test-as.out

RISC处理器仿真分析程序。可以用于研究通用RISC处理器的指令和架构设计。在linux下编译

./test-as.o:     file format ss-coff-big
./test-as.o
architecture: mips:3000, flags 0x00000031:
HAS_RELOC, HAS_SYMS, HAS_LOCALS
start address 0x00000000
SECTION 0 [.text]	: size 00000950 vma 00000000 align 2**4
 ALLOC, LOAD, RELOC, CODE
SECTION 1 [.data]	: size 00000010 vma 00000950 align 2**4
 ALLOC, LOAD, DATA
SECTION 2 [.sdata]	: size 00000010 vma 00000960 align 2**4
 ALLOC, LOAD, DATA
SECTION 3 [.bss]	: size 00000000 vma 00000970 align 2**4
 ALLOC
SYMBOL TABLE:
[  0] e 00000950 st 0 sc 0 indx fffff     Foo
[  1] e 00000000 st 0 sc 0 indx fffff     test_la
[  2] e 00000960 st 0 sc 0 indx fffff     sFoo
[  3] e 00000088 st 0 sc 0 indx fffff     test_lb
[  4] e 00000280 st 0 sc 0 indx fffff     test_sw
[  5] e 00000478 st 0 sc 0 indx fffff     test_dlw
[  6] e 00000770 st 0 sc 0 indx fffff     test_s.d
[  7] l 00000000 st b sc 1 indx 9     test-as.s
      End+1 symbol: 16
[  8] l 00000950 st 2 sc 2 indx fffff     Foo
[  9] l 00000000 st 5 sc 1 indx fffff     test_la
[ 10] l 00000960 st 2 sc d indx fffff     sFoo
[ 11] l 00000088 st 5 sc 1 indx fffff     test_lb
[ 12] l 00000280 st 5 sc 1 indx fffff     test_sw
[ 13] l 00000478 st 5 sc 1 indx fffff     test_dlw
[ 14] l 00000770 st 5 sc 1 indx fffff     test_s.d
[ 15] l 00000000 st 8 sc 1 indx 0     test-as.s
      First symbol: 7


Disassembly of section .text:
00000000 <test_la> lui $a0[4],0
		RELOC: 00000004 REFHI .data+0xfffff6b0
00000008 <test_la+8> addiu $a0[4],$a0[4],2384
		RELOC: 0000000c REFLO .data+0xfffff6b0
00000010 <test_la+10> addiu $a0[4],$gp[28],-16384
		RELOC: 00000014 GPREL .sdata+0x00004000
00000018 <test_la+18> addiu $a0[4],$zero[0],4
00000020 <test_la+20> addu $a0[4],$a0[4],$a1[5]
00000028 <test_la+28> addiu $at[1],$zero[0],4
00000030 <test_la+30> addu $a0[4],$at[1],$a0[4]
00000038 <test_la+38> lui $a0[4],0
		RELOC: 0000003c REFHI .data+0xfffff6b0
00000040 <test_la+40> addiu $a0[4],$a0[4],2384
		RELOC: 00000044 REFLO .data+0xfffff6b0
00000048 <test_la+48> addu $a0[4],$a0[4],$a1[5]
00000050 <test_la+50> lui $at[1],0
		RELOC: 00000054 REFHI .data+0xfffff6b0
00000058 <test_la+58> addiu $at[1],$at[1],2384
		RELOC: 0000005c REFLO .data+0xfffff6b0
00000060 <test_la+60> addu $a0[4],$at[1],$a0[4]
00000068 <test_la+68> addiu $a0[4],$gp[28],-16384
		RELOC: 0000006c GPREL .sdata+0x00004000
00000070 <test_la+70> addu $a0[4],$a0[4],$a1[5]
00000078 <test_la+78> addiu $at[1],$gp[28],-16384
		RELOC: 0000007c GPREL .sdata+0x00004000
