首页
网站开发
桌面应用
管理软件
微信开发
App开发
嵌入式软件
工具软件
数据采集与分析
其他
首页
>
> 详细
CSC1002代写、代做Python/c++语言程序
项目预算:
开发周期:
发布时间:
要求地区:
CSC1002 – Computational Laboratory
CSC1002 – 2024 Winter By Kinley Lam
Snake – 2024
OVERVIEW
In this assignment, you will design and create a Snake game. The game consists of three elements: a snake, a
few monsters, and a few food items represented by numbers between 1 and 9. In the daigram shown above, the
snake is depicted as a series of squares with its head in red and its tail in black, while the monsters are shown as
purple squares. The numbers represent the food items that the snake needs to consume.
The goal of the game is to maneuver the snake within the game area in four directions (up, down, left and right),
aiming to consume all the food items while avoiding a head-on collision with the monster. Each time a food
item is consumed, the tail of the snake grows in length by the value of the number crossed. While directing the
movement of the snake, you should avoid coming into contact with any monsters. Furthermore, the monster is
also programmed to move towards the snake's head at a variable speed.
Attention: Refer to the section Scope for specific requirements pertaining to this assignment, such as the
quantity and the values of the food items, the expected number of monsters to be deployed on the game, and
so on. All the diagrams shown throughout this document are used for illustration purposes, thus the exact color,
the size, and the number of food items and monsters might not match 100% as specified in the scope section.
CSC1002 – Computational Laboratory
CSC1002 – 2024 Winter By Kinley Lam
The following diagrams show the initial interface of the game (left), the start of the game (middle) after a mouse
click, and the snake (right) with its tail after movement.
The diagrams below display the initial size of the snake (left diagram) and its fully extended tail after consuming
two food items: 3 (middle) and 4 (right). The middle diagram illustrates the complete length of the snake's tail
following the consumption of food item 3, while the right diagram depicts the situation after consuming food
item 4.
CSC1002 – Computational Laboratory
CSC1002 – 2024 Winter By Kinley Lam
The following diagram displays the ending of the game once the snake has consumed all the food, including its
fully extended tail. The status area shows the number of encounters with the monster and the total game time
in seconds:
The following diagram shows another ending of the game, depicting the snake colliding directly with the
monster while some food items remain unconsumed:
CSC1002 – Computational Laboratory
CSC1002 – 2024 Winter By Kinley Lam
SCOPE
• Design the snake game using the standard module “turtle”, including the following components:
a. Game Area (status, motion area and margin)
b. Food Items
c. Snake
d. Monsters
e. Game Status
f. Motion vis Timer (Snake & Monsters)
g. Controls
h. Game Termination
i. Game Startup
• Game Area
a. The game area is composed of a status bar in the upper area and a motion area where the snake
and monster(s) are moved around, surrounded by a fixed margin along the four sides, with the
following dimensions in pixels:
i. Upper status area = around 500 (w) x 60 (h)
ii. Lower motion area = around 500 (w) x 500 (w)
iii. Margins = around 30 pixels
b. Draw a border for both the status area and motion area.
Note: the dimension of the motion area is chosen in multiple of standard turtle shape (default 20
pixels)
Margin
Status Bar
Motion Area
Margin
Margin
CSC1002 – Computational Laboratory
CSC1002 – 2024 Winter By Kinley Lam
• Food Items
c. Display 5 food items from 1 to 5 (1,2,3,4 & 5) within the motion area in random locations. These
numbers will be kept visible all the time until they are consumed by the snake. When the head
of the snake crosses one of these numbers, the number being crossed is considered consumed
and it will be removed from the game area permanently. So, any one food item can be
consumed once.
d. During the game, randomly shift the food items by an appropriate distance, say 40 pixels. Use
an appropriate random timer rate, say a few seconds between 5 and 10, then randomly pick one
or more unconsumed food items, and then shift the positions in any left, right, up or down
directions.
e. Font Size – choose an appropriate font size such that the number is fully enclosed within the
snake’s head such as size 18, Arial font in bold.
f. Alignment – place the food items closely aligned to the snake’s head, see diagram below.
• Snake
a. The snake is composed of a head with a tail which extends as the snake consumes any food
items.
b. Use only a simple, built-in shape “square” for both head and tail, and the default size.
c. Use different colors for the head (ex: red) and the tail (ex: black with blue outline color); choose
outline color for the tail so that the length of the tail can be counted easily.
d. The tail extends as the snake moves, not at the point when the food item is being consumed; in
other words, at the moment the snake crosses a food item, the snake’s tail doesn’t change; as
the snake moves the tail extends in the direction of the movement. The tail extension ends
when the length of the snake has grown in size equal to the value of the number being crossed.
