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                    X3V1.8M/SD-7 Journal of Development
                    Standard Music Description Language
           Part Two: Technical Description and Formal Definition
          Editor: Alan D. Talbot, New England Digital Corporation
                               June 4, 1988




















































                               June 16, 1988





                                   - 2 -



CONTENTS

0       Introduction                                                    4
        0.1     Purpose of the Document                                 4
        0.2     Development Methodology                                 4
        0.3     Editorial Conventions                                   5
1       Scope and Field of Application                                  5
        1.1     Scope                                                   5
        1.2     Field of Application                                    6
3       References                                                      6
4       Definitions                                                     6
5       Notation                                                        8
6       Structure and Content                                           8
7       Work                                                            9
        7.1     Work Segment                                            10
        7.2     Work Segment Reference                                  11
8       Core                                                            11
        8.1     Thread                                                  12
        8.1.1   Core Event Sequence                                     13
        8.1.2   Core Event Group                                        14
        8.1.3   Core Events                                             14
        8.1.3.1 Notes and Rests                                         14
        8.1.3.2 Graced Events                                           15
        8.1.3.3 Special Events                                          16
        8.1.4   Core Event References                                   16
        8.2     Time                                                    16
        8.2.1   Beat                                                    16
        8.2.2   Duration                                                17
        8.3     Stress                                                  17
        8.3.1   Beat Number                                             17
        8.3.2   Stresses                                                18
        8.3.3   Meter                                                   18
        8.4     Tempo Sequence                                          18
        8.4.1   Tempo                                                   18
9       Gestural Domain                                                 20
        9.1     Track                                                   21
        9.1.1   Gestural Event Sequence                                 21
        9.1.2   Gestural Event Group                                    21
        9.1.3   Gestural Event                                          22
        9.1.4   Gestural Event Reference                                22
        9.2     Click Track                                             22
10      Visual Domain                                                   23
        10.1    Part                                                    23
        10.1.1  Visual Event Sequence                                   24
        10.1.2  Visual Event Group                                      24
        10.1.3  Visual Event                                            24
        10.1.4  Visual Event Reference                                  25
        10.2    Space                                                   25
11      Analytical Domain                                               25
        11.1    Voice                                                   26
        11.1.1  Analytical Event Sequence                               26
        11.1.2  Analytical Event Group                                  27
        11.1.3  Analytical Event                                        27



                               June 16, 1988





                                   - 3 -


        11.1.4  Analytical Event Reference                              27
12      Bibliographic                                                   27
        12.1    Theme                                                   28
13      Conformance                                                     28
Annex A                                                                 30
Annex B                                                                 40
        B.1     General Application                                     40
Annex C                                                                 42
        C.1     Definitions                                             42
        C.2     Structure                                               42
        C.3     Segregation                                             42
        C.4     Language                                                43
Annex D                                                                 44
        D.1     Structure                                               44
        D.2     Punctuation                                             44
Annex E                                                                 45









































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                                   - 4 -


0 Introduction

     This is the second part of a two part document describing the work  of
     ANSI  X3V1.8M,  the  Music  Information Processing Standards Committee
     (MIPS). The parts are known collectively as the  Journal  of  Develop-
     ment.

     "Part One: Objectives and Methodology" describes the objectives of the
     project and the development methodology employed.

     "Part Two: Technical Description and Formal Definition" describes  the
     language design itself, and provides a formal definition.

     This document and the other Standing Documents comprise the output  of
     the committee, while the other documents and material presented at the
     meetings provide the input.

          NOTES

     1.   The Journal of Development is maintained in  two  parts  only  to
          facilitate  maintenance  by  separate  individuals; the two parts
          should always be read as a single document. There is much in Part
          Two, for example, that may seem confusing or contentious if it is
          not read in the context established by Part One.

     2.   This introduction  appears  in  both  parts  of  the  Journal  of
          Development.

     3.   General information about the MIPS committee, including  a  guide
          to  participation, can be found in committee document X3V1.8M/SD-
          0.

0.1 Purpose of the Document

     The Journal of Development describes the status of the Standard  Music
     Description  Language  (SMDL) being developed by the Music Information
     Processing Standards (MIPS) Committee. It is intended as the technical
     and  methodological  design specification which will ultimately evolve
     into a Standard.

0.2 Development Methodology

     Both parts are revised by their respective editors after each  meeting
     of  the  committee.   As  a result, the documents never represent text
     that has been agreed on in detail by the committee, but only the  edi-
     tors'  best  efforts  to express the committee's ideas.  Moreover, the
     ideas in the journal are subject to further study and revision and  do
     not represent a final design.

     Eventually, the design work will reach a point where  all  aspects  of
     the  language have been addressed, although not necessarily finalized.
     At that point, the Journal of Development will cease to be the vehicle
     that  expresses  the  current language design.  Instead, the committee
     will produce one or more successive "working  drafts",  consisting  of



                               June 16, 1988





                                   - 5 -


     text that has been agreed to.

     During the Journal of Development and  working  draft  stages,  public
     comment  is  sought and considered, but the process is informal. When,
     eventually, the committee is satisfied with a working draft,  it  will
     recommend that X3V1.8 process the document as a "draft proposed Ameri-
     can National Standard". There  will  then  commence  a  formal  public
     review  and  ballot,  during  which  all  comments  received  will  be
     responded to in writing.

0.3 Editorial Conventions

     Formal standards can be complex documents in which every word has both
     legal and technical significance.  They may also need to be translated
     into other languages.  For these reasons, editorial  conventions  have
     been  established  to  assure precision, accuracy, and clarity (albeit
     often at the expense of readability by the general public).   The  key
     principles are:

     1.   Precise and consistent definitions of terms.

     2.   Distinguishing real requirements from mere  commentary,  explana-
          tions, and examples -- and from definitions.

     3.   Avoidance of redundancy.  (Repetition of a  requirement  is  nor-
          mally  expressed  as  a note, to avoid the question of which text
          governs if the "repetition" is imperfect.)

     Part Two of the Journal of Development observes some of the  editorial
     conventions  of a formal standard, but not yet with the strictness and
     consistency that will be required in the final document.  (See Annex C
     of Part 2 for details.)

1 Scope and Field of Application

     This section defines the range of applicability of  the  Standard.  It
     specifies  the  limits  of  what  the  Standard  can  be  expected  to
     represent, and what is outside the design criteria.

     NOTE: In order to proceed in a timely fashion, we found  it  necessary
     to  choose  a  subset of all possible music for the scope of the Stan-
     dard. As the design matures, we expect to expand the scope to meet any
     further needs of its users.

1.1 Scope

     This Standard defines a  language  for  the  representation  of  music
     information,  either  alone, or in conjunction with text, graphics, or
     other information needed for publishing  or  business  purposes.   The
     language  is  known  as  the "Standard Music Description Language", or
     "SMDL".

     NOTE: The Standard Music Description Language is an  SGML  application
     conforming  to International Standard ISO 8879 -- Standard Generalized



                               June 16, 1988





                                   - 6 -


     Markup Language.

     The SMDL is capable of representing  many  (but  not  all)  genres  of
     music,  and most (but not necessarily all) instances of works in those
     genres.  The  primary  focus  is  on  music  that  can  reasonably  be
     expressed in Standard Western Musical Notation.

     NOTE: The scope as defined  should  encompass  the  vast  majority  of
     music.   It  does  not  exclude the use of special symbols that can be
     placed in the score, nor of modern notational practices. The only cri-
     terion  is  that  the music be capable of representation as notes on a
     staff, regardless of whether it was actually written down that way, or
     even written down at all.

     The SMDL is designed for flexibility and extensibility. There  are  no
     technical  prohibitions against the use of some components without the
     whole, or against the use of user-defined  components  in  conjunction
     with  standardized  ones.  The  Standard includes a conformance clause
     that identifies minimum and higher  levels  of  support  in  terms  of
     standardized language components and options for user extensions.

1.2 Field of Application

     Pieces that are composed on computer devices,  pieces  that  exist  as
     printed scores, pieces that are performances recorded in a manner that
     permits machine transcription, and pieces that are already represented
     in  some  language,  are  all  within the field of application of this
     Standard.

     Pieces that have other sources, such as digital audio recordings,  can
     be associated and synchronized with pieces described in SMDL. They can
     exist as elements in the same document as SMDL works,  but  will  have
     their  own  representation  (document type definition and data content
     notations).

3 References

     ISO 8879, Information processing -- Text and office systems  --  Stan-
     dard Generalized Markup Language (SGML).

     X3V1.8M/SD-6 Journal of  Development  --  Standard  Music  Description
     Language -- Part One: Objectives and Methodology

4 Definitions

     The following items are used in a number of places in the text but are
     not explicitly defined. They are essential to the understanding of the
     Standard, and many have been assigned meanings which differ from  com-
     mon usage.

     4.1  analytical domain: The portion of a  work  which  contains  music
     theoretical analyses.

     4.2  analysis: A music theoretical analysis of the piece,  such  as  a



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                                   - 7 -


     Shenkerian  analysis. An examination of the piece as opposed to a ren-
     dition of the piece.

     4.3  beat: A relative time unit that is used for  measuring  durations
     in the core.

     NOTE: It should be the "felt" beat (tactus) if  known.  Otherwise,  it
     can  be chosen for convenience; for example, the smallest or most com-
     mon note value in the piece (i.e., 1/4, 1/8, 1/16, etc.)

     4.4  bibliographic data: Identification information  used  to  catalog
     and archive pieces of music (or any other works.)

     4.5  core: The portion of a work that represents the basis of  all  of
     the  performances,  scores, and analyses. The logical musical material
     as opposed to the performance or score specific material.

     NOTE: The core can be thought of mechanistically  as  the  information
     which  is  most convenient to share in common among the other domains,
     and among multiple instances in the same domain.  Philosophically,  it
     can  be  thought  of  as the information that is necessary (and in the
     case of conventional Western music,  sufficient)  to  distinguish  the
     piece from all others.

     4.6  gestural domain: The portion of a work that represents live  per-
     formance data such as precise timing and dynamic fluctuation.

     4.7  logical: The basic musical content of a piece of music,  such  as
     the  time values, pitch values, and basic groupings such as chords and
     tuplets.

     4.8  logical domain: The core.

     4.9  markup minimization: The elimination of redundant verbiage in the
     actual representation of a work.

     NOTE: SGML has been designed to allow this to happen naturally, so  it
     is not necessary to consider it in the initial design of the Standard.

