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https://opencores.org/ocsvn/altor32/altor32/trunk
Subversion Repositories altor32
[/] [altor32/] [trunk/] [rtl/] [sim/] [test_image.lst] - Rev 45
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firmware.elf: file format elf32-or1k
Sections:
Idx Name Size VMA LMA File off Algn
0 .text 00002fd8 10000000 10000000 00002000 2**2
CONTENTS, ALLOC, LOAD, READONLY, CODE
1 .data 00000008 10002fd8 10002fd8 00004fd8 2**2
CONTENTS, ALLOC, LOAD, DATA
2 .bss 00001030 10002fe0 10002fe0 00004fe0 2**2
ALLOC
3 .debug_info 00002151 00000000 00000000 00004fe0 2**0
CONTENTS, READONLY, DEBUGGING
4 .debug_abbrev 00000b63 00000000 00000000 00007131 2**0
CONTENTS, READONLY, DEBUGGING
5 .debug_loc 00000fc6 00000000 00000000 00007c94 2**0
CONTENTS, READONLY, DEBUGGING
6 .debug_aranges 00000140 00000000 00000000 00008c5a 2**0
CONTENTS, READONLY, DEBUGGING
7 .debug_ranges 000000b8 00000000 00000000 00008d9a 2**0
CONTENTS, READONLY, DEBUGGING
8 .debug_line 00000ad7 00000000 00000000 00008e52 2**0
CONTENTS, READONLY, DEBUGGING
9 .debug_str 000006d5 00000000 00000000 00009929 2**0
CONTENTS, READONLY, DEBUGGING
10 .comment 00000029 00000000 00000000 00009ffe 2**0
CONTENTS, READONLY
11 .debug_frame 0000039c 00000000 00000000 0000a028 2**2
CONTENTS, READONLY, DEBUGGING
Disassembly of section .text:
10000000 <_start-0x100>:
...
10000100 <_start>:
10000100: 18 80 10 00 l.movhi r4,0x1000
10000104: a8 24 40 00 l.ori r1,r4,0x4000
10000108: 18 80 10 00 l.movhi r4,0x1000
1000010c: a8 84 2f e0 l.ori r4,r4,0x2fe0
10000110: 18 a0 10 00 l.movhi r5,0x1000
10000114: a8 a5 40 10 l.ori r5,r5,0x4010
10000118 <BSS_CLEAR>:
10000118: d4 04 00 00 l.sw 0(r4),r0
1000011c: e4 a4 28 00 l.sfleu r4,r5
10000120: 9c 84 00 04 l.addi r4,r4,4
10000124: 13 ff ff fd l.bf 10000118 <BSS_CLEAR>
10000128: 15 00 00 00 l.nop 0x0
1000012c: 04 00 03 b5 l.jal 10001000 <main>
10000130: 15 00 00 00 l.nop 0x0
...
10000400 <vector_extint>:
10000400: 24 00 00 00 l.rfe
10000404: 15 00 00 00 l.nop 0x0
...
10000ffc: 15 00 00 00 l.nop 0x0
10001000 <main>:
int main(void)
{
int res;
// Setup printf to serial port
printf_register(serial_putchar);
10001000: 18 60 10 00 l.movhi r3,0x1000
//-----------------------------------------------------------------
// main:
//-----------------------------------------------------------------
int main(void)
{
10001004: d7 e1 4f fc l.sw -4(r1),r9
10001008: d7 e1 0f f8 l.sw -8(r1),r1
int res;
// Setup printf to serial port
printf_register(serial_putchar);
1000100c: a8 63 1a 54 l.ori r3,r3,0x1a54
//-----------------------------------------------------------------
// main:
//-----------------------------------------------------------------
int main(void)
{
10001010: 9c 21 ff f8 l.addi r1,r1,-8
int res;
// Setup printf to serial port
printf_register(serial_putchar);
10001014: 04 00 01 32 l.jal 100014dc <printf_register>
// Run test
res = test();
10001018: 04 00 03 35 l.jal 10001cec <test>
static inline void exit(unsigned exit_code)
{
volatile register char t1 asm ("r1") = exit_code;
// No error?
if (exit_code == 0)
1000101c: bc 2b 00 00 l.sfnei r11,0
}
static inline void exit(unsigned exit_code)
{
volatile register char t1 asm ("r1") = exit_code;
10001020: a5 6b 00 ff l.andi r11,r11,0xff
10001024: a8 2b 00 00 l.ori r1,r11,0x0
// No error?
if (exit_code == 0)
10001028: 0c 00 00 06 l.bnf 10001040 <main+0x40>
__asm__ __volatile__ ( "\t l.trap 0 ");
}
else
{
// Invalid instruction!
__asm__ __volatile__ ( "\t lf.add.s r0,r0,r0 ");
1000102c: c8 00 00 00 lf.add.s r0,r0,r0
// Exit with result
exit(res);
}
10001030: 9c 21 00 08 l.addi r1,r1,8
10001034: 85 21 ff fc l.lwz r9,-4(r1)
10001038: 84 21 ff f8 l.lwz r1,-8(r1)
1000103c: 44 00 48 00 l.jr r9
// No error?
if (exit_code == 0)
{
// Trap instruction
__asm__ __volatile__ ( "\t l.trap 0 ");
10001040: 21 00 00 00 l.trap 0x0
10001044: 03 ff ff fb l.j 10001030 <main+0x30>
10001048 <exception_register_fault_handler>:
static volatile int in_interrupt = 0;
//-----------------------------------------------------------------
// exception_register:
//-----------------------------------------------------------------
void exception_register_fault_handler(void (*func)(void)) { func_fault = func; }
10001048: 18 80 10 00 l.movhi r4,0x1000
1000104c: d7 e1 0f fc l.sw -4(r1),r1
10001050: a8 84 2f f0 l.ori r4,r4,0x2ff0
10001054: 9c 21 ff fc l.addi r1,r1,-4
10001058: d4 04 18 00 l.sw 0(r4),r3
1000105c: 9c 21 00 04 l.addi r1,r1,4
10001060: 84 21 ff fc l.lwz r1,-4(r1)
10001064: 44 00 48 00 l.jr r9
10001068 <exception_register_break_handler>:
void exception_register_break_handler(void (*func)(void)) { func_break = func; }
10001068: 18 80 10 00 l.movhi r4,0x1000
1000106c: d7 e1 0f fc l.sw -4(r1),r1
10001070: a8 84 2f ec l.ori r4,r4,0x2fec
10001074: 9c 21 ff fc l.addi r1,r1,-4
10001078: d4 04 18 00 l.sw 0(r4),r3
1000107c: 9c 21 00 04 l.addi r1,r1,4
10001080: 84 21 ff fc l.lwz r1,-4(r1)
10001084: 44 00 48 00 l.jr r9
10001088 <exception_register_extint_handler>:
void exception_register_extint_handler(void (*func)(void)) { func_extint = func; }
10001088: 18 80 10 00 l.movhi r4,0x1000
1000108c: d7 e1 0f fc l.sw -4(r1),r1
10001090: a8 84 2f e8 l.ori r4,r4,0x2fe8
10001094: 9c 21 ff fc l.addi r1,r1,-4
10001098: d4 04 18 00 l.sw 0(r4),r3
1000109c: 9c 21 00 04 l.addi r1,r1,4
100010a0: 84 21 ff fc l.lwz r1,-4(r1)
100010a4: 44 00 48 00 l.jr r9
100010a8 <exception_register_syscall_handler>:
void exception_register_syscall_handler(void (*func)(void)) { func_syscall = func; }
100010a8: 18 80 10 00 l.movhi r4,0x1000
100010ac: d7 e1 0f fc l.sw -4(r1),r1
100010b0: a8 84 2f e4 l.ori r4,r4,0x2fe4
100010b4: 9c 21 ff fc l.addi r1,r1,-4
100010b8: d4 04 18 00 l.sw 0(r4),r3
100010bc: 9c 21 00 04 l.addi r1,r1,4
100010c0: 84 21 ff fc l.lwz r1,-4(r1)
100010c4: 44 00 48 00 l.jr r9
100010c8 <cpu_handle_irq>:
//-----------------------------------------------------------------
// cpu_handle_irq:
//-----------------------------------------------------------------
void cpu_handle_irq(unsigned cause)
{
100010c8: d7 e1 17 f4 l.sw -12(r1),r2
int recursive_int = (in_interrupt != 0);
100010cc: 18 40 10 00 l.movhi r2,0x1000
in_interrupt = 1;
100010d0: 9c 80 00 01 l.addi r4,r0,1
//-----------------------------------------------------------------
// cpu_handle_irq:
//-----------------------------------------------------------------
void cpu_handle_irq(unsigned cause)
{
int recursive_int = (in_interrupt != 0);
100010d4: a8 42 2f e0 l.ori r2,r2,0x2fe0
//-----------------------------------------------------------------
// cpu_handle_irq:
//-----------------------------------------------------------------
void cpu_handle_irq(unsigned cause)
{
100010d8: d7 e1 77 f8 l.sw -8(r1),r14
100010dc: d7 e1 4f fc l.sw -4(r1),r9
100010e0: d7 e1 0f f0 l.sw -16(r1),r1
int recursive_int = (in_interrupt != 0);
100010e4: 85 c2 00 00 l.lwz r14,0(r2)
in_interrupt = 1;
switch (cause)
100010e8: bc 43 00 08 l.sfgtui r3,8
//-----------------------------------------------------------------
void cpu_handle_irq(unsigned cause)
{
int recursive_int = (in_interrupt != 0);
in_interrupt = 1;
100010ec: d4 02 20 00 l.sw 0(r2),r4
//-----------------------------------------------------------------
// cpu_handle_irq:
//-----------------------------------------------------------------
void cpu_handle_irq(unsigned cause)
{
100010f0: 9c 21 ff e4 l.addi r1,r1,-28
int recursive_int = (in_interrupt != 0);
in_interrupt = 1;
switch (cause)
100010f4: 10 00 00 71 l.bf 100012b8 <cpu_handle_irq+0x1f0>
100010f8: 18 80 10 00 l.movhi r4,0x1000
100010fc: b8 63 00 02 l.slli r3,r3,0x2
10001100: a8 84 2b 00 l.ori r4,r4,0x2b00
10001104: e0 63 20 00 l.add r3,r3,r4
10001108: 84 63 00 00 l.lwz r3,0(r3)
1000110c: 44 00 18 00 l.jr r3
case EXCEPTION_DIV:
panic("DIV!");
break;
case EXCEPTION_UDIV:
panic("UDIV!");
10001110: 18 60 10 00 l.movhi r3,0x1000
10001114: a8 63 2c e4 l.ori r3,r3,0x2ce4
10001118: d4 01 18 00 l.sw 0(r1),r3
1000111c: 18 60 10 00 l.movhi r3,0x1000
10001120: a8 63 2c 9a l.ori r3,r3,0x2c9a
10001124: d4 01 18 04 l.sw 4(r1),r3
10001128: 9c 60 00 6e l.addi r3,r0,110
break;
default:
panic("UNKNOWN");
1000112c: d4 01 18 08 l.sw 8(r1),r3
10001130: 18 60 10 00 l.movhi r3,0x1000
10001134: a8 63 2c 74 l.ori r3,r3,0x2c74
10001138: 04 00 02 2b l.jal 100019e4 <printf>
}
static inline void exit(unsigned exit_code)
{
volatile register char t1 asm ("r1") = exit_code;
1000113c: 9c 20 00 01 l.addi r1,r0,1
__asm__ __volatile__ ( "\t l.trap 0 ");
}
else
{
// Invalid instruction!
__asm__ __volatile__ ( "\t lf.add.s r0,r0,r0 ");
10001140: c8 00 00 00 lf.add.s r0,r0,r0
break;
}
assert(recursive_int == 0);
10001144: bc 0e 00 00 l.sfeqi r14,0
10001148: 10 00 00 0e l.bf 10001180 <cpu_handle_irq+0xb8>
1000114c: 18 60 10 00 l.movhi r3,0x1000
10001150: a8 63 2c f6 l.ori r3,r3,0x2cf6
10001154: d4 01 18 00 l.sw 0(r1),r3
10001158: 18 60 10 00 l.movhi r3,0x1000
1000115c: a8 63 2c 9a l.ori r3,r3,0x2c9a
10001160: d4 01 18 04 l.sw 4(r1),r3
10001164: 9c 60 00 76 l.addi r3,r0,118
10001168: d4 01 18 08 l.sw 8(r1),r3
1000116c: 18 60 10 00 l.movhi r3,0x1000
10001170: a8 63 2c 74 l.ori r3,r3,0x2c74
10001174: 04 00 02 1c l.jal 100019e4 <printf>
}
static inline void exit(unsigned exit_code)
{
volatile register char t1 asm ("r1") = exit_code;
10001178: 9c 20 00 01 l.addi r1,r0,1
__asm__ __volatile__ ( "\t l.trap 0 ");
}
else
{
// Invalid instruction!
__asm__ __volatile__ ( "\t lf.add.s r0,r0,r0 ");
1000117c: c8 00 00 00 lf.add.s r0,r0,r0
in_interrupt = 0;
10001180: 9c 60 00 00 l.addi r3,r0,0
10001184: d4 02 18 00 l.sw 0(r2),r3
}
10001188: 9c 21 00 1c l.addi r1,r1,28
1000118c: 85 21 ff fc l.lwz r9,-4(r1)
10001190: 84 21 ff f0 l.lwz r1,-16(r1)
10001194: 84 41 ff f4 l.lwz r2,-12(r1)
10001198: 85 c1 ff f8 l.lwz r14,-8(r1)
1000119c: 44 00 48 00 l.jr r9
in_interrupt = 1;
switch (cause)
{
case EXCEPTION_SYSCALL:
if (func_syscall)
100011a0: 18 60 10 00 l.movhi r3,0x1000
100011a4: a8 63 2f e4 l.ori r3,r3,0x2fe4
100011a8: 84 63 00 00 l.lwz r3,0(r3)
100011ac: bc 03 00 00 l.sfeqi r3,0
100011b0: 10 00 00 4a l.bf 100012d8 <cpu_handle_irq+0x210>
panic("EXT_INT!");
break;
case EXCEPTION_FAULT:
if (func_fault)
func_fault();
100011b4: 48 00 18 00 l.jalr r3
100011b8: 03 ff ff e3 l.j 10001144 <cpu_handle_irq+0x7c>
else
panic("SYSCALL!");
break;
case EXCEPTION_BREAK:
if (func_break)
100011bc: 18 60 10 00 l.movhi r3,0x1000
100011c0: a8 63 2f ec l.ori r3,r3,0x2fec
100011c4: 84 63 00 00 l.lwz r3,0(r3)
100011c8: bc 03 00 00 l.sfeqi r3,0
100011cc: 0f ff ff fa l.bnf 100011b4 <cpu_handle_irq+0xec>
func_break();
else
panic("BREAK!");
100011d0: 18 60 10 00 l.movhi r3,0x1000
100011d4: a8 63 2c b0 l.ori r3,r3,0x2cb0
100011d8: d4 01 18 00 l.sw 0(r1),r3
100011dc: 18 60 10 00 l.movhi r3,0x1000
100011e0: a8 63 2c 9a l.ori r3,r3,0x2c9a
100011e4: d4 01 18 04 l.sw 4(r1),r3
100011e8: 9c 60 00 50 l.addi r3,r0,80
100011ec: 03 ff ff d0 l.j 1000112c <cpu_handle_irq+0x64>
break;
case EXCEPTION_EXTINT:
if (func_extint)
100011f0: 18 60 10 00 l.movhi r3,0x1000
100011f4: a8 63 2f e8 l.ori r3,r3,0x2fe8
100011f8: 84 63 00 00 l.lwz r3,0(r3)
100011fc: bc 03 00 00 l.sfeqi r3,0
10001200: 0f ff ff ed l.bnf 100011b4 <cpu_handle_irq+0xec>
func_extint();
else
panic("EXT_INT!");
10001204: 18 60 10 00 l.movhi r3,0x1000
10001208: a8 63 2c b9 l.ori r3,r3,0x2cb9
1000120c: d4 01 18 00 l.sw 0(r1),r3
10001210: 18 60 10 00 l.movhi r3,0x1000
10001214: a8 63 2c 9a l.ori r3,r3,0x2c9a
10001218: d4 01 18 04 l.sw 4(r1),r3
1000121c: 9c 60 00 57 l.addi r3,r0,87
10001220: 03 ff ff c3 l.j 1000112c <cpu_handle_irq+0x64>
break;
case EXCEPTION_FAULT:
if (func_fault)
10001224: 18 60 10 00 l.movhi r3,0x1000
10001228: a8 63 2f f0 l.ori r3,r3,0x2ff0
1000122c: 84 63 00 00 l.lwz r3,0(r3)
10001230: bc 03 00 00 l.sfeqi r3,0
10001234: 0f ff ff e0 l.bnf 100011b4 <cpu_handle_irq+0xec>
func_fault();
else
panic("FAULT");
10001238: 18 60 10 00 l.movhi r3,0x1000
1000123c: a8 63 2c c4 l.ori r3,r3,0x2cc4
10001240: d4 01 18 00 l.sw 0(r1),r3
10001244: 18 60 10 00 l.movhi r3,0x1000
10001248: a8 63 2c 9a l.ori r3,r3,0x2c9a
1000124c: d4 01 18 04 l.sw 4(r1),r3
10001250: 9c 60 00 5e l.addi r3,r0,94
10001254: 03 ff ff b6 l.j 1000112c <cpu_handle_irq+0x64>
break;
case EXCEPTION_MULT:
panic("MULT!");
10001258: 18 60 10 00 l.movhi r3,0x1000
1000125c: a8 63 2c cc l.ori r3,r3,0x2ccc
10001260: d4 01 18 00 l.sw 0(r1),r3
10001264: 18 60 10 00 l.movhi r3,0x1000
10001268: a8 63 2c 9a l.ori r3,r3,0x2c9a
1000126c: d4 01 18 04 l.sw 4(r1),r3
10001270: 9c 60 00 62 l.addi r3,r0,98
10001274: 03 ff ff ae l.j 1000112c <cpu_handle_irq+0x64>
break;
case EXCEPTION_UMULT:
panic("UMULT!");
10001278: 18 60 10 00 l.movhi r3,0x1000
1000127c: a8 63 2c d4 l.ori r3,r3,0x2cd4
10001280: d4 01 18 00 l.sw 0(r1),r3
10001284: 18 60 10 00 l.movhi r3,0x1000
10001288: a8 63 2c 9a l.ori r3,r3,0x2c9a
1000128c: d4 01 18 04 l.sw 4(r1),r3
10001290: 9c 60 00 66 l.addi r3,r0,102
10001294: 03 ff ff a6 l.j 1000112c <cpu_handle_irq+0x64>
break;
case EXCEPTION_DIV:
panic("DIV!");
10001298: 18 60 10 00 l.movhi r3,0x1000
1000129c: a8 63 2c dd l.ori r3,r3,0x2cdd
100012a0: d4 01 18 00 l.sw 0(r1),r3
100012a4: 18 60 10 00 l.movhi r3,0x1000
100012a8: a8 63 2c 9a l.ori r3,r3,0x2c9a
100012ac: d4 01 18 04 l.sw 4(r1),r3
100012b0: 9c 60 00 6a l.addi r3,r0,106
100012b4: 03 ff ff 9e l.j 1000112c <cpu_handle_irq+0x64>
case EXCEPTION_UDIV:
panic("UDIV!");
break;
default:
panic("UNKNOWN");
100012b8: 18 60 10 00 l.movhi r3,0x1000
100012bc: a8 63 2c ec l.ori r3,r3,0x2cec
100012c0: d4 01 18 00 l.sw 0(r1),r3
100012c4: 18 60 10 00 l.movhi r3,0x1000
100012c8: a8 63 2c 9a l.ori r3,r3,0x2c9a
100012cc: d4 01 18 04 l.sw 4(r1),r3
100012d0: 9c 60 00 72 l.addi r3,r0,114
100012d4: 03 ff ff 96 l.j 1000112c <cpu_handle_irq+0x64>
{
case EXCEPTION_SYSCALL:
if (func_syscall)
func_syscall();
else
panic("SYSCALL!");
100012d8: 18 60 10 00 l.movhi r3,0x1000
100012dc: a8 63 2c 8f l.ori r3,r3,0x2c8f
100012e0: d4 01 18 00 l.sw 0(r1),r3
100012e4: 18 60 10 00 l.movhi r3,0x1000
100012e8: a8 63 2c 9a l.ori r3,r3,0x2c9a
100012ec: d4 01 18 04 l.sw 4(r1),r3
100012f0: 9c 60 00 49 l.addi r3,r0,73
100012f4: 03 ff ff 8e l.j 1000112c <cpu_handle_irq+0x64>
100012f8 <outnum.isra.1>:
static void outnum( struct vbuf *buf, const long n, const long base, params_t *par)
{
char* cp;
int negative;
char outbuf[32];
const char udigits[] = "0123456789ABCDEF";
100012f8: 18 e0 38 39 l.movhi r7,0x3839
/* This routine moves a number to the output buffer */
/* as directed by the padding and positioning flags. */
/* */
//----------------------------------------------------
#if defined PRINTF_DEC_PRINT || defined PRINTF_HEX_PRINT
static void outnum( struct vbuf *buf, const long n, const long base, params_t *par)
100012fc: d7 e1 17 dc l.sw -36(r1),r2
{
char* cp;
int negative;
char outbuf[32];
const char udigits[] = "0123456789ABCDEF";
10001300: a9 07 41 42 l.ori r8,r7,0x4142
/* This routine moves a number to the output buffer */
/* as directed by the padding and positioning flags. */
/* */
//----------------------------------------------------
#if defined PRINTF_DEC_PRINT || defined PRINTF_HEX_PRINT
static void outnum( struct vbuf *buf, const long n, const long base, params_t *par)
10001304: d7 e1 a7 e8 l.sw -24(r1),r20
10001308: d7 e1 b7 ec l.sw -20(r1),r22
1000130c: d7 e1 4f fc l.sw -4(r1),r9
10001310: d7 e1 0f d8 l.sw -40(r1),r1
10001314: d7 e1 77 e0 l.sw -32(r1),r14
10001318: d7 e1 97 e4 l.sw -28(r1),r18
1000131c: d7 e1 c7 f0 l.sw -16(r1),r24
10001320: d7 e1 d7 f4 l.sw -12(r1),r26
10001324: d7 e1 e7 f8 l.sw -8(r1),r28
{
char* cp;
int negative;
char outbuf[32];
const char udigits[] = "0123456789ABCDEF";
10001328: 18 40 34 35 l.movhi r2,0x3435
/* This routine moves a number to the output buffer */
/* as directed by the padding and positioning flags. */
/* */
//----------------------------------------------------
#if defined PRINTF_DEC_PRINT || defined PRINTF_HEX_PRINT
static void outnum( struct vbuf *buf, const long n, const long base, params_t *par)
1000132c: 9c 21 ff 90 l.addi r1,r1,-112
const char *digits;
unsigned long num;
int count;
/* Check if number is negative */
if (base == 10 && n < 0L) {
10001330: ac c4 00 0a l.xori r6,r4,10
static void outnum( struct vbuf *buf, const long n, const long base, params_t *par)
{
char* cp;
int negative;
char outbuf[32];
const char udigits[] = "0123456789ABCDEF";
10001334: a8 42 36 37 l.ori r2,r2,0x3637
10001338: d4 01 40 08 l.sw 8(r1),r8
1000133c: 19 00 43 44 l.movhi r8,0x4344
/* This routine moves a number to the output buffer */
/* as directed by the padding and positioning flags. */
/* */
//----------------------------------------------------
#if defined PRINTF_DEC_PRINT || defined PRINTF_HEX_PRINT
static void outnum( struct vbuf *buf, const long n, const long base, params_t *par)
10001340: aa 84 00 00 l.ori r20,r4,0x0
{
char* cp;
int negative;
char outbuf[32];
const char udigits[] = "0123456789ABCDEF";
10001344: a9 08 45 46 l.ori r8,r8,0x4546
const char *digits;
unsigned long num;
int count;
