310 lines
10 KiB
Go
310 lines
10 KiB
Go
// 14 march 2014
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package ui
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import (
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"sync"
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"image"
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)
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// Area represents a blank canvas upon which programs may draw anything and receive arbitrary events from the user.
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// An Area has an explicit size, represented in pixels, that may be different from the size shown in its Window; scrollbars are placed automatically should they be needed.
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// The coordinate system of an Area always has an origin of (0,0) which maps to the top-left corner; all image.Points and image.Rectangles sent across Area's channels conform to this.
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//
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// To handle events to the Area, an Area must be paired with an AreaHandler.
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// See AreaHandler for details.
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//
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// Do not use an Area if you intend to read text.
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// Area reads keys based on their position on a standard
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// 101-key keyboard, and does no character processing.
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// Character processing methods differ across operating
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// systems; trying ot recreate these yourself is only going
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// to lead to trouble.
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// [Use TextArea instead, providing a TextAreaHandler.]
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//
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// To facilitate development and debugging, for the time being, Areas only work on GTK+.
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type Area struct {
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lock sync.Mutex
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created bool
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sysData *sysData
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handler AreaHandler
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initwidth int
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initheight int
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}
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// AreaHandler represents the events that an Area should respond to.
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// You are responsible for the thread safety of any members of the actual type that implements ths interface.
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// (Having to use this interface does not strike me as being particularly Go-like, but the nature of Paint makes channel-based event handling a non-option; in practice, deadlocks occur.)
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type AreaHandler interface {
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// Paint is called when the Area needs to be redrawn.
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// You MUST handle this event, and you MUST return a valid image, otherwise deadlocks and panicking will occur.
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// The image returned must have the same size as rect (but does not have to have the same origin points).
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// Example:
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// imgFromFile, _, err := image.Decode(file)
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// if err != nil { panic(err) }
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// img := image.NewNRGBA(imgFromFile.Rect)
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// draw.Draw(img, img.Rect, imgFromFile, image.ZP, draw.Over)
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// // ...
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// func (h *myAreaHandler) Paint(rect image.Rectangle) *image.NRGBA {
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// return img.SubImage(rect).(*image.NRGBA)
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// }
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Paint(rect image.Rectangle) *image.NRGBA
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// Mouse is called when the Area receives a mouse event.
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// You are allowed to do nothing in this handler (to ignore mouse events).
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// See MouseEvent for details.
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// If repaint is true, the Area is marked as needing to be redrawn.
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Mouse(e MouseEvent) (repaint bool)
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// Key is called when the Area receives a keyboard event.
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// You are allowed to do nothing except return false for handled in this handler (to ignore keyboard events).
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// Do not do nothing but return true for handled; this may have unintended consequences.
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// See KeyEvent for details.
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// If repaint is true, the Area is marked as needing to be redrawn.
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Key(e KeyEvent) (handled bool, repaint bool)
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}
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// MouseEvent contains all the information for a mous event sent by Area.Mouse.
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// Mouse button IDs start at 1, with 1 being the left mouse button, 2 being the middle mouse button, and 3 being the right mouse button.
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// (TODO "If additional buttons are supported, they will be returned with 4 being the first additional button (XBUTTON1 on Windows), 5 being the second (XBUTTON2 on Windows), and so on."?) (TODO get the user-facing name for XBUTTON1/2; find out if there's a way to query available button count)
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type MouseEvent struct {
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// Pos is the position of the mouse in the Area at the time of the event.
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// TODO rename to Pt or Point?
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Pos image.Point
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// If the event was generated by a mouse button being pressed, Down contains the ID of that button.
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// Otherwise, Down contains 0.
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Down uint
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// If the event was generated by a mouse button being released, Up contains the ID of that button.
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// Otherwise, Up contains 0.
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// If both Down and Up are 0, the event represents mouse movement (with optional held buttons; see below).
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// Down and Up shall not both be nonzero.
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Up uint
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// If Down is nonzero, Count indicates the number of clicks: 1 for single-click, 2 for double-click.
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// If Count == 2, AT LEAST one event with Count == 1 will have been sent prior.
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// (This is a platform-specific issue: some platforms send one, some send two.)
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Count uint
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// Modifiers is a bit mask indicating the modifier keys being held during the event.
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Modifiers Modifiers
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// Held is a slice of button IDs that indicate which mouse buttons are being held during the event.
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// Held will not include Down and Up.
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// (TODO "There is no guarantee that Held is sorted."?)
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Held []uint
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}
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// HeldBits returns Held as a bit mask.
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// Bit 0 maps to button 1, bit 1 maps to button 2, etc.
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func (e MouseEvent) HeldBits() (h uintptr) {
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for _, x := range e.Held {
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h |= uintptr(1) << (x - 1)
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}
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return h
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}
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// A KeyEvent represents a keypress in an Area.
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//
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// Key presses are based on their positions on a standard
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// 101-key keyboard found on most computers. The
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// names chosen for keys here are based on their names
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// on US English QWERTY keyboards; see Key for details.
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//
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// When you are finished processing the incoming event,
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// return whether or not you did something in response
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// to the given keystroke as the handled return of your
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// AreaHandler's Key() implementation. If you send false,
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// you indicate that you did not handle the keypress, and that
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// the system should handle it instead. (Some systems will stop
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// processing the keyboard event at all if you return true
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// unconditionally, which may result in unwanted behavior like
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// global task-switching keystrokes not being processed.)