     4.10 MIPS: Music  Information  Processing  Standards  Committee;  ANSI
     X3V1.8M.

     4.11 performance: A particular  realization  of  a  piece,  either  by
     mechanical means or by a musician.

     4.12 piece: A musical composition.

     4.13 real time unit: The basic unit of measurement of time in a  work;
     the smallest representable division of time.

     4.14 SGML:  Standard  Generalized  Markup  Language;  a  text   markup
     language and structured design tool. SGML is an International Standard
     and is fully defined and described in ISO 8879-1986.




                               June 16, 1988





                                   - 8 -


     4.15 SMDL: Standard Music Description Language; this Standard.

     4.16 score: A printed piece of music; an edition.

     4.17 tuplet: A group of notes which occur in a  different  time  frame
     than the surrounding notes; a time anomaly.

     NOTE: A triplet, a quintuplet, and a duplet in compound meter are  all
     tuplets.

     4.18 visual domain: The portion of a work which represents the  score;
     the music engraving information.

     4.19 work: The SMDL representation of a piece.

     NOTE: A work has four domains: core, gestural, visual, and analytical.
     In  addition,  bibliographic data can be associated with the work as a
     whole or with instances of any of the domains.

5 Notation

     This Standard is expected to be an SGML application, and the  develop-
     ment  is  proceding  using SGML as a design tool. For this reason, the
     formal syntactic and structural definitions in this  document  are  in
     SGML.  A brief discussion of SGML syntax and semantics can be found in
     Annex D. A complete and definitive treatise on SGML is  found  in  ISO
     8879-1986.

     It is intended that the text describing  each  element  and  attribute
     will be a complete definition and explanation, but the formal language
     of the SGML coding provides the rigorous  definitions  underlying  the
     text  descriptions,  and will show the mechanism behind each technique
     that is presented. For this reason, excerpts of the SGML encoding have
     been interspersed with the text at strategic points. It is recommended
     that the reader refer to the SGML in the text and  in  Annex  A  while
     reading the technical definitions.

     NOTE: In the case of conflict between the SGML excerpts  in  the  text
     and  the  formal  specification  in  Annex A, the SGML in Annex A will
     govern.

6 Structure and Content

     The Standard will be based on a hierarchical structure which describes
     a  piece in terms of four basic sections: the underlying musical form,
     a set of performances (presumably to be reproduced by  a  machine),  a
     set  of  scores  in the form of Standard Western Music Notation, and a
     set of theoretical analyses. We feel this structure best reflects  the
     conceptual  divisions  inherent in music in light of the uses to which
     the Standard will be put. These divisions may not represent the philo-
     sophically  most  elegant approach to the expression of musical ideas,
     but we feel they will they will be maximally useful.  This  separation
     of  the  whole  into  performance and score, and the extraction of the
     logical musical concepts, seems an  unavoidable  outcome  of  the  way



                               June 16, 1988





                                   - 9 -


     music  has come to be performed and notated, and has long been present
     in Western music.

     This hierarchical structure will be codified  in  terms  of  elements.
     Elements  are  basic structural building blocks which provide a frame-
     work and a means to relate and collect information. Each element has a
     related  information  set consisting of attributes. These will contain
     much of the actual data, as the element itself is  basically  a  place
     holder.  For  instance,  an  event  is an element, and may represent a
     note, in which case it will have attributes  describing  pitch,  dura-
     tion,  and  possibly  dynamic  level. Attributes can be defined by the
     user as well as the designer. This allows almost unlimited flexibility
     in  representing unusual material that may not have been foreseen dur-
     ing the design.

     The representational scheme is based on the separation  of  the  basic
     musical content (pitch, rhythm, harmony, etc.) from the purely perfor-
     mance oriented information (intonation, rhythmic  interpretation)  and
     the  purely  score oriented information (page layout, horizontal spac-
     ing, clef). This means simply that some process  or  machine  must  be
     able  to  separate  the  work into one or more of these categories for
     this Standard to represent  it.  (These  divisions  are  discussed  in
     detail  in  the  following clauses.) This is not to say that the piece
     must originate in a separated form, only that it can be separated  for
     the  purpose of encoding in the Standard. While it is possible to ima-
     gine pieces which are not separable in this way, almost all  works  in
     all genres are in fact easily separable.

7 Work

     NOTE: This and the following clauses are devoted to a detailed defini-
     tion  of  each  element  of the structure, and the information it con-
     tains. (A description of the applications of these elements  is  found
     in  Annex  B.)  Some  of  the  attributes  have  been  defined and are
     described below, but some have not yet been addressed. The  assumption
     is that every element will have an attribute list, containing at least
     an identification mark for reference by  other  elements.   Additional
     items  will be added to the attribute list as they are defined, but in
     the interests of top down design, we are concentrating on the  overall
     structure first, leaving the myriad and obfuscating details for later.

     The work is the top level of the hierarchy. The work  encompasses  the
     entire  document,  and  is defined as the logical musical information,
     and all of the performances, scores, and analyses that stem from  that
     musical  information. If a "piece" actually has several versions which
     differ in basic ways, those versions must each be a separate work. All
     of the remaining elements are contained within the work.

     The source is an attribute of a work which  indicates  what  form  the
     piece originated from. It distinguishes between a piece which was cap-
     tured from a MIDI stream, a piece which was  entered  from  a  printed
     score,  and a piece which was composed and entered as logical informa-
     tion.




                               June 16, 1988





                                  - 10 -


     The composer analysis attribute, if  present,  indicates  an  analysis
     which was created by the composer.

     NOTE: The intent is to label that information which is  definitive  as
     opposed to that which represents an opinion.

     The rtu base is a time reference which specifies the order  of  magni-
     tude  of  the timing in the work. It specifies the number of real time
     units (rtu) per second.

     NOTE: The intent is to allow a wide range of  pieces  to  be  realized
     with  an  implementation  of limited precision. If 32 bits are used to
     hold time values, for instance, setting rtubase to 1 will  give  about
     100  years  of  time  measurable  to  1 second accuracy. Setting it to
     1,000,000 will give about 1 hour at 1 microsecond accuracy.

                     <!-- 7  Work as a Whole -->
     <!ELEMENT work     -- Musical composition, piece, etc. --
                        - -      (bibdata?, workseg+, analysis*) >
     <!ATTLIST work     source   -- Origin of this representation of the work --
                                 (core | analysis | perform | score) #REQUIRED
                        companal -- Composer's analysis (may include core-like
                                 controlling factors that distinguish the work)--
                                 IDREF    #IMPLIED -- ID of analysis --
                        rtubase  -- Real Time Units per second (0=100,000,000) --
                                 NUMBER   10000 >


7.1 Work Segment

     The work segment is a structural device for dividing  the  work  along
     major  boundaries.  Workseg  is  defined  self-referentially  so  that
     repetitions and other constructs can be easily represented.

     Movements of a symphony would be placed in separate segments, as would
     acts in an opera or any other divisions that affect all aspects of the
     piece (i.e. all parts, all instruments, etc.) The segment will also be
     used  for  making  global  changes such as key changes, time signature
     changes and instrumentation changes. If the piece changes key or  time
     signature, that often affects every part and instrument, and indicates
     a major turning point in the music. In such cases, the material before
     the  change  should  be  in  one  segment,  and  the material after in
     another.

     One very important use of the work segment will be in cases where  the
     instrumentation  changes. If the piece starts out with full orchestra,
     and later proceeds with only strings, then two segments should be used
     to  separate  the  sections. This will greatly assist in maintaining a
     useful relationship between the threads in the core, the parts in  the
     score, and the tracks in the performance.

     Another use is to indicate the composer's intent. If the  composer  or
     the editor wants a major division in the work, the work segment can be
     used to indicate the division even though none of the above situations



                               June 16, 1988





                                  - 11 -


     apply.

     The class is a label indicating the use of the workseg. It is coded as
     a text string, not as a machine interpretable value.

     The delay indicates the expected pause (if any)  between  the  workseg
     and  any  following  workseg.  It  is coded as a text string, not as a
     machine interpretable value.


                      <!-- 7.1  Work Segment -->
     <!ELEMENT workseg  -- Sequential segment of a work: movement, act, etc. --
                        O O      ((workseg, (workseg | worksegr)+) |
                                 (bibdata?, core, perform*, score*)) >
     <!ATTLIST workseg  id       ID       #IMPLIED
                        class    -- E.g., movement, section, coda --
                                 CDATA    #IMPLIED  -- don't care --
                        delay    -- E.g., 15 minute intermission --
                                 CDATA    #IMPLIED  -- don't care -- >


7.2 Work Segment Reference

     The work segment reference is a structural tool to allow a  work  seg-
     ment  to  reference  other work segments. This provides flexibility in
     creating repeats and loops, and allows analyses to refer to work  seg-
     ments.


                      <!-- 7.2  Work Segment Reference -->
     <!ELEMENT worksegr -- Work segment reference --
                        - O      EMPTY    >
     <!ATTLIST worksegr idr      IDREF    #REQUIRED -- ID of any work segment -- >


8 Core

     The core is the basis for a work, and a work  has  one  and  only  one
     core.   The  core contains such information as pitch, note value, har-
     monic groupings, phrasings, tuplets, etc. A piece for which a core  is
     not  producible can not be represented, and a piece with more than one
     core must be represented as more than one work. We will see,  however,
     that several interpretations of the same basic piece can reside in the
     same work if they derive from the same core.

     Let us take the example of a simple piano piece. We have a performance
     captured by a MIDI sequencer, and the score from which the performance
     was played. The core will contain an element for each note and rest in
     the  score,  thus  representing the logical basis of the work. A given
     measure in the core may contain no notes, and the  corresponding  spot
     in the score may say "ad lib". At that point in the performance, there
     are several improvised notes. It is possible that another  performance
     with  a different improvised section, and another score which specifi-
     cally details a cadenza, might be included in this work and  be  based



                               June 16, 1988





                                  - 12 -


     on the same core.

     The normalized attribute states whether the core has been  normalized.
     It  may often be desirable that the core have a canonical (normalized)
     form.  That is, that there be one particular form which will always be
     used for a given piece. (Note that the definition of the core does not
     provide orthoganality, so there are many ways that a given piece could
     be  represented.)  For  such  situations,  an algorithm can be applied
     which translates any arbitrary core into a given canonical  form.  The
     user may create such an algorithm to fit the needs of the application,
     or the Standard Canonical Form can be  generated  using  the  Standard
     Algorithm.   We  plan to provide this Standard Algorithm both as a way
     of providing consistency between applications and as a model for other
     algorithms.

