notepad-plus-plus/scintilla/lexers/LexX12.cxx

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// Scintilla Lexer for X12
// @file LexX12.cxx
// Written by Iain Clarke, IMCSoft & Inobiz AB.
// X12 official documentation is behind a paywall, but there's a description of the syntax here:
// http://www.rawlinsecconsulting.com/x12tutorial/x12syn.html
// This code is subject to the same license terms as the rest of the scintilla project:
// The License.txt file describes the conditions under which this software may be distributed.
//
// Header order must match order in scripts/HeaderOrder.txt
#include <cstdlib>
#include <cassert>
#include <cstring>
#include <cctype>
#include <vector>
#include <algorithm>
#include "ILexer.h"
#include "Scintilla.h"
#include "SciLexer.h"
#include "LexerModule.h"
#include "DefaultLexer.h"
using namespace Scintilla;
class LexerX12 : public DefaultLexer
{
public:
LexerX12();
virtual ~LexerX12() {} // virtual destructor, as we inherit from ILexer
static ILexer5 *Factory() {
return new LexerX12;
}
int SCI_METHOD Version() const override
{
return lvRelease5;
}
void SCI_METHOD Release() override
{
delete this;
}
const char * SCI_METHOD PropertyNames() override
{
return "fold";
}
int SCI_METHOD PropertyType(const char *) override
{
return SC_TYPE_BOOLEAN; // Only one property!
}
const char * SCI_METHOD DescribeProperty(const char *name) override
{
if (!strcmp(name, "fold"))
return "Whether to apply folding to document or not";
return NULL;
}
Sci_Position SCI_METHOD PropertySet(const char *key, const char *val) override
{
if (!strcmp(key, "fold"))
{
m_bFold = strcmp(val, "0") ? true : false;
return 0;
}
return -1;
}
const char * SCI_METHOD PropertyGet(const char *) override {
return "";
}
const char * SCI_METHOD DescribeWordListSets() override
{
return NULL;
}
Sci_Position SCI_METHOD WordListSet(int, const char *) override
{
return -1;
}
void SCI_METHOD Lex(Sci_PositionU startPos, Sci_Position length, int initStyle, IDocument *pAccess) override;
void SCI_METHOD Fold(Sci_PositionU startPos, Sci_Position length, int initStyle, IDocument *pAccess) override;
void * SCI_METHOD PrivateCall(int, void *) override
{
return NULL;
}
protected:
struct Terminator
{
int Style = SCE_X12_BAD;
Sci_PositionU pos = 0;
Sci_PositionU length = 0;
int FoldChange = 0;
};
Terminator InitialiseFromISA(IDocument *pAccess);
Sci_PositionU FindPreviousSegmentStart(IDocument *pAccess, Sci_Position startPos) const;
Terminator DetectSegmentHeader(IDocument *pAccess, Sci_PositionU pos) const;
Terminator FindNextTerminator(IDocument *pAccess, Sci_PositionU pos, bool bJustSegmentTerminator = false) const;
bool m_bFold;
char m_chSubElement;
char m_chElement;
char m_chSegment[3]; // might be CRLF
};
LexerModule lmX12(SCLEX_X12, LexerX12::Factory, "x12");
///////////////////////////////////////////////////////////////////////////////
///////////////////////////////////////////////////////////////////////////////
LexerX12::LexerX12() : DefaultLexer("x12", SCLEX_X12)
{
m_bFold = false;
m_chSegment[0] = m_chSegment[1] = m_chSegment[2] = m_chElement = m_chSubElement = 0;
}
void LexerX12::Lex(Sci_PositionU startPos, Sci_Position length, int, IDocument *pAccess)
{
Sci_PositionU posFinish = startPos + length;
Terminator T = InitialiseFromISA(pAccess);
if (T.Style == SCE_X12_BAD)
{
if (T.pos < startPos)
T.pos = startPos; // we may be colouring in batches.