/* Check if number is negative */
if (base == 10 && n < 0L) {
10001348: e1 60 30 02 l.sub r11,r0,r6
static void outnum( struct vbuf *buf, const long n, const long base, params_t *par)
{
char* cp;
int negative;
char outbuf[32];
const char udigits[] = "0123456789ABCDEF";
1000134c: 18 80 30 31 l.movhi r4,0x3031
10001350: d4 01 10 04 l.sw 4(r1),r2
const char ldigits[] = "0123456789abcdef";
10001354: d4 01 10 18 l.sw 24(r1),r2
10001358: 18 40 63 64 l.movhi r2,0x6364
static void outnum( struct vbuf *buf, const long n, const long base, params_t *par)
{
char* cp;
int negative;
char outbuf[32];
const char udigits[] = "0123456789ABCDEF";
1000135c: a8 84 32 33 l.ori r4,r4,0x3233
const char ldigits[] = "0123456789abcdef";
10001360: a8 e7 61 62 l.ori r7,r7,0x6162
const char *digits;
unsigned long num;
int count;
/* Check if number is negative */
if (base == 10 && n < 0L) {
10001364: e0 cb 30 04 l.or r6,r11,r6
static void outnum( struct vbuf *buf, const long n, const long base, params_t *par)
{
char* cp;
int negative;
char outbuf[32];
const char udigits[] = "0123456789ABCDEF";
10001368: d4 01 40 0c l.sw 12(r1),r8
const char ldigits[] = "0123456789abcdef";
1000136c: a8 42 65 66 l.ori r2,r2,0x6566
static void outnum( struct vbuf *buf, const long n, const long base, params_t *par)
{
char* cp;
int negative;
char outbuf[32];
const char udigits[] = "0123456789ABCDEF";
10001370: 9d 00 00 00 l.addi r8,r0,0
10001374: d4 01 20 00 l.sw 0(r1),r4
10001378: d8 01 40 10 l.sb 16(r1),r8
const char ldigits[] = "0123456789abcdef";
1000137c: d4 01 20 14 l.sw 20(r1),r4
10001380: d4 01 38 1c l.sw 28(r1),r7
10001384: d4 01 10 20 l.sw 32(r1),r2
10001388: d8 01 40 24 l.sb 36(r1),r8
const char *digits;
unsigned long num;
int count;
/* Check if number is negative */
if (base == 10 && n < 0L) {
1000138c: bd 86 00 00 l.sfltsi r6,0
/* This routine moves a number to the output buffer */
/* as directed by the padding and positioning flags. */
/* */
//----------------------------------------------------
#if defined PRINTF_DEC_PRINT || defined PRINTF_HEX_PRINT
static void outnum( struct vbuf *buf, const long n, const long base, params_t *par)
10001390: aa c5 00 00 l.ori r22,r5,0x0
const char *digits;
unsigned long num;
int count;
/* Check if number is negative */
if (base == 10 && n < 0L) {
10001394: 10 00 00 03 l.bf 100013a0 <outnum.isra.1+0xa8>
10001398: bd 63 00 00 l.sfgesi r3,0
1000139c: 0c 00 00 4d l.bnf 100014d0 <outnum.isra.1+0x1d8>
negative = 1;
num = -(n);
}
else{
num = (n);
100013a0: a8 43 00 00 l.ori r2,r3,0x0
negative = 0;
100013a4: 9f 80 00 00 l.addi r28,r0,0
}
if (par->uppercase)
100013a8: 84 76 00 18 l.lwz r3,24(r22)
digits = udigits;
100013ac: ab 41 00 00 l.ori r26,r1,0x0
else{
num = (n);
negative = 0;
}
if (par->uppercase)
100013b0: bc 03 00 00 l.sfeqi r3,0
100013b4: 0c 00 00 02 l.bnf 100013bc <outnum.isra.1+0xc4>
digits = udigits;
else
digits = ldigits;
100013b8: 9f 41 00 14 l.addi r26,r1,20
100013bc: 9f 01 00 28 l.addi r24,r1,40
100013c0: a9 d8 00 00 l.ori r14,r24,0x0
100013c4: 00 00 00 02 l.j 100013cc <outnum.isra.1+0xd4>
100013c8: a9 d2 00 00 l.ori r14,r18,0x0
/* Build number (backwards) in outbuf */
cp = outbuf;
do {
*cp++ = digits[(int)(num % base)];
100013cc: a8 62 00 00 l.ori r3,r2,0x0
100013d0: a8 94 00 00 l.ori r4,r20,0x0
/* This routine moves a number to the output buffer */
/* as directed by the padding and positioning flags. */
/* */
//----------------------------------------------------
#if defined PRINTF_DEC_PRINT || defined PRINTF_HEX_PRINT
static void outnum( struct vbuf *buf, const long n, const long base, params_t *par)
100013d4: 9e 4e 00 01 l.addi r18,r14,1
digits = ldigits;
/* Build number (backwards) in outbuf */
cp = outbuf;
do {
*cp++ = digits[(int)(num % base)];
100013d8: 04 00 05 52 l.jal 10002920 <__umodsi3>
100013dc: e1 7a 58 00 l.add r11,r26,r11
} while ((num /= base) > 0);
100013e0: a8 62 00 00 l.ori r3,r2,0x0
digits = ldigits;
/* Build number (backwards) in outbuf */
cp = outbuf;
do {
*cp++ = digits[(int)(num % base)];
100013e4: 8d 6b 00 00 l.lbz r11,0(r11)
} while ((num /= base) > 0);
100013e8: a8 94 00 00 l.ori r4,r20,0x0
digits = ldigits;
/* Build number (backwards) in outbuf */
cp = outbuf;
do {
*cp++ = digits[(int)(num % base)];
100013ec: d8 0e 58 00 l.sb 0(r14),r11
} while ((num /= base) > 0);
100013f0: 04 00 05 43 l.jal 100028fc <__udivsi3>
100013f4: bc 0b 00 00 l.sfeqi r11,0
100013f8: a8 4b 00 00 l.ori r2,r11,0x0
100013fc: 0f ff ff f3 l.bnf 100013c8 <outnum.isra.1+0xd0>
if (negative)
10001400: bc 1c 00 00 l.sfeqi r28,0
10001404: 10 00 00 04 l.bf 10001414 <outnum.isra.1+0x11c>
*cp++ = '-';
10001408: 9c 40 00 2d l.addi r2,r0,45
1000140c: 9e 4e 00 02 l.addi r18,r14,2
10001410: d8 0e 10 01 l.sb 1(r14),r2
*cp-- = 0;
10001414: 9d 00 00 00 l.addi r8,r0,0
10001418: 9d d2 ff ff l.addi r14,r18,-1
1000141c: d8 12 40 00 l.sb 0(r18),r8
const char * s;
if(!str)
return 0;
for(s = str; *s; ++ s)
10001420: 90 81 00 28 l.lbs r4,40(r1)
10001424: bc 04 00 00 l.sfeqi r4,0
10001428: 10 00 00 08 l.bf 10001448 <outnum.isra.1+0x150>
1000142c: 9c 41 00 29 l.addi r2,r1,41
10001430: a8 82 00 00 l.ori r4,r2,0x0
10001434: 9c 42 00 01 l.addi r2,r2,1
10001438: 90 62 ff ff l.lbs r3,-1(r2)
1000143c: bc 03 00 00 l.sfeqi r3,0
10001440: 0f ff ff fc l.bnf 10001430 <outnum.isra.1+0x138>
10001444: e0 84 c0 02 l.sub r4,r4,r24
*cp++ = '-';
*cp-- = 0;
/* Move the converted number to the buffer and */
/* add in the padding where needed. */
par->len = strlen(outbuf);
10001448: d4 16 20 00 l.sw 0(r22),r4
#ifdef PRINTF_ENABLE_PADDING
padding(buf, !(par->left_flag), par);
#endif
count = 0;
while (cp >= outbuf && count++ < par->max_len)
1000144c: e4 6e c0 00 l.sfgeu r14,r24
10001450: 0c 00 00 14 l.bnf 100014a0 <outnum.isra.1+0x1a8>
10001454: 84 56 00 1c l.lwz r2,28(r22)
10001458: bd a2 00 00 l.sflesi r2,0
1000145c: 10 00 00 11 l.bf 100014a0 <outnum.isra.1+0x1a8>
10001460: 1a 80 10 00 l.movhi r20,0x1000
/* This routine moves a number to the output buffer */
/* as directed by the padding and positioning flags. */
/* */
//----------------------------------------------------
#if defined PRINTF_DEC_PRINT || defined PRINTF_HEX_PRINT
static void outnum( struct vbuf *buf, const long n, const long base, params_t *par)
10001464: e2 52 c0 02 l.sub r18,r18,r24
par->len = strlen(outbuf);
#ifdef PRINTF_ENABLE_PADDING
padding(buf, !(par->left_flag), par);
#endif
count = 0;
while (cp >= outbuf && count++ < par->max_len)
10001468: 9c 40 00 01 l.addi r2,r0,1
1000146c: aa 94 2f f4 l.ori r20,r20,0x2ff4
10001470: 00 00 00 05 l.j 10001484 <outnum.isra.1+0x18c>
10001474: 84 96 00 1c l.lwz r4,28(r22)
10001478: e5 a4 10 00 l.sfles r4,r2
1000147c: a8 43 00 00 l.ori r2,r3,0x0
10001480: 10 00 00 08 l.bf 100014a0 <outnum.isra.1+0x1a8>
vbuf_putchar(buf, *cp--);
10001484: 90 6e 00 00 l.lbs r3,0(r14)
10001488: 85 74 00 00 l.lwz r11,0(r20)
1000148c: 9d ce ff ff l.addi r14,r14,-1
10001490: 48 00 58 00 l.jalr r11
par->len = strlen(outbuf);
#ifdef PRINTF_ENABLE_PADDING
padding(buf, !(par->left_flag), par);
#endif
count = 0;
while (cp >= outbuf && count++ < par->max_len)
10001494: e4 02 90 00 l.sfeq r2,r18
10001498: 9c 62 00 01 l.addi r3,r2,1
1000149c: 0f ff ff f6 l.bnf 10001474 <outnum.isra.1+0x17c>
vbuf_putchar(buf, *cp--);
#ifdef PRINTF_ENABLE_PADDING
padding(buf, par->left_flag, par);
#endif
}
100014a0: 9c 21 00 70 l.addi r1,r1,112
100014a4: 85 21 ff fc l.lwz r9,-4(r1)
100014a8: 84 21 ff d8 l.lwz r1,-40(r1)
100014ac: 84 41 ff dc l.lwz r2,-36(r1)
100014b0: 85 c1 ff e0 l.lwz r14,-32(r1)
100014b4: 86 41 ff e4 l.lwz r18,-28(r1)
100014b8: 86 81 ff e8 l.lwz r20,-24(r1)
100014bc: 86 c1 ff ec l.lwz r22,-20(r1)
100014c0: 87 01 ff f0 l.lwz r24,-16(r1)
100014c4: 87 41 ff f4 l.lwz r26,-12(r1)
100014c8: 87 81 ff f8 l.lwz r28,-8(r1)
100014cc: 44 00 48 00 l.jr r9
int count;
/* Check if number is negative */
if (base == 10 && n < 0L) {
negative = 1;
num = -(n);
100014d0: e0 40 18 02 l.sub r2,r0,r3
unsigned long num;
int count;
/* Check if number is negative */
if (base == 10 && n < 0L) {
negative = 1;
100014d4: 9f 80 00 01 l.addi r28,r0,1
100014d8: 03 ff ff b4 l.j 100013a8 <outnum.isra.1+0xb0>
100014dc <printf_register>:
//----------------------------------------------------
// printf_register: Assign printf output function
//----------------------------------------------------
void printf_register(FP_OUTCHAR f)
{
_stdout = f;
100014dc: 18 80 10 00 l.movhi r4,0x1000
}
//----------------------------------------------------
// printf_register: Assign printf output function
//----------------------------------------------------
void printf_register(FP_OUTCHAR f)
{
100014e0: d7 e1 0f fc l.sw -4(r1),r1
_stdout = f;
100014e4: a8 84 2f f4 l.ori r4,r4,0x2ff4
}
//----------------------------------------------------
// printf_register: Assign printf output function
//----------------------------------------------------
void printf_register(FP_OUTCHAR f)
{
100014e8: 9c 21 ff fc l.addi r1,r1,-4
_stdout = f;
100014ec: d4 04 18 00 l.sw 0(r4),r3
}
100014f0: 9c 21 00 04 l.addi r1,r1,4
100014f4: 84 21 ff fc l.lwz r1,-4(r1)
100014f8: 44 00 48 00 l.jr r9
100014fc <puts>:
#endif
//----------------------------------------------------
// puts:
//----------------------------------------------------
int puts( const char * str )
{
100014fc: d7 e1 77 f8 l.sw -8(r1),r14
if (!_stdout)
10001500: 19 c0 10 00 l.movhi r14,0x1000
#endif
//----------------------------------------------------
// puts:
//----------------------------------------------------
int puts( const char * str )
{
10001504: d7 e1 17 f4 l.sw -12(r1),r2
if (!_stdout)
10001508: a9 ce 2f f4 l.ori r14,r14,0x2ff4
#endif
//----------------------------------------------------
// puts:
//----------------------------------------------------
int puts( const char * str )
{
1000150c: d7 e1 4f fc l.sw -4(r1),r9
if (!_stdout)
10001510: 85 6e 00 00 l.lwz r11,0(r14)
#endif
//----------------------------------------------------
// puts:
//----------------------------------------------------
int puts( const char * str )
{
10001514: d7 e1 0f f0 l.sw -16(r1),r1
if (!_stdout)
10001518: bc 0b 00 00 l.sfeqi r11,0
#endif
//----------------------------------------------------
// puts:
//----------------------------------------------------
int puts( const char * str )
{
1000151c: 9c 21 ff f0 l.addi r1,r1,-16
10001520: a8 43 00 00 l.ori r2,r3,0x0
if (!_stdout)
10001524: 10 00 00 12 l.bf 1000156c <puts+0x70>
return -1;
while (*str)
10001528: 90 63 00 00 l.lbs r3,0(r3)
1000152c: bc 03 00 00 l.sfeqi r3,0
10001530: 10 00 00 07 l.bf 1000154c <puts+0x50>
_stdout(*str++);
10001534: 9c 42 00 01 l.addi r2,r2,1
10001538: 48 00 58 00 l.jalr r11
int puts( const char * str )
{
if (!_stdout)
return -1;
while (*str)
1000153c: 90 62 00 00 l.lbs r3,0(r2)
10001540: bc 03 00 00 l.sfeqi r3,0
10001544: 85 6e 00 00 l.lwz r11,0(r14)
10001548: 0f ff ff fb l.bnf 10001534 <puts+0x38>
_stdout(*str++);
return _stdout('\n');
1000154c: 9c 60 00 0a l.addi r3,r0,10
10001550: 48 00 58 00 l.jalr r11
}
10001554: 9c 21 00 10 l.addi r1,r1,16
10001558: 85 21 ff fc l.lwz r9,-4(r1)
1000155c: 84 21 ff f0 l.lwz r1,-16(r1)
10001560: 84 41 ff f4 l.lwz r2,-12(r1)
10001564: 85 c1 ff f8 l.lwz r14,-8(r1)
10001568: 44 00 48 00 l.jr r9
// puts:
//----------------------------------------------------
int puts( const char * str )
{
if (!_stdout)
return -1;
1000156c: 9d 60 ff ff l.addi r11,r0,-1
10001570: 03 ff ff f9 l.j 10001554 <puts+0x58>
10001574 <putchar>:
}
//----------------------------------------------------
// putchar:
//----------------------------------------------------
int putchar( int c )
{
10001574: d7 e1 17 f8 l.sw -8(r1),r2
10001578: a8 43 00 00 l.ori r2,r3,0x0
if (!_stdout)
1000157c: 18 60 10 00 l.movhi r3,0x1000
}
//----------------------------------------------------
// putchar:
//----------------------------------------------------
int putchar( int c )
{
10001580: d7 e1 4f fc l.sw -4(r1),r9
if (!_stdout)
10001584: a8 63 2f f4 l.ori r3,r3,0x2ff4
}
//----------------------------------------------------
// putchar:
//----------------------------------------------------
int putchar( int c )
{
10001588: d7 e1 0f f4 l.sw -12(r1),r1
if (!_stdout)
1000158c: 85 63 00 00 l.lwz r11,0(r3)
}
//----------------------------------------------------
// putchar:
//----------------------------------------------------
int putchar( int c )
{
10001590: 9c 21 ff f4 l.addi r1,r1,-12
if (!_stdout)
10001594: bc 0b 00 00 l.sfeqi r11,0
10001598: 10 00 00 0a l.bf 100015c0 <putchar+0x4c>
return -1;
_stdout((char)c);
1000159c: b8 62 00 18 l.slli r3,r2,0x18
100015a0: b8 63 00 98 l.srai r3,r3,0x18
100015a4: 48 00 58 00 l.jalr r11
return c;
100015a8: a9 62 00 00 l.ori r11,r2,0x0
}
100015ac: 9c 21 00 0c l.addi r1,r1,12
100015b0: 85 21 ff fc l.lwz r9,-4(r1)
100015b4: 84 21 ff f4 l.lwz r1,-12(r1)
100015b8: 84 41 ff f8 l.lwz r2,-8(r1)
100015bc: 44 00 48 00 l.jr r9
// putchar:
//----------------------------------------------------
int putchar( int c )
{
if (!_stdout)
return -1;
100015c0: 9d 60 ff ff l.addi r11,r0,-1
100015c4: 03 ff ff fa l.j 100015ac <putchar+0x38>
100015c8 <vbuf_printf>:
/* added easily by following the examples shown for */
/* the supported formats. */
/* */
//----------------------------------------------------
int vbuf_printf(struct vbuf *buf, const char* ctrl1, va_list argp)
{
100015c8: d7 e1 97 e0 l.sw -32(r1),r18
100015cc: d7 e1 f7 f8 l.sw -8(r1),r30
100015d0: d7 e1 4f fc l.sw -4(r1),r9
100015d4: d7 e1 0f d4 l.sw -44(r1),r1
100015d8: d7 e1 17 d8 l.sw -40(r1),r2
100015dc: d7 e1 77 dc l.sw -36(r1),r14
100015e0: d7 e1 a7 e4 l.sw -28(r1),r20
100015e4: d7 e1 b7 e8 l.sw -24(r1),r22
100015e8: d7 e1 c7 ec l.sw -20(r1),r24
100015ec: d7 e1 d7 f0 l.sw -16(r1),r26
100015f0: d7 e1 e7 f4 l.sw -12(r1),r28
100015f4: ab c4 00 00 l.ori r30,r4,0x0
params_t par;
char ch;
char* ctrl = (char*)ctrl1;
for ( ; *ctrl; ctrl++)
100015f8: 90 64 00 00 l.lbs r3,0(r4)
100015fc: bc 23 00 00 l.sfnei r3,0
/* added easily by following the examples shown for */
/* the supported formats. */
/* */
//----------------------------------------------------
int vbuf_printf(struct vbuf *buf, const char* ctrl1, va_list argp)
{
10001600: 9c 21 ff b4 l.addi r1,r1,-76
10001604: aa 45 00 00 l.ori r18,r5,0x0
params_t par;
char ch;
char* ctrl = (char*)ctrl1;
for ( ; *ctrl; ctrl++)
10001608: 0c 00 00 77 l.bnf 100017e4 <vbuf_printf+0x21c>
{
/* move format string chars to buffer until a */
/* format control is found. */
if (*ctrl != '%')
{
vbuf_putchar(buf, *ctrl);
1000160c: 19 c0 10 00 l.movhi r14,0x1000
}
/* initialize all the flags for this format. */
dot_flag = long_flag = par.left_flag = par.do_padding = 0;
par.pad_character = ' ';
par.num2=32767;
10001610: 9f 40 7f ff l.addi r26,r0,32767
{
/* move format string chars to buffer until a */
/* format control is found. */
if (*ctrl != '%')
{
vbuf_putchar(buf, *ctrl);
10001614: a9 ce 2f f4 l.ori r14,r14,0x2ff4
/* initialize all the flags for this format. */
dot_flag = long_flag = par.left_flag = par.do_padding = 0;
par.pad_character = ' ';
par.num2=32767;
par.max_len = 10;
10001618: 9f 00 00 0a l.addi r24,r0,10
1000161c: 00 00 00 08 l.j 1000163c <vbuf_printf+0x74>
{
/* move format string chars to buffer until a */
/* format control is found. */
if (*ctrl != '%')
{
vbuf_putchar(buf, *ctrl);
10001620: 85 6e 00 00 l.lwz r11,0(r14)
continue;
10001624: ab 9e 00 00 l.ori r28,r30,0x0
{
/* move format string chars to buffer until a */
/* format control is found. */
if (*ctrl != '%')
{
vbuf_putchar(buf, *ctrl);
10001628: 48 00 58 00 l.jalr r11
params_t par;
char ch;
char* ctrl = (char*)ctrl1;
for ( ; *ctrl; ctrl++)
1000162c: 90 7c 00 01 l.lbs r3,1(r28)
10001630: bc 03 00 00 l.sfeqi r3,0
10001634: 9f dc 00 01 l.addi r30,r28,1
10001638: 10 00 00 6b l.bf 100017e4 <vbuf_printf+0x21c>
{
/* move format string chars to buffer until a */
/* format control is found. */
if (*ctrl != '%')
1000163c: bc 03 00 25 l.sfeqi r3,37
10001640: 0f ff ff f8 l.bnf 10001620 <vbuf_printf+0x58>
/* initialize all the flags for this format. */
dot_flag = long_flag = par.left_flag = par.do_padding = 0;
par.pad_character = ' ';
par.num2=32767;
par.max_len = 10;
10001644: 90 be 00 01 l.lbs r5,1(r30)
continue;
}
/* initialize all the flags for this format. */
dot_flag = long_flag = par.left_flag = par.do_padding = 0;
par.pad_character = ' ';
10001648: 9c 60 00 20 l.addi r3,r0,32
vbuf_putchar(buf, *ctrl);
continue;
}
/* initialize all the flags for this format. */
dot_flag = long_flag = par.left_flag = par.do_padding = 0;
1000164c: 9c 40 00 00 l.addi r2,r0,0
par.pad_character = ' ';
10001650: d8 01 18 0c l.sb 12(r1),r3
par.max_len = 10;
try_next:
ch = *(++ctrl);
if ((ch >= '0' && ch <= '9'))
10001654: a4 65 00 ff l.andi r3,r5,0xff
vbuf_putchar(buf, *ctrl);
continue;
}
/* initialize all the flags for this format. */
dot_flag = long_flag = par.left_flag = par.do_padding = 0;
10001658: d4 01 10 10 l.sw 16(r1),r2
par.max_len = 10;
try_next:
ch = *(++ctrl);
if ((ch >= '0' && ch <= '9'))
