ref: 157e30c5b46fb90e193c2a15d7a9b6a1b7bce13c
dir: /js-parse.c/
#include "js.h" #include "js-parse.h" #include "js-ast.h" #define A1(x,a) jsP_newnode(J, x, a, 0, 0, 0) #define A2(x,a,b) jsP_newnode(J, x, a, b, 0, 0) #define A3(x,a,b,c) jsP_newnode(J, x, a, b, c, 0) #define LIST(h,t) jsP_newnode(J, AST_LIST, h, t, 0, 0); #define HEAD(h) jsP_newnode(J, AST_LIST, h, 0, 0, 0); #define TAIL(t) jsP_newnode(J, AST_LIST, 0, t, 0, 0); #define ID(s) jsP_newsnode(J, AST_IDENTIFIER, s) #define EXP0(x) jsP_newnode(J, EXP_ ## x, 0, 0, 0, 0) #define EXP1(x,a) jsP_newnode(J, EXP_ ## x, a, 0, 0, 0) #define EXP2(x,a,b) jsP_newnode(J, EXP_ ## x, a, b, 0, 0) #define EXP3(x,a,b,c) jsP_newnode(J, EXP_ ## x, a, b, c, 0) #define STM1(x,a) jsP_newnode(J, STM_ ## x, a, 0, 0, 0) #define STM2(x,a,b) jsP_newnode(J, STM_ ## x, a, b, 0, 0) #define STM3(x,a,b,c) jsP_newnode(J, STM_ ## x, a, b, c, 0) #define STM4(x,a,b,c,d) jsP_newnode(J, STM_ ## x, a, b, c, d) static js_Ast *expression(js_State *J, int notin); static js_Ast *assignment(js_State *J, int notin); static js_Ast *memberexp(js_State *J); static js_Ast *block(js_State *J); static void next(js_State *J) { J->lookahead = jsP_lex(J); } static int accept(js_State *J, int t) { if (J->lookahead == t) { next(J); return 1; } return 0; } static int expect(js_State *J, int t) { if (accept(J, t)) return 1; fprintf(stderr, "syntax error: unexpected token %d (expected %d)\n", J->lookahead, t); return 0; } static int semicolon(js_State *J) { if (J->lookahead == ';') { next(J); return 1; } if (J->newline || J->lookahead == '}' || J->lookahead == 0) return 1; fprintf(stderr, "syntax error: expected semicolon\n"); return 0; } static js_Ast *identifier(js_State *J) { if (J->lookahead == TK_IDENTIFIER) { js_Ast *a = ID(J->yytext); next(J); return a; } fprintf(stderr, "syntax error: expected identifier\n"); return NULL; } static js_Ast *identifiername(js_State *J) { js_Ast *a = NULL; switch (J->lookahead) { case TK_IDENTIFIER: a = ID(J->yytext); break; case TK_BREAK: a = ID("break"); break; case TK_CASE: a = ID("case"); break; case TK_CATCH: a = ID("catch"); break; case TK_CONTINUE: a = ID("continue"); break; case TK_DEBUGGER: a = ID("debugger"); break; case TK_DEFAULT: a = ID("default"); break; case TK_DELETE: a = ID("delete"); break; case TK_DO: a = ID("do"); break; case TK_ELSE: a = ID("else"); break; case TK_FALSE: a = ID("false"); break; case TK_FINALLY: a = ID("finally"); break; case TK_FOR: a = ID("for"); break; case TK_FUNCTION: a = ID("function"); break; case TK_IF: a = ID("if"); break; case TK_IN: a = ID("in"); break; case TK_INSTANCEOF: a = ID("instanceof"); break; case TK_NEW: a = ID("new"); break; case TK_NULL: a = ID("null"); break; case TK_RETURN: a = ID("a ="); break; case TK_SWITCH: a = ID("switch"); break; case TK_THIS: a = ID("this"); break; case TK_THROW: a = ID("throw"); break; case TK_TRUE: a = ID("true"); break; case TK_TRY: a = ID("try"); break; case TK_TYPEOF: a = ID("typeof"); break; case TK_VAR: a = ID("var"); break; case TK_VOID: a = ID("void"); break; case TK_WHILE: a = ID("while"); break; case TK_WITH: a = ID("with"); break; default: fprintf(stderr, "syntax error: expected identifier name\n"); return NULL; } next(J); return a; } static js_Ast *arguments(js_State *J) { js_Ast *head, *node; if (J->lookahead == ')') return NULL; node = assignment(J, 0); head = HEAD(node); while (accept(J, ',')) { node = assignment(J, 0); head = LIST(head, node); } return head; } static js_Ast *arrayliteral(js_State *J) { js_Ast *head, *node; while (J->lookahead == ',') next(J); if (J->lookahead == ']') return NULL; node = assignment(J, 0); head = HEAD(node); while (accept(J, ',')) { while (J->lookahead == ',') next(J); if (J->lookahead == ']') break; node = assignment(J, 0); head = LIST(head, node); } return head; } static js_Ast *propname(js_State *J) { js_Ast *name; if (J->lookahead == TK_NUMBER) { name = jsP_newnnode(J, AST_NUMBER, J->yynumber); next(J); } else if (J->lookahead == TK_STRING) { name = jsP_newsnode(J, AST_NUMBER, J->yytext); next(J); } else { name = identifiername(J); } return name; } static js_Ast *propassign(js_State *J) { js_Ast *name, *value, *arg, *body; if (J->lookahead == TK_IDENTIFIER && !strcmp(J->yytext, "get")) { next(J); name = propname(J); expect(J, '('); expect(J, ')'); body = block(J); return EXP2(PROP_GET, name, body); } if (J->lookahead == TK_IDENTIFIER && !strcmp(J->yytext, "set")) { next(J); name = propname(J); expect(J, '('); arg = identifier(J); expect(J, ')'); body = block(J); return EXP3(PROP_SET, name, arg, body); } name = propname(J); expect(J, ':'); value = assignment(J, 0); return EXP2(PROP_VAL, name, value); } static js_Ast *objectliteral(js_State *J) { js_Ast *head, *node; if (J->lookahead == '}') return NULL; node = propassign(J); head = HEAD(node); while (accept(J, ',')) { if (J->lookahead == '}') break; node = propassign(J); head = LIST(head, node); } return head; } static js_Ast *primary(js_State *J) { js_Ast *a; if (J->lookahead == TK_IDENTIFIER) { a = jsP_newsnode(J, AST_IDENTIFIER, J->yytext); next(J); return a; } if (J->lookahead == TK_STRING) { a = jsP_newsnode(J, AST_STRING, J->yytext); next(J); return a; } if (J->lookahead == TK_NUMBER) { a = jsP_newnnode(J, AST_NUMBER, J->yynumber); next(J); return a; } if (accept(J, TK_THIS)) return EXP0(THIS); if (accept(J, TK_NULL)) return EXP0(NULL); if (accept(J, TK_TRUE)) return EXP0(TRUE); if (accept(J, TK_FALSE)) return EXP0(FALSE); if (accept(J, '{')) { a = EXP1(OBJECT, objectliteral(J)); expect(J, '}'); return a; } if (accept(J, '[')) { a = EXP1(ARRAY, arrayliteral(J)); expect(J, ']'); return a; } if (accept(J, '(')) { a = expression(J, 0); expect(J, ')'); return a; } fprintf(stderr, "syntax error\n"); return NULL; } static js_Ast *newexp(js_State *J) { js_Ast *a, *b; if (accept(J, TK_NEW)) { a = memberexp(J); if (accept(J, '(')) { b = arguments(J); expect(J, ')'); return EXP2(NEW, a, b); } return EXP1(NEW, a); } return primary(J); } static js_Ast *memberexp(js_State *J) { js_Ast *a = newexp(J); loop: if (accept(J, '.')) { a = EXP2(MEMBER, a, identifiername(J)); goto loop; } if (accept(J, '[')) { a = EXP2(INDEX, a, expression(J, 0)); expect(J, ']'); goto loop; } return a; } static js_Ast *callexp(js_State *J) { js_Ast *a = newexp(J); loop: if (accept(J, '.')) { a = EXP2(MEMBER, a, identifiername(J)); goto loop; } if (accept(J, '[')) { a = EXP2(INDEX, a, expression(J, 0)); expect(J, ']'); goto loop; } if (accept(J, '(')) { a = EXP2(CALL, a, arguments(J)); expect(J, ')'); goto loop; } return a; } static js_Ast *postfix(js_State *J) { js_Ast *a = callexp(J); if (!J->newline && accept(J, TK_INC)) return EXP1(POSTINC, a); if (!J->newline && accept(J, TK_DEC)) return EXP1(POSTDEC, a); return a; } static js_Ast *unary(js_State *J) { if (accept(J, TK_DELETE)) return EXP1(DELETE, unary(J)); if (accept(J, TK_VOID)) return EXP1(VOID, unary(J)); if (accept(J, TK_TYPEOF)) return EXP1(TYPEOF, unary(J)); if (accept(J, TK_INC)) return EXP1(PREINC, unary(J)); if (accept(J, TK_DEC)) return EXP1(PREDEC, unary(J)); if (accept(J, '+')) return EXP1(POS, unary(J)); if (accept(J, '-')) return EXP1(NEG, unary(J)); if (accept(J, '~')) return EXP1(BITNOT, unary(J)); if (accept(J, '!')) return EXP1(LOGNOT, unary(J)); return postfix(J); } static js_Ast *multiplicative(js_State *J) { js_Ast *a = unary(J); loop: if (accept(J, '*')) { a = EXP2(MUL, a, unary(J)); goto loop; } if (accept(J, '/')) { a = EXP2(DIV, a, unary(J)); goto loop; } if (accept(J, '%')) { a = EXP2(MOD, a, unary(J)); goto loop; } return a; } static js_Ast *additive(js_State *J) { js_Ast *a = multiplicative(J); loop: if (accept(J, '+')) { a = EXP2(ADD, a, multiplicative(J)); goto loop; } if (accept(J, '-')) { a = EXP2(SUB, a, multiplicative(J)); goto loop; } return a; } static js_Ast *shift(js_State *J) { js_Ast *a = additive(J); loop: if (accept(J, TK_SHL)) { a = EXP2(SHL, a, additive(J)); goto loop; } if (accept(J, TK_SHR)) { a = EXP2(SHR, a, additive(J)); goto loop; } if (accept(J, TK_USHR)) { a = EXP2(USHR, a, additive(J)); goto loop; } return a; } static js_Ast *relational(js_State *J, int notin) { js_Ast *a = shift(J); loop: if (accept(J, '<')) { a = EXP2(LT, a, shift(J)); goto loop; } if (accept(J, '>')) { a = EXP2(GT, a, shift(J)); goto loop; } if (accept(J, TK_LE)) { a = EXP2(LE, a, shift(J)); goto loop; } if (accept(J, TK_GE)) { a = EXP2(GE, a, shift(J)); goto loop; } if (accept(J, TK_INSTANCEOF)) { a = EXP2(INSTANCEOF, a, shift(J)); goto loop; } if (!notin && accept(J, TK_IN)) { a = EXP2(IN, a, shift(J)); goto loop; } return a; } static js_Ast *equality(js_State *J, int notin) { js_Ast *a = relational(J, notin); loop: if (accept(J, TK_EQ)) { a = EXP2(EQ, a, relational(J, notin)); goto loop; } if (accept(J, TK_NE)) { a = EXP2(NE, a, relational(J, notin)); goto loop; } if (accept(J, TK_EQ3)) { a = EXP2(EQ3, a, relational(J, notin)); goto loop; } if (accept(J, TK_NE3)) { a = EXP2(NE3, a, relational(J, notin)); goto loop; } return a; } static js_Ast *bitand(js_State *J, int notin) { js_Ast *a = equality(J, notin); while (accept(J, '&')) a = EXP2(BITAND, a, equality(J, notin)); return a; } static js_Ast *bitxor(js_State *J, int notin) { js_Ast *a = bitand(J, notin); while (accept(J, '^')) a = EXP2(BITXOR, a, bitand(J, notin)); return a; } static js_Ast *bitor(js_State *J, int notin) { js_Ast *a = bitxor(J, notin); while (accept(J, '|')) a = EXP2(BITOR, a, bitxor(J, notin)); return a; } static js_Ast *logand(js_State *J, int notin) { js_Ast *a = bitor(J, notin); while (accept(J, TK_AND)) a = EXP2(LOGAND, a, bitor(J, notin)); return a; } static js_Ast *logor(js_State *J, int notin) { js_Ast *a = logand(J, notin); while (accept(J, TK_OR)) a = EXP2(LOGOR, a, logand(J, notin)); return a; } static js_Ast *conditional(js_State *J, int notin) { js_Ast *a, *b, *c; a = logor(J, notin); if (accept(J, '?')) { b = assignment(J, notin); expect(J, ':'); c = assignment(J, notin); return EXP3(COND, a, b, c); } return a; } static js_Ast *assignment(js_State *J, int notin) { js_Ast *a = conditional(J, notin); if (accept(J, '=')) return EXP2(ASS, a, assignment(J, notin)); if (accept(J, TK_MUL_ASS)) return EXP2(ASS_MUL, a, assignment(J, notin)); if (accept(J, TK_DIV_ASS)) return EXP2(ASS_DIV, a, assignment(J, notin)); if (accept(J, TK_MOD_ASS)) return EXP2(ASS_MOD, a, assignment(J, notin)); if (accept(J, TK_ADD_ASS)) return EXP2(ASS_ADD, a, assignment(J, notin)); if (accept(J, TK_SUB_ASS)) return EXP2(ASS_SUB, a, assignment(J, notin)); if (accept(J, TK_SHL_ASS)) return EXP2(ASS_SHL, a, assignment(J, notin)); if (accept(J, TK_SHR_ASS)) return EXP2(ASS_SHR, a, assignment(J, notin)); if (accept(J, TK_USHR_ASS)) return EXP2(ASS_USHR, a, assignment(J, notin)); if (accept(J, TK_AND_ASS)) return EXP2(ASS_BITAND, a, assignment(J, notin)); if (accept(J, TK_XOR_ASS)) return EXP2(ASS_BITXOR, a, assignment(J, notin)); if (accept(J, TK_OR_ASS)) return EXP2(ASS_BITOR, a, assignment(J, notin)); return a; } static js_Ast *expression(js_State *J, int notin) { js_Ast *a = assignment(J, notin); while (accept(J, ',')) a = EXP2(COMMA, a, assignment(J, notin)); return a; } void statement(js_State *J) { js_Ast *exp = expression(J, 1); semicolon(J); printast(exp); putchar(';'); putchar('\n'); } static js_Ast *block(js_State *J) { expect(J, '{'); expect(J, '}'); return NULL; } void program(js_State *J) { next(J); while (J->lookahead != 0 && J->lookahead != TK_ERROR) statement(J); } int jsP_parse(js_State *J) { program(J); return 0; }