/*!
* \brief Create a slot of given width around given 1D elements lying on a triangle mesh.
- * The slot is consrtucted by cutting faces by cylindrical surfaces made
+ * The slot is constructed by cutting faces by cylindrical surfaces made
* around each segment. Segments are expected to be created by MakePolyLine().
* \return Edges located at the slot boundary
*/
/*!
* \brief Define a pointer to wrapper over a function of gp_XY class,
* suitable to pass as xyFunPtr to ApplyIn2D().
- * For exaple gp_XY_FunPtr(Added) defines pointer gp_XY_Added to function
+ * For example gp_XY_FunPtr(Added) defines pointer gp_XY_Added to function
* calling gp_XY::Added(gp_XY), which is to be used like following
* ApplyIn2D(surf, uv1, uv2, gp_XY_Added)
*/
aCompDlg->myFullInfo->hide();
}
- // pbs of hypo dfinitions
+ // pbs of hypo definitions
if ( theNoHypoError ) {
aCompDlg->myHypErrorGroup->hide();
} else {
//================================================================================
/*!
- * \brief Returns a QLabel of a spesified parameter.
+ * \brief Returns a QLabel of a specified parameter.
* If isCreation(), the 1st label (supposed to be "Name") is not countered.
*/
//================================================================================
* \param theMess - Output parameter intended for returning error message
* \retval bool - TRUE if mesh is edited successfully, FALSE otherwise
*
- * Assigns new name hypotheses and algoriths to the mesh or sub-mesh
+ * Assigns new name hypotheses and algorithms to the mesh or sub-mesh
*/
//================================================================================
bool SMESHGUI_MeshOp::editMeshOrSubMesh( QString& theMess )
/*!
* \brief Find an element of given type most close to the given point
*
- * WARNING: Only face search is implemeneted so far
+ * WARNING: Only edge, face and volume search is implemented so far
*/
//=======================================================================
/*!
* Create a slot of given width around given 1D elements lying on a triangle mesh.
- * The slot is consrtucted by cutting faces by cylindrical surfaces made around each segment.
+ * The slot is constructed by cutting faces by cylindrical surfaces made around each segment.
* \return Edges located at the slot boundary
*/
// Implemented in ./SMESH_Slot.cxx
//================================================================================
/*!
* \brief Create a slot of given width around given 1D elements lying on a triangle mesh.
- * The slot is consrtucted by cutting faces by cylindrical surfaces made around each segment.
+ * The slot is constructed by cutting faces by cylindrical surfaces made around each segment.
* \return Edges located at the slot boundary
*/
//================================================================================
/*!
* SMESH_Gen_i::CreateHypothesis
*
- * Create hypothesis/algorothm of given type and publish it in the study
+ * Create hypothesis/algorithm of given type and publish it in the study
*/
//=============================================================================
// Update study
void UpdateStudy();
- // Create hypothesis/algorothm of given type
+ // Create hypothesis/algorithm of given type
SMESH::SMESH_Hypothesis_ptr CreateHypothesis (const char* theHypType,
const char* theLibName)
throw ( SALOME::SALOME_Exception );
//================================================================================
/*!
* \brief Create a slot of given width around given 1D elements lying on a triangle mesh.
- * The slot is consrtucted by cutting faces by cylindrical surfaces made
+ * The slot is constructed by cutting faces by cylindrical surfaces made
* around each segment. Segments are expected to be created by MakePolyLine().
* \return Edges located at the slot boundary
*/
/*!
* \brief Create a slot of given width around given 1D elements lying on a triangle mesh.
- * The slot is consrtucted by cutting faces by cylindrical surfaces made
+ * The slot is constructed by cutting faces by cylindrical surfaces made
* around each segment. Segments are expected to be created by MakePolyLine().
* \return Edges located at the slot boundary
*/
//================================================================================
/*!
- * \brief Createa a Dump Python script
+ * \brief Creates a Dump Python script
* \param [in,out] theObjectNames - map of an entry to a study and python name
* \param [in] theNames - - map of an entry to a study name
* \param [in] isPublished - \c true if dump of object publication in study is needed
"""
-# force SMESH importation at interpretor initialization
+# force SMESH importation at interpreter initialization
# see salome_shared_modules.py
# (avoids incomplete import at run time)
def MakeSlot(self, segmentGroup, width ):
"""
Create a slot of given width around given 1D elements lying on a triangle mesh.
- The slot is consrtucted by cutting faces by cylindrical surfaces made
+ The slot is constructed by cutting faces by cylindrical surfaces made
around each segment. Segments are expected to be created by MakePolyLine().
Returns:
/////////////////////////////////////////////////////////////////
/// \deprecated Publishing is done automatically.
-/// \deprecated Synonim of AddNewAlgorithm().
+/// \deprecated Synonym of AddNewAlgorithm().
/// \param ior IOR of the algorithm.
/// \param name Name of the algorithm (optional).
/// \return UID of the data object.
