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typos_allowlist.txt
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// FIXME: is it a typo here or in IRIS itself: Perspective or Prespective ?
"Prespective from geosync","Equidistant cylindrical","Gnomonic",
/* 160 */ {"Bas_St_Wol", "Untergrenze strat. Bew|lkung", "hft", UC_NONE},
/* 161 */ {"Bas_St_Wol", "Untergrenze strat. Bew|lkung", "hPa", UC_NONE},
/* 164 */ {"Top_St_Wol", "Obergrenze strat. Bew|lkung", "hft", UC_NONE},
/* 165 */ {"Top_St_Wol", "Obergrenze strat. Bew|lkung", "hPa", UC_NONE},
"Icing Regime 1.Guess(1=gen,2=conv,3=strat,4=freez)", "1",
"Icing Regime(1=general,2=convect,3=strat,4=freez)", "1",
* The generated swig_type_info structures are assigned staticly to an initial
* The generated swig_type_info structures are assigned staticly to an initial
YUR = 0.0;
YUR = oES.YUR;
double YUR;
l_segment->YUR = seg_data.GetDouble(nPos+215, 22);
seg_data.Put(psOrbit->YUR,nPos+215,22,"%22.14f");
/* Putting statics in headers is trouble. */
/* When multiple interpeters are used, a module could have already been initialized in
const char *pszNAM = record->GetStringSubfield("DSI", 0, "NAM", 0);
"FDR", iFDRFieldInstance++, "NAM", 0);
"PRT!NAM", "(A(4),A(8))");
WriteSubFieldStr(fd, osBaseFileName, 8); // NAM
sizeOfFields[nFields] += WriteSubFieldStr(fd, osNAM.c_str(), 8); /* NAM */
"NAM!STR!PRT!SWO!SWA!NEO!NEA",
sizeOfFields[nFields] += WriteSubFieldStr(fd, osBaseFileName, 8); /* NAM */
{136, "Socialist Republic of Viet Nam"},
double eps[NANGLES], ua, va, ang, epsa;
ang = uv2ang(ua, va);
i = (int)ang;
epsa = fabs(ang - (i + .5));
VSIFPrintfL(fp, " UN=Metres,SD=HHWLT,DX=2.500000,DY=2.500000\n");
pszUnitsPer = CPLGetXMLValue( psSrcXML, "metresPerUnit", NULL );
{"kilometre", /* 15 */ 12, 13, 1000.0},
{ "kilometre", SRS_UL_KILOMETER_CONV, "km" }, // Leave as 'kilometre' instead of SRS_UL_KILOMETER due to historical usage
passport.stMapDescription.eUnitInPlan = SXF_COORD_MU_CENTIMETRE;
passport.stMapDescription.eUnitInPlan = SXF_COORD_MU_MILLIMETRE;
SXF_COORD_MU_CENTIMETRE,
SXF_COORD_MU_MILLIMETRE,
addSimpleType(&oTypes, "GVAKT_PROS", "geoVernAktivProsess", OFTString);
addSimpleType(&oTypes, "GVVKT_PROS", "geoVernViktigProsess", OFTString);
addSimpleType(&oTypes, "PROSESS_HISTORIE", "prosesshistorie", OFTString);
ih.Put( "<unintialized>", 64, 64 ); // TODO: Spelling?
{7, 110, "NAM Model - 15km version"},
{7, 111, "NAM model, generic resolution"},
{7, 115, "Downscaled GFS from NAM eXtension"},
{7, 130, "Merge of fields from the RUC, NAM, and Spectral Model"},
/* 0 */ {"ACCES", "Air concentration of Caesium 137", "Bq/(m^3)", UC_NONE},
: CPLGetXMLValue(psSrcXML, "metresPerUnit", NULL);
{ "kilometre", SRS_UL_KILOMETER_CONV, "km" },
{ CADObject::DIMENSION_ANG_3PT, "DIMENSION ANG 3PT" },
{"SCALING_FACTOR_ATM_PRES", 16, EDT_Float32, 1},
{"SCALING_FACTOR_SURF_PRES", 104, EDT_Float32, 1},
{"OFFSET_SURF_PRES", 208, EDT_Float32, 1},
/* now prec is nonzero iff there are any 16-bit quant tables. */
* a box is splittable iff norm > 0.
