implemented trig functions and more refactoring
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27abd81bf8
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5 changed files with 145 additions and 114 deletions
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@ -1,6 +1,6 @@
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[package]
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[package]
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name = "quickmath"
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name = "quickmath"
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version = "0.3.0"
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version = "0.3.1"
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edition = "2021"
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edition = "2021"
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authors = [ "Valerie Wolfe <sleeplessval@gmail.com>" ]
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authors = [ "Valerie Wolfe <sleeplessval@gmail.com>" ]
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description = "A quick command-line math evaluator."
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description = "A quick command-line math evaluator."
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@ -10,71 +10,95 @@ pub type EvalResult = Result<Value, EvalexprError>;
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// Mathematics
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// Mathematics
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pub fn cosine(arg: &Value) -> EvalResult {
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Ok(
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if let Value::Float(float) = arg { float.clone() }
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else if let Value::Int(int) = arg { int.clone() as f64 }
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else { return Err(EvalexprError::expected_number(arg.clone())) }
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.cos().into()
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)
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}
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pub fn fix(arg: &Value) -> EvalResult {
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pub fn fix(arg: &Value) -> EvalResult {
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let args = arg.as_tuple()?;
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if let Value::Tuple(args) = arg {
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let len = args.len();
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if len == 2 {
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let value =
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if let Value::Float(float) = args[0] { float.clone() }
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else { return Err(EvalexprError::expected_float(args[0].clone())); };
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let count = args.len();
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let operand = 10u64.pow(
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if count != 2 {
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if let Value::Int(int) = args[1] { int.clone() }
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return Err(EvalexprError::WrongFunctionArgumentAmount { expected: 2..=2, actual: count });
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else { return Err(EvalexprError::expected_int(args[1].clone())); }
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}
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as u32
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) as f64;
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let float = args[0].as_float()?;
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Ok( ((value * operand).round() / operand).into() )
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let figures = args[1].as_int()?;
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} else { Err(EvalexprError::wrong_function_argument_amount(len, 2)) }
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} else { Err(EvalexprError::wrong_function_argument_amount(1, 2)) }
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let operand: f64 = i64::pow(10, figures as u32) as f64;
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let output = f64::round(float * operand) / operand;
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return Ok(output.into());
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}
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}
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pub fn logarithm(arg: &Value) -> EvalResult {
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pub fn logarithm(arg: &Value) -> EvalResult {
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let arguments: Vec<Value>;
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let value: f64;
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let count: usize;
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let base: Option<f64>;
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if arg.is_tuple() {
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match arg {
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arguments = arg.as_tuple()?;
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Value::Tuple(tuple)
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count = arguments.len();
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=> {
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} else if arg.is_float() {
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let len = tuple.len();
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arguments = vec!(arg.as_float()?.into());
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if len != 2 { return Err(EvalexprError::WrongOperatorArgumentAmount { expected: 2, actual: len }) }
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count = 1;
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} else if arg.is_int() {
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let i_value = tuple.get(0).unwrap();
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arguments = vec!((arg.as_int()? as f64).into());
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if let Value::Float(float) = i_value { value = float.clone(); }
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count = 1;
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else if let Value::Int(int) = i_value { value = int.clone() as f64; }
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} else {
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else { return Err(EvalexprError::expected_number(i_value.clone())); }
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return Err(EvalexprError::CustomMessage("Expected numbers".to_string()));
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let i_base = tuple.get(1).unwrap();
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if let Value::Float(float) = i_value { base = Some(float.clone()); }
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else if let Value::Int(int) = i_value { base = Some(int.clone() as f64); }
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else { return Err(EvalexprError::expected_number(i_base.clone())); }
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},
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Value::Float(float)
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=> {
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value = float.clone();
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base = None;
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},
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Value::Int(int)
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=> {
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value = int.clone() as f64;
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base = None;
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}
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_ => return Err(EvalexprError::CustomMessage("Expected numbers.".to_owned()))
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}
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}
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let output: Value;
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if let Some(base) = base { Ok(value.log(base).into()) }
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match count {
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else { Ok(value.ln().into()) }
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1 => {
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}
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let argument = &arguments[0];
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if !argument.is_number() {
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pub fn sine(arg: &Value) -> EvalResult {
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return Err(EvalexprError::CustomMessage("Expected number".to_string()));
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Ok(
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}
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if let Value::Float(float) = arg { float.clone() }
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let number = if argument.is_float() { argument.as_float()? } else { argument.as_int()? as f64 };
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else if let Value::Int(int) = arg { int.clone() as f64 }
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output = number.ln().into();
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else { return Err(EvalexprError::expected_number(arg.clone())) }
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},
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.sin().into()
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2 => {
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)
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let arg_value = &arguments[0];
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let arg_base = &arguments[1];
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if !(arg_value.is_number() && arg_base.is_number()) {
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return Err(EvalexprError::CustomMessage("Expected two numbers".to_string()));
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}
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let value: f64 = if arg_value.is_float() { arg_value.as_float()? } else { arg_value.as_int()? as f64 };
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let base: f64 = if arg_base.is_float() { arg_base.as_float()? } else { arg_base.as_int()? as f64 };
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output = value.log(base).into();
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},
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_ => {
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return Err(EvalexprError::WrongFunctionArgumentAmount { expected: 2..=2, actual: count });
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}
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}
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return Ok(output);
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}
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}
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pub fn square_root(arg: &Value) -> EvalResult {
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pub fn square_root(arg: &Value) -> EvalResult {
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if !arg.is_number() {
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Ok(
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return Err(EvalexprError::CustomMessage("Expected a number.".to_string()));
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if let Value::Float(float) = arg { float.clone() }
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}
