PrusaSlicer-NonPlainar/xs/xsp/my.map
2015-07-01 21:47:17 +02:00

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Plaintext

coordf_t T_NV
std::string T_STD_STRING
t_config_option_key T_STD_STRING
t_model_material_id T_STD_STRING
std::vector<std::string> T_STD_VECTOR_STD_STRING
std::vector<int> T_STD_VECTOR_INT
std::vector<Points::size_type> T_STD_VECTOR_INT
std::vector<size_t> T_STD_VECTOR_INT
std::vector<unsigned int> T_STD_VECTOR_UINT
std::vector<double> T_STD_VECTOR_DOUBLE
t_layer_height_ranges T_LAYER_HEIGHT_RANGES
BoundingBox* O_OBJECT_SLIC3R
Ref<BoundingBox> O_OBJECT_SLIC3R_T
Clone<BoundingBox> O_OBJECT_SLIC3R_T
BoundingBoxf* O_OBJECT_SLIC3R
Ref<BoundingBoxf> O_OBJECT_SLIC3R_T
Clone<BoundingBoxf> O_OBJECT_SLIC3R_T
BoundingBoxf3* O_OBJECT_SLIC3R
Ref<BoundingBoxf3> O_OBJECT_SLIC3R_T
Clone<BoundingBoxf3> O_OBJECT_SLIC3R_T
DynamicPrintConfig* O_OBJECT_SLIC3R
Ref<DynamicPrintConfig> O_OBJECT_SLIC3R_T
PrintObjectConfig* O_OBJECT_SLIC3R
Ref<PrintObjectConfig> O_OBJECT_SLIC3R_T
PrintRegionConfig* O_OBJECT_SLIC3R
Ref<PrintRegionConfig> O_OBJECT_SLIC3R_T
GCodeConfig* O_OBJECT_SLIC3R
Ref<GCodeConfig> O_OBJECT_SLIC3R_T
PrintConfig* O_OBJECT_SLIC3R
Ref<PrintConfig> O_OBJECT_SLIC3R_T
FullPrintConfig* O_OBJECT_SLIC3R
Ref<FullPrintConfig> O_OBJECT_SLIC3R_T
ZTable* O_OBJECT
TriangleMesh* O_OBJECT_SLIC3R
Ref<TriangleMesh> O_OBJECT_SLIC3R_T
Clone<TriangleMesh> O_OBJECT_SLIC3R_T
Point* O_OBJECT_SLIC3R
Ref<Point> O_OBJECT_SLIC3R_T
Clone<Point> O_OBJECT_SLIC3R_T
Point3* O_OBJECT_SLIC3R
Ref<Point3> O_OBJECT_SLIC3R_T
Clone<Point3> O_OBJECT_SLIC3R_T
Pointf* O_OBJECT_SLIC3R
Ref<Pointf> O_OBJECT_SLIC3R_T
Clone<Pointf> O_OBJECT_SLIC3R_T
Pointf3* O_OBJECT_SLIC3R
Ref<Pointf3> O_OBJECT_SLIC3R_T
Clone<Pointf3> O_OBJECT_SLIC3R_T
Line* O_OBJECT_SLIC3R
Ref<Line> O_OBJECT_SLIC3R_T
Clone<Line> O_OBJECT_SLIC3R_T
Linef3* O_OBJECT_SLIC3R
Ref<Linef3> O_OBJECT_SLIC3R_T
Clone<Linef3> O_OBJECT_SLIC3R_T
Polyline* O_OBJECT_SLIC3R
Ref<Polyline> O_OBJECT_SLIC3R_T
Clone<Polyline> O_OBJECT_SLIC3R_T
PolylineCollection* O_OBJECT_SLIC3R
Ref<PolylineCollection> O_OBJECT_SLIC3R_T
Clone<PolylineCollection> O_OBJECT_SLIC3R_T
Polygon* O_OBJECT_SLIC3R
Ref<Polygon> O_OBJECT_SLIC3R_T
Clone<Polygon> O_OBJECT_SLIC3R_T
ExPolygon* O_OBJECT_SLIC3R
Ref<ExPolygon> O_OBJECT_SLIC3R_T
Clone<ExPolygon> O_OBJECT_SLIC3R_T
ExPolygonCollection* O_OBJECT_SLIC3R
Ref<ExPolygonCollection> O_OBJECT_SLIC3R_T
Clone<ExPolygonCollection> O_OBJECT_SLIC3R_T
ExtrusionEntityCollection* O_OBJECT_SLIC3R
Ref<ExtrusionEntityCollection> O_OBJECT_SLIC3R_T
Clone<ExtrusionEntityCollection> O_OBJECT_SLIC3R_T
ExtrusionPath* O_OBJECT_SLIC3R
