change header

Author: khuyentran1401

Chapter6/alternative_approach.ipynb

@@ -260,24 +260,7 @@
     },
     {
      "data": {
-      "application/javascript": [
-       "\n",
-       "            setTimeout(function() {\n",
-       "                var nbb_cell_id = 12;\n",
-       "                var nbb_unformatted_code = \"from box import Box\\n\\nfood_box = Box({\\\"food\\\": {\\\"fruit\\\": {\\\"name\\\": \\\"apple\\\", \\\"flavor\\\": \\\"sweet\\\"}}})\\nprint(food_box)\";\n",
-       "                var nbb_formatted_code = \"from box import Box\\n\\nfood_box = Box({\\\"food\\\": {\\\"fruit\\\": {\\\"name\\\": \\\"apple\\\", \\\"flavor\\\": \\\"sweet\\\"}}})\\nprint(food_box)\";\n",
-       "                var nbb_cells = Jupyter.notebook.get_cells();\n",
-       "                for (var i = 0; i < nbb_cells.length; ++i) {\n",
-       "                    if (nbb_cells[i].input_prompt_number == nbb_cell_id) {\n",
-       "                        if (nbb_cells[i].get_text() == nbb_unformatted_code) {\n",
-       "                             nbb_cells[i].set_text(nbb_formatted_code);\n",
-       "                        }\n",
-       "                        break;\n",
-       "                    }\n",
-       "                }\n",
-       "            }, 500);\n",
-       "            "
-      ],
+      "application/javascript": "\n            setTimeout(function() {\n                var nbb_cell_id = 12;\n                var nbb_unformatted_code = \"from box import Box\\n\\nfood_box = Box({\\\"food\\\": {\\\"fruit\\\": {\\\"name\\\": \\\"apple\\\", \\\"flavor\\\": \\\"sweet\\\"}}})\\nprint(food_box)\";\n                var nbb_formatted_code = \"from box import Box\\n\\nfood_box = Box({\\\"food\\\": {\\\"fruit\\\": {\\\"name\\\": \\\"apple\\\", \\\"flavor\\\": \\\"sweet\\\"}}})\\nprint(food_box)\";\n                var nbb_cells = Jupyter.notebook.get_cells();\n                for (var i = 0; i < nbb_cells.length; ++i) {\n                    if (nbb_cells[i].input_prompt_number == nbb_cell_id) {\n                        if (nbb_cells[i].get_text() == nbb_unformatted_code) {\n                             nbb_cells[i].set_text(nbb_formatted_code);\n                        }\n                        break;\n                    }\n                }\n            }, 500);\n            ",
       "text/plain": [
        "<IPython.core.display.Javascript object>"
       ]
@@ -313,24 +296,7 @@
     },
     {
      "data": {
-      "application/javascript": [
-       "\n",
-       "            setTimeout(function() {\n",
-       "                var nbb_cell_id = 13;\n",
-       "                var nbb_unformatted_code = \"print(food_box.food.fruit.name)\";\n",
-       "                var nbb_formatted_code = \"print(food_box.food.fruit.name)\";\n",
-       "                var nbb_cells = Jupyter.notebook.get_cells();\n",
-       "                for (var i = 0; i < nbb_cells.length; ++i) {\n",
-       "                    if (nbb_cells[i].input_prompt_number == nbb_cell_id) {\n",
-       "                        if (nbb_cells[i].get_text() == nbb_unformatted_code) {\n",
-       "                             nbb_cells[i].set_text(nbb_formatted_code);\n",
-       "                        }\n",
-       "                        break;\n",
-       "                    }\n",
-       "                }\n",
-       "            }, 500);\n",
-       "            "
-      ],
+      "application/javascript": "\n            setTimeout(function() {\n                var nbb_cell_id = 13;\n                var nbb_unformatted_code = \"print(food_box.food.fruit.name)\";\n                var nbb_formatted_code = \"print(food_box.food.fruit.name)\";\n                var nbb_cells = Jupyter.notebook.get_cells();\n                for (var i = 0; i < nbb_cells.length; ++i) {\n                    if (nbb_cells[i].input_prompt_number == nbb_cell_id) {\n                        if (nbb_cells[i].get_text() == nbb_unformatted_code) {\n                             nbb_cells[i].set_text(nbb_formatted_code);\n                        }\n                        break;\n                    }\n                }\n            }, 500);\n            ",
