/* -*- Mode: c++ -*- * Next Scripting Framework * * Copyright (C) 1999-2010 Gustaf Neumann, Uwe Zdun * * nsfInt.h -- * * Mostly internally used API Functions */ #ifndef _nsf_int_h_ #define _nsf_int_h_ #if defined(HAVE_STDINT_H) # define HAVE_INTPTR_T # define HAVE_UINTPTR_T #endif #include #include "nsf.h" #include #include #include #if defined(HAVE_TCL_COMPILE_H) # include #endif #if defined(NSF_PROFILE) # include #endif #if defined(__GNUC__) && __GNUC__ > 2 /* Use gcc branch prediction hint to minimize cost of e.g. DTrace * ENABLED checks. */ # define unlikely(x) (__builtin_expect((x), 0)) # define likely(x) (__builtin_expect((x), 1)) #else # define unlikely(x) (x) # define likely(x) (x) #endif #if defined(NSF_DTRACE) # include "nsfDTrace.h" # define NSF_DTRACE_METHOD_ENTRY_ENABLED() unlikely(NSF_METHOD_ENTRY_ENABLED()) # define NSF_DTRACE_METHOD_RETURN_ENABLED() unlikely(NSF_METHOD_RETURN_ENABLED()) # define NSF_DTRACE_OBJECT_ALLOC_ENABLED() unlikely(NSF_OBJECT_ALLOC_ENABLED()) # define NSF_DTRACE_OBJECT_FREE_ENABLED() unlikely(NSF_OBJECT_FREE_ENABLED()) # define NSF_DTRACE_CONFIGURE_PROBE_ENABLED() unlikely(NSF_CONFIGURE_PROBE_ENABLED()) # define NSF_DTRACE_METHOD_ENTRY(a0, a1, a2, a3, a4) NSF_METHOD_ENTRY(a0, a1, a2, a3, a4) # define NSF_DTRACE_METHOD_RETURN(a0, a1, a2, a3) NSF_METHOD_RETURN(a0, a1, a2, a3) # define NSF_DTRACE_OBJECT_ALLOC(a0, a1) NSF_OBJECT_ALLOC(a0, a1) # define NSF_DTRACE_OBJECT_FREE(a0, a1) NSF_OBJECT_FREE(a0, a1) # define NSF_DTRACE_CONFIGURE_PROBE(a0, a1) NSF_CONFIGURE_PROBE(a0, a1) #else # define NSF_DTRACE_METHOD_ENTRY_ENABLED() 0 # define NSF_DTRACE_METHOD_RETURN_ENABLED() 0 # define NSF_DTRACE_OBJECT_ALLOC_ENABLED() 0 # define NSF_DTRACE_OBJECT_FREE_ENABLED() 0 # define NSF_DTRACE_CONFIGURE_PROBE_ENABLED() 0 # define NSF_DTRACE_METHOD_ENTRY(a0, a1, a2, a3, a4) {} # define NSF_DTRACE_METHOD_RETURN(a0, a1, a2, a3) {} # define NSF_DTRACE_OBJECT_ALLOC(a0, a1) {} # define NSF_DTRACE_OBJECT_FREE(a0, a1) {} # define NSF_DTRACE_CONFIGURE_PROBE(a0, a1) {} #endif #ifdef DMALLOC # include "dmalloc.h" #endif #ifdef BUILD_nsf # undef TCL_STORAGE_CLASS # define TCL_STORAGE_CLASS DLLEXPORT #endif /* * Makros */ #if defined(PRE86) # define Tcl_NRCallObjProc(interp, proc, cd, objc, objv) \ (*(proc))((cd), (interp), (objc), (objv)) #endif #ifdef NSF_MEM_COUNT extern int nsfMemCountInterpCounter; typedef struct NsfMemCounter { int peak; int count; } NsfMemCounter; # define INTERP interp, # define INTERP1 interp # define INTERP_DECL Tcl_Interp *interp, # define INTERP_DECL1 Tcl_Interp *interp # define INTERP_MEMBER_DECL Tcl_Interp *interp; # define INTERP_MEMBER_GET(ptr) Tcl_Interp *interp = (ptr)->interp; # define INTERP_MEMBER_SET(ptr, value) (ptr)->interp = (value); # define MEM_COUNT_ALLOC(id,p) NsfMemCountAlloc(interp, id, p) # define MEM_COUNT_FREE(id,p) NsfMemCountFree(interp, id, p) # define MEM_COUNT_INIT(interp) NsfMemCountInit(interp) # define MEM_COUNT_RELEASE(interp) NsfMemCountRelease(interp) #else # define INTERP # define INTERP1 # define INTERP_DECL # define INTERP_DECL1 # define INTERP_MEMBER_DECL # define INTERP_MEMBER_GET(ptr) # define INTERP_MEMBER_SET(ptr, value) # define MEM_COUNT_ALLOC(id,p) # define MEM_COUNT_FREE(id,p) # define MEM_COUNT_INIT(interp) # define MEM_COUNT_RELEASE(interp) #endif # define STRING_NEW(target, p, l) target = ckalloc(l+1); strncpy(target, p, l); *((target)+l) = '\0'; \ MEM_COUNT_ALLOC(#target, target) # define STRING_FREE(key, p) MEM_COUNT_FREE(key, p); ckfree((p)) /* * Tries to use gcc __attribute__ unused and mangles the name, so the * attribute could not be used, if declared as unused. */ #ifdef UNUSED #elif defined(__GNUC__) # define UNUSED(x) UNUSED_ ## x __attribute__((unused)) #elif defined(__LCLINT__) # define UNUSED(x) /*@unused@*/ x #else # define UNUSED(x) x #endif #define DSTRING_INIT(dsPtr) Tcl_DStringInit(dsPtr); MEM_COUNT_ALLOC("DString",dsPtr) #define DSTRING_FREE(dsPtr) \ if ((dsPtr)->string != (dsPtr)->staticSpace) {Tcl_DStringFree(dsPtr);} MEM_COUNT_FREE("DString",dsPtr) #if USE_ASSOC_DATA # define RUNTIME_STATE(interp) ((NsfRuntimeState*)Tcl_GetAssocData((interp), "NsfRuntimeState", NULL)) #else # define RUNTIME_STATE(interp) ((NsfRuntimeState*)((Interp*)(interp))->globalNsPtr->clientData) #endif #define nr_elements(arr) ((int) (sizeof(arr) / sizeof(arr[0]))) # define NEW(type) \ (type *)ckalloc(sizeof(type)); MEM_COUNT_ALLOC(#type, NULL) # define NEW_ARRAY(type,n) \ (type *)ckalloc(sizeof(type)*(n)); MEM_COUNT_ALLOC(#type "*", NULL) # define FREE(type, var) \ ckfree((char*) var); MEM_COUNT_FREE(#type,var) #define isAbsolutePath(m) (*m == ':' && m[1] == ':') #define isArgsString(m) (\ *m == 'a' && m[1] == 'r' && m[2] == 'g' && m[3] == 's' && \ m[4] == '\0') #define isBodyString(m) (\ *m == 'b' && m[1] == 'o' && m[2] == 'd' && m[3] == 'y' && \ m[4] == '\0') #define isCheckString(m) (\ *m == 'c' && m[1] == 'h' && m[2] == 'e' && m[3] == 'c' && \ m[4] == 'k' && m[5] == '\0') #define isCheckObjString(m) (\ *m == 'c' && m[1] == 'h' && m[2] == 'e' && m[3] == 'c' && \ m[4] == 'k' && m[5] == 'o' && m[6] == 'b' && m[7] == 'j' && \ m[8] == '\0') #define isCreateString(m) (\ *m == 'c' && m[1] == 'r' && m[2] == 'e' && m[3] == 'a' && \ m[4] == 't' && m[5] == 'e' && m[6] == '\0') #define isTypeString(m) (\ *m == 't' && m[1] == 'y' && m[2] == 'p' && m[3] == 'e' && \ m[4] == '\0') #define isObjectString(m) (\ *m == 'o' && m[1] == 'b' && m[2] == 'j' && m[3] == 'e' && \ m[4] == 'c' && m[5] == 't' && m[6] == '\0') #define isClassString(m) (\ *m == 'c' && m[1] == 'l' && m[2] == 'a' && m[3] == 's' && \ m[4] == 's' && m[5] == '\0') #if (defined(sun) || defined(__hpux)) && !defined(__GNUC__) # define USE_ALLOCA #endif #if defined(__IBMC__) && !defined(__GNUC__) # if __IBMC__ >= 0x0306 # define USE_ALLOCA # else # define USE_MALLOC # endif #endif #if defined(VISUAL_CC) # define USE_MALLOC #endif #if defined(__GNUC__) && !defined(USE_ALLOCA) && !defined(USE_MALLOC) # if !defined(NDEBUG) # define ALLOC_ON_STACK(type,n,var) \ int __##var##_count = (n); type __##var[n+2]; \ type *var = __##var + 1; var[-1] = var[__##var##_count] = (type)0xdeadbeaf # define FREE_ON_STACK(type,var) \ assert(var[-1] == var[__##var##_count] && var[-1] == (type)0xdeadbeaf) # else # define ALLOC_ON_STACK(type,n,var) type var[(n)] # define FREE_ON_STACK(type,var) # endif #elif defined(USE_ALLOCA) # define ALLOC_ON_STACK(type,n,var) type *var = (type *)alloca((n)*sizeof(type)) # define FREE_ON_STACK(type,var) #else # define ALLOC_ON_STACK(type,n,var) type *var = (type *)ckalloc((n)*sizeof(type)) # define FREE_ON_STACK(type,var) ckfree((char*)var) #endif #ifdef USE_ALLOCA # include #endif #ifdef __WIN32__ # define