JPH0330074A - Display screen synthesizing device - Google Patents

Abstract

PURPOSE:To eliminate an unnatural sense by switching a video signal read out of an external screen information holding means and an internal screen signal in accordance with a value read out of a screen display information holding means, and displaying an external screen, as well as one of windows. CONSTITUTION:In an external screen writing means 2, an address of an information holding means 1 is derived from values shown by X position and Y position counters 11, 12, and in accordance with an external dot clock 61, an external screen signal 50 is written in the means 1. Its information is read out by a reading-out means 3. On the other hand, a synchronizing external screen signal 56 from the means 1 passes through a D/A converter 7 and inputted to a switching means 4. On the other hand, a standard range instructing signal 58 read out by the means 3 is outputted to the means 4. Whenever a window is varied, a screen display signal 54, and a screen display instructing information write instructing signal are inputted to a holding means 5, and a writing means 6, respectively, and from the means 5, a write instruction is outputted to the means 5. The means 4 receives an inside surface screen signal 52, switches an external screen signal 57 and outputs the signal 52 as an output screen signal 60 to a display device 8.

Description

[Detailed Description of the Invention] [Field of Industrial Application] The present invention relates to a workstation that performs multi-window display, and in particular to a display screen composition device for a workstation that displays images created on an external screen device in one window. Regarding.

[Conventional technology]

6. In a conventional workstation, a multi-window screen and an external screen are combined and displayed on a single display screen using a certain device based on the block diagram shown in FIG. That is, the external screen signal 50 is written in synchronization with the external screen synchronization signal 51 to the external screen holding means 1 that holds screen information corresponding to all pixels of the external screen by the external screen writing means 2, and this is written in synchronization with the internal screen synchronization signal 51. By reading the signal 53 under the control of the external screen readout means 3 that inputs it, a synchronized external screen signal 56 is created in which the external screen signal 50 is synchronized with the internal screen synchronization signal 53, and this is read by the display range instruction signal 58. By switching between the external screen signal 50 and the internal screen signal 52 by the controlled switching means 4, the external screen signal 50 and the internal screen signal 52 were displayed on the display device.

The operation of this conventional device is as follows.

First, the external screen writing means determines the pixel position where the external screen signal is displayed in the external screen based on the external screen synchronization signal, and writes the external screen signal 50 to the corresponding address position in the external screen holding means 1. Write. Further, the external screen reading means 3 generates a synchronized external screen signal 56 by reading external screen information from the external screen holding means 1 in synchronization with the internal screen synchronization signal 53. Furthermore, in the external screen reading means 3, the internal screen synchronization signal 53
Based on this, the position where the external screen should be displayed is recognized. As a result, when it is recognized that it is within the range for displaying the external screen, the display range instruction signal 58, which is a switching signal, is activated.
When it is recognized that the external screen is outside the range for displaying the external screen, the display range instruction signal 58 is set to a value indicating the internal screen display.

? The analog-converted synchronized external screen signal 57 is outputted to the output screen signal 60 by the analog converter 7, and when the display range instruction signal 58 reaches the "value indicating internal screen display", the internal screen signal 52 is outputted as the output screen signal. Output to 60. Through such operations, the external screen is displayed on the screen of the display device 8.

[Problems to be solved by the present invention]

In the conventional method described above, the external screen is displayed in the entire range in which the external screen is to be displayed, that is, in a rectangular area within the screen output from the workstation. Therefore, it is not possible to lower the display priority of another window, that is, to display only part of the window, which is possible with a window created inside a workstation.

For this reason, the handling of windows that display external screens is different from windows that are created inside the workstation, resulting in unnatural windows for the workstation user, making the multi-window system difficult to use. There was a problem.

SUMMARY OF THE INVENTION An object of the present invention is to provide a display screen display device that solves the above-mentioned problems and displays an external screen as one of the windows to eliminate the unnaturalness felt by the user.

[Means to solve the problem]

The display screen composition device of the present invention includes an external screen information holding means, an external screen writing means, an external screen reading means, and a switching means. and screen display instruction information writing means for writing screen display instruction information into the screen display instruction information holding means, reading out the screen display instruction information from the screen display instruction information holding means under the control of the external screen reading means, and performing the switching. The means reads the video signal and internal screen signal read from the external screen information holding means according to the display range instruction signal output from the external screen reading means and the value read from the screen display instruction information holding means. It is configured to switch.

〔Example〕

Next, embodiments of the present invention will be described with reference to the drawings.

Fig. 1 is a block diagram of an embodiment of the present invention, Fig. 2 is a diagram showing the structure of an external screen writing means in an embodiment of the invention, and Fig. 3 is an external screen readout in an embodiment of the invention. FIG. 4 is a diagram showing the configuration of the X-coordinate range recognition unit in an embodiment of the present invention; FIG. 5 is a diagram showing the configuration of the Y-coordinate range recognition unit in an embodiment of the present invention. It is.

