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################################################################################
# #
# IAR Universal Linker V4.60I/386 #
# #
# Link time = 13/Nov/2007 15:34:01 #
# Target CPU = ARM #
# List file = "D:\lilian\STM32(Cortex)\demo on EK-STM32F\LCDDem #
# o\project\EWARM\BOOT_RAM\List\Project.map" #
# Output file 1 = "D:\lilian\STM32(Cortex)\demo on EK-STM32F\LCDDem #
# o\project\EWARM\BOOT_RAM\Exe\Project.d79" #
# Format: debug #
# UBROF version 10.0.2 #
# Using library modules for C-SPY (-rt) #
# Output file 2 = "D:\lilian\STM32(Cortex)\demo on EK-STM32F\LCDDem #
# o\project\EWARM\BOOT_RAM\Exe\Project.sim" #
# Format: simple-code #
# Command line = "D:\lilian\STM32(Cortex)\demo on EK-STM32F\LCDDem #
# o\project\EWARM\BOOT_RAM\Obj\cortexm3_macro.r79" #
# "D:\lilian\STM32(Cortex)\demo on EK-STM32F\LCDDem #
# o\project\EWARM\BOOT_RAM\Obj\lcd.r79" #
# "D:\lilian\STM32(Cortex)\demo on EK-STM32F\LCDDem #
# o\project\EWARM\BOOT_RAM\Obj\main.r79" #
# "D:\lilian\STM32(Cortex)\demo on EK-STM32F\LCDDem #
# o\project\EWARM\BOOT_RAM\Obj\stm32f10x_exti.r79" #
# "D:\lilian\STM32(Cortex)\demo on EK-STM32F\LCDDem #
# o\project\EWARM\BOOT_RAM\Obj\stm32f10x_flash.r79" #
# "D:\lilian\STM32(Cortex)\demo on EK-STM32F\LCDDem #
# o\project\EWARM\BOOT_RAM\Obj\stm32f10x_gpio.r79" #
# "D:\lilian\STM32(Cortex)\demo on EK-STM32F\LCDDem #
# o\project\EWARM\BOOT_RAM\Obj\stm32f10x_it.r79" #
# "D:\lilian\STM32(Cortex)\demo on EK-STM32F\LCDDem #
# o\project\EWARM\BOOT_RAM\Obj\stm32f10x_lib.r79" #
# "D:\lilian\STM32(Cortex)\demo on EK-STM32F\LCDDem #
# o\project\EWARM\BOOT_RAM\Obj\stm32f10x_nvic.r79" #
# "D:\lilian\STM32(Cortex)\demo on EK-STM32F\LCDDem #
# o\project\EWARM\BOOT_RAM\Obj\stm32f10x_rcc.r79" #
# "D:\lilian\STM32(Cortex)\demo on EK-STM32F\LCDDem #
# o\project\EWARM\BOOT_RAM\Obj\stm32f10x_spi.r79" #
# "D:\lilian\STM32(Cortex)\demo on EK-STM32F\LCDDem #
# o\project\EWARM\BOOT_RAM\Obj\stm32f10x_systick.r7 #
# 9" #
# "D:\lilian\STM32(Cortex)\demo on EK-STM32F\LCDDem #
# o\project\EWARM\BOOT_RAM\Obj\stm32f10x_tim.r79" #
# "D:\lilian\STM32(Cortex)\demo on EK-STM32F\LCDDem #
# o\project\EWARM\BOOT_RAM\Obj\stm32f10x_usart.r79" #
# "D:\lilian\STM32(Cortex)\demo on EK-STM32F\LCDDem #
# o\project\EWARM\BOOT_RAM\Obj\stm32f10x_vector.r79 #
# " #
# -o #
# "D:\lilian\STM32(Cortex)\demo on EK-STM32F\LCDDem #
# o\project\EWARM\BOOT_RAM\Exe\Project.d79" #
# -l #
# "D:\lilian\STM32(Cortex)\demo on EK-STM32F\LCDDem #
# o\project\EWARM\BOOT_RAM\List\Project.map" #
# -xms #
# "-IC:\Program Files\IAR Systems\Embedded Workbenc #
# h 4.0\arm\LIB\" #
# -f #
# "D:\lilian\STM32(Cortex)\demo on EK-STM32F\LCDDem #
# o\project\EWARM\lnkarm_flash.xcl" #
# (-DROMSTART=0x8000000 -DROMEND=0x801FFFF #
# -DRAMSTART=0x20000000 -DRAMEND=0x20004FFF -carm #
# -Z(CODE)INTVEC=ROMSTART-ROMEND #
# -Z(CODE)ICODE,DIFUNCT=ROMSTART-ROMEND #
# -Z(CODE)SWITAB=ROMSTART-ROMEND #
# -Z(CODE)CODE=ROMSTART-ROMEND #
# -Z(CONST)CODE_ID=ROMSTART-ROMEND #
# -Z(CONST)INITTAB,DATA_ID,DATA_C=ROMSTART-ROMEND #
# -Z(CONST)CHECKSUM=ROMSTART-ROMEND #
# -Z(DATA)DATA_I,DATA_Z,DATA_N=RAMSTART-RAMEND #
# -Z(DATA)CODE_I=RAMSTART-RAMEND -QCODE_I=CODE_ID #
# -D_CSTACK_SIZE=800 -D_HEAP_SIZE=400 #
# -Z(DATA)CSTACK+_CSTACK_SIZE=RAMSTART-RAMEND #
# -Z(DATA)HEAP+_HEAP_SIZE=RAMSTART-RAMEND) -rt #
# "C:\Program Files\IAR Systems\Embedded Workbench #
# 4.0\arm\LIB\dl7mptnnl8f.r79" #
# "-Osimple-code=D:\lilian\STM32(Cortex)\demo on EK #
# -STM32F\LCDDemo\project\EWARM\BOOT_RAM\Exe\Projec #
# t.sim" #
# -s __program_start #
# #
# Copyright 1987-2007 IAR Systems. All rights reserved. #
################################################################################
****************************************
* *
* CROSS REFERENCE *
* *
****************************************
Program entry at : 08000121 Relocatable, from module : ?CMAIN
****************************************
* *
* RUNTIME MODEL *
* *
****************************************
StackAlign4 = USED
