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1 \chapter{A tour of Mercurial: the basics}
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2 \label{chap:tour-basic}
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3
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4 \section{Installing Mercurial on your system}
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5 \label{sec:tour:install}
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6
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7 Prebuilt binary packages of Mercurial are available for every popular
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8 operating system. These make it easy to start using Mercurial on your
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9 computer immediately.
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10
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11 \subsection{Linux}
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12
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13 Because each Linux distribution has its own packaging tools, policies,
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14 and rate of development, it's difficult to give a comprehensive set of
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15 instructions on how to install Mercurial binaries. The version of
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16 Mercurial that you will end up with can vary depending on how active
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17 the person is who maintains the package for your distribution.
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18
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19 To keep things simple, I will focus on installing Mercurial from the
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20 command line under the most popular Linux distributions. Most of
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21 these distributions provide graphical package managers that will let
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22 you install Mercurial with a single click; the package name to look
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23 for is \texttt{mercurial}.
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24
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25 \begin{itemize}
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26 \item[Debian]
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27 \begin{codesample4}
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28 apt-get install mercurial
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29 \end{codesample4}
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30
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31 \item[Fedora Core]
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32 \begin{codesample4}
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33 yum install mercurial
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34 \end{codesample4}
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35
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36 \item[Gentoo]
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37 \begin{codesample4}
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38 emerge mercurial
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39 \end{codesample4}
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40
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41 \item[OpenSUSE]
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42 \begin{codesample4}
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43 yum install mercurial
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44 \end{codesample4}
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45
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46 \item[Ubuntu] Ubuntu's Mercurial package is particularly old, and you
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47 should not use it. If you know how, you can rebuild and install the
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48 Debian package. It's probably easier to build Mercurial from source
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49 and simply run that; see section~\ref{sec:srcinstall:unixlike} for
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50 details.
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51 \end{itemize}
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52
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53 \subsection{Mac OS X}
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54
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55 Lee Cantey publishes an installer of Mercurial for Mac OS~X at
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56 \url{http://mercurial.berkwood.com}. This package works on both
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57 Intel-~and Power-based Macs. Before you can use it, you must install
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58 a compatible version of Universal MacPython~\cite{web:macpython}. This
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59 is easy to do; simply follow the instructions on Lee's site.
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60
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61 \subsection{Solaris}
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62
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63 XXX.
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64
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65 \subsection{Windows}
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66
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67 Lee Cantey publishes an installer of Mercurial for Windows at
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68 \url{http://mercurial.berkwood.com}. This package has no external
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69 dependencies; it ``just works''.
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70
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71 \begin{note}
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72 The Windows version of Mercurial does not automatically convert line
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73 endings between Windows and Unix styles. If you want to share work
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74 with Unix users, you must do a little additional configuration
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75 work. XXX Flesh this out.
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76 \end{note}
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77
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78 \section{Getting started}
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79
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80 To begin, we'll use the \hgcmd{version} command to find out whether
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81 Mercurial is actually installed properly. The actual version
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82 information that it prints isn't so important; it's whether it prints
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83 anything at all that we care about.
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84 \interaction{tour.version}
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85
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86 \subsection{Built-in help}
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87
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88 Mercurial provides a built-in help system. This is invaluable for those
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89 times when you find yourself stuck trying to remember how to run a
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90 command. If you are completely stuck, simply run \hgcmd{help}; it
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91 will print a brief list of commands, along with a description of what
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92 each does. If you ask for help on a specific command (as below), it
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93 prints more detailed information.
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94 \interaction{tour.help}
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95 For a more impressive level of detail (which you won't usually need)
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96 run \hgcmdargs{help}{\hggopt{-v}}. The \hggopt{-v} option is short
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97 for \hggopt{--verbose}, and tells Mercurial to print more information
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98 than it usually would.
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99
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100 \section{Working with a repository}
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101
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102 In Mercurial, everything happens inside a \emph{repository}. The
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103 repository for a project contains all of the files that ``belong to''
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104 that project, along with a historical record of the project's files.
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105
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106 There's nothing particularly magical about a repository; it is simply
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107 a directory tree in your filesystem that Mercurial treats as special.
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108 You can rename or delete a repository any time you like, using either the
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109 command line or your file browser.
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110
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111 \subsection{Making a local copy of a repository}
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112
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113 \emph{Copying} a repository is just a little bit special. While you
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114 could use a normal file copying command to make a copy of a
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115 repository, it's best to use a built-in command that Mercurial
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116 provides. This command is called \hgcmd{clone}, because it creates an
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117 identical copy of an existing repository.
