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e32291d0d7
nushell/src/object/base.rs
Dirkjan Ochtman b77effa434 Fix formatting with cargo fmt
2019-08-26 20:19:05 +02:00

748 lines
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use crate::context::CommandRegistry;
use crate::errors::ShellError;
use crate::evaluate::{evaluate_baseline_expr, Scope};
use crate::object::TaggedDictBuilder;
use crate::parser::{hir, Operator};
use crate::prelude::*;
use crate::Text;
use chrono::{DateTime, Utc};
use chrono_humanize::Humanize;
use derive_new::new;
use ordered_float::OrderedFloat;
use serde::{Deserialize, Serialize};
use std::fmt;
use std::path::PathBuf;
use std::time::SystemTime;
#[derive(Debug, Clone, Copy, Ord, PartialOrd, Eq, PartialEq, new, Serialize, Deserialize)]
pub struct OF64 {
crate inner: OrderedFloat<f64>,
}
impl OF64 {
crate fn into_inner(&self) -> f64 {
self.inner.into_inner()
}
}
impl From<f64> for OF64 {
fn from(float: f64) -> Self {
OF64::new(OrderedFloat(float))
}
}
#[derive(Debug, Clone, Ord, PartialOrd, Eq, PartialEq, Deserialize, Serialize)]
pub enum Primitive {
Nothing,
Int(i64),
#[allow(unused)]
Float(OF64),
Bytes(u64),
String(String),
Boolean(bool),
Date(DateTime<Utc>),
Path(PathBuf),
// Stream markers (used as bookend markers rather than actual values)
BeginningOfStream,
EndOfStream,
}
impl Primitive {
crate fn type_name(&self) -> String {
use Primitive::*;
match self {
Nothing => "nothing",
BeginningOfStream => "beginning-of-stream",
EndOfStream => "end-of-stream",
Path(_) => "path",
Int(_) => "int",
Float(_) => "float",
Bytes(_) => "bytes",
String(_) => "string",
Boolean(_) => "boolean",
Date(_) => "date",
}
.to_string()
}
crate fn debug(&self, f: &mut fmt::Formatter) -> fmt::Result {
use Primitive::*;
match self {
Nothing => write!(f, "Nothing"),
BeginningOfStream => write!(f, "BeginningOfStream"),
EndOfStream => write!(f, "EndOfStream"),
Int(int) => write!(f, "{}", int),
Path(path) => write!(f, "{}", path.display()),
Float(float) => write!(f, "{:?}", float),
Bytes(bytes) => write!(f, "{}", bytes),
String(string) => write!(f, "{:?}", string),
Boolean(boolean) => write!(f, "{}", boolean),
Date(date) => write!(f, "{}", date),
}
}
pub fn format(&self, field_name: Option<&String>) -> String {
match self {
Primitive::Nothing => String::new(),
Primitive::BeginningOfStream => String::new(),
Primitive::EndOfStream => String::new(),
Primitive::Path(p) => format!("{}", p.display()),
Primitive::Bytes(b) => {
let byte = byte_unit::Byte::from_bytes(*b as u128);
if byte.get_bytes() == 0u128 {
return "".to_string();
}
let byte = byte.get_appropriate_unit(false);
match byte.get_unit() {
byte_unit::ByteUnit::B => format!("{} B ", byte.get_value()),
_ => format!("{}", byte.format(1)),
}
}
Primitive::Int(i) => format!("{}", i),
Primitive::Float(OF64 { inner: f }) => format!("{:.*}", 2, f.into_inner()),
Primitive::String(s) => format!("{}", s),
Primitive::Boolean(b) => match (b, field_name) {
(true, None) => format!("Yes"),
(false, None) => format!("No"),
(true, Some(s)) if !s.is_empty() => format!("{}", s),
(false, Some(s)) if !s.is_empty() => format!(""),
(true, Some(_)) => format!("Yes"),
(false, Some(_)) => format!("No"),
},
Primitive::Date(d) => format!("{}", d.humanize()),
}
}
pub fn style(&self) -> &'static str {
match self {
Primitive::Bytes(0) => "c", // centre 'missing' indicator
Primitive::Int(_) | Primitive::Bytes(_) | Primitive::Float(_) => "r",
_ => "",
}
}
}
#[derive(Debug, Ord, PartialOrd, Eq, PartialEq, Clone, new, Serialize)]
pub struct Operation {
crate left: Value,
crate operator: Operator,
crate right: Value,
}
#[derive(Debug, Ord, PartialOrd, Eq, PartialEq, Clone, Serialize, Deserialize, new)]
pub struct Block {
crate expressions: Vec<hir::Expression>,
crate source: Text,
crate span: Span,
}
impl Block {
pub fn invoke(&self, value: &Tagged<Value>) -> Result<Tagged<Value>, ShellError> {
let scope = Scope::new(value.clone());
if self.expressions.len() == 0 {
return Ok(Value::nothing().simple_spanned(self.span));
}
let mut last = None;
for expr in self.expressions.iter() {
last = Some(evaluate_baseline_expr(
&expr,
&CommandRegistry::empty(),
&scope,
&self.source,
)?)
