Difference between revisions of "Algo holics"
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-b directs the profiler to omit detailed explanations of the column headings from the output. | -b directs the profiler to omit detailed explanations of the column headings from the output. | ||
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Call graph | Call graph | ||
granularity: each sample hit covers 2 byte(s) no time propagated | granularity: each sample hit covers 2 byte(s) no time propagated | ||
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index % time self children called name | index % time self children called name | ||
0.00 0.00 4539/4539 placeNum(int, int) [10] | 0.00 0.00 4539/4539 placeNum(int, int) [10] | ||
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[19] 0.0 0.00 0.00 1 __static_initialization_and_destruction_0(int, int) [19] | [19] 0.0 0.00 0.00 1 __static_initialization_and_destruction_0(int, int) [19] | ||
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Index by function name | Index by function name | ||
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[14] _GLOBAL__sub_I_sudoku [16] solveSudoku() [13] print(int (*) [9]) | [14] _GLOBAL__sub_I_sudoku [16] solveSudoku() [13] print(int (*) [9]) | ||
[15] _GLOBAL__sub_I_temp [17] storePositions() [12] goBack(int&, int&) | [15] _GLOBAL__sub_I_temp [17] storePositions() [12] goBack(int&, int&) | ||
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Revision as of 03:45, 22 February 2019
GPU610/DPS915 | Student List | Group and Project Index | Student Resources | Glossary
Contents
Project Name Goes here
Team Members
- Sukhbeer Dhillon, Responsibilities...
- Gurpreet Singh, Some other responsibility
- Edgar Giang, Some other other responsibility
- Email All
Progress
Assignment 1
Sudoku Solver
Is it a program that solves Sudoku puzzles(9X9) using Bruteforce algorithm. Either the user can pass a Sudoku files as an input or enter the values manually. Moreover, the file or the manual entry should have strictly 9 rows and 9 columns in them. Lastly, all the cells should be separated by a space and the cells that needs to be solved should have 0 in them as their value.
The original source code can be found at Link
LOGIC
In this program the Bruteforce algorithm first put 1 in the first cell and then check if it is violating any rules. If yes, then it increment the value to 2 and check again (The value can vary from 1-9) until it finds the appropriate value. After finding a suitable value for the first cell, it moves to the second cell and put 1 in there and again check again if it violating any rules. If it is discovers that 1 is not allowed in that cell, then the algorithm will increment it to 2 and check again and if not even a single value from the range of 0-9 satisfies the cell, then the algorithm will iterate back to the previous cell and increment the value and try the whole process again. By following the same logic it will solve the whole puzzle.
Compiling the program
Enter the following commands:
g++ -std=c++0x -pg solver.cpp checks.cpp checksolution.cpp -o a a fileName
-pg directs the compiler to include the executable code required for profiling.
-o directs the compiler to name the executable a.
If we run the sample-puzzle-1 (level- easy) file, which has the following text inside it:
0 6 0 0 0 0 9 7 2
0 5 0 0 0 2 0 0 3
0 7 0 3 9 0 5 0 0
2 0 0 0 0 5 4 0 8
0 0 0 0 0 0 0 0 0
3 0 1 8 0 0 0 0 6
0 0 4 0 2 3 0 8 0
7 0 0 9 0 0 0 2 0
9 2 5 0 0 0 0 4 0
The output will be:
1 6 3 4 5 8 9 7 2
4 5 9 7 1 2 8 6 3
8 7 2 3 9 6 5 1 4
2 9 7 1 6 5 4 3 8
5 8 6 2 3 4 1 9 7
3 4 1 8 7 9 2 5 6
6 1 4 5 2 3 7 8 9
7 3 8 9 4 1 6 2 5
9 2 5 6 8 7 3 4 1
Analysis
To analyze the call graph, enter the following command:
gprof -q -b a> a.clg
-q directs the profiler (gprof) to output a call graph.
-b directs the profiler to omit detailed explanations of the column headings from the output.
