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-rw-r--r--lib/stdlib/doc/src/io_protocol.xml2
-rw-r--r--system/doc/design_principles/release_handling.xml4
-rw-r--r--system/doc/efficiency_guide/tablesDatabases.xml2
-rw-r--r--system/doc/getting_started/conc_prog.xml30
-rw-r--r--system/doc/getting_started/seq_prog.xml26
-rw-r--r--system/doc/reference_manual/expressions.xml4
-rw-r--r--system/doc/system_principles/create_target.xmlsrc6
-rw-r--r--system/doc/tutorial/c_portdriver.xmlsrc2
8 files changed, 38 insertions, 38 deletions
diff --git a/lib/stdlib/doc/src/io_protocol.xml b/lib/stdlib/doc/src/io_protocol.xml
index 9328704e11..0b76882da4 100644
--- a/lib/stdlib/doc/src/io_protocol.xml
+++ b/lib/stdlib/doc/src/io_protocol.xml
@@ -49,7 +49,7 @@ current I/O-protocol.</p>
<p>The original I/O-protocol was simple and flexible. Demands for spacial
and execution time efficiency has triggered extensions to the protocol
over the years, making the protocol larger and somewhat less easy to
-implement than the original. It can certainly be argumented that the
+implement than the original. It can certainly be argued that the
current protocol is too complex, but this text describes how it looks
today, not how it should have looked.</p>
diff --git a/system/doc/design_principles/release_handling.xml b/system/doc/design_principles/release_handling.xml
index ba8a88d1c2..9d1e2c8669 100644
--- a/system/doc/design_principles/release_handling.xml
+++ b/system/doc/design_principles/release_handling.xml
@@ -310,7 +310,7 @@
the following instruction is used:</p>
<code type="none">
{apply, {M, F, A}}</code>
- <p>The release handler will evalute <c>apply(M, F, A)</c>.</p>
+ <p>The release handler will evaluate <c>apply(M, F, A)</c>.</p>
</section>
<section>
@@ -350,7 +350,7 @@
possible.</p>
</warning>
<p>An info report is written when the upgrade is completed. To
- programatically find out if the upgrade is complete,
+ programmatically find out if the upgrade is complete,
call <c>release_handler:which_releases(current)</c> and check
if it returns the expected (i.e. the new) release.</p>
<p>The new release version must be made permanent when the new
diff --git a/system/doc/efficiency_guide/tablesDatabases.xml b/system/doc/efficiency_guide/tablesDatabases.xml
index 5b0df76371..94c921fa1c 100644
--- a/system/doc/efficiency_guide/tablesDatabases.xml
+++ b/system/doc/efficiency_guide/tablesDatabases.xml
@@ -136,7 +136,7 @@ print_person(PersonId) ->
io:format("No person with ID = ~p~n", [PersonID])
end.
-%%% Internal functionss
+%%% Internal functions
print_name(PersonID) ->
[Person] = ets:lookup(person, PersonId),
io:format("No person ~p~n", [Person#person.name]).
diff --git a/system/doc/getting_started/conc_prog.xml b/system/doc/getting_started/conc_prog.xml
index e392287ff0..15feaa9044 100644
--- a/system/doc/getting_started/conc_prog.xml
+++ b/system/doc/getting_started/conc_prog.xml
@@ -352,8 +352,8 @@ pong ! {ping, self()},</code>
on different computers. Before we do this, there are a few things
we need to set up to get this to work. The distributed Erlang
implementation provides a basic security mechanism to prevent
- unauthorized access to an Erlang system on another computer
- (*manual*). Erlang systems which talk to each other must have
+ unauthorized access to an Erlang system on another computer.
+ Erlang systems which talk to each other must have
the same <em>magic cookie</em>. The easiest way to achieve this
is by having a file called <c>.erlang.cookie</c> in your home
directory on all machines which on which you are going to run
@@ -363,7 +363,7 @@ pong ! {ping, self()},</code>
you can safely ignore this and simply create a file called
<c>.erlang.cookie</c> in the directory you get to after executing
the command <c>cd</c> without any argument).