Ref<ExtrusionPath> O_OBJECT_SLIC3R_T
Clone<ExtrusionPath> O_OBJECT_SLIC3R_T
ExtrusionLoop* O_OBJECT_SLIC3R
Ref<ExtrusionLoop> O_OBJECT_SLIC3R_T
Clone<ExtrusionLoop> O_OBJECT_SLIC3R_T
Flow* O_OBJECT_SLIC3R
Ref<Flow> O_OBJECT_SLIC3R_T
Clone<Flow> O_OBJECT_SLIC3R_T
PrintState* O_OBJECT_SLIC3R
Ref<PrintState> O_OBJECT_SLIC3R_T
Surface* O_OBJECT_SLIC3R
Ref<Surface> O_OBJECT_SLIC3R_T
Clone<Surface> O_OBJECT_SLIC3R_T
SurfaceCollection* O_OBJECT_SLIC3R
Ref<SurfaceCollection> O_OBJECT_SLIC3R_T
Extruder* O_OBJECT_SLIC3R
Ref<Extruder> O_OBJECT_SLIC3R_T
Clone<Extruder> O_OBJECT_SLIC3R_T
Model* O_OBJECT_SLIC3R
Ref<Model> O_OBJECT_SLIC3R_T
Clone<Model> O_OBJECT_SLIC3R_T
ModelMaterial* O_OBJECT_SLIC3R
Ref<ModelMaterial> O_OBJECT_SLIC3R_T
Clone<ModelMaterial> O_OBJECT_SLIC3R_T
ModelObject* O_OBJECT_SLIC3R
Ref<ModelObject> O_OBJECT_SLIC3R_T
Clone<ModelObject> O_OBJECT_SLIC3R_T
ModelVolume* O_OBJECT_SLIC3R
Ref<ModelVolume> O_OBJECT_SLIC3R_T
Clone<ModelVolume> O_OBJECT_SLIC3R_T
ModelInstance* O_OBJECT_SLIC3R
Ref<ModelInstance> O_OBJECT_SLIC3R_T
Clone<ModelInstance> O_OBJECT_SLIC3R_T
PrintRegion* O_OBJECT_SLIC3R
Ref<PrintRegion> O_OBJECT_SLIC3R_T
PrintObject* O_OBJECT_SLIC3R
Ref<PrintObject> O_OBJECT_SLIC3R_T
Print* O_OBJECT_SLIC3R
Ref<Print> O_OBJECT_SLIC3R_T
Clone<Print> O_OBJECT_SLIC3R_T
LayerRegion* O_OBJECT_SLIC3R
Ref<LayerRegion> O_OBJECT_SLIC3R_T
Layer* O_OBJECT_SLIC3R
Ref<Layer> O_OBJECT_SLIC3R_T
SupportLayer* O_OBJECT_SLIC3R
Ref<SupportLayer> O_OBJECT_SLIC3R_T
PlaceholderParser* O_OBJECT_SLIC3R
Ref<PlaceholderParser> O_OBJECT_SLIC3R_T
Clone<PlaceholderParser> O_OBJECT_SLIC3R_T
AvoidCrossingPerimeters* O_OBJECT_SLIC3R
Ref<AvoidCrossingPerimeters> O_OBJECT_SLIC3R_T
Clone<AvoidCrossingPerimeters> O_OBJECT_SLIC3R_T
Wipe* O_OBJECT_SLIC3R
Ref<Wipe> O_OBJECT_SLIC3R_T
Clone<Wipe> O_OBJECT_SLIC3R_T
OozePrevention* O_OBJECT_SLIC3R
Ref<OozePrevention> O_OBJECT_SLIC3R_T
Clone<OozePrevention> O_OBJECT_SLIC3R_T
GCode* O_OBJECT_SLIC3R
Ref<GCode> O_OBJECT_SLIC3R_T
Clone<GCode> O_OBJECT_SLIC3R_T
MotionPlanner* O_OBJECT_SLIC3R
Ref<MotionPlanner> O_OBJECT_SLIC3R_T
Clone<MotionPlanner> O_OBJECT_SLIC3R_T
GCodeWriter* O_OBJECT_SLIC3R
Ref<GCodeWriter> O_OBJECT_SLIC3R_T
Clone<GCodeWriter> O_OBJECT_SLIC3R_T
BridgeDetector* O_OBJECT_SLIC3R
Ref<BridgeDetector> O_OBJECT_SLIC3R_T
Clone<BridgeDetector> O_OBJECT_SLIC3R_T
GLVertexArray* O_OBJECT_SLIC3R
Axis T_UV
ExtrusionLoopRole T_UV
ExtrusionRole T_UV
FlowRole T_UV
PrintStep T_UV
PrintObjectStep T_UV
SurfaceType T_UV
ClipperLib::JoinType T_UV
ClipperLib::PolyFillType T_UV
# we return these types whenever we want the items to be cloned
Points T_ARRAYREF
