📄 hal_adc_sample_single.s51
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//////////////////////////////////////////////////////////////////////////////
// /
// IAR 8051 C/C++ Compiler V7.20H/W32 16/Jan/2007 15:30:23 /
// Copyright 2004-2006 IAR Systems. All rights reserved. /
// /
// Core = plain /
// Code model = banked /
// Data model = large /
// Calling convention = xdata reentrant /
// Constant location = data /
// Dptr setup = 1,16 /
// Source file = E:\公司产品资料\Zigbee\cc2431\cc2431定位\LOC_Eng /
// ine\lib\hal\CC2430\hal_adc_sample_single.c /
// Command line = -I "C:\Program Files\IAR Systems\Embedded /
// Workbench 4.05 Evaluation version\8051\INC\" -I /
// "C:\Program Files\IAR Systems\Embedded /
// Workbench 4.05 Evaluation /
// version\8051\SRC\LIB\" -I "C:\Program Files\IAR /
// Systems\Embedded Workbench 4.05 Evaluation /
// version\8051\INC\CLIB\" -I /
// E:\公司产品资料\Zigbee\cc2431\cc2431定位\LOC_Eng /
// ine\Test\mac\mac_loc\..\..\..\include\ -I /
// E:\公司产品资料\Zigbee\cc2431\cc2431定位\LOC_Eng /
// ine\Test\mac\mac_loc\..\..\..\include\mac\cc2430 /
// \ -I E:\公司产品资料\Zigbee\cc2431\cc2431定位\LO /
// C_Engine\Test\mac\mac_loc\..\..\..\include\hal\c /
// c2430\ -I E:\公司产品资料\Zigbee\cc2431\cc2431定 /
// 位\LOC_Engine\Test\mac\mac_loc\..\..\..\apps\ /
// -D CC2430EB -D USE_LED -lCN /
// E:\公司产品资料\Zigbee\cc2431\cc2431定位\LOC_Eng /
// ine\Test\mac\mac_loc\CC2430EB\List\ -lA /
// E:\公司产品资料\Zigbee\cc2431\cc2431定位\LOC_Eng /
// ine\Test\mac\mac_loc\CC2430EB\List\ -o /
// E:\公司产品资料\Zigbee\cc2431\cc2431定位\LOC_Eng /
// ine\Test\mac\mac_loc\CC2430EB\Obj\ -e -s9 /
// --debug --core=plain --dptr=16,1 /
// --data_model=large --code_model=banked /
// --calling_convention=xdata_reentrant /
// --place_constants=data --nr_virtual_regs 8 /
// E:\公司产品资料\Zigbee\cc2431\cc2431定位\LOC_Eng /
// ine\lib\hal\CC2430\hal_adc_sample_single.c /
// List file = E:\公司产品资料\Zigbee\cc2431\cc2431定位\LOC_Eng /
// ine\Test\mac\mac_loc\CC2430EB\List\hal_adc_sampl /
// e_single.s51 /
// /
// /
//////////////////////////////////////////////////////////////////////////////
NAME hal_adc_sample_single
RTMODEL "__calling_convention", "xdata_reentrant"
RTMODEL "__code_model", "banked"
RTMODEL "__core", "plain"
RTMODEL "__data_model", "large"
RTMODEL "__dptr_size", "16"
RTMODEL "__extended_stack", "disabled"
RTMODEL "__location_for_constants", "data"
RTMODEL "__number_of_dptrs", "1"
RTMODEL "__rt_version", "1"
RSEG DOVERLAY:DATA:NOROOT(0)
RSEG IOVERLAY:IDATA:NOROOT(0)
RSEG ISTACK:IDATA:NOROOT(0)
RSEG PSTACK:XDATA:NOROOT(0)
RSEG XSTACK:XDATA:NOROOT(0)
EXTERN ?ALLOC_XSTACK8
EXTERN ?BANKED_ENTER_XDATA
EXTERN ?BANKED_LEAVE_XDATA
EXTERN ?DEALLOC_XSTACK8
