annonars 0.44.0

//! Code for loading gene-related data from the TSV.

use serde::{Deserialize, Serialize};

/// Entry in the genes RocksDB database.
///
/// Note that the HGNC ID is used for the keys, e.g., `"HGNC:5"`.
#[derive(Debug, Clone, Serialize, Deserialize)]
#[serde_with::skip_serializing_none]
pub struct Record {
    /// Information from the ACMG secondary finding list.
    pub acmg_sf: Option<acmg_sf::Record>,
    /// Information from the ClinGen gene curation (GRCh37).
    pub clingen_37: Option<clingen_gene::Gene>,
    /// Information from the ClinGen gene curation (GRCh38).
    pub clingen_38: Option<clingen_gene::Gene>,
    /// Information from dbNSFP genes.
    pub dbnsfp: Option<dbnsfp_gene::Record>,
    /// Information from the gnomAD constraints database.
    pub gnomad_constraints: Option<gnomad_constraints::Record>,
    /// Information from the HGNC database.
    pub hgnc: hgnc::Record,
    /// Information from the NCBI gene database (aka "Entrez").
    pub ncbi: Option<ncbi::Record>,
    /// Information about OMIM diseases for a gene.
    pub omim: Option<omim::Record>,
    /// Information about ORPHA diseases for a gene.
    pub orpha: Option<orpha::Record>,
    /// Information about PanelApp entries for a gene.
    pub panelapp: Vec<panelapp::Record>,
    /// Information from rCNV (Collins et al., 2022).
    pub rcnv: Option<rcnv::Record>,
    /// Information from sHet (Weghorn et al., 2019).
    pub shet: Option<shet::Record>,
    /// Information from GTEx.
    pub gtex: Option<gtex::Record>,
    /// Information from DOMINO.
    pub domino: Option<domino::Record>,
    /// DECIPHER HI predictions.
    pub decipher_hi: Option<decipher_hi::Record>,
    /// Integrated conditions record.
    pub conditions: Option<conditions::Record>,
}

/// Code for data from the ACMG secondary findings list.
pub mod acmg_sf {
    use serde::{Deserialize, Serialize};

    /// A record from the ACMG secondary findings list.
    #[derive(Debug, Clone, Serialize, Deserialize)]
    pub struct Record {
        /// The HGNC ID.
        pub hgnc_id: String,
        /// The Ensembl gene ID.
        pub ensembl_gene_id: String,
        /// The NCBI gene ID.
        pub ncbi_gene_id: String,
        /// The HGNC gene symbol.
        pub gene_symbol: String,
        /// The MIM gene ID.
        pub mim_gene_id: String,
        /// The disease phenotype.
        pub disease_phenotype: String,
        /// The disease MIM id.
        pub disorder_mim: String,
        /// The phenotype category.
        pub phenotype_category: String,
        /// The mode of inheritance.
        pub inheritance: String,
        /// The version of the ACMG SF list of first appearance.
        pub sf_list_version: String,
        /// The variants to report according to ACMG SF.
        pub variants_to_report: String,
    }
}

/// Code for deserializing data from ClinGen gene TSV file.
pub mod clingen_gene {
    /// Dosage pathogenicity score.
    #[derive(
        Debug, Copy, Clone, PartialEq, Eq, PartialOrd, Ord, serde::Deserialize, serde::Serialize,
    )]
    #[serde(rename_all = "snake_case")]
    pub enum Score {
        /// Sufficient evidence for dosage pathogenicity (3)
        SufficientEvidence,
        /// Some evidence for dosage pathogenicity (2)
        SomeEvidence,
        /// Little evidence for dosage pathogenicity (1)
        LittleEvidence,
        /// No evidence for dosage pathogenicity (0)
        NoEvidenceAvailable,
        /// Gene associated with autosomal recessive phenotype (30)
        GeneAssociatedWithRecessivePhenotype,
        /// Dosage sensitivity unlikely (40)
        DosageSensitivityUnlikely,
    }

    impl TryFrom<Option<u32>> for Score {
        type Error = anyhow::Error;

        fn try_from(value: Option<u32>) -> Result<Self, Self::Error> {
            match value {
                None | Some(0) => Ok(Self::NoEvidenceAvailable),
                Some(1) => Ok(Self::LittleEvidence),
                Some(2) => Ok(Self::SomeEvidence),
                Some(3) => Ok(Self::SufficientEvidence),
                Some(30) => Ok(Self::GeneAssociatedWithRecessivePhenotype),
                Some(40) => Ok(Self::DosageSensitivityUnlikely),
                _ => anyhow::bail!("invalid score: {:?}", value),
            }
        }
    }

    impl From<Score> for crate::pbs::genes::base::ClingenDosageScore {
        fn from(val: Score) -> Self {
            use crate::pbs::genes::base::ClingenDosageScore::*;
            match val {
                Score::SufficientEvidence => SufficientEvidenceAvailable,
                Score::SomeEvidence => SomeEvidenceAvailable,
                Score::LittleEvidence => LittleEvidence,
                Score::NoEvidenceAvailable => NoEvidenceAvailable,
                Score::GeneAssociatedWithRecessivePhenotype => Recessive,
                Score::DosageSensitivityUnlikely => Unlikely,
            }
        }
    }

    /// `ClinGen` dosage sensitivy gene record to be used in the app.
    #[derive(Debug, Clone, PartialEq, serde::Deserialize, serde::Serialize)]
    pub struct Gene {
        /// Gene symbol.
        #[serde(alias = "#Gene Symbol")]
        pub gene_symbol: String,
        /// NCBI gene ID.
        #[serde(alias = "Gene ID")]
        pub ncbi_gene_id: String,
        /// Genomic location.
        #[serde(alias = "Genomic Location")]
        pub genomic_location: String,
        /// Haploinsufficiency score.
        #[serde(alias = "Haploinsufficiency Score", deserialize_with = "parse_score")]
        pub haploinsufficiency_score: Option<u32>,
        /// Triplosensitivity score.
        #[serde(alias = "Triplosensitivity Score", deserialize_with = "parse_score")]
        pub triplosensitivity_score: Option<u32>,
        /// Haploinsufficiency Disease ID.
        #[serde(alias = "Haploinsufficiency Disease ID")]
        pub haploinsufficiency_disease_id: Option<String>,
        /// Haploinsufficiency Disease ID.
        #[serde(alias = "Triplosensitivity Disease ID")]
        pub triplosensitivity_disease_id: Option<String>,
    }

    /// Helper for parsing the scores which may have interesting values.
    fn parse_score<'de, D>(d: D) -> Result<Option<u32>, D::Error>
    where
        D: serde::Deserializer<'de>,
    {
        let tmp: String = serde::Deserialize::deserialize(d)?;
        if tmp.is_empty() || tmp == "Not yet evaluated" || tmp == "-1" {
            Ok(None)
        } else {
            Ok(Some(tmp.parse().map_err(serde::de::Error::custom)?))
        }
    }

    impl TryInto<bio::bio_types::genome::Interval> for Gene {
        type Error = anyhow::Error;

        fn try_into(self) -> Result<bio::bio_types::genome::Interval, Self::Error> {
            genomic_location_to_interval(&self.genomic_location)
        }
    }

    /// Helper to convert genomic location string into an interval.
    fn genomic_location_to_interval(
        genomic_location: &str,
    ) -> Result<bio::bio_types::genome::Interval, anyhow::Error> {
        let mut parts = genomic_location.split(':');
        let chrom = parts.next().ok_or_else(|| {
            anyhow::anyhow!(
                "could not parse chromosome from genomic location: {}",
                genomic_location
            )
        })?;
        let mut parts = parts
            .next()
            .ok_or_else(|| anyhow::anyhow!("could not parse region {}", genomic_location))?
            .split('-');
        let begin = parts
            .next()
            .unwrap()
            .parse::<u64>()
            .map_err(|e| anyhow::anyhow!("could not parse start position from: {}", e))?
            .saturating_sub(1);
        let end = parts
            .next()
            .unwrap()
            .parse::<u64>()
            .map_err(|e| anyhow::anyhow!("could not parse end position from: {}", e))?;
        Ok(bio::bio_types::genome::Interval::new(
            chrom.to_string(),
            begin..end,
        ))
    }

    /// `ClinGen` dosage sensitivy region record to be used in the app.
    #[derive(Debug, Clone, PartialEq, serde::Deserialize, serde::Serialize)]
    pub struct Region {
        /// ISCA ID
        pub isca_id: String,
        /// ISCA Region Name
        pub isca_region_name: String,
        /// Genomic locaion.
        pub genomic_location: String,
        /// Haploinsufficiency score.
        pub haploinsufficiency_score: Score,
        /// Triplosensitivity score.
        pub triplosensitivity_score: Score,
        /// Haploinsufficiency Disease ID.
        pub haploinsufficiency_disease_id: Option<String>,
        /// Haploinsufficiency Disease ID.
        pub triplosensitivity_disease_id: Option<String>,
    }

    impl TryInto<bio::bio_types::genome::Interval> for Region {
        type Error = anyhow::Error;

        fn try_into(self) -> Result<bio::bio_types::genome::Interval, Self::Error> {
            genomic_location_to_interval(&self.genomic_location)
        }
    }
}

/// Code for deserializing data from DECIPHER HI.
pub mod decipher_hi {
    /// DECIPHER HI prediction.
    #[derive(Debug, Clone, PartialEq, serde::Deserialize, serde::Serialize)]
    pub struct Record {
        /// HGNC identifier.
        pub hgnc_id: String,
        /// Official HGNC gene symbol.
        pub hgnc_symbol: String,
        /// P(HI) prediction from DECIPHER HI.
        pub p_hi: f64,
        /// Percent HI index.
        pub hi_index: f64,
    }
}

/// Code for deserializing data from dbNSFP gene.
pub mod dbnsfp_gene {
    use serde::{Deserialize, Deserializer, Serialize, Serializer};

    /// Deserialize `Option::None` as `"."` - String version.
    ///
    /// This also handles the case where a number is parsed yet a string is expected.
    ///
    /// cf. https://stackoverflow.com/a/56384732/84349
    fn deserialize_option_dot_str<'de, D>(deserializer: D) -> Result<Option<String>, D::Error>
    where
        D: Deserializer<'de>,
    {
        /// We define a local enum type inside of the function because it is untagged, serde will
        /// deserialize as the first variant that it can.
        #[derive(Deserialize, Debug)]
        #[serde(untagged)]
        enum MaybeNA<U> {
            /// If it can be parsed as Option<T>, it will be..
            Value(Option<U>),
            /// ... otherwise try parsing as a string.
            NAString(String),
            /// (also handle case of i64).
            NAI64(i64),
            /// (also handle case of u64).
            NAU64(u64),
            /// (also handle case of f64).
            NAF64(f64),
        }

        // Deserialize into local enum.
        let value: MaybeNA<String> = Deserialize::deserialize(deserializer)?;
        match value {
            // If parsed as T or None, return that.
            MaybeNA::Value(value) => Ok(value),

            // Otherwise, if value is string an "n/a", return None (and fail if it is any other
            // string)
            MaybeNA::NAString(string) => {
                if string == "." {
                    Ok(None)
                } else {
                    Err(serde::de::Error::custom("Unexpected string"))
                }
            }
            MaybeNA::NAI64(v) => Ok(Some(format!("{}", v))),
            MaybeNA::NAU64(v) => Ok(Some(format!("{}", v))),
            MaybeNA::NAF64(v) => Ok(Some(format!("{}", v))),
        }
    }

    /// Deserialize `Option::None` as `"."`.
    ///
    /// cf. https://stackoverflow.com/a/56384732/84349
    fn deserialize_option_dot<'de, D, T>(deserializer: D) -> Result<Option<T>, D::Error>
    where
        D: Deserializer<'de>,
        T: Deserialize<'de> + std::fmt::Debug,
    {
        /// We define a local enum type inside of the function because it is untagged, serde will
        /// deserialize as the first variant that it can.
        #[derive(Deserialize, Debug)]
        #[serde(untagged)]
        enum MaybeNA<U> {
            /// If it can be parsed as Option<T>, it will be..
            Value(Option<U>),
            /// ... otherwise try parsing as a string.
            NAString(String),
        }

        // Deserialize into local enum.
        let value: MaybeNA<T> = Deserialize::deserialize(deserializer)?;
        match value {
            // If parsed as T or None, return that.
            MaybeNA::Value(value) => Ok(value),

            // Otherwise, if value is string an "n/a", return None (and fail if it is any other
            // string)
            MaybeNA::NAString(string) => {
                if string == "." {
                    Ok(None)
                } else {
                    Err(serde::de::Error::custom("Unexpected string"))
                }
            }
        }
    }

    /// Serialize `Option::None` as `"."`.
    fn serialize_option_dot<S, T>(x: &Option<T>, s: S) -> Result<S::Ok, S::Error>
    where
        S: Serializer,
        T: Serialize,
    {
        match x {
            Some(x) => s.serialize_some(x),
            None => s.serialize_str("."),
        }
    }

    /// Deserialize `Vec<String>` as semicolon-separated string, empty is ".".
    ///
    /// cf. https://stackoverflow.com/a/56384732/84349
    fn deserialize_vec<'de, D>(deserializer: D) -> Result<Vec<String>, D::Error>
    where
        D: Deserializer<'de>,
    {
        let value: String = Deserialize::deserialize(deserializer)?;
        if value == "." {
            Ok(Vec::new())
        } else {
            Ok(value
                .split(';')
                .map(|s| s.trim().to_string())
                .filter(|s| !s.is_empty())
                .collect())
        }
    }

