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Altareos
2022-03-05 12:56:22 +01:00
parent 2ebad03612
commit 428305d728
7 changed files with 1036 additions and 1010 deletions
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1
.gitignore vendored
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/target /target
/.vscode

31
src/context.rs Normal file
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use super::value::Value;
use std::collections::HashMap;
#[derive(Clone)]
pub struct Context {
dict: HashMap<String, Value>,
parent: Option<Box<Context>>,
}
impl Context {
pub fn new(parent: Option<Box<Context>>) -> Context {
Context {
dict: HashMap::new(),
parent,
}
}
pub fn assign(&mut self, key: String, value: Value) {
self.dict.insert(key, value);
}
pub fn value(&self, key: &String) -> Option<&Value> {
self.dict
.get(key)
.or(self.parent.as_ref().and_then(|p| p.value(key)))
}
pub fn take(&mut self, key: &String) -> Option<Value> {
self.dict.remove(key)
}
}

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src/instruction.rs Normal file
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use super::{util, Context, Value};
use roxmltree::Node;
use std::cell::RefCell;
use std::error::Error;
use std::rc::Rc;
#[derive(Clone, Debug)]
pub enum Instruction {
Value(String),
Assign(String, Box<Instruction>),
Integer(String),
IntegerCast(Box<Instruction>),
Float(String),
FloatCast(Box<Instruction>),
String(String),
StringCast(Box<Instruction>),
Array(Vec<Instruction>),
Add(Vec<Instruction>),
Subtract(Vec<Instruction>),
Multiply(Vec<Instruction>),
Divide(Vec<Instruction>),
And(Vec<Instruction>),
Or(Vec<Instruction>),
Not(Box<Instruction>),
Equal(Box<Instruction>, Box<Instruction>),
Greater(Box<Instruction>, Box<Instruction>),
Lower(Box<Instruction>, Box<Instruction>),
Call(Box<Instruction>, Vec<Instruction>),
CallNamed(String, Vec<Instruction>),
Return(Box<Instruction>),
If(Box<Instruction>, Vec<Instruction>),
IfElse(Box<Instruction>, Vec<Instruction>, Vec<Instruction>),
For {
variable: String,
from: Box<Instruction>,
to: Box<Instruction>,
step: Box<Instruction>,
body: Vec<Instruction>,
},
Each(String, Box<Instruction>, Vec<Instruction>),
While(Box<Instruction>, Vec<Instruction>),
}
impl Instruction {
pub fn new(node: Node) -> Result<Instruction, Box<dyn Error>> {
Ok(match util::tag_name(&node).as_str() {
"value" => Instruction::Value(
node.attribute("variable")
.and_then(|a| Some(String::from(a)))
.ok_or("missing 'variable' attribute on 'value' tag")?,
),
"assign" => Instruction::Assign(
String::from(
node.attribute("variable")
.ok_or("missing 'variable' attribute on 'assign' tag")?,
),
Box::new(Instruction::new(
node.first_element_child()
.ok_or("missing child on 'assign' tag")?,
)?),
),
"integer" => {
if let Some(v) = node.attribute("value") {
Instruction::Integer(String::from(v))
} else if let Some(n) = node.first_element_child() {
Instruction::IntegerCast(Box::new(Instruction::new(n)?))
} else {
Err("missing 'value' attribute or child in 'integer' tag")?
}
}
"float" => {
if let Some(v) = node.attribute("value") {
Instruction::Float(String::from(v))
} else if let Some(n) = node.first_element_child() {
Instruction::FloatCast(Box::new(Instruction::new(n)?))
} else {
Err("missing 'value' attribute or child in 'float' tag")?
}
}
"string" => {
if let Some(v) = node.attribute("value") {
Instruction::String(String::from(v))
} else if let Some(n) = node.first_element_child() {
Instruction::StringCast(Box::new(Instruction::new(n)?))
} else {
Err("missing 'value' attribute or child in 'string' tag")?
