📄 lcd.asm
字号:
; Archelon URCC C 3.20 2005/04/19
; MSP430 CIF 2005/04/06
; Compiled "E:\Developing\freq\Anti-Tamperring Emeter\key_check_emeter\source_file\lcd.c" Fri Sep 09 15:39:36 2005
;
.dbgseg dbg_syms
.align 0x2
.long 0x6c69662e
.long 0x65
.long 0x1
.long 0x0
.long 0x167fffe
.long 0x0
.long DBG5
.long 0x0
.long 0x0
.long 0x0
; __builtin__ unsigned short _BIS_SR(unsigned short);
; __builtin__ unsigned short _BIC_SR(unsigned short);
; __builtin__ unsigned short _BIS_SR_IRQ(unsigned short);
; __builtin__ unsigned short _BIC_SR_IRQ(unsigned short);
; __builtin__ void _DINT(void);
; __builtin__ void _EINT(void);
; __builtin__ void _NOP(void);
; __builtin__ void _OPC(const unsigned short op);
; __builtin__ short _SWPB(short);
; __builtin__ long _SWPB_LONG(long);
; __builtin__ float _SWPB_FLOAT(float);
; sfrb IE1 = (0x0000) ;
; sfrb IFG1 = (0x0002) ;
; sfrb ME1 = (0x0004) ;
; sfrb IE2 = (0x0001) ;
; sfrb IFG2 = (0x0003) ;
; sfrw WDTCTL = (0x0120) ;
; const sfrb P1IN = (0x0020) ;
; sfrb P1OUT = (0x0021) ;
; sfrb P1DIR = (0x0022) ;
; sfrb P1IFG = (0x0023) ;
; sfrb P1IES = (0x0024) ;
; sfrb P1IE = (0x0025) ;
; sfrb P1SEL = (0x0026) ;
; const sfrb P2IN = (0x0028) ;
; sfrb P2OUT = (0x0029) ;
; sfrb P2DIR = (0x002A) ;
; sfrb P2IFG = (0x002B) ;
; sfrb P2IES = (0x002C) ;
; sfrb P2IE = (0x002D) ;
; sfrb P2SEL = (0x002E) ;
; sfrb BTCTL = (0x0040) ;
; sfrb BTCNT1 = (0x0046) ;
; sfrb BTCNT2 = (0x0047) ;
; sfrb SCFI0 = (0x0050) ;
; sfrb SCFI1 = (0x0051) ;
; sfrb SCFQCTL = (0x0052) ;
; sfrb FLL_CTL0 = (0x0053) ;
; sfrb FLL_CTL1 = (0x0054) ;
; sfrb SVSCTL = (0x0056) ;
; sfrb LCDCTL = (0x0090) ;
; sfrb LCDM1 = (0x0091) ;
; sfrb LCDM2 = (0x0092) ;
; sfrb LCDM3 = (0x0093) ;
; sfrb LCDM4 = (0x0094) ;
; sfrb LCDM5 = (0x0095) ;
; sfrb LCDM6 = (0x0096) ;
; sfrb LCDM7 = (0x0097) ;
; sfrb LCDM8 = (0x0098) ;
; sfrb LCDM9 = (0x0099) ;
; sfrb LCDM10 = (0x009A) ;
; sfrb LCDM11 = (0x009B) ;
; sfrb LCDM12 = (0x009C) ;
; sfrb LCDM13 = (0x009D) ;
; sfrb LCDM14 = (0x009E) ;
; sfrb LCDM15 = (0x009F) ;
; sfrb LCDM16 = (0x00A0) ;
; sfrb LCDM17 = (0x00A1) ;
; sfrb LCDM18 = (0x00A2) ;
; sfrb LCDM19 = (0x00A3) ;
; sfrb LCDM20 = (0x00A4) ;
; sfrb U0CTL = (0x0070) ;
; sfrb U0TCTL = (0x0071) ;
; sfrb U0RCTL = (0x0072) ;
; sfrb U0MCTL = (0x0073) ;
; sfrb U0BR0 = (0x0074) ;
; sfrb U0BR1 = (0x0075) ;
; const sfrb U0RXBUF = (0x0076) ;
; sfrb U0TXBUF = (0x0077) ;
; const sfrw TAIV = (0x012E) ;
; sfrw TACTL = (0x0160) ;
; sfrw TACCTL0 = (0x0162) ;
; sfrw TACCTL1 = (0x0164) ;
; sfrw TACCTL2 = (0x0166) ;
; sfrw TAR = (0x0170) ;
; sfrw TACCR0 = (0x0172) ;
; sfrw TACCR1 = (0x0174) ;
; sfrw TACCR2 = (0x0176) ;
