# canvas_dashed_lines.tcl -- # # Part of: Useless Widgets Package # Contents: test script for dashed lines and marching ants # Date: Sun Jan 23, 2005 # # Abstract # # This does not use the "-dashoffset" canvas option, so it should # work even on MS Windows(tm) where the option appears to have # limitations; the author has not tested this, though: anyone?. # # Drawing a line with a pattern is straightforward with no offset # in the pattern: we just draw a sequence of segments and jumps # taking the lengths from the pattern; while doing it: we cumpute # the length of the line drawn so far and when it exceeds the # requested length just stop, cutting a segment if required. # # Example of pattern: { 10 3 5 2 }, # # 10 3 5 2 # |---------- ----- | # ... .. # # |...pattern length...| 10+3+5+2=20 # # the pattern starts with a segment, not a jump. # # The approach used to implement the offset in the pattern is to # split the line in two: a "preline", that represents the fraction # of the pattern that is requested; the "subline" that is a common # line with no offset. # # The preline is shorter in length than the pattern: to draw it # we build a new special pattern whose length equals the length of # the preline, with all the right segments in place, then we draw # a common line with no offset but we use the special pattern. # # Exmaple of special pattern: if the offset is 7 in the pattern # { 10 3 5 2 }, the preline pattern is { 3 3 5 2 }; if the offset # is 12, the preline pattern is { 1 5 2 }. # # Copyright (c) 2005 Marco Maggi # # The author hereby grant permission to use, copy, modify, distribute, # and license this software and its documentation for any purpose, # provided that existing copyright notices are retained in all copies # and that this notice is included verbatim in any distributions. No # written agreement, license, or royalty fee is required for any of the # authorized uses. Modifications to this software may be copyrighted by # their authors and need not follow the licensing terms described here, # provided that the new terms are clearly indicated on the first page of # each file where they apply. # # IN NO EVENT SHALL THE AUTHOR OR DISTRIBUTORS BE LIABLE TO ANY PARTY # FOR DIRECT, INDIRECT, SPECIAL, INCIDENTAL, OR CONSEQUENTIAL DAMAGES # ARISING OUT OF THE USE OF THIS SOFTWARE, ITS DOCUMENTATION, OR ANY # DERIVATIVES THEREOF, EVEN IF THE AUTHOR HAVE BEEN ADVISED OF THE # POSSIBILITY OF SUCH DAMAGE. # # THE AUTHOR AND DISTRIBUTORS SPECIFICALLY DISCLAIM ANY WARRANTIES, # INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF # MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE, AND # NON-INFRINGEMENT. THIS SOFTWARE IS PROVIDED ON AN "AS IS" BASIS, # AND THE AUTHOR AND DISTRIBUTORS HAVE NO OBLIGATION TO PROVIDE # MAINTENANCE, SUPPORT, UPDATES, ENHANCEMENTS, OR MODIFICATIONS. # # #page ## ------------------------------------------------------------ ## Setup. ## ------------------------------------------------------------ package require Tcl 8.4 package require Tk 8.4 #page ## ------------------------------------------------------------ ## Widget options. ## ------------------------------------------------------------ option add *borderWidth 1 #page ## ------------------------------------------------------------ ## Main. ## ------------------------------------------------------------ proc main {} { global exit_trigger wm title . "Canvas Pattern Lines and Marching Ants" wm geometry . +200+100 canvas .c -width 500 -height 300 -background white grid .c -sticky news uwp_canvas_pattern_line .c {10 10 290 50} {10 5} { LineOne } uwp_canvas_pattern_line .c {10 20 290 60} {10 2 2 2} { LineTwo } uwp_canvas_pattern_line .c {10 30 290 70} {20 