ref: ddd770933bded000ad332f551892e061498e74d1
dir: /jsi.h/
#ifndef jsi_h #define jsi_h #include "mujs.h" #include <stdio.h> #include <stdlib.h> #include <stddef.h> #include <stdarg.h> #include <string.h> #include <setjmp.h> #include <math.h> #include <float.h> #include <limits.h> /* NOTE: https://gcc.gnu.org/bugzilla/show_bug.cgi?id=103052 */ #ifdef __GNUC__ #if (__GNUC__ >= 6) #pragma GCC optimize ("no-ipa-pure-const") #endif #endif /* Microsoft Visual C */ #ifdef _MSC_VER #pragma warning(disable:4996) /* _CRT_SECURE_NO_WARNINGS */ #pragma warning(disable:4244) /* implicit conversion from double to int */ #pragma warning(disable:4267) /* implicit conversion of int to smaller int */ #pragma warning(disable:4090) /* broken const warnings */ #define inline __inline #if _MSC_VER < 1900 /* MSVC 2015 */ #define snprintf jsW_snprintf #define vsnprintf jsW_vsnprintf static int jsW_vsnprintf(char *str, size_t size, const char *fmt, va_list ap) { int n; n = _vsnprintf(str, size, fmt, ap); str[size-1] = 0; return n; } static int jsW_snprintf(char *str, size_t size, const char *fmt, ...) { int n; va_list ap; va_start(ap, fmt); n = jsW_vsnprintf(str, size, fmt, ap); va_end(ap); return n; } #endif #if _MSC_VER <= 1700 /* <= MSVC 2012 */ #define isnan(x) _isnan(x) #define isinf(x) (!_finite(x)) #define isfinite(x) _finite(x) static __inline int signbit(double x) { __int64 i; memcpy(&i, &x, 8); return i>>63; } #define INFINITY (DBL_MAX+DBL_MAX) #define NAN (INFINITY-INFINITY) #endif #endif #define soffsetof(x,y) ((int)offsetof(x,y)) #define nelem(a) (int)(sizeof (a) / sizeof (a)[0]) void *js_malloc(js_State *J, int size); void *js_realloc(js_State *J, void *ptr, int size); void js_free(js_State *J, void *ptr); typedef union js_Value js_Value; typedef struct js_Regexp js_Regexp; typedef struct js_Object js_Object; typedef struct js_String js_String; typedef struct js_Ast js_Ast; typedef struct js_Function js_Function; typedef struct js_Environment js_Environment; typedef struct js_StringNode js_StringNode; typedef struct js_Jumpbuf js_Jumpbuf; typedef struct js_StackTrace js_StackTrace; /* Limits */ #ifndef JS_STACKSIZE #define JS_STACKSIZE 256 /* value stack size */ #endif #ifndef JS_ENVLIMIT #define JS_ENVLIMIT 128 /* environment stack size */ #endif #ifndef JS_TRYLIMIT #define JS_TRYLIMIT 64 /* exception stack size */ #endif #ifndef JS_ARRAYLIMIT #define JS_ARRAYLIMIT (1<<26) /* limit arrays to 64M entries (1G of flat array data) */ #endif #ifndef JS_GCFACTOR /* * GC will try to trigger when memory usage is this value times the minimum * needed memory. E.g. if there are 100 remaining objects after GC and this * value is 5.0, then the next GC will trigger when the overall number is 500. * I.e. a value of 5.0 aims at 80% garbage, 20% remain-used on each GC. * The bigger the value the less impact GC has on overall performance, but more * memory is used and individual GC pauses are longer (but fewer). */ #define JS_GCFACTOR 5.0 /* memory overhead factor >= 1.0 */ #endif #ifndef JS_ASTLIMIT #define JS_ASTLIMIT 100 /* max nested expressions */ #endif #ifndef JS_STRLIMIT #define JS_STRLIMIT (1<<28) /* max string length */ #endif /* instruction size -- change to int if you get integer overflow syntax errors */ #ifdef JS_INSTRUCTION typedef JS_INSTRUCTION js_Instruction; #else typedef unsigned short js_Instruction; #endif /* String interning */ char *js_strdup(js_State *J, const char *s); const char *js_intern(js_State *J, const char *s); void jsS_dumpstrings(js_State *J); void jsS_freestrings(js_State *J); /* Portable strtod