1000165c: 9c 83 ff d0 l.addi r4,r3,-48
vbuf_putchar(buf, *ctrl);
continue;
}
/* initialize all the flags for this format. */
dot_flag = long_flag = par.left_flag = par.do_padding = 0;
10001660: d4 01 10 14 l.sw 20(r1),r2
par.max_len = 10;
try_next:
ch = *(++ctrl);
if ((ch >= '0' && ch <= '9'))
10001664: a4 84 00 ff l.andi r4,r4,0xff
}
/* initialize all the flags for this format. */
dot_flag = long_flag = par.left_flag = par.do_padding = 0;
par.pad_character = ' ';
par.num2=32767;
10001668: d4 01 d0 08 l.sw 8(r1),r26
par.max_len = 10;
1000166c: d4 01 c0 1c l.sw 28(r1),r24
try_next:
ch = *(++ctrl);
if ((ch >= '0' && ch <= '9'))
10001670: bc 44 00 09 l.sfgtui r4,9
10001674: 9f 9e 00 01 l.addi r28,r30,1
}
ctrl--;
goto try_next;
}
par.uppercase = (ch >= 'A' && ch <= 'Z') ? 1 : 0;
10001678: 9e 80 00 01 l.addi r20,r0,1
par.max_len = 10;
try_next:
ch = *(++ctrl);
if ((ch >= '0' && ch <= '9'))
1000167c: 10 00 00 1a l.bf 100016e4 <vbuf_printf+0x11c>
{
if (dot_flag)
10001680: bc 02 00 00 l.sfeqi r2,0
10001684: 10 00 00 9a l.bf 100018ec <vbuf_printf+0x324>
10001688: 9c c0 00 00 l.addi r6,r0,0
1000168c: 9c 85 ff d0 l.addi r4,r5,-48
10001690: 00 00 00 02 l.j 10001698 <vbuf_printf+0xd0>
char* cp;
n = 0;
cp = *linep;
while (((*cp) >= '0' && (*cp) <= '9'))
n = n*10 + ((*cp++) - '0');
10001694: ab 83 00 00 l.ori r28,r3,0x0
10001698: b8 e6 00 03 l.slli r7,r6,0x3
1000169c: 9c 7c 00 01 l.addi r3,r28,1
100016a0: e0 c6 30 00 l.add r6,r6,r6
long n;
char* cp;
n = 0;
cp = *linep;
while (((*cp) >= '0' && (*cp) <= '9'))
100016a4: 90 a3 00 00 l.lbs r5,0(r3)
n = n*10 + ((*cp++) - '0');
100016a8: e0 c6 38 00 l.add r6,r6,r7
100016ac: e0 c6 20 00 l.add r6,r6,r4
long n;
char* cp;
n = 0;
cp = *linep;
while (((*cp) >= '0' && (*cp) <= '9'))
100016b0: 9c 85 ff d0 l.addi r4,r5,-48
100016b4: a4 e4 00 ff l.andi r7,r4,0xff
100016b8: bc 47 00 09 l.sfgtui r7,9
100016bc: 0f ff ff f6 l.bnf 10001694 <vbuf_printf+0xcc>
100016c0: a8 83 00 00 l.ori r4,r3,0x0
ch = *(++ctrl);
if ((ch >= '0' && ch <= '9'))
{
if (dot_flag)
par.num2 = getnum(&ctrl);
100016c4: d4 01 30 08 l.sw 8(r1),r6
par.pad_character = '0';
par.num1 = getnum(&ctrl);
par.do_padding = 1;
}
ctrl--;
100016c8: 9f c3 ff ff l.addi r30,r3,-1
100016cc: ab 84 00 00 l.ori r28,r4,0x0
par.max_len = 10;
try_next:
ch = *(++ctrl);
if ((ch >= '0' && ch <= '9'))
100016d0: a4 65 00 ff l.andi r3,r5,0xff
100016d4: 9c 83 ff d0 l.addi r4,r3,-48
100016d8: a4 84 00 ff l.andi r4,r4,0xff
100016dc: bc 44 00 09 l.sfgtui r4,9
100016e0: 0f ff ff e8 l.bnf 10001680 <vbuf_printf+0xb8>
}
ctrl--;
goto try_next;
}
par.uppercase = (ch >= 'A' && ch <= 'Z') ? 1 : 0;
100016e4: 9c 63 ff bf l.addi r3,r3,-65
100016e8: 9c 80 00 01 l.addi r4,r0,1
100016ec: a4 63 00 ff l.andi r3,r3,0xff
100016f0: bc a3 00 19 l.sfleui r3,25
100016f4: 10 00 00 02 l.bf 100016fc <vbuf_printf+0x134>
100016f8: 9c 80 00 00 l.addi r4,r0,0
100016fc: d4 01 20 18 l.sw 24(r1),r4
switch ((par.uppercase ? ch + 32: ch))
10001700: bc 04 00 00 l.sfeqi r4,0
10001704: a8 65 00 00 l.ori r3,r5,0x0
10001708: 10 00 00 02 l.bf 10001710 <vbuf_printf+0x148>
1000170c: 9c 65 00 20 l.addi r3,r5,32
10001710: 9c 63 ff db l.addi r3,r3,-37
10001714: bc 43 00 53 l.sfgtui r3,83
10001718: 13 ff ff c5 l.bf 1000162c <vbuf_printf+0x64>
1000171c: 18 80 10 00 l.movhi r4,0x1000
10001720: b8 63 00 02 l.slli r3,r3,0x2
10001724: a8 84 2b 24 l.ori r4,r4,0x2b24
10001728: e0 63 20 00 l.add r3,r3,r4
1000172c: 84 63 00 00 l.lwz r3,0(r3)
10001730: 44 00 18 00 l.jr r3
}
continue;
#endif
#ifdef PRINTF_STR_PRINT
case 's':
outs(buf, va_arg( argp, char*), &par);
10001734: 86 d2 00 00 l.lwz r22,0(r18)
10001738: 9e 52 00 04 l.addi r18,r18,4
//----------------------------------------------------
static int strlen(const char * str)
{
const char * s;
if(!str)
1000173c: bc 16 00 00 l.sfeqi r22,0
10001740: 10 00 00 a4 l.bf 100019d0 <vbuf_printf+0x408>
return 0;
for(s = str; *s; ++ s)
10001744: 90 56 00 00 l.lbs r2,0(r22)
10001748: bc 02 00 00 l.sfeqi r2,0
1000174c: 10 00 00 07 l.bf 10001768 <vbuf_printf+0x1a0>
10001750: a8 56 00 00 l.ori r2,r22,0x0
10001754: 9c 42 00 01 l.addi r2,r2,1
10001758: 90 62 00 00 l.lbs r3,0(r2)
1000175c: bc 03 00 00 l.sfeqi r3,0
10001760: 0f ff ff fd l.bnf 10001754 <vbuf_printf+0x18c>
10001764: e0 42 b0 02 l.sub r2,r2,r22
//----------------------------------------------------
#ifdef PRINTF_STR_PRINT
static void outs( struct vbuf *buf, char* lp, params_t *par)
{
/* pad on left if needed */
par->len = strlen( lp);
10001768: d4 01 10 00 l.sw 0(r1),r2
#ifdef PRINTF_ENABLE_PADDING
padding(buf, !(par->left_flag), par);
#endif
/* Move string to the buffer */
while (*lp && (par->num2)--)
1000176c: 90 56 00 00 l.lbs r2,0(r22)
10001770: bc 02 00 00 l.sfeqi r2,0
10001774: 10 00 00 16 l.bf 100017cc <vbuf_printf+0x204>
10001778: 84 41 00 08 l.lwz r2,8(r1)
1000177c: aa 96 00 00 l.ori r20,r22,0x0
10001780: 9c 62 ff ff l.addi r3,r2,-1
10001784: bc 22 00 00 l.sfnei r2,0
10001788: d4 01 18 08 l.sw 8(r1),r3
1000178c: 10 00 00 09 l.bf 100017b0 <vbuf_printf+0x1e8>
10001790: 00 00 00 92 l.j 100019d8 <vbuf_printf+0x410>
10001794: 84 61 00 08 l.lwz r3,8(r1)
10001798: 9e 94 00 01 l.addi r20,r20,1
1000179c: 9c 83 ff ff l.addi r4,r3,-1
100017a0: bc 03 00 00 l.sfeqi r3,0
100017a4: d4 01 20 08 l.sw 8(r1),r4
100017a8: 10 00 00 72 l.bf 10001970 <vbuf_printf+0x3a8>
vbuf_putchar(buf, *lp++);
100017ac: aa c2 00 00 l.ori r22,r2,0x0
100017b0: 90 74 00 00 l.lbs r3,0(r20)
100017b4: 85 6e 00 00 l.lwz r11,0(r14)
100017b8: 9c 56 00 01 l.addi r2,r22,1
100017bc: 48 00 58 00 l.jalr r11
#ifdef PRINTF_ENABLE_PADDING
padding(buf, !(par->left_flag), par);
#endif
/* Move string to the buffer */
while (*lp && (par->num2)--)
100017c0: 90 62 00 00 l.lbs r3,0(r2)
100017c4: bc 03 00 00 l.sfeqi r3,0
100017c8: 0f ff ff f3 l.bnf 10001794 <vbuf_printf+0x1cc>
const char * s;
if(!str)
return 0;
for(s = str; *s; ++ s)
100017cc: 9c 60 00 00 l.addi r3,r0,0
/* Move string to the buffer */
while (*lp && (par->num2)--)
vbuf_putchar(buf, *lp++);
/* Pad on right if needed */
par->len = strlen( lp);
100017d0: d4 01 18 00 l.sw 0(r1),r3
params_t par;
char ch;
char* ctrl = (char*)ctrl1;
for ( ; *ctrl; ctrl++)
100017d4: 90 7c 00 01 l.lbs r3,1(r28)
100017d8: bc 03 00 00 l.sfeqi r3,0
100017dc: 9f dc 00 01 l.addi r30,r28,1
100017e0: 0f ff ff 97 l.bnf 1000163c <vbuf_printf+0x74>
}
goto try_next;
}
return res;
}
100017e4: 9c 21 00 4c l.addi r1,r1,76
100017e8: 9d 60 00 00 l.addi r11,r0,0
100017ec: 85 21 ff fc l.lwz r9,-4(r1)
100017f0: 84 21 ff d4 l.lwz r1,-44(r1)
100017f4: 84 41 ff d8 l.lwz r2,-40(r1)
100017f8: 85 c1 ff dc l.lwz r14,-36(r1)
100017fc: 86 41 ff e0 l.lwz r18,-32(r1)
10001800: 86 81 ff e4 l.lwz r20,-28(r1)
10001804: 86 c1 ff e8 l.lwz r22,-24(r1)
10001808: 87 01 ff ec l.lwz r24,-20(r1)
1000180c: 87 41 ff f0 l.lwz r26,-16(r1)
10001810: 87 81 ff f4 l.lwz r28,-12(r1)
10001814: 87 c1 ff f8 l.lwz r30,-8(r1)
10001818: 44 00 48 00 l.jr r9
case 'x':
case 'p':
if (long_flag || ch == 'D')
{
par.max_len = sizeof(long) * 2;
outnum(buf, (long)va_arg(argp, long), 16L, &par);
1000181c: 84 72 00 00 l.lwz r3,0(r18)
#ifdef PRINTF_HEX_PRINT
case 'x':
case 'p':
if (long_flag || ch == 'D')
{
par.max_len = sizeof(long) * 2;
10001820: 9c 40 00 08 l.addi r2,r0,8
outnum(buf, (long)va_arg(argp, long), 16L, &par);
10001824: 9c 80 00 10 l.addi r4,r0,16
10001828: a8 a1 00 00 l.ori r5,r1,0x0
1000182c: 9e 52 00 04 l.addi r18,r18,4
#ifdef PRINTF_HEX_PRINT
case 'x':
case 'p':
if (long_flag || ch == 'D')
{
par.max_len = sizeof(long) * 2;
10001830: d4 01 10 1c l.sw 28(r1),r2
outnum(buf, (long)va_arg(argp, long), 16L, &par);
10001834: 07 ff fe b1 l.jal 100012f8 <outnum.isra.1>
10001838: 03 ff ff 7d l.j 1000162c <vbuf_printf+0x64>
1000183c: 9c 9e 00 02 l.addi r4,r30,2
10001840: 90 be 00 02 l.lbs r5,2(r30)
par.pad_character = ' ';
par.num2=32767;
par.max_len = 10;
try_next:
ch = *(++ctrl);
10001844: ab dc 00 00 l.ori r30,r28,0x0
10001848: ab 84 00 00 l.ori r28,r4,0x0
1000184c: 03 ff ff a1 l.j 100016d0 <vbuf_printf+0x108>
{
outnum(buf, va_arg(argp, long), 10L, &par);
continue;
}
else {
outnum(buf, va_arg(argp, int), 10L, &par);
10001850: 84 72 00 00 l.lwz r3,0(r18)
10001854: 9c 80 00 0a l.addi r4,r0,10
10001858: a8 a1 00 00 l.ori r5,r1,0x0
1000185c: 9e 52 00 04 l.addi r18,r18,4
case 'x':
case 'p':
if (long_flag || ch == 'D')
{
par.max_len = sizeof(long) * 2;
outnum(buf, (long)va_arg(argp, long), 16L, &par);
10001860: 07 ff fe a6 l.jal 100012f8 <outnum.isra.1>
10001864: 03 ff ff 72 l.j 1000162c <vbuf_printf+0x64>
outs(buf, va_arg( argp, char*), &par);
continue;
#endif
#ifdef PRINTF_CHR_PRINT
case 'c':
vbuf_putchar(buf, va_arg( argp, int));
10001868: 90 72 00 03 l.lbs r3,3(r18)
1000186c: 85 6e 00 00 l.lwz r11,0(r14)
10001870: 9e 52 00 04 l.addi r18,r18,4
10001874: 48 00 58 00 l.jalr r11
continue;
10001878: 03 ff ff 6d l.j 1000162c <vbuf_printf+0x64>
#endif
case '\\':
switch (*ctrl) {
1000187c: bc 05 00 68 l.sfeqi r5,104
10001880: 10 00 00 50 l.bf 100019c0 <vbuf_printf+0x3f8>
10001884: bd 45 00 68 l.sfgtsi r5,104
10001888: 0c 00 00 30 l.bnf 10001948 <vbuf_printf+0x380>
1000188c: bc 05 00 6e l.sfeqi r5,110
10001890: 10 00 00 48 l.bf 100019b0 <vbuf_printf+0x3e8>
10001894: bc 05 00 72 l.sfeqi r5,114
10001898: 0c 00 00 42 l.bnf 100019a0 <vbuf_printf+0x3d8>
break;
case 'h':
vbuf_putchar(buf, 0x08);
break;
case 'r':
vbuf_putchar(buf, 0x0D);
1000189c: 85 6e 00 00 l.lwz r11,0(r14)
100018a0: 9c 60 00 0d l.addi r3,r0,13
100018a4: 48 00 58 00 l.jalr r11
break;
100018a8: 00 00 00 2d l.j 1000195c <vbuf_printf+0x394>
100018ac: 9c 9e 00 02 l.addi r4,r30,2
100018b0: 90 be 00 02 l.lbs r5,2(r30)
case '-':
par.left_flag = 1;
break;
case '.':
dot_flag = 1;
100018b4: 9c 40 00 01 l.addi r2,r0,1
par.pad_character = ' ';
par.num2=32767;
par.max_len = 10;
try_next:
ch = *(++ctrl);
100018b8: ab dc 00 00 l.ori r30,r28,0x0
100018bc: ab 84 00 00 l.ori r28,r4,0x0
100018c0: 03 ff ff 84 l.j 100016d0 <vbuf_printf+0x108>
100018c4: 9c 9e 00 02 l.addi r4,r30,2
100018c8: 90 be 00 02 l.lbs r5,2(r30)
case '%':
vbuf_putchar(buf, '%');
continue;
case '-':
par.left_flag = 1;
100018cc: d4 01 a0 14 l.sw 20(r1),r20
par.pad_character = ' ';
par.num2=32767;
par.max_len = 10;
try_next:
ch = *(++ctrl);
100018d0: ab dc 00 00 l.ori r30,r28,0x0
100018d4: ab 84 00 00 l.ori r28,r4,0x0
100018d8: 03 ff ff 7e l.j 100016d0 <vbuf_printf+0x108>
par.uppercase = (ch >= 'A' && ch <= 'Z') ? 1 : 0;
switch ((par.uppercase ? ch + 32: ch))
{
case '%':
vbuf_putchar(buf, '%');
100018dc: 85 6e 00 00 l.lwz r11,0(r14)
100018e0: 9c 60 00 25 l.addi r3,r0,37
100018e4: 48 00 58 00 l.jalr r11
continue;
100018e8: 03 ff ff 51 l.j 1000162c <vbuf_printf+0x64>
if ((ch >= '0' && ch <= '9'))
{
if (dot_flag)
par.num2 = getnum(&ctrl);
else {
if (ch == '0')
100018ec: bc 25 00 30 l.sfnei r5,48
100018f0: 0c 00 00 14 l.bnf 10001940 <vbuf_printf+0x378>
static long getnum( char** linep)
{
long n;
char* cp;
n = 0;
100018f4: 9c c0 00 00 l.addi r6,r0,0
100018f8: 9c 85 ff d0 l.addi r4,r5,-48
100018fc: 00 00 00 02 l.j 10001904 <vbuf_printf+0x33c>
cp = *linep;
while (((*cp) >= '0' && (*cp) <= '9'))
n = n*10 + ((*cp++) - '0');
10001900: ab 83 00 00 l.ori r28,r3,0x0
10001904: b8 e6 00 03 l.slli r7,r6,0x3
10001908: 9c 7c 00 01 l.addi r3,r28,1
1000190c: e0 c6 30 00 l.add r6,r6,r6
long n;
char* cp;
n = 0;
cp = *linep;
while (((*cp) >= '0' && (*cp) <= '9'))
10001910: 90 a3 00 00 l.lbs r5,0(r3)
n = n*10 + ((*cp++) - '0');
10001914: e0 c6 38 00 l.add r6,r6,r7
10001918: e0 c6 20 00 l.add r6,r6,r4
long n;
char* cp;
n = 0;
cp = *linep;
while (((*cp) >= '0' && (*cp) <= '9'))
1000191c: 9c 85 ff d0 l.addi r4,r5,-48
10001920: a4 e4 00 ff l.andi r7,r4,0xff
10001924: bc 47 00 09 l.sfgtui r7,9
10001928: 0f ff ff f6 l.bnf 10001900 <vbuf_printf+0x338>
1000192c: a8 83 00 00 l.ori r4,r3,0x0
par.num2 = getnum(&ctrl);
else {
if (ch == '0')
par.pad_character = '0';
par.num1 = getnum(&ctrl);
10001930: d4 01 30 04 l.sw 4(r1),r6
par.do_padding = 1;
10001934: d4 01 a0 10 l.sw 16(r1),r20
}
ctrl--;
10001938: 9f c3 ff ff l.addi r30,r3,-1
1000193c: 03 ff ff 64 l.j 100016cc <vbuf_printf+0x104>
{
if (dot_flag)
par.num2 = getnum(&ctrl);
else {
if (ch == '0')
par.pad_character = '0';
10001940: d8 01 28 0c l.sb 12(r1),r5
10001944: 03 ff ff ec l.j 100018f4 <vbuf_printf+0x32c>
case 'c':
vbuf_putchar(buf, va_arg( argp, int));
continue;
#endif
case '\\':
switch (*ctrl) {
10001948: bc 05 00 61 l.sfeqi r5,97
1000194c: 0c 00 00 15 l.bnf 100019a0 <vbuf_printf+0x3d8>
case 'a':
vbuf_putchar(buf, 0x07);
10001950: 85 6e 00 00 l.lwz r11,0(r14)
10001954: 9c 60 00 07 l.addi r3,r0,7
10001958: 48 00 58 00 l.jalr r11
1000195c: 9c 9e 00 03 l.addi r4,r30,3
10001960: 90 be 00 03 l.lbs r5,3(r30)
10001964: ab 84 00 00 l.ori r28,r4,0x0
break;
default:
vbuf_putchar(buf, *ctrl);
break;
}
ctrl++;
10001968: 9f de 00 02 l.addi r30,r30,2
1000196c: 03 ff ff 59 l.j 100016d0 <vbuf_printf+0x108>
10001970: 90 76 00 01 l.lbs r3,1(r22)
const char * s;
if(!str)
return 0;
for(s = str; *s; ++ s)
10001974: bc 03 00 00 l.sfeqi r3,0
10001978: 9c 60 00 00 l.addi r3,r0,0
1000197c: 13 ff ff 95 l.bf 100017d0 <vbuf_printf+0x208>
10001980: a8 62 00 00 l.ori r3,r2,0x0
10001984: 9c 63 00 01 l.addi r3,r3,1
10001988: 90 83 00 00 l.lbs r4,0(r3)
1000198c: bc 04 00 00 l.sfeqi r4,0
10001990: 0f ff ff fd l.bnf 10001984 <vbuf_printf+0x3bc>
10001994: e0 63 10 02 l.sub r3,r3,r2
/* Move string to the buffer */
while (*lp && (par->num2)--)
vbuf_putchar(buf, *lp++);
/* Pad on right if needed */
par->len = strlen( lp);
10001998: d4 01 18 00 l.sw 0(r1),r3
1000199c: 03 ff ff 8e l.j 100017d4 <vbuf_printf+0x20c>
break;
case 'n':
vbuf_putchar(buf, 0x0A);
break;
default:
vbuf_putchar(buf, *ctrl);
100019a0: 90 7e 00 01 l.lbs r3,1(r30)
100019a4: 85 6e 00 00 l.lwz r11,0(r14)
100019a8: 48 00 58 00 l.jalr r11
break;
100019ac: 03 ff ff ec l.j 1000195c <vbuf_printf+0x394>
break;
case 'r':
vbuf_putchar(buf, 0x0D);
break;
case 'n':
vbuf_putchar(buf, 0x0A);
100019b0: 85 6e 00 00 l.lwz r11,0(r14)
100019b4: 9c 60 00 0a l.addi r3,r0,10
100019b8: 48 00 58 00 l.jalr r11
break;
100019bc: 03 ff ff e8 l.j 1000195c <vbuf_printf+0x394>
switch (*ctrl) {
case 'a':
vbuf_putchar(buf, 0x07);
break;
case 'h':
vbuf_putchar(buf, 0x08);
100019c0: 85 6e 00 00 l.lwz r11,0(r14)
100019c4: 9c 60 00 08 l.addi r3,r0,8
100019c8: 48 00 58 00 l.jalr r11
break;
100019cc: 03 ff ff e4 l.j 1000195c <vbuf_printf+0x394>
static int strlen(const char * str)
{
const char * s;
if(!str)
return 0;
100019d0: a8 56 00 00 l.ori r2,r22,0x0
100019d4: 03 ff ff 65 l.j 10001768 <vbuf_printf+0x1a0>
100019d8: 90 76 00 00 l.lbs r3,0(r22)
#ifdef PRINTF_ENABLE_PADDING
padding(buf, !(par->left_flag), par);
#endif
/* Move string to the buffer */
while (*lp && (par->num2)--)
100019dc: a8 56 00 00 l.ori r2,r22,0x0
100019e0: 03 ff ff e5 l.j 10001974 <vbuf_printf+0x3ac>
100019e4 <printf>:
{
int res = 0;
va_list argp;
struct vbuf buf;
if (_stdout && ctrl1)
100019e4: 18 a0 10 00 l.movhi r5,0x1000
}
//----------------------------------------------------
// printf: Console based printf
//----------------------------------------------------
int printf( const char* ctrl1, ... )
{
100019e8: d7 e1 4f fc l.sw -4(r1),r9
int res = 0;
va_list argp;
struct vbuf buf;
if (_stdout && ctrl1)
100019ec: a8 a5 2f f4 l.ori r5,r5,0x2ff4
}
//----------------------------------------------------
// printf: Console based printf
//----------------------------------------------------
int printf( const char* ctrl1, ... )
{
100019f0: d7 e1 0f f4 l.sw -12(r1),r1
int res = 0;
va_list argp;
struct vbuf buf;
if (_stdout && ctrl1)
100019f4: 85 65 00 00 l.lwz r11,0(r5)
}
//----------------------------------------------------
// printf: Console based printf
//----------------------------------------------------
int printf( const char* ctrl1, ... )
{
100019f8: d7 e1 17 f8 l.sw -8(r1),r2
int res = 0;
va_list argp;
struct vbuf buf;
if (_stdout && ctrl1)
100019fc: bc 0b 00 00 l.sfeqi r11,0
}
//----------------------------------------------------
// printf: Console based printf
//----------------------------------------------------
int printf( const char* ctrl1, ... )
{
10001a00: 9c 21 ff e4 l.addi r1,r1,-28
10001a04: a8 83 00 00 l.ori r4,r3,0x0
int res = 0;
va_list argp;
struct vbuf buf;
if (_stdout && ctrl1)
10001a08: 10 00 00 09 l.bf 10001a2c <printf+0x48>
{
va_start( argp, ctrl1);
// Setup target to be stdout function
buf.function = _stdout;
buf.buffer = 0;
10001a0c: 9c 40 00 00 l.addi r2,r0,0
buf.offset = 0;
buf.max_length = 0;
res = vbuf_printf(&buf, ctrl1, argp);
10001a10: a8 61 00 00 l.ori r3,r1,0x0
10001a14: 9c a1 00 1c l.addi r5,r1,28
if (_stdout && ctrl1)
{
va_start( argp, ctrl1);
// Setup target to be stdout function
buf.function = _stdout;
10001a18: d4 01 58 00 l.sw 0(r1),r11
buf.buffer = 0;
10001a1c: d4 01 10 04 l.sw 4(r1),r2
buf.offset = 0;
10001a20: d4 01 10 08 l.sw 8(r1),r2
buf.max_length = 0;
10001a24: d4 01 10 0c l.sw 12(r1),r2
res = vbuf_printf(&buf, ctrl1, argp);
10001a28: 07 ff fe e8 l.jal 100015c8 <vbuf_printf>
va_end( argp);
}
return res;
}
10001a2c: 9c 21 00 1c l.addi r1,r1,28
10001a30: 85 21 ff fc l.lwz r9,-4(r1)
