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XAM.jl/src/sam/record.jl

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# SAM Record
# ==========
mutable struct Record
# data and filled range
data::Vector{UInt8}
filled::UnitRange{Int}
# indexes
qname::UnitRange{Int}
flag::UnitRange{Int}
rname::UnitRange{Int}
pos::UnitRange{Int}
mapq::UnitRange{Int}
cigar::UnitRange{Int}
rnext::UnitRange{Int}
pnext::UnitRange{Int}
tlen::UnitRange{Int}
seq::UnitRange{Int}
qual::UnitRange{Int}
fields::Vector{UnitRange{Int}}
end
"""
SAM.Record()
Create an unfilled SAM record.
"""
function Record()
return Record(
UInt8[], 1:0,
# qname-mapq
1:0, 1:0, 1:0, 1:0, 1:0,
# cigar-seq
1:0, 1:0, 1:0, 1:0, 1:0,
# qual and fields
1:0, UnitRange{Int}[])
end
"""
SAM.Record(data::Vector{UInt8})
Create a SAM record from `data`.
This function verifies the format and indexes fields for accessors.
Note that the ownership of `data` is transferred to a new record object.
"""
function Record(data::Vector{UInt8})
return convert(Record, data)
end
function Base.convert(::Type{Record}, data::Vector{UInt8})
record = Record(
data, 1:0,
# qname-mapq
1:0, 1:0, 1:0, 1:0, 1:0,
# cigar-seq
1:0, 1:0, 1:0, 1:0, 1:0,
# qual and fields
1:0, UnitRange{Int}[])
index!(record)
return record
end
"""
SAM.Record(str::AbstractString)
Create a SAM record from `str`.
This function verifies the format and indexes fields for accessors.
"""
function Record(str::AbstractString)
return convert(Record, str)
end
function Base.convert(::Type{Record}, str::AbstractString)
return Record(Vector{UInt8}(str))
end
function Base.show(io::IO, record::Record)
print(io, summary(record), ':')
if isfilled(record)
println(io)
println(io, " template name: ", hastempname(record) ? tempname(record) : "<missing>")
println(io, " flag: ", hasflag(record) ? flag(record) : "<missing>")
println(io, " reference: ", hasrefname(record) ? refname(record) : "<missing>")
println(io, " position: ", hasposition(record) ? position(record) : "<missing>")
println(io, " mapping quality: ", hasmappingquality(record) ? mappingquality(record) : "<missing>")
println(io, " CIGAR: ", hascigar(record) ? cigar(record) : "<missing>")
println(io, " next reference: ", hasnextrefname(record) ? nextrefname(record) : "<missing>")
println(io, " next position: ", hasnextposition(record) ? nextposition(record) : "<missing>")
println(io, " template length: ", hastemplength(record) ? templength(record) : "<missing>")
println(io, " sequence: ", hassequence(record) ? sequence(String, record) : "<missing>")
println(io, " base quality: ", hasquality(record) ? quality(String, record) : "<missing>")
print(io, " auxiliary data:")
for field in record.fields
print(io, ' ', String(record.data[field]))
end
else
print(io, " <not filled>")
end
end
function Base.print(io::IO, record::Record)
write(io, record)
return nothing
end
function Base.write(io::IO, record::Record)
checkfilled(record)
return unsafe_write(io, pointer(record.data, first(record.filled)), length(record.filled))
end
function Base.copy(record::Record)
return Record(
copy(record.data),
record.filled,
record.qname,
record.flag,
record.rname,
record.pos,
record.mapq,
record.cigar,
record.rnext,
record.pnext,
record.tlen,
record.seq,
record.qual,
copy(record.fields))
end
# Accessor Functions
# ------------------
"""
flag(record::Record)::UInt16
Get the bitwise flag of `record`.
"""
function flag(record::Record)::UInt16
checkfilled(record)
return unsafe_parse_decimal(UInt16, record.data, record.flag)
end
function hasflag(record::Record)
return isfilled(record)
end
"""
ismapped(record::Record)::Bool
Test if `record` is mapped.
