# D'Hondt method

The D'Hondt method,[a] also called the Jefferson method or the greatest divisors method, is a method for allocating seats in parliaments among federal states, or in party-list proportional representation systems. It belongs to the class of highest-averages methods.

The method was first described in 1792 by future U.S. president Thomas Jefferson. It was re-invented independently in 1878 by Belgian mathematician Victor D'Hondt, which is the reason for its two different names.

## Motivation

Proportional representation systems aim to allocate seats to parties approximately in proportion to the number of votes received. For example, if a party wins one-third of the votes then it should gain about one-third of the seats. In general, exact proportionality is not possible because these divisions produce fractional numbers of seats. As a result, several methods, of which the D'Hondt method is one, have been devised which ensure that the parties' seat allocations, which are of whole numbers, are as proportional as possible.[1] Although all of these methods approximate proportionality, they do so by minimizing different kinds of disproportionality. The D'Hondt method minimizes the number of votes that need to be left aside so that the remaining votes are represented exactly proportionally. Only the D'Hondt method (and methods equivalent to it) minimizes this disproportionality.[2] Empirical studies based on other, more popular concepts of disproportionality show that the D'Hondt method is one of the least proportional among the proportional representation methods. The D'Hondt slightly favours large parties and coalitions over scattered small parties.[3][4][5][6] In comparison, the Webster/Sainte-Laguë method, a different divisor method, reduces the reward to large parties, and it generally has benefited middle-size parties at the expense of both large and small parties.[7]

The axiomatic properties of the D'Hondt method were studied and they proved that the D'Hondt method is the unique consistent, monotone, stable, and balanced method that encourages coalitions.[8][9] A method is consistent if it treats parties that received tied vote equally. By monotonicity, the number of seats provided to any state or party will not decrease if the house size increases. A method is stable if two merged parties would neither gain nor lose more than one seat. By coalition encouragement of the D'Hondt method, any alliance cannot lose the seat.

## Usage

Legislatures using this system include those of Åland, Albania, Angola, Argentina, Armenia, Aruba, Austria, Belgium, Bolivia, Brazil, Burundi, Cambodia, Cape Verde, Chile, Colombia, Croatia, Denmark, the Dominican Republic, East Timor, Ecuador, Estonia, Fiji, Finland, Greenland, Guatemala, Hungary, Iceland, Israel, Japan, Luxembourg, Moldova, Monaco, Montenegro, Mozambique, Netherlands, Nicaragua, North Macedonia, Paraguay, Peru, Poland, Portugal, Romania, San Marino, Serbia, Slovenia, Spain, Switzerland, Turkey, Uruguay and Venezuela.

The system is used for the "top-up" seats in the Scottish Parliament, the Senedd (Welsh Parliament) and the London Assembly; in some countries for elections to the European Parliament; and was used during the 1997 Constitution era to allocate party-list parliamentary seats in Thailand.[10] A modified form was used for elections in the Australian Capital Territory Legislative Assembly, but this was abandoned in favour of the Hare–Clark electoral system. The system is also used in practice for the allocation between political groups of numerous posts (Vice Presidents, committee chairmen and vice-chairmen, delegation chairmen and vice-chairmen) in the European Parliament and for the allocation of ministers in the Northern Ireland Assembly.[11] It is also used to calculate the results in German and Austrian works council elections.[12]

## Procedure

After all the votes have been tallied, successive quotients are calculated for each party. The party with the largest quotient wins one seat, and its quotient is recalculated. This is repeated until the required number of seats is filled. The formula for the quotient is[13][1]

${\displaystyle {\text{quot}}={\frac {V}{s+1}}}$

where:

• V is the total number of votes that party received, and
• s is the number of seats that party has been allocated so far, initially 0 for all parties.

The total votes cast for each party in the electoral district is divided, first by 1, then by 2, then 3, up to the total number of seats to be allocated for the district/constituency. Say there are p parties and s seats. Then a grid of numbers can be created, with p rows and s columns, where the entry in the ith row and jth column is the number of votes won by the ith party, divided by j. The s winning entries are the s highest numbers in the whole grid; each party is given as many seats as there are winning entries in its row.

