List of Combo Overlay examples: Difference between revisions

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The satellite imagery colors can be saturated using a saturation approximation function. In this example the factor is set to 0.9. Attributes are stored in the Combo Overlay and used in the formula with the prefix <code>ATTRIBUTE_</code>
The satellite imagery colors can be saturated using a saturation approximation function. In this example the factor is set to 0.9. Attributes are stored in the Combo Overlay and used in the formula with the prefix <code>ATTRIBUTE_</code>
* Set [[A prequel (Combo Overlay)|Grid A]] to a [[Satellite Overlay]]
* Set [[A prequel (Combo Overlay)|Grid A]] to a [[Satellite Overlay]]
* Add Attribute named <code>R_FACTOR</code> with value 0.2989;
* To the Combo Overlay:
* Add Attribute named <code>G_FACTOR</code> with value 0.587;
** Add Attribute named <code>R_FACTOR</code> with value 0.2989;
* Add Attribute named <code>B_FACTOR</code> with value 0.114;
** Add Attribute named <code>G_FACTOR</code> with value 0.587;
* Add Attribute named <code>SATURATION</code> with value 0.9;
** Add Attribute named <code>B_FACTOR</code> with value 0.114;
** Add Attribute named <code>SATURATION</code> with value 0.9;
* Set Formula to: <syntaxhighlight copy>
* Set Formula to: <syntaxhighlight copy>
COLOR(
COLOR(

Revision as of 13:41, 30 June 2026

Attribute

Solid Buildings

The attribute SOLID generally has a value of 0 or 1. It can therefore be used directly in a Combo Overlay Formula.

  • Set Combo Maplink to BUILDINGS
  • Set Key A to SOLID
  • Set Formula to:
    @A

Residential Buildings

The unit size category values can be used to identify and rasterize residences, in combination with a GT (Greater than) function with multiple arguments. To setup:

  • Set Combo Rasterization to "Attribute:Specific Layer" (SINGLE_LAYER)
  • Set Combo Maplink to Buildings
  • Set Key A to SOCIAL_UNIT_SIZE_M2
  • Set Key B to NORMAL_UNIT_SIZE_M2
  • Set Key C to LUXE_UNIT_SIZE_M2
  • Set Key D to STUDENT_UNIT_SIZE_M2
  • Set Key E to SENIOR_UNIT_SIZE_M2
  • Set Formula to:
    GT(@A,@B,@C,@D,@E)

Categorized Residential Buildings

The unit size category values can be used to identify and rasterize residence types, in combination with a IF and GT (Greater than) functions with multiple arguments. We will categorize the residential buildings as followed: SOCIAL (1) , NORMAL (2), LUXE (3), SENIOR (4), STUDENT (5) and everything else 0.

To setup:

  • Set Combo Rasterization to "Attribute:Specific Layer" (SINGLE_LAYER)
  • Set Combo Maplink to Buildings
  • Set Key A to SOCIAL_UNIT_SIZE_M2
  • Set Key B to NORMAL_UNIT_SIZE_M2
  • Set Key C to LUXE_UNIT_SIZE_M2
  • Set Key D to SENIOR_UNIT_SIZE_M2
  • Set Key E to STUDENT_UNIT_SIZE_M2
  • Set Formula to:
    IF(GT(@A,0),1,IF(GT(@B,0),2,IF(GT(@C,0),3, IF(GT(@D,0), 4, IF(GT(@E,0),5,0))))

Rasterization

Minimum infiltration among layers

An example on how the combo overlay can obtain rasterized data from multiple data layers (MapLinks); Terrains, Buildings, Neighborhoods, Areas and Zones.

Timeframes

Minimum value among timeframes

An example on how the Combo Overlay can calculate the minimum value among timeframes of a Prequel Grid Overlay

Maximum value among timeframes

An example on how the Combo Overlay can calculate the maximum value among timeframes of a Prequel Grid Overlay

Average value among timeframes

An example on how the Combo Overlay can calculate the average value among timeframes of a Prequel Grid Overlay, for example a Shadow Overlay:

Mask for each timeframe

An example on how the Combo Overlay can calculate, for each timeframe of an input overlay, whether a grid value is above a specific value. In this example a Heat Stress Overlay with a minimum value of 45 degrees.