boolean saw_JFIF_marker; /* TRUE iff a JFIF APP0 marker was found */
boolean saw_Adobe_marker; /* TRUE iff an Adobe APP14 marker was found */
// We will update the object count iff we are writing beyond the end.
/* 1 */ {"PRES", "Pressure", "Pa", UC_NONE},
/* 1 */ {"PRES", "Pressure", "hPa", UC_NONE},
/* 0 */ {"PRES", "Pressure", "Pa", UC_NONE},
* copied iff they didn't exist before. ColorTransIn2 maps the old
nearzero iff determinant < qh NEARzero[dim-1]
facet->visitid= 0 iff vertex-at-infinity (i.e., unbounded)
sets same iff vertices have the same orientation
nearzero iff diagonal[k] < qh NEARzero[k]
ogr2ogr --config OGR_STROKE_CURVE TRUE -SQL 'SELECT Rechtsstatus,publiziertAb,MetadatenGeobasisdaten,Eigentumsbeschraenkung,ZustaendigeStelle,Flaeche FROM "OeREBKRM09trsfr.Transferstruktur.Geometrie"' shpdir ch.bazl.sicherheitszonenplan.oereb_20131118.xtf,OeREBKRM09vs.imd OeREBKRM09trsfr.Transferstruktur.Geometrie
"OeREBKRM09trsfr.Transferstruktur.Geometrie",
lyr = ds.GetLayerByName("OeREBKRM09trsfr.Transferstruktur.Geometrie")
/* 130 */ {"MSLET", "Mean Sea Level Pressure (NAM Model Reduction)", "Pa", UC_NONE},
addSimpleType(&oTypes, "INST_EFFEKT", "installertEffekt", OFTInteger);
const char sText[] = "infinit";
if (EQUAL(pszFormat, "DOUB"))
pszFormat = "DOUB";
* gdal2tiles.py: add --xyz option to generate tiles in the OSM Slippy Map standard (#2098)
help="Use XYZ tile numbering (OSM Slippy Map tiles) instead of TMS",
help="Use XYZ tile numbering (OSM Slippy Map tiles) instead of TMS")
* Support FORMAT=HALF, DOUB and COMP
# Check read Alos metadata format
os.remove("data/alos/IMG-md_alos.tif.aux.xml")
ds = gdal.Open("data/alos/IMG-md_alos.tif", gdal.GA_ReadOnly)
assert not os.path.exists("data/alos/IMG-md_alos.tif.aux.xml")
gdal.SetConfigOption('CPL_GCE_CHECK_LOCAL_FILES', 'NO')
gdal.SetConfigOption('CPL_GCE_CHECK_LOCAL_FILES', None)
post_reason('Cannot determine if filesystem supports sparse files')
post_reason('File system does not support sparse files')
'writing not known to support sparse files')
post_reason('Filesystem %s is not believed to support sparse files' % ret)
$(CC) $(CFLAGS) /c $*.cpp /Fo$@
$(CC) $(CFLAGS) /c $*.c /Fo$@
throw bad_ctor("seh");
throw seh("seh");
struct seh : public tut_error
seh(const std::string& msg)
~seh() throw()
<property name="str">fo<o</property>
if not gdaltest.download_file('http://www.geodatenzentrum.de/gdz1/abgabe/testdaten/vektor/nas_testdaten_peine.zip', 'nas_testdaten_peine.zip'):
ds = ogr.Open('tmp/cache/CochitiDamShapeFiles')
ENDE"""
ENDE
"SRP_EDN=0",
"SRP_EDN=1",
ds = ogr.GetDriverByName('netCDF').CreateDataSource('/not_existing_dir/invalid_subdir', options=['MULTIPLE_LAYERS=SEPARATE_FILES', 'GEOMETRY_ENCODING=WKT'])
ds = ogr.GetDriverByName('netCDF').CreateDataSource('tmp/netcdf_57', options=['MULTIPLE_LAYERS=SEPARATE_FILES', 'GEOMETRY_ENCODING=WKT'])
assert xml_tre.find('<tre name="RSMDCA"') != -1, 'did not get expected xml:TRE'
