#[non_exhaustive]pub struct Network {Show 16 fields
pub name: String,
pub base_mva: f64,
pub base_frequency: f64,
pub buses: Vec<Bus>,
pub loads: Vec<Load>,
pub shunts: Vec<Shunt>,
pub branches: Vec<Branch>,
pub switches: Vec<Switch>,
pub generators: Vec<Generator>,
pub storage: Vec<Storage>,
pub hvdc: Vec<Hvdc>,
pub transformers_3w: Vec<Transformer3W>,
pub areas: Vec<Area>,
pub solver: Option<SolverParams>,
pub source_format: SourceFormat,
pub source: Option<Arc<String>>,
}Expand description
A format-neutral power network.
Fields (Non-exhaustive)§
This struct is marked as non-exhaustive
Struct { .. } syntax; cannot be matched against without a wildcard ..; and struct update syntax will not work.name: String§base_mva: f64§base_frequency: f64System base frequency in hertz (50 or 60). Threaded through the formats
that record it (PSS/E BASFRQ, pandapower f_hz) and defaulted to
DEFAULT_BASE_FREQUENCY for the rest. Load-bearing for any
reactance↔henry conversion (pandapower line charging) and reported as a
fidelity loss when a non-default value writes to a format with no
frequency field.
buses: Vec<Bus>§loads: Vec<Load>§shunts: Vec<Shunt>§branches: Vec<Branch>§switches: Vec<Switch>§generators: Vec<Generator>§storage: Vec<Storage>§hvdc: Vec<Hvdc>§transformers_3w: Vec<Transformer3W>Three-winding transformers, kept as typed records rather than folded into
branches, so a star point and the per-winding data survive a round trip.
#[serde(default)] so JSON written before the field existed still
deserializes. IndexedNetwork lowers each
in-service record into a star bus plus three branches (via
Transformer3W::star_expansion) before building any matrix, so a
3-winding transformer does appear in Y_bus/connectivity; the canonical
model keeps the typed record for round-trip fidelity.
areas: Vec<Area>Area records: scheduled interchange and per-area swing bus. Distinct from
the bare area number on each Bus; this is the area’s metadata, which
every conversion dropped before. #[serde(default)] so older JSON still
deserializes.
solver: Option<SolverParams>Solver / solution-control metadata when the source carries it, else None.
#[serde(default)] so older JSON still deserializes.
source_format: SourceFormat§source: Option<Arc<String>>Raw source text, when read from a textual format; enables a byte-exact
same-format round-trip. Arc<String> (not Arc<str>) is deliberate: a
reader that already owns the buffer (the MATPOWER file path) moves it in
with no second copy of the whole file. The trade is one extra indirection
per access; don’t “simplify” it back to Arc<str>, which would reintroduce
the copy this avoids.
Skipped in JSON: the structured tables are the transport, not the raw
echo, and skipping also keeps serde’s rc feature out of the build. A
from_json round-trip returns this as None.
Implementations§
Source§impl Network
impl Network
Sourcepub fn apply_gen_cost_policy(
&mut self,
patches: &[GenCostPatch],
policy: MissingGenCostPolicy,
) -> Result<GenCostPolicyReport, Error>
pub fn apply_gen_cost_policy( &mut self, patches: &[GenCostPatch], policy: MissingGenCostPolicy, ) -> Result<GenCostPolicyReport, Error>
Apply explicit cost patches, then a missing-cost policy.
Patches replace the existing cost for the named generator. The missing-cost fill policy only touches generators still missing a cost after patching.
Source§impl Network
impl Network
pub fn new(name: impl Into<String>, base_mva: f64) -> Network
Sourcepub fn in_memory(
name: impl Into<String>,
base_mva: f64,
buses: Vec<Bus>,
branches: Vec<Branch>,
) -> Network
pub fn in_memory( name: impl Into<String>, base_mva: f64, buses: Vec<Bus>, branches: Vec<Branch>, ) -> Network
A network assembled in memory from buses and branches, with no loads,
shunts, generators, storage, HVDC, or retained source document. Synthetic
topology generators and tests use it instead of repeating the struct
literal. The caller owns reference integrity (run check_references if
the ids might be inconsistent).
Sourcepub fn to_json(&self) -> Result<String, Error>
pub fn to_json(&self) -> Result<String, Error>
Serialize the structured tables to JSON: the transport the C ABI
(the powerio-json format) and the Julia bridge consume. The retained source text
is excluded (see the field’s #[serde(skip)]), so the byte-exact echo
stays on the same-format write path; a from_json
round-trip reproduces every field except source, which returns None.
JSON has no Inf/NaN: serde_json writes a non-finite field as
null, which from_json rejects on the way back
(null is not an f64). The write stays total, the bindings
materialize every parsed network through this transport, and readers
legitimately produce Inf limits, but such a snapshot does not round
trip; write_as reports the degradation as a
fidelity warning naming the field.
§Errors
A serde_json serialization failure (none arise from this model today).
