JP3651243B2 - Display change device, display change method, and storage medium - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a display change device and a display change method for indicating a current advancing position in display information displayed on a display means by a predetermined display mode, and changing an already designated area by display information to be displayed next. And a storage medium.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, there has been known a display change device that indicates a current advancing position in display information displayed on a display means by a predetermined display mode and changes an already specified area by display information to be displayed next. .
[0003]
As a typical example of such a conventional display changing device, a score is displayed on a display means (display), and a progress position corresponding to the progress of the performance is displayed on a displayed score (for example, a pointer is displayed). In other words, there is a musical score display device that gives instructions in such a manner that the color is changed. And in the conventional score display apparatus, the score to be displayed next is displayed by the following various methods.
[0004]
1) A score for one screen (for example, four bars) is displayed on the display, and a pointer indicating the current performance position on the score is moved as the performance progresses. When this pointer reaches the final position of the score, the score for the next one screen is displayed.
[0005]
2) As in 1), the pointer is moved as the performance progresses on the score of one screen displayed on the display. Each time the pointer moves by a predetermined distance (for example, two bars), the score in the display area where the pointer has been moved, that is, in the display area where the performance has been completed, is changed to a score subsequent to the currently displayed score.
[0006]
3) As in 1), the pointer is moved as the performance progresses on the score of one screen displayed on the display. A musical score at a position apart from the pointer by a predetermined interval and the movement of the pointer has been completed is changed to a new musical score and displayed in accordance with the movement of the pointer.
[0007]
[Problems to be solved by the invention]
However, the conventional display change device, particularly the score display device, has the following problems.
[0008]
That is, in the apparatus 1), the next score cannot be viewed until the performance of the displayed score is completed, and it is difficult to grasp the flow of music from the displayed score.
[0009]
Further, in the apparatus 2), the score of a predetermined part (in the above example, two bars) is changed at a time, so immediately after the pointer reaches the score change position, that is, immediately after the score is changed. It was inconvenient because the last score could not be confirmed.
[0010]
Further, in the apparatus 3), the score at a predetermined distance from the advance position of the pointer is sequentially changed, so that the user feels that the progress of the score is driven and can not perform calmly. It was.
[0011]
The present invention has been made paying attention to this point, and is capable of confirming display information immediately after an instruction and grasping the entire image of the display information, so that the display changing device does not give an unpleasant feeling to the user. Another object is to provide a display change method and a storage medium.
[0012]
[Means for Solving the Problems]
In order to achieve the above object, a display change device according to claim 1 is a display means for displaying display information for a plurality of section lengths related to a song for a predetermined section length, and for the displayed predetermined section length. In the display information, the current position indicating means for indicating the current progress position by moving according to the progress of the performance of the song, and the display as the current progress position indicated by the current position indicating means moves. In the displayed information, the area already instructed by the current position indicating means , At a position away from the display position of the current position indicating means The display changing means that changes according to the display information to be displayed next, and the display at which the current traveling position indicated by the current position indicating means has reached the speed at which the display changing means changes the display information. It has a speed change means which changes according to the position in information, It is characterized by the above-mentioned.
[0013]
Here, the display information may be image information or text information. Examples of the image information include score information, and examples of the text information include lyrics information (hereinafter, billing). Even if the term changes).
[0014]
The predetermined display mode means, for example, displaying a predetermined type of pointer (position indication display) or changing the color of display information from the initial color. Of course, this is only an example, and any position can be used as long as the position can be indicated by display (hereinafter, the same applies even if the claims change).
[0015]
The speed changed by the speed changing means is variably controlled according to the current traveling position. As a control method, a method of changing in a stepwise (digital) manner according to the traveling position, or gradually (analog) There are various methods such as
[0016]
Further, the display change device according to claim 2 is a storage means for storing musical sound information for generating musical sounds and display information related to the musical sound information corresponding to the musical sound information; Reading means for reading out musical tone information and corresponding display information, musical tone generating means for generating musical sounds based on the read musical tone information, display means for displaying the read display information, and the reading means In accordance with the progress of reading out the musical sound information, the current traveling position is moved and instructed in the display information displayed on the display means. Current Position indicating means; and Current In the displayed display information, the current traveling position indicated by the position indicating means moves. Current The area already indicated by the position indication means , At a position away from the display position of the current position indicating means Display changing means for changing according to display information to be displayed next, speed changing means for changing the speed at which the display changing means changes the display information, Current A progress position detecting means for detecting a progress position indicated by the position indicating means; and when the first indicated position is detected by the indicated position detecting means, the speed is set to a first speed, and the display means Control means for controlling the display changing means to change the display according to the information to be displayed next from the top of the display information displayed on the display, and the speed changing means is controlled by the indicated position detecting means. When the second designated position is detected, the speed is changed to the second speed.
