Read CSS: The Definitive Guide, 3rd Edition Online

Authors: Eric A. Meyer

Tags: #COMPUTERS / Web / Page Design

CSS: The Definitive Guide, 3rd Edition (15 page)

Font Weights

Even though you may not
realize it, you're already familiar with font weights; boldfaced text is a very common
example of an increased font weight. CSS gives you more control over weights, at least
in theory, with the property
font-weight
.

font-weight

Values:

normal
|
bold
|
bolder
|
lighter
|
100
|
200
|
300
|
400
|
500
|
600
|
700
|
800
|
900
|
inherit

Initial value:

normal

Applies to:

All elements

Inherited:

Yes

Computed value:

One of the numeric values (
100
, etc.),
or one of the numeric values plus one of the relative values (
bolder
or
lighter
)

Generally speaking, the heavier a font weight becomes, the darker and "more bold" a
font appears. There are a great many ways to label a heavy font face. For example, the
font family known as Zurich has a number of variants, such as Zurich Bold, Zurich Black,
Zurich UltraBlack, Zurich Light, and Zurich Regular. Each of these uses the same basic
font, but each has a different weight.

So let's say that you want to use Zurich for a document, but you'd like to make use
of all those different heaviness levels. You could refer to them directly through the
font-family
property, but you really shouldn't
have to do that. Besides, it's no fun having to write a style sheet like this:

h1 {font-family: 'Zurich UltraBlack', sans-serif;}
h2 {font-family: 'Zurich Black', sans-serif;}
h3 {font-family: 'Zurich Bold', sans-serif;}
h4, p {font-family: Zurich, sans-serif;}
small {font-family: 'Zurich Light', sans-serif;}

Aside from the obvious tedium of writing such a style sheet, it works only if
everyone has these fonts installed, and it's a pretty safe bet that most people don't.
It would make far more sense to specify a single font family for the whole document and
then assign different weights to various elements. You can do this, in theory, using the
various values for the property
font-weight
. This is
a fairly obvious
font-weight
declaration:

b {font-weight: bold;}

This declaration says, simply, that the
b
element
should be displayed using a boldface font; or, to put it another way, a font that is
heavier than the normal font for the document. This is what we're used to, of course,
since
b
does cause text to be boldfaced.

However, what's really happening is that a heavier variant of the font is used for
displaying a
b
element. Thus, if you have a paragraph
displayed using Times, and part of it is boldfaced, then there are really two variants
of the same font in use: Times and TimesBold. The regular text is displayed using Times,
and the boldfaced text is displayed using TimesBold.

How Weights Work

To understand how a user agent determines the heaviness,
or weight, of a given font variant, not to mention how weight is inherited, it's
easiest to start by talking about the keywords
100
through
900
. These number keywords were defined to
map to a relatively common feature of font design in which a font is given nine
levels of weight. OpenType, for example, employs a numeric scale with nine values. If
a font has these weight levels built-in, then the numbers are mapped directly to the
predefined levels, with
100
as the lightest
variant on the font and
900
as the heaviest.

In fact, there is no intrinsic weight in these numbers. The CSS specification says
only that each number corresponds to a weight at least as heavy as the number that
precedes it. Thus,
100
,
200
,
300
, and
400
might all map to the same relatively lightweight
variant;
500
and
600
could correspond to the same heavier font variant; and
700
,
800
, and
900
could all produce the same very heavy font
variant. As long as no keyword corresponds to a variant that is lighter than the
variant assigned to the previous keyword, everything will be all right.

As it happens, these numbers are defined to be equivalent to certain common
variant names, not to mention other values for
font-weight
.
400
is defined to be
equivalent to
normal
, and
700
corresponds to
bold
. The other
numbers do not match up with any other values for
font-weight
, but they can correspond to common variant names. If there
is a font variant labeled something such as "Normal," "Regular," "Roman," or "Book,"
then it is assigned to the number
400
and any
variant with the label "Medium" is assigned to
500
. However, if a variant labeled "Medium" is the only variant available,
it is
not
assigned to
500
but
instead to
400
.

A user agent has to do even more work if there are fewer than nine weights in a
given font family. In this case, it must fill in the gaps in a predetermined way:

  • If the value
    500
    is unassigned, it is
    given the same font weight as that assigned to
    400
    .

  • If
    300
    is unassigned, it is given the
    next variant lighter than
    400
    . If no lighter
    variant is available,
    300
    is assigned the
    same variant as
    400
    . In this case, it will
    usually be "Normal" or "Medium." This method is also used for
    200
    and
    100
    .

  • If
    600
    is unassigned, it is given the
    next variant darker than that assigned for
    500
    . If no darker variant is available,
    600
    is assigned the same variant as
    500
    . This method is also used for
    700
    ,
    800
    , and
    900
    .

To illustrate this weighting scheme more clearly, let's look at three examples of
font weight assignment. In the first example, assume that the font family Karrank% is
an OpenType font, so it has nine weights already defined. In this case, the numbers
are assigned to each level, and the keywords
normal
and
bold
are assigned to the
numbers
400
and
700
, respectively.

In our second example, consider the font family Zurich, which was discussed near
the beginning of this section. Hypothetically, its variants might be assigned numeric
values for
font-weight
, as shown in
Table 5-1
.