<tre name="ENGRDA" location="image">
<field name="RECNT" value="002" />
</tre>
<tre name="CCINFA" location="file">
<tre name="CCINFA" location="image">
<tre name="SENSRB" location="image">
assert (not (xml_tre.find('<tre name="GEOPSB"') == -1 or \
xml_tre.find('<tre name="J2KLRA"') == -1 or \
xml_tre.find('<tre name="GEOLOB"') == -1 or \
xml_tre.find('<tre name="BNDPLB"') == -1 or \
xml_tre.find('<tre name="ACCPOB"') == -1 or \
xml_tre.find('<tre name="SOURCB"') == -1)), 'did not get expected xml:TRE'
assert xml_tre.find('<tre name="PIAPRD"') != -1, 'did not get expected xml:TRE'
Type; S(tring), N(umeric) D(ata variable type) and Use C(oordinate),
collinsb Benjamin Collins collinsb at mitre.org gdal
* Read cartesian coordinates if applicable in GDALLoadOziMapFile().
* Author: Benjamin Collins, The MITRE Corporation
/* Intel's compiler complains if a variable which was never initialised is
// because error handling tries to do thread initialisation.
* Copyright (c) 2006, The MITRE Corporation
oSRS.SetLinearUnits("kilometre", 1000.0);
float32*gridwidth offset in arcseconds (or in metres for geoids)
// name=foo,transpose=[1,0],view=[0],dstname=bar,ot=Float32
else if (STARTS_WITH(token.c_str(), "ot="))
auto outputTypeStr = token.substr(strlen("ot="));
// On Mach, the default limit is 256 files per process
grep -v "frmts/jpeg/libjpeg/jdphuff.c:493,error,shiftNegative,Shifting a negative value is undefined behaviour" | \
* \brief Get spheroid semi major axis (in metres starting with GDAL 3.0)
"attributeType | attribute | tile | model | catalogue | schema | "
"attributeType | attribute | tile | model | catalogue | schema | "
// Fix this behaviour (except -0).
"gravitational,CURENT,CURVEL;DATEND;DATSTA;NOBJNM;OBJNAM;ORIENT;PEREND;"
addSimpleType(poTypes, "ADRESSE", "adresse", OFTString);
addSimpleType(poTypes, "ADRESSEREFKODE", "adresseReferansekode", OFTString);
addSimpleType(poTypes, "FRISTMATRIKKELFØRINGSKRAV", "fristMatrikkelføringskrav", OFTDate);
addSimpleType(poTypes, "FRISTOPPMÅLING", "fristOppmåling", OFTDate);
addSimpleType(poTypes, "GKVARIABEL", "geokVariabel", OFTString);
addSimpleType(poTypes, "GVAKT_PROS", "geoVernAktivProsess", OFTString);
addSimpleType(poTypes, "GVVKT_PROS", "geoVernViktigProsess", OFTString);
addSimpleType(poTypes, "INST_EFFEKT", "installertEffekt", OFTInteger);
addSimpleType(poTypes, "PROSESS_HISTORIE", "prosesshistorie", OFTString);
ADRESSEREFERANSEType.setElement(1, "adresseReferansekode", OFTString);
ADRESSETILLEGGType.setElement(1, "adresseKommentar", OFTString);
ADRESSETILLEGGType.setElement(2, "adresseReferanse", OFTString);
FIRMA_EIERType.setElement(2, "adresse", OFTString);
.. include:: options/ot.rst
fl = gdal.ReadDir('/vsicurl/http://ortho.linz.govt.nz/tifs/2005_06')
nGeometryElementDepth == 0 && EQUAL("objecten:geometrie", pszName))
Generate XYZ tiles (OSM Slippy Map standard) instead of TMS.