Sourcepub fn to_format(&self, format: TargetFormat) -> Result<Conversion, Error>
pub fn to_format(&self, format: TargetFormat) -> Result<Conversion, Error>
Sourcepub fn to_format_with_options(
&self,
format: TargetFormat,
options: &WriteOptions,
) -> Result<Conversion, Error>
pub fn to_format_with_options( &self, format: TargetFormat, options: &WriteOptions, ) -> Result<Conversion, Error>
Serialize this network with write-time cost policies.
The network itself is not mutated. Default options preserve
to_format behavior.
Sourcepub fn to_matpower(&self) -> String
pub fn to_matpower(&self) -> String
Serialize this network to MATPOWER .m text.
This is byte-exact when the network was parsed from MATPOWER and still carries its retained source text.
Sourcepub fn from_json(text: &str) -> Result<Network, Error>
pub fn from_json(text: &str) -> Result<Network, Error>
Rebuild a Network from JSON produced by to_json.
Validates the result (no buses, unique bus ids, no dangling references)
before returning, so the JSON transport (the C ABI and Julia bridge ride
on it) can’t hand back a network the file readers would have rejected
(the same no-buses guard read_source applies to every parse path).
Sourcepub fn is_normalized(&self) -> bool
pub fn is_normalized(&self) -> bool
Whether this is a normalized (per-unit, radian, filtered)
derived product from to_normalized, rather
than a raw network at the file’s unit basis. Unit-sensitive code that
takes a &Network can check this instead of silently assuming MW.
Sourcepub fn check_base_mva(&self) -> Result<(), Error>
pub fn check_base_mva(&self) -> Result<(), Error>
Error unless base_mva is a positive, finite number. It is every
per-unit divisor, so a malformed base would otherwise silently poison
downstream values with NaN/Inf or flipped signs. The per-unit
consumers (to_normalized, the gridfm
export) call this; any other unit-sensitive consumer should too.
Sourcepub fn validate_values(&self) -> Vec<Diagnostic>
pub fn validate_values(&self) -> Vec<Diagnostic>
Report element fields whose values fall outside their physical domain,
without changing anything. Each Diagnostic names the element, the
field, the current value, the value repair would set,
and why.
This generalizes the per-reader value clamps (a bus voltage magnitude
outside [0, 2], an angle past ±2000°, a zero generator MVA base or
voltage setpoint) into one pass any consumer can run, separate from the
structural validate (which only checks ids and
references). It is non-mutating; call repair to apply
the fixes.
Sourcepub fn repair(&mut self) -> Vec<Diagnostic>
pub fn repair(&mut self) -> Vec<Diagnostic>
Clamp every out-of-domain value to its repaired value (the same rules
validate_values reports), returning the list
of changes made. A second call returns an empty list (the values are now
in domain).
Sourcepub fn validate(&self) -> Result<(), Error>
pub fn validate(&self) -> Result<(), Error>
Check structural integrity: bus ids are unique and every element
references an existing bus. The file readers and from_json
run this; a Network built by hand (or mutated, e.g. by a scenario
generator) should call it before handing the network to
IndexedNetwork, whose dense indexing assumes it.
Source§impl Network
impl Network
Sourcepub fn to_normalized(&self) -> Result<Network, Error>
pub fn to_normalized(&self) -> Result<Network, Error>
A normalized, computation-ready copy of this network. The raw Network is
kept lossless (MATPOWER units, 1-based sparse ids, out-of-service elements
retained); to_normalized derives the form a solver or ML pipeline wants:
- Per unit (÷
base_mva): genpg/qg/pmax/pmin/qmax/qminand the ramp caps (GEN_PU_KEYS); loadp/q; shuntg/b; branchrate_a/b/c; storage energy/ratings/limits/losses; HVDCpf/pt/qf/qt, reactive limits,loss0; gen-cost coefficients (cost_to_pu). Storageps/qsand HVDC aggregatepmin/pmaxstay raw, matching the PowerModels per-unit convention. Voltages, impedances, tap, andloss1are already dimensionless. - Radians: bus
va; branchshift/angmin/angmax. - Tap:
0 → 1.0(an explicit1is kept). - Filtered: drop buses typed isolated (
BusType::Isolated) and every out-of-service element, then drop any element left referencing a dropped bus. A bus orphaned by the out-of-service filter (no in-service branch, but not typed isolated) is kept — its load is real — and surfaces as its own island, which the grounding check reports if it has no reference. - IDs: kept buses retain their source bus ids, and every surviving
endpoint stays in the same id space. Consumers that need dense rows should
use
IndexedNetwork, which derives[0, n)indices without destroying source ids. - Bus types: a bus hosting a surviving generator keeps
REFif the file marked itREF, otherwise becomesPV; a generator-less bus isPQ(so a generator-lessREFis demoted). The file’sREFbuses are kept, several included, and the consumer picks the slack. Only when no reference bus survives is the largest-pmaxin-service generator’s bus promoted toREF.
This is a derived product, not a source for write-back: source is dropped
and source_format is SourceFormat::Normalized, so writing it serializes
the per-unit/radian model instead of echoing the raw bytes, and a consumer
can tell it apart from a raw in-memory network.