[0017]
Here, the first designated position is basically not limited to any position in the displayed display information, but it is a predetermined distance from the head position of the display information (for example, 2 of the entire display information). / 3, 3/4, etc.) are desirable. Further, the second designated position is a position where the reading of the musical tone information has progressed from the first designated position, and this position is basically any of the positions from the first designated position to the end position of the display position. The position may be a position, but is preferably a position closer to the end position (for example, the end position itself). Furthermore, a plurality of types of second designated positions and second speeds may be provided, and the speed may be changed corresponding to each designated position. (The same applies if the claims change)
In order to achieve the above object, a display change method according to claim 4 is a display step of displaying display information for a plurality of section lengths on a display section for a predetermined section length related to the music, and the displayed predetermined section. In the display information for a long time, a current position indicating step for indicating the current progress position by moving according to the progress of the performance of the music, and the current progress position indicated by the current position indicating step moves. The current position indication in the displayed display information Process The area already indicated by , At a position away from the display position of the current position indicating step The display change step that changes according to the display information to be displayed next, and the speed at which the display information is changed by the display change step has reached the current traveling position indicated by the current position indication step, And a speed changing step that changes according to the position in the display information.
[0018]
In order to achieve the above object, a storage medium according to claim 5 includes a display step of displaying display information for a plurality of section lengths on a display section for a predetermined section length related to the music, and the displayed predetermined section. In the display information for a long time, a current position indicating step for indicating the current progress position by moving according to the progress of the performance of the music, and the current progress position indicated by the current position indicating step moves. The current position indication in the displayed display information Process The area already indicated by , At a position away from the display position of the current position indicating step The display change step that changes according to the display information to be displayed next, and the speed at which the display information is changed by the display change step has reached the current traveling position indicated by the current position indication step, A program for causing a computer to execute a display changing method including a speed changing step of changing according to a position in display information is stored.
[0019]
Preferably, the display information includes image information and correspondence information associating the image information and the musical sound information.
[0020]
Here, the correspondence information includes, for example, coordinate information indicating a coordinate position where a middle note of image information (key-on event in musical sound information) exists, and interval information indicating a time interval between adjacent coordinate information. Of course, this is merely an example, and instead of the interval information, absolute time information in which the time at which the coordinate information is located is expressed in absolute time may be adopted, and the correspondence information may be coordinate information + interval information (or absolute). Information other than (time information) may be included.
[0021]
Further preferably, the second speed is higher than the first speed.
[0022]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
[0023]
The display change device according to an embodiment of the present invention has a function of displaying a score and automatically playing notes on the score, and operates as follows.
[0024]
That is, a pointer indicating the progress position of the automatic performance is displayed on the score displayed on the display unit, the pointer is moved according to the progress of the automatic performance, and the pointer is moved to the first position (for example, the position of 75% of the displayed score). ), A wiper for updating (displaying changing) the already displayed score with the score to be displayed next is set to a first speed (for example, twice the speed of the pointer) from the top of the displayed score. ), And when the pointer reaches the second position (for example, the last position of the displayed score), the wiper moving speed is changed to the second speed (for example, four times the pointer speed).
[0025]
FIG. 1 is a block diagram showing a schematic configuration of a display change device according to the present embodiment.
[0026]
In the figure, the display change device of the present embodiment mainly includes a keyboard 1 for inputting character information, a mouse 2 as a pointing device, and a key operation detection circuit for detecting an operation state of each key of the keyboard 1. 3, a mouse operation detection circuit 4 that detects an operation state of the mouse 2, a CPU 5 that controls the entire apparatus, a ROM 6 that stores a control program executed by the CPU 5, table data, and the like, and will be described later with reference to FIG. 2. RAM 7 that temporarily stores musical tone data and corresponding data, various input information, calculation results, etc., timer 8 that measures interrupt time and various times in timer interrupt processing, and various information, for example, a large liquid crystal display (LCD) or CRT (Cathode Ray Tube) display and display unit 9 including light emitting diode (LED) A hard disk drive (FDD) 10 that drives a floppy disk (FD) 20 as a storage medium, and a hard disk drive (not shown) that stores various application programs including the control program, various data, etc. HDD) 11, a CD-ROM drive (CD-ROMD) 12 for driving a compact disk-read only memory (CD-ROM) 21 for storing various application programs including the control program, various data, and the like, and an external A MIDI interface (I / F) 13 for inputting a MIDI (Musical Instrument Digital Interface) signal from a computer or outputting it as a MIDI signal (code) to the outside, and a communication network 101, for example, a server computer. Communication interface (I / F) 14 for transmitting / receiving data to / from the computer 102, and a tone generator circuit for converting musical tone data input through the MIDII / F 13 or communication I / F 14, preset musical tone data, etc. into musical tone signals 15, an effect circuit 16 for imparting various effects to the tone signal from the tone generator circuit 15, and a tone signal from the effect circuit 16 is converted into sound, such as a DAC (Digital-to-Analog Converter) It is constituted by a sound system 17 such as an amplifier and a speaker.