     The normalization algorithm attribute states which algorithm has  been
     used to normalize the core. If "standard" is used, it is expected that
     implementations will access the Standard Algorithm. If  another  algo-
     rithm  is  used  it  can be identified here, and may be implementation
     specific.


                           <!-- 8  Core -->
     <!ELEMENT core     -- The essential music, common to all domains --
                        - O      (stress*, temposeq+, thread+) >
     <!ATTLIST core     norm     -- Is core timing normalized? (7.5) --
                                 (norm | nonnorm) nonnorm >


8.1 Thread

     The thread is a sequence of musical events which lasts for  the  dura-
     tion  of  the piece. It is analogous to a track in a sequencer or on a
     multi-track tape deck. The purpose of the thread is to allow the  core
     to  be  sectioned  into  concurrent streams of notes and other events,
     mostly for the sake of convenience. There is no assumption made  about
     how  the  piece  will be divided into threads, but logic suggests that
     parts in a score, tracks in a sequence, or voices would  be  the  best
     choices of thread allocation.

     The tempo sequence attribute indicates which tempo sequence is  to  be
     used for this thread.

     The nominal instrument attribute records for posterity the  instrument
     that  the  composer  had in mind (in case anybody cares.) The point is
     that the gestural section, which contains the timbral information, may
     be  an interpretation by someone other than the composer. This will be
     encoded as a text string, not as coded timbral data such as  is  found
     in the gestural section.








                               June 16, 1988





                                  - 13 -




                         <!-- 8.1  Thread -->
     <!ELEMENT thread   -- Voice-like time-ordered sequence of events --
                        - O      (ces) >
     <!ATTLIST thread   id       ID       #IMPLIED
                        temposeq IDREF    #IMPLIED
                        nominst  CDATA    #IMPLIED -- Nominal instrument --
                        -- TO DO: other attributes -- >


8.1.1 Core Event Sequence

     A core event sequence is a collection of core events, other core event
     sequences, and core event groups. A core event sequence groups sequen-
     tial events, as in movements, measures or tuplets. These groups may be
     nested to any depth and combined in any way. Each thread is made up of
     a structure of core event sequences which is as complex as  is  neces-
     sary to represent the music completely.

     The time factor attribute is a fraction which describes the  relation-
     ship  of the beat inside a given sequence and the beat surrounding (or
     underneath) the sequence. Time anomalies (such as  triplets)  will  be
     represented  by  setting  the time factor to the correct fraction. For
     example, if the beat of a piece falls on the quarter note (so  quarter
     notes  have  a  time value of 1) and an eighth note triplet is encoun-
     tered, the triplet could be expressed as a sequence of three notes  of
     value  1 with a time factor of 1/3, or as a sequence of three notes of
     value 1/2 with a time factor of 2/3. It may turn out to  be  desirable
     to  specify  that  every event sequence must contain an integral (non-
     fractional) number of beats. This would not be limiting since a common
     denominator can be found for any situation.

     The stress id attribute is a reference to a stress pattern to use  for
     this sequence.

     The stress beat attribute is the offset (in  beats)  into  the  stress
     pattern  at  which the sequence starts. A common use for this would be
     for an anacrusis (pick-up measure).

     The ornamentation style attribute is a text string  which  allows  the
     composer or editor to record remarks on the ornamentation style of the
     sequence.

     NOTE: This attribute should perhaps modify stress instead.












                               June 16, 1988





                                  - 14 -




                 <!-- 8.1.1  Core Event Sequence -->
     <!ENTITY % FRAC    "NUMBERS" -- fraction: numerator, denominator? (=1) -- >
     <!ENTITY % m.ces   "(ces|ceg|note|rest|grcevent|special|cer)*" >
     <!ELEMENT ces      -- Core event sequence --
                        O O      (chordnm?, %m.ces;) >
     <!ATTLIST ces      id       ID       #IMPLIED
                        factor   -- ces beats / sum of subelement beats --
                                 %FRAC    "1 1"
                        stressid -- Beat cycle dynamic stress pattern --
                                 IDREF    #IMPLIED -- Default: no change --
                        stressbt -- Beat # of stress pattern on which ces begins --
                                 NUMBER   1        -- Not 1 only if anacrusis --
                        ornstyle -- Ornamentation style: e.g., period --
                                 CDATA #IMPLIED -- Default: no ornamentation -- >


8.1.2 Core Event Group

     The core event group is a collection of events or sequences which  are
     initiated  simultaneously.  A  chord  is a group which contains events
     (notes). A section of a thread  may  well  be  a  group  containing  a
     sequence  for  each of several parallel voices. This is an alternative
     to placing each voice in a separate thread.


                   <!-- 8.1.2  Core Event Group -->
     <!ELEMENT ceg      -- Core event group --
                        - -      %m.ces; >
     <!ATTLIST ceg      id       ID       #IMPLIED
                        -- TO DO: other attributes -- >



8.1.3 Core Events

     The core event is the basic unit of the structure. Notes and rests are
     examples of core events, but other occurrences may also be represented
     as events. In general an event is some occurrence or item which has  a
     single definable starting point in time, and a definable duration.

8.1.3.1 Notes and Rests

     The note and the rest are the most common  musical  events.  They  are
     very  similar  in  that they are simple events (as opposed to compound
     events like the graced event). The note has a  pitch  attribute  which
     specifies its scale tone and octave.









                               June 16, 1988





                                  - 15 -




                  <!-- 8.1.3.1  Notes and Rests -->
     <!ELEMENT (note | rest)
                        -- Conventionally pitched time-stamped event --
                        - O      EMPTY >

     <!ATTLIST (note | rest)
                        id       ID       #IMPLIED
                        %a.ctime;
                        -- TO DO: other attributes -- >



8.1.3.2 Graced Events

     The graced event is a compound event in that it  consists  of  a  main
     event  ornamented  by  a  "grace"  modifier.  The modifier is an event
     sequence which can either precede or follow the main event, and  which
     will not consume time as will a normal sequence.

     The preceding grace modifier is an event sequence which  starts  at  a
     given  time  and proceeds until finished, at which time the grace sub-
     ject is started.

     The grace subject is the main event. It  starts  after  the  preceding
     modifier  and  continues  until  the end of its duration, or until the
     start of a posterior modifier.

     The posterior grace modifier starts at a given  time  after  the  main
     event has started, and proceeds until finished.

     The  grace  synchronization  attribute  specifies  the  starting  time
     offsets  of the preceding and posterior modifiers. It is measured from
     the start time of the subject,  and  the  end  time  of  the  subject,
     respectively.


                   <!-- 8.1.3.2  Graced Event -->
     <!ELEMENT grcevent -- Graced core event --
                        - O      ((grcpre, grcsubj) | (grcpre?, grcsubj, grcpost))>
     <!ATTLIST grcevent id       ID       #IMPLIED >
     <!ELEMENT (grcpre | grcpost)
                        -- Core event whose duration is not counted --
                        - O      %m.ces; >
     <!ATTLIST (grcpre | grcpost)
                        id       ID       #IMPLIED
                        -- Synchronization with subject:
                           start-time in the case of grcpre
                           end-time in the case of grcpref --
                        grcsync  (lead | lag) lead >
     <!ELEMENT grcsubj  -- Grace sequence subject: that which is graced --
                        O O      (note | rest | special | cer) >




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                                  - 16 -


8.1.3.3 Special Events

     The special event contains user defined information about timed events
     other  than  conventional musical occurrences. Its content (other than
     starting time and duration) will be application specific.


                   <!-- 8.1.3.3  Special Events -->
     <!ELEMENT special  -- User-defined time-stamped event: content describes it --
                        - O      (#PCDATA) >
     <!ATTLIST special  id       ID       #IMPLIED
                        %a.ctime;
                        -- TO DO: other attributes -- >


8.1.4 Core Event References

     Core events are accessed through  core  event  references.  These  are
     pointers which allow the core to be referred to in arbitrarily complex
     ways by the performance, score, and analysis sections  of  the  piece.
     This  process  will  be  explored in more depth in Theory of Use. This
     structure yields a very flexible system for organizing  and  referring
     to events.


                 <!-- 8.1.4  Core Event Reference -->
     <!ELEMENT cer      -- Reference to core event, sequence, or group --
                        - O      EMPTY    >
     <!ATTLIST cer      idr      IDREF    #REQUIRED -- ID of ces|ceg|ce --
                        shift    NUTOKEN  0         -- Transposition in steps --
                        -- TO DO: other event modifier attributes -- >


8.2 Time

     It is in the core that the time of the piece is represented.  By  time
     we  mean  the rhythmic relationship of each event to all other events.
     This is not to be confused with tempo, which refers  to  the  rate  of
     progress  of  the  piece.  The time model has several components which
     combine to form a system which we hope will account for any  situation
     within the scope of the Standard.

8.2.1 Beat

     All time must be measured in relation to some base which is  not  open
     to  interpretation.  That  base  will  be called the beat. The beat is
     defined to be that time interval which, at  any  given  point  in  the
     piece,  is  small enough to divide without remainder into all existing
     subdivisions of the sequence, excluding time anomalies. This beat will
     only  be  assigned  an  absolute value in the gestural section; in the
     core it is simply a common reference. If the beat changes  in  meaning
     as  the  piece  progresses,  then the core will be sectioned into more
     than one sequence.  Each sequence will specify  the  relation  of  its
     beat to an overall reference beat.



                               June 16, 1988





                                  - 17 -


     Since the beat is a  relative  measurement,  the  performance  can  be
     linked  to any time base that is appropriate. The beat can be assigned
     a fixed duration, an algorithmically generated variable  duration,  or
     be related to a live recorded click track. Similarly the score can use
     any appropriate time signature for a given  passage.  The  same  piece
     could,  for  example,  be  scored  in  4/4  as  triplets or in 12/8 as
     straight eighths. Indeed, a score representation in each  meter  could
     refer to the same core.

8.2.2 Duration

     Each core event will have a  music  duration  (note  value)  attribute
     which  is  stated as a fraction of a beat. The time consumed by a core
     event sequence will be the sum of  the  durations  of  its  events  in
     beats.   Accumulated time is therefore represented as the sum of dura-
     tional time,  necessitating  the  definition  of  events  which  sound
     (notes), and events which do not (rests).

