NAME¶
ConnectManip, DragManip, ManipGroup, TextManip, VertexManip - Manipulator
subclasses for defining common direct-manipulation semantics
SYNOPSIS¶
#include <Unidraw/manips.h>
DESCRIPTION¶
Manipulator is an abstract base class for objects that encapsulate the mechanics
of direct manipulation. Subclasses support different manipulation semantics.
The DragManip subclass implements a downclick-drag-upclick style of
interaction, with optional constraints on motion (for example, horizontal or
vertical only). ConnectManip is a DragManip subclass that adds a gravitational
bias towards connector views. VertexManip is a DragManip that supports
multiple downclick-and-drag interactions terminated by a distinguished
downclick. TextManip provides a text editing interface. Finally, ManipGroup
composes manipulator instances so that their interaction may proceed
concurrently.
DRAGMANIP PUBLIC OPERATIONS¶
- DragManip(
- Viewer*, Rubberband*, Transformer* = nil, Tool* = nil,
- DragConstraint = None
- )
- DragManip(
- Viewer*, Rubberband*, Transformer*, Tool*,
- DragConstraint, Coord, Coord
- )
-
A DragManip uses a rubberband to animate the manipulation. The constructor
takes the rubberband as a parameter along with the viewer in which it
should appear, a transformer reflecting the transformation that component
views undergo in the viewer, the tool that created the manipulator, and a
DragConstraint that effectively restricts mouse motion in one or more
ways. By default, motion is constrained when the Shift key is held down.
The second constructor adds two Coord parameters. The DragManip will use
these values to override the event coordinates when Grasp is first
called.
- virtual void Grasp(Event&)
- DragManip redefines Grasp operation to call the rubberband's Track
operation, supplying the coordinates in the event. Grasp calls Constrain
(described below) on the event prior to passing the coordinate
information. The rubberband will not be drawn until Grasp is called.
- virtual boolean Manipulating(Event&)
- If the event is a MotionEvent, Manipulating calls Track with the event's
coordinates and returns true. Manipulating simply returns
false if the event is an UpEvent. Like DragManip::Grasp, this
operation calls Constrain on the event prior to passing the coordinate
information.
- virtual void Effect(Event&)
- Effect simply erases the rubberband by calling its Erase operation.
- virtual void SetViewer(Viewer*)
- virtual void SetRubberband(Rubberband*)
- virtual void SetTransformer(Transformer*)
- virtual void SetTool(Tool*)
- virtual void SetConstraint(DragConstraint)
- virtual Viewer* GetViewer()
- virtual Rubberband* GetRubberband()
- virtual Transformer* GetTransformer()
- virtual Tool* GetTool()
- virtual DragConstraint GetConstraint()
- Set and get the various parameters supplied to the DragManip in its
constructor.
- const Event& GraspEvent()
- Return the event supplied to the last call to Grasp.
DRAGMANIP PROTECTED OPERATIONS¶
- void Init(
- Viewer*, Rubberband*, Transformer*, Tool*, DragConstraint
- )
-
Assign the various constructor values common to both DragManip
constructors.
- virtual void Constrain(Event&)
- Constrain the event to reflect the DragConstraint. The event coordinates
are constrained when the event indicates that the shift key is held down
for all DragConstraint values except Gravity, which constrains the
coordinates unconditionally with the viewer's Constrain operation.
CONNECTMANIP PUBLIC OPERATIONS¶
- ConnectManip(
- Viewer*, Rubberband*, Transformer* = nil, Tool* = nil
- )
-
ConnectManip supports the same type of interaction as DragManip, except the
rubberband tracking is affected by a graviational bias towards connector
views. Whenever the user drags near a connector view, the tracking
coordinates are suddenly constrained to coincide with the center of the
connector view. The rubberband will not change its appearance thereafter
until the user drags beyond the gravity threshold, which corresponds to
SLOP (see globals(3U)) units beyond the nearest point on the connector
view.
- virtual boolean Manipulating(Event&)
- ConnectManip redefines Manipulating to support the gravitational
effect.
- ConnectorView* GetTarget()
- Return the connector view that has captured the rubberband, if any.
VERTEXMANIP PUBLIC OPERATIONS¶
- VertexManip(
- Viewer*, GrowingVertices*, Transformer* = nil,
- Tool* = nil, DragConstraint = None
- )
-
VertexManip is like DragManip but supports multiple drags and clicks in one
manipulation. The VertexManip constructor restricts the rubberband to be
an instance of GrowingVertices.
