/* SSDV - Slow Scan Digital Video */
/*=======================================================================*/
/* Copyright 2011-2012 Philip Heron . */
#include
#ifndef INC_SSDV_H
#define INC_SSDV_H
#define SSDV_ERROR (-1)
#define SSDV_OK (0)
#define SSDV_FEED_ME (1)
#define SSDV_HAVE_PACKET (2)
#define SSDV_BUFFER_FULL (3)
#define SSDV_EOI (4)
/* Packet details */
#define SSDV_PKT_SIZE (0x100)
#define SSDV_PKT_SIZE_HEADER (0x0F)
#define SSDV_PKT_SIZE_CRC (0x04)
#define SSDV_PKT_SIZE_RSCODES (0x20)
#define SSDV_PKT_SIZE_PAYLOAD (SSDV_PKT_SIZE - SSDV_PKT_SIZE_HEADER - SSDV_PKT_SIZE_CRC - SSDV_PKT_SIZE_RSCODES)
#define SSDV_PKT_SIZE_CRCDATA (SSDV_PKT_SIZE_HEADER + SSDV_PKT_SIZE_PAYLOAD - 1)
#define TBL_LEN (546) /* Maximum size of the DQT and DHT tables */
#define HBUFF_LEN (16) /* Extra space for reading marker data */
//#define COMPONENTS (3)
typedef struct
{
/* Image information */
uint16_t width;
uint16_t height;
uint32_t callsign;
uint8_t image_id;
uint16_t packet_id;
uint8_t mcu_mode; /* 0 = 2x2, 1 = 2x1, 2 = 1x2, 3 = 1x1 */
uint16_t mcu_id;
uint16_t mcu_count;
uint16_t packet_mcu_id;
uint8_t packet_mcu_offset;
/* Source buffer */
uint8_t *inp; /* Pointer to next input byte */
size_t in_len; /* Number of input bytes remaining */
size_t in_skip; /* Number of input bytes to skip */
/* Source bits */
uint32_t workbits; /* Input bits currently being worked on */
uint8_t worklen; /* Number of bits in the input bit buffer */
/* JPEG / Packet output buffer */
uint8_t *out; /* Pointer to the beginning of the output buffer */
uint8_t *outp; /* Pointer to the next output byte */
size_t out_len; /* Number of output bytes remaining */
/* Output bits */
uint32_t outbits; /* Output bit buffer */
uint8_t outlen; /* Number of bits in the output bit buffer */
/* JPEG decoder state */
enum {
S_MARKER = 0,
S_MARKER_LEN,
S_MARKER_DATA,
S_HUFF,
S_INT,
S_EOI,
} state;
uint16_t marker; /* Current marker */
uint16_t marker_len; /* Length of data following marker */
uint8_t *marker_data; /* Where to copy marker data too */
uint16_t marker_data_len; /* How much is there */
uint8_t component; /* 0 = Y, 1 = Cb, 2 = Cr */
uint8_t ycparts; /* Number of Y component parts per MCU */
uint8_t mcupart; /* 0-3 = Y, 4 = Cb, 5 = Cr */
uint8_t acpart; /* 0 - 64; 0 = DC, 1 - 64 = AC */
int dc[3]; /* DC value for each component */
int adc[3]; /* DC adjusted value for each component */
uint8_t acrle; /* RLE value for current AC value */
uint8_t accrle; /* Accumulative RLE value */
uint16_t dri; /* Reset interval */
uint32_t reset_mcu; /* MCU block to do absolute encoding */
char needbits; /* Number of bits needed to decode integer */
/* The input huffman and quantisation tables */
uint8_t stbls[TBL_LEN + HBUFF_LEN];
uint8_t *sdht[2][2], *sdqt[2];
uint16_t stbl_len;
/* The same for output */
uint8_t dtbls[TBL_LEN];
uint8_t *ddht[2][2], *ddqt[2];
uint16_t dtbl_len;
} ssdv_t;
/* Encoding */
extern char ssdv_enc_init(ssdv_t *s, char *callsign, uint8_t image_id);
extern char ssdv_enc_set_buffer(ssdv_t *s, uint8_t *buffer);
extern char ssdv_enc_get_packet(ssdv_t *s);
extern char ssdv_enc_feed(ssdv_t *s, uint8_t *buffer, size_t length);
#endif