10001a34: 84 21 ff f4 l.lwz r1,-12(r1)
10001a38: 84 41 ff f8 l.lwz r2,-8(r1)
10001a3c: 44 00 48 00 l.jr r9
10001a40 <serial_init>:
//-------------------------------------------------------------
// serial_init:
//-------------------------------------------------------------
void serial_init (void)
{
10001a40: d7 e1 0f fc l.sw -4(r1),r1
10001a44: 9c 21 ff fc l.addi r1,r1,-4
}
10001a48: 9c 21 00 04 l.addi r1,r1,4
10001a4c: 84 21 ff fc l.lwz r1,-4(r1)
10001a50: 44 00 48 00 l.jr r9
10001a54 <serial_putchar>:
//-------------------------------------------------------------
// serial_putchar: Write character to Serial Port (used by printf)
//-------------------------------------------------------------
int serial_putchar(char ch)
{
10001a54: b8 63 00 18 l.slli r3,r3,0x18
10001a58: d7 e1 17 f8 l.sw -8(r1),r2
10001a5c: d7 e1 4f fc l.sw -4(r1),r9
10001a60: b8 43 00 98 l.srai r2,r3,0x18
10001a64: d7 e1 0f f4 l.sw -12(r1),r1
10001a68: 9c 21 ff f4 l.addi r1,r1,-12
if (ch == '\n')
10001a6c: bc 22 00 0a l.sfnei r2,10
10001a70: 0c 00 00 10 l.bnf 10001ab0 <serial_putchar+0x5c>
serial_putchar('\r');
{
register char t1 asm ("r3") = ch;
10001a74: a8 62 00 00 l.ori r3,r2,0x0
asm volatile ("\tl.nop\t%0" : : "K" (0x0004), "r" (t1));
10001a78: 15 00 00 04 l.nop 0x4
}
UART_UDR = ch;
10001a7c: 18 60 12 00 l.movhi r3,0x1200
10001a80: a8 83 00 08 l.ori r4,r3,0x8
while (UART_USR & UART_TX_BUSY);
10001a84: a8 63 00 04 l.ori r3,r3,0x4
{
register char t1 asm ("r3") = ch;
asm volatile ("\tl.nop\t%0" : : "K" (0x0004), "r" (t1));
}
UART_UDR = ch;
10001a88: d4 04 10 00 l.sw 0(r4),r2
while (UART_USR & UART_TX_BUSY);
10001a8c: 85 63 00 00 l.lwz r11,0(r3)
10001a90: a5 6b 00 08 l.andi r11,r11,0x8
10001a94: bc 0b 00 00 l.sfeqi r11,0
10001a98: 0f ff ff fd l.bnf 10001a8c <serial_putchar+0x38>
return 0;
}
10001a9c: 9c 21 00 0c l.addi r1,r1,12
10001aa0: 85 21 ff fc l.lwz r9,-4(r1)
10001aa4: 84 21 ff f4 l.lwz r1,-12(r1)
10001aa8: 84 41 ff f8 l.lwz r2,-8(r1)
10001aac: 44 00 48 00 l.jr r9
// serial_putchar: Write character to Serial Port (used by printf)
//-------------------------------------------------------------
int serial_putchar(char ch)
{
if (ch == '\n')
serial_putchar('\r');
10001ab0: 9c 60 00 0d l.addi r3,r0,13
10001ab4: 07 ff ff e8 l.jal 10001a54 <serial_putchar>
10001ab8: 03 ff ff ef l.j 10001a74 <serial_putchar+0x20>
10001abc <serial_getchar>:
// serial_haschar:
//-------------------------------------------------------------
int serial_haschar()
{
#ifndef USE_NOP_PUTC
return (UART_USR & UART_RX_AVAIL);
10001abc: 18 60 12 00 l.movhi r3,0x1200
}
//-------------------------------------------------------------
// serial_getchar: Read character from Serial Port
//-------------------------------------------------------------
int serial_getchar (void)
{
10001ac0: d7 e1 0f fc l.sw -4(r1),r1
// serial_haschar:
//-------------------------------------------------------------
int serial_haschar()
{
#ifndef USE_NOP_PUTC
return (UART_USR & UART_RX_AVAIL);
10001ac4: a8 83 00 04 l.ori r4,r3,0x4
}
//-------------------------------------------------------------
// serial_getchar: Read character from Serial Port
//-------------------------------------------------------------
int serial_getchar (void)
{
10001ac8: 9c 21 ff fc l.addi r1,r1,-4
// serial_haschar:
//-------------------------------------------------------------
int serial_haschar()
{
#ifndef USE_NOP_PUTC
return (UART_USR & UART_RX_AVAIL);
10001acc: 84 84 00 00 l.lwz r4,0(r4)
10001ad0: a4 84 00 01 l.andi r4,r4,0x1
//-------------------------------------------------------------
int serial_getchar (void)
{
// Read character in from UART0 Recieve Buffer and return
#ifndef USE_NOP_PUTC
if (serial_haschar())
10001ad4: bc 04 00 00 l.sfeqi r4,0
10001ad8: 10 00 00 06 l.bf 10001af0 <serial_getchar+0x34>
return UART_UDR;
10001adc: a8 63 00 08 l.ori r3,r3,0x8
10001ae0: 85 63 00 00 l.lwz r11,0(r3)
else
#endif
return -1;
}
10001ae4: 9c 21 00 04 l.addi r1,r1,4
10001ae8: 84 21 ff fc l.lwz r1,-4(r1)
10001aec: 44 00 48 00 l.jr r9
#ifndef USE_NOP_PUTC
if (serial_haschar())
return UART_UDR;
else
#endif
return -1;
10001af0: 9d 60 ff ff l.addi r11,r0,-1
10001af4: 03 ff ff fc l.j 10001ae4 <serial_getchar+0x28>
10001af8 <serial_haschar>:
// serial_haschar:
//-------------------------------------------------------------
int serial_haschar()
{
#ifndef USE_NOP_PUTC
return (UART_USR & UART_RX_AVAIL);
10001af8: 18 60 12 00 l.movhi r3,0x1200
}
//-------------------------------------------------------------
// serial_haschar:
//-------------------------------------------------------------
int serial_haschar()
{
10001afc: d7 e1 0f fc l.sw -4(r1),r1
#ifndef USE_NOP_PUTC
return (UART_USR & UART_RX_AVAIL);
10001b00: a8 63 00 04 l.ori r3,r3,0x4
}
//-------------------------------------------------------------
// serial_haschar:
//-------------------------------------------------------------
int serial_haschar()
{
10001b04: 9c 21 ff fc l.addi r1,r1,-4
#ifndef USE_NOP_PUTC
return (UART_USR & UART_RX_AVAIL);
10001b08: 85 63 00 00 l.lwz r11,0(r3)
#else
return 0;
#endif
}
10001b0c: 9c 21 00 04 l.addi r1,r1,4
10001b10: a5 6b 00 01 l.andi r11,r11,0x1
10001b14: 84 21 ff fc l.lwz r1,-4(r1)
10001b18: 44 00 48 00 l.jr r9
10001b1c <serial_putstr>:
//-------------------------------------------------------------
// serial_putstr:
//-------------------------------------------------------------
void serial_putstr(char *str)
{
10001b1c: d7 e1 17 f8 l.sw -8(r1),r2
10001b20: d7 e1 4f fc l.sw -4(r1),r9
10001b24: d7 e1 0f f4 l.sw -12(r1),r1
10001b28: a8 43 00 00 l.ori r2,r3,0x0
while (*str)
10001b2c: 90 63 00 00 l.lbs r3,0(r3)
10001b30: bc 23 00 00 l.sfnei r3,0
}
//-------------------------------------------------------------
// serial_putstr:
//-------------------------------------------------------------
void serial_putstr(char *str)
{
10001b34: 9c 21 ff f4 l.addi r1,r1,-12
while (*str)
10001b38: 0c 00 00 06 l.bnf 10001b50 <serial_putstr+0x34>
serial_putchar(*str++);
10001b3c: 9c 42 00 01 l.addi r2,r2,1
10001b40: 07 ff ff c5 l.jal 10001a54 <serial_putchar>
//-------------------------------------------------------------
// serial_putstr:
//-------------------------------------------------------------
void serial_putstr(char *str)
{
while (*str)
10001b44: 90 62 00 00 l.lbs r3,0(r2)
10001b48: bc 03 00 00 l.sfeqi r3,0
10001b4c: 0f ff ff fc l.bnf 10001b3c <serial_putstr+0x20>
serial_putchar(*str++);
}
10001b50: 9c 21 00 0c l.addi r1,r1,12
10001b54: 85 21 ff fc l.lwz r9,-4(r1)
10001b58: 84 21 ff f4 l.lwz r1,-12(r1)
10001b5c: 84 41 ff f8 l.lwz r2,-8(r1)
10001b60: 44 00 48 00 l.jr r9
10001b64 <serial_putnum>:
//-------------------------------------------------------------
// serial_putnum:
//-------------------------------------------------------------
void serial_putnum( int n )
{
10001b64: d7 e1 17 e8 l.sw -24(r1),r2
char* cp;
int negative;
char outbuf[32];
const char digits[] = "0123456789ABCDEF";
10001b68: 18 40 30 31 l.movhi r2,0x3031
}
//-------------------------------------------------------------
// serial_putnum:
//-------------------------------------------------------------
void serial_putnum( int n )
{
10001b6c: d7 e1 4f fc l.sw -4(r1),r9
char* cp;
int negative;
char outbuf[32];
const char digits[] = "0123456789ABCDEF";
10001b70: a8 42 32 33 l.ori r2,r2,0x3233
}
//-------------------------------------------------------------
// serial_putnum:
//-------------------------------------------------------------
void serial_putnum( int n )
{
10001b74: d7 e1 0f e4 l.sw -28(r1),r1
10001b78: d7 e1 77 ec l.sw -20(r1),r14
10001b7c: d7 e1 97 f0 l.sw -16(r1),r18
10001b80: d7 e1 a7 f4 l.sw -12(r1),r20
10001b84: d7 e1 b7 f8 l.sw -8(r1),r22
10001b88: 9c 21 ff b0 l.addi r1,r1,-80
char outbuf[32];
const char digits[] = "0123456789ABCDEF";
unsigned long num;
/* Check if number is negative */
if (n < 0L) {
10001b8c: bd 63 00 00 l.sfgesi r3,0
void serial_putnum( int n )
{
char* cp;
int negative;
char outbuf[32];
const char digits[] = "0123456789ABCDEF";
10001b90: d4 01 10 00 l.sw 0(r1),r2
10001b94: 18 40 34 35 l.movhi r2,0x3435
10001b98: a8 42 36 37 l.ori r2,r2,0x3637
10001b9c: d4 01 10 04 l.sw 4(r1),r2
10001ba0: 18 40 38 39 l.movhi r2,0x3839
10001ba4: a8 42 41 42 l.ori r2,r2,0x4142
10001ba8: d4 01 10 08 l.sw 8(r1),r2
10001bac: 18 40 43 44 l.movhi r2,0x4344
10001bb0: a8 42 45 46 l.ori r2,r2,0x4546
10001bb4: d4 01 10 0c l.sw 12(r1),r2
10001bb8: 9c 40 00 00 l.addi r2,r0,0
10001bbc: d8 01 10 10 l.sb 16(r1),r2
unsigned long num;
/* Check if number is negative */
if (n < 0L) {
10001bc0: 0c 00 00 2e l.bnf 10001c78 <serial_putnum+0x114>
negative = 1;
num = -(n);
}
else{
num = (n);
10001bc4: a8 43 00 00 l.ori r2,r3,0x0
negative = 0;
10001bc8: 9e c0 00 00 l.addi r22,r0,0
10001bcc: 9e 81 00 14 l.addi r20,r1,20
10001bd0: a9 d4 00 00 l.ori r14,r20,0x0
10001bd4: 00 00 00 02 l.j 10001bdc <serial_putnum+0x78>
10001bd8: a9 d2 00 00 l.ori r14,r18,0x0
}
/* Build number (backwards) in outbuf */
cp = outbuf;
do {
*cp++ = digits[(int)(num % 10)];
10001bdc: a8 62 00 00 l.ori r3,r2,0x0
10001be0: 9c 80 00 0a l.addi r4,r0,10
serial_putchar(*str++);
}
//-------------------------------------------------------------
// serial_putnum:
//-------------------------------------------------------------
void serial_putnum( int n )
10001be4: 9e 4e 00 01 l.addi r18,r14,1
}
/* Build number (backwards) in outbuf */
cp = outbuf;
do {
*cp++ = digits[(int)(num % 10)];
10001be8: 04 00 03 4e l.jal 10002920 <__umodsi3>
10001bec: 9c 61 00 00 l.addi r3,r1,0
} while ((num /= 10) > 0);
10001bf0: 9c 80 00 0a l.addi r4,r0,10
}
/* Build number (backwards) in outbuf */
cp = outbuf;
do {
*cp++ = digits[(int)(num % 10)];
10001bf4: e1 63 58 00 l.add r11,r3,r11
} while ((num /= 10) > 0);
10001bf8: a8 62 00 00 l.ori r3,r2,0x0
}
/* Build number (backwards) in outbuf */
cp = outbuf;
do {
*cp++ = digits[(int)(num % 10)];
10001bfc: 8d 6b 00 00 l.lbz r11,0(r11)
10001c00: d8 0e 58 00 l.sb 0(r14),r11
} while ((num /= 10) > 0);
10001c04: 04 00 03 3e l.jal 100028fc <__udivsi3>
10001c08: bc 0b 00 00 l.sfeqi r11,0
10001c0c: a8 4b 00 00 l.ori r2,r11,0x0
10001c10: 0f ff ff f2 l.bnf 10001bd8 <serial_putnum+0x74>
if (negative)
10001c14: bc 16 00 00 l.sfeqi r22,0
10001c18: 10 00 00 04 l.bf 10001c28 <serial_putnum+0xc4>
*cp++ = '-';
10001c1c: 9c 40 00 2d l.addi r2,r0,45
10001c20: 9e 4e 00 02 l.addi r18,r14,2
10001c24: d8 0e 10 01 l.sb 1(r14),r2
*cp-- = 0;
10001c28: 9c 52 ff ff l.addi r2,r18,-1
10001c2c: 9c 60 00 00 l.addi r3,r0,0
while (cp >= outbuf)
10001c30: e4 62 a0 00 l.sfgeu r2,r20
do {
*cp++ = digits[(int)(num % 10)];
} while ((num /= 10) > 0);
if (negative)
*cp++ = '-';
*cp-- = 0;
10001c34: d8 12 18 00 l.sb 0(r18),r3
while (cp >= outbuf)
10001c38: 0c 00 00 07 l.bnf 10001c54 <serial_putnum+0xf0>
serial_putchar(*str++);
}
//-------------------------------------------------------------
// serial_putnum:
//-------------------------------------------------------------
void serial_putnum( int n )
10001c3c: 9d d4 ff ff l.addi r14,r20,-1
if (negative)
*cp++ = '-';
*cp-- = 0;
while (cp >= outbuf)
serial_putchar(*cp--);
10001c40: 90 62 00 00 l.lbs r3,0(r2)
10001c44: 9c 42 ff ff l.addi r2,r2,-1
10001c48: 07 ff ff 83 l.jal 10001a54 <serial_putchar>
} while ((num /= 10) > 0);
if (negative)
*cp++ = '-';
*cp-- = 0;
while (cp >= outbuf)
10001c4c: e4 02 70 00 l.sfeq r2,r14
10001c50: 0f ff ff fc l.bnf 10001c40 <serial_putnum+0xdc>
serial_putchar(*cp--);
}
10001c54: 9c 21 00 50 l.addi r1,r1,80
10001c58: 85 21 ff fc l.lwz r9,-4(r1)
10001c5c: 84 21 ff e4 l.lwz r1,-28(r1)
10001c60: 84 41 ff e8 l.lwz r2,-24(r1)
10001c64: 85 c1 ff ec l.lwz r14,-20(r1)
10001c68: 86 41 ff f0 l.lwz r18,-16(r1)
10001c6c: 86 81 ff f4 l.lwz r20,-12(r1)
10001c70: 86 c1 ff f8 l.lwz r22,-8(r1)
10001c74: 44 00 48 00 l.jr r9
unsigned long num;
/* Check if number is negative */
if (n < 0L) {
negative = 1;
num = -(n);
10001c78: e0 40 18 02 l.sub r2,r0,r3
const char digits[] = "0123456789ABCDEF";
unsigned long num;
/* Check if number is negative */
if (n < 0L) {
negative = 1;
10001c7c: 9e c0 00 01 l.addi r22,r0,1
10001c80: 03 ff ff d3 l.j 10001bcc <serial_putnum+0x68>
10001c84 <timer_init>:
//--------------------------------------------------------------------------
// timer_init:
//--------------------------------------------------------------------------
void timer_init(void)
{
10001c84: d7 e1 0f fc l.sw -4(r1),r1
10001c88: 9c 21 ff fc l.addi r1,r1,-4
}
10001c8c: 9c 21 00 04 l.addi r1,r1,4
10001c90: 84 21 ff fc l.lwz r1,-4(r1)
10001c94: 44 00 48 00 l.jr r9
10001c98 <timer_sleep>:
// Prototypes:
//-----------------------------------------------------------------
// General timer
void timer_init(void);
static t_time timer_now(void) { return TIMER_VAL; }
10001c98: 18 a0 12 00 l.movhi r5,0x1200
//--------------------------------------------------------------------------
// timer_sleep:
//--------------------------------------------------------------------------
void timer_sleep(int timeMs)
{
10001c9c: d7 e1 0f fc l.sw -4(r1),r1
10001ca0: a8 a5 01 00 l.ori r5,r5,0x100
10001ca4: 9c 21 ff fc l.addi r1,r1,-4
10001ca8: 84 c5 00 00 l.lwz r6,0(r5)
10001cac: 84 85 00 00 l.lwz r4,0(r5)
static long timer_diff(t_time a, t_time b) { return (long)(a - b); }
10001cb0: e0 84 30 02 l.sub r4,r4,r6
t_time t = timer_now();
while (timer_diff(timer_now(), t) < timeMs)
10001cb4: e5 a3 20 00 l.sfles r3,r4
10001cb8: 0f ff ff fd l.bnf 10001cac <timer_sleep+0x14>
;
}
10001cbc: 9c 21 00 04 l.addi r1,r1,4
10001cc0: 84 21 ff fc l.lwz r1,-4(r1)
10001cc4: 44 00 48 00 l.jr r9
10001cc8 <empty_syscall>:
volatile int syscall_done = 0;
//-----------------------------------------------------------------
// Syscall handling:
//-----------------------------------------------------------------
void empty_syscall(void) { syscall_done = 1; }
10001cc8: 18 60 10 00 l.movhi r3,0x1000
10001ccc: 9c 80 00 01 l.addi r4,r0,1
10001cd0: a8 63 2f f8 l.ori r3,r3,0x2ff8
10001cd4: d7 e1 0f fc l.sw -4(r1),r1
10001cd8: 9c 21 ff fc l.addi r1,r1,-4
10001cdc: d4 03 20 00 l.sw 0(r3),r4
10001ce0: 9c 21 00 04 l.addi r1,r1,4
10001ce4: 84 21 ff fc l.lwz r1,-4(r1)
10001ce8: 44 00 48 00 l.jr r9
10001cec <test>:
unsigned short sw;
unsigned short *psw;
unsigned char sb;
unsigned char *psb;
serial_putstr("\nTest:\n");
10001cec: 18 60 10 00 l.movhi r3,0x1000
//-----------------------------------------------------------------
// main:
//-----------------------------------------------------------------
int test(void)
{
10001cf0: d7 e1 4f fc l.sw -4(r1),r9
10001cf4: d7 e1 17 f0 l.sw -16(r1),r2
10001cf8: d7 e1 0f ec l.sw -20(r1),r1
10001cfc: d7 e1 77 f4 l.sw -12(r1),r14
10001d00: d7 e1 97 f8 l.sw -8(r1),r18
unsigned short sw;
unsigned short *psw;
unsigned char sb;
unsigned char *psb;
serial_putstr("\nTest:\n");
10001d04: a8 63 2d 09 l.ori r3,r3,0x2d09
//-----------------------------------------------------------------
// main:
//-----------------------------------------------------------------
int test(void)
{
10001d08: 9c 21 ff e0 l.addi r1,r1,-32
// Assign empty syscall handler
exception_register_syscall_handler(empty_syscall);
serial_putstr("1. Initialised data\n");
assert(var == 0x1234); // .text
10001d0c: 18 40 10 00 l.movhi r2,0x1000
unsigned short sw;
unsigned short *psw;
unsigned char sb;
unsigned char *psb;
serial_putstr("\nTest:\n");
10001d10: 07 ff ff 83 l.jal 10001b1c <serial_putstr>
// Adjust ISR vector to match this app's vector offset
asm_set_isr_vector(asm_save_context);
// Assign empty syscall handler
exception_register_syscall_handler(empty_syscall);
10001d14: 18 60 10 00 l.movhi r3,0x1000
serial_putstr("1. Initialised data\n");
assert(var == 0x1234); // .text
10001d18: a8 42 2f d8 l.ori r2,r2,0x2fd8
// Adjust ISR vector to match this app's vector offset
asm_set_isr_vector(asm_save_context);
// Assign empty syscall handler
exception_register_syscall_handler(empty_syscall);
10001d1c: a8 63 1c c8 l.ori r3,r3,0x1cc8
10001d20: 07 ff fc e2 l.jal 100010a8 <exception_register_syscall_handler>
serial_putstr("1. Initialised data\n");
10001d24: 18 60 10 00 l.movhi r3,0x1000
10001d28: a8 63 2d 11 l.ori r3,r3,0x2d11
10001d2c: 07 ff ff 7c l.jal 10001b1c <serial_putstr>
assert(var == 0x1234); // .text
10001d30: 84 62 00 00 l.lwz r3,0(r2)
10001d34: bc 03 12 34 l.sfeqi r3,4660
10001d38: 10 00 00 0e l.bf 10001d70 <test+0x84>
10001d3c: 18 60 10 00 l.movhi r3,0x1000
10001d40: a8 63 2d 26 l.ori r3,r3,0x2d26
10001d44: d4 01 18 00 l.sw 0(r1),r3
10001d48: 18 60 10 00 l.movhi r3,0x1000
10001d4c: a8 63 2d 34 l.ori r3,r3,0x2d34
10001d50: d4 01 18 04 l.sw 4(r1),r3
10001d54: 9c 60 00 29 l.addi r3,r0,41
10001d58: d4 01 18 08 l.sw 8(r1),r3
10001d5c: 18 60 10 00 l.movhi r3,0x1000
10001d60: a8 63 2c 74 l.ori r3,r3,0x2c74
10001d64: 07 ff ff 20 l.jal 100019e4 <printf>
}
static inline void exit(unsigned exit_code)
{
volatile register char t1 asm ("r1") = exit_code;
10001d68: 9c 20 00 01 l.addi r1,r0,1
__asm__ __volatile__ ( "\t l.trap 0 ");
}
else
{
// Invalid instruction!
