308 lines
15 KiB
Plaintext
308 lines
15 KiB
Plaintext
%{
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/////////////////////////////////////////////////////////////////////////
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// $Id$
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/////////////////////////////////////////////////////////////////////////
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#include <stdlib.h>
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#include <string.h>
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#ifdef WIN32
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#include <io.h>
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#define YY_NO_UNISTD_H
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#endif
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#include "debug.h"
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#if BX_DEBUGGER
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#include "parser.h"
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int bx_yyinput(char *buf, int max_size);
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#undef YY_INPUT
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#define YY_INPUT(buf, ret, max_size) (ret = bx_yyinput(buf, max_size))
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static char *lex_input_ptr = NULL;
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static unsigned lex_input_size = 0;
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#if BX_SUPPORT_X86_64
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#define LONG_MODE_8BL_REG(reg) \
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{ bxlval.uval = reg; return(BX_TOKEN_8BL_REG); }
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#define LONG_MODE_16B_REG(reg) \
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{ bxlval.uval = reg; return(BX_TOKEN_16B_REG); }
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#define LONG_MODE_32B_REG(reg) \
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{ bxlval.uval = reg; return(BX_TOKEN_32B_REG); }
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#define LONG_MODE_64B_REG(reg) \
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{ bxlval.uval = reg; return(BX_TOKEN_64B_REG); }
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#else
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#define LONG_MODE_8BL_REG(reg) \
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{ bxlval.sval = strdup(bxtext); return(BX_TOKEN_GENERIC); }
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#define LONG_MODE_16B_REG(reg) \
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{ bxlval.sval = strdup(bxtext); return(BX_TOKEN_GENERIC); }
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#define LONG_MODE_32B_REG(reg) \
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{ bxlval.sval = strdup(bxtext); return(BX_TOKEN_GENERIC); }
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#define LONG_MODE_64B_REG(reg) \
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{ bxlval.sval = strdup(bxtext); return(BX_TOKEN_GENERIC); }
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#endif
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#if BX_SUPPORT_EVEX
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#define EVEX_OPMASK_REG(reg) \
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{ bxlval.uval = reg; return(BX_TOKEN_OPMASK_REG); }
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#else
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#define EVEX_OPMASK_REG(reg) \
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{ bxlval.sval = strdup(bxtext); return(BX_TOKEN_GENERIC); }
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#endif
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%}
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%x EXAMINE
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%x DISASM
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%%
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<*>[ \t]+ ; // eat up whitespace
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set { bxlval.sval = strdup(bxtext); return(BX_TOKEN_SET); }
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on { bxlval.bval = 1; return(BX_TOKEN_ON); }
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off { bxlval.bval = 0; return(BX_TOKEN_OFF); }
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crc { bxlval.sval = strdup(bxtext); return(BX_TOKEN_CRC); }
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c |
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cont |
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continue { bxlval.sval = strdup(bxtext); return(BX_TOKEN_CONTINUE); }
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if { bxlval.sval = strdup(bxtext); return(BX_TOKEN_IF); }
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step |
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s { bxlval.sval = strdup(bxtext); return(BX_TOKEN_STEPN); }
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next |
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n |
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p { bxlval.sval = strdup(bxtext); return(BX_TOKEN_STEP_OVER); }
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blist { bxlval.sval = strdup(bxtext); return(BX_TOKEN_LIST_BREAK); }
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vb|vbreak { bxlval.sval = strdup(bxtext); return(BX_TOKEN_VBREAKPOINT); }
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lb|lbreak { bxlval.sval = strdup(bxtext); return(BX_TOKEN_LBREAKPOINT); }
