qse/ase/com/Awk.cpp

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/*
* $Id: Awk.cpp,v 1.8 2007/09/23 16:48:55 bacon Exp $
*
* {License}
*/
#include "stdafx.h"
#include "asecom.h"
#include "Awk.h"
#include "AwkExtio.h"
#include "Buffer.h"
#include <stdlib.h>
#include <string.h>
#include <math.h>
#include <wctype.h>
#include <stdio.h>
#include <ase/cmn/str.h>
#include <ase/utl/stdio.h>
#include <ase/utl/ctype.h>
#ifdef _MSC_VER
#pragma warning (disable: 4996)
#endif
#define DBGOUT(x) do { if (debug) OutputDebugString (x); } while(0)
#define DBGOUT2(awk,x) do { if (awk->debug) OutputDebugString (x); } while(0)
STDMETHODIMP CAwk::InterfaceSupportsErrorInfo(REFIID riid)
{
static const IID* arr[] =
{
&IID_IAwk,
};
for (int i=0;i<sizeof(arr)/sizeof(arr[0]);i++)
{
if (/*Inline*/IsEqualGUID(*arr[i],riid))
return S_OK;
}
return S_FALSE;
}
CAwk::CAwk ():
handle (NULL),
read_src_buf (NULL),
write_src_buf (NULL),
write_extio_buf (NULL),
bfn_list (NULL),
word_list (NULL),
entry_point (NULL),
debug (FALSE),
use_longlong (FALSE)
{
/* TODO: what is the best default option? */
option =
ASE_AWK_IMPLICIT |
ASE_AWK_EXPLICIT |
ASE_AWK_UNIQUEFN |
ASE_AWK_IDIV |
ASE_AWK_SHADING |
ASE_AWK_SHIFT |
ASE_AWK_EXTIO |
ASE_AWK_BLOCKLESS |
ASE_AWK_BASEONE |
ASE_AWK_STRIPSPACES |
ASE_AWK_NEXTOFILE |
ASE_AWK_CRLF;
memset (&max_depth, 0, sizeof(max_depth));
errnum = 0;
errlin = 0;
errmsg[0] = ASE_T('\0');
}
CAwk::~CAwk ()
{
while (word_list != NULL)
{
word_t* next = word_list->next;
free (word_list);
word_list = next;
}
while (bfn_list != NULL)
{
bfn_t* next = bfn_list->next;
free (bfn_list);
bfn_list = next;
}
if (entry_point != NULL) SysFreeString (entry_point);
if (write_extio_buf != NULL) write_extio_buf->Release ();
if (write_src_buf != NULL) write_src_buf->Release ();
if (read_src_buf != NULL) read_src_buf->Release ();
if (handle != NULL)
{
ase_awk_close (handle);
handle = NULL;
DBGOUT (_T("closed awk"));
}
}
#ifndef NDEBUG
void ase_assert_abort (void)
{
abort ();
}
void ase_assert_printf (const ase_char_t* fmt, ...)
{
va_list ap;
int n;
ase_char_t buf[1024];
va_start (ap, fmt);
n = _vsntprintf (buf, ASE_COUNTOF(buf), fmt, ap);
if (n < 0) buf[ASE_COUNTOF(buf)-1] = ASE_T('\0');
MessageBox (NULL, buf, ASE_T("Assertion Failure"), MB_OK|MB_ICONERROR);
va_end (ap);
}
#endif
static void* custom_awk_malloc (void* custom, ase_size_t n)
{
return malloc (n);
}
static void* custom_awk_realloc (void* custom, void* ptr, ase_size_t n)
{
return realloc (ptr, n);
}
static void custom_awk_free (void* custom, void* ptr)
{
free (ptr);
}
ase_bool_t custom_awk_isupper (void* custom, ase_cint_t c)
{
return ase_isupper (c);
}
ase_bool_t custom_awk_islower (void* custom, ase_cint_t c)
{
return ase_islower (c);
}
ase_bool_t custom_awk_isalpha (void* custom, ase_cint_t c)
{
return ase_isalpha (c);
}
ase_bool_t custom_awk_isdigit (void* custom, ase_cint_t c)
{
return ase_isdigit (c);
}
ase_bool_t custom_awk_isxdigit (void* custom, ase_cint_t c)
{
return ase_isxdigit (c);
}
ase_bool_t custom_awk_isalnum (void* custom, ase_cint_t c)
{
return ase_isalnum (c);
}
ase_bool_t custom_awk_isspace (void* custom, ase_cint_t c)
{
return ase_isspace (c);
}
ase_bool_t custom_awk_isprint (void* custom, ase_cint_t c)
{
return ase_isprint (c);
}
ase_bool_t custom_awk_isgraph (void* custom, ase_cint_t c)
{
return ase_isgraph (c);
}
ase_bool_t custom_awk_iscntrl (void* custom, ase_cint_t c)
{
return ase_iscntrl (c);
}
ase_bool_t custom_awk_ispunct (void* custom, ase_cint_t c)
{
return ase_ispunct (c);
}
ase_cint_t custom_awk_toupper (void* custom, ase_cint_t c)
{
return ase_toupper (c);
}
ase_cint_t custom_awk_tolower (void* custom, ase_cint_t c)
{
return ase_tolower (c);
}
static ase_real_t custom_awk_pow (void* custom, ase_real_t x, ase_real_t y)
{
return pow (x, y);
}
static int custom_awk_sprintf (
void* custom, ase_char_t* buf, ase_size_t size,
const ase_char_t* fmt, ...)
{
int n;
va_list ap;
va_start (ap, fmt);
n = ase_vsprintf (buf, size, fmt, ap);
va_end (ap);
return n;
}
static void custom_awk_dprintf (void* custom, const ase_char_t* fmt, ...)
{
va_list ap;
va_start (ap, fmt);
_vftprintf (stderr, fmt, ap);
va_end (ap);
}
static ase_ssize_t __read_source (
int cmd, void* arg, ase_char_t* data, ase_size_t count)
{
CAwk* awk = (CAwk*)arg;
if (cmd == ASE_AWK_IO_OPEN)
{
return (ase_ssize_t)awk->Fire_OpenSource (AWK_SOURCE_READ);
}
else if (cmd == ASE_AWK_IO_CLOSE)
{
return (ase_ssize_t)awk->Fire_CloseSource (AWK_SOURCE_READ);
}
else if (cmd == ASE_AWK_IO_READ)
{
if (awk->read_src_buf == NULL)
{
HRESULT hr = CoCreateInstance (
CLSID_Buffer, NULL, CLSCTX_ALL,
IID_IBuffer, (void**)&awk->read_src_buf);
if (FAILED(hr))
{
DBGOUT2 (awk, _T("cannot create source input buffer"));
return -1;
}
awk->read_src_pos = 0;
awk->read_src_len = 0;
}
CBuffer* tmp = (CBuffer*)awk->read_src_buf;
if (awk->read_src_pos >= awk->read_src_len)
{
INT n = awk->Fire_ReadSource (awk->read_src_buf);
if (n <= 0) return (ase_ssize_t)n;
if (SysStringLen(tmp->str) < (UINT)n) return -1;
awk->read_src_pos = 0;
awk->read_src_len = n;
}
ASE_ASSERT (awk->read_src_pos < awk->read_src_len);
BSTR str = tmp->str;
INT left = awk->read_src_len - awk->read_src_pos;
if (left > (ase_ssize_t)count)
{
memcpy (data,
((TCHAR*)str)+awk->read_src_pos,
count * ASE_SIZEOF(ase_char_t));
awk->read_src_pos += count;
return count;
}
else
{
memcpy (data,
((TCHAR*)str)+awk->read_src_pos,
left * ASE_SIZEOF(ase_char_t));
awk->read_src_pos = 0;
awk->read_src_len = 0;
return (ase_ssize_t)left;
}
}
return -1;
}
static ase_ssize_t __write_source (
int cmd, void* arg, ase_char_t* data, ase_size_t count)
{
CAwk* awk = (CAwk*)arg;
if (cmd == ASE_AWK_IO_OPEN)
{
return (ase_ssize_t)awk->Fire_OpenSource (AWK_SOURCE_WRITE);
}
else if (cmd == ASE_AWK_IO_CLOSE)
{
return (ase_ssize_t)awk->Fire_CloseSource (AWK_SOURCE_WRITE);
}
else if (cmd == ASE_AWK_IO_WRITE)
{
HRESULT hr;
if (awk->write_src_buf == NULL)
{
hr = CoCreateInstance (
CLSID_Buffer, NULL, CLSCTX_ALL,
IID_IBuffer, (void**)&awk->write_src_buf);
if (FAILED(hr))
{
DBGOUT2 (awk, _T("cannot create source output buffer"));
return -1;
}
}
CBuffer* tmp = (CBuffer*)awk->write_src_buf;
if (tmp->PutValue (data, count) == FALSE)
{
DBGOUT2 (awk, _T("cannot set source output buffer"));
return -1;
}
INT n = awk->Fire_WriteSource (awk->write_src_buf);
if (n > (INT)count) return -1;
return (ase_ssize_t)n;
}
return -1;
}
static int __handle_bfn (
ase_awk_run_t* run, const ase_char_t* fnm, ase_size_t fnl)
{
CAwk* awk = (CAwk*)ase_awk_getruncustomdata (run);
long nargs = (long)ase_awk_getnargs (run);
ase_awk_val_t* v;
SAFEARRAY* aa;
SAFEARRAYBOUND bound[1];
bound[0].lLbound = 0;
bound[0].cElements = nargs;
aa = SafeArrayCreate (VT_VARIANT, ASE_COUNTOF(bound), bound);
if (aa == NULL)
{
ase_char_t buf[128];
_sntprintf (buf, ASE_COUNTOF(buf),
_T("out of memory in creating argument array for '%.*s'"),
fnl, fnm);
//TODO: ase_awk_setrunerror (run, ASE_AWK_ENOMEM, 0, buf);
return -1;
}
for (long i = 0; i < nargs; i++)
{
VARIANT arg;
VariantInit (&arg);
v = ase_awk_getarg (run, i);
if (v->type == ASE_AWK_VAL_INT)
{
if (awk->use_longlong)
{
arg.vt = VT_I8;
arg.llVal = ((ase_awk_val_int_t*)v)->val;
}
else
{
arg.vt = VT_I4;
arg.lVal = (LONG)((ase_awk_val_int_t*)v)->val;
}
}
else if (v->type == ASE_AWK_VAL_REAL)
{
arg.vt = VT_R8;
arg.dblVal = ((ase_awk_val_real_t*)v)->val;
}
else if (v->type == ASE_AWK_VAL_STR)
{
BSTR tmp = SysAllocStringLen (
((ase_awk_val_str_t*)v)->buf,
((ase_awk_val_str_t*)v)->len);
if (arg.bstrVal == NULL)
{
VariantClear (&arg);
SafeArrayDestroy (aa);
ase_char_t buf[128];
_sntprintf (buf, ASE_COUNTOF(buf),
_T("out of memory in handling '%.*s'"),
fnl, fnm);
//TODO: ase_awk_setrunerror (run, ASE_AWK_ENOMEM, 0, buf);
return -1;
}
arg.vt = VT_BSTR;
arg.bstrVal = tmp;
}
else if (v->type == ASE_AWK_VAL_NIL)
{
arg.vt = VT_NULL;
}
