JP3194850B2 - Electronic musical instrument with automatic performance function - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electronic musical instrument having an automatic performance function, and more particularly to an apparatus for performing an automatic performance one step at a time for each sounding operation.

[0002]

2. Description of the Related Art This one-step automatic performance device is not known, and the one-step automatic performance device is as follows. As shown in FIG. 13, the performance data of the automatic performance includes a plurality of note data and the like, which are key number data KN and gate time data G.
T, touch data TC, and the like, and are generated at each key-on based on the note data. Several "simultaneous commands" are stored in this performance data,
Each note data from the “simultaneous command” to the next “simultaneous command” is simultaneously sounded in response to one key-on of each key of the keyboard. Then, the automatic performance is sequentially advanced for each key-on.

[0003]

In such a one-step automatic performance, since a part or all of the keys of the keyboard are used for the one-step automatic performance, a manual performance is performed in accordance with the one-step automatic performance. I couldn't ensemble both performances. Such ensemble is very useful for performance practice.

[0004]

SUMMARY OF THE INVENTION In order to achieve the above object, the present invention provides a first sound generating means for one-step automatic performance and a plurality of second sound operating means for manual performance. The information corresponding to the operation of these sounding operation means is allocated to a musical tone generating channel so that the sound is generated or played simultaneously. Thus, the one-step automatic performance and the manual performance are performed together.

[0005]

【Example】

<< 1 >> Overall Circuit FIG. 1 shows an overall circuit of an electronic musical instrument. Each key of the keyboard 1 is used to generate / mute a musical tone. The keys are scanned by a key scan circuit 2 to detect data indicating a key operation, that is, a key on / key off.
The data is written to the RAM 6 by the PU 5. Then, the data is compared with the data indicating the on / off state of each key stored in the RAM 6 until then, and the CPU 5 determines the on / off event of each key.

[0006] Thus, the position of the key related to ON / OFF is detected. Further, since the scanning is performed periodically, the timing of turning on / off the key is also detected. The keyboard 1 is replaced by an electronic stringed instrument, an electronic tube (lead) instrument, an electronic percussion (pad) instrument, a computer keyboard, or the like. One-step automatic performance is performed by all or a specific key group or keys of the keyboard 1. In this one-step automatic performance,
Automatic performance is performed one step at a time when each key is sounded, that is, each time a key is pressed (or released).

Each switch of the panel switch group 3 described later is scanned by the panel scan circuit 4.
By this scanning, data indicating ON / OFF of each switch is detected, and written into the RAM 6 by the CPU 5. Then, the data is compared with the data indicating the ON / OFF state of each switch stored in the RAM 6 until then, and the determination of the ON event / OFF event of each switch is determined by the CP.
This is done by U5.

The above key-on, key-off, on-event,
The data of the off event, the on event of each switch, and the off event are generated and received from another processing device (electronic musical instrument) via the MIDI (Musical Instrument Digital Interface) circuit 9 or other processing device. (Electronic Musical Instrument).

The panel switch group 3 includes a mode switching key 15, a part designation key 16, a music selection key 17, and a tone key 1.
8 etc. are provided. The mode switching key 15 switches between a full automatic mode, a full key one step mode, a partial one step mode, a manual mode, and the like.

In the full automatic mode, a normal full automatic performance irrespective of key operation is performed. In the all-key one-step mode, a one-step automatic performance in which an automatic performance is advanced for every key operation over all keys of the keyboard 1 becomes possible. In the partial one-step mode, the one-step automatic performance can be performed only with a partial key group of the keyboard 1.
The other keys enable manual performance, and enable ensemble of one-step automatic performance and manual performance. The partial key group is, for example, an upper keyboard, a lower keyboard, a foot keyboard, a rhythm key group, and the like, and the keyboard 1 is divided into these keyboards and key groups accordingly. In the manual mode, manual play is possible over all keys of the keyboard 1.

The part designation key 16 enables the switching between the full automatic mode, full key one step mode, partial one step mode and manual mode for each performance part. This performance part is, for example, a melody,
Accompaniment (chord, bass, backing, arpeggio, etc.),
Rhythm etc. The selection of the performance part is indirectly performed by the selection and specification of the upper keyboard, the lower keyboard, the foot keyboard, and the rhythm key group.

The mode switching selection and the performance part selection designation may be performed by a method other than those described above, or may be a simpler process using one key. For example,
This is a switching selection of only the first mode, the second mode, and the third mode. In the first mode, the rhythm or accompaniment is fully played, and the accompaniment or melody is automatically played in one step using all keys of the keyboard 1. In the second mode, the rhythm is played automatically, the accompaniment is played one-step automatically on the lower keyboard, and the melody is played manually on the upper keyboard. In the third mode, a manual performance is performed with all keys of the keyboard 1.

Although not shown, the panel switch group 3 is also provided with a fully automatic start key, a rhythm type key, and the like. The fully automatic performance is started by the fully automatic start key. The type of the rhythm to be played automatically is switched and selected by the rhythm type key. The types of this rhythm are waltz, disco, march, rock, 1
6 beats and the like.

The music selection key 17 is used to select a music piece of the performance information MP to be played in the one-step automatic performance. The timbre key 18 selects a timbre of a tone generated by playing the keyboard 1. The timbre key 18 allows the timbre (tone number data TN) of the performance information MP to be set / changed.

In the RAM 6, in addition to the various data described above, various data processed by the CPU 5 and various data necessary for the processing are stored. The RAM 6 also has a working memory 32 described later. In ROM7,
A program corresponding to a flowchart described later and executed by the CPU 5 and a program corresponding to other processing are stored.