pAccess->StartStyling(startPos);
pAccess->SetStyleFor(T.pos - startPos, SCE_X12_ENVELOPE);
pAccess->SetStyleFor(posFinish - T.pos, SCE_X12_BAD);
return;
}
// Look backwards for a segment start or a document beginning
Sci_PositionU posCurrent = FindPreviousSegmentStart (pAccess, startPos);
// Style buffer, so we're not issuing loads of notifications
pAccess->StartStyling(posCurrent);
while (posCurrent < posFinish)
{
// Look for first element marker, so we can denote segment
T = DetectSegmentHeader(pAccess, posCurrent);
if (T.Style == SCE_X12_BAD)
break;
pAccess->SetStyleFor(T.pos - posCurrent, T.Style);
pAccess->SetStyleFor(T.length, SCE_X12_SEP_ELEMENT);
posCurrent = T.pos + T.length;
while (T.Style != SCE_X12_BAD && T.Style != SCE_X12_SEGMENTEND) // Break on bad or segment ending
{
T = FindNextTerminator(pAccess, posCurrent);
if (T.Style == SCE_X12_BAD)
break;
int Style = T.Style;
if (T.Style == SCE_X12_SEGMENTEND && m_chSegment[0] == '\r') // don't style cr/crlf
Style = SCE_X12_DEFAULT;
pAccess->SetStyleFor(T.pos - posCurrent, SCE_X12_DEFAULT);
pAccess->SetStyleFor(T.length, Style);
posCurrent = T.pos + T.length;
}
if (T.Style == SCE_X12_BAD)
break;
}
pAccess->SetStyleFor(posFinish - posCurrent, SCE_X12_BAD);
}
void LexerX12::Fold(Sci_PositionU startPos, Sci_Position length, int, IDocument *pAccess)
{
if (!m_bFold)
return;
// Are we even foldable?
if (m_chSegment[0] != '\r' && m_chSegment[0] != '\n') // check for cr,lf,cr+lf.
return;
Sci_PositionU posFinish = startPos + length;
// Look backwards for a segment start or a document beginning
startPos = FindPreviousSegmentStart(pAccess, startPos);
Terminator T;
Sci_PositionU currLine = pAccess->LineFromPosition(startPos);
int levelCurrentStyle = SC_FOLDLEVELBASE;
if (currLine > 0)
levelCurrentStyle = pAccess->GetLevel(currLine - 1); // bottom 12 bits are level
int indentCurrent = levelCurrentStyle & (SC_FOLDLEVELBASE - 1);
while (startPos < posFinish)
{
T = DetectSegmentHeader(pAccess, startPos);
int indentNext = indentCurrent + T.FoldChange;
if (indentNext < 0)
indentNext = 0;
levelCurrentStyle = (T.FoldChange > 0) ? (SC_FOLDLEVELBASE | SC_FOLDLEVELHEADERFLAG) : SC_FOLDLEVELBASE;
currLine = pAccess->LineFromPosition(startPos);
pAccess->SetLevel(currLine, levelCurrentStyle | indentCurrent);
T = FindNextTerminator(pAccess, startPos, true);
startPos = T.pos + T.length;
indentCurrent = indentNext;
}
}
LexerX12::Terminator LexerX12::InitialiseFromISA(IDocument *pAccess)
{
Sci_Position length = pAccess->Length();
char c;
if (length <= 106)
return { SCE_X12_BAD, 0 };
pAccess->GetCharRange(&m_chElement, 3, 1);
pAccess->GetCharRange(&m_chSubElement, 104, 1);
pAccess->GetCharRange(m_chSegment, 105, 1);
if (m_chSegment[0] == '\r') // are we CRLF?
