/*************************************************************************** * __________ __ ___. * Open \______ \ ____ ____ | | _\_ |__ _______ ___ * Source | _// _ \_/ ___\| |/ /| __ \ / _ \ \/ / * Jukebox | | ( <_> ) \___| < | \_\ ( <_> > < < * Firmware |____|_ /\____/ \___ >__|_ \|___ /\____/__/\_ \ * \/ \/ \/ \/ \/ * $Id$ * * Miscellaneous helper API declarations * * Copyright (c) 2007 Michael Sevakis * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; either version 2 * of the License, or (at your option) any later version. * * This software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY * KIND, either express or implied. * ****************************************************************************/ #ifndef MPEG_MISC_H #define MPEG_MISC_H /* Miscellaneous helpers */ #ifndef ALIGNED_ATTR #define ALIGNED_ATTR(x) __attribute__((aligned(x))) #endif #include "disk_buf.h" /* Generic states for when things are too simple to care about naming them */ enum state_enum { STATE0 = 0, STATE1, STATE2, STATE3, STATE4, STATE5, STATE6, STATE7, STATE8, STATE9, }; /* Macros for comparing memory bytes to a series of constant bytes in an efficient manner - evaluate to true if corresponding bytes match */ #if defined (CPU_ARM) /* ARM must load 32-bit values at addres % 4 == 0 offsets but this data isn't aligned nescessarily, so just byte compare */ #define CMP_3_CONST(_a, _b) \ ({ int _x; \ asm volatile ( \ BEGIN_ARM_ASM_SYNTAX_UNIFIED \ "ldrb %[x], [%[a], #0] \n" \ "eors %[x], %[x], %[b0] \n" \ "ldrbeq %[x], [%[a], #1] \n" \ "eorseq %[x], %[x], %[b1] \n" \ "ldrbeq %[x], [%[a], #2] \n" \ "eorseq %[x], %[x], %[b2] \n" \ END_ARM_ASM_SYNTAX_UNIFIED \ : [x]"=&r"(_x) \ : [a]"r"(_a), \ [b0]"i"(((_b) >> 24) & 0xff), \ [b1]"i"(((_b) >> 16) & 0xff), \ [b2]"i"(((_b) >> 8) & 0xff) \ ); \ _x == 0; }) #define CMP_4_CONST(_a, _b) \ ({ int _x; \ asm volatile ( \ BEGIN_ARM_ASM_SYNTAX_UNIFIED \ "ldrb %[x], [%[a], #0] \n" \ "eors %[x], %[x], %[b0] \n" \ "ldrbeq %[x], [%[a], #1] \n" \ "eorseq %[x], %[x], %[b1] \n" \ "ldrbeq %[x], [%[a], #2] \n" \ "eorseq %[x], %[x], %[b2] \n" \ "ldrbeq %[x], [%[a], #3] \n" \ "eorseq %[x], %[x], %[b3] \n" \ END_ARM_ASM_SYNTAX_UNIFIED \ : [x]"=&r"(_x) \ : [a]"r"(_a), \ [b0]"i"(((_b) >> 24) & 0xff), \ [b1]"i"(((_b) >> 16) & 0xff), \ [b2]"i"(((_b) >> 8) & 0xff), \ [b3]"i"(((_b) ) & 0xff) \ ); \ _x == 0; }) #elif defined (CPU_COLDFIRE) /* Coldfire can just load a 32 bit value at any offset but ASM is not the best way to integrate this with the C code */ #define CMP_3_CONST(a, b) \ (((*(uint32_t *)(a) >> 8) == ((uint32_t)(b) >> 8))) #define CMP_4_CONST(a, b) \ ((*(uint32_t *)(a) == (b))) #else /* Don't know what this is - use bytewise comparisons */ #define CMP_3_CONST(a, b) \ (( ((a)[0] ^ (((b) >> 24) & 0xff)) | \ ((a)[1] ^ (((b) >> 16) & 0xff)) | \ ((a)[2] ^ (((b) >> 8) & 0xff)) ) == 0) #define CMP_4_CONST(a, b) \ (( ((a)[0] ^ (((b) >> 24) & 0xff)) | \ ((a)[1] ^ (((b) >> 16) & 0xff)) | \ ((a)[2] ^ (((b) >> 8) & 0xff)) | \ ((a)[3] ^ (((b) ) & 0xff)) ) == 0) #endif /* CPU_* */ /** Streams **/ /* Convert PTS/DTS ticks to our clock ticks */ #define TS_TO_TICKS(pts) ((uint64_t)CLOCK_RATE*(pts) / TS_SECOND) /* Convert our clock ticks to PTS/DTS ticks */ #define TICKS_TO_TS(ts) ((uint64_t)TS_SECOND*(ts) / CLOCK_RATE) /* Convert timecode ticks to our clock ticks */ #define TC_TO_TICKS(stamp) ((uint64_t)CLOCK_RATE*(stamp) / TC_SECOND) /* Convert