Defines the mode for sweeping operations.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Cbtr.CachedTris.yml", "output": { ".html": { "relative_path": "api/Hi.Cbtr.CachedTris.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Cbtr.CachedTris", "Summary": "Feature-cached triangle for
Encapsulates cube tree construction defect results,\nincluding both defect data and visualization drawings.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Cbtr.CubeTree.DefectNodeInfo.TriWireInfo.yml", "output": { ".html": { "relative_path": "api/Hi.Cbtr.CubeTree.DefectNodeInfo.TriWireInfo.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Cbtr.CubeTree.DefectNodeInfo.TriWireInfo", "Summary": "A single triangle-wire relation entry within a defect node.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Cbtr.CubeTree.DefectNodeInfo.yml", "output": { ".html": { "relative_path": "api/Hi.Cbtr.CubeTree.DefectNodeInfo.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Cbtr.CubeTree.DefectNodeInfo", "Summary": "Info for a single defect node detected during cube tree construction.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Cbtr.CubeTree.DefectTriWireInfoInterop.yml", "output": { ".html": { "relative_path": "api/Hi.Cbtr.CubeTree.DefectTriWireInfoInterop.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Cbtr.CubeTree.DefectTriWireInfoInterop", "Summary": "Interop struct matching C++ defect_tri_wire_info_interop_t.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Cbtr.CubeTree.InfNodeInfo.yml", "output": { ".html": { "relative_path": "api/Hi.Cbtr.CubeTree.InfNodeInfo.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Cbtr.CubeTree.InfNodeInfo", "Summary": "Info for a single node with inf edge_cuts, containing box and edge indices.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Cbtr.CubeTree.TriWireRelationInterop.yml", "output": { ".html": { "relative_path": "api/Hi.Cbtr.CubeTree.TriWireRelationInterop.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Cbtr.CubeTree.TriWireRelationInterop", "Summary": "Interop struct matching C++ tri_wire_relation_interop_t.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Cbtr.CubeTree.diff_response_func_t.yml", "output": { ".html": { "relative_path": "api/Hi.Cbtr.CubeTree.diff_response_func_t.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Cbtr.CubeTree.diff_response_func_t", "Summary": "Delegate for handling difference responses during geometry comparison.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Cbtr.CubeTree.yml", "output": { ".html": { "relative_path": "api/Hi.Cbtr.CubeTree.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Cbtr.CubeTree", "Summary": "Cube-based data structure. CubeTree has high performance for free-form geometry manipulation include volume removal and addition.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Cbtr.CubeTreeExportExtensions.yml", "output": { ".html": { "relative_path": "api/Hi.Cbtr.CubeTreeExportExtensions.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Cbtr.CubeTreeExportExtensions", "Summary": "Mesh export helpers for
Represents a file containing cube tree data.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Cbtr.DiffAttachment.yml", "output": { ".html": { "relative_path": "api/Hi.Cbtr.DiffAttachment.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Cbtr.DiffAttachment", "Summary": "Represents an attachment with a difference value for cube tree.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Cbtr.GeomBoolCache.yml", "output": { ".html": { "relative_path": "api/Hi.Cbtr.GeomBoolCache.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Cbtr.GeomBoolCache", "Summary": "Cache for geometry boolean operations.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Cbtr.GeomBoolCacheEnum.yml", "output": { ".html": { "relative_path": "api/Hi.Cbtr.GeomBoolCacheEnum.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Cbtr.GeomBoolCacheEnum", "Summary": "Enumeration of geometry boolean cache types.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Cbtr.IGetInitStickConvex.yml", "output": { ".html": { "relative_path": "api/Hi.Cbtr.IGetInitStickConvex.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Cbtr.IGetInitStickConvex", "Summary": "Interface of
Encapsulates inf edge cuts defect visualization for a cube tree,\nincluding defect boxes, edge segments, and flag drawings.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Cbtr.InitStickConvex.yml", "output": { ".html": { "relative_path": "api/Hi.Cbtr.InitStickConvex.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Cbtr.InitStickConvex", "Summary": "Represents a stick convex initialization object.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Cbtr.LsStl.yml", "output": { ".html": { "relative_path": "api/Hi.Cbtr.LsStl.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Cbtr.LsStl", "Summary": "Linear Sweptable Stl.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Cbtr.Substraction.yml", "output": { ".html": { "relative_path": "api/Hi.Cbtr.Substraction.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Cbtr.Substraction", "Summary": "Represents the result of a volume subtraction operation.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Cbtr.UnhighlightablePickable.yml", "output": { ".html": { "relative_path": "api/Hi.Cbtr.UnhighlightablePickable.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Cbtr.UnhighlightablePickable", "Summary": "Cbtr un-highlightable pickable.\nFor initailizing purpose by
Data about the removing behavior of
For Internal Use Only.\nRepresents a wire cube for display purposes.\nThe edge index follows the C++ cube_node_t pattern:\nedgeIndex = (dir << 2) | (th1 << 1) | th0\nwhere dir is the edge direction (0=X, 1=Y, 2=Z),\nth0 is the position flag in (dir+1)%3 direction,\nth1 is the position flag in (dir+2)%3 direction.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Cbtr.node_diff_t.yml", "output": { ".html": { "relative_path": "api/Hi.Cbtr.node_diff_t.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Cbtr.node_diff_t", "Summary": "Structure representing a node with a difference value.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Cbtr.yml", "output": { ".html": { "relative_path": "api/Hi.Cbtr.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Cbtr", "Summary": null }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Collision.AnchoredCollidableLeaf.yml", "output": { ".html": { "relative_path": "api/Hi.Collision.AnchoredCollidableLeaf.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Collision.AnchoredCollidableLeaf", "Summary": "Represents a leaf node in the anchored collidable hierarchy.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Collision.AnchoredCollidablePair.yml", "output": { ".html": { "relative_path": "api/Hi.Collision.AnchoredCollidablePair.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Collision.AnchoredCollidablePair", "Summary": "Represents a pair of anchored collidable objects for collision detection.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Collision.CollidableStl.yml", "output": { ".html": { "relative_path": "api/Hi.Collision.CollidableStl.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Collision.CollidableStl", "Summary": "Collidable Stl.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Collision.CollisionFlag.yml", "output": { ".html": { "relative_path": "api/Hi.Collision.CollisionFlag.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Collision.CollisionFlag", "Summary": "Collision flag.\nThe definition is the same as native collision_flag.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Collision.CollisionIndexPair.yml", "output": { ".html": { "relative_path": "api/Hi.Collision.CollisionIndexPair.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Collision.CollisionIndexPair", "Summary": "Represents a pair of collision indices for collision detection.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Collision.CollisionUtil.yml", "output": { ".html": { "relative_path": "api/Hi.Collision.CollisionUtil.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Collision.CollisionUtil", "Summary": "Utility of tree grid related structure.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Collision.FuncAnchoredCollidable.yml", "output": { ".html": { "relative_path": "api/Hi.Collision.FuncAnchoredCollidable.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Collision.FuncAnchoredCollidable", "Summary": "Represents a function-based implementation of an anchored collidable object.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Collision.IAnchoredCollidableBased.yml", "output": { ".html": { "relative_path": "api/Hi.Collision.IAnchoredCollidableBased.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Collision.IAnchoredCollidableBased", "Summary": "Interface for objects that are based on anchored collidable nodes.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Collision.IAnchoredCollidableLeaf.yml", "output": { ".html": { "relative_path": "api/Hi.Collision.IAnchoredCollidableLeaf.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Collision.IAnchoredCollidableLeaf", "Summary": "Interface for leaf nodes in the anchored collidable hierarchy.\nA leaf node represents a collidable object that doesn't contain other collidable objects.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Collision.IAnchoredCollidableNode.yml", "output": { ".html": { "relative_path": "api/Hi.Collision.IAnchoredCollidableNode.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Collision.IAnchoredCollidableNode", "Summary": "Base interface for anchored collidable nodes in the collision hierarchy.\nDo not inherit this interface directly.\nOnly inherit directly from
Interface for stem nodes in the anchored collidable hierarchy.\nA stem node represents a collidable object that contains other collidable objects.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Collision.ICollidable.yml", "output": { ".html": { "relative_path": "api/Hi.Collision.ICollidable.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Collision.ICollidable", "Summary": "Collidable geometry.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Collision.ICollidee.yml", "output": { ".html": { "relative_path": "api/Hi.Collision.ICollidee.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Collision.ICollidee", "Summary": "Dont inherit the interface.\nOnly
Interface for a topological collision arena that manages collision detection between objects.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Collision.ICollisionIndex.yml", "output": { ".html": { "relative_path": "api/Hi.Collision.ICollisionIndex.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Collision.ICollisionIndex", "Summary": "Interface for collision index objects that provide identification and anchoring for collidable objects.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Collision.IGetAnchoredCollidablePairs.yml", "output": { ".html": { "relative_path": "api/Hi.Collision.IGetAnchoredCollidablePairs.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Collision.IGetAnchoredCollidablePairs", "Summary": "Interface for objects that can provide pairs of anchored collidable objects for collision detection.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Collision.IGetCollidable.yml", "output": { ".html": { "relative_path": "api/Hi.Collision.IGetCollidable.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Collision.IGetCollidable", "Summary": "Interface for objects that can provide a collidable object.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Collision.IGetCollisionIndexPairs.yml", "output": { ".html": { "relative_path": "api/Hi.Collision.IGetCollisionIndexPairs.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Collision.IGetCollisionIndexPairs", "Summary": "Interface for objects that can provide pairs of collision indices for collision detection.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Collision.IGetDefaultCollidablePairs.yml", "output": { ".html": { "relative_path": "api/Hi.Collision.IGetDefaultCollidablePairs.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Collision.IGetDefaultCollidablePairs", "Summary": "Interface for objects that can provide default pairs of anchored collidable objects.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Collision.IGetTriTree.yml", "output": { ".html": { "relative_path": "api/Hi.Collision.IGetTriTree.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Collision.IGetTriTree", "Summary": "Interface of
Represents the result of a mechanical collision detection operation.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Collision.MechCollisionUtil.yml", "output": { ".html": { "relative_path": "api/Hi.Collision.MechCollisionUtil.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Collision.MechCollisionUtil", "Summary": "Utility class providing methods for mechanical collision detection and management.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Collision.TriTree.yml", "output": { ".html": { "relative_path": "api/Hi.Collision.TriTree.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Collision.TriTree", "Summary": "A wrapper provides native tree-grid-based structure.\nIt wraps
Represents a collidable object that is associated with an
Defines a collidable object that has an associated
Utility for handling color. Includes handle of RGB and HSL.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Coloring.DictionaryColorGuide.yml", "output": { ".html": { "relative_path": "api/Hi.Coloring.DictionaryColorGuide.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Coloring.DictionaryColorGuide", "Summary": "A color guide that manages a dictionary of color guides and allows selection of one active guide.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Coloring.DiscreteQuantityColorGuide.yml", "output": { ".html": { "relative_path": "api/Hi.Coloring.DiscreteQuantityColorGuide.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Coloring.DiscreteQuantityColorGuide", "Summary": "A color guide that assigns colors based on discrete quantity values.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Coloring.FilteredColorGuide.yml", "output": { ".html": { "relative_path": "api/Hi.Coloring.FilteredColorGuide.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Coloring.FilteredColorGuide", "Summary": "A color guide that combines a filter color guide with a dictionary color guide.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Coloring.FuncRangeColorGuide.yml", "output": { ".html": { "relative_path": "api/Hi.Coloring.FuncRangeColorGuide.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Coloring.FuncRangeColorGuide", "Summary": "A color guide that uses a function to get a numeric value and maps it to a color using a range color rule.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Coloring.IColorGuide.yml", "output": { ".html": { "relative_path": "api/Hi.Coloring.IColorGuide.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Coloring.IColorGuide", "Summary": "Interface of setting color and the rendering priority.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Coloring.IColorGuideProperty.yml", "output": { ".html": { "relative_path": "api/Hi.Coloring.IColorGuideProperty.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Coloring.IColorGuideProperty", "Summary": "Interface for objects that have a color guide property.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Coloring.IGetColorGuide.yml", "output": { ".html": { "relative_path": "api/Hi.Coloring.IGetColorGuide.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Coloring.IGetColorGuide", "Summary": "Interface of
Interface for retrieving a range color rule.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Coloring.IGetRgb.yml", "output": { ".html": { "relative_path": "api/Hi.Coloring.IGetRgb.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Coloring.IGetRgb", "Summary": "Rgb getter interface
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Coloring.IGetRgbWithPriority.yml", "output": { ".html": { "relative_path": "api/Hi.Coloring.IGetRgbWithPriority.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Coloring.IGetRgbWithPriority", "Summary": "Interface of
A color guide that provides a constant color value.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Coloring.QuantityColorGuide.yml", "output": { ".html": { "relative_path": "api/Hi.Coloring.QuantityColorGuide.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Coloring.QuantityColorGuide", "Summary": "A color guide that maps numeric quantities to colors using a range color rule.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Coloring.RangeColorRule.yml", "output": { ".html": { "relative_path": "api/Hi.Coloring.RangeColorRule.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Coloring.RangeColorRule", "Summary": "Defines a rule for mapping numeric values to colors based on a range.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Coloring.RatioRgbFuncEnum.yml", "output": { ".html": { "relative_path": "api/Hi.Coloring.RatioRgbFuncEnum.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Coloring.RatioRgbFuncEnum", "Summary": "Ratio-based RGB function enum.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Coloring.RgbSeed.yml", "output": { ".html": { "relative_path": "api/Hi.Coloring.RgbSeed.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Coloring.RgbSeed", "Summary": "A simple object contains RGB value.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Coloring.yml", "output": { ".html": { "relative_path": "api/Hi.Coloring.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Coloring", "Summary": null }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.BinIoUtil.yml", "output": { ".html": { "relative_path": "api/Hi.Common.BinIoUtil.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.BinIoUtil", "Summary": "Utility class for binary I/O operations.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.BitUtil.yml", "output": { ".html": { "relative_path": "api/Hi.Common.BitUtil.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.BitUtil", "Summary": "Utility for bit control for integer.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.BlockingTimer.yml", "output": { ".html": { "relative_path": "api/Hi.Common.BlockingTimer.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.BlockingTimer", "Summary": "Timer use one task and delay each event call.\nThe delay time is
Utility class for byte array operations and memory size conversions.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.Collections.DictionaryUtil.yml", "output": { ".html": { "relative_path": "api/Hi.Common.Collections.DictionaryUtil.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.Collections.DictionaryUtil", "Summary": "Utility class providing extension methods for dictionary operations.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.Collections.EnumerableUtil.yml", "output": { ".html": { "relative_path": "api/Hi.Common.Collections.EnumerableUtil.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.Collections.EnumerableUtil", "Summary": "Utility class providing extension methods for enumerable collections.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.Collections.FixedSizeConcurrentLinkedListUtil.yml", "output": { ".html": { "relative_path": "api/Hi.Common.Collections.FixedSizeConcurrentLinkedListUtil.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.Collections.FixedSizeConcurrentLinkedListUtil", "Summary": "Utility of Fixed Size Concurrent LinkedList.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.Collections.LazyLinkedList-1.yml", "output": { ".html": { "relative_path": "api/Hi.Common.Collections.LazyLinkedList-1.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.Collections.LazyLinkedListA singly-growable linked list that can lazily materialize nodes\nfrom an
Node for
Utility methods for working with linked lists.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.Collections.ListIndexBasedEnumerable-1.yml", "output": { ".html": { "relative_path": "api/Hi.Common.Collections.ListIndexBasedEnumerable-1.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.Collections.ListIndexBasedEnumerableProvides an enumerable wrapper for a list that iterates over a specified range of indices.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.Collections.ListIndexBasedIEnumerator-1.yml", "output": { ".html": { "relative_path": "api/Hi.Common.Collections.ListIndexBasedIEnumerator-1.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.Collections.ListIndexBasedIEnumeratorProvides an enumerator that iterates over a specified range of indices in a list.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.Collections.ListUtil.OuterPolationMode.yml", "output": { ".html": { "relative_path": "api/Hi.Common.Collections.ListUtil.OuterPolationMode.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.Collections.ListUtil.OuterPolationMode", "Summary": "Defines the mode for handling values outside the range of a collection during interpolation.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.Collections.ListUtil.yml", "output": { ".html": { "relative_path": "api/Hi.Common.Collections.ListUtil.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.Collections.ListUtil", "Summary": "Provides utility methods for working with lists and collections.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.Collections.SearchTargetMode.yml", "output": { ".html": { "relative_path": "api/Hi.Common.Collections.SearchTargetMode.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.Collections.SearchTargetMode", "Summary": "Specifies the search method to use when looking for values in a sorted list.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.Collections.SeekDirection.yml", "output": { ".html": { "relative_path": "api/Hi.Common.Collections.SeekDirection.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.Collections.SeekDirection", "Summary": "Specifies the seek direction for sorted list operations.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.Collections.SortedListUtil.yml", "output": { ".html": { "relative_path": "api/Hi.Common.Collections.SortedListUtil.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.Collections.SortedListUtil", "Summary": "Utility class providing extension methods for SortedList operations.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.Collections.SubList-1.yml", "output": { ".html": { "relative_path": "api/Hi.Common.Collections.SubList-1.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.Collections.SubListRepresents a sub-list view of a source list within a specified index range.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.Collections.SynList-1.yml", "output": { ".html": { "relative_path": "api/Hi.Common.Collections.SynList-1.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.Collections.SynListThread-safe List.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.Collections.yml", "output": { ".html": { "relative_path": "api/Hi.Common.Collections.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.Collections", "Summary": null }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.ConcurrentTimeCounter.yml", "output": { ".html": { "relative_path": "api/Hi.Common.ConcurrentTimeCounter.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.ConcurrentTimeCounter", "Summary": "Thread-safe utility for measuring and tracking execution time across multiple tasks.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.ConsoleUtil.yml", "output": { ".html": { "relative_path": "api/Hi.Common.ConsoleUtil.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.ConsoleUtil", "Summary": "Utility class for console window operations.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.CppLogUtil.LogDelegate.yml", "output": { ".html": { "relative_path": "api/Hi.Common.CppLogUtil.LogDelegate.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.CppLogUtil.LogDelegate", "Summary": "Internal Use Only.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.CppLogUtil.yml", "output": { ".html": { "relative_path": "api/Hi.Common.CppLogUtil.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.CppLogUtil", "Summary": "Internal Use Only.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.CsvUtils.CsvInputKit.yml", "output": { ".html": { "relative_path": "api/Hi.Common.CsvUtils.CsvInputKit.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.CsvUtils.CsvInputKit", "Summary": "Utility class for parsing and processing CSV input data.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.CsvUtils.CsvOutputKit.yml", "output": { ".html": { "relative_path": "api/Hi.Common.CsvUtils.CsvOutputKit.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.CsvUtils.CsvOutputKit", "Summary": "CSV output toolkit.\nToolkit for getting Comma-seperated Csv lines.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.CsvUtils.CsvUtil.yml", "output": { ".html": { "relative_path": "api/Hi.Common.CsvUtils.CsvUtil.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.CsvUtils.CsvUtil", "Summary": "Provides utility methods for working with CSV (Comma-Separated Values) data.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.CsvUtils.ICsvRowIo.yml", "output": { ".html": { "relative_path": "api/Hi.Common.CsvUtils.ICsvRowIo.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.CsvUtils.ICsvRowIo", "Summary": "Object that can be two-way converting between CSV row.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.CsvUtils.IGetCsvDictionary.yml", "output": { ".html": { "relative_path": "api/Hi.Common.CsvUtils.IGetCsvDictionary.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.CsvUtils.IGetCsvDictionary", "Summary": "Interface of
Utility class for managing culture and localization settings.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.DuplicateUtil.yml", "output": { ".html": { "relative_path": "api/Hi.Common.DuplicateUtil.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.DuplicateUtil", "Summary": "Utility methods for duplication operations.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.EnumUtil.yml", "output": { ".html": { "relative_path": "api/Hi.Common.EnumUtil.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.EnumUtil", "Summary": "Utility class for enum operations.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.EnumerablePlayer.yml", "output": { ".html": { "relative_path": "api/Hi.Common.EnumerablePlayer.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.EnumerablePlayer", "Summary": "Run enumerable with
Event arguments for when a file processing begins.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.FileLines.FileEndEventArgs.yml", "output": { ".html": { "relative_path": "api/Hi.Common.FileLines.FileEndEventArgs.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.FileLines.FileEndEventArgs", "Summary": "Event arguments for when a file processing ends.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.FileLines.FileLineCharIndex.yml", "output": { ".html": { "relative_path": "api/Hi.Common.FileLines.FileLineCharIndex.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.FileLines.FileLineCharIndex", "Summary": "Represents a character-level position within a file by file index, line index, and character index.\nAll indices are 0-based.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.FileLines.FileLineCharIndexSegment.yml", "output": { ".html": { "relative_path": "api/Hi.Common.FileLines.FileLineCharIndexSegment.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.FileLines.FileLineCharIndexSegment", "Summary": "Represents a character-level segment within file(s).\n
Represents a location in a file by its file index and line number.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.FileLines.FileLineUtil.yml", "output": { ".html": { "relative_path": "api/Hi.Common.FileLines.FileLineUtil.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.FileLines.FileLineUtil", "Summary": "Utility of
Utility to manage files.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.FileLines.IFileChangedEventSupport.yml", "output": { ".html": { "relative_path": "api/Hi.Common.FileLines.IFileChangedEventSupport.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.FileLines.IFileChangedEventSupport", "Summary": "Interface for supporting file change events.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.FileLines.IFileLine.yml", "output": { ".html": { "relative_path": "api/Hi.Common.FileLines.IFileLine.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.FileLines.IFileLine", "Summary": "Interface of file line.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.FileLines.IFileLineCharIndex.yml", "output": { ".html": { "relative_path": "api/Hi.Common.FileLines.IFileLineCharIndex.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.FileLines.IFileLineCharIndex", "Summary": "Interface for a character-level position within a file: file, line, and character index.\nAll indices are 0-based.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.FileLines.IFileLineIndex.yml", "output": { ".html": { "relative_path": "api/Hi.Common.FileLines.IFileLineIndex.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.FileLines.IFileLineIndex", "Summary": "Interface of file number and line number.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.FileLines.IGetFileLineIndex.yml", "output": { ".html": { "relative_path": "api/Hi.Common.FileLines.IGetFileLineIndex.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.FileLines.IGetFileLineIndex", "Summary": "Interface of
Interface for objects that can provide a file line.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.FileLines.IIndexedFileLine.yml", "output": { ".html": { "relative_path": "api/Hi.Common.FileLines.IIndexedFileLine.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.FileLines.IIndexedFileLine", "Summary": "Interface for a file line with associated file and line index information.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.FileLines.ILineChangedEventSupport.yml", "output": { ".html": { "relative_path": "api/Hi.Common.FileLines.ILineChangedEventSupport.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.FileLines.ILineChangedEventSupport", "Summary": "Interface for objects that support line change events.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.FileLines.IndexedFile.yml", "output": { ".html": { "relative_path": "api/Hi.Common.FileLines.IndexedFile.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.FileLines.IndexedFile", "Summary": "Represents a file with an associated index.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.FileLines.IndexedFileLine.yml", "output": { ".html": { "relative_path": "api/Hi.Common.FileLines.IndexedFileLine.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.FileLines.IndexedFileLine", "Summary": "Represents a line of text from a file with associated file and line information.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.FileLines.IndexedFileLineChar.yml", "output": { ".html": { "relative_path": "api/Hi.Common.FileLines.IndexedFileLineChar.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.FileLines.IndexedFileLineChar", "Summary": "Represents a character-level position within a file, with associated file path context.\nAnalogous to
Event arguments for when line processing begins.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.FileLines.LineEndEventArgs.yml", "output": { ".html": { "relative_path": "api/Hi.Common.FileLines.LineEndEventArgs.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.FileLines.LineEndEventArgs", "Summary": "Event arguments for when line processing ends.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.FileLines.yml", "output": { ".html": { "relative_path": "api/Hi.Common.FileLines.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.FileLines", "Summary": null }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.IAbstractNote.yml", "output": { ".html": { "relative_path": "api/Hi.Common.IAbstractNote.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.IAbstractNote", "Summary": "Interface for objects that provide an abstract description or note.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.IBinaryIo.yml", "output": { ".html": { "relative_path": "api/Hi.Common.IBinaryIo.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.IBinaryIo", "Summary": "Interface for binary input/output operations.\nExtends
Interface for objects that can clear their internal cache.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.IDuplicate.yml", "output": { ".html": { "relative_path": "api/Hi.Common.IDuplicate.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.IDuplicate", "Summary": "Interface for objects that support deep cloning/duplication.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.IGetQuantityByKey.yml", "output": { ".html": { "relative_path": "api/Hi.Common.IGetQuantityByKey.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.IGetQuantityByKey", "Summary": "Interface for retrieving a quantity value using a string key.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.IGetSelectionName.yml", "output": { ".html": { "relative_path": "api/Hi.Common.IGetSelectionName.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.IGetSelectionName", "Summary": "Interface for objects that can provide a name for selection purposes.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.INameNote.yml", "output": { ".html": { "relative_path": "api/Hi.Common.INameNote.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.INameNote", "Summary": "Interface for objects that have a name and note property.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.IPreferredFileName.yml", "output": { ".html": { "relative_path": "api/Hi.Common.IPreferredFileName.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.IPreferredFileName", "Summary": "Interface for objects that can specify a preferred file name.\nGenerally used to suggest a name when generating or saving files.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.IProgressFraction.yml", "output": { ".html": { "relative_path": "api/Hi.Common.IProgressFraction.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.IProgressFraction", "Summary": "Interface for progress reporting functionality.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.ISourceFile.yml", "output": { ".html": { "relative_path": "api/Hi.Common.ISourceFile.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.ISourceFile", "Summary": "Interface for objects that have a source file.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.IToPresentDto.yml", "output": { ".html": { "relative_path": "api/Hi.Common.IToPresentDto.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.IToPresentDto", "Summary": "Interface for converting objects to presentation DTOs (Data Transfer Objects) for JSON serialization.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.IUpdateByContent.yml", "output": { ".html": { "relative_path": "api/Hi.Common.IUpdateByContent.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.IUpdateByContent", "Summary": "Interface for objects that can update themselves based on their content.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.IUriGetter.yml", "output": { ".html": { "relative_path": "api/Hi.Common.IUriGetter.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.IUriGetter", "Summary": "Interface for retrieving a URI string.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.IWriteBin.yml", "output": { ".html": { "relative_path": "api/Hi.Common.IWriteBin.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.IWriteBin", "Summary": "Interface for writing binary data.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.IndexSegment.yml", "output": { ".html": { "relative_path": "api/Hi.Common.IndexSegment.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.IndexSegment", "Summary": "Represents a segment of indices with a beginning (inclusive) and ending (exclusive> point.\nUsed for defining segment of data in collections or arrays.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.IntegerKeyDictionaryConverter-1.yml", "output": { ".html": { "relative_path": "api/Hi.Common.IntegerKeyDictionaryConverter-1.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.IntegerKeyDictionaryConverterGeneric version of
Converts dictionaries with string keys to dictionaries with integer keys for more efficient storage and lookup.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.InternalException.yml", "output": { ".html": { "relative_path": "api/Hi.Common.InternalException.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.InternalException", "Summary": "Exception that represents an internal error that should never occur during normal operation.\nUsed to indicate programming errors or unexpected states that require developer attention.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.InvokeUtil.yml", "output": { ".html": { "relative_path": "api/Hi.Common.InvokeUtil.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.InvokeUtil", "Summary": "Utility class for method invocation operations.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.JsonUtil.yml", "output": { ".html": { "relative_path": "api/Hi.Common.JsonUtil.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.JsonUtil", "Summary": "Helper utilities for reading and writing JSON files.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.LooseRunner.MergedCancellationTokenRun.yml", "output": { ".html": { "relative_path": "api/Hi.Common.LooseRunner.MergedCancellationTokenRun.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.LooseRunner.MergedCancellationTokenRun", "Summary": "Delegate for actions that accept a merged cancellation token.\nThe merged token combines the runner's disposal token with an optional external cancellation token.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.LooseRunner.yml", "output": { ".html": { "relative_path": "api/Hi.Common.LooseRunner.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.LooseRunner", "Summary": "Provides a mechanism for running actions asynchronously in a loose manner.\nOnly the most recent action is executed and previous pending actions are discarded.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.ManualUtil.yml", "output": { ".html": { "relative_path": "api/Hi.Common.ManualUtil.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.ManualUtil", "Summary": "Utility class for handling manual and documentation files with culture support.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.MaskUtil.yml", "output": { ".html": { "relative_path": "api/Hi.Common.MaskUtil.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.MaskUtil", "Summary": "Utility for bits masking.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.Messages.ActionProgress-1.yml", "output": { ".html": { "relative_path": "api/Hi.Common.Messages.ActionProgress-1.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.Messages.ActionProgressLightweight
Bootstrap theme colors for UI styling.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.Messages.DebugUtil.yml", "output": { ".html": { "relative_path": "api/Hi.Common.Messages.DebugUtil.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.Messages.DebugUtil", "Summary": "Debug utility provides functions: pause process, count execution time and show the count.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.Messages.ExceptionUtil.yml", "output": { ".html": { "relative_path": "api/Hi.Common.Messages.ExceptionUtil.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.Messages.ExceptionUtil", "Summary": "Provides utility methods for handling exceptions.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.Messages.MessageBoardUtil.yml", "output": { ".html": { "relative_path": "api/Hi.Common.Messages.MessageBoardUtil.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.Messages.MessageBoardUtil", "Summary": "Utility class for displaying messages on a message board.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.Messages.MessageFlag.yml", "output": { ".html": { "relative_path": "api/Hi.Common.Messages.MessageFlag.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.Messages.MessageFlag", "Summary": "Enumeration of common message types used for system notifications.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.Messages.MultiTagMessage.yml", "output": { ".html": { "relative_path": "api/Hi.Common.Messages.MultiTagMessage.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.Messages.MultiTagMessage", "Summary": "Represents a message with multiple tags for categorization and filtering.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.Messages.MultiTagMessageUtil.yml", "output": { ".html": { "relative_path": "api/Hi.Common.Messages.MultiTagMessageUtil.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.Messages.MultiTagMessageUtil", "Summary": "Utility methods for working with IProgress implementations.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.Messages.ShowMessageBoardDelegate.yml", "output": { ".html": { "relative_path": "api/Hi.Common.Messages.ShowMessageBoardDelegate.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.Messages.ShowMessageBoardDelegate", "Summary": "Delegate for showing message board notifications.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.Messages.yml", "output": { ".html": { "relative_path": "api/Hi.Common.Messages.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.Messages", "Summary": null }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.MinMaxUtils.IndexedMinMaxPos-2.yml", "output": { ".html": { "relative_path": "api/Hi.Common.MinMaxUtils.IndexedMinMaxPos-2.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.MinMaxUtils.IndexedMinMaxPosRepresents a position with an index, key, and a range of values.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.MinMaxUtils.MinMaxUtil.yml", "output": { ".html": { "relative_path": "api/Hi.Common.MinMaxUtils.MinMaxUtil.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.MinMaxUtils.MinMaxUtil", "Summary": "Provides utility methods for finding minimum and maximum values in collections.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.MinMaxUtils.yml", "output": { ".html": { "relative_path": "api/Hi.Common.MinMaxUtils.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.MinMaxUtils", "Summary": null }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.NameUtil.yml", "output": { ".html": { "relative_path": "api/Hi.Common.NameUtil.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.NameUtil", "Summary": "Utility class for handling object names and display names.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.NativeProgresses.NativeProgressFraction.yml", "output": { ".html": { "relative_path": "api/Hi.Common.NativeProgresses.NativeProgressFraction.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.NativeProgresses.NativeProgressFraction", "Summary": "Native implementation of the progress report interface.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.NativeProgresses.progress_monitor_t.yml", "output": { ".html": { "relative_path": "api/Hi.Common.NativeProgresses.progress_monitor_t.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.NativeProgresses.progress_monitor_t", "Summary": "Native structure for progress monitoring.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.NativeProgresses.report_progress_func_t.yml", "output": { ".html": { "relative_path": "api/Hi.Common.NativeProgresses.report_progress_func_t.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.NativeProgresses.report_progress_func_t", "Summary": "Delegate for reporting progress from native code.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.NativeProgresses.yml", "output": { ".html": { "relative_path": "api/Hi.Common.NativeProgresses.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.NativeProgresses", "Summary": null }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.PacePlayee.yml", "output": { ".html": { "relative_path": "api/Hi.Common.PacePlayee.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.PacePlayee", "Summary": "Represents an entity that can be controlled by the pace player.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.PacePlayer.yml", "output": { ".html": { "relative_path": "api/Hi.Common.PacePlayer.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.PacePlayer", "Summary": "Controls the pace execution of a task.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.Pair-2.yml", "output": { ".html": { "relative_path": "api/Hi.Common.Pair-2.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.PairEditable pair values.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.ParallelBulkUtils.ParallelBulkReader-1.yml", "output": { ".html": { "relative_path": "api/Hi.Common.ParallelBulkUtils.ParallelBulkReader-1.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.ParallelBulkUtils.ParallelBulkReaderParallel bulk reader that provides efficient data access with caching capabilities.\nManages reading data in parallel with forward and backward caching to optimize performance.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.ParallelBulkUtils.ParallelBulkWriter-1.yml", "output": { ".html": { "relative_path": "api/Hi.Common.ParallelBulkUtils.ParallelBulkWriter-1.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.ParallelBulkUtils.ParallelBulkWriterParallel bulk writer that efficiently processes and writes data in parallel.\nThe writing data is buffered and processed on a separate task to improve performance.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.ParallelBulkUtils.ReadBulkDelegate-1.yml", "output": { ".html": { "relative_path": "api/Hi.Common.ParallelBulkUtils.ReadBulkDelegate-1.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.ParallelBulkUtils.ReadBulkDelegateDelegate for reading a bulk of data from a specified range.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.ParallelBulkUtils.SequentialBulkReader-1.yml", "output": { ".html": { "relative_path": "api/Hi.Common.ParallelBulkUtils.SequentialBulkReader-1.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.ParallelBulkUtils.SequentialBulkReaderSequential bulk reader that provides efficient data access with caching capabilities.\nUnlike
Represents a path with a named base path and an optional extended path component.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.PathUtils.HttpUtil.yml", "output": { ".html": { "relative_path": "api/Hi.Common.PathUtils.HttpUtil.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.PathUtils.HttpUtil", "Summary": "Utility class for HTTP operations such as URL validation and content retrieval.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.PathUtils.Lang.yml", "output": { ".html": { "relative_path": "api/Hi.Common.PathUtils.Lang.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.PathUtils.Lang", "Summary": "Provides language-related utilities for path handling.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.PathUtils.NamedPath.yml", "output": { ".html": { "relative_path": "api/Hi.Common.PathUtils.NamedPath.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.PathUtils.NamedPath", "Summary": "Represents a file system path with an associated name or alias.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.PathUtils.PathUtil.yml", "output": { ".html": { "relative_path": "api/Hi.Common.PathUtils.PathUtil.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.PathUtils.PathUtil", "Summary": "Utility class for path manipulation and management.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.PathUtils.yml", "output": { ".html": { "relative_path": "api/Hi.Common.PathUtils.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.PathUtils", "Summary": null }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.ProgressFraction.yml", "output": { ".html": { "relative_path": "api/Hi.Common.ProgressFraction.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.ProgressFraction", "Summary": "Represents a progress report implementation.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.QueueCacheUtils.QueueCacher-1.yml", "output": { ".html": { "relative_path": "api/Hi.Common.QueueCacheUtils.QueueCacher-1.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.QueueCacheUtils.QueueCacherThis cacher suits scattered IO with repeatity.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.QueueCacheUtils.QueueCacherHost-1.yml", "output": { ".html": { "relative_path": "api/Hi.Common.QueueCacheUtils.QueueCacherHost-1.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.QueueCacheUtils.QueueCacherHostThis cacher suits scattered IO with repeatity.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.QueueCacheUtils.yml", "output": { ".html": { "relative_path": "api/Hi.Common.QueueCacheUtils.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.QueueCacheUtils", "Summary": null }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.Range-1.yml", "output": { ".html": { "relative_path": "api/Hi.Common.Range-1.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.RangeRange from
Utility class for working with resource managers and localized strings.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.RoutineBlocker.yml", "output": { ".html": { "relative_path": "api/Hi.Common.RoutineBlocker.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.RoutineBlocker", "Summary": "Block the thread to the given delay from the previous block.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.SearchResult.yml", "output": { ".html": { "relative_path": "api/Hi.Common.SearchResult.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.SearchResult", "Summary": "Represents the result of a search operation.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.SeqPair-1.yml", "output": { ".html": { "relative_path": "api/Hi.Common.SeqPair-1.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.SeqPairRepresents a sequence pair containing previous and current values.\nUsed to track sequential state changes of a value.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.SeqPairUtil.yml", "output": { ".html": { "relative_path": "api/Hi.Common.SeqPairUtil.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.SeqPairUtil", "Summary": "Utility class for SeqPair operations.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.ServerFileExplorerConfig.yml", "output": { ".html": { "relative_path": "api/Hi.Common.ServerFileExplorerConfig.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.ServerFileExplorerConfig", "Summary": "Configuration for server file explorer functionality.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.StringLocalizer.yml", "output": { ".html": { "relative_path": "api/Hi.Common.StringLocalizer.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.StringLocalizer", "Summary": "Provides localization functionality for strings using resource managers.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.StringUtil.yml", "output": { ".html": { "relative_path": "api/Hi.Common.StringUtil.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.StringUtil", "Summary": "Utility for managing text.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.TaskUtil.yml", "output": { ".html": { "relative_path": "api/Hi.Common.TaskUtil.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.TaskUtil", "Summary": "Utility class for Task-related operations.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.TimeCounter.yml", "output": { ".html": { "relative_path": "api/Hi.Common.TimeCounter.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.TimeCounter", "Summary": "A utility counts the average/total time consume between the
A class that combines an XML-serializable data object with its source file path.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.XmlUtils.IMakeXmlSource.yml", "output": { ".html": { "relative_path": "api/Hi.Common.XmlUtils.IMakeXmlSource.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.XmlUtils.IMakeXmlSource", "Summary": "Interface for objects that can be serialized to XML format.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.XmlUtils.IToXElement.yml", "output": { ".html": { "relative_path": "api/Hi.Common.XmlUtils.IToXElement.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.XmlUtils.IToXElement", "Summary": "Interface of
Carries the API version read from a project file's XML attribute\nthrough the object[] res parameter.\nConsumers retrieve it with res?.OfType<ProjectApiVersion>().FirstOrDefault().
