#include "cwCommon.h" #include "cwLog.h" #include "cwCommonImpl.h" #include "cwMem.h" #include "cwText.h" #include "cwObject.h" #include "cwMidi.h" #include "cwFileSys.h" #include "cwSfScore.h" #include "cwCsv.h" #include "cwNumericConvert.h" #include "cwTime.h" #include "cwSfScoreParser.h" #include "cwSfScore.h" namespace cw { namespace sfscore { typedef struct varMap_str { unsigned typeId; unsigned flag; unsigned endFl; const char* label; } varMap_t; typedef idLabelPair_t opcodeMap_t; opcodeMap_t _opcodeMapA[] = { { kTimeSigEvtScId, "tsg" }, { kKeySigEvtScId, "ksg" }, { kTempoEvtScId, "tmp" }, { kTrackEvtScId, "trk" }, { kTextEvtScId, "txt" }, { kNameEvtScId, "nam" }, { kEOTrackEvtScId, "eot" }, { kCopyEvtScId, "cpy" }, { kBlankEvtScId, "blk" }, { kBarEvtScId, "bar" }, { kPgmEvtScId, "pgm" }, { kCtlEvtScId, "ctl" }, { kNonEvtScId, "non" }, { kPedalEvtScId, "ped" }, { kInvalidId, "" } }; varMap_t _varMapA[] = { { kEvenVarScId, kEvenFl, 0, "e"}, { kEvenVarScId, kEvenFl | kEvenEndFl, kEvenEndFl, "E"}, { kDynVarScId, kDynFl, 0, "d"}, { kDynVarScId, kDynFl | kDynEndFl, kDynEndFl, "D"}, { kTempoVarScId,kTempoFl, 0, "t"}, { kTempoVarScId,kTempoFl | kTempoEndFl, kTempoEndFl, "T"}, { kInvalidId, 0, 0, ""} }; namespace parser { typedef struct dynRef_str { char* label; unsigned labelCharCnt; uint8_t vel; } dynRef_t; typedef struct sfscore_parser_str { unsigned dynRefN; dynRef_t* dynRefA; p_section_t* begSectionL; p_section_t* endSectionL; unsigned nextSetId; p_set_t* begSetL; p_set_t* endSetL; unsigned eventAllocN; unsigned eventN; p_event_t* eventA; } sfscore_parser_t; sfscore_parser_t* _handleToPtr( handle_t h ) { return handleToPtr(h); } unsigned _dyn_label_to_level( sfscore_parser_t* p, const char* dynLabel ) { const char* end; unsigned char_cnt; if( dynLabel == nullptr || textLength(dynLabel)==0 ) return kInvalidDynVel; end = nextWhiteCharEOS(dynLabel); assert(end != nullptr ); char_cnt = end - dynLabel; for(unsigned i=0; idynRefN; ++i) if( textCompare(p->dynRefA[i].label,dynLabel,char_cnt) == 0 ) return p->dynRefA[i].vel; cwLogError(kSyntaxErrorRC,"The dynamic label '%s' is not valid.",cwStringNullGuard(dynLabel)); return kInvalidDynVel; } rc_t _destroy( sfscore_parser_t* p ) { for(p_set_t* s = p->begSetL; s!=nullptr; ) { p_set_t* s0 = s->link; mem::release(s->eventA); mem::release(s); s = s0; } for(p_section_t* s = p->begSectionL; s!=nullptr; ) { p_section_t* s0 = s->link; mem::release(s->label); mem::release(s); s = s0; } for(p_event_t* e = p->eventA; eeventA+p->eventN; ++e) { mem::release(e->sciPitch); for(unsigned i=kMinVarScId; isectionLabelA[i]); } for(dynRef_t* d=p->dynRefA; ddynRefA + p->dynRefN; ++d) mem::release(d->label); mem::release(p->dynRefA); mem::release(p->eventA); mem::release(p); return kOkRC; } p_section_t* _find_section( sfscore_parser_t* p, const char* section_label) { for(p_section_t* s = p->begSectionL; s!