Angled gradient background in Jetpack Compose

I am trying to draw a gradient background in Jetpack Compose, and I would like the gradient to have a fixed angle regardless of the shape of the object I'm drawing into.

However, using `Modifier.background(brush=...)`, the best I can find is `linearGradient` which calculates the angle from a fixed start and end point of a gradient.

For example, is there a way I can specify that I want a 45 degree angle for my gradient without knowing the final size it's going to be?

Edit: I would like a solution that can work for any given angle, not just 45 degrees.

You can use the parameters `start` and `end` to achieve a 45 degree angle.

Something like:

``````val gradient45 = Brush.linearGradient(
colors = listOf(Color.Yellow, Color.Red),
start = Offset(0f, Float.POSITIVE_INFINITY),
end = Offset(Float.POSITIVE_INFINITY, 0f)
)
``````

• I'm not sure that this gives 45 degrees if the shape isn't a square. Docs for `linearGradient` say that `Offset.Infinite` refers to the position at the far right and bottom of the drawing area, which I take to mean that the parameters you have passed refer to the top right and bottom left of the drawing area. So it won't be 45 degrees for rectangles. Commented Jul 2, 2021 at 9:06
• Also, I'm looking for a more general solution that I can use for other angles, not just 45 degrees. Apologies for the wording in the question that allowed a special case solution. Commented Jul 2, 2021 at 9:07

You can use `Modifier.drawBehind()` and calculate the coordinates of points to draw gradient color.

``````fun Modifier.gradientBackground(colors: List<Color>, angle: Float) = this.then(
Modifier.drawBehind {
val angleRad = angle / 180f * PI
val x = cos(angleRad).toFloat() //Fractional x
val y = sin(angleRad).toFloat() //Fractional y

val radius = sqrt(size.width.pow(2) + size.height.pow(2)) / 2f

val exactOffset = Offset(
x = min(offset.x.coerceAtLeast(0f), size.width),
y = size.height - min(offset.y.coerceAtLeast(0f), size.height)
)

drawRect(
colors = colors,
start = Offset(size.width, size.height) - exactOffset,
end = exactOffset
),
size = size
)
}
)
``````

example:

``````Modifier
``````

• Awesome. I wish there was a quicker way to do this but this is the approach I needed. Thanks! I have added another answer with a slightly adapted version of your code, but I'll accept your answer :) Commented Jul 3, 2021 at 3:55
• this answer was helpful for me too, but it has an error, check this solution if you are interested stackoverflow.com/a/71577924/6941949 Commented Mar 22, 2022 at 19:32
• Gabriele Mariotti's answer is cleaner. Commented Jul 24, 2022 at 15:12

Edit 2022-04-06

I realised there is an error in the original code, which distorts the gradient angle. Some more trigonometry is needed in order to constrain the gradient start and ends to within the canvas area (if that is what is desired) while also preserving the gradient angle. Here is the updated solution, with bonus ASCII art.

``````    fun Modifier.angledGradientBackground(colors: List<Color>, degrees: Float) = this.then(
drawBehind {
/*
Have to compute length of gradient vector so that it lies within
the visible rectangle.
--------------------------------------------
| length of gradient ^  /                  |
|             --->  /  /                   |
|                  /  / <- rotation angle  |
|                 /  o --------------------|  y
|                /  /                      |
|               /  /                       |
|              v  /                        |
--------------------------------------------
x

diagonal angle = atan2(y, x)
(it's hard to draw the diagonal)

Simply rotating the diagonal around the centre of the rectangle
will lead to points outside the rectangle area. Further, just
truncating the coordinate to be at the nearest edge of the
rectangle to the rotated point will distort the angle.
Let α be the desired gradient angle (in radians) and γ be the
angle of the diagonal of the rectangle.
The correct for the length of the gradient is given by:
x/|cos(α)|  if -γ <= α <= γ,   or   π - γ <= α <= π + γ
y/|sin(α)|  if  γ <= α <= π - γ, or π + γ <= α <= 2π - γ
where γ ∈ (0, π/2) is the angle that the diagonal makes with
the base of the rectangle.

*/

val (x, y) = size
val gamma = atan2(y, x)

if (gamma == 0f || gamma == (PI / 2).toFloat()) {
// degenerate rectangle
return@drawBehind
}

val degreesNormalised = (degrees % 360).let { if (it < 0) it + 360 else it }

val alpha = (degreesNormalised * PI / 180).toFloat()

val gradientLength = when (alpha) {
// ray from centre cuts the right edge of the rectangle
in 0f..gamma, in (2*PI - gamma)..2*PI -> { x / cos(alpha) }
// ray from centre cuts the top edge of the rectangle
in gamma..(PI - gamma).toFloat() -> { y / sin(alpha) }
// ray from centre cuts the left edge of the rectangle
in (PI - gamma)..(PI + gamma) -> { x / -cos(alpha) }
// ray from centre cuts the bottom edge of the rectangle
in (PI + gamma)..(2*PI - gamma) -> { y / -sin(alpha) }
// default case (which shouldn't really happen)
else -> hypot(x, y)
}

val centerOffsetX = cos(alpha) * gradientLength / 2
val centerOffsetY = sin(alpha) * gradientLength / 2

drawRect(
colors = colors,
// negative here so that 0 degrees is left -> right
and 90 degrees is top -> bottom
start = Offset(center.x - centerOffsetX,center.y - centerOffsetY),
end = Offset(center.x + centerOffsetX, center.y + centerOffsetY)
),
size = size
)
}
)
``````