    /// Serialize `Vec<String>`, counterpart to `deserialize_vec`.
    fn serialize_vec<S>(x: &[String], s: S) -> Result<S::Ok, S::Error>
    where
        S: Serializer,
    {
        if x.is_empty() {
            s.serialize_str(".")
        } else {
            s.serialize_str(&x.join(";"))
        }
    }

    /// A record from the dbNSFP gene database.
    #[derive(Debug, Clone, Serialize, Deserialize)]
    pub struct Record {
        /// Gene symbol from HGNC.
        #[serde(alias = "Gene_name")]
        pub gene_name: String,
        /// Ensembl gene id (from HGNC).
        #[serde(
            alias = "Ensembl_gene",
            serialize_with = "serialize_option_dot",
            deserialize_with = "deserialize_option_dot_str"
        )]
        pub ensembl_gene: Option<String>,
        /// Chromosome number (from HGNC).
        #[serde(
            serialize_with = "serialize_option_dot",
            deserialize_with = "deserialize_option_dot_str"
        )]
        pub chr: Option<String>,
        /// Old gene symbol (from HGNC).
        #[serde(
            alias = "Gene_old_names",
            serialize_with = "serialize_vec",
            deserialize_with = "deserialize_vec"
        )]
        pub gene_old_names: Vec<String>,
        /// Other gene names (from HGNC).
        #[serde(
            alias = "Gene_other_names",
            serialize_with = "serialize_vec",
            deserialize_with = "deserialize_vec"
        )]
        pub gene_other_names: Vec<String>,
        /// Uniprot acc (from HGNC).
        #[serde(
            alias = "Uniprot_acc(HGNC/Uniprot)",
            serialize_with = "serialize_option_dot",
            deserialize_with = "deserialize_option_dot_str"
        )]
        pub uniprot_acc: Option<String>,
        /// Uniprot id (from HGNC).
        #[serde(
            alias = "Uniprot_id(HGNC/Uniprot)",
            serialize_with = "serialize_option_dot",
            deserialize_with = "deserialize_option_dot_str"
        )]
        pub uniprot_id: Option<String>,
        /// Uniprot id (from HGNC).
        #[serde(
            alias = "Entrez_gene_id",
            serialize_with = "serialize_option_dot",
            deserialize_with = "deserialize_option_dot_str"
        )]
        pub entrez_gene_id: Option<String>,
        /// CCDS id (from HGNC).
        #[serde(
            alias = "CCDS_id",
            serialize_with = "serialize_vec",
            deserialize_with = "deserialize_vec"
        )]
        pub ccds_id: Vec<String>,
        /// Refseq gene id (from HGNC).
        #[serde(
            alias = "Refseq_id",
            serialize_with = "serialize_vec",
            deserialize_with = "deserialize_vec"
        )]
        pub refseq_id: Vec<String>,
        /// UCSC gene id (from HGNC).
        #[serde(
            alias = "ucsc_id",
            serialize_with = "serialize_option_dot",
            deserialize_with = "deserialize_option_dot_str"
        )]
        pub ucsc_id: Option<String>,
        /// MIM gene id (from OMIM).
        #[serde(
            alias = "MIM_id",
            serialize_with = "serialize_vec",
            deserialize_with = "deserialize_vec"
        )]
        pub mim_id: Vec<String>,
        /// MIM gene id from OMIM.
        #[serde(
            alias = "OMIM_id",
            serialize_with = "serialize_vec",
            deserialize_with = "deserialize_vec"
        )]
        pub omim_id: Vec<String>,
        /// Gene full name (from HGNC).
        #[serde(
            alias = "Gene_full_name",
            serialize_with = "serialize_option_dot",
            deserialize_with = "deserialize_option_dot_str"
        )]
        pub gene_full_name: Option<String>,

        /// Pathway description from Uniprot.
        #[serde(
            alias = "Pathway(Uniprot)",
            serialize_with = "serialize_option_dot",
            deserialize_with = "deserialize_option_dot_str"
        )]
        pub pathway_uniprot: Option<String>,
        /// Short name of the Pathway(s) the gene belongs to (from BioCarta).
        #[serde(
            alias = "Pathway(BioCarta)_short",
            serialize_with = "serialize_vec",
            deserialize_with = "deserialize_vec"
        )]
        pub pathway_biocarta_short: Vec<String>,
        /// Full name(s) of the Pathway(s) the gene belongs to (from BioCarta).
        #[serde(
            alias = "Pathway(BioCarta)_full",
            serialize_with = "serialize_vec",
            deserialize_with = "deserialize_vec"
        )]
        pub pathway_biocarta_full: Vec<String>,
        /// Pathway(s) the gene belongs to (from ConsensusPathDB).
        #[serde(
            alias = "Pathway(ConsensusPathDB)",
            serialize_with = "serialize_vec",
            deserialize_with = "deserialize_vec"
        )]
        pub pathway_consensus_path_db: Vec<String>,
        /// ID(s) of the Pathway(s) the gene belongs to (from KEGG).
        #[serde(
            alias = "Pathway(KEGG)_id",
            serialize_with = "serialize_vec",
            deserialize_with = "deserialize_vec"
        )]
        pub pathway_kegg_id: Vec<String>,
        /// Full name(s) of the Pathway(s) the gene belongs to (from KEGG).
        #[serde(
            alias = "Pathway(KEGG)_full",
            serialize_with = "serialize_vec",
            deserialize_with = "deserialize_vec"
        )]
        pub pathway_kegg_full: Vec<String>,

        /// Function description of the gene (from Uniprot).
        #[serde(
            alias = "Function_description",
            serialize_with = "serialize_vec",
            deserialize_with = "deserialize_vec"
        )]
        pub function_description: Vec<String>,
        /// Disease(s) the gene caused or associated with (from Uniprot).
        #[serde(
            alias = "Disease_description",
            serialize_with = "serialize_vec",
            deserialize_with = "deserialize_vec"
        )]
        pub disease_description: Vec<String>,
        /// MIM id(s) of the phenotype the gene caused or associated with (from Uniprot).
        #[serde(
            alias = "MIM_phenotype_id",
            serialize_with = "serialize_vec",
            deserialize_with = "deserialize_vec"
        )]
        pub mim_phenotype_id: Vec<String>,
        /// MIM disease name(s) with MIM id(s) in [] (from Uniprot).
        #[serde(
            alias = "MIM_disease",
            serialize_with = "serialize_vec",
            deserialize_with = "deserialize_vec"
        )]
        pub mim_disease: Vec<String>,
        /// Orphanet Number of the disorder the gene caused or associated with.
        #[serde(
            alias = "Orphanet_disorder_id",
            serialize_with = "serialize_vec",
            deserialize_with = "deserialize_vec"
        )]
        pub orphanet_disorder_id: Vec<String>,
        /// Disorder name from Orphanet.
        #[serde(
            alias = "Orphanet_disorder",
            serialize_with = "serialize_vec",
            deserialize_with = "deserialize_vec"
        )]
        pub orphanet_disorder: Vec<String>,
        /// The type of association beteen the gene and the disorder in Orphanet.
        #[serde(
            alias = "Orphanet_association_type",
            serialize_with = "serialize_vec",
            deserialize_with = "deserialize_vec"
        )]
        pub orphanet_association_type: Vec<String>,
        /// Trait(s) the gene associated with (from GWAS catalog).
        #[serde(
            alias = "Trait_association(GWAS)",
            serialize_with = "serialize_vec",
            deserialize_with = "deserialize_vec"
        )]
        pub trait_association_gwas: Vec<String>,
        /// ID of the mapped Human Phenotype Ontology.
        #[serde(
            alias = "HPO_id",
            serialize_with = "serialize_vec",
            deserialize_with = "deserialize_vec"
        )]
        pub hpo_id: Vec<String>,
        /// Name of the mapped Human Phenotype Ontology.
        #[serde(
            alias = "HPO_name",
            serialize_with = "serialize_vec",
            deserialize_with = "deserialize_vec"
        )]
        pub hpo_name: Vec<String>,
        /// GO terms for biological process.
        #[serde(
            alias = "GO_biological_process",
            serialize_with = "serialize_vec",
            deserialize_with = "deserialize_vec"
        )]
        pub go_biological_process: Vec<String>,
        /// GO terms for cellular component.
        #[serde(
            alias = "GO_cellular_component",
            serialize_with = "serialize_vec",
            deserialize_with = "deserialize_vec"
        )]
        pub go_cellular_component: Vec<String>,
        /// GO terms for molecular function.
        #[serde(
            alias = "GO_molecular_function",
            serialize_with = "serialize_vec",
            deserialize_with = "deserialize_vec"
        )]
        pub go_molecular_function: Vec<String>,
        /// Tissue specificity description from Uniprot.
        #[serde(
            alias = "Tissue_specificity(Uniprot)",
            serialize_with = "serialize_vec",
            deserialize_with = "deserialize_vec"
        )]
        pub tissue_specificity_uniprot: Vec<String>,
        /// Tissues/organs the gene expressed in (egenetics data from BioMart).
        #[serde(
            alias = "Expression(egenetics)",
            serialize_with = "serialize_vec",
            deserialize_with = "deserialize_vec"
        )]
        pub expression_egenetics: Vec<String>,
        /// Tissues/organs the gene expressed in (GNF/Atlas data from BioMart).
        #[serde(
            alias = "Expression(GNF/Atlas)",
            serialize_with = "serialize_vec",
            deserialize_with = "deserialize_vec"
        )]
        pub expression_gnf_atlas: Vec<String>,
        /// The interacting genes from IntAct.
        #[serde(
            alias = "Interactions(IntAct)",
            serialize_with = "serialize_vec",
            deserialize_with = "deserialize_vec"
        )]
        pub interactions_intact: Vec<String>,
        /// The interacting genes from BioGRID.
        #[serde(
            alias = "Interactions(BioGRID)",
            serialize_with = "serialize_vec",
            deserialize_with = "deserialize_vec"
        )]
        pub interactions_biogrid: Vec<String>,
        /// The interacting genes from ConsensusPathDB.
        #[serde(
            alias = "Interactions(ConsensusPathDB)",
            serialize_with = "serialize_vec",
            deserialize_with = "deserialize_vec"
        )]
        pub interactions_consensus_path_db: Vec<String>,