Delegate for setting the file path during XML operations.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.XmlUtils.XFactory.XGeneratorDelegate.yml", "output": { ".html": { "relative_path": "api/Hi.Common.XmlUtils.XFactory.XGeneratorDelegate.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.XmlUtils.XFactory.XGeneratorDelegate", "Summary": "Delegate for generating an object from an XML element with relative\nfile path context.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.XmlUtils.XFactory.XmlExceptionDelegate.yml", "output": { ".html": { "relative_path": "api/Hi.Common.XmlUtils.XFactory.XmlExceptionDelegate.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.XmlUtils.XFactory.XmlExceptionDelegate", "Summary": "Delegate for handling XML exceptions during generation.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.XmlUtils.XFactory.yml", "output": { ".html": { "relative_path": "api/Hi.Common.XmlUtils.XFactory.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.XmlUtils.XFactory", "Summary": "Factory for generating objects from XML elements using registered generator\nfunctions.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.XmlUtils.XmlUtil.yml", "output": { ".html": { "relative_path": "api/Hi.Common.XmlUtils.XmlUtil.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.XmlUtils.XmlUtil", "Summary": "Utility for managing XML.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.XmlUtils.yml", "output": { ".html": { "relative_path": "api/Hi.Common.XmlUtils.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common.XmlUtils", "Summary": null }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Common.yml", "output": { ".html": { "relative_path": "api/Hi.Common.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Common", "Summary": null }, { "type": "ManagedReference", "source_relative_path": "api/Hi.CutterLocations.ClPath.ClCircleArc.yml", "output": { ".html": { "relative_path": "api/Hi.CutterLocations.ClPath.ClCircleArc.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.CutterLocations.ClPath.ClCircleArc", "Summary": "Cutter location path of circle arc.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.CutterLocations.ClPath.ClLinear.yml", "output": { ".html": { "relative_path": "api/Hi.CutterLocations.ClPath.ClLinear.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.CutterLocations.ClPath.ClLinear", "Summary": "Cutter location path by linear interpolation.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.CutterLocations.ClPath.IClPath.yml", "output": { ".html": { "relative_path": "api/Hi.CutterLocations.ClPath.IClPath.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.CutterLocations.ClPath.IClPath", "Summary": "Cutter location path.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.CutterLocations.ClPath.yml", "output": { ".html": { "relative_path": "api/Hi.CutterLocations.ClPath.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.CutterLocations.ClPath", "Summary": null }, { "type": "ManagedReference", "source_relative_path": "api/Hi.CutterLocations.ClStrips.ClStrip.yml", "output": { ".html": { "relative_path": "api/Hi.CutterLocations.ClStrips.ClStrip.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.CutterLocations.ClStrips.ClStrip", "Summary": "Represents a CL (Cutter Location) strip for 3D display.\nThis class manages the display and interaction of cutter location points and lines.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.CutterLocations.ClStrips.ClStripPos.yml", "output": { ".html": { "relative_path": "api/Hi.CutterLocations.ClStrips.ClStripPos.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.CutterLocations.ClStrips.ClStripPos", "Summary": "Represents a position in a cutter location strip, containing program coordinates and state information.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.CutterLocations.ClStrips.RgbFunc.yml", "output": { ".html": { "relative_path": "api/Hi.CutterLocations.ClStrips.RgbFunc.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.CutterLocations.ClStrips.RgbFunc", "Summary": "Delegate for getting RGB color from a source object.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.CutterLocations.ClStrips.yml", "output": { ".html": { "relative_path": "api/Hi.CutterLocations.ClStrips.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.CutterLocations.ClStrips", "Summary": null }, { "type": "ManagedReference", "source_relative_path": "api/Hi.CutterLocations.IGetProgramCl.yml", "output": { ".html": { "relative_path": "api/Hi.CutterLocations.IGetProgramCl.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.CutterLocations.IGetProgramCl", "Summary": "Interface of get CL (Cutter Location).
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.CutterLocations.SimpleCl.yml", "output": { ".html": { "relative_path": "api/Hi.CutterLocations.SimpleCl.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.CutterLocations.SimpleCl", "Summary": "Represents a simple cutter location with position and normal vector.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.CutterLocations.yml", "output": { ".html": { "relative_path": "api/Hi.CutterLocations.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.CutterLocations", "Summary": null }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Disp.Bind.yml", "output": { ".html": { "relative_path": "api/Hi.Disp.Bind.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Disp.Bind", "Summary": "Runtime rendering data for each iteration in rendering loop.\nIt manipulates geometry transformation, such as moving, rotatingand scaling.\nIt also deal with color and picking.\nA bind_t object is generated by rendering in the every beginning of each rendering iteration.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Disp.Box3dDispUtil.BoxableExpandToBox3dDel.yml", "output": { ".html": { "relative_path": "api/Hi.Disp.Box3dDispUtil.BoxableExpandToBox3dDel.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Disp.Box3dDispUtil.BoxableExpandToBox3dDel", "Summary": "Delegate for expanding a native boxable object to a box3d.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Disp.Box3dDispUtil.yml", "output": { ".html": { "relative_path": "api/Hi.Disp.Box3dDispUtil.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Disp.Box3dDispUtil", "Summary": "Utility and Extension of
A displayee implementation that delegates display functionality to a function.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Disp.DispEngine.ImageRequestedDelegate.yml", "output": { ".html": { "relative_path": "api/Hi.Disp.DispEngine.ImageRequestedDelegate.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Disp.DispEngine.ImageRequestedDelegate", "Summary": "For
HiAPI display engine.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Disp.DispEngineConfig.yml", "output": { ".html": { "relative_path": "api/Hi.Disp.DispEngineConfig.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Disp.DispEngineConfig", "Summary": "Configuration class for display engine.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Disp.DispFrameUtil.yml", "output": { ".html": { "relative_path": "api/Hi.Disp.DispFrameUtil.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Disp.DispFrameUtil", "Summary": "Utility class for display frame management.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Disp.DispList.yml", "output": { ".html": { "relative_path": "api/Hi.Disp.DispList.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Disp.DispList", "Summary": "A combination of
Display Utility
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Disp.Drawing.yml", "output": { ".html": { "relative_path": "api/Hi.Disp.Drawing.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Disp.Drawing", "Summary": "The most efficient elemental 3D rendering unit.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Disp.Flag.ColorScaleBar.yml", "output": { ".html": { "relative_path": "api/Hi.Disp.Flag.ColorScaleBar.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Disp.Flag.ColorScaleBar", "Summary": "ColorScaleBar.\nFor Covering mode.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Disp.Flag.CoordinateDrawing.yml", "output": { ".html": { "relative_path": "api/Hi.Disp.Flag.CoordinateDrawing.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Disp.Flag.CoordinateDrawing", "Summary": "Draw a Cartesian Coordinate.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Disp.Flag.CubicalFlagDrawing.yml", "output": { ".html": { "relative_path": "api/Hi.Disp.Flag.CubicalFlagDrawing.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Disp.Flag.CubicalFlagDrawing", "Summary": "A drawing class for cubical flag visualization.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Disp.Flag.DimensionBar.yml", "output": { ".html": { "relative_path": "api/Hi.Disp.Flag.DimensionBar.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Disp.Flag.DimensionBar", "Summary": "DimensionBar.\nFor Covering mode.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Disp.Flag.DispCoverUtil.yml", "output": { ".html": { "relative_path": "api/Hi.Disp.Flag.DispCoverUtil.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Disp.Flag.DispCoverUtil", "Summary": "Utility class for display covering functionality.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Disp.Flag.yml", "output": { ".html": { "relative_path": "api/Hi.Disp.Flag.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Disp.Flag", "Summary": null }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Disp.FuncDisplayee.yml", "output": { ".html": { "relative_path": "api/Hi.Disp.FuncDisplayee.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Disp.FuncDisplayee", "Summary": "A displayee implementation that delegates display functionality to function delegates.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Disp.GL.yml", "output": { ".html": { "relative_path": "api/Hi.Disp.GL.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Disp.GL", "Summary": "Native opengl functions wrapper.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Disp.IDisplayee.yml", "output": { ".html": { "relative_path": "api/Hi.Disp.IDisplayee.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Disp.IDisplayee", "Summary": "An object which can be displayed in
Interface fo getting
Get
Bridge of Native OpenGL Context.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Disp.MatStack.ItemDisposable.yml", "output": { ".html": { "relative_path": "api/Hi.Disp.MatStack.ItemDisposable.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Disp.MatStack.ItemDisposable", "Summary": "A disposable class that manages push and pop operations on a matrix stack.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Disp.MatStack.yml", "output": { ".html": { "relative_path": "api/Hi.Disp.MatStack.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Disp.MatStack", "Summary": "Stack-based Matrix.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Disp.MvpBoxRelation.yml", "output": { ".html": { "relative_path": "api/Hi.Disp.MvpBoxRelation.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Disp.MvpBoxRelation", "Summary": "Relation between mvpBox and an AABB
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Disp.Pickable.yml", "output": { ".html": { "relative_path": "api/Hi.Disp.Pickable.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Disp.Pickable", "Summary": "Picking event handler for rendering.\nNote that it has to be disposed manually or the object occurs memory leak.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Disp.PopModelMat.yml", "output": { ".html": { "relative_path": "api/Hi.Disp.PopModelMat.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Disp.PopModelMat", "Summary": "Call
Call
Utilities for converting geometry segments to renderable drawings.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Disp.ShowEventPickable.yml", "output": { ".html": { "relative_path": "api/Hi.Disp.ShowEventPickable.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Disp.ShowEventPickable", "Summary": "Show pick events in console.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Disp.Stamp.yml", "output": { ".html": { "relative_path": "api/Hi.Disp.Stamp.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Disp.Stamp", "Summary": "Data scope of the double array for
An
A utility class for temporarily changing the line width and restoring it when disposed.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Disp.Treat.LineWidthTreat.yml", "output": { ".html": { "relative_path": "api/Hi.Disp.Treat.LineWidthTreat.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Disp.Treat.LineWidthTreat", "Summary": "Object for set line width of opengl drawing.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Disp.Treat.PointSizeSwap.yml", "output": { ".html": { "relative_path": "api/Hi.Disp.Treat.PointSizeSwap.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Disp.Treat.PointSizeSwap", "Summary": "A utility class for temporarily changing the point size and restoring it when disposed.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Disp.Treat.PointSizeTreat.yml", "output": { ".html": { "relative_path": "api/Hi.Disp.Treat.PointSizeTreat.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Disp.Treat.PointSizeTreat", "Summary": "Object for set point size of opengl drawing.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Disp.Treat.RgbSwap.yml", "output": { ".html": { "relative_path": "api/Hi.Disp.Treat.RgbSwap.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Disp.Treat.RgbSwap", "Summary": "A utility class for temporarily changing the RGB color and restoring it when disposed.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Disp.Treat.RgbTreat.yml", "output": { ".html": { "relative_path": "api/Hi.Disp.Treat.RgbTreat.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Disp.Treat.RgbTreat", "Summary": "A displayee that sets the RGB color in the binding context.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Disp.Treat.RgbWrapper.yml", "output": { ".html": { "relative_path": "api/Hi.Disp.Treat.RgbWrapper.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Disp.Treat.RgbWrapper", "Summary": "A wrapper displayee that applies an RGB color to the wrapped displayee.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Disp.Treat.TransformationWrapper.yml", "output": { ".html": { "relative_path": "api/Hi.Disp.Treat.TransformationWrapper.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Disp.Treat.TransformationWrapper", "Summary": "A wrapper displayee that applies a transformation matrix to the wrapped displayees.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Disp.Treat.yml", "output": { ".html": { "relative_path": "api/Hi.Disp.Treat.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Disp.Treat", "Summary": null }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Disp.Tri3dDispUtil.yml", "output": { ".html": { "relative_path": "api/Hi.Disp.Tri3dDispUtil.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Disp.Tri3dDispUtil", "Summary": "Utility and Extension of
Utility and Extension of
A wrapper class for IDisplayee that allows customizing display and bounding box behavior.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Disp.yml", "output": { ".html": { "relative_path": "api/Hi.Disp.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Disp", "Summary": null }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Fanuc.FanucVarTable.yml", "output": { ".html": { "relative_path": "api/Hi.Fanuc.FanucVarTable.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Fanuc.FanucVarTable", "Summary": "Represents a table of Fanuc variables used for CNC machine control.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Fanuc.FanucVarValue.yml", "output": { ".html": { "relative_path": "api/Hi.Fanuc.FanucVarValue.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Fanuc.FanucVarValue", "Summary": "Represents a value for Fanuc variable that can be interpreted as either an integer or a double.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Fanuc.yml", "output": { ".html": { "relative_path": "api/Hi.Fanuc.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Fanuc", "Summary": null }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Geom.ArrayUtil.yml", "output": { ".html": { "relative_path": "api/Hi.Geom.ArrayUtil.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Geom.ArrayUtil", "Summary": "Utility class for array operations.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Geom.AxisAngle4d.yml", "output": { ".html": { "relative_path": "api/Hi.Geom.AxisAngle4d.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Geom.AxisAngle4d", "Summary": "Axis(3d) and angle(1d)
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Geom.Box2d.NoInit.yml", "output": { ".html": { "relative_path": "api/Hi.Geom.Box2d.NoInit.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Geom.Box2d.NoInit", "Summary": "Flag for calling
Lightweight 2d box.\nAn orthogonal box which the edges are all parallel with Cartesian Coordinate.\nThe data contains in a
Flag for calling
Lightweight 3d box.\nAn orthogonal box which the edges are all parallel with Cartesian Coordinate.\nThe data contains in a
3d Geometry of Cylindroid.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Geom.DVec3d.yml", "output": { ".html": { "relative_path": "api/Hi.Geom.DVec3d.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Geom.DVec3d", "Summary": "Dual Vec3d with p(
Enumeration of coordinate axis directions in 3D space.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Geom.ExtendedCylinder.yml", "output": { ".html": { "relative_path": "api/Hi.Geom.ExtendedCylinder.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Geom.ExtendedCylinder", "Summary": "An extensible cylinder geometry that generates a corresponding
Represents a 3D plane defined by a unit normal vector and its signed distance from the origin.\nThe plane equation is: Ax + By + Cz + d = 0, where (A,B,C) is the normal vector and d is the distance to origin.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Geom.Fraction-1.yml", "output": { ".html": { "relative_path": "api/Hi.Geom.Fraction-1.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Geom.FractionPure C# unlimited precision fraction.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Geom.FractionStatus.yml", "output": { ".html": { "relative_path": "api/Hi.Geom.FractionStatus.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Geom.FractionStatus", "Summary": "Status flags for Fraction and
A class that manages multiple STL sources as a single source.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Geom.GeomUtil.yml", "output": { ".html": { "relative_path": "api/Hi.Geom.GeomUtil.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Geom.GeomUtil", "Summary": "Utility of Geometry.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Geom.IExpandToBox2d.yml", "output": { ".html": { "relative_path": "api/Hi.Geom.IExpandToBox2d.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Geom.IExpandToBox2d", "Summary": "Object that can be expanded to a
Object that can be expanded to a
Interface for a 3D plane that provides an anchor point and a normal vector.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Geom.IGenStl.yml", "output": { ".html": { "relative_path": "api/Hi.Geom.IGenStl.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Geom.IGenStl", "Summary": "Interface for generating STL geometry with a resolution.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Geom.IGeomProperty.yml", "output": { ".html": { "relative_path": "api/Hi.Geom.IGeomProperty.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Geom.IGeomProperty", "Summary": "Interface for objects that have a geometry property.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Geom.IGetStl.yml", "output": { ".html": { "relative_path": "api/Hi.Geom.IGetStl.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Geom.IGetStl", "Summary": "Interface for retrieving STL geometry data.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Geom.IGetZrContour.yml", "output": { ".html": { "relative_path": "api/Hi.Geom.IGetZrContour.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Geom.IGetZrContour", "Summary": "Interface for retrieving Z-R contour data for rotational geometries.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Geom.IGetZrList.yml", "output": { ".html": { "relative_path": "api/Hi.Geom.IGetZrList.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Geom.IGetZrList", "Summary": "Interface for getting a list of Z-R pairs.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Geom.IStlSource.yml", "output": { ".html": { "relative_path": "api/Hi.Geom.IStlSource.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Geom.IStlSource", "Summary": "Interface for 3D triangles.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Geom.IVec-1.yml", "output": { ".html": { "relative_path": "api/Hi.Geom.IVec-1.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Geom.IVecInterface for vector types with generic element type.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Geom.IZrListSourceProperty.yml", "output": { ".html": { "relative_path": "api/Hi.Geom.IZrListSourceProperty.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Geom.IZrListSourceProperty", "Summary": "Provides a source for obtaining an
Specifies the indexing method for matrix construction from vectors.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Geom.Mat4d.yml", "output": { ".html": { "relative_path": "api/Hi.Geom.Mat4d.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Geom.Mat4d", "Summary": "4x4 Matrix.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Geom.MathNetUtil.yml", "output": { ".html": { "relative_path": "api/Hi.Geom.MathNetUtil.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Geom.MathNetUtil", "Summary": "Utility class for MathNet.Numerics operations.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Geom.MathUtil.yml", "output": { ".html": { "relative_path": "api/Hi.Geom.MathUtil.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Geom.MathUtil", "Summary": "Math Utility.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Geom.NativeFraction.yml", "output": { ".html": { "relative_path": "api/Hi.Geom.NativeFraction.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Geom.NativeFraction", "Summary": "Native wrapper for C++ fraction_t<0> (unlimited precision fraction).\nA fraction consists of a numerator and denominator using unlimited precision integers.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Geom.NativeStl.yml", "output": { ".html": { "relative_path": "api/Hi.Geom.NativeStl.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Geom.NativeStl", "Summary": "Native Stl. For purpose of efficient swept volume.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Geom.NativeTopoStld.yml", "output": { ".html": { "relative_path": "api/Hi.Geom.NativeTopoStld.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Geom.NativeTopoStld", "Summary": "Native TopoStl with element type double.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Geom.NativeTopoStlfr.yml", "output": { ".html": { "relative_path": "api/Hi.Geom.NativeTopoStlfr.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Geom.NativeTopoStlfr", "Summary": "Native TopoStl with element type fraction.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Geom.ObjUtil.yml", "output": { ".html": { "relative_path": "api/Hi.Geom.ObjUtil.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Geom.ObjUtil", "Summary": "Wavefront OBJ writer for RGB-coloured triangle buffers.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Geom.PairZr.yml", "output": { ".html": { "relative_path": "api/Hi.Geom.PairZr.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Geom.PairZr", "Summary": "Value pair of Z and R.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Geom.PairZrUtil.yml", "output": { ".html": { "relative_path": "api/Hi.Geom.PairZrUtil.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Geom.PairZrUtil", "Summary": "Utility class for working with PairZr objects
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Geom.PlyUtil.yml", "output": { ".html": { "relative_path": "api/Hi.Geom.PlyUtil.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Geom.PlyUtil", "Summary": "Stanford PLY writer for RGB-coloured triangle buffers.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Geom.Polar3d.yml", "output": { ".html": { "relative_path": "api/Hi.Geom.Polar3d.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Geom.Polar3d", "Summary": "Represents a point in 3D space using polar coordinates
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Geom.Resolution.IPolarResolution2d.yml", "output": { ".html": { "relative_path": "api/Hi.Geom.Resolution.IPolarResolution2d.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Geom.Resolution.IPolarResolution2d", "Summary": "Interface for objects that control STL resolution parameters for both linear and angular measurements.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Geom.Resolution.IPolarResolution2dSourceProperty.yml", "output": { ".html": { "relative_path": "api/Hi.Geom.Resolution.IPolarResolution2dSourceProperty.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Geom.Resolution.IPolarResolution2dSourceProperty", "Summary": "Provides a property for the source of polar resolution.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Geom.Resolution.PolarResolution2d.yml", "output": { ".html": { "relative_path": "api/Hi.Geom.Resolution.PolarResolution2d.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Geom.Resolution.PolarResolution2d", "Summary": "Polar resolution for generating geometry in polar coordinate.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Geom.Resolution.yml", "output": { ".html": { "relative_path": "api/Hi.Geom.Resolution.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Geom.Resolution", "Summary": null }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Geom.Segment3d.yml", "output": { ".html": { "relative_path": "api/Hi.Geom.Segment3d.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Geom.Segment3d", "Summary": "Represents a 3D line segment defined by two endpoints.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Geom.Solvers.BinarySolverUtil.yml", "output": { ".html": { "relative_path": "api/Hi.Geom.Solvers.BinarySolverUtil.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Geom.Solvers.BinarySolverUtil", "Summary": "Utility class providing binary solving methods for one-dimensional functions.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Geom.Solvers.BinarySolvingEntry.yml", "output": { ".html": { "relative_path": "api/Hi.Geom.Solvers.BinarySolvingEntry.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Geom.Solvers.BinarySolvingEntry", "Summary": "Represents the status of a binary solving process.\nContains information about the current state of the solver including best solutions and error metrics.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Geom.Solvers.DeepSolvingStatus.yml", "output": { ".html": { "relative_path": "api/Hi.Geom.Solvers.DeepSolvingStatus.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Geom.Solvers.DeepSolvingStatus", "Summary": "Represents the status of a deep solving process with multiple parameters.\nContains detailed information about the solving process including iterations, convergence, and Jacobian matrix.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Geom.Solvers.NumericalSolver.GetRepondsDelegate.yml", "output": { ".html": { "relative_path": "api/Hi.Geom.Solvers.NumericalSolver.GetRepondsDelegate.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Geom.Solvers.NumericalSolver.GetRepondsDelegate", "Summary": "Delegate for getting response values from the system being solved.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Geom.Solvers.NumericalSolver.SetParasDelegate.yml", "output": { ".html": { "relative_path": "api/Hi.Geom.Solvers.NumericalSolver.SetParasDelegate.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Geom.Solvers.NumericalSolver.SetParasDelegate", "Summary": "Delegate for setting parameter values in the system being solved.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Geom.Solvers.NumericalSolver.yml", "output": { ".html": { "relative_path": "api/Hi.Geom.Solvers.NumericalSolver.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Geom.Solvers.NumericalSolver", "Summary": "A numerical solver for systems of equations using the Jacobian matrix.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Geom.Solvers.SolverUtil.yml", "output": { ".html": { "relative_path": "api/Hi.Geom.Solvers.SolverUtil.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Geom.Solvers.SolverUtil", "Summary": "Utility class providing advanced numerical solving methods for systems of equations.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Geom.Solvers.SolvingResult.yml", "output": { ".html": { "relative_path": "api/Hi.Geom.Solvers.SolvingResult.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Geom.Solvers.SolvingResult", "Summary": "Represents the result of a solving process.\nContains detailed information about the solution including parameters, biases, and convergence metrics.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Geom.Solvers.SolvingStatus.yml", "output": { ".html": { "relative_path": "api/Hi.Geom.Solvers.SolvingStatus.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Geom.Solvers.SolvingStatus", "Summary": "Enumeration of possible statuses for solving results.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Geom.Solvers.SolvingTerm.yml", "output": { ".html": { "relative_path": "api/Hi.Geom.Solvers.SolvingTerm.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Geom.Solvers.SolvingTerm", "Summary": "Enumeration of solving terms or methods used in geometric solvers.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Geom.Solvers.yml", "output": { ".html": { "relative_path": "api/Hi.Geom.Solvers.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Geom.Solvers", "Summary": null }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Geom.Stl.StlType.yml", "output": { ".html": { "relative_path": "api/Hi.Geom.Stl.StlType.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Geom.Stl.StlType", "Summary": "Stl file format.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Geom.Stl.yml", "output": { ".html": { "relative_path": "api/Hi.Geom.Stl.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Geom.Stl", "Summary": "STL (stereolithography). Composed by Triangles.\nProvide Stl File R/W.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Geom.StlFile.yml", "output": { ".html": { "relative_path": "api/Hi.Geom.StlFile.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Geom.StlFile", "Summary": "Represents an STL file with loading and saving capabilities
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Geom.StlFuncHost.yml", "output": { ".html": { "relative_path": "api/Hi.Geom.StlFuncHost.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Geom.StlFuncHost", "Summary": "A class that hosts a function to generate STL geometry.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Geom.StlUtil.yml", "output": { ".html": { "relative_path": "api/Hi.Geom.StlUtil.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Geom.StlUtil", "Summary": "Utility for
Topological 3D line (directed edge) with topo_line3_t.
Stock (pool) of topological lines with deduplication based on endpoint identity.\nCorresponds to C++ topo_line3_stock_t.
Topological 3D point with topo_point3_t.
Stock (pool) of topological points with deduplication based on fraction coordinates.\nCorresponds to C++ topo_point3_stock_t.
Pure C# topological STL (triangle mesh) with topo_stl3_t.
Flat-shaded displayee for TopoStl3::_flatDraw + all-lines draw.
Smooth-shaded displayee for TopoStl3::_smoothDraw + _edgeDraw.
Topological 3D triangle with topo_tri3_t.
Stock (pool) of topological triangles.\nCorresponds to C++ topo_tri3_stock_t.
3D vector with vec3<wfr_t>.
Represents a geometric transformation that can be applied to a geometry object.\nThis class combines a transformer with a target geometry to produce transformed geometric results.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Geom.Tri3d.yml", "output": { ".html": { "relative_path": "api/Hi.Geom.Tri3d.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Geom.Tri3d", "Summary": "Basic 3D Triangle.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Geom.Tri3dUtil.yml", "output": { ".html": { "relative_path": "api/Hi.Geom.Tri3dUtil.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Geom.Tri3dUtil", "Summary": "Utility of
Represents physical units used in the system.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Geom.UnitUtils.StringValueAttribute.yml", "output": { ".html": { "relative_path": "api/Hi.Geom.UnitUtils.StringValueAttribute.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Geom.UnitUtils.StringValueAttribute", "Summary": "Attribute for associating a string value with an enum value or other element.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Geom.UnitUtils.UnitConvertUtil.yml", "output": { ".html": { "relative_path": "api/Hi.Geom.UnitUtils.UnitConvertUtil.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Geom.UnitUtils.UnitConvertUtil", "Summary": "Provides utility methods for converting between different physical units and their string representations.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Geom.UnitUtils.yml", "output": { ".html": { "relative_path": "api/Hi.Geom.UnitUtils.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Geom.UnitUtils", "Summary": null }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Geom.Vec2d.yml", "output": { ".html": { "relative_path": "api/Hi.Geom.Vec2d.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Geom.Vec2d", "Summary": "Basic 2D point (or vector).
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Geom.Vec2i.yml", "output": { ".html": { "relative_path": "api/Hi.Geom.Vec2i.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Geom.Vec2i", "Summary": "Basic 2D point (or vector).
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Geom.Vec3d.yml", "output": { ".html": { "relative_path": "api/Hi.Geom.Vec3d.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Geom.Vec3d", "Summary": "Basic 3D point (or vector).
