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|
class CALIBRATION
-- This class is able to
-- - build some calibration grid with user assistance,
-- - save calibration grid,
-- - reload calibration grid,
-- - use calibration grid for coordinates conversion.
-- Calibration file format:
-- device_description_file_name
-- [offset_map] x
-- [offset_map] y
-- [parameter_offset] p0 x
-- [parameter_offset] p0 y
-- [parameter_offset] p1 x
-- [parameter_offset] p1 y
-- ...
-- [parameter_offset] pnb_param-1 x
-- [parameter_offset] pnb_param-1 y
--
--
-- offset_map format:
-- nb_point_x nb_point_y
-- offset
-- ...
-- offset (nb_point_x * nb_point_y values)
--
--
-- parameter_offset format:
-- nb_point_x nb_point_y nb_param_values
-- offset
-- ...
-- offset (nb_point_x * nb_point_y * nb_param_values values)
--
create {ANY}
make, load_from
create {CALIBRATION_HANDLER}
uncalibrated
feature {}
make is
do
end
feature {ANY}
write_to (os: OUTPUT_STREAM) is
require
os.is_connected
local
i: INTEGER
do
os.put_line(device_description_name)
x_map.write_to(os)
y_map.write_to(os)
from
i := x_parameters_maps.lower
until
i > x_parameters_maps.upper
loop
x_parameters_maps.item(i).write_to(os)
y_parameters_maps.item(i).write_to(os)
i := i + 1
end
ensure
os.is_connected
end
load_from (data: INPUT_STREAM) is
require
data.is_connected
local
i: INTEGER
po: PARAMETER_OFFSET
device_file: TEXT_FILE_READ
do
data.read_line
device_description_name := data.last_string.twin
create device_file.connect_to(device_description_name)
create device.load_from(device_file)
device_file.disconnect
create x_map.load_from(data, device)
create y_map.load_from(data, device)
from
create x_parameters_maps.make(device.nb_parameters)
create y_parameters_maps.make(device.nb_parameters)
i := x_parameters_maps.lower
until
i > x_parameters_maps.upper
loop
create po.load_from(data, device, i + 1)
x_parameters_maps.put(po, i)
create po.load_from(data, device, i + 1)
y_parameters_maps.put(po, i)
i := i + 1
end
end
convert (x_device, y_device: INTEGER ; params: FAST_ARRAY[INTEGER]) is
-- Result is available in last_x, last_y
require
x_device.in_range(0, device.width)
y_device.in_range(0, device.height)
params /= Void implies params.count = device.nb_parameters
local
i: INTEGER
do
last_x := x_device + x_map.offset_at(x_device, y_device)
last_y := y_device + y_map.offset_at(x_device, y_device)
if params /= Void then
from
i := x_parameters_maps.lower
until
i > x_parameters_maps.upper
loop
last_x := last_x + x_parameters_maps.item(i).offset_at(x_device, y_device, params.item(i))
last_y := last_y + y_parameters_maps.item(i).offset_at(x_device, y_device, params.item(i))
i := i + 1
end
end
if last_x < 0 then
last_x := 0
end
if last_y < 0 then
last_y := 0
end
if last_x > device.width then
last_x := device.width
end
if last_y > device.height then
last_y := device.height
end
ensure
last_x.in_range(0, device.width)
last_y.in_range(0, device.height)
end
last_x, last_y: INTEGER
-- Last conversion result (in device coordinates)
feature {}
partial_offset (x_device, y_device, param_index: INTEGER) is
-- Sum offset with parameters set to 0, up to param_index excluded.
-- Result is available in last_x, last_y
require
x_device.in_range(0, device.width)
y_device.in_range(0, device.height)
param_index.in_range(0, device.nb_parameters - 1)
local
i: INTEGER
do
last_x := x_map.offset_at(x_device, y_device)
last_y := y_map.offset_at(x_device, y_device)
from
i := x_parameters_maps.lower
until
i >= param_index
loop
last_x := last_x + x_parameters_maps.item(i).offset_at(x_device, y_device, 0)
last_y := last_y + y_parameters_maps.item(i).offset_at(x_device, y_device, 0)
i := i + 1
end
end
feature {}
file_tools: FILE_TOOLS
uncalibrated(device_file_name: STRING) is
require
file_tools.file_exists(device_file_name)
local
i: INTEGER
po: PARAMETER_OFFSET
device_file: TEXT_FILE_READ
do
device_description_name := device_file_name
create device_file.connect_to(device_file_name)
create device.load_from(device_file)
device_file.disconnect
create x_map.uncalibrated(device)
create y_map.uncalibrated(device)
from
create x_parameters_maps.make(device.nb_parameters)
create y_parameters_maps.make(device.nb_parameters)
i := x_parameters_maps.lower
until
i > x_parameters_maps.upper
loop
create po.uncalibrated(device, i + 1)
x_parameters_maps.put(po, i)
create po.uncalibrated(device, i + 1)
y_parameters_maps.put(po, i)
i := i + 1
end
create reference_points.make(device.nb_parameters)
end
reference_points: REFERENCE_POINTS
rebuild_maps is
local
i: INTEGER
do
from
i := x_parameters_maps.lower
until
i > x_parameters_maps.upper
loop
x_parameters_maps.item(i).reset
y_parameters_maps.item(i).reset
i := i + 1
end
from
build_position_maps
i := x_parameters_maps.lower
until
i > x_parameters_maps.upper
loop
build_parameter_maps(i)
i := i + 1
end
end
feature {} -- building maps
-- nb_intervals: INTEGER is 100 --*** auto ?
