JP2004219656A - Sequence data display program - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a sequence data display program that improves the operation efficiency of an operator by changing a display style of a phrase corresponding to one specified phrase when the phrase is specified. <P>SOLUTION: When a phrase "sample 003" in a raw material phrase list 21 is specified and a Delete button 21a is clicked on, the display style (display color) of the frame corresponding to the specified phrase "sample 003" among a plurality of frames which are already set at a sequence display part 22 is changed. Consequently, it is visually and easily confirmed whether a phrase to be deleted is set at the sequence display part 22, so it is made easy to judge whether the phrase may be deleted from the raw material frame list 21 to improve the operation efficiency of an operator who edits and generate music to be played. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a sequence data display program, and in particular, when one phrase is specified, the display mode of a phrase corresponding to the phrase is changed to reduce the work efficiency of the operator. The present invention relates to a sequence data display program that can be improved.
[0002]
2. Description of the Related Art Conventionally, there is an automatic performance application which operates on a personal computer (hereinafter, referred to as a "PC"). This automatic performance application is for automatically playing a performance music. A plurality of phrases as material data are prepared on a hard disk of a PC, and the plurality of phrases are arbitrarily connected by an operator, whereby a performance music ( Performance data or waveform data) can be edited and created (for example, Patent Document 1).
[0003]
If a phrase prepared on a hard disk or the like is configured as performance information conforming to, for example, the MIDI standard, a musical piece (performance data) created by connecting such phrases is output from a PC to a tone generator. Then, the tone generator generates a musical tone based on the performance data, whereby an automatic performance is performed. On the other hand, if the phrase prepared on the hard disk or the like is configured as audio data, the music piece (waveform data) created by connecting such phrases is sequentially read and reproduced at the sampling rate of the audio data. , An automatic performance is performed.
[0004]
[Patent Document 1]
JP-A-7-64545 (paragraphs [0010, 0011], FIG. 1, FIG. 2, etc.)
[0005]
By the way, the procedure for creating a musical piece (performance data or waveform data) by the operator is as follows.
[0006]
That is, on the screen of the PC, a material phrase list for displaying a list of phrases to be used and a sequence including a plurality of tracks are displayed. First, the operator inputs a plurality of types of phrases to be used. By reading the data from the hard disk to the RAM, it is displayed on the material phrase list, and each phrase displayed on the material phrase list is sequentially set to an arbitrary track on the sequence and to an arbitrary position on the performance time axis (for example, , Drag-and-drop operation) to set and create a performance song.
[0007]
However, in the actual creation work, the newly set phrase is added to the material phrase list as needed while moving or deleting the set position of the phrase once set on each track of the sequence. It is common to create by repeating trial and error. It is also possible to set one phrase displayed in the material phrase list at a plurality of locations on each track of the sequence.
[0008]
Therefore, as the creation work proceeds, the number of phrases displayed on the material phrase list increases, and it becomes difficult to grasp the correspondence between each phrase and each phrase set in each track of the sequence data. There was a problem. As a result, it is not only difficult to determine where each phrase on the source phrase list is set on each track of the sequence, but also that each phrase is already set on each track of the sequence. There is a problem that it is difficult to determine whether or not the operation is performed, which hinders the work efficiency of the operator.
[0009]
In addition, this problem is caused by an increase in the number of displayed phrases in the material phrase list because it is impossible to inadvertently arrange (delete) each phrase displayed on the material phrase list. The useable area of is reduced and other processing is hindered, or the task of selecting a target phrase from a large number of phrases displayed in the material phrase list becomes complicated, so this point is also considered. This has led to a decrease in operator's work efficiency.
[0010]
The present invention has been made to solve the above-described problem. When one phrase is designated, the display mode of the phrase corresponding to the phrase is changed to reduce the operator's work efficiency. It is an object of the present invention to provide a sequence data display program that can be improved.
[0011]
In order to achieve this object, a sequence data display program executed by a computer according to claim 1 is information for reproducing a plurality of phrases at a predetermined timing in a performance time. Displaying a sequence data, a specifying step of specifying any of the plurality of phrases, a detecting step of detecting the same phrase as the phrase specified by the specifying step, and detecting by the detecting step And a change step of changing the display mode of the input phrase to a display mode different from the display mode of the other phrases.
[0012]
According to the sequence data display program executed by the computer according to the first aspect, when any one of the plurality of phrases is designated by the designation step, the phrase corresponding to the phrase designated by the designation step Is detected from the sequence data by the detection step, and the display mode of the phrase detected by the detection step is changed to a display mode different from that of the other phrases by the change step. Becomes easier.