}
}
"array" => Instruction::Array(Instruction::from_children(node)?),
"add" => Instruction::Add(Instruction::from_children(node)?),
"subtract" => Instruction::Subtract(Instruction::from_children(node)?),
"multiply" => Instruction::Multiply(Instruction::from_children(node)?),
"divide" => Instruction::Divide(Instruction::from_children(node)?),
"and" => Instruction::And(Instruction::from_children(node)?),
"or" => Instruction::Or(Instruction::from_children(node)?),
"not" => Instruction::Not(Box::new(Instruction::new(
node.first_element_child()
.ok_or("missing value child element in 'not' tag")?,
)?)),
"equal" => {
let children: Vec<Node> = node.children().filter(Node::is_element).collect();
if children.len() == 2 {
Instruction::Equal(
Box::new(Instruction::new(children[0])?),
Box::new(Instruction::new(children[1])?),
)
} else {
Err("bad child count in 'equal' tag")?
}
}
"greater" => {
let children: Vec<Node> = node.children().filter(Node::is_element).collect();
if children.len() == 2 {
Instruction::Greater(
Box::new(Instruction::new(children[0])?),
Box::new(Instruction::new(children[1])?),
)
} else {
Err("bad child count in 'greater' tag")?
}
}
"lower" => {
let children: Vec<Node> = node.children().filter(Node::is_element).collect();
if children.len() == 2 {
Instruction::Lower(
Box::new(Instruction::new(children[0])?),
Box::new(Instruction::new(children[1])?),
)
} else {
Err("bad child count in 'lower' tag")?
}
}
"call" => {
if let Some(function) = node.attribute("function") {
Instruction::CallNamed(
String::from(function),
Instruction::from_children(
util::find_node(&node, "arguments")
.ok_or("missing 'arguments' block in 'call' tag")?,
)?,
)
} else {
Instruction::Call(
Box::new(Instruction::new(
node.first_element_child()
.ok_or("missing function child element in 'call' tag")?,
)?),
Instruction::from_children(
util::find_node(&node, "arguments")
.ok_or("missing 'arguments' block in 'call' tag")?,
)?,
)
}
}
"return" => Instruction::Return(Box::new(Instruction::new(
node.first_element_child()
.ok_or("missing value child element in 'return' tag")?,
)?)),
"if" => {
if let Some(else_node) = node.children().find(|n| util::tag_name(n) == "else") {
Instruction::IfElse(
Box::new(Instruction::new(
node.first_element_child()
.ok_or("missing condition child element in 'if' tag")?,
)?),
Instruction::from_children(
util::find_node(&node, "then")
.ok_or("missing 'then' block in 'if' tag")?,
)?,
Instruction::from_children(else_node)?,
)
} else {
Instruction::If(
Box::new(Instruction::new(
node.first_element_child()
.ok_or("missing condition child element in 'if' tag")?,
)?),
Instruction::from_children(
util::find_node(&node, "then")
.ok_or("missing 'then' block in 'if' tag")?,
)?,
)
}
}
"for" => Instruction::For {
variable: String::from(
node.attribute("variable")
.ok_or("missing 'variable' attribute on 'for' tag")?,
),
from: Box::new(Instruction::new(
util::find_node(&node, "from")
.and_then(|n| n.first_element_child())
.ok_or("missing 'from' child in 'for' tag")?,
)?),
to: Box::new(Instruction::new(
util::find_node(&node, "to")
.and_then(|n| n.first_element_child())
.ok_or("missing 'to' child in 'for' tag")?,
)?),
step: Box::new(Instruction::new(
util::find_node(&node, "step")
.and_then(|n| n.first_element_child())
.ok_or("missing 'step' child in 'for' tag")?,
)?),
body: Instruction::from_children(
util::find_node(&node, "do").ok_or("missing 'do' block in 'for' tag")?,
)?,
},
"each" => Instruction::Each(
String::from(
node.attribute("variable")
.ok_or("missing 'variable' attribute on 'each' tag")?,
),
Box::new(Instruction::new(
node.first_element_child()
.ok_or("missing array child element in 'for' tag")?,
)?),
Instruction::from_children(
util::find_node(&node, "do").ok_or("missing 'do' block in 'each' tag")?,
)?,
),
"while" => Instruction::While(
Box::new(Instruction::new(
node.first_element_child()
.ok_or("missing condition child element in 'while' tag")?,
)?),
Instruction::from_children(
util::find_node(&node, "do").ok_or("missing 'do' block in 'while' tag")?,
)?,
),
tag => Err(format!("unknown tag '{}'", tag))?,
})
}
pub fn from_children(node: Node) -> Result<Vec<Instruction>, Box<dyn Error>> {
node.children()
.filter(Node::is_element)
.map(Instruction::new)
.collect()
}
fn add(vals: Vec<Value>) -> Result<Value, Box<dyn Error>> {
if vals.iter().all(|v| matches!(v, Value::Integer(_))) {
Ok(Value::Integer(
vals.iter()
.map(|v| {
if let Value::Integer(i) = v {
Ok(i)
} else {
Err("invalid value")?