nb_intervals: INTEGER is 10
build_position_maps is
local
i, j: INTEGER
xmap, ymap: FAST_ARRAY2[INTEGER]
do
from
xmap := x_map.empty_map(nb_intervals + 1)
ymap := y_map.empty_map(nb_intervals + 1)
i := xmap.lower1
until
i > xmap.upper1
loop
from
j := xmap.lower2
until
j > xmap.upper2
loop
xmap.put(build_x_offset_for(i/nb_intervals, j/nb_intervals), i, j)
ymap.put(build_y_offset_for(i/nb_intervals, j/nb_intervals), i, j)
j := j + 1
end
i := i + 1
end
end
build_x_offset_for(x, y: REAL): INTEGER is
local
i, j, v: INTEGER
continue: BOOLEAN
left_index, right_index: INTEGER
left_distance, right_distance: REAL
left_error, right_error: INTEGER
tmp, length, dev: REAL
do
from
left_distance := device.nb_parameters * 3
right_distance := left_distance
left_index := -1
right_index := -1
i := reference_points.count - 1
until
i < 0
loop
from
tmp := (reference_points.x_target(i) / device.width - x) * 3
length := tmp * tmp
tmp := reference_points.y_target(i) / device.height - y
length := length + tmp * tmp
j := device.nb_parameters - 1
continue := True
until
j < 0 or not continue
loop
v := reference_points.parameter_value(i, j)
dev := rate(v, device.min_parameter(j + 1), device.max_parameter(j + 1))
continue := dev.in_range(0.4, 0.6)
dev := dev - 0.5
length := length + dev * dev
j := j - 1
end
if continue then
if reference_points.x_target(i) / device.width < x then
if length < left_distance then
left_index := i
left_distance := length
end
else
if length < right_distance then
right_index := i
right_distance := length
end
end
end
i := i - 1
end
if right_index = -1 then
Result := reference_points.x_target(left_index) - reference_points.x_measure(left_index)
elseif left_index = -1 then
Result := reference_points.x_target(right_index) - reference_points.x_measure(right_index)
else
left_distance := left_distance.sqrt
right_distance := right_distance.sqrt
-- io.put_string(once "x = "); io.put_real(x); io.put_string(once " y = "); io.put_real(y); io.put_new_line
-- io.put_string(once "ld = "); io.put_real(left_distance); io.put_character(' '); io.put_integer(left_index);io.put_new_line
-- io.put_string(once "rd = "); io.put_real(right_distance); io.put_character(' '); io.put_integer(right_index); io.put_new_line
left_error := reference_points.x_target(left_index) - reference_points.x_measure(left_index)
right_error := reference_points.x_target(right_index) - reference_points.x_measure(right_index)
-- io.put_string(once "le = "); io.put_real(left_error); io.put_new_line
-- io.put_string(once "re = "); io.put_real(right_error); io.put_new_line
Result := ((right_error*left_distance + left_error*right_distance) / (left_distance + right_distance)).force_to_integer_32
-- io.put_string(once "R = "); io.put_integer(Result); io.put_new_line; io.put_new_line
end
end
build_y_offset_for(x, y: REAL): INTEGER is
local
i, j, v: INTEGER
continue: BOOLEAN
up_index, down_index: INTEGER
up_distance, down_distance: REAL
up_error, down_error: INTEGER
tmp, length, dev: REAL
do
from
up_distance := device.nb_parameters * 3
down_distance := up_distance
up_index := -1
down_index := -1
i := reference_points.count - 1
until
i < 0
loop
from
tmp := reference_points.x_target(i) / device.width - x
length := tmp * tmp
tmp := (reference_points.y_target(i) / device.height - y) * 3
length := length + tmp * tmp
j := device.nb_parameters - 1
continue := True
until
j < 0 or not continue
loop
v := reference_points.parameter_value(i, j)
dev := rate(v, device.min_parameter(j + 1), device.max_parameter(j + 1))
continue := dev.in_range(0.4, 0.6)
dev := dev - 0.5
length := length + dev * dev
j := j - 1
end
if continue then
if reference_points.y_target(i) / device.height < y then
if length < up_distance then
up_index := i
up_distance := length
end
else
if length < down_distance then
down_index := i
down_distance := length
end
end
end
i := i - 1
end
if down_index = -1 then
Result := reference_points.y_target(up_index) - reference_points.y_measure(up_index)
elseif up_index = -1 then
Result := reference_points.y_target(down_index) - reference_points.y_measure(down_index)
else
up_distance := up_distance.sqrt
down_distance := down_distance.sqrt
up_error := reference_points.y_target(up_index) - reference_points.y_measure(up_index)
down_error := reference_points.y_target(down_index) - reference_points.y_measure(down_index)