        /// Estimated probability of haploinsufficiency of the gene (from
        /// doi:10.1371/journal.pgen.1001154).
        #[serde(
            alias = "P(HI)",
            serialize_with = "serialize_option_dot",
            deserialize_with = "deserialize_option_dot"
        )]
        pub haploinsufficiency: Option<f64>,
        /// Estimated probability of haploinsufficiency of the gene (from
        /// doi:10.1093/bioinformatics/btx028).
        #[serde(
            alias = "HIPred_score",
            serialize_with = "serialize_option_dot",
            deserialize_with = "deserialize_option_dot"
        )]
        pub hipred_score: Option<f64>,
        /// HIPred prediction of haploinsufficiency of the gene. Y(es) or N(o). (from
        /// doi:10.1093/bioinformatics/btx028).
        #[serde(
            alias = "HIPred",
            serialize_with = "serialize_option_dot",
            deserialize_with = "deserialize_option_dot_str"
        )]
        pub hipred: Option<String>,
        /// A score predicting the gene haploinsufficiency. The higher the score the more likely the
        /// gene is haploinsufficient (from doi: 10.1093/nar/gkv474).
        #[serde(
            alias = "GHIS",
            serialize_with = "serialize_option_dot",
            deserialize_with = "deserialize_option_dot"
        )]
        pub ghis: Option<f64>,
        /// Estimated probability that gene is a recessive disease gene (from
        /// DOI:10.1126/science.1215040).
        #[serde(
            alias = "P(rec)",
            serialize_with = "serialize_option_dot",
            deserialize_with = "deserialize_option_dot"
        )]
        pub prec: Option<f64>,
        /// Known recessive status of the gene (from DOI:10.1126/science.1215040) "lof-tolerant =
        /// seen in homozygous state in at least one 1000G individual" "recessive = known OMIM
        /// recessive disease" (original annotations from DOI:10.1126/science.1215040).
        #[serde(
            alias = "Known_rec_info",
            serialize_with = "serialize_option_dot",
            deserialize_with = "deserialize_option_dot_str"
        )]
        pub known_rec_info: Option<String>,
        /// Residual Variation Intolerance Score, a measure of intolerance of mutational burden, the
        /// higher the score the more tolerant to mutational burden the gene is. Based on EVS
        /// (ESP6500) data.  from doi:10.1371/journal.pgen.1003709.
        #[serde(
            alias = "RVIS_EVS",
            serialize_with = "serialize_option_dot",
            deserialize_with = "deserialize_option_dot"
        )]
        pub rvis_evs: Option<f64>,
        /// The percentile rank of the gene based on RVIS, the higher the percentile the more
        /// tolerant to mutational burden the gene is. Based on EVS (ESP6500) data.
        #[serde(
            alias = "RVIS_percentile_EVS",
            serialize_with = "serialize_option_dot",
            deserialize_with = "deserialize_option_dot"
        )]
        pub rvis_percentile_evs: Option<f64>,
        /// "A gene's corresponding FDR p-value for preferential LoF depletion among the ExAC
        /// population.  Lower FDR corresponds with genes that are increasingly depleted of LoF
        /// variants." cited from RVIS document.
        #[serde(
            alias = "LoF-FDR_ExAC",
            serialize_with = "serialize_option_dot",
            deserialize_with = "deserialize_option_dot"
        )]
        pub lof_fdr_exac: Option<f64>,
        /// "ExAC-based RVIS; setting 'common' MAF filter at 0.05% in at least one of the six
        /// individual ethnic strata from ExAC." cited from RVIS document.
        #[serde(
            alias = "RVIS_ExAC",
            serialize_with = "serialize_option_dot",
            deserialize_with = "deserialize_option_dot"
        )]
        pub rvis_exac: Option<f64>,
        /// "Genome-Wide percentile for the new ExAC-based RVIS; setting 'common' MAF filter at 0.05%
        /// in at least one of the six individual ethnic strata from ExAC." cited from RVIS document.
        #[serde(
            alias = "RVIS_percentile_ExAC",
            serialize_with = "serialize_option_dot",
            deserialize_with = "deserialize_option_dot"
        )]
        pub rvis_percentile_exac: Option<f64>,
        /// "the probability of being loss-of-function intolerant (intolerant of both heterozygous
        /// and homozygous lof variants)" based on ExAC r0.3 data.
        #[serde(
            alias = "ExAC_pLI",
            serialize_with = "serialize_option_dot",
            deserialize_with = "deserialize_option_dot"
        )]
        pub exac_pli: Option<f64>,
        /// "the probability of being intolerant of homozygous, but not heterozygous lof variants"
        /// based on ExAC r0.3 data.
        #[serde(
            alias = "ExAC_pRec",
            serialize_with = "serialize_option_dot",
            deserialize_with = "deserialize_option_dot"
        )]
        pub exac_prec: Option<f64>,
        /// "the probability of being tolerant of both heterozygous and homozygous lof variants"
        /// based on ExAC r0.3 data.
        #[serde(
            alias = "ExAC_pNull",
            serialize_with = "serialize_option_dot",
            deserialize_with = "deserialize_option_dot"
        )]
        pub exac_pnull: Option<f64>,
        /// "the probability of being loss-of-function intolerant (intolerant of both heterozygous
        /// and homozygous lof variants)" based on ExAC r0.3 nonTCGA subset.
        #[serde(
            alias = "ExAC_nonTCGA_pLI",
            serialize_with = "serialize_option_dot",
            deserialize_with = "deserialize_option_dot"
        )]
        pub exac_nontcga_pli: Option<f64>,
        /// "the probability of being intolerant of homozygous, but not heterozygous lof variants"
        /// based on ExAC r0.3 nonTCGA subset.
        #[serde(
            alias = "ExAC_nonTCGA_pRec",
            serialize_with = "serialize_option_dot",
            deserialize_with = "deserialize_option_dot"
        )]
        pub exac_nontcga_prec: Option<f64>,
        /// "the probability of being tolerant of both heterozygous and homozygous lof variants"
        /// based on ExAC r0.3 nonTCGA subset.
        #[serde(
            alias = "ExAC_nonTCGA_pNull",
            serialize_with = "serialize_option_dot",
            deserialize_with = "deserialize_option_dot"
        )]
        pub exac_nontcga_pnull: Option<f64>,
        /// "the probability of being loss-of-function intolerant (intolerant of both heterozygous
        /// and homozygous lof variants)" based on ExAC r0.3 nonpsych subset.
        #[serde(
            alias = "ExAC_nonpsych_pLI",
            serialize_with = "serialize_option_dot",
            deserialize_with = "deserialize_option_dot"
        )]
        pub exac_nonpsych_pli: Option<f64>,
        /// "the probability of being intolerant of homozygous, but not heterozygous lof variants"
        /// based on ExAC r0.3 nonpsych subset.
        #[serde(
            alias = "ExAC_nonpsych_pRec",
            serialize_with = "serialize_option_dot",
            deserialize_with = "deserialize_option_dot"
        )]
        pub exac_nonpsych_prec: Option<f64>,
        /// "the probability of being tolerant of both heterozygous and homozygous lof variants"
        /// based on ExAC r0.3 nonpsych subset/
        #[serde(
            alias = "ExAC_nonpsych_pNull",
            serialize_with = "serialize_option_dot",
            deserialize_with = "deserialize_option_dot"
        )]
        pub exac_nonpsych_pnull: Option<f64>,
        /// "the probability of being loss-of-function intolerant (intolerant of both heterozygous
        /// and homozygous lof variants)" based on gnomAD 2.1 data.
        #[serde(
            alias = "gnomAD_pLI",
            serialize_with = "serialize_option_dot",
            deserialize_with = "deserialize_option_dot"
        )]
        pub gnomad_pli: Option<f64>,
        /// "the probability of being intolerant of homozygous, but not heterozygous lof variants"
        /// based on gnomAD 2.1 data.
        #[serde(
            alias = "gnomAD_pRec",
            serialize_with = "serialize_option_dot",
            deserialize_with = "deserialize_option_dot"
        )]
        pub gnomad_prec: Option<f64>,
        /// "the probability of being tolerant of both heterozygous and homozygous lof variants"
        /// based on gnomAD 2.1 data.
        #[serde(
            alias = "gnomAD_pNull",
            serialize_with = "serialize_option_dot",
            deserialize_with = "deserialize_option_dot"
        )]
        pub gnomad_pnull: Option<f64>,
        /// "Winsorised deletion intolerance z-score" based on ExAC r0.3.1 CNV data.
        #[serde(
            alias = "ExAC_del.score",
            serialize_with = "serialize_option_dot",
            deserialize_with = "deserialize_option_dot"
        )]
        pub exac_del_score: Option<f64>,
        /// "Winsorised duplication intolerance z-score" based on ExAC r0.3.1 CNV data.
        #[serde(
            alias = "ExAC_dup.score",
            serialize_with = "serialize_option_dot",
            deserialize_with = "deserialize_option_dot"
        )]
        pub exac_dup_score: Option<f64>,
        /// "Winsorised cnv intolerance z-score" based on ExAC r0.3.1 CNV data.
        #[serde(
            alias = "ExAC_cnv.score",
            serialize_with = "serialize_option_dot",
            deserialize_with = "deserialize_option_dot"
        )]
        pub exac_cnv_score: Option<f64>,
        /// "Gene is in a known region of recurrent CNVs mediated by tandem segmental duplications
        /// and intolerance scores are more likely to be biased or noisy." from ExAC r0.3.1 CNV
        /// release.
        #[serde(
            alias = "ExAC_cnv_flag",
            serialize_with = "serialize_option_dot",
            deserialize_with = "deserialize_option_dot_str"
        )]
        pub exac_cnv_flag: Option<String>,
        /// gene damage index score, "a genome-wide, gene-level metric of the mutational damage that
        /// has accumulated in the general population" from doi: 10.1073/pnas.1518646112. The higher
        /// the score the less likely the gene is to be responsible for monogenic diseases.
        #[serde(
            alias = "GDI",
            serialize_with = "serialize_option_dot",
            deserialize_with = "deserialize_option_dot"
        )]
        pub gdi: Option<f64>,
        /// Phred-scaled GDI scores.
        #[serde(
            alias = "GDI-Phred",
            serialize_with = "serialize_option_dot",
            deserialize_with = "deserialize_option_dot"
        )]
        pub gdi_phred: Option<f64>,
        /// gene damage prediction (low/medium/high) by GDI for all diseases.,
        #[serde(
            alias = "Gene damage prediction (all disease-causing genes)",
            serialize_with = "serialize_option_dot",
            deserialize_with = "deserialize_option_dot_str"
        )]
        pub gdp_all_disease_causing: Option<String>,
        /// gene damage prediction (low/medium/high) by GDI for all Mendelian diseases.
        #[serde(
            alias = "Gene damage prediction (all Mendelian disease-causing genes)",
            serialize_with = "serialize_option_dot",
            deserialize_with = "deserialize_option_dot_str"
        )]
        pub gdp_all_mendelian: Option<String>,
        /// gene damage prediction (low/medium/high) by GDI for Mendelian autosomal dominant
        /// diseases.
        #[serde(
            alias = "Gene damage prediction (Mendelian AD disease-causing genes)",
            serialize_with = "serialize_option_dot",
            deserialize_with = "deserialize_option_dot_str"
        )]
        pub gdp_all_mendelian_ad: Option<String>,
        /// gene damage prediction (low/medium/high) by GDI for Mendelian autosomal recessive
        /// diseases.
        #[serde(
            alias = "Gene damage prediction (Mendelian AR disease-causing genes)",
            serialize_with = "serialize_option_dot",
            deserialize_with = "deserialize_option_dot_str"
        )]
        pub gdp_mendelian_ar: Option<String>,
        /// gene damage prediction (low/medium/high) by GDI for all primary immunodeficiency
        /// diseases.
        #[serde(
            alias = "Gene damage prediction (all PID disease-causing genes)",
            serialize_with = "serialize_option_dot",
            deserialize_with = "deserialize_option_dot_str"
        )]
        pub gdp_pid: Option<String>,
        /// gene damage prediction (low/medium/high) by GDI for primary immunodeficiency autosomal
        /// dominant diseases.
        #[serde(
            alias = "Gene damage prediction (PID AD disease-causing genes)",
            serialize_with = "serialize_option_dot",
            deserialize_with = "deserialize_option_dot_str"
        )]
        pub gdp_pid_ad: Option<String>,
        /// gene damage prediction (low/medium/high) by GDI for primary immunodeficiency autosomal
        /// recessive diseases.
        #[serde(
            alias = "Gene damage prediction (PID AR disease-causing genes)",
            serialize_with = "serialize_option_dot",
            deserialize_with = "deserialize_option_dot_str"
        )]
        pub gdp_pid_ar: Option<String>,
        /// gene damage prediction (low/medium/high) by GDI for all cancer disease.
        #[serde(
            alias = "Gene damage prediction (all cancer disease-causing genes)",
            serialize_with = "serialize_option_dot",
            deserialize_with = "deserialize_option_dot_str"
        )]
        pub gdp_cancer: Option<String>,
        /// gene damage prediction (low/medium/high) by GDI for cancer recessive disease.
        #[serde(
            alias = "Gene damage prediction (cancer recessive disease-causing genes)",
            serialize_with = "serialize_option_dot",
            deserialize_with = "deserialize_option_dot_str"
        )]
        pub gdb_cancer_rec: Option<String>,
        /// gene damage prediction (low/medium/high) by GDI for cancer dominant disease.
        #[serde(
            alias = "Gene damage prediction (cancer dominant disease-causing genes)",
            serialize_with = "serialize_option_dot",
            deserialize_with = "deserialize_option_dot_str"
        )]
        pub gdp_cancer_dom: Option<String>,
        /// A percentile score for gene intolerance to functional change. The lower the score the
        /// higher gene intolerance to functional change. For details see doi:
        /// 10.1093/bioinformatics/btv602.
        #[serde(
            alias = "LoFtool_score",
            serialize_with = "serialize_option_dot",
            deserialize_with = "deserialize_option_dot"
        )]
        pub loftool_score: Option<f64>,
        /// The fraction of individuals in the 1000 Genomes Project data (N=2504) who are either
        /// Heterozygote or Homozygote of LOF SNVs whose MAF<0.005. This fraction is from a method
        /// for ranking genes based on mutational burden called SORVA (Significance Of Rare
        /// VAriants). Please see doi: 10.1101/103218 for details.
        #[serde(
            alias = "SORVA_LOF_MAF0.005_HetOrHom",
            serialize_with = "serialize_option_dot",
            deserialize_with = "deserialize_option_dot"
        )]
        pub sorva_lof_maf_5_het_or_hom: Option<f64>,
        /// The fraction of individuals in the 1000 Genomes Project data (N=2504) who are either
        /// Compound Heterozygote or Homozygote of LOF SNVs whose MAF<0.005. This fraction is from a
        /// method for ranking genes based on mutational burden called SORVA (Significance Of Rare
        /// VAriants). Please see doi: 10.1101/103218 for details.
        #[serde(
            alias = "SORVA_LOF_MAF0.005_HomOrCompoundHet",
            serialize_with = "serialize_option_dot",
            deserialize_with = "deserialize_option_dot"
        )]
        pub sorva_lof_maf_5_hom_or_comphet: Option<f64>,
        /// The fraction of individuals in the 1000 Genomes Project data (N=2504) who are either
        /// Heterozygote or Homozygote of LOF SNVs whose MAF<0.001. This fraction is from a method
        /// for ranking genes based on mutational burden called SORVA (Significance Of Rare
        /// VAriants). Please see doi: 10.1101/103218 for details.
        #[serde(
            alias = "SORVA_LOF_MAF0.001_HetOrHom",
            serialize_with = "serialize_option_dot",
            deserialize_with = "deserialize_option_dot"
        )]
        pub sorva_lof_maf_1_het_or_hom: Option<f64>,
        /// The fraction of individuals in the 1000 Genomes Project data (N=2504) who are either
        /// Compound Heterozygote or Homozygote of LOF SNVs whose MAF<0.001. This fraction is from a
        /// method for ranking genes based on mutational burden called SORVA (Significance Of Rare
        /// VAriants). Please see doi: 10.1101/103218 for details.
        #[serde(
            alias = "SORVA_LOF_MAF0.001_HomOrCompoundHet",
            serialize_with = "serialize_option_dot",
            deserialize_with = "deserialize_option_dot"
        )]
        pub sorva_lof_maf_1_hom_or_comphet: Option<f64>,
        /// The fraction of individuals in the 1000 Genomes Project data (N=2504) who are either
        /// Heterozygote or Homozygote of LOF or missense SNVs whose MAF<0.005. This fraction is from
        /// a method for ranking genes based on mutational burden called SORVA (Significance Of Rare
        /// VAriants).  Please see doi: 10.1101/103218 for details.
        #[serde(
            alias = "SORVA_LOForMissense_MAF0.005_HetOrHom",
            serialize_with = "serialize_option_dot",
            deserialize_with = "deserialize_option_dot"
        )]
        pub sorva_lof_or_mis_maf_5_het_or_hom: Option<f64>,
        /// The fraction of individuals in the 1000 Genomes Project data (N=2504) who are either
        /// Compound Heterozygote or Homozygote of LOF or missense SNVs whose MAF<0.005. This
        /// fraction is from a method for ranking genes based on mutational burden called SORVA
        /// (Significance Of Rare VAriants).  Please see doi: 10.1101/103218 for details.
        #[serde(
            alias = "SORVA_LOForMissense_MAF0.005_HomOrCompoundHet",
            serialize_with = "serialize_option_dot",
            deserialize_with = "deserialize_option_dot"
        )]
        pub sorva_lof_or_mis_maf_5_hom_or_comphet: Option<f64>,
        /// The fraction of individuals in the 1000 Genomes Project data (N=2504) who are either
        /// Heterozygote or Homozygote of LOF or missense SNVs whose MAF<0.001. This fraction is from
        /// a method for ranking genes based on mutational burden called SORVA (Significance Of Rare
        /// VAriants).  Please see doi: 10.1101/103218 for details.
        #[serde(
            alias = "SORVA_LOForMissense_MAF0.001_HetOrHom",
            serialize_with = "serialize_option_dot",
            deserialize_with = "deserialize_option_dot"
        )]
        pub sorva_lof_or_mis_maf_1_het_or_hom: Option<f64>,
        /// The fraction of individuals in the 1000 Genomes Project data (N=2504) who are either
        /// Compound Heterozygote or Homozygote of LOF or missense SNVs whose MAF<0.001. This
        /// fraction is from a method for ranking genes based on mutational burden called SORVA
        /// (Significance Of Rare VAriants).  Please see doi: 10.1101/103218 for details.
        #[serde(
            alias = "SORVA_LOForMissense_MAF0.001_HomOrCompoundHet",
            serialize_with = "serialize_option_dot",
            deserialize_with = "deserialize_option_dot"
        )]
        pub sorva_lof_or_mis_maf_1_hom_or_comphet: Option<f64>,
        /// Essential ("E") or Non-essential phenotype-changing ("N") based on Mouse Genome
        /// Informatics database. from doi:10.1371/journal.pgen.1003484.
        #[serde(
            alias = "Essential_gene",
            serialize_with = "serialize_option_dot",
            deserialize_with = "deserialize_option_dot_str"
        )]
        pub essential_gene: Option<String>,
        /// Essential ("E") or Non-essential phenotype-changing ("N") based on large scale CRISPR
        /// experiments. from doi: 10.1126/science.aac7041.
        #[serde(
            alias = "Essential_gene_CRISPR",
            serialize_with = "serialize_option_dot",
            deserialize_with = "deserialize_option_dot_str"
        )]
        pub essential_gene_crispr: Option<String>,
        /// Essential ("E"), context-Specific essential ("S"), or Non-essential phenotype-changing
        /// ("N") based on large scale CRISPR experiments. from
        /// http://dx.doi.org/10.1016/j.cell.2015.11.015.
        #[serde(
            alias = "Essential_gene_CRISPR2",
            serialize_with = "serialize_option_dot",
            deserialize_with = "deserialize_option_dot_str"
        )]
        pub essential_gene_crispr2: Option<String>,
        /// Essential ("E"), HAP1-Specific essential ("H"), KBM7-Specific essential ("K"), or
        /// Non-essential phenotype-changing ("N"), based on large scale mutagenesis experiments.
        /// from doi: 10.1126/science.aac7557.
        #[serde(
            alias = "Essential_gene_gene-trap",
            serialize_with = "serialize_option_dot",
            deserialize_with = "deserialize_option_dot_str"
        )]
        pub essential_gene_gene_trap: Option<String>,
        /// A probability prediction of the gene being essential. From
        /// doi:10.1371/journal.pcbi.1002886.
        #[serde(
            alias = "Gene_indispensability_score",
            serialize_with = "serialize_option_dot",
            deserialize_with = "deserialize_option_dot"
        )]
        pub gene_indispensability_score: Option<f64>,
        /// Essential ("E") or loss-of-function tolerant ("N") based on Gene_indispensability_score.
        #[serde(
            alias = "Gene_indispensability_pred",
            serialize_with = "serialize_option_dot",
            deserialize_with = "deserialize_option_dot_str"
        )]
        pub gene_indispensability_pred: Option<String>,
        /// Homolog mouse gene name from MGI.
        #[serde(
            alias = "MGI_mouse_gene",
            serialize_with = "serialize_option_dot",
            deserialize_with = "deserialize_option_dot_str"
        )]
        pub mgi_mouse_gene: Option<String>,
        /// Phenotype description for the homolog mouse gene from MGI.
        #[serde(
            alias = "MGI_mouse_phenotype",
            serialize_with = "serialize_option_dot",
            deserialize_with = "deserialize_option_dot_str"
        )]
        pub mgi_mouse_phenotype: Option<String>,
        /// Homolog zebrafish gene name from ZFIN.
        #[serde(
            alias = "ZFIN_zebrafish_gene",
            serialize_with = "serialize_option_dot",
            deserialize_with = "deserialize_option_dot_str"
        )]
        pub zfin_zebrafish_gene: Option<String>,
        /// Affected structure of the homolog zebrafish gene from ZFIN.
        #[serde(
            alias = "ZFIN_zebrafish_structure",
            serialize_with = "serialize_option_dot",
            deserialize_with = "deserialize_option_dot_str"
        )]
        pub zfin_zebrafish_structure: Option<String>,
        /// Phenotype description for the homolog zebrafish gene from ZFIN.
        #[serde(
            alias = "ZFIN_zebrafish_phenotype_quality",
            serialize_with = "serialize_option_dot",
            deserialize_with = "deserialize_option_dot_str"
        )]
        pub zfin_zebrafish_phenotype_quality: Option<String>,
        /// Phenotype tag for the homolog zebrafish gene from ZFIN"
        #[serde(
            alias = "ZFIN_zebrafish_phenotype_tag",
            serialize_with = "serialize_option_dot",
            deserialize_with = "deserialize_option_dot_str"
        )]
        pub zfin_zebrafish_phenotype_tag: Option<String>,
    }
}

