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impl dynamic checks for core packages
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54bf6ca42d
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1
Cargo.lock
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1
Cargo.lock
generated
@ -1415,6 +1415,7 @@ name = "leo-static-check"
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version = "1.0.3"
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dependencies = [
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"leo-ast",
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"leo-core",
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"leo-imports",
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"leo-typed",
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"serde",
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@ -162,15 +162,14 @@ impl<F: Field + PrimeField, G: GroupType<F>> Compiler<F, G> {
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let typed_tree = LeoTypedAst::new(&package_name, &ast);
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self.program = typed_tree.into_repr();
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self.imported_programs = ImportParser::parse(&self.program)?;
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// Run static check on program.
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let symbol_table = StaticCheck::run(&self.program, &self.program_input)?;
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let symbol_table = StaticCheck::run(&self.program, &self.program_input, &self.imported_programs)?;
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// Run dynamic check on program.
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DynamicCheck::run(&self.program, symbol_table)?;
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self.imported_programs = ImportParser::parse(&self.program)?;
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tracing::debug!("Program parsing complete\n{:#?}", self.program);
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Ok(())
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@ -27,13 +27,10 @@ impl<F: Field + PrimeField, G: GroupType<F>> ConstrainedProgram<F, G> {
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import: &Import,
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imported_programs: &ImportParser,
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) -> Result<(), ImportError> {
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// Fetch core dependencies
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let core_dependency = imported_programs
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.core_packages()
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.iter()
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.find(|package| import.package.eq(package));
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// Fetch core packages
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let core_package = imported_programs.get_core_package(&import.package);
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if let Some(package) = core_dependency {
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if let Some(package) = core_package {
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self.store_core_package(scope.clone(), package.clone())?;
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return Ok(());
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@ -42,17 +39,17 @@ impl<F: Field + PrimeField, G: GroupType<F>> ConstrainedProgram<F, G> {
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// Fetch dependencies for the current import
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let imported_symbols = ImportedSymbols::from(import);
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for (package, symbol) in imported_symbols.symbols {
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for (name, symbol) in imported_symbols.symbols {
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// Find imported program
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let program = imported_programs
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.get_import(&package)
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.get_import(&name)
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.ok_or(ImportError::unknown_package(import.package.name.clone()))?;
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// Parse imported program
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self.store_definitions(program.clone(), imported_programs)?;
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// Store the imported symbol
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self.store_symbol(scope.clone(), package, &symbol, program)?;
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self.store_symbol(scope.clone(), name, &symbol, program)?;
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}
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Ok(())
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@ -90,6 +90,15 @@ impl ImportParser {
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self.imports.get(file_name)
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}
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///
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/// Returns a reference to the core package corresponding to the given package.
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///
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pub fn get_core_package(&self, package: &Package) -> Option<&Package> {
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self.core_packages()
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.iter()
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.find(|core_package| core_package.eq(&package))
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}
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///
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/// Returns a reference to the vector of core packages.
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///
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@ -21,6 +21,10 @@ edition = "2018"
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path = "../ast"
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version = "1.0.3"
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[dependencies.leo-core]
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path = "../core"
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version = "1.0.3"
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[dependencies.leo-imports]
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path = "../imports"
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version = "1.0.3"
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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::TypeError;
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use leo_core::{CorePackageListError, LeoCoreError};
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use leo_typed::{Error as FormattedError, Identifier, Span};
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use std::path::PathBuf;
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@ -22,9 +23,15 @@ use std::path::PathBuf;
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/// Errors encountered when tracking variable, function, and circuit names in a program.
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#[derive(Debug, Error)]
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pub enum SymbolTableError {
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#[error("{}", _0)]
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CorePackageListError(#[from] CorePackageListError),
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#[error("{}", _0)]
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Error(#[from] FormattedError),
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#[error("{}", _0)]
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LeoCoreError(#[from] LeoCoreError),
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#[error("{}", _0)]
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TypeError(#[from] TypeError),
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}
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@ -35,7 +42,9 @@ impl SymbolTableError {
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///
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pub fn set_path(&mut self, path: PathBuf) {
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match self {
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SymbolTableError::CorePackageListError(error) => error.set_path(path),
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SymbolTableError::Error(error) => error.set_path(path),
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SymbolTableError::LeoCoreError(error) => error.set_path(path),
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SymbolTableError::TypeError(error) => error.set_path(path),
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}
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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::{StaticCheckError, SymbolTable};
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use leo_imports::ImportParser;
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use leo_typed::{Input, Program};
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/// Performs a static type check over a program.
