📄 demo.map
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################################################################################
# #
# IAR Universal Linker V4.60F/386 #
# #
# Link time = 11/Dec/2008 13:41:52 #
# Target CPU = x51 #
# List file = D:\zigbee\演示程序\简化协议的无线收发演示\demo_pr #
# o\Debug\List\demo.map #
# Output file 1 = D:\zigbee\演示程序\简化协议的无线收发演示\demo_pr #
# o\Debug\Exe\demo.d51 #
# Format: debug #
# UBROF version 10.0.2 #
# Using library modules for C-SPY (-rt) #
# Output file 2 = D:\zigbee\演示程序\简化协议的无线收发演示\demo_pr #
# o\Debug\Exe\Wll2430.hex #
# Format: intel-standard #
# Command line = "-IC:\Program Files\IAR Systems\Embedded Workbenc #
# h 4.05 Evaluation version\8051\CONFIG\" #
# D:\zigbee\演示程序\简化协议的无线收发演示\demo_pr #
# o\Debug\Obj\SendPack.r51 #
# D:\zigbee\演示程序\简化协议的无线收发演示\demo_pr #
# o\Debug\Obj\SensorComm.r51 #
# D:\zigbee\演示程序\简化协议的无线收发演示\demo_pr #
# o\Debug\Obj\WlLocate.r51 #
# D:\zigbee\演示程序\简化协议的无线收发演示\demo_pr #
# o\Debug\Obj\console.r51 #
# D:\zigbee\演示程序\简化协议的无线收发演示\demo_pr #
# o\Debug\Obj\evboard.r51 #
# D:\zigbee\演示程序\简化协议的无线收发演示\demo_pr #
# o\Debug\Obj\halStack.r51 #
# D:\zigbee\演示程序\简化协议的无线收发演示\demo_pr #
# o\Debug\Obj\mac.r51 #
# D:\zigbee\演示程序\简化协议的无线收发演示\demo_pr #
# o\Debug\Obj\main.r51 #
# D:\zigbee\演示程序\简化协议的无线收发演示\demo_pr #
# o\Debug\Obj\phy.r51 #
# -o #
# D:\zigbee\演示程序\简化协议的无线收发演示\demo_pr #
# o\Debug\Exe\demo.d51 #
# -l #
# D:\zigbee\演示程序\简化协议的无线收发演示\demo_pr #
# o\Debug\List\demo.map #
# -xms #
# "-IC:\Program Files\IAR Systems\Embedded Workbenc #
# h 4.05 Evaluation version\8051\LIB\" #
# -f lnk51ew_cc2430.xcl (-D_IDATA_END=0xFF #
# -D_PDATA_START=0xEF00 -D_PDATA_END=0xEFFF #
# -D_IXDATA_START=0xF000 -D_IXDATA_END=0xFD53 #
# -D_XDATA_START=_IXDATA_START #
# -D_XDATA_END=_IXDATA_END -D_CODE_START=0x0000 #
# -D_CODE_END=0xFFFF -D_NEAR_CODE_END=0xFFFF #
# -D_TINY_CODE_END=0x7FF #
# -D_FIRST_BANK_ADDR=0x10000 -D_NR_OF_BANKS=0x03 #
# -D?REGISTER_BANK=0 -D_REGISTER_BANK_START=0 #
# -D?PBANK_NUMBER=EF -D?PBANK=93 #
# -D_BREG_START=0x00 -D?VB=0x20 #
# -D_FAR_DATA_NR_OF_BANKS=0x0E #
# -D_FAR_DATA_START=0x010001 #
# -D_FAR_DATA_END=0xFFFFFF #
# -D_FAR_CODE_START=_CODE_START #
# -D_FAR_CODE_END=_CODE_END -f lnk_base.xcl #
# (-Z(BIT)BREG=_BREG_START -Z(BIT)BIT_N=0-7F #
# -Z(DATA)REGISTERS+8=_REGISTER_BANK_START #
# -Z(DATA)BDATA_Z,BDATA_N,BDATA_I=20-2F #
# -Z(DATA)VREG+_NR_OF_VIRTUAL_REGISTERS=08-7F #
# -Z(DATA)PSP,XSP=08-7F -Z(DATA)DOVERLAY=08-7F #
# -Z(DATA)DATA_I,DATA_Z,DATA_N=08-7F #
# -U(IDATA)0-7F=(DATA)0-7F #
# -Z(IDATA)IDATA_I,IDATA_Z,IDATA_N=08-_IDATA_END #
# -Z(IDATA)ISTACK+_IDATA_STACK_SIZE#08-_IDATA_END #
# -Z(IDATA)IOVERLAY=08-FF -Z(CODE)INTVEC=0 #
# -Z(CODE)CSTART=_CODE_START-_CODE_END #
# -Z(CODE)RCODE=_CODE_START-_CODE_END #
# -Z(CODE)TINY_CODE=_CODE_START-_TINY_CODE_END #
# -Z(CODE)NEAR_CODE=_CODE_START-_NEAR_CODE_END #
# -Z(CODE)DIFUNCT=_CODE_START-_CODE_END #
# -P(CODE)FAR_CODE=[_FAR_CODE_START-_FAR_CODE_END]/ #
# 10000 #
# -P(CODE)BANKED_CODE=[(_CODEBANK_START+_FIRST_BANK #
# _ADDR)-(_CODEBANK_END+_FIRST_BANK_ADDR)]*_NR_OF_B #
# ANKS+10000 #
# -Z(CODE)BIT_ID,BDATA_ID,DATA_ID,IDATA_ID,IXDATA_I #
# D,PDATA_ID,XDATA_ID=_CODE_START-_CODE_END #
# -Z(CODE)HUGE_ID=_FAR_CODE_START-_FAR_CODE_END #
# -Z(CODE)CODE_C=_CODE_START-_CODE_END #
# -P(CODE)FAR_CODE_C=[_FAR_CODE_START-_FAR_CODE_END #
# ]/10000 #
# -Z(CODE)HUGE_CODE_C=_FAR_CODE_START-_FAR_CODE_END #
# -Z(CODE)CODE_N=_CODE_START-_CODE_END #
# -P(CODE)FAR_CODE_N=[_FAR_CODE_START-_FAR_CODE_END #
# ]/10000 #
# -Z(CODE)CHECKSUM#_CODE_END #
# -Z(XDATA)EXT_STACK+_EXTENDED_STACK_SIZE=_EXTENDED #
# _STACK_START-_EXTENDED_STACK_END #
# -Z(XDATA)PSTACK+_PDATA_STACK_SIZE=_PDATA_START-_P #
# DATA_END #
# -Z(XDATA)XSTACK+_XDATA_STACK_SIZE=_XDATA_START-_X #
# DATA_END #
# -Z(XDATA)PDATA_N,PDATA_Z,PDATA_I=_PDATA_START-_PD #
# ATA_END #
# -Z(XDATA)IXDATA_N,IXDATA_Z,IXDATA_I=_IXDATA_START #
# -_IXDATA_END #
# -Z(XDATA)XDATA_N,XDATA_Z,XDATA_I=_XDATA_START-_XD #
# ATA_END #
# -Z(XDATA)XDATA_HEAP+_XDATA_HEAP_SIZE=_XDATA_START #
# -_XDATA_END #
# -Z(CONST)XDATA_ROM_C=_XDATA_START-_XDATA_END #
# -Z(SPLIT-XDATA)FAR_Z=[_FAR_DATA_START-_FAR_DATA_E #
# ND]/10000 #
# -Z(SPLIT-XDATA)FAR_I=[_FAR_DATA_START-_FAR_DATA_E #
# ND]/10000 #
# -Z(SPLIT-CODE)FAR_ID=[_FAR_CODE_START-_FAR_CODE_E #
# ND]/10000 #
# -Z(SPLIT-XDATA)FAR_HEAP+_FAR_HEAP_SIZE=[_FAR_DATA #
# _START-_FAR_DATA_END]/10000 #
# -P(XDATA)FAR_N=[_FAR_DATA_START-_FAR_DATA_END]*_F #
# AR_DATA_NR_OF_BANKS+10000 #
# -P(CONST)FAR_ROM_C=[_FAR_DATA_START-_FAR_DATA_END #
# ]*E+10000 #
# -Z(XDATA)HUGE_N,HUGE_Z,HUGE_I=_FAR_DATA_START-_FA #
# R_DATA_END #
# -Z(XDATA)HUGE_HEAP+_HUGE_HEAP_SIZE=_FAR_DATA_STAR #
# T-_FAR_DATA_END #
# -Z(CONST)HUGE_ROM_C=_FAR_DATA_START-_FAR_DATA_END #
# -cx51) -D_PM0_XDATA_START=E000 #
# -D_PM0_XDATA_END=EFFF #
# -Z(XDATA)PM0_XDATA=_PM0_XDATA_START-_PM0_XDATA_EN #
# D #
# -D_IEEE_ADDRESS_SPACE_START=(_CODE_END-7) #
# -D_IEEE_ADDRESS_SPACE_END=_CODE_END #
# -Z(CODE)IEEE_ADDRESS_SPACE=_IEEE_ADDRESS_SPACE_ST #
# ART-_IEEE_ADDRESS_SPACE_END) #
# -D_CODEBANK_START=0 -D_CODEBANK_END=0 #
# -D_NR_OF_VIRTUAL_REGISTERS=8 -rt #
# -Ointel-standard=D:\zigbee\演示程序\简化协议的无⌨️ 快捷键说明
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