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symboltable.cpp
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symboltable.cpp
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#include "vm/symboltable.hpp"
#include "vm/exception.hpp"
#include "builtin/array.hpp"
#include "builtin/exception.hpp"
#include "builtin/string.hpp"
#include "builtin/symbol.hpp"
namespace rubinius {
SymbolTable::Kind SymbolTable::detect_kind(const char* str, int size) {
const char one = str[0];
// A constant begins with an uppercase letter.
if(one >= 'A' && one <= 'Z') {
// Make sure that the rest of it is only alphanumerics
for(int i = 1; i < size; i++) {
if((isalnum(str[i]) || str[i] == '_') == false)
return SymbolTable::Normal;
}
return SymbolTable::Constant;
}
if(one == '@' && size > 1) {
// A class variable begins with @@
if(str[1] == '@') {
if(size > 2) {
return SymbolTable::CVar;
} else {
return SymbolTable::Normal;
}
}
// An instance variable begins with @
return SymbolTable::IVar;
}
// A system variable begins with __
if(size > 2 && one == '_' && str[1] == '_') {
return SymbolTable::System;
}
// Everything else is normal
return SymbolTable::Normal;
}
SymbolTable::Kind SymbolTable::kind(STATE, const Symbol* sym) {
return kinds[sym->index()];
}
size_t SymbolTable::add(std::string str) {
strings.push_back(str);
kinds.push_back(detect_kind(str.c_str(), str.size()));
return strings.size() - 1;
}
Symbol* SymbolTable::lookup(STATE, const char* str) {
Symbol* sym = lookup(str);
if(!sym) {
Exception::argument_error(state, "Cannot create a symbol from an empty string");
return NULL;
}
return sym;
}
Symbol* SymbolTable::lookup(const char* str) {
size_t sym;
if(*str == 0) return NULL;
hashval hash = String::hash_str(str);
// Symbols can be looked up by multiple threads at the same time.
// This is fast operation, so we protect this with a spinlock.
{
thread::SpinLock::LockGuard guard(lock_);
SymbolMap::iterator entry = symbols.find(hash);
if(entry == symbols.end()) {
sym = add(std::string(str));
SymbolIds v(1, sym);
symbols[hash] = v;
} else {
SymbolIds& v = entry->second;
for(SymbolIds::iterator i = v.begin(); i != v.end(); i++) {
std::string& s = strings[*i];
if(!strcmp(s.c_str(), str)) return Symbol::from_index(*i);
}
sym = add(std::string(str));
v.push_back(sym);
}
}
return Symbol::from_index(sym);
}
Symbol* SymbolTable::lookup(STATE, String* str) {
if(str->nil_p()) {
Exception::argument_error(state, "Cannot look up Symbol from nil");
return NULL;
}
const char* bytes = str->c_str();
for(size_t i = 0; i < str->size(); i++) {
if(bytes[i] == 0) {
Exception::argument_error(state,
"cannot create a symbol from a string containing `\\0'");
return NULL;
}
}
return lookup(state, bytes);
}
String* SymbolTable::lookup_string(STATE, const Symbol* sym) {
if(sym->nil_p()) {
Exception::argument_error(state, "Cannot look up Symbol from nil");
return NULL;
}
std::string& str = strings[sym->index()];
return String::create(state, str.c_str());
}
const char* SymbolTable::lookup_cstring(STATE, const Symbol* sym) {
if(sym->nil_p()) {
Exception::argument_error(state, "Cannot look up Symbol from nil");
return NULL;
}
std::string& str = strings[sym->index()];
return str.c_str();
}
const char* SymbolTable::lookup_cstring(const Symbol* sym) {
std::string& str = strings[sym->index()];
return str.c_str();
}
size_t SymbolTable::size() {
return strings.size();
}
Array* SymbolTable::all_as_array(STATE) {
size_t idx = 0;
Array* ary = Array::create(state, this->size());
for(SymbolMap::iterator s = symbols.begin(); s != symbols.end(); s++) {
for(SymbolIds::iterator i = s->second.begin(); i != s->second.end(); i++) {
ary->set(state, idx++, (Object*)Symbol::from_index(state, *i));
}
}
return ary;
}
}