Enter a traverse

License:

Available with a Basic, Standard, or Advanced license.

The Traverse tool Traverse supports efficient, single-handed entry using the numeric keypad. The sections below describe different traverse entry examples, shortcuts and overrides.

Before entering a traverse, ensure that the distance and direction units have been set correctly for the project. You can also click the Direction and Arc Length field dropdown arrows on the traverse grid to configure default entry parameters for curved lines.

Learn more about creating traverses

Traverse with curve to the left (quadrant bearing, feet)

The data is as follows:

  • Straight line, N45°59'59'"E, 100.00 feet
  • Tangent curve left, radius 50 feet, arc length 60 feet
  • Exit curve tangent, straight line, 50 feet

In the traverse grid, the default curve parameters are set to Tangent for the Direction field and Arc Length for the curve parameter field.

To enter a traverse with a curve turning left, the keystrokes on the numeric keypad are as follows:

  1. 45.5959-1 ENTER 100 ENTER
  2. ENTER 0 ENTER -50 ENTER 60 ENTER
  3. ENTER 50 ENTER

Traverse with curve to the left.

Tip:

The * preceding the direction value in the Direction field indicates the direction is tangent to the previous line.

With the default curve parameters set to Chord for the Direction field and Arc Length for the curve parameter field, the same traverse would be entered as follows:

  1. 45.5959-1 ENTER 100 ENTER
  2. * ENTER 0 ENTER -50 ENTER 60 ENTER (The * indicates the direction should be tangent to the previous direction or tangent to the exit of a curve. In this case, the * indicates that the curve should be tangent, even though the default curve direction is set to Chord.)
  3. * ENTER 50 ENTER

Traverse with tangent bearing overrides

Traverse with curve to the right (north azimuth, meters)

The data is as follows:

  • 89°15'37'", 40.2 meters
  • 179°47'46'", 6 meters
  • Tangent curve right, radius 8.2 meters, arc length 11.6 meters
  • Exit curve tangent, straight line, 32 meters
  • 359°45'14'", 19 meters, close traverse

In the traverse grid, the default curve parameters are set to Tangent for the Direction field and Arc Length for the curve parameter field.

To enter a traverse using north azimuth, meters, and a curve turning right, the keystrokes on the numeric keypad are as follows:

  1. 89.1537 ENTER 40.2 ENTER
  2. 179.4746 ENTER 6 ENTER
  3. ENTER 0 ENTER 8.2 ENTER 11.6 ENTER
  4. ENTER 32 ENTER
  5. 359.4514 ENTER 19* ENTER (The * in the Distance field indicates that the traverse should close onto its start point regardless of the specified closure tolerance).

Traverse in north azimuth and meters

With the default curve parameters set to Chord for the Direction field and Chord Length for the curve parameter field, the same traverse would be entered as follows:

  1. 89.1537 ENTER 40.2 ENTER
  2. 179.4746 ENTER 6 ENTER
  3. * ENTER 0 ENTER 8.2 ENTER 11.6a ENTER(* is the tangent direction override and a is the arc length override)
  4. * ENTER 32 ENTER
  5. 359.4514 ENTER 19* ENTER

Traverse with tangent bearing and arc length overrides

Traverse starting with a nontangent curve (quadrant bearing, feet)

The following example shows overriding curve parameters in a traverse. The data is as follows:

  • Nontangent curve with chord bearing N41°56'06'"E, radius 50 feet, chord length 25 feet
  • Straight line, S80°25'24'"E, 50 feet
  • Tangent curve turning right, radius 25 feet, arc length 50 feet

In the traverse grid, the default curve parameters are set to Tangent for the Direction field and Arc Length for the curve parameter field.

To enter a traverse starting with a nontangent curve turning right, the keystrokes on the numeric keypad are as follows:

  1. 41-56-06-1cb (or 41.5606-1cb) ENTER 0 ENTER 50 ENTER 25c ENTER(cb is the chord bearing override and c is the chord length override).
  2. 80.2524-2 ENTER 50 ENTER
  3. ENTER 0 ENTER 25 ENTER 50 ENTER

Traverse starting with a curve

With the default curve parameters set to Chord for the curve direction field and Arc Length for the curve parameter field, the same traverse would be entered as follows:

  1. 41-56-06-1 (or 41.5606-1) ENTER 0 ENTER 50 ENTER 25c ENTER
  2. 80.2524-2 ENTER 50 ENTER
  3. * ENTER 0 ENTER 25 ENTER 50 ENTER (The * indicates the direction should be tangent to the previous direction or tangent to the exit of a curve.)

Traverse grid curve overrides

See the Curve overrides section below for more information on curve overrides.

