Mercurial > public > hwos_code
view src/compass_ops.asm @ 239:6c4ad243cb44
CNANGE: aGF pair has same range then normal GF pair
Work on graphic compass
| author | heinrichsweikamp |
|---|---|
| date | Sun, 01 Mar 2015 21:10:14 +0100 |
| parents | a17359244d93 |
| children | 5b4ef0b9090d |
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#include "ostc3.inc" #include "i2c.inc" #include "tft_outputs.inc" #include "isr.inc" #include "tft.inc" #include "strings.inc" #include "wait.inc" ; speed_* #include "surfmode.inc" ; Make sure symbols from the .inc are available to the C code: ; Filtered data global compass_DX_f, compass_DY_f, compass_DZ_f global accel_DX_f, accel_DY_f, accel_DZ_f ; Calibration data global compass_CX_f global compass_CY_f global compass_CZ_f ; Tmp values to pass Q15 arithmetics around global compass_a global compass_b ; Result global compass_heading; , compass_roll, compass_pitch extern compass extern compass_reset_calibration extern compass_add_calibration extern compass_solve_calibration compass code ;----------------------------------------------------------------------------- ; Filter compass values ; ; Apply linear filtering to input parameters. ; Apply filtering formula: ; reg_f += (reg - reg_f) / 4 FILTER16 MACRO reg, reg_f movf reg_f+0,W subwf reg+0,W movwf PRODL movf reg_f+1,W subwfb reg+1,W rcall filter_16_common addwf reg_f+0,F movf PRODH,W addwfc reg_f+1,F ENDM filter_16_common: movwf PRODH bcf STATUS,C ; Copy sign bit into carry btfsc PRODH,7 bsf STATUS,C rrcf PRODH,F ; 16bit shift right rrcf PRODL,F bcf STATUS,C ; Copy sign bit into carry btfsc PRODH,7 bsf STATUS,C rrcf PRODH,F ; 16bit shift right rrcf PRODL,W return global compass_filter compass_filter: banksel compass_DX FILTER16 compass_DX, compass_DX_f FILTER16 compass_DY, compass_DY_f FILTER16 compass_DZ, compass_DZ_f FILTER16 accel_DX, accel_DX_f FILTER16 accel_DY, accel_DY_f FILTER16 accel_DZ, accel_DZ_f banksel common return ;----------------------------------------------------------------------------- compass_filter_init: movff compass_DX+0, compass_DX_f+0 movff compass_DX+1, compass_DX_f+1 movff compass_DY+0, compass_DY_f+0 movff compass_DY+1, compass_DY_f+1 movff compass_DZ+0, compass_DZ_f+0 movff compass_DZ+1, compass_DZ_f+1 movff accel_DX+0, accel_DX_f+0 movff accel_DX+1, accel_DX_f+1 movff accel_DY+0, accel_DY_f+0 movff accel_DY+1, accel_DY_f+1 movff accel_DZ+0, accel_DZ_f+0 movff accel_DZ+1, accel_DZ_f+1 return ;----------------------------------------------------------------------------- ; Q15 fractional numbers: a * b / 2**16 (UNSIGNED) ; ; Uses 16x16->16 multiply, for positiv integers, keeping only the most ; revelant bits. ; ; Used to multiply two Q15 numbers, in the range 0..1, ; represented as 0..32767, that is a / 2**15. ; ; (a/2**15) * (b/2**15) = a*b / 2**30 = (a*b/2**16) / 2**14. ; So to get back a Q15 number, we need a shift-left... global compass_umul compass_umul: rcall compass_mul_16 ; The 2x time, by left-shifting inserting the missing bit: compass_mul_2: rlcf compass_r+2,F ; Missing bit into carry rlcf compass_r+0,F rlcf compass_r+1,F movff compass_r+0,PRODL ; return value into ProdH:L movff compass_r+1,PRODH return ; The 16x16-> multiply: compass_mul_16: banksel compass_a movf compass_a+1,W ; Block ah*bh mulwf compass_b+1 movff PRODL,compass_r+0 ; and copy movff PRODH,compass_r+1 movf compass_a+0,W ; Block al*bl mulwf compass_b+0 movff PRODH,compass_r+2 ; Into fraction byte movf compass_a+1,W ; Block ah*bl mulwf compass_b+0 movf PRODL,W addwf compass_r+2,F ; Fraction part to carry. movf PRODH,W ; and add16 addwfc compass_r+0,F movlw 0 addwfc compass_r+1,F movf compass_a+0,W ; Block al*bh mulwf compass_b+1 movf PRODL,W addwf compass_r+2,F ; Fraction part to carry. movf PRODH,W ; and add16 addwfc compass_r+0,F movlw 0 addwfc compass_r+1,F return ;----------------------------------------------------------------------------- ; Q15 fractional numbers: a * b / 2**16 (SIGNED) global compass_imul compass_imul: rcall compass_mul_16 