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1a8d7498e5
...
6e7b286458
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@ -3,9 +3,6 @@ name = "skylang"
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version = "0.1.0"
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edition = "2021"
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[lib]
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proc-macro = true
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# See more keys and their definitions at https://doc.rust-lang.org/cargo/reference/manifest.html
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[dependencies]
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@ -1,66 +0,0 @@
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#![allow(warnings)]
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pub mod lex;
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pub mod codegen;
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use crate::codegen::fasm::*;
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use crate::lex::tok::*;
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use crate::parse::ast::*;
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use crate::parse::parse::*;
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use logos::Logos;
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pub mod parse;
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macro_rules! arrow {
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($spaces:expr) => {
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println!("{}↓", $spaces);
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}
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}
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fn main() {
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// let fc = fasm_codegen!(
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// vec![
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// Expr::VarDefinition(VarDefinition {name: "goren", value: Value::Number(10)}),
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// Expr::MathExpr(Math {
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// left: &Value::Var(VarReference { name: "goren"}),
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// right: &Value::Number(17),
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// operator: MathOperator::OP_MULT
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// }
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// ),
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// Expr::FunDefinition(FunDefinition {
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// name: "adder", contents: vec![
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// Expr::MathExpr(
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// Math {
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// left: &Value::Param(ParamReference {param_number: 0}),
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// right: &Value::Param(ParamReference {param_number: 1}),
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// operator: MathOperator::OP_ADD
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// }
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// )
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// ]
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// }),
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// Expr::FunCall(
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// FunCall {
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// name: "adder",
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// params: vec![Value::Var(VarReference {name: "goren"}), Value::Number(6)]
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// }
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// ),
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// Expr::Breakpoint
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// ]
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// );
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// println!("{}", fc);
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let parsed = "30 * 60";
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let mut lexer = Token::lexer(parsed);
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println!("\"{}\"", parsed);
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arrow!(" ");
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println!("{:?}", lex_str(parsed));
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arrow!(" ");
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let parsed = parse_math(lexer);
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println!("{:?}", parsed);
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arrow!(" ");
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println!("{}", fasm_codegen!(&vec![parsed.unwrap()]));
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}
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@ -1,12 +1,10 @@
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use crate::parse::ast::*;
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use std::rc::Rc;
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use skylang::temp;
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#[macro_export]
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macro_rules! fasm_codegen {
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// Macro to make calling fasm_codegen function easier.
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($exprs:expr) => {
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fasm_codegen($exprs, true)
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fasm_codegen(&$exprs, true)
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};
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(fun: $exprs:expr) => {
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@ -14,19 +12,20 @@ macro_rules! fasm_codegen {
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}
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}
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pub fn temp(counter: u64) -> String {
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format!("tmp{:?}", counter)
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}
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pub fn fasm_codegen(exprs: &Vec<Expr>, not_a_function: bool) -> String {
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// A counter for how many temporary variables have been created. This is used to create new ones. The new ones will be called tmp1, tmp2, etc.
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let mut tmp_counter: u64 = 0;
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// Define asm_func, used for functions.
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let mut asm_func = String::new();
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// Define asm_data, used for variables.
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let mut asm_data = String::new();
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// Define asm_start, used for the entry point.
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let mut asm_start = String::new();
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macro_rules! unwrap {
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($item:expr) => {
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asm_start.push_str(fasm_codegen!(fun: &vec![$item.as_ref().clone()]).as_str());
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}
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}
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// If not_a_function, push necessary headers to the asm_start variable.
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if not_a_function {
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@ -43,10 +42,8 @@ pub fn fasm_codegen(exprs: &Vec<Expr>, not_a_function: bool) -> String {
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match expr {
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// If the expression is a math expression.
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Expr::MathExpr(e) => {
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unwrap!(e.left);
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asm_start.push_str(format!("\tmov r10, rax\n").as_str());
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unwrap!(e.right);
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asm_start.push_str(format!("\tmov r11, rax\n").as_str());
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asm_start.push_str(format!("\tmov r10, {}\n", e.left.unwrap()).as_str());
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asm_start.push_str(format!("\tmov r11, {}\n", e.right.unwrap()).as_str());
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match e.operator {
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// If the operator is addition.
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MathOperator::OP_ADD => {
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@ -94,51 +91,43 @@ pub fn fasm_codegen(exprs: &Vec<Expr>, not_a_function: bool) -> String {
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for (i, p) in e.params.iter().enumerate() {
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match i {
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0 => {
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// First parameter. Put in %rdi.