[0027]
The above components 3 to 16 are connected to each other via a bus 18, a timer 8 is connected to the CPU 5, another MIDI device 100 is connected to the MID II / F 13, and a communication network 101 is connected to the communication I / F 14. Are connected to the sound source circuit 15, and a sound system 17 is connected to the effect circuit 16.
[0028]
As described above, the hard disk of the HDD 11 can also store the control program executed by the CPU 5. When the control program is not stored in the ROM 6, the control program is stored in the hard disk and is read into the RAM 7. Thus, the CPU 5 can be caused to perform the same operation as when the control program is stored in the ROM 6. In this way, control programs can be easily added and upgraded.
[0029]
The control program and various data read from the CD-ROM 21 of the CD-ROM drive 12 are stored in the hard disk in the HDD 11. As a result, a new installation or version upgrade of the control program can be easily performed. In addition to the CD-ROM drive 12, a device for using various types of media such as a magneto-optical disk (MO) device may be provided as an external storage device.
[0030]
As described above, the communication I / F 14 is connected to a communication network 101 such as a LAN (Local Area Network), the Internet, or a telephone line, and is connected to the server computer 102 via the communication network 101. When the above programs and various parameters are not stored in the hard disk in the HDD 11, the communication I / F 14 is used to download programs and parameters from the server computer 102. A computer serving as a client (in this embodiment, a display change device) transmits a command for requesting downloading of a program and parameters to the server computer 102 via the communication I / F 14 and the communication network 101. Upon receiving this command, the server computer 102 distributes the requested program and parameters to the computer via the communication network 101, and the computer receives these programs and parameters via the communication I / F 14 and receives them in the HDD 11. Downloading is completed by accumulating on the hard disk.
[0031]
In addition, an interface for directly exchanging data with an external computer or the like may be provided.
[0032]
FIG. 2 is a diagram showing an example of musical tone data and corresponding data stored in a predetermined area of the RAM 7, wherein (a) shows an example of musical tone data and (b) shows an example of corresponding data.
[0033]
The musical sound data is data for performing an automatic performance, and is composed of, for example, a MIDI code. Of course, it does not have to be composed of MIDI codes. The correspondence data is data for use when displaying a score on the display unit 9. In addition to this, for display of musical scores, pointers, and wipers, image data (the image data is typically bitmap data and will be described below in a limited manner. It is needless to say that it is not possible to do so, but the illustration is omitted for convenience of explanation.
[0034]
As shown in (a), the musical sound data includes tempo data (one of initial setting data) indicating the tempo of the entire song, key-on event data for instructing the pronunciation of the musical sound, and the muting of the generated musical sound. Key-off event data for instructing, key-on event data or timing data indicating the generation timing of key-off event data, and end data indicating the end of the song.
[0035]
The key-on event data includes key-on data for instructing the sound source circuit 15 to generate sound, a note number indicating the pitch of the event, and velocity data indicating the velocity of the event.
[0036]
Further, the data structure of the key-off event data is not shown, but is composed of key-off data for instructing the sound source circuit 15 to mute and a note number indicating the pitch of this event. As with the key-on event data, velocity data may be included in the key-off event data. However, in many cases, velocity data is not included in the key-off event data. Absent.
[0037]
In the present embodiment, the musical sound data is configured as “event data + timing data (relative data)” as described above. However, the present invention is not limited to this. For example, “event data + absolute time data”, “pitch” Any configuration such as “data + note length data” may be used.
[0038]
Correspondence data refers to data having information for associating the musical tone data and bitmap data. As shown in (b), a plurality of section length data, coordinate data corresponding to key-on event data, and coordinate data Interval time data representing the time interval between them as the number of clocks (an integer value with a timer interrupt time interval as a reference for timer interrupt processing (FIGS. 7 and 8) described later) and the end of the corresponding data It is mainly composed of end data.
[0039]
Each section length data is data indicating the score length (coordinate length) displayed on one screen of the display unit 9, and is represented by, for example, the number of pixels. The section length data is required because the score length of the musical score related to the display is not constant from the first display screen to the last display screen. This is because on the display screen, there are cases where the musical score to be displayed only remains for less than four bars. Based on this section length data, the corresponding bitmap data for one screen is read and displayed. In the present embodiment, of the bitmap data, the data used for the musical score display is created in advance over the entire music and is read according to the section length data. Of course, the present invention is not limited to this, and when displaying a score, corresponding bitmap data is created based on, for example, bitmap data prepared for each note to display various notes and musical tone data. The created bitmap data may be used.
[0040]
The coordinate data is data indicating the coordinates where the note is located in the bitmap data, that is, the coordinates where the key-on event data is located.
