#include #include "common/util.h" #include "gcs.h" #include "pcs.h" #include "prjfile.h" static Conversion::Method projectionMethod(const QString &name) { static const struct { int id; QString name; } methods[] = { {1024, "Mercator_Auxiliary_Sphere"}, {1041, "Krovak"}, {9801, "Lambert_Conformal_Conic_1SP"}, {9802, "Lambert_Conformal_Conic_2SP"}, {9804, "Mercator_1SP"}, {9807, "Transverse_Mercator"}, {9809, "Oblique_Stereographic"}, {9815, "Oblique_Mercator"}, {9818, "Polyconic"}, {9820, "Lambert_Azimuthal_Equal_Area"}, {9822, "Albers_Conic_Equal_Area"}, {9829, "Polar_Stereographic"} }; for (size_t i = 0; i < ARRAY_SIZE(methods); i++) if (!name.compare(methods[i].name, Qt::CaseInsensitive)) return methods[i].id; qWarning("%s: unknown projection", qPrintable(name)); return Conversion::Method(); } static void setParameter(Conversion::Setup *setup, const QString &name, double val) { // latitude origin if (!name.compare("latitude_of_origin", Qt::CaseInsensitive)) setup->setLatitudeOrigin(val); else if (!name.compare("latitude_of_center", Qt::CaseInsensitive)) setup->setLatitudeOrigin(val); // longitude origin else if (!name.compare("central_meridian", Qt::CaseInsensitive)) setup->setLongitudeOrigin(val); else if (!name.compare("longitude_of_center", Qt::CaseInsensitive)) setup->setLongitudeOrigin(val); // scale factor else if (!name.compare("scale_factor", Qt::CaseInsensitive)) setup->setScale(val); // false easting else if (!name.compare("false_easting", Qt::CaseInsensitive)) setup->setFalseEasting(val); // false northing else if (!name.compare("false_northing", Qt::CaseInsensitive)) setup->setFalseNorthing(val); // standard parallel 1 else if (!name.compare("standard_parallel_1", Qt::CaseInsensitive)) setup->setStandardParallel1(val); else if (!name.compare("pseudo_standard_parallel_1", Qt::CaseInsensitive)) setup->setStandardParallel1(val); // standard parallel 2 else if (!name.compare("standard_parallel_2", Qt::CaseInsensitive)) setup->setStandardParallel2(val); else if (!name.compare("azimuth", Qt::CaseInsensitive)) setup->setStandardParallel2(val); else qWarning("%s: unknown projection parameter", qPrintable(name)); } PRJFile::Token PRJFile::keyword(CTX &ctx) { static const struct { Token token; QString name; } keywords[] = { {COMPD_CS, "COMPD_CS"}, {PROJCS, "PROJCS"}, {PROJECTION, "PROJECTION"}, {PARAMETER, "PARAMETER"}, {GEOGCS, "GEOGCS"}, {DATUM, "DATUM"}, {SPHEROID, "SPHEROID"}, {PRIMEM, "PRIMEM"}, {UNIT, "UNIT"}, {AUTHORITY, "AUTHORITY"}, {AXIS, "AXIS"}, {TOWGS84, "TOWGS84"}, {NORTH, "NORTH"}, {SOUTH, "SOUTH"}, {EAST, "EAST"}, {WEST, "WEST"}, {UP, "UP"}, {DOWN, "DOWN"}, {OTHER, "OTHER"}, {VERT_CS, "VERT_CS"}, {VERT_DATUM, "VERT_DATUM"}, {GEOCCS, "GEOCCS"}, {FITTED_CS, "FITTED_CS"}, {LOCAL_CS, "LOCAL_CS"} }; for (size_t i = 0; i < ARRAY_SIZE(keywords); i++) if (!ctx.string.compare(keywords[i].name, Qt::CaseInsensitive)) return keywords[i].token; error(ctx); return ERROR; } void PRJFile::error(CTX &ctx) { if (ctx.token == ERROR) return; _errorString = QString("parse error on line %1").arg(ctx.line); ctx.token = ERROR; } int PRJFile::getChar(CTX &ctx) { char c; if (ctx.file.getChar(&c)) return c; else return -1; } void PRJFile::nextToken(CTX &ctx) { int c, state = 0; QString flstr; while (1) { c = getChar(ctx); switch (state) { case 0: if (isspace(c)) { if (c == '\n') ctx.line++; break; } if (c == '[') { ctx.token = LBRK; return; } if (c == ']') { ctx.token = RBRK; return; } if (c == ',') { ctx.token = COMMA; return; } if (isalpha(c)) { ctx.string = QChar(c); state = 2; break; } if (isdigit(c)) { flstr += QChar(c); state = 3; break; } if (c == '.') { flstr += QChar(c); state = 4; break; } if (c == '+') { flstr += QChar(c); state = 3; break; } if (c == '-') { flstr += QChar(c); state = 3; break; } if (c == '"') { ctx.string.clear(); state = 7; break; } if (c == -1) { ctx.token = EOI; return; } error(ctx); return; case 2: if (isalnum(c) || c == '_') { ctx.string += QChar(c); break; } ctx.file.ungetChar(c); ctx.token = keyword(ctx); return; case 3: if (c == '.') { flstr += QChar(c); state = 4; break; } if (c == 'e' || c == 'E') { flstr += QChar(c); state = 5; break; } if (isdigit(c)) { flstr += QChar(c); break; } ctx.file.ungetChar(c); ctx.number = flstr.toDouble(); ctx.token = NUMBER; return; case 4: if (isdigit(c)) { flstr += QChar(c); break; } if (c == 'e' || c == 'E') { flstr += QChar(c); state = 5; break; } ctx.file.ungetChar(c); ctx.number = flstr.toDouble(); ctx.token = NUMBER; return; case 5: if (c == '+') { flstr += QChar(c); state = 6; break; } if (c == '-') { flstr += QChar(c); state = 6; break; } if (isdigit(c)) { flstr += QChar(c); state = 6; break; } error(ctx); return; case 6: if (isdigit(c)) { flstr += QChar(c); break; } ctx.file.ungetChar(c); ctx.number = flstr.toDouble(); ctx.token = NUMBER; return; case 7: if (c == -1) { error(ctx); return; } if (c == '"') { ctx.token = STRING; return; } ctx.string += QChar(c); break; } } } void PRJFile::compare(CTX &ctx, Token token) { if (ctx.token == token) nextToken(ctx); else error(ctx); } void PRJFile::toWGS84(CTX &ctx, double *dx, double *dy, double *dz, double *rx, double *ry, double *rz, double *ds) { compare(ctx, TOWGS84); compare(ctx, LBRK); *dx = ctx.number; compare(ctx, NUMBER); compare(ctx, COMMA); *dy = ctx.number; compare(ctx, NUMBER); compare(ctx, COMMA); *dz = ctx.number; compare(ctx, NUMBER); compare(ctx, COMMA); *rx = -ctx.number; compare(ctx, NUMBER); compare(ctx, COMMA); *ry = -ctx.number; compare(ctx, NUMBER); compare(ctx, COMMA); *rz = -ctx.number; compare(ctx, NUMBER); compare(ctx, COMMA); *ds = ctx.number; compare(ctx, NUMBER); compare(ctx, RBRK); } void PRJFile::optAuthority(CTX &ctx, int *epsg) { if (ctx.token == COMMA) { nextToken(ctx); authority(ctx, epsg); } } void PRJFile::authority(CTX &ctx, int *epsg) { bool isEpsg = false; compare(ctx, AUTHORITY); compare(ctx, LBRK); if (!ctx.string.compare("EPSG", Qt::CaseInsensitive)) isEpsg = true; compare(ctx, STRING); compare(ctx, COMMA); if (isEpsg) { bool ok; *epsg = ctx.string.toUInt(&ok); if (!ok) { _errorString = ctx.string + ": invalid EPSG code"; ctx.token = ERROR; return; } } else *epsg = -1; compare(ctx, STRING); compare(ctx, RBRK); } void PRJFile::spheroid(CTX &ctx, Ellipsoid *el) { int epsg = -1; double radius, flattening; compare(ctx, SPHEROID); compare(ctx, LBRK); compare(ctx, STRING); compare(ctx, COMMA); radius = ctx.number; compare(ctx, NUMBER); compare(ctx, COMMA); flattening = 1.0 / ctx.number; compare(ctx, NUMBER); optAuthority(ctx, &epsg); compare(ctx, RBRK); *el = (epsg > 0) ? Ellipsoid::ellipsoid(epsg) : Ellipsoid(radius, flattening); } void PRJFile::optDatum2(CTX &ctx, double *dx, double *dy, double *dz, double *rx, double *ry, double *rz, double *ds, int *epsg) { switch (ctx.token) { case TOWGS84: toWGS84(ctx, dx, dy, dz, rx, ry, rz, ds); optAuthority(ctx, epsg); break; case AUTHORITY: authority(ctx, epsg); break; default: error(ctx); } } void PRJFile::optDatum(CTX &ctx, double *dx, double *dy, double *dz, double *rx, double *ry, double *rz, double *ds, int *epsg) { if (ctx.token == COMMA) { nextToken(ctx); optDatum2(ctx, dx, dy, dz, rx, ry, rz, ds, epsg); } } void PRJFile::datum(CTX &ctx, Datum *dtm, int *epsg) { double dx = NAN, dy = NAN, dz = NAN, rx = NAN, ry = NAN, rz = NAN, ds = NAN; Ellipsoid el; compare(ctx, DATUM); compare(ctx, LBRK); compare(ctx, STRING); compare(ctx, COMMA); spheroid(ctx, &el); optDatum(ctx, &dx, &dy, &dz, &rx, &ry, &rz, &ds, epsg); compare(ctx, RBRK); *dtm = Datum(el, dx, dy, dz, rx, ry, rz, ds); } void PRJFile::unit(CTX &ctx, double *val, int *epsg) { compare(ctx, UNIT); compare(ctx, LBRK); compare(ctx, STRING); compare(ctx, COMMA); *val = ctx.number; compare(ctx, NUMBER); optAuthority(ctx, epsg); compare(ctx, RBRK); } void PRJFile::linearUnit(CTX &ctx, LinearUnits *lu) { double val; int epsg = -1; unit(ctx, &val, &epsg); *lu = (epsg > 0) ? LinearUnits(epsg) : LinearUnits(val); } void PRJFile::angularUnit(CTX &ctx, AngularUnits *au, int *epsg) { double val; unit(ctx, &val, epsg); *au = AngularUnits(val); } void PRJFile::primeMeridian(CTX &ctx, PrimeMeridian *pm, int *epsg) { double lon; compare(ctx, PRIMEM); compare(ctx, LBRK); compare(ctx, STRING); compare(ctx, COMMA); lon = ctx.number; compare(ctx, NUMBER); optAuthority(ctx, epsg); compare(ctx, RBRK); *pm = PrimeMeridian(lon); } void PRJFile::parameter(CTX &ctx, Conversion::Setup *setup) { QString name; if (ctx.token == PARAMETER) { nextToken(ctx); compare(ctx, LBRK); name = ctx.string; compare(ctx, STRING); compare(ctx, COMMA); setParameter(setup, name, ctx.number); compare(ctx, NUMBER); compare(ctx, RBRK); compare(ctx, COMMA); parameter(ctx, setup); } } void PRJFile::projection(CTX &ctx, Conversion::Method *method) { int epsg = -1; QString proj; compare(ctx, PROJECTION); compare(ctx, LBRK); proj = ctx.string; compare(ctx, STRING); optAuthority(ctx, &epsg); compare(ctx, RBRK); *method = (epsg > 0) ? Conversion::Method(epsg) : projectionMethod(proj); } void PRJFile::optProjectedCS2(CTX &ctx, int *epsg) { switch (ctx.token) { case AXIS: twinAxis(ctx); optAuthority(ctx, epsg); break; case AUTHORITY: authority(ctx, epsg); break; default: error(ctx); } } void PRJFile::optProjectedCS(CTX &ctx, int *epsg) { if (ctx.token == COMMA) { nextToken(ctx); optProjectedCS2(ctx, epsg); } } void PRJFile::projectedCS(CTX &ctx, PCS *pcs) { int epsg = -1; GCS gcs; LinearUnits lu; Conversion::Method method; Conversion::Setup setup; compare(ctx, PROJCS); compare(ctx, LBRK); compare(ctx, STRING); compare(ctx, COMMA); geographicCS(ctx, &gcs); compare(ctx, COMMA); projection(ctx, &method); compare(ctx, COMMA); parameter(ctx, &setup); linearUnit(ctx, &lu); optProjectedCS(ctx, &epsg); compare(ctx, RBRK); *pcs = (epsg > 0) ? PCS::pcs(epsg) : PCS(gcs, Conversion(method, setup, lu)); } void PRJFile::axisType(CTX &ctx) { switch (ctx.token) { case NORTH: nextToken(ctx); break; case SOUTH: nextToken(ctx); break; case EAST: nextToken(ctx); break; case WEST: nextToken(ctx); break; case UP: nextToken(ctx); break; case DOWN: nextToken(ctx); break; case OTHER: nextToken(ctx); break; default: error(ctx); } } void