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use ergotree_ir::bigint256::BigInt256;
use ergotree_ir::mir::downcast::Downcast;
use ergotree_ir::mir::value::Value;
use ergotree_ir::types::stype::SType;
use crate::eval::env::Env;
use crate::eval::EvalContext;
use crate::eval::EvalError;
use crate::eval::Evaluable;
use std::convert::TryFrom;
fn downcast_to_bigint(in_v: Value) -> Result<Value, EvalError> {
match in_v {
Value::Byte(v) => Ok(BigInt256::from(v).into()),
Value::Short(v) => Ok(BigInt256::from(v).into()),
Value::Int(v) => Ok(BigInt256::from(v).into()),
Value::Long(v) => Ok(BigInt256::from(v).into()),
_ => Err(EvalError::UnexpectedValue(format!(
"Downcast: cannot downcast {0:?} to BigInt",
in_v
))),
}
}
fn downcast_to_long(in_v: Value) -> Result<Value, EvalError> {
match in_v {
Value::Byte(v) => Ok((v as i64).into()),
Value::Short(v) => Ok((v as i64).into()),
Value::Int(v) => Ok((v as i64).into()),
Value::Long(_) => Ok(in_v),
_ => Err(EvalError::UnexpectedValue(format!(
"Downcast: cannot downcast {0:?} to Long",
in_v
))),
}
}
fn downcast_to_int(in_v: Value) -> Result<Value, EvalError> {
match in_v {
Value::Byte(x) => Ok((x as i32).into()),
Value::Short(s) => Ok((s as i32).into()),
Value::Int(_) => Ok(in_v),
Value::Long(l) => match i32::try_from(l).ok() {
Some(v) => Ok(v.into()),
_ => Err(EvalError::UnexpectedValue(
"Downcast: Int overflow".to_string(),
)),
},
_ => Err(EvalError::UnexpectedValue(format!(
"Downcast: cannot downcast {0:?} to Int",
in_v
))),
}
}
fn downcast_to_short(in_v: Value) -> Result<Value, EvalError> {
match in_v {
Value::Short(_) => Ok(in_v),
Value::Int(i) => match i16::try_from(i).ok() {
Some(v) => Ok(v.into()),
_ => Err(EvalError::UnexpectedValue(
"Downcast: Short overflow".to_string(),
)),
},
Value::Long(l) => match i16::try_from(l).ok() {
Some(v) => Ok(v.into()),
_ => Err(EvalError::UnexpectedValue(
"Downcast: Short overflow".to_string(),
)),
},
_ => Err(EvalError::UnexpectedValue(format!(
"Downcast: cannot downcast {0:?} to Short",
in_v
))),
}
}
fn downcast_to_byte(in_v: Value) -> Result<Value, EvalError> {
match in_v {
Value::Byte(_) => Ok(in_v),
Value::Short(s) => match i8::try_from(s).ok() {
Some(v) => Ok(v.into()),
_ => Err(EvalError::UnexpectedValue(
"Downcast: Byte overflow".to_string(),
)),
},
Value::Int(i) => match i8::try_from(i).ok() {
Some(v) => Ok(v.into()),
_ => Err(EvalError::UnexpectedValue(
"Downcast: Byte overflow".to_string(),
)),
},
Value::Long(l) => match i8::try_from(l).ok() {
Some(v) => Ok(v.into()),
_ => Err(EvalError::UnexpectedValue(
"Downcast: Byte overflow".to_string(),
)),
},
_ => Err(EvalError::UnexpectedValue(format!(
"Downcast: cannot downcast {0:?} to Byte",
in_v
))),
}
}
impl Evaluable for Downcast {
fn eval(&self, env: &Env, ctx: &mut EvalContext) -> Result<Value, EvalError> {
let input_v = self.input.eval(env, ctx)?;
match self.tpe {
SType::SBigInt => downcast_to_bigint(input_v),
SType::SLong => downcast_to_long(input_v),
SType::SInt => downcast_to_int(input_v),
SType::SShort => downcast_to_short(input_v),
SType::SByte => downcast_to_byte(input_v),
_ => Err(EvalError::UnexpectedValue(format!(
"Downcast: expected numeric value, got {0:?}",
input_v
))),
}
}
}
#[allow(clippy::panic)]