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Geom.yml", "output": { ".html": { "relative_path": "api/Hi.Geom.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Geom", "Summary": null }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Grpcs.ClStripService.ClStripServiceBase.yml", "output": { ".html": { "relative_path": "api/Hi.Grpcs.ClStripService.ClStripServiceBase.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Grpcs.ClStripService.ClStripServiceBase", "Summary": "Base class for server-side implementations of ClStripService
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Grpcs.ClStripService.ClStripServiceClient.yml", "output": { ".html": { "relative_path": "api/Hi.Grpcs.ClStripService.ClStripServiceClient.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Grpcs.ClStripService.ClStripServiceClient", "Summary": "Client for ClStripService
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Grpcs.ClStripService.yml", "output": { ".html": { "relative_path": "api/Hi.Grpcs.ClStripService.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Grpcs.ClStripService", "Summary": "milling process service based on dictionary data type.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Grpcs.ClStripServiceReflection.yml", "output": { ".html": { "relative_path": "api/Hi.Grpcs.ClStripServiceReflection.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Grpcs.ClStripServiceReflection", "Summary": "Holder for reflection information generated from Grpcs/ClStripService.proto
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Grpcs.ClStripServiceRunner.yml", "output": { ".html": { "relative_path": "api/Hi.Grpcs.ClStripServiceRunner.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Grpcs.ClStripServiceRunner", "Summary": "Service runner for the ClStrip gRPC service.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Grpcs.DictionaryStep.yml", "output": { ".html": { "relative_path": "api/Hi.Grpcs.DictionaryStep.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Grpcs.DictionaryStep", "Summary": "step which data type is dictionary
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Grpcs.PlayerService.PlayerServiceBase.yml", "output": { ".html": { "relative_path": "api/Hi.Grpcs.PlayerService.PlayerServiceBase.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Grpcs.PlayerService.PlayerServiceBase", "Summary": "Base class for server-side implementations of PlayerService
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Grpcs.PlayerService.PlayerServiceClient.yml", "output": { ".html": { "relative_path": "api/Hi.Grpcs.PlayerService.PlayerServiceClient.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Grpcs.PlayerService.PlayerServiceClient", "Summary": "Client for PlayerService
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Grpcs.PlayerService.yml", "output": { ".html": { "relative_path": "api/Hi.Grpcs.PlayerService.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Grpcs.PlayerService", "Summary": "numerical file player service.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Grpcs.PlayerServiceReflection.yml", "output": { ".html": { "relative_path": "api/Hi.Grpcs.PlayerServiceReflection.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Grpcs.PlayerServiceReflection", "Summary": "Holder for reflection information generated from Grpcs/PlayerService.proto
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Grpcs.PlayerServiceRunner.yml", "output": { ".html": { "relative_path": "api/Hi.Grpcs.PlayerServiceRunner.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Grpcs.PlayerServiceRunner", "Summary": "Service runner for the Player gRPC service.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Grpcs.yml", "output": { ".html": { "relative_path": "api/Hi.Grpcs.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Grpcs", "Summary": null }, { "type": "ManagedReference", "source_relative_path": "api/Hi.HiNcKits.BasePathEnum.yml", "output": { ".html": { "relative_path": "api/Hi.HiNcKits.BasePathEnum.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.HiNcKits.BasePathEnum", "Summary": "Enumeration of base path types used in the HiNC system.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.HiNcKits.HiNcHost.yml", "output": { ".html": { "relative_path": "api/Hi.HiNcKits.HiNcHost.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.HiNcKits.HiNcHost", "Summary": "Rich HiNC Service.\nHost class for HiNC functionality that provides project management, path resolution, and DB integration.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.HiNcKits.LocalApp.yml", "output": { ".html": { "relative_path": "api/Hi.HiNcKits.LocalApp.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.HiNcKits.LocalApp", "Summary": "Local application initialization and cleanup utilities.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.HiNcKits.LocalAppConfig.yml", "output": { ".html": { "relative_path": "api/Hi.HiNcKits.LocalAppConfig.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.HiNcKits.LocalAppConfig", "Summary": "Configuration for host-related settings.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.HiNcKits.PlayerDivConfig.yml", "output": { ".html": { "relative_path": "api/Hi.HiNcKits.PlayerDivConfig.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.HiNcKits.PlayerDivConfig", "Summary": "Per-user visibility flags for the Player page's divisions (charts and\ninfo panels). Mirrors the HiNcRcl PlayerDivConfig + PlayerDivFlag\npair, flattened into a single all-boolean config so the webservice\n(which has no HiNcHost / HiNcUser) can persist the whole\nlayout through
Configuration for proxy-related settings.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.HiNcKits.UserConfig.yml", "output": { ".html": { "relative_path": "api/Hi.HiNcKits.UserConfig.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.HiNcKits.UserConfig", "Summary": "User Configuration
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.HiNcKits.UserService.yml", "output": { ".html": { "relative_path": "api/Hi.HiNcKits.UserService.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.HiNcKits.UserService", "Summary": "User Service.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.HiNcKits.yml", "output": { ".html": { "relative_path": "api/Hi.HiNcKits.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.HiNcKits", "Summary": null }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Licenses.AuthFeature.yml", "output": { ".html": { "relative_path": "api/Hi.Licenses.AuthFeature.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Licenses.AuthFeature", "Summary": "Internal Use Only.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Licenses.AuthorizationFailedEventArgs.yml", "output": { ".html": { "relative_path": "api/Hi.Licenses.AuthorizationFailedEventArgs.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Licenses.AuthorizationFailedEventArgs", "Summary": "Event arguments for authorization failure events.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Licenses.BlockType.yml", "output": { ".html": { "relative_path": "api/Hi.Licenses.BlockType.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Licenses.BlockType", "Summary": "Block type.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Licenses.License.yml", "output": { ".html": { "relative_path": "api/Hi.Licenses.License.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Licenses.License", "Summary": "License of this module.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Licenses.LicenseType.yml", "output": { ".html": { "relative_path": "api/Hi.Licenses.LicenseType.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Licenses.LicenseType", "Summary": "Defines the types of licenses available.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Licenses.yml", "output": { ".html": { "relative_path": "api/Hi.Licenses.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Licenses", "Summary": null }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Machining.FreeformRemover.yml", "output": { ".html": { "relative_path": "api/Hi.Machining.FreeformRemover.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Machining.FreeformRemover", "Summary": "Represents a freeform cutting tool that can be used in machining operations.\nThis cutter type supports complex geometries for both the noble (upper) part and the shaper (cutting) part.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Machining.ICutter.yml", "output": { ".html": { "relative_path": "api/Hi.Machining.ICutter.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Machining.ICutter", "Summary": "Interface of cutter.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Machining.ICutterAnchorable.yml", "output": { ".html": { "relative_path": "api/Hi.Machining.ICutterAnchorable.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Machining.ICutterAnchorable", "Summary": "Interface of Get
Interface for machining tools that combine a holder and a cutter.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Machining.IVolumeRemover.yml", "output": { ".html": { "relative_path": "api/Hi.Machining.IVolumeRemover.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Machining.IVolumeRemover", "Summary": "Only inherit from
Defines the components of a machining setup that can participate in collision detection.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Machining.MachiningEquipmentUtils.IGetMachiningEquipment.yml", "output": { ".html": { "relative_path": "api/Hi.Machining.MachiningEquipmentUtils.IGetMachiningEquipment.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Machining.MachiningEquipmentUtils.IGetMachiningEquipment", "Summary": "Interface for objects that can provide access to a machining equipment instance.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Machining.MachiningEquipmentUtils.IMachiningEquipment.yml", "output": { ".html": { "relative_path": "api/Hi.Machining.MachiningEquipmentUtils.IMachiningEquipment.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Machining.MachiningEquipmentUtils.IMachiningEquipment", "Summary": "Machining equipment.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Machining.MachiningEquipmentUtils.MachiningEquipment.yml", "output": { ".html": { "relative_path": "api/Hi.Machining.MachiningEquipmentUtils.MachiningEquipment.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Machining.MachiningEquipmentUtils.MachiningEquipment", "Summary": "Machining Equipment. Include the machining chain, workpiece, tool and fixture, etc..
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Machining.MachiningEquipmentUtils.MachiningEquipmentCollisionIndex.yml", "output": { ".html": { "relative_path": "api/Hi.Machining.MachiningEquipmentUtils.MachiningEquipmentCollisionIndex.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Machining.MachiningEquipmentUtils.MachiningEquipmentCollisionIndex", "Summary": "Represents a collision index for machining equipment components.\nThis class manages collision detection between different parts of the machining equipment.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Machining.MachiningEquipmentUtils.MachiningEquipmentCollisionIndexPairsSource.yml", "output": { ".html": { "relative_path": "api/Hi.Machining.MachiningEquipmentUtils.MachiningEquipmentCollisionIndexPairsSource.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Machining.MachiningEquipmentUtils.MachiningEquipmentCollisionIndexPairsSource", "Summary": "Source of
Utility methods for working with machining equipment.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Machining.MachiningEquipmentUtils.yml", "output": { ".html": { "relative_path": "api/Hi.Machining.MachiningEquipmentUtils.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Machining.MachiningEquipmentUtils", "Summary": null }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Machining.MachiningToolHouse.yml", "output": { ".html": { "relative_path": "api/Hi.Machining.MachiningToolHouse.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Machining.MachiningToolHouse", "Summary": "Tool House.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Machining.MachiningVolumeRemovalProc.StepMotionSnapshot.yml", "output": { ".html": { "relative_path": "api/Hi.Machining.MachiningVolumeRemovalProc.StepMotionSnapshot.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Machining.MachiningVolumeRemovalProc.StepMotionSnapshot", "Summary": "Represents a snapshot of the machining motion state.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Machining.MachiningVolumeRemovalProc.yml", "output": { ".html": { "relative_path": "api/Hi.Machining.MachiningVolumeRemovalProc.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Machining.MachiningVolumeRemovalProc", "Summary": "Handles the machining volume removal process and related operations.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Machining.MatInterpolationKit.yml", "output": { ".html": { "relative_path": "api/Hi.Machining.MatInterpolationKit.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Machining.MatInterpolationKit", "Summary": "Provides functionality for interpolating between two transformation matrices.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Machining.MatRelation.yml", "output": { ".html": { "relative_path": "api/Hi.Machining.MatRelation.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Machining.MatRelation", "Summary": "Defines the relationship between two matrices.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Machining.MatRelationUtil.yml", "output": { ".html": { "relative_path": "api/Hi.Machining.MatRelationUtil.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Machining.MatRelationUtil", "Summary": "Utility methods for determining relationships between matrices.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Machining.Sweptable.yml", "output": { ".html": { "relative_path": "api/Hi.Machining.Sweptable.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Machining.Sweptable", "Summary": "Sweptable geometry.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Machining.SweptableUtil.yml", "output": { ".html": { "relative_path": "api/Hi.Machining.SweptableUtil.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Machining.SweptableUtil", "Summary": "Util for
Exception thrown when a tool with the specified ID is not found.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Machining.yml", "output": { ".html": { "relative_path": "api/Hi.Machining.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Machining", "Summary": null }, { "type": "ManagedReference", "source_relative_path": "api/Hi.MachiningProcs.ConfigStepFunc.yml", "output": { ".html": { "relative_path": "api/Hi.MachiningProcs.ConfigStepFunc.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.MachiningProcs.ConfigStepFunc", "Summary": "Delegate for configuring a milling step with additional arguments.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.MachiningProcs.IMachiningProjectGetter.yml", "output": { ".html": { "relative_path": "api/Hi.MachiningProcs.IMachiningProjectGetter.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.MachiningProcs.IMachiningProjectGetter", "Summary": "Interface for objects that can provide a MachiningProject instance.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.MachiningProcs.IProjectService.yml", "output": { ".html": { "relative_path": "api/Hi.MachiningProcs.IProjectService.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.MachiningProcs.IProjectService", "Summary": "Interface for services that manage machining projects.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.MachiningProcs.LocalProjectService.MachiningProjectChangedDelegate.yml", "output": { ".html": { "relative_path": "api/Hi.MachiningProcs.LocalProjectService.MachiningProjectChangedDelegate.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.MachiningProcs.LocalProjectService.MachiningProjectChangedDelegate", "Summary": "Delegate for machining project changed events.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.MachiningProcs.LocalProjectService.yml", "output": { ".html": { "relative_path": "api/Hi.MachiningProcs.LocalProjectService.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.MachiningProcs.LocalProjectService", "Summary": "Root(Local) project service.\nApply absolute file path.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.MachiningProcs.MachiningActRunner.MachiningStepBuiltDelegate.yml", "output": { ".html": { "relative_path": "api/Hi.MachiningProcs.MachiningActRunner.MachiningStepBuiltDelegate.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.MachiningProcs.MachiningActRunner.MachiningStepBuiltDelegate", "Summary": "Delegate for configuring a step with previous and current step information.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.MachiningProcs.MachiningActRunner.yml", "output": { ".html": { "relative_path": "api/Hi.MachiningProcs.MachiningActRunner.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.MachiningProcs.MachiningActRunner", "Summary": "Represents a runner for machining actions that manages milling steps, tool paths, and collision detection.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.MachiningProcs.MachiningActRunnerConfig.yml", "output": { ".html": { "relative_path": "api/Hi.MachiningProcs.MachiningActRunnerConfig.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.MachiningProcs.MachiningActRunnerConfig", "Summary": "Represents the configuration for a milling act runner.\nProvides settings for physics simulation, evaluation, and temperature control.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.MachiningProcs.MachiningParallelProc.StepTaskBundle.yml", "output": { ".html": { "relative_path": "api/Hi.MachiningProcs.MachiningParallelProc.StepTaskBundle.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.MachiningProcs.MachiningParallelProc.StepTaskBundle", "Summary": "Represents a bundle of tasks related to a milling step.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.MachiningProcs.MachiningParallelProc.SubstractionResult.yml", "output": { ".html": { "relative_path": "api/Hi.MachiningProcs.MachiningParallelProc.SubstractionResult.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.MachiningProcs.MachiningParallelProc.SubstractionResult", "Summary": "Represents the result of a subtraction operation.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.MachiningProcs.MachiningParallelProc.yml", "output": { ".html": { "relative_path": "api/Hi.MachiningProcs.MachiningParallelProc.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.MachiningProcs.MachiningParallelProc", "Summary": "Represents a parallel processing system for milling operations that manages various tasks\nsuch as sweeping, subtraction, force calculation, and physics simulation.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.MachiningProcs.MachiningProject.yml", "output": { ".html": { "relative_path": "api/Hi.MachiningProcs.MachiningProject.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.MachiningProcs.MachiningProject", "Summary": "Represents a milling project that manages the execution, simulation, and analysis of NC programs.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.MachiningProcs.MachiningProjectDisplayee.yml", "output": { ".html": { "relative_path": "api/Hi.MachiningProcs.MachiningProjectDisplayee.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.MachiningProcs.MachiningProjectDisplayee", "Summary": "Represents a displayable wrapper for a machining project.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.MachiningProcs.MachiningSession.yml", "output": { ".html": { "relative_path": "api/Hi.MachiningProcs.MachiningSession.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.MachiningProcs.MachiningSession", "Summary": "Represents a machining session that manages the execution and optimization of machining operations.\nProvides functionality for controlling the machining process, handling optimization options,\nand managing session state. Implements
Provides utility methods for milling calculations and operations.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.MachiningProcs.NcRunnerSessionState.yml", "output": { ".html": { "relative_path": "api/Hi.MachiningProcs.NcRunnerSessionState.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.MachiningProcs.NcRunnerSessionState", "Summary": "NC pipeline state held on a Previous/Next connectivity (and thus\nModalCarrySyntax deep-clone) crosses file boundaries.
Delegate (User-based) Project Service.\nApply relative file path from
Flags that control which elements are rendered in the visualization.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.MachiningProcs.SessionMessage.yml", "output": { ".html": { "relative_path": "api/Hi.MachiningProcs.SessionMessage.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.MachiningProcs.SessionMessage", "Summary": "Represents a message in the machining process that can contain various types of data\nsuch as source commands, machining steps, exceptions, and tagged messages.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.MachiningProcs.SessionMessagePack.yml", "output": { ".html": { "relative_path": "api/Hi.MachiningProcs.SessionMessagePack.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.MachiningProcs.SessionMessagePack", "Summary": "Represents a package containing a machining message and its associated context.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.MachiningProcs.SessionProgress.FilterFlag.yml", "output": { ".html": { "relative_path": "api/Hi.MachiningProcs.SessionProgress.FilterFlag.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.MachiningProcs.SessionProgress.FilterFlag", "Summary": "Filtering flags for querying messages.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.MachiningProcs.SessionProgress.yml", "output": { ".html": { "relative_path": "api/Hi.MachiningProcs.SessionProgress.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.MachiningProcs.SessionProgress", "Summary": "Represents a host for managing milling messages with thread-safe operations and stable index tracking.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.MachiningProcs.SessionShell.yml", "output": { ".html": { "relative_path": "api/Hi.MachiningProcs.SessionShell.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.MachiningProcs.SessionShell", "Summary": "End-user-facing facade for a machining session: aggregates session lifecycle,\nNC playback, optimization, geometry I/O, and scripting infrastructure into a\nsingle delegation surface. Used as the C# script globals object and as the\nconcrete target of
HTTP controller exposing
Controller for setup operations of machining projects.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.MachiningProcs.SpindleSpeedCache.yml", "output": { ".html": { "relative_path": "api/Hi.MachiningProcs.SpindleSpeedCache.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.MachiningProcs.SpindleSpeedCache", "Summary": "Represents cached spindle speed information.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.MachiningProcs.yml", "output": { ".html": { "relative_path": "api/Hi.MachiningProcs.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.MachiningProcs", "Summary": null }, { "type": "ManagedReference", "source_relative_path": "api/Hi.MachiningSteps.IFlagText.yml", "output": { ".html": { "relative_path": "api/Hi.MachiningSteps.IFlagText.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.MachiningSteps.IFlagText", "Summary": "temperary design for showing flag text.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.MachiningSteps.IMachiningService.yml", "output": { ".html": { "relative_path": "api/Hi.MachiningSteps.IMachiningService.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.MachiningSteps.IMachiningService", "Summary": "Represents a host interface for milling steps that provides access to milling equipment and related resources.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.MachiningSteps.MachineMotionStep.yml", "output": { ".html": { "relative_path": "api/Hi.MachiningSteps.MachineMotionStep.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.MachiningSteps.MachineMotionStep", "Summary": "MachiningStep has spindle information.\nNote that the spindle information is only for milling behavior.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.MachiningSteps.MachiningStep.CollidedKeyPair.yml", "output": { ".html": { "relative_path": "api/Hi.MachiningSteps.MachiningStep.CollidedKeyPair.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.MachiningSteps.MachiningStep.CollidedKeyPair", "Summary": "A pair of collided keys that indicates two entities are in collision.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.MachiningSteps.MachiningStep.yml", "output": { ".html": { "relative_path": "api/Hi.MachiningSteps.MachiningStep.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.MachiningSteps.MachiningStep", "Summary": "Represents a machining step enriched with physics, mapping and source metadata.\nThe duration-based step property is based on the duration from previous-step to current-step.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.MachiningSteps.MachiningStepUtil.yml", "output": { ".html": { "relative_path": "api/Hi.MachiningSteps.MachiningStepUtil.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.MachiningSteps.MachiningStepUtil", "Summary": "Utility class for milling step related constants and helper methods.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.MachiningSteps.PresentAccess.yml", "output": { ".html": { "relative_path": "api/Hi.MachiningSteps.PresentAccess.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.MachiningSteps.PresentAccess", "Summary": "Provides a value accessor bound with its
Attribute for presenting property information with localization support.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.MachiningSteps.PropertyAccess-1.yml", "output": { ".html": { "relative_path": "api/Hi.MachiningSteps.PropertyAccess-1.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.MachiningSteps.PropertyAccessProvides access to properties of a milling step with presentation information.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.MachiningSteps.yml", "output": { ".html": { "relative_path": "api/Hi.MachiningSteps.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.MachiningSteps", "Summary": null }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Mapping.CsvNcStep.yml", "output": { ".html": { "relative_path": "api/Hi.Mapping.CsvNcStep.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Mapping.CsvNcStep", "Summary": "Represents a numerical control step loaded from a CSV file, with support for interpolation and arithmetic operations.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Mapping.FileToTimeShotMapping.yml", "output": { ".html": { "relative_path": "api/Hi.Mapping.FileToTimeShotMapping.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Mapping.FileToTimeShotMapping", "Summary": "Provides mapping between files and time shot data with caching capabilities.\nThis class manages the loading and caching of time shot data from measurement files.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Mapping.IAccelerationShot.yml", "output": { ".html": { "relative_path": "api/Hi.Mapping.IAccelerationShot.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Mapping.IAccelerationShot", "Summary": "Interface for objects that represent acceleration measurements at a specific time point.\nExtends the ITimeShot interface to include acceleration data in multiple units.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Mapping.IForceShot.yml", "output": { ".html": { "relative_path": "api/Hi.Mapping.IForceShot.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Mapping.IForceShot", "Summary": "Interface for objects that represent force measurements at a specific time point.\nExtends the ITimeShot interface to include force vector data.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Mapping.IMomentShot.yml", "output": { ".html": { "relative_path": "api/Hi.Mapping.IMomentShot.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Mapping.IMomentShot", "Summary": "Interface for objects that represent moment (torque) measurements at a specific time point.\nExtends the ITimeShot interface to include moment vector data.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Mapping.ITimeShot.yml", "output": { ".html": { "relative_path": "api/Hi.Mapping.ITimeShot.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Mapping.ITimeShot", "Summary": "Interface for objects that represent a snapshot of data at a specific time and support arithmetic operations.\nThis interface provides a foundation for time-series data with vector operations.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Mapping.MappingUtil.yml", "output": { ".html": { "relative_path": "api/Hi.Mapping.MappingUtil.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Mapping.MappingUtil", "Summary": "Shared CSV column tags and physics-related column prefixes for mapping simulator or\nlogged controller data onto
Defines the cycle sampling modes for mapping time shots to machining steps.\nThe sampling mode determines how time shots are aligned with machining cycles.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Mapping.StepTimeShotUtil.GetTimeShotByFileDelegate.yml", "output": { ".html": { "relative_path": "api/Hi.Mapping.StepTimeShotUtil.GetTimeShotByFileDelegate.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Mapping.StepTimeShotUtil.GetTimeShotByFileDelegate", "Summary": "Delegate for retrieving time shots from a file.\nImplementations should handle file reading, parsing, and error handling.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Mapping.StepTimeShotUtil.yml", "output": { ".html": { "relative_path": "api/Hi.Mapping.StepTimeShotUtil.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Mapping.StepTimeShotUtil", "Summary": "Utility methods for working with time-based shots (measurements) and mapping them to machining steps.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Mapping.TimeMapping.yml", "output": { ".html": { "relative_path": "api/Hi.Mapping.TimeMapping.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Mapping.TimeMapping", "Summary": "Provides mapping between machining steps and time-based measurements (shots).\nIt is one step to many data mapping (one-many).
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Mapping.yml", "output": { ".html": { "relative_path": "api/Hi.Mapping.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Mapping", "Summary": null }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Mappings.FileTimeSection.TimeOption.yml", "output": { ".html": { "relative_path": "api/Hi.Mappings.FileTimeSection.TimeOption.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Mappings.FileTimeSection.TimeOption", "Summary": "Defines options for representing time values.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Mappings.FileTimeSection.yml", "output": { ".html": { "relative_path": "api/Hi.Mappings.FileTimeSection.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Mappings.FileTimeSection", "Summary": "Represents a section of a file defined by a time range.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Mappings.yml", "output": { ".html": { "relative_path": "api/Hi.Mappings.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Mappings", "Summary": null }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Mech.GeneralMechanism.yml", "output": { ".html": { "relative_path": "api/Hi.Mech.GeneralMechanism.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Mech.GeneralMechanism", "Summary": "General Mechanism.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Mech.IGetAnchorToSolidDictionary.yml", "output": { ".html": { "relative_path": "api/Hi.Mech.IGetAnchorToSolidDictionary.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Mech.IGetAnchorToSolidDictionary", "Summary": "Provides functionality to retrieve a dictionary mapping anchors to their corresponding solids.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Mech.IGetMachiningChain.yml", "output": { ".html": { "relative_path": "api/Hi.Mech.IGetMachiningChain.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Mech.IGetMachiningChain", "Summary": "Provides functionality to retrieve a machining chain instance.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Mech.IMachiningChain.yml", "output": { ".html": { "relative_path": "api/Hi.Mech.IMachiningChain.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Mech.IMachiningChain", "Summary": "Represents a machining chain with two ends, connecting a tool and a workpiece.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Mech.IMachiningChainSource.yml", "output": { ".html": { "relative_path": "api/Hi.Mech.IMachiningChainSource.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Mech.IMachiningChainSource", "Summary": "Provides XML serialization/deserialization capabilities for
Utility methods for machining chains.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Mech.Topo.Anchor.yml", "output": { ".html": { "relative_path": "api/Hi.Mech.Topo.Anchor.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Mech.Topo.Anchor", "Summary": "A coordinate system using in kinematic chain.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Mech.Topo.AnchorFuncSource.yml", "output": { ".html": { "relative_path": "api/Hi.Mech.Topo.AnchorFuncSource.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Mech.Topo.AnchorFuncSource", "Summary": "Provides an anchor through a function delegate.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Mech.Topo.AnchoredBoxable.yml", "output": { ".html": { "relative_path": "api/Hi.Mech.Topo.AnchoredBoxable.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Mech.Topo.AnchoredBoxable", "Summary": "Represents an object that is both anchored to a root point and can expand to a 3D box.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Mech.Topo.AnchoredDisplayee.yml", "output": { ".html": { "relative_path": "api/Hi.Mech.Topo.AnchoredDisplayee.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Mech.Topo.AnchoredDisplayee", "Summary": "Represents a displayable object that is anchored to a specific point in a topology.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Mech.Topo.Asmb.yml", "output": { ".html": { "relative_path": "api/Hi.Mech.Topo.Asmb.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Mech.Topo.Asmb", "Summary": "Collection of
Render all
The linkage between two
A data pack contains
Utility of topology.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Mech.Topo.DynamicFreeform.yml", "output": { ".html": { "relative_path": "api/Hi.Mech.Topo.DynamicFreeform.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Mech.Topo.DynamicFreeform", "Summary": "Dynamic Freeform transformer.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Mech.Topo.DynamicRotation.yml", "output": { ".html": { "relative_path": "api/Hi.Mech.Topo.DynamicRotation.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Mech.Topo.DynamicRotation", "Summary": "Dynamic rotate transformer.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Mech.Topo.DynamicTranslation.yml", "output": { ".html": { "relative_path": "api/Hi.Mech.Topo.DynamicTranslation.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Mech.Topo.DynamicTranslation", "Summary": "Dynamic translate transformer
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Mech.Topo.GeneralTransform.yml", "output": { ".html": { "relative_path": "api/Hi.Mech.Topo.GeneralTransform.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Mech.Topo.GeneralTransform", "Summary": "Represents a general transformation that combines scaling, rotation, and translation.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Mech.Topo.IAnchoredDisplayee.yml", "output": { ".html": { "relative_path": "api/Hi.Mech.Topo.IAnchoredDisplayee.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Mech.Topo.IAnchoredDisplayee", "Summary": "Interface for objects that can be displayed and are anchored to a root point in a topology.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Mech.Topo.IDynamicRegular.yml", "output": { ".html": { "relative_path": "api/Hi.Mech.Topo.IDynamicRegular.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Mech.Topo.IDynamicRegular", "Summary": "Dynamic Regular Transformer
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Mech.Topo.IDynamicRotation.yml", "output": { ".html": { "relative_path": "api/Hi.Mech.Topo.IDynamicRotation.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Mech.Topo.IDynamicRotation", "Summary": "Topology joint that applies a single-axis rotation about
Dynamic Transformer.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Mech.Topo.IGetAnchor.yml", "output": { ".html": { "relative_path": "api/Hi.Mech.Topo.IGetAnchor.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Mech.Topo.IGetAnchor", "Summary": "Interface to get the key
Interface for getting a list of anchored displayable objects.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Mech.Topo.IGetAsmb.yml", "output": { ".html": { "relative_path": "api/Hi.Mech.Topo.IGetAsmb.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Mech.Topo.IGetAsmb", "Summary": "Interface of Getting a key
Interface of
Interface for objects that can provide their inverse transformer.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Mech.Topo.IGetTopoIndex.yml", "output": { ".html": { "relative_path": "api/Hi.Mech.Topo.IGetTopoIndex.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Mech.Topo.IGetTopoIndex", "Summary": "interface of
Static Transformer
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Mech.Topo.ITopo.yml", "output": { ".html": { "relative_path": "api/Hi.Mech.Topo.ITopo.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Mech.Topo.ITopo", "Summary": "Defines an interface for displaying topological elements that combines assembly, anchoring, and display capabilities.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Mech.Topo.ITopoDisplayee.yml", "output": { ".html": { "relative_path": "api/Hi.Mech.Topo.ITopoDisplayee.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Mech.Topo.ITopoDisplayee", "Summary": "Represents a topology object that can be displayed and has an anchor.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Mech.Topo.ITransformer.yml", "output": { ".html": { "relative_path": "api/Hi.Mech.Topo.ITransformer.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Mech.Topo.ITransformer", "Summary": "Interface of single transform matrix manipulation.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Mech.Topo.ITransformerProperty.yml", "output": { ".html": { "relative_path": "api/Hi.Mech.Topo.ITransformerProperty.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Mech.Topo.ITransformerProperty", "Summary": "Interface for objects that have a transformer property.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Mech.Topo.NoTransform.yml", "output": { ".html": { "relative_path": "api/Hi.Mech.Topo.NoTransform.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Mech.Topo.NoTransform", "Summary": "Static Identity Transformer.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Mech.Topo.StackTransformer.yml", "output": { ".html": { "relative_path": "api/Hi.Mech.Topo.StackTransformer.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Mech.Topo.StackTransformer", "Summary": "Represents a transformer that maintains a stack of transformations.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Mech.Topo.StaticFreeform.yml", "output": { ".html": { "relative_path": "api/Hi.Mech.Topo.StaticFreeform.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Mech.Topo.StaticFreeform", "Summary": "Static Freeform transformer.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Mech.Topo.StaticRotation.yml", "output": { ".html": { "relative_path": "api/Hi.Mech.Topo.StaticRotation.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Mech.Topo.StaticRotation", "Summary": "Static Rotation.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Mech.Topo.StaticTranslation.yml", "output": { ".html": { "relative_path": "api/Hi.Mech.Topo.StaticTranslation.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Mech.Topo.StaticTranslation", "Summary": "Static Translate.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Mech.Topo.TopoDisplayee.yml", "output": { ".html": { "relative_path": "api/Hi.Mech.Topo.TopoDisplayee.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Mech.Topo.TopoDisplayee", "Summary": "Implements a displayable topological element that manages a collection of anchored displayees within an assembly.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Mech.Topo.TopoDisplayeeUtil.yml", "output": { ".html": { "relative_path": "api/Hi.Mech.Topo.TopoDisplayeeUtil.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Mech.Topo.TopoDisplayeeUtil", "Summary": "Provides utility methods for displaying and manipulating topological displayees.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Mech.Topo.TopoReflection.yml", "output": { ".html": { "relative_path": "api/Hi.Mech.Topo.TopoReflection.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Mech.Topo.TopoReflection", "Summary": "Clone
Utility of handling
Utility for
Apt derivative.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Milling.Apts.BallApt.yml", "output": { ".html": { "relative_path": "api/Hi.Milling.Apts.BallApt.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Milling.Apts.BallApt", "Summary": "Ball End Apt.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Milling.Apts.BullNoseApt.yml", "output": { ".html": { "relative_path": "api/Hi.Milling.Apts.BullNoseApt.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Milling.Apts.BullNoseApt", "Summary": "Bull Nose End APT.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Milling.Apts.ColumnApt.yml", "output": { ".html": { "relative_path": "api/Hi.Milling.Apts.ColumnApt.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Milling.Apts.ColumnApt", "Summary": "Column End APT.\nThe composition is identical to the