{
pAccess->GetCharRange(&c, 106, 1);
if (c == '\n')
m_chSegment[1] = c;
}
// Validate we have an element separator, and it's not silly!
if (m_chElement == '\0' || m_chElement == '\n' || m_chElement == '\r')
return { SCE_X12_BAD, 3 };
// Validate we have an element separator, and it's not silly!
if (m_chSubElement == '\0' || m_chSubElement == '\n' || m_chSubElement == '\r')
return { SCE_X12_BAD, 103 };
if (m_chElement == m_chSubElement)
return { SCE_X12_BAD, 104 };
if (m_chElement == m_chSegment[0])
return { SCE_X12_BAD, 105 };
if (m_chSubElement == m_chSegment[0])
return { SCE_X12_BAD, 104 };
// Check we have element markers at all the right places! ISA element has fixed entries.
std::vector<Sci_PositionU> ElementMarkers = { 3, 6, 17, 20, 31, 34, 50, 53, 69, 76, 81, 83, 89, 99, 101, 103 };
for (auto i : ElementMarkers)
{
pAccess->GetCharRange(&c, i, 1);
if (c != m_chElement)
return { SCE_X12_BAD, i };
}
// Check we have no element markers anywhere else!
for (Sci_PositionU i = 0; i < 105; i++)
{
if (std::find(ElementMarkers.begin(), ElementMarkers.end(), i) != ElementMarkers.end())
continue;
pAccess->GetCharRange(&c, i, 1);
if (c == m_chElement)
return { SCE_X12_BAD, i };
}
return { SCE_X12_ENVELOPE };
}
Sci_PositionU LexerX12::FindPreviousSegmentStart(IDocument *pAccess, Sci_Position startPos) const
{
char c;
for ( ; startPos > 0; startPos--)
{
pAccess->GetCharRange(&c, startPos, 1);
if (c != m_chSegment[0])
continue;
// we've matched one - if this is not crlf we're done.
if (!m_chSegment[1])
return startPos + 1;
pAccess->GetCharRange(&c, startPos+1, 1);
if (c == m_chSegment[1])
return startPos + 2;
}
// We didn't find a ', so just go with the beginning
return 0;
}
LexerX12::Terminator LexerX12::DetectSegmentHeader(IDocument *pAccess, Sci_PositionU pos) const
{
Sci_PositionU posStart = pos;
Sci_Position Length = pAccess->Length();
char Buf[6] = { 0 };
while (pos - posStart < 5 && pos < (Sci_PositionU)Length)
{
pAccess->GetCharRange(Buf + pos - posStart, pos, 1);
if (Buf [pos - posStart] != m_chElement) // more?
{
pos++;
continue;
}
if (strcmp(Buf, "ISA*") == 0)
return { SCE_X12_ENVELOPE, pos, 1, +1 };
if (strcmp(Buf, "IEA*") == 0)
return { SCE_X12_ENVELOPE, pos, 1, -1 };
if (strcmp(Buf, "GS*") == 0)
return { SCE_X12_FUNCTIONGROUP, pos, 1, +1 };
if (strcmp(Buf, "GE*") == 0)
return { SCE_X12_FUNCTIONGROUP, pos, 1, -1 };
if (strcmp(Buf, "ST*") == 0)
return { SCE_X12_TRANSACTIONSET, pos, 1, +1 };
if (strcmp(Buf, "SE*") == 0)
return { SCE_X12_TRANSACTIONSET, pos, 1, -1 };
return { SCE_X12_SEGMENTHEADER, pos, 1, 0 };
}
return { SCE_X12_BAD, pos, 0, 0 };
}
LexerX12::Terminator LexerX12::FindNextTerminator(IDocument *pAccess, Sci_PositionU pos, bool bJustSegmentTerminator) const
{
char c;
Sci_Position Length = pAccess->Length();
while (pos < (Sci_PositionU)Length)
{
pAccess->GetCharRange(&c, pos, 1);
if (!bJustSegmentTerminator && c == m_chElement)
return { SCE_X12_SEP_ELEMENT, pos, 1 };
else if (!bJustSegmentTerminator && c == m_chSubElement)
return { SCE_X12_SEP_SUBELEMENT, pos, 1 };
else if (c == m_chSegment[0])
{
if (!m_chSegment[1])
return { SCE_X12_SEGMENTEND, pos, 1 };
pos++;
if (pos >= (Sci_PositionU)Length)
break;
pAccess->GetCharRange(&c, pos, 1);
if (c == m_chSegment[1])
return { SCE_X12_SEGMENTEND, pos-1, 2 };
}
pos++;
}
return { SCE_X12_BAD, pos };
}