Ciclos fixos personalizados
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Auto Cycle documentation
DMIS Syntax
CALL/EXTERN,DME,'AutoCycle','ALL','DEFAULT'
CALL/EXTERN,DME,'AutoCycle','ALL','DEFAULT'
Set the default algorithm for all the feature
CALL/EXTERN,DME,'AutoCycle','FeatureType','DEFAULT'
CALL/EXTERN,DME,'AutoCycle','FeatureType','DEFAULT'
FeatureType : ARC
| CIRCLE
| CONE
| CPARLN
| CYLNDR
| EDGEPT
| ELLIPS
| LINE
| PLANE
| SPHERE
| TORUS
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CALL/EXTERN,DME,'AutoCycle','FeatureType','PATTERN','HELICAL',pitch,start_angle,tot_angle
CALL/EXTERN,DME,'AutoCycle','FeatureType','PATTERN','HELICAL',pitch, $
start_angle,tot_angle
FeatureType : ARC
| CIRCLE
| CONE
| CYLNDR
| ELLIPS
| SPHERE
| TORUS
pitch: double
start_angle : double
;
tot_angle : double
;
pitch rappresents how much the helix go up in 360° (length dimension)
start_angle is the start angle (angle dimension)
tot_angle is the tot angle (angle dimension)
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CALL/EXTERN,DME,'AutoCycle','FeatureType','PATTERN','HELICAL',pitch,start_angle,slice_angle,tot_angle
CALL/EXTERN,DME,'AutoCycle','FeatureType','PATTERN','HELICAL',pitch$
,start_angle,slice_angle,tot_angle
FeatureType : ARC
| CIRCLE
| CONE
| CYLNDR
| ELLIPS
| SPHERE
| TORUS
pitch : double
slice_angle : double
;
start_angle : double
tot_angle : double
;
pitch rappresents how much the helix go up in 360° (length dimension)
start_angle is the start angle (angle dimension)
tot_angle is the tot angle (angle dimension)
slice_angle is the segment angle (angle dimension)
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CALL/EXTERN,DME,'AutoCycle','FeatureType','PATTERN','DEFAULT',start_angle,slice_angle
CALL/EXTERN,DME,'AutoCycle','FeatureType','PATTERN','DEFAULT',start_angle $
,slice_angle
FeatureType : CYLNDR
| CONE
start_angle : double
slice_angle : double
start_angle is the start angle (angle dimension)
slice_angle is the segment angle (angle dimension)
CALL/EXTERN,DME,'AutoCycle','FeatureType','BOUNDED','DEFAULT','feature_name',is_actual,offset,distance,start_angle,slice_angle
CALL/EXTERN,DME,'AutoCycle','FeatureType','BOUNDED','DEFAULT','feature_name' $
,is_actual,offset,distance,start_angle,slice_angle
FeatureType : CYLNDR
| CONE
feature_name: string
is_actual : .TRUE.
| .FALSE.
;
distance : double
;
offset : double
;
start_angle : double
;
slice_angle : double
;
feature_name is the name of the feature whose application point will be used as feature_type application point
is_actual is a boolean value rappresenting if the nominal or actual part must be used.
offset is the offset from the feature application point (length dimension)
distance is the height of the feature (length dimension)
start_angle is the start angle (angle dimension)
slice_angle is the segment angle (angle dimension)
CALL/EXTERN,DME,'AutoCycle','FeatureType','BOUNDED','HELICAL','feature_name',is_actual,offset,distance,pitch,start_angle,tot_angle
CALL/EXTERN,DME,'AutoCycle','FeatureType','BOUNDED','HELICAL','feature_name',is_actual,offset,distance,pitch,start_angle,tot_angle
FeatureType : ARC
| CIRCLE
| CONE
| CYLNDR
| ELLIPS
| SPHERE
| TORUS
feature_name : string
is_actual : .TRUE.
| .FALSE.
