added a Value type
This commit is contained in:
parent
2f20415224
commit
d7c744bc77
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@ -1,105 +1,120 @@
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use crate::parse::ast::*;
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pub fn fasm_codegen(expr: Expr) -> String {
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pub fn parse_value(value: Value) -> String {
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match value {
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Value::Number(e) => {
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return e.to_string();
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},
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Value::Var(e) => {
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return e.name.to_string();
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}
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}
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}
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pub fn fasm_codegen(exprs: Vec<Expr>) -> String {
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let mut asm_text = String::new();
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let mut asm_data = String::new();
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asm_text.push_str("format ELF64 executable 3\n");
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asm_text.push_str("segment readable executable\n");
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asm_text.push_str("entry _start\n");
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asm_text.push_str("_start:\n");
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asm_data.push_str("segment readable writeable\n");
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match expr {
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Expr::MathExpr(e) => {
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asm_text.push_str(format!("\tmov r10, {:?}\n", e.left).as_str());
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asm_text.push_str(format!("\tmov r11, {:?}\n", e.right).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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asm_text.push_str("\tadd r10, r11\n");
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asm_text.push_str("\tmov rax, r10\n");
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},
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// If the operator is multiplication.
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MathOperator::OP_MULT => {
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asm_text.push_str("\timul r10, r11\n");
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asm_text.push_str("\tmov rax, r10\n");
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},
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// If the operator is division.
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MathOperator::OP_DIV => {
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asm_text.push_str("\tmov rax, r10\n");
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asm_text.push_str("\txor rdx, rdx\n");
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asm_text.push_str("\tidiv r11\n");
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// The quotient is now stored in %rax.
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},
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// If the operators is subtraction.
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MathOperator::OP_SUB => {
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asm_text.push_str("\tsub r10, r11\n");
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asm_text.push_str("\tmov rax, r10\n");
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},
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// If the operator is modulo.
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MathOperator::OP_MOD => {
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asm_text.push_str("\tmov rax, r10\n");
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asm_text.push_str("\txor rdx, rdx\n");
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asm_text.push_str("\tidiv r11\n");
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asm_text.push_str("\tmov rax, rdx\n");
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// The remainder will now be stored in the %rax register.
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}
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}
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},
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asm_data.push_str("\nsegment readable writable\n");
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Expr::FunCall(e) => {
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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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asm_text.push_str(format!("\tmov rdi, {:?}\n", p.value).as_str());
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for expr in exprs.iter() {
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match expr {
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Expr::MathExpr(e) => {
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asm_text.push_str(format!("\tmov r10, {}\n", parse_value(e.left)).as_str());
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asm_text.push_str(format!("\tmov r11, {}\n", parse_value(e.right)).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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asm_text.push_str("\tadd r10, r11\n");
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asm_text.push_str("\tmov rax, r10\n");
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},
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1 => {
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// Second parameter. Put in %rsi.
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asm_text.push_str(format!("\tmov rsi, {:?}\n", p.value).as_str());
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// If the operator is multiplication.
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MathOperator::OP_MULT => {
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asm_text.push_str("\timul r10, r11\n");
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asm_text.push_str("\tmov rax, r10\n");
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},
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2 => {
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// Third parameter. Put in %rdx.
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asm_text.push_str(format!("\tmov rdx, {:?}\n", p.value).as_str());
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// If the operator is division.
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MathOperator::OP_DIV => {
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asm_text.push_str("\tmov rax, r10\n");
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asm_text.push_str("\txor rdx, rdx\n");
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asm_text.push_str("\tidiv r11\n");
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// The quotient is now stored in %rax.
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},
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3 => {
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// Fourth parameter. Put in %rcx.
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asm_text.push_str(format!("\tmov rcx, {:?}\n", p.value).as_str());
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// If the operators is subtraction.
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MathOperator::OP_SUB => {
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asm_text.push_str("\tsub r10, r11\n");
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asm_text.push_str("\tmov rax, r10\n");
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},
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4 => {
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// Fifth parameter. Put in %r8.
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asm_text.push_str(format!("\tmov r8, {:?}\n", p.value).as_str());
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},
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5 => {
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// Sixth parameter. Put in %r9.
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asm_text.push_str(format!("\tmov r9, {:?}\n", p.value).as_str());
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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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asm_text.push_str(format!("\tpush {:?}\n", p.value).as_str());
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// If the operator is modulo.