btfss compass_b+1,7 bra compass_mul_3 movf compass_a+0,W subwf compass_r+0,F movf compass_a+1,W subwfb compass_r+1,F compass_mul_3: btfss compass_a+1,7 bra compass_mul_4 movf compass_b+0,W subwf compass_r+0,F movf compass_b+1,W subwfb compass_r+1,F compass_mul_4: bcf compass_r+1,6 ; Copy bit 7 to 6, so keep it after 2x btfsc compass_r+1,7 bsf compass_r+1,6 bra compass_mul_2 global compass_calibration_loop compass_calibration_loop: ; Compass calibration bsf no_sensor_int ; No Sensor ISR call I2C_sleep_accelerometer ; Stop accelerometer call I2C_sleep_compass ; Stop compass call TFT_ClearScreen ; Mask WIN_COLOR color_greenish WIN_SMALL .16,.0 STRCPY_TEXT_PRINT tCompassMenu btfss switch_right2 ; wait until button is released bra $-4 call TFT_standard_color ; WIN_SMALL .0,.215 ; STRCPY_TEXT_PRINT tExit WAITMS d'255' WAITMS d'255' movlw .7 ; Gain init movff WREG,opt_compass_gain compass_calibration_gainset: ; Reduce the gain, set bank here! banksel opt_compass_gain decf opt_compass_gain,F ; Reduce by one btfsc STATUS,N ; <0? clrf opt_compass_gain ; Yes, keep at zero banksel common call I2C_init_accelerometer call I2C_init_compass_fast call TFT_compass_show_gain ; Show the current compass gain WAITMS d'100' clrf timeout_counter2 clrf timeout_counter3 call speed_fastest call I2C_RX_compass ; read compass call I2C_RX_accelerometer ; read Accelerometer ; Test all axes for +4096 (Hi byte=16) banksel compass_DX+1 movlw .16 cpfseq compass_DX+1 bra $+4 bra compass_calibration_gainset cpfseq compass_DY+1 bra $+4 bra compass_calibration_gainset cpfseq compass_DZ+1 bra $+4 bra compass_calibration_gainset ; Test all axes for -4096 (Hi byte=240) movlw .240 cpfseq compass_DX+1 bra $+4 bra compass_calibration_gainset cpfseq compass_DY+1 bra $+4 bra compass_calibration_gainset cpfseq compass_DZ+1 bra $+4 bra compass_calibration_gainset banksel common rcall compass_filter_init ; set DX_f values call compass_reset_calibration ; Reset CX_f values banksel common compass_calibration_loop2: call I2C_RX_compass ; read compass call I2C_RX_accelerometer ; Test Accelerometer rcall compass_filter ; Filter compass raw data banksel common ; Twice call I2C_RX_compass ; read compass call I2C_RX_accelerometer ; Test Accelerometer rcall compass_filter ; Filter compass raw data banksel common ; Test all axes for +4096 (Hi byte=16) banksel compass_DX+1 movlw .16 cpfseq compass_DX+1 bra $+4 bra compass_calibration_gainset cpfseq compass_DY+1 bra $+4 bra compass_calibration_gainset cpfseq compass_DZ+1 bra $+4 bra compass_calibration_gainset ; Test all axes for -4096 (Hi byte=240) movlw .240 cpfseq compass_DX+1 bra $+4 bra compass_calibration_gainset cpfseq compass_DY+1 bra $+4 bra compass_calibration_gainset cpfseq compass_DZ+1 bra $+4 bra compass_calibration_gainset banksel common ; ; ; Three ; call I2C_RX_compass ; read compass ; call I2C_RX_accelerometer ; Test Accelerometer ; call compass_filter ; Filter compass raw data ; banksel common ; ; ; Four times to get cleaner values ; call I2C_RX_compass ; read compass ; call I2C_RX_accelerometer ; Test Accelerometer ; call compass_filter ; Filter compass raw data ; And register only one value out of four: call compass_add_calibration ; check and store new max/min values banksel common call TFT_compass_fast ; show values btfsc sleepmode ; Sleepmode active? bra compass_calibration_exit ; Yes, exit ; btfsc switch_left ; Button pressed? ; bra compass_calibration_exit ; Yes, exit btfss onesecupdate ; do every second tasks? bra compass_calibration_loop2 ; no, loop here movlw .60 call timeout_testmode ; check timeout movlw .60 call TFT_show_timeout_testmode ; Show the timeout bcf onesecupdate ; clear flag bra compass_calibration_loop2 ; loop here compass_calibration_exit: call compass_solve_calibration banksel common extern option_save_all call option_save_all ; save all settings into EEPROM bcf sleepmode ; Clear the flag before exiting to surfacemode movlw .6 movwf customview_surfmode ; Set to compass view... goto surfloop ; ...and exit END