[0013]
A sequence data display program executed by a computer according to a second aspect of the present invention displays sequence data which is information for reproducing a plurality of phrases at a predetermined timing in a playing time, and displays a list of a plurality of phrases. A phrase list display step, a display step of displaying the phrase displayed in the phrase list display step at a playback timing in the playing time, and an erasing instruction for erasing a desired phrase from the list displayed in the phrase list displaying step. Step, a detection step of detecting the same phrase as the phrase instructed to delete from the sequence data in response to the deletion instruction in the deletion instruction step, and displaying the phrase detected in the detection step by another phrase And the display mode of And a changing step of changing different.
[0014]
According to the sequence data display program executed by the computer according to the second aspect, the editing and creating work of the sequence data by the operator includes, for example, playing one phrase in the list displayed in the phrase list displaying step. This is performed by setting the desired position on the above, and the sequence data edited and created by the setting is displayed by the display step. Here, when a desired phrase is instructed to be erased from the list displayed in the phrase list display step in the erase instruction step, a phrase identical to the phrase instructed to be erased in the erase instruction step is detected in the sequence data. , And the display mode of the phrase detected by the detection step is changed by the change step to a display mode different from that of the other phrases, so that the corresponding phrase can be easily confirmed.
[0015]
In the sequence data display program executed by the computer according to claim 1 or 2, the phrase designation in the designation step or the erasure instruction step is, for example, designated from sequence data displayed in the display step. May be specified, or may be specified from a list (material phrase list) displayed in the phrase list display step. In addition, as a result of the detection by the detection step, when a phrase corresponding to the phrase specified or deleted by the specifying step or the deletion instruction step is not detected from the sequence data or (and) the list, the fact is described. A notification step for notifying may be provided.
[0016]
According to the present invention, when any of a plurality of phrases is designated (for example, an erasing instruction), a phrase corresponding to the designated (for example, erasing instruction) phrase is stored in the sequence data. It is detected from the inside, and the display mode for the phrase is changed to a different mode from the display mode for the other phrases. Therefore, even when a large number of phrases are displayed, the operator who edits and creates the sequence data can easily recognize the specified phrase visually, thereby improving the work efficiency. There is an effect that can be.
[0017]
Preferred embodiments of the present invention will be described below with reference to the accompanying drawings. FIG. 1 shows a personal computer (hereinafter abbreviated as "PC") 1 in which an automatic performance application having a built-in sequence data display program (see FIGS. 3 to 5) according to an embodiment of the present invention is installed. FIG. 2 is a block diagram showing an electrical configuration of a tone generator 11 that generates an analog tone signal (audio signal) based on performance data (MIDI information) output from a PC 1 and outputs the generated signal to a speaker 12.
[0018]
The PC 1 includes a CPU 2, a ROM 3, a RAM 4, a user interface (UI) 5, a storage device 6, and an input / output interface (I / O) 7, which are interconnected by a bus line 8. It is composed.
[0019]
The CPU 2 is an arithmetic device, and the ROM 3 stores various control programs executed by the CPU 2 and fixed value data referred to when the programs are executed. The RAM 4 is a memory for temporarily storing various data, a work memory, a program, and the like when executing the control program stored in the ROM 3 or the like, and is configured to be rewritable.
[0020]
The user interface (UI) 5 includes a keyboard for inputting numerical values and characters, a mouse as a pointing device, and a display device such as a CRT or an LCD. The storage device 6 includes a hard disk drive (hereinafter, referred to as “HD drive”). The automatic performance application software of the present embodiment is stored in an HD drive together with a plurality of phrases as performance information conforming to the MIDI standard, and is read out from the HD drive into the RAM 4 by the CPU 2 and executed.
[0021]
An input / output interface (I / O) 7 intervenes between transmission and reception of performance data (MIDI information) between the PC 1 and an external device, and operates according to the MIDI standard to generate an analog tone signal (audio signal). A sound source device 11 is connected. The sound source device 11 has internally stored waveform data prepared in advance, generates an audio signal based on performance data (MIDI information) input from the PC 1, and outputs the audio signal to the speaker 12.
[0022]
When the automatic performance application is executed by an instruction from the operator, the application (program) is read from the storage device 6 and loaded into the RAM 4 via the bus line 8 and executed.
[0023]
Next, a sequence data display program that is a part of the automatic performance application software of the present embodiment will be described with reference to FIGS. FIG. 2 is a view showing an execution screen of the automatic performance application, in which a performance information display screen 20 for editing and creating a performance music is displayed.
[0024]
As shown in FIG. 2, the performance information display screen 20 mainly includes a material phrase list 21, a sequence display unit 22, and a control panel 23. The material phrase list 21 is a display unit for displaying phrases used for editing and creating a music piece, and a plurality of phrases are listed in a vertical direction (vertical direction in FIG. 2).
[0025]
The operator designates one of a plurality of phrases displayed in the material phrase list 21 with a mouse, and drags and drops the phrase to a sequence display unit 22 described later, so that the designated phrase is displayed in the sequence display unit. It is possible to edit and create a musical piece by setting any of the 22 tracks at an arbitrary position on the performance time axis.
