pub mod column_path; mod convert; mod debug; pub mod dict; pub mod did_you_mean; pub mod evaluate; pub mod iter; pub mod primitive; pub mod range; mod serde_bigdecimal; mod serde_bigint; use crate::hir; use crate::type_name::{ShellTypeName, SpannedTypeName}; use crate::value::dict::Dictionary; use crate::value::iter::{RowValueIter, TableValueIter}; use crate::value::primitive::Primitive; use crate::value::range::{Range, RangeInclusion}; use crate::ColumnPath; use bigdecimal::BigDecimal; use bigdecimal::FromPrimitive; use chrono::{DateTime, Utc}; use indexmap::IndexMap; use nu_errors::ShellError; use nu_source::{AnchorLocation, HasSpan, Span, Spanned, SpannedItem, Tag}; use num_bigint::BigInt; use num_traits::ToPrimitive; use serde::{Deserialize, Serialize}; use std::hash::{Hash, Hasher}; use std::path::PathBuf; use std::time::SystemTime; /// The core structured values that flow through a pipeline #[derive(Debug, Clone, PartialEq, PartialOrd, Eq, Ord, Hash, Serialize, Deserialize)] pub enum UntaggedValue { /// A primitive (or fundamental) type of values Primitive(Primitive), /// A table row Row(Dictionary), /// A full inner (or embedded) table Table(Vec), /// An error value that represents an error that occurred as the values in the pipeline were built Error(ShellError), /// A block of Nu code, eg `{ ls | get name ; echo "done" }` Block(hir::Block), } impl UntaggedValue { /// Get the corresponding descriptors (column names) associated with this value pub fn data_descriptors(&self) -> Vec { match self { UntaggedValue::Row(columns) => columns.entries.keys().map(|x| x.to_string()).collect(), _ => vec![], } } /// Convert this UntaggedValue to a Value with the given Tag pub fn into_value(self, tag: impl Into) -> Value { Value { value: self, tag: tag.into(), } } /// Convert this UntaggedValue into a Value with an empty Tag pub fn into_untagged_value(self) -> Value { Value { value: self, tag: Tag::unknown(), } } /// Returns true if this value represents boolean true pub fn is_true(&self) -> bool { matches!(self, UntaggedValue::Primitive(Primitive::Boolean(true))) } /// Returns true if this value represents a filesize pub fn is_filesize(&self) -> bool { matches!(self, UntaggedValue::Primitive(Primitive::Filesize(_))) } /// Returns true if this value represents a duration pub fn is_duration(&self) -> bool { matches!(self, UntaggedValue::Primitive(Primitive::Duration(_))) } /// Returns true if this value represents a table pub fn is_table(&self) -> bool { matches!(self, UntaggedValue::Table(_)) } /// Returns true if this value represents a row pub fn is_row(&self) -> bool { matches!(self, UntaggedValue::Row(_)) } /// Returns true if this value represents a string pub fn is_string(&self) -> bool { matches!(self, UntaggedValue::Primitive(Primitive::String(_))) } /// Returns true if the value represents something other than Nothing pub fn is_some(&self) -> bool { !self.is_none() } /// Returns true if the value represents Nothing pub fn is_none(&self) -> bool { matches!(self, UntaggedValue::Primitive(Primitive::Nothing)) } /// Returns true if the value represents an error pub fn is_error(&self) -> bool { matches!(self, UntaggedValue::Error(_err)) } /// Expect this value to be an error and return it pub fn expect_error(&self) -> ShellError { match self { UntaggedValue::Error(err) => err.clone(), _ => panic!("Don't call expect_error without first calling is_error"), } } /// Expect this value to be a string and return it pub fn expect_string(&self) -> &str { match self { UntaggedValue::Primitive(Primitive::String(string)) => &string[..], _ => panic!