2 * \file api_drv_video.h
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3 * \brief Video Driver Interface Definitions
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4 * \note For AcessOS Version 1
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6 * Video drivers extend the common driver interface api_drv_common.h
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7 * and must support _at least_ the IOCtl numbers defined in this file
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8 * to be compatable with Acess.
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11 * As said, a compatable driver must implement these calls correctly,
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12 * but they may choose not to allow direct user access to the framebuffer.
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14 * \section Screen Contents
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15 * Writes to the driver's file while in component colour modes
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16 * must correspond to a change of the contents of the screen. The framebuffer
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17 * must start at offset 0 in the file.
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18 * Reading from the screen must either return zero, or read from the
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21 * \section Mode Support
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22 * All video drivers must support at least one text mode (Mode #0)
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23 * For each graphics mode the driver exposes, there must be a corresponding
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24 * text mode with the same resolution, this mode will be used when the
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25 * user switches to a text Virtual Terminal while in graphics mode.
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27 #ifndef _API_DRV_VIDEO_H
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28 #define _API_DRV_VIDEO_H
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30 #include <api_drv_common.h>
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33 * \enum eTplVideo_IOCtl
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34 * \brief Common Video IOCtl Calls
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35 * \extends eTplDrv_IOCtl
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37 enum eTplVideo_IOCtl {
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39 * ioctl(..., int *mode)
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40 * \brief Get/Set Mode
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41 * \return Current mode ID or -1 on error
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43 * If \a mode is non-NULL, the current video mode is set to \a *mode.
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44 * This updated ID is then returned to the user.
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46 VIDEO_IOCTL_GETSETMODE = 4,
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49 * ioctl(..., tVideo_IOCtl_Mode *info)
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50 * \brief Find a matching mode
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51 * \return 1 if a mode was found, 0 otherwise
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53 * Using avaliable modes matching the \a bpp and \a flags fields
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54 * set the \a id field to the mode id of the mode with the closest
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55 * \a width and \a height.
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57 VIDEO_IOCTL_FINDMODE,
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60 * ioctl(..., tVideo_IOCtl_Mode *info)
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61 * \brief Get mode info
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62 * \return 1 if the mode exists, 0 otherwise
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64 * Set \a info's fields to the mode specified by the \a id field.
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66 VIDEO_IOCTL_MODEINFO,
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69 * ioctl(..., int *NewFormat)
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70 * \brief Switches between Text, Framebuffer and 3D modes
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71 * \param NewFormat Pointer to the new format code (see eTplVideo_BufFormats)
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72 * \return Original format
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74 * Enabes and disables the video text mode, changing the behavior of
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75 * writes to the device file.
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77 VIDEO_IOCTL_SETBUFFORMAT,
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80 * ioctl(..., tVideo_IOCtl_Pos *pos)
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81 * \brief Sets the cursor position
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82 * \return Boolean success
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84 * Set the text mode cursor position (if it is supported)
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85 * If the \a pos is set to (-1,-1) the cursor is hidden, otherwise
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86 * \a pos MUST be within the current screen size (as given by the
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87 * current mode's tVideo_IOCtl_Mode.width and tVideo_IOCtl_Mode.height
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90 VIDEO_IOCTL_SETCURSOR,
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93 * ioctl(..., tVideo_IOCtl_Bitmap *Image)
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94 * \brief Sets the cursor image
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95 * \return Boolean success
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97 * Sets the graphics mode cursor image
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99 VIDEO_IOCTL_SETCURSORBITMAP
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101 #define DRV_VIDEO_IOCTLNAMES "getset_mode", "find+mode", "mode_info", "set_buf_format", "set_cursor", "set_cursor_bitmap"
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104 * \brief Mode Structure used in IOCtl Calls
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106 * Defines a video mode supported by (or requested of) this driver (depending
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107 * on what ioctl call is used)
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109 typedef struct sVideo_IOCtl_Mode
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111 short id; //!< Mode ID
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112 Uint16 width; //!< Width
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113 Uint16 height; //!< Height
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114 Uint8 bpp; //!< Bits per Unit (Character or Pixel, depending on \a flags)
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115 Uint8 flags; //!< Mode Flags
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116 } tVideo_IOCtl_Mode;
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119 * \brief Buffer Format Codes
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121 enum eTplVideo_BufFormats
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126 * The device file presents itself as an array of ::tVT_Char
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127 * each describing a character cell on the screen.