"""
function ismapped(record::Record)::Bool
return isfilled(record) && (flag(record) & FLAG_UNMAP == 0)
end
"""
isprimary(record::Record)::Bool
Test if `record` is a primary line of the read.
This is equivalent to `flag(record) & 0x900 == 0`.
"""
function isprimary(record::Record)::Bool
return flag(record) & 0x900 == 0
end
"""
refname(record::Record)::String
Get the reference sequence name of `record`.
"""
function refname(record::Record)
checkfilled(record)
if ismissing(record, record.rname)
missingerror(:refname)
end
return String(record.data[record.rname])
end
function hasrefname(record::Record)
return isfilled(record) && !ismissing(record, record.rname)
end
"""
position(record::Record)::Int
Get the 1-based leftmost mapping position of `record`.
"""
function position(record::Record)::Int
checkfilled(record)
pos = unsafe_parse_decimal(Int, record.data, record.pos)
if pos == 0
missingerror(:position)
end
return pos
end
function hasposition(record::Record)
return isfilled(record) && (length(record.pos) != 1 || record.data[first(record.pos)] != UInt8('0'))
end
"""
rightposition(record::Record)::Int
Get the 1-based rightmost mapping position of `record`.
"""
function rightposition(record::Record)
return position(record) + alignlength(record) - 1
end
function hasrightposition(record::Record)
return hasposition(record) && hasalignment(record)
end
"""
isnextmapped(record::Record)::Bool
Test if the mate/next read of `record` is mapped.
"""
function isnextmapped(record::Record)::Bool
return isfilled(record) && (flag(record) & FLAG_MUNMAP == 0)
end
"""
nextrefname(record::Record)::String
Get the reference name of the mate/next read of `record`.
"""
function nextrefname(record::Record)::String
checkfilled(record)
if ismissing(record, record.rnext)
missingerror(:nextrefname)
end
return String(record.data[record.rnext])
end
function hasnextrefname(record::Record)
return isfilled(record) && !ismissing(record, record.rnext)
end
"""
nextposition(record::Record)::Int
Get the position of the mate/next read of `record`.
"""
function nextposition(record::Record)::Int
checkfilled(record)
pos = unsafe_parse_decimal(Int, record.data, record.pnext)
if pos == 0
missingerror(:nextposition)
end
return pos
end
function hasnextposition(record::Record)
return isfilled(record) && (length(record.pnext) != 1 || record.data[first(record.pnext)] != UInt8('0'))
end
"""
mappingquality(record::Record)::UInt8
Get the mapping quality of `record`.
"""
function mappingquality(record::Record)::UInt8
checkfilled(record)
qual = unsafe_parse_decimal(UInt8, record.data, record.mapq)
if qual == 0xff
missingerror(:mappingquality)
end
return qual
end
function hasmappingquality(record::Record)
return isfilled(record) && unsafe_parse_decimal(UInt8, record.data, record.mapq) != 0xff
end
"""
cigar(record::Record)::String
Get the CIGAR string of `record`.
"""
function cigar(record::Record)::String
checkfilled(record)
if ismissing(record, record.cigar)
missingerror(:cigar)
end
return String(record.data[record.cigar])
end
function hascigar(record::Record)
return isfilled(record) && !ismissing(record, record.cigar)
end
"""
alignment(record::Record)::BioAlignments.Alignment
Get the alignment of `record`.
"""
function alignment(record::Record)::BioAlignments.Alignment
if ismapped(record)
return BioAlignments.Alignment(cigar(record), 1, position(record))
end
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return BioAlignments.Alignment(BioAlignments.AlignmentAnchor[])
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end
function hasalignment(record::Record)
return isfilled(record) && hascigar(record)
end
"""
alignlength(record::Record)::Int
Get the alignment length of `record`.
