Mercurial > public > hwos_code
diff src/rx_ops.asm @ 604:ca4556fb60b9
bump to 2.99beta, work on 3.00 stable
| author | heinrichsweikamp |
|---|---|
| date | Thu, 22 Nov 2018 19:47:26 +0100 |
| parents | |
| children | c40025d8e750 |
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--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/src/rx_ops.asm Thu Nov 22 19:47:26 2018 +0100 @@ -0,0 +1,591 @@ +;============================================================================= +; +; File rx_ops.asm V2.99c +; +; RX (Tank Pressure Transmitter) Routines. +; +; Copyright (c) 2018, heinrichs weikamp, all right reserved. +;============================================================================= + +#include "hwos.inc" ; mandatory header +#include "shared_definitions.h" ; mailbox to p2_deco.c +#include "i2c.inc" +#include "math.inc" +#include "isr.inc" + + extern get_first_gas_to_WREG + extern get_first_dil_to_WREG + + +; SAC calculation averaging settings +#DEFINE time_accu_target_OC .60 ; [s] target time accumulator filling level in OC modes +#DEFINE time_accu_target_CCR .180; [s] target time accumulator filling level in CCR mode + + +rx_ops CODE + + IFDEF _rx_functions + +;============================================================================= +; Get configured pressure readings +; +; input : opt_TR_1st_pres - selector for first pressure reading, in normal mode +; opt_TR_Bail_pres - selector for first pressure reading, in bailout mode +; opt_TR_2nd_pres - selector for second pressure reading, all modes +; +; output: int_IO_pressure_value+0/+2 - pressure in 0.1 bar, low byte +; int_IO_pressure_value+1/+3 - pressure in 0.1 bar, high byte, including data not available flag +; char_I_pressure_gas +0/+1 - associated gas (1-5) / diluent (6-10) +; char_I_pressure_age +0/+1 - age of data in seconds (max 60) +; char_I_pressure_stat +0/+1 - status data +; + global get_pressure_readings +get_pressure_readings: + call I2C_get_tankdata ; get raw pressure data +get_pressure_readings_1: + movff opt_TR_1st_pres,ul ; 1st pressure to read + btfsc FLAG_bailout_mode ; in bailout mode? + movff opt_TR_Bail_pres,ul ; YES - replace with assigned bailout selection + tstfsz ul ; disabled? + bra get_pressure_readings_1a ; NO - get received pressure data + rcall get_pressure_readings_H1 ; YES - set pressure data to not available + bra get_pressure_readings_1c ; - continue with copying to result vars +get_pressure_readings_1a: + movlw .11 ; first code for "special" pressures + cpfslt ul ; opt_TR_1st_pres < 11 ? + rcall get_pressure_readings_H2 ; NO - pre-process measurement selection + rcall get_pressure_readings_H3 ; get transmitter ID + rcall get_pres_by_transmitter_id ; get data from transmitter with ID in hi:lo into hi:lo (pressure) and up (status) +get_pressure_readings_1c: + movff lo,int_IO_pressure_value+0 ; copy pressure, low byte + movff hi,int_IO_pressure_value+1 ; copy pressure, high byte + movff ul,char_I_pressure_gas+0 ; copy associated gas number + movff up,char_I_pressure_age+0 ; copy age of data + movff ex,char_I_pressure_stat+0 ; copy status data +get_pressure_readings_2: + movff opt_TR_2nd_pres,ul ; 2nd pressure to read + tstfsz ul ; disabled? + bra get_pressure_readings_2a ; NO - get received pressure data + rcall get_pressure_readings_H1 ; YES - set pressure data to not available + bra get_pressure_readings_2c ; - continue with copying to result vars +get_pressure_readings_2a: + movlw .11 ; first code for "special" pressures + cpfslt ul ; opt_TR_2nd_pres < 11 ? + rcall get_pressure_readings_H2 ; NO - pre-process measurement selection + btfss ul,7 ; gas selector >= 127 (special treatment)? + bra get_pressure_readings_2b ; NO - proceed reading a pressure + rcall get_pressure_readings_H1 ; YES - set pressure data to not available + bra get_pressure_readings_2c ; - continue wit copying to output data +get_pressure_readings_2b: + rcall