- The <c>.erlang.cookie</c> file should contain on line with
+ The <c>.erlang.cookie</c> file should contain one line with
the same atom. For example on Linux or Unix in the OS shell:</p>
<pre>
$ <input>cd</input>
@@ -376,7 +376,7 @@ $ <input>chmod 400 .erlang.cookie</input></pre>
Erlang systems, you must give it a name, eg: </p>
<pre>
$ <input>erl -sname my_name</input></pre>
- <p>We will see more details of this later (*manual*). If you want to
+ <p>We will see more details of this later. If you want to
experiment with distributed Erlang, but you only have one
computer to work on, you can start two separate Erlang systems on
the same computer but give them different names. Each Erlang
@@ -385,7 +385,7 @@ $ <input>erl -sname my_name</input></pre>
IP domain and we can use only the first component of the IP
address, if we want to use nodes in different domains we use
<c>-name</c> instead, but then all IP address must be given in
- full (*manual*).</p>
+ full.</p>
<p>Here is the ping pong example modified to run on two separate
nodes:</p>
<code type="none">
@@ -538,9 +538,9 @@ ping finished</pre>
<p>Before we start, let's note the following:</p>
<list type="bulleted">
<item>
- <p>This example will just show the message passing logic no
+ <p>This example will just show the message passing logic- no
attempt at all has been made to provide a nice graphical user
- interface - this can of course also be done in Erlang - but
+ interface. This can, of course, also be done in Erlang - but
that's another tutorial.</p>
</item>
<item>
@@ -550,8 +550,8 @@ ping finished</pre>
tutorial.</p>
</item>
<item>
- <p>The first program we write will contain some inadequacies as
- regards handling of nodes which disappear, we will correct
+ <p>The first program we write will contain some inadequacies
+ regarding the handling of nodes which disappear. We will correct
these in a later version of the program.</p>
</item>
</list>
@@ -734,11 +734,11 @@ await_result() ->
<item>copy the compiled code (<c>messenger.beam</c>) to
the directory on each computer where you start Erlang.</item>
</list>
- <p>In the following example of use of this program, I have started
+ <p>In the following example of use of this program I have started
nodes on four different computers, but if you don't have that
- many machines available on your network, you could start up
+ many machines available on your network you could start up
several nodes on the same machine.</p>
- <p>We start up four Erlang nodes, messenger@super, c1@bilbo,
+ <p>We start up four Erlang nodes: messenger@super, c1@bilbo,
c2@kosken, c3@gollum.</p>
<p>First we start up a the server at messenger@super:</p>
<pre>
@@ -780,19 +780,19 @@ ok
receiver_not_found</pre>
<p>But this fails as Fred has already logged off.</p>
<p>First let's look at some of the new concepts we have introduced.</p>
- <p>There are two versions of the <c>server_transfer</c> function,
+ <p>There are two versions of the <c>server_transfer</c> function:
one with four arguments (<c>server_transfer/4</c>) and one with
five (<c>server_transfer/5</c>). These are regarded by Erlang as
two separate functions.</p>
<p>Note how we write the <c>server</c> function so that it calls
- itself, <c>server(User_List)</c> and thus creates a loop.
+ itself, via <c>server(User_List)</c>, and thus creates a loop.
The Erlang compiler is "clever" and optimizes the code so that
this really is a sort of loop and not a proper function call. But
this only works if there is no code after the call, otherwise
the compiler will expect the call to return and make a proper
function call. This would result in the process getting bigger
and bigger for every loop.</p>
- <p>We use functions in the <c>lists</c> module. This is a very
+ <p>We use functions from the <c>lists</c> module. This is a very
useful module and a study of the manual page is recommended
(<c>erl -man lists</c>).
<c>lists:keymember(Key,Position,Lists)</c> looks through a list
diff --git a/system/doc/getting_started/seq_prog.xml b/system/doc/getting_started/seq_prog.xml
index fd49102263..be43e8d896 100644
--- a/system/doc/getting_started/seq_prog.xml
+++ b/system/doc/getting_started/seq_prog.xml
@@ -31,14 +31,14 @@
<section>
<title>The Erlang Shell</title>
- <p>Most operating systems have a command interpreter or shell, Unix
- and Linux have many, Windows has the Command Prompt. Erlang has
+ <p>Most operating systems have a command interpreter or shell- Unix
+ and Linux have many, while Windows has the Command Prompt. Erlang has
its own shell where you can directly write bits of Erlang code
and evaluate (run) them to see what happens (see
<seealso marker="stdlib:shell">shell(3)</seealso>). Start
the Erlang shell (in Linux or UNIX) by starting a shell or
command interpreter in your operating system and typing
- <c>erl</c>, you will see something like this.</p>
+ <c>erl</c>. You will see something like this.</p>
<pre>
% <input>erl</input>
Erlang R15B (erts-5.9.1) [source] [smp:8:8] [rq:8] [async-threads:0] [hipe] [kernel-poll:false]
@@ -481,7 +481,7 @@ blue(#{blue := SV, alpha := SA}, #{blue := DV, alpha := DA}) ->
> <input>color:blend(C2,C1).</input>