The automatic performance memory 8 stores performance information MP of a plurality of music pieces. The performance information MP is stored in the CPU 5
, And the one-step automatic performance is performed. The automatic performance memory 8 is a RAM or a ROM.
However, it may be integrated with the RAM 6 and the ROM 7, or may be a RAM / ROM card, a floppy disk,
It may be a CD-RAM / ROM or the like. The performance information MP, key on / off event, note data, etc.
It is also generated, transmitted, and received from another processing device (electronic musical instrument) via the IDI circuit 9, and is generated and transmitted to another processing device (electronic musical instrument).

The tone data corresponding to the performance information MP and the tone data corresponding to ON / OFF of each key of the keyboard 1 are sent to a tone generator 10 and are sounded by a sound system 11. This tone generator 10
, A tone generation system (channel) for a plurality of channels, for example, 16 channels is formed by time division processing, and the tone is generated polyphonically. The tone generator 10 has an assignment memory 31
Is provided.

The assignment memory 31 has a memory area for 16 channels, and the performance information or operation / instruction information of the musical tone assigned to each channel is written at the start of the tone generation. Accordingly, each tone is generated simultaneously by the tone generator 10. This information includes on / off data, key number data KN, tone number data TN, and touch data T
C, gate time data GT, and the like. The on / off data indicates on / sound ("1") and off / silence ("0") of the tone of each key of the keyboard 1 or each performance information MP of the automatic performance. Other data KN, TN, TC, GT
Is described below.

<< 2 >> Performance Information MP FIG. 2 shows the contents stored in the automatic performance memory 8 described above. The automatic performance memory 8 has directory data D at the beginning.
R and reproduction condition data RC,
After R and RC, performance information MP of a plurality of music pieces is stored. The performance information MP is data of a melody part, but can also store parts such as a chord, a bass, a backing, an arpeggio, and a rhythm.

The performance information MP includes a note data group,
It is composed of bar mark data BM, end mark data EM, etc. inserted between the note data groups. The note data includes key number (pitch) data KN, step time data ST, gate time data GT, touch (velocity) data TC, and the like.

The key number data KN indicates the number of each key of the keyboard 1, that is, the position of each key, and indicates the pitch. This key number data KN
May include cent data CT. The step time data ST is data indicating the time from the beginning of a song or the beginning of a bar, that is, the bar mark data BM to the start of tone generation or command execution according to note data. This command includes tone color change, tempo change, and transposition. The gate time data GT is data indicating the sounding continuation time from key-on to key-off.

Touch (velocity) data TC is data indicating the speed or strength of key on / off. The touch data TC corresponds to a time difference between on / off of a plurality of key switches. The plurality of key switches are provided for each key of the keyboard 1, and are turned on / off with a time lag when a key is operated. In accordance with the touch data TC, control of the volume of sound, frequency components, and the like is performed. The bar mark data BM is data indicating a break of each bar. The end mark data EM is data indicating the end of the music.

At the beginning of the performance information MP, performance condition data PC is stored.
Consists of song name data SN, tempo data TP, beat data BE, tone number data TN, and the like. The tempo data TP and the beat data BE are data indicating the tempo and time signature of the automatic performance based on the performance information MP.

The tone number data TN includes a piano,
Indicates the timbre of musical instrument sounds such as violin, flute, and drum. The tone number data TN further corresponds to the read start, loop top, and loop end address data, envelope waveform data, formant shape, frequency spectrum component, harmonic component, touch data TC, and key scaling data for reading out the tone waveform data. Data is also shown. Note that the tone number data TN, tempo data TP, and transposition data may be stored in the middle of the performance information MP of one song, and the timbre, tempo, and key may change in the middle of the song.

The performance information MP of one music piece is stored in a plurality of tracks for each of the above-mentioned performance parts. FIG.
Is the performance information MP for the melody part.
In the accompaniment (chord etc.) part, this note data consists of chord data CD and step time data ST.
The code data CD indicates a code type and a route.
In the rhythm part, the note data is the touch data T
It consists of C or tone number data TN and step time data ST. The tone number data TN is a rhythm instrument such as a bass drum, a snare drum, a hi-hat, a cymbal, and a bongo. The above-mentioned performance parts also include musical instrument parts (keyboards such as upper, lower, and feet, strings, pipes, and strikes). Further, tone number data TN may be stored at the beginning of each track, and the timbre may be different for each track.

Further, the performance information MP of the rhythm part is
Independently from the melody part and the accompaniment part, each rhythm type may be stored in the automatic performance memory 8 and the rhythm selected by the rhythm type key may be played automatically. Also, the performance information MP of the melody part, the accompaniment part and the rhythm part may be stored together without being divided into a plurality of tracks. In this case, each note data further includes part data, and the part data indicates a melody, an accompaniment, or a rhythm. Further, this part data may be omitted. In this case, if the key number data KN is higher than a specific pitch (high frequency range), this note belongs to the melody part, and if the key number data KN is lower than this specific pitch (low frequency range), this note is an accompaniment. Belongs to the part. Alternatively, the part is determined depending on whether the note data has the code data CD or the key number data KN.

<< 3 >> Working Memory 32 FIG. 3 shows the working memory 32 of the RAM 6. The working memory 32 includes various registers, various buffers, various counters, and various memories shown in FIG.

The mode flag register 41 stores flag data indicating the operation of the electronic musical instrument. This flag is a part-by-part mode flag, an on-key flag, a bar standby mode flag, or the like. The part-by-part mode flag indicates a performance mode for each performance part of melody, accompaniment (chord, bass), and rhythm, or for each of the upper keyboard, lower keyboard, foot keyboard, and rhythm key group.

