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・ Mode Gakuen Cocoon Tower
・ Mode Gakuen Spiral Towers
・ Mode Media
・ Mode of a linear field
・ Mode of action
・ Mode of production
・ Mode of transport
・ Mode partition noise
・ Mode Plagal
・ Mode Records
・ Mode scrambler
・ Mode series
・ Mode setting
・ Mode volume
・ Mode water
Mode X
・ Mode Z compression
・ Mode, Banmauk
・ Mode, Illinois
・ Mode-locking
・ Mode. Set. Clear.
・ MODE32
・ MODEC
・ Modec
・ Modecin
・ Modedit
・ ModeFRONTIER
・ Modeh Ani
・ ModeHuman
・ Modekngei


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Mode X : ウィキペディア英語版
Mode X
Mode X is an alternative video graphics display mode of the IBM VGA graphics hardware that was popularized by Michael Abrash. It was first published in July 1991 in Dr. Dobb's Journal, and republished in chapters 47-49 of Abrash's ''Graphics Programming Black Book'' (now freely available online).〔Abrash, Michael. ''Michael Abrash's Graphics Programming Black Book Special Edition.'' The Coriolis Group, Scottsdale Arizona, 1997. ISBN 1-57610-174-6: PDF available online ()〕
The primary advantage of Mode X is that it has square pixels: a resolution of 320x240 instead of the standard VGA Mode 13h which is 320x200. Additionally, Abrash enabled the VGA's planar memory mode (also called "unchained mode"). Even though planar memory mode is a documented part of the VGA standard, it was first widely publicized in the Mode X articles, leading many programmers to consider Mode X and planar memory synonymous. It is possible to enable planar memory in standard 320x200 mode, which became informally known as "Mode Y" in the Usenet rec.games.programmer group.〔(【引用サイトリンク】title=Mode Y )〕〔Roberts, Dave. ''PC Game Programming Explorer''. The Coriolis Group, Scottsdale Arizona, 1994. ISBN 1-883577-07-1. Page 106.〕
The term "Mode X" was coined by Michael Abrash, who called it this in his articles. Though this mode had been used earlier by others〔Abrash, Michael. ''Michael Abrash's Graphics Programming Black Book Special Edition.'' The Coriolis Group, Scottsdale Arizona, 1997. ISBN 1-57610-174-6: PDF available online () pg. 877〕 (i.e. in many commercial games), it became widely known after Abrash's articles.
Planar memory arrangement splits the pixels horizontally into groups of four. For any given byte in the PC video memory aperture, you can access four pixels on screen, by selecting the plane(s) you require. This is more complicated for the programmer, but the advantages gained by this arrangement were considered very worthwhile by many, and Mode X found considerable use in demos and 2D games.
The main uses of the extra memory are:
*Higher resolutions: up to 360x480 in 256 colours is possible
*Double buffering and triple buffering for flicker free animation
*Smooth hardware scrolling of the video display window
*Graphics stored in 'off-screen' VRAM can quickly be moved around in VRAM using the VGA latches
*Planar mode allows up to 4 adjoining pixels to be modified in one byte write operation, which is ideal for solid filling of objects such as polygons, rectangles, lines, etc.
*Screen splitting, where one part of the display is taken from one area of memory and the other from a different area, which is ideal for status displays in games that utilise smooth hardware scrolling
"Mode Q" ('Q' being short for "cube") is often used to refer to Chain-4 256x256 256 colour mode. 〔Robert Schmidt. (【引用サイトリンク】title=tweak16b )〕 〔Bas van Gaalen. (【引用サイトリンク】title=Tweaked 256x256x256 Chained )〕 This mode's advantage is the simplistic and fast method for addressing pixels in memory based on the X and Y coordinates. The Y coordinate can simply be put in the high byte of the address, and the X coordinate in the low byte, forming the address of the pixel without a multiply, shift or lookup being needed like other video modes.
== References ==


抄文引用元・出典: フリー百科事典『 ウィキペディア(Wikipedia)
ウィキペディアで「Mode X」の詳細全文を読む



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