Difference between revisions of "Attack speed"

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''See [[Weapon Speed]] for tables summarising this information.''
 
''See [[Weapon Speed]] for tables summarising this information.''
 
   
 
   
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==Weapon Attack Delay==
 
==Weapon Attack Delay==
 
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The following conditions are applied in order:
 
===Base delay===
 
===Base delay===
 
All weapons, including [[ranged weapons]] and [[Throwing]] implements, have a base attack delay. When looking at the weapon in the ''''i''''nventory, you'll get the base attack delay (in decaAut). For example, a [[dagger]] has a base delay of 1.0 decaAut (10 aut).
 
All weapons, including [[ranged weapons]] and [[Throwing]] implements, have a base attack delay. When looking at the weapon in the ''''i''''nventory, you'll get the base attack delay (in decaAut). For example, a [[dagger]] has a base delay of 1.0 decaAut (10 aut).
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A weapon's mindelay is usually the ''smaller'' of <code>base delay / 2</code> or 0.7 decaAut. For example, a [[dagger]] has a base delay of 1.0, so it has a mindelay of 0.5. A [[large rock]] has a base delay of 2.0, but its mindelay is still 0.7 decaAut. There are a few exceptions to this rule, such as [[rapier]]s and [[triple crossbow]]s.
 
A weapon's mindelay is usually the ''smaller'' of <code>base delay / 2</code> or 0.7 decaAut. For example, a [[dagger]] has a base delay of 1.0, so it has a mindelay of 0.5. A [[large rock]] has a base delay of 2.0, but its mindelay is still 0.7 decaAut. There are a few exceptions to this rule, such as [[rapier]]s and [[triple crossbow]]s.
  
Unarmed Combat works differently. For every 5.4 [[Unarmed Combat]] skill, attack delay is reduced by 0.1 decaAut.<ref>{{source ref|0.28.0|player-act.cc|272}}</ref> It otherwise works similarly to weapons.
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Unarmed Combat works differently. For every 5.4 [[Unarmed Combat]] skill, attack delay is reduced by 0.1 decaAut.<ref>{{source ref|0.32.0|player-act.cc|333}}</ref> It otherwise works similarly to weapons.
  
 
===Brands===
 
===Brands===
 
Weapon [[brand]]s can modify speed, applied after accounting for skills.
 
Weapon [[brand]]s can modify speed, applied after accounting for skills.
* The [[speed brand]] reduces your weapon delay by x66%.
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*The [[speed brand]] reduces your weapon delay by x66%.
* The [[heavy]] brand increases your weapon's delay by +50%.
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*The [[heavy]] brand increases your weapon's delay by +50%.
 +
 
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===Body Armour===
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If you are using a "[[Ranged Weapons|Ranged Weapon]]" (which does ''not'' include [[Throwing]] weapons), then [[body armour]] will slow down your attack speed (after brand). Body armour slows down attacks based on its [[encumbrance rating]].
 +
 
 +
The formula is <code>(encumbrance^2 / 2250) * (90 - 2 * [[Armour (skill)|armor_skill]]) / (3 + str)</code> decaAut.
 +
 
 +
Values for armour encumbrance can be found on the [[Armour]] page. Unlike shields, the penalty cannot be fully eliminated with skill.
  
 
===Shields===
 
===Shields===
 
[[Shield]]s encumber their wielder, slowing down weapon speed (after brands are applied).
 
[[Shield]]s encumber their wielder, slowing down weapon speed (after brands are applied).
  
Shields will slow down attacks by 1d(<code>2/5 * encumbrance^2 / (5 + [[str]]) * (27 - [[Shields (skill)|sh_skill]]) / 27</code>) aut.<ref>{{source ref|0.30.0|player.cc|5739}}</ref><ref>{{source ref|0.30.0|player-act.cc|306}}</ref> Divide by 10 to convert aut into decaAut.
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For EV penalty = <code>0.4 * encumbrance^2 / (5 + [[str]]) * (27 - [[Shields (skill)|sh_skill]]) / 27</code>, shields slow down attacks by <code>1d(EV Penalty) / 10</code> decaAut.<ref>{{source ref|0.32.0|player.cc|6163}}</ref><ref>{{source ref|0.32.0|player-act.cc|361}}</ref> If EV Penalty is not an integer, it is rounded in a weighted fashion before the dice function is rolled.
  
 
The values for shield encumbrance can be found on the [[Shields]] page. The shield penalty can be reduced to zero with a maxed out shield skill of 27.
 
The values for shield encumbrance can be found on the [[Shields]] page. The shield penalty can be reduced to zero with a maxed out shield skill of 27.
 
===Body Armour===
 
If you are using a "[[Ranged Weapons|Ranged Weapon]]" (which does ''not'' include [[Throwing]] weapons), then [[body armour]] will slow down your attack speed. Body armour slows down attacks based on its [[encumbrance rating]].
 