; sfrw FCTL1 = (0x0128) ;
; sfrw FCTL2 = (0x012A) ;
; sfrw FCTL3 = (0x012C) ;
; sfrw MPY = (0x0130) ;
; sfrw MPYS = (0x0132) ;
; sfrw MAC = (0x0134) ;
; sfrw MACS = (0x0136) ;
; sfrw OP2 = (0x0138) ;
; sfrw RESLO = (0x013A) ;
; sfrw RESHI = (0x013C) ;
; const sfrw SUMEXT = (0x013E) ;
; sfrb SD16INCTL0 = (0x00B0) ;
; sfrb SD16INCTL1 = (0x00B1) ;
; sfrb SD16INCTL2 = (0x00B2) ;
; sfrb SD16PRE0 = (0x00B8) ;
; sfrb SD16PRE1 = (0x00B9) ;
; sfrb SD16PRE2 = (0x00BA) ;
; sfrb SD16TRIM1 = (0x00BF) ;
; sfrb SD16CONF0 = (0x00B7) ;
; sfrb SD16CONF1 = (0x00BF) ;
; sfrw SD16CTL = (0x0100) ;
; sfrw SD16CCTL0 = (0x0102) ;
; sfrw SD16CCTL1 = (0x0104) ;
; sfrw SD16CCTL2 = (0x0106) ;
; sfrw SD16IV = (0x0110) ;
; sfrw SD16MEM0 = (0x0112) ;
; sfrw SD16MEM1 = (0x0114) ;
; sfrw SD16MEM2 = (0x0116) ;
; sfrw ESPCTL = (0x0150) ;
; sfrw MBCTL = (0x0152) ;
; sfrw MBIN0 = (0x0154) ;
; sfrw MBIN1 = (0x0156) ;
; sfrw MBOUT0 = (0x0158) ;
; sfrw MBOUT1 = (0x015A) ;
; const sfrw RET0 = (0x01C0) ;
; const sfrw RET1 = (0x01C2) ;
; const sfrw RET2 = (0x01C4) ;
; const sfrw RET3 = (0x01C6) ;
; const sfrw RET4 = (0x01C8) ;
; const sfrw RET5 = (0x01CA) ;
; const sfrw RET6 = (0x01CC) ;
; const sfrw RET7 = (0x01CE) ;
; const sfrw RET8 = (0x01D0) ;
; const sfrw RET9 = (0x01D2) ;
; const sfrw RET10 = (0x01D4) ;
; const sfrw RET11 = (0x01D6) ;
; const sfrw RET12 = (0x01D8) ;
; const sfrw RET13 = (0x01DA) ;
; const sfrw RET14 = (0x01DC) ;
; const sfrw RET15 = (0x01DE) ;
; const sfrw RET16 = (0x01E0) ;
; const sfrw RET17 = (0x01E2) ;
; const sfrw RET18 = (0x01E4) ;
; const sfrw RET19 = (0x01E6) ;
; const sfrw RET20 = (0x01E8) ;
; const sfrw RET21 = (0x01EA) ;
; const sfrw RET22 = (0x01EC) ;
; const sfrw RET23 = (0x01EE) ;
; const sfrw RET24 = (0x01F0) ;
; const sfrw RET25 = (0x01F2) ;
; const sfrw RET26 = (0x01F4) ;
; const sfrw RET27 = (0x01F6) ;
; const sfrw RET28 = (0x01F8) ;
; const sfrw RET29 = (0x01FA) ;
; const sfrw RET30 = (0x01FC) ;
; const sfrw RET31 = (0x01FE) ;
; typedef unsigned char uint8;
; uint8 size 1
; typedef signed char int8;
; int8 size 1
; typedef unsigned int uint16;
; uint16 size 2
; typedef signed int int16;
; int16 size 2
; typedef unsigned long uint32;
; uint32 size 4
; typedef signed long int32;
; int32 size 4
; typedef unsigned char uint8_t;
; uint8_t size 1
; typedef signed char int8_t;
; int8_t size 1
; typedef unsigned int uint16_t;
; uint16_t size 2
; typedef signed int int16_t;
; int16_t size 2
; typedef unsigned long uint32_t;
; uint32_t size 4
; typedef signed long int32_t;
; int32_t size 4
; extern const unsigned char lcd_digit_table[];
; struct emeter_var
; {
; uint16 ui_meter_status;