and printf float formatting */ void js_fmtexp(char *p, int e); int js_grisu2(double v, char *buffer, int *K); double js_strtod(const char *as, char **aas); double js_strtol(const char *s, char **ep, int radix); /* Private stack functions */ void js_newarguments(js_State *J); void js_newfunction(js_State *J, js_Function *function, js_Environment *scope); void js_newscript(js_State *J, js_Function *function, js_Environment *scope); void js_loadeval(js_State *J, const char *filename, const char *source); js_Regexp *js_toregexp(js_State *J, int idx); int js_isarrayindex(js_State *J, const char *str, int *idx); int js_runeat(js_State *J, const char *s, int i); int js_utfptrtoidx(const char *s, const char *p); const char *js_utfidxtoptr(const char *s, int i); void js_dup(js_State *J); void js_dup2(js_State *J); void js_rot2(js_State *J); void js_rot3(js_State *J); void js_rot4(js_State *J); void js_rot2pop1(js_State *J); void js_rot3pop2(js_State *J); void js_dup1rot3(js_State *J); void js_dup1rot4(js_State *J); void js_RegExp_prototype_exec(js_State *J, js_Regexp *re, const char *text); void js_trap(js_State *J, int pc); /* dump stack and environment to stdout */ struct js_StackTrace { const char *name; const char *file; int line; }; /* Exception handling */ struct js_Jumpbuf { jmp_buf buf; js_Environment *E; int envtop; int tracetop; int top, bot; int strict; js_Instruction *pc; }; void *js_savetrypc(js_State *J, js_Instruction *pc); #define js_trypc(J, PC) \ setjmp(js_savetrypc(J, PC)) /* String buffer */ typedef struct js_Buffer { int n, m; char s[64]; } js_Buffer; void js_putc(js_State *J, js_Buffer **sbp, int c); void js_puts(js_State *J, js_Buffer **sb, const char *s); void js_putm(js_State *J, js_Buffer **sb, const char *s, const char *e); /* State struct */ struct js_State { void *actx; void *uctx; js_Alloc alloc; js_Report report; js_Panic panic; js_StringNode *strings; int default_strict; int strict; /* parser input source */ const char *filename; const char *source; int line; /* lexer state */ struct { char *text; int len, cap; } lexbuf; int lexline; int lexchar; int lasttoken; int newline; /* parser state */ int astdepth; int lookahead; const char *text; double number; js_Ast *gcast; /* list of allocated nodes to free after parsing */ /* runtime environment */ js_Object *Object_prototype; js_Object *Array_prototype; js_Object *Function_prototype; js_Object *Boolean_prototype; js_Object *Number_prototype; js_Object *String_prototype; js_Object *RegExp_prototype; js_Object *Date_prototype; js_Object *Error_prototype; js_Object *EvalError_prototype; js_Object *RangeError_prototype; js_Object *ReferenceError_prototype; js_Object *SyntaxError_prototype; js_Object *TypeError_prototype; js_Object *URIError_prototype; unsigned int seed; /* Math.random seed */ char scratch[12]; /* scratch buffer for iterating over array indices */ int nextref; /* for js_ref use */ js_Object *R; /* registry of hidden values */ js_Object *G; /* the global object */ js_Environment *E; /* current environment scope */ js_Environment *GE; /* global environment scope (at the root) */ /* execution stack */ int top, bot; js_Value *stack; /* garbage collector list */ int gcpause; int gcmark; unsigned int gccounter, gcthresh; js_Environment *gcenv; js_Function *gcfun; js_Object *gcobj; js_String *gcstr; js_Object *gcroot; /* gc scan list */ /* environments on the call stack but currently not in scope */ int envtop; js_Environment *envstack[JS_ENVLIMIT]; /* debug info stack trace */ int tracetop; js_StackTrace trace[JS_ENVLIMIT]; /* exception