#include #include "as.h" #define DOLLAR '$' #define LEFT '(' #define RIGHT ')' /*****************************************************************************/ /* Een constraint-function */ cst( arg) struct t_operand *arg; { return( arg->type == CONST); } /*****************************************************************************/ /* decode_operand() recognizes the follwing assembly-argumnets: $cst : CONST register : REGISTER -(register) : AUTO_DEC (register)+ : AUTO_INC (register) : REG_DEF indx(register) : IND_REG label+offset : LABEL label[b|f] : L_ILB */ /* An assembly instruction has at most 5 arguments. * This is for the time being. */ char lab_buf[4][256], ind_buf[4][256], *match(), *lab(), *ind(), *end_arg(), *strchr(); static int n_index = -1; process_label( l) char *l; { } process_mnemonic( m) char *m; { } process_operand( arg, op) register char *arg; register struct t_operand *op; { register char *einde; if ( n_index == 3) n_index = 0; else n_index++; if ( arg[0] == '~' ) { op->type = CONST; op->cst = arg+1; } else if ( is_reg( arg, &(op->num)) ) { op->type = REGISTER; } else if ((arg[0]=='-') && (arg[1] == LEFT) && is_reg( arg+2,&(op->num))) { op->type = AUTO_DEC; } else if( ( arg[0] == LEFT) && is_reg( arg+1, &(op->num))) { arg = match( arg, RIGHT); if ( *(arg+1) == '+') op->type = AUTO_INC; else op->type = REG_DEF; } else { einde = end_arg( arg); if ( (*einde == 'b' || *einde == 'f') && isdigit( *(einde-1))) { *einde = '\0'; op->type = L_ILB; op->offset = "0"; op->lab = arg; } else if ( *einde == RIGHT) { op->type = IND_REG; arg = ind( ind_buf[ n_index], arg); if ( is_reg( arg+1, &(op->num))) op->indx = ind_buf[ n_index]; else fprint( STDERR, "unknown argtype %s\n", arg); } else { op->type = LABEL; arg = lab( lab_buf[ n_index], arg); op->lab = lab_buf[ n_index]; if ( *arg == '\0') op->offset = "0"; else op->offset = arg+1; } } } char *ind( buf, str) register char *buf, *str; /* Reads the index in front of '(register)'. */ { while ( *str != LEFT) *buf++ = *str++; *buf = '\0'; return( str); } char *lab( buf, str) register char *buf, *str; /* Reads 'label' in front of '+offset'. */ { while ( ( *str != '+') && ( *str != '\0')) *buf++ = *str++; *buf = '\0'; while ( isspace( *(buf-1)) ) { *(buf-1) = '\0'; buf--; } return( str); } int is_reg( str, num) register char *str; register int *num; /* Is "str" a 'registers' ? */ { if ( ( *str == 'a') && ( *(str+1) == 'p')) { *num = 12; return( TRUE); } else if ( ( *str == 'f') && ( *(str+1) == 'p')) { *num = 13; return( TRUE); } else if ( ( *str == 's') && ( *(str+1) == 'p')) { *num = 14; return( TRUE); } if ( *str == 'r') { if ( isdigit( *(str+1)) && isdigit( *(str+2))) { *num = ( *(str+1) - '0') * 10 + *(str+2) - '0'; return( TRUE); } else if ( isdigit( *(str+1))) { *num = *(str+1) - '0'; return( TRUE); } else return( FALSE); } return( FALSE); } char *end_arg( str) register char *str; /* Shift to the last character of "str". */ { while ( *str != '\0') str++; return( str-1); } char *match( str, sym) register char *str; char sym; { while ( *str != sym) str++; return( str); } /******************************************************************************/ char my_buf[256]; gen_operand( op) register struct t_operand *op; /* Generate object-code for a argument. */ { switch( op->type) { case CONST : if (isdigit(op->cst[0])) { long l, atol(); l = atol(op->cst); if (fit_6bits(l)) { @text1(%$(op->cst)); } else { @text1( 0x8f); @text4( %$(op->cst)); } } else { @__as_const(%$(op->cst)); } break; case REGISTER: @text1( %d(0x50 | op->num)); break; case REG_DEF : @text1( %d(0x60 | op->num)); break; case AUTO_DEC : @text1( %d(0x70 | op->num)); break; case AUTO_INC : @text1( %d(0x80 | op->num)); break; case IND_REG : if (isdigit(op->indx[0])) { long l, atol(); l = atol(op->indx); if (fit_byte(l)) { @text1( %d(0xa0 | op->num)); @text1( %$(op->indx)); } else if (fit_word(l)) { @text1( %d(0xc0 | op->num)); @text2( %$(op->indx)); } else { @text1( %d(0xe0 | op->num)); @text4( %$(op->indx)); } } else { @__as_indexed(%$(op->indx) , %d(op->num)); } break; case LABEL : @text1( 0xef); if ( strchr( op->lab, DOLLAR)) { @reloc4( %$(op->lab), %$(op->offset), PC_REL); } else if ( strchr( op->lab, LEFT)) { @reloc4( %$(op->lab), %$(op->offset), PC_REL); } else { sprint( my_buf, "\"%s\"", op->lab); @reloc4( %$(my_buf), %$(op->offset) , PC_REL); } break; case L_ILB : @text1( %dist( op->lab)); break; default : fprint( STDERR, "error"); } }