/// Code for data from the gnomAD constraints.
pub mod gnomad_constraints {
    use serde::{Deserialize, Deserializer, Serialize, Serializer};

    /// Deserialize `Option::None` as `"NA"`.
    ///
    /// cf. https://stackoverflow.com/a/56384732/84349
    fn deserialize_option_na<'de, D, T: Deserialize<'de>>(
        deserializer: D,
    ) -> Result<Option<T>, D::Error>
    where
        D: Deserializer<'de>,
    {
        // We define a local enum type inside of the function because it is untagged, serde will
        // deserialize as the first variant that it can.
        #[derive(Deserialize)]
        #[serde(untagged)]
        enum MaybeNA<U> {
            // If it can be parsed as Option<T>, it will be..
            Value(Option<U>),
            // ... otherwise try parsing as a string.
            NAString(String),
        }

        // Deserialize into local enum.
        let value: MaybeNA<T> = Deserialize::deserialize(deserializer)?;
        match value {
            // If parsed as T or None, return that.
            MaybeNA::Value(value) => Ok(value),

            // Otherwise, if value is string an "NA", return None (and fail if it is any other
            // string)
            MaybeNA::NAString(string) => {
                if string == "NA" {
                    Ok(None)
                } else {
                    Err(serde::de::Error::custom("Unexpected string"))
                }
            }
        }
    }

    /// Serialize `Option::None` as `"NA"`.
    fn serialize_option_na<S, T>(x: &Option<T>, s: S) -> Result<S::Ok, S::Error>
    where
        S: Serializer,
        T: Serialize,
    {
        match x {
            Some(x) => s.serialize_some(x),
            None => s.serialize_str("NA"),
        }
    }

    /// A record from the gnomAD constraints database.
    #[serde_with::skip_serializing_none]
    #[derive(Debug, Clone, Serialize, Deserialize)]
    pub struct Record {
        /// The Ensembl gene ID.
        pub ensembl_gene_id: String,
        /// The NCBI gene ID.
        pub entrez_id: String,
        /// The HGNC gene symbol.
        pub gene_symbol: String,
        /// The expected number of loss-of-function variants.
        #[serde(
            serialize_with = "serialize_option_na",
            deserialize_with = "deserialize_option_na"
        )]
        pub exp_lof: Option<f64>,
        /// The expected number of missense variants.
        #[serde(
            serialize_with = "serialize_option_na",
            deserialize_with = "deserialize_option_na"
        )]
        pub exp_mis: Option<f64>,
        /// The expected number of synonymous variants.
        #[serde(
            serialize_with = "serialize_option_na",
            deserialize_with = "deserialize_option_na"
        )]
        pub exp_syn: Option<f64>,
        /// The missense-related Z-score.
        #[serde(
            serialize_with = "serialize_option_na",
            deserialize_with = "deserialize_option_na"
        )]
        pub mis_z: Option<f64>,
        /// The observed number of loss-of-function variants.
        #[serde(
            serialize_with = "serialize_option_na",
            deserialize_with = "deserialize_option_na"
        )]
        pub obs_lof: Option<u32>,
        /// The observed number of missense variants.
        #[serde(
            serialize_with = "serialize_option_na",
            deserialize_with = "deserialize_option_na"
        )]
        pub obs_mis: Option<u32>,
        /// The observed number of synonymous variants.
        #[serde(
            serialize_with = "serialize_option_na",
            deserialize_with = "deserialize_option_na"
        )]
        pub obs_syn: Option<u32>,
        /// The loss-of-function observed/expected ratio.
        #[serde(
            serialize_with = "serialize_option_na",
            deserialize_with = "deserialize_option_na"
        )]
        pub oe_lof: Option<f64>,
        /// The lower bound of the loss-of-function observed/expected ratio.
        #[serde(
            serialize_with = "serialize_option_na",
            deserialize_with = "deserialize_option_na"
        )]
        pub oe_lof_lower: Option<f64>,
        /// The upper bound of the loss-of-function observed/expected ratio.
        #[serde(
            serialize_with = "serialize_option_na",
            deserialize_with = "deserialize_option_na"
        )]
        pub oe_lof_upper: Option<f64>,
        /// The missense observed/expected ratio.
        #[serde(
            serialize_with = "serialize_option_na",
            deserialize_with = "deserialize_option_na"
        )]
        pub oe_mis: Option<f64>,
        /// The lower bound of the missense observed/expected ratio.
        #[serde(
            serialize_with = "serialize_option_na",
            deserialize_with = "deserialize_option_na"
        )]
        pub oe_mis_lower: Option<f64>,
        /// The upper bound of the missense observed/expected ratio.
        #[serde(
            serialize_with = "serialize_option_na",
            deserialize_with = "deserialize_option_na"
        )]
        pub oe_mis_upper: Option<f64>,
        /// The synonymous observed/expected ratio.
        #[serde(
            serialize_with = "serialize_option_na",
            deserialize_with = "deserialize_option_na"
        )]
        pub oe_syn: Option<f64>,
        /// The lower bound of the synonymous observed/expected ratio.
        #[serde(
            serialize_with = "serialize_option_na",
            deserialize_with = "deserialize_option_na"
        )]
        pub oe_syn_lower: Option<f64>,
        /// The upper bound of the synonymous observed/expected ratio.
        #[serde(
            serialize_with = "serialize_option_na",
            deserialize_with = "deserialize_option_na"
        )]
        pub oe_syn_upper: Option<f64>,
        /// The probability of loss-of-function intolerance (pLI score).
        #[serde(
            alias = "pLI",
            serialize_with = "serialize_option_na",
            deserialize_with = "deserialize_option_na"
        )]
        pub pli: Option<f64>,
        /// The synonymous-related Z-score.
        #[serde(
            serialize_with = "serialize_option_na",
            deserialize_with = "deserialize_option_na"
        )]
        pub syn_z: Option<f64>,
        /// The probability of loss-of-function intolerance (pLI score) from ExAC.
        #[serde(
            alias = "exac_pLI",
            serialize_with = "serialize_option_na",
            deserialize_with = "deserialize_option_na"
        )]
        pub exac_pli: Option<f64>,
        /// The observed number of loss-of-function variants from ExAC.
        #[serde(
            serialize_with = "serialize_option_na",
            deserialize_with = "deserialize_option_na"
        )]
        pub exac_obs_lof: Option<f64>,
        /// The expected number of loss-of-function variants from ExAC.
        #[serde(
            serialize_with = "serialize_option_na",
            deserialize_with = "deserialize_option_na"
        )]
        pub exac_exp_lof: Option<f64>,
        /// The loss-of-function observed/expected ratio from ExAC.
        #[serde(
            serialize_with = "serialize_option_na",
            deserialize_with = "deserialize_option_na"
        )]
        pub exac_oe_lof: Option<f64>,
    }
}

/// Code for data from the HGNC database.
pub mod hgnc {
    use std::{fmt::Display, str::FromStr};

    use chrono::naive::NaiveDate;
    use serde::{Deserialize, Serialize};
    use serde_with::DisplayFromStr;

    use crate::pbs;

    /// Status of the symbol report, which can be either "Approved" or "Entry Withdrawn".
    #[derive(Debug, Clone, Serialize, Deserialize)]
    pub enum Status {
        /// Approved symbol.
        #[serde(rename = "Approved")]
        Approve,
        /// Withdrawn symbol.
        #[serde(rename = "Entry Withdrawn")]
        Withdrawn,
    }

    impl From<Status> for pbs::genes::base::HgncStatus {
        fn from(val: Status) -> Self {
            match val {
                Status::Approve => pbs::genes::base::HgncStatus::Approved,
                Status::Withdrawn => pbs::genes::base::HgncStatus::Withdrawn,
            }
        }
    }