 
The formula is <code>(encumbrance^2 / 2250) * (90 - 2 * [[Armour (skill)|ar,_skill]]) / (3 + str)</code> aut.
 
 
Values for armour encumbrance can be found on the [[Armour]] page. Unlike shields, the penalty cannot be fully eliminated with skill.
 
  
 
===Statuses===
 
===Statuses===
* [[Haste]] (including from [[berserk]]) reduces all action delays by a factor of 2/3
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*[[Haste]] (including from [[berserk]]) reduces all action delays by a factor of 2/3
* [[Okawaru]]'s Finesse ability reduces weapon delay by half. This does ''not'' stack with haste.
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*[[Okawaru]]'s Finesse ability reduces weapon delay by half. This does ''not'' stack with haste.
* [[Statue Form]], [[Petrify]]ing, and [[Slow]]ness increase all delays by a factor of 3/2. These conditions do stack with haste and with each other.
+
*[[Statue Form]], [[Petrify]]ing, and [[Slow]]ness increase all delays by a factor of 3/2. These conditions do stack with haste and with each other.
  
Finally, there is a hard limit of 0.2 decaAut, which no action can go under.
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Finally, there is a hard limit of 0.1 decaAut, which no action can go under.
  
 
==Spells==
 
==Spells==
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A few spells attack with your weapon:
 
A few spells attack with your weapon:
* [[Manifold Assault]] uses your attack delay exactly (following the above formulae).
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*[[Manifold Assault]] uses your attack delay exactly (following the above formulae).
* [[Vhi's Electric Charge]] uses the smaller of your attack delay and your [[movement speed|movement delay]].
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*[[Vhi's Electric Charge]] uses the larger of your attack delay and your [[movement speed|movement delay]].
  
 
Also, [[Sandblast]] is cast at 1.5 delay, instead of 1.0.
 
Also, [[Sandblast]] is cast at 1.5 delay, instead of 1.0.
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==Detailed Calculations==
 
==Detailed Calculations==
{{Too Complex}}
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The formulas above give you a very close approximation to the average attack delay. However, each individual attack can be subject to multiple sources of randomness:
'''Note: Shield penalties have not been updated to 0.30.'''
 
  
The formulas above give you a very close approximation to the average attack delay. Most players can use the values above or the values on the [[weapon speed]] page without needing to know about the detailed calculations in this section.
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*If your weapon delay (post-skill, post-brand) is in fractional [[aut]], then it is rounded in a weighted fashion. For example, if you "average" attack is at 5.1 aut (0.51 decaAut), then you have a 10% chance to attack at 6 aut, and 90% chance to attack at 5 aut.
  
===Averaging Fractional Delays===
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*If you wear a [[shield]], the shield's penalty is also rounded in a weighted fashion. The EV penalty (<code>2/5 * encumbrance^2 / (5 + [[str]]) * (27 - [[Shields (skill)|sh_skill]]) / 27</code>) is calculated, then roudnd.
Most calculations above can result in fractional delays. If you have a [[short sword]] with a base delay of 11 and a [[short blades|short blade skill]] of 5.7, the formula above would give you an average delay of <code>11-5.7/2 = 8.15</code>. The game mechanics give you an average delay by rolling a delay of 8 85% of the time and a delay of 9 15% of the time. This is needed because all delays are integer values of [[aut]]s.
 
  
===Using Statistical Random Variables===
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*If you are using a [[ranged weapon]], then the penalty from [[body armour]] is also rounded in a weighted fashion, then added to delay.
The fractional delays do not give the entire story because each stage attack delay calculations involve creation of a new random variable. These random variables actually contain all possible integer delays and their weighted probabilities. This can result in a much wider range of attack delays than the averaging of fractional delays would imply. To complicate things, all calculations are done with a fixed precision.
 
This is best explained by examples.
 
  
====Example 1====
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This can result in a wider range of attack delays than the averaging of fractional delays would imply.
Let's use the example of a [[human]] wielding a short sword and a buckler. The human has a [[short blade|short blade skill]] of 7.5 and a shield skill of 4. The [[buckler]]'s encumbrance is 5. The human size factor is zero and can be found on the [[shields]] page. There are three random variables used.
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*The first is the base delay of the short sword of 11 [[aut]]
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===Example===
*The second random variable incorporates the additional skill adjustment delay of -skill*10/scale = -75/20
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Take a human wielding a short sword and buckler. The human has a [[Short Blades]] skill of 7.5, [[Shields (skill)|Shields]] skill of 5.4, and [[strength]] of 15. The [[buckler]]'s encumbrance is 5.
*The third random variable incorporates the additional shield penalty delay of 8/20
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*The final probabilities: delay=7 47.4%, delay=8 47.4%, delay=9 5.3%
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*The short sword has a base delay of 11 aut, which is reduced to 7.25 aut from skill. -> (75% for 7 aut, 25% for 8 aut)
 +
*The shield gives a penalty of 1d(0.40) -> (40% chance of +1, 60% for +0).
  
