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By mivagames
Hello all,
We are a small team that would like to introduce our game  “Bondo 2  Fusion of Domino”. It's "merging game" with levels.
The testing phase there were many questions. We are would like to hear constructive reaction about Tutorial of our game: very detailed or no, very long or ... etc.
We would be happy for any feedback.
Thanks!
iOS: https://itunes.apple.com/app/id1288081600

By PistachioPro
Hi all! Long time no post. We've been on extended hiatus from game development for several years, but came out of hiding to develop a fun little browser game. It's called surviv.io, and you can find it (appropriately) at http://surviv.io. It's strongly influenced by way too many hours spent playing PUBG. Spawn in, grab some loot, and be the last person standing. Please check it out and let us know what you think!

By ComboSmooth
Hi
I am a game designer currently working with 3 programmers on a Binding of Isaac like game. https://vimeo.com/237454382
Our aim for the game is mostly to be able to produce a solid playable demo. If we expand on the game, or make a different game will be decided later.
As of now, we have most of the game's base mechanics implemented, but our art production is slacking behind. We are currently using placeholder art and we'd like for real art to come into action.
I'm looking for an artist or 2 to help get the art production up to speed. As artist for the project, you will get to decide a lot about how the game's art will look and feel. We want you to be able to put some of yourself in the game and have at the very least a piece you feel comfortable adding to your portfolio. We have not fully decided if we'll be using sprites or pixel art but the choice will largely be left up to the artists. The game will require simple animations for certain enemies so the artist will need to know how to animate.
if you are interested, you can reply to this post or message me on this site.

By BAG Labs
Mobile SoS
Platform: Android
Genre: Board
Link: Google Play
This games sharpen memory and test your strategies to place SOS pattern within time limit and serve 3 difficulties as Easy, Normal, and Hard.
Goals of the game is to put SOS words in patterns (Horizontal, Vertical, and Diagonal) alternately with enemy.
Features:
Single Player Multiplayer Achievements Leaderboards
Screenshot:
Link: Google Play
Please help us improve this game with review

