#include "asmmon.h"
#include "lexer.h"
uint8_t lex_type;
uint16_t sym_count = 0;
token *tokens = NULL;
token *last_tok = NULL;
symbol *locals = NULL;
symbol *last_loc = NULL;
symbol *cur_sym = NULL;
symbol *struct_sym = NULL;
line *tmp_line = NULL;
symbol *mksymbol(const char *name, uint64_t val, uint8_t def, uint8_t islocal, uint8_t useid, uint16_t id, uint8_t dbg) {
uint16_t i = 0;
symbol *s = (!islocal) ? symbols : locals;
uint8_t flag = 0;
for (; s; s = s->next, i++) {
if (!useid && name[0] != s->name[0]) {
continue;
}
flag = (useid) ? (id == s->id) : !strcmp(name, s->name);
if (flag) {
if (def) {
if (s->def) {
if (dbg) {
printf("mksymbol(): oof, you cannot redefine the symbol: %s\n", name);
}
defined = 1;
} else {
defined = 0;
}
s->def = def;
s->val = val;
s->id = i;
if (dbg) {
printf("mksymbol(): def: %u, val: $%016"PRIX64", name: %s\n", def, val, name);
printf("mksymbol(): i: $%X, id: $%04X\n", i, s->id);
}
}
return s;
}
}
size_t str_size = strlen(name)+1;
s = malloc(sizeof(symbol));
s->down = NULL;
if (!islocal) {
(last_sym) ? (last_sym->next = s) : (symbols = s);
if (last_sym) {
last_sym->next->prev = last_sym;
last_sym->next->up = last_sym->up;
last_sym->next->down = NULL;
} else {
symbols->prev = NULL;
symbols->up = NULL;
symbols->down = NULL;
}
} else {
(last_loc) ? (last_loc->next = s) : (locals = s);
if (last_loc) {
last_loc->next->prev = last_loc;
last_loc->next->up = last_loc->up;
last_loc->next->down = NULL;
} else {
locals->prev = NULL;
locals->down = NULL;
}
}
s->name = malloc(str_size);
s->def = def;
s->val = val;
s->count = 0;
s->isstruct = 0;
memcpy(s->name, name, str_size);
s->next = NULL;
s->id = sym_count++;
(!islocal) ? (last_sym = s) : (last_loc = s);
if (!islocal) {
s->down = NULL;
} else {
cur_sym->count++;
}
defined = 0;
if (dbg) {
printf("mksymbol(): def: %u, val: $%016"PRIX64", name: %s, id: $%04X\n", def, val, name, sym_count-1);
}
return s;
}
uint16_t fixup_cnt = 0;
symbol *get_sym(const char *name, uint64_t val, token *t, uint8_t islocal, uint8_t dbg) {
symbol *s = mksymbol(name, 0, 0, islocal, 0, 0, dbg);
if (dbg) {
printf("get_sym(): Symbol ID: $%X.\n", s->id);
}
if (s->def) {
return s;
} else {
if (dbg) {
printf("get_sym(): oof, symbol %s, does not exist, yet.\n", name);
}
fixup *f = malloc(sizeof(fixup));
(last_fix) ? (last_fix->next = f) : (fixups = f);
f->adr = val;
f->t = t;
f->s = s;
f->next = NULL;
last_fix = f;
fixup_cnt++;
return NULL;
}
}
symbol *find_member(char *name, symbol* root, uint8_t dbg) {
symbol *s = root;
if (s->down == NULL && s->up != NULL) {
s = s->up;
}
do {
s = s->down;
for (symbol *m = s; m; m = m->next) {
size_t len1 = strlen(name);
size_t len2 = strlen(m->name);
if (len1 == len2 && name[0] == m->name[0] && !strcmp(name, m->name)) {
return m;
}
}
for (; s->next && !s->down; s = s->next);
} while (s->down);
return NULL;
}
uint16_t reslv_fixups(uint8_t dbg) {
