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77 lines
2.5 KiB
Rust
77 lines
2.5 KiB
Rust
use crate::solve;
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use roc_can::constraint::Constraint;
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use roc_can::module::Module;
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use roc_collections::all::{MutMap, SendMap};
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use roc_module::symbol::Symbol;
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use roc_types::solved_types::{Solved, SolvedType};
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use roc_types::subs::{Subs, VarStore, Variable};
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use roc_types::types::Alias;
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#[derive(Debug)]
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pub struct SolvedModule {
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pub solved_types: MutMap<Symbol, SolvedType>,
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pub aliases: MutMap<Symbol, Alias>,
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pub exposed_vars_by_symbol: Vec<(Symbol, Variable)>,
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pub problems: Vec<solve::TypeError>,
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}
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pub fn solve_module(
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module: Module,
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constraint: Constraint,
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var_store: VarStore,
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) -> (Solved<Subs>, SolvedModule) {
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let exposed_vars_by_symbol: Vec<(Symbol, Variable)> = module.exposed_vars_by_symbol;
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let env = solve::Env {
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vars_by_symbol: SendMap::default(),
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aliases: module.aliases,
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};
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let mut subs = Subs::new(var_store.into());
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for (var, name) in module.rigid_variables {
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subs.rigid_var(var, name);
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}
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// Now that the module is parsed, canonicalized, and constrained,
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// we need to type check it.
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let mut problems = Vec::new();
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// Run the solver to populate Subs.
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let (solved_subs, solved_env) = solve::run(&env, &mut problems, subs, &constraint);
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let mut solved_types = MutMap::default();
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for (symbol, alias) in solved_env.aliases {
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let mut args = Vec::with_capacity(alias.vars.len());
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for loc_named_var in alias.vars {
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let (name, var) = loc_named_var.value;
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args.push((name.clone(), SolvedType::new(&solved_subs, var)));
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}
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let solved_type = SolvedType::from_type(&solved_subs, alias.typ);
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let solved_alias = SolvedType::Alias(symbol, args, Box::new(solved_type));
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solved_types.insert(symbol, solved_alias);
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}
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// exposed_vars_by_symbol contains the Variables for all the Symbols
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// this module exposes. We want to convert those into flat SolvedType
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// annotations which are decoupled from our Subs, because that's how
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// other modules will generate constraints for imported values
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// within the context of their own Subs.
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for (symbol, var) in exposed_vars_by_symbol.iter() {
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let solved_type = SolvedType::new(&solved_subs, *var);
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solved_types.insert(*symbol, solved_type);
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}
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let solved_module = SolvedModule {
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exposed_vars_by_symbol,
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solved_types,
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problems,
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aliases: env.aliases,
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};
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(solved_subs, solved_module)
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}
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