<field name="UE_TIME_FLAG" value="0" />
HEADER_0=TE 00020021216151629xxxxxxxxxxxxxxxxxxxxxxxxxxx
HEADER_1=TE 00020021216151629xxxxxxxxxxxxxxxxxxxxxxxxxxx
HEADER_2=TE 00020021216151629xxxxxxxxxxxxxxxxxxxxxxxxxxx
HEADER_3=TE 00020021216151629xxxxxxxxxxxxxxxxxxxxxxxxxxx
HEADER_4=TE 00020021216151629xxxxxxxxxxxxxxxxxxxxxxxxxxx
TEXT=HEADER_0=TE 00020021216151629xxxxxxxxxxxxxxxxxxxxxxxxxxx
TEXT=HEADER_1=TE 00020021216151629xxxxxxxxxxxxxxxxxxxxxxxxxxx
OM, SOM). Contact me if you have troubles with proper projection
- `Standard d'échange des objets du PCI selon la norme
* Networks (GN and ND)
* from equator (SOM, format A)
from equator (SOM, format A)
* AscLong Longitude of ascending orbit at equator (SOM, format A)
AscLong Longitude of ascending orbit at equator (SOM, format A)
* PSRev Period of satellite revolution in minutes (SOM, format A)
PSRev Period of satellite revolution in minutes (SOM, format A)
* of orbit (SOM, format A -- use 0.5201613)
of orbit (SOM, format A -- use 0.5201613)
* 1 = end of path (SOM, format A)
1 = end of path (SOM, format A)
* Satnum Landsat Satellite Number (SOM, format B)
Satnum Landsat Satellite Number (SOM, format B)
* WRS-2 for Landsat 4, 5 and 6.) (SOM, format B)
WRS-2 for Landsat 4, 5 and 6.) (SOM, format B)
// FIXME: SOM --- Space Oblique Mercator skipped.
// constexpr long SOM = 22L; // Space Oblique Mercator (SOM)
A Z AA AZ BA BZ ZA ZZ AAA ZZZ AAAA
VSIFPrintfL(fpTransfer, "ENDE\n");
else if (EQUAL(firsttok, "ENDE"))
iRawField < (int) poResultSet->getDescrParm.gd_descriptorCount;
poResultSet->getDescrParm.gd_descriptor + iRawField;
memset( &getDescrParm, 0, sizeof(getDescrParm) );
"UE", 26,
$(CPP) $(CPPFLAGS) /DMSSQL_BCP_SUPPORTED=1 /Fo$@ /c $<
"xmlns:fo=\"urn:oasis:names:tc:opendocument:xmlns:"
"fo:break-before=\"auto\" "
(strcmp(papszTokens[0], "unsignificant") == 0 ||
else if (strcmp(psInterestNode->pszValue, "Alue") == 0)
(strcmp(pszElement, "Piste") == 0 || strcmp(pszElement, "Alue") == 0 ||
else if (EQUAL(poXREF->pszDatum, "NAX"))
poLayer->AddFieldDefn("CREAT_DATE", OFTInteger, "");
poFeature->SetField("CREAT_DATE", creationUpdateDate.first);
* dataset, by checking that the GEN field contains a NWO subfield
const char *NWO = record->GetStringSubfield("GEN", 0, "NWO", 0);
if (NWO == nullptr)
"STR!LOD!LAD!UNIloa!SWO!SWA!NWO!NWA!NEO!NEA!SEO!SEA!SCA!ZNA!PSP!IMR!"