our clock ticks to timecode ticks */ #define TICKS_TO_TC(stamp) ((uint64_t)TC_SECOND*(stamp) / CLOCK_RATE) /* Convert timecode ticks to timestamp ticks */ #define TC_TO_TS(stamp) ((stamp) / 600) /* * S = start position, E = end position * * pos: * initialize to search start position (S) * * len: * initialize to = ABS(S-E) * scanning = remaining bytes in scan direction * * dir: * scan direction; >= 0 == forward, < 0 == reverse * * margin: * amount of data to right of cursor - initialize by stream_scan_normalize * * data: * Extra data used/returned by the function implemented * * Forward scan: * S pos E * | *<-margin->| dir-> * | |<--len--->| * * Reverse scan: * E pos S * |<-len->*<-margin->| <-dir * | | | */ struct stream_scan { off_t pos; /* Initial scan position (file offset) */ ssize_t len; /* Maximum length of scan */ off_t dir; /* Direction - >= 0; forward, < 0 backward */ ssize_t margin; /* Used by function to track margin between position and data end */ intptr_t data; /* */ struct dbuf_l2_cache l2; }; #define SSCAN_REVERSE (-1) #define SSCAN_FORWARD 1 /* Initializes the cursor */ void stream_scan_init(struct stream_scan *sk); /* Ensures direction is -1 or 1 and margin is properly initialized */ void stream_scan_normalize(struct stream_scan *sk); /* Moves a scan cursor. If amount is positive, the increment is in the scan * direction, otherwise opposite the scan direction */ void stream_scan_offset(struct stream_scan *sk, off_t by); /** Time helpers **/ struct hms { unsigned int hrs; unsigned int min; unsigned int sec; unsigned int frac; }; void ts_to_hms(uint32_t ts, struct hms *hms); void hms_format(char *buf, size_t bufsize, struct hms *hms); /** Maths **/ /* Moving average */ #define AVERAGE(var, x, count) \ ({ typeof (count) _c = (count); \ ((var) * (_c-1) + (x)) / (_c); }) /* Multiply two unsigned 32-bit integers yielding a 64-bit result and * divide by another unsigned 32-bit integer to yield a 32-bit result. * Rounds to nearest with saturation. */ uint32_t muldiv_uint32(uint32_t multiplicand, uint32_t multiplier, uint32_t divisor); /** Lists **/ /* Does the list have any members? */ bool list_is_empty(void **list); /* Is the item inserted into a particular list? */ bool list_is_member(void **list, void *item); /* Removes an item from a list - returns true if item was found * and thus removed. */ bool list_remove_item(void **list, void *item); /* Adds a list item, insert last, if not already present. */ void list_add_item(void **list, void *item); /* Clears the entire list. */ void list_clear_all(void **list); /* Enumerate all items in the array. */ typedef bool (*list_enum_callback_t)(void *item, void* data); void list_enum_items(void **list, list_enum_callback_t callback, void *data); /** System events **/ /* Clear event */ void mpeg_sysevent_clear(void); /* Set to ACTION_STD_CANCEL */ void mpeg_sysevent_set(void); /* Get event code */ long mpeg_sysevent(void); /* Call with a system event code and used as menu callback */ int mpeg_sysevent_callback(int btn, const struct menu_item_ex *menu, struct gui_synclist *this_list); /* Handle recorded event */ void mpeg_sysevent_handle(void); /** Buttons **/ /* Get button codes while remembering important events for later * processing; return of ACTION_STD_CANCEL means plugin should * abort and handle the event */ int mpeg_button_get(int timeout); #endif /* MPEG_MISC_H */