     The model will support single events or tied events. Tied  events  are
     strings of events which are taken together to represent one event with
     a duration that is the sum of each of the individual durations. When a
     note  starts  sounding  in  one  event sequence and continues into the
     next, the note is split into two tied events of the appropriate  dura-
     tion. The tie attribute indicates that the event is tied, and to which
     subsequent event it is tied.


                          <!-- 8.2  Time -->
     <!ENTITY % BEATS   "%FRAC;" -- Measure of music time (fractional) -- >
     <!ENTITY % a.ctime   -- Core event time attributes (7.2) --
                          "musicdur %BEATS #CURRENT  tie IDREF #IMPLIED" >


8.3 Stress

     The stress element indicates how a passage is to be  stressed  dynami-
     cally.  It consists of a set of template sequences that indicate which
     beats are to receive what stress. Stress can be dynamic, agogic (tempo
     related), or can be related to other user specified parameters.

     The beat count attribute indicates the number of beats in the template
     cycle.


                        <!-- 8.3  Stress -->
     <!ELEMENT stress   -- Beat cycle definition; dynamic stress pattern --
                        - O      (beatnum, stresses)+ >
     <!ATTLIST stress   id       ID       #IMPLIED
                        beatcnt  NUMBER   #REQUIRED -- Number of beats in cycle -->


8.3.1 Beat Number

     The beat number element marks a particular beat in a stress  cycle  as



                               June 16, 1988





                                  - 18 -


     receiving stress.


     <!ELEMENT beatnum  -- Beat number receiving agogic or dynamic stresses --
                        O O      (#PCDATA) >



8.3.2 Stresses

     The stresses element contains information on what kind of stress is to
     be applied to the beat with which it is associated.


     <!ELEMENT stresses -- Stresses applied to specified beat --
                        O O      (#PCDATA) >



8.3.3 Meter

     The concept of meter is expressible in the core by creating  a  stress
     template  which  models  a measure. In 4/4 time, a template may have 4
     beats, and may mark the first as having maximum stress, and the  third
     as  having moderate stress. In the case of a complex metric situation,
     such as a measure of five which is felt as two  and  three,  a  nested
     structure  of  stress templates can be used to accurately indicate the
     feel. If ambiguity is desired however, the measure can be  represented
     as simply five beats.

     NOTE: The inclusion of the meter in the core reflects  the  philosophy
     that  measures  are  a  basic  logical  concept  in music, rather than
     strictly a score related issue. This is  certainly  not  true  of  all
     music, but the facility must be there for those pieces for which it is
     important.

8.4 Tempo Sequence

     The tempo sequence element is a list of time stamped  tempo  modifica-
     tions  which  govern  the  tempo of the piece. Each thread refers to a
     particular tempo sequence; there can be several if the piece  involves
     conflicting tempi.


                         <!-- 8.4  Tempo -->
     <!ELEMENT temposeq -- Relates music time to real time (may be imprecise) --
                        - O      (tempo+) >
     <!ATTLIST temposeq id       ID       #IMPLIED >


8.4.1 Tempo

     The tempo element is the basic building block of the  tempo  sequence.
     It  specifies a tempo change from the current tempo to a target tempo.



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                                  - 19 -


     (The current tempo is the tempo in effect infinitesimally  before  the
     start  time  of  the  tempo  element. The target tempo is the tempo in
     effect infinitesimally before the start time of the  next  tempo  ele-
     ment.)  The  attributes  have  been  defined to give a large degree of
     flexibility in specifying changes over time, and maintaining ambiguity
     and imprecision when desired.

     The music duration attribute specifies the life of this tempo  setting
     (the time until the next change) in beats.

     The set value attribute specifies a precise target tempo, either abso-
     lutely in rtu's per beat or as a percentage of the current tempo.

     The set text attribute specifies an imprecise target tempo. The  value
     is represented as a text string, and presumably will be a common musi-
     cal expression such as "presto" or "moderato".

     The rate value attribute specifies a precise formula for reaching  the
     target  tempo  from the current tempo. It can be specified as "immedi-
     ate" (instant change at the start time of the tempo element), "linear"
     over the duration of the tempo element, or represented by a mathemati-
     cal formula in the form of a text string.

     The rate text attribute specifies an imprecise  formula  for  reaching
     the target tempo from the current tempo. The value is represented as a
     text string, and presumably will be a common musical  expression  such
     as "accelerando" or "ritardando".

     The hold duration attribute specifies a precise pause in the  counting
     of  music  time.  Its value is absolute in beats. It can be used for a
     fermata, a full stop, or any other pause or interruption of the normal
     time  flow  of  the  piece, such as an unaccompanied solo cadenza. The
     hold starts at the starting time of the tempo element, and  the  tempo
     duration begins at the completion of the hold.

     The hold type attribute specifies an imprecise pause in  the  counting
     of  music  time. It can be specified as "full stop", "long", "medium",
     "short", "none", in non-increasing order of length.  The  actual  time
     value of these specifiers is implementation dependant. The hold starts
     at the starting time of the tempo  element,  and  the  tempo  duration
     begins at the completion of the hold.

     The strictness attribute specifies the precision with which the  tempo
     should  be followed during a realization of the piece. It is specified
     as "strict tempo", or represented by a text string containing a common
     musical expression such as "rubato".











                               June 16, 1988





                                  - 20 -




     <!ELEMENT tempo    -- Real time units per beat --
                        - O      (#PCDATA) >
     <!ATTLIST tempo    id       ID       #IMPLIED
                        musicdur -- Duration of tempo setting in music time --
                                 %BEATS   #CURRENT
                        setval   -- Precise final tempo: RTUs/beat (integer #RTU)
                                    or % of earlier tempo (%FRAC idref) --
                                 CDATA    #CURRENT
                        settext  -- Imprecise final tempo: moderato --
                                 CDATA    #IMPLIED -- Default: use setval --

                        rateval  -- Precise rate of reaching final tempo --
                                 -- Format: (LINEAR | FORMULA data) --
                                 CDATA    #IMPLIED -- Default: immediate --
                        ratetext -- Imprecise rate specification: accel, ritard --
                                 CDATA    #IMPLIED -- Default: use rateval --
                        strict   -- Strictness of interpretation: rubato --
                                 CDATA    #IMPLIED -- Default: strict tempo --
                        holdtype -- Imprecise extension of counted duration --
                                 (fullstop|long|medium|short|none) none
                        holddur  -- Precise duration of hold --
                                 %BEATS   #CURRENT >


9 Gestural Domain

     The gestural section of the piece  contains  the  performances.  While
     each  work  has  only one core, it may have several gestural sections,
     each a different performance (and hence different  interpretation)  of
     the  piece, and each linked to a particular score The gestural section
     refers to the core for the majority of its musical material,  but  may
     have  events of its own. Usually these events will be ad lib notes and
     performance control information such as volume  or  timbre  selection.
     The  gestural  section  is intended to represent data for an automated
     performance of the piece. That data could be generated by a live  per-
     formance  or  by  non-real-time  composition,  then returned to a syn-
     thesizer for realization.

     The performance is the top level gestural  element.  Each  performance
     typically realizes the entire piece.

     The score attribute identifies a score  in  the  visual  domain  which
     represents  the  edition  which  produced  this performance, if such a
     score exists.

     The closure attribute indicates whether every event in  the  core  was
     realized in this performance.








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                                  - 21 -




                      <!-- 9  Gestural Domain -->
     <!ELEMENT perform  -- The gestures of a performance (MIDI) --
                        - O      (bibdata?, clicktrk*, track+) >
     <!ATTLIST perform  id       ID       #IMPLIED
                        score    IDREFS   #IMPLIED
                        closure  -- Are all core events referenced? --
                                 (closed, open) open >



9.1 Track

     The track is analogous to the thread in the core. It will be  used  to
     drive  one  channel of sound output, or one instrument. It is the pre-
     cise counterpart of a track on a multi-track. Unlike the  thread,  the
     division  of  music  into tracks may need to follow certain restraints
     imposed by the device that will perform the piece. For example a track
     may  have  to be limited to events which are to sound in the same tim-
     bre.

     A track is made up of gestural event sequences, which are made  up  of
     gestural events, gestural event references, and core event references.
     It is through these core event references that the  core  becomes  the
     basis  of the gestural section. While it would be possible through the
     use of gestural events to represent a performance that  was  unrelated
     to  the core, the intention is that the track will contain mostly per-
     formance control information, and refer to the core for most or all of
     the notes, rests, and other basic conceptual material.


                         <!-- 9.1  Track -->
     <!ELEMENT track    -- One instrument's time-ordered sequence of gestures --
                        - O      (ges)   >
     <!ATTLIST track    id       ID       #IMPLIED
                        instrum  CDATA    #IMPLIED
                        clicktrk IDREF    #IMPLIED
                        -- TO DO: other attributes -- >


9.1.1 Gestural Event Sequence

               <!-- 9.1.1  Gestural Event Sequence -->
     <!ENTITY % e.ge    "ge" -- TO DO: replace with real element types -- >
     <!ENTITY % m.ges   "(ges | geg | %e.ge; | ger | gcer)*" >
     <!ELEMENT ges      -- Gestural event sequence (has core references) --
                        O O      %m.ges; >
     <!ATTLIST ges      id       ID       #IMPLIED
                        -- TO DO: other attributes -- >


9.1.2 Gestural Event Group




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                                  - 22 -



               <!-- 9.1.2  Gestural Event Group -->
     <!ELEMENT geg      -- Gestural event group (has core references) --
                        - -      %m.ges; >
     <!ATTLIST geg      id       ID       #IMPLIED
                        -- TO DO: other attributes -- >


9.1.3 Gestural Event

                    <!-- 9.1.3  Gestural Event -->
     <!ENTITY % SECONDS "NUMBERS" -- Format: (seconds?, Real Time Units) -- >
     <!ELEMENT (%e.ge;) -- Gestural event: e.g., controller setting, ad lib note --
                        - O      EMPTY >
     <!ATTLIST ge       id       ID       #IMPLIED
                        start    -- Start time (Default: derived from core) --
                                 %SECONDS #IMPLIED
                        duration -- (Default: derived from core) --
                                 %SECONDS #IMPLIED
                        -- TO DO: other attributes -- >


9.1.4 Gestural Event Reference

     <!-- 9.1.4.1  Gestural Domain Reference to Gestural Event -->
     <!ELEMENT ger      -- Gestural event reference (includes geg|ges) --
                        - O      EMPTY    >
     <!ATTLIST ger      idr      IDREF    #REQUIRED -- ges|ge|geg same perform --
                        start    -- Start time (Default: derived from core) --
                                 %SECONDS #IMPLIED
                        duration -- (Default: derived from core) --
                                 %SECONDS #IMPLIED
                        shift    NUTOKEN  0         -- Transposition in steps --
                        -- TO DO: other event modifier attributes -- >


     <!-- 9.1.4.2  Gestural Domain References to Core Events -->
     <!ELEMENT gcer     -- Gestural domain core event reference --
                        - O      EMPTY    >
     <!ATTLIST gcer     idr      IDREF    #REQUIRED -- ces|ce|ceg in core --
                        start    -- Start time (Default: derived from core) --
                                 %SECONDS #IMPLIED
                        duration -- (Default: derived from core) --
                                 %SECONDS #IMPLIED
                        shift    NUTOKEN  0         -- Transposition in steps --
                        -- TO DO: other event modifier attributes -- >


9.2 Click Track

     The click track is a gestural event sequence with  an  event  to  mark
     each beat in the piece. This element will provide a means for relating
     beats in the core to real time.  Click  tracks  can  have  arbitrarily
     spaced   events,   so  any  kind  of  expressive  performance  can  be



                               June 16, 1988





                                  - 23 -


     represented. The click track will usually be generated by a transcrip-
     tion  program  in  the  process of creating a work from a live perfor-
     mance. Note that a click track does not need to be  present,  since  a
     rhythmically exact performance can be generated from the core alone.


