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/*
* f i c l . c
* Forth Inspired Command Language - external interface
* Author: John Sadler (john_sadler@alum.mit.edu)
* Created: 19 July 1997
* $Id: system.c,v 1.2 2010/09/10 10:35:54 asau Exp $
*/
/*
* This is an ANS Forth interpreter written in C.
* Ficl uses Forth syntax for its commands, but turns the Forth
* model on its head in other respects.
* Ficl provides facilities for interoperating
* with programs written in C: C functions can be exported to Ficl,
* and Ficl commands can be executed via a C calling interface. The
* interpreter is re-entrant, so it can be used in multiple instances
* in a multitasking system. Unlike Forth, Ficl's outer interpreter
* expects a text block as input, and returns to the caller after each
* text block, so the data pump is somewhere in external code in the
* style of TCL.
*
* Code is written in ANSI C for portability.
*/
/*
* Copyright (c) 1997-2001 John Sadler (john_sadler@alum.mit.edu)
* All rights reserved.
*
* Get the latest Ficl release at http://ficl.sourceforge.net
*
* I am interested in hearing from anyone who uses Ficl. If you have
* a problem, a success story, a defect, an enhancement request, or
* if you would like to contribute to the Ficl release, please
* contact me by email at the address above.
*
* L I C E N S E and D I S C L A I M E R
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*/
#include "ficl.h"
/*
* System statics
* Each ficlSystem builds a global dictionary during its start
* sequence. This is shared by all virtual machines of that system.
* Therefore only one VM can update the dictionary
* at a time. The system imports a locking function that
* you can override in order to control update access to
* the dictionary. The function is stubbed out by default,
* but you can insert one: #define FICL_WANT_MULTITHREADED 1
* and supply your own version of ficlDictionaryLock.
*/
ficlSystem *ficlSystemGlobal = NULL;
/*
* f i c l S e t V e r s i o n E n v
* Create a double ficlCell environment constant for the version ID
*/
static void
ficlSystemSetVersion(ficlSystem *system)
{
int major = FICL_VERSION_MAJOR;
int minor = FICL_VERSION_MINOR;
ficl2Integer combined;
ficlDictionary *environment = ficlSystemGetEnvironment(system);
FICL_2INTEGER_SET(major, minor, combined);
(void) ficlDictionarySet2Constant(environment, "ficl-version",
combined);
(void) ficlDictionarySetConstant(environment, "ficl-robust",
FICL_ROBUST);
}
/*
* f i c l I n i t S y s t e m
* Binds a global dictionary to the interpreter system.
* You specify the address and size of the allocated area.
* After that, Ficl manages it.
* First step is to set up the static pointers to the area.
* Then write the "precompiled" portion of the dictionary in.
* The dictionary needs to be at least large enough to hold the
* precompiled part. Try 1K cells minimum. Use "words" to find
* out how much of the dictionary is used at any time.
*/
ficlSystem *
ficlSystemCreate(ficlSystemInformation *fsi)
{
ficlInteger dictionarySize;
ficlInteger environmentSize;
ficlInteger stackSize;
ficlSystem *system;
ficlCallback callback;
ficlSystemInformation fauxInfo;
ficlDictionary *environment;
if (fsi == NULL) {
fsi = &fauxInfo;
ficlSystemInformationInitialize(fsi);
}
callback.context = fsi->context;
callback.textOut = fsi->textOut;
callback.errorOut = fsi->errorOut;
callback.system = NULL;
callback.vm = NULL;
FICL_ASSERT(&callback, sizeof (ficlInteger) >= sizeof (void *));
FICL_ASSERT(&callback, sizeof (ficlUnsigned) >= sizeof (void *));
#if (FICL_WANT_FLOAT)
FICL_ASSERT(&callback, sizeof (ficlFloat) <= sizeof (ficlInteger));
#endif
system = ficlMalloc(sizeof (ficlSystem));
FICL_ASSERT(&callback, system);
memset(system, 0, sizeof (ficlSystem));
dictionarySize = fsi->dictionarySize;
if (dictionarySize <= 0)
dictionarySize = FICL_DEFAULT_DICTIONARY_SIZE;
environmentSize = fsi->environmentSize;
if (environmentSize <= 0)
environmentSize = FICL_DEFAULT_ENVIRONMENT_SIZE;
stackSize = fsi->stackSize;
if (stackSize < FICL_DEFAULT_STACK_SIZE)
stackSize = FICL_DEFAULT_STACK_SIZE;
system->dictionary = ficlDictionaryCreateHashed(system,
(unsigned)dictionarySize, FICL_HASH_SIZE);
system->dictionary->forthWordlist->name = "forth-wordlist";
environment = ficlDictionaryCreate(system, (unsigned)environmentSize);
system->environment = environment;
system->environment->forthWordlist->name = "environment";
system->callback.textOut = fsi->textOut;
system->callback.errorOut = fsi->errorOut;
system->callback.context = fsi->context;
system->callback.system = system;
system->callback.vm = NULL;
system->stackSize = stackSize;
#if FICL_WANT_LOCALS
/*
* The locals dictionary is only searched while compiling,
* but this is where speed is most important. On the other
* hand, the dictionary gets emptied after each use of locals
* The need to balance search speed with the cost of the 'empty'
* operation led me to select a single-threaded list...
