refactor into modules

author: NerdyPepper <[email protected]> 2019-03-21 05:24:29 +0000
committer: NerdyPepper <[email protected]> 2019-03-21 05:24:29 +0000
commit: a050178c692c59861cb0fb9666321fbef7578039 (patch)
tree: 9747261773daa52075fe4befa841e0c261eecc1e /src/main.rs
parent: 38c23d8102ffcdc7763da51a17fbc39296e127c7 (diff)
1 files changed, 6 insertions, 235 deletions
diff --git a/src/main.rs b/src/main.rs
index 71251e2..63d0eb2 100644
--- a/src/main.rs
+++ b/src/main.rs
@@ -1,57 +1,11 @@
+use std::io::{ stdin };
 use std::f64;
-#[derive(Debug, Copy, Clone, PartialEq)]
+mod lex;
-pub struct Operator {
+use crate::lex::*;
-    token: char,
-    operation: fn(f64, f64) -> f64,
-    precedence: u8,
-    is_left_associative: bool,
-}
-#[derive(Debug, Clone, PartialEq)]
-pub struct Function {
-    token: String,
-    relation: fn(f64) -> f64,
-}
-#[derive(Debug, Clone, PartialEq)]
-pub enum Token {
-    Operator(Operator),
-    Num(f64),
-    Function(Function),
-    LParen,
-    RParen
-}
-impl Operator {
-    fn token_from_op(token: char, operation: fn(f64, f64) -> f64, precedence: u8, is_left_associative: bool) -> Token {
-        Token::Operator(
-            Operator {
-                token,
-                operation,
-                precedence,
-                is_left_associative
-            }
-        )
-    }
-    fn operate(self, x: f64, y: f64) -> f64 {
-        (self.operation)(x, y)
-    }
-}
-impl Function {
+mod parse;
-    fn token_from_fn(token: String, relation: fn(f64) -> f64) -> Token {
+use crate::parse::*;
-        Token::Function(
-            Function {
-                token,
-                relation
-            }
-        )
-    }
-    fn apply(self, arg: f64) -> f64 {
-        (self.relation)(arg)
-    }
-}
 fn main() {
    loop {
@@ -69,191 +23,8 @@ fn main() {
        let postfixed = to_postfix(lexed.unwrap());
        let evaled = eval_postfix(postfixed.unwrap());
        println!("ans: {}", evaled.unwrap());
+        println!();
    }
 }
-fn lexer(input: &str) -> Result<Vec<Token>, String> {
-    let mut num_vec: String = String::new();
-    let mut char_vec: String = String::new();
-    let mut result: Vec<Token> = vec![];
-    for letter in input.chars() {
-        match letter {
-            '0'...'9' | '.' => {
-                num_vec.push(letter);
-            },
-            'a'...'z' | 'A'...'Z' => {
-                let parse_num = num_vec.parse::<f64>().ok();
-                if let Some(x) = parse_num {
-                    result.push(Token::Num(x));
-                    result.push(Operator::token_from_op('*', |x, y| x * y, 3, true));
-                    num_vec.clear();
-                }
-                char_vec.push(letter);
-            },
-            '+' | '-' | '/' | '*' | '^' => {
-                let parse_num = num_vec.parse::<f64>().ok();
-                if let Some(x) = parse_num {
-                    result.push(Token::Num(x));
-                    num_vec.clear();
-                }
-                let operator_token: Token = match letter {
-                    '+' => Operator::token_from_op('+', |x, y| x + y, 2, true),
-                    '-' => Operator::token_from_op('-', |x, y| x - y, 2, true),
-                    '/' => Operator::token_from_op('/', |x, y| x / y, 3, true),
-                    '*' => Operator::token_from_op('*', |x, y| x * y, 3, true),
-                    '^' => Operator::token_from_op('^', |x, y| x.powf(y), 4, false),
-                    _ => panic!("unexpected op whuuu"),
-                };
-                result.push(operator_token);
-            },
-            '('  => {
-                if char_vec.len() > 0 {
-                    let funct = char_vec.clone();
-                    match &funct[..] {
-                        "sin" | "sine"      => result.push(Function::token_from_fn("sin".into(), |x| x.to_radians().sin())),
-                        "cos" | "cosine"    => result.push(Function::token_from_fn("cos".into(), |x| x.to_radians().cos())),
-                        "tan" | "tangent"   => result.push(Function::token_from_fn("tan".into(), |x| x.to_radians().tan())),
-                        "csc" | "cosec"     => result.push(Function::token_from_fn("csc".into(), |x| 1f64 / x.to_radians().sin())),
