static int Sweet16Reg (const StrBuf* Id)
/* Check if the given identifier is a sweet16 register. Return -1 if this is
** not the case, return the register number otherwise.
*/
{
unsigned RegNum;
char Check;
if (SB_GetLen (Id) < 2) {
return -1;
}
if (toupper (SB_AtUnchecked (Id, 0)) != 'R') {
return -1;
}
if (!IsDigit (SB_AtUnchecked (Id, 1))) {
return -1;
}
if (sscanf (SB_GetConstBuf (Id)+1, "%u%c", &RegNum, &Check) != 1 || RegNum > 15) {
/* Invalid register */
return -1;
}
/* The register number is valid */
return (int) RegNum;
}
static void GetInputChar (void)
/* Read the next character from the input stream and make CurC and NextC
* valid. If end of line is reached, both are set to NUL, no more lines
* are read by this function.
*/
{
/* Drop all pushed fragments that don't have data left */
while (SB_GetIndex (Line) >= SB_GetLen (Line)) {
/* Cannot read more from this line, check next line on stack if any */
if (CollCount (&InputStack) == 0) {
/* This is THE line */
break;
}
FreeStrBuf (Line);
Line = CollPop (&InputStack);
}
/* Now get the next characters from the line */
if (SB_GetIndex (Line) >= SB_GetLen (Line)) {
CurC = NextC = '\0';
} else {
CurC = SB_AtUnchecked (Line, SB_GetIndex (Line));
if (SB_GetIndex (Line) + 1 < SB_GetLen (Line)) {
/* NextC comes from this fragment */
NextC = SB_AtUnchecked (Line, SB_GetIndex (Line) + 1);
} else {
/* NextC comes from next fragment */
if (CollCount (&InputStack) > 0) {
NextC = ' ';
} else {
NextC = '\0';
}
}
}
}
void NewListingLine (const StrBuf* Line, unsigned char File, unsigned char Depth)
/* Create a new ListLine struct and insert it */
{
/* Store only if listing is enabled */
if (SB_GetLen (&ListingName) > 0) {
ListLine* L;
/* Get the length of the line */
unsigned Len = SB_GetLen (Line);
/* Ignore trailing newlines */
while (Len > 0 && SB_AtUnchecked (Line, Len-1) == '\n') {
--Len;
}
/* Allocate memory */
L = xmalloc (sizeof (ListLine) + Len);
/* Initialize the fields. */
L->Next = 0;
L->FragList = 0;
L->FragLast = 0;
L->PC = GetPC ();
L->Reloc = GetRelocMode ();
L->File = File;
L->Depth = Depth;
L->Output = (ListingEnabled > 0);
L->ListBytes = (unsigned char) ListBytes;
memcpy (L->Line, SB_GetConstBuf (Line), Len);
L->Line[Len] = '\0';
/* Insert the line into the list of lines */
if (LineList == 0) {
LineList = L;
} else {
LineLast->Next = L;
}
LineLast = L;
}
}
static void FuncIdent (void)
/* Handle the .IDENT function */
{
StrBuf Buf = STATIC_STRBUF_INITIALIZER;
token_t Id;
unsigned I;
/* Skip it */
NextTok ();
/* Left paren expected */
ConsumeLParen ();
/* The function expects a string argument */
if (!LookAtStrCon ()) {
return;
}
/* Check that the string contains a valid identifier. While doing so,
* determine if it is a cheap local, or global one.
*/
SB_Reset (&CurTok.SVal);
/* Check for a cheap local symbol */
if (SB_Peek (&CurTok.SVal) == LocalStart) {
SB_Skip (&CurTok.SVal);
Id = TOK_LOCAL_IDENT;
} else {
Id = TOK_IDENT;
}
/* Next character must be a valid identifier start */
if (!IsIdStart (SB_Get (&CurTok.SVal))) {
NoIdent ();
return;
}
for (I = SB_GetIndex (&CurTok.SVal); I < SB_GetLen (&CurTok.SVal); ++I) {
if (!IsIdChar (SB_AtUnchecked (&CurTok.SVal, I))) {
NoIdent ();
return;
}
}
if (IgnoreCase) {
UpcaseSVal ();
}
/* If anything is ok, save and skip the string. Check that the next token
* is a right paren, then replace the token by an identifier token.