fixup *f = fixups;
symbol *ls;
uint16_t i = 0, j = 0;
for (; f; f = f->next) {
if (f->s->def) {
if (dbg) {
printf("reslv_fixups(): Symbol ID: $%X, Symbol Name: %s, Symbol Value: $%"PRIX64".\n", f->s->id, f->s->name, f->s->val);
}
f->t->sym = f->s;
} else {
if (dbg) {
printf("reslv_fixups(): oof, undefined reference to '%s', at $%016"PRIX64".\n", f->s->name, f->adr);
}
i++;
}
}
return i;
}
uint16_t get_comment(const char *com, uint8_t dbg) {
uint16_t i = 0;
for (; comment[i] && i < comidx; i++) {
if (com[0] == comment[i][0] && !strcmp(com, comment[i])) {
break;
}
}
if (comment[i] == NULL) {
if (dbg) {
printf("get_comment(): oof, the index $%04X is NULL.\n", i);
printf("get_comment(): oof, the comment \"%s\", was not found in the comment table.\n", com);
}
size_t size = strlen(com)+1;
comment[comidx] = malloc(size);
memcpy(comment[comidx], com, size);
return comidx++;
}
if (dbg) {
if (strcmp(com, comment[i])) {
printf("get_comment(): oof, the comment \"%s\" is somehow not in the comment table, even though it should be at index $%04X.\n", com, i);
}
printf("get_comment(): The return value of strcmp(com, comment[$%04X]) is %i.\n", i, strcmp(com, comment[i]));
printf("get_comment(): Found comment \"%s\", in the table, at index $%04X.\n", com, i);
}
return i;
}
uint16_t get_string(const char *str, uint8_t dbg) {
uint16_t i = 0;
uint8_t isstr = 0;
for (; i < stridx; i++) {
if (isstr || string[i] == NULL) {
break;
} else if (str[0] == string[i][0]) {
isstr = !strcmp(str, string[i]);
}
}
if (string[i] == NULL || i == stridx) {
if (dbg) {
printf("get_string(): oof, the index $%04X is NULL.\n", i);
printf("get_string(): oof, the string \"%s\", was not found in the string table.\n", str);
}
return 0xFFFF;
}
if (dbg) {
printf("get_string(): Found string \"%s\", in the table, at index $%04X.\n", str, i);
}
return i;
}
line *find_line(uint32_t ln, uint8_t dbg) {
uint32_t i = 0;
line *l = lines;
for (; l && l->linenum != ln; l = l->next);
if (l != NULL) {
if (l->linenum == ln) {
if (dbg) {
printf("find_line(): Found line number %u.\n", ln);
}
return l;
}
} else {
if (dbg) {
printf("find_line(): oof, could not find line number %u.\n", ln);
}
return NULL;
}
return l;
}
int is_struct = 0;
int is_anon = 0;
void create_struct(symbol *c_sym, line *l, token *t, token *lt, char *name, uint8_t dbg) {
uint8_t ismember = !(is_struct == 1 && lt && lt->id == TOK_DIR);
mksymbol(name, 0, 1, ismember, 0, 0, dbg);
if (isfixup) {
isfixup = reslv_fixups(dbg);
}
t->sym = get_sym(name, 0, t, ismember, dbg);
if (lt && lt->id == TOK_DIR) {
t->sym->isstruct = 1;
t->id = (lt->type == DIR_STRUCT) ? TOK_STRUCT : TOK_UNION;
tmp_line = l;
} else {
t->id = TOK_MEMBER;
t->sym->isanon = (is_anon > 0);
}
isfixup += (t->sym == NULL);
int is_top = (c_sym == NULL);
c_sym = (!ismember && !c_sym) ? last_sym : c_sym;
if (!ismember) {
if (!is_top) {
c_sym = t->sym;
locals = NULL;