Filter each timeframe

An example on how the Combo Overlay can calculate, for each timeframe of an input overlay, only include a grid value when it is above a specific value, and make it NO_DATA otherwise. In this example a Heat Stress Overlay with a minimum value of 45 degrees.

  • Set A prequel (Combo Overlay) to a Grid Overlay, in this example a Heat Stress Overlay.
  • Set Formula to:
    IF(GT(AT, 45), AT, NO_DATA)

Iteration

For initializing a Combo Overlay in a iteration setup, the ITERATION parameter can be used to obtain the active Iteration number. In this example we initialize the value to 0.

Colors

Grid input to colors

An example on how a combo overlay can return a complex colorization using a grid input without using a legend. This example expects the value of an input Grid Overlay to be:

  • Negative or NO_DATA in case it has no direction
  • A value between 0 and 360 indicating a direction.

Configure the Combo Overlay as followed:

  • Set Grid A to an input overlay representing a direction in degrees, such as Surface avg direction result type (Water Overlay)
  • Set Formula to:
    IF(OR(LT(AT, 0), EQ(NO_DATA, AT)), NO_DATA, IF(LT(AT, 15), COLOR(255, 0), IF(LT(AT, 45), COLOR(255, 125, 0), IF(LT(AT, 75), COLOR(255, 255, 0), IF(LT(AT, 105), COLOR(125, 255, 0), IF(LT(AT, 135), COLOR(0, 255, 0), IF(LT(AT, 165), COLOR(0, 255, 125), IF(LT(AT, 195), COLOR(0, 255, 255), IF(LT(AT, 225), COLOR(0, 125, 255), IF(LT(AT, 255), COLOR(0, 0, 255), IF(LT(AT, 285), COLOR(125, 0, 255), IF(LT(AT, 315), COLOR(225, 0, 225), IF(LT(AT, 345), COLOR(225, 0, 125), COLOR(255, 0, 0))))))))))))))

Saturate Satellite Imagery

The satellite imagery colors can be saturated using a saturation approximation function. In this example the factor is set to 0.9. Attributes are stored in the Combo Overlay and used in the formula with the prefix ATTRIBUTE_

  • Set Grid A to a Satellite Overlay
  • To the Combo Overlay:
    • Add Attribute named R_FACTOR with value 0.2989;
    • Add Attribute named G_FACTOR with value 0.587;
    • Add Attribute named B_FACTOR with value 0.114;
    • Add Attribute named SATURATION with value 0.9;
  • Set Formula to:
    COLOR(
     ADD(MUL(-1, ATTRIBUTE_SATURATION, 
      ADD(MUL(ATTRIBUTE_R_FACTOR, RED(A)), MUL(ATTRIBUTE_G_FACTOR, GREEN(A)), MUL(ATTRIBUTE_B_FACTOR, BLUE(A)))), MUL(ADD(1, ATTRIBUTE_SATURATION), RED(A))), 
     ADD(MUL(-1, ATTRIBUTE_SATURATION, 
      ADD(MUL(ATTRIBUTE_R_FACTOR, RED(A)), MUL(ATTRIBUTE_G_FACTOR, GREEN(A)), MUL(ATTRIBUTE_B_FACTOR, BLUE(A)))), MUL(ADD(1, ATTRIBUTE_SATURATION), GREEN(A))), 
     ADD(MUL(-1, ATTRIBUTE_SATURATION, 
      ADD(MUL(ATTRIBUTE_R_FACTOR, RED(A)), MUL(ATTRIBUTE_G_FACTOR, GREEN(A)), MUL(ATTRIBUTE_B_FACTOR, BLUE(A)))), MUL(ADD(1, ATTRIBUTE_SATURATION), BLUE(A)))
    )

The factors for red, green and blue are based on YCbRc ITU-R BT.601 conversion[1].

See also

References

  1. YCbRc ITU-R BT.601 conversion ∙ Found at: https://en.wikipedia.org/wiki/YCbCr#ITU-R_BT.601_conversion ∙ (last visited: 2026-06-30)