;
distance : double
;
offset : double
;
pitch : double
start_angle : double
;
tot_angle : double
;
feature_name is the name of the feature whose application point will be used as feature_type application point
is_actual is a boolean value rappresenting if the nominal or actual part must be used.
offset is the offset from the feature application point (length dimension)
distance is the height of the feature (length dimension)
pitch rappresents how much the helix go up in 360° (length dimension)
start_angle is the start angle (angle dimension)
tot_angle is the tot angle (angle dimension)
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CALL/EXTERN,DME,'AutoCycle','FeatureType','BOUNDED','HELICAL','feature_name',is_actual,offset,distance,pitch,start_angle,slice_angle,tot_angle
CALL/EXTERN,DME,'AutoCycle','FeatureType','BOUNDED','HELICAL','feature_name' $
,is_actual,offset,distance,pitch,start_angle,slice_angle,tot_angle
FeatureType : ARC
| CIRCLE
| CONE
| CYLNDR
| ELLIPS
| SPHERE
| TORUS
feature_name : string
;
is_actual : .TRUE.
| .FALSE.
;
distance : double
;
offset : double
;
pitch : double
slice_angle : double
;
start_angle : double
;
tot_angle : double
;
feature_name is the name of the feature whose application point will be used as feature_type application point
is_actual is a boolean value rappresenting if the nominal or actual part must be used.
offset is the offset from the feature application point (length dimension)
distance is the height of the feature (length dimension)
pitch rappresents how much the helix go up in 360° (length dimension)
start_angle is the start angle (angle dimension)
tot_angle is the tot angle (angle dimension)
slice_angle is the segment angle (angle dimension)
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CALL/EXTERN,DME,'AutoCycle','PLANE','BOUNDED','SQUARE_BOX',length,height
CALL/EXTERN,DME,'AutoCycle','PLANE','BOUNDED','SQUARE_BOX',length,height
length : double
;
height : double
;
length is the square base in which the points must be measured (length dimension)
height is the square height in which the points must be measured (length dimension)
CALL/EXTERN,DME,'AutoCycle','PLANE','BOUNDED','SQUARE_GRID',length,pitch,number_of_pitches
CALL/EXTERN,DME,'AutoCycle','PLANE','BOUNDED','SQUARE_GRID',length,pitch, $
number_of_pitches
length : double
pitch : double
;
number_of_pitches : int
;
length is the square base in which the points must be measured (length dimension)
pitch is the height of the pitch (length dimension)
number_of_pitches is the number of pitches
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CALL/EXTERN,DME,'AutoCycle',PLANE,'PATTERN','RADIAL',radius,start_angle,slice_angle
CALL/EXTERN,DME,'AutoCycle',PLANE,'PATTERN','RADIAL',radius,start_angle,slice_angle
radius : double
start_angle : double
;
slice_angle : double
;
radius is the circle radius (length dimension)
start_angle is the start angle (angle dimension)
slice_angle is the segment angle (angle dimension)
CALL/EXTERN,DME,'AutoCycle','PLANE','BOUNDED','RADIAL',inner_radius,outer_radius,start_angle,slice_angle
CALL/EXTERN,DME,'AutoCycle','PLANE','BOUNDED','RADIAL',inner_radius,outer_radius, $
start_angle,slice_angle
inner_radius : double
;
outer_radius : double
;
start_angle : double
;
slice_angle : double
;
inner_radius is the radius of the inner circle (length dimension)
outer_radius is the radius of the outer circle (length dimension)
start_angle is the start angle (angle dimension)
slice_angle is the segment angle (angle dimension)
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CALL/EXTERN,DME,'AutoCycle','PLANE','BOUNDED','RANDOM_RADIAL',inner_radius,outer_radius,start_angle,slice_angle
CALL/EXTERN,DME,'AutoCycle','PLANE','BOUNDED','RANDOM_RADIAL',inner_radius,$
outer_radius,start_angle,slice_angle
inner_radius : double
;
outer_radius : double
;
start_angle : double
;
slice_angle : double
;
inner_radius is the radius of the inner circle (length dimension)
outer_radius is the radius of the outer circle (length dimension)
start_angle is the start angle (angle dimension)
slice_angle is the segment angle (angle dimension)
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Database
New Structures and enumerators
Inserimento immagine in corso...ImmagineInserimento immagine in corso...Immagine
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New methods
DBStatus SetAutoCycleAlgorithm(DBSubFamilies feature_type, DBAutoCycleData data);
Set a new auto cycle algorithm for a specific algorithm type.
