Beispiel #1
0
bool PycDict::isEqual(PycRef<PycObject> obj) const
{
    if (type() != obj->type())
        return false;

    PycRef<PycDict> dictObj = obj.cast<PycDict>();
    if (m_size != dictObj->m_size)
        return false;

    key_t::const_iterator ki1 = m_keys.begin();
    key_t::const_iterator ki2 = dictObj->m_keys.begin();
    while (ki1 != m_keys.end()) {
        if (!(*ki1)->isEqual(*ki2))
            return false;
        ++ki1, ++ki2;
    }

    value_t::const_iterator vi1 = m_values.begin();
    value_t::const_iterator vi2 = dictObj->m_values.begin();
    while (vi1 != m_values.end()) {
        if (!(*vi1)->isEqual(*vi2))
            return false;
        ++vi1, ++vi2;
    }
    return true;
}
Beispiel #2
0
bool PycList::isEqual(PycRef<PycObject> obj) const
{
    if (type() != obj->type())
        return false;

    PycRef<PycList> listObj = obj.cast<PycList>();
    if (m_size != listObj->m_size)
        return false;
    value_t::const_iterator it1 = m_values.begin();
    value_t::const_iterator it2 = listObj->m_values.begin();
    while (it1 != m_values.end()) {
        if (!(*it1)->isEqual(*it2))
            return false;
        ++it1, ++it2;
    }
    return true;
}
Beispiel #3
0
void print_const(PycRef<PycObject> obj, PycModule* mod)
{
    switch (obj->type()) {
    case PycObject::TYPE_STRING:
    case PycObject::TYPE_STRINGREF:
    case PycObject::TYPE_INTERNED:
        OutputString(obj.cast<PycString>(), (mod->majorVer() == 3) ? 'b' : 0);
        break;
    case PycObject::TYPE_UNICODE:
        OutputString(obj.cast<PycString>(), (mod->majorVer() == 3) ? 0 : 'u');
        break;
    case PycObject::TYPE_TUPLE:
        {
            fprintf(pyc_output, "(");
            PycTuple::value_t values = obj.cast<PycTuple>()->values();
            PycTuple::value_t::const_iterator it = values.begin();
            if (it != values.end()) {
                print_const(*it, mod);
                while (++it != values.end()) {
                    fprintf(pyc_output, ", ");
                    print_const(*it, mod);
                }
            }
            if (values.size() == 1)
                fprintf(pyc_output, ",)");
            else
                fprintf(pyc_output, ")");
        }
        break;
    case PycObject::TYPE_LIST:
        {
            fprintf(pyc_output, "[");
            PycList::value_t values = obj.cast<PycList>()->values();
            PycList::value_t::const_iterator it = values.begin();
            if (it != values.end()) {
                print_const(*it, mod);
                while (++it != values.end()) {
                    fprintf(pyc_output, ", ");
                    print_const(*it, mod);
                }
            }
            fprintf(pyc_output, "]");
        }
        break;
    case PycObject::TYPE_DICT:
        {
            fprintf(pyc_output, "{");
            PycDict::key_t keys = obj.cast<PycDict>()->keys();
            PycDict::value_t values = obj.cast<PycDict>()->values();
            PycDict::key_t::const_iterator ki = keys.begin();
            PycDict::value_t::const_iterator vi = values.begin();
            if (ki != keys.end()) {
                print_const(*ki, mod);
                fprintf(pyc_output, ": ");
                print_const(*vi, mod);
                while (++ki != keys.end()) {
                    ++vi;
                    fprintf(pyc_output, ", ");
                    print_const(*ki, mod);
                    fprintf(pyc_output, ": ");
                    print_const(*vi, mod);
                }
            }
            fprintf(pyc_output, "}");
        }
        break;
    case PycObject::TYPE_SET:
        {
            fprintf(pyc_output, "{");
            PycSet::value_t values = obj.cast<PycSet>()->values();
            PycSet::value_t::const_iterator it = values.begin();
            if (it != values.end()) {
                print_const(*it, mod);
                while (++it != values.end()) {
                    fprintf(pyc_output, ", ");
                    print_const(*it, mod);
                }
            }
            fprintf(pyc_output, "}");
        }
        break;
    case PycObject::TYPE_NONE:
        fprintf(pyc_output, "None");
        break;
    case PycObject::TYPE_TRUE:
        fprintf(pyc_output, "True");
        break;
    case PycObject::TYPE_FALSE:
        fprintf(pyc_output, "False");
        break;
    case PycObject::TYPE_INT:
        fprintf(pyc_output, "%d", obj.cast<PycInt>()->value());
        break;
    case PycObject::TYPE_LONG:
        fprintf(pyc_output, "%s", obj.cast<PycLong>()->repr().c_str());
        break;
    case PycObject::TYPE_FLOAT:
        fprintf(pyc_output, "%s", obj.cast<PycFloat>()->value());
        break;
    case PycObject::TYPE_COMPLEX:
        fprintf(pyc_output, "(%s+%sj)", obj.cast<PycComplex>()->value(),
                                        obj.cast<PycComplex>()->imag());
        break;
    case PycObject::TYPE_BINARY_FLOAT:
        fprintf(pyc_output, "%g", obj.cast<PycCFloat>()->value());
        break;
    case PycObject::TYPE_BINARY_COMPLEX:
        fprintf(pyc_output, "(%g+%gj)", obj.cast<PycCComplex>()->value(),
                                        obj.cast<PycCComplex>()->imag());
        break;
    case PycObject::TYPE_CODE:
    case PycObject::TYPE_CODE2:
        fprintf(pyc_output, "<CODE> %s", obj.cast<PycCode>()->name()->value());
        break;
    }
}
Beispiel #4
0
void output_object(PycRef<PycObject> obj, PycModule* mod, int indent)
{
    switch (obj->type()) {
    case PycObject::TYPE_CODE:
    case PycObject::TYPE_CODE2:
        {
            PycRef<PycCode> codeObj = obj.cast<PycCode>();
            iprintf(indent, "[Code]\n");
            iprintf(indent + 1, "File Name: %s\n", codeObj->fileName()->value());
            iprintf(indent + 1, "Object Name: %s\n", codeObj->name()->value());
            iprintf(indent + 1, "Arg Count: %d\n", codeObj->argCount());
            if (mod->majorVer() >= 3)
                iprintf(indent + 1, "KW Only Arg Count: %d\n", codeObj->kwOnlyArgCount());
            iprintf(indent + 1, "Locals: %d\n", codeObj->numLocals());
            iprintf(indent + 1, "Stack Size: %d\n", codeObj->stackSize());
            iprintf(indent + 1, "Flags: 0x%08X", codeObj->flags());
            print_coflags(codeObj->flags());

