final solution

.gitignore

@@ -0,0 +1,4 @@
+.ipynb_checkpoints/
+model/
+geval
+processed_train.txt

.ipynb_checkpoints/run-checkpoint.ipynb

@@ -2,12 +2,12 @@
  "cells": [
   {
    "cell_type": "code",
-   "execution_count": 2,
+   "execution_count": 1,
    "id": "f73a28ea",
    "metadata": {},
    "outputs": [],
    "source": [
-    "KENLM_BUILD_PATH='/home/students/s434708/kenlm/build'"
+    "KENLM_BUILD_PATH='/home/haskell/kenlm/build'"
    ]
   },
   {
@@ -20,7 +20,7 @@
   },
   {
    "cell_type": "code",
-   "execution_count": null,
+   "execution_count": 2,
    "id": "d42ddd87",
    "metadata": {},
    "outputs": [],
@@ -32,7 +32,7 @@
   },
   {
    "cell_type": "code",
-   "execution_count": null,
+   "execution_count": 3,
    "id": "f84be210",
    "metadata": {},
    "outputs": [],
@@ -46,7 +46,7 @@
   },
   {
    "cell_type": "code",
-   "execution_count": null,
+   "execution_count": 4,
    "id": "de0c12d6",
    "metadata": {},
    "outputs": [],
@@ -85,13 +85,13 @@
      "output_type": "stream",
      "text": [
       "=== 1/5 Counting and sorting n-grams ===\n",
-      "Reading /home/students/s434708/Desktop/Modelowanie Języka/challenging-america-word-gap-prediction-kenlm/processed_train.txt\n",
+      "Reading /home/haskell/Desktop/challenging-america-word-gap-prediction-kenlm/processed_train.txt\n",
       "----5---10---15---20---25---30---35---40---45---50---55---60---65---70---75---80---85---90---95--100\n",
       "********************************Warning: <s> appears in the input.  All instances of <s>, </s>, and <unk> will be interpreted as whitespace.\n",
       "********************************************************************\n",
       "Unigram tokens 135911223 types 4381594\n",
       "=== 2/5 Calculating and sorting adjusted counts ===\n",
-      "Chain sizes: 1:52579128 2:1295655936 3:2429355008 4:3886967808 5:5668495360\n",
+      "Chain sizes: 1:52579128 2:896866240 3:1681624320 4:2690598656 5:3923790080\n",
       "Statistics:\n",
       "1 4381594 D1=0.841838 D2=1.01787 D3+=1.21057\n",
       "2 26800631 D1=0.836734 D2=1.01657 D3+=1.19437\n",
@@ -116,21 +116,18 @@
       "####################################################################################################\n",
       "=== 5/5 Writing ARPA model ===\n",
       "----5---10---15---20---25---30---35---40---45---50---55---60---65---70---75---80---85---90---95--100\n",
-      "----------------------------------------------------------------------------------------------------Last input should have been poison.  The program should end soon with an error.  If it doesn't, there's a bug.\n",
-      "terminate called after throwing an instance of 'util::FDException'\n",
-      "  what():  /home/students/s434708/kenlm/util/file.cc:228 in void util::WriteOrThrow(int, const void*, std::size_t) threw FDException because `ret < 1'.\n",
-      "No space left on device in /home/students/s434708/Desktop/Modelowanie Języka/challenging-america-word-gap-prediction-kenlm/model.arpa while writing 8189 bytes\n",
-      "/bin/bash: line 1: 26725 Aborted                 /home/students/s434708/kenlm/build/bin/lmplz -o 5 --skip_symbols < processed_train.txt > model.arpa\n"
+      "****************************************************************************************************\n",
+      "Name:lmplz\tVmPeak:9201752 kB\tVmRSS:2564 kB\tRSSMax:7648448 kB\tuser:506.342\tsys:106.578\tCPU:612.92\treal:1564.6\n"
      ]
     }
    ],
    "source": [