PRJFile::axis(CTX &ctx) { compare(ctx, AXIS); compare(ctx, LBRK); compare(ctx, STRING); compare(ctx, COMMA); axisType(ctx); compare(ctx, RBRK); } void PRJFile::twinAxis(CTX &ctx) { axis(ctx); compare(ctx, COMMA); axis(ctx); } void PRJFile::optGeographicCS2(CTX &ctx, int *epsg) { switch (ctx.token) { case AXIS: twinAxis(ctx); optAuthority(ctx, epsg); break; case AUTHORITY: authority(ctx, epsg); break; default: error(ctx); } } void PRJFile::optGeographicCS(CTX &ctx, int *epsg) { if (ctx.token == COMMA) { nextToken(ctx); optGeographicCS2(ctx, epsg); } } void PRJFile::geographicCS(CTX &ctx, GCS *gcs) { int gcsEpsg = -1, datumEpsg = -1, pmEpsg = -1, auEpsg = -1; PrimeMeridian pm; AngularUnits au; Datum dat; compare(ctx, GEOGCS); compare(ctx, LBRK); compare(ctx, STRING); compare(ctx, COMMA); datum(ctx, &dat, &datumEpsg); compare(ctx, COMMA); primeMeridian(ctx, &pm, &pmEpsg); compare(ctx, COMMA); angularUnit(ctx, &au, &auEpsg); optGeographicCS(ctx, &gcsEpsg); compare(ctx, RBRK); *gcs = (gcsEpsg > 0) ? GCS::gcs(gcsEpsg) : (datumEpsg > 0 && pmEpsg > 0 && auEpsg > 0) ? GCS::gcs(datumEpsg, pmEpsg, auEpsg) : GCS(dat, pm, au); } void PRJFile::horizontalCS(CTX &ctx) { switch (ctx.token) { case PROJCS: {PCS pcs; projectedCS(ctx, &pcs); _projection = Projection(pcs);} break; case GEOGCS: {GCS gcs; geographicCS(ctx, &gcs); _projection = Projection(gcs);} break; default: error(ctx); } } void PRJFile::verticalDatum(CTX &ctx) { int epsg; compare(ctx, VERT_DATUM); compare(ctx, LBRK); compare(ctx, STRING); compare(ctx, COMMA); compare(ctx, NUMBER); optAuthority(ctx, &epsg); compare(ctx, RBRK); } void PRJFile::optVerticalCS2(CTX &ctx, int *epsg) { switch (ctx.token) { case AXIS: axis(ctx); optAuthority(ctx, epsg); break; case AUTHORITY: authority(ctx, epsg); break; default: error(ctx); } } void PRJFile::optVerticalCS(CTX &ctx, int *epsg) { if (ctx.token == COMMA) { nextToken(ctx); optVerticalCS2(ctx, epsg); } } void PRJFile::verticalCS(CTX &ctx) { int luEpsg, vcsEpsg; double lu; compare(ctx, VERT_CS); compare(ctx, LBRK); compare(ctx, STRING); compare(ctx, COMMA); verticalDatum(ctx); compare(ctx, COMMA); unit(ctx, &lu, &luEpsg); optVerticalCS(ctx, &vcsEpsg); compare(ctx, RBRK); } void PRJFile::optCS(CTX &ctx, int *epsg) { if (ctx.token == COMMA) { nextToken(ctx); authority(ctx, epsg); } } void PRJFile::compdCS(CTX &ctx) { int epsg = -1; compare(ctx, COMPD_CS); compare(ctx, LBRK); compare(ctx, STRING); compare(ctx, COMMA); CS(ctx); compare(ctx, COMMA); CS(ctx); optCS(ctx, &epsg); compare(ctx, RBRK); } void PRJFile::CS(CTX &ctx) { switch (ctx.token) { case COMPD_CS: compdCS(ctx); break; case PROJCS: case GEOGCS: horizontalCS(ctx); break; case VERT_CS: verticalCS(ctx); break; case GEOCCS: _errorString = "geocentric coordinate systems not supported"; ctx.token = ERROR; break; case FITTED_CS: _errorString = "fitted coordinate systems not supported"; ctx.token = ERROR; break; case LOCAL_CS: _errorString = "local coordinate systems not supported"; ctx.token = ERROR; break; default: error(ctx); } } PRJFile::PRJFile(const QString &fileName) { CTX ctx(fileName); if (!ctx.file.open(QIODevice::ReadOnly)) { _errorString = ctx.file.errorString(); return; } nextToken(ctx); CS(ctx); if (ctx.token == EOI) { if (!_projection.isValid()) _errorString = "unknown/incomplete projection"; } else { error(ctx); _projection = Projection(); } }