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128 * These cells are each \a giVT_CharWidth pixels wide and
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129 * \a giVT_CharHeight high.
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133 * \brief Framebuffer Mode
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135 * The device file presents as an array of 32-bpp pixels describing
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136 * the entire screen. The format of a single pixel is in xRGB format
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137 * (top 8 bits ignored, next 8 bits red, next 8 bits green and
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138 * the bottom 8 bits blue)
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140 VIDEO_BUFFMT_FRAMEBUFFER,
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142 * \brief 2D Accelerated Mode
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144 * The device file acts as a character device, accepting a stream of
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145 * commands described in eTplVideo_2DCommands when written to.
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147 VIDEO_BUFFMT_2DSTREAM,
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149 * \brief 3D Accelerated Mode
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151 * The device file acts as a character device, accepting a stream of
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152 * commands described in eTplVideo_3DCommands when written to.
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154 VIDEO_BUFFMT_3DSTREAM
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158 * \brief 2D Accellerated Video Commands
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160 * Commands passed in the command stream for ::VIDEO_BUFFMT_2DSTREAM
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162 enum eTplVideo_2DCommands
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165 * \brief No Operation
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169 * \brief Fill a region
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170 * \param X Uint16 - Leftmost pixels of the region
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171 * \param Y Uint16 - Topmost pixels of the region
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172 * \param W Uint16 - Width of the region
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173 * \param H Uint16 - Height of the region
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174 * \param Colour Uint32 - Value to fill with
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178 * \brief Copy a region from one part of the framebuffer to another
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179 * \param DestX Uint16 - Leftmost pixels of the destination
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180 * \param DestY Uint16 - Topmost pixels of the destination
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181 * \param SrcX Uint16 - Leftmost pixels of the source
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182 * \param SrcY Uint16 - Topmost pixels of the source
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183 * \param Width Uint16 - Width of the region
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184 * \param Height Uint16 - Height of the region
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190 * \brief Copy a region from video memory to the framebuffer
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192 VIDEO_2DOP_BLITBUF,
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195 * \brief Copy and scale a region from video memory to the framebuffer
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197 VIDEO_2DOP_BLITSCALEBUF,
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203 * \brief Describes a position in the video framebuffer
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205 typedef struct sVideo_IOCtl_Pos
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207 Sint16 x; //!< X Coordinate
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208 Sint16 y; //!< Y Coordinate
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209 } tVideo_IOCtl_Pos;
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212 * \brief Bitmap object (out of band image)
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214 typedef struct sVideo_IOCtl_Bitmap
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216 Sint16 W; //!< Width of image
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217 Sint16 H; //!< Height of image
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218 Sint16 XOfs; //!< X Offset of center
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219 Sint16 YOfs; //!< Y Offset of center
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220 Uint32 Data[]; //!< Image data (ARGB array)
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221 } tVideo_IOCtl_Bitmap;
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224 * \brief Virtual Terminal Representation of a character
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226 typedef struct sVT_Char
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228 Uint32 Ch; //!< UTF-32 Character
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231 Uint16 BGCol; //!< 12-bit Foreground Colour
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232 Uint16 FGCol; //!< 12-bit Background Colour
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234 Uint32 Colour; //!< Compound colour for ease of access
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239 * \name Basic builtin colour definitions
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242 #define VT_COL_BLACK 0x0000
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243 #define VT_COL_GREY 0x0888
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244 #define VT_COL_LTGREY 0x0CCC
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245 #define VT_COL_WHITE 0x0FFF
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250 //! \brief Defines the width of a rendered character
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251 extern int giVT_CharWidth;
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252 //! \brief Defines the height of a rendered character
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253 extern int giVT_CharHeight;
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255 * \brief Driver helper that renders a character to a buffer
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256 * \param Codepoint Unicode character to render
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257 * \param Buffer Buffer to render to
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258 * \param Depth Bit depth of the destination buffer
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259 * \param Pitch Number of bytes per line
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260 * \param BGC 32-bit Background Colour
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261 * \param FGC 32-bit Foreground Colour
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263 * This function is provided to help video drivers to support a simple
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264 * text mode by keeping the character rendering abstracted from the driver,
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265 * easing the driver development and reducing code duplication.