("expect_string assumes that the value must be a string"), } } /// Expect this value to be an integer and return it pub fn expect_int(&self) -> i64 { let big_int = match self { UntaggedValue::Primitive(Primitive::Int(int)) => Some(int), _ => None, }; match big_int.and_then(|i| i.to_i64()) { Some(i) => i, _ => panic!("expect_int assumes that the value must be a integer"), } } /// Helper for creating row values pub fn row(entries: IndexMap) -> UntaggedValue { UntaggedValue::Row(entries.into()) } /// Helper for creating table values pub fn table(list: &[Value]) -> UntaggedValue { UntaggedValue::Table(list.to_vec()) } /// Helper for creating string values pub fn string(s: impl Into) -> UntaggedValue { UntaggedValue::Primitive(Primitive::String(s.into())) } /// Helper for creating line values pub fn line(s: impl Into) -> UntaggedValue { UntaggedValue::Primitive(Primitive::Line(s.into())) } /// Helper for creating column-path values pub fn column_path(s: &str, span: Span) -> UntaggedValue { let s = s.to_string().spanned(span); UntaggedValue::Primitive(Primitive::ColumnPath(ColumnPath::build(&s))) } /// Helper for creating integer values pub fn int(i: impl Into) -> UntaggedValue { UntaggedValue::Primitive(Primitive::Int(i.into())) } /// Helper for creating glob pattern values pub fn pattern(s: impl Into) -> UntaggedValue { UntaggedValue::Primitive(Primitive::String(s.into())) } /// Helper for creating filepath values pub fn path(s: impl Into) -> UntaggedValue { UntaggedValue::Primitive(Primitive::Path(s.into())) } /// Helper for creating filesize values pub fn filesize(s: impl Into) -> UntaggedValue { UntaggedValue::Primitive(Primitive::Filesize(s.into())) } /// Helper for creating decimal values pub fn decimal(s: impl Into) -> UntaggedValue { UntaggedValue::Primitive(Primitive::Decimal(s.into())) } /// Helper for creating decimal values pub fn decimal_from_float(f: f64, span: Span) -> UntaggedValue { let dec = BigDecimal::from_f64(f); // BigDecimal doesn't have the concept of inf/NaN so handle manually if f.is_sign_negative() && f.is_infinite() { UntaggedValue::from("-inf") } else if f.is_infinite() { UntaggedValue::from("inf") } else if f.is_nan() { UntaggedValue::from("NaN") } else { match dec { Some(dec) => UntaggedValue::Primitive(Primitive::Decimal(dec)), None => UntaggedValue::Error(ShellError::labeled_error( "Can not convert f64 to big decimal", "can not create decimal", span, )), } } } /// Helper for creating binary (non-text) buffer values pub fn binary(binary: Vec) -> UntaggedValue { UntaggedValue::Primitive(Primitive::Binary(binary)) } /// Helper for creating range values pub fn range( left: (Spanned, RangeInclusion), right: (Spanned, RangeInclusion), ) -> UntaggedValue { UntaggedValue::Primitive(Primitive::Range(Box::new(Range::new(left, right)))) } /// Helper for creating boolean values pub fn boolean(b: impl Into) -> UntaggedValue { UntaggedValue::Primitive(Primitive::Boolean(b.into())) } /// Helper for creating date duration values pub fn duration(nanos: BigInt) -> UntaggedValue { UntaggedValue::Primitive(Primitive::Duration(nanos)) } /// Helper for creating datatime values pub fn system_date(s: SystemTime) -> UntaggedValue { UntaggedValue::Primitive(Primitive::Date(s.into())) } pub fn date(d: impl Into>) -> UntaggedValue { UntaggedValue::Primitive(Primitive::Date(d.into())) } /// Helper