The performance modes are the above-mentioned fully automatic performance (full automatic mode), one-step automatic performance (full key one-step mode / partial one-step mode), and manual performance (manual mode). This part mode flag is
For example, it is 8-bit data. The upper 4 bits are fully automatic bits and indicate fully automatic on / off of four performance parts, and the lower 4 bits are one step bits and one step on / off of four performance parts. Is shown.

If the fully automatic bit and the one-step bit for each part are both "0", the part enters the manual mode. If all the lower 4 bits are "1111", the mode is the all-key one-step mode. If any bit is "1" and any bit is "0", the mode is the one-step mode. The unit enters one-step mode. These modes are determined by the logical product and the logical sum of each bit. The style of the part-specific mode flag may be other than the above.

The on-key flag indicates that a key on the keyboard 1 is turned on in the one-step automatic performance mode. The bar standby mode flag indicates that when the bar mark data BM is read out in the fully automatic performance, the process is on standby until a bar break.

The reproduction register 43 stores the performance information MP
Data (key number data KN, step time data ST, gate time data GT, touch data TC, code data KD, tone number data TN
Etc.) are stored. The reproduction register 43 can store a plurality of tone data for each track. The tone number register 45 contains the panel switch group 3
The tone number data TN or the tone number data T in the performance information MP input by the timbre key 18 of FIG.
N is stored for each track. Note that the reproduction register 43 may be omitted, and the read performance information MP may be directly sent to the assignment memory 31.

In a one-step automatic performance process and a fully automatic performance process, which will be described later,
U1 is incremented by one, and the step count data SC is counted. This step count data SC
Is compared with the step data ST in the note data to determine the sound generation start timing. Two step counters 47 are provided, one for one-step automatic performance processing and one for fully automatic performance processing.

The read address counter 48 stores read address data RA of the performance data MP of each track of the automatic performance memory 8 for each track, and this address data RA is incremented each time the performance data MP is read.

The reset time counter 49 stores initialization / cancellation time data IC of a predetermined value each time a key in the one-step area of the keyboard 1 is turned on, and decrements it at regular intervals until it becomes "0". When the initialization / cancellation time data IC becomes "0",
The read address data RA of the performance data MP of the read address counter 48 is cleared / reset to "0",
Alternatively, the one-step flag of the mode flag register 41 is cleared. Thereby, if the time of the initialization / release time data IC has elapsed since the key-on during the one-step automatic performance, the one-step automatic performance returns to the beginning of the music (initialization / reset), or the one-step automatic performance starts. Canceled (canceled).

When the key is turned on, the simultaneous operation counter 51 stores simultaneous operation time data TO, and this data TO is decremented at regular intervals until it becomes "0". Until the simultaneous operation time data TO becomes "0", the one-step automatic performance according to the next key-on is prohibited. This prevents one-step automatic performance from progressing too much even when multiple keys are pressed at the same time as in manual performance, and makes it appear that the performer is performing a good manual performance in one-step automatic performance. it can.

The step register 52 stores step time data ST of performance information MP to be read next to each track.
The smallest one to be pronounced next is stored. There may be a plurality of the minimum step time data ST, and the musical tones of the plurality of tracks are simultaneously generated next. The track register 53 stores the track number to which the note data to be sounded next belongs. The track counter 54 is used when the minimum step time data ST of each track is searched and detected.

The tempo beat register 56 stores tempo beat data TB corresponding to the tempo data TP and the beat data BE in the performance information MP. This tempo beat data TB indicates the time for one measure. The performance time counter 57 is incremented (+1) by the CPU 5 every time the clock signal φ3 becomes high level, and the time count data TM is counted.
When the time count data TM matches the tempo beat data TB, the time count data TM is cleared. Every time the clock signal φ3 goes high, a fully automatic cycle interrupt process, which will be described later, is performed.

<< 4 >> Main Routine FIG. 4 shows a flowchart of a main routine executed by the CPU 5. This process starts when the power is turned on. First, the RAM 6, the working memory 32, and the like are cleared, and various initialization processes are performed (step 02). Next, each of the keys 15 to 1 of the panel switch group 3
On / off and on / off events such as 8 are detected, and processing corresponding to the operation of the key related to this detection is performed (step 04). Then, the on / off and on / off events of each key of the keyboard 1 are detected, and sounding / silencing is performed according to the operation of the key related to the detection (step 0).
5).

Next, if the MIDI circuit 9 has data / information such as a key-on / off event of the keyboard 1 and a note data received from another device and generated, an operation event of each key 15 to 18, and the like, / Information is taken into the RAM 6, the tone generator 10, and the like, and sound generation / mute is performed (step 06). Also, RAM
Keyboard 1 generated and sent to other devices, such as 6
Key on / off event, note data, each key 15
If there are data / information such as the operation events of ~ 18, the data / information is sent to the MIDI circuit 9 and sounding / silencing is performed by another device (step 06). In addition,
The data transmission to the MIDI circuit 9 may be executed by an interrupt process performed at regular intervals.

Then, a one-step automatic performance according to the above-mentioned performance information MP is performed (step 10). Further, a full automatic performance corresponding to the performance information MP is performed (step 11). These processes will be described later in detail. Next, another processing is performed (step 1).
2). These processes of steps 04 to 12 are repeated until the power is turned off.