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267 extern void VT_Font_Render(Uint32 Codepoint, void *Buffer, int Depth, int Pitch, Uint32 BGC, Uint32 FGC);
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269 * \fn Uint32 VT_Colour12to24(Uint16 Col12)
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270 * \brief Converts a colour from 12bpp to 24bpp
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271 * \param Col12 12-bpp input colour
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272 * \return Expanded 32-bpp (24-bit colour) version of \a Col12
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274 extern Uint32 VT_Colour12to24(Uint16 Col12);
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276 * \brief Converts a colour from 12bpp to 14bpp
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277 * \param Col12 12-bpp input colour
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278 * \return 15 bits per pixel value
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280 extern Uint16 VT_Colour12to15(Uint16 Col12);
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282 * \brief Converts a colour from 12bpp to 32bpp
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283 * \param Col12 12-bpp input colour
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284 * \param Depth Desired bit depth
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285 * \return \a Depth bit number, denoting Col12
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287 * Expands the source colour into a \a Depth bits per pixel representation.
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288 * The colours are expanded with preference to Green, Blue and Red in that order
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289 * (so, green gets the first spare pixel, blue gets the next, and red never gets
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291 * The final bit of each component is used to fill the lower bits of the output.
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293 extern Uint32 VT_Colour12toN(Uint16 Col12, int Depth);
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296 * \brief Handlers for eTplVideo_2DCommands
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298 typedef struct sDrvUtil_Video_2DHandlers
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301 * \brief No Operation, Ignored
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302 * \see VIDEO_2DOP_NOP
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306 * \brief Fill a buffer region
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307 * \param X Lefthand edge
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308 * \param Y Top edge
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311 * \param Colour Colour to fill with
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312 * \see VIDEO_2DOP_FILL
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314 void (*Fill)(void *Ent, Uint16 X, Uint16 Y, Uint16 W, Uint16 H, Uint32 Colour);
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316 * \brief Fill a buffer region
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317 * \param DestX Lefthand edge of destination
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318 * \param DestY Top edge of destination
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319 * \param SrcX Lefthand edge of source
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320 * \param SrcY Top edge of source
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323 * \see VIDEO_2DOP_BLIT
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325 void (*Blit)(void *Ent, Uint16 DestX, Uint16 DestY, Uint16 SrcX, Uint16 SrcY, Uint16 W, Uint16 H);
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326 } tDrvUtil_Video_2DHandlers;
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329 * \brief Handle a 2D operation stream for a driver
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330 * \param Ent Value to pass to handlers
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331 * \param Buffer Stream buffer
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332 * \param Length Length of stream
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333 * \param Handlers Handlers to use for the stream
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334 * \param SizeofHandlers Size of \a tDrvUtil_Video_2DHandlers according
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335 * to the driver. Used as version control and error avoidence.
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337 extern Uint64 DrvUtil_Video_2DStream(void *Ent, void *Buffer, int Length,
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338 tDrvUtil_Video_2DHandlers *Handlers, int SizeofHandlers);
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