JP3815249B2 - Music score display device and music score display program - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a musical score display apparatus and a musical score display program for displaying a musical score for each piece of music based on predetermined performance data, and in particular, it is possible to selectively display a musical score in a different display form for each individual user. The present invention relates to a score display apparatus and a score display program.
[0002]
[Prior art]
Recently, when performing an automatic performance using an electronic musical instrument, a personal computer, or the like, it is possible to automatically display the score of the performance tune on a predetermined screen. In other words, for a user who wants to enjoy playing a musical instrument such as a piano or a guitar at the same time as a performance piece that is automatically played, or to practice practicing the musical instrument performance, the score of the song currently being played is displayed in a predetermined manner. The display is performed in a manner. The musical score display device displays a musical score relating to a performance song according to performance data used for automatic performance. This is very convenient because the user does not have to prepare a musical score for each performance piece. However, it is very difficult for beginners who have just started playing a musical instrument or beginners with little musical knowledge to play musical instruments in parallel while instantaneously reading the note names (floor names) in the score. It is. Therefore, in the conventional score display device, when displaying the score of a performance piece, not only the notes are simply displayed in a list but also the note names of the notes are displayed in the vicinity of each note display or within the note display ( For example, it is possible to display Italian names such as de les mi ..., Japanese names such as ha, ni, ho ... or English names such as C, D, E ...). In this way, even beginners or beginners can instantly understand the note names of each note in the score from the display, so they can practice instrument performance while watching the score smoothly. Will be able to.
[0003]
[Problems to be solved by the invention]
By the way, the note name display for each note performed by the conventional score display device always displays the note name for all notes for beginners and beginners, and the display position for displaying the note name. Was stationary. Therefore, for example, in the case of an advanced music composition in which a large number of notes exist in one measure, a very complicated score is displayed, and such a score display is very difficult for the user to see and difficult to understand. . In this way, if a note name is always displayed at a fixed display position for each note in a score, in some cases, a very inconvenient score display may be performed in terms of the visibility of the user's score. There was a problem.
In addition, if the note names are always displayed for all the notes in the score, users such as beginners and beginners rely on the note name display to obstruct the habit of reading the note names directly from the notes. However, there was also a problem that the ability to read the pitch name directly from the note could not be acquired.
[0004]
The present invention has been made in view of the above points, and when displaying a musical score on a predetermined screen, only the pitch names related to the minimum necessary notes are displayed in a display mode that is easy to see according to the user's selection. By providing a score display device and a score display program, the user can surely recognize the pitch name as the performance progresses, and the user's habit of reading the pitch name directly from the notes is not completely hindered. It is something to try.
[0005]
[Means for Solving the Problems]
[0007]
  The present inventionEasyThe staff display devicePerformanceStorage means for storing data, display means for displaying the score of music to be played based on performance data, selection means for selecting desired performance data, and score display data corresponding to the selected performance data are generated And a control means for displaying a score on the display means based on the generated score display data, and a designation means for designating a note to be displayed as a note name on the score by a pitch range. The control means displays the corresponding pitch names only for the notes in the pitch range according to the pitch range designated by the designation means. According to this, since the user displays the corresponding note names only for the notes in the desired pitch range, it is highly visible to the user and does not interfere with the habit of reading the note names directly from the notes. The score can be displayed.Therefore, the user can smoothly perform the musical instrument performance practice while viewing the score.
[0008]
  A score display apparatus according to another aspect of the present invention includes a storage unit that stores performance data, a display unit that displays a score of a musical piece to be played based on the performance data, a selection unit that selects desired performance data, Control means for generating score display data corresponding to the selected performance data, displaying a score on the display means based on the generated score display data, and a display mode of a predetermined score symbol displayed on the score Designating means for designating to be displayed while adjusting according to the passage of time, and the control means changes the display mode stepwise in accordance with the designated passage of time to display the predetermined musical notation symbol. It is characterized by displaying. According to this, since the display mode of a predetermined score symbol displayed on the score is changed in a stepwise manner according to a specified time passage and the score is displayed, the user develops his / her proficiency level that progresses with the passage of time. It is possible to display a musical score according to.
  A score display apparatus according to still another aspect of the present invention includes a storage unit that stores performance data, a display unit that displays a score of a musical piece to be played based on the performance data, and a selection unit that selects desired performance data. Control means for generating score display data corresponding to the selected performance data in accordance with the progress of the performance data, and displaying the score on the display means based on the generated score display data; and the performance progress According toUser performance inputpauseTo detectAnd the control means displays the note names corresponding to the notes after the paused time and the note names corresponding to the other notes in different display modes. . According to this, for example, when playing without a note name display, if the note name is not known, the performance is easily paused and then switched to display the note name. Thus, performance assisting performance for the user can be improved.
[0009]
The present invention can be constructed and implemented not only as a device invention but also as a method invention. Further, the present invention can be implemented in the form of a program of a processor such as a computer or a DSP, or can be implemented in the form of a storage medium storing such a program.
[0010]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below in detail with reference to the accompanying drawings.
[0011]
FIG. 1 is a block diagram of a hardware configuration showing an embodiment of the overall configuration of a score display apparatus according to the present invention. The hardware configuration example of the score display apparatus shown here is configured by using a computer, and the score display executes a predetermined program (software) that realizes the score display processing according to the present invention. It is carried out by doing. Of course, this score display processing is not limited to the form of computer software, but can also be implemented in the form of a microprogram processed by a DSP (digital signal processor), and is not limited to this form of program. You may implement in the form of the dedicated hardware apparatus comprised including the discrete circuit or the integrated circuit or the large-scale integrated circuit. The musical score display apparatus according to the present invention is not limited to a personal computer, but may be any product application form such as an electronic musical instrument, a karaoke apparatus, an electronic game apparatus, or other multimedia devices.
