/usr/include/dxflib/dl_dxf.h is in libdxflib-dev 3.12.2-1.
This file is owned by root:root, with mode 0o644.
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** Copyright (C) 2001-2013 RibbonSoft, GmbH. All rights reserved.
**
** This file is part of the dxflib project.
**
** This file is free software; you can redistribute it and/or modify
** it under the terms of the GNU General Public License as published by
** the Free Software Foundation; either version 2 of the License, or
** (at your option) any later version.
**
** Licensees holding valid dxflib Professional Edition licenses may use
** this file in accordance with the dxflib Commercial License
** Agreement provided with the Software.
**
** This file is provided AS IS with NO WARRANTY OF ANY KIND, INCLUDING THE
** WARRANTY OF DESIGN, MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE.
**
** See http://www.ribbonsoft.com for further details.
**
** Contact info@ribbonsoft.com if any conditions of this licensing are
** not clear to you.
**
**********************************************************************/
#ifndef DL_DXF_H
#define DL_DXF_H
#include "dl_global.h"
#include <limits>
#include <stdio.h>
#include <stdlib.h>
#include <string>
#include <sstream>
#include <map>
#include "dl_attributes.h"
#include "dl_codes.h"
#include "dl_entities.h"
#include "dl_writer_ascii.h"
#ifdef _WIN32
#undef M_PI
#define M_PI 3.14159265358979323846
#pragma warning(disable : 4800)
#endif
#ifndef M_PI
#define M_PI 3.1415926535897932384626433832795
#endif
#ifndef DL_NANDOUBLE
#define DL_NANDOUBLE std::numeric_limits<double>::quiet_NaN()
#endif
class DL_CreationInterface;
class DL_WriterA;
#define DL_VERSION "3.12.2.0"
#define DL_VERSION_MAJOR 3
#define DL_VERSION_MINOR 12
#define DL_VERSION_REV 2
#define DL_VERSION_BUILD 0
#define DL_UNKNOWN 0
#define DL_LAYER 10
#define DL_BLOCK 11
#define DL_ENDBLK 12
#define DL_LINETYPE 13
#define DL_STYLE 20
#define DL_SETTING 50
#define DL_ENTITY_POINT 100
#define DL_ENTITY_LINE 101
#define DL_ENTITY_POLYLINE 102
#define DL_ENTITY_LWPOLYLINE 103
#define DL_ENTITY_VERTEX 104
#define DL_ENTITY_SPLINE 105
#define DL_ENTITY_KNOT 106
#define DL_ENTITY_CONTROLPOINT 107
#define DL_ENTITY_ARC 108
#define DL_ENTITY_CIRCLE 109
#define DL_ENTITY_ELLIPSE 110
#define DL_ENTITY_INSERT 111
#define DL_ENTITY_TEXT 112
#define DL_ENTITY_MTEXT 113
#define DL_ENTITY_DIMENSION 114
#define DL_ENTITY_LEADER 115
#define DL_ENTITY_HATCH 116
#define DL_ENTITY_ATTRIB 117
#define DL_ENTITY_IMAGE 118
#define DL_ENTITY_IMAGEDEF 119
#define DL_ENTITY_TRACE 120
#define DL_ENTITY_SOLID 121
#define DL_ENTITY_3DFACE 122
#define DL_ENTITY_XLINE 123
#define DL_ENTITY_RAY 124
#define DL_ENTITY_SEQEND 125
#define DL_XRECORD 200
#define DL_DICTIONARY 210
/**
* Reading and writing of DXF files.
*
* This class can read in a DXF file and calls methods from the
* interface DL_EntityContainer to add the entities to the
* contianer provided by the user of the library.
*
* It can also be used to write DXF files to a certain extent.
*
* When saving entities, special values for colors and linetypes
* can be used:
*
* Special colors are 0 (=BYBLOCK) and 256 (=BYLAYER).
* Special linetypes are "BYLAYER" and "BYBLOCK".
