Made skylang more recursive.

src/codegen/fasm.rs

@@ -1,4 +1,5 @@
 use crate::parse::ast::*;
+use std::rc::Rc;
 
 #[macro_export]
 macro_rules! fasm_codegen {
@@ -27,6 +28,13 @@ pub fn fasm_codegen(exprs: &Vec<Expr>, not_a_function: bool) -> String {
     // Define asm_start, used for the entry point.
     let mut asm_start = String::new();
 
+    macro_rules! unwrap {
+	($item:expr) => {
+	    asm_start.push_str(fasm_codegen!(fun: &vec![*$item.as_ref()]).as_str());-
+	}
+    }
+
+
     // If not_a_function, push necessary headers to the asm_start variable.
     if not_a_function {
 	asm_start.push_str("format ELF64 executable 3\n");
@@ -42,8 +50,10 @@ pub fn fasm_codegen(exprs: &Vec<Expr>, not_a_function: bool) -> String {
 	match expr {
 	    // If the expression is a math expression.
 	    Expr::MathExpr(e) => {
-		asm_start.push_str(format!("\tmov r10, {}\n", e.left.unwrap()).as_str());
+		unwrap!(e.left);
-		asm_start.push_str(format!("\tmov r11, {}\n", e.right.unwrap()).as_str());
+		asm_start.push_str(format!("\tmov r10, rax\n").as_str());
+		unwrap!(e.right);
+		asm_start.push_str(format!("\tmov r11, rax").as_str());
 		match e.operator {
 		    // If the operator is addition.
 		    MathOperator::OP_ADD  => {
@@ -91,43 +101,51 @@ pub fn fasm_codegen(exprs: &Vec<Expr>, not_a_function: bool) -> String {
 		for (i, p) in e.params.iter().enumerate() {
 		    match i {
 			0 => {
-			    // First parameter. Put in %rdi.←		    asm_start.push_str(format!("\tmov rdi, {}\n", p.unwrap()).as_str());
+			    // First parameter. Put in %rdi.
+			    unwrap!(p);
+			    asm_start.push_str(format!("\tmov rdi, rax\n").as_str());
 			    // rdi ← e.params[0];
 			},
 
 			1 => {
 			    // Second parameter. Put in %rsi.
-			    asm_start.push_str(format!("\tmov rsi, {}\n", p.unwrap()).as_str());
+			    unwrap!(p);
+			    asm_start.push_str(format!("\tmov rsi, rax\n").as_str());
 			    // rsi ← e.params[1];
 			},
 
 			2 => {			    
 			    // Third parameter. Put in %rdx.
-			    asm_start.push_str(format!("\tmov rdx, {}\n", p.unwrap()).as_str());
+			    unwrap!(p);
+			    asm_start.push_str(format!("\tmov rdx, rax\n").as_str());
 			    // rdx ← e.params[2];
 			},
 
 			3 => {
 			    // Fourth parameter. Put in %rcx.
-			    asm_start.push_str(format!("\tmov rcx, {}\n", p.unwrap()).as_str());
+			    unwrap!(p);
+			    asm_start.push_str(format!("\tmov rcx, rax\n").as_str());
 			    // rcx ← e.params[3];
 			},
 
 			4 => {
 			    // Fifth parameter. Put in %r8.
-			    asm_start.push_str(format!("\tmov r8, {}\n", p.unwrap()).as_str());
+			    unwrap!(p);
+			    asm_start.push_str(format!("\tmov r8, rax").as_str());
 			    // r8 ← e.params[4];
 			},
 
 			5 => {
 			    // Sixth parameter. Put in %r9.
-			    asm_start.push_str(format!("\tmov r9, {}\n", p.unwrap()).as_str());
+			    unwrap!(p);
+			    asm_start.push_str(format!("\tmov r9, rax\n").as_str());
 			    // r9 ← e.params[5];
 			},
 
 			_ => {
 			    // Parameters after the sixth parameter are pushed to the stack.
-			    asm_start.push_str(format!("\tpush {}\n", p.unwrap()).as_str());
+			    unwrap!(p);
+			    asm_start.push_str(format!("\tpush rax\n").as_str());
 			    // STACK_TOP ← e.params[(6+)];
 			}
 		    }
@@ -138,9 +156,10 @@ pub fn fasm_codegen(exprs: &Vec<Expr>, not_a_function: bool) -> String {
 	    },
 
