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|
#!/usr/bin/env python
"""#!/usr/bin/python """
import re
import sys
import os
#######Script start from here
print "Arguement is :", sys.argv[1]
fname = os.path.basename(sys.argv[1])
print "VHDL filename is :",fname
home = os.path.expanduser("~")
###########Creating connection_info.txt file from vhdl file#####################
read_vhdl = open(sys.argv[1],'r')
vhdl_data = read_vhdl.readlines()
read_vhdl.close()
start_flag = -1 #Used for scaning part of data
scan_data=[]
#p=re.search('port(.*?)end',read_vhdl,re.M|re.I|re.DOTALL).group()
for item in vhdl_data:
if re.search('port',item,re.I):
start_flag = 1
elif re.search("end",item,re.I):
start_flag = 0
else:
pass
if start_flag == 1:
item=re.sub("port", " ", item, flags=re.I)
item=re.sub("\(", " ", item, flags=re.I)
item=re.sub("\)", " ", item, flags=re.I)
item=re.sub(";"," ",item,flags=re.I)
scan_data.append(item.rstrip())
scan_data=filter(None, scan_data)
elif start_flag == 0:
break
#print "Scan Data",scan_data
port_info=[]
for item in scan_data:
print "Scan Data :",item
if re.search("in",item,flags=re.I):
if re.search("std_logic_vector",item,flags=re.I):
temp=re.compile(r"\s*std_logic_vector\s*",flags=re.I)
elif re.search("std_logic",item,flags=re.I):
temp=re.compile(r"\s*std_logic\s*",flags=re.I)
else:
print "Please check your vhdl code for datatype of input port"
sys.exit()
elif re.search("out",item,flags=re.I):
if re.search("std_logic_vector",item,flags=re.I):
temp=re.compile(r"\s*std_logic_vector\s*",flags=re.I)
elif re.search("std_logic",item,flags=re.I):
temp=re.compile(r"\s*std_logic\s*",flags=re.I)
else:
print "Please check your vhdl code for datatype of output port"
sys.exit()
else:
print "Please check the in/out direction of your port"
sys.exit()
lhs=temp.split(item)[0]
rhs=temp.split(item)[1]
bit_info=re.compile(r"\s*downto\s*",flags=re.I).split(rhs)[0]
port_info.append(lhs+":"+str(int(bit_info)+int(1)))
print "Port Info :",port_info
#Open connection_info.txt file
con_ifo=open('connection_info.txt','w')
for item in port_info:
word=item.split(':')
con_ifo.write(word[0].strip()+' '+word[1].strip()+' '+word[2].strip())
con_ifo.write("\n")
con_ifo.close()
############### Reading connection/port information#############################
#Declaring input and output list
input_list=[]
output_list=[]
#Reading connection_info.txt file for port infomation
read_file=open('connection_info.txt','r')
data=read_file.readlines()
read_file.close()
#Extracting input and output port list from data
for line in data:
if re.match(r'^\s*$', line):
pass
#print "Blank Line"
else:
in_items=re.findall("IN",line,re.MULTILINE|re.IGNORECASE)
out_items=re.findall("OUT",line,re.MULTILINE|re.IGNORECASE)
#print "Line",line
if in_items:
input_list.append(line.split())
#print "Found IN"
else:
pass
#print "Not Found"
if out_items:
output_list.append(line.split())
#print "Found Out"
else:
pass
print "Inout List :",input_list
print "Output list",output_list
input_port=[]
output_port=[]
#creating list of input and output port with its weight
for input in input_list:
input_port.append(input[0]+":"+input[2])
#print "Input List: ",input
for output in output_list:
output_port.append(output[0]+":"+output[2])
#print "Output List: ",output
print "Output Port List : ",output_port
print "Input Port List : ",input_port
######################Creating content for cfunc.mod file#######################
print "Starting With cfunc.mod file"
cfunc=open('cfunc.mod','w')