The following diagram shows the sequence of moves of the snake crossing a food item.
CSC1002 – Computational Laboratory
CSC1002 – 2024 Winter By Kinley Lam
e. As the tail is being extended, the movement of the snake will slow down. See “Timer” below.
f. At the start of the game, the length of the tail is set to 5. One square shape counts as one unit
of length, so the tail will be composed of 5 square shapes when fully extended.
• Monsters
a. Deploy 4 monsters at the start of the game in random locations within the motion area, each
with a fair distance from the snake’s head. The locations should be chosen such that the snake’s
head should overlap the shape of the monster when collided, see the diagram below.
b. Each monster is a square-shaped turtle object programmed to move toward the snake, trying to
make a head-on collision.
c. The monsters should move at a random rate, a rate that is slightly faster or slower than that of
the snake. See “Timer” below.
d. Use only a simple, built-in shape “square” for the monster, with the default size of 20 pixels.
e. Choose a different color such as purple.
• Game Status
a. Show the motion key last pressed (Left, Right, Up, Down, or Paused).
CSC1002 – Computational Laboratory
CSC1002 – 2024 Winter By Kinley Lam
b. Show the total count of body contact of the snake with the monster. The count should be based
on the motion of the monster timer. Each time the monster is re-positioned, it should then
check if it overlaps with any part of the snake.
c. Keep track of the total elapsed game time in seconds. The time counter starts as soon as the
game starts and will stop only when the game is over. In other words, the counter will not be
stopped when the snake is paused by the spacebar or stopped when trying to go beyond the
boundaries.
• Motion via Timer
a. “Timer” controls the frequency that a specific event takes place at a regular interval, in this case,
the event is the movement of either the snake or the monster.
b. Use separate timers to manually refresh the movement of both the snake and the monster
i. Turn off the built-in automatic screen refresh, if needed.
c. Keep the timer rate no faster than 0.2 second.
d. On each timer event, always advance the snake or the monster in a distance equivalent to the
length of the turtle shape (square). If the square’s dimension is 20x20 (pixels), then your logic
should advance the turtle object 20 pixels at a time.
e. Both snake and monster move in four directions, left, right, up or down, NOT diagonally.
f. Design the timers in such a way:
i. the monster should move in a random time range slightly above or lower than that of
the snake, while the snake always moves at a constant rate.
ii. when the snake crosses a food item (a number) slow down its movement by increasing
its timer rate until its tail is fully extended, that is, the snake will motion slower while
the tail is being extended
iii. furthermore, you don’t want the snake to move too fast that the monster will never
catch up with the snake, or vice versa. That is, you don’t want the monsters to move so
quickly that they always catch the snake’s head before it has a chance to consume all
the food items.
• Controls
a. Use the four arrow keys (Up, Down, Left, Right) to maneuver the snake in Up, Down, Left and
Right motion respectively.
b. The motion will continue in the direction of the last arrow key pressed. For example, If the Left
key is pressed, the snake will continuously move in the left direction until a different arrow key
is pressed or the spacebar is pressed.
c. Use “Space Bar” to toggle (pause and un-pause) snake motion (note: monsters never pause).
While in motion, pressing the spacebar will pause the snake (not the monster). While paused,
CSC1002 – Computational Laboratory
CSC1002 – 2024 Winter By Kinley Lam
pressing the space bar the snake will resume motion in the direction of the last arrow key
pressed. Furthermore, while paused, pressing any of the four arrow keys will un-pause the
snake motion and move in the direction of the arrow key being pressed.
d. Blocking: The snake is unable to move beyond the boundary of the playing area; if the snake's
head is directed towards any of the 4 sides, it will encounter a blockage and will stay blocked
until its direction is altered away from the obstructed side.
e. The snake can move across its body from left to right, up to down, or vice versa. For instance, if
the snake is currently moving to the right, pressing the left key will make it move to the left,
resulting in its head (red) moving over its tail.
• Game Termination
a. The game ends when the snake consumes all the food items and its body is fully extended. In
this scenario, a brief message “Winner !!” will be displayed. Alternatively, if one of the monsters
catches the snake, a short text "Game Over !!” will appear. Position the text in the center of the
motion area as depicted in the diagrams:
• Game Startup
b. On startup, show (1) the game area with a short message “Click anywhere to start, have fun!!!!”,
(2) the snake (in red) positioned at the center of the motion area and (3) position the monsters
(purple) at random positions far enough from the snake’s head.
CSC1002 – Computational Laboratory
CSC1002 – 2024 Winter By Kinley Lam
c. User mouse-clicks anywhere on the screen to start the game, all the food items will be shown
subsequently, the user then moves the snake around using the 4 arrow keys.