       "text/plain": [
        "<IPython.core.display.Javascript object>"
       ]
@@ -404,24 +370,7 @@
     },
     {
      "data": {
-      "application/javascript": [
-       "\n",
-       "            setTimeout(function() {\n",
-       "                var nbb_cell_id = 15;\n",
-       "                var nbb_unformatted_code = \"from time import time, sleep\\n\\n\\ndef time_func_complex(func):\\n    def wrapper(*args, **kwargs):\\n        start_time = time()\\n        func(*args, **kwargs)\\n        end_time = time()\\n        print(\\n            f\\\"\\\"\\\"It takes {round(end_time - start_time, 3)} seconds to execute the function\\\"\\\"\\\"\\n        )\\n\\n    return wrapper\\n\\n\\n@time_func_complex\\ndef test_func_complex():\\n    sleep(1)\\n\\n\\ntest_func_complex()\";\n",
-       "                var nbb_formatted_code = \"from time import time, sleep\\n\\n\\ndef time_func_complex(func):\\n    def wrapper(*args, **kwargs):\\n        start_time = time()\\n        func(*args, **kwargs)\\n        end_time = time()\\n        print(\\n            f\\\"\\\"\\\"It takes {round(end_time - start_time, 3)} seconds to execute the function\\\"\\\"\\\"\\n        )\\n\\n    return wrapper\\n\\n\\n@time_func_complex\\ndef test_func_complex():\\n    sleep(1)\\n\\n\\ntest_func_complex()\";\n",
-       "                var nbb_cells = Jupyter.notebook.get_cells();\n",
-       "                for (var i = 0; i < nbb_cells.length; ++i) {\n",
-       "                    if (nbb_cells[i].input_prompt_number == nbb_cell_id) {\n",
-       "                        if (nbb_cells[i].get_text() == nbb_unformatted_code) {\n",
-       "                             nbb_cells[i].set_text(nbb_formatted_code);\n",
-       "                        }\n",
-       "                        break;\n",
-       "                    }\n",
-       "                }\n",
-       "            }, 500);\n",
-       "            "
-      ],
+      "application/javascript": "\n            setTimeout(function() {\n                var nbb_cell_id = 15;\n                var nbb_unformatted_code = \"from time import time, sleep\\n\\n\\ndef time_func_complex(func):\\n    def wrapper(*args, **kwargs):\\n        start_time = time()\\n        func(*args, **kwargs)\\n        end_time = time()\\n        print(\\n            f\\\"\\\"\\\"It takes {round(end_time - start_time, 3)} seconds to execute the function\\\"\\\"\\\"\\n        )\\n\\n    return wrapper\\n\\n\\n@time_func_complex\\ndef test_func_complex():\\n    sleep(1)\\n\\n\\ntest_func_complex()\";\n                var nbb_formatted_code = \"from time import time, sleep\\n\\n\\ndef time_func_complex(func):\\n    def wrapper(*args, **kwargs):\\n        start_time = time()\\n        func(*args, **kwargs)\\n        end_time = time()\\n        print(\\n            f\\\"\\\"\\\"It takes {round(end_time - start_time, 3)} seconds to execute the function\\\"\\\"\\\"\\n        )\\n\\n    return wrapper\\n\\n\\n@time_func_complex\\ndef test_func_complex():\\n    sleep(1)\\n\\n\\ntest_func_complex()\";\n                var nbb_cells = Jupyter.notebook.get_cells();\n                for (var i = 0; i < nbb_cells.length; ++i) {\n                    if (nbb_cells[i].input_prompt_number == nbb_cell_id) {\n                        if (nbb_cells[i].get_text() == nbb_unformatted_code) {\n                             nbb_cells[i].set_text(nbb_formatted_code);\n                        }\n                        break;\n                    }\n                }\n            }, 500);\n            ",
       "text/plain": [