#[allow(clippy::unwrap_used)]
#[cfg(test)]
mod tests {
use ergotree_ir::mir::constant::Constant;
use crate::eval::tests::{eval_out_wo_ctx, try_eval_out_wo_ctx};
use super::*;
use proptest::prelude::*;
proptest! {
#![proptest_config(ProptestConfig::with_cases(64))]
#[test]
fn to_bigint(v_byte in any::<i8>(), v_short in any::<i16>(), v_int in any::<i32>(), v_long in any::<i64>()) {
assert_eq!(
eval_out_wo_ctx::<BigInt256>(
&Downcast::new(v_byte.into(), SType::SBigInt).unwrap().into()
),
(v_byte as i64).into()
);
assert_eq!(
eval_out_wo_ctx::<BigInt256>(
&Downcast::new(v_short.into(), SType::SBigInt)
.unwrap()
.into()
),
(v_short as i64).into()
);
assert_eq!(
eval_out_wo_ctx::<BigInt256>(
&Downcast::new(v_int.into(), SType::SBigInt).unwrap().into()
),
(v_int as i64).into()
);
assert_eq!(
eval_out_wo_ctx::<BigInt256>(
&Downcast::new(v_long.into(), SType::SBigInt).unwrap().into()
),
(v_long as i64).into()
);
}
#[test]
fn to_long(v_byte in any::<i8>(), v_short in any::<i16>(), v_int in any::<i32>(), v_long in any::<i64>()) {
let c_byte: Constant = v_byte.into();
let c_short: Constant = v_short.into();
let c_int: Constant = v_int.into();
let c_long: Constant = v_long.into();
assert_eq!(
eval_out_wo_ctx::<i64>(&Downcast::new(c_byte.into(), SType::SLong).unwrap().into()),
v_byte as i64
);
assert_eq!(
eval_out_wo_ctx::<i64>(&Downcast::new(c_short.into(), SType::SLong).unwrap().into()),
v_short as i64
);
assert_eq!(
eval_out_wo_ctx::<i64>(&Downcast::new(c_int.into(), SType::SLong).unwrap().into()),
v_int as i64
);
assert_eq!(
eval_out_wo_ctx::<i64>(&Downcast::new(c_long.into(), SType::SLong).unwrap().into()),
v_long as i64
);
}
#[test]
fn to_int(v_byte in any::<i8>(), v_short in any::<i16>(), v_int in any::<i32>()) {
let v_long = v_int as i64;
let v_long_oob = if v_long.is_positive() {
v_long + i32::MAX as i64 + 1
} else {
v_long + i32::MIN as i64 - 1
};
let c_byte: Constant = v_byte.into();
let c_short: Constant = v_short.into();
let c_int: Constant = v_int.into();
let c_long: Constant = v_long.into();
let c_long_oob: Constant = v_long_oob.into();
assert_eq!(
eval_out_wo_ctx::<i32>(&Downcast::new(c_byte.into(), SType::SInt).unwrap().into()),
v_byte as i32
);
assert_eq!(
eval_out_wo_ctx::<i32>(&Downcast::new(c_short.into(), SType::SInt).unwrap().into()),
v_short as i32
);
assert_eq!(
eval_out_wo_ctx::<i32>(&Downcast::new(c_int.into(), SType::SInt).unwrap().into()),
v_int as i32
);
assert_eq!(
eval_out_wo_ctx::<i32>(&Downcast::new(c_long.into(), SType::SInt).unwrap().into()),
v_long as i32
);
assert!(try_eval_out_wo_ctx::<i32>(
&Downcast::new(c_long_oob.into(), SType::SInt)
.unwrap()
.into()
)
.is_err())
}
#[test]
fn to_short(v_short in any::<i16>()) {
let v_int = v_short as i32;
let v_int_oob = if v_int.is_positive() {
v_int + i16::MAX as i32 + 1
} else {
v_int + i16::MIN as i32 - 1
};
let v_long = v_short as i64;
let v_long_oob = if v_long.is_positive() {
v_long + i16::MAX as i64
} else {
v_long + i16::MIN as i64 - 1
};
let c_short: Constant = v_short.into();
let c_int: Constant = v_int.into();
let c_int_oob: Constant = v_int_oob.into();
let c_long: Constant = v_long.into();
let c_long_oob: Constant = v_long_oob.into();
assert_eq!(