__asm__ __volatile__ ( "\t lf.add.s r0,r0,r0 ");
10001d6c: c8 00 00 00 lf.add.s r0,r0,r0
assert(uvar == 0x0); // .bss
10001d70: 19 c0 10 00 l.movhi r14,0x1000
10001d74: a9 ce 30 04 l.ori r14,r14,0x3004
10001d78: 84 6e 00 00 l.lwz r3,0(r14)
10001d7c: bc 03 00 00 l.sfeqi r3,0
10001d80: 0c 00 02 d1 l.bnf 100028c4 <test+0xbd8>
serial_putstr("2. Multiply\n");
10001d84: 18 60 10 00 l.movhi r3,0x1000
10001d88: a8 63 2d 47 l.ori r3,r3,0x2d47
10001d8c: 07 ff ff 64 l.jal 10001b1c <serial_putstr>
var = var * 3;
10001d90: 84 62 00 00 l.lwz r3,0(r2)
10001d94: e0 83 18 00 l.add r4,r3,r3
10001d98: e0 64 18 00 l.add r3,r4,r3
10001d9c: d4 02 18 00 l.sw 0(r2),r3
assert(var == 13980);
10001da0: 84 62 00 00 l.lwz r3,0(r2)
10001da4: bc 03 36 9c l.sfeqi r3,13980
10001da8: 10 00 00 0e l.bf 10001de0 <test+0xf4>
10001dac: 18 60 10 00 l.movhi r3,0x1000
10001db0: a8 63 2d 54 l.ori r3,r3,0x2d54
10001db4: d4 01 18 00 l.sw 0(r1),r3
10001db8: 18 60 10 00 l.movhi r3,0x1000
10001dbc: a8 63 2d 34 l.ori r3,r3,0x2d34
10001dc0: d4 01 18 04 l.sw 4(r1),r3
10001dc4: 9c 60 00 2e l.addi r3,r0,46
10001dc8: d4 01 18 08 l.sw 8(r1),r3
10001dcc: 18 60 10 00 l.movhi r3,0x1000
10001dd0: a8 63 2c 74 l.ori r3,r3,0x2c74
10001dd4: 07 ff ff 04 l.jal 100019e4 <printf>
}
static inline void exit(unsigned exit_code)
{
volatile register char t1 asm ("r1") = exit_code;
10001dd8: 9c 20 00 01 l.addi r1,r0,1
__asm__ __volatile__ ( "\t l.trap 0 ");
}
else
{
// Invalid instruction!
__asm__ __volatile__ ( "\t lf.add.s r0,r0,r0 ");
10001ddc: c8 00 00 00 lf.add.s r0,r0,r0
var = -1;
10001de0: 9c 60 ff ff l.addi r3,r0,-1
10001de4: d4 02 18 00 l.sw 0(r2),r3
var = var * 3;
10001de8: 84 62 00 00 l.lwz r3,0(r2)
10001dec: e0 83 18 00 l.add r4,r3,r3
10001df0: e0 64 18 00 l.add r3,r4,r3
10001df4: d4 02 18 00 l.sw 0(r2),r3
assert(var == -3);
10001df8: 84 62 00 00 l.lwz r3,0(r2)
10001dfc: bc 03 ff fd l.sfeqi r3,-3
10001e00: 10 00 00 0e l.bf 10001e38 <test+0x14c>
10001e04: 18 60 10 00 l.movhi r3,0x1000
10001e08: a8 63 2d 61 l.ori r3,r3,0x2d61
10001e0c: d4 01 18 00 l.sw 0(r1),r3
10001e10: 18 60 10 00 l.movhi r3,0x1000
10001e14: a8 63 2d 34 l.ori r3,r3,0x2d34
10001e18: d4 01 18 04 l.sw 4(r1),r3
10001e1c: 9c 60 00 31 l.addi r3,r0,49
10001e20: d4 01 18 08 l.sw 8(r1),r3
10001e24: 18 60 10 00 l.movhi r3,0x1000
10001e28: a8 63 2c 74 l.ori r3,r3,0x2c74
10001e2c: 07 ff fe ee l.jal 100019e4 <printf>
}
static inline void exit(unsigned exit_code)
{
volatile register char t1 asm ("r1") = exit_code;
10001e30: 9c 20 00 01 l.addi r1,r0,1
__asm__ __volatile__ ( "\t l.trap 0 ");
}
else
{
// Invalid instruction!
__asm__ __volatile__ ( "\t lf.add.s r0,r0,r0 ");
10001e34: c8 00 00 00 lf.add.s r0,r0,r0
var = -5;
10001e38: 9c 60 ff fb l.addi r3,r0,-5
10001e3c: d4 02 18 00 l.sw 0(r2),r3
var = var * 13;
10001e40: 84 62 00 00 l.lwz r3,0(r2)
10001e44: e0 83 18 00 l.add r4,r3,r3
10001e48: e0 84 18 00 l.add r4,r4,r3
10001e4c: b8 84 00 02 l.slli r4,r4,0x2
10001e50: e0 64 18 00 l.add r3,r4,r3
10001e54: d4 02 18 00 l.sw 0(r2),r3
assert(var == -65);
10001e58: 84 62 00 00 l.lwz r3,0(r2)
10001e5c: bc 03 ff bf l.sfeqi r3,-65
10001e60: 10 00 00 0e l.bf 10001e98 <test+0x1ac>
10001e64: 18 60 10 00 l.movhi r3,0x1000
10001e68: a8 63 2d 6b l.ori r3,r3,0x2d6b
10001e6c: d4 01 18 00 l.sw 0(r1),r3
10001e70: 18 60 10 00 l.movhi r3,0x1000
10001e74: a8 63 2d 34 l.ori r3,r3,0x2d34
10001e78: d4 01 18 04 l.sw 4(r1),r3
10001e7c: 9c 60 00 34 l.addi r3,r0,52
10001e80: d4 01 18 08 l.sw 8(r1),r3
10001e84: 18 60 10 00 l.movhi r3,0x1000
10001e88: a8 63 2c 74 l.ori r3,r3,0x2c74
10001e8c: 07 ff fe d6 l.jal 100019e4 <printf>
}
static inline void exit(unsigned exit_code)
{
volatile register char t1 asm ("r1") = exit_code;
10001e90: 9c 20 00 01 l.addi r1,r0,1
__asm__ __volatile__ ( "\t l.trap 0 ");
}
else
{
// Invalid instruction!
__asm__ __volatile__ ( "\t lf.add.s r0,r0,r0 ");
10001e94: c8 00 00 00 lf.add.s r0,r0,r0
var = -5;
10001e98: 9c 60 ff fb l.addi r3,r0,-5
var = var * -13;
10001e9c: 9c 80 ff f3 l.addi r4,r0,-13
var = var * 3;
assert(var == -3);
var = -5;
var = var * 13;
assert(var == -65);
var = -5;
10001ea0: d4 02 18 00 l.sw 0(r2),r3
var = var * -13;
10001ea4: 84 62 00 00 l.lwz r3,0(r2)
10001ea8: 04 00 03 04 l.jal 10002ab8 <__mulsi3>
10001eac: d4 02 58 00 l.sw 0(r2),r11
assert(var == (-5*-13));
10001eb0: 84 62 00 00 l.lwz r3,0(r2)
10001eb4: bc 03 00 41 l.sfeqi r3,65
10001eb8: 10 00 00 0e l.bf 10001ef0 <test+0x204>
10001ebc: 18 60 10 00 l.movhi r3,0x1000
10001ec0: a8 63 2d 76 l.ori r3,r3,0x2d76
10001ec4: d4 01 18 00 l.sw 0(r1),r3
10001ec8: 18 60 10 00 l.movhi r3,0x1000
10001ecc: a8 63 2d 34 l.ori r3,r3,0x2d34
10001ed0: d4 01 18 04 l.sw 4(r1),r3
10001ed4: 9c 60 00 37 l.addi r3,r0,55
10001ed8: d4 01 18 08 l.sw 8(r1),r3
10001edc: 18 60 10 00 l.movhi r3,0x1000
10001ee0: a8 63 2c 74 l.ori r3,r3,0x2c74
10001ee4: 07 ff fe c0 l.jal 100019e4 <printf>
}
static inline void exit(unsigned exit_code)
{
volatile register char t1 asm ("r1") = exit_code;
10001ee8: 9c 20 00 01 l.addi r1,r0,1
__asm__ __volatile__ ( "\t l.trap 0 ");
}
else
{
// Invalid instruction!
__asm__ __volatile__ ( "\t lf.add.s r0,r0,r0 ");
10001eec: c8 00 00 00 lf.add.s r0,r0,r0
var = -123123415;
10001ef0: 18 60 f8 a9 l.movhi r3,0xf8a9
var = var * 9664563;
10001ef4: 18 80 00 93 l.movhi r4,0x93
var = var * 13;
assert(var == -65);
var = -5;
var = var * -13;
assert(var == (-5*-13));
var = -123123415;
10001ef8: a8 63 49 29 l.ori r3,r3,0x4929
var = var * 9664563;
10001efc: a8 84 78 33 l.ori r4,r4,0x7833
var = var * 13;
assert(var == -65);
var = -5;
var = var * -13;
assert(var == (-5*-13));
var = -123123415;
10001f00: d4 02 18 00 l.sw 0(r2),r3
var = var * 9664563;
10001f04: 84 62 00 00 l.lwz r3,0(r2)
10001f08: 04 00 02 ec l.jal 10002ab8 <__mulsi3>
assert(var == (-123123415*9664563));
10001f0c: 18 80 e6 8f l.movhi r4,0xe68f
assert(var == -65);
var = -5;
var = var * -13;
assert(var == (-5*-13));
var = -123123415;
var = var * 9664563;
10001f10: d4 02 58 00 l.sw 0(r2),r11
assert(var == (-123123415*9664563));
10001f14: a8 84 cb 2b l.ori r4,r4,0xcb2b
10001f18: 84 62 00 00 l.lwz r3,0(r2)
10001f1c: e4 03 20 00 l.sfeq r3,r4
10001f20: 10 00 00 0e l.bf 10001f58 <test+0x26c>
10001f24: 18 60 10 00 l.movhi r3,0x1000
10001f28: a8 63 2d 86 l.ori r3,r3,0x2d86
10001f2c: d4 01 18 00 l.sw 0(r1),r3
10001f30: 18 60 10 00 l.movhi r3,0x1000
10001f34: a8 63 2d 34 l.ori r3,r3,0x2d34
10001f38: d4 01 18 04 l.sw 4(r1),r3
10001f3c: 9c 60 00 3a l.addi r3,r0,58
10001f40: d4 01 18 08 l.sw 8(r1),r3
10001f44: 18 60 10 00 l.movhi r3,0x1000
10001f48: a8 63 2c 74 l.ori r3,r3,0x2c74
10001f4c: 07 ff fe a6 l.jal 100019e4 <printf>
}
static inline void exit(unsigned exit_code)
{
volatile register char t1 asm ("r1") = exit_code;
10001f50: 9c 20 00 01 l.addi r1,r0,1
__asm__ __volatile__ ( "\t l.trap 0 ");
}
else
{
// Invalid instruction!
__asm__ __volatile__ ( "\t lf.add.s r0,r0,r0 ");
10001f54: c8 00 00 00 lf.add.s r0,r0,r0
serial_putstr("3. Divide\n");
10001f58: 18 60 10 00 l.movhi r3,0x1000
10001f5c: a8 63 2d a2 l.ori r3,r3,0x2da2
10001f60: 07 ff fe ef l.jal 10001b1c <serial_putstr>
var = 13980;
10001f64: 9c 60 36 9c l.addi r3,r0,13980
var = var / 5;
10001f68: 9c 80 00 05 l.addi r4,r0,5
var = -123123415;
var = var * 9664563;
assert(var == (-123123415*9664563));
serial_putstr("3. Divide\n");
var = 13980;
10001f6c: d4 02 18 00 l.sw 0(r2),r3
var = var / 5;
10001f70: 84 62 00 00 l.lwz r3,0(r2)
10001f74: 04 00 02 74 l.jal 10002944 <__divsi3>
10001f78: d4 02 58 00 l.sw 0(r2),r11
assert(var == 2796);
10001f7c: 84 62 00 00 l.lwz r3,0(r2)
10001f80: bc 03 0a ec l.sfeqi r3,2796
10001f84: 10 00 00 0e l.bf 10001fbc <test+0x2d0>
10001f88: 18 60 10 00 l.movhi r3,0x1000
10001f8c: a8 63 2d ad l.ori r3,r3,0x2dad
10001f90: d4 01 18 00 l.sw 0(r1),r3
10001f94: 18 60 10 00 l.movhi r3,0x1000
10001f98: a8 63 2d 34 l.ori r3,r3,0x2d34
10001f9c: d4 01 18 04 l.sw 4(r1),r3
10001fa0: 9c 60 00 3f l.addi r3,r0,63
10001fa4: d4 01 18 08 l.sw 8(r1),r3
10001fa8: 18 60 10 00 l.movhi r3,0x1000
10001fac: a8 63 2c 74 l.ori r3,r3,0x2c74
10001fb0: 07 ff fe 8d l.jal 100019e4 <printf>
}
static inline void exit(unsigned exit_code)
{
volatile register char t1 asm ("r1") = exit_code;
10001fb4: 9c 20 00 01 l.addi r1,r0,1
__asm__ __volatile__ ( "\t l.trap 0 ");
}
else
{
// Invalid instruction!
__asm__ __volatile__ ( "\t lf.add.s r0,r0,r0 ");
10001fb8: c8 00 00 00 lf.add.s r0,r0,r0
var = var % 100;
10001fbc: 84 62 00 00 l.lwz r3,0(r2)
10001fc0: 9c 80 00 64 l.addi r4,r0,100
10001fc4: 04 00 02 7a l.jal 100029ac <__modsi3>
10001fc8: d4 02 58 00 l.sw 0(r2),r11
assert(var == 96);
10001fcc: 84 62 00 00 l.lwz r3,0(r2)
10001fd0: bc 03 00 60 l.sfeqi r3,96
10001fd4: 10 00 00 0e l.bf 1000200c <test+0x320>
10001fd8: 18 60 10 00 l.movhi r3,0x1000
10001fdc: a8 63 2d b9 l.ori r3,r3,0x2db9
10001fe0: d4 01 18 00 l.sw 0(r1),r3
10001fe4: 18 60 10 00 l.movhi r3,0x1000
10001fe8: a8 63 2d 34 l.ori r3,r3,0x2d34
10001fec: d4 01 18 04 l.sw 4(r1),r3
10001ff0: 9c 60 00 41 l.addi r3,r0,65
10001ff4: d4 01 18 08 l.sw 8(r1),r3
10001ff8: 18 60 10 00 l.movhi r3,0x1000
10001ffc: a8 63 2c 74 l.ori r3,r3,0x2c74
10002000: 07 ff fe 79 l.jal 100019e4 <printf>
}
static inline void exit(unsigned exit_code)
{
volatile register char t1 asm ("r1") = exit_code;
10002004: 9c 20 00 01 l.addi r1,r0,1
__asm__ __volatile__ ( "\t l.trap 0 ");
}
else
{
// Invalid instruction!
__asm__ __volatile__ ( "\t lf.add.s r0,r0,r0 ");
10002008: c8 00 00 00 lf.add.s r0,r0,r0
var = -1273;
1000200c: 9c 60 fb 07 l.addi r3,r0,-1273
var = var / 19;
10002010: 9c 80 00 13 l.addi r4,r0,19
var = 13980;
var = var / 5;
assert(var == 2796);
var = var % 100;
assert(var == 96);
var = -1273;
10002014: d4 02 18 00 l.sw 0(r2),r3
var = var / 19;
10002018: 84 62 00 00 l.lwz r3,0(r2)
1000201c: 04 00 02 4a l.jal 10002944 <__divsi3>
10002020: d4 02 58 00 l.sw 0(r2),r11
assert(var == -67);
10002024: 84 62 00 00 l.lwz r3,0(r2)
10002028: bc 03 ff bd l.sfeqi r3,-67
1000202c: 10 00 00 0e l.bf 10002064 <test+0x378>
10002030: 18 60 10 00 l.movhi r3,0x1000
10002034: a8 63 2d c3 l.ori r3,r3,0x2dc3
10002038: d4 01 18 00 l.sw 0(r1),r3
1000203c: 18 60 10 00 l.movhi r3,0x1000
10002040: a8 63 2d 34 l.ori r3,r3,0x2d34
10002044: d4 01 18 04 l.sw 4(r1),r3
10002048: 9c 60 00 44 l.addi r3,r0,68
1000204c: d4 01 18 08 l.sw 8(r1),r3
10002050: 18 60 10 00 l.movhi r3,0x1000
10002054: a8 63 2c 74 l.ori r3,r3,0x2c74
10002058: 07 ff fe 63 l.jal 100019e4 <printf>
}
static inline void exit(unsigned exit_code)
{
volatile register char t1 asm ("r1") = exit_code;
1000205c: 9c 20 00 01 l.addi r1,r0,1
__asm__ __volatile__ ( "\t l.trap 0 ");
}
else
{
// Invalid instruction!
__asm__ __volatile__ ( "\t lf.add.s r0,r0,r0 ");
10002060: c8 00 00 00 lf.add.s r0,r0,r0
serial_putstr("4. Shift left\n");
10002064: 18 60 10 00 l.movhi r3,0x1000
var = 0x1;
10002068: 9e 40 00 01 l.addi r18,r0,1
assert(var == 96);
var = -1273;
var = var / 19;
assert(var == -67);
serial_putstr("4. Shift left\n");
1000206c: a8 63 2d ce l.ori r3,r3,0x2dce
10002070: 07 ff fe ab l.jal 10001b1c <serial_putstr>
var = 0x1;
10002074: d4 02 90 00 l.sw 0(r2),r18
var <<= 31;
assert(var == 0x80000000);
10002078: 18 80 80 00 l.movhi r4,0x8000
var = var / 19;
assert(var == -67);
serial_putstr("4. Shift left\n");
var = 0x1;
var <<= 31;
1000207c: 84 62 00 00 l.lwz r3,0(r2)
10002080: b8 63 00 1f l.slli r3,r3,0x1f
10002084: d4 02 18 00 l.sw 0(r2),r3
assert(var == 0x80000000);
10002088: 84 62 00 00 l.lwz r3,0(r2)
1000208c: e4 03 20 00 l.sfeq r3,r4
10002090: 10 00 00 0e l.bf 100020c8 <test+0x3dc>
10002094: 18 60 10 00 l.movhi r3,0x1000
10002098: a8 63 2d dd l.ori r3,r3,0x2ddd
1000209c: d4 01 18 00 l.sw 0(r1),r3
100020a0: 18 60 10 00 l.movhi r3,0x1000
100020a4: a8 63 2d 34 l.ori r3,r3,0x2d34
100020a8: d4 01 18 04 l.sw 4(r1),r3
100020ac: 9c 60 00 49 l.addi r3,r0,73
100020b0: d4 01 18 08 l.sw 8(r1),r3
100020b4: 18 60 10 00 l.movhi r3,0x1000
100020b8: a8 63 2c 74 l.ori r3,r3,0x2c74
100020bc: 07 ff fe 4a l.jal 100019e4 <printf>
}
static inline void exit(unsigned exit_code)
{
volatile register char t1 asm ("r1") = exit_code;
100020c0: a8 32 00 00 l.ori r1,r18,0x0
__asm__ __volatile__ ( "\t l.trap 0 ");
}
else
{
// Invalid instruction!
__asm__ __volatile__ ( "\t lf.add.s r0,r0,r0 ");
100020c4: c8 00 00 00 lf.add.s r0,r0,r0
serial_putstr("5. Shift right\n");
100020c8: 18 60 10 00 l.movhi r3,0x1000
100020cc: a8 63 2d ef l.ori r3,r3,0x2def
100020d0: 07 ff fe 93 l.jal 10001b1c <serial_putstr>
uvar = 0x80000000;
100020d4: 18 60 80 00 l.movhi r3,0x8000
uvar >>= 1;
assert(uvar == 0x40000000);
100020d8: 18 80 40 00 l.movhi r4,0x4000
var = 0x1;
var <<= 31;
assert(var == 0x80000000);
serial_putstr("5. Shift right\n");
uvar = 0x80000000;
100020dc: d4 0e 18 00 l.sw 0(r14),r3
uvar >>= 1;
100020e0: 84 6e 00 00 l.lwz r3,0(r14)
100020e4: b8 63 00 41 l.srli r3,r3,0x1
100020e8: d4 0e 18 00 l.sw 0(r14),r3
assert(uvar == 0x40000000);
100020ec: 84 6e 00 00 l.lwz r3,0(r14)
100020f0: e4 03 20 00 l.sfeq r3,r4
100020f4: 10 00 00 0e l.bf 1000212c <test+0x440>
100020f8: 18 60 10 00 l.movhi r3,0x1000
100020fc: a8 63 2d ff l.ori r3,r3,0x2dff
10002100: d4 01 18 00 l.sw 0(r1),r3
10002104: 18 60 10 00 l.movhi r3,0x1000
10002108: a8 63 2d 34 l.ori r3,r3,0x2d34
1000210c: d4 01 18 04 l.sw 4(r1),r3
10002110: 9c 60 00 4e l.addi r3,r0,78
10002114: d4 01 18 08 l.sw 8(r1),r3
10002118: 18 60 10 00 l.movhi r3,0x1000
1000211c: a8 63 2c 74 l.ori r3,r3,0x2c74
10002120: 07 ff fe 31 l.jal 100019e4 <printf>
}
static inline void exit(unsigned exit_code)
{
volatile register char t1 asm ("r1") = exit_code;
10002124: 9c 20 00 01 l.addi r1,r0,1
__asm__ __volatile__ ( "\t l.trap 0 ");
}
else
{
// Invalid instruction!
__asm__ __volatile__ ( "\t lf.add.s r0,r0,r0 ");
10002128: c8 00 00 00 lf.add.s r0,r0,r0
uvar >>= 30;
1000212c: 84 6e 00 00 l.lwz r3,0(r14)
10002130: b8 63 00 5e l.srli r3,r3,0x1e
10002134: d4 0e 18 00 l.sw 0(r14),r3
assert(uvar == 0x00000001);
10002138: 84 6e 00 00 l.lwz r3,0(r14)
1000213c: bc 03 00 01 l.sfeqi r3,1
10002140: 10 00 00 0e l.bf 10002178 <test+0x48c>
10002144: 18 60 10 00 l.movhi r3,0x1000
10002148: a8 63 2e 12 l.ori r3,r3,0x2e12
1000214c: d4 01 18 00 l.sw 0(r1),r3
10002150: 18 60 10 00 l.movhi r3,0x1000
10002154: a8 63 2d 34 l.ori r3,r3,0x2d34
10002158: d4 01 18 04 l.sw 4(r1),r3
1000215c: 9c 60 00 50 l.addi r3,r0,80
10002160: d4 01 18 08 l.sw 8(r1),r3
10002164: 18 60 10 00 l.movhi r3,0x1000
10002168: a8 63 2c 74 l.ori r3,r3,0x2c74
1000216c: 07 ff fe 1e l.jal 100019e4 <printf>
}
static inline void exit(unsigned exit_code)
{
volatile register char t1 asm ("r1") = exit_code;
10002170: 9c 20 00 01 l.addi r1,r0,1
__asm__ __volatile__ ( "\t l.trap 0 ");
}
else
{
// Invalid instruction!
__asm__ __volatile__ ( "\t lf.add.s r0,r0,r0 ");
10002174: c8 00 00 00 lf.add.s r0,r0,r0
serial_putstr("6. Shift right arithmetic\n");
10002178: 18 60 10 00 l.movhi r3,0x1000
1000217c: a8 63 2e 25 l.ori r3,r3,0x2e25
10002180: 07 ff fe 67 l.jal 10001b1c <serial_putstr>
var = 0x80000000;
10002184: 18 60 80 00 l.movhi r3,0x8000
var >>= 1;
assert(var == 0xC0000000);
10002188: 18 80 c0 00 l.movhi r4,0xc000
assert(uvar == 0x40000000);
uvar >>= 30;
assert(uvar == 0x00000001);
serial_putstr("6. Shift right arithmetic\n");
var = 0x80000000;
1000218c: d4 02 18 00 l.sw 0(r2),r3
var >>= 1;
10002190: 84 62 00 00 l.lwz r3,0(r2)
10002194: b8 63 00 81 l.srai r3,r3,0x1
10002198: d4 02 18 00 l.sw 0(r2),r3
assert(var == 0xC0000000);
1000219c: 84 62 00 00 l.lwz r3,0(r2)
100021a0: e4 03 20 00 l.sfeq r3,r4
100021a4: 10 00 00 0e l.bf 100021dc <test+0x4f0>
100021a8: 18 60 10 00 l.movhi r3,0x1000
100021ac: a8 63 2e 40 l.ori r3,r3,0x2e40
100021b0: d4 01 18 00 l.sw 0(r1),r3
100021b4: 18 60 10 00 l.movhi r3,0x1000
100021b8: a8 63 2d 34 l.ori r3,r3,0x2d34
100021bc: d4 01 18 04 l.sw 4(r1),r3
100021c0: 9c 60 00 55 l.addi r3,r0,85
100021c4: d4 01 18 08 l.sw 8(r1),r3
100021c8: 18 60 10 00 l.movhi r3,0x1000
100021cc: a8 63 2c 74 l.ori r3,r3,0x2c74
100021d0: 07 ff fe 05 l.jal 100019e4 <printf>
}
static inline void exit(unsigned exit_code)
{
volatile register char t1 asm ("r1") = exit_code;
100021d4: 9c 20 00 01 l.addi r1,r0,1
__asm__ __volatile__ ( "\t l.trap 0 ");
}
else
{
// Invalid instruction!