 	    // Define a global variable.
-	    Expr::VarDefinition(e) => {
+	    Expr::GlobalDefinition(e) => {
-		// Define a 64-bit variable.
+		// Define a 64-bit global variable.
-		asm_data.push_str(format!("\t{} dq {}", e.name, e.value.unwrap()).as_str());
+		
+		asm_data.push_str(format!("\t{} dq {}", e.name, e.value).as_str());
 	    },
 
 	    // Breakpoint.
@@ -173,7 +192,8 @@ pub fn fasm_codegen(exprs: &Vec<Expr>, not_a_function: bool) -> String {
 		// Increment the temporary variable/function counter.
 		tmp_counter += 1;
 		// Compare the left and right value.
-		asm_start.push_str(format!("\tcmp {}, {}\n", e.left.unwrap(), e.right.unwrap()).as_str());
+		
+		asm_start.push_str(format!("\tcmp rax, {}\n", e.left, e.right.unwrap()).as_str());
 		// Check what the condition is.
 		match e.cond {
 		    COND_OP::EQ => {

src/parse/ast.rs

@@ -4,10 +4,13 @@ use std::rc::Rc;
 pub enum Expr<'a> {
     MathExpr(Math<'a>),
     FunCall(FunCall<'a>),
-    FunDefinition(FunDefinition<'a>),
+    FunDefinition(Rc<FunDefinition<'a>>),
-    VarDefinition(VarDefinition<'a>),
+    GlobalDefinition(Rc<VarDefinition<'a>>),
     Return(Vec<Expr<'a>>),
-    If(IfCondition<'a>),
+    If(Rc<IfCondition<'a>>),
+    Var(VarReference<'a>),
+    Param(ParamReference),
+    Number(u64),
     
     Breakpoint
 }
@@ -16,8 +19,8 @@ pub enum Expr<'a> {
 
 #[derive(Debug, Clone)]
 pub struct Math<'a> {
-    pub left: Rc<Value<'a>>,
+    pub left: Rc<Expr<'a>>,
-    pub right: Rc<Value<'a>>,
+    pub right: Rc<Expr<'a>>,
     pub operator: MathOperator
 }
 
@@ -35,7 +38,7 @@ pub enum MathOperator {
 #[derive(Debug)]
 pub struct FunCall<'a> {
     pub name: &'a str,
-    pub params: Vec<Value<'a>>,
+    pub params: Vec<Rc<Expr<'a>>>,
 }
 
 #[derive(Debug)]
@@ -52,7 +55,7 @@ pub struct FunParamDef<'a> {
 
 #[derive(Debug)]
 pub struct FunParamCall<'a> {
-    pub value: Value<'a>,
+    pub value: Expr<'a>,
 }
 
 // VARIABLES
@@ -60,7 +63,7 @@ pub struct FunParamCall<'a> {
 #[derive(Debug)]
 pub struct VarDefinition<'a> {
     pub name: &'a str,
-    pub value: Value<'a>,
+    pub value: u64,
 }
 
 
@@ -78,8 +81,8 @@ pub struct ParamReference {
 
 #[derive(Debug)]
 pub struct IfCondition<'a> {
-    pub left: Value<'a>,
+    pub left: Expr<'a>,
-    pub right: Value<'a>,
+    pub right: Expr<'a>,
     pub cond: COND_OP,
     pub action: Vec<Expr<'a>>
 }
@@ -91,37 +94,28 @@ pub enum COND_OP {
 }
 
 // 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!() }
+// 		}
+// 	    },
 	    
-#[derive(Debug, Copy, Clone)]
+// 	    Value::Number(e) => {
-pub enum Value<'a> {
+// 		return e.to_string();
-    Var(VarReference<'a>),
+// 	    },
-    Param(ParamReference),
-    Number(u64),
-}
 
-
+// 	    Value::Var(e) => {
-impl<'a> Value<'a> {
+// 		return format!("[{}]", e.name.to_string());
-    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::Var(e) => {
-		return format!("[{}]", e.name.to_string());
-	    },
-	}
-    }
-}

src/parse/parse.rs

@@ -57,7 +57,7 @@ pub fn parse_var_declaration(mut tokens: Lexer<Token>) -> Option<Expr> {
     tok
 }
 
-pub fn parse_value<'a>(token: &(Option<Result<Token, ()>>, &'a str)) -> Option<Value<'a>> {
+pub fn parse_value<'a>(token: &(Option<Result<Token, ()>>, &'a str)) -> Option<Expr<'a>> {
     if let Some(Ok(tt)) = &token.0 {
 	let mut value = None;