eval_out_wo_ctx::<i16>(&Downcast::new(c_short.into(), SType::SShort).unwrap().into()),
v_short as i16
);
assert_eq!(
eval_out_wo_ctx::<i16>(&Downcast::new(c_int.into(), SType::SShort).unwrap().into()),
v_int as i16
);
assert!(try_eval_out_wo_ctx::<i16>(
&Downcast::new(c_int_oob.into(), SType::SShort)
.unwrap()
.into()
)
.is_err());
assert_eq!(
eval_out_wo_ctx::<i16>(&Downcast::new(c_long.into(), SType::SShort).unwrap().into()),
v_long as i16
);
assert!(try_eval_out_wo_ctx::<i16>(
&Downcast::new(c_long_oob.into(), SType::SShort)
.unwrap()
.into()
)
.is_err());
}
#[test]
fn to_byte(v_byte in any::<i8>()) {
let v_short = v_byte as i16;
let v_short_oob = if v_short.is_positive() {
v_short + i8::MAX as i16 + 1
} else {
v_short + i8::MIN as i16 - 1
};
let v_int = v_byte as i32;
let v_int_oob = if v_int.is_positive() {
v_int + i8::MAX as i32
} else {
v_int + i8::MIN as i32 - 1
};
let v_long = v_byte as i64;
let v_long_oob = if v_long.is_positive() {
v_long + i8::MAX as i64
} else {
v_long + i8::MIN as i64 - 1
};
let c_byte: Constant = v_byte.into();
let c_short: Constant = v_short.into();
let c_short_oob: Constant = v_short_oob.into();
let c_int: Constant = v_int.into();
let c_int_oob: Constant = v_int_oob.into();
let c_long: Constant = v_long.into();
let c_long_oob: Constant = v_long_oob.into();
assert_eq!(
eval_out_wo_ctx::<i8>(&Downcast::new(c_byte.into(), SType::SByte).unwrap().into()),
v_byte
);
assert_eq!(
eval_out_wo_ctx::<i8>(&Downcast::new(c_short.into(), SType::SByte).unwrap().into()),
v_short as i8
);
assert!(try_eval_out_wo_ctx::<i8>(
&Downcast::new(c_short_oob.into(), SType::SByte)
.unwrap()
.into()
)
.is_err());
assert_eq!(
eval_out_wo_ctx::<i8>(&Downcast::new(c_int.into(), SType::SByte).unwrap().into()),
v_int as i8
);
assert!(try_eval_out_wo_ctx::<i8>(
&Downcast::new(c_int_oob.into(), SType::SByte)
.unwrap()
.into()
)
.is_err());
assert_eq!(
eval_out_wo_ctx::<i8>(&Downcast::new(c_long.into(), SType::SByte).unwrap().into()),
v_long as i8
);
assert!(try_eval_out_wo_ctx::<i8>(
&Downcast::new(c_long_oob.into(), SType::SByte)
.unwrap()
.into()
)
.is_err());
}
#[test]
fn test_overflow(v_short_oob in (i8::MAX as i16 + 1..i16::MAX).prop_union(i16::MIN..i8::MIN as i16),
v_int_oob in (i16::MAX as i32 + 1..i32::MAX).prop_union(i32::MIN..i16::MIN as i32),
v_long_oob in (i32::MAX as i64 + 1..i64::MAX).prop_union(i64::MIN..i32::MIN as i64)) {
let c_short_oob: Constant = v_short_oob.into();
let c_int_oob: Constant = v_int_oob.into();
let c_long_oob: Constant = v_long_oob.into();
assert!(try_eval_out_wo_ctx::<i8>(
&Downcast::new(c_short_oob.into(), SType::SByte)
.unwrap()
.into()
)
.is_err());
assert!(try_eval_out_wo_ctx::<i8>(
&Downcast::new(c_int_oob.clone().into(), SType::SByte)
.unwrap()
.into()
)
.is_err());
assert!(try_eval_out_wo_ctx::<i8>(
&Downcast::new(c_long_oob.clone().into(), SType::SByte)
.unwrap()
.into()
)
.is_err());
assert!(try_eval_out_wo_ctx::<i16>(
&Downcast::new(c_int_oob.into(), SType::SByte)
.unwrap()
.into()
)
.is_err());
assert!(try_eval_out_wo_ctx::<i16>(
&Downcast::new(c_long_oob.clone().into(), SType::SByte)
.unwrap()
.into()
)
.is_err());
assert!(try_eval_out_wo_ctx::<i32>(
&Downcast::new(c_long_oob.into(), SType::SByte)
.unwrap()
.into()
)
.is_err());
}
}
}