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break |
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b|pb |
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pbreak { bxlval.sval = strdup(bxtext); return(BX_TOKEN_PBREAKPOINT); }
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info { bxlval.sval = strdup(bxtext); return(BX_TOKEN_INFO); }
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cr |
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creg { bxlval.sval = strdup(bxtext); return(BX_TOKEN_CONTROL_REGS); }
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dr |
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dreg { bxlval.sval = strdup(bxtext); return(BX_TOKEN_DEBUG_REGS); }
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sreg { bxlval.sval = strdup(bxtext); return(BX_TOKEN_SEGMENT_REGS); }
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r { bxlval.sval = strdup(bxtext); return(BX_TOKEN_R); }
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reg|regs |
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registers { bxlval.sval = strdup(bxtext); return(BX_TOKEN_REGS); }
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fp|fpu { bxlval.sval = strdup(bxtext); return(BX_TOKEN_FPU); }
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sse|xmm { bxlval.sval = strdup(bxtext); return(BX_TOKEN_XMM); }
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ymm { bxlval.sval = strdup(bxtext); return(BX_TOKEN_YMM); }
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zmm { bxlval.sval = strdup(bxtext); return(BX_TOKEN_ZMM); }
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avx { bxlval.sval = strdup(bxtext); return(BX_TOKEN_AVX); }
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mmx { bxlval.sval = strdup(bxtext); return(BX_TOKEN_MMX); }
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cpu { bxlval.sval = strdup(bxtext); return(BX_TOKEN_CPU); }
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idt { bxlval.sval = strdup(bxtext); return(BX_TOKEN_IDT); }
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ivt { bxlval.sval = strdup(bxtext); return(BX_TOKEN_IVT); }
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gdt { bxlval.sval = strdup(bxtext); return(BX_TOKEN_GDT); }
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ldt { bxlval.sval = strdup(bxtext); return(BX_TOKEN_LDT); }
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tss { bxlval.sval = strdup(bxtext); return(BX_TOKEN_TSS); }
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tab { bxlval.sval = strdup(bxtext); return(BX_TOKEN_TAB); }
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linux { bxlval.sval = strdup(bxtext); return(BX_TOKEN_LINUX); }
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delete |
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del |
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d { bxlval.sval = strdup(bxtext); return(BX_TOKEN_DEL_BREAKPOINT); }
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bpe { bxlval.sval = strdup(bxtext); return(BX_TOKEN_ENABLE_BREAKPOINT); }
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bpd { bxlval.sval = strdup(bxtext); return(BX_TOKEN_DISABLE_BREAKPOINT); }
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quit |
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exit |
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q { bxlval.sval = strdup(bxtext); return(BX_TOKEN_QUIT); }
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x |
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xp { BEGIN(EXAMINE); bxlval.sval = strdup(bxtext); return(BX_TOKEN_EXAMINE); }
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restore { bxlval.sval = strdup(bxtext); return(BX_TOKEN_RESTORE); }
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writemem { bxlval.sval = strdup(bxtext); return(BX_TOKEN_WRITEMEM); }
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setpmem { bxlval.sval = strdup(bxtext); return(BX_TOKEN_SETPMEM); }
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query { bxlval.sval = strdup(bxtext); return(BX_TOKEN_QUERY); }
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pending { bxlval.sval = strdup(bxtext); return(BX_TOKEN_PENDING); }
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take { bxlval.sval = strdup(bxtext); return(BX_TOKEN_TAKE); }
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dma { bxlval.sval = strdup(bxtext); return(BX_TOKEN_DMA); }
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irq { bxlval.sval = strdup(bxtext); return(BX_TOKEN_IRQ); }
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smi { bxlval.sval = strdup(bxtext); return(BX_TOKEN_SMI); }
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nmi { bxlval.sval = strdup(bxtext); return(BX_TOKEN_NMI); }
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tlb { bxlval.sval = strdup(bxtext); return(BX_TOKEN_TLB); }
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u |
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disasm { BEGIN(DISASM); bxlval.sval = strdup(bxtext); return(BX_TOKEN_DISASM); }
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hex { bxlval.sval = strdup(bxtext); return(BX_TOKEN_HEX); }
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instrument { bxlval.sval = strdup(bxtext); return(BX_TOKEN_INSTRUMENT); }
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stop { bxlval.sval = strdup(bxtext); return(BX_TOKEN_STOP); }
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doit { bxlval.sval = strdup(bxtext); return(BX_TOKEN_DOIT); }
