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Nasal-Interpreter
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update

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Valk Richard Li 2020-03-19 00:23:27 +08:00 committed by GitHub
parent 6abca8c12f
commit 28cc088461
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GPG Key ID: 4AEE18F83AFDEB23
1 changed files with 171 additions and 15 deletions
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186
version2.0/nasal_runtime.h
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@ -18,6 +18,7 @@ class nasal_runtime
__incorrect_head_of_func,
__undefined_identifier,
__multi_assign_incorrect_value_number,
__multi_define_incorrect_value_number,
__invalid_vector_member,
__invalid_hash_member,
__memory_overflow,
@ -70,6 +71,8 @@ void nasal_runtime::error_interrupt(const int type,const int line)
std::cout<<"undefined identifier."<<std::endl;break;
case __multi_assign_incorrect_value_number:
std::cout<<"numbers of assigned identifiers and values are not the same."<<std::endl;break;
case __multi_define_incorrect_value_number:
std::cout<<"numbers of defined identifiers and values are not the same.";break;
case __invalid_vector_member:
std::cout<<"this member of vector does not exist."<<std::endl;break;
case __invalid_hash_member:
@ -85,7 +88,7 @@ void nasal_runtime::error_interrupt(const int type,const int line)
case __stack_overflow:
std::cout<<"stack overflow."<<std::endl;break;
case __error_value_type:
std::cout<<"operator gets error value type."<<std::endl;break;
std::cout<<"incorrect value type."<<std::endl;break;
default:
std::cout<<"unknown error."<<std::endl;break;
}
@ -140,7 +143,12 @@ int nasal_runtime::vector_generation(std::list<std::map<std::string,int> >& loca
}
for(;call_node!=node.get_children().end();++call_node)
{
;
switch(call_node->get_node_type())
{
case __call_vector:break;
case __call_hash:break;
case __call_function:break;
}
}
return addr;
}
@ -217,14 +225,7 @@ int nasal_runtime::calculation(std::list<std::map<std::string,int> >& local_scop
else if(node_type==__function)
return function_generation(local_scope,node);
else if(node_type==__id)
{
int ret=call_identifier(local_scope,node);
nasal_gc.reference_add(ret);
return ret;
// returned address is not a temporary one
// but after each calculation,the refcnt will -1
// so refcnt++ here
}
return call_identifier(local_scope,node);
else if(node_type==__add_operator || node_type==__sub_operator || node_type==__mul_operator || node_type==__div_operator)
{
// scalar_nil cannot be used here
@ -572,11 +573,13 @@ int nasal_runtime::calculation(std::list<std::map<std::string,int> >& local_scop
new_data_addr=nasal_gc.gc_alloc();
nasal_gc.get_scalar(new_data_addr).set_type(scalar_string);
nasal_gc.get_scalar(new_data_addr).get_string().deep_copy(nasal_gc.get_scalar(data_addrs[i]).get_string());
*assigned_addrs[i]=new_data_addr;
break;
case scalar_function:
new_data_addr=nasal_gc.gc_alloc();
nasal_gc.get_scalar(new_data_addr).set_type(scalar_function);
nasal_gc.get_scalar(new_data_addr).get_function().deep_copy(nasal_gc.get_scalar(data_addrs[i]).get_function());
*assigned_addrs[i]=new_data_addr;
break;
case scalar_vector:
case scalar_hash:
@ -629,11 +632,13 @@ int nasal_runtime::calculation(std::list<std::map<std::string,int> >& local_scop
new_data_addr=nasal_gc.gc_alloc();
nasal_gc.get_scalar(new_data_addr).set_type(scalar_string);
nasal_gc.get_scalar(new_data_addr).get_string().deep_copy(nasal_gc.get_scalar(vector_member_addr).get_string());
*assigned_addrs[i]=new_data_addr;
break;
case scalar_function:
new_data_addr=nasal_gc.gc_alloc();
nasal_gc.get_scalar(new_data_addr).set_type(scalar_function);
nasal_gc.get_scalar(new_data_addr).get_function().deep_copy(nasal_gc.get_scalar(vector_member_addr).get_function());
*assigned_addrs[i]=new_data_addr;
break;
case scalar_vector:
case scalar_hash:
@ -1088,25 +1093,176 @@ int nasal_runtime::call_identifier(std::list<std::map<std::string,int> >& local_
error_interrupt(__undefined_identifier,node.get_node_line());
return -1;
}
int last_hash_addr=-1;
for(std::list<abstract_syntax_tree>::iterator iter=node.get_children().begin();iter!=node.get_children().end();++iter)
{
if(nasal_gc.get_scalar(addr).get_type()==scalar_hash)
last_hash_addr=addr;
int node_type=iter->get_node_type();
if(node_type==__call_vector)
;
{
int called_type=nasal_gc.get_scalar(addr).get_type();
if(called_type!=scalar_vector && called_type!=scalar_hash)
{
error_interrupt(__error_value_type,iter->get_node_line());
return -1;
}
int data_addr=calculation(local_scope,iter->get_children().front());
if(called_type==scalar_vector)
{
;
}
else if(called_type==scalar_hash)
{
if(nasal_gc.get_scalar(data_addr).get_type()!=scalar_string)
{
error_interrupt(__error_value_type,iter->get_node_line());
