ref: 1bfde841484fadb1c41f41a6279e7e070f61a31b
dir: /sys/src/cmd/dtracy/lex.c/
#include <u.h> #include <libc.h> #include <ctype.h> #include <dtracy.h> #include <bio.h> #include "dat.h" #include "fns.h" #include "y.tab.h" char *str, *strp, *stre; int lineno = 1; int errors; typedef struct Keyword Keyword; struct Keyword { char *name; int tok; }; /* both tables must be sorted */ Keyword kwtab[] = { "if", TIF, "print", TPRINT, "printf", TPRINTF, "s16", TS16, "s32", TS32, "s64", TS64, "s8", TS8, "string", TSTRING, "u16", TU16, "u32", TU32, "u64", TU64, "u8", TU8, }; Keyword optab[] = { "!=", TNE, "&&", TAND, "<<", TLSL, "<=", TLE, "==", TEQ, ">=", TGE, ">>", TLSR, "||", TOR, }; Keyword *kwchar[128], *opchar[128]; void lexinit(void) { Keyword *kw; for(kw = kwtab; kw < kwtab + nelem(kwtab); kw++) if(kwchar[*kw->name] == nil) kwchar[*kw->name] = kw; for(kw = optab; kw < optab + nelem(optab); kw++) if(opchar[*kw->name] == nil) opchar[*kw->name] = kw; } void lexstring(char *s) { str = strp = s; stre = str + strlen(str); } void error(char *fmt, ...) { Fmt f; char buf[128]; va_list va; fmtfdinit(&f, 2, buf, sizeof(buf)); fmtprint(&f, "%d ", lineno); va_start(va, fmt); fmtvprint(&f, fmt, va); fmtrune(&f, '\n'); va_end(va); fmtfdflush(&f); errors++; } void yyerror(char *msg) { error("%s", msg); } static int getch(void) { if(strp >= stre){ strp++; return -1; } return *strp++; } static void ungetch(void) { assert(strp > str); strp--; } int yylex(void) { int ch; static char buf[512]; char *p; Keyword *kw; u64int v; again: while(ch = getch(), ch >= 0 && isspace(ch)){ if(ch == '\n') lineno++; } if(ch < 0) return -1; if(ch == '/'){ ch = getch(); if(ch == '/'){ while(ch = getch(), ch >= 0 && ch != '\n') ; if(ch == '\n') lineno++; goto again; } if(ch == '*'){ s1: ch = getch(); if(ch < 0) return -1; if(ch == '\n') lineno++; if(ch != '*') goto s1; s2: ch = getch(); if(ch < 0) return -1; if(ch == '\n') lineno++; if(ch == '*') goto s2; if(ch != '/') goto s1; goto again; } ungetch(); return '/'; } if(isalnum(ch) || ch == '_' || ch >= 0x80 || ch == ':'){ p = buf; *p++ = ch; while(ch = getch(), isalnum(ch) || ch == '_' || ch >= 0x80 || ch == ':') if(p < buf + sizeof(buf) - 1) *p++ = ch; *p = 0; ungetch(); v = strtoull(buf, &p, 0); if(p != buf && *p == 0){ yylval.num = v; return TNUM; } if(strcmp(buf, ":") == 0) return ':'; if((uchar)buf[0] < 0x80 && kwchar[buf[0]] != nil) for(kw = kwchar[buf[0]]; kw < kwtab + nelem(kwtab) && kw->name[0] == buf[0]; kw++) if(strcmp(kw->name, buf) == 0) return kw->tok; yylval.sym = getsym(buf); return TSYM; } if(ch == '"'){ p = buf; while(ch = getch(), ch >= 0 && ch != '"'){ if(ch == '\n') error("unterminated string"); if(ch == '\\') switch(ch = getch()){ case 'n': ch = '\n'; break; case 'r': ch = '\r'; break; case 't': ch = '\t'; break; case 'v': ch = '\v'; break; case 'b': ch = '\b'; break; case 'a': ch = '\a'; break; case '"': case '\\': break; default: error("unknown escape code \\%c", ch); } if(p < buf + sizeof(buf) - 1) *p++ = ch; } if(ch < 0) error("unterminated string"); *p = 0; yylval.str = strdup(buf); return TSTR; } if(opchar[ch] != nil){ buf[0] = ch; buf[1] = getch(); for(kw = opchar[buf[0]]; kw < optab + nelem(optab) && kw->name[0] == buf[0]; kw++) if(buf[1] == kw->name[1]){ buf[2] = getch(); buf[3] = 0; if(kw + 1 < optab + nelem(optab) && strcmp(kw[1].name, buf) == 0) return kw[1].tok; ungetch(); return kw->tok; } ungetch(); } return