# # # Nimrod's Runtime Library # (c) Copyright 2009 Andreas Rumpf # # See the file "copying.txt", included in this # distribution, for details about the copyright. # ## This module is a wrapper for the TCL programming language. # # tcl.h -- # # This header file describes the externally-visible facilities of the Tcl # interpreter. # # Translated to Pascal Copyright (c) 2002 by Max Artemev # aka Bert Raccoon (bert@furry.ru, bert_raccoon@freemail.ru) # # # Copyright (c) 1998-2000 by Scriptics Corporation. # Copyright (c) 1994-1998 Sun Microsystems, Inc. # Copyright (c) 1993-1996 Lucent Technologies. # Copyright (c) 1987-1994 John Ousterhout, The Regents of the # University of California, Berkeley. # # *********************************************************************** # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. # *********************************************************************** # {.deadCodeElim: on.} when defined(WIN32): const dllName = "tcl(85|84|83|82|81|80).dll" elif defined(macosx): const dllName = "libtcl(8.5|8.4|8.3|8.2|8.1).dylib" else: const dllName = "libtcl(8.5|8.4|8.3|8.2|8.1).so.(1|0)" const TCL_DESTROYED* = 0xDEADDEAD TCL_OK* = 0 TCL_ERROR* = 1 TCL_RETURN* = 2 TCL_BREAK* = 3 TCL_CONTINUE* = 4 TCL_RESULT_SIZE* = 200 MAX_ARGV* = 0x00007FFF TCL_VERSION_MAJOR* = 0 TCL_VERSION_MINOR* = 0 TCL_NO_EVAL* = 0x00010000 TCL_EVAL_GLOBAL* = 0x00020000 # Flag values passed to variable-related procedures. * TCL_GLOBAL_ONLY* = 1 TCL_NAMESPACE_ONLY* = 2 TCL_APPEND_VALUE* = 4 TCL_LIST_ELEMENT* = 8 TCL_TRACE_READS* = 0x00000010 TCL_TRACE_WRITES* = 0x00000020 TCL_TRACE_UNSETS* = 0x00000040 TCL_TRACE_DESTROYED* = 0x00000080 TCL_INTERP_DESTROYED* = 0x00000100 TCL_LEAVE_ERR_MSG* = 0x00000200 TCL_PARSE_PART1* = 0x00000400 # Types for linked variables: * TCL_LINK_INT* = 1 TCL_LINK_DOUBLE* = 2 TCL_LINK_BOOLEAN* = 3 TCL_LINK_STRING* = 4 TCL_LINK_READ_ONLY* = 0x00000080 TCL_SMALL_HASH_TABLE* = 4 # Hash Table * TCL_STRING_KEYS* = 0 TCL_ONE_WORD_KEYS* = 1 # Const/enums Tcl_QueuePosition * # typedef enum { TCL_QUEUE_TAIL* = 0 TCL_QUEUE_HEAD* = 1 TCL_QUEUE_MARK* = 2 #} Tcl_QueuePosition; # Event Flags TCL_DONT_WAIT* = 1 shl 1 TCL_WINDOW_EVENTS* = 1 shl 2 TCL_FILE_EVENTS* = 1 shl 3 TCL_TIMER_EVENTS* = 1 shl 4 TCL_IDLE_EVENTS* = 1 shl 5 # WAS 0x10 ???? * TCL_ALL_EVENTS* = not TCL_DONT_WAIT TCL_VOLATILE* = 1 TCL_STATIC* = 0 TCL_DYNAMIC* = 3 # Channel TCL_STDIN* = 1 shl 1 TCL_STDOUT* = 1 shl 2 TCL_STDERR* = 1 shl 3 TCL_ENFORCE_MODE* = 1 shl 4 TCL_READABLE* = 1 shl 1 TCL_WRITABLE* = 1 shl 2 TCL_EXCEPTION* = 1 shl 3 # POSIX * EPERM* = 1 # Operation not permitted; only the owner of the file (or other # resource) or processes with special privileges can perform the # operation. # ENOENT* = 2 # No such file or directory. This is a "file doesn't exist" error # for ordinary files that are referenced in contexts where they are # expected to already exist. # ESRCH* = 3 # No process matches the specified process ID. * EINTR* = 4 # Interrupted function call; an asynchronous signal occurred and # prevented completion of the call. When this happens, you should # try the call again. # EIO* = 5 # Input/output error; usually used for physical read or write errors. * ENXIO* = 6 # No such device or address. The system tried to use the device # represented by a file you specified, and it couldn't find the # device. This can mean that the device file was installed # incorrectly, or that the physical device is missing or not # correctly attached to the computer. # E2BIG* = 7 # Argument list too long; used when the arguments passed to a new # program being executed with one of the `exec' functions (*note # Executing a File::.) occupy too much memory space. This condition # never arises in the GNU system. # ENOEXEC* = 8 # Invalid executable file format. This condition is detected by the # `exec' functions; see *Note Executing a File::. # EBADF* = 9 # Bad file descriptor; for example, I/O on a descriptor that has been # closed or reading from a descriptor open only for writing (or vice # versa). # ECHILD* = 10 # There are no child processes. This error happens on operations # that are supposed to manipulate child processes, when there aren't # any processes to manipulate. # EDEADLK* = 11 # Deadlock avoided; allocating a system resource would have resulted # in a deadlock situation. The system does not guarantee that it # will notice all such situations. This error means you got lucky # and the system