From ad03a0b0812bb8e15e5aa078d7c01eef5ebbdf2e Mon Sep 17 00:00:00 2001 From: ubq323 Date: Thu, 7 Apr 2022 22:22:00 +0100 Subject: restructure --- src/bump.lua | 773 ----------------------------------------------------------- 1 file changed, 773 deletions(-) delete mode 100644 src/bump.lua (limited to 'src/bump.lua') diff --git a/src/bump.lua b/src/bump.lua deleted file mode 100644 index 6dabca7..0000000 --- a/src/bump.lua +++ /dev/null @@ -1,773 +0,0 @@ -local bump = { - _VERSION = 'bump v3.1.7', - _URL = 'https://github.com/kikito/bump.lua', - _DESCRIPTION = 'A collision detection library for Lua', - _LICENSE = [[ - MIT LICENSE - - Copyright (c) 2014 Enrique GarcĂ­a Cota - - Permission is hereby granted, free of charge, to any person obtaining a - copy of this software and associated documentation files (the - "Software"), to deal in the Software without restriction, including - without limitation the rights to use, copy, modify, merge, publish, - distribute, sublicense, and/or sell copies of the Software, and to - permit persons to whom the Software is furnished to do so, subject to - the following conditions: - - The above copyright notice and this permission notice shall be included - in all copies or substantial portions of the Software. - - THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS - OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF - MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. - IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY - CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, - TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE - SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. - ]] -} - ------------------------------------------- --- Auxiliary functions ------------------------------------------- -local DELTA = 1e-10 -- floating-point margin of error - -local abs, floor, ceil, min, max = math.abs, math.floor, math.ceil, math.min, math.max - -local function sign(x) - if x > 0 then return 1 end - if x == 0 then return 0 end - return -1 -end - -local function nearest(x, a, b) - if abs(a - x) < abs(b - x) then return a else return b end -end - -local function assertType(desiredType, value, name) - if type(value) ~= desiredType then - error(name .. ' must be a ' .. desiredType .. ', but was ' .. tostring(value) .. '(a ' .. type(value) .. ')') - end -end - -local function assertIsPositiveNumber(value, name) - if type(value) ~= 'number' or value <= 0 then - error(name .. ' must be a positive integer, but was ' .. tostring(value) .. '(' .. type(value) .. ')') - end -end - -local function assertIsRect(x,y,w,h) - assertType('number', x, 'x') - assertType('number', y, 'y') - assertIsPositiveNumber(w, 'w') - assertIsPositiveNumber(h, 'h') -end - -local defaultFilter = function() - return 'slide' -end - ------------------------------------------- --- Rectangle functions ------------------------------------------- - -local function rect_getNearestCorner(x,y,w,h, px, py) - return nearest(px, x, x+w), nearest(py, y, y+h) -end - --- This is a generalized implementation of the liang-barsky algorithm, which also returns --- the normals of the sides where the segment intersects. --- Returns nil if the segment never touches the rect --- Notice that normals are only guaranteed to be accurate when initially ti1, ti2 == -math.huge, math.huge -local function rect_getSegmentIntersectionIndices(x,y,w,h, x1,y1,x2,y2, ti1,ti2) - ti1, ti2 = ti1 or 0, ti2 or 1 - local dx, dy = x2-x1, y2-y1 - local nx, ny - local nx1, ny1, nx2, ny2 = 0,0,0,0 - local p, q, r - - for side = 1,4 do - if side == 1 then nx,ny,p,q = -1, 0, -dx, x1 - x -- left - elseif side == 2 then nx,ny,p,q = 1, 0, dx, x + w - x1 -- right - elseif side == 3 then nx,ny,p,q = 0, -1, -dy, y1 - y -- top - else nx,ny,p,q = 0, 1, dy, y + h - y1 -- bottom - end - - if p == 0 then - if q <= 0 then return nil end - else - r = q / p - if p < 0 then - if r > ti2 then return nil - elseif r > ti1 then ti1,nx1,ny1 = r,nx,ny - end - else -- p > 0 - if r < ti1 then return nil - elseif r < ti2 then ti2,nx2,ny2 = r,nx,ny - end - end - end - end - - return ti1,ti2, nx1,ny1, nx2,ny2 -end - --- Calculates the minkowsky difference between 2 rects, which is another rect -local function rect_getDiff(x1,y1,w1,h1, x2,y2,w2,h2) - return x2 - x1 - w1, - y2 - y1 - h1, - w1 + w2, - h1 + h2 -end - -local function rect_containsPoint(x,y,w,h, px,py) - return px - x > DELTA and py - y > DELTA and - x + w - px > DELTA and y + h - py > DELTA -end - -local function rect_isIntersecting(x1,y1,w1,h1, x2,y2,w2,h2) - return x1 < x2+w2 and x2 < x1+w1 and - y1 < y2+h2 and y2 < y1+h1 -end - -local function rect_getSquareDistance(x1,y1,w1,h1, x2,y2,w2,h2) - local dx = x1 - x2 + (w1 - w2)/2 - local dy = y1 - y2 + (h1 - h2)/2 - return dx*dx + dy*dy -end - -local function rect_detectCollision(x1,y1,w1,h1, x2,y2,w2,h2, goalX, goalY) - goalX = goalX or x1 - goalY = goalY or y1 - - local dx, dy = goalX - x1, goalY - y1 - local x,y,w,h = rect_getDiff(x1,y1,w1,h1, x2,y2,w2,h2) - - local overlaps, ti, nx, ny - - if rect_containsPoint(x,y,w,h, 0,0) then -- item was intersecting other - local px, py = rect_getNearestCorner(x,y,w,h, 0, 0) - local wi, hi = min(w1, abs(px)), min(h1, abs(py)) -- area of intersection - ti = -wi * hi -- ti is the negative area of intersection - overlaps = true - else - local ti1,ti2,nx1,ny1 = rect_getSegmentIntersectionIndices(x,y,w,h, 0,0,dx,dy, -math.huge, math.huge) - - -- item tunnels into other - if ti1 - and ti1 < 1 - and (abs(ti1 - ti2) >= DELTA) -- special case for rect going through another rect's corner - and (0 < ti1 + DELTA - or 0 == ti1 and ti2 > 0) - then - ti, nx, ny = ti1, nx1, ny1 - overlaps = false - end - end - - if not ti then return end - - local tx, ty - - if overlaps then - if dx == 0 and dy == 0 then - -- intersecting and not moving - use minimum displacement vector - local px, py = rect_getNearestCorner(x,y,w,h, 0,0) - if abs(px) < abs(py) then py = 0 else px = 0 end - nx, ny = sign(px), sign(py) - tx, ty = x1 + px, y1 + py - else - -- intersecting and moving - move in the opposite direction - local ti1, _ - ti1,_,nx,ny = rect_getSegmentIntersectionIndices(x,y,w,h, 0,0,dx,dy, -math.huge, 1) - if not ti1 then return end - tx, ty = x1 + dx * ti1, y1 + dy * ti1 - end - else -- tunnel - tx, ty = x1 + dx * ti, y1 + dy * ti - end - - return { - overlaps = overlaps, - ti = ti, - move = {x = dx, y = dy}, - normal = {x = nx, y = ny}, - touch = {x = tx, y = ty}, - itemRect = {x = x1, y = y1, w = w1, h = h1}, - otherRect = {x = x2, y = y2, w = w2, h = h2} - } -end - ------------------------------------------- --- Grid functions ------------------------------------------- - -local function grid_toWorld(cellSize, cx, cy) - return (cx - 1)*cellSize, (cy-1)*cellSize -end - -local function grid_toCell(cellSize, x, y) - return floor(x / cellSize) + 1, floor(y / cellSize) + 1 -end - --- grid_traverse* functions are based on "A Fast Voxel Traversal