-                        "sec" | "secant"    => result.push(Function::token_from_fn("sec".into(), |x| 1f64 / x.to_radians().cos())),
-                        "cot" | "cotangent" => result.push(Function::token_from_fn("cot".into(), |x| 1f64 / x.to_radians().tan())),
-                        "ln"                => result.push(Function::token_from_fn("ln".into(), |x| x.ln())),
-                        "log"               => result.push(Function::token_from_fn("log".into(), |x| x.log10())),
-                        _                   => {}
-                    }
-                    char_vec.clear();
-                } else {
-                    let parse_num = num_vec.parse::<f64>().ok();
-                    if let Some(x) = parse_num {
-                        result.push(Token::Num(x));
-                        result.push(Operator::token_from_op('*', |x, y| x * y, 3, true));
-                        num_vec.clear();
-                    }
-                }
-                if let Some(x) = result.last() {
-                    match x {
-                        Token::RParen => {
-                            result.push(Operator::token_from_op('*', |x, y| x * y, 3, true));
-                        },
-                        _ => {}
-                    };
-                }
-                result.push(Token::LParen);
-            },
-            ')' => {
-                let parse_num = num_vec.parse::<f64>().ok();
-                if let Some(x) = parse_num {
-                    result.push(Token::Num(x));
-                    num_vec.clear();
-                }
-                result.push(Token::RParen);
-            }
-            ' ' => {}
-            _ => {
-                return Err(format!("Unexpected character: {}", letter))
-            }
-        }
-    }
-    let parse_num = num_vec.parse::<f64>().ok();
-    if let Some(x) = parse_num {
-        result.push(Token::Num(x));
-        num_vec.clear();
-    }
-    Ok(result)
-}
-fn to_postfix(tokens: Vec<Token>) -> Result<Vec<Token>, String> {
-    let mut postfixed: Vec<Token> = vec![];
-    let mut op_stack: Vec<Token> = vec![];
-    for token in tokens {
-        match token {
-            Token::Num(_) => {
-                postfixed.push(token);
-            },
-            Token::Function(_) => {
-                op_stack.push(token);
-            }
-            Token::Operator(current_op) => {
-                while let Some(top_op) = op_stack.last() {
-                    match top_op {
-                        Token::LParen => {
-                            break;
-                        }
-                        Token::Operator(x) => {
-                            let tp = x.precedence;
-                            let cp = current_op.precedence;
-                            if tp > cp || (tp == cp && x.is_left_associative) {
-                                postfixed.push(op_stack.pop().unwrap());
-                            } else {
-                                break;
-                            }
-                        }
-                        Token::Function(_) => {
-                            postfixed.push(op_stack.pop().unwrap());
-                        }
-                        _ => {
-                            return Err(format!("{:?} must not be on operator stack", top_op))
-                        }
-                    }
-                }
-                op_stack.push(token);
-            },
-            Token::LParen => {
-                op_stack.push(token);
-            },
-            Token::RParen => {
-                let mut push_until_paren: bool = false;
-                while let Some(token) = op_stack.pop() {
-                    if token == Token::LParen {
-                        push_until_paren = true;
-                        break;
-                    }
-                    postfixed.push(token)
-                }
-                if !push_until_paren {
-                    return Err(String::from("Mismatched ')'"));
-                }
-            }
-        }
-    }
-    while let Some(op) = op_stack.pop() {
-        postfixed.push(op);
-    }
-    Ok(postfixed)
-}