<< 5 >> Switching Process FIG. 5 is a flowchart of the switching process in step 04 described above. First, when a performance mode for each performance part is input by the mode switching key 15 and the part designation key 16 (step 20), a corresponding part-specific mode flag is stored in the mode flag register 41 (step 21). ). Then, the read address counter 48
The read address data RA of each track is cleared (step 24). Next, one or more note data or the like is read from the head of the performance information MP selected by the music selection key 17 or the rhythm type key, and the reproduction register 43 is read.
And the read address data RA is incremented (+1) (step 25). Then, the step counter 47 is cleared (step 30).

Next, other switch processing is performed (step 31), and the routine is returned. In this other switch processing, music selection processing according to the operation of the music selection key 17, tone color setting / change (switching) processing according to the operation of the tone color key 18, and the like are performed. Note that the above steps 20 to
The mode setting of the first mode, the second mode,
The third mode may be sequentially switched and selected by the ring operation.

<< 6 >> Key Processing (Step 05) FIG. 6 shows a flowchart of the key processing in step 05 described above. First, when a key-on event of the keyboard 1 is detected (step 40), a full key / partial one-step mode is set (step 41). If the ON key is included in the one-step area (step 42), reset is performed. The initialization / release time data IC is stored in the time counter 49 (step 43). If the simultaneous operation time data TO of the simultaneous operation counter 51 of the working memory 32 is "0" (step 4).
5) The ON key flag of the mode flag register 41 is set to "1" (step 46), and the simultaneous operation time data TO is stored again in the simultaneous operation counter 51 (step 47).

Even if key-on occurs, if the simultaneous operation time data TO has not reached "0" (step 4).
5) The on-key flag is not set to "1" and the one-step automatic performance described later is not performed. Thus, in the one-step automatic performance, the player can simultaneously press the keyboard to perform an apparent manual performance.

If the all-key / partially one-step mode is canceled or if the above-mentioned on-key is not included in the one-step area (steps 41 and 42), a normal manual performance tone generation process corresponding to the on-key is performed. , Data corresponding to the ON key is output via the MIDI circuit 9 (step 48).

When a key-off event of the keyboard 1 is detected (step 50), the full key / partial one-step mode is canceled and the off-key is not included in the one-step area (steps 51 and 52). ),
Silence processing of the manual performance according to the off key is performed (step 53). Then, other key processing is performed (step 55), and the routine is returned.

The one-step area is a key area for performing one-step automatic performance, and includes an upper keyboard, a lower keyboard, a foot keyboard, a rhythm key group, and the like. The determination of the one-step area is performed as follows. It is determined whether the on key belongs to the upper keyboard, the lower keyboard, the foot keyboard, or the rhythm key group. If the one-step bit of the performance part corresponding to the discrimination keyboard and key group is "1", the on-key belongs to the one-step area; The one-step bit is the lower 4 bits of the part-by-part mode flag of the mode flag register 41 as described above.

<7> One-Step Automatic Performance Process (Step 10) FIG. 7 is a flowchart of the one-step automatic performance process of the above-described step 10. First, if the above-mentioned on-key flag is set to "1" (step 60), it is incremented until the step count data SC of the step counter 47 matches or exceeds each step time data ST of the reproduction register 43 (step 61, 6
2, 63).

If they match (step 61), the on-key flag is cleared to "0" (step 70). If the matching step time data ST is that of note data (step 71), the note data is converted to a tone. The tone data is transmitted to the tone generator 10 together with the number data TN and the like, and is output via the MIDI circuit 9 (step 72).

Then, this note data in the reproduction register 43 is cleared and excluded, and the next note data etc.
One or more are read and stored in the reproduction register 43, and the read address data RA of the track is incremented (+1) (step 73). Thereafter, if the step count data SC is again equal to or greater than the value of the step time data ST of the new note data, the note data is output similarly (steps 70 and 7).
1, 72). In this way, note data having the same or almost the same step time ST is sounded simultaneously in a time-division manner.

Next, when no more step data ST than the value of the step count data SC is found (steps 73 and 61), the step count data SC is incremented (step 62) and the ON key is cleared in the above step 70. So the routine returns. In the sound generation process in step 72, note data and the like are sent to the MIDI circuit 9 in some cases.

In steps 25 and 73, the next note data and the like are read out, and note data and the like having the same step data ST as the step data ST of the note data are read out together with the reproduction register. 4
3 may be stored. Thereby, the reproduction register 4
3 stores only note data or the like having the same step data ST. Further, in step 61, the step time data ST of the plurality of note data may be compared with the step count data SC.

Thus, an automatic performance is performed in response to the key-on of the keyboard 1. After this, if there is no key-on,
Since the on-key flag is not set (steps 40 to
46) The automatic performance is on standby until the next key-on (step 60). In this way, each time the key is turned on, the step count data SC is incremented at a high speed, the note data of the matched step time data ST is generated, and the automatic performance is on standby until the next key-on.
In this way, even with the performance information MP having the step time data ST, the automatic performance is performed one step at a time for each sounding operation.

If the coincident step time data ST is the bar mark data BM (step 8).
0), the value of the step count data SC of the step counter 47 is set to the value of the step time data ST of the bar mark data BM (step 81), and the bar mark data BM of the reproduction register 43 is cleared and removed. Is stored in the reproduction register 43 (step 73). Thus, the one-step automatic performance is advanced to the beginning of the next bar.

The matched step time data S
If T is other tone number data TN or the like (step 80), this data is stored in the working memory 32 (step 83), and the timbre, tempo, key and the like are changed. It should be noted that the performance information M that is automatically played in one step is
If each step data ST of P is data indicating the time from the beginning of each bar, that is, the bar mark data BM, in step 81, the step count data SC of the step counter 47 is cleared.

