SNAP Library 6.0, User Reference  2020-12-09 16:24:20
SNAP, a general purpose, high performance system for analysis and manipulation of large networks
zipfl.cpp
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1 // ZIP Input-File
3 
4 #if defined(GLib_WIN)
5  TStr TZipIn::SevenZipPath = "C:\\7Zip";
6 #elif defined(GLib_CYGWIN)
7  TStr TZipIn::SevenZipPath = "/usr/bin";
8 #elif defined(GLib_MACOSX)
9  TStr TZipIn::SevenZipPath = "/usr/local/bin";
10 #else
11  TStr TZipIn::SevenZipPath = "/usr/bin";
12 #endif
13 
14 
16 const int TZipIn::MxBfL=32*1024;
17 
18 void TZipIn::CreateZipProcess(const TStr& Cmd, const TStr& ZipFNm) {
19  const TStr CmdLine = TStr::Fmt("%s %s", Cmd.CStr(), ZipFNm.CStr());
20  #ifdef GLib_WIN
21  PROCESS_INFORMATION piProcInfo;
22  STARTUPINFO siStartInfo;
23  ZeroMemory( &piProcInfo, sizeof(PROCESS_INFORMATION));
24  ZeroMemory( &siStartInfo, sizeof(STARTUPINFO));
25  siStartInfo.cb = sizeof(STARTUPINFO);
26  siStartInfo.hStdOutput = ZipStdoutWr;
27  siStartInfo.dwFlags |= STARTF_USESTDHANDLES;
28  // Create the child process.
29  const BOOL FuncRetn = CreateProcess(NULL,
30  (LPSTR) CmdLine.CStr(), // command line
31  NULL, // process security attributes
32  NULL, // primary thread security attributes
33  TRUE, // handles are inherited
34  0, // creation flags
35  NULL, // use parent's environment
36  NULL, // use parent's current directory
37  &siStartInfo, // STARTUPINFO pointer
38  &piProcInfo); // receives PROCESS_INFORMATION
39  EAssertR(FuncRetn!=0, TStr::Fmt("Can not execute '%s' (Set the TZipIn::SevenZipPath)", CmdLine.CStr()).CStr());
40  CloseHandle(piProcInfo.hProcess);
41  CloseHandle(piProcInfo.hThread);
42  #else
43  ZipStdoutRd = popen((TZipIn::SevenZipPath+"/"+CmdLine).CStr(), "r");
44  EAssertR(ZipStdoutRd, TStr::Fmt("Can not execute '%s' (Set the TZipIn::SevenZipPath)", CmdLine.CStr()).CStr());
45  #endif
46 }
47 
49  EAssertR(CurFPos < FLen, TStr::Fmt("End of file '%s' reached (CurFPos=%s, FLen=%s).", GetSNm().CStr(), TUInt64(CurFPos).GetStr().CStr(), TUInt64(FLen).GetStr().CStr()));
50  EAssertR((BfC==BfL)/*&&((BfL==-1)||(BfL==MxBfL))*/, "Error reading file '"+GetSNm()+"' (Set the TZipIn::SevenZipPath).");
51  #ifdef GLib_WIN
52  // Read output from the child process
53  DWORD BytesRead;
54  EAssert(ReadFile(ZipStdoutRd, Bf, MxBfL, &BytesRead, NULL) != 0);
55  #else
56  size_t BytesRead = fread(Bf, 1, MxBfL, ZipStdoutRd);
57  EAssert(BytesRead != 0);
58  #endif
59  BfL = (int) BytesRead;
60  CurFPos += BytesRead;
61  EAssertR((BfC!=0)||(BfL!=0), "Error reading file '"+GetSNm()+"' (Set the TZipIn::SevenZipPath).");
62  BfC = 0;
63 }
64 
65 TZipIn::TZipIn(const TStr& FNm) : TSBase(FNm.CStr()), TSIn(FNm), ZipStdoutRd(NULL), ZipStdoutWr(NULL),
66  FLen(0), CurFPos(0), Bf(NULL), BfC(0), BfL(0) {
67  EAssertR(! FNm.Empty(), "Empty file-name.");
68  EAssertR(TFile::Exists(FNm), TStr::Fmt("File %s does not exist", FNm.CStr()).CStr());
69  FLen = 0;
70  // non-zip files not supported, need uncompressed file length information
71  //if (FNm.GetFExt() != ".zip") { //J: changed by Jure on Nov 23 2015