}
})
.sum::<Result<i64, Box<dyn Error>>>()?,
))
} else if vals
.iter()
.all(|v| matches!(v, Value::Integer(_)) || matches!(v, Value::Float(_)))
{
Ok(Value::Float(
vals.iter()
.map(|v| {
if let Value::Integer(i) = v {
Ok(*i as f64)
} else if let Value::Float(f) = v {
Ok(*f)
} else {
Err("invalid value")?
}
})
.sum::<Result<f64, Box<dyn Error>>>()?,
))
} else if vals.iter().all(|v| {
matches!(v, Value::Integer(_))
|| matches!(v, Value::Float(_))
|| matches!(v, Value::String(_))
}) {
Ok(Value::String(
vals.iter()
.map(|v| {
Ok(if let Value::String(s) = v {
s.to_string()
} else if let Value::Integer(i) = v {
i.to_string()
} else if let Value::Float(f) = v {
f.to_string()
} else {
Err("invalid value")?
})
})
.collect::<Result<Vec<String>, Box<dyn Error>>>()?
.join(""),
))
} else {
Err("invalid value")?
}
}
fn subtract(vals: Vec<Value>) -> Result<Value, Box<dyn Error>> {
Ok(if vals.iter().all(|v| matches!(v, Value::Integer(_))) {
let first = match vals.first().ok_or("missing values in 'subtract' tag")? {
Value::Integer(i) => i,
_ => Err("invalid value")?,
};
Value::Integer(
*first
- vals
.iter()
.skip(1)
.map(|v| {
if let Value::Integer(i) = v {
Ok(i)
} else {
Err("invalid value")?
}
})
.sum::<Result<i64, Box<dyn Error>>>()?,
)
} else if vals
.iter()
.all(|v| matches!(v, Value::Integer(_)) || matches!(v, Value::Float(_)))
{
let first = match vals.first().ok_or("not enough values in 'subtract' tag")? {
Value::Integer(v) => *v as f64,
Value::Float(v) => *v,
_ => Err("invalid value")?,
};
Value::Float(
first
- vals
.iter()
.skip(1)
.map(|val| {
Ok(match val {
Value::Integer(v) => *v as f64,
Value::Float(v) => *v,
_ => Err("invalid value")?,
})
})
.sum::<Result<f64, Box<dyn Error>>>()?,
)
} else {
Err("invalid value")?
})
}
fn multiply(vals: Vec<Value>) -> Result<Value, Box<dyn Error>> {
if vals.iter().all(|v| matches!(v, Value::Integer(_))) {
Ok(Value::Integer(
vals.iter()
.map(|v| {
if let Value::Integer(i) = v {
Ok(i)
} else {
Err("invalid value")?
}
})
.product::<Result<i64, Box<dyn Error>>>()?,
))
} else if vals
.iter()
.all(|v| matches!(v, Value::Integer(_)) || matches!(v, Value::Float(_)))
{
Ok(Value::Float(
vals.iter()
.map(|val| {
Ok(match val {
Value::Integer(v) => *v as f64,
Value::Float(v) => *v,
_ => Err("invalid value")?,
})
})
.product::<Result<f64, Box<dyn Error>>>()?,
))
} else {
Err("invalid value")?
}
}
fn divide(vals: Vec<Value>) -> Result<Value, Box<dyn Error>> {
if vals
.iter()
.all(|v| matches!(v, Value::Integer(_)) || matches!(v, Value::Float(_)))
{
let first = match vals.first().ok_or("not enough values in 'divide' tag")? {
Value::Integer(v) => *v as f64,
Value::Float(v) => *v,
_ => Err("invalid value")?,
};
Ok(Value::Float(
first
* vals
.iter()
.skip(1)
.map(|val| {
Ok(match val {
Value::Integer(v) => 1.0 / (*v as f64),
Value::Float(v) => 1.0 / *v,
_ => Err("invalid value")?,
})
})
.product::<Result<f64, Box<dyn Error>>>()?,
))
} else {
Err("invalid value")?
