context, the parameter T is also often called a "type variable" since it is like a variable that ranges over types. Each where introduces a single type variable, so these expressions are nested for types instantiate a type, as in Array{Float64}: the first parameter value has been fixed, but the second still ranges over all possible values. Using explicit where syntax, any subset of parameters can be fixed. For throw a MethodError saying that there was no matching method. In order to support indexing with ranges or vectors of Ints, separate methods must be written: julia> Base.getindex(S::Squares, i::Number)

context, the parameter T is also often called a "type variable" since it is like a variable that ranges over types. Each where introduces a single type variable, so these expressions are nested for types instantiate a type, as in Array{Float64}: the first parameter value has been fixed, but the second still ranges over all possible values. Using explicit where syntax, any subset of parameters can be fixed. For throw a MethodError saying that there was no matching method. In order to support indexing with ranges or vectors of Ints, separate methods must be written: julia> Base.getindex(S::Squares, i::Number)

context, the parameter T is also often called a "type variable" since it is like a variable that ranges over types. Each where introduces a single type variable, so these expressions are nested for types instantiate a type, as in Array{Float64}: the first parameter value has been fixed, but the second still ranges over all possible values. Using explicit where syntax, any subset of parameters can be fixed. For throw a MethodError saying that there was no matching method. In order to support indexing with ranges or vectors of Ints, separate methods must be written: julia> Base.getindex(S::Squares, i::Number)

context, the parameter T is also often called a "type variable" since it is like a variable that ranges over types. Each where introduces a single type variable, so these expressions are nested for types instantiate a type, as in Array{Float64}: the first parameter value has been fixed, but the second still ranges over all possible values. Using explicit where syntax, any subset of parameters can be fixed. For throw a MethodError saying that there was no matching method. In order to support indexing with ranges or vectors of Ints, separate methods must be written: julia> Base.getindex(S::Squares, i::Number)

context, the parameter T is also often called a "type variable" since it is like a variable that ranges over types. Each where introduces a single type variable, so these expressions are nested for types instantiate a type, as in Array{Float64}: the first parameter value has been fixed, but the second still ranges over all possible values. Using explicit where syntax, any subset of parameters can be fixed. For throw a MethodError saying that there was no matching method. In order to support indexing with ranges or vectors of Ints, separate methods must be written: julia> Base.getindex(S::Squares, i::Number)

context, the parameter T is also often called a "type variable" since it is like a variable that ranges over types. Each where introduces a single type variable, so these expressions are nested for types instantiate a type, as in Array{Float64}: the first parameter value has been fixed, but the second still ranges over all possible values. Using explicit where syntax, any subset of parameters can be fixed. For throw a MethodError saying that there was no matching method. In order to support indexing with ranges or vectors of Ints, separate methods must be written: julia> Base.getindex(S::Squares, i::Number)

context, the parameter T is also often called a "type variable" since it is like a variable that ranges over types. Each where introduces a single type variable, so these expressions are nested for types instantiate a type, as in Array{Float64}: the first parameter value has been fixed, but the second still ranges over all possible values. Using explicit where syntax, any subset of parameters can be fixed. For throw a MethodError saying that there was no matching method. In order to support indexing with ranges or vectors of Ints, separate methods must be written: julia> Base.getindex(S::Squares, i::Number)

context, the parameter T is also often called a "type variable" since it is like a variable that ranges over types. Each where introduces a single type variable, so these expressions are nested for types instantiate a type, as in Array{Float64}: the first parameter value has been fixed, but the second still ranges over all possible values. Using explicit where syntax, any subset of parameters can be fixed. For throw a MethodError saying that there was no matching method. In order to support indexing with ranges or vectors of Ints, separate methods must be written: julia> Base.getindex(S::Squares, i::Number)

context, the parameter T is also often called a "type variable" since it is like a variable that ranges over types. Each where introduces a single type variable, so these expressions are nested for types instantiate a type, as in Array{Float64}: the first parameter value has been fixed, but the second still ranges over all possible values. Using explicit where syntax, any subset of parameters can be fixed. For throw a MethodError saying that there was no matching method. In order to support indexing with ranges or vectors of Ints, separate methods must be written: julia> Base.getindex(S::Squares, i::Number)

context, the parameter T is also often called a "type variable" since it is like a variable that ranges over types. Each where introduces a single type variable, so these expressions are nested for types instantiate a type, as in Array{Float64}: the first parameter value has been fixed, but the second still ranges over all possible values. Using explicit where syntax, any subset of parameters can be fixed. For throw a MethodError saying that there was no matching method. In order to support indexing with ranges or vectors of Ints, separate methods must be written: julia> Base.getindex(S::Squares, i::Number)