[0012]
The musical score display apparatus shown in this embodiment is controlled by a microcomputer comprising a microprocessor unit (CPU) 1, a read only memory (ROM) 2, and a random access memory (RAM) 3. The CPU 1 controls the overall operation of the score display device. A read-only memory (ROM) 2, a random access memory (RAM) 3, a MIDI interface (I / F) 4, a detection circuit 5, a display circuit 6, and a sound source circuit 7 are connected to the CPU 1 via a data and address bus 1D. A sound system 7A, a communication interface (I / F) 8, and an external storage device 9 are connected to each other. Further, the CPU 1 is connected to a timer 1A that measures an interrupt time and various times in timer interrupt processing (that is, interrupt processing). That is, the timer 1A generates a tempo clock pulse for counting time intervals and setting a performance tempo when the user automatically plays a musical piece used to practice playing a musical instrument. The frequency of the tempo clock pulse is adjusted by, for example, a tempo setting switch in the operation element 5A. Such a tempo clock pulse from the timer 1A is given to the CPU 1 as a processing timing command or to the CPU 1 as an interrupt command. The CPU 1 executes various processes according to these instructions. For the various processes, for example, “selection process” for performing various selection processes such as selecting performance data (or music data) in accordance with the operation of the operator 5A and selecting the display form of the score, and the score on the display 6A. There are “score display processing” to be displayed, “automatic performance processing” for automatically playing music based on performance data, and the like. Programs such as “selection processing”, “score display processing”, and “automatic performance processing” executed by the CPU 1 are stored in the external storage device 9 such as a hard disk via the communication interface 8 from the communication network 8A. Then, it is loaded from the external storage device 9 into the RAM 3 at the time of execution. Alternatively, the program may be stored in advance in the ROM 2 or the external storage device 9.
[0013]
The ROM 2 stores various programs executed by or referred to by the CPU 1, various data, and the like. The RAM 3 displays automatic performance information (for example, performance data used when the music is automatically played) used for automatically playing the music and various display information (for example, a musical score according to the contents of the performance data) used for screen display. Musical score display data used for display on 6A, etc.), as a working memory for temporarily storing various data generated when the CPU 1 executes a predetermined program, or a program currently being executed and related data Is used as a memory for storing. A predetermined address area of the RAM 3 is assigned to each function and used as a register, flag, table, memory, or the like.
[0014]
The MIDI interface (I / F) 4 inputs MIDI standard musical tone information (MIDI data) from the electronic musical instrument 4A or the like to the musical score display device, or receives MIDI standard musical tone information (MIDI data) from the musical score display device. This is an interface for outputting to the electronic musical instrument 4A or the like. The electronic musical instrument 4A only needs to be a device that generates MIDI data in response to an operation by a user, and includes any type of operation device such as a keyboard type, a guitar type, a wind instrument type, a percussion type, and a body-mounted type (or It may be a device). In this embodiment, by connecting an electronic musical instrument 4A that the user wants to practice through the MIDI interface 4 to the musical score display device, the user can practice using the electronic musical instrument 4A. Yes.
[0015]
Note that the MIDI interface (I / F) 4 is not limited to a dedicated MIDI interface, but a general-purpose interface such as RS-232C, USB (Universal Serial Bus), IEEE 1394 (I Triple 1394) or the like. The MIDI interface (I / F) 4 may be configured. In this case, data other than MIDI event data may be transmitted and received simultaneously. When a general-purpose interface as described above is used as the MIDI interface 4, the electronic musical instrument 4A may be able to transmit and receive data other than MIDI data. Of course, the data format related to the musical tone information is not limited to data in the MIDI format, but may be in other formats. In this case, the MIDI interface 4 and the electronic musical instrument 4A are configured accordingly.
[0016]
An operator 5A is an operator for selecting performance data to be displayed or displayed automatically, an operator for selecting various display contents such as a display mode of a score displayed on the display 6A, and automatically playing music. Various operation elements such as an operation element for inputting various performance conditions at the time are included. For example, a music selection switch for selecting a musical piece for which musical score display or automatic performance (that is, performance data) is selected, a note name display selection switch for selecting whether or not to display a note name in a musical score, and a start / end of musical score display or automatic performance are instructed. Various switches such as a start / stop switch are included in the operation element 5A. Of course, in addition to this, various operators such as a numeric keypad for inputting numeric data, a keyboard for inputting character data, or a mouse used for selecting, setting, and controlling pitches, timbres, effects and the like may be included. The detection circuit 5 detects the operation state of each operation element of the operation element 5A, and outputs switch information corresponding to the operation state to the CPU 1 via the data and address bus 1D. The display circuit 6 displays a musical score image on which the musical score of the selected music is displayed on a display 6A composed of, for example, a liquid crystal display panel (LCD) or a CRT, as well as a pitch used for automatic performance. Various information such as automatic performance information such as tone color and effect and control state of the CPU 1 is displayed on the display 6A.