## Example

In this example, 230,000 voters decide the disposition of 8 seats among 4 parties. Since 8 seats are to be allocated, each party's total votes are divided by 1, then by 2, 3, and 4 (and then, if necessary, by 5, 6, 7, and so on). This account is confusing to experts and non-experts alike when it claims that Since 8 seats are to be allocated, each party's total votes are divided by 1, then by 2, 3, and 4 (and then, if necessary, by 5, 6, 7, and so on). The best way to explain how seats are allocated is to say that the allocation is sequential and that the first seat goes to the party with the highest vote. At each stage in the sequential allocation the seat goes to the party with the highest claim to the seat. Division of each party's vote only begins when they have acquired a seat. Division is always by one more than the number of acquired seats and only occurs immediately after acquring a seat. At each stage when a seat is to be allocated the allocation is to the party with the highest vote divided by the number of seats it has (p'haps still zero) plus one.

The 8 highest entries, marked with asterisks, range from 100,000 down to 25,000. For each, the corresponding party gets a seat. Note that in Round 1, the quotient shown in the table, as derived from the formula, is precisely the number of votes returned in the ballot.

Round
(1 seat per round)
1 2 3 4 5 6 7 8 Seats won
(bold)
Party A quotient

seats after round

100,000

1

50,000

1

50,000

2

33,333

2

33,333

3

25,000

3

25,000

3

25,000

4

4
Party B quotient

seats after round

80,000

0

80,000

1

40,000

1

40,000

2

26,667

2

26,667

2

26,667

3

20,000

3

3
Party C quotient

seats after round

30,000

0

30,000

0

30,000

0

30,000

0

30,000

0

30,000

1

15,000

1

15,000

1

1
Party D quotient

seats after round

20,000

0

20,000

0

20,000

0

20,000

0

20,000

0

20,000

0

20,000

0

20,000

0

0

The chart below shows an easy way to perform the calculation. Each party's vote is divided by 1, 2, 3, or 4 in consecutive columns, then the 8 highest values resulting are selected. The quantity of highest values in each row is the number of seats won.

For comparison, the "True proportion" column shows the exact fractional numbers of seats due, calculated in proportion to the number of votes received. (For example, 100,000/230,000 × 8 = 3.48) The slight favouring of the largest party over the smallest is apparent.

Denominator /1 /2 /3 /4 Seats
won (*)
True proportion
Party A 100,000* 50,000* 33,333* 25,000* 4 3.5
Party B 80,000* 40,000* 26,667* 20,000 3 2.8
Party C 30,000* 15,000 10,000 7,500 1 1.0
Party D 20,000 10,000 6,667 5,000 0 0.7
Total 8 8

### Further examples

A worked-through example for non-experts relating to the 2019 elections in the UK for the European Parliament written by Christina Pagel is available as an online article with the institute UK in a Changing Europe.[14]

A more mathematically detailed example has been written by British mathematician Professor Helen Wilson.[15]

## Approximate proportionality under D'Hondt

The D'Hondt method approximates proportionality by minimizing the largest seats-to-votes ratio among all parties.[16] This ratio is also known as the advantage ratio. For party ${\displaystyle p\in \{1,\dots ,P\}}$ , where ${\displaystyle P}$  is the overall number of parties, the advantage ratio is

${\displaystyle a_{p}={\frac {s_{p}}{v_{p}}},}$

where

• ${\displaystyle s_{p}}$  – the seat share of party ${\displaystyle p}$ , ${\displaystyle s_{p}\in [0,1],\;\sum _{p}s_{p}=1}$ ,
• ${\displaystyle v_{p}}$  – the vote share of party ${\displaystyle p}$ , ${\displaystyle v_{p}\in [0,1],\;\sum _{p}v_{p}=1}$ .

${\displaystyle \delta =\max _{p}a_{p},}$

captures how over-represented is the most over-represented party.

