trick/trick_source/codegen/Interface_Code_Gen/PrintFileContents10.cpp

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#include <sstream>
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#include "PrintFileContents10.hh"
#include "FieldDescription.hh"
#include "ClassValues.hh"
#include "EnumValues.hh"
#include "Utilities.hh"
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extern llvm::cl::opt< bool > global_compat15 ;
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PrintFileContents10::PrintFileContents10() {}
/** Prints the io_src header information */
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void PrintFileContents10::printIOHeader(std::ostream & ostream , std::string header_file_name) {
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if ( ! header_file_name.compare("S_source.hh") ) {
header_file_name = "../S_source.hh" ;
} else {
header_file_name = almostRealPath(header_file_name.c_str()) ;
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}
ostream << "/**\n"
<< " * This file was automatically generated by the ICG based on the file:\n"
<< " * " << header_file_name << "\n"
<< " * This file contains database parameter declarations specific to the\n"
<< " * data structures and enumerated types declared in the above file.\n"
<< " * These database parameters are used by the Trick input and\n"
<< " * data recording processors to gain access to important simulation\n"
<< " * variable information.\n"
<< " */\n"
<< "\n"
<< "#define TRICK_IN_IOSRC\n"
<< "#include <stdlib.h>\n"
<< "#include \"trick/MemoryManager.hh\"\n"
<< "#include \"trick/attributes.h\"\n"
<< "#include \"trick/parameter_types.h\"\n"
<< "#include \"trick/ClassSizeCheck.hh\"\n"
<< "#include \"trick/UnitsMap.hh\"\n"
<< "#include \"trick/checkpoint_stl.hh\"\n"
<< "#include \"" << header_file_name << "\"\n"
<< "\n" ;
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}
/** Prints enumeration attributes */
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void PrintFileContents10::print_enum_attr(std::ostream & ostream , EnumValues * e ) {
print_open_extern_c(ostream) ;
ostream << "ENUM_ATTR enum" << e->getFullyQualifiedTypeName("__") << "[] = {\n" ;
std::string name = e->getNamespacesAndContainerClasses();
for (auto& pair : e->getPairs()) {
ostream << "{\"" << name << pair.first << "\", " << pair.second << ", 0x0},\n" ;
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}
ostream << "{\"\", 0, 0x0}\n};\n" ;
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print_close_extern_c(ostream) ;
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}
/** Prints attributes for a field */
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void PrintFileContents10::print_field_attr(std::ostream & ostream , FieldDescription * fdes ) {
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int array_dim ;
ostream << "{\"" << fdes->getName() << "\"" // name
<< ", \"" << fdes->getFullyQualifiedMangledTypeName("__") << "\"" // type_name
<< ", \"" << fdes->getUnits() << "\"" // units
<< ", \"\", \"\"," << std::endl // alias, user_defined
<< " \"" << fdes->getDescription() << "\"," << std::endl // description
<< " " << fdes->getIO() // io
<< "," << fdes->getEnumString() ; // type
// There are several cases when printing the size of a variable.
if ( fdes->isBitField() ) {
// bitfields are handled in 4 byte (32 bit) chunks
ostream << ", 4" ;
} else if ( fdes->isRecord() or fdes->isEnum() or fdes->getTypeName().empty() ) {
// records enums use io_src_get_size. The sentinel has no typename
ostream << ", 0" ;
} else {
// print size of the underlying type
ostream << ", sizeof(" << fdes->getTypeName() << ")" ;
}
ostream << ", 0, 0, Language_CPP" ; // range_min, range_max, language
ostream << ", " << (fdes->isStatic() << 1) + (fdes->isDashDashUnits() << 2) << "," << std::endl ; // mods
if ( fdes->isBitField() ) {
// For bitfields we need the offset to start on 4 byte boundaries because that is what our
// insert and extract bitfield routines work with.