}
Ok(last.unwrap())
}
}
#[derive(Debug, Eq, PartialEq, Ord, PartialOrd, Clone, Serialize, Deserialize)]
pub enum Value {
Primitive(Primitive),
Object(crate::object::Dictionary),
#[serde(with = "serde_bytes")]
Binary(Vec<u8>),
List(Vec<Tagged<Value>>),
#[allow(unused)]
Block(Block),
}
pub fn debug_list(values: &'a Vec<Tagged<Value>>) -> ValuesDebug<'a> {
ValuesDebug { values }
}
pub struct ValuesDebug<'a> {
values: &'a Vec<Tagged<Value>>,
}
impl fmt::Debug for ValuesDebug<'a> {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
f.debug_list()
.entries(self.values.iter().map(|i| i.debug()))
.finish()
}
}
pub struct ValueDebug<'a> {
value: &'a Tagged<Value>,
}
impl fmt::Debug for ValueDebug<'a> {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
match self.value.item() {
Value::Primitive(p) => p.debug(f),
Value::Object(o) => o.debug(f),
Value::List(l) => debug_list(l).fmt(f),
Value::Block(_) => write!(f, "[[block]]"),
Value::Binary(_) => write!(f, "[[binary]]"),
}
}
}
impl Tagged<Value> {
crate fn tagged_type_name(&self) -> Tagged<String> {
let name = self.type_name();
Tagged::from_item(name, self.tag())
}
}
impl std::convert::TryFrom<&'a Tagged<Value>> for Block {
type Error = ShellError;
fn try_from(value: &'a Tagged<Value>) -> Result<Block, ShellError> {
match value.item() {
Value::Block(block) => Ok(block.clone()),
v => Err(ShellError::type_error(
"Block",
value.copy_span(v.type_name()),
)),
}
}
}
impl std::convert::TryFrom<&'a Tagged<Value>> for i64 {
type Error = ShellError;
fn try_from(value: &'a Tagged<Value>) -> Result<i64, ShellError> {
match value.item() {
Value::Primitive(Primitive::Int(int)) => Ok(*int),
v => Err(ShellError::type_error(
"Integer",
value.copy_span(v.type_name()),
)),
}
}
}
#[derive(Serialize, Deserialize)]
pub enum Switch {
Present,
Absent,
}
impl Switch {
#[allow(unused)]
pub fn is_present(&self) -> bool {
match self {
Switch::Present => true,
Switch::Absent => false,
}
}
}
impl std::convert::TryFrom<Option<&'a Tagged<Value>>> for Switch {
type Error = ShellError;
fn try_from(value: Option<&'a Tagged<Value>>) -> Result<Switch, ShellError> {
match value {
None => Ok(Switch::Absent),
Some(value) => match value.item() {
Value::Primitive(Primitive::Boolean(true)) => Ok(Switch::Present),
v => Err(ShellError::type_error(
"Boolean",
value.copy_span(v.type_name()),
)),
},
}
}
}
impl Tagged<Value> {
crate fn debug(&'a self) -> ValueDebug<'a> {
ValueDebug { value: self }
}
}
impl Value {
crate fn type_name(&self) -> String {
match self {
Value::Primitive(p) => p.type_name(),
Value::Object(_) => format!("object"),
Value::List(_) => format!("list"),
Value::Block(_) => format!("block"),
Value::Binary(_) => format!("binary"),
}
}
pub fn data_descriptors(&self) -> Vec<String> {
match self {
Value::Primitive(_) => vec![],
Value::Object(o) => o
.entries
.keys()
.into_iter()
.map(|x| x.to_string())
.collect(),
Value::Block(_) => vec![],
Value::List(_) => vec![],
Value::Binary(_) => vec![],
}
}
crate fn get_data_by_key(&'a self, name: &str) -> Option<&Tagged<Value>> {
match self {
Value::Object(o) => o.get_data_by_key(name),
Value::List(l) => {
for item in l {
match item {
Tagged {
item: Value::Object(o),
..