EXTERN ?SS_SHR
EXTERN ?S_SHL
EXTERN ?V0
EXTERN ?XSP
PUBWEAK ADCCFG
PUBWEAK ADCCON1
PUBWEAK ADCCON3
PUBWEAK ADCH
PUBWEAK ADCL
PUBLIC halAdcSampleSingle
FUNCTION halAdcSampleSingle,0203H
LOCFRAME ISTACK, 1, STACK
LOCFRAME XSTACK, 13, STACK
CFI Names cfiNames0
CFI StackFrame CFA_SP SP DATA
CFI StackFrame CFA_PSP16 PSP16 XDATA
CFI StackFrame CFA_XSP16 XSP16 XDATA
CFI StaticOverlayFrame CFA_IOVERLAY IOVERLAY
CFI StaticOverlayFrame CFA_DOVERLAY DOVERLAY
CFI Resource `PSW.CY`:1, `B.BR0`:1, `B.BR1`:1, `B.BR2`:1, `B.BR3`:1
CFI Resource `B.BR4`:1, `B.BR5`:1, `B.BR6`:1, `B.BR7`:1, `VB.BR8`:1
CFI Resource `VB.BR9`:1, `VB.BR10`:1, `VB.BR11`:1, `VB.BR12`:1
CFI Resource `VB.BR13`:1, `VB.BR14`:1, `VB.BR15`:1, VB:8, B:8, A:8
CFI Resource PSW:8, DPL0:8, DPH0:8, R0:8, R1:8, R2:8, R3:8, R4:8, R5:8
CFI Resource R6:8, R7:8, V0:8, V1:8, V2:8, V3:8, V4:8, V5:8, V6:8, V7:8
CFI Resource SP:8, PSPH:8, PSPL:8, PSP16:16, XSPH:8, XSPL:8, XSP16:16
CFI VirtualResource ?RET:24
CFI Resource ?BRET_EXT:8
CFI VirtualResource ?RET_HIGH:8, ?RET_LOW:8
CFI ResourceParts PSP16 PSPH, PSPL
CFI ResourceParts XSP16 XSPH, XSPL
CFI ResourceParts ?RET ?BRET_EXT, ?RET_HIGH, ?RET_LOW
CFI EndNames cfiNames0
CFI Common cfiCommon0 Using cfiNames0
CFI CodeAlign 1
CFI DataAlign -1
CFI ReturnAddress ?RET CODE
CFI CFA_DOVERLAY Used
CFI CFA_IOVERLAY Used
CFI CFA_SP SP+-3
CFI CFA_PSP16 PSP16+0
CFI CFA_XSP16 XSP16+0
CFI `PSW.CY` SameValue
CFI `B.BR0` SameValue
CFI `B.BR1` SameValue
CFI `B.BR2` SameValue
CFI `B.BR3` SameValue
CFI `B.BR4` SameValue
CFI `B.BR5` SameValue
CFI `B.BR6` SameValue
CFI `B.BR7` SameValue
CFI `VB.BR8` SameValue
CFI `VB.BR9` SameValue
CFI `VB.BR10` SameValue
CFI `VB.BR11` SameValue
CFI `VB.BR12` SameValue
CFI `VB.BR13` SameValue
CFI `VB.BR14` SameValue
CFI `VB.BR15` SameValue
CFI VB SameValue
CFI B Undefined
CFI A Undefined
CFI PSW SameValue
CFI DPL0 SameValue
CFI DPH0 SameValue
CFI R0 Undefined
CFI R1 Undefined
CFI R2 Undefined
CFI R3 Undefined
CFI R4 Undefined
CFI R5 Undefined
CFI R6 SameValue
CFI R7 SameValue
CFI V0 SameValue
CFI V1 SameValue
CFI V2 SameValue
CFI V3 SameValue
CFI V4 SameValue
CFI V5 SameValue
CFI V6 SameValue
CFI V7 SameValue
CFI PSPH Undefined
CFI PSPL Undefined
CFI XSPH Undefined
CFI XSPL Undefined
CFI ?RET Concat
CFI ?BRET_EXT Frame(CFA_SP, 3)
CFI ?RET_HIGH Frame(CFA_SP, 2)
CFI ?RET_LOW Frame(CFA_SP, 1)
CFI EndCommon cfiCommon0
// E:\公司产品资料\Zigbee\cc2431\cc2431定位\LOC_Engine\lib\hal\CC2430\hal_adc_sample_single.c
// 1 #include "mac_headers.h"
ASEGN SFR_AN:DATA:NOROOT,0b4H
// unsigned char volatile __sfr ADCCON1
ADCCON1:
DS 1
ASEGN SFR_AN:DATA:NOROOT,0b6H
// unsigned char volatile __sfr ADCCON3
ADCCON3:
DS 1
ASEGN SFR_AN:DATA:NOROOT,0baH
