FastWaveBackend/src/vcd/parse/scopes.rs

//! part of the vcd parser that handles parsing the signal tree and
//! building the resulting signal tree
use super::*;

pub(super) fn parse_var<'a>(
    word_reader: &mut WordReader,
    parent_scope_idx: ScopeIdx,
    vcd: &'a mut VCD,
    signal_map: &mut HashMap<String, SignalIdx>,
) -> Result<(), String> {
    let (word, cursor) = next_word!(word_reader)?;
    let expected_types = [
        "integer",
        "parameter",
        "real",
        "reg",
        "string",
        "wire",
        "tri1",
        "time",
    ];

    // $var parameter 3 a IDLE $end
    //      ^^^^^^^^^ - var_type
    let var_type = match word {
        "integer" => Ok(SigType::Integer),
        "parameter" => Ok(SigType::Parameter),
        "real" => Ok(SigType::Real),
        "reg" => Ok(SigType::Reg),
        "string" => Ok(SigType::Str),
        "wire" => Ok(SigType::Wire),
        "tri1" => Ok(SigType::Tri1),
        "time" => Ok(SigType::Time),
        _ => {
            let err = format!(
                "Error near {}:{} \
                               found keyword `{word}` but expected one of \
                               {expected_types:?} on {cursor:?}",
                file!(),
                line!()
            );
            Err(err)
        }
    }?;

    let (word, cursor) = next_word!(word_reader)?;

    let parse_err = format!("failed to parse as usize on {cursor:?}");

    // $var parameter 3 a IDLE $end
    //                ^ - no_bits
    let no_bits = match var_type {
        SigType::Integer
        | SigType::Parameter
        | SigType::Real
        | SigType::Reg
        | SigType::Wire
        | SigType::Tri1
        | SigType::Time => {
            let no_bits = word.parse::<usize>().expect(parse_err.as_str());
            Some(no_bits)
        }
        // for strings, we don't really care what the number of bits is
        _ => None,
    };

    // $var parameter 3 a IDLE $end
    //                  ^ - signal_alias
    let (word, _) = next_word!(word_reader)?;
    let signal_alias = word.to_string();

    // $var parameter 3 a IDLE $end
    //                    ^^^^ - full_signal_name(can extend until $end)
    let mut full_signal_name = Vec::<String>::new();
    loop {
        let (word, _) = next_word!(word_reader)?;
        match word {
            "$end" => break,
            _ => full_signal_name.push(word.to_string()),
        }
    }
    let full_signal_name = full_signal_name.join(" ");

    // Is the current variable an alias to a signal already encountered?
    // if so, handle ref_signal_idx accordingly, if not, add signal to hash
    // map
    let (signal, signal_idx) = match signal_map.get(&signal_alias) {
        Some(ref_signal_idx) => {
            let signal_idx = SignalIdx(vcd.all_signals.len());
            let signal = Signal::Alias {
                name: full_signal_name,
                signal_alias: *ref_signal_idx,
            };
            (signal, signal_idx)
        }
        None => {
            let signal_idx = SignalIdx(vcd.all_signals.len());
            signal_map.insert(signal_alias.to_string(), signal_idx);
            let signal = Signal::Data {
                name: full_signal_name,
                sig_type: var_type,
                signal_error: None,
                num_bits: None,
                self_idx: signal_idx,
                nums_encoded_as_fixed_width_le_u8: vec![],
                string_vals: vec![],
                lsb_indxs_of_num_tmstmp_vals_on_tmln: vec![],
                byte_len_of_num_tmstmp_vals_on_tmln: vec![],
                lsb_indxs_of_string_tmstmp_vals_on_tmln: vec![],
                byte_len_of_string_tmstmp_vals_on_tmln: vec![],
                scope_parent: parent_scope_idx,
            };
            (signal, signal_idx)
        }
    };

    vcd.all_signals.push(signal);
    let ScopeIdx(parent_scope_idx_usize) = parent_scope_idx;
    let parent_scope = vcd.all_scopes.get_mut(parent_scope_idx_usize).unwrap();
    parent_scope.child_signals.push(signal_idx);

    Ok(())
}

/// Sometimes, variables can be listed outside of scopes.
/// We call these orphaned vars.
fn parse_orphaned_vars<'a>(
    word_reader: &mut WordReader,
    vcd: &'a mut VCD,
    signal_map: &mut HashMap<String, SignalIdx>,
) -> Result<(), String> {
    // create scope for unscoped signals if such a scope does not
    // yet exist
    let scope_name = "Orphaned Signals";

    // set default scope_idx to the count of existing scope as we
    // generally set scope.self_idx to the number of existing scopes
    // when that particular scope was inserted
    let mut scope_idx = ScopeIdx(vcd.all_scopes.len());

    // Override scope_idx if we find a scope named "Orphaned Signals"
    // already exists
    let mut scope_already_exists = false;
    for scope in &vcd.all_scopes {
        if scope.name == scope_name {
            scope_idx = scope.self_idx;
            scope_already_exists = true;
            break;
        }
    }

    if !scope_already_exists {
        vcd.all_scopes.push(Scope {
            name: scope_name.to_string(),
            parent_idx: None,
            self_idx: scope_idx,
            child_signals: vec![],
            child_scopes: vec![],
        });
        vcd.root_scopes.push(scope_idx);
    }

    // we can go ahead and parse the current var as we've already encountered
    // "$var" before now.
    parse_var(word_reader, scope_idx, vcd, signal_map)?;

    loop {
        let (word, cursor) = next_word!(word_reader)?;

        match word {
            "$var" => {
                parse_var(word_reader, scope_idx, vcd, signal_map)?;
            }
            "$scope" => break,
            _ => {
                let msg = format!(
                    "Error near {}:{}.\
                          Expected $scope or $var, found \
                          {word} at {cursor:?}",
                    file!(),
                    line!()
                );
                Err(msg)?;
            }
        };
    }