} => match o.get_data_by_key(name) {
Some(v) => return Some(v),
None => {}
},
_ => {}
}
}
None
}
_ => None,
}
}
#[allow(unused)]
crate fn get_data_by_index(&'a self, idx: usize) -> Option<&Tagged<Value>> {
match self {
Value::List(l) => l.iter().nth(idx),
_ => None,
}
}
pub fn get_data_by_path(&'a self, tag: Tag, path: &str) -> Option<Tagged<&Value>> {
let mut current = self;
for p in path.split(".") {
match current.get_data_by_key(p) {
Some(v) => current = v,
None => return None,
}
}
Some(Tagged::from_item(current, tag))
}
pub fn insert_data_at_path(
&'a self,
tag: Tag,
path: &str,
new_value: Value,
) -> Option<Tagged<Value>> {
let mut new_obj = self.clone();
let split_path: Vec<_> = path.split(".").collect();
if let Value::Object(ref mut o) = new_obj {
let mut current = o;
if split_path.len() == 1 {
// Special case for inserting at the top level
current
.entries
.insert(path.to_string(), Tagged::from_item(new_value, tag));
return Some(Tagged::from_item(new_obj, tag));
}
for idx in 0..split_path.len() {
match current.entries.get_mut(split_path[idx]) {
Some(next) => {
if idx == (split_path.len() - 2) {
match &mut next.item {
Value::Object(o) => {
o.entries.insert(
split_path[idx + 1].to_string(),
Tagged::from_item(new_value, tag),
);
}
_ => {}
}
return Some(Tagged::from_item(new_obj, tag));
} else {
match next.item {
Value::Object(ref mut o) => {
current = o;
}
_ => return None,
}
}
}
_ => return None,
}
}
}
None
}
pub fn replace_data_at_path(
&'a self,
tag: Tag,
path: &str,
replaced_value: Value,
) -> Option<Tagged<Value>> {
let mut new_obj = self.clone();
let split_path: Vec<_> = path.split(".").collect();
if let Value::Object(ref mut o) = new_obj {
let mut current = o;
for idx in 0..split_path.len() {
match current.entries.get_mut(split_path[idx]) {
Some(next) => {
if idx == (split_path.len() - 1) {
*next = Tagged::from_item(replaced_value, tag);
return Some(Tagged::from_item(new_obj, tag));
} else {
match next.item {
Value::Object(ref mut o) => {
current = o;
}
_ => return None,
}
}
}
_ => return None,
}
}
}
None
}
pub fn get_data(&'a self, desc: &String) -> MaybeOwned<'a, Value> {
match self {
p @ Value::Primitive(_) => MaybeOwned::Borrowed(p),
Value::Object(o) => o.get_data(desc),
Value::Block(_) => MaybeOwned::Owned(Value::nothing()),
Value::List(_) => MaybeOwned::Owned(Value::nothing()),
Value::Binary(_) => MaybeOwned::Owned(Value::nothing()),
}
}
crate fn format_leaf(&self, desc: Option<&String>) -> String {
match self {
Value::Primitive(p) => p.format(desc),
Value::Block(b) => itertools::join(
b.expressions
.iter()
.map(|e| e.source(&b.source).to_string()),
"; ",
),
Value::Object(_) => format!("[{}]", self.type_name()),
Value::List(l) => format!(
"[{} {}]",
l.len(),
if l.len() == 1 { "item" } else { "items" }
),
Value::Binary(_) => format!("<binary>"),
}
}
crate fn style_leaf(&self) -> &'static str {
match self {
Value::Primitive(p) => p.style(),
_ => "",
}
}
#[allow(unused)]
crate fn compare(&self, operator: &Operator, other: &Value) -> Result<bool, (String, String)> {
match operator {
_ => {
let coerced = coerce_compare(self, other)?;
let ordering = coerced.compare();
use std::cmp::Ordering;
let result = match (operator, ordering) {
(Operator::Equal, Ordering::Equal) => true,
(Operator::NotEqual, Ordering::Less)
| (Operator::NotEqual, Ordering::Greater) => true,
(Operator::LessThan, Ordering::Less) => true,
(Operator::GreaterThan, Ordering::Greater) => true,
(Operator::GreaterThanOrEqual, Ordering::Greater)
| (Operator::GreaterThanOrEqual, Ordering::Equal) => true,
(Operator::LessThanOrEqual, Ordering::Less)
| (Operator::LessThanOrEqual, Ordering::Equal) => true,
_ => false,
};
Ok(result)
}
}
}
#[allow(unused)]
