Rearranged code, created lib.rs

pull/6/head
Mark 2023-09-20 13:18:41 -07:00
parent 2f1f8a0801
commit fde1220a96
Signed by: Mark
GPG Key ID: AD62BB059C2AAEE4
9 changed files with 402 additions and 409 deletions

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@ -13,6 +13,10 @@ readme = "README.md"
name = "daisy" name = "daisy"
path = "src/main.rs" path = "src/main.rs"
[lib]
name = "daisycalc"
path = "src/lib.rs"
[profile.release] [profile.release]
opt-level = 3 opt-level = 3
debug = 0 debug = 0

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@ -1,13 +0,0 @@
// Select main script for target system
cfg_if::cfg_if! {
if #[cfg(target_family = "unix")] {
mod unix;
pub use unix::main as main_e;
} else {
pub fn main_e() -> Result<(), std::io::Error> {
unimplemented!("Not yet implemented.");
}
}
}

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@ -1,3 +0,0 @@
mod unix;
mod promptbuffer;
pub use self::unix::main;

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@ -1,115 +0,0 @@
use std::io::stdout;
use std::io::stdin;
use std::env;
use termion::{
event::Key,
input::TermRead,
raw::IntoRawMode,
color::DetectColors
};
use super::promptbuffer::PromptBuffer;
use crate::command;
use crate::context::Context;
use crate::FormattedText;
#[inline(always)]
pub fn main() -> Result<(), std::io::Error> {
let mut stdout = stdout().into_raw_mode().unwrap();
let mut pb: PromptBuffer = PromptBuffer::new(64);
let mut context = Context::new();
// Set color compatibilty
let term_colors = stdout.available_colors().unwrap_or(0);
if term_colors >= 256 {
context.config.term_color_type = 2;
} else if term_colors >= 8 {
context.config.term_color_type = 1;
} else {
context.config.term_color_type = 0;
}
context.config.check();
// Handle command-line arguments
let args: Vec<String> = env::args().collect();
if args.iter().any(|s| s == "--help") {
let t = command::do_command(&mut context, &String::from("help"));
t.write(&context, &mut stdout)?;
return Ok(());
} else if args.iter().any(|s| s == "--version") {
let t = FormattedText::new(format!(
"Daisy v{}\n", env!("CARGO_PKG_VERSION")
));
t.write(&context, &mut stdout)?;
return Ok(());
} else if args.iter().any(|s| s == "--debug") {
let t = FormattedText::new(format!(
concat!(
"Daisy v{}\n",
"Your terminal supports {} colors.\n"
),
env!("CARGO_PKG_VERSION"),
term_colors
));
t.write(&context, &mut stdout)?;
return Ok(());
}
'outer: loop {
pb.write_prompt(&mut context, &mut stdout)?;
let stdin = stdin();
for c in stdin.keys() {
if let Key::Char(q) = c.as_ref().unwrap() {
match q {
'\n' => {
// Print again without cursor, in case we pressed enter
// while inside a substitution
pb.write_prompt_nocursor(&mut context, &mut stdout)?;
let in_str = pb.enter();
FormattedText::newline(&mut stdout)?;
if in_str == "" { break; }
if in_str.trim() == "quit" {
break 'outer;
} else {
let r = crate::do_string(&mut context, &in_str);
match r {
Ok(t) | Err(t) => {
t.write(&context, &mut stdout).unwrap();
}
}
}
break;
},
_ => { pb.add_char(*q); }
};
} else {
match c.unwrap() {
Key::Backspace => { pb.backspace(); },
Key::Delete => { pb.delete(); },
Key::Left => { pb.cursor_left(); },
Key::Right => { pb.cursor_right(); },
Key::Up => { pb.hist_up(); },
Key::Down => { pb.hist_down(); },
Key::Ctrl('d') |
Key::Ctrl('c') => { break 'outer; },
_ => {}
};
};
pb.write_prompt(&mut context, &mut stdout)?;
}
}
FormattedText::newline(&mut stdout)?;
return Ok(());
}

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@ -102,14 +102,7 @@ fn format_map_full(c: char) -> Option<String> {
}) })
} }
pub fn format_map(c: char, context: &Context) -> Option<String> {
match context.config.term_color_type {
0 => format_map_none(c),
1 => format_map_ansi(c),
2 => format_map_full(c),
_ => unreachable!("Invalid term_color_type")
}
}
impl FormattedText { impl FormattedText {
@ -117,6 +110,15 @@ impl FormattedText {
write!(stdout, "\n")?; write!(stdout, "\n")?;
return Ok(()); return Ok(());
} }
pub fn format_map(c: char, context: &Context) -> Option<String> {
match context.config.term_color_type {
0 => format_map_none(c),
1 => format_map_ansi(c),
2 => format_map_full(c),
_ => unreachable!("Invalid term_color_type")
}
}
} }
@ -161,7 +163,7 @@ impl FormattedText {
match (a, b) { match (a, b) {
(c, ']') => { // Normal text (c, ']') => { // Normal text
let q = format_map(c, context); let q = Self::format_map(c, context);
if q.is_some() { if q.is_some() {
s.push_str(&q.unwrap()); s.push_str(&q.unwrap());