00000080 <test_la+80> addu $a0[4],$at[1],$a0[4]
00000088 <test_lb> lui $a0[4],0
		RELOC: 0000008c REFHI .data+0xfffff6b0
00000090 <test_lb+8> lb $a0[4],2384($a0[4])
		RELOC: 00000094 REFLO .data+0xfffff6b0
00000098 <test_lb+10> lb $a0[4],-16384($gp[28])
		RELOC: 0000009c GPREL .sdata+0x00004000
000000a0 <test_lb+18> lb $a0[4],($a1[5]+$a0[4])
000000a8 <test_lb+20> lb $a0[4],($a1[5]+$a0[4])+
000000b0 <test_lb+28> lb $a0[4],($a1[5]+$a0[4])-
000000b8 <test_lb+30> lb $a0[4],($a1[5]+$a0[4])^+
000000c0 <test_lb+38> lb $a0[4],($a1[5]+$a0[4])^-
000000c8 <test_lb+40> lb $a0[4],4($a1[5])
000000d0 <test_lb+48> lb $a0[4],4($a1[5])+
000000d8 <test_lb+50> lb $a0[4],4($a1[5])-
000000e0 <test_lb+58> lb $a0[4],4($a1[5])^+
000000e8 <test_lb+60> lb $a0[4],4($a1[5])^-
000000f0 <test_lb+68> lui $a0[4],0
		RELOC: 000000f4 REFHI .data+0xfffff6b0
000000f8 <test_lb+70> addu $a0[4],$a0[4],$a1[5]
00000100 <test_lb+78> lb $a0[4],2384($a0[4])
		RELOC: 00000104 REFLO .data+0xfffff6b0
00000108 <test_lb+80> lui $at[1],0
		RELOC: 0000010c REFHI .data+0xfffff6b0
00000110 <test_lb+88> addu $at[1],$at[1],$a0[4]
00000118 <test_lb+90> lb $a0[4],2384($at[1])
		RELOC: 0000011c REFLO .data+0xfffff6b0
00000120 <test_lb+98> lui $a0[4],0
		RELOC: 00000124 REFHI .data+0xfffff6b0
00000128 <test_lb+a0> addu $a0[4],$a0[4],$a1[5]
00000130 <test_lb+a8> lb $a0[4],2384($a0[4])+
		RELOC: 00000134 REFLO .data+0xfffff6b0
00000138 <test_lb+b0> lui $at[1],0
		RELOC: 0000013c REFHI .data+0xfffff6b0
00000140 <test_lb+b8> addu $at[1],$at[1],$a0[4]
00000148 <test_lb+c0> lb $a0[4],2384($at[1])+
		RELOC: 0000014c REFLO .data+0xfffff6b0
00000150 <test_lb+c8> lui $a0[4],0
		RELOC: 00000154 REFHI .data+0xfffff6b0
00000158 <test_lb+d0> addu $a0[4],$a0[4],$a1[5]
00000160 <test_lb+d8> lb $a0[4],2384($a0[4])-
		RELOC: 00000164 REFLO .data+0xfffff6b0
00000168 <test_lb+e0> lui $at[1],0
		RELOC: 0000016c REFHI .data+0xfffff6b0
00000170 <test_lb+e8> addu $at[1],$at[1],$a0[4]
00000178 <test_lb+f0> lb $a0[4],2384($at[1])-
		RELOC: 0000017c REFLO .data+0xfffff6b0
00000180 <test_lb+f8> lui $a0[4],0
		RELOC: 00000184 REFHI .data+0xfffff6b0
00000188 <test_lb+100> addu $a0[4],$a0[4],$a1[5]
00000190 <test_lb+108> lb $a0[4],2384($a0[4])^+
		RELOC: 00000194 REFLO .data+0xfffff6b0
00000198 <test_lb+110> lui $at[1],0
		RELOC: 0000019c REFHI .data+0xfffff6b0
000001a0 <test_lb+118> addu $at[1],$at[1],$a0[4]
000001a8 <test_lb+120> lb $a0[4],2384($at[1])^+
		RELOC: 000001ac REFLO .data+0xfffff6b0
000001b0 <test_lb+128> lui $a0[4],0