=nullptr; s=s->link) if( textIsEqual(s->label,section_label) ) return s; return nullptr; } p_section_t* _create_section( sfscore_parser_t* p, const char* section_label, unsigned begEvtIdx ) { p_section_t* s; if((s = _find_section(p,section_label)) != nullptr ) { s = nullptr; cwLogError(kInvalidIdRC,"Duplicate section label (%s) detected.",cwStringNullGuard(section_label)); goto errLabel; } else { s = mem::allocZ(); s->label = mem::duplStr(section_label); s->begEvtIdx = begEvtIdx; if( p->endSectionL == nullptr ) { p->endSectionL = s; assert( p->begSectionL == nullptr ); p->begSectionL = s; } else { p->endSectionL->link = s; p->endSectionL = s; } } errLabel: return s; } // Once the var. spec. label is known to have a section id this function extracts the section label unsigned _parse_set_end_section_label( const char* label, const char*& sectionLabelRef ) { rc_t rc = kOkRC; const char* c = nullptr; sectionLabelRef = nullptr; // a label with a section will have internal whitespace if((c = nextWhiteChar(label)) == nullptr ) return rc; // advance past the white space to the first char of the section id if( (c=nextNonWhiteChar(c)) == nullptr ) goto errLabel; // parse the section id sectionLabelRef = c; return rc; errLabel: return cwLogError(kSyntaxErrorRC,"The section number could not be parsed from '%s'.",label); } // Parse the optional set section number following the var spec. label. rc_t _parse_var_set_section_label(sfscore_parser_t* p, p_event_t* e, const char* label, unsigned varTypeEndFlag, char*& sectionLabelRef ) { rc_t rc = kOkRC; const char* section_label = nullptr; sectionLabelRef = nullptr; // attempt to get the section id following the var marker if((rc = _parse_set_end_section_label(label,section_label)) != kOkRC ) goto errLabel; // if a section id was found then duplicate it if( section_label != nullptr ) { sectionLabelRef = mem::duplStr(section_label); e->flags |= varTypeEndFlag; } errLabel: return rc; } // A variable specification indicate how a note is to be measured. It is contained // in the 'tempo','even', and 'dyn' columns. The specification contains two parts: // a char string id ('t','e', (e.g. p,pp,mf,fff,etc)) followed by // an optional section identifier. The section identifer marks the end // of a 'set' of var. spec's and also idicates the section which will be modified // according to the measurements. rc_t _parse_var_spec( sfscore_parser_t* p, p_event_t* e, const char* mark_label, unsigned varTypeFlag, unsigned varTypeEndFlag, char*& sectionLabelRef ) { rc_t rc = kOkRC; unsigned flags = 0; sectionLabelRef = nullptr; if( mark_label==nullptr || textLength(mark_label)==0) return rc; switch( varTypeFlag ) { case kDynFl: if((e->dynVal = _dyn_label_to_level(p,mark_label)) == kInvalidDynVel ) { cwLogError(kSyntaxErrorRC,"Note dynamic var spec parse failed on label:%s",cwStringNullGuard(mark_label)); goto errLabel; } flags |= kDynFl; break; case kEvenFl: case kTempoFl: flags= var_label_to_type_flag(mark_label); break; default: rc = cwLogError(kSyntaxErrorRC,"The var spec flag '%s' is not valid.",cwStringNullGuard(mark_label)); goto errLabel; } if( cwIsFlag(e->flags,varTypeFlag ) ) { rc = cwLogError(kInvalidIdRC,"The var spec flag was expected to be '%s' but instead was '%s'.",var_type_flag_to_label(varTypeFlag),var_type_flag_to_label(flags)); goto errLabel; } // parse the optional section id. if((rc = _parse_var_set_section_label(p,e,mark_label,varTypeEndFlag,sectionLabelRef)) != kOkRC ) goto errLabel; e->flags |= flags; errLabel: return rc; } rc_t _parse_csv_note(sfscore_parser_t* p, p_event_t* e, uint8_t d0, uint8_t d1, const char* sciPitch, const char* evenLabel, const char* tempoLabel, const char* dynLabel) { rc_t rc = kOkRC; if( textLength(sciPitch)<2 ) { rc = cwLogError(kSyntaxErrorRC,"Blank