- virtual boolean Manipulating(Event&)
- This operation is similar to DragManip's, except it calls AppendVertex on
the GrowingVertices rubberband on each down-click and returns false
if and only if the middle button is pressed.
- GrowingVertices* GetGrowingVertices()
- Return the GrowingVertices instance. Use this operation as an alternative
to GetRubberband when that operation isn't specific enough.
TEXTMANIP PUBLIC OPERATIONS¶
- TextManip(Viewer*, Painter*, Coord tabwidth, Tool* = nil)
- TextManip(
- Viewer*, Painter*, Coord lineheight, Coord tabwidth,
- Tool* = nil
- )
-
Create a TextManip, supplying (at minimum) a viewer, a painter with which to
draw (usually reflecting graphics attributes defined by the enclosing
editor object), and the width of a tab character. Tab characters in the
text will position the following character at an integral multiple of
tabwidth from the beginning of the line. The distance between
baselines in the text can be specified with the second constructor; this
value corresponds to the font height by default. These constructors create
text manipulators containing no text initially; the lower left corner of
the first line of text (including the descender) will be positioned at the
coordinates in the event passed to the Grasp operation.
- TextManip(
- Viewer*, const char* buf, int bufsize, Coord x, Coord y,
- Painter*, Coord tabwidth, Tool* = nil
- )
- TextManip(
- Viewer*, const char* buf, int bufsize, Coord x, Coord y,
- Painter*, Coord lineheight, Coord tabwidth, Tool* = nil
- )
-
Create text manipulators initialized with text by passing a buffer of text
and its size. A copy of the buffer is used internally. The x and
y parameters specify the position of the lower left corner of the
first line of text (including the descender). These coordinates will
override the coordinates specified by the event passed to Grasp.
- virtual void Grasp(Event&)
- Positions and draws the text. If the position-specifing constructors were
used to create the instance, then the manipulator will use the event
coordinates to set the insertion point's position in the text.
- virtual boolean Manipulating(Event&)
- Handle keystrokes and/or mouse motion events to support basic text
editing. Motion events are interpreted to support text selection; selected
text is displayed in reverse colors. The Manipulating operation returns
false if a downclick is detected outside the text or if HandleKey
(described below) returns false.
- virtual void Effect(Event&)
- Effect damages the viewer area that TextManip corrupted during
editing.
- virtual Painter* GetPainter()
- virtual Coord GetLineHeight()
- virtual Coord GetTabWidth()
- virtual const char* GetText(int&)
- virtual void GetPosition(Coord&, Coord&)
- Return various parameters specified in the constructor. GetText returns a
pointer to the internal buffer containing the text; the reference
parameter returns the buffer's size.
- const Event& GraspEvent()
- Return the event supplied to the last call to Grasp.
TEXTMANIP PROTECTED OPERATIONS¶
- virtual boolean HandleKey(Event&)
- This operation defines TextManip's default key bindings as described
below. Unless otherwise noted below, this function returns true.
(^P) backward line
(^N) forward line
(^B) backward character
(^F) forward character
(ESC) terminate text entry, causing HandleKey to return false
(^A) beginning of line
(^E) end of line
(^D) delete character
(DEL) (^H) delete backward character
- int Dot()
- int Mark()
- The current selection is bounded by two indices into the text buffer. By
convention these indices are called dot and mark. Dot is the position at
which text will be inserted and deleted. Mark locates the end of the
selection that moves as the selection is modified. When the selection is
empty (an insertion point), dot and mark are equal.
- void InsertText(const char* string, int count)
- void InsertCharacter(char)
- void DeleteText(int count)
- void DeleteCharacter(int)
- void DeleteLine()
- void DeleteSelection()
- Edit the text buffer at the current selection. InsertText inserts count
characters from string after dot. The selection becomes an insertion point
following the newly inserted text. InsertCharacter replaces the selected
characters with a single character. DeleteText deletes count characters at
dot. If count is positive, the characters following dot are deleted; if
count is negative the characters before dot are deleted. The selection
becomes an insertion point in the place of the deleted text.
DeleteSelection deletes the text between dot and mark, changing the
selection to an insertion point. DeleteCharacter is identical to
DeleteText if the dot and mark are not the same; otherwise it is identical
to DeleteSelection. DeleteCharacter provides a convenient way to express
the behavior of the backspace and delete operations. Finally, DeleteLine
deletes the line of text containing mark. The selection becomes an
insertion point at mark.