3 15 3 10 3 5 3} { LineThree } put_star uwp_canvas_pattern_poly .c {100 100 150 100 150 150 100 150} {10 5} { PolyTen } after 0 marching_ants_in_line_forward after 0 marching_ants_in_line_backward after 0 marching_ants_in_poly_forward after 0 marching_ants_in_poly_backward foreach {x y} [polygon_star_coords 50.0 70.0 8] { lappend coords [expr {$x+400.0}] [expr {$y+150.0}] } foreach {x y} [polygon_star_coords 30.0 40.0 5] { lappend coords [expr {$x+400.0}] [expr {$y+150.0}] } after 0 [list marching_ants_in_poly_star $coords] .c itemconfigure LineOne -fill red .c itemconfigure LineTwo -fill blue .c itemconfigure LineThree -fill green .c itemconfigure PolyTen -fill black grid [button .quit -text Exit -command main_exit] focus .quit bind .quit <Return> main_exit bind . <Escape> main_exit interp alias {} main_exit {} set exit_trigger 1 vwait exit_trigger exit } #page proc put_star {} { for {set i 0} {$i < 16.0} {incr i} { set yaw [expr {double($i)*6.28318530718/16.0}] set coords [list 150.0 230.0 \ [expr {150.0+70.0*cos(double($yaw))}] \ [expr {230.0+70.0*sin(double($yaw))}]] uwp_canvas_pattern_line .c $coords {10 3 7 3 4 3} { Circle } } } proc marching_ants_in_line_forward { {offset 0.0} } { after 50 [list marching_ants_in_line_forward [expr {$offset+2.0}]] .c delete LineFour uwp_canvas_pattern_line .c {10 100 290 140} \ {50 5 40 5 30 5 20 5 10 5} { LineFour } $offset .c itemconfigure LineFour -fill magenta .c itemconfigure UWPPatternLinePreline -fill green } proc marching_ants_in_line_backward { {offset 0.0} } { after 50 [list marching_ants_in_line_backward [expr {$offset-2.0}]] .c delete LineFive uwp_canvas_pattern_line .c {10 110 290 150} \ {50 5 40 5 30 5 20 5 10 5} { LineFive } $offset .c itemconfigure LineFive -fill magenta .c itemconfigure UWPPatternLinePreline -fill green } proc marching_ants_in_poly_forward { {offset 0.0} } { after 50 [list marching_ants_in_poly_forward [expr {$offset+2.0}]] .c delete PolyOne uwp_canvas_pattern_poly .c {310 20 480 20 480 280 310 280} \ {20 3} { PolyOne } $offset .c itemconfigure PolyOne -fill black # .c itemconfigure UWPPatternLinePreline -fill green } proc marching_ants_in_poly_backward { {offset 0.0} } { after 50 [list marching_ants_in_poly_backward [expr {$offset-2.0}]] .c delete PolyTwo uwp_canvas_pattern_poly .c {320 30 470 30 470 270 320 270} \ {20 3} { PolyTwo } $offset .c itemconfigure PolyTwo -fill black } #page proc marching_ants_in_poly_star { coords {offset 0.0} } { after 50 [list marching_ants_in_poly_star $coords [expr {$offset+2.0}]] .c delete PolyStar uwp_canvas_pattern_poly .c $coords {20 3} { PolyStar } $offset .c itemconfigure PolyStar -fill black } proc polygon_regular_coords { num radius {fraction 1.0} } { for {set i 0} {$i < $num} {incr i} { set angle [expr {6.28318530718/double($fraction)+ (6.28318530718*double($i)/double($num))}] lappend coords \ [expr {double($radius)*cos($angle)}] [expr {double($radius)*sin($angle)}] } return $coords } proc polygon_star_coords { in_radius out_radius num } { set fraction [expr {double($num)*2.0}] foreach {x1 y1} [polygon_regular_coords $num $in_radius] \ {x2 y2} [polygon_regular_coords $num $out_radius $fraction] { lappend result $x1 $y1 $x2 $y2 } return $result } #page proc uwp_canvas_pattern_line { widget line_coords pattern tags {pattern_offset 0.0} {invert 0} } { # If you need a full line do not call this procedure, please. if { ! [llength $pattern] } {return} # We try to force the conversion to double so that in the code below # we can omit the "double" operator: this increases the readability # of the code. For some reason I cannot figure out, but that TCL # figures perfectly, I cannot use [expr {double($num)}] to convert # to double; using [format %f $num] appears to solve the problems I # had with [expr]. set pattern_offset [format %f $pattern_offset] for {set i 0} {$i < [llength $pattern]} {incr i} { lset pattern $i [format %f [lindex $pattern $i]] if { [lindex $pattern $i] < 0.0 } { return -code error "negative pattern lengths are not allowed" } } for {set i 0} {$i < [llength $line_coords]} {incr i} { lset line_coords $i [format %f [lindex $line_coords $i]] } # We compute the lengths of the projections of the segments on the X # and Y axis because they are used again and again in the loop at # the end. While we are looping: we compute the total pattern # length, even if it is used only when the offset not null. set yaw [uwp_yaw_angle_from_line_coords $line_coords] set cos [expr {cos($yaw)}] set sin [expr {sin($yaw)}] set pattern_length 0.0 foreach segment_length $pattern { lappend delta_segment \ [expr {$segment_length*cos($yaw)}] [expr {$segment_length*sin($yaw)}] set pattern_length [expr {$pattern_length+$segment_length}] } #page # We draw the preline only if there is an offset, else we go # directly to the normal line drawing code. if { $pattern_offset != 0.0 } { # Normalise the offset so that it is not greater than the total # pattern length. The preline is meant to be only a fraction of # the pattern length: "whole" patterns are drawn by the normal # line code below. while { $pattern_offset > $pattern_length } { set pattern_offset [expr {$pattern_offset-$pattern_length}] } while { $pattern_offset < -($pattern_length) } { set pattern_offset [expr {$pattern_offset+$pattern_length}] } # Convert a negative offset to the equivalent positive offset. # It is easy to do this when the offset has already been # normalised; not so immediate before the normalisation. if {$pattern_offset < 0.0} { set pattern_offset [expr {$pattern_length+$pattern_offset}] } # virtual # pattern whole line begin = preline end = # begin preline begin subline begin # v v v # |-------------|-----------------------|---------------|------------ # (x,y) # # |.............|pattern_offset (after normalisation, that is >0) # # |.. [lindex $pattern $i] .......| # # |.....current_pattern_length..........| # # |.first_segment_length..| # # |....................pattern_length...................| # # Find the index of the segment that is cut by the offset. set current_pattern_length 0.0 for {set i 0} {$i < [llength $pattern]} {incr i} { set current_pattern_length \ [expr {$current_pattern_length+[lindex $pattern $i]}] # Moving this condition inside the [if] clause is not so # immediate: by doing the test here we have incremented the # "current_pattern_length", but not incremented the "i" # counter yet. This makes easy to code the two statements # just outside of the loop. if {$current_pattern_length > $pattern_offset} {break} } # Build the special pattern for the preline: the first segment # is the ending portion of the one cut by the offset; the other # segments are the ones that are part of the line. set prepattern \ [concat [expr {$current_pattern_length-$pattern_offset}] \ [lrange $pattern [incr i] end]] # If the index of the first segment is even: it must be drawn, # it is not a jump; if the index is odd: it is a jump. The code # that draws the subline/common line assumes that the first # segment is not a jump, if the "invert" parameter is false. set preline_invert [expr { ($i % 2)? 