Ejemplo n.º 1
0
def myFunc():
    assign_labelled_instruction()
    globalss.assign_register()
    a = error_handling()
    if a == 1:
        print('not passed')
        sys.exit()
    print('passed')
    convert_to_machinecode()
    globalss.assign_memory()
    globalss.assign_stack()

    file2 = open('machinecode.txt', 'r')
    i = 1
    each = str(linecache.getline('machinecode.txt', i))  # Execution will be done now
    while each != '':
        print((each))
        global reg
        each = each.split()
        PC_Seq.append(globalss.PC_execution) #new
        if (len(each) == 1):
            reg_step.append(register.tolist()) #new
            memory_step.append(memory_array.tolist()) #new
            globalss.PC_execution = globalss.PC_execution + 4
            i = int(globalss.PC_execution / 4) + 1
            each = (linecache.getline('machinecode.txt', i))
            continue
        lii = fetch(each)

        reg = decode(lii)
        reg = determine_exact_instruction(lii,
                                          reg)  # now exact instruction name will be appended #reg[rd,rs1,rs2,imm,type,oriname]

        reg = execute(reg)
        reg = memoryaccess(reg)  # a new value has been appended. We will use this value in regsiter update
        # reg[rd,rs1,rs2,imm,type,oriname,execute_result,memoryaccessreult]
        registerupdate(reg)
        
        print(reg)
        i = int(globalss.PC_execution / 4) + 1
        print(i)
        each = (linecache.getline('machinecode.txt', i))
        reg.clear()
        # print("Current register")
        # print(globalss.register)
        # print("Current memory")
        # print(globalss.memory_array)

        reg_step.append(register.tolist()) #new
        memory_step.append(memory_array.tolist()) #new
        # globalss.reg_step.append(globalss.register)
        # globalss.memory_step.append(globalss.memory_array)
        globalss.register[0] = 0
    file2.close()
    print(globalss.memory_array)
    print("$$$$$$$$$$$$$")
    print(PC_Seq)
    print(register)
    print("^^^^^^")
    print(reg_step)
from decode1 import *
from execute1 import *
from memoryaccess1 import *
from registerupdate1 import *
import linecache
from error_handling import *

assign_labelled_instruction()
globalss.assign_register()
a = error_handling()
if a == 1:
    #print('not passed')
    sys.exit()
#print('passed')
convert_to_machinecode()
globalss.assign_memory()
globalss.assign_stack()

pipeline = []
parameter = []
lii_list = []

cycle_count = 0
stalls = 0

file2 = open('machinecode.txt', 'r')
i = 1
each = str(linecache.getline('machinecode.txt', i))
flag = 0
flag1 = 0
change = 0
Ejemplo n.º 3
0
from execute0 import *
from memoryaccess1 import *
from registerupdate1 import *
import linecache
from error_handling import *

assign_labelled_instruction()  #Labelled instruction has been stored in list
globalss.assign_register()  # a 32 length array nas been assigned for register
a = error_handling()  #checking for error
if a == 1:
    print('not passed')  #if error exist
    sys.exit()
print('passed')  #no error
convert_to_machinecode(
)  # Phase 1 portion ...A machinecode.txt file has been created
globalss.assign_memory()  # 1000 size array has been assigned for memory
globalss.assign_stack()  # 1000 size array has been assigned for stack

file2 = open('machinecode.txt', 'r')
i = 1
CLOCK = 0
each = str(linecache.getline('machinecode.txt',
                             i))  #Execution will be done now
while each != '':
    print((each))
    global reg
    each = each.split()
    if (len(each) == 1):
        globalss.PC_execution = globalss.PC_execution + 4
        i = int(globalss.PC_execution / 4) + 1
        each = (linecache.getline('machinecode.txt', i))