}
}
fn and(vals: Vec<Value>) -> Value {
Value::Integer(if vals.iter().all(Value::to_bool) {
1
} else {
0
})
}
fn or(vals: Vec<Value>) -> Value {
Value::Integer(if vals.iter().any(Value::to_bool) {
1
} else {
0
})
}
fn compare(v1: Value, v2: Value) -> Result<i64, Box<dyn Error>> {
use std::cmp::Ordering;
match v1 {
Value::Integer(i1) => match v2 {
Value::Integer(i2) => Ok(i1 - i2),
Value::Float(f2) => Ok(
match (i1 as f64)
.partial_cmp(&f2)
.ok_or("incompatible comparison values")?
{
Ordering::Less => -1,
Ordering::Equal => 0,
Ordering::Greater => 1,
},
),
_ => Err("incompatible comparison values")?,
},
Value::Float(f1) => match v2 {
Value::Integer(i2) => Ok(
match f1
.partial_cmp(&(i2 as f64))
.ok_or("incompatible comparison values")?
{
Ordering::Less => -1,
Ordering::Equal => 0,
Ordering::Greater => 1,
},
),
Value::Float(f2) => Ok(
match f1
.partial_cmp(&f2)
.ok_or("incompatible comparison values")?
{
Ordering::Less => -1,
Ordering::Equal => 0,
Ordering::Greater => 1,
},
),
_ => Err("incompatible comparison values")?,
},
Value::String(s1) => {
if let Value::String(s2) = v2 {
Ok(match s1.cmp(&s2) {
Ordering::Less => -1,
Ordering::Equal => 0,
Ordering::Greater => 1,
})
} else {
Err("incompatible comparison values")?
}
}
_ => Err("incompatible comparison values")?,
}
}
fn run_all(
ins: &Vec<Instruction>,
ctx: &mut Context,
) -> Result<Option<Vec<Value>>, Box<dyn Error>> {
ins.iter().map(|i| i.run(ctx)).collect()
}
pub fn run(&self, ctx: &mut Context) -> Result<Option<Value>, Box<dyn Error>> {
Ok(if let None = ctx.value(&String::from("__return")) {
match self {
Instruction::Value(key) => Some(
match ctx
.value(key)
.ok_or(format!("unknown variable '{}'", key))?
{
Value::Array(vecrc) => Value::Array(Rc::clone(vecrc)),
val => val.clone(),
},
),
Instruction::Assign(key, ins) => {
let v = ins.run(ctx)?.ok_or("invalid child value in 'assign' tag")?;
ctx.assign(key.clone(), v);
None
}
Instruction::Integer(val) => Some(Value::Integer(val.parse()?)),
Instruction::IntegerCast(ins) => Some(Value::Integer(
match ins.run(ctx)?.ok_or("no value to be cast to 'integer'")? {
Value::Integer(i) => i,
Value::Float(f) => f as i64,
Value::String(s) => s.parse()?,
_ => Err("value cannot be cast to 'integer'")?,
},
)),
Instruction::Float(val) => Some(Value::Float(val.parse()?)),
Instruction::FloatCast(ins) => Some(Value::Float(
match ins.run(ctx)?.ok_or("no value to be cast to 'float'")? {
Value::Integer(i) => i as f64,
Value::Float(f) => f,
Value::String(s) => s.parse()?,
_ => Err("value cannot be cast to 'float'")?,
},
)),
Instruction::String(val) => Some(Value::String(val.clone())),
Instruction::StringCast(ins) => Some(Value::String(
match ins.run(ctx)?.ok_or("no value to be cast to 'string'")? {
Value::Integer(i) => i.to_string(),
Value::Float(f) => f.to_string(),
Value::String(s) => s,
_ => Err("value cannot be cast to 'string'")?,
},
)),
Instruction::Array(args) => Some(Value::Array(Rc::new(RefCell::new(
Instruction::run_all(args, ctx)?
.ok_or("invalid child values in 'array' tag")?,
)))),
Instruction::Add(args) => {
let vals = Instruction::run_all(args, ctx)?
.ok_or("invalid child values in 'add' tag")?;
Some(Instruction::add(vals)?)
}
Instruction::Subtract(args) => {
let vals = Instruction::run_all(args, ctx)?
.ok_or("invalid child values in 'subtract' tag")?;
Some(Instruction::subtract(vals)?)