72  if (! IsZipFNm(FNm)) {
73  printf("*** Error: file %s, compression format %s not supported\n", FNm.CStr(), FNm.GetFExt().CStr());
74  EFailR(TStr::Fmt("File %s: compression format %s not supported", FNm.CStr(), FNm.GetFExt().CStr()).CStr());
75  }
76  FLen = TZipIn::GetFLen(FNm);
77  // return for malformed files
78  if (FLen == 0) { return; } // empty file
79  #ifdef GLib_WIN
80  // create pipes
81  SECURITY_ATTRIBUTES saAttr;
82  saAttr.nLength = sizeof(SECURITY_ATTRIBUTES);
83  saAttr.bInheritHandle = TRUE;
84  saAttr.lpSecurityDescriptor = NULL;
85  // Create a pipe for the child process's STDOUT.
86  const int PipeBufferSz = 32*1024;
87  EAssertR(CreatePipe(&ZipStdoutRd, &ZipStdoutWr, &saAttr, PipeBufferSz), "Stdout pipe creation failed");
88  // Ensure the read handle to the pipe for STDOUT is not inherited.
89  SetHandleInformation(ZipStdoutRd, HANDLE_FLAG_INHERIT, 0);
90  #else
91  // no implementation needed
92  #endif
93  CreateZipProcess(GetCmd(FNm), FNm);
94  Bf = new char[MxBfL]; BfC = BfL=-1;
95  FillBf();
96 }
97 
98 TZipIn::TZipIn(const TStr& FNm, bool& OpenedP) : TSBase(FNm.CStr()), TSIn(FNm), ZipStdoutRd(NULL), ZipStdoutWr(NULL),
99  FLen(0), CurFPos(0), Bf(NULL), BfC(0), BfL(0) {
100  EAssertR(! FNm.Empty(), "Empty file-name.");
101  FLen = TZipIn::GetFLen(FNm);
102  OpenedP = TFile::Exists(FNm);
103  if (OpenedP) {
104  #ifdef GLib_WIN
105  SECURITY_ATTRIBUTES saAttr;
106  saAttr.nLength = sizeof(SECURITY_ATTRIBUTES);
107  saAttr.bInheritHandle = TRUE;
108  saAttr.lpSecurityDescriptor = NULL;
109  // Create a pipe for the child process's STDOUT.
110  EAssertR(CreatePipe(&ZipStdoutRd, &ZipStdoutWr, &saAttr, 0), "Stdout pipe creation failed");
111  // Ensure the read handle to the pipe for STDOUT is not inherited.
112  SetHandleInformation(ZipStdoutRd, HANDLE_FLAG_INHERIT, 0);
113  #else
114  // no implementation needed
115  #endif
116  CreateZipProcess(GetCmd(FNm.GetFExt()), FNm);
117  Bf = new char[MxBfL]; BfC = BfL=-1;
118  FillBf();
119  }
120 }
121 
122 PSIn TZipIn::New(const TStr& FNm) {
123  return PSIn(new TZipIn(FNm));
124 }
125 
126 PSIn TZipIn::New(const TStr& FNm, bool& OpenedP){
127  return PSIn(new TZipIn(FNm, OpenedP));
128 }
129 
131  #ifdef GLib_WIN
132  if (ZipStdoutRd != NULL) {
133  EAssertR(CloseHandle(ZipStdoutRd), "Closing read-end of pipe failed"); }
134  if (ZipStdoutWr != NULL) {
135  EAssertR(CloseHandle(ZipStdoutWr)!=0, "Closing write-end of pipe failed"); }
136  #else
137  if (ZipStdoutRd != NULL) {
138  EAssertR(pclose(ZipStdoutRd) != -1, "Closing of the process failed"); }
139  #endif
140  if (Bf != NULL) { delete[] Bf; }
141 }
142 
143 int TZipIn::GetBf(const void* LBf, const TSize& LBfL){
144  int LBfS=0;
145  if (TSize(BfC+LBfL)>TSize(BfL)){
146  for (TSize LBfC=0; LBfC<LBfL; LBfC++){
147  if (BfC==BfL){FillBf();}
148  LBfS+=((char*)LBf)[LBfC]=Bf[BfC++];}
149  } else {
150  for (TSize LBfC=0; LBfC<LBfL; LBfC++){
151  LBfS+=(((char*)LBf)[LBfC]=Bf[BfC++]);}
152  }
153  return LBfS;
154 }
155 
156 // Gets the next line to LnChA.