__asm__ __volatile__ ( "\t lf.add.s r0,r0,r0 ");
100021d8: c8 00 00 00 lf.add.s r0,r0,r0
serial_putstr("7. Signed comparision\n");
100021dc: 18 60 10 00 l.movhi r3,0x1000
100021e0: a8 63 2e 52 l.ori r3,r3,0x2e52
100021e4: 07 ff fe 4e l.jal 10001b1c <serial_putstr>
var = -1;
100021e8: 9c 60 ff ff l.addi r3,r0,-1
100021ec: d4 02 18 00 l.sw 0(r2),r3
assert(var < 1);
100021f0: 84 62 00 00 l.lwz r3,0(r2)
100021f4: bd a3 00 00 l.sflesi r3,0
100021f8: 10 00 00 0e l.bf 10002230 <test+0x544>
100021fc: 18 60 10 00 l.movhi r3,0x1000
10002200: a8 63 2e 69 l.ori r3,r3,0x2e69
10002204: d4 01 18 00 l.sw 0(r1),r3
10002208: 18 60 10 00 l.movhi r3,0x1000
1000220c: a8 63 2d 34 l.ori r3,r3,0x2d34
10002210: d4 01 18 04 l.sw 4(r1),r3
10002214: 9c 60 00 59 l.addi r3,r0,89
10002218: d4 01 18 08 l.sw 8(r1),r3
1000221c: 18 60 10 00 l.movhi r3,0x1000
10002220: a8 63 2c 74 l.ori r3,r3,0x2c74
10002224: 07 ff fd f0 l.jal 100019e4 <printf>
}
static inline void exit(unsigned exit_code)
{
volatile register char t1 asm ("r1") = exit_code;
10002228: 9c 20 00 01 l.addi r1,r0,1
__asm__ __volatile__ ( "\t l.trap 0 ");
}
else
{
// Invalid instruction!
__asm__ __volatile__ ( "\t lf.add.s r0,r0,r0 ");
1000222c: c8 00 00 00 lf.add.s r0,r0,r0
x = 10;
assert(var < x);
10002230: 84 62 00 00 l.lwz r3,0(r2)
10002234: bd a3 00 09 l.sflesi r3,9
10002238: 0c 00 01 95 l.bnf 1000288c <test+0xba0>
assert(!(var > x));
1000223c: 84 62 00 00 l.lwz r3,0(r2)
10002240: bd a3 00 0a l.sflesi r3,10
10002244: 0c 00 01 84 l.bnf 10002854 <test+0xb68>
x = -3;
assert(var > x);
10002248: 84 62 00 00 l.lwz r3,0(r2)
1000224c: bd 63 ff fe l.sfgesi r3,-2
10002250: 0c 00 01 73 l.bnf 1000281c <test+0xb30>
assert(x <= var);
10002254: 84 42 00 00 l.lwz r2,0(r2)
10002258: bd 62 ff fd l.sfgesi r2,-3
1000225c: 0c 00 01 62 l.bnf 100027e4 <test+0xaf8>
serial_putstr("8. Word access\n");
10002260: 18 60 10 00 l.movhi r3,0x1000
uvar = 0x12345678;
10002264: 18 40 12 34 l.movhi r2,0x1234
assert(!(var > x));
x = -3;
assert(var > x);
assert(x <= var);
serial_putstr("8. Word access\n");
10002268: a8 63 2e 95 l.ori r3,r3,0x2e95
uvar = 0x12345678;
1000226c: a8 42 56 78 l.ori r2,r2,0x5678
assert(!(var > x));
x = -3;
assert(var > x);
assert(x <= var);
serial_putstr("8. Word access\n");
10002270: 07 ff fe 2b l.jal 10001b1c <serial_putstr>
uvar = 0x12345678;
assert(uvar == 0x12345678);
10002274: 18 60 12 34 l.movhi r3,0x1234
x = -3;
assert(var > x);
assert(x <= var);
serial_putstr("8. Word access\n");
uvar = 0x12345678;
10002278: d4 0e 10 00 l.sw 0(r14),r2
assert(uvar == 0x12345678);
1000227c: a8 63 56 78 l.ori r3,r3,0x5678
10002280: 84 4e 00 00 l.lwz r2,0(r14)
10002284: e4 02 18 00 l.sfeq r2,r3
10002288: 10 00 00 0e l.bf 100022c0 <test+0x5d4>
1000228c: 18 40 10 00 l.movhi r2,0x1000
10002290: 18 60 10 00 l.movhi r3,0x1000
10002294: a8 42 2e a5 l.ori r2,r2,0x2ea5
10002298: a8 63 2c 74 l.ori r3,r3,0x2c74
1000229c: d4 01 10 00 l.sw 0(r1),r2
100022a0: 18 40 10 00 l.movhi r2,0x1000
100022a4: a8 42 2d 34 l.ori r2,r2,0x2d34
100022a8: d4 01 10 04 l.sw 4(r1),r2
100022ac: 9c 40 00 63 l.addi r2,r0,99
100022b0: d4 01 10 08 l.sw 8(r1),r2
100022b4: 07 ff fd cc l.jal 100019e4 <printf>
}
static inline void exit(unsigned exit_code)
{
volatile register char t1 asm ("r1") = exit_code;
100022b8: 9c 20 00 01 l.addi r1,r0,1
__asm__ __volatile__ ( "\t l.trap 0 ");
}
else
{
// Invalid instruction!
__asm__ __volatile__ ( "\t lf.add.s r0,r0,r0 ");
100022bc: c8 00 00 00 lf.add.s r0,r0,r0
sw = uvar;
100022c0: 84 4e 00 00 l.lwz r2,0(r14)
assert(sw == 0x5678);
100022c4: a4 42 ff ff l.andi r2,r2,0xffff
100022c8: bc 02 56 78 l.sfeqi r2,22136
100022cc: 10 00 00 0e l.bf 10002304 <test+0x618>
100022d0: 18 40 10 00 l.movhi r2,0x1000
100022d4: 18 60 10 00 l.movhi r3,0x1000
100022d8: a8 42 2e b8 l.ori r2,r2,0x2eb8
100022dc: a8 63 2c 74 l.ori r3,r3,0x2c74
100022e0: d4 01 10 00 l.sw 0(r1),r2
100022e4: 18 40 10 00 l.movhi r2,0x1000
100022e8: a8 42 2d 34 l.ori r2,r2,0x2d34
100022ec: d4 01 10 04 l.sw 4(r1),r2
100022f0: 9c 40 00 65 l.addi r2,r0,101
100022f4: d4 01 10 08 l.sw 8(r1),r2
100022f8: 07 ff fd bb l.jal 100019e4 <printf>
}
static inline void exit(unsigned exit_code)
{
volatile register char t1 asm ("r1") = exit_code;
100022fc: 9c 20 00 01 l.addi r1,r0,1
__asm__ __volatile__ ( "\t l.trap 0 ");
}
else
{
// Invalid instruction!
__asm__ __volatile__ ( "\t lf.add.s r0,r0,r0 ");
10002300: c8 00 00 00 lf.add.s r0,r0,r0
psw = &uvar;
assert(*psw++ == 0x1234);
10002304: 94 4e 00 00 l.lhz r2,0(r14)
10002308: bc 02 12 34 l.sfeqi r2,4660
1000230c: 10 00 00 0e l.bf 10002344 <test+0x658>
10002310: 18 40 10 00 l.movhi r2,0x1000
10002314: 18 60 10 00 l.movhi r3,0x1000
10002318: a8 42 2e c5 l.ori r2,r2,0x2ec5
1000231c: a8 63 2c 74 l.ori r3,r3,0x2c74
10002320: d4 01 10 00 l.sw 0(r1),r2
10002324: 18 40 10 00 l.movhi r2,0x1000
10002328: a8 42 2d 34 l.ori r2,r2,0x2d34
1000232c: d4 01 10 04 l.sw 4(r1),r2
10002330: 9c 40 00 67 l.addi r2,r0,103
10002334: d4 01 10 08 l.sw 8(r1),r2
10002338: 07 ff fd ab l.jal 100019e4 <printf>
}
static inline void exit(unsigned exit_code)
{
volatile register char t1 asm ("r1") = exit_code;
1000233c: 9c 20 00 01 l.addi r1,r0,1
__asm__ __volatile__ ( "\t l.trap 0 ");
}
else
{
// Invalid instruction!
__asm__ __volatile__ ( "\t lf.add.s r0,r0,r0 ");
10002340: c8 00 00 00 lf.add.s r0,r0,r0
assert(*psw++ == 0x5678);
10002344: 94 4e 00 02 l.lhz r2,2(r14)
10002348: bc 02 56 78 l.sfeqi r2,22136
1000234c: 10 00 01 1f l.bf 100027c8 <test+0xadc>
10002350: 9c 60 00 68 l.addi r3,r0,104
10002354: 1a 40 10 00 l.movhi r18,0x1000
10002358: 18 40 10 00 l.movhi r2,0x1000
1000235c: d4 01 18 08 l.sw 8(r1),r3
10002360: aa 52 2e d6 l.ori r18,r18,0x2ed6
10002364: a8 42 2d 34 l.ori r2,r2,0x2d34
10002368: 18 60 10 00 l.movhi r3,0x1000
1000236c: d4 01 90 00 l.sw 0(r1),r18
10002370: d4 01 10 04 l.sw 4(r1),r2
10002374: a8 63 2c 74 l.ori r3,r3,0x2c74
10002378: 07 ff fd 9b l.jal 100019e4 <printf>
}
static inline void exit(unsigned exit_code)
{
volatile register char t1 asm ("r1") = exit_code;
1000237c: 9c 20 00 01 l.addi r1,r0,1
__asm__ __volatile__ ( "\t l.trap 0 ");
}
else
{
// Invalid instruction!
__asm__ __volatile__ ( "\t lf.add.s r0,r0,r0 ");
10002380: c8 00 00 00 lf.add.s r0,r0,r0
10002384: 94 6e 00 02 l.lhz r3,2(r14)
psw = &uvar;
*psw = 0xcafe;
10002388: 9c 80 ca fe l.addi r4,r0,-13570
assert(*psw++ == 0xcafe);
assert(*psw++ == 0x5678);
1000238c: bc 03 56 78 l.sfeqi r3,22136
assert(sw == 0x5678);
psw = &uvar;
assert(*psw++ == 0x1234);
assert(*psw++ == 0x5678);
psw = &uvar;
*psw = 0xcafe;
10002390: dc 0e 20 00 l.sh 0(r14),r4
assert(*psw++ == 0xcafe);
assert(*psw++ == 0x5678);
10002394: 10 00 01 11 l.bf 100027d8 <test+0xaec>
10002398: 9c 60 00 6c l.addi r3,r0,108
1000239c: d4 01 90 00 l.sw 0(r1),r18
100023a0: d4 01 18 08 l.sw 8(r1),r3
100023a4: 18 60 10 00 l.movhi r3,0x1000
100023a8: d4 01 10 04 l.sw 4(r1),r2
100023ac: a8 63 2c 74 l.ori r3,r3,0x2c74
100023b0: 07 ff fd 8d l.jal 100019e4 <printf>
}
static inline void exit(unsigned exit_code)
{
volatile register char t1 asm ("r1") = exit_code;
100023b4: 9c 20 00 01 l.addi r1,r0,1
__asm__ __volatile__ ( "\t l.trap 0 ");
}
else
{
// Invalid instruction!
__asm__ __volatile__ ( "\t lf.add.s r0,r0,r0 ");
100023b8: c8 00 00 00 lf.add.s r0,r0,r0
psw = &uvar;
*(++psw) = 0xbabe;
100023bc: 9c 80 ba be l.addi r4,r0,-17730
100023c0: 94 6e 00 00 l.lhz r3,0(r14)
100023c4: dc 0e 20 02 l.sh 2(r14),r4
psw = &uvar;
assert(*psw++ == 0xcafe);
100023c8: a8 80 ca fe l.ori r4,r0,0xcafe
100023cc: e4 23 20 00 l.sfne r3,r4
100023d0: 0c 00 00 1b l.bnf 1000243c <test+0x750>
100023d4: 18 60 10 00 l.movhi r3,0x1000
100023d8: d4 01 10 04 l.sw 4(r1),r2
100023dc: a8 63 2e e7 l.ori r3,r3,0x2ee7
100023e0: d4 01 18 00 l.sw 0(r1),r3
100023e4: 9c 60 00 70 l.addi r3,r0,112
100023e8: d4 01 18 08 l.sw 8(r1),r3
100023ec: 18 60 10 00 l.movhi r3,0x1000
100023f0: a8 63 2c 74 l.ori r3,r3,0x2c74
100023f4: 07 ff fd 7c l.jal 100019e4 <printf>
}
static inline void exit(unsigned exit_code)
{
volatile register char t1 asm ("r1") = exit_code;
100023f8: 9c 20 00 01 l.addi r1,r0,1
__asm__ __volatile__ ( "\t l.trap 0 ");
}
else
{
// Invalid instruction!
__asm__ __volatile__ ( "\t lf.add.s r0,r0,r0 ");
100023fc: c8 00 00 00 lf.add.s r0,r0,r0
assert(*psw++ == 0xbabe);
10002400: a8 80 ba be l.ori r4,r0,0xbabe
10002404: 94 6e 00 02 l.lhz r3,2(r14)
10002408: e4 03 20 00 l.sfeq r3,r4
1000240c: 10 00 00 0c l.bf 1000243c <test+0x750>
10002410: 18 60 10 00 l.movhi r3,0x1000
10002414: d4 01 10 04 l.sw 4(r1),r2
10002418: a8 63 2e f8 l.ori r3,r3,0x2ef8
1000241c: 9c 40 00 71 l.addi r2,r0,113
10002420: d4 01 18 00 l.sw 0(r1),r3
10002424: 18 60 10 00 l.movhi r3,0x1000
10002428: d4 01 10 08 l.sw 8(r1),r2
1000242c: a8 63 2c 74 l.ori r3,r3,0x2c74
10002430: 07 ff fd 6d l.jal 100019e4 <printf>
}
static inline void exit(unsigned exit_code)
{
volatile register char t1 asm ("r1") = exit_code;
10002434: 9c 20 00 01 l.addi r1,r0,1
__asm__ __volatile__ ( "\t l.trap 0 ");
}
else
{
// Invalid instruction!
__asm__ __volatile__ ( "\t lf.add.s r0,r0,r0 ");
10002438: c8 00 00 00 lf.add.s r0,r0,r0
serial_putstr("9. Byte access\n");
1000243c: 18 60 10 00 l.movhi r3,0x1000
uvar = 0x12345678;
10002440: 18 40 12 34 l.movhi r2,0x1234
*(++psw) = 0xbabe;
psw = &uvar;
assert(*psw++ == 0xcafe);
assert(*psw++ == 0xbabe);
serial_putstr("9. Byte access\n");
10002444: a8 63 2f 09 l.ori r3,r3,0x2f09
uvar = 0x12345678;
10002448: a8 42 56 78 l.ori r2,r2,0x5678
*(++psw) = 0xbabe;
psw = &uvar;
assert(*psw++ == 0xcafe);
assert(*psw++ == 0xbabe);
serial_putstr("9. Byte access\n");
1000244c: 07 ff fd b4 l.jal 10001b1c <serial_putstr>
uvar = 0x12345678;
assert(uvar == 0x12345678);
10002450: 18 60 12 34 l.movhi r3,0x1234
psw = &uvar;
assert(*psw++ == 0xcafe);
assert(*psw++ == 0xbabe);
serial_putstr("9. Byte access\n");
uvar = 0x12345678;
10002454: d4 0e 10 00 l.sw 0(r14),r2
assert(uvar == 0x12345678);
10002458: a8 63 56 78 l.ori r3,r3,0x5678
1000245c: 84 4e 00 00 l.lwz r2,0(r14)
10002460: e4 02 18 00 l.sfeq r2,r3
10002464: 10 00 00 0e l.bf 1000249c <test+0x7b0>
10002468: 18 40 10 00 l.movhi r2,0x1000
1000246c: 18 60 10 00 l.movhi r3,0x1000
10002470: a8 42 2e a5 l.ori r2,r2,0x2ea5
10002474: a8 63 2c 74 l.ori r3,r3,0x2c74
10002478: d4 01 10 00 l.sw 0(r1),r2
1000247c: 18 40 10 00 l.movhi r2,0x1000
10002480: a8 42 2d 34 l.ori r2,r2,0x2d34
10002484: d4 01 10 04 l.sw 4(r1),r2
10002488: 9c 40 00 75 l.addi r2,r0,117
1000248c: d4 01 10 08 l.sw 8(r1),r2
10002490: 07 ff fd 55 l.jal 100019e4 <printf>
}
static inline void exit(unsigned exit_code)
{
volatile register char t1 asm ("r1") = exit_code;
10002494: 9c 20 00 01 l.addi r1,r0,1
__asm__ __volatile__ ( "\t l.trap 0 ");
}
else
{
// Invalid instruction!
__asm__ __volatile__ ( "\t lf.add.s r0,r0,r0 ");
10002498: c8 00 00 00 lf.add.s r0,r0,r0
sb = uvar;
1000249c: 84 4e 00 00 l.lwz r2,0(r14)
assert(sb == 0x78);
100024a0: a4 42 00 ff l.andi r2,r2,0xff
100024a4: bc 02 00 78 l.sfeqi r2,120
100024a8: 10 00 00 0e l.bf 100024e0 <test+0x7f4>
100024ac: 18 40 10 00 l.movhi r2,0x1000
100024b0: 18 60 10 00 l.movhi r3,0x1000
100024b4: a8 42 2f 19 l.ori r2,r2,0x2f19
100024b8: a8 63 2c 74 l.ori r3,r3,0x2c74
100024bc: d4 01 10 00 l.sw 0(r1),r2
100024c0: 18 40 10 00 l.movhi r2,0x1000
100024c4: a8 42 2d 34 l.ori r2,r2,0x2d34
100024c8: d4 01 10 04 l.sw 4(r1),r2
100024cc: 9c 40 00 77 l.addi r2,r0,119
100024d0: d4 01 10 08 l.sw 8(r1),r2
100024d4: 07 ff fd 44 l.jal 100019e4 <printf>
}
static inline void exit(unsigned exit_code)
{
volatile register char t1 asm ("r1") = exit_code;
100024d8: 9c 20 00 01 l.addi r1,r0,1
__asm__ __volatile__ ( "\t l.trap 0 ");
}
else
{
// Invalid instruction!
__asm__ __volatile__ ( "\t lf.add.s r0,r0,r0 ");
100024dc: c8 00 00 00 lf.add.s r0,r0,r0
psb = &uvar;
assert(*psb++ == 0x12);
100024e0: 8c 4e 00 00 l.lbz r2,0(r14)
100024e4: bc 02 00 12 l.sfeqi r2,18
100024e8: 10 00 00 0e l.bf 10002520 <test+0x834>
100024ec: 18 40 10 00 l.movhi r2,0x1000
100024f0: 18 60 10 00 l.movhi r3,0x1000
100024f4: a8 42 2f 24 l.ori r2,r2,0x2f24
100024f8: a8 63 2c 74 l.ori r3,r3,0x2c74
100024fc: d4 01 10 00 l.sw 0(r1),r2
10002500: 18 40 10 00 l.movhi r2,0x1000
10002504: a8 42 2d 34 l.ori r2,r2,0x2d34
10002508: d4 01 10 04 l.sw 4(r1),r2
1000250c: 9c 40 00 79 l.addi r2,r0,121
10002510: d4 01 10 08 l.sw 8(r1),r2
10002514: 07 ff fd 34 l.jal 100019e4 <printf>
}
static inline void exit(unsigned exit_code)
{
volatile register char t1 asm ("r1") = exit_code;
10002518: 9c 20 00 01 l.addi r1,r0,1
__asm__ __volatile__ ( "\t l.trap 0 ");
}
else
{
// Invalid instruction!
__asm__ __volatile__ ( "\t lf.add.s r0,r0,r0 ");
1000251c: c8 00 00 00 lf.add.s r0,r0,r0
assert(*psb++ == 0x34);
10002520: 8c 4e 00 01 l.lbz r2,1(r14)
10002524: bc 02 00 34 l.sfeqi r2,52
10002528: 10 00 00 0e l.bf 10002560 <test+0x874>
1000252c: 18 40 10 00 l.movhi r2,0x1000
10002530: 18 60 10 00 l.movhi r3,0x1000
10002534: a8 42 2f 33 l.ori r2,r2,0x2f33
10002538: a8 63 2c 74 l.ori r3,r3,0x2c74
1000253c: d4 01 10 00 l.sw 0(r1),r2
10002540: 18 40 10 00 l.movhi r2,0x1000
10002544: a8 42 2d 34 l.ori r2,r2,0x2d34
10002548: d4 01 10 04 l.sw 4(r1),r2
1000254c: 9c 40 00 7a l.addi r2,r0,122
10002550: d4 01 10 08 l.sw 8(r1),r2
10002554: 07 ff fd 24 l.jal 100019e4 <printf>
}
static inline void exit(unsigned exit_code)
{
volatile register char t1 asm ("r1") = exit_code;
10002558: 9c 20 00 01 l.addi r1,r0,1
__asm__ __volatile__ ( "\t l.trap 0 ");
}
else
{
// Invalid instruction!
__asm__ __volatile__ ( "\t lf.add.s r0,r0,r0 ");
1000255c: c8 00 00 00 lf.add.s r0,r0,r0
assert(*psb++ == 0x56);
10002560: 8c 4e 00 02 l.lbz r2,2(r14)
10002564: bc 02 00 56 l.sfeqi r2,86
10002568: 10 00 00 0e l.bf 100025a0 <test+0x8b4>
1000256c: 18 40 10 00 l.movhi r2,0x1000
10002570: 18 60 10 00 l.movhi r3,0x1000
10002574: a8 42 2f 42 l.ori r2,r2,0x2f42
10002578: a8 63 2c 74 l.ori r3,r3,0x2c74
1000257c: d4 01 10 00 l.sw 0(r1),r2
10002580: 18 40 10 00 l.movhi r2,0x1000
10002584: a8 42 2d 34 l.ori r2,r2,0x2d34
10002588: d4 01 10 04 l.sw 4(r1),r2
1000258c: 9c 40 00 7b l.addi r2,r0,123
10002590: d4 01 10 08 l.sw 8(r1),r2
10002594: 07 ff fd 14 l.jal 100019e4 <printf>
}
static inline void exit(unsigned exit_code)
{
volatile register char t1 asm ("r1") = exit_code;
10002598: 9c 20 00 01 l.addi r1,r0,1
__asm__ __volatile__ ( "\t l.trap 0 ");
}
else
{
// Invalid instruction!
__asm__ __volatile__ ( "\t lf.add.s r0,r0,r0 ");
1000259c: c8 00 00 00 lf.add.s r0,r0,r0
assert(*psb++ == 0x78);
100025a0: 8c 4e 00 03 l.lbz r2,3(r14)
100025a4: bc 02 00 78 l.sfeqi r2,120
100025a8: 10 00 00 0e l.bf 100025e0 <test+0x8f4>
100025ac: 18 40 10 00 l.movhi r2,0x1000
100025b0: 18 60 10 00 l.movhi r3,0x1000
100025b4: a8 42 2f 51 l.ori r2,r2,0x2f51
100025b8: a8 63 2c 74 l.ori r3,r3,0x2c74
100025bc: d4 01 10 00 l.sw 0(r1),r2
100025c0: 18 40 10 00 l.movhi r2,0x1000
100025c4: a8 42 2d 34 l.ori r2,r2,0x2d34
100025c8: d4 01 10 04 l.sw 4(r1),r2
100025cc: 9c 40 00 7c l.addi r2,r0,124
100025d0: d4 01 10 08 l.sw 8(r1),r2
100025d4: 07 ff fd 04 l.jal 100019e4 <printf>
}
static inline void exit(unsigned exit_code)
{
volatile register char t1 asm ("r1") = exit_code;
100025d8: 9c 20 00 01 l.addi r1,r0,1
__asm__ __volatile__ ( "\t l.trap 0 ");
}
else
{
// Invalid instruction!
