JPH0535437A - User's interface generation system - Google Patents

Abstract

PURPOSE:To offer an operator comfortable environment by displaying display element in three dimensions. CONSTITUTION:When a specific picture is generated, necessary display element constituent data 1a, 1b, 1c ... are selected from a display element constituent data storage means 1. Further, the positions and states of the respective display elements in the picture are determined from a display element state data storage means 2. Further, the position and intensity of a light source are determined from a light source data storage means 3. A three-dimensional display arithmetic means 4 performs three-dimensional display arithmetic according to those display element constituent data 1a, 1b, 1c..., display element state data 2a, 2b, 2c..., and light source data and the arithmetic result is displayed on a display device 5.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a user interface creating system for creating menu screens and the like.

[0002]

2. Description of the Related Art In recent years, attention has been paid to a graphical user interface that graphically displays icons on a menu screen in an information processing apparatus. With this graphical user interface, elements (tools) that graphically represent a clock, calendar, mail box, etc. are arranged on the screen, and multiple windows are opened, and these windows are opened by a pointing device such as a mouse. This is an interface that enables the operator to input and operate by enlarging / reducing, or copying or moving, by instructing tools or windows on the screen, and improving the interactivity with the user.

FIG. 2 shows such a user interface. The figure shows an example of a screen of a display device in the information processing apparatus. In the figure, 101 and 102 are windows opened on the screen, and 103 is a switch section. In the window 101, scroll to the right on the screen.
The bar 101a is provided so that the text data and image data displayed in the window 101 can be copied and moved by clicking the mouse.
Also, the window 102 has a plurality of buttons 1 on its top.
02a, 102b, and 102c, which are also capable of performing predetermined processing by an operation such as mouse clicking on the position of any of the buttons 102a, 102b, and 102c. Further, the sizes of the windows 101 and 102 can be freely changed, and the window 101, which is the upper surface of the window 102 in the illustrated state, can be reversed. Further, the switch unit 103 has switches 104 and 105 corresponding to the respective functions. Each switch 104, 105 is an image of a push button switch, the push button is shaded, and the on / off state depends on the ON / OFF state. By changing the shade, its on / off state can be visually confirmed. Further, each of the windows 101 and 102 and the switch unit 103 is configured to appropriately select a display color to visually improve the interactivity.

[0004]

However, the above-mentioned conventional user interface has the windows 101, 1
02, the switches 104, 105, etc., only express a three-dimensional effect by colors and shading, so, for example,
The windows 101 and 102 overlap each other in a flat manner, and it is not possible to provide sufficient reality for reflecting light of a display object made of a metal material and displaying an icon of a three-dimensional object such as a desk or a telephone. It was The present invention has been made to solve the above-mentioned conventional problems, and an object of the present invention is to provide a user interface creation system capable of making an operator feel excellent reality and improving operability. To do.

[0005]

A user interface creation system of the present invention is a display element configuration data storage means for storing configuration data of a display element, and a display element state for storing position and display state data of the display element. Data storage means, light source data storage means for storing light source data for the display element, configuration data and state data of the display element, and three of the display elements based on the light source data.
And a three-dimensional display calculation means for performing a three-dimensional display calculation.

[0006]

In the user interface creating system of the present invention, when creating a predetermined screen, the required display element configuration data is selected from the display element configuration data storage means. Further, the position and state of each display element on the screen are determined from the display element state data storage means. Furthermore,
The position and intensity of the light source are determined from the light source data storage means.
The three-dimensional display calculation means performs a three-dimensional display calculation based on the display element configuration data, the display element state data and the light source data, and displays the result on the display device. Therefore, the display of the display element becomes three-dimensional, and the operator can be provided with a comfortable environment.

[0007]

Embodiments of the present invention will be described in detail below with reference to the drawings. FIG. 1 is a block diagram showing an embodiment of a user interface creating system of the present invention. The system shown in the figure comprises a display element configuration data storage means 1, a display element state data storage means 2, a light source data storage means 3, and a three-dimensional display calculation means 4, and displays icons and the like created by these configurations. It is designed to be displayed on the device 5. The display element configuration data storage means 1 includes configuration data 1a, 1b, 1c, ... Of display elements (components for display) such as windows, scroll bars, switch icons, etc., that is, the shape, color, line of each display element, It has a function of storing data indicating surfaces, materials, and the like. Here, the material refers to data representing the texture of metal, cloth or the like. Further, the display element state data storage means 2 displays the display positions of the respective display elements 1a, 1b, 1c, ... Stored in the display element configuration data storage means 1 and the display states such as on / off states of switch icons. It has a function of storing the data 2a, 2b, 2c, .... The light source data storage means 3 has a function of storing light source data for performing three-dimensional display of each display element, that is, data of the position and color of the light source and its intensity.

The three-dimensional display calculation means 4 uses a three-dimensional graphics calculation method such as a ray tracing method, and uses a display device 5.
In the scene (scene) to be displayed on the display element data 1a, 1b of the display element configuration data storage means 1,
Are arranged in combination based on the state data of the display element state data storage means 2, and are also means for performing calculation for three-dimensional display of each display element based on the light source data of the light source data storage means 3. Note that the ray tracing method described above is also called a ray tracing method or a line-of-sight reverse search method, and a line-of-sight is generated for each pixel of the display area, and a method of searching for the first intersection with all of the surfaces. is there. The display device 5 is a device that displays a menu screen and the like created by the user interface creation system.