crate fn is_string(&self, expected: &str) -> bool {
match self {
Value::Primitive(Primitive::String(s)) if s == expected => true,
other => false,
}
}
// crate fn as_pair(&self) -> Result<(Tagged<Value>, Tagged<Value>), ShellError> {
// match self {
// Value::List(list) if list.len() == 2 => Ok((list[0].clone(), list[1].clone())),
// other => Err(ShellError::string(format!(
// "Expected pair, got {:?}",
// other
// ))),
// }
// }
crate fn as_string(&self) -> Result<String, ShellError> {
match self {
Value::Primitive(Primitive::String(s)) => Ok(s.clone()),
Value::Primitive(Primitive::Boolean(x)) => Ok(format!("{}", x)),
Value::Primitive(Primitive::Float(x)) => Ok(format!("{}", x.into_inner())),
Value::Primitive(Primitive::Int(x)) => Ok(format!("{}", x)),
Value::Primitive(Primitive::Bytes(x)) => Ok(format!("{}", x)),
// TODO: this should definitely be more general with better errors
other => Err(ShellError::string(format!(
"Expected string, got {:?}",
other
))),
}
}
crate fn as_i64(&self) -> Result<i64, ShellError> {
match self {
Value::Primitive(Primitive::Int(i)) => Ok(*i),
Value::Primitive(Primitive::Bytes(b)) => Ok(*b as i64),
// TODO: this should definitely be more general with better errors
other => Err(ShellError::string(format!(
"Expected integer, got {:?}",
other
))),
}
}
crate fn is_true(&self) -> bool {
match self {
Value::Primitive(Primitive::Boolean(true)) => true,
_ => false,
}
}
pub fn string(s: impl Into<String>) -> Value {
Value::Primitive(Primitive::String(s.into()))
}
pub fn bytes(s: impl Into<u64>) -> Value {
Value::Primitive(Primitive::Bytes(s.into()))
}
pub fn int(s: impl Into<i64>) -> Value {
Value::Primitive(Primitive::Int(s.into()))
}
pub fn float(s: impl Into<OF64>) -> Value {
Value::Primitive(Primitive::Float(s.into()))
}
pub fn boolean(s: impl Into<bool>) -> Value {
Value::Primitive(Primitive::Boolean(s.into()))
}
pub fn system_date(s: SystemTime) -> Value {
Value::Primitive(Primitive::Date(s.into()))
}
#[allow(unused)]
pub fn date_from_str(s: &str) -> Result<Value, ShellError> {
let date = DateTime::parse_from_rfc3339(s)
.map_err(|err| ShellError::string(&format!("Date parse error: {}", err)))?;
let date = date.with_timezone(&chrono::offset::Utc);
Ok(Value::Primitive(Primitive::Date(date)))
}
pub fn nothing() -> Value {
Value::Primitive(Primitive::Nothing)
}
}
crate fn select_fields(obj: &Value, fields: &[String], tag: impl Into<Tag>) -> Tagged<Value> {
let mut out = TaggedDictBuilder::new(tag);
let descs = obj.data_descriptors();
for field in fields {
match descs.iter().find(|d| *d == field) {
None => out.insert(field, Value::nothing()),
Some(desc) => out.insert(desc.clone(), obj.get_data(desc).borrow().clone()),
}
}
out.into_tagged_value()
}
crate fn reject_fields(obj: &Value, fields: &[String], tag: impl Into<Tag>) -> Tagged<Value> {
let mut out = TaggedDictBuilder::new(tag);
let descs = obj.data_descriptors();
for desc in descs {
match desc {
x if fields.iter().any(|field| *field == x) => continue,
_ => out.insert(desc.clone(), obj.get_data(&desc).borrow().clone()),
}
}
out.into_tagged_value()
}
#[allow(unused)]
crate fn find(obj: &Value, field: &str, op: &Operator, rhs: &Value) -> bool {
let descs = obj.data_descriptors();
match descs.iter().find(|d| *d == field) {
None => false,
Some(desc) => {
let v = obj.get_data(desc).borrow().clone();
match v {
Value::Primitive(Primitive::Boolean(b)) => match (op, rhs) {
(Operator::Equal, Value::Primitive(Primitive::Boolean(b2))) => b == *b2,
(Operator::NotEqual, Value::Primitive(Primitive::Boolean(b2))) => b != *b2,
_ => false,
},
Value::Primitive(Primitive::Bytes(i)) => match (op, rhs) {
(Operator::LessThan, Value::Primitive(Primitive::Int(i2))) => i < (*i2 as u64),