noticed; it might just hang. *Note File Locks::, # for an example. # ENOMEM* = 12 # No memory available. The system cannot allocate more virtual # memory because its capacity is full. # EACCES* = 13 # Permission denied; the file permissions do not allow the attempted # operation. # EFAULT* = 14 # Bad address; an invalid pointer was detected. In the GNU system, # this error never happens; you get a signal instead. # ENOTBLK* = 15 # A file that isn't a block special file was given in a situation # that requires one. For example, trying to mount an ordinary file # as a file system in Unix gives this error. # EBUSY* = 16 # Resource busy; a system resource that can't be shared is already # in use. For example, if you try to delete a file that is the root # of a currently mounted filesystem, you get this error. # EEXIST* = 17 # File exists; an existing file was specified in a context where it # only makes sense to specify a new file. # EXDEV* = 18 # An attempt to make an improper link across file systems was # detected. This happens not only when you use `link' (*note Hard # Links::.) but also when you rename a file with `rename' (*note # Renaming Files::.). # ENODEV* = 19 # The wrong type of device was given to a function that expects a # particular sort of device. # ENOTDIR* = 20 # A file that isn't a directory was specified when a directory is # required. # EISDIR* = 21 # File is a directory; you cannot open a directory for writing, or # create or remove hard links to it. # EINVAL* = 22 # Invalid argument. This is used to indicate various kinds of # problems with passing the wrong argument to a library function. # EMFILE* = 24 # The current process has too many files open and can't open any # more. Duplicate descriptors do count toward this limit. # # In BSD and GNU, the number of open files is controlled by a # resource limit that can usually be increased. If you get this # error, you might want to increase the `RLIMIT_NOFILE' limit or # make it unlimited; *note Limits on Resources::.. # ENFILE* = 23 # There are too many distinct file openings in the entire system. # Note that any number of linked channels count as just one file # opening; see *Note Linked Channels::. This error never occurs in # the GNU system. # ENOTTY* = 25 # Inappropriate I/O control operation, such as trying to set terminal # modes on an ordinary file. # ETXTBSY* = 26 # An attempt to execute a file that is currently open for writing, or # write to a file that is currently being executed. Often using a # debugger to run a program is considered having it open for writing # and will cause this error. (The name stands for "text file # busy".) This is not an error in the GNU system; the text is # copied as necessary. # EFBIG* = 27 # File too big; the size of a file would be larger than allowed by # the system. # ENOSPC* = 28 # No space left on device; write operation on a file failed because # the disk is full. # ESPIPE* = 29 # Invalid seek operation (such as on a pipe). * EROFS* = 30 # An attempt was made to modify something on a read-only file system. * EMLINK* = 31 # Too many links; the link count of a single file would become too # large. `rename' can cause this error if the file being renamed # already has as many links as it can take (*note Renaming Files::.). # EPIPE* = 32 # Broken pipe; there is no process reading from the other end of a # pipe. Every library function that returns this error code also # generates a `SIGPIPE' signal; this signal terminates the program # if not handled or blocked. Thus, your program will never actually # see `EPIPE' unless it has handled or blocked `SIGPIPE'. # EDOM* = 33 # Domain error; used by mathematical functions when an argument # value does not fall into the domain over which the function is # defined. # ERANGE* = 34 # Range error; used by mathematical functions when the result value # is not representable because of overflow or underflow. # EAGAIN* = 35 # Resource temporarily unavailable; the call might work if you try # again later. The macro `EWOULDBLOCK' is another name for `EAGAIN'; # they are always the same in the GNU C library. # EWOULDBLOCK* = EAGAIN # In the GNU C library, this is another name for `EAGAIN' (above). # The values are always the same, on every operating system. # C libraries in many older Unix systems have `EWOULDBLOCK' as a # separate error code. # EINPROGRESS* = 36 # An operation that cannot complete immediately was initiated on an # object that has non-blocking mode selected. Some functions that # must always block (such as `connect'; *note Connecting::.) never # return `EAGAIN'. Instead, they return `EINPROGRESS' to indicate # that the operation has begun and will take some time. Attempts to # manipulate the object before the call completes return `EALREADY'. # You can use the `select' function to find out when the pending # operation has completed; *note Waiting for I/O::.. # EALREADY* = 37 # An operation is already in progress on an object that has # non-blocking mode selected. # ENOTSOCK* = 38 # A file that isn't a socket was specified when a socket is required. * EDESTADDRREQ* = 39 # No default destination address was set for the socket. You get # this error when you try to transmit data over a connectionless # socket, without first specifying a destination for the data with # `connect'. # EMSGSIZE* = 40 # The size of a message sent on a socket was larger than the # supported maximum size. # EPROTOTYPE* = 41 # The socket type does not support the requested communications # protocol. # ENOPROTOOPT* = 42 # You specified a socket option that doesn't make sense for the # particular protocol being used by the socket. *Note Socket # Options::. # EPROTONOSUPPORT* = 43 # The socket domain does not support the requested communications # protocol (perhaps because the requested protocol is completely # invalid.) *Note Creating a Socket::. # ESOCKTNOSUPPORT* = 44 # The socket type is not supported. * EOPNOTSUPP* = 45 # The operation you requested is not supported. Some socket # functions don't make sense for all types of sockets, and others # may not be implemented for all communications protocols. In the # GNU system, this error can happen for many calls when the object # does not support the particular operation; it is a generic # indication that the server knows nothing to do for that call. # EPFNOSUPPORT* = 46 # The socket communications protocol family you requested is not # supported. # EAFNOSUPPORT* = 47 # The address family specified for a socket is not supported; it is # inconsistent with the protocol being used on the socket. *Note # Sockets::. # EADDRINUSE* = 48 # The requested socket address is already in use. *Note Socket # Addresses::. # EADDRNOTAVAIL* = 49 # The requested socket address is not available; for example, you # tried to give a socket a name that doesn't match the local host # name. *Note Socket Addresses::. # ENETDOWN* = 50 # A socket operation failed because the network was down. * ENETUNREACH* = 51 # A socket operation failed because the subnet containing the remote # host was unreachable. # ENETRESET* = 52 # A network connection was reset because the remote host crashed. * ECONNABORTED* = 53 # A network connection was aborted locally. * ECONNRESET* = 54 # A network connection was closed for reasons outside the control of # the local host, such as by the remote machine rebooting or an # unrecoverable protocol violation. # ENOBUFS* = 55 # The kernel's buffers for I/O operations are all in use. In GNU, # this error is always synonymous with `ENOMEM'; you may get one or # the other from network operations. # EISCONN* = 56 # You tried to connect a socket that is already connected. *Note # Connecting::. # ENOTCONN* = 57 # The socket is not connected to anything. You get this error when # you try to transmit data over a socket, without first specifying a # destination for the data. For a connectionless socket (for # datagram protocols, such as UDP), you get `EDESTADDRREQ' instead. # ESHUTDOWN* = 58 # The socket has already been shut down. * ETOOMANYREFS* = 59 # ??? * ETIMEDOUT* = 60 # A socket operation with a specified timeout received no response # during the timeout period. # ECONNREFUSED* = 61 # A remote host refused to allow the network connection (typically # because it is not running the requested service). # ELOOP* = 62 # Too many levels of symbolic links were encountered in looking up a # file name. This often indicates a cycle of symbolic links. # ENAMETOOLONG* = 63 # Filename too long (longer than `PATH_MAX'; *note Limits for # Files::.) or host name too long (in `gethostname' or # `sethostname'; *note Host Identification::.). # EHOSTDOWN* = 64 # The remote host for a requested network connection is down. * EHOSTUNREACH* = 65 # The remote host for a requested network connection is not # reachable. # ENOTEMPTY* = 66 # Directory not empty, where an empty directory was