for creating the Nothing value pub fn nothing() -> UntaggedValue { UntaggedValue::Primitive(Primitive::Nothing) } } /// The fundamental structured value that flows through the pipeline, with associated metadata #[derive(Debug, Clone, PartialOrd, Ord, Eq, Serialize, Deserialize)] pub struct Value { pub value: UntaggedValue, pub tag: Tag, } impl PartialEq for Value { fn eq(&self, other: &Self) -> bool { self.value == other.value } } impl Hash for Value { fn hash(&self, state: &mut H) { self.value.hash(state); } } /// Overload deferencing to give back the UntaggedValue inside of a Value impl std::ops::Deref for Value { type Target = UntaggedValue; fn deref(&self) -> &Self::Target { &self.value } } impl Value { /// Helper to create a Value pub fn new(untagged_value: UntaggedValue, the_tag: Tag) -> Self { Value { value: untagged_value, tag: the_tag, } } /// Get the corresponding anchor (originating location) for the Value pub fn anchor(&self) -> Option { self.tag.anchor() } /// Get the name (url, filepath, etc) behind an anchor for the Value pub fn anchor_name(&self) -> Option { self.tag.anchor_name() } /// Get the metadata for the Value pub fn tag(&self) -> Tag { self.tag.clone() } /// View the Value as a string, if possible pub fn as_string(&self) -> Result { match &self.value { UntaggedValue::Primitive(Primitive::String(string)) => Ok(string.clone()), UntaggedValue::Primitive(Primitive::Line(line)) => Ok(line.clone() + "\n"), UntaggedValue::Primitive(Primitive::Path(path)) => { Ok(path.to_string_lossy().to_string()) } _ => Err(ShellError::type_error("string", self.spanned_type_name())), } } pub fn convert_to_string(&self) -> String { match &self.value { UntaggedValue::Primitive(Primitive::String(s)) => s.clone(), UntaggedValue::Primitive(Primitive::Date(dt)) => dt.format("%Y-%m-%d").to_string(), UntaggedValue::Primitive(Primitive::Boolean(x)) => format!("{}", x), UntaggedValue::Primitive(Primitive::Decimal(x)) => format!("{}", x), UntaggedValue::Primitive(Primitive::Int(x)) => format!("{}", x), UntaggedValue::Primitive(Primitive::Filesize(x)) => format!("{}", x), UntaggedValue::Primitive(Primitive::Path(x)) => format!("{}", x.display()), UntaggedValue::Primitive(Primitive::ColumnPath(path)) => { let joined: String = path .iter() .map(|member| member.as_string()) .collect::>() .join("."); if joined.contains(' ') { format!("\"{}\"", joined) } else { joined } } _ => String::from(""), } } pub fn format(&self, fmt: &str) -> Result { match &self.value { UntaggedValue::Primitive(Primitive::Date(dt)) => Ok(dt.format(fmt).to_string()), _ => Err(ShellError::type_error("date", self.spanned_type_name())), } } /// View into the borrowed string contents of a Value, if possible pub fn as_forgiving_string(&self) -> Result<&str, ShellError> { match &self.value { UntaggedValue::Primitive(Primitive::String(string)) => Ok(&string[..]), _ => Err(ShellError::type_error("string", self.spanned_type_name())), } } /// View the Value as a path, if possible pub fn as_path(&self) -> Result { match &self.value { UntaggedValue::Primitive(Primitive::Path(path)) => Ok(path.clone()), UntaggedValue::Primitive(Primitive::String(path_str)) => Ok(PathBuf::from(&path_str)), _ => Err(ShellError::type_error("Path", self.spanned_type_name())), } } /// View the Value as a Primitive value, if possible pub fn as_primitive(&self) -> Result { match &self.value { UntaggedValue::Primitive(primitive) => Ok(primitive.clone()), _ => Err(ShellError::type_error( "Primitive", self.spanned_type_name(), )), } } /// View the Value as a Primitive value, if possible pub fn is_primitive(&self) -> bool { matches!