// unsigned char volatile __sfr ADCL
ADCL:
DS 1
ASEGN SFR_AN:DATA:NOROOT,0bbH
// unsigned char volatile __sfr ADCH
ADCH:
DS 1
ASEGN SFR_AN:DATA:NOROOT,0f2H
// unsigned char volatile __sfr ADCCFG
ADCCFG:
DS 1
// 2
RSEG BANKED_CODE:CODE:NOROOT(0)
// 3 INT16 halAdcSampleSingle(BYTE reference, BYTE resolution, UINT8 input) {
halAdcSampleSingle:
CFI Block cfiBlock0 Using cfiCommon0
CFI Function halAdcSampleSingle
MOV A,#-0xc
LCALL ?BANKED_ENTER_XDATA
CFI DPH0 load(1, XDATA, add(CFA_XSP16, literal(-1)))
CFI DPL0 load(1, XDATA, add(CFA_XSP16, literal(-2)))
CFI ?BRET_EXT load(1, XDATA, add(CFA_XSP16, literal(-3)))
CFI ?RET_HIGH load(1, XDATA, add(CFA_XSP16, literal(-4)))
CFI ?RET_LOW load(1, XDATA, add(CFA_XSP16, literal(-5)))
CFI R7 load(1, XDATA, add(CFA_XSP16, literal(-6)))
CFI V3 load(1, XDATA, add(CFA_XSP16, literal(-7)))
CFI V2 load(1, XDATA, add(CFA_XSP16, literal(-8)))
CFI V1 load(1, XDATA, add(CFA_XSP16, literal(-9)))
CFI V0 load(1, XDATA, add(CFA_XSP16, literal(-10)))
CFI VB load(1, XDATA, add(CFA_XSP16, literal(-11)))
CFI R6 load(1, XDATA, add(CFA_XSP16, literal(-12)))
CFI CFA_SP SP+0
CFI CFA_XSP16 add(XSP16, 12)
; Saved register size: 12
; Auto size: 1
MOV A,#-0x1
LCALL ?ALLOC_XSTACK8
CFI CFA_XSP16 add(XSP16, 13)
// 4 BYTE volatile temp;
// 5 INT16 value;
// 6
// 7 // reading out any old conversion value
// 8 temp = ADCH;
MOV A,0xbb
MOV DPL,?XSP + 0
MOV DPH,?XSP + 1
MOVX @DPTR,A
// 9 temp = ADCL;
MOV A,0xba
MOVX @DPTR,A
MOV ?V0 + 0,#0x1
MOV ?V0 + 1,#0x0
MOV A,R3
MOV R0,#?V0 + 0
LCALL ?S_SHL
MOV R4,?V0 + 0
MOV A,R4
ORL A,0xf2
MOV 0xf2,A
// 10
// 11
// 12 ADC_ENABLE_CHANNEL(input);
// 13 ADC_STOP();
ORL 0xb4,#0x30
MOV A,0xb4
// 14
// 15 ADC_SINGLE_CONVERSION(reference | resolution | input);
MOV A,R2
ORL A,R1
ORL A,R3
MOV 0xb6,A
// 16
// 17 while (!ADC_SAMPLE_READY());
??halAdcSampleSingle_0:
MOV A,0xb4
MOV C,0xE0 /* A */.7
JNC ??halAdcSampleSingle_0
// 18
// 19 ADC_DISABLE_CHANNEL(input);
MOV A,R4
CPL A
ANL A,0xf2
MOV 0xf2,A
// 20
// 21 value = (((INT16)ADCH) << 8);
MOV A,0xbb
MOV ?V0 + 1,A
// 22 value |= ADCL;
MOV A,0xba
MOV ?V0 + 0,A
// 23
// 24 resolution >>= 3;
// 25 return value >> (8 - resolution);
MOV A,R2
RRC A
RRC A
RRC A
ANL A,#0x1f
MOV R2,A
MOV A,#0x8
CLR C
SUBB A,R2
MOV R0,#?V0 + 0
LCALL ?SS_SHR
MOV R2,?V0 + 0
MOV R3,?V0 + 1
MOV A,#0x1
LCALL ?DEALLOC_XSTACK8
CFI CFA_XSP16 add(XSP16, 12)
MOV R7,#0x4
LJMP ?BANKED_LEAVE_XDATA
CFI EndBlock cfiBlock0
// 26 }
END
//
// 101 bytes in segment BANKED_CODE
// 5 bytes in segment SFR_AN
//
// 101 bytes of CODE memory
// 0 bytes of DATA memory (+ 5 bytes shared)
//
//Errors: none
//Warnings: none
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