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unwrap!(p);
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asm_start.push_str(format!("\tmov rdi, rax\n").as_str());
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// First parameter. Put in %rdi.← asm_start.push_str(format!("\tmov rdi, {}\n", p.unwrap()).as_str());
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// rdi ← e.params[0];
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},
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1 => {
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// Second parameter. Put in %rsi.
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unwrap!(p);
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asm_start.push_str(format!("\tmov rsi, rax\n").as_str());
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asm_start.push_str(format!("\tmov rsi, {}\n", p.unwrap()).as_str());
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// rsi ← e.params[1];
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},
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2 => {
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// Third parameter. Put in %rdx.
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unwrap!(p);
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asm_start.push_str(format!("\tmov rdx, rax\n").as_str());
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asm_start.push_str(format!("\tmov rdx, {}\n", p.unwrap()).as_str());
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// rdx ← e.params[2];
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},
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3 => {
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// Fourth parameter. Put in %rcx.
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unwrap!(p);
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asm_start.push_str(format!("\tmov rcx, rax\n").as_str());
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asm_start.push_str(format!("\tmov rcx, {}\n", p.unwrap()).as_str());
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// rcx ← e.params[3];
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},
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4 => {
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// Fifth parameter. Put in %r8.
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unwrap!(p);
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asm_start.push_str(format!("\tmov r8, rax").as_str());
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asm_start.push_str(format!("\tmov r8, {}\n", p.unwrap()).as_str());
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// r8 ← e.params[4];
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},
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5 => {
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// Sixth parameter. Put in %r9.
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unwrap!(p);
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asm_start.push_str(format!("\tmov r9, rax\n").as_str());
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asm_start.push_str(format!("\tmov r9, {}\n", p.unwrap()).as_str());
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// r9 ← e.params[5];
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},
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_ => {
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// Parameters after the sixth parameter are pushed to the stack.
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unwrap!(p);
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asm_start.push_str(format!("\tpush rax\n").as_str());
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asm_start.push_str(format!("\tpush {}\n", p.unwrap()).as_str());
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// STACK_TOP ← e.params[(6+)];
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}
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}
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@ -149,16 +138,16 @@ pub fn fasm_codegen(exprs: &Vec<Expr>, not_a_function: bool) -> String {
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},
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// Define a global variable.
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Expr::GlobalDefinition(e) => {
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// Define a 64-bit global variable.
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asm_data.push_str(format!("\t{} dq {}", e.name, e.value).as_str());
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Expr::VarDefinition(e) => {
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// Define a 64-bit variable.
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asm_data.push_str(format!("\t{} dq {}", e.name, e.value.unwrap()).as_str());
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},
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// Breakpoint.
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Expr::Breakpoint => {
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// Write the interrupt for a debugger breakpoint.
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asm_start.push_str("\tint3\n");
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asm_start.push_str("\txor rax, rax\n");
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},
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// Return something from a function.
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@ -166,7 +155,8 @@ pub fn fasm_codegen(exprs: &Vec<Expr>, not_a_function: bool) -> String {
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// Do the operation that should later be returned.
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asm_start.push_str(fasm_codegen!(fun: &e).as_str());
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// Move the return value to rbp + 8.
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// [rbp + 8] ← return_value
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asm_start.push_str("mov [rbp + 8], rax");
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// 8(%rbp) ← return_value
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},
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// A function defenition.
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@ -181,42 +171,37 @@ pub fn fasm_codegen(exprs: &Vec<Expr>, not_a_function: bool) -> String {
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Expr::If(e) => {
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// Increment the temporary variable/function counter.
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tmp_counter += 1;
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// Compare the left and right value.
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unwrap!(e.left);
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asm_start.push_str("mov rdi, rax");
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unwrap!(e.right);
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asm_start.push_str("mov rsi, rax");
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asm_start.push_str(format!("\tcmp rdi, rsi\n").as_str());
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asm_start.push_str(format!("\tcmp {}, {}\n", e.left.unwrap(), e.right.unwrap()).as_str());
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// Check what the condition is.
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match e.cond {
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COND_OP::EQ => {
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// If the compared values are equal to each other jump to the temporary function.
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asm_start.push_str(format!("je .{}", temp!()).as_str());
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asm_start.push_str(format!("je .{}", temp(tmp_counter)).as_str());
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},
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COND_OP::NE => {
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// If the compared values are not equal to eachother jump to the temporary function.
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asm_start.push_str(format!("jne .{}", temp!()).as_str());
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asm_start.push_str(format!("jne .{}", temp(tmp_counter)).as_str());
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}
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}
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// Create the temporary function.