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118 \interaction{tour.clone}
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119 If our clone succeeded, we should now have a local directory called
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120 \dirname{hello}. This directory will contain some files.
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121 \interaction{tour.ls}
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122 These files have the same contents and history in our repository as
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123 they do in the repository we cloned.
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124
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125 Every Mercurial repository is complete, self-contained, and
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126 independent. It contains its own private copy of a project's files
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127 and history. A cloned repository remembers the location of the
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128 repository it was cloned from, but it does not communicate with that
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129 repository, or any other, unless you tell it to.
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130
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131 What this means for now is that we're free to experiment with our
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132 repository, safe in the knowledge that it's a private ``sandbox'' that
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133 won't affect anyone else.
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134
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135 \subsection{What's in a repository?}
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136
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137 When we take a more detailed look inside a repository, we can see that
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138 it contains a directory named \dirname{.hg}. This is where Mercurial
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139 keeps all of its metadata for the repository.
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140 \interaction{tour.ls-a}
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141
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142 The contents of the \dirname{.hg} directory and its subdirectories are
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143 private to Mercurial. Every other file and directory in the
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144 repository is yours to do with as you please.
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145
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146 To introduce a little terminology, the \dirname{.hg} directory is the
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147 ``real'' repository, and all of the files and directories that coexist
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148 with it are said to live in the \emph{working directory}. An easy way
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149 to remember the distinction is that the \emph{repository} contains the
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150 \emph{history} of your project, while the \emph{working directory}
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151 contains a \emph{snapshot} of your project at a particular point in
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152 history.
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153
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154 \section{A tour through history}
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155
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156 One of the first things we might want to do with a new, unfamiliar
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157 repository is understand its history. The \hgcmd{log} command gives
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158 us a view of history.
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159 \interaction{tour.log}
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160 By default, this command prints a brief paragraph of output for each
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161 change to the project that was recorded. In Mercurial terminology, we
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162 call each of these recorded events a \emph{changeset}, because it can
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163 contain a record of changes to several files.
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164
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165 The fields in a record of output from \hgcmd{log} are as follows.
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166 \begin{itemize}
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167 \item[\texttt{changeset}] This field has the format of a number,
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168 followed by a colon, followed by a hexadecimal string. These are
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169 \emph{identifiers} for the changeset. There are two identifiers
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170 because the number is shorter and easier to type than the hex
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171 string.
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172 \item[\texttt{user}] The identity of the person who created the
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173 changeset. This is a free-form field, but it most often contains a
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174 person's name and email address.
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175 \item[\texttt{date}] The date and time on which the changeset was
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176 created, and the timezone in which it was created. (The date and
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177 time are local to that timezone; they display what time and date it
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178 was for the person who created the changeset.)
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179 \item[\texttt{summary}] The first line of the text message that the
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180 creator of the changeset entered to describe the changeset.
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181 \end{itemize}
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182 The default output printed by \hgcmd{log} is purely a summary; it is
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183 missing a lot of detail.
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184
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185 Figure~\ref{fig:tour-basic:history} provides a graphical representation of
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186 the history of the \dirname{hello} repository, to make it a little
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187 easier to see which direction history is ``flowing'' in. We'll be
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188 returning to this figure several times in this chapter and the chapter
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189 that follows.
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190
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191 \begin{figure}[ht]
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192 \centering
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193 \grafix{tour-history}
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194 \caption{Graphical history of the \dirname{hello} repository}
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195 \label{fig:tour-basic:history}
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196 \end{figure}
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197
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198 \subsection{Changesets, revisions, and talking to other
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199 people}
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200
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201 As English is a notoriously sloppy language, and computer science has
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202 a hallowed history of terminological confusion (why use one term when
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203 four will do?), revision control has a variety of words and phrases
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204 that mean the same thing. If you are talking about Mercurial history
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205 with other people, you will find that the word ``changeset'' is often
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206 compressed to ``change'' or (when written) ``cset'', and sometimes a
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207 changeset is referred to as a ``revision'' or a ``rev''.
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208
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209 While it doesn't matter what \emph{word} you use to refer to the
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210 concept of ``a~changeset'', the \emph{identifier} that you use to
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211 refer to ``a~\emph{specific} changeset'' is of great importance.
