#pragma once #include "symbol-table.hh" #if HAVE_BOEHMGC #include #endif namespace nix { typedef enum { tInt = 1, tBool, tString, tPath, tNull, tAttrs, tList1, tList2, tListN, tThunk, tApp, tLambda, tBlackhole, tPrimOp, tPrimOpApp, tExternal, tFloat } ValueType; class Bindings; struct Env; struct Expr; struct ExprLambda; struct PrimOp; struct PrimOp; class Symbol; struct Pos; class EvalState; class XMLWriter; class JSONPlaceholder; typedef long NixInt; typedef float NixFloat; /* External values must descend from ExternalValueBase, so that * type-agnostic nix functions (e.g. showType) can be implemented */ class ExternalValueBase { friend std::ostream & operator << (std::ostream & str, const ExternalValueBase & v); protected: /* Print out the value */ virtual std::ostream & print(std::ostream & str) const = 0; public: /* Return a simple string describing the type */ virtual string showType() const = 0; /* Return a string to be used in builtins.typeOf */ virtual string typeOf() const = 0; /* How much space does this value take up */ virtual size_t valueSize(std::set & seen) const = 0; /* Coerce the value to a string. Defaults to uncoercable, i.e. throws an * error */ virtual string coerceToString(const Pos & pos, PathSet & context, bool copyMore, bool copyToStore) const; /* Compare to another value of the same type. Defaults to uncomparable, * i.e. always false. */ virtual bool operator==(const ExternalValueBase & b) const; /* Print the value as JSON. Defaults to unconvertable, i.e. throws an error */ virtual void printValueAsJSON(EvalState & state, bool strict, JSONPlaceholder & out, PathSet & context) const; /* Print the value as XML. Defaults to unevaluated */ virtual void printValueAsXML(EvalState & state, bool strict, bool location, XMLWriter & doc, PathSet & context, PathSet & drvsSeen) const; virtual ~ExternalValueBase() { }; }; std::ostream & operator << (std::ostream & str, const ExternalValueBase & v); struct Value { ValueType type; union { NixInt integer; bool boolean; /* Strings in the evaluator carry a so-called `context' which is a list of strings representing store paths. This is to allow users to write things like "--with-freetype2-library=" + freetype + "/lib" where `freetype' is a derivation (or a source to be copied to the store). If we just concatenated the strings without keeping track of the referenced store paths, then if the string is used as a derivation attribute, the derivation will not have the correct dependencies in its inputDrvs and inputSrcs. The semantics of the context is as follows: when a string with context C is used as a derivation attribute, then the derivations in C will be added to the inputDrvs of the derivation, and the other store paths in C will be added to the inputSrcs of the derivations. For canonicity, the store paths should be in sorted order. */ struct { const char * s; const char * * context; // must be in sorted order } string; const char * path; Bindings * attrs; struct { unsigned int size; Value * * elems; } bigList; Value * smallList[2]; struct { Env * env; Expr * expr; } thunk; struct { Value * left, * right; } app; struct { Env * env; ExprLambda * fun; } lambda; PrimOp * primOp; struct { Value * left, * right; } primOpApp; ExternalValueBase * external; NixFloat fpoint; }; bool isList() const { return type == tList1 || type == tList2 || type == tListN; } Value * * listElems() { return type == tList1 || type == tList2 ? smallList : bigList.elems; } const Value * const * listElems() const { return type == tList1 || type == tList2 ? smallList : bigList.elems; } unsigned int listSize() const { return type == tList1 ? 1 : type == tList2 ? 2 : bigList.size; } }; /* After overwriting an app node, be sure to clear pointers in the Value to ensure that the target isn't kept alive unnecessarily. */ static inline void clearValue(Value & v) { v.app.left = v.app.right = 0; } static inline void mkInt(Value & v, NixInt n) { clearValue(v); v.type = tInt; v.integer = n; } static inline void mkFloat(Value & v, NixFloat n) { clearValue(v); v.type = tFloat; v.fpoint = n; } static inline void mkBool(Value & v, bool b) { clearValue(v); v.type = tBool; v.boolean = b; } static inline void mkNull(Value & v) { clearValue(v); v.type = tNull; } static inline void mkApp(Value & v, Value & left, Value & right) { v.type = tApp; v.app.left = &left; v.app.right = &right; } static inline void mkPrimOpApp(Value & v, Value & left, Value & right) { v.type = tPrimOpApp; v.app.left = &left; v.app.right = &right; } static inline void mkStringNoCopy(Value & v, const char * s) { v.type = tString; v.string.s = s; v.string.context = 0; } static inline void mkString(Value & v, const Symbol & s) { mkStringNoCopy(v, ((const string &) s).c_str()); } void mkString(Value & v, const char * s); static inline void mkPathNoCopy(Value & v, const char * s) { clearValue(v); v.type = tPath; v.path = s; } void mkPath(Value & v, const char * s); /* Compute the size in bytes of the given value, including all values and environments reachable from it. Static expressions (Exprs) are not included. */ size_t valueSize(Value & v); #if HAVE_BOEHMGC typedef std::vector > ValueVector; typedef std::map, gc_allocator > > ValueMap; #else typedef std::vector ValueVector; typedef std::map ValueMap; #endif }