//
#include "token.h"
+
+#include <errno.h>
#include "direct.h"
#include "error.h"
#include "macro.h"
TOKEN * tok; // Ptr to current token
TOKEN * etok; // Ptr past last token in tokbuf[]
TOKEN tokeol[1] = {EOL}; // Bailout end-of-line token
-char * string[TOKBUFSIZE*2]; // Token buffer string pointer storage
+char * string[TOKBUFSIZE*2];// Token buffer string pointer storage
+int optimizeOff; // Optimization override flag
// File record, used to maintain a list of every include file ever visited
#define FILEREC struct _filerec
FILEREC * filerec;
FILEREC * last_fr;
-INOBJ * cur_inobj; // Ptr current input obj (IFILE/IMACRO)
-static INOBJ * f_inobj; // Ptr list of free INOBJs
-static IFILE * f_ifile; // Ptr list of free IFILEs
-static IMACRO * f_imacro; // Ptr list of free IMACROs
+INOBJ * cur_inobj; // Ptr current input obj (IFILE/IMACRO)
+static INOBJ * f_inobj; // Ptr list of free INOBJs
+static IFILE * f_ifile; // Ptr list of free IFILEs
+static IMACRO * f_imacro; // Ptr list of free IMACROs
-static TOKEN tokbuf[TOKBUFSIZE]; // Token buffer (stack-like, all files)
+static TOKEN tokbuf[TOKBUFSIZE]; // Token buffer (stack-like, all files)
uint8_t chrtab[0x100] = {
ILLEG, ILLEG, ILLEG, ILLEG, // NUL SOH STX ETX
dotxtab['W'] = DOTW;
dotxtab['l'] = DOTL; // .l .L
dotxtab['L'] = DOTL;
- dotxtab['i'] = DOTI; // .i .I (???)
+ dotxtab['i'] = DOTI; // .i .I (WTF is this???)
dotxtab['I'] = DOTI;
- dotxtab['D'] = DOTD; // .d .D (quad word)
+ dotxtab['D'] = DOTD; // .d .D (double)
dotxtab['d'] = DOTD;
dotxtab['S'] = DOTS; // .s .S
dotxtab['s'] = DOTS;
- dotxtab['Q'] = DOTQ; // .q .Q
+ dotxtab['Q'] = DOTQ; // .q .Q (quad word)
dotxtab['q'] = DOTQ;
dotxtab['X'] = DOTX; // .x .x
dotxtab['x'] = DOTX;
*dst++ = *s++;
continue;
case '?': // \? <macro> set `questmark' flag
- ++s;
+ s++;
questmark = 1;
break;
case '#': // \#, number of arguments
// to choke on legitimate code... Need to investigate this further
// before changing anything else here!
case CONST:
- sprintf(numbuf, "$%lx", (long unsigned int)*tk++);
+ sprintf(numbuf, "$%lx", (uint64_t)*tk++);
+ tk++;
d = numbuf;
break;
case DEQUALS:
// strp = irept->ir_nextln;
}
+ // Mark the current macro line in the irept object
+ // This is probably overkill - a global variable
+ // would suffice here (it only gets used during
+ // error reporting anyway)
+ irept->lineno = irept->ir_nextln->lineno;
// strcpy(irbuf, (char *)(irept->ir_nextln + 1));
strcpy(irbuf, irept->ir_nextln->line);
case SRC_IREPT: // Pop and release an IREPT
{
DEBUG { printf("dealloc IREPT\n"); }
-// LONG * p = inobj->inobj.irept->ir_firstln;
LLIST * p = inobj->inobj.irept->ir_firstln;
// Deallocate repeat lines
while (p != NULL)
{
-// Shamus: ggn confirmed that this will cause a segfault on 64-bit versions of
-// RMAC. This is just stupid and wrong anyway, so we need to fix crapola
-// like this...