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MathOperator::OP_MOD => {
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asm_text.push_str("\tmov rax, r10\n");
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asm_text.push_str("\txor rdx, rdx\n");
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asm_text.push_str("\tidiv r11\n");
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asm_text.push_str("\tmov rax, rdx\n");
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// The remainder will now be stored in the %rax register.
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}
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}
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}
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},
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asm_text.push_str(format!("call {:?}", e.name).as_str());
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},
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Expr::FunCall(e) => {
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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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asm_text.push_str(format!("\tmov rdi, {:?}\n", parse_value(p.value)).as_str());
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},
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Expr::VarDefenition(e) => {
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asm_data.push_str(format!("\t{} dq {:?}", e.name, e.value).as_str());
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},
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1 => {
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// Second parameter. Put in %rsi.
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asm_text.push_str(format!("\tmov rsi, {:?}\n", parse_value(p.value)).as_str());
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},
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Expr::VarReference(e) => {
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asm_text.push_str(e.name);
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},
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2 => {
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// Third parameter. Put in %rdx.
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asm_text.push_str(format!("\tmov rdx, {:?}\n", parse_value(p.value)).as_str());
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},
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_ => unimplemented!("sorry unimplemented"),
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3 => {
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// Fourth parameter. Put in %rcx.
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asm_text.push_str(format!("\tmov rcx, {:?}\n", parse_value(p.value)).as_str());
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},
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4 => {
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// Fifth parameter. Put in %r8.
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asm_text.push_str(format!("\tmov r8, {:?}\n", parse_value(p.value)).as_str());
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},
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5 => {
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// Sixth parameter. Put in %r9.
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asm_text.push_str(format!("\tmov r9, {:?}\n", parse_value(p.value)).as_str());
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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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asm_text.push_str(format!("\tpush {:?}\n", parse_value(p.value)).as_str());
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}
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}
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}
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asm_text.push_str(format!("call {:?}", e.name).as_str());
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},
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Expr::VarDefenition(e) => {
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asm_data.push_str(format!("\t{} db {:?}", e.name, parse_value(e.value)).as_str());
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},
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Expr::VarReference(e) => {
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asm_text.push_str(e.name);
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},
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_ => unimplemented!("sorry unimplemented"),
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}
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}
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asm_text.push_str("\tmov rax, 60 ; 60 is the system call number for exit.\n");
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asm_text.push_str("\txor rdi, rdi ; 0 is the exit code we want.\n");
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asm_text.push_str("\tsyscall ; this is the instruction to actually perform the system call.");
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@ -1,3 +1,5 @@
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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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@ -5,5 +7,5 @@ use crate::parse::ast::*;
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pub mod parse;
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fn main() {
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fasm_codegen(Expr::MathExpr(Math { left: 30, right: 4, operator: MathOperator::OP_DIV}));
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fasm_codegen(vec![Expr::VarDefenition(VarDefenition {name: "goren", value: Value::Number(10)}), Expr::MathExpr(Math { left: Value::Var(VarReference {name: "goren"}), right: Value::Number(4), operator: MathOperator::OP_DIV})]);
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}
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@ -1,6 +1,6 @@
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#[derive(Debug)]
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pub enum Expr<'a> {
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MathExpr(Math),
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MathExpr(Math<'a>),
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FunCall(FunCall<'a>),
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FunDefenition(FunDefenition<'a>),
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VarDefenition(VarDefenition<'a>),
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// MATH EXPRESSION
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#[derive(Debug)]
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pub struct Math {
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pub left: i64,
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pub right: i64,
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pub struct Math<'a> {
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pub left: Value<'a>,
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pub right: Value<'a>,
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pub operator: MathOperator
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}
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#[derive(Debug)]
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pub struct FunCall<'a> {
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pub name: &'a str,
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pub params: Vec<FunParamCall>,
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pub params: Vec<FunParamCall<'a>>,
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}
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#[derive(Debug)]
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}
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#[derive(Debug)]
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pub struct FunParamCall {
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// Everything is a u64 for now.
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pub value: u64,
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pub struct FunParamCall<'a> {
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pub value: Value<'a>,
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}
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// VARIABLES
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@ -57,10 +56,16 @@ pub struct FunParamCall {
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#[derive(Debug)]
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pub struct VarDefenition<'a> {
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pub name: &'a str,
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pub value: u64,
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pub value: Value<'a>,
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}
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#[derive(Debug)]
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#[derive(Debug, Copy, Clone)]
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pub struct VarReference<'a> {
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pub name: &'a str,
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}
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#[derive(Debug, Copy, Clone)]
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pub enum Value<'a> {
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Var(VarReference<'a>),
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Number(u64),
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}
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