[0041]
The interval time data indicates a time interval required for the pointer to move between adjacent notes in the bitmap data, and is given by the number of clocks. Therefore, the time indicated by the interval time data matches the time interval between adjacent key-on event data. However, apart from the timing data, the interval time data is provided because the moving speed of the pointer and the wiper is determined based on the interval time data, and the moving speed of the wiper is changed according to the position of the pointer. Therefore, the reason why the control is performed only with the timing data is that the control becomes complicated. Of course, even if the control is complicated, if it is desired to reduce the memory capacity for storing the corresponding data, the display control can be performed only with the musical sound data.
[0042]
In the present embodiment, the correspondence data is configured as “coordinate data + interval time data (relative data)” as described above. However, the present invention is not limited to this, for example, “coordinate data + absolute time data”. It may be configured.
[0043]
In addition, a plurality of musical sound data, corresponding data and bitmap data (image data) are prepared, and corresponding data and bitmap data corresponding to each musical sound data are stored in an external storage medium such as the hard disk, for example. Only those designated by the user are read out and stored in a predetermined storage area of the RAM 7.
[0044]
The control process executed by the display change apparatus configured as described above will be described first with reference to FIG. 3 and will be described in detail with reference to FIGS.
[0045]
3A and 3B are diagrams illustrating an example of a score displayed on the display unit 9. FIG. 3A illustrates a state in which only the pointer P is moving, and FIG. 3B illustrates the pointer P at the first display position. (C) shows the movement state of the wiper W when the pointer P is at the second display position, and (d) shows the movement state of the wiper W when the pointer P is at the second display position. ) Shows the movement state of the wiper W when the pointer P is positioned at the head of the score.
[0046]
When the performance starts, only the pointer P moves on the score as the performance progresses, as shown in FIG. When the pointer P reaches the first display position (in this embodiment, 75% of the displayed score), the wiper W appears and moves in the same direction as the pointer P. However, as shown in (b), the area where the performance has already been completed is changed to a musical score to be displayed next. At this time, the moving speed of the wiper W with respect to the moving speed of the pointer P is set to double in the present embodiment.
[0047]
Further, when the pointer P moves and reaches the second display position (in the present embodiment, the end of the score) as shown in (c), the movement speed of the wiper W is changed from 2 times to 4 times. . Then, the pointer P moves to the beginning of the next musical score as shown in (d), and moves on this musical score as explained in (a). At this time, since the speed of the wiper W is set to a higher speed, the score that has already been played is quickly changed to the next score.
[0048]
FIG. 4 is a flowchart showing the procedure of the main routine executed by the display change device according to the present embodiment, particularly the CPU 5.
[0049]
In the figure, first, initialization such as clearing of the RAM 7 is performed (step S1).
[0050]
Next, it is determined whether or not the start of automatic performance has been instructed (step S2). Here, the instruction to start the automatic performance is performed, for example, when the user clicks a start button (not shown) displayed on the display unit 9 with the mouse 2.
[0051]
When the start of automatic performance is instructed in step S2, a performance initial setting processing subroutine described later with reference to FIG. 5 is executed (step S3). On the other hand, when the start of automatic performance is not instructed, step S3 is skipped. Proceed to step S4.
[0052]
In step S4, it is determined whether or not the end of automatic performance has been instructed. The instruction to end the automatic performance is also given, for example, when the user clicks a stop button (not shown) displayed on the display unit 9 with the mouse 2.
[0053]
When the end of the automatic performance is instructed in step S4, the sound generation of the sound that is being generated is stopped and the display of the musical score is ended (step S5), and the display change device of the present embodiment is automatically performing. After the automatic performance flag run indicated by "1" is reset ("0"), the process proceeds to step S7. On the other hand, when the end of the automatic performance is not instructed, the process skips steps S5 and S6 and proceeds to step S7.
[0054]
In step S7, for example, a timbre change process when the user instructs to change a timbre, a process of selecting musical tone data to be automatically played from a plurality of musical tone data, and a musical tone data having a plurality of parts (parts such as melody, accompaniment, rhythm, etc.) ), And other processes such as a process for selecting which part to display the musical score (a simultaneous selection of a plurality of parts is possible), and in the subsequent step S8, the main routine is executed. It is determined whether or not an instruction for ending is issued. This instruction is also performed by clicking the end button (not shown) displayed on the display unit 9 with the mouse 2.
[0055]
When the end is instructed in step S8, the main routine is ended. On the other hand, when the end is not instructed, the process returns to step S2 and the above-described processing is repeated.
[0056]
FIG. 5 is a flowchart showing a detailed procedure of the performance initial setting processing subroutine of step S3.