Returns DB_OK if the feature_type is a valid feature otherwise DB_EMERGENCY is returned.
DBAutoCycleData GetAutoCycleAlgorithm(DBSubFamilies feature_type);
Returns the current auto cycle algorithm for a specific feature. If no algorithm is set or the feature type is not valid a structure with the type set to DBAutoCycleAlgorithm_Default is returned.
DBStatus ResetAutoCycleAlgorithm(DBSubFamily feature_type);
Set the default algorithm for a specific feature.
Returns DB_OK if the feature_type is a valid feature otherwise DB_EMERGENCY is returned.
void ResetAntoCycleAlgorithms();
Set the default algorithm for all the features.
Database Structure fields
CALL/EXTERN,DME,'AutoCycle','ALL','DEFAULT'
•Type = DBAutoCycleAlgorithm_Default
CALL/EXTERN,DME,'AutoCycle','FeatureType','DEFAULT'
•Type = DBAutoCycleAlgorithm_Default
CALL/EXTERN,DME,'AutoCycle','FeatureType','PATTERN','HELICAL','FULL',pitch, number_of_pitches, start_angle
•Type = DBAutoCycleAlgorithm_PatternHelicalFull
•Pitch = helix pitch per 360 degrees.
•number_of_Pitches = number of full round (360 degrees)
•start_angle= is the starting angle of the helix in the current reference system
This cycle performs a measure along an helix of a certain "number_of_pitches" number of full 360 degrees round.
The "startAngle" parameter is used to define the starting position of the helix referred to the current working plane.
The helix pitch is "pitch".
In the DB the "slice_angle" parameter shall be set to 360.0.
CALL/EXTERN,DME,'AutoCycle','FeatureType','PATTERN','HELICAL','PARTIAL',pitch,start_angle,slice_angle,tot_angle
•Type = DBAutoCycleAlgorithm_PatternHelicalPartial
•Pitch = helix pitch per 360 degrees.
•start_angle= is the starting angle of the helix in the current reference system
•SliceAngle = is the portion of the helix on which the points are distributed
•TotAngle = is the total angle of the helix on which the slice angle will be reffiled by points
This cycle performs a measure along an helix of a certain number degrees ("totAngle") but the requested number of points will be distributed only in a section of the feature with the size of "sliceAngle".
The startAngle is used to define the starting position of the helix referred to the current working plane.
The helix pitch is "pitch".
CALL/EXTERN,DME,'AutoCycle','FeatureType','PATTERN','SECTION','FULL', pitch, number_of_pitches, start_angle
•Type = DBAutoCycleAlgorithm_PatternSectionFull
•start_angle= is the starting angle of the section in the current reference system
•Pitch = distance between sections.
•number_of_Pitches = number of sections
This cycle performs a measure along sections perpendicular to the axis of the feature.
The "startAngle" is used to define the starting position of the section in the current reference system, the points are distributed in a section with the size of "sliceAngle".
The requested number of points are distributed on a "number_of_Pitches" sections which are evenly distributed at mutual "pitch" distance.
In the DB the "slice_angle" parameter shall be set to 360.0.
CALL/EXTERN,DME,'AutoCycle','FeatureType','PATTERN','SECTION','PARTIAL', pitch, number_of_pitches, start_angle,slice_angle
•Type = DBAutoCycleAlgorithm_PatternSectionPartial
•Pitch = distance between sections.
•number_of_Pitches = number of sections
•start_angle= is the starting angle of the section in the current reference system
•SliceAngle = is the portion of the section on which the points are distribute
This cycle performs a measure along sections perpendicular to the axis of the feature.
The "startAngle" is used to define the starting position of the section in the current reference system, the points are distributed in a section with the size of "sliceAngle".
The requested number of points are distributed on a "number_of_Pitches" sections which are evenly distributed at mutual "pitch" distance.
CALL/EXTERN,DME,'AutoCycle','FeatureType','PATTERN','SECTION','OPTIMIZED',start_angle,slice_angle,height
•Type = DBAutoCycleAlgorithm_PatternSectionOptimized
•start_angle= is the starting angle of the section in the current reference system
•SliceAngle = is the portion of the section on which the points are distributed
•Height= is the height of the feature
This cycle performs a measure along sections perpendicular to the axis of the feature.