print "Building content for cfunc.mod file"
comment='''/* This is cfunc.mod file auto generated by gen_con_info.py
Developed by Fahim at IIT Bombay */ \n
'''
header='''
#include <stdio.h>
#include <math.h>
#include <string.h>
#include <time.h>
#include <sys/socket.h>
#include <sys/types.h>
#include <netinet/in.h>
#include <netdb.h>
#include <stdlib.h>
#include <unistd.h>
#include <errno.h>
'''
function_open='''void cm_'''+fname.split('.')[0]+'''(ARGS) \n{'''
digital_state_output=[]
for item in output_port:
digital_state_output.append("Digital_State_t *_op_"+item.split(':')[0]+", *_op_"+item.split(':')[0]+"_old;")
var_section='''
// Declaring components of Client
static int flag=0;
FILE *log_client = NULL;
log_client=fopen("client.log","a");
int socket_fd, bytes_recieved;
char send_data[1024];
char recv_data[1024];
char *key_iter;
struct hostent *host;
struct sockaddr_in server_addr;
double time_limit = PARAM(stop_time);
int sock_port = 5000+PARAM(instance_id);
'''
temp_input_var=[]
for item in input_port:
temp_input_var.append("char temp_"+item.split(':')[0]+"[1024];")
#Start of INIT function
init_start_function='''
if(INIT)
{
/* Allocate storage for output ports.And set the load for input ports */
'''
cm_event_alloc=[]
cm_count_output=0
for item in output_port:
cm_event_alloc.append("cm_event_alloc("+str(cm_count_output)+","+item.split(':')[1]+"*sizeof(Digital_State_t));")
cm_count_output=cm_count_output+1
load_in_port=[]
for item in input_port:
load_in_port.append("for(Ii=0;Ii<PORT_SIZE("+item.split(':')[0]+");Ii++)\n\t\t{\n\t\t\tLOAD("+item.split(':')[0]+"[Ii])=PARAM(input_load); \n\t\t}")
cm_count_ptr=0
cm_event_get_ptr=[]
for item in output_port:
cm_event_get_ptr.append("_op_"+item.split(':')[0]+" = _op_"+item.split(':')[0]+"_old = (Digital_State_t *) cm_event_get_ptr("+str(cm_count_ptr)+",0);")
cm_count_ptr=cm_count_ptr+1
systime_info='''
/*Taking system time info for log */
time_t systime;
systime = time(NULL);
printf(ctime(&systime));
printf("Client-Initialising ngspice \\n");
fprintf(log_client,"Setup Client Server Connection at %s \\n",ctime(&systime));
'''
init_else='''
printf("Client-Inside else of INIT \\n");
fprintf(log_client,"Inside else of INIT \\n");
/* retrieve storage for output ports. */
'''
els_evt_count1=0
els_evt_count2=0
els_evt_ptr=[]
for item in output_port:
els_evt_ptr.append("_op_"+item.split(":")[0]+" = cm_event_get_ptr("+str(els_evt_count1)+","+str(els_evt_count2)+");")
els_evt_count2=els_evt_count2+1
els_evt_ptr.append("_op_"+item.split(":")[0]+"_old"+" = cm_event_get_ptr("+str(els_evt_count1)+","+str(els_evt_count2)+");")
els_evt_count1=els_evt_count1+1
client_setup='''
/* Client setup */
//Default hostname assignment
host = gethostbyname("127.0.0.1");
printf("Client-Creating Client Socket \\n");
fprintf(log_client,"Creating client socket \\n");
'''
create_socket='''
//Creating socket for client
if ((socket_fd = socket(AF_INET, SOCK_STREAM, 0)) == -1)
{
perror("Client-Error while creating client Socket \\n");
fprintf(log_client,"Error while creating client sockte \\n");
exit(1);
}
printf("Client-Client Socket created successfully \\n");
printf("Client- Socket Id : %d \\n",socket_fd);
fprintf(log_client,"Client-Client Socket created successfully \\n");
fprintf(log_client,"Client- Socket Id : %d \\n",socket_fd);
// memset(&server_addr, 0, sizeof(server_addr));
server_addr.sin_family = AF_INET;
server_addr.sin_port = htons(sock_port);
server_addr.sin_addr = *((struct in_addr *)host->h_addr);
bzero(&(server_addr.sin_zero),8);