Algorithm for Ray Tracing", --- by John Amanides and Andrew Woo - http://www.cse.yorku.ca/~amana/research/grid.pdf --- It has been modified to include both cells when the ray "touches a grid corner", --- and with a different exit condition - -local function grid_traverse_initStep(cellSize, ct, t1, t2) - local v = t2 - t1 - if v > 0 then - return 1, cellSize / v, ((ct + v) * cellSize - t1) / v - elseif v < 0 then - return -1, -cellSize / v, ((ct + v - 1) * cellSize - t1) / v - else - return 0, math.huge, math.huge - end -end - -local function grid_traverse(cellSize, x1,y1,x2,y2, f) - local cx1,cy1 = grid_toCell(cellSize, x1,y1) - local cx2,cy2 = grid_toCell(cellSize, x2,y2) - local stepX, dx, tx = grid_traverse_initStep(cellSize, cx1, x1, x2) - local stepY, dy, ty = grid_traverse_initStep(cellSize, cy1, y1, y2) - local cx,cy = cx1,cy1 - - f(cx, cy) - - -- The default implementation had an infinite loop problem when - -- approaching the last cell in some occassions. We finish iterating - -- when we are *next* to the last cell - while abs(cx - cx2) + abs(cy - cy2) > 1 do - if tx < ty then - tx, cx = tx + dx, cx + stepX - f(cx, cy) - else - -- Addition: include both cells when going through corners - if tx == ty then f(cx + stepX, cy) end - ty, cy = ty + dy, cy + stepY - f(cx, cy) - end - end - - -- If we have not arrived to the last cell, use it - if cx ~= cx2 or cy ~= cy2 then f(cx2, cy2) end - -end - -local function grid_toCellRect(cellSize, x,y,w,h) - local cx,cy = grid_toCell(cellSize, x, y) - local cr,cb = ceil((x+w) / cellSize), ceil((y+h) / cellSize) - return cx, cy, cr - cx + 1, cb - cy + 1 -end - ------------------------------------------- --- Responses ------------------------------------------- - -local touch = function(world, col, x,y,w,h, goalX, goalY, filter) - return col.touch.x, col.touch.y, {}, 0 -end - -local cross = function(world, col, x,y,w,h, goalX, goalY, filter) - local cols, len = world:project(col.item, x,y,w,h, goalX, goalY, filter) - return goalX, goalY, cols, len -end - -local slide = function(world, col, x,y,w,h, goalX, goalY, filter) - goalX = goalX or x - goalY = goalY or y - - local tch, move = col.touch, col.move - if move.x ~= 0 or move.y ~= 0 then - if col.normal.x ~= 0 then - goalX = tch.x - else - goalY = tch.y - end - end - - col.slide = {x = goalX, y = goalY} - - x,y = tch.x, tch.y - local cols, len = world:project(col.item, x,y,w,h, goalX, goalY, filter) - return goalX, goalY, cols, len -end - -local bounce = function(world, col, x,y,w,h, goalX, goalY, filter) - goalX = goalX or x - goalY = goalY or y - - local tch, move = col.touch, col.move - local tx, ty = tch.x, tch.y - - local bx, by = tx, ty - - if move.x ~= 0 or move.y ~= 0 then - local bnx, bny = goalX - tx, goalY - ty - if col.normal.x == 0 then bny = -bny else bnx = -bnx end - bx, by = tx + bnx, ty + bny - end - - col.bounce = {x = bx, y = by} - x,y = tch.x, tch.y - goalX, goalY = bx, by - - local cols, len = world:project(col.item, x,y,w,h, goalX, goalY, filter) - return goalX, goalY, cols, len -end - ------------------------------------------- --- World ------------------------------------------- - -local World = {} -local World_mt = {__index = World} - --- Private functions and methods - -local function sortByWeight(a,b) return a.weight < b.weight end - -local function sortByTiAndDistance(a,b) - if a.ti == b.ti then - local ir, ar, br = a.itemRect, a.otherRect, b.otherRect - local ad = rect_getSquareDistance(ir.x,ir.y,ir.w,ir.h, ar.x,ar.y,ar.w,ar.h) - local bd = rect_getSquareDistance(ir.x,ir.y,ir.w,ir.h, br.x,br.y,br.w,br.h) - return ad < bd - end - return a.ti < b.ti -end - -local function addItemToCell(self, item, cx, cy) - self.rows[cy] = self.rows[cy] or setmetatable({}, {__mode = 'v'}) - local row = self.rows[cy] - row[cx] = row[cx] or {itemCount = 0, x = cx, y = cy, items = setmetatable({}, {__mode = 'k'})} - local cell = row[cx] - self.nonEmptyCells[cell] = true - if not cell.items[item] then - cell.items[item] = true - cell.itemCount = cell.itemCount + 1 - end -end - -local function removeItemFromCell(self, item, cx, cy) - local row = self.rows[cy] - if not row or not row[cx] or not row[cx].items[item] then return false end - - local cell = row[cx] - cell.items[item] = nil - cell.itemCount = cell.itemCount - 1 - if cell.itemCount == 0 then - self.nonEmptyCells[cell] = nil - end - return true -end - -local function getDictItemsInCellRect(self, cl,ct,cw,ch) - local items_dict = {} - for cy=ct,ct+ch-1 do - local row = self.rows[cy] - if row then - for cx=cl,cl+cw-1 do - local cell = row[cx] - if cell and cell.itemCount > 0 then -- no cell.itemCount > 1 because tunneling - for item,_ in pairs(cell.items) do - items_dict[item] = true - end - end - end - end - end - - return items_dict -end - -local function getCellsTouchedBySegment(self, x1,y1,x2,y2) - - local cells, cellsLen, visited = {}, 0, {} - - grid_traverse(self.cellSize, x1,y1,x2,y2, function(cx, cy) - local row = self.rows[cy] - if not row then return end - local cell = row[cx] - if not cell or visited[cell] then return end - - visited[cell] = true - cellsLen = cellsLen + 1 - cells[cellsLen] = cell - end) - - return cells, cellsLen -end - -local function getInfoAboutItemsTouchedBySegment(self, x1,y1, x2,y2, filter) - local cells, len = getCellsTouchedBySegment(self, x1,y1,x2,y2) - local cell, rect, l,t,w,h, ti1,ti2, tii0,tii1 - local visited, itemInfo, itemInfoLen = {},{},0 - for i=1,len do - cell = cells[i] - for item in pairs(cell.items) do - if not visited[item] then - visited[item] = true - if (not filter or filter(item)) then - rect = self.rects[item] - l,t,w,h = rect.x,rect.y,rect.w,rect.h - - ti1,ti2 = rect_getSegmentIntersectionIndices(l,t,w,h, x1,y1, x2,y2, 0, 1) - if ti1 and ((0 < ti1 and ti1 < 1) or (0 < ti2 and ti2 < 1)) then - -- the sorting is according to the t of an infinite line, not the segment - tii0,tii1 = rect_getSegmentIntersectionIndices(l,t,w,h, x1,y1, x2,y2, -math.huge, math.huge) - itemInfoLen = itemInfoLen + 1 - itemInfo[itemInfoLen] = {item = item, ti1 = ti1, ti2 = ti2, weight = min(tii0,tii1)} - end - end - end - end - end - table.sort(itemInfo, sortByWeight) - return itemInfo, itemInfoLen -end - -local function getResponseByName(self, name) - local response = self.responses[name] - if not response then - error(('Unknown collision type: %s (%s)'):format(name, type(name))) - end - return response -end - - --- Misc Public Methods - -function World:addResponse(name, response) - self.responses[name] = response -end - -function World:project(item, x,y,w,h, goalX, goalY, filter) - assertIsRect(x,y,w,h) - - goalX = goalX or x - goalY = goalY or y - filter = filter or defaultFilter - - local collisions, len = {}, 0 - - local visited = {} - if item ~= nil then visited[item] = true end - - -- This could probably be done with less cells using a polygon raster over the cells instead of a - -- bounding rect of the whole movement. Conditional to