mirror of
https://github.com/nushell/nushell.git
synced 2024-10-16 23:33:49 +02:00
460 lines
15 KiB
Rust
460 lines
15 KiB
Rust
use nu_protocol::ast::{Block, Call, Expr, Expression, Operator, Statement};
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use nu_protocol::engine::{EngineState, EvaluationContext, Stack};
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use nu_protocol::{
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IntoPipelineData, PipelineData, Range, ShellError, Span, Spanned, Type, Unit, Value,
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};
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use crate::get_full_help;
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pub fn eval_operator(op: &Expression) -> Result<Operator, ShellError> {
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match op {
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Expression {
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expr: Expr::Operator(operator),
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..
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} => Ok(operator.clone()),
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Expression { span, expr, .. } => {
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Err(ShellError::UnknownOperator(format!("{:?}", expr), *span))
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}
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}
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}
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fn eval_call(
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engine_state: &EngineState,
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stack: &mut Stack,
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call: &Call,
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input: PipelineData,
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) -> Result<PipelineData, ShellError> {
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let decl = engine_state.get_decl(call.decl_id);
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if call.named.iter().any(|(flag, _)| flag.item == "help") {
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let full_help = get_full_help(&decl.signature(), &decl.examples(), engine_state);
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Ok(Value::String {
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val: full_help,
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span: call.head,
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}
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.into_pipeline_data())
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} else if let Some(block_id) = decl.get_block_id() {
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let mut stack = stack.enter_scope();
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for (arg, param) in call.positional.iter().zip(
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decl.signature()
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.required_positional
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.iter()
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.chain(decl.signature().optional_positional.iter()),
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) {
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let result = eval_expression(engine_state, &mut stack, arg)?;
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let var_id = param
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.var_id
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.expect("internal error: all custom parameters must have var_ids");
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stack.add_var(var_id, result);
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}
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if let Some(rest_positional) = decl.signature().rest_positional {
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let mut rest_items = vec![];
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for arg in call.positional.iter().skip(
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decl.signature().required_positional.len()
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+ decl.signature().optional_positional.len(),
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) {
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let result = eval_expression(&engine_state, &mut stack, arg)?;
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rest_items.push(result);
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}
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let span = if let Some(rest_item) = rest_items.first() {
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rest_item.span()?
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} else {
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Span::unknown()
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};
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stack.add_var(
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rest_positional
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.var_id
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.expect("Internal error: rest positional parameter lacks var_id"),
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Value::List {
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vals: rest_items,
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span,
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},
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)
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}
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for named in decl.signature().named {
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if let Some(var_id) = named.var_id {
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let mut found = false;
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for call_named in &call.named {
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if call_named.0.item == named.long {
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if let Some(arg) = &call_named.1 {
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let result = eval_expression(&engine_state, &mut stack, arg)?;
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stack.add_var(var_id, result);
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} else {
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stack.add_var(
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var_id,
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Value::Bool {
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val: true,
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span: call.head,
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},
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)
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}
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found = true;
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}
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}
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if !found && named.arg.is_none() {
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stack.add_var(
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var_id,
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Value::Bool {
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val: false,
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span: call.head,
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},
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)
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}
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}
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}
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let block = engine_state.get_block(block_id);
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eval_block(engine_state, &mut stack, block, input)
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} else {
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decl.run(engine_state, stack, call, input)
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}
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}
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fn eval_external(
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engine_state: &EngineState,
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stack: &mut Stack,
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name: &str,
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name_span: &Span,
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args: &[Expression],
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input: PipelineData,
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last_expression: bool,
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) -> Result<PipelineData, ShellError> {
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let decl_id = engine_state
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.find_decl("run_external".as_bytes())
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.ok_or_else(|| ShellError::ExternalNotSupported(*name_span))?;
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let command = engine_state.get_decl(decl_id);
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let mut call = Call::new();
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call.positional.push(Expression {
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expr: Expr::String(name.trim_start_matches('^').to_string()),
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span: *name_span,
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ty: Type::String,
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custom_completion: None,
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});
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for arg in args {
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call.positional.push(arg.clone())
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}
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if last_expression {
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call.named.push((
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Spanned {
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item: "last_expression".into(),
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span: Span::unknown(),
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},
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None,
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))
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}
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command.run(engine_state, stack, &call, input)
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}
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pub fn eval_expression(
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engine_state: &EngineState,
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stack: &mut Stack,
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expr: &Expression,
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) -> Result<Value, ShellError> {
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match &expr.expr {
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Expr::Bool(b) => Ok(Value::Bool {
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val: *b,
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span: expr.span,
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}),
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Expr::Int(i) => Ok(Value::Int {
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val: *i,
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span: expr.span,
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}),
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Expr::Float(f) => Ok(Value::Float {
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val: *f,
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span: expr.span,
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}),
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Expr::ValueWithUnit(e, unit) => match eval_expression(engine_state, stack, e)? {
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Value::Int { val, .. } => Ok(compute(val, unit.item, unit.span)),
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_ => Err(ShellError::CantConvert("unit value".into(), e.span)),
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},
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Expr::Range(from, next, to, operator) => {
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let from = if let Some(f) = from {
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eval_expression(engine_state, stack, f)?
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} else {
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Value::Nothing {
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span: Span::unknown(),
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}
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};
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let next = if let Some(s) = next {
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eval_expression(engine_state, stack, s)?
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} else {
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Value::Nothing {
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span: Span::unknown(),
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}
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};
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let to = if let Some(t) = to {
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eval_expression(engine_state, stack, t)?
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} else {
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Value::Nothing {
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span: Span::unknown(),
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}
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};
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Ok(Value::Range {
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val: Box::new(Range::new(expr.span, from, next, to, operator)?),
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span: expr.span,
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})
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}
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Expr::Var(var_id) => stack
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.get_var(*var_id)
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.map_err(move |_| ShellError::VariableNotFoundAtRuntime(expr.span)),
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Expr::CellPath(cell_path) => Ok(Value::CellPath {
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val: cell_path.clone(),
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span: expr.span,
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}),
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Expr::FullCellPath(cell_path) => {
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let value = eval_expression(engine_state, stack, &cell_path.head)?;
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value.follow_cell_path(&cell_path.tail)
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}
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Expr::RowCondition(_, expr) => eval_expression(engine_state, stack, expr),
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Expr::Call(call) => {
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// FIXME: protect this collect with ctrl-c
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Ok(Value::List {
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vals: eval_call(engine_state, stack, call, PipelineData::new())?.collect(),
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span: expr.span,
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})
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}
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Expr::ExternalCall(name, span, args) => {
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// FIXME: protect this collect with ctrl-c
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Ok(Value::List {
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vals: eval_external(
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engine_state,
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stack,
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name,
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span,
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args,
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PipelineData::new(),
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true,
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)?
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.collect(),
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span: expr.span,
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})
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}
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Expr::Operator(_) => Ok(Value::Nothing { span: expr.span }),
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Expr::BinaryOp(lhs, op, rhs) => {
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let op_span = op.span;
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let lhs = eval_expression(engine_state, stack, lhs)?;
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let op = eval_operator(op)?;
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let rhs = eval_expression(engine_state, stack, rhs)?;
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match op {
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Operator::Plus => lhs.add(op_span, &rhs),
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Operator::Minus => lhs.sub(op_span, &rhs),
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Operator::Multiply => lhs.mul(op_span, &rhs),
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Operator::Divide => lhs.div(op_span, &rhs),
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Operator::LessThan => lhs.lt(op_span, &rhs),
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Operator::LessThanOrEqual => lhs.lte(op_span, &rhs),
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Operator::GreaterThan => lhs.gt(op_span, &rhs),
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Operator::GreaterThanOrEqual => lhs.gte(op_span, &rhs),
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Operator::Equal => lhs.eq(op_span, &rhs),
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Operator::NotEqual => lhs.ne(op_span, &rhs),
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Operator::In => lhs.r#in(op_span, &rhs),
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Operator::NotIn => lhs.not_in(op_span, &rhs),
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Operator::Contains => lhs.contains(op_span, &rhs),
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Operator::NotContains => lhs.not_contains(op_span, &rhs),
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Operator::Modulo => lhs.modulo(op_span, &rhs),
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Operator::And => lhs.and(op_span, &rhs),
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Operator::Or => lhs.or(op_span, &rhs),
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Operator::Pow => lhs.pow(op_span, &rhs),
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}
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}
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Expr::Subexpression(block_id) => {
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let block = engine_state.get_block(*block_id);
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let mut stack = stack.enter_scope();
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// FIXME: protect this collect with ctrl-c
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Ok(Value::List {
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vals: eval_block(engine_state, &mut stack, block, PipelineData::new())?.collect(),
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span: expr.span,
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})
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}
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Expr::Block(block_id) => Ok(Value::Block {
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val: *block_id,
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span: expr.span,
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}),
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Expr::List(x) => {
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let mut output = vec![];
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for expr in x {
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output.push(eval_expression(engine_state, stack, expr)?);
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}
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Ok(Value::List {
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vals: output,
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span: expr.span,
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})
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}
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Expr::Table(headers, vals) => {
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let mut output_headers = vec![];
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for expr in headers {
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output_headers.push(eval_expression(engine_state, stack, expr)?.as_string()?);
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}
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let mut output_rows = vec![];
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for val in vals {
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let mut row = vec![];
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for expr in val {
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row.push(eval_expression(engine_state, stack, expr)?);
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}
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output_rows.push(Value::Record {
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cols: output_headers.clone(),
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vals: row,
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span: expr.span,
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});
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}
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Ok(Value::List {
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vals: output_rows,
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span: expr.span,
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})
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}
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Expr::Keyword(_, _, expr) => eval_expression(engine_state, stack, expr),
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Expr::String(s) => Ok(Value::String {
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val: s.clone(),
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span: expr.span,
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}),
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Expr::Filepath(s) => Ok(Value::String {
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val: s.clone(),
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span: expr.span,
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}),
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Expr::GlobPattern(s) => Ok(Value::String {
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val: s.clone(),
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span: expr.span,
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}),
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Expr::Signature(_) => Ok(Value::Nothing { span: expr.span }),
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Expr::Garbage => Ok(Value::Nothing { span: expr.span }),
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}
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}
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pub fn eval_block(
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engine_state: &EngineState,
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stack: &mut Stack,
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block: &Block,
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mut input: PipelineData,
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) -> Result<PipelineData, ShellError> {
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for stmt in block.stmts.iter() {
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if let Statement::Pipeline(pipeline) = stmt {
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for (i, elem) in pipeline.expressions.iter().enumerate() {
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match elem {
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Expression {
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expr: Expr::Call(call),
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..
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} => {
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input = eval_call(engine_state, stack, call, input)?;
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}
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Expression {
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expr: Expr::ExternalCall(name, name_span, args),
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..
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} => {
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input = eval_external(
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engine_state,
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stack,
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name,
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name_span,
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args,
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input,
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i == pipeline.expressions.len() - 1,
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)?;
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}
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elem => {
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input = eval_expression(engine_state, stack, elem)?.into_pipeline_data();
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}
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}
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}
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}
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}
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Ok(input)
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}
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pub fn compute(size: i64, unit: Unit, span: Span) -> Value {
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match unit {
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Unit::Byte => Value::Filesize { val: size, span },
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Unit::Kilobyte => Value::Filesize {
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val: size * 1000,
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span,
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},
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Unit::Megabyte => Value::Filesize {
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val: size * 1000 * 1000,
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span,
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},
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Unit::Gigabyte => Value::Filesize {
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val: size * 1000 * 1000 * 1000,
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span,
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},
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Unit::Terabyte => Value::Filesize {
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val: size * 1000 * 1000 * 1000 * 1000,
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span,
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},
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Unit::Petabyte => Value::Filesize {
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val: size * 1000 * 1000 * 1000 * 1000 * 1000,
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span,
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},
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Unit::Kibibyte => Value::Filesize {
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val: size * 1024,
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span,
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},
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Unit::Mebibyte => Value::Filesize {
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val: size * 1024 * 1024,
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span,
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},
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Unit::Gibibyte => Value::Filesize {
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val: size * 1024 * 1024 * 1024,
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span,
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},
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Unit::Tebibyte => Value::Filesize {
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val: size * 1024 * 1024 * 1024 * 1024,
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span,
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},
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Unit::Pebibyte => Value::Filesize {
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val: size * 1024 * 1024 * 1024 * 1024 * 1024,
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span,
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},
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Unit::Nanosecond => Value::Duration { val: size, span },
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Unit::Microsecond => Value::Duration {
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val: size * 1000,
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span,
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},
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Unit::Millisecond => Value::Duration {
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val: size * 1000 * 1000,
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span,
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},
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Unit::Second => Value::Duration {
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val: size * 1000 * 1000 * 1000,
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span,
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},
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Unit::Minute => Value::Duration {
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val: size * 1000 * 1000 * 1000 * 60,
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span,
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},
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Unit::Hour => Value::Duration {
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val: size * 1000 * 1000 * 1000 * 60 * 60,
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span,
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},
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Unit::Day => Value::Duration {
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val: size * 1000 * 1000 * 1000 * 60 * 60 * 24,
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span,
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},
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Unit::Week => Value::Duration {
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val: size * 1000 * 1000 * 1000 * 60 * 60 * 24 * 7,
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span,
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},
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}
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}
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