This was my final solution based on @Ehan msz's code. I tweaked his solution so that 0 degrees corresponds to a left-to-right gradient direction, and 90 degrees corresponds to a top-to-bottom direction.

``````fun Modifier.angledGradient(colors: List<Color>, degrees: Float) = this.then(
Modifier.drawBehind {
val rad = (degrees * PI / 180).toFloat()
val diagonal = sqrt(size.width * size.width + size.height * size.height)
val centerOffsetX = cos(rad) * diagonal / 2
val centerOffsetY = sin(rad) * diagonal / 2

// negative so that 0 degrees is left -> right and 90 degrees is top -> bottom
val startOffset = Offset(
x = (center.x - centerOffsetX).coerceIn(0f, size.width),
y = (center.y - centerOffsetY).coerceIn(0f, size.height)
)
val endOffset = Offset(
x = (center.x + centerOffsetX).coerceIn(0f, size.width),
y = (center.y + centerOffsetY).coerceIn(0f, size.height)
)

drawRect(
colors = colors,
start = startOffset,
end = endOffset
),
size = size
)
}
``````

I created a GradientOffset class which lets you rotate gradients by 45 degrees.

Enum that stores rotation angles and data class that stores `Offset`s.

``````    /**
* Offset for [Brush.linearGradient] to rotate gradient depending on [start] and [end] offsets.
*/
data class GradientOffset(val start: Offset, val end: Offset)

CW0, CW45, CW90, CW135, CW180, CW225, CW270, CW315
}
``````

Rotation function

``````/**
*
* Get a [GradientOffset] that rotate a gradient clockwise with specified angle in degrees.
* that returns a horizontal gradient.
*
* Get start and end offsets that are limited between [0f, Float.POSITIVE_INFINITY] in x and
* y axes wrapped in [GradientOffset].
* Infinity is converted to Composable width on x axis, height on y axis in shader.
*
* Default angle for [Brush.linearGradient] when no offset is 0 degrees in Compose ,
*
* ```
*  0 degrees
*  start = Offset(0f,0f),
*  end = Offset(Float.POSITIVE_INFINITY,0f)
*
* 45 degrees
* start = Offset(0f, Float.POSITIVE_INFINITY),
* end = Offset(Float.POSITIVE_INFINITY, 0f)
*
* 90 degrees
* start = Offset(0f, Float.POSITIVE_INFINITY),
* end = Offset.Zero
*
* 135 degrees
* start = Offset.Infinity,
* end = Offset.Zero
*
* 180 degrees
* start = Offset(Float.POSITIVE_INFINITY, 0f),
* end = Offset.Zero,
*
* ```
*/
return when (angle) {
start = Offset.Zero,
end = Offset.Infinite
)
start = Offset.Zero,
end = Offset(0f, Float.POSITIVE_INFINITY)
)
start = Offset(Float.POSITIVE_INFINITY, 0f),
end = Offset(0f, Float.POSITIVE_INFINITY)
)
start = Offset(Float.POSITIVE_INFINITY, 0f),
end = Offset.Zero,
)
start = Offset.Infinite,
end = Offset.Zero
)
start = Offset(0f, Float.POSITIVE_INFINITY),
end = Offset.Zero
)
start = Offset(0f, Float.POSITIVE_INFINITY),
end = Offset(Float.POSITIVE_INFINITY, 0f)
)
start = Offset.Zero,
end = Offset(Float.POSITIVE_INFINITY, 0f)
)
}
}
``````

Usage is very simple, rotate any gradient clockwise by setting `GradientAngle.CW`

``````// Offsets for gradients based on selected angle
}

listOf(Color.Red, Color.Green, Color.Blue),
)
``````

Result

Repo link if you wish to try it

Note

To have gradients that can rotate to any angle you need to implement your own `LinearGradient` class that extends `ShaderBrush` then calculate rotation to position using simple trigonometry.

