This makes the build impure and also causes the contents of a file
outside of the build directory to be overwritten.
The check in `BuildPlan.execute_local` is also expanded to cover
the possibility of an absolute path sneaking through.
Because `importlib.metadata.PackageNotFoundError` inherits from
`ImportError`, the code did not previously work in the way that was
stated in the comment. We should probably deprecate `__version__`
entirely at some point.
If it adds to the environment then it ultimately creates the same
kind of problem it was intended to solve--a need to reproduce
the calls to `subprocess` in the code outside. It's not that hard
to merge two dicts, plus much of the time enough you can get by with
having just `PATH` and `AMARANTH_ENV_*` (if even that).
If an override is wanted it can be done easily enough with:
.execute_local(env={**os.environ, "VAR": "VALUE"})
Build scripts are explicitly intended to have overrides that are
done through the use of environment variables, and right now this
would require a very awkward `run_script=False` invocation followed
by copying a bit of code out of the Amaranth codebase, which is
clearly suboptimal.
Using `sys.excepthook` to silence the must-use warning has some false
negatives: applications may catch the exception and then quit
normally, e.g. becaue the error is well known and does not require
a traceback to be shown (which would be noisy). The current
implementation prints even more noise in that case.
In addition to the existing heuristic, silence the warning if
*nothing* has been elaborated, which is almost always a reliable
sign. It doesn't work if multiple designs are independently created
in the application and some of them are dropped without being used,
but this is unavoidable as it is not distinguishable from the mistake
this warning is attempting to prevent.
Fixes#848.
The main purpose of this change is migrating glasgow from the compat
`TSTriple` (which allows 0 width) to `Pin`. This sort of change would
normally require a RFC, but `Pin` is already slated for
removal/replacement, so that was deemed to be unnecessary.
There's an actual `py_enum.member` (which we briefly overwrite our loop
index with (!)). We delete our `member`, but it's still in the
`__all__` that came from `py_enum`, so `import *` fails.
Amaranth bitwise negation `~` compiles to Python bitwise negation `~` in
simulation; the same holds for comparison operators such as `==`. Thus
an expression such as `~(a == b)` in simulation will compile to Python
that takes the bitwise negation of the comparison result, which will be
an actual bool.
On 3.12, the result is a `DeprecationWarning` emitted only at simulation
run-time.
When negating in simulation, coerce the value to an int. `mask` is
sufficient as we do no further arithmetic here.
This fixes the following issues:
- on Python 3.10 and earlier, storing to free variables is now handled
correctly
- on Python 3.11, `_varname_from_oparg` is now used, fixing problems
with cell variables that are also arguments
- on all supported versions, EXTENDED_ARG is now parsed, ensuring proper
handling for long functions
Fixes#792.
This is actually an existing correctness requirement (for the similar
reasons that ValueCastable.as_value() must always return the same
value every time) that for some reason wasn't respected.
See amaranth-lang/rfcs#15 and #784.
Note that this RFC breaks the existing syntax for initializing a view
with a new signal. Instances of `View(layout)` *must* be changed to
`Signal(layout)`.
See amaranth-lang/rfcs#15 and #784.
Note that this RFC breaks the existing syntax for initializing a view
with a new signal. Instances of `View(layout)` *must* be changed to
`Signal(layout)`.
The __init_subclass__ method fires on class definition rather than use.
It also has the bonus impact that no __new__ method is defined, so the
classes can be correctly detected as mix-in classes by modules such as
enum.
In some cases, a toolchain might produce shell output that isn't correct
UTF-8. To avoid crashing in such cases, pass errors="replace" to
bytes.decode.
For example, Lattice Diamond uses the Latin-1 encoding for some reason.
This recently broke my setup because the month turned to "März" in a
German locale:
--- Start Time: Fr. M�r 3 20:01:41 2023
See amaranth-lang/rfcs#4.
This functionality was not explicitly specified in the RFC but it
falls under "anywhere an integer or an enumeration is accepted".
* Reject union initialization with more than one reset value.