}
Instruction::Multiply(args) => {
let vals = Instruction::run_all(args, ctx)?
.ok_or("invalid child values in 'multiply' tag")?;
Some(Instruction::multiply(vals)?)
}
Instruction::Divide(args) => {
let vals = Instruction::run_all(args, ctx)?
.ok_or("invalid child values in 'divide' tag")?;
Some(Instruction::divide(vals)?)
}
Instruction::And(args) => {
let vals = Instruction::run_all(args, ctx)?
.ok_or("invalid child values in 'and' tag")?;
Some(Instruction::and(vals))
}
Instruction::Or(args) => {
let vals = Instruction::run_all(args, ctx)?
.ok_or("invalid child values in 'or' tag")?;
Some(Instruction::or(vals))
}
Instruction::Not(arg) => Some(Value::Integer(
if arg
.run(ctx)?
.ok_or("invalid child value in 'not' tag")?
.to_bool()
{
0
} else {
1
},
)),
Instruction::Equal(v1, v2) => Some(Value::Integer(
if Instruction::compare(
v1.run(ctx)?.ok_or("invalid child value in 'equal' tag")?,
v2.run(ctx)?.ok_or("invalid child value in 'equal' tag")?,
)? == 0
{
1
} else {
0
},
)),
Instruction::Greater(v1, v2) => Some(Value::Integer(
if Instruction::compare(
v1.run(ctx)?.ok_or("invalid child value in 'equal' tag")?,
v2.run(ctx)?.ok_or("invalid child value in 'equal' tag")?,
)? > 0
{
1
} else {
0
},
)),
Instruction::Lower(v1, v2) => Some(Value::Integer(
if Instruction::compare(
v1.run(ctx)?.ok_or("invalid child value in 'equal' tag")?,
v2.run(ctx)?.ok_or("invalid child value in 'equal' tag")?,
)? < 0
{
1
} else {
0
},
)),
Instruction::Call(fct_ins, args) => {
let vals = Instruction::run_all(args, ctx)?
.ok_or("invalid argument values in 'call' tag")?;
let fct_val = fct_ins
.run(ctx)?
.ok_or("invalid child function in 'call' tag")?;
if let Value::Function(f) = fct_val {
f.run(vals, ctx)?
} else if let Value::StdFunction(f) = fct_val {
f(vals)?
} else {
Err("invalid function")?
}
}
Instruction::CallNamed(fct_name, args) => {
let vals: Vec<Value> = Instruction::run_all(args, ctx)?
.ok_or("invalid argument values in 'or' tag")?;
let fct_val = ctx.value(&fct_name).ok_or("unknown function")?;
if let Value::Function(f) = fct_val {
let mut local = ctx.clone();
f.run(vals, &mut local)?
} else if let Value::StdFunction(f) = fct_val {
f(vals)?
} else {
Err("invalid function")?
}
}
Instruction::Return(ins) => {
let v = ins.run(ctx)?.ok_or("invalid child value in 'return' tag")?;
ctx.assign(String::from("__return"), v);
None
}
Instruction::If(cond, then) => {
if cond
.run(ctx)?
.ok_or("invalid condition value in 'if' tag")?
.to_bool()
{
for i in then {
i.run(ctx)?;
}
}
None
}
Instruction::IfElse(cond, then, els) => {
if cond
.run(ctx)?
.ok_or("invalid condition value in 'if' tag")?
.to_bool()
{
for i in then {
i.run(ctx)?;
}
} else {
for i in els {
i.run(ctx)?;
}
}
None
}
Instruction::For {
variable,
from,
to,
step,
body,
} => {
if let Value::Integer(f) =
from.run(ctx)?.ok_or("invalid 'from' value in 'for' tag")?
{
if let Value::Integer(t) =
to.run(ctx)?.ok_or("invalid 'to' value in 'for' tag")?
{
if let Value::Integer(s) =
step.run(ctx)?.ok_or("invalid 'from' value in 'for' tag")?
{
for i in (f..t).step_by(s.try_into()?) {
ctx.assign(variable.clone(), Value::Integer(i));
for ins in body {
ins.run(ctx)?;
}
}
}
}
}
None
}
Instruction::Each(variable, array_ins, body) => {
if let Value::Array(v) = array_ins
.run(ctx)?
.ok_or("invalid array value in 'each' tag")?