__cpu_mode = __pcs__thumb
__data_model = absolute
__dlib_file_descriptor = 1
__endian = little
__rt_version = 6
****************************************
* *
* MODULE MAP *
* *
****************************************
DEFINED ABSOLUTE ENTRIES
*************************************************************************
DEFINED ABSOLUTE ENTRIES
PROGRAM MODULE, NAME : ?ABS_ENTRY_MOD
Absolute parts
ENTRY ADDRESS REF BY
===== ======= ======
_HEAP_SIZE 00000400
_CSTACK_SIZE 00000800
RAMEND 20004FFF
RAMSTART 20000000
ROMEND 0801FFFF
ROMSTART 08000000
*************************************************************************
FILE NAME : D:\lilian\STM32(Cortex)\demo on EK-STM32F\LCDDemo\project\EWARM\BOOT_RAM\Obj\cortexm3_macro.r79
PROGRAM MODULE, NAME : cortexm3_macro
SEGMENTS IN THE MODULE
======================
CODE
Relative segment, address: 08000150 - 080001BD (0x6e bytes), align: 2
Segment part 0. ROOT.
ENTRY ADDRESS REF BY
===== ======= ======
__WFI 08000151
__WFE 08000155
__SEV 08000159
__ISB 0800015D
__DSB 08000163
__DMB 08000169
__SVC 0800016F
__MRS_CONTROL 08000173
__MSR_CONTROL 08000179
__MRS_PSP 08000183
__MSR_PSP 08000189
__MRS_MSP 0800018F
__MSR_MSP 08000195
__SETPRIMASK 0800019B
__RESETPRIMASK 0800019F
__SETFAULTMASK 080001A3
__RESETFAULTMASK 080001A7
__BASEPRICONFIG 080001AB
__GetBASEPRI 080001B1
__REV_HalfWord 080001B7
__REV_Word 080001BB
*************************************************************************
FILE NAME : D:\lilian\STM32(Cortex)\demo on EK-STM32F\LCDDemo\project\EWARM\BOOT_RAM\Obj\lcd.r79
PROGRAM MODULE, NAME : lcd
SEGMENTS IN THE MODULE
======================
DATA_Z
Relative segment, address: 20000000 - 20000007 (0x8 bytes), align: 2
Segment part 5. Intra module refs: write_char
ENTRY ADDRESS REF BY
===== ======= ======
frame 20000000 TIM2_IRQHandler (stm32f10x_it)
-------------------------------------------------------------------------
DATA_Z
Relative segment, address: 20000008 - 2000000F (0x8 bytes), align: 2
Segment part 6. Intra module refs: Segment part 13
convert
ENTRY ADDRESS REF BY
===== ======= ======
digit 20000008
-------------------------------------------------------------------------
DATA_C
Relative segment, address: 08001E40 - 08001E47 (0x8 bytes), align: 2
Segment part 2. Intra module refs: convert
-------------------------------------------------------------------------
DATA_C
Relative segment, address: 08002140 - 08002142 (0x3 bytes), align: 0
Segment part 3. Intra module refs: convert
-------------------------------------------------------------------------
DATA_C
Relative segment, address: 08001E48 - 08001E4F (0x8 bytes), align: 2
Segment part 4. Intra module refs: write_char
-------------------------------------------------------------------------
DATA_C
Relative segment, address: 08001E50 - 08001E83 (0x34 bytes), align: 2
Segment part 8. Intra module refs: convert
ENTRY ADDRESS REF BY
===== ======= ======
letter 08001E50
-------------------------------------------------------------------------
DATA_C
Relative segment, address: 08001E84 - 08001E97 (0x14 bytes), align: 2
Segment part 9. Intra module refs: convert
ENTRY ADDRESS REF BY
===== ======= ======
number 08001E84
-------------------------------------------------------------------------
DATA_C
Relative segment, address: 08001E98 - 08001E9B (0x4 bytes), align: 2
Segment part 10. Intra module refs: convert
ENTRY ADDRESS REF BY
===== ======= ======
arrow 08001E98
-------------------------------------------------------------------------
CODE
Relative segment, address: 080001C0 - 080002DB (0x11c bytes), align: 2
Segment part 11. Intra module refs: write_char
ENTRY ADDRESS REF BY
===== ======= ======
convert 080001C1
stack 1 = 00000000 ( 00000024 )
-------------------------------------------------------------------------
CODE
Relative segment, address: 080002DC - 080003A7 (0xcc bytes), align: 2
Segment part 12. Intra module refs: write_string
ENTRY ADDRESS REF BY
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