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MStar hereby reserves the 91 // rights to any and all damages, losses, costs and expenses resulting therefrom. 92 // 93 /// @file apiXC_ModeParse.h 94 /// @brief MIU header file 95 /// @author MStar Semiconductor Inc. 96 /// 97 //////////////////////////////////////////////////////////////////////////////// 98 99 /*! \defgroup Video Video modules 100 101 * \defgroup XC_FE XC_FE modules 102 * \ingroup Video 103 104 Mode Parse mechanism is a fast and easy way to look up input timing according to different timing characteristics.\n 105 For more information,see \link MODE_Parse MODE_Parse interface (apiXC_ModeParse.h) \endlink 106 107 * \defgroup MODE_Parse MODE_Parse interface (apiXC_ModeParse.h) 108 * \ingroup XC_FE 109 110 Mode Parse mechanism is a fast and easy way to look up input timing according to 111 different timing characteristics listed here 112 - input source type : Component / HDMI / DVI / VGA 113 - input horizontal frequency 114 - input vertical frequency 115 - input vertical total 116 - input sync detection : H/V polarity, scan type 117 - HDMI/DVI only : Data Enable section detection result 118 - Euro HDTV detection result 119 120 <b>Features</b> \n 121 - Customizable : User can customized their database by passing their own data base and the driver will help to do the matching tasks. 122 - Supports multiple input source types : Component / HDMI / DVI / VGA 123 124 <b> Operation Code Flow: </b> \n 125 1. calls MApi_XC_ModeParse_Init for internal initilizations 126 2. prepare MS_PCADC_MODETABLE_TYPE_EX structure type timing database. 127 3. User switch input source to whatever the system is going to show. For example : Main or Sub window 128 4. read sync detection info from scaler and stores it in XC_MODEPARSE_INPUT_INFO structure type 129 5. calls MApi_XC_ModeParse_MatchModeEx with timing database and the information you just got from scaler 130 6. wait for the result of matching timing. 131 132 * \defgroup MODE_Parse_INIT MODE_Parse init control 133 * \ingroup MODE_Parse 134 135 *! \defgroup MODE_Parse_FEATURE MODE_Parse feature operation 136 * \ingroup MODE_Parse 137 138 *! \defgroup MODE_Parse_INFO MODE_Parse Infomation pool 139 * \ingroup MODE_Parse 140 141 *! \defgroup MODE_Parse_ToBeModified MODE_Parse api to be modified 142 * \ingroup MODE_Parse 143 144 *! \defgroup MODE_Parse_ToBeRemove MODE_Parse api to be removed 145 * \ingroup MODE_Parse 146 */ 147 148 149 #ifndef _API_XC_MODEPARSE_H_ 150 #define _API_XC_MODEPARSE_H_ 151 #ifdef __cplusplus 152 extern "C" 153 { 154 #endif 155 156 //------------------------------------------------------------------------------------------------- 157 // Include Files 158 //------------------------------------------------------------------------------------------------- 159 160 //------------------------------------------------------------------------------------------------- 161 // Macro and Define 162 //------------------------------------------------------------------------------------------------- 163 164 //------------------------------ 165 // Mode Detect & Search 166 //------------------------------ 167 #define MD_FLAG_NULL 0x00 168 169 #define MD_FLAG_POR_HPVP 0x01 170 #define MD_FLAG_POR_HPVN 0x02 171 #define MD_FLAG_POR_HNVP 0x04 172 #define MD_FLAG_POR_HNVN 0x08 173 #define MD_FLAG_INTERLACE 0x10 174 175 #define MD_FLAG_EURO_HDTV_BIT 0x20 176 177 #define MD_FLAG_YPBPR_BIT 0x40 178 #define MD_FLAG_HDTV_BIT 0x80 179 180 181 //------------------------------------------------------------------------------------------------- 182 // Type and Structure 183 //------------------------------------------------------------------------------------------------- 184 185 /// The type of result after mode searching. 186 typedef enum 187 { 188 XC_MODEPARSE_NOT_PARSED = 0, ///< timing not stable or stable no sync, not parse yet 189 XC_MODEPARSE_OUT_OF_RANGE, ///< out of spec. 190 XC_MODEPARSE_UNSUPPORT_MODE, ///< can't find in mode tables 191 XC_MODEPARSE_SUPPORT_MODE, ///< support mode 192 } XC_MODEPARSE_RESULT; 193 194 typedef struct 195 { 196 // mode parse result 197 MS_U8 u8ModeIndex; ///< OUT: mode parse will return the mode index by this variable 198 MS_U16 u16ResWidth; ///< OUT: indicate the resolution -> width 199 MS_U16 u16ResHeight; ///< OUT: indicate the resolution -> height 200 201 // src type 202 INPUT_SOURCE_TYPE_t eSrcType; ///< IN: input source type 203 204 // Analog 205 MS_U16 u16HFreqx10; ///< IN: HFreq x 10, unit KHz after / 10 206 MS_U16 u16VFreqx10; ///< IN: VFreq x 10, unit Hz after / 10 207 MS_U16 u16Vtotal; ///< IN: Vertical total 208 MS_U8 u8SyncStatus; ///< IN: from XC driver, including H/V sync polarity, interlaced or progressive, mode parse will or XC_MD_USER_MODE_BIT if new mode found 209 210 // Digital 