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ScreenUI/ScreenUi.h

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/**
* ScreenUi
* A toolkit for building character based user interfaces on small displays.
* Copyright (c) 2012 Jason von Nieda <jason@vonnieda.org>
*
* This file is part of ScreenUi.
*
* ScreenUi is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* ScreenUi is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with ScreenUi. If not, see <http://www.gnu.org/licenses/>.
*/
#ifndef __ScreenUi_h__
#define __ScreenUi_h__
#include <stdint.h>
//#define SCREENUI_DEBUG 1
#define min(a,b) ((a)<(b)?(a):(b))
#define max(a,b) ((a)>(b)?(a):(b))
class Screen;
// Represents a set of characters that can be mapped to a continuous sequence
// of integers starting with 0.
class CharSet {
public:
// Returns true if the character set contains the given character.
virtual bool contains(unsigned char ch) { return indexOf(ch) != -1; }
// Returns the index in the character set for the given character.
// Return -1 if the character is not part of the character set.
virtual int indexOf(unsigned char ch);
// Returns the character at the given index for the character set.
// Return -1 if the index is not within the range of the character set.
virtual int charAt(int index) = 0;
// Returns the length of the character set. This method can be used
// to determine what the maximum index for charAt() will be.
virtual unsigned char size() = 0;
};
// An implementation of CharSet that uses several ranges to determine it's
// full character set
class RangeCharSet : public CharSet {
public:
RangeCharSet(int rangeCount, ...);
virtual ~RangeCharSet();
virtual int charAt(int index);
virtual unsigned char size();
private:
unsigned char rangeCount_;
unsigned char *ranges_;
};
extern RangeCharSet defaultCharSet;
extern RangeCharSet floatingPointCharSet;
class Component {
public:
Component() { x_ = y_ = width_ = height_ = 0; }
// Set the location on screen for this component. x and y are zero based,
// absolute character positions.
virtual void setLocation(int8_t x, int8_t y) { x_ = x; y_ = y;}
// Set the width and height this component. Most components will either
// require a width and height to be specified during creation or will
// adopt sane defaults based on their input data.
void setSize(uint8_t width, uint8_t height) { width_ = width; height_ = height; }
int8_t x() { return x_; }
int8_t y() { return y_; }
uint8_t width() { return width_; }
uint8_t height() { return height_; }
// Returns true if the component is willing to accept focus from the focus
// subsystem. For a component to receive input events it must be willing
// to accept focus.
virtual bool acceptsFocus() { return false; }
// The first step in the component update cycle. This is called by Screen
// during it's update cycle to allow each component to reset or set up
// any data that needs to be modified from the last update cycle.
virtual void update(Screen *screen) {}
// Called if the component has focus and is selected. x and y are delta
// since the last event.
// Returns true if the component wishes to remain selected. Returns false
// to give up selection.
virtual bool handleInputEvent(int x, int y, bool selected, bool cancelled) { return false; }
// The final step in the component update cycle. Called by Screen to allow
// the component to draw itself on screen. It shoud generally draw itself
// at it's location and should not overflow it's size.
// Currently components are responsible for drawing their own focus
// indicator. This may change in the future.
// Component::paint() sets dirty to false and should be called by every
// subclass's paint method.
virtual void paint(Screen *screen);
// Returns true if the component is a container for other components. This
// is a shortcut so that we don't have to do RTTI when iterating over a
// list of components looking for containers.
virtual bool isContainer() { return false; }
// Returns true if the Component is marked dirty and needs to be painted
// on the next update.
virtual bool dirty();
// Sets dirty to true for this Component, causing it to be painted during
// the next update.
