trick/trick_source/codegen/Interface_Code_Gen/FieldDescription.cpp
Alex Lin ce3ae67633 ATTRIBUTES for a member whose type is typedef'd in a template are wrong
I found that in ICG I have access to the canonical type of a variable which
in most cases is the type I should process.  Doing this eliminates the
need for some of the code that resolved typedefs because the canonical type
has already done that.

refs #200
2016-03-16 13:24:59 -05:00

434 lines
14 KiB
C++

#include <iostream>
#include <algorithm>
#include <sstream>
#include <set>
#include <libgen.h>
#include <regex.h>
#include <string.h>
#include "FieldDescription.hh"
#include "Utilities.hh"
// Provides units check capability.
#include "trick/units_conv.h"
FieldDescription::FieldDescription(
std::string in_container_class ,
bool in_access_spec_found ,
bool in_inherited ,
bool in_virtual_inherited ,
unsigned int in_base_class_offset) :
container_class(in_container_class) ,
base_class_offset(in_base_class_offset) ,
access_spec_found(in_access_spec_found) ,
inherited(in_inherited) ,
virtual_inherited(in_virtual_inherited) ,
units("--") ,
line_no(0) ,
io(3) ,
type_enum_string("TRICK_VOID") ,
is_bitfield(0) ,
bitfield_width(0) ,
bitfield_start_bit(0) ,
bitfield_word_offset(0) ,
is_enum(0) ,
is_record(0) ,
is_static(0) ,
num_dims(0) ,
array_sizes() {} ;
std::map<std::string , unsigned int > create_io_map() {
std::map<std::string , unsigned int > io_map ;
io_map[""] = 3 ;
io_map["o"] = 1 ;
io_map["*o"] = 1 ;
io_map["*i"] = 2 ;
io_map["i"] = 2 ;
io_map["*oi"] = 3 ;
io_map["oi"] = 3 ;
io_map["*io"] = 3 ;
io_map["io"] = 3 ;
io_map["**"] = 0 ;
// The "--" is a bad value, but we'll take it for now.
// TODO: Make this an error instead of being nice!
io_map["--"] = 4 ;
return io_map ;
}
std::map<std::string , unsigned int > FieldDescription::io_map = create_io_map() ;
std::string FieldDescription::get_regex_field(std::string input , const char * expr , unsigned int index) {
int ret ;
regex_t reg_expr ;
regmatch_t pmatch[10] ;
memset(pmatch , 0 , sizeof(pmatch)) ;
ret = regcomp( &reg_expr , expr , REG_EXTENDED ) ;
//std::cout << "regcomp ret = " << ret << std::endl ;
ret = regexec( &reg_expr , input.c_str() , 10 , pmatch , 0 ) ;
//std::cout << "regexec ret = " << ret << std::endl ;
regfree(&reg_expr) ;
if ( ret == 0 ) {
//std::cout << "pmatch range = " << pmatch[index].rm_so << " " << pmatch[index].rm_eo << std::endl ;
if ( pmatch[index].rm_so != -1 ) {
return input.substr(pmatch[index].rm_so , pmatch[index].rm_eo - pmatch[index].rm_so ) ;
}
} else {
//char error_msg[1024] ;
//regerror( ret , &reg_expr , (char *)error_msg , 1024 ) ;
//std::cout << error_msg << std::endl ;
}
return std::string() ;
}
// global set of all units processed. hopefully saves time from reparsing same units strings over and over
std::set< std::string > valid_units ;
void FieldDescription::parseComment(std::string comment) {
std::string ret_str ;
bool units_found = false ;
bool io_found = false ;
bool chkpnt_io_found = false ;
unsigned int chkpnt_io ;
if ( comment.empty() ) {
// If the comment is empty default all I/O enabled.
io = 15 ;
return ;
}
//std::cout << "comment before " << comment << std::endl ;
// remove open comment chars
comment = get_regex_field(comment , "^(//|/\\*)(.*)" , 2) ;
//std::cout << "1. " << comment << std::endl ;
// remove optional doxygen comment chars
// Note: I had to use [ \t\n\r] for \s because the Mac don't understand!
