Anki/rslib/src/scheduler/service/mod.rs

// Copyright: Ankitects Pty Ltd and contributors
// License: GNU AGPL, version 3 or later; http://www.gnu.org/licenses/agpl.html

mod answering;
mod states;

use anki_proto::cards;
use anki_proto::generic;
use anki_proto::scheduler;
use anki_proto::scheduler::ComputeMemoryStateResponse;
use anki_proto::scheduler::ComputeOptimalRetentionRequest;
use anki_proto::scheduler::ComputeOptimalRetentionResponse;
use anki_proto::scheduler::GetOptimalRetentionParametersResponse;

use crate::prelude::*;
use crate::scheduler::new::NewCardDueOrder;
use crate::scheduler::states::CardState;
use crate::scheduler::states::SchedulingStates;
use crate::stats::studied_today;

impl crate::services::SchedulerService for Collection {
    /// This behaves like _updateCutoff() in older code - it also unburies at
    /// the start of a new day.
    fn sched_timing_today(&mut self) -> Result<scheduler::SchedTimingTodayResponse> {
        let timing = self.timing_today()?;
        self.unbury_if_day_rolled_over(timing)?;
        Ok(timing.into())
    }

    /// Fetch data from DB and return rendered string.
    fn studied_today(&mut self) -> Result<generic::String> {
        self.studied_today().map(Into::into)
    }

    /// Message rendering only, for old graphs.
    fn studied_today_message(
        &mut self,
        input: scheduler::StudiedTodayMessageRequest,
    ) -> Result<generic::String> {
        Ok(studied_today(input.cards, input.seconds as f32, &self.tr).into())
    }

    fn update_stats(&mut self, input: scheduler::UpdateStatsRequest) -> Result<()> {
        self.transact_no_undo(|col| {
            let today = col.current_due_day(0)?;
            let usn = col.usn()?;
            col.update_deck_stats(today, usn, input).map(Into::into)
        })
    }

    fn extend_limits(&mut self, input: scheduler::ExtendLimitsRequest) -> Result<()> {
        self.transact_no_undo(|col| {
            let today = col.current_due_day(0)?;
            let usn = col.usn()?;
            col.extend_limits(
                today,
                usn,
                input.deck_id.into(),
                input.new_delta,
                input.review_delta,
            )
            .map(Into::into)
        })
    }

    fn counts_for_deck_today(
        &mut self,
        input: anki_proto::decks::DeckId,
    ) -> Result<scheduler::CountsForDeckTodayResponse> {
        self.counts_for_deck_today(input.did.into())
    }

    fn congrats_info(&mut self) -> Result<scheduler::CongratsInfoResponse> {
        self.congrats_info()
    }

    fn restore_buried_and_suspended_cards(
        &mut self,
        input: anki_proto::cards::CardIds,
    ) -> Result<anki_proto::collection::OpChanges> {
        let cids: Vec<_> = input.cids.into_iter().map(CardId).collect();
        self.unbury_or_unsuspend_cards(&cids).map(Into::into)
    }

    fn unbury_deck(
        &mut self,
        input: scheduler::UnburyDeckRequest,
    ) -> Result<anki_proto::collection::OpChanges> {
        self.unbury_deck(input.deck_id.into(), input.mode())
            .map(Into::into)
    }

    fn bury_or_suspend_cards(
        &mut self,
        input: scheduler::BuryOrSuspendCardsRequest,
    ) -> Result<anki_proto::collection::OpChangesWithCount> {
        let mode = input.mode();
        let cids = if input.card_ids.is_empty() {
            self.storage
                .card_ids_of_notes(&input.note_ids.into_newtype(NoteId))?
        } else {
            input.card_ids.into_newtype(CardId)
        };
        self.bury_or_suspend_cards(&cids, mode).map(Into::into)
    }

    fn empty_filtered_deck(
        &mut self,
        input: anki_proto::decks::DeckId,
    ) -> Result<anki_proto::collection::OpChanges> {
        self.empty_filtered_deck(input.did.into()).map(Into::into)
    }

    fn rebuild_filtered_deck(
        &mut self,
        input: anki_proto::decks::DeckId,
    ) -> Result<anki_proto::collection::OpChangesWithCount> {
        self.rebuild_filtered_deck(input.did.into()).map(Into::into)
    }

    fn schedule_cards_as_new(
        &mut self,
        input: scheduler::ScheduleCardsAsNewRequest,
    ) -> Result<anki_proto::collection::OpChanges> {
        let cids = input.card_ids.into_newtype(CardId);
        self.reschedule_cards_as_new(
            &cids,
            input.log,
            input.restore_position,
            input.reset_counts,
            input
                .context
                .and_then(scheduler::schedule_cards_as_new_request::Context::from_i32),
        )
        .map(Into::into)
    }

    fn schedule_cards_as_new_defaults(
        &mut self,
        input: scheduler::ScheduleCardsAsNewDefaultsRequest,
    ) -> Result<scheduler::ScheduleCardsAsNewDefaultsResponse> {
        Ok(Collection::reschedule_cards_as_new_defaults(
            self,
            input.context(),
        ))
    }

