uncrustify libraries/AP_OpticalFlow/AP_OpticalFlow_ADNS3080.h

This commit is contained in:
uncrustify 2012-08-16 23:20:51 -07:00 committed by Pat Hickey
parent 6cce7d3a04
commit 9d29effd2b
1 changed files with 43 additions and 41 deletions

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@ -26,7 +26,7 @@
// ADNS3080 hardware config
#define ADNS3080_PIXELS_X 30
#define ADNS3080_PIXELS_Y 30
#define ADNS3080_CLOCK_SPEED 24000000
#define ADNS3080_CLOCK_SPEED 24000000
// Register Map for the ADNS3080 Optical OpticalFlow Sensor
#define ADNS3080_PRODUCT_ID 0x00
@ -65,69 +65,71 @@
#define ADNS3080_LED_MODE_ALWAYS_ON 0x00
#define ADNS3080_LED_MODE_WHEN_REQUIRED 0x01
#define ADNS3080_RESOLUTION_400 400
#define ADNS3080_RESOLUTION_1600 1600
#define ADNS3080_RESOLUTION_400 400
#define ADNS3080_RESOLUTION_1600 1600
// Extended Configuration bits
#define ADNS3080_SERIALNPU_OFF 0x02
#define ADNS3080_SERIALNPU_OFF 0x02
#define ADNS3080_FRAME_RATE_MAX 6469
#define ADNS3080_FRAME_RATE_MIN 2000
class AP_OpticalFlow_ADNS3080 : public AP_OpticalFlow
{
private:
private:
// bytes to store SPI settings
byte orig_spi_settings_spcr;
byte orig_spi_settings_spsr;
byte orig_spi_settings_spcr;
byte orig_spi_settings_spsr;
// save and restore SPI settings
byte backup_spi_settings();
byte restore_spi_settings();
// save and restore SPI settings
byte backup_spi_settings();
byte restore_spi_settings();
public:
int _cs_pin; // pin used for chip select
int _reset_pin; // pin used for chip reset
bool _motion; // true if there has been motion
bool _overflow; // true if the x or y data buffers overflowed
public:
int _cs_pin; // pin used for chip select
int _reset_pin; // pin used for chip reset
bool _motion; // true if there has been motion
bool _overflow; // true if the x or y data buffers overflowed
public:
AP_OpticalFlow_ADNS3080(int cs_pin = ADNS3080_CHIP_SELECT, int reset_pin = ADNS3080_RESET);
bool init(bool initCommAPI = true); // parameter controls whether I2C/SPI interface is initialised (set to false if other devices are on the I2C/SPI bus and have already initialised the interface)
byte read_register(byte address);
void write_register(byte address, byte value);
void reset(); // reset sensor by holding a pin high (or is it low?) for 10us.
bool update(); // read latest values from sensor and fill in x,y and totals, return true on successful read
public:
AP_OpticalFlow_ADNS3080(int cs_pin = ADNS3080_CHIP_SELECT, int reset_pin = ADNS3080_RESET);
bool init(bool initCommAPI = true); // parameter controls whether I2C/SPI interface is initialised (set to false if other devices are on the I2C/SPI bus and have already initialised the interface)
byte read_register(byte address);
void write_register(byte address, byte value);
void reset(); // reset sensor by holding a pin high (or is it low?) for 10us.
bool update(); // read latest values from sensor and fill in x,y and totals, return true on successful read
// ADNS3080 specific features
bool motion() { if( _motion ) { _motion = false; return true; }else{ return false; } } // return true if there has been motion since the last time this was called
// ADNS3080 specific features
bool motion() {
if( _motion ) { _motion = false; return true; }else{ return false; }
} // return true if there has been motion since the last time this was called
void disable_serial_pullup();
void disable_serial_pullup();
bool get_led_always_on(); // returns true if LED is always on, false if only on when required
void set_led_always_on( bool alwaysOn ); // set parameter to true if you want LED always on, otherwise false for only when required
bool get_led_always_on(); // returns true if LED is always on, false if only on when required
void set_led_always_on( bool alwaysOn ); // set parameter to true if you want LED always on, otherwise false for only when required
int get_resolution(); // returns resolution (either 400 or 1600 counts per inch)
void set_resolution(int resolution); // set parameter to 400 or 1600 counts per inch
int get_resolution(); // returns resolution (either 400 or 1600 counts per inch)
void set_resolution(int resolution); // set parameter to 400 or 1600 counts per inch
bool get_frame_rate_auto(); // get_frame_rate_auto - return true if frame rate is set to "auto", false if manual
void set_frame_rate_auto(bool auto_frame_rate); // set_frame_rate_auto(bool) - set frame rate to auto (true), or manual (false)
bool get_frame_rate_auto(); // get_frame_rate_auto - return true if frame rate is set to "auto", false if manual
void set_frame_rate_auto(bool auto_frame_rate); // set_frame_rate_auto(bool) - set frame rate to auto (true), or manual (false)
unsigned int get_frame_period(); // get_frame_period -
void set_frame_period(unsigned int period);
unsigned int get_frame_period(); // get_frame_period -
void set_frame_period(unsigned int period);
unsigned int get_frame_rate();
void set_frame_rate(unsigned int rate);
unsigned int get_frame_rate();
void set_frame_rate(unsigned int rate);
bool get_shutter_speed_auto(); // get_shutter_speed_auto - returns true if shutter speed is adjusted automatically, false if manual
void set_shutter_speed_auto(bool auto_shutter_speed); // set_shutter_speed_auto - set shutter speed to auto (true), or manual (false)
bool get_shutter_speed_auto(); // get_shutter_speed_auto - returns true if shutter speed is adjusted automatically, false if manual
void set_shutter_speed_auto(bool auto_shutter_speed); // set_shutter_speed_auto - set shutter speed to auto (true), or manual (false)
unsigned int get_shutter_speed();
void set_shutter_speed(unsigned int shutter_speed);
unsigned int get_shutter_speed();
void set_shutter_speed(unsigned int shutter_speed);
void clear_motion(); // will cause the x,y, dx, dy, and the sensor's motion registers to be cleared
void clear_motion(); // will cause the x,y, dx, dy, and the sensor's motion registers to be cleared
void print_pixel_data(Stream *serPort); // dumps a 30x30 image to the Serial port
void print_pixel_data(Stream *serPort); // dumps a 30x30 image to the Serial port
};
#endif