HRESULT hr = SafeArrayPutElement (aa, &i, &arg);
if (hr != S_OK)
{
VariantClear (&arg);
SafeArrayDestroy (aa);
ase_char_t buf[128];
_sntprintf (buf, ASE_COUNTOF(buf),
_T("out of memory in handling '%.*s'"),
fnl, fnm);
//TODO: ase_awk_setrunerror (run, ASE_AWK_ENOMEM, 0, buf);
return -1;
}
VariantClear (&arg);
}
BSTR name = SysAllocStringLen (fnm, fnl);
if (name == NULL)
{
SafeArrayDestroy (aa);
ase_char_t buf[128];
_sntprintf (buf, ASE_COUNTOF(buf),
_T("out of memory in handling '%.*s'"),
fnl, fnm);
//TODO: ase_awk_setrunerror (run, ASE_AWK_ENOMEM, 0, buf);
return -1;
}
ase_awk_val_t* ret;
int n = awk->Fire_HandleFunction (run, name, aa, &ret);
if (n == 1)
{
ase_char_t buf[128];
_sntprintf (buf, ASE_COUNTOF(buf),
_T("out of memory in handling '%.*s'"),
fnl, fnm);
//TODO: ase_awk_setrunerror (run, ASE_AWK_ENOMEM, 0, buf);
return -1;
}
else if (n == 2)
{
ase_char_t buf[128];
_sntprintf (buf, ASE_COUNTOF(buf),
_T("no handler for '%.*s'"),
fnl, fnm);
//TODO: ase_awk_setrunerror (run, ASE_AWK_ENOMEM, 0, buf);
return -1;
}
else if (n == 3)
{
ase_char_t buf[128];
_sntprintf (buf, ASE_COUNTOF(buf),
_T("return value not supported for '%.*s'"),
fnl, fnm);
//TODO: ase_awk_setrunerror (run, ASE_AWK_ENOMEM, 0, buf);
return -1;
}
/* name and aa are destroyed in HandleFunction */
//SafeArrayDestroy (aa);
//SysFreeString (name);
ase_awk_setretval (run, ret);
return 0;
}
HRESULT CAwk::Parse (VARIANT_BOOL* ret)
{
if (handle == NULL)
{
ase_awk_prmfns_t prmfns;
memset (&prmfns, 0, sizeof(prmfns));
prmfns.mmgr.malloc = custom_awk_malloc;
prmfns.mmgr.realloc = custom_awk_realloc;
prmfns.mmgr.free = custom_awk_free;
prmfns.ccls.is_upper = custom_awk_isupper;
prmfns.ccls.is_lower = custom_awk_islower;
prmfns.ccls.is_alpha = custom_awk_isalpha;
prmfns.ccls.is_digit = custom_awk_isdigit;
prmfns.ccls.is_xdigit = custom_awk_isxdigit;
prmfns.ccls.is_alnum = custom_awk_isalnum;
prmfns.ccls.is_space = custom_awk_isspace;
prmfns.ccls.is_print = custom_awk_isprint;
prmfns.ccls.is_graph = custom_awk_isgraph;
prmfns.ccls.is_cntrl = custom_awk_iscntrl;
prmfns.ccls.is_punct = custom_awk_ispunct;
prmfns.ccls.to_upper = custom_awk_toupper;
prmfns.ccls.to_lower = custom_awk_tolower;
prmfns.misc.pow = custom_awk_pow;
prmfns.misc.sprintf = custom_awk_sprintf;
prmfns.misc.dprintf = custom_awk_dprintf;
handle = ase_awk_open (&prmfns, NULL);
if (handle == NULL)
{
errlin = 0;
ase_strxcpy (
errmsg, ASE_COUNTOF(errmsg),
ase_awk_geterrstr(NULL, ASE_AWK_ENOMEM));
*ret = VARIANT_FALSE;
DBGOUT (_T("cannot open awk"));
return S_OK;
}
else DBGOUT (_T("opened awk successfully"));
}
ase_awk_setoption (handle, option);
ase_awk_setmaxdepth (handle,
ASE_AWK_DEPTH_BLOCK_PARSE, max_depth.block.parse);
ase_awk_setmaxdepth (handle,
ASE_AWK_DEPTH_BLOCK_RUN, max_depth.block.run);
ase_awk_setmaxdepth (handle,
ASE_AWK_DEPTH_EXPR_PARSE, max_depth.expr.parse);
ase_awk_setmaxdepth (handle,
ASE_AWK_DEPTH_EXPR_RUN, max_depth.expr.run);
ase_awk_setmaxdepth (handle,
ASE_AWK_DEPTH_REX_BUILD, max_depth.rex.build);
ase_awk_setmaxdepth (handle,
ASE_AWK_DEPTH_REX_MATCH, max_depth.rex.match);
ase_awk_clrbfn (handle);
for (bfn_t* bfn = bfn_list; bfn != NULL; bfn = bfn->next)
{
if (ase_awk_addfunc (
handle, bfn->name.ptr, bfn->name.len, 0,
bfn->min_args, bfn->max_args, NULL,
__handle_bfn) == NULL)
{
const ase_char_t* msg;
DBGOUT (_T("cannot add the builtin function"));
ase_awk_geterror (handle, &errnum, &errlin, &msg);
ase_strxcpy (errmsg, ASE_COUNTOF(errmsg), msg);
*ret = VARIANT_FALSE;
return S_OK;
}
}
ase_awk_setword (handle, NULL, 0, NULL, 0);
for (word_t* word = word_list; word != NULL; word = word->next)
{
if (ase_awk_setword (handle,
word->ow.ptr, word->ow.len,
word->nw.ptr, word->nw.len) == -1)
{
const ase_char_t* msg;
DBGOUT (_T("cannot set the word"));
