/****************************************************************************** ** libDXFrw - Library to read/write DXF files (ascii & binary) ** ** ** ** Copyright (C) 2011-2015 José F. Soriano, rallazz@gmail.com ** ** ** ** This library is free software, licensed 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. ** ** You should have received a copy of the GNU General Public License ** ** along with this program. If not, see . ** ******************************************************************************/ #ifndef DRW_BASE_H #define DRW_BASE_H #define DRW_VERSION "0.6.3" #include #include #include #ifdef DRW_ASSERTS # define drw_assert(a) assert(a) #else # define drw_assert(a) #endif #define UTF8STRING std::string #define DRW_UNUSED(x) (void)x #if defined(WIN64) || defined(_WIN64) || defined(__WIN64__) # define DRW_WIN #elif defined(WIN32) || defined(_WIN32) || defined(__WIN32__) || defined(__NT__) # define DRW_WIN #elif defined(__MWERKS__) && defined(__INTEL__) # define DRW_WIN #else # define DRW_POSIX #endif #ifndef M_PI #define M_PI 3.141592653589793238462643 #endif #ifndef M_PI_2 #define M_PI_2 1.57079632679489661923 #endif #define M_PIx2 6.283185307179586 // 2*PI #define ARAD 57.29577951308232 typedef signed char dint8; /* 8 bit signed */ typedef signed short dint16; /* 16 bit signed */ typedef signed int dint32; /* 32 bit signed */ typedef long long int dint64; /* 64 bit signed */ typedef unsigned char duint8; /* 8 bit unsigned */ typedef unsigned short duint16; /* 16 bit unsigned */ typedef unsigned int duint32; /* 32 bit unsigned */ typedef unsigned long long int duint64; /* 64 bit unsigned */ typedef float dfloat32; /* 32 bit floating point */ typedef double ddouble64; /* 64 bit floating point */ typedef long double ddouble80; /* 80 bit floating point */ namespace DRW { //! Version numbers for the DXF Format. enum Version { UNKNOWNV, /*!< UNKNOWN VERSION. */ AC1006, /*!< R10. */ AC1009, /*!< R11 & R12. */ AC1012, /*!< R13. */ AC1014, /*!< R14. */ AC1015, /*!< ACAD 2000. */ AC1018, /*!< ACAD 2004. */ AC1021, /*!< ACAD 2007. */ AC1024, /*!< ACAD 2010. */ AC1027 /*!< ACAD 2013. */ }; enum error { BAD_NONE, /*!< No error. */ BAD_UNKNOWN, /*!< UNKNOWN. */ BAD_OPEN, /*!< error opening file. */ BAD_VERSION, /*!< unsupported version. */ BAD_READ_METADATA, /*!< error reading matadata. */ BAD_READ_FILE_HEADER, /*!< error in file header read process. */ BAD_READ_HEADER, /*!< error in header vars read process. */ BAD_READ_HANDLES, /*!< error in object map read process. */ BAD_READ_CLASSES, /*!< error in classes read process. */ BAD_READ_TABLES, /*!< error in tables read process. */ BAD_READ_BLOCKS, /*!< error in block read process. */ BAD_READ_ENTITIES, /*!< error in entities read process. */ BAD_READ_OBJECTS /*!< error in objects read process. */ }; enum DBG_LEVEL { NONE, DEBUG }; //! Special codes for colors enum ColorCodes { black = 250, green = 3, red = 1, brown = 15, yellow = 2, cyan = 4, magenta = 6, gray = 8, blue = 5, l_blue = 163, l_green = 121, l_cyan = 131, l_red = 23, l_magenta = 221, l_gray = 252, white = 7, ColorByLayer = 256, ColorByBlock = 0 }; //! Spaces enum Space { ModelSpace = 0, PaperSpace = 1 }; //! Special kinds of handles enum HandleCodes { NoHandle = 0 }; //! Shadow mode enum ShadowMode { CastAndReceieveShadows = 0, CastShadows = 1, ReceiveShadows = 2, IgnoreShadows = 3 }; //! Special kinds of materials enum