"""
function alignlength(record::Record)::Int
if length(record.cigar) == 1 && record.data[first(record.cigar)] == UInt8('*')
return 0
end
ret::Int = 0
len = 0 # operation length
for i in record.cigar
c = record.data[i]
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if in(c, UInt8('0'):UInt8('9'))
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len = len * 10 + (c - UInt8('0'))
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continue
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end
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op = convert(BioAlignments.Operation, Char(c))
if BioAlignments.ismatchop(op) || BioAlignments.isdeleteop(op) #Note: reference consuming ops ('M', 'D', 'N', '=', 'X').
ret += len
end
len = 0
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end
return ret
end
"""
tempname(record::Record)::String
Get the query template name of `record`.
"""
function tempname(record::Record)::String
checkfilled(record)
if ismissing(record, record.qname)
missingerror(:tempname)
end
return String(record.data[record.qname])
end
function hastempname(record::Record)
return isfilled(record) && !ismissing(record, record.qname)
end
"""
templength(record::Record)::Int
Get the template length of `record`.
"""
function templength(record::Record)::Int
checkfilled(record)
len = unsafe_parse_decimal(Int, record.data, record.tlen)
if len == 0
missingerror(:tlen)
end
return len
end
function hastemplength(record::Record)
return isfilled(record) && (length(record.tlen) != 1 || record.data[first(record.tlen)] != UInt8('0'))
end
"""
sequence(record::Record)::BioSequences.LongDNASeq
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Get the segment sequence of `record`.
"""
function sequence(record::Record)::BioSequences.LongDNASeq
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checkfilled(record)
if ismissing(record, record.seq)
missingerror(:sequence)
end
seqlen = length(record.seq)
ret = BioSequences.LongDNASeq(seqlen)
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BioSequences.encode_copy!(ret, 1, record.data, first(record.seq), seqlen)
return ret
end
function hassequence(record::Record)
return isfilled(record) && !ismissing(record, record.seq)
end
"""
sequence(::Type{String}, record::Record)::String
Get the segment sequence of `record` as `String`.
"""
function sequence(::Type{String}, record::Record)::String
checkfilled(record)
return String(record.data[record.seq])
end
"""
seqlength(record::Record)::Int
Get the sequence length of `record`.
"""
function seqlength(record::Record)::Int
checkfilled(record)
if ismissing(record, record.seq)
missingerror(:seq)
end
return length(record.seq)
end
function hasseqlength(record::Record)
return isfilled(record) && !ismissing(record, record.seq)
end
"""
quality(record::Record)::Vector{UInt8}
Get the Phred-scaled base quality of `record`.
"""
function quality(record::Record)::Vector{UInt8}
checkfilled(record)
if ismissing(record, record.qual)
missingerror(:quality)
end
qual = record.data[record.qual]
for i in 1:lastindex(qual)
@inbounds qual[i] -= 33
end
return qual
end
function hasquality(record::Record)
return isfilled(record) && !ismissing(record, record.qual)
end
"""
quality(::Type{String}, record::Record)::String
Get the ASCII-encoded base quality of `record`.
"""
function quality(::Type{String}, record::Record)::String
checkfilled(record)
return String(record.data[record.qual])
end
"""
auxdata(record::Record)::Dict{String,Any}
Get the auxiliary data (optional fields) of `record`.
"""
function auxdata(record::Record)::Dict{String,Any}
checkfilled(record)
return Dict(k => record[k] for k in keys(record))
end
function Base.haskey(record::Record, tag::AbstractString)
return findauxtag(record, tag) > 0
end
function Base.getindex(record::Record, tag::AbstractString)
i = findauxtag(record, tag)
if i == 0
throw(KeyError(tag))
end
field = record.fields[i]
# data type
typ = record.data[first(field)+3]
lo = first(field) + 5
if i == lastindex(record.fields)
hi = last(field)
else
hi = first(record.fields[i+1]) - 2
end
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if typ == UInt8('A')
@assert lo == hi
return Char(record.data[lo])
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end
if typ == UInt8('i')
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return unsafe_parse_decimal(Int, record.data, lo:hi)
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end
if typ == UInt8('f')
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# TODO: Call a C function directly for speed?