• but how to animate it correctly? we can't use `Float.MAX_VALUE` or `Float.POSITIVE_INFINITY` as animated value for `Offset`: stackoverflow.com/questions/76779131/… Commented Jul 27, 2023 at 11:10

The first solution has an error, as offset can be negative values as well (you will notice it when you check with 60 degree angle and compare with CSS gradient).

I've made a universal solution that supports any angle, and wrote a medium article about it (thanks to the first solution for the idea). Check it out if necessary

• Can you explain what the error is exactly? I'm still using the code I posted in my own answer - which is a variant of the one you mentioned - to make a 60 degree gradient in my own app, and it seems to do exactly what I need. Commented Apr 2, 2022 at 16:39
• In CSS gradient startOffset and endOffset can be negative values (see here, red blue points: codepen.io/enbee81/pen/zYrXVGo) but in the first solution it never happens Commented Apr 3, 2022 at 17:52
• I see what you mean, and I suppose if you want to faithfully reproduce CSS behaviour, you should be aware of this. But it is not really an "error", rather a design choice, to restrict the gradient start and end to within the visible area. It depends how much you want to see of the extremes of the colours. For my application, I want to see them more, so constraining makes sense. Commented Apr 5, 2022 at 15:47
• Actually, when I was reading the article you posted, I noticed that there was indeed an error in my solution and the one you pointed out, but it's not that the offsets can't be negative. The .coerce*() operator is the wrong one to use because it only affects one coordinate, however this distorts the gradient angle. I've updated my answer to have the corrected code. Commented Apr 6, 2022 at 2:33

Reworked the machfour variant, so that the gradient goes beyond the background (so that there were no single-color areas, as in the example below).

• Mukhtar Bimurat has a more complete version, but I was curious to try it myself

> image

``````    fun Modifier.angledGradientBackground(colorStops: Array<Pair<Float, Color>>, degrees: Float) = this.then(
drawBehind {
val (x, y) = size

val degreesNormalised = (degrees % 360).let { if (it < 0) it + 360 else it }
val angleN = 90 - (degreesNormalised % 90)

val hypot1 = abs((y * cos(angleNRad)))
val x1 = (abs((hypot1 * sin(angleNRad)))).toFloat()
val y1 = (abs((hypot1 * cos(angleNRad)))).toFloat()

val hypot2 = abs((x * cos(angleNRad)))
val x2 = (abs((hypot2 * cos(angleNRad)))).toFloat()
val y2 = (abs((hypot2 * sin(angleNRad)))).toFloat()

val offset = when  {
degreesNormalised > 0f && degreesNormalised < 90f -> arrayOf(
0f - x1, y - y1,
x - x2, y + y2)
degreesNormalised == 90f -> arrayOf(0f, 0f, 0f, y)
degreesNormalised > 90f && degreesNormalised < 180f -> arrayOf(
0f + x2, 0f - y2,
0f - x1, y - y1)
degreesNormalised == 180f -> arrayOf(x, 0f, 0f, 0f)
degreesNormalised > 180f && degreesNormalised < 270f -> arrayOf(
x + x1, 0f + y1,
0f + x2, 0f - y2)
degreesNormalised == 270f -> arrayOf(x, y, x, 0f)
degreesNormalised > 270f && degreesNormalised < 360f -> arrayOf(
x - x2, y + y2,
x + x1, 0f + y1)
else -> arrayOf(0f, y, x, y)
}

drawRect(
colorStops = colorStops,
/*colors = colors,*/
start = Offset(offset[0],offset[1]),
end = Offset(offset[2], offset[3])
),
size = size
)
}
)
``````
• Thanks for your answer. I am looking to tweak this (almost inverse it) for my needs. From what i see in the image the angled gradient is drawn from top left to bottom right. What if I want it drawn from bottom left to top right. Commented Jul 12 at 8:24

You need to define a directional vector using the offsets. For any angle, you would need to explicitly specify % within the maximum drawing area in respect to which way the vector should be pointing.

• Any resource to read more on this? Commented Mar 31, 2022 at 9:30