[0026]
Here, the addition of the phrase to the material phrase list 21 is performed by clicking an icon (not shown) instructing the phrase addition mode with a mouse to display an additional phrase display screen (not shown). The phrase is added by designating a phrase to be added from a plurality of phrases displayed in, and clicking an icon (not shown) instructing addition with a mouse. As a result, data on the phrase that has been additionally operated is read from the HD drive into the RAM 4 (see FIG. 1), and the phrase is additionally displayed on the material phrase list 21 based on the data.
[0027]
As shown in FIG. 2, as a result of adding a large number of phrases, for a phrase that cannot be displayed in the display frame of the material phrase list 21 (for example, a phrase after “sample007”), the vertical scroll bar is moved with the mouse. The desired phrase can be displayed in the display frame by scrolling the display content of the material phrase list 21 by operating the.
[0028]
In addition, as a result of adding a large number of phrases, the number of phrases displayed in the material phrase list 21 becomes large, and the operation of designating the phrases becomes complicated. By clicking the button 21a with a mouse, unnecessary phrases can be deleted from the material phrase list 21 and arranged. Note that the same applies when the “Delete” key on the keyboard is pressed.
[0029]
For example, to delete the phrase “sample003” from the material phrase list 21 on the performance display screen 20 shown in FIG. 2, first, the phrase “sample003” to be deleted is specified by clicking with the mouse, and then Delete By clicking the button 21 a with a mouse, the phrase “sample003” can be deleted from the material phrase list 21.
[0030]
In this case, when the phrase “sample003” displayed in the material phrase list 21 is specified by clicking with the mouse, the display mode (display color) of the specified phrase “sample003” is red (see FIG. 2). The display mode (display color) of the phrase corresponding to the designated phrase “sample003” among a plurality of phrases set in the sequence display unit 22 described later is also changed to (represented by hatching in FIG. 2). It is also changed to red.
[0031]
Therefore, it is not only easy to visually recognize whether the phrase “sample003” to be deleted is set (used) in the sequence display unit 22 described later, but also the phrase “sample003” Can be easily grasped where each phrase on the sequence display unit 22 is set (used) on the performance time axis, so that the phrase “sample003” can be obtained from the material phrase list 21. This makes it easy to determine whether or not the music piece can be deleted, thereby improving the work efficiency of the operator who edits and creates the music piece.
[0032]
In particular, the display mode (display color) is changed when the display name of a phrase set in the sequence display unit 22 (that is, the frame name of a frame described later) is changed by a so-called rename function, or when the performance music is changed. This is effective when it is difficult to grasp the correspondence between the phrases in the material phrase list 21 and each of the phrases set in the sequence display unit 22, for example, when the entire length of the sequence display unit 22 cannot be visually recognized at one time. I do.
[0033]
The sequence display section 22 is a display section on which a sequence as a performance procedure of an automatic performance application (sequencer) is displayed. Each section of the display section divided into six in the vertical direction indicates a track, The horizontal axis indicates the performance time axis of the performance music (performance data).
[0034]
In FIG. 2, the performance time proceeds toward the right side. By operating a horizontal scroll bar provided at the lower end of the sequence display unit 22 with a mouse, the display content of the sequence display unit 22 can be moved forward or backward along the performance time axis.
[0035]
As described above, a plurality of phrases dragged and dropped by the operator from the material phrase list 21 are set in the sequence display unit 22, and these phrases are displayed as "frames".
[0036]
Here, the frame represents a playback time (playback timing) and a playback section of each phrase set in the sequence display unit 22. The horizontal axis (play time axis) of the sequence display unit 22 indicates the phrase. Is displayed on each track as a rectangular body having a length corresponding to the playback time (length in the left-right direction in FIG. 2) at a position corresponding to the playback time. That is, the reproduction of the phrase set in the sequence display unit 22 starts from the left end position of the frame and ends at the right end position.
[0037]
Each frame has the following data structure. That is, each frame has six parameters: OffsetClock, ClockLength, TrackNo, SelectFlag, FrameName, and PhraseName. The values of these parameters are stored in the RAM 4.
[0038]
OffsetClock is a parameter indicating the playback time of the frame, and the value determines the display position of the frame in the horizontal axis (on the performance time axis) direction of the sequence display unit 22. On the other hand, ClockLength is a parameter indicating the playback length of the frame, and the value determines the display length of the frame in the horizontal axis (on the performance time axis) direction of the sequence display unit 22. TrackNo is a parameter indicating the playback track of the frame, and the display track of the frame is determined by this value.
[0039]
SelectFlag is a flag indicating whether or not to change the display mode of the frame, and is set to “0” or “1”. If the flag is set to “1”, it means that the display mode (display color) of the frame is changed, and the display color is set to red. Also, when set to “0”, it means that the display mode (display color) of the frame is not changed and the frame is set to the normal display mode, that is, a white display color.