NSF_INLINE # define NsfNewObj(A) A=Tcl_NewObj() # define DECR_REF_COUNT(A) \ MEM_COUNT_FREE("INCR_REF_COUNT" #A,A); Tcl_DecrRefCount(A) #else /* * This was defined to be inline for anything !sun or __IBMC__ >= 0x0306, * but __hpux should also be checked - switched to only allow in gcc - JH */ # if defined(__GNUC__) # define NSF_INLINE inline # else # define NSF_INLINE # endif # ifdef USE_TCL_STUBS # define NsfNewObj(A) A=Tcl_NewObj() # define DECR_REF_COUNT(A) \ MEM_COUNT_FREE("INCR_REF_COUNT" #A,A); assert((A)->refCount > -1); \ Tcl_DecrRefCount(A) # define DECR_REF_COUNT2(name,A) \ MEM_COUNT_FREE("INCR_REF_COUNT-" name,A); assert((A)->refCount > -1); \ Tcl_DecrRefCount(A) # else # define NsfNewObj(A) TclNewObj(A) # define DECR_REF_COUNT(A) \ MEM_COUNT_FREE("INCR_REF_COUNT" #A,A); TclDecrRefCount(A) # define DECR_REF_COUNT2(name,A) \ MEM_COUNT_FREE("INCR_REF_COUNT-" name,A); TclDecrRefCount(A) # endif #endif #ifndef HAVE_STRNSTR char *strnstr(const char *buffer, const char *needle, size_t buffer_len); #endif #define ObjStr(obj) (obj)->bytes ? (obj)->bytes : Tcl_GetString(obj) #define INCR_REF_COUNT(A) MEM_COUNT_ALLOC("INCR_REF_COUNT"#A,A); Tcl_IncrRefCount(A) #define INCR_REF_COUNT2(name,A) \ /*fprintf(stderr, "c '%s'\n", ObjStr(A));*/ \ MEM_COUNT_ALLOC("INCR_REF_COUNT-" name,A); Tcl_IncrRefCount(A) #ifdef OBJDELETION_TRACE # define PRINTOBJ(ctx,obj) \ fprintf(stderr, " %s %p %s oid=%p teardown=%p destroyCalled=%d\n", \ ctx,obj,(obj)->teardown?ObjStr((obj)->cmdName):"(deleted)", \ (obj)->id, (obj)->teardown, \ ((obj)->flags & NSF_DESTROY_CALLED)) #else # define PRINTOBJ(ctx,obj) #endif #define ClassName(cl) (((cl) ? ObjStr(cl->object.cmdName) : "NULL")) #define ObjectName(obj) (((obj) ? ObjStr(obj->cmdName) : "NULL")) #define LONG_AS_STRING 32 /* TCL_CONTINUE is defined as 4, from 5 on we can use app-specific return codes */ #define NSF_CHECK_FAILED 6 /* * * Next Scripting Structures * */ /* * Filter structures */ typedef struct NsfFilterStack { Tcl_Command currentCmdPtr; Tcl_Obj *calledProc; struct NsfFilterStack *nextPtr; } NsfFilterStack; /* * Assertion structures */ typedef struct NsfTclObjList { Tcl_Obj *content; struct NsfTclObjList *nextPtr; } NsfTclObjList; typedef struct NsfProcAssertion { NsfTclObjList *pre; NsfTclObjList *post; } NsfProcAssertion; typedef struct NsfAssertionStore { NsfTclObjList *invariants; Tcl_HashTable procs; } NsfAssertionStore; typedef enum { /* powers of 2; add to ALL, if default; */ CHECK_NONE = 0, CHECK_CLINVAR = 1, CHECK_OBJINVAR = 2, CHECK_PRE = 4, CHECK_POST = 8, CHECK_INVAR = CHECK_CLINVAR + CHECK_OBJINVAR, CHECK_ALL = CHECK_INVAR + CHECK_PRE + CHECK_POST } CheckOptions; void NsfAssertionRename(Tcl_Interp *interp, Tcl_Command cmd, NsfAssertionStore *as, char *oldSimpleCmdName, char *newName); /* * mixins */ typedef struct NsfMixinStack { Tcl_Command currentCmdPtr; struct NsfMixinStack *nextPtr; } NsfMixinStack; /* * Generic command pointer list */ typedef struct NsfCmdList { Tcl_Command cmdPtr; ClientData clientData; struct NsfClass *clorobj; struct NsfCmdList *nextPtr; } NsfCmdList; typedef void (NsfFreeCmdListClientData) _ANSI_ARGS_((INTERP_DECL NsfCmdList*)); /* for incr string */ typedef struct NsfStringIncrStruct { char *buffer; char *start; size_t bufSize; int length; } NsfStringIncrStruct; /* * cmd flags */ #define