In this embodiment, the external screen synchronization signal 50 is an external dot clock 61, an external horizontal synchronization signal 62, and an external vertical synchronization signal 63, and the internal screen synchronization signal 53 is an internal dot clock 64, an internal horizontal synchronization signal signal 65 and internal vertical synchronization signal 66. Further, the external screen signal 50 is a digital value, and the internal screen signal 52 is an analog signal. Furthermore, it is assumed that the external screen information holding means 1 and the screen display instruction information holding means 5 use memories that can be independently written and read. These memories hold information corresponding to all pixels of the external screen.

The operation of this screen compositing device is as follows.

First, the external screen writing means 2 having the structure shown in FIG. clock 6
1, the external screen signal 50 is written into the external screen holding means 1. X position counter 10 and Y position counter 11
are counters indicating the pixel position of the external screen, that is, the X position and Y position. The X position counter 10 is
Count up by external dot clock 6l,
It is reset by external horizontal synchronization signal 62. The Y position counter 11 counts and uses an external horizontal synchronizing signal 62.
and is reset by the external vertical synchronization signal 63. With this operation, the X position counter 10 and the Y position counter 11 will indicate the pixel position of the external screen signal 50. Therefore, by the above operation, the external screen signal 50 is written into the external screen information holding means 1 in synchronization with the external screen synchronization signal 50.

The external screen information written in the external screen holding means 1 is read out under the control of the external screen reading means 3. FIG. 3 shows the configuration of the external screen reading means 3 in this embodiment. As shown in FIG. 3, the external screen reading means 3
X coordinate range recognition unit 12, Y coordinate range recognition unit 13, four registers that specify the display range, namely display range start X
Coordinate register 14, display range end X coordinate register 15,
A display range start Y coordinate register 17, a display range end Y coordinate register 19, and a display start X address register that holds the address in the external screen holding means 1 corresponding to the upper left point of the external screen display area on the screen. 16 and a display start Y address register 19. These registers are set by the software that controls the multi-window, so that the display position information is set every time a change occurs, such as when the window is moved, its size is changed, or scrolling is performed within the window. be done.

FIG. 4 shows the configuration of the X coordinate range recognition section 12.

The X coordinate range recognition unit 12 includes two comparators, an X coordinate count 20 indicating the current X coordinate of the scanning line, and a display X address indicating the address where the external screen to be displayed exists in the external screen holding means 1. - Equipped with a counter 21. The X coordinate counter 20 is counted up by an internal dot clock 64 and reset by an internal horizontal synchronization signal 65. Thereby, the value of the X coordinate counter 20 indicates the current X coordinate of the scanning line. The value of this X coordinate counter 20 is the display range start X coordinate register 14,
Then, it is compared with the value held in the display range end X coordinate register 15. As a result, the X display range signal 69 is output only when the display X coordinate 80 is larger than the value held in the display range start X coordinate register 14 and smaller than the value held in the display range end X coordinate register l5. It is set as "a value indicating inside the display area", and in other cases, it is set as "a value indicating outside the display area". Furthermore, when the internal horizontal synchronization signal 65 becomes active, the display address counter 21 sets the value of the display start X address register 16, and
While the coordinate 80 is within the display range, the internal dot clock 64 counts the X read address 68.
Up.

Further, FIG. 5 shows the configuration of the Y coordinate range recognition section l3. Y
The coordinate range recognition unit 13 includes two comparators, a Y coordinate counter 22 that indicates the current Y coordinate of the scanning line, and a display Y address that indicates the location of the external screen to be displayed within the external screen holding means 1. A counter 23 is provided.

The Y-coordinate counter 22 is counted up by an internal horizontal synchronizing signal 65 and reset by an internal vertical synchronizing signal 66. Thereby, the value of the Y coordinate counter 22 indicates the current Y coordinate of the scanning line. This Y coordinate is stored in the display range start Y coordinate register 17, the display range end Y coordinate register 17, and the display range end Y coordinate register 17.
It is compared with the value held in the coordinate register 18. As a result, the Y display range signal 7l is sent only when the display Y coordinate 81 is larger than the value held in the display range start Y coordinate register 17 and smaller than the value held in the display range end Y coordinate register 18. “Value indicating inside display area”
In other cases, it is a "value indicating outside the display area."

Furthermore, the display Y address counter 23 sets the value of the display start Y address register 19 when the internal vertical synchronization signal 66 becomes active, and while the display Y coordinate 81 is within the display range, the internal horizontal synchronization signal 62, the Y read address 70 is counted up.

In the external screen holding means 1, the synchronized external screen signal 56 is created by reading out the external screen information held at the read address 67 indicated by the display X address counter 21 and the display Y address counter 23. This synchronized external screen signal 56 is converted into an analog signal by the digital/analog converter 7, and is sent to the switching means as a synchronized external screen signal 57 that has been converted into an analog signal. In addition, the external screen reading means 3 outputs the display range instruction signal 58 to ``inside the display area'' only when the X display range instruction signal 69 and the Y display range instruction signal 71 are both ``a value indicating inside the display area.'' In other cases, the value is set to "a value indicating outside the display area."

