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ortools-clone/examples/notebook/contrib/seseman_b.ipynb
Mizux Seiha 38b08637f4 update notebooks
2025-02-04 18:04:03 +01:00

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{
"cells": [
{
"cell_type": "markdown",
"id": "google",
"metadata": {},
"source": [
"##### Copyright 2025 Google LLC."
]
},
{
"cell_type": "markdown",
"id": "apache",
"metadata": {},
"source": [
"Licensed under the Apache License, Version 2.0 (the \"License\");\n",
"you may not use this file except in compliance with the License.\n",
"You may obtain a copy of the License at\n",
"\n",
" http://www.apache.org/licenses/LICENSE-2.0\n",
"\n",
"Unless required by applicable law or agreed to in writing, software\n",
"distributed under the License is distributed on an \"AS IS\" BASIS,\n",
"WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.\n",
"See the License for the specific language governing permissions and\n",
"limitations under the License.\n"
]
},
{
"cell_type": "markdown",
"id": "basename",
"metadata": {},
"source": [
"# seseman_b"
]
},
{
"cell_type": "markdown",
"id": "link",
"metadata": {},
"source": [
"<table align=\"left\">\n",
"<td>\n",
"<a href=\"https://colab.research.google.com/github/google/or-tools/blob/main/examples/notebook/contrib/seseman_b.ipynb\"><img src=\"https://raw.githubusercontent.com/google/or-tools/main/tools/colab_32px.png\"/>Run in Google Colab</a>\n",
"</td>\n",
"<td>\n",
"<a href=\"https://github.com/google/or-tools/blob/main/examples/contrib/seseman_b.py\"><img src=\"https://raw.githubusercontent.com/google/or-tools/main/tools/github_32px.png\"/>View source on GitHub</a>\n",
"</td>\n",
"</table>"
]
},
{
"cell_type": "markdown",
"id": "doc",
"metadata": {},
"source": [
"First, you must install [ortools](https://pypi.org/project/ortools/) package in this colab."
]
},
{
"cell_type": "code",
"execution_count": null,
"id": "install",
"metadata": {},
"outputs": [],
"source": [
"%pip install ortools"
]
},
{
"cell_type": "markdown",
"id": "description",
"metadata": {},
"source": [
"\n",
"\n",
" Seseman Convent problem in Google CP Solver.\n",
"\n",
"\n",
" n is the length of a border\n",
" There are (n-2)^2 \"holes\", i.e.\n",
" there are n^2 - (n-2)^2 variables to find out.\n",
"\n",
" The simplest problem, n = 3 (n x n matrix)\n",
" which is represented by the following matrix:\n",
"\n",
" a b c\n",
" d e\n",
" f g h\n",
"\n",
" Where the following constraints must hold:\n",
"\n",
" a + b + c = border_sum\n",
" a + d + f = border_sum\n",
" c + e + h = border_sum\n",
" f + g + h = border_sum\n",
" a + b + c + d + e + f = total_sum\n",
"\n",
"\n",
" Compare with the following models:\n",
" * Tailor/Essence': http://hakank.org/tailor/seseman.eprime\n",
" * MiniZinc: http://hakank.org/minizinc/seseman.mzn\n",
" * SICStus: http://hakank.org/sicstus/seseman.pl\n",
" * Zinc: http://hakank.org/minizinc/seseman.zinc\n",
" * Choco: http://hakank.org/choco/Seseman.java\n",
" * Comet: http://hakank.org/comet/seseman.co\n",
" * ECLiPSe: http://hakank.org/eclipse/seseman.ecl\n",
" * Gecode: http://hakank.org/gecode/seseman.cpp\n",
" * Gecode/R: http://hakank.org/gecode_r/seseman.rb\n",
" * JaCoP: http://hakank.org/JaCoP/Seseman.java\n",
"\n",
" This version use a better way of looping through all solutions.\n",
"\n",
"\n",
" This model was created by Hakan Kjellerstrand (hakank@gmail.com)\n",
" Also see my other Google CP Solver models:\n",
" http://www.hakank.org/google_or_tools/\n"
]
},
{
"cell_type": "code",
"execution_count": null,
"id": "code",
"metadata": {},
"outputs": [],
"source": [
"from ortools.constraint_solver import pywrapcp\n",
"\n",
"\n",
"def main(unused_argv):\n",
" # Create the solver.\n",
" solver = pywrapcp.Solver(\"Seseman Convent problem\")\n",
"\n",
" # data\n",
" n = 3\n",
" border_sum = n * n\n",
"\n",
" # declare variables\n",
" total_sum = solver.IntVar(1, n * n * n * n, \"total_sum\")\n",
" # x[0..n-1,0..n-1]\n",
" x = {}\n",
" for i in range(n):\n",
" for j in range(n):\n",
" x[(i, j)] = solver.IntVar(0, n * n, \"x %i %i\" % (i, j))\n",
"\n",
" #\n",
" # constraints\n",
" #\n",
" # zero all middle cells\n",
" for i in range(1, n - 1):\n",
" for j in range(1, n - 1):\n",
" solver.Add(x[(i, j)] == 0)\n",
"\n",
" # all borders must be >= 1\n",
" for i in range(n):\n",
" for j in range(n):\n",
" if i == 0 or j == 0 or i == n - 1 or j == n - 1:\n",
" solver.Add(x[(i, j)] >= 1)\n",
"\n",
" # sum the borders (border_sum)\n",
" solver.Add(solver.Sum([x[(i, 0)] for i in range(n)]) == border_sum)\n",
" solver.Add(solver.Sum([x[(i, n - 1)] for i in range(n)]) == border_sum)\n",
" solver.Add(solver.Sum([x[(0, i)] for i in range(n)]) == border_sum)\n",
" solver.Add(solver.Sum([x[(n - 1, i)] for i in range(n)]) == border_sum)\n",
"\n",
" # total\n",
" solver.Add(\n",
" solver.Sum([x[(i, j)] for i in range(n) for j in range(n)]) == total_sum)\n",
"\n",
" #\n",
" # solution and search\n",
" #\n",
" solution = solver.Assignment()\n",
" solution.Add([x[(i, j)] for i in range(n) for j in range(n)])\n",
" solution.Add(total_sum)\n",
"\n",
" db = solver.Phase([x[(i, j)] for i in range(n) for j in range(n)],\n",
" solver.CHOOSE_PATH, solver.ASSIGN_MIN_VALUE)\n",
"\n",
" solver.NewSearch(db)\n",
"\n",
" num_solutions = 0\n",
"\n",
" while solver.NextSolution():\n",
" num_solutions += 1\n",
" print(\"total_sum:\", total_sum.Value())\n",
" for i in range(n):\n",
" for j in range(n):\n",
" print(x[(i, j)].Value(), end=\" \")\n",
" print()\n",
" print()\n",
"\n",
" print(\"num_solutions:\", num_solutions)\n",
" print(\"failures:\", solver.Failures())\n",
" print(\"branches:\", solver.Branches())\n",
" print(\"WallTime:\", solver.WallTime())\n",
"\n",
"\n",
"main(\"cp sample\")\n",
"\n"
]
}
],
"metadata": {
"language_info": {
"name": "python"
}
},
"nbformat": 4,
"nbformat_minor": 5
}
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