-    "!$KENLM_BUILD_PATH/bin/lmplz -o 5 --skip_symbols < processed_train.txt > model.arpa"
+    "!$KENLM_BUILD_PATH/bin/lmplz -o 5 --skip_symbols < processed_train.txt > model/model.arpa"
    ]
   },
   {
    "cell_type": "code",
-   "execution_count": 6,
+   "execution_count": 5,
    "id": "dc65780b",
    "metadata": {},
    "outputs": [
@@ -138,22 +135,20 @@
      "name": "stdout",
      "output_type": "stream",
      "text": [
-      "Reading model.arpa\n",
+      "Reading model/model.arpa\n",
       "----5---10---15---20---25---30---35---40---45---50---55---60---65---70---75---80---85---90---95--100\n",
       "****************************************************************************************************\n",
-      "/home/students/s434708/kenlm/util/file.cc:86 in int util::CreateOrThrow(const char*) threw ErrnoException because `-1 == (ret = open(name, 0100 | 01000 | 02, 0400 | 0200 | (0400 >> 3) | ((0400 >> 3) >> 3)))'.\n",
-      "No space left on device while creating model.binary Byte: 94\n",
-      "ERROR\n"
+      "SUCCESS\n"
      ]
     }
    ],
    "source": [
-    "!$KENLM_BUILD_PATH/bin/build_binary model.arpa model.binary"
+    "!$KENLM_BUILD_PATH/bin/build_binary model/model.arpa model/model.binary"
    ]
   },
   {
    "cell_type": "code",
-   "execution_count": 7,
+   "execution_count": 6,
    "id": "2087eb80",
    "metadata": {},
    "outputs": [],
@@ -163,12 +158,12 @@
   },
   {
    "cell_type": "code",
-   "execution_count": 8,
+   "execution_count": 7,
    "id": "4ba1e592",
    "metadata": {},
    "outputs": [],
    "source": [
-    "!rm model.arpa"
+    "!rm model/model.arpa"
    ]
   },
   {
@@ -181,36 +176,127 @@
   },
   {
    "cell_type": "code",
-   "execution_count": null,
+   "execution_count": 32,
    "id": "6865301b",
    "metadata": {},
    "outputs": [],
    "source": [
-    "import kenlm"
+    "import kenlm\n",
+    "import csv\n",
+    "import pandas as pd\n",
+    "import regex as re\n",
+    "from math import log10\n",
+    "from nltk import word_tokenize\n",
+    "from english_words import english_words_alpha_set"
    ]
   },
   {
    "cell_type": "code",
-   "execution_count": null,
+   "execution_count": 4,
    "id": "e32de662",
    "metadata": {},
    "outputs": [],
    "source": [
-    "test_str = 'really good'\n",
-    "\n",
-    "model = kenlm.Model('model.binary')\n",
-    "print(model.score(test_str, bos = True, eos = True))"
+    "model = kenlm.Model('model/model.binary')"
    ]
   },
   {
    "cell_type": "code",
-   "execution_count": null,
+   "execution_count": 28,
+   "id": "c2535482",
+   "metadata": {},
+   "outputs": [],
+   "source": [
+    "def clean_text(text):\n",
+    "    text = text.lower().replace('-\\\\n', '').replace('\\\\n', ' ')\n",
+    "    text = re.sub(r'\\p{P}', '', text)\n",
+    "\n",
+    "    return text"
+   ]
+  },
+  {
+   "cell_type": "code",
+   "execution_count": 29,
+   "id": "2308ccad",
+   "metadata": {},
+   "outputs": [],
+   "source": [
+    "def predict_probs(w1, w2, w4):\n",
+    "    best_scores = []\n",
+    "    for word in english_words_alpha_set:\n",
+    "        text = ' '.join([w1, w2, word, w4])\n",
+    "        text_score = model.score(text, bos=False, eos=False)\n",
+    "        if len(best_scores) < 20:\n",
+    "            best_scores.append((word, text_score))\n",
+    "        else:\n",
+    "            is_better = False\n",
+    "            worst_score = None\n",
+    "            for score in best_scores:\n",
+    "                if not worst_score:\n",
