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dmtxencodeedifact.c
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dmtxencodeedifact.c
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/**
* libdmtx - Data Matrix Encoding/Decoding Library
* Copyright 2011 Mike Laughton. All rights reserved.
* Copyright 2012-2016 Vadim A. Misbakh-Soloviov. All rights reserved.
*
* See LICENSE file in the main project directory for full
* terms of use and distribution.
*
* Contact:
* Vadim A. Misbakh-Soloviov <[email protected]>
* Mike Laughton <[email protected]>
*
* \file dmtxencodeedifact.c
* \brief Edifact encoding rules
*/
/**
*
*
*/
static void
EncodeNextChunkEdifact(DmtxEncodeStream *stream)
{
DmtxByte value;
if(StreamInputHasNext(stream))
{
value = StreamInputAdvanceNext(stream); CHKERR;
AppendValueEdifact(stream, value); CHKERR;
}
}
/**
*
*
*/
static void
AppendValueEdifact(DmtxEncodeStream *stream, DmtxByte value)
{
DmtxByte edifactValue, previousOutput;
CHKSCHEME(DmtxSchemeEdifact);
if(value < 31 || value > 94)
{
StreamMarkInvalid(stream, DmtxChannelUnsupportedChar);
return;
}
edifactValue = (value & 0x3f) << 2;
switch(stream->outputChainValueCount % 4)
{
case 0:
StreamOutputChainAppend(stream, edifactValue); CHKERR;
break;
case 1:
previousOutput = StreamOutputChainRemoveLast(stream); CHKERR;
StreamOutputChainAppend(stream, previousOutput | (edifactValue >> 6)); CHKERR;
StreamOutputChainAppend(stream, edifactValue << 2); CHKERR;
break;
case 2:
previousOutput = StreamOutputChainRemoveLast(stream); CHKERR;
StreamOutputChainAppend(stream, previousOutput | (edifactValue >> 4)); CHKERR;
StreamOutputChainAppend(stream, edifactValue << 4); CHKERR;
break;
case 3:
previousOutput = StreamOutputChainRemoveLast(stream); CHKERR;
StreamOutputChainAppend(stream, previousOutput | (edifactValue >> 2)); CHKERR;
break;
}
stream->outputChainValueCount++;
}
/**
* Complete EDIFACT encoding if it matches a known end-of-symbol condition.
*
* Term Clean Symbol ASCII Codeword
* Cond Bound Remain Remain Sequence
* ---- ----- ------ ------ -----------
* (a) Y 0 0 [none]
* (b) Y 1 0 PAD
* (c) Y 1 1 ASCII
* (d) Y 2 0 PAD PAD
* (e) Y 2 1 ASCII PAD
* (f) Y 2 2 ASCII ASCII
* - - 0 UNLATCH
*
* If not matching any of the above, continue without doing anything.
*/
static void
CompleteIfDoneEdifact(DmtxEncodeStream *stream, int sizeIdxRequest)
{
int i;
int sizeIdx;
int symbolRemaining;
DmtxBoolean cleanBoundary;
DmtxPassFail passFail;
DmtxByte outputTmpStorage[3];
DmtxByteList outputTmp;
if(stream->status == DmtxStatusComplete)
return;
/*
* If we just completed a triplet (cleanBoundary), 1 or 2 symbol codewords
* remain, and our remaining inputs (if any) represented in ASCII would fit
* in the remaining space, encode them in ASCII with an implicit unlatch.
*/
cleanBoundary = (stream->outputChainValueCount % 4 == 0) ? DmtxTrue : DmtxFalse;
if(cleanBoundary == DmtxTrue)
{
/* Encode up to 3 codewords to a temporary stream */
outputTmp = EncodeTmpRemainingInAscii(stream, outputTmpStorage,
sizeof(outputTmpStorage), &passFail);
if(passFail == DmtxFail)
{
StreamMarkFatal(stream, DmtxErrorUnknown);
return;
}
if(outputTmp.length < 3)
{
/* Find minimum symbol size for projected length */
sizeIdx = FindSymbolSize(stream->output->length + outputTmp.length, sizeIdxRequest); CHKSIZE;
/* Find remaining capacity over current length */
symbolRemaining = GetRemainingSymbolCapacity(stream->output->length, sizeIdx); CHKERR;
if(symbolRemaining < 3 && outputTmp.length <= symbolRemaining)
{
EncodeChangeScheme(stream, DmtxSchemeAscii, DmtxUnlatchImplicit); CHKERR;
for(i = 0; i < outputTmp.length; i++)
{
AppendValueAscii(stream, outputTmp.b[i]); CHKERR;
}
/* Register progress since encoding happened outside normal path */
stream->inputNext = stream->input->length;
/* Pad remaining if necessary */
PadRemainingInAscii(stream, sizeIdx); CHKERR;
StreamMarkComplete(stream, sizeIdx);
return;
}
}
}
if(!StreamInputHasNext(stream))
{
sizeIdx = FindSymbolSize(stream->output->length, sizeIdxRequest); CHKSIZE;
symbolRemaining = GetRemainingSymbolCapacity(stream->output->length, sizeIdx); CHKERR;
/* Explicit unlatch required unless on clean boundary and full symbol */
if(cleanBoundary == DmtxFalse || symbolRemaining > 0)
{
EncodeChangeScheme(stream, DmtxSchemeAscii, DmtxUnlatchExplicit); CHKERR;
sizeIdx = FindSymbolSize(stream->output->length, sizeIdxRequest); CHKSIZE;
PadRemainingInAscii(stream, sizeIdx); CHKERR;
}
StreamMarkComplete(stream, sizeIdx);
}
}