Source code of Windows XP (NT5)
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/* Copyright (c) 1997 Microsoft Corporation. All Rights Reserved. */
#ifndef __CCDECODE_H
#define __CCDECODE_H
typedef struct cc_state_struct CCState;
typedef struct cc_line_stats_struct CCLineStats;
/* Create a new "CC Decoder state".
A separate CC state should be maintained for each separate
simultaneous source to the CC filter (i.e., each channel). (If
different lines of CC are known to come from different inserters,
better results may be possible by keeping a separate CC state for
each line, at the cost of more CPU and memory overhead. This
shouldn't be necessary under normal circumstances.)
CCStartRetrain(fDiscardOld = TRUE) is implicitly called upon
creation of a new state.
Returns NULL on error.
*/
CCState *CCStateNew(CCState *mem);
/* Destroys a CC state */
void CCStateDestroy(CCState *pState);
struct cc_state_struct {
unsigned short magic; // Magic number; used for validity test
unsigned short no_free; // Memory for this was pre-allocated; don't free
unsigned long period; // # of samples per bit at the current sampling rate
unsigned long lastFreq; // The last sampling frequency computed
int cc_sync_points[16];
};
#define CC_STATE_MAGIC_10 0xCC01
#define MCHECK(pState) (pState->magic == CC_STATE_MAGIC_10)
#define MASSERT(pState) ASSERT(pState && MCHECK(pState))
/* The period of the CC samples is CCState.period/CC_MULTIPLE. (This can
be thought of as representing the period in fixed-point, with two
digits after the decimal point. If we rounded this off to the nearest
integral number of samples, the inaccuracy would accumulate unacceptably
as we scanned across the scanline.) */
#define CC_MULTIPLE 8
/* Dereference a block of CC samples, taking CC_MULTIPLE into account. */
#define CC_DATA(x, y) ((x)[(y)/CC_MULTIPLE])
/* Tells the CC decoder to initiate a "fast retrain". This is useful
if you suspect that conditions have changed sufficiently to be
worth a CPU hit. If the fDiscardOld flag is TRUE, then the old
trained state is discarded; this would be used on channel changes,
for instance. If the fDiscardOld flag is FALSE, then the
retraining is cumulative on the previous training. (Is this
useful?) */
void CCStartRetrain(CCState *pState, BOOL fDiscardOld);
/*
* Inputs:
* pbSamples: pointer to 8-bit raw VBI samples
* pState: CCState to use for decoding
*
* Outputs:
* pbDest: decoded data (2 bytes long)
* Note that "standard" CC (as specified in EIA-608) uses 7 data bits
* and 1 parity bit. This function does not check or remove the parity
* bits, for increased flexibility with nonstandard CC lines.
* pLineStats: stats on decoded data
*
* Errors:
*
* Returns 0 if no error
* Returns CC_ERROR_ILLEGAL_STATE if state is illegal or uses
* unsupported settings
* Returns CC_ERROR_ILLEGAL_STATS if stats is passed incorrectly
* Returns CC_ERROR_ILLEGAL_VBIINFOHEADER if vbi info header is invalid
*
* Notes:
* pbDest must point to a buffer at least 2 bytes long
* pLineStats->nSize must be set to sizeof(*pLineStats) prior to call
* (so that the decoder can signal an error if CCLineStats changes
* incompatibly)
*/
int CCDecodeLine(unsigned char *pbDest, CCLineStats *pLineStats,
unsigned char *pbSamples, CCState *pState,
PKS_VBIINFOHEADER pVBIINFO);
enum cc_errors {CC_OK, CC_ERROR_ILLEGAL_STATE, CC_ERROR_ILLEGAL_STATS,
CC_ERROR_ILLEGAL_VBIINFOHEADER};
struct cc_line_stats_struct {
int nSize; /* Should be set to the size of this structure.
Used to maintain backwards compatibility as we add fields */
int nConfidence; /* Set to 0-100 as a measure of expected reliability.
Low numbers are caused either by a noisy signal, or
if the line is in fact not CC */
int nFirstBit; /* The position of the center of
the first sync bit sample */
int nDC; /* the calculated DC offset used to threshold samples.
This is dependent on the current way we decode CC
and may not be used in the future */
int bCheckBits; /* The CC standard specifies that there are 3 bits whose
values are fixed. This is a 3-bit number which
says how those 3 bits were decoded; it should always
be equal to 4. (If this field is not set to 4, then
either the line was very noisy, and probably not
decoded correctly, or it is not CC data at all.) */
int nBitVals[19]; /* debugging */
};
#endif /*__CCDECODE_H*/