get_pressure_readings_H3 ; get transmitter ID + rcall get_pres_by_transmitter_id ; get data from transmitter with ID in hi:lo into hi:lo (pressure) and up (status) +get_pressure_readings_2c: + movff lo,int_IO_pressure_value+2 ; copy pressure, low byte + movff hi,int_IO_pressure_value+3 ; copy pressure, high byte + movff ul,char_I_pressure_gas+1 ; copy associated gas number + movff up,char_I_pressure_age+1 ; copy age of data + movff ex,char_I_pressure_stat+1 ; copy status data + return + +get_pressure_readings_H1: + clrf lo ; set pressure to 0 (low byte) + clrf hi ; set pressure to 0 (high byte) + clrf up ; set age to 0 + clrf ex ; set status to 0 + bsf hi,int_not_avail_flag ; set flag for data not available + return + +get_pressure_readings_H2: + movlw .11 + subwf ul,F + bnz get_pressure_readings_H2a + call get_first_gas_to_WREG ; ul = 11 -> ul = (get_first_gas_to_WREG) + movwf ul + return +get_pressure_readings_H2a: + decfsz ul,F + bra get_pressure_readings_H2b + movff active_gas,ul ; ul = 12 -> ul = active_gas + return +get_pressure_readings_H2b: + decfsz ul,F + bra get_pressure_readings_H2c + call get_first_dil_to_WREG ; ul = 13 -> ul = (get_first_dil_to_WREG) + 5 + movwf ul + movlw .5 + addwf ul,F + return +get_pressure_readings_H2c: + decfsz ul,F + bra get_pressure_readings_H2d + movff active_dil,ul ; ul = 14 -> ul = active_dil + 5 + movlw .5 + addwf ul,F + return +get_pressure_readings_H2d: + movlw .1 + movwf ul ; ul >= 15 -> should not happen, default to ul = 1 + return + +get_pressure_readings_H3: + lfsr FSR1,opt_transmitter_id_1 ; load base address of transmitter ID array + decf ul,W ; (1-10) -> (0-9) + mullw .2 ; IDs are 2 byte in size + movf PRODL,W ; WREG is index now + movff PLUSW1,lo ; get transmitter ID (low byte) + incf WREG,W ; increment index + movff PLUSW1,hi ; get transmitter ID (high byte) + return + + +;============================================================================= +; Get data from transmitter with ID in (hi:lo) +; +; input: hi:lo = transmitter ID +; +; output: hi:lo = pressure in 0.1 bar if return code = 0, else 0 + int_not_avail_flag +; up = packet age if return code = 0, else 0 +; ex = status data if return code = 0, else 0 +; +; return code: 0 transmitter found +; 254 illegal transmitter ID +; 255 transmitter not found +; +; RX slot data: Byte 0 : transmitter ID high byte +; 1 : transmitter ID low byte +; 2 (-> hi) : pressure in 0.1 bar, high byte +; 3 (-> lo) : pressure in 0.1 bar, low byte +; 4 (-> ex) : status data: +; bit 2..0: battery status +; 5..3: sequence counter +; 6: =1 if pressure changed (usage in RX slot data) +; =1 if transmitter not found (usage in output data) +; 7: =1 if pressure sensed (usage in RX slot data) +; =1 if low battery (< 3.0V) (usage in output data) +; 5 (-> up) : age of data in seconds, 0 if slot is unused +; + global get_pres_by_transmitter_id +get_pres_by_transmitter_id: + ; hi:lo zero? + tstfsz hi ; hi <> zero ? + bra output_pressure_1 ; YES - search transmitter + tstfsz lo ; lo <> zero ? + bra output_pressure_1 ; YES - search transmitter + movlw .254 ; NO to both - set return code for invalid transmitter ID + bra output_pressure_6 ; - clear result vars, set data as not available and return +output_pressure_1: + lfsr FSR1,rx_buffer ; load base address of RX buffer + movlw .8 ; 8 RX slots to look at + movwf up ; up will be the loop counter +output_pressure_2: + movf POSTINC1,W ; get high byte of received transmitter ID + cpfseq hi ; match? + bra output_pressure_3 ; NO - check next slot + movf POSTINC1,W ; get low byte byte received transmitter ID + cpfseq lo ; match? + bra output_pressure_4 ; NO - check next slot + ; transmitter found, gather data ; YES - transmitter found, copy: + movff POSTINC1,hi ; - pressure high byte, + movff POSTINC1,lo ; - pressure low byte, + movff POSTINC1,ex ; - status byte, and + movff POSTINC1,up ; - packet age. + movlw rx_packet_overdue_timeout ; - load overdue time + subwf up,W ; - subtract overdue time from packet age + btfss STATUS,N ; - result negative (packet younger than overdue time)? + bsf hi,int_outdated_flag ; NO - set outdated flag + bcf ex,char_transmitter_lost ; - clear transmitter lost flag + bsf ex,char_transmitter_low_bat ; - set low battery warning by default + btfsc ex,1 ; - bit 1 of battery voltage set? + bcf ex,char_transmitter_low_bat ; - YES - revoke low battery warning + btfsc ex,2 ; - bit 2 of battery voltage set? + bcf ex,char_transmitter_low_bat ; - YES - revoke low battery warning + ;bsf ex,char_transmitter_low_bat ; DEBUG CODE TO FAKE A LOW BAT WARNING + retlw .0 ; - return with success code 0 +output_pressure_3: + movf POSTINC1,W ; dummy read to advance FSR0 to byte 2 position +output_pressure_4: + dcfsnz up,F ; decrement loop counter, last slot searched? + bra output_pressure_5 ; YES - return with error code + movf POSTINC1,W ; NO - dummy reads to advance FSR0 to byte 3 (any other code would not be more compact...) + movf POSTINC1,W ; - ... byte 4 + movf POSTINC1,W ; - ... byte 5 + movf POSTINC1,W ; - ... byte 6 = first byte of next slot + bra output_pressure_2 ; - loop +output_pressure_5: + movlw .255 ; return code for transmitter not found + clrf ex ; clear ex (status data) + bsf ex,char_transmitter_lost ; set transmitter status to lost + bra output_pressure_7 +output_pressure_6: + clrf ex ; clear ex (status data) +output_pressure_7: + clrf lo ; clear lo (pressure, low byte) + clrf hi ; clear hi (pressure, high byte) + clrf up ; clear up (age of data) + bsf hi,int_not_avail_flag ; set flag for data not available + return ; done + + +;============================================================================= +; Get transmitter ID in given slot +; +; input : WREG = slot (0-7) +; output : hi:lo = transmitter ID +; + global get_transmitter_id_by_slot +get_transmitter_id_by_slot: + lfsr FSR1,rx_buffer ; load base address of RX buffer + mullw .6 ; multiply WREG with 6 because each slot is 6 bytes in size + movf PRODL,W ; get result into WREG to be used as index (product is 42 at max) + movff PLUSW1,hi ; read transmitter ID high byte + incf WREG,W ; increment index + movff PLUSW1,lo ; read transmitter ID low byte + return + + +;============================================================================= +; Compute average pressure drop from 1st / 2nd reading +; +; Memory Map: +; ------------------------------------------------------------------------------------ +; +; pres_accu_1st res 4 ; accumulator for pressure drop in 1/(160 * 2^16) bar +; pres_accu_2nd res 4 ; accumulator for pressure drop in 1/(160 * 2^16) bar +; time_accu_1st res 1 ; accumulator for reading periods in seconds +; gas__last_1st res 1 ; last gas assignment +; time_accu_2nd res 1 ; accumulator for reading periods in seconds +; gas__last_2nd res 1 ; last gas assignment +; pres_last_1st res 2 ; last pressure reading pressure in 1/160 bar +; pres_last_2nd res 2 ; last pressure reading pressure in 1/160 bar +; time_last_1st res 2 ; last pressure reading time in seconds +; time_last_2nd res 2 ; last pressure reading time in seconds +; +; int_IO_pressure_value [1] res 2 ; current pressure reading in 1/10 bar +; int_IO_pressure_value [2] res 2 ; current pressure reading in 1/10 bar +; int_I_pressure_drop [1] res 2 ; calculated average pressure drop in 1/5120 bar/sec +; int_I_pressure_drop [2] res 2 ; calculated average pressure drop in 1/5120 bar/sec + +; relative positioning of 16 bit ASM variables +#DEFINE offset_FSR1_time_accu .0 ; offset 0 == base address of 1st/2nd +#DEFINE offset_FSR1_gas__last .1 ; offset 1 to base address of 1st/2nd +#DEFINE offset_FSR1_pres_last .4 ; offset 4 ... +#DEFINE offset_FSR1_time_last .8 ; offset 8 ... + +; relative positioning of shared integer variables +#DEFINE offset_FSR2_press_curr .0 ; offset 0 == base address of 1st/2nd +#DEFINE offset_FSR2_press_drop .4 ; offset 4 to base address of 1st/2nd + + +calc_pres_drop_1st: + ; set up base addresses + lfsr FSR0,pres_accu_1st-1 ; load base address - 1 of pressure accumulator + lfsr FSR1,time_accu_1st ; load base address of other ASM variables + lfsr FSR2,int_IO_pressure_value+0; load base address of the shared variables + + ; get the currently assigned gas into lo + movff char_I_pressure_gas+0,lo + + ; get the age of the current reading into hi + movff char_I_pressure_age+0,hi + + ; continue with common part + bra calc_pres_drop_common + +calc_pres_drop_2nd: + ; set up base addresses + lfsr FSR0,pres_accu_2nd-1 ; load base address - 1 of pressure accumulator + lfsr FSR1,time_accu_2nd ; load base address of other ASM variables + lfsr FSR2,int_IO_pressure_value+2; load base address of the shared variables + + ; get the currently assigned gas into lo + movff char_I_pressure_gas+1,lo + + ; get the age of the current reading into hi + movff char_I_pressure_age+1,hi + +calc_pres_drop_common: + ; load the pressure accumulator into xC - FSR0 has been initialized to base address -1 + movff PREINC0,xC+0 ; copy pressure accumulator to xC, lowest byte + movff PREINC0,xC+1 ; copy pressure accumulator to xC, second byte + movff PREINC0,xC+2 ; copy pressure accumulator to xC, third byte + movff PREINC0,xC+3 ; copy pressure accumulator to xC, highest byte + + ; check if the assigned gas has changed + movlw offset_FSR1_gas__last ; load index of last assigned gas + movf PLUSW1,W ; copy last gas to WREG + cpfseq lo ; is current gas = last gas ? + bra calc_pres_drop_reset ; NO - reset everything + + ; check if the pressure reading is activated at all + tstfsz lo ; is there no gas (0=off) assigned to the reading? + bra calc_pres_drop_common_1 ; NO - continue + bra calc_pres_drop_reset ; YES - reset everything + +calc_pres_drop_common_1: + ; load the time accumulator into xB + movff INDF1,xB+0 ; load time accumulator, low byte (had been stored) + clrf xB+1 ; clear time accumulator, high byte (will be reset to 0 each round) + + ; get the current pressure value into divA - after copying, FSR2 will have been restored to initial address + movff POSTINC2,divA+0 ; copy current pressure value to divA, low byte + movff POSTDEC2,divA+1 ; copy current pressure value to divA, high byte + + ; check if the current pressure value is available and not outdated + bsf aux_flag ; set the current pressure value as not available or outdated by default + btfsc divA+1,int_not_avail_flag ; current pressure value not available? + bra calc_pres_drop_common_2 ; YES - skip updating the accumulators with new data + btfsc divA+1,int_outdated_flag ; current pressure outdated? + bra calc_pres_drop_common_2 ; YES - skip updating the accumulators with new data + bcf aux_flag ; NO to both - set current pressure value as available and up-to-date + + ; check if a new reading has been received + movlw .2 ; capture new reading at an age of 2 (age 1 sometimes slips through...) + subwf hi,W ; subtract capture-age from reading age, dump result to WREG + bnz calc_pres_drop_common_2 ; result <> 0 ? YES - skip updating the accumulators + + ; multiply the current pressure with 16 (pre-scaling), this will also remove the flags + movlw .4 ; multiply with 16 = 2^4 + call mult16 ; divA = divA * 2^WREG + + ; get the last pressure value and store the current pressure as the new last pressure value + movlw offset_FSR1_pres_last+0 ; load index of last pressure value, low byte + movff PLUSW1,sub_b+0 ; copy last pressure value to sub_b, low byte + movff divA+0,PLUSW1 ; store current pressure value as new last pressure value, low byte + movlw offset_FSR1_pres_last+1 ; load index of last pressure value, high byte + movff PLUSW1,sub_b+1 ; copy last pressure value to sub_b, high byte + movff divA+1,PLUSW1 ; store current pressure value as new last pressure value, high byte + + ; add the last pressure value to the pressure