Cone End APT.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Milling.Apts.ExactColumnApt.yml", "output": { ".html": { "relative_path": "api/Hi.Milling.Apts.ExactColumnApt.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Milling.Apts.ExactColumnApt", "Summary": "Column End APT.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Milling.Apts.GeneralApt.yml", "output": { ".html": { "relative_path": "api/Hi.Milling.Apts.GeneralApt.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Milling.Apts.GeneralApt", "Summary": "APT standard milling cutter geometry.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Milling.Apts.IAptAlpha.yml", "output": { ".html": { "relative_path": "api/Hi.Milling.Apts.IAptAlpha.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Milling.Apts.IAptAlpha", "Summary": "Interface for APT objects with alpha angle.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Milling.Apts.IAptBased.yml", "output": { ".html": { "relative_path": "api/Hi.Milling.Apts.IAptBased.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Milling.Apts.IAptBased", "Summary": "Interface for APT-based objects.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Milling.Apts.IAptBeta.yml", "output": { ".html": { "relative_path": "api/Hi.Milling.Apts.IAptBeta.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Milling.Apts.IAptBeta", "Summary": "Interface for APT objects with beta angle.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Milling.Apts.IAptRc.yml", "output": { ".html": { "relative_path": "api/Hi.Milling.Apts.IAptRc.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Milling.Apts.IAptRc", "Summary": "Interface for APT objects with corner radius.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Milling.Apts.IAptRr.yml", "output": { ".html": { "relative_path": "api/Hi.Milling.Apts.IAptRr.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Milling.Apts.IAptRr", "Summary": "Interface for APT objects with round radius.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Milling.Apts.IAptRz.yml", "output": { ".html": { "relative_path": "api/Hi.Milling.Apts.IAptRz.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Milling.Apts.IAptRz", "Summary": "Interface for APT objects with Z-axis round center distance.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Milling.Apts.IGetApt.yml", "output": { ".html": { "relative_path": "api/Hi.Milling.Apts.IGetApt.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Milling.Apts.IGetApt", "Summary": "Interface for objects that can provide an APT-based object.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Milling.Apts.IGetGeneralApt.yml", "output": { ".html": { "relative_path": "api/Hi.Milling.Apts.IGetGeneralApt.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Milling.Apts.IGetGeneralApt", "Summary": "Interface of
Taper End APT.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Milling.Apts.apt_t.yml", "output": { ".html": { "relative_path": "api/Hi.Milling.Apts.apt_t.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Milling.Apts.apt_t", "Summary": "Native apt.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Milling.Apts.yml", "output": { ".html": { "relative_path": "api/Hi.Milling.Apts.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Milling.Apts", "Summary": null }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Milling.Cutters.AptProfile.yml", "output": { ".html": { "relative_path": "api/Hi.Milling.Cutters.AptProfile.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Milling.Cutters.AptProfile", "Summary": "Represents an APT (Automatically Programmed Tool) based profile for a milling cutter.\nThis profile uses APT definitions to describe the cutter geometry.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Milling.Cutters.ConstRatioProfile.yml", "output": { ".html": { "relative_path": "api/Hi.Milling.Cutters.ConstRatioProfile.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Milling.Cutters.ConstRatioProfile", "Summary": "Represents a constant ratio profile for a milling cutter.\nThis profile maintains a constant ratio between inner and outer radii.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Milling.Cutters.CustomSpinningProfile.yml", "output": { ".html": { "relative_path": "api/Hi.Milling.Cutters.CustomSpinningProfile.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Milling.Cutters.CustomSpinningProfile", "Summary": "Represents a custom spinning profile for a milling cutter.\nThis profile allows for custom geometry to be used as the cutter profile.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Milling.Cutters.CutterUtil.yml", "output": { ".html": { "relative_path": "api/Hi.Milling.Cutters.CutterUtil.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Milling.Cutters.CutterUtil", "Summary": "Utility class providing extension methods for cutter operations.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Milling.Cutters.FluteContourDisplayee.yml", "output": { ".html": { "relative_path": "api/Hi.Milling.Cutters.FluteContourDisplayee.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Milling.Cutters.FluteContourDisplayee", "Summary": "Provides display functionality for flute contours in milling cutters.\nThis class handles the visualization of both front and back surfaces of flute contours.\nInternal Use Only
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Milling.Cutters.FluteDependentRatioProfile.yml", "output": { ".html": { "relative_path": "api/Hi.Milling.Cutters.FluteDependentRatioProfile.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Milling.Cutters.FluteDependentRatioProfile", "Summary": "Represents a flute number dependent ratio profile for a milling cutter.\nThis profile determines the ratio between inner and outer radii based on the number of flutes.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Milling.Cutters.IShaperProfile.yml", "output": { ".html": { "relative_path": "api/Hi.Milling.Cutters.IShaperProfile.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Milling.Cutters.IShaperProfile", "Summary": "Interface defining the shape profile of a cutter flute.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Milling.Cutters.MillingCutter.IntegralModeEnum.yml", "output": { ".html": { "relative_path": "api/Hi.Milling.Cutters.MillingCutter.IntegralModeEnum.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Milling.Cutters.MillingCutter.IntegralModeEnum", "Summary": "Defines the integral mode of the cutter.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Milling.Cutters.MillingCutter.MassAssignmentMode.yml", "output": { ".html": { "relative_path": "api/Hi.Milling.Cutters.MillingCutter.MassAssignmentMode.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Milling.Cutters.MillingCutter.MassAssignmentMode", "Summary": "Defines the mass assignment mode for the cutter.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Milling.Cutters.MillingCutter.yml", "output": { ".html": { "relative_path": "api/Hi.Milling.Cutters.MillingCutter.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Milling.Cutters.MillingCutter", "Summary": "Represents a milling cutter with its geometric and physical properties.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Milling.Cutters.MillingCutterEditorDisplayee.ShapeModeEnum.yml", "output": { ".html": { "relative_path": "api/Hi.Milling.Cutters.MillingCutterEditorDisplayee.ShapeModeEnum.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Milling.Cutters.MillingCutterEditorDisplayee.ShapeModeEnum", "Summary": "Display shape mode for the cutter.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Milling.Cutters.MillingCutterEditorDisplayee.yml", "output": { ".html": { "relative_path": "api/Hi.Milling.Cutters.MillingCutterEditorDisplayee.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Milling.Cutters.MillingCutterEditorDisplayee", "Summary": "Represents a displayable editor for milling cutter visualization.\nThis class handles the rendering of cutter geometry, including flutes, profiles, and inner structures.\nInternal Use Only
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Milling.Cutters.yml", "output": { ".html": { "relative_path": "api/Hi.Milling.Cutters.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Milling.Cutters", "Summary": null }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Milling.Engagements.BitwiseMillingEngagement.yml", "output": { ".html": { "relative_path": "api/Hi.Milling.Engagements.BitwiseMillingEngagement.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Milling.Engagements.BitwiseMillingEngagement", "Summary": "Represents a bitwise milling engagement that uses bit arrays to efficiently store engagement information.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Milling.Engagements.EngagementLayer.yml", "output": { ".html": { "relative_path": "api/Hi.Milling.Engagements.EngagementLayer.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Milling.Engagements.EngagementLayer", "Summary": "Represents a layer of engagement between a tool and workpiece.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Milling.Engagements.EngagementSlice.yml", "output": { ".html": { "relative_path": "api/Hi.Milling.Engagements.EngagementSlice.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Milling.Engagements.EngagementSlice", "Summary": "Engagement slice.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Milling.Engagements.IBitwiseMillingEngagementSupport.yml", "output": { ".html": { "relative_path": "api/Hi.Milling.Engagements.IBitwiseMillingEngagementSupport.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Milling.Engagements.IBitwiseMillingEngagementSupport", "Summary": "Interface for classes that support bitwise milling engagement.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Milling.Engagements.IGetLayerMillingEngagement.yml", "output": { ".html": { "relative_path": "api/Hi.Milling.Engagements.IGetLayerMillingEngagement.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Milling.Engagements.IGetLayerMillingEngagement", "Summary": "Interface of
Milling Engagement.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Milling.Engagements.MillingEngagementUtil.yml", "output": { ".html": { "relative_path": "api/Hi.Milling.Engagements.MillingEngagementUtil.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Milling.Engagements.MillingEngagementUtil", "Summary": "Utility of
Represents a constant helix side contour for milling cutters.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Milling.FluteContours.FluteContour.yml", "output": { ".html": { "relative_path": "api/Hi.Milling.FluteContours.FluteContour.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Milling.FluteContours.FluteContour", "Summary": "Represents a flute contour for milling tools.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Milling.FluteContours.FluteContourUtil.yml", "output": { ".html": { "relative_path": "api/Hi.Milling.FluteContours.FluteContourUtil.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Milling.FluteContours.FluteContourUtil", "Summary": "Provides utility methods for working with flute contours in milling tools.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Milling.FluteContours.FreeContourTray.yml", "output": { ".html": { "relative_path": "api/Hi.Milling.FluteContours.FreeContourTray.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Milling.FluteContours.FreeContourTray", "Summary": "Represents a container for multiple flute contours with free arrangement.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Milling.FluteContours.FreeformSideContour.yml", "output": { ".html": { "relative_path": "api/Hi.Milling.FluteContours.FreeformSideContour.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Milling.FluteContours.FreeformSideContour", "Summary": "Represents a freeform side contour for milling tools, allowing arbitrary contour shapes.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Milling.FluteContours.IBottomContour.yml", "output": { ".html": { "relative_path": "api/Hi.Milling.FluteContours.IBottomContour.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Milling.FluteContours.IBottomContour", "Summary": "Represents a bottom flute contour for milling tools.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Milling.FluteContours.IContourTray.yml", "output": { ".html": { "relative_path": "api/Hi.Milling.FluteContours.IContourTray.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Milling.FluteContours.IContourTray", "Summary": "Interface for a container that holds multiple flute contours.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Milling.FluteContours.IFluteNumSourceProperty.yml", "output": { ".html": { "relative_path": "api/Hi.Milling.FluteContours.IFluteNumSourceProperty.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Milling.FluteContours.IFluteNumSourceProperty", "Summary": "Interface that requiring a FluteNumSource property.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Milling.FluteContours.IGetFluteNum.yml", "output": { ".html": { "relative_path": "api/Hi.Milling.FluteContours.IGetFluteNum.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Milling.FluteContours.IGetFluteNum", "Summary": "Provides a method to get the number of flutes.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Milling.FluteContours.ISideContour.yml", "output": { ".html": { "relative_path": "api/Hi.Milling.FluteContours.ISideContour.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Milling.FluteContours.ISideContour", "Summary": "Represents a side flute contour for milling tools.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Milling.FluteContours.IWorkingContour.yml", "output": { ".html": { "relative_path": "api/Hi.Milling.FluteContours.IWorkingContour.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Milling.FluteContours.IWorkingContour", "Summary": "Represents a working contour for cutting operations in milling tools.\nThis interface is implemented by both side contours (
Represents a working contour that has been shifted by a specified angle.\nThis class wraps another working contour and applies an angular transformation to it.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Milling.FluteContours.SideContourDisplayee.yml", "output": { ".html": { "relative_path": "api/Hi.Milling.FluteContours.SideContourDisplayee.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Milling.FluteContours.SideContourDisplayee", "Summary": "Represents a displayable side contour.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Milling.FluteContours.SlideBottomContour.yml", "output": { ".html": { "relative_path": "api/Hi.Milling.FluteContours.SlideBottomContour.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Milling.FluteContours.SlideBottomContour", "Summary": "Represents a slide bottom contour for milling cutters.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Milling.FluteContours.SpanContourPos4d.yml", "output": { ".html": { "relative_path": "api/Hi.Milling.FluteContours.SpanContourPos4d.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Milling.FluteContours.SpanContourPos4d", "Summary": "Represents a position in 4D space (r, theta, z, radial angle) for contour spans
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Milling.FluteContours.UniformContourTray.yml", "output": { ".html": { "relative_path": "api/Hi.Milling.FluteContours.UniformContourTray.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Milling.FluteContours.UniformContourTray", "Summary": "Represents a uniform contour tray for milling tool flutes.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Milling.FluteContours.yml", "output": { ".html": { "relative_path": "api/Hi.Milling.FluteContours.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Milling.FluteContours", "Summary": null }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Milling.IGetDiameter.yml", "output": { ".html": { "relative_path": "api/Hi.Milling.IGetDiameter.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Milling.IGetDiameter", "Summary": "Interface for objects that provide diameter information.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Milling.IGetFluteHeight.yml", "output": { ".html": { "relative_path": "api/Hi.Milling.IGetFluteHeight.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Milling.IGetFluteHeight", "Summary": "Interface for objects that provide flute height information.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Milling.IGetMillingGeomBrief.yml", "output": { ".html": { "relative_path": "api/Hi.Milling.IGetMillingGeomBrief.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Milling.IGetMillingGeomBrief", "Summary": "Interface for retrieving milling geometry brief information.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Milling.IGetRadialReliefAngle.yml", "output": { ".html": { "relative_path": "api/Hi.Milling.IGetRadialReliefAngle.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Milling.IGetRadialReliefAngle", "Summary": "Interface for objects that provide radial relief angle information.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Milling.IMillingGeomBriefAccessor.yml", "output": { ".html": { "relative_path": "api/Hi.Milling.IMillingGeomBriefAccessor.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Milling.IMillingGeomBriefAccessor", "Summary": "Interface for accessing and modifying milling geometry brief information.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Milling.MillingGeomBrief.yml", "output": { ".html": { "relative_path": "api/Hi.Milling.MillingGeomBrief.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Milling.MillingGeomBrief", "Summary": "Brief of milling geometry.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Milling.MillingRemovalUtil.yml", "output": { ".html": { "relative_path": "api/Hi.Milling.MillingRemovalUtil.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Milling.MillingRemovalUtil", "Summary": "Utility for milling removal.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Milling.MillingTools.MillingTool.yml", "output": { ".html": { "relative_path": "api/Hi.Milling.MillingTools.MillingTool.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Milling.MillingTools.MillingTool", "Summary": "Represents a central stick milling tool that combines a holder and a cutter.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Milling.MillingTools.MillingToolAnchorReference.yml", "output": { ".html": { "relative_path": "api/Hi.Milling.MillingTools.MillingToolAnchorReference.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Milling.MillingTools.MillingToolAnchorReference", "Summary": "Defines reference points for anchoring milling tools.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Milling.MillingTools.MillingToolEditorDisplayee.yml", "output": { ".html": { "relative_path": "api/Hi.Milling.MillingTools.MillingToolEditorDisplayee.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Milling.MillingTools.MillingToolEditorDisplayee", "Summary": "Display host for a milling tool composed of a cutter and a holder.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Milling.MillingTools.MillingToolUtil.yml", "output": { ".html": { "relative_path": "api/Hi.Milling.MillingTools.MillingToolUtil.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Milling.MillingTools.MillingToolUtil", "Summary": "Provides utility methods for working with milling tools.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Milling.MillingTools.yml", "output": { ".html": { "relative_path": "api/Hi.Milling.MillingTools.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Milling.MillingTools", "Summary": null }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Milling.SpindleCapability.yml", "output": { ".html": { "relative_path": "api/Hi.Milling.SpindleCapability.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Milling.SpindleCapability", "Summary": "Represents the capability of a spindle, including power, torque, and thermal characteristics.\nInternal Use Only
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Milling.yml", "output": { ".html": { "relative_path": "api/Hi.Milling.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Milling", "Summary": null }, { "type": "ManagedReference", "source_relative_path": "api/Hi.MillingForces.Fittings.CuttingParaUtil.yml", "output": { ".html": { "relative_path": "api/Hi.MillingForces.Fittings.CuttingParaUtil.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.MillingForces.Fittings.CuttingParaUtil", "Summary": "Utility methods for working with cutting parameters.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.MillingForces.Fittings.ICuttingPara.yml", "output": { ".html": { "relative_path": "api/Hi.MillingForces.Fittings.ICuttingPara.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.MillingForces.Fittings.ICuttingPara", "Summary": "Interface of milling parameter.\nThe milling parameter is trainable.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.MillingForces.Fittings.IGetCuttingPara.yml", "output": { ".html": { "relative_path": "api/Hi.MillingForces.Fittings.IGetCuttingPara.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.MillingForces.Fittings.IGetCuttingPara", "Summary": "Interface of
Represents a category for milling force samples with step and division information.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.MillingForces.Fittings.SampleFlag.yml", "output": { ".html": { "relative_path": "api/Hi.MillingForces.Fittings.SampleFlag.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.MillingForces.Fittings.SampleFlag", "Summary": "Flags representing different types of force and moment samples in milling operations.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.MillingForces.Fittings.SampleFlagUtil.yml", "output": { ".html": { "relative_path": "api/Hi.MillingForces.Fittings.SampleFlagUtil.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.MillingForces.Fittings.SampleFlagUtil", "Summary": "Utility methods for working with sample flags.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.MillingForces.Fittings.SampleInstance.yml", "output": { ".html": { "relative_path": "api/Hi.MillingForces.Fittings.SampleInstance.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.MillingForces.Fittings.SampleInstance", "Summary": "Represents a sample instance with step and local division indices for milling force analysis.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.MillingForces.Fittings.TimeForce.yml", "output": { ".html": { "relative_path": "api/Hi.MillingForces.Fittings.TimeForce.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.MillingForces.Fittings.TimeForce", "Summary": "Represents a force measurement at a specific time point.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.MillingForces.Fittings.TimeForceFrequencyDomain.yml", "output": { ".html": { "relative_path": "api/Hi.MillingForces.Fittings.TimeForceFrequencyDomain.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.MillingForces.Fittings.TimeForceFrequencyDomain", "Summary": "Represents force data in the frequency domain after Fourier transformation.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.MillingForces.Fittings.TimeForceSeries.yml", "output": { ".html": { "relative_path": "api/Hi.MillingForces.Fittings.TimeForceSeries.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.MillingForces.Fittings.TimeForceSeries", "Summary": "Represents a time series of force measurements.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.MillingForces.Fittings.TimeForceUtil.yml", "output": { ".html": { "relative_path": "api/Hi.MillingForces.Fittings.TimeForceUtil.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.MillingForces.Fittings.TimeForceUtil", "Summary": "Utility class for reading and processing time-based force measurement data.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.MillingForces.Fittings.TimeVsForceSeries.yml", "output": { ".html": { "relative_path": "api/Hi.MillingForces.Fittings.TimeVsForceSeries.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.MillingForces.Fittings.TimeVsForceSeries", "Summary": "Represents a time series of force measurements with compensation capabilities.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.MillingForces.Fittings.TimeVsTorqueSeries.yml", "output": { ".html": { "relative_path": "api/Hi.MillingForces.Fittings.TimeVsTorqueSeries.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.MillingForces.Fittings.TimeVsTorqueSeries", "Summary": "Represents a time series of torque measurements with compensation capabilities.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.MillingForces.Fittings.TrainingSample.yml", "output": { ".html": { "relative_path": "api/Hi.MillingForces.Fittings.TrainingSample.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.MillingForces.Fittings.TrainingSample", "Summary": "Represents a training sample for milling force prediction models.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.MillingForces.Fittings.yml", "output": { ".html": { "relative_path": "api/Hi.MillingForces.Fittings.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.MillingForces.Fittings", "Summary": null }, { "type": "ManagedReference", "source_relative_path": "api/Hi.MillingForces.FluteZData.yml", "output": { ".html": { "relative_path": "api/Hi.MillingForces.FluteZData.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.MillingForces.FluteZData", "Summary": "Represents data for a flute at a specific Z position during milling operation
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.MillingForces.IGetMillingForce.yml", "output": { ".html": { "relative_path": "api/Hi.MillingForces.IGetMillingForce.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.MillingForces.IGetMillingForce", "Summary": "Interface of
Interface of
Milling force.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.MillingForces.MillingForceLicense.yml", "output": { ".html": { "relative_path": "api/Hi.MillingForces.MillingForceLicense.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.MillingForces.MillingForceLicense", "Summary": "Provides license information and management for the milling force calculation functionality.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.MillingForces.MillingForceLuggage.yml", "output": { ".html": { "relative_path": "api/Hi.MillingForces.MillingForceLuggage.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.MillingForces.MillingForceLuggage", "Summary": "Represents a container for milling force data and calculations.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.MillingForces.MillingForceUtil.AnglePack.yml", "output": { ".html": { "relative_path": "api/Hi.MillingForces.MillingForceUtil.AnglePack.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.MillingForces.MillingForceUtil.AnglePack", "Summary": "Container class for angle-specific calculations during milling operation
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.MillingForces.MillingForceUtil.yml", "output": { ".html": { "relative_path": "api/Hi.MillingForces.MillingForceUtil.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.MillingForces.MillingForceUtil", "Summary": "Utility class for milling force calculations and related operations.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.MillingForces.MillingPhysicsBrief.yml", "output": { ".html": { "relative_path": "api/Hi.MillingForces.MillingPhysicsBrief.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.MillingForces.MillingPhysicsBrief", "Summary": "Instant Physics brief on rake face for milling.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.MillingForces.PhysicsUtil.yml", "output": { ".html": { "relative_path": "api/Hi.MillingForces.PhysicsUtil.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.MillingForces.PhysicsUtil", "Summary": "Provides utility methods for physics calculations in milling operations.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.MillingForces.ProfileMillingParas.IGetLocalProfileMillingPara.yml", "output": { ".html": { "relative_path": "api/Hi.MillingForces.ProfileMillingParas.IGetLocalProfileMillingPara.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.MillingForces.ProfileMillingParas.IGetLocalProfileMillingPara", "Summary": "Interface of getting
Milling parameter of altintas model.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.MillingForces.ProfileMillingParas.ProfileMillingParaMap.yml", "output": { ".html": { "relative_path": "api/Hi.MillingForces.ProfileMillingParas.ProfileMillingParaMap.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.MillingForces.ProfileMillingParas.ProfileMillingParaMap", "Summary": "Represents a mapping of milling parameters for profile milling operations.\nThis class manages cutting parameters for both side and bottom milling operations.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.MillingForces.ProfileMillingParas.RtaMillingParaKey.yml", "output": { ".html": { "relative_path": "api/Hi.MillingForces.ProfileMillingParas.RtaMillingParaKey.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.MillingForces.ProfileMillingParas.RtaMillingParaKey", "Summary": "Keys for milling parameters in radial-tangential-axial (RTA) coordinate system
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.MillingForces.ProfileMillingParas.yml", "output": { ".html": { "relative_path": "api/Hi.MillingForces.ProfileMillingParas.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.MillingForces.ProfileMillingParas", "Summary": null }, { "type": "ManagedReference", "source_relative_path": "api/Hi.MillingForces.RakeFaceCuttingParas.IRakeFaceCuttingPara.yml", "output": { ".html": { "relative_path": "api/Hi.MillingForces.RakeFaceCuttingParas.IRakeFaceCuttingPara.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.MillingForces.RakeFaceCuttingParas.IRakeFaceCuttingPara", "Summary": "Defines cutting parameters on the rake face for force modeling, supporting XML IO and duplication.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.MillingForces.RakeFaceCuttingParas.MillingPhysicsUtil.yml", "output": { ".html": { "relative_path": "api/Hi.MillingForces.RakeFaceCuttingParas.MillingPhysicsUtil.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.MillingForces.RakeFaceCuttingParas.MillingPhysicsUtil", "Summary": "Utility class for milling physics calculations.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.MillingForces.RakeFaceCuttingParas.MultiFormRakeFaceCuttingPara.yml", "output": { ".html": { "relative_path": "api/Hi.MillingForces.RakeFaceCuttingParas.MultiFormRakeFaceCuttingPara.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.MillingForces.RakeFaceCuttingParas.MultiFormRakeFaceCuttingPara", "Summary": "Represents a multi-form rake face cutting parameter set that can handle multiple flute forms.\nInternal Use Only.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.MillingForces.RakeFaceCuttingParas.RakeFaceCuttingPara2d.yml", "output": { ".html": { "relative_path": "api/Hi.MillingForces.RakeFaceCuttingParas.RakeFaceCuttingPara2d.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.MillingForces.RakeFaceCuttingParas.RakeFaceCuttingPara2d", "Summary": "Represents a 2D cutting parameter for rake face cutting operations.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.MillingForces.RakeFaceCuttingParas.RakeFaceCuttingPara3d.yml", "output": { ".html": { "relative_path": "api/Hi.MillingForces.RakeFaceCuttingParas.RakeFaceCuttingPara3d.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.MillingForces.RakeFaceCuttingParas.RakeFaceCuttingPara3d", "Summary": "Represents local ECN (Edge-Cross-Normal) cutting parameters for rake face cutting.\nE: cutting edge direction\nC: Cross vector, along the rake face cross line, perpendicular to cutting edge\nN: rake face normal direction\nInternal Use Only.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.MillingForces.RakeFaceCuttingParas.RakeFaceCuttingParaMap.yml", "output": { ".html": { "relative_path": "api/Hi.MillingForces.RakeFaceCuttingParas.RakeFaceCuttingParaMap.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.MillingForces.RakeFaceCuttingParas.RakeFaceCuttingParaMap", "Summary": "Represents a map of rake face cutting parameters.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.MillingForces.RakeFaceCuttingParas.yml", "output": { ".html": { "relative_path": "api/Hi.MillingForces.RakeFaceCuttingParas.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.MillingForces.RakeFaceCuttingParas", "Summary": null }, { "type": "ManagedReference", "source_relative_path": "api/Hi.MillingForces.ToolObservationReference.yml", "output": { ".html": { "relative_path": "api/Hi.MillingForces.ToolObservationReference.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.MillingForces.ToolObservationReference", "Summary": "Defines reference points for tool observation measurements.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.MillingForces.Training.MillingTraining.yml", "output": { ".html": { "relative_path": "api/Hi.MillingForces.Training.MillingTraining.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.MillingForces.Training.MillingTraining", "Summary": "Provides utilities for milling force training and parameter identification.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.MillingForces.Training.yml", "output": { ".html": { "relative_path": "api/Hi.MillingForces.Training.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.MillingForces.Training", "Summary": null }, { "type": "ManagedReference", "source_relative_path": "api/Hi.MillingForces.yml", "output": { ".html": { "relative_path": "api/Hi.MillingForces.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.MillingForces", "Summary": null }, { "type": "ManagedReference", "source_relative_path": "api/Hi.MillingProcs.MillingGuide.yml", "output": { ".html": { "relative_path": "api/Hi.MillingProcs.MillingGuide.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.MillingProcs.MillingGuide", "Summary": "Provides guidance and configuration for milling visualization and analysis.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.MillingProcs.yml", "output": { ".html": { "relative_path": "api/Hi.MillingProcs.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.MillingProcs", "Summary": null }, { "type": "ManagedReference", "source_relative_path": "api/Hi.MillingStepUtils.ClStripChartConfig.yml", "output": { ".html": { "relative_path": "api/Hi.MillingStepUtils.ClStripChartConfig.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.MillingStepUtils.ClStripChartConfig", "Summary": "Configuration for ClStrip charts.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.MillingStepUtils.ClStripChartItemConfig.yml", "output": { ".html": { "relative_path": "api/Hi.MillingStepUtils.ClStripChartItemConfig.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.MillingStepUtils.ClStripChartItemConfig", "Summary": "Configuration for an individual ClStrip chart item.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.MillingStepUtils.ForceCycleFlag.yml", "output": { ".html": { "relative_path": "api/Hi.MillingStepUtils.ForceCycleFlag.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.MillingStepUtils.ForceCycleFlag", "Summary": "Flags representing different force cycle types.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.MillingStepUtils.ForceCycleLineDivConfig.yml", "output": { ".html": { "relative_path": "api/Hi.MillingStepUtils.ForceCycleLineDivConfig.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.MillingStepUtils.ForceCycleLineDivConfig", "Summary": "Configuration for force cycle line division display and analysis.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.MillingStepUtils.LineChartVRangeMode.yml", "output": { ".html": { "relative_path": "api/Hi.MillingStepUtils.LineChartVRangeMode.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.MillingStepUtils.LineChartVRangeMode", "Summary": "Specifies the mode for vertical range in line charts.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.MillingStepUtils.SpindleMomentCycleLineDivConfig.yml", "output": { ".html": { "relative_path": "api/Hi.MillingStepUtils.SpindleMomentCycleLineDivConfig.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.MillingStepUtils.SpindleMomentCycleLineDivConfig", "Summary": "Configuration for spindle moment cycle line division display and analysis.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.MillingStepUtils.TimeChartYConfig.yml", "output": { ".html": { "relative_path": "api/Hi.MillingStepUtils.TimeChartYConfig.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.MillingStepUtils.TimeChartYConfig", "Summary": "Configuration for Y-axis settings in time charts.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.MillingStepUtils.yml", "output": { ".html": { "relative_path": "api/Hi.MillingStepUtils.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.MillingStepUtils", "Summary": null }, { "type": "ManagedReference", "source_relative_path": "api/Hi.MillingSteps.MillingInstance.yml", "output": { ".html": { "relative_path": "api/Hi.MillingSteps.MillingInstance.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.MillingSteps.MillingInstance", "Summary": "Instance of milling in a
Represents additional data associated with a milling step.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.MillingSteps.yml", "output": { ".html": { "relative_path": "api/Hi.MillingSteps.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.MillingSteps", "Summary": null }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Motion.MatValves.ClMachiningValve.yml", "output": { ".html": { "relative_path": "api/Hi.Motion.MatValves.ClMachiningValve.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Motion.MatValves.ClMachiningValve", "Summary": "Optimize the sequential transformation matrixes step by step for machining.\nFiltering the unnecessary transformation matrixes.\nAccept milling mode by
Optimize the sequential transformation matrixes step by step by filtering the unnecessary transformation matrixes.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Motion.MatValves.MacroMotionValve.yml", "output": { ".html": { "relative_path": "api/Hi.Motion.MatValves.MacroMotionValve.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Motion.MatValves.MacroMotionValve", "Summary": "Optimize the sequential transformation matrixes step by step by filtering the unnecessary transformation matrixes.\nThe steps in the middle of each linear cut are filtered.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Motion.MatValves.StepMotionValve.yml", "output": { ".html": { "relative_path": "api/Hi.Motion.MatValves.StepMotionValve.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Motion.MatValves.StepMotionValve", "Summary": "Optimize the sequential transformation matrixes step by step by filtering the unnecessary transformation matrixes.\nAll step will be pumped.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Motion.MatValves.yml", "output": { ".html": { "relative_path": "api/Hi.Motion.MatValves.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Motion.MatValves", "Summary": null }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Motion.MotionUtil.yml", "output": { ".html": { "relative_path": "api/Hi.Motion.MotionUtil.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Motion.MotionUtil", "Summary": "Cutter location utility.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Motion.yml", "output": { ".html": { "relative_path": "api/Hi.Motion.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Motion", "Summary": null }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Native.StopSource.yml", "output": { ".html": { "relative_path": "api/Hi.Native.StopSource.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Native.StopSource", "Summary": "Represents a source that can be used to create and control stop tokens.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Native.StopToken.yml", "output": { ".html": { "relative_path": "api/Hi.Native.StopToken.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Native.StopToken", "Summary": "Represents a token that can be used to request cancellation of operations.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Native.StopTokenKit.yml", "output": { ".html": { "relative_path": "api/Hi.Native.StopTokenKit.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Native.StopTokenKit", "Summary": "A kit that manages the lifecycle of a StopToken and its associated resources.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Native.StopTokenUtil.yml", "output": { ".html": { "relative_path": "api/Hi.Native.StopTokenUtil.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Native.StopTokenUtil", "Summary": "Utility class for working with stop tokens.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Native.bind_t.yml", "output": { ".html": { "relative_path": "api/Hi.Native.bind_t.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Native.bind_t", "Summary": "Runtime rendering data for each iteration in rendering loop.\nIt manipulates geometry transformation, such as moving, rotatingand scaling.\nIt also deal with color and picking.\nA bind_t object is generated by rendering in the every beginning of each rendering iteration.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Native.box2d.yml", "output": { ".html": { "relative_path": "api/Hi.Native.box2d.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Native.box2d", "Summary": "Native box3d.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Native.box3d.yml", "output": { ".html": { "relative_path": "api/Hi.Native.box3d.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Native.box3d", "Summary": "Native implementation of a 3D bounding box structure for interop scenarios.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Native.expand_to_box3d_func_t.yml", "output": { ".html": { "relative_path": "api/Hi.Native.expand_to_box3d_func_t.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Native.expand_to_box3d_func_t", "Summary": "Delegate for expanding a bounding box.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Native.key_event_t.yml", "output": { ".html": { "relative_path": "api/Hi.Native.key_event_t.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Native.key_event_t", "Summary": "Native key event.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Native.key_table__transform_view_by_key_pressing_t.yml", "output": { ".html": { "relative_path": "api/Hi.Native.key_table__transform_view_by_key_pressing_t.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Native.key_table__transform_view_by_key_pressing_t", "Summary": "Native key table for native function transform_view_by_key_pressing.\nKey values follow W3C KeyboardEvent.key standard (e.g. “Home”, “ArrowLeft”, “Shift”).
