static jboolean File_renameToImpl(JNIEnv* env, jclass, jstring javaOldPath, jstring javaNewPath) { ScopedUtfChars oldPath(env, javaOldPath); if (oldPath.c_str() == NULL) { return JNI_FALSE; } ScopedUtfChars newPath(env, javaNewPath); if (newPath.c_str() == NULL) { return JNI_FALSE; } return (rename(oldPath.c_str(), newPath.c_str()) == 0); }
static void addQTDirToPATH() { static LPCWSTR pathEnvironmentVariable = L"PATH"; static LPCWSTR quickTimeKeyName = L"Software\\Apple Computer, Inc.\\QuickTime"; static LPCWSTR quickTimeSysDir = L"QTSysDir"; static bool initialized; if (initialized) return; initialized = true; // Get the QuickTime dll directory from the registry. The key can be in either HKLM or HKCU. WCHAR qtPath[MAX_PATH]; DWORD qtPathBufferLen = sizeof(qtPath); DWORD keyType; HRESULT result = ::SHGetValueW(HKEY_LOCAL_MACHINE, quickTimeKeyName, quickTimeSysDir, &keyType, (LPVOID)qtPath, &qtPathBufferLen); if (result != ERROR_SUCCESS || !qtPathBufferLen || keyType != REG_SZ) { qtPathBufferLen = sizeof(qtPath); result = ::SHGetValueW(HKEY_CURRENT_USER, quickTimeKeyName, quickTimeSysDir, &keyType, (LPVOID)qtPath, &qtPathBufferLen); if (result != ERROR_SUCCESS || !qtPathBufferLen || keyType != REG_SZ) return; } // Read the current PATH. DWORD pathSize = ::GetEnvironmentVariableW(pathEnvironmentVariable, 0, 0); Vector<WCHAR> oldPath(pathSize); if (!::GetEnvironmentVariableW(pathEnvironmentVariable, oldPath.data(), oldPath.size())) return; // And add the QuickTime dll. wstring newPath; newPath.append(qtPath); newPath.append(L";"); newPath.append(oldPath.data(), oldPath.size()); ::SetEnvironmentVariableW(pathEnvironmentVariable, newPath.data()); }
bool DiffCommand::Execute() { bool bRet = false; CString path2 = CPathUtils::GetLongPathname(parser.GetVal(_T("path2"))); bool bAlternativeTool = !!parser.HasKey(_T("alternative")); // bool bBlame = !!parser.HasKey(_T("blame")); if (path2.IsEmpty()) { if (this->orgCmdLinePath.IsDirectory()) { CChangedDlg dlg; dlg.m_pathList = CTGitPathList(cmdLinePath); dlg.DoModal(); bRet = true; } else { if (cmdLinePath.IsEmpty()) return false; CGitDiff diff; //diff.SetAlternativeTool(bAlternativeTool); if ( parser.HasKey(_T("startrev")) && parser.HasKey(_T("endrev")) ) { if (parser.HasKey(_T("unified"))) bRet = !!CAppUtils::StartShowUnifiedDiff(nullptr, cmdLinePath, git_revnum_t(parser.GetVal(_T("endrev"))), cmdLinePath, git_revnum_t(parser.GetVal(_T("startrev"))), bAlternativeTool); else bRet = !!diff.Diff(&cmdLinePath, &cmdLinePath, git_revnum_t(parser.GetVal(_T("startrev"))), git_revnum_t(parser.GetVal(_T("endrev"))), false, parser.HasKey(_T("unified")) == TRUE, parser.GetLongVal(_T("line")), bAlternativeTool); } else { // check if it is a newly added (but uncommitted) file git_wc_status_kind status = git_wc_status_none; CString topDir; if (orgCmdLinePath.HasAdminDir(&topDir)) { CBlockCacheForPath cacheBlock(topDir); CAutoIndex index; CString adminDir; GitAdminDir::GetAdminDirPath(topDir, adminDir); if (!git_index_open(index.GetPointer(), CUnicodeUtils::GetUTF8(adminDir + _T("index")))) g_Git.Run(_T("git.exe update-index -- \"") + cmdLinePath.GetGitPathString() + _T("\""), nullptr); // make sure we get the right status GitStatus::GetFileStatus(topDir, cmdLinePath.GetWinPathString(), &status, true); if (index) git_index_write(index); } if (status == git_wc_status_added) { if (!g_Git.IsInitRepos()) { // this might be a rename, try to find original name BYTE_VECTOR cmdout; g_Git.Run(_T("git.exe diff-index --raw HEAD -M -C -z --"), &cmdout); CTGitPathList changedFiles; changedFiles.ParserFromLog(cmdout); for (int i = 0; i < changedFiles.GetCount(); ++i) { if (changedFiles[i].GetGitPathString() == cmdLinePath.GetGitPathString()) { if (!changedFiles[i].GetGitOldPathString().IsEmpty()) { CTGitPath oldPath(changedFiles[i].GetGitOldPathString()); if (parser.HasKey(_T("unified"))) return !!CAppUtils::StartShowUnifiedDiff(nullptr, cmdLinePath, git_revnum_t(_T("HEAD")), cmdLinePath, git_revnum_t(GIT_REV_ZERO), bAlternativeTool); return !!diff.Diff(&cmdLinePath, &oldPath, git_revnum_t(GIT_REV_ZERO), git_revnum_t(_T("HEAD")), false, parser.HasKey(_T("unified")) == TRUE, parser.GetLongVal(_T("line")), bAlternativeTool); } break; } } } cmdLinePath.m_Action = cmdLinePath.LOGACTIONS_ADDED; } if (parser.HasKey(_T("unified"))) bRet = !!CAppUtils::StartShowUnifiedDiff(nullptr, cmdLinePath, git_revnum_t(_T("HEAD")), cmdLinePath, git_revnum_t(GIT_REV_ZERO), bAlternativeTool); else bRet = !!diff.Diff(&cmdLinePath, &cmdLinePath, git_revnum_t(GIT_REV_ZERO), git_revnum_t(_T("HEAD")), false, parser.HasKey(_T("unified")) == TRUE, parser.GetLongVal(_T("line")), bAlternativeTool); } } } else { CGitDiff diff; if ( parser.HasKey(_T("startrev")) && parser.HasKey(_T("endrev")) && path2.Left(g_Git.m_CurrentDir.GetLength() + 1) == g_Git.m_CurrentDir + _T("\\")) { CTGitPath tgitPath2 = path2.Mid(g_Git.m_CurrentDir.GetLength() + 1); bRet = !!diff.Diff(&tgitPath2, &cmdLinePath, git_revnum_t(parser.GetVal(_T("startrev"))), git_revnum_t(parser.GetVal(_T("endrev"))), false, parser.HasKey(_T("unified")) == TRUE, parser.GetLongVal(_T("line")), bAlternativeTool); } else { bRet = CAppUtils::StartExtDiff( path2, orgCmdLinePath.GetWinPathString(), CString(), CString(), CString(), CString(), git_revnum_t(GIT_REV_ZERO), git_revnum_t(GIT_REV_ZERO), CAppUtils::DiffFlags().AlternativeTool(bAlternativeTool), parser.GetLongVal(_T("line"))); } } return bRet; }
static jboolean java_io_File_renameToImpl(JNIEnv* env, jobject, jbyteArray oldPathBytes, jbyteArray newPathBytes) { ScopedByteArray oldPath(env, oldPathBytes); ScopedByteArray newPath(env, newPathBytes); return (rename(&oldPath[0], &newPath[0]) == 0); }