We already have a draggable block with dragging logic coupled with the UI component.
Custom hook: useDraggable
Let's take it out the dragging part and create a custom hook that can be used with anything anywhere!
import * as React from "react";
const useDraggable = () => {
const [coordinate, setCoordinate] = React.useState({
block: {
x: 0,
y: 0,
},
pointer: { x: 0, y: 0 },
moving: false,
});
const handleMouseMove = React.useCallback(
(event) => {
if (!coordinate.moving) {
return;
}
const coordinates = { x: event.clientX, y: event.clientY };
setCoordinate((prev) => {
const diff = {
x: coordinates.x - prev.pointer.x,
y: coordinates.y - prev.pointer.y,
};
return {
moving: true,
pointer: coordinates,
block: { x: prev.block.x + diff.x, y: prev.block.y + diff.y },
};
});
},
[coordinate.moving]
);
const handleMouseUp = React.useCallback(() => {
setCoordinate((prev) => ({
...prev,
moving: false,
}));
}, []);
const handleMouseDown = React.useCallback((event) => {
const startingCoordinates = { x: event.clientX, y: event.clientY };
setCoordinate((prev) => ({
...prev,
pointer: startingCoordinates,
moving: true,
}));
event.stopPropagation();
}, []);
return {
handleMouseDown,
handleMouseMove,
handleMouseUp,
coordinate: coordinate.block,
};
};
export default useDraggable;
Usage with block
const Block = (props) => {
return (
<BlockWrapper {...props}>
<StyledText>1</StyledText>
</BlockWrapper>
);
};
export default function App() {
const { handleMouseDown, handleMouseMove, handleMouseUp, coordinate } =
useDraggable();
return (
<div
style={{ border: "1px solid", height: "100%", width: "100%" }}
onMouseMove={handleMouseMove}
onMouseUp={handleMouseUp}
>
<Block
style={{
transform: `translate3d(${coordinate.x}px, ${coordinate.y}px, 0px)`,
}}
onMouseDown={handleMouseDown}
/>
</div>
);
}
Let's add more blocks to our layout for adding more block we can use an array and store position of each of block as object in it.
const [blocks, setBlocks] = React.useState(
// creates an array of 10 elements each equals to 1
new Array(10).fill(1).map(() => ({ x: 0, y: 0 }))
);
...
<BlockContainer
style={{ border: "1px solid", height: "100%", width: "100%" }}
onMouseMove={handleMouseMove}
onMouseUp={handleMouseUp}
>
{blocks.map((_,index) => (
<Block
key={index}
style={{
transform: `translate3d(${coordinate.x}px, ${coordinate.y}px, 0px)`
}}
onMouseDown={handleMouseDown}
/>
))}
</BlockContainer>
Somethings wrong and I can feel it!
...
Even if you will move one block they all will move. Check here, but why?
Moving one block is moving every block in same director and with same difference, we have handled it by using the position: relative
for now! Another thing here to notice is I have changed
style={{ top: coordinate.block.y, left: coordinate.block.x }}
// to
style={{
transform: `translate3d(${coordinate.x}px, ${coordinate.y}px, 0px)`
}}
reason being this one is more efficient considering we will be changing these values again-again, when changing left
or top
the browser has to run through the layout phase again because left
or top
may have changed how things were laid out, transform
on the other hand will not affect layout.
Layout is not same on all screen sizes, as I have not limited the width height of parent div, blocks spreads according to the space as we are using flex-wrap
to wrap them and it has it's downsides. If I will limit the width and height dragging will not work properly for the same reason it's was not working for the single block, if moved fast enough pointer will leave the block and might leave our parent div to where the handler are attached, we will change the layout later in this part without limiting the height and width of parent. We will limit that in part 3.
Let's visualize with limited parent height and width with our current handling.
Dia A
Black area is our parent container and green ones are the blocks. It doesn't matter how fast I drag the pointer inside black area, block will always catch up, there might be bigger jumps in case of fast movements, but it always catch up.
Dia B
Once pointer left the parent, block will move until the pointer is above it as handleMouseMove
is still triggered because event current target is block and the propagates to the parent where we are catching the mouseMove
using onMouseMove
, it will keep propagating if there is no event.stopPropagation()
.