sizeOfFields[nFields] += WriteLongitude(fd, LSO); /* NWO */
"MSD!VOO!ADR!NOV!SQN!NOF!URF!EDN!DAT",
sizeOfFields[nFields] += WriteSubFieldInt(fd, 1, 3); /* EDN */
// Numero d'edition du produit : QAL.QUV.EDN
const int EDN =
int EDN = record->GetIntSubfield("VDR", 0, "EDN", 0, &bSuccess);
record->GetIntSubfield("QUV", 0, "EDN", 0, &bSuccess);
CPLDebug("SRP", "Record EDN %d", EDN);
CPLDebug("SRP", "EDN=%d", EDN);
snprintf(szValue, sizeof(szValue), "%d", EDN);
SetMetadataItem("SRP_EDN", szValue);
/* make sure that the GEN file is part of a SRP dataset, not an ADRG dataset, by checking that the GEN field does not contain a NWO subfield */
if (NWO)
oDict.Add("DecodeParms", &((new GDALPDFDictionaryRW())
else if (EQUAL(pszDatum, "HEN")) /* HERAT North, Afghanistan */
else if (EQUAL(pszMnemonic, "SOM"))
* Author: Trent Hare (thare@usgs.gov),
* Author: Trent Hare (thare@usgs.gov)
PLACE(achTSH + 0, TE, "TE");
nTreIndex--;
for (psIter = psTreNode->psChild; psIter != NULL && *pbError == FALSE;
else if( STARTS_WITH_CI(local_buf, "SOM ") )
"SOM %4s",
else if( STARTS_WITH(geosys_clean.c_str(), "SOM ") )
double aline = (line - (nlines / 2.0 + 0.5)) * step;
aline *= deg_to_rad;
double tanal = tan(aline);
#define EPRJ_EOSAT_SOM 23
#define EPRJ_SOM_A_AND_B 25
// ISTS 061 Astro 1968
// ISTS 073 Astro 1969
const int esy = MIN(MAX(0, (y + 1) * nBlockYSize), nRasterYSize) -
if ((sx > nBlockXSize) || (sy > nBlockYSize) || (sx < esx) || (sy < esy))
sx, sy, esx, esy, nBlockXSize, nBlockYSize);
static const char * const ILC_N[] = { "PNG", "PPNG", "JPEG", "JPNG", "NONE", "DEFLATE", "TIF",
case IL_JPNG:
" <Value>JPEG</Value><Value>PNG</Value><Value>PPNG</Value><Value>JPNG</Value>"
(poDS->current.comp == IL_JPEG || poDS->current.comp == IL_JPNG)) {
IL_PNG = 0, IL_PPNG, IL_JPEG, IL_JPNG, IL_NONE, IL_ZLIB, IL_TIF,
* JPNG band, uses JPEG or PNG encoding, depending on the input data
CPLError(CE_Failure, CPLE_OutOfMemory, "Allocating temporary JPNG buffer");
"Data type not supported by MRF JPNG");
"MRF JPNG can only handle 2 or 4 interleaved bands");
int nPart; // typically 0. But for VHR2020 0=RGB, 1=NED
// MS-FS products have 3-bands for each of the RGB and NED files
/** Horizontal datum name, from the HDAT field. One of NAS, NAX, WGA,
else if( EQUAL(poXREF->pszDatum, "NAX") )
else if( EQUAL(pszMnemonic, "SOM") )
if (strstr(fmt, "nknown field") != nullptr)
* S Le ue ve
unsigned int Le, ue, ve;
ue = 0;
ue = tiff_itrunc(UVSCALE * u, em);
if (ue > 255)
ue = 255;
return (Le << 16 | ue << 8 | ve);
// DECLARE_SYMBOL(creat, int, (const char *path, mode_t mode));
// LOAD_SYMBOL(creat);
/* creat() */
int CPL_DLL creat(const char *path, mode_t mode)
// CASE_ALG(Gost) (obsolete)
"Invalid txe or tye parameters detected. Please check "
assert domain.GetDescription() == "The maximun speed of the road"
expected_headers={'Authorization': 'SharedKey myaccount2:LCgZcIfQT/du4Xsdv8ZHT1yi+Qrmaw0IxNdI1Cldy+w='})