; uint16 ui_anti_tamperring_status;
; uint16 ui_firmware_version;
; uint8 uc_display_stage;
; uint16 ui_sec_count;
; uint16 ui_main_frequency;
; uint16 ui_power_factor;
; int16 i_last_temperature;
; int16 i_temperature;
; int16 i_temperature_offset;
; uint16 ui_current_IRMS;
; uint16 ui_voltage_V1RMS;
; float f_total_energy;
; uint32 ul_total_power;
; uint32 ul_act_power_counter;
; uint32 ul_act_power1;
; uint32 ul_act_power2;
; uint32 ul_react_power;
; uint32 ul_app_power;
; float f_re_total_power;
; uint8 ucFlashOperated[2];
; float f_Cz1;
; float f_Cz2;
; uint16 ui_GainCorr1;
; uint16 ui_GainCorr2;
; int32 l_PowerOffset1;
; int32 l_PowerOffset2;
; float f_PhaseCorr1;
; float f_PhaseCorr2;
; uint16 ui_SD16_CurrentCorr1;
; uint16 ui_SD16_CurrentCorr2;
; uint16 ui_SD16_VoltageCorr1;
; uint16 ul_TempSampleOffset;
; uint8 ucCalibrationMode;
; uint8 ucCalibrationOption;
; uint8 uc_pout_hc595;
; uint8 uc_restart_esp_delay;
; uint8 uc_lcd_remaining_times;
; uint8 uc_switch_delay_counter;
; uint8 display_stage;
; };
; extern struct emeter_var emeter;
; union signed_long_word
; {
; int32 l;
; uint16 w[2];
; };
; extern union signed_long_word ds;
; extern uint32 ul_total_power_infact;
; extern uint16 ui_step_counter;
; struct current_sensor_parms_s
; {
; uint16 V_rms;
; uint16 I_rms;
; int32_t I_dc_estimate;
; int16_t P_accum[3];
; int16_t P_accum_logged[3];
; int16_t I_sq_accum[3];
; int16_t I_sq_accum_logged[3];
; int16_t sample_count;
; int16_t sample_count_logged;
; int16_t fir_beta;
; int16_t fir_step;
; int16_t fir_gain;
; int16_t I_history[2];
; int8_t I_endstops;
; };
; struct phase_parms_s
; {
; uint16_t V_rms;
; uint16_t I_rms;
; int32_t V_dc_estimate[2];
; int16_t V_history[4];
; int16_t V_sq_accum[3];
; int16_t V_sq_accum_logged[3];
; struct current_sensor_parms_s current;
; struct current_sensor_parms_s neutral;
; int16_t sample_count;
; int16_t sample_count_logged;
; uint16_t status;
; int8_t V_endstops;
; int8_t V_history_index;
; };
; extern struct phase_parms_s *phase;
; enum
; {
; DISPLAY_STAGE_ACT_ENERGY_1 = 1,
; DISPLAY_STAGE_ACT_ENERGY_2,
; DISPLAY_STAGE_CURRENT,
; DISPLAY_STAGE_VOLTAGE,
; DISPLAY_STAGE_FREQUENCY,
; DISPLAY_STAGE_POWERFACTOR,
; DISPLAY_STAGE_REACT_ENERGY,
; DISPLAY_STAGE_APP_ENERGY,
; DISPLAY_STAGE_TEMPERATURE,
; DISPLAY_STAGE_TIME,
; DISPLAY_STAGE_DATE,
; DISPLAY_STAGE_TEST1,
; DISPLAY_STAGE_TEST2,
; DISPLAY_STAGE_TEST3,
; DISPLAY_STAGE_TEST4,
; DISPLAY_STAGE_TEST5,
; DISPLAY_STAGE_TEST6,
; DISPLAY_STAGE_TEST7,
; DISPLAY_STAGE_TEST8,
; DISPLAY_STAGE_TEST9,
; DISPLAY_STAGE_LAST
; };
; struct rtc_s
; {
; uint8 second;