// TODO refactor the two below into setDirty()
virtual void repaint() { dirty_ = true; }
virtual void clearDirty() { dirty_ = false; }
#ifdef SCREENUI_DEBUG
virtual char *description() { return "Component"; }
#endif
protected:
int8_t x_, y_;
uint8_t width_, height_;
bool dirty_;
};
// A Component that contains other Components. Users should not generally
// create instances of this class.
class Container : public Component {
public:
Container();
virtual ~Container();
virtual void add(Component *component, int8_t x, int8_t y);
virtual void update(Screen *screen);
// Paints any dirty child components.
virtual void paint(Screen *screen);
virtual bool isContainer() { return true; }
// Returns true if any child components are dirty.
virtual bool dirty();
// Sets dirty to true for all child components, causing them to be repainted
// during the next update.
virtual void repaint();
#ifdef SCREENUI_DEBUG
virtual char *description() { return "Container"; }
#endif
virtual bool contains(Component *component);
protected:
Component *nextFocusHolder(Component *focusHolder, bool reverse);
Component *nextFocusHolder(Component *focusHolder, bool reverse, bool *focusHolderFound);
void offsetChildren(int x, int y);
Component **components_;
uint8_t componentsLength_;
uint8_t componentCount_;
bool firstUpdateCompleted_;
};
// The main entry point into the ScreenUi system. A Screen instance represents
// a full screen of data on the display, including modifiable Components and
// provides methods for input and output.
// The user should create instances of Screen to manage a user interface and
// add() Components to the screen.
// When a Screen is ready to be displayed, the user should call update() in
// a loop. After each call to update(), Components can be queried for their
// data.
class Screen : public Container {
public:
Screen(uint8_t width, uint8_t height);
// Should be called regularly by the main program to update the Screen
// and process input. After each call to update(), each Component
// will have processed any input it received and will have updated it
// data.
virtual void update();
// Returns the current focus holder for the Screen. The focus holder is
// the component that input events will be sent to.
Component *focusHolder() { return focusHolder_; }
// Sets the current focus holder. This can be used to set the default
// button on a screen before it is displayed, for instance.
void setFocusHolder(Component *focusHolder) { focusHolder_ = focusHolder; }
void setCursorLocation(uint8_t x, uint8_t y) { cursorX_ = x; cursorY_ = y; }
#ifdef SCREENUI_DEBUG
virtual char *description() { return "Screen"; }
#endif
// The following methods must be overridden by the user to provide
// hardware support
// Get any changes in the input since the last call to update();
virtual void getInputDeltas(int *x, int *y, bool *selected, bool *cancelled);
// Clear the screen
virtual void clear();
virtual void createCustomChar(uint8_t slot, uint8_t *data);
virtual void draw(uint8_t x, uint8_t y, const char *text);
virtual void draw(uint8_t x, uint8_t y, uint8_t customChar);
virtual void setCursorVisible(bool visible);
virtual void setBlink(bool blink);
virtual void moveCursor(uint8_t x, uint8_t y);
private:
bool cleared_;
Component *focusHolder_;
bool focusHolderSelected_;
bool annoyingBugWorkedAround_;
uint8_t cursorX_, cursorY_;
};
// A Component that displays static text at a specific position.
class Label : public Component {
public:
Label(const char *text);
virtual const char *text() { return (const char *) text_; }
virtual void setText(const char *text);
virtual void paint(Screen *screen);
#ifdef SCREENUI_DEBUG
virtual char *description() { return "Label"; }
#endif
protected:
char* text_;
bool captured_;
uint8_t dirtyWidth_;
};
// A Component that can receive focus and select events. If the Button has
// focus when the user presses the select button the Button's pressed() property
// is set indicating that the button was selected.
// Button is a subclass of Label and thus displays itself as text.
class Button : public Label {
public:
Button(const char *text);
virtual bool acceptsFocus() { return true; }
bool pressed() { return pressed_; }
virtual void update(Screen *screen);
virtual bool handleInputEvent(int x, int y, bool selected, bool cancelled);
#ifdef SCREENUI_DEBUG
virtual char *description() { return "Button"; }
#endif
private:
bool pressed_;
};
// A Component that displays either an on or off state. Clicking the component
// while it has focus causes it to change from on to off or vice-versa.
class Checkbox : public Label {
public:
Checkbox();
bool checked() { return checked_; }
virtual bool acceptsFocus() { return true; }
virtual bool handleInputEvent(int x, int y, bool selected, bool cancelled);
#ifdef SCREENUI_DEBUG
virtual char *description() { return "Checkbox"; }
#endif
private:
bool checked_;
};
// A Component that allows the user to scroll through several choices and
// select one. When the List is selected, future scroll events will cause it
// to scroll through it's selections. A select sets the current item
// or a cancel resets the list to it's previously selected item and
// releases control.
class List : public Label {
public:
List(uint8_t maxItems);
virtual ~List();
void addItem(const char *item);
const char *selectedItem() { return items_[selectedIndex_]; }
uint8_t selectedIndex() { return selectedIndex_; }
void setSelectedIndex(uint8_t selectedIndex);
virtual bool acceptsFocus() { return true; }
virtual bool handleInputEvent(int x, int y, bool selected, bool cancelled);
#ifdef SCREENUI_DEBUG
virtual char *description() { return "List"; }
#endif
private:
char **items_;
uint8_t itemCount_;
uint8_t selectedIndex_;
};
// A Component that allows the user to scroll through a range of Integers
// or floats.
class Spinner : public Label {
public:
Spinner(int value, int low, int high, int increment, bool rollover);
int intValue();
virtual bool acceptsFocus() { return true; }
virtual bool handleInputEvent(int x, int y, bool selected, bool cancelled);
#ifdef SCREENUI_DEBUG
virtual char *description() { return "Spinner"; }
#endif
private:
char buffer_[10];
int value_, low_, high_, increment_;
bool rollover_;
};
// allows text input. Each character can be clicked to scroll through the alphabet.
class Input : public Label {
public:
Input(char *text);
virtual void setText(char *text);
virtual bool acceptsFocus() { return true; }
virtual void paint(Screen *screen);
virtual bool handleInputEvent(int x, int y, bool selected, bool cancelled);
#ifdef SCREENUI_DEBUG
virtual char *description() { return "Input"; }
#endif
void setCharSet(CharSet *charSet) { charSet_ = charSet; }
CharSet *charSet() { return charSet_; }
protected:
int8_t position_;
bool selecting_;
CharSet *charSet_;
};
// A Component that accepts input of a floating or fixed point decimal
// number.
class DecimalInput : public Input {
};
// A Component that accepts input of an integer value with a given base.
class IntegerInput : public Input {
public:
// Create a signed IntegerInput with the given value, width and base.
// If width is 0 the width will be determined by the number of digits in
// the incoming value, with one additional space for the negative.
// If base is not specified, the default is base 10.
IntegerInput(long value, unsigned char width = 0, unsigned char base = 10);
// Create a signed IntegerInput with the given value, width and base.
// If width is 0 the width will be determined by the number of digits in
// the incoming value.
// If base is not specified, the default is base 10.
IntegerInput(unsigned long value, unsigned char width = 0, unsigned char base = 10);
private:
bool signed_;
unsigned char base_;
};
// Component that allows the user to enter a time with up to three fields
// separated by semi-colons. e.g. 00, 00:00, 00:00:00
class TimeInput : public Input {
};
// A Container that allows the user to scroll through any number of rows of
// Components. The ScrollContainer can be thought of as a Screen with the same
// width as the Container it is added to, and an unlimited height.
// Components that will be added to the ScrollContainer should have their
// location set relative to their position in the ScrollContainer, not
// the main Screen.
class ScrollContainer : public Container {
public:
// We require a reference to Screen because we need focus information
// during the dirty() check. This is a bit of a dirty hack, but it's
// better than adding this property to every other object or walking
// the tree to find it.
ScrollContainer(Screen *screen, uint8_t width, uint8_t height);
virtual ~ScrollContainer();
virtual void paint(Screen *screen);
virtual bool dirty();
#ifdef SCREENUI_DEBUG
virtual char *description() { return "ScrollContainer"; }
#endif
private:
bool scrollNeeded();
Component *lastFocusHolder_;
Screen *screen_;
char *clearLine;
};
// A specialization of ScrollContainer that contains only Buttons and provides
// a simple API for managing the set of Buttons like a menu.
class Menu : public ScrollContainer {
};
#endif