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212 Recall that the \texttt{changeset} field in the output from
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213 \hgcmd{log} identifies a changeset using both a number and a
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214 hexadecimal string.
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215 \begin{itemize}
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216 \item The revision number is \emph{only valid in that repository},
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217 \item while the hex string is the \emph{permanent, unchanging
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218 identifier} that will always identify that exact changeset in
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219 \emph{every} copy of the repository.
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220 \end{itemize}
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221 This distinction is important. If you send someone an email talking
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222 about ``revision~33'', there's a high likelihood that their
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223 revision~33 will \emph{not be the same} as yours. The reason for this
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224 is that a revision number depends on the order in which changes
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225 arrived in a repository, and there is no guarantee that the same
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226 changes will happen in the same order in different repositories.
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227 Three changes $a,b,c$ can easily appear in one repository as $0,1,2$,
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228 while in another as $1,0,2$.
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229
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230 Mercurial uses revision numbers purely as a convenient shorthand. If
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231 you need to discuss a changeset with someone, or make a record of a
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232 changeset for some other reason (for example, in a bug report), use
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233 the hexadecimal identifier.
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234
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235 \subsection{Viewing specific revisions}
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236
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237 To narrow the output of \hgcmd{log} down to a single revision, use the
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238 \hgopt{log}{-r} (or \hgopt{log}{--rev}) option. You can use either a
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239 revision number or a long-form changeset identifier, and you can
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240 provide as many revisions as you want. \interaction{tour.log-r}
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241
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242 If you want to see the history of several revisions without having to
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243 list each one, you can use \emph{range notation}; this lets you
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244 express the idea ``I want all revisions between $a$ and $b$,
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245 inclusive''.
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246 \interaction{tour.log.range}
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247 Mercurial also honours the order in which you specify revisions, so
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248 \hgcmdargs{log}{-r 2:4} prints $2,3,4$ while \hgcmdargs{log}{-r 4:2}
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249 prints $4,3,2$.
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250
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251 \subsection{More detailed information}
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252
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253 While the summary information printed by \hgcmd{log} is useful if you
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254 already know what you're looking for, you may need to see a complete
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255 description of the change, or a list of the files changed, if you're
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256 trying to decide whether a changeset is the one you're looking for.
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257 The \hgcmd{log} command's \hggopt{-v} (or \hggopt{--verbose})
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258 option gives you this extra detail.
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259 \interaction{tour.log-v}
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260
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261 If you want to see both the description and content of a change, add
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262 the \hgopt{log}{-p} (or \hgopt{log}{--patch}) option. This displays
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263 the content of a change as a \emph{unified diff} (if you've never seen
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264 a unified diff before, see section~\ref{sec:mq:patch} for an overview).
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265 \interaction{tour.log-vp}
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266
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267 \section{All about command options}
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268
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269 Let's take a brief break from exploring Mercurial commands to discuss
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270 a pattern in the way that they work; you may find this useful to keep
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271 in mind as we continue our tour.
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272
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273 Mercurial has a consistent and straightforward approach to dealing
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274 with the options that you can pass to commands. It follows the
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275 conventions for options that are common to modern Linux and Unix
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276 systems.
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277 \begin{itemize}
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278 \item Every option has a long name. For example, as we've already
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279 seen, the \hgcmd{log} command accepts a \hgopt{log}{--rev} option.
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280 \item Most options have short names, too. Instead of
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281 \hgopt{log}{--rev}, we can use \hgopt{log}{-r}. (The reason that
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282 some options don't have short names is that the options in question
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283 are rarely used.)
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284 \item Long options start with two dashes (e.g.~\hgopt{log}{--rev}),
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285 while short options start with one (e.g.~\hgopt{log}{-r}).
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286 \item Option naming and usage is consistent across commands. For
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287 example, every command that lets you specify a changeset~ID or
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288 revision number accepts both \hgopt{log}{-r} and \hgopt{log}{--rev}
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289 arguments.
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290 \end{itemize}
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291 In the examples throughout this book, I use short options instead of
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292 long. This just reflects my own preference, so don't read anything
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293 significant into it.
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294
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295 Most commands that print output of some kind will print more output
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296 when passed a \hggopt{-v} (or \hggopt{--verbose}) option, and less
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297 when passed \hggopt{-q} (or \hggopt{--quiet}).
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298
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299 \section{Making and reviewing changes}
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300
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301 Now that we have a grasp of viewing history in Mercurial, let's take a
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302 look at making some changes and examining them.