The call graph for the above execution looks like:
Call graph
granularity: each sample hit covers 2 byte(s) no time propagated
index % time self children called name
0.00 0.00 4539/4539 placeNum(int, int) [10]
[8] 0.0 0.00 0.00 4539 checkRow(int, int) [8]
-----------------------------------------------
0.00 0.00 1620/1620 placeNum(int, int) [10]
[9] 0.0 0.00 0.00 1620 checkColumn(int, int) [9]
-----------------------------------------------
0.00 0.00 1120/1120 solveSudoku() [16]
[10] 0.0 0.00 0.00 1120 placeNum(int, int) [10]
0.00 0.00 4539/4539 checkRow(int, int) [8]
0.00 0.00 1620/1620 checkColumn(int, int) [9]
0.00 0.00 698/698 checkSquare(int, int, int) [11]
-----------------------------------------------
0.00 0.00 698/698 placeNum(int, int) [10]
[11] 0.0 0.00 0.00 698 checkSquare(int, int, int) [11]
-----------------------------------------------
0.00 0.00 476/476 solveSudoku() [16]
[12] 0.0 0.00 0.00 476 goBack(int&, int&) [12]
-----------------------------------------------
0.00 0.00 2/2 main [6]
[13] 0.0 0.00 0.00 2 print(int (*) [9]) [13]
-----------------------------------------------
0.00 0.00 1/1 __libc_csu_init [30]
[14] 0.0 0.00 0.00 1 _GLOBAL__sub_I_sudoku [14]
0.00 0.00 1/1 __static_initialization_and_destruction_0(int, int) [18]
-----------------------------------------------
0.00 0.00 1/1 __libc_csu_init [30]
[15] 0.0 0.00 0.00 1 _GLOBAL__sub_I_temp [15]
0.00 0.00 1/1 __static_initialization_and_destruction_0(int, int) [19]
-----------------------------------------------
0.00 0.00 1/1 main [6]
[16] 0.0 0.00 0.00 1 solveSudoku() [16]
0.00 0.00 1120/1120 placeNum(int, int) [10]
0.00 0.00 476/476 goBack(int&, int&) [12]
-----------------------------------------------
0.00 0.00 1/1 main [6]
[17] 0.0 0.00 0.00 1 storePositions() [17]
-----------------------------------------------
0.00 0.00 1/1 _GLOBAL__sub_I_sudoku [14]
[18] 0.0 0.00 0.00 1 __static_initialization_and_destruction_0(int, int) [18]
-----------------------------------------------
0.00 0.00 1/1 _GLOBAL__sub_I_temp [15]
[19] 0.0 0.00 0.00 1 __static_initialization_and_destruction_0(int, int) [19]
-----------------------------------------------
Index by function name
[14] _GLOBAL__sub_I_sudoku [16] solveSudoku() [13] print(int (*) [9])
[15] _GLOBAL__sub_I_temp [17] storePositions() [12] goBack(int&, int&)
[9] checkColumn(int, int) [18] __static_initialization_and_destruction_0(int, int) [8] checkRow(int, int)
[11] checkSquare(int, int, int) [19] __static_initialization_and_destruction_0(int, int) [10] placeNum(int, int)
From the above Flat profile we can see that the program took no time in finding the solution. However, to get a better understanding of the program let's try a harder Sudoku puzzle.
If we run the sample-puzzle-2-hard (Level- hard) file, which has the following text inside it:
0 0 0 0 0 0 0 0 0
0 0 0 0 0 3 0 8 5
0 0 1 0 2 0 0 0 0
0 0 0 5 0 7 0 0 0
0 0 4 0 0 0 1 0 0
0 9 0 0 0 0 0 0 0
5 0 0 0 0 0 0 7 3
0 0 2 0 1 0 0 0 0
0 0 0 0 4 0 0 0 9
The output will be:
9 8 7 6 5 4 3 2 1
2 4 6 1 7 3 9 8 5
3 5 1 9 2 8 7 4 6
1 2 8 5 3 7 6 9 4
6 3 4 8 9 2 1 5 7
7 9 5 4 6 1 8 3 2
5 1 9 2 8 6 4 7 3
4 7 2 3 1 9 5 6 8
8 6 3 7 4 5 2 1 9
The Flat profile for the following looks like:
