class PMID(Base):
"""This class holds a lookup table of rsids."""
__tablename__ = 'pmids'
pmid = _Column(_String, primary_key=True)
title = _Column(_String, nullable=True)
pubdate = _Column(_Date, nullable=True)
def __init__(self, pmid, add_study_data=True):
"""Get info from ID and set."""
self.pmid = pmid
if add_study_data:
try:
title, pubdate = get_pubmed_info(pmid)
self.title = title
self.pubdate = pubdate
except:
pass
def __repr__(self):
"""Display summary stats."""
return "PMID<pmid={pmid}, title={title}, pubdate={pubdate}>".format(
pmid=self.pmid, title=self.title, pubdate=self.pubdate)
def __len__(self):
"""Number of SNPs."""
return len(self.snps)
class Phenotype(Base):
"""An SQLAlchemy table to store the primary phenotype.
Table Name:
phenos
Columns:
phenotype: The string phenotype from the GRASP DB, unique.
alias: A short representation of the phenotype, not unique.
studies: A link to the studies table.
Attributes:
int: The ID number.
str: The name of the phenotype.
"""
__tablename__ = "phenos"
id = _Column(_Integer, primary_key=True, index=True)
phenotype = _Column(_String, index=True, unique=True)
alias = _Column(_String, index=True)
studies = _relationship("Study", back_populates="phenotype")
def __repr__(self):
"""Display information."""
return '{} <"{}" (alias: {})>'.format(self.id, self.phenotype,
self.alias)
def __int__(self):
"""Return ID number."""
return self.id
def __str__(self):
"""Display phenotype name."""
return "{}".format(self.phenotype)
class Trait(Base):
"""This class holds a lookup table of traits."""
__tablename__ = 'traits'
id = _Column(_Integer, primary_key=True)
trait = _Column(_String, index=True, nullable=False)
def __repr__(self):
"""Display summary stats."""
return "Trait<id={id}, trait={trait}>".format(id=self.id,
trait=self.trait)
def __len__(self):
"""Number of SNPs."""
return len(self.snps)
class PhenoCats(Base):
"""An SQLAlchemy table to store the lists of phenotype categories.
Table Name:
pheno_cats
Columns:
category: The category from the grasp database, unique.
alias: An easy to use alias of the category, not unique.
snps: A link to all SNPs in this category.
studies: A link to all studies in this category.
Attributes:
int: The PhenoCat ID
str: The category name
"""
__tablename__ = "pheno_cats"
id = _Column(_Integer, primary_key=True, index=True)
category = _Column(_String, index=True, unique=True)
alias = _Column(_String, index=True)
snps = _relationship("SNP",
secondary=snp_pheno_assoc,
back_populates="phenotype_cats")
studies = _relationship("Study",
secondary=study_pheno_assoc,
back_populates="phenotype_cats")
def __repr__(self):
"""Display information."""
return '{} <"{}" (alias: {})>'.format(self.id, self.category,
self.alias)
def __int__(self):
"""Return ID number."""
return self.id
def __str__(self):
"""Display phenotype name."""
return "{}".format(self.category)
class Platform(Base):
"""An SQLAlchemy table to store the platform information.
Table Name:
platforms
Columns:
platform: The name of the platform from GRASP.
studies: A link to all studies using this platform.
Attributes:
int: The ID number of this platform
str: The name of the platform
"""
__tablename__ = "platforms"
id = _Column(_Integer, primary_key=True, index=True)
platform = _Column(_String, index=True, unique=True)
studies = _relationship("Study",
secondary=study_plat_assoc,
back_populates="platforms")
def __init__(self, platform):
"""Create self."""
self.platform = platform
def __repr__(self):
"""Display information."""
return "{} <{}>".format(self.id, self.platform)
def __int__(self):
"""Return ID number."""
return self.id
def __str__(self):
"""Display platform name."""
return "{}".format(self.platform)
class Population(Base):
"""An SQLAlchemy table to store the platform information.
Table Name:
populations
Columns:
population: The name of the population.
studies: A link to all studies in this population.
snps: A link to all SNPs in this populations.
Attributes:
int: Population ID number
str: The name of the population
"""
__tablename__ = "populations"
id = _Column(_Integer, primary_key=True, index=True)
population = _Column(_String, index=True, unique=True)
def __init__(self, population):
"""Create self."""
self.population = population
def __repr__(self):
"""Display information."""
return "{} <{}>".format(self.id, self.population)
def __int__(self):
"""Return ID number."""
return self.id
def __str__(self):
"""Display platform name."""
return "{}".format(self.population)
class SNP(Base):
"""An SQLAlchemy Talble for GRASP SNPs.
