add dst:REG, src:EADDR ==> @text1( 0x3); mod_RM( dst->reg, src). ... dst:ACCU, src:DATA ==> @text1( 0x5); @text4( %$(src->expr)). ... dst:EADDR, src:DATA ==> small_RMconst(0x81, 0, dst, src). and dst:REG, src:EADDR ==> @text1( 0x23); mod_RM( dst->reg, src). ... dst:ACCU, src:DATA ==> @text1( 0x25); @text4( %$(src->expr)). call dst:lABEL ==> @text1( 0xe8); @reloc4( %$(dst->lab), %$(dst->off), PC_REL). ... dst:EADDR ==> @text1( 0xff); mod_RM( 2, dst). cdq ==> @text1(0x99). cmp dst:REG, src:EADDR ==> @text1( 0x3b); mod_RM( dst->reg, src). ... dst:ACCU, src:DATA ==> @text1( 0x3d); @text4( %$(src->expr)). ... dst:EADDR, src:DATA ==> small_RMconst(0x81, 7, dst, src). dec dst:REG ==> R53( 9, dst->reg). ... dst:EADDR ==> @text1( 0xff); mod_RM( 1, dst). div divisor:EADDR ==> @text1( 0xf7); mod_RM( 6, divisor). enter nm:DATA, nm1:DATA ==> @text1( 0xc8); @text2( %$(nm->expr)); @text1( %$(nm1->expr)). idiv divisor:EADDR ==> @text1( 0xf7); mod_RM( 7, divisor). imul mplier:EADDR ==> @text1( 0xf7); mod_RM( 5, mplier). inc dst:REG ==> R53( 8, dst->reg). ... dst:EADDR ==> @text1( 0xff); mod_RM( 0, dst). jb dst:ILB ==> @text1( 0x72); @text1( %dist( dst->lab)). ... dst:lABEL ==> @text1(0x0f); @text1(0x12); @reloc4( %$(dst->lab), %$(dst->off), PC_REL). je dst:ILB ==> @text1( 0x74); @text1( %dist( dst->lab)). ... dst:lABEL ==> @text1(0x0f); @text1(0x14); @reloc4( %$(dst->lab), %$(dst->off), PC_REL). jg dst:ILB ==> @text1( 0x7f); @text1( %dist( dst->lab)). ... dst:lABEL ==> @text1(0x0f); @text1(0x1f); @reloc4( %$(dst->lab), %$(dst->off), PC_REL). jge dst:ILB ==> @text1( 0x7d); @text1( %dist( dst->lab)). ... dst:lABEL ==> @text1(0x0f); @text1(0x1d); @reloc4( %$(dst->lab), %$(dst->off), PC_REL). jl dst:ILB ==> @text1( 0x7c); @text1( %dist( dst->lab)). ... dst:lABEL ==> @text1(0x0f); @text1(0x1c); @reloc4( %$(dst->lab), %$(dst->off), PC_REL). jle dst:ILB ==> @text1( 0x7e); @text1( %dist( dst->lab)). ... dst:lABEL ==> @text1(0x0f); @text1(0x1e); @reloc4( %$(dst->lab), %$(dst->off), PC_REL). jmp dst:ILB ==> @text1( 0xeb); @text1( %dist( dst->lab)). ... dst:lABEL ==> @text1( 0xe9); @reloc4( %$(dst->lab), %$(dst->off), PC_REL). jne dst:ILB ==> @text1( 0x75); @text1( %dist( dst->lab)). ... dst:lABEL ==> @text1(0x0f); @text1(0x85); @reloc4( %$(dst->lab), %$(dst->off), PC_REL). lea dst:REG, src:EADDR ==> @text1( 0x8d); mod_RM( dst->reg, src). loop dst:ILB ==> @text1( 0xe2); @text1( %dist( dst->lab)). mov dst:REG, src:EADDR ==> mv_RG_EADDR( dst, src). ... dst:REG, src:DATA ==> R53( 0x17, dst->reg); @text4(%$(src->expr)). ... dst:EADDR, src:REG ==> @text1( 0x89); mod_RM( src->reg, dst). ... dst:EADDR, src:DATA ==> @text1( 0xc7); mod_RM( 0, dst); @text4( %$(src->expr)). ... dst:EADDR, src:lABEL ==> @text1( 0xc7); mod_RM( 0, dst); @reloc4( %$(src->lab), %$(src->off), ABSOLUTE). movb dst:EADDR, src:REG ==> @text1( 0x88); mod_RM( src->reg, dst). movzx dst:REG, src:EADDR ==> @text1(0x0f); @text1(0xb7); mod_RM(dst->reg, src). mul mplier:EADDR ==> @text1( 0xf7); mod_RM( 4, mplier). neg dst:EADDR ==> @text1( 0xf7); mod_RM( 3, dst). not dst:EADDR ==> @text1( 0xf7); mod_RM( 2, dst). o16 ==> @text1(0x66). or dst:REG, src:EADDR ==> @text1( 0x0b); mod_RM( dst->reg, src). pop dst:REG ==> R53( 0xb, dst->reg). ... dst:EADDR ==> @text1( 0x8f); mod_RM( 0, dst). /* POP dst ==> @if ( push_waiting) mov_instr( dst, AX_oper); @assign( push_waiting, FALSE). @else pop_instr( dst). @fi. */ push src:REG ==> R53( 0xa, src->reg). ... src:DATA ==> small_const(0x68, src). ... src:lABEL ==> @emit1(0x68); @reloc4(%$(src->lab), %$(src->off), ABSOLUTE). ... src:EADDR ==> @text1( 0xff); mod_RM( 6, src). /* PUSH src ==> mov_instr( AX_oper, src); @assign( push_waiting, TRUE). */ ret ==> @text1( 0xc3). /* Always NEAR! */ leave ==> @text1( 0xc9). /* Always NEAR! */ rol dst:EADDR, src:REG_CL ==> @text1( 0xd3); mod_RM( 0, dst). ror dst:EADDR, src:REG_CL ==> @text1( 0xd3); mod_RM( 1, dst). sal dst:EADDR, src:REG_CL ==> @text1( 0xd3); mod_RM( 4, dst). sar dst:EADDR, src:REG_CL ==> @text1( 0xd3); mod_RM( 7, dst). ... dst:EADDR, src:DATA ==> @text1( 0xc1); mod_RM( 7, dst); @text1(%$(src->expr)). shl dst:EADDR, src:REG_CL ==> @text1(0xd3); mod_RM(4, dst). shr dst:EADDR, src:REG_CL ==> @text1( 0xd3); mod_RM( 5, dst). sub dst:REG, src:EADDR ==> @text1( 0x2b); mod_RM( dst->reg, src). ... dst:EADDR, src:DATA ==> small_RMconst(0x81, 5, dst, src). test dst:REG, src:EADDR ==> @text1( 0x85); mod_RM( dst->reg, src). xchg dst:EADDR, src:REG ==> @text1( 0x87); mod_RM( src->reg, dst). xor dst:REG, src:EADDR ==> @text1( 0x33); mod_RM( dst->reg, src).