; uint8 minute;
; uint8 hour;
; uint8 day;
; uint8 week;
; uint8 month;
; uint8 year;
; uint8 sumcheck;
; };
; extern struct rtc_s rtc;
; extern uint32 ul_actensper1;
; extern uint32 ul_actensper2;
; extern void display (unsigned int value);
; extern void update_display(void);
; extern void LCDudec16(unsigned int value, int pos, int digits, int after);
; extern void LCDudec32(unsigned long value, int pos, int digits, int after);
; extern void LCDicon(int id, int on);
; extern void LCDmodify_char(unsigned char ch, int pos, int on);
; extern void LCDchar(unsigned char ch, int pos);
; extern void clr_lcd_display(void);
; extern void bin2bcd32(unsigned char bcd[5], unsigned long bin);
; extern void bin2bcd16(unsigned char bcd[3], unsigned int bin);
; extern unsigned long scale_long(unsigned long l, float f);
; extern unsigned int scale_int(unsigned int i, float f);
; extern void set_rtc_sumcheck(void);
; extern int check_rtc_sumcheck(void);
; extern int bump_rtc(void);
; extern int weekday(void);
; extern void rtc_bumper(void);
; extern void correct_rtc(void);
; extern void init_analog_front_end_ESP(void);
; extern void init_esp_parameter(void);
; extern void set_parameter(unsigned int param, unsigned int data);
; extern void start_measurement(void);
; extern char store_flash_var(char *ptr,char *from, int len);
; extern void EnergyReadyIntMapping(void);
; extern void ActensperReadyIntMapping(void);
; extern void BasicTimerIntMapping(void);
; void init_analog_front_end_SD16(void);
; extern void tpd_gen(void);
; extern int16_t dc_filter(register int32_t *p, register int16_t x);
; extern int32_t imul16_up(register int16_t x, register int16_t y);
; extern void accum48(register int16_t x[3], register int32_t y);
; extern void log_parameters(void);
; extern void transfer48(register int16_t y[3], register int16_t x[3]);
; extern int32_t div48(register int16_t x[3], register int16_t y);
; extern int32_t isqrt32(register int32_t h);
; extern int32_t div_sh48(register int16_t x[3], int sh, register int16_t y);
; extern int32_t current(void);
; extern int32_t voltage(void);
; extern void CheckExternVoltage(void);
; extern void EnterSD16Measure (void);
; extern void ExitSD16Measure (void);
; extern void EnterESPMeasure (void);
; extern void ExitESPMeasure (void);
; extern void SwitchToSD16Measure(void);
; extern void SwitchToESPMeasure(void);
; extern void OnlyRTCMode(void);
; void ClrDispVary(unsigned char OpMode);
; const uint8 lcd_digit_table[] =
.iseg lcd_data_const
.align 0x2
.global _lcd_digit_table
_lcd_digit_table:
; {
.byte 0x7d
; ( 0x10 | 0x20 | 0x40 | 0x08 | 0x04 | 0x01 ) ,
