Participant 1
Initial description: Create a pattern with each individual grid in the test input combined together.
Final description: Create a pattern with each individual grid in the test input combined together.
Participant 2
Initial description: Replicate the pattern of colors into another grid that only need to be that big
Final description: Replace the pattern of colors in opposite places within the grid
Participant 3
Initial description: To follow and combine the blocks of colors in each of the four Inputs.
Final description: To follow and combine the blocks of colors in each of the four Inputs.
Participant 4
Initial description: Keep the objects touching the side that were touching the original blue. Keep their spacing.
Final description: Keep the objects in the original location. Remove all background.
Participant 5
Initial description: Make the grid the same size as the "small" ones in the test input. Plot each color shape in the same position in the output grid.
Final description: Make the grid the same size as the "small" ones in the test input. Plot each color shape in the same position in the output grid.
Participant 6
Initial description: Set the output grid to match the dimensions of the black grids from the input. Place each colored shape in the corresponding squares in the output grid.
Final description: Set the output grid to match the dimensions of the black grids from the input. Place each colored shape in the corresponding squares in the output grid.
Participant 7
Initial description: changing input to output box colors
Final description: By changing the grid size and particles. All the colors of the input are added in one output. The test output on the grid is a sum of one.
Participant 8
Initial description: The blocks from the input are just squished together to fit in a smaller output, retaining their shapes.
Final description: The blocks from the input are condensed into the smallest grid possible, while maintaining they position.
Participant 9
Initial description: Combine all of the different Imputs into one Output.
Final description: Combine all of the different Imputs into one Output.
Participant 10
Initial description: Make a grid that is 3 x 5. Recreate the color patterns from test input one.
Final description: Recreate the number of color blocks to match that of test input one. Except for test output two, make the grid 3 x 5.
Participant 11
Initial description: The position of the colored squares in the larger black squares should be combined into one square with all the colors in their respective positions.
Final description: The position of the colored squares in the larger black squares should be combined into one square with all the colors in their respective positions.
Participant 12
Initial description: Combine the multiple colored sections of each example grid into one, while using the same size as the examples and leaving any blank spaces as is.
Final description: Combine the multiple colored sections of each example grid into one, while using the same size as the examples and leaving any blank spaces as is.
Participant 13
Initial description: The test output grid size is based on each of the black windows provided in the test input. In this case, the grid was 5x3. Then the patterns in each window are superimposed, in a fashion that a colored box overwrites a black one.
Final description: The test output grid size is based on each of the black windows provided in the test input. In this case, the grid was 5x3. Then the patterns in each window are superimposed, in a fashion that a colored box overwrites a black one.
Participant 14
Initial description: Try to make them all fit inside.
Final description: Try to make every shape fit inside.
Participant 15
Initial description: Connect the color blocks to the grid and place them into a lager grid.
Final description: Connect the color blocks to the grid and place them into a lager grid.
Participant 16
Initial description: I followed the example inputs and outputs. All inputs were 3x5, and the shapes naturally fit together.
Final description: I followed the example inputs and outputs. All inputs were 3x5, and the shapes naturally fit together.