use crate::math::utils::ensure_bounded;
use nu_engine::command_prelude::*;
use nu_protocol::Signals;
#[derive(Clone)]
pub struct MathLog;
impl Command for MathLog {
fn name(&self) -> &str {
"math log"
}
fn signature(&self) -> Signature {
Signature::build("math log")
.required(
"base",
SyntaxShape::Number,
"Base for which the logarithm should be computed.",
)
.input_output_types(vec![
(Type::Number, Type::Float),
(
Type::List(Box::new(Type::Number)),
Type::List(Box::new(Type::Float)),
),
(Type::Range, Type::List(Box::new(Type::Number))),
])
.allow_variants_without_examples(true)
.category(Category::Math)
}
fn description(&self) -> &str {
"Returns the logarithm for an arbitrary base."
}
fn search_terms(&self) -> Vec<&str> {
vec!["base", "exponent", "inverse", "euler"]
}
fn is_const(&self) -> bool {
true
}
fn run(
&self,
engine_state: &EngineState,
stack: &mut Stack,
call: &Call,
input: PipelineData,
) -> Result<PipelineData, ShellError> {
let head = call.head;
let base: Spanned<f64> = call.req(engine_state, stack, 0)?;
if let PipelineData::Value(
Value::Range {
ref val,
internal_span,
},
..,
) = input
{
ensure_bounded(val.as_ref(), internal_span, head)?;
}
log(base, call.head, input, engine_state.signals())
}
fn run_const(
&self,
working_set: &StateWorkingSet,
call: &Call,
input: PipelineData,
) -> Result<PipelineData, ShellError> {
let head = call.head;
let base: Spanned<f64> = call.req_const(working_set, 0)?;
if let PipelineData::Value(
Value::Range {
ref val,
internal_span,
},
..,
) = input
{
ensure_bounded(val.as_ref(), internal_span, head)?;
}
log(base, call.head, input, working_set.permanent().signals())
}
fn examples(&self) -> Vec<Example> {
vec![
Example {
description: "Get the logarithm of 100 to the base 10",
example: "100 | math log 10",
result: Some(Value::test_float(2.0f64)),
},
Example {
example: "[16 8 4] | math log 2",
description: "Get the log2 of a list of values",
result: Some(Value::list(
vec![
Value::test_float(4.0),
Value::test_float(3.0),
Value::test_float(2.0),
],
Span::test_data(),
)),
},
]
}
}
fn log(
base: Spanned<f64>,
head: Span,
input: PipelineData,
signals: &Signals,
) -> Result<PipelineData, ShellError> {
if base.item <= 0.0f64 {
return Err(ShellError::UnsupportedInput {
msg: "Base has to be greater 0".into(),
input: "value originates from here".into(),
msg_span: head,
input_span: base.span,
});
}
// This doesn't match explicit nulls
if matches!(input, PipelineData::Empty) {
return Err(ShellError::PipelineEmpty { dst_span: head });
}
let base = base.item;
input.map(move |value| operate(value, head, base), signals)
}
fn operate(value: Value, head: Span, base: f64) -> Value {
let span = value.span();
match value {
numeric @ (Value::Int { .. } | Value::Float { .. }) => {
let (val, span) = match numeric {
Value::Int { val, .. } => (val as f64, span),
Value::Float { val, .. } => (val, span),
_ => unreachable!(),
};
if val <= 0.0 {
return Value::error(
ShellError::UnsupportedInput {
msg: "'math log' undefined for values outside the open interval (0, Inf)."
.into(),
input: "value originates from here".into(),
msg_span: head,
input_span: span,
},
span,
);
}
// Specialize for better precision/performance
let val = if base == 10.0 {
val.log10()
} else if base == 2.0 {
val.log2()
} else {
val.log(base)
};
Value::float(val, span)
}
Value::Error { .. } => value,
other => Value::error(
ShellError::OnlySupportsThisInputType {
exp_input_type: "numeric".into(),
wrong_type: other.get_type().to_string(),
dst_span: head,
src_span: other.span(),
},
head,
),
}
}
#[cfg(test)]
mod test {
use super::*;
#[test]
fn test_examples() {
use crate::test_examples;
test_examples(MathLog {})
}
}