Pointfs T_ARRAYREF
Lines T_ARRAYREF
Polygons T_ARRAYREF
Polylines T_ARRAYREF
ExPolygons T_ARRAYREF
ExtrusionPaths T_ARRAYREF
Surfaces T_ARRAYREF
# we return these types whenever we want the items to be returned
# by reference and marked ::Ref because they're contained in another
# Perl object
Polygons* T_ARRAYREF_PTR
ModelObjectPtrs* T_PTR_ARRAYREF_PTR
ModelVolumePtrs* T_PTR_ARRAYREF_PTR
ModelInstancePtrs* T_PTR_ARRAYREF_PTR
PrintRegionPtrs* T_PTR_ARRAYREF_PTR
PrintObjectPtrs* T_PTR_ARRAYREF_PTR
LayerPtrs* T_PTR_ARRAYREF_PTR
SupportLayerPtrs* T_PTR_ARRAYREF_PTR
# we return these types whenever we want the items to be returned
# by reference and not marked ::Ref because they're newly allocated
# and not referenced by any Perl object
TriangleMeshPtrs T_PTR_ARRAYREF
INPUT
T_STD_STRING
{
size_t len;
const char * c = SvPV($arg, len);
$var = std::string(c, len);
}
T_STD_VECTOR_STD_STRING
if (SvROK($arg) && SvTYPE(SvRV($arg))==SVt_PVAV) {
AV* av = (AV*)SvRV($arg);
const unsigned int alen = av_len(av)+1;
$var = std::vector<std::string>(alen);
STRLEN len;
char* tmp;
SV** elem;
for (unsigned int i = 0; i < alen; i++) {
elem = av_fetch(av, i, 0);
if (elem != NULL) {
tmp = SvPV(*elem, len);
${var}[i] = std::string(tmp, len);
}
else
${var}[i] = std::string(\"\");
}
}
else
Perl_croak(aTHX_ \"%s: %s is not an array reference\",
${$ALIAS?\q[GvNAME(CvGV(cv))]:\qq[\"$pname\"]},
\"$var\");
T_STD_VECTOR_INT
if (SvROK($arg) && SvTYPE(SvRV($arg))==SVt_PVAV) {
AV* av = (AV*)SvRV($arg);
const unsigned int len = av_len(av)+1;
$var = std::vector<int>(len);
SV** elem;
for (unsigned int i = 0; i < len; i++) {
elem = av_fetch(av, i, 0);
if (elem != NULL)
${var}[i] = SvIV(*elem);
else
${var}[i] = 0;
}
}
else
Perl_croak(aTHX_ \"%s: %s is not an array reference\",
${$ALIAS?\q[GvNAME(CvGV(cv))]:\qq[\"$pname\"]},
\"$var\");
T_STD_VECTOR_UINT
if (SvROK($arg) && SvTYPE(SvRV($arg))==SVt_PVAV) {
AV* av = (AV*)SvRV($arg);
const unsigned int len = av_len(av)+1;
$var = std::vector<unsigned int>(len);
SV** elem;
for (unsigned int i = 0; i < len; i++) {
elem = av_fetch(av, i, 0);
if (elem != NULL)
${var}[i] = SvUV(*elem);
else
${var}[i] = 0;
}
}
else
Perl_croak(aTHX_ \"%s: %s is not an array reference\",
${$ALIAS?\q[GvNAME(CvGV(cv))]:\qq[\"$pname\"]},
\"$var\");
T_STD_VECTOR_DOUBLE
if (SvROK($arg) && SvTYPE(SvRV($arg))==SVt_PVAV) {
AV* av = (AV*)SvRV($arg);
const unsigned int len = av_len(av)+1;
$var = std::vector<double>(len);
SV** elem;
for (unsigned int i = 0; i < len; i++) {
elem = av_fetch(av, i, 0);
if (elem != NULL)
${var}[i] = SvNV(*elem);
else
${var}[i] = 0.;
}
}
else