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@ -35,14 +36,21 @@ impl StaticCheck {
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///
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/// Returns a new `SymbolTable` from a given program.
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///
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pub fn run(program: &Program, input: &Input) -> Result<SymbolTable, StaticCheckError> {
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pub fn run(
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program: &Program,
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input: &Input,
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import_parser: &ImportParser,
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) -> Result<SymbolTable, StaticCheckError> {
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let mut check = Self::new();
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// Load program input types.
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check.load_input(input)?;
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check.insert_input(input)?;
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// // Load the program imports into the symbol table.
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// check.insert_imports()?;
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// Run pass one checks
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check.pass_one(program)?;
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check.pass_one(program, import_parser)?;
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// Run pass two checks
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check.pass_two(program)?;
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@ -51,21 +59,29 @@ impl StaticCheck {
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}
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///
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/// Loads the program input types into the symbol table.
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/// Inserts the program input types into the symbol table.
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///
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pub fn load_input(&mut self, input: &Input) -> Result<(), StaticCheckError> {
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pub fn insert_input(&mut self, input: &Input) -> Result<(), StaticCheckError> {
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self.table
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.load_input(input)
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.insert_input(input)
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.map_err(|err| StaticCheckError::SymbolTableError(err))
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}
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// ///
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// /// Inserts the program imports into the symbol table.
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// ///
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// pub fn insert_imports(&mut self, imports: &ImportParser) -> Result<(), StaticCheckError> {}
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///
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/// Checks for duplicate circuit and function names given an unresolved program.
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///
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/// If a circuit or function name has no duplicates, then it is inserted into the symbol table.
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/// Variables defined later in the unresolved program cannot have the same name.
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///
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pub fn pass_one(&mut self, program: &Program) -> Result<(), StaticCheckError> {
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pub fn pass_one(&mut self, program: &Program, import_parser: &ImportParser) -> Result<(), StaticCheckError> {
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// Check unresolved program import names.
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self.table.check_imports(&program.imports, import_parser)?;
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// Check unresolved program circuit names.
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self.table.check_duplicate_circuits(&program.circuits)?;
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@ -15,9 +15,10 @@
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// along with the Leo library. If not, see <https://www.gnu.org/licenses/>.
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use crate::{CircuitType, CircuitVariableType, FunctionType, ParameterType, SymbolTableError};
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use leo_typed::{Circuit, Function, Identifier, Input};
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use leo_core::CorePackageList;
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use leo_imports::ImportParser;
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use leo_typed::{Circuit, Function, Identifier, Import, Input, Package};
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use std::collections::HashMap;
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pub const INPUT_VARIABLE_NAME: &str = "input";
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@ -149,9 +150,13 @@ impl SymbolTable {
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}
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///
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/// Loads function input types into symbol table.
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/// Inserts function input types into symbol table.
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///
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pub fn load_input(&mut self, input: &Input) -> Result<(), SymbolTableError> {
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/// Creates a new `CircuitType` to represent the input values.
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/// The type contains register, record, state, and state leaf circuit variables.
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/// This allows easy access to input types using dot syntax: `input.register.r0`.
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///
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pub fn insert_input(&mut self, input: &Input) -> Result<(), SymbolTableError> {
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// Get values for each input section.
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let registers_values = input.get_registers().values();
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let record_values = input.get_record().values();
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@ -194,13 +199,77 @@ impl SymbolTable {
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///
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/// No type resolution performed at this step.
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///
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pub fn insert_imports(&mut self, _imports: ImportParser) {}
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// pub fn insert_imports(&mut self, imports: ImportParser) -> Result<(), SymbolTableError> {
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// // Iterate over each imported program.
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//
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// // Store separate symbol table for each program.
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//
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// //
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// }
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///
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/// Checks for duplicate circuit names given a hashmap of unresolved circuits.
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/// Inserts core package name and type information into the symbol table.
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///
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pub fn insert_core_package(&mut self, package: &Package) -> Result<(), SymbolTableError> {
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// Create list of imported core packages.
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let list = CorePackageList::from_package_access(package.access.to_owned())?;
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// Fetch core package symbols from `leo-core`.