stack */ int trytop; js_Jumpbuf trybuf[JS_TRYLIMIT]; }; /* Values */ typedef struct js_Property js_Property; typedef struct js_Iterator js_Iterator; /* Hint to ToPrimitive() */ enum { JS_HNONE, JS_HNUMBER, JS_HSTRING }; enum js_Type { JS_TSHRSTR, /* type tag doubles as string zero-terminator */ JS_TUNDEFINED, JS_TNULL, JS_TBOOLEAN, JS_TNUMBER, JS_TLITSTR, JS_TMEMSTR, JS_TOBJECT, }; enum js_Class { JS_COBJECT, JS_CARRAY, JS_CFUNCTION, JS_CSCRIPT, /* function created from global/eval code */ JS_CCFUNCTION, /* built-in function */ JS_CERROR, JS_CBOOLEAN, JS_CNUMBER, JS_CSTRING, JS_CREGEXP, JS_CDATE, JS_CMATH, JS_CJSON, JS_CARGUMENTS, JS_CITERATOR, JS_CUSERDATA, }; /* Short strings abuse the js_Value struct. By putting the type tag in the last byte, and using 0 as the tag for short strings, we can use the entire js_Value as string storage by letting the type tag serve double purpose as the string zero terminator. */ union js_Value { struct { char pad[15]; char type; /* type tag overlaps with final byte of shrstr */ } t; union { char shrstr[16]; int boolean; double number; const char *litstr; js_String *memstr; js_Object *object; } u; }; struct js_String { js_String *gcnext; char gcmark; char p[1]; }; struct js_Regexp { void *prog; char *source; unsigned short flags; unsigned short last; }; struct js_Object { enum js_Class type; int extensible; js_Property *properties; int count; /* number of properties, for array sparseness check */ js_Object *prototype; union { int boolean; double number; struct { int length; char *string; char shrstr[16]; } s; struct { int length; /* actual length */ int simple; /* true if array has only non-sparse array properties */ int flat_length; /* used length of simple array part */ int flat_capacity; /* allocated length of simple array part */ js_Value *array; } a; struct { js_Function *function; js_Environment *scope; } f; struct { const char *name; js_CFunction function; js_CFunction constructor; int length; void *data; js_Finalize finalize; } c; js_Regexp r; struct { js_Object *target; int i, n; /* for array part */ js_Iterator *head, *current; /* for object part */ } iter; struct { const char *tag; void *data; js_HasProperty has; js_Put put; js_Delete delete; js_Finalize finalize; } user; } u; js_Object *gcnext; /* allocation list */ js_Object *gcroot; /* scan list */ int gcmark; }; struct js_Property { js_Property *left, *right; int level; int atts; js_Value value; js_Object *getter; js_Object *setter; char name[1]; }; struct js_Iterator { js_Iterator *next; char name[1]; }; struct js_Environment { js_Environment *outer; js_Object *variables; js_Environment *gcnext; int gcmark; }; /* jsrun.c */ js_Environment *jsR_newenvironment(js_State *J, js_Object *variables, js_Environment *outer); js_String *jsV_newmemstring(js_State *J, const char *s, int n); js_Value *js_tovalue(js_State *J, int idx); void js_toprimitive(js_State *J, int idx, int hint); js_Object *js_toobject(js_State *J, int idx); void js_pushvalue(js_State *J, js_Value v); void js_pushobject(js_State *J, js_Object *v); void jsR_unflattenarray(js_State *J, js_Object *obj); /* jsvalue.c */ int jsV_toboolean(js_State *J, js_Value *v); double jsV_tonumber(js_State *J, js_Value *v); double jsV_tointeger(js_State *J, js_Value *v); const char *jsV_tostring(js_State *J, js_Value *v); js_Object *jsV_toobject(js_State *J, js_Value *v); void jsV_toprimitive(js_State *J, js_Value *v, int preferred); const char *js_itoa(char *buf, int a); double js_stringtofloat(const char *s, char **ep); int jsV_numbertointeger(double