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Implement post-order codegen for structs and records
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@ -203,9 +203,9 @@ impl<'a> Compiler<'a> {
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}
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/// Runs the compiler stages.
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pub fn compiler_stages(&mut self) -> Result<SymbolTable> {
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pub fn compiler_stages(&mut self) -> Result<(SymbolTable, StructGraph)> {
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let st = self.symbol_table_pass()?;
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let (st, _struct_graph) = self.type_checker_pass(st)?;
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let (st, struct_graph) = self.type_checker_pass(st)?;
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// TODO: Make this pass optional.
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let st = self.loop_unrolling_pass(st)?;
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@ -215,16 +215,16 @@ impl<'a> Compiler<'a> {
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self.flattening_pass(&st, assigner)?;
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Ok(st)
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Ok((st, struct_graph))
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}
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/// Returns a compiled Leo program and prints the resulting bytecode.
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// TODO: Remove when code generation is ready to be integrated into the compiler.
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pub fn compile_and_generate_instructions(&mut self) -> Result<(SymbolTable, String)> {
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self.parse_program()?;
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let symbol_table = self.compiler_stages()?;
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let (symbol_table, struct_graph) = self.compiler_stages()?;
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let bytecode = CodeGenerator::do_pass((&self.ast, &symbol_table))?;
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let bytecode = CodeGenerator::do_pass((&self.ast, &symbol_table, &struct_graph))?;
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Ok((symbol_table, bytecode))
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}
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@ -232,7 +232,7 @@ impl<'a> Compiler<'a> {
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/// Returns a compiled Leo program.
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pub fn compile(&mut self) -> Result<SymbolTable> {
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self.parse_program()?;
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self.compiler_stages()
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self.compiler_stages().map(|(st, _)| st)
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}
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/// Writes the AST to a JSON file.
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@ -194,14 +194,14 @@ fn temp_dir() -> PathBuf {
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fn compile_and_process<'a>(parsed: &'a mut Compiler<'a>) -> Result<String, LeoError> {
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let st = parsed.symbol_table_pass()?;
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let (st, _struct_graph) = parsed.type_checker_pass(st)?;
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let (st, struct_graph) = parsed.type_checker_pass(st)?;
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let st = parsed.loop_unrolling_pass(st)?;
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let assigner = parsed.static_single_assignment_pass(&st)?;
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parsed.flattening_pass(&st, assigner)?;
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// Compile Leo program to bytecode.
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let bytecode = CodeGenerator::do_pass((&parsed.ast, &st))?;
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let bytecode = CodeGenerator::do_pass((&parsed.ast, &st, &struct_graph))?;
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Ok(bytecode)
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}
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@ -15,6 +15,7 @@
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// along with the Leo library. If not, see <https://www.gnu.org/licenses/>.
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use crate::SymbolTable;
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use crate::StructGraph;
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use leo_ast::Function;
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use leo_span::Symbol;
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@ -24,6 +25,8 @@ use indexmap::IndexMap;
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pub struct CodeGenerator<'a> {
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/// The symbol table for the program.
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pub(crate) symbol_table: &'a SymbolTable,
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/// The struct dependency graph for the program.
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pub(crate) struct_graph: &'a StructGraph,
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/// A counter to track the next available register.
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pub(crate) next_register: u64,
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/// Reference to the current function.
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@ -42,10 +45,11 @@ pub struct CodeGenerator<'a> {
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impl<'a> CodeGenerator<'a> {
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/// Initializes a new `CodeGenerator`.
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pub fn new(symbol_table: &'a SymbolTable) -> Self {
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pub fn new(symbol_table: &'a SymbolTable, struct_graph: &'a StructGraph) -> Self {
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// Initialize variable mapping.
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Self {
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symbol_table,
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struct_graph,
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next_register: 0,
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current_function: None,
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variable_mapping: IndexMap::new(),
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@ -26,16 +26,17 @@ mod visit_statements;
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mod visit_type;
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use crate::{Pass, SymbolTable};
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use crate::{StructGraph};
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use leo_ast::Ast;
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use leo_errors::Result;
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impl<'a> Pass for CodeGenerator<'a> {
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type Input = (&'a Ast, &'a SymbolTable);
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type Input = (&'a Ast, &'a SymbolTable, &'a StructGraph);
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type Output = Result<String>;
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fn do_pass((ast, symbol_table): Self::Input) -> Self::Output {
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let mut generator = Self::new(symbol_table);
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fn do_pass((ast, symbol_table, struct_graph): Self::Input) -> Self::Output {
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let mut generator = Self::new(symbol_table, struct_graph);
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let bytecode = generator.visit_program(ast.as_repr());
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Ok(bytecode)
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@ -16,11 +16,11 @@
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use crate::CodeGenerator;
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use leo_ast::{functions, CallType, Function, Identifier, Mapping, Mode, Program, ProgramScope, Struct, Type};
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use leo_ast::{functions, CallType, Function, Mapping, Mode, Program, ProgramScope, Struct, Type};
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use indexmap::IndexMap;
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use itertools::Itertools;
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use leo_span::sym;
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use leo_span::{sym, Symbol};
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use std::fmt::Write as _;
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impl<'a> CodeGenerator<'a> {
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@ -53,12 +53,19 @@ impl<'a> CodeGenerator<'a> {
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// Newline separator.
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program_string.push('\n');
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// Visit each `Struct` or `Record` in the Leo AST and produce a Aleo struct.
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// Get the post-order ordering of the composite data types.
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// Note that the unwrap is safe since type checking guarantees that the struct dependency graph is acyclic.
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let order = self.struct_graph.post_order().unwrap();
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// Visit each `Struct` or `Record` in the post-ordering and produce an Aleo struct or record.
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program_string.push_str(
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&program_scope
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.structs
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.values()
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.map(|struct_| self.visit_struct_or_record(struct_))
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&order
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.into_iter()
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.map(|name| {
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// Note that this unwrap is safe since type checking guarantees that all structs are declared.
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let struct_ = program_scope.structs.get(&name).unwrap();
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self.visit_struct_or_record(struct_)
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})
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.join("\n"),
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);
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@ -104,7 +111,7 @@ impl<'a> CodeGenerator<'a> {
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program_string
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}
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fn visit_import(&mut self, import_name: &'a Identifier, import_program: &'a Program) -> String {
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fn visit_import(&mut self, import_name: &'a Symbol, import_program: &'a Program) -> String {
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// Load symbols into composite mapping.
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let _import_program_string = self.visit_program(import_program);
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// todo: We do not need the import program string because we generate instructions for imports separately during leo build.
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@ -41,6 +41,7 @@ enum BenchMode {
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Ssa,
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/// Benchmarks flattening.
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Flatten,
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// TODO: Benchmark code generation
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/// Benchmarks all the above stages.
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Full,
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}
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