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Native.mat4d.yml", "output": { ".html": { "relative_path": "api/Hi.Native.mat4d.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Native.mat4d", "Summary": "Native mat4d.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Native.mat_stack_t.yml", "output": { ".html": { "relative_path": "api/Hi.Native.mat_stack_t.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Native.mat_stack_t", "Summary": "Native mat_stack_t.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Native.mouse_button_event_t.yml", "output": { ".html": { "relative_path": "api/Hi.Native.mouse_button_event_t.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Native.mouse_button_event_t", "Summary": "Native mouse button event.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Native.mouse_button_table__transform_view_by_mouse_drag_t.yml", "output": { ".html": { "relative_path": "api/Hi.Native.mouse_button_table__transform_view_by_mouse_drag_t.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Native.mouse_button_table__transform_view_by_mouse_drag_t", "Summary": "Mouse button table for native function of transform_view_by_mouse_drag.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Native.mouse_move_event_t.yml", "output": { ".html": { "relative_path": "api/Hi.Native.mouse_move_event_t.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Native.mouse_move_event_t", "Summary": "Native mouse move event.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Native.mouse_wheel_event_t.yml", "output": { ".html": { "relative_path": "api/Hi.Native.mouse_wheel_event_t.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Native.mouse_wheel_event_t", "Summary": "Native mouse wheel event.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Native.panel_state_t.yml", "output": { ".html": { "relative_path": "api/Hi.Native.panel_state_t.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Native.panel_state_t", "Summary": "Native panel state.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Native.picking_event_t.yml", "output": { ".html": { "relative_path": "api/Hi.Native.picking_event_t.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Native.picking_event_t", "Summary": "Internal Use Only.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Native.picking_mark_t.yml", "output": { ".html": { "relative_path": "api/Hi.Native.picking_mark_t.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Native.picking_mark_t", "Summary": "Internal Use Only.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Native.tri3d.yml", "output": { ".html": { "relative_path": "api/Hi.Native.tri3d.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Native.tri3d", "Summary": "Native tri3d.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Native.ui_event_type.yml", "output": { ".html": { "relative_path": "api/Hi.Native.ui_event_type.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Native.ui_event_type", "Summary": "Native ui event.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Native.vec2d.yml", "output": { ".html": { "relative_path": "api/Hi.Native.vec2d.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Native.vec2d", "Summary": "Native vec2d.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Native.vec3d.yml", "output": { ".html": { "relative_path": "api/Hi.Native.vec3d.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Native.vec3d", "Summary": "Native vec3d.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Native.vec3f.yml", "output": { ".html": { "relative_path": "api/Hi.Native.vec3f.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Native.vec3f", "Summary": "Native vec3f.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Native.yml", "output": { ".html": { "relative_path": "api/Hi.Native.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Native", "Summary": null }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcMech.Fixtures.Fixture.yml", "output": { ".html": { "relative_path": "api/Hi.NcMech.Fixtures.Fixture.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcMech.Fixtures.Fixture", "Summary": "Represents a fixture used to hold workpieces during machining operations.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcMech.Fixtures.FixtureEditorDisplayee.yml", "output": { ".html": { "relative_path": "api/Hi.NcMech.Fixtures.FixtureEditorDisplayee.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcMech.Fixtures.FixtureEditorDisplayee", "Summary": "Displayee for fixture visualization and editor overlays.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcMech.Fixtures.FixtureEditorDisplayeeConfig.yml", "output": { ".html": { "relative_path": "api/Hi.NcMech.Fixtures.FixtureEditorDisplayeeConfig.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcMech.Fixtures.FixtureEditorDisplayeeConfig", "Summary": "Configuration settings for fixture editor display features.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcMech.Fixtures.yml", "output": { ".html": { "relative_path": "api/Hi.NcMech.Fixtures.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcMech.Fixtures", "Summary": null }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcMech.Holders.CylindroidHolder.yml", "output": { ".html": { "relative_path": "api/Hi.NcMech.Holders.CylindroidHolder.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcMech.Holders.CylindroidHolder", "Summary": "Represents a cylindrical tool holder for machining operations.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcMech.Holders.FreeformHolder.yml", "output": { ".html": { "relative_path": "api/Hi.NcMech.Holders.FreeformHolder.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcMech.Holders.FreeformHolder", "Summary": "Represents a freeform tool holder with customizable geometry.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcMech.Holders.HolderEditorDisplayee.yml", "output": { ".html": { "relative_path": "api/Hi.NcMech.Holders.HolderEditorDisplayee.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcMech.Holders.HolderEditorDisplayee", "Summary": "Displayee for holder editor that provides visualization functionality.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcMech.Holders.IHolder.yml", "output": { ".html": { "relative_path": "api/Hi.NcMech.Holders.IHolder.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcMech.Holders.IHolder", "Summary": "Interface for tool holders in NC machining.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcMech.Holders.yml", "output": { ".html": { "relative_path": "api/Hi.NcMech.Holders.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcMech.Holders", "Summary": null }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcMech.ICollisionIndexPairsSource.yml", "output": { ".html": { "relative_path": "api/Hi.NcMech.ICollisionIndexPairsSource.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcMech.ICollisionIndexPairsSource", "Summary": "Interface that provides access to collision index pairs and XML serialization capabilities.\nExtends
Interface for retrieving solid geometry objects.\nProvides a standardized way to access solid models.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcMech.Solids.Solid.RenderingModeEnum.yml", "output": { ".html": { "relative_path": "api/Hi.NcMech.Solids.Solid.RenderingModeEnum.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcMech.Solids.Solid.RenderingModeEnum", "Summary": "Rendering mode for solids.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcMech.Solids.Solid.yml", "output": { ".html": { "relative_path": "api/Hi.NcMech.Solids.Solid.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcMech.Solids.Solid", "Summary": "Represents a solid geometry object with display, collision detection, and STL capabilities.\nProvides thread-safe access to geometry data and caching mechanisms.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcMech.Solids.SolidFuncSource.yml", "output": { ".html": { "relative_path": "api/Hi.NcMech.Solids.SolidFuncSource.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcMech.Solids.SolidFuncSource", "Summary": "Provides a function-based source for solid geometry objects.\nAllows dynamic generation of solid models through a delegate function.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcMech.Solids.yml", "output": { ".html": { "relative_path": "api/Hi.NcMech.Solids.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcMech.Solids", "Summary": null }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcMech.Topo.INcStroke.yml", "output": { ".html": { "relative_path": "api/Hi.NcMech.Topo.INcStroke.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcMech.Topo.INcStroke", "Summary": "Nc capability include key char, stroke and speed limit.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcMech.Topo.INcTransformer.yml", "output": { ".html": { "relative_path": "api/Hi.NcMech.Topo.INcTransformer.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcMech.Topo.INcTransformer", "Summary": "Transformer for NC motion axis.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcMech.Topo.ITopoBrick.yml", "output": { ".html": { "relative_path": "api/Hi.NcMech.Topo.ITopoBrick.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcMech.Topo.ITopoBrick", "Summary": "Interface that represents a topological brick in NC machining.\nCombines solid geometry, display capabilities, and collision detection functionality.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcMech.Topo.NcRotation.yml", "output": { ".html": { "relative_path": "api/Hi.NcMech.Topo.NcRotation.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcMech.Topo.NcRotation", "Summary": "Represents a rotational transformer for NC machine tool axes.\nProvides functionality for rotational motion with stroke and speed limits.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcMech.Topo.NcTranslation.yml", "output": { ".html": { "relative_path": "api/Hi.NcMech.Topo.NcTranslation.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcMech.Topo.NcTranslation", "Summary": "Represents a translational transformer for NC machine tool axes.\nProvides functionality for linear motion with stroke and speed limits.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcMech.Topo.SolidSourceTopoBrick.yml", "output": { ".html": { "relative_path": "api/Hi.NcMech.Topo.SolidSourceTopoBrick.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcMech.Topo.SolidSourceTopoBrick", "Summary": "Represents a topological brick that sources its geometry from a solid model.\nImplements display, collision detection, and content update capabilities.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcMech.Topo.StlSourceTopoBrick.yml", "output": { ".html": { "relative_path": "api/Hi.NcMech.Topo.StlSourceTopoBrick.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcMech.Topo.StlSourceTopoBrick", "Summary": "Represents a topological brick that sources its geometry from an STL file.\nImplements display, collision detection, and content update capabilities.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcMech.Topo.yml", "output": { ".html": { "relative_path": "api/Hi.NcMech.Topo.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcMech.Topo", "Summary": null }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcMech.Workpieces.Workpiece.yml", "output": { ".html": { "relative_path": "api/Hi.NcMech.Workpieces.Workpiece.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcMech.Workpieces.Workpiece", "Summary": "Workpiece configuration data model.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcMech.Workpieces.WorkpieceEditorDisplayee.yml", "output": { ".html": { "relative_path": "api/Hi.NcMech.Workpieces.WorkpieceEditorDisplayee.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcMech.Workpieces.WorkpieceEditorDisplayee", "Summary": "Displayee for visualizing workpiece raw/ideal/runtime geometry and anchors.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcMech.Workpieces.WorkpieceEditorDisplayeeConfig.yml", "output": { ".html": { "relative_path": "api/Hi.NcMech.Workpieces.WorkpieceEditorDisplayeeConfig.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcMech.Workpieces.WorkpieceEditorDisplayeeConfig", "Summary": "Configuration settings for workpiece editor display.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcMech.Workpieces.WorkpieceService.yml", "output": { ".html": { "relative_path": "api/Hi.NcMech.Workpieces.WorkpieceService.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcMech.Workpieces.WorkpieceService", "Summary": "Runtime service for
For legacy compatible. Use
Represents a URI-based container for CodeXyzabcMachineTool.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcMech.Xyzabc.GeneralXyzabcMachineTool.yml", "output": { ".html": { "relative_path": "api/Hi.NcMech.Xyzabc.GeneralXyzabcMachineTool.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcMech.Xyzabc.GeneralXyzabcMachineTool", "Summary": "General implementation of an XYZABC machine tool.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcMech.Xyzabc.IGetCodeXyzabcMachineTool.yml", "output": { ".html": { "relative_path": "api/Hi.NcMech.Xyzabc.IGetCodeXyzabcMachineTool.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcMech.Xyzabc.IGetCodeXyzabcMachineTool", "Summary": "Interface of
Interface for XYZABC machine tools that combines chain, display, collision and other functionalities.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcMech.Xyzabc.yml", "output": { ".html": { "relative_path": "api/Hi.NcMech.Xyzabc.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcMech.Xyzabc", "Summary": null }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcMech.yml", "output": { ".html": { "relative_path": "api/Hi.NcMech.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcMech", "Summary": null }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcOpt.CuttingVelocityOptLimit.yml", "output": { ".html": { "relative_path": "api/Hi.NcOpt.CuttingVelocityOptLimit.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcOpt.CuttingVelocityOptLimit", "Summary": "Represents optimization limits for cutting velocity parameters.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcOpt.FixedFeedPerCycleOptLimit.yml", "output": { ".html": { "relative_path": "api/Hi.NcOpt.FixedFeedPerCycleOptLimit.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcOpt.FixedFeedPerCycleOptLimit", "Summary": "Represents fixed feed-per-cycle optimization limits.\nProvides implementation for feed-per-cycle optimization with fixed minimum and maximum values.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcOpt.FixedFeedPerToothOptLimit.yml", "output": { ".html": { "relative_path": "api/Hi.NcOpt.FixedFeedPerToothOptLimit.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcOpt.FixedFeedPerToothOptLimit", "Summary": "Represents fixed feed-per-tooth optimization limits.\nProvides implementation for feed-per-tooth optimization with fixed minimum and maximum values.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcOpt.ICutterOptLimitHost.yml", "output": { ".html": { "relative_path": "api/Hi.NcOpt.ICutterOptLimitHost.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcOpt.ICutterOptLimitHost", "Summary": "Interface for hosts that contain cutter optimization limits.\nProvides access to cutter optimization limit settings.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcOpt.ICutterOptOption.yml", "output": { ".html": { "relative_path": "api/Hi.NcOpt.ICutterOptOption.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcOpt.ICutterOptOption", "Summary": "Interface for cutter optimization limits.\nCombines feed-per-tooth optimization capabilities with duplication and XML serialization support.\nInherits from
Interface for cutting velocity optimization limits.\nDefines methods to get minimum and maximum cutting velocity values.\nImplements
Interface for feed-per-tooth optimization limits.\nDefines methods to get minimum and maximum feed per tooth values.\nImplements
Represents NC optimization option for milling cutters.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcOpt.NcOptOption.yml", "output": { ".html": { "relative_path": "api/Hi.NcOpt.NcOptOption.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcOpt.NcOptOption", "Summary": "Represents the optimization options for NC operations.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcOpt.NcOptProc.yml", "output": { ".html": { "relative_path": "api/Hi.NcOpt.NcOptProc.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcOpt.NcOptProc", "Summary": "Provides functionality for optimizing NC programs by modifying feed rates and tool paths.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcOpt.NcOptimizationEmbeddedLogMode.yml", "output": { ".html": { "relative_path": "api/Hi.NcOpt.NcOptimizationEmbeddedLogMode.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcOpt.NcOptimizationEmbeddedLogMode", "Summary": "Embedded log mode for NC optimization.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcOpt.ShapeBasedCutterOptLimit.yml", "output": { ".html": { "relative_path": "api/Hi.NcOpt.ShapeBasedCutterOptLimit.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcOpt.ShapeBasedCutterOptLimit", "Summary": "Represents optimization limits based on cutter shape parameters.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcOpt.yml", "output": { ".html": { "relative_path": "api/Hi.NcOpt.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcOpt", "Summary": null }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcParsers.Dependencys.AxisType.yml", "output": { ".html": { "relative_path": "api/Hi.NcParsers.Dependencys.AxisType.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcParsers.Dependencys.AxisType", "Summary": "Axis type: linear (translation), rotary (rotation), or spindle (speed/positioning dual mode).
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcParsers.Dependencys.CncBrandDependency.yml", "output": { ".html": { "relative_path": "api/Hi.NcParsers.Dependencys.CncBrandDependency.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcParsers.Dependencys.CncBrandDependency", "Summary": "Explicit CNC controller brand identifier carried in\nncDependencyList.OfType<CncBrandDependency>().FirstOrDefault()\nto retrieve the brand.
Base class for brand-specific controller parameter tables.\nProvides shared data structures, XML IO, and
Fanuc #5003: Cutter compensation startup/cancellation type.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcParsers.Dependencys.Fanuc.FanucGotoIterationDependency.yml", "output": { ".html": { "relative_path": "api/Hi.NcParsers.Dependencys.Fanuc.FanucGotoIterationDependency.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcParsers.Dependencys.Fanuc.FanucGotoIterationDependency", "Summary": "Watchdog for Fanuc Custom Macro B GOTO loops. Holds a\nFanucGotoSyntax stops firing and emits a warning) plus a\nruntime per-target hit counter (
\nThe dependency is syntax-managed: FanucGotoSyntax reads the\nlimit, increments the counter, and decides whether to fire. There is\nno host Func provider — the dep is placed in\n
\nThe counter key is (FileName, TargetN) where FileName\nis the source-level file path of the block containing the GOTO (the\nrelative path form carried on IndexedFileLine labels). Source-level keying means\nmultiple inline invocations of the same subprogram pool their counts\n(they ARE the same source-code GOTO), while two different files with\ntheir own N100 stay isolated (they ARE different jumps).\n
\nDefault
Fanuc controller parameter table.\nStores system parameters (single value) and axis parameters (per-axis value)\nfollowing real Fanuc parameter numbering.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcParsers.Dependencys.Fanuc.FanucPositionVariableLookup.yml", "output": { ".html": { "relative_path": "api/Hi.NcParsers.Dependencys.Fanuc.FanucPositionVariableLookup.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcParsers.Dependencys.Fanuc.FanucPositionVariableLookup", "Summary": "Fanuc-style position system variables read from the previous block's\nruntime-state JSON sections:
\n#5001-#5003Block-end position X/Y/Z (workpiece) → previous block's #5021-#5023Current machine position X/Y/Z → previous block's #5041-#5043Current absolute position X/Y/Z → previous block's \nStateless. Configured on\nNcDependencyList because the read needs the block node for\n
Fanuc-side adapter that exposes a wrapped #2001+N → effective height of offset N\n(geometry − wear).
\nThe underlying dependencies list, so XML round-trip is trivial (an empty element).\n
\nRegistered on a brand preset's\nNcDependencyList as the data dependency.\n
Fanuc-style ISO controller common variable table for the retained range\n#500-#999. These variables survive a power cycle (in real hardware\nthey live in NV-RAM) and are serialised into the project file.
\nExcluded by design:\n
#1-#33Call-frame scoped (Fanuc local variables); lives in the SyntaxPiece JSON dataflow, not here.#100-#499Cleared by program-end / power reset; lives in the SyntaxPiece JSON dataflow as well, not in this table.#1000+Read-only or computed from runtime state; resolved by dedicated reading syntaxes against other dependencies (e.g. \nVacant (Fanuc <vacant>) is represented by null: either the dictionary\nhas no entry for the key, or the entry maps to null. Both are treated identically by
\nNaming rationale: Fanuc official documentation calls #500-#999 \"retained common variables\"\n(and #100-#499 \"non-retained common variables\"). The umbrella term \"macro variable\" was\navoided because it conflicts with Custom Macro B's call-frame concept (G65/G66 push a frame\ncontaining the local #1-#33); using RetainedCommonVariableTable reserves \"macro\"\nfor the call-frame topic.\n
HiNC-specific fallback dependency that provides default values\nfor all optional configuration interfaces.
\n\nShould be placed as the last element in\nOfType<T>().FirstOrDefault().\n
\nWhen a brand table (e.g.,
Default / prefix) is ON, other layers\nare OFF. Each layer can be toggled individually.
\nXML form:\n
<GenericBlockSkipConfig>\n <EnabledLayers>1,3</EnabledLayers>\n</GenericBlockSkipConfig>EnabledLayers is absent the default is layer 1 only.\n\n"
},
{
"type": "ManagedReference",
"source_relative_path": "api/Hi.NcParsers.Dependencys.Generic.IsoCoordinateTable.yml",
"output": {
".html": {
"relative_path": "api/Hi.NcParsers.Dependencys.Generic.IsoCoordinateTable.html"
}
},
"version": "",
"Uid": null,
"IsMRef": true,
"Title": "Hi.NcParsers.Dependencys.Generic.IsoCoordinateTable",
"Summary": "Coordinate table for NC controller.\nThe dictionary key is a G-code coordinate name (e.g. “G54”, “G59.2”);\nthe dictionary value is machine coordinate offset.
\n\nBrand-agnostic standalone implementation of
Folder lookup configuration for\nO<n> file when the host program executes M98 P_ L_\n(M198 P_\n(
\nEither path may be absolute or relative; when relative, it resolves\nagainst the host file's parent directory at lookup time. Either may\nbe null — a null
Single row of a
Integer-keyed tool offset table implementing
HiNC-specific: machine position axes move to during tool change (M06).\nNot a standard Fanuc parameter — in real Fanuc, tool change motion\nis programmed in the macro program (O9006).\nEach axis value: a position to move to, or
Heidenhain TNC/iTNC machine parameter table.\nStores machine parameters (MP numbers) as system and per-axis values.
\n\nMP100–MP199: General machine configuration.\nMP400–MP499: Axis-specific parameters.\n
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcParsers.Dependencys.Heidenhain.yml", "output": { ".html": { "relative_path": "api/Hi.NcParsers.Dependencys.Heidenhain.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcParsers.Dependencys.Heidenhain", "Summary": null }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcParsers.Dependencys.HeidenhainDatumTable.yml", "output": { ".html": { "relative_path": "api/Hi.NcParsers.Dependencys.HeidenhainDatumTable.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcParsers.Dependencys.HeidenhainDatumTable", "Summary": "Heidenhain datum preset and datum shift tables.\nCYCL DEF 247 Q339=N reads from
\nOn real Heidenhain controllers, preset and datum tables are separate\ndisk files (e.g. TNC:\\table\\preset.pr, *.d) — distinct\nfrom MP-prefixed Machine Parameters (held by\nHeidenhainParameterTable.\n
\nImplements
Runtime state of the controller's Block Delete / Block Skip switches.\nPresent in / or /N\n(parsed by
\nLayers are 1..9; Layer 1 corresponds to the bare / prefix.\nControllers (Fanuc / Syntec / Mazak / Siemens) let each layer be\ntoggled independently via panel switches or system parameters.\n
\nWhen this dependency is absent from\n/ prefix so no UnparsedText--Remaining\ndiagnostic is produced.\n
Canned cycle configuration parameters.\nImplemented by brand-specific parameter tables\n(e.g.,
\nSiemens and Heidenhain specify peck clearance per-call\n(CYCLE83 parameter / CYCL DEF), so their tables do not implement\nthis interface. The
G28 first reference position (home machine coordinate) per axis.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcParsers.Dependencys.IIsoCoordinateConfig.yml", "output": { ".html": { "relative_path": "api/Hi.NcParsers.Dependencys.IIsoCoordinateConfig.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcParsers.Dependencys.IIsoCoordinateConfig", "Summary": "ISO work coordinate offset provider.\nMaps a G-code work coordinate id (e.g. “G54”, “G59.2”, “G54.1P1”)\nto a machine-coordinate offset Vec3d.
\n\nImplementations include\n$P_UIFR frames),\nand
Machine axis configuration: which axes exist and their types.\nCompatible with Fanuc, Siemens, Heidenhain, Mazak, Okuma.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcParsers.Dependencys.INcDependency.yml", "output": { ".html": { "relative_path": "api/Hi.NcParsers.Dependencys.INcDependency.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcParsers.Dependencys.INcDependency", "Summary": "Marker interface for objects that participate in the NC dependency list resolved by the soft-NC runtime.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcParsers.Dependencys.IPowerResettable.yml", "output": { ".html": { "relative_path": "api/Hi.NcParsers.Dependencys.IPowerResettable.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcParsers.Dependencys.IPowerResettable", "Summary": "Marks an
\nImplementers should clear only the volatile subset they own (e.g. Fanuc common volatile\nmacro variables #100-#499), and leave persistent state untouched\n(e.g. #500-#999, controller parameters).\n
\nCall-frame local state (Fanuc #1-#33, Heidenhain Q200-Q1199) is NOT in scope —\nthat lives in the SyntaxPiece JSON dataflow and is bounded by call activation, not power cycle.\n
Provides per-axis rapid traverse feedrate for motion semantics.\nImplemented by
Per-axis stroke (travel) limits.\nUnit is mm for linear axes, deg for rotary axes.\nImplemented by
Tool offset configuration indexed by a single integer offset number.\nApplies to Fanuc (H/D numbers), Heidenhain (tool number), Mazak, Okuma,\nand other ISO-compatible controllers where one integer selects the offset row.
\n\nFor Siemens (840D/Sinumerik) where offsets are addressed by\n(tool number, cutting edge D number), see\n
Machine position axes move to during tool change (M06).
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcParsers.Dependencys.IsoCoordinateAddressMap.yml", "output": { ".html": { "relative_path": "api/Hi.NcParsers.Dependencys.IsoCoordinateAddressMap.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcParsers.Dependencys.IsoCoordinateAddressMap", "Summary": "Fanuc-style ISO coordinate parameter address mapping.\nG54–G59 → #5221+ (stride 20, three consecutive numbers per entry for X/Y/Z),\nG54.1 P1–P48 → #7001+ (stride 20).\nShared between
Siemens (840D/Sinumerik) tool offset configuration.\nOffsets are addressed by (tool number T, cutting edge D number),\nunlike
\nSiemens stores up to 25 data fields per cutting edge ($TC_DP1..$TC_DP25),\nincluding three independent length components (L1/L2/L3 for Z/X/Y directions),\nradius, and corresponding wear values.\n
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcParsers.Dependencys.Siemens.SiemensFrameTable.yml", "output": { ".html": { "relative_path": "api/Hi.NcParsers.Dependencys.Siemens.SiemensFrameTable.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcParsers.Dependencys.Siemens.SiemensFrameTable", "Summary": "Sinumerik settable work coordinate frames ($P_UIFR[n]).\nModels G54–G57 (ISO-compatible), G505–G599 (extended Siemens),\nand G500 (cancel — always zero).
\nOn real Sinumerik, $P_UIFR is a frame array containing translation,\nrotation, scale and mirror per entry. HiNC currently consumes only the\ntranslation component, so this table stores
Siemens Sinumerik machine data table.\nStores machine data (MD numbers) as system and per-axis parameters.
\n\nMD10000–MD19999: General machine data.\nMD20000–MD29999: Axis-specific machine data.\nMD30000–MD39999: Axis-specific machine data (extended).\n
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcParsers.Dependencys.Siemens.yml", "output": { ".html": { "relative_path": "api/Hi.NcParsers.Dependencys.Siemens.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcParsers.Dependencys.Siemens", "Summary": null }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcParsers.Dependencys.Syntec.SyntecParameterTable.yml", "output": { ".html": { "relative_path": "api/Hi.NcParsers.Dependencys.Syntec.SyntecParameterTable.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcParsers.Dependencys.Syntec.SyntecParameterTable", "Summary": "Syntec controller parameter table.\nStores system parameters (single value) and axis parameters (per-axis value)\nfollowing Syntec Pr-prefixed parameter numbering.
\n\nSyntec is largely Fanuc-compatible in parameter numbering,\nbut some parameters differ in unit or interpretation.\nFor example, Pr4002 (peck retraction) is stored in microns\nwhereas Fanuc #4002 stores in mm.\n
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcParsers.Dependencys.Syntec.yml", "output": { ".html": { "relative_path": "api/Hi.NcParsers.Dependencys.Syntec.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcParsers.Dependencys.Syntec", "Summary": null }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcParsers.Dependencys.SystemWired.FileIndexCounterDependency.yml", "output": { ".html": { "relative_path": "api/Hi.NcParsers.Dependencys.SystemWired.FileIndexCounterDependency.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcParsers.Dependencys.SystemWired.FileIndexCounterDependency", "Summary": "Per-session monotonically-increasing file index allocator. Holds the\ncounter as a private field;
\nTwo consumers share one allocator:\n
L repetition — distinct indices ensure\n (FileIndex, LineIndex) pairs stay unique across overlapping\n subprogram line ranges.Provides
\nThe actual kinematics instance is resolved at runtime via\n
\nConsumed by dependencyList.OfType<IMachineKinematics>().\n
Exposes the absolute base directory of the project that owns this\nrunner. Resolved at runtime via LocalProjectService, a test harness) wires the\nprovider to its known project root after the runner is constructed,\nbecause baseDirectory argument it sees during XML deserialization.
\nConsumed by syntaxes that need to resolve a project-relative path\nto an absolute file system location — e.g.\nO<n>\nsubprogram lookup under\nPath.GetFullPath would\nanchor against the process working directory, not the project root.\n
Exposes the active O<n>\nsubprogram file and re-using the host runner's segmenter so the inlined\nblocks are split with the same rules).
\nThe actual segmenter is resolved at runtime via\n
Exposes the per-session layers[0] immediately after the M98 host\nnode so the entire syntax pipeline naturally re-processes them.
\nThe actual layer list is resolved at runtime via\n
Push / pop helpers for the per-block
\nPairs with P{seq} reading the top frame's\n
Outcome of evaluating an
Stateless variable lookup that needs per-block runtime context — the\ncurrent MachineCoordinateState\n/ ProgramXyz) and the dependency list (so the lookup can read\nfrom sibling dependencies without holding a static reference).
\nDistinguished from IRuntimeVariableLookup is for context-sensitive\nresolutions configured declaratively on\n
\nImplementations should be brand-specific (e.g. Fanuc #5001-#5043\nposition reads) and return null for keys outside their range so\nthe evaluator's chain can fall through to the next lookup.\n
\nImplementations are XML-serialised as part of\nXName, registers itself with
Resolves a Custom Macro B variable reference to its current numeric value,\nor null for vacant (Fanuc <vacant>) and out-of-scope alike.
\nThe key is the raw source token — Fanuc \"#124\", Heidenhain\n\"Q1\", Siemens \"R1\" — so the interface itself is brand-agnostic.\nImplementations are typically narrow (one per id range / per brand prefix)\nand parse the prefix locally; chain them at the call site by trying each\nin priority order until one returns a non-null value.\n
\nA returned null is treated by Variable--Vacant failure when the\nvalue is consumed in arithmetic context.\n
Reads Fanuc-style local macro variables (#1-#33) from\nVars.Local on the current
\nTwo-step lookup (mirrors
\nFrame isolation via
\nStateless and dependency-free — instances are interchangeable.\n
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcParsers.EvaluationSyntaxs.Evaluation.NcBinaryExpr.yml", "output": { ".html": { "relative_path": "api/Hi.NcParsers.EvaluationSyntaxs.Evaluation.NcBinaryExpr.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcParsers.EvaluationSyntaxs.Evaluation.NcBinaryExpr", "Summary": "Binary operation on two operands. Covers arithmetic\n(+ - * / / MOD), comparison\n(EQ NE GT GE LT LE, yielding 1.0 / 0.0), and\nlogical bitwise (AND OR XOR, operands truncated to\n
Binary operators allowed in Fanuc Custom Macro B value expressions.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcParsers.EvaluationSyntaxs.Evaluation.NcExpr.yml", "output": { ".html": { "relative_path": "api/Hi.NcParsers.EvaluationSyntaxs.Evaluation.NcExpr.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcParsers.EvaluationSyntaxs.Evaluation.NcExpr", "Summary": "AST root for a Fanuc Custom Macro B value expression. Concrete leaves\nand combinators sit alongside
Walks an #nnn via an
\nPhase-1 supports: SIN COS TAN ASIN ACOS ATAN SQRT ABS ROUND FIX FUP LN\nEXP POW. Trigonometric arguments and results are in degrees, matching\nFanuc Custom Macro B convention. Unknown function names surface as\nSQRT[-1]) as
\nNumeric domain & type conventions. All values are IEEE 754\nEQ NE GT GE LT LE) yield 1.0 (true) or\n0.0 (false), using strict double equality / ordering (NaN\ncompares as IEEE specifies — NaN EQ NaN is 0.0). Logical\nops (AND OR XOR) truncate each operand to a 64-bit signed\ninteger (IF / WHILE\ngates is value != 0 — any non-zero value (bit, float, comparator\nresult) is true.\n
Recursive-descent parser for Fanuc Custom Macro B value expressions.\nPure: takes a string, produces an
Grammar (lowest precedence at top):
\nexpr := or-expr\nor-expr := and-expr (('OR' | 'XOR') and-expr)*\nand-expr := cmp-expr ('AND' cmp-expr)*\ncmp-expr := add-expr (('EQ' | 'NE' | 'GT' | 'GE' | 'LT' | 'LE') add-expr)*\nadd-expr := term (('+' | '-') term)*\nterm := factor (('*' | '/' | 'MOD') factor)*\nfactor := ('+' | '-')? primary\nprimary := number\n | '#' integer\n | '#' '[' expr ']'\n | '[' expr ']'\n | ident '[' arglist ']' ('/' '[' expr ']')?\narglist := expr (',' expr)*\nFunction names and keyword operators (MOD, EQ NE GT GE LT LE,\nAND OR XOR) are case-insensitive (SIN = sin,\nEQ = eq); each keyword requires a non-identifier character\non its right boundary so EQ1 is not the EQ operator\nfollowed by 1. Whitespace is skipped between tokens. The\n'/' '[' expr ']' tail captures the dual-bracket form Fanuc uses\nfor ATAN[a]/[b]; non-ATAN callers that happen to use it produce a\nfunction with an extra arg, which the evaluator rejects with an arity\nerror.\n
\nOperator precedence intentionally puts boolean / logical layers below\narithmetic so #1 + 1 GT 0 parses as (#1 + 1) GT 0 and\n#1 GT 0 AND #2 LT 10 parses as (#1 GT 0) AND (#2 LT 10),\nmatching the Fanuc Custom Macro B spec for IF [..] GOTO /\nIF [..] THEN / WHILE [..] DO conditions.\n
Built-in function call like SIN[x], SQRT[x], ATAN[a]/[b].
Indirect variable reference #[expr]. The inner expression is\nevaluated and truncated toward zero to obtain an integer; the lookup key\nis then Prefix="#", computed 124 → "#124").
Numeric literal (e.g. 1.5, 15., .5, 1e-3).
Unary + or - applied to an operand.
Unary operators allowed in Fanuc Custom Macro B value expressions.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcParsers.EvaluationSyntaxs.Evaluation.NcVariableExpr.yml", "output": { ".html": { "relative_path": "api/Hi.NcParsers.EvaluationSyntaxs.Evaluation.NcVariableExpr.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcParsers.EvaluationSyntaxs.Evaluation.NcVariableExpr", "Summary": "Direct variable reference; "#124") passed verbatim to
Reads Fanuc-style non-retained common variables (#100-#499)\nfrom Vars.Volatile. Self-gates the id range so the evaluator's\n
\nSingle-step lookup: Vars.Volatile into the next block, so\nthe entry — if it exists — must be on the current block (when this\nlookup runs after the reader) or on the immediately previous block\n(when this lookup runs before the reader on the same block, which is\nthe Fanuc preset's order — evaluator first, reader second). No\narbitrary walk-back: such a walk would be defensive overkill given\nthe reader's carry guarantee.\n
\nStateless and dependency-free — instances are interchangeable. Reads\nstay decoupled from the reader (read side here; write side in the\nreader).\n
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcParsers.EvaluationSyntaxs.Evaluation.yml", "output": { ".html": { "relative_path": "api/Hi.NcParsers.EvaluationSyntaxs.Evaluation.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcParsers.EvaluationSyntaxs.Evaluation", "Summary": null }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcParsers.EvaluationSyntaxs.Fanuc.FanucGotoSyntax.yml", "output": { ".html": { "relative_path": "api/Hi.NcParsers.EvaluationSyntaxs.Fanuc.FanucGotoSyntax.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcParsers.EvaluationSyntaxs.Fanuc.FanucGotoSyntax", "Summary": "Resolves Fanuc Custom Macro B GOTO control flow.\nTriggered by Parsing.FanucGoto (written by\nlayers[0] with\nthe re-segmented file content starting at the matching N{target}\nlabel. The host block stays materialised (so cache dumps still see the\nGOTO call site); execution naturally continues from the new source\nonce the pipeline pulls the next block.
\nBoth unconditional GOTO <n> and conditional\nIF [<expr>] GOTO <n> are implemented. The conditional\nform leans on Parsing.FanucGoto.Condition with a numeric\nFanucGoto--ConditionNotEvaluated and falls through.\n
\nPipeline placement: tail of the Fanuc / Mazak / Syntec Evaluation\nbundle. Must run after #<var> in the target N (e.g. GOTO #1) has been\nsubstituted to a literal in Parsing.FanucGoto.N. Reader syntaxes\n(Parsing.Assignments, not Parsing.FanucGoto.\n
\nLabel scanning uses two hosted helper syntaxes —\nCommentSyntax and IndexSyntax — applied to\neach candidate block in turn so the predicate\nIndexNote.Number == target matches the same way the Parsing\nbundle would. Both are XML-IO-able so API customers can swap them\n(e.g. for a controller variant using ;-style comments or a\ndifferent head symbol). Defaults match Fanuc: \"N\" symbol.\n
Resolves Fanuc Custom Macro B IF [<cond>] THEN <body>\nsingle-block conditionals. Triggered by Parsing.FanucIfThen\n(written by PendingAssignments sub-object into the canonical\nParsing.Assignments bucket so the brand-specific reader syntaxes\ndownstream route each entry to its store the same way they would handle\nan unconditional #nnn = <literal> on a normal block.
\nUnlike FanucIfThen section on the host's top-level JSON keeps the\nIF-THEN call site visible to cache dumps and diagnostics, with\n
\nPipeline placement: in the Evaluation bundle after\nPendingAssignments RHS string has been evaluated to a numeric\n
\nThree condition outcomes mirror the\n
FanucIfThen--ConditionNotEvaluated, do not\n lift, Applied=false.FanucIfThen--UnsupportedBody and falls through.\n\n"
},
{
"type": "ManagedReference",
"source_relative_path": "api/Hi.NcParsers.EvaluationSyntaxs.Fanuc.FanucLocalVariableReadingSyntax.yml",
"output": {
".html": {
"relative_path": "api/Hi.NcParsers.EvaluationSyntaxs.Fanuc.FanucLocalVariableReadingSyntax.html"
}
},
"version": "",
"Uid": null,
"IsMRef": true,
"Title": "Hi.NcParsers.EvaluationSyntaxs.Fanuc.FanucLocalVariableReadingSyntax",
"Summary": "Routes literal-RHS assignments to Fanuc-style local macro variables\n(#1-#33) from Parsing.Assignments into Vars.Local\non the current block, carrying the previous block's Vars.Local\ndict forward when both blocks share the same\n#100-#499 range, with two differences:
#11 = 5) emit\nLocalVariable--MainFrameWriteUnsupported and consume the\nassignment without persisting — real Fanuc allows main-frame local\nwrites but this simulator only tracks locals inside G65/G66 call\nframes; surfacing the gap as a diagnostic is more informative than\na silent\n\nPipeline placement: Evaluation bundle, after\n#11 = #1 + 1 has already been normalised to a literal by the\ntime this reader runs) and after the other range readers\n(
\nOnly literal numeric RHS values are consumed here; non-literal\nentries (which can only persist if\nVariableExpression--Unevaluated diagnostic plus\n
Fanuc Custom Macro B Type-I argument-letter map: which call-line letter\nbinds to which Vars.Local id (#1-#26) inside the macro body.\nReserved letters (G, L, N, O, P) are\nabsent — they are consumed by the call itself, not passed through.