expected. # Typically, this error occurs when you are trying to delete a # directory. # EPROCLIM* = 67 # This means that the per-user limit on new process would be # exceeded by an attempted `fork'. *Note Limits on Resources::, for # details on the `RLIMIT_NPROC' limit. # EUSERS* = 68 # The file quota system is confused because there are too many users. * EDQUOT* = 69 # The user's disk quota was exceeded. * ESTALE* = 70 # Stale NFS file handle. This indicates an internal confusion in # the NFS system which is due to file system rearrangements on the # server host. Repairing this condition usually requires unmounting # and remounting the NFS file system on the local host. # EREMOTE* = 71 # An attempt was made to NFS-mount a remote file system with a file # name that already specifies an NFS-mounted file. (This is an # error on some operating systems, but we expect it to work properly # on the GNU system, making this error code impossible.) # EBADRPC* = 72 # ??? * ERPCMISMATCH* = 73 # ??? * EPROGUNAVAIL* = 74 # ??? * EPROGMISMATCH* = 75 # ??? * EPROCUNAVAIL* = 76 # ??? * ENOLCK* = 77 # No locks available. This is used by the file locking facilities; # see *Note File Locks::. This error is never generated by the GNU # system, but it can result from an operation to an NFS server # running another operating system. # ENOSYS* = 78 # Function not implemented. Some functions have commands or options # defined that might not be supported in all implementations, and # this is the kind of error you get if you request them and they are # not supported. # EFTYPE* = 79 # Inappropriate file type or format. The file was the wrong type # for the operation, or a data file had the wrong format. # On some systems `chmod' returns this error if you try to set the # sticky bit on a non-directory file; *note Setting Permissions::.. # type Tcl_Argv* = cstringArray Tcl_ClientData* = pointer Tcl_FreeProc* = proc (theBlock: pointer){.cdecl.} PTcl_Interp* = ptr Tcl_Interp Tcl_Interp*{.final.} = object # Event Definitions * result*: cstring # Do not access this directly. Use # * Tcl_GetStringResult since result # * may be pointing to an object # * freeProc*: Tcl_FreeProc errorLine*: int TTcl_EventSetupProc* = proc (clientData: Tcl_ClientData, flags: int){.cdecl.} TTcl_EventCheckProc* = TTcl_EventSetupProc PTcl_Event* = ptr Tcl_Event TTcl_EventProc* = proc (evPtr: PTcl_Event, flags: int): int{.cdecl.} Tcl_Event*{.final.} = object prc*: TTcl_EventProc nextPtr*: PTcl_Event ClientData*: TObject # ClientData is just pointer.* PTcl_Time* = ptr Tcl_Time Tcl_Time*{.final.} = object sec*: int32 # Seconds. * usec*: int32 # Microseconds. * Tcl_TimerToken* = pointer PInteger* = ptr int PTcl_HashTable* = pointer PTcl_HashEntry* = ptr Tcl_HashEntry PPTcl_HashEntry* = ptr PTcl_HashEntry Tcl_HashEntry*{.final.} = object nextPtr*: PTcl_HashEntry tablePtr*: PTcl_HashTable bucketPtr*: PPTcl_HashEntry clientData*: Tcl_ClientData key*: cstring Tcl_HashFindProc* = proc (tablePtr: PTcl_HashTable, key: cstring): PTcl_HashEntry{. cdecl.} Tcl_HashCreateProc* = proc (tablePtr: PTcl_HashTable, key: cstring, newPtr: PInteger): PTcl_HashEntry{.cdecl.} PHashTable* = ptr Tcl_HashTable Tcl_HashTable*{.final.} = object buckets*: ppTcl_HashEntry staticBuckets*: array[0..TCL_SMALL_HASH_TABLE - 1, PTcl_HashEntry] numBuckets*: int numEntries*: int rebuildSize*: int downShift*: int mask*: int keyType*: int findProc*: Tcl_HashFindProc createProc*: Tcl_HashCreateProc PTcl_HashSearch* = ptr Tcl_HashSearch Tcl_HashSearch*{.final.} = object tablePtr*: PTcl_HashTable nextIndex*: int nextEntryPtr*: PTcl_HashEntry TTclAppInitProc* = proc (interp: pTcl_Interp): int{.cdecl.} TTclPackageInitProc* = proc (interp: pTcl_Interp): int{.cdecl.} TTclCmdProc* = proc (clientData: Tcl_ClientData, interp: pTcl_Interp, argc: int, argv: Tcl_Argv): int{.cdecl.} TTclVarTraceProc* = proc (clientData: Tcl_ClientData, interp: pTcl_Interp, varName: cstring, elemName: cstring, flags: int): cstring{. cdecl.} TTclFreeProc* = proc (theBlock: pointer){.cdecl.} TTclInterpDeleteProc* = proc (clientData: Tcl_ClientData, interp: pTcl_Interp){. cdecl.} TTclCmdDeleteProc* = proc (clientData: Tcl_ClientData){.cdecl.} TTclNamespaceDeleteProc* = proc (clientData: Tcl_ClientData){.cdecl.} const TCL_DSTRING_STATIC_SIZE* = 200 type PTcl_DString* = ptr Tcl_DString Tcl_DString*{.final.} = object str*: cstring len*: int spaceAvl*: int staticSpace*: array[0..TCL_DSTRING_STATIC_SIZE - 1, char] PTcl_Channel* = ptr Tcl_Channel Tcl_Channel*{.final.