# File : begin
+
if { [array get Draw_Groups "TOPOLOGY Check commands"] == "" } {
pload TOPTEST
pload VISUALIZATION
-# set env(CSF_DrawPluginQADefaults) $env(CASROOT)/src/DrawResources/.
-# pload QAcommands
-# pload -DrawPluginQA QAcommands
}
# to prevent loops limit to 16 minutes
cpulimit 1000
-#set script_dir [file dirname [info script]]/script
-# if { [info exist WorkDirectory] == 0 } {
-# set WorkDirectory "/tmp"
-# if { [array get env TEMP] != "" } {
-# set WorkDirectory "$env(TEMP)"
-# }
-# }
+set rel_tol 0
+set max_rel_tol_diff 0
if { [info exists imagedir] == 0 } {
set imagedir .
set test_image photo
}
-# Procedure to check equality of two reals with tolerance (relative and absolute)
-help checkreal {name value expected tol_abs tol_rel}
-proc checkreal {name value expected tol_abs tol_rel} {
- if { abs ($value - $expected) > $tol_abs + $tol_rel * abs ($expected) } {
- puts "Error: $name = $value is not equal to expected $expected"
- } else {
- puts "Check of $name OK: value = $value, expected = $expected"
- }
- return
-}
-
# Procedure to check equality of two reals with tolerance (relative and absolute)
help checkarea {shape area_expected tol_abs tol_rel}
proc checkarea {shape area_expected tol_abs tol_rel} {
checkreal "area of $shape" $area $area_expected $tol_abs $tol_rel
}
-# Procedure to check color in the point near default coordinate
-
-proc checkpoint {coord_x coord_y rd_ch gr_ch bl_ch} {
- set x_start [expr ${coord_x} - 2]
- set y_start [expr ${coord_y} - 2]
- set mistake 0
- set i 0
- while { $mistake != 1 && $i <= 5 } {
- set j 0
- while { $mistake != 1 && $j <= 5 } {
- set position_x [expr ${x_start} + $j]
- set position_y [expr ${y_start} + $i]
- puts $position_x
- puts $position_y
- global color2d
- if { [info exists color2d] } {
- set color [ QAAISGetPixelColor2d ${position_x} ${position_y} ]
- } else {
- set color [ QAGetPixelColor ${position_x} ${position_y} ]
- }
- regexp {RED +: +([-0-9.+eE]+)} $color full rd
- regexp {GREEN +: +([-0-9.+eE]+)} $color full gr
- regexp {BLUE +: +([-0-9.+eE]+)} $color full bl
- set rd_int [expr int($rd * 1.e+05)]
- set gr_int [expr int($gr * 1.e+05)]
- set bl_int [expr int($bl * 1.e+05)]
-
- if { $rd_ch != 0 } {
- set tol_rd [expr abs($rd_ch - $rd_int)/$rd_ch]
- } else {
- set tol_rd $rd_int
- }
- if { $gr_ch != 0 } {
- set tol_gr [expr abs($gr_ch - $gr_int)/$gr_ch]
- } else {
- set tol_gr $gr_int
- }
- if { $bl_ch != 0 } {
- set tol_bl [expr abs($bl_ch - $bl_int)/$bl_ch]
- } else {
- set tol_bl $bl_int
- }
-
- if { $tol_rd > 0.2 || $tol_gr > 0.2 || $tol_bl > 0.2 } {
- puts "Warning : Point with true color was not found near default coordinates"
- set mistake 0
- } else {
- set mistake 1
- }
- incr j
- }
- incr i
- }
- return $mistake
-}
-
-# Procedure to check color using command QAgetPixelColor with tolerance
-proc checkcolor { coord_x coord_y rd_get gr_get bl_get } {
- puts "Coordinate x = $coord_x"
- puts "Coordinate y = $coord_y"
- puts "RED color of RGB is $rd_get"
- puts "GREEN color of RGB is $gr_get"
- puts "BLUE color of RGB is $bl_get"
-
- if { $coord_x <= 1 || $coord_y <= 1 } {
- puts "Error : minimal coordinate is x = 2, y = 2. But we have x = $coord_x y = $coord_y"
- return -1
- }
- global color2d
- if { [info exists color2d] } {
- set color [ QAAISGetPixelColor2d ${coord_x} ${coord_y} ]
- } else {
- set color [ QAGetPixelColor ${coord_x} ${coord_y} ]
- }
-
- regexp {RED +: +([-0-9.+eE]+)} $color full rd
- regexp {GREEN +: +([-0-9.+eE]+)} $color full gr
- regexp {BLUE +: +([-0-9.+eE]+)} $color full bl
- set rd_int [expr int($rd * 1.e+05)]
- set gr_int [expr int($gr * 1.e+05)]
- set bl_int [expr int($bl * 1.e+05)]
- set rd_ch [expr int($rd_get * 1.e+05)]
- set gr_ch [expr int($gr_get * 1.e+05)]
- set bl_ch [expr int($bl_get * 1.e+05)]
-