[0057]
In the figure, first, the first section length data is read from the corresponding data in FIG. 2B, and the bitmap data (image data) of the score corresponding to the section length indicated by the section length data is stored in the bitmap of the RAM 7. Read from the data storage area. Based on this bitmap data, the score is displayed on the display unit 9 for one screen (step S11).
[0058]
Next, the pointer P is set to be displayed at the head of the displayed score (step S12). Specifically, the bitmap data of the pointer P is read from the bitmap data storage area, and the display screen in step S11 is changed based on the bitmap data so that the pointer P is displayed at the head of the score.
[0059]
In the subsequent step S13, initial setting data (such as the tempo data in FIG. 2A) in the musical tone data is transmitted to the tone generator circuit 15. In step S14, the leading timing data in the musical tone data is read out. In order to count the occurrence timing of each event data of the musical tone data, it is set to a soft counter timing provided on the RAM 7.
[0060]
Then, the coordinate interval between the first coordinate data and the next coordinate data in the corresponding data is calculated from the two coordinate data values, and the pointer P is moved from the calculated coordinate interval and the value of the first interval time data. The speed is calculated and set in an area speed secured in the RAM 7 (hereinafter, this content is referred to as “movement speed speed”) (step S15). That is, the moving speed speed indicates the number of clocks required for the pointer P to move by one coordinate (one pixel). As can be seen from the calculation method, the moving speed of the pointer P is the adjacent score on the score. It is calculated and changed for each interval between notes.
[0061]
Further, in order to count the total number of clocks since the start of the automatic performance (an integer value with the timer interrupt time interval as a unit), a soft counter songtime (hereinafter referred to as “total clock”) secured on the RAM 7 is counted. In order to store the sum of the interval time data read after the automatic performance is started, the area pointertime (hereinafter, referred to as “song time”) is cleared (“0”) (step S16). This content is referred to as “pointer movement time pointertime”), the leading interval time data value is set (step S17), the automatic performance flag run is set (“1”) (step S18), and the actual performance is performed. The initial setting process ends.
[0062]
FIG. 6 is a flowchart showing a procedure of a display interrupt processing subroutine for displaying a score in the timer interrupt processing. This interrupt process is started and executed in response to a timer interrupt that occurs 480 times within a quarter note time interval. Therefore, the time interval of timer interruption varies according to the tempo.
[0063]
In the figure, first, it is determined whether or not the automatic performance flag run is "1" (step S21). When run = 0, that is, when the automatic performance is not being performed, this display interrupt processing is immediately terminated, while run = If it is 1, that is, if automatic performance is in progress, the process proceeds to step S22.
[0064]
In step S22, the counter count for counting the number of interrupts is incremented by "1". In step S23, the index area wipe (hereinafter, this content is referred to as "wiper movement") in the RAM 7 to indicate the movement speed of the wiper W. It is determined whether or not “speed wipe” is “0”. Here, the wiper movement speed wipe takes an integer value of 0 to 2, and when it is “0”, it indicates that the wiper W is not displayed, and when it is “1”, the wiper W moves the pointer P. A state where the wiper W is moving at a speed twice as fast as the speed of the pointer P is indicated as “2”.
[0065]
In step S23, when wipe ≠ 0, that is, when the wiper W is moving, a display change processing subroutine described later with reference to FIG. 7 is executed (step S24). On the other hand, when wipe = 0, that is, the wiper W is When not displayed, the process skips step S24 and proceeds to step S25.
[0066]
In step S25, it is determined whether or not the total clock number songtime is equal to the pointer movement time pointertime. When songtime = pointertime, that is, when the pointer P is at a position to overlap the displayed note, Then, one piece of coordinate data corresponding to the key-on event is read (step S26), and a coordinate interval between the coordinate data and the next coordinate data is calculated from the two coordinate data, and the calculated coordinate interval and the above-described reading are obtained. The moving speed of the pointer P is calculated from the value of the interval time data corresponding to the outputted coordinate data and set to the moving speed speed (step S27), and the display position of the pointer P is set to the read coordinate data. Advance (step S28), pointer movement time point In time, after the sum of the interval time data corresponding to the coordinate data read out above (step S29), the process proceeds to step S32 to be described later.
[0067]
As described above, in step S25, it is determined whether or not the total clock number songtime matches the pointer movement time pointertime, and the processing of steps S26 to S29 is executed when songtime = pointertime. For the following reason.
[0068]
That is, as described above, the pointer P is set so as to move at a different speed (may be the same) between adjacent notes. This is in order to accurately synchronize the generation of musical sound and the indicated position of the pointer P. As a result of setting the moving speed of the pointer P in this way, there may be a case where the pointer P does not indicate the note even though the tone of the next note is being generated. In consideration of this case, the processing of steps S26 to S29 is executed at the sound generation timing of the note, and the pointer P is always moved to the coordinate position of the note.