*
* @author Andrew Mustun
*/
class DXFLIB_EXPORT DL_Dxf {
public:
DL_Dxf();
~DL_Dxf();
bool in(const std::string& file,
DL_CreationInterface* creationInterface);
bool readDxfGroups(FILE* fp,
DL_CreationInterface* creationInterface);
static bool getStrippedLine(std::string& s, unsigned int size,
FILE* stream, bool stripSpace = true);
bool readDxfGroups(std::stringstream& stream,
DL_CreationInterface* creationInterface);
bool in(std::stringstream &stream,
DL_CreationInterface* creationInterface);
static bool getStrippedLine(std::string& s, unsigned int size,
std::stringstream& stream, bool stripSpace = true);
static bool stripWhiteSpace(char** s, bool stripSpaces = true);
bool processDXFGroup(DL_CreationInterface* creationInterface,
int groupCode, const std::string& groupValue);
void addSetting(DL_CreationInterface* creationInterface);
void addLayer(DL_CreationInterface* creationInterface);
void addLinetype(DL_CreationInterface *creationInterface);
void addBlock(DL_CreationInterface* creationInterface);
void endBlock(DL_CreationInterface* creationInterface);
void addTextStyle(DL_CreationInterface* creationInterface);
void addPoint(DL_CreationInterface* creationInterface);
void addLine(DL_CreationInterface* creationInterface);
void addXLine(DL_CreationInterface* creationInterface);
void addRay(DL_CreationInterface* creationInterface);
void addPolyline(DL_CreationInterface* creationInterface);
void addVertex(DL_CreationInterface* creationInterface);
void addSpline(DL_CreationInterface* creationInterface);
void addArc(DL_CreationInterface* creationInterface);
void addCircle(DL_CreationInterface* creationInterface);
void addEllipse(DL_CreationInterface* creationInterface);
void addInsert(DL_CreationInterface* creationInterface);
void addTrace(DL_CreationInterface* creationInterface);
void add3dFace(DL_CreationInterface* creationInterface);
void addSolid(DL_CreationInterface* creationInterface);
void addMText(DL_CreationInterface* creationInterface);
void addText(DL_CreationInterface* creationInterface);
void addAttribute(DL_CreationInterface* creationInterface);
DL_DimensionData getDimData();
void addDimLinear(DL_CreationInterface* creationInterface);
void addDimAligned(DL_CreationInterface* creationInterface);
void addDimRadial(DL_CreationInterface* creationInterface);
void addDimDiametric(DL_CreationInterface* creationInterface);
void addDimAngular(DL_CreationInterface* creationInterface);
void addDimAngular3P(DL_CreationInterface* creationInterface);
void addDimOrdinate(DL_CreationInterface* creationInterface);
void addLeader(DL_CreationInterface* creationInterface);
void addHatch(DL_CreationInterface* creationInterface);
void addHatchLoop();
void addHatchEdge();
bool handleHatchData(DL_CreationInterface* creationInterface);
void addImage(DL_CreationInterface* creationInterface);
void addImageDef(DL_CreationInterface* creationInterface);
void addComment(DL_CreationInterface* creationInterface, const std::string& comment);
void addDictionary(DL_CreationInterface* creationInterface);
void addDictionaryEntry(DL_CreationInterface* creationInterface);
bool handleXRecordData(DL_CreationInterface* creationInterface);
bool handleDictionaryData(DL_CreationInterface* creationInterface);
bool handleXData(DL_CreationInterface *creationInterface);
bool handleMTextData(DL_CreationInterface* creationInterface);
bool handleLWPolylineData(DL_CreationInterface* creationInterface);
bool handleSplineData(DL_CreationInterface* creationInterface);
bool handleLeaderData(DL_CreationInterface* creationInterface);
bool handleLinetypeData(DL_CreationInterface* creationInterface);
void endEntity(DL_CreationInterface* creationInterface);
void endSequence(DL_CreationInterface* creationInterface);
//int stringToInt(const char* s, bool* ok=NULL);
DL_WriterA* out(const char* file,
DL_Codes::version version=DL_VERSION_2000);
void writeHeader(DL_WriterA& dw);
void writePoint(DL_WriterA& dw,
const DL_PointData& data,
const DL_Attributes& attrib);
void writeLine(DL_WriterA& dw,
const DL_LineData& data,
const DL_Attributes& attrib);
void writeXLine(DL_WriterA& dw,
const DL_XLineData& data,
const DL_Attributes& attrib);
void writeRay(DL_WriterA& dw,
const DL_RayData& data,
const DL_Attributes& attrib);
void writePolyline(DL_WriterA& dw,
const DL_PolylineData& data,
const DL_Attributes& attrib);
