtx* c, cmScMatch* p, cmScH_t scH, unsigned maxScWndN, unsigned maxMidiWndN );
- cmRC_t cmScMatchFree( cmScMatch** pp );
- cmRC_t cmScMatchInit( cmScMatch* p, cmScH_t scH, unsigned maxScWndN, unsigned maxMidiWndN );
- cmRC_t cmScMatchFinal( cmScMatch* p );
-
- // Locate the position in p->loc[locIdx:locIdx+locN-1] which bests
- // matches midiV[midiN].
- // The result of this function is to update p_opt[]
- // The optimal path p_opt[] will only be updated if the edit_cost associated 'midiV[midiN]'.
- // with the best match is less than 'min_cost'.
- // Set 'min_cost' to DBL_MAX to force p_opt[] to be updated.
- // Returns cmEofRC if locIdx + locN > p->locN - note that this is not
- // necessarily an error.
- cmRC_t cmScMatchExec( cmScMatch* p, unsigned locIdx, unsigned locN, const cmScMatchMidi_t* midiV, unsigned midiN, double min_cost );
-
- //------------------------------------------------------------------------------------------------------------
- //)
-
- //( { label:cmScoreMatcher file_desc:"MIDI score following algorithm based cmScoreMatch." kw:[proc] }
- typedef struct
- {
- unsigned locIdx; // index into cmScMatch_t.loc[]
- unsigned scEvtIdx; // score event index
- unsigned mni; // index of the performed MIDI event associated with this score location
- unsigned smpIdx; // sample time index of performed MIDI event
- unsigned muid; // MIDI file event msg unique id (See cmMidiTrackMsg_t.uid)
- unsigned pitch; // performed pitch
- unsigned vel; // performed velocity
- unsigned flags; // smTruePosFl | smFalsePosFl
- } cmScMatcherResult_t;
-
- struct cmScMatcher_str;
- typedef void (*cmScMatcherCb_t)( struct cmScMatcher_str* p, void* arg, cmScMatcherResult_t* rp );
-
- typedef struct cmScMatcher_str
- {
- cmObj obj;
- cmScMatcherCb_t cbFunc;
- void* cbArg;
- cmScMatch* mp;
- unsigned mn;
- cmScMatchMidi_t* midiBuf; // midiBuf[mn]
-
- cmScMatcherResult_t* res; // res[rn]
- unsigned rn; // length of res[] (set to 2*score event count)
- unsigned ri; // next avail res[] recd.
-
- double s_opt; //
- unsigned missCnt; // current count of consecutive trailing non-matches
- unsigned ili; // index into loc[] to start scan following reset
- unsigned eli; // index into loc[] of the last positive match.
- unsigned mni; // current count of MIDI events since the last call to cmScMatcherReset()
- unsigned mbi; // index of oldest MIDI event in midiBuf[]; stays at 0 when the buffer is full.
- unsigned begSyncLocIdx; // start of score window, in mp->loc[], of best match in previous scan
- unsigned initHopCnt; // max window hops during the initial (when the MIDI buffer fills for first time) sync scan
- unsigned stepCnt; // count of forward/backward score loc's to examine for a match during cmScMatcherStep().
- unsigned maxMissCnt; // max. number of consecutive non-matches during step prior to executing a scan.
- unsigned scanCnt; // current count of times a resync-scan was executed during cmScMatcherStep()
-
- bool printFl;
- } cmScMatcher;
-
- cmScMatcher* cmScMatcherAlloc(
- cmCtx* c, // Program context.
- cmScMatcher* p, // Existing cmScMatcher to reallocate or NULL to allocate a new cmScMatcher.
- double srate, // System sample rate.
- cmScH_t scH, // Score handle. See cmScore.h.
- unsigned scWndN, // Length of the scores active search area. ** See Notes.
- unsigned midiWndN, // Length of the MIDI active note buffer. ** See Notes.
- cmScMatcherCb_t cbFunc, // A cmScMatcherCb_t function to be called to notify the recipient of changes in the score matcher status.
- void* cbArg ); // User argument to 'cbFunc'.
-
- // Notes:
- // The cmScMatcher maintains an internal cmScMatch object which is used to attempt to find the
- // best match between the current MIDI active note buffer and the current score search area.
- // 'scWndN' is used to set the cmScMatch 'locN' argument.
- // 'midiWndN' sets the length of the MIDI FIFO which is used to match to the score with
- // each recceived MIDI note.
- // 'midiWndN' must be <= 'scWndN'.