Perl_croak(aTHX_ \"%s: %s is not an array reference\",
${$ALIAS?\q[GvNAME(CvGV(cv))]:\qq[\"$pname\"]},
\"$var\");
O_OBJECT_SLIC3R
if( sv_isobject($arg) && (SvTYPE(SvRV($arg)) == SVt_PVMG) ) {
if ( sv_isa($arg, perl_class_name($var) ) || sv_isa($arg, perl_class_name_ref($var) )) {
$var = ($type)SvIV((SV*)SvRV( $arg ));
} else {
croak(\"$var is not of type %s (got %s)\", perl_class_name($var), HvNAME(SvSTASH(SvRV($arg))));
XSRETURN_UNDEF;
}
} else {
warn( \"${Package}::$func_name() -- $var is not a blessed SV reference\" );
XSRETURN_UNDEF;
}
T_ARRAYREF
if (SvROK($arg) && SvTYPE(SvRV($arg)) == SVt_PVAV) {
AV* av = (AV*)SvRV($arg);
const unsigned int len = av_len(av)+1;
$var.resize(len);
for (unsigned int i = 0; i < len; i++) {
SV** elem = av_fetch(av, i, 0);
$var\[i].from_SV_check(*elem);
}
} else
Perl_croak(aTHX_ \"%s: %s is not an array reference\",
${$ALIAS?\q[GvNAME(CvGV(cv))]:\qq[\"$pname\"]},
\"$var\");
T_LAYER_HEIGHT_RANGES
{
if (!SvROK($arg) || SvTYPE(SvRV($arg)) != SVt_PVAV) {
Perl_croak(aTHX_ \"%s: %s is not an array reference\",
${$ALIAS?\q[GvNAME(CvGV(cv))]:\qq[\"$pname\"]},
\"$var\");
}
AV* av = (AV*)SvRV($arg);
const unsigned int len = av_len(av)+1;
t_layer_height_ranges tmp_ranges;
for (unsigned int i = 0; i < len; i++) {
SV* elem = *av_fetch(av, i, 0);
if (!SvROK(elem) || SvTYPE(SvRV(elem)) != SVt_PVAV) {
Perl_croak(
aTHX_ \"%s: %s contains something that is not an array reference\",
${$ALIAS?\q[GvNAME(CvGV(cv))]:\qq[\"$pname\"]},
\"$var\");
}
AV* elemAV = (AV*)SvRV(elem);
if (av_len(elemAV) + 1 != 3) {
Perl_croak(
aTHX_ \"%s: %s contains an array that isn't 3 elements long\",
${$ALIAS?\q[GvNAME(CvGV(cv))]:\qq[\"$pname\"]},
\"$var\");
}
coordf_t vals[3];
for (unsigned int j = 0; j < 3; ++j) {
SV *elem_elem = *av_fetch(elemAV, j, 0);
if (!looks_like_number(elem_elem)) {
Perl_croak(
aTHX_ \"%s: layer ranges and heights must be numbers\",
${$ALIAS?\q[GvNAME(CvGV(cv))]:\qq[\"$pname\"]});
}
vals[j] = SvNV(elem_elem);
}
tmp_ranges[t_layer_height_range(vals[0], vals[1])] = vals[2];
}
$var = tmp_ranges;
}
OUTPUT
T_STD_STRING
$arg = newSVpvn_utf8( $var.c_str(), $var.length(), true );
T_STD_VECTOR_STD_STRING
AV* av = newAV();
$arg = newRV_noinc((SV*)av);
sv_2mortal($arg);
const unsigned int len = $var.size();
if (len)
av_extend(av, len-1);
for (unsigned int i = 0; i < len; i++) {
const std::string& str = ${var}[i];
STRLEN len = str.length();
av_store(av, i, newSVpvn_utf8(str.c_str(), len, true));
}
T_STD_VECTOR_INT
AV* av = newAV();
$arg = newRV_noinc((SV*)av);
sv_2mortal($arg);
const unsigned int len = $var.size();
if (len)
av_extend(av, len-1);