last_loc = NULL;
} else {
c_sym->down = locals;
}
} else {
if (lt && lt->id == TOK_DIR) {
if (lt->type == DIR_UNION || lt->type == DIR_STRUCT) {
c_sym->down = locals;
c_sym->down->up = c_sym;
last_loc->up = c_sym;
c_sym = last_loc;
locals = NULL;
last_loc = NULL;
}
}
}
cur_sym = c_sym;
}
void end_struct(symbol *c_sym, symbol *s_sym, uint8_t dbg) {
int skip = 0;
if (is_anon > 0) {
if ((c_sym && c_sym->isanon) || (c_sym->up && !c_sym->up->isanon) || (c_sym && s_sym->isanon)) {
is_anon--;
} else if (is_struct <= 0) {
is_anon = 0;
}
skip = (!is_anon);
}
if (((is_struct-is_anon) > 0 && !skip) || (is_anon <= 0 && is_struct <= 0)) {
symbol *s;
for (s = locals; s; s = s->next) {
if (s->up == NULL) {
s->up = c_sym;
}
if (dbg) {
printf("s: %p, s->up: %p, c_sym: %p, last_loc: %p\n", s, s->up, c_sym, last_loc);
}
}
if (c_sym->down == NULL) {
c_sym->down = locals;
}
}
if ((is_anon <= 0 || is_struct <= 0)) {
for (s_sym = c_sym; s_sym->prev && !s_sym->isanon; s_sym = s_sym->prev);
struct_sym = s_sym;
}
if ((is_struct-is_anon) > 0 && !skip) {
symbol *s = c_sym;
for (; s->prev; s = s->prev) {
if (s->up == NULL && c_sym->up) {
s->up = c_sym->up;
}
if (dbg) {
printf("s: %p, s->up: %p, c_sym->up: %p, last_loc: %p\n", s, s->up, c_sym->up, last_loc);
}
}
if (c_sym->up) {
cur_sym = c_sym->up;
}
for (locals = locals->up; locals->prev; locals = locals->prev);
for (last_loc = locals; last_loc->next; last_loc = last_loc->next);
}
}
uint64_t lex(char *str, uint64_t address, uint16_t bline, uint8_t dbg) {
char sym[0x100];
uint16_t i = 0;
uint16_t j = 0;
uint16_t comid = 0;
uint16_t strid = 0;
uint16_t symid = 0;
uint64_t value = 0;
lex_type = 0xFF;
uint8_t k = 0;
uint8_t k2 = 0;
union reg ch;
ch.u64 = 0;
uint8_t rs = 0;
uint8_t of = 0;
uint8_t base = 0;
uint8_t islocal = 0;
uint8_t isop = 0;
int num = 0;
int isch = 0;
uint8_t isesc = 0;
uint8_t islinenum;
int16_t ln = -1;
char lnum[6];
uint8_t space = 0;
uint8_t tab = 0;
uint8_t fall = 0;
uint8_t done = 0;
line *l = NULL;
token *st = NULL;
token *t = NULL;
token *lt = NULL;
symbol *tmp_sym = NULL;
symbol *tsym = NULL;
while (isdigit(str[i]) && isdelm(str[i], dbg) != 16) {
lnum[j++] = str[i++];
}
islinenum = i;
if (i) {
lnum[j] = '\0';
ln = strtol(lnum, NULL, 10);
j = 0;
l = find_line(ln, dbg);
} else {
ln = linenum;
l = NULL;
}
if (l) {
address = l->addr;
} else {
l = malloc(sizeof(line));
(last_line) ? (last_line->next = l) : (lines = l);
l->tok = NULL;
l->next = NULL;
l->count = 0;
l->bline = bline;
last_line = l;
}
l->addr = address;
while (isdelm(str[i], dbg) != 1) {
uint8_t offset = 0;
base = 0;
space = 0;
tab = 0;
while (isdelm(str[i+j], dbg) == 16) {
tab += str[i+j] == '\t';
space += str[i+j] == ' ';
j++;
}
j = 0;
if (dbg) {
printf("lex(): tab: %u, space: %u\n", tab, space);
}
if (isdelm(str[i], dbg) == 16) {
for (; isdelm(str[i], dbg) == 16; i++);
}
uint8_t ptok = get_ptok(str[i], dbg);