building a queryPolygon method - local tl, tt = min(goalX, x), min(goalY, y) - local tr, tb = max(goalX + w, x+w), max(goalY + h, y+h) - local tw, th = tr-tl, tb-tt - - local cl,ct,cw,ch = grid_toCellRect(self.cellSize, tl,tt,tw,th) - - local dictItemsInCellRect = getDictItemsInCellRect(self, cl,ct,cw,ch) - - for other,_ in pairs(dictItemsInCellRect) do - if not visited[other] then - visited[other] = true - - local responseName = filter(item, other) - if responseName then - local ox,oy,ow,oh = self:getRect(other) - local col = rect_detectCollision(x,y,w,h, ox,oy,ow,oh, goalX, goalY) - - if col then - col.other = other - col.item = item - col.type = responseName - - len = len + 1 - collisions[len] = col - end - end - end - end - - table.sort(collisions, sortByTiAndDistance) - - return collisions, len -end - -function World:countCells() - local count = 0 - for _,row in pairs(self.rows) do - for _,_ in pairs(row) do - count = count + 1 - end - end - return count -end - -function World:hasItem(item) - return not not self.rects[item] -end - -function World:getItems() - local items, len = {}, 0 - for item,_ in pairs(self.rects) do - len = len + 1 - items[len] = item - end - return items, len -end - -function World:countItems() - local len = 0 - for _ in pairs(self.rects) do len = len + 1 end - return len -end - -function World:getRect(item) - local rect = self.rects[item] - if not rect then - error('Item ' .. tostring(item) .. ' must be added to the world before getting its rect. Use world:add(item, x,y,w,h) to add it first.') - end - return rect.x, rect.y, rect.w, rect.h -end - -function World:toWorld(cx, cy) - return grid_toWorld(self.cellSize, cx, cy) -end - -function World:toCell(x,y) - return grid_toCell(self.cellSize, x, y) -end - - ---- Query methods - -function World:queryRect(x,y,w,h, filter) - - assertIsRect(x,y,w,h) - - local cl,ct,cw,ch = grid_toCellRect(self.cellSize, x,y,w,h) - local dictItemsInCellRect = getDictItemsInCellRect(self, cl,ct,cw,ch) - - local items, len = {}, 0 - - local rect - for item,_ in pairs(dictItemsInCellRect) do - rect = self.rects[item] - if (not filter or filter(item)) - and rect_isIntersecting(x,y,w,h, rect.x, rect.y, rect.w, rect.h) - then - len = len + 1 - items[len] = item - end - end - - return items, len -end - -function World:queryPoint(x,y, filter) - local cx,cy = self:toCell(x,y) - local dictItemsInCellRect = getDictItemsInCellRect(self, cx,cy,1,1) - - local items, len = {}, 0 - - local rect - for item,_ in pairs(dictItemsInCellRect) do - rect = self.rects[item] - if (not filter or filter(item)) - and rect_containsPoint(rect.x, rect.y, rect.w, rect.h, x, y) - then - len = len + 1 - items[len] = item - end - end - - return items, len -end - -function World:querySegment(x1, y1, x2, y2, filter) - local itemInfo, len = getInfoAboutItemsTouchedBySegment(self, x1, y1, x2, y2, filter) - local items = {} - for i=1, len do - items[i] = itemInfo[i].item - end - return items, len -end - -function World:querySegmentWithCoords(x1, y1, x2, y2, filter) - local itemInfo, len = getInfoAboutItemsTouchedBySegment(self, x1, y1, x2, y2, filter) - local dx, dy = x2-x1, y2-y1 - local info, ti1, ti2 - for i=1, len do - info = itemInfo[i] - ti1 = info.ti1 - ti2 = info.ti2 - - info.weight = nil - info.x1 = x1 + dx * ti1 - info.y1 = y1 + dy * ti1 - info.x2 = x1 + dx * ti2 - info.y2 = y1 + dy * ti2 - end - return itemInfo, len -end - - ---- Main methods - -function World:add(item, x,y,w,h) - local