ase_awk_geterror (handle, &errnum, &errlin, &msg);
ase_strxcpy (errmsg, ASE_COUNTOF(errmsg), msg);
*ret = VARIANT_FALSE;
return S_OK;
}
}
ase_awk_srcios_t srcios;
srcios.in = __read_source;
srcios.out = __write_source;
srcios.custom_data = this;
if (ase_awk_parse (handle, &srcios) == -1)
{
const ase_char_t* msg;
ase_awk_geterror (handle, &errnum, &errlin, &msg);
ase_strxcpy (errmsg, ASE_COUNTOF(errmsg), msg);
DBGOUT (_T("cannot parse the source code"));
*ret = VARIANT_FALSE;
return S_OK;
}
else DBGOUT (_T("parsed the source code successfully"));
*ret = VARIANT_TRUE;
return S_OK;
}
static ase_ssize_t __process_extio (
int cmd, void* arg, ase_char_t* data, ase_size_t size)
{
ase_awk_extio_t* epa = (ase_awk_extio_t*)arg;
CAwk* awk = (CAwk*)epa->custom_data;
if (cmd == ASE_AWK_IO_OPEN)
{
IAwkExtio* extio;
CAwkExtio* extio2;
IBuffer* read_buf;
HRESULT hr = CoCreateInstance (
CLSID_AwkExtio, NULL, CLSCTX_ALL,
IID_IAwkExtio, (void**)&extio);
if (FAILED(hr))
{
DBGOUT2 (awk, _T("cannot create extio"));
return -1;
}
hr = CoCreateInstance (
CLSID_Buffer, NULL, CLSCTX_ALL,
IID_IBuffer, (void**)&read_buf);
if (FAILED(hr))
{
DBGOUT2 (awk, _T("cannot create extio input buffer"));
extio->Release ();
return -1;
}
extio2 = (CAwkExtio*)extio;
if (extio2->PutName (epa->name) == FALSE)
{
read_buf->Release ();
extio->Release ();
DBGOUT2 (awk, _T("cannot set the name of the extio input buffer"));
return -1;
}
extio2->type = (AwkExtioType)(epa->type & 0xFF);
extio2->mode = (AwkExtioMode)(epa->mode);
read_buf->AddRef ();
extio2->read_buf = read_buf;
extio2->read_buf_pos = 0;
extio2->read_buf_len = 0;
INT n = awk->Fire_OpenExtio (extio);
if (n >= 0)
{
extio->AddRef ();
epa->handle = extio;
}
read_buf->Release ();
extio->Release ();
return n;
}
else if (cmd == ASE_AWK_IO_CLOSE)
{
IAwkExtio* extio;
CAwkExtio* extio2;
extio = (IAwkExtio*)epa->handle;
extio2 = (CAwkExtio*)extio;
ASE_ASSERT (extio != NULL);
INT n = awk->Fire_CloseExtio (extio);
if (n >= 0)
{
extio2->read_buf->Release();
extio->Release();
epa->handle = NULL;
}
return n;
}
else if (cmd == ASE_AWK_IO_READ)
{
IAwkExtio* extio;
CAwkExtio* extio2;
extio = (IAwkExtio*)epa->handle;
extio2 = (CAwkExtio*)extio;
ASE_ASSERT (extio != NULL);
CBuffer* tmp = (CBuffer*)extio2->read_buf;
if (extio2->read_buf_pos >= extio2->read_buf_len)
{
INT n = awk->Fire_ReadExtio (extio, extio2->read_buf);
if (n <= 0) return (ase_ssize_t)n;
if (SysStringLen(tmp->str) < (UINT)n) return -1;
extio2->read_buf_pos = 0;
extio2->read_buf_len = n;
}
ASE_ASSERT (extio2->read_buf_pos < extio2->read_buf_len);
BSTR str = tmp->str;
INT left = extio2->read_buf_len - extio2->read_buf_pos;
if (left > (ase_ssize_t)size)
{
memcpy (data,
((TCHAR*)str)+extio2->read_buf_pos,
size * ASE_SIZEOF(ase_char_t));
extio2->read_buf_pos += size;
return size;
}
else
{
memcpy (data,
((TCHAR*)str)+extio2->read_buf_pos,
left * ASE_SIZEOF(ase_char_t));
extio2->read_buf_pos = 0;
extio2->read_buf_len = 0;
return (ase_ssize_t)left;
}
}
else if (cmd == ASE_AWK_IO_WRITE)
{
HRESULT hr;
IAwkExtio* extio = (IAwkExtio*)epa->handle;
ASE_ASSERT (extio != NULL);
if (awk->write_extio_buf == NULL)
{
hr = CoCreateInstance (
CLSID_Buffer, NULL, CLSCTX_ALL,
IID_IBuffer, (void**)&awk->write_extio_buf);
if (FAILED(hr))
{
DBGOUT2 (awk, _T("cannot create extio output buffer"));
return -1;
}
}
CBuffer* tmp = (CBuffer*)awk->write_extio_buf;
if (tmp->PutValue (data, size) == FALSE) return -1;
INT n = awk->Fire_WriteExtio (extio, awk->write_extio_buf);
if (n > (INT)size) return -1;
return (ase_ssize_t)n;
}
else if (cmd == ASE_AWK_IO_FLUSH)
{
IAwkExtio* extio = (IAwkExtio*)epa->handle;
ASE_ASSERT (extio != NULL);
return awk->Fire_FlushExtio (extio);
}
else if (cmd == ASE_AWK_IO_NEXT)
{