Traverse with radial bearing curve (quadrant bearing, feet)

The following example shows entering radial bearing curves. The data is as follows:

  • Straight line, S80°25'24'"E, 50 feet
  • Straight line, 20° clockwise from previous bearing, 45 feet
  • Curve with radial bearing, S41°26'06'"E turning right, radius 25, delta (central angle) 45
  • Tangent curve turning right, radius 25, delta 45
  • Straight line, N25°35'05'"E, 45 feet
  • Straight line, 80° counterclockwise from previous bearing, 45 feet

In the traverse grid, the default curve parameters are set to Radial for the Direction field and Arc Length for the curve parameter field.

To enter a traverse with shortcuts, the keystrokes on the numeric keypad are as follows:

  1. 80.2524-2 ENTER 50 ENTER
  2. +20 ENTER 45 ENTER
  3. 41.2606-2 ENTER 0 ENTER 25 ENTER 45d ENTER (is the delta angle override)
  4. * ENTER 0 ENTER 25 ENTER 45d ENTER(* is the tangent direction override)
  5. 25.3505-1 ENTER 45 ENTER
  6. -80 ENTER 45 ENTER

Traverse with radial bearing curve

Traverse with calculator shortcut (quadrant bearing, feet)

The following example shows a traverse that uses a calculator shortcut to add two values. In the Distance, Radius and Arc Length fields, you can add, subtract, multiply and divide values. The data is as follows:

  • Straight line, N45°25'30'"E, 100.00 feet
  • Tangent curve right, radius = 45 + half road width, arc length 60 feet
  • Exit curve tangent, straight line, 50 feet

In the traverse grid, the default curve parameters are set to Tangent for the Direction field and Arc Length for the curve parameter field.

To enter a traverse with a calculator shortcut, the keystrokes on the numeric keypad are as follows:

  1. 45-25-30-1 ENTER 100 ENTER
  2. ENTER 0 ENTER 45+30 ENTER 60 ENTER
  3. ENTER 50 ENTER

Calculator shortcuts in the traverse

Configure data entry parameters for curved lines

When entering curves in the traverse grid, the curve direction type can be set to tangent direction, chord direction, or radial direction. For new projects, the default direction type for the traverse grid is set to tangent direction. To change the default curve direction type, click the drop-down arrow next to Direction and choose Chord or Radial. To change the default curve parameters, click the drop-down arrow in the Arc Length field and choose Chord Length or Delta Angle.

Curve parameters in the traverse grid can be temporarily changed with overrides at any time. For example, to override tangent direction with the radial direction type rb after entering your curve direction, such as 41-56-06rb.

For the curve direction, type a negative radius for a curve turning left. Otherwise, the curve turns right.

For more curve overrides, see the Curve overrides section below.

Tangency

A traverse line or curve can be made tangent to the previous line or curve by typing an asterisk (*) in the Direction field and pressing Enter. After Enter is pressed, the Direction field is updated to display the tangent direction. An asterisk is placed before the direction value to indicate that it is tangent to the direction of the previous line.

Tangent lines

If a direction value in the Direction field is preceded with an asterisk, it will remain tangent to the previous direction. This means that if the previous direction value is changed, the direction with the asterisk will be recalculated to be tangent to the updated value.

Additional keypad information

Keep the following in mind when working with the numeric keypad:

  • Quadrant bearing is entered by typing a hyphen (-) and the number of the quadrant. For example S80°25'24'"E can entered as 80-25-24-2 or 80.2524-2.
  • The next course of the traverse is automatically populated with the exit tangent bearing of the previous course.

    This makes it more straightforward to enter a tangent curve and exit a curve with a tangent straight line.

  • A circular curve is entered by typing a zero (0) in the Distance field and pressing Enter.
  • A negative radius is used for a curve turning left. Otherwise, the curve turns right.
  • An asterisk (*) in the Direction field indicates the direction should be tangent to the previous direction or tangent to the exit of a curve.
  • An asterisk (*) in the Distance or Arc Length fields indicates that this is the last leg of the traverse and that the traverse should close regardless of the specified closure tolerance.
  • Insert a row by right-clicking an existing row and clicking Insert Before or Insert After.
  • Delete a row by right-clicking the row and clicking Delete Row.
  • Reorder a row by dragging the row to a different location. The traverse is recomputed based on the new order of the courses.
  • Move between cells in the traverse grid using the arrow keys or by pressing Esc.

Ground to grid

When Ground to Grid Ground to Grid Correction is turned on, lines created from entered traverse dimensions are scaled and rotated by the specified ground to grid corrections. The entered dimensions are not changed.

