JP2009089988A5 - - Google Patents

Description

The display control CPU rotates the first display element and the second display element in a predetermined rotation direction in the virtual three-dimensional space based on the depth information set by the depth information setting unit. Rotation amount information setting means (for example, a portion where the CPU 131 executes the process of step S480A) for setting rotation amount information indicating an angle so as to change according to the depth position of each display element is included. In addition to the depth information set by the depth information setting means, the transparency information set by the transparency information setting means, the image data indicating the first display element, and the image data indicating the second display element, the translucent blending with coordinate conversion using the rotation amount information set by said rotation amount information setting means, to create the display data Which may (for example as a projection and synthesis drawing process drawing circuit 155 at step S707, the step S751~S753, S753A, such as portions for performing the process of S753B, S754 and S755).

The image processing determination section, as the predetermined processing condition, when changing a background image to be displayed on the variable display unit, may I line determines to start the translucent blending with coordinate conversion (e.g. The part where the CPU 131 determines Yes in step S421).

The image processing deciding means sets the predetermined processing condition as a condition that the identification information variable display result is not yet derived and displayed, and the identification information already derived and displayed becomes the specific display result. meets when a reach is, may I line determines to start the translucent blending with coordinate conversion (for example, CPU131 like portion for judging Yes at step S422 and S423).

The image processing determination section, as the predetermined processing condition, when displaying the demonstration image on the variable display unit, may we line determines to start the translucent blending with coordinate conversion (for example, CPU131 A part for which a Yes determination is made in step S298 or S300).

The image data stored in the image data storage means is first image data (for example, a first sprite image data area for SVGA) configured to have a smaller number of pixels than the total number of pixels corresponding to the image display means. Unlike the image data stored in 142A-1) and the corresponding number of pixels of the first image data, the second number is configured to correspond to a smaller number of pixels than the total number of pixels corresponding to the image display means. Image data (for example, image data stored in the second sprite image data area 142A-2 for VGA, etc.), and the image processor corresponds to the display data created by the display data creation means. An enlarged display in which an effect image is enlarged at a predetermined enlargement ratio and displayed on the image display means as an effect image of the total number of pixels corresponding to the image display means. The display control CPU includes a processing unit (for example, a display circuit 158), and the display control CPU shifts to a predetermined image switching condition (for example, after the end of the big hit gaming state, the probability changing state is ended depending on the progress of the game) And the transition to the normal state) is established, the effect image displayed on the variable display means is between the effect image corresponding to the first image data and the effect image corresponding to the second image data. An effect in the enlarged display processing means corresponding to the determination result by the effect image switching determining means (for example, the part where the CPU 131 executes the processes of steps S291 and S293) for determining to switch. Image switching enlargement ratio changing means for changing the enlargement ratio of the image (for example, a portion where the CPU 131 executes the processing of steps S292 and S295 And the image data read out from the image data storage means between the effect image corresponding to the first image data and the effect image corresponding to the second image data. in (after, for example, CPU131 executes the process of step S292, S295, step S296, like portions for performing the process of S407) image switching time of reading data changing means for changing a may also contains I to.

The display control CPU is a first bus width setting means for setting a data bus width when the image processor reads predetermined image data from the image data storage means to a first bus width (for example, 64 bit width). (For example, the part where the CPU 131 transmits a display setting command for start of probability change from the input / output port 135 to the VDP 141 in step S292) and a predetermined bus width switching condition (for example, Yes is determined in step S451) And the like, the data bus width when the image processor reads image data other than the predetermined image data from the image data storage means is set to a second bus width different from the first bus width ( For example, the second bus width setting means (for example, the CPU 131 sets the input / output port 13 in step S452) to set to 32 bits width. Etc. portion for transmitting the moving image display initialization command to VDP141) and may also contains I to.