The D'Hondt method assigns seats so that this ratio attains its smallest possible value,

${\displaystyle \delta ^{*}=\min _{\mathbf {s} \in {\mathcal {S}}}\max _{p}a_{p},}$

where ${\displaystyle \mathbf {s} =\{s_{1},\dots ,s_{P}\}}$  is a seat allocation from the set of all allowed seat allocations ${\displaystyle {\mathcal {S}}}$ . Thanks to this, as shown by Juraj Medzihorsky,[2] the D'Hondt method splits the votes into exactly proportionally represented ones and residual ones, minimizing the overall amount of the residuals in the process. The overall fraction of residual votes is

${\displaystyle \pi ^{*}=1-{\frac {1}{\delta ^{*}}}.}$

The residuals of party p are

${\displaystyle r_{p}=v_{p}-(1-\pi ^{*})s_{p},\;r_{p}\in [0,v_{p}],\sum _{p}\,r_{p}=\pi ^{*}.}$

For illustration, continue with the above example of four parties. The advantage ratios of the four parties are 1.2 for A, 1.1 for B, 1 for C, and 0 for D. The reciprocal of the largest advantage ratio is 1/1.15 = 0.87 = 1 − π*. The residuals as shares of the total vote are 0% for A, 2.2% for B, 2.2% for C, and 8.7% for party D. Their sum is 13%, i.e., 1 − 0.87 = 0.13. The decomposition of the votes into represented and residual ones is shown in the table below.

Allocation of eight seats under the D'Hondt method
Party Vote
share
Seat
share
ratio
Residual
Represented
A 43.5% 50.0% 1.15 0.0% 43.5%
B 34.8% 37.5% 1.08 2.2% 32.6%
C 13.0% 12.5% 0.96 2.2% 10.9%
D 8.7% 0.0% 0.00 8.7% 0.0%
Total 100% 100% 13% 87%

## Jefferson and D'Hondt

The method was first described in 1792 by Thomas Jefferson, in a letter to George Washington regarding the apportionment of seats in the United States House of Representatives:[8]

For representatives there can be no such common ratio, or divisor which ... will divide them exactly without a remainder or fraction. I answer then ... that representatives [must be divided] as nearly as the nearest ratio will admit; and the fractions must be neglected.

It was invented independently in 1878 in Europe, by Belgian mathematician Victor D'Hondt, who wrote:

to allocate discrete entities proportionally among several numbers, it is necessary to divide these numbers by a common divisor, producing quotients whose sum is equal to the number of entities to be allocated.

The Jefferson and the D'Hondt methods are equivalent. They always give the same results, but the methods of presenting the calculation are different. George Washington exercised his first veto power on a bill that introduced a new plan for dividing seats in the House of Representatives that would have increased the number of seats for northern states.[17] Ten days after the veto, Congress passed a new method of apportionment, now known as Jefferson's Method. Statesman and future US President Thomas Jefferson devised the method in 1792 for the U.S. congressional apportionment pursuant to the First United States Census. It was used to achieve the proportional distribution of seats in the House of Representatives among the states until 1842.[18]

Victor D'Hondt presented his method in his publication Système pratique et raisonné de représentation proportionnelle, published in Brussels in 1882.

The system can be used both for distributing seats in a legislature among states pursuant to populations or among parties pursuant to an election result. The tasks are mathematically equivalent, putting states in the place of parties and population in place of votes. In some countries, the Jefferson system is known by the names of local politicians or experts who introduced them locally. For example, it is known in Israel as the Bader–Ofer system.

Jefferson's method uses a quota (called a divisor), as in the largest remainder method. The divisor is chosen as necessary so that the resulting quotients, disregarding any fractional remainders, sum to the required total; in other words, pick a number so that there is no need to examine the remainders. Any number in one range of quotas will accomplish this, with the highest number in the range always being the same as the lowest number used by the D'Hondt method to award a seat (if it is used rather than the Jefferson method), and the lowest number in the range being the smallest number larger than the next number which would award a seat in the D'Hondt calculations.

Applied to the above example of party lists, this range extends as integers from 20,001 to 25,000. More precisely, any number n for which 20,000 < n ≤ 25,000 can be used.