Scope is the universal canonicalization only. It does not pad angle bounds,
synthesize a missing rate_a, or restrict the gen-cost model — those are
solver-prep choices a consumer applies on top. The cost rescale is
universal and lives here; the model restriction does not.
§Errors
Error::InvalidBaseMva if base_mva is not a positive, finite number
(every per-unit divisor), so a malformed base can’t silently poison the
whole network with NaN/Inf or sign-flipped values.
Error::ReferenceBusCount if no reference bus can be established — no REF
survives and there is no in-service generator to anchor one.
Source§impl Network
impl Network
Sourcepub fn subset(&self, sel: &Selector, keep_boundary: bool) -> Network
pub fn subset(&self, sel: &Selector, keep_boundary: bool) -> Network
Carve out the sub-network whose buses match sel.
In-scope buses keep their loads, shunts, generators, and storage; a branch,
HVDC line, or 3-winding transformer is kept when every bus it touches is
kept. With keep_boundary, a branch or HVDC line straddling the selection
edge pulls its out-of-scope endpoint in as a tie bus (tagged
extras["tie_bus"] = true) so the carved island has no dangling branch
ends; without it, a straddling branch is dropped. A tie bus is a stub: its
own loads/generators are not pulled in. A control reference (regulated bus)
that falls outside the kept set is cleared so the result is
reference-consistent.
The result is a fresh SourceFormat::InMemory network (no retained
source); an empty Selector returns a clone-equivalent of the whole case,
and a selector matching no bus returns an empty network.
Sourcepub fn merge_bus(&mut self, into: BusId, from: BusId)
pub fn merge_bus(&mut self, into: BusId, from: BusId)
Merge bus from into bus into: re-home every element on from (loads,
shunts, generators, storage, branch/HVDC/transformer endpoints, and control
references) onto into, drop the branches and HVDC lines that ran directly
between the two (now self-loops), and remove the from bus. The surviving
bus keeps the stronger of the two bus kinds (a slack is not demoted).
A no-op when into == from. The other attributes of from (its voltage,
limits, name) are discarded; the topology and injections are what move.
Sourcepub fn reduce_zero_impedance(&mut self, threshold: f64) -> usize
pub fn reduce_zero_impedance(&mut self, threshold: f64) -> usize
Collapse every in-service, non-transformer branch whose series impedance
magnitude is at or below threshold by merging its endpoints (the to-bus
into the from-bus), returning the number of branches removed. Parallel
jumpers between the same pair go in the same step.
Zero-impedance branches (bus ties, breakers modeled as jumpers) carry no power flow drop, so collapsing them shrinks the network without changing its electrical behavior. An out-of-service jumper is an open switch whose endpoints are not electrically joined, so it is left in place. Transformers are never collapsed (a unity-ratio transformer is a real device, not a jumper); a jumper between two windings of the same 3-winding transformer is also skipped, since merging would collapse that transformer onto one node.
Sourcepub fn reduce_passthrough_buses(&mut self) -> usize
pub fn reduce_passthrough_buses(&mut self) -> usize
Collapse degree-2 passthrough buses, returning the number removed. A passthrough bus carries nothing but two in-service line sections, so it is an electrically inert junction: the two sections fold into one equivalent branch between their outer endpoints and the middle bus is deleted.
This is the multi-section-line reduction. Exporters often split one circuit into segments joined at dummy buses; folding them back recovers the single branch. A bus qualifies only when it carries no load, generator, shunt, or storage, is not a control reference, area swing, HVDC endpoint, or 3-winding winding bus, is not the system slack, and is touched by exactly two ordinary branches (never transformers) that are both in service and run to two distinct other buses. The equivalent branch sums the series impedance and line charging, takes the more limiting thermal rating of the two sections, and intersects their angle limits. Chains of dummy buses collapse fully, one bus per step.
Sourcepub fn retype_isolated_buses(&mut self) -> usize
pub fn retype_isolated_buses(&mut self) -> usize
Retype to BusType::Isolated every bus with no in-service electrical
connection — no in-service incident branch, HVDC line, or 3-winding
transformer — returning the number retyped.
A stranded bus (retired or not-yet-built equipment, or the residue of a topology edit) otherwise keeps a PQ/PV/slack kind that tells a solver to include it, leaving an ungrounded singleton in the system. This only demotes a disconnected bus; it never promotes a connected one, and a bus the source already marks isolated is left untouched. Connectivity is judged on in-service equipment only, so opening the last branch into a bus makes it eligible.
Source§impl Network
impl Network
Sourcepub fn to_normalized_solver_tables(
&self,
) -> Result<NormalizedSolverTables, Error>
pub fn to_normalized_solver_tables( &self, ) -> Result<NormalizedSolverTables, Error>
Lower this balanced network into normalized dense solver tables.
§Errors
Propagates Network::to_normalized errors and reports
Error::UnknownBus if the derived normalized network contains an
internal dangling bus reference.