It's valuable to check your runtime values and to shut down the entire
engine in case something doesn't match. This patch adds some magic
plumbing to support a "panic" mechanism.
A new "panic" statement gets transparently converted into a panic
function and panic resource. The former errors if the input is not
empty. The latter must be present to consume the value, but doesn't
actually do anything.
Most of this logging isn't useful for ordinary usage. Hide it for now.
Eventually when we have a fancy logging system (curses-like) we can
bring back more information on the state of everything.
This adds an interesting version of the struct lookup function. In the
situation where we can't type-check the field name, it will use the
optional value passed in. This makes it easy to write a function that
will pull in the desired value, even as the input struct changes type
between compilations, without having to re-write your code.
It's structurally different from the other default lookup functions,
which is why it is named differently.
It's a normally named function for now, until we think of a common
package to move it into.
Hopefully this makes improving the lexer and parser easier for now. We
can consider bringing it back if needed.
This adds a new implementation of the function engine that runs the DAG
function graph. This version is notable in that it can run a graph that
changes shape over time. To make changes to the same of the graph, you
must use the new transaction (Txn) system. This system implements a
simple garbage collector (GC) for scheduled removal of nodes that the
transaction system "reverses" out of the graph.
Special thanks to Samuel Gélineau <gelisam@gmail.com> for his help
hacking on and debugging so much of this concurrency work with me.
This returns the type with the arg names we'll actually use. This is
helpful so we can pass values to the right places. We have named edges
so you can actually see what's going on.
Co-authored-by: Samuel Gélineau <gelisam@gmail.com>
This adds a new test functions package and also a new "fastcount"
function which counts up from zero as fast as is possible. You probably
don't want to use this in production, but it is useful for performance
and deadlock testing the resource and function engines.
There are many reasonable cases where we might want to allow a dynamic
format string. Support that situation by adding the new invariants that
are needed for those cases.
We also add a backup fix to avoid a panic in case we ever hit a new
unification bug that lets something through, we can at least turn it
into a runtime issue. This adds a test as well.
This removes the `Close() error` and replaces it with a more modern
Stream API that takes a context. This removes boilerplate and makes
integration with concurrent code easier. The only downside is that there
isn't an explicit cleanup step, but only one function was even using
that and it was possible to switch it to a defer in Stream.
This also renames the functions from polyfunc to just func which we
determine by API not naming.
This removes the calling of SetValue from the engine, and instead
replaces it with the Table() API. The downside is that this is likely
slower, and the current API with locking being exposed publicly is kind
of ugly. The upside is that this might make building the new engine
easier.
Future versions might remove locking from the API if we can avoid making
any accesses to expressions. Currently this happens within Logf/SafeLogf
which is our main (only?) usage at the moment. Logging could become
smarter perhaps. Alternatively, we might pass in a "setter" function
that gets called safely from within the engine. This could wrap SetValue
and the locking functions wouldn't be part of the public API.
This adds the requirement that all function implementations provider a
String() string method so that these can be used as vertices in the
pgraph library. If we eventually move to generics for the pgraph DAG,
then this might not matter, but it's not bad that these have names
either.
This patch moves to use the sox package instead of arecord for getting
microphone data, and it also validates that both sox and rec and
installed. We also add a standalone example.
This doesn't let us have nested mcl at the moment, but we could improve
on this with an embed API for each package. For now this makes building
the project easier.
This flattens the type unification of the map function so that the
solver has more to work with. It's possible that some scenarios might
solve faster, or without recursion, after this improvement.
This is a giant refactor to split the giant lang package into many
subpackages. The most difficult piece was figuring out how to extract
the extra ast structs into their own package, because they needed to
call two functions which also needed to import the ast.
The solution was to separate out those functions into their own
packages, and to pass them into the ast at the root when they're needed,
and to let the relevant ast portions call a handle.
This isn't terribly ugly because we already had a giant data struct
woven through the ast.
The bad part is rebasing any WIP work on top of this.