    /// Information from the locus-specific dabase.
    #[derive(Debug, Clone, Serialize, Deserialize)]
    pub struct Lsdb {
        /// The name of the Locus Specific Mutation Database.
        pub name: String,
        /// The URL for the gene.
        pub url: String,
    }

    impl Display for Lsdb {
        fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
            write!(f, "{}|{}", &self.name, &self.url)
        }
    }

    impl FromStr for Lsdb {
        type Err = anyhow::Error;

        fn from_str(s: &str) -> Result<Self, Self::Err> {
            let mut vals: Vec<String> = s.splitn(2, '|').map(|s| s.to_string()).collect();
            if vals.len() != 2 {
                anyhow::bail!("invalid LSDB string: {}", s);
            } else {
                let name = vals.pop().unwrap();
                let url = vals.pop().unwrap();
                Ok(Lsdb { name, url })
            }
        }
    }

    /// A record from the HGNC database.
    ///
    /// Also see the [HGNC website](https://www.genenames.org/download/archive/).
    #[serde_with::skip_serializing_none]
    #[serde_with::serde_as]
    #[derive(Debug, Clone, Serialize, Deserialize)]
    pub struct Record {
        /// HGNC ID. A unique ID created by the HGNC for every approved symbol.
        pub hgnc_id: String,
        /// The HGNC approved gene symbol.
        pub symbol: String,
        /// HGNC approved name for the gene.
        pub name: String,
        /// A group name for a set of related locus types as defined by the HGNC (e.g. non-coding
        /// RNA).
        pub locus_group: Option<String>,
        /// The locus type as defined by the HGNC (e.g. RNA, transfer).
        pub locus_type: Option<String>,
        /// Status of the symbol report.
        pub status: Status,
        /// Cytogenetic location of the gene (e.g. 2q34).
        pub location: Option<String>,
        /// Sortable cytogenic location of the gene (e.g. 02q34).
        pub location_sortable: Option<String>,
        /// Other symbols used to refer to this gene.
        pub alias_symbol: Option<Vec<String>>,
        /// Other names used to refer to this gene.
        pub alias_name: Option<Vec<String>>,
        /// Prevous symbols used to refer to this gene.
        pub prev_symbol: Option<Vec<String>>,
        /// Previous names used to refer to this gene.
        pub prev_name: Option<Vec<String>>,
        /// Name given to a gene group.
        pub gene_group: Option<Vec<String>>,
        /// ID used to designate a gene group.
        pub gene_group_id: Option<Vec<u32>>,
        /// The date the entry was first approved.
        pub date_approved_reserved: Option<NaiveDate>,
        /// The date the gene symbol was last changed.
        pub date_symbol_changed: Option<NaiveDate>,
        /// The date the gene name was last changed.
        pub date_name_changed: Option<NaiveDate>,
        /// Date the entry was last modified.
        pub date_modified: Option<NaiveDate>,
        /// Entrez gene id.
        pub entrez_id: Option<String>,
        /// Ensembl gene id.
        pub ensembl_gene_id: Option<String>,
        /// Vega gene id.
        pub vega_id: Option<String>,
        /// UCSC gene id.
        pub ucsc_id: Option<String>,
        /// ENA accession number(s).
        pub ena: Option<Vec<String>>,
        /// RefSeq nucleotide accession(s).
        pub refseq_accession: Option<Vec<String>>,
        /// Consensus CDS ID(ds).
        pub ccds_id: Option<Vec<String>>,
        /// Uniprot IDs.
        pub uniprot_ids: Option<Vec<String>>,
        /// Pubmed IDs.
        pub pubmed_id: Option<Vec<u32>>,
        /// Mouse genome informatics database ID(s).
        pub mgd_id: Option<Vec<String>>,
        /// Rat genome database gene ID(s).
        pub rgd_id: Option<Vec<String>>,
        /// The name of the Locus Specific Mutation Database and URL for the gene.
        #[serde_as(as = "Option<Vec<DisplayFromStr>>")]
        pub lsdb: Option<Vec<Lsdb>>,
        /// Symbol used within COSMIC.
        pub cosmic: Option<String>,
        /// OMIM ID(s).
        pub omim_id: Option<Vec<String>>,
        /// miRBase ID.
        pub mirbase: Option<String>,
        /// Homeobox Database ID.
        pub homeodb: Option<u32>,
        /// snoRNABase ID.
        pub snornabase: Option<String>,
        /// Symbol used to link to the SLC tables database at bioparadigms.org for the gene.
        pub bioparadigms_slc: Option<String>,
        /// Orphanet ID.
        pub orphanet: Option<u32>,
        /// Pseudogene.org.
        #[serde(rename = "pseudogene.org")]
        pub pseudogene_org: Option<String>,
        /// Symbol used within HORDE for the gene.
        pub horde_id: Option<String>,
        /// ID used to link to the MEROPS peptidase database.
        pub merops: Option<String>,
        /// Symbol used within international ImMunoGeneTics information system.
        pub imgt: Option<String>,
        /// The objectId used to link to the IUPHAR/BPS Guide to PHARMACOLOGY database.
        pub iuphar: Option<String>,
        /// ID to link to the Mamit-tRNA database
        #[serde(rename = "mamit-trnadb")]
        pub mamit_trnadb: Option<u32>,
        /// Symbol used within the Human Cell Differentiation Molecule database.
        pub cd: Option<String>,
        /// lncRNA Database ID.
        pub lncrnadb: Option<String>,
        /// ENZYME EC accession number.
        pub enzyme_id: Option<Vec<String>>,
        /// ID used to link to the Human Intermediate Filament Database.
        pub intermediate_filament_db: Option<String>,
        /// The HGNC ID that the Alliance of Genome Resources (AGR) use.
        pub agr: Option<String>,
        /// NCBI and Ensembl transcript IDs/acessions including the version number.
        pub mane_select: Option<Vec<String>>,
    }
}

/// Code for data from the NCBI gene database (aka "Entrez").
pub mod ncbi {
    use serde::{Deserialize, Serialize};
    use serde_with::DisplayFromStr;

    /// Reference into function record.
    #[serde_with::skip_serializing_none]
    #[serde_with::serde_as]
    #[derive(Debug, Clone, Serialize, Deserialize)]
    pub struct RifEntry {
        /// The RIF text.
        pub text: String,
        /// PubMed IDs.
        #[serde_as(as = "Option<Vec<DisplayFromStr>>")]
        pub pmids: Option<Vec<u32>>,
    }

    /// A record from the NCBI gene database.
    #[serde_with::skip_serializing_none]
    #[serde_with::serde_as]
    #[derive(Debug, Clone, Serialize, Deserialize)]
    pub struct Record {
        /// NCBI Gene ID.
        pub gene_id: String,
        /// Gene summary.
        pub summary: Option<String>,
        /// "Reference into Function" entries.
        pub rif_entries: Option<Vec<RifEntry>>,
    }
}

/// Code for reading gene to OMIM disease associations.
pub mod omim {
    use serde::{Deserialize, Serialize};

    /// A single OMIM disease.
    #[derive(Debug, Clone, Serialize, Deserialize)]
    pub struct OmimTerm {
        /// The OMIM disease ID.
        pub omim_id: String,
        /// The OMIM disease label.
        pub label: String,
    }

    /// Multiple omim terms for one gene.
    #[derive(Debug, Clone, Serialize, Deserialize)]
    pub struct Record {
        /// HGNC gene ID.
        pub hgnc_id: String,
        /// The OMIM diseases.
        pub diseases: Vec<OmimTerm>,
    }

    /// A record from the OMIM disease table.
    #[derive(Debug, Clone, Serialize, Deserialize)]
    pub struct RawRecord {
        /// HGNC gene ID.
        pub hgnc_id: String,
        /// The OMIM disease ID.
        pub omim_id: String,
        /// The OMIM disease label.
        pub disease_name: String,
    }
}

/// Code for reading relevant parts of the PanelApp gene data.
pub mod panelapp {
    use serde::{Deserialize, Serialize};

    use crate::pbs::genes::base::panel_app_record;

    /// Gene identity information.
    ///
    /// We only keep the minimal information as we already have everything in HGNC.
    ///
    /// Note that the HGNC ID/symbol can be empty for genes but then gene_symbol is set.
    ///
    /// For regions, all can be null.
    #[derive(Debug, Clone, Serialize, Deserialize)]
    pub struct GeneData {
        /// HGNC gene ID.
        pub hgnc_id: Option<String>,
        /// HGNC gene symbol.
        pub hgnc_symbol: Option<String>,
        /// Gene symbol.
        pub gene_symbol: Option<String>,
    }

    impl From<GeneData> for panel_app_record::GeneData {
        fn from(val: GeneData) -> Self {
            let GeneData {
                hgnc_id,
                hgnc_symbol,
                gene_symbol,
            } = val;
            panel_app_record::GeneData {
                hgnc_id,
                hgnc_symbol,
                gene_symbol,
            }
        }
    }

    /// Enumeration for entity types.
    #[derive(Debug, Clone, Copy, PartialEq, Eq, PartialOrd, Ord, Hash, Serialize, Deserialize)]
    pub enum EntityType {
        /// Gene
        #[serde(rename = "gene")]
        Gene,
        /// Short Tandem Repeat
        #[serde(rename = "str")]
        Str,
        /// Region
        #[serde(rename = "region")]
        Region,
    }

    impl From<EntityType> for panel_app_record::EntityType {
        fn from(val: EntityType) -> Self {
            match val {
                EntityType::Gene => panel_app_record::EntityType::Gene,
                EntityType::Str => panel_app_record::EntityType::Str,
                EntityType::Region => panel_app_record::EntityType::Region,
            }
        }
    }

    /// Enumeration for confidence levels.
    #[derive(Debug, Clone, Copy, PartialEq, Eq, PartialOrd, Ord, Hash, Serialize, Deserialize)]
    pub enum ConfidenceLevel {
        /// 0 - lowest level, when expert review was removed
        #[serde(rename = "0")]
        None,
        /// 1 - red, low evidence
        #[serde(rename = "1")]
        Red,
        /// 2 - amber, moderate evidence
        #[serde(rename = "2")]
        Amber,
        /// 3 - green, high evidence
        #[serde(rename = "3")]
        Green,
    }

    impl From<ConfidenceLevel> for panel_app_record::ConfidenceLevel {
        fn from(val: ConfidenceLevel) -> Self {
            match val {
                ConfidenceLevel::None => panel_app_record::ConfidenceLevel::None,
                ConfidenceLevel::Red => panel_app_record::ConfidenceLevel::Red,
                ConfidenceLevel::Amber => panel_app_record::ConfidenceLevel::Amber,
                ConfidenceLevel::Green => panel_app_record::ConfidenceLevel::Green,
            }
        }
    }

    /// Enumeration for penetrance.
    #[derive(
        Default, Debug, Clone, Copy, PartialEq, Eq, PartialOrd, Ord, Hash, Serialize, Deserialize,
    )]
    pub enum Penetrance {
        /// Penetrance is unknown.
        #[default]
        #[serde(rename = "unknown")]
        Unknown,
        /// Complete penetrance.
        #[serde(rename = "Complete")]
        Complete,
        /// Incomplete penetrance.
        #[serde(rename = "Incomplete")]
        Incomplete,
    }

    impl From<Penetrance> for panel_app_record::Penetrance {
        fn from(val: Penetrance) -> Self {
            match val {
                Penetrance::Unknown => panel_app_record::Penetrance::Unknown,
                Penetrance::Complete => panel_app_record::Penetrance::Complete,
                Penetrance::Incomplete => panel_app_record::Penetrance::Incomplete,
            }
        }
    }

    /// Panel statistics.
    #[derive(Debug, Clone, Serialize, Deserialize)]
    pub struct PanelStats {
        /// Number of genes.
        pub number_of_genes: u32,
        /// Number of STRs.
        pub number_of_strs: u32,
        /// Number of regions.
        pub number_of_regions: u32,
    }

    impl From<PanelStats> for panel_app_record::PanelStats {
        fn from(val: PanelStats) -> Self {
            panel_app_record::PanelStats {
                number_of_genes: val.number_of_genes,
                number_of_strs: val.number_of_strs,
                number_of_regions: val.number_of_regions,
            }
        }
    }

    /// Panel type.
    #[derive(Debug, Clone, Serialize, Deserialize)]
    pub struct PanelType {
        /// Panel type ID.
        pub name: String,
        /// Panel type slug.
        pub slug: String,
        /// Panel type description.
        pub description: String,
    }

    impl From<PanelType> for panel_app_record::PanelType {
        fn from(val: PanelType) -> Self {
            let PanelType {
                name,
                slug,
                description,
            } = val;
            panel_app_record::PanelType {
                name,
                slug,
                description,
            }
        }
    }

    /// Representation of a panel.
    #[derive(Debug, Clone, Serialize, Deserialize)]
    pub struct Panel {
        /// Panel ID.
        pub id: u32,
        /// Panel hash ID.
        pub hash_id: Option<String>,
        /// The panel name.
        pub name: String,
        /// The disease group.
        pub disease_group: String,
        /// The disease sub group.
        pub disease_sub_group: String,
        /// The panel version.
        pub version: String,
        /// The panel version created.
        pub version_created: String,
        /// The panel relevant disorders.
        pub relevant_disorders: Vec<String>,
        /// The panel stats.
        pub stats: PanelStats,
        /// The panel types.
        pub types: Vec<PanelType>,
    }

    impl From<Panel> for panel_app_record::Panel {
        fn from(val: Panel) -> Self {
            let Panel {
                id,
                hash_id,
                name,
                disease_group,
                disease_sub_group,
                version,
                version_created,
                relevant_disorders,
                stats,
                types,
            } = val;
            panel_app_record::Panel {
                id,
                hash_id,
                name,
                disease_group,
                disease_sub_group,
                version,
                version_created,
                relevant_disorders,
                stats: Some(Into::<panel_app_record::PanelStats>::into(stats)),
                types: types
                    .into_iter()
                    .map(Into::<panel_app_record::PanelType>::into)
                    .collect(),
            }
        }
    }