    fn set_due_date(
        &mut self,
        input: scheduler::SetDueDateRequest,
    ) -> Result<anki_proto::collection::OpChanges> {
        let config = input.config_key.map(|v| v.key().into());
        let days = input.days;
        let cids = input.card_ids.into_newtype(CardId);
        self.set_due_date(&cids, &days, config).map(Into::into)
    }

    fn sort_cards(
        &mut self,
        input: scheduler::SortCardsRequest,
    ) -> Result<anki_proto::collection::OpChangesWithCount> {
        let cids = input.card_ids.into_newtype(CardId);
        let (start, step, random, shift) = (
            input.starting_from,
            input.step_size,
            input.randomize,
            input.shift_existing,
        );
        let order = if random {
            NewCardDueOrder::Random
        } else {
            NewCardDueOrder::Preserve
        };

        self.sort_cards(&cids, start, step, order, shift)
            .map(Into::into)
    }

    fn reposition_defaults(&mut self) -> Result<scheduler::RepositionDefaultsResponse> {
        Ok(Collection::reposition_defaults(self))
    }

    fn sort_deck(
        &mut self,
        input: scheduler::SortDeckRequest,
    ) -> Result<anki_proto::collection::OpChangesWithCount> {
        self.sort_deck_legacy(input.deck_id.into(), input.randomize)
            .map(Into::into)
    }

    fn get_scheduling_states(
        &mut self,
        input: anki_proto::cards::CardId,
    ) -> Result<scheduler::SchedulingStates> {
        let cid: CardId = input.into();
        self.get_scheduling_states(cid).map(Into::into)
    }

    fn describe_next_states(
        &mut self,
        input: scheduler::SchedulingStates,
    ) -> Result<generic::StringList> {
        let states: SchedulingStates = input.into();
        self.describe_next_states(&states).map(Into::into)
    }

    fn state_is_leech(&mut self, input: scheduler::SchedulingState) -> Result<generic::Bool> {
        let state: CardState = input.into();
        Ok(state.leeched().into())
    }

    fn answer_card(
        &mut self,
        input: scheduler::CardAnswer,
    ) -> Result<anki_proto::collection::OpChanges> {
        self.answer_card(&mut input.into()).map(Into::into)
    }

    fn upgrade_scheduler(&mut self) -> Result<()> {
        self.transact_no_undo(|col| col.upgrade_to_v2_scheduler())
            .map(Into::into)
    }

    fn get_queued_cards(
        &mut self,
        input: scheduler::GetQueuedCardsRequest,
    ) -> Result<scheduler::QueuedCards> {
        self.get_queued_cards(input.fetch_limit as usize, input.intraday_learning_only)
            .map(Into::into)
    }

    fn custom_study(
        &mut self,
        input: scheduler::CustomStudyRequest,
    ) -> Result<anki_proto::collection::OpChanges> {
        self.custom_study(input).map(Into::into)
    }

    fn custom_study_defaults(
        &mut self,
        input: scheduler::CustomStudyDefaultsRequest,
    ) -> Result<scheduler::CustomStudyDefaultsResponse> {
        self.custom_study_defaults(input.deck_id.into())
    }

    fn compute_fsrs_weights(
        &mut self,
        input: scheduler::ComputeFsrsWeightsRequest,
    ) -> Result<scheduler::ComputeFsrsWeightsResponse> {
        self.compute_weights(&input.search)
    }

    fn compute_fsrs_weights_from_items(
        &mut self,
        input: scheduler::ComputeFsrsWeightsFromItemsRequest,
    ) -> Result<scheduler::ComputeFsrsWeightsResponse> {
        self.compute_weights_from_items(input)
    }

    fn compute_optimal_retention(
        &mut self,
        input: ComputeOptimalRetentionRequest,
    ) -> Result<ComputeOptimalRetentionResponse> {
        Ok(ComputeOptimalRetentionResponse {
            optimal_retention: self.compute_optimal_retention(input)?,
        })
    }

    fn evaluate_weights(
        &mut self,
        input: scheduler::EvaluateWeightsRequest,
    ) -> Result<scheduler::EvaluateWeightsResponse> {
        let ret = self.evaluate_weights(&input.weights, &input.search)?;
        Ok(scheduler::EvaluateWeightsResponse {
            log_loss: ret.log_loss,
            rmse_bins: ret.rmse_bins,
        })
    }

    fn get_optimal_retention_parameters(
        &mut self,
        input: scheduler::GetOptimalRetentionParametersRequest,
    ) -> Result<scheduler::GetOptimalRetentionParametersResponse> {
        self.get_optimal_retention_parameters(&input.search)
            .map(|params| GetOptimalRetentionParametersResponse {
                params: Some(params),
            })
    }

    fn compute_memory_state(&mut self, input: cards::CardId) -> Result<ComputeMemoryStateResponse> {
        self.compute_memory_state(input.into())
    }
}