FIG. 3 shows a computer system to which the above user interface creating system is applied. The computer system shown in the figure comprises a central processing unit (CPU) 6, a memory 7, a display device 5, a pointing device 8, a keyboard 9, and a secondary storage device 10. Central processing unit 6
In the 3 of the user interface creation system described above
The dimensional display calculation means 4 is provided, and the memory 7 or the secondary storage device 10 includes the display element configuration data storage means 1, the display element state data storage means 2, and the light source data storage means 3.
Is provided. The memory 7 is a random access memory or the like, and the pointing device 8 is a mouse or the like. Further, the keyboard 9 is a known JIS keyboard or the like, and the secondary storage device 10 is a storage device such as a magnetic disk or a read-only memory.

Next, the operation of the user interface creating system will be described. FIG. 4 is a flowchart thereof. First, the display element data 1a, 1b, 1 stored in the display element configuration data storage means 1 is input by an operator from the keyboard 9 or the pointing device 8 or an instruction from a program being executed.
Required items are selected from c, ..., And their colors and materials are determined (step S1). Next, the position or state of each display element is determined by an operator or an instruction from an instruction program (step S2). That is, the position of the display element state data storage means 2, the state data 2a, 2b, 2
For example, the positions of the windows and the scroll bar and the initial state of the switch icon are determined to be on or off, depending on c, ... Further, the position, color and intensity of the light source for each display element are determined from the light source data stored in the light source data storage means 3 (step S3), and these display element configuration data 1a, 1b, 1
The display element state data 2a, 2b, 2c, ... And the light source data are sent to the three-dimensional display calculation means 4. Thereby, the three-dimensional display calculation means 4 imitates the reflection of light from the light source and its shadow for each display element, converts it into the display format for the display device 5, and displays it on the display device 5 (step S4). That is, the calculation for the three-dimensional expression of each display element is performed, and this is displayed on the display device 5.

FIG. 5 shows a screen displayed on the display device 5. As shown, window 11 is window 1
2, the shadow 13 of the window 11 is displayed on the surface of the window 12 depending on the position of the light source. Also, the button portion 12 of the window 12
a, 12b, and 12c are three-dimensionally represented. Furthermore,
The switches 14 and 15 are also three-dimensionally expressed, and the material of the switch 14 is plastic, and the switch 15 is
Since metal data is selected for each switch 1
The textures of 4 and 15 are realistically expressed.

When the screen is displayed in step S4, it is then checked whether the operator has made an input from the keyboard 9 or the pointing device 8 (step S5), and if there is an input, the input information is instructed. Notify the program (step S6). Then, after the notification in step S6 or when there is an operator's input in step S5, the user interface creation system changes the position or state of the display element as necessary (step S7). For example, when the operator designates the position where the switches 14 and 15 are displayed with the pointing device 8, a change process such as reversing the state of the switches 14 and 15 from on to off is performed. Further, it is determined whether or not the processing end condition is satisfied (step S
8) If it is established, the operation of the user interface creating system is terminated, and if it is not established, it is determined whether or not a display element is added or deleted (step S9).
If the display element is added or deleted, the process returns to step S1. If not, the process returns to step S2. That is, when a display element is added or deleted,
The color or material of the display element to be added or deleted is selected from the display element configuration data storage means 1, and if there is no addition or deletion, the position / state of each display element is determined as necessary, and the light source is used. The data of will be selected as necessary.

In the above embodiment, the windows 11 and 12 and the switches 14 and 15 have been described as examples of screens created by the user interface creation system, but the present invention is not limited to such display elements. For example, other than this, various items such as desks, phones, clothes, cars, buildings, etc. can be used as display elements. In addition, for example, by displaying the bookshelves of a huge library in perspective, it is possible to show the operator an overall image of tens of thousands of books, which enables highly realistic display. In the above embodiment, the operation of the user interface creation system is performed by selecting the display element configuration data by the operator or the instruction program. However, after creating a certain screen, this is stored in the secondary storage device 10 or the like at the end of the process. Then, it may be configured such that this is read at the start of processing and is displayed on the display device 5. That is, the data of the screen (screen shown in FIG. 5) created in steps S1 to S4 in the flowchart of FIG. 4 may be stored, and the process of step S5 may be started when the next process is started. Further, in the above embodiment, the three-dimensional display calculation means 4
The ray-tracing method was used for the calculation, but the radiosity method or the like can be used as the three-dimensional display calculation.

[0014]

As described above, according to the user interface creation system of the present invention, the data of the position and state of each display element and the light source for illuminating each display element are added to these data. Based on this, the three-dimensional display calculation is performed and the three-dimensional display of each display element is performed. Therefore, it is possible to perform extremely realistic display and improve the operability.

[Brief description of drawings]

FIG. 1 is a configuration diagram of a user interface creation system of the present invention.

FIG. 2 is an explanatory diagram of a screen example by a conventional user interface creation system.

FIG. 3 is a configuration diagram of a computer system to which the user interface creation system of the present invention is applied.

FIG. 4 is a flowchart showing the operation of the user interface creation system of the present invention.

FIG. 5 is an explanatory diagram of a screen example by the user interface creation system of the present invention.

[Explanation of symbols]

 1 Display Element Configuration Data Storage Means 1a, 1b, 1c Display Element Configuration Data 2 Display Element State Data Storage Means 2a, 2b, 2c Display Element State Data 3 Light Source Data Storage Means 4 3D Display Calculation Means 5 Display Device

Claims (1)

Claim: What is claimed is: 1. A display element configuration data storage unit for storing configuration data of a display element, a display element state data storage unit for storing position and display state data of the display element, and the display. Light source data storage means for storing light source data for the element, three-dimensional display calculation of the display element based on the configuration data and state data of the display element, and the light source data 3
A user interface creation system including a dimension display calculation means.