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//
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// If a key is pressed that is not supported by Key, ExtKey,
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// or Modifiers, no KeyEvent will be produced, and package
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// ui will act as if false was returned for handled.
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type KeyEvent struct {
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// Key is a byte representing a character pressed
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// in the typewriter section of the keyboard.
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// The value, which is independent of whether the
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// Shift key is held, is a constant with one of the
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// following (case-sensitive) values, drawn according
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// to the key's position on the keyboard.
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// ` 1 2 3 4 5 6 7 8 9 0 - =
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// q w e r t y u i o p [ ] \
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// a s d f g h j k l ; '
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// z x c v b n m , . /
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// The actual key entered will be the key at the respective
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// position on the user's keyboard, regardless of the actual
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// layout. (Some keyboards move \ to either the row above
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// or the row below but in roughly the same spot; this is
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// accounted for. Some keyboards have an additonal key
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// to the left of 'z' or additional keys to the right of '='; these
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// cannot be read.)
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// In addition, Key will contain
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// - ' ' (space) if the spacebar was pressed
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// - '\t' if Tab was pressed, regardless of Modifiers
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// - '\n' if the typewriter Enter key was pressed
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// - '\b' if the typewriter Backspace key was pressed
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// If this value is zero, see ExtKey.
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Key byte
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// If Key is zero, ExtKey contains a predeclared identifier
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// naming an extended key. See ExtKey for details.
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// If both Key and ExtKey are zero, a Modifier by itself
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// was pressed. Key and ExtKey will not both be nonzero.
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ExtKey ExtKey
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Modifiers Modifiers
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// If Up is true, the key was released; if not, the key was pressed.
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// There is no guarantee that all pressed keys shall have
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// corresponding release events (for instance, if the user switches
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// programs while holding the key down, then releases the key).
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// Keys that have been held down are reported as multiple
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// key press events.
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Up bool
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}
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// ExtKey represents keys that are not in the typewriter section of the keyboard.
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type ExtKey uintptr
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const (
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Escape ExtKey = iota + 1
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Insert
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Delete
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Home
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End
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PageUp
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PageDown
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Up
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Down
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Left
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Right
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F1 // F1..F12 are guaranteed to be consecutive
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F2
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F3
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F4
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F5
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F6
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F7
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F8
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F9
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F10
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F11
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F12
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N0 // numpad keys; independent of Num Lock state
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N1 // N0..N9 are guaranteed to be consecutive
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N2
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N3
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N4
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N5
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N6
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N7
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N8
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N9
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NDot
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NEnter
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NAdd
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NSubtract
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NMultiply
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NDivide
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_nextkeys // for sanity check
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)
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// EffectiveKey returns e.Key if it is set.
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// Otherwise, if e.ExtKey denotes a numpad key,
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// EffectiveKey returns the equivalent e.Key value
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// ('0'..'9', '.', '\n', '+', '-', '*', or '/').
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// Otherwise, EffectiveKey returns zero.
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func (e KeyEvent) EffectiveKey() byte {
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if e.Key != 0 {
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return e.Key
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}
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k := e.ExtKey
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switch {
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case k >= N0 && k <= N9:
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return byte(k - N0) + '0'
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case k == NDot:
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return '.'
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case k == NEnter:
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return '\n'
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case k == NAdd:
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return '+'
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case k == NSubtract:
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return '-'
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case k == NMultiply:
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return '*'
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case k == NDivide:
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return '/'
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}
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return 0
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}
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// Modifiers indicates modifier keys being held during an event.
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// There is no way to differentiate between left and right modifier keys.
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type Modifiers uintptr
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const (
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Ctrl Modifiers = 1 << iota // the canonical Ctrl keys ([TODO] on Mac OS X, Control on others)
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Alt // the canonical Alt keys ([TODO] on Mac OS X, Meta on Unix systems, Alt on others)
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Shift // the Shift keys
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// TODO add Super
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)
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// NewArea creates a new Area with the given size and handler.
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// It panics if handler is nil.
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func NewArea(width int, height int, handler AreaHandler) *Area {
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if handler == nil {
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panic("handler passed to NewArea() must not be nil")
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}
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return &Area{
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sysData: mksysdata(c_area),
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handler: handler,
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initwidth: width,
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initheight: height,
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}
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}
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// SetSize sets the Area's internal drawing size.
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// It has no effect on the actual control size.
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func (a *Area) SetSize(width int, height int) {
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a.lock.Lock()
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defer a.lock.Unlock()
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if a.created {
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a.sysData.setAreaSize(width, height)
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return
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}
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a.initwidth = width
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a.initheight = height
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}
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func (a *Area) make(window *sysData) error {
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a.lock.Lock()
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defer a.lock.Unlock()
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a.sysData.handler = a.handler
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err := a.sysData.make("", window)
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if err != nil {
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return err
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}
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a.sysData.setAreaSize(a.initwidth, a.initheight)
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a.created = true
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return nil
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}
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func (a *Area) setRect(x int, y int, width int, height int, rr *[]resizerequest) {
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*rr = append(*rr, resizerequest{
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sysData: a.sysData,
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x: x,
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y: y,
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width: width,
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height: height,
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})
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}
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func (a *Area) preferredSize() (width int, height int) {
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return a.sysData.preferredSize()
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}
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