RTEMS
5.1
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Macros | |
#define | CPU_USE_GENERIC_BITFIELD_CODE TRUE |
#define | _CPU_Bitfield_Find_first_bit(_value, _output) |
This set of routines are used to implement fast searches for the most important ready task.
This routine translates the bit numbers returned by _CPU_Bitfield_Find_first_bit into something suitable for use as a major or minor component of a priority. See the discussion for that routine.
[in] | _priority | is the major or minor number to translate |
Port Specific Information:
XXX document implementation including references if appropriate
#define _CPU_Bitfield_Find_first_bit | ( | _value, | |
_output | |||
) |
This routine sets _output to the bit number of the first bit set in _value. _value is of CPU dependent type Priority_bit_map_Word. This type may be either 16 or 32 bits wide although only the 16 least significant bits will be used.
There are a number of variables in using a "find first bit" type instruction.
RTEMS guarantees that (1) will never happen so it is not a concern. (2),(3), (4) are handled by the macros _CPU_Priority_Mask and _CPU_Priority_bits_index. These three form a set of routines which must logically operate together. Bits in the _value are set and cleared based on masks built by _CPU_Priority_Mask. The basic major and minor values calculated by _Priority_Major and _Priority_Minor are "massaged" by _CPU_Priority_bits_index to properly range between the values returned by the "find first bit" instruction. This makes it possible for _Priority_Get_highest to calculate the major and directly index into the minor table. This mapping is necessary to ensure that 0 (a high priority major/minor) is the first bit found.
This entire "find first bit" and mapping process depends heavily on the manner in which a priority is broken into a major and minor components with the major being the 4 MSB of a priority and minor the 4 LSB. Thus (0 << 4) + 0 corresponds to priority 0 – the highest priority. And (15 << 4) + 14 corresponds to priority 254 – the next to the lowest priority.
If your CPU does not have a "find first bit" instruction, then there are ways to make do without it. Here are a handful of ways to implement this in software:
- a series of 16 bit test instructions - a "binary search using if's" - _number = 0 if _value > 0x00ff _value >>=8 _number = 8; if _value > 0x0000f _value >=8 _number += 4 _number += bit_set_table[ _value ]
where bit_set_table[ 16 ] has values which indicate the first bit set
[in] | _value | is the value to be scanned |
[in] | _output | is the first bit set |
Port Specific Information:
XXX document implementation including references if appropriate
#define CPU_USE_GENERIC_BITFIELD_CODE TRUE |
This definition is set to TRUE if the port uses the generic bitfield manipulation implementation.