'''
connect_server='''
printf("Client-Connecting to server \\n");
fprintf(log_client,"Client-Connecting to server \\n");
//Conneting to server
int try_limit=10;
while(try_limit>0)
{
if (connect(socket_fd, (struct sockaddr*)&server_addr,sizeof(struct sockaddr)) == -1)
{
sleep(1);
try_limit--;
if(try_limit==0)
{
fprintf(stderr,"Connect- Error:Tried to connect server on port , failed..giving up \\n");
fprintf(log_client,"Connect- Error:Tried to connect server on port , failed..giving up \\n");
exit(1);
}
}
else
{
printf("Client-Connected to server \\n");
fprintf(log_client,"Client-Connected to server \\n");
break;
}
}
'''
time_limit ='''
if(TIME < time_limit)
{
//Formating data for sending it to client
int Ii;
'''
#Assign bit value to every input
assign_data_to_input=[]
for item in input_port:
assign_data_to_input.append("\t\t\tfor(Ii=0;Ii<PORT_SIZE("+item.split(':')[0]+");Ii++)\n\
\t\t\t{\n\t\t\t\tif( INPUT_STATE("+item.split(':')[0]+"[Ii])==ZERO )\n\
\t\t\t\t{\n\t\t\t\t\ttemp_"+item.split(':')[0]+"[Ii]='0';\n\t\t\t\t}\n\
\t\t\t\telse\n\t\t\t\t{\n\t\t\t\t\ttemp_"+item.split(':')[0]+"[Ii]='1';\n\
\t\t\t\t}\n\t\t\t}\n\t\t\ttemp_"+item.split(':')[0]+"[Ii]='\\0';\n\n")
snprintf_stmt=[]
snprintf_count=0
snprintf_stmt.append("\t\t\t//Sending and receiving data to-from server \n")
snprintf_stmt.append('\t\t\tsnprintf(send_data,sizeof(send_data),"')
for item in input_port:
snprintf_count=snprintf_count+1
snprintf_stmt.append(item.split(':')[0]+":%s")
if snprintf_count == len(input_port):
snprintf_stmt.append('",')
internal_count=0
for item1 in input_port:
if internal_count == len(input_port):
pass
else:
snprintf_stmt.append("temp_"+item1.split(':')[0])
internal_count=internal_count+1
if internal_count == len(input_port):
pass
else:
snprintf_stmt.append(",")
snprintf_stmt.append(");")
else:
snprintf_stmt.append(",")
snprintf_stmt.append('\n\t\t\tprintf("Client-Value of buffer string is %s \\n",send_data);')
snprintf_stmt.append('\n\t\t\tprintf("Client-Sending data to server from client \\n");')
send_data='''
if ( send(socket_fd,send_data,sizeof(send_data),0)==-1)
{
fprintf(stderr, "Client-Failure Sending Message \\n");
close(socket_fd);
exit(1);
}
else
{
printf("Client-Message being sent: %s \\n",send_data);
fprintf(log_client,"Socket Id : %d & Message sent : %s \\n",socket_fd,send_data);
}
'''
recv_data='''
bytes_recieved=recv(socket_fd,recv_data,sizeof(recv_data),0);
if ( bytes_recieved <= 0 )
{
printf("Client-Either Connection Closed or Error \\n");
exit(1);
}
recv_data[bytes_recieved] = '\\0';
printf("Client-Message Received From Server - %s\\n",recv_data);
fprintf(log_client,"Message Received From Server- %s\\n",recv_data);
'''
#Scheduling output event
sch_output_event=[]
for item in output_port:
sch_output_event.append("\t\t\t/* Scheduling event and processing them */\n\
\t\t\tif((key_iter=strstr(recv_data, "+'"'+item.split(':')[0]+':"'")) != NULL)\n\
\t\t\t{\n\
\t\t\twhile(*key_iter++ != ':');\n\
\t\t\tfor(Ii=0;*key_iter != ';';Ii++,key_iter++)\n\
\t\t\t{\n\
\t\t\t\tprintf(\"Client- Bit val is %c \\n\",*key_iter);\n\
\t\t\t\tfprintf(log_client,\"Client-Bit val is %c \\n\",*key_iter);\n\
\t\t\t\tif(*key_iter=='0')\n\t\t\t\t{\n\
\t\t\t\t\tprintf(\"Client-Zero Received \");\n\
\t\t\t\t\t_op_"+item.split(':')[0]+"[Ii]=ZERO;\n\t\t\t\t}\n\
\t\t\t\telse if(*key_iter=='1')\n\t\t\t\t{\n\
\t\t\t\t\tprintf(\"Client-One Received \\n\");\n\
\t\t\t\t\t_op_"+item.split(':')[0]+"[Ii]=ONE;\n\
\t\t\t\t}\n\t\t\t\telse\t\t\t\t{\n\