            if (codeObj->names() != Pyc_NULL) {
                iprintf(indent + 1, "[Names]\n");
                for (int i=0; i<codeObj->names()->size(); i++)
                    output_object(codeObj->names()->get(i), mod, indent + 2);
            }

            if (codeObj->varNames() != Pyc_NULL) {
                iprintf(indent + 1, "[Var Names]\n");
                for (int i=0; i<codeObj->varNames()->size(); i++)
                    output_object(codeObj->varNames()->get(i), mod, indent + 2);
            }

            if (codeObj->freeVars() != Pyc_NULL) {
                iprintf(indent + 1, "[Free Vars]\n");
                for (int i=0; i<codeObj->freeVars()->size(); i++)
                    output_object(codeObj->freeVars()->get(i), mod, indent + 2);
            }

            if (codeObj->cellVars() != Pyc_NULL) {
                iprintf(indent + 1, "[Cell Vars]\n");
                for (int i=0; i<codeObj->cellVars()->size(); i++)
                    output_object(codeObj->cellVars()->get(i), mod, indent + 2);
            }

            if (codeObj->consts() != Pyc_NULL) {
                iprintf(indent + 1, "[Constants]\n");
                for (int i=0; i<codeObj->consts()->size(); i++)
                    output_object(codeObj->consts()->get(i), mod, indent + 2);
            }

