// Copyright (c) 2015-2021 Georg Brandl. Licensed under the Apache License, // Version 2.0 // or the MIT license , at // your option. This file may not be copied, modified, or distributed except // according to those terms. //! QuickCheck Arbitrary instance for Value, and associated helpers. use crate::{HashableValue, Value}; use num_bigint::BigInt; use quickcheck::{empty_shrinker, Arbitrary, Gen}; use std::i64; const MAX_DEPTH: u32 = 1; fn gen_value(g: &mut Gen, depth: u32) -> Value { let upper = if depth > 0 { 12 } else { 7 }; let v = u32::arbitrary(g) % upper; match v { // leaves 0 => Value::None, 1 => Value::Bool(Arbitrary::arbitrary(g)), 2 => Value::I64(Arbitrary::arbitrary(g)), 3 => Value::Int(gen_bigint(g)), 4 => Value::F64(Arbitrary::arbitrary(g)), 5 => Value::Bytes(Arbitrary::arbitrary(g)), 6 => Value::String(Arbitrary::arbitrary(g)), // recursive variants 7 => Value::List(gen_vec(g, depth - 1)), 8 => Value::Tuple(gen_vec(g, depth - 1)), 9 => Value::Set(gen_hvec(g, depth - 1).into_iter().collect()), 10 => Value::FrozenSet(gen_hvec(g, depth - 1).into_iter().collect()), 11 => { let kvec = gen_hvec(g, depth - 1); let vvec = gen_vec(g, depth - 1); Value::Dict(kvec.into_iter().zip(vvec).collect()) } _ => unreachable!(), } } fn gen_bigint(g: &mut Gen) -> BigInt { // We have to construct a value outside of i64 range, since other values // are unpickled as i64s instead of big ints. let offset = BigInt::from(2) * BigInt::from(if bool::arbitrary(g) { i64::MIN } else { i64::MAX }); offset + BigInt::from(i64::arbitrary(g)) } fn gen_vec(g: &mut Gen, depth: u32) -> Vec { let size = usize::arbitrary(g) % g.size(); (0..size).map(|_| gen_value(g, depth)).collect() } fn gen_hvalue(g: &mut Gen, depth: u32) -> HashableValue { let upper = if depth > 0 { 9 } else { 7 }; let v = u32::arbitrary(g) % upper; match v { // leaves 0 => HashableValue::None, 1 => HashableValue::Bool(Arbitrary::arbitrary(g)), 2 => HashableValue::I64(Arbitrary::arbitrary(g)), 3 => { // We have to construct a value outside of i64 range. let val: i64 = Arbitrary::arbitrary(g); let max = BigInt::from(i64::MAX); HashableValue::Int(BigInt::from(val) + BigInt::from(2) * max) } 4 => HashableValue::F64(Arbitrary::arbitrary(g)), 5 => HashableValue::Bytes(Arbitrary::arbitrary(g)), 6 => HashableValue::String(Arbitrary::arbitrary(g)), // recursive variants 7 => HashableValue::Tuple(gen_hvec(g, depth - 1)), 8 => HashableValue::FrozenSet(gen_hvec(g, depth - 1).into_iter().collect()), _ => unreachable!(), } } fn gen_hvec(g: &mut Gen, depth: u32) -> Vec { let size = usize::arbitrary(g) % g.size(); (0..size).map(|_| gen_hvalue(g, depth)).collect() } impl Arbitrary for Value { fn arbitrary(g: &mut Gen) -> Value { gen_value(g, MAX_DEPTH) } fn shrink(&self) -> Box> { match *self { Value::None => empty_shrinker(), Value::Bool(v) => Box::new(Arbitrary::shrink(&v).map(Value::Bool)), Value::I64(v) => Box::new(Arbitrary::shrink(&v).map(Value::I64)), Value::Int(_) => empty_shrinker(), Value::F64(v) => Box::new(Arbitrary::shrink(&v).map(Value::F64)), Value::Bytes(ref v) => Box::new(Arbitrary::shrink(v).map(Value::Bytes)), Value::String(ref v) => Box::new(Arbitrary::shrink(v).map(Value::String)), Value::List(ref v) => Box::new(Arbitrary::shrink(v).map(Value::List)), Value::Tuple(ref v) => Box::new(Arbitrary::shrink(v).map(Value::List)), Value::Set(ref v) => Box::new(Arbitrary::shrink(v).map(Value::Set)), Value::FrozenSet(ref v) => Box::new(Arbitrary::shrink(v).map(Value::FrozenSet)), Value::Dict(ref v) => Box::new(Arbitrary::shrink(v).map(Value::Dict)), Value::Global(_) => todo!("shrink global"), Value::PersId(_) => todo!("shrink persid"), Value::BinPersId(_) => todo!("shrink binpersid"), } } } impl Arbitrary for HashableValue { fn arbitrary(g: &mut Gen) -> HashableValue { gen_hvalue(g, MAX_DEPTH) } fn shrink(&self) -> Box> { match *self { HashableValue::None => empty_shrinker(), HashableValue::Bool(v) => Box::new(Arbitrary::shrink(&v).map(HashableValue::Bool)), HashableValue::I64(v) => Box::new(Arbitrary::shrink(&v).map(HashableValue::I64)), HashableValue::Int(_) => empty_shrinker(), HashableValue::F64(v) => Box::new(Arbitrary::shrink(&v).map(HashableValue::F64)), HashableValue::Bytes(ref v) => Box::new(Arbitrary::shrink(v).map(HashableValue::Bytes)), HashableValue::String(ref v) => { Box::new(Arbitrary::shrink(v).map(HashableValue::String)) } HashableValue::Tuple(ref v) => Box::new(Arbitrary::shrink(v).map(HashableValue::Tuple)), HashableValue::FrozenSet(ref v) => { Box::new(Arbitrary::shrink(v).map(HashableValue::FrozenSet)) } } } }