- if { $rd_ch != 0 } {
- set tol_rd [expr abs($rd_ch - $rd_int)/$rd_ch]
- } else {
- set tol_rd $rd_int
- }
- if { $gr_ch != 0 } {
- set tol_gr [expr abs($gr_ch - $gr_int)/$gr_ch]
- } else {
- set tol_gr $gr_int
- }
- if { $bl_ch != 0 } {
- set tol_bl [expr abs($bl_ch - $bl_int)/$bl_ch]
- } else {
- set tol_bl $bl_int
- }
- set status 0
- if { $tol_rd > 0.2 } {
- puts "Warning : RED light of additive color model RGB is invalid"
- set status 1
- }
- if { $tol_gr > 0.2 } {
- puts "Warning : GREEN light of additive color model RGB is invalid"
- set status 1
- }
- if { $tol_bl > 0.2 } {
- puts "Warning : BLUE light of additive color model RGB is invalid"
- set status 1
- }
-
- if { $status != 0 } {
- puts "Warning : Colors of default coordinate are not equal"
- }
-
- global stat
- if { $tol_rd > 0.2 || $tol_gr > 0.2 || $tol_bl > 0.2 } {
- set info [checkpoint $coord_x $coord_y $rd_ch $gr_ch $bl_ch]
- set stat [lindex $info end]
- if { ${stat} != 1 } {
- puts "Error : Colors are not equal in default coordinate and in the near coordinates too"
- return $stat
- } else {
- puts "Point with valid color was found"
- return $stat
- }
- } else {
- set stat 1
- }
-}
-
-
-# Procedure to check if sequence of values in listval follows linear trend
-# adding the same delta on each step.
-#
-# The function does statistical estimation of the mean variation of the
-# values of the sequence, and dispersion, and returns true only if both
-# dispersion and deviation of the mean from expected delta are within
-# specified tolerance.
-#
-# If mean variation differs from expected delta on more than two dispersions,
-# the check fails and procedure raises error with specified message.
-#
-# Otherwise the procedure returns false meaning that more iterations are needed.
-# Note that false is returned in any case if length of listval is less than 3.
-#
-# See example of use to check memory leaks in bugs/caf/bug23489
-#
-proc checktrend {listval delta tolerance message} {
- set nbval [llength $listval]
- if { $nbval < 3} {
- return 0
- }
-
- # calculate mean value
- set mean 0.
- set prev [lindex $listval 0]
- foreach val [lrange $listval 1 end] {
- set mean [expr $mean + ($val - $prev)]
- set prev $val
- }
- set mean [expr $mean / $nbval]
-
- # calculate dispersion
- set sigma 0.
- set prev [lindex $listval 0]
- foreach val [lrange $listval 1 end] {
- set d [expr ($val - $prev) - $mean]
- set sigma [expr $sigma + $d * $d]
- set prev $val
- }
- set sigma [expr sqrt ($sigma / ($nbval - 1))]
-
- puts "Checking trend: nb = $nbval, mean delta = $mean, sigma = $sigma"
-
- # check if deviation is definitely too big
- if { abs ($mean - $delta) > 2. * $sigma } {
- puts "Checking trend failed: mean delta per step = $mean, sigma = $sigma, expected delta = $delta"
- puts "Error : $message"
- }
-
- # check if deviation is clearly within a range
- return [expr abs ($mean - $delta) <= $sigma && $sigma <= $tolerance]
+# Check if area of triangles is valid
+proc CheckTriArea {shape {eps 0}} {
+ upvar #0 $shape result
+ set area [triarea result $eps]
+ set t_area [lindex $area 0]
+ set g_area [expr abs([lindex $area 1])]
+ puts "area by triangles: $t_area"
+ puts "area by geometry: $g_area"
+ expr ($t_area - $g_area) / $g_area * 100
+}
+
+# Check expected time
+proc checktime {value expected tol_rel message} {
+ set t1 [expr ${value} - ${expected}]
+ set t2 [expr ${expected} * abs (${tol_rel})]
+
+ if { abs (${t1}) <= ${t2} } {
+ puts "OK. ${message}, ${value} seconds, is equal to expected time - ${expected} seconds"
+ } elseif {${t1} > ${t2}} {
+ puts "Error. ${message}, ${value} seconds, is more than expected time - ${expected} seconds"
+ } else {
+ puts "Improvement. ${message}, ${value} seconds, is less than expected time - ${expected} seconds"
+ }
}