IAwkExtio* extio = (IAwkExtio*)epa->handle;
ASE_ASSERT (extio != NULL);
return awk->Fire_NextExtio (extio);
}
return -1;
}
HRESULT CAwk::Run (VARIANT argarray, VARIANT_BOOL* ret)
{
const ase_char_t* entry = NULL;
ase_awk_runarg_t* runarg;
long nrunargs;
if (handle == NULL)
{
errnum = ASE_AWK_EINTERN;
errlin = 0;
_tcscpy (errmsg, _T("parse not called yet"));
*ret = VARIANT_FALSE;
return S_OK;
}
ase_awk_runios_t runios;
runios.pipe = NULL;
runios.coproc = NULL;
runios.file = __process_extio;
runios.console = __process_extio;
runios.custom_data = this;
if (entry_point != NULL &&
SysStringLen(entry_point) > 0) entry = entry_point;
if (argarray.vt == VT_EMPTY || argarray.vt == VT_NULL)
{
/* no run-time argument specified */
runarg = NULL;
}
else if (argarray.vt == (VT_ARRAY|VT_BSTR))
{
SAFEARRAY* sa = argarray.parray;
UINT dim = SafeArrayGetDim (sa);
if (dim != 1)
{
/* arguments should not be multi-dimensional */
errnum = ASE_AWK_EINTERN;
errlin = 0;
_tcscpy (errmsg, _T("multi-dimensional run-time argument array not allowed"));
*ret = VARIANT_FALSE;
return S_OK;
}
long lbound, ubound;
SafeArrayGetLBound (sa, 1, &lbound);
SafeArrayGetUBound (sa, 1, &ubound);
nrunargs = ubound - lbound + 1;
runarg = (ase_awk_runarg_t*) malloc (sizeof(*runarg) * (nrunargs+1));
if (runarg == NULL)
{
errnum = ASE_AWK_ENOMEM;
errlin = 0;
ase_strxcpy (
errmsg, ASE_COUNTOF(errmsg),
ase_awk_geterrstr(NULL, errnum));
*ret = VARIANT_FALSE;
return S_OK;
}
long i, j;
for (i = lbound, j = 0; i <= ubound; i++, j++)
{
BSTR bstr;
HRESULT hr = SafeArrayGetElement (sa, &i, (void**)&bstr);
if (FAILED(hr))
{
errnum = ASE_AWK_EINTERN;
errlin = 0;
_tcscpy (errmsg, _T("cannot get run-time argument array element"));
for (long i = 0; i < j; i++) SysFreeString (runarg[i].ptr);
free (runarg);
*ret = VARIANT_FALSE;
return S_OK;
}
runarg[j].ptr = bstr;
runarg[j].len = SysStringLen (bstr);
}
runarg[j].ptr = NULL;
runarg[j].len = 0;
}
else
{
errnum = ASE_AWK_EINTERN;
errlin = 0;
_tcscpy (errmsg, _T("invalid arguments"));
*ret = VARIANT_FALSE;
return S_OK;
}
if (ase_awk_run (handle, entry, &runios, NULL, runarg, this) == -1)
{
const ase_char_t* msg;
ase_awk_geterror (handle, &errnum, &errlin, &msg);
ase_strxcpy (errmsg, ASE_COUNTOF(errmsg), msg);
DBGOUT (_T("cannot run the program"));
if (runarg != NULL)
{
for (long j = 0; j < nrunargs; j++) SysFreeString (runarg[j].ptr);
free (runarg);
}
*ret = VARIANT_FALSE;
return S_OK;
}
else DBGOUT (_T("run the program successfully"));
if (runarg != NULL)
{
for (long j = 0; j < nrunargs; j++) SysFreeString (runarg[j].ptr);
free (runarg);
}
*ret = VARIANT_TRUE;
return S_OK;
}
STDMETHODIMP CAwk::AddFunction (
BSTR name, int minArgs, int maxArgs, VARIANT_BOOL* ret)
{
bfn_t* bfn;
size_t name_len = SysStringLen(name);
for (bfn = bfn_list; bfn != NULL; bfn = bfn->next)
{
if (ase_strxncmp (
bfn->name.ptr, bfn->name.len,
name, name_len) == 0)
{
errnum = ASE_AWK_EEXIST;
errlin = 0;
_sntprintf (
errmsg, ASE_COUNTOF(errmsg),
_T("'%.*s' added already"),
bfn->name.len, bfn->name.ptr);
*ret = VARIANT_FALSE;
return S_OK;
}
}
bfn = (bfn_t*)malloc (sizeof(bfn_t) + name_len*sizeof(TCHAR));
if (bfn == NULL)
{
errnum = ASE_AWK_ENOMEM;
errlin = 0;
ase_strxcpy (
errmsg, ASE_COUNTOF(errmsg),
ase_awk_geterrstr(NULL, errnum));
*ret = VARIANT_FALSE;
return S_OK;
}
bfn->name.len = name_len;
bfn->name.ptr = (TCHAR*)(bfn + 1);
memcpy (bfn->name.ptr, name, sizeof(TCHAR) * bfn->name.len);
bfn->min_args = minArgs;
bfn->max_args = maxArgs;
bfn->next = bfn_list;
bfn_list = bfn;
*ret = VARIANT_TRUE;
return S_OK;
}
STDMETHODIMP CAwk::DeleteFunction (BSTR name, VARIANT_BOOL* ret)
{
size_t name_len = SysStringLen(name);
bfn_t* bfn, * next, * prev = NULL;
for (bfn = bfn_list; bfn != NULL; bfn = next)
{
next = bfn->next;
if (ase_strxncmp (
