import contextlib import io import os import sys from unittest.mock import patch import docx import pytest from openhands.runtime.plugins.agent_skills.file_ops.file_ops import ( MSG_FILE_UPDATED, WINDOW, _print_window, append_file, create_file, edit_file_by_replace, find_file, goto_line, insert_content_at_line, open_file, scroll_down, scroll_up, search_dir, search_file, ) from openhands.runtime.plugins.agent_skills.file_reader.file_readers import ( parse_docx, parse_latex, parse_pdf, parse_pptx, ) from openhands.runtime.plugins.agent_skills.utils.aider import Linter # CURRENT_FILE must be reset for each test @pytest.fixture(autouse=True) def reset_current_file(): from openhands.runtime.plugins.agent_skills import agentskills agentskills.CURRENT_FILE = None def _numbered_test_lines(start, end) -> str: return ('\n'.join(f'{i}|' for i in range(start, end + 1))) + '\n' def _generate_test_file_with_lines(temp_path, num_lines) -> str: file_path = temp_path / 'test_file.py' file_path.write_text('\n' * num_lines) return file_path def _generate_ruby_test_file_with_lines(temp_path, num_lines) -> str: file_path = temp_path / 'test_file.rb' file_path.write_text('\n' * num_lines) return file_path def _calculate_window_bounds(current_line, total_lines, window_size): """Calculate the bounds of the window around the current line.""" half_window = window_size // 2 if current_line - half_window < 0: start = 1 end = window_size else: start = current_line - half_window end = current_line + half_window return start, end def _generate_ruby_test_file_with_lines(temp_path, num_lines) -> str: file_path = temp_path / 'test_file.rb' file_path.write_text('\n' * num_lines) return file_path def _capture_file_operation_error(operation, expected_error_msg): with io.StringIO() as buf: with contextlib.redirect_stdout(buf): operation() result = buf.getvalue().strip() assert result == expected_error_msg SEP = '-' * 49 + '\n' # ============================================================================= def test_open_file_unexist_path(): _capture_file_operation_error( lambda: open_file('/unexist/path/a.txt'), 'ERROR: File /unexist/path/a.txt not found.', ) def test_open_file(tmp_path): assert tmp_path is not None temp_file_path = tmp_path / 'a.txt' temp_file_path.write_text('Line 1\nLine 2\nLine 3\nLine 4\nLine 5') with io.StringIO() as buf: with contextlib.redirect_stdout(buf): open_file(str(temp_file_path)) result = buf.getvalue() assert result is not None expected = ( f'[File: {temp_file_path} (5 lines total)]\n' '(this is the beginning of the file)\n' '1|Line 1\n' '2|Line 2\n' '3|Line 3\n' '4|Line 4\n' '5|Line 5\n' '(this is the end of the file)\n' ) assert result.split('\n') == expected.split('\n') def test_open_file_with_indentation(tmp_path): temp_file_path = tmp_path / 'a.txt' temp_file_path.write_text('Line 1\n Line 2\nLine 3\nLine 4\nLine 5') with io.StringIO() as buf: with contextlib.redirect_stdout(buf): open_file(str(temp_file_path)) result = buf.getvalue() assert result is not None expected = ( f'[File: {temp_file_path} (5 lines total)]\n' '(this is the beginning of the file)\n' '1|Line 1\n' '2| Line 2\n' '3|Line 3\n' '4|Line 4\n' '5|Line 5\n' '(this is the end of the file)\n' ) assert result.split('\n') == expected.split('\n') def test_open_file_long(tmp_path): temp_file_path = tmp_path / 'a.txt' content = '\n'.join([f'Line {i}' for i in range(1, 1001)]) temp_file_path.write_text(content) with io.StringIO() as buf: with contextlib.redirect_stdout(buf): open_file(str(temp_file_path), 1, 50) result = buf.getvalue() assert result is not None expected = f'[File: {temp_file_path} (1000 lines total)]\n' expected += '(this is the beginning of the file)\n' for i in range(1, 51): expected += f'{i}|Line {i}\n' expected += '(950 more lines below)\n' expected += '[Use `scroll_down` to view the next 100 lines of the file!]\n' assert result.split('\n') == expected.split('\n') def test_open_file_long_with_lineno(tmp_path): temp_file_path = tmp_path / 'a.txt' content = '\n'.join([f'Line {i}' for i in range(1, 1001)]) temp_file_path.write_text(content) cur_line = 100 with io.StringIO() as buf: with contextlib.redirect_stdout(buf): open_file(str(temp_file_path), cur_line) result = buf.getvalue() assert result is not None expected = f'[File: {temp_file_path} (1000 lines total)]\n' # since 100 is < WINDOW and 100 - WINDOW//2 < 0, so it should show all lines from 1 to WINDOW start, end = _calculate_window_bounds(cur_line, 1000, WINDOW) if start == 1: expected += '(this is the beginning of the file)\n' else: expected += f'({start - 1} more lines above)\n' for i in range(start, end + 1): expected += f'{i}|Line {i}\n' if end == 1000: expected += '(this is the end of the file)\n' else: expected += f'({1000 - end} more lines below)\n' expected += '[Use `scroll_down` to view the next 100 lines of the file!]