To learn more, see Turn ground to grid corrections on or off.

Data entry shortcuts

The Traverse tool Traverse uses the following shortcuts and overrides:

Quadrant bearing shortcuts

When entering directions using the quadrant bearing format, you can use numbers to specify the quadrant instead of typing the required letters. This allows you to work solely with the numeric keypad and speeds up the data entry process.

QuadrantKeystrokeUse in grid fieldExample

Northeast quadrant (NE)

-1

Direction

45-59-59-1

Southeast quadrant (SE)

-2

Direction

45-59-59-2

Southwest quadrant (SW)

-3

Direction

45-59-59-3

Northwest quadrant (NW)

-4

Direction

45-59-59-4

Closure shortcuts

Close a traverse using the following keystrokes:

KeystrokeUse in grid fieldDescriptionExample

*

Distance, Radius, Arc Length, and Chord Length

Close a traverse onto its start point or defined closing location regardless of the closure tolerance. Closure is enforced.

45-20-30-1 ENTER 25*

Angle shortcuts

Direction calculation shortcuts can be used after the first traverse leg has been entered. The following direction calculation shortcuts use the direction in the previous traverse leg:

KeystrokeUse in grid fieldDescriptionExample

+<angle>

Direction

Add the entered angle (clockwise) to the previous direction to get a direction for the next course.

+20

-<angle>

Direction

Subtract the entered angle (counterclockwise) from the previous direction to get a direction for the next course.

-20

+

Direction

Add 90° (clockwise) to the previous direction to get a direction for the next course.

Type + instead of a dimension.

-

Direction

Subtract 90° (counterclockwise) from the previous direction to get a direction for the next course.

Type - instead of a dimension.

Calculator shortcuts

Use operators in the Distance, Radius, Arc Length, and Chord Length fields to quickly calculate and derive distances.

OperatorUse in grid fieldDescriptionExample

+

Distance, Radius, Arc Length, and Chord Length

Add two distances.

Add a ROW width to an existing radius to get the outer radius. Type 30+15 in the Radius field.

-

Distance, Radius, Arc Length, and Chord Length

Subtract two distances.

Subtract a length described on a plan, for example, "..except the northern 52.8 feet". Type 100-52.8 in the Distance field.

*

Distance, Radius, Arc Length, and Chord Length

Multiply a distance.

Enter a road frontage and multiply the value by the number of lots with the same frontage to get the length of the ROW frontage. Type 40*4 in the Distance field.

/

Distance, Radius, Arc Length, and Chord Length

Divide a distance.

Divide a line to get the proportioned width. Type 122/3 in the Distance field to get a proportioned length of 40.67.

Curve overrides

The Traverse tool Traverse uses the following overrides:

Curves described on a plat or plan may not conform to a single set of curve parameters, such as radius and arc length. Use the following shortcuts to override curve parameters in the Direction, Radius, Arc Length, Chord Length, and Delta Angle fields:

OverrideKeystrokeUse in grid fieldExample

Tangent bearing curve

tb or TB

Direction

41-56-06-4tb (using quadrant bearing)

Radial bearing curve

rb or RB

Direction

41-56-06rb (using north azimuth and degrees-minutes-seconds)

Chord bearing curve

cb or CB

Direction

41-56-06cb (using north azimuth and degrees-minutes-seconds)

Chord length

c or C

Arc Length and Delta Angle

25.01c

Delta (central angle)

d or D

Arc Length and Chord Length

90-59-59d

Arc length

a or A

Chord Length and Delta Angle

25.01a

Note:
When a curve parameter field is overridden for a traverse course, that curve parameter field will remain overridden for that single course. To change the override, you will need to type a new curve override.

For example, if the Arc Length curve parameter field is overridden with a d for delta angle, it will remain overridden as a delta angle for that course. To revert back to arc length the a override parameter will need to be used.

Distance overrides

Use the following shortcuts to override distances in the Distance, Radius, Arc Length, and Chord Length fields:

OverrideKeystrokeUse in grid fieldExample

Meters

m or M

Distance, Radius, Arc Length, and Chord Length

25m

Kilometers

km or KM

Distance, Radius, Arc Length, and Chord Length

25km

Feet

ft or FT

Distance, Radius, Arc Length, and Chord Length

25ft

Yards

yd or YD

Distance, Radius, Arc Length, and Chord Length

25yd

Miles

mi or MI

Distance, Radius, Arc Length, and Chord Length

25mi

Tip:
You can use the distance unit abbreviation to override any distance that is part of the ArcGIS Pro project in the traverse grid.

Learn more about adding and setting units in a project