Expand description
dbase is rust library meant to read and write dBase / FoxPro files.
Theses files are nowadays generally only found in association with shapefiles.
Reading
The Reader is the struct that you’ll need to use in order to read the content of a dBase file.
Once you have access to the records, you will have to match
against the real
FieldValue
Examples
use dbase::FieldValue;
let records = dbase::read("tests/data/line.dbf")?;
for record in records {
for (name, value) in record {
println!("{} -> {:?}", name, value);
match value {
FieldValue::Character(Some(string)) => println!("Got string: {}", string),
FieldValue::Numeric(value) => println!("Got numeric value of {:?}", value),
_ => {}
}
}
}
You can also create a Reader and iterate over the records.
let mut reader = dbase::Reader::from_path("tests/data/line.dbf")?;
for record_result in reader.iter_records() {
let record = record_result?;
for (name, value) in record {
println!("name: {}, value: {:?}", name, value);
}
}
Deserialisation
If you know what kind of data to expect from a particular file you can use implement the ReadbableRecord trait to “deserialize” the record into your custom struct:
use std::io::{Read, Seek};
use dbase::Encoding;
struct StationRecord {
name: String,
marker_col: String,
marker_sym: String,
line: String,
}
impl dbase::ReadableRecord for StationRecord {
fn read_using<T>(field_iterator: &mut dbase::FieldIterator<T>) -> Result<Self, dbase::FieldIOError>
where T: Read + Seek
{
use dbase::Encoding;Ok(Self {
name: field_iterator.read_next_field_as()?.value,
marker_col: field_iterator.read_next_field_as()?.value,
marker_sym: field_iterator.read_next_field_as()?.value,
line: field_iterator.read_next_field_as()?.value,
})
}
}
let mut reader = dbase::Reader::from_path("tests/data/stations.dbf")?;
let stations = reader.read_as::<StationRecord>()?;
assert_eq!(stations[0].name, "Van Dorn Street");
assert_eq!(stations[0].marker_col, "#0000ff");
assert_eq!(stations[0].marker_sym, "rail-metro");
assert_eq!(stations[0].line, "blue");
If you use the serde
optional feature and serde_derive crate you can have the
ReadbableRecord impletemented for you
extern crate serde_derive;
use std::io::{Read, Seek};
use serde_derive::Deserialize;
#[derive(Deserialize)]
struct StationRecord {
name: String,
marker_col: String,
marker_sym: String,
line: String,
}
let mut reader = dbase::Reader::from_path("tests/data/stations.dbf")?;
let stations = reader.read_as::<StationRecord>()?;
assert_eq!(stations[0].name, "Van Dorn Street");
assert_eq!(stations[0].marker_col, "#0000ff");
assert_eq!(stations[0].marker_sym, "rail-metro");
assert_eq!(stations[0].line, "blue");
Other Codepages / Encodings
Support for encodings other than Unicode is provided via the crate [yore
].
This crate only supports some basic single-byte codepages, but many of those
were used by older systems, which dBase databases you may want to open might use.
use yore::code_pages::CP850;
let mut reader = dbase::Reader::from_path_with_encoding("tests/data/cp850.dbf", CP850)?;
let records = reader.read()?;
assert_eq!(records[0].get("TEXT"), Some(&dbase::FieldValue::Character(Some("Äöü!§$%&/".to_string()))));
The functions that do not take an encoding as parameter, use UnicodeLossy
by default,
they try to read all data as Unicode and replace unrepresentable characters with the unicode
replacement character. Alternatively Unicode
is available, to return an Err
when data
can’t be represented as Unicode.
Writing
In order to get a TableWriter you will need to build it using its TableWriterBuilder to specify the fields that constitute a record.
As for reading, you can serialize structs into a dBase file, given that they match the declared fields in when building the TableWriterBuilder by implementing the WritableRecord.
Examples
let mut reader = dbase::Reader::from_path("tests/data/stations.dbf")?;
let mut stations = reader.read()?;
let mut writer = dbase::TableWriterBuilder::from_reader(reader)
.build_with_file_dest("stations.dbf").unwrap();
stations[0].get_mut("line").and_then(|_old| Some("Red".to_string()));
writer.write_records(&stations)?;
use dbase::{TableWriterBuilder, FieldName, WritableRecord, FieldWriter, FieldIOError, Encoding};
use std::convert::TryFrom;
use std::io::{Cursor, Write};
struct User {
nick_name: String,
age: f64
}
impl WritableRecord for User {
fn write_using<'a, W>(&self, field_writer: &mut FieldWriter<'a, W>) -> Result<(), FieldIOError>
where W: Write
{
field_writer.write_next_field_value(&self.nick_name)?;
field_writer.write_next_field_value(&self.age)?;
Ok(())
}
}
let mut writer = TableWriterBuilder::new()
.add_character_field(FieldName::try_from("Nick Name").unwrap(), 50)
.add_numeric_field(FieldName::try_from("Age").unwrap(), 20, 10)
.build_with_dest(Cursor::new(Vec::<u8>::new()));
let records = User{
nick_name: "Yoshi".to_string(),
age: 32.0,
};
writer.write_record(&records).unwrap();
If you use the serde optional feature and serde_derive crate you can have the WritableRecord implemented for you.
extern crate serde_derive;
use serde_derive::Serialize;
use dbase::{TableWriterBuilder, FieldName, WritableRecord, FieldWriter};
use std::convert::TryFrom;
use std::io::{Cursor, Write};
#[derive(Serialize)]
struct User {
nick_name: String,
age: f64
}
let writer = TableWriterBuilder::new()
.add_character_field(FieldName::try_from("Nick Name").unwrap(), 50)
.add_numeric_field(FieldName::try_from("Age").unwrap(), 20, 10)
.build_with_dest(Cursor::new(Vec::<u8>::new()));
let records = vec![User{
nick_name: "Yoshi".to_string(),
age: 32.0,
}];
writer.write_records(&records);
Re-exports
pub use crate::encoding::Encoding;
pub use crate::encoding::Unicode;
pub use crate::encoding::UnicodeLossy;
Modules
Support for working with different codepages / encodings.
Macros
macro to define a struct that implements the ReadableRecord and WritableRecord
Structs
dBase representation of date
FoxBase representation of a DateTime
The error type for this crate
Struct giving the info for a record field
Iterator over the fields in a dBase record
Wrapping struct to create a FieldName from a String.
Struct that knows how to write a record
Simple struct to wrap together the value with the name of the field it belongs to
Struct with the handle to the source .dbf file Responsible for reading the content
Type definition of a generic record. A .dbf file is composed of many records
Iterator over records contained in the dBase
Structs containing the information allowing to create a new TableWriter which would write file with the same record structure as another dbase file.
Structs that writes dBase records to a destination
Builder to be used to create a TableWriter.
FoxBase representation of a time
Enums
Errors that can happen when trying to convert a FieldValue into a more concrete type
Enum listing all the field types we know of
Enum where each variant stores the record value
Traits
Trait to be implemented by structs that represent records read from a dBase file.
Trait to be implemented by struct that you want to be able to write to (serialize) a dBase file
Functions
One liner to read the content of a .dbf file