The "startAngle" is used to define the starting position of the section in the current reference system, the points are distributed in a section with the size of "sliceAngle".
The requested number of points are distributed on the largest portion of the feature.
When this cycle is applied, the feature is bounded by the "height" value.
CALL/EXTERN,DME,'AutoCycle','FeatureType','BOUNDED','SECTION','FULL', is_actual ,'feature_name', offset, pitch,number_of_pitches start_angle
•Type = DBAutoCycleAlgorithm_FeatureBoundedSectionFull
•is_actual= define if nominal or actual
•Feature_name= is the name of the bouding feature
•offset=is the distance from the bouding feature
•Pitch = distance between sections.
•number_of_Pitches = number of sections
•start_angle= is the starting angle of the section in the current reference system
This cycle performs a measure along sections perpendicular to the axis of the cylinder.
The "startAngle" is used to define the starting position of the section in the current reference system, the points are distributed in a section with the size of 360 degree.
The requested number of points are distributed on a "number_of_Pitches" sections which are evenly distributed at mutual "pitch" distance.
The starting point for the distribution is defined by the intersection between the axis and the bounding feature, moved by a an "offset" length along the axis itself (value in machine reference system).
CALL/EXTERN,DME,'AutoCycle','FeatureType','BOUNDED','SECTION','PARTIAL', is_actual ,'feature_name',offset,pitch,number_of_pitches,start_angle,slice_angle
•Type = DBAutoCycleAlgorithm_ FeatureBoundedSectionPartial
•is_actual= define if nominal or actual
•Feature_name= is the name of the bouding feature
•offset=is the distance from the bouding feature
•Pitch = distance between sections.
•number_of_Pitches = number of sections
•StartAngle = start_angle
•SliceAngle = is the portion of the section on which the points are distribute
This cycle performs a measure along sections perpendicular to the axis of the feature.
The "startAngle" is used to define the starting position of the section in the current reference system, the points are distributed in a section with the size of "sliceAngle".
The requested number of points are distributed on a "number_of_Pitches" sections which are evenly distributed at mutual "pitch" distance.
The starting point for the distribution is defined by the intersection between the axis and the bounding feature, moved by a an "offset" length along the axis itself (value in machine reference system).
CALL/EXTERN,DME,'AutoCycle','FeatureType','BOUNDED','SECTION','OPTIMIZED',is_actual,'feature_name',offset,start_angle,slice_angle,height
•Type = DBAutoCycleAlgorithm_FeatureBoundedSectionOptimized
•is_actual= define if nominal or actual
•Feature_name= is the name of the bouding feature
•offset=is the distance from the bouding feature
•start_angle= is the starting angle of the section in the current reference system
•SliceAngle = is the portion of the section on which the points are distributed
•Height= is the height of the feature
This cycle performs a measure along sections perpendicular to the axis of the feature.
The "startAngle" is used to define the starting position of the section in the current reference system, the points are distributed in a section with the size of "sliceAngle".
The requested number of points are distributed on the largest portion of the feature.
When this cycle is applied, the feature is bounded by the "height" value.
The starting point for the distribution is defined by the intersection between the axis and the bounding feature, moved by a an "offset" length along the axis itself (value in machine reference system).
CALL/EXTERN,DME,'AutoCycle','FeatureType','BOUNDED','HELICAL', 'FULL','feature_name',is_actual,offset, pitch, number_of_pitches, start_angle
•Type = DBAutoCycleAlgorithm_FeatureBoundedHelicalFull
•is_actual= define if nominal or actual
•Feature_name= is the name of the bouding feature
•offset=is the distance from the bouding feature
•Pitch = helix pitch per 360 degrees.
•number_of_Pitches = number of full round (360 degrees)
•start_angle= is the starting angle of the helix in the current reference system
This cycle performs a measure along an helix of a certain "number_of_pitches" number of full 360 degrees round.
The "startAngle" parameter is used to define the starting position of the helix referred to the current working plane.
The helix pitch is "pitch".
In the DB the "slice_angle" parameter shall be set to 360.0.
The starting point for the distribution is defined by the intersection between the axis and the bounding feature, moved by a an "offset" length along the axis itself (value in machine reference system).
