termdash/internal/widgetapi/widgetapi.go

178 lines
6.6 KiB
Go

// Copyright 2018 Google Inc.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
// Package widgetapi defines the API of a widget on the dashboard.
package widgetapi
import (
"image"
"github.com/mum4k/termdash/internal/canvas"
"github.com/mum4k/termdash/terminal/terminalapi"
)
// KeyScope indicates the scope at which the widget wants to receive keyboard
// events.
type KeyScope int
// String implements fmt.Stringer()
func (ks KeyScope) String() string {
if n, ok := keyScopeNames[ks]; ok {
return n
}
return "KeyScopeUnknown"
}
// keyScopeNames maps KeyScope values to human readable names.
var keyScopeNames = map[KeyScope]string{
KeyScopeNone: "KeyScopeNone",
KeyScopeFocused: "KeyScopeFocused",
KeyScopeGlobal: "KeyScopeGlobal",
}
const (
// KeyScopeNone is used when the widget doesn't want to receive any
// keyboard events.
KeyScopeNone KeyScope = iota
// KeyScopeFocused is used when the widget wants to only receive keyboard
// events when its container is focused.
KeyScopeFocused
// KeyScopeGlobal is used when the widget wants to receive all keyboard
// events regardless of which container is focused.
KeyScopeGlobal
)
// MouseScope indicates the scope at which the widget wants to receive mouse
// events.
type MouseScope int
// String implements fmt.Stringer()
func (ms MouseScope) String() string {
if n, ok := mouseScopeNames[ms]; ok {
return n
}
return "MouseScopeUnknown"
}
// mouseScopeNames maps MouseScope values to human readable names.
var mouseScopeNames = map[MouseScope]string{
MouseScopeNone: "MouseScopeNone",
MouseScopeWidget: "MouseScopeWidget",
MouseScopeContainer: "MouseScopeContainer",
MouseScopeGlobal: "MouseScopeGlobal",
}
const (
// MouseScopeNone is used when the widget doesn't want to receive any mouse
// events.
MouseScopeNone MouseScope = iota
// MouseScopeWidget is used when the widget only wants mouse events that
// fall onto its canvas.
// The position of these widgets is always relative to widget's canvas.
MouseScopeWidget
// MouseScopeContainer is used when the widget only wants mouse events that
// fall onto its container. The area size of a container is always larger
// or equal to the one of the widget's canvas. So a widget selecting
// MouseScopeContainer will either receive the same or larger amount of
// events as compared to MouseScopeWidget.
// The position of mouse events that fall outside of widget's canvas is
// reset to image.Point{-1, -1}.
// The widgets are allowed to process the button event.
MouseScopeContainer
// MouseScopeGlobal is used when the widget wants to receive all mouse
// events regardless on where on the terminal they land.
// The position of mouse events that fall outside of widget's canvas is
// reset to image.Point{-1, -1} and must not be used by the widgets.
// The widgets are allowed to process the button event.
MouseScopeGlobal
)
// Options contains registration options for a widget.
// This is how the widget indicates its needs to the infrastructure.
type Options struct {
// Ratio allows a widget to request a canvas whose size will always have
// the specified ratio of width:height (Ratio.X:Ratio.Y).
// The zero value i.e. image.Point{0, 0} indicates that the widget accepts
// canvas of any ratio.
Ratio image.Point
// MinimumSize allows a widget to specify the smallest allowed canvas size.
// If the terminal size and/or splits cause the assigned canvas to be
// smaller than this, the widget will be skipped. I.e. The Draw() method
// won't be called until a resize above the specified minimum.
MinimumSize image.Point
// MaximumSize allows a widget to specify the largest allowed canvas size.
// If the terminal size and/or splits cause the assigned canvas to be larger
// than this, the widget will only receive a canvas of this size within its
// container. Setting any of the two coordinates to zero indicates
// unlimited.
MaximumSize image.Point
// WantKeyboard allows a widget to request keyboard events and specify
// their desired scope. If set to KeyScopeNone, no keyboard events are
// forwarded to the widget.
WantKeyboard KeyScope
// WantMouse allows a widget to request mouse events and specify their
// desired scope. If set to MouseScopeNone, no mouse events are forwarded
// to the widget.
// Note that the widget is only able to see the position of the mouse event
// if it falls onto its canvas. See the documentation next to individual
// MouseScope values for details.
WantMouse MouseScope
}
// Widget is a single widget on the dashboard.
// Implementations must be thread safe.
type Widget interface {
// When the infrastructure calls Draw(), the widget must block on the call
// until it finishes drawing onto the provided canvas. When given the
// canvas, the widget must first determine its size by calling
// Canvas.Size(), then limit all its drawing to this area.
//
// The widget must not assume that the size of the canvas or its content
// remains the same between calls.
Draw(cvs *canvas.Canvas) error
// Keyboard is called when the widget is focused on the dashboard and a key
// shortcut the widget registered for was pressed. Only called if the widget
// registered for keyboard events.
Keyboard(k *terminalapi.Keyboard) error
// Mouse is called when the widget is focused on the dashboard and a mouse
// event happens on its canvas. Only called if the widget registered for mouse
// events.
Mouse(m *terminalapi.Mouse) error
// Options returns registration options for the widget.
// This is how the widget indicates to the infrastructure whether it is
// interested in keyboard or mouse shortcuts, what is its minimum canvas
// size, etc.
//
// Most widgets will return statically compiled options (minimum and
// maximum size, etc.). If the returned options depend on the runtime state
// of the widget (e.g. the user data provided to the widget), the widget
// must protect against a case where the infrastructure calls the Draw
// method with a canvas that doesn't meet the requested options. This is
// because the data in the widget might change between calls to Options and
// Draw.
Options() Options
}