[0017]
The tone generator circuit 7 can simultaneously generate musical tone signals in a plurality of channels, inputs data and performance data given via the address bus 1D, and generates musical tone signals based on the performance data. The musical tone signal generated from the sound source circuit 7 is generated from a sound system 7A including an amplifier and a speaker. A predetermined effect may be applied to the tone signal generated from the tone generator circuit 7 using an effect circuit or the like (not shown). The performance data format may be digitally encoded such as the MIDI format, or may be a waveform sample data system such as PCM, DPCM, or ADPCM. Any conventional configuration may be used for the sound source circuit 7 and the sound system 7A. For example, the tone generator circuit 7 may employ any of various tone synthesis methods such as FM, PCM, physical model, formant synthesis, etc., or may be constituted by dedicated hardware, or by software processing by the CPU 1. May be.
[0018]
The communication interface (I / F) 8 is connected to a wired or wireless communication network 8A such as a LAN, the Internet, or a telephone line, and is connected to a server computer (not shown) or the like via the communication network 8A. And an interface for taking in the control program and various data from the server computer to the score display device side. That is, when no control program or various data is stored in the ROM 2 or the external storage device 9 (hard disk), it is used to download the control program and various data from the server computer. The score display device as a client transmits a command requesting download of a control program and various data to the server computer via the communication interface 8 and the communication network 8A. Upon receiving this command, the server computer distributes the requested control program and data to the score display device via the communication network 8A, and the score display device transmits these control programs and various data via the communication interface 8. Downloading is completed by receiving the data and storing it in the external storage device 9 (hard disk) or the like.
[0019]
The external storage device 9 displays musical score display data, musical performance data relating to music to be automatically played, musical score display data for displaying a musical score in accordance with the content of the musical performance data on the display 6A, data relating to control of various programs executed by the CPU 1, and the like. It is something to remember. When the control program is not stored in the ROM 2, the control program is stored in the external storage device 9 (for example, a hard disk), and read into the RAM 3 to store the control program in the ROM 2. A similar operation can be performed by the CPU 1. In this way, control programs can be easily added and upgraded. The external storage device 9 is not limited to a hard disk (HD), but a floppy disk (FD), a compact disk (CD-ROM / CD-RAM), a magneto-optical disk (MO), a DVD (abbreviation of Digital Versatile Disk), or the like. The storage device may use various types of external recording media that are detachable. Alternatively, a semiconductor memory or the like may be used.
[0020]
Here, each data structure of the performance data and score display data used with the score display apparatus shown in FIG. 1 is demonstrated easily.
The performance data is data for reproducing a music piece selected as an automatic performance target, and is data of a plurality of parts recorded in a predetermined file format such as SMF (abbreviation of Standard MIDI File). An example of performance data known in the art will be described. Performance data is roughly divided into performance setting information and performance information. The performance setting information is information for setting various reproduction modes used in automatic performance. For example, tempo data for defining the tempo when reproducing the performance data, timbre data for defining the timbre, and volume are defined. Includes volume data. The performance information is information representing the playback content of the music that is automatically played, and includes performance timing data for each part (for example, a right-hand melody part that is operated with the right hand, a left-hand melody part that is operated with the left hand, and an accompaniment part). A set of performance event data is stored in the order of performance. The performance timing data for each part is data representing the time (that is, the timing) for processing performance event data for reproducing music such as sound generation and mute, and can be represented by the number of clocks according to the MIDI clock. It is data. For example, performance timing data can be used to determine the timing of a performance event from the beginning of the song or the absolute time from the beginning of each measure (that is, the absolute number of clocks), or the relative time from the previous performance event (that is, the relative time). The number of clocks). The performance event data for each part is data representing the contents of a performance event for reproducing a musical piece such as pronunciation and mute. The contents of the performance event include key-on, key-off, tempo change, timbre change, etc., and automatic performance is performed based on these performance events.
[0021]
On the other hand, the score display data is data for displaying a score of a predetermined music piece on the display 6A. As an example of conventionally known score display data, the score display data is composed of score setting information and score symbol information. The score setting information is basic information for displaying a score (for example, information such as the time signature and key of the score to be displayed). The musical notation symbol information is information for displaying each musical note of the musical piece corresponding to the musical score, and a combination of the musical score timing data and the musical score event data is displayed in the order of the musical performance (that is, the display of the musical score displayed on the display 6A). (In order). The musical score timing data is data representing the display position of the musical score event on the display 6A, and is represented by the number of clocks according to the MIDI clock similar to the performance timing data described above. The musical score event data is data representing the content of the musical score event to be displayed, and the types of notes constituting the song (for example, two-rest, quarter-note, eighth-triplet, etc.) and other musical symbols (for example, , Clef, time signature, etc.). In accordance with the contents of the musical score event data, a musical score described with musical notes and other musical symbols is displayed on the display 6A.
[0022]
In the musical score display apparatus shown in FIG. 1, not only automatically playing a predetermined piece of music based on performance data read from the ROM 2, RAM 3 or external storage device 9 according to the user's selection, but also a musical score display corresponding to the performance data. Data is read (or newly generated), and a score is displayed on the display 6A according to the score display data. Such processing is performed by the CPU 1 of the score display device executing a predetermined program (software) that realizes each processing. Therefore, various processes executed by the CPU 1 will be described with reference to some drawings.
[0023]
First, the operation of the “main process” shown in FIG. 2 will be described. FIG. 2 is a flowchart showing an example of “main processing” executed by the CPU 1 of the musical score display apparatus described above. The “main process” is a process for controlling the entire score display apparatus including various processes such as “selection process”, “score display process”, and “automatic performance process”, and when the score display apparatus is turned on. Starts and ends when the power is turned off. That is, when the power is turned on, the “main process” is repeatedly executed until the power is turned off. Hereinafter, processing operations in the processing will be described according to the flowchart shown in FIG.