CALL/EXTERN,DME,'AutoCycle','FeatureType','BOUNDED','HELICAL', 'PARTIAL','feature_name',is_actual,offset, pitch,start_angle,slice_angle,tot_angle
•Type = DBAutoCycleAlgorithm_FeatureBoundedHelicalPartial
•is_actual= define if nominal or actual
•Feature_name= is the name of the bouding feature
•offset=is the distance from the bouding feature
•Pitch = helix pitch per 360 degrees.
•start_angle= is the starting angle of the helix in the current reference system
•SliceAngle = is the portion of the helix on which the points are distributed
•TotAngle = is the total angle of the helix on which the slice angle will be reffiled by points
This cycle performs a measure along an helix of a certain number degrees ("totAngle") but the requested number of points will be distributed only in a section of the feature with the size of "sliceAngle".
The startAngle is used to define the starting position of the helix referred to the current working plane.
The helix pitch is "pitch".
The starting point for the distribution is defined by the intersection between the axis and the bounding feature, moved by a an "offset" length along the axis itself (value in machine reference system).
CALL/EXTERN,DME,'AutoCycle','PLANE','BOUNDED','SQUARE_BOX',length,height
•Type = DBAutoCycleAlgorithm_PlaneSquareBox
•Length = length
•Height = height
This cycle performs a measure along a rectangular path centered in the application point of the feature and oriented with the "length" along the minor axis of the current working plane projected on the feature.
The "height" dimension is oriented along the major axis of the current working plane.
The requested number of points are initially distributed along on the 4 vertex, then equally distributed along the path.
CALL/EXTERN,DME,'AutoCycle','PLANE','BOUNDED','SQUARE_GRID',length,pitch,number_of_pitches
•Type = DBAutoCycleAlgorithm_PlaneSquareGrid
•Length = length
•Pitch = pitch
•NumberOfPitches = number_of_pirtches
This cycle performs a measure along a rectangular grid path centered in the application point of the feature and oriented with the "length" along the minor axis of the current working plane projected on the feature.
The secondary direction is oriented along the major axis of the current working plane.
The sections of the grid are spaced by a distance of "pitch" and repeated for a "numberOfPitches" times.
The requested number of points are initially distributed along on the 4 vertex, then equally distributed along the path.
CALL/EXTERN,DME,'AutoCycle','PLANE','PATTERN','RADIAL',radius,start_angle,slice_angle
•Type = DBAutoCycleAlgorithm_PlanePatternRadial
•Radius = radius
•StartAngle = start_angle
•SliceAngle = slice_angle
This cycle performs a measure along an circular path centered in the application point of the feature and with a radius defined by "radius"
The "startAngle" is used to define the starting position of the pattern in the current reference system, the points are equally distributed in a section with the size of "sliceAngle".
CALL/EXTERN,DME,'AutoCycle','PLANE','BOUNDED','RADIAL',inner_radius,outer_radius,start_angle,slice_angle
•Type = DBAutoCycleAlgorithm_PlaneBoundedRadial
•InnerRadius = inner_radius
•OuterRadius = outer_radius
•StartAngle = start_angle
•SliceAngle = slice_angle
This cycle performs a measure along two circular paths centered in the application point of the feature and with a radius defined by "innerradius" and "OuterRadius".
The "startAngle" is used to define the starting position of the pattern in the current reference system, the points are equally distributed in a section with the size of "sliceAngle".
The point are taken alternatively on inner section and outer section.
CALL/EXTERN,DME,'AutoCycle','PLANE','BOUNDED','ANNULUS_RADIAL',inner_radius,outer_radius,start_angle,slice_angle
•Type = DBAutoCycleAlgorithm_PlaneBoundedAnnulusRadial
•InnerRadius = inner_radius
•OuterRadius = outer_radius
•StartAngle = start_angle
•SliceAngle = slice_angle
This cycle performs a measure along two circular paths centered in the application point of the feature and with a radius defined by "innerradius" and "OuterRadius".
The "startAngle" is used to define the starting position of the pattern in the current reference system, the points are equally distributed in a section with the size of "sliceAngle".
The point are randomly distributed within inner section and outer section.