#define RCSID5 "$Header$" settype( type ) int type; { oprtype[ operand ] = type; } short twolog( s ) short s; { short twopower = 0; while ( (s>>=1) != 0 ) twopower++; return( twopower ); } setmode( opr ) short opr; { mode = modetbl[ twolog( oprtype[opr] ) ] << 12; } chtype( opr, typerange ) short opr, typerange; /* Check type of 'opr' with given 'typerange' and ** set the global var 'mode'. */ { if ( (oprtype[opr] & typerange) != oprtype[opr] ) argerr(); else /* We have a permitted type for 'opr'. */ setmode( opr ); } chreg( opc, reg ) short opc, reg; { switch( opc ) { case 0xB10A: case 0x1B00: case 0x1900: /* R32 expected */ if (reg & 1) regerr(); break; case 0xB107: case 0x1A00: case 0x1800: /* R64 expected */ if (reg & 3) regerr(); break; } } ATYPE checkaddr( addr ) valu_t addr; /* Called by functions emit_ad() and branch(). */ { ATYPE addr_struct; addr_struct.seg = addr >> 16; addr_struct.off = addr & 0xFFFF; if ( addr_struct.seg < 0 ) addr_struct.seg = 0; #ifdef ASLD else fit(fit7(addr_struct.seg)); #endif return( addr_struct ); } emit_ad( ad_inf ) expr_t ad_inf; /* When the type of an operand is 'da' or 'x' this function ** emits the address. */ { short sm; ATYPE addr; addr = checkaddr( ad_inf.val ); /* Always the long format is emitted, because the binary ** will be downloaded into one z8000-segment with offset ** 0x0000 upto 0xFFFF,so the chance we can use the short ** format is very small. */ emit2( 1<<15 | addr.seg<<8 ); emit2( addr.off ); /* ??? relocation information ??? */ } ldmcode( wrd1, wrd2, num ) int wrd1, wrd2, num; { fit(fit4(num-1)); emit2( mode | wrd1 ); emit2( wrd2<<8 | num-1 ); if ( mode>>12 == 4 ) emit_ad( addr_inf ); } valu_t adjust( absval ) valu_t absval; { valu_t val = absval - DOTVAL - 2; if ( pass == PASS_2 && val > 0 ) val -= DOTGAIN; return( val ); } branch( opc, exp ) short opc; expr_t exp; /* This routine determines for the F3 format instructions whether the ** relative address is small enough to fit in normal code; If this is ** so normal code is emitted otherwise 'long' code is emitted contai- ** ning the direct address. */ { short longopc = 0, reladdr = 0, sm2, sm4; valu_t val; ATYPE addr; val = adjust(exp.val) >> 1; if ( (exp.typ & ~S_DOT) != DOTTYP ) sm2 = sm4 = 0; else { switch ( opc & 0xF000 ) { case DJNZ_: sm2 = fit7( -val ); reladdr = -val; break; case JR_: sm2 = fits8( val ); reladdr = low8( val ); longopc = 0x5E00 | (opc>>8 & 0xF); break; case CALR_: sm2 = fits12( -val ); reladdr = low12( -val ); longopc = 0x5F00; break; } sm4 = sm2 || fit8( (short)exp.val ); } switch ( opc & 0xF000 ) { case DJNZ_: fit( sm2 ); /* djnz must be short */ emit2( opc | reladdr ); break; case JR_: case CALR_: sm4 = small(sm4, 2); sm2 = small(sm2, 2); if ( sm2 ) emit2( opc | reladdr ); else /* replace by jp/call da */ { emit2( longopc ); addr = checkaddr( exp.val ); if ( sm4 ) /* short-offset */ emit2( addr.seg<<8 | addr.off ); else { emit2( 1<<15 | addr.seg<<8 ); emit2( addr.off ); } } } } ldrel( opc, exp ) short opc; expr_t exp; /* This routine determines for the F4 format instructions whether the ** address is within the same segment (meaning a relative address of ** less than 16 bits); If this is so normal code is emitted otherwise ** an error message is given. */ { if ( pass >= PASS_2 && (exp.typ & ~S_DOT) != DOTTYP ) serror( "relative too far" ); emit2( opc ); emit2( (short)adjust(exp.val) ); } shiftcode( w1, w2 ) int w1, w2; { switch( w1 & 0x0F04 ) { /* Remember: w2 negative means right shift ! */ case 0x200: /*byte*/ fit( w2>=-8 && w2<=8 ); break; case 0x300: /*word*/ fit( w2>=-16 && w2<=16 ); break; case 0x304: /*long*/ fit( w2>=-32 && w2<=32 ); break; } emit2( w1 ); emit2( w2 ); } argerr() { serror( "illegal operand" ); }