*/
SB_Copy (&Buf, &CurTok.SVal);
NextTok ();
if (CurTok.Tok != TOK_RPAREN) {
Error ("`)' expected");
} else {
CurTok.Tok = Id;
SB_Copy (&CurTok.SVal, &Buf);
SB_Terminate (&CurTok.SVal);
}
/* Free buffer memory */
SB_Done (&Buf);
}
void NextRawTok (void)
/* Read the next raw token from the input stream */
{
Macro* M;
/* If we've a forced end of assembly, don't read further */
if (ForcedEnd) {
CurTok.Tok = TOK_EOF;
return;
}
Restart:
/* Check if we have tokens from another input source */
if (InputFromStack ()) {
if (CurTok.Tok == TOK_IDENT && (M = FindDefine (&CurTok.SVal)) != 0) {
/* This is a define style macro - expand it */
MacExpandStart (M);
goto Restart;
}
return;
}
Again:
/* Skip whitespace, remember if we had some */
if ((CurTok.WS = IsBlank (C)) != 0) {
do {
NextChar ();
} while (IsBlank (C));
}
/* Mark the file position of the next token */
Source->Func->MarkStart (Source);
/* Clear the string attribute */
SB_Clear (&CurTok.SVal);
/* Generate line info for the current token */
NewAsmLine ();
/* Hex number or PC symbol? */
if (C == '$') {
NextChar ();
/* Hex digit must follow or DollarIsPC must be enabled */
if (!IsXDigit (C)) {
if (DollarIsPC) {
CurTok.Tok = TOK_PC;
return;
} else {
Error ("Hexadecimal digit expected");
}
}
/* Read the number */
CurTok.IVal = 0;
while (1) {
if (UnderlineInNumbers && C == '_') {
while (C == '_') {
NextChar ();
}
if (!IsXDigit (C)) {
Error ("Number may not end with underline");
}
}
if (IsXDigit (C)) {
if (CurTok.IVal & 0xF0000000) {
Error ("Overflow in hexadecimal number");
CurTok.IVal = 0;
}
CurTok.IVal = (CurTok.IVal << 4) + DigitVal (C);
NextChar ();
} else {
break;
}
}
/* This is an integer constant */
CurTok.Tok = TOK_INTCON;
return;
}
/* Binary number? */
if (C == '%') {
NextChar ();
/* 0 or 1 must follow */
if (!IsBDigit (C)) {
Error ("Binary digit expected");
}
/* Read the number */
CurTok.IVal = 0;
while (1) {
if (UnderlineInNumbers && C == '_') {
while (C == '_') {
NextChar ();
}
if (!IsBDigit (C)) {
Error ("Number may not end with underline");
}
}
if (IsBDigit (C)) {
if (CurTok.IVal & 0x80000000) {
Error ("Overflow in binary number");
CurTok.IVal = 0;
}
CurTok.IVal = (CurTok.IVal << 1) + DigitVal (C);
NextChar ();
} else {
break;
}
}
/* This is an integer constant */
CurTok.Tok = TOK_INTCON;
return;
}
/* Number? */
if (IsDigit (C)) {
char Buf[16];
unsigned Digits;
unsigned Base;
unsigned I;
long Max;
unsigned DVal;
/* Ignore leading zeros */
while (C == '0') {
NextChar ();
}
/* Read the number into Buf counting the digits */
Digits = 0;
while (1) {
if (UnderlineInNumbers && C == '_') {
while (C == '_') {
NextChar ();
}
if (!IsXDigit (C)) {
Error ("Number may not end with underline");