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else if let Value::Int(int) = arg { int.clone() as f64 }
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let value: f64 = if arg.is_float() { arg.as_float()? } else { arg.as_int()? as f64 };
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else { return Err(EvalexprError::expected_number(arg.clone())) }
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return Ok(value.sqrt().into());
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.sqrt().into()
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)
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}
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pub fn tangent(arg: &Value) -> EvalResult {
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Ok(
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if let Value::Float(float) = arg { float.clone() }
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else if let Value::Int(int) = arg { int.clone() as f64 }
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else { return Err(EvalexprError::expected_number(arg.clone())) }
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.tan().into()
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)
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}
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}
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@ -2,3 +2,67 @@
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pub mod global;
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pub mod global;
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pub mod helper;
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pub mod helper;
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use pico_args::Arguments;
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use evalexpr::{
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context_map,
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ContextWithMutableVariables,
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HashMapContext,
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Value
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};
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use crate::flag;
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pub fn build(args: &mut Arguments) -> HashMapContext {
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let mut output =
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if !args.contains(flag::EMPTY_CONTEXT) {
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context_map! {
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// globals
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"c" => global::LIGHT_SPEED,
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"e" => global::EULER,
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"phi" => global::GOLDEN_RATIO,
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"pi" => global::PI,
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"√2" => global::ROOT_TWO,
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// math functions
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"cos" => Function::new(|arg| helper::cosine(arg)),
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"fix" => Function::new(|arg| helper::fix(arg)),
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"log" => Function::new(|arg| helper::logarithm(arg)),
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"sin" => Function::new(|arg| helper::sine(arg)),
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"sqrt" => Function::new(|arg| helper::square_root(arg)),
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"tan" => Function::new(|arg| helper::tangent(arg)),
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// data science functions
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"avg" => Function::new(|arg| helper::average(arg)),
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// radix functions
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"bin" => Function::new(|arg| helper::binary(arg)),
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"hex" => Function::new(|arg| helper::hexadecimal(arg)),
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"oct" => Function::new(|arg| helper::octal(arg)),
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// character aliases
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"ϕ" => global::GOLDEN_RATIO,
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"π" => global::PI,
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"√" => Function::new(|arg| helper::square_root(arg))
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}.unwrap()
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} else { HashMapContext::new() };
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while let Ok(value) = args.value_from_str::<&str, String>(flag::SET) {
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let split: Vec<&str> = value.split('=').collect();
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if split.len() == 2 {
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let key = split[0].to_owned();
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let value_str = split[1];
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let value =
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if let Ok(integer) = value_str.parse::<i64>() { Value::Int(integer) }
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else if let Ok(float) = value_str.parse::<f64>() { Value::Float(float) }
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else { Value::from(value_str) };
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output.set_value(key, value).ok(); }
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else { std::process::exit(1); }
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}
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output
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}
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@ -42,7 +42,7 @@ fn main() {
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return;
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return;
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}
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}
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let mut context = util::build_context(&mut args);
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let mut context = context::build(&mut args);
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let quiet = args.contains(flag::QUIET) || !stdout().is_terminal();
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let quiet = args.contains(flag::QUIET) || !stdout().is_terminal();
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// collect args and evaluate if present
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// collect args and evaluate if present
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59
src/util.rs
59
src/util.rs
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@ -1,13 +1,5 @@
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use evalexpr::{
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use evalexpr::{ EvalexprError, Value };
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context_map, ContextWithMutableVariables, EvalexprError, HashMapContext, Value
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};
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use pico_args::Arguments;
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use crate::{
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context::{ global, helper },
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flag
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};
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pub(crate) fn parse_radix(prefix: &str, base: u32, arg: &Value) -> Result<Value, EvalexprError> {
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pub(crate) fn parse_radix(prefix: &str, base: u32, arg: &Value) -> Result<Value, EvalexprError> {
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let i_parse = arg.as_string()?;
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let i_parse = arg.as_string()?;
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@ -22,52 +14,3 @@ pub(crate) fn parse_radix(prefix: &str, base: u32, arg: &Value) -> Result<Value,
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return Ok(result.unwrap().into());
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return Ok(result.unwrap().into());
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}
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}
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pub(crate) fn build_context(args: &mut Arguments) -> HashMapContext {
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let mut output =
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if !args.contains(flag::EMPTY_CONTEXT) {
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context_map! {
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// globals
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"c" => global::LIGHT_SPEED,
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"e" => global::EULER,
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"phi" => global::GOLDEN_RATIO,
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"pi" => global::PI,
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"√2" => global::ROOT_TWO,
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// math functions
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"fix" => Function::new(|arg| helper::fix(arg)),
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"log" => Function::new(|arg| helper::logarithm(arg)),
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"sqrt" => Function::new(|arg| helper::square_root(arg)),
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// data science functions
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"avg" => Function::new(|arg| helper::average(arg)),
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// radix functions
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"bin" => Function::new(|arg| helper::binary(arg)),
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"hex" => Function::new(|arg| helper::hexadecimal(arg)),
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"oct" => Function::new(|arg| helper::octal(arg)),
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// character aliases
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"ϕ" => global::GOLDEN_RATIO,
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"π" => global::PI,
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"√" => Function::new(|arg| helper::square_root(arg))
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}.unwrap()
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} else { HashMapContext::new() };
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while let Ok(value) = args.value_from_str::<&str, String>(flag::SET) {
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let split: Vec<&str> = value.split('=').collect();
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if split.len() == 2 {
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let key = split[0].to_owned();
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let value_str = split[1];
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let value =
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if let Ok(integer) = value_str.parse::<i64>() { Value::Int(integer) }
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else if let Ok(float) = value_str.parse::<f64>() { Value::Float(float) }
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else { Value::from(value_str) };
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output.set_value(key, value).ok(); }
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else { std::process::exit(1); }
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}
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output
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}
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