NSF_CMD_PROTECTED_METHOD 0x00010000 #define NSF_CMD_REDEFINE_PROTECTED_METHOD 0x00020000 /* NSF_CMD_NONLEAF_METHOD is used to flag, if a Method implemented via cmd calls "next" */ #define NSF_CMD_NONLEAF_METHOD 0x00040000 #define NSF_CMD_CLASS_ONLY_METHOD 0x00080000 /* * object flags ... */ /* DESTROY_CALLED indicates that destroy was called on obj */ #define NSF_DESTROY_CALLED 0x0001 /* INIT_CALLED indicates that init was called on obj */ #define NSF_INIT_CALLED 0x0002 /* MIXIN_ORDER_VALID set when mixin order is valid */ #define NSF_MIXIN_ORDER_VALID 0x0004 /* MIXIN_ORDER_DEFINED set, when mixins are defined for obj */ #define NSF_MIXIN_ORDER_DEFINED 0x0008 #define NSF_MIXIN_ORDER_DEFINED_AND_VALID 0x000c /* FILTER_ORDER_VALID set, when filter order is valid */ #define NSF_FILTER_ORDER_VALID 0x0010 /* FILTER_ORDER_DEFINED set, when filters are defined for obj */ #define NSF_FILTER_ORDER_DEFINED 0x0020 #define NSF_FILTER_ORDER_DEFINED_AND_VALID 0x0030 /* class and object properties for objects */ #define NSF_IS_CLASS 0x0040 #define NSF_IS_ROOT_META_CLASS 0x0080 #define NSF_IS_ROOT_CLASS 0x0100 #define NSF_IS_SLOT_CONTAINER 0x0200 /* deletion state */ #define NSF_TCL_DELETE 0x0400 #define NSF_DESTROY_CALLED_SUCCESS 0x0800 #define NSF_DURING_DELETE 0x2000 #define NSF_DELETED 0x4000 #define NSF_RECREATE 0x8000 /* flags for NsfParams */ #define NSF_ARG_REQUIRED 0x000001 #define NSF_ARG_MULTIVALUED 0x000002 #define NSF_ARG_NOARG 0x000004 #define NSF_ARG_NOCONFIG 0x000008 #define NSF_ARG_CURRENTLY_UNKNOWN 0x000010 #define NSF_ARG_SUBST_DEFAULT 0x000020 #define NSF_ARG_ALLOW_EMPTY 0x000040 #define NSF_ARG_INITCMD 0x000080 #define NSF_ARG_ALIAS 0x000100 #define NSF_ARG_FORWARD 0x000200 #define NSF_ARG_SWITCH 0x000400 #define NSF_ARG_BASECLASS 0x000800 #define NSF_ARG_METACLASS 0x001000 #define NSF_ARG_HAS_DEFAULT 0x002000 #define NSF_ARG_IS_CONVERTER 0x004000 #define NSF_ARG_IS_ENUMERATION 0x008000 #define NSF_ARG_CHECK_NONPOS 0x010000 #define NSF_ARG_SET 0x020000 #define NSF_ARG_WARN 0x040000 #define NSF_ARG_UNNAMED 0x080000 #define NSF_ARG_IS_RETURNVALUE 0x100000 /* method invocations */ #define NSF_ARG_METHOD_INVOCATION (NSF_ARG_ALIAS|NSF_ARG_FORWARD|NSF_ARG_INITCMD) /* Disallowed parameter options */ #define NSF_DISALLOWED_ARG_METHOD_PARAMETER (NSF_ARG_METHOD_INVOCATION|NSF_ARG_NOCONFIG) #define NSF_DISALLOWED_ARG_SETTER (NSF_ARG_SWITCH|NSF_ARG_SUBST_DEFAULT|NSF_DISALLOWED_ARG_METHOD_PARAMETER) /*#define NSF_DISALLOWED_ARG_OBJECT_PARAMETER (NSF_ARG_SWITCH)*/ #define NSF_DISALLOWED_ARG_OBJECT_PARAMETER 0 #define NSF_DISALLOWED_ARG_VALUECHECK (NSF_ARG_SUBST_DEFAULT|NSF_ARG_METHOD_INVOCATION|NSF_ARG_SWITCH|NSF_ARG_CURRENTLY_UNKNOWN) /* flags for ParseContext */ #define NSF_PC_MUST_DECR 0x0001 #define NSF_PC_IS_DEFAULT 0x0002 #define NSF_PC_MUST_INVERT 0x0010 #define NSF_PC_STATUS_MUST_DECR 0x0001 #define NSF_PC_STATUS_FREE_OBJV 0x0002 #define NSF_PC_STATUS_FREE_CD 0x0004 /* method types */ #define NSF_METHODTYPE_ALIAS 0x0001 #define NSF_METHODTYPE_SCRIPTED 0x0002 #define NSF_METHODTYPE_SETTER 0x0004 #define NSF_METHODTYPE_FORWARDER 0x0008 #define NSF_METHODTYPE_OBJECT 0x0010 #define NSF_METHODTYPE_NSFPROC 0x0020 #define NSF_METHODTYPE_OTHER 0x0100 #define NSF_METHODTYPE_BUILTIN NSF_METHODTYPE_ALIAS|NSF_METHODTYPE_SETTER|NSF_METHODTYPE_FORWARDER|NSF_METHODTYPE_OTHER #define