157 // Returns true, if LnChA contains a valid line.
158 // Returns false, if LnChA is empty, such as end of file was encountered.
159 bool TZipIn::GetNextLnBf(TChA& LnChA) {
160  int Status;
161  int BfN; // new pointer to the end of line
162  int BfP; // previous pointer to the line start
163  LnChA.Clr();
164  do {
165  if (BfC >= BfL) { BfP = 0; } // reset the current pointer, FindEol() will read a new buffer
166  else { BfP = BfC; }
167  Status = FindEol(BfN);
168  if (Status >= 0) {
169  LnChA.AddBf(&Bf[BfP],BfN-BfP);
170  if (Status == 1) { return true; } // got a complete line
171  }
172  // get more data, if the line is incomplete
173  } while (Status == 0);
174  // eof or the last line has no newline
175  return !LnChA.Empty();
176 }
177 
178 // Sets BfN to the end of line or end of buffer. Reads more data, if needed.
179 // Returns 1, when an end of line was found, BfN is end of line.
180 // Returns 0, when an end of line was not found and more data is required,
181 // BfN is end of buffer.
182 // Returns -1, when an end of file was found, BfN is not defined.
183 int TZipIn::FindEol(int& BfN) {
184  char Ch;
185  if (BfC >= BfL) { // check for eof, read more data
186  if (Eof()) { return -1; }
187  FillBf();
188  }
189  while (BfC < BfL) {
190  Ch = Bf[BfC++];
191  if (Ch=='\n') { BfN = BfC-1; return 1; }
192  if (Ch=='\r' && Bf[BfC+1]=='\n') {
193  BfC++; BfN = BfC-2; return 1; }
194  }
195  BfN = BfC;
196  return 0;
197 }
198 
199 bool TZipIn::IsZipExt(const TStr& FNmExt) {
201  return FExtToCmdH.IsKey(FNmExt);
202 }
203 
205  // 7za decompress: "e -y -bd -so";
206  #ifdef GLib_WIN
207  const char* ZipCmd = "7z.exe e -y -bd -so";
208  #else
209  const char* ZipCmd = "7za e -y -bd -so";
210  #endif
211  if (FExtToCmdH.Empty()) {
212  FExtToCmdH.AddDat(".gz", ZipCmd);
213  FExtToCmdH.AddDat(".7z", ZipCmd);
214  FExtToCmdH.AddDat(".rar", ZipCmd);
215  FExtToCmdH.AddDat(".zip", ZipCmd);
216  FExtToCmdH.AddDat(".cab", ZipCmd);
217  FExtToCmdH.AddDat(".arj", ZipCmd);
218  FExtToCmdH.AddDat(".bzip2", ZipCmd);
219  FExtToCmdH.AddDat(".bz2", ZipCmd);
220  }
221 }
222 
223 TStr TZipIn::GetCmd(const TStr& ZipFNm) {
225  const TStr Ext = ZipFNm.GetFExt().GetLc();
226  EAssertR(FExtToCmdH.IsKey(Ext), TStr::Fmt("Unsupported file extension '%s'", Ext.CStr()));
227  return FExtToCmdH.GetDat(Ext);
228 }
229 
230 uint64 TZipIn::GetFLen(const TStr& ZipFNm) {
231  #ifdef GLib_WIN
232  HANDLE ZipStdoutRd, ZipStdoutWr;
233  // create pipes
234  SECURITY_ATTRIBUTES saAttr;
235  saAttr.nLength = sizeof(SECURITY_ATTRIBUTES);
236  saAttr.bInheritHandle = TRUE;
237  saAttr.lpSecurityDescriptor = NULL;
238  // Create a pipe for the child process's STDOUT.