                       <!-- 9.2 Click Track -->
     <!ELEMENT clicktrk -- Click track: ordered table of event start-times --
                        - O      (#PCDATA) >
     <!ATTLIST clicktrk id       ID       #IMPLIED -- Default: generated --
                        nextbeat -- Track and time of next beat --
                                 NMTOKENS #IMPLIED >


10 Visual Domain

     The visual section of the piece contains the scores. While  each  work
     has  only  one core, it may have several scores, each a different edi-
     tion (and hence a different interpretation of  the  piece),  and  each
     linked  to  a particular performance. The visual section refers to the
     core for the majority of its musical material, but may have events  of
     its  own.   Usually  these  events  will be symbols that appear on the
     score aside from notes, rests, and accidentals. Such items  as  phrase
     markings,  beams, accents, dynamic markings, and lyrics would be found
     here. The visual section is intended to represent the printed score in
     Standard  Western  Music  Notation.  The score could be generated by a
     music printing system and returned to such a system  for  printing  or
     display.

     The score element is the top level of the visual domain. Each score is
     a presumably complete edition of the piece.

     The performance attribute specifies  a  performance  in  the  gestural
     domain  which  was  generated from this particular score (edition), if
     such a performance exists.

     The closure attribute indicates whether every event in  the  core  was
     notated in this score.


                     <!-- 10  Visual Domain -->
     <!ELEMENT score    -- Visual representation of work (a la DARMS, MUSTRAN...) --
                        - O      (bibdata?, part+) >
     <!ATTLIST score    id       ID       #IMPLIED
                        perform  IDREFS   #IMPLIED
                        closure  -- Are all core events referenced? --
                                 (closed, open) open >


10.1 Part

     The part is analogous to the thread in the core. It will  be  used  to
     print  one  part  of  the  score for one instrument. It is the precise
     counterpart of a staff in a score. The division of  music  into  parts



                               June 16, 1988





                                  - 24 -


     will be based on the desired appearance of the score.

     A part is made up of visual event sequences,  which  are  made  up  of
     visual  events, visual event references, and core event references. It
     is through these core event references that the core becomes the basis
     of  the  visual section. While it would be possible through the use of
     visual events to represent a score that was unrelated to the core, the
     intention  is  that  the  part will contain mostly visual symbols, and
     refer to the core for most or all of the notes, rests, and other basic
     conceptual material.


                         <!-- 10.1  Part -->
     <!ELEMENT part     -- One instrument's portion of the system --
                        - O      (ves)   >
     <!ATTLIST part     id       ID       #IMPLIED
                        clef     NAMES    "treble bass"
                        -- TO DO: other attributes -- >


10.1.1 Visual Event Sequence


               <!-- 10.1.1  Visual Event Sequence -->
     <!ENTITY % e.ve    "ve" -- TO DO: replace with real element types -- >
     <!ENTITY % m.ves   "(ves | veg | %e.ve; | ver | vcer)*" >
     <!ELEMENT ves      -- Visual event sequence (has core references) --
                        O O      %m.ves; >
     <!ATTLIST ves      id       ID       #IMPLIED
                        tuplet   -- Triplet (etc.) indicator for sequence --
                                 CDATA    #IMPLIED  -- Not a tuplet --
                        cue      IDREF    #IMPLIED  -- ID of ves --
                        tsinst   NUMBERS  #IMPLIED  -- Time sig for instrument --
                        tscond   NUMBERS  #IMPLIED  -- Time sig for conductor --
                        -- TO DO: other attributes -- >


10.1.2 Visual Event Group


                 <!-- 10.1.2  Visual Event Group -->
     <!ELEMENT veg      -- Visual event group (has core references) --
                        - -      %m.ves; >
     <!ATTLIST veg      id       ID       #IMPLIED
                        -- TO DO: other attributes -- >


10.1.3 Visual Event









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                                  - 25 -




                    <!-- 10.1.3  Visual Event -->
     <!ELEMENT (%e.ve;) -- Visual event: e.g., phrase mark, bar line --
                        - O      EMPTY >
     <!ATTLIST (%e.ve;) id       ID       #IMPLIED
                        -- TO DO: other attributes -- >


10.1.4 Visual Event Reference


     <!-- 10.1.4.1  Visual Domain Reference to Visual Event -->
     <!ELEMENT ver      -- Visual event reference (includes veg|ves) --
                        - O      EMPTY    >
     <!ATTLIST ver      idr      IDREF    #REQUIRED -- ves|ve|geg same score --
                        shift    NUTOKEN  0         -- Transposition in steps --
                        -- TO DO: other event modifier attributes -- >


      <!-- 10.1.4.2  Visual Domain Reference to Core Event -->
     <!ELEMENT vcer     -- Visual domain core event reference --
                        - O      EMPTY    >
     <!ATTLIST vcer     idr      IDREF    #REQUIRED -- ces|ce|ceg in core --
                        shift    NUTOKEN  0         -- Transposition in steps --
                        -- TO DO: other event modifier attributes -- >


10.2 Space

     The unit of space will be defined relative to the size  of  the  staff
     and  note  heads.  The actual size of the printed staff is not defined
     except perhaps as a global attribute of the visual section. A unit  of
     one  staff space for the vertical and one note head width for the hor-
     izontal will provide the basis for all spatial measurements.

     Spatial relationship will be representable  in  several  ways:  as  an
     absolute  position  on  a  line  (staff),  as a relative position from
     another object, and as a relative position from a logical (time) posi-
     tion  on  a  staff. Furthermore, for each of these possibilities there
     will be an explicit position  (specified  in  spatial  units)  and  an
     implicit  position.   The  implicit  position  will take the form of a
     non-numerical relationship to some other object, such  as  "above  the
     staff" or "between this note head and the one to the left".

11 Analytical Domain

     The analytical section of the piece contains  any  analyses  that  may
     have  been produced. A work may have several analytical sections, each
     a different analysis (and hence  a  different  interpretation  of  the
     piece.)  The analytical section refers to the core for the majority of
     its musical material, but may also refer to performances  and  scores.
     The  analytical  section is intended to represent a structuring of the
     piece based on any style of analysis. The analysis could be  generated



                               June 16, 1988





                                  - 26 -


     by  a specialized music printing/editing system and returned to such a
     system for printing or display, or might take the ultimate form  of  a
     written  document.  It might even be generated automatically by a com-
     puter system.

     The analysis element is the top level of the  analysis  structure.  It
     represents  a presumably complete analysis of the piece, by a particu-
     lar analyst. If several analyses by  different  analysts  exist,  they
     will  each be is a separate analysis. The analysis can refer freely to
     any other elements of a work, thus allowing complex  relationships  to
     be represented.


                     <!-- 11  Analytical Domain -->
     <!ELEMENT analysis -- An analysis of a work --
                        - O      (bibdata?, voice+) >
     <!ENTITY % a.anal
       "core IDREFS #IMPLIED perform IDREFS #IMPLIED score IDREFS #IMPLIED" >
     <!ATTLIST analysis id       ID       #IMPLIED
                        %a.anal; >


11.1 Voice

     The voice is analogous to the thread in the core. It will be  used  to
     represent  one  voice or melodic line of the piece. It is the counter-
     part of a passage of notes that have  the  same  stem  direction.  The
     division  of  music  into  voices  will be based on the voicing of the
     piece intended by the composer or analyst.

     A voice is made up of analytical event sequences, which are made up of
     analytical  events, analytical event references, and core event refer-
     ences. It also can contain gestural event references and visual  event
     references. It is through these references that the analytical section
     can arbitrarily structure any aspect of the piece in order  to  illus-
     trate a music theoretical idea.


                         <!-- 11.1  Voice -->
     <!ELEMENT voice    -- A single melody line (possibly polyphonic) --
                        - O      (aes)   >
     <!ENTITY % a.voice "" >
     <!ATTLIST voice    id       ID       #IMPLIED
                        %a.voice; >


11.1.1 Analytical Event Sequence










                               June 16, 1988





                                  - 27 -



              <!-- 11.1.1  Analytical Event Sequence -->
     <!ENTITY % e.ae    "ae" -- TO DO: replace with real element types -- >
     <!ENTITY % m.aes   "(aes | aeg | %e.ae; | aer | ver | ger | cer)*" >
     <!ELEMENT aes      -- Analytical event sequence (multi-domain refs) --
                        O O      %m.aes; >
     <!ENTITY % a.aes   "class (motif | epmotif | esmotif | elision) motif" >
     <!ATTLIST aes      id       ID       #IMPLIED
                        %a.aes; >


11.1.2 Analytical Event Group

               <!-- 11.1.2  Analytical Event Group -->
     <!ELEMENT aeg      -- Analytical event group (multi-domain refs) --
                        - -      %m.aes; >
     <!ENTITY % a.ae    "" >
     <!ATTLIST aeg      id       ID       #IMPLIED
                        %a.ae; >


11.1.3 Analytical Event


                  <!-- 11.1.3  Analytical Event -->
     <!ENTITY % m.ae    "(%e.ae;|%e.ge;|%e.ve;)*" >
     <!ELEMENT (%e.ae;) -- Analytical event --
                        - O      %m.ae; >
     <!ATTLIST (%e.ae;) id       ID       #IMPLIED
                        %a.ae; >


11.1.4 Analytical Event Reference


                     <!-- 11.1.4  References -->
     <!ELEMENT aer      -- Analytical event sequence reference --
                        - O      EMPTY    >
     <!ENTITY % a.aer   "" >
     <!ATTLIST aer      idr      IDREF    #REQUIRED -- ID of aes --
                        %a.aer; >


12 Bibliographic

     The bibliographic entry is found at the top level (as  an  element  of
     work)  and  can  also be used at lower levels. It contains much of the
     bibliographic and discographic data necessary for the cataloging of  a
     piece.The  bibliographic  entry will contain the information necessary
     to make the Standard useful. Such items as title, author, issuer (pub-
     lisher),  date, and copyright will all be explicitly defined. In addi-
     tion, a miscellaneous area will be available  which  can  contain  any
     information that is not defined elsewhere. If desired, a bibliographic
     entry may be made for each performance in the gestural section, or for



                               June 16, 1988





                                  - 28 -


     each edition in the visual section.