}
}
if (IsXDigit (C)) {
/* Buf is big enough to allow any decimal and hex number to
** overflow, so ignore excess digits here, they will be detected
** when we convert the value.
*/
if (Digits < sizeof (Buf)) {
Buf[Digits++] = C;
}
NextChar ();
} else {
break;
}
}
/* Allow zilog/intel style hex numbers with a 'h' suffix */
if (C == 'h' || C == 'H') {
NextChar ();
Base = 16;
Max = 0xFFFFFFFFUL / 16;
} else {
Base = 10;
Max = 0xFFFFFFFFUL / 10;
}
/* Convert the number using the given base */
CurTok.IVal = 0;
for (I = 0; I < Digits; ++I) {
if (CurTok.IVal > Max) {
Error ("Number out of range");
CurTok.IVal = 0;
break;
}
DVal = DigitVal (Buf[I]);
if (DVal >= Base) {
Error ("Invalid digits in number");
CurTok.IVal = 0;
break;
}
CurTok.IVal = (CurTok.IVal * Base) + DVal;
}
/* This is an integer constant */
CurTok.Tok = TOK_INTCON;
return;
}
/* Control command? */
if (C == '.') {
/* Remember and skip the dot */
NextChar ();
/* Check if it's just a dot */
if (!IsIdStart (C)) {
/* Just a dot */
CurTok.Tok = TOK_DOT;
} else {
/* Read the remainder of the identifier */
SB_AppendChar (&CurTok.SVal, '.');
ReadIdent ();
/* Dot keyword, search for it */
CurTok.Tok = FindDotKeyword ();
if (CurTok.Tok == TOK_NONE) {
/* Not found */
if (!LeadingDotInIdents) {
/* Invalid pseudo instruction */
Error ("'%m%p' is not a recognized control command", &CurTok.SVal);
goto Again;
}
/* An identifier with a dot. Check if it's a define style
** macro.
*/
if ((M = FindDefine (&CurTok.SVal)) != 0) {
/* This is a define style macro - expand it */
MacExpandStart (M);
goto Restart;
}
/* Just an identifier with a dot */
CurTok.Tok = TOK_IDENT;
}
}
return;
}
/* Indirect op for sweet16 cpu. Must check this before checking for local
** symbols, because these may also use the '@' symbol.
*/
if (CPU == CPU_SWEET16 && C == '@') {
NextChar ();
CurTok.Tok = TOK_AT;
return;
}
/* Local symbol? */
if (C == LocalStart) {
/* Read the identifier. */
ReadIdent ();
/* Start character alone is not enough */
if (SB_GetLen (&CurTok.SVal) == 1) {
Error ("Invalid cheap local symbol");
goto Again;
}
/* A local identifier */
CurTok.Tok = TOK_LOCAL_IDENT;
return;
}
/* Identifier or keyword? */
if (IsIdStart (C)) {
/* Read the identifier */
ReadIdent ();
/* Check for special names. Bail out if we have identified the type of
** the token. Go on if the token is an identifier.
*/
switch (SB_GetLen (&CurTok.SVal)) {
case 1:
switch (toupper (SB_AtUnchecked (&CurTok.SVal, 0))) {
case 'A':
if (C == ':') {
NextChar ();
CurTok.Tok = TOK_OVERRIDE_ABS;
} else {
CurTok.Tok = TOK_A;
}
return;
case 'F':
if (C == ':') {
NextChar ();
CurTok.Tok = TOK_OVERRIDE_FAR;
return;
}
break;
case 'S':
if ((CPU == CPU_4510) || (CPU == CPU_65816)) {
CurTok.Tok = TOK_S;
return;
}
break;
case 'X':
CurTok.Tok = TOK_X;
return;
case 'Y':
CurTok.Tok = TOK_Y;
return;
case 'Z':
if (C == ':') {
NextChar ();
CurTok.Tok = TOK_OVERRIDE_ZP;
return;
} else {
if (CPU == CPU_4510) {
CurTok.Tok = TOK_Z;
return;
}
}
break;
default:
break;
}
break;
case 2:
if ((CPU == CPU_4510) &&
(toupper (SB_AtUnchecked (&CurTok.SVal, 0)) == 'S') &&
