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-rw-r--r--advtrains/path.lua91
-rw-r--r--advtrains/trainlogic.lua3
2 files changed, 61 insertions, 33 deletions
diff --git a/advtrains/path.lua b/advtrains/path.lua
index 825e59b..ff034c9 100644
--- a/advtrains/path.lua
+++ b/advtrains/path.lua
@@ -17,12 +17,18 @@
-- path_cn - Connid of the current node that points towards path[i+1]
-- path_cp - Connid of the current node that points towards path[i-1]
-- When the day comes on that path!=node, these will only be set if this index represents a transition between rail nodes
--- path_dist - The distance (in meters) between this (path[i]) and the next (path[i+1]) item of the path
+-- path_dist - The total distance of this path element from path element 0
-- path_dir - The direction of this path item's transition to the next path item, which is the angle of conns[path_cn[i]].c
--Variables:
-- path_ext_f/b - how far path[i] is set
-- path_trk_f/b - how far the path extends along a track. beyond those values, paths are generated in a straight line.
-- path_req_f/b - how far path items were requested in the last step
+--
+--Distance and index:
+-- There is an important difference between the path index and the actual distance on the track: The distance between two path items can be larger than 1,
+-- but the corresponding index increment is still 1.
+-- Indexes in advtrains can be fractional values. If they are, it means that the actual position is interpolated between the 2 adjacent path items.
+-- If you need to proceed along the path by a specific actual distance, it does NOT work to simply add it to the index. You should use the path_get_index_by_offset() function.
-- creates the path data structure, reconstructing the train from a position and a connid
-- Important! train.drives_on must exist while calling this method
@@ -40,7 +46,7 @@ function advtrains.path_create(train, pos, connid, rel_index)
train.path = { [0] = { x=posr.x, y=posr.y+rhe, z=posr.z } }
train.path_cn = { [0] = connid }
train.path_cp = { [0] = mconnid }
- train.path_dist = {}
+ train.path_dist = { [0] = 0 }
train.path_dir = {
[0] = advtrains.conn_angle_median(conns[mconnid].c, conns[connid].c)
@@ -135,12 +141,12 @@ function advtrains.path_print(train, printf)
printf("path_print: Path is invalidated/inexistant.")
return
end
- printf("i: CP Position Dir CN ->Dist->")
+ printf("i: CP Position Dir CN Dist")
for i = train.path_ext_b, train.path_ext_f do
if i==train.path_trk_b then
printf("--Back on-track border here--")
end
- printf(i,": ",train.path_cp[i]," ",train.path[i]," ",train.path_dir[i]," ",train.path_cn[i]," ->",train.path_dist[i],"->")
+ printf(i,": ",train.path_cp[i]," ",train.path[i]," ",train.path_dir[i]," ",train.path_cn[i]," ",train.path_dist[i],"")
if i==train.path_trk_f then
printf("--Front on-track border here--")
end
@@ -156,7 +162,9 @@ function advtrains.path_get(train, index)
if index ~= atfloor(index) then
error("For train "..train.id..": Called path_get() but index="..index.." is not a round number")
end
+
local pef = train.path_ext_f
+ -- generate forward (front of train, positive)
while index > pef do
local pos = train.path[pef]
local connid = train.path_cn[pef]
@@ -183,10 +191,13 @@ function advtrains.path_get(train, index)
train.path_dir[pef] = train.path_dir[pef-1]
end
train.path[pef] = adj_pos
- train.path_dist[pef - 1] = vector.distance(pos, adj_pos)
+ train.path_dist[pef] = train.path_dist[pef-1] + vector.distance(pos, adj_pos)
end
train.path_ext_f = pef
+
+
local peb = train.path_ext_b
+ -- generate backward (back of train, negative)
while index < peb do
local pos = train.path[peb]
local connid = train.path_cp[peb]
@@ -213,7 +224,7 @@ function advtrains.path_get(train, index)
train.path_dir[peb] = train.path_dir[peb+1]
end
train.path[peb] = adj_pos
- train.path_dist[peb] = vector.distance(pos, adj_pos)
+ train.path_dist[peb] = train.path_dist[peb+1] - vector.distance(pos, adj_pos)
end
train.path_ext_b = peb
@@ -256,37 +267,53 @@ function advtrains.path_get_adjacent(train, index)
return p_floor, p_ceil, frac
end
+local function n_interpolate(s, e, f)
+ return s + (e-s)*f
+end
+
+-- This function determines the index resulting from moving along the path by 'offset' meters
+-- starting from 'index'. See also the comment on the top of the file.