NSF_METHODTYPE_ALL NSF_METHODTYPE_SCRIPTED|NSF_METHODTYPE_BUILTIN|NSF_METHODTYPE_OBJECT #define NsfObjectSetClass(obj) \ (obj)->flags |= NSF_IS_CLASS #define NsfObjectClearClass(obj) \ (obj)->flags &= ~NSF_IS_CLASS #define NsfObjectIsClass(obj) \ ((obj)->flags & NSF_IS_CLASS) #define NsfObjectToClass(obj) \ (NsfClass*)((((NsfObject*)obj)->flags & NSF_IS_CLASS)?obj:NULL) /* * object and class internals */ typedef struct NsfParamDefs { Nsf_Param *paramsPtr; int nrParams; int refCount; Tcl_Obj *slotObj; Tcl_Obj *returns; } NsfParamDefs; typedef struct NsfParsedParam { NsfParamDefs *paramDefs; int possibleUnknowns; } NsfParsedParam; typedef struct NsfObjectOpt { NsfAssertionStore *assertions; NsfCmdList *filters; NsfCmdList *mixins; ClientData clientData; CONST char *volatileVarName; short checkoptions; } NsfObjectOpt; typedef struct NsfObject { Tcl_Obj *cmdName; Tcl_Command id; Tcl_Interp *teardown; struct NsfClass *cl; TclVarHashTable *varTablePtr; Tcl_Namespace *nsPtr; NsfObjectOpt *opt; struct NsfCmdList *filterOrder; struct NsfCmdList *mixinOrder; NsfFilterStack *filterStack; NsfMixinStack *mixinStack; int refCount; short flags; short activationCount; } NsfObject; typedef struct NsfClassOpt { NsfCmdList *classfilters; NsfCmdList *classmixins; NsfCmdList *isObjectMixinOf; NsfCmdList *isClassMixinOf; NsfAssertionStore *assertions; #ifdef NSF_OBJECTDATA Tcl_HashTable *objectdata; #endif Tcl_Command id; ClientData clientData; } NsfClassOpt; typedef struct NsfClass { struct NsfObject object; struct NsfClasses *super; struct NsfClasses *sub; struct NsfObjectSystem *osPtr; struct NsfClasses *order; Tcl_HashTable instances; Tcl_Namespace *nsPtr; NsfParsedParam *parsedParamPtr; NsfClassOpt *opt; short color; } NsfClass; typedef struct NsfClasses { struct NsfClass *cl; ClientData clientData; struct NsfClasses *nextPtr; } NsfClasses; /* * needed in nsf.c and in nsfShadow */ typedef struct NsfProcClientData { Tcl_Obj *procName; Tcl_Command cmd; NsfParamDefs *paramDefs; int with_ad; INTERP_MEMBER_DECL } NsfProcClientData; typedef enum SystemMethodsIdx { NSF_c_alloc_idx, NSF_c_create_idx, NSF_c_dealloc_idx, NSF_c_objectparameter_idx, NSF_c_recreate_idx, NSF_o_cleanup_idx, NSF_o_configure_idx, NSF_o_defaultmethod_idx, NSF_o_destroy_idx, NSF_o_init_idx, NSF_o_move_idx, NSF_o_unknown_idx } SystemMethodsIdx; #if !defined(NSF_C) extern CONST char *Nsf_SytemMethodOpts[]; #else CONST char *Nsf_SytemMethodOpts[] = { "-class.alloc", "-class.create", "-class.dealloc", "-class.objectparameter", "-class.recreate", "-object.cleanup", "-object.configure", "-object.defaultmethod", "-object.destroy", "-object.init", "-object.move", "-object.unknown", NULL }; #endif typedef struct NsfObjectSystem { NsfClass *rootClass; NsfClass *rootMetaClass; int overloadedMethods; int definedMethods; Tcl_Obj *methods[NSF_o_unknown_idx+1]; Tcl_Obj *handles[NSF_o_unknown_idx+1]; struct NsfObjectSystem *nextPtr; } NsfObjectSystem; /* * Next Scripting global names and strings * * We provide enums for efficient lookup for corresponding string * names and Tcl_Objs via global arrays. The "constant" Tcl_Objs are * built at start-up-time via Nsf_Init(). */ typedef enum { NSF_EMPTY, NSF_ZERO, NSF_ONE, /* methods called internally */ NSF_CONFIGURE, /* var names */ NSF_AUTONAMES, NSF_DEFAULTMETACLASS, NSF_DEFAULTSUPERCLASS, NSF_ALIAS_ARRAY, /* object/class