(&self.value, UntaggedValue::Primitive(_)) } /// View the Value as unsigned 64-bit, if possible pub fn as_u64(&self) -> Result { match &self.value { UntaggedValue::Primitive(primitive) => primitive.as_u64(self.tag.span), _ => Err(ShellError::type_error("integer", self.spanned_type_name())), } } /// View the Value as boolean, if possible pub fn as_bool(&self) -> Result { match &self.value { UntaggedValue::Primitive(Primitive::Boolean(p)) => Ok(*p), _ => Err(ShellError::type_error("boolean", self.spanned_type_name())), } } /// Returns an iterator of the values rows pub fn table_entries(&self) -> TableValueIter<'_> { crate::value::iter::table_entries(&self) } /// Returns an iterator of the value's cells pub fn row_entries(&self) -> RowValueIter<'_> { crate::value::iter::row_entries(&self) } /// Returns true if the value is empty pub fn is_empty(&self) -> bool { match &self { Value { value: UntaggedValue::Primitive(p), .. } => p.is_empty(), Value { value: UntaggedValue::Table(rows), .. } => rows.is_empty(), r @ Value { value: UntaggedValue::Row(_), .. } => r.row_entries().all(|(_, value)| value.is_empty()), _ => false, } } pub fn nothing() -> Value { UntaggedValue::nothing().into_untagged_value() } } impl From for Value { fn from(s: String) -> Value { let end = s.len(); Value { value: s.into(), tag: Tag { anchor: None, span: Span::new(0, end), }, } } } impl From<&str> for Value { fn from(s: &str) -> Value { let end = s.len(); Value { value: s.into(), tag: Tag { anchor: None, span: Span::new(0, end), }, } } } impl From for Value { fn from(s: bool) -> Value { Value { value: s.into(), tag: Tag { anchor: None, span: Span::unknown(), }, } } } impl From for UntaggedValue where T: Into, { /// Convert a Primitive to an UntaggedValue fn from(input: T) -> UntaggedValue { UntaggedValue::Primitive(input.into()) } } impl From for UntaggedValue { fn from(e: ShellError) -> Self { UntaggedValue::Error(e) } } impl From for Value { /// Convert an UntaggedValue into a Value with a default tag fn from(value: UntaggedValue) -> Value { Value { value, tag: Tag::default(), } } } impl From for UntaggedValue { /// Convert a Value into an UntaggedValue fn from(v: Value) -> UntaggedValue { v.value } } /// Convert a borrowed Value into a borrowed UntaggedValue impl<'a> Into<&'a UntaggedValue> for &'a Value { fn into(self) -> &'a UntaggedValue { &self.value } } impl HasSpan for Value { /// Return the corresponding Span for the Value fn span(&self) -> Span { self.tag.span } } impl ShellTypeName for Value { /// Get the type name for the Value fn type_name(&self) -> &'static str { ShellTypeName::type_name(&self.value) } } impl ShellTypeName for UntaggedValue { /// Get the type name for the UntaggedValue fn type_name(&self) -> &'static str { match &self { UntaggedValue::Primitive(p) => p.type_name(), UntaggedValue::Row(_) => "row", UntaggedValue::Table(_) => "table", UntaggedValue::Error(_) => "error", UntaggedValue::Block(_) => "block", } } } pub fn merge_descriptors(values: &[Value]) -> Vec { let mut ret: Vec = vec![]; let value_column = "".to_string(); for value in values { let descs = value.data_descriptors(); if descs.is_empty() { if !ret.contains(&value_column) { ret.push("".to_string()); } } else { for desc in value.data_descriptors() { if !ret.contains(&desc) { ret.push(desc); } } } } ret } // Extensions pub