[SOLVED] CISC 108: Introduction to Computer Science I

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CISC 108: Introduction to Computer Science I, Fall 2016

Lab 4

Lab 4
Goals and Instructions

Relevant sections of text: HtDP/2e Chapters 6, 7, 8; 9.0, 9.1; 10.0, 10.1, 10.2. This weeks lab will help you to practice:

complex itemizations (e.g., itemizations of structures or other mixed types) simple functions on lists of structures.

Instructions. Please submit all answers via Sakai in a single, runnable file named lab4.rkt. Do all work in pairs. Include the names of both partners at the top of the file in a comment. You need only submit one lab per pair. Make sure your submission runs without errors (you can comment out sections that dont work for partial credit).

Add the following lines to the beginning of your file:

(require 2htdp/batch-io)

(require google-maps-API.rkt)
The batch-io library allows you to use the function write-file to help you debug your program, as

suggested in the lab.
The google-maps-API.rkt file must be downloaded with your lab4.rkt starter solution file from

Sakai. It must be in the same directory as your solutions file. It contains a simple interface to the actual live Google Static Maps API (to be explained later)

It goes without saying, but you must use the Design Recipe for all functions. In particular,
Dont forget to write a signature, purpose statement, and unit tests for every function. Write the tests before you write the function definition.
Break up functions into smaller functions if they become too complex.
Define every Type you use with a correct Data Definition.

Structure (Compound) Type definitions MUST include

  • Interpretation of fields
  • at least one example
  • the template
  • [Optional: write out the constructor, selector, and type predicate signatures if you are unsure of them]

    Itemization (Mixture) Type definitions MUST include the template

    Note: you dont need examples, since the itemized choices already have examples Note: you dont need an interpretation of fields, since an Itemization has no fields.

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CISC 108: Introduction to Computer Science I, Fall 2016 Lab 4

Mapping Things

With wearable and easily carried GPS devices like smart phones, mapping the locations of things has become a standard part of many of our daily lives. In this lab you will build some data structures to represent a few common mappable things, and an interface to all of them that can be saved to a file, or displayed graphically using Googles public static maps API (Application Programming Interface)a web service.

It would not be a bad analogy to think of accessing services over the web (or in the cloud) as calling a function (albeit remotely) that consumes certain structured data types and produces other structured data types, according to a well defined signature: exactly the kind of thing you should now be used to doing!

Realistic APIs (Application Programming Interfaces) to such data recognize three things:

  1. Therearemanydifferentkindsofinformationwemightmap.Thisimpliesdifferentdatatypes to represent this information computationally. We will use structures to represent different kinds of information as different types.
  2. Ourapplicationneedstotreatthesedatabothindependently(e.g.WhatistheYelp!ratingofthis restaurant), and collectively (e.g. What things are nearby my current location?). We will use an itemization of structures (mixture/union/interface) to write functions that work on all mappable info collectively; structures already work on independent map information.
  3. Thereisanarbitrarynumberofmappablethings.Wellusealistofmappableitemstohandle arbitrary amounts of information.

Problem 1

Design a data type called Restaurant to represent a place that serves food. A Restaurant should contain a name, a phone number, a rating from 0 to 5 stars indicating the food quality, and a GeoLoc. GeoLoc should itself be a data type that you define. A GeoLoc should consist of a latitude [-90,90] and longitude [-180,180] in decimal degrees. Define other data types if appropriate. [In a real system, this info might come from another API; in fact the sample data we provide is from Yelp!.]

Problem 2

Design a data type called Person to represent your contacts. A Person should of course include a name, a phone number, and GeoLoc. You must re-use the GeoLoc data type definition from Problem 1,

as well as add any new data definitions as required. [In a real system, this data would come from two other APIs: your local contacts and some remote GPS service like Apples FindMyFriends.]

Problem 3

Design a data type called GeoFence to represent a geo-fenced area notification; this notification should be displayed if you are currently within the given radius. A GeoFence should include a GeoLoc

indicating the center of the area, a radius in meters, and a short textual description. It goes without saying (this last time) reuse earlier definitions if useful, and define others if necessary. [Again, this data might come from a different source we are not building for this lab.]

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CISC 108: Introduction to Computer Science I, Fall 2016 Lab 4

Problem 4

Design a data type called Mappable that can either be a Restaurant, Person, GeoFence, or simply a GeoLoc.

Problem 5

Design a function mappable->string that accepts a Mappable and produces a string representation of the given Mappable.

A Restaurant should be displayed as follows:
[3 stars] Santa Fe Mexican Grill [302-369-2500] <39.6837546,-75.7456899>

A Person should be displayed as follows:
Dr. Siegel [302-831-0083] <39.682531,-75.754329>

A GeoFence should be displayed as follows:
Velociraptor Paddock: (1000 Meters) <39.665648,-75.749031>

A GeoLoc should be displayed as follows:
Location <39.689071,-75.757207>

For full credit you will need to develop several (at least 4) helper functions (one function, one purpose). Your helper functions should also prevent REPEATING code fragments (write it only once, use it everywhere)such repetition is a maintenance nightmare, since every copy must be found/fixed/ changed.

HINT: BSL will try to represent exact decimals as rational numbers:

 > (number->string 3.14)

157/50

In order to keep the decimals, convert them to inexact numbers first:

 > (number->string (exact->inexact 3.14)) "3.14"

Problem 6

Design a function distance that accepts two Mappable arguments and produces the distance in meters between them. A GeoFence should be measured from the outside of the radius, not the center. So if I am 20 meters away from (the center of) a GeoFence of radius 10, then I am a distance of 10 meters away, because I am 10 meters away from the fence around the center point.

