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use crate::common::RecordTrigram; |
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use super::random_indexes_with_distance; |
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use loda_rust_core::parser::{InstructionId, ParseInstructionId}; |
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use std::collections::HashMap; |
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use rand::Rng; |
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use rand::seq::SliceRandom; |
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use rand::SeedableRng; |
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use rand::rngs::StdRng; |
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type HistogramKey = (String,String); |
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type InstructionAndWeight = (InstructionId,u32); |
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type HistogramValue = Vec<InstructionAndWeight>; |
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#[derive(Clone, Debug)] |
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pub struct SuggestInstruction { |
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histogram: HashMap<HistogramKey, HistogramValue> |
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} |
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impl SuggestInstruction { |
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pub fn new() -> Self { |
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Self { |
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histogram: HashMap::new() |
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} |
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} |
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const SHUFFLE_COUNT: usize = 0; |
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pub fn populate(&mut self, records_original: &Vec<RecordTrigram>) { |
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let mut records: Vec<RecordTrigram> = records_original.clone(); |
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let seed: u64 = 1; |
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let mut rng = StdRng::seed_from_u64(seed); |
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let indexes: Vec<usize> = random_indexes_with_distance(&mut rng, records.len(), Self::SHUFFLE_COUNT); |
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for index in indexes { |
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records[index].count = records_original[index].count; |
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} |
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for record in records { |
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let key: HistogramKey = (record.word0.clone(), record.word2.clone()); |
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let instruction_id: InstructionId = match InstructionId::parse(&record.word1, 0) { |
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Ok(instruction_id) => instruction_id, |
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Err(_) => { |
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continue; |
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} |
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}; |
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if instruction_id == InstructionId::LoopBegin || |
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instruction_id == InstructionId::LoopEnd || |
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instruction_id == InstructionId::EvalSequence { |
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continue; |
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} |
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let instruction_and_weight: InstructionAndWeight = (instruction_id, record.count); |
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let item = self.histogram.entry(key).or_insert(vec!()); |
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(*item).push(instruction_and_weight); |
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} |
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} |
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fn candidates(&self, prev_word: Option<InstructionId>, next_word: Option<InstructionId>) -> Option<&HistogramValue> { |
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let word0: String = match prev_word { |
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Some(instruction_id) => instruction_id.to_string(), |
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None => "START".to_string() |
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}; |
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let word2: String = match next_word { |
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Some(instruction_id) => instruction_id.to_string(), |
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None => "STOP".to_string() |
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}; |
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let key: HistogramKey = (word0, word2); |
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self.histogram.get(&key) |
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} |
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#[allow(dead_code)] |
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pub fn best_instruction(&self, prev_word: Option<InstructionId>, next_word: Option<InstructionId>) -> Option<InstructionId> { |
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let histogram_value: &HistogramValue = match self.candidates(prev_word, next_word) { |
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Some(value) => value, |
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None => { |
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return None; |
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} |
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}; |
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let instruction_id: InstructionId = match histogram_value.first() { |
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Some(value) => value.0, |
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None => { |
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return None; |
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} |
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}; |
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Some(instruction_id) |
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} |
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#[allow(dead_code)] |
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pub fn choose_weighted<R: Rng + ?Sized>(&self, rng: &mut R, prev_word: Option<InstructionId>, next_word: Option<InstructionId>) -> Option<InstructionId> { |
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let histogram_value: &HistogramValue = match self.candidates(prev_word, next_word) { |
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Some(value) => value, |
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None => { |
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return None; |
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} |
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}; |
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let value: InstructionId = histogram_value.choose_weighted(rng, |item| item.1).unwrap().0; |
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Some(value) |
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} |
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} |
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#[cfg(test)] |
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mod tests { |
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use super::*; |
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use rand::SeedableRng; |
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use rand::rngs::StdRng; |
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fn mockdata() -> Vec<RecordTrigram> { |
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let v = vec![ |
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RecordTrigram { |
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count: 1000, |
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word0: "mov".to_string(), |
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word1: "div".to_string(), |
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word2: "mul".to_string() |
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}, |
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RecordTrigram { |
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count: 1000, |
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word0: "START".to_string(), |
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word1: "sub".to_string(), |
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word2: "add".to_string() |
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}, |
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RecordTrigram { |
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count: 1000, |
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word0: "gcd".to_string(), |
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word1: "min".to_string(), |
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word2: "STOP".to_string() |
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}, |
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RecordTrigram { |
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count: 1000, |
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word0: "START".to_string(), |
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word1: "max".to_string(), |
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word2: "STOP".to_string() |
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}, |
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]; |
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v |
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} |
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fn exercise_choose_weighted(prev_word: Option<InstructionId>, next_word: Option<InstructionId>) -> Option<InstructionId> { |
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let mock = mockdata(); |
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let mut si = SuggestInstruction::new(); |
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si.populate(&mock); |
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let mut rng = StdRng::seed_from_u64(0); |
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let actual: Option<InstructionId> = si.choose_weighted( |
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&mut rng, prev_word, next_word |
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); |
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actual |
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} |
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#[test] |
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fn test_10000_choose_weighted_surrounded_by_other_words() { |
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let actual: Option<InstructionId> = exercise_choose_weighted( |
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Some(InstructionId::Move), Some(InstructionId::Multiply) |
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); |
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assert_eq!(actual, Some(InstructionId::Divide)); |
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} |
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#[test] |
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fn test_10001_choose_weighted_start_of_program() { |
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let actual: Option<InstructionId> = exercise_choose_weighted( |
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None, Some(InstructionId::Add) |
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); |
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assert_eq!(actual, Some(InstructionId::Subtract)); |
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} |
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#[test] |
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fn test_10002_choose_weighted_end_of_program() { |
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let actual: Option<InstructionId> = exercise_choose_weighted( |
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Some(InstructionId::GCD), None |
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); |
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assert_eq!(actual, Some(InstructionId::Min)); |
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} |
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#[test] |
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fn test_10003_choose_weighted_start_and_end_of_program() { |
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let actual: Option<InstructionId> = exercise_choose_weighted( |
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None, None |
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); |
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assert_eq!(actual, Some(InstructionId::Max)); |
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} |
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#[test] |
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fn test_10004_choose_weighted_unrecognized_input() { |
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let actual: Option<InstructionId> = exercise_choose_weighted( |
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Some(InstructionId::DivideIf), Some(InstructionId::DivideIf) |
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); |
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assert_eq!(actual, None); |
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} |
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} |
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