} = object TTclDriverBlockModeProc* = proc (instanceData: Tcl_ClientData, mode: int): int{. cdecl.} TTclDriverCloseProc* = proc (instanceData: Tcl_ClientData, interp: PTcl_Interp): int{. cdecl.} TTclDriverInputProc* = proc (instanceData: Tcl_ClientData, buf: cstring, toRead: int, errorCodePtr: PInteger): int{.cdecl.} TTclDriverOutputProc* = proc (instanceData: Tcl_ClientData, buf: cstring, toWrite: int, errorCodePtr: PInteger): int{. cdecl.} TTclDriverSeekProc* = proc (instanceData: Tcl_ClientData, offset: int32, mode: int, errorCodePtr: PInteger): int{.cdecl.} TTclDriverSetOptionProc* = proc (instanceData: Tcl_ClientData, interp: PTcl_Interp, optionName: cstring, value: cstring): int{.cdecl.} TTclDriverGetOptionProc* = proc (instanceData: Tcl_ClientData, interp: pTcl_Interp, optionName: cstring, dsPtr: PTcl_DString): int{.cdecl.} TTclDriverWatchProc* = proc (instanceData: Tcl_ClientData, mask: int){.cdecl.} TTclDriverGetHandleProc* = proc (instanceData: Tcl_ClientData, direction: int, handlePtr: var Tcl_ClientData): int{.cdecl.} PTcl_ChannelType* = ptr Tcl_ChannelType Tcl_ChannelType*{.final.} = object typeName*: cstring blockModeProc*: TTclDriverBlockModeProc closeProc*: TTclDriverCloseProc inputProc*: TTclDriverInputProc ouputProc*: TTclDriverOutputProc seekProc*: TTclDriverSeekProc setOptionProc*: TTclDriverSetOptionProc getOptionProc*: TTclDriverGetOptionProc watchProc*: TTclDriverWatchProc getHandleProc*: TTclDriverGetHandleProc TTclChannelProc* = proc (clientData: Tcl_ClientData, mask: int){.cdecl.} PTcl_Obj* = ptr Tcl_Obj PPTcl_Obj* = ptr PTcl_Obj Tcl_Obj*{.final.} = object refCount*: int # ... TTclObjCmdProc* = proc (clientData: Tcl_ClientData, interp: PTcl_Interp, objc: int, PPObj: PPTcl_Obj): int{.cdecl.} PTcl_Namespace* = ptr Tcl_Namespace Tcl_Namespace*{.final.} = object name*: cstring fullName*: cstring clientData*: Tcl_ClientData deleteProc*: TTclNamespaceDeleteProc parentPtr*: PTcl_Namespace PTcl_CallFrame* = ptr Tcl_CallFrame Tcl_CallFrame*{.final.} = object nsPtr*: PTcl_Namespace dummy1*: int dummy2*: int dummy3*: cstring dummy4*: cstring dummy5*: cstring dummy6*: int dummy7*: cstring dummy8*: cstring dummy9*: int dummy10*: cstring PTcl_CmdInfo* = ptr Tcl_CmdInfo Tcl_CmdInfo*{.final.} = object isNativeObjectProc*: int objProc*: TTclObjCmdProc objClientData*: Tcl_ClientData prc*: TTclCmdProc clientData*: Tcl_ClientData deleteProc*: TTclCmdDeleteProc deleteData*: Tcl_ClientData namespacePtr*: pTcl_Namespace pTcl_Command* = ptr Tcl_Command Tcl_Command*{.final.} = object # hPtr : pTcl_HashEntry; # nsPtr : pTcl_Namespace; # refCount : integer; # isCmdEpoch : integer; # compileProc : pointer; # objProc : pointer; # objClientData : Tcl_ClientData; # proc : pointer; # clientData : Tcl_ClientData; # deleteProc : TTclCmdDeleteProc; # deleteData : Tcl_ClientData; # deleted : integer; # importRefPtr : pointer; # type TTclPanicProc* = proc (fmt, arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8: cstring){. cdecl.} # 1/15/97 orig. Tcl style TTclClientDataProc* = proc (clientData: Tcl_ClientData){.cdecl.} TTclIdleProc* = proc (clientData: Tcl_ClientData){.cdecl.} TTclTimerProc* = TTclIdleProc TTclCreateCloseHandler* = proc (channel: pTcl_Channel, prc: TTclClientDataProc, clientData: Tcl_ClientData){.cdecl.} TTclDeleteCloseHandler* = TTclCreateCloseHandler TTclEventDeleteProc* = proc (evPtr: pTcl_Event, clientData: Tcl_ClientData): int{. cdecl.} proc Tcl_Alloc*(size: int): cstring{.cdecl, dynlib: dllName, importc.} proc Tcl_CreateInterp*(): pTcl_Interp{.cdecl, dynlib: dllName, importc.} proc Tcl_DeleteInterp*(interp: pTcl_Interp){.cdecl, dynlib: dllName, importc.} proc Tcl_ResetResult*(interp: pTcl_Interp){.cdecl, dynlib: dllName, importc.} proc Tcl_Eval*(interp: pTcl_Interp, script: cstring): int{.cdecl, dynlib: dllName, importc.} proc Tcl_EvalFile*(interp: pTcl_Interp, filename: cstring): int{.cdecl, dynlib: dllName, importc.} proc Tcl_AddErrorInfo*(interp: pTcl_Interp, message: cstring){.cdecl, dynlib: dllName, importc.} proc Tcl_BackgroundError*(interp: pTcl_Interp){.cdecl, dynlib: dllName, importc.} proc Tcl_CreateCommand*(interp: pTcl_Interp, name: cstring, cmdProc: TTclCmdProc, clientData: Tcl_ClientData, deleteProc: TTclCmdDeleteProc): pTcl_Command{.cdecl, dynlib: dllName, importc.} proc Tcl_DeleteCommand*(interp: pTcl_Interp, name: cstring): int{.cdecl, dynlib: dllName, importc.