or invalid scientific pitch."); goto errLabel; } if((rc = _parse_var_spec(p,e,evenLabel,kEvenFl,kEvenEndFl,e->sectionLabelA[kEvenVarScId] )) != kOkRC ) goto errLabel; if((rc = _parse_var_spec(p,e,tempoLabel,kTempoFl,kTempoEndFl,e->sectionLabelA[kTempoVarScId] )) != kOkRC ) goto errLabel; if((rc = _parse_var_spec(p,e,dynLabel,kDynFl,kDynEndFl,e->sectionLabelA[kDynVarScId])) != kOkRC ) goto errLabel; e->pitch = d0; e->vel = d1; e->sciPitch = mem::duplStr(sciPitch); errLabel: return rc; } rc_t _parse_csv_row( sfscore_parser_t* p, csv::handle_t& csvH, unsigned cur_line_idx, double& curSecRef, unsigned& curLocIdxRef, p_section_t*& curSectionRef, unsigned& curSectionNoteIdxRef, unsigned& curBarNumbRef, unsigned& curBarNoteIdxRef ) { rc_t rc = kOkRC; const char* opcodeLabel; const char* arg0; const char* evenLabel; const char* tempoLabel; const char* dynLabel; uint8_t d0,d1; const char* sectionLabel; p_event_t* e = p->eventA + p->eventN; // verify that there is an available slot in the event array if( p->eventN >= p->eventAllocN ) { rc = cwLogError(kBufTooSmallRC,"The event record array is too small."); goto errLabel; } if((rc = getv( csvH, "opcode",opcodeLabel, "evt", e->csvEventId, "micros",e->secs, "d0",d0, "d1",d1, "arg0",arg0, "bar",e->barNumb, "even",evenLabel, "tempo",tempoLabel, "t_frac",e->t_frac, "dyn",dynLabel, "section",sectionLabel )) != kOkRC ) { rc = cwLogError(rc,"Error parsing score CSV row." ); goto errLabel; } // validate the opcode if((e->typeId = opcode_label_to_id( opcodeLabel )) == kInvalidId ) { cwLogError(kSyntaxErrorRC,"The opcode type:'%s' is not valid.",cwStringNullGuard(opcodeLabel)); goto errLabel; } switch( e->typeId ) { case kBarEvtScId: if( curBarNumbRef != kInvalidId && e->barNumb != curBarNumbRef+1 ) { rc = cwLogError(kInvalidStateRC,"Missig bar number %i. Jumped from bar:%i to bar:%i.", curBarNumbRef+1,curBarNumbRef,e->barNumb); goto errLabel; } curBarNumbRef = e->barNumb; curBarNoteIdxRef = 0; break; case kCtlEvtScId: break; case kNonEvtScId: { if( e->secs != curSecRef ) { curSecRef = e->secs; curLocIdxRef += 1; } e->locIdx = curLocIdxRef; e->index = p->eventN; e->line = cur_line_idx; e->csvRowNumb = cur_line_idx+1; e->barNumb = curBarNumbRef; e->barNoteIdx = curBarNoteIdxRef++; if((rc = _parse_csv_note(p,e,d0,d1,arg0,evenLabel,tempoLabel,dynLabel)) != kOkRC ) { cwLogError(rc,"Note parse failed."); goto errLabel; } // if this event has a section label if( sectionLabel != nullptr and textLength(sectionLabel)>0 ) { // locate the section record if((curSectionRef = _create_section(p,sectionLabel,e->index)) == nullptr ) { rc = cwLogError(kOpFailRC,"The section label '%s' create failed.",cwStringNullGuard(sectionLabel)); goto errLabel; } curSectionNoteIdxRef = 0; } e->section = curSectionRef; e->sectionIdx = curSectionNoteIdxRef; curSectionNoteIdxRef += 1; p->eventN += 1; } break; default: cwLogError(kInvalidArgRC,"The opcode type '%s' is not valid in this context.",cwStringNullGuard(opcodeLabel)); goto errLabel; break; } errLabel: return rc; } rc_t _parse_events( sfscore_parser_t* p, csv::handle_t csvH ) { rc_t rc; unsigned cur_line_idx = 0; double curSec = 0; unsigned curLocIdx = 0; p_section_t* curSection = nullptr; unsigned curSectionNoteIdx = 0; unsigned curBarNumb = kInvalidId; unsigned curBarNoteIdx = 0; // get the line count from