pub trait ParserDefinition: Sized {
    type Location: Clone + Debug;
    type Error;
    type Token: Clone + Debug;
    type TokenIndex: Copy + Clone + Debug;
    type Symbol;
    type Success;
    type StateIndex: Copy + Clone + Debug;
    type Action: ParserAction<Self>;
    type ReduceIndex: Copy + Clone + Debug;
    type NonterminalIndex: Copy + Clone + Debug;

Show 14 methods // Required methods fn start_location(&self) -> Self::Location; fn start_state(&self) -> Self::StateIndex; fn token_to_index(&self, token: &Self::Token) -> Option<Self::TokenIndex>; fn action( &self, state: Self::StateIndex, token_index: Self::TokenIndex ) -> Self::Action; fn error_action(&self, state: Self::StateIndex) -> Self::Action; fn eof_action(&self, state: Self::StateIndex) -> Self::Action; fn goto( &self, state: Self::StateIndex, nt: Self::NonterminalIndex ) -> Self::StateIndex; fn token_to_symbol( &self, token_index: Self::TokenIndex, token: Self::Token ) -> Self::Symbol; fn expected_tokens(&self, state: Self::StateIndex) -> Vec<String>; fn uses_error_recovery(&self) -> bool; fn error_recovery_symbol( &self, recovery: ErrorRecovery<Self> ) -> Self::Symbol; fn reduce( &mut self, reduce_index: Self::ReduceIndex, start_location: Option<&Self::Location>, states: &mut Vec<Self::StateIndex>, symbols: &mut Vec<SymbolTriple<Self>> ) -> Option<ParseResult<Self>>; fn simulate_reduce( &self, action: Self::ReduceIndex ) -> SimulatedReduce<Self>; // Provided method fn expected_tokens_from_states( &self, states: &[Self::StateIndex] ) -> Vec<String> { ... }
}

Required Associated Types§

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type Location: Clone + Debug

Represents a location in the input text. If you are using the default tokenizer, this will be a usize.

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type Error

Represents a “user error” – this can get produced by reduce() if the grammar includes =>? actions.

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type Token: Clone + Debug

The type emitted by the user’s tokenizer (excluding the location information).

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type TokenIndex: Copy + Clone + Debug

We assign a unique index to each token in the grammar, which we call its index. When we pull in a new Token from the input, we then match against it to determine its index. Note that the actual Token is retained too, as it may carry additional information (e.g., an ID terminal often has a string value associated with it; this is not important to the parser, but the semantic analyzer will want it).

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type Symbol

The type representing things on the LALRPOP stack. Represents the union of terminals and nonterminals.

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type Success

Type produced by reducing the start symbol.

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type StateIndex: Copy + Clone + Debug

Identifies a state. Typically an i8, i16, or i32 (depending on how many states you have).

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type Action: ParserAction<Self>

Identifies an action.

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type ReduceIndex: Copy + Clone + Debug

Identifies a reduction.

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type NonterminalIndex: Copy + Clone + Debug

Identifies a nonterminal.

Required Methods§

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fn start_location(&self) -> Self::Location

Returns a location representing the “start of the input”.

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fn start_state(&self) -> Self::StateIndex

Returns the initial state.

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fn token_to_index(&self, token: &Self::Token) -> Option<Self::TokenIndex>

Converts the user’s tokens into an internal index; this index is then used to index into actions and the like. When using an internal tokenizer, these indices are directly produced. When using an external tokenier, however, this function matches against the patterns given by the user: it is fallible therefore as these patterns may not be exhaustive. If a token value is found that doesn’t match any of the patterns the user supplied, then this function returns None, which is translated into a parse error by LALRPOP (“unrecognized token”).

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fn action( &self, state: Self::StateIndex, token_index: Self::TokenIndex ) -> Self::Action

Given the top-most state and the pending terminal, returns an action. This can be either SHIFT(state), REDUCE(action), or ERROR.

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fn error_action(&self, state: Self::StateIndex) -> Self::Action

Returns the action to take if an error occurs in the given state. This function is the same as the ordinary action, except that it applies not to the user’s terminals but to the “special terminal” !.

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fn eof_action(&self, state: Self::StateIndex) -> Self::Action

Action to take if EOF occurs in the given state. This function is the same as the ordinary action, except that it applies not to the user’s terminals but to the “special terminal” $.

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fn goto( &self, state: Self::StateIndex, nt: Self::NonterminalIndex ) -> Self::StateIndex

If we reduce to a nonterminal in the given state, what state do we go to? This is infallible due to the nature of LR(1) grammars.

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fn token_to_symbol( &self, token_index: Self::TokenIndex, token: Self::Token ) -> Self::Symbol

“Upcast” a terminal into a symbol so we can push it onto the parser stack.

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fn expected_tokens(&self, state: Self::StateIndex) -> Vec<String>

Returns the expected tokens in a given state. This is used for error reporting.

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fn uses_error_recovery(&self) -> bool

True if this grammar supports error recovery.

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fn error_recovery_symbol(&self, recovery: ErrorRecovery<Self>) -> Self::Symbol

Given error information, creates an error recovery symbol that we push onto the stack (and supply to user actions).

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fn reduce( &mut self, reduce_index: Self::ReduceIndex, start_location: Option<&Self::Location>, states: &mut Vec<Self::StateIndex>, symbols: &mut Vec<SymbolTriple<Self>> ) -> Option<ParseResult<Self>>

Execute a reduction in the given state: that is, execute user code. The start location indicates the “starting point” of the current lookahead that is triggering the reduction (it is None for EOF).

The states and symbols vectors represent the internal state machine vectors; they are given to reduce so that it can pop off states that no longer apply (and consume their symbols). At the end, it should also push the new state and symbol produced.

Returns a Some if we reduced the start state and hence parsing is complete, or if we encountered an irrecoverable error.

FIXME. It would be nice to not have so much logic live in reduce. It should just be given an iterator of popped symbols and return the newly produced symbol (or error). We can use simulate_reduce and our own information to drive the rest, right? This would also allow us – I think – to extend error recovery to cover user-produced errors.

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fn simulate_reduce(&self, action: Self::ReduceIndex) -> SimulatedReduce<Self>

Returns information about how many states will be popped during a reduction, and what nonterminal would be produced as a result.

Provided Methods§

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fn expected_tokens_from_states( &self, states: &[Self::StateIndex] ) -> Vec<String>

Returns the expected tokens in a given state. This is used in the same way as expected_tokens but allows more precise reporting of accepted tokens in some cases.

Object Safety§

This trait is not object safe.

Implementors§