\t\t\t\t\tfprintf(log_client,\"Unknow value return from server \\n\");\n\
\t\t\t\t\tprintf(\"Client-Unknown value return \\n\");\n\t\t\t\t}\n\
\t\t\t\tif(ANALYSIS == DC)\n\t\t\t\t{\n\
\t\t\t\t\tOUTPUT_STATE("+item.split(':')[0]+"[Ii]) = _op_"+item.split(':')[0]+"[Ii];\n\
\t\t\t\t}\n\t\t\t\telse\n\t\t\t\t{\n\
\t\t\t\t\tif(_op_"+item.split(':')[0]+"[Ii] != _op_"+item.split(':')[0]+"_old[Ii])\n\
\t\t\t\t\t{\n\
\t\t\t\t\t\tOUTPUT_STATE("+item.split(':')[0]+"[Ii]) = _op_"+item.split(':')[0]+"[Ii];\n\
\t\t\t\t\t\tOUTPUT_DELAY("+item.split(':')[0]+"[Ii]) = ((_op_"+item.split(':')[0]+"[Ii] == ZERO) ? PARAM(fall_delay) : PARAM(rise_delay));\n\
\t\t\t\t\t}\n\t\t\t\t\telse\n\t\t\t\t\t{\n\
\t\t\t\t\t\tOUTPUT_CHANGED("+item.split(':')[0]+"[Ii]) = FALSE;\n\t\t\t\t\t}\n\
\t\t\t\t}\n\t\t\t\tOUTPUT_STRENGTH("+item.split(':')[0]+"[Ii]) = STRONG;\n\
\t\t\t}\n\
\t\t\t}\n")
els_time_limit='''
else
{
char *end_signal="END";
printf("Closing Ngspice Simulation \\n");
printf("current time = %g\\n",TIME);
fprintf(log_client,"Times : Closing Socket \\n");
snprintf(send_data,sizeof(send_data),"%s",end_signal);
printf("Client-Value of buffer string is for END signal is %s \\n",send_data);
printf("Client-Sending data to server from client for end signal \\n");
if ( send(socket_fd,send_data,sizeof(send_data),0)==-1)
{
printf("Client-Failure Sending Message for END signal \\n");
close(socket_fd);
exit(1);
}
else
{
printf("Client-Message being sent for END signal : %s\\n",send_data);
fprintf(log_client,"Socket Id : %d & Message sent : %s for END signal \\n",socket_fd,send_data);
}
flag++;
close(socket_fd);
}
'''
#Writing content in cfunc.mod file
cfunc.write(comment)
cfunc.write(header)
cfunc.write("\n")
cfunc.write(function_open)
cfunc.write("\n")
#Adding digital state Variable
for item in digital_state_output:
cfunc.write("\t"+item+"\n")
#Adding variable declaration section
cfunc.write(var_section)
for item in temp_input_var:
cfunc.write("\t"+item+"\n")
cfunc.write("\n");
#Adding INIT portion
cfunc.write(init_start_function)
for item in cm_event_alloc:
cfunc.write(2*"\t"+item)
cfunc.write("\n")
cfunc.write(2*"\t"+"/* set the load for input ports. */")
cfunc.write("\n")
cfunc.write(2*"\t"+"int Ii;")
cfunc.write("\n");
for item in load_in_port:
cfunc.write(2*"\t"+item)
cfunc.write("\n")
cfunc.write("\n")
cfunc.write(2*"\t"+"/*Retrieve Storage for output*/")
cfunc.write("\n")
for item in cm_event_get_ptr:
cfunc.write(2*"\t"+item)
cfunc.write("\n")
cfunc.write(systime_info)
cfunc.write("\n")
cfunc.write("\t\tchar command[1024];")
cfunc.write('\t\tsnprintf(command,1024,"'+home+'/ngspice-26/src/xspice/icm/ghdl/'+fname.split('.')[0]+'/DUTghdl/start_server.sh %d &",sock_port);\n')
cfunc.write('\t\tsystem(command);')
cfunc.write("\t}")
cfunc.write("\n")
cfunc.write("\telse\n\t{\n")
for item in els_evt_ptr:
cfunc.write(2*"\t"+item)
cfunc.write("\n")
cfunc.write("\t}")
cfunc.write("\n\n")
cfunc.write("\tif(flag==0)\n\t{")
cfunc.write(client_setup)
cfunc.write(create_socket)
cfunc.write(connect_server)
cfunc.write(time_limit)
for item in assign_data_to_input:
cfunc.write(item)
for item in snprintf_stmt:
cfunc.write(item)
cfunc.write(send_data)
cfunc.write(recv_data)
for item in sch_output_event:
cfunc.write(item)
#End of if statement of time limit
cfunc.write(2*"\t"+"}")
#Else part of time limit -sending END signal
cfunc.write(els_time_limit)
#Close if of flag==0
cfunc.write("\t}\n\n")
#close log_client file
cfunc.write("\tfclose(log_client);")
#Close cm_ function
cfunc.write("\n}")
cfunc.close()