211 MS_WINDOW_TYPE sDVI_HDMI_DE_Info; ///< IN: DVI/HDMI input DE information 212 213 // EuroHDTV detected or not 214 MS_DETECT_EURO_HDTV_STATUS_TYPE eEuroHDTVStatus; ///< IN: timing monitor detect Euro/Aus HDTV status 215 } XC_MODEPARSE_INPUT_INFO; ///< the neccesary input timing information for mode search 216 217 typedef enum 218 { 219 RES_640X350, // 00 220 RES_640X400, // 01 221 RES_720X400, // 02 222 RES_640X480, // 03 223 RES_800X600, // 04 224 RES_832X624, // 05 225 RES_1024X768, // 06 226 RES_1280X1024, // 07 227 RES_1600X1200, // 08 228 RES_1152X864, // 09 229 RES_1152X870, // 10 230 RES_1280X768, // 11 231 RES_1280X960, // 12 232 RES_720X480, // 13 233 RES_1920X1080, // 14 234 RES_1280X720, // 15 235 RES_720X576, // 16 236 RES_1920X1200, // 17 237 RES_1400X1050, // 18 238 RES_1440X900, // 19 239 RES_1680X1050, // 20 240 RES_1280X800, // 21 241 RES_1600X1024, // 22 242 RES_1600X900, // 23 243 RES_1360X768, // 24 244 RES_848X480, // 25 245 RES_1920X1080P, // 26 246 RES_1366X768, // 27 247 RES_864X648, // 28 248 RES_1280X1470, // 29 249 RES_1920X2205, // 30 250 RES_720X240, // 31 251 RES_720x288, // 32 252 RES_1152X900, // 33 253 RES_856x480, // 34 254 RES_1536X960, // 35 255 RES_1600X1000, // 36 256 RES_1704X960, // 37 257 RES_1728X1080, // 38 258 RES_1864X1050, // 39 259 RES_MAXIMUM 260 }EN_RESOLUTION_TYPE; 261 262 typedef struct 263 { 264 EN_RESOLUTION_TYPE enResolutionIndex; ///< resolution 265 266 MS_U16 u16HorizontalFrequency; ///< Horizontal frequency 267 MS_U16 u16VerticalFrequency; ///< Vertical frequency 268 269 MS_U16 u16HorizontalStart; ///< Horizontal start 270 MS_U16 u16VerticalStart; ///< Vertical start 271 272 MS_U16 u16HorizontalTotal; ///< Horizontal Total 273 MS_U16 u16VerticalTotal; ///< Vertical Total 274 MS_U8 u8VTotalTolerance; ///< VTotal tolerance 275 276 MS_U8 u8AdcPhase; ///< ADC phase 277 278 MS_U8 u8StatusFlag; ///< flags 279 // b0: VSync polarity(1/0 = positive/negative) 280 // b1: HSync polarity(1/0 = positive/negative) 281 // b2: Sync polarity care bit 282 // b4: interlace mode 283 }MS_PCADC_MODETABLE_TYPE; 284 285 typedef struct 286 { 287 EN_RESOLUTION_TYPE enResolutionIndex; ///< resolution 288 289 MS_U16 u16HorizontalFrequency; ///< Horizontal frequency 290 MS_U16 u16VerticalFrequency; ///< Vertical frequency 291 292 MS_U16 u16HorizontalStart; ///< Horizontal start 293 MS_U16 u16VerticalStart; ///< Vertical start 294 295 MS_U16 u16HorizontalTotal; ///< Horizontal Total 296 MS_U16 u16VerticalTotal; ///< Vertical Total 297 MS_U16 u16VTotalTolerance; ///< VTotal tolerance 298 299 MS_U16 u16AdcPhase; ///< adc phase 300 301 MS_U8 u8StatusFlag; ///< flags 302 // b0: VSync polarity(1/0 = positive/negative) 303 // b1: HSync polarity(1/0 = positive/negative) 304 // b2: Sync polarity care bit 305 // b4: interlace mode 306 }MS_PCADC_MODETABLE_TYPE_EX; 307 308 309 //------------------------------------------------------------------------------------------------- 310 // Function and Variable 311 //------------------------------------------------------------------------------------------------- 312 313 //------------------------------------------------------------------------------------------------- 314 /// XC Mode Parse initilization 315 /// @ingroup MODE_Parse_INIT 316 /// @return @ref MS_BOOL 317 //------------------------------------------------------------------------------------------------- 318 MS_BOOL MApi_XC_ModeParse_Init(void); 319 // mode search 320 321 //------------------------------------------------------------------------------------------------- 322 /// XC Mode Parse Match Mode 323 /// @ingroup MODE_Parse_FEATURE 324 /// @param ModeDB \b IN: the mode table 325 /// @param u16NumberOfItems \b IN: the item number 326 /// @param psInputInfo \b IN: the Input source information 327 /// @return @ref XC_MODEPARSE_RESULT 328 //------------------------------------------------------------------------------------------------- 329 XC_MODEPARSE_RESULT MApi_XC_ModeParse_MatchMode(MS_PCADC_MODETABLE_TYPE* ModeDB, MS_U8 u16NumberOfItems , XC_MODEPARSE_INPUT_INFO *psInputInfo); 330 331 //------------------------------------------------------------------------------------------------- 332 /// XC Mode Parse Match Mode EX 333 /// @ingroup MODE_Parse_FEATURE 334 /// @param ModeDB \b IN: the EX mode table 335 /// @param u16NumberOfItems \b IN: the item number 336 /// @param psInputInfo \b IN: the Input source information 337 /// @return @ref XC_MODEPARSE_RESULT 338 //------------------------------------------------------------------------------------------------- 339 XC_MODEPARSE_RESULT MApi_XC_ModeParse_MatchModeEx(MS_PCADC_MODETABLE_TYPE_EX* ModeDB, MS_U8 u16NumberOfItems , XC_MODEPARSE_INPUT_INFO *psInputInfo); 340 #ifdef __cplusplus 341 } 342 #endif 343 344 #endif /* _API_XC_MODEPARSE_H_ */ 345