rect = self.rects[item] - if rect then - error('Item ' .. tostring(item) .. ' added to the world twice.') - end - assertIsRect(x,y,w,h) - - self.rects[item] = {x=x,y=y,w=w,h=h} - - local cl,ct,cw,ch = grid_toCellRect(self.cellSize, x,y,w,h) - for cy = ct, ct+ch-1 do - for cx = cl, cl+cw-1 do - addItemToCell(self, item, cx, cy) - end - end - - return item -end - -function World:remove(item) - local x,y,w,h = self:getRect(item) - - self.rects[item] = nil - local cl,ct,cw,ch = grid_toCellRect(self.cellSize, x,y,w,h) - for cy = ct, ct+ch-1 do - for cx = cl, cl+cw-1 do - removeItemFromCell(self, item, cx, cy) - end - end -end - -function World:update(item, x2,y2,w2,h2) - local x1,y1,w1,h1 = self:getRect(item) - w2,h2 = w2 or w1, h2 or h1 - assertIsRect(x2,y2,w2,h2) - - if x1 ~= x2 or y1 ~= y2 or w1 ~= w2 or h1 ~= h2 then - - local cellSize = self.cellSize - local cl1,ct1,cw1,ch1 = grid_toCellRect(cellSize, x1,y1,w1,h1) - local cl2,ct2,cw2,ch2 = grid_toCellRect(cellSize, x2,y2,w2,h2) - - if cl1 ~= cl2 or ct1 ~= ct2 or cw1 ~= cw2 or ch1 ~= ch2 then - - local cr1, cb1 = cl1+cw1-1, ct1+ch1-1 - local cr2, cb2 = cl2+cw2-1, ct2+ch2-1 - local cyOut - - for cy = ct1, cb1 do - cyOut = cy < ct2 or cy > cb2 - for cx = cl1, cr1 do - if cyOut or cx < cl2 or cx > cr2 then - removeItemFromCell(self, item, cx, cy) - end - end - end - - for cy = ct2, cb2 do - cyOut = cy < ct1 or cy > cb1 - for cx = cl2, cr2 do - if cyOut or cx < cl1 or cx > cr1 then - addItemToCell(self, item, cx, cy) - end - end - end - - end - - local rect = self.rects[item] - rect.x, rect.y, rect.w, rect.h = x2,y2,w2,h2 - - end -end - -function World:move(item, goalX, goalY, filter) - local actualX, actualY, cols, len = self:check(item, goalX, goalY, filter) - - self:update(item, actualX, actualY) - - return actualX, actualY, cols, len -end - -function World:check(item, goalX, goalY, filter) - filter = filter or defaultFilter - - local visited = {[item] = true} - local visitedFilter = function(itm, other) - if visited[other] then return false end - return filter(itm, other) - end - - local cols, len = {}, 0 - - local x,y,w,h = self:getRect(item) - - local projected_cols, projected_len = self:project(item, x,y,w,h, goalX,goalY, visitedFilter) - - while projected_len > 0 do - local col = projected_cols[1] - len = len + 1 - cols[len] = col - - visited[col.other] = true - - local response = getResponseByName(self, col.type) - - goalX, goalY, projected_cols, projected_len = response( - self, - col, - x, y, w, h, - goalX, goalY, - visitedFilter - ) - end - - return goalX, goalY, cols, len -end - - --- Public library functions - -bump.newWorld = function(cellSize) - cellSize = cellSize or 64 - assertIsPositiveNumber(cellSize, 'cellSize') - local world = setmetatable({ - cellSize = cellSize, - rects = {}, - rows = {}, - nonEmptyCells = {}, - responses = {} - }, World_mt) - - world:addResponse('touch', touch) - world:addResponse('cross', cross) - world:addResponse('slide', slide) - world:addResponse('bounce', bounce) - - return world -end - -bump.rect = { - getNearestCorner = rect_getNearestCorner, - getSegmentIntersectionIndices = rect_getSegmentIntersectionIndices, - getDiff = rect_getDiff, - containsPoint = rect_containsPoint, - isIntersecting = rect_isIntersecting, - getSquareDistance = rect_getSquareDistance, - detectCollision = rect_detectCollision -} - -bump.responses = { - touch = touch, - cross = cross, - slide = slide, - bounce = bounce -} - -return bump -- cgit v1.2.3