[0040]
FrameName is a parameter indicating the display name (frame name) of the frame, and can be set individually by the operator for each frame. Since this frame name is displayed in each frame of the sequence display unit 22, different frame names can be displayed even for the same phrase. PhraseName is a parameter for specifying the phrase of each frame, and stores the same phrase (phrase name) as the phrase displayed in the material phrase list 21, and the change by the operator is prohibited.
[0041]
Therefore, in the display change and deletion process (see FIG. 4) described later, even if the frame name has been changed, the corresponding frame can be detected by comparing the phrase names of each frame. it can. In this embodiment, as shown in FIG. 2, the frame name of each frame is set to be the same as the phrase name.
[0042]
Here, in the description of the material phrase list 21 described above, as a method of deleting one phrase (for example, “sample003”) displayed on the material phrase list 21, after specifying a phrase to be deleted, the Delete button 21 a Has been described with a mouse. Alternatively, the phrase (“sample003”) displayed in the material phrase list 21 may be deleted even if a frame displayed on the sequence display unit 22 is specified. it can.
[0043]
That is, in the performance display screen 20 shown in FIG. 2, when the phrase “sample003” is to be deleted from the material phrase list 21 and the frame corresponding to the phrase can be recognized, the frame is displayed on the sequence display unit 22 with the mouse. The phrase "sample003" can also be deleted from the material phrase list 21 by clicking and specifying with the mouse, and then clicking the Delete button 21a with the mouse.
[0044]
In this case, when a frame displayed on the sequence display unit 22 (for example, a frame displayed on the left end of the track 5) is specified by clicking with a mouse, the display mode (display color) of the specified frame is changed. The display mode (display color) of the other frame (that is, the one having the same phrase name) corresponding to that frame is also changed to red, as shown in FIG. Therefore, it is possible to easily visually recognize whether or not another frame corresponding to the phrase “sample003” to be deleted is set (used) on the sequence display unit 22. This makes it easier to improve the work efficiency of the operator who edits and creates the performance music.
[0045]
The control panel 23 is provided with buttons and the like for instructing the performance of the edited and created performance data. As shown in FIG. 2, a play button for instructing playback and an instruction for stopping playback are provided in order from the right. It has a stop button, a fast forward button for instructing fast forward, a fast rewind button for instructing fast rewind, a top button for instructing cueing, and a record button for instructing recording. Further, to the right of each of these buttons, a setting box for setting a reproduction tempo when playing the performance data is arranged.
[0046]
Since the details of the operation method and operation of these buttons and setting boxes are the same as those of the conventional automatic performance application, the description thereof will be omitted.
[0047]
FIG. 3 is a flowchart showing the operation detection processing executed by the CPU 2. This process is a process that is repeatedly executed by the CPU 2 at predetermined intervals while the automatic performance application is running, detects the operation state of the mouse or the keyboard, and executes a process according to the operation state.
[0048]
The CPU 2 first determines whether or not a phrase displayed on the material phrase list 21 or a frame displayed on the sequence display unit 22 has been designated by clicking the mouse (S1). As a result, when it is determined that the phrase displayed on the material phrase list 21 or the frame displayed on the sequence display unit 22 is specified (S1: Yes), the specified phrase or frame is specified. In order to perform this operation, the phrase name of the phrase or frame is stored in the RAM 4 (S2), and the operation detection processing ends.
[0049]
On the other hand, if it is determined in the processing of S1 that the phrase displayed on the material phrase list 21 or the frame displayed on the sequence display unit 22 has not been designated (S1: No), then the material phrase It is determined whether the Delete button 21a provided in the list 21 or the "Delete" key on the keyboard has been pressed (S3).
[0050]
As a result, if it is determined in the processing of S3 that the Delete button 21a provided in the material phrase list 21 or the “Delete” key of the keyboard has not been pressed (S3: No), each processing (S4 ) To check whether another operation has been performed with the mouse or the keyboard. If another operation has been performed, execute a process corresponding to the operation, and then detect this operation. The processing ends.
[0051]
On the other hand, in the process of S3, when it is determined that the Delete button 21a provided on the material phrase list 21 or the “Delete” key of the keyboard is pressed (S3: Yes), the deletion of the phrase or the frame is instructed. It was done. Therefore, in this case, in order to determine whether the phrase or frame to be deleted is specified in the material phrase list 21 or the sequence display unit 22, it is determined whether the phrase name of the phrase or frame is stored in the RAM 4. Is determined (S5).
[0052]
As a result, when it is determined in the processing of S5 that the phrase name of the phrase or the frame is not stored (S5: No), the phrase or the frame is designated in the material phrase list 21 or the sequence display unit 22. (See S1 and S2), there is no phrase or frame to delete. Therefore, in this case (S5: No), it is possible to determine that the Delete button 21a or the "Delete" key has been pressed due to careless erroneous operation of the operator or the like, so that processing corresponding to such operation is executed. Then, the process proceeds to S4, and after performing each process (S5), the operation detecting process is terminated.