+    "                    worst_score = score\n",
+    "                else:\n",
+    "                    if worst_score[1] > score[1]:\n",
+    "                        worst_score = score\n",
+    "            if worst_score[1] < text_score:\n",
+    "                best_scores.remove(worst_score)\n",
+    "                best_scores.append((word, text_score))\n",
+    "    probs = sorted(best_scores, key=lambda tup: tup[1], reverse=True)\n",
+    "    pred_str = ''\n",
+    "    for word, prob in probs:\n",
+    "        pred_str += f'{word}:{prob} '\n",
+    "    pred_str += f':{log10(0.99)}'\n",
+    "    return pred_str"
+   ]
+  },
+  {
+   "cell_type": "code",
+   "execution_count": 30,
+   "id": "7245cf38",
+   "metadata": {},
+   "outputs": [],
+   "source": [
+    "dev_data = pd.read_csv('dev-0/in.tsv.xz', sep='\\t', error_bad_lines=False, warn_bad_lines=False, header=None, quoting=csv.QUOTE_NONE)\n",
+    "test_data = pd.read_csv('test-A/in.tsv.xz', sep='\\t', error_bad_lines=False, warn_bad_lines=False, header=None, quoting=csv.QUOTE_NONE)"
+   ]
+  },
+  {
+   "cell_type": "code",
+   "execution_count": 35,
+   "id": "ac24ff37",
+   "metadata": {},
+   "outputs": [],
+   "source": [
+    "with open('dev-0/out.tsv', 'w') as file:\n",
+    "    for index, row in dev_data.iterrows():\n",
+    "        left_text = clean_text(str(row[6]))\n",
+    "        right_text = clean_text(str(row[7]))\n",
+    "        left_words = word_tokenize(left_text)\n",
+    "        right_words = word_tokenize(right_text)\n",
+    "        if len(left_words) < 2 or len(right_words) < 2:\n",
+    "            prediction = ':1.0'\n",
+    "        else:\n",
+    "            prediction = predict_probs(left_words[len(left_words) - 2], left_words[len(left_words) - 1], right_words[0])\n",
+    "        file.write(prediction + '\\n')"
+   ]
+  },
+  {
+   "cell_type": "code",
+   "execution_count": 37,
    "id": "a18b6ebd",
    "metadata": {},
    "outputs": [],
    "source": [
-    "for i in model.full_scores(test_str):\n",
-    "    print(i)"
+    "with open('test-A/out.tsv', 'w') as file:\n",
+    "    for index, row in test_data.iterrows():\n",
+    "        left_text = clean_text(str(row[6]))\n",
+    "        right_text = clean_text(str(row[7]))\n",
+    "        left_words = word_tokenize(left_text)\n",
+    "        right_words = word_tokenize(right_text)\n",
+    "        if len(left_words) < 2 or len(right_words) < 2:\n",
+    "            prediction = ':1.0'\n",
+    "        else:\n",
+    "            prediction = predict_probs(left_words[len(left_words) - 2], left_words[len(left_words) - 1], right_words[0])\n",
+    "        file.write(prediction + '\\n')"
    ]
   }
  ],

process_test.py

@@ -1,25 +0,0 @@
-import pandas as pd
-import csv
-import regex as re
-
-def clean_text(text):
-    text = text.lower().replace('-\\n', '').replace('\\n', ' ')
-    text = re.sub(r'\p{P}', '', text)
-
-    return text
-
-
-train_data = pd.read_csv('train/in.tsv.xz', sep='\t', error_bad_lines=False, warn_bad_lines=False, header=None, quoting=csv.QUOTE_NONE)
-train_labels = pd.read_csv('train/expected.tsv', sep='\t', error_bad_lines=False, warn_bad_lines=False, header=None, quoting=csv.QUOTE_NONE)
-
-train_data = train_data[[6, 7]]
-train_data = pd.concat([train_data, train_labels], axis=1)
-
-train_data['text'] = train_data[6] + train_data[0] + train_data[7]
-train_data = train_data[['text']]
-
-with open('processed_train.txt', 'w') as file:
-    for _, row in train_data.iterrows():
-        text = clean_text(str(row['text']))
-        file.write(text + '\n')
-

run.ipynb

@@ -2,12 +2,12 @@
  "cells": [
   {
    "cell_type": "code",
-   "execution_count": 2,
+   "execution_count": 1,
    "id": "f73a28ea",
    "metadata": {},
    "outputs": [],
    "source": [
-    "KENLM_BUILD_PATH='/home/students/s434708/kenlm/build'"
+    "KENLM_BUILD_PATH='/home/haskell/kenlm/build'"
    ]
   },
   {
@@ -20,7 +20,7 @@
   },
   {
    "cell_type": "code",
-   "execution_count": null,
+   "execution_count": 2,
    "id": "d42ddd87",
    "metadata": {},
    "outputs": [],
@@ -32,7 +32,7 @@
   },
   {
    "cell_type": "code",
-   "execution_count": null,
+   "execution_count": 3,
    "id": "f84be210",
    "metadata": {},
    "outputs": [],
@@ -46,7 +46,7 @@
   },
   {
    "cell_type": "code",
-   "execution_count": null,
+   "execution_count": 4,
    "id": "de0c12d6",
    "metadata": {},
    "outputs": [],
@@ -85,13 +85,13 @@
      "output_type": "stream",
      "text": [
       "=== 1/5 Counting and sorting n-grams ===\n",
-      "Reading /home/students/s434708/Desktop/Modelowanie Języka/challenging-america-word-gap-prediction-kenlm/processed_train.txt\n",
+      "Reading /home/haskell/Desktop/challenging-america-word-gap-prediction-kenlm/processed_train.txt\n",
       "----5---10---15---20---25---30---35---40---45---50---55---60---65---70---75---80---85---90---95--100\n",
       "********************************Warning: <s> appears in the input.  All instances of <s>, </s>, and <unk> will be interpreted as whitespace.\n",
       "********************************************************************\n",
       "Unigram tokens 135911223 types 4381594\n",
       "=== 2/5 Calculating and sorting adjusted counts ===\n",
-      "Chain sizes: 1:52579128 2:1295655936 3:2429355008 4:3886967808 5:5668495360\n",
+      "Chain sizes: 1:52579128 2:896866240 3:1681624320 4:2690598656 5:3923790080\n",
       "Statistics:\n",
       "1 4381594 D1=0.841838 D2=1.01787 D3+=1.21057\n",
       "2 26800631 D1=0.836734 D2=1.01657 D3+=1.19437\n",
@@ -116,21 +116,18 @@
       "####################################################################################################\n",
       "=== 5/5 Writing ARPA model ===\n",
       "----5---10---15---20---25---30---35---40---45---50---55---60---65---70---75---80---85---90---95--100\n",
-      "----------------------------------------------------------------------------------------------------Last input should have been poison.  The program should end soon with an error.  If it doesn't, there's a bug.\n",
-      "terminate called after throwing an instance of 'util::FDException'\n",
-      "  what():  /home/students/s434708/kenlm/util/file.cc:228 in void util::WriteOrThrow(int, const void*, std::size_t) threw FDException because `ret < 1'.\n",
-      "No space left on device in /home/students/s434708/Desktop/Modelowanie Języka/challenging-america-word-gap-prediction-kenlm/model.arpa while writing 8189 bytes\n",
-      "/bin/bash: line 1: 26725 Aborted                 /home/students/s434708/kenlm/build/bin/lmplz -o 5 --skip_symbols < processed_train.txt > model.arpa\n"
+      "****************************************************************************************************\n",
+      "Name:lmplz\tVmPeak:9201752 kB\tVmRSS:2564 kB\tRSSMax:7648448 kB\tuser:506.342\tsys:106.578\tCPU:612.92\treal:1564.6\n"
      ]
     }
    ],
    "source": [