		RELOC: 000001b4 REFHI .data+0xfffff6b0
000001b8 <test_lb+130> addu $a0[4],$a0[4],$a1[5]
000001c0 <test_lb+138> lb $a0[4],2384($a0[4])^-
		RELOC: 000001c4 REFLO .data+0xfffff6b0
000001c8 <test_lb+140> lui $at[1],0
		RELOC: 000001cc REFHI .data+0xfffff6b0
000001d0 <test_lb+148> addu $at[1],$at[1],$a0[4]
000001d8 <test_lb+150> lb $a0[4],2384($at[1])^-
		RELOC: 000001dc REFLO .data+0xfffff6b0
000001e0 <test_lb+158> addu $a0[4],$a1[5],$gp[28]
000001e8 <test_lb+160> lb $a0[4],-16384($a0[4])
		RELOC: 000001ec GPREL .sdata+0x00004000
000001f0 <test_lb+168> addu $at[1],$a0[4],$gp[28]
000001f8 <test_lb+170> lb $a0[4],-16384($at[1])
		RELOC: 000001fc GPREL .sdata+0x00004000
00000200 <test_lb+178> addu $a0[4],$a1[5],$gp[28]
00000208 <test_lb+180> lb $a0[4],-16384($a0[4])+
		RELOC: 0000020c GPREL .sdata+0x00004000
00000210 <test_lb+188> addu $at[1],$a0[4],$gp[28]
00000218 <test_lb+190> lb $a0[4],-16384($at[1])+
		RELOC: 0000021c GPREL .sdata+0x00004000
00000220 <test_lb+198> addu $a0[4],$a1[5],$gp[28]
00000228 <test_lb+1a0> lb $a0[4],-16384($a0[4])-
		RELOC: 0000022c GPREL .sdata+0x00004000
00000230 <test_lb+1a8> addu $at[1],$a0[4],$gp[28]
00000238 <test_lb+1b0> lb $a0[4],-16384($at[1])-
		RELOC: 0000023c GPREL .sdata+0x00004000
00000240 <test_lb+1b8> addu $a0[4],$a1[5],$gp[28]
00000248 <test_lb+1c0> lb $a0[4],-16384($a0[4])^+
		RELOC: 0000024c GPREL .sdata+0x00004000
00000250 <test_lb+1c8> addu $at[1],$a0[4],$gp[28]
00000258 <test_lb+1d0> lb $a0[4],-16384($at[1])^+
		RELOC: 0000025c GPREL .sdata+0x00004000
00000260 <test_lb+1d8> addu $a0[4],$a1[5],$gp[28]
00000268 <test_lb+1e0> lb $a0[4],-16384($a0[4])^-
		RELOC: 0000026c GPREL .sdata+0x00004000
00000270 <test_lb+1e8> addu $at[1],$a0[4],$gp[28]
00000278 <test_lb+1f0> lb $a0[4],-16384($at[1])^-
		RELOC: 0000027c GPREL .sdata+0x00004000
00000280 <test_sw> lui $at[1],0
		RELOC: 00000284 REFHI .data+0xfffff6b0
00000288 <test_sw+8> sw $a0[4],2384($at[1])
		RELOC: 0000028c REFLO .data+0xfffff6b0
00000290 <test_sw+10> sw $a0[4],-16384($gp[28])
		RELOC: 00000294 GPREL .sdata+0x00004000
00000298 <test_sw+18> sw $a0[4],($a1[5]+$a0[4])
000002a0 <test_sw+20> sw $a0[4],($a1[5]+$a0[4])+
000002a8 <test_sw+28> sw $a0[4],($a1[5]+$a0[4])-
000002b0 <test_sw+30> sw $a0[4],($a1[5]+$a0[4])^+
000002b8 <test_sw+38> sw $a0[4],($a1[5]+$a0[4])^-
000002c0 <test_sw+40> sw $a0[4],4($a1[5])
000002c8 <test_sw+48> sw $a0[4],4($a1[5])+
000002d0 <test_sw+50> sw $a0[4],4($a1[5])-
000002d8 <test_sw+58> sw $a0[4],4($a1[5])^+