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303
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304 The first thing we'll do is isolate our experiment in a repository of
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305 its own. We use the \hgcmd{clone} command, but we don't need to
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306 clone a copy of the remote repository. Since we already have a copy
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307 of it locally, we can just clone that instead. This is much faster
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308 than cloning over the network, and cloning a local repository uses
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309 less disk space in most cases, too.
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310 \interaction{tour.reclone}
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311 As an aside, it's often good practice to keep a ``pristine'' copy of a
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312 remote repository around, which you can then make temporary clones of
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313 to create sandboxes for each task you want to work on. This lets you
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314 work on multiple tasks in parallel, each isolated from the others
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315 until it's complete and you're ready to integrate it back. Because
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316 local clones are so cheap, there's almost no overhead to cloning and
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317 destroying repositories whenever you want.
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318
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319 In our \dirname{my-hello} repository, we have a file
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320 \filename{hello.c} that contains the classic ``hello, world'' program.
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321 Let's use the ancient and venerable \command{sed} command to edit this
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322 file so that it prints a second line of output. (I'm only using
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323 \command{sed} to do this because it's easy to write a scripted example
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324 this way. Since you're not under the same constraint, you probably
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325 won't want to use \command{sed}; simply use your preferred text editor to
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326 do the same thing.)
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327 \interaction{tour.sed}
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328
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329 Mercurial's \hgcmd{status} command will tell us what Mercurial knows
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330 about the files in the repository.
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331 \interaction{tour.status}
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332 The \hgcmd{status} command prints no output for some files, but a line
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333 starting with ``\texttt{M}'' for \filename{hello.c}. Unless you tell
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334 it to, \hgcmd{status} will not print any output for files that have
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335 not been modified.
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336
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337 The ``\texttt{M}'' indicates that Mercurial has noticed that we
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338 modified \filename{hello.c}. We didn't need to \emph{inform}
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339 Mercurial that we were going to modify the file before we started, or
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340 that we had modified the file after we were done; it was able to
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341 figure this out itself.
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342
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343 It's a little bit helpful to know that we've modified
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344 \filename{hello.c}, but we might prefer to know exactly \emph{what}
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345 changes we've made to it. To do this, we use the \hgcmd{diff}
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346 command.
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347 \interaction{tour.diff}
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348
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349 \section{Recording changes in a new changeset}
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350
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351 We can modify files, build and test our changes, and use
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352 \hgcmd{status} and \hgcmd{diff} to review our changes, until we're
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353 satisfied with what we've done and arrive at a natural stopping point
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354 where we want to record our work in a new changeset.
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355
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356 The \hgcmd{commit} command lets us create a new changeset; we'll
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357 usually refer to this as ``making a commit'' or ``committing''.
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358
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359 \subsection{Setting up a username}
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360
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361 When you try to run \hgcmd{commit} for the first time, it is not
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362 guaranteed to succeed. Mercurial records your name and address with
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363 each change that you commit, so that you and others will later be able
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364 to tell who made each change. Mercurial tries to automatically figure
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365 out a sensible username to commit the change with. It will attempt
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366 each of the following methods, in order:
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367 \begin{enumerate}
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368 \item If you specify a \hgopt{commit}{-u} option to the \hgcmd{commit}
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369 command on the command line, followed by a username, this is always
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370 given the highest precedence.
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371 \item If you have set the \envar{HGUSER} environment variable, this is
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372 checked next.
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373 \item If you create a file in your home directory called
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374 \sfilename{.hgrc}, with a \rcitem{ui}{username} entry, that will be
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375 used next. To see what the contents of this file should look like,
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376 refer to section~\ref{sec:tour-basic:username} below.
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377 \item If you have set the \envar{EMAIL} environment variable, this
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378 will be used next.
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379 \item Mercurial will query your system to find out your local user
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380 name and host name, and construct a username from these components.
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381 Since this often results in a username that is not very useful, it
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382 will print a warning if it has to do this.
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383 \end{enumerate}
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384 If all of these mechanisms fail, Mercurial will fail, printing an
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385 error message. In this case, it will not let you commit until you set
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386 up a username.
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387
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388 You should think of the \envar{HGUSER} environment variable and the
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389 \hgopt{commit}{-u} option to the \hgcmd{commit} command as ways to
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390 \emph{override} Mercurial's default selection of username. For normal
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391 use, the simplest and most robust way to set a username for yourself
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392 is by creating a \sfilename{.hgrc} file; see below for details.