#{alpha => 1.0,blue => 0.38,green => 0.52,red => 0.51}
</pre>
- <p>This example warrant some explanation:</p>
+ <p>This example warrants some explanation:</p>
<code type="none">
-define(is_channel(V), (is_float(V) andalso V &gt;= 0.0 andalso V =&lt; 1.0)).</code>
<p>
@@ -1152,13 +1152,13 @@ month_length(Year, Month) ->
<section>
<title>Built In Functions (BIFs)</title>
- <p>Built in functions BIFs are functions which for some reason is
+ <p>Built in functions (BIFs) are functions which for some reason are
built in to the Erlang virtual machine. BIFs often implement
functionality that is impossible to implement in Erlang or is too
inefficient to implement in Erlang. Some BIFs can be called
- by use of the function name only but they are by default belonging
- to the erlang module so for example the call to the BIF <c>trunc</c>
- below is equivalent with a call to <c>erlang:trunc</c>.</p>
+ by use of the function name only, but they by default belong
+ to the erlang module. So for example, the call to the BIF <c>trunc</c>
+ below is equivalent to a call to <c>erlang:trunc</c>.</p>
<p>As you can see, we first find out if a year is leap or not. If a
year is divisible by 400, it is a leap year. To find this out we
first divide the year by 400 and use the built in function
@@ -1175,14 +1175,14 @@ trunc(5.01) = 5
2000 / 400 = 5.0
trunc(5.0) = 5
5 * 400 = 2000</code>
- <p>so we have a leap year. The next two tests if the year is
- divisible by 100 or 4 are done in the same way. The first
- <c>if</c> returns <c>leap</c> or <c>not_leap</c> which lands up
+ <p>so we have a leap year. The next two tests, which check if the year is
+ divisible by 100 or 4, are done in the same way. The first
+ <c>if</c> returns <c>leap</c> or <c>not_leap</c> which ends up
in the variable <c>Leap</c>. We use this variable in the guard
for <c>feb</c> in the following <c>case</c> which tells us how
long the month is.</p>
- <p>This example showed the use of <c>trunc</c>, an easier way would
- be to use the Erlang operator <c>rem</c> which gives the remainder
+ <p>This example showed the use of <c>trunc</c>. An easier way would
+ be to use the Erlang operator <c>rem</c>, which gives the remainder
after division. For example:</p>
<pre>
74> <input>2004 rem 400.</input>
diff --git a/system/doc/reference_manual/expressions.xml b/system/doc/reference_manual/expressions.xml
index fa8f9b2e8f..62a344ad58 100644
--- a/system/doc/reference_manual/expressions.xml
+++ b/system/doc/reference_manual/expressions.xml
@@ -283,7 +283,7 @@ fun lists:append/2([1,2], [3,4])
length([]) ->
0;
length([H|T]) ->
- 1 + length(T). %% Calls the local funtion length/1
+ 1 + length(T). %% Calls the local function length/1
f(X) when erlang:length(X) > 3 -> %% Calls erlang:length/1,
%% which is allowed in guards
@@ -301,7 +301,7 @@ f(X) when erlang:length(X) > 3 -> %% Calls erlang:length/1,
-import(mod,[length/1]).
-f(X) when erlang:length(X) > 33 -> %% Calls erlang:lenght/1,
+f(X) when erlang:length(X) > 33 -> %% Calls erlang:length/1,
%% which is allowed in guards
erlang:length(X); %% Explicit call to erlang:length in body
diff --git a/system/doc/system_principles/create_target.xmlsrc b/system/doc/system_principles/create_target.xmlsrc
index b5f8d8ac4d..a8ee2d1245 100644
--- a/system/doc/system_principles/create_target.xmlsrc
+++ b/system/doc/system_principles/create_target.xmlsrc
@@ -91,7 +91,7 @@
{pea, "1.0"}]}.</code>
<p>The listed applications are not only original Erlang/OTP
applications but possibly also new applications that you have
- written yourself (here examplified by the application
+ written yourself (here exemplified by the application
<c>pea</c>). </p>
<p><em>Step 2.</em> From the directory where the <c>mysystem.rel</c>
file reside, start the Erlang/OTP system:</p>
@@ -251,7 +251,7 @@ os> <input>/usr/local/erl-target/bin/erl -boot /usr/local/erl-target/releases/FI
<c>target_system:create/1</c>. In fact, if you create, in the
current directory, not only the <c>mysystem.rel</c> file, but
also a <c>sys.config</c> file, that latter file will be tacitly
- put in the apropriate directory.</p>
+ put in the appropriate directory.</p>
</section>
<section>
@@ -408,7 +408,7 @@ heart: Tue Apr 1 12:15:11 2014: Executed "/usr/local/erl-target/bin/start /usr/
Erlang/OTP has Changed</seealso> for more infomation about this.
</p>
<p>
- The node will be accessable via a new pipe:
+ The node will be accessible via a new pipe:
</p>
<pre>
os> <input>/usr/local/erl-target/bin/to_erl /tmp/erlang.pipe.2</input></pre>
diff --git a/system/doc/tutorial/c_portdriver.xmlsrc b/system/doc/tutorial/c_portdriver.xmlsrc
index 421ea63f33..2fd6fb0aac 100644
--- a/system/doc/tutorial/c_portdriver.xmlsrc
+++ b/system/doc/tutorial/c_portdriver.xmlsrc
@@ -35,7 +35,7 @@
<section>
<title>Port Drivers</title>
- <p>A port driver is a linked in driver, that is accessible as a
+ <p>A port driver is a linked in driver that is accessible as a
port from an Erlang program. It is a shared library (SO in Unix,
DLL in Windows), with special entry points. The Erlang runtime
calls these entry points, when the driver is started and when