* is 16 bits, but aligned on a 32 bit PCI boundary
*/
-typedef s32 s_val_t;
-
static inline u16 get_u16(volatile const u32 * p)
{
return (u16) readl(p);
writel(val, p);
}
-static inline s16 get_s16(volatile const s_val_t * p)
+static inline s16 get_s16(volatile const s32 * p)
{
return (s16) readl(p);
}
-static inline void set_s16(volatile s_val_t * p, s16 val)
+static inline void set_s16(volatile s32 * p, s16 val)
{
writel(val, p);
}
typedef struct raw_channel {
u32 raw_time;
- s_val_t raw_data;
- s_val_t reserved[2];
+ s32 raw_data;
+ s32 reserved[2];
} raw_channel_t;
/* The force_array structure shows the layout for the decoupled and
* filtered force data.
*/
typedef struct force_array {
- s_val_t fx;
- s_val_t fy;
- s_val_t fz;
- s_val_t mx;
- s_val_t my;
- s_val_t mz;
- s_val_t v1;
- s_val_t v2;
+ s32 fx;
+ s32 fy;
+ s32 fz;
+ s32 mx;
+ s32 my;
+ s32 mz;
+ s32 v1;
+ s32 v2;
} force_array_t;
/* The six_axis_array structure shows the layout for the offsets and
* the full scales.
*/
typedef struct six_axis_array {
- s_val_t fx;
- s_val_t fy;
- s_val_t fz;
- s_val_t mx;
- s_val_t my;
- s_val_t mz;
+ s32 fx;
+ s32 fy;
+ s32 fz;
+ s32 mx;
+ s32 my;
+ s32 mz;
} six_axis_array_t;
/* VECT_BITS */
typedef struct {
struct {
u32 link_type;
- s_val_t link_amount;
+ s32 link_amount;
} link[8];
} intern_transform_t;
/* copyright notice. */
u32 copyright[0x0018]; /* offset 0x0040 */
- s_val_t reserved1[0x0008]; /* offset 0x0058 */
+ s32 reserved1[0x0008]; /* offset 0x0058 */
/* Shunts contains the sensor shunt readings. Some JR3 sensors have
* the ability to have their gains adjusted. This allows the
/* not set a full scale. */
six_axis_array_t default_FS; /* offset 0x0068 */
- s_val_t reserved3; /* offset 0x006e */
+ s32 reserved3; /* offset 0x006e */
/* Load_envelope_num is the load envelope number that is currently
* in use. This value is set by the user after one of the load
* envelopes has been initialized.
*/
- s_val_t load_envelope_num; /* offset 0x006f */
+ s32 load_envelope_num; /* offset 0x006f */
/* Min_full_scale is the recommend minimum full scale. */
*/
six_axis_array_t min_full_scale; /* offset 0x0070 */
- s_val_t reserved4; /* offset 0x0076 */
+ s32 reserved4; /* offset 0x0076 */
/* Transform_num is the transform number that is currently in use.
* This value is set by the JR3 DSP after the user has used command
* (5) use transform # (pg. 33).
*/
- s_val_t transform_num; /* offset 0x0077 */
+ s32 transform_num; /* offset 0x0077 */
/* Max_full_scale is the recommended maximum full scale. See */
/* min_full_scale (pg. 9) for more details. */
six_axis_array_t max_full_scale; /* offset 0x0078 */
- s_val_t reserved5; /* offset 0x007e */
+ s32 reserved5; /* offset 0x007e */
/* Peak_address is the address of the data which will be monitored
* by the peak routine. This value is set by the user. The peak
* (ex. to watch filter3 data for peaks, set this value to 0x00a8).
*/
- s_val_t peak_address; /* offset 0x007f */
+ s32 peak_address; /* offset 0x007f */
/* Full_scale is the sensor full scales which are currently in use.
* Decoupled and filtered data is scaled so that +/- 16384 is equal
* offset # command (pg. 34). It can vary between 0 and 15.