################Creating ifspec.ifs file########################################
print "Starting with ifspec.ifs file"
ifspec=open('ifspec.ifs','w')
print "Gathering Al the content for ifspec file"
ifspec_comment='''
/*
SUMMARY: This file is auto generated and it contains the interface specification for the
code model. */\n
'''
name_table='NAME_TABLE:\n\
C_Function_Name: cm_'+fname.split('.')[0]+'\n\
Spice_Model_Name: '+fname.split('.')[0]+'\n\
Description: "Model generated from ghdl code '+fname+'" \n'
#Input and Output Port Table
in_port_table=[]
out_port_table=[]
for item in input_port:
port_table = 'PORT_TABLE:\n'
port_name = 'Port_Name:\t'+item.split(':')[0]+'\n'
description = 'Description:\t"input port '+item.split(':')[0]+'"\n'
direction = 'Direction:\tin\n'
default_type = 'Default_Type:\td\n'
allowed_type = 'Allowed_Types:\t[d]\n'
vector = 'Vector:\tyes\n'
vector_bounds = 'Vector_Bounds:\t['+item.split(':')[1]+' '+item.split(":")[1]+']\n'
null_allowed = 'Null_Allowed:\tno\n'
#Insert detail in the list
in_port_table.append(port_table+port_name+description+direction+default_type+allowed_type+vector+vector_bounds+null_allowed)
for item in output_port:
port_table = 'PORT_TABLE:\n'
port_name = 'Port_Name:\t'+item.split(':')[0]+'\n'
description = 'Description:\t"output port '+item.split(':')[0]+'"\n'
direction = 'Direction:\tout\n'
default_type = 'Default_Type:\td\n'
allowed_type = 'Allowed_Types:\t[d]\n'
vector = 'Vector:\tyes\n'
vector_bounds = 'Vector_Bounds:\t['+item.split(':')[1]+' '+item.split(":")[1]+']\n'
null_allowed = 'Null_Allowed:\tno\n'
#Insert detail in the list
in_port_table.append(port_table+port_name+description+direction+default_type+allowed_type+vector+vector_bounds+null_allowed)
parameter_table='''
PARAMETER_TABLE:
Parameter_Name: instance_id
Description: "instance_id"
Data_Type: real
Default_Value: 0
Limits: -
Vector: no
Vector_Bounds: -
Null_Allowed: yes
PARAMETER_TABLE:
Parameter_Name: rise_delay fall_delay
Description: "rise delay" "fall delay"
Data_Type: real real
Default_Value: 1.0e-9 1.0e-9
Limits: [1e-12 -] [1e-12 -]
Vector: no no
Vector_Bounds: - -
Null_Allowed: yes yes
PARAMETER_TABLE:
Parameter_Name: input_load stop_time
Description: "input load value (F)" "time at which to shut-down (seconds)"
Data_Type: real real
Default_Value: 1.0e-12 1.0
Limits: - [0.0 -]
Vector: no no
Vector_Bounds: - -
Null_Allowed: yes no
'''
#Writing all the content in ifspec file
ifspec.write(ifspec_comment)
ifspec.write(name_table+"\n\n")
for item in in_port_table:
ifspec.write(item+"\n")
ifspec.write("\n")
for item in out_port_table:
ifspec.write(item+"\n")
ifspec.write("\n")
ifspec.write(parameter_table)
ifspec.close()
########Creating testbench file ################################################
print "Starting with testbench file"
testbench=open(fname.split('.')[0]+'_tb.vhdl','w')
#comment
comment_vhdl="--------------------------------------------------------------------------------\n--This testbench has been created by Ambikeshwar Srivastava, FOSSEE, IIT Bombay\n-------------------------------------------------------------------------------"
#Adding header, entity and architecture statement
tb_header='''
library ieee;
use ieee.std_logic_1164.all;
use ieee.numeric_std.all;
library work;
use work.Vhpi_Foreign.all;
use work.Utility_Package.all;
use work.sock_pkg.all;
'''
tb_entity="entity "+fname.split('.')[0]+"_tb is\nend entity;\n\n"
arch="architecture "+fname.split('.')[0]+"_tb_beh of "+fname.split('.')[0]+"_tb is\n"