            iprintf(indent + 1, "[Disassembly]\n");
            bc_disasm(codeObj, mod, indent + 2);
        }
        break;
    case PycObject::TYPE_STRING:
        iprintf(indent, "");
        OutputString(obj.cast<PycString>(), (mod->majorVer() == 3) ? 'b' : 0);
        fprintf(pyc_output, "\n");
        break;
    case PycObject::TYPE_UNICODE:
        iprintf(indent, "");
        OutputString(obj.cast<PycString>(), (mod->majorVer() == 3) ? 0 : 'u');
        fprintf(pyc_output, "\n");
        break;
    case PycObject::TYPE_STRINGREF:
    case PycObject::TYPE_INTERNED:
    case PycObject::TYPE_ASCII:
    case PycObject::TYPE_ASCII_INTERNED:
    case PycObject::TYPE_SHORT_ASCII:
    case PycObject::TYPE_SHORT_ASCII_INTERNED:
        iprintf(indent, "");
        OutputString(obj.cast<PycString>(), 0);
        fprintf(pyc_output, "\n");
        break;
    case PycObject::TYPE_TUPLE:
    case PycObject::TYPE_SMALL_TUPLE:
        {
            iprintf(indent, "(\n");
            PycTuple::value_t values = obj.cast<PycTuple>()->values();
            for (PycTuple::value_t::const_iterator i = values.begin(); i != values.end(); i++)
                output_object(*i, mod, indent + 1);
            iprintf(indent, ")\n");
        }
        break;
    case PycObject::TYPE_LIST:
        {
            iprintf(indent, "[\n");
            PycList::value_t values = obj.cast<PycList>()->values();
            for (PycList::value_t::const_iterator i = values.begin(); i != values.end(); i++)
                output_object(*i, mod, indent + 1);
            iprintf(indent, "]\n");
        }
        break;
    case PycObject::TYPE_DICT:
        {
            iprintf(indent, "{\n");
            PycDict::key_t keys = obj.cast<PycDict>()->keys();
            PycDict::value_t values = obj.cast<PycDict>()->values();
            PycDict::key_t::const_iterator ki = keys.begin();
            PycDict::value_t::const_iterator vi = values.begin();
            while (ki != keys.end()) {
                output_object(*ki, mod, indent + 1);
                output_object(*vi, mod, indent + 2);
                ++ki, ++vi;
            }
            iprintf(indent, "}\n");
        }
        break;
    case PycObject::TYPE_SET:
        {
            iprintf(indent, "{\n");
            PycSet::value_t values = obj.cast<PycSet>()->values();
            for (PycSet::value_t::const_iterator i = values.begin(); i != values.end(); i++)
                output_object(*i, mod, indent + 1);
            iprintf(indent, "}\n");
        }
        break;
    case PycObject::TYPE_NONE:
        iprintf(indent, "None\n");
        break;
    case PycObject::TYPE_FALSE:
        iprintf(indent, "False\n");
        break;
    case PycObject::TYPE_TRUE:
        iprintf(indent, "True\n");
        break;
    case PycObject::TYPE_ELLIPSIS:
        iprintf(indent, "...\n");
        break;
    case PycObject::TYPE_INT:
        iprintf(indent, "%d\n", obj.cast<PycInt>()->value());
        break;
    case PycObject::TYPE_LONG:
        iprintf(indent, "%s\n", obj.cast<PycLong>()->repr().c_str());
        break;
    case PycObject::TYPE_FLOAT:
        iprintf(indent, "%s\n", obj.cast<PycFloat>()->value());
        break;
    case PycObject::TYPE_COMPLEX:
        iprintf(indent, "(%s+%sj)\n", obj.cast<PycComplex>()->value(),
                                      obj.cast<PycComplex>()->imag());
        break;
    case PycObject::TYPE_BINARY_FLOAT:
        iprintf(indent, "%g\n", obj.cast<PycCFloat>()->value());
        break;
    case PycObject::TYPE_BINARY_COMPLEX:
        iprintf(indent, "(%g+%gj)\n", obj.cast<PycCComplex>()->value(),
                                      obj.cast<PycCComplex>()->imag());
        break;
    default:
        iprintf(indent, "<TYPE: %d>\n", obj->type());
    }
}