-
- cmRC_t cmScMatcherFree( cmScMatcher** pp );
- cmRC_t cmScMatcherInit( cmScMatcher* p, double srate, cmScH_t scH, unsigned scWndN, unsigned midiWndN, cmScMatcherCb_t cbFunc, void* cbArg );
- cmRC_t cmScMatcherFinal( cmScMatcher* p );
-
- // 'scLocIdx' is a score index as used by cmScoreLoc(scH) not into p->mp->loc[].
- cmRC_t cmScMatcherReset( cmScMatcher* p, unsigned scLocIdx );
-
- // Slide a score window 'hopCnt' times, beginning at 'bli' (an
- // index into p->mp->loc[]) looking for the best match to p->midiBuf[].
- // The score window contain scWndN (p->mp->mcn-1) score locations.
- // Returns the index into p->mp->loc[] of the start of the best
- // match score window. The score associated
- // with this match is stored in s_opt.
- unsigned cmScMatcherScan( cmScMatcher* p, unsigned bli, unsigned hopCnt );
-
- // Step forward/back by p->stepCnt from p->eli.
- // p->eli must therefore be valid prior to calling this function.
- // If more than p->maxMissCnt consecutive MIDI events are
- // missed then automatically run cmScAlignScan().
- // Return cmEofRC if the end of the score is encountered.
- // Return cmSubSysFailRC if an internal scan resync. failed.
- cmRC_t cmScMatcherStep( cmScMatcher* p );
-
- // This function calls cmScMatcherScan() and cmScMatcherStep() internally.
- // If 'status' is not kNonMidiMdId then the function returns without changing the
- // state of the object. In other words the matcher only recognizes MIDI note-on messages.
- // If the MIDI note passed by the call results in a successful match then
- // p->eli will be updated to the location in p->mp->loc[] of the latest
- // match, the MIDI note in p->midiBuf[] associated with this match
- // will be assigned a valid locIdx and scLocIdx values, and *scLocIdxPtr
- // will be set with the matched scLocIdx of the match.
- // If this call does not result in a successful match *scLocIdxPtr is set
- // to cmInvalidIdx.
- // 'muid' is the unique id associated with this MIDI event under the circumstances
- // that the event came from a MIDI file. See cmMidiFile.h cmMidiTrackMsg_t.uid.
- // Return:
- // cmOkRC - Continue processing MIDI events.
- // cmEofRC - The end of the score was encountered.
- // cmInvalidArgRC - scan failed or the object was in an invalid state to attempt a match.
- // cmSubSysFailRC - a scan resync failed in cmScMatcherStep().
- cmRC_t cmScMatcherExec( cmScMatcher* p, unsigned smpIdx, unsigned muid, unsigned status, cmMidiByte_t d0, cmMidiByte_t d1, unsigned* scLocIdxPtr );
-
- void cmScMatcherPrint( cmScMatcher* p );
-
- //------------------------------------------------------------------------------------------------------------
- //)
-
- //( { label:cmScMeas file_desc:"Measure and report some differences between the score and the performance." kw:[proc] }
-
- typedef struct
- {
- cmScoreSet_t* sp; // ptr to this set in the score
-
- unsigned bsei; // begin score event index
- unsigned esei; // end score event index
-
- unsigned bsli; // beg score loc index
- unsigned esli; // end score loc index
-
- unsigned bli; // index into the cmScMatch.loc[] array of bsli
- unsigned eli; // index into the cmScMatch.loc[] array of esli
-
- double value; // DBL_MAX if the value has not yet been set
- double tempo; //
- double match_cost; // cost of the match to the performance divided by sp->eleCnt
-
-
- } cmScMeasSet_t;
-
- typedef struct
- {
- cmObj obj;
- double srate; //
- cmScMatch* mp; //
- unsigned mii; // next avail recd in midiBuf[]
- unsigned mn; // length of of midiBuf[] (init. to 2*cmScoreEvtCount())
- cmScMatchMidi_t* midiBuf; // midiBuf[mn]
-
- unsigned sn; // length of set[] (init. to cmScoreSetCount())
- cmScMeasSet_t* set; // set[sn]
-
- unsigned dn; // length of dynRef[]
- unsigned* dynRef; // dynRef[dn]
-
- unsigned nsi; // next set index to fill (this is the set[] we are waiting to complete)
- unsigned nsli; // next score location index we are expecting to receive
-
- unsigned vsi; // set[vsi:nsi-1] indicates sets with new values following a call to cmScMeasExec()
- unsigned vsli; // vsli:nsli-1 indicates cmScore loc's to check for section triggers following a call to cmScMeasExec()
- } cmScMeas;
-
- //
- // Notes:
- //
- // 1) midiBuf[] stores all MIDI notes for the duration of the performance
- // it is initialized to 2*score_event_count.
