use std::io::{self, Read, Write}; use nu_cmd_base::input_handler::{operate, CmdArgument}; use nu_engine::command_prelude::*; use nu_protocol::Signals; use num_traits::ToPrimitive; pub struct Arguments { cell_paths: Option>, } impl CmdArgument for Arguments { fn take_cell_paths(&mut self) -> Option> { self.cell_paths.take() } } #[derive(Clone)] pub struct BitsInto; impl Command for BitsInto { fn name(&self) -> &str { "into bits" } fn signature(&self) -> Signature { Signature::build("into bits") .input_output_types(vec![ (Type::Binary, Type::String), (Type::Int, Type::String), (Type::Filesize, Type::String), (Type::Duration, Type::String), (Type::String, Type::String), (Type::Bool, Type::String), (Type::table(), Type::table()), (Type::record(), Type::record()), ]) .allow_variants_without_examples(true) // TODO: supply exhaustive examples .rest( "rest", SyntaxShape::CellPath, "for a data structure input, convert data at the given cell paths", ) .category(Category::Conversions) } fn usage(&self) -> &str { "Convert value to a binary primitive." } fn search_terms(&self) -> Vec<&str> { vec!["convert", "cast"] } fn run( &self, engine_state: &EngineState, stack: &mut Stack, call: &Call, input: PipelineData, ) -> Result { into_bits(engine_state, stack, call, input) } fn examples(&self) -> Vec { vec![ Example { description: "convert a binary value into a string, padded to 8 places with 0s", example: "0x[1] | into bits", result: Some(Value::string("00000001", Span::test_data(), )), }, Example { description: "convert an int into a string, padded to 8 places with 0s", example: "1 | into bits", result: Some(Value::string("00000001", Span::test_data(), )), }, Example { description: "convert a filesize value into a string, padded to 8 places with 0s", example: "1b | into bits", result: Some(Value::string("00000001", Span::test_data(), )), }, Example { description: "convert a duration value into a string, padded to 8 places with 0s", example: "1ns | into bits", result: Some(Value::string("00000001", Span::test_data(), )), }, Example { description: "convert a boolean value into a string, padded to 8 places with 0s", example: "true | into bits", result: Some(Value::string("00000001", Span::test_data(), )), }, Example { description: "convert a string into a raw binary string, padded with 0s to 8 places", example: "'nushell.sh' | into bits", result: Some(Value::string("01101110 01110101 01110011 01101000 01100101 01101100 01101100 00101110 01110011 01101000", Span::test_data(), )), }, ] } } fn into_bits( engine_state: &EngineState, stack: &mut Stack, call: &Call, input: PipelineData, ) -> Result { let head = call.head; let cell_paths = call.rest(engine_state, stack, 0)?; let cell_paths = (!cell_paths.is_empty()).then_some(cell_paths); if let PipelineData::ByteStream(stream, metadata) = input { Ok(PipelineData::ByteStream( byte_stream_to_bits(stream, head), metadata, )) } else { let args = Arguments { cell_paths }; operate(action, args, input, call.head, engine_state.signals()) } } fn byte_stream_to_bits(stream: ByteStream, head: Span) -> ByteStream { if let Some(mut reader) = stream.reader() { let mut is_first = true; ByteStream::from_fn( head, Signals::empty(), ByteStreamType::String, move |buffer| { let mut byte = [0]; if reader.read(&mut byte[..]).err_span(head)? > 0 { // Format the byte as bits if is_first { is_first = false; } else { buffer.push(b' '); } write!(buffer, "{:08b}", byte[0]).expect("format failed"); Ok(true) } else { // EOF Ok(false) } }, ) } else { ByteStream::read(io::empty(), head, Signals::empty(), ByteStreamType::String) } } fn convert_to_smallest_number_type(num: i64, span: Span) -> Value { if let Some(v) = num.to_i8() { let bytes = v.to_ne_bytes(); let mut raw_string = "".to_string(); for ch in bytes { raw_string.push_str(&format!("{:08b} ", ch)); } Value::string(raw_string.trim(), span) } else if let Some(v) = num.to_i16() { let bytes = v.to_ne_bytes(); let mut raw_string = "".to_string(); for ch in bytes { raw_string.push_str(&format!("{:08b} ", ch)); } Value::string(raw_string.trim(), span) } else if let Some(v) = num.to_i32() { let bytes = v.to_ne_bytes(); let mut raw_string = "".to_string(); for ch in bytes { raw_string.push_str(&format!("{:08b} ", ch)); } Value::string(raw_string.trim(), span) } else { let bytes = num.to_ne_bytes(); let mut raw_string = "".to_string(); for ch in bytes { raw_string.push_str(&format!("{:08b} ", ch)); } Value::string(raw_string.trim(), span) } } pub fn action(input: &Value, _args: &Arguments, span: Span) -> Value { match input { Value::Binary { val, .. } => { let mut raw_string = "".to_string(); for ch in val { raw_string.push_str(&format!("{:08b} ", ch)); } Value::string(raw_string.trim(), span) } Value::Int { val, .. } => convert_to_smallest_number_type(*val, span), Value::Filesize { val, .. } => convert_to_smallest_number_type(*val, span), Value::Duration { val, .. } => convert_to_smallest_number_type(*val, span), Value::String { val, .. } => { let raw_bytes = val.as_bytes(); let mut raw_string = "".to_string(); for ch in raw_bytes { raw_string.push_str(&format!("{:08b} ", ch)); } Value::string(raw_string.trim(), span) } Value::Bool { val, .. } => { let v = >::from(*val); convert_to_smallest_number_type(v, span) } // Propagate errors by explicitly matching them before the final case. Value::Error { .. } => input.clone(), other => Value::error( ShellError::OnlySupportsThisInputType { exp_input_type: "int, filesize, string, duration, binary, or bool".into(), wrong_type: other.get_type().to_string(), dst_span: span, src_span: other.span(), }, span, ), } } #[cfg(test)] mod test { use super::*; #[test] fn test_examples() { use crate::test_examples; test_examples(BitsInto {}) } }