     The attributes are explained in the SGML code comments.

     NOTE: We have not attempted to form an exhaustive  structure  for  the
     representation  of  complete  library  cataloging  information. Such a
     structure would extend the scope of the Standard beyond where we  feel
     it  should go at present. Since we are utilizing the machinery of SGML
     to implement this Standard, another committee could easily create such
     a  complete bibliographic element, and it could be readily included in
     music documents. We in fact strongly urge  the  Library  community  to
     initiate such a project.


                   <!-- 12  Bibliographic Data -->
     <!ENTITY % e.bib   "title | author | date | issuer | descript | copr">
     <!-- Explanation of bibliographic elements:
       title       Title of work, performance, score, or analysis
       author      Work: composer, librettist, computer
                   Performance: performer, arranger
                   Score: editor, copyist, arranger
                   Analysis: theorist
       issuer      Access information: e.g., publisher, catalog number
       date        Date of work, performance, score, or analysis
       copr        Copyright notice
       descript    Miscellaneous descriptive data: e.g., performance time
     -->
     <!ENTITY % d.bib   "<!ELEMENT (%e.bib;) - O (#PCDATA)>"> %d.bib;
     <!ENTITY % m.bib   "(%e.bib; | theme)*">
     <!ELEMENT bibdata  -- Bibliographic data applying to work as a whole --
                        - O      %m.bib; >


12.1 Theme

     The theme will contain references to the core which pinpoint key  pas-
     sages  (or  famous  passages) for the purpose of identification of the
     work. It will allow a cataloging application, for instance, to quickly
     locate  and  then  display  or perform a well known section. This will
     make it easy for the user to verify that the correct  piece  has  been
     retrieved.


                         <!-- 12.1  Theme -->
     <!ENTITY % a.theme "">
     <!ELEMENT theme    -- Themes that best identify the work (e.g., incipit) --
                        - O      EMPTY    >
     <!ATTLIST theme    idr      IDREFS   #REQUIRED -- ID of analysis --
                        %a.theme; >


13 Conformance

     The Standard will  define  several  levels  of  conformance  to  allow



                               June 16, 1988





                                  - 29 -


     applications  to  implement  subsets  of the language. There will be a
     canonical form and a "standard" level described.

     NOTE: The issue of conformance will be developed further  at  a  later
     date.




















































                               June 16, 1988





                                  - 30 -


                                    Annex A

                               Formal Definition


(This annex is normative and will become an integral part of the Standard.)
This  annex  contains the formal definition of a work, expressed as an SGML
document type definition.

NOTES

Because the SMDL is still under development, the SGML document type defini-
tion  (DTD)  is  presently  incomplete  in  a number of respects. These are
listed below, and will be updated with the SGML Formal Definition.

1.      Little detail is provided on the actual encoding of an instance  of
a work.  As we are first attempting to identify the potential events and to
define their properties (attributes), the DTD acts  as  though  all  events
will be encoded with start-tags and end-tags, with all properties specified
using the SGML attribute notation.  The result is a lopsided definition  in
which there is only structure and no actual data.

This convention is satisfactory (even advantageous) while we are  designing
the  structure  and  semantics  of the SMDL.  It allows relationships to be
seen easily and requirements to be evaluated, without the intrusion of cod-
ing  considerations.   Once the design is complete and we understand all of
the information that must be represented, we will create a  concise  coding
scheme  to  replace  the  lower  levels of the structure.  (In SGML, such a
scheme is known as a "data content notation".)

2.      Most attributes have not yet been defined.  As a  result,  many  of
the  ATTLIST  declarations appear identical to one another.  In such cases,
we expect that the lists will be differentiated by attributes that will  be
defined later.

3.      The lowest-level gestural, visual, and  analytical  event  elements
(ge,  ve,  and ae) are temporary placeholders for lists of distinct element
types (for example, bar lines, clefs, etc.).  Eventually, the entity refer-
ences  to  lists  of  the distinct types will be completed to replace these
element names.  For now,  only  the  lowest-level  core  events  have  been
defined.

Moreover, as we are first attempting to define those attributes  which  all
events  have  in  common, a single ATTLIST is used in each domain.  Eventu-
ally, each event may have its own ATTLIST declaration.

4.      There are many elements that have common  content  models  and,  at
least  for  the moment, common attribute lists.  As a matter of development
methodology, we felt it better to assume that elements that represent  dif-
ferent semantic constructs (e.g., tracks and parts) are likely to have dif-
ferent attributes when the design is complete, even though  they  may  have
identical structures.  If the presumption proves incorrect in any instance,
we will of course remove the redundancy when  finalizing  the  design,  but
premature optimization might cause us to overlook vital differences.



                               June 16, 1988





                                  - 31 -


5.      For attributes that have been  defined,  particularly  those  whose
domain is a list of specific values, we have typically provided only a nom-
inal list of values. We expect that once the  overall  structure  is  firm,
experts  will  be  able  to contribute more complete lists.  Such attribute
domains can also be made user-extensible if that is desirable.


<!-- Public document type definition for music representation.

     Typical invocation:
     <!DOCTYPE work PUBLIC "-//ANSI X3V1.8M//DTD Musical Work//EN">


NOTE: The  section  heading  comments  identify  the  corresponding  clause
numbers in the body of this document.

-->

                <!-- 7  Work as a Whole -->
<!ELEMENT work     -- Musical composition, piece, etc. --
                   - -      (bibdata?, workseg+, analysis*) >
<!ATTLIST work     source   -- Origin of this representation of the work --
                            (core | analysis | perform | score) #REQUIRED
                   companal -- Composer's analysis (may include core-like
                            controlling factors that distinguish the work)--
                            IDREF    #IMPLIED -- ID of analysis --
                   rtubase  -- Real Time Units per second (0=100,000,000) --
                            NUMBER   10000 >


                 <!-- 7.1  Work Segment -->
<!ELEMENT workseg  -- Sequential segment of a work: movement, act, etc. --
                   O O      ((workseg, (workseg | worksegr)+) |
                            (bibdata?, core, perform*, score*)) >
<!ATTLIST workseg  id       ID       #IMPLIED
                   class    -- E.g., movement, section, coda --
                            CDATA    #IMPLIED  -- don't care --
                   delay    -- E.g., 15 minute intermission --
                            CDATA    #IMPLIED  -- don't care -- >
<!ELEMENT worksegr -- Work segment reference --
                   - O      EMPTY    >
<!ATTLIST worksegr idr      IDREF    #REQUIRED -- ID of any work segment -- >


                      <!-- 8  Core -->
<!ELEMENT core     -- The essential music, common to all domains --
                   - O      (stress*, temposeq+, thread+) >
<!ATTLIST core     norm     -- Is core timing normalized? (7.5) --
                            (norm | nonnorm) nonnorm >








                               June 16, 1988





                                  - 32 -



                    <!-- 8.1  Thread -->
<!ELEMENT thread   -- Voice-like time-ordered sequence of events --
                   - O      (ces) >
<!ATTLIST thread   id       ID       #IMPLIED
                   temposeq IDREF    #IMPLIED
                   nominst  CDATA    #IMPLIED -- Nominal instrument --
                   -- TO DO: other attributes -- >


            <!-- 8.1.1  Core Event Sequence -->
<!ENTITY % FRAC    "NUMBERS" -- fraction: numerator, denominator? (=1) -- >
<!ENTITY % m.ces   "(ces|ceg|note|rest|grcevent|special|cer)*" >
<!ELEMENT ces      -- Core event sequence --
                   O O      (chordnm?, %m.ces;) >
<!ATTLIST ces      id       ID       #IMPLIED
                   factor   -- ces beats / sum of subelement beats --
                            %FRAC    "1 1"
                   stressid -- Beat cycle dynamic stress pattern --
                            IDREF    #IMPLIED -- Default: no change --
                   stressbt -- Beat # of stress pattern on which ces begins --
                            NUMBER   1        -- Not 1 only if anacrusis --
                   ornstyle -- Ornamentation style: e.g., period --
                            CDATA #IMPLIED -- Default: no ornamentation -- >


              <!-- 8.1.2  Core Event Group -->
<!ELEMENT ceg      -- Core event group --
                   - -      %m.ces; >
<!ATTLIST ceg      id       ID       #IMPLIED
                   -- TO DO: other attributes -- >


             <!-- 8.1.3.1  Notes and Rests -->
<!ELEMENT (note | rest)
                   -- Conventionally pitched time-stamped event --
                   - O      EMPTY >
<!ATTLIST (note | rest)
                   id       ID       #IMPLIED
                   %a.ctime;
                   -- TO DO: other attributes -- >
















                               June 16, 1988





                                  - 33 -



              <!-- 8.1.3.2  Graced Event -->
<!ELEMENT grcevent -- Graced core event --
                   - O      ((grcpre, grcsubj) | (grcpre?, grcsubj, grcpost))>
<!ATTLIST grcevent id       ID       #IMPLIED >
<!ELEMENT (grcpre | grcpost)
                   -- Core event whose duration is not counted --
                   - O      %m.ces; >
<!ATTLIST (grcpre | grcpost)
                   id       ID       #IMPLIED
                   -- Synchronization with subject:
                      start-time in the case of grcpre
                      end-time in the case of grcpref --
                   grcsync  (lead | lag) lead >
<!ELEMENT grcsubj  -- Grace sequence subject: that which is graced --
                   O O      (note | rest | special | cer) >