* Replace the reset value specified in the class definition with
the one provided during initalization instead of merging.
* Annotations like `s: unsigned(4) = 1` are recognized and
the assigned value is used as the reset value for the implicitly
created `Signal`.
* Base classes inheriting from `Struct` and `Union` without
specifying a layout are recognized.
* Classes that both inherit from a base class with a layout and
specify a layout are rejected.
Mutability of Field isn't specified by the RFC and can cause issues
if the objects stored in Layout subclasses are mutated. There isn't
any reason to do that (the subclasses themselves are mutable and
handle that correctly), so disallow it.
The default name is more commonly returned on code such as:
x, y = Signal(), Signal()
The case where the opcode is not recognized is only encountered
when older Amaranth is ran on a newer Python interpreter (with more
opcodes).
Returning None instead of a name here caused issues in the RTLIL
backend, which would incorrectly use $\d+ names for ports, since
the RTLIL backend assumed the name of a signal is always a string.
Fixes#733.
Starting with setuptools 64.0.2, the monkeypatching process performed as
part of its bootstrap no longer imports distutils.ccompiler, causing an
AttributeError.
Current the value compiler translates ArrayProxy into if-elif trees
which can cause the compiler to crash due to deep recursion (#359).
After this commit, it instead translates them into pattern matching
when it is supported (on Python >= 3.10) to avoid this problem.
Formatting large ints to decimal raises an ValueError in Python versions
that include a mitigation for CVE-2020-10735. Formatting to hexadecimal
instead avoids the algorithmic complexity and is not impacted by the
new conversion limits.
Note that the simulator already rejects very large values, but the
integer-string conversion limits trigger in cases that previously
worked.
These operators are ignored when they are encountered on LHS, as
the signedness of the assignment target does not matter in Amaranth.
.as_signed() appears on LHS of assigns to signed aggregate fields.
Currently debug Verilog generation can take many 10's of seconds.
A new override can now be passed as `AMARANTH_debug_verilog`=0 on
the environment or by setting the `debug_verilog` keyword argument
to `Platform.build()` or `Platform.prepare_toolchain()` to `False`.
Fixes#623.
The existing functionality of get_override was poorly specified and
ill-purposed for boolean flags. This change extracts the core
variable retrieval logic to a helper function and adds a new handler
`get_override_flag` which special cases boolean flags.
The new behavior will also perform type checking on kwargs and inform
the user of the desired type expected.
Jinja2 version 2.11 has a broken dependency constraint that allows its
dependency on markupsafe to pull in a version that it is not actually
compatible with the interface of. Fix this by upgrading the dependency
to `~=3.0`. This requires a small patch to the code to replace the
deprecated `@jinja2.contextfunction` decorator with the replacement
`@jinja2.pass_context`since `@jinja2.contextfunction` is removed in
Jinja2 version 3.1.0.
Fix the strip_internal_attrs parameter to verilog.convert by passing it
down the call stack as intended.
Signed-off-by: Alyssa Rosenzweig <alyssa@rosenzweig.io>
Avoiding emission of sync processes in RTLIL allows us to avoid a dependency on
matching the behavior expected by Yosys, which generally expects sync processes
in RTLIL to match those emitted by the output from its own Verilog parser.
This also simplifies the logic used in emitting RTLIL overall.
Combinatorial processes are still emitted however. Without these the RTLIL does
not have a high-level understanding of Switch statements, which significantly
diminishes the quality of emitted Verilog, as these are converted to `$mux`
cells in Yosys, which become `?` constructs when converted back to Verilog.
Fixes#603.
Fixes#672.
Using floats to represent simulation time internally isn't ideal
instead use 1ps internal units while continuing to use a floating
point based interface for compatibility.
Fixes#535.
A check that rejects very large wires already exists in back.rtlil
because they cause performance and correctness issues with Verilog
tooling. Similar performance issues exist with the Python simulator.
This commit also adjusts back.rtlil to use the OverflowError
exception, same as in sim._pyrtl.
Fixes#588.
