X-Git-Url: http://git.subgeniuskitty.com/screensavers/.git/blobdiff_plain/004edcbf9babe16297ca24ba9df71ca8ae91370a..963282b5cb53c6b2041790494b3721f54653cd6a:/hacks/WolframAutomata/README.md
diff --git a/hacks/WolframAutomata/README.md b/hacks/WolframAutomata/README.md
index 026b9cf..99b2410 100644
--- a/hacks/WolframAutomata/README.md
+++ b/hacks/WolframAutomata/README.md
@@ -84,12 +84,30 @@ are re-randomized every time the simulation is reset, such as after a
simulation completes or after resizing the window.
+CLI: Rule Selection
+-------------------
+
+If neither of the following two options are passed, rules are randomly selected
+from `curated_ruleset_list[]` in `WolframAutomata.c`.
+
+ - **`-true-random-rule`**: Select a rule completely at random, NOT randomly
+ from a curated list. Note that many rules are visually uninteresting.
+
+ - **`-rule N`**: Select a specific rule where `N` is a Wolfram number. Values
+ from 0-255 inclusive are valid.
+
+
CLI: Simulation Seed
--------------------
-If none of the following options are specified, the starting seed will contain
-randomly interspersed active/inactive cells at a 30/70, 50/50, or 70/30 ratio,
-itself also randomly selected.
+The following seed related CLI flags apply only when using the
+`-true-random-rule` or `-rule N` flags. Without these flags, the program draws
+rules from `curated_ruleset_list[]` which also includes curated seeds, all of
+which override any seed related CLI flags.
+
+If the curated rule list is not in use and none of the following options are
+specified, the starting seed will contain randomly interspersed active/inactive
+cells at a 30/70, 50/50, or 70/30 ratio, itself also randomly selected.
- **`-seed-left`**: Seeds a single active cell on the left side of the
display. All other cells are inactive.
@@ -101,22 +119,22 @@ itself also randomly selected.
- **`-seed-density N`**: Generates random seed with `N` percent active cells.
-CLI: Rule Selection
--------------------
+CLI: Simulation Length
+----------------------
-If neither of the following two options are passed, rules are randomly selected
-from `curated_ruleset_list[]` in `WolframAutomata.c`.
+If neither of the following two options are passed, the simulation runs as
+though `-length 5000` was passed.
- - **`-true-random-rule`**: Select a rule completely at random, NOT randomly
- from a curated list. Note that many rules are visually uninteresting.
+ - **`-random-length`**: A random length smaller than 10,000 generations but
+ large enough to fill the screen is selected.
- - **`-rule N`**: Select a specific rule where `N` is a Wolfram number. Values
- from 1-255 inclusive are valid.
+ - **`-length N`**: Request `N` generations be simulated on each run.
-Note that, although Rule 0 is a valid set of rules, it is reused as a null
-value by the program and thus is ignored if passed as `-rule 0`. If you want to
-see Rule 0, choose any starting conditions you desire, then turn off your
-monitor and enjoy the resulting simulation.
+Note that an upper limit of 10,000 generations is enforced in order to avoid
+`BadAlloc` errors from some X servers. For more details, read
+`WolframAutomata.c` starting around the comment, "The maximum number of
+generations is cell_size dependent. This is a soft limit and may be increased
+if ..."
CLI: Simulation Speed
@@ -136,24 +154,6 @@ though `-delay 25000` was passed.
well respected.
-CLI: Simulation Length
-----------------------
-
-If neither of the following two options are passed, the simulation runs as
-thought `-length 5000` was passed.
-
- - **`-random-length`**: A random length smaller than 10,000 generations but
- large enough to fill the screen is selected.
-
- - **`-length N`**: Request `N` generations be simulated on each run.
-
-Note that an upper limit of 10,000 generations is enforced in order to avoid
-`BadAlloc` errors from some X servers. For more details, read
-`WolframAutomata.c` starting around the comment, "The maximum number of
-generations is cell_size dependent. This is a soft limit and may be increased
-if ..."
-
-
CLI: Cell Dimensions
--------------------
@@ -212,7 +212,7 @@ XScreensaver via whatever method is appropriate for your operating system. The
following instructions assume the filesystem paths used by FreeBSD packages and
ports; your paths may differ. After XScreensaver installation, ensure all
pertinent config files are created by running `xscreensaver-demo` and
-configuring it for your system.
+configuring XScreensaver for your system.
After XScreensaver is configured and working on your system, ensure that
WolframAutomata runs in standalone mode on your system. If you can `make clean run`
@@ -225,29 +225,82 @@ example, with prerequisite steps spelled out:
git clone git://git.subgeniuskitty.com/screensavers
cd screensavers/hacks/WolframAutomata
make clean all
- cp WolframAutomata /usr/local/bin/xscreensaver-hacks/
+ cp WolframAutomata /usr/local/bin/xscreensaver-hacks/wolframautomata
-Now create the file `WolframAutomata.xml` wherever your system stores
+Now create the file `wolframautomata.xml` wherever your system stores
XScreensaver config files and populate it with the contents shown below. For
example, on FreeBSD:
- vi /usr/local/share/xscreensaver/config/WolframAutomata.xml
-
- TODO: Finish writing this file after the command line options are finalized.
-
-The final step integrates WolframAutomata into an individual user's
-XScreensaver framework. If preferred, it could instead be done in the global
-XScreensaver config.
-
-Add the WolframAutomata entry under the `programs:` label, in the same list as
-all the other hacks. Position in the list is irrelevant, but ensure you don't
-paste WolframAutomata's entry into the middle of pre-existing, multi-line
-entries.
+ vi /usr/local/share/xscreensaver/config/wolframautomata.xml
+
+
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+ <_description>
+ Displays the time evolution of elementary cellular automata.
+
+ These automata consist of a line of cells, each of which may be either on or
+ off. To ensure every cell has neighbors, the two endpoints of the line connect
+ together, thereby forming a circular universe for the cells to inhabit. This
+ line is drawn horizontally on the screen.
+
+ Over time, this line of cells evolves according to rules, with some cells
+ switching on or off. Each new iteration is drawn below its predecessor,
+ leading the screen to scroll vertically over time.
+
+ The rules which govern the time evolution of this system depend only on the
+ current state of a given cell and the state of its two immediate neighbors.
+ These rules are formalized as Wolfram codes, where the code number is directly
+ convertible into a rule set.
+
+
+
+The next step integrates WolframAutomata into an individual user's XScreensaver
+config via the file `~/.xscreensaver`. If preferred, it could instead be done
+in the global XScreensaver config.
+
+In the `~/.xscreensaver` file, create a WolframAutomata entry under the
+`programs:` label in the same list as all the other hacks. Position in the
+list is irrelevant, but ensure you don't paste WolframAutomata's entry into the
+middle of pre-existing, multi-line entries. For context, the example below
+includes a multi-line entry, a GL entry and a plain entry. All that is needed
+is to insert the WolframAutomata line somewhere in the `programs:` list, as
+demonstrated.
vi ~/.xscreensaver
+
programs: \
- WolframAutomata -root -party-mode \n\
+ xplanet -vroot -wait 1 -timewarp 400 \
+ -label -origin moon \n\
+ GL: fireflies -root \n\
+ wolframautomata -root \n\
+ blitspin -root \n\
+
That's all. Now you can run `xscreensaver-demo` and select WolframAutomata just
like any other hack.