void writeVertex(DL_WriterA& dw,
const DL_VertexData& data);
void writePolylineEnd(DL_WriterA& dw);
void writeSpline(DL_WriterA& dw,
const DL_SplineData& data,
const DL_Attributes& attrib);
void writeControlPoint(DL_WriterA& dw,
const DL_ControlPointData& data);
void writeFitPoint(DL_WriterA& dw,
const DL_FitPointData& data);
void writeKnot(DL_WriterA& dw,
const DL_KnotData& data);
void writeCircle(DL_WriterA& dw,
const DL_CircleData& data,
const DL_Attributes& attrib);
void writeArc(DL_WriterA& dw,
const DL_ArcData& data,
const DL_Attributes& attrib);
void writeEllipse(DL_WriterA& dw,
const DL_EllipseData& data,
const DL_Attributes& attrib);
void writeSolid(DL_WriterA& dw,
const DL_SolidData& data,
const DL_Attributes& attrib);
void writeTrace(DL_WriterA& dw,
const DL_TraceData& data,
const DL_Attributes& attrib);
void write3dFace(DL_WriterA& dw,
const DL_3dFaceData& data,
const DL_Attributes& attrib);
void writeInsert(DL_WriterA& dw,
const DL_InsertData& data,
const DL_Attributes& attrib);
void writeMText(DL_WriterA& dw,
const DL_MTextData& data,
const DL_Attributes& attrib);
void writeText(DL_WriterA& dw,
const DL_TextData& data,
const DL_Attributes& attrib);
void writeAttribute(DL_WriterA& dw,
const DL_AttributeData& data,
const DL_Attributes& attrib);
void writeDimStyleOverrides(DL_WriterA& dw,
const DL_DimensionData& data);
void writeDimAligned(DL_WriterA& dw,
const DL_DimensionData& data,
const DL_DimAlignedData& edata,
const DL_Attributes& attrib);
void writeDimLinear(DL_WriterA& dw,
const DL_DimensionData& data,
const DL_DimLinearData& edata,
const DL_Attributes& attrib);
void writeDimRadial(DL_WriterA& dw,
const DL_DimensionData& data,
const DL_DimRadialData& edata,
const DL_Attributes& attrib);
void writeDimDiametric(DL_WriterA& dw,
const DL_DimensionData& data,
const DL_DimDiametricData& edata,
const DL_Attributes& attrib);
void writeDimAngular(DL_WriterA& dw,
const DL_DimensionData& data,
const DL_DimAngularData& edata,
const DL_Attributes& attrib);
void writeDimAngular3P(DL_WriterA& dw,
const DL_DimensionData& data,
const DL_DimAngular3PData& edata,
const DL_Attributes& attrib);
void writeDimOrdinate(DL_WriterA& dw,
const DL_DimensionData& data,
const DL_DimOrdinateData& edata,
const DL_Attributes& attrib);
void writeLeader(DL_WriterA& dw,
const DL_LeaderData& data,
const DL_Attributes& attrib);
void writeLeaderVertex(DL_WriterA& dw,
const DL_LeaderVertexData& data);
void writeHatch1(DL_WriterA& dw,
const DL_HatchData& data,
const DL_Attributes& attrib);
void writeHatch2(DL_WriterA& dw,
const DL_HatchData& data,
const DL_Attributes& attrib);
void writeHatchLoop1(DL_WriterA& dw,
const DL_HatchLoopData& data);
void writeHatchLoop2(DL_WriterA& dw,
const DL_HatchLoopData& data);
void writeHatchEdge(DL_WriterA& dw,
const DL_HatchEdgeData& data);
int writeImage(DL_WriterA& dw,
const DL_ImageData& data,
const DL_Attributes& attrib);
void writeImageDef(DL_WriterA& dw, int handle,
const DL_ImageData& data);
void writeLayer(DL_WriterA& dw,
const DL_LayerData& data,
const DL_Attributes& attrib);
void writeLinetype(DL_WriterA& dw,
const DL_LinetypeData& data);
void writeAppid(DL_WriterA& dw, const std::string& name);
void writeBlock(DL_WriterA& dw,
const DL_BlockData& data);
void writeEndBlock(DL_WriterA& dw, const std::string& name);
void writeVPort(DL_WriterA& dw);
void writeStyle(DL_WriterA& dw, const DL_StyleData& style);
void writeView(DL_WriterA& dw);
void writeUcs(DL_WriterA& dw);
void writeDimStyle(DL_WriterA& dw,
double dimasz, double dimexe, double dimexo,
double dimgap, double dimtxt);
void writeBlockRecord(DL_WriterA& dw);
void writeBlockRecord(DL_WriterA& dw, const std::string& name);
void writeObjects(DL_WriterA& dw, const std::string& appDictionaryName = "");
void writeAppDictionary(DL_WriterA& dw);
int writeDictionaryEntry(DL_WriterA& dw, const std::string& name);
void writeXRecord(DL_WriterA& dw, int handle, int value);
void writeXRecord(DL_WriterA& dw, int handle, double value);
void writeXRecord(DL_WriterA& dw, int handle, bool value);
void writeXRecord(DL_WriterA& dw, int handle, const std::string& value);
void writeObjectsEnd(DL_WriterA& dw);
void writeComment(DL_WriterA& dw, const std::string& comment);
/**
* Converts the given string into a double or returns the given
* default valud (def) if value is NULL or empty.