n); int jsV_numbertoint32(double n); unsigned int jsV_numbertouint32(double n); short jsV_numbertoint16(double n); unsigned short jsV_numbertouint16(double n); const char *jsV_numbertostring(js_State *J, char buf[32], double number); double jsV_stringtonumber(js_State *J, const char *string); /* jsproperty.c */ js_Object *jsV_newobject(js_State *J, enum js_Class type, js_Object *prototype); js_Property *jsV_getownproperty(js_State *J, js_Object *obj, const char *name); js_Property *jsV_getpropertyx(js_State *J, js_Object *obj, const char *name, int *own); js_Property *jsV_getproperty(js_State *J, js_Object *obj, const char *name); js_Property *jsV_setproperty(js_State *J, js_Object *obj, const char *name); js_Property *jsV_nextproperty(js_State *J, js_Object *obj, const char *name); void jsV_delproperty(js_State *J, js_Object *obj, const char *name); js_Object *jsV_newiterator(js_State *J, js_Object *obj, int own); const char *jsV_nextiterator(js_State *J, js_Object *iter); void jsV_resizearray(js_State *J, js_Object *obj, int newlen); void jsV_unflattenarray(js_State *J, js_Object *obj); void jsV_growarray(js_State *J, js_Object *obj); /* Lexer */ enum { TK_IDENTIFIER = 256, TK_NUMBER, TK_STRING, TK_REGEXP, /* multi-character punctuators */ TK_LE, TK_GE, TK_EQ, TK_NE, TK_STRICTEQ, TK_STRICTNE, TK_SHL, TK_SHR, TK_USHR, TK_AND, TK_OR, TK_ADD_ASS, TK_SUB_ASS, TK_MUL_ASS, TK_DIV_ASS, TK_MOD_ASS, TK_SHL_ASS, TK_SHR_ASS, TK_USHR_ASS, TK_AND_ASS, TK_OR_ASS, TK_XOR_ASS, TK_INC, TK_DEC, /* keywords */ TK_BREAK, TK_CASE, TK_CATCH, TK_CONTINUE, TK_DEBUGGER, TK_DEFAULT, TK_DELETE, TK_DO, TK_ELSE, TK_FALSE, TK_FINALLY, TK_FOR, TK_FUNCTION, TK_IF, TK_IN, TK_INSTANCEOF, TK_NEW, TK_NULL, TK_RETURN, TK_SWITCH, TK_THIS, TK_THROW, TK_TRUE, TK_TRY, TK_TYPEOF, TK_VAR, TK_VOID, TK_WHILE, TK_WITH, }; int jsY_iswhite(int c); int jsY_isnewline(int c); int jsY_ishex(int c); int jsY_tohex(int c); const char *jsY_tokenstring(int token); int jsY_findword(const char *s, const char **list, int num); void jsY_initlex(js_State *J, const char *filename, const char *source); int jsY_lex(js_State *J); int jsY_lexjson(js_State *J); /* Parser */ enum js_AstType { AST_LIST, AST_FUNDEC, AST_IDENTIFIER, EXP_IDENTIFIER, EXP_NUMBER, EXP_STRING, EXP_REGEXP, /* literals */ EXP_ELISION, /* for array elisions */ EXP_NULL, EXP_TRUE, EXP_FALSE, EXP_THIS, EXP_ARRAY, EXP_OBJECT, EXP_PROP_VAL, EXP_PROP_GET, EXP_PROP_SET, EXP_FUN, /* expressions */ EXP_INDEX, EXP_MEMBER, EXP_CALL, EXP_NEW, EXP_POSTINC, EXP_POSTDEC, EXP_DELETE, EXP_VOID, EXP_TYPEOF, EXP_PREINC, EXP_PREDEC, EXP_POS, EXP_NEG, EXP_BITNOT, EXP_LOGNOT, EXP_MOD, EXP_DIV, EXP_MUL, EXP_SUB, EXP_ADD, EXP_USHR, EXP_SHR, EXP_SHL, EXP_IN, EXP_INSTANCEOF, EXP_GE, EXP_LE, EXP_GT, EXP_LT, EXP_STRICTNE, EXP_STRICTEQ, EXP_NE, EXP_EQ, EXP_BITAND, EXP_BITXOR, EXP_BITOR, EXP_LOGAND, EXP_LOGOR, EXP_COND, EXP_ASS, EXP_ASS_MUL, EXP_ASS_DIV, EXP_ASS_MOD, EXP_ASS_ADD, EXP_ASS_SUB, EXP_ASS_SHL, EXP_ASS_SHR, EXP_ASS_USHR, EXP_ASS_BITAND, EXP_ASS_BITXOR, EXP_ASS_BITOR, EXP_COMMA, EXP_VAR, /* var initializer */ /* statements */ STM_BLOCK, STM_EMPTY, STM_VAR, STM_IF, STM_DO, STM_WHILE, STM_FOR, STM_FOR_VAR, STM_FOR_IN, STM_FOR_IN_VAR, STM_CONTINUE, STM_BREAK, STM_RETURN, STM_WITH, STM_SWITCH, STM_THROW, STM_TRY, STM_DEBUGGER, STM_LABEL, STM_CASE, STM_DEFAULT, }; typedef struct js_JumpList js_JumpList; struct js_JumpList { enum js_AstType type; int inst; js_JumpList *next; }; struct js_Ast { enum js_AstType type; int line; js_Ast *parent, *a, *b, *c, *d; double number; const char *string; js_JumpList *jumps; /* list