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393
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394 \subsubsection{Creating a Mercurial configuration file}
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395 \label{sec:tour-basic:username}
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396
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397 To set a user name, use your favourite editor to create a file called
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398 \sfilename{.hgrc} in your home directory. Mercurial will use this
|
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399 file to look up your personalised configuration settings. The initial
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400 contents of your \sfilename{.hgrc} should look like this.
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401 \begin{codesample2}
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402 # This is a Mercurial configuration file.
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403 [ui]
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404 username = Firstname Lastname <email.address@domain.net>
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405 \end{codesample2}
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406 The ``\texttt{[ui]}'' line begins a \emph{section} of the config file,
|
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407 so you can read the ``\texttt{username = ...}'' line as meaning ``set
|
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408 the value of the \texttt{username} item in the \texttt{ui} section''.
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409 A section continues until a new section begins, or the end of the
|
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410 file. Mercurial ignores empty lines and treats any text from
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411 ``\texttt{\#}'' to the end of a line as a comment.
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412
|
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413 \subsubsection{Choosing a user name}
|
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414
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415 You can use any text you like as the value of the \texttt{username}
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416 config item, since this information is for reading by other people,
|
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417 but for interpreting by Mercurial. The convention that most people
|
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418 follow is to use their name and email address, as in the example
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419 above.
|
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420
|
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421 \begin{note}
|
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422 Mercurial's built-in web server obfuscates email addresses, to make
|
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423 it more difficult for the email harvesting tools that spammers use.
|
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424 This reduces the likelihood that you'll start receiving more junk
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|
425 email if you publish a Mercurial repository on the web.
|
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426 \end{note}
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427
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428 \subsection{Writing a commit message}
|
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429
|
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430 When we commit a change, Mercurial drops us into a text editor, to
|
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431 enter a message that will describe the modifications we've made in
|
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432 this changeset. This is called the \emph{commit message}. It will be
|
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|
433 a record for readers of what we did and why, and it will be printed by
|
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434 \hgcmd{log} after we've finished committing.
|
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435 \interaction{tour.commit}
|
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|
436
|
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|
437 The editor that the \hgcmd{commit} command drops us into will contain
|
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|
438 an empty line, followed by a number of lines starting with
|
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|
439 ``\texttt{HG:}''.
|
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|
440 \begin{codesample2}
|
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|
441 \emph{empty line}
|
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|
442 HG: changed hello.c
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|
443 \end{codesample2}
|
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444 Mercurial ignores the lines that start with ``\texttt{HG:}''; it uses
|
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445 them only to tell us which files it's recording changes to. Modifying
|
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|
446 or deleting these lines has no effect.
|
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|
447
|
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|
448 \subsection{Writing a good commit message}
|
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449
|
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450 Since \hgcmd{log} only prints the first line of a commit message by
|
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451 default, it's best to write a commit message whose first line stands
|
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|
452 alone. Here's a real example of a commit message that \emph{doesn't}
|
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453 follow this guideline, and hence has a summary that is not readable.
|
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|
454 \begin{codesample2}
|
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|
455 changeset: 73:584af0e231be
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|
456 user: Censored Person <censored.person@example.org>
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|
457 date: Tue Sep 26 21:37:07 2006 -0700
|
bos@91
|
458 summary: include buildmeister/commondefs. Add an exports and install
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bos@91
|
459 \end{codesample2}
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|
460
|
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461 As far as the remainder of the contents of the commit message are
|
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|
462 concerned, there are no hard-and-fast rules. Mercurial itself doesn't
|
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|
463 interpret or care about the contents of the commit message, though
|
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|
464 your project may have policies that dictate a certain kind of
|
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465 formatting.
|
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|
466
|
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467 My personal preference is for short, but informative, commit messages
|
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|
468 that tell me something that I can't figure out with a quick glance at
|
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|
469 the output of \hgcmdargs{log}{--patch}.
|
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|
470
|
bos@91
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471 \subsection{Aborting a commit}
|
bos@91
|
472
|
bos@91
|
473 If you decide that you don't want to commit while in the middle of
|
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|
474 editing a commit message, simply exit from your editor without saving
|
bos@91
|
475 the file that it's editing. This will cause nothing to happen to
|
bos@91
|
476 either the repository or the working directory.
