snarkvm_synthesizer_program/finalize/mod.rs
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// Copyright 2024 Aleo Network Foundation
// This file is part of the snarkVM library.
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at:
// http://www.apache.org/licenses/LICENSE-2.0
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
mod input;
use input::*;
mod bytes;
mod parse;
use crate::traits::CommandTrait;
use console::{
network::prelude::*,
program::{FinalizeType, Identifier, Register},
};
use indexmap::IndexSet;
use std::collections::HashMap;
#[derive(Clone, PartialEq, Eq)]
pub struct FinalizeCore<N: Network, Command: CommandTrait<N>> {
/// The name of the associated function.
name: Identifier<N>,
/// The input statements, added in order of the input registers.
/// Input assignments are ensured to match the ordering of the input statements.
inputs: IndexSet<Input<N>>,
/// The commands, in order of execution.
commands: Vec<Command>,
/// The number of write commands.
num_writes: u16,
/// A mapping from `Position`s to their index in `commands`.
positions: HashMap<Identifier<N>, usize>,
}
impl<N: Network, Command: CommandTrait<N>> FinalizeCore<N, Command> {
/// Initializes a new finalize with the given name.
pub fn new(name: Identifier<N>) -> Self {
Self { name, inputs: IndexSet::new(), commands: Vec::new(), num_writes: 0, positions: HashMap::new() }
}
/// Returns the name of the associated function.
pub const fn name(&self) -> &Identifier<N> {
&self.name
}
/// Returns the finalize inputs.
pub const fn inputs(&self) -> &IndexSet<Input<N>> {
&self.inputs
}
/// Returns the finalize input types.
pub fn input_types(&self) -> Vec<FinalizeType<N>> {
self.inputs.iter().map(|input| input.finalize_type()).cloned().collect()
}
/// Returns the finalize commands.
pub fn commands(&self) -> &[Command] {
&self.commands
}
/// Returns the number of write commands.
pub const fn num_writes(&self) -> u16 {
self.num_writes
}
/// Returns the mapping of `Position`s to their index in `commands`.
pub const fn positions(&self) -> &HashMap<Identifier<N>, usize> {
&self.positions
}
}
impl<N: Network, Command: CommandTrait<N>> FinalizeCore<N, Command> {
/// Adds the input statement to finalize.
///
/// # Errors
/// This method will halt if a command was previously added.
/// This method will halt if the maximum number of inputs has been reached.
/// This method will halt if the input statement was previously added.
#[inline]
fn add_input(&mut self, input: Input<N>) -> Result<()> {
// Ensure there are no commands in memory.
ensure!(self.commands.is_empty(), "Cannot add inputs after commands have been added");
// Ensure the maximum number of inputs has not been exceeded.
ensure!(self.inputs.len() < N::MAX_INPUTS, "Cannot add more than {} inputs", N::MAX_INPUTS);
// Ensure the input statement was not previously added.
ensure!(!self.inputs.contains(&input), "Cannot add duplicate input statement");
// Ensure the input register is a locator.
ensure!(matches!(input.register(), Register::Locator(..)), "Input register must be a locator");
// Insert the input statement.
self.inputs.insert(input);
Ok(())
}
/// Adds the given command to finalize.
///
/// # Errors
/// This method will halt if the maximum number of commands has been reached.
#[inline]
pub fn add_command(&mut self, command: Command) -> Result<()> {
// Ensure the maximum number of commands has not been exceeded.
ensure!(self.commands.len() < N::MAX_COMMANDS, "Cannot add more than {} commands", N::MAX_COMMANDS);
// Ensure the number of write commands has not been exceeded.
ensure!(self.num_writes < N::MAX_WRITES, "Cannot add more than {} 'set' & 'remove' commands", N::MAX_WRITES);
// Ensure the command is not a call instruction.
ensure!(!command.is_call(), "Forbidden operation: Finalize cannot invoke a 'call'");
// Ensure the command is not a cast to record instruction.
ensure!(!command.is_cast_to_record(), "Forbidden operation: Finalize cannot cast to a record");
// Check the destination registers.
for register in command.destinations() {
// Ensure the destination register is a locator.
ensure!(matches!(register, Register::Locator(..)), "Destination register must be a locator");
}
// Check if the command is a branch command.
if let Some(position) = command.branch_to() {
// Ensure the branch target does not reference an earlier position.
ensure!(!self.positions.contains_key(position), "Cannot branch to an earlier position '{position}'");
}
// Check if the command is a position command.
if let Some(position) = command.position() {
// Ensure the position is not yet defined.
ensure!(!self.positions.contains_key(position), "Cannot redefine position '{position}'");
// Ensure that there are less than `u8::MAX` positions.
ensure!(self.positions.len() < u8::MAX as usize, "Cannot add more than {} positions", u8::MAX);
// Insert the position.
self.positions.insert(*position, self.commands.len());
}
// Check if the command is a write command.
if command.is_write() {
// Increment the number of write commands.
self.num_writes += 1;
}
// Insert the command.
self.commands.push(command);
Ok(())
}
}
impl<N: Network, Command: CommandTrait<N>> TypeName for FinalizeCore<N, Command> {
/// Returns the type name as a string.