000002e0 <test_sw+60> sw $a0[4],4($a1[5])^-
000002e8 <test_sw+68> lui $at[1],0
		RELOC: 000002ec REFHI .data+0xfffff6b0
000002f0 <test_sw+70> addu $at[1],$at[1],$a1[5]
000002f8 <test_sw+78> sw $a0[4],2384($at[1])
		RELOC: 000002fc REFLO .data+0xfffff6b0
00000300 <test_sw+80> lui $at[1],0
		RELOC: 00000304 REFHI .data+0xfffff6b0
00000308 <test_sw+88> addu $at[1],$at[1],$a0[4]
00000310 <test_sw+90> sw $a0[4],2384($at[1])
		RELOC: 00000314 REFLO .data+0xfffff6b0
00000318 <test_sw+98> lui $at[1],0
		RELOC: 0000031c REFHI .data+0xfffff6b0
00000320 <test_sw+a0> addu $at[1],$at[1],$a1[5]
00000328 <test_sw+a8> sw $a0[4],2384($at[1])+
		RELOC: 0000032c REFLO .data+0xfffff6b0
00000330 <test_sw+b0> lui $at[1],0
		RELOC: 00000334 REFHI .data+0xfffff6b0
00000338 <test_sw+b8> addu $at[1],$at[1],$a0[4]
00000340 <test_sw+c0> sw $a0[4],2384($at[1])+
		RELOC: 00000344 REFLO .data+0xfffff6b0
00000348 <test_sw+c8> lui $at[1],0
		RELOC: 0000034c REFHI .data+0xfffff6b0
00000350 <test_sw+d0> addu $at[1],$at[1],$a1[5]
00000358 <test_sw+d8> sw $a0[4],2384($at[1])-
		RELOC: 0000035c REFLO .data+0xfffff6b0
00000360 <test_sw+e0> lui $at[1],0
		RELOC: 00000364 REFHI .data+0xfffff6b0
00000368 <test_sw+e8> addu $at[1],$at[1],$a0[4]
00000370 <test_sw+f0> sw $a0[4],2384($at[1])-
		RELOC: 00000374 REFLO .data+0xfffff6b0
00000378 <test_sw+f8> lui $at[1],0
		RELOC: 0000037c REFHI .data+0xfffff6b0
00000380 <test_sw+100> addu $at[1],$at[1],$a1[5]
00000388 <test_sw+108> sw $a0[4],2384($at[1])^+
		RELOC: 0000038c REFLO .data+0xfffff6b0
00000390 <test_sw+110> lui $at[1],0
		RELOC: 00000394 REFHI .data+0xfffff6b0
00000398 <test_sw+118> addu $at[1],$at[1],$a0[4]
000003a0 <test_sw+120> sw $a0[4],2384($at[1])^+
		RELOC: 000003a4 REFLO .data+0xfffff6b0
000003a8 <test_sw+128> lui $at[1],0
		RELOC: 000003ac REFHI .data+0xfffff6b0
000003b0 <test_sw+130> addu $at[1],$at[1],$a1[5]
000003b8 <test_sw+138> sw $a0[4],2384($at[1])^-
		RELOC: 000003bc REFLO .data+0xfffff6b0
000003c0 <test_sw+140> lui $at[1],0
		RELOC: 000003c4 REFHI .data+0xfffff6b0
000003c8 <test_sw+148> addu $at[1],$at[1],$a0[4]
000003d0 <test_sw+150> sw $a0[4],2384($at[1])^-
		RELOC: 000003d4 REFLO .data+0xfffff6b0
000003d8 <test_sw+158> addu $at[1],$a1[5],$gp[28]
000003e0 <test_sw+160> sw $a0[4],-16384($at[1])
		RELOC: 000003e4 GPREL .sdata+0x00004000
000003e8 <test_sw+168> addu $at[1],$a0[4],$gp[28]
000003f0 <test_sw+170> sw $a0[4],-16384($at[1])
		RELOC: 000003f4 GPREL .sdata+0x00004000
000003f8 <test_sw+178> addu $at[1],$a1[5],$gp[28]