-// LONG * p1 = (LONG *)*p;
-// p = p1;
free(p->line);
p = p->next;
}
{
uint8_t * ln = NULL; // Ptr to current position in line
uint8_t * p; // Random character ptr
- TOKEN * tk; // Token-deposit ptr
+ PTR tk; // Token-deposit ptr
int state = 0; // State for keyword detector
int j = 0; // Var for keyword detector
uint8_t c; // Random char
- VALUE v; // Random value
+ uint64_t v; // Random value
+ uint32_t cursize = 0; // Current line's size (.b, .w, .l, .s, .q, .d)
+ double f; // Random float
uint8_t * nullspot = NULL; // Spot to clobber for SYMBOL termination
int stuffnull; // 1:terminate SYMBOL '\0' at *nullspot
uint8_t c1;
retry:
- if (cur_inobj == NULL) // Return EOF if input stack is empty
+ if (cur_inobj == NULL) // Return EOF if input stack is empty
return TKEOF;
// Get another line of input from the current input source: a file, a
case SRC_IREPT:
if ((ln = GetNextRepeatLine()) == NULL)
{
-DEBUG { printf("TokenizeLine: Calling fpop() from SRC_IREPT...\n"); }
+ DEBUG { printf("TokenizeLine: Calling fpop() from SRC_IREPT...\n"); }
fpop();
goto retry;
}
strcpy(lnbuf, ln);
// General housekeeping
- tok = tokeol; // Set "tok" to EOL in case of error
- tk = etok; // Reset token ptr
+ tok = tokeol; // Set "tok" to EOL in case of error
+ tk.u32 = etok; // Reset token ptr
stuffnull = 0; // Don't stuff nulls
totlines++; // Bump total #lines assembled
if (*ln == '*' || *ln == ';' || ((*ln == '/') && (*(ln + 1) == '/')))
goto goteol;
+ // And here we have a very ugly hack for signalling a single line 'turn off
+ // optimization'. There's really no nice way to do this, so hack it is!
+ optimizeOff = 0; // Default is to take optimizations as they come
+
+ if (*ln == '!')
+ {
+ optimizeOff = 1; // Signal that we don't want to optimize this line
+ ln++; // & skip over the darned thing
+ }
+
// Main tokenization loop;
// o skip whitespace;
// o handle end-of-line;
// token stream:
ln++;
stuffnull = 0;
- *tk++ = (TOKEN)dotxtab[*ln++];
+ *tk.u32++ = (TOKEN)dotxtab[*ln++];
continue;
}
}
*ln++ = EOS; // Terminate symbol
stuffnull = 0; // And never try it again
- // Character following the `.' must have a DOT attribute, and
+ // Character following the '.' must have a DOT attribute, and
// the chararacter after THAT one must not have a start-symbol
// attribute (to prevent symbols that look like, for example,
// "zingo.barf", which might be a good idea anyway....)
if (((chrtab[*ln] & DOT) == 0) || (dotxtab[*ln] == 0))
return error("[bwsl] must follow '.' in symbol");
- v = (VALUE)dotxtab[*ln++];
+ v = (uint32_t)dotxtab[*ln++];
+ cursize = (uint32_t)v;
if (chrtab[*ln] & CTSYM)
return error("misuse of '.'; not allowed in symbols");
// If not tokenized keyword OR token was not found
if ((j < 0) || (state < 0))
{
- *tk++ = SYMBOL;
+ *tk.u32++ = SYMBOL;
//#warning
//problem here: nullspot is a char * but TOKEN is a uint32_t. On a 64-bit
//system, this will cause all kinds of mischief.