Study and phenotype information are pushed to other tables to minimize
table size and make querying easier.
Table Name:
snps
Columns:
Described in the columns attribute
Attributes:
int: The ID number of the SNP, usually the NHLBIkey
str: SNP loction expressed as 'chr:pos'
hvgs_ids: A list of HGVS IDs for this SNP
columns: A dictionary of all columns 'column_name'=>('type', 'desc')
"""
__tablename__ = "snps"
id = _Column(_BigInteger, primary_key=True, index=True)
snpid = _Column(_String, index=True)
chrom = _Column(_String(10), index=True)
pos = _Column(_Integer, index=True)
pval = _Column(_Float, index=True)
NHLBIkey = _Column(_String, index=True)
HUPfield = _Column(_String)
LastCurationDate = _Column(_Date)
CreationDate = _Column(_Date)
population_id = _Column(_Integer,
_ForeignKey('populations.id'),
index=True)
population = _relationship("Population", backref="snps")
study_id = _Column(_Integer, _ForeignKey('studies.id'), index=True)
study = _relationship("Study", back_populates="snps")
study_snpid = _Column(_String, index=True)
paper_loc = _Column(_String)
phenotype_desc = _Column(_String, index=True)
phenotype_cats = _relationship("PhenoCats",
secondary=snp_pheno_assoc,
back_populates="snps")
InGene = _Column(_String, index=True)
NearestGene = _Column(_String, index=True)
InLincRNA = _Column(_String)
InMiRNA = _Column(_String)
InMiRNABS = _Column(_String)
dbSNPfxn = _Column(_String)
dbSNPMAF = _Column(_String)
dbSNPinfo = _Column(_String)
dbSNPvalidation = _Column(_String)
dbSNPClinStatus = _Column(_String)
ORegAnno = _Column(_String)
ConservPredTFBS = _Column(_String)
HumanEnhancer = _Column(_String)
RNAedit = _Column(_String)
PolyPhen2 = _Column(_String)
SIFT = _Column(_String)
LSSNP = _Column(_String)
UniProt = _Column(_String)
EqtlMethMetabStudy = _Column(_String)
_Index('chrom_pos', 'chrom', 'pos')
columns = _od([
('id', ('BigInteger', 'NHLBIkey')),
('snpid', ('String', 'SNPid')),
('chrom', ('String', 'chr')),
('pos', ('Integer', 'pos')),
('pval', ('Float', 'Pvalue')),
('NHLBIkey', ('String', 'NHLBIkey')),
('HUPfield', ('String', 'HUPfield')),
('LastCurationDate', ('Date', 'LastCurationDate')),
('CreationDate', ('Date', 'CreationDate')),
('population_id', ('Integer', 'Primary')),
('population', ('relationship', 'Link')),
('study_id', ('Integer', 'Primary')),
('study', ('relationship', 'Link')),
('study_snpid', ('String', 'SNPid')),
('paper_loc', ('String', 'LocationWithinPaper')),
('phenotype_desc', ('String', 'Phenotype')),
('phenotype_cats', ('relationship', 'Link')),
('InGene', ('String', 'InGene')),
('NearestGene', ('String', 'NearestGene')),
('InLincRNA', ('String', 'InLincRNA')),
('InMiRNA', ('String', 'InMiRNA')),
('InMiRNABS', ('String', 'InMiRNABS')),
('dbSNPfxn', ('String', 'dbSNPfxn')),
('dbSNPMAF', ('String', 'dbSNPMAF')),
('dbSNPinfo', ('String', 'dbSNPalleles')),
('dbSNPvalidation', ('String', 'dbSNPvalidation')),
('dbSNPClinStatus', ('String', 'dbSNPClinStatus')),
('ORegAnno', ('String', 'ORegAnno')),
('ConservPredTFBS', ('String', 'ConservPredTFBS')),
('HumanEnhancer', ('String', 'HumanEnhancer')),
('RNAedit', ('String', 'RNAedit')),
('PolyPhen2', ('String', 'PolyPhen2')),
('SIFT', ('String', 'SIFT')),
('LSSNP', ('String', 'LS')),
('UniProt', ('String', 'UniProt')),
('EqtlMethMetabStudy', ('String', 'EqtlMethMetabStudy')),
])
"""A description of all columns in this table."""
