23 namespace SOP_QuadRemeshOGEnums
42 myDecimationLevel = 2;
43 myFeatureEdges =
""_UTsh;
44 myFeatureBoundaries =
false;
45 myFeatureSharpEdges =
false;
48 myTargetQuadCount = 10000;
50 mySkipFinalSubdiv =
false;
63 if (myGroup != src.myGroup)
return false;
64 if (myDecimationLevel != src.myDecimationLevel)
return false;
65 if (myFeatureEdges != src.myFeatureEdges)
return false;
66 if (myFeatureBoundaries != src.myFeatureBoundaries)
return false;
67 if (myFeatureSharpEdges != src.myFeatureSharpEdges)
return false;
68 if (myAlignment != src.myAlignment)
return false;
69 if (myAnisotropy != src.myAnisotropy)
return false;
70 if (myTargetQuadCount != src.myTargetQuadCount)
return false;
71 if (myOutput != src.myOutput)
return false;
72 if (mySkipFinalSubdiv != src.mySkipFinalSubdiv)
return false;
88 graph->
evalOpParm(myGroup, nodeidx,
"group", time, 0);
89 myDecimationLevel = 2;
91 graph->
evalOpParm(myDecimationLevel, nodeidx,
"decimationlevel", time, 0);
92 myFeatureEdges =
""_UTsh;
94 graph->
evalOpParm(myFeatureEdges, nodeidx,
"featuredges", time, 0);
95 myFeatureBoundaries =
false;
97 graph->
evalOpParm(myFeatureBoundaries, nodeidx,
"featureboundaries", time, 0);
98 myFeatureSharpEdges =
false;
100 graph->
evalOpParm(myFeatureSharpEdges, nodeidx,
"featuresharpedges", time, 0);
103 graph->
evalOpParm(myAlignment, nodeidx,
"alignment", time, 0);
106 graph->
evalOpParm(myAnisotropy, nodeidx,
"anisotropy", time, 0);
107 myTargetQuadCount = 10000;
109 graph->
evalOpParm(myTargetQuadCount, nodeidx,
"targetquadcount", time, 0);
112 graph->
evalOpParm(myOutput, nodeidx,
"output", time, 0);
113 mySkipFinalSubdiv =
false;
114 if (
true && ( (
true&&!(((
int64(getOutput())!=0)))) ) )
115 graph->
evalOpParm(mySkipFinalSubdiv, nodeidx,
"skipfinalsubdiv", time, 0);
131 template <
typename T>
138 if (idx.
size() != instance.
size()+1)
186 { doGetParmValue(idx, instance, value); }
188 { doGetParmValue(idx, instance, value); }
190 { doGetParmValue(idx, instance, value); }
192 { doGetParmValue(idx, instance, value); }
194 { doGetParmValue(idx, instance, value); }
196 { doGetParmValue(idx, instance, value); }
198 { doGetParmValue(idx, instance, value); }
200 { doGetParmValue(idx, instance, value); }
202 { doGetParmValue(idx, instance, value); }
204 { doGetParmValue(idx, instance, value); }
206 { doGetParmValue(idx, instance, value); }
208 template <
typename T>
215 if (idx.
size() != instance.
size()+1)
254 { doSetParmValue(idx, instance, value); }
256 { doSetParmValue(idx, instance, value); }
258 { doSetParmValue(idx, instance, value); }
260 { doSetParmValue(idx, instance, value); }
262 { doSetParmValue(idx, instance, value); }
264 { doSetParmValue(idx, instance, value); }
266 { doSetParmValue(idx, instance, value); }
268 { doSetParmValue(idx, instance, value); }
270 { doSetParmValue(idx, instance, value); }
272 { doSetParmValue(idx, instance, value); }
274 { doSetParmValue(idx, instance, value); }
290 if (fieldnum.
size() < 1)
297 return "decimationlevel";
299 return "featuredges";
301 return "featureboundaries";
303 return "featuresharpedges";
309 return "targetquadcount";
313 return "skipfinalsubdiv";
321 if (fieldnum.
size() < 1)
322 return PARM_UNSUPPORTED;
366 {
for (
int r = 0;
r < 2;
r++)
for (
int c = 0; c < 2; c++) is.