comment = get_regex_field(comment , "^((\\*|!)<)?[ \t\n\r]*(.*)" , 3) ;
//std::cout << "2. " << comment << std::endl ;
// remove optional doxygen keyword
comment = get_regex_field(comment , "(\\\\\\w+[ \t\n\r]*)?(.*)" , 2) ;
//std::cout << "3. " << comment << std::endl ;
ret_str = get_regex_field(comment , "@?trick_chkpnt_io[\\({]([^\\)}]+)[\\)}]" , 1) ;
if ( ! ret_str.empty()) {
chkpnt_io = io_map[ret_str] ;
//std::cout << "go for trick_chkpnt_io " << io << std::endl ;
chkpnt_io_found = true ;
comment = get_regex_field(comment , "(.*)@?trick_chkpnt_io[\\({]([^\\)}]+)[\\)}]" , 1) +
get_regex_field(comment , "@?trick_chkpnt_io[\\({]([^\\)}]+)[\\)}](.*)" , 2) ;
}
ret_str = get_regex_field(comment , "@?trick_io[\\({]([^\\)}]+)[\\)}]" , 1) ;
if ( ! ret_str.empty()) {
io = io_map[ret_str] ;
//std::cout << "go for trick_io " << io << std::endl ;
io_found = true ;
comment = get_regex_field(comment , "(.*)@?trick_io[\\({]([^\\)}]+)[\\)}]" , 1) +
get_regex_field(comment , "@?trick_io[\\({]([^\\)}]+)[\\)}](.*)" , 2) ;
}
//std::cout << "4. " << comment << std::endl ;
ret_str = get_regex_field(comment , "@?trick_units[\\({]([^\\)}]+)[\\)}]" , 1) ;
if ( ! ret_str.empty()) {
units = ret_str ;
//std::cout << "go for trick_units " << units << std::endl ;
units_found = true ;
comment = get_regex_field(comment , "(.*)@?trick_units[\\({]([^\\)}]+)[\\)}]" , 1) +
get_regex_field(comment , "@?trick_units[\\({]([^\\)}]+)[\\)}](.*)" , 2) ;
}
if ( ! io_found ) {
// Note: I had to use [ \t\n\r] for \s because the Mac don't understand!
ret_str = get_regex_field(comment , "^[ \t\n\r]*(\\*io|\\*oi|\\*i|\\*o|\\*\\*)" , 1) ;
//std::cout << "3. " << ret_str << std::endl ;
if ( ! ret_str.empty()) {
io = io_map[ret_str] ;
//std::cout << "stand-alone io " << io << std::endl ;
io_found = true ;
comment = get_regex_field(comment , "^[ \t\n\r]*(\\*io|\\*oi|\\*i|\\*o|\\*\\*)[ \t\n\r]*(.*)" , 2) ;
}
}
//std::cout << "3. " << comment << std::endl ;
if ( ! units_found ) {
ret_str = get_regex_field(comment , "^[ \t\n\r]*\\(([^\\)]*)\\)" , 1) ;
if ( ! ret_str.empty()) {
units = ret_str ;
//std::cout << "stand-alone units " << units << std::endl ;
units_found = true ;
comment = get_regex_field(comment , "^[ \t\n\r]*\\(([^\\)]*)\\)(.*)" , 2) ;
} else {
ret_str = get_regex_field(comment , "^[ \t\n\r]*([^ \t\n\r)]*)" , 1) ;
if ( ! ret_str.empty()) {
units = ret_str ;
//std::cout << "stand-alone units " << units << " " << comment << std::endl ;
units_found = true ;
comment = get_regex_field(comment , "^[ \t\n\r]*([^ \t\n\r)]*)(.*)" , 2) ;
}
}
}
// Test if we have valid units. We need to have found a units string and an io spec not zero
// Possible todo is to create a map of valid units so we don't have to retest each string.
if ( units_found and io != 0 and (valid_units.find(units) == valid_units.end())) {
Units_t * test_units = new_units(units.c_str()) ;
if ( test_units == NULL ) {
// If the units are invalid write an error message and change the units to "--"
std::cout << "\033[31mBad units specification (" << units << "): " << file_name << ":" << line_no
<< "\033[0m" << std::endl ;
units = "--" ;
} else {
// If the units are valid, free the memory allocated by new_units.
CONV_FREE(test_units) ;
valid_units.insert(units) ;
}
}
if ( io == 4 ) {
std::cout << "\033[33mWarning: " << file_name << ": line " << line_no << ": " <<
"\"--\" is not a valid trick_io value. Setting to *io (3)\033[0m" << std::endl ;
io = 3 ;
}
if ( chkpnt_io_found == true ) {
// If a checkpoint I/O spec is found add it to the io field.
io |= (chkpnt_io << 2 ) ;
} else {
// else duplicated the io field to the chkpnt io field.
io |= (io << 2 ) ;
}
// The rest of the comment is the description of the variable.
// remove the c comment end marker.
comment = get_regex_field(comment , "(.*)\\*/" , 1) ;
// posix c regular expressions are terrible. the regexes above will leave "@" signs because
// the regular expressions are so greedy.
comment = get_regex_field(comment , "^[ \t\n\r@]+(.*)" , 1) ;
// remove leading and trailing whitespace
comment = trim(comment) ;
// escape special characters, convert tabs and newlines to spaces, remove multiple spaces.