[0053]
On the other hand, when it is determined in the processing of S5 that the phrase name of the phrase or the frame is stored (S5: Yes), the phrase or the frame is specified in the material phrase list 21 or the sequence display unit 22, This means that there is a phrase or frame to be deleted (see S1 and S2). Therefore, in this case (S5: Yes), the display change and deletion process (S6) is executed to delete the phrase or the frame, and the operation process ends. Here, the display change and deletion processing (S6) will be described with reference to the flowchart of FIG.
[0054]
FIG. 4 is a flowchart showing the display change and deletion process (S6) executed by the CPU 2. In this process, when a phrase or a frame is specified (see S1) and deletion of the specified phrase or frame is instructed (see S3 and S5), the phrase corresponding to the specified phrase or frame is Alternatively, after detecting a frame and changing the display mode of the corresponding phrase or frame, the specified phrase or frame and the corresponding phrase or frame are deleted.
[0055]
With regard to the display change and deletion process (S6), the CPU 2 first executes an initialization process to initialize each value of the register (S11). Note that the initial values of the register n, the register MSG, and the register Mode are respectively set to “0” (n = 0, MSG = 0, Mode = 0).
[0056]
Here, the register n is a counter that increments by “1” with “0” as an initial value, and the register MSG determines whether a frame corresponding to the phrase or frame specified in the processing of S1 exists. This flag is set to “1” if there is at least one corresponding frame (or a specified frame).
[0057]
The register Mode is a flag indicating a drawing mode when performing a drawing process of each frame displayed on the sequence display unit 22, and is set to “0” or “1”. When the flag is set to “0”, it indicates a display mode change mode for changing the display mode (display color) of the corresponding frame to red, and when set to “1”, the corresponding mode is set. This means a delete mode for deleting a frame.
[0058]
After executing the initialization processing (S11), in the processing of S12, the phrase name (PhraseName) of the value-th frame of the register n is read from the RAM 4 from among the frames displayed on the sequence display unit 22, and The value of SelectFlag of the frame is initialized (S12), and the process proceeds to S13. The value of SelectFlag is set to “0” (SelectFlag = 0) so that the initial state of the display mode (display color) of the frame is normal (white).
[0059]
In the processing of S13, it is determined whether or not the phrase name (PhraseName) read in the processing of S12 is the same as the phrase name of the phrase or frame specified in the processing of S1 described above (S13). This determination is made by reading and comparing the phrase names stored in the RAM 4 in the above-described processing of S2 (see FIG. 3).
[0060]
As a result, in the process of S13, the read phrase name (that is, the phrase name of the value-th frame of the register n) is the same as the phrase or the phrase name of the frame specified in the above-described process of S1. If it is determined (S13: Yes), this means that the value-th frame of the register n corresponds to the phrase or frame specified in the processing of S1. Therefore, in this case (S13: Yes), the value of SelectFlag is set to “1” in order to change the display mode (display color) of the value-th frame of the register n to red (S14, SelectFlag = 1) In order to indicate that there is at least one corresponding frame, the value of the register MSG is set to "1" (S15, MSG = 1), and the processing shifts to S16.
[0061]
On the other hand, in the process of S13, the read phrase name (that is, the phrase name of the value-th frame of the register n) is different from the phrase name of the phrase or the frame specified in the above-described process of S1. If it is determined (S13: No), this means that the value-th frame of the register n is irrelevant to the phrase or frame specified in the processing of S1. Therefore, in this case (S13: No), the process of S14 and S15 is skipped, and the process proceeds to S16.
[0062]
In the processing of S16, it is determined whether or not the value-th frame of the current register n is the last frame among the frames displayed on the sequence display unit 22, that is, for all the frames displayed on the sequence display unit 22. (That is, execution of the processing from S12 to S15) is completed (S16). As a result, when it is determined that the current value-th frame of the register n is not the last frame and that the examination of all the frames displayed on the sequence display unit 22 has not been completed yet (S16: No) In order to examine the remaining frames, "1" is added to the value of the register n (S17, n = n + 1), and the process proceeds to S12.
[0063]
On the other hand, in the processing of S16, the frame of the current value of the register n is the last of the frames displayed on the sequence display unit 22, and all the frames displayed on the sequence display unit 22 are examined ( That is, when it is determined that the execution of the processing from S12 to S15 is completed (S16: Yes), the display mode (display color) of the frame corresponding to the phrase or the frame specified in the processing of S1 is changed. To this end (see FIG. 2), the process shifts to S18 to execute a track drawing process. Here, the track drawing process (S18) will be described with reference to the flowchart of FIG.
[0064]
In this case (S16: Yes), when the process proceeds to the track drawing process (S18), the value of the register Mode is set to “0” (display mode change mode) (Mode = 0). Therefore, in the track drawing process in S18, as described above, the process of setting the display mode (display color) of the corresponding frame to red is executed.