the CSV file if((rc = line_count(csvH,p->eventAllocN)) != kOkRC ) { rc = cwLogError(rc,"Score CSV line count failed."); goto errLabel; } // allocate the event array p->eventA = mem::allocZ(p->eventAllocN); do { cur_line_idx = cur_line_index(csvH); // advance the CSV line cursor switch(rc = next_line(csvH)) { case kOkRC: { if((rc = _parse_csv_row(p, csvH, cur_line_idx, curSec, curLocIdx, curSection, curSectionNoteIdx, curBarNumb, curBarNoteIdx )) != kOkRC ) goto errLabel; } break; case kEofRC: break; default: rc = cwLogError(rc,"CSV line iteration error on CSV event parse."); goto errLabel; } }while( rc != kEofRC ); rc = kOkRC; errLabel: if( rc != kOkRC ) rc = cwLogError(rc,"CSV parse failed on row number:%i.",cur_line_idx+1); return rc; } rc_t _parse_csv( sfscore_parser_t* p, const char* fname ) { rc_t rc = kOkRC; const char* titleA[] = { "id","trk","evt","opcode","dticks","micros","status","meta", "ch","d0","d1","arg0","arg1","bar","skip","even","grace", "tempo","t_frac","dyn","section","play_recd","remark" }; unsigned titleN = sizeof(titleA)/sizeof(titleA[0]); csv::handle_t csvH; // open the CSV file and validate the title row if((rc = create( csvH, fname, titleA, titleN )) != kOkRC ) { rc = cwLogError(rc,"Score CSV parse failed on '%s'.",fname); goto errLabel; } // parse the events if((rc = _parse_events(p, csvH )) != kOkRC ) goto errLabel; errLabel: if(rc != kOkRC ) rc = cwLogError(rc,"CSV parse failed on '%s'.",fname); destroy(csvH); return rc; } // Allocate a new set record. p_set_t* _alloc_set( sfscore_parser_t* p, unsigned varTypeId, p_event_t* beg_evt ) { p_set_t* s = mem::allocZ(); s->varTypeId = varTypeId; s->beg_event = beg_evt; s->id = p->nextSetId++; if( p->endSetL == nullptr ) { p->begSetL = s; p->endSetL = s; } else { p->endSetL->link = s; p->endSetL = s; } return s; } // Fill a set eventA[] by iterating from set->beg_event to 'end_event' // and storing all events of type set->varTypeid. rc_t _fill_set( sfscore_parser_t* p, p_set_t* set, p_event_t* end_event ) { rc_t rc = kOkRC; unsigned refVarFlag = var_type_id_to_flag(set->varTypeId); unsigned evtIdx = 0; set->eventA = mem::allocZ(set->eventN); assert( set->beg_event <= end_event ); for(p_event_t* e = set->beg_event; e<=end_event && evtIdx < set->eventN; ++e) if( cwIsFlag(e->flags,refVarFlag) ) set->eventA[evtIdx++] = e; if( evtIdx != set->eventN ) { rc = cwLogError(kOpFailRC,"%i events were located for set '%i' but %i were filled.",set->eventN,set->id,evtIdx); goto errLabel; } errLabel: return rc; } // Returns true if the event 'e' is the last event in a set of type 'varTypeId'. bool _is_end_of_set( sfscore_parser_t* p, unsigned varTypeId, p_event_t* e ) { unsigned varTypeMask = var_type_id_to_mask(varTypeId); // if this e is marked as end-of-set if( cwAllFlags(e->flags,varTypeMask) ) { if( e->index < p->eventN-1 ) { p_event_t* e1 = e + 1; // ... and the next event is at the same loc and also marked as end-of-set don't end the set if( e1->locIdx == e->locIdx && cwAllFlags(e1->flags,varTypeMask) ) { e->flags = cwClrFlag(e->flags,var_type_id_to_end_flag(varTypeId)); return false; } } return true; } return false; } // Register an event to the set to which it belongs. If the set does not exist then create it. // Setup pointers from the set to the event and the set to the event. rc_t _register_event_with_set( sfscore_parser_t* p, p_event_t* e, unsigned varTypeId, p_set_t*& setRef ) { rc_t rc = kOkRC; // if there is no set to register this event in then create a new set if( setRef == nullptr ) setRef = _alloc_set(p,varTypeId,e); setRef->eventN += 1; e->setA[ varTypeId ] = setRef; // if this event is marked as an end-of-set if( _is_end_of_set(p,varTypeId,e) ) { if((rc = _fill_set(p, setRef, e )) != kOkRC ) goto errLabel; setRef = nullptr; } errLabel: return kOkRC; } // Check for the existence of each var type on each event and then register the event with the set. rc_t _create_sets( sfscore_parser_t* p ) { rc_t rc = kOkRC; p_set_t* setA[ kScVarCnt ]; p_event_t* e = p->eventA; for(unsigned i=kMinVarScId; ieventA + p->eventN; ++e) { // for each possible var type for(unsigned refVarTypeId=0; refVarTypeIdflags,refVarTypeFlag) ) { // insert the event into a set if((rc = _register_event_with_set(p, e, refVarTypeId, setA[ refVarTypeId ])) != kOkRC ) { rc = cwLogError(rc,"Event '%s' set registration failed.",var_type_id_to_label(refVarTypeId)); goto errLabel; } } } } errLabel: return rc; } // Assign a target section to each set. Since only the last set of a consecutive set of sets // has a target section id this function iterates backwards throught the events, // notices the last event in the last set of a group of sets, and then propogates the // associated target section back to previous sets. rc_t _assign_set_sections(sfscore_parser_t* p ) { rc_t rc = kOkRC; // for each possible var type for(unsigned refVarTypeId=kMinVarScId; refVarTypeIdeventA + p->eventN - 1; // iterate backward through the event list for(; e>=p->eventA; --e) { // if this event is the end of a section for this variable type - then previous sets of this type will be assigned to this section if( e->sectionLabelA[refVarTypeId]!=nullptr ) { // locate the section if((section = _find_section( p, e->sectionLabelA[ refVarTypeId ] )) == nullptr ) { rc = cwLogError(kInvalidIdRC,"The section label '%s' at CSV line '%i' could not be found.", cwStringNullGuard(e->sectionLabelA[ refVarTypeId ]),e->csvRowNumb); goto errLabel; } } // if this event is assigned to a set of type refVarTypeId if( e->setA[ refVarTypeId ] != nullptr ) { // has this set already been assigned to a target if( e->setA[ refVarTypeId ]->target_section != nullptr && e->setA[ refVarTypeId ]->target_section != section ) { cwLogWarning("The set '%i' was previously assigned to a different section:'%s' and is now assigned to '%s'.", e->setA[ refVarTypeId ]->id, e->setA[ refVarTypeId ]->target_section->label, section->label); } // assign a section to this set e->setA[ refVarTypeId ]->target_section = section; } } } errLabel: return rc; } // Validate as many set invariants as possible. rc_t _validate_sets( sfscore_parser_t* p ) { rc_t rc = kOkRC; for(p_set_t* s = p->begSetL; s!