    Ok(())
}

fn parse_scopes_inner<'a>(
    word_reader: &mut WordReader,
    parent_scope_idx: Option<ScopeIdx>,
    vcd: &'a mut VCD,
    signal_map: &mut HashMap<String, SignalIdx>,
) -> Result<(), String> {
    // $scope module reg_mag_i $end
    //        ^^^^^^ - module keyword
    let (keyword, cursor) = next_word!(word_reader)?;

    let expected = ["module", "begin", "task", "function"];
    if expected.contains(&keyword) {
        Ok(())
    } else {
        let err = format!(
            "Error near {}:{}. \
                            found keyword `{keyword}` but expected one of \
                            {expected:?} on {cursor:?}",
            file!(),
            line!()
        );
        Err(err)
    }?;

    // $scope module reg_mag_i $end
    //               ^^^^^^^^^ - scope name
    let (scope_name, _) = next_word!(word_reader)?;

    let curr_scope_idx = ScopeIdx(vcd.all_scopes.len());

    // register this scope as a child of the current parent scope
    // if there is a parent scope, or else we register this scope as
    // root scope
    match parent_scope_idx {
        Some(ScopeIdx(parent_scope_idx)) => {
            let parent_scope = vcd.all_scopes.get_mut(parent_scope_idx).unwrap();
            parent_scope.child_scopes.push(curr_scope_idx);
        }
        None => vcd.root_scopes.push(curr_scope_idx),
    }

    // add this scope to list of existing scopes
    vcd.all_scopes.push(Scope {
        name: scope_name.to_string(),
        parent_idx: parent_scope_idx,
        self_idx: curr_scope_idx,
        child_signals: vec![],
        child_scopes: vec![],
    });

    // $scope module reg_mag_i $end
    //                         ^^^^ - end keyword
    ident(word_reader, "$end")?;

    loop {
        let (word, cursor) = next_word!(word_reader)?;
        let ParseResult { matched, residual } = tag(word, "$");
        match matched {
            // we hope that this word starts with a `$`
            "$" => {
                match residual {
                    "scope" => {
                        // recursive - parse inside of current scope tree
                        parse_scopes_inner(word_reader, Some(curr_scope_idx), vcd, signal_map)?;
                    }
                    "var" => {
                        parse_var(word_reader, curr_scope_idx, vcd, signal_map)?;
                    }
                    "upscope" => {
                        ident(word_reader, "$end")?;
                        break;
                    }
                    // we ignore comments
                    "comment" => loop {
                        if ident(word_reader, "$end").is_ok() {
                            break;
                        }
                    },
                    _ => {
                        let err = format!(
                            "Error near {}:{}. \
                                           found keyword `{residual}` but expected \
                                           `$scope`, `$var`, `$comment`, or `$upscope` \
                                           on {cursor:?}",
                            file!(),
                            line!()
                        );
                        return Err(err);
                    }
                }
            }
            _ => {
                let err = format!(
                    "Error near {}:{}. \
                                  found keyword `{matched}` but \
                                  expected `$` on {cursor:?}",
                    file!(),
                    line!()
                );
                return Err(err);
            }
        }
    }

    Ok(())
}

pub(super) fn parse_scopes<'a>(
    word_reader: &mut WordReader,
    vcd: &'a mut VCD,
    signal_map: &mut HashMap<String, SignalIdx>,
) -> Result<(), String> {
    // get the current word
    let (word, cursor) = curr_word!(word_reader)?;

    // we may have orphaned vars that occur before the first scope
    if word == "$var" {
        parse_orphaned_vars(word_reader, vcd, signal_map)?;
    }

    // get the current word
    let (word, cursor) = curr_word!(word_reader)?;

    // the current word should be "scope", as `parse_orphaned_vars`(if it
    // was called), should have terminated upon encountering "$scope".
    // If `parse_orphaned_vars` was not called, `parse_scopes` should still
    // have only been called if the caller encountered the word "$scope"
    if word != "$scope" {
        let msg = format!(
            "Error near {}:{}.\
                           Expected $scope or $var, found \
                           {word} at {cursor:?}",
            file!(),
            line!()
        );
        return Err(msg);
    }

    // now for the interesting part
    parse_scopes_inner(word_reader, None, vcd, signal_map)?;

    // let err = format!("reached end of file without parser leaving {}", function_name!());
    let expected_keywords = ["$scope", "$enddefinitions"];

    // there could be multiple signal trees, and unfortunately, we
    // can't merge the earlier call to `parse_scopes_inner` into this loop
    // because this loop gets a word from `next_word` instead of
    // `curr_word()`.
    loop {
        let (word, cursor) = next_word!(word_reader)?;

        match word {
            "$scope" => {
                parse_scopes_inner(word_reader, None, vcd, signal_map)?;
            }
            "$enddefinitions" => {
                ident(word_reader, "$end")?;
                break;
            }
            "comment" => {
                // although we don't store comments, we still need to advance the
                // word_reader cursor to the end of the comment
                loop {
                    if ident(word_reader, "$end").is_ok() {
                        break;
                    }
                }
            }
            _ => {
                let err = format!(
                    "Error near {}:{} \
                                found keyword `{word}` but expected one of \
                                {expected_keywords:?} on {cursor:?}",
                    file!(),
                    line!()
                );
                return Err(err);
            }
        }
    }

    Ok(())
}