    /// Representation of one gene record.
    #[derive(Debug, Clone, Serialize, Deserialize)]
    pub struct Record {
        /// Gene identity information.
        pub gene_data: Option<GeneData>,
        /// Entity type.
        pub entity_type: EntityType,
        /// Entity name.
        pub entity_name: String,
        /// Confidence level.
        pub confidence_level: ConfidenceLevel,
        /// Penetrance.
        #[serde(deserialize_with = "deserialize_null_default")]
        pub penetrance: Penetrance,
        /// Publications.
        pub publications: Vec<String>,
        /// Evidence.
        pub evidence: Vec<String>,
        /// Phenotypes.
        pub phenotypes: Vec<String>,
        /// Mode of inheritance.
        pub mode_of_inheritance: String,
        /// Information about the panel of this assessment.
        pub panel: Panel,
    }

    impl From<Record> for crate::pbs::genes::base::PanelAppRecord {
        fn from(val: Record) -> Self {
            let Record {
                gene_data,
                entity_type,
                entity_name,
                confidence_level,
                penetrance,
                publications,
                evidence,
                phenotypes,
                mode_of_inheritance,
                panel,
            } = val;
            crate::pbs::genes::base::PanelAppRecord {
                gene_data: gene_data.map(Into::<panel_app_record::GeneData>::into),
                entity_type: Into::<panel_app_record::EntityType>::into(entity_type) as i32,
                entity_name,
                confidence_level: Into::<panel_app_record::ConfidenceLevel>::into(confidence_level)
                    as i32,
                penetrance: Into::<panel_app_record::Penetrance>::into(penetrance) as i32,
                publications,
                evidence,
                phenotypes,
                mode_of_inheritance,
                panel: Some(Into::<panel_app_record::Panel>::into(panel)),
            }
        }
    }

    fn deserialize_null_default<'de, D, T>(deserializer: D) -> Result<T, D::Error>
    where
        T: Default + Deserialize<'de>,
        D: serde::Deserializer<'de>,
    {
        let opt = Option::deserialize(deserializer)?;
        Ok(opt.unwrap_or_default())
    }
}

/// Code for reading gene to ORPHA disease associations.
pub mod orpha {
    use serde::{Deserialize, Serialize};

    /// A single OMIM disease.
    #[derive(Debug, Clone, Serialize, Deserialize)]
    pub struct OrphaTerm {
        /// The ORPHA disease ID.
        pub orpha_id: String,
        /// The ORPHA disease label.
        pub label: String,
    }

    /// Multiple ORPHA terms for one gene.
    #[derive(Debug, Clone, Serialize, Deserialize)]
    pub struct Record {
        /// HGNC gene ID.
        pub hgnc_id: String,
        /// The ORPHA diseases.
        pub diseases: Vec<OrphaTerm>,
    }

    /// A record from the ORPHA disease table.
    #[derive(Debug, Clone, Serialize, Deserialize)]
    pub struct RawRecord {
        /// HGNC gene ID.
        pub hgnc_id: String,
        /// The ORPHA disease ID.
        pub orpha_id: String,
        /// The ORPHA disease label.
        pub disease_name: String,
    }
}

/// Code for data from rCNV (Collins et al., 2022).
pub mod rcnv {
    use serde::{Deserialize, Serialize};

    /// A record from the rCNV table.
    #[derive(Debug, Clone, Serialize, Deserialize)]
    pub struct Record {
        /// HGNC gene ID.
        pub hgnc_id: String,
        /// The pHaplo value.
        pub p_haplo: f64,
        /// The pTriplo value.
        pub p_triplo: f64,
    }
}

/// Code for data from sHet (Weghorn et al., 2019).
pub mod shet {
    use serde::{Deserialize, Serialize};

    /// A record from the sHet table.
    #[derive(Debug, Clone, Serialize, Deserialize)]
    pub struct Record {
        /// HGNC gene ID.
        pub hgnc_id: String,
        /// The sHet value.
        pub s_het: f64,
    }
}

/// Code for data from GTEx
pub mod gtex {
    use serde::{Deserialize, Serialize};

    use crate::pbs::genes::base::{GtexTissue, GtexTissueDetailed};

    /// GTEx V8 tissue types.
    #[derive(Debug, Clone, Serialize, Deserialize)]
    pub enum Tissue {
        /// Adipose Tissue
        #[serde(rename = "Adipose Tissue")]
        AdiposeTissue,
        /// Adrenal Gland
        #[serde(rename = "Adrenal Gland")]
        AdrenalGland,
        /// Bladder
        #[serde(rename = "Bladder")]
        Bladder,
        /// Blood
        #[serde(rename = "Blood")]
        Blood,
        /// Blood Vessel
        #[serde(rename = "Blood Vessel")]
        BloodVessel,
        /// Bone Marrow
        #[serde(rename = "Bone Marrow")]
        BoneMarrow,
        /// Brain
        #[serde(rename = "Brain")]
        Brain,
        /// Breast
        #[serde(rename = "Breast")]
        Breast,
        /// Cervix Uteri
        #[serde(rename = "Cervix Uteri")]
        CervixUteri,
        /// Colon
        #[serde(rename = "Colon")]
        Colon,
        /// Esophagus
        #[serde(rename = "Esophagus")]
        Esophagus,
        /// Fallopian Tube
        #[serde(rename = "Fallopian Tube")]
        FallopianTube,
        /// Heart
        #[serde(rename = "Heart")]
        Heart,
        /// Kidney
        #[serde(rename = "Kidney")]
        Kidney,
        /// Liver
        #[serde(rename = "Liver")]
        Liver,
        /// Lung
        #[serde(rename = "Lung")]
        Lung,
        /// Muscle
        #[serde(rename = "Muscle")]
        Muscle,
        /// Nerve
        #[serde(rename = "Nerve")]
        Nerve,
        /// Ovary
        #[serde(rename = "Ovary")]
        Ovary,
        /// Pancreas
        #[serde(rename = "Pancreas")]
        Pancreas,
        /// Pituitary
        #[serde(rename = "Pituitary")]
        Pituitary,
        /// Prostate
        #[serde(rename = "Prostate")]
        Prostate,
        /// Salivary Gland
        #[serde(rename = "Salivary Gland")]
        SalivaryGland,
        /// Skin
        #[serde(rename = "Skin")]
        Skin,
        /// Small Intestine
        #[serde(rename = "Small Intestine")]
        SmallIntestine,
        /// Spleen
        #[serde(rename = "Spleen")]
        Spleen,
        /// Stomach
        #[serde(rename = "Stomach")]
        Stomach,
        /// Testis
        #[serde(rename = "Testis")]
        Testis,
        /// Thyroid
        #[serde(rename = "Thyroid")]
        Thyroid,
        /// Uterus
        #[serde(rename = "Uterus")]
        Uterus,
        /// Vagina
        #[serde(rename = "Vagina")]
        Vagina,
    }

    impl From<Tissue> for GtexTissue {
        fn from(val: Tissue) -> Self {
            match val {
                Tissue::AdiposeTissue => GtexTissue::AdiposeTissue,
                Tissue::AdrenalGland => GtexTissue::AdrenalGland,
                Tissue::Bladder => GtexTissue::Bladder,
                Tissue::Blood => GtexTissue::Blood,
                Tissue::BloodVessel => GtexTissue::BloodVessel,
                Tissue::BoneMarrow => GtexTissue::BoneMarrow,
                Tissue::Brain => GtexTissue::Brain,
                Tissue::Breast => GtexTissue::Breast,
                Tissue::CervixUteri => GtexTissue::CervixUteri,
                Tissue::Colon => GtexTissue::Colon,
                Tissue::Esophagus => GtexTissue::Esophagus,
                Tissue::FallopianTube => GtexTissue::FallopianTube,
                Tissue::Heart => GtexTissue::Heart,
                Tissue::Kidney => GtexTissue::Kidney,
                Tissue::Liver => GtexTissue::Liver,
                Tissue::Lung => GtexTissue::Lung,
                Tissue::Muscle => GtexTissue::Muscle,
                Tissue::Nerve => GtexTissue::Nerve,
                Tissue::Ovary => GtexTissue::Ovary,
                Tissue::Pancreas => GtexTissue::Pancreas,
                Tissue::Pituitary => GtexTissue::Pituitary,
                Tissue::Prostate => GtexTissue::Prostate,
                Tissue::SalivaryGland => GtexTissue::SalivaryGland,
                Tissue::Skin => GtexTissue::Skin,
                Tissue::SmallIntestine => GtexTissue::SmallIntestine,
                Tissue::Spleen => GtexTissue::Spleen,
                Tissue::Stomach => GtexTissue::Stomach,
                Tissue::Testis => GtexTissue::Testis,
                Tissue::Thyroid => GtexTissue::Thyroid,
                Tissue::Uterus => GtexTissue::Uterus,
                Tissue::Vagina => GtexTissue::Vagina,
            }
        }
    }

    /// GTEx V8 detailed tissue types.
    #[derive(Debug, Clone, Serialize, Deserialize)]
    pub enum TissueDetailed {
        /// Adipose - Subcutaneous
        #[serde(rename = "Adipose - Subcutaneous")]
        AdiposeSubcutaneous,
        /// Adipose - Visceral (Omentum)
        #[serde(rename = "Adipose - Visceral (Omentum)")]
        AdiposeVisceralOmentum,
        /// Adrenal Gland
        #[serde(rename = "Adrenal Gland")]
        AdrenalGland,
        /// Artery - Aorta
        #[serde(rename = "Artery - Aorta")]
        ArteryAorta,
        /// Artery - Coronary
        #[serde(rename = "Artery - Coronary")]
        ArteryCoronary,
        /// Artery - Tibial
        #[serde(rename = "Artery - Tibial")]
        ArteryTibial,
        /// Bladder
        #[serde(rename = "Bladder")]
        Bladder,
        /// Brain - Amygdala
        #[serde(rename = "Brain - Amygdala")]
        BrainAmygdala,
        /// Brain - Anterior cingulate cortex (BA24)
        #[serde(rename = "Brain - Anterior cingulate cortex (BA24)")]
        BrainAnteriorCingulateCortex,
        /// Brain - Caudate (basal ganglia)
        #[serde(rename = "Brain - Caudate (basal ganglia)")]
        BrainCaudateBasalGanglia,
        /// Brain - Cerebellar Hemisphere
        #[serde(rename = "Brain - Cerebellar Hemisphere")]
        BrainCerebellarHemisphere,
        /// Brain - Cerebellum
        #[serde(rename = "Brain - Cerebellum")]
        BrainCerebellum,
        /// Brain - Cortex
        #[serde(rename = "Brain - Cortex")]
        BrainCortex,
        /// Brain - Frontal Cortex (BA9)
        #[serde(rename = "Brain - Frontal Cortex (BA9)")]
        BrainFrontalCortex,
        /// Brain - Hippocampus
        #[serde(rename = "Brain - Hippocampus")]
        BrainHippocampus,
        /// Brain - Hypothalamus
        #[serde(rename = "Brain - Hypothalamus")]
        BrainHypothalamus,
        /// Brain - Nucleus accumbens (basal ganglia)
        #[serde(rename = "Brain - Nucleus accumbens (basal ganglia)")]
        BrainNucleusAccumbens,
        /// Brain - Putamen (basal ganglia)
        #[serde(rename = "Brain - Putamen (basal ganglia)")]
        BrainPutamenBasalGanglia,
        /// Brain - Spinal cord (cervical c-1)
        #[serde(rename = "Brain - Spinal cord (cervical c-1)")]
        BrainSpinalCord,
        /// Brain - Substantia nigra
        #[serde(rename = "Brain - Substantia nigra")]
        BrainSubstantiaNigra,
        /// Breast - Mammary Tissue
        #[serde(rename = "Breast - Mammary Tissue")]
        BreastMammaryTissue,
        /// Cells - Cultured fibroblasts
        #[serde(rename = "Cells - Cultured fibroblasts")]
        CellsCulturedFibroblasts,
        /// Cells - EBV-transformed lymphocytes
        #[serde(rename = "Cells - EBV-transformed lymphocytes")]
        CellsEbvTransformedLymphocytes,
        /// Cells - Leukemia cell line (CML)
        #[serde(rename = "Cells - Leukemia cell line (CML)")]
        CellsLeukemiaCellLine,
        /// Cervix - Ectocervix
        #[serde(rename = "Cervix - Ectocervix")]
        CervixEctocervix,
        /// Cervix - Endocervix
        #[serde(rename = "Cervix - Endocervix")]
        CervixEndocervix,
        /// Colon - Sigmoid
        #[serde(rename = "Colon - Sigmoid")]
        ColonSigmoid,
        /// Colon - Transverse
        #[serde(rename = "Colon - Transverse")]
        ColonTransverse,
        /// Esophagus - Gastroesophageal Junction
        #[serde(rename = "Esophagus - Gastroesophageal Junction")]
        EsophagusGastroesophagealJunction,
        /// Esophagus - Mucosa
        #[serde(rename = "Esophagus - Mucosa")]
        EsophagusMucosa,
        /// Esophagus - Muscularis
        #[serde(rename = "Esophagus - Muscularis")]
        EsophagusMuscularis,
        /// Fallopian Tube
        #[serde(rename = "Fallopian Tube")]
        FallopianTube,
        /// Heart - Atrial Appendage
        #[serde(rename = "Heart - Atrial Appendage")]
        HeartAtrialAppendage,
        /// Heart - Left Ventricle
        #[serde(rename = "Heart - Left Ventricle")]
        HeartLeftVentricle,
        /// Kidney - Cortex
        #[serde(rename = "Kidney - Cortex")]
        KidneyCortex,
        /// Kidney - Medulla
        #[serde(rename = "Kidney - Medulla")]
        KidneyMedulla,
        /// Liver
        #[serde(rename = "Liver")]
        Liver,
        /// Lung
        #[serde(rename = "Lung")]
        Lung,
        /// Minor Salivary Gland
        #[serde(rename = "Minor Salivary Gland")]
        MinorSalivaryGland,
        /// Muscle - Skeletal
        #[serde(rename = "Muscle - Skeletal")]
        MuscleSkeletal,
        /// Nerve - Tibial
        #[serde(rename = "Nerve - Tibial")]
        NerveTibial,
        /// Ovary
        #[serde(rename = "Ovary")]
        Ovary,
        /// Pancreas
        #[serde(rename = "Pancreas")]
        Pancreas,
        /// Pituitary
        #[serde(rename = "Pituitary")]
        Pituitary,
        /// Prostate
        #[serde(rename = "Prostate")]
        Prostate,
        /// Skin - Not Sun Exposed (Suprapubic)
        #[serde(rename = "Skin - Not Sun Exposed (Suprapubic)")]
        SkinNotSunExposedSuprapubic,
        /// Skin - Sun Exposed (Lower leg)
        #[serde(rename = "Skin - Sun Exposed (Lower leg)")]
        SkinSunExposedLowerLeg,
        /// Small Intestine - Terminal Ileum
        #[serde(rename = "Small Intestine - Terminal Ileum")]
        SmallIntestineTerminalIleum,
        /// Spleen
        #[serde(rename = "Spleen")]
        Spleen,
        /// Stomach
        #[serde(rename = "Stomach")]
        Stomach,
        /// Testis
        #[serde(rename = "Testis")]
        Testis,
        /// Thyroid
        #[serde(rename = "Thyroid")]
        Thyroid,
        /// Uterus
        #[serde(rename = "Uterus")]
        Uterus,
        /// Vagina
        #[serde(rename = "Vagina")]
        Vagina,
        /// Whole Blood
        #[serde(rename = "Whole Blood")]
        WholeBlood,
    }