 
{| class="wikitable"
 
{| class="wikitable"
 
|- align="center"
 
|- align="center"
 
!
 
!
!colspan="8"|Delays||
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!colspan="3"|Delays
 
|-
 
|-
! Explanation !! 6 !! 7 !! 8 !! 9 !! 10 !! 11 !! 12 !! 13 !! Total Weight
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! Source !! 7 !! 8 !! 9
 
|-
 
|-
|Base delay<br>short sword
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|Post-skill delay
|   ||   ||   ||  ||  || 1  ||  || || 1
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| 75% || 25% ||
 
|-
 
|-
|Subtract Skill reduction<br>7.5*scale/20
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|Shield penalty
|   || 15  || 5  ||  ||  ||    ||  ||  || 20
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| (75% * 60%) || (75% * 40%)<br>(25% * 60%) || (25% * 40%)
 
|-
 
|-
|Add shield penalty<br>
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|Final
2*(5)^2*(270-(10*4))*20<br>/(5*(20-3*(0))/270
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| 45% || 45% || 10%
<br>=2300/270=8
 
|   || 15*12  || 15*8 + 5*12  || 5*8  ||  ||    ||  ||  ||
 
|-
 
|Shield Penalty Weights
 
|  || 180 || 180  || 20  ||  ||    ||  ||  || 380
 
 
|}
 
|}
*Note that there are three possible delays, not just two based upon one average
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*A scale is used to create weights which avoids large integer division truncation inaccuracies
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Average delay = 7.6 aut. Looking at the average alone, you may think that you can only swing at 7 (40%) or 8 (60%) aut. However, there are 3 possible delays - 7, 8, and 9 aut - as shown above.
*A random number from 0-380 is created and a delay is selected based upon which bin the number would fall into.
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 +
==History==
 +
*Prior to [[0.31]], there was a hard minimum attack delay of 0.2 decaAut.
 +
*Prior to [[0.29]], body armour did not penalize [[Ranged Weapons]].
 +
*Prior to [[0.28]], the [[shield]] penalty formula was different. Certain skill thresholds (4 skill for buckler, 15 for kite shield, 25 for tower shield) negated it.
 +
*Prior to [[0.27]], the shield attack penalty was smaller (equal to the smaller of {1d(EV_penalty), 1d(EV_penalty)}).
 +
*Prior to [[0.16]], the amount of skill required to negate penalties for wearing a shield was more complex.
  
 
==References==
 
==References==
 
<references/>
 
<references/>
 
==History==
 
*In [[0.28]], the penalty formula changed; before, certain skill thresholds (4 skill for buckler, 15 for kite shield, 25 for tower shield) negated it.
 
*In [[0.27]], the shield penalty was increased and was less random.
 
*Prior to [[0.16]], the amount of skill required to negate penalties for wearing a shield was more complex.
 
  
 
[[Category:Game mechanics]]
 
[[Category:Game mechanics]]

Latest revision as of 04:57, 26 September 2024

Version 0.32: This article is up to date for the latest stable release of Dungeon Crawl Stone Soup.

See Weapon Speed for tables summarising this information.

Attack speed is how fast a player can attack with melee weapons, ranged weapons, or Unarmed Combat.

Your attack speed is usually measured in the form of "attack delay". A normal action takes 1.0 decaAut, or 10 aut, of time. The more aut you take, the slower you act. So if you have a smaller attack delay, you will attack faster.

Weapon Attack Delay

The following conditions are applied in order:

Base delay

All weapons, including ranged weapons and Throwing implements, have a base attack delay. When looking at the weapon in the 'i'nventory, you'll get the base attack delay (in decaAut). For example, a dagger has a base delay of 1.0 decaAut (10 aut).

The Weapon Speed page has a complete table of every weapon, in aut.

Skill

For every 2 levels in the corresponding weapon skill, your attack delay is reduced by 0.1 decaAut. There is a limit - every weapon has a minimum delay, where skill cannot reduce attack speed any further.

A weapon's mindelay is usually the smaller of base delay / 2 or 0.7 decaAut. For example, a dagger has a base delay of 1.0, so it has a mindelay of 0.5. A large rock has a base delay of 2.0, but its mindelay is still 0.7 decaAut. There are a few exceptions to this rule, such as rapiers and triple crossbows.

Unarmed Combat works differently. For every 5.4 Unarmed Combat skill, attack delay is reduced by 0.1 decaAut.[1] It otherwise works similarly to weapons.

Brands

Weapon brands can modify speed, applied after accounting for skills.

  • The speed brand reduces your weapon delay by x66%.
  • The heavy brand increases your weapon's delay by +50%.

