1DV512编程辅导、辅导Java/Python程序

日期：2023-03-09 08:11

1DV512 - Lab assignment 1
2022-11-30 1 (5)
1 Introduction
1.1 Assignment Rules
1. This assignment is meant to be solved individually and not in groups. That means the
assignment is evaluated/graded individually.
2. When you believe your assignment is ready to be evaluated/graded, upload your solution
using Moodle’s submission system, and then it will get assessed after some days by us. Please
refer to 2.5 for the submission structure.
2 Description
2.1 Task objective
Your objective is to simulate contiguous memory allocation (see Operating Systems Concepts, mainly
chapter 9.2.2.) using all the first-fit, best-fit, and worst-fit strategies.
The result shall be a memory layout consisting of allocated blocks and holes (free blocks). Also,
external fragmentation shall be computed according to the following formula:
?????????????????????????? = 1 ?
?????????????? ?????????? ???? ???????? ????????????
?????????? ???????? ????????????
Also, a brief report describing your implementation strategies shall be submitted (i.e., your thoughts
when constructing the application).
2.2 Task implementation
To control the order in which allocation, deallocation, and compaction of blocks occurs, an input file
shall be used to list actions (see 2.3.1) to be performed. This means that the file is to be read by your
program running the actions line by line. Simulation results shall be stored in one or more files
according to 2.3.2.
If there is not enough memory to allocate a block, the program should skip the instruction that
would lead to an error and continue the execution with the following statement, if any. The same
applies if a deallocation instruction refers to a non-existing ID. Note that all the occurred errors must
be documented and printed in the output file(s).
Also, all file paths shall be relative to your working directory!
See 2.4 for an execution example (input to output).
2.3 File formats
2.3.1 Input
There are four commands:
Command Parameter 1 Parameter 2 Description
A Block id Amount of memory (bytes) Allocate
D Block id Not used Deallocate
C Not used Not used Compact memory, meaning move
all allocated block towards the
lowest address.
O Not used Not used Output the current status of the
memory in an intermediate output
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file. See 2.3.2 for detailed
information.
Rules:
1. If a command has parameters, they are separated by a ‘;’ character.
2. There can be only one command per line.
3. First line in file is always an integer describing max memory size.
4. Any line thereafter is a command.
File content example:
1000 // Max number of bytes in memory
A;0;100 // Allocate 100 bytes to a block identified by 0
A;1;100
A;2;500
D;1 // Deallocate memory for block 1
A;3;200
D;2
O // Produce an intermediate output file
A;4;1500
D;4
D;5
2.3.2 Output
An output file contains the results from a simulation or an intermediate representation of the
memory during it. Its structure (layout) is described below.
A final output file name uses the input file name with the extension <.out>. An intermediate (e.g.,
generated after invoking the O command) output file name uses the input file name with the
extension <.out#>, where # is the placeholder for an incremental integer. So, if the input file is
‘scenario1.in’, then the final output file is ‘scenario1.out’, while all the intermediate outputs will be
named ‘scenario1.out1’, ‘scenario1.out2’, and so on.
Content structure
Note 1: Anything within a <>-pair below shall be replaced by actual values. ’:’ means additional lines.
E.g., ;; is replaced with, for instance, 0;200;300.
Note 2: Allocated blocks are listed by ascending block id.
Note 3: Free blocks are listed by ascending start address.
Note 4: In case of an allocation error when executing an A command, the following format shall be
used under the Errors section:
;;
Where instruction number refers to the number of the command that triggered the error (that is
equal to its line number – 1) and the max available blocks refer to the maximum amount of
allocation space (NOT the total free space!) available when the error occurred. The type of
instruction must be ‘A’.
In case of a deallocation error when executing a D command, the following format shall be used
under the Errors section:
;;
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Where instruction number refers to the number of the command that triggered the error (that is
equal to its line number – 1) and the reason for failure should be set to 0 if the ID to deallocate was
never attempted to be allocated or to 1 if the ID to deallocate was previously tried to be allocated
but resulted in an error. The type of instruction must be ‘D’.
If the execution did not return any errors (or the intermediate output has no errors until that point),
just output ‘None’ under the Errors section.
Note 5: Fragmentation is ALWAYS a 6 decimals number. This means that if your value is for example
0.5, it should be printed in the output file as 0.500000. Standard rounding rules apply if your value
has more than 6 digits for decimals.
Structure:
First fit
Allocated blocks
;;
:
Free blocks
;
:
Fragmentation

Errors
;;<3rd parameter>
:
Best fit
Allocated blocks
;;
:
Free blocks
;
:
Fragmentation

Errors
;;<3rd parameter>
:
Worst fit
Allocated blocks
;;
:
Free blocks
;
:
Fragmentation

Errors
;;<3rd parameter>
:
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2.4 Execution example
Scenario1.in:
1000
A;0;100
A;1;100
A;2;500
D;1
A;3;200
D;2
O
A;4;1500
D;4
D;5
Scenario1.out1 (first-fit shown only): // this is generated after the O command at line 8
First fit
Allocated blocks
0;0;99
3;700;899
Free blocks
100;699
900;999
Fragmentation
0.142857
Errors
None
Best fit
:
:
Scenario1.out (first-fit shown only): // this is the final output, produced after every command is
processed
First fit
Allocated blocks
0;0;99
3;700;899
Free blocks
100;699
900;999
Fragmentation
0.142857
Errors
A;8;600
D;9;1
D;10;0
Best fit
:
:
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2.5 Submission structure
Your submission MUST be composed of a report in .pdf format and a .zip file containing your
executable source code along with the instructions for building it. Attaching your output files in the
submission is unnecessary, as your code will be executed for every desired input file and the
produced output files will be evaluated. Submissions that fail to comply with this format (e.g., report
in .docx format, no building instructions, report placed inside the .zip file, …) will see a slight
reduction in their overall score.