[0069]
On the other hand, if songtime ≠ pointertime in step S25, it is determined whether or not the moving speed speed is greater than the value of the counter count (step S30). Here, as described above, since the number of clocks required for the pointer P to move by one coordinate is set for the moving speed speed, whether or not the time for moving the pointer P by one coordinate has elapsed in step S30. It is determined whether or not. That is, when the determination result is “YES”, “not yet passed” is shown, while when “NO”, “passed” is shown.
[0070]
In step S30, when speed> count (the determination result is “YES”; not yet elapsed), the display interrupt processing is immediately terminated, while when speed ≦ count (the determination result is “NO”; has elapsed), After the display position of the pointer P is advanced by one coordinate (step S31) and the counter count is reset (step S32), it is determined whether or not the coordinate position of the pointer P is 75% of the displayed score (step S33). ). Here, the position of 75% of the displayed score corresponds to a position in the vicinity of the third measure when it is assumed that a score for four measures is displayed on one screen. Whether or not the pointer P is at the 75% position may be determined by calculating (or setting in advance) the coordinate interval for one screen, for example.
[0071]
In step S33, when the coordinate position of the pointer P is 75% of the displayed score, the wiper movement speed wipe is set to “1”, that is, twice the movement speed of the pointer P (step S34). After setting W to the top position of the display score (step S35), the display interrupt process is terminated.
[0072]
On the other hand, if the coordinate position of the pointer P is not 75% of the displayed score in step S33, it is determined whether or not the position is at the final position of the displayed score (step S36).
[0073]
In step S36, when the coordinate position of the pointer P is at the final position of the display score, the wiper moving speed wipe is set to “2”, that is, four times the moving speed of the pointer P (step S37), and then the main display is performed. On the other hand, if the coordinate position of the pointer P is not the final position of the display score, the display interrupt process is immediately ended.
[0074]
FIG. 7 is a flowchart showing a detailed procedure of the display change processing subroutine of step S24.
[0075]
In the figure, first, it is determined whether or not there is a musical score to be displayed next (step S41). When there is no musical score to be displayed next, the display change processing is immediately terminated while the next musical score is to be displayed. When there is a score, in order to count the number of times this display change processing is performed, a counter wipecount (hereinafter, this content is referred to as “display change processing number wipecount”) reserved on the RAM 7 is incremented by “1” ( Step S42), it is determined whether or not the wiper moving speed wipe is “1” (Step S43).
[0076]
In step S43, when wipe = 1, that is, when the movement speed of the wiper W is twice the movement speed of the pointer P, it is determined whether or not 1/2 of the movement speed speed is greater than the display change processing count wipecount ( Step S44). The purpose of the discrimination process in step S44 is the same as that in step S30. However, while step S30 compares the moving speed speed itself with the value of the counter count, in step S44, 1/2 of the moving speed speed and the display change processing count wipecount (this is substantially Is different from the counter count). This is because the wiper W is moved at a speed twice that of the pointer P.
[0077]
If speed / 2 ≦ wipecount in step S44, that is, if the time for moving the wiper W by one coordinate has elapsed, the display position of the wiper W is moved by one coordinate and a corresponding new score is displayed (step S45). After the display change processing count wipecount is reset (step S46), the process proceeds to step S47. On the other hand, when speed / 2> wipecount, that is, when the time for moving the wiper W by one coordinate has not elapsed, steps S45 and S46 are skipped. Then, the process proceeds to step S47.
[0078]
In step S47, it is determined whether or not the display of the musical score for one section has been completed. When the display of the musical score for one section is completed, that is, when all the displayed musical scores have been changed to a new musical score, the wiper movement speed wipe is performed. After resetting (step S48), the display change processing is terminated. On the other hand, when the display of the musical score for one section is not completed, the display change processing is immediately terminated.
[0079]
On the other hand, in step S43, when wipe ≠ 1, that is, when wipe = 2 and the movement speed of the wiper W is four times the movement speed of the pointer P, 1/4 of the movement speed speed is the number of display change processes wipecount. It is determined whether or not it is larger (step S49).
[0080]
When speed / 4 ≦ wipecount in step S49, that is, when the time for moving the wiper W by one coordinate has elapsed, the display position of the wiper W is moved by one coordinate and the corresponding new position is moved in the same manner as in step S45. After the score is displayed (step S50), the process proceeds to step S46. On the other hand, when speed / 4> wipecount, that is, when the time for moving the wiper W by one coordinate has not elapsed, steps S50 and S46 are skipped and step S47 is skipped. Proceed to
[0081]
FIG. 8 is a flowchart showing the procedure of a performance interrupt processing subroutine for performing an automatic performance in the timer interrupt processing. Similarly to the display interrupt process, this interrupt process is also started and executed in response to a timer interrupt that occurs 480 times within a quarter note time interval.
