implement simple expressions and return statement
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parent
69ed23ee00
commit
befd01b240
80
src/main.rs
80
src/main.rs
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@ -10,16 +10,19 @@ use inkwell::module::Module;
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use inkwell::targets::*;
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use inkwell::types;
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use inkwell::types::BasicType;
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use inkwell::values;
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use std::error::Error;
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use std::fmt;
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use std::path::Path;
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use std::collections::HashMap;
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#[derive(Debug)]
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enum CompileErrorKind {
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Unsupported(&'static str),
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MissingTypeAnnotation,
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UnknownTypeAnnotation,
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IncompatibleTypes,
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Internal(&'static str)
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}
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@ -32,6 +35,8 @@ impl fmt::Display for CompileErrorKind {
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=> write!(f, "Missing type annotation"),
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CompileErrorKind::UnknownTypeAnnotation
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=> write!(f, "Unknown type annotation"),
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CompileErrorKind::IncompatibleTypes
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=> write!(f, "Incompatible types"),
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CompileErrorKind::Internal(details)
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=> write!(f, "Internal compiler error: {}", details),
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}
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@ -59,6 +64,7 @@ struct CodeGen<'ctx> {
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module: Module<'ctx>,
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builder: Builder<'ctx>,
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current_source_location: ast::Location,
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namespace: HashMap<String, values::BasicValueEnum<'ctx>>,
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}
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impl<'ctx> CodeGen<'ctx> {
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@ -68,6 +74,7 @@ impl<'ctx> CodeGen<'ctx> {
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module: context.create_module("kernel"),
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builder: context.create_builder(),
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current_source_location: ast::Location::default(),
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namespace: HashMap::new(),
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}
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}
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@ -147,21 +154,82 @@ impl<'ctx> CodeGen<'ctx> {
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let function = self.module.add_function(name, fn_type, None);
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let basic_block = self.context.append_basic_block(function, "entry");
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self.builder.position_at_end(basic_block);
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let x = function.get_nth_param(0).unwrap().into_int_value();
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let y = function.get_nth_param(1).unwrap().into_int_value();
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let sum = self.builder.build_int_add(x, y, "sum");
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self.builder.build_return(Some(&sum));
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for (n, arg) in args.args.iter().enumerate() {
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self.namespace.insert(arg.arg.clone(), function.get_nth_param(n as u32).unwrap());
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}
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for statement in body.iter() {
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self.compile_statement(statement)?;
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self.compile_statement(statement, return_type)?;
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}
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Ok(())
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}
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fn compile_statement(&mut self, statement: &ast::Statement) -> CompileResult<()> {
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fn compile_expression(
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&mut self,
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expression: &ast::Expression
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) -> CompileResult<values::BasicValueEnum<'ctx>> {
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self.set_source_location(expression.location);
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use ast::ExpressionType::*;
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match &expression.node {
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Identifier { name } => {
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Ok(*self.namespace.get(name).unwrap())
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},
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Binop { a, op, b } => {
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let a = self.compile_expression(&a)?;
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let b = self.compile_expression(&b)?;
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if a.get_type() != b.get_type() {
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return Err(self.compile_error(CompileErrorKind::IncompatibleTypes));
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}
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use ast::Operator::*;
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match (op, a, b) {
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(Add, values::BasicValueEnum::IntValue(a), values::BasicValueEnum::IntValue(b))
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=> Ok(self.builder.build_int_add(a, b, "tmpadd").into()),
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(Sub, values::BasicValueEnum::IntValue(a), values::BasicValueEnum::IntValue(b))
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=> Ok(self.builder.build_int_sub(a, b, "tmpsub").into()),
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(Mult, values::BasicValueEnum::IntValue(a), values::BasicValueEnum::IntValue(b))
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=> Ok(self.builder.build_int_mul(a, b, "tmpmul").into()),
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(Add, values::BasicValueEnum::FloatValue(a), values::BasicValueEnum::FloatValue(b))
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=> Ok(self.builder.build_float_add(a, b, "tmpadd").into()),
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(Sub, values::BasicValueEnum::FloatValue(a), values::BasicValueEnum::FloatValue(b))
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=> Ok(self.builder.build_float_sub(a, b, "tmpsub").into()),
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(Mult, values::BasicValueEnum::FloatValue(a), values::BasicValueEnum::FloatValue(b))
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=> Ok(self.builder.build_float_mul(a, b, "tmpmul").into()),
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_ => return Err(self.compile_error(CompileErrorKind::Unsupported("unimplemented operation"))),
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}
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}
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_ => return Err(self.compile_error(CompileErrorKind::Unsupported("unimplemented expression"))),
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}
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}
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fn compile_statement(
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&mut self,
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statement: &ast::Statement,
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return_type: Option<types::BasicTypeEnum>
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) -> CompileResult<()> {
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self.set_source_location(statement.location);
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use ast::StatementType::*;
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match &statement.node {
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Return { value: Some(value) } => {
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if let Some(return_type) = return_type {
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let value = self.compile_expression(value)?;
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if value.get_type() != return_type {
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return Err(self.compile_error(CompileErrorKind::IncompatibleTypes));
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}
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self.builder.build_return(Some(&value));
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} else {
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return Err(self.compile_error(CompileErrorKind::IncompatibleTypes));
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}
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},
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Return { value: None } => {
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if !return_type.is_none() {
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return Err(self.compile_error(CompileErrorKind::IncompatibleTypes));
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}
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self.builder.build_return(None);
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},
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Pass => (),
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_ => return Err(self.compile_error(CompileErrorKind::Unsupported("special statement"))),
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}
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