The clearing of the on-key flag in step 70 may be performed after the sound generation processing in step 72. Thereby, bar mark BM,
Not only the tone number data TN and the like are executed, but also the next note data is executed and sounded together. Further, in the steps 25, 73, 72, etc., the performance information of the automatic performance memory 8 specified by the read address data RA is directly read, and the reproduction register 43 may be omitted.

<< 8 >> Data reading processing (steps 25 and 7)
3) FIG. 8 shows a flowchart of the processing for reading the note data or the like of the performance information MP in the steps 25 and 73. In this processing, note data which has the smallest step time data ST and should be sounded immediately next is searched for in each track of the performance information MP in the automatic performance memory 8.

First, the track register 53 and the track counter 54 of the working memory 32 are cleared, and the maximum possible value is stored in the step register 52 (steps 100 and 101). Then, the one-step bit of the mode flag register 41 becomes "1", and for each track on which the one-step automatic performance is to be performed (step 102), the step time data ST of the performance information MP
Is read (step 103). The read address data RA is stored in the read address counter 48 for each track.

Next, for each track (step 10
8, 109), and the minimum step time data STn is searched and detected (step 104). The searched step time data STn is stored in the step register 52, and the track number TRn of the track counter 54 at that time is stored in the track register 53 (step 105).

If the minimum step time data STn is found in a plurality of tracks (step 106), the step time data STn and the track number TRn of the plurality of tracks are stored (step 10).
7).

When the search is completed for all tracks (steps 108 and 109), note data and the like are read out by the read address data RA corresponding to the searched track number TRn and stored in the reproduction register 43 (step 110). The read address data RA of this track is incremented (+1) (step 111).

Thus, the one-step automatic performance of all the performance parts divided into the respective tracks is performed by the step time data S.
It is executed in the order of T. At this time, if the one-step bit of a certain performance part is "0" and the performance mode is not in the one-step mode (step 102), the performance part (track) is excluded from the search target and the performance information MP (note data) ) Is prohibited.

As a result, in the one-step automatic performance, the performance of a specific performance part is prohibited from being excluded and muted (masked). In this case, the processing of step 102 is omitted, all the performance parts are read out, and note data of the performance parts not in the one-step mode is prohibited from being sent to the assignment memory 31 in the sound generation processing of step 72, or A mute flag may be added to the note data and sent to the assignment memory 31, so that the tone generator 10 may prohibit the tone generation / performance.

It should be noted that the performance information MP of each performance part is not divided into a plurality of tracks, and when the note data includes the part data indicating the performance part, the step 102 The step bit becomes "1", and it is determined whether or not the part data matches the performance part in which the one-step automatic performance is to be performed.

In the muted performance part, a manual performance can be performed in step 48 described above, or a fully automatic performance in step 11 described later can be performed.
Thus, for example, the accompaniment or rhythm can be played one-step automatically, the melody or accompaniment can be played manually, the rhythm can be played automatically, and the melody or accompaniment (chord, bass, etc.) can be played automatically in one step. be able to. For the muted performance part, the user can practice the manual performance along with the one-step automatic performance.

<< 9 >> Fully Automatic Performance Process (Step 11) FIG. 9 is a flowchart of the fully automatic performance process of the above step 11. In this processing, the performance information is automatically executed in the performance order with the passage of time for the performance parts in the fully automatic mode in which the fully automatic bit is "1".

First, if the fully automatic bit of the part-by-part mode flag of the mode flag register 41 is "1" and the full automatic mode has been set (step 140), it is determined that the bar standby mode has been set. (Step 1
41). If not in the bar standby mode, the time count data TM of the performance time counter 57 is stored in the reproduction register 43.
It is determined whether or not the time has reached the step time data ST stored in the memory (step 142).

If it has reached, the contents of the data and the like in the reproduction register 43 are determined (step 143). In the case of note data such as key number data KN, the note data is sent to the assignment memory 31 of the tone generator 10 to be sounded, and the MIDI circuit 9
(Step 144).

At this time, the tone number data TN of the tone number register 45 is also sent to the assignment memory 31 in some cases. As a result, sounding / muting according to the performance information MP is performed, and a fully automatic performance is performed. Next, the next note data is read and the reproduction register 43
And the read address data RA of the read address counter 48 is incremented (step 1).
45).

If the bar mark data BM is determined in step 143, the tempo beat data TB corresponding to the beat data included in the bar mark data BM is written into the tempo beat register 56 (step 146). The bar standby mode flag of the mode flag register 41 is set to "1" (step 14).
7).

Further, if the end mark data ED is determined in step 143, the fully automatic mode of the mode flag register 41 is cleared (step 1).
48). Thus, the automatic performance is stopped. If other tone number data TN or the like is determined in step 143, the data is stored in the working memory 32 (step 149), and the timbre, tempo,
The key is changed. Note that the fully automatic cycle interrupt processing in step 11 may be started by operating a start key. It is determined before this step 140 whether or not this start key has been operated.

In this way, in addition to the one-step automatic performance (step 72), a manual performance (step 48) and a fully automatic performance (step 144) are also possible, so that ensemble of two or more of these three performances is possible. Become. Thus, for example, the rhythm can be played automatically, the accompaniment (chord, bass, etc.) can be played one step automatically on the lower keyboard or foot keyboard, and the melody can be played manually on the upper keyboard.

The performance information MP of each performance part is not divided into a plurality of tracks. If the part data indicating the performance part is included in the note data, in step 140, the entirety of the mode flag register 41 is read. The automatic bit is set to "1", and it is determined whether or not the part data matches the performance part in which the full automatic performance is to be performed.