283
src/lib.rs Normal file
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@ -0,0 +1,283 @@
pub mod parser;
pub mod command;
pub mod quantity;
use crate::parser::substitute;
use crate::parser::LineLocation;
mod context;
mod formattedtext;
mod errors;
mod evaluate;
pub use crate::formattedtext::FormattedText;
pub use crate::context::Context;
pub use crate::errors::DaisyError;
pub use crate::evaluate::evaluate;
#[inline(always)]
pub fn do_string(
context: &mut Context,
s: &String
) -> Result<FormattedText, FormattedText> {
let r: (LineLocation, DaisyError);
if command::is_command(s) {
return Ok(command::do_command(context, s));
} else if s.contains("=") {
let x = do_assignment(context, s);
match x {
Ok(t) => { return Ok(t) },
Err(t) => { r = t }
};
} else {
let x = do_expression(context, s);
match x {
Ok((t, e)) => { context.push_hist(e); return Ok(t) },
Err(t) => { r = t }
};
}
let (l, e) = r;
let mut t = FormattedText::new("".to_string());
if l.zero() {
t.push(&format!(
"\n {}\n\n",
e.text().to_string(),
));
} else {
t.push(&format!(
concat!(
"{}[e]{}[n]\n",
" {}\n\n"
),
" ".repeat(l.pos + 4),
"^".repeat(l.len),
e.text().to_string(),
));
}
return Err(t);
}
// Handle a simple evaluation string.
// Returns a FormattedText with output that should be printed.
#[inline(always)]
fn do_expression(
context: &mut Context,
s: &String
) -> Result<(FormattedText, parser::Expression), (LineLocation, DaisyError)> {
let mut output = FormattedText::new("".to_string());
let g = parser::parse(context, &s)?;
let g_evaluated = evaluate::evaluate(context, &g)?;
// Display parsed string
output.push(&format!(
" [s]=>[n] {}\n\n",
g.display(context)
));
// Display result
output.push(&format!(
" [r]=[n] {}\n\n",
g_evaluated.display_outer(context),
));
return Ok((output, g_evaluated));
}
// Handle a variable or function definition string.
// Returns a FormattedText with output that should be printed.
#[inline(always)]
fn do_assignment(
context: &mut Context,
s: &String
) -> Result<FormattedText, (LineLocation, DaisyError)> {
let mut output = FormattedText::new("".to_string());
let parts = s.split("=").collect::<Vec<&str>>();
if parts.len() != 2 {
return Err((
LineLocation::new_zero(),
DaisyError::Syntax
));
}
// Index of first non-whitespace character in left
// (relative to whole prompt)
let starting_left = parts[0]
.char_indices()
.find(|(_, ch)| !(ch.is_whitespace() && *ch != '\n'))
.map(|(i, _)| i)
.unwrap_or_else(|| parts[0].len());
// Index of first non-whitespace character in right
// (relative to whole prompt)
// +1 accounts for equals sign
let starting_right = parts[0].chars().count() + 1 +
parts[1]
.char_indices()
.find(|(_, ch)| !(ch.is_whitespace() && *ch != '\n'))
.map(|(i, _)| i)
.unwrap_or_else(|| parts[0].len());
let left = substitute(context, &parts[0].trim().to_string());
let right = substitute(context, &parts[1].trim().to_string());
let is_function = left.contains("(");
// The order of methods below is a bit odd.
// This is intentional, since we want to check a definition's
// variable name before even attempting to parse its content.
if is_function {
let mut mode = 0;
let mut name = String::new();
let mut args = String::new();
for c in left.chars() {
match mode {
// Mode 0: reading function name
0 => {
if c == '(' {
mode = 1; continue;
} else { name.push(c); }
},
// Mode 1: reading arguments
1 => {
if c == ')' {
mode = 2; continue;
} else { args.push(c); }
},
// Mode 2: we should be done by now.
// That close paren should've been the last character.
2 => {
return Err((
LineLocation{ pos: starting_left, len: left.chars().count() },
DaisyError::Syntax
));
},
_ => unreachable!()
}
}
let args = args
.split(",").collect::<Vec<&str>>()
.iter().map(|x| x.trim().to_string()).collect::<Vec<String>>();
if name.len() == 0 {
return Err((
LineLocation{ pos: starting_left, len: left.chars().count() },
DaisyError::Syntax
));
};
if !context.valid_function(&name) {
return Err((
LineLocation{ pos: starting_left, len: left.chars().count() },
DaisyError::BadFunction
));
};
if args.iter().find(|x| &x[..] == "").is_some() {
return Err((
LineLocation{ pos: starting_left, len: left.chars().count() },
DaisyError::Syntax
));
};
for a in &args {
if !context.valid_varible(a) {
return Err((
LineLocation{ pos: starting_left, len: left.chars().count() },
DaisyError::BadVariable
));
}
}
// Parse right hand side
let g = parser::parse(context, &right);
let Ok(g) = g else {
let Err((l, e)) = g else { unreachable!() };
return Err((
LineLocation{ pos: l.pos + starting_right, len: l.len},
e
));
};
// Display parsed string
output.push(&format!(
" [s]=>[n] {left} = {}\n\n",
g.display(context)
));
// Evaluate expression with shadow variables
for a in &args { context.add_shadow(a.to_string(), None);}
let g_evaluated = evaluate::evaluate(context, &g);
context.clear_shadow();
let Ok(_g_evaluated) = g_evaluated else {
let Err((l, e)) = g_evaluated else { unreachable!() };
return Err((
LineLocation{ pos: l.pos + starting_right, len: l.len},
e
));
};
// We could push g_evaluated instead, but an un-evaluated string
// makes the 'vars' command prettier.
//
// We still need to evaluate g above, though, to make sure it works.
context.push_function(name, args, g).unwrap();
} else {
if !context.valid_varible(&left) {
return Err((
LineLocation{ pos: starting_left, len: left.chars().count() },
DaisyError::BadVariable
));
}
// Parse right hand side
let g = parser::parse(context, &right);
let Ok(g) = g else {
let Err((l, e)) = g else { unreachable!() };
return Err((
LineLocation{ pos: l.pos + starting_right, len: l.len},
e
));
};
// Display parsed string
output.push(&format!(
" [t]=>[n] {left} = {}\n\n",
g.display(context)
));
// Evaluate expression
let g_evaluated = evaluate::evaluate(context, &g);
let Ok(g_evaluated) = g_evaluated else {
let Err((l, e)) = g_evaluated else { unreachable!() };
return Err((
LineLocation{ pos: l.pos + starting_right, len: l.len},
e
));
};
context.push_variable(left.to_string(), g_evaluated).unwrap();
}
return Ok(output);
}