std::ostringstream ss ;
bool is_space = false ;
for (std::string::iterator it = comment.begin(); it != comment.end(); it++) {
switch (*it) {
case '\\': ss << "\\\\"; is_space = false ; break;
case '"': ss << "\\\""; is_space = false ; break;
case '\b': ss << "\\b"; is_space = false ; break;
case '\f': ss << "\\f"; is_space = false ; break;
case '\n':
case '\r':
case '\t':
case ' ': if ( ! is_space ) ss << " "; is_space = true ; break;
default: ss << *it; is_space = false ; break;
}
}
description = ss.str() ;
}
std::string FieldDescription::getContainerClass() {
return container_class ;
}
void FieldDescription::setContainerClass(std::string in_name ) {
container_class = in_name ;
}
unsigned int FieldDescription::getBaseClassOffset() {
return base_class_offset ;
}
void FieldDescription::setTypeName( std::string in_val ) {
type_name = in_val ;
}
std::string FieldDescription::getTypeName() {
return type_name ;
}
void FieldDescription::setLineNo( unsigned int in_val ) {
line_no = in_val ;
}
unsigned int FieldDescription::getLineNo() {
return line_no ;
}
void FieldDescription::setMangledTypeName( std::string in_val ) {
mangled_type_name = in_val ;
}
std::string FieldDescription::getMangledTypeName() {
if ( mangled_type_name.empty() ) {
return type_name ;
}
return mangled_type_name ;
}
std::string FieldDescription::getUnits() {
return units ;
}
void FieldDescription::setIO(unsigned int in_io) {
io = in_io ;
}
unsigned int FieldDescription::getIO() {
return io ;
}
std::string FieldDescription::getDescription() {
return description ;
}
bool FieldDescription::getAccessSpecFound() {
return access_spec_found ;
}
bool FieldDescription::isInherited() {
return inherited ;
}
bool FieldDescription::isVirtualInherited() {
return virtual_inherited ;
}
void FieldDescription::setAccess( clang::AccessSpecifier in_val ) {
access = in_val ;
}
clang::AccessSpecifier FieldDescription::getAccess() {
return access ;
}
void FieldDescription::setEnumString(std::string in_str) {
type_enum_string = in_str ;
}
std::string FieldDescription::getEnumString() {
return type_enum_string ;
}
void FieldDescription::setBitField(bool yes_no) {
is_bitfield = yes_no ;
}
bool FieldDescription::isBitField() {
return is_bitfield ;
}
void FieldDescription::setBitFieldWidth(unsigned int len) {
bitfield_width = len ;
}
void FieldDescription::setBitFieldStart(unsigned int sb) {
bitfield_start_bit = sb ;
}
void FieldDescription::setBitFieldByteOffset(unsigned int wo) {
bitfield_word_offset = wo ;
}
unsigned int FieldDescription::getBitFieldWidth() {
return bitfield_width ;
}
unsigned int FieldDescription::getBitFieldStart() {
return bitfield_start_bit ;
}
unsigned int FieldDescription::getBitFieldByteOffset() {
return bitfield_word_offset ;
}
void FieldDescription::setEnum(bool yes_no) {
is_enum = yes_no ;
}
bool FieldDescription::isEnum() {
return is_enum ;
}
void FieldDescription::setRecord(bool yes_no) {
is_record = yes_no ;
}
bool FieldDescription::isRecord() {
return is_record ;
}
void FieldDescription::setStatic(bool yes_no) {
is_static = yes_no ;
}
bool FieldDescription::isStatic() {
return is_static ;
}
unsigned int FieldDescription::getNumDims() {
return num_dims ;
}
int FieldDescription::getArrayDim(unsigned int dim_num) {
if ( dim_num < 8 ) {
return array_sizes[dim_num] ;
}
return 0 ;
}
void FieldDescription::addArrayDim( int in_dim ) {
array_sizes[num_dims++] = in_dim ;
}
std::ostream & operator << (std::ostream & os , FieldDescription & fdes ) {
os << " name = " << fdes.name << std::endl ;
os << " file_name = " << fdes.file_name << std::endl ;
os << " namespaces =" ;
ConstructValues::NamespaceIterator it ;
for ( it = fdes.namespace_begin() ; it != fdes.namespace_end() ; it++ ) {
os << " " << *it ;
}
os << std::endl ;
os << " parent classes =" ;
for ( it = fdes.container_class_begin() ; it != fdes.container_class_end() ; it++ ) {
os << " " << *it ;
}
os << std::endl ;
os << " line_no = " << fdes.line_no << std::endl ;
os << " container_class = " << fdes.container_class << std::endl ;
os << " type_name = " << fdes.type_name << std::endl ;
os << " mangled_type_name = " << fdes.mangled_type_name << std::endl ;
os << " type_enum_string = " << fdes.type_enum_string << std::endl ;
os << " units = " << fdes.units << std::endl ;
os << " io = " << fdes.io << std::endl ;
os << " description = " << fdes.description << std::endl ;
os << " access = " << fdes.access << std::endl ;
os << " access_spec_found = " << fdes.access_spec_found << std::endl ;
os << " is_bitfield = " << fdes.is_bitfield << std::endl ;
os << " bitfield_width = " << fdes.bitfield_width << std::endl ;
os << " bitfield_start_bit = " << fdes.bitfield_start_bit << std::endl ;
os << " bitfield_word_offset = " << fdes.bitfield_word_offset << std::endl ;
os << " num_dims = " << fdes.num_dims << std::endl ;
os << " array_sizes =" ;
for( unsigned int ii = 0 ; ii < 8 ; ii++ ) {
os << " " << fdes.array_sizes[ii] ;
}
os << std::endl ;
os << " is_enum = " << fdes.is_enum << std::endl ;
os << " is_record = " << fdes.is_record << std::endl ;
os << " is_static = " << fdes.is_static << std::endl ;
return os ;
}