=nullptr; s=s->link) { // the set must be assigned a target section if( s->target_section == nullptr ) { rc = cwLogError(kInvalidStateRC,"Set (id=%i) of type '%s' beginning at (csv row:%i bar:%i bni:%i) has not been assigned a target section.", s->id, var_type_id_to_label(s->varTypeId), s->beg_event->csvRowNumb, s->beg_event->barNumb, s->beg_event->barNoteIdx ); continue; } // tempo and even sets must have at least 3 members if( (s->varTypeId == kEvenVarScId || s->varTypeId == kTempoVarScId) && s->eventN < 3 ) { cwLogWarning("Set (id=%i) of type '%s' beginning at (csv row:%i bar:%i bni:%i) should have at least 3 members.", s->id, var_type_id_to_label(s->varTypeId), s->beg_event->csvRowNumb, s->beg_event->barNumb, s->beg_event->barNoteIdx ); continue; } p_event_t* e0 = nullptr; // for each set member for(unsigned i=0; ieventN; ++i) { p_event_t* e1 = s->eventA[i]; // the set->eventA[] must be filled with valid pointers if( e1 == nullptr ) { rc = cwLogError(kInvalidStateRC,"Set (id=%i) of type '%s' beginning at (csv row:%i bar:%i bni:%i) contains a NULL event.", s->id, var_type_id_to_label(s->varTypeId), s->beg_event->csvRowNumb, s->beg_event->barNumb, s->beg_event->barNoteIdx ); goto errLabel; } // the events contained in this set must also point to this set if( e1->setA[ s->varTypeId ] != s ) rc = cwLogError(kInvalidStateRC,"Set (id=%i) of type '%s' contains an event (csv row:%i bar:%i bni:%i) whose set pointer is not pointing to this set.", s->id, var_type_id_to_label(s->varTypeId), e1->csvRowNumb, e1->barNumb, e1->barNoteIdx ); // the events must be ordered in increasing time if( e0 != nullptr && e0->secs > e1->secs ) rc = cwLogError(kInvalidStateRC,"Set (id=%i) of type '%s' contains an event (csv row:%i bar:%i bni:%i) which is out of time order with the previous set event.", s->id,var_type_id_to_label(s->varTypeId), e1->csvRowNumb, e1->barNumb, e1->barNoteIdx ); // the locations must be ordered in increasing time if( e0 != nullptr && e0->locIdx > e1->locIdx ) rc = cwLogError(kInvalidStateRC,"Set (id=%i) of type '%s' contains an event (csv row:%i bar:%i bni:%i) which is out of loc. order with the previous set event.", s->id,var_type_id_to_label(s->varTypeId), e1->csvRowNumb, e1->barNumb, e1->barNoteIdx ); e0 = e1; } } errLabel: return rc; } // Set section targets must occur on events prior to the first event in the target section rc_t _validate_section_assignments( sfscore_parser_t* p ) { rc_t rc = kOkRC; // for each event for(p_event_t* e=p->eventA; eeventA+p->eventN; ++e) { // verify that this event has been assigned to a section if( e->section == nullptr ) { rc = cwLogError(kInvalidStateRC,"The event at csv row:%i bar:%i bni:%i was not assigned to a section.", e->csvRowNumb,e->barNumb,e->barNoteIdx); continue; } // for each possible var type that this event may belong to for(unsigned refVarTypeId=kMinVarScId; refVarTypeIdsetA[ refVarTypeId ] != nullptr ) { // verify that the target section for this set begins after this event if( textCompare(e->setA[ refVarTypeId ]->target_section->label,e->section->label) <= 0 ) { rc = cwLogError(kInvalidStateRC,"The target section for '%s' of the event at csv row:%i bar:%i bni:%i is after the event.", var_type_id_to_label(refVarTypeId),e->csvRowNumb,e->barNumb,e->barNoteIdx); continue; } } } return rc; } } } } unsigned cw::sfscore::opcode_label_to_id( const char* label ) { unsigned id; if((id = labelToId( _opcodeMapA, label, kInvalidId )) == kInvalidId ) cwLogError(kInvalidArgRC,"'%s' is not a valid event opcode type label.",cwStringNullGuard(label)); return id; } const char* cw::sfscore::opcode_id_to_label( unsigned opcode_id ) { const char* label; if((label = idToLabel( _opcodeMapA, opcode_id, kInvalidEvtScId)) == nullptr ) cwLogError(kInvalidArgRC,"The event opcode type id '%i' is not valid.",opcode_id); return label; } unsigned cw::sfscore::var_label_to_type_id( const char* label ) { if( label!