names */ NSF_METHOD_PARAMETER_SLOT_OBJ, /* constants */ NSF_ALIAS, NSF_ARGS, NSF_CMD, NSF_FILTER, NSF_FORWARD, NSF_METHOD, NSF_OBJECT, NSF_SETTER, NSF_VALUECHECK, NSF_GUARD_OPTION, NSF___UNKNOWN__, NSF_ARRAY, NSF_GET, NSF_SET, NSF_UNKNOWN_HANDLER, /* Partly redefined Tcl commands; leave them together at the end */ NSF_EXPR, NSF_FORMAT, NSF_INFO_BODY, NSF_INFO_FRAME, NSF_INTERP, NSF_IS, NSF_RENAME } NsfGlobalNames; #if !defined(NSF_C) extern char *NsfGlobalStrings[]; #else char *NsfGlobalStrings[] = { "", "0", "1", /* methods called internally */ "configure", /* var names */ "__autonames", "__default_metaclass", "__default_superclass", "::nsf::alias", /* object/class names */ "::nx::methodParameterSlot", /* constants */ "alias", "args", "cmd", "filter", "forward", "method", "object", "setter", "valuecheck", "-guard", "__unknown__", "::array", "get", "set", /* nsf tcl commands */ "::nsf::object::unknown", /* tcl commands */ "expr", "format", "::tcl::info::body", "::tcl::info::frame", "interp", "::tcl::string::is", "rename" }; #endif #define NsfGlobalObjs RUNTIME_STATE(interp)->methodObjNames /* obj types */ extern Tcl_ObjType NsfMixinregObjType; int NsfMixinregGet(Tcl_Obj *obj, NsfClass **clPtr, Tcl_Obj **guardObj); extern Tcl_ObjType NsfFilterregObjType; int NsfFilterregGet(Tcl_Obj *obj, Tcl_Obj **filterObj, Tcl_Obj **guardObj); /* Next Scripting ShadowTclCommands */ typedef struct NsfShadowTclCommandInfo { TclObjCmdProcType proc; ClientData clientData; } NsfShadowTclCommandInfo; typedef enum {SHADOW_LOAD=1, SHADOW_UNLOAD=0, SHADOW_REFETCH=2} NsfShadowOperations; typedef enum {NSF_PARAMS_NAMES, NSF_PARAMS_LIST, NSF_PARAMS_PARAMETER, NSF_PARAMS_SYNTAX} NsfParamsPrintStyle; int NsfCallCommand(Tcl_Interp *interp, NsfGlobalNames name, int objc, Tcl_Obj *CONST objv[]); int NsfShadowTclCommands(Tcl_Interp *interp, NsfShadowOperations load); Tcl_Obj * NsfMethodObj(NsfObject *object, int methodIdx); /* * Next Scripting CallStack */ typedef struct NsfCallStackContent { NsfObject *self; NsfClass *cl; Tcl_Command cmdPtr; NsfFilterStack *filterStackEntry; Tcl_Obj *CONST* objv; int objc; unsigned short frameType; unsigned short flags; #if defined(NSF_PROFILE) || defined(NSF_DTRACE) long int startUsec; long int startSec; CONST char *methodName; #endif } NsfCallStackContent; #define NSF_CSC_TYPE_PLAIN 0 #define NSF_CSC_TYPE_ACTIVE_MIXIN 1 #define NSF_CSC_TYPE_ACTIVE_FILTER 2 #define NSF_CSC_TYPE_INACTIVE 4 #define NSF_CSC_TYPE_INACTIVE_MIXIN 5 #define NSF_CSC_TYPE_INACTIVE_FILTER 6 #define NSF_CSC_TYPE_GUARD 0x10 #define NSF_CSC_TYPE_ENSEMBLE 0x20 #define NSF_CSC_CALL_IS_NEXT 1 #define NSF_CSC_CALL_IS_GUARD 2 #define NSF_CSC_CALL_IS_ENSEMBLE 4 #define NSF_CSC_CALL_IS_COMPILE 8 #define NSF_CSC_IMMEDIATE 0x0020 #define NSF_CSC_FORCE_FRAME 0x0040 #define NSF_CSC_CALL_NO_UNKNOWN 0x0080 #define NSF_CSC_CALL_IS_NRE 0x0100 #define NSF_CSC_MIXIN_STACK_PUSHED 0x0400 #define NSF_CSC_FILTER_STACK_PUSHED 0x0800 #define NSF_CSC_METHOD_IS_UNKNOWN 0x1000 #define NSF_CSC_CALL_IS_TRANSPARENT 0x2000 #define NSF_CSC_COPY_FLAGS (NSF_CSC_MIXIN_STACK_PUSHED|NSF_CSC_FILTER_STACK_PUSHED|NSF_CSC_IMMEDIATE|NSF_CSC_CALL_IS_TRANSPARENT|NSF_CSC_FORCE_FRAME) /* flags for call method */ #define NSF_CM_NO_UNKNOWN 1 #define NSF_CM_NO_SHIFT 2 #define NSF_CM_NO_PROTECT 4 #define NSF_CM_NO_OBJECT_METHOD 8 #define NSF_VAR_TRIGGER_TRACE 1 #define NSF_VAR_REQUIRE_DEFINED 2 #define NSF_VAR_ISARRAY 4 #if defined(NRE) # define NsfImmediateFromCallerFlags(flags) \ (((flags) & (NSF_CSC_CALL_IS_NRE|NSF_CSC_IMMEDIATE)) == NSF_CSC_CALL_IS_NRE ? 