\nUsed by #nnn bindings the macro body's expression evaluator can read.\n
Inlines a Fanuc Custom Macro B one-shot call (G65 P_ L_ [letter\nvalue …]) into the source layer and binds the call-line argument\nletters to Vars.Local #1-#26 per the Type-I map (see\n#1-#33 writes forward only within the same frame. The host\nblock itself records layers[0]).
\nFrame isolation works on two layers. Statically, caller blocks\nhave no L-repetition) never collide with main. Dynamically,\nVars.Local entry across a block boundary\n— a macro body's body-internal writes therefore stay inside the\nmacro and never leak back into the caller's frame.\n
\nFilename lookup mirrors O{P:D4}.NC, O{P}.NC, O{P:D4}, O{P},\n{P:D4}.NC, {P}.NC — first match wins. The lookup root\nis
\nL > 1 inlines the same macro L times in series. Each\nrepetition is a fresh segmentation pass (so each block gets its own\nFileIndex (so\n(FileIndex, LineIndex) pairs stay unique across the\nL-copies of the same source lines).\n
\nPipeline placement: ahead of Evaluation G65 P_ + M98 P_ on the same block\nexpands the G65 macro first (would be an unusual but legal\ncomposition). Detection is on the Parsing.G65 sub-object\nwritten by \"G65\" never reaches Parsing.Flags because the\nparameterized match has already consumed the text by the time\n
Identifies which pipeline phase the instance runs in. The two\nvalues correspond to the Evaluation-bundle and PostLogic-bundle\nregistrations of this same syntax class.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcParsers.EvaluationSyntaxs.Fanuc.FanucModalMacroSyntax.yml", "output": { ".html": { "relative_path": "api/Hi.NcParsers.EvaluationSyntaxs.Fanuc.FanucModalMacroSyntax.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcParsers.EvaluationSyntaxs.Fanuc.FanucModalMacroSyntax", "Summary": "Handles Fanuc Custom Macro B modal-call lifecycle (G66 setup,\nG67 cancel, and per-motion-block implicit macro invocation).\nThe same class is registered twice in the pipeline via\n
\nKeeping both phases in one class makes the pairing visually explicit:\nreaders see \"G66 in one file\" and the two methods (DoSetup,\nDoExpansion) make the lifecycle obvious. The two factory\nhelpers (ModalCarrySyntax.Logic / .PostLogic pattern already in\nthe codebase.\n
Consumes Fanuc-style system-control variable assignments\n(#3000-#3999) — alarm trigger (#3000), millisecond and\nhour clocks (#3001 / #3002), single-block / feed-hold\nbypass flags (#3003 / #3004), pause-with-message\n(#3006), mirror-image flags (#3007), date / time\n(#3011 / #3012), tool-life data (#3030 /\n#3032), etc.
\nEvery id in this range is a controller-side state variable — its\nauthoritative value lives on the real hardware (RTC, alarm bus,\noverride switches, …) and an NC write at most triggers a side effect\n(clock reset, alarm raise, message-pause prompt). Offline simulation\nhas none of that machinery, so this syntax does not emulate the\neffect. Instead it:\n
\nVars.SystemControl (round-trip and cache-dump visibility);FanucSystemControl--Unsupported\nParsing.Assignments so it does not\nre-surface as a generic Parsing--Unconsumed diagnostic.\nThe dictionary carries forward block-by-block (same dict-merge pattern\nas SyntaxPiece linkage.\n
\nOnly literal numeric RHS values are consumed; non-literal RHS\n(e.g. #3002 = #500) is left in Parsing.Assignments for\n
\nFanuc-family only — Siemens uses named system variables\n($AC_TIME, $A_DAY, …) and Heidenhain uses\nFN18: SYSREAD; neither flows through Parsing.Assignments.#nnn.\n
Shared “re-segment a file and skip pieces until a label matches”\nscan, used by both\nM99 P{seq} jump\ninto the caller file). Reads the file via\nIndexNote.Number, and returns the slice from the\nfirst matching block to EOF.
\nReturns null when no block matches — the caller's\nresponsibility to surface the appropriate diagnostic. The probes\nare idempotent because the downstream Parsing bundle re-runs the\nsame syntaxes on the yielded pieces with no-op effect (the regex\npatterns no longer match once the N-prefix is consumed and the\nparenthesised comment stripped).\n
Tri-form resolution result.
Shared subprogram-/macro-file resolver for Fanuc-style O<n>\nlookups consumed by
O####.NC form\nthe resolver matched. Stored in JSON sections (FanucMacroCall,\nSubProgramCall) as the structural NC-language identifier;\nindependent of which folder the dependency happened to be pointing\nat, so the JSON stays portable across environments.\"NC/O1234.NC\"). Used as the\n\nFilename lookup order (first match wins) mirrors real Fanuc fallback:\nO{P:D4}.NC, O{P}.NC, O{P:D4}, O{P},\n{P:D4}.NC, {P}.NC. Case-insensitive match is delegated\nto the host filesystem (Windows is, Linux is not).\n
Shared inline mechanism for Fanuc Custom Macro B body expansion —\nused by both Vars.Local. Centralising lets the two\ncall sites stay in lock-step — frame allocation, file-index\nallocation, and the inline-piece JSON shape are guaranteed\nidentical.
\nFrame ids share the same
Obtains values for Fanuc-style retained common variables (#500-#999)\nby consuming literal numeric assignments from Parsing.Assignments.#nnn\nand writing them straight to a registered\n
\nNo SyntaxPiece JSON mirror is created — the table is the single source of\ntruth for retained values, and
\nOnly literal numeric RHS values are consumed by this syntax\n(#500 = 1.234 ✓; #600 = #500 + 1 ✗). Non-literal RHS entries\nare left untouched in Parsing.Assignments;
\nIf no NcDependencyList, this syntax is a no-op.\n
Inlines a Fanuc-style subprogram into the source layer when an M98 or\nM198 host block is reached. M98 P_ L_ reads the matching\nO<P> file from M198 P_ reads from layers[0] via\nwalkNode.Next\ntraversal as if they had always been part of the host file.
\nPipeline placement: first child of the Fanuc Evaluation\nParsing.M98 / Parsing.M198 sub-object carrying the\ncaptured P / L parameters. Note: those sub-objects\nare this syntax's only trigger — \"M98\" / \"M198\"\nnever reach Parsing.Flags, because the parameterized\nmatch has already consumed the text by the time\n
\nFilename lookup uses a fallback chain:\nO{P:D4}.NC, O{P}.NC, O{P:D4}, O{P},\n{P:D4}.NC, {P}.NC — first match wins. Case-insensitive\nmatch is delegated to the host filesystem (Windows is, Linux is not).\n
\nL > 1 inlines the same subprogram L times in series. Each\nrepetition is a fresh segmentation pass so each block gets its own\n
\nNot yet supported: M99 P{seq} early return inside a\nsubprogram and partial-program calls (M98 P{seq}{prog} split\nencoding). Custom Macro B argument-binding calls (G65 /\nG66 / G67) live in #1..#26 binding and the macro-call frame\nisolation that M98 deliberately does not provide.\n
Consumes Fanuc-style M99 subprogram-return blocks and pops\none M99 relies on the\nnatural pipeline tail — the inlined body's last block is followed\nin layers[0] by the caller's next block, so the “return”\nhappens implicitly; this syntax only consumes the M99 trigger (so\n
\nM99 P{seq} additionally redirects control flow to the\ncaller's N{seq} block via\n\"N\") because the M99 P semantic itself is\nFanuc-family-only and Mazak / Syntec follow the same conventions.\nThe iteration is counted against\n(FileName, TargetN) bucket so a tight\nM98 → M99 P → M98 … loop trips the same threshold.\n
\nPipeline placement: same Evaluation bundle slot it always occupied,\nright after M99 P{seq} is to fire; without them the plain-M99 path still\nworks and the P-jump emits a configuration warning.\n
\nDetection is on the Parsing.M99 sub-object written by\n\"M99\" never reaches Parsing.Flags because the\nparameterized match has already consumed the text by the time\n
Pure expression normalizer for Custom Macro B syntax. Walks the\nparser-stage residue on a single block and inlines numeric values\nwherever a Fanuc-style variable reference or bracket expression\nappears — but does not write to any specific store. Routing\n“where the resolved literal lands” stays in the brand-specific\nreader syntaxes (
\nTwo passes per block:\n
\nParsing.Assignments.#nnn entries\nwhose RHS is non-literal (e.g. \"#500+1\", \"SQRT[#100]\")\nare evaluated via the \"R\"-format). The entry stays in Parsing.Assignments so\ndownstream reader syntaxes consume it as a pure-literal assignment.\nIteration follows source order (Parsing.Assignments insertion order).\nParsing.<tag> (axis tags, canned-cycle sub-objects)\nis parsed; on a successful evaluation the string is replaced with a\nnumeric VariableExpression--Unevaluated only if the tag is actually read.\n\nLookup chain (first non-null wins, configured per brand preset via\nNcDependencyList):\n
#nnn=literal is visible to a later\nRHS that mentions #nnn).#1-#33),\n#100-#499),\n#5001-#5043).NcDependencyList, in registration order\n(\nEach lookup self-gates its id range; the evaluator stays brand- and\nrange-agnostic. Adding a new variable surface is additive: register\nan
\nSame-block forward reference — when an Assignment RHS\nreferences a #nnn that is also being assigned later in\nthe same block (i.e. listed in Parsing.Assignments after the\nRHS being evaluated), the VariableEvaluator--SameBlockForwardReference warning is\nemitted per such RHS so the user is told the source-order semantics\nwere not honoured. Practical impact is near-zero for typical\nCAM-emitted NC (one assignment per line).\n
Obtains values for Fanuc-style non-retained common variables\n(#100-#499). Reads literal numeric assignments from\nParsing.Assignments.#nnn, dict-merges them with the previous block's\nvolatile state, and writes the resulting per-block dictionary into\nVars.Volatile.
\nLifetime is bounded by MachiningSession: within one session the\ndictionary carries forward block-by-block via this syntax; session restart\nabandons the SyntaxPiece JSON dataflow and starts fresh. Program-end\n(M02/M30) clearing is handled by
\nOnly literal numeric RHS values are consumed by this syntax\n(#124 = 15. ✓; #100 = #1 + 5 ✗). Non-literal RHS entries\nare left untouched in Parsing.Assignments; SyntaxPiece linkage so it does not depend on having run before\nor after this syntax.\n
Abstraction for a source that carries a
Carries a reference to a source
Abstraction for an object that carries a
Minimal
Sets the initial
Populates the init-block JSON sections (e.g. home position, static defaults)\nbefore the soft-NC runtime processes any source NC syntax. Implementations\nsuch as
Merges a fixed G54, G80)\nbefore any source NC syntax is processed.
Removes indicated JSON keys from
\nPlace at the end of the syntax list, after all consumers have read the keys.\n
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcParsers.InspectionSyntaxs.ProgramXyzBackfillSyntax.yml", "output": { ".html": { "relative_path": "api/Hi.NcParsers.InspectionSyntaxs.ProgramXyzBackfillSyntax.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcParsers.InspectionSyntaxs.ProgramXyzBackfillSyntax", "Summary": "Debug / observability back-fill: writes\n
\nSkips the block entirely when either of these holds:\n
\nOnly back-fills the root block; ProgramXyz).\n
\nPlacement: end of ProgramXyz entries in the cached\nsyntax-pieces dump, which makes block-to-block debugging\nand diffing easier.\n
Debug-time JsonObject capture: deep-clones every key on the current\njson[,\nleaving the rest of the block untouched.
\nInsertable at any position in
\nExcluding the
\nSet false to keep the configuration\nin place but skip the capture (no JSON mutation, no allocation) —\nconvenient for toggling a debug pipeline without removing the entries.\n
Emits diagnostic warnings for content remaining after all upstream\nsyntaxes have run: unconsumed
Optional block skip marker extracted from the head of an NC block.\nISO 6983 / Fanuc calls this feature Block Delete (BDT switch);\nSiemens / Syntec / Mazak use the same / prefix with matching\nbehaviour.
\nThe section is only present on blocks that carry a / prefix.\nWhether the block's NC commands are actually skipped at runtime\ndepends on
/\nprefix is consumed, UnparsedText, so downstream parsing syntaxes see nothing and\nno NC action is emitted. Comment syntaxes run before this one so\ncomments (and any embedded CsScript) still take effect.One entry in M99 P{seq} to locate the caller's N{seq} block.
JSON-section data shape representing the active call-frame stack on\na block — pushed by call-and-inline syntaxes\n(
\nThe section is wrapped in a
Section key holder + concrete implementation for
Comment extracted from an NC block.\n
Section key holder + concrete implementation for
Section key holder + concrete implementation for
Work coordinate offset state written by\nnameof.
\nManaged commands (ISO): G54, G55, G56, G57, G58, G59, G59.1–G59.9.\nSiemens: G54–G57 + G505–G599 (extended), G500 to cancel.\nHeidenhain: CYCL DEF 247 (Datum Preset) / CYCL DEF 7 (Datum Shift).\n
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcParsers.Keywords.CsScript.yml", "output": { ".html": { "relative_path": "api/Hi.NcParsers.Keywords.CsScript.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcParsers.Keywords.CsScript", "Summary": "Section-key holder for inline C# scripts attached to an NC block. Carries\n
Section key holder + concrete implementation for
Fanuc-specific G-code and M-code constants.\nFor ISO standard codes shared across brands, see
Fanuc Custom Macro B GOTO record. Stamped on the host block by\nParsing.FanucGoto) carrying the raw captured fields.
\nTwo source forms map to the same shape:\n
GOTO <n> — unconditional jump. IF [<bool-expr>] GOTO <n> — conditional jump.\n \nAt parsing time \"100\"), a variable reference (\"#1\"), or a\nbracketed expression (\"#[#2+5]\"). int.TryParses the final string to produce an int target.\n
Fanuc Custom Macro B IF [<cond>] THEN <body>\nsingle-block conditional record. Stamped on the host block by\nParsing.FanucIfThen) carrying the raw captured fields\nplus an internal PendingAssignments sub-object harvested from the\nbody text.
\nSpec: IF [bool-expr] THEN <stmt> executes <stmt>\nonly when the condition is truthy. Unlike #nnn = <expr>); multiple assignments in one body are also\naccepted and lifted together.\n
\nReadCondition shape used by\n
One-shot custom-macro-call record written by\nG65 host block (the caller) and every inlined block of the\nmacro body — so a cache-dump reader can land on any block inside the\nmacro and immediately see “this block belongs to a G65 call of\n
\nEach inlined block additionally carries the resolved\nVars.Local #1-#26 bindings derived from Vars.Local written, so\nafter the macro body ends, the next caller block reads null\nfor any #1-#26 without any explicit frame marker.\n
Modal-macro-call record left by\nG66 setup state forward block-to-block until cancelled by\nG67. The section is also written on the G67 block itself\n(with “G67”) so cache dumps show the cancel\nedge; subsequent blocks then carry no section at all.
\nPer-block expansion of the modal call into an actual macro inline at\nevery positioning move is not yet implemented — a\nFanucModalMacro--NotExpanded warning is emitted on the setup\nblock to flag the simulation gap. The setup state itself is captured\nfaithfully so external tooling can detect \"this block sits inside a\nG66 modal\" via the carried section.\n
Section data holder for
Fanuc-family program identifier header that follows a\nO1234 or\n<O1234>.
Section key holder + concrete implementation for
ISO/RS274 standard G-code and M-code constants.\nShared across Fanuc, Mazak, Okuma, and other ISO-compatible controllers.\nBrand-specific codes belong in their own keyword classes\n(e.g.,
Motion interpolation form constants used in
JSON section schema for Heidenhain CYCL DEF blocks. The\n“DATUM SETTING”) or a parameter line (e.g. “Q339=+1”).
Arc motion data written by
Canned cycle modal state (Group 09). Captures which cycle is\ncurrently active, its return mode (G98/G99), and the resolved\nabsolute parameter set used for modal lookback.
\n\nWritten by
\n\"G80\" is the explicit-cancel sentinel\nused by G00 X.. Y..) simply omit the section entirely.\n
Compound motion section definition for commands that produce\nmultiple sub-operations (G28, G53.1, G81, G82, etc.).\nContains a
Item types (discriminated by key presence):
\nCoolant state (M07 mist / M08 flood / M09 off).\nWritten by
\n
Dwell/pause section definition for use inside Sequence items.\nResolved by
Fanuc-specific path smoothing state written by\n
\nExtends
\nJSON section key remains nameof(PathSmoothing) so generic readers\n(cache dumps, modal carry, UI) can cast to
Feedrate state written by nameof.
\nISO standard: F command + G94 (per minute) / G95 (per revolution).\nSupported by all major CNC brands.\n
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcParsers.Keywords.IFlagsDef.yml", "output": { ".html": { "relative_path": "api/Hi.NcParsers.Keywords.IFlagsDef.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcParsers.Keywords.IFlagsDef", "Summary": "JSON section schema describing the modal/non-modal flags that take effect\non an NC block. Each entry in
Modal machine-coordinate state — absolute six-axis machine position\nafter the block has executed. Written on every block by motion-related\nLogicSyntaxs (
\nOnly configured axes appear as keys (X/Y/Z/A/B/C). Non-existent axes\n(e.g., A/B/C on a 3-axis machine) are omitted rather than written\nas NaN sentinels.\n
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcParsers.Keywords.IMotionEventDef.yml", "output": { ".html": { "relative_path": "api/Hi.NcParsers.Keywords.IMotionEventDef.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcParsers.Keywords.IMotionEventDef", "Summary": "One-shot motion event — present on every block whose source programmed\na motion command, regardless of whether the resulting displacement is non-zero.\nA redundant G01 X10 on a block already at X10 still gets a\ndistance <= 0 and emit no\n
\nReason for the \"programmed, not displaced\" definition: Fanuc G66 modal\nmacro fires once per programmed motion command (per Fanuc spec —\nno distance gate), so
nameof.\n"
},
{
"type": "ManagedReference",
"source_relative_path": "api/Hi.NcParsers.Keywords.IMotionStateDef.yml",
"output": {
".html": {
"relative_path": "api/Hi.NcParsers.Keywords.IMotionStateDef.html"
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},
"version": "",
"Uid": null,
"IsMRef": true,
"Title": "Hi.NcParsers.Keywords.IMotionStateDef",
"Summary": "Modal motion state — Group 01 G-code mode (G00 / G01 / G02 / G03 ...).\nWritten on every block by nameof.
\nUnlike sibling modal sections (Term\nand a brand-neutral conventional field, FindPrevious* can resume motion-mode bookkeeping.\n
JSON section schema carrying the raw, brand-specific parsing trace for an\nNC block. The
Path smoothing state. The base interface is brand-agnostic; controller\nbrands extend it with their own argument fields (e.g.\n
\nISO/Fanuc G05.1 Q1 (enable) / G05.1 Q0 (disable):\nhigh-precision contour control / AICC / Nano Smoothing.\nController-internal interpolation black box — simulation records\nthe state but does not alter the tool path.\n
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcParsers.Keywords.IPlaneSelectDef.yml", "output": { ".html": { "relative_path": "api/Hi.NcParsers.Keywords.IPlaneSelectDef.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcParsers.Keywords.IPlaneSelectDef", "Summary": "Active plane selection state written by\nnameof.
\nISO: G17/G18/G19. Heidenhain: implicit from L/CC syntax.\n
Modal positioning state — ISO Group 03 (G90 absolute / G91 incremental).\nWritten by nameof.
\n
Program end marker (M02/M30).\nWritten by
Program-stop marker (M00 unconditional / M01 optional).\nWritten by
\nDistinct from
\nM00 halts execution unconditionally; the operator must press Cycle\nStart to resume. M01 is an optional stop gated by the operator's\n\"Optional Stop\" panel switch — ignored when the switch is off.\nThis parsing-layer section records the NC intent; runtime /\nsemantic layers decide whether to actually pause.\n
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcParsers.Keywords.IProgramXyzDef.yml", "output": { ".html": { "relative_path": "api/Hi.NcParsers.Keywords.IProgramXyzDef.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcParsers.Keywords.IProgramXyzDef", "Summary": "JSON section schema carrying the program-coordinate position commanded on\nthe current block. Written by
Radius compensation state written by\nnameof.
\nManaged commands (ISO): G41 (left), G42 (right), G40 (cancel).\nHeidenhain Klartext maps RL → G41, RR → G42, R0 → G40.\nWhen active, the tool path is offset perpendicular to the programmed path\nby ProgramXyz retains the user-programmed position;\nMachineCoordinate is overwritten to reflect the compensated path.\n
Spindle control item for use inside
Oriented spindle stop item for use inside\n
Spindle speed and direction state written by\nnameof.
\nISO: S command for speed, M03/M04/M05 for direction.\nHeidenhain: M3/M4/M5. Siemens: M3/M4/M5 or SPOS.\nDirection is stored as the conventional
Tilt transform state written by tilt transform syntaxes.\nProperty names are used as JSON keys via nameof.
\nManaged commands (ISO/Fanuc): G68 (2D rotation), G68.2 (tilted work plane), G69 (cancel).\nSiemens equivalent: CYCLE800, ROT/AROT (handled by separate syntax).\nHeidenhain equivalent: PLANE SPATIAL / PLANE RESET (handled by separate syntax).\n
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcParsers.Keywords.IToolHeightCompensationDef.yml", "output": { ".html": { "relative_path": "api/Hi.NcParsers.Keywords.IToolHeightCompensationDef.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcParsers.Keywords.IToolHeightCompensationDef", "Summary": "Tool height compensation state written by\nnameof.\nThe JSON section can be deserialized to an instance implementing this interface.
\nManaged commands (ISO/Fanuc): G43, G44, G49.\nFanuc extension: G43.4 (TCPM — parsed only in Fanuc syntax list).\nSiemens equivalent: TRAFOOF/TRAORI (handled by separate syntax).\nHeidenhain equivalent: TOOL CALL / M128/M129 (handled by separate syntax).\n
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcParsers.Keywords.ITransformationDef.yml", "output": { ".html": { "relative_path": "api/Hi.NcParsers.Keywords.ITransformationDef.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcParsers.Keywords.ITransformationDef", "Summary": "Chain of named ProgramXyz → MachineCoordinate transformation entries.\nStored as a “Source”, “Kind”, and “Mat4d” keys.\nEach contributing McXyz = ProgramXyz * T[0] * T[1] * ... * T[n].
\nKind contour-validity classification. Each entry is either:\n
\"Static\" — the Mat4d is valid for any point along the contour.\nTilt, coord-offset, and the kinematic pivot in non-RTCP / rotary-stable\nblocks are all Static.\"Dynamic\" — the Mat4d is a block-endpoint snapshot of a\nrotary-state-dependent transform (RTCP rotary-dynamic). Composition still\nyields a correct endpoint MC, but the matrix is not contour-valid:\nintermediate CL-point positions cannot be derived by applying it to an\ninterpolated ProgramXyz. The semantic layer\n(Unit-system state (ISO Group 06: G20 inch / G21 metric).\nWritten by
\nHiNC's NC pipeline works exclusively in millimetres. G21 is therefore\na no-op confirmation of the default; G20 is reported as an\nUnsupported Error and callers are expected to pre-convert the NC\nprogram to metric before loading.\n
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcParsers.Keywords.IUnparsedTextDef.yml", "output": { ".html": { "relative_path": "api/Hi.NcParsers.Keywords.IUnparsedTextDef.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcParsers.Keywords.IUnparsedTextDef", "Summary": "JSON section schema carrying the residual block text that was not consumed\nby any registered syntax. Used for diagnostics and round-trip preservation.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcParsers.Keywords.IndexNote.yml", "output": { ".html": { "relative_path": "api/Hi.NcParsers.Keywords.IndexNote.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcParsers.Keywords.IndexNote", "Summary": "JSON-section data shape pairing a single-character address symbol\n(e.g. ‘O’, ‘N’) with its numeric index, used to annotate\nprogram/sequence numbers on an NC block.
ISO/Fanuc-family local coordinate offset state (G52) written by\nnameof.
\nG52 X Y Z installs a local coordinate-system shift that stacks on top of\nthe active G54-G59 work offset. The cancel mechanism is to write\nG52 X0 Y0 Z0 (or hit M30 / reset) — there is no separate G code\nfor \"cancel\". The offset vector is therefore always modal: zero is a\nvalid modal value, not a \"disabled\" state, so the section is recorded\non every block.\n
\nBrand-specific kin: Siemens TRANS/ATRANS (which can also\ncarry rotation/scale/mirror) and Heidenhain TRANS DATUM are\nhandled by their own syntaxes and write to their own sections — they\ndo not share this key, because their data shapes are richer.\n
Section key holder for
Top-level integer marker stamped onto a G66\nmodal expansion, Heidenhain LBL CALL, …) that needs\nlocal-variable isolation across call boundaries.
\nSemantics: the value is an opaque id; only equality matters. Two\nblocks with the same 0 is reserved for the main\nprogram frame and is returned by
\nStored as a top-level JSON int (not an object section) so it stays\nlightweight on every inlined block. Decoupled from\nMacroFrame is the\npurely functional marker the local-variable I/O syntaxes consult.\n
Section key holder + concrete implementation for
Section key holder + concrete implementation for
Section key holder for
Section key holder for
Section key holder + concrete implementation for
Section key holder for
Section key holder + concrete implementation for
Section key holder + concrete implementation for
Siemens Sinumerik G-code and M-code constants.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcParsers.Keywords.Siemens.yml", "output": { ".html": { "relative_path": "api/Hi.NcParsers.Keywords.Siemens.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcParsers.Keywords.Siemens", "Summary": null }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcParsers.Keywords.SpindleControl.yml", "output": { ".html": { "relative_path": "api/Hi.NcParsers.Keywords.SpindleControl.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcParsers.Keywords.SpindleControl", "Summary": "Section key holder + concrete implementation for
Section key holder + concrete implementation for
Section key holder + concrete implementation for
Subprogram call record left by\nP".
\nM98 and M198 share the exact same section shape. The\ndifference between them is purely environmental — which folder the\nresolver looks in (SubProgramFolderConfig.InternalFolder vs\nExternalFolder) — and that lives on the dependency, not in\nthis JSON record.\n
Subprogram return record left on the M99 host block by\nM99 P{seq} jump decision.
Tape leader / trailer line — the literal % that historically\nmarked the start and end of a punched paper-tape program. ISO-style\ncontrollers (Fanuc, Mazak, Syntec, Siemens) all preserve it as a\nfile-level boundary marker. Distinct from a comment: the controller\nuses it as a tape/file delimiter, not as embedded operator text.
Concrete class for
Section key holder for
Section key holder + concrete implementation for
JSON section schema for per-block variable storage. Each sub-property\nnames a sub-section that holds a { “#nnn”: value } dictionary\nkeyed by Fanuc-style variable id.
\nThe sub-sections partition the variable space by lifetime:\n
\n#1-#33, scope: macro call frame\n(pushed/popped by G65 / G66 / M99).#100-#499, non-retained common;\ncarries block-to-block, cleared by ProgramEndCleanSyntax on M02 / M30.#3000-#3999, controller-side\nsystem variables; offline-only round-trip record (real controller\neffects such as clock reset / alarm trigger / message pause are not\nsimulated).\nThe property types are #100, #5001, …) discovered at parse time, not a fixed\nschema. This class exists solely to give the section name and sub-keys\nstable nameof() targets — instances are never constructed at\nruntime.\n
G87 back boring cycle. Supports modal repetition.\nCuts upward from Z to R — used to bore the back side of a workpiece.
\n\nCycle sequence:\n
\nQ specifies the lateral shift distance (mm).\nShift direction defaults to +X (OSS angle 0°).\n
\n\nReads absolute coordinates from the cycle section, which is\nresolved by
Writes Parsing.G28\n(written by
\nMust be placed after
G85/G86/G89 boring cycles.
\n\nCycle sequence:\n
\nG85: feed to Z, feed retract — smooth bore finish.\nG86: feed to Z, spindle stop (implicit), rapid retract.\nG89: feed to Z, dwell P, feed retract — like G85 with bottom dwell.\n
\n\nReads absolute coordinates from the cycle section, which is\nresolved by
Resolves the canned-cycle Group-09 state for the current block\nand writes the result to the
Parsing overrides with previous-cycle stored params, applies\nG91 incremental-to-absolute conversion and missing-axis fallback,\nwrites Parsing under the cycle code for downstream cycle\nsyntaxes ({ Term: \"G80\" }, acting as a hard\nsentinel for \nMust be placed after
Writes
\nG02/G03 mode is modal (Group 01) — persists across blocks via\n
\nMust be placed before
Consumes M07 (mist ON), M08 (flood ON), and M09 (coolant OFF) from\n
Shared utilities for all coordinate offset syntaxes\n(ISO, Siemens, Heidenhain). Handles section IO,\nbackward lookback, and
G81/G82 drilling cycle (rapid retract). Supports modal repetition.\nG82 covers G81 — the only difference is an optional dwell (P) at the bottom.
\n\nCycle sequence:\n
\nReads absolute coordinates from the cycle section, which is\nresolved by
Consumes Fanuc G05.1 (high-precision contour / AICC II / Nano Smoothing)\nand records the modal state in the
\nModal carry to subsequent blocks is handled by\nPathSmoothing section key and deep-clones it forward.\n
Consumes F (feedrate) from
G76 fine boring cycle. Supports modal repetition.
\n\nCycle sequence:\n
\nQ specifies the lateral shift distance (mm) to avoid dragging\nthe tool across the finished bore surface during retract.\nShift direction defaults to +X (OSS angle 0°).\n
\n\nReads absolute coordinates from the cycle section, which is\nresolved by
Handles G43.4 RTCP (Rotary Tool Center Point) activation. Writes\nthe
\nThe RTCP kinematic rotary part (Pn→MC rigid transform) is orthogonal\nto this syntax and is written by G01 after G49 still\ninherits the last ABC from the program).\n
\nThe \"rotary dynamic\" distinction lives on the chain entry's\n
\nG43.4 is used by Fanuc, Mazak, Syntec, and Okuma. Siemens (TRAORI) and\nHeidenhain (M128) are handled by separate syntaxes. Must be placed\nafter
G53.1 — non-modal, one-shot rotary axis positioning.\nPositions the rotary axes (A/B/C) to align the physical tool axis\nwith the active tilted work plane defined by G68.2.\nXYZ position is unchanged; only rotary axes move via rapid traverse.
\n\nRequires
\nMust be placed after
Heidenhain-specific: resolves coordinate offset from\nCYCL DEF 247 (Datum Preset) and CYCL DEF 7 (Datum Shift).
\n\nCYCL DEF 247 Q339=N: selects datum preset table entry N.\nCYCL DEF 7 #N: selects datum shift table entry N.\nCYCL DEF 7 X/Y/Z: applies direct XYZ shift values.\n
\nFor DIN/ISO compatibility (G54–G59), useG73 high-speed peck drilling cycle (chip breaking). Supports modal repetition.\nDrills in increments of depth Q, partially retracting by\n
\nCycle sequence:\n
\nReads absolute coordinates from the cycle section, which is\nresolved by
Resolves G91 incremental axis values to absolute in-place\nwithin
\n[[\"Parsing\"], [\"Parsing\", \"G28\"]].\nAll matching paths are converted.\n
\nCanned cycle paths (Parsing.G81, G82, G83, …) are intentionally\nexcluded — their Z/R incremental semantics differ from normal axes\n(R is relative to init level, Z is relative to R-point).\nResolution is handled by\n
\nUses
ISO/Fanuc/Mazak/Okuma/Syntec: resolves G54–G59.9 work coordinate offset.\nReads G54/G55/.../G59.9 from
ISO/Fanuc: resolves G68 (2D coordinate rotation) and G69 (cancel).\nComputes a rotation
\nNo
\nManaged commands: G68, G69 (idempotent with
ISO/Fanuc: resolves G68.2 (tilted work plane) and G69 (cancel).\nComputes a tilt
\nManaged commands: G68.2, G69 (idempotent with
ISO G52: Local coordinate system offset (additive to G54-series).
\n\nG52 X10 Y20 Z5 → sets local offset.\nG52 X0 Y0 Z0 → cancels (resets to zero).\nM30 (program end) → also cancels.\n
Parsing.G52 (from \"IsoLocalCoordinateOffset\" entry to the transformation chain.\nModal — persists via backward lookback until changed or cancelled.\n"
},
{
"type": "ManagedReference",
"source_relative_path": "api/Hi.NcParsers.LogicSyntaxs.LinearMotionSyntax.yml",
"output": {
".html": {
"relative_path": "api/Hi.NcParsers.LogicSyntaxs.LinearMotionSyntax.html"
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},
"version": "",
"Uid": null,
"IsMRef": true,
"Title": "Hi.NcParsers.LogicSyntaxs.LinearMotionSyntax",
"Summary": "Writes
\n
Handles G53 (machine coordinate selection) — non-modal, one-shot.\nThe axis values (X/Y/Z) in the block are interpreted as machine\ncoordinates, bypassing all work offsets, local coordinates,\ntool height compensation, and coordinate rotations.\nIf G91 (incremental) is active, G53 is ignored per ISO standard.
\n\nMust be placed before
Resolve modular rotary axes to the shortest cyclic path relative to the previous node.\nUses
\nTwo stages, mirroring
MachineCoordinateState — anchored at the previous\n block's modal rotary state.i > 0 at item i-1's\n post-cycle value (per-axis chain). Items without a rotary\n MachineCoordinateState are skipped.Writes rotary axis values (A/B/C) into\n
\nOnly active when
\nThis syntax is intentionally ABC-only. When the block is rotary-only\n(no ProgramXyz, e.g. G00 A30.) the section is created\nwith ABC but without X/Y/Z.