<< 10 >> Fully Automatic Cycle Interrupt Processing FIG. 10 is a flowchart of the fully automatic cycle interrupt processing. This process is executed by the CPU 5 each time the clock signal φ3 of a fixed period from a clock generator (not shown) goes high. First, if it is determined that the fully automatic mode is set based on the contents stored in the mode flag register 41 (step 1).
30), the time count data TM of the performance time counter 57 is incremented (+1) (step 13).
1).

If the value of the time count data TM matches the tempo beat data TB of the tempo beat register 56 (step 132), the time count data T
M is cleared (step 133), and the bar standby mode flag data of the mode flag register 41 is cleared (step 134). Thereby, the waiting for one measure is completed.

<< 11 >> Simultaneous operation cycle interrupt processing FIG. 11 is a flowchart of the simultaneous operation cycle interrupt processing performed at regular intervals. A clock signal φ2 having a constant period from a clock generator (not shown)
Is supplied to the CPU 5 as an interrupt signal, and this processing is executed by the CPU 5.

First, the part-specific mode flag of the mode flag register 41 indicates the one-step mode (step 1).
20) If the simultaneous operation time data TO of the simultaneous operation counter 51 stored in step 47 has not reached "0" (step 121), the simultaneous operation time data TO is decremented (-1) (step 121). 12
2).

As described above, until the simultaneous operation time data TO becomes "0", the one-step automatic performance is prohibited even if there is a key-on (steps 45, 46 and 6).
0). Thereby, even if the one-step automatic performance is being performed, it is possible to perform a manual performance of apparently simultaneous pressing.

<< 12 >> Initialization / Release Cycle Interrupt Processing FIG. 12 is a flowchart of the initialization / release cycle interrupt processing performed at regular intervals. A clock signal φ1 having a constant period from a clock generator (not shown) is supplied to the CPU 5 as an interrupt signal, whereby this processing is executed by the CPU 5.

First, if the one-step flag is set to "1" (step 90), the initialization / cancellation time data IC of the reset time counter 49 is decremented (-1) until it becomes "0" (step 90). Step 92).
This decrement is performed at regular intervals, and when a predetermined time has elapsed from the ON key and the initialization / release time data IC becomes "0" (step 94), the read address data of the read address counter 48 becomes "0". Cleared (step 96). Thus, in the one-step automatic performance, if the player does not next turn on the key during the time corresponding to the initialization / release time data IC from key-on, the read pointer of the performance data MP returns to the beginning of the music, and the one-step automatic performance is performed. Is initialized (reset).

In this step 96, the one-step flag of the mode flag register 41 may be cleared to release the one-step mode, and the step count data SC of the step counter 47 may be cleared. Thereby, if there is no key-on for the predetermined time, the one-step automatic performance itself is canceled / cancelled.

The performance data for performing the one-step automatic performance may be as shown in FIG. In this case, all the performance data MP from the "simultaneous command" to the next "simultaneous command" are read out at once or repeatedly in steps 25, 73 and the like. Then, in step 61, it is determined whether or not the command is a "simultaneous command".
If the "simultaneous command" is read out by repeating the process of step 3, the read address data RA is incremented (+1) in step 62 and the process returns. The process does not return to step 61, and step 63 is omitted.

In steps 92 and 122, the initialization / release time data IC and the simultaneous operation time data T
Various operations such as addition, multiplication, and division are performed on O. In steps 94 and 45, it is determined whether the calculated initialization / release time data IC and simultaneous operation time data TO have reached or exceeded predetermined values. It may be determined. Further, any two or all of the clock signals φ1, φ2, φ3 may be the same signal or a signal having the same cycle. This makes it possible to combine the cycle interrupt processing.

The present invention is not limited to the above embodiment, but can be variously modified without departing from the spirit of the present invention. For example, the increment of the step count data SC in step 62 of FIG. 7 may be incremented by +4, +8, +16, or the like. This makes the process faster.

The one-step automatic performance may be performed for each operation of keys, switches, pedals, levers and the like provided on the panel switch group 3 in addition to the keys on the keyboard 1. Further, in step 62, the step time data ST having the smallest value among the step time data ST of each note data stored in the reproduction register 43 is searched.
The value of the searched step time data ST may be stored in the step counter 47. This allows
Similarly, note data to be sounded next is searched in the order of performance.

Further, a one-step automatic performance may be executed every key-off. In this case, the setting of the on-key flag in step 46 is executed if the one-step flag is set to "1" after YES in step 52. Further, the storage of the initialization / release time data IC in the reset time counter 49 in step 43 may be executed if the one-step flag is set to "1" after YES in step 52. The period of the clock signals φ1, φ2, φ3 may be changed according to the set tempo, whereby the elapsed time from key-on in step 96 of the cycle interrupt processing to initialization / release in step 96 in FIG. Length of time considered as simultaneous operations, steps 130-13
4, the speed of the fully automatic performance changes according to the set tempo.

Further, the one-step automatic performance process of FIG. 7 may be executed every time the clock signal of a fixed period goes high. In this case, step 63 is omitted, and after step 62, the routine returns. Thereby, 1 / n (n = 2, 3, 4)
…) Key-on timing is taken for each beat.

