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;*******************************************************************************
;
; C Compiler for M16C/60
; Copyright 1995-1998 MITSUBISHI ELECTRIC CORPORATION
; AND MITSUBISHI ELECTRIC SEMICONDUCTOR SYSTEMS CORPORATION
; All Rights Reserved.
;
; Written by T.Aoyama
;
; sect30.inc : section definition
; This program is applicable when using the basic I/O library
;
; $Id: sect30.inc,v 1.9 2000/06/20 09:07:11 simomura Exp $
;
;******************************************************************************
;---------------------------------------------------------------
;
; Arrangement of section
;
;---------------------------------------------------------------
; Near RAM data area
;---------------------------------------------------------------
; SBDATA area
.section data_SE,DATA
.org 400H
data_SE_top:
.section bss_SE,DATA,ALIGN
bss_SE_top:
.section data_SO,DATA
data_SO_top:
.section bss_SO,DATA
bss_SO_top:
; near RAM area
.section data_NE,DATA,ALIGN
data_NE_top:
.section bss_NE,DATA,ALIGN
bss_NE_top:
.section data_NO,DATA
data_NO_top:
.section bss_NO,DATA
bss_NO_top:
;---------------------------------------------------------------
; Stack area
;---------------------------------------------------------------
.section stack,DATA
.blkb STACKSIZE
stack_top:
.blkb ISTACKSIZE
istack_top:
;---------------------------------------------------------------
; heap section
;---------------------------------------------------------------
;// .section heap,DATA
;//heap_top:
;// .blkb HEAPSIZE
;---------------------------------------------------------------
; Near ROM data area
;---------------------------------------------------------------
;// .section rom_NE,ROMDATA,ALIGN
;//rom_NE_top:
;// .section rom_NO,ROMDATA
;//rom_NO_top:
;---------------------------------------------------------------
; Far RAM data area
;---------------------------------------------------------------
;// .section data_FE,DATA
;// .org 10000H
;//data_FE_top:
;// .section bss_FE,DATA,ALIGN
;//bss_FE_top:
;// .section data_FO,DATA
;//data_FO_top:
;// .section bss_FO,DATA
;//bss_FO_top:
;---------------------------------------------------------------
; Far ROM data area
;---------------------------------------------------------------
.section rom_FE,ROMDATA
.org 0F0000H
rom_FE_top:
.section rom_FO,ROMDATA
rom_FO_top:
;---------------------------------------------------------------
; Initial data of 'data' section
;---------------------------------------------------------------
.section data_SEI,ROMDATA
data_SEI_top:
.section data_SOI,ROMDATA
data_SOI_top:
.section data_NEI,ROMDATA
data_NEI_top:
.section data_NOI,ROMDATA
data_NOI_top:
.section data_FEI,ROMDATA
data_FEI_top:
.section data_FOI,ROMDATA
data_FOI_top:
;---------------------------------------------------------------
; Switch Table Section
;---------------------------------------------------------------
;// .section switch_table,ROMDATA
;//switch_table_top:
;---------------------------------------------------------------
; code area
;---------------------------------------------------------------
.section program
.section interrupt
;.org ;must be set internal ROM area
.section program_S
;---------------------------------------------------------------
; variable vector section
;---------------------------------------------------------------
.section vector ; variable vector table
.org VECTOR_ADR
.if M62TYPE==1
.lword dummy_int ; BRK (vector 0)
.org (VECTOR_ADR+16)
.lword dummy_int ; int3(for user)(vector 4)
.lword dummy_int ; timerB5(for user)(vector 5)
.lword dummy_int ; timerB4(for user)(vector 6)
.lword dummy_int ; timerB3(for user)(vector 7)
.lword dummy_int ; si/o4 /int5(for user)(vector 8)
.lword dummy_int ; si/o3 /int4(for user)(vector 9)
.lword dummy_int ; Bus collision detection(for user)(v10)
.lword dummy_int ; DMA0(for user)(vector 11)
.lword dummy_int ; DMA1(for user)(vector 12)
.lword dummy_int ; Key input interrupt(for user)(vect 14)
.lword dummy_int ; A-D(for user)(vector 14)