[0024]
In step S1, initialization is performed. That is, execution of a predetermined program is started by turning on the power to the score display device, and various initial settings (that is, initialization) such as clearing the contents of the RAM 3 are performed. As an initial setting performed in this embodiment, for example, the contents of registers, flags, tables, memories or parameters of the RAM 3 are cleared (or returned to preset initial values), the MIDI interface 4, the communication interface 8, and the timer 1A. Etc., and a predetermined initial screen is displayed on the display 6A. In step S2, a selection process is performed. In this selection process, for example, selection of performance data to be displayed as a score or automatic performance by a music selection switch, selection of presence / absence of a note name on a score by a note name display selection switch, display of a score by a start / stop switch, or automatic performance Processing such as selection of start / end of. As will be described in detail later, if “Yes” is selected for the pitch name display when selecting whether or not to display the pitch name, selection of the display position for displaying the pitch name, selection of the pitch range for displaying the pitch name, A “sound name display selection process” such as selection of a temporal change rate of display intensity for displaying names is performed. As described above, in the selection process, various processes to be executed by the score display apparatus are selected and set in accordance with the operation of the predetermined switch or the like of the operator 5A by the user.
[0025]
In step S3, a score display process is performed. As will be described in detail later, in this score display process, the score for each page generated in advance based on the performance data selected by the user is sequentially displayed on the display 6A as the music progresses. That is, the selected performance data is read from the ROM 2, the RAM 3, the external storage device 9 or the like, and the score display data corresponding to the performance data is obtained (for example, read from the ROM 2, the RAM 3, the external storage device 9 or the like, or the performance data Based on the score display data, the score is displayed on the display 6A. At this time, if “Yes” is selected for the sound name display when selecting whether or not to display the sound name, the sound name is displayed at a predetermined display position on the score according to the selection condition. Further, when the automatic performance is being performed, a cursor having a predetermined display mode is moved and displayed so as to indicate the current position on the musical score where the performance is performed in accordance with the progress of the music being automatically performed. In step S4, an automatic performance is performed based on the selected performance data. That is, when automatic performance start is selected, performance event data of each part at a timing corresponding to a predetermined tempo is read from the performance data set to start reading, and automatically based on the read performance event data. A performance is performed. In automatic performance, a performance guide is provided. The performance guide performs performance guidance according to the selected performance guide form (for example, one-hand guide, two-hand guide, no guide) based on the performance data selected by the user. For example, when the left hand guide (or right hand guide) is selected as the “one hand guide”, the left hand melody part (or right hand melody part) is selected according to the performance data of the left hand melody part (or right hand melody part) in the performance data. Muting only the performance (that is, playing the performance data but not sounding). When “Both-hand guide” is selected, both left-hand and right-hand melody parts are muted. When “None” is selected, a performance guide such as performing all parts is executed.
[0026]
In step S5, other processing is performed. As an example of “other processes” performed in this embodiment, for example, a process for generating and muting a musical tone according to a performance operation performed by the user using the electronic musical instrument 4A or the like (that is, a normal performance process), an automatic process, etc. There are processing for setting the performance tempo of performance, performance volume for each part (that is, normal musical tone setting processing), processing for setting the display mode of the score, and the like. In the processing for setting the display mode of the score, the user can appropriately change the display mode for each note in the score. For example, the color displayed for each note name may be changed according to the user's preference. When these “other processes” are completed, the process returns to the process of step S2 and the processes of steps S2 to S5 are repeated until the power of the score display device is turned off.
[0027]
Next, among the processes executed in the “selection process” (see step S2 in FIG. 2) in the “main process” described above, the detailed operation of the “pitch name display selection process” will be described with reference to FIG. . FIG. 3 is a flowchart showing an example of the “pitch name display selection process”. Hereinafter, the processing operation in the processing will be described with reference to the flowchart of FIG.
[0028]
In step S11, the display position of the pitch name is selected. That is, when displaying the note name for each note on the display 6A, the position of the note name to be arranged with respect to each note (ie, the display form of the note name) is selected. As the display form of the note name, for example, the note name is displayed in each note, displayed immediately above or below each note, displayed on the left or right side of each note, the fifth line in the staff. There are display modes such as displaying above or below the first line in the staff score, and one of these display modes is selected according to the user's operation. In step S12, a pitch range for displaying a pitch name is selected. That is, when displaying the pitch name for each note on the display 6A, the pitch range for displaying the pitch name is selected in order to display the pitch name only for the notes belonging to the predetermined pitch range. For example, in the case of a treble display (that is, a musical score display using a treble clef), the note names are displayed only for notes outside the octave range (that is, C4 to B4) from the middle C (represented by C4 here). The note name is displayed only for notes outside the octave range of middle C and the octave range above (ie, C4 to B5). In addition to the octave range of middle C and the octave range below (ie, C3 to B4) It is possible to select to display the note name only for a certain note. In the case of bass display (that is, musical score display with a treble clef), the note name is displayed only for notes outside the octave range (ie C3 to B3). Other than the 2 octave range (ie C2 to B3) It is possible to select to display the note name only for a certain note. In addition, the pitch range can be set separately for the high pitch portion and the low pitch portion. It goes without saying that the selection of such a pitch range is not limited to selecting a pitch range in which a pitch name is displayed, but may be a pitch range in which a pitch name is not displayed.
[0029]
Here, a specific example of the pitch name display will be described with reference to the drawings.