*/
- s_val_t offset_num; /* offset 0x008e */
+ s32 offset_num; /* offset 0x008e */
/* Vect_axes is a bit map showing which of the axes are being used
* in the vector calculations. This value is set by the JR3 DSP
* sat_value = 32768 - 2^(16 - ADC bits)
*/
- s_val_t near_sat_value; /* offset 0x00e0 */
- s_val_t sat_value; /* offset 0x00e1 */
+ s32 near_sat_value; /* offset 0x00e0 */
+ s32 sat_value; /* offset 0x00e1 */
/* Rate_address, rate_divisor & rate_count contain the data used to
* control the calculations of the rates. Rate_address is the
* will minimize the time necessary to start the rate calculations.
*/
- s_val_t rate_address; /* offset 0x00e2 */
+ s32 rate_address; /* offset 0x00e2 */
u32 rate_divisor; /* offset 0x00e3 */
u32 rate_count; /* offset 0x00e4 */
* command_word1).
*/
- s_val_t command_word2; /* offset 0x00e5 */
- s_val_t command_word1; /* offset 0x00e6 */
- s_val_t command_word0; /* offset 0x00e7 */
+ s32 command_word2; /* offset 0x00e5 */
+ s32 command_word1; /* offset 0x00e6 */
+ s32 command_word0; /* offset 0x00e7 */
/* Count1 through count6 are unsigned counters which are incremented
* every time the matching filters are calculated. Filter1 is
* (pg. 23) for more details.
*/
- s_val_t threshold_bits; /* offset 0x00f2 */
+ s32 threshold_bits; /* offset 0x00f2 */
/* Last_crc is the value that shows the actual calculated CRC. CRC
* is short for cyclic redundancy code. It should be zero. See the
* description for cal_crc_bad (pg. 21) for more information.
*/
- s_val_t last_CRC; /* offset 0x00f3 */
+ s32 last_CRC; /* offset 0x00f3 */
/* EEProm_ver_no contains the version number of the sensor EEProm.
* EEProm version numbers can vary between 0 and 255.
* 3.02 would be stored as 302.
*/
- s_val_t eeprom_ver_no; /* offset 0x00f4 */
- s_val_t software_ver_no; /* offset 0x00f5 */
+ s32 eeprom_ver_no; /* offset 0x00f4 */
+ s32 software_ver_no; /* offset 0x00f5 */
/* Software_day & software_year are the release date of the software
* the JR3 DSP is currently running. Day is the day of the year,
* years.
*/
- s_val_t software_day; /* offset 0x00f6 */
- s_val_t software_year; /* offset 0x00f7 */
+ s32 software_day; /* offset 0x00f6 */
+ s32 software_year; /* offset 0x00f7 */
/* Serial_no & model_no are the two values which uniquely identify a
* sensor. This model number does not directly correspond to the JR3
* 366 for leap years.
*/
- s_val_t cal_day; /* offset 0x00fa */
- s_val_t cal_year; /* offset 0x00fb */
+ s32 cal_day; /* offset 0x00fa */
+ s32 cal_year; /* offset 0x00fb */
/* Units is an enumerated read only value defining the engineering
* units used in the sensor full scale. The meanings of particular
*/
u32 units; /* offset 0x00fc */
- s_val_t bits; /* offset 0x00fd */
- s_val_t channels; /* offset 0x00fe */
+ s32 bits; /* offset 0x00fd */
+ s32 channels; /* offset 0x00fe */
/* Thickness specifies the overall thickness of the sensor from
* flange to flange. The engineering units for this value are
* transformation from the center of the sensor to either flange.
*/
- s_val_t thickness; /* offset 0x00ff */
+ s32 thickness; /* offset 0x00ff */
/* Load_envelopes is a table containing the load envelope
* descriptions. There are 16 possible load envelope slots in the
projects / mv-sheeva.git / commitdiff