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trace { bxlval.sval = strdup(bxtext); return(BX_TOKEN_TRACE); }
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trace-reg { bxlval.sval = strdup(bxtext); return(BX_TOKEN_TRACEREG); }
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trace-mem { bxlval.sval = strdup(bxtext); return(BX_TOKEN_TRACEMEM); }
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switch-mode { bxlval.sval = strdup(bxtext); return(BX_TOKEN_SWITCH_MODE); }
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size { bxlval.sval = strdup(bxtext); return(BX_TOKEN_SIZE); }
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ptime { bxlval.sval = strdup(bxtext); return(BX_TOKEN_PTIME); }
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sb { bxlval.sval = strdup(bxtext); return(BX_TOKEN_TIMEBP); }
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sba { bxlval.sval = strdup(bxtext); return(BX_TOKEN_TIMEBP_ABSOLUTE); }
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modebp { bxlval.sval = strdup(bxtext); return(BX_TOKEN_MODEBP); }
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vmexitbp { bxlval.sval = strdup(bxtext); return(BX_TOKEN_VMEXITBP); }
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print-stack { bxlval.sval = strdup(bxtext); return(BX_TOKEN_PRINT_STACK); }
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bt { bxlval.sval = strdup(bxtext); return(BX_TOKEN_BT); }
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watch { bxlval.sval = strdup(bxtext); return(BX_TOKEN_WATCH); }
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unwatch { bxlval.sval = strdup(bxtext); return(BX_TOKEN_UNWATCH); }
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read { bxlval.sval = strdup(bxtext); return(BX_TOKEN_READ); }
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w|write { bxlval.sval = strdup(bxtext); return(BX_TOKEN_WRITE); }
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show { bxlval.sval = strdup(bxtext); return(BX_TOKEN_SHOW); }
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ldsym { bxlval.sval = strdup(bxtext); return(BX_TOKEN_LOAD_SYMBOLS); }
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symbols { bxlval.sval = strdup(bxtext); return(BX_TOKEN_SYMBOLS); }
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slist { bxlval.sval = strdup(bxtext); return(BX_TOKEN_LIST_SYMBOLS); }
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global { bxlval.sval = strdup(bxtext); return(BX_TOKEN_GLOBAL); }
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where { bxlval.sval = strdup(bxtext); return(BX_TOKEN_WHERE); }
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print-string { bxlval.sval = strdup(bxtext); return(BX_TOKEN_PRINT_STRING); }
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page { bxlval.sval = strdup(bxtext); return(BX_TOKEN_PAGE); }
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device { bxlval.sval = strdup(bxtext); return(BX_TOKEN_DEVICE); }
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all { bxlval.sval = strdup(bxtext); return(BX_TOKEN_ALL); }
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al { bxlval.uval = BX_8BIT_REG_AL; return(BX_TOKEN_8BL_REG);}
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bl { bxlval.uval = BX_8BIT_REG_BL; return(BX_TOKEN_8BL_REG);}
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cl { bxlval.uval = BX_8BIT_REG_CL; return(BX_TOKEN_8BL_REG);}
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dl { bxlval.uval = BX_8BIT_REG_DL; return(BX_TOKEN_8BL_REG);}
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sil { LONG_MODE_8BL_REG(BX_8BIT_REG_SIL); }
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dil { LONG_MODE_8BL_REG(BX_8BIT_REG_DIL); }
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spl { LONG_MODE_8BL_REG(BX_8BIT_REG_SPL); }
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bpl { LONG_MODE_8BL_REG(BX_8BIT_REG_BPL); }
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r8b { LONG_MODE_8BL_REG(BX_8BIT_REG_R8); }
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r9b { LONG_MODE_8BL_REG(BX_8BIT_REG_R9); }
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r10b { LONG_MODE_8BL_REG(BX_8BIT_REG_R10); }
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r11b { LONG_MODE_8BL_REG(BX_8BIT_REG_R11); }
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r12b { LONG_MODE_8BL_REG(BX_8BIT_REG_R12); }
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r13b { LONG_MODE_8BL_REG(BX_8BIT_REG_R13); }
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r14b { LONG_MODE_8BL_REG(BX_8BIT_REG_R14); }
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r15b { LONG_MODE_8BL_REG(BX_8BIT_REG_R15); }
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ah { bxlval.uval = BX_8BIT_REG_AH; return(BX_TOKEN_8BH_REG);}
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bh { bxlval.uval = BX_8BIT_REG_BH; return(BX_TOKEN_8BH_REG);}
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ch { bxlval.uval = BX_8BIT_REG_CH; return(BX_TOKEN_8BH_REG);}
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dh { bxlval.uval = BX_8BIT_REG_DH; return(BX_TOKEN_8BH_REG);}
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ax { bxlval.uval = BX_16BIT_REG_AX; return(BX_TOKEN_16B_REG);}
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bx { bxlval.uval = BX_16BIT_REG_BX; return(BX_TOKEN_16B_REG);}
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cx { bxlval.uval = BX_16BIT_REG_CX; return(BX_TOKEN_16B_REG);}
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dx { bxlval.uval = BX_16BIT_REG_DX; return(BX_TOKEN_16B_REG);}