return parse(Float32, SubString(record.data[lo:hi]))
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end
if typ == UInt8('Z')
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return String(record.data[lo:hi])
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end
if typ == UInt8('H')
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return parse_hexarray(record.data, lo:hi)
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end
if typ == UInt8('B')
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return parse_typedarray(record.data, lo:hi)
end
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throw(ArgumentError("type code '$(Char(typ))' is not defined"))
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end
function Base.keys(record::Record)
checkfilled(record)
return [String(record.data[first(f):first(f)+1]) for f in record.fields]
end
function Base.values(record::Record)
return [record[k] for k in keys(record)]
end
# Bio Methods
# -----------
function BioCore.isfilled(record::Record)
return !isempty(record.filled)
end
function BioCore.seqname(record::Record)
return tempname(record)
end
function BioCore.hasseqname(record::Record)
return hastempname(record)
end
function BioCore.sequence(record::Record)
return sequence(record)
end
function BioCore.hassequence(record::Record)
return hassequence(record)
end
function BioCore.rightposition(record::Record)
return rightposition(record)
end
function BioCore.hasrightposition(record::Record)
return hasrightposition(record)
end
function BioCore.leftposition(record::Record)
return position(record)
end
function BioCore.hasleftposition(record::Record)
return hasposition(record)
end
# Helper Functions
# ----------------
function initialize!(record::Record)
record.filled = 1:0
record.qname = 1:0
record.flag = 1:0
record.rname = 1:0
record.pos = 1:0
record.mapq = 1:0
record.cigar = 1:0
record.rnext = 1:0
record.pnext = 1:0
record.tlen = 1:0
record.seq = 1:0
record.qual = 1:0
empty!(record.fields)
return record
end
function checkfilled(record::Record)
if !isfilled(record)
throw(ArgumentError("unfilled SAM record"))
end
end
function findauxtag(record::Record, tag::AbstractString)
checkfilled(record)
if sizeof(tag) != 2
return 0
end
t1, t2 = UInt8(tag[1]), UInt8(tag[2])
for (i, field) in enumerate(record.fields)
p = first(field)
if record.data[p] == t1 && record.data[p+1] == t2
return i
end
end
return 0
end
function parse_hexarray(data::Vector{UInt8}, range::UnitRange{Int})
@assert iseven(length(range))
ret = Vector{UInt8}(length(range) >> 1)
byte2hex(b) = b 0x30:0x39 ? (b - 0x30) : b 0x41:0x46 ? (b - 0x41 + 0x0A) : error("not in [0-9A-F]")
j = 1
for i in first(range):2:last(range)-1
ret[j] = (byte2hex(data[range[i]]) << 4) | byte2hex(data[range[i+1]])
j += 1
end
return ret
end
function parse_typedarray(data::Vector{UInt8}, range::UnitRange{Int})
# format: [cCsSiIf](,[-+]?[0-9]*\.?[0-9]+([eE][-+]?[0-9]+)?)+
t = data[first(range)]
xs = split(String(data[first(range)+2:last(range)]))
if t == UInt8('c')
return [parse(Int8, x) for x in xs]
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end
if t == UInt8('C')
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return [parse(UInt8, x) for x in xs]
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end
if t == UInt8('s')
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return [parse(Int16, x) for x in xs]
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end
if t == UInt8('S')
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return [parse(UInt16, x) for x in xs]
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end
if t == UInt8('i')
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return [parse(Int32, x) for x in xs]
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end
if t == UInt8('I')
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return [parse(UInt32, x) for x in xs]
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end
if t == UInt8('f')
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return [parse(Float32, x) for x in xs]
end
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throw(ArgumentError("type code '$(Char(t))' is not defined"))
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end
function ismissing(record::Record, range::UnitRange{Int})
return length(range) == 1 && record.data[first(range)] == UInt8('*')
end