function advtrains.path_get_index_by_offset(train, index, offset)
- local off = offset
- local idx = atfloor(index)
- -- go down to floor. Calculate required path_dist
- advtrains.path_get_adjacent(train, idx)
- off = off + ((index-idx) * train.path_dist[idx])
- --atdebug("pibo: 1 off=",off,"idx=",idx," index=",index)
+ -- Step 1: determine my current absolute pos on the path
+ local start_index_f = math.floor(index)
+ local _, _, frac = advtrains.path_get_adjacent(train, index)
+ local dist1, dist2 = train.path_dist[start_index_f], train.path_dist[start_index_f+1]
+ local start_dist = n_interpolate(dist1, dist2, frac)
+
+ -- Step 2: determine the total end distance and estimate the index we'd come out
+ local end_dist = start_dist + offset
+
+ local c_idx = math.floor(index + offset)
+
+ -- Step 3: move forward/backward to find real index
+ -- We assume here that the distance between 2 path items is never smaller than 1.
+ -- Our estimated index is therefore either exact or too far over, and we're going to go back
+ -- towards the origin. It is therefore sufficient to query path_get a single time
- -- then walk the path back until we overshoot (off becomes >=0)
- while off<0 do
- idx = idx - 1
- advtrains.path_get_adjacent(train, idx)
- off = off + train.path_dist[idx]
+ -- How we'll adjust c_idx
+ -- Desired position: -------#------
+ -- Path items : --|--|--|--|--
+ -- c_idx : ^
+
+ advtrains.path_get_adjacent(train, c_idx)
+
+ while train.path_dist[c_idx] < end_dist do
+ c_idx = c_idx + 1
end
- --atdebug("pibo: 2 off=",off,"idx=",idx)
- -- then walk the path forward until we would overshoot
- while off - train.path_dist[idx] >= 0 do
- idx = idx + 1
- advtrains.path_get_adjacent(train, idx)
- if not train.path_dist[idx] then
- for i=-5,5 do
- atdebug(idx+i,train.path_dist[idx+i])
- end
- end
- off = off - train.path_dist[idx]
+
+ while train.path_dist[c_idx] > end_dist do
+ c_idx = c_idx - 1
end
- --atdebug("pibo: 3 off=",off,"idx=",idx," returns:",idx + (off / train.path_dist[idx]))
- -- we should now be on the floor of the index we actually want.
- -- give them the rest!
- return idx + (off / train.path_dist[idx])
+ -- Step 4: now c_idx points to the place shown above. Find out the fractional part.
+
+ dist1, dist2 = train.path_dist[c_idx], train.path_dist[c_idx+1]
+
+ frac = (end_dist - dist1) / (dist2 - dist1)
+
+ assert(frac>=0 and frac<1, frac)
+
+ return c_idx + frac
end
local PATH_CLEAR_KEEP = 4
diff --git a/advtrains/trainlogic.lua b/advtrains/trainlogic.lua
index bc24feb..3c0d02e 100644
--- a/advtrains/trainlogic.lua
+++ b/advtrains/trainlogic.lua
@@ -474,7 +474,8 @@ function advtrains.train_step_b(id, train, dtime)
--- 4. move train ---
- local pdist = train.path_dist[math.floor(train.index)] or 1
+ local idx_floor = math.floor(train.index)
+ local pdist = (train.path_dist[idx_floor+1] - train.path_dist[idx_floor])
local distance = (train.velocity*dtime) / pdist
--debugging code