} proc Tcl_CallWhenDeleted*(interp: pTcl_Interp, prc: TTclInterpDeleteProc, clientData: Tcl_ClientData){.cdecl, dynlib: dllName, importc.} proc Tcl_DontCallWhenDeleted*(interp: pTcl_Interp, prc: TTclInterpDeleteProc, clientData: Tcl_ClientData){.cdecl, dynlib: dllName, importc.} proc Tcl_CommandComplete*(cmd: cstring): int{.cdecl, dynlib: dllName, importc.} proc Tcl_LinkVar*(interp: pTcl_Interp, varName: cstring, varAddr: pointer, typ: int): int{.cdecl, dynlib: dllName, importc.} proc Tcl_UnlinkVar*(interp: pTcl_Interp, varName: cstring){.cdecl, dynlib: dllName, importc.} proc Tcl_TraceVar*(interp: pTcl_Interp, varName: cstring, flags: int, prc: TTclVarTraceProc, clientData: Tcl_ClientData): int{. cdecl, dynlib: dllName, importc.} proc Tcl_TraceVar2*(interp: pTcl_Interp, varName: cstring, elemName: cstring, flags: int, prc: TTclVarTraceProc, clientData: Tcl_ClientData): int{.cdecl, dynlib: dllName, importc.} proc Tcl_UntraceVar*(interp: pTcl_Interp, varName: cstring, flags: int, prc: TTclVarTraceProc, clientData: Tcl_ClientData){.cdecl, dynlib: dllName, importc.} proc Tcl_UntraceVar2*(interp: pTcl_Interp, varName: cstring, elemName: cstring, flags: int, prc: TTclVarTraceProc, clientData: Tcl_ClientData){.cdecl, dynlib: dllName, importc.} proc Tcl_GetVar*(interp: pTcl_Interp, varName: cstring, flags: int): cstring{. cdecl, dynlib: dllName, importc.} proc Tcl_GetVar2*(interp: pTcl_Interp, varName: cstring, elemName: cstring, flags: int): cstring{.cdecl, dynlib: dllName, importc.} proc Tcl_SetVar*(interp: pTcl_Interp, varName: cstring, newValue: cstring, flags: int): cstring{.cdecl, dynlib: dllName, importc.} proc Tcl_SetVar2*(interp: pTcl_Interp, varName: cstring, elemName: cstring, newValue: cstring, flags: int): cstring{.cdecl, dynlib: dllName, importc.} proc Tcl_UnsetVar*(interp: pTcl_Interp, varName: cstring, flags: int): int{. cdecl, dynlib: dllName, importc.} proc Tcl_UnsetVar2*(interp: pTcl_Interp, varName: cstring, elemName: cstring, flags: int): int{.cdecl, dynlib: dllName, importc.} proc Tcl_SetResult*(interp: pTcl_Interp, newValue: cstring, freeProc: TTclFreeProc){.cdecl, dynlib: dllName, importc.} proc Tcl_FirstHashEntry*(hashTbl: pTcl_HashTable, searchInfo: var Tcl_HashSearch): pTcl_HashEntry{. cdecl, dynlib: dllName, importc.} proc Tcl_NextHashEntry*(searchInfo: var Tcl_HashSearch): pTcl_HashEntry{.cdecl, dynlib: dllName, importc.} proc Tcl_InitHashTable*(hashTbl: pTcl_HashTable, keyType: int){.cdecl, dynlib: dllName, importc.} proc Tcl_StringMatch*(str: cstring, pattern: cstring): int{.cdecl, dynlib: dllName, importc.} proc Tcl_GetErrno*(): int{.cdecl, dynlib: dllName, importc.} proc Tcl_SetErrno*(val: int){.cdecl, dynlib: dllName, importc.} proc Tcl_SetPanicProc*(prc: TTclPanicProc){.cdecl, dynlib: dllName, importc.} proc Tcl_PkgProvide*(interp: pTcl_Interp, name: cstring, version: cstring): int{. cdecl, dynlib: dllName, importc.} proc Tcl_StaticPackage*(interp: pTcl_Interp, pkgName: cstring, initProc: TTclPackageInitProc, safeInitProc: TTclPackageInitProc){.cdecl, dynlib: dllName, importc.} proc Tcl_CreateEventSource*(setupProc: TTcl_EventSetupProc, checkProc: TTcl_EventCheckProc, clientData: Tcl_ClientData){.cdecl, dynlib: dllName, importc.} proc Tcl_DeleteEventSource*(setupProc: TTcl_EventSetupProc, checkProc: TTcl_EventCheckProc, clientData: Tcl_ClientData){.cdecl, dynlib: dllName, importc.} proc Tcl_QueueEvent*(evPtr: pTcl_Event, pos: int){.cdecl, dynlib: dllName, importc.} proc Tcl_SetMaxBlockTime*(timePtr: pTcl_Time){.cdecl, dynlib: dllName, importc.} proc Tcl_DeleteEvents*(prc: TTclEventDeleteProc, clientData: Tcl_ClientData){. cdecl, dynlib: dllName, importc.} proc Tcl_DoOneEvent*(flags: int): int{.cdecl, dynlib: dllName, importc.} proc Tcl_DoWhenIdle*(prc: TTclIdleProc, clientData: Tcl_ClientData){.cdecl, dynlib: dllName, importc.} proc Tcl_CancelIdleCall*(prc: TTclIdleProc, clientData: Tcl_ClientData){.cdecl, dynlib: dllName, importc.} proc Tcl_CreateTimerHandler*(milliseconds: int, prc: TTclTimerProc, clientData: Tcl_ClientData): Tcl_TimerToken{.cdecl, dynlib: dllName, importc.} proc Tcl_DeleteTimerHandler*(token: Tcl_TimerToken){.cdecl, dynlib: dllName, importc.} # procedure Tcl_CreateModalTimeout(milliseconds: integer; prc: TTclTimerProc; clientData: Tcl_ClientData); cdecl; external dllName; # procedure Tcl_DeleteModalTimeout(prc: TTclTimerProc; clientData: Tcl_ClientData); cdecl; external dllName; proc Tcl_SplitList*(interp: pTcl_Interp, list: cstring, argcPtr: var int, argvPtr: var Tcl_Argv): int{.cdecl, dynlib: dllName, importc.