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@ -1,289 +1,124 @@
pub mod parser; pub mod promptbuffer;
pub mod command;
pub mod quantity;
pub mod evaluate;
pub mod context;
pub mod errors;
pub mod formattedtext;
use crate::parser::substitute; use std::io::stdout;
use crate::errors::DaisyError; use std::io::stdin;
use crate::formattedtext::FormattedText; use std::env;
use crate::context::Context;
use crate::parser::LineLocation;
use termion::{
event::Key,
input::TermRead,
raw::IntoRawMode,
color::DetectColors
};
// Run main script for target system use promptbuffer::PromptBuffer;
mod entrypoint; use daisycalc::command;
use crate::entrypoint::main_e; use daisycalc::Context;
use daisycalc::FormattedText;
use daisycalc::do_string;
#[cfg(test)] #[cfg(test)]
mod tests; mod tests;
fn main() -> Result<(), std::io::Error> {
return main_e();
}
#[inline(always)] #[inline(always)]
pub fn do_string( pub fn main() -> Result<(), std::io::Error> {
context: &mut Context, let mut stdout = stdout().into_raw_mode().unwrap();
s: &String let mut pb: PromptBuffer = PromptBuffer::new(64);
) -> Result<FormattedText, FormattedText> { let mut context = Context::new();
let r: (LineLocation, DaisyError); // Set color compatibilty
if command::is_command(s) { let term_colors = stdout.available_colors().unwrap_or(0);
return Ok(command::do_command(context, s)); if term_colors >= 256 {
} else if s.contains("=") { context.config.term_color_type = 2;
let x = do_assignment(context, s); } else if term_colors >= 8 {
match x { context.config.term_color_type = 1;
Ok(t) => { return Ok(t) },
Err(t) => { r = t }
};
} else { } else {
let x = do_expression(context, s); context.config.term_color_type = 0;
match x {
Ok((t, e)) => { context.push_hist(e); return Ok(t) },
Err(t) => { r = t }
};
} }
let (l, e) = r; context.config.check();
let mut t = FormattedText::new("".to_string());
if l.zero() {
t.push(&format!(
"\n {}\n\n", // Handle command-line arguments
e.text().to_string(), let args: Vec<String> = env::args().collect();
if args.iter().any(|s| s == "--help") {
let t = command::do_command(&mut context, &String::from("help"));
t.write(&context, &mut stdout)?;
return Ok(());
} else if args.iter().any(|s| s == "--version") {
let t = FormattedText::new(format!(
"Daisy v{}\n", env!("CARGO_PKG_VERSION")
)); ));
} else { t.write(&context, &mut stdout)?;
t.push(&format!( return Ok(());
} else if args.iter().any(|s| s == "--debug") {
let t = FormattedText::new(format!(
concat!( concat!(
"{}[e]{}[n]\n", "Daisy v{}\n",
" {}\n\n" "Your terminal supports {} colors.\n"
), ),
" ".repeat(l.pos + 4), env!("CARGO_PKG_VERSION"),
"^".repeat(l.len), term_colors
e.text().to_string(),
)); ));
t.write(&context, &mut stdout)?;
return Ok(());
} }
return Err(t); 'outer: loop {
}
// Handle a simple evaluation string. pb.write_prompt(&mut context, &mut stdout)?;
// Returns a FormattedText with output that should be printed.
#[inline(always)]
fn do_expression(
context: &mut Context,
s: &String
) -> Result<(FormattedText, parser::Expression), (LineLocation, DaisyError)> {
let mut output = FormattedText::new("".to_string()); let stdin = stdin();
for c in stdin.keys() {
if let Key::Char(q) = c.as_ref().unwrap() {
match q {
'\n' => {
// Print again without cursor, in case we pressed enter
// while inside a substitution
pb.write_prompt_nocursor(&mut context, &mut stdout)?;
let in_str = pb.enter();
FormattedText::newline(&mut stdout)?;
if in_str == "" { break; }
let g = parser::parse(context, &s)?; if in_str.trim() == "quit" {
let g_evaluated = evaluate::evaluate(context, &g)?; break 'outer;
} else {
let r = crate::do_string(&mut context, &in_str);
// Display parsed string match r {
output.push(&format!( Ok(t) | Err(t) => {
" [s]=>[n] {}\n\n", t.write(&context, &mut stdout).unwrap();
g.display(context) }
)); }
}
// Display result break;
output.push(&format!( },
" [r]=[n] {}\n\n", _ => { pb.add_char(*q); }
g_evaluated.display_outer(context), };
)); } else {
match c.unwrap() {
Key::Backspace => { pb.backspace(); },
Key::Delete => { pb.delete(); },
Key::Left => { pb.cursor_left(); },
Key::Right => { pb.cursor_right(); },
Key::Up => { pb.hist_up(); },
Key::Down => { pb.hist_down(); },
return Ok((output, g_evaluated)); Key::Ctrl('d') |
} Key::Ctrl('c') => { break 'outer; },
_ => {}
};
};