bfn->name.ptr, bfn->name.len,
name, name_len) == 0)
{
free (bfn);
if (prev == NULL) bfn_list = next;
else prev->next = next;
*ret = VARIANT_TRUE;
return S_OK;
}
prev = bfn;
}
errnum = ASE_AWK_ENOENT;
errlin = 0;
ase_strxcpy (
errmsg, ASE_COUNTOF(errmsg),
ase_awk_geterrstr(NULL, errnum));
*ret = VARIANT_FALSE;
return S_OK;
}
STDMETHODIMP CAwk::SetWord (BSTR ow, BSTR nw, VARIANT_BOOL* ret)
{
word_t* word;
size_t ow_len = SysStringLen(ow);
size_t nw_len = SysStringLen(nw);
for (word = word_list; word != NULL; word = word->next)
{
if (ase_strxncmp (
word->ow.ptr, word->ow.len,
ow, ow_len) == 0)
{
errnum = ASE_AWK_EEXIST;
errlin = 0;
_sntprintf (
errmsg, ASE_COUNTOF(errmsg),
_T("'%.*s' added already"),
word->ow.len, word->ow.ptr);
*ret = VARIANT_FALSE;
return S_OK;
}
}
word = (word_t*)malloc (sizeof(word_t)+(ow_len+nw_len)*sizeof(TCHAR));
if (word == NULL)
{
errnum = ASE_AWK_ENOMEM;
errlin = 0;
ase_strxcpy (
errmsg, ASE_COUNTOF(errmsg),
ase_awk_geterrstr(NULL, errnum));
*ret = VARIANT_FALSE;
return S_OK;
}
word->ow.len = ow_len;
word->ow.ptr = (TCHAR*)(word+1);
word->nw.len = nw_len;
word->nw.ptr = word->ow.ptr + word->ow.len;
memcpy (word->ow.ptr, ow, sizeof(TCHAR)*word->ow.len);
memcpy (word->nw.ptr, nw, sizeof(TCHAR)*word->nw.len);
word->next = word_list;
word_list = word;
*ret = VARIANT_TRUE;
return S_OK;
}
STDMETHODIMP CAwk::UnsetWord (BSTR ow, VARIANT_BOOL* ret)
{
size_t ow_len = SysStringLen(ow);
word_t* word, * next, * prev = NULL;
for (word = word_list; word != NULL; word = next)
{
next = word->next;
if (ase_strxncmp (
word->ow.ptr, word->ow.len,
ow, ow_len) == 0)
{
free (word);
if (prev == NULL) word_list = next;
else prev->next = next;
*ret = VARIANT_TRUE;
return S_OK;
}
prev = word;
}
errnum = ASE_AWK_ENOENT;
errlin = 0;
ase_strxcpy (
errmsg, ASE_COUNTOF(errmsg),
ase_awk_geterrstr(NULL, errnum));
*ret = VARIANT_FALSE;
return S_OK;
}
STDMETHODIMP CAwk::UnsetAllWords (VARIANT_BOOL* ret)
{
while (word_list != NULL)
{
word_t* next = word_list->next;
free (word_list);
word_list = next;
}
*ret = VARIANT_TRUE;
return S_OK;
}
STDMETHODIMP CAwk::get_ErrorCode(int *pVal)
{
*pVal = errnum;
return S_OK;
}
STDMETHODIMP CAwk::get_ErrorLine(int *pVal)
{
*pVal = errlin;
return S_OK;
}
STDMETHODIMP CAwk::get_ErrorMessage(BSTR *pVal)
{
BSTR tmp = SysAllocStringLen (errmsg, _tcslen(errmsg));
if (tmp == NULL) return E_OUTOFMEMORY;
*pVal = tmp;
return S_OK;
}
STDMETHODIMP CAwk::get_ImplicitVariable(VARIANT_BOOL *pVal)
{
if (handle != NULL) option = ase_awk_getoption (handle);
*pVal = (option & ASE_AWK_IMPLICIT) == 1;
return S_OK;
}
STDMETHODIMP CAwk::put_ImplicitVariable(VARIANT_BOOL newVal)
{
if (newVal) option = option | ASE_AWK_IMPLICIT;
else option = option & ~ASE_AWK_IMPLICIT;
if (handle != NULL) ase_awk_setoption (handle, option);
return S_OK;
}
STDMETHODIMP CAwk::get_ExplicitVariable(VARIANT_BOOL *pVal)
{
if (handle != NULL) option = ase_awk_getoption (handle);
*pVal = (option & ASE_AWK_EXPLICIT) == 1;
return S_OK;
}
STDMETHODIMP CAwk::put_ExplicitVariable(VARIANT_BOOL newVal)
{
if (newVal) option = option | ASE_AWK_EXPLICIT;
else option = option & ~ASE_AWK_EXPLICIT;
if (handle != NULL) ase_awk_setoption (handle, option);
return S_OK;
}
STDMETHODIMP CAwk::get_UniqueFunction(VARIANT_BOOL *pVal)
{
if (handle != NULL) option = ase_awk_getoption (handle);
*pVal = (option & ASE_AWK_UNIQUEFN) == 1;
return S_OK;
}
STDMETHODIMP CAwk::put_UniqueFunction(VARIANT_BOOL newVal)
{
if (newVal) option = option | ASE_AWK_UNIQUEFN;
else option = option & ~ASE_AWK_UNIQUEFN;
if (handle != NULL) ase_awk_setoption (handle, option);
return S_OK;
}
STDMETHODIMP CAwk::get_VariableShading(VARIANT_BOOL *pVal)
{
if (handle != NULL) option = ase_awk_getoption (handle);
*pVal = (option & ASE_AWK_SHADING) == 1;
