This is a small library to describe packages (that could, potentially, be mailed) and structures that store packages.
A Physical::Package
represents a package. It has an ID, dimensions, and weight.
The Package
takes its dimensions from its container
object, usually a Physical::Box
.
It also has a Set
of Physical::Item
s that together with the container make up everything
about the package.
All containers are thought to be Cuboid
: they have three dimensions and a weight.
The weight of a Package
is the weight of its container plus the weight of all items plus
the weight of any void fill.
By default, the Physical::Box
container is infinitely large. In order to limit the size
of the container, simply give it dimensions.
A Physical::Structure
represents a pallet, skid, rack, or some other collection of packages.
Similar to a Package
, it has an ID, dimensions, and weight.
The Structure
takes its dimensions from its container
object, usually a Physical::Pallet
.
It also has an Array
of Physical::Package
s that together with the container make up
everything about the structure.
The weight of a Structure
is the weight of its container plus the weight of all packages.
Structures do not have void fill.
By default, the Physical::Pallet
container is infinitely large. In order to limit the size
of the container, simply give it dimensions.
Add this line to your application's Gemfile:
gem 'physical'
And then execute:
$ bundle
Or install it yourself as:
$ gem install physical
A basic package has no items and is simply assigned a weight and dimensions. Weights must
be specified as Measured::Weight
objects. Dimensions must be specified as an array of
Measured::Length
objects.
Physical::Package.new(
weight: Measured::Weight(1, :pound),
dimensions: [
Measured::Length(3, :inch),
Measured::Length(4, :inch),
Measured::Length(5, :inch)
]
)
The package's weight and dimensions are retrieved using the #weight
and #dimensions
attribute reader methods.
The length, width and height of a package are defined as the dimension array's first,
second, and third argument, respectively. For the package from the previous example,
#length
will be 3 inches, #width
will be 4 inches, and #height
will be 5 inches.
The following example is a somewhat more elaborate package: we know the items inside!
Physical::Item
objects are Cuboid
, so they have three dimensions and a weight. They also
have a properties
hash that can hold things like any hazardous properties that might
impede shipping.
item_one = Physical::Item.new(
id: '12345',
dimensions: [
Measured::Length(2, :inch),
Measured::Length(4, :inch),
Measured::Length(5, :inch)
],
weight: Measured::Weight(5, :g),
)
item_two = Physical::Item.new(
id: "54321",
dimensions: [
Measured::Length(1, :cm),
Measured::Length(1, :cm),
Measured::Length(1, :cm)
],
weight: Measured::Weight(23, :g)
)
You can initialize a package with items as follows:
package_with_items = Physical::Package.new(
items: [item_one, item_two]
)
This package has no defined container. This means we assume a box that is infinitely large, and
that has zero weight. Thus the weight of this package_with_items
will be 28 grams
(5 g + 23 g = 28 g).
A package also has a container that wraps it. This container is assumed to be a Cuboid
, too -
but one that has inner dimensions, and a weight that is it's own weight which must be added to
item weights in order to find out the total weight of a package.
container = Physical::Box.new(
dimensions: [
Measured::Length(10, :cm),
Measured::Length(15, :cm),
Measured::Length(15, :cm)
],
inner_dimensions: [
Measured::Length(9, :cm),
Measured::Length(14, :cm),
Measured::Length(14, :cm)
],
weight: Measured::Weight(350, :g),
)
If you create a container and omit the inner dimensions, we will assume that the container's inner dimensions are equal to its outer dimensions. This will, in many cases, be good enough (but in some cases you'll need the extra precision).
For an elaborate package with a container box and items, we still cannot find out the full weight
of the package without taking into account void fill (styrofoam, bubble wrap or crumpled newspaper
maybe). We can instruct the package to fill up all the volume not used up by items with void fill.
You can pass the density as a Measured::Weight
object that refers to the weight of 1 cubic
centimeter of void fill:
package = Physical::Package.new(
id: "my_package",
container: container,
items: [item_one, item_two],
void_fill_density: Measured::Weight(0.007, :g)
)
In this case, the package's weight will be slightly above the sum of container weight and the sum of item weights, as we incorporate the approximate weight of the void fill material:
package.weight
=> #<Measured::Weight: 1380.75262208 #<Measured::Unit: g (gram, grams)>>
package.remaining_volume
=> #<Measured::Volume: 1107.51744 #<Measured::Unit: ml (milliliter, millilitre, milliliters, millilitres) 1/1000 l>>
A basic structure has no packages and is simply assigned a weight and dimensions. Weights must
be specified as Measured::Weight
objects. Dimensions must be specified as an array of
Measured::Length
objects.
Physical::Structure.new(
weight: Measured::Weight(1, :pound),
dimensions: [
Measured::Length(48, :inch),
Measured::Length(48, :inch),
Measured::Length(96, :inch)
]
)
The structure's weight and dimensions are retrieved using the #weight
and #dimensions
attribute reader methods.
The length, width and height of a structure are defined as the dimension array's first,
second, and third argument, respectively. For the structure from the previous example,
#length
will be 48 inches, #width
will be 48 inches, and #height
will be 96 inches
(the approximate dimensions of a pallet).
The following example is a somewhat more elaborate structure: we know the packages inside!
Physical::Package
objects are Cuboid
, so they have three dimensions and a weight. They also
have a properties
hash that can hold things like any hazardous properties that might
impede shipping.
package_one = Physical::Package.new(
id: '12345',
dimensions: [
Measured::Length(2, :inch),
Measured::Length(4, :inch),
Measured::Length(5, :inch)
],
weight: Measured::Weight(1, :kg),
)
package_two = Physical::Package.new(
id: "54321",
dimensions: [
Measured::Length(1, :cm),
Measured::Length(1, :cm),
Measured::Length(1, :cm)
],
weight: Measured::Weight(23, :g)
)
You can initialize a structure with packages as follows:
structure_with_packages = Physical::Structure.new(
items: [package_one, package_two]
)
This structure has no defined container. This means we assume a pallet that is infinitely large,
and that has zero weight. Thus the weight of this structure_with_packages
will be 1023 grams
(1 kg + 73 g = 1000 g + 23 g = 1023 g).
A structure also has a container that wraps it. This container is assumed to be a Cuboid
, too -
but one that has inner dimensions, and a weight that is it's own weight which must be added to
package weights in order to find out the total weight of a structure.
container = Physical::Pallet.new(
dimensions: [
Measured::Length(10, :cm),
Measured::Length(15, :cm),
Measured::Length(15, :cm)
],
inner_dimensions: [
Measured::Length(9, :cm),
Measured::Length(14, :cm),
Measured::Length(14, :cm)
],
weight: Measured::Weight(350, :g),
)
If you create a container and omit the inner dimensions, we will assume that the container's inner dimensions are equal to its outer dimensions. This will, in many cases, be good enough (but in some cases you'll need the extra precision).
After checking out the repo, run bin/setup
to install dependencies. Then, run rake spec
to
run the tests. You can also run bin/console
for an interactive prompt that will allow you to
experiment.
To install this gem onto your local machine, run bundle exec rake install
. To release a new
version, update the version number in version.rb
, and then run bundle exec rake release
,
which will create a git tag for the version, push git commits and tags, and push the .gem
file to rubygems.org.
Bug reports and pull requests are welcome on GitHub at https://github.com/friendlycart/physical. This project is intended to be a safe, welcoming space for collaboration, and contributors are expected to adhere to the Contributor Covenant code of conduct.
The gem is available as open source under the terms of the MIT License.
Everyone interacting in the Physical project’s codebases, issue trackers, chat rooms and mailing lists is expected to follow the code of conduct.