|
bos@91
|
477
|
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|
478 If we run the \hgcmd{commit} command without any arguments, it records
|
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|
479 all of the changes we've made, as reported by \hgcmd{status} and
|
bos@91
|
480 \hgcmd{diff}.
|
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|
481
|
bos@102
|
482 \subsection{Admiring our new handiwork}
|
bos@91
|
483
|
bos@91
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484 Once we've finished the commit, we can use the \hgcmd{tip} command to
|
bos@91
|
485 display the changeset we just created. This command produces output
|
bos@91
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486 that is identical to \hgcmd{log}, but it only displays the newest
|
bos@91
|
487 revision in the repository.
|
bos@91
|
488 \interaction{tour.tip}
|
bos@91
|
489 We refer to the newest revision in the repository as the tip revision,
|
bos@91
|
490 or simply the tip.
|
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|
491
|
bos@91
|
492 \section{Sharing changes}
|
bos@91
|
493
|
bos@91
|
494 We mentioned earlier that repositories in Mercurial are
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|
495 self-contained. This means that the changeset we just created exists
|
bos@91
|
496 only in our \dirname{my-hello} repository. Let's look at a few ways
|
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|
497 that we can propagate this change into other repositories.
|
bos@91
|
498
|
bos@91
|
499 \subsection{Pulling changes from another repository}
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bos@91
|
500 \label{sec:tour:pull}
|
bos@91
|
501
|
bos@91
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502 To get started, let's clone our original \dirname{hello} repository,
|
bos@91
|
503 which does not contain the change we just committed. We'll call our
|
bos@91
|
504 temporary repository \dirname{hello-pull}.
|
bos@91
|
505 \interaction{tour.clone-pull}
|
bos@91
|
506
|
bos@91
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507 We'll use the \hgcmd{pull} command to bring changes from
|
bos@91
|
508 \dirname{my-hello} into \dirname{hello-pull}. However, blindly
|
bos@91
|
509 pulling unknown changes into a repository is a somewhat scary
|
bos@91
|
510 prospect. Mercurial provides the \hgcmd{incoming} command to tell us
|
bos@91
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511 what changes the \hgcmd{pull} command \emph{would} pull into the
|
bos@91
|
512 repository, without actually pulling the changes in.
|
bos@91
|
513 \interaction{tour.incoming}
|
bos@91
|
514 (Of course, someone could cause more changesets to appear in the
|
bos@91
|
515 repository that we ran \hgcmd{incoming} in, before we get a chance to
|
bos@91
|
516 \hgcmd{pull} the changes, so that we could end up pulling changes that we
|
bos@91
|
517 didn't expect.)
|
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|
518
|
bos@91
|
519 Bringing changes into a repository is a simple matter of running the
|
bos@91
|
520 \hgcmd{pull} command, and telling it which repository to pull from.
|
bos@91
|
521 \interaction{tour.pull}
|
bos@91
|
522 As you can see from the before-and-after output of \hgcmd{tip}, we
|
bos@91
|
523 have successfully pulled changes into our repository. There remains
|
bos@92
|
524 one step before we can see these changes in the working directory.
|
bos@92
|
525
|
bos@92
|
526 \subsection{Updating the working directory}
|
bos@92
|
527
|
bos@92
|
528 We have so far glossed over the relationship between a repository and
|
bos@91
|
529 its working directory. The \hgcmd{pull} command that we ran in
|
bos@91
|
530 section~\ref{sec:tour:pull} brought changes into the repository, but
|
bos@91
|
531 if we check, there's no sign of those changes in the working
|
bos@91
|
532 directory. This is because \hgcmd{pull} does not (by default) touch
|
bos@91
|
533 the working directory. Instead, we use the \hgcmd{update} command to
|
bos@91
|
534 do this.
|
bos@91
|
535 \interaction{tour.update}
|
bos@91
|
536
|
bos@91
|
537 It might seem a bit strange that \hgcmd{pull} doesn't update the
|
bos@91
|
538 working directory automatically. There's actually a good reason for
|
bos@91
|
539 this: you can use \hgcmd{update} to update the working directory to
|
bos@91
|
540 the state it was in at \emph{any revision} in the history of the
|
bos@91
|
541 repository. If you had the working directory updated to an old
|
bos@91
|
542 revision---to hunt down the origin of a bug, say---and ran a
|
bos@91
|
543 \hgcmd{pull} which automatically updated the working directory to a
|
bos@91
|
544 new revision, you might not be terribly happy.