trait StringExt { fn to_string_untagged_value(&self) -> UntaggedValue; fn to_string_value(&self, tag: Tag) -> Value; fn to_string_value_create_tag(&self) -> Value; fn to_line_value(&self, tag: Tag) -> Value; fn to_line_untagged_value(&self) -> UntaggedValue; fn to_column_path_value(&self, tag: Tag) -> Value; fn to_column_path_untagged_value(&self, span: Span) -> UntaggedValue; fn to_pattern_value(&self, tag: Tag) -> Value; fn to_pattern_untagged_value(&self) -> UntaggedValue; } impl StringExt for String { fn to_string_value(&self, the_tag: Tag) -> Value { Value { value: UntaggedValue::Primitive(Primitive::String(self.to_string())), tag: the_tag, } } fn to_string_value_create_tag(&self) -> Value { let end = self.len(); Value { value: UntaggedValue::Primitive(Primitive::String(self.to_string())), tag: Tag { anchor: None, span: Span::new(0, end), }, } } fn to_string_untagged_value(&self) -> UntaggedValue { UntaggedValue::string(self) } fn to_line_value(&self, the_tag: Tag) -> Value { Value { value: UntaggedValue::Primitive(Primitive::Line(self.to_string())), tag: the_tag, } } fn to_line_untagged_value(&self) -> UntaggedValue { UntaggedValue::line(self) } fn to_column_path_value(&self, the_tag: Tag) -> Value { Value { value: UntaggedValue::Primitive(Primitive::ColumnPath(ColumnPath::build( &the_tag.span.spanned_string(self), // this is suspect ))), tag: the_tag, } } fn to_column_path_untagged_value(&self, span: Span) -> UntaggedValue { let s = self.to_string().spanned(span); UntaggedValue::Primitive(Primitive::ColumnPath(ColumnPath::build(&s))) } fn to_pattern_value(&self, the_tag: Tag) -> Value { Value { value: UntaggedValue::Primitive(Primitive::Pattern(self.to_string())), tag: the_tag, } } fn to_pattern_untagged_value(&self) -> UntaggedValue { UntaggedValue::pattern(self) } } pub trait StrExt { fn to_str_untagged_value(&self) -> UntaggedValue; fn to_str_value(&self, tag: Tag) -> Value; fn to_str_value_create_tag(&self) -> Value; fn to_line_value(&self, tag: Tag) -> Value; fn to_line_untagged_value(&self) -> UntaggedValue; fn to_column_path_value(&self, tag: Tag) -> Value; fn to_column_path_untagged_value(&self, span: Span) -> UntaggedValue; fn to_pattern_value(&self, tag: Tag) -> Value; fn to_pattern_untagged_value(&self) -> UntaggedValue; } impl StrExt for &str { fn to_str_value(&self, the_tag: Tag) -> Value { Value { value: UntaggedValue::Primitive(Primitive::String(self.to_string())), tag: the_tag, } } fn to_str_value_create_tag(&self) -> Value { let end = self.len(); Value { value: UntaggedValue::Primitive(Primitive::String(self.to_string())), tag: Tag { anchor: None, span: Span::new(0, end), }, } } fn to_str_untagged_value(&self) -> UntaggedValue { UntaggedValue::string(*self) } fn to_line_value(&self, the_tag: Tag) -> Value { Value { value: UntaggedValue::Primitive(Primitive::Line(self.to_string())), tag: the_tag, } } fn to_line_untagged_value(&self) -> UntaggedValue { UntaggedValue::line(*self) } fn to_column_path_value(&self, the_tag: Tag) -> Value { Value { value: UntaggedValue::Primitive(Primitive::ColumnPath(ColumnPath::build( &the_tag.span.spanned_string(self), // this is suspect ))), tag: the_tag, } } fn to_column_path_untagged_value(&self, span: Span) -> UntaggedValue { let s = self.to_string().spanned(span); UntaggedValue::Primitive(Primitive::ColumnPath(ColumnPath::build(&s))) } fn to_pattern_value(&self, the_tag: Tag) -> Value { Value { value: UntaggedValue::Primitive(Primitive::Pattern(self.to_string())), tag: the_tag, } } fn to_pattern_untagged_value(&self) -> UntaggedValue { UntaggedValue::pattern(*self) } } pub trait U64Ext { fn to_untagged_value(&self) -> UntaggedValue; fn to_value(&self, tag: Tag) -> Value; fn to_value_create_tag(&self) -> Value; fn to_filesize_untagged_value(&self) -> UntaggedValue; fn to_filesize_value(&self, tag: Tag) -> Value; fn to_duration_untagged_value(&self) -> UntaggedValue; fn to_duration_value(&self, tag: Tag) -> Value; } impl U64Ext for u64 { fn to_value(&self, the_tag: Tag) -> Value { Value { value: UntaggedValue::Primitive(Primitive::Int(BigInt::from(*self))), tag: the_tag, } } fn to_filesize_value(&self, the_tag: Tag) -> Value { Value { value: UntaggedValue::Primitive(Primitive::Filesize(*self)), tag: the_tag, } } fn to_duration_value(&self, the_tag: Tag) -> Value { Value { value: UntaggedValue::Primitive(Primitive::Duration(BigInt::from(*self))), tag: the_tag, } } fn to_value_create_tag(&self) -> Value { let end = self.to_string().len(); Value { value: UntaggedValue::Primitive(Primitive::Int(BigInt::from(*self))), tag: Tag { anchor: None, span: Span::new(0, end), }, } } fn to_untagged_value(&self) -> UntaggedValue { UntaggedValue::int(*self) } fn to_filesize_untagged_value(&self) -> UntaggedValue { UntaggedValue::filesize(*self) } fn to_duration_untagged_value(&self) -> UntaggedValue { UntaggedValue::duration(BigInt::from(*self)) } } pub trait I64Ext { fn to_untagged_value(&self) -> UntaggedValue; fn to_value(&self, tag: Tag) -> Value; fn to_value_create_tag(&self) -> Value; } impl I64Ext for i64 { fn to_value(&self, the_tag: Tag) -> Value { Value { value: UntaggedValue::Primitive(Primitive::Int(BigInt::from(*self))), tag: the_tag, } } fn to_value_create_tag(&self) -> Value { let end = self.to_string().len(); Value { value: UntaggedValue::Primitive(Primitive::Int(BigInt::from(*self))), tag: Tag { anchor: None, span: Span::new(0, end), }, } } fn to_untagged_value(&self) -> UntaggedValue { UntaggedValue::int(*self) } } pub trait DecimalExt { fn to_untagged_value(&self) -> UntaggedValue; fn to_value(&self, tag: Tag) -> Value; fn to_value_create_tag(&self) -> Value; } impl DecimalExt for f64 { fn to_value(&self, the_tag: Tag) -> Value { if let Some(f) = BigDecimal::from_f64(*self) { Value { value: UntaggedValue::Primitive(Primitive::Decimal(f)), tag: the_tag, } } else { unreachable!("Internal error: protocol did not use f64-compatible decimal") } } fn to_value_create_tag(&self) -> Value { let end = self.to_string().len(); if let Some(f) = BigDecimal::from_f64(*self) { Value { value: UntaggedValue::Primitive(Primitive::Decimal(f)), tag: Tag { anchor: None, span: Span::new(0, end), }, } } else { unreachable!("Internal error: protocol did not use f64-compatible decimal") } } fn to_untagged_value(&self) -> UntaggedValue { if let Some(f) = BigDecimal::from_f64(*self) { UntaggedValue::decimal(f) } else { unreachable!("Internal error: protocol did not use f64-compatible decimal") } } } pub trait PathBufExt { fn to_untagged_value(&self) -> UntaggedValue; fn to_value(&self, tag: Tag) -> Value; fn to_value_create_tag(&self) -> Value; } impl PathBufExt for PathBuf { fn to_value(&self, the_tag: Tag) -> Value { let pb = self.clone(); Value { value: UntaggedValue::Primitive(Primitive::Path(pb)), tag: the_tag, } } fn to_value_create_tag(&self) -> Value { let end = self .to_str() .expect("unable to convert pathbuf to str") .len(); let pb = self.clone(); Value { value: UntaggedValue::Primitive(Primitive::Path(pb)), tag: Tag { anchor: None, span: Span::new(0, end), }, } } fn to_untagged_value(&self) -> UntaggedValue { let pb = self.clone(); UntaggedValue::path(pb) } } pub trait BooleanExt { fn to_untagged_value(&self) -> UntaggedValue; fn to_value(&self, tag: Tag) -> Value; fn to_value_create_tag(&self) -> Value; } impl BooleanExt for bool { fn to_value(&self, the_tag: Tag) -> Value { Value { value: UntaggedValue::Primitive(Primitive::Boolean(*self)), tag: the_tag, } } fn to_value_create_tag(&self) -> Value { let end = self.to_string().len(); Value { value: UntaggedValue::Primitive(Primitive::Boolean(*self)), tag: Tag { anchor: None, span: Span::new(0, end), }, } } fn to_untagged_value(&self) -> UntaggedValue { UntaggedValue::boolean(*self) } } pub trait DateTimeExt { fn to_untagged_value(&self) -> UntaggedValue; fn to_value(&self, tag: Tag) -> Value; fn to_value_create_tag(&self) -> Value; } impl DateTimeExt for DateTime { fn to_value(&self, the_tag: Tag) -> Value { Value { value: UntaggedValue::Primitive(Primitive::Date(*self)), tag: the_tag, } } fn to_value_create_tag(&self) -> Value { let end = self.to_string().len(); Value { value: UntaggedValue::Primitive(Primitive::Date(*self)), tag: Tag { anchor: None, span: Span::new(0, end), }, } } fn to_untagged_value(&self) -> UntaggedValue { UntaggedValue::date(*self) } } #[cfg(test)] mod tests { use super::*; #[test] fn test_decimal_from_float() { assert_eq!( UntaggedValue::from("inf"), UntaggedValue::decimal_from_float(f64::INFINITY, Span::default()) ); assert_eq!( UntaggedValue::from("-inf"), UntaggedValue::decimal_from_float(f64::NEG_INFINITY, Span::default()) ); assert_eq!( UntaggedValue::from("NaN"), UntaggedValue::decimal_from_float(f64::NAN, Span::default()) ); assert_eq!( UntaggedValue::from(5.5), UntaggedValue::decimal_from_float(5.5, Span::default()) ) } #[test] fn test_string_to_string_untagged_value_extension() { assert_eq!( "a_string".to_string().to_string_untagged_value(), UntaggedValue::from("a_string".to_string()) ); } #[test] fn test_string_to_string_value_extension() { let end = "a_string".to_string().len(); let the_tag = Tag { anchor: None, span: Span::new(0, end), }; let expected = Value { value: UntaggedValue::Primitive(Primitive::String("a_string".to_string())), tag: the_tag.clone(), }; assert_eq!("a_string".to_string().to_string_value(the_tag), expected); } #[test] fn test_string_to_string_value_create_tag_extension() { let end = "a_string".to_string().len(); let tag = Tag { anchor: None, span: Span::new(0, end), }; let expected = Value { value: UntaggedValue::Primitive(Primitive::String("a_string".to_string())), tag, }; assert_eq!( "a_string".to_string().to_string_value_create_tag(), expected ); } #[test] fn test_string_to_line_untagged_value() { let a_line = r"this is some line\n"; assert_eq!(a_line.to_line_untagged_value(), UntaggedValue::line(a_line)); } #[test] fn test_string_to_pattern_untagged_value() { let a_pattern = r"[a-zA-Z0-9 ]"; assert_eq!( a_pattern.to_pattern_untagged_value(), UntaggedValue::pattern(a_pattern) ); } #[test] fn test_string_to_column_path_untagged_value() { let a_columnpath = "some_column_path"; let a_span = Span::new(0, a_columnpath.len()); assert_eq!( a_columnpath.to_column_path_untagged_value(a_span), UntaggedValue::column_path(a_columnpath, a_span) ); } #[test] fn test_str_to_str_untaggged_value_extension() { assert_eq!( "a_str".to_str_untagged_value(), UntaggedValue::from("a_str".to_string()) ); } }