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nushell/crates/nu-parser/src/flatten.rs

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Rust
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use nu_protocol::ast::{
Block, Expr, Expression, ImportPatternMember, PathMember, Pipeline, Statement,
};
use nu_protocol::{engine::StateWorkingSet, Span};
use std::fmt::{Display, Formatter, Result};
#[derive(Debug, Eq, PartialEq, Ord, PartialOrd)]
pub enum FlatShape {
Garbage,
Nothing,
Bool,
Int,
Float,
Range,
InternalCall,
External,
ExternalArg,
Literal,
Operator,
Signature,
String,
StringInterpolation,
List,
Table,
Record,
Block,
Filepath,
GlobPattern,
Variable,
Flag,
Custom(String),
}
impl Display for FlatShape {
fn fmt(&self, f: &mut Formatter) -> Result {
match self {
FlatShape::Garbage => write!(f, "flatshape_garbage"),
FlatShape::Nothing => write!(f, "flatshape_nothing"),
FlatShape::Bool => write!(f, "flatshape_bool"),
FlatShape::Int => write!(f, "flatshape_int"),
FlatShape::Float => write!(f, "flatshape_float"),
FlatShape::Range => write!(f, "flatshape_range"),
FlatShape::InternalCall => write!(f, "flatshape_internalcall"),
FlatShape::External => write!(f, "flatshape_external"),
FlatShape::ExternalArg => write!(f, "flatshape_externalarg"),
FlatShape::Literal => write!(f, "flatshape_literal"),
FlatShape::Operator => write!(f, "flatshape_operator"),
FlatShape::Signature => write!(f, "flatshape_signature"),
FlatShape::String => write!(f, "flatshape_string"),
FlatShape::StringInterpolation => write!(f, "flatshape_string_interpolation"),
FlatShape::List => write!(f, "flatshape_string_interpolation"),
FlatShape::Table => write!(f, "flatshape_table"),
FlatShape::Record => write!(f, "flatshape_record"),
FlatShape::Block => write!(f, "flatshape_block"),
FlatShape::Filepath => write!(f, "flatshape_filepath"),
FlatShape::GlobPattern => write!(f, "flatshape_globpattern"),
FlatShape::Variable => write!(f, "flatshape_variable"),
FlatShape::Flag => write!(f, "flatshape_flag"),
FlatShape::Custom(_) => write!(f, "flatshape_custom"),
}
}
}
pub fn flatten_block(working_set: &StateWorkingSet, block: &Block) -> Vec<(Span, FlatShape)> {
let mut output = vec![];
for stmt in &block.stmts {
output.extend(flatten_statement(working_set, stmt));
}
output
}
pub fn flatten_statement(
working_set: &StateWorkingSet,
stmt: &Statement,
) -> Vec<(Span, FlatShape)> {
match stmt {
Statement::Pipeline(pipeline) => flatten_pipeline(working_set, pipeline),
_ => vec![],
}
}
pub fn flatten_expression(
working_set: &StateWorkingSet,
expr: &Expression,
) -> Vec<(Span, FlatShape)> {
if let Some(custom_completion) = &expr.custom_completion {
return vec![(expr.span, FlatShape::Custom(custom_completion.clone()))];
}
match &expr.expr {
Expr::BinaryOp(lhs, op, rhs) => {
let mut output = vec![];
output.extend(flatten_expression(working_set, lhs));
output.extend(flatten_expression(working_set, op));
output.extend(flatten_expression(working_set, rhs));
output
}
Expr::Block(block_id) | Expr::RowCondition(block_id) | Expr::Subexpression(block_id) => {
let outer_span = expr.span;
let mut output = vec![];
let flattened = flatten_block(working_set, working_set.get_block(*block_id));
if let Some(first) = flattened.first() {
if first.0.start > outer_span.start {
output.push((
Span {
start: outer_span.start,
end: first.0.start,
},
FlatShape::Block,
));
}
}
let last = if let Some(last) = flattened.last() {
if last.0.end < outer_span.end {
Some((
Span {
start: last.0.end,
end: outer_span.end,
},
FlatShape::Table,
))
} else {
None
}
} else {
None
};
output.extend(flattened);
if let Some(last) = last {
output.push(last)
}
output
}
Expr::Call(call) => {
let mut output = vec![(call.head, FlatShape::InternalCall)];
let mut args = vec![];
for positional in &call.positional {
args.extend(flatten_expression(working_set, positional));
}
for named in &call.named {
args.push((named.0.span, FlatShape::Flag));
if let Some(expr) = &named.1 {
args.extend(flatten_expression(working_set, expr));
}
}
// sort these since flags and positional args can be intermixed
args.sort();
output.extend(args);
output
}
Expr::ExternalCall(head, args) => {
let mut output = vec![];
match **head {
Expression {
expr: Expr::String(..),
span,
..
} => {
output.push((span, FlatShape::External));
}
_ => {
output.extend(flatten_expression(working_set, head));
}
}
for arg in args {
//output.push((*arg, FlatShape::ExternalArg));
match arg {
Expression {
expr: Expr::String(..),
span,
..
} => {
output.push((*span, FlatShape::ExternalArg));
}
_ => {
output.extend(flatten_expression(working_set, arg));
}
}
}
output
}
Expr::Garbage => {
vec![(expr.span, FlatShape::Garbage)]
}
Expr::Nothing => {
vec![(expr.span, FlatShape::Nothing)]
}
Expr::Int(_) => {
vec![(expr.span, FlatShape::Int)]
}
Expr::Float(_) => {
vec![(expr.span, FlatShape::Float)]
}
Expr::ValueWithUnit(x, unit) => {
let mut output = flatten_expression(working_set, x);
output.push((unit.span, FlatShape::String));
output
}
Expr::CellPath(cell_path) => {
let mut output = vec![];
for path_element in &cell_path.members {
match path_element {
PathMember::String { span, .. } => output.push((*span, FlatShape::String)),
PathMember::Int { span, .. } => output.push((*span, FlatShape::Int)),
}
}
output
}
Expr::FullCellPath(cell_path) => {
let mut output = vec![];
output.extend(flatten_expression(working_set, &cell_path.head));
for path_element in &cell_path.tail {
match path_element {
PathMember::String { span, .. } => output.push((*span, FlatShape::String)),
PathMember::Int { span, .. } => output.push((*span, FlatShape::Int)),
}
}
output
}
Expr::ImportPattern(import_pattern) => {
let mut output = vec![(import_pattern.head.span, FlatShape::String)];
for member in &import_pattern.members {
match member {
ImportPatternMember::Glob { span } => output.push((*span, FlatShape::String)),
ImportPatternMember::Name { span, .. } => {
output.push((*span, FlatShape::String))
}
ImportPatternMember::List { names } => {
for (_, span) in names {
output.push((*span, FlatShape::String));
}
}
}
}
output
}
Expr::Range(from, next, to, op) => {
let mut output = vec![];
if let Some(f) = from {
output.extend(flatten_expression(working_set, f));
}
if let Some(s) = next {
output.extend(vec![(op.next_op_span, FlatShape::Operator)]);
output.extend(flatten_expression(working_set, s));
}
output.extend(vec![(op.span, FlatShape::Operator)]);
if let Some(t) = to {
output.extend(flatten_expression(working_set, t));
}
output
}
Expr::Bool(_) => {
vec![(expr.span, FlatShape::Bool)]
}
Expr::Filepath(_) => {
vec![(expr.span, FlatShape::Filepath)]
}
Expr::GlobPattern(_) => {
vec![(expr.span, FlatShape::GlobPattern)]
}
Expr::List(list) => {
let outer_span = expr.span;
let mut last_end = outer_span.start;
let mut output = vec![];
for l in list {
let flattened = flatten_expression(working_set, l);
if let Some(first) = flattened.first() {
if first.0.start > last_end {
output.push((
Span {
start: last_end,
end: first.0.start,
},
FlatShape::List,
));
}
}
if let Some(last) = flattened.last() {
last_end = last.0.end;
}
output.extend(flattened);
}
if last_end < outer_span.end {
output.push((
Span {
start: last_end,
end: outer_span.end,
},
FlatShape::List,
));
}
output
}
Expr::StringInterpolation(exprs) => {
let mut output = vec![(
Span {
start: expr.span.start,
end: expr.span.start + 2,
},
FlatShape::StringInterpolation,
)];
for expr in exprs {
output.extend(flatten_expression(working_set, expr));
}
output.push((
Span {
start: expr.span.end - 1,
end: expr.span.end,
},
FlatShape::StringInterpolation,
));
output
}
Expr::Record(list) => {
let outer_span = expr.span;
let mut last_end = outer_span.start;
let mut output = vec![];
for l in list {
let flattened_lhs = flatten_expression(working_set, &l.0);
let flattened_rhs = flatten_expression(working_set, &l.1);
if let Some(first) = flattened_lhs.first() {
if first.0.start > last_end {
output.push((
Span {
start: last_end,
end: first.0.start,
},
FlatShape::Record,
));
}
}
if let Some(last) = flattened_lhs.last() {
last_end = last.0.end;
}
output.extend(flattened_lhs);
if let Some(first) = flattened_rhs.first() {
if first.0.start > last_end {
output.push((
Span {
start: last_end,
end: first.0.start,
},
FlatShape::Record,
));
}
}
if let Some(last) = flattened_rhs.last() {
last_end = last.0.end;
}
output.extend(flattened_rhs);
}
if last_end < outer_span.end {
output.push((
Span {
start: last_end,
end: outer_span.end,
},
FlatShape::Record,
));
}
output
}
Expr::Keyword(_, span, expr) => {
let mut output = vec![(*span, FlatShape::InternalCall)];
output.extend(flatten_expression(working_set, expr));
output
}
Expr::Operator(_) => {
vec![(expr.span, FlatShape::Operator)]
}
Expr::Signature(_) => {
vec![(expr.span, FlatShape::Signature)]
}
Expr::String(_) => {
vec![(expr.span, FlatShape::String)]
}
Expr::Table(headers, cells) => {
let outer_span = expr.span;
let mut last_end = outer_span.start;
let mut output = vec![];
for e in headers {
let flattened = flatten_expression(working_set, e);
if let Some(first) = flattened.first() {
if first.0.start > last_end {
output.push((
Span {
start: last_end,
end: first.0.start,
},
FlatShape::Table,
));
}
}
if let Some(last) = flattened.last() {
last_end = last.0.end;
}
output.extend(flattened);
}
for row in cells {
for expr in row {
let flattened = flatten_expression(working_set, expr);
if let Some(first) = flattened.first() {
if first.0.start > last_end {
output.push((
Span {
start: last_end,
end: first.0.start,
},
FlatShape::Table,
));
}
}
if let Some(last) = flattened.last() {
last_end = last.0.end;
}
output.extend(flattened);
}
}
if last_end < outer_span.end {
output.push((
Span {
start: last_end,
end: outer_span.end,
},
FlatShape::Table,
));
}
output
}
Expr::Var(_) | Expr::VarDecl(_) => {
vec![(expr.span, FlatShape::Variable)]
}
}
}
pub fn flatten_pipeline(
working_set: &StateWorkingSet,
pipeline: &Pipeline,
) -> Vec<(Span, FlatShape)> {
let mut output = vec![];
for expr in &pipeline.expressions {
output.extend(flatten_expression(working_set, expr))
}
output
}
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