*tk++ = (TOKEN)nullspot;
#else
string[stringNum] = nullspot;
- *tk++ = stringNum;
+ *tk.u32++ = stringNum;
stringNum++;
#endif
}
else
{
- *tk++ = (TOKEN)j;
+ *tk.u32++ = (TOKEN)j;
stuffnull = 0;
}
if (v) // Record attribute token (if any)
- *tk++ = (TOKEN)v;
+ *tk.u32++ = (TOKEN)v;
if (stuffnull) // Arrange for string termination on next pass
nullspot = ln;
// Handle identity tokens
if (c & SELF)
{
- *tk++ = *ln++;
+ *tk.u32++ = *ln++;
continue;
}
case '!': // ! or !=
if (*ln == '=')
{
- *tk++ = NE;
- ++ln;
+ *tk.u32++ = NE;
+ ln++;
}
else
- *tk++ = '!';
+ *tk.u32++ = '!';
continue;
case '\'': // 'string'
if (m6502)
{
// Hardcoded for now, maybe this will change in the future
- *tk++ = STRINGA8;
+ *tk.u32++ = STRINGA8;
goto dostring;
}
// Fall through
case '\"': // "string"
- *tk++ = STRING;
+ *tk.u32++ = STRING;
dostring:
c1 = ln[-1];
string[stringNum] = ln;
- *tk++ = stringNum;
+ *tk.u32++ = stringNum;
stringNum++;
for(p=ln; *ln!=EOS && *ln!=c1;)
case '\\':
c = '\\';
break;
+ case '!':
+ // If we're evaluating a macro
+ // this is valid and expands to
+ // "dot-size"
+ break;
default:
warn("bad backslash code in string");
ln--;
}
else if ((*(ln + 1) & 0xDF) == 'L')
{
+ v &= 0xFFFFFFFF;
ln += 2;
}
}
}
- *tk++ = CONST;
- *tk++ = v;
+ *tk.u32++ = CONST;
+ *tk.u64++ = v;
if (obj_format == ALCYON)
{
{
if ((*(ln + 1) == 'w') || (*(ln + 1) == 'W'))
{
- *tk++ = DOTW;
+ *tk.u32++ = DOTW;
ln += 2;
}
else if ((*(ln + 1) == 'l') || (*(ln + 1) == 'L'))
{
- *tk++ = DOTL;
+ *tk.u32++ = DOTL;
ln += 2;
}
}
}
}
else
- *tk++ = '$';
+ *tk.u32++ = '$';
continue;
case '<': // < or << or <> or <=
switch (*ln)
{
case '<':
- *tk++ = SHL;
- ++ln;
+ *tk.u32++ = SHL;
+ ln++;
continue;
case '>':
- *tk++ = NE;
- ++ln;
+ *tk.u32++ = NE;
+ ln++;
continue;
case '=':
- *tk++ = LE;
- ++ln;
+ *tk.u32++ = LE;
+ ln++;
continue;
default:
- *tk++ = '<';
+ *tk.u32++ = '<';
continue;
}
case ':': // : or ::
if (*ln == ':')
{
- *tk++ = DCOLON;
- ++ln;
+ *tk.u32++ = DCOLON;
+ ln++;
}
else
- *tk++ = ':';
+ *tk.u32++ = ':';
continue;
case '=': // = or ==
if (*ln == '=')
{
- *tk++ = DEQUALS;
- ++ln;
+ *tk.u32++ = DEQUALS;
+ ln++;
}
else
- *tk++ = '=';
+ *tk.u32++ = '=';
continue;
case '>': // > or >> or >=
switch (*ln)
{
case '>':
- *tk++ = SHR;
+ *tk.u32++ = SHR;
ln++;
continue;
case '=':
- *tk++ = GE;
+ *tk.u32++ = GE;
ln++;
continue;
default:
- *tk++ = '>';
+ *tk.u32++ = '>';
continue;
}
case '%': // % or binary constant
if (*ln < '0' || *ln > '1')
{
- *tk++ = '%';
+ *tk.u32++ = '%';
continue;
}
if ((*(ln + 1) == 'l') || (*(ln + 1) == 'L'))
{
+ v &= 0xFFFFFFFF;
ln += 2;
}
}
- *tk++ = CONST;
- *tk++ = v;
+ *tk.u32++ = CONST;
+ *tk.u64++ = v;
continue;
case '@': // @ or octal constant
if (*ln < '0' || *ln > '7')
{
- *tk++ = '@';
+ *tk.u32++ = '@';
continue;
}
if (*ln == '.')