First, a specific display example when the display position of the pitch name is selected (see step S11 in FIG. 3) will be described with reference to FIG. FIG. 4 is a conceptual diagram showing display variations for each display position of a note name. FIG. 4A is an example of a note name display when a note is a single note, and FIG. It is one Example of the pitch name display in the case of a compound sound.
[0030]
As can be understood from FIG. 4A, when a note is a single note, the note name is displayed at a predetermined display position selected in each note display or in the vicinity of each note display. The note 1 is an example showing the case where the note name is displayed in the note. In this example, the note name “La” is displayed in the note so as to be outlined. In this embodiment, the note 2 is displayed on the left side of the note, the note 3 is displayed on the right side of the note, the note 4 is displayed on the upper side of the note, and the note 5 is displayed on the lower side of the note. In this embodiment, note 6 is displayed below the first line of the staff and note 7 is displayed above the fifth line of the staff. On the other hand, as can be understood from FIG. 4 (B), even when a note is a compound note, as in the case where the note as shown in FIG. The pitch name is displayed at a selected predetermined display position such as near the display. Note 8 is in the note, note 9 is to the left of the note, note 10 is to the right of the note, note 11 is below the first line in the staff, and note 12 is above the fifth line in the staff. It is an Example which shows the case where a musical note is displayed. However, if the note name is a compound note and the note name is displayed above or below the note as shown in note 4 or note 5, the note name and the note may be partially overlapped and difficult to see. Display. Therefore, if the note is selected to display the note name above or below the note when the note is a complex note, a warning may be displayed. By making it possible to select the display position for displaying the pitch name in this way, the user can conveniently select the pitch name to be displayed at a position that is most easily seen by the user.
In addition, when displaying a note name, you may make it color-code and display for every note name using various colors, such as red and blue.
[0031]
Next, a specific display example when a pitch range for displaying a pitch name is selected (see step S12 in FIG. 3) will be described with reference to FIG. FIG. 5 shows an example of the pitch name display when the pitch range is selected.
[0032]
As can be understood from FIG. 5, in this embodiment, when the note name is displayed for each note on the display 6A, the note name is only included in the note for notes belonging to the pitch range other than E4 to B4. it's shown. That is, the selection of the pitch name display range such as displaying the pitch name only for the notes belonging to the pitch range other than E4 to B4 (or not displaying the pitch name only for the notes belonging to the pitch range of E4 to B4). It is one Example of the pitch name display in the case of being performed. If the user can specify the range of notes that display the note names in this way, the user can set the range in which the user can read (or cannot read) the note names directly from the notes, so that the user can instantly Only the note names of the notes in the range where the note names cannot be read directly from the notes can be displayed on the score. In this way, when the user expands the range of notes that can be read directly, the user must select a narrow range of notes to display the note name, and the user must read the note name directly. Can be set widely. By repeating this, the user can naturally acquire the ability to directly read the note names of the notes in the range that is generally required from the notes. Further, since the pitch names are displayed only for the notes within a predetermined range without displaying the pitch names for all the notes, there is an advantage that the score is less complicated.
Note that the range of a note that displays (or does not display) a note name is not limited to a pitch range, but a predetermined part (for example, a left-hand melody part, a right-hand melody part, or an accompaniment part) is specified. You may do it. For example, when the right hand melody part is designated, the note names are displayed (or not displayed) only for the notes to be played with the right hand.
[0033]
Returning to FIG. 3, in step S <b> 13, the display density when displaying the pitch name is selected. That is, it is possible to set the color depth (display shade) used when displaying the pitch name, and when displaying the pitch name on the score, the pitch name is displayed with the set color depth. . For example, as the selection of the display shade when displaying the pitch name, the steps are 100% (1 step), 75% (2 steps), 50% (3 steps), 25% (4 steps), 0% ( (5 levels) can be specified, and the tone name display is displayed in a color closer to the background color as it approaches from 100% to 0% (or, on the contrary, it may be displayed in a distant color). Good). That is, a clear note name display that is very easy for the user to see at one stage. Then, as the selection of the display intensity is changed from the first level to the fifth level, the pitch name display is made to be the same as the background color step by step.
[0034]
It is also possible to set so that the display intensity when displaying the pitch name is automatically changed in units of a predetermined period (time). In such a case, it is possible to select a period of 6 months, 3 months, 1 month, 2 weeks, etc., as the selection of the period required for the change in display density. That is, it can be set so that the display gray level at the start is changed in steps of 6 months (or 3 months, 1 month, 2 weeks, etc.). Of course, you may make it change in a different period, without changing in the same period in all the steps. For example, the display intensity at the start was 1 level, but it changed to 2 levels after 6 months, then changed to 3 levels after 3 months, and then changed to 4 levels after 1 month. In addition, it may be set such that it changes to 5 levels after 2 weeks. It should be noted that the elapsed time (period) when changing the display intensity is not only the setting of the date and time, but also the usage time of the software and the cumulative time when the score of the song is displayed on the display 6A. Alternatively, it may be set by software or the startup time of the personal computer.
[0035]
Here, a specific display example of the pitch name when the display gray level at the time of displaying the pitch name is selected (see step S13 in FIG. 3) will be described with reference to FIG. FIG. 6 is an example of a note name display in the case where a display shade when displaying a note name is selected, and FIG. 6A is a conceptual diagram for explaining a stepwise difference in display shade. FIG. 6B is a conceptual diagram for explaining how the display shade changes with time.
