we do not expect their use to diminish. Fortunately, modern language design and compiler techniques make it possible to mostly eliminate the performance trade-off and provide a single environment produc�ve rich language of types for construc�ng and describing objects, that can also op�onally be used to make type declara�ons • The ability to define func�on behavior across many combina�ons of argument types binary tarballs for most dependencies on supported sys- tems, disable by se�ng USE_BINARYBUILDER=0 at make �me (#31441). 13 Chapter 6 New library func�ons • getipaddrs() func�on returns all the IP addresses

we do not expect their use to diminish. Fortunately, modern language design and compiler techniques make it possible to mostly eliminate the performance trade-off and provide a single environment produc�ve rich language of types for construc�ng and describing objects, that can also op�onally be used to make type declara�ons • The ability to define func�on behavior across many combina�ons of argument types Release Notes 5 Chapter 2 New language features • An excep�on stack is maintained on each task to make excep�on handling more robust and enable root cause analysis. The stack may be accessed using the

we do not expect their use to diminish. Fortunately, modern language design and compiler techniques make it possible to mostly eliminate the performance trade-off and provide a single environment produc�ve rich language of types for construc�ng and describing objects, that can also op�onally be used to make type declara�ons • The ability to define func�on behavior across many combina�ons of argument types Release Notes 5 Chapter 2 New language features • An excep�on stack is maintained on each task to make excep�on handling more robust and enable root cause analysis. The stack may be accessed using the

we do not expect their use to diminish. Fortunately, modern language design and compiler techniques make it possible to mostly eliminate the performance trade-off and provide a single environment produc�ve rich language of types for construc�ng and describing objects, that can also op�onally be used to make type declara�ons • The ability to define func�on behavior across many combina�ons of argument types binary tarballs for most dependencies on supported systems, disable by se�ng USE_BINARYBUILDER=0 at make �me (#31441). Chapter 8 External dependencies • libgit2 has been updated to v0.27.7 (#30584).

do not expect their use to diminish. Fortunately, modern language de- sign and compiler techniques make it possible to mostly eliminate the performance trade-off and provide a sin- gle environment productive rich language of types for constructing and describing objects, that can also optionally be used to make type declarations • The ability to define function behavior across many combinations of argument BigFloat(1) + parse(BigFloat, "0.1") end 1.1000000000004 4.4 Numeric Literal Coefficients To make common numeric formulae and expressions clearer, Julia allows variables to be immediately preceded

do not expect their use to diminish. Fortunately, modern language design and compiler techniques make it possible to mostly eliminate the performance trade-off and provide a single environment productive rich language of types for constructing and describing objects, that can also optionally be used to make type declarations • The ability to define function behavior across many combinations of argument a are names for the same array! 3-element Vector{Int64}: 1 2 3 Here, the line b = a does not make a copy of the array a, it simply binds the name b to the same array a: both b and a "point" to one

do not expect their use to diminish. Fortunately, modern language de- sign and compiler techniques make it possible to mostly eliminate the performance trade-off and provide a sin- gle environment productive rich language of types for constructing and describing objects, that can also optionally be used to make type declarations • The ability to define function behavior across many combinations of argument BigFloat(1) + parse(BigFloat, "0.1") end 1.1000000000004 4.4 Numeric Literal Coefficients To make common numeric formulae and expressions clearer, Julia allows variables to be immediately preceded

do not expect their use to diminish. Fortunately, modern language design and compiler techniques make it possible to mostly eliminate the performance trade-off and provide a single environment productive rich language of types for constructing and describing objects, that can also optionally be used to make type declarations • The ability to define function behavior across many combinations of argument BigFloat(1) + parse(BigFloat, "0.1") end 1.1000000000004 4.4 Numeric Literal Coefficients To make common numeric formulae and expressions clearer, Julia allows variables to be immediately preceded

do not expect their use to diminish. Fortunately, modern language design and compiler techniques make it possible to mostly eliminate the performance trade-off and provide a single environment productive rich language of types for constructing and describing objects, that can also optionally be used to make type declarations • The ability to define function behavior across many combinations of argument a are names for the same array! 3-element Vector{Int64}: 1 2 3 Here, the line b = a does not make a copy of the array a, it simply binds the name b to the same array a: both b and a "point" to one

do not expect their use to diminish. Fortunately, modern language design and compiler techniques make it possible to mostly eliminate the performance trade-off and provide a single environment productive rich language of types for constructing and describing objects, that can also optionally be used to make type declarations • The ability to define function behavior across many combinations of argument a are names for the same array! 3-element Vector{Int64}: 1 2 3 Here, the line b = a does not make a copy of the array a, it simply binds the name b to the same array a: both b and a "point" to one