.byte 0x60
; ( 0x20 | 0x40 ) ,
.byte 0x3e
; ( 0x10 | 0x20 | 0x08 | 0x04 | 0x02 ) ,
.byte 0x7a
; ( 0x10 | 0x20 | 0x40 | 0x08 | 0x02 ) ,
.byte 0x63
; ( 0x20 | 0x40 | 0x01 | 0x02 ) ,
.byte 0x5b
; ( 0x10 | 0x40 | 0x08 | 0x01 | 0x02 ) ,
.byte 0x5f
; ( 0x10 | 0x40 | 0x08 | 0x04 | 0x01 | 0x02 ) ,
.byte 0x70
; ( 0x10 | 0x20 | 0x40 ) ,
.byte 0x7f
; ( 0x10 | 0x20 | 0x40 | 0x08 | 0x04 | 0x01 | 0x02 ) ,
.byte 0x7b
; ( 0x10 | 0x20 | 0x40 | 0x08 | 0x01 | 0x02 ) ,
.byte 0x77
; ( 0x10 | 0x20 | 0x40 | 0x04 | 0x01 | 0x02 ) ,
.byte 0x4f
; ( 0x40 | 0x08 | 0x04 | 0x01 | 0x02 ) ,
.byte 0x1d
; ( 0x10 | 0x08 | 0x04 | 0x01 ) ,
.byte 0x6e
; ( 0x20 | 0x40 | 0x08 | 0x04 | 0x02 ) ,
.byte 0x1f
; ( 0x10 | 0x08 | 0x04 | 0x01 | 0x02 ) ,
; ( 0x10 | 0x04 | 0x01 | 0x02 )
.byte 0x17
; lcd_digit_table size 16
; };
; void clr_lcd_display(void)
.dbgseg dbg_syms
DBG3:
.long 0x0
.long DBG10
.long _clr_lcd_display
.long 0x40
.long 0x1020001
.long DBG1
.long DBG7-DBG8
.long DBG9
.long DBG6
.long 0x0
.pseg lcd_code
DBG8:
.dbgseg dbg_syms
DBG1:
.long 0x66622e
.long 0x0
.long DBG8
.long 0x0
.long 0x1650001
.long 0x0
.long 0x2b
.long 0x0
.long DBG11
.long 0x0
.dbgseg dbg_line
.align 0x2
DBG9:
.long DBG3
.long 0x0
.long _clr_lcd_display
.long 0x1
.long DBG13
.long 0x2
.long DBG14
.long 0x4
.long DBG15
.long 0x5
.long DBG16
.long 0x6
.long DBG17
.long 0x7
.long DBG18
.long 0x8
.pseg lcd_code
.global _clr_lcd_display
_clr_lcd_display:
; ENTRY
DBG12:
; i in reg size 1
; {
DBG13:
; uint8 i;
; for (i=0; i<12; i++)
DBG14:
mov.b #0x0,r13
clr_lcd_display_L1:
; {
DBG15:
; ((char*) (0x0091) ) [i] = 0;
DBG16:
mov.b r13,r12
and #0xff,r12
add #0x91,r12
mov.b #0x0,0(r12)
DBG17:
add.b #0x1,r13
cmp.b #0xc,r13
jnc clr_lcd_display_L1
DBG19:
DBG18:
; }
; EXIT
ret
.dbgseg dbg_syms
.long 0x0
.long DBG20
.long 0x0
.long 0x0
.long 0x10002
.long 0x0
.long DBG21
.long 0x2
.long 0x0
.long 0x10002
.long 0x504e5f5f
.long 0x534d5241
.long 0x0
.long 0x0
.long 0x10002
DBG2:
.long 0x62622e
.long 0x0
.long DBG15
.long 0x0
.long 0x1640001
.long 0x0
.long 0x5
.long 0x0
.long DBG22
.long 0x0
.long 0x69
.long 0x0
.long 0xd0102
.long 0xc
.long 0x4ffff
.long 0x62652e
.long 0x0
.long DBG18
.long 0x0
.long 0x1640001
.long 0x0
.long 0x8
.long 0x0
.long 0x0
.long 0x0
.long 0x66652e
.long 0x0
.long DBG19
.long 0x0
.long 0x1650001
.long 0x0
.long 0x32
.long 0x0
.long 0x0
.long 0x0
.pseg lcd_code
DBG7:
.dbgseg dbg_syms
.long 0x0
.long DBG10
.long DBG7
.long 0x0
.long 0xff0001
; }
; void display (uint16 value)
DBG6:
.long 0x70736964
.long 0x79616c
.long _display
.long 0x40
.long 0x1020001
.long DBG11
.long DBG24-DBG25
.long DBG26
.long DBG23