__asm__ __volatile__ ( "\t lf.add.s r0,r0,r0 ");
100025dc: c8 00 00 00 lf.add.s r0,r0,r0
psb = &uvar;
*psb++ = 0xab;
100025e0: 9c 80 ff ab l.addi r4,r0,-85
assert(uvar == 0xab345678);
100025e4: 18 60 ab 34 l.movhi r3,0xab34
assert(*psb++ == 0x12);
assert(*psb++ == 0x34);
assert(*psb++ == 0x56);
assert(*psb++ == 0x78);
psb = &uvar;
*psb++ = 0xab;
100025e8: d8 0e 20 00 l.sb 0(r14),r4
assert(uvar == 0xab345678);
100025ec: a8 63 56 78 l.ori r3,r3,0x5678
100025f0: 84 4e 00 00 l.lwz r2,0(r14)
100025f4: e4 02 18 00 l.sfeq r2,r3
100025f8: 10 00 00 0e l.bf 10002630 <test+0x944>
100025fc: 18 40 10 00 l.movhi r2,0x1000
10002600: 18 60 10 00 l.movhi r3,0x1000
10002604: a8 42 2f 60 l.ori r2,r2,0x2f60
10002608: a8 63 2c 74 l.ori r3,r3,0x2c74
1000260c: d4 01 10 00 l.sw 0(r1),r2
10002610: 18 40 10 00 l.movhi r2,0x1000
10002614: a8 42 2d 34 l.ori r2,r2,0x2d34
10002618: d4 01 10 04 l.sw 4(r1),r2
1000261c: 9c 40 00 7f l.addi r2,r0,127
10002620: d4 01 10 08 l.sw 8(r1),r2
10002624: 07 ff fc f0 l.jal 100019e4 <printf>
}
static inline void exit(unsigned exit_code)
{
volatile register char t1 asm ("r1") = exit_code;
10002628: 9c 20 00 01 l.addi r1,r0,1
__asm__ __volatile__ ( "\t l.trap 0 ");
}
else
{
// Invalid instruction!
__asm__ __volatile__ ( "\t lf.add.s r0,r0,r0 ");
1000262c: c8 00 00 00 lf.add.s r0,r0,r0
*psb++ = 0xcd;
10002630: 9c 80 ff cd l.addi r4,r0,-51
assert(uvar == 0xabcd5678);
10002634: 18 60 ab cd l.movhi r3,0xabcd
assert(*psb++ == 0x56);
assert(*psb++ == 0x78);
psb = &uvar;
*psb++ = 0xab;
assert(uvar == 0xab345678);
*psb++ = 0xcd;
10002638: d8 0e 20 01 l.sb 1(r14),r4
assert(uvar == 0xabcd5678);
1000263c: a8 63 56 78 l.ori r3,r3,0x5678
10002640: 84 4e 00 00 l.lwz r2,0(r14)
10002644: e4 02 18 00 l.sfeq r2,r3
10002648: 10 00 00 0e l.bf 10002680 <test+0x994>
1000264c: 18 40 10 00 l.movhi r2,0x1000
10002650: 18 60 10 00 l.movhi r3,0x1000
10002654: a8 42 2f 73 l.ori r2,r2,0x2f73
10002658: a8 63 2c 74 l.ori r3,r3,0x2c74
1000265c: d4 01 10 00 l.sw 0(r1),r2
10002660: 18 40 10 00 l.movhi r2,0x1000
10002664: a8 42 2d 34 l.ori r2,r2,0x2d34
10002668: d4 01 10 04 l.sw 4(r1),r2
1000266c: 9c 40 00 81 l.addi r2,r0,129
10002670: d4 01 10 08 l.sw 8(r1),r2
10002674: 07 ff fc dc l.jal 100019e4 <printf>
}
static inline void exit(unsigned exit_code)
{
volatile register char t1 asm ("r1") = exit_code;
10002678: 9c 20 00 01 l.addi r1,r0,1
__asm__ __volatile__ ( "\t l.trap 0 ");
}
else
{
// Invalid instruction!
__asm__ __volatile__ ( "\t lf.add.s r0,r0,r0 ");
1000267c: c8 00 00 00 lf.add.s r0,r0,r0
*psb++ = 0xef;
10002680: 9c 80 ff ef l.addi r4,r0,-17
assert(uvar == 0xabcdef78);
10002684: 18 60 ab cd l.movhi r3,0xabcd
psb = &uvar;
*psb++ = 0xab;
assert(uvar == 0xab345678);
*psb++ = 0xcd;
assert(uvar == 0xabcd5678);
*psb++ = 0xef;
10002688: d8 0e 20 02 l.sb 2(r14),r4
assert(uvar == 0xabcdef78);
1000268c: a8 63 ef 78 l.ori r3,r3,0xef78
10002690: 84 4e 00 00 l.lwz r2,0(r14)
10002694: e4 02 18 00 l.sfeq r2,r3
10002698: 10 00 00 0e l.bf 100026d0 <test+0x9e4>
1000269c: 18 40 10 00 l.movhi r2,0x1000
100026a0: 18 60 10 00 l.movhi r3,0x1000
100026a4: a8 42 2f 86 l.ori r2,r2,0x2f86
100026a8: a8 63 2c 74 l.ori r3,r3,0x2c74
100026ac: d4 01 10 00 l.sw 0(r1),r2
100026b0: 18 40 10 00 l.movhi r2,0x1000
100026b4: a8 42 2d 34 l.ori r2,r2,0x2d34
100026b8: d4 01 10 04 l.sw 4(r1),r2
100026bc: 9c 40 00 83 l.addi r2,r0,131
100026c0: d4 01 10 08 l.sw 8(r1),r2
100026c4: 07 ff fc c8 l.jal 100019e4 <printf>
}
static inline void exit(unsigned exit_code)
{
volatile register char t1 asm ("r1") = exit_code;
100026c8: 9c 20 00 01 l.addi r1,r0,1
__asm__ __volatile__ ( "\t l.trap 0 ");
}
else
{
// Invalid instruction!
__asm__ __volatile__ ( "\t lf.add.s r0,r0,r0 ");
100026cc: c8 00 00 00 lf.add.s r0,r0,r0
*psb++ = 0x01;
100026d0: 9c 80 00 01 l.addi r4,r0,1
assert(uvar == 0xabcdef01);
100026d4: 18 60 ab cd l.movhi r3,0xabcd
assert(uvar == 0xab345678);
*psb++ = 0xcd;
assert(uvar == 0xabcd5678);
*psb++ = 0xef;
assert(uvar == 0xabcdef78);
*psb++ = 0x01;
100026d8: d8 0e 20 03 l.sb 3(r14),r4
assert(uvar == 0xabcdef01);
100026dc: a8 63 ef 01 l.ori r3,r3,0xef01
100026e0: 84 4e 00 00 l.lwz r2,0(r14)
100026e4: e4 02 18 00 l.sfeq r2,r3
100026e8: 10 00 00 0e l.bf 10002720 <test+0xa34>
100026ec: 18 40 10 00 l.movhi r2,0x1000
100026f0: 18 60 10 00 l.movhi r3,0x1000
100026f4: a8 42 2f 99 l.ori r2,r2,0x2f99
100026f8: a8 63 2c 74 l.ori r3,r3,0x2c74
100026fc: d4 01 10 00 l.sw 0(r1),r2
10002700: 18 40 10 00 l.movhi r2,0x1000
10002704: a8 42 2d 34 l.ori r2,r2,0x2d34
10002708: d4 01 10 04 l.sw 4(r1),r2
1000270c: 9c 40 00 85 l.addi r2,r0,133
10002710: d4 01 10 08 l.sw 8(r1),r2
10002714: 07 ff fc b4 l.jal 100019e4 <printf>
}
static inline void exit(unsigned exit_code)
{
volatile register char t1 asm ("r1") = exit_code;
10002718: 9c 20 00 01 l.addi r1,r0,1
__asm__ __volatile__ ( "\t l.trap 0 ");
}
else
{
// Invalid instruction!
__asm__ __volatile__ ( "\t lf.add.s r0,r0,r0 ");
1000271c: c8 00 00 00 lf.add.s r0,r0,r0
serial_putstr("10. Comparision\n");
10002720: 18 60 10 00 l.movhi r3,0x1000
longvar = 0x1db9;
10002724: 18 40 10 00 l.movhi r2,0x1000
*psb++ = 0xef;
assert(uvar == 0xabcdef78);
*psb++ = 0x01;
assert(uvar == 0xabcdef01);
serial_putstr("10. Comparision\n");
10002728: a8 63 2f ac l.ori r3,r3,0x2fac
longvar = 0x1db9;
1000272c: a8 42 30 00 l.ori r2,r2,0x3000
*psb++ = 0xef;
assert(uvar == 0xabcdef78);
*psb++ = 0x01;
assert(uvar == 0xabcdef01);
serial_putstr("10. Comparision\n");
10002730: 07 ff fc fb l.jal 10001b1c <serial_putstr>
longvar = 0x1db9;
10002734: 9c 60 1d b9 l.addi r3,r0,7609
if (longvar >= 0xFFF8 && longvar <= 0xFFFF)
10002738: a8 80 ff f7 l.ori r4,r0,0xfff7
assert(uvar == 0xabcdef78);
*psb++ = 0x01;
assert(uvar == 0xabcdef01);
serial_putstr("10. Comparision\n");
longvar = 0x1db9;
1000273c: d4 02 18 00 l.sw 0(r2),r3
if (longvar >= 0xFFF8 && longvar <= 0xFFFF)
10002740: 84 62 00 00 l.lwz r3,0(r2)
10002744: e4 a3 20 00 l.sfleu r3,r4
10002748: 10 00 00 05 l.bf 1000275c <test+0xa70>
1000274c: a8 60 ff ff l.ori r3,r0,0xffff
10002750: 84 42 00 00 l.lwz r2,0(r2)
10002754: e4 42 18 00 l.sfgtu r2,r3
10002758: 0c 00 00 0b l.bnf 10002784 <test+0xa98>
}
static inline void exit(unsigned exit_code)
{
volatile register char t1 asm ("r1") = exit_code;
1000275c: 9c 20 00 00 l.addi r1,r0,0
// No error?
if (exit_code == 0)
{
// Trap instruction
__asm__ __volatile__ ( "\t l.trap 0 ");
10002760: 21 00 00 00 l.trap 0x0
assert(0);
}
// Success
exit(0);
}
10002764: 9c 21 00 20 l.addi r1,r1,32
10002768: 9d 60 00 00 l.addi r11,r0,0
1000276c: 85 21 ff fc l.lwz r9,-4(r1)
10002770: 84 21 ff ec l.lwz r1,-20(r1)
10002774: 84 41 ff f0 l.lwz r2,-16(r1)
10002778: 85 c1 ff f4 l.lwz r14,-12(r1)
1000277c: 86 41 ff f8 l.lwz r18,-8(r1)
10002780: 44 00 48 00 l.jr r9
serial_putstr("10. Comparision\n");
longvar = 0x1db9;
if (longvar >= 0xFFF8 && longvar <= 0xFFFF)
{
serial_putstr("- Incorrect comparision\n");
10002784: 18 60 10 00 l.movhi r3,0x1000
assert(0);
10002788: 18 40 10 00 l.movhi r2,0x1000
serial_putstr("10. Comparision\n");
longvar = 0x1db9;
if (longvar >= 0xFFF8 && longvar <= 0xFFFF)
{
serial_putstr("- Incorrect comparision\n");
1000278c: a8 63 2f bd l.ori r3,r3,0x2fbd
assert(0);
10002790: a8 42 2d 07 l.ori r2,r2,0x2d07
serial_putstr("10. Comparision\n");
longvar = 0x1db9;
if (longvar >= 0xFFF8 && longvar <= 0xFFFF)
{
serial_putstr("- Incorrect comparision\n");
10002794: 07 ff fc e2 l.jal 10001b1c <serial_putstr>
assert(0);
10002798: d4 01 10 00 l.sw 0(r1),r2
1000279c: 18 40 10 00 l.movhi r2,0x1000
100027a0: 18 60 10 00 l.movhi r3,0x1000
100027a4: a8 42 2d 34 l.ori r2,r2,0x2d34
100027a8: a8 63 2c 74 l.ori r3,r3,0x2c74
100027ac: d4 01 10 04 l.sw 4(r1),r2
100027b0: 9c 40 00 8c l.addi r2,r0,140
100027b4: d4 01 10 08 l.sw 8(r1),r2
100027b8: 07 ff fc 8b l.jal 100019e4 <printf>
}
static inline void exit(unsigned exit_code)
{
volatile register char t1 asm ("r1") = exit_code;
100027bc: 9c 20 00 01 l.addi r1,r0,1
__asm__ __volatile__ ( "\t l.trap 0 ");
}
else
{
// Invalid instruction!
__asm__ __volatile__ ( "\t lf.add.s r0,r0,r0 ");
100027c0: c8 00 00 00 lf.add.s r0,r0,r0
100027c4: 03 ff ff e6 l.j 1000275c <test+0xa70>
assert(sw == 0x5678);
psw = &uvar;
assert(*psw++ == 0x1234);
assert(*psw++ == 0x5678);
psw = &uvar;
*psw = 0xcafe;
100027c8: 18 40 10 00 l.movhi r2,0x1000
100027cc: 9c 80 ca fe l.addi r4,r0,-13570
100027d0: a8 42 30 04 l.ori r2,r2,0x3004
100027d4: dc 02 20 00 l.sh 0(r2),r4
assert(*psw++ == 0xcafe);
assert(*psw++ == 0x5678);
psw = &uvar;
*(++psw) = 0xbabe;
100027d8: 9c 40 ba be l.addi r2,r0,-17730
100027dc: dc 0e 10 02 l.sh 2(r14),r2
100027e0: 03 ff ff 17 l.j 1000243c <test+0x750>
x = 10;
assert(var < x);
assert(!(var > x));
x = -3;
assert(var > x);
assert(x <= var);
100027e4: 18 40 10 00 l.movhi r2,0x1000
100027e8: 18 60 10 00 l.movhi r3,0x1000
100027ec: a8 42 2e 8c l.ori r2,r2,0x2e8c
100027f0: a8 63 2c 74 l.ori r3,r3,0x2c74
100027f4: d4 01 10 00 l.sw 0(r1),r2
100027f8: 18 40 10 00 l.movhi r2,0x1000
100027fc: a8 42 2d 34 l.ori r2,r2,0x2d34
10002800: d4 01 10 04 l.sw 4(r1),r2
10002804: 9c 40 00 5f l.addi r2,r0,95
10002808: d4 01 10 08 l.sw 8(r1),r2
1000280c: 07 ff fc 76 l.jal 100019e4 <printf>
}
static inline void exit(unsigned exit_code)
{
volatile register char t1 asm ("r1") = exit_code;
10002810: 9c 20 00 01 l.addi r1,r0,1
__asm__ __volatile__ ( "\t l.trap 0 ");
}
else
{
// Invalid instruction!
__asm__ __volatile__ ( "\t lf.add.s r0,r0,r0 ");
10002814: c8 00 00 00 lf.add.s r0,r0,r0
10002818: 03 ff fe 92 l.j 10002260 <test+0x574>
assert(var < 1);
x = 10;
assert(var < x);
assert(!(var > x));
x = -3;
assert(var > x);
1000281c: 18 60 10 00 l.movhi r3,0x1000
10002820: a8 63 2e 84 l.ori r3,r3,0x2e84
10002824: d4 01 18 00 l.sw 0(r1),r3
10002828: 18 60 10 00 l.movhi r3,0x1000
1000282c: a8 63 2d 34 l.ori r3,r3,0x2d34
10002830: d4 01 18 04 l.sw 4(r1),r3
10002834: 9c 60 00 5e l.addi r3,r0,94
10002838: d4 01 18 08 l.sw 8(r1),r3
1000283c: 18 60 10 00 l.movhi r3,0x1000
10002840: a8 63 2c 74 l.ori r3,r3,0x2c74
10002844: 07 ff fc 68 l.jal 100019e4 <printf>
}
static inline void exit(unsigned exit_code)
{
volatile register char t1 asm ("r1") = exit_code;
10002848: 9c 20 00 01 l.addi r1,r0,1
__asm__ __volatile__ ( "\t l.trap 0 ");
}
else
{
// Invalid instruction!
__asm__ __volatile__ ( "\t lf.add.s r0,r0,r0 ");
1000284c: c8 00 00 00 lf.add.s r0,r0,r0
10002850: 03 ff fe 81 l.j 10002254 <test+0x568>
serial_putstr("7. Signed comparision\n");
var = -1;
assert(var < 1);
x = 10;
assert(var < x);
assert(!(var > x));
10002854: 18 60 10 00 l.movhi r3,0x1000
10002858: a8 63 2e 79 l.ori r3,r3,0x2e79
1000285c: d4 01 18 00 l.sw 0(r1),r3
10002860: 18 60 10 00 l.movhi r3,0x1000
10002864: a8 63 2d 34 l.ori r3,r3,0x2d34
10002868: d4 01 18 04 l.sw 4(r1),r3
1000286c: 9c 60 00 5c l.addi r3,r0,92
10002870: d4 01 18 08 l.sw 8(r1),r3
10002874: 18 60 10 00 l.movhi r3,0x1000
10002878: a8 63 2c 74 l.ori r3,r3,0x2c74
1000287c: 07 ff fc 5a l.jal 100019e4 <printf>
}
static inline void exit(unsigned exit_code)
{
volatile register char t1 asm ("r1") = exit_code;
10002880: 9c 20 00 01 l.addi r1,r0,1
__asm__ __volatile__ ( "\t l.trap 0 ");
}
else
{
// Invalid instruction!
__asm__ __volatile__ ( "\t lf.add.s r0,r0,r0 ");
10002884: c8 00 00 00 lf.add.s r0,r0,r0
10002888: 03 ff fe 70 l.j 10002248 <test+0x55c>
serial_putstr("7. Signed comparision\n");
var = -1;
assert(var < 1);
x = 10;
assert(var < x);
1000288c: 18 60 10 00 l.movhi r3,0x1000
10002890: a8 63 2e 71 l.ori r3,r3,0x2e71
10002894: d4 01 18 00 l.sw 0(r1),r3
10002898: 18 60 10 00 l.movhi r3,0x1000
1000289c: a8 63 2d 34 l.ori r3,r3,0x2d34
100028a0: d4 01 18 04 l.sw 4(r1),r3
100028a4: 9c 60 00 5b l.addi r3,r0,91
100028a8: d4 01 18 08 l.sw 8(r1),r3
100028ac: 18 60 10 00 l.movhi r3,0x1000
100028b0: a8 63 2c 74 l.ori r3,r3,0x2c74
100028b4: 07 ff fc 4c l.jal 100019e4 <printf>
}
static inline void exit(unsigned exit_code)
{
volatile register char t1 asm ("r1") = exit_code;
100028b8: 9c 20 00 01 l.addi r1,r0,1
__asm__ __volatile__ ( "\t l.trap 0 ");
}
else
{
// Invalid instruction!
__asm__ __volatile__ ( "\t lf.add.s r0,r0,r0 ");
100028bc: c8 00 00 00 lf.add.s r0,r0,r0
100028c0: 03 ff fe 5f l.j 1000223c <test+0x550>
// Assign empty syscall handler
exception_register_syscall_handler(empty_syscall);
serial_putstr("1. Initialised data\n");
assert(var == 0x1234); // .text
assert(uvar == 0x0); // .bss
100028c4: 18 60 10 00 l.movhi r3,0x1000
100028c8: a8 63 2d 3b l.ori r3,r3,0x2d3b
100028cc: d4 01 18 00 l.sw 0(r1),r3
100028d0: 18 60 10 00 l.movhi r3,0x1000
100028d4: a8 63 2d 34 l.ori r3,r3,0x2d34
100028d8: d4 01 18 04 l.sw 4(r1),r3
100028dc: 9c 60 00 2a l.addi r3,r0,42
100028e0: d4 01 18 08 l.sw 8(r1),r3
100028e4: 18 60 10 00 l.movhi r3,0x1000
100028e8: a8 63 2c 74 l.ori r3,r3,0x2c74
100028ec: 07 ff fc 3e l.jal 100019e4 <printf>
}
static inline void exit(unsigned exit_code)
{
volatile register char t1 asm ("r1") = exit_code;
100028f0: 9c 20 00 01 l.addi r1,r0,1
__asm__ __volatile__ ( "\t l.trap 0 ");
}
else
{
// Invalid instruction!
