windows-nt/Source/XPSP1/NT/enduser/stuff/itss/lzx/encoder/io.c

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2020-09-26 03:20:57 -05:00
/*
* io.c
*/
#include "encoder.h"
/*
* Similar to the optimisation we have for the decoder.
*
* Allow the encoder to "overrun" output buffer by up to X bytes
* so that we don't have to check for the end of the buffer every
* single time we call outbits() in encdata.c
*/
#define OUTPUT_EXTRA_BYTES 64
static void encoder_translate_e8(t_encoder_context *context, byte *mem, long bytes);
void output_bits(t_encoder_context *context, int n, ulong x)
{
context->enc_bitbuf |= (((ulong) x) << (context->enc_bitcount - n));
context->enc_bitcount -= (signed char) n;
while (context->enc_bitcount <= 16)
{
if (context->enc_output_buffer_curpos >= context->enc_output_buffer_end)
{
context->enc_output_overflow = true;
context->enc_output_buffer_curpos = context->enc_output_buffer_start;
}
*context->enc_output_buffer_curpos++ = (byte) ((context->enc_bitbuf >> 16) & 255);
*context->enc_output_buffer_curpos++ = (byte) (context->enc_bitbuf >> 24);
context->enc_bitbuf <<= 16;
context->enc_bitcount += 16;
}
}
/*
* Initialises output buffering
*/
bool init_compressed_output_buffer(t_encoder_context *context)
{
if (!(context->enc_output_buffer_start = (byte *) context->enc_malloc(OUTPUT_BUFFER_SIZE)))
return false;
context->enc_output_buffer_curpos = context->enc_output_buffer_start;
context->enc_output_buffer_end =
context->enc_output_buffer_start+(OUTPUT_BUFFER_SIZE-OUTPUT_EXTRA_BYTES);
return true;
}
void free_compressed_output_buffer(t_encoder_context *context)
{
if (context->enc_output_buffer_start)
{
context->enc_free(context->enc_output_buffer_start);
context->enc_output_buffer_start = NULL;
}
}
void reset_translation(t_encoder_context *context)
{
context->enc_instr_pos = 0;
}
static long read_input_data(t_encoder_context *context, byte *mem, long amount)
{
if (amount <= context->enc_input_left)
{
memcpy(mem, context->enc_input_ptr, amount);
context->enc_input_left -= amount;
context->enc_input_ptr += amount;
return amount;
}
else
{
long bytes_read;
if (context->enc_input_left <= 0)
return 0;
bytes_read = context->enc_input_left;
memcpy(mem, context->enc_input_ptr, context->enc_input_left);
context->enc_input_ptr += context->enc_input_left;
context->enc_input_left = 0;
return bytes_read;
}
}
long comp_read_input(t_encoder_context *context, ulong BufPos, long Size)
{
long bytes_read;
if (Size <= 0)
return 0;
bytes_read = read_input_data(
context,
&context->enc_RealMemWindow[BufPos],
Size
);
if (bytes_read < 0)
return 0;
/*
* If no translation being performed for this file
*/
if (context->enc_file_size_for_translation == 0 ||
context->enc_num_cfdata_frames >= E8_CFDATA_FRAME_THRESHOLD)
{
context->enc_num_cfdata_frames++;
return bytes_read;
}
encoder_translate_e8(
context,
&context->enc_RealMemWindow[BufPos],
bytes_read
);
context->enc_num_cfdata_frames++;
return bytes_read;
}
static void encoder_translate_e8(t_encoder_context *context, byte *mem, long bytes)
{
long offset;
long absolute;
ulong end_instr_pos;
byte temp[6];
byte *mem_backup;
if (bytes <= 6)
{
context->enc_instr_pos += bytes;
return;
}
mem_backup = mem;
/* backup these bytes */
memcpy(temp, &mem[bytes-6], 6);
/* overwrite them with 0xE8 */
memset(&mem[bytes-6], 0xE8, 6);
end_instr_pos = context->enc_instr_pos + bytes - 6;
while (1)
{
while (*mem++ != 0xE8)
context->enc_instr_pos++;
if (context->enc_instr_pos >= end_instr_pos)
break;
#if defined(_X86_)
offset = *(long *) mem;
#else
offset = (long) (
((ulong) mem[0]) |
(((ulong) mem[1])<<8) |
(((ulong) mem[2])<<16) |
(((ulong) mem[3])<<24)
);
#endif
absolute = context->enc_instr_pos + offset;
if (absolute >= 0)
{
if ((ulong) absolute < context->enc_file_size_for_translation+context->enc_instr_pos)
{
if ((ulong) absolute >= context->enc_file_size_for_translation)
absolute = offset - context->enc_file_size_for_translation;
#if defined(_X86_)
*(ulong *) mem = (ulong) absolute;
#else
mem[0] = (byte) ((ulong) absolute & 255);
mem[1] = (byte) (( ((ulong) absolute) >> 8) & 255);
mem[2] = (byte) (( ((ulong) absolute) >> 16) & 255);
mem[3] = (byte) (( ((ulong) absolute) >> 24) & 255);
#endif
}
}
mem += 4;
context->enc_instr_pos += 5;
}
/* restore the bytes */
memcpy(&mem_backup[bytes-6], temp, 6);
context->enc_instr_pos = end_instr_pos + 6;
}