@property
def snp_loc(self):
"""Return a simple string containing the SNP location."""
return "chr{}:{}".format(self.chrom, self.pos)
@property
def hvgs_ids(self):
"""The HVGS ID from myvariant."""
if not hasattr(self, '_hvgs_ids'):
mv = myvariant.MyVariantInfo()
self._hvgs_ids = [
i['_id'] for i in mv.query(self.snp_loc, fields='id')['hits']
]
return self._hvgs_ids
def get_variant_info(self, fields="dbsnp", pandas=True):
"""Use the myvariant API to get info about this SNP.
Note that this service can be very slow.
It will be faster to query multiple SNPs.
Args:
fields: Choose fields to display from:
`docs.myvariant.info/en/latest/doc/data.html#available-fields`_
Good choices are 'dbsnp', 'clinvar', or 'gwassnps'
Can also use 'grasp' to get a different version of this
info.
pandas: Return a dataframe instead of dictionary.
Returns:
A dictionary or a dataframe.
"""
mv = myvariant.MyVariantInfo()
return mv.getvariants(self.hvgs_ids,
fields=fields,
as_dataframe=pandas,
df_index=True)
def get_columns(self, return_as='list'):
"""Return all columns in the table nicely formatted.
Display choices:
list: A python list of column names
dictionary: A python dictionary of name=>desc
long_dict: A python dictionary of name=>(type, desc)
Args:
return_as: {table,tab,list,dictionary,long_dict,id_dict}
Returns:
A list or dictionary
"""
cols = self.columns
if return_as == 'list':
return [i[1] for i in cols.values()]
elif return_as == 'dictionary':
return {k: v[1] for k, v in cols.items()}
elif return_as == 'long_dict':
return cols
else:
raise Exception("'display_as' must be one of {table,tab,list}")
def display_columns(self, display_as='table', write=False):
"""Return all columns in the table nicely formatted.
Display choices:
table: A formatted grid-like table
tab: A tab delimited non-formatted version of table
list: A string list of column names
Args:
display_as: {table,tab,list}
write: If true, print output to console, otherwise return
string.
Returns:
A formatted string or None
"""
cols = self.columns
if display_as == 'table':
out = _tb(
[['Column', 'Description', 'Type']] +\
[[k, v[1], v[0]] for k, v in cols.items()],
headers='firstrow', tablefmt='grid'
)
elif display_as == 'tab':
out = '\n'.join(
['\t'.join(['Column', 'Description', 'Type'])] +\
['\t'.join([k, v[1], v[0]]) for k, v in cols.items()],
)
elif display_as == 'list':
out = '\n'.join([i[1] for i in cols.values()])
else:
raise Exception("'display_as' must be one of {table,tab,list}")
if write:
print(out)
else:
return out
def __repr__(self):
"""Display information about the table."""
return "{} ({}) <{}:{} pheno: {} study: {}".format(
self.id, self.snpid, self.chrom, self.pos, self.phenotype_desc,
self.study.title)
def __int__(self):
"""Return ID number."""
return self.id
def __str__(self):
"""Return coordinates."""
return self.snp_loc
class Study(Base):
"""An SQLAlchemy table to store study information.
This table provides easy ways to query for SNPs by study information,
including population and phenotype.
Note: `disc_pop_flag` and `rep_pop_flag` are integer representations of
a bitwise flag describing population, defined in ref.PopFlag. To see the
string representation of this property, lookup `disc_pops` or `rep_pops`.
Table Name:
studies
Columns:
Described in the columns attribute.
Attributes:
int: The integer ID number, usually the PMID, unless not indexed.
str: Summary data on this study.
len: The number of individuals in this study.
disc_pops: A string displaying the number of discovery poplations.
rep_pops: A string displaying the number of replication poplations.
columns: A dictionary of all columns 'column_name'=>('type', 'desc')
population_information:
A multi-line string describing the populations in this study.
