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occt/tests/bugs/begin
oan 74da0216d7 0025378: Building of triangulation for distored surfaces can take very long using BRepMesh_IncrementalMesh 
New parameter MinSize has been introduced to BRepMesh and GCPnts_TangentialDeflection;

Check length of remaining part of curve for min size parameter instead of distance between two points to avoid large gaps in case highly distorted BSpline surfaces;

Produce fine mesh for sphere and fix other surface;

Test cases for issue CR25378

Correction of test cases for issue CR25378
2014-12-11 17:17:06 +03:00

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# 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
# On Windows with VC, in typical configuration gl2ps is built with Release
# mode only which will fail in Debug mode; add TODO for that case in order
# to handle it once for all tests that can use vexport command
if { [regexp {Debug mode} [dversion]] } {
puts "TODO ?#23540 windows: Error: export of image.*failed"
puts "TODO ?#23540 windows: Error: The file has been exported.*different size \[(\]0 "
}
if { [info exists imagedir] == 0 } {
set imagedir .
}
if { [info exists test_image] == 0 } {
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} {
# compute area with half of the relative tolerance
# to be used in comparison; 0.001 is added to avoid zero value
set prop [uplevel sprops $shape [expr 0.5 * abs($tol_rel) + 0.001]]
# get te value
if { ! [regexp {Mass\s*:\s*([0-9.e+-]+)} $prop res area] } {
puts "Error: cannot get area of the shape $shape"
return
}
# compare with expected value
checkreal "area of $shape" $area $area_expected $tol_abs $tol_rel
}
# 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 - 1)]
# 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 - 2))]
puts "Checking trend: nb = $nbval, mean delta = $mean, sigma = $sigma"
# check if deviation is definitely too big
if { abs ($mean - $delta) > $tolerance + 2. * $sigma } {
puts "Checking trend failed: mean delta per step = $mean, sigma = $sigma, expected delta = $delta"
error "$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 if list of xdistcs-command is valid
proc checkList {List Tolerance D_good Limit_Tol} {
set L1 [llength ${List}]
set L2 10
set L3 5
set N [expr (${L1} - ${L2})/${L3} + 1]
for {set i 1} {${i} <= ${N}} {incr i} {
set j1 [expr ${L2} + (${i}-1)*${L3}]
set j2 [expr ${j1} + 2]
set T [lindex ${List} ${j1}]
set D [lindex ${List} ${j2}]
#puts "i=${i} j1=${j1} j2=${j2} T=${T} D=${D}"
if { [expr abs(${D} - ${D_good})] > ${Tolerance} } {
puts "Error : T=${T} D=${D}"
}
if { ${Tolerance} > ${Limit_Tol} } {
if { [expr abs(${D} - ${D_good})] > ${Limit_Tol}
&& [expr abs(${D} - ${D_good})] <= ${Tolerance} } {
puts "Attention (critical value of tolerance) : T=${T} D=${D}"
}
}
}
}
# 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"
}
}
# Procedure to check result of nbshapes command
proc checknbshapes { res nbshapes_expected_s count_locations message} {
upvar $res shape
if { ${count_locations} == 0 } {
set nb_info [nbshapes shape]
} else {
set nb_info [nbshapes shape -t]
}
set EntityList {VERTEX EDGE WIRE FACE SHELL SOLID COMPSOLID COMPOUND SHAPE}
foreach Entity ${EntityList} {
set expr_string "${Entity} +: +(\[-0-9.+eE\]+)"
if { [regexp "${expr_string}" ${nbshapes_expected_s} full nb_entity1] > 0 } {
if { [regexp "${expr_string}" ${nb_info} full nb_entity2] > 0 } {
if { ${nb_entity2} != ${nb_entity1} } {
puts "Error : ${message} is WRONG because number of ${Entity} entities is ${nb_entity2} while ${nb_entity1} is expected"
} else {
puts "OK : ${message} is GOOD because number of ${Entity} entities is equal to number of expected ${Entity} entities"
}
}
}
}
}
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