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ostream << " " << (fdes->getFieldOffset() - (fdes->getFieldOffset() % 32)) / 8 ; // offset
} else {
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ostream << " " << (fdes->getFieldOffset() / 8) ; // offset
}
ostream << ", NULL" ; // attr
ostream << ", " << fdes->getNumDims() ; // num_index
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ostream << ", {" ;
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if ( fdes->isBitField() ) {
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ostream << "{" << fdes->getBitFieldWidth() ; // size of bitfield
ostream << ", " << 32 - (fdes->getFieldOffset() % 32) - fdes->getBitFieldWidth() << "}" ; // start bit
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} else {
array_dim = fdes->getArrayDim(0) ;
if ( array_dim < 0 ) array_dim = 0 ;
ostream << "{" << array_dim << ", 0}" ; // index 0
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}
unsigned int ii ;
for ( ii = 1 ; ii < 8 ; ii++ ) {
array_dim = fdes->getArrayDim(ii) ;
if ( array_dim < 0 ) array_dim = 0 ;
ostream << ", {" << array_dim << ", 0}" ; // indexes 1 through 7
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}
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ostream << "}," << std::endl ;
ostream << " NULL, NULL, NULL, NULL" ;
ostream << "}" ;
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}
/** Prints class attributes */
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void PrintFileContents10::print_class_attr(std::ostream & ostream , ClassValues * c ) {
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print_open_extern_c(ostream) ;
ostream << "ATTRIBUTES attr" << c->getFullyQualifiedMangledTypeName("__") << "[] = {" << std::endl ;
for (auto& fieldDescription : c->getFieldDescriptions()) {
if ( determinePrintAttr(c , fieldDescription) ) {
print_field_attr(ostream, fieldDescription) ;
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ostream << "," << std::endl ;
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}
}
// Print an empty sentinel attribute at the end of the class.
FieldDescription * new_fdes = new FieldDescription(std::string("")) ;
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print_field_attr(ostream, new_fdes) ;
ostream << " };" << std::endl ;
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delete new_fdes ;
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print_close_extern_c(ostream) ;
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}
/** Prints init_attr function for each class */
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void PrintFileContents10::print_field_init_attr_stmts( std::ostream & ostream , FieldDescription * fdes ,
ClassValues * cv , unsigned int index ) {
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const std::string className = cv->getName();
const std::string mangledClassName = cv->getMangledTypeName();
const std::string fieldName = fdes->getName();
const std::string fullyQualifiedClassNameColons = cv->getFullyQualifiedTypeName();
const std::string fullyQualifiedMangledClassNameColons = cv->getFullyQualifiedMangledTypeName();
const std::string fullyQualifiedMangledClassNameUnderscores = cv->getFullyQualifiedMangledTypeName("__");
std::ostringstream oss;
oss << " attr" << fullyQualifiedMangledClassNameUnderscores << "[" << index << "].";
const std::string prefix = oss.str();
if ( fdes->isStatic() ) {
ostream << prefix << "offset = (long)(void *)&" << fullyQualifiedClassNameColons << "::" << fieldName << " ;\n" ;
}
else if ( global_compat15 or cv->isCompat15() ) {
if ( fdes->isBitField() ) {
ostream << prefix << "offset = " << fdes->getBitFieldByteOffset() << " ;\n" ;
ostream << prefix << "size = sizeof(unsigned int) ;\n" ;
}
else if ( fdes->isVirtualInherited() ) {
ostream << prefix << "offset = " << fdes->getBaseClassOffset() << " + offsetof(" << fdes->getContainerClass() << ", " << fieldName << ") ;\n" ;
}
else if ( mangledClassName != className ) {
ostream << prefix << "offset = " << "offsetof(" << mangledClassName << ", " << fieldName << ") ;\n" ;
}
else {
ostream << prefix << "offset = " << "offsetof(" << fullyQualifiedMangledClassNameColons << ", " << fieldName << ") ;\n" ;
}
}
if ( fdes->isSTL() ) {
auto print = [&](const std::string& field) {
ostream << prefix << field << " = " << field << "_" << fullyQualifiedMangledClassNameUnderscores + "_" + fieldName + " ;\n";
};
if ( fdes->isCheckpointable() ) {
print("checkpoint_stl");
print("post_checkpoint_stl");
}
if ( fdes->isRestorable() ) {
print("restore_stl");
if ( fdes->hasSTLClear() ) {
print("clear_stl");
}
}
}
if ( fdes->isRecord() or fdes->isEnum() ) {
ostream << " trick_MM->add_attr_info(std::string(attr" << fullyQualifiedMangledClassNameUnderscores << "[" << index << "].type_name) , &attr" << fullyQualifiedMangledClassNameUnderscores << "[" << index << "], __FILE__ , __LINE__ ) ;\n" ;