bread<
fpreal64>(&v(
r, c), 1); }
368 {
for (
int r = 0;
r < 3;
r++)
for (
int c = 0; c < 3; c++) is.
bread<
fpreal64>(&v(
r, c), 1); }
370 {
for (
int r = 0;
r < 4;
r++)
for (
int c = 0; c < 4; c++) is.
bread<
fpreal64>(&v(
r, c), 1); }
383 loadData(is, rampdata);
401 int typelen = colon - data.
buffer();
415 {
int64 iv =
v; UTwrite(os, &iv); }
417 { UTwrite<fpreal64>(os, &
v); }
419 { UTwrite<fpreal64>(os, &v.
x()); UTwrite<fpreal64>(os, &v.
y()); }
421 { UTwrite<fpreal64>(os, &v.
x()); UTwrite<fpreal64>(os, &v.
y());
422 UTwrite<fpreal64>(os, &v.
z()); }
424 { UTwrite<fpreal64>(os, &v.
x()); UTwrite<fpreal64>(os, &v.
y());
425 UTwrite<fpreal64>(os, &v.
z()); UTwrite<fpreal64>(os, &v.
w()); }
437 if (s) s->save(ostr);
439 saveData(os, result);
446 ostr << s->getDataTypeToken();
451 saveData(os, result);
455 void save(std::ostream &os)
const
459 saveData(os, myGroup);
460 saveData(os, myDecimationLevel);
461 saveData(os, myFeatureEdges);
462 saveData(os, myFeatureBoundaries);
463 saveData(os, myFeatureSharpEdges);
464 saveData(os, myAlignment);
465 saveData(os, myAnisotropy);
466 saveData(os, myTargetQuadCount);
467 saveData(os, myOutput);
468 saveData(os, mySkipFinalSubdiv);
481 loadData(is, myGroup);
482 loadData(is, myDecimationLevel);
483 loadData(is, myFeatureEdges);
484 loadData(is, myFeatureBoundaries);
485 loadData(is, myFeatureSharpEdges);
486 loadData(is, myAlignment);
487 loadData(is, myAnisotropy);
488 loadData(is, myTargetQuadCount);
489 loadData(is, myOutput);
490 loadData(is, mySkipFinalSubdiv);
500 if (!thissop)
return getGroup();
502 OP_Utils::evalOpParm(result, thissop,
"group", cookparms.
getCookTime(), 0);
510 if (!thissop)
return getDecimationLevel();
512 OP_Utils::evalOpParm(result, thissop,
"decimationlevel", cookparms.
getCookTime(), 0);
520 if (!thissop)
return getFeatureEdges();
522 OP_Utils::evalOpParm(result, thissop,
"featuredges", cookparms.
getCookTime(), 0);
530 if (!thissop)
return getFeatureBoundaries();
532 OP_Utils::evalOpParm(result, thissop,
"featureboundaries", cookparms.
getCookTime(), 0);
540 if (!thissop)
return getFeatureSharpEdges();
542 OP_Utils::evalOpParm(result, thissop,
"featuresharpedges", cookparms.
getCookTime(), 0);
550 if (!thissop)
return getAlignment();
552 OP_Utils::evalOpParm(result, thissop,
"alignment", cookparms.
getCookTime(), 0);
560 if (!thissop)
return getAnisotropy();
562 OP_Utils::evalOpParm(result, thissop,
"anisotropy", cookparms.
getCookTime(), 0);
570 if (!thissop)
return getTargetQuadCount();
572 OP_Utils::evalOpParm(result, thissop,
"targetquadcount", cookparms.
getCookTime(), 0);
580 if (!thissop)
return getOutput();
582 OP_Utils::evalOpParm(result, thissop,
"output", cookparms.
getCookTime(), 0);
590 if (!thissop)
return getSkipFinalSubdiv();
592 OP_Utils::evalOpParm(result, thissop,
"skipfinalsubdiv", cookparms.