- //
- // 2) dynRef[] is the gives the MIDI velocity range for each dynamics
- // category: pppp-fff
- //
- // 3) See a cmDspKr.c _cmScFolMatcherCb() for an example of how
- // cmScMeas.vsi and cmScMeas.vsli are used to act on the results of
- // a call to cmMeasExec().
-
- cmScMeas* cmScMeasAlloc( cmCtx* c, cmScMeas* p, cmScH_t scH, double srate, const unsigned* dynRefArray, unsigned dynRefCnt );
- cmRC_t cmScMeasFree( cmScMeas** pp );
- cmRC_t cmScMeasInit( cmScMeas* p, cmScH_t scH, double srate, const unsigned* dynRefArray, unsigned dynRefCnt );
- cmRC_t cmScMeasFinal( cmScMeas* p );
-
- // Empty MIDI buffer and set the next set nsi and nsli to zero.
- cmRC_t cmScMeasReset( cmScMeas* p );
-
- // This function is called for each input MIDI note which is assigned a
- // score location by cmScMatcher.
- // 'mni' is the MIDI event index which uniquely identifies this MIDI event.
- // 'locIdx' is the location index into cmScMatcher.mp->loc[] associated with
- // this event.
- cmRC_t cmScMeasExec( cmScMeas* p, unsigned mni, unsigned locIdx, unsigned scEvtIdx, unsigned flags, unsigned smpIdx, unsigned pitch, unsigned vel );
-
- //=======================================================================================================================
-
- unsigned cmScAlignScanToTimeLineEvent( cmScMatcher* 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 );
-
- //------------------------------------------------------------------------------------------------------------
- //)
-
- //( { label:cmScMod file_desc:"Store and recall parameter information under score follower control." kw:[proc] }
- /*
-
- File format:
- {
- entry_group_label :
- [
- <loc> <mod> <var> <type> <params> // entry record
- ]
- }
-
-
- Syntax: <loc> <mod> <var> <type> <params>
- <loc> - score location
- <mod> - name of the modulator
- <var> - variable name
- <type> - type of operation (see Types: note below)
-
- <params>
-
- <min> - set a variable min value
- <max> - set a variable max value
- <rate> - limit how often a variable is transmitted while it is ramping
- <val> - type dependent value - see 'Types' below.
- <end> - ending value for a ramping variable
- <dur> - determines the length of time to get to the ending value
- <in> - set to '1' to indicate that this is an input variable
-
- The value of parameters may be literal numeric values or may refer to
- variables by their name.
-
- Types:
- set = set <var> to <val> which may be a literal or another variable.
- line = ramp from its current value to <val> over <dur> seconds
- sline = set <var> to <val> and ramp to <end> over <dur> seconds
- post = send a 'post' msg after each transmission (can be used to change the cross-fader after each msg)
- exec = execute the entry group <val>
- input = declare an 'input' variable and set its <min> and <max>.
- cross = generate an output value by interpolating between two preset values.
-
- */
- enum
- {
- kInvalidModTId,
- kDeclModTId, // declare a variable but do not associate a value with it (allows a variable to be connected to w/o sending a value)
- kSetModTId, // set variable to parray[0] at scLocIdx
- kLineModTId, // linear ramp variable to parray[0] over parray[1] seconds
- kSetLineModTId, // set variable to parray[0] and ramp to parray[1] over parray[2] seconds
- kPostModTId, //
- kExecModTId, // execute an entry group
- kInputModTId, // This is an 'input' variable.
- kCrossModTId // generate an output value by interpolating between two preset variable values
- };
-
- enum
- {
- kActiveModFl = 0x01, // this variable is on the 'active' list
- kCalcModFl = 0x02, // when this variable is used as a parameter it's value must be calculated rather than used directly.
- kInputModFl = 0x04 // this is an input variable
- };
-
- struct cmScModEntry_str;
-
- typedef enum
- {
- kInvalidModPId,
- kLiteralModPId, // this is a literal value
- kSymbolModPId //
- } cmScModPId_t;
-
- typedef struct cmScModParam_str
- {
- cmScModPId_t pid; // parameter type: literal or symbol
- unsigned symId; // symbol of external and internal variables
- double val; // value of literals
- } cmScModParam_t;
-
- // cmScModVar_t is used to track the value of a variable.