return S_OK;
}
STDMETHODIMP CAwk::put_VariableShading(VARIANT_BOOL newVal)
{
if (newVal) option = option | ASE_AWK_SHADING;
else option = option & ~ASE_AWK_SHADING;
if (handle != NULL) ase_awk_setoption (handle, option);
return S_OK;
}
STDMETHODIMP CAwk::get_ShiftOperators(VARIANT_BOOL *pVal)
{
if (handle != NULL) option = ase_awk_getoption (handle);
*pVal = (option & ASE_AWK_SHIFT) == 1;
return S_OK;
}
STDMETHODIMP CAwk::put_ShiftOperators(VARIANT_BOOL newVal)
{
if (newVal) option = option | ASE_AWK_SHIFT;
else option = option & ~ASE_AWK_SHIFT;
if (handle != NULL) ase_awk_setoption (handle, option);
return S_OK;
}
STDMETHODIMP CAwk::get_IdivOperator(VARIANT_BOOL *pVal)
{
if (handle != NULL) option = ase_awk_getoption (handle);
*pVal = (option & ASE_AWK_IDIV) == 1;
return S_OK;
}
STDMETHODIMP CAwk::put_IdivOperator(VARIANT_BOOL newVal)
{
if (newVal) option = option | ASE_AWK_IDIV;
else option = option & ~ASE_AWK_IDIV;
if (handle != NULL) ase_awk_setoption (handle, option);
return S_OK;
}
STDMETHODIMP CAwk::get_ConcatString(VARIANT_BOOL *pVal)
{
if (handle != NULL) option = ase_awk_getoption (handle);
*pVal = (option & ASE_AWK_STRCONCAT) == 1;
return S_OK;
}
STDMETHODIMP CAwk::put_ConcatString(VARIANT_BOOL newVal)
{
if (newVal) option = option | ASE_AWK_STRCONCAT;
else option = option & ~ASE_AWK_STRCONCAT;
if (handle != NULL) ase_awk_setoption (handle, option);
return S_OK;
}
STDMETHODIMP CAwk::get_SupportExtio(VARIANT_BOOL *pVal)
{
if (handle != NULL) option = ase_awk_getoption (handle);
*pVal = (option & ASE_AWK_EXTIO) == 1;
return S_OK;
}
STDMETHODIMP CAwk::put_SupportExtio(VARIANT_BOOL newVal)
{
if (newVal) option = option | ASE_AWK_EXTIO;
else option = option & ~ASE_AWK_EXTIO;
if (handle != NULL) ase_awk_setoption (handle, option);
return S_OK;
}
STDMETHODIMP CAwk::get_SupportBlockless(VARIANT_BOOL *pVal)
{
if (handle != NULL) option = ase_awk_getoption (handle);
*pVal = (option & ASE_AWK_BLOCKLESS) == 1;
return S_OK;
}
STDMETHODIMP CAwk::put_SupportBlockless(VARIANT_BOOL newVal)
{
if (newVal) option = option | ASE_AWK_BLOCKLESS;
else option = option & ~ASE_AWK_BLOCKLESS;
if (handle != NULL) ase_awk_setoption (handle, option);
return S_OK;
}
STDMETHODIMP CAwk::get_BaseOne(VARIANT_BOOL *pVal)
{
if (handle != NULL) option = ase_awk_getoption (handle);
*pVal = (option & ASE_AWK_BASEONE) == 1;
return S_OK;
}
STDMETHODIMP CAwk::put_BaseOne(VARIANT_BOOL newVal)
{
if (newVal) option = option | ASE_AWK_BASEONE;
else option = option & ~ASE_AWK_BASEONE;
if (handle != NULL) ase_awk_setoption (handle, option);
return S_OK;
}
STDMETHODIMP CAwk::get_StripSpaces(VARIANT_BOOL *pVal)
{
if (handle != NULL) option = ase_awk_getoption (handle);
*pVal = (option & ASE_AWK_STRIPSPACES) == 1;
return S_OK;
}
STDMETHODIMP CAwk::put_StripSpaces(VARIANT_BOOL newVal)
{
if (newVal) option = option | ASE_AWK_STRIPSPACES;
else option = option & ~ASE_AWK_STRIPSPACES;
if (handle != NULL) ase_awk_setoption (handle, option);
return S_OK;
}
STDMETHODIMP CAwk::get_Nextofile(VARIANT_BOOL *pVal)
{
if (handle != NULL) option = ase_awk_getoption (handle);
*pVal = (option & ASE_AWK_NEXTOFILE) == 1;
return S_OK;
}
STDMETHODIMP CAwk::put_Nextofile(VARIANT_BOOL newVal)
{
if (newVal) option = option | ASE_AWK_NEXTOFILE;
else option = option & ~ASE_AWK_NEXTOFILE;
if (handle != NULL) ase_awk_setoption (handle, option);
return S_OK;
}
STDMETHODIMP CAwk::get_UseCrlf(VARIANT_BOOL *pVal)
{
if (handle != NULL) option = ase_awk_getoption (handle);
*pVal = (option & ASE_AWK_CRLF) == 1;
return S_OK;
}
STDMETHODIMP CAwk::put_UseCrlf(VARIANT_BOOL newVal)
{
if (newVal) option = option | ASE_AWK_CRLF;
else option = option & ~ASE_AWK_CRLF;
if (handle != NULL) ase_awk_setoption (handle, option);