getCookTime(), 0);
598 int64 myDecimationLevel;
600 bool myFeatureBoundaries;
601 bool myFeatureSharpEdges;
604 int64 myTargetQuadCount;
606 bool mySkipFinalSubdiv;
exint getNestNumParms(TempIndex idx) const override
static void loadData(UT_IStream &is, UT_Vector3I &v)
static void saveData(std::ostream &os, bool v)
void setNestParmValue(TempIndex idx, TempIndex instance, const UT_Vector4D &value) override
void setDecimationLevel(int64 val)
void save(std::ostream &os) const
void getNestParmValue(TempIndex idx, TempIndex instance, UT_Matrix3D &value) const override
SOP_Node * getNode() const
void getNestParmValue(TempIndex idx, TempIndex instance, UT_Vector3D &value) const override
void setAnisotropy(fpreal64 val)
bool opSkipFinalSubdiv(const SOP_NodeVerb::CookParms &cookparms) const
static void loadData(UT_IStream &is, UT_Vector4D &v)
int64 getTargetQuadCount() const
static void saveData(std::ostream &os, UT_Vector3D v)
T clampMaxValue(fpreal maxvalue, const T &src) const
static void loadData(UT_IStream &is, UT_Vector2D &v)
void setNestParmValue(TempIndex idx, TempIndex instance, const UT_StringHolder &value) override
bool getFeatureBoundaries() const
exint bread(int32 *buffer, exint asize=1)
GT_API const UT_StringHolder time
void getNestParmValue(TempIndex idx, TempIndex instance, UT_Vector2D &value) const override
constexpr SYS_FORCE_INLINE T & y() noexcept
int64 opDecimationLevel(const SOP_NodeVerb::CookParms &cookparms) const
static void loadData(UT_IStream &is, bool &v)
void setOutput(Output val)
static void saveData(std::ostream &os, UT_Matrix3D v)
void setNestParmValue(TempIndex idx, TempIndex instance, const fpreal &value) override
void setSkipFinalSubdiv(bool val)
const OP_Context & context() const
void buildFromOp(const OP_GraphProxy *graph, exint nodeidx, fpreal time, DEP_MicroNode *depnode)
constexpr SYS_FORCE_INLINE T & z() noexcept
void setGroup(const UT_StringHolder &val)
void setNestParmValue(TempIndex idx, TempIndex instance, const UT_Vector3D &value) override
SYS_FORCE_INLINE const char * buffer() const
fpreal64 opAlignment(const SOP_NodeVerb::CookParms &cookparms) const
void setNestParmValue(TempIndex idx, TempIndex instance, const UT_Vector2D &value) override
void setFeatureSharpEdges(bool val)
static void loadData(UT_IStream &is, PRM_DataItemHandle &v)
void getNestParmValue(TempIndex idx, TempIndex instance, UT_Vector4D &value) const override
An output stream object that owns its own string buffer storage.
void loadFromOpSubclass(const LoadParms &loadparms) override
void setNestParmValue(TempIndex idx, TempIndex instance, const PRM_DataItemHandle &value) override
static void saveData(std::ostream &os, PRM_DataItemHandle s)
**But if you need a result
int64 getDecimationLevel() const
T clampMinValue(fpreal minvalue, const T &src) const
ParmType getNestParmType(TempIndex fieldnum) const override
static PRM_DataItemHandle parseBinary(const char *type, UT_IStream &is)
const UT_StringHolder & getFeatureEdges() const
const UT_WorkBuffer & str()
Returns a read-only reference to the underlying UT_WorkBuffer.
void getNestParmValue(TempIndex idx, TempIndex instance, UT_StringHolder &value) const override
constexpr SYS_FORCE_INLINE T & x() noexcept
void doSetParmValue(TempIndex idx, TempIndex instance, const T &value)
fpreal64 getAlignment() const
void setTargetQuadCount(int64 val)
void getNestParmValue(TempIndex idx, TempIndex instance, UT_Matrix2D &value) const override
bool getFeatureSharpEdges() const
constexpr SYS_FORCE_INLINE T & x() noexcept
bool operator==(const BaseDimensions< T > &a, const BaseDimensions< Y > &b)
static void loadData(UT_IStream &is, UT_Matrix2D &v)
static void saveData(std::ostream &os, UT_SharedPtr< UT_Ramp > s)
static void loadData(UT_IStream &is, fpreal64 &v)
void setNestParmValue(TempIndex idx, TempIndex instance, const UT_Matrix4D &value) override
void setNestParmValue(TempIndex idx, TempIndex instance, const UT_Matrix2D &value) override
void setNestParmValue(TempIndex idx, TempIndex instance, const UT_Matrix3D &value) override
fpreal64 getAnisotropy() const
SYS_FORCE_INLINE const char * buffer() const
std::shared_ptr< T > UT_SharedPtr
Wrapper around std::shared_ptr.
