/** * Translates the body of the package and writes it to the output stream. * * @param out The output stream. * @return The output stream. */ public Printer translate(Printer out) { // Include the header file out.p("#include \"").p(getFilename()).pln(".h\"").pln(); // Print the array template specializations for the classes in this package out.pln("namespace __rt {").incr(); for (JavaFile f : files) { for (JavaClass cls : f.getClasses()) { cls.translateArrayTemplate(out); } } out.decr().pln("}").pln(); // Add the namespace for (String part : pkg) { out.indent().p("namespace ").p(part).pln(" {").incr(); } // Print all the files in the package for (JavaFile f : files) { for (JavaClass cls : f.getClasses()) { cls.translate(out).pln(); } out.pln(); } // Close the namespace for (int i = 0; i < pkg.size(); i++) { out.decr().indent().pln("}"); } // If this package contains the main file, print the main method here if (null != main) { out.pln("int main(int argc, char *argv[]) {").incr(); out.indent().pln("__rt::Ptr<__rt::Array<String> > args = new __rt::Array<String>(argc-1);"); out.indent().pln("for (int i = 1; i < argc; i++) {").incr(); out.indent().pln("(*args)[i-1] = __rt::literal(argv[i]);"); out.decr().indent().pln("}"); out.indent(); if (!getNamespace().equals("")) out.p(getNamespace()).p("::"); out.p("__").p(main.getPublicClass().getName()).pln("::main$array1_String(args);"); out.decr().pln("}"); } return out; }
/** * Print a tool header to the specified printer. This method prints a header documenting the tool * name, version, copyright, and current time. It also prints a warning not to edit the result. * * @param printer The printer. */ public void printHeader(Printer printer) { printer.sep(); printer.indent().pln("// This file has been generated by"); printer.indent().p("// ").p(getName()).p(", version ").p(getVersion()).pln(','); printer.p("// ").p(getCopy()).pln(','); Date now = new Date(); printer .indent() .p("// on ") .p(DateFormat.getDateInstance(DateFormat.FULL).format(now)) .p(" at ") .p(DateFormat.getTimeInstance(DateFormat.MEDIUM).format(now)) .pln('.'); printer.indent().pln("// Edit at your own risk."); printer.sep(); printer.pln(); }
public void print( Printer out) // TODO: Print the actual class (along with the already printed vtable) { if (toPrint) // TODO: Add constructors in class struct { int t, i, j; int dims; // Print the class out.indent(); out.pln("struct __" + name); out.indent(); out.pln("{"); out.incr(); out.indent(); out.pln("__" + name + "_VT* __vptr;"); out.pln(); for (t = 0; t < members.size(); t++) { out.indent(); out.pln(members.get(t).getType() + " " + members.get(t).getName() + ";"); } out.pln(); for (t = 0; t < constructors.size(); t++) { out.indent(); out.p("__" + name + "("); for (i = 0; i < constructors.get(t).size(); i++) { dims = constructors.get(t).get(i).getDimensions(); for (j = 0; j < dims; j++) { out.p("__rt::Ptr<__rt::Array<"); } out.p(constructors.get(t).get(i).getType()); for (j = 0; j < dims; j++) { out.p(">, __rt::array_policy>"); if (j < dims - 1) out.p(" "); } if (i < constructors.get(t).size() - 1) out.p(", "); } out.pln(");"); } out.pln(); out.indent(); out.pln("static __" + name + "* init(__" + name + "*);"); out.pln(); for (t = 0; t < methods.size(); t++) { ClassMethod m = methods.get(t); dims = m.getReturnType().getDimensions(); out.indent(); out.p("static "); for (j = 0; j < dims; j++) { out.p("__rt::Ptr<__rt::Array<"); } out.p(m.getReturnType().getType() + " " + m.getName() + "("); for (j = 0; j < dims; j++) { out.p(">, __rt::array_policy>"); if (j < dims - 1) out.p(" "); } if (!m.isStatic()) { out.p(m.getDefiningClass()); if (m.getParameters().size() > 0) out.p(", "); } for (i = 0; i < m.getParameters().size(); i++) { dims = m.getParameters().get(i).getDimensions(); for (j = 0; j < dims; j++) { out.p("__rt::Ptr<__rt::Array<"); } out.p(m.getParameters().get(i).getType()); for (j = 0; j < dims; j++) { out.p(">, __rt::array_policy>"); if (j < dims - 1) out.p(" "); } if (i < m.getParameters().size() - 1) out.p(", "); } out.pln(");"); } out.pln(); out.indent(); out.pln("static Class __class();"); out.indent(); out.pln("static __" + name + "_VT __vtable;"); out.decr(); out.indent(); out.pln("};"); out.pln(); // Print the vtable out.indent(); out.pln("struct __" + name + "_VT"); out.indent(); out.pln("{"); out.incr(); out.indent(); out.pln("Class __isa;"); out.indent(); out.pln("void (*__delete)(__" + name + "*);"); for (t = 0; t < methods.size(); t++) { ClassMethod m = methods.get(t); if (!m.isStatic()) { dims = m.getReturnType().getDimensions(); out.indent(); for (j = 0; j < dims; j++) { out.p("__rt::Ptr<__rt::Array<"); } out.p(m.getReturnType().getType()); for (j = 0; j < dims; j++) { out.p(">, __rt::array_policy>"); if (j < dims - 1) out.p(" "); } out.p(" (*" + m.getName() + ")"); out.p("("); if (m.getName().equals("getClass")) out.p(name); else out.p(m.getDefiningClass()); if (m.getParameters().size() > 0) out.p(", "); for (i = 0; i < m.getParameters().size(); i++) { out.p(m.getParameters().get(i).getType()); if (i < m.getParameters().size() - 1) out.p(", "); } out.pln(");"); } } out.pln(); out.indent(); out.pln("__" + name + "_VT() :"); out.incr(); out.indent(); out.pln("__isa(__" + name + "::__class()),"); out.indent(); out.p("__delete(__rt::__delete<__" + name + ">)"); for (t = 0; t < methods.size(); t++) { ClassMethod m = methods.get(t); if (!m.isStatic()) { out.pln(","); out.indent(); out.p(m.getName() + "("); if (m.getName().equals("getClass")) out.p("(Class(*)(" + name + "))&__" + m.getDefiningClass() + "::" + m.getName()); else out.p("&__" + m.getDefiningClass() + "::" + m.getName()); out.p(")"); } } out.pln(); out.decr(); out.indent(); out.pln("{"); out.indent(); out.pln("}"); out.decr(); out.indent(); out.pln("};"); out.pln(); // Print internal __class() method out.indent(); out.pln("Class __" + name + "::__class()"); out.indent(); out.pln("{"); out.incr(); out.indent(); out.pln( "static Class k = new __Class(__rt::literal(\"" + name + "\"), __" + superclass + "::__class());"); out.indent(); out.pln("return k;"); out.decr(); out.indent(); out.pln("}"); out.pln(); } int k; for (k = 0; k < children.size(); k++) { children.get(k).print(out); } }
/** * Writes the C++ header for the package to the specified output stream. * * @param out The output stream. * @return The output stream. */ public Printer translateHeader(Printer out) { // Get any imports Set<JavaPackage> using = new HashSet<JavaPackage>(); for (JavaFile file : files) { Set<JavaPackage> imports = file.getImports(); for (JavaPackage i : imports) { if (!i.getPath().equals(getPath())) using.add(i); } } // Include any imported headers out.pln("#pragma once").pln(); out.pln("#include <iostream>"); out.pln("#include <sstream>").pln(); out.pln("#include \"include/java_lang.h\""); for (JavaPackage i : using) { out.p("#include \"").p(i.getFilename()).pln(".h\""); } // Declare namespaces being used out.pln().pln("using namespace java::lang;"); for (JavaPackage i : using) { out.p("using namespace ").p(i.getNamespace()).pln(";"); } out.pln(); // Add the namespace for (String part : pkg) { out.indent().p("namespace ").p(part).pln(" {").incr(); } // Declare the class structs for (JavaFile file : files) { file.orderClasses(); for (JavaClass cls : file.getClasses()) { String className = cls.getName(); out.indent().p("struct __").p(className).pln(";"); out.indent().p("struct __").p(className).pln("_VT;"); out.pln() .indent() .p("typedef __rt::Ptr<__") .p(className) .p("> ") .p(className) .pln(";") .pln(); } } // Print header structs for (JavaFile file : files) { for (JavaClass cls : file.getClasses()) { cls.translateHeader(out).pln(); } } // Close the namespace for (int i = 0; i < pkg.size(); i++) { out.decr().indent().pln("}"); } return out; }