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asm_func.push_str(format!(".{}:\n", temp!()).as_str());
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asm_func.push_str(format!(".{}:\n", temp(tmp_counter)).as_str());
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asm_func.push_str(fasm_codegen!(fun: &e.action).as_str());
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asm_func.push_str("\tret\n");
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},
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Expr::Number(n) => {
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asm_func.push_str(format!("\tmov rax, {}\n", n).as_str())
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},
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no => unsafe {
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}
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_ => unsafe {
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// Write some data I randomly typed to your memory because don't going around playing with something that I haven't implemented yet.
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println!("{:?} is not. implemented.", no);
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let mut ptr = 0x00 as *mut f64;
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::std::ptr::write(ptr, 124010240120401240.12410240124120401240);
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},
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}
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}
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|
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@ -51,8 +51,6 @@ pub enum Token {
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Fnaf, // fnaf
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#[token("let")]
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Let, // let
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#[token("global")]
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Global, // global
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#[token("if")]
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If, // if
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#[token("else")]
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|
@ -87,7 +85,7 @@ pub enum Token {
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String, // A string literal.
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#[regex("[0-9]+", |lex| lex.slice().parse().ok())]
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Number(u64), // An integer.
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#[regex(r#"[^[0-9]^"^-^[ \t\n\f]^\.^=^(^)^{^}.^,^;^[+-/*%]]+[^"^-^=^\..^[ \t\n\f]^(^)^{^}^,^;^[+-/*%]]*"#)]
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#[regex(r#"[^[0-9]^"^-^[ \t\n\f]^\.^=^(^)^{^}.^,^;]+[^"^-^=^\..^[ \t\n\f]^(^)^{^}^,^;]*"#)]
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Identifier, // An identifier.
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#[token("true")]
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True, // true
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|
@ -98,6 +96,7 @@ pub enum Token {
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}
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pub fn lex_str(this: &str) -> Vec<(Token, &str)> {
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println!("\"{}\"", this);
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let mut buf = Vec::new();
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let mut lexer = Token::lexer(this);
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while let Some(Ok(token)) = lexer.next() {
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|
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18
src/main.rs
18
src/main.rs
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@ -10,12 +10,6 @@ use logos::Logos;
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pub mod parse;
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macro_rules! arrow {
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($spaces:expr) => {
|
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println!("{}↓", $spaces);
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}
|
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}
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fn main() {
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// let fc = fasm_codegen!(
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// vec![
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|
@ -51,17 +45,9 @@ fn main() {
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// println!("{}", fc);
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let parsed = "30 * 60";
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let parsed = "hello(hi)";
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let mut lexer = Token::lexer(parsed);
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println!("\"{}\"", parsed);
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arrow!(" ");
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println!("{:?}", lex_str(parsed));
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arrow!(" ");
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let parsed = parse_math(lexer);
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println!("{:?}", parsed);
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arrow!(" ");