0 : 1 }] # Compute the coordinates of the end of the preline: this point # is one with the beginning of the normal line. The internal # subtraction is computed twice: I think that this is faster # than invoking [expr] and setting a variable. set x [expr {[lindex $line_coords 0]+($pattern_length-$pattern_offset)*$cos}] set y [expr {[lindex $line_coords 1]+($pattern_length-$pattern_offset)*$sin}] # Draw the preline: the starting point is the one requested by # the caller as starting point of the whole line; the ending # point has been computed in the code above. # # The tag "UWPPatternLinePreline" is here only for debugging # purposes: to configure the preline with a color different from # the rest of the line makes it visible. uwp_canvas_pattern_line $widget \ [lreplace $line_coords 2 3 $x $y] $prepattern \ [concat $tags UWPPatternLinePreline] 0.0 $preline_invert # Replace the original starting point of the whole line so that # the code below will draw the subline. lset line_coords 0 $x lset line_coords 1 $y } #page # These are used to compute the fraction of the pattern that is cut # at the end of the line: it is required to draw a polygon (and # especially the marching ants). # # "restX" and "restY" represent the projection on the X and Y axis # of the portion of the segment that is cut out at the end of the # line. set restX 0.0 set restY 0.0 # Select the procedure to use to test line end and to compute the # rest and the last fraction of segment to draw. By splitting all # the possible cases into simple procedures simplifies the code and # may also make it more efficient; the end of line test is performed # again and again in the loop below. set x_forward [expr { [lindex $line_coords 0] <= [lindex $line_coords 2] }] set y_forward [expr { [lindex $line_coords 1] <= [lindex $line_coords 3] }] if { $x_forward && $y_forward } { set line_end_cmd uwp_p_canvas_pattern_line_ff set rest_x_cmd uwp_p_canvas_pattern_line_rest_x_forward set rest_y_cmd uwp_p_canvas_pattern_line_rest_y_forward } elseif { $x_forward } { set line_end_cmd uwp_p_canvas_pattern_line_fb set rest_x_cmd uwp_p_canvas_pattern_line_rest_x_forward set rest_y_cmd uwp_p_canvas_pattern_line_rest_y_backward } elseif { $y_forward } { set line_end_cmd uwp_p_canvas_pattern_line_bf set rest_x_cmd uwp_p_canvas_pattern_line_rest_x_backward set rest_y_cmd uwp_p_canvas_pattern_line_rest_y_forward } else { set line_end_cmd uwp_p_canvas_pattern_line_bb set rest_x_cmd uwp_p_canvas_pattern_line_rest_x_backward set rest_y_cmd uwp_p_canvas_pattern_line_rest_y_backward } #page # Example for the pattern: { 10 3 5 3 5 3 } # # |......pattern_length......|......pattern_length.........| # # starting point end point # v v # O-------- ----- ----- ---------- --O-- ----- | # 10 3 5 3 5 3 , 10 3 ^ ^ # | | # this segment this segment # is cut in two is completely # by the end of left out # the line # # |.............| # this is the "rest": the portion of # pattern that's cut out of the line # Build the list that will hold the coordinates of the segment to # draw or the jump to skip. set segment_coords \ [list [expr {[lindex $line_coords 0]}] [expr {[lindex $line_coords 1]}] {} {}] while { 1 } { # "blank" is a boolean that controls whether the segment is a # line or a jump: if it is false we draw a line, else we # skip. The default is to start with a line. set blank $invert # We need this counter only to keep track of which segment we # are drawing in the "pattern" list. We use it only at the end # of the line to know which segments are cut out at the end. set i 0 foreach {deltaX deltaY} $delta_segment { lset segment_coords 2 [expr {[lindex $segment_coords 0]+$deltaX}] lset segment_coords 3 [expr {[lindex $segment_coords 1]+$deltaY}] if { ! [$line_end_cmd] } { $rest_x_cmd $rest_y_cmd } else { # Init the rest with the length of the fraction of # segment that is cut out. "restX" and "restY" may be # zero. Thank You, Pitagora. set rest_offset [expr {sqrt(pow($restX,2.0)+pow($restY,2.0))}] # Add the length of all the segments that are completely # left out. for {} {$i < [llength $pattern]} {incr i} { set rest_offset [expr {$rest_offset+[lindex $pattern $i]}] } # Return the rest so that the caller can use it. return $rest_offset } incr i if { ! $blank } { $widget create line $segment_coords -tags $tags } # Invert the skip flag. set blank [expr {!