• Coding Styles
a. Ensure that your program follows the proper layout structure as discussed in class.
b. You might declare many global variables used for this assignment, and ensure that a consistent
naming convention is in place to differentiate various variable scopes.
NOTE:
• Keep your entire source code in ONE SINGLE file.
• Use only python modules as specified in the “Permitted Modules” section.
• In your design stick ONLY to functions, in other words, no class objects of your own.
o Furthermore, the lines of code containing the sub-function(s) defined within another
function will be counted as part of the parent function.
CSC1002 – Computational Laboratory
CSC1002 – 2024 Winter By Kinley Lam
STARTUP OPTIONS
Refer to Scope.
SKILLS
In this assignment, you will be trained on the use of the followings:
• Problem Decomposition, Clean Code, Top-Down Design based on functional specification
• Functions (with parameters and return) for program structure and logic decomposition
• Standard objects (strings, numbers & lists)
• Variable Scope (Global vs Local, Constants)
• GUI-based programming: mouse click event, callback, asynchronous-style programming
• Turtle Graphics - a basic graphics drawing tool as the building block for creating the visual
representation of the snake game.
PERMITTED MODULES
Only the following python modules are allowed to be used:
• random, turtle, time, functools.
DELIVERABLES
1. Program source code (A3_School_StudentID.py)
where School is SSE, SDS, SME, HSS, FE, LHS, MED, etc and StudentID is your 9-digit student ID.
Submit the plain (do not compress your file) python file by due date to the corresponding assignment folder
under “Assignment (submission).
For instances, a SME student with student ID “119010001” will name the python file as follows:
• A3_SME_119010001.py:
5% will be deducted if file is incorrectly named!!!
CSC1002 – Computational Laboratory
CSC1002 – 2024 Winter By Kinley Lam
TIPS & HINTS
• Follow the layout structure as mentioned in class (import, declarations, functions, main process).
• Be consistent with naming convention of variable scope
• Refer to python website for program styles and naming convention (PEP 8).
• Use Turtle() as objects for the snake, monster and all food items. Remember to set the pen in “up”
position to avoid line drawing.
• Use the shape() function to set the shape for your objects, or pass the shape as string to the Turtle().
Note: use simple, built-in shape such as “square” for your snake and monster objects. Complex shapes
will slow down the screen refresh!!!!
• Use write() to display a text on the screen via turtle object.
• Use Screen() to configure the overall size of the game area
• Use tracer(0) to disable auto screen refresh and call update() to manually refresh the game area.
• Use stamp() to copy image of the turtle shape at its current position; use clearstamp(idx) to remove a
specific stamp copy or clearstamps() to clear one or more stamp copies.
• Use ontimer() to separately motion your snake and monster.
• Use distance() to determine if two squares are overlapped.
• Use towards() to determine the angle between two turtle objects.
• Refer to https://docs.python.org/3/library/turtle.html for more information on Turtle Graphics.
SAMPLE OUTPUT
Refer to the Overview section.
CSC1002 – Computational Laboratory
CSC1002 – 2024 Winter By Kinley Lam
MARKING CRITERIA
• Coding Styles – overall program structure including layout, comments, white spaces, naming convention,
variables, indentation, functions with appropriate parameters and return.
• Design Documentation if required
• Program Correctness – whether or the program works 100% as per Scope.
• User Interaction – how informative and accurate information is exchanged between your program and
the player.
• Readability counts – programs that are well structured and easy-to-follow using functions to breakdown
complex problems into smaller cleaner generalized functions are preferred over a function embracing a
complex logic with nested conditions and sub-functions! In other words, a design with clean
architecture with high readability is the predilection for the course objectives over efficiency. The logic
in each function should be kept simple and short, and it should be designed to perform a single task and
be generalized with parameters as needed.
• KISS approach – Keep It Simple and Straightforward.
• Balance approach – you are not required to come up a very optimized solution. However, take a
balance between readability and efficiency with good use of program constructs.
ITEMS PERCENTAGE REMARKS
CODING STYLES 20% 0% IF PROGRAM DOESN’T RUN
USER INTERFACE 20% 0% IF PROGRAM DOESN’T RUN
FUNCTIONALITY 60% REFER TO SCOPE
DUE DATE
April 28th, 2024, 11:59:59PM
CSC1002 – Computational Laboratory
CSC1002 – 2024 Winter By Kinley Lam
OTHER IDEAS:
Please DO NOT IMPLEMENT ANY OF THESE FEATURES with your assignment except for those
items mentioned in the Scope section.
If you feel that you have the passion for programming, here’s list of other ideas that you could further enhance
your program by refactoring your existing logic.
1. Deploy multiple monsters one by one; start with one monster initially and then a new one on every fixed
time interval.
