/***** * stack.h * Andy Hammerlindl 2002/06/27 * * The general stack machine used to run compiled camp code. *****/ #ifndef STACK_H #define STACK_H #include #include "errormsg.h" #include "vm.h" #include "item.h" #include "absyn.h" namespace vm { struct func; class program; class lambda; class importInitMap; struct bpinfo : public gc { fileinfo f; absyntax::runnable *r; bpinfo(const string& filename, size_t lineNum, absyntax::runnable *r=NULL) : f(fileinfo(filename,lineNum)), r(r) {} }; inline bool operator == (const bpinfo& a, const bpinfo& b) { return a.f == b.f; } extern mem::list bplist; class runnable; extern bool indebugger; class stack { public: typedef frame* vars_t; struct importInitMap { virtual ~importInitMap() {} virtual lambda *operator[](string) = 0; }; private: // stack for operands typedef mem::vector stack_t; stack_t theStack; vars_t make_frame(size_t, vars_t closure); void draw(ostream& out); // Move arguments from stack to frame. void marshall(size_t args, vars_t vars); // The initializer functions for imports, indexed by name. importInitMap *initMap; // The stack stores a map of initialized imported modules by name, so that // each module is initialized only once and each import refers to the same // instance. typedef mem::map importInstanceMap; importInstanceMap instMap; // One can associate an environment to embedded code while running. trans::coenv *e; // Debugger variables: char debugOp; position lastPos, breakPos; bool newline; public: stack() : e(0), debugOp(0), lastPos(nullPos), breakPos(nullPos), newline(false) {}; virtual ~stack() {}; void setInitMap(importInitMap *i) { initMap=i; } void setEnvironment(trans::coenv *e) { this->e=e; } trans::coenv *getEnvironment() { return e; } // Runs the instruction listed in code, with vars as frame of variables. void run(program *code, vars_t vars); // Executes a function on top of the stack. void run(func *f); void breakpoint(absyntax::runnable *r=NULL); void debug(); // Put an import (indexed by name) on top of the stack, initializing it if // necessary. void load(string index); // These are so that built-in functions can easily manipulate the stack void push(item next) { theStack.push_back(next); } template void push(T next) { push((item)next); } item top() { return theStack.back(); } item pop() { item ret = theStack.back(); theStack.pop_back(); return ret; } template T pop() { return get(pop()); } }; inline item pop(stack* s) { return s->pop(); } template inline T pop(stack* s) { return get(pop(s)); } template inline T pop(stack* s, T defval) { item it=pop(s); return isdefault(it) ? defval : get(it); } class interactiveStack : public stack { vars_t globals; public: interactiveStack(); // Run a codelet, a small piece of code that uses globals as its frame. void run(lambda *codelet); }; } // namespace vm #endif // STACK_H