-    "!$KENLM_BUILD_PATH/bin/lmplz -o 5 --skip_symbols < processed_train.txt > model.arpa"
+    "!$KENLM_BUILD_PATH/bin/lmplz -o 5 --skip_symbols < processed_train.txt > model/model.arpa"
    ]
   },
   {
    "cell_type": "code",
-   "execution_count": 6,
+   "execution_count": 5,
    "id": "dc65780b",
    "metadata": {},
    "outputs": [
@@ -138,22 +135,20 @@
      "name": "stdout",
      "output_type": "stream",
      "text": [
-      "Reading model.arpa\n",
+      "Reading model/model.arpa\n",
       "----5---10---15---20---25---30---35---40---45---50---55---60---65---70---75---80---85---90---95--100\n",
       "****************************************************************************************************\n",
-      "/home/students/s434708/kenlm/util/file.cc:86 in int util::CreateOrThrow(const char*) threw ErrnoException because `-1 == (ret = open(name, 0100 | 01000 | 02, 0400 | 0200 | (0400 >> 3) | ((0400 >> 3) >> 3)))'.\n",
-      "No space left on device while creating model.binary Byte: 94\n",
-      "ERROR\n"
+      "SUCCESS\n"
      ]
     }
    ],
    "source": [
-    "!$KENLM_BUILD_PATH/bin/build_binary model.arpa model.binary"
+    "!$KENLM_BUILD_PATH/bin/build_binary model/model.arpa model/model.binary"
    ]
   },
   {
    "cell_type": "code",
-   "execution_count": 7,
+   "execution_count": 6,
    "id": "2087eb80",
    "metadata": {},
    "outputs": [],
@@ -163,12 +158,12 @@
   },
   {
    "cell_type": "code",
-   "execution_count": 8,
+   "execution_count": 7,
    "id": "4ba1e592",
    "metadata": {},
    "outputs": [],
    "source": [
-    "!rm model.arpa"
+    "!rm model/model.arpa"
    ]
   },
   {
@@ -181,36 +176,127 @@
   },
   {
    "cell_type": "code",
-   "execution_count": null,
+   "execution_count": 32,
    "id": "6865301b",
    "metadata": {},
    "outputs": [],
    "source": [
-    "import kenlm"
+    "import kenlm\n",
+    "import csv\n",
+    "import pandas as pd\n",
+    "import regex as re\n",
+    "from math import log10\n",
+    "from nltk import word_tokenize\n",
+    "from english_words import english_words_alpha_set"
    ]
   },
   {
    "cell_type": "code",
-   "execution_count": null,
+   "execution_count": 4,
    "id": "e32de662",
    "metadata": {},
    "outputs": [],
    "source": [
-    "test_str = 'really good'\n",
-    "\n",
-    "model = kenlm.Model('model.binary')\n",
-    "print(model.score(test_str, bos = True, eos = True))"
+    "model = kenlm.Model('model/model.binary')"
    ]
   },
   {
    "cell_type": "code",
-   "execution_count": null,
+   "execution_count": 28,
+   "id": "c2535482",
+   "metadata": {},
+   "outputs": [],
+   "source": [
+    "def clean_text(text):\n",
+    "    text = text.lower().replace('-\\\\n', '').replace('\\\\n', ' ')\n",
+    "    text = re.sub(r'\\p{P}', '', text)\n",
+    "\n",
+    "    return text"
+   ]
+  },
+  {
+   "cell_type": "code",
+   "execution_count": 29,
+   "id": "2308ccad",
+   "metadata": {},
+   "outputs": [],
+   "source": [
+    "def predict_probs(w1, w2, w4):\n",
+    "    best_scores = []\n",
+    "    for word in english_words_alpha_set:\n",
+    "        text = ' '.join([w1, w2, word, w4])\n",
+    "        text_score = model.score(text, bos=False, eos=False)\n",
+    "        if len(best_scores) < 20:\n",
+    "            best_scores.append((word, text_score))\n",
+    "        else:\n",
+    "            is_better = False\n",
+    "            worst_score = None\n",
+    "            for score in best_scores:\n",
+    "                if not worst_score:\n",