(toupper (SB_AtUnchecked (&CurTok.SVal, 1)) == 'P')) {
CurTok.Tok = TOK_S;
return;
}
/* FALL THROUGH */
default:
if (CPU == CPU_SWEET16 &&
(CurTok.IVal = Sweet16Reg (&CurTok.SVal)) >= 0) {
/* A sweet16 register number in sweet16 mode */
CurTok.Tok = TOK_REG;
return;
}
}
/* Check for define style macro */
if ((M = FindDefine (&CurTok.SVal)) != 0) {
/* Macro - expand it */
MacExpandStart (M);
goto Restart;
} else {
/* An identifier */
CurTok.Tok = TOK_IDENT;
}
return;
}
/* Ok, let's do the switch */
CharAgain:
switch (C) {
case '+':
NextChar ();
CurTok.Tok = TOK_PLUS;
return;
case '-':
NextChar ();
CurTok.Tok = TOK_MINUS;
return;
case '/':
NextChar ();
if (C != '*') {
CurTok.Tok = TOK_DIV;
} else if (CComments) {
/* Remember the position, then skip the '*' */
Collection LineInfos = STATIC_COLLECTION_INITIALIZER;
GetFullLineInfo (&LineInfos);
NextChar ();
do {
while (C != '*') {
if (C == EOF) {
LIError (&LineInfos, "Unterminated comment");
ReleaseFullLineInfo (&LineInfos);
DoneCollection (&LineInfos);
goto CharAgain;
}
NextChar ();
}
NextChar ();
} while (C != '/');
NextChar ();
ReleaseFullLineInfo (&LineInfos);
DoneCollection (&LineInfos);
goto Again;
}
return;
case '*':
NextChar ();
CurTok.Tok = TOK_MUL;
return;
case '^':
NextChar ();
CurTok.Tok = TOK_XOR;
return;
case '&':
NextChar ();
if (C == '&') {
NextChar ();
CurTok.Tok = TOK_BOOLAND;
} else {
CurTok.Tok = TOK_AND;
}
return;
case '|':
NextChar ();
if (C == '|') {
NextChar ();
CurTok.Tok = TOK_BOOLOR;
} else {
CurTok.Tok = TOK_OR;
}
return;
case ':':
NextChar ();
switch (C) {
case ':':
NextChar ();
CurTok.Tok = TOK_NAMESPACE;
break;
case '-':
CurTok.IVal = 0;
do {
--CurTok.IVal;
NextChar ();
} while (C == '-');
CurTok.Tok = TOK_ULABEL;
break;
case '+':
CurTok.IVal = 0;
do {
++CurTok.IVal;
NextChar ();
} while (C == '+');
CurTok.Tok = TOK_ULABEL;
break;
case '=':
NextChar ();
CurTok.Tok = TOK_ASSIGN;
break;
default:
CurTok.Tok = TOK_COLON;
break;
}
return;
case ',':
NextChar ();
CurTok.Tok = TOK_COMMA;
return;
case ';':
NextChar ();
while (C != '\n' && C != EOF) {
NextChar ();
}
goto CharAgain;
case '#':
NextChar ();
CurTok.Tok = TOK_HASH;
return;
case '(':
NextChar ();
CurTok.Tok = TOK_LPAREN;
return;
case ')':
NextChar ();
CurTok.Tok = TOK_RPAREN;
return;
case '[':
NextChar ();
CurTok.Tok = TOK_LBRACK;
return;
case ']':
NextChar ();
CurTok.Tok = TOK_RBRACK;
return;
case '{':
NextChar ();
CurTok.Tok = TOK_LCURLY;
return;
case '}':
NextChar ();
CurTok.Tok = TOK_RCURLY;
return;
case '<':
NextChar ();
if (C == '=') {
NextChar ();
CurTok.Tok = TOK_LE;
} else if (C == '<') {
NextChar ();
CurTok.Tok = TOK_SHL;
} else if (C == '>') {
NextChar ();
CurTok.Tok = TOK_NE;
} else {
CurTok.Tok = TOK_LT;
}
return;
case '=':
NextChar ();
CurTok.Tok = TOK_EQ;
return;
case '!':
NextChar ();
CurTok.Tok = TOK_BOOLNOT;
return;
case '>':
NextChar ();
if (C == '=') {
NextChar ();
CurTok.Tok = TOK_GE;
} else if (C == '>') {
NextChar ();
CurTok.Tok = TOK_SHR;
} else {
CurTok.Tok = TOK_GT;
}
return;
case '~':
NextChar ();
CurTok.Tok = TOK_NOT;
return;
case '\'':