"""
__tablename__ = "studies"
id = _Column(_Integer, primary_key=True, index=True)
pmid = _Column(_String(100), index=True)
title = _Column(_String, index=True)
journal = _Column(_String)
author = _Column(_String)
grasp_ver = _Column(_Integer, index=True)
noresults = _Column(_Boolean)
results = _Column(_Integer)
qtl = _Column(_Boolean)
snps = _relationship("SNP", back_populates='study')
phenotype_id = _Column(_Integer, _ForeignKey('phenos.id'), index=True)
phenotype = _relationship("Phenotype", back_populates="studies")
phenotype_cats = _relationship("PhenoCats",
secondary=study_pheno_assoc,
back_populates="studies")
datepub = _Column(_Date)
in_nhgri = _Column(_Boolean)
locations = _Column(_String)
mf = _Column(_Boolean)
mf_only = _Column(_Boolean)
platforms = _relationship("Platform",
secondary=study_plat_assoc,
back_populates="studies")
snp_count = _Column(_String)
imputed = _Column(_Boolean)
population_id = _Column(_Integer,
_ForeignKey('populations.id'),
index=True)
population = _relationship("Population", backref="studies")
total = _Column(_Integer)
total_disc = _Column(_Integer)
pop_flag = _Column(_Integer, index=True) # Will hold a bitwise flag
disc_pop_flag = _Column(_Integer, index=True) # Will hold a bitwise flag
european = _Column(_Integer)
african = _Column(_Integer)
east_asian = _Column(_Integer)
south_asian = _Column(_Integer)
hispanic = _Column(_Integer)
native = _Column(_Integer)
micronesian = _Column(_Integer)
arab = _Column(_Integer)
mixed = _Column(_Integer)
unspecified = _Column(_Integer)
filipino = _Column(_Integer)
indonesian = _Column(_Integer)
total_rep = _Column(_Integer)
rep_pop_flag = _Column(_Integer, index=True) # Will hold a bitwise flag
rep_european = _Column(_Integer)
rep_african = _Column(_Integer)
rep_east_asian = _Column(_Integer)
rep_south_asian = _Column(_Integer)
rep_hispanic = _Column(_Integer)
rep_native = _Column(_Integer)
rep_micronesian = _Column(_Integer)
rep_arab = _Column(_Integer)
rep_mixed = _Column(_Integer)
rep_unspecified = _Column(_Integer)
rep_filipino = _Column(_Integer)
rep_indonesian = _Column(_Integer)
sample_size = _Column(_String) # Maybe parse this better
replication_size = _Column(_String) # Maybe parse this better
columns = _od([
('id', ('Integer', 'id')),
('pmid', ('String', 'PubmedID')),
('title', ('String', 'Study')),
('journal', ('String', 'Journal')),
('author', ('String', '1st_author')),
('grasp_ver', ('Integer', 'GRASPversion?')),
('noresults', ('Boolean', 'No results flag')),
('results', ('Integer', '#results')),
('qtl', ('Boolean', 'IsEqtl/meQTL/pQTL/gQTL/Metabolmics?')),
('snps', ('relationship', 'Link to all SNPs in this study')),
('phenotype_id', ('Integer',
'ID of primary phenotype in Phenotype table')),
('phenotype',
('relationship',
'A link to the primary phenotype in the Phenotype table')),
('phenotype_cats',
('relationship',
'A link to all phenotype categories assigned in the PhenoCats table')
),
('datepub', ('Date', 'DatePub')),
('in_nhgri', ('Boolean', 'In NHGRI GWAS catalog (8/26/14)?')),
('locations', ('String', 'Specific place(s) mentioned for samples')),
('mf',
('Boolean',
'Includes male/female only analyses in discovery and/or replication?'
)),
('mf_only', ('Boolean', 'Exclusively male or female study?')),
('platforms',
('relationship',
'Link to platforms in the Platform table. Platform [SNPs passing QC]'
)),
('snp_count', ('String', 'From "Platform [SNPs passing QC]"')),
('imputed', ('Boolean', 'From "Platform [SNPs passing QC]"')),
('population_id', ('Integer', 'Primary key of population table')),
('population', ('relationship', 'GWAS description, link to table')),
('total', ('Integer', 'Total Discovery + Replication sample size')),
('total_disc', ('Integer', 'Total discovery samples')),
('pop_flag',
('Integer',
'A bitwise flag that shows presence/absence of all populations (discovery and replication)'
)),
('disc_pop_flag',
('Integer',
'A bitwise flag that shows presence/absence of discovery populations'
)),
('european', ('Integer', 'European')),
('african', ('Integer', 'African ancestry')),
('east_asian', ('Integer', 'East Asian')),
('south_asian', ('Integer', 'Indian/South Asian')),
('hispanic', ('Integer', 'Hispanic')),
('native', ('Integer', 'Native')),
('micronesian', ('Integer', 'Micronesian')),
('arab', ('Integer', 'Arab/ME')),
('mixed', ('Integer', 'Mixed')),
('unpecified', ('Integer', 'Unspec')),
('filipino', ('Integer', 'Filipino')),
('indonesian', ('Integer', 'Indonesian')),
('total_rep', ('Integer', 'Total replication samples')),
('rep_pop_flag',
('Integer',
'A bitwise flag that shows presence/absence of replication populations'
)),
('rep_european', ('Integer', 'European.1')),
('rep_african', ('Integer', 'African ancestry.1')),
('rep_east_asian', ('Integer', 'East Asian.1')),
('rep_south_asian', ('Integer', 'Indian/South Asian.1')),
('rep_hispanic', ('Integer', 'Hispanic.1')),
('rep_native', ('Integer', 'Native.1')),
('rep_micronesian', ('Integer', 'Micronesian.1')),
('rep_arab', ('Integer', 'Arab/ME.1')),
('rep_mixed', ('Integer', 'Mixed.1')),
('rep_unpecified', ('Integer', 'Unspec.1')),
('rep_filipino', ('Integer', 'Filipino.1')),
('rep_indonesian', ('Integer', 'Indonesian.1')),
('sample_size',
('String',
'Initial Sample Size, string description of integer population counts above.'