239  const int PipeBufferSz = 32*1024;
240  EAssertR(CreatePipe(&ZipStdoutRd, &ZipStdoutWr, &saAttr, PipeBufferSz), "Stdout pipe creation failed");
241  // Ensure the read handle to the pipe for STDOUT is not inherited.
242  SetHandleInformation(ZipStdoutRd, HANDLE_FLAG_INHERIT, 0);
243  //CreateZipProcess(GetCmd(FNm), FNm);
244  { const TStr CmdLine = TStr::Fmt("7z.exe l %s", ZipFNm.CStr());
245  PROCESS_INFORMATION piProcInfo;
246  STARTUPINFO siStartInfo;
247  ZeroMemory( &piProcInfo, sizeof(PROCESS_INFORMATION));
248  ZeroMemory( &siStartInfo, sizeof(STARTUPINFO));
249  siStartInfo.cb = sizeof(STARTUPINFO);
250  siStartInfo.hStdOutput = ZipStdoutWr;
251  siStartInfo.dwFlags |= STARTF_USESTDHANDLES;
252  // Create the child process.
253  const BOOL FuncRetn = CreateProcess(NULL, (LPSTR) CmdLine.CStr(),
254  NULL, NULL, TRUE, 0, NULL, NULL, &siStartInfo, &piProcInfo);
255  EAssertR(FuncRetn!=0, TStr::Fmt("Can not execute '%s' (Set the TZipIn::SevenZipPath)", CmdLine.CStr()).CStr());
256  CloseHandle(piProcInfo.hProcess);
257  CloseHandle(piProcInfo.hThread); }
258  #else
259  const TStr CmdLine = TStr::Fmt("7za l %s", ZipFNm.CStr());
260  FILE* ZipStdoutRd = popen((TZipIn::SevenZipPath+"/"+CmdLine).CStr(), "r");
261  EAssertR(ZipStdoutRd, TStr::Fmt("Can not execute '%s/%s' (Set the TZipIn::SevenZipPath)", TZipIn::SevenZipPath.CStr(), CmdLine.CStr()).CStr());
262  #endif
263  // Read output from the child process
264  const int BfSz = 32*1024;
265  char* Bf = new char [BfSz];
266  int BfC=0, BfL=0;
267  memset(Bf, 0, BfSz);
268  #ifdef GLib_WIN
269  DWORD BytesRead;
270  EAssert(ReadFile(ZipStdoutRd, Bf, MxBfL, &BytesRead, NULL) != 0);
271  #else
272  size_t BytesRead = fread(Bf, 1, MxBfL, ZipStdoutRd);
273  EAssert(BytesRead != 0);
274  EAssert(pclose(ZipStdoutRd) != -1);
275  #endif
276  BfL = (int) BytesRead; IAssert((BfC!=0)||(BfL!=0));
277  BfC = 0; Bf[BfL] = 0;
278  // find file lenght
279  TStr Str(Bf); delete [] Bf;
280  TStrV StrV; Str.SplitOnWs(StrV);
281  int n = StrV.Len()-1;
282  while (n > 0 && ! StrV[n].IsPrefix("-----")) { n--; }
283  if (n-7 <= 0) {
284  WrNotify(TStr::Fmt("Corrupt file %s: MESSAGE:\n", ZipFNm.CStr()).CStr(), Str.CStr());
285  SaveToErrLog(TStr::Fmt("Corrupt file %s. Message:\n:%s\n", ZipFNm.CStr(), Str.CStr()).CStr());
286  return 0;
287  }
288  return StrV[n-7].GetInt64();
