set result [checkshape s1]
set index [lsearch $result Faulty]
if {$index > -1} {
puts "Faulty OCC1477 (case 1) : checkshape is wrong for s1"
}
set result [checkshape s2]
set index [lsearch $result Faulty]
if {$index > -1} {
puts "Faulty OCC1477 (case 2) : checkshape is wrong for s2"
}
mksweep s1
if {[string length [string trim ${setsweepOptions}]] > 0} {
eval setsweep ${setsweepOptions}
}
###############################################################################
# setsweep options [arg1 [arg2 [...]]] : options are :
# -FR : Tangent and Normal are given by Frenet trihedron
# -CF : Tangente is given by Frenet,
# the Normal is computed to minimize the torsion
###############################################################################
if {[string length [string trim ${addsweepOptions}]] > 0} {
eval addsweep s2 ${addsweepOptions}
} else {
addsweep s2
}
###############################################################################
# addsweep wire [Vertex] [-T] [-R] [u0 v0 u1 v1 [...[uN vN]]] : options are :
# -T : the wire have to be translated to assume contact
# with the spine
# -R : the wire have to be rotated to assume orthogonality
# with the spine's tangent
###############################################################################
set bad_buildsweep 0
if {[string length [string trim ${buildsweepOptions}]] > 0} {
if [catch {eval buildsweep result ${buildsweepOptions}} res] {
set bad_buildsweep 1
}
} else {
if [catch {buildsweep result} res] {
set bad_buildsweep 1
}
}
###############################################################################
# buildsweep result [-M/-C/-R] [-S] [tol] : options are
# -M : Discontinuities are treated by Modfication of
# the sweeping mode : it is the default
# -C : Discontinuities are treated like Right Corner
# Treatement is Extent && Intersect
# -R : Discontinuities are treated like Round Corner
# Treatement is Intersect and Fill
###############################################################################
if {${bad_buildsweep} == 1} {
puts "Faulty OCC1477 (case 3) : buildsweep is wrong"
} else {
if { [info exists square] } {
set prop "square"
set mass $square
if { [info exists tol_square] } {
regexp {Mass +: +([-0-9.+eE]+)} [sprops result $tol_square] full m
} else {
regexp {Mass +: +([-0-9.+eE]+)} [sprops result] full m
}
}
if { [info exists volume] } {
set prop "volume"
set mass $volume
regexp {Mass +: +([-0-9.+eE]+)} [vprops result] full m
}
if { [info exists length] } {
set prop "length"
set mass $length
regexp {Mass +: +([-0-9.+eE]+)} [lprops result] full m
puts "checksection"
puts [checksection result]
}
#if mass (length or square) is empty in test case then result should be an empty shape.
if { [info exists mass] } {
checkshape result
if { [string compare "$mass" "empty"] != 0 } {
if { $m == 0 } {
puts "Error : The command is not valid. The $prop is 0."
}
if { $mass > 0 } {
puts "The expected $prop is $mass"
}
#check of change of square is < 1%
if { ($mass != 0 && [expr 1.*abs($mass - $m)/$mass] > 0.01) || ($mass == 0 && $m != 0) } {
puts "Error : The $prop of result shape is $m"
}
} else {
if { $m != 0 } {
puts "Error : The command is not valid. The $prop is $m"
}
}
}
set glob_inf [info global nb_*_good]
if { [regexp "nb_.*_good" $glob_inf] == 1 } {
if { [info exists nbsh_t] } {
set nb_info [nbshapes result -t]
} else {
set nb_info [nbshapes result]
}
}
if { [info exists nb_v_good] } {
regexp {VERTEX +: +([-0-9.+eE]+)} $nb_info full nb_v
if { ${nb_v} != ${nb_v_good} } {
puts "Error : Result shape is WRONG because it must contains ${nb_v_good} vertexes instead of ${nb_v}"
} else {
puts "Result shape contains ${nb_v} vertexes"
}
}
if { [info exists nb_e_good] } {
regexp {EDGE +: +([-0-9.+eE]+)} $nb_info full nb_e
if { ${nb_e} != ${nb_e_good} } {
puts "Error : Result shape is WRONG because it must contains ${nb_e_good} edges instead of ${nb_e}"
} else {
puts "Result shape contains ${nb_e} edges"
}
}
if { [info exists nb_w_good] } {
regexp {WIRE +: +([-0-9.+eE]+)} $nb_info full nb_w
if { ${nb_w} != ${nb_w_good} } {
puts "Error : Result shape is WRONG because it must contains ${nb_w_good} wires instead of ${nb_w}"
} else {
puts "Result shape contains ${nb_w} wires"
}
}
if { [info exists nb_f_good] } {
regexp {FACE +: +([-0-9.+eE]+)} $nb_info full nb_f
if { ${nb_f} != ${nb_f_good} } {
puts "Error : Result shape is WRONG because it must contains ${nb_f_good} faces instead of ${nb_f}"
} else {
puts "Result shape contains ${nb_f} faces"
}
}
if { [info exists nb_sh_good] } {
regexp {SHELL +: +([-0-9.+eE]+)} $nb_info full nb_sh
if { ${nb_sh} != ${nb_sh_good} } {
puts "Error : Result shape is WRONG because it must contains ${nb_sh_good} shells instead of ${nb_sh}"
} else {
puts "Result shape contains ${nb_sh} shells"
}
}
if { [info exists nb_sol_good] } {
regexp {SOLID +: +([-0-9.+eE]+)} $nb_info full nb_sol
if { ${nb_sol} != ${nb_sol_good} } {
puts "Error : Result shape is WRONG because it must contains ${nb_sol_good} solids instead of ${nb_sol}"
} else {
puts "Result shape contains ${nb_sol} solids"
}
}
if { [info exists nb_compsol_good] } {
regexp {COMPSOLID +: +([-0-9.+eE]+)} $nb_info full nb_compsol
if { ${nb_compsol} != ${nb_compsol_good} } {
puts "Error : Result shape is WRONG because it must contains ${nb_compsol_good} compsolids instead of ${nb_compsol}"
} else {
puts "Result shape contains ${nb_compsol} compsolids"
}
}
if { [info exists nb_compound_good] } {
regexp {COMPOUND +: +([-0-9.+eE]+)} $nb_info full nb_compound
if { ${nb_compound} != ${nb_compound_good} } {
puts "Error : Result shape is WRONG because it must contains ${nb_compound_good} compounds instead of ${nb_compound}"
} else {
puts "Result shape contains ${nb_compound} compounds"
}
}
if { [info exists nb_shape_good] } {
regexp {SHAPE +: +([-0-9.+eE]+)} $nb_info full nb_shape
if { ${nb_shape} != ${nb_shape_good} } {
puts "Error : Result shape is WRONG because it must contains ${nb_shape_good} shapes instead of ${nb_shape}"
} else {
puts "Result shape contains ${nb_shape} shapes"
}
}
}
if { [isdraw result] } {
if { [info exists 2dviewer] } {
clear
smallview
donly result
fit
xwd $imagedir/${test_image}.png
}
if { [info exists 3dviewer] } {
vinit
vclear
vdisplay result
vsetdispmode 1
vfit
vzfit
vdump $imagedir/${test_image}.png
}
}
if { [info exist only_screen] } {
vdump $imagedir/${test_image}.png
}
if { [info exist only_screen2d] } {
v2ddump $imagedir/${test_image}.png
}
# to end a test script
puts "TEST COMPLETED"