} proc Tcl_Merge*(argc: int, argv: Tcl_Argv): cstring{.cdecl, dynlib: dllName, importc.} proc Tcl_Free*(p: cstring){.cdecl, dynlib: dllName, importc.} proc Tcl_Init*(interp: pTcl_Interp): int{.cdecl, dynlib: dllName, importc.} # procedure Tcl_InterpDeleteProc(clientData: Tcl_ClientData; interp: pTcl_Interp); cdecl; external dllName; proc Tcl_GetAssocData*(interp: pTcl_Interp, key: cstring, prc: var TTclInterpDeleteProc): Tcl_ClientData{.cdecl, dynlib: dllName, importc.} proc Tcl_DeleteAssocData*(interp: pTcl_Interp, key: cstring){.cdecl, dynlib: dllName, importc.} proc Tcl_SetAssocData*(interp: pTcl_Interp, key: cstring, prc: TTclInterpDeleteProc, clientData: Tcl_ClientData){. cdecl, dynlib: dllName, importc.} proc Tcl_IsSafe*(interp: pTcl_Interp): int{.cdecl, dynlib: dllName, importc.} proc Tcl_MakeSafe*(interp: pTcl_Interp): int{.cdecl, dynlib: dllName, importc.} proc Tcl_CreateSlave*(interp: pTcl_Interp, slaveName: cstring, isSafe: int): pTcl_Interp{. cdecl, dynlib: dllName, importc.} proc Tcl_GetSlave*(interp: pTcl_Interp, slaveName: cstring): pTcl_Interp{.cdecl, dynlib: dllName, importc.} proc Tcl_GetMaster*(interp: pTcl_Interp): pTcl_Interp{.cdecl, dynlib: dllName, importc.} proc Tcl_GetInterpPath*(askingInterp: pTcl_Interp, slaveInterp: pTcl_Interp): int{. cdecl, dynlib: dllName, importc.} proc Tcl_CreateAlias*(slaveInterp: pTcl_Interp, srcCmd: cstring, targetInterp: pTcl_Interp, targetCmd: cstring, argc: int, argv: Tcl_Argv): int{.cdecl, dynlib: dllName, importc.} proc Tcl_GetAlias*(interp: pTcl_Interp, srcCmd: cstring, targetInterp: var pTcl_Interp, targetCmd: var cstring, argc: var int, argv: var Tcl_Argv): int{.cdecl, dynlib: dllName, importc.} proc Tcl_ExposeCommand*(interp: pTcl_Interp, hiddenCmdName: cstring, cmdName: cstring): int{.cdecl, dynlib: dllName, importc.} proc Tcl_HideCommand*(interp: pTcl_Interp, cmdName: cstring, hiddenCmdName: cstring): int{.cdecl, dynlib: dllName, importc.} proc Tcl_EventuallyFree*(clientData: Tcl_ClientData, freeProc: TTclFreeProc){. cdecl, dynlib: dllName, importc.} proc Tcl_Preserve*(clientData: Tcl_ClientData){.cdecl, dynlib: dllName, importc.} proc Tcl_Release*(clientData: Tcl_ClientData){.cdecl, dynlib: dllName, importc.} proc Tcl_InterpDeleted*(interp: pTcl_Interp): int{.cdecl, dynlib: dllName, importc.} proc Tcl_GetCommandInfo*(interp: pTcl_Interp, cmdName: cstring, info: var Tcl_CmdInfo): int{.cdecl, dynlib: dllName, importc.} proc Tcl_SetCommandInfo*(interp: pTcl_Interp, cmdName: cstring, info: var Tcl_CmdInfo): int{.cdecl, dynlib: dllName, importc.} proc Tcl_FindExecutable*(path: cstring){.cdecl, dynlib: dllName, importc.} proc Tcl_GetStringResult*(interp: pTcl_Interp): cstring{.cdecl, dynlib: dllName, importc.} #v1.0 proc Tcl_FindCommand*(interp: pTcl_Interp, cmdName: cstring, contextNsPtr: pTcl_Namespace, flags: int): Tcl_Command{. cdecl, dynlib: dllName, importc.} #v1.0 proc Tcl_DeleteCommandFromToken*(interp: pTcl_Interp, cmd: pTcl_Command): int{. cdecl, dynlib: dllName, importc.} proc Tcl_CreateNamespace*(interp: pTcl_Interp, name: cstring, clientData: Tcl_ClientData, deleteProc: TTclNamespaceDeleteProc): pTcl_Namespace{. cdecl, dynlib: dllName, importc.} #v1.0 proc Tcl_DeleteNamespace*(namespacePtr: pTcl_Namespace){.cdecl, dynlib: dllName, importc.} proc Tcl_FindNamespace*(interp: pTcl_Interp, name: cstring, contextNsPtr: pTcl_Namespace, flags: int): pTcl_Namespace{. cdecl, dynlib: dllName, importc.} proc Tcl_Export*(interp: pTcl_Interp, namespacePtr: pTcl_Namespace, pattern: cstring, resetListFirst: int): int{.cdecl, dynlib: dllName, importc.} proc Tcl_Import*(interp: pTcl_Interp, namespacePtr: pTcl_Namespace, pattern: cstring, allowOverwrite: int): int{.cdecl, dynlib: dllName, importc.} proc Tcl_GetCurrentNamespace*(interp: pTcl_Interp): pTcl_Namespace{.cdecl, dynlib: dllName, importc.} proc Tcl_GetGlobalNamespace*(interp: pTcl_Interp): pTcl_Namespace{.cdecl, dynlib: dllName, importc.} proc Tcl_PushCallFrame*(interp: pTcl_Interp, callFramePtr: var Tcl_CallFrame, namespacePtr: pTcl_Namespace, isProcCallFrame: int): int{. cdecl, dynlib: dllName, importc.} proc Tcl_PopCallFrame*(interp: pTcl_Interp){.cdecl, dynlib: dllName, importc.} proc Tcl_VarEval*(interp: pTcl_Interp): int{.cdecl, varargs, dynlib: dllName, importc.} # For TkConsole.c * proc Tcl_RecordAndEval*(interp: pTcl_Interp, cmd: cstring, flags: int): int{. cdecl, dynlib: dllName, importc.