Dia C
Once the pointer left the block handleMouseMove
will not trigger anymore for the block, note that the mouseUp
is still not triggered inside block or parent, so we still have moving: true
in our state and once the pointer reaches inside the parent, there will be wired movements of block, we can handle this while applying checks on mouseMove
such that our block never leaves the parent, whenever the pointer leaves the parent, trigger handleMouseUp
manually, there are still some catches that can be resolved using some calculation that we will cover later in part 3.
Making particular block move
Till now we can drag every block together in any direction as we are maintaining only one state with useDraggable
, instead of maintaining one state we will maintain an array and each element inside an array will be coordinates of a block at that index!
Change the state to
// Grid.jsx
const { handleMouseDown, handleMouseMove, handleMouseUp, blocks } =
useDraggable(10);
return (
<BlockContainer onMouseMove={handleMouseMove} onMouseUp={handleMouseUp}>
{blocks.map((coordinate, index) => (
<Block
key={index}
style={{
transform: `translate3d(${coordinate.x}px, ${coordinate.y}px, 0px)`,
}}
// we will use this to identify the block, to avoid n number of inline function declaration
data-index={index}
onMouseDown={handleMouseDown}
/>
))}
</BlockContainer>
);
// useDraggable.js state
const [coordinate, setCoordinate] = React.useState({
blocks: new Array(totalBlocks).fill(1).map(() => ({ x: 0, y: 0 })),
pointer: { x: 0, y: 0 },
// removed `moving` and added `movingBlockIndex` key to track the moving block
movingBlockIndex: null,
});
const handleMouseDown = React.useCallback((event) => {
const index = parseInt(event.target.getAttribute("data-index"), 10);
const startingCoordinates = { x: event.clientX, y: event.clientY };
setCoordinate((prev) => ({
...prev,
pointer: startingCoordinates,
// we set this to null on mouseUp
movingBlockIndex: index,
}));
event.stopPropagation();
}, []);
Fixing the layout
As we discussed earlier they layout is not great, though we can definitely limit the heigh and width, but we will do it using position: absolute
, but isn't that will require more work ? Not actually, Not for the long run!
A grid gives us defined structure to work on as we will be working with coordinates, if one block moves we can shift other blocks to it's position and create space for this one at it's current position like you saw in the demo with position: relative
these calculation will be hard as then we will always have to calculate with respect to the block's initial position to move it which will be a nightmare.
Though we will fixing only the layout not blocks re-arrangement in this part but consider these two scenario with position absolute
& relative
.
With position: absolute
everything is natural and easy!
Then why were using position: relative
? That's best for single block moment or even the grid where we don't have to re-arrange everything, if any block overlaps anyone we can simple move it with some few pixels, like here. So it depends on the case.
It's pretty simple to define a grid, everything has to be place 120px
apart whether horizontal or vertical. On X axis for each block we will multiply by 120 and same will happen for Y axis. Let's say we want only 3 blocks in one row, if we had 9 block the arrangement will look like
0 | 1 | 2
__________
3 | 4 | 5
__________
6 | 7 | 8
if you notice there is a pattern, column of any index can be determined using index%3
and row can be determined using floor of index/3
. So coordinate will be
{
x: index % 3 * 120,
y: 120 * Math.floor(rowindex / 3)
}
But there will no gap between the blocks and it will probably look bad. Let's add 8px of gap between each block, to do so X coordinate of 1st block will be same as before, we should add 8px to the 2nd block, 16px to the 3rd and so on. Why we are increasing the gap with each block as 8px as been added to 2nd block that will be pushed toward right, now the 3rd one is overlapping the 2nd by 8px so to cover that 8px and to add gap of 8px we have to add 16px, it stays same for upcoming blocks.
{
x: index % 3 * 120 + (index % 3 * 8),
y: 120 * Math.floor(rowindex / 3) + (Math.floor(rowindex / 3) * 8)
}
Enough talking, the code:
const totalBlocks = 10;
const blockInRow = 3;
const blocks = Array(totalBlocks)
.fill(1)
.map((_, index) => {
const col = Math.floor(index % blockInRow);
const row = Math.floor(index / blockInRow);
return { x: col * 120 + col * 8, y: 120 * row + row * 8 };
});
You check it working code here
That's all for today, we have a grid and draggable blocks, in next part will restrict the block movement inside the grid only and will re-arrange them if a block hovers on another using react-sprint
.
Top comments (2)
this is amaizing man so i was workin on something like this not exactly the same but same idea i guess i was trying to create a jigsaw puzzle that we can construct the image by rearranging the tiles but my result was a horrible anyways tnx for this it helps a lot
Nice idea! Glad it helped you.