if (is_altok(ptok, dbg)) {
offset++;
if (((ptok == PTOK_S || ptok == PTOK_B) && toupper(str[i+1]) == 'P') || (ptok == PTOK_P && toupper(str[i+1]) == 'C')) {
offset++;
}
switch (get_ptok(str[i+offset], dbg)) {
case PTOK_B :
case PTOK_E :
case PTOK_X :
case PTOK_Y :
case PTOK_S :
case PTOK_P :
case PTOK_A :
case PTOK_C :
case PTOK_D :
case PTOK_F :
case PTOK_R :
case PTOK_ALPHA : ptok = PTOK_ALPHA; break;
case PTOK_NUMBER:
if (ptok == PTOK_R) {
char reg_num[3];
for (int isnum = 0; isdigit(str[i+offset]) && !(isdelm(str[i+offset], dbg) & 0x03) && isnum < 2; offset++, isnum++) {
reg_num[isnum] = str[i+offset];
}
reg_num[isnum] = '\0';
if (isnum == 2) {
int regnum = strtoul(reg_num, NULL, 10);
ptok = (regnum < 11 || regnum > 15) ? PTOK_ALPHA : ptok;
} else {
ptok = PTOK_ALPHA;
}
} else {
ptok = PTOK_ALPHA;
}
break;
}
if ((ptok == PTOK_S && str[i+1] && toupper(str[i+1]) != 'P') || (ptok == PTOK_P && toupper(str[i+1]) != 'C')) {
ptok = PTOK_ALPHA;
}
}
switch (ptok) {
case PTOK_DOT:
i++;
for (; !(isdelm(str[i+j], dbg) & 17); j++);
memcpy(lexeme, str+i, j);
lexeme[j] = '\0';
i += j;
if (!isop) {
for (k = 0; k < 11; k++) {
if (tolower(lexeme[0]) == dir_t[k][0] && !strcasecmp(lexeme, dir_t[k])) {
lex_type = TOK_DIR;
uint16_t tmp = j;
for (j = 0; isdelm(str[i+j], dbg) & 16; j++);
uint8_t ret = get_ptok(str[i+j], dbg);
j = tmp;
if ((k == DIR_STRUCT || k == DIR_UNION) && (ret != PTOK_ALPHA || (is_anon && ret == PTOK_ALPHA))) {
is_anon++;
}
is_struct += (k == DIR_STRUCT || k == DIR_UNION);
is_struct -= (k == DIR_ENDSTRUCT || k == DIR_ENDUNION);
if ((k == DIR_ENDSTRUCT || k == DIR_ENDUNION)) {
end_struct(cur_sym, struct_sym, dbg);
}
break;
}
}
if (lex_type != TOK_DIR && lt && lt->id == TOK_SYM) {
lex_type = TOK_MEMBER;
i -= j;
} else {
l->count++;
t = make_token(lex_type, k, space, tab, 0, "", NULL);
}
} else {
lex_type = TOK_RS;
switch (tolower(lexeme[j-1])) {
case '2':
case 'w':
rs = 1;
break;
case '4':
case 'd':
rs = 2;
break;
case '8':
case 'q':
rs = 3;
break;
}
l->count++;
t = make_token(lex_type, rs, space, tab, 0, "", NULL);
isop = 0;
}
break;
case PTOK_DQUOTE:
i++;
for (; isdelm(str[i+j], dbg) != 4 || isesc; j++) {
isesc = (str[i+j] == '\\' && str[i+(j-1)] != '\\');
}
memcpy(lexeme, str+i, j);
lexeme[j] = '\0';
i += j;
strid = get_string(lexeme, dbg);
if (strid == 0xFFFF) {
strid = stridx;
string[strid] = malloc(j+1);
memcpy(string[strid], lexeme, j+1);
stridx++;
} else {
}
if (dbg) {
printf("lex(): str[0x%04X]: %s\n", strid, string[strid]);
}
if (lt->id == TOK_DIR && lt->type == DIR_INCLUDE) {
incl[inc_count+inc_file] = strid;
inc_file++;
}
lex_type = TOK_STRING;
l->count++;
t = make_token(lex_type, 0, space, tab, 0, string[strid], NULL);
break;
case PTOK_DOLLAR:
case PTOK_PERCENT:
case PTOK_NUMBER:
value = 0;
switch (ptok) {
case PTOK_DOLLAR : base = 16; lex_type = TOK_HEX; i++; break;
case PTOK_PERCENT: base = 2; lex_type = TOK_BIN; i++; break;