(Operator::GreaterThan, Value::Primitive(Primitive::Int(i2))) => {
i > (*i2 as u64)
}
(Operator::LessThanOrEqual, Value::Primitive(Primitive::Int(i2))) => {
i <= (*i2 as u64)
}
(Operator::GreaterThanOrEqual, Value::Primitive(Primitive::Int(i2))) => {
i >= (*i2 as u64)
}
(Operator::Equal, Value::Primitive(Primitive::Int(i2))) => i == (*i2 as u64),
(Operator::NotEqual, Value::Primitive(Primitive::Int(i2))) => i != (*i2 as u64),
_ => false,
},
Value::Primitive(Primitive::Int(i)) => match (op, rhs) {
(Operator::LessThan, Value::Primitive(Primitive::Int(i2))) => i < *i2,
(Operator::GreaterThan, Value::Primitive(Primitive::Int(i2))) => i > *i2,
(Operator::LessThanOrEqual, Value::Primitive(Primitive::Int(i2))) => i <= *i2,
(Operator::GreaterThanOrEqual, Value::Primitive(Primitive::Int(i2))) => {
i >= *i2
}
(Operator::Equal, Value::Primitive(Primitive::Int(i2))) => i == *i2,
(Operator::NotEqual, Value::Primitive(Primitive::Int(i2))) => i != *i2,
_ => false,
},
Value::Primitive(Primitive::Float(i)) => match (op, rhs) {
(Operator::LessThan, Value::Primitive(Primitive::Float(i2))) => i < *i2,
(Operator::GreaterThan, Value::Primitive(Primitive::Float(i2))) => i > *i2,
(Operator::LessThanOrEqual, Value::Primitive(Primitive::Float(i2))) => i <= *i2,
(Operator::GreaterThanOrEqual, Value::Primitive(Primitive::Float(i2))) => {
i >= *i2
}
(Operator::Equal, Value::Primitive(Primitive::Float(i2))) => i == *i2,
(Operator::NotEqual, Value::Primitive(Primitive::Float(i2))) => i != *i2,
(Operator::LessThan, Value::Primitive(Primitive::Int(i2))) => {
(i.into_inner()) < *i2 as f64
}
(Operator::GreaterThan, Value::Primitive(Primitive::Int(i2))) => {
i.into_inner() > *i2 as f64
}
(Operator::LessThanOrEqual, Value::Primitive(Primitive::Int(i2))) => {
i.into_inner() <= *i2 as f64
}
(Operator::GreaterThanOrEqual, Value::Primitive(Primitive::Int(i2))) => {
i.into_inner() >= *i2 as f64
}
(Operator::Equal, Value::Primitive(Primitive::Int(i2))) => {
i.into_inner() == *i2 as f64
}
(Operator::NotEqual, Value::Primitive(Primitive::Int(i2))) => {
i.into_inner() != *i2 as f64
}
_ => false,
},
Value::Primitive(Primitive::String(s)) => match (op, rhs) {
(Operator::Equal, Value::Primitive(Primitive::String(s2))) => s == *s2,
(Operator::NotEqual, Value::Primitive(Primitive::String(s2))) => s != *s2,
_ => false,
},
_ => false,
}
}
}
}
enum CompareValues {
Ints(i64, i64),
Floats(OF64, OF64),
Bytes(i128, i128),
String(String, String),
}
impl CompareValues {
fn compare(&self) -> std::cmp::Ordering {
match self {
CompareValues::Ints(left, right) => left.cmp(right),
CompareValues::Floats(left, right) => left.cmp(right),
CompareValues::Bytes(left, right) => left.cmp(right),
CompareValues::String(left, right) => left.cmp(right),
}
}
}
fn coerce_compare(left: &Value, right: &Value) -> Result<CompareValues, (String, String)> {
match (left, right) {
(Value::Primitive(left), Value::Primitive(right)) => coerce_compare_primitive(left, right),
_ => Err((left.type_name(), right.type_name())),
}
}
fn coerce_compare_primitive(
left: &Primitive,
right: &Primitive,
) -> Result<CompareValues, (String, String)> {
use Primitive::*;
Ok(match (left, right) {
(Int(left), Int(right)) => CompareValues::Ints(*left, *right),
(Float(left), Int(right)) => CompareValues::Floats(*left, (*right as f64).into()),
(Int(left), Float(right)) => CompareValues::Floats((*left as f64).into(), *right),
(Int(left), Bytes(right)) => CompareValues::Bytes(*left as i128, *right as i128),
(Bytes(left), Int(right)) => CompareValues::Bytes(*left as i128, *right as i128),
(String(left), String(right)) => CompareValues::String(left.clone(), right.clone()),
_ => return Err((left.type_name(), right.type_name())),
})
}
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