constexpr SYS_FORCE_INLINE T & z() noexcept
bool operator==(const SOP_QuadRemeshOGParms &src) const
UT_StringHolder opFeatureEdges(const SOP_NodeVerb::CookParms &cookparms) const
const UT_StringHolder & getGroup() const
const OP_GraphProxy * graph() const
void getNestParmValue(TempIndex idx, TempIndex instance, UT_SharedPtr< UT_Ramp > &value) const override
static void saveData(std::ostream &os, UT_StringHolder s)
void getNestParmValue(TempIndex idx, TempIndex instance, PRM_DataItemHandle &value) const override
void setNestParmValue(TempIndex idx, TempIndex instance, const exint &value) override
bool opFeatureSharpEdges(const SOP_NodeVerb::CookParms &cookparms) const
static void loadData(UT_IStream &is, UT_Vector4I &v)
void setAlignment(fpreal64 val)
bool opFeatureBoundaries(const SOP_NodeVerb::CookParms &cookparms) const
static void saveData(std::ostream &os, UT_Vector4D v)
virtual void evalOpParm(int64 &v, NodeIdx node, const char *parmname, fpreal time, DEP_MicroNode *depnode) const =0
static void loadData(UT_IStream &is, UT_Vector3D &v)
const char * getNestParmName(TempIndex fieldnum) const override
void saveBinary(std::ostream &os) const
Save string to binary stream.
GT_API const UT_StringHolder version
static void loadData(UT_IStream &is, UT_Vector2I &v)
static void loadData(UT_IStream &is, UT_StringHolder &v)
void getNestParmValue(TempIndex idx, TempIndex instance, fpreal &value) const override
void coerceValue(T &result, const S &src) const
void setNestParmValue(TempIndex idx, TempIndex instance, const UT_SharedPtr< UT_Ramp > &value) override
static void saveData(std::ostream &os, UT_Matrix4D v)
DEP_MicroNode * depnode() const
void getNestParmValue(TempIndex idx, TempIndex instance, exint &value) const override
Utility class for containing a color ramp.
int64 opTargetQuadCount(const SOP_NodeVerb::CookParms &cookparms) const
static void loadData(UT_IStream &is, int64 &v)
constexpr SYS_FORCE_INLINE T & w() noexcept
bool load(UT_IStream &is)
static void loadData(UT_IStream &is, UT_Matrix3D &v)
bool operator!=(const SOP_QuadRemeshOGParms &src) const
fpreal getCookTime() const
static void saveData(std::ostream &os, UT_Vector2D v)
const char * findChar(int c) const
static void loadData(UT_IStream &is, UT_Matrix4D &v)
static void loadData(UT_IStream &is, UT_SharedPtr< UT_Ramp > &v)
UT_StringHolder opGroup(const SOP_NodeVerb::CookParms &cookparms) const
bool getSkipFinalSubdiv() const
void setFeatureEdges(const UT_StringHolder &val)
void setFeatureBoundaries(bool val)
constexpr SYS_FORCE_INLINE T & y() noexcept
static void saveData(std::ostream &os, UT_Matrix2D v)
Output opOutput(const SOP_NodeVerb::CookParms &cookparms) const
UT_SharedPtr< const PRM_DataItem > PRM_DataItemHandle
bool isParmColorRamp(exint idx) const override
constexpr SYS_FORCE_INLINE T & y() noexcept
SYS_FORCE_INLINE bool isstring() const
static void saveData(std::ostream &os, fpreal64 v)
fpreal64 opAnisotropy(const SOP_NodeVerb::CookParms &cookparms) const
OP_NodeParms & operator=(const OP_NodeParms &)=default
void getNestParmValue(TempIndex idx, TempIndex instance, UT_Matrix4D &value) const override
SYS_FORCE_INLINE void strncpy(const char *src, exint maxlen)
void copyFrom(const OP_NodeParms *src) override
static void saveData(std::ostream &os, int64 v)
constexpr SYS_FORCE_INLINE T & x() noexcept
void doGetParmValue(TempIndex idx, TempIndex instance, T &value) const