[0036]
As can be understood from FIG. 6A, the color intensity (display shade) used when displaying the pitch name can be set in stages, and when displaying the pitch name on the score, The note name is displayed in the color depth of the set stage. In this embodiment, as the selection of the display shade when displaying the pitch name, 100% (1 step), 75% (2 steps), 50% (3 steps), 25% (4 steps) are sequentially selected from the left side of the figure. ), 0% (5 levels) of different shades can be specified, and the tone name display becomes a color closer to the background color as it approaches from 100% to 0%. In other words, it is possible to clearly confirm that the note name “La” is displayed in the note in one stage, but it is difficult to see the note name display as the stage progresses in stages of 2, 3, 4, and so on. Thus, in five stages, the pitch name display becomes the same as the background color, and the pitch name display is completely invisible. In this way, a clear note name display that is very easy to see for the user is made in one step, but the note name display is gradually increased as the selection of the display intensity is changed from the first step to the fifth step. The name is made the same as the color, and an unclear sound name is displayed that is difficult for the user to see. Therefore, the user can perform performance practice and the like by sequentially improving his / her ability to read the pitch name directly from the notes by adjusting the display intensity according to his / her level.
[0037]
In addition, as can be understood from FIG. 6B, when the display intensity when displaying the pitch name is set to be automatically changed in units of a predetermined time (period), when the predetermined time elapses. The note name is displayed with a display intensity set in advance according to the elapsed time. In this embodiment, the case where a period of 2 weeks or 1 month is selected as the selection of the time required for the change of the display intensity is shown. In such a case, the display intensity at the start is 1 level, but after 2 weeks, the display intensity changes to 3 levels, and after 1 month, the display intensity changes to 5 levels. In this way, by setting the display intensity of the pitch name display to change with time, even a user who cannot read the pitch name can understand the pitch name according to the pitch name display at first. Since the user himself / herself has to read the note name directly from the note without depending on the note name display as time passes, gradually acquire the ability to read the note name directly from the note as time passes. You can go.
The setting of the tone level and period of the above-described pitch name display is not limited to the predetermined value set in advance, but can be set by the user appropriately inputting numerical values for the desired density and period. May be.
[0038]
In addition to the display of the note name corresponding to each note, the display shade of the display object such as various musical symbols displayed on the score may be automatically changed over time. For example, note display itself, chord display, fingering, lyrics, etc. may be erased over time. In this way, if the user wants to memorize the melody, the user can set the notes to gradually disappear over time, and if the user wants to memorize the lyrics, the lyrics follow the time. You will be able to set it to disappear gradually. In addition, the display position of the note display itself, chord display, fingering, lyrics, etc. can be selectively displayed at the same display position as the above-mentioned note name display (see FIG. 4), or according to the specified display range. Needless to say, it may be displayed (see FIG. 5).
[0039]
Next, the detailed operation of the “score display process” (see step S3 in FIG. 2) executed in the “main process” described above will be described with reference to FIG. FIG. 7 is a flowchart showing an example of “score display processing”. Hereinafter, processing operations in the processing will be described with reference to the flowchart of FIG.
[0040]
In step S21, it is determined whether or not score display data corresponding to the selected performance data (see step S2 in FIG. 2) already exists. That is, score display data corresponding to performance data designated in the ROM 2 or the external storage device 9 is stored in advance, and the score display data is read from the ROM 2 or the external storage device 9 and temporarily stored in a memory such as the RAM 3. Check whether or not it is stored in If the score display data already exists (NO in step S21), the process jumps to step S23. If there is no musical score display data yet (YES in step S21), new musical score display data is generated and stored in a memory such as the RAM 3 (step S22). In the generation of the score display data, first, the selected performance data is read from the ROM 2 or the external storage device 9 and the like, and based on the performance data, a score such as a clef, a time signature, a note, a rest, a bar line, etc. Symbol information and pitch name information (for example, note number) corresponding to a note are specified. Then, score display data is created based on the specified score symbol information and stored in a memory such as the RAM 3. The musical score display data is created by using a predetermined section that can be displayed on the display 6A at a time as a display unit for one page. For example, when a musical score for each of four measures of the high-pitched portion and the low-pitched portion can be displayed on the display 6A at a time, it is generated for each unit with four bars as one page. Therefore, the score display data for displaying the score of the entire music is data composed of a display unit of a plurality of pages corresponding to the length of the performance data. Of the musical symbol information in the musical score display data, the musical symbol information related to the note corresponds to the specified pitch name information (for example, note number).
[0041]
In step S23, it is determined whether or not the page designation of the score has been performed. If the musical score page is not designated (NO in step S23), the process jumps to step S25. If the page designation of the score has been performed (YES in step S23), the score of the designated page is displayed on the display 6A (step S24). That is, at the start of the score display, only the score display data for the first page is read from the score display data stored in the memory, and the score for the first page is displayed on the display 6A based on the data. After that, when the page of the score to be displayed on the display 6A is designated (for example, when the number of pages is designated directly or designated as the next page or the previous page, etc.), the page is supported from the memory such as the RAM 3. The musical score display data to be read is read, and the musical score is displayed on the display 6A based on the read musical score display data. In step S25, it is determined whether or not automatic performance is being performed. If the automatic performance is not being performed (NO in step S25), the process jumps to step S27. If the automatic performance is being performed (YES in step S25), the musical score display data of the corresponding page is read from the memory in accordance with the progress of the automatic performance, and the musical score of the page corresponding to the music being automatically performed is displayed ( Step S26). That is, when the automatic performance is being performed, even if the page specification of the musical score (see step S23) is not performed, the musical score display is performed by automatically changing the page according to the progress of the performance. In addition, when an automatic performance is being performed, a cursor with a predetermined display mode is displayed on the displayed score so as to move in accordance with the progress of the performance, and the current position on the score being automatically played is indicated. May be. In such a case, when the cursor reaches the last position of the score of the page, the score of the next page is displayed and the cursor is returned to the start position. That is, when the cursor reaches the end of the displayed musical score, the musical score on the currently displayed page is replaced with the musical score on the next page, and the cursor is returned to the top position of the displayed musical score. As described above, when the cursor on the musical score displayed on the display 6A is moved in accordance with the progress of the performance, it becomes possible to instruct the performance timing to the user.
