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use std::fs::File; use std::io; use std::path::Path; use std::result; use csv_core::{ self, WriteResult, Writer as CoreWriter, WriterBuilder as CoreWriterBuilder, }; use serde::Serialize; use crate::byte_record::ByteRecord; use crate::error::{Error, ErrorKind, IntoInnerError, Result}; use crate::serializer::{serialize, serialize_header}; use crate::{QuoteStyle, Terminator}; /// Builds a CSV writer with various configuration knobs. /// /// This builder can be used to tweak the field delimiter, record terminator /// and more. Once a CSV `Writer` is built, its configuration cannot be /// changed. #[derive(Debug)] pub struct WriterBuilder { builder: CoreWriterBuilder, capacity: usize, flexible: bool, has_headers: bool, } impl Default for WriterBuilder { fn default() -> WriterBuilder { WriterBuilder { builder: CoreWriterBuilder::default(), capacity: 8 * (1 << 10), flexible: false, has_headers: true, } } } impl WriterBuilder { /// Create a new builder for configuring CSV writing. /// /// To convert a builder into a writer, call one of the methods starting /// with `from_`. /// /// # Example /// /// ``` /// use std::error::Error; /// use csv::WriterBuilder; /// /// # fn main() { example().unwrap(); } /// fn example() -> Result<(), Box<dyn Error>> { /// let mut wtr = WriterBuilder::new().from_writer(vec![]); /// wtr.write_record(&["a", "b", "c"])?; /// wtr.write_record(&["x", "y", "z"])?; /// /// let data = String::from_utf8(wtr.into_inner()?)?; /// assert_eq!(data, "a,b,c\nx,y,z\n"); /// Ok(()) /// } /// ``` pub fn new() -> WriterBuilder { WriterBuilder::default() } /// Build a CSV writer from this configuration that writes data to the /// given file path. The file is truncated if it already exists. /// /// If there was a problem opening the file at the given path, then this /// returns the corresponding error. /// /// # Example /// /// ```no_run /// use std::error::Error; /// use csv::WriterBuilder; /// /// # fn main() { example().unwrap(); } /// fn example() -> Result<(), Box<dyn Error>> { /// let mut wtr = WriterBuilder::new().from_path("foo.csv")?; /// wtr.write_record(&["a", "b", "c"])?; /// wtr.write_record(&["x", "y", "z"])?; /// wtr.flush()?; /// Ok(()) /// } /// ``` pub fn from_path<P: AsRef<Path>>(&self, path: P) -> Result<Writer<File>> { Ok(Writer::new(self, File::create(path)?)) } /// Build a CSV writer from this configuration that writes data to `wtr`. /// /// Note that the CSV writer is buffered automatically, so you should not /// wrap `wtr` in a buffered writer like `io::BufWriter`. /// /// # Example /// /// ``` /// use std::error::Error; /// use csv::WriterBuilder; /// /// # fn main() { example().unwrap(); } /// fn example() -> Result<(), Box<dyn Error>> { /// let mut wtr = WriterBuilder::new().from_writer(vec![]); /// wtr.write_record(&["a", "b", "c"])?; /// wtr.write_record(&["x", "y", "z"])?; /// /// let data = String::from_utf8(wtr.into_inner()?)?; /// assert_eq!(data, "a,b,c\nx,y,z\n"); /// Ok(()) /// } /// ``` pub fn from_writer<W: io::Write>(&self, wtr: W) -> Writer<W> { Writer::new(self, wtr) } /// The field delimiter to use when writing CSV. /// /// The default is `b','`. /// /// # Example /// /// ``` /// use std::error::Error; /// use csv::WriterBuilder; /// /// # fn main() { example().unwrap(); } /// fn example() -> Result<(), Box<dyn Error>> { /// let mut wtr = WriterBuilder::new() /// .delimiter(b';') /// .from_writer(vec![]); /// wtr.write_record(&["a", "b", "c"])?; /// wtr.write_record(&["x", "y", "z"])?; /// /// let data = String::from_utf8(wtr.into_inner()?)?; /// assert_eq!(data, "a;b;c\nx;y;z\n"); /// Ok(()) /// } /// ``` pub fn delimiter(&mut self, delimiter: u8) -> &mut WriterBuilder { self.builder.delimiter(delimiter); self } /// Whether to write a header row before writing any other row. /// /// When this is enabled and the `serialize` method is used to write data /// with something that contains field names (i.e., a struct), then a /// header row is written containing the field names before any other row /// is written. /// /// This option has no effect when using other methods to write rows. That /// is, if you don't use `serialize`, then you must write your header row /// explicitly if you want a header row. /// /// This is enabled by default. /// /// # Example: with headers /// /// This shows how the header will be automatically written from the field /// names of a struct. /// /// ``` /// use std::error::Error; /// /// use csv::WriterBuilder; /// use serde::Serialize; /// /// #[derive(Serialize)] /// struct Row<'a> { /// city: &'a str, /// country: &'a str, /// // Serde allows us to name our headers exactly, /// // even if they don't match our struct field names. /// #[serde(rename = "popcount")] /// population: u64, /// } /// /// # fn main() { example().unwrap(); } /// fn example() -> Result<(), Box<dyn Error>> { /// let mut wtr = WriterBuilder::new().from_writer(vec![]); /// wtr.serialize(Row { /// city: "Boston", /// country: "United States", /// population: 4628910, /// })?; /// wtr.serialize(Row { /// city: "Concord", /// country: "United States", /// population: 42695, /// })?; /// /// let data = String::from_utf8(wtr.into_inner()?)?; /// assert_eq!(data, "\ /// city,country,popcount /// Boston,United States,4628910 /// Concord,United States,42695 /// "); /// Ok(()) /// } /// ``` /// /// # Example: without headers /// /// This shows that serializing things that aren't structs (in this case, /// a tuple struct) won't result in a header row being written. This means /// you usually don't need to set `has_headers(false)` unless you /// explicitly want to both write custom headers and serialize structs. /// /// ``` /// use std::error::Error; /// use csv::WriterBuilder; /// /// # fn main() { example().unwrap(); } /// fn example() -> Result<(), Box<dyn Error>> { /// let mut wtr = WriterBuilder::new().from_writer(vec![]); /// wtr.serialize(("Boston", "United States", 4628910))?; /// wtr.serialize(("Concord", "United States", 42695))?; /// /// let data = String::from_utf8(wtr.into_inner()?)?; /// assert_eq!(data, "\ /// Boston,United States,4628910 /// Concord,United States,42695 /// "); /// Ok(()) /// } /// ``` pub fn has_headers(&mut self, yes: bool) -> &mut WriterBuilder { self.has_headers = yes; self } /// Whether the number of fields in records is allowed to change or not. /// /// When disabled (which is the default), writing CSV data will return an /// error if a record is written with a number of fields different from the /// number of fields written in a previous record. /// /// When enabled, this error checking is turned off. /// /// # Example: writing flexible records /// /// ``` /// use std::error::Error; /// use csv::WriterBuilder; /// /// # fn main() { example().unwrap(); } /// fn example() -> Result<(), Box<dyn Error>> { /// let mut wtr = WriterBuilder::new() /// .flexible(true) /// .from_writer(vec![]); /// wtr.write_record(&["a", "b"])?; /// wtr.write_record(&["x", "y", "z"])?; /// /// let data = String::from_utf8(wtr.into_inner()?)?; /// assert_eq!(data, "a,b\nx,y,z\n"); /// Ok(()) /// } /// ``` /// /// # Example: error when `flexible` is disabled /// /// ``` /// use std::error::Error; /// use csv::WriterBuilder; /// /// # fn main() { example().unwrap(); } /// fn example() -> Result<(), Box<dyn Error>> { /// let mut wtr = WriterBuilder::new() /// .flexible(false) /// .from_writer(vec![]); /// wtr.write_record(&["a", "b"])?; /// let err = wtr.write_record(&["x", "y", "z"]).unwrap_err(); /// match *err.kind() { /// csv::ErrorKind::UnequalLengths { expected_len, len, .. } => { /// assert_eq!(expected_len, 2); /// assert_eq!(len, 3); /// } /// ref wrong => { /// panic!("expected UnequalLengths but got {:?}", wrong); /// } /// } /// Ok(()) /// } /// ``` pub fn flexible(&mut self, yes: bool) -> &mut WriterBuilder { self.flexible = yes; self } /// The record terminator to use when writing CSV. /// /// A record terminator can be any single byte. The default is `\n`. /// /// Note that RFC 4180 specifies that record terminators should be `\r\n`. /// To use `\r\n`, use the special `Terminator::CRLF` value. /// /// # Example: CRLF /// /// This shows how to use RFC 4180 compliant record terminators. /// /// ``` /// use std::error::Error; /// use csv::{Terminator, WriterBuilder}; /// /// # fn main() { example().unwrap(); } /// fn example() -> Result<(), Box<dyn Error>> { /// let mut wtr = WriterBuilder::new() /// .terminator(Terminator::CRLF) /// .from_writer(vec![]); /// wtr.write_record(&["a", "b", "c"])?; /// wtr.write_record(&["x", "y", "z"])?; /// /// let data = String::from_utf8(wtr.into_inner()?)?; /// assert_eq!(data, "a,b,c\r\nx,y,z\r\n"); /// Ok(()) /// } /// ``` pub fn terminator(&mut self, term: Terminator) -> &mut WriterBuilder { self.builder.terminator(term.to_core()); self } /// The quoting style to use when writing CSV. /// /// By default, this is set to `QuoteStyle::Necessary`, which will only /// use quotes when they are necessary to preserve the integrity of data. /// /// Note that unless the quote style is set to `Never`, an empty field is /// quoted if it is the only field in a record. /// /// # Example: non-numeric quoting /// /// This shows how to quote non-numeric fields only. /// /// ``` /// use std::error::Error; /// use csv::{QuoteStyle, WriterBuilder}; /// /// # fn main() { example().unwrap(); } /// fn example() -> Result<(), Box<dyn Error>> { /// let mut wtr = WriterBuilder::new() /// .quote_style(QuoteStyle::NonNumeric) /// .from_writer(vec![]); /// wtr.write_record(&["a", "5", "c"])?; /// wtr.write_record(&["3.14", "y", "z"])?; /// /// let data = String::from_utf8(wtr.into_inner()?)?; /// assert_eq!(data, "\"a\",5,\"c\"\n3.14,\"y\",\"z\"\n"); /// Ok(()) /// } /// ``` /// /// # Example: never quote /// /// This shows how the CSV writer can be made to never write quotes, even /// if it sacrifices the integrity of the data. /// /// ``` /// use std::error::Error; /// use csv::{QuoteStyle, WriterBuilder}; /// /// # fn main() { example().unwrap(); } /// fn example() -> Result<(), Box<dyn Error>> { /// let mut wtr = WriterBuilder::new() /// .quote_style(QuoteStyle::Never) /// .from_writer(vec![]); /// wtr.write_record(&["a", "foo\nbar", "c"])?; /// wtr.write_record(&["g\"h\"i", "y", "z"])?; /// /// let data = String::from_utf8(wtr.into_inner()?)?; /// assert_eq!(data, "a,foo\nbar,c\ng\"h\"i,y,z\n"); /// Ok(()) /// } /// ``` pub fn quote_style(&mut self, style: QuoteStyle) -> &mut WriterBuilder { self.builder.quote_style(style.to_core()); self } /// The quote character to use when writing CSV. /// /// The default is `b'"'`. /// /// # Example /// /// ``` /// use std::error::Error; /// use csv::WriterBuilder; /// /// # fn main() { example().unwrap(); } /// fn example() -> Result<(), Box<dyn Error>> { /// let mut wtr = WriterBuilder::new() /// .quote(b'\'') /// .from_writer(vec![]); /// wtr.write_record(&["a", "foo\nbar", "c"])?; /// wtr.write_record(&["g'h'i", "y\"y\"y", "z"])?; /// /// let data = String::from_utf8(wtr.into_inner()?)?; /// assert_eq!(data, "a,'foo\nbar',c\n'g''h''i',y\"y\"y,z\n"); /// Ok(()) /// } /// ``` pub fn quote(&mut self, quote: u8) -> &mut WriterBuilder { self.builder.quote(quote); self } /// Enable double quote escapes. /// /// This is enabled by default, but it may be disabled. When disabled, /// quotes in field data are escaped instead of doubled. /// /// # Example /// /// ``` /// use std::error::Error; /// use csv::WriterBuilder; /// /// # fn main() { example().unwrap(); } /// fn example() -> Result<(), Box<dyn Error>> { /// let mut wtr = WriterBuilder::new() /// .double_quote(false) /// .from_writer(vec![]); /// wtr.write_record(&["a", "foo\"bar", "c"])?; /// wtr.write_record(&["x", "y", "z"])?; /// /// let data = String::from_utf8(wtr.into_inner()?)?; /// assert_eq!(data, "a,\"foo\\\"bar\",c\nx,y,z\n"); /// Ok(()) /// } /// ``` pub fn double_quote(&mut self, yes: bool) -> &mut WriterBuilder { self.builder.double_quote(yes); self } /// The escape character to use when writing CSV. /// /// In some variants of CSV, quotes are escaped using a special escape /// character like `\` (instead of escaping quotes by doubling them). /// /// By default, writing these idiosyncratic escapes is disabled, and is /// only used when `double_quote` is disabled. /// /// # Example /// /// ``` /// use std::error::Error; /// use csv::WriterBuilder; /// /// # fn main() { example().unwrap(); } /// fn example() -> Result<(), Box<dyn Error>> { /// let mut wtr = WriterBuilder::new() /// .double_quote(false) /// .escape(b'$') /// .from_writer(vec![]); /// wtr.write_record(&["a", "foo\"bar", "c"])?; /// wtr.write_record(&["x", "y", "z"])?; /// /// let data = String::from_utf8(wtr.into_inner()?)?; /// assert_eq!(data, "a,\"foo$\"bar\",c\nx,y,z\n"); /// Ok(()) /// } /// ``` pub fn escape(&mut self, escape: u8) -> &mut WriterBuilder { self.builder.escape(escape); self } /// Set the capacity (in bytes) of the internal buffer used in the CSV /// writer. This defaults to a reasonable setting. pub fn buffer_capacity(&mut self, capacity: usize) -> &mut WriterBuilder { self.capacity = capacity; self } } /// A already configured CSV writer. /// /// A CSV writer takes as input Rust values and writes those values in a valid /// CSV format as output. /// /// While CSV writing is considerably easier than parsing CSV, a proper writer /// will do a number of things for you: /// /// 1. Quote fields when necessary. /// 2. Check that all records have the same number of fields. /// 3. Write records with a single empty field correctly. /// 4. Automatically serialize normal Rust types to CSV records. When that /// type is a struct, a header row is automatically written corresponding /// to the fields of that struct. /// 5. Use buffering intelligently and otherwise avoid allocation. (This means /// that callers should not do their own buffering.) /// /// All of the above can be configured using a /// [`WriterBuilder`](struct.WriterBuilder.html). /// However, a `Writer` has a couple of convenience constructors (`from_path` /// and `from_writer`) that use the default configuration. /// /// Note that the default configuration of a `Writer` uses `\n` for record /// terminators instead of `\r\n` as specified by RFC 4180. Use the /// `terminator` method on `WriterBuilder` to set the terminator to `\r\n` if /// it's desired. #[derive(Debug)] pub struct Writer<W: io::Write> { core: CoreWriter, wtr: Option<W>, buf: Buffer, state: WriterState, } #[derive(Debug)] struct WriterState { /// Whether the Serde serializer should attempt to write a header row. header: HeaderState, /// Whether inconsistent record lengths are allowed. flexible: bool, /// The number of fields writtein in the first record. This is compared /// with `fields_written` on all subsequent records to check for /// inconsistent record lengths. first_field_count: Option<u64>, /// The number of fields written in this record. This is used to report /// errors for inconsistent record lengths if `flexible` is disabled. fields_written: u64, /// This is set immediately before flushing the buffer and then unset /// immediately after flushing the buffer. This avoids flushing the buffer /// twice if the inner writer panics. panicked: bool, } /// HeaderState encodes a small state machine for handling header writes. #[derive(Debug)] enum HeaderState { /// Indicates that we should attempt to write a header. Write, /// Indicates that writing a header was attempt, and a header was written. DidWrite, /// Indicates that writing a header was attempted, but no headers were /// written or the attempt failed. DidNotWrite, /// This state is used when headers are disabled. It cannot transition /// to any other state. None, } /// A simple internal buffer for buffering writes. /// /// We need this because the `csv_core` APIs want to write into a `&mut [u8]`, /// which is not available with the `std::io::BufWriter` API. #[derive(Debug)] struct Buffer { /// The contents of the buffer. buf: Vec<u8>, /// The number of bytes written to the buffer. len: usize, } impl<W: io::Write> Drop for Writer<W> { fn drop(&mut self) { if self.wtr.is_some() && !self.state.panicked { let _ = self.flush(); } } } impl Writer<File> { /// Build a CSV writer with a default configuration that writes data to the /// given file path. The file is truncated if it already exists. /// /// If there was a problem opening the file at the given path, then this /// returns the corresponding error. /// /// # Example /// /// ```no_run /// use std::error::Error; /// use csv::Writer; /// /// # fn main() { example().unwrap(); } /// fn example() -> Result<(), Box<dyn Error>> { /// let mut wtr = Writer::from_path("foo.csv")?; /// wtr.write_record(&["a", "b", "c"])?; /// wtr.write_record(&["x", "y", "z"])?; /// wtr.flush()?; /// Ok(()) /// } /// ``` pub fn from_path<P: AsRef<Path>>(path: P) -> Result<Writer<File>> { WriterBuilder::new().from_path(path) } } impl<W: io::Write> Writer<W> { fn new(builder: &WriterBuilder, wtr: W) -> Writer<W> { let header_state = if builder.has_headers { HeaderState::Write } else { HeaderState::None }; Writer { core: builder.builder.build(), wtr: Some(wtr), buf: Buffer { buf: vec![0; builder.capacity], len: 0 }, state: WriterState { header: header_state, flexible: builder.flexible, first_field_count: None, fields_written: 0, panicked: false, }, } } /// Build a CSV writer with a default configuration that writes data to /// `wtr`. /// /// Note that the CSV writer is buffered automatically, so you should not /// wrap `wtr` in a buffered writer like `io::BufWriter`. /// /// # Example /// /// ``` /// use std::error::Error; /// use csv::Writer; /// /// # fn main() { example().unwrap(); } /// fn example() -> Result<(), Box<dyn Error>> { /// let mut wtr = Writer::from_writer(vec![]); /// wtr.write_record(&["a", "b", "c"])?; /// wtr.write_record(&["x", "y", "z"])?; /// /// let data = String::from_utf8(wtr.into_inner()?)?; /// assert_eq!(data, "a,b,c\nx,y,z\n"); /// Ok(()) /// } /// ``` pub fn from_writer(wtr: W) -> Writer<W> { WriterBuilder::new().from_writer(wtr) } /// Serialize a single record using Serde. /// /// # Example /// /// This shows how to serialize normal Rust structs as CSV records. The /// fields of the struct are used to write a header row automatically. /// (Writing the header row automatically can be disabled by building the /// CSV writer with a [`WriterBuilder`](struct.WriterBuilder.html) and /// calling the `has_headers` method.) /// /// ``` /// use std::error::Error; /// /// use csv::Writer; /// use serde::Serialize; /// /// #[derive(Serialize)] /// struct Row<'a> { /// city: &'a str, /// country: &'a str, /// // Serde allows us to name our headers exactly, /// // even if they don't match our struct field names. /// #[serde(rename = "popcount")] /// population: u64, /// } /// /// # fn main() { example().unwrap(); } /// fn example() -> Result<(), Box<dyn Error>> { /// let mut wtr = Writer::from_writer(vec![]); /// wtr.serialize(Row { /// city: "Boston", /// country: "United States", /// population: 4628910, /// })?; /// wtr.serialize(Row { /// city: "Concord", /// country: "United States", /// population: 42695, /// })?; /// /// let data = String::from_utf8(wtr.into_inner()?)?; /// assert_eq!(data, "\ /// city,country,popcount /// Boston,United States,4628910 /// Concord,United States,42695 /// "); /// Ok(()) /// } /// ``` /// /// # Rules /// /// The behavior of `serialize` is fairly simple: /// /// 1. Nested containers (tuples, `Vec`s, structs, etc.) are always /// flattened (depth-first order). /// /// 2. If `has_headers` is `true` and the type contains field names, then /// a header row is automatically generated. /// /// However, some container types cannot be serialized, and if /// `has_headers` is `true`, there are some additional restrictions on the /// types that can be serialized. See below for details. /// /// For the purpose of this section, Rust types can be divided into three /// categories: scalars, non-struct containers, and structs. /// /// ## Scalars /// /// Single values with no field names are written like the following. Note /// that some of the outputs may be quoted, according to the selected /// quoting style. /// /// | Name | Example Type | Example Value | Output | /// | ---- | ---- | ---- | ---- | /// | boolean | `bool` | `true` | `true` | /// | integers | `i8`, `i16`, `i32`, `i64`, `i128`, `u8`, `u16`, `u32`, `u64`, `u128` | `5` | `5` | /// | floats | `f32`, `f64` | `3.14` | `3.14` | /// | character | `char` | `'☃'` | `☃` | /// | string | `&str` | `"hi"` | `hi` | /// | bytes | `&[u8]` | `b"hi"[..]` | `hi` | /// | option | `Option` | `None` | *empty* | /// | option | | `Some(5)` | `5` | /// | unit | `()` | `()` | *empty* | /// | unit struct | `struct Foo;` | `Foo` | `Foo` | /// | unit enum variant | `enum E { A, B }` | `E::A` | `A` | /// | newtype struct | `struct Foo(u8);` | `Foo(5)` | `5` | /// | newtype enum variant | `enum E { A(u8) }` | `E::A(5)` | `5` | /// /// Note that this table includes simple structs and enums. For example, to /// serialize a field from either an integer or a float type, one can do /// this: /// /// ``` /// use std::error::Error; /// /// use csv::Writer; /// use serde::Serialize; /// /// #[derive(Serialize)] /// struct Row { /// label: String, /// value: Value, /// } /// /// #[derive(Serialize)] /// enum Value { /// Integer(i64), /// Float(f64), /// } /// /// # fn main() { example().unwrap(); } /// fn example() -> Result<(), Box<dyn Error>> { /// let mut wtr = Writer::from_writer(vec![]); /// wtr.serialize(Row { /// label: "foo".to_string(), /// value: Value::Integer(3), /// })?; /// wtr.serialize(Row { /// label: "bar".to_string(), /// value: Value::Float(3.14), /// })?; /// /// let data = String::from_utf8(wtr.into_inner()?)?; /// assert_eq!(data, "\ /// label,value /// foo,3 /// bar,3.14 /// "); /// Ok(()) /// } /// ``` /// /// ## Non-Struct Containers /// /// Nested containers are flattened to their scalar components, with the /// exception of a few types that are not allowed: /// /// | Name | Example Type | Example Value | Output | /// | ---- | ---- | ---- | ---- | /// | sequence | `Vec<u8>` | `vec![1, 2, 3]` | `1,2,3` | /// | tuple | `(u8, bool)` | `(5, true)` | `5,true` | /// | tuple struct | `Foo(u8, bool)` | `Foo(5, true)` | `5,true` | /// | tuple enum variant | `enum E { A(u8, bool) }` | `E::A(5, true)` | *error* | /// | struct enum variant | `enum E { V { a: u8, b: bool } }` | `E::V { a: 5, b: true }` | *error* | /// | map | `BTreeMap<K, V>` | `BTreeMap::new()` | *error* | /// /// ## Structs /// /// Like the other containers, structs are flattened to their scalar /// components: /// /// | Name | Example Type | Example Value | Output | /// | ---- | ---- | ---- | ---- | /// | struct | `struct Foo { a: u8, b: bool }` | `Foo { a: 5, b: true }` | `5,true` | /// /// If `has_headers` is `false`, then there are no additional restrictions; /// types can be nested arbitrarily. For example: /// /// ``` /// use std::error::Error; /// /// use csv::WriterBuilder; /// use serde::Serialize; /// /// #[derive(Serialize)] /// struct Row { /// label: String, /// values: Vec<f64>, /// } /// /// # fn main() { example().unwrap(); } /// fn example() -> Result<(), Box<dyn Error>> { /// let mut wtr = WriterBuilder::new() /// .has_headers(false) /// .from_writer(vec![]); /// wtr.serialize(Row { /// label: "foo".to_string(), /// values: vec![1.1234, 2.5678, 3.14], /// })?; /// /// let data = String::from_utf8(wtr.into_inner()?)?; /// assert_eq!(data, "\ /// foo,1.1234,2.5678,3.14 /// "); /// Ok(()) /// } /// ``` /// /// However, if `has_headers` were enabled in the above example, then /// serialization would return an error. Specifically, when `has_headers` is /// `true`, there are two restrictions: /// /// 1. Named field values in structs must be scalars. /// /// 2. All scalars must be named field values in structs. /// /// Other than these two restrictions, types can be nested arbitrarily. /// Here are a few examples: /// /// | Value | Header | Record | /// | ---- | ---- | ---- | /// | `(Foo { x: 5, y: 6 }, Bar { z: true })` | `x,y,z` | `5,6,true` | /// | `vec![Foo { x: 5, y: 6 }, Foo { x: 7, y: 8 }]` | `x,y,x,y` | `5,6,7,8` | /// | `(Foo { x: 5, y: 6 }, vec![Bar { z: Baz(true) }])` | `x,y,z` | `5,6,true` | /// | `Foo { x: 5, y: (6, 7) }` | *error: restriction 1* | `5,6,7` | /// | `(5, Foo { x: 6, y: 7 }` | *error: restriction 2* | `5,6,7` | /// | `(Foo { x: 5, y: 6 }, true)` | *error: restriction 2* | `5,6,true` | pub fn serialize<S: Serialize>(&mut self, record: S) -> Result<()> { if let HeaderState::Write = self.state.header { let wrote_header = serialize_header(self, &record)?; if wrote_header { self.write_terminator()?; self.state.header = HeaderState::DidWrite; } else { self.state.header = HeaderState::DidNotWrite; }; } serialize(self, &record)?; self.write_terminator()?; Ok(()) } /// Write a single record. /// /// This method accepts something that can be turned into an iterator that /// yields elements that can be represented by a `&[u8]`. /// /// This may be called with an empty iterator, which will cause a record /// terminator to be written. If no fields had been written, then a single /// empty field is written before the terminator. /// /// # Example /// /// ``` /// use std::error::Error; /// use csv::Writer; /// /// # fn main() { example().unwrap(); } /// fn example() -> Result<(), Box<dyn Error>> { /// let mut wtr = Writer::from_writer(vec![]); /// wtr.write_record(&["a", "b", "c"])?; /// wtr.write_record(&["x", "y", "z"])?; /// /// let data = String::from_utf8(wtr.into_inner()?)?; /// assert_eq!(data, "a,b,c\nx,y,z\n"); /// Ok(()) /// } /// ``` pub fn write_record<I, T>(&mut self, record: I) -> Result<()> where I: IntoIterator<Item = T>, T: AsRef<[u8]>, { for field in record.into_iter() { self.write_field_impl(field)?; } self.write_terminator() } /// Write a single `ByteRecord`. /// /// This method accepts a borrowed `ByteRecord` and writes its contents /// to the underlying writer. /// /// This is similar to `write_record` except that it specifically requires /// a `ByteRecord`. This permits the writer to possibly write the record /// more quickly than the more generic `write_record`. /// /// This may be called with an empty record, which will cause a record /// terminator to be written. If no fields had been written, then a single /// empty field is written before the terminator. /// /// # Example /// /// ``` /// use std::error::Error; /// use csv::{ByteRecord, Writer}; /// /// # fn main() { example().unwrap(); } /// fn example() -> Result<(), Box<dyn Error>> { /// let mut wtr = Writer::from_writer(vec![]); /// wtr.write_byte_record(&ByteRecord::from(&["a", "b", "c"][..]))?; /// wtr.write_byte_record(&ByteRecord::from(&["x", "y", "z"][..]))?; /// /// let data = String::from_utf8(wtr.into_inner()?)?; /// assert_eq!(data, "a,b,c\nx,y,z\n"); /// Ok(()) /// } /// ``` #[inline(never)] pub fn write_byte_record(&mut self, record: &ByteRecord) -> Result<()> { if record.as_slice().is_empty() { return self.write_record(record); } // The idea here is to find a fast path for shuffling our record into // our buffer as quickly as possible. We do this because the underlying // "core" CSV writer does a lot of book-keeping to maintain its state // oriented API. // // The fast path occurs when we know our record will fit in whatever // space we have left in our buffer. We can actually quickly compute // the upper bound on the space required: let upper_bound = // The data itself plus the worst case: every byte is a quote. (2 * record.as_slice().len()) // The number of field delimiters. + (record.len().saturating_sub(1)) // The maximum number of quotes inserted around each field. + (2 * record.len()) // The maximum number of bytes for the terminator. + 2; if self.buf.writable().len() < upper_bound { return self.write_record(record); } let mut first = true; for field in record.iter() { if !first { self.buf.writable()[0] = self.core.get_delimiter(); self.buf.written(1); } first = false; if !self.core.should_quote(field) { self.buf.writable()[..field.len()].copy_from_slice(field); self.buf.written(field.len()); } else { self.buf.writable()[0] = self.core.get_quote(); self.buf.written(1); let (res, nin, nout) = csv_core::quote( field, self.buf.writable(), self.core.get_quote(), self.core.get_escape(), self.core.get_double_quote(), ); debug_assert!(res == WriteResult::InputEmpty); debug_assert!(nin == field.len()); self.buf.written(nout); self.buf.writable()[0] = self.core.get_quote(); self.buf.written(1); } } self.state.fields_written = record.len() as u64; self.write_terminator_into_buffer() } /// Write a single field. /// /// One should prefer using `write_record` over this method. It is provided /// for cases where writing a field at a time is more convenient than /// writing a record at a time. /// /// Note that if this API is used, `write_record` should be called with an /// empty iterator to write a record terminator. /// /// # Example /// /// ``` /// use std::error::Error; /// use csv::Writer; /// /// # fn main() { example().unwrap(); } /// fn example() -> Result<(), Box<dyn Error>> { /// let mut wtr = Writer::from_writer(vec![]); /// wtr.write_field("a")?; /// wtr.write_field("b")?; /// wtr.write_field("c")?; /// wtr.write_record(None::<&[u8]>)?; /// wtr.write_field("x")?; /// wtr.write_field("y")?; /// wtr.write_field("z")?; /// wtr.write_record(None::<&[u8]>)?; /// /// let data = String::from_utf8(wtr.into_inner()?)?; /// assert_eq!(data, "a,b,c\nx,y,z\n"); /// Ok(()) /// } /// ``` pub fn write_field<T: AsRef<[u8]>>(&mut self, field: T) -> Result<()> { self.write_field_impl(field) } /// Implementation of write_field. /// /// This is a separate method so we can force the compiler to inline it /// into write_record. #[inline(always)] fn write_field_impl<T: AsRef<[u8]>>(&mut self, field: T) -> Result<()> { if self.state.fields_written > 0 { self.write_delimiter()?; } let mut field = field.as_ref(); loop { let (res, nin, nout) = self.core.field(field, self.buf.writable()); field = &field[nin..]; self.buf.written(nout); match res { WriteResult::InputEmpty => { self.state.fields_written += 1; return Ok(()); } WriteResult::OutputFull => self.flush_buf()?, } } } /// Flush the contents of the internal buffer to the underlying writer. /// /// If there was a problem writing to the underlying writer, then an error /// is returned. /// /// Note that this also flushes the underlying writer. pub fn flush(&mut self) -> io::Result<()> { self.flush_buf()?; self.wtr.as_mut().unwrap().flush()?; Ok(()) } /// Flush the contents of the internal buffer to the underlying writer, /// without flushing the underlying writer. fn flush_buf(&mut self) -> io::Result<()> { self.state.panicked = true; let result = self.wtr.as_mut().unwrap().write_all(self.buf.readable()); self.state.panicked = false; result?; self.buf.clear(); Ok(()) } /// Flush the contents of the internal buffer and return the underlying /// writer. pub fn into_inner( mut self, ) -> result::Result<W, IntoInnerError<Writer<W>>> { match self.flush() { Ok(()) => Ok(self.wtr.take().unwrap()), Err(err) => Err(IntoInnerError::new(self, err)), } } /// Write a CSV delimiter. fn write_delimiter(&mut self) -> Result<()> { loop { let (res, nout) = self.core.delimiter(self.buf.writable()); self.buf.written(nout); match res { WriteResult::InputEmpty => return Ok(()), WriteResult::OutputFull => self.flush_buf()?, } } } /// Write a CSV terminator. fn write_terminator(&mut self) -> Result<()> { self.check_field_count()?; loop { let (res, nout) = self.core.terminator(self.buf.writable()); self.buf.written(nout); match res { WriteResult::InputEmpty => { self.state.fields_written = 0; return Ok(()); } WriteResult::OutputFull => self.flush_buf()?, } } } /// Write a CSV terminator that is guaranteed to fit into the current /// buffer. #[inline(never)] fn write_terminator_into_buffer(&mut self) -> Result<()> { self.check_field_count()?; match self.core.get_terminator() { csv_core::Terminator::CRLF => { self.buf.writable()[0] = b'\r'; self.buf.writable()[1] = b'\n'; self.buf.written(2); } csv_core::Terminator::Any(b) => { self.buf.writable()[0] = b; self.buf.written(1); } _ => unreachable!(), } self.state.fields_written = 0; Ok(()) } fn check_field_count(&mut self) -> Result<()> { if !self.state.flexible { match self.state.first_field_count { None => { self.state.first_field_count = Some(self.state.fields_written); } Some(expected) if expected != self.state.fields_written => { return Err(Error::new(ErrorKind::UnequalLengths { pos: None, expected_len: expected, len: self.state.fields_written, })) } Some(_) => {} } } Ok(()) } } impl Buffer { /// Returns a slice of the buffer's current contents. /// /// The slice returned may be empty. #[inline] fn readable(&self) -> &[u8] { &self.buf[..self.len] } /// Returns a mutable slice of the remaining space in this buffer. /// /// The slice returned may be empty. #[inline] fn writable(&mut self) -> &mut [u8] { &mut self.buf[self.len..] } /// Indicates that `n` bytes have been written to this buffer. #[inline] fn written(&mut self, n: usize) { self.len += n; } /// Clear the buffer. #[inline] fn clear(&mut self) { self.len = 0; } } #[cfg(test)] mod tests { use serde::{serde_if_integer128, Serialize}; use std::io::{self, Write}; use crate::byte_record::ByteRecord; use crate::error::ErrorKind; use crate::string_record::StringRecord; use super::{Writer, WriterBuilder}; fn wtr_as_string(wtr: Writer<Vec<u8>>) -> String { String::from_utf8(wtr.into_inner().unwrap()).unwrap() } #[test] fn one_record() { let mut wtr = WriterBuilder::new().from_writer(vec![]); wtr.write_record(&["a", "b", "c"]).unwrap(); assert_eq!(wtr_as_string(wtr), "a,b,c\n"); } #[test] fn one_string_record() { let mut wtr = WriterBuilder::new().from_writer(vec![]); wtr.write_record(&StringRecord::from(vec!["a", "b", "c"])).unwrap(); assert_eq!(wtr_as_string(wtr), "a,b,c\n"); } #[test] fn one_byte_record() { let mut wtr = WriterBuilder::new().from_writer(vec![]); wtr.write_record(&ByteRecord::from(vec!["a", "b", "c"])).unwrap(); assert_eq!(wtr_as_string(wtr), "a,b,c\n"); } #[test] fn raw_one_byte_record() { let mut wtr = WriterBuilder::new().from_writer(vec![]); wtr.write_byte_record(&ByteRecord::from(vec!["a", "b", "c"])).unwrap(); assert_eq!(wtr_as_string(wtr), "a,b,c\n"); } #[test] fn one_empty_record() { let mut wtr = WriterBuilder::new().from_writer(vec![]); wtr.write_record(&[""]).unwrap(); assert_eq!(wtr_as_string(wtr), "\"\"\n"); } #[test] fn raw_one_empty_record() { let mut wtr = WriterBuilder::new().from_writer(vec![]); wtr.write_byte_record(&ByteRecord::from(vec![""])).unwrap(); assert_eq!(wtr_as_string(wtr), "\"\"\n"); } #[test] fn two_empty_records() { let mut wtr = WriterBuilder::new().from_writer(vec![]); wtr.write_record(&[""]).unwrap(); wtr.write_record(&[""]).unwrap(); assert_eq!(wtr_as_string(wtr), "\"\"\n\"\"\n"); } #[test] fn raw_two_empty_records() { let mut wtr = WriterBuilder::new().from_writer(vec![]); wtr.write_byte_record(&ByteRecord::from(vec![""])).unwrap(); wtr.write_byte_record(&ByteRecord::from(vec![""])).unwrap(); assert_eq!(wtr_as_string(wtr), "\"\"\n\"\"\n"); } #[test] fn unequal_records_bad() { let mut wtr = WriterBuilder::new().from_writer(vec![]); wtr.write_record(&ByteRecord::from(vec!["a", "b", "c"])).unwrap(); let err = wtr.write_record(&ByteRecord::from(vec!["a"])).unwrap_err(); match *err.kind() { ErrorKind::UnequalLengths { ref pos, expected_len, len } => { assert!(pos.is_none()); assert_eq!(expected_len, 3); assert_eq!(len, 1); } ref x => { panic!("expected UnequalLengths error, but got '{:?}'", x); } } } #[test] fn raw_unequal_records_bad() { let mut wtr = WriterBuilder::new().from_writer(vec![]); wtr.write_byte_record(&ByteRecord::from(vec!["a", "b", "c"])).unwrap(); let err = wtr.write_byte_record(&ByteRecord::from(vec!["a"])).unwrap_err(); match *err.kind() { ErrorKind::UnequalLengths { ref pos, expected_len, len } => { assert!(pos.is_none()); assert_eq!(expected_len, 3); assert_eq!(len, 1); } ref x => { panic!("expected UnequalLengths error, but got '{:?}'", x); } } } #[test] fn unequal_records_ok() { let mut wtr = WriterBuilder::new().flexible(true).from_writer(vec![]); wtr.write_record(&ByteRecord::from(vec!["a", "b", "c"])).unwrap(); wtr.write_record(&ByteRecord::from(vec!["a"])).unwrap(); assert_eq!(wtr_as_string(wtr), "a,b,c\na\n"); } #[test] fn raw_unequal_records_ok() { let mut wtr = WriterBuilder::new().flexible(true).from_writer(vec![]); wtr.write_byte_record(&ByteRecord::from(vec!["a", "b", "c"])).unwrap(); wtr.write_byte_record(&ByteRecord::from(vec!["a"])).unwrap(); assert_eq!(wtr_as_string(wtr), "a,b,c\na\n"); } #[test] fn full_buffer_should_not_flush_underlying() { struct MarkWriteAndFlush(Vec<u8>); impl MarkWriteAndFlush { fn to_str(self) -> String { String::from_utf8(self.0).unwrap() } } impl Write for MarkWriteAndFlush { fn write(&mut self, data: &[u8]) -> io::Result<usize> { self.0.write(b">")?; let written = self.0.write(data)?; self.0.write(b"<")?; Ok(written) } fn flush(&mut self) -> io::Result<()> { self.0.write(b"!")?; Ok(()) } } let underlying = MarkWriteAndFlush(vec![]); let mut wtr = WriterBuilder::new().buffer_capacity(4).from_writer(underlying); wtr.write_byte_record(&ByteRecord::from(vec!["a", "b"])).unwrap(); wtr.write_byte_record(&ByteRecord::from(vec!["c", "d"])).unwrap(); wtr.flush().unwrap(); wtr.write_byte_record(&ByteRecord::from(vec!["e", "f"])).unwrap(); let got = wtr.into_inner().unwrap().to_str(); // As the buffer size is 4 we should write each record separately, and // flush when explicitly called and implictly in into_inner. assert_eq!(got, ">a,b\n<>c,d\n<!>e,f\n<!"); } #[test] fn serialize_with_headers() { #[derive(Serialize)] struct Row { foo: i32, bar: f64, baz: bool, } let mut wtr = WriterBuilder::new().from_writer(vec![]); wtr.serialize(Row { foo: 42, bar: 42.5, baz: true }).unwrap(); assert_eq!(wtr_as_string(wtr), "foo,bar,baz\n42,42.5,true\n"); } #[test] fn serialize_no_headers() { #[derive(Serialize)] struct Row { foo: i32, bar: f64, baz: bool, } let mut wtr = WriterBuilder::new().has_headers(false).from_writer(vec![]); wtr.serialize(Row { foo: 42, bar: 42.5, baz: true }).unwrap(); assert_eq!(wtr_as_string(wtr), "42,42.5,true\n"); } serde_if_integer128! { #[test] fn serialize_no_headers_128() { #[derive(Serialize)] struct Row { foo: i128, bar: f64, baz: bool, } let mut wtr = WriterBuilder::new().has_headers(false).from_writer(vec![]); wtr.serialize(Row { foo: 9_223_372_036_854_775_808, bar: 42.5, baz: true, }).unwrap(); assert_eq!(wtr_as_string(wtr), "9223372036854775808,42.5,true\n"); } } #[test] fn serialize_tuple() { let mut wtr = WriterBuilder::new().from_writer(vec![]); wtr.serialize((true, 1.3, "hi")).unwrap(); assert_eq!(wtr_as_string(wtr), "true,1.3,hi\n"); } }