return -1;
}
std::string key_str=nasal_gc.get_scalar(data_addr).get_string().get_string();
addr=nasal_gc.get_scalar(addr).get_hash().get_hash_member(key_str);
if(addr<0)
{
error_interrupt(__invalid_hash_member,iter->get_node_line());
return -1;
}
}
}
else if(node_type==__call_hash)
;
{
if(nasal_gc.get_scalar(addr).get_type()!=scalar_hash)
{
error_interrupt(__error_value_type,iter->get_node_line());
return -1;
}
addr=nasal_gc.get_scalar(addr).get_hash().get_hash_member(iter->get_var_name());
if(addr<0)
{
error_interrupt(__invalid_hash_member,iter->get_node_line());
return -1;
}
}
else if(node_type==__call_function)
;
else
;
}
// after calculation or assignment/definition,reference counter of this address will -1
// to avoid nasal_gc collecting this address,reference counter+1 here
nasal_gc.reference_add(addr);
return addr;
}
void nasal_runtime::definition(std::list<std::map<std::string,int> >&local_scope,std::map<std::string,int>& now_scope,abstract_syntax_tree& node)
{
if(node.get_children().front().get_node_type()==__multi_id)
{
;
std::vector<std::string> id_names;
for(std::list<abstract_syntax_tree>::iterator i=node.get_children().front().get_children().begin();i!=node.get_children().front().get_children().end();++i)
id_names.push_back(i->get_var_name());
int child_node_type=node.get_children().back().get_node_type();
if(child_node_type==__multi_scalar)
{
std::vector<int> data_addrs;
for(std::list<abstract_syntax_tree>::iterator i=node.get_children().back().get_children().begin();i!=node.get_children().back().get_children().end();++i)
{
int new_addr=calculation(local_scope,*i);
if(new_addr<0)
return;
data_addrs.push_back(new_addr);
}
if(data_addrs.size()!=id_names.size())
{
error_interrupt(__multi_define_incorrect_value_number,node.get_children().back().get_node_line());
return;
}
for(int i=0;i<id_names.size();++i)
{
int new_data_addr=-1;
switch(nasal_gc.get_scalar(data_addrs[i]).get_type())
{
case scalar_nil:
new_data_addr=nasal_gc.gc_alloc();
nasal_gc.get_scalar(new_data_addr).set_type(scalar_nil);
break;
case scalar_number:
new_data_addr=nasal_gc.gc_alloc();
nasal_gc.get_scalar(new_data_addr).set_type(scalar_number);
nasal_gc.get_scalar(new_data_addr).get_number().deep_copy(nasal_gc.get_scalar(data_addrs[i]).get_number());
break;
case scalar_string:
new_data_addr=nasal_gc.gc_alloc();
nasal_gc.get_scalar(new_data_addr).set_type(scalar_string);
nasal_gc.get_scalar(new_data_addr).get_string().deep_copy(nasal_gc.get_scalar(data_addrs[i]).get_string());
break;
case scalar_function:
new_data_addr=nasal_gc.gc_alloc();
nasal_gc.get_scalar(new_data_addr).set_type(scalar_function);
nasal_gc.get_scalar(new_data_addr).get_function().deep_copy(nasal_gc.get_scalar(data_addrs[i]).get_function());
break;
case scalar_vector:
case scalar_hash:
new_data_addr=data_addrs[i];
nasal_gc.reference_add(data_addrs[i]);
break;
}
now_scope[id_names[i]]=new_data_addr;
}
for(int i=0;i<data_addrs.size();++i)
nasal_gc.reference_delete(data_addrs[i]);
}
else
{
int data_addr=calculation(local_scope,node.get_children().back());
if(data_addr<0)
return;
if(nasal_gc.get_scalar(data_addr).get_type()!=scalar_vector)
{
error_interrupt(__error_value_type,node.get_children().back().get_node_line());
return;
}
else if(nasal_gc.get_scalar(data_addr).get_vector().get_size()!=id_names.size())
{
error_interrupt(__multi_define_incorrect_value_number,node.get_children().back().get_node_line());
return;
}
for(int i=0;i<id_names.size();++i)
{
int new_data_addr=-1;
int vector_member_addr=nasal_gc.get_scalar(data_addr).get_vector().get_elem(i);
if(vector_member_addr<0)
{
error_interrupt(__invalid_vector_member,node.get_children().back().get_node_line());
return;
}
switch(nasal_gc.get_scalar(vector_member_addr).get_type())
{
case scalar_nil:
new_data_addr=nasal_gc.gc_alloc();
nasal_gc.get_scalar(new_data_addr).set_type(scalar_nil);
break;
case scalar_number:
new_data_addr=nasal_gc.gc_alloc();
nasal_gc.get_scalar(new_data_addr).set_type(scalar_number);
nasal_gc.get_scalar(new_data_addr).get_number().deep_copy(nasal_gc.get_scalar(vector_member_addr).get_number());
break;
case scalar_string:
new_data_addr=nasal_gc.gc_alloc();
nasal_gc.get_scalar(new_data_addr).set_type(scalar_string);
nasal_gc.get_scalar(new_data_addr).get_string().deep_copy(nasal_gc.get_scalar(vector_member_addr).get_string());
break;
case scalar_function:
new_data_addr=nasal_gc.gc_alloc();
nasal_gc.get_scalar(new_data_addr).set_type(scalar_function);
nasal_gc.get_scalar(new_data_addr).get_function().deep_copy(nasal_gc.get_scalar(vector_member_addr).get_function());
break;
case scalar_vector:
case scalar_hash:
new_data_addr=vector_member_addr;
nasal_gc.reference_add(vector_member_addr);
break;
}
now_scope[id_names[i]]=new_data_addr;
}
nasal_gc.reference_delete(data_addr);
}
}
else
{