[0042]
In step S27, it is determined whether or not a note name display is selected (see step S2 in FIG. 2). When the selection of the pitch name display has not been performed (NO in step S27), the process is terminated. When selection of the pitch name display is performed (YES in step S27), the pitch name display according to the selected content is performed (step S28). That is, according to the selection of the display format of the note name display, the note name information (for example, note number) corresponding to each note display on the score on the currently displayed page is read from the memory such as the RAM 3 and the note name is determined in advance. The display mode is displayed. That is, a note name is displayed at a selected display position such as in the vicinity of each note display or in the vicinity of each note display (see FIG. 4 described above). In addition, the note names are displayed only for the notes in the selected pitch range (see FIG. 5 described above). Alternatively, the pitch name is displayed while changing the intensity of the selected pitch name over time (see FIG. 6 described above).
[0043]
In each of the embodiments described above, the pitch names are always displayed. However, the present invention is not limited to this, and the pitch names may be displayed only for the notes after the performance operation by the user is stopped. FIG. 8 is a conceptual diagram showing a display example of the pitch name display from the middle of the performance. As can be understood from FIG. 8, when the user performs the performance according to the automatic performance and the performance is stopped because the note name is unknown, the notes after the performance is stopped ( For example, the note names of all the notes in the section after the performance stop or only the notes in the predetermined partial section are displayed. Alternatively, by changing the display intensity of the note names for the notes after the performance is stopped and redisplaying the note names, the note names of the notes after the performance is stopped are clearly displayed. Good. For example, for a note that has been displayed with a tone level of five levels before the performance is stopped, the tone name may be displayed again after the performance is stopped by changing the display level to three levels or one level. By doing so, it is possible to easily perform performance assistance to the user. Of course, such performance assistance is not limited to the embodiment described above. For example, the note names are sequentially displayed for the notes for which the user has performed the performance operation, and the note names for each note are sequentially displayed. It goes without saying that various other performance assist patterns such as going on may be used.
[0044]
In each of the above-described embodiments, the note name is displayed for the note. However, the present invention is not limited to this, and the chord is displayed on the score and the note name is displayed for the chord constituent sound of the chord. It may be. FIG. 9 is a conceptual diagram showing a display example when a note name is displayed for a chord constituent sound. As can be understood from FIG. 9, when a chord is displayed on the staff, the chord constituent sound names of the chord may be displayed in the vicinity of each chord name display. In this embodiment, the pitch name “Do Mi So” of the chord constituent sound of the chord “C” and the pitch name “Fa la de” of the chord constituent sound of the chord “F” are displayed in the respective chord name displays. The example displayed respectively on the right side (see the figure displayed on the left side of FIG. 9) or on the upper side (see the figure displayed on the right side of FIG. 9) is shown. Of course, it goes without saying that the display position for displaying the chord name and the note name is not limited to the illustrated position.
[0045]
Furthermore, in each of the above-described embodiments, only the pitch name is displayed with respect to the note. However, the present invention is not limited to this. In addition to the pitch name, predetermined information on the pitch and performance may be displayed at the same time. Good. FIG. 10 is a conceptual diagram showing a display example in a case where predetermined information related to pitch and performance is displayed in addition to the pitch name. In this embodiment, an example is shown in which predetermined performance operation information and octave information are simultaneously displayed as predetermined information.
As can be understood from FIG. 10, a predetermined symbol (in this embodiment, an arrow or a number pointing up and down) may be written together with the pitch name. For example, an arrow written together with a note name is for pointing up and down the pitch according to the direction of the arrow, and the direction of the arrow allows the user to raise the pitch of each note compared to the previous note. It becomes easy to judge whether it falls or not. For example, an upward arrow is attached to the second “shi” from the front. Therefore, the user can easily determine that “shi” should play “shi” having a pitch higher than the pitch of the previous note “fa”.
[0046]
Further, when the pitch name is displayed, the number attached to the pitch name may be changed for each octave so that the user can easily understand that the octave has been changed. For example, a number written together with a note name indicates a predetermined octave range to which the note belongs, and the number makes it easy for the user to determine the octave range to which each note belongs. That is, even when notes of different octaves are displayed with the same pitch name, the user can play the notes with the correct pitch by the numerical notation indicating the octave range. For example, the first “Fa 3” and the third “Fa 4” have the same note name “Fa”, but the user determines that the pitches of these notes are different by one octave. Is easy to do. Of course, the present invention is not limited to this, and the note names may be displayed in different colors or shapes for each octave. For example, the first “Fa” display color may be displayed in red, and the third “Fa” display color may be displayed in blue. In such a case, it goes without saying that the display colors of the note names of the notes belonging to each octave range are displayed in the same color. For example, the second “Shi” from the front belongs to the same octave range as the first “Fa”, so it is displayed in red, and the fourth “Do” belongs to the same octave range as the third “Fa”. Therefore, it will be displayed in blue.