__asm__ __volatile__ ( "\t lf.add.s r0,r0,r0 ");
100028f4: c8 00 00 00 lf.add.s r0,r0,r0
100028f8: 03 ff fd 23 l.j 10001d84 <test+0x98>
100028fc <__udivsi3>:
long udivmodsi4 ();
long
__udivsi3 (long a, long b)
{
100028fc: d7 e1 4f fc l.sw -4(r1),r9
10002900: d7 e1 0f f8 l.sw -8(r1),r1
return udivmodsi4 (a, b, 0);
10002904: 9c a0 00 00 l.addi r5,r0,0
long udivmodsi4 ();
long
__udivsi3 (long a, long b)
{
10002908: 9c 21 ff f8 l.addi r1,r1,-8
return udivmodsi4 (a, b, 0);
1000290c: 04 00 00 40 l.jal 10002a0c <udivmodsi4>
}
10002910: 9c 21 00 08 l.addi r1,r1,8
10002914: 85 21 ff fc l.lwz r9,-4(r1)
10002918: 84 21 ff f8 l.lwz r1,-8(r1)
1000291c: 44 00 48 00 l.jr r9
10002920 <__umodsi3>:
long
__umodsi3 (long a, long b)
{
10002920: d7 e1 4f fc l.sw -4(r1),r9
10002924: d7 e1 0f f8 l.sw -8(r1),r1
return udivmodsi4 (a, b, 1);
10002928: 9c a0 00 01 l.addi r5,r0,1
return udivmodsi4 (a, b, 0);
}
long
__umodsi3 (long a, long b)
{
1000292c: 9c 21 ff f8 l.addi r1,r1,-8
return udivmodsi4 (a, b, 1);
10002930: 04 00 00 37 l.jal 10002a0c <udivmodsi4>
}
10002934: 9c 21 00 08 l.addi r1,r1,8
10002938: 85 21 ff fc l.lwz r9,-4(r1)
1000293c: 84 21 ff f8 l.lwz r1,-8(r1)
10002940: 44 00 48 00 l.jr r9
10002944 <__divsi3>:
long udivmodsi4 ();
long
__divsi3 (long a, long b)
{
10002944: d7 e1 17 f8 l.sw -8(r1),r2
10002948: d7 e1 4f fc l.sw -4(r1),r9
1000294c: d7 e1 0f f4 l.sw -12(r1),r1
int neg = 0;
long res;
if (a < 0)
10002950: bd 63 00 00 l.sfgesi r3,0
long udivmodsi4 ();
long
__divsi3 (long a, long b)
{
10002954: 9c 21 ff f4 l.addi r1,r1,-12
int neg = 0;
10002958: 9c 40 00 00 l.addi r2,r0,0
long res;
if (a < 0)
1000295c: 0c 00 00 0d l.bnf 10002990 <__divsi3+0x4c>
{
a = -a;
neg = !neg;
}
if (b < 0)
10002960: bd 64 00 00 l.sfgesi r4,0
10002964: 0c 00 00 0f l.bnf 100029a0 <__divsi3+0x5c>
{
b = -b;
neg = !neg;
}
res = udivmodsi4 (a, b, 0);
10002968: 9c a0 00 00 l.addi r5,r0,0
1000296c: 04 00 00 28 l.jal 10002a0c <udivmodsi4>
if (neg)
10002970: bc 02 00 00 l.sfeqi r2,0
10002974: 10 00 00 02 l.bf 1000297c <__divsi3+0x38>
res = -res;
10002978: e1 60 58 02 l.sub r11,r0,r11
return res;
}
1000297c: 9c 21 00 0c l.addi r1,r1,12
10002980: 85 21 ff fc l.lwz r9,-4(r1)
10002984: 84 21 ff f4 l.lwz r1,-12(r1)
10002988: 84 41 ff f8 l.lwz r2,-8(r1)
1000298c: 44 00 48 00 l.jr r9
{
a = -a;
neg = !neg;
}
if (b < 0)
10002990: bd 64 00 00 l.sfgesi r4,0
int neg = 0;
long res;
if (a < 0)
{
a = -a;
10002994: e0 60 18 02 l.sub r3,r0,r3
neg = !neg;
10002998: 9c 40 00 01 l.addi r2,r0,1
}
if (b < 0)
1000299c: 13 ff ff f3 l.bf 10002968 <__divsi3+0x24>
{
b = -b;
100029a0: e0 80 20 02 l.sub r4,r0,r4
100029a4: ac 42 00 01 l.xori r2,r2,1
100029a8: 03 ff ff f0 l.j 10002968 <__divsi3+0x24>
100029ac <__modsi3>:
return res;
}
long
__modsi3 (long a, long b)
{
100029ac: d7 e1 4f fc l.sw -4(r1),r9
100029b0: d7 e1 0f f8 l.sw -8(r1),r1
int neg = 0;
long res;
if (a < 0)
100029b4: bd 63 00 00 l.sfgesi r3,0
return res;
}
long
__modsi3 (long a, long b)
{
100029b8: 9c 21 ff f8 l.addi r1,r1,-8
100029bc: b8 c4 00 9f l.srai r6,r4,0x1f
int neg = 0;
long res;
if (a < 0)
100029c0: 0c 00 00 09 l.bnf 100029e4 <__modsi3+0x38>
100029c4: e0 86 20 05 l.xor r4,r6,r4
}
if (b < 0)
b = -b;
res = udivmodsi4 (a, b, 1);
100029c8: 9c a0 00 01 l.addi r5,r0,1
100029cc: e0 84 30 02 l.sub r4,r4,r6
100029d0: 04 00 00 0f l.jal 10002a0c <udivmodsi4>
if (neg)
res = -res;
return res;
}
100029d4: 9c 21 00 08 l.addi r1,r1,8
100029d8: 85 21 ff fc l.lwz r9,-4(r1)
100029dc: 84 21 ff f8 l.lwz r1,-8(r1)
100029e0: 44 00 48 00 l.jr r9
100029e4: e0 86 20 05 l.xor r4,r6,r4
}
if (b < 0)
b = -b;
res = udivmodsi4 (a, b, 1);
100029e8: e0 60 18 02 l.sub r3,r0,r3
100029ec: 9c a0 00 01 l.addi r5,r0,1
100029f0: e0 84 30 02 l.sub r4,r4,r6
100029f4: 04 00 00 06 l.jal 10002a0c <udivmodsi4>
if (neg)
res = -res;
return res;
}
100029f8: 9c 21 00 08 l.addi r1,r1,8
b = -b;
res = udivmodsi4 (a, b, 1);
if (neg)
res = -res;
100029fc: e1 60 58 02 l.sub r11,r0,r11
return res;
}
10002a00: 85 21 ff fc l.lwz r9,-4(r1)
10002a04: 84 21 ff f8 l.lwz r1,-8(r1)
10002a08: 44 00 48 00 l.jr r9
10002a0c <udivmodsi4>:
see the files COPYING3 and COPYING.RUNTIME respectively. If not, see
<http://www.gnu.org/licenses/>. */
unsigned long
udivmodsi4(unsigned long num, unsigned long den, int modwanted)
{
10002a0c: d7 e1 0f fc l.sw -4(r1),r1
unsigned long bit = 1;
unsigned long res = 0;
while (den < num && bit && !(den & (1L<<31)))
10002a10: e4 64 18 00 l.sfgeu r4,r3
see the files COPYING3 and COPYING.RUNTIME respectively. If not, see
<http://www.gnu.org/licenses/>. */
unsigned long
udivmodsi4(unsigned long num, unsigned long den, int modwanted)
{
10002a14: 9c 21 ff fc l.addi r1,r1,-4
unsigned long bit = 1;
unsigned long res = 0;
while (den < num && bit && !(den & (1L<<31)))
10002a18: 10 00 00 26 l.bf 10002ab0 <udivmodsi4+0xa4>
10002a1c: bd 64 00 00 l.sfgesi r4,0
<http://www.gnu.org/licenses/>. */
unsigned long
udivmodsi4(unsigned long num, unsigned long den, int modwanted)
{
unsigned long bit = 1;
10002a20: 9c c0 00 01 l.addi r6,r0,1
unsigned long res = 0;
while (den < num && bit && !(den & (1L<<31)))
10002a24: 10 00 00 06 l.bf 10002a3c <udivmodsi4+0x30>
10002a28: 00 00 00 13 l.j 10002a74 <udivmodsi4+0x68>
10002a2c: bd 88 00 00 l.sfltsi r8,0
10002a30: 0c 00 00 0e l.bnf 10002a68 <udivmodsi4+0x5c>
10002a34: bd 84 00 00 l.sfltsi r4,0
10002a38: 10 00 00 0f l.bf 10002a74 <udivmodsi4+0x68>
{
den <<=1;
bit <<=1;
10002a3c: e0 c6 30 00 l.add r6,r6,r6
unsigned long bit = 1;
unsigned long res = 0;
while (den < num && bit && !(den & (1L<<31)))
{
den <<=1;
10002a40: e0 84 20 00 l.add r4,r4,r4
udivmodsi4(unsigned long num, unsigned long den, int modwanted)
{
unsigned long bit = 1;
unsigned long res = 0;
while (den < num && bit && !(den & (1L<<31)))
10002a44: e1 00 30 02 l.sub r8,r0,r6
10002a48: e4 43 20 00 l.sfgtu r3,r4
10002a4c: 9c e0 00 01 l.addi r7,r0,1
10002a50: e1 08 30 04 l.or r8,r8,r6
10002a54: 10 00 00 02 l.bf 10002a5c <udivmodsi4+0x50>
10002a58: 9c e0 00 00 l.addi r7,r0,0
10002a5c: a4 e7 00 ff l.andi r7,r7,0xff
10002a60: bc 07 00 00 l.sfeqi r7,0
10002a64: 0f ff ff f2 l.bnf 10002a2c <udivmodsi4+0x20>
{
den <<=1;
bit <<=1;
}
while (bit)
10002a68: bc 26 00 00 l.sfnei r6,0
10002a6c: a9 66 00 00 l.ori r11,r6,0x0
10002a70: 0c 00 00 0a l.bnf 10002a98 <udivmodsi4+0x8c>
unsigned long res = 0;
while (den < num && bit && !(den & (1L<<31)))
{
den <<=1;
bit <<=1;
10002a74: 9d 60 00 00 l.addi r11,r0,0
}
while (bit)
{
if (num >= den)
10002a78: e4 83 20 00 l.sfltu r3,r4
10002a7c: 10 00 00 03 l.bf 10002a88 <udivmodsi4+0x7c>
{
num -= den;
10002a80: e0 63 20 02 l.sub r3,r3,r4
res |= bit;
10002a84: e1 6b 30 04 l.or r11,r11,r6
}
bit >>=1;
10002a88: b8 c6 00 41 l.srli r6,r6,0x1
den >>=1;
10002a8c: b8 84 00 41 l.srli r4,r4,0x1
while (den < num && bit && !(den & (1L<<31)))
{
den <<=1;
bit <<=1;
}
while (bit)
10002a90: bc 06 00 00 l.sfeqi r6,0
10002a94: 0f ff ff f9 l.bnf 10002a78 <udivmodsi4+0x6c>
res |= bit;
}
bit >>=1;
den >>=1;
}
if (modwanted) return num;
10002a98: bc 05 00 00 l.sfeqi r5,0
10002a9c: 10 00 00 02 l.bf 10002aa4 <udivmodsi4+0x98>
10002aa0: a9 63 00 00 l.ori r11,r3,0x0
return res;
}
10002aa4: 9c 21 00 04 l.addi r1,r1,4
10002aa8: 84 21 ff fc l.lwz r1,-4(r1)
10002aac: 44 00 48 00 l.jr r9
udivmodsi4(unsigned long num, unsigned long den, int modwanted)
{
unsigned long bit = 1;
unsigned long res = 0;
while (den < num && bit && !(den & (1L<<31)))
10002ab0: 9c c0 00 01 l.addi r6,r0,1
10002ab4: 03 ff ff f0 l.j 10002a74 <udivmodsi4+0x68>
10002ab8 <__mulsi3>:
typedef unsigned int USItype __attribute__ ((mode (SI)));
USItype
__mulsi3 (USItype a, USItype b)
{
10002ab8: d7 e1 0f fc l.sw -4(r1),r1
USItype c = 0;
while (a != 0)
10002abc: bc 03 00 00 l.sfeqi r3,0
typedef unsigned int USItype __attribute__ ((mode (SI)));
USItype
__mulsi3 (USItype a, USItype b)
{
10002ac0: 9c 21 ff fc l.addi r1,r1,-4
USItype c = 0;
while (a != 0)
10002ac4: 10 00 00 0d l.bf 10002af8 <__mulsi3+0x40>
typedef unsigned int USItype __attribute__ ((mode (SI)));
USItype
__mulsi3 (USItype a, USItype b)
{
USItype c = 0;
10002ac8: 9d 60 00 00 l.addi r11,r0,0
while (a != 0)
{
if (a & 1)
10002acc: a4 a3 00 01 l.andi r5,r3,0x1
10002ad0: b8 63 00 41 l.srli r3,r3,0x1
10002ad4: bc 05 00 00 l.sfeqi r5,0
10002ad8: 10 00 00 02 l.bf 10002ae0 <__mulsi3+0x28>
c += b;
10002adc: e1 6b 20 00 l.add r11,r11,r4
USItype
__mulsi3 (USItype a, USItype b)
{
USItype c = 0;
while (a != 0)
10002ae0: bc 03 00 00 l.sfeqi r3,0
{
if (a & 1)
c += b;
a >>= 1;
b <<= 1;
10002ae4: e0 84 20 00 l.add r4,r4,r4
USItype
__mulsi3 (USItype a, USItype b)
{
USItype c = 0;
while (a != 0)
10002ae8: 0f ff ff f9 l.bnf 10002acc <__mulsi3+0x14>
a >>= 1;
b <<= 1;
}
return c;
}
10002aec: 9c 21 00 04 l.addi r1,r1,4
10002af0: 84 21 ff fc l.lwz r1,-4(r1)
10002af4: 44 00 48 00 l.jr r9
typedef unsigned int USItype __attribute__ ((mode (SI)));
USItype
__mulsi3 (USItype a, USItype b)
{
USItype c = 0;
10002af8: a9 63 00 00 l.ori r11,r3,0x0
10002afc: 03 ff ff fc l.j 10002aec <__mulsi3+0x34>
10002b00: 10 00 12 b8 l.bf 100075e0 <_end+0x35d0>
10002b04: 10 00 11 a0 l.bf 10007184 <_end+0x3174>
10002b08: 10 00 11 bc l.bf 100071f8 <_end+0x31e8>
10002b0c: 10 00 11 f0 l.bf 100072cc <_end+0x32bc>
10002b10: 10 00 12 24 l.bf 100073a0 <_end+0x3390>
10002b14: 10 00 12 58 l.bf 10007474 <_end+0x3464>
10002b18: 10 00 12 78 l.bf 100074f8 <_end+0x34e8>
10002b1c: 10 00 12 98 l.bf 1000757c <_end+0x356c>
10002b20: 10 00 11 10 l.bf 10006f60 <_end+0x2f50>
10002b24: 10 00 18 dc l.bf 10008e94 <_end+0x4e84>
10002b28: 10 00 16 2c l.bf 100083d8 <_end+0x43c8>
10002b2c: 10 00 16 2c l.bf 100083dc <_end+0x43cc>
10002b30: 10 00 16 2c l.bf 100083e0 <_end+0x43d0>
10002b34: 10 00 16 2c l.bf 100083e4 <_end+0x43d4>
10002b38: 10 00 16 2c l.bf 100083e8 <_end+0x43d8>
10002b3c: 10 00 16 2c l.bf 100083ec <_end+0x43dc>
10002b40: 10 00 16 2c l.bf 100083f0 <_end+0x43e0>
10002b44: 10 00 18 c4 l.bf 10008e54 <_end+0x4e44>
10002b48: 10 00 18 ac l.bf 10008df8 <_end+0x4de8>
10002b4c: 10 00 16 2c l.bf 100083fc <_end+0x43ec>
10002b50: 10 00 16 2c l.bf 10008400 <_end+0x43f0>
10002b54: 10 00 16 2c l.bf 10008404 <_end+0x43f4>
10002b58: 10 00 16 2c l.bf 10008408 <_end+0x43f8>
10002b5c: 10 00 16 2c l.bf 1000840c <_end+0x43fc>
10002b60: 10 00 16 2c l.bf 10008410 <_end+0x4400>
10002b64: 10 00 16 2c l.bf 10008414 <_end+0x4404>
10002b68: 10 00 16 2c l.bf 10008418 <_end+0x4408>
10002b6c: 10 00 16 2c l.bf 1000841c <_end+0x440c>
10002b70: 10 00 16 2c l.bf 10008420 <_end+0x4410>
10002b74: 10 00 16 2c l.bf 10008424 <_end+0x4414>
10002b78: 10 00 16 2c l.bf 10008428 <_end+0x4418>
10002b7c: 10 00 16 2c l.bf 1000842c <_end+0x441c>
10002b80: 10 00 16 2c l.bf 10008430 <_end+0x4420>
10002b84: 10 00 16 2c l.bf 10008434 <_end+0x4424>
10002b88: 10 00 16 2c l.bf 10008438 <_end+0x4428>
10002b8c: 10 00 16 2c l.bf 1000843c <_end+0x442c>
10002b90: 10 00 16 2c l.bf 10008440 <_end+0x4430>
10002b94: 10 00 16 2c l.bf 10008444 <_end+0x4434>
10002b98: 10 00 16 2c l.bf 10008448 <_end+0x4438>
10002b9c: 10 00 16 2c l.bf 1000844c <_end+0x443c>
10002ba0: 10 00 16 2c l.bf 10008450 <_end+0x4440>
10002ba4: 10 00 16 2c l.bf 10008454 <_end+0x4444>
10002ba8: 10 00 16 2c l.bf 10008458 <_end+0x4448>
10002bac: 10 00 16 2c l.bf 1000845c <_end+0x444c>
10002bb0: 10 00 16 2c l.bf 10008460 <_end+0x4450>
10002bb4: 10 00 16 2c l.bf 10008464 <_end+0x4454>
10002bb8: 10 00 16 2c l.bf 10008468 <_end+0x4458>
10002bbc: 10 00 16 2c l.bf 1000846c <_end+0x445c>
10002bc0: 10 00 16 2c l.bf 10008470 <_end+0x4460>
10002bc4: 10 00 16 2c l.bf 10008474 <_end+0x4464>
10002bc8: 10 00 16 2c l.bf 10008478 <_end+0x4468>
10002bcc: 10 00 16 2c l.bf 1000847c <_end+0x446c>
10002bd0: 10 00 16 2c l.bf 10008480 <_end+0x4470>
10002bd4: 10 00 16 2c l.bf 10008484 <_end+0x4474>
10002bd8: 10 00 16 2c l.bf 10008488 <_end+0x4478>
10002bdc: 10 00 16 2c l.bf 1000848c <_end+0x447c>
10002be0: 10 00 16 2c l.bf 10008490 <_end+0x4480>
10002be4: 10 00 16 2c l.bf 10008494 <_end+0x4484>
10002be8: 10 00 16 2c l.bf 10008498 <_end+0x4488>
10002bec: 10 00 16 2c l.bf 1000849c <_end+0x448c>
10002bf0: 10 00 16 2c l.bf 100084a0 <_end+0x4490>
10002bf4: 10 00 16 2c l.bf 100084a4 <_end+0x4494>
10002bf8: 10 00 16 2c l.bf 100084a8 <_end+0x4498>
10002bfc: 10 00 16 2c l.bf 100084ac <_end+0x449c>
10002c00: 10 00 18 7c l.bf 10008df0 <_end+0x4de0>
10002c04: 10 00 16 2c l.bf 100084b4 <_end+0x44a4>
10002c08: 10 00 16 2c l.bf 100084b8 <_end+0x44a8>
10002c0c: 10 00 16 2c l.bf 100084bc <_end+0x44ac>
10002c10: 10 00 16 2c l.bf 100084c0 <_end+0x44b0>
10002c14: 10 00 16 2c l.bf 100084c4 <_end+0x44b4>
10002c18: 10 00 16 2c l.bf 100084c8 <_end+0x44b8>
10002c1c: 10 00 18 68 l.bf 10008dbc <_end+0x4dac>
10002c20: 10 00 18 50 l.bf 10008d60 <_end+0x4d50>
10002c24: 10 00 16 2c l.bf 100084d4 <_end+0x44c4>
10002c28: 10 00 16 2c l.bf 100084d8 <_end+0x44c8>
10002c2c: 10 00 16 2c l.bf 100084dc <_end+0x44cc>
10002c30: 10 00 16 2c l.bf 100084e0 <_end+0x44d0>
10002c34: 10 00 16 2c l.bf 100084e4 <_end+0x44d4>
10002c38: 10 00 16 2c l.bf 100084e8 <_end+0x44d8>
10002c3c: 10 00 16 2c l.bf 100084ec <_end+0x44dc>
10002c40: 10 00 18 3c l.bf 10008d30 <_end+0x4d20>
10002c44: 10 00 16 2c l.bf 100084f4 <_end+0x44e4>
10002c48: 10 00 16 2c l.bf 100084f8 <_end+0x44e8>
10002c4c: 10 00 16 2c l.bf 100084fc <_end+0x44ec>
10002c50: 10 00 18 1c l.bf 10008cc0 <_end+0x4cb0>
10002c54: 10 00 16 2c l.bf 10008504 <_end+0x44f4>
10002c58: 10 00 16 2c l.bf 10008508 <_end+0x44f8>
10002c5c: 10 00 17 34 l.bf 1000892c <_end+0x491c>
10002c60: 10 00 16 2c l.bf 10008510 <_end+0x4500>
10002c64: 10 00 16 2c l.bf 10008514 <_end+0x4504>
10002c68: 10 00 16 2c l.bf 10008518 <_end+0x4508>
10002c6c: 10 00 16 2c l.bf 1000851c <_end+0x450c>
10002c70: 10 00 18 1c l.bf 10008ce0 <_end+0x4cd0>
10002c74: 41 73 73 65 *unknown*
10002c78: 72 74 20 66 *unknown*
10002c7c: 61 69 6c 65 *unknown*
10002c80: 64 3a 20 25 *unknown*
10002c84: 73 20 28 25 *unknown*
10002c88: 73 3a 25 64 *unknown*
10002c8c: 29 0a 00 22 *unknown*
10002c90: 53 59 53 43 *unknown*
10002c94: 41 4c 4c 21 *unknown*
10002c98: 22 00 2e 2e *unknown*
10002c9c: 2f 63 6f 6d *unknown*
10002ca0: 6d 6f 6e 2f *unknown*
10002ca4: 65 78 63 65 *unknown*
10002ca8: 70 74 69 6f *unknown*
10002cac: 6e 2e 63 00 *unknown*
10002cb0: 22 42 52 45 *unknown*
10002cb4: 41 4b 21 22 *unknown*
10002cb8: 00 22 45 58 l.j 10894218 <_end+0x890208>
10002cbc: 54 5f 49 4e *unknown*
10002cc0: 54 21 22 00 *unknown*
10002cc4: 22 46 41 55 *unknown*
10002cc8: 4c 54 22 00 *unknown*
10002ccc: 22 4d 55 4c *unknown*
10002cd0: 54 21 22 00 *unknown*
10002cd4: 22 55 4d 55 *unknown*
10002cd8: 4c 54 21 22 *unknown*
10002cdc: 00 22 44 49 l.j 10893e00 <_end+0x88fdf0>
10002ce0: 56 21 22 00 *unknown*
10002ce4: 22 55 44 49 *unknown*
10002ce8: 56 21 22 00 *unknown*
10002cec: 22 55 4e 4b *unknown*
10002cf0: 4e 4f 57 4e *unknown*
10002cf4: 22 00 72 65 *unknown*
10002cf8: 63 75 72 73 *unknown*
10002cfc: 69 76 65 5f *unknown*
10002d00: 69 6e 74 20 *unknown*
10002d04: 3d 3d 20 30 *unknown*
10002d08: 00 0a 54 65 l.j 10297e9c <_end+0x293e8c>
10002d0c: 73 74 3a 0a *unknown*
10002d10: 00 31 2e 20 l.j 10c4e590 <_end+0xc4a580>
10002d14: 49 6e 69 74 *unknown*
10002d18: 69 61 6c 69 *unknown*
10002d1c: 73 65 64 20 *unknown*
10002d20: 64 61 74 61 *unknown*
10002d24: 0a 00 76 61 *unknown*
10002d28: 72 20 3d 3d *unknown*
10002d2c: 20 30 78 31 *unknown*
10002d30: 32 33 34 00 *unknown*
10002d34: 74 65 73 74 *unknown*
10002d38: 2e 63 00 75 *unknown*
10002d3c: 76 61 72 20 *unknown*
10002d40: 3d 3d 20 30 *unknown*
10002d44: 78 30 00 32 *unknown*
10002d48: 2e 20 4d 75 *unknown*
10002d4c: 6c 74 69 70 *unknown*
10002d50: 6c 79 0a 00 *unknown*
10002d54: 76 61 72 20 *unknown*
10002d58: 3d 3d 20 31 *unknown*
10002d5c: 33 39 38 30 *unknown*
10002d60: 00 76 61 72 l.j 11d9b328 <_end+0x1d97318>
10002d64: 20 3d 3d 20 *unknown*
10002d68: 2d 33 00 76 *unknown*
10002d6c: 61 72 20 3d *unknown*
10002d70: 3d 20 2d 36 *unknown*
10002d74: 35 00 76 61 *unknown*
10002d78: 72 20 3d 3d *unknown*
10002d7c: 20 28 2d 35 *unknown*
10002d80: 2a 2d 31 33 *unknown*
10002d84: 29 00 76 61 *unknown*
10002d88: 72 20 3d 3d *unknown*
10002d8c: 20 28 2d 31 *unknown*
10002d90: 32 33 31 32 *unknown*
10002d94: 33 34 31 35 *unknown*
10002d98: 2a 39 36 36 *unknown*
10002d9c: 34 35 36 33 *unknown*
10002da0: 29 00 33 2e *unknown*
10002da4: 20 44 69 76 *unknown*
10002da8: 69 64 65 0a *unknown*
10002dac: 00 76 61 72 l.j 11d9b374 <_end+0x1d97364>
10002db0: 20 3d 3d 20 *unknown*
10002db4: 32 37 39 36 *unknown*
10002db8: 00 76 61 72 l.j 11d9b380 <_end+0x1d97370>
10002dbc: 20 3d 3d 20 *unknown*
10002dc0: 39 36 00 76 *unknown*
10002dc4: 61 72 20 3d *unknown*
10002dc8: 3d 20 2d 36 *unknown*
10002dcc: 37 00 34 2e *unknown*
10002dd0: 20 53 68 69 *unknown*
10002dd4: 66 74 20 6c *unknown*
10002dd8: 65 66 74 0a *unknown*
10002ddc: 00 76 61 72 l.j 11d9b3a4 <_end+0x1d97394>
10002de0: 20 3d 3d 20 *unknown*
10002de4: 30 78 38 30 *unknown*
10002de8: 30 30 30 30 *unknown*
10002dec: 30 30 00 35 *unknown*
10002df0: 2e 20 53 68 *unknown*
10002df4: 69 66 74 20 *unknown*
10002df8: 72 69 67 68 *unknown*
10002dfc: 74 0a 00 75 *unknown*
10002e00: 76 61 72 20 *unknown*
10002e04: 3d 3d 20 30 *unknown*
10002e08: 78 34 30 30 *unknown*
10002e0c: 30 30 30 30 *unknown*
10002e10: 30 00 75 76 *unknown*
10002e14: 61 72 20 3d *unknown*
10002e18: 3d 20 30 78 *unknown*
10002e1c: 30 30 30 30 *unknown*
10002e20: 30 30 30 31 *unknown*
10002e24: 00 36 2e 20 l.j 10d8e6a4 <_end+0xd8a694>
10002e28: 53 68 69 66 *unknown*
10002e2c: 74 20 72 69 *unknown*
10002e30: 67 68 74 20 *unknown*
10002e34: 61 72 69 74 *unknown*
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