{
for i in v.borrow().iter() {
ctx.assign(variable.clone(), i.clone());
for ins in body {
ins.run(ctx)?;
}
}
} else {
Err("invalid array")?
}
None
}
Instruction::While(cond, body) => {
while cond
.run(ctx)?
.ok_or("invalid condition value in 'while' tag")?
.to_bool()
{
for ins in body {
ins.run(ctx)?;
}
}
None
}
}
} else {
None
})
}
}

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src/lib.rs
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src/stl.rs Normal file
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use super::{Context, Value};
use std::cell::RefCell;
use std::error::Error;
use std::io;
use std::rc::Rc;
pub fn inject_all(ctx: &mut Context) {
ctx.assign(String::from("print"), Value::StdFunction(print));
ctx.assign(String::from("input"), Value::StdFunction(input));
ctx.assign(
String::from("string-split"),
Value::StdFunction(string_split),
);
ctx.assign(String::from("array-set"), Value::StdFunction(array_set));
ctx.assign(String::from("array-push"), Value::StdFunction(array_push));
ctx.assign(String::from("array-pop"), Value::StdFunction(array_pop));
ctx.assign(String::from("array-get"), Value::StdFunction(array_get));
ctx.assign(
String::from("array-length"),
Value::StdFunction(array_length),
);
ctx.assign(String::from("to-ascii"), Value::StdFunction(to_ascii));
ctx.assign(String::from("from-ascii"), Value::StdFunction(from_ascii));
ctx.assign(String::from("get-args"), Value::StdFunction(get_args));
}
fn print(vals: Vec<Value>) -> Result<Option<Value>, Box<dyn Error>> {
if vals.len() == 1 {
match &vals[0] {
Value::Integer(i) => println!("{}", i),
Value::Float(f) => println!("{}", f),
Value::String(s) => println!("{}", s),
v => println!("{:?}", v), // _ => Err("unprintable value")?,
};
Ok(Some(vals[0].clone()))
} else {
Err("bad argument count in call to 'print'")?
}
}
fn input(vals: Vec<Value>) -> Result<Option<Value>, Box<dyn Error>> {
if vals.len() == 0 {
let mut line = String::new();
io::stdin().read_line(&mut line)?;
line.pop();
Ok(Some(Value::String(line)))
} else {
Err("bad argument count in call to 'input'")?
}
}
fn string_split(vals: Vec<Value>) -> Result<Option<Value>, Box<dyn Error>> {
if vals.len() == 2 {
if let Value::String(s) = &vals[0] {
if let Value::String(d) = &vals[1] {
let mut v = s
.split(d)
.map(|sub| Value::String(sub.to_string()))
.collect::<Vec<Value>>();
v.remove(0);
v.pop();
Ok(Some(Value::Array(Rc::new(RefCell::new(v)))))
} else {
Err("invalid delimiter string in call to 'string-split'")?
}
} else {
Err("invalid target string in call to 'string-split'")?
}
} else {
Err("bad argument count in call to 'string-split'")?
}
}
fn array_set(vals: Vec<Value>) -> Result<Option<Value>, Box<dyn Error>> {
if vals.len() == 3 {
if let Value::Array(v) = &vals[0] {
if let Value::Integer(i) = &vals[1] {
let index: usize = (*i).try_into()?;
if v.borrow().len() > index {
v.borrow_mut()[index] = vals[2].clone();
Ok(None)
} else {
Err("index out of array in call to 'array-set'")?
}
} else {
Err("invalid index in call to 'array-set'")?
}
} else {
Err("invalid array in call to 'array-set'")?
}
} else {
Err("bad argument count in call to 'array-set'")?
}
}
fn array_push(vals: Vec<Value>) -> Result<Option<Value>, Box<dyn Error>> {
if vals.len() == 2 {
if let Value::Array(v) = &vals[0] {
v.borrow_mut().push(vals[1].clone());
Ok(None)
} else {
Err("invalid array in call to 'array-push'")?
}
} else {
Err("bad argument count in call to 'array-push'")?
}
}
fn array_pop(vals: Vec<Value>) -> Result<Option<Value>, Box<dyn Error>> {
if vals.len() == 1 {
if let Value::Array(v) = &vals[0] {
Ok(Some(
v.borrow_mut()
.pop()
.ok_or("empty array in call to 'array-pop'")?,
))
} else {
Err("invalid array in call to 'array-pop'")?