case PTOK_NUMBER : base = 10; lex_type = TOK_DEC; break;
}
for (; isxdigit(str[i+j]) && !(isdelm(str[i+j], dbg) & 0x03); j++);
memcpy(lexeme, str+i, j);
lexeme[j] = '\0';
i += j;
value = strtoull(lexeme, NULL, base);
if (lt->id == TOK_SYM) {
tsym = mksymbol(sym, value, 1, islocal, 0, 0, dbg);
if (lt) {
lt->sym = get_sym(sym, address, lt, islocal, dbg);
}
if (!islocal) {
cur_sym = last_sym;
}
tsym = NULL;
islocal = 0;
isfixup += (lt->sym == NULL);
if (dbg) {
printf("lex(): isfixup: %u\n", isfixup);
}
}
l->count++;
t = make_token(lex_type, 0, space, tab, value, "", NULL);
t->digits = (lt->id != TOK_SYM) ? j : 0;
break;
case PTOK_SQUOTE:
i++;
k = 0;
j = 0;
while (isdelm(str[i], dbg) != 8 || isesc) {
isesc = (str[i] == '\\' && str[i-1] != '\\');
lexeme[j++] = str[i++];
}
isesc = 0;
lexeme[j] = '\0';
for (j = 0; lexeme[k] != '\0' && j < 7; k++) {
switch (lexeme[k]) {
case '\\':
switch (lexeme[++k]) {
case 'n' : ch.u8[j++] = '\n'; break;
case 'r' : ch.u8[j++] = '\r'; break;
case 't' : ch.u8[j++] = '\t'; break;
case 'b' : ch.u8[j++] = '\b'; break;
case '\'': ch.u8[j++] = '\''; break;
case '\"': ch.u8[j++] = '\"'; break;
case '\\': ch.u8[j++] = '\\'; break;
}
break;
default: ch.u8[j++] = lexeme[k];
}
}
lex_type = TOK_CHAR;
l->count++;
t = make_token(lex_type, 0, space, tab, ch.u64, "", NULL);
break;
case PTOK_LBRACK:
case PTOK_HASH :
lex_type = TOK_MEM;
value = (ptok == PTOK_LBRACK) ? MEM_IND : MEM_IMM;
l->count++;
t = make_token(lex_type, value, space, tab, 0, "", NULL);
lex_type = (ptok == PTOK_LBRACK) ? TOK_IND : TOK_IMM;
memset(lexeme, 0, strlen(lexeme)+1);
lexeme[j++] = str[i];
break;
case PTOK_PLUS:
case PTOK_MINUS:
case PTOK_GT:
case PTOK_LT:
case PTOK_PIPE:
lex_type = TOK_EXPR;
switch (ptok) {
case PTOK_PLUS : value = EXPR_PLUS ; break;
case PTOK_MINUS: value = EXPR_MINUS; break;
case PTOK_PIPE : value = EXPR_OR ; break;
case PTOK_GT : value = (get_ptok(str[i+1], dbg) == PTOK_GT) ? (EXPR_RSHFT) : (EXPR_LOW) ; break;
case PTOK_LT : value = (get_ptok(str[i+1], dbg) == PTOK_LT) ? (EXPR_LSHFT) : (EXPR_HIGH); break;
}
l->count++;
t = make_token(lex_type, value, space, tab, 0, "", NULL);
memset(lexeme, 0, strlen(lexeme)+1);
lexeme[j++] = str[i];
if (value == EXPR_LSHFT || value == EXPR_RSHFT) {
lexeme[j++] = str[++i];
}
break;
case PTOK_EQU:
i++;
lex_type = TOK_SYM;
memset(lexeme, 0, strlen(lexeme)+1);
lexeme[j] = str[i];
(t) ? (t->subspace = space) : (lt->subspace = space);
(t) ? (t->subtab = tab) : (lt->subtab = tab);
break;
case PTOK_RBRACK:
i++;
lex_type = TOK_IND;
lexeme[j] = ')';
lexeme[j+1] = '\0';
lexeme[j+2] = '\0';
(t) ? (t->subspace = space) : (lt->subspace = space);
(t) ? (t->subtab = tab) : (lt->subtab = tab);
break;
case PTOK_COMMA:
i++;
if (lex_type != TOK_IND && lex_type != TOK_OF) {
lex_type = TOK_CSV;
}
lexeme[j] = ',';
lexeme[j+1] = '\0';
lexeme[j+2] = '\0';
break;
case PTOK_B:
case PTOK_E:
case PTOK_X:
case PTOK_Y:
case PTOK_S:
case PTOK_A:
case PTOK_C:
case PTOK_D:
case PTOK_F:
case PTOK_R:
lexeme[j+0] = str[i++];
lexeme[j+1] = (ptok == PTOK_R || ((ptok == PTOK_S || ptok == PTOK_B) && get_ptok(str[i], dbg) == PTOK_P)) ? str[i++] : '\0';
lexeme[j+2] = (ptok == PTOK_R) ? str[i++] : '\0';
lexeme[j+3] = '\0';
lex_type = TOK_REG;
switch (ptok) {
case PTOK_A: value = REG_A; break;
case PTOK_X: value = REG_X; break;
case PTOK_Y: value = REG_Y; break;
case PTOK_E: value = REG_E; break;
case PTOK_C: value = REG_C; break;
case PTOK_D: value = REG_D; break;
case PTOK_S:
case PTOK_B:
if (get_ptok(lexeme[j+1], dbg) == PTOK_P) {
value = (ptok == PTOK_S) ? REG_SP : REG_BP;
} else {
value = (ptok == PTOK_S) ? REG_S : REG_B;
}
break;
case PTOK_F: value = REG_F; break;
case PTOK_R: value = strtoull(lexeme+j+1, NULL, 10); break;
}
l->count++;
t = make_token(lex_type, value, space, tab, 0, "", NULL);
break;
case PTOK_P:
lexeme[j] = str[i++];
lexeme[j+1] = (str[i] != ',') ? str[i++] : '\0';
lexeme[j+2] = '\0';
of = 2;
lex_type = TOK_OF;
l->count++;
t = make_token(lex_type, of, space, tab, 0, "", NULL);
break;
case PTOK_AT:
memset(lexeme, 0, strlen(lexeme)+1);
lexeme[j] = '@';
islocal = 1;
lex_type = TOK_LOCAL;
if (lt || t) {
(t) ? (t->subspace = space) : (lt->subspace = space);
(t) ? (t->subtab = tab) : (lt->subtab = tab);
}
break;
case PTOK_COLON:
i++;
lexeme[j] = ':';
lexeme[j+1] = '\0';
lex_type = TOK_LABEL;
tsym = mksymbol(sym, address, 1, islocal, 0, 0, dbg);
if (isfixup) {
isfixup = reslv_fixups(dbg);
}
if (lt) {
lt->id = lex_type;
lt->type = islocal;
lt->sym = get_sym(sym, address, t, islocal, dbg);
isfixup += (lt->sym == NULL);
}
if (!islocal) {
cur_sym = last_sym;
locals = NULL;
last_loc = NULL;
} else if (cur_sym->down == NULL && cur_sym == last_sym) {
cur_sym->down = locals;
cur_sym->down->up = cur_sym;
}
tsym = NULL;
islocal = 0;
if (dbg) {
printf("lex(): isfixup: %u\n", isfixup);
}
break;
case PTOK_SCOLON:
i++;
for (; isdelm(str[i+j], dbg) != 1; j++);
if (!j) {
lexeme[j] = ' ';
lexeme[j+1] = '\0';
} else {
memcpy(lexeme, str+i, j);
lexeme[j] = '\0';
i += j;
comid = get_comment(lexeme, dbg);
if (dbg) {
printf("lex(): com[0x%04X]: %s\n", comid, comment[comid]);
}
}
lex_type = TOK_COMMENT;
l->count++;
if (j) {
t = make_token(lex_type, 0, space, tab, 0, comment[comid], NULL);
} else {
t = make_token(lex_type, 0, space, tab, 0, "" , NULL);
}
break;
case PTOK_ALPHA:
for (; !isdelm2(str[i+j], dbg); j++);
memcpy(lexeme, str+i, j);
lexeme[j] = '\0';
i += j;
isch = 0;
isop = 0;
if (j == 3 && str[i] != ':' && !is_struct) {
for (k = 0; k < OPNUM; k++) {
int find_ext = (k < EXT_OPNUM);
int find_ortho = (k < ORTHO_OPNUM);
int upper = toupper(lexeme[0]);
int isbase = (upper == mne[k][0]);
int isext = (find_ext && upper == ext_mne[k][0]);
int isortho = (find_ortho && upper == ortho_mne[k][0]);
if (isbase || isext || isortho) {