        "<IPython.core.display.Javascript object>"
       ]
@@ -483,24 +432,7 @@
     },
     {
      "data": {
-      "application/javascript": [
-       "\n",
-       "            setTimeout(function() {\n",
-       "                var nbb_cell_id = 17;\n",
-       "                var nbb_unformatted_code = \"from decorator import decorator\\n\\n@decorator\\ndef time_func_simple(func, *args, **kwargs):\\n    start_time = time()\\n    func(*args, **kwargs)\\n    end_time = time()\\n    print(\\n            f\\\"\\\"\\\"It takes {round(end_time - start_time, 3)} seconds to execute the function\\\"\\\"\\\"\\n    )\\n    \\n@time_func_simple  \\ndef test_func_simple():\\n    sleep(1)\\n\\ntest_func()\";\n",
-       "                var nbb_formatted_code = \"from decorator import decorator\\n\\n\\n@decorator\\ndef time_func_simple(func, *args, **kwargs):\\n    start_time = time()\\n    func(*args, **kwargs)\\n    end_time = time()\\n    print(\\n        f\\\"\\\"\\\"It takes {round(end_time - start_time, 3)} seconds to execute the function\\\"\\\"\\\"\\n    )\\n\\n\\n@time_func_simple\\ndef test_func_simple():\\n    sleep(1)\\n\\n\\ntest_func()\";\n",
-       "                var nbb_cells = Jupyter.notebook.get_cells();\n",
-       "                for (var i = 0; i < nbb_cells.length; ++i) {\n",
-       "                    if (nbb_cells[i].input_prompt_number == nbb_cell_id) {\n",
-       "                        if (nbb_cells[i].get_text() == nbb_unformatted_code) {\n",
-       "                             nbb_cells[i].set_text(nbb_formatted_code);\n",
-       "                        }\n",
-       "                        break;\n",
-       "                    }\n",
-       "                }\n",
-       "            }, 500);\n",
-       "            "
-      ],
+      "application/javascript": "\n            setTimeout(function() {\n                var nbb_cell_id = 17;\n                var nbb_unformatted_code = \"from decorator import decorator\\n\\n@decorator\\ndef time_func_simple(func, *args, **kwargs):\\n    start_time = time()\\n    func(*args, **kwargs)\\n    end_time = time()\\n    print(\\n            f\\\"\\\"\\\"It takes {round(end_time - start_time, 3)} seconds to execute the function\\\"\\\"\\\"\\n    )\\n    \\n@time_func_simple  \\ndef test_func_simple():\\n    sleep(1)\\n\\ntest_func()\";\n                var nbb_formatted_code = \"from decorator import decorator\\n\\n\\n@decorator\\ndef time_func_simple(func, *args, **kwargs):\\n    start_time = time()\\n    func(*args, **kwargs)\\n    end_time = time()\\n    print(\\n        f\\\"\\\"\\\"It takes {round(end_time - start_time, 3)} seconds to execute the function\\\"\\\"\\\"\\n    )\\n\\n\\n@time_func_simple\\ndef test_func_simple():\\n    sleep(1)\\n\\n\\ntest_func()\";\n                var nbb_cells = Jupyter.notebook.get_cells();\n                for (var i = 0; i < nbb_cells.length; ++i) {\n                    if (nbb_cells[i].input_prompt_number == nbb_cell_id) {\n                        if (nbb_cells[i].get_text() == nbb_unformatted_code) {\n                             nbb_cells[i].set_text(nbb_formatted_code);\n                        }\n                        break;\n                    }\n                }\n            }, 500);\n            ",
       "text/plain": [
        "<IPython.core.display.Javascript object>"
       ]
@@ -1259,24 +1191,7 @@
     },
     {
      "data": {
-      "application/javascript": [
-       "\n",
-       "            setTimeout(function() {\n",
-       "                var nbb_cell_id = 33;\n",
-       "                var nbb_unformatted_code = \"# find the difference between two dictionaries\\nresult = diff(user1, user2)\\nlist(result)\";\n",
-       "                var nbb_formatted_code = \"# find the difference between two dictionaries\\nresult = diff(user1, user2)\\nlist(result)\";\n",