- typedef struct cmScModVar_str
- {
- unsigned flags; // see kXXXModFl flags above.
- unsigned varSymId; // variable name
- unsigned varId; // var id
- double value; // current value of this variable
- double v0; // reserved internal variable
- unsigned phase; // cycle phase since activation
- double min;
- double max;
- double rate; // output rate in milliseconds (use
- struct cmScModEntry_str* entry; // last entry assoc'd with this value
- struct cmScModVar_str* vlink; // p->vlist link
- struct cmScModVar_str* alink; // p->alist link
- } cmScModVar_t;
-
- // Each entry gives a time tagged location and some parameters
- // for an algorthm which is used to set/modulate a value.
- typedef struct cmScModEntry_str
- {
- unsigned scLocIdx; // entry start time
- unsigned typeId; // variable type
- cmScModParam_t beg; // parameter values
- cmScModParam_t end; //
- cmScModParam_t dur; //
- cmScModParam_t min; // min value for this variable
- cmScModParam_t max; // max value for this variable
- cmScModParam_t rate; // update rate in milliseconds (DBL_MAX to disable)
- cmScModParam_t arg; // cross input variable
- cmScModVar_t* varPtr; // target variable
- } cmScModEntry_t;
-
- typedef struct cmScModEntryGroup_str
- {
- unsigned symId; // this groups label
- cmScModEntry_t* earray; // entries associated with this group
- unsigned en; // earray[en]
- struct cmScModEntryGroup_str* link;
- } cmScModEntryGroup_t;
-
- typedef void (*cmScModCb_t)( void* cbArg, unsigned varSymId, double value, bool postFl );
-
- typedef struct
- {
- cmObj obj;
- cmChar_t* fn; // modulator score file
- unsigned modSymId; // modulator name
- cmSymTblH_t stH; // symbol table used by this modulator
- cmScModCb_t cbFunc; // active value callback function
- void* cbArg; // first arg to cbFunc()
- unsigned samplesPerCycle; // interval in samples between calls to cmScModulatorExec()
- double srate; // system sample rate
- cmScModVar_t* vlist; // variable list
- cmScModVar_t* alist; // active variable list
- cmScModVar_t* elist; // last element on the active list
- unsigned nei; // next entry index in xlist->earray[] to examine for activation
- unsigned outVarCnt; // count of unique vars that are targets of entry recds
- unsigned inVarCnt;
- bool postFl; // send a 'post' msg after each transmission
- cmScModEntryGroup_t* xlist; // entry group to execute
- cmScModEntryGroup_t* glist; // entry group list
- } cmScModulator;
-
-
- cmScModulator* cmScModulatorAlloc( cmCtx* c, cmScModulator* p, cmCtx_t* ctx, cmSymTblH_t stH, double srate, unsigned samplesPerCycle, const cmChar_t* fn, const cmChar_t* modLabel, cmScModCb_t cbFunc, void* cbArg );
- cmRC_t cmScModulatorFree( cmScModulator** pp );
- cmRC_t cmScModulatorInit( cmScModulator* p, cmCtx_t* ctx, cmSymTblH_t stH, double srate, unsigned samplesPerCycle, const cmChar_t* fn, const cmChar_t* modLabel, cmScModCb_t cbFunc, void* cbArg );
- cmRC_t cmScModulatorFinal( cmScModulator* p );
-
- // Return count of variables.
- unsigned cmScModulatorOutVarCount( cmScModulator* p );
-
- // Return a pointer to the variable at vlist[idx].
- cmScModVar_t* cmScModulatorOutVar( cmScModulator* p, unsigned idx );
-
- unsigned cmScModulatorInVarCount( cmScModulator* p );
- cmScModVar_t* cmScModulatorInVar( cmScModulator* p, unsigned idx );
-
-
- cmRC_t cmScModulatorSetValueMinMax( cmScModulator* p, unsigned varSymId, double value, double min, double max );
- cmRC_t cmScModulatorSetValue( cmScModulator* p, unsigned varSymId, double value );
-
- cmRC_t cmScModulatorReset( cmScModulator* p, cmCtx_t* ctx, unsigned scLocIdx, unsigned entryGroupSymId );
- cmRC_t cmScModulatorExec( cmScModulator* p, unsigned scLocIdx );
- cmRC_t cmScModulatorDump( cmScModulator* p );
-
- //------------------------------------------------------------------------------------------------------------
- //)
-
- //( { label:cmRecdPlay file_desc:"Record fragments of audio, store them,and play them back at a later time." kw:[proc] }
- //
- // Record fragments of audio, store them, and play them back at a later time.
