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# normflt2.qry
# This is a sample script for drawing a geological
# normal fault (dashed). Tick marks indicating downthrown side of
# fault are drawn on the left side of the line.
# If this is the wrong side for an individual line,
# use the Spatial Data Editor to reverse its start and end points.
# Modified to provide scaling for LegendView samples, August 2002;
# Modified to declare all variables, October 2005;
# Version Dec. 2007
# Requires TNTmips 2007:73 or later.
# Modified to adjust scale based on georeference map units
numeric red, green, blue, scale;
numeric dashMap, dashSize, halfSize, dist;
numeric widthMap, width, tickMap, tickSize;
class RVC_GEOREFERENCE vGeoref;
class SR_COORDREFSYS vectCRS;
class STRING coordUnit$;
###################### Set Parameters ##############################
# red, green, blue variables define the color of the line
red = 255; green = 0; blue = 0;
# This variable defines the denominator of the intended map scale.
# It is used as the basis for defining line width and symbol size
# and spacing.
# Example: for 1:24,000 map scale, Scale = 24000
scale = 24000;
# This variable controls the width of the line and tick marks.
# WidthMap is the desired map width in mm, assuming vector
# coordinates are in meters.
widthMap = 0.3;
# This variable controls the length of the dashes.
# DashMap is the desired size in mm, assuming vector
# coordinates are in meters:
dashMap = 4;
# This variable controls the length of the tick marks.
# TickMap is the desired tick length in mm, assuming vector
# coordinates are in meters:
tickMap = 1.5;
# Check if vector has geographic coordinates (units of degrees instead of meters)
# and if so adjust scale factor to draw symbols of appropriate size.
Vect.GetDefaultGeoref(vGeoref);
vectCRS = vGeoref.GetCoordRefSys();
if (vectCRS.IsProjected() <> 1) {
if (vectCRS.IsLocal() <> 1) {
scale = scale * 0.000009;
}
}
else { # CRS is projected; check coordinate units to adjust scale
# get coordinate unit from the first axis of the planar coordinate system
coordUnit$ = vectCRS.Coordsys.GetAxis(1).Unit.GetSymbol();
scale = scale * GetUnitConvDist("m", coordUnit$);
}
# set final dimensions for drawing
if (DrawingLegendView == 1) { # set dimensions for LegendView based on sample size
width = 0.1 * SampleRect.GetHeight();
dashSize = 0.3 * SampleRect.GetWidth();
tickSize = 0.3 * SampleRect.GetHeight();
}
else { # set dimensions for drawing elements in view
scale = scale / 1000; # conversion from meters to millimeters
width = widthMap * scale;
dashSize = dashMap * scale;
tickSize = tickMap * scale;
}
halfSize = dashSize * 0.5;
######################## Process ###########################
# Set line color and width
LineStyleSetColor(red,green,blue);
LineStyleSetLineWidth(width);
# Draw dashed fault line and tick marks
while (LineStyleRoll(dashSize) != 1) { # while not at end of line roll one dashSize
dist = LineStyleGetDistanceTo(3); # check distance to end of line
if (dist > halfSize) {
LineStyleRollPen(halfSize);
LineStyleDropAnchor(1);
LineStyleLineTo(90, tickSize);
LineStyleMoveToAnchor(1);
LineStyleRollPen(halfSize);
}
else {
LineStyleRollPen(dashSize);
}
}
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