MaterialCodes { MaterialByLayer = 0 }; //! Special kinds of plot styles enum PlotStyleCodes { DefaultPlotStyle = 0 }; //! Special kinds of transparencies enum TransparencyCodes { Opaque = 0, Transparent = -1 }; } // namespace DRW //! Class to handle 3D coordinate point /*! * Class to handle 3D coordinate point * @author Rallaz */ class DRW_Coord { public: DRW_Coord():x(0), y(0),z(0) {} DRW_Coord(double ix, double iy, double iz): x(ix), y(iy),z(iz){} DRW_Coord& operator = (const DRW_Coord& data) { x = data.x; y = data.y; z = data.z; return *this; } /*!< convert to unitary vector */ void unitize(){ double dist; dist = sqrt(x*x + y*y + z*z); if (dist > 0.0) { x= x/dist; y= y/dist; z= z/dist; } } public: double x; double y; double z; }; //! Class to handle vertex /*! * Class to handle vertex for lwpolyline entity * @author Rallaz */ class DRW_Vertex2D { public: DRW_Vertex2D(): x(0), y(0), stawidth(0), endwidth(0), bulge(0){} DRW_Vertex2D(double sx, double sy, double b): x(sx), y(sy), stawidth(0), endwidth(0), bulge(b) {} public: double x; /*!< x coordinate, code 10 */ double y; /*!< y coordinate, code 20 */ double stawidth; /*!< Start width, code 40 */ double endwidth; /*!< End width, code 41 */ double bulge; /*!< bulge, code 42 */ }; //! Class to handle header vars /*! * Class to handle header vars * @author Rallaz */ class DRW_Variant { public: enum TYPE { STRING, INTEGER, DOUBLE, COORD, INVALID }; //TODO: add INT64 support DRW_Variant(): sdata(std::string()), vdata(), content(0), vType(INVALID), vCode(0) {} DRW_Variant(int c, dint32 i): sdata(std::string()), vdata(), content(i), vType(INTEGER), vCode(c){} DRW_Variant(int c, duint32 i): sdata(std::string()), vdata(), content(static_cast(i)), vType(INTEGER), vCode(c) {} DRW_Variant(int c, double d): sdata(std::string()), vdata(), content(d), vType(DOUBLE), vCode(c) {} DRW_Variant(int c, UTF8STRING s): sdata(s), vdata(), content(&sdata), vType(STRING), vCode(c) {} DRW_Variant(int c, DRW_Coord crd): sdata(std::string()), vdata(crd), content(&vdata), vType(COORD), vCode(c) {} DRW_Variant(const DRW_Variant& d): sdata(d.sdata), vdata(d.vdata), content(d.content), vType(d.vType), vCode(d.vCode) { if (d.vType == COORD) content.v = &vdata; if (d.vType == STRING) content.s = &sdata; } ~DRW_Variant() { } void addString(int c, UTF8STRING s) {vType = STRING; sdata = s; content.s = &sdata; vCode=c;} void addInt(int c, int i) {vType = INTEGER; content.i = i; vCode=c;} void addDouble(int c, double d) {vType = DOUBLE; content.d = d; vCode=c;} void addCoord(int c, DRW_Coord v) {vType = COORD; vdata = v; content.v = &vdata; vCode=c;} void setCoordX(double d) { if (vType == COORD) vdata.x = d;} void setCoordY(double d) { if (vType == COORD) vdata.y = d;} void setCoordZ(double d) { if (vType == COORD) vdata.z = d;} enum TYPE type() { return vType;} int code() { return vCode;} /*!< returns dxf code of this value*/ private: std::string sdata; DRW_Coord vdata; private: union DRW_VarContent{ UTF8STRING *s; dint32 i; double d; DRW_Coord *v; DRW_VarContent(UTF8STRING *sd):s(sd){} DRW_VarContent(dint32 id):i(id){} DRW_VarContent(double dd):d(dd){} DRW_VarContent(DRW_Coord *vd):v(vd){} }; public: DRW_VarContent content; private: enum TYPE vType; int vCode; /*!