} proc Tcl_GlobalEval*(interp: pTcl_Interp, command: cstring): int{.cdecl, dynlib: dllName, importc.} proc Tcl_DStringFree*(dsPtr: pTcl_DString){.cdecl, dynlib: dllName, importc.} proc Tcl_DStringAppend*(dsPtr: pTcl_DString, str: cstring, length: int): cstring{. cdecl, dynlib: dllName, importc.} proc Tcl_DStringAppendElement*(dsPtr: pTcl_DString, str: cstring): cstring{. cdecl, dynlib: dllName, importc.} proc Tcl_DStringInit*(dsPtr: pTcl_DString){.cdecl, dynlib: dllName, importc.} proc Tcl_AppendResult*(interp: pTcl_Interp){.cdecl, varargs, dynlib: dllName, importc.} # actually a "C" var array proc Tcl_SetStdChannel*(channel: pTcl_Channel, typ: int){.cdecl, dynlib: dllName, importc.} proc Tcl_SetChannelOption*(interp: pTcl_Interp, chan: pTcl_Channel, optionName: cstring, newValue: cstring): int{.cdecl, dynlib: dllName, importc.} proc Tcl_GetChannelOption*(interp: pTcl_Interp, chan: pTcl_Channel, optionName: cstring, dsPtr: pTcl_DString): int{. cdecl, dynlib: dllName, importc.} proc Tcl_CreateChannel*(typePtr: pTcl_ChannelType, chanName: cstring, instanceData: Tcl_ClientData, mask: int): pTcl_Channel{. cdecl, dynlib: dllName, importc.} proc Tcl_RegisterChannel*(interp: pTcl_Interp, channel: pTcl_Channel){.cdecl, dynlib: dllName, importc.} proc Tcl_UnregisterChannel*(interp: pTcl_Interp, channel: pTcl_Channel): int{. cdecl, dynlib: dllName, importc.} proc Tcl_CreateChannelHandler*(chan: pTcl_Channel, mask: int, prc: TTclChannelProc, clientData: Tcl_ClientData){. cdecl, dynlib: dllName, importc.} proc Tcl_GetChannel*(interp: pTcl_Interp, chanName: cstring, modePtr: pInteger): pTcl_Channel{. cdecl, dynlib: dllName, importc.} proc Tcl_GetStdChannel*(typ: int): pTcl_Channel{.cdecl, dynlib: dllName, importc.} proc Tcl_Gets*(chan: pTcl_Channel, dsPtr: pTcl_DString): int{.cdecl, dynlib: dllName, importc.} proc Tcl_Write*(chan: pTcl_Channel, s: cstring, slen: int): int{.cdecl, dynlib: dllName, importc.} proc Tcl_Flush*(chan: pTcl_Channel): int{.cdecl, dynlib: dllName, importc.} # TclWinLoadLibrary = function(name: PChar): HMODULE; cdecl; external dllName; proc Tcl_CreateExitHandler*(prc: TTclClientDataProc, clientData: Tcl_ClientData){. cdecl, dynlib: dllName, importc.} proc Tcl_DeleteExitHandler*(prc: TTclClientDataProc, clientData: Tcl_ClientData){. cdecl, dynlib: dllName, importc.} proc Tcl_GetStringFromObj*(pObj: pTcl_Obj, pLen: pInteger): cstring{.cdecl, dynlib: dllName, importc.} proc Tcl_CreateObjCommand*(interp: pTcl_Interp, name: cstring, cmdProc: TTclObjCmdProc, clientData: Tcl_ClientData, deleteProc: TTclCmdDeleteProc): pTcl_Command{.cdecl, dynlib: dllName, importc.} proc Tcl_NewStringObj*(bytes: cstring, length: int): pTcl_Obj{.cdecl, dynlib: dllName, importc.} # procedure TclFreeObj(pObj: pTcl_Obj); cdecl; external dllName; proc Tcl_EvalObj*(interp: pTcl_Interp, pObj: pTcl_Obj): int{.cdecl, dynlib: dllName, importc.} proc Tcl_GlobalEvalObj*(interp: pTcl_Interp, pObj: pTcl_Obj): int{.cdecl, dynlib: dllName, importc.} proc TclRegComp*(exp: cstring): pointer{.cdecl, dynlib: dllName, importc.} proc TclRegExec*(prog: pointer, str: cstring, start: cstring): int{.cdecl, dynlib: dllName, importc.} proc TclRegError*(msg: cstring){.cdecl, dynlib: dllName, importc.} proc TclGetRegError*(): cstring{.cdecl, dynlib: dllName, importc.} proc Tcl_RegExpRange*(prog: pointer, index: int, head: var cstring, tail: var cstring){.cdecl, dynlib: dllName, importc.} proc Tcl_GetCommandTable*(interp: pTcl_Interp): pHashTable = if interp != nil: result = cast[pHashTable](cast[int](interp) + sizeof(Tcl_Interp) + sizeof(pointer)) proc Tcl_CreateHashEntry*(tablePtr: pTcl_HashTable, key: cstring, newPtr: pInteger): pTcl_HashEntry = result = cast[pHashTable](tablePtr).createProc(tablePtr, key, newPtr) proc Tcl_FindHashEntry*(tablePtr: pTcl_HashTable, key: cstring): pTcl_HashEntry = result = cast[pHashTable](tablePtr).findProc(tablePtr, key) proc Tcl_SetHashValue*(h: pTcl_HashEntry, clientData: Tcl_ClientData) = h.clientData = clientData proc Tcl_GetHashValue*(h: pTcl_HashEntry): Tcl_ClientData = result = h.clientData proc Tcl_IncrRefCount*(pObj: pTcl_Obj) = inc(pObj.refCount) proc Tcl_DecrRefCount*(pObj: pTcl_Obj) = dec(pObj.refCount) if pObj.refCount <= 0: dealloc(pObj) proc Tcl_IsShared*(pObj: pTcl_Obj): bool = return pObj.refCount > 1 proc Tcl_GetHashKey*(hashTbl: pTcl_HashTable, hashEntry: pTcl_HashEntry): cstring = if hashTbl == nil or hashEntry == nil: result = nil else: result = hashEntry.key