Result := ((down_error*up_distance + up_error*down_distance) / (up_distance + down_distance)).force_to_integer_32
end
end
param_division: INTEGER is 4
build_parameter_maps(param: INTEGER) is
require
param.in_range(0, device.nb_parameters - 1)
local
i, j, k: INTEGER
xmap, ymap: FAST_ARRAY3[INTEGER]
hstep, vstep: INTEGER
correction_x, correction_y: INTEGER
do
hstep := x_map.horizontal_step.to_integer_32
vstep := y_map.vertical_step.to_integer_32
xmap := x_parameters_maps.item(param).empty_map(nb_intervals + 1, param_division + 1)
ymap := y_parameters_maps.item(param).empty_map(nb_intervals + 1, param_division + 1)
from
i := xmap.lower1
until
i > xmap.upper1
loop
from
j := xmap.lower2
until
j > xmap.upper2
loop
from
k := xmap.lower3
partial_offset(i * hstep, j * vstep, param)
correction_x := last_x
correction_y := last_y
until
k > xmap.upper3
loop
xmap.put(build_x_offset_for_parameter(i/nb_intervals, j/nb_intervals, k / param_division, param, correction_x), i, j, k)
ymap.put(build_y_offset_for_parameter(i/nb_intervals, j/nb_intervals, k / param_division, param, correction_y), i, j, k)
k := k + 1
end
j := j + 1
end
i := i + 1
end
end
build_x_offset_for_parameter(x, y, z: REAL; index: INTEGER; cumulated_correction: INTEGER): INTEGER is
local
i, j, v: INTEGER
continue: BOOLEAN
left_index, right_index: INTEGER
left_distance, right_distance: REAL
left_error, right_error: INTEGER
tmp, length, dev: REAL
do
from
left_distance := device.nb_parameters * 3
right_distance := left_distance
left_index := -1
right_index := -1
i := reference_points.count - 1
until
i < 0
loop
from
tmp := reference_points.x_target(i) / device.width - x
length := tmp * tmp
tmp := reference_points.y_target(i) / device.height - y
length := length + tmp * tmp
j := device.nb_parameters - 1
continue := True
until
j < 0 or not continue
loop
v := reference_points.parameter_value(i, j)
dev := rate(v, device.min_parameter(j + 1), device.max_parameter(j + 1))
if j = index then
continue := dev.in_range(z - 0.15, z + 0.15)
dev := (dev - z) * 3
else
continue := dev.in_range(0.4, 0.6)
dev := dev - 0.5
end
length := length + dev * dev
j := j - 1
end
if continue then
if reference_points.x_target(i) / device.width < x then
if length < left_distance then
left_index := i
left_distance := length
end
else
if length < right_distance then
right_index := i
right_distance := length
end
end
end
i := i - 1
end
if right_index /= -1 then
if left_index /= -1 then
left_distance := left_distance.sqrt
right_distance := right_distance.sqrt
left_error := reference_points.x_target(left_index) - reference_points.x_measure(left_index)
right_error := reference_points.x_target(right_index) - reference_points.x_measure(right_index)
Result := ((right_error*left_distance + left_error*right_distance) / (left_distance + right_distance)).force_to_integer_32 - cumulated_correction
else
Result := reference_points.x_target(right_index) - reference_points.x_measure(right_index) - cumulated_correction
end
else
if left_index /= -1 then
Result := reference_points.x_target(left_index) - reference_points.x_measure(left_index) - cumulated_correction
else
Result := 0
end
end
end
build_y_offset_for_parameter(x, y, z: REAL; index: INTEGER; cumulated_correction: INTEGER): INTEGER is
do
end
rate(value, min, max: INTEGER): REAL is
require
value.in_range(min, max)
do
Result := (value - min) / (max - min)
ensure
Result.in_range(0, 1)
end
feature {CALIBRATION_HANDLER}
add_measure(x_target, y_target: INTEGER; x_measure, y_measure: INTEGER; parameters_values: FAST_ARRAY[INTEGER]) is
require
device.valid_x(x_target)
device.valid_y(y_target)
device.valid_x(x_measure)
device.valid_y(y_measure)
device.valid_parameters(parameters_values)
do
reference_points.add_point(x_target, y_target, x_measure, y_measure, parameters_values)
rebuild_maps
end
x_map, y_map: OFFSET_MAP
x_parameters_maps, y_parameters_maps: FAST_ARRAY[PARAMETER_OFFSET]
device: DEVICE_DESCRIPTION
feature {}
device_description_name: STRING
invariant
(x_parameters_maps /= Void) = (y_parameters_maps /= Void)
x_parameters_maps /= Void implies x_parameters_maps.count = y_parameters_maps.count
device.nb_parameters = 0 implies x_parameters_maps = Void
device.nb_parameters /= 0 implies x_parameters_maps.count = device.nb_parameters
end
|