## Threshold

In some cases, a threshold or barrage is set, and any list which does not achieve that threshold will not have any seats allocated to it, even if it received enough votes to have otherwise been rewarded with a seat. Examples of countries using the D'Hondt method with a threshold are Albania (3% for single parties, 5% for coalitions of two or more parties, 1% for independent individuals); Denmark (2%); East Timor, Spain, Serbia, and Montenegro (3%); Israel (3.25%); Slovenia and Bulgaria (4%); Croatia, Fiji, Romania, Russia and Tanzania (5%); Turkey (7%); Poland (5%, or 8% for coalitions; but does not apply for ethnic-minority parties),[19] Hungary (5% for single party, 10% for two-party coalitions, 15% for coalitions of 3 or more parties) and Belgium (5%, on regional basis). In the Netherlands, a party must win enough votes for one strictly proportional full seat (note that this is not necessary in plain D'Hondt), which with 150 seats in the lower chamber gives an effective threshold of 0.67%. In Estonia, candidates receiving the simple quota in their electoral districts are considered elected, but in the second (district level) and third round of counting (nationwide, modified D'Hondt method) mandates are awarded only to candidate lists receiving more than the threshold of 5% of the votes nationally. The vote threshold simplifies the process of seat allocation and discourages fringe parties (those that are likely to gain very few votes) from competing in the elections. Obviously, the higher the vote threshold, the fewer the parties that will be represented in parliament.[20]

The method can cause a hidden threshold.[21][22] It depends on the number of seats that are allocated with the D'Hondt method. In Finland's parliamentary elections, there is no official threshold, but the effective threshold is gaining one seat. The country is divided into districts with different numbers of representatives, so there is a hidden threshold, different in each district. The largest district, Uusimaa with 33 representatives, has a hidden threshold of 3%, while the smallest district, South Savo with 6 representatives, has a hidden threshold of 14%.[23] This favors large parties in the small districts. In Croatia, the official threshold is 5% for parties and coalitions. However, since the country is divided into 10 voting districts with 14 elected representatives each, sometimes the threshold can be higher, depending on the number of votes of "fallen lists" (lists that do not receive at least 5%). If many votes are lost in this manner, a list that gets 5% will still get a seat, whereas if there is a small number votes for parties that do not pass the threshold, the actual ("natural") threshold is close to 7.15%. Some systems allow parties to associate their lists together into a single "cartel" in order to overcome the threshold, while some systems set a separate threshold for such cartels. Smaller parties often form pre-election coalitions to make sure they get past the election threshold creating a coalition government. In the Netherlands, cartels (lijstverbindingen) (until 2017, when they were abolished) could not be used to overcome the threshold, but they do influence the distribution of remainder seats; thus, smaller parties can use them to get a chance which is more like that of the big parties.

In French municipal and regional elections, the D'Hondt method is used to attribute a number of council seats; however, a fixed proportion of them (50% for municipal elections, 25% for regional elections) is automatically given to the list with the greatest number of votes, to ensure that it has a working majority: this is called the "majority bonus" (prime à la majorité), and only the remainder of the seats are distributed proportionally (including to the list which has already received the majority bonus). In Italian local elections a similar system is used, where the party or coalition of parties linked to the elected mayor automatically receives 60% of seats; unlike the French model though the remainder of the seats are not distributed again to the largest party.

## Variations

The D'Hondt method can also be used in conjunction with a quota formula to allocate most seats, applying the D'Hondt method to allocate any remaining seats to get a result identical to that achieved by the standard D'Hondt formula. This variation is known as the Hagenbach-Bischoff System, and is the formula frequently used when a country's electoral system is referred to simply as 'D'Hondt'.

In the election of Legislative Assembly of Macau, a modified D'Hondt method is used. The formula for the quotient in this system is ${\displaystyle \textstyle {\frac {V}{2^{s}}}}$ .