- void BackwardCharacter(int count)
- void ForwardCharacter(int count)
- void BackwardLine(int count)
- void ForwardLine(int count)
- void BackwardWord(int count)
- void ForwardWord(int count)
- Move the current selection forward or backward by the specified number of
the specified units. The default movement is one unit. The selection is
not moved before the beginning of after the end of the text.
- void BeginningOfLine()
- void EndOfLine()
- void BeginningOfWord()
- void EndOfWord()
- void BeginningOfSelection()
- void EndOfSelection()
- void BeginningOfText()
- void EndOfText()
- Move the current selection forwards or backwards to the specified feature
of the text.
- void Select(int dot)
- void Select(int dot, int mark)
- void SelectMore(int mark)
- void SelectAll()
- Modify the current selection in terms of text indices. With a single
parameter, Select moves both dot and mark to the specified index. With two
parameters, dot and mark can be controlled independently. SelectMore
leaves dot unchanged and moves mark. SelectAll sets dot to the end of the
text and mark to the beginning.
- int Locate(Coord x, Coord y)
- boolean Contains(Coord, Coord)
- Locate returns the text index most closely matching the point ( x,
y). Contains returns whether the text contains the point (
x, y).
MANIPGROUP PUBLIC OPERATIONS¶
- ManipGroup(Viewer* = nil, Tool* = nil)
- Create a ManipGroup, optionally supplying a viewer and a tool.
- virtual void Grasp(Event&)
- The Grasp operation simply calls Grasp on each child in insertion
order.
- virtual boolean Manipulating(Event&)
- Manipulating calls the corresponding operation on each child, skipping
those children that have returned false in previous calls (up to
the last Grasp). This function returns false when all children have
done so.
- virtual void Effect(Event&)
- ManipGroup's Effect operation calls Effect on each child.
- virtual void SetViewer(Viewer*)
- virtual void SetTool(Tool*)
- virtual Viewer* GetViewer()
- virtual Tool* GetTool()
- Set and get the ManipGroup's viewer and tool. The set operations set the
ManipGroup's values for these parameters and call the corresponding
operations on their children. The get operations simply return the
ManipGroup's values.
- virtual void First(Iterator&)
- virtual void Last(Iterator&)
- virtual void Next(Iterator&)
- virtual void Prev(Iterator&)
- virtual boolean Done(Iterator)
- Operations for iterating over the ManipGroup's children, if any. First and
Last initialize an iterator to point to the beginning and end of the list
of children, respectively. Next increments the iterator to point to the
following child, while Prev decrements the iterator to point to the
preceding child. Done returns whether or not the iterator points beyond
the first or last child in the list.
- Manipulator* GetManip(Iterator)
- void SetManip(Manipulator*, Iterator&)
- GetManip returns the child manipulator to which an iterator points.
SetManip initializes an iterator to point to a particular child; it
initializes the iterator to point to a nil instance if the given
Manipulator is not a child of the ManipGroup.
- void Append(
- Manipulator*,
- Manipulator* = nil, Manipulator* = nil, Manipulator* = nil
- )
- void Prepend(
- Manipulator*,
- Manipulator* = nil, Manipulator* = nil, Manipulator* = nil
- )
- void InsertBefore(Iterator, Manipulator*)
- void InsertAfter(Iterator, Manipulator*)
- void Remove(Manipulator*)
- void Remove(Iterator&)
- Operations for modifying the ManipGroup's list of children. Append and
Prepend add up to four child manipulators, in order, to the end and the
beginning of the list, respectively. InsertAfter and InsertBefore insert a
child after and before the manipulator pointed to by the iterator,
respectively. The Remove operations remove a child from the list (without
deleting it). You can remove a child by referring to it explicitly or by
specifying an iterator. If an iterator is supplied, the Remove operation
will advance it to point to the following child as a side effect.
MANIPGROUP PROTECTED OPERATIONS¶
- UList* Elem(Iterator)
- Manipulator* Manip(UList*)
- ManipGroup stores its children on a UList, which is accessible via the
_kids protected member. The Selection's iteration operations store
the UList containing the current child in their iterator. Elem is a
convenience function for returning the UList to which an iterator points,
and Manip extracts the child that a UList element contains.
SEE ALSO¶
Connector(3U), Event(3I), Iterator(3U), Manipulator(3U), Painter(3I),
Rubband(3I), Tool(3U), Transformer(3I), UList(3U), Viewer(3U),
globals(3U)