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}
}
/** Prints add_attr_info statements for each inherited class */
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void PrintFileContents10::print_inherited_add_attr_info( std::ostream & ostream , ClassValues * cv ) {
auto inheritedClasses = cv->getInheritedClasses();
if ( inheritedClasses.size() > 0 ) {
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ostream << "\n ATTRIBUTES temp_attr ;\n\n" ;
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}
for ( auto& inheritedClass : inheritedClasses ) {
ostream << " trick_MM->add_attr_info( std::string(\"" << inheritedClass << "\"), &temp_attr , __FILE__ , __LINE__ ) ;\n" ;
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}
}
/** Prints init_attr function for each class */
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void PrintFileContents10::print_init_attr_func( std::ostream & ostream , ClassValues * cv ) {
cv->printOpenNamespaceBlocks(ostream) ;
ostream << "\nvoid init_attr" << cv->getFullyQualifiedMangledTypeName("__") << "() {\n\n"
<< " static int initialized ;\n"
<< " if (initialized) {\n"
<< " return;\n"
<< " }\n"
<< " initialized = 1;\n\n" ;
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unsigned int ii = 0;
for ( auto field : cv->getFieldDescriptions() ) {
if ( determinePrintAttr(cv, field) ) {
print_field_init_attr_stmts(ostream, field, cv, ii++) ;
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}
}
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print_inherited_add_attr_info(ostream, cv ) ;
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ostream << "}\n" ;
cv->printCloseNamespaceBlocks(ostream) ;
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}
/** Prints the io_src_sizeof function for enumerations */
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void PrintFileContents10::print_enum_io_src_sizeof( std::ostream & ostream , EnumValues * ev ) {
print_open_extern_c(ostream) ;
ostream << "size_t io_src_sizeof_" << ev->getFullyQualifiedName("__") << "( void ) {\n" ;
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if ( ev->getHasDefinition() ) {
ostream << " return sizeof(" << ev->getFullyQualifiedName() << ")" ;
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} else {
ostream << " return sizeof(int)" ;
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}
ostream << ";\n}\n" ;
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print_close_extern_c(ostream) ;
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}
/** Prints the C linkage init_attr function */
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void PrintFileContents10::print_init_attr_c_intf( std::ostream & ostream , ClassValues * cv ) {
ostream << "void init_attr" << cv->getFullyQualifiedMangledTypeName("__") << "_c_intf() {\n " ;
cv->printNamespaces( ostream, "::" ) ;
ostream << "init_attr" << cv->getFullyQualifiedMangledTypeName("__") << "() ;\n"
<< "}\n\n" ;
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}
/** Prints the io_src_sizeof function */
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void PrintFileContents10::print_io_src_sizeof( std::ostream & ostream , ClassValues * cv ) {
ostream << "size_t io_src_sizeof_" << cv->getFullyQualifiedMangledTypeName("__") << "() {\n" ;
ostream << " return sizeof(" << cv->getFullyQualifiedNameIfEqual() << ") ;\n}\n\n" ;
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}
/** Prints the io_src_allocate function */
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void PrintFileContents10::print_io_src_allocate( std::ostream & ostream , ClassValues * cv ) {
if ( cv->isPOD() or ( !cv->isAbstract() and cv->getHasDefaultConstructor()) ) {
const std::string name = cv->getFullyQualifiedNameIfEqual();
ostream << "void* io_src_allocate_" << cv->getFullyQualifiedMangledTypeName("__") << "(int num) {\n" ;
ostream << " " << name << "* temp = (" << name << "*)calloc(num, sizeof(" << name << "));\n" ;
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if ( ! cv->isPOD() ) {
ostream << " for (int ii = 0; ii < num; ++ii) {\n" ;
ostream << " new(&temp[ii]) " << name << "();\n }\n" ;
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}
ostream << " return (void*)temp;\n" << "}\n\n" ;
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}
}
/** Prints the io_src_allocate function */
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void PrintFileContents10::print_io_src_destruct( std::ostream & ostream , ClassValues * cv ) {
if ( cv->getHasPublicDestructor() ) {
ostream << "void io_src_destruct_" << cv->getFullyQualifiedMangledTypeName("__") << "(void* address __attribute__((unused)), int num __attribute__((unused))) {\n" ;
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if ( ! cv->isPOD() ) {
// Add a using statement so we can call the destructor without fully qualifying it.