[0082]
In the figure, first, it is determined whether or not the automatic performance flag run is "1" (step S61). If run ≠ 1, that is, run = 0 and automatic performance is not being performed, the performance interruption processing is immediately performed. On the other hand, if run = 1 and automatic performance is in progress, the process proceeds to step S62.
[0083]
In step S62, it is determined whether or not the timing timing is “0”. If timing is not 0 and the event data is not generated, the timing timing is decremented by “1” (step S63), After the number songtime is incremented by “1” (step S64), the performance interruption process is terminated.
[0084]
On the other hand, in step S62, when timing = 0 and event data is generated, one event data is read from the performance data (step S65), and whether or not the read data is the end data. Is determined (step S66).
[0085]
If the read data is end data in step S66, the data is transmitted to the tone generator circuit 15 (step S67), the automatic performance flag run is reset (step S68), and the performance interruption process is terminated. To do.
[0086]
On the other hand, if the read data is not end data in step S66, it is determined whether or not the data is timing data (step S69).
[0087]
If the read data is not timing data in step S69, the data is event data, that is, on-event data or off-event data, so that the data is transmitted to the sound source circuit 15 (step S70). On the other hand, when the read data is timing data, the data value is set to timing timing and then the process returns to step S62.
[0088]
As described above, in the present embodiment, the change display to the new score by the wiper W is executed at a position away from the indicated position of the pointer P (a position about 75% away from the whole score), so that the user You can check the score before and after the performance. Further, the movement speed of the wiper W is made variable to two kinds of speeds. At first, the speed is set to double the movement speed of the pointer P, and when the pointer P reaches the end of the score, the speed is further doubled ( (4 times the moving speed of the pointer P), the display of the change to the new score by the wiper W is not delayed with respect to the progress of the automatic performance, and therefore the user feels uncomfortable feelings such as impatience. The display of the change to the new score is smoothly performed without any problem.
[0089]
In the present embodiment, an example has been described in which the score displayed on the display unit 9 is changed to a new score. However, the score is an example of image information, and image information for a plurality of screens is sequentially switched and displayed. Needless to say, there is no need to limit it to a musical score if it is to be done. Of course, instead of image information, for example, character information such as lyrics may be displayed on the display unit 9, and this display may be changed to a new display.
[0090]
In the present embodiment, the position at which the wiper W starts to move and the position at which the movement speed of the wiper W is changed are fixedly set in advance, but may be freely changed by the user. Similarly, the moving speed of the wiper W is fixedly set in advance in two steps. Needless to say, the number of steps is not limited to “2”, and the number of steps can be freely set by the user. You may be able to do it. Further, the moving speed of the wiper W may be gradually accelerated.
[0091]
In this embodiment, the moving speed speed of the pointer P and the moving speed wipe of the wiper W are changed for every adjacent note. However, the present invention is not limited to this, and the constant speed is always set. May be.
[0092]
Furthermore, in the present embodiment, the progress position of the automatic performance is indicated by the pointer P. However, the present invention is not limited to this. For example, the automatic performance may be indicated by sequentially changing the display color of the score (or lyrics). Good. In order to sequentially change the display color, a method of changing the display color only at the position where the performance is currently performed, a method of changing the display color of the area where the performance up to the position where the performance is currently performed, or the like can be considered.
[0093]
In addition, a storage medium in which a software program for realizing the functions of the above-described embodiments is recorded is supplied to the system or apparatus, and the computer (or CPU 5 or MPU) of the system or apparatus is stored in the storage medium. It goes without saying that the object of the present invention can also be achieved by reading and executing.
[0094]
In this case, the program itself read from the storage medium realizes the novel function of the present invention, and the storage medium storing the program constitutes the present invention.
[0095]
As a storage medium for supplying the program, for example, the hard disk of the HDD 11, CD-ROM 21, MO, MD, floppy disk 20, CD-R (CD-Recordable), magnetic tape, nonvolatile memory card, ROM, etc. Can be used. Further, the program may be supplied from the server computer 102 via another MIDI device 100 or the communication network 101.
[0096]
Further, by executing the program read by the computer, not only the functions of the above-described embodiments are realized, but the OS running on the computer based on the instructions of the program performs the actual processing. Needless to say, a case where the function of the above-described embodiment is realized by performing part or all of the processing, is also included.
[0097]
Further, after the program read from the storage medium is written in a memory provided in a function expansion board inserted into the computer or a function expansion unit connected to the computer, the function expansion board or It goes without saying that the CPU 5 or the like provided in the function expansion unit performs part or all of the actual processing, and the functions of the above-described embodiments are realized by the processing.
[0098]
【The invention's effect】
As described above, according to the first, fourth, and fifth aspects of the present invention, the image is displayed on the display means. Predetermined section length When changing the already indicated area with the display information to be displayed next, the change speed is , Current position The position in the display information that has reached Therefore, the change display to the new display information is not delayed with respect to the progress of the advance position, and therefore the user can smoothly display the new display information without feeling uncomfortable feelings such as impatience. There is an effect that the change display can be performed.
