local helpers = require("test.unit.helpers")(after_each) local itp = helpers.gen_itp(it) local ffi = helpers.ffi local eq = helpers.eq local ok = helpers.ok local lib = helpers.cimport("./src/nvim/marktree.h") local function tablelength(t) local count = 0 for _ in pairs(t) do count = count + 1 end return count end local function pos_leq(a, b) return a[1] < b[1] or (a[1] == b[1] and a[2] <= b[2]) end -- Checks that shadow and tree is consistent, and optionally -- return the order local function shadoworder(tree, shadow, iter, giveorder) ok(iter ~= nil) local status = lib.marktree_itr_first(tree, iter) local count = 0 local pos2id, id2pos = {}, {} local last if not status and next(shadow) == nil then return pos2id, id2pos end repeat local mark = lib.marktree_itr_current(iter) local id = tonumber(mark.id) local spos = shadow[id] if (mark.pos.row ~= spos[1] or mark.pos.col ~= spos[2]) then error("invalid pos for "..id..":("..mark.pos.row..", "..mark.pos.col..") instead of ("..spos[1]..", "..spos[2]..")") end if lib.mt_right_test(mark) ~= spos[3] then error("invalid gravity for "..id..":("..mark.pos.row..", "..mark.pos.col..")") end if count > 0 then if not pos_leq(last, spos) then error("DISORDER") end end count = count + 1 last = spos if giveorder then pos2id[count] = id id2pos[id] = count end until not lib.marktree_itr_next(tree, iter) local shadowlen = tablelength(shadow) if shadowlen ~= count then error("missed some keys? (shadow "..shadowlen..", tree "..count..")") end return id2pos, pos2id end local function shadowsplice(shadow, start, old_extent, new_extent) local old_end = {start[1] + old_extent[1], (old_extent[1] == 0 and start[2] or 0) + old_extent[2]} local new_end = {start[1] + new_extent[1], (new_extent[1] == 0 and start[2] or 0) + new_extent[2]} local delta = {new_end[1] - old_end[1], new_end[2] - old_end[2]} for _, pos in pairs(shadow) do if pos_leq(start, pos) then if pos_leq(pos, old_end) then -- delete region if pos[3] then -- right gravity pos[1], pos[2] = new_end[1], new_end[2] else pos[1], pos[2] = start[1], start[2] end else if pos[1] == old_end[1] then pos[2] = pos[2] + delta[2] end pos[1] = pos[1] + delta[1] end end end end local function dosplice(tree, shadow, start, old_extent, new_extent) lib.marktree_splice(tree, start[1], start[2], old_extent[1], old_extent[2], new_extent[1], new_extent[2]) shadowsplice(shadow, start, old_extent, new_extent) end local last_id = nil local function put(tree, row, col, gravitate) last_id = last_id + 1 local my_id = last_id lib.marktree_put_test(tree, my_id, row, col, gravitate); return my_id end describe('marktree', function() before_each(function() last_id = 0 end) itp('works', function() local tree = ffi.new("MarkTree[1]") -- zero initialized by luajit local shadow = {} local iter = ffi.new("MarkTreeIter[1]") local iter2 = ffi.new("MarkTreeIter[1]") for i = 1,100 do for j = 1,100 do local gravitate = (i%2) > 0 local id = put(tree, j, i, gravitate) ok(id > 0) eq(nil, shadow[id]) shadow[id] = {j,i,gravitate} end -- checking every insert is too slow, but this is ok lib.marktree_check(tree) end -- ss = lib.mt_inspect_rec(tree) -- io.stdout:write(ffi.string(ss)) -- io.stdout:flush() local id2pos, pos2id = shadoworder(tree, shadow, iter) eq({}, pos2id) -- not set if not requested eq({}, id2pos) for i,ipos in pairs(shadow) do local p = lib.marktree_lookup_ns(tree, -1, i, false, iter) eq(ipos[1], p.pos.row) eq(ipos[2], p.pos.col) local k = lib.marktree_itr_current(iter) eq(ipos[1], k.pos.row) eq(ipos[2], k.pos.col, ipos[1]) lib.marktree_itr_next(tree, iter) -- TODO(bfredl): use id2pos to check neighbour? -- local k2 = lib.marktree_itr_current(iter) end for i,ipos in pairs(shadow) do lib.marktree_itr_get(tree, ipos[1], ipos[2], iter) local k = lib.marktree_itr_current(iter) eq(i, tonumber(k.id)) eq(ipos[1], k.pos.row) eq(ipos[2], k.pos.col) end ok(lib.marktree_itr_first(tree, iter)) local del = lib.marktree_itr_current(iter) lib.marktree_del_itr(tree, iter, false) shadow[tonumber(del.id)] = nil shadoworder(tree, shadow, iter) for _, ci in ipairs({0,-1,1,-2,2,-10,10}) do for i = 1,100 do lib.marktree_itr_get(tree, i, 50+ci, iter) local k = lib.marktree_itr_current(iter) local id = tonumber(k.id) eq(shadow[id][1], k.pos.row) eq(shadow[id][2], k.pos.col) lib.marktree_del_itr(tree, iter, false) shadow[id] = nil end lib.marktree_check(tree) shadoworder(tree, shadow, iter) end -- NB: this is quite rudimentary. We rely on -- functional tests exercising splicing quite a bit lib.marktree_check(tree) dosplice(tree, shadow, {2,2}, {0,5}, {1, 2}) lib.marktree_check(tree) shadoworder(tree, shadow, iter) dosplice(tree, shadow, {30,2}, {30,5}, {1, 2}) lib.marktree_check(tree) shadoworder(tree, shadow, iter) dosplice(tree, shadow, {5,3}, {0,2}, {0, 5}) shadoworder(tree, shadow, iter) lib.marktree_check(tree) -- build then burn (HOORAY! HOORAY!) while next(shadow) do lib.marktree_itr_first(tree, iter) -- delete every other key for fun and profit while true do local k = lib.marktree_itr_current(iter) lib.marktree_del_itr(tree, iter, false) ok(shadow[tonumber(k.id)] ~= nil) shadow[tonumber(k.id)] = nil local stat = lib.marktree_itr_next(tree, iter) if not stat then break end end lib.marktree_check(tree) shadoworder(tree, shadow, iter2) end -- Check iterator validity for 2 specific edge cases: -- https://github.com/neovim/neovim/pull/14719 lib.marktree_clear(tree) for i = 1,20 do put(tree, i, i, false) end lib.marktree_itr_get(tree, 10, 10, iter) lib.marktree_del_itr(tree, iter, false) eq(11, iter[0].node.key[iter[0].i].pos.col) lib.marktree_itr_get(tree, 11, 11, iter) lib.marktree_del_itr(tree, iter, false) eq(12, iter[0].node.key[iter[0].i].pos.col) end) end)