int is_base = !strcasecmp(lexeme, mne[k]);
int is_ext = (find_ext && !strcasecmp(lexeme, ext_mne[k]));
int is_ortho = (find_ortho && !strcasecmp(lexeme, ortho_mne[k]));
if (is_base || is_ext || is_ortho) {
lex_type = (is_base) ? TOK_OPCODE : lex_type;
lex_type = (is_ext) ? TOK_EXTOP : lex_type;
lex_type = (is_ortho) ? TOK_ORTHO : lex_type;
isop = 1;
l->count++;
t = make_token(lex_type, 0xFF, space, tab, k, "", NULL);
break;
}
}
}
}
if (!isop) {
uint8_t spaces = 0;
if (l->tok->type == TOK_ORTHO && l->tok->byte == SET) {
for (k = 0; k < 8; k++) {
int upper = toupper(lexeme[0]);
if (upper == set_cc[k][0]) {
if (!strcasecmp(lexeme, set_cc[k])) {
lex_type = TOK_CC;
l->count++;
t = make_token(lex_type, 0xFF, space, tab, k, "", NULL);
}
}
}
}
for (; isdelm(str[i+spaces], dbg) == 16; spaces++);
uint8_t ret = get_ptok(str[i+spaces], dbg);
if (ret == PTOK_COLON || ret == PTOK_EQU) {
islocal = (lex_type == TOK_LOCAL);
}
lex_type = TOK_SYM;
l->count++;
t = make_token(lex_type, islocal, space, tab, 0, "", NULL);
memcpy(sym, lexeme, j+1);
if (dbg) {
printf("lex(): spaces: %u\n", spaces);
}
if (is_struct) {
create_struct(cur_sym, l, t, lt, sym, dbg);
islocal = 0;
} else if ((str[i+spaces] != ':' && str[i+spaces] != '=')) {
uint8_t sym_struct = 0;
symbol *s;
if (tmp_sym) {
t->sym = find_member(lexeme, tmp_sym, dbg);
tmp_sym = NULL;
} else {
t->sym = get_sym(lexeme, address, t, islocal, dbg);
}
isfixup += (t && t->sym == NULL);
islocal = 0;
if (dbg) {
printf("lex(): isfixup: %u\n", isfixup);
}
}
if (!is_struct && t && t->sym && t->sym->isstruct) {
tmp_sym = t->sym;
}
}
break;
}
if (!l->tok && t) {
l->tok = tokens;
}
if (dbg) {
printf("lex(): lexeme: %s, lex_type: %s\n", lexeme, (lex_type != 0xFF) ? lex_tok[lex_type] : "TOK_NONE");
}
j = 0;
if ((lex_type == TOK_OPCODE || lex_type == TOK_EXTOP) && !isop) {
j = 0;
} else if (lex_type == TOK_EXPR || (lex_type != TOK_MEMBER && !isdelm2(str[i], dbg))) {
i++;
}
switch (lex_type) {
default:
lex_type = 0xFF;
case TOK_CSV:
case TOK_IND:
case TOK_LOCAL:
memset(lexeme, 0, strlen(lexeme)+1);
case TOK_SYM:
break;
}
if (t) {
lt = t;
t = t->next;
}
}
if (i) {
l->tok = tokens;
token *tok = tokens;
if (tok->id == TOK_SYM && tok->next) {
symbol *s = tok->sym;
for (; tok; tok = tok->next) {
switch (tok->id) {
case TOK_HEX :
case TOK_BIN :
case TOK_DEC :
case TOK_CHAR:
case TOK_EXPR:
s->val = get_val(tok, address, 3, dbg);
if (tok->next) {
tok = skip_expr(tok, dbg);
}
break;
}
}
}
tokens = NULL;
last_tok = NULL;
bytecount dummy;
if (!is_struct) {
l = (tmp_line) ? tmp_line : l;
address = parse_tokens(l->tok, &l, &dummy, 0, address, dbg);
if (tmp_line) {
tmp_line = NULL;
}
}
if (dbg) {
printf("lex(): Next address: $%"PRIX64"\n", address);
}
if (ln > linenum || islinenum) {
l->linenum = ln;
if (ln > linenum) {
linenum+=(10+(ln & 10));
}
} else if (!islinenum) {
l->linenum = linenum;
linenum += 10;
}
}
return address;
}