\nMissing rotary axes are filled from previous\n
\nMust be placed before
Fills missing X/Y/Z on an ABC-only\n
G00 A30. (non-RTCP pivoting).\nMC = inheritedProgramXyz × composedTransform, where the\ncomposed transform is the block's endpoint chain (now including\nProgramXyz is also stamped onto\nthe current block so downstream consumers see a consistent\nProgramXyz + MC pair.\n\nPair with ProgramXyz via the transform chain\nwhen the block carries linear motion. If ProgramXyz), this syntax completes\nthe MC section as described above.\n
\nDoes nothing when the section already carries all three of X/Y/Z\n(normal linear-motion blocks), or when there is no section at all\n(pure parse-only block that introduces no MC). Must be placed\nafter
Derives
\nProcesses two stages:\n
ProgramXyz → root MachineCoordinateMachineCoordinate from ProgramXyz for items\n that have ProgramXyz but no MachineCoordinateProgramXyz\n(e.g., MachineCoordinate\n(e.g., G83 peck drilling cycle. Supports modal repetition.\nDrills in increments of depth Q, fully retracting to R between strokes.
\n\nCycle sequence (per stroke):\n
\nRetraction distance is read from
\nReads absolute coordinates from the cycle section, which is\nresolved by
Writes the HardNcLine.GetProgramXyz's use of\nMachineCoordinate.ABC is non-zero, and McXyzSyntax (and\nProgramXyzSyntax's inverse lookback) would silently drift.
\nScope is not limited to RTCP modal: as long as rotary axes are\nphysically at a non-zero position (e.g. after a non-RTCP G00 B90\nplus any subsequent motion), the kinematic chain still contributes a\nnon-identity rigid transform that must appear in the endpoint chain.\n
\nChain position: must run after all Pn-frame writers\n(PivotTransform\nentry naturally lands as the last chain element. Must run\nbefore
\nSilently no-ops when
Consumes G17/G18/G19 plane selection from
\nDownstream consumers (
Detects G90/G91 positioning mode from
\nFanuc/ISO: reads G90/G91 from
\nDoes NOT convert incremental values — that is handled by\n
Clears the per-block Vars.Volatile dictionary on blocks that\ntriggered program end (M02 / M30, identified by the\n
\nReal Fanuc clears non-retained common variables (#100-#499) on program\nend + reset; this syntax models that behaviour at the simulator level.\nThe clear happens on the same block that carried M02/M30 — the next\nblock's
\nPipeline placement: must run after both
\nRetained common variables (#500-#999, owned by\n#1-#33, scope: macro call frame) are also\nuntouched here; their lifecycle belongs to G65/G66/M99 push/pop, not\nprogram end.\n
\nAlso clears any active G67-shaped cancel marker so\nthe carry mechanism in\n
Consumes M02/M30 (program end) from
\nDownstream syntaxes that need to reset modal state on program end\n(e.g.
Consumes M00 (unconditional stop) and M01 (optional stop) from\n
\nSiblings with
\nThe parsing layer only records NC intent. Whether M01 actually\npauses the run is a runtime/semantic decision gated by the operator's\n\"Optional Stop\" switch (analogous to\n
Resolves ProgramXyz (leaf coordinate) from syntax XYZ tags.\nWrites
\n
Shared utilities for
\nTwo strategies for \"what's the program coordinate at a block's\nendpoint?\" — both invert an MC value through an\n
HardNcLine.RebuildProgramXyzByMc.\nnodeCarryingMc was originally commanded\nat, by inverting that same node's own transform on its own MC.\nSuitable for RTCP rotary-dynamic inheritance, where the modal\ninvariant is \"tool tip in workpiece frame stays put while rotary axes\nturn\" — the recovered Vec3d carries forward as the next rotary block's\nmodal ProgramXyz unchanged, regardless of how its\nPivotTransform differs.\n\nBoth strategies yield the same Vec3d when prev and current share the\nsame chain modal state; they only diverge across chain boundaries\n(RTCP toggle, coord-system swap, tilt activation) and at rotary motion\n(PivotTransform difference). Pick the wrong one and the result lands\nin a stale frame:\n
\nG43.4 H03 would inherit\nProgramXyz still in the G49 frame and the next motion's MC.Z drifts\nby the introduced tool-height offset. (This was the 2026-04-25\nSoftNc / HardNc divergence on DemoPmcAirPlane/NC/02-ED6L20.NC.)\nPivotTransform difference, so the inherited workpiece anchor\nrotates by the C delta on every rotary block.\n\nDirect callers of the two strategy helpers are rare — typically you\ncall the dispatcher
G28 reference point return syntax. Behaviour is documented in detail\non the example attached to
Shared utilities for rotary axis (A/B/C) resolution.\nUsed by
Siemens Sinumerik: resolves work coordinate offset from G54–G57 (ISO-compatible),\nG505–G599 (extended Siemens), and G500 (cancel — machine coordinate mode).\nReads from
Consumes S (spindle speed) and M03/M04/M05 (spindle direction)\nfrom
G84 (right-hand) / G74 (left-hand) tapping cycles.\nSupports modal repetition.
\n\nCycle sequence:\n
\nG84: forward = CW (M03), reverse = CCW (M04).\nG74: forward = CCW (M04), reverse = CW (M03).\n
\n\nReads absolute coordinates from the cycle section, which is\nresolved by
Shared utilities for all tilt transform syntaxes\n(ISO, Siemens, Heidenhain). Handles section IO,\nbackward lookback, and
Consumes T (tool number) and M06 (tool change) from\nToolChange section:\n{ “ToolId”: 1, “IsChange”: true, “Term”: “M06” }.\n
Resolves ISO tool height offset (G43/G44/G49) to the effective offset\nvalue (mm) and composes the offset as a translation into the accumulated\n
\nRTCP modes (G43.4, TRAORI, M128) are handled by separate brand-specific\nsyntaxes (e.g.,
Detects the unit-system code (ISO Group 06: G20 inch / G21 metric)\nfrom
\nThe HiNC pipeline works exclusively in millimetres. When\nUnit--InchNotSupported Unsupported Error so upstream callers\nare forced to pre-convert the NC program to metric.\n
A structured diagnostic from the
\n{Primary}-{Secondary}--{Abbrev}\n(e.g., Cycle-Peck--BadPeckQ, Syntax-Build--Exception).\nFor irregular cases that don't fit the pattern, use a custom string.\n
Diagnostic category of an NC diagnostic.
\nIBlockSkipConfig layer)Helper that emits
Importance level of an NC diagnostic.\nCombined with Unsupported + Warning).
Parses the ISO 6983 / Fanuc Block Delete (a.k.a. Block Skip) prefix\n/ or /N (N = 1..9) at the head of an NC block.
\nBehaviour:\n
/ → no-op, no / with UnparsedText and parses normally./ with layer ON → the remaining block text is moved\nfrom UnparsedText into UnparsedText is cleared. Downstream parsing syntaxes see no\nNC text so they emit nothing; semantics therefore produce no act.\nMust run after comment / CsScript syntaxes so that comments\n(and CsScript embedded in comments) continue to take effect\nregardless of the skip switch.Parses parenthesized comments such as (comment text) from the\nremaining unparsed text and emits a () symbol.
In-situ syntax that strips a trailing comment from the NC line: text from a configured\n
Extracts C# script markers from the oral content of a comment.\n
Parses Fanuc Custom Macro B GOTO phrases out of the remaining\nParsing.FanucGoto\nsub-object. Two forms are recognised:
GOTO <n> — unconditional jump.IF [<bool-expr>] GOTO <n> — conditional jump.\nIF [...] GOTO is matched as a single phrase, not as an IF\nsyntax composed with a GOTO syntax — Fanuc only permits the two\nfixed forms (the other being IF [...] THEN <assignment>,\nout of scope here), so a phrase-level parser is more faithful and\navoids parsing-ambiguity rabbit holes.\n
\n<n> is captured as a raw token (literal like \"100\",\nvariable like \"#1\", or bracketed expression like\n\"#[#2+5]\"). #N references and the\nevaluator rewrites them in place.\n
\nPipeline placement: after N{seq} on a block like N50 GOTO 100 has already been\nconsumed) and after (GOTO 100) inside a comment never matches).\nThe phrase consumes the entire remaining text on the block — Fanuc\nallows only the GOTO / IF-GOTO phrase after any preceding head index,\nno other instructions on the same block.\n
Parses the Fanuc Custom Macro B\nIF [<bool-expr>] THEN <body> single-block conditional\nphrase out of Parsing.FanucIfThen sub-object. Sibling to\nIF [...] GOTO <n> handled there,\nIF [...] THEN <stmt> handled here) so each form is matched\nphrase-level rather than composed from a generic IF combinator.
\nBody shape. The body after THEN is conceptually a single\nstatement that affects the current block only — no jump, no label scan.\nAlmost always a Custom Macro B assignment (#nnn = <expr>);\nmultiple assignments in the same body\n(#100 = 5. #101 = #100 + 1) are also accepted. The parsing\nsyntax pre-extracts these via\nParsing.FanucIfThen.PendingAssignments as {tag: rhs-string}\nentries — that shape lets Parsing.Assignments only when the gate\ncondition fires (so unfired bodies leave no trace in the readers).\n
\nPipeline placement. This syntax must run before\n^IF[..]GOTO n$) is anchored, but consuming IF-THEN here first\nkeeps the two phrases textually disjoint and avoids any future\nregression if either regex is loosened. Also placed before\nIF [...] THEN #100 = 5. is not first half-eaten as a plain\nassignment.\n
\nRaw FanucIfThen--UnsupportedBody) if no PendingAssignments were\nproduced on a truthy condition.\n
Detects a Fanuc-family program identifier header — O1234 or\n<O1234> — that follows a
Syntax of fully Match flag.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcParsers.ParsingSyntaxs.FloatTagValueSyntax.yml", "output": { ".html": { "relative_path": "api/Hi.NcParsers.ParsingSyntaxs.FloatTagValueSyntax.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcParsers.ParsingSyntaxs.FloatTagValueSyntax", "Summary": "Parses a leading block index (e.g. Heidenhain line numbers) after an optional
Heidenhain syntax of
CYCL DEF 247 DATUM SETTINGHeidenhain syntax of
CYCL DEF 7 DATUM SHIFTSyntax for Heidenhain BLK FORM command (workpiece blank definition).
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcParsers.ParsingSyntaxs.Heidenhain.HeidenhainCallSyntax.yml", "output": { ".html": { "relative_path": "api/Hi.NcParsers.ParsingSyntaxs.Heidenhain.HeidenhainCallSyntax.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcParsers.ParsingSyntaxs.Heidenhain.HeidenhainCallSyntax", "Summary": "Syntax for Heidenhain CALL commands (CALL PGM and CALL LBL).
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcParsers.ParsingSyntaxs.Heidenhain.HeidenhainCyclDefSyntax.yml", "output": { ".html": { "relative_path": "api/Hi.NcParsers.ParsingSyntaxs.Heidenhain.HeidenhainCyclDefSyntax.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcParsers.ParsingSyntaxs.Heidenhain.HeidenhainCyclDefSyntax", "Summary": "Initialization Syntax of Heidenhain fixed head block for
CYCL DEFHeidenhain FN variable assignment syntax.\nExtends
Heidenhain linear movement (the leading L) syntax. Strips the leading\nL and grabs axis-tag values for any of\n{axis}{signed-value} pairs; values are\nparsed as floats via
Syntax for Heidenhain LBL command (label definition).\nLabel can be a number (1-65535) or a text name (e.g., “MyLabel”).\nLBL 0 is reserved for end of subprogram.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcParsers.ParsingSyntaxs.Heidenhain.HeidenhainPlaneSyntax.yml", "output": { ".html": { "relative_path": "api/Hi.NcParsers.ParsingSyntaxs.Heidenhain.HeidenhainPlaneSyntax.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcParsers.ParsingSyntaxs.Heidenhain.HeidenhainPlaneSyntax", "Summary": "Syntax for Heidenhain PLANE command.\nHandles:
\nSyntax for Heidenhain BEGIN PGM and END PGM commands.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcParsers.ParsingSyntaxs.Heidenhain.HeidenhainToolCallSyntax.yml", "output": { ".html": { "relative_path": "api/Hi.NcParsers.ParsingSyntaxs.Heidenhain.HeidenhainToolCallSyntax.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcParsers.ParsingSyntaxs.Heidenhain.HeidenhainToolCallSyntax", "Summary": "Syntax for Heidenhain TOOL CALL command.\nHandles: TOOL CALL [ToolId|“ToolName”] [X|Y|Z] [S…] [DL…] [DR…]
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcParsers.ParsingSyntaxs.Heidenhain.yml", "output": { ".html": { "relative_path": "api/Hi.NcParsers.ParsingSyntaxs.Heidenhain.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcParsers.ParsingSyntaxs.Heidenhain", "Summary": null }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcParsers.ParsingSyntaxs.IntegerTagValueSyntax.yml", "output": { ".html": { "relative_path": "api/Hi.NcParsers.ParsingSyntaxs.IntegerTagValueSyntax.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcParsers.ParsingSyntaxs.IntegerTagValueSyntax", "Summary": "Assignment syntax for named (identifier-style) variables with = sign.\nHandles variables that are multi-character identifiers\nrather than {prefix}{digits}.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcParsers.ParsingSyntaxs.NumberedFlagSyntax.yml", "output": { ".html": { "relative_path": "api/Hi.NcParsers.ParsingSyntaxs.NumberedFlagSyntax.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcParsers.ParsingSyntaxs.NumberedFlagSyntax", "Summary": "Syntax for numbered flags (prefix + number) with optional decimal support.\n
\nSingle-digit integer codes are zero-padded to canonical 2-digit form\n(e.g. M6 → M06, G0 → G00, M3 → M03)\nso that downstream logic syntaxes comparing against\n
Syntax for flags with attached parameters (e.g., G54.1P1, G10L2P1).\nThis is essentially a combination of main flag matching (like
Applies the “conventional type” decimal-point interpretation to coordinate\nvalues in Y20), it is shrunk by\nthe implied decimal places: Y20 → Y0.020 (3 decimal places).\nValues that already contain a decimal point are left unchanged.
\nPlace inside
Assignment syntax with = sign.\nUnlike
Concatenated tag-value syntax (no = sign).\nex.\nHeidenhain: L X Q2 Y33.4 FQ1\nISO: X100.3Y3.3
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcParsers.ParsingSyntaxs.TapeBoundarySyntax.yml", "output": { ".html": { "relative_path": "api/Hi.NcParsers.ParsingSyntaxs.TapeBoundarySyntax.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcParsers.ParsingSyntaxs.TapeBoundarySyntax", "Summary": "Detects the % tape leader / trailer at the start of a block\nand records it under O1234) is a\nseparate concern handled by its own brand-specific syntax.
Per-block modal-section carry. For each key in
\nA JSON section is a candidate for
MotionState; the call/return pair own\n SubProgramCall-derived state).Vars.Local dict-merge — carry only when\n MacroFrame matches) belong in the owning syntax's own\n carry logic, not here.node.Previous read, or no carry\nat all if absence is meaningful — e.g. MacroFrame absent = main\nframe).\n\n\nThis replaces the earlier CacheSyntax design (which sampled\nevery Pace blocks). The legacy CacheSyntax XName is still\nrecognised on load for backward compatibility with previously-saved\nproject files.\n
Resolves cutter radius compensation (G41/G42/G40) by offsetting the\ntool path perpendicular to the programmed direction.
\n\nMust be placed after motion syntaxes (
\nFor simple cases (line-line, no transient), the syntax overwrites\nMachineCoordinate with the offset position. For arc blocks\nthat need transient bridging segments, the Motion section is\nreplaced with a
Heidenhain NC block builder.\nAlso support single line NC block.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcParsers.Segmenters.ISegmenter.yml", "output": { ".html": { "relative_path": "api/Hi.NcParsers.Segmenters.ISegmenter.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcParsers.Segmenters.ISegmenter", "Summary": "Interface to segment
Segments NC lines by an inline delimiter (e.g. ';').\nA line containing the delimiter produces multiple
Maps each physical source line to one
Resolves
\nThe CL (cutter location) endpoints are derived from MC endpoints via\nforward kinematics, then interpolated linearly. The MC path is\nnon-linear because the tool orientation changes during the move.\n
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcParsers.Semantics.CompoundMotionSemantic.yml", "output": { ".html": { "relative_path": "api/Hi.NcParsers.Semantics.CompoundMotionSemantic.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcParsers.Semantics.CompoundMotionSemantic", "Summary": "Resolves
Resolves the
Resolves
Resolves
Base class for resolving
\nAlso supports an external script dictionary via
Resolves
Read MachineCoordinate from
Resolves
Resolves
\nDiscriminates by checking whether rotary axis values (A/B/C) are present\nin
d = √(ΔX² + ΔY² + ΔZ² + ΔA_deg² + ΔB_deg² + ΔC_deg²)Resolves
Reports a diagnostic error when
Resolves
A small NC block for one or several lines.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcParsers.SoftNcRunner.yml", "output": { ".html": { "relative_path": "api/Hi.NcParsers.SoftNcRunner.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcParsers.SoftNcRunner", "Summary": "Configurable NC Runner.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcParsers.SoftNcUtil.yml", "output": { ".html": { "relative_path": "api/Hi.NcParsers.SoftNcUtil.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcParsers.SoftNcUtil", "Summary": "JSON helpers for soft-NC blocks: vectors under
Depth-First Sequential Syntaxes management.\nIt saves space by save the LazyLinkedLists from each syntax to only one LazyLinkedLists in
Pre-built
Generic/ISO standard syntax kit. Involve G code.\nContains syntax definitions for common G codes used across multiple NC systems.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcParsers.Syntaxs.HeidenhainSyntaxUtil.yml", "output": { ".html": { "relative_path": "api/Hi.NcParsers.Syntaxs.HeidenhainSyntaxUtil.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcParsers.Syntaxs.HeidenhainSyntaxUtil", "Summary": "Pre-built parsing syntax fragments for Heidenhain-style programs (Q variables, FMAX/FAUTO, etc.).
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcParsers.Syntaxs.IExpandingNcSyntax.yml", "output": { ".html": { "relative_path": "api/Hi.NcParsers.Syntaxs.IExpandingNcSyntax.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcParsers.Syntaxs.IExpandingNcSyntax", "Summary": "Expanding syntax: transforms one
Base interface for syntax-level data transformation on\n
In-situ syntax: mutates the
Mazak-specific NC syntax utilities.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcParsers.Syntaxs.NcSyntaxUtil.yml", "output": { ".html": { "relative_path": "api/Hi.NcParsers.Syntaxs.NcSyntaxUtil.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcParsers.Syntaxs.NcSyntaxUtil", "Summary": "JSON serialization settings and grab/set helpers for NC block
Pre-built parsing syntax fragments for Siemens-style programs (R parameters, TRAORI, etc.).
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcParsers.Syntaxs.SyntaxPiece.yml", "output": { ".html": { "relative_path": "api/Hi.NcParsers.Syntaxs.SyntaxPiece.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcParsers.Syntaxs.SyntaxPiece", "Summary": "One NC block's source line paired with its parsed JSON payload during soft-NC processing.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcParsers.Syntaxs.SyntaxStageKeys.yml", "output": { ".html": { "relative_path": "api/Hi.NcParsers.Syntaxs.SyntaxStageKeys.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcParsers.Syntaxs.SyntaxStageKeys", "Summary": "Shared JSON key constants written by post-Logic and Inspection stage\nsyntaxes. Central registry so the string literals do not drift across\nsyntax files; readers of cache dumps can reference these constants\ndirectly rather than hard-coding the raw strings.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcParsers.Syntaxs.SyntecSyntaxUtil.yml", "output": { ".html": { "relative_path": "api/Hi.NcParsers.Syntaxs.SyntecSyntaxUtil.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcParsers.Syntaxs.SyntecSyntaxUtil", "Summary": "Syntec-specific NC syntax utilities.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcParsers.Syntaxs.TagValue.yml", "output": { ".html": { "relative_path": "api/Hi.NcParsers.Syntaxs.TagValue.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcParsers.Syntaxs.TagValue", "Summary": null }, { "type": "ManagedReference", "source_relative_path": "api/Hi.NcParsers.Syntaxs.TransformationUtil.yml", "output": { ".html": { "relative_path": "api/Hi.NcParsers.Syntaxs.TransformationUtil.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.NcParsers.Syntaxs.TransformationUtil", "Summary": "Utilities for the {Source, Kind, Mat4d}; entries are composed in order\nwith pure matrix multiplication (
\n
Represents an action that sets the actual time for a machine step.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.Acts.ActClArc.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.Acts.ActClArc.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.Acts.ActClArc", "Summary": "Represents an arc movement action for cutter location.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.Acts.ActClDerivedMcXyzabcContour.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.Acts.ActClDerivedMcXyzabcContour.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.Acts.ActClDerivedMcXyzabcContour", "Summary": "Represents a combined linear movement in both cutter location and machine coordinates.\nThis class handles synchronized linear interpolation of tool position and orientation.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.Acts.ActClLinear.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.Acts.ActClLinear.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.Acts.ActClLinear", "Summary": "Represents a linear cutter location movement action.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.Acts.ActClStep.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.Acts.ActClStep.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.Acts.ActClStep", "Summary": "Represents a single cutter-location step with optional duration.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.Acts.ActClTeleport.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.Acts.ActClTeleport.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.Acts.ActClTeleport", "Summary": "Represents a teleport action for cutter location, allowing instant position change without movement.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.Acts.ActCooling.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.Acts.ActCooling.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.Acts.ActCooling", "Summary": "Represents a coolant state transition — the cutting-fluid delivery\nmode changes on the machine (from e.g.
Action that add data to the step.\nThe data is maybe from the sensor or computed, etc..
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.Acts.ActDelay.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.Acts.ActDelay.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.Acts.ActDelay", "Summary": "Represents a delay action in machining operations.\nThis class implements a simple time delay in the machining process.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.Acts.ActFeedrate.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.Acts.ActFeedrate.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.Acts.ActFeedrate", "Summary": "Represents a feedrate action for controlling the speed of machining operations.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.Acts.ActHiddenStateChanged.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.Acts.ActHiddenStateChanged.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.Acts.ActHiddenStateChanged", "Summary": "Represents an action that indicates a change in the hidden state of an object.\nThis action is typically skipped during normal processing.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.Acts.ActIntentionalSkip.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.Acts.ActIntentionalSkip.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.Acts.ActIntentionalSkip", "Summary": "Represents an action that is intentionally skipped during processing.\nUsed to explicitly mark operations that should be bypassed.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.Acts.ActLineBegin.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.Acts.ActLineBegin.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.Acts.ActLineBegin", "Summary": "Represents the beginning of a line act in numerical control operations.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.Acts.ActLineCsScript.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.Acts.ActLineCsScript.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.Acts.ActLineCsScript", "Summary": "Cs Script on one Line.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.Acts.ActLineEnd.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.Acts.ActLineEnd.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.Acts.ActLineEnd", "Summary": "Represents the end of a line act in numerical control operations.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.Acts.ActMcPolarLinearContour.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.Acts.ActMcPolarLinearContour.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.Acts.ActMcPolarLinearContour", "Summary": "Polar MCZ linear contour.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.Acts.ActMcXyzLinearContour.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.Acts.ActMcXyzLinearContour.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.Acts.ActMcXyzLinearContour", "Summary": "Action of Machine Coordinate XYZ contour by Machine Coordinate linear interpolation.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.Acts.ActMcXyzSpiralContour.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.Acts.ActMcXyzSpiralContour.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.Acts.ActMcXyzSpiralContour", "Summary": "Represents a spiral contour movement in machine XYZ coordinates.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.Acts.ActMcXyzStep.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.Acts.ActMcXyzStep.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.Acts.ActMcXyzStep", "Summary": "Action representing a machine coordinate XYZ step movement.\nThis class handles linear positioning in machine coordinates.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.Acts.ActMcXyzabcLinearContour.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.Acts.ActMcXyzabcLinearContour.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.Acts.ActMcXyzabcLinearContour", "Summary": "Action of Machine Coordinate XYZABC contour by Machine Coordinate orientable linear interpolation.\nThis class handles complex tool movements with both position and orientation control.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.Acts.ActMcXyzabcStep.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.Acts.ActMcXyzabcStep.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.Acts.ActMcXyzabcStep", "Summary": "Action of Machine coordinate XYCABC Step.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.Acts.ActRapid.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.Acts.ActRapid.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.Acts.ActRapid", "Summary": "Rapid feedrate.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.Acts.ActSpindleDirection.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.Acts.ActSpindleDirection.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.Acts.ActSpindleDirection", "Summary": "Represents an action that sets the spindle rotation direction.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.Acts.ActSpindleOrientation.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.Acts.ActSpindleOrientation.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.Acts.ActSpindleOrientation", "Summary": "Oriented spindle stop — commands the spindle to stop at a specific\nangular position. Used by G76 (fine boring) and G87 (back boring)\nto orient the tool before lateral shift.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.Acts.ActSpindleSpeed.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.Acts.ActSpindleSpeed.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.Acts.ActSpindleSpeed", "Summary": "Represents an act that controls the spindle speed in numerical control operations.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.Acts.ActToolingStep.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.Acts.ActToolingStep.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.Acts.ActToolingStep", "Summary": "Action of equiping the tool with machining step operation such as collision detection and volume removal.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.Acts.ActToolingTeleport.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.Acts.ActToolingTeleport.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.Acts.ActToolingTeleport", "Summary": "Action of Equiping the tool without machining step operation such as collision detection and volume removal.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.Acts.ActUnknownSkip.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.Acts.ActUnknownSkip.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.Acts.ActUnknownSkip", "Summary": "Represents an act that skips unknown operations in numerical control.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.Acts.ActUtil.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.Acts.ActUtil.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.Acts.ActUtil", "Summary": "Provides utility methods for numerical control actions.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.Acts.IAct.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.Acts.IAct.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.Acts.IAct", "Summary": "Action parsing from NC, CL, NC Steps and etc., for controlling the mechanism and the mechanism simulation process.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.Acts.IActClMove.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.Acts.IActClMove.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.Acts.IActClMove", "Summary": "Interface for actions that involve cutter location movement.\nThis interface defines the contract for tool path movements in machining operations.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.Acts.IActDuration.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.Acts.IActDuration.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.Acts.IActDuration", "Summary": "Interface for actions that have a specific duration.\nThis interface is used to define actions that take a measurable amount of time to complete.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.Acts.IActMachineStep.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.Acts.IActMachineStep.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.Acts.IActMachineStep", "Summary": null }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.Acts.IActMcXyzContour.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.Acts.IActMcXyzContour.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.Acts.IActMcXyzContour", "Summary": "Interface for actions that represent machine XYZ contours.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.Acts.IActMcXyzabcContour.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.Acts.IActMcXyzabcContour.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.Acts.IActMcXyzabcContour", "Summary": "Interface for actions that represent machine XYZABC contours.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.Acts.IActSkip.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.Acts.IActSkip.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.Acts.IActSkip", "Summary": "Interface for actions that should be skipped during normal processing.\nActs as a marker interface to identify actions that should not be executed.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.Acts.IActTooling.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.Acts.IActTooling.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.Acts.IActTooling", "Summary": "Represents a tooling action that changes or selects a tool.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.Acts.IWorkTimeAttrib.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.Acts.IWorkTimeAttrib.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.Acts.IWorkTimeAttrib", "Summary": "Interface for objects that provide both read and write access to work time.\nCombines the functionality of IWorkTimeGetter and IWorkTimeSetter.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.Acts.IWorkTimeGetter.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.Acts.IWorkTimeGetter.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.Acts.IWorkTimeGetter", "Summary": "Interface for objects that provide read-only access to work time.\nThis interface is part of the work time tracking system for machining operations.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.Acts.IWorkTimeSetter.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.Acts.IWorkTimeSetter.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.Acts.IWorkTimeSetter", "Summary": "Interface for objects that provide write-only access to work time.\nThis interface is used for components that need to update work time without reading it.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.Acts.StateActRunner.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.Acts.StateActRunner.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.Acts.StateActRunner", "Summary": "Manages the state of numerical control operations during runtime.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.Acts.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.Acts.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.Acts", "Summary": null }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.Args.OrthogonalPlaneFlag.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.Args.OrthogonalPlaneFlag.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.Args.OrthogonalPlaneFlag", "Summary": "Plane Selection Flag.\nFanuc Group02 flags.\nthe int value is the plane dir number.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.Args.PolarModeDirEnum.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.Args.PolarModeDirEnum.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.Args.PolarModeDirEnum", "Summary": "Polar coordinate interpolation mode direction.\nYA,ZB has not implemented yet.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.Args.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.Args.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.Args", "Summary": null }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.CncBrand.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.CncBrand.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.CncBrand", "Summary": "Represents different CNC controller brands supported by the system.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.CommentMark.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.CommentMark.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.CommentMark", "Summary": "Enumeration of different comment mark types used in NC code.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.CoolantMode.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.CoolantMode.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.CoolantMode", "Summary": "Cutting-fluid delivery mode parsed from typical NC coolant machine functions\n(e.g. M07 / M08 / M09). Values are consumed by higher-level machining simulation\nand thermal models that map each mode to convection and temperature assumptions.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.CoordinateInterpolationMode.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.CoordinateInterpolationMode.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.CoordinateInterpolationMode", "Summary": "Defines the coordinate interpolation mode for NC operations.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.FilePlayers.CsvRunner.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.FilePlayers.CsvRunner.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.FilePlayers.CsvRunner", "Summary": "Provides functionality for running and processing csv lines.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.FilePlayers.CsvRunnerConfig.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.FilePlayers.CsvRunnerConfig.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.FilePlayers.CsvRunnerConfig", "Summary": "Configuration class for CSV Runner.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.FilePlayers.HardNcRunner.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.FilePlayers.HardNcRunner.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.FilePlayers.HardNcRunner", "Summary": "Provides functionality for running and processing NC code lines.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.FilePlayers.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.FilePlayers.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.FilePlayers", "Summary": null }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.FlexDictionaryUtil.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.FlexDictionaryUtil.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.FlexDictionaryUtil", "Summary": "Utility for flexible dictionary operations.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.HardNcComment.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.HardNcComment.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.HardNcComment", "Summary": "Represents a comment in NC code.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.HardNcEnv.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.HardNcEnv.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.HardNcEnv", "Summary": "Represents the numerical control environment containing configuration for CNC operations.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.HardNcLine.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.HardNcLine.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.HardNcLine", "Summary": "Represents a line in the NC program with its associated data and operations.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.HardNcUtil.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.HardNcUtil.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.HardNcUtil", "Summary": "Utility class for working with NC code.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.HeidenhainCoordinateEntryDisplayee.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.HeidenhainCoordinateEntryDisplayee.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.HeidenhainCoordinateEntryDisplayee", "Summary": "Displayee for Heidenhain coordinate entry visualization.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.IControlRunner.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.IControlRunner.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.IControlRunner", "Summary": "Control Runner.\nThe term control is machine control.\nThe Control Line is such like the NC (Numerical Control) line.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.IFlexDictionaryHost-1.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.IFlexDictionaryHost-1.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.IFlexDictionaryHostInterface of
Interface for retrieving feedrate information.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.IGetSpindleSpeed.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.IGetSpindleSpeed.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.IGetSpindleSpeed", "Summary": "Interface for retrieving spindle speed and direction information.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.ISetFeedrate.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.ISetFeedrate.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.ISetFeedrate", "Summary": "Interface for setting feedrate information.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.ISetSpindleSpeed.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.ISetSpindleSpeed.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.ISetSpindleSpeed", "Summary": "Interface for setting spindle speed.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.IsoCoordinateEntryDisplayee.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.IsoCoordinateEntryDisplayee.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.IsoCoordinateEntryDisplayee", "Summary": "Displayee for ISO coordinate entry visualization.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.MachiningMotionResolutionUtils.FeedPerCycleMachiningMotionResolution.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.MachiningMotionResolutionUtils.FeedPerCycleMachiningMotionResolution.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.MachiningMotionResolutionUtils.FeedPerCycleMachiningMotionResolution", "Summary": "Automatic resolution by feed per spindle cycle.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.MachiningMotionResolutionUtils.FeedPerToothMachiningMotionResolution.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.MachiningMotionResolutionUtils.FeedPerToothMachiningMotionResolution.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.MachiningMotionResolutionUtils.FeedPerToothMachiningMotionResolution", "Summary": "Automatic resolution by feed per tooth.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.MachiningMotionResolutionUtils.FixedMachiningMotionResolution.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.MachiningMotionResolutionUtils.FixedMachiningMotionResolution.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.MachiningMotionResolutionUtils.FixedMachiningMotionResolution", "Summary": "Represents a fixed machining motion resolution with user-defined values.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.MachiningMotionResolutionUtils.IMachiningMotionResolution.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.MachiningMotionResolutionUtils.IMachiningMotionResolution.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.MachiningMotionResolutionUtils.IMachiningMotionResolution", "Summary": "Interface of Machining Cycle Resolution.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.MachiningMotionResolutionUtils.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.MachiningMotionResolutionUtils.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.MachiningMotionResolutionUtils", "Summary": null }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.MechNcUtil.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.MechNcUtil.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.MechNcUtil", "Summary": "NC Utility.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.MillingToolOffsetTable.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.MillingToolOffsetTable.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.MillingToolOffsetTable", "Summary": "Offset table for milling tool.\nThe key is Offset ID (H or D in NC code).
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.MillingToolOffsetTableRow.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.MillingToolOffsetTableRow.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.MillingToolOffsetTableRow", "Summary": "Raw of
Arc parameters for
Represents arguments for the G28 command (Return to Reference Point).