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println!("{}", fasm_codegen!(&vec![parsed.unwrap()]));
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println!("{:?}", parse_fun_call(lexer));
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}
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|
|
|
@ -1,26 +1,22 @@
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use std::rc::Rc;
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|
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#[derive(Debug, Clone)]
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#[derive(Debug)]
|
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pub enum Expr<'a> {
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MathExpr(Math<'a>),
|
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FunCall(FunCall<'a>),
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FunDefinition(Rc<FunDefinition<'a>>),
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GlobalDefinition(Rc<VarDefinition<'a>>),
|
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FunDefinition(FunDefinition<'a>),
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VarDefinition(VarDefinition<'a>),
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Return(Vec<Expr<'a>>),
|
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If(Rc<IfCondition<'a>>),
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Var(VarReference<'a>),
|
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Param(ParamReference),
|
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Number(u64),
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|
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If(IfCondition<'a>),
|
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Breakpoint
|
||||
}
|
||||
|
||||
// MATH EXPRESSION
|
||||
|
||||
#[derive(Debug, Clone)]
|
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#[derive(Debug, Copy, Clone)]
|
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pub struct Math<'a> {
|
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pub left: Rc<Expr<'a>>,
|
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pub right: Rc<Expr<'a>>,
|
||||
pub left: &'a Value<'a>,
|
||||
pub right: &'a Value<'a>,
|
||||
pub operator: MathOperator
|
||||
}
|
||||
|
||||
|
@ -35,10 +31,10 @@ pub enum MathOperator {
|
|||
|
||||
// FUNCTIONS
|
||||
|
||||
#[derive(Debug, Clone)]
|
||||
#[derive(Debug)]
|
||||
pub struct FunCall<'a> {
|
||||
pub name: &'a str,
|
||||
pub params: Vec<Rc<Expr<'a>>>,
|
||||
pub params: Vec<Value<'a>>,
|
||||
}
|
||||
|
||||
#[derive(Debug)]
|
||||
|
@ -55,7 +51,7 @@ pub struct FunParamDef<'a> {
|
|||
|
||||
#[derive(Debug)]
|
||||
pub struct FunParamCall<'a> {
|
||||
pub value: Expr<'a>,
|
||||
pub value: Value<'a>,
|
||||
}
|
||||
|
||||
// VARIABLES
|
||||
|
@ -63,7 +59,7 @@ pub struct FunParamCall<'a> {
|
|||
#[derive(Debug)]
|
||||
pub struct VarDefinition<'a> {
|
||||
pub name: &'a str,
|
||||
pub value: u64,
|
||||
pub value: Value<'a>,
|
||||
}
|
||||
|
||||
|
||||
|
@ -77,12 +73,17 @@ pub struct ParamReference {
|
|||
pub param_number: u64,
|
||||
}
|
||||
|
||||
// CONDITIONS
|
||||
#[derive(Debug, Copy, Clone)]
|
||||
pub enum Value<'a> {
|
||||
Var(VarReference<'a>),
|
||||
Param(ParamReference),
|
||||
Number(u64),
|
||||
}
|
||||
|
||||
#[derive(Debug)]
|
||||
pub struct IfCondition<'a> {
|
||||
pub left: Rc<Expr<'a>>,
|
||||
pub right: Rc<Expr<'a>>,
|
||||
pub left: Value<'a>,
|
||||
pub right: Value<'a>,
|
||||
pub cond: COND_OP,
|
||||
pub action: Vec<Expr<'a>>
|
||||
}
|
||||
|
@ -93,29 +94,28 @@ pub enum COND_OP {
|
|||
NE,
|
||||
}
|
||||
|
||||
// VALUE
|
||||
// impl<'a> Value<'a> {
|
||||
// pub fn unwrap(&self) -> String {
|
||||
// match self {
|
||||
// Value::Param(e) => {
|
||||
// match e.param_number {
|
||||
// 0 => { return "rdi".to_string(); },
|
||||
// 1 => { return "rsi".to_string(); },
|
||||
// 2 => { return "rdx".to_string(); },
|
||||
// 3 => { return "rcx".to_string(); },
|
||||
// 4 => { return "r8".to_string(); },
|
||||
// 5 => { return "r9".to_string(); },
|
||||
// _ => { unimplemented!() }
|
||||
// }
|
||||
// },
|
||||
impl<'a> Value<'a> {
|
||||
pub fn unwrap(&self) -> String {
|
||||
match self {
|
||||
Value::Param(e) => {
|
||||
match e.param_number {
|
||||
0 => { return "rdi".to_string(); },
|
||||
1 => { return "rsi".to_string(); },
|
||||
2 => { return "rdx".to_string(); },
|
||||
3 => { return "rcx".to_string(); },
|
||||
4 => { return "r8".to_string(); },
|
||||
5 => { return "r9".to_string(); },
|
||||
_ => { unimplemented!() }
|
||||
}
|
||||
},
|
||||
|
||||
// Value::Number(e) => {
|
||||
// return e.to_string();
|
||||
// },
|
||||
Value::Number(e) => {
|
||||
return e.to_string();
|
||||
},
|
||||
|
||||
// Value::Var(e) => {
|
||||
// return format!("[{}]", e.name.to_string());
|
||||
// },
|
||||
// }
|
||||
// }
|
||||
// }
|
||||
Value::Var(e) => {
|
||||
return format!("[{}]", e.name.to_string());
|
||||
},
|
||||
}
|
||||
}
|
||||
}
|
||||
|
|
|
@ -1,40 +1,14 @@
|
|||
use super::ast::*;
|
||||
use crate::lex::tok::*;
|
||||
use logos::Lexer;
|
||||
use std::rc::Rc;
|
||||
|
||||
#[macro_export]
|
||||
macro_rules! unwrap {
|
||||
($var:expr) => {
|
||||
$var.next().unwrap().unwrap()
|
||||
}
|
||||
}
|
||||
|
||||
#[macro_export]
|
||||
macro_rules! parse_value {
|
||||
($parse:expr) => {
|
||||
parse_value(&($parse.next(), $parse.slice()))
|
||||
}
|
||||
}
|
||||
|
||||
pub fn parse_math(mut tokens: Lexer<Token>) -> Option<Expr> {
|
||||
// Is it a Value? → Is it an operator? → Is it a value?