Body Armour

If you are using a "Ranged Weapon" (which does not include Throwing weapons), then body armour will slow down your attack speed (after brand). Body armour slows down attacks based on its encumbrance rating.

The formula is (encumbrance^2 / 2250) * (90 - 2 * armor_skill) / (3 + str) decaAut.

Values for armour encumbrance can be found on the Armour page. Unlike shields, the penalty cannot be fully eliminated with skill.

Shields

Shields encumber their wielder, slowing down weapon speed (after brands are applied).

For EV penalty = 0.4 * encumbrance^2 / (5 + str) * (27 - sh_skill) / 27, shields slow down attacks by 1d(EV Penalty) / 10 decaAut.[2][3] If EV Penalty is not an integer, it is rounded in a weighted fashion before the dice function is rolled.

The values for shield encumbrance can be found on the Shields page. The shield penalty can be reduced to zero with a maxed out shield skill of 27.

Statuses

  • Haste (including from berserk) reduces all action delays by a factor of 2/3
  • Okawaru's Finesse ability reduces weapon delay by half. This does not stack with haste.
  • Statue Form, Petrifying, and Slowness increase all delays by a factor of 3/2. These conditions do stack with haste and with each other.

Finally, there is a hard limit of 0.1 decaAut, which no action can go under.

Spells

Spells can be used for attacking, and are thus included on this page. The vast majority of spells have a base delay of 1.0 decaAut. It can be modified by statuses (Haste, Statue Form, Slow...).

A few spells attack with your weapon:

Also, Sandblast is cast at 1.5 delay, instead of 1.0.

Movement Based Attacks

Some attacks are combined with movement. Even if the actual attack delay is not changed, they are mentioned here for completeness.

Martial Arts Attacks

The Wu Jian Council allows the player to make attacks based on movement.

Under normal circumstances, movement takes the usual amount of time, and make attacks based on that time. For example, lets say you move at 1.0 decaAut. If you have a weapon delay of 0.7, you'll always perform 1 attack on a move (taking 0.7 / 1.0 of the time), and have a 3/7 (0.3 / 0.7) chance for a 2nd attack. As an extreme example, a Naga (1.4 move delay) with a quick blade (0.3 attack delay) would attack 4 times per move, with a 50% chance of a 5th attack.

Serpent's Lash treats your movement delay as 1.0 decaAut, regardless of your actual movement delay. Wall Jump counts as 2 actions, so doubles your movement delay.

Rampaging

The rampaging ego lets you take a free step before attacking. If you are 1 space from an enemy, you'll move instantly and then attack at your normal attack delay.

Detailed Calculations

The formulas above give you a very close approximation to the average attack delay. However, each individual attack can be subject to multiple sources of randomness:

  • If your weapon delay (post-skill, post-brand) is in fractional aut, then it is rounded in a weighted fashion. For example, if you "average" attack is at 5.1 aut (0.51 decaAut), then you have a 10% chance to attack at 6 aut, and 90% chance to attack at 5 aut.
  • If you wear a shield, the shield's penalty is also rounded in a weighted fashion. The EV penalty (2/5 * encumbrance^2 / (5 + str) * (27 - sh_skill) / 27) is calculated, then roudnd.
  • If you are using a ranged weapon, then the penalty from body armour is also rounded in a weighted fashion, then added to delay.

This can result in a wider range of attack delays than the averaging of fractional delays would imply.

Example

Take a human wielding a short sword and buckler. The human has a Short Blades skill of 7.5, Shields skill of 5.4, and strength of 15. The buckler's encumbrance is 5.

  • The short sword has a base delay of 11 aut, which is reduced to 7.25 aut from skill. -> (75% for 7 aut, 25% for 8 aut)
  • The shield gives a penalty of 1d(0.40) -> (40% chance of +1, 60% for +0).
Delays
Source 7 8 9
Post-skill delay 75% 25%
Shield penalty (75% * 60%) (75% * 40%)
(25% * 60%)
(25% * 40%)
Final 45% 45% 10%

Average delay = 7.6 aut. Looking at the average alone, you may think that you can only swing at 7 (40%) or 8 (60%) aut. However, there are 3 possible delays - 7, 8, and 9 aut - as shown above.

History

  • Prior to 0.31, there was a hard minimum attack delay of 0.2 decaAut.
  • Prior to 0.29, body armour did not penalize Ranged Weapons.
  • Prior to 0.28, the shield penalty formula was different. Certain skill thresholds (4 skill for buckler, 15 for kite shield, 25 for tower shield) negated it.
  • Prior to 0.27, the shield attack penalty was smaller (equal to the smaller of {1d(EV_penalty), 1d(EV_penalty)}).
  • Prior to 0.16, the amount of skill required to negate penalties for wearing a shield was more complex.

References