[0065]
FIG. 5 is a flowchart showing the track drawing process (S18) executed by the CPU 2. This process is a process for performing drawing on the sequence display unit 22, and is performed according to the set drawing mode (in this process, since the value of the register Mode is “0”, the display mode is changed). A frame drawing (deletion) process is performed. Therefore, the description of the processing of S36 and S39 for determining the value of the register Mode and the processing of S38 executed when the value of the register Mode is “1” (deletion mode) are omitted here.
[0066]
The CPU 2 executes an initialization process for the track drawing process (S18), and initializes the value of the register n (S31). Note that the initial value of the register n is set to “0” (n = 0).
[0067]
Next, after the track frame and the background of the sequence display unit 22 are drawn (S32), the data of the value-th frame of the register n (OffsetClock, ClockLength, TrackNo, SelectFlag) is selected from the frames displayed on the sequence display unit 22. , FrameName, PhraseName) are read from the RAM 4 (S33), and based on the read data, the drawing position of the value-th frame of the register n is calculated (S34), and then the process proceeds to S35.
[0068]
In the process of S35, it is determined whether or not the value of SelectFlag of the value-th frame of the register n is “1”, that is, the value-th frame of the register n corresponds to the phrase or frame specified in the above-described process of S1. It is determined whether it is a corresponding one (S35). As a result, if it is determined in the process of S35 that the value of SelectFlag is “1” (S35: Yes), the frame of the value of the register n is the phrase or frame specified in the process of S1. It is a thing corresponding to. Therefore, in this case (S35: Yes), in order to change the display mode (display color) of the value-th frame of the register n, the process proceeds to S37, and the frame is drawn in red (S37). , S41.
[0069]
On the other hand, if it is determined in the process of S35 that the value of the SelectFlag of the frame of the value of the register n is not “1” (S35: No), the frame of the value of the register n is processed in the process of S1. Is independent of the phrase or frame specified in. Therefore, in this case (S35: No), the process proceeds to S40, where the value-th frame of the register n is drawn in a normal display color, that is, white (S40), and the process proceeds to S41. .
[0070]
In the process of S41, it is determined whether or not the value-th frame of the current register n is the last frame among the frames displayed on the sequence display unit 22, that is, whether all the frames displayed on the sequence display unit 22 It is determined whether or not the drawing process (that is, execution of the process of S37 or S40) is completed (S41). As a result, when it is determined that the current value-th frame of the register n is not the last frame and the drawing processing for all the frames displayed on the sequence display unit 22 has not been completed yet (S41: No), "1" is added to the value of the register n in order to perform the drawing process for the remaining frames (S42, n = n + 1), and the process proceeds to S33.
[0071]
On the other hand, in the process of S41, when it is determined that the current frame of the value of the register n is the last frame among the frames displayed on the sequence display unit 22 (S41: Yes), the sequence display unit This means that the drawing process (ie, the execution of the process of S37 or S40) for all the frames displayed in step S22 has been completed, and that all the frames corresponding to the phrase or frame specified in the above-described process of S1 have been completed. Since the display mode (display color) has been changed to red (see FIG. 2), the track drawing process (S18) ends.
[0072]
Accordingly, the operator who has designated the phrase or the frame and instructed to delete, for example, when the phrase is designated, is the designated phrase set (used) in the sequence display unit 22? If a frame is specified, whether or not there is a corresponding frame other than the specified frame can be easily visually recognized. As a result, deletion of the specified phrase or frame can be performed. The determination of availability can be made efficiently.
[0073]
Returning to the flowchart of FIG. After executing the track drawing process (S18), it is determined whether the value of the register MSG is "1" (S19). As a result, when it is determined that the value of the register MSG is “1” (S19: Yes), at least one frame corresponding to the phrase or frame specified in the above-described processing of S1 is displayed on the sequence display unit 22. One is that it exists. Therefore, in this case (S19: Yes), a message "Do you want to delete?" Is displayed on the screen to confirm whether or not deletion is possible, and a response from the operator (key input of "Y" or "N") is performed. ) Is requested (S20).
[0074]
As a result, in the processing of S20, the input of the “Y” key is confirmed, and when it is determined that the deletion of the specified phrase or frame is instructed (S20: Yes), the input is performed in the processing of S1. In order to delete the frame corresponding to the phrase or the frame from the sequence display unit 22, the process proceeds to S21, and the track drawing process is executed. Here, the track drawing process (S21) will be described with reference to the flowchart of FIG.
[0075]
In this case (S20: Yes), the value of the register Mode is set to "1" (deletion mode) (Mode = 1) when the process proceeds to the track drawing process (S21). Therefore, in the track drawing process in S21, the process of deleting the corresponding frame is executed as described above.