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let symbol_list = list.to_symbols()?;
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// Insert name and type information for each core package symbol.
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for (name, circuit) in symbol_list.symbols() {
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// Store name of symbol.
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self.insert_name(name, ParameterType::from(circuit.clone()));
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// Create new circuit type for symbol.
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let circuit_type = CircuitType::new(&self, circuit)?;
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// Insert circuit type of symbol.
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self.insert_circuit(circuit_type.identifier.clone(), circuit_type);
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}
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Ok(())
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}
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///
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/// Checks that all given imported names exist in the list of imported programs.
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///
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/// Additionally checks for duplicate imported names in the given vector of imports.
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/// Types defined later in the program cannot have the same name.
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///
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pub fn check_imports(
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&mut self,
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imports: &Vec<Import>,
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import_parser: &ImportParser,
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) -> Result<(), SymbolTableError> {
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// Iterate over imported names.
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for import in imports.iter() {
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// Check if the import name exists as core package.
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let core_package = import_parser.get_core_package(&import.package);
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// If the core package exists, then attempt to insert the import into the symbol table.
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match core_package {
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Some(package) => self.insert_core_package(package)?,
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None => {
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// Check if the import name exists in the import parser.
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// Attempt to insert the imported name into the symbol table.
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// Check that the imported name is unique.
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unimplemented!("normal imports not supported yet")
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}
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}
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}
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Ok(())
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}
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///
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/// Checks for duplicate circuit names given a hashmap of circuits.
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///
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/// If a circuit name has no duplicates, then it is inserted into the symbol table.
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/// Variables defined later in the unresolved program cannot have the same name.
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/// Types defined later in the program cannot have the same name.
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///
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pub fn check_duplicate_circuits(
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&mut self,
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@ -224,10 +293,10 @@ impl SymbolTable {
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}
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///
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/// Checks for duplicate function names given a hashmap of unresolved functions.
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/// Checks for duplicate function names given a hashmap of functions.
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///
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/// If a function name has no duplicates, then it is inserted into the symbol table.
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/// Variables defined later in the unresolved program cannot have the same name.
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/// Types defined later in the program cannot have the same name.
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///
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pub fn check_duplicate_functions(
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&mut self,
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@ -251,10 +320,10 @@ impl SymbolTable {
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}
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///
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/// Checks for unknown types in a circuit given a hashmap of unresolved circuits.
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/// Checks for unknown types in a circuit given a hashmap of circuits.
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///
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/// If a circuit definition only contains known types, then it is inserted into the
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/// symbol table. Variables defined later in the unresolved program can lookup the definition
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/// symbol table. Variables defined later in the program can lookup the definition
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/// and refer to its expected types
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///
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pub fn check_unknown_types_circuits(
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@ -263,10 +332,10 @@ impl SymbolTable {
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) -> Result<(), SymbolTableError> {
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// Iterate over circuit names and definitions.
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for (_, circuit) in circuits.iter() {
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// Get the identifier of the unresolved circuit.
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// Get the identifier of the circuit.
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let identifier = circuit.circuit_name.clone();
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// Resolve unknown types in the unresolved circuit definition.
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// Resolve unknown types in the circuit definition.
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let circuit_type = CircuitType::new(self, circuit.clone())?;
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// Attempt to insert the circuit definition into the symbol table.
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@ -277,10 +346,10 @@ impl SymbolTable {
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}
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///
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/// Checks for unknown types in a function given a hashmap of unresolved functions.
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/// Checks for unknown types in a function given a hashmap of functions.
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///
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/// If a function definition only contains known types, then it is inserted into the
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/// symbol table. Variables defined later in the unresolved program can lookup the definition
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/// symbol table. Variables defined later in the program can lookup the definition
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/// and refer to its expected types
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///
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pub fn check_unknown_types_functions(
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@ -289,10 +358,10 @@ impl SymbolTable {
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) -> Result<(), SymbolTableError> {
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// Iterate over function names and definitions.
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for (_, function) in functions.iter() {
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// Get the identifier of the unresolved function.
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// Get the identifier of the function.
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let identifier = function.identifier.clone();
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// Resolve unknown types in the unresolved function definition.
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// Resolve unknown types in the function definition.
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let function_type = FunctionType::new(&self, function.clone())?;
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// Attempt to insert the function definition into the symbol table.
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