\n' assert result.split('\n') == expected.split('\n') def test_create_file_unexist_path(): with pytest.raises(FileNotFoundError): create_file('/unexist/path/a.txt') def test_create_file(tmp_path): temp_file_path = tmp_path / 'a.txt' with io.StringIO() as buf: with contextlib.redirect_stdout(buf): create_file(str(temp_file_path)) result = buf.getvalue() expected = ( f'[File: {temp_file_path} (1 lines total)]\n' '(this is the beginning of the file)\n' '1|\n' '(this is the end of the file)\n' f'[File {temp_file_path} created.]\n' ) assert result.split('\n') == expected.split('\n') def test_goto_line(tmp_path): temp_file_path = tmp_path / 'a.txt' total_lines = 1000 content = '\n'.join([f'Line {i}' for i in range(1, total_lines + 1)]) temp_file_path.write_text(content) with io.StringIO() as buf: with contextlib.redirect_stdout(buf): open_file(str(temp_file_path)) result = buf.getvalue() assert result is not None expected = f'[File: {temp_file_path} ({total_lines} lines total)]\n' expected += '(this is the beginning of the file)\n' for i in range(1, WINDOW + 1): expected += f'{i}|Line {i}\n' expected += f'({total_lines - WINDOW} more lines below)\n' expected += '[Use `scroll_down` to view the next 100 lines of the file!]\n' assert result.split('\n') == expected.split('\n') with io.StringIO() as buf: with contextlib.redirect_stdout(buf): goto_line(500) result = buf.getvalue() assert result is not None cur_line = 500 expected = f'[File: {temp_file_path} ({total_lines} lines total)]\n' start, end = _calculate_window_bounds(cur_line, total_lines, WINDOW) if start == 1: expected += '(this is the beginning of the file)\n' else: expected += f'({start - 1} more lines above)\n' for i in range(start, end + 1): expected += f'{i}|Line {i}\n' if end == total_lines: expected += '(this is the end of the file)\n' else: expected += f'({total_lines - end} more lines below)\n' assert result.split('\n') == expected.split('\n') def test_goto_line_negative(tmp_path): temp_file_path = tmp_path / 'a.txt' content = '\n'.join([f'Line {i}' for i in range(1, 5)]) temp_file_path.write_text(content) with io.StringIO() as buf: with contextlib.redirect_stdout(buf): open_file(str(temp_file_path)) _capture_file_operation_error( lambda: goto_line(-1), 'ERROR: Line number must be between 1 and 4.' ) def test_goto_line_out_of_bound(tmp_path): temp_file_path = tmp_path / 'a.txt' content = '\n'.join([f'Line {i}' for i in range(1, 10)]) temp_file_path.write_text(content) with io.StringIO() as buf: with contextlib.redirect_stdout(buf): open_file(str(temp_file_path)) _capture_file_operation_error( lambda: goto_line(100), 'ERROR: Line number must be between 1 and 9.' ) def test_scroll_down(tmp_path): temp_file_path = tmp_path / 'a.txt' total_lines = 1000 content = '\n'.join([f'Line {i}' for i in range(1, total_lines + 1)]) temp_file_path.write_text(content) with io.StringIO() as buf: with contextlib.redirect_stdout(buf): open_file(str(temp_file_path)) result = buf.getvalue() assert result is not None expected = f'[File: {temp_file_path} ({total_lines} lines total)]\n' start, end = _calculate_window_bounds(1, total_lines, WINDOW) if start == 1: expected += '(this is the beginning of the file)\n' else: expected += f'({start - 1} more lines above)\n' for i in range(start, end + 1): expected += f'{i}|Line {i}\n' if end == total_lines: expected += '(this is the end of the file)\n' else: expected += f'({total_lines - end} more lines below)\n' expected += '[Use `scroll_down` to view the next 100 lines of the file!]\n' assert result.split('\n') == expected.split('\n') with io.StringIO() as buf: with contextlib.redirect_stdout(buf): scroll_down() result = buf.getvalue() assert result is not None expected = f'[File: {temp_file_path} ({total_lines} lines total)]\n' start = WINDOW + 1 end = 2 * WINDOW + 1 if start == 1: expected += '(this is the beginning of the file)\n' else: expected += f'({start - 1} more lines above)\n' for i in range(start, end + 1): expected += f'{i}|Line {i}\n' if end == total_lines: expected += '(this is the end of the file)\n' else: expected += f'({total_lines - end} more lines below)\n' assert result.split('\