#Adding components
components=[]
components.append("\tcomponent "+fname.split('.')[0]+" is\n\t\tport(\n\t\t\t\t")
for item in input_port:
components.append(item.split(':')[0]+": in std_logic_vector("+str(int(item.split(':')[1])-int(1))+" downto 0);\n\t\t\t\t")
#if item.split(":")[1] != '1':
# components.append(item.split(':')[0]+": in std_logic_vector("+str(int(item.split(':')[1])-int(1))+" downto 0);\n\t\t\t\t")
#else:
# components.append(item.split(':')[0]+": in std_logic_vector("+str(int(item.split(':')[1])-int(1))+" downto 0);\n\t\t\t\t")
for item in output_port[:-1]:
components.append(item.split(':')[0]+": out std_logic_vector("+str(int(item.split(':')[1])-int(1))+" downto 0);\n\t\t\t\t")
components.append(output_port[-1].split(':')[0]+": out std_logic_vector("+str(int(output_port[-1].split(':')[1])-int(1))+" downto 0)\n\t\t\t\t")
#if item.split(":")[1] != '1':
# components.append(item.split(':')[0]+": out std_logic_vector("+str(int(item.split(':')[1])-int(1))+" downto 0)\n\t\t\t\t")
#else:
# components.append(item.split(':')[0]+": out std_logic_vector("+str(int(item.split(':')[1])-int(1))+" downto 0)\n\t\t\t\t")
components.append(");\n")
components.append("\tend component;\n\n")
#Adding signals
signals=[]
signals.append("\tsignal clk_s : std_logic := '0';\n")
for item in input_port:
signals.append("\tsignal "+item.split(':')[0]+": std_logic_vector("+str(int(item.split(':')[1])-int(1))+" downto 0);\n")
#if item.split(":")[1] != '1':
# signals.append("\tsignal "+item.split(':')[0]+": std_logic_vector("+str(int(item.split(':')[1])-int(1))+" downto 0);\n")
#else:
# signals.append("\tsignal "+item.split(':')[0]+": std_logic_vector("+str(int(item.split(':')[1])-int(1))+" downto 0);\n")
for item in output_port:
signals.append("\tsignal "+item.split(':')[0]+": std_logic_vector("+str(int(item.split(':')[1])-int(1))+" downto 0);\n")
#if item.split(":")[1] != '1':
# signals.append("\tsignal "+item.split(':')[0]+": std_logic_vector("+str(int(item.split(':')[1])-int(1))+" downto 0);\n")
#else:
# signals.append("\tsignal "+item.split(':')[0]+": std_logic_vector("+str(int(item.split(':')[1])-int(1))+" downto 0);\n")
#Adding mapping part
map=[]
map.append("\tu1 : "+fname.split('.')[0]+" port map(\n")
for item in input_port:
map.append("\t\t\t\t"+item.split(':')[0]+" => "+item.split(':')[0]+",\n")
for item in output_port:
if output_port.index(item) == len(output_port) - 1:
map.append("\t\t\t\t"+item.split(':')[0]+" => "+item.split(':')[0]+"\n")
else:
map.append("\t\t\t\t"+item.split(':')[0]+" => "+item.split(':')[0]+",\n")
map.append("\t\t\t);")
#testbench Clock
tb_clk= "clk_s <= not clk_s after 5 us;\n\n"
#Adding Process block for Vhpi
process_Vhpi=[]
process_Vhpi.append("\tprocess\n\t\tvariable sock_port : integer;\n\t\tbegin\n\t\tsock_port := sock_pkg_fun;\n\t\tVhpi_Initialize(sock_port);\n\t\twait until clk_s = '1';\n\t\twhile true loop\n\t\t\twait until clk_s = '0';\n\t\t\tVhpi_Listen;\n\t\t\twait for 1 us;\n\t\t\tVhpi_Send;\n\t\tend loop;\n\t\twait;\n\tend process;\n\n")
#Adding process block
process=[]
process.append("\tprocess\n\n")
for item in input_port:
process.append("\t\tvariable "+item.split(':')[0]+"_v : VhpiString;\n")
for item in output_port:
process.append("\t\tvariable "+item.split(':')[0]+"_v : VhpiString;\n")
process.append("\t\tvariable obj_ref : VhpiString;\n")
process.append("\tbegin\n")
process.append("\t\twhile true loop\n")
process.append("\t\t\twait until clk_s = '0';\n\n")
for item in input_port:
process.append('\t\t\tobj_ref := Pack_String_To_Vhpi_String("'+item.split(':')[0]+'");\n')
process.append('\t\t\tVhpi_Get_Port_Value(obj_ref,'+item.split(':')[0]+'_v,'+item.split(':')[1]+');\n')
process.append('\t\t\tassert false report "Get port value '+item.split(':')[0]+' returns " &'+item.split(':')[0]+'_v severity note;\n')
process.append('\t\t\t'+item.split(':')[0]+' <= Unpack_String('+item.split(':')[0]+'_v,'+item.split(':')[1]+');\n')
process.append("\n")
process.append('\t\t\twait for 1 us;\n')
for item in output_port:
process.append('\t\t\t'+item.split(':')[0]+'_v := Pack_String_To_Vhpi_String(Convert_SLV_To_String('+item.split(':')[0]+'));\n')
process.append('\t\t\tobj_ref := Pack_String_To_Vhpi_String("'+item.split(':')[0]+'");\n')
process.append('\t\t\tVhpi_Set_Port_Value(obj_ref,'+item.split(':')[0]+'_v,'+item.split(':')[1]+');\n')
process.append('\t\t\tassert false report "Set port value '+item.split(':')[0]+' returns " &'+item.split(':')[0]+'_v severity note;\n')
process.append("\n")
process.append("\t\tend loop;\n")
process.append("\tend process;\n\n")
process.append("end architecture;")
#Writing all the components to testbench file
testbench.write(comment_vhdl)
testbench.write(tb_header)
testbench.write(tb_entity)
testbench.write(arch)
for item in components:
testbench.write(item)
for item in signals:
testbench.write(item)
testbench.write("\n\n")
testbench.write("begin\n\n")
for item in map:
testbench.write(item)
testbench.write("\n\t"+tb_clk)
for item in process_Vhpi:
testbench.write(item)
for item in process:
testbench.write(item)
testbench.close()
##################################### Creating and writing components in start_server.sh ################################
start_server = open('start_server.sh','w')
start_server.write("#!/bin/bash\n\n")
start_server.write("###This server run ghdl testebench for infinite time till ngspice send END signal to stop it\n\n")
start_server.write("#gcc -c ghdlserver.c\n")
start_server.write("#ghdl -a Utility_Package.vhdl &&\n")
start_server.write("#ghdl -a Vhpi_Package.vhdl &&\n")
start_server.write("cd "+home+"/ngspice-26/src/xspice/icm/ghdl/"+fname.split('.')[0]+"/DUTghdl/\n")
start_server.write("./sock_pkg_create.sh &&\n")
start_server.write("ghdl -a sock_pkg.vhdl &&\n")
start_server.write("ghdl -a "+fname+" &&\n")
start_server.write("ghdl -a "+fname.split('.')[0]+"_tb.vhdl &&\n")
start_server.write("ghdl -e -Wl,ghdlserver.o "+fname.split('.')[0]+"_tb &&\n")
start_server.write("./"+fname.split('.')[0]+"_tb")
start_server.close()
##################################### Creating and writing in sock_pkg_create.sh ########################################
sock_pkg_create = open('sock_pkg_create.sh','w')
sock_pkg_create.write("echo \"#!/bin/bash\n\n")
sock_pkg_create.write("###This file create sock_pkg_create.vhdl file and set the instance id from parameter based on parameter\n\n")
sock_pkg_create.write("library ieee;\n")
sock_pkg_create.write("package sock_pkg is\n")
sock_pkg_create.write("\tfunction sock_pkg_fun return integer;\n")
sock_pkg_create.write("end;\n\n")
sock_pkg_create.write("\tpackage body sock_pkg is\n")
sock_pkg_create.write("\t\tvariable sock_id : integer;\n")
sock_pkg_create.write("\t\t\tbegin\n")
sock_pkg_create.write("\t\t\t\tsock_id := $1;\n")
sock_pkg_create.write("\t\t\t\treturn sock_id;\n")
sock_pkg_create.write("\t\t\tend function;\n")
sock_pkg_create.write("\t\tend package body;\" > sock_pkg.vhdl")
sock_pkg_create.close()
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