-fn eval_postfix(postfixed: Vec<Token>) -> Result<f64, String> {
-    let mut num_stack: Vec<f64> = vec![];
-    for token in postfixed {
-        match token {
-            Token::Num(n) => {
-                num_stack.push(n);
-            },
-            Token::Operator(op) => {
-                if let Some(n2) = num_stack.pop() {
-                    if let Some(n1) = num_stack.pop() {
-                        num_stack.push(op.operate(n1, n2))
-                    } else {
-                        return Err(format!("Too many operators, Too little operands"))
-                    }
-                } else {
-                    return Err(format!("Too many operators, Too little operands"))
-                }
-            },
-            Token::Function(funct) => {
-                if let Some(arg) = num_stack.pop() {
-                    num_stack.push(funct.apply(arg))
-                }
-            }
-            _ => {
-                return Err(format!("Yo nibba how did this get here"))
-            }
-        }
-    }
-    if num_stack.len() == 1 {
-        Ok(num_stack.pop().unwrap())
-    } else {
-        Err(format!("Parser Error"))
-    }
-}
author	NerdyPepper <[email protected]>	2019-03-21 05:24:29 +0000
committer	NerdyPepper <[email protected]>	2019-03-21 05:24:29 +0000
commit	a050178c692c59861cb0fb9666321fbef7578039 (patch)
tree	9747261773daa52075fe4befa841e0c261eecc1e /src/main.rs
parent	38c23d8102ffcdc7763da51a17fbc39296e127c7 (diff)

diff --git a/src/main.rs b/src/main.rs index 71251e2..63d0eb2 100644 --- a/src/main.rs +++ b/src/main.rs
@@ -1,57 +1,11 @@
		1	use std::io::{ stdin };
1	use std::f64;	2	use std::f64;
2		3
3	#[derive(Debug, Copy, Clone, PartialEq)]	4	mod lex;
4	pub struct Operator {	5	use crate::lex::*;
5	token: char,
6	operation: fn(f64, f64) -> f64,
7	precedence: u8,
8	is_left_associative: bool,
9	}
10
11	#[derive(Debug, Clone, PartialEq)]
12	pub struct Function {
13	token: String,
14	relation: fn(f64) -> f64,
15	}
16
17	#[derive(Debug, Clone, PartialEq)]
18	pub enum Token {
19	Operator(Operator),
20	Num(f64),
21	Function(Function),
22	LParen,
23	RParen
24	}
25
26	impl Operator {
27	fn token_from_op(token: char, operation: fn(f64, f64) -> f64, precedence: u8, is_left_associative: bool) -> Token {
28	Token::Operator(
29	Operator {
30	token,
31	operation,
32	precedence,
33	is_left_associative
34	}
35	)
36	}
37	fn operate(self, x: f64, y: f64) -> f64 {
38	(self.operation)(x, y)
39	}
40	}
41		6
42	impl Function {	7	mod parse;
43	fn token_from_fn(token: String, relation: fn(f64) -> f64) -> Token {	8	use crate::parse::*;
44	Token::Function(
45	Function {
46	token,
47	relation
48	}
49	)
50	}
51	fn apply(self, arg: f64) -> f64 {
52	(self.relation)(arg)
53	}
54	}
55		9
56	fn main() {	10	fn main() {
57	loop {	11	loop {
@@ -69,191 +23,8 @@ fn main() {
69	let postfixed = to_postfix(lexed.unwrap());	23	let postfixed = to_postfix(lexed.unwrap());
70	let evaled = eval_postfix(postfixed.unwrap());	24	let evaled = eval_postfix(postfixed.unwrap());
71	println!("ans: {}", evaled.unwrap());	25	println!("ans: {}", evaled.unwrap());
		26	println!();
72	}	27	}
73	}	28	}
74		29
75	fn lexer(input: &str) -> Result<Vec<Token>, String> {
76	let mut num_vec: String = String::new();
77	let mut char_vec: String = String::new();
78	let mut result: Vec<Token> = vec![];
79	for letter in input.chars() {
80	match letter {
81	'0'...'9' \| '.' => {
82	num_vec.push(letter);
83	},
84	'a'...'z' \| 'A'...'Z' => {
85	let parse_num = num_vec.parse::<f64>().ok();
86	if let Some(x) = parse_num {
87	result.push(Token::Num(x));
88	result.push(Operator::token_from_op('', \|x, y\| x y, 3, true));
89	num_vec.clear();
90	}
91	char_vec.push(letter);
92	},
93	'+' \| '-' \| '/' \| '*' \| '^' => {
94	let parse_num = num_vec.parse::<f64>().ok();
95	if let Some(x) = parse_num {
96	result.push(Token::Num(x));
97	num_vec.clear();
98	}
99	let operator_token: Token = match letter {
100	'+' => Operator::token_from_op('+', \|x, y\| x + y, 2, true),
101	'-' => Operator::token_from_op('-', \|x, y\| x - y, 2, true),
102	'/' => Operator::token_from_op('/', \|x, y\| x / y, 3, true),
103	'' => Operator::token_from_op('', \|x, y\| x * y, 3, true),
104	'^' => Operator::token_from_op('^', \|x, y\| x.powf(y), 4, false),
