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/*
* MIT License
*
* Copyright ( c ) 2022 Joey Castillo
*
* Permission is hereby granted , free of charge , to any person obtaining a copy
* of this software and associated documentation files ( the " Software " ) , to deal
* in the Software without restriction , including without limitation the rights
* to use , copy , modify , merge , publish , distribute , sublicense , and / or sell
* copies of the Software , and to permit persons to whom the Software is
* furnished to do so , subject to the following conditions :
*
* The above copyright notice and this permission notice shall be included in all
* copies or substantial portions of the Software .
*
* THE SOFTWARE IS PROVIDED " AS IS " , WITHOUT WARRANTY OF ANY KIND , EXPRESS OR
* IMPLIED , INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY ,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT . IN NO EVENT SHALL THE
* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM , DAMAGES OR OTHER
* LIABILITY , WHETHER IN AN ACTION OF CONTRACT , TORT OR OTHERWISE , ARISING FROM ,
* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
* SOFTWARE .
*/
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# ifndef MOVEMENT_H_
# define MOVEMENT_H_
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# include <stdio.h>
# include <stdbool.h>
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# include "watch.h"
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// Movement Preferences
// These four 32-bit structs store information about the wearer and their preferences. Tentatively, the plan is
// for Movement to use four 32-bit registers for these preferences and to store them in the RTC's backup registers
// 0-3, leaving registers 4-7 available for third party watch faces to use as they see fit.
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// * The movement_settings_t struct is provided to all watch faces in the callback functions, and is stored in the
// RTC's first backup register (BKUP[0]).
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// * The movement_location_t and movement_birthdate_t types are defined here, and are tentatively meant to be
// stored in BKUP[1] and BKUP[2], respectively.
// * The movement_reserved_t type is here as a placeholder, because I sense there's some other generally useful
// stuff we'll want to make available to all watch faces and stash in the BKUP[3] register.
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// This allows these preferences to be stored before entering BACKUP mode and and restored after waking from reset.
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// movement_settings_t contains global settings that cover watch behavior, including preferences around clock and unit
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// display, time zones, buzzer behavior, LED color and low energy mode timeouts. These settings are stored in BKUP[0].
// If your watch face changes one of these settings, you should store your changes in either your loop or resign
// function by calling `watch_store_backup_data(settings->reg, 0)`. Otherwise it may not persist after a reset event.
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typedef union {
struct {
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bool button_should_sound : 1 ; // if true, pressing a button emits a sound.
uint8_t to_interval : 2 ; // an inactivity interval for asking the active face to resign.
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bool to_always : 1 ; // if true, always time out from the active face to face 0. otherwise only faces that time out will resign (the default).
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uint8_t le_interval : 3 ; // 0 to disable low energy mode, or an inactivity interval for going into low energy mode.
uint8_t led_duration : 2 ; // how many seconds to shine the LED for (x2), or 0 to disable it.
uint8_t led_red_color : 4 ; // for general purpose illumination, the red LED value (0-15)
uint8_t led_green_color : 4 ; // for general purpose illumination, the green LED value (0-15)
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uint8_t time_zone : 6 ; // an integer representing an index in the time zone table.
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// while Movement itself doesn't implement a clock or display units, it may make sense to include some
// global settings for watch faces to check. The 12/24 hour preference could inform a clock or a
// time-oriented complication like a sunrise/sunset timer, and a simple locale preference could tell an
// altimeter to display feet or meters as easily as it tells a thermometer to display degrees in F or C.
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bool clock_mode_24h : 1 ; // indicates whether clock should use 12 or 24 hour mode.
bool use_imperial_units : 1 ; // indicates whether to use metric units (the default) or imperial.
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bool alarm_enabled : 1 ; // indicates whether there is at least one alarm enabled.
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uint8_t reserved : 6 ; // room for more preferences if needed.
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} bit ;
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uint32_t reg ;
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} movement_settings_t ;
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// movement_location_t is for storing the wearer's location. This will be useful for astronomical calculations such as
// sunrise and sunset, or predictions of visible satellite passes.