}
} else {
Err("bad argument count in call to 'array-pop'")?
}
}
fn array_get(vals: Vec<Value>) -> Result<Option<Value>, Box<dyn Error>> {
if vals.len() == 2 {
if let Value::Array(v) = &vals[0] {
if let Value::Integer(i) = &vals[1] {
let index: usize = (*i).try_into()?;
if v.borrow().len() > index {
Ok(Some(v.borrow_mut()[index].clone()))
} else {
Err("index out of array in call to 'array-get'")?
}
} else {
Err("invalid index in call to 'array-get'")?
}
} else {
Err("invalid array in call to 'array-get'")?
}
} else {
Err("bad argument count in call to 'array-get'")?
}
}
fn array_length(vals: Vec<Value>) -> Result<Option<Value>, Box<dyn Error>> {
if vals.len() == 1 {
if let Value::Array(v) = &vals[0] {
Ok(Some(Value::Integer(v.borrow().len() as i64)))
} else {
Err("invalid array in call to 'array-length'")?
}
} else {
Err("bad argument count in call to 'array-length'")?
}
}
fn to_ascii(vals: Vec<Value>) -> Result<Option<Value>, Box<dyn Error>> {
if vals.len() == 1 {
if let Value::Integer(i) = &vals[0] {
if i <= &255 {
Ok(Some(Value::String(String::from_utf8(vec![*i as u8])?)))
} else {
Err("invalid integer in call to 'to-ascii'")?
}
} else {
Err("invalid argument in call to 'to-ascii'")?
}
} else {
Err("bad argument count in call to 'to-ascii'")?
}
}
fn from_ascii(vals: Vec<Value>) -> Result<Option<Value>, Box<dyn Error>> {
if vals.len() == 1 {
if let Value::String(s) = &vals[0] {
if s.len() == 1 {
Ok(Some(Value::Integer(s.as_bytes()[0] as i64)))
} else {
Err("invalid string in call to 'from-ascii'")?
}
} else {
Err("invalid argument in call to 'from-ascii'")?
}
} else {
Err("bad argument count in call to 'from-ascii'")?
}
}
fn get_args(vals: Vec<Value>) -> Result<Option<Value>, Box<dyn Error>> {
if vals.len() == 0 {
Ok(Some(Value::Array(Rc::new(RefCell::new(
std::env::args()
.skip(1)
.map(|arg| Value::String(arg))
.collect(),
)))))
} else {
Err("bad argument count in call to 'get-args'")?
}
}

9
src/util.rs Normal file
View File

@@ -0,0 +1,9 @@
use roxmltree::Node;
pub fn tag_name(node: &Node) -> String {
node.tag_name().name().to_lowercase()
}
pub fn find_node<'a>(node: &'a Node<'a, 'a>, tag: &str) -> Option<Node<'a, 'a>> {
node.children().find(|n| tag_name(n) == tag)
}

52
src/value.rs Normal file
View File

@@ -0,0 +1,52 @@
use super::{Context, Instruction};
use std::cell::RefCell;
use std::error::Error;
use std::rc::Rc;
#[derive(Clone, Debug)]
pub struct Function {
pub args: Vec<String>,
pub ins: Vec<Instruction>,
}
impl Function {
pub fn run(
&self,
args: Vec<Value>,
ctx: &mut Context,
) -> Result<Option<Value>, Box<dyn Error>> {
if args.len() != self.args.len() {
Err("not enough arguments")?;
}
self.args
.iter()
.zip(args.into_iter())
.for_each(|(p, a)| ctx.assign(p.clone(), a));
for i in self.ins.iter() {
i.run(ctx)?;
}
Ok(ctx.take(&String::from("__return")))
}
}
#[derive(Clone, Debug)]
pub enum Value {
Integer(i64),
Float(f64),
String(String),
Array(Rc<RefCell<Vec<Value>>>),
Function(Function),
StdFunction(fn(Vec<Value>) -> Result<Option<Value>, Box<dyn Error>>),
}
impl Value {
pub fn to_bool(&self) -> bool {
match self {
Value::Integer(i) => *i != 0,
Value::Float(f) => *f != 0.0,
Value::String(s) => s.len() != 0,
Value::Array(v) => v.borrow().len() != 0,
_ => true,
}
}
}