105	_ => panic!("unexpected op whuuu"),
106	};
107	result.push(operator_token);
108	},
109	'(' => {
110	if char_vec.len() > 0 {
111	let funct = char_vec.clone();
112	match &funct[..] {
113	"sin" \| "sine" => result.push(Function::token_from_fn("sin".into(), \|x\| x.to_radians().sin())),
114	"cos" \| "cosine" => result.push(Function::token_from_fn("cos".into(), \|x\| x.to_radians().cos())),
115	"tan" \| "tangent" => result.push(Function::token_from_fn("tan".into(), \|x\| x.to_radians().tan())),
116	"csc" \| "cosec" => result.push(Function::token_from_fn("csc".into(), \|x\| 1f64 / x.to_radians().sin())),
117	"sec" \| "secant" => result.push(Function::token_from_fn("sec".into(), \|x\| 1f64 / x.to_radians().cos())),
118	"cot" \| "cotangent" => result.push(Function::token_from_fn("cot".into(), \|x\| 1f64 / x.to_radians().tan())),
119	"ln" => result.push(Function::token_from_fn("ln".into(), \|x\| x.ln())),
120	"log" => result.push(Function::token_from_fn("log".into(), \|x\| x.log10())),
121	_ => {}
122	}
123	char_vec.clear();
124	} else {
125	let parse_num = num_vec.parse::<f64>().ok();
126	if let Some(x) = parse_num {
127	result.push(Token::Num(x));
128	result.push(Operator::token_from_op('', \|x, y\| x y, 3, true));
129	num_vec.clear();
130	}
131	}
132		30
133	if let Some(x) = result.last() {
134	match x {
135	Token::RParen => {
136	result.push(Operator::token_from_op('', \|x, y\| x y, 3, true));
137	},
138	_ => {}
139	};
140	}
141	result.push(Token::LParen);
142	},
143	')' => {
144	let parse_num = num_vec.parse::<f64>().ok();
145	if let Some(x) = parse_num {
146	result.push(Token::Num(x));
147	num_vec.clear();
148	}
149	result.push(Token::RParen);
150	}
151	' ' => {}
152	_ => {
153	return Err(format!("Unexpected character: {}", letter))
154	}
155	}
156	}
157	let parse_num = num_vec.parse::<f64>().ok();
158	if let Some(x) = parse_num {
159	result.push(Token::Num(x));
160	num_vec.clear();
161	}
162	Ok(result)
163	}
164
165	fn to_postfix(tokens: Vec<Token>) -> Result<Vec<Token>, String> {
166	let mut postfixed: Vec<Token> = vec![];
167	let mut op_stack: Vec<Token> = vec![];
168	for token in tokens {
169	match token {
170	Token::Num(_) => {
171	postfixed.push(token);
172	},
173	Token::Function(_) => {
174	op_stack.push(token);
175	}
176	Token::Operator(current_op) => {
177	while let Some(top_op) = op_stack.last() {
178	match top_op {
179	Token::LParen => {
180	break;
181	}
182	Token::Operator(x) => {
183	let tp = x.precedence;
184	let cp = current_op.precedence;
185	if tp > cp \|\| (tp == cp && x.is_left_associative) {
186	postfixed.push(op_stack.pop().unwrap());
187	} else {
188	break;
189	}
190	}
191	Token::Function(_) => {
192	postfixed.push(op_stack.pop().unwrap());
193	}
194	_ => {
195	return Err(format!("{:?} must not be on operator stack", top_op))
196	}
197	}
198	}
199	op_stack.push(token);
200	},
201	Token::LParen => {
202	op_stack.push(token);
203	},
204	Token::RParen => {
205	let mut push_until_paren: bool = false;
206	while let Some(token) = op_stack.pop() {
207	if token == Token::LParen {
208	push_until_paren = true;
209	break;
210	}
211	postfixed.push(token)
212	}
213	if !push_until_paren {
214	return Err(String::from("Mismatched ')'"));
215	}
216	}
217
218	}
219	}
220	while let Some(op) = op_stack.pop() {
221	postfixed.push(op);
222	}
223	Ok(postfixed)
224	}
225
226	fn eval_postfix(postfixed: Vec<Token>) -> Result<f64, String> {
227	let mut num_stack: Vec<f64> = vec![];
228	for token in postfixed {
229	match token {
230	Token::Num(n) => {
231	num_stack.push(n);
232	},
233	Token::Operator(op) => {
234	if let Some(n2) = num_stack.pop() {
235	if let Some(n1) = num_stack.pop() {
236	num_stack.push(op.operate(n1, n2))
237	} else {
238	return Err(format!("Too many operators, Too little operands"))
239	}
240	} else {
241	return Err(format!("Too many operators, Too little operands"))
242	}
243	},
244	Token::Function(funct) => {
245	if let Some(arg) = num_stack.pop() {
246	num_stack.push(funct.apply(arg))
247	}
248	}
249	_ => {
250	return Err(format!("Yo nibba how did this get here"))
251	}
252	}
253	}
254	if num_stack.len() == 1 {
255	Ok(num_stack.pop().unwrap())
256	} else {
257	Err(format!("Parser Error"))
258	}
259	}