In some cases such as the Czech regional elections, the first divisor (when the party has no seats so far, which is normally 1) was raised to favour larger parties and eliminate small ones. In the Czech case, it is set to 1.42 (approximately ${\displaystyle {\sqrt {2}}}$ , termed the Koudelka coefficient after the politician who introduced it).

The term "modified D'Hondt" has also been given to the use of the D'Hondt method in the additional member system used for the Scottish Parliament, Senedd (Welsh Parliament), and London Assembly, in which after constituency seats have been allocated to parties by first-past-the-post, D'Hondt is applied for the allocation of list seats, taking into account for each party the number of constituency seats it has won. When the seats allocated by D'hondt to a party are greater than the constituency seats that party has won, the extra seats are taken from list seats.

In 1989 and 1992, ACT Legislative Assembly elections were conducted by the Australian Electoral Commission using the "modified d'Hondt" electoral system. The electoral system consisted of the d'Hondt system, the Australian Senate system of proportional representation, and various methods for preferential voting for candidates and parties, both within and across party lines.[24] The process involves 8 stages of scrutiny. ABC elections analyst Antony Green has described the modified d'Hondt system used in the ACT as a "monster ... that few understood, even electoral officials who had to wrestle with its intricacies while spending several weeks counting the votes".[25]

Some systems allow parties to associate their lists together into a single kartel in order to overcome the threshold, while some systems set a separate threshold for cartels. In a system of proportional representation in which the country is divided in multiple electoral districts, such as Belgium the threshold to obtain one seat can be very high (5% of votes since 2003), which also favors larger parties. Therefore, some parties pool their voters in order to gain more (or any) seats.

### Regional D'Hondt

In most countries, seats for the national assembly are divided on a regional or even a provincial level. This means that seats are first divided between individual regions (or provinces) and are then allocated to the parties in each region separately (based on only the votes cast in the given region). The votes for parties that have not gained a seat at the regional level are thus discarded, so they do not aggregate at a national level. This means that parties which would have gained seats in a national distribution of seats may still end up with no seats as they did not gain enough votes in any region. This may also lead to skewed seat allocation at a national level, such as in Spain in 2011 where the People's Party gained an absolute majority in the Congress of Deputies with only 44% of the national vote.[1] It may also skew results for small parties with broad appeal at a national level compared to small parties with a local appeal (e.g. nationalist parties). For instance, in the 2008 Spanish general election, United Left (Spain) gained 1 seat for 969,946 votes, whereas Convergence and Union (Catalonia) gained 10 seats for 779,425 votes. However, this is not D'Hondt method's fault but rather the division between regions, at it happens with first-past-the-post. Even then, D'Hondt method is fairer than first-past-the-post.

## Notes

1. ^ English: /dəˈhɒnt/; Dutch: [ˈdɔnt]; French: [dɔ̃t]. The name D'Hondt is sometimes spelt as "d'Hondt". Notably, it is customary in the Netherlands to write such surnames with a lower-case "d" when preceded by the forename: thus Victor d'Hondt (with a small d), while the surname all by itself would be D'Hondt (with a capital D). However, in Belgium it is always capitalized, hence: Victor D'Hondt.

## References

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2. ^ a b Juraj Medzihorsky (2019). "Rethinking the D'Hondt method". Political Research Exchange. 1 (1): 1625712. doi:10.1080/2474736X.2019.1625712.
3. ^ Pukelsheim, Friedrich (2007). "Seat bias formulas in proportional representation systems" (PDF). 4th ECPR General Conference. Archived from the original (PDF) on 7 February 2009.
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6. ^ Lijphart, Arend (1990). "The Political Consequences of Electoral Laws, 1945-85". The American Political Science Review. 84 (2): 481–496. doi:10.2307/1963530. JSTOR 1963530.
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16. ^ André Sainte-Laguë (1910). "La représentation Proportionnelle et la méthode des moindres carrés" (PDF). Annales Scientifiques de l'École Normale Supérieure. l'École Normale Supérieure. 27.
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20. ^ King, Charles. "Electoral Systems". Prof. King’s Teaching and Learning Resources. Retrieved 2018-05-05.
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