Each bit of the screen display instruction information holding means 5 displays the screen display instruction signal 54 as an image every time a new window is displayed, erased, or moved, and a change occurs by the software that controls the multi-window. The screen display instruction information writing instruction 5 is output to the instruction information holding means 5 and the screen display instruction information writing instruction 5 is issued to the image display instruction information writing means 6 to set the screen display instruction information as follows. In other words, if there is no window with a higher display priority than the external screen window at the position where the pixel on the external screen corresponding to that bit should be displayed, 'value indicating external screen display' is displayed from the external screen window. If a window with a higher priority exists, a ``value indicating internal screen display'' is set in each bit of the screen display instruction information holding means 5.

Through this operation, the screen display instruction information holding means 5 holds "values indicating external screen display" in the portions that are not hidden by other windows, and "values indicating internal screen display" in other portions. controlled to hold. This screen display instruction information, like the external screen information, is read out under the control of the external screen reading means 3. That is, in the screen display instruction information holding means 5, the value held in the read address 67 output by the external screen reading means 3 is output as the synchronized screen display instruction signal 59.

The switching means 4 switches between the analog-converted synchronized external screen signal 57 and the internal screen signal 52. That is, the value of the synchronized screen display instruction signal 59 read from the screen display instruction information holding means 5 is a "value indicating external screen display" and the display range instruction signal 58 output from the external screen reading means 3 Synchronized external screen signal 5 that is converted to analog only when is a “value that indicates within the display range”
7. At other times, the internal screen signal 52 is outputted to the display device 8 as the output screen signal 60.

By the above operation, the external screen signal 50 and the internal screen signal 5 are
2 is combined to perform multi-window display on the display device 8.

As explained above, the gist of the present invention is to provide screen display instruction information corresponding to one pixel or a plurality of pixels of the external screen, so that the shape of the external screen displayed on the display device can be made arbitrary. be. In one embodiment of the present invention, as the external screen holding means 1 and the screen display instruction information holding means 5, a memory capable of independently performing a write operation and a read operation is used. It is also possible to use an external screen holding means and a screen display instruction information holding means that arbitrate and make it appear that write operations and read operations can be performed independently. Further, in one embodiment of the present invention, the analog screen signal is switched by the switching means 4, but the switching operation is performed at the stage of the digital signal before digital/analog conversion, and the output of the switching means is changed. It is also possible to create a screen signal that is digital/analog converted and output as an analog signal.

[Effects of the Invention] As explained above, the present invention makes it possible to lower the display priority of the external screen window, that is, to display only a part of the external screen window.
Because external screen windows can be treated in the same way as other windows created inside the workstation,
This has the effect that an external screen can be displayed on a multi-window display workstation without giving the user an unnatural feeling.

[Brief explanation of drawings]

Fig. 1 is a block diagram showing the structure of an embodiment of the present invention, Fig. 2 is a diagram showing the structure of an external screen writing means in an embodiment of the invention, and Fig. 3 is an embodiment of the invention. FIG. 4 is a diagram showing the configuration of the external screen reading means in an embodiment of the present invention, FIG. 5 is a diagram showing the configuration of the X coordinate range recognition unit in an embodiment of the present invention, and FIG. FIG. 6 is a block diagram showing the conventional system. ■... External screen information holding means, 2...
External screen writing means, 3...External screen reading means, 4...Switching means, 5...
Screen display instruction information holding means, 6...Screen display instruction information writing means, 7...Digital/analog converter, 8...Display device, 10...・
X position counter, 11...Y position counter, 1
2...X coordinate range recognition unit, 13...Y
Coordinate range recognition unit, 14... Display range start X coordinate register, l5... Display range end X coordinate register, l6... Display open MX address register,
17...Display range start Y coordinate register, 18.
...Display range end Y coordinate register, 19...
...Display start Y address register, 20...
X coordinate counter, 21... Display X address counter, 22...: Y coordinate counter, 23...
... Display Y address counter, 50 ... External screen signal, 51 ... External screen synchronization signal, 52
...Internal screen signal, 53...Internal screen synchronization signal, 54...Screen display instruction signal, 55.
...Screen display instruction information writing instruction, 56...
... Synchronized external screen signal, 57 ... Synchronized external screen signal converted to analog, 58 ... Display range instruction signal, 59 ... Synchronized screen display instruction Signal, 60... Output screen signal, 61...
External dot clock, 62...External horizontal synchronization signal, 63...External vertical synchronization signal, 64...
... Internal dot clock, 65 ... Internal horizontal synchronization signal, 66 ... Internal vertical synchronization signal, 67
...Read address, 68...X read address, 69...X display range instruction signal, 70...Y read address, 71...
...Y display range instruction signal, 80...Display X coordinate, 81...Display Y coordinate.

Claims (1)

[Scope of Claims] A display screen composition device having external screen information holding means, external screen writing means, external screen reading means, and switching means, comprising screen display instruction information holding means for holding screen display instruction information, and screen display instruction information holding means for holding screen display instruction information; Screen display instruction information writing means for writing screen display instruction information into the display instruction information holding means is provided, the screen display instruction information is read from the screen display instruction information holding means under control of the external screen reading means, and the switching means: Switching between the video signal read from the external screen information holding means and the internal screen signal according to a display range instruction signal output from the external screen reading means and a value read from the screen display instruction information holding means. A display screen composition device characterized by: