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rhinemann 2024-03-09 18:09:01 +02:00
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16
Cargo.lock generated Normal file
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# This file is automatically @generated by Cargo.
# It is not intended for manual editing.
version = 3
[[package]]
name = "RustOOP"
version = "0.1.0"
dependencies = [
"text_io",
]
[[package]]
name = "text_io"
version = "0.1.12"
source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "d5f0c8eb2ad70c12a6a69508f499b3051c924f4b1cfeae85bfad96e6bc5bba46"

16
Cargo.toml Normal file
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[package]
name = "RustOOP"
version = "0.1.0"
edition = "2021"
# See more keys and their definitions at https://doc.rust-lang.org/cargo/reference/manifest.html
[profile.release]
opt-level = 'z' # Optimize for size
lto = true # Enable link-time optimization
codegen-units = 1 # Reduce number of codegen units to increase optimizations
panic = 'abort' # Abort on panic
strip = true # Strip symbols from binary*
[dependencies]
text_io = "0.1.12"

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src/bin/lab-1.rs Normal file
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fn protected_read(variable_name: &str) -> i32 {
use text_io::try_read;
loop {
print!("Enter {}: ", variable_name);
let read_result: Result<i32, _> = try_read!();
match read_result {
Ok(read_integer) => return read_integer,
Err(_e) => eprintln!("{} must be an integer!", variable_name.to_uppercase()),
}
}
}
fn main() {
let n: i32 = protected_read("n");
let m: i32 = protected_read("m");
let a: i32 = protected_read("a");
let b: i32 = protected_read("b");
let s: f32 = ((b + m) as f32 / 2f32) * ((m - b + 1) * (n - a + 1)) as f32;
println!("S = {}", s);
}

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src/bin/lab-2.rs Normal file
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// #[allow(dead_code)]
use format as f;
fn capitalise(s: &str) -> String {
let mut c = s.chars();
match c.next() {
None => String::new(),
Some(f) => f.to_uppercase().collect::<String>() + c.as_str(),
}
}
fn read_row(row_number: u16) -> Vec<i16> {
loop {
print!("Row #{row_number} (separated by spaces): ");
let raw_row: String = text_io::read!("{}\n");
let trimmed_row: &str = raw_row.trim();
match trimmed_row.split(' ').all(|value| {
!value.is_empty()
&& value.chars().all(|char| char.is_numeric() || char == '-')
&& value.parse::<i128>().unwrap() <= i16::MAX as i128
&& value.parse::<i128>().unwrap() >= i16::MIN as i128
}) {
true => {
return trimmed_row
.split(' ')
.map(|value| value.parse::<i16>().unwrap())
.collect::<Vec<i16>>()
}
false => eprintln!("[Error] The row must consist of short integers separated by space, try again."),
}
}
}
fn generate_row(row_index: u16, length: u16) -> Vec<i16> {
(0..length)
.map(|element_index| (element_index as i16 + 1) * (row_index as i16 + 1))
.collect()
}
fn read_matrix() -> Vec<Vec<i16>> {
let rows: u16 = protected_u16_read("the number of rows");
loop {
print!("Generate [s]quare or [r]ectangle matrix or [i]nput manually [s/r/i]: ");
let option: String = text_io::read!();
match option.to_lowercase().as_str() {
"s" => return (0..rows).map(|i| generate_row(i, rows)).collect(),
"r" => {
let columns: u16 = protected_u16_read("the number of columns");
return (0..rows).map(|i| generate_row(i, columns)).collect();
}
"i" => return (0..rows).map(read_row).collect(),
_ => eprintln!("[Error] Not an option, try again."),
}
}
}
fn protected_u16_read(variable_name: &str) -> u16 {
use text_io::try_read;
loop {
print!("Enter {}: ", variable_name);
let read_result: Result<u16, _> = try_read!();
match read_result {
Ok(read_integer) => return read_integer,
Err(_e) => eprintln!(
"[Error] {} must be a short integer, try again.",
capitalise(variable_name)
),
}
}
}
fn multiply_matrix_by_number(matrix: &[Vec<i16>], multiplier: u16) -> Vec<Vec<i16>> {
return matrix
.iter()
.map(|row| {
row.iter()
.map(|element| element * multiplier as i16)
.collect()
})
.collect();
}
fn average_of_row(row: &Vec<i16>) -> f32 {
return row.iter().sum::<i16>() as f32 / row.len() as f32;
}
fn format_matrix(matrix: &[Vec<i16>]) -> String {
let max_width = matrix
.iter()
.map(|row| {
row.iter()
.map(|element| element.to_string().len())
.max()
.unwrap()
})
.max()
.unwrap();
let mut formatted_matrix: String = matrix
.iter()
.map(|row| {
row.iter()
.map(|element| f!("| {:max_width$} ", element))
.collect::<Vec<String>>()
.join("")
})
.collect::<Vec<String>>()
.join("|\n");
formatted_matrix.push('|');
formatted_matrix
}
fn format_column(column: &[f32]) -> String {
let max_width = column
.iter()
.map(|element| element.to_string().len())
.max()
.unwrap();
return column
.iter()
.map(|element| f!("| {:max_width$} |", element))
.collect::<Vec<String>>()
.join("\n");
}
fn main() {
let full_vec_test: Vec<Vec<i16>> = read_matrix();
println!("\nMatrix B:\n{}\n", format_matrix(&full_vec_test));
let multiplied_full_vec_test: Vec<Vec<i16>> =
multiply_matrix_by_number(&full_vec_test, protected_u16_read("matrix multiplier"));
println!(
"\nMatrix a×B:\n{}\n",
format_matrix(&multiplied_full_vec_test)
);
let row_averages: Vec<f32> = multiplied_full_vec_test
.iter()
.map(average_of_row)
.collect();
println!(
"Averages for each row in a×B:\n{}",
format_column(&row_averages)
);
}