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si { bxlval.uval = BX_16BIT_REG_SI; return(BX_TOKEN_16B_REG);}
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di { bxlval.uval = BX_16BIT_REG_DI; return(BX_TOKEN_16B_REG);}
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bp { bxlval.uval = BX_16BIT_REG_BP; return(BX_TOKEN_16B_REG);}
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sp { bxlval.uval = BX_16BIT_REG_SP; return(BX_TOKEN_16B_REG);}
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r8w { LONG_MODE_16B_REG(BX_16BIT_REG_R8); }
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r9w { LONG_MODE_16B_REG(BX_16BIT_REG_R9); }
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r10w { LONG_MODE_16B_REG(BX_16BIT_REG_R10); }
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r11w { LONG_MODE_16B_REG(BX_16BIT_REG_R11); }
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r12w { LONG_MODE_16B_REG(BX_16BIT_REG_R12); }
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r13w { LONG_MODE_16B_REG(BX_16BIT_REG_R13); }
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r14w { LONG_MODE_16B_REG(BX_16BIT_REG_R14); }
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r15w { LONG_MODE_16B_REG(BX_16BIT_REG_R15); }
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eax { bxlval.uval = BX_32BIT_REG_EAX; return(BX_TOKEN_32B_REG);}
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ebx { bxlval.uval = BX_32BIT_REG_EBX; return(BX_TOKEN_32B_REG);}
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ecx { bxlval.uval = BX_32BIT_REG_ECX; return(BX_TOKEN_32B_REG);}
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edx { bxlval.uval = BX_32BIT_REG_EDX; return(BX_TOKEN_32B_REG);}
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esi { bxlval.uval = BX_32BIT_REG_ESI; return(BX_TOKEN_32B_REG);}
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edi { bxlval.uval = BX_32BIT_REG_EDI; return(BX_TOKEN_32B_REG);}
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ebp { bxlval.uval = BX_32BIT_REG_EBP; return(BX_TOKEN_32B_REG);}
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esp { bxlval.uval = BX_32BIT_REG_ESP; return(BX_TOKEN_32B_REG);}
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r8d { LONG_MODE_32B_REG(BX_32BIT_REG_R8); }
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r9d { LONG_MODE_32B_REG(BX_32BIT_REG_R9); }
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r10d { LONG_MODE_32B_REG(BX_32BIT_REG_R10); }
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r11d { LONG_MODE_32B_REG(BX_32BIT_REG_R11); }
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r12d { LONG_MODE_32B_REG(BX_32BIT_REG_R12); }
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r13d { LONG_MODE_32B_REG(BX_32BIT_REG_R13); }
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r14d { LONG_MODE_32B_REG(BX_32BIT_REG_R14); }
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r15d { LONG_MODE_32B_REG(BX_32BIT_REG_R15); }
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rax { LONG_MODE_64B_REG(BX_64BIT_REG_RAX); }
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rbx { LONG_MODE_64B_REG(BX_64BIT_REG_RBX); }
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rcx { LONG_MODE_64B_REG(BX_64BIT_REG_RCX); }
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rdx { LONG_MODE_64B_REG(BX_64BIT_REG_RDX); }
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rsi { LONG_MODE_64B_REG(BX_64BIT_REG_RSI); }
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rdi { LONG_MODE_64B_REG(BX_64BIT_REG_RDI); }
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rsp { LONG_MODE_64B_REG(BX_64BIT_REG_RSP); }
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rbp { LONG_MODE_64B_REG(BX_64BIT_REG_RBP); }
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r8 { LONG_MODE_64B_REG(BX_64BIT_REG_R8); }
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r9 { LONG_MODE_64B_REG(BX_64BIT_REG_R9); }
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r10 { LONG_MODE_64B_REG(BX_64BIT_REG_R10); }
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r11 { LONG_MODE_64B_REG(BX_64BIT_REG_R11); }
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r12 { LONG_MODE_64B_REG(BX_64BIT_REG_R12); }
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r13 { LONG_MODE_64B_REG(BX_64BIT_REG_R13); }
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r14 { LONG_MODE_64B_REG(BX_64BIT_REG_R14); }
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r15 { LONG_MODE_64B_REG(BX_64BIT_REG_R15); }
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ip { return(BX_TOKEN_REG_IP); }
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eip { return(BX_TOKEN_REG_EIP);}
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rip { return(BX_TOKEN_REG_RIP);}
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cs { bxlval.uval = BX_SEG_REG_CS; return(BX_TOKEN_CS); }
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es { bxlval.uval = BX_SEG_REG_ES; return(BX_TOKEN_ES); }
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ss { bxlval.uval = BX_SEG_REG_SS; return(BX_TOKEN_SS); }
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ds { bxlval.uval = BX_SEG_REG_DS; return(BX_TOKEN_DS); }
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fs { bxlval.uval = BX_SEG_REG_FS; return(BX_TOKEN_FS); }
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gs { bxlval.uval = BX_SEG_REG_GS; return(BX_TOKEN_GS); }
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k[0-7] { EVEX_OPMASK_REG(bxtext[1] - '0'); }
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flags|eflags { bxlval.uval = 0; return (BX_TOKEN_FLAGS); }