msg = msg.replace("oveflow", "overflow")
msg = msg.replace("overfow", "overflow")
msg = msg.replace("divison", "division")
msg = msg.replace("behaviour", "behavior")
scan-build -o $GDAL_TOPDIR/scanbuildoutput -sarif -v -enable-checker alpha.unix.cstring.OutOfBounds,alpha.unix.cstring.BufferOverlap,optin.cplusplus.VirtualCall,optin.cplusplus.UninitializedObject make -j$(nproc)
"JPNG",
" <Value>JPNG</Value>"
|| poDS->current.comp == IL_JPNG
IL_JPNG,
f.SetField("str", "fo<o")
assert layer_names == {"aquaduct", "flat_table1", "flat_table2"}
"aquaduct",
for name in ["aquaduct", "flat_table1", "flat_table2"]:
("aaaaaAAAABa", ogr.OFTInteger),
"http://www.geodatenzentrum.de/gdz1/abgabe/testdaten/vektor/nas_testdaten_peine.zip",
or feat.GetField("beziehungsart") != "istTeilVon"
* pairs that differed by one bit, by two bits, in any combination
{"D071", 4255}, // Herat North (Afghanistan)
{"Herat North", "Herat_North", 4255},
"RM", 22, "RQ", 23, "RW", 24, "RZ", 25, "UE", 26, NULL);
$(CC) $(CXXFLAGS) /c $*.cpp /Fo$*.obj
// Filter type 4: Paeth
* The Sub filter predicts d=a, Avg d=(a+b)/2, and Paeth predicts d to be
/* Paeth tries to predict pixel d using the pixel to the left of it, a,
* The Paeth function predicts d to be whichever of a, b, or c is nearest to
/* Paeth breaks ties favoring a over b over c. */
ned_ds = gdal.Open("data/dimap2/vhr2020_ms_fs/MS-FS/IMG_NED_R1C1.TIF")
``a_scale``, ``a_offset``, ``ot``, ``gcp``, ``if``, ``scale``, ``exponent``, and ``outsize``.
The effect of the ``ot`` option (added in GDAL 3.7) is to force the output image bands to have a
"HE5_GCTP_ROBIN", "HE5_GCTP_SOM", "HE5_GCTP_ALASKA",
else if (EQUAL(pszKey, "ot"))
ds = gdal.Open("vrt://data/float32.tif?ot=Int32")
"NUM_ADJ_PARM", "(NUM_ADJ_PARM+1)*(NUM_ADJ_PARM)/2",
affiliation: Koordinates
``a_scale``, ``a_offset``, ``ot``, ``gcp``, ``if``, ``scale``, ``exponent``, ``outsize``, ``projwin``,
The effect of the ``unscale`` option (added in GDAL 3.8) is to apply the scale/offset metadata for the bands to convert scaled values to unscaled values. To apply this use syntax ``unscale=true``, or ``unscale=false`` (which is the default if not specified). Do consider the need for also using ``ot`` option in order to accommodate the intended output range, see more details for the same argument as with (:ref:`gdal_translate`).
either 2 or 4 comma separated values. The same rules apply for the source and destination ranges, and ``scale_bn`` syntax may be used as it is with (:ref:`gdal_translate`). The option ``scale=true`` (default if unspecified is ``scale=false``) may also be used without value arguments (added in GDAL 3.8), where it results in the output range 0,255 from whatever the source range is. Do consider the need for also using ``ot`` option in order to accommodate the intended output range.