auto namespaces = cv->getNamespaces();
if (namespaces.size()) {
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ostream << " using namespace " ;
auto last = namespaces[namespaces.size() - 1];
for (auto& name : namespaces) {
ostream << name;
if (name != last) {
ostream << "::";
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}
}
ostream << ";\n " ;
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}
const std::string name = cv->getName();
const std::string qualifiedName = cv->getFullyQualifiedNameIfEqual();
ostream << qualifiedName << "* temp = (" << qualifiedName << "*)address;\n" ;
if ( cv->getMangledTypeName() == name ) {
ostream << " for (int ii = 0; ii < num; ++ii) {\n"
<< " temp[ii].~" << name << "();\n"
<< " }\n" ;
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}
}
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ostream << "}\n\n" ;
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}
}
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void PrintFileContents10::print_io_src_delete( std::ostream & ostream , ClassValues * cv ) {
if ( cv->getHasPublicDestructor() ) {
ostream << "void io_src_delete_" << cv->getFullyQualifiedMangledTypeName("__") << "(void* address" ;
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if ( ! cv->isPOD() ) {
ostream << ") {\n delete (" << cv->getFullyQualifiedNameIfEqual() << "*)address;\n" ;
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}
else {
ostream << " __attribute__((unused))) {" ;
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}
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ostream << "}\n" ;
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}
}
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void PrintFileContents10::print_checkpoint_stl(std::ostream & ostream , FieldDescription * fdes , ClassValues * cv ) {
printStlFunction("checkpoint", "void* start_address, const char* obj_name , const char* var_name", "checkpoint_stl(*stl, obj_name, var_name)", ostream, *fdes, *cv);
}
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void PrintFileContents10::print_post_checkpoint_stl(std::ostream & ostream , FieldDescription * fdes , ClassValues * cv ) {
printStlFunction("post_checkpoint", "void* start_address, const char* obj_name , const char* var_name", "delete_stl(*stl, obj_name, var_name)", ostream, *fdes, *cv);
}
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void PrintFileContents10::print_restore_stl(std::ostream & ostream , FieldDescription * fdes , ClassValues * cv ) {
printStlFunction("restore", "void* start_address, const char* obj_name , const char* var_name", "restore_stl(*stl, obj_name, var_name)",ostream, *fdes, *cv);
}
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void PrintFileContents10::print_clear_stl(std::ostream & ostream , FieldDescription * fdes , ClassValues * cv ) {
printStlFunction("clear", "void* start_address", "stl->clear()",ostream, *fdes, *cv);
}
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void PrintFileContents10::print_stl_helper(std::ostream & ostream , ClassValues * cv ) {
auto& fieldDescriptions = cv->getFieldDescriptions();
if (!fieldDescriptions.size()) {
return;
}
print_open_extern_c(ostream) ;
for (auto& field : fieldDescriptions) {
if ( field->isSTL() and determinePrintAttr(cv, field) ) {
if (field->isCheckpointable()) {
print_checkpoint_stl(ostream, field, cv) ;
print_post_checkpoint_stl(ostream, field, cv) ;
}
if (field->isRestorable()) {
print_restore_stl(ostream, field, cv) ;
if (field->hasSTLClear()) {
print_clear_stl(ostream, field, cv) ;
}
}
}
}
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print_close_extern_c(ostream) ;
}
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void PrintFileContents10::printClass( std::ostream & ostream , ClassValues * cv ) {
print_class_attr(ostream, cv) ;
