SolarEnergy/central_backend/src/energy/engine.rs

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use std::collections::HashMap;
use prettytable::{row, Table};
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use crate::constants;
use crate::devices::device::{Device, DeviceId, DeviceRelay, DeviceRelayID};
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use crate::energy::consumption::EnergyConsumption;
use crate::utils::time_utils::time_secs;
#[derive(Default)]
pub struct DeviceState {
pub last_ping: u64,
}
impl DeviceState {
pub fn record_ping(&mut self) {
self.last_ping = time_secs();
}
pub fn is_online(&self) -> bool {
(time_secs() - self.last_ping) < constants::DEVICE_MAX_PING_TIME
}
}
#[derive(Default, Clone)]
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pub struct RelayState {
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on: bool,
since: usize,
}
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impl RelayState {
fn is_on(&self) -> bool {
self.on
}
fn is_off(&self) -> bool {
!self.on
}
}
type RelaysState = HashMap<DeviceRelayID, RelayState>;
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#[derive(Default)]
pub struct EnergyEngine {
devices_state: HashMap<DeviceId, DeviceState>,
relays_state: RelaysState,
}
impl DeviceRelay {
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// Note : this function is not recursive
fn has_running_dependencies(&self, s: &RelaysState, devices: &[Device]) -> bool {
for d in devices {
for r in &d.relays {
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if r.depends_on.contains(&self.id) && s.get(&r.id).unwrap().is_on() {
return true;
}
}
}
false
}
// Note : this function is not recursive
fn is_missing_dependencies(&self, s: &RelaysState) -> bool {
self.depends_on.iter().any(|id| s.get(id).unwrap().is_off())
}
fn is_having_conflict(&self, s: &RelaysState, devices: &[Device]) -> bool {
if self
.conflicts_with
.iter()
.any(|id| s.get(id).unwrap().is_on())
{
return true;
}
// Reverse search
for device in devices {
for r in &device.relays {
if s.get(&r.id).unwrap().is_on() && r.conflicts_with.contains(&self.id) {
return true;
}
}
}
false
}
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}
impl EnergyEngine {
pub fn device_state(&mut self, dev_id: &DeviceId) -> &mut DeviceState {
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self.devices_state.entry(dev_id.clone()).or_default();
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self.devices_state.get_mut(dev_id).unwrap()
}
pub fn relay_state(&mut self, relay_id: DeviceRelayID) -> &mut RelayState {
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self.relays_state.entry(relay_id).or_default();
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self.relays_state.get_mut(&relay_id).unwrap()
}
fn print_summary(&mut self, curr_consumption: EnergyConsumption, devices: &[Device]) {
log::info!("Current consumption: {curr_consumption}");
let mut table = Table::new();
table.add_row(row!["Device", "Relay", "On", "Since"]);
for d in devices {
for r in &d.relays {
let status = self.relay_state(r.id);
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table.add_row(row![
d.name,
r.name,
status.is_on().to_string(),
status.since
]);
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}
}
table.printstd();
}
pub fn refresh(&mut self, curr_consumption: EnergyConsumption, devices: &[Device]) {
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// Force creation of missing relays state
for d in devices {
for r in &d.relays {
// Requesting relay state is enough to trigger relay creation
self.relay_state(r.id);
}
}
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let mut new_relays_state = self.relays_state.clone();
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// Forcefully turn off relays that belongs to offline devices
for d in devices {
if !self.device_state(&d.id).is_online() {
for r in &d.relays {
new_relays_state.get_mut(&r.id).unwrap().on = false;
}
}
}
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// Forcefully turn off disabled relays
for d in devices {
for r in &d.relays {
if !r.enabled {
new_relays_state.get_mut(&r.id).unwrap().on = false;
}
}
}
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// Forcefully turn off relays with missing dependency
loop {
let mut changed = false;
for d in devices {
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for r in &d.relays {
if new_relays_state.get(&r.id).unwrap().is_off() {
continue;
}
// Check if any dependency of relay is off
if r.is_missing_dependencies(&new_relays_state) {
new_relays_state.get_mut(&r.id).unwrap().on = false;
changed = true;
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}
}
}
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if !changed {
break;
}
}
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// Virtually turn off all relays that can be stopped
loop {
let mut changed = false;
for d in devices {
for r in &d.relays {
let state = new_relays_state.get(&r.id).unwrap();
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if state.is_off() {
continue;
}
// Check if minimal runtime has not been reached
if (state.since + r.minimal_uptime) as i64 > time_secs() as i64 {
continue;
}
// Check that no relay that depends on this relay are turned on
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if r.has_running_dependencies(&new_relays_state, devices) {
continue;
}
new_relays_state.get_mut(&r.id).unwrap().on = false;
changed = true;
}
}
if !changed {
break;
}
}
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// TODO Turn on relays with running constraints (only ENABLED)
// Order relays
let mut ordered_relays = devices
.iter()
.filter(|d| self.device_state(&d.id).is_online() && d.enabled)
.flat_map(|d| &d.relays)
.filter(|r| r.enabled)
.collect::<Vec<_>>();
ordered_relays.sort_by_key(|r| r.priority);
ordered_relays.reverse();
loop {
let mut changed = false;
for relay in &ordered_relays {
if new_relays_state.get(&relay.id).unwrap().is_on() {
continue;
}
if !relay.enabled {
continue;
}
let real_relay_state = self.relays_state.get(&relay.id).unwrap();
if real_relay_state.is_off()
&& (real_relay_state.since + relay.minimal_downtime) as u64 > time_secs()
{
continue;
}
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if relay.is_missing_dependencies(&new_relays_state) {
continue;
}
if relay.is_having_conflict(&new_relays_state, devices) {
continue;
}
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// TODO : check consumption
log::info!("Turn on relay {}", relay.name);
new_relays_state.get_mut(&relay.id).unwrap().on = true;
changed = true;
}
if !changed {
break;
}
}
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// Commit changes
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for (id, new_state) in &new_relays_state {
let curr_state = self.relay_state(*id);
if curr_state.on != new_state.on {
curr_state.on = new_state.on;
curr_state.since = time_secs() as usize;
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log::info!("Changing state of {id:?} to {}", new_state.on);
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}
}
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self.print_summary(curr_consumption, devices);
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}
}