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.NcArgs.Group07NcArg.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.NcArgs.Group07NcArg.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.NcArgs.Group07NcArg", "Summary": "parameters of
NC Argument of NC Group09.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.NcArgs.HeidenhainCycleDef7Arg.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.NcArgs.HeidenhainCycleDef7Arg.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.NcArgs.HeidenhainCycleDef7Arg", "Summary": "Argument of Heidenhain CYCL DEF 7. Datum Shift.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.NcArgs.HeidenhainPlaneSpatialArg.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.NcArgs.HeidenhainPlaneSpatialArg.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.NcArgs.HeidenhainPlaneSpatialArg", "Summary": "Represents a Heidenhain spatial plane defined by rotation angles.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.NcArgs.IHeidenhainBlockCacheArg.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.NcArgs.IHeidenhainBlockCacheArg.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.NcArgs.IHeidenhainBlockCacheArg", "Summary": "Interface for Heidenhain block cache arguments.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.NcArgs.IHeidenhainPlaneArg.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.NcArgs.IHeidenhainPlaneArg.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.NcArgs.IHeidenhainPlaneArg", "Summary": "Interface for Heidenhain plane arguments.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.NcArgs.ITiltPlaneNcArg.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.NcArgs.ITiltPlaneNcArg.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.NcArgs.ITiltPlaneNcArg", "Summary": "Interface of Tilt plane NC Arg. i.e. Group16 and Heidenhain Plane argument.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.NcArgs.NcArgCycle800.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.NcArgs.NcArgCycle800.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.NcArgs.NcArgCycle800", "Summary": "Represents parameters for Siemens CYCLE800 (Plane Tilting / Swivel).
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.NcArgs.NcArgG68.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.NcArgs.NcArgG68.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.NcArgs.NcArgG68", "Summary": "Represents arguments for G68 coordinate rotation command.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.NcArgs.NcArgG68p2.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.NcArgs.NcArgG68p2.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.NcArgs.NcArgG68p2", "Summary": "Represents arguments for G68.2 three-dimensional coordinate conversion command.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.NcArgs.NcArgSiemensFrame.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.NcArgs.NcArgSiemensFrame.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.NcArgs.NcArgSiemensFrame", "Summary": "Represents Siemens frame transformation (AROT/ROT/TRANS/ATRANS).\nSimilar to Heidenhain PLANE SPATIAL or FANUC G68.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.NcArgs.PausingNcArg.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.NcArgs.PausingNcArg.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.NcArgs.PausingNcArg", "Summary": "Pausing, i.e. G04, parameters for
NC Flag.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.NcFlagUtil.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.NcFlagUtil.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.NcFlagUtil", "Summary": "Utility class for working with NC flags and their lifecycle modes.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.NcGroup00.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.NcGroup00.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.NcGroup00", "Summary": "NcGroup enum.\nGCode Group00.\nInclude
NcGroup enum.\nFor linear move mode: G00 or G01.\nG00 is rapid move.\nG01 is linear cut.\nG02 is CW cut; G03 is CCW cut.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.NcGroup02.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.NcGroup02.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.NcGroup02", "Summary": "NcGroup enum.\nPlane selection.\nInclude
NcGroup enum.\nAbsolute(G90) or increment(G91) coordinate.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.NcGroup05.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.NcGroup05.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.NcGroup05", "Summary": "NcGroup enum.\nFor feedrate.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.NcGroup06.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.NcGroup06.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.NcGroup06", "Summary": "NcGroup enum.\nGroup of unit.\nIn mm or in inch.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.NcGroup07.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.NcGroup07.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.NcGroup07", "Summary": "NcGroup enum.\nLeft or right compensation for tool radius, etc..\nSee
NcGroup enum.\nTool length compensation, etc..\n
NcGroup enum.\nCanned cycle.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.NcGroup10.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.NcGroup10.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.NcGroup10", "Summary": "NcGroup enum.\nCanned cycle return point.\n
NC Group 13 for constant surface speed control.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.NcGroup14.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.NcGroup14.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.NcGroup14", "Summary": "NcGroup enum.\nCoordinate system. Such as
NcGroup enum.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.NcGroup16.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.NcGroup16.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.NcGroup16", "Summary": "NcGroup enum.\nRotation plane related.\nInterface of get transformation.\nHeidenhain equivalent group is
NcGroup enum.\nPolar coordinate interpolation mode.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.NcGroupAttribute.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.NcGroupAttribute.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.NcGroupAttribute", "Summary": "NC Group Attribute.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.NcGroupHeidenhainM107M108.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.NcGroupHeidenhainM107M108.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.NcGroupHeidenhainM107M108", "Summary": "NcGroup enum.\nHeidenhain group.\nEnable or disable Suppress error message for replacement tools with oversize.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.NcGroupHeidenhainPlane.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.NcGroupHeidenhainPlane.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.NcGroupHeidenhainPlane", "Summary": "Heidenhain Group Plane related.\nISO equivalent group is
NcGroup enum.\nHeidenhain group.\nshortest rotary state.\n
NcGroup enum.\nSpindle rotation control.\nSee
Attribute to specify the lifecycle mode of an NC flag.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.NcLifeCycleMode.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.NcLifeCycleMode.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.NcLifeCycleMode", "Summary": "Defines the lifecycle mode of NC commands.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.NcNameAttribute.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.NcNameAttribute.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.NcNameAttribute", "Summary": "Attribute used to define a name for NC flags and other enumeration fields.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.NcNoteCache.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.NcNoteCache.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.NcNoteCache", "Summary": "Cache for notes and warnings generated during NC line parsing.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.NcProc.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.NcProc.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.NcProc", "Summary": "Provides processing utilities for NC programming.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.NcWarningSceneEnum.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.NcWarningSceneEnum.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.NcWarningSceneEnum", "Summary": "Defines scene types for NC warnings.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.NumericUtil.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.NumericUtil.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.NumericUtil", "Summary": "Utility class for numeric operations and unit conversions.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.PolarEntry.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.PolarEntry.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.PolarEntry", "Summary": "The class for G12.1 Polar mode.\nIn G12.1 Polar mode, NC code applies (X,C) as (linear axis, hypothetical axis).\nXC, YA, ZB are available.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.RadiusCompensationBuf.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.RadiusCompensationBuf.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.RadiusCompensationBuf", "Summary": "Buffer for radius compensation (G41/G42) operations in numerical control.
\n\nAt each line junction, the offset paths of adjacent lines may form an intersection\n(intersected rays) or align directly (parallel rays). For straight lines, the tool\ngoes to the intersection point. For arcs, the offset curve doesn't pass through the\nintersection, so transient points bridge the gap:\nArc → TransientEnd → (linear) → Intersection → (linear) → TransientBegin → NextArc.\n
\nTransient properties are null when rays are parallel (offset paths align, no corner needed)\nor when the adjacent line is not an arc.\n
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.SourcedActEntry.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.SourcedActEntry.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.SourcedActEntry", "Summary": "Represents an entry containing a source command and its associated act.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.SpindleDirection.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.SpindleDirection.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.SpindleDirection", "Summary": "Enumeration of spindle rotation directions.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.StepSelectionUtils.AnchorMode.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.StepSelectionUtils.AnchorMode.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.StepSelectionUtils.AnchorMode", "Summary": "Defines the mode for anchoring boundaries when selecting steps.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.StepSelectionUtils.BoundSelector.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.StepSelectionUtils.BoundSelector.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.StepSelectionUtils.BoundSelector", "Summary": "Mark on source command line for managing step.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.StepSelectionUtils.BoundSelectorHost.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.StepSelectionUtils.BoundSelectorHost.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.StepSelectionUtils.BoundSelectorHost", "Summary": "Hosts bound selectors and manages step sections within a CL strip.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.StepSelectionUtils.BoundSelectorPair.BoundLocale.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.StepSelectionUtils.BoundSelectorPair.BoundLocale.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.StepSelectionUtils.BoundSelectorPair.BoundLocale", "Summary": "Defines the location of a bound within the pair.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.StepSelectionUtils.BoundSelectorPair.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.StepSelectionUtils.BoundSelectorPair.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.StepSelectionUtils.BoundSelectorPair", "Summary": "Represents a pair of bound selectors defining the beginning and end of a step section.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.StepSelectionUtils.BoundSelectorStepSectionBundle.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.StepSelectionUtils.BoundSelectorStepSectionBundle.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.StepSelectionUtils.BoundSelectorStepSectionBundle", "Summary": "Represents a bundle containing a boundary selector pair and the corresponding step section range.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.StepSelectionUtils.BoundSelectorUtil.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.StepSelectionUtils.BoundSelectorUtil.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.StepSelectionUtils.BoundSelectorUtil", "Summary": "Utility class for selecting steps within boundaries in a CL strip.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.StepSelectionUtils.DistanceShift.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.StepSelectionUtils.DistanceShift.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.StepSelectionUtils.DistanceShift", "Summary": "A step shift implementation that shifts based on distance along the tool path.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.StepSelectionUtils.IStepShift.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.StepSelectionUtils.IStepShift.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.StepSelectionUtils.IStepShift", "Summary": "Interface for defining step shift behavior.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.StepSelectionUtils.TimeShift.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.StepSelectionUtils.TimeShift.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.StepSelectionUtils.TimeShift", "Summary": "Represents a time-based shift operation for machining steps.\nThis class provides functionality to shift step indices based on time offsets.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.StepSelectionUtils.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.StepSelectionUtils.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.StepSelectionUtils", "Summary": null }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.SubStringKit.ActivationMode.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.SubStringKit.ActivationMode.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.SubStringKit.ActivationMode", "Summary": "Defines the mode of activation for substring extraction.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.SubStringKit.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.SubStringKit.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.SubStringKit", "Summary": "Utility class for extracting and manipulating substrings based on specific activation patterns.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.ToolConfigNotFoundException.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.ToolConfigNotFoundException.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.ToolConfigNotFoundException", "Summary": "Exception thrown when a tool configuration cannot be found.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.Xyzabc.Abc.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.Xyzabc.Abc.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.Xyzabc.Abc", "Summary": "Represents a three-axis rotational configuration in ABC coordinates.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.Xyzabc.CodeXyzabcChain.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.Xyzabc.CodeXyzabcChain.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.Xyzabc.CodeXyzabcChain", "Summary": "Represents a general XYZABC chain that can be constructed from a general mechanism.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.Xyzabc.IGetMcXyzabc.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.Xyzabc.IGetMcXyzabc.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.Xyzabc.IGetMcXyzabc", "Summary": "Interface of
Interface of get
Device for UniNc controller.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.Xyzabc.ISetMcXyzabc.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.Xyzabc.ISetMcXyzabc.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.Xyzabc.ISetMcXyzabc", "Summary": "Abstraction for components that accept a full machine-coordinate pose (XYZ linear + ABC rotary).
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.Xyzabc.IXyzabcChain.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.Xyzabc.IXyzabcChain.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.Xyzabc.IXyzabcChain", "Summary": "A single chain contains subset transformers of {X,Y,Z,A,B,C} .
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.Xyzabc.ReflectedXyzabcChain.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.Xyzabc.ReflectedXyzabcChain.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.Xyzabc.ReflectedXyzabcChain", "Summary": "Cloned
Support to two-way conversion between MC (machine coordinate) and NP (Normal and Point).
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.Xyzabc.XyzabcUtil.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.Xyzabc.XyzabcUtil.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.Xyzabc.XyzabcUtil", "Summary": "Utility of XYZABC device.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.Xyzabc.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.Xyzabc.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical.Xyzabc", "Summary": null }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Numerical.yml", "output": { ".html": { "relative_path": "api/Hi.Numerical.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Numerical", "Summary": null }, { "type": "ManagedReference", "source_relative_path": "api/Hi.PanelModels.HiKey.yml", "output": { ".html": { "relative_path": "api/Hi.PanelModels.HiKey.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.PanelModels.HiKey", "Summary": "The definition is the same as WPF Key.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.PanelModels.HiKeyEvent.yml", "output": { ".html": { "relative_path": "api/Hi.PanelModels.HiKeyEvent.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.PanelModels.HiKeyEvent", "Summary": "Cross platform key event.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.PanelModels.HiModifierKeys.yml", "output": { ".html": { "relative_path": "api/Hi.PanelModels.HiModifierKeys.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.PanelModels.HiModifierKeys", "Summary": "The definition is the same as WPF ModifierKeys.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.PanelModels.HiMouseButton.yml", "output": { ".html": { "relative_path": "api/Hi.PanelModels.HiMouseButton.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.PanelModels.HiMouseButton", "Summary": "The definition is the same as WPF MouseButton
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.PanelModels.HiMouseButtonEvent.yml", "output": { ".html": { "relative_path": "api/Hi.PanelModels.HiMouseButtonEvent.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.PanelModels.HiMouseButtonEvent", "Summary": "Mouse button event for cross-platform.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.PanelModels.HiMouseButtonMask.yml", "output": { ".html": { "relative_path": "api/Hi.PanelModels.HiMouseButtonMask.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.PanelModels.HiMouseButtonMask", "Summary": "Bit Mask of
Utility of
Mouse event for cross-platform.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.PanelModels.HiMouseWheelEvent.yml", "output": { ".html": { "relative_path": "api/Hi.PanelModels.HiMouseWheelEvent.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.PanelModels.HiMouseWheelEvent", "Summary": "Mouse wheel event for cross-platform.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.PanelModels.PanelModel.yml", "output": { ".html": { "relative_path": "api/Hi.PanelModels.PanelModel.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.PanelModels.PanelModel", "Summary": "A panel model contains necessary data for manipulating a panel.\nIt is platform-neutral.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.PanelModels.yml", "output": { ".html": { "relative_path": "api/Hi.PanelModels.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.PanelModels", "Summary": null }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Parallels.CurrentThreadTaskScheduler.yml", "output": { ".html": { "relative_path": "api/Hi.Parallels.CurrentThreadTaskScheduler.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Parallels.CurrentThreadTaskScheduler", "Summary": "A task scheduler that executes tasks on the current thread.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Parallels.DistributedQueueTaskScheduler.yml", "output": { ".html": { "relative_path": "api/Hi.Parallels.DistributedQueueTaskScheduler.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Parallels.DistributedQueueTaskScheduler", "Summary": "A task scheduler that distributes tasks across multiple threads or processes.\nAllows for controlled execution of tasks with a specified maximum concurrency level.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Parallels.DistributedQueueTaskStarter.yml", "output": { ".html": { "relative_path": "api/Hi.Parallels.DistributedQueueTaskStarter.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Parallels.DistributedQueueTaskStarter", "Summary": "A class that manages and starts a collection of actions in parallel.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Parallels.LockUtil.yml", "output": { ".html": { "relative_path": "api/Hi.Parallels.LockUtil.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Parallels.LockUtil", "Summary": "Utility class for object locking operations.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Parallels.PriorityTaskScheduler.yml", "output": { ".html": { "relative_path": "api/Hi.Parallels.PriorityTaskScheduler.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Parallels.PriorityTaskScheduler", "Summary": "A task scheduler that executes tasks with a specified thread priority.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Parallels.QueueTaskScheduler.yml", "output": { ".html": { "relative_path": "api/Hi.Parallels.QueueTaskScheduler.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Parallels.QueueTaskScheduler", "Summary": "A task scheduler that queues tasks and executes them in a controlled manner.\nLimits the number of concurrent tasks and provides mechanisms for waiting for all tasks to complete.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Parallels.ReaderWriterLockUtil.yml", "output": { ".html": { "relative_path": "api/Hi.Parallels.ReaderWriterLockUtil.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Parallels.ReaderWriterLockUtil", "Summary": "Utility class for reader-writer lock operations.\nProvides extension methods for
Utility class for semaphore operations.\nProvides extension methods for
A thread-safe implementation of a set data structure.\nUses a reader-writer lock to synchronize access to the underlying HashSet.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Parallels.yml", "output": { ".html": { "relative_path": "api/Hi.Parallels.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Parallels", "Summary": null }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Physics.AmpPhase.yml", "output": { ".html": { "relative_path": "api/Hi.Physics.AmpPhase.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Physics.AmpPhase", "Summary": "Represents amplitude and phase information for wave-like phenomena.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Physics.CoatingMaterial.yml", "output": { ".html": { "relative_path": "api/Hi.Physics.CoatingMaterial.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Physics.CoatingMaterial", "Summary": "Represents a coating material used in cutting tools.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Physics.CoolantHeatCondition.yml", "output": { ".html": { "relative_path": "api/Hi.Physics.CoolantHeatCondition.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Physics.CoolantHeatCondition", "Summary": "Represents the heat condition parameters for coolant in machining operations.\nProvides effective convection-coefficient lookups keyed by\n
Represents a cutter material with physical and thermal properties.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Physics.IGetThermalLayerList.yml", "output": { ".html": { "relative_path": "api/Hi.Physics.IGetThermalLayerList.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Physics.IGetThermalLayerList", "Summary": "Interface for objects that can provide a list of thermal layers.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Physics.IStructureMaterial.yml", "output": { ".html": { "relative_path": "api/Hi.Physics.IStructureMaterial.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Physics.IStructureMaterial", "Summary": "Interface for structure materials with thermal properties.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Physics.ISuccessivePhysicsBriefAccessor.yml", "output": { ".html": { "relative_path": "api/Hi.Physics.ISuccessivePhysicsBriefAccessor.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Physics.ISuccessivePhysicsBriefAccessor", "Summary": "Interface for accessing sequential physics brief information.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Physics.ISurfaceMaterial.yml", "output": { ".html": { "relative_path": "api/Hi.Physics.ISurfaceMaterial.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Physics.ISurfaceMaterial", "Summary": "Interface for materials that can be used on surfaces.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Physics.ITimeGetter.yml", "output": { ".html": { "relative_path": "api/Hi.Physics.ITimeGetter.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Physics.ITimeGetter", "Summary": "Interface for objects that provide time information.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Physics.MillingTemperatureUtil.yml", "output": { ".html": { "relative_path": "api/Hi.Physics.MillingTemperatureUtil.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Physics.MillingTemperatureUtil", "Summary": "Utility class for calculating and managing temperatures during milling operations.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Physics.SeqPhysicsBrief.yml", "output": { ".html": { "relative_path": "api/Hi.Physics.SeqPhysicsBrief.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Physics.SeqPhysicsBrief", "Summary": "Represents a brief summary of physical properties and measurements during a machining sequence.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Physics.StructureMaterial.yml", "output": { ".html": { "relative_path": "api/Hi.Physics.StructureMaterial.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Physics.StructureMaterial", "Summary": "Represents a material with physical and thermal properties used in structural analysis.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Physics.TemperatureUtil.yml", "output": { ".html": { "relative_path": "api/Hi.Physics.TemperatureUtil.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Physics.TemperatureUtil", "Summary": "Utility class for temperature conversions.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Physics.TemperatureVsHardness.yml", "output": { ".html": { "relative_path": "api/Hi.Physics.TemperatureVsHardness.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Physics.TemperatureVsHardness", "Summary": "Represents the relationship between temperature and hardness for materials.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Physics.ThermalLayer1D.yml", "output": { ".html": { "relative_path": "api/Hi.Physics.ThermalLayer1D.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Physics.ThermalLayer1D", "Summary": "Represents a one-dimensional thermal layer for heat transfer calculations.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Physics.TimeSeriesUtil.yml", "output": { ".html": { "relative_path": "api/Hi.Physics.TimeSeriesUtil.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Physics.TimeSeriesUtil", "Summary": "Utility class for time series data operations.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Physics.TimeValue.yml", "output": { ".html": { "relative_path": "api/Hi.Physics.TimeValue.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Physics.TimeValue", "Summary": "Represents a value associated with a specific point in time.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Physics.WorkpieceMaterial.yml", "output": { ".html": { "relative_path": "api/Hi.Physics.WorkpieceMaterial.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Physics.WorkpieceMaterial", "Summary": "Represents the physical and mechanical properties of a workpiece material.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Physics.yml", "output": { ".html": { "relative_path": "api/Hi.Physics.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Physics", "Summary": null }, { "type": "ManagedReference", "source_relative_path": "api/Hi.SessionCommands.EnablingWrapper.yml", "output": { ".html": { "relative_path": "api/Hi.SessionCommands.EnablingWrapper.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.SessionCommands.EnablingWrapper", "Summary": "Wrapper for session commands that provides enable/disable functionality.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.SessionCommands.GeomDiffCommand.yml", "output": { ".html": { "relative_path": "api/Hi.SessionCommands.GeomDiffCommand.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.SessionCommands.GeomDiffCommand", "Summary": "Command for calculating geometric differences between workpieces.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.SessionCommands.ISessionCommand.yml", "output": { ".html": { "relative_path": "api/Hi.SessionCommands.ISessionCommand.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.SessionCommands.ISessionCommand", "Summary": "Interface for commands that can be executed in a machining session.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.SessionCommands.ITitleCommand.yml", "output": { ".html": { "relative_path": "api/Hi.SessionCommands.ITitleCommand.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.SessionCommands.ITitleCommand", "Summary": "Language package class for command flow.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.SessionCommands.ListCommand.yml", "output": { ".html": { "relative_path": "api/Hi.SessionCommands.ListCommand.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.SessionCommands.ListCommand", "Summary": "A command that contains and executes a list of other commands.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.SessionCommands.MachiningMotionResolutionCommand.yml", "output": { ".html": { "relative_path": "api/Hi.SessionCommands.MachiningMotionResolutionCommand.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.SessionCommands.MachiningMotionResolutionCommand", "Summary": "Command for setting machining motion resolution for the milling process.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.SessionCommands.NcCodeCommand.yml", "output": { ".html": { "relative_path": "api/Hi.SessionCommands.NcCodeCommand.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.SessionCommands.NcCodeCommand", "Summary": "Command for executing NC code directly.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.SessionCommands.NcFileCommand.yml", "output": { ".html": { "relative_path": "api/Hi.SessionCommands.NcFileCommand.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.SessionCommands.NcFileCommand", "Summary": "Command for executing NC code from a file.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.SessionCommands.NcFileListCommand.yml", "output": { ".html": { "relative_path": "api/Hi.SessionCommands.NcFileListCommand.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.SessionCommands.NcFileListCommand", "Summary": "Command for executing multiple NC files sequentially.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.SessionCommands.NcOptOptionCommand.yml", "output": { ".html": { "relative_path": "api/Hi.SessionCommands.NcOptOptionCommand.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.SessionCommands.NcOptOptionCommand", "Summary": "Command for NC optimization options.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.SessionCommands.OptimizeToFilesCommand.yml", "output": { ".html": { "relative_path": "api/Hi.SessionCommands.OptimizeToFilesCommand.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.SessionCommands.OptimizeToFilesCommand", "Summary": "Command to call
Command for post-execution actions after NC command running.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.SessionCommands.PreSettingCommand.yml", "output": { ".html": { "relative_path": "api/Hi.SessionCommands.PreSettingCommand.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.SessionCommands.PreSettingCommand", "Summary": "Command for pre-settings before NC command running.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.SessionCommands.RecordRuntimeGeomActionEnum.yml", "output": { ".html": { "relative_path": "api/Hi.SessionCommands.RecordRuntimeGeomActionEnum.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.SessionCommands.RecordRuntimeGeomActionEnum", "Summary": "Action of the
Command for recording runtime geometry to/from file.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.SessionCommands.ScriptCommand.yml", "output": { ".html": { "relative_path": "api/Hi.SessionCommands.ScriptCommand.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.SessionCommands.ScriptCommand", "Summary": "Command for executing C# scripts in the milling process.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.SessionCommands.SimpleSessionCommand.yml", "output": { ".html": { "relative_path": "api/Hi.SessionCommands.SimpleSessionCommand.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.SessionCommands.SimpleSessionCommand", "Summary": "Simple session command for executing machining operations.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.SessionCommands.WriteRuntimeGeomToStlCommand.yml", "output": { ".html": { "relative_path": "api/Hi.SessionCommands.WriteRuntimeGeomToStlCommand.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.SessionCommands.WriteRuntimeGeomToStlCommand", "Summary": "Command to call
Command to call
Command to call
Interface for C# scripting API functionality.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.SessionShellUtils.JsAceAttribute.yml", "output": { ".html": { "relative_path": "api/Hi.SessionShellUtils.JsAceAttribute.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.SessionShellUtils.JsAceAttribute", "Summary": "Attribute for JavaScript Ace editor integration.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.SessionShellUtils.yml", "output": { ".html": { "relative_path": "api/Hi.SessionShellUtils.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.SessionShellUtils", "Summary": null }, { "type": "ManagedReference", "source_relative_path": "api/Hi.SqliteUtils.SqliteIdentityRole.yml", "output": { ".html": { "relative_path": "api/Hi.SqliteUtils.SqliteIdentityRole.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.SqliteUtils.SqliteIdentityRole", "Summary": "Base class for SQLite-based identity roles.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.SqliteUtils.SqliteIdentityStorage.RoleRow.yml", "output": { ".html": { "relative_path": "api/Hi.SqliteUtils.SqliteIdentityStorage.RoleRow.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.SqliteUtils.SqliteIdentityStorage.RoleRow", "Summary": "Represents a role row in the database.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.SqliteUtils.SqliteIdentityStorage.UserRow.yml", "output": { ".html": { "relative_path": "api/Hi.SqliteUtils.SqliteIdentityStorage.UserRow.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.SqliteUtils.SqliteIdentityStorage.UserRow", "Summary": "Represents a user row in the database.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.SqliteUtils.SqliteIdentityStorage.yml", "output": { ".html": { "relative_path": "api/Hi.SqliteUtils.SqliteIdentityStorage.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.SqliteUtils.SqliteIdentityStorage", "Summary": "SQLite-based storage for ASP.NET Core Identity.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.SqliteUtils.SqliteIdentityUser.yml", "output": { ".html": { "relative_path": "api/Hi.SqliteUtils.SqliteIdentityUser.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.SqliteUtils.SqliteIdentityUser", "Summary": "Base class for SQLite-based identity users.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.SqliteUtils.SqliteRoleStore-1.yml", "output": { ".html": { "relative_path": "api/Hi.SqliteUtils.SqliteRoleStore-1.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.SqliteUtils.SqliteRoleStoreSQLite-based role store for ASP.NET Core Identity.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.SqliteUtils.SqliteStepStorage.MillingStepLuggageRow.yml", "output": { ".html": { "relative_path": "api/Hi.SqliteUtils.SqliteStepStorage.MillingStepLuggageRow.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.SqliteUtils.SqliteStepStorage.MillingStepLuggageRow", "Summary": "Represents a milling step luggage row in the database.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.SqliteUtils.SqliteStepStorage.yml", "output": { ".html": { "relative_path": "api/Hi.SqliteUtils.SqliteStepStorage.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.SqliteUtils.SqliteStepStorage", "Summary": "SQLite-based storage for milling step data.\nMillingStepLuggage data.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.SqliteUtils.SqliteUserStore-1.yml", "output": { ".html": { "relative_path": "api/Hi.SqliteUtils.SqliteUserStore-1.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.SqliteUtils.SqliteUserStoreSQLite-based user store for ASP.NET Core Identity.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.SqliteUtils.yml", "output": { ".html": { "relative_path": "api/Hi.SqliteUtils.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.SqliteUtils", "Summary": null }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Test.TestCollision.yml", "output": { ".html": { "relative_path": "api/Hi.Test.TestCollision.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Test.TestCollision", "Summary": "For internal.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Test.yml", "output": { ".html": { "relative_path": "api/Hi.Test.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Test", "Summary": null }, { "type": "ManagedReference", "source_relative_path": "api/Hi.UiExtensions.ChartBoundary.yml", "output": { ".html": { "relative_path": "api/Hi.UiExtensions.ChartBoundary.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.UiExtensions.ChartBoundary", "Summary": "Boundary of Chart
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.UiExtensions.ChartBoundaryEnum.yml", "output": { ".html": { "relative_path": "api/Hi.UiExtensions.ChartBoundaryEnum.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.UiExtensions.ChartBoundaryEnum", "Summary": "Enum control
Enumeration representing visibility states for UI elements.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.UiExtensions.UiUtil.InvokeFunc.yml", "output": { ".html": { "relative_path": "api/Hi.UiExtensions.UiUtil.InvokeFunc.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.UiExtensions.UiUtil.InvokeFunc", "Summary": "Delegate for invoking methods asynchronously or synchronously.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.UiExtensions.UiUtil.yml", "output": { ".html": { "relative_path": "api/Hi.UiExtensions.UiUtil.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.UiExtensions.UiUtil", "Summary": "The member should be initial for application begin.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.UiExtensions.yml", "output": { ".html": { "relative_path": "api/Hi.UiExtensions.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.UiExtensions", "Summary": null }, { "type": "ManagedReference", "source_relative_path": "api/Hi.UniversalNc.Lang.yml", "output": { ".html": { "relative_path": "api/Hi.UniversalNc.Lang.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.UniversalNc.Lang", "Summary": "A strongly-typed resource class, for looking up localized strings, etc.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.UniversalNc.yml", "output": { ".html": { "relative_path": "api/Hi.UniversalNc.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.UniversalNc", "Summary": null }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Vibrations.AngularVelocityUtil.yml", "output": { ".html": { "relative_path": "api/Hi.Vibrations.AngularVelocityUtil.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Vibrations.AngularVelocityUtil", "Summary": "Provides utility methods for working with angular velocity.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Vibrations.ForceAccelAmpPhase.yml", "output": { ".html": { "relative_path": "api/Hi.Vibrations.ForceAccelAmpPhase.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Vibrations.ForceAccelAmpPhase", "Summary": "Represents amplitude and phase information for force and acceleration in vibration analysis.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Vibrations.ForceAccelFourierSeries.yml", "output": { ".html": { "relative_path": "api/Hi.Vibrations.ForceAccelFourierSeries.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Vibrations.ForceAccelFourierSeries", "Summary": "Represents Fourier series data for force and acceleration measurements in three dimensions.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Vibrations.ForceAccelShot.yml", "output": { ".html": { "relative_path": "api/Hi.Vibrations.ForceAccelShot.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Vibrations.ForceAccelShot", "Summary": "Represents a data point containing force, acceleration, and moment measurements at a specific time.
\n" }, { "type": "ManagedReference", "source_relative_path": "api/Hi.Vibrations.ForceAccelUtil.yml", "output": { ".html": { "relative_path": "api/Hi.Vibrations.ForceAccelUtil.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Hi.Vibrations.ForceAccelUtil", "Summary": "Utility class for force and acceleration data processing.
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}, { "type": "ManagedReference", "source_relative_path": "sample/Sample.Common.DemoSessionMessage.yml", "output": { ".html": { "relative_path": "sample/Sample.Common.DemoSessionMessage.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Sample.Common.DemoSessionMessage", "Summary": null }, { "type": "ManagedReference", "source_relative_path": "sample/Sample.Common.yml", "output": { ".html": { "relative_path": "sample/Sample.Common.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Sample.Common", "Summary": null }, { "type": "ManagedReference", "source_relative_path": "sample/Sample.Disp.DemoCylindroid.yml", "output": { ".html": { "relative_path": "sample/Sample.Disp.DemoCylindroid.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Sample.Disp.DemoCylindroid", "Summary": "Demonstrates the creation and visualization of
Demonstrates the use of discrete RGB colors for rendering multiple objects.\nShows how to apply different colors to similar geometric shapes using the\n
Demonstrates various drawing techniques using the HiAPI graphics system.\nProvides examples of primitive drawing, attribute specification, and rendering options.\nIncludes methods for drawing lines, points, triangles, and other geometric primitives.
\n" }, { "type": "ManagedReference", "source_relative_path": "sample/Sample.Disp.DemoPick1.yml", "output": { ".html": { "relative_path": "sample/Sample.Disp.DemoPick1.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Sample.Disp.DemoPick1", "Summary": "Demonstrates basic object picking with mouse interaction in the HiAPI system.\nShows how to create a pickable 3D object that responds to mouse events by changing its appearance.\nImplements the Pickable base class to enable mouse event handling.
\n" }, { "type": "ManagedReference", "source_relative_path": "sample/Sample.Disp.DemoPick2.yml", "output": { ".html": { "relative_path": "sample/Sample.Disp.DemoPick2.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Sample.Disp.DemoPick2", "Summary": "Demonstrates advanced object picking with multiple pickable objects.\nShows how to create and manage multiple pickable objects with different visual appearances.\nImplements proper resource cleanup through the IDisposable interface.
\n" }, { "type": "ManagedReference", "source_relative_path": "sample/Sample.Disp.DemoPickable.yml", "output": { ".html": { "relative_path": "sample/Sample.Disp.DemoPickable.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Sample.Disp.DemoPickable", "Summary": "Demonstrates creation of pickable 3D geometry at the primitive level.\nShows how to assign picking IDs directly to geometry vertices and create interactive triangles.\nUses a lower-level approach than the Pickable base class for more precise control.
\n" }, { "type": "ManagedReference", "source_relative_path": "sample/Sample.Disp.DemoSatellite.yml", "output": { ".html": { "relative_path": "sample/Sample.Disp.DemoSatellite.html" } }, "version": "", "Uid": null, "IsMRef": true, "Title": "Sample.Disp.DemoSatellite", "Summary": "Demonstrates a simple solar system animation using
Demonstrates the loading, manipulation, and display of STL (stereolithography) files in HiAPI.\nShows operations like loading STL data, transforming geometries, and basic visualization.
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A sample class demonstrating initialization and usage of the HiAPI framework.\nShows the basic setup of display engine, MongoDB server, licensing, and other core functionality.
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Demonstrates how to create and configure a
Demonstrates integration of machining process visualization with interactive strip position selection.\nShows how to load a machining project, configure rendering options, and implement user interaction.\nProvides a complete example of a 3D visualization application with HiAPI and WPF.
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The Sample.Machining namespace contains comprehensive examples for creating and managing machining verification and optimization projects using the
Demonstrates the creation and visualization of mechanical assemblies with kinematic linkages.\nShows how to build coordinate systems, establish kinematic relationships, and capture visual output.
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