accumulator: pres_accu (xC) += pres_last (sub_b) * 2^16 + movf sub_b+0,W ; copy pres_last (sub_b) to WREG, low byte + addwf xC+2,F ; add to pres_accu (xC), third byte + movf sub_b+1,W ; copy pres_last (sub_b) to WREG, high byte + addwfc xC+3,F ; add to pres_accu (xC), highest byte + + ; subtract the current pressure from the pressure accumulator: pres_accu (xC) -= pres_curr (divA) * 2^16 + ; -> effectively, the pressure drop during the last measurement period has been added now + bcf neg_flag ; clear neg_flag by default + movf divA+0,W ; copy pres_curr (divA) to WREG, low byte + subwf xC+2,F ; subtract from pres_accu (xC), third byte + movf divA+1,W ; copy pres_curr (divA) to WREG, high byte + subwfb xC+3,F ; subtract from pres_accu (xC), highest byte + btfss STATUS,C ; did the accumulator under-run (result negative)? + bsf neg_flag ; YES - memorize this + + ; get the current time into lo + SAFE_2BYTE_COPY total_divetime_seconds,lo ; get current total dive time into lo:2 + + ; get the last pressure time and store the current time as the new last pressure time + movlw offset_FSR1_time_last+0 ; load index of last pressure time, low byte + movff PLUSW1,sub_b+0 ; copy last pressure time to sub_b, low byte + movff lo+0,PLUSW1 ; store current time as new last pressure time, low byte + movlw offset_FSR1_time_last+1 ; load index of last pressure time, high byte + movff PLUSW1,sub_b+1 ; copy last pressure time to sub_b, high byte + movff lo+1,PLUSW1 ; store current time as new last pressure time, high byte + + ; did the pressure accumulator under-run before because the current pressure is higher than the accumulator value was? + ; we can not check & abort earlier because the current time needs to be stored along with the current pressure + btfsc neg_flag ; did the pressure accumulator under-run? + bra calc_pres_drop_restart ; YES - reset both accumulators and set average pressure drop to not available + + ; add the current time to the time accumulator: time_accu (xB) += time_curr (lo) + movf lo+0,W ; copy time_curr (lo) to WREG, low byte + addwf xB+0,F ; add to time_accu (xB), low byte + movf lo+1,W ; copy time_curr (lo) to WREG, high byte + addwfc xB+1,F ; add to time_accu (xB), high_byte + + ; subtract the last pressure time from time accumulator: time_accu (xB) -= time_last (sub_b) + movf sub_b+0,W ; copy time_last (sub_b) to WREG, low byte + subwf xB+0,F ; subtract from time_accu (xB), low byte + movf sub_b+1,W ; copy time_last (sub_b) to WREG, high byte + subwfb xB+1,F ; subtract from time_accu (xB), high byte + btfss STATUS,C ; did the accumulator under-run (result negative) because of a wrap-around of the current time? + bra calc_pres_drop_restart ; YES - reset both accumulators and set average pressure drop to not available + + ; check if the time accumulator (xB) is or has become too large + ; this will happen if the last valid pressure reading is older than (256 - time_accu target) seconds + tstfsz xB+1 ; is the time accumulator < 256 [seconds], i.e. high byte = 0 ? + bra calc_pres_drop_restart ; NO - reset both accumulators and set average pressure drop to not available + +calc_pres_drop_common_2: + ; check if the time accumulator is or has become zero to avoid a div/0 + ; as long as no valid pressure value is available, the time accumulator will stay at 0 and the pressure drop calculation kept in reset + movf xB+0,W ; copy time accumulator low byte to WREG, does it set the zero flag? + bz calc_pres_drop_restart ; YES - reset both accumulators and set average pressure drop to not available + + ; duplicate pressure and time accumulators to other variables because xC and xB will get destroyed in div32x16 operation + movff xC+0,lo+0 ; duplicate pres_accu to lo, lowest byte + movff xC+1,lo+1 ; duplicate pres_accu to lo, second byte + movff xC+2,lo+2 ; duplicate pres_accu to lo, third byte + movff xC+3,lo+3 ; duplicate pres_accu to lo, highest