+    "                    worst_score = score\n",
+    "                else:\n",
+    "                    if worst_score[1] > score[1]:\n",
+    "                        worst_score = score\n",
+    "            if worst_score[1] < text_score:\n",
+    "                best_scores.remove(worst_score)\n",
+    "                best_scores.append((word, text_score))\n",
+    "    probs = sorted(best_scores, key=lambda tup: tup[1], reverse=True)\n",
+    "    pred_str = ''\n",
+    "    for word, prob in probs:\n",
+    "        pred_str += f'{word}:{prob} '\n",
+    "    pred_str += f':{log10(0.99)}'\n",
+    "    return pred_str"
+   ]
+  },
+  {
+   "cell_type": "code",
+   "execution_count": 30,
+   "id": "7245cf38",
+   "metadata": {},
+   "outputs": [],
+   "source": [
+    "dev_data = pd.read_csv('dev-0/in.tsv.xz', sep='\\t', error_bad_lines=False, warn_bad_lines=False, header=None, quoting=csv.QUOTE_NONE)\n",
+    "test_data = pd.read_csv('test-A/in.tsv.xz', sep='\\t', error_bad_lines=False, warn_bad_lines=False, header=None, quoting=csv.QUOTE_NONE)"
+   ]
+  },
+  {
+   "cell_type": "code",
+   "execution_count": 35,
+   "id": "ac24ff37",
+   "metadata": {},
+   "outputs": [],
+   "source": [
+    "with open('dev-0/out.tsv', 'w') as file:\n",
+    "    for index, row in dev_data.iterrows():\n",
+    "        left_text = clean_text(str(row[6]))\n",
+    "        right_text = clean_text(str(row[7]))\n",
+    "        left_words = word_tokenize(left_text)\n",
+    "        right_words = word_tokenize(right_text)\n",
+    "        if len(left_words) < 2 or len(right_words) < 2:\n",
+    "            prediction = ':1.0'\n",
+    "        else:\n",
+    "            prediction = predict_probs(left_words[len(left_words) - 2], left_words[len(left_words) - 1], right_words[0])\n",
+    "        file.write(prediction + '\\n')"
+   ]
+  },
+  {
+   "cell_type": "code",
+   "execution_count": 37,
    "id": "a18b6ebd",
    "metadata": {},
    "outputs": [],
    "source": [
-    "for i in model.full_scores(test_str):\n",
-    "    print(i)"
+    "with open('test-A/out.tsv', 'w') as file:\n",
+    "    for index, row in test_data.iterrows():\n",
+    "        left_text = clean_text(str(row[6]))\n",
+    "        right_text = clean_text(str(row[7]))\n",
+    "        left_words = word_tokenize(left_text)\n",
+    "        right_words = word_tokenize(right_text)\n",
+    "        if len(left_words) < 2 or len(right_words) < 2:\n",
+    "            prediction = ':1.0'\n",
+    "        else:\n",
+    "            prediction = predict_probs(left_words[len(left_words) - 2], left_words[len(left_words) - 1], right_words[0])\n",
+    "        file.write(prediction + '\\n')"
    ]
   }
  ],

run.py

@@ -0,0 +1,171 @@
+#!/usr/bin/env python
+# coding: utf-8
+
+# In[1]:
+
+
+KENLM_BUILD_PATH='/home/haskell/kenlm/build'
+
+
+# ### Preprocessing danych
+
+# In[2]:
+
+
+import pandas as pd
+import csv
+import regex as re
+
+
+# In[3]:
+
+
+def clean_text(text):
+    text = text.lower().replace('-\\n', '').replace('\\n', ' ')
+    text = re.sub(r'\p{P}', '', text)
+
+    return text
+
+
+# In[4]:
+
+
+train_data = pd.read_csv('train/in.tsv.xz', sep='\t', error_bad_lines=False, warn_bad_lines=False, header=None, quoting=csv.QUOTE_NONE)
+train_labels = pd.read_csv('train/expected.tsv', sep='\t', error_bad_lines=False, warn_bad_lines=False, header=None, quoting=csv.QUOTE_NONE)
+
+train_data = train_data[[6, 7]]
+train_data = pd.concat([train_data, train_labels], axis=1)
+