)),
('replication_size',
('String',
'Replication Sample Size, string description of integer population counts above.'
)),
])
"""A description of all columns in this table."""
@property
def disc_pops(self):
"""Convert disc_pop_flag to PopFlag."""
return _PopFlag(self.disc_pop_flag)
@property
def rep_pops(self):
"""Convert rep_pop_flag to PopFlag."""
return _PopFlag(self.rep_pop_flag)
@property
def pops(self):
"""Convert rep_pop_flag to PopFlag."""
return _PopFlag(self.pop_flag)
@property
def population_information(self):
"""Display a summary of population data."""
outstr = [
"Primary population: {}\n".format(self.population.population),
"Individuals: {}\n".format(self.total),
"Discovery populations: {}; Total: {}\n".format(
self.disc_pops.to_simple_str(), self.total_disc)
]
for pop in [
'european', 'african', 'east_asian', 'south_asian', 'hispanic',
'native', 'micronesian', 'arab', 'unspecified', 'filipino',
'indonesian'
]:
outstr.append('\t{}: {}\n'.format(pop, eval('self.' + pop)))
outstr.append("Replication populations: {}; Total: {}\n".format(
self.rep_pops.to_simple_str(), self.total_rep))
for pop in [
'european', 'african', 'east_asian', 'south_asian', 'hispanic',
'native', 'micronesian', 'arab', 'unspecified', 'filipino',
'indonesian'
]:
outstr.append('\t{}: {}\n'.format(pop, eval('self.rep_' + pop)))
def get_columns(self, return_as='list'):
"""Return all columns in the table nicely formatted.
Display choices:
list: A python list of column names
dictionary: A python dictionary of name=>desc
long_dict: A python dictionary of name=>(type, desc)
Args:
return_as: {table,tab,list,dictionary,long_dict,id_dict}
Returns:
A list or dictionary
"""
cols = self.columns
if return_as == 'list':
return [i[1] for i in cols.values()]
elif return_as == 'dictionary':
return {k: v[1] for k, v in cols.items()}
elif return_as == 'long_dict':
return cols
else:
raise Exception("'display_as' must be one of {table,tab,list}")
def display_columns(self, display_as='table', write=False):
"""Return all columns in the table nicely formatted.
Display choices:
table: A formatted grid-like table
tab: A tab delimited non-formatted version of table
list: A string list of column names
Args:
display_as: {table,tab,list}
write: If true, print output to console, otherwise return
string.
Returns:
A formatted string or None
"""
cols = self.columns
if display_as == 'table':
out = _tb(
[['Column', 'Description', 'Type']] +\
[[k, v[1], v[0]] for k, v in cols.items()],
headers='firstrow', tablefmt='grid'
)
elif display_as == 'tab':
out = '\n'.join(
['\t'.join(['Column', 'Description', 'Type'])] +\
['\t'.join([k, v[1], v[0]]) for k, v in cols.items()],
)
elif display_as == 'list':
out = '\n'.join([i[1] for i in cols.values()])
else:
raise Exception("'display_as' must be one of {table,tab,list}")
if write:
print(out)
else:
return out
def __repr__(self):
"""Display informaertn about this study."""
return '{} <{}:{} "{}" ({}; Pop: {}; Disc Pops: {}; Rep Pops: {})>'.\
format(self.id, self.author, self.journal, self.title,
self.phenotype.phenotype, self.population.population,
self.disc_pops.to_simple_str(),
self.rep_pops.to_simple_str())
def __str__(self):
"""Display refertnce."""