- //
-
- typedef struct cmRecdPlayFrag_str
- {
- unsigned labelSymId; // this fragments label
- cmSample_t** chArray; // record buffer chArray[cmRecdPlay.chCnt][allocCnt]
- unsigned allocCnt; // count of samples allocated to each channel
- unsigned playIdx; // index of next sample to play
- unsigned recdIdx; // index of next sample to receieve audio (count of full samples)
- double fadeDbPerSec; // fade rate in dB per second
- unsigned fadeSmpIdx;
- struct cmRecdPlayFrag_str* rlink; // cmRecdPlay.rlist link
- struct cmRecdPlayFrag_str* plink; // cmRecdPlay.plist link
- } cmRecdPlayFrag;
-
- typedef struct
- {
- cmObj obj;
- cmRecdPlayFrag* frags; // frags[fragCnt] fragment array
- unsigned fragCnt; // count of fragments
- double srate; // system sample rate
- unsigned chCnt; // count of input and output audio channels
- double initFragSecs; // size initial memory allocated to each frag in seconds
- unsigned maxLaSmpCnt; // samples allocated to each channel of the look-ahead buffers.
- unsigned curLaSmpCnt; // current look-ahead time in samples (curLaSmpCnt<=maxLaSmpCnt)
- cmSample_t** laChs; // laChs[chCnt][maxLaSmpCnt] - look-ahead buffers
- int laSmpIdx; // next look-ahead buffer index to receive a sample
- cmRecdPlayFrag* plist; // currently playing frags
- cmRecdPlayFrag* rlist; // currently recording frags
- } cmRecdPlay;
-
-
- // srate - system sample rate
- // fragCnt - total count of samples to record
- // chCnt - count of input and output audio channels.
- // initFragSecs - amount of memory to pre-allocate for each fragment.
- // maxLaSecs - maximum value for curLaSecs
- // curLaSecs - current duration of look-ahead buffer
- //
- // The look-ahead buffer is a circular buffer which hold the previous 'curLaSecs' seconds
- // of incoming audio. When recording is enabled with via cmRecdPlayBeginRecord() the
- // look ahead buffer is automatically prepended to the fragment.
-
- cmRecdPlay* cmRecdPlayAlloc( cmCtx* c, cmRecdPlay* p, double srate, unsigned fragCnt, unsigned chCnt, double initFragSecs, double maxLaSecs, double curLaSecs );
- cmRC_t cmRecdPlayFree( cmRecdPlay** pp );
- cmRC_t cmRecdPlayInit( cmRecdPlay* p, double srate, unsigned flagCnt, unsigned chCnt, double initFragSecs, double maxLaSecs, double curLaSecs );
- cmRC_t cmRecdPlayFinal( cmRecdPlay* p );
-
- cmRC_t cmRecdPlayRegisterFrag( cmRecdPlay* p, unsigned fragIdx, unsigned labelSymId );
-
- cmRC_t cmRecdPlaySetLaSecs( cmRecdPlay* p, double curLaSecs );
-
- // Deactivates all active recorders and players, zeros the look-ahead buffer and
- // rewinds all fragment play positions. This function does not clear the audio from
- // frabments that have already been recorded.
- cmRC_t cmRecdPlayRewind( cmRecdPlay* p );
-
- cmRC_t cmRecdPlayBeginRecord( cmRecdPlay* p, unsigned labelSymId );
- cmRC_t cmRecdPlayEndRecord( cmRecdPlay* p, unsigned labelSymId );
- cmRC_t cmRecdPlayInsertRecord(cmRecdPlay* p, unsigned labelSymId, const cmChar_t* wavFn );
-
- cmRC_t cmRecdPlayBeginPlay( cmRecdPlay* p, unsigned labelSymId );
- cmRC_t cmRecdPlayEndPlay( cmRecdPlay* p, unsigned labelSymId );
-
- // Begin fading out the specified fragment at a rate deteremined by 'dbPerSec'.
- cmRC_t cmRecdPlayBeginFade( cmRecdPlay* p, unsigned labelSymId, double fadeDbPerSec );
-
- cmRC_t cmRecdPlayExec( cmRecdPlay* p, const cmSample_t** iChs, cmSample_t** oChs, unsigned chCnt, unsigned smpCnt );
- //)
-
-
- #ifdef __cplusplus
- }
- #endif
-
- #endif
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