=nullptr && textLength(label)>0 ) { char varLabel[] = { label[0],0 }; for(unsigned i=0; _varMapA[i].typeId != kInvalidId; ++i) if( textCompare(varLabel,_varMapA[i].label) == 0 ) return _varMapA[i].typeId; } cwLogError(kInvalidArgRC,"The variable label '%s' is not valid.",cwStringNullGuard(label)); return kInvalidId; } unsigned cw::sfscore::var_label_to_type_flag( const char* varLabel ) { if(varLabel==nullptr || textLength(varLabel) == 0) return 0; for(unsigned i=0; _varMapA[i].typeId != kInvalidId; ++i) if( textCompare(_varMapA[i].label,varLabel,textLength(_varMapA[i].label))==0 ) return _varMapA[i].flag; cwLogError(kInvalidArgRC,"The variable type label '%s' is not valid.",cwStringNullGuard(varLabel)); return 0; } const char* cw::sfscore::var_type_id_to_label( unsigned varTypeId ) { for(unsigned i=0; _varMapA[i].typeId != kInvalidId; ++i) if( _varMapA[i].typeId == varTypeId ) return _varMapA[i].label; cwLogError(kInvalidArgRC,"The variable type id '%i' is not valid.",varTypeId); return nullptr; } const char* cw::sfscore::var_type_flag_to_label( unsigned varTypeFlag ) { for(unsigned i=0; _varMapA[i].typeId != kInvalidId; ++i) if( _varMapA[i].flag == (varTypeFlag & kFlagMask) ) return _varMapA[i].label; return nullptr; } char cw::sfscore::var_type_flag_to_char( unsigned varTypeFlag ) { const char* s; if((s = var_type_flag_to_label(varTypeFlag)) != nullptr ) return *s; return ' '; } unsigned cw::sfscore::var_type_id_to_flag( unsigned varTypeId ) { for(unsigned i=0; _varMapA[i].typeId != kInvalidId; ++i) if( _varMapA[i].typeId == varTypeId && _varMapA[i].endFl == false ) return _varMapA[i].flag; return 0; } unsigned cw::sfscore::var_type_id_to_mask( unsigned varTypeId ) { for(unsigned i=0; _varMapA[i].typeId != kInvalidId; ++i) if( _varMapA[i].typeId == varTypeId && _varMapA[i].endFl ) return _varMapA[i].flag; return 0; } unsigned cw::sfscore::var_type_id_to_end_flag( unsigned varTypeId ) { for(unsigned i=0; _varMapA[i].typeId != kInvalidId; ++i) if( _varMapA[i].typeId == varTypeId && _varMapA[i].endFl ) return _varMapA[i].endFl; return 0; } unsigned cw::sfscore::var_type_flag_to_id( unsigned varTypeFlag ) { for(unsigned i=0; _varMapA[i].typeId != kInvalidId; ++i) if( _varMapA[i].flag == varTypeFlag ) return _varMapA[i].typeId; cwLogError(kInvalidArgRC,"The variable flag id '0x%x' is not valid.",varTypeFlag); return kInvalidId; } cw::rc_t cw::sfscore::parser::create( handle_t& hRef, const char* fname, const dyn_ref_t* dynRefA, unsigned dynRefN ) { rc_t rc; if((rc = destroy(hRef)) != kOkRC ) return rc; sfscore_parser_t* p = mem::allocZ(); p->dynRefN = dynRefN; p->dynRefA = mem::allocZ(p->dynRefN); for(unsigned i=0; idynRefN; ++i) { if( dynRefA[i].vel == kInvalidDynVel ) { cwLogError(kInvalidArgRC,"The value '%i' is reserved to mark invalid values and cannot be used in the dynamic reference array.",kInvalidDynVel); goto errLabel; } else { p->dynRefA[i].label = mem::duplStr(dynRefA[i].label); p->dynRefA[i].labelCharCnt = textLength(dynRefA[i].label); p->dynRefA[i].vel = dynRefA[i].vel; } } if((rc = _parse_csv( p, fname )) != kOkRC ) { rc = cwLogError(rc,"sfscore CSV parse failed."); goto errLabel; } if((rc = _create_sets(p)) != kOkRC ) { rc = cwLogError(rc,"sfscore var. set creation