< dxf code of this value*/ }; //! Class to handle dwg handles /*! * Class to handle dwg handles * @author Rallaz */ class dwgHandle{ public: dwgHandle(): code(0), size(0), ref(0){} ~dwgHandle(){} duint8 code; duint8 size; duint32 ref; }; //! Class to convert between line width and integer /*! * Class to convert between line width and integer * verifing valid values, if value is not valid * returns widthDefault. * @author Rallaz */ class DRW_LW_Conv{ public: enum lineWidth { width00 = 0, /*!< 0.00mm (dxf 0)*/ width01 = 1, /*!< 0.05mm (dxf 5)*/ width02 = 2, /*!< 0.09mm (dxf 9)*/ width03 = 3, /*!< 0.13mm (dxf 13)*/ width04 = 4, /*!< 0.15mm (dxf 15)*/ width05 = 5, /*!< 0.18mm (dxf 18)*/ width06 = 6, /*!< 0.20mm (dxf 20)*/ width07 = 7, /*!< 0.25mm (dxf 25)*/ width08 = 8, /*!< 0.30mm (dxf 30)*/ width09 = 9, /*!< 0.35mm (dxf 35)*/ width10 = 10, /*!< 0.40mm (dxf 40)*/ width11 = 11, /*!< 0.50mm (dxf 50)*/ width12 = 12, /*!< 0.53mm (dxf 53)*/ width13 = 13, /*!< 0.60mm (dxf 60)*/ width14 = 14, /*!< 0.70mm (dxf 70)*/ width15 = 15, /*!< 0.80mm (dxf 80)*/ width16 = 16, /*!< 0.90mm (dxf 90)*/ width17 = 17, /*!< 1.00mm (dxf 100)*/ width18 = 18, /*!< 1.06mm (dxf 106)*/ width19 = 19, /*!< 1.20mm (dxf 120)*/ width20 = 20, /*!< 1.40mm (dxf 140)*/ width21 = 21, /*!< 1.58mm (dxf 158)*/ width22 = 22, /*!< 2.00mm (dxf 200)*/ width23 = 23, /*!< 2.11mm (dxf 211)*/ widthByLayer = 29, /*!< by layer (dxf -1) */ widthByBlock = 30, /*!< by block (dxf -2) */ widthDefault = 31 /*!< by default (dxf -3) */ }; static int lineWidth2dxfInt(enum lineWidth lw){ switch (lw){ case widthByLayer: return -1; case widthByBlock: return -2; case widthDefault: return -3; case width00: return 0; case width01: return 5; case width02: return 9; case width03: return 13; case width04: return 15; case width05: return 18; case width06: return 20; case width07: return 25; case width08: return 30; case width09: return 35; case width10: return 40; case width11: return 50; case width12: return 53; case width13: return 60; case width14: return 70; case width15: return 80; case width16: return 90; case width17: return 100; case width18: return 106; case width19: return 120; case width20: return 140; case width21: return 158; case width22: return 200; case width23: return 211; default: break; } return -3; } static int lineWidth2dwgInt(enum lineWidth lw){ return static_cast (lw); } static enum lineWidth dxfInt2lineWidth(int i){ if (i<0) { if (i==-1) return widthByLayer; else if (i==-2) return widthByBlock; else if (i==-3) return widthDefault; } else if (i<3) { return width00; } else if (i<7) { return width01; } else if (i<11) { return width02; } else if (i<14) { return width03; } else if (i<16) { return width04; } else if (i<19) { return width05; } else if (i<22) { return width06; } else if (i<27) { return width07; } else if (i<32) { return width08; } else if (i<37) { return width09; } else if (i<45) { return width10; } else if (i<52) { return width11; } else if (i<57) { return width12; } else if (i<65) { return width13; } else if (i<75) { return width14; } else if (i<85) { return width15; } else if (i<95) { return width16; } else if (i<103) { return width17; } else if (i<112) { return width18; } else if (i<130) { return width19; } else if (i<149) { return width20; } else if (i<180) { return width21; } else if (i<205) { return width22; } else { return width23; } //default by default return widthDefault; } static enum lineWidth dwgInt2lineWidth(int i){ if ( (i>-1 && i<24) || (i>28 && i<32) ) { return static_cast (i); } //default by default return widthDefault; } }; #endif // EOF