By Connor Rust
I am currently attempting to make a navigation mesh for our 2D top down game, which is a multiplayer game using Node.js as the server communication. At the moment, I have implemented A* over an obstacle hardnessmap, which is awfully slow and laggy at times when we test our game on Heroku. I have been trying to find an algorithm to automatically generate the navmesh after map creation, instead of me having to do this manually. I am currently attempting to use Delaunay's Triangulation Divide and Conquer algorithm, but I am running into some issues. I have already asked a question on StackOverflow and am not getting many suggestions and help from it, so I figured I would come here. Is there another algorithm that might be better to use for the navmesh generation in comparison to Deluanay's Triangulation? My current implementation seems extremely buggy during the merge step and I cannot find the error. I have checked over the code countless times, comparing it to the description of the algorithm from http://www.geom.uiuc.edu/~samuelp/del_project.html.
My current code is this:
class MapNode { constructor(x, y) { this.position = new Vector(x, y); this.neighbors = []; } distance(n) { return this.position.distance(n.position); } inNeighbor(n) { for (let i = 0; i < this.neighbors.length; i++) { if (this.neighbors[i] === n) return true; } return false; } addNeighbor(n) { this.neighbors = this.neighbors.filter((node) => node != n); this.neighbors.push(n); } addNeighbors(arr) { let self = this; arr.forEach((n) => self.neighbors.push(n)); } removeNeighbor(n) { this.neighbors = this.neighbors.filter((neighbor) => neighbor != n); } } class Triangle { constructor(p1, p2, p3) { this.p1 = p1; this.p2 = p2; this.p3 = p3; this.neighbors = []; } addNeighbors(n) { this.neighbors.push(n); } } function genSubMat(matrix, ignoreCol) { let r = []; for (let i = 0; i < matrix.length  1; i++) { r.push([]); for (let j = 0; j < matrix[0].length; j++) { if (j != ignoreCol) r[i].push(matrix[i + 1][j]); } } return r; } function determinantSqMat(matrix) { if (matrix.length != matrix[0].length) return false; if (matrix.length === 2) return matrix[0][0] * matrix[1][1]  matrix[1][0] * matrix[0][1]; let det = 0; for (let i = 0; i < matrix.length; i++) { let r = genSubMat(matrix, i); let tmp = matrix[0][i] * determinantSqMat(r); if (i % 2 == 0) det += tmp; else det = tmp; } return det; } // if d is in the circle formed by points a, b, and c, return > 0 // d is on circle, return 0 // d is outside of circle, return < 0 function inCircle(a, b, c, d) { let arr = [a, b, c, d]; let mat = [ [], [], [], [] ]; for (let i = 0; i < arr.length; i++) { mat[i][0] = 1; mat[i][1] = arr[i].position.x; mat[i][2] = arr[i].position.y; mat[i][3] = arr[i].position.x * arr[i].position.x + arr[i].position.y * arr[i].position.y; } return determinantSqMat(mat); } function walkable(from, to, hardnessMap) { let diff = new Vector(to.x  from.x, to.y  from.y); if (Math.abs(diff.x) > Math.abs(diff.y)) diff.scale(Math.abs(1 / diff.x)); else diff.scale(Math.abs(1 / diff.y)); let current = new Vector(from.x + diff.x, from.y + diff.y); while (Math.round(current.x) != to.x  Math.round(current.y) != to.y) { if (hardnessMap[Math.floor(current.y)][Math.floor(current.x)] === 1) return false; current.x += diff.x; current.y += diff.y; } return true; } function getLowest(nodes) { let lowest = nodes[0]; for (let i = 1; i < nodes.length; i++) { if (nodes[i].position.y < lowest.position.y) lowest = nodes[i]; } return lowest; } // returns the angle between 2 vectors, if cw is true, then return clockwise angle between, // else return the ccw angle between. b is the "hinge" point function angleBetween(a, b, c, cw) { let ba = new Vector(a.position.x  b.position.x, a.position.y  b.position.y); let bc = new Vector(c.position.x  b.position.x, c.position.y  b.position.y); let v0 = new Vector(0, 1); let angleBA = v0.angleBetween(ba) * 180 / Math.PI; if (angleBA < 0) angleBA += 360; let angleBC = v0.angleBetween(bc) * 180 / Math.PI; if (angleBC < 0) angleBC += 360; let smallest = Math.min(angleBA, angleBC); let largest = Math.max(angleBA, angleBC); let angle = largest  smallest; return (cw) ? angle : 360  angle; } function sortSmallestAngle(a, b, list, cw) { list.sort((m, n) => { let vab = new Vector(a.position.x  b.position.x, a.position.y  b.position.y); let vmb = new Vector(m.position.x  b.position.x, m.position.y  b.position.y); let vnb = new Vector(n.position.x  b.position.x, n.position.y  b.position.y); if (cw) return vab.angleBetween(vmb, cw)  vab.angleBetween(vnb, cw); else return vab.angleBetween(vnb, cw)  vab.angleBetween(vmb, cw); }); } // a is in list, b is in the other list function getPotential(a, b, list, cw) { sortSmallestAngle(b, a, list, cw); for (let i = 0; i < list.length  1; i++) { let angle = angleBetween(b, a, list[i], cw); if (angle > 180) return false; else if (inCircle(a, b, list[i], list[i + 1]) <= 0) return list[i]; else { a.removeNeighbor(list[i]); list[i].removeNeighbor(a); } } let potential = list[list.length  1]; if (potential) { let angle = angleBetween(a, b, potential, cw); if (angle > 180) return false; return potential; } return false; } function merge(leftNodes, rightNodes, leftBase, rightBase, hardnessMap) { leftBase.addNeighbor(rightBase); rightBase.addNeighbor(leftBase); let newLeft = leftNodes.filter((n) => n != leftBase); let newRight = rightNodes.filter((n) => n != rightBase); let potentialLeft = getPotential(leftBase, rightBase, newLeft, false); let potentialRight = getPotential(rightBase, leftBase, newRight, true); if (!potentialLeft && !potentialRight) return; else if (potentialLeft && !potentialRight) merge(newLeft, newRight, potentialLeft, rightBase, hardnessMap); else if (potentialRight && !potentialLeft) merge(newLeft, newRight, leftBase, potentialRight, hardnessMap); else { if (inCircle(leftBase, rightBase, potentialLeft, potentialRight) <= 0) merge(newLeft, newRight, potentialLeft, rightBase, hardnessMap); if (inCircle(leftBase, rightBase, potentialRight, potentialLeft) <= 0) merge(newLeft, newRight, leftBase, potentialRight, hardnessMap); } } // divide and conquer algorithm function delaunay(nodes, hardnessMap) { if (nodes.length <= 3) { for (let i = 0; i < nodes.length; i++) for (let j = 0; j < nodes.length; j++) if (i != j) nodes[i].addNeighbor(nodes[j]); return nodes; } else { nodes.sort((a, b) => { let tmp = a.position.x  b.position.x; if (tmp === 0) return b.position.y  a.position.y; return tmp; }); let l = nodes.length; let leftNodes; let rightNodes; if (l === 4) { leftNodes = delaunay(nodes.slice(0, 3), hardnessMap); rightNodes = delaunay(nodes.slice(3, 4), hardnessMap); } else { leftNodes = delaunay(nodes.slice(0, Math.floor(nodes.length / 2)), hardnessMap); rightNodes = delaunay(nodes.slice(Math.floor(nodes.length / 2), nodes.length), hardnessMap); } let leftBase = getLowest(leftNodes); let rightBase = getLowest(rightNodes); merge(leftNodes, rightNodes, leftBase, rightBase, hardnessMap); console.log("=============================MergeComplete================================"); return nodes; } }



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