Table 5-1. Hypothetical weight assignments for a specific font family

Font face

Assigned keyword

Assigned number(s)

Zurich Light

 

100
,
200
,
300

Zurich Regular

normal

400

Zurich Medium

 

500

Zurich Bold

bold

600
,
700

Zurich Black

 

800

Zurich UltraBlack

 

900

The first three number values are assigned to the lightest weight. The "Regular"
face gets the keyword
normal
, as expected, and the
number weight
400
. Since there is a "Medium" font,
it's assigned to the number
500
. There is nothing
to assign to
600
, so it's mapped to the "Bold"
font face, which is also the variant to which
700
and
bold
are assigned. Finally,
800
and
900
are
assigned to the "Black" and "UltraBlack" variants, respectively. Note that this last
assignment would happen only if those faces had the top two weight levels already
assigned. Otherwise, the user agent might ignore them and assign
800
and
900
to the
"Bold" face instead, or it might assign them both to one or the other of the "Black"
variants.

Finally, let's consider a stripped-down version of Times. In
Table 5-2
, there are only two weight
variants: "TimesRegular" and "TimesBold."

Table 5-2. Hypothetical weight assignments for "Times"

Font face

Assigned keyword

Assigned numbers

TimesRegular

normal

100
,
200
,
300
,
400
,
500

TimesBold

bold

600
,
700
,
800
,
900

The assignment of the keywords
normal
and
bold
is straightforward enough, of course. As
for the numbers,
100
through
300
are assigned to the "Regular" face because there
isn't a lighter face available.
400
is assigned to
"Regular" as expected, but what about
500
? It is
assigned to the "Regular" (or
normal
) face because
there isn't a "Medium" face available; thus, it is assigned the same font face as
400
. As for the rest,
700
goes with
bold
as always, while
800
and
900
,
lacking a heavier face, are assigned to the next-lighter face, which is the "Bold"
font face. Finally,
600
is assigned to the
next-heavier face, which is, of course, the "Bold" face.

font-weight
is inherited, so if you set a
paragraph to be
bold
:

p.one {font-weight: bold;}

then all of its children will inherit that boldness, as we see in
Figure 5-4
.

Figure 5-4. Inherited font-weight

This isn't unusual, but the situation gets interesting when you use the last two
values we have to discuss:
bolder
and
lighter
. In general terms, these keywords have the
effect you'd anticipate: they make text more or less bold compared to its parent's
font weight. First, let's consider
bolder
.

Getting Bolder

If you set an element to have a weight of
bolder
, then the user agent first must determine what
font-weight
value was inherited from the parent
element. It then selects the lowest number, which corresponds to a font weight darker
than what was inherited. If none is available, then the user agent sets the element's
font weight to the next numerical value, unless the value is already
900
, in which case the weight remains at
900
. Thus, you might encounter the following situations,
illustrated in
Figure 5-5
:

p {font-weight: normal;}
p em {font-weight: bolder;} /* results in bold text, evaluates to '700' */
h1 {font-weight: bold;}
h1 b {font-weight: bolder;} /* if no bolder face exists, evaluates to '800' */
div {font-weight: 100;} /* assume 'Light' face exists; see explanation */
div strong {font-weight: bolder;} /* results in normal text, weight '400' */

Figure 5-5. Text trying to be bolder

In the first example, the user agent moves up the weight ladder from
normal
to
bold
; in
numeric terms, it jumps from
400
to
700
. In the second example,
h1
text is already set to
bold
. If
there is no bolder face available, then the user agent sets the weight of
b
text within an
h1
to
800
, since that is the next step up from
700
(the numeric equivalent of
bold
). Since
800
is
assigned to the same font face as
700
, there is no
visible difference between normal
h1
text and
boldfaced
h1
text, but the weights are different
nonetheless.

In the last example, paragraphs are set to be the lightest possible font weight,
which we assume exists as a "Light" variant. Furthermore, the other faces in this
font family are "Regular" and "Bold." Any
em
text
within a paragraph will evaluate to
normal
since
that is the next-heaviest face within the font family. However, what if the only
faces in the font are "Regular" and "Bold"? In that case, the declarations would
evaluate like this:

/*   assume only two faces for this example: 'Regular' and 'Bold'   */
p {font-weight: 100;} /* looks the same as 'normal' text */
p span {font-weight: bolder;} /* maps to '700' */

As you can see, the weight
100
is assigned to
the
normal
font face, but the value of
font-weight
is still
100
. Thus, any
span
text that is
descended from a
p
element will inherit the value
of
100
and then evaluate to the next-heaviest
face, which is the "Bold" face with a numerical weight of
700
.

Let's take this one step further and add two more rules, plus some markup, to
illustrate how all of this works (see
Figure
5-6
for the results):

/*   assume only two faces for this example: 'Regular' and 'Bold'   */
p {font-weight: 100;} /* looks the same as 'normal' text */
p span {font-weight: 400;} /* so does this */
strong {font-weight: bolder;} /* even bolder than its parent */
strong b {font-weight: bolder;} /*bolder still */


This paragraph contains elements of increasing weight: there is a
span element that contains a strongly emphasized
element and a boldface element
.


Figure 5-6. Moving up the weight scale

In the last two nested elements, the computed value of
font-weight
is increased because of the liberal use of the keyword
bolder
. If you were to replace the text in the
paragraph with numbers representing the
font-weight
of each element, you would get the results shown here:


100 400 700 800 .


The first two weight increases are large because they represent jumps from
100
to
400
and from
400
to
bold
(
700
). From
700
, there is no heavier face, so the user agent simply
moves the value of
font-weight
one notch up the
numeric scale (
800
). Furthermore, if you were to
insert a
strong
element into the
b
element, it would come out like this:


100 400 700 800 900
.


If there were yet another
b
element inserted
into the innermost
strong
element, its weight
would also be
900
, since
font-weight
can never be higher than
900
. Assuming that there are only two font faces available, then the text
would appear to be either Regular or Bold, as you can see in
Figure 5-7
:


regular regular bold bold
bold
.


Figure 5-7. Visual weight, with descriptors

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