The image processor includes temporary storage means (for example, a temporary storage memory 156) capable of temporarily storing the image data read from the image data storage means, and the temporary storage of the image data read from the image data storage means. Transfer control means (for example, the transfer control circuit 152) for controlling transfer to the storage means, and display data storage means (for example, the drawing buffer 157A of the VRAM 157) for temporarily storing the display data created by the display data creation means. And a display buffer 157B) and a storage area setting means (for example, by the CPU 131) for setting the storage area in the temporary storage means to a plurality of areas including a predetermined storage area in response to the activation of the display control CPU. In response to the storage area setting command process in step S52, the transfer control circuit 152 performs the step. The display control CPU, after setting the storage area by the storage area setting means, for example, a predetermined transfer condition (for example, the effect control microcomputer 120) When the CPU 131 executes the process of step S51 upon activation, that one of the processes of steps S292 and S295 is executed, or the determination of Yes is made in step S362), the image data is established. An image in which the execution frequency of the image display by the effect image corresponding to the image element data is higher than the execution frequency of the image display by the effect image corresponding to the required image data among a plurality of types of image data stored in the storage means An instruction when a transfer condition is instructed to transfer data to a storage area other than the predetermined storage area. Means (for example, the part where the CPU 131 executes the pre-transfer command process in any of steps S53, S296, and S364), the image data read position, and the write position in the display data storage means are notified to the image processor. Effect image update command means for commanding the update of the effect image (for example, a portion where the CPU 131 executes the sprite image update command processing in step S407), and the transfer control means is a command means when the transfer condition is established. In response to a command from the effect image corresponding to the required image data, the execution frequency of the image display by the effect image corresponding to the image data among the plurality of types of image data stored in the image data storage means Image data higher than the image display execution frequency is read from the image data storage means and Data transfer means when conditions are satisfied for transferring to a storage area other than the predetermined storage area in the temporary storage means (for example, the part where the transfer control circuit 152 executes the pre-transfer process in step S605), and the effect image update command means When the image data storage means includes the image data read position notified from the image data storage means, the image data is read from the read position in the image data storage means and transferred to the predetermined storage area in the temporary storage means Data transfer means (for example, the part where the transfer control circuit 152 executes the automatic transfer control processing in step S607), and the display data creation means stores the image in the predetermined storage area by the normal data transfer means. After the data has been transferred, update the effect image by reading out the image data from the predetermined storage area First data writing processing means (for example, a portion where the drawing circuit 155 executes automatic transfer drawing processing in step S705) to be written and stored in the writing position in the display data storage means notified from the command means; When the read position of the image data notified from the effect image update command means is included in the temporary storage means, the image data is read from the read position in the temporary storage means and notified from the effect image update command means. the second data write processing means (e.g., drawing circuit 155 and portions for performing the fixed addressing drawing process at step S703) to be stored is written in the writing position and may also contains I to the display data storage unit.

The rotation amount information setting means displays rotation amount information indicating a rotation angle in a predetermined rotation direction in the virtual three-dimensional space for the first display element and the second display element according to the depth position of each display element. It may be set to change. The drawing processing means, a translucent blending with the coordinate transformation using the rotation amount information set by the rotation amount information setting means may I line.
Thereby, the effect by the effect display can be further enhanced, and the game entertainment can be improved.

Image processing determining means, determines to initiate the translucent blending with coordinate transformation may me line to change the background image to be displayed on the variable display means.
Thus, for example, when a plurality of background images are switched and displayed on the variable display means in correspondence with a plurality of effect modes, a novel effect display is performed when the background image is switched to enhance the effect of the effect and improve the game entertainment Can be made.

Image processing determining means, determines to initiate the translucent blending with coordinate transformation may it line when a reach.
Thereby, a novel production | presentation display can be performed in the case of reach, a production effect can be heightened, and a game entertainment interest can be improved.

Image processing determining means, determines to initiate the translucent blending with coordinate transformation may I line when displaying a demonstration image on the variable display means.
Thereby, when displaying a demonstration image, a novel effect display can be performed and the effect of an effect can be heightened.

First image data and second image data may be stored that is configured to correspond to the smaller number of pixels than the total number of pixels corresponding to the image display unit in the image data storage means. Then, when a predetermined image switching condition is established corresponding to the progress of the game, the effect image switching determining means displays the effect image corresponding to the first image data and the second effect image displayed on the variable display means. a decision that switch between effect image corresponding to the image data may be I line. Corresponding to this determination result, the image switching enlargement ratio changing means changes the enlargement ratio of the effect image in the enlarged display processing means, and the image data read by the image switching read data changing means is read from the image data storage means as the first image. The effect image corresponding to the data and the effect image corresponding to the second image data may be changed.
As a result, the data capacity is reduced as compared with the case where image data configured corresponding to the same number of pixels as the total number of pixels corresponding to the image display means is stored in the image data storage means and used to display the effect image. Therefore, the storage capacity in the storage means such as the image data storage means can be reduced. Then, by switching the effect image according to the establishment of the image switching condition and changing the enlargement ratio and the image data, it is possible to display the effect image with an appropriate enlargement ratio and image data according to the progress of the game. It is possible to enhance the entertainment effect of the game by enhancing the production effect.