byte + movff xB+0,divA+0 ; duplicate time_accu to divA, low byte + movff xB+1,divA+1 ; duplicate time_accu to divA, high byte + + ; calculate average pressure drop: pres_drop (xC) = pres_accu (xC) / time_accu (xB) + call div32x16 ; xC = xC / xB, xC is average pressure drop in 1/(160 * 2^16) bar/sec + + ; is the time accumulator above target level? (only the low byte needs to be evaluated)? + incf ul,W ; load the target threshold, +1 (incf) transforms cpfslt from < to <= operation + cpfslt divA+0 ; is the time accumulator > target threshold ? + rcall calc_pres_drop_reduce_accus ; YES - do an accumulator reduction + + ; do an additional half-rate (every 2nd second) accumulator reduction + btfsc total_divetime_seconds+0,0 ; are we on an even second? + rcall calc_pres_drop_reduce_accus ; YES - do an additional accumulator reduction + + ; store pressure accumulator (lo:4) - FSR0 was left pointing to address of highest byte + movff lo+3,POSTDEC0 ; store pressure accumulator, highest byte + movff lo+2,POSTDEC0 ; store pressure accumulator, third byte + movff lo+1,POSTDEC0 ; store pressure accumulator, second byte + movff lo+0,POSTDEC0 ; store pressure accumulator, lowest byte + + ; store the time accumulator + movff divA+0,INDF1 ; store time accumulator (only the low byte will be stored) + + ; check if the average pressure drop for transfer to p2deco needs to be limited + tstfsz xC+3 ; check if the highest byte is all zero + bra calc_pres_drop_limit ; NO - limit output + btfsc xC+2,7 ; check if the highest bit of the third byte is zero + bra calc_pres_drop_limit ; NO - limit output + + ; pick and adjust the bytes from pres_drop for transfer to p2deco + movff xC+1,divA+0 ; pick second byte of average pressure drop for transfer to p2deco as low byte + movff xC+2,divA+1 ; pick third byte of average pressure drop for transfer to p2deco as high byte + movlw .3 ; divide by 8 = 2^3 + call div16 ; divA = divA / 2^WREG + bra calc_pres_drop_common_3 + +calc_pres_drop_limit: + ; limit output to 0x0FFF + movlw LOW 0x0FFF ; set output to 0x0FFF + movwf divA+0 ; ... + movlw HIGH 0x0FFF ; ... + movwf divA+1 ; ... + bsf divA+1,int_warning_flag ; set warning flag indicating out-of-range + +calc_pres_drop_common_3: + ; set the average pressure drop as not available if the last pressure reading is outdated or not available + btfsc aux_flag ; is the last pressure reading outdated or not available? + bsf divA+1,int_not_avail_flag ; YES - set pressure drop to not available, too + + ; set the average pressure drop as outdated if time_accu (divA) < (target threshold / 2) + rrncf ul,W ; load time accumulator target value / 2 into WREG + decf WREG,W ; subtract 1 to transform cpfsgt from > to >= operation + cpfsgt INDF1 ; time accumulator < (target threshold / 2) ? + bsf divA+1,int_outdated_flag ; YES - set outdated flag + + ; write average pressure drop to p2deco interface + movlw offset_FSR2_press_drop+0 ; load index of average pressure drop, low byte + movff divA+0,PLUSW2 ; store average pressure drop, low byte + movlw offset_FSR2_press_drop+1 ; load index of average pressure drop, high byte + movff divA+1,PLUSW2 ; store average pressure drop, high byte + + ; done + return + + +calc_pres_drop_reduce_accus: + ; subtract 1 second from the time accumulator: time_accu (divA) -= 1 (only the low byte needs to be processed) + decf divA+0,F ; decrement low byte of time_accu + + ; subtract average pressure drop per second from pressure accumulator: press_accu (lo) -= press_drop (xC) + movf xC+0,W ; copy press_drop(xC) to WREG, lowest byte + subwf lo+0,F ; subtract from pres_accu, lowest byte + movf xC+1,W ; copy press_drop(xC) to WREG, second byte + subwfb lo+1,F ; subtract from pres_accu, second byte + movf xC+2,W ; copy press_drop(xC) to WREG, third byte + subwfb lo+2,F ; subtract from pres_accu, third byte + movf xC+3,W ; copy press_drop(xC) to WREG, highest byte + subwfb