oSRS.SetLinearUnits("kilometre",
ds = gdal.Open("vrt://" + dsn_unscale + "?unscale=true&ot=int16")
FAIL_REGEX "[Uu]nknown option" # HP
FAIL_REGEX "[Uu]nknown switch" # PGI
* Esben Mose Hansen, Ange Optimization ApS
SetLinearUnits("kilometre", 1000.0);
// F(ixed) S(ize) L(ist) of (x,y[,z][,m]) values / Interleaved layout
* https://www.miramon.cat/eng/QuiSom.htm
#define SECTION_VERSIO "VERSIO"
#define szMMNomCampPerimetreDefecte "PERIMETRE"
#define szMMNomCampNPoligonsDefecte "N_POLIG"
#define MM_MIN_WIDTH_LONG 14 // For LONG_ARC and PERIMETRE
#define MM_MIN_WIDTH_AREA 19 // For LONG_ARC and PERIMETRE
// of decimals to be used in the reserved fields as LONG_ARC, PERIMETRE,
CPLStrlcpy(szPerimeterOfThePolygonCat, "Perimetre del poligon",
CPLStrlcpy(szPerimeterOfThePolygonCat, "Perimetre del poligon",
CPLStrlcpy(szAreaOfThePolygonCat, "Area del poligon",
CPLStrlcpy(szNumberOfElementaryPolygonsCat, "Nombre de poligons elementals",
VSIFPrintfL(m_MMMap.fMMMap, "[VERSIO]\n");
#define MM_IsDoubleInfinite(x) EsDoubleInfinit((x))
https://www.miramon.cat/help/eng/GeMPlus/ClausREL.htm
fprintf_function(pF, "[%s]" LineReturn, SECTION_VERSIO);
fprintf_function(pF, "NomCampPerimetre=%s" LineReturn,
fprintf_function(pF, "NomCampNPoligons=%s" LineReturn,
MMReturnValueFromSectionINIFile(szREL_file, SECTION_VERSIO, nullptr);
MMReturnValueFromSectionINIFile(szREL_file, SECTION_VERSIO, KEY_Vers);
pszLine = MMReturnValueFromSectionINIFile(szREL_file, SECTION_VERSIO,
assert f.GetField("PERIMETRE") == pytest.approx(1289.866489495, abs=1e-5)
assert f.GetField("PERIMETRE") == pytest.approx(1123.514024, abs=1e-5)
assert f.GetField("PERIMETRE") == pytest.approx(680.544697, abs=1e-5)
assert f["PERIMETRE"] == [3.414, 3.414]
assert f["PERIMETRE"] == [32, 32]
# Package substitutefont no longer exists since TeXLive 2023 later than August 2023
.GetFieldDefn(lyr.GetLayerDefn().GetFieldIndex("LOGICALY"))
assert f.GetField("LOGICALY") == 1
* <li>JOIN_STYLE=ROUND/MITRE/BEVEL</li>
* <li>MITRE_LIMIT=double</li>
else if (EQUAL(pszValue, "MITRE"))
nStyle = GEOSBUF_JOIN_MITRE;
else if (EQUAL(pszParam, "MITRE_LIMIT"))
"Invalid value for MITRE_LIMIT: %s", pszValue);
* <li>JOIN_STYLE=ROUND/MITRE/BEVEL</li>
* <li>MITRE_LIMIT=double</li>
DESCRIPTION=Staatliche Verwaltungs- und Sozialdienste wie öffentliche Verwaltung, Katastrophenschutz, Schulen und Krankenhäuser, die von öffentlichen oder privaten Einrichtungen erbracht werden, soweit sie in den Anwendungsbereich der Richtlinie 2007/2/EG fallen. Dieser Datensatz enthält Informationen zu Feuerwehrleitstellen.
# Disable cfchecker validation as it fails with a '(5): co-ordinate variable not monotonic'
* do not emit warnings about not having used [Dont]UseExceptions() if run under
// Hack for a file called MANAL_2023030103.grb2 that
.AddAlias("ot")