              <!-- 8.1.3.3  Special Events -->
<!ELEMENT special  -- User-defined time-stamped event: content describes it --
                   - O      (#PCDATA) >
<!ATTLIST special  id       ID       #IMPLIED
                   %a.ctime;
                   -- TO DO: other attributes -- >


            <!-- 8.1.4  Core Event Reference -->
<!ELEMENT cer      -- Reference to core event, sequence, or group --
                   - O      EMPTY    >
<!ATTLIST cer      idr      IDREF    #REQUIRED -- ID of ces|ceg|ce --
                   shift    NUTOKEN  0         -- Transposition in steps --
                   -- TO DO: other event modifier attributes -- >


                 <!-- 8.1.5  Chord Name -->
<!ENTITY % d.chord "<!ELEMENT chordnm - O (#PCDATA)>"> %d.chord;


                     <!-- 8.2  Time -->
<!ENTITY % BEATS   "%FRAC;" -- Measure of music time (fractional) -- >
<!ENTITY % a.ctime   -- Core event time attributes (7.2) --
                     "musicdur %BEATS #CURRENT  tie IDREF #IMPLIED" >
<!-- Explanation of core time attributes:
 musicdur Duration of event in music time.
 tie      Succeeding event to which this one is tied (Default: not tied).-->












                               June 16, 1988





                                  - 34 -



                   <!-- 8.3  Stress -->
<!ELEMENT stress   -- Beat cycle definition; dynamic stress pattern --
                   - O      (beatnum, stresses)+ >
<!ATTLIST stress   id       ID       #IMPLIED
                   beatcnt  NUMBER   #REQUIRED -- Number of beats in cycle -->
<!ELEMENT beatnum  -- Beat number receiving agogic or dynamic stresses --
                   O O      (#PCDATA) >
<!ELEMENT stresses -- Stresses applied to specified beat --
                   O O      (#PCDATA) >


                    <!-- 8.4  Tempo -->
<!ELEMENT temposeq -- Relates music time to real time (may be imprecise) --
                   - O      (tempo+) >
<!ATTLIST temposeq id       ID       #IMPLIED >
<!ELEMENT tempo    -- Real time units per beat --
                   - O      (#PCDATA) >
<!ATTLIST tempo    id       ID       #IMPLIED
                   musicdur -- Duration of tempo setting in music time --
                            %BEATS   #CURRENT
                   setval   -- Precise final tempo: RTUs/beat (integer #RTU)
                               or % of earlier tempo (%FRAC idref) --
                            CDATA    #CURRENT
                   settext  -- Imprecise final tempo: moderato --
                            CDATA    #IMPLIED -- Default: use setval --
                   rateval  -- Precise rate of reaching final tempo --
                            -- Format: (LINEAR | FORMULA data) --
                            CDATA    #IMPLIED -- Default: immediate --
                   ratetext -- Imprecise rate specification: accel, ritard --
                            CDATA    #IMPLIED -- Default: use rateval --
                   strict   -- Strictness of interpretation: rubato --
                            CDATA    #IMPLIED -- Default: strict tempo --
                   holdtype -- Imprecise extension of counted duration --
                            (fullstop|long|medium|short|none) none
                   holddur  -- Precise duration of hold --
                            %BEATS   #CURRENT >


                 <!-- 9  Gestural Domain -->
<!ELEMENT perform  -- The gestures of a performance (MIDI) --
                   - O      (bibdata?, clicktrk*, track+) >
<!ATTLIST perform  id       ID       #IMPLIED
                   score    IDREFS   #IMPLIED
                   closure  -- Are all core events referenced? --
                            (closed, open) open >











                               June 16, 1988





                                  - 35 -



                    <!-- 9.1  Track -->
<!ELEMENT track    -- One instrument's time-ordered sequence of gestures --
                   - O      (ges)   >
<!ATTLIST track    id       ID       #IMPLIED
                   instrum  CDATA    #IMPLIED
                   clicktrk IDREF    #IMPLIED
                   -- TO DO: other attributes -- >


          <!-- 9.1.1  Gestural Event Sequence -->
<!ENTITY % e.ge    "ge" -- TO DO: replace with real element types -- >
<!ENTITY % m.ges   "(ges | geg | %e.ge; | ger | gcer)*" >
<!ELEMENT ges      -- Gestural event sequence (has core references) --
                   O O      %m.ges; >
<!ATTLIST ges      id       ID       #IMPLIED
                   -- TO DO: other attributes -- >


          <!-- 9.1.2  Gestural Event Group -->
<!ELEMENT geg      -- Gestural event group (has core references) --
                   - -      %m.ges; >
<!ATTLIST geg      id       ID       #IMPLIED
                   -- TO DO: other attributes -- >


               <!-- 9.1.3  Gestural Event -->
<!ENTITY % SECONDS "NUMBERS" -- Format: (seconds?, Real Time Units) -- >
<!ELEMENT (%e.ge;) -- Gestural event: e.g., controller setting, ad lib note --
                   - O      EMPTY >
<!ATTLIST ge       id       ID       #IMPLIED
                   start    -- Start time (Default: derived from core) --
                            %SECONDS #IMPLIED
                   duration -- (Default: derived from core) --
                            %SECONDS #IMPLIED
                   -- TO DO: other attributes -- >


<!-- 9.1.4.1  Gestural Domain Reference to Gestural Event -->
<!ELEMENT ger      -- Gestural event reference (includes geg|ges) --
                   - O      EMPTY    >
<!ATTLIST ger      idr      IDREF    #REQUIRED -- ges|ge|geg same perform --
                   start    -- Start time (Default: derived from core) --
                            %SECONDS #IMPLIED
                   duration -- (Default: derived from core) --
                            %SECONDS #IMPLIED
                   shift    NUTOKEN  0         -- Transposition in steps --
                   -- TO DO: other event modifier attributes -- >









                               June 16, 1988





                                  - 36 -



<!-- 9.1.4.2  Gestural Domain References to Core Events -->
<!ELEMENT gcer     -- Gestural domain core event reference --
                   - O      EMPTY    >
<!ATTLIST gcer     idr      IDREF    #REQUIRED -- ces|ce|ceg in core --
                   start    -- Start time (Default: derived from core) --
                            %SECONDS #IMPLIED
                   duration -- (Default: derived from core) --
                            %SECONDS #IMPLIED
                   shift    NUTOKEN  0         -- Transposition in steps --
                   -- TO DO: other event modifier attributes -- >


                  <!-- 9.2 Click Track -->
<!ELEMENT clicktrk -- Click track: ordered table of event start-times --
                   - O      (#PCDATA) >
<!ATTLIST clicktrk id       ID       #IMPLIED -- Default: generated --
                   nextbeat -- Track and time of next beat --
                            NMTOKENS #IMPLIED >


                <!-- 10  Visual Domain -->
<!ELEMENT score    -- Visual representation of work (a la DARMS, MUSTRAN...) --
                   - O      (bibdata?, part+) >
<!ATTLIST score    id       ID       #IMPLIED
                   perform  IDREFS   #IMPLIED
                   closure  -- Are all core events referenced? --
                            (closed, open) open >


                    <!-- 10.1  Part -->
<!ELEMENT part     -- One instrument's portion of the system --
                   - O      (ves)   >
<!ATTLIST part     id       ID       #IMPLIED
                   clef     NAMES    "treble bass"
                   -- TO DO: other attributes -- >


          <!-- 10.1.1  Visual Event Sequence -->
<!ENTITY % e.ve    "ve" -- TO DO: replace with real element types -- >
<!ENTITY % m.ves   "(ves | veg | %e.ve; | ver | vcer)*" >
<!ELEMENT ves      -- Visual event sequence (has core references) --
                   O O      %m.ves; >
<!ATTLIST ves      id       ID       #IMPLIED
                   tuplet   -- Triplet (etc.) indicator for sequence --
                            CDATA    #IMPLIED  -- Not a tuplet --
                   cue      IDREF    #IMPLIED  -- ID of ves --
                   tsinst   NUMBERS  #IMPLIED  -- Time sig for instrument --
                   tscond   NUMBERS  #IMPLIED  -- Time sig for conductor --
                   -- TO DO: other attributes -- >







                               June 16, 1988





                                  - 37 -



            <!-- 10.1.2  Visual Event Group -->
<!ELEMENT veg      -- Visual event group (has core references) --
                   - -      %m.ves; >
<!ATTLIST veg      id       ID       #IMPLIED
                   -- TO DO: other attributes -- >


               <!-- 10.1.3  Visual Event -->
<!ELEMENT (%e.ve;) -- Visual event: e.g., phrase mark, bar line --
                   - O      EMPTY >
<!ATTLIST (%e.ve;) id       ID       #IMPLIED
                   -- TO DO: other attributes -- >


<!-- 10.1.4.1  Visual Domain Reference to Visual Event -->
<!ELEMENT ver      -- Visual event reference (includes veg|ves) --
                   - O      EMPTY    >
<!ATTLIST ver      idr      IDREF    #REQUIRED -- ves|ve|geg same score --
                   shift    NUTOKEN  0         -- Transposition in steps --
                   -- TO DO: other event modifier attributes -- >


 <!-- 10.1.4.2  Visual Domain Reference to Core Event -->
<!ELEMENT vcer     -- Visual domain core event reference --
                   - O      EMPTY    >
<!ATTLIST vcer     idr      IDREF    #REQUIRED -- ces|ce|ceg in core --
                   shift    NUTOKEN  0         -- Transposition in steps --
                   -- TO DO: other event modifier attributes -- >


                <!-- 11  Analytical Domain -->
<!ELEMENT analysis -- An analysis of a work --
                   - O      (bibdata?, voice+) >
<!ENTITY % a.anal
  "core IDREFS #IMPLIED perform IDREFS #IMPLIED score IDREFS #IMPLIED" >
<!ATTLIST analysis id       ID       #IMPLIED
                   %a.anal; >


                    <!-- 11.1  Voice -->
<!ELEMENT voice    -- A single melody line (possibly polyphonic) --
                   - O      (aes)   >
<!ENTITY % a.voice "" >
<!ATTLIST voice    id       ID       #IMPLIED
                   %a.voice; >