.lword dummy_int ; uart2 transmit(for user)(vector 15)
.lword dummy_int ; uart2 receive(for user)(vector 16)
.lword dummy_int ; uart0 transmit(for user)(vector 17)
.lword dummy_int ; uart0 receive(for user)(vector 18)
.lword dummy_int ; uart1 transmit(for user)(vector 19)
.lword dummy_int ; uart1 receive(for user)(vector 20)
.lword dummy_int ; timer A0(for user)(vector 21)
.lword dummy_int ; timer A1(for user)(vector 22)
.lword dummy_int ; timer A2(for user)(vector 23)
.lword dummy_int ; timer A3(for user)(vector 24)
.lword dummy_int ; timer A4(for user)(vector 25)
.lword dummy_int ; timer B0(for user)(vector 26)
.lword dummy_int ; timer B1(for user)(vector 27)
.lword dummy_int ; timer B2(for user)(vector 28)
.lword dummy_int ; int0 (for user)(vector 29)
.lword dummy_int ; int1 (for user)(vector 30)
.lword dummy_int ; int2 (for user)(vector 31)
.else
.lword dummy_int ; vector 0 (BRK)
.org (VECTOR_ADR +44)
.lword dummy_int ; DMA0 (for user)
.lword dummy_int ; DMA1 2 (for user)
.lword dummy_int ; input key (for user)
.lword dummy_int ; AD Convert (for user)
.org (VECTOR_ADR +68)
.lword dummy_int ; uart0 trance (for user)
.lword dummy_int ; uart0 receive (for user)
.lword 000fcb6bh ; uart1 trance (for user)
.lword 000fcb6bh ; uart1 receive (for user)
.glb _ta0int
.lword _ta0int ; TIMER A0 (for user)
.glb _ta1int
.lword _ta1int ; TIMER A1 (for user)
.lword dummy_int ; TIMER A2 (for user)
.lword dummy_int ; TIMER A3 (for user)
.lword dummy_int ; TIMER A4 (for user) (vector 25)
.lword dummy_int ; TIMER B0 (for user) (vector 26)
.lword dummy_int ; TIMER B1 (for user) (vector 27)
.lword dummy_int ; TIMER B2 (for user) (vector 28)
.glb _int0
.lword _int0 ; INT0 (for user) (vector 29)
.lword dummy_int ; INT1 (for user) (vector 30)
.lword dummy_int ; INT2 (for user) (vector 31)
.endif
.lword dummy_int ; vector 32 (for user or MR30)
.lword dummy_int ; vector 33 (for user or MR30)
.lword dummy_int ; vector 34 (for user or MR30)
.lword dummy_int ; vector 35 (for user or MR30)
.lword dummy_int ; vector 36 (for user or MR30)
.lword dummy_int ; vector 37 (for user or MR30)
.lword dummy_int ; vector 38 (for user or MR30)
.lword dummy_int ; vector 39 (for user or MR30)
.lword dummy_int ; vector 40 (for user or MR30)
.lword dummy_int ; vector 41 (for user or MR30)
.lword dummy_int ; vector 42 (for user or MR30)
.lword dummy_int ; vector 43 (for user or MR30)
.lword dummy_int ; vector 44 (for user or MR30)
.lword dummy_int ; vector 45 (for user or MR30)
.lword dummy_int ; vector 46 (for user or MR30)
.lword dummy_int ; vector 47 (for user or MR30)
; to vector 63 from vector 32 is used MR30
;===============================================================
; fixed vector section
;---------------------------------------------------------------
.section fvector ; fixed vector table
;===============================================================
; special page defination
;---------------------------------------------------------------
; macro is defined in ncrt0.a30
; Format: SPECIAL number
;
;---------------------------------------------------------------
; SPECIAL 255
; SPECIAL 254
; SPECIAL 253
; :
; :
; (omitted)
; :
; :
; SPECIAL 24
; SPECIAL 23
; SPECIAL 22
; SPECIAL 21
; SPECIAL 20
; SPECIAL 19
; SPECIAL 18
;
;===============================================================
; fixed vector section
;---------------------------------------------------------------
.org 0fffdch
UDI:
.lword dummy_int
OVER_FLOW:
.lword dummy_int
BRKI:
.lword dummy_int
ADDRESS_MATCH:
.lword dummy_int
SINGLE_STEP:
.lword dummy_int
WDT:
.lword dummy_int
DBC:
.lword dummy_int
NMI:
.lword dummy_int
RESET:
.lword start
;
;*******************************************************************************
;
; C Compiler for M16C/60
; Copyright 1995-1998 MITSUBISHI ELECTRIC CORPORATION
; AND MITSUBISHI ELECTRIC SEMICONDUCTOR SYSTEMS CORPORATION
; All Rights Reserved.
;
;*******************************************************************************
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