|
||||
|
||||
if let Some(left) = parse_value!(tokens) {
|
||||
if let Some(operator) = match_operator(&mut tokens) {
|
||||
if let Some(right) = parse_value!(tokens) {
|
||||
let left = Rc::new(left);
|
||||
let right = Rc::new(right);
|
||||
|
||||
return Some(Expr::MathExpr(Math {left: left, right: right, operator}))
|
||||
}
|
||||
}
|
||||
}
|
||||
|
||||
None
|
||||
}
|
||||
|
||||
pub fn parse_global_declaration(mut tokens: Lexer<Token>) -> Option<Expr> {
|
||||
pub fn parse_var_declaration(mut tokens: Lexer<Token>) -> Option<Expr> {
|
||||
let mut tok = None;
|
||||
if unwrap!(tokens) == Let {
|
||||
if unwrap!(tokens) == Identifier {
|
||||
|
@ -44,7 +18,12 @@ pub fn parse_global_declaration(mut tokens: Lexer<Token>) -> Option<Expr> {
|
|||
if unwrap!(tokens) == Equal {
|
||||
let temp_token = unwrap!(tokens);
|
||||
if let Number(n) = temp_token {
|
||||
tok = Some(Expr::GlobalDefinition(Rc::new(VarDefinition {name, value: n})));
|
||||
let value = Value::Number(n);
|
||||
println!("{:?}", value);
|
||||
tok = Some(Expr::VarDefinition(VarDefinition {name, value}));
|
||||
} else if temp_token == Identifier {
|
||||
let value = Value::Var(VarReference { name: tokens.slice() });
|
||||
tok = Some(Expr::VarDefinition(VarDefinition {name, value}));
|
||||
}
|
||||
}
|
||||
}
|
||||
|
@ -52,14 +31,14 @@ pub fn parse_global_declaration(mut tokens: Lexer<Token>) -> Option<Expr> {
|
|||
tok
|
||||
}
|
||||
|
||||
pub fn parse_value<'a>(token: &(Option<Result<Token, ()>>, &'a str)) -> Option<Expr<'a>> {
|
||||
if let Some(Ok(tt)) = &token.0 {
|
||||
pub fn parse_value<'a>(token: (Option<Result<Token, ()>>, &'a str)) -> Option<Value<'a>> {
|
||||
if let Some(Ok(tt)) = token.0 {
|
||||
let mut value = None;
|
||||
|
||||
if let Number(n) = tt {
|
||||
value = Some(Expr::Number(*n));
|
||||
} else if *tt == Identifier {
|
||||
value = Some(Expr::Var(VarReference { name: token.1 }));
|
||||
value = Some(Value::Number(n));
|
||||
} else if tt == Identifier {
|
||||
value = Some(Value::Var(VarReference { name: token.1 }));
|
||||
}
|
||||
|
||||
value
|
||||
|
@ -79,8 +58,8 @@ pub fn parse_fun_call(mut tokens: Lexer<Token>) -> Option<Expr> {
|
|||
let name = tokens.slice();
|
||||
if unwrap!(tokens) == LeftParen {
|
||||
let mut params = Vec::new();
|
||||
while let Some(value) = parse_value!(tokens) {
|
||||
params.push(Rc::new(value));
|
||||
while let Some(value) = parse_value((tokens.next(), tokens.slice())) {
|
||||
params.push(value);
|
||||
}
|
||||
tok = Some(Expr::FunCall(FunCall {name, params: params.clone()}));
|
||||
}
|
||||
|
@ -88,14 +67,3 @@ pub fn parse_fun_call(mut tokens: Lexer<Token>) -> Option<Expr> {
|
|||
|
||||
tok
|
||||
}
|
||||
|
||||
pub fn match_operator(tokens: &mut Lexer<Token>) -> Option<MathOperator> {
|
||||
match unwrap!(tokens) {
|
||||
Plus => Some(MathOperator::OP_ADD),
|
||||
Minus => Some(MathOperator::OP_SUB),
|
||||
Slash => Some(MathOperator::OP_DIV),
|
||||
Star => Some(MathOperator::OP_MULT),
|
||||
Percent => Some(MathOperator::OP_MOD),
|
||||
_ => None
|
||||
}
|
||||
}
|
||||
|
|
Loading…
Reference in a new issue