2. Set a game time limit; player must finish the game within the set time limit
3. Randomly hide and unhide any food items on random time interval.
4. Deploy additional food items based on game time.
5. Randomly shift any food items; shift food items in random direction (left, right, up or down), not too
much a shift, yet enough to confuse the player
6. Do not allow the snake to cross its body; block its movement
7. Implement surprise items; you can have reward or penalty items on screen for snake to consume:
a. Reward: Increase game time limit (20 seconds)
b. Reward: Freeze motion of all monsters for a few seconds (10 seconds)
c. Penalty: generate another food item
d. Penalty: Hide all food items for a few seconds (10 seconds)
8. Add sound effect (motion, body contact, food consumption, surprise items and so on).
Further challenges: After you submit your assignment, leave the program alone and wait until the end of the
school year, around end July, then start the development. You will see the value of refactoring and
decomposition. Share me your experiences on your development.
NOTE:
• No extra credit will be given
• Remember to show your game objectives, or include a readme.txt file
• Share your program to me by email
• If you come up with other ideas share them with me as well
• Enjoy programming
软件开发、广告设计客服
QQ:99515681
邮箱:99515681@qq.com
工作时间:8:00-23:00
微信:codinghelp
热点项目
更多
代写dts207tc、sql编程语言代做
2024-12-25
cs209a代做、java程序设计代写
2024-12-25
cs305程序代做、代写python程序...
2024-12-25
代写csc1001、代做python设计程...
2024-12-24
代写practice test preparatio...
2024-12-24
代写bre2031 – environmental...
2024-12-24
代写ece5550: applied kalman ...
2024-12-24
代做conmgnt 7049 – measurem...
2024-12-24
代写ece3700j introduction to...
2024-12-24
代做adad9311 designing the e...
2024-12-24
代做comp5618 - applied cyber...
2024-12-24
代做ece5550: applied kalman ...
2024-12-24
代做cp1402 assignment - netw...
2024-12-24
热点标签
mktg2509
csci 2600
38170
lng302
csse3010
phas3226
77938
arch1162
engn4536/engn6536
acx5903
comp151101
phl245
cse12
comp9312
stat3016/6016
phas0038
comp2140
6qqmb312
xjco3011
rest0005
ematm0051
5qqmn219
lubs5062m
eee8155
cege0100
eap033
artd1109
mat246
etc3430
ecmm462
mis102
inft6800
ddes9903
comp6521
comp9517
comp3331/9331
comp4337
comp6008
comp9414
bu.231.790.81
man00150m
csb352h
math1041
eengm4100
isys1002
08
6057cem
mktg3504
mthm036
mtrx1701
mth3241
eeee3086
cmp-7038b
cmp-7000a
ints4010
econ2151
infs5710
fins5516
fin3309
fins5510
gsoe9340
math2007
math2036
soee5010
mark3088
infs3605
elec9714
comp2271
ma214
comp2211
infs3604
600426
sit254
acct3091
bbt405
msin0116
com107/com113
mark5826
sit120
comp9021
eco2101
eeen40700
cs253
ece3114
ecmm447
chns3000
math377
itd102
comp9444
comp(2041|9044)
econ0060
econ7230
mgt001371
ecs-323
cs6250
mgdi60012
mdia2012
comm221001
comm5000
ma1008
engl642
econ241
com333
math367
mis201
nbs-7041x
meek16104
econ2003
comm1190
mbas902
comp-1027
dpst1091
comp7315
eppd1033
m06
ee3025
msci231
bb113/bbs1063
fc709
comp3425
comp9417
econ42915
cb9101
math1102e
chme0017
fc307
mkt60104
5522usst
litr1-uc6201.200
ee1102
cosc2803
math39512
omp9727
int2067/int5051
bsb151
mgt253
fc021
babs2202
mis2002s
phya21
18-213
cege0012
mdia1002
math38032
mech5125
07
cisc102
mgx3110
cs240
11175
fin3020s
eco3420
ictten622
comp9727
cpt111
de114102d
mgm320h5s
bafi1019
math21112
efim20036
mn-3503
fins5568
110.807
bcpm000028
info6030
bma0092
bcpm0054
math20212
ce335
cs365
cenv6141
ftec5580
math2010
ec3450
comm1170
ecmt1010
csci-ua.0480-003
econ12-200
ib3960
ectb60h3f
cs247—assignment
tk3163
ics3u
ib3j80
comp20008
comp9334
eppd1063
acct2343
cct109
isys1055/3412
math350-real
math2014
eec180
stat141b
econ2101
msinm014/msing014/msing014b
fit2004
comp643
bu1002
cm2030
联系我们
- QQ: 9951568
© 2021
www.rj363.com
软件定制开发网!