for (unsigned int i = 0; i < len; i++) {
av_store(av, i, newSViv(${var}[i]));
}
T_STD_VECTOR_UINT
AV* av = newAV();
$arg = newRV_noinc((SV*)av);
sv_2mortal($arg);
const unsigned int len = $var.size();
if (len)
av_extend(av, len-1);
for (unsigned int i = 0; i < len; i++) {
av_store(av, i, newSVuv(${var}[i]));
}
T_STD_VECTOR_DOUBLE
AV* av = newAV();
$arg = newRV_noinc((SV*)av);
sv_2mortal($arg);
const unsigned int len = $var.size();
if (len)
av_extend(av, len-1);
for (unsigned int i = 0; i < len; i++) {
av_store(av, i, newSVnv(${var}[i]));
}
# return object from pointer
O_OBJECT_SLIC3R
if ($var == NULL)
XSRETURN_UNDEF;
sv_setref_pv( $arg, perl_class_name($var), (void*)$var );
# return value handled by template class
O_OBJECT_SLIC3R_T
if ($var == NULL)
XSRETURN_UNDEF;
sv_setref_pv( $arg, $type\::CLASS(), (void*)$var );
T_ARRAYREF
AV* av = newAV();
$arg = newRV_noinc((SV*)av);
sv_2mortal($arg);
const unsigned int len = $var.size();
if (len > 0) av_extend(av, len-1);
int i = 0;
for (${type}::const_iterator it = $var.begin(); it != $var.end(); ++it) {
av_store(av, i++, perl_to_SV_clone_ref(*it));
}
T_ARRAYREF_PTR
AV* av = newAV();
$arg = newRV_noinc((SV*)av);
sv_2mortal($arg);
const unsigned int len = $var->size();
if (len > 0) av_extend(av, len-1);
int i = 0;
for (${ my $t = $type; $t =~ s/\*$//; \$t }::iterator it = $var->begin(); it != $var->end(); ++it) {
av_store(av, i++, perl_to_SV_ref(*it));
}
T_PTR_ARRAYREF_PTR
AV* av = newAV();
$arg = newRV_noinc((SV*)av);
sv_2mortal($arg);
const unsigned int len = $var->size();
if (len > 0) av_extend(av, len-1);
int i = 0;
for (${ my $t = $type; $t =~ s/\*$//; \$t }::iterator it = $var->begin(); it != $var->end(); ++it) {
av_store(av, i++, perl_to_SV_ref(**it));
}
T_PTR_ARRAYREF
AV* av = newAV();
$arg = newRV_noinc((SV*)av);
sv_2mortal($arg);
const unsigned int len = $var.size();
if (len > 0) av_extend(av, len-1);
int i = 0;
for (${type}::iterator it = $var.begin(); it != $var.end(); ++it) {
av_store(av, i++, (*it)->to_SV());
}
T_LAYER_HEIGHT_RANGES
AV* av = newAV();
$arg = newRV_noinc((SV*)av);
sv_2mortal($arg);
const unsigned int len = $var.size();
if (len > 0) av_extend(av, len-1);
// map is sorted, so we can just copy it in order
int i = 0;
for (${type}::iterator it = $var.begin(); it != $var.end(); ++it) {
const coordf_t range_values[] = {
it->first.first, // key's first = minz
it->first.second, // key's second = maxz
it->second, // value = height
};
AV *rangeAV = newAV();
av_extend(rangeAV, 2);
for (int j = 0; j < 3; ++j) {
av_store(rangeAV, j, newSVnv(range_values[j]));
}
av_store(av, i++, (SV*)newRV_noinc((SV*)rangeAV));
}