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{#
# Python has a built-in `enum` module which is nice to use, but doesn't support
# variants with associated data. So, we switch here, and generate a stdlib `enum`
# when none of the variants have associated data, or a generic nested-class
# construct when they do.
#}
{% if e.is_flat() %}
class {{ type_name }}(enum.Enum):
{%- call py::docstring(e, 4) %}
{%- for variant in e.variants() %}
{{ variant.name() }} = {{ e|variant_discr_literal(loop.index0) }}
{%- call py::docstring(variant, 4) %}
{% endfor %}
{% else %}
class {{ type_name }}:
{%- call py::docstring(e, 4) %}
def __init__(self):
raise RuntimeError("{{ type_name }} cannot be instantiated directly")
# Each enum variant is a nested class of the enum itself.
{% for variant in e.variants() -%}
class {{ variant.name() }}:
{%- call py::docstring(variant, 8) %}
{%- if variant.has_nameless_fields() %}
def __init__(self, *values):
if len(values) != {{ variant.fields().len() }}:
raise TypeError(f"Expected {{ variant.fields().len() }} arguments, found {len(values)}")
{%- for field in variant.fields() %}
if not isinstance(values[{{ loop.index0 }}], {{ field|type_name }}):
raise TypeError(f"unexpected type for tuple element {{ loop.index0 }} - expected '{{ field|type_name }}', got '{type(values[{{ loop.index0 }}])}'")
{%- endfor %}
self._values = values
def __getitem__(self, index):
return self._values[index]
def __str__(self):
return f"{{ type_name }}.{{ variant.name() }}{self._values!r}"
def __eq__(self, other):
if not other.is_{{ variant.name()|var_name }}():
return False
return self._values == other._values
{%- else -%}
{%- for field in variant.fields() %}
{{ field.name() }}: "{{ field|type_name }}"
{%- call py::docstring(field, 8) %}
{%- endfor %}
def __init__(self,{% for field in variant.fields() %}{{ field.name() }}: "{{- field|type_name }}"{% if loop.last %}{% else %}, {% endif %}{% endfor %}):
{%- if variant.has_fields() %}
{%- for field in variant.fields() %}
self.{{ field.name() }} = {{ field.name() }}
{%- endfor %}
{%- else %}
pass
{%- endif %}
def __str__(self):
return "{{ type_name }}.{{ variant.name() }}({% for field in variant.fields() %}{{ field.name() }}={}{% if loop.last %}{% else %}, {% endif %}{% endfor %})".format({% for field in variant.fields() %}self.{{ field.name() }}{% if loop.last %}{% else %}, {% endif %}{% endfor %})
def __eq__(self, other):
if not other.is_{{ variant.name()|var_name }}():
return False
{%- for field in variant.fields() %}
if self.{{ field.name() }} != other.{{ field.name() }}:
return False
{%- endfor %}
return True
{% endif %}
{% endfor %}
# For each variant, we have an `is_NAME` method for easily checking
# whether an instance is that variant.
{% for variant in e.variants() -%}
def is_{{ variant.name()|var_name }}(self) -> bool:
return isinstance(self, {{ type_name }}.{{ variant.name() }})
{% endfor %}
# Now, a little trick - we make each nested variant class be a subclass of the main
# enum class, so that method calls and instance checks etc will work intuitively.
# We might be able to do this a little more neatly with a metaclass, but this'll do.
{% for variant in e.variants() -%}
{{ type_name }}.{{ variant.name() }} = type("{{ type_name }}.{{ variant.name() }}", ({{ type_name }}.{{variant.name()}}, {{ type_name }},), {}) # type: ignore
{% endfor %}
{% endif %}
class {{ ffi_converter_name }}(_UniffiConverterRustBuffer):
@staticmethod
def read(buf):
variant = buf.read_i32()
{%- for variant in e.variants() %}
if variant == {{ loop.index }}:
{%- if e.is_flat() %}
return {{ type_name }}.{{variant.name()}}
{%- else %}
return {{ type_name }}.{{variant.name()}}(
{%- for field in variant.fields() %}
{{ field|read_fn }}(buf),
{%- endfor %}
)
{%- endif %}
{%- endfor %}
raise InternalError("Raw enum value doesn't match any cases")
@staticmethod
def check_lower(value):
{%- if e.variants().is_empty() %}
pass
{%- else %}
{%- for variant in e.variants() %}
{%- if e.is_flat() %}
if value == {{ type_name }}.{{ variant.name() }}:
{%- else %}
if value.is_{{ variant.name()|var_name }}():
{%- endif %}
{%- for field in variant.fields() %}
{%- if variant.has_nameless_fields() %}
{{ field|check_lower_fn }}(value._values[{{ loop.index0 }}])
{%- else %}
{{ field|check_lower_fn }}(value.{{ field.name() }})
{%- endif %}
{%- endfor %}
return
{%- endfor %}
raise ValueError(value)
{%- endif %}
@staticmethod
def write(value, buf):
{%- for variant in e.variants() %}
{%- if e.is_flat() %}
if value == {{ type_name }}.{{ variant.name() }}:
buf.write_i32({{ loop.index }})
{%- else %}
if value.is_{{ variant.name()|var_name }}():
buf.write_i32({{ loop.index }})
{%- for field in variant.fields() %}
{%- if variant.has_nameless_fields() %}
{{ field|write_fn }}(value._values[{{ loop.index0 }}], buf)
{%- else %}
{{ field|write_fn }}(value.{{ field.name() }}, buf)
{%- endif %}
{%- endfor %}
{%- endif %}
{%- endfor %}