ch; } int nodetfmt(Fmt *f) { int t; static char *nodestr[] = { [OINVAL] "OINVAL", [OBIN] "OBIN", [OLNOT] "OLNOT", [OSYM] "OSYM", [ONUM] "ONUM", [OSTR] "OSTR", [OTERN] "OTERN", [ORECORD] "ORECORD", [OCAST] "OCAST", }; t = va_arg(f->args, int); if(t >= nelem(nodestr) || nodestr[t] == nil) return fmtprint(f, "??? (%d)", t); else return fmtprint(f, "%s", nodestr[t]); } Node * node(int type, ...) { va_list va; Node *n; n = emalloc(sizeof(Node)); n->type = type; va_start(va, type); switch(type){ case OBIN: n->op = va_arg(va, int); n->n1 = va_arg(va, Node *); n->n2 = va_arg(va, Node *); break; case OLNOT: n->n1 = va_arg(va, Node *); break; case OSYM: n->sym = va_arg(va, Symbol *); break; case ONUM: n->num = va_arg(va, s64int); break; case OTERN: n->n1 = va_arg(va, Node *); n->n2 = va_arg(va, Node *); n->n3 = va_arg(va, Node *); break; case ORECORD: n->n1 = va_arg(va, Node *); break; case OCAST: n->typ = va_arg(va, Type *); n->n1 = va_arg(va, Node *); break; case OSTR: n->str = va_arg(va, char *); break; default: sysfatal("node: unknown type %α", type); } va_end(va); return n; } SymTab globals; static u64int hash(char *s) { u64int h; h = 0xcbf29ce484222325ULL; for(; *s != 0; s++){ h ^= *s; h *= 0x100000001b3ULL; } return h; } Symbol * getsym(char *name) { u64int h; Symbol **sp, *s; h = hash(name); for(sp = &globals.sym[h % SYMHASH]; s = *sp, s != nil; sp = &s->next) if(strcmp(s->name, name) == 0) return s; *sp = s = emalloc(sizeof(Symbol)); s->name = strdup(name); return s; } int typetfmt(Fmt *f) { int t; static char *tstr[] = { [TYPINVAL] "TYPINVAL", [TYPINT] "TYPINT", [TYPPTR] "TYPPTR", [TYPSTRING] "TYPSTRING", }; t = va_arg(f->args, int); if(t >= nelem(tstr) || tstr[t] == nil) return fmtprint(f, "??? (%d)", t); else return fmtprint(f, "%s", tstr[t]); } int typefmt(Fmt *f) { Type *t; t = va_arg(f->args, Type *); switch(t->type){ case TYPINT: return fmtprint(f, "%c%d", t->sign ? 's' : 'u', t->size * 8); case TYPSTRING: return fmtprint(f, "string"); case TYPPTR: return fmtprint(f, "%τ*", t->ref); default: return fmtprint(f, "%t", t->type); } } static Type typu8 = {.type TYPINT, .size 1, .sign 0}; static Type typs8 = {.type TYPINT, .size 1, .sign 1}; static Type typu16 = {.type TYPINT, .size 2, .sign 0}; static Type typs16 = {.type TYPINT, .size 2, .sign 1}; static Type typu32 = {.type TYPINT, .size 4, .sign 0}; static Type typs32 = {.type TYPINT, .size 4, .sign 1}; static Type typu64 = {.type TYPINT, .size 8, .sign 0}; static Type typs64 = {.type TYPINT, .size 8, .sign 1}; static Type typstr = {.type TYPSTRING, .size DTSTRMAX }; static Type *typereg; static Type * mkptr(Type *t) { Type *s; for(s = typereg; s != nil; s = s->typenext) if(s->type == TYPPTR && s->ref == t) return s; s = emalloc(sizeof(Type)); s->type = TYPPTR; s->ref = t; return s; } Type * type(int typ, ...) { int size, sign; va_list va; va_start(va, typ); switch(typ){ case TYPINT: size = va_arg(va, int); sign = va_arg(va, int); switch(size << 4 | sign){ case 0x10: return &typu8; case 0x11: return &typs8; case 0x20: return &typu16; case 0x21: return &typs16; case 0x40: return &typu32; case 0x41: return &typs32; case 0x80: return &typu64; case 0x81: return &typs64; default: sysfatal("type: invalid (size,sign) = (%d,%d)\n", size, sign); return nil; } case TYPSTRING: return &typstr; case TYPPTR: return mkptr(va_arg(va, Type *)); default: sysfatal("type: unknown %t", typ); return nil; } }