0 : NSF_CSC_IMMEDIATE) #define NRE_SANE_PATCH 1 #if defined(NRE_SANE_PATCH) # define NsfNRRunCallbacks(interp, result, rootPtr) TclNRRunCallbacks(interp, result, rootPtr) # if !defined(TclStackFree) # define TclStackFree(interp, ptr) ckfree(ptr) # define TclStackAlloc(interp, size) ckalloc(size) # endif #else # define NsfNRRunCallbacks(interp, result, rootPtr) TclNRRunCallbacks(interp, result, rootPtr, 0) # define TEOV_callback NRE_callback #endif #endif #if defined(NSF_PROFILE) typedef struct NsfProfile { long int overallTime; long int startSec; long int startUSec; Tcl_HashTable objectData; Tcl_HashTable methodData; Tcl_HashTable procData; } NsfProfile; #endif typedef struct NsfRuntimeState { /* * The defined object systems */ struct NsfObjectSystem *objectSystems; /* * namespaces and cmds */ Tcl_Namespace *NsfNS; /* the ::nsf namespace */ Tcl_Namespace *NsfClassesNS; /* the ::nsf::classes namespace, where classes are created physically */ Tcl_ObjCmdProc *objInterpProc; /* cached result of TclGetObjInterpProc() */ Tcl_Command colonCmd; /* cmdPtr of cmd ":" to dispatch via cmdResolver */ Proc fakeProc; /* dummy proc strucure, used for C-implemented methods with local scope */ Tcl_Command currentMixinCmdPtr; /* cmdPtr of currently active mixin, used for "info activemixin" */ Tcl_Obj **methodObjNames; /* global objects of nsf */ struct NsfShadowTclCommandInfo *tclCommands; /* shadowed Tcl commands */ #if defined(CHECK_ACTIVATION_COUNTS) NsfClasses *cscList; #endif int errorCount; /* keep track of number of errors to avoid potential error loops */ int unknown; /* keep track whether an unknown method is currently called */ int overloadedMethods; /* bitarray for tracking overloaded methods */ /* * Configure options. The following do*-flags could be moved into a * bitarray, but we have only one state per interp, so the win on * memory is very little. */ int debugLevel; int doCheckArguments; int doCheckResults; int doFilters; int doKeepinitcmd; int doProfile; int doSoftrecreate; /* * shutdown handling */ int exitHandlerDestroyRound; #if defined(NSF_PROFILE) NsfProfile profile; #endif NsfStringIncrStruct iss; /* used for new to create new symbols */ short guardCount; /* keep track of guard invocations */ ClientData clientData; #if defined(NSF_MEM_COUNT) Tcl_HashTable memCountTable; #endif } NsfRuntimeState; #define NSF_EXITHANDLER_OFF 0 #define NSF_EXITHANDLER_ON_SOFT_DESTROY 1 #define NSF_EXITHANDLER_ON_PHYSICAL_DESTROY 2 #ifdef NSF_OBJECTDATA extern void NsfSetObjectData(struct NsfObject *obj, struct NsfClass *cl, ClientData data); extern int NsfGetObjectData(struct NsfObject *obj, struct NsfClass *cl, ClientData *data); extern int NsfUnsetObjectData(struct NsfObject *obj, struct NsfClass *cl); extern void NsfFreeObjectData(NsfClass *cl); #endif /* * NsfObject Reference Accounting */ #if defined(NSFOBJ_TRACE) # define NsfObjectRefCountIncr(obj) \ ((NsfObject *)obj)->refCount++; \ fprintf(stderr, "RefCountIncr %p count=%d %s\n", obj, ((NsfObject *)obj)->refCount, \ ((NsfObject *)obj)->cmdName?ObjStr(((NsfObject *)obj)->cmdName):"no name"); \ MEM_COUNT_ALLOC("NsfObject.refCount", obj) # define NsfObjectRefCountDecr(obj) \ (obj)->refCount--; \ fprintf(stderr, "RefCountDecr %p count=%d\n", obj, obj->refCount); \ MEM_COUNT_FREE("NsfObject.refCount", obj) #else # define NsfObjectRefCountIncr(obj) \ (obj)->refCount++; \ MEM_COUNT_ALLOC("NsfObject.refCount", obj) # define NsfObjectRefCountDecr(obj) \ (obj)->refCount--; \ MEM_COUNT_FREE("NsfObject.refCount", obj) #endif /* * * internally used API functions * */ #include "nsfIntDecls.h" /* * Profiling functions */ #if defined(NSF_PROFILE) extern void NsfProfileRecordMethodData(Tcl_Interp* interp, NsfCallStackContent *cscPtr); extern void NsfProfileRecordProcData(Tcl_Interp *interp, char *methodName, long startSec, long startUsec); extern void NsfProfileInit(Tcl_Interp *interp); extern void NsfProfileFree(Tcl_Interp *interp); extern void NsfProfileClearData(Tcl_Interp *interp); extern void NsfProfileGetData(Tcl_Interp *interp); extern NsfCallStackContent *NsfCallStackGetTopFrame(Tcl_Interp *interp, Tcl_CallFrame **framePtrPtr); #endif /* * MEM Counting */ #ifdef NSF_MEM_COUNT void NsfMemCountAlloc(Tcl_Interp *interp, char *id, void *); void NsfMemCountFree(Tcl_Interp *interp, char *id, void *); void NsfMemCountInit(Tcl_Interp *interp); void NsfMemCountRelease(Tcl_Interp *interp); #endif /* NSF_MEM_COUNT */ /* * TCL_STACK_ALLOC_TRACE */ #if defined(TCL_STACK_ALLOC_TRACE) # define NsfTclStackFree(interp,ptr,msg) \ fprintf(stderr, "---- TclStackFree %p %s\n", ptr, msg);\ TclStackFree(interp,ptr) static char * NsfTclStackAlloc(Tcl_Interp *interp, size_t size, char *msg) { char *ptr = TclStackAlloc(interp, size); fprintf(stderr, "---- TclStackAlloc %p %s\n", ptr, msg); return ptr; } #else # define NsfTclStackFree(interp,ptr,msg) TclStackFree(interp,ptr) # define NsfTclStackAlloc(interp,size,msg) TclStackAlloc(interp,size) #endif /* * bytecode support */ #ifdef NSF_BYTECODE typedef struct NsfCompEnv { int bytecode; Command *cmdPtr; CompileProc *compileProc; Tcl_ObjCmdProc *callProc; } NsfCompEnv; typedef enum {INST_INITPROC, INST_NEXT, INST_SELF, INST_SELF_DISPATCH, LAST_INSTRUCTION} NsfByteCodeInstructions; extern NsfCompEnv *NsfGetCompEnv(); Tcl_ObjCmdProc NsfInitProcNSCmd, NsfSelfDispatchCmd, NsfNextObjCmd, NsfGetSelfObjCmd; int NsfDirectSelfDispatch(ClientData cd, Tcl_Interp *interp, int objc, Tcl_Obj *CONST objv[]); #endif extern int NsfGetClassFromObj(Tcl_Interp *interp, Tcl_Obj *objPtr, NsfClass **clPtr, int withUnknown); int NsfObjDispatch(ClientData cd, Tcl_Interp *interp, int objc, Tcl_Obj *CONST objv[]); extern int NsfObjWrongArgs(Tcl_Interp *interp, CONST char *msg, Tcl_Obj *cmdName, Tcl_Obj *methodName, char *arglist); CONST char *MethodName(Tcl_Obj *methodObj); /* functions from nsfUtil.c */ char *Nsf_ltoa(char *buf, long i, int *len); char *NsfStringIncr(NsfStringIncrStruct *iss); void NsfStringIncrInit(NsfStringIncrStruct *iss); void NsfStringIncrFree(NsfStringIncrStruct *iss); /* Tcl uses 01 and 02, TclOO uses 04 and 08, so leave some space free for further extensions of tcl and tcloo... */ #define FRAME_IS_NSF_OBJECT 0x10000 #define FRAME_IS_NSF_METHOD 0x20000 #define FRAME_IS_NSF_CMETHOD 0x40000 #if !defined(NDEBUG) /*# define NSF_INLINE*/ #endif /*** common win sermon ***/ #undef TCL_STORAGE_CLASS #define TCL_STORAGE_CLASS DLLIMPORT #endif /* _nsf_int_h_ */