[0076]
Also, in the track drawing process in S21, since the value of the register mode is “1”, the processes of S37 and S39 for determining the value of the register mode, and the case where the value of the register mode is “0” (display mode) The description of the processing of S37 and S40 executed in the change mode) is omitted, and the description of the same processing as the track drawing processing in S18 is also omitted.
[0077]
The CPU 2 first executes an initialization process (S31) with respect to the track drawing process (S21), draws a track frame and a background of the sequence display unit 22 (S32), and then stores data of the value-th frame of the register n (S32). OffsetClock, ClockLength, TrackNo, SelectFlag, FrameName, PhraseName) are read out from the RAM 4 (S33), and based on the read data, the drawing position of the value-th frame of the register n, that is, the position to be deleted is calculated. After that (S34), the process proceeds to S35.
[0078]
In the process of S35, it is determined whether or not the value of SelectFlag of the value-th frame of the register n is “1”, that is, the value-th frame of the register n corresponds to the phrase or frame specified in the process of S1. It is determined whether or not it is (S35). As a result, if it is determined in the process of S35 that the value of SelectFlag is “1” (S35: Yes), the frame of the value of the register n is the phrase or frame specified in the process of S1. It is a thing corresponding to. Therefore, in this case (S35: Yes), in order to delete the value-th frame of the register n from the sequence display unit 22, the process proceeds to S38, and the drawing of the frame is deleted (S38), and S41 is performed. Move to the processing of.
[0079]
On the other hand, if it is determined in the process of S35 that the value of the SelectFlag of the frame of the value of the register n is not “1” (S35: No), the frame of the value of the register n is processed in the process of S1. Is independent of the phrase or frame specified in. Therefore, in this case (S35: No), there is no need to delete the value-th frame of the register n, so that the processing of S39 and S40 is skipped, and the processing shifts to the processing of S41.
[0080]
In the process of S41, it is determined whether or not the current frame of the value of the register n is the last frame among the frames displayed on the sequence display unit 22, that is, the deletion process for the frame to be deleted (that is, S38). It is determined whether or not all of the above processes have been completed (S41). If it is determined that the current frame of the value of the register n is not the last frame (S41: No), the remaining frames are not processed. (1) is added to the value of the register n (S42, n = n + 1), and the process proceeds to S33. On the other hand, if it is determined in the process of S41 that the current frame of the value of the register n is the last frame displayed in the sequence display unit 22 (S41: Yes), the frame should be deleted. This means that all the deletion processing for the frame (that is, execution of the processing of S38) has been completed, and thus the track drawing processing (S21) is ended.
[0081]
Returning to the flowchart of FIG. After executing the track drawing process (S21) and deleting the corresponding frame from the sequence display unit 22, the data stored in the RAM 4 for the deleted frame is unnecessary, so the data deletion process (S22) is executed. Then, the data (that is, the data of the frame whose SelectFlag is “1”) is deleted from the RAM 4.
[0082]
Next, data of the phrase specified in the above-described processing of S1 or the phrase corresponding to the frame specified in the processing of S1 is deleted from the RAM 4 (S23), and based on the contents of the RAM 4 after the deletion. Then, a list drawing process (S24) is executed, and this display change and deletion process is terminated. As a result, the phrase specified in the process of S1 or the phrase corresponding to the frame specified in the process of S1 is deleted from the material phrase list 21, and the display of the material phrase list 21 is updated.
[0083]
Here, in the process of S19, when it is determined that the value of the register MSG is not “1” (S19: No), a phrase is designated in the above-described process of S1, and the phrase corresponds to the phrase. The frame does not exist in the sequence display unit 22. Therefore, in this case (S19: No), there is no need to delete the frame from the sequence display unit 22, so that the processing from S20 to S22 is skipped, and the processing shifts to the processing in S23 and S24, and is specified in the processing in S1. The data about the selected phrase is deleted from the RAM 4 and the display of the material phrase list 21 is updated.
[0084]
In the process of S20, if the input of the "N" key is confirmed and it is determined that the operator has answered that the designated phrase or frame is not deleted (S20: No), the color is changed to red. In order to return the display mode (display color) of the displayed frame to a normal state, all the frames displayed on the sequence display unit 22 are drawn in white (S25), and the process proceeds to S24 to perform the list drawing process. (S24) is executed. As a result, the display of the material phrase list 21 is updated, and the display mode of the phrase is returned to the normal state (white).
[0085]
In each flowchart, the process of S1 is specified as the designation step, the process of S13 is determined as the detection step, the process of S37 is defined as the change step, and the step S24 is defined as the phrase list display step described in claim 2. The processing of S18 and S21 corresponds to the display step, the processing of S13 corresponds to the detection step, and the processing of S37 corresponds to the change step.
[0086]
As described above, the present invention has been described based on the embodiments. However, the present invention is not limited to the above embodiments, and it is easily understood that various improvements and modifications can be made without departing from the spirit of the present invention. It can be inferred.