~StdMeshers_FaceSide();
- // static "consrtuctors"
+ // static "constructors"
static StdMeshers_FaceSidePtr New(const TopoDS_Face& Face,
const TopoDS_Edge& Edge,
SMESH_Mesh* Mesh,
// we wait here the scale factor, which is double.
// 2. If the hypothesis is stored in new format
// (nb.segments, distr.type, some other params.),
- // we wait here the ditribution type, which is integer
+ // we wait here the distribution type, which is integer
double scale_factor;
isOK = static_cast<bool>(load >> scale_factor);
a = (int)scale_factor;
- // try to interpret ditribution type,
+ // try to interpret distribution type,
// supposing that this hypothesis was written in the new format
if (isOK)
{
//================================================================================
/*!
- * \brief Computes a new node position using weigthed node positions
+ * \brief Computes a new node position using weighted node positions
*/
//================================================================================
//================================================================================
/*!
- * \brief Returms spacing to set to a hypothesis
+ * \brief Returns spacing to set to a hypothesis
*/
//================================================================================
=================================
MG-Cleaner hypothesis is not meshing hypothesis for Salome, but hypothesis for MG-Cleaner.
-The current set of parameters is automatically written in the salome study object browser when you run computation.
+The current set of parameters is automatically written in the Salome study object browser when you run computation.
-Theses parameters could also be stored in a special file.
+These parameters could also be stored in a special file.
Default file is $HOME/.MGCleaner.dat.
This ASCII file is appended, and never cleaned.
Mesh module for remeshing 2D Surface.
MG-Cleaner plug-in uses Distene commercial software MeshGems-Cleaner, which is an **automatic surface remeshing tool**.
-This plug_in offers only the most common functionnalities of the tool.
+This plug_in offers only the most common functionalities of the tool.
.. note::
for a complete documentation, see :download:`MG-cleaner user manual <files/mg-cleaner_user_manual.pdf>`.
=======================================
MeshGems-SurfOpt hypothesis is not a meshing hypothesis for Salome, but an hypothesis for MeshGems-SurfOpt.
-The current set of parameters is automatically written in the salome study object browser when you run computation.
+The current set of parameters is automatically written in the Salome study object browser when you run computation.
-Theses parameters could also be stored in a special file.
+These parameters could also be stored in a special file.
Default file is $HOME/.MGSurfOpt.dat.
This ASCII file is appended, and never cleaned.
Mesh module for remeshing 2D Surface.
MeshGems-SurfOpt plug-in uses Distene commercial software MeshGems-SurfOpt, which is an **automatic surface remeshing tool**.
-This plug-in offers only the most common functionnalities of the tool.
+This plug-in offers only the most common functionalities of the tool.
.. note::
for a complete documentation, see :download:`MeshGems-SurfOpt: The automatic surface remeshing tool of the MeshGems Suite <files/mg-surfopt_user_manual.pdf>`.
Discrete meshes are typically used to modelize civil components in rapid dynamic
computation problems (seisms, chocs). These components consists in concrete parts
embedding steal bares for reinforcement. These parts are input to the algorithm
-as standard finite elements meshes. The cells of theses meshes drive the location
+as standard finite elements meshes. The cells of these meshes drive the location
and sizing of particules.
In the med representation, a discrete mesh is described as MED_BALL elements.
{
//
- // Structure to transmit the parameters requiered for the job to run
+ // Structure to transmit the parameters required for the job to run
// the executable program on the target resource. See configure
// service.
//
//
// ========================================================================
- // Thi module defines an interface provided for testing the usage
+ // This module defines an interface provided for testing the usage
// of SPADDERPlugin components and underlying classes from within a
// C++ unit test running in a SALOME container (easy to run from a
// python client)..
protocol="ssh" batch="ssh_batch"
memInMB="500" CPUFreqMHz="0" nbOfNodes="1" nbOfProcPerNode="1"/>
- <!-- Specific configuration that only works on my workstation (needs ssh authentification) -->
+ <!-- Specific configuration that only works on my workstation (needs ssh authentication) -->
<machine name="boulant@claui2p1"
hostname="claui2p1" userName="boulant"
protocol="ssh" batch="ssh_batch"
memInMB="500" CPUFreqMHz="0" nbOfNodes="1" nbOfProcPerNode="1"/>
- <!-- Specific configuration that only works for nepal team (needs ssh authentification) -->
+ <!-- Specific configuration that only works for nepal team (needs ssh authentication) -->
<machine name="nepal@nepal"
hostname="nepal" userName="nepal"
protocol="ssh" batch="ssh_batch"
import SALOME_ModuleCatalog
catalog = obj._narrow(SALOME_ModuleCatalog.ModuleCatalog)
if not catalog:
- raise RuntimeError("Can't accesss module catalog")
+ raise RuntimeError("Can't access module catalog")
filename = getSpadderCatalogFilename()
catalog.ImportXmlCatalogFile(filename)