[0099]
According to the second aspect of the present invention, when the first designated position is detected, the change speed is set to the first speed, and the display information is displayed next from the top of the display information displayed on the display means. Since the change speed is changed to the second speed when the display is changed according to the information to be detected and the second designated position is detected, the same effect as the above effect can be obtained. When the first designated position is set at a position away from the head position of the display information, the user can check the score before and after the position where the performance is currently being performed.
[0100]
Preferably, since the second speed is higher than the first speed, the display of the change to the new display information is not delayed with respect to the progress of the performance, and the new display information is more smoothly displayed. The change display can be performed.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a schematic configuration of a display change device according to an embodiment of the present invention.
FIG. 2 is a diagram illustrating an example of musical sound data and corresponding data.
FIG. 3 is a diagram illustrating an example of a score displayed on the display unit of FIG. 1;
4 is a flowchart showing a procedure of a main routine executed by the display change device of FIG. 1, particularly a CPU.
FIG. 5 is a flowchart showing a detailed procedure of a performance initial setting processing subroutine of FIG. 4;
FIG. 6 is a flowchart showing a procedure of a display interrupt processing subroutine for displaying a score in the timer interrupt processing.
7 is a flowchart showing a detailed procedure of a display change processing subroutine of FIG.
FIG. 8 is a flowchart showing a procedure of a performance interrupt processing subroutine for performing an automatic performance in the timer interrupt processing.
[Explanation of symbols]
5 CPU (current position indicating means, display changing means, speed changing means, reading means, musical tone generating means, traveling position indicating means, traveling position detecting means, control means)
7 RAM ( Storage means )
9 Display section (display means)
15 Sound source circuit (musical sound generation means)
17 Sound system (musical sound generation means)

Claims (5)

Display means for displaying a plurality of section length display information related to the music, for a predetermined section length;
In the display information for the displayed predetermined section length, current position indicating means for indicating the current progress position by moving according to the progress of the performance of the song;
As the current advancing position indicated by the current position indicating means moves, the area already indicated by the current position indicating means is separated from the display position of the current position indicating means in the displayed display information. Display changing means for changing according to the display information to be displayed next at the position ;
Speed changing means for changing the speed at which the display changing means changes the display information according to the position in the display information at which the current traveling position indicated by the current position indicating means has arrived. A display change device characterized. Storage means for storing musical sound information for generating musical sounds and display information related to the musical sound information corresponding to the musical sound information;
Reading means for reading the stored musical tone information and corresponding display information;
A musical sound generating means for generating a musical sound based on the read musical sound information;
Display means for displaying the read display information;
In accordance with the reading progress of the musical sound information by the reading means, the current position indicating means for moving and indicating the current progress position in the display information displayed on the display means;
According to the current progress position indicated by the current position indicating means is moved, in the display information the displayed, already indicated area by the current position indicating means, away from the display position of the present position indicating means Display changing means for changing according to the display information to be displayed next at the position ;
Speed changing means for changing a speed at which the display changing means changes the display information;
A progress position detecting means for detecting a progress position indicated by the current position indicating means;
When the first designated position is detected by the designated position detecting means, the speed is set to the first speed, and the information to be displayed next is displayed from the top of the display information displayed on the display means. Control means for controlling the display change means to change the display,
The speed changing means changes the speed to the second speed when the second designated position is detected by the designated position detecting means.   The display change apparatus according to claim 2, wherein the second speed is higher than the first speed. A display step of displaying display information for a plurality of section lengths related to the music for a predetermined section length on the display means;
In the display information for the displayed predetermined section length, a current position indicating step for indicating the current progress position by moving according to the progress of the performance of the song;
According to the current progress position indicated by the current position indicator process moves Showing information the displayed, already indicated area by the current position indication process, apart from the display position of the current position indication step A display change process that changes according to display information to be displayed next at the position ;
A speed changing step of changing the speed at which the display information is changed by the display changing step according to the position in the display information at which the current traveling position indicated by the current position indicating step has arrived. The display change method characterized by this. A display step of displaying display information for a plurality of section lengths related to the music for a predetermined section length on the display means;
In the display information for the displayed predetermined section length, a current position indicating step for indicating the current progress position by moving according to the progress of the performance of the song;
According to the current progress position indicated by the current position indicator process moves Showing information the displayed, already indicated area by the current position indication process, apart from the display position of the current position indication step A display change process that changes according to display information to be displayed next at the position ;
A speed changing step of changing a speed at which the display information is changed by the display changing step according to a position in the display information at which the current traveling position indicated by the current position indicating step has arrived. A computer-readable storage medium storing a program for causing a computer to execute the changing method.

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