The star is 10m from the fence

10m Page 3of 620m

CISC 108: Introduction to Computer Science I, Fall 2016 Lab 4

Note that for full credit you will need to define helper functions as needed (I will stop repeating this now)

Because determining distance with latitude/longitude is, admittedly, difficult due to the Earths curvature and no one remembering 9th grade conic section geometry, we have provided one helper function

 ;; gps-distance : Number Number Number Number > Number ;; Parameters ;;Number latA: latitude of point A ;;Number lonA: longitude of point A
 ;;Number latB: latitude of point B ;;Number lonA: longitude of point B ;; Produces the approximate distance in meters between A and B

Problem 7

Design a function nearby? that consumes two Mappable arguments, and a distance in meters, and produces #true if the distance between the Mappables is strictly less than the given distance.

Define helper functions if needed for full credit on this problem. (Sorry. Ill stop now. Really.)

Problem 8

Design a data type called ListOfMappable that is a list of Mappable. Problem 9

Design a function select-nearby that consumes a ListOfMappable, a Mappable, and a distance and produces a copy of the given ListOfMappable containing only the Mappable elements that fall strictly within the given distance.

Problem 10

Design a function acceptable-restaurants that consumes an ListOfMappable and a minimum star rating, and produces a ListOfMappable that includes only those restaurants on the list, if any, that meet or exceed the given rating criteria.

Problem 11

Design a function mappables->string that accepts a ListOfMappable and produces a String representation of the given ListOfMappable where each Mappable is displayed as in Problem 5, separated by a newline (
) and in the order that they appear in the given ListOfMappable.

Note that in the interactions window and in your check-expect results, newlines will not be displayed. Instead you will see a literal
.

To help debug string representations of this (or other large strings), you may wish to write your result to a file on your computer, which you can then view with your favorite text editor.

Page 4 of 6

CISC 108: Introduction to Computer Science I, Fall 2016 Lab 4 You can use the write-file function to write a string to a file. Calling write-file as follows will write

the string hello world into a file called tmp.txt in the same directory as where your lab4.rkt file is stored.

(write-file "tmp.txt" "hello world")

When written to a file, all
in a string will be converted to actual newlines. You can also write to the screen Standard Output by calling

(write-file 'stdout "hello
 world
)

Make sure you comment out all calls to write-file before you submit your lab. The TAs do not want a bunch of random files littering their drives.

Google Static Map API

Now, what would be better to show off your list of mappable things than an actual map? In order to draw the map, well call on Googles static map API [Note: This API call to Google is LIVE and will require an active Internet connection. DONT ABUSE THE PRIVILEGE. Google will ban your computer if you ask for thousands of maps without registering for developer access first. You are restricted to 50 maps per minute, and 1000 maps per 24 hours. We use only 1 map in this lab.]

The Google API, just like the functions you write, uses some structures to indicate what kind of map tile to produce, and where you would like your map centered and where to place and style each marker. Sometimes programmers summarize large structure data definitions with a picture like the following (called a UML [Unified Modeling Language] class diagram). This picture shows you that a GMapRQ

structure contains within it a list of Marker structures). The other fields are either atomic types we

already know, or simple enumerations or intervals on those types (note the use of both intervals and enumerations in Googles API). A UML diagram of the Google Static Map Request API looks like this:

Note again the use of Structures, Intervals and Enumerations by Google. The fields xsize, ysize and zoom are intervals, and the maptype, marker color and marker label are String enumerations (all data definitions details are documented in lab4.rkt). For this lab, we will not be using the optional center and zoom parameters, so center can be the empty string and zoom may be 0.

These structure definitions are already provided in google-maps-api.rkt; you do not have to define them. We have provided the full data definitions and templates in lab4.rkt.

Problem 12

Design a function mappables->markers that consumes a ListOfMappables and produces a ListOfMarkers. Restaurants should be colored blue and labeled R; People should be colored green

and labeled P; geo-fenced areas should be colored red and labeled F (you will not need to draw the circle indicating the fenced area). Simple geolocs should be grey and labeled G.

GMapRQ

xsize
ysize
center
zoom
maptype [MapTypeString] markers ListOf[Marker]

[PosInt [1..640]] [PosInt [1..640]] [GoogleLoc] {optional} [Int [0..21]] {optional}

Marker

color [MarkerColorString] label [Label1String]
lat [Number [-90..90]] long [Number [-180..180]]

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ListOf

CISC 108: Introduction to Computer Science I, Fall 2016 Lab 4

Problem 13

Develop the function map-request that consumes a ListOfMappables and produces a Google Static Map Request [GMapRQ]. We suggest a map width of about 400-500 pixels and the same for the height; these values should be defined as constants.

Problem 14

We have provided the following API for your use (again, remember this is a live call to Googles servers and requires an active Internet connection):

 ;; get-static-map-tile : GMapRQ > Image ;; Parameters ;; GMapRQ m: a Google static Map tile Request ;; Produces image of requested map tile containing all markers

Write two function calls to get-static-map-tile:
One producing a map with all three types of markers (your choice).

One producing a map of restaurants with more than 3 stars near to a location of your choice <lat,long>.

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[SOLVED] CISC 108: Introduction to Computer Science I
$25