print_stl_helper(ostream, cv) ;
print_init_attr_func(ostream, cv) ;
ostream << std::endl;
print_open_extern_c(ostream) ;
print_init_attr_c_intf(ostream, cv) ;
print_io_src_sizeof(ostream, cv) ;
print_io_src_allocate(ostream, cv) ;
print_io_src_destruct(ostream, cv) ;
print_io_src_delete(ostream, cv) ;
print_close_extern_c(ostream) ;
print_units_map(ostream, cv) ;
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}
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void PrintFileContents10::printEnum( std::ostream & ostream , EnumValues * ev ) {
print_enum_attr(ostream, ev) ;
print_enum_io_src_sizeof(ostream, ev) ;
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}
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void PrintFileContents10::printClassMapHeader( std::ostream & ostream , std::string function_name ) {
ostream <<
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"/*\n"
" * This file was automatically generated by the ICG\n"
" * This file contains the map from class/struct names to attributes\n"
" */\n\n"
"#include <map>\n"
"#include <string>\n\n"
"#include \"trick/AttributesMap.hh\"\n"
"#include \"trick/EnumAttributesMap.hh\"\n"
"#include \"trick/attributes.h\"\n\n"
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"void " << function_name << "() {\n\n"
" Trick::AttributesMap * class_attribute_map = Trick::AttributesMap::attributes_map();\n\n" ;
}
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void PrintFileContents10::printClassMap( std::ostream & ostream , ClassValues * cv ) {
std::string name = cv->getFullyQualifiedMangledTypeName("__");
ostream << " // " << cv->getFileName() << std::endl
<< " extern ATTRIBUTES attr" << name << "[] ;" << std::endl
<< " class_attribute_map->add_attr(\"" << cv->getFullyQualifiedMangledTypeName() << "\" , attr" << name << ") ;" << std::endl ;
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}
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void PrintFileContents10::printClassMapFooter( std::ostream & ostream ) {
ostream << "}" << std::endl << std::endl ;
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}
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void PrintFileContents10::printEnumMapHeader( std::ostream & ostream , std::string function_name ) {
ostream << "void " << function_name << "() {\n"
<< " Trick::EnumAttributesMap* enum_attribute_map __attribute__((unused)) = Trick::EnumAttributesMap::attributes_map();\n\n" ;
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}
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void PrintFileContents10::printEnumMap( std::ostream & ostream , EnumValues * ev ) {
std::string name = ev->getFullyQualifiedTypeName("__");
ostream << " extern ENUM_ATTR enum" << name << "[];" << std::endl
<< " enum_attribute_map->add_attr(\"" << ev->getFullyQualifiedTypeName() << "\", enum" << name << ");" << std::endl ;
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}
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void PrintFileContents10::printEnumMapFooter( std::ostream & ostream ) {
ostream << "}" << std::endl << std::endl ;
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}
void PrintFileContents10::printStlFunction(const std::string& name, const std::string& parameters, const std::string& call, std::ostream& ostream, FieldDescription& fieldDescription, ClassValues& classValues) {
const std::string typeName = fieldDescription.getTypeName();
const std::string functionName = name + "_stl";
ostream << "void " << functionName << "_" << classValues.getFullyQualifiedMangledTypeName("__") << "_" << fieldDescription.getName()
<< "(" << parameters << ") {" << std::endl
<< " " << typeName << "* stl = reinterpret_cast<" << typeName << "*>(start_address);" << std::endl
<< " " << call << ";" << std::endl
<< "}" << std::endl ;
}