.long 0x0
.pseg lcd_code
DBG25:
.dbgseg dbg_syms
DBG11:
.long 0x66622e
.long 0x0
.long DBG25
.long 0x0
.long 0x1650001
.long 0x0
.long 0x37
.long 0x0
.long DBG27
.long 0x0
.dbgseg dbg_line
DBG26:
.long DBG6
.long 0x0
.long _display
.long 0x1
.long DBG29
.long 0x2
.long DBG30
.long 0x4
.long DBG31
.long 0x6
.long DBG32
.long 0x7
.long DBG33
.long 0x8
.long DBG34
.long 0x9
.long DBG35
.long 0xa
.long DBG36
.long 0xb
.pseg lcd_code
.global _display
_display:
push r4
push r5
push r6
DBG30:
DBG29:
DBG28:
; ENTRY
; value at argloc 0 (0x0) in reg size 2
; i in reg size 1
; LCD in reg size 2
; {
; uint8 i;
; int8 *LCD = ((char*) (0x0091) ) ;
mov #0x91,r4
DBG31:
; for (i=0; i<5; i++)
mov.b #0x0,r14
mov r12,r15
display_L1:
; {
DBG32:
; LCD[7-i] = lcd_digit_table[value%10];
DBG33:
mov #0x7,r5
mov.b r14,r12
and #0xff,r12
sub r12,r5
add r4,r5
mov #0xa,r6
mov r6,r13
mov r15,r12
DBG37:
call #__udiv16
DBG38:
mov.b _lcd_digit_table(r13),0(r5)
DBG34:
; value = value/10;
mov r6,r13
mov r15,r12
DBG39:
call #__udiv16
DBG35:
DBG40:
add.b #0x1,r14
mov r12,r15
cmp.b #0x5,r14
jnc display_L1
DBG41:
DBG36:
; }
; EXIT
; .temp0 at stkloc 0 (0x0) size 6
pop r6
pop r5
pop r4
ret
.dbgseg dbg_syms
.long 0x0
.long DBG20
.long 0x6
.long 0x0
.long 0x10002
.long 0x0
.long DBG21
.long 0x2
.long 0x0
.long 0x10002
.long 0x504e5f5f
.long 0x534d5241
.long 0x1
.long 0x0
.long 0x10002
.long 0x0
.long DBG42
.long 0x0
.long 0x0
.long 0x10002
DBG22:
.long 0x62622e
.long 0x0
.long DBG28
.long 0x0
.long 0x1640001
.long 0x0
.long 0x1
.long 0x0
.long DBG43
.long 0x0
.long 0x756c6176
.long 0x65
.long 0xc0102
.long 0xe
.long 0x11ffff
DBG43:
.long 0x62622e
.long 0x0
.long DBG31
.long 0x0
.long 0x1640001
.long 0x0
.long 0x6
.long 0x0
.long DBG44
.long 0x0
.long 0x44434c
.long 0x0
.long 0x40102
.long 0x22
.long 0x4ffff
DBG44:
.long 0x62622e
.long 0x0
.long DBG32
.long 0x0
.long 0x1640001
.long 0x0
.long 0x7
.long 0x0
.long DBG45
.long 0x0
.long 0x69
.long 0x0
.long 0xe0102
.long 0xc
.long 0x4ffff
DBG45:
.long 0x62622e
.long 0x0
.long DBG37
.long 0x0
.long 0x1640001
.long 0x0
.long 0x9
.long 0x0
.long DBG46
.long 0x0
.long 0x0
.long DBG47
.long 0x0
.long 0x0
.long 0x10002
.long 0x62652e
.long 0x0
.long DBG38
.long 0x0
.long 0x1640001
.long 0x0
.long 0x9
.long 0x0
.long 0x0
.long 0x0
.long 0x62652e
.long 0x0
.long DBG34
.long 0x0
.long 0x1640001
.long 0x0
.long 0x9
.long 0x0
.long 0x0
.long 0x0
.long 0x62652e
.long 0x0
.long DBG34
.long 0x0
.long 0x1640001
.long 0x0
.long 0x9
.long 0x0
.long 0x0
.long 0x0
.long 0x62652e
.long 0x0
.long DBG34
.long 0x0
.long 0x1640001
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