/* Hack: If we allow ' as terminating character for strings, read
** the following stuff as a string, and check for a one character
** string later.
*/
if (LooseStringTerm) {
ReadStringConst ('\'');
if (SB_GetLen (&CurTok.SVal) == 1) {
CurTok.IVal = SB_AtUnchecked (&CurTok.SVal, 0);
CurTok.Tok = TOK_CHARCON;
} else {
CurTok.Tok = TOK_STRCON;
}
} else {
/* Always a character constant */
NextChar ();
if (C == EOF || IsControl (C)) {
Error ("Illegal character constant");
goto CharAgain;
}
CurTok.IVal = C;
CurTok.Tok = TOK_CHARCON;
NextChar ();
if (C != '\'') {
if (!MissingCharTerm) {
Error ("Illegal character constant");
}
} else {
NextChar ();
}
}
return;
case '\"':
ReadStringConst ('\"');
CurTok.Tok = TOK_STRCON;
return;
case '\\':
/* Line continuation? */
if (LineCont) {
NextChar ();
/* Next char should be a LF, if not, will result in an error later */
if (C == '\n') {
/* Ignore the '\n' */
NextChar ();
goto Again;
} else {
/* Make it clear what the problem is: */
Error ("EOL expected.");
}
}
break;
case '\n':
NextChar ();
CurTok.Tok = TOK_SEP;
return;
case EOF:
CheckInputStack ();
/* In case of the main file, do not close it, but return EOF. */
if (Source && Source->Next) {
DoneCharSource ();
goto Again;
} else {
CurTok.Tok = TOK_EOF;
}
return;
}
/* If we go here, we could not identify the current character. Skip it
** and try again.
*/
Error ("Invalid input character: 0x%02X", C & 0xFF);
NextChar ();
goto Again;
}
static void IFNextChar (CharSource* S)
/* Read the next character from the input file */
{
/* Check for end of line, read the next line if needed */
while (SB_GetIndex (&S->V.File.Line) >= SB_GetLen (&S->V.File.Line)) {
unsigned Len;
/* End of current line reached, read next line */
SB_Clear (&S->V.File.Line);
while (1) {
int N = fgetc (S->V.File.F);
if (N == EOF) {
/* End of file. Accept files without a newline at the end */
if (SB_NotEmpty (&S->V.File.Line)) {
break;
}
/* No more data - add an empty line to the listing. This
** is a small hack needed to keep the PC output in sync.
*/
NewListingLine (&EmptyStrBuf, S->V.File.Pos.Name, FCount);
C = EOF;
return;
/* Check for end of line */
} else if (N == '\n') {
/* End of line */
break;
/* Collect other stuff */
} else {
/* Append data to line */
SB_AppendChar (&S->V.File.Line, N);
}
}
/* If we come here, we have a new input line. To avoid problems
** with strange line terminators, remove all whitespace from the
** end of the line, then add a single newline.
*/
Len = SB_GetLen (&S->V.File.Line);
while (Len > 0 && IsSpace (SB_AtUnchecked (&S->V.File.Line, Len-1))) {
--Len;
}
SB_Drop (&S->V.File.Line, SB_GetLen (&S->V.File.Line) - Len);
SB_AppendChar (&S->V.File.Line, '\n');
/* Terminate the string buffer */
SB_Terminate (&S->V.File.Line);
/* One more line */
S->V.File.Pos.Line++;
/* Remember the new line for the listing */
NewListingLine (&S->V.File.Line, S->V.File.Pos.Name, FCount);
}
/* Set the column pointer */
S->V.File.Pos.Col = SB_GetIndex (&S->V.File.Line);
/* Return the next character from the buffer */
C = SB_Get (&S->V.File.Line);
}