The embodiments of the present invention are as follows. (A) performance information generating means for generating a plurality of pieces of performance information in which data indicating the contents of musical tones to be generated correspond to timing information indicating the timing of the generation of the musical tones; A number of tone generating channels corresponding to the number, first sounding operation means for operating or instructing sounding or performance of a tone, and each time there is a sounding operation or performance instruction of the first sounding operation means, A first channel allocating means for generating the generated performance information in the order of the timing information and allocating the generated performance information to the musical tone generating channel to the information generating means; Sounding operation means, and operation / instruction corresponding to the detected second sounding operation means by detecting operations or instructions of the plurality of second sounding operation means. Operation / instruction generating means for generating information, and operation / instruction generated from the operation / instruction generating means
An electronic musical instrument having an automatic performance function, comprising: second channel allocating means for allocating instruction information to the tone generating channel. (B) The performance information generating means converts a plurality of pieces of performance information including content data indicating the content of a musical tone to be pronounced and step time data indicating a time from a head or a bar of the music to a sound generation timing into a plurality of performance parts. Or performance information storage means for storing each of the musical instrument parts, and performance information reading means for reading the performance information of each performance part or musical instrument part from the performance information storage means. Of the performance information generated by the performance information generating means in response to the sounding operation or the performance instruction of the second sounding operation means or the second sounding operation means, based on the timing information of the performance information that has not been sounded or played yet. Channel is assigned by detecting at least one piece of performance information that is sounding or playing at an earlier timing. At least one piece of performance information to be sounded or played next to the performance information allocated by the first channel allocation means based on the timing information, and which has substantially the same timing information, is transmitted by the performance information generation means. The electronic musical instrument having an automatic performance function according to claim A, wherein the electronic musical instrument is generated. (C) The tone generation channel is smaller than the total number of the first sounding operation means and the second sounding operation means, and the electronic musical instrument automatically performs with respect to the plurality of performance parts or instrument parts. Further comprising selection instructing means for selecting and instructing each of the performance parts or instrument parts for each performance part or instrument part, wherein the first channel allocating means includes a performance part or instrument part selected and instructed not to perform automatically by the selection instructing means. The performance information relating to the performance part or the musical instrument part which is selected and instructed not to perform automatically by the selection instructing means. Ban,
The first and second sounding operation means are divided for each of the performance part or the musical instrument part. The electronic musical instrument stores data indicating the content of a musical tone to be generated, and timing information indicating a timing of generating the musical sound. Second performance information generating means for generating a plurality of performance information corresponding to the
Third channel allocating means for automatically allocating each piece of performance information generated from the performance information generating means to the above-mentioned tone generation channel in accordance with the passage of time in the order of timing information; and mode switching selection for switching and selecting a performance mode. Means, the second sounding operation means being the same as the first sounding operation means in accordance with the switching selection of the mode switching means, or each sounding operation means divided for each of the performance part or instrument part A control means for stopping the operation of the operation / instruction means and the second channel allocating means.
Or an electronic musical instrument having the automatic performance function described in B. (D) The electronic musical instrument has a time determining means for determining a predetermined time from a sounding operation or a performance instruction of the first sounding operating means or the second sounding operating means, and a predetermined time determined by the time determining means. In the above, even if there is a sounding operation or performance instruction of the first sounding operation means or the second sounding operation means, new channel assignment is prohibited, output of the performance information is prohibited, or the second performance is performed. An electronic musical instrument having an automatic performance function according to claim A, B or C, further comprising a prohibition means for prohibiting execution of the execution means.

(E) The predetermined time is a time within a range in which the simultaneous operation of the first sounding operation means or the second sounding operation means is recognized, and the time determination means determines the predetermined value every predetermined time. The electronic musical instrument having an automatic performance function according to claim D, wherein the electronic musical instrument has an automatic performance function.

(F) The performance information generating means or performance information storage means generates or stores each performance information for each of a plurality of performance parts or instrument parts, and the performance information is generated separately for each performance part or instrument part. The performance information has an automatic performance function according to claims A, B or C, wherein information indicating a performance part or an instrument part is added to the performance information, whereby each performance part or the instrument part is distinguished. Electronic musical instruments.

(G) The electronic musical instrument detects at least one piece of performance information having the smallest timing information among a plurality of pieces of performance information generated by the performance information generating means or read by the performance information reading means. The electronic musical instrument having an automatic performance function according to claim A, B or C, further comprising timing detection means.

[0093]

As described above in detail, according to the present invention, the first sounding operation means for one-step automatic performance and the plurality of second sounding operation means for manual performance are prepared, and these sounding operation means are provided. Information according to the operation of the means is assigned to a musical tone generation channel so that the tone is generated or played simultaneously. Therefore, effects such as a one-step automatic performance and a manual performance are performed.

[Brief description of the drawings]

FIG. 1 is an overall circuit diagram of an electronic musical instrument.

FIG. 2 is a diagram showing performance information MP in an automatic performance memory 8;

FIG. 3 is a diagram showing a working memory 32 of a RAM 6;

FIG. 4 is a view showing a flowchart of a main routine.

FIG. 5 is a diagram showing a flowchart of a switch process (step 04).

FIG. 6 is a view showing a flowchart of key processing (step 05).

FIG. 7: One-step automatic performance processing (step 10)
FIG. 4 is a diagram showing a flowchart of the above.

FIG. 8 is a diagram showing a flowchart of a process (steps 25 and 73) for reading note data and the like of performance information MP.

FIG. 9 is a diagram showing a flowchart of a fully automatic performance process (step 11).

FIG. 10 is a diagram showing a flowchart of a fully automatic cycle interrupt process.

FIG. 11 is a diagram showing a flowchart of a simultaneous operation cycle interrupt process.

FIG. 12 is a diagram showing a flowchart of an initialization / release cycle interrupt process.