{
- if ((*(ln+1) == 'b') || (*(ln+1) == 'B'))
+ if ((*(ln + 1) == 'b') || (*(ln + 1) == 'B'))
{
v &= 0x000000FF;
ln += 2;
}
- if ((*(ln+1) == 'w') || (*(ln+1) == 'W'))
+ if ((*(ln + 1) == 'w') || (*(ln + 1) == 'W'))
{
v &= 0x0000FFFF;
ln += 2;
}
- if ((*(ln+1) == 'l') || (*(ln+1) == 'L'))
+ if ((*(ln + 1) == 'l') || (*(ln + 1) == 'L'))
{
+ v &= 0xFFFFFFFF;
ln += 2;
}
}
- *tk++ = CONST;
- *tk++ = v;
+ *tk.u32++ = CONST;
+ *tk.u64++ = v;
continue;
case '^': // ^ or ^^ <operator-name>
if (*ln != '^')
{
- *tk++ = '^';
+ *tk.u32++ = '^';
continue;
}
continue;
}
- *tk++ = (TOKEN)j;
+ *tk.u32++ = (TOKEN)j;
continue;
default:
interror(2); // Bad MULTX entry in chrtab
// Handle decimal constant
if (c & DIGIT)
{
+ uint8_t * numStart = ln;
v = 0;
while ((int)chrtab[*ln] & DIGIT)
{
v &= 0x000000FF;
ln += 2;
+ *tk.u32++ = CONST;
+ *tk.u64++ = v;
+ *tk.u32++ = DOTB;
}
else if ((*(ln + 1) == 'w') || (*(ln + 1) == 'W'))
{
v &= 0x0000FFFF;
ln += 2;
+ *tk.u32++ = CONST;
+ *tk.u64++ = v;
+ *tk.u32++ = DOTW;
}
else if ((*(ln + 1) == 'l') || (*(ln + 1) == 'L'))
{
+ v &= 0xFFFFFFFF;
ln += 2;
+ *tk.u32++ = CONST;
+ *tk.u64++ = v;
+ *tk.u32++ = DOTL;
+ }
+ else if ((int)chrtab[*(ln + 1)] & DIGIT)
+ {
+ // Hey, more digits after the dot, so we assume it's a
+ // floating point number of some kind
+#if 0
+ double fract = 10;
+ ln++;
+ f = (double)v;
+
+ while ((int)chrtab[*ln] & DIGIT)
+ {
+ f = f + (double)(*ln++ - '0') / fract;
+ fract *= 10;
+ }
+#else
+ // Here we parse the whole floating point number
+ char * numEnd;
+ errno = 0;
+ double f = strtod(numStart, &numEnd);
+ ln = (uint8_t *)numEnd;
+
+ if (errno != 0)
+ return error("floating point parse error");
+#endif
+
+ *tk.u32++ = FCONST;
+// Shamus: Well, this is all kinds of icky--not the least of which is that unlike uintNN_t types, we have no guarantees of any kind when it comes to the size of floating point numbers in C (as far as I know of). If there is, we need to use those kinds here, or else figure out at runtime what sizes we're dealing with and act accordingly. To be fair, this is OK as long as the double type is less than 64 bits wide, but again, there's no guarantee that it isn't. :-/
+ *tk.u64++ = f;
+ continue;
}
}
+ else
+ {
+ *tk.u32++ = CONST;
+ *tk.u64++ = v;
+ }
- *tk++ = CONST;
- *tk++ = v;
//printf("CONST: %i\n", v);
continue;
}
// Terminate line of tokens and return "success."