pb.write_prompt(&mut context, &mut stdout)?;
// Handle a variable or function definition string. }
// Returns a FormattedText with output that should be printed.
#[inline(always)]
fn do_assignment(
context: &mut Context,
s: &String
) -> Result<FormattedText, (LineLocation, DaisyError)> {
let mut output = FormattedText::new("".to_string());
let parts = s.split("=").collect::<Vec<&str>>();
if parts.len() != 2 {
return Err((
LineLocation::new_zero(),
DaisyError::Syntax
));
} }
// Index of first non-whitespace character in left FormattedText::newline(&mut stdout)?;
// (relative to whole prompt) return Ok(());
let starting_left = parts[0]
.char_indices()
.find(|(_, ch)| !(ch.is_whitespace() && *ch != '\n'))
.map(|(i, _)| i)
.unwrap_or_else(|| parts[0].len());
// Index of first non-whitespace character in right
// (relative to whole prompt)
// +1 accounts for equals sign
let starting_right = parts[0].chars().count() + 1 +
parts[1]
.char_indices()
.find(|(_, ch)| !(ch.is_whitespace() && *ch != '\n'))
.map(|(i, _)| i)
.unwrap_or_else(|| parts[0].len());
let left = substitute(context, &parts[0].trim().to_string());
let right = substitute(context, &parts[1].trim().to_string());
let is_function = left.contains("(");
// The order of methods below is a bit odd.
// This is intentional, since we want to check a definition's
// variable name before even attempting to parse its content.
if is_function {
let mut mode = 0;
let mut name = String::new();
let mut args = String::new();
for c in left.chars() {
match mode {
// Mode 0: reading function name
0 => {
if c == '(' {
mode = 1; continue;
} else { name.push(c); }
},
// Mode 1: reading arguments
1 => {
if c == ')' {
mode = 2; continue;
} else { args.push(c); }
},
// Mode 2: we should be done by now.
// That close paren should've been the last character.
2 => {
return Err((
LineLocation{ pos: starting_left, len: left.chars().count() },
DaisyError::Syntax
));
},
_ => unreachable!()
}
}
let args = args
.split(",").collect::<Vec<&str>>()
.iter().map(|x| x.trim().to_string()).collect::<Vec<String>>();
if name.len() == 0 {
return Err((
LineLocation{ pos: starting_left, len: left.chars().count() },
DaisyError::Syntax
));
};
if !context.valid_function(&name) {
return Err((
LineLocation{ pos: starting_left, len: left.chars().count() },
DaisyError::BadFunction
));
};
if args.iter().find(|x| &x[..] == "").is_some() {
return Err((
LineLocation{ pos: starting_left, len: left.chars().count() },
DaisyError::Syntax
));
};
for a in &args {
if !context.valid_varible(a) {
return Err((
LineLocation{ pos: starting_left, len: left.chars().count() },
DaisyError::BadVariable
));
}
}
// Parse right hand side
let g = parser::parse(context, &right);
let Ok(g) = g else {
let Err((l, e)) = g else { unreachable!() };
return Err((
LineLocation{ pos: l.pos + starting_right, len: l.len},
e
));
};
// Display parsed string
output.push(&format!(
" [s]=>[n] {left} = {}\n\n",
g.display(context)
));
// Evaluate expression with shadow variables
for a in &args { context.add_shadow(a.to_string(), None);}
let g_evaluated = evaluate::evaluate(context, &g);
context.clear_shadow();
let Ok(_g_evaluated) = g_evaluated else {
let Err((l, e)) = g_evaluated else { unreachable!() };
return Err((
LineLocation{ pos: l.pos + starting_right, len: l.len},
e
));
};
// We could push g_evaluated instead, but an un-evaluated string
// makes the 'vars' command prettier.
//
// We still need to evaluate g above, though, to make sure it works.
context.push_function(name, args, g).unwrap();
} else {
if !context.valid_varible(&left) {
return Err((
LineLocation{ pos: starting_left, len: left.chars().count() },
DaisyError::BadVariable
));
}
// Parse right hand side
let g = parser::parse(context, &right);
let Ok(g) = g else {
let Err((l, e)) = g else { unreachable!() };
return Err((
LineLocation{ pos: l.pos + starting_right, len: l.len},
e
));
};
// Display parsed string
output.push(&format!(
" [t]=>[n] {left} = {}\n\n",
g.display(context)
));
// Evaluate expression
let g_evaluated = evaluate::evaluate(context, &g);
let Ok(g_evaluated) = g_evaluated else {
let Err((l, e)) = g_evaluated else { unreachable!() };
return Err((
LineLocation{ pos: l.pos + starting_right, len: l.len},
e
));
};
context.push_variable(left.to_string(), g_evaluated).unwrap();
}
return Ok(output);
} }