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xml { bxlval.sval = strdup(bxtext); return(BX_TOKEN_XML); }
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h|help { bxlval.sval = strdup(bxtext); return(BX_TOKEN_HELP); }
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\? |
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calc { bxlval.sval = strdup(bxtext); return(BX_TOKEN_CALC); }
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<EXAMINE>\/[0-9]+ { BEGIN(INITIAL); bxlval.sval = strdup(bxtext); return(BX_TOKEN_XFORMAT); }
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<EXAMINE>\/[0-9]*[mxduotcsibhwg]+ { BEGIN(INITIAL); bxlval.sval = strdup(bxtext); return(BX_TOKEN_XFORMAT); }
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<DISASM>\/[0-9]+ { BEGIN(INITIAL); bxlval.sval = strdup(bxtext); return(BX_TOKEN_DISFORMAT); }
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"+" { return ('+'); }
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"-" { return ('-'); }
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"*" { return ('*'); }
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"/" { return ('/'); }
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">>" { return (BX_TOKEN_RSHIFT); }
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"<<" { return (BX_TOKEN_LSHIFT); }
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"==" { return (BX_TOKEN_EQ); }
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"!=" { return (BX_TOKEN_NE); }
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"<=" { return (BX_TOKEN_LE); }
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">=" { return (BX_TOKEN_GE); }
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">" { return ('>'); }
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"<" { return ('<'); }
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"&" { return ('&'); }
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"|" { return ('|'); }
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"^" { return ('^'); }
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"!" { return ('!'); }
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"@" { return ('@'); }
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"(" { return ('('); }
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")" { return (')'); }
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\'([^\\\'\n]|(\\.))*\' | /* throw away leading and trailing \" */
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\"([^\\\"\n]|(\\.))*\" { bxlval.sval = strdup(bxtext+1); bxlval.sval[strlen(bxlval.sval)-1] = 0; return(BX_TOKEN_STRING); }
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0x[0-9a-fA-F]+ { bxlval.uval = strtoull(bxtext, NULL, 16); return(BX_TOKEN_NUMERIC); }
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0[0-7]+ { bxlval.uval = strtoull(bxtext, NULL, 8); return(BX_TOKEN_NUMERIC); }
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[0-9]+ { bxlval.uval = strtoull(bxtext, NULL, 10); return(BX_TOKEN_NUMERIC); }
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$[a-zA-Z_][a-zA-Z0-9_]* { bxlval.sval = strdup(bxtext); return(BX_TOKEN_SYMBOLNAME); }
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[A-Za-z_][A-Za-z0-9_]* { bxlval.sval = strdup(bxtext); return(BX_TOKEN_GENERIC); }
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<*>";" { return ('\n'); }
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<*>\n { return ('\n'); }
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[#][^\n]* ; // eat up comments '//'
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. { return(bxtext[0]); }
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<EXAMINE,DISASM>. { BEGIN(INITIAL); unput(*bxtext); }
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%%
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int
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bx_yyinput(char *buf, int max_size)
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{
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int len;
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if (lex_input_size == 0) {
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fprintf(stderr, "lex: no characters in string input buffer.\n");
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exit(1);
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}
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len = strlen(lex_input_ptr) + 1;
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if (len > max_size)
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len = max_size;
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memcpy(buf, lex_input_ptr, len);
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return(len);
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}
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void
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bx_add_lex_input(char *buf)
|
|
{
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lex_input_ptr = buf;
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|
lex_input_size = strlen(buf);
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|
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// Since we're parsing from strings, flush out
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|
// all current buffer state, so the next read
|
|
// requests from yyinput
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|
|
bx_flush_buffer( YY_CURRENT_BUFFER );
|
|
}
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#endif /* if BX_DEBUGGER */
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