of break/continue jumps to patch */ int casejump; /* for switch case clauses */ js_Ast *gcnext; /* next in alloc list */ }; js_Ast *jsP_parsefunction(js_State *J, const char *filename, const char *params, const char *body); js_Ast *jsP_parse(js_State *J, const char *filename, const char *source); void jsP_freeparse(js_State *J); /* Compiler */ enum js_OpCode { OP_POP, /* A -- */ OP_DUP, /* A -- A A */ OP_DUP2, /* A B -- A B A B */ OP_ROT2, /* A B -- B A */ OP_ROT3, /* A B C -- C A B */ OP_ROT4, /* A B C D -- D A B C */ OP_INTEGER, /* -K- (number-32768) */ OP_NUMBER, /* -N- <number> */ OP_STRING, /* -S- <string> */ OP_CLOSURE, /* -F- <closure> */ OP_NEWARRAY, OP_NEWOBJECT, OP_NEWREGEXP, /* -S,opts- <regexp> */ OP_UNDEF, OP_NULL, OP_TRUE, OP_FALSE, OP_THIS, OP_CURRENT, /* currently executing function object */ OP_GETLOCAL, /* -K- <value> */ OP_SETLOCAL, /* <value> -K- <value> */ OP_DELLOCAL, /* -K- false */ OP_HASVAR, /* -S- ( <value> | undefined ) */ OP_GETVAR, /* -S- <value> */ OP_SETVAR, /* <value> -S- <value> */ OP_DELVAR, /* -S- <success> */ OP_IN, /* <name> <obj> -- <exists?> */ OP_SKIPARRAY, /* <obj> -- <obj> */ OP_INITARRAY, /* <obj> <val> -- <obj> */ OP_INITPROP, /* <obj> <key> <val> -- <obj> */ OP_INITGETTER, /* <obj> <key> <closure> -- <obj> */ OP_INITSETTER, /* <obj> <key> <closure> -- <obj> */ OP_GETPROP, /* <obj> <name> -- <value> */ OP_GETPROP_S, /* <obj> -S- <value> */ OP_SETPROP, /* <obj> <name> <value> -- <value> */ OP_SETPROP_S, /* <obj> <value> -S- <value> */ OP_DELPROP, /* <obj> <name> -- <success> */ OP_DELPROP_S, /* <obj> -S- <success> */ OP_ITERATOR, /* <obj> -- <iobj> */ OP_NEXTITER, /* <iobj> -- ( <iobj> <name> true | false ) */ OP_EVAL, /* <args...> -(numargs)- <returnvalue> */ OP_CALL, /* <closure> <this> <args...> -(numargs)- <returnvalue> */ OP_NEW, /* <closure> <args...> -(numargs)- <returnvalue> */ OP_TYPEOF, OP_POS, OP_NEG, OP_BITNOT, OP_LOGNOT, OP_INC, /* <x> -- ToNumber(x)+1 */ OP_DEC, /* <x> -- ToNumber(x)-1 */ OP_POSTINC, /* <x> -- ToNumber(x)+1 ToNumber(x) */ OP_POSTDEC, /* <x> -- ToNumber(x)-1 ToNumber(x) */ OP_MUL, OP_DIV, OP_MOD, OP_ADD, OP_SUB, OP_SHL, OP_SHR, OP_USHR, OP_LT, OP_GT, OP_LE, OP_GE, OP_EQ, OP_NE, OP_STRICTEQ, OP_STRICTNE, OP_JCASE, OP_BITAND, OP_BITXOR, OP_BITOR, OP_INSTANCEOF, OP_THROW, OP_TRY, /* -ADDR- /jump/ or -ADDR- <exception> */ OP_ENDTRY, OP_CATCH, /* push scope chain with exception variable */ OP_ENDCATCH, OP_WITH, OP_ENDWITH, OP_DEBUGGER, OP_JUMP, OP_JTRUE, OP_JFALSE, OP_RETURN, }; struct js_Function { const char *name; int script; int lightweight; int strict; int arguments; int numparams; js_Instruction *code; int codecap, codelen; js_Function **funtab; int funcap, funlen; const char **vartab; int varcap, varlen; const char *filename; int line, lastline; js_Function *gcnext; int gcmark; }; js_Function *jsC_compilefunction(js_State *J, js_Ast *prog); js_Function *jsC_compilescript(js_State *J, js_Ast *prog, int default_strict); /* Builtins */ void jsB_init(js_State *J); void jsB_initobject(js_State *J); void jsB_initarray(js_State *J); void jsB_initfunction(js_State *J); void jsB_initboolean(js_State *J); void jsB_initnumber(js_State *J); void jsB_initstring(js_State *J); void jsB_initregexp(js_State *J); void jsB_initerror(js_State *J); void jsB_initmath(js_State *J); void jsB_initjson(js_State *J); void jsB_initdate(js_State *J); void jsB_propf(js_State *J, const char *name, js_CFunction cfun, int n); void jsB_propn(js_State *J, const char *name, double number); void jsB_props(js_State *J, const char *name, const char *string); #endif