lo+3,F ; subtract from pres_accu, highest byte + btfsc STATUS,C ; did the buffer under-run (result negative)? + return ; NO - done + clrf lo+0 ; YES - clear pressure accumulator, lowest byte + clrf lo+1 ; - clear pressure accumulator, second byte + clrf lo+2 ; - clear pressure accumulator, third byte + clrf lo+3 ; - clear pressure accumulator, highest byte + return ; - done + +calc_pres_drop_reset: + ; store the current gas as the last gas + movlw offset_FSR1_gas__last ; load index of last gas + movff lo,PLUSW1 ; store current gas as new last gas + + ; clear last pressure value + movlw offset_FSR1_pres_last+0 ; load index of last pressure value, low byte + clrf PLUSW1 ; clear last pressure value, low byte + movlw offset_FSR1_pres_last+1 ; load index of last pressure value, high byte + clrf PLUSW1 ; clear last pressure value, high byte + + ; clear last pressure time + movlw offset_FSR1_time_last+0 ; load index of last pressure time, low byte + clrf PLUSW1 ; clear last pressure time, low byte + movlw offset_FSR1_time_last+1 ; load index of last pressure time, high byte + clrf PLUSW1 ; clear last pressure time, high byte + +calc_pres_drop_restart: + ; clear pressure accumulator - FSR0 was left pointing to address of highest byte + clrf POSTDEC0 ; clear pressure accumulator, highest byte + clrf POSTDEC0 ; clear pressure accumulator, third byte + clrf POSTDEC0 ; clear pressure accumulator, second byte + clrf POSTDEC0 ; clear pressure accumulator, lowest byte + + ; clear time accumulator + clrf INDF1 ; clear time accumulator + + ; clear pressure drop and set it to not available + movlw offset_FSR2_press_drop+0 ; load index of average pressure drop, low byte + clrf PLUSW2 ; clear average pressure drop, low byte + movlw offset_FSR2_press_drop+1 ; load index of average pressure drop, high byte + clrf PLUSW2 ; clear average pressure drop, high byte + bsf PLUSW2,int_not_avail_flag ; set flag for data not available + + return ; done + + +;============================================================================= +; set up SAC calculation dependent on TR mode +; + global configure_sac_calculation +configure_sac_calculation: + movlw time_accu_target_OC ; load time accumulator target value for OC as default + movwf ul ; store it in ul + movff opt_TR_mode,WREG ; get TR mode + dcfsnz WREG,W ; TR mode = 1 (on)? + bra configure_sac_calculation_1 ; YES + dcfsnz WREG,W ; TR mode = 2 (ind.double)? + bra configure_sac_calculation_2 ; YES + dcfsnz WREG,W ; TR mode = 3 (CCR Dil+O2)? + bra configure_sac_calculation_3 ; YES + bra configure_sac_calculation_4 ; NO to all - was disabled then (or invalid) + +configure_sac_calculation_1: ; TR mode 1: calculate SAC on 1st reading + rcall calc_pres_drop_1st ; calculate pressure drop on 1st reading + movlw .1 ; select SAC mode 1: SAC on 1st reading + bra configure_sac_calculation_5 ; goto exit + +configure_sac_calculation_2: ; TR mode 2: independent double + rcall calc_pres_drop_1st ; calculate pressure drop on 1st reading + rcall calc_pres_drop_2nd ; calculate pressure drop on 2nd reading + movlw .3 ; select SAC mode 3: SAC on higher of both readings + bra configure_sac_calculation_5 ; goto exit + +configure_sac_calculation_3: ; TR mode 3: CCR Dil+O2 + btfsc FLAG_bailout_mode ; in bailout? + bra configure_sac_calculation_1 ; YES - handle alike TR mode 1 + movlw time_accu_target_CCR ; load time accumulator target value for CCR mode + movwf ul ; store it in ul + rcall calc_pres_drop_2nd ; calculate pressure drop on 2nd reading + movlw .4 ; select SAC mode 4: SAC on 2nd reading, O2 usage + bra configure_sac_calculation_5 ; goto exit + +configure_sac_calculation_4: + clrf WREG ; select SAC mode 0 (disabled) + +configure_sac_calculation_5: + movff WREG,char_I_SAC_mode ; write SAC mode selection + return + +;============================================================================= + + ENDIF + + END \ No newline at end of file