The data bus width when reading predetermined image data may be set to the first bus width. On the other hand, if the predetermined bus width switching condition is satisfied, the data bus width for reading image data other than the predetermined image data may be set to a second bus width different from the first bus width. Good .
Thus, the image data can be processed with an optimum configuration and processing speed by changing the bus width according to the image data capacity and processing load.

Transfer image data when the condition is satisfied, among image data of a plurality of types, image display execution frequency by the effect image corresponding to the image data is higher than the execution frequency of image display by the effect image corresponding to the required image data The means may be transferred and stored in a storage area other than the predetermined storage area in the temporary storage means in response to the establishment of the predetermined transfer condition. When the read position of the image data notified from the effect image update command means is included in the image data storage means, the normal data transfer means reads the image data from the read position in the image data storage means and temporarily stores the data. after transferring a predetermined storage area in, it may be stored is written in the writing position in the predetermined first data reading processing unit data storage means for reading and displaying the image data from the storage area. On the other hand, when the read position of the image data notified from the effect image update command means is included in the temporary storage means, the second data reading processing means reads the image data from the read position in the temporary storage means and displays it. You may write and memorize | store it in the writing position in the data storage means.
Thus, for image data transferred to a predetermined storage area in the temporary storage means, if the reading position in the image data storage means and the writing position in the display data storage means are designated, the storage position in the temporary storage means It can be used to create display data without specifying the address, address management becomes easy, and the burden of program design can be reduced. On the other hand, for the image data in which the execution frequency of the effect by the corresponding effect image is set higher than the execution frequency of the effect by the effect image corresponding to the required image data, the reading position in the temporary storage means is designated. Thus, the data already stored in the temporary storage means can be easily reused, and it is not necessary to read out each time from the image data storage means, so that the control burden in the display effect can be reduced. Further, for image data with a high frequency of image display, even if an error due to noise or the like occurs in the stored content of the temporary storage means, the stored content can be automatically restored.

Claims (1)

Based on the fact that the variable display start condition is satisfied after the variable display execution condition is satisfied, variable display means is provided for variably displaying each of a plurality of types of identification information that can be identified. A gaming machine that is in a specific gaming state that is advantageous to the player after a predetermined specific display result is obtained,
A display control CPU for controlling the display operation of the variable display means;
Image data storage means for storing a plurality of types of image data indicating a plurality of types of display elements;
After creating display data based on the control command from the display control CPU and the image data read from the image data storage means, an effect image is displayed on the variable display means based on the display data. An image processor for displaying,
The image processor includes display data creation means for creating display data based on image data read from the image data storage means,
The display control CPU is:
An image processing decision for determining to start translucent synthesis with coordinate transformation using image data read from the image data storage means when a predetermined processing condition is established according to the progress of the game Means,
Timer means for measuring an elapsed time from a predetermined time point based on a determination result to start by the image processing determination means;
Depth information for arranging different depth positions in the virtual three-dimensional space with respect to the first display element and the second display element among the plurality of types of display elements was measured by the timer means. Depth information setting means for setting to change in a predetermined movement direction according to the elapsed time;
Based on the depth information set by the depth information setting means, the transparency of the display element arranged on the near side from the predetermined viewpoint in the virtual three-dimensional space among the first display element and the second display element is Transparency information setting means for setting transparency information of the first display element and the second display element so as to be lower than the transparency of the display element arranged on the back side,
The display data creation means, based on the determination result to start by the image processing determination means, the depth information set by the depth information setting means, the transparency information set by the transparency information setting means, Drawing processing means for creating the display data by translucent synthesis with coordinate conversion using image data indicating the first display element and image data indicating the second display element;
A gaming machine characterized by that.