FIG. 13 is a diagram showing another embodiment of the performance data MP in the automatic performance memory 8;

[Explanation of symbols]

1 ... keyboard, 3 ... panel switch group, 5 ... CPU,
6 RAM, 7 ROM, 8 automatic performance memory, 9 M
IDI circuit, 10 tone generator, 15 mode switching key, 16 part designation key, 17 song selection key, 1
8 ... tone key, 31 ... assignment memory, 32 ... working memory, 41 ... mode flag register, 43 ...
Reproduction register, 45 ... Tone number register, 47 ... Step counter, 48 ... Read address counter, 49 ...
Reset time counter, 51 simultaneous operation counter, 5
2 Step register 53 Track register 54
... Track counter, 56 ... Tempo beat register, 5
7 ... performance time counter.

Continuation of the front page (56) References JP-A-59-58487 (JP, A) JP-A-8-335077 (JP, A) JP-A-8-335078 (JP, A) Patent 3090589 (JP, B2) Patent 3143039 (JP, B2) Japanese Patent Publication No. 7-82324 (JP, B2) Japanese Patent Publication No. 62-8796 (JP, B2) US Patent 4,696,215 (US, A) US Patent 5,686,833 (US, A) (58) (Int.Cl. ⁷ , DB name) G10H 1/00 101 G10H 1/00 102

Claims (4)

(57) [Claims] 1. A data indicating the contents of the musical tone to be sounded, performance information generating means der for generating a plurality of performance information associated with the timing information indicating a timing to pronounce the tone
Therefore, the performance information includes data indicating the tone color and the tone color.
Timing information indicating the timing of the change of the musical information. Fully automatic performance means for generating the performance information to be generated in accordance with the passage of time in the order of the timing information; First sounding operation means for operating or instructing sounding or performance; and each time the sounding operation or performance instruction of the first sounding operation means is performed, the performance information generated by the performance information generating means. Are generated in the order of the above timing information.
And the data relating to this timing information indicates the tone color.
If it is data, the timbre is based on the data indicating the timbre.
Along with the sounding operation or performance instruction
A first step for automatically generating the next performance information based on the first step; a plurality of second sounding operation means for manually operating or instructing the generation or performance of a musical tone; A manual operation / instruction generating means for detecting a manual operation or instruction of the second sounding operation means, generating and outputting operation / instruction information corresponding to the detected second sounding operation means, An electronic musical instrument having an automatic performance function, comprising: a second sounding operation means and a switching means for making each sounding operation means separate from the first sounding operation means the same. 2. Performance information generating means for generating a plurality of pieces of performance information in which data indicating the contents of musical tones to be generated correspond to timing information indicating the timing of the generation of the musical tones. It indicates the separator of the beginning or measures of music to each sounding timing of each musical tone, deer
Also, the performance information includes data indicating the tone color and the tone color.
Timing information indicating the timing of the change; a first sounding operation means for operating or instructing sounding or performance of a musical tone; The information generating means sequentially detects at least one piece of performance information having the smallest timing information from among the pieces of timing information, and starts generating each piece of performance information in the order of the timing information.
If the data relating to the sound information is data indicating the tone,
When the timbre is changed based on the data indicating the timbre,
Furthermore, based on the above-mentioned sounding operation or performance instruction,
One-step automatic performance means for starting generation of the next performance information; a plurality of second sound operation means for manually operating or instructing the sound generation or performance; and a manual operation for the plurality of second sound operation means. A manual operation / instruction generating means for detecting an operation or instruction of the sound and generating and outputting operation / instruction information corresponding to the detected second sounding operation means. Electronic musical instrument having. 3. The performance information generating means stores a plurality of pieces of performance information including content data indicating the content of a musical tone to be pronounced and step time data indicating a time from a head or a bar of the music to a tone generation timing. The electronic musical instrument comprises: performance information storage means for storing each performance part or musical instrument part; and performance information reading means for reading performance information of each performance part or instrument part from the performance information storage means. In response to the sounding operation or the performance instruction of the operating means or the second sounding operating means, the sound information is generated based on the timing information of the performance information which has not been sounded or played out of the performance information generated by the performance information generating means. Alternatively, at least one piece of performance information having an earlier performance timing is detected and a channel is allocated. Based on, and at least one of the performance information to be sounded or played next the allocated performance information, wherein the timing information is intended to almost the same as the start generated from the performance information generating means An electronic musical instrument having an automatic performance function according to claim 1 or 2. 4. The electronic musical instrument further comprises selection instruction means for selectively instructing each of the performance parts or musical instrument parts whether or not to automatically perform the plurality of performance parts or musical instrument parts. The output of the performance information relating to the performance part or the musical instrument part selected and instructed not to be automatically played by the selection instructing means is prohibited, or the performance information generating means is adapted to select the performance instructed not to be automatically played by the selection instructing means. The generation of performance information relating to a part or an instrument part is prohibited. The first and second sounding operation means are divided for each of the performance part or the instrument part. Is generated, a plurality of pieces of performance information corresponding to the timing information indicating the timing of sound generation of this musical tone are generated. A second performance information generating means for, and means for outputting automatically in accordance with the performance information that is generated from the second performance information generating means in the time lapse in the order of the timing information, switching selecting the mode of performance The second sounding operation means is the same as the first sounding operation means, or is divided for each of the performance part or the musical instrument part according to the switching selection of the mode switching means. 4. An electronic musical instrument having an automatic performance function according to claim 1, further comprising control means for making each sounding operation means the same and stopping the operation of said manual operation / instruction means.