289 }
290 
292 // Output-File
294 const TSize TZipOut::MxBfL=4*1024;
295 
297  #ifdef GLib_WIN
298  DWORD BytesOut;
299  EAssertR(WriteFile(ZipStdinWr, Bf, DWORD(BfL), &BytesOut, NULL)!=0, "Error writting to the file '"+GetSNm()+"'.");
300  #else
301  size_t BytesOut = fwrite(Bf, 1, BfL, ZipStdinWr);
302  #endif
303  EAssert(BytesOut == BfL);
304  BfL = 0;
305 }
306 
307 void TZipOut::CreateZipProcess(const TStr& Cmd, const TStr& ZipFNm) {
308  const TStr CmdLine = TStr::Fmt("%s %s", Cmd.CStr(), ZipFNm.CStr());
309  #ifdef GLib_WIN
310  PROCESS_INFORMATION piProcInfo;
311  STARTUPINFO siStartInfo;
312  ZeroMemory( &piProcInfo, sizeof(PROCESS_INFORMATION));
313  ZeroMemory( &siStartInfo, sizeof(STARTUPINFO));
314  siStartInfo.cb = sizeof(STARTUPINFO);
315  siStartInfo.hStdInput = ZipStdinRd;
316  siStartInfo.dwFlags |= STARTF_USESTDHANDLES;
317  // Create the child process.
318  const BOOL FuncRetn = CreateProcess(NULL,
319  (LPSTR) CmdLine.CStr(), // command line
320  NULL, // process security attributes
321  NULL, // primary thread security attributes
322  TRUE, // handles are inherited
323  0, // creation flags
324  NULL, // use parent's environment
325  NULL, // use parent's current directory
326  &siStartInfo, // STARTUPINFO pointer
327  &piProcInfo); // receives PROCESS_INFORMATION
328  EAssertR(FuncRetn!=0, TStr::Fmt("Can not execute '%s' (Set the TZipIn::SevenZipPath)", CmdLine.CStr()).CStr());
329  CloseHandle(piProcInfo.hProcess);
330  CloseHandle(piProcInfo.hThread);
331  #else
332  ZipStdinWr = popen((TZipIn::SevenZipPath+"/"+CmdLine).CStr(), "r");
333  EAssertR(ZipStdinWr, TStr::Fmt("Can not execute '%s' (Set the TZipIn::SevenZipPath)", CmdLine.CStr()).CStr());
334  #endif
335 }
336 
337 TZipOut::TZipOut(const TStr& FNm) : TSBase(FNm.CStr()), TSOut(FNm), ZipStdinRd(NULL), ZipStdinWr(NULL), Bf(NULL), BfL(0){
338  EAssertR(! FNm.Empty(), "Empty file-name.");
339  #ifdef GLib_WIN
340  // create pipes
341  SECURITY_ATTRIBUTES saAttr;
342  saAttr.nLength = sizeof(SECURITY_ATTRIBUTES);
343  saAttr.bInheritHandle = TRUE;
344  saAttr.lpSecurityDescriptor = NULL;
345  // Create a pipe for the child process's STDOUT.
346  EAssertR(CreatePipe(&ZipStdinRd, &ZipStdinWr, &saAttr, 0), "Stdout pipe creation failed");
347  // Ensure the read handle to the pipe for STDOUT is not inherited.
