Point(convert(Float64,x),y); This method uses the convert function to explicitly convert x to Float64 and then delegates construction to the general constructor for the case where both arguments are Float64. With this numerator and denominator values have different types: it promotes them to a common type and then delegates construction to the outer constructor for arguments of matching type. The third outer constructor 2) for i = 1:size(q,1) q[i,j,t+1]= q[i,j,t] + u[i,j,t] end end end q end; and one that delegates in chunks: julia> function advection_shared!(q, u) @sync begin for p in procs(q) @async rem

Point(convert(Float64,x),y); This method uses the convert function to explicitly convert x to Float64 and then delegates construction to the general constructor for the case where both arguments are Float64. With this numerator and denominator values have different types: it promotes them to a common type and then delegates construction to the outer constructor for arguments of matching type. The third outer constructor 2) for i = 1:size(q,1) q[i,j,t+1]= q[i,j,t] + u[i,j,t] end end end q end; and one that delegates in chunks: julia> function advection_shared!(q, u) @sync begin for p in procs(q) @async rem

Point(convert(Float64,x),y); This method uses the convert function to explicitly convert x to Float64 and then delegates construction to the general constructor for the case where both arguments are Float64. With this numerator and denominator values have different types: it promotes them to a common type and then delegates construction to the outer constructor for arguments of matching type. The third outer constructor 2) for i = 1:size(q,1) q[i,j,t+1]= q[i,j,t] + u[i,j,t] end end end q end; and one that delegates in chunks: julia> function advection_shared!(q, u) @sync begin for p in procs(q) @async rem

Point(convert(Float64,x),y); This method uses the convert function to explicitly convert x to Float64 and then delegates construction to the general constructor for the case where both arguments are Float64. With this numerator and denominator values have different types: it promotes them to a common type and then delegates construction to the outer constructor for arguments of matching type. The third outer constructor 2) for i = 1:size(q,1) q[i,j,t+1]= q[i,j,t] + u[i,j,t] end end end q end; and one that delegates in chunks: julia> function advection_shared!(q, u) @sync begin for p in procs(q) @async rem

Point(convert(Float64,x),y); This method uses the convert function to explicitly convert x to Float64 and then delegates construction to the general constructor for the case where both arguments are Float64. With this numerator and denominator values have different types: it promotes them to a common type and then delegates construction to the outer constructor for arguments of matching type. The third outer constructor 2) for i = 1:size(q,1) q[i,j,t+1]= q[i,j,t] + u[i,j,t] end end end q end; and one that delegates in chunks: julia> function advection_shared!(q, u) @sync begin for p in procs(q) @async rem

Point(convert(Float64,x),y); This method uses the convert function to explicitly convert x to Float64 and then delegates construction to the general constructor for the case where both arguments are Float64. With this numerator and denominator values have different types: it promotes them to a common type and then delegates construction to the outer constructor for arguments of matching type. The third outer constructor 2) for i = 1:size(q,1) q[i,j,t+1]= q[i,j,t] + u[i,j,t] end end end q end; and one that delegates in chunks: julia> function advection_shared!(q, u) @sync begin for p in procs(q) Threads.@spawn

Point(convert(Float64,x),y); This method uses the convert function to explicitly convert x to Float64 and then delegates construction to the general constructor for the case where both arguments are Float64. With this numerator and denominator values have different types: it promotes them to a common type and then delegates construction to the outer constructor for arguments of matching type. The third outer constructor 2) for i = 1:size(q,1) q[i,j,t+1]= q[i,j,t] + u[i,j,t] end end end q end; and one that delegates in chunks: julia> function advection_shared!(q, u) @sync begin for p in procs(q) Threads.@spawn

Point(convert(Float64,x),y); This method uses the convert function to explicitly convert x to Float64 and then delegates construction to the general constructor for the case where both arguments are Float64. With this numerator and denominator values have different types: it promotes them to a common type and then delegates construction to the outer constructor for arguments of matching type. The third outer constructor 2) for i = 1:size(q,1) q[i,j,t+1]= q[i,j,t] + u[i,j,t] end end end q end; and one that delegates in chunks: julia> function advection_shared!(q, u) @sync begin for p in procs(q) Threads.@spawn

Point(convert(Float64,x),y); This method uses the convert function to explicitly convert x to Float64 and then delegates construction to the general constructor for the case where both arguments are Float64. With this numerator and denominator values have different types: it promotes them to a common type and then delegates construction to the outer constructor for arguments of matching type. The third outer constructor 2) for i = 1:size(q,1) q[i,j,t+1]= q[i,j,t] + u[i,j,t] end end end q end; and one that delegates in chunks: julia> function advection_shared!(q, u) @sync begin for p in procs(q) Threads.@spawn

Point(convert(Float64,x),y); This method uses the convert function to explicitly convert x to Float64 and then delegates construction to the general constructor for the case where both arguments are Float64. With this numerator and denominator values have different types: it promotes them to a common type and then delegates construction to the outer constructor for arguments of matching type. The third outer constructor 2) for i = 1:size(q,1) q[i,j,t+1]= q[i,j,t] + u[i,j,t] end end end q end; and one that delegates in chunks: julia> function advection_shared!(q, u) @sync begin for p in procs(q) Threads.@spawn