*/
//static double toReal(const char* value, double def=0.0);
/**
* Converts the given string into an int or returns the given
* default valud (def) if value is NULL or empty.
*/
// static int toInt(const char* value, int def=0) {
// if (value!=NULL && value[0] != '\0') {
// return atoi(value);
// }
// return def;
// }
/**
* Converts the given string into a string or returns the given
* default valud (def) if value is NULL or empty.
*/
// static const char* toString(const char* value, const char* def="") {
// if (value!=NULL && value[0] != '\0') {
// return value;
// } else {
// return def;
// }
// }
static bool checkVariable(const char* var, DL_Codes::version version);
DL_Codes::version getVersion() {
return version;
}
int getLibVersion(const std::string &str);
static void test();
bool hasValue(int code) {
return values.count(code)==1;
}
int getIntValue(int code, int def) {
if (!hasValue(code)) {
return def;
}
return toInt(values[code]);
}
int toInt(const std::string& str) {
char* p;
return strtol(str.c_str(), &p, 10);
}
bool toBool(const std::string& str) {
char* p;
return (bool)strtol(str.c_str(), &p, 10);
}
std::string getStringValue(int code, const std::string& def) {
if (!hasValue(code)) {
return def;
}
return values[code];
}
double getRealValue(int code, double def) {
if (!hasValue(code)) {
return def;
}
return toReal(values[code]);
}
double toReal(const std::string& str) {
double ret;
// make sure the real value uses '.' not ',':
std::string str2 = str;
std::replace(str2.begin(), str2.end(), ',', '.');
// make sure c++ expects '.' not ',':
std::istringstream istr(str2);
istr.imbue(std::locale("C"));
istr >> ret;
return ret;
}
private:
DL_Codes::version version;
std::string polylineLayer;
double* vertices;
int maxVertices;
int vertexIndex;
double* knots;
int maxKnots;
int knotIndex;
double* weights;
int weightIndex;
double* controlPoints;
int maxControlPoints;
int controlPointIndex;
double* fitPoints;
int maxFitPoints;
int fitPointIndex;
double* leaderVertices;
int maxLeaderVertices;
int leaderVertexIndex;
bool firstHatchLoop;
DL_HatchEdgeData hatchEdge;
std::vector<std::vector<DL_HatchEdgeData> > hatchEdges;
std::string xRecordHandle;
bool xRecordValues;
// Only the useful part of the group code
std::string groupCodeTmp;
// ...same as integer
unsigned int groupCode;
// Only the useful part of the group value
std::string groupValue;
// Current entity type
int currentObjectType;
// Value of the current setting
char settingValue[DL_DXF_MAXLINE+1];
// Key of the current setting (e.g. "$ACADVER")
std::string settingKey;
// Stores the group codes
std::map<int, std::string> values;
// First call of this method. We initialize all group values in
// the first call.
bool firstCall;
// Attributes of the current entity (layer, color, width, line type)
DL_Attributes attrib;
// library version. hex: 0x20003001 = 2.0.3.1
int libVersion;
// app specific dictionary handle:
unsigned long appDictionaryHandle;
// handle of standard text style, referenced by dimstyle:
unsigned long styleHandleStd;
};
#endif
// EOF
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