348  SetHandleInformation(ZipStdinWr, HANDLE_FLAG_INHERIT, 0);
349  #else
350  // no implementation necessary
351  #endif
352  CreateZipProcess(GetCmd(FNm), FNm);
353  Bf=new char[MxBfL]; BfL=0;
354 }
355 
356 PSOut TZipOut::New(const TStr& FNm){
357  return PSOut(new TZipOut(FNm));
358 }
359 
361  if (BfL!=0) { FlushBf(); }
362  #ifdef GLib_WIN
363  if (ZipStdinWr != NULL) { EAssertR(CloseHandle(ZipStdinWr), "Closing write-end of pipe failed"); }
364  if (ZipStdinRd != NULL) { EAssertR(CloseHandle(ZipStdinRd), "Closing read-end of pipe failed"); }
365  #else
366  if (ZipStdinWr != NULL) { EAssertR(pclose(ZipStdinWr) != -1, "Closing of the process failed"); }
367  #endif
368  if (Bf!=NULL) { delete[] Bf; }
369 }
370 
371 int TZipOut::PutCh(const char& Ch){
372  if (BfL==MxBfL) {FlushBf();}
373  return Bf[BfL++]=Ch;
374 }
375 
376 int TZipOut::PutBf(const void* LBf, const TSize& LBfL){
377  int LBfS=0;
378  if (BfL+LBfL>MxBfL){
379  for (TSize LBfC=0; LBfC<LBfL; LBfC++){
380  LBfS+=PutCh(((char*)LBf)[LBfC]);}
381  } else {
382  for (TSize LBfC=0; LBfC<LBfL; LBfC++){
383  LBfS+=(Bf[BfL++]=((char*)LBf)[LBfC]);}
384  }
385  return LBfS;
386 }
387 
389  FlushBf();
390  #ifdef GLib_WIN
391  EAssertR(FlushFileBuffers(ZipStdinWr)!=0, "Can not flush file '"+GetSNm()+"'.");
392  #else
393  EAssertR(fflush(ZipStdinWr)==0, "Can not flush file '"+GetSNm()+"'.");
394  #endif
395 }
396 
397 bool TZipOut::IsZipExt(const TStr& FNmExt) {
399  return FExtToCmdH.IsKey(FNmExt);
400 }
401 
403  // 7za compress: "a -y -bd -si{CompressedFNm}"
404  #ifdef GLib_WIN
405  const char* ZipCmd = "7z.exe a -y -bd -si";
406  #else
407  const char* ZipCmd = "7za a -y -bd -si";
408  #endif
409  if (FExtToCmdH.Empty()) {
410  FExtToCmdH.AddDat(".gz", ZipCmd);
411  FExtToCmdH.AddDat(".7z", ZipCmd);
412  FExtToCmdH.AddDat(".rar", ZipCmd);
413  FExtToCmdH.AddDat(".zip", ZipCmd);
414  FExtToCmdH.AddDat(".cab", ZipCmd);
415  FExtToCmdH.AddDat(".arj", ZipCmd);
416  FExtToCmdH.AddDat(".bzip2", ZipCmd);
417  FExtToCmdH.AddDat(".bz2", ZipCmd);
418  }
419 }
420 
421 TStr TZipOut::GetCmd(const TStr& ZipFNm) {
423  const TStr Ext = ZipFNm.GetFExt().GetLc();
424  EAssertR(FExtToCmdH.IsKey(Ext), TStr::Fmt("Unsupported file extension '%s'", Ext.CStr()));
425  return FExtToCmdH.GetDat(Ext)+ZipFNm.GetFMid();
426 }
bool Eof()
Definition: zipfl.h:45
int BfL
Definition: zipfl.h:28
#define IAssert(Cond)
Definition: bd.h:262
FILE * ZipStdoutWr
Definition: zipfl.h:24
~TZipOut()
Definition: zipfl.cpp:360
static TStrStrH FExtToCmdH
Definition: zipfl.h:19
static TStr GetCmd(const TStr &ZipFNm)
Return a command-line string that is executed in order to decompress a file to standard output...
Definition: zipfl.cpp:421
static TStr GetCmd(const TStr &ZipFNm)
Return a command-line string that is executed in order to decompress a file to standard output...
Definition: zipfl.cpp:223
TStr GetFMid() const
Definition: dt.cpp:1403
static void FillFExtToCmdH()
Definition: zipfl.cpp:204
int PutCh(const char &Ch)
Definition: zipfl.cpp:371
static bool Exists(const TStr &FNm)
Definition: fl.cpp:1156
bool Empty() const
Definition: dt.h:260
static bool IsZipFNm(const TStr &FNm)
Check whether the file extension of FNm is that of a compressed file (.gz, .7z, .rar, .zip, .cab, .arj. bzip2).