*/
system->locals = ficlDictionaryCreate(system,
(unsigned)FICL_MAX_LOCALS * FICL_CELLS_PER_WORD);
#endif /* FICL_WANT_LOCALS */
/*
* Build the precompiled dictionary and load softwords. We need
* a temporary VM to do this - ficlNewVM links one to the head of
* the system VM list. ficlCompilePlatform (defined in win32.c,
* for example) adds platform specific words.
*/
ficlSystemCompileCore(system);
ficlSystemCompilePrefix(system);
#if FICL_WANT_FLOAT
ficlSystemCompileFloat(system);
#endif /* FICL_WANT_FLOAT */
#if FICL_WANT_PLATFORM
ficlSystemCompilePlatform(system);
#endif /* FICL_WANT_PLATFORM */
ficlSystemSetVersion(system);
/*
* Establish the parse order. Note that prefixes precede numbers -
* this allows constructs like "0b101010" which might parse as a
* hex value otherwise.
*/
ficlSystemAddPrimitiveParseStep(system, "?word", ficlVmParseWord);
ficlSystemAddPrimitiveParseStep(system, "?prefix", ficlVmParsePrefix);
ficlSystemAddPrimitiveParseStep(system, "?number", ficlVmParseNumber);
#if FICL_WANT_FLOAT
ficlSystemAddPrimitiveParseStep(system, "?float",
ficlVmParseFloatNumber);
#endif
/*
* Now create a temporary VM to compile the softwords. Since all VMs
* are linked into the vmList of ficlSystem, we don't have to pass
* the VM to ficlCompileSoftCore -- it just hijacks whatever it finds
* in the VM list. Ficl 2.05: vmCreate no longer depends on the
* presence of INTERPRET in the dictionary, so a VM can be created
* before the dictionary is built. It just can't do much...
*/
(void) ficlSystemCreateVm(system);
#define ADD_COMPILE_FLAG(name) \
(void) ficlDictionarySetConstant(environment, #name, name)
ADD_COMPILE_FLAG(FICL_WANT_LZ4_SOFTCORE);
ADD_COMPILE_FLAG(FICL_WANT_FILE);
ADD_COMPILE_FLAG(FICL_WANT_FLOAT);
ADD_COMPILE_FLAG(FICL_WANT_DEBUGGER);
ADD_COMPILE_FLAG(FICL_WANT_EXTENDED_PREFIX);
ADD_COMPILE_FLAG(FICL_WANT_USER);
ADD_COMPILE_FLAG(FICL_WANT_LOCALS);
ADD_COMPILE_FLAG(FICL_WANT_OOP);
ADD_COMPILE_FLAG(FICL_WANT_SOFTWORDS);
ADD_COMPILE_FLAG(FICL_WANT_MULTITHREADED);
ADD_COMPILE_FLAG(FICL_WANT_OPTIMIZE);
ADD_COMPILE_FLAG(FICL_WANT_VCALL);
ADD_COMPILE_FLAG(FICL_PLATFORM_ALIGNMENT);
ADD_COMPILE_FLAG(FICL_ROBUST);
#define ADD_COMPILE_STRING(name) \
(void) ficlDictionarySetConstantString(environment, #name, name)
ADD_COMPILE_STRING(FICL_PLATFORM_ARCHITECTURE);
ADD_COMPILE_STRING(FICL_PLATFORM_OS);
ficlSystemCompileSoftCore(system);
ficlSystemDestroyVm(system->vmList);
if (ficlSystemGlobal == NULL)
ficlSystemGlobal = system;
return (system);
}
/*
* f i c l T e r m S y s t e m
* Tear the system down by deleting the dictionaries and all VMs.
* This saves you from having to keep track of all that stuff.
*/
void
ficlSystemDestroy(ficlSystem *system)
{
if (system->dictionary)
ficlDictionaryDestroy(system->dictionary);
system->dictionary = NULL;
if (system->environment)
ficlDictionaryDestroy(system->environment);
system->environment = NULL;
#if FICL_WANT_LOCALS
if (system->locals)
ficlDictionaryDestroy(system->locals);
system->locals = NULL;
#endif
while (system->vmList != NULL) {
ficlVm *vm = system->vmList;
system->vmList = system->vmList->link;
ficlVmDestroy(vm);
}
if (ficlSystemGlobal == system)
ficlSystemGlobal = NULL;
ficlFree(system);
system = NULL;
}
/*
* f i c l A d d P a r s e S t e p
* Appends a parse step function to the end of the parse list (see
* ficlParseStep notes in ficl.h for details). Returns 0 if successful,
* nonzero if there's no more room in the list.