                               June 16, 1988





                                  - 38 -



         <!-- 11.1.1  Analytical Event Sequence -->
<!ENTITY % e.ae    "ae" -- TO DO: replace with real element types -- >
<!ENTITY % m.aes   "(aes | aeg | %e.ae; | aer | ver | ger | cer)*" >
<!ELEMENT aes      -- Analytical event sequence (multi-domain refs) --
                   O O      %m.aes; >
<!ENTITY % a.aes   "class (motif | epmotif | esmotif | elision) motif" >
<!ATTLIST aes      id       ID       #IMPLIED
                   %a.aes; >


          <!-- 11.1.2  Analytical Event Group -->
<!ELEMENT aeg      -- Analytical event group (multi-domain refs) --
                   - -      %m.aes; >
<!ENTITY % a.ae    "" >
<!ATTLIST aeg      id       ID       #IMPLIED
                   %a.ae; >


             <!-- 11.1.3  Analytical Event -->
<!ENTITY % m.ae    "(%e.ae;|%e.ge;|%e.ve;)*" >
<!ELEMENT (%e.ae;) -- Analytical event --
                   - O      %m.ae; >
<!ATTLIST (%e.ae;) id       ID       #IMPLIED
                   %a.ae; >


                <!-- 11.1.4  References -->
<!ELEMENT aer      -- Analytical event sequence reference --
                   - O      EMPTY    >
<!ENTITY % a.aer   "" >
<!ATTLIST aer      idr      IDREF    #REQUIRED -- ID of aes --
                   %a.aer; >


              <!-- 12  Bibliographic Data -->
<!ENTITY % e.bib   "title | author | date | issuer | descript | copr">
<!-- Explanation of bibliographic elements:
  title       Title of work, performance, score, or analysis
  author      Work: composer, librettist, computer
              Performance: performer, arranger
              Score: editor, copyist, arranger
              Analysis: theorist
  issuer      Access information: e.g., publisher, catalog number
  date        Date of work, performance, score, or analysis
  copr        Copyright notice
  descript    Miscellaneous descriptive data: e.g., performance time -->
<!ENTITY % d.bib   "<!ELEMENT (%e.bib;) - O (#PCDATA)>"> %d.bib;
<!ENTITY % m.bib   "(%e.bib; | theme)*">
<!ELEMENT bibdata  -- Bibliographic data applying to work as a whole --
                   - O      %m.bib; >






                               June 16, 1988





                                  - 39 -



                    <!-- 12.1  Theme -->
<!ENTITY % a.theme "">
<!ELEMENT theme    -- Themes that best identify the work (e.g., incipit) --
                   - O      EMPTY    >
<!ATTLIST theme    idr      IDREFS   #REQUIRED -- ID of analysis --
                   %a.theme; >


















































                               June 16, 1988





                                  - 40 -


                                  Annex B

                               Theory of Use

(This annex is informative and will not form an integral part of the  Stan-
dard.)

As a language, the Standard can be put to a wide variety  of  uses  ranging
>from  the  highly  appropriate to the completely pathological. It was, how-
ever, designed with a particular set of applications in mind, and  will  be
most  effective if used for these. Knowing the design assumptions will also
facilitate application of the Standard to unforeseen or unusual situations.
It  is  hoped  that  this annex will answer many of the questions that will
arise concerning applicability.

NOTE: This section will be developed further at a later date.

B.1 General Application

     In general, the Standard is intended as a storage and interchange for-
     mat for musical ideas. It is designed to be somewhat human readable so
     that a piece could theoretically be created by using a word  processor
     and  entering  the  encoded material directly. However, it is expected
     that it will be used mainly for automated processing in such areas  as
     music  printing,  library cataloging and storage, multimedia presenta-
     tions, teaching, and research. For other situations, such as live per-
     formance  or  sound  recording,  other  formats  are likely to be more
     applicable.

     A piece to be represented can originate from  almost  any  source.  An
     automated  composition program might generate a core and an associated
     gestural section. An interactive music printing system might  generate
     a  core and a visual section. A sequencer might capture a live perfor-
     mance and transcribe it into a core and performance section, and  then
     turn the piece over to a music printing system for the creation of the
     visual and analytical sections. There is much flexibility in  the  way
     the  Standard  can  be  used  and  the  situations  to which it can be
     applied. The only common element is the core, the others need not even
     be present.

     The gestural section is designed to be used for the representation  of
     computer  instrument  sequences.  This  does  not  mean  that  it is a
     sequencer format for internal use by sequencers. In fact it  would  be
     poorly suited for that application. It is for archiving and transport-
     ing music that has been, or will be, processed in some way by  a  com-
     puter  system.  A performance may be captured on a synthesizer, it may
     be interpreted from a MIDI  stream,  or  it  may  be  translated  from
     another  language,  such  as a MIDI sequence file format or MUSIC V. A
     sequencer might read a piece in the Standard,  translate  it  into  an
     internal data format, and then realize it in real time.

     The visual section will be used for representing scores of all  kinds.
     The  score  may  have  an  accompanying performance or it may not. The
     score may be entered or captured using a music printing system, or  it



                               June 16, 1988





                                  - 41 -


     may  be  translated  from DARMS or MUSTRAN. It might be retrieved as a
     display on a screen,  a  printed  page,  or  translated  into  another
     language.  Most  importantly  it  will  allow  systems of all kinds to
     interchange scores easily and accurately.

     The analytical section will be used to represent theoretical ideas  in
     a  structural format. Any sort of layering and grouping will be possi-
     ble, so various styles of analysis will be supported.  A  given  piece
     may  have several analyses (i.e. one Shenkerian, one classical), which
     could even refer to each other. An analysis of a piece with a circular
     score  could  refer  to the score and the performance in an attempt to
     relate the music to the shape of the score to the  vertiginous  effect
     on the performer.












































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                                  - 42 -


                                    Annex C

                      Explanation of Editorial Conventions




(This annex is informative and will not form an integral part of the  Stan-
dard.)   This document observes some of the editorial conventions of a for-
mal standard, but not yet with the strictness and consistency that will  be
required in the final document. Those conventions that are observed in this
revision are listed.

C.1 Definitions

     Definitions are contained in a  separate  clause.  Ours  is  presently
     incomplete  and  will probably remain that way for a while. Also, some
     of the definitions in it are not as precise as they  should  be.  When
     the clause is complete, the definitions will refer to one another in a
     top-down hierarchical order, without tautologies, and will define each
     term fully.

C.2 Structure

     Part Two is structured like a standard in that it observes the follow-
     ing conventions:

          Clause 0 is an informative introduction (that  is,  it  does  not
          contain requirements.)

          Clause 1 states what the  standard  includes,  and  its  expected
          uses.

          Clause 3 contains references to related standards.

          Clause 4 contains the definitions.

          Clause 5 describes the notational conventions used in the remain-
          ing clauses.

          The clauses from 6 until the end contain the actual requirements.

     There are also annexes (appendixes) containing  information  that  was
     segregated from the body of the standard for convenience.

C.3 Segregation

     Requirements are distinguished from definitions, examples, and  expla-
     natory notes and comments.

     Anything identified as a "NOTE" is there to aid in  understanding  the
     standard,  but  does  not change the requirements. At present, we also
     use notes to discuss matters relating to the development of the  stan-
     dard.



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                                  - 43 -


     Annexes are designated either "normative" or "informative". The former
     contain  requirements  and  have  the same force and effect as if they
     were in the body of the standard. The latter  are  extended  notes  or
     tutorial information.

C.4 Language

     Some words have formal implications that may differ from casual usage.
     Those that are used in this document are as follows:

          C.4.1deprecated: Technically allowed, but only in rare situations
          a sensible thing to do. The opposite of "should".

          C.4.2must: Required by the language; unavoidable.

          C.4.3shall: Required by definition. (But not necessarily unavoid-
          able syntactically or semantically in the language.)

          C.4.4should: Recommended, but  not  mandatory.  The  opposite  of
          "deprecated."  (Within  a  requirement,  it  is  used in place of
          "shall" where there is some rare situation in which  it  wouldn't
          work or where it was too burdensome to check for compliance.)



































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                                  - 44 -


                                    Annex D


                             Guide to SGML Notation

(This annex is informative and will not form an integral part of the  Stan-
dard.)

For those unfamiliar with SGML, the following brief explanation will assist
in  understanding  the  code  that appears in this document. For a more in-
depth explanation, the ISO  standard  (ISO  8879-1986)  is  the  definitive
tutorial and reference on the subject.

NOTE: This description is currently "brief" to the  point  of  opacity.  We
plan to expand this section at a later date.

D.1 Structure

     SGML consists of three basic structural components. It  is  the  usual
     intent that these structures will contain data, but in our application
     there is only structure for the moment. Elements are structural build-
     ing  blocks which can be defined to contain data or other elements. An
     attribute list is associated with an element and contains values which
     describe  the element. Entities are a structural tool which allow por-
     tions of code to be referenced by a label from one or more  places  in
     the code.

D.2 Punctuation

     There are several punctuation marks that are  important.  Declarations
     (definitions)  are  surrounded  by <! ... > and comments to the reader
     are surrounded by -- ... --. For the purposes of  this  document,  the
     marks -    - and -O can be ignored. In each declaration, the following
     marks may occur: , this followed by the next, & this and the  next,  |
     this or the next, ? optional, + one or more, * zero or more.






















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                                  - 45 -


                                    Annex E

                                 Status Report

(This annex is informative and will not form an integral part of the  Stan-
dard.)

In the first meetings, the committee concentrated on the overall  structure
of  the SMDL. Many issues were touched upon to ensure that the basic design
would be flexible and powerful enough to handle the wide range of  material
demanded by the requirements specification.

More recently, the concentration  has  focused  on  the  core  and  related
issues,  as  this  seemed  the logical starting place. Subsequent work will
have to build from a basically finished core section. As of the most recent
meeting  (February  1  - 4, 1988) we have developed the core substantially,
although some work remains. We expect to finish this section  at  the  next
meeting,  and  proceed  to  the gestural and visual sections. It is assumed
that further revisions of the core will be necessary after  development  of
the other sections.

Because the work has focused on a particular area, the  preceding  document
is  uneven.  Some  areas have been discused down to minute detail, and some
are as yet merely suggestions of the direction in which to proceed. In par-
ticular  the  core  section is considerably fleshed out, but the others are
unfinished. As the meetings continue, we expect this document (parts 1  and
2) to grow into a Draft Standard which will be complete in all areas.





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                               June 16, 1988