[0087]
For example, in the present embodiment, when deleting one phrase, by specifying a frame to be displayed on the sequence display unit 22, the display of the specified frame on the sequence display unit 22 is deleted, and the corresponding frame is deleted. The data is deleted from the RAM 4, the display of the phrase having the same phrase name as the designated frame in the material phrase list 21 is deleted, and the corresponding data is deleted from the RAM 4. However, the present invention is not necessarily limited to this. By designating a frame to be displayed on the sequence display unit 22, the display of the designated frame on the sequence display unit 22 is deleted, and the corresponding data is stored in the RAM 4. A configuration may be adopted in which only the deletion process is performed, and the display of the material phrase list 21 is not deleted, and the process of deleting the corresponding data is not performed.
[0088]
For example, in the present embodiment, when the display mode of a plurality of frames is changed and all of the frames cannot be visually recognized at once in the display frame of the sequence display unit 22 (see FIG. 2), the operator By operating the horizontal scroll bar with a mouse, the display contents of the sequence display unit 22 can be scrolled and each frame whose display mode has been changed can be confirmed, but this is not necessarily limited to this. Instead, for example, each time a “TAB” key or an arrow key (arrow key) is pressed, the display content of the sequence display unit 22 is scrolled by a predetermined amount, so that each frame whose display mode has been changed can be sequentially displayed. You may comprise.
[0089]
In this case, when the display mode of the frame is changed, the display content of the sequence display unit 22 is scrolled, and the first frame on the performance time axis among the frames whose display mode is changed is displayed. May be displayed. Then, every time the “TAB” key or the arrow key is pressed, the scrolling may be performed so that the frames whose display modes have been changed are sequentially displayed in the order of performance. When the “TAB” key or the arrow key is pressed and the display content of the sequence display unit 22 is scrolled, each time the key is pressed, the performance music (or the frame whose display mode has been changed) from the scrolled position. May be configured to be reproduced.
[0090]
For example, in the present embodiment, a case has been described in which one phrase (frame) is specified and the display mode of the corresponding frame is changed at the timing at which deletion of the specified phrase is instructed. The change timing is not necessarily limited to the timing at which the deletion is instructed. For example, it is naturally possible to set the timing at which one phrase is specified.
[0091]
Alternatively, in addition to the Delete button 21a, a search button for instructing a search for a frame corresponding to the specified phrase is separately provided on the performance information display screen 20, one phrase is specified, and the search button is clicked with a mouse. The display mode of the frame corresponding to the designated phrase may be changed at the above timing.
[0092]
For example, in the present embodiment, when one phrase is specified and deletion of the specified phrase is instructed, and a frame corresponding to the phrase is not set (used) in the sequence display unit 22, Although the designated phrase is configured to be deleted immediately, if the corresponding frame is not set (used) in the sequence display unit 22, the operator may be notified of the fact. . The same applies to the case where the display mode of the corresponding frame is changed by clicking the above-described search button.
[0093]
For example, in this embodiment, the phrase stored in the HD drive is configured as performance information conforming to the MIDI standard, and the PC outputs a performance song as performance data composed of the phrase to the tone generator 11. However, the present invention is not limited to this. The phrase stored in the HD drive is configured as audio data, and the PC outputs a musical piece composed of the phrase as waveform data to an amplifier or the like. May be.
[Brief description of the drawings]
FIG. 1 is a block diagram showing an electrical configuration of a personal computer and a sound source device on which a sequence data display program according to an embodiment of the present invention is executed.
FIG. 2 is a view showing an execution screen of an automatic performance application.
FIG. 3 is a flowchart illustrating an operation detection process.
FIG. 4 is a flowchart illustrating display change and deletion processing.
FIG. 5 is a flowchart illustrating a track drawing process.
[Explanation of symbols]
1 PC
21 Material Phrase List
22 Sequence display section

Claims (2)

A sequence data display program for displaying sequence data, which is information for reproducing a plurality of phrases at a predetermined timing in the playing time,
A specifying step of specifying any of the plurality of phrases;
A detecting step of detecting the same phrase as the phrase specified by the specifying step;
A sequence data display program executed by a computer, comprising: a change step of changing a display mode of the phrase detected in the detection step to a display mode different from a display mode of another phrase. A sequence data display program for displaying sequence data, which is information for reproducing a plurality of phrases at a predetermined timing in the playing time,
A phrase list display step for displaying a list of a plurality of phrases;
A display step of displaying the phrase displayed in the phrase list display step at a playback timing over the playing time;
An erasing instruction step of erasing a desired phrase from the list displayed in the phrase list displaying step;
A detecting step of detecting, from the sequence data, a phrase identical to the phrase instructed to be erased in response to the erase instruction in the erase instruction step;
A sequence data display program executed by a computer, comprising: a change step of changing a display mode of the phrase detected in the detection step to a display mode different from a display mode of another phrase.

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