+train_data['text'] = train_data[6] + train_data[0] + train_data[7]
+train_data = train_data[['text']]
+
+with open('processed_train.txt', 'w') as file:
+    for _, row in train_data.iterrows():
+        text = clean_text(str(row['text']))
+        file.write(text + '\n')
+
+
+# ### Model kenLM
+
+# In[4]:
+
+
+get_ipython().system('$KENLM_BUILD_PATH/bin/lmplz -o 5 --skip_symbols < processed_train.txt > model/model.arpa')
+
+
+# In[5]:
+
+
+get_ipython().system('$KENLM_BUILD_PATH/bin/build_binary model/model.arpa model/model.binary')
+
+
+# In[6]:
+
+
+get_ipython().system('rm processed_train.txt')
+
+
+# In[7]:
+
+
+get_ipython().system('rm model/model.arpa')
+
+
+# ### Predykcje
+
+# In[32]:
+
+
+import kenlm
+import csv
+import pandas as pd
+import regex as re
+from math import log10
+from nltk import word_tokenize
+from english_words import english_words_alpha_set
+
+
+# In[4]:
+
+
+model = kenlm.Model('model/model.binary')
+
+
+# In[28]:
+
+
+def clean_text(text):
+    text = text.lower().replace('-\\n', '').replace('\\n', ' ')
+    text = re.sub(r'\p{P}', '', text)
+
+    return text
+
+
+# In[29]:
+
+
+def predict_probs(w1, w2, w4):
+    best_scores = []
+    for word in english_words_alpha_set:
+        text = ' '.join([w1, w2, word, w4])
+        text_score = model.score(text, bos=False, eos=False)
+        if len(best_scores) < 20:
+            best_scores.append((word, text_score))
+        else:
+            is_better = False
+            worst_score = None
+            for score in best_scores:
+                if not worst_score:
+                    worst_score = score
+                else:
+                    if worst_score[1] > score[1]:
+                        worst_score = score
+            if worst_score[1] < text_score:
+                best_scores.remove(worst_score)
+                best_scores.append((word, text_score))
+    probs = sorted(best_scores, key=lambda tup: tup[1], reverse=True)
+    pred_str = ''
+    for word, prob in probs:
+        pred_str += f'{word}:{prob} '
+    pred_str += f':{log10(0.99)}'
+    return pred_str
+
+
+# In[30]:
+
+
+dev_data = pd.read_csv('dev-0/in.tsv.xz', sep='\t', error_bad_lines=False, warn_bad_lines=False, header=None, quoting=csv.QUOTE_NONE)
+test_data = pd.read_csv('test-A/in.tsv.xz', sep='\t', error_bad_lines=False, warn_bad_lines=False, header=None, quoting=csv.QUOTE_NONE)
+
+
+# In[35]:
+
+
+with open('dev-0/out.tsv', 'w') as file:
+    for index, row in dev_data.iterrows():
+        left_text = clean_text(str(row[6]))
+        right_text = clean_text(str(row[7]))
+        left_words = word_tokenize(left_text)
+        right_words = word_tokenize(right_text)
+        if len(left_words) < 2 or len(right_words) < 2:
+            prediction = ':1.0'
+        else:
+            prediction = predict_probs(left_words[len(left_words) - 2], left_words[len(left_words) - 1], right_words[0])
+        file.write(prediction + '\n')
+
+
+# In[37]:
+
+
+with open('test-A/out.tsv', 'w') as file:
+    for index, row in test_data.iterrows():
+        left_text = clean_text(str(row[6]))
+        right_text = clean_text(str(row[7]))
+        left_words = word_tokenize(left_text)
+        right_words = word_tokenize(right_text)
+        if len(left_words) < 2 or len(right_words) < 2:
+            prediction = ':1.0'
+        else:
+            prediction = predict_probs(left_words[len(left_words) - 2], left_words[len(left_words) - 1], right_words[0])
+        file.write(prediction + '\n')
+