return "{}: {} ({})\nSNPS: {}\nInds: {}\n".format(
self.journal,
self.title,
self.author,
self.snp_count,
self.total,
) + "Disc Pops: {}; Rep Pops: {}; EUR: {}; AFR: {}".format(
self.disc_pops.to_simple_str, self.rep_pops.to_simple_str,
self.european, self.african)
def __int__(self):
"""Return ID number."""
return self.id
def __len__(self):
"""Return total individual count."""
return int(self.total)
# Flags
from .ref import PopFlag as _PopFlag
__all__ = ["SNP", "Phenotype", "PhenoCats", "Platform", "Population"]
Base = _declarative_base()
"""The SQLAlchemy Base for the database."""
###############################################################################
# Association Tables #
###############################################################################
snp_pheno_assoc = _Table(
'snp_pheno_association', Base.metadata,
_Column('snp_id', _BigInteger, _ForeignKey('snps.id')),
_Column('pheno_id', _Integer, _ForeignKey('pheno_cats.id')))
study_pheno_assoc = _Table(
'study_pheno_association', Base.metadata,
_Column('study_id', _Integer, _ForeignKey('studies.id')),
_Column('pheno_id', _Integer, _ForeignKey('pheno_cats.id')))
study_plat_assoc = _Table(
'study_platform_association', Base.metadata,
_Column('study_id', _Integer, _ForeignKey('studies.id')),
_Column('platform_id', _Integer, _ForeignKey('platforms.id')))
###############################################################################
# Database Tables #
###############################################################################
def __new__(cls, t, *args, **kwargs):
if 'sqlalchemy' not in t.__module__:
t = Enum(t)
return _Column(t, *args, **kwargs)
class RiskAllele(Base):
"""This class holds the SQLAlchemy definition of the risk allele table.
Always Populated Columns:
id (int): A unique ID
pmid (int): The pubmed ID of the study
trait (str): A string describing the trait of interest
rsID (str): The rsid of the SNP
population (str): The population the data is for
risk_allele (str): The risk allele
Optional Columns:
chrom (str): Chromosome string (hg19)
position (int): Position on chromosome (hg19)
A1 (str): The A1 allele
A2 (str): The A2 allele
OR (float): The odds ratio for A1
B (float): The beta (effect size) for A1
OR_B (float): Either the OR or B
P (float): p-value of the SNP-trait pair
N (int): Number of individuals supporting the SNP
N_cases (int): Number of of individuals in the case group
N_controls (int): Number of of individuals in the control group
source (str): Which database this record is from
grasp_id (int): The ID of this SNP-trait pair in the GRASP database
population_info (str): Extra population information
"""
__tablename__ = 'risk_alleles'
id = _Column(_Integer, primary_key=True)
pmid = _Column(_String, _ForeignKey('pmids.pmid'), nullable=False)
paper = _relationship('PMID', backref='snps')
trait_id = _Column(_Integer, _ForeignKey('traits.id'), nullable=False)
trait = _relationship('Trait', backref='snps')
rsID = _Column(_String, index=True, nullable=False)
population = _Column(_String, index=True, nullable=False)
risk_allele = _Column(_String(1), nullable=False)
chrom = _Column(_String, index=True)
position = _Column(_Integer, index=True)
A1 = _Column(_String)
A2 = _Column(_String)
OR = _Column(_Float, index=True)
B = _Column(_Float)
OR_B = _Column(_Float)
P = _Column(_Float(precision=128), index=True)
cases_MAF = _Column(_Float)
controls_MAF = _Column(_Float)
N = _Column(_Integer)
N_cases = _Column(_Integer)
N_controls = _Column(_Integer)
source = _Column(_String)
grasp_id = _Column(_Integer)
population_info = _Column(_String)
pmid_rsid = _Index('pmid_rsid', pmid, rsID)
loc = _Index('loc', chrom, position)
# Make pmid, trait, rsID, population, risk_allele unique
_Unique(pmid, trait_id, rsID, population, risk_allele)
def __repr__(self):
"""Better display of data."""
out = (
"RiskAllele<id={id}, pmid={pmid}, rsID={rsid}, trait={trait}, "
"risk_allele={risk_allele}>")
return out.format(id=self.id,
pmid=self.pmid,
rsid=self.rsID,
trait=self.trait.trait,
risk_allele=self.risk_allele)