$blank}] # Now: the end point of this segment-or-jump becomes the # starting point of the next segment-or-jump. lset segment_coords 0 [lindex $segment_coords 2] lset segment_coords 1 [lindex $segment_coords 3] } } } #page proc uwp_p_canvas_pattern_line_ff {} { upvar line_coords line_coords segment_coords segment_coords expr { ([lindex $segment_coords 0] >= [lindex $line_coords 2]) && ([lindex $segment_coords 1] >= [lindex $line_coords 3]) } } proc uwp_p_canvas_pattern_line_bb {} { upvar line_coords line_coords segment_coords segment_coords expr { ([lindex $segment_coords 0] <= [lindex $line_coords 2]) && ([lindex $segment_coords 1] <= [lindex $line_coords 3]) } } proc uwp_p_canvas_pattern_line_fb {} { upvar line_coords line_coords segment_coords segment_coords expr { ([lindex $segment_coords 0] >= [lindex $line_coords 2]) && ([lindex $segment_coords 1] <= [lindex $line_coords 3]) } } proc uwp_p_canvas_pattern_line_bf {} { upvar line_coords line_coords segment_coords segment_coords expr { ([lindex $segment_coords 0] <= [lindex $line_coords 2]) && ([lindex $segment_coords 1] >= [lindex $line_coords 3]) } } #page proc uwp_p_canvas_pattern_line_rest_x_forward {} { upvar line_coords line_coords segment_coords segment_coords restX restX if { [lindex $segment_coords 2] > [lindex $line_coords 2] } { set restX [expr {[lindex $segment_coords 2]-[lindex $line_coords 2]}] lset segment_coords 2 [lindex $line_coords 2] } } proc uwp_p_canvas_pattern_line_rest_x_backward {} { upvar line_coords line_coords segment_coords segment_coords restX restX if { [lindex $segment_coords 2] < [lindex $line_coords 2] } { set restX [expr {[lindex $line_coords 2]-[lindex $segment_coords 2]}] lset segment_coords 2 [lindex $line_coords 2] } } proc uwp_p_canvas_pattern_line_rest_y_forward {} { upvar line_coords line_coords segment_coords segment_coords restY restY if { [lindex $segment_coords 3] > [lindex $line_coords 3] } { set restY [expr {[lindex $segment_coords 3]-[lindex $line_coords 3]}] lset segment_coords 3 [lindex $line_coords 3] } } proc uwp_p_canvas_pattern_line_rest_y_backward {} { upvar line_coords line_coords segment_coords segment_coords restY restY if { [lindex $segment_coords 3] < [lindex $line_coords 3] } { set restY [expr {[lindex $line_coords 3]-[lindex $segment_coords 3]}] lset segment_coords 3 [lindex $line_coords 3] } } #page proc uwp_yaw_angle_from_line_coords { coords } { expr {atan2(double([lindex $coords 3])-double([lindex $coords 1]), double([lindex $coords 2])-double([lindex $coords 0]))} } #page proc uwp_canvas_pattern_poly { widget coords pattern tags {offset 0.0} } { set line_coords [list [lindex $coords 0] [lindex $coords 1] {} {}] for {set i 2} {$i < [llength $coords]} {incr i} { lset line_coords 2 [lindex $coords $i] lset line_coords 3 [lindex $coords [incr i]] set offset [expr {-([uwp_canvas_pattern_line \ $widget $line_coords $pattern $tags $offset])}] lset line_coords 0 [lindex $line_coords 2] lset line_coords 1 [lindex $line_coords 3] } lset line_coords 2 [lindex $coords 0] lset line_coords 3 [lindex $coords 1] uwp_canvas_pattern_line $widget $line_coords $pattern $tags $offset } #page ## ------------------------------------------------------------ ## Let's go. ## ------------------------------------------------------------ main ### end of file # Local Variables: # mode: tcl # End:
See also Canvas selection with marching ants.