goteol:
- tok = etok; // Set tok to beginning of line
+ tok = etok; // Set tok to beginning of line
if (stuffnull) // Terminate last SYMBOL
*nullspot = EOS;
- *tk++ = EOL;
+ *tk.u32++ = EOL;
return OK;
}
}
+void DumpToken(TOKEN t)
+{
+ if (t == COLON)
+ printf("[COLON]");
+ else if (t == CONST)
+ printf("[CONST]");
+ else if (t == ACONST)
+ printf("[ACONST]");
+ else if (t == STRING)
+ printf("[STRING]");
+ else if (t == SYMBOL)
+ printf("[SYMBOL]");
+ else if (t == EOS)
+ printf("[EOS]");
+ else if (t == TKEOF)
+ printf("[TKEOF]");
+ else if (t == DEQUALS)
+ printf("[DEQUALS]");
+ else if (t == SET)
+ printf("[SET]");
+ else if (t == REG)
+ printf("[REG]");
+ else if (t == DCOLON)
+ printf("[DCOLON]");
+ else if (t == GE)
+ printf("[GE]");
+ else if (t == LE)
+ printf("[LE]");
+ else if (t == NE)
+ printf("[NE]");
+ else if (t == SHR)
+ printf("[SHR]");
+ else if (t == SHL)
+ printf("[SHL]");
+ else if (t == UNMINUS)
+ printf("[UNMINUS]");
+ else if (t == DOTB)
+ printf("[DOTB]");
+ else if (t == DOTW)
+ printf("[DOTW]");
+ else if (t == DOTL)
+ printf("[DOTL]");
+ else if (t == DOTQ)
+ printf("[DOTQ]");
+ else if (t == DOTS)
+ printf("[DOTS]");
+ else if (t == DOTD)
+ printf("[DOTD]");
+ else if (t == DOTI)
+ printf("[DOTI]");
+ else if (t == ENDEXPR)
+ printf("[ENDEXPR]");
+ else if (t == CR_ABSCOUNT)
+ printf("[CR_ABSCOUNT]");
+ else if (t == CR_DEFINED)
+ printf("[CR_DEFINED]");
+ else if (t == CR_REFERENCED)
+ printf("[CR_REFERENCED]");
+ else if (t == CR_STREQ)
+ printf("[CR_STREQ]");
+ else if (t == CR_MACDEF)
+ printf("[CR_MACDEF]");
+ else if (t == CR_TIME)
+ printf("[CR_TIME]");
+ else if (t == CR_DATE)
+ printf("[CR_DATE]");
+ else if (t >= 0x20 && t <= 0x2F)
+ printf("[%c]", (char)t);
+ else if (t >= 0x3A && t <= 0x3F)
+ printf("[%c]", (char)t);
+ else if (t >= 0x80 && t <= 0x87)
+ printf("[D%u]", ((uint32_t)t) - 0x80);
+ else if (t >= 0x88 && t <= 0x8F)
+ printf("[A%u]", ((uint32_t)t) - 0x88);
+ else
+ printf("[%X:%c]", (uint32_t)t, (char)t);
+}
+
+
void DumpTokenBuffer(void)
{
printf("Tokens [%X]: ", sloc);
printf("[COLON]");
else if (*t == CONST)
{
- t++;
- printf("[CONST: $%X]", (uint32_t)*t);
+ PTR tp;
+ tp.u32 = t + 1;
+ printf("[CONST: $%lX]", *tp.u64);
+ t += 2;
}
else if (*t == ACONST)
{
printf("[DOTW]");
else if (*t == DOTL)
printf("[DOTL]");
+ else if (*t == DOTQ)
+ printf("[DOTQ]");
+ else if (*t == DOTS)
+ printf("[DOTS]");
+ else if (*t == DOTD)
+ printf("[DOTD]");
else if (*t == DOTI)
printf("[DOTI]");
else if (*t == ENDEXPR)