[0047]
The performance data format used in the musical score display apparatus according to the present invention is in the “event + absolute time” format in which the event occurrence time is expressed in absolute time in a song or measure, and the event occurrence time is one before. "Event + Relative Time" format expressed in terms of the time from the event, "Pitch (rest) + note length" format that represents musical data in terms of note pitch and note length or rest and rest length Any format may be used, such as a “solid method” format in which a memory area is secured for each minimum performance resolution and events are stored in a memory area corresponding to the time at which a performance event occurs.
[0048]
【The invention's effect】
According to the present invention, when displaying a musical score on a predetermined screen, only the note names related to the minimum necessary notes are displayed in a display mode that is easily viewable according to the user's selection. The effect is that a musical score is displayed so that the note name can be visually recognized as the performance progresses. In addition, since the display mode of the pitch name is changed according to the setting of the user, the user can display the most appropriate score according to the proficiency level of reading the pitch name directly from the note. Is obtained.
[Brief description of the drawings]
FIG. 1 is a block diagram of a hardware configuration showing an embodiment of the overall configuration of a score display apparatus according to the present invention.
FIG. 2 is a flowchart showing an example of “main processing” executed by the CPU of the score displaying apparatus shown in FIG. 1;
FIG. 3 is a flowchart showing an example of “sound name display selection processing”;
FIGS. 4A and 4B are conceptual diagrams showing display variations for each display position of a note name. FIG. 4A is an example of a note name display when a note is a single note and FIG. It is.
FIG. 5 is an example of a pitch name display when a pitch range is selected.
FIG. 6 is an example of a note name display in the case where a display shade when displaying a pitch name is selected. FIG. 6 (A) shows a stepwise difference in display shade, FIG. 6 (B). FIG. 5 is a conceptual diagram for explaining how the display shade changes with time.
FIG. 7 is a flowchart showing an example of “score display processing”.
FIG. 8 is a conceptual diagram showing a display example of a note name display during performance.
FIG. 9 is a conceptual diagram showing a display example when a note name is displayed for a chord constituent sound.
FIG. 10 is a conceptual diagram showing a display example in a case where predetermined information related to pitch and performance is displayed in addition to the pitch name.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... CPU, 1A ... Timer, 2 ... ROM, 3 ... RAM, 4 ... MIDI interface, 4A ... Electronic musical instrument, 5 ... Detection circuit, 5A ... Operator, 6 ... Display circuit, 6A ... Display device, 7 ... Sound source circuit , 7A ... Sound system, 8 ... Communication interface, 8A ... Communication network, 9 ... External storage device, 1D ... Data and address bus

Claims (7)

Storage means for storing performance data;
Display means for displaying the musical score of the music to be played based on the performance data;
Selecting means for selecting desired performance data;
Control means for generating score display data corresponding to the selected performance data and displaying a score on the display means based on the generated score display data;
A designation means for designating a note to be displayed as a note name on the score by a pitch range;
The musical score display device, wherein the control means displays the corresponding note names only for the notes in the pitch range according to the pitch range designated by the designation means.   2. The musical score display apparatus according to claim 1, wherein the designation means designates a pitch range of a note for which a pitch name is displayed on a musical score for each type of clef. Storage means for storing performance data;
Display means for displaying the musical score of the music to be played based on the performance data;
Selecting means for selecting desired performance data;
Control means for generating score display data corresponding to the selected performance data and displaying a score on the display means based on the generated score display data;
Designating means for designating a display form of a predetermined musical score symbol to be displayed on the score so as to be displayed while adjusting according to the passage of time;
The musical score display device, wherein the control means displays the predetermined musical notation symbol by changing a display mode stepwise according to the designated time passage. Storage means for storing performance data;
Display means for displaying the musical score of the music to be played based on the performance data;
Selecting means for selecting desired performance data;
Control means for generating score display data corresponding to the selected performance data in accordance with the progress of the performance data, and displaying a score on the display means based on the generated score display data;
Means for detecting that the performance input by the user according to the performance progress has been suspended,
The musical score display device, wherein the control means displays a note name corresponding to a note after the paused time and a note name corresponding to another note in different display modes. In a computer having a storage means for storing performance data and a display means ,
Causing the user to select desired performance data from the performance data stored in the storage means;
Generating score display data corresponding to the selected performance data, and displaying the score on the display means based on the generated score display data;
A step of accepting designation by a user for designating a note whose pitch name is to be displayed on the score by a pitch range, and a pitch name corresponding only to a note in the pitch range according to the designated pitch range A musical score display program for causing the display means to display. In a computer having a storage means for storing performance data and a display means,
Causing the user to select desired performance data from the performance data stored in the storage means;
Generating score display data corresponding to the selected performance data, and displaying the score on the display means based on the generated score display data;
A step of accepting a designation by a user for designating a display style of a predetermined musical score symbol to be displayed on the score while adjusting the display style according to the passage of time; And displaying the predetermined musical score symbol on the display means. In a computer having a storage means for storing performance data and a display means,
Causing the user to select desired performance data from the performance data stored in the storage means;
Generating score display data corresponding to the selected performance data in accordance with the progress of the performance data, and displaying the score on the display means based on the generated score display data;
Detecting that the performance input by the user according to the performance progress is suspended;
When displaying the score by the display means, a score display program for executing a step of displaying a note name corresponding to a note after the paused time and a note name corresponding to another note in different display modes .

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