    impl From<TissueDetailed> for GtexTissueDetailed {
        fn from(val: TissueDetailed) -> Self {
            match val {
                TissueDetailed::AdiposeSubcutaneous => GtexTissueDetailed::AdiposeSubcutaneous,
                TissueDetailed::AdiposeVisceralOmentum => {
                    GtexTissueDetailed::AdiposeVisceralOmentum
                }
                TissueDetailed::AdrenalGland => GtexTissueDetailed::AdrenalGland,
                TissueDetailed::ArteryAorta => GtexTissueDetailed::ArteryAorta,
                TissueDetailed::ArteryCoronary => GtexTissueDetailed::ArteryCoronary,
                TissueDetailed::ArteryTibial => GtexTissueDetailed::ArteryTibial,
                TissueDetailed::Bladder => GtexTissueDetailed::Bladder,
                TissueDetailed::BrainAmygdala => GtexTissueDetailed::BrainAmygdala,
                TissueDetailed::BrainAnteriorCingulateCortex => {
                    GtexTissueDetailed::BrainAnteriorCingulateCortex
                }
                TissueDetailed::BrainCaudateBasalGanglia => {
                    GtexTissueDetailed::BrainCaudateBasalGanglia
                }
                TissueDetailed::BrainCerebellarHemisphere => {
                    GtexTissueDetailed::BrainCerebellarHemisphere
                }
                TissueDetailed::BrainCerebellum => GtexTissueDetailed::BrainCerebellum,
                TissueDetailed::BrainCortex => GtexTissueDetailed::BrainCortex,
                TissueDetailed::BrainFrontalCortex => GtexTissueDetailed::BrainFrontalCortex,
                TissueDetailed::BrainHippocampus => GtexTissueDetailed::BrainHippocampus,
                TissueDetailed::BrainHypothalamus => GtexTissueDetailed::BrainHypothalamus,
                TissueDetailed::BrainNucleusAccumbens => GtexTissueDetailed::BrainNucleusAccumbens,
                TissueDetailed::BrainPutamenBasalGanglia => {
                    GtexTissueDetailed::BrainPutamenBasalGanglia
                }
                TissueDetailed::BrainSpinalCord => GtexTissueDetailed::BrainSpinalCord,
                TissueDetailed::BrainSubstantiaNigra => GtexTissueDetailed::BrainSubstantiaNigra,
                TissueDetailed::BreastMammaryTissue => GtexTissueDetailed::BreastMammaryTissue,
                TissueDetailed::CellsCulturedFibroblasts => {
                    GtexTissueDetailed::CellsCulturedFibroblasts
                }
                TissueDetailed::CellsEbvTransformedLymphocytes => {
                    GtexTissueDetailed::CellsEbvTransformedLymphocytes
                }
                TissueDetailed::CellsLeukemiaCellLine => GtexTissueDetailed::CellsLeukemiaCellLine,
                TissueDetailed::CervixEctocervix => GtexTissueDetailed::CervixEctocervix,
                TissueDetailed::CervixEndocervix => GtexTissueDetailed::CervixEndocervix,
                TissueDetailed::ColonSigmoid => GtexTissueDetailed::ColonSigmoid,
                TissueDetailed::ColonTransverse => GtexTissueDetailed::ColonTransverse,
                TissueDetailed::EsophagusGastroesophagealJunction => {
                    GtexTissueDetailed::EsophagusGastroesophagealJunction
                }
                TissueDetailed::EsophagusMucosa => GtexTissueDetailed::EsophagusMucosa,
                TissueDetailed::EsophagusMuscularis => GtexTissueDetailed::EsophagusMuscularis,
                TissueDetailed::FallopianTube => GtexTissueDetailed::FallopianTube,
                TissueDetailed::HeartAtrialAppendage => GtexTissueDetailed::HeartAtrialAppendage,
                TissueDetailed::HeartLeftVentricle => GtexTissueDetailed::HeartLeftVentricle,
                TissueDetailed::KidneyCortex => GtexTissueDetailed::KidneyCortex,
                TissueDetailed::KidneyMedulla => GtexTissueDetailed::KidneyMedulla,
                TissueDetailed::Liver => GtexTissueDetailed::Liver,
                TissueDetailed::Lung => GtexTissueDetailed::Lung,
                TissueDetailed::MinorSalivaryGland => GtexTissueDetailed::MinorSalivaryGland,
                TissueDetailed::MuscleSkeletal => GtexTissueDetailed::MuscleSkeletal,
                TissueDetailed::NerveTibial => GtexTissueDetailed::NerveTibial,
                TissueDetailed::Ovary => GtexTissueDetailed::Ovary,
                TissueDetailed::Pancreas => GtexTissueDetailed::Pancreas,
                TissueDetailed::Pituitary => GtexTissueDetailed::Pituitary,
                TissueDetailed::Prostate => GtexTissueDetailed::Prostate,
                TissueDetailed::SkinNotSunExposedSuprapubic => {
                    GtexTissueDetailed::SkinNotSunExposedSuprapubic
                }
                TissueDetailed::SkinSunExposedLowerLeg => {
                    GtexTissueDetailed::SkinSunExposedLowerLeg
                }
                TissueDetailed::SmallIntestineTerminalIleum => {
                    GtexTissueDetailed::SmallIntestineTerminalIleum
                }
                TissueDetailed::Spleen => GtexTissueDetailed::Spleen,
                TissueDetailed::Stomach => GtexTissueDetailed::Stomach,
                TissueDetailed::Testis => GtexTissueDetailed::Testis,
                TissueDetailed::Thyroid => GtexTissueDetailed::Thyroid,
                TissueDetailed::Uterus => GtexTissueDetailed::Uterus,
                TissueDetailed::Vagina => GtexTissueDetailed::Vagina,
                TissueDetailed::WholeBlood => GtexTissueDetailed::WholeBlood,
            }
        }
    }

    /// Per-tissue record.
    #[derive(Debug, Clone, Serialize, Deserialize)]
    pub struct PerTissueRecord {
        /// Tissue name.
        pub tissue: Tissue,
        /// Detailed tissue name.
        pub tissue_detailed: TissueDetailed,
        /// The TPM counts.
        pub tpms: Vec<f32>,
    }

    /// A record from the GTEx dataset.
    #[derive(Debug, Clone, Serialize, Deserialize)]
    pub struct Record {
        /// HGNC gene ID.
        pub hgnc_id: String,
        /// ENSEMBL gene ID.
        pub ensembl_gene_id: String,
        /// ENSEMBL gene version.
        pub ensembl_gene_version: String,
        /// Per-tissue records.
        pub records: Vec<PerTissueRecord>,
    }
}

/// Code for data from DOMINO.
pub mod domino {
    use serde::{Deserialize, Serialize};

    /// A record from the DOMINO table.
    #[derive(Debug, Clone, Serialize, Deserialize)]
    pub struct Record {
        /// Gene symbol
        #[serde(alias = "#HGNC ID")]
        pub gene_symbol: String,
        /// The score value.
        #[serde(alias = "Score")]
        pub score: f64,
    }
}

/// Code for importing the integrated conditions data.
pub mod conditions {
    use crate::pbs::genes::base::{
        conditions_record::{self, gene_disease_association_entry, panelapp_association},
        ConditionsRecord,
    };
    use serde::{Deserialize, Serialize};

    /// Enumeration for sources.
    #[derive(Debug, Clone, Serialize, Deserialize, PartialEq, Eq, PartialOrd, Ord, Hash)]
    pub enum GeneDiseaseAssociationSource {
        /// OMIM
        #[serde(rename = "OMIM")]
        Omim,
        /// Orphanet
        #[serde(rename = "ORPHANET")]
        Orphanet,
        /// PanelApp
        #[serde(rename = "PANELAPP")]
        Panelapp,
    }

    impl From<GeneDiseaseAssociationSource>
        for gene_disease_association_entry::GeneDiseaseAssociationSource
    {
        fn from(val: GeneDiseaseAssociationSource) -> Self {
            match val {
                GeneDiseaseAssociationSource::Omim => {
                    gene_disease_association_entry::GeneDiseaseAssociationSource::Omim
                }
                GeneDiseaseAssociationSource::Orphanet => {
                    gene_disease_association_entry::GeneDiseaseAssociationSource::Orphanet
                }
                GeneDiseaseAssociationSource::Panelapp => {
                    gene_disease_association_entry::GeneDiseaseAssociationSource::Panelapp
                }
            }
        }
    }

    /// Enumeration for confidence levels.
    #[derive(Debug, Clone, Serialize, Deserialize, PartialEq, Eq, PartialOrd, Ord, Hash)]
    pub enum ConfidenceLevel {
        /// High confidence.
        #[serde(rename = "HIGH")]
        High,
        /// Medium confidence.
        #[serde(rename = "MEDIUM")]
        Medium,
        /// Low confidence.
        #[serde(rename = "LOW")]
        Low,
    }

    impl From<ConfidenceLevel> for gene_disease_association_entry::ConfidenceLevel {
        fn from(val: ConfidenceLevel) -> Self {
            match val {
                ConfidenceLevel::High => gene_disease_association_entry::ConfidenceLevel::High,
                ConfidenceLevel::Medium => gene_disease_association_entry::ConfidenceLevel::Medium,
                ConfidenceLevel::Low => gene_disease_association_entry::ConfidenceLevel::Low,
            }
        }
    }

    /// A gene-disease association entry.
    #[derive(Debug, Clone, Serialize, Deserialize)]
    pub struct GeneDiseaseAssociationEntry {
        /// The gene-disease association source.
        pub source: GeneDiseaseAssociationSource,
        /// The gene-disease association confidence level.
        pub confidence: ConfidenceLevel,
    }

    impl From<GeneDiseaseAssociationEntry> for conditions_record::GeneDiseaseAssociationEntry {
        fn from(val: GeneDiseaseAssociationEntry) -> Self {
            let GeneDiseaseAssociationEntry { source, confidence } = val;
            conditions_record::GeneDiseaseAssociationEntry {
                source: Into::<gene_disease_association_entry::GeneDiseaseAssociationSource>::into(
                    source,
                ) as i32,
                confidence: Into::<gene_disease_association_entry::ConfidenceLevel>::into(
                    confidence,
                ) as i32,
            }
        }
    }

    /// A labeled disorder.
    #[derive(Debug, Clone, Serialize, Deserialize)]
    pub struct LabeledDisorder {
        /// The disorder ID.
        pub term_id: String,
        /// The disorder name.
        pub title: Option<String>,
    }

    impl From<LabeledDisorder> for conditions_record::LabeledDisorder {
        fn from(val: LabeledDisorder) -> Self {
            let LabeledDisorder { term_id, title } = val;
            conditions_record::LabeledDisorder { term_id, title }
        }
    }

    /// A gene-disease association.
    #[derive(Debug, Clone, Serialize, Deserialize)]
    pub struct GeneDiseaseAssociation {
        /// The HGNC ID.
        pub hgnc_id: String,
        /// The gene-disease association entries.
        pub labeled_disorders: Vec<LabeledDisorder>,
        /// Overall disease name.
        pub disease_name: Option<String>,
        /// Disease definition.
        pub disease_definition: Option<String>,
        /// The gene-disease association sources.
        pub sources: Vec<GeneDiseaseAssociationSource>,
        /// Overall disease-gene association confidence level.
        pub confidence: ConfidenceLevel,
    }

    impl From<GeneDiseaseAssociation> for conditions_record::GeneDiseaseAssociation {
        fn from(val: GeneDiseaseAssociation) -> Self {
            let GeneDiseaseAssociation {
                hgnc_id,
                labeled_disorders,
                disease_name,
                disease_definition,
                sources,
                confidence,
            } = val;
            conditions_record::GeneDiseaseAssociation {
                hgnc_id,
                labeled_disorders: labeled_disorders
                    .into_iter()
                    .map(Into::<conditions_record::LabeledDisorder>::into)
                    .collect(),
                disease_name,
                disease_definition,
                sources: sources
                    .into_iter()
                    .map(|v| {
                        Into::<gene_disease_association_entry::GeneDiseaseAssociationSource>::into(
                            v,
                        ) as i32
                    })
                    .collect(),
                confidence: Into::<gene_disease_association_entry::ConfidenceLevel>::into(
                    confidence,
                ) as i32,
            }
        }
    }