return S_OK;
}
STDMETHODIMP CAwk::get_ArgumentsToEntryPoint(VARIANT_BOOL *pVal)
{
if (handle != NULL) option = ase_awk_getoption (handle);
*pVal = (option & ASE_AWK_ARGSTOMAIN) == 1;
return S_OK;
}
STDMETHODIMP CAwk::put_ArgumentsToEntryPoint(VARIANT_BOOL newVal)
{
if (newVal) option = option | ASE_AWK_ARGSTOMAIN;
else option = option & ~ASE_AWK_ARGSTOMAIN;
if (handle != NULL) ase_awk_setoption (handle, option);
return S_OK;
}
STDMETHODIMP CAwk::get_MaxDepthForBlockParse(int *pVal)
{
if (handle != NULL)
{
max_depth.block.parse =
ase_awk_getmaxdepth (handle, ASE_AWK_DEPTH_BLOCK_PARSE);
}
*pVal = max_depth.block.parse;
return S_OK;
}
STDMETHODIMP CAwk::put_MaxDepthForBlockParse(int newVal)
{
max_depth.block.parse = newVal;
if (handle != NULL)
{
ase_awk_setmaxdepth (handle,
ASE_AWK_DEPTH_BLOCK_PARSE, max_depth.block.parse);
}
return S_OK;
}
STDMETHODIMP CAwk::get_MaxDepthForBlockRun(int *pVal)
{
if (handle != NULL)
{
max_depth.block.run =
ase_awk_getmaxdepth (handle, ASE_AWK_DEPTH_BLOCK_RUN);
}
*pVal = max_depth.block.run;
return S_OK;
}
STDMETHODIMP CAwk::put_MaxDepthForBlockRun(int newVal)
{
max_depth.block.run = newVal;
if (handle != NULL)
{
ase_awk_setmaxdepth (handle,
ASE_AWK_DEPTH_BLOCK_RUN, max_depth.block.run);
}
return S_OK;
}
STDMETHODIMP CAwk::get_MaxDepthForExprParse(int *pVal)
{
if (handle != NULL)
{
max_depth.expr.parse =
ase_awk_getmaxdepth (handle, ASE_AWK_DEPTH_EXPR_PARSE);
}
*pVal = max_depth.expr.parse;
return S_OK;
}
STDMETHODIMP CAwk::put_MaxDepthForExprParse(int newVal)
{
max_depth.expr.parse = newVal;
if (handle != NULL)
{
ase_awk_setmaxdepth (handle,
ASE_AWK_DEPTH_EXPR_PARSE, max_depth.expr.parse);
}
return S_OK;
}
STDMETHODIMP CAwk::get_MaxDepthForExprRun(int *pVal)
{
if (handle != NULL)
{
max_depth.expr.run =
ase_awk_getmaxdepth (handle, ASE_AWK_DEPTH_EXPR_RUN);
}
*pVal = max_depth.expr.run;
return S_OK;
}
STDMETHODIMP CAwk::put_MaxDepthForExprRun(int newVal)
{
max_depth.expr.run = newVal;
if (handle != NULL)
{
ase_awk_setmaxdepth (handle,
ASE_AWK_DEPTH_EXPR_RUN, max_depth.expr.run);
}
return S_OK;
}
STDMETHODIMP CAwk::get_MaxDepthForRexBuild(int *pVal)
{
if (handle != NULL)
{
max_depth.rex.build =
ase_awk_getmaxdepth (handle, ASE_AWK_DEPTH_REX_BUILD);
}
*pVal = max_depth.rex.build;
return S_OK;
}
STDMETHODIMP CAwk::put_MaxDepthForRexBuild(int newVal)
{
max_depth.rex.build = newVal;
if (handle != NULL)
{
ase_awk_setmaxdepth (handle,
ASE_AWK_DEPTH_REX_BUILD, max_depth.rex.build);
}
return S_OK;
}
STDMETHODIMP CAwk::get_MaxDepthForRexMatch(int *pVal)
{
if (handle != NULL)
{
max_depth.rex.match =
ase_awk_getmaxdepth (handle, ASE_AWK_DEPTH_REX_MATCH);
}
*pVal = max_depth.rex.match;
return S_OK;
}
STDMETHODIMP CAwk::put_MaxDepthForRexMatch(int newVal)
{
max_depth.rex.match = newVal;
if (handle != NULL)
{
ase_awk_setmaxdepth (handle,
ASE_AWK_DEPTH_REX_MATCH, max_depth.rex.match);
}
return S_OK;
}
STDMETHODIMP CAwk::get_EntryPoint(BSTR *pVal)
{
if (entry_point == NULL) *pVal = NULL;
else
{
BSTR tmp = SysAllocStringLen (
entry_point, SysStringLen(entry_point));
if (tmp == NULL) return E_OUTOFMEMORY;
*pVal = tmp;
}
return S_OK;
}
STDMETHODIMP CAwk::put_EntryPoint(BSTR newVal)
{
if (entry_point != NULL) SysFreeString (entry_point);
if (newVal == NULL) entry_point = newVal;
else
{
entry_point = SysAllocStringLen (newVal, SysStringLen(newVal));
if (entry_point == NULL) return E_OUTOFMEMORY;
}
return S_OK;
}
STDMETHODIMP CAwk::get_Debug(VARIANT_BOOL *pVal)
{
*pVal = debug;
return S_OK;
}
STDMETHODIMP CAwk::put_Debug(VARIANT_BOOL newVal)
{
debug = newVal;
return S_OK;
}
STDMETHODIMP CAwk::get_UseLongLong(VARIANT_BOOL *pVal)
{
*pVal = use_longlong;
return S_OK;
}
STDMETHODIMP CAwk::put_UseLongLong(VARIANT_BOOL newVal)
{
use_longlong = newVal;
return S_OK;
}