failed."); goto errLabel; } if((rc = _assign_set_sections(p)) != kOkRC ) { rc = cwLogError(rc,"sfscore set target section assignmet failed."); goto errLabel; } if((rc = _validate_sets( p )) != kOkRC ) { rc = cwLogError(rc,"sfscore set validation failed."); goto errLabel; } if((rc = _validate_section_assignments( p )) != kOkRC ) goto errLabel; hRef.set(p); errLabel: if( rc != kOkRC ) { rc = cwLogError(rc,"sfscore create failed on '%s'.",cwStringNullGuard(fname)); _destroy(p); } return rc; } cw::rc_t cw::sfscore::parser::destroy( handle_t& hRef ) { rc_t rc = kOkRC; sfscore_parser_t* p = nullptr;; if( !hRef.isValid() ) return rc; p = _handleToPtr(hRef); if((rc = _destroy(p)) != kOkRC ) return rc; hRef.clear(); return rc; } unsigned cw::sfscore::parser::event_count( handle_t h ) { sfscore_parser_t* p = _handleToPtr(h); return p->eventN; } const cw::sfscore::parser::p_event_t* cw::sfscore::parser::event_array( handle_t h ) { sfscore_parser_t* p = _handleToPtr(h); return p->eventA; } unsigned cw::sfscore::parser::section_count( handle_t h ) { sfscore_parser_t* p = _handleToPtr(h); unsigned n=0; for(p_section_t* s=p->begSectionL; s!=nullptr; s=s->link) ++n; return n; } const cw::sfscore::parser::p_section_t* cw::sfscore::parser::section_list( handle_t h ) { sfscore_parser_t* p = _handleToPtr(h); return p->begSectionL; } unsigned cw::sfscore::parser::set_count( handle_t h ) { sfscore_parser_t* p = _handleToPtr(h); unsigned n=0; for(p_set_t* s=p->begSetL; s!=nullptr; s=s->link) ++n; return n; } const cw::sfscore::parser::p_set_t* cw::sfscore::parser::set_list( handle_t h ) { sfscore_parser_t* p = _handleToPtr(h); return p->begSetL; } void cw::sfscore::parser::report( handle_t h ) { sfscore_parser_t* p = _handleToPtr(h); unsigned bar0 = 0; const char* sec0 = nullptr; const char* blank_str = " "; const char* sec_str = "S:"; const char* bar_str = "B:"; printf("e idx loc secs op sectn sdx bar bdx scip vel frac\n"); printf("----- ----- ------- --- ------ --- ----- --- ---- --- -----\n"); for(p_event_t* e = p->eventA; eeventA+p->eventN; ++e) { const char* d_bar_str = bar0 != e->barNumb ? bar_str : blank_str; const char* d_sec_str = e->section != nullptr && textIsEqual(sec0,e->section->label) ? blank_str : sec_str; bar0 = e->barNumb; if( e->section != nullptr ) sec0 = e->section->label; printf("%5i %5i %7.3f %3s %2s%4s %3i %2s%3i %3i %4s %3i %5.3f ", e->index, e->locIdx, e->secs, opcode_id_to_label(e->typeId), d_sec_str, e->section==nullptr ? " " : cwStringNullGuard(e->section->label), e->sectionIdx, d_bar_str, e->barNumb, e->barNoteIdx, e->sciPitch, e->vel, e->t_frac ); for(unsigned refVarTypeId=kMinVarScId; refVarTypeIdsetA[refVarTypeId] == nullptr ) printf(" "); else { unsigned varRefFlags = var_type_id_to_mask(refVarTypeId); const char* sect_label = e->setA[refVarTypeId]->target_section==nullptr ? "****" : e->setA[refVarTypeId]->target_section->label; printf("%c-%03i-%s ",var_type_flag_to_char(e->flags & varRefFlags), e->setA[refVarTypeId]->id, sect_label); } } printf("\n"); } } cw::rc_t cw::sfscore::parser::test( const char* fname, const dyn_ref_t* dynRefA, unsigned dynRefN ) { handle_t h; rc_t rc; if((rc = create(h,fname,dynRefA,dynRefN)) != kOkRC ) goto errLabel; errLabel: if( rc != kOkRC ) rc = cwLogError(rc,"Parser test failed."); rc_t rc1 = destroy(h); return rcSelect(rc,rc1); }