*/
int
ficlSystemAddParseStep(ficlSystem *system, ficlWord *word)
{
int i;
for (i = 0; i < FICL_MAX_PARSE_STEPS; i++) {
if (system->parseList[i] == NULL) {
system->parseList[i] = word;
return (0);
}
}
return (1);
}
/*
* Compile a word into the dictionary that invokes the specified ficlParseStep
* function. It is up to the user (as usual in Forth) to make sure the stack
* preconditions are valid (there needs to be a counted string on top of the
* stack) before using the resulting word.
*/
void
ficlSystemAddPrimitiveParseStep(ficlSystem *system, char *name,
ficlParseStep pStep)
{
ficlDictionary *dictionary = system->dictionary;
ficlWord *word;
ficlCell c;
word = ficlDictionaryAppendPrimitive(dictionary, name,
ficlPrimitiveParseStepParen, FICL_WORD_DEFAULT);
c.fn = (void (*)(void))pStep;
ficlDictionaryAppendCell(dictionary, c);
(void) ficlSystemAddParseStep(system, word);
}
/*
* f i c l N e w V M
* Create a new virtual machine and link it into the system list
* of VMs for later cleanup by ficlTermSystem.
*/
ficlVm *
ficlSystemCreateVm(ficlSystem *system)
{
ficlVm *vm = ficlVmCreate(NULL, system->stackSize, system->stackSize);
vm->link = system->vmList;
memcpy(&(vm->callback), &(system->callback), sizeof (system->callback));
vm->callback.vm = vm;
vm->callback.system = system;
system->vmList = vm;
return (vm);
}
/*
* f i c l F r e e V M
* Removes the VM in question from the system VM list and deletes the
* memory allocated to it. This is an optional call, since ficlTermSystem
* will do this cleanup for you. This function is handy if you're going to
* do a lot of dynamic creation of VMs.
*/
void
ficlSystemDestroyVm(ficlVm *vm)
{
ficlSystem *system = vm->callback.system;
ficlVm *pList = system->vmList;
FICL_VM_ASSERT(vm, vm != NULL);
if (system->vmList == vm) {
system->vmList = system->vmList->link;
} else
for (; pList != NULL; pList = pList->link) {
if (pList->link == vm) {
pList->link = vm->link;
break;
}
}
if (pList)
ficlVmDestroy(vm);
}
/*
* f i c l L o o k u p
* Look in the system dictionary for a match to the given name. If
* found, return the address of the corresponding ficlWord. Otherwise
* return NULL.
*/
ficlWord *
ficlSystemLookup(ficlSystem *system, char *name)
{
ficlString s;
FICL_STRING_SET_FROM_CSTRING(s, name);
return (ficlDictionaryLookup(system->dictionary, s));
}
/*
* f i c l G e t D i c t
* Returns the address of the system dictionary
*/
ficlDictionary *
ficlSystemGetDictionary(ficlSystem *system)
{
return (system->dictionary);
}
/*
* f i c l G e t E n v
* Returns the address of the system environment space
*/
ficlDictionary *
ficlSystemGetEnvironment(ficlSystem *system)
{
return (system->environment);
}
/*
* f i c l G e t L o c
* Returns the address of the system locals dictionary. This dictionary is
* only used during compilation, and is shared by all VMs.
*/
#if FICL_WANT_LOCALS
ficlDictionary *
ficlSystemGetLocals(ficlSystem *system)
{
return (system->locals);
}
#endif
/*
* f i c l L o o k u p L o c
* Same as dictLookup, but looks in system locals dictionary first...
* Assumes locals dictionary has only one wordlist...
*/
#if FICL_WANT_LOCALS
ficlWord *
ficlSystemLookupLocal(ficlSystem *system, ficlString name)
{
ficlWord *word = NULL;
ficlDictionary *dictionary = system->dictionary;
ficlHash *hash = ficlSystemGetLocals(system)->forthWordlist;
int i;
ficlUnsigned16 hashCode = ficlHashCode(name);
FICL_SYSTEM_ASSERT(system, hash);
FICL_SYSTEM_ASSERT(system, dictionary);
ficlDictionaryLock(dictionary, FICL_TRUE);
/*
* check the locals dictionary first...
*/
word = ficlHashLookup(hash, name, hashCode);
/*
* If no joy, (!word) ------------------------------v
* iterate over the search list in the main dictionary
*/
for (i = (int)dictionary->wordlistCount - 1; (i >= 0) && (!word); --i) {
hash = dictionary->wordlists[i];
word = ficlHashLookup(hash, name, hashCode);
}
ficlDictionaryLock(dictionary, FICL_FALSE);
return (word);
}
#endif
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