Definition: zipfl.h:56
void Clr()
Definition: dt.h:258
TSizeTy Len() const
Returns the number of elements in the vector.
Definition: ds.h:575
char * Bf
Definition: zipfl.h:83
uint64 CurFPos
Definition: zipfl.h:26
TSize BfL
Definition: zipfl.h:84
bool Empty() const
Definition: hash.h:227
bool GetNextLnBf(TChA &LnChA)
Definition: zipfl.cpp:159
TStr GetFExt() const
Definition: dt.cpp:1421
const TDat & GetDat(const TKey &Key) const
Definition: hash.h:262
static const int MxBfL
Definition: zipfl.h:20
Definition: fl.h:40
static PSIn New(const TStr &FNm)
Definition: zipfl.cpp:122
Definition: fl.h:58
unsigned long long uint64
Definition: bd.h:38
void SaveToErrLog(const char *MsgCStr)
Definition: bd.cpp:51
size_t TSize
Definition: bd.h:58
TStr GetLc() const
Definition: dt.h:502
char * Bf
Definition: zipfl.h:27
#define EFailR(Reason)
Definition: bd.h:246
static TStr SevenZipPath
Definition: zipfl.h:17
static const TSize MxBfL
Definition: zipfl.h:76
static TStrStrH FExtToCmdH
Definition: zipfl.h:77
FILE * ZipStdoutRd
Definition: zipfl.h:24
Definition: fl.h:128
static bool IsZipExt(const TStr &FNmExt)
Check whether the file extension FNmExt is that of a compressed file (.gz, .7z, .rar, .zip, .cab, .arj. bzip2).
Definition: zipfl.cpp:199
static void FillFExtToCmdH()
Definition: zipfl.cpp:402
Definition: dt.h:201
int PutBf(const void *LBf, const TSize &LBfL)
Definition: zipfl.cpp:376
#define EAssert(Cond)
Definition: bd.h:280
static PSOut New(const TStr &FNm)
Definition: zipfl.cpp:356
void AddBf(char *NewBf, const int &BfS)
Definition: dt.h:275
Definition: dt.h:412
static bool IsZipExt(const TStr &FNmExt)
Check whether the file extension FNmExt is that of a compressed file (.gz, .7z, .rar, .zip, .cab, .arj. bzip2).
Definition: zipfl.cpp:397
bool Empty() const
Definition: dt.h:491
static TStr Fmt(const char *FmtStr,...)
Definition: dt.cpp:1599
FILE * ZipStdinRd
Definition: zipfl.h:81
uint64 FLen
Definition: zipfl.h:26
void FillBf()
Definition: zipfl.cpp:48
#define EAssertR(Cond, MsgStr)
Definition: bd.h:283
void CreateZipProcess(const TStr &Cmd, const TStr &ZipFNm)
Definition: zipfl.cpp:18
virtual TStr GetSNm() const
Definition: fl.cpp:20
int BfC
Definition: zipfl.h:28
~TZipIn()
Definition: zipfl.cpp:130
TPt< TSIn > PSIn
Definition: fl.h:119
void Flush()
Definition: zipfl.cpp:388
void WrNotify(const char *CaptionCStr, const char *NotifyCStr)
Definition: bd.cpp:43
void SplitOnWs(TStrV &StrV) const
Definition: dt.cpp:972
FILE * ZipStdinWr
Definition: zipfl.h:81
uint64 GetFLen() const
Definition: zipfl.h:52
char * CStr()
Definition: dt.h:479
bool IsKey(const TKey &Key) const
Definition: hash.h:258
int GetBf(const void *LBf, const TSize &LBfL)
Definition: zipfl.cpp:143
void FlushBf()
Definition: zipfl.cpp:296
void CreateZipProcess(const TStr &Cmd, const TStr &ZipFNm)
Definition: zipfl.cpp:307
TDat & AddDat(const TKey &Key)
Definition: hash.h:238
TPt< TSOut > PSOut
Definition: fl.h:211
int FindEol(int &BfN)
Definition: zipfl.cpp:183
Definition: dt.h:1318