#[inline]
fn type_name() -> &'static str {
"finalize"
}
}
#[cfg(test)]
mod tests {
use super::*;
use crate::{Command, Finalize};
type CurrentNetwork = console::network::MainnetV0;
#[test]
fn test_add_input() {
// Initialize a new finalize instance.
let name = Identifier::from_str("finalize_core_test").unwrap();
let mut finalize = Finalize::<CurrentNetwork>::new(name);
// Ensure that an input can be added.
let input = Input::<CurrentNetwork>::from_str("input r0 as field.public;").unwrap();
assert!(finalize.add_input(input.clone()).is_ok());
// Ensure that adding a duplicate input will fail.
assert!(finalize.add_input(input).is_err());
// Ensure that adding more than the maximum number of inputs will fail.
for i in 1..CurrentNetwork::MAX_INPUTS * 2 {
let input = Input::<CurrentNetwork>::from_str(&format!("input r{i} as field.public;")).unwrap();
match finalize.inputs.len() < CurrentNetwork::MAX_INPUTS {
true => assert!(finalize.add_input(input).is_ok()),
false => assert!(finalize.add_input(input).is_err()),
}
}
}
#[test]
fn test_add_command() {
// Initialize a new finalize instance.
let name = Identifier::from_str("finalize_core_test").unwrap();
let mut finalize = Finalize::<CurrentNetwork>::new(name);
// Ensure that a command can be added.
let command = Command::<CurrentNetwork>::from_str("add r0 r1 into r2;").unwrap();
assert!(finalize.add_command(command).is_ok());
// Ensure that adding more than the maximum number of commands will fail.
for i in 3..CurrentNetwork::MAX_COMMANDS * 2 {
let command = Command::<CurrentNetwork>::from_str(&format!("add r0 r1 into r{i};")).unwrap();
match finalize.commands.len() < CurrentNetwork::MAX_COMMANDS {
true => assert!(finalize.add_command(command).is_ok()),
false => assert!(finalize.add_command(command).is_err()),
}
}
// Ensure that adding more than the maximum number of writes will fail.
// Initialize a new finalize instance.
let name = Identifier::from_str("finalize_core_test").unwrap();
let mut finalize = Finalize::<CurrentNetwork>::new(name);
for _ in 0..CurrentNetwork::MAX_WRITES * 2 {
let command = Command::<CurrentNetwork>::from_str("remove object[r0];").unwrap();
match finalize.commands.len() < CurrentNetwork::MAX_WRITES as usize {
true => assert!(finalize.add_command(command).is_ok()),
false => assert!(finalize.add_command(command).is_err()),
}
}
}
#[test]
fn test_add_command_duplicate_positions() {
// Initialize a new finalize instance.
let name = Identifier::from_str("finalize_core_test").unwrap();
let mut finalize = Finalize::<CurrentNetwork>::new(name);
// Ensure that a command can be added.
let command = Command::<CurrentNetwork>::from_str("position start;").unwrap();
assert!(finalize.add_command(command.clone()).is_ok());
// Ensure that adding a duplicate position will fail.
assert!(finalize.add_command(command).is_err());
// Helper method to convert a number to a unique string.
#[allow(clippy::cast_possible_truncation)]
fn to_unique_string(mut n: usize) -> String {
let mut s = String::new();
while n > 0 {
s.push((b'A' + (n % 26) as u8) as char);
n /= 26;
}
s.chars().rev().collect::<String>()
}
// Ensure that adding more than the maximum number of positions will fail.
for i in 1..u8::MAX as usize * 2 {
let position = to_unique_string(i);
println!("position: {}", position);
let command = Command::<CurrentNetwork>::from_str(&format!("position {position};")).unwrap();
match finalize.commands.len() < u8::MAX as usize {
true => assert!(finalize.add_command(command).is_ok()),
false => assert!(finalize.add_command(command).is_err()),
}
}
}
}