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Allow operator in constants (#10212)
This pr fixes https://github.com/nushell/nushell/issues/10200 # Description Allow unary and binary operators in constants, e.g. ```bash const a = 1 + 2 const b = [0, 1, 2, 3] ++ [4] ``` # User-Facing Changes Now constants can contain operators. # Tests + Formatting - 🟢 `toolkit fmt` - 🟢 `toolkit clippy` - 🟢 `toolkit test` - 🟢 `toolkit test stdlib` # After Submitting None --------- Co-authored-by: Horasal <horsal@horsal.dev>
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@ -2,8 +2,8 @@ use crate::{current_dir_str, get_full_help};
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use nu_path::expand_path_with;
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use nu_protocol::{
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ast::{
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Argument, Assignment, Bits, Block, Boolean, Call, Comparison, Expr, Expression, Math,
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Operator, PathMember, PipelineElement, Redirection,
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eval_operator, Argument, Assignment, Bits, Block, Boolean, Call, Comparison, Expr,
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Expression, Math, Operator, PathMember, PipelineElement, Redirection,
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},
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engine::{EngineState, ProfilingConfig, Stack},
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record, DataSource, IntoInterruptiblePipelineData, IntoPipelineData, PipelineData,
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@ -13,19 +13,6 @@ use nu_protocol::{
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use std::collections::HashMap;
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use std::time::Instant;
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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, .. } => Err(ShellError::UnknownOperator {
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op_token: format!("{expr:?}"),
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span: *span,
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}),
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}
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}
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pub fn eval_call(
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engine_state: &EngineState,
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caller_stack: &mut Stack,
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@ -12,6 +12,6 @@ pub use documentation::get_full_help;
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pub use env::*;
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pub use eval::{
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eval_block, eval_block_with_early_return, eval_call, eval_expression,
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eval_expression_with_input, eval_operator, eval_subexpression, eval_variable, redirect_env,
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eval_expression_with_input, eval_subexpression, eval_variable, redirect_env,
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};
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pub use glob_from::glob_from;
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@ -1,8 +1,10 @@
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use crate::Span;
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use crate::{ShellError, Span};
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use serde::{Deserialize, Serialize};
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use std::fmt::Display;
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use super::{Expr, Expression};
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#[derive(Debug, Clone, PartialEq, Eq, Serialize, Deserialize)]
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pub enum Comparison {
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Equal,
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@ -128,3 +130,16 @@ impl Display for RangeOperator {
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}
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}
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}
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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, .. } => Err(ShellError::UnknownOperator {
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op_token: format!("{expr:?}"),
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span: *span,
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}),
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}
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}
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@ -1,7 +1,10 @@
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use crate::{
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ast::{Block, Call, Expr, Expression, PipelineElement},
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ast::{
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eval_operator, Bits, Block, Boolean, Call, Comparison, Expr, Expression, Math, Operator,
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PipelineElement,
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},
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engine::{EngineState, StateWorkingSet},
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record, HistoryFileFormat, PipelineData, Record, ShellError, Span, Value,
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record, HistoryFileFormat, PipelineData, Range, Record, ShellError, Span, Value,
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};
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use nu_system::os_info::{get_kernel_version, get_os_arch, get_os_family, get_os_name};
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use std::path::PathBuf;
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@ -342,6 +345,132 @@ pub fn eval_constant(
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.into_value(expr.span),
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)
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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_constant(working_set, f)?
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} else {
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Value::Nothing {
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internal_span: expr.span,
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}
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};
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let next = if let Some(s) = next {
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eval_constant(working_set, s)?
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} else {
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Value::Nothing {
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internal_span: expr.span,
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}
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};
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let to = if let Some(t) = to {
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eval_constant(working_set, t)?
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} else {
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Value::Nothing {
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internal_span: expr.span,
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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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internal_span: expr.span,
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})
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}
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Expr::UnaryNot(expr) => {
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let lhs = eval_constant(working_set, expr)?;
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match lhs {
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Value::Bool { val, .. } => Ok(Value::bool(!val, expr.span)),
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_ => Err(ShellError::TypeMismatch {
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err_message: "bool".to_string(),
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span: expr.span,
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}),
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}
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}
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Expr::BinaryOp(lhs, op, rhs) => {
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let op_span = op.span;
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let op = eval_operator(op)?;
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match op {
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Operator::Boolean(boolean) => {
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let lhs = eval_constant(working_set, lhs)?;
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match boolean {
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Boolean::And => {
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if lhs.is_false() {
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Ok(Value::bool(false, expr.span))
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} else {
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let rhs = eval_constant(working_set, rhs)?;
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lhs.and(op_span, &rhs, expr.span)
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}
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}
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Boolean::Or => {
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if lhs.is_true() {
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Ok(Value::bool(true, expr.span))
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} else {
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let rhs = eval_constant(working_set, rhs)?;
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lhs.or(op_span, &rhs, expr.span)
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}
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}
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Boolean::Xor => {
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let rhs = eval_constant(working_set, rhs)?;
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lhs.xor(op_span, &rhs, expr.span)
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}
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}
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}
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Operator::Math(math) => {
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match (&math, &lhs.expr, &rhs.expr) {
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// Multiple may generate super long string
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// and stop the whole shell while highlighting
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// e.g. '2 ** 60 * a'
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(Math::Multiply, Expr::String(..), _)
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| (Math::Multiply, _, Expr::String(..)) => {
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return Err(ShellError::NotAConstant(expr.span))
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}
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_ => {}
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}
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let lhs = eval_constant(working_set, lhs)?;
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let rhs = eval_constant(working_set, rhs)?;
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match math {
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Math::Plus => lhs.add(op_span, &rhs, expr.span),
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Math::Minus => lhs.sub(op_span, &rhs, expr.span),
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Math::Multiply => lhs.mul(op_span, &rhs, expr.span),
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Math::Divide => lhs.div(op_span, &rhs, expr.span),
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Math::Append => lhs.append(op_span, &rhs, expr.span),
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Math::Modulo => lhs.modulo(op_span, &rhs, expr.span),
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Math::FloorDivision => lhs.floor_div(op_span, &rhs, expr.span),
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Math::Pow => lhs.pow(op_span, &rhs, expr.span),
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}
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}
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Operator::Comparison(comparison) => {
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let lhs = eval_constant(working_set, lhs)?;
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let rhs = eval_constant(working_set, rhs)?;
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match comparison {
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Comparison::LessThan => lhs.lt(op_span, &rhs, expr.span),
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Comparison::LessThanOrEqual => lhs.lte(op_span, &rhs, expr.span),
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Comparison::GreaterThan => lhs.gt(op_span, &rhs, expr.span),
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Comparison::GreaterThanOrEqual => lhs.gte(op_span, &rhs, expr.span),
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Comparison::Equal => lhs.eq(op_span, &rhs, expr.span),
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Comparison::NotEqual => lhs.ne(op_span, &rhs, expr.span),
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Comparison::In => lhs.r#in(op_span, &rhs, expr.span),
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Comparison::NotIn => lhs.not_in(op_span, &rhs, expr.span),
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Comparison::StartsWith => lhs.starts_with(op_span, &rhs, expr.span),
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Comparison::EndsWith => lhs.ends_with(op_span, &rhs, expr.span),
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// RegEx comparison is not a constant
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_ => Err(ShellError::NotAConstant(expr.span)),
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}
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}
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Operator::Bits(bits) => {
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let lhs = eval_constant(working_set, lhs)?;
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let rhs = eval_constant(working_set, rhs)?;
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match bits {
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Bits::BitAnd => lhs.bit_and(op_span, &rhs, expr.span),
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Bits::BitOr => lhs.bit_or(op_span, &rhs, expr.span),
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Bits::BitXor => lhs.bit_xor(op_span, &rhs, expr.span),
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Bits::ShiftLeft => lhs.bit_shl(op_span, &rhs, expr.span),
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Bits::ShiftRight => lhs.bit_shr(op_span, &rhs, expr.span),
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}
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}
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Operator::Assignment(_) => Err(ShellError::NotAConstant(expr.span)),
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}
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}
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_ => Err(ShellError::NotAConstant(expr.span)),
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}
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}
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@ -1,5 +1,6 @@
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use nu_test_support::nu;
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use pretty_assertions::assert_eq;
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use rstest::rstest;
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const MODULE_SETUP: &str = r#"
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module spam {
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@ -107,6 +108,54 @@ fn const_nothing() {
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assert_eq!(actual.out, "nothing");
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}
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#[rstest]
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#[case(&["const x = not false", "$x"], "true")]
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#[case(&["const x = false", "const y = not $x", "$y"], "true")]
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#[case(&["const x = not false", "const y = not $x", "$y"], "false")]
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fn const_unary_operator(#[case] inp: &[&str], #[case] expect: &str) {
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let actual = nu!(&inp.join("; "));
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assert_eq!(actual.out, expect);
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}
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#[rstest]
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#[case(&["const x = 1 + 2", "$x"], "3")]
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#[case(&["const x = 1 * 2", "$x"], "2")]
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#[case(&["const x = 4 / 2", "$x"], "2")]
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#[case(&["const x = 4 mod 3", "$x"], "1")]
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#[case(&["const x = 5.0 / 2.0", "$x"], "2.5")]
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#[case(&[r#"const x = "a" + "b" "#, "$x"], "ab")]
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#[case(&[r#"const x = "a" ++ "b" "#, "$x"], "ab")]
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#[case(&[r#"const x = [1,2] ++ [3]"#, "$x | describe"], "list<int>")]
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#[case(&[r#"const x = 0x[1,2] ++ 0x[3]"#, "$x | describe"], "binary")]
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#[case(&[r#"const x = 0x[1,2] ++ [3]"#, "$x | describe"], "list<any>")]
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#[case(&["const x = 1 < 2", "$x"], "true")]
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#[case(&["const x = (3 * 200) > (2 * 100)", "$x"], "true")]
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#[case(&["const x = (3 * 200) < (2 * 100)", "$x"], "false")]
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#[case(&["const x = (3 * 200) == (2 * 300)", "$x"], "true")]
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fn const_binary_operator(#[case] inp: &[&str], #[case] expect: &str) {
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let actual = nu!(&inp.join("; "));
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assert_eq!(actual.out, expect);
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}
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#[rstest]
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#[case(&["const x = 1 / 0", "$x"], "division by zero")]
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#[case(&["const x = 10 ** 10000000", "$x"], "pow operation overflowed")]
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#[case(&["const x = 2 ** 62 * 2", "$x"], "multiply operation overflowed")]
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#[case(&["const x = 1 ++ 0", "$x"], "doesn't support this value")]
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#[case(&["const x = 20 * a", "$x"], "Value is not a parse-time constant")]
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fn const_operator_error(#[case] inp: &[&str], #[case] expect: &str) {
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let actual = nu!(&inp.join("; "));
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assert!(actual.err.contains(expect));
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}
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#[rstest]
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#[case(&["const x = (1..3)", "$x | math sum"], "6")]
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#[case(&["const x = (1..3)", "$x | describe"], "range")]
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fn const_range(#[case] inp: &[&str], #[case] expect: &str) {
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let actual = nu!(&inp.join("; "));
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assert_eq!(actual.out, expect);
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}
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#[test]
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fn const_subexpression_supported() {
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let inp = &["const x = ('spam')", "$x"];
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