|
bos@91
|
545
|
bos@91
|
546 However, since pull-then-update is such a common thing to do,
|
bos@91
|
547 Mercurial lets you combine the two by passing the \hgopt{pull}{-u}
|
bos@91
|
548 option to \hgcmd{pull}.
|
bos@91
|
549 \begin{codesample2}
|
bos@91
|
550 hg pull -u
|
bos@91
|
551 \end{codesample2}
|
bos@92
|
552 If you look back at the output of \hgcmd{pull} in
|
bos@92
|
553 section~\ref{sec:tour:pull} when we ran it without \hgopt{pull}{-u},
|
bos@92
|
554 you can see that it printed a helpful reminder that we'd have to take
|
bos@92
|
555 an explicit step to update the working directory:
|
bos@92
|
556 \begin{codesample2}
|
bos@92
|
557 (run 'hg update' to get a working copy)
|
bos@92
|
558 \end{codesample2}
|
bos@91
|
559
|
bos@91
|
560 To find out what revision the working directory is at, use the
|
bos@91
|
561 \hgcmd{parents} command.
|
bos@91
|
562 \interaction{tour.parents}
|
bos@101
|
563 If you look back at figure~\ref{fig:tour-basic:history}, you'll see
|
bos@101
|
564 arrows connecting each changeset. The node that the arrow leads
|
bos@101
|
565 \emph{from} in each case is a parent, and the node that the arrow
|
bos@101
|
566 leads \emph{to} is its child. The working directory has a parent in
|
bos@101
|
567 just the same way; this is the changeset that the working directory
|
bos@101
|
568 currently contains.
|
bos@101
|
569
|
bos@91
|
570 To update the working directory to a particular revision, give a
|
bos@91
|
571 revision number or changeset~ID to the \hgcmd{update} command.
|
bos@91
|
572 \interaction{tour.older}
|
bos@91
|
573 If you omit an explicit revision, \hgcmd{update} will update to the
|
bos@94
|
574 tip revision, as shown by the second call to \hgcmd{update} in the
|
bos@94
|
575 example above.
|
bos@91
|
576
|
bos@92
|
577 \subsection{Pushing changes to another repository}
|
bos@92
|
578
|
bos@92
|
579 Mercurial lets us push changes to another repository, from the
|
bos@92
|
580 repository we're currently visiting. As with the example of
|
bos@92
|
581 \hgcmd{pull} above, we'll create a temporary repository to push our
|
bos@92
|
582 changes into.
|
bos@92
|
583 \interaction{tour.clone-push}
|
bos@92
|
584 The \hgcmd{outgoing} command tells us what changes would be pushed
|
bos@92
|
585 into another repository.
|
bos@92
|
586 \interaction{tour.outgoing}
|
bos@92
|
587 And the \hgcmd{push} command does the actual push.
|
bos@92
|
588 \interaction{tour.push}
|
bos@92
|
589 As with \hgcmd{pull}, the \hgcmd{push} command does not update the
|
bos@92
|
590 working directory in the repository that it's pushing changes into.
|
bos@92
|
591 (Unlike \hgcmd{pull}, \hgcmd{push} does not provide a \texttt{-u}
|
bos@92
|
592 option that updates the other repository's working directory.)
|
bos@92
|
593
|
bos@92
|
594 What happens if we try to pull or push changes and the receiving
|
bos@92
|
595 repository already has those changes? Nothing too exciting.
|
bos@92
|
596 \interaction{tour.push.nothing}
|
bos@92
|
597
|
bos@93
|
598 \subsection{Sharing changes over a network}
|
bos@93
|
599
|
bos@93
|
600 The commands we have covered in the previous few sections are not
|
bos@93
|
601 limited to working with local repositories. Each works in exactly the
|
bos@93
|
602 same fashion over a network connection; simply pass in a URL instead
|
bos@93
|
603 of a local path.
|
bos@93
|
604 \interaction{tour.outgoing.net}
|
bos@93
|
605 In this example, we can see what changes we could push to the remote
|
bos@93
|
606 repository, but the repository is understandably not set up to let
|
bos@93
|
607 anonymous users push to it.
|
bos@93
|
608 \interaction{tour.push.net}
|
bos@93
|
609
|
bos@84
|
610 %%% Local Variables:
|
bos@84
|
611 %%% mode: latex
|
bos@84
|
612 %%% TeX-master: "00book"
|
bos@84
|
613 %%% End:
|