-       "                var nbb_cells = Jupyter.notebook.get_cells();\n",
-       "                for (var i = 0; i < nbb_cells.length; ++i) {\n",
-       "                    if (nbb_cells[i].input_prompt_number == nbb_cell_id) {\n",
-       "                        if (nbb_cells[i].get_text() == nbb_unformatted_code) {\n",
-       "                             nbb_cells[i].set_text(nbb_formatted_code);\n",
-       "                        }\n",
-       "                        break;\n",
-       "                    }\n",
-       "                }\n",
-       "            }, 500);\n",
-       "            "
-      ],
+      "application/javascript": "\n            setTimeout(function() {\n                var nbb_cell_id = 33;\n                var nbb_unformatted_code = \"# find the difference between two dictionaries\\nresult = diff(user1, user2)\\nlist(result)\";\n                var nbb_formatted_code = \"# find the difference between two dictionaries\\nresult = diff(user1, user2)\\nlist(result)\";\n                var nbb_cells = Jupyter.notebook.get_cells();\n                for (var i = 0; i < nbb_cells.length; ++i) {\n                    if (nbb_cells[i].input_prompt_number == nbb_cell_id) {\n                        if (nbb_cells[i].get_text() == nbb_unformatted_code) {\n                             nbb_cells[i].set_text(nbb_formatted_code);\n                        }\n                        break;\n                    }\n                }\n            }, 500);\n            ",
       "text/plain": [
        "<IPython.core.display.Javascript object>"
       ]
@@ -1315,24 +1230,7 @@
     },
     {
      "data": {
-      "application/javascript": [
-       "\n",
-       "            setTimeout(function() {\n",
-       "                var nbb_cell_id = 34;\n",
-       "                var nbb_unformatted_code = \"# swap the diff result\\nresult = diff(user1, user2)\\nswapped = swap(result)\\nlist(swapped)\";\n",
-       "                var nbb_formatted_code = \"# swap the diff result\\nresult = diff(user1, user2)\\nswapped = swap(result)\\nlist(swapped)\";\n",
-       "                var nbb_cells = Jupyter.notebook.get_cells();\n",
-       "                for (var i = 0; i < nbb_cells.length; ++i) {\n",
-       "                    if (nbb_cells[i].input_prompt_number == nbb_cell_id) {\n",
-       "                        if (nbb_cells[i].get_text() == nbb_unformatted_code) {\n",
-       "                             nbb_cells[i].set_text(nbb_formatted_code);\n",
-       "                        }\n",
-       "                        break;\n",
-       "                    }\n",
-       "                }\n",
-       "            }, 500);\n",
-       "            "
-      ],
+      "application/javascript": "\n            setTimeout(function() {\n                var nbb_cell_id = 34;\n                var nbb_unformatted_code = \"# swap the diff result\\nresult = diff(user1, user2)\\nswapped = swap(result)\\nlist(swapped)\";\n                var nbb_formatted_code = \"# swap the diff result\\nresult = diff(user1, user2)\\nswapped = swap(result)\\nlist(swapped)\";\n                var nbb_cells = Jupyter.notebook.get_cells();\n                for (var i = 0; i < nbb_cells.length; ++i) {\n                    if (nbb_cells[i].input_prompt_number == nbb_cell_id) {\n                        if (nbb_cells[i].get_text() == nbb_unformatted_code) {\n                             nbb_cells[i].set_text(nbb_formatted_code);\n                        }\n                        break;\n                    }\n                }\n            }, 500);\n            ",
       "text/plain": [
        "<IPython.core.display.Javascript object>"
       ]
@@ -2110,7 +2008,7 @@
   "celltoolbar": "Tags",
   "hide_input": false,
   "kernelspec": {
-   "display_name": "Python 3 (ipykernel)",
+   "display_name": "venv",
    "language": "python",
    "name": "python3"
   },