View File

@ -1,9 +1,9 @@
use std::collections::VecDeque; use std::collections::VecDeque;
use std::io::Write; use std::io::Write;
use termion::raw::RawTerminal; use termion::raw::RawTerminal;
use crate::formattedtext; use daisycalc::FormattedText;
use crate::parser::substitute_cursor; use daisycalc::parser::substitute_cursor;
use crate::context::Context; use daisycalc::Context;
const PROMPT_STR: &str = "==> "; const PROMPT_STR: &str = "==> ";
@ -55,8 +55,8 @@ impl PromptBuffer {
write!( write!(
stdout, "\r{}{PROMPT_STR}{}{}", stdout, "\r{}{PROMPT_STR}{}{}",
formattedtext::format_map('p', context).unwrap(), FormattedText::format_map('p', context).unwrap(),
formattedtext::format_map('n', context).unwrap(), FormattedText::format_map('n', context).unwrap(),
s s
)?; )?;

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@ -1,7 +1,7 @@
// Many of these have been borrowed from insect. // Many of these have been borrowed from insect.
use crate::parser; use daisycalc::parser;
use crate::evaluate::evaluate; use daisycalc::evaluate;
use crate::context::Context; use daisycalc::Context;
fn eval_to_str(s: &str) -> Result<String, ()> { fn eval_to_str(s: &str) -> Result<String, ()> {
let g = match parser::parse_no_context(&String::from(s)) { let g = match parser::parse_no_context(&String::from(s)) {