    /// Enumeration for PanelApp confidence level.
    #[derive(Debug, Clone, Serialize, Deserialize, PartialEq, Eq, PartialOrd, Ord, Hash)]
    pub enum PanelappConfidence {
        /// PanelApp green confidence.
        #[serde(rename = "GREEN")]
        Green,
        /// PanelApp amber confidence.
        #[serde(rename = "AMBER")]
        Amber,
        /// PanelApp red confidence.
        #[serde(rename = "RED")]
        Red,
        /// PanelApp none confidence (when removed after expert review).
        #[serde(rename = "NONE")]
        None,
    }

    impl From<PanelappConfidence> for panelapp_association::PanelappConfidence {
        fn from(val: PanelappConfidence) -> Self {
            match val {
                PanelappConfidence::Green => panelapp_association::PanelappConfidence::Green,
                PanelappConfidence::Amber => panelapp_association::PanelappConfidence::Amber,
                PanelappConfidence::Red => panelapp_association::PanelappConfidence::Red,
                PanelappConfidence::None => panelapp_association::PanelappConfidence::None,
            }
        }
    }

    /// Enumeration for entity type.
    #[derive(Debug, Clone, Serialize, Deserialize, PartialEq, Eq, PartialOrd, Ord, Hash)]
    pub enum PanelappEntityType {
        /// PanelApp gene entity type.
        #[serde(rename = "GENE")]
        Gene,
        /// PanelApp region entity type.
        #[serde(rename = "REGION")]
        Region,
        /// PanelApp shor tandem repeat entity type.
        #[serde(rename = "STR")]
        Str,
    }

    impl From<PanelappEntityType> for panelapp_association::PanelappEntityType {
        fn from(val: PanelappEntityType) -> Self {
            match val {
                PanelappEntityType::Gene => panelapp_association::PanelappEntityType::Gene,
                PanelappEntityType::Region => panelapp_association::PanelappEntityType::Region,
                PanelappEntityType::Str => panelapp_association::PanelappEntityType::Str,
            }
        }
    }

    /// A panel from PanelApp.
    #[derive(Debug, Clone, Serialize, Deserialize)]
    pub struct PanelappPanel {
        /// PanelApp panel ID.
        pub id: i32,
        /// PanelApp panel name.
        pub name: String,
        /// PanelApp panel version.
        pub version: String,
    }

    impl From<PanelappPanel> for conditions_record::PanelappPanel {
        fn from(val: PanelappPanel) -> Self {
            let PanelappPanel { id, name, version } = val;
            conditions_record::PanelappPanel { id, name, version }
        }
    }

    /// An association of a gene by HGNC with a panel from PanelApp.
    #[derive(Debug, Clone, Serialize, Deserialize)]
    pub struct PanelappAssociation {
        /// The HGNC ID.
        pub hgnc_id: String,
        /// The PanelApp confidence level.
        pub confidence_level: PanelappConfidence,
        /// The PanelApp entity type.
        pub entity_type: PanelappEntityType,
        /// The PanelApp entity name.
        pub mode_of_inheritance: Option<String>,
        /// The PanelApp publications.
        pub phenotypes: Vec<String>,
        /// The PanelApp panel.
        pub panel: PanelappPanel,
    }

    impl From<PanelappAssociation> for conditions_record::PanelappAssociation {
        fn from(val: PanelappAssociation) -> Self {
            let PanelappAssociation {
                hgnc_id,
                confidence_level,
                entity_type,
                mode_of_inheritance,
                phenotypes,
                panel,
            } = val;
            conditions_record::PanelappAssociation {
                hgnc_id,
                confidence_level: Into::<panelapp_association::PanelappConfidence>::into(
                    confidence_level,
                ) as i32,
                entity_type: Into::<panelapp_association::PanelappEntityType>::into(entity_type)
                    as i32,
                mode_of_inheritance,
                phenotypes,
                panel: Some(Into::<conditions_record::PanelappPanel>::into(panel)),
            }
        }
    }

    /// A record from the conditions JSONL file.
    #[derive(Debug, Clone, Serialize, Deserialize)]
    pub struct Record {
        /// The HGNC ID.
        pub hgnc_id: String,
        /// The gene-disease associations.
        pub disease_associations: Vec<GeneDiseaseAssociation>,
        /// The PanelApp associations.
        pub panelapp_associations: Vec<PanelappAssociation>,
    }

    impl From<Record> for ConditionsRecord {
        fn from(val: Record) -> Self {
            let Record {
                hgnc_id,
                disease_associations,
                panelapp_associations,
            } = val;
            ConditionsRecord {
                hgnc_id,
                disease_associations: disease_associations
                    .into_iter()
                    .map(Into::<conditions_record::GeneDiseaseAssociation>::into)
                    .collect(),
                panelapp_associations: panelapp_associations
                    .into_iter()
                    .map(Into::<conditions_record::PanelappAssociation>::into)
                    .collect(),
            }
        }
    }
}

#[cfg(test)]
mod tests {
    use super::*;

    #[test]
    fn deserialize_acmg_sf_record() -> Result<(), anyhow::Error> {
        let path_json = "tests/genes/ncbi/gene_info.jsonl";
        let str_json = std::fs::read_to_string(path_json)?;
        let records = str_json
            .lines()
            .map(|s| serde_json::from_str::<ncbi::Record>(s).unwrap())
            .collect::<Vec<_>>();

        insta::assert_yaml_snapshot!(records);

        Ok(())
    }

    #[test]
    fn deserialize_clingen_record() -> Result<(), anyhow::Error> {
        let path_tsv = "tests/genes/clingen/ClinGen_gene_curation_list_GRCh37.tsv";
        let str_tsv = std::fs::read_to_string(path_tsv)?;
        let str_tsv = str_tsv.lines().collect::<Vec<_>>()[5..].join("\n");
        let mut rdr = csv::ReaderBuilder::new()
            .has_headers(true)
            .delimiter(b'\t')
            .flexible(true)
            .from_reader(str_tsv.as_bytes());
        let records = rdr
            .deserialize()
            .collect::<Result<Vec<clingen_gene::Gene>, csv::Error>>()?;
        insta::assert_yaml_snapshot!(records);

        Ok(())
    }

    #[test]
    fn deserialize_decipher_hi_record() -> Result<(), anyhow::Error> {
        let path_tsv = "tests/genes/decipher/decipher_hi_prediction.tsv";
        let str_tsv = std::fs::read_to_string(path_tsv)?;
        let mut rdr = csv::ReaderBuilder::new()
            .has_headers(true)
            .delimiter(b'\t')
            .flexible(false)
            .from_reader(str_tsv.as_bytes());
        let records = rdr
            .deserialize()
            .collect::<Result<Vec<decipher_hi::Record>, csv::Error>>()?;
        insta::assert_yaml_snapshot!(records);

        Ok(())
    }

    #[test]
    fn deserialize_dbnsfp_record() -> Result<(), anyhow::Error> {
        let path_tsv = "tests/genes/dbnsfp/genes.tsv";
        let str_tsv = std::fs::read_to_string(path_tsv)?;
        let mut rdr = csv::ReaderBuilder::new()
            .delimiter(b'\t')
            .has_headers(true)
            .from_reader(str_tsv.as_bytes());
        let records = rdr
            .deserialize()
            .collect::<Result<Vec<dbnsfp_gene::Record>, csv::Error>>()?;
        insta::assert_yaml_snapshot!(records);
        Ok(())
    }

    #[test]
    fn deserialize_hgnc_record() -> Result<(), anyhow::Error> {
        let path_json = "tests/genes/hgnc/hgnc_info.jsonl";
        let str_json = std::fs::read_to_string(path_json)?;
        let records = str_json
            .lines()
            .map(|s| serde_json::from_str::<hgnc::Record>(s).unwrap())
            .collect::<Vec<_>>();

        insta::assert_yaml_snapshot!(records);

        Ok(())
    }

    #[rstest::rstest]
    #[case::gnomad_v2("2.1")]
    #[case::gnomad_v4("4.0")]
    fn deserialize_gnomad_constraints(
        #[case] gnomad_constraints_version: &str,
    ) -> Result<(), anyhow::Error> {
        crate::common::set_snapshot_suffix!("{}", &gnomad_constraints_version);
        let path_tsv = format!(
            "tests/genes/gnomad_constraints/v{gnomad_constraints_version}/gnomad_constraints.tsv",
        );
        let str_tsv = std::fs::read_to_string(path_tsv)?;
        let mut rdr = csv::ReaderBuilder::new()
            .delimiter(b'\t')
            .has_headers(true)
            .from_reader(str_tsv.as_bytes());
        let records = rdr
            .deserialize()
            .collect::<Result<Vec<gnomad_constraints::Record>, csv::Error>>()?;
        insta::assert_yaml_snapshot!(records);
        Ok(())
    }

    #[test]
    fn deserialize_omim_record() -> Result<(), anyhow::Error> {
        let path_tsv = "tests/genes/omim/omim_diseases.tsv";
        let str_tsv = std::fs::read_to_string(path_tsv).unwrap();
        let mut rdr = csv::ReaderBuilder::new()
            .delimiter(b'\t')
            .has_headers(true)
            .from_reader(str_tsv.as_bytes());
        let records = rdr
            .deserialize()
            .collect::<Result<Vec<omim::RawRecord>, csv::Error>>()?;
        insta::assert_yaml_snapshot!(records);

        Ok(())
    }

    #[test]
    fn deserialize_panelapp_record() -> Result<(), anyhow::Error> {
        let path_jsonl = "tests/genes/panelapp/panelapp.jsonl";
        let str_jsonl = std::fs::read_to_string(path_jsonl)?;
        let records = str_jsonl
            .lines()
            .map(|s| {
                serde_json::from_str::<panelapp::Record>(s)
                    .inspect_err(|e| {
                        println!("{} -- {:?}", &s, e);
                    })
                    .unwrap()
            })
            .collect::<Vec<_>>();

        insta::assert_yaml_snapshot!(records);

        Ok(())
    }

    #[test]
    fn deserialize_ncbi_record() -> Result<(), anyhow::Error> {
        let path_tsv = "tests/genes/acmg/acmg.tsv";
        let str_tsv = std::fs::read_to_string(path_tsv).unwrap();
        let mut rdr = csv::ReaderBuilder::new()
            .delimiter(b'\t')
            .has_headers(true)
            .from_reader(str_tsv.as_bytes());
        let records = rdr
            .deserialize()
            .collect::<Result<Vec<acmg_sf::Record>, csv::Error>>()?;
        insta::assert_yaml_snapshot!(records);

        Ok(())
    }

    #[test]
    fn deserialize_rcnv_record() -> Result<(), anyhow::Error> {
        let path_tsv = "tests/genes/rcnv/rcnv.tsv";
        let str_tsv = std::fs::read_to_string(path_tsv).unwrap();
        let mut rdr = csv::ReaderBuilder::new()
            .delimiter(b'\t')
            .has_headers(true)
            .from_reader(str_tsv.as_bytes());
        let records = rdr
            .deserialize()
            .collect::<Result<Vec<rcnv::Record>, csv::Error>>()?;
        insta::assert_yaml_snapshot!(records);

        Ok(())
    }

    #[test]
    fn deserialize_shet_record() -> Result<(), anyhow::Error> {
        let path_tsv = "tests/genes/shet/shet.tsv";
        let str_tsv = std::fs::read_to_string(path_tsv).unwrap();
        let mut rdr = csv::ReaderBuilder::new()
            .delimiter(b'\t')
            .has_headers(true)
            .from_reader(str_tsv.as_bytes());
        let records = rdr
            .deserialize()
            .collect::<Result<Vec<shet::Record>, csv::Error>>()?;
        insta::assert_yaml_snapshot!(records);

        Ok(())
    }

    #[test]
    fn deserialize_gtex_record() -> Result<(), anyhow::Error> {
        let path_jsonl = "tests/genes/gtex/genes_tpm.jsonl";
        let str_jsonl = std::fs::read_to_string(path_jsonl)?;
        let records = str_jsonl
            .lines()
            .map(|s| serde_json::from_str::<gtex::Record>(s).unwrap())
            .collect::<Vec<_>>();

        insta::assert_yaml_snapshot!(records);

        Ok(())
    }

    #[test]
    fn deserialize_domino_record() -> Result<(), anyhow::Error> {
        let path_tsv = "tests/genes/domino/domino.tsv";
        let str_tsv = std::fs::read_to_string(path_tsv).unwrap();
        let mut rdr = csv::ReaderBuilder::new()
            .delimiter(b'\t')
            .has_headers(true)
            .from_reader(str_tsv.as_bytes());
        let records = rdr
            .deserialize()
            .collect::<Result<Vec<domino::Record>, csv::Error>>()?;
        insta::assert_yaml_snapshot!(records);

        Ok(())
    }

    #[test]
    fn deserialize_conditions_record() -> Result<(), anyhow::Error> {
        let path_jsonl = "tests/genes/conditions/conditions.jsonl";
        let str_jsonl = std::fs::read_to_string(path_jsonl)?;
        let records = str_jsonl
            .lines()
            .map(|s| serde_json::from_str::<conditions::Record>(s).unwrap())
            .collect::<Vec<_>>();

        insta::assert_yaml_snapshot!(records);

        Ok(())
    }
}