In the recent years, dynamic languages such as JavaScript, Python or PHP, have found several fields of applications, thanks to the multiple features provided, the agility of deploying software and the seeming facility of learning such languages. In particular, strings play a central role in dynamic languages, as they can be implicitly converted to other type values, used to access object properties or transformed at run-time into executable code. In particular, the possibility to dynamically generate code as strings transformation breaks the typical assumption in static program analysis that the code is an immutable object, indeed static. This happens because program\u2019s essential data structures, such as the control-flow graph and the system of equation associated with the program to analyze, are themselves dynamically mutating objects. In a sentence: "You can\u2019t check the code you don\u2019t see". For all these reasons, dynamic languages still pone a big challenge for static program analysis, making it drastically hard and imprecise. The goal of this thesis is to tackle the problem of statically analyzing dynamic code by treating the code as any other data structure that can be statically analyzed, and by treating the static analyzer as any other function that can be recursively called. Since, in dynamically-generated code, the program code can be encoded as strings and then transformed into executable code, we first define a novel and suitable string abstraction, and the corresponding abstract semantics, able to both keep enough information to analyze string properties, in general, and keep enough information about the possible executable strings that may be converted to code. Such string abstraction will permits us to distill from a string abstract value the executable program expressed by it, allowing us to recursively call the static analyzer on the synthesized program. The final result of this thesis is an important first step towards a sound-by- construction abstract interpreter for real-world dynamic string manipulation languages, analyzing also string-to-code statements, that is the code that standard static analysis "can\u2019t see"