// If you create a UI for this register or need to access it, look for it in the RTC's BKUP[1] register.
typedef union {
struct {
int16_t latitude : 16 ; // signed latutide in hundredths of a degree
int16_t longitude : 16 ; // signed longitude in hundredths of a degree
} bit ;
uint32_t reg ;
} movement_location_t ;
// movement_birthdate_t is for storing the user's birth date. This will be useful for calculating the user's age — or
// hey, playing happy birthday at midnight? Fields for birth time (with hour and minute resolution) are also available,
// partly because they fit so nicely, but also because they can be useful for certain astrological calculations.
// If you create a UI for birth date or need to access it, look for it in the RTC's BKUP[2] register.
typedef union {
struct {
uint16_t year : 12 ; // good through the year 4095
uint8_t month : 4 ;
uint8_t day : 5 ;
uint8_t hour : 5 ;
uint8_t minute : 6 ;
} bit ;
uint32_t reg ;
} movement_birthdate_t ;
// movement_reserved_t is a placeholder for future use of the BKUP[3] register.
typedef union {
struct {
uint32_t reserved : 32 ;
} bit ;
uint32_t reg ;
} movement_reserved_t ;
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typedef enum {
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EVENT_NONE = 0 , // There is no event to report.
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EVENT_ACTIVATE , // Your watch face is entering the foreground.
EVENT_TICK , // Most common event type. Your watch face is being called from the tick callback.
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EVENT_LOW_ENERGY_UPDATE , // If the watch is in low energy mode and you are in the foreground, you will get a chance to update the display once per minute.
EVENT_BACKGROUND_TASK , // Your watch face is being invoked to perform a background task. Don't update the display here; you may not be in the foreground.
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EVENT_TIMEOUT , // Your watch face has been inactive for a while. You may want to resign, depending on your watch face's intended use case.
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EVENT_LIGHT_BUTTON_DOWN , // The light button has been pressed, but not yet released.
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EVENT_LIGHT_BUTTON_UP , // The light button was pressed for less than half a second, and released.
EVENT_LIGHT_LONG_PRESS , // The light button was held for over half a second, but not yet released.
EVENT_LIGHT_LONG_UP , // The light button was held for over half a second, and released.
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EVENT_MODE_BUTTON_DOWN , // The mode button has been pressed, but not yet released.
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EVENT_MODE_BUTTON_UP , // The mode button was pressed for less than half a second, and released.
EVENT_MODE_LONG_PRESS , // The mode button was held for over half a second, but not yet released.
EVENT_MODE_LONG_UP , // The mode button was held for over half a second, and released. NOTE: your watch face will resign immediately after receiving this event.
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EVENT_ALARM_BUTTON_DOWN , // The alarm button has been pressed, but not yet released.
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EVENT_ALARM_BUTTON_UP , // The alarm button was pressed for less than half a second, and released.
EVENT_ALARM_LONG_PRESS , // The alarm button was held for over half a second, but not yet released.
EVENT_ALARM_LONG_UP , // The alarm button was held for over half a second, and released.
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} movement_event_type_t ;
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typedef struct {
uint8_t event_type ;
uint8_t subsecond ;
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} movement_event_t ;
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extern const int16_t movement_timezone_offsets [ ] ;
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extern const char movement_valid_position_0_chars [ ] ;
extern const char movement_valid_position_1_chars [ ] ;
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/** @brief Perform setup for your watch face.
* @ details It ' s tempting to say this is ' one - time ' setup , but technically this function is called more than
* once . When the watch first boots , this function is called with a NULL context_ptr , indicating
* that it is the first run . At this time you should set context_ptr to something non - NULL if you
* need to keep track of any state in your watch face . If your watch face requires any other setup ,
* like configuring a pin mode or a peripheral , you may want to do that here too .
* This function will be called again after waking from sleep mode , since sleep mode disables all
* of the device ' s pins and peripherals .
* @ param settings A pointer to the global Movement settings . You can use this to inform how you present your
* display to the user ( i . e . taking into account whether they have silenced the buttons , or if
* they prefer 12 or 24 - hour mode ) . You can also change these settings if you like .
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* @ param watch_face_index The index of this watch face in the global array of watch faces ; 0 is the first face ,
* 1 is the second , etc . You may stash this value in your context if you wish to reference
* it later ; your watch face ' s index is set at launch and will not change .
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* @ param context_ptr A pointer to a pointer ; at first invocation , this value will be NULL , and you can set it
* to any value you like . Subsequent invocations will pass in whatever value you previously
* set . You may want to check if this is NULL and if so , allocate some space to store any
* data required for your watch face .
*
*/
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typedef void ( * watch_face_setup ) ( movement_settings_t * settings , uint8_t watch_face_index , void * * context_ptr ) ;
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/** @brief Prepare to go on-screen.
* @ details This function is called just before your watch enters the foreground . If your watch face has any
* segments or text that is always displayed , you may want to set that here . In addition , if your
* watch face depends on data from a peripheral ( like an I2C sensor ) , you will likely want to enable
* that peripheral here . In addition , if your watch face requires an update frequncy other than 1 Hz ,
* you may want to request that here using the movement_request_tick_frequency function .
* @ param settings A pointer to the global Movement settings . @ see watch_face_setup .
* @ param context A pointer to your watch face ' s context . @ see watch_face_setup .
*
*/
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typedef void ( * watch_face_activate ) ( movement_settings_t * settings , void * context ) ;
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/** @brief Handle events and update the display.
* @ details This function is called in response to an event . You should set up a switch statement that handles ,
* at the very least , the EVENT_TICK and EVENT_MODE_BUTTON_UP event types . The tick event happens once
* per second ( or more frequently if you asked for a faster tick with movement_request_tick_frequency ) .
* The mode button up event occurs when the user presses the MODE button . * * Your loop function SHOULD
* call the movement_move_to_next_face function in response to this event . * * If you have a good reason
* to override this behavior ( e . g . your user interface requires all three buttons ) , your watch face MUST
* call the movement_move_to_next_face function in response to the EVENT_MODE_LONG_PRESS event . If you
* fail to do this , the user will become stuck on your watch face .
* @ param event A struct containing information about the event , including its type . @ see movement_event_type_t
* for a list of all possible event types .
* @ param settings A pointer to the global Movement settings . @ see watch_face_setup .
* @ param context A pointer to your application ' s context . @ see watch_face_setup .
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* @ return true if your watch face is prepared for the system to enter STANDBY mode ; false to keep the system awake .
* You should almost always return true .
* Note that this return value has no effect if your loop function has called movement_move_to_next_face
* or movement_move_to_face ; in that case , your watch face will resign immediately , and the next watch
* face will make the decision on entering standby mode .
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* @ note There are two event types that require some extra thought :
The EVENT_LOW_ENERGY_UPDATE event type is a special case . If you are in the foreground when the watch
goes into low energy mode , you will receive this tick once a minute ( at the top of the minute ) so that
you can update the screen . Great ! But ! When you receive this event , all pins and peripherals other than
the RTC will have been disabled to save energy . If your display is clock or calendar oriented , this is
fine . But if your display requires polling an I2C sensor or reading a value with the ADC , you won ' t be
able to do this . You should either display the name of the watch face in response to the low power tick ,
or ensure that you resign before low power mode triggers , ( e . g . by calling movement_move_to_face ( 0 ) ) .
* * Your watch face MUST NOT wake up peripherals in response to a low power tick . * * The purpose of this
mode is to consume as little energy as possible during the ( potentially long ) intervals when it ' s
unlikely the user is wearing or looking at the watch .
EVENT_BACKGROUND_TASK is also a special case . @ see watch_face_wants_background_task for details .
*/
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typedef bool ( * watch_face_loop ) ( movement_event_t event , movement_settings_t * settings , void * context ) ;
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/** @brief Prepare to go off-screen.
* @ details This function is called before your watch face enters the background . If you requested a tick
* frequency other than the standard 1 Hz , * * you must call movement_request_tick_frequency ( 1 ) here * *
* to reset to 1 Hz . You should also disable any peripherals you enabled when you entered the foreground .
* @ param settings A pointer to the global Movement settings . @ see watch_face_setup .
* @ param context A pointer to your application ' s context . @ see watch_face_setup .
*/
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typedef void ( * watch_face_resign ) ( movement_settings_t * settings , void * context ) ;
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/** @brief OPTIONAL. Request an opportunity to run a background task.
* @ details Most apps will not need this function , but if you provide it , Movement will call it once per minute in
* both active and low power modes , regardless of whether your app is in the foreground . You can check the
* current time to determine whether you require a background task . If you return true here , Movement will
* immediately call your loop function with an EVENT_BACKGROUND_TASK event . Note that it will not call your
* activate or deactivate functions , since you are not going on screen .
*
* Examples of background tasks :
* - Wake and play a sound when an alarm or timer has been triggered .
* - Check the state of an RTC interrupt pin or the timestamp of an RTC interrupt event .
* - Log a data point from a sensor , and then return to sleep mode .
*
* Guidelines for background tasks :
* - Assume all peripherals and pins other than the RTC will be disabled when you get an EVENT_BACKGROUND_TASK .
* - Even if your background task involves only the RTC peripheral , try to request background tasks sparingly .
* - If your background task involves an external pin or peripheral , request background tasks no more than once per hour .
* - If you need to enable a pin or a peripheral to perform your task , return it to its original state afterwards .
*
* @ param settings A pointer to the global Movement settings . @ see watch_face_setup .
* @ param context A pointer to your application ' s context . @ see watch_face_setup .
* @ return true to request a background task ; false otherwise .
*/
typedef bool ( * watch_face_wants_background_task ) ( movement_settings_t * settings , void * context ) ;
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typedef struct {
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watch_face_setup setup ;
watch_face_activate activate ;
watch_face_loop loop ;
watch_face_resign resign ;
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watch_face_wants_background_task wants_background_task ;
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} watch_face_t ;
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typedef struct {
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// properties stored in BACKUP register
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movement_settings_t settings ;
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// transient properties
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int16_t current_watch_face ;
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int16_t next_watch_face ;
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bool watch_face_changed ;
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bool fast_tick_enabled ;
int16_t fast_ticks ;
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// LED stuff
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int16_t light_ticks ;
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// alarm stuff
int16_t alarm_ticks ;
bool is_buzzing ;
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BuzzerNote alarm_note ;
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// button tracking for long press
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uint16_t light_down_timestamp ;
uint16_t mode_down_timestamp ;
uint16_t alarm_down_timestamp ;
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// background task handling
bool needs_background_tasks_handled ;
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bool has_scheduled_background_task ;
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bool needs_wake ;
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// low energy mode countdown
int32_t le_mode_ticks ;
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// app resignation countdown (TODO: consolidate with LE countdown?)
int16_t timeout_ticks ;
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// stuff for subsecond tracking
uint8_t tick_frequency ;
uint8_t last_second ;
uint8_t subsecond ;
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// backup register stuff
uint8_t next_available_backup_register ;
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} movement_state_t ;
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void movement_move_to_face ( uint8_t watch_face_index ) ;
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void movement_move_to_next_face ( void ) ;
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bool movement_default_loop_handler ( movement_event_t event , movement_settings_t * settings ) ;
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void movement_illuminate_led ( void ) ;
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void movement_request_tick_frequency ( uint8_t freq ) ;
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// note: watch faces can only schedule a background task when in the foreground, since
// movement will associate the scheduled task with the currently active face.
void movement_schedule_background_task ( watch_date_time date_time ) ;
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// note: watch faces can only cancel their background task when in the foreground, since
// movement will associate the scheduled task with the currently active face.
void movement_cancel_background_task ( void ) ;
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// these functions should work around the limitation of the above functions, which will be deprecated.
void movement_schedule_background_task_for_face ( uint8_t watch_face_index , watch_date_time date_time ) ;
void movement_cancel_background_task_for_face ( uint8_t watch_face_index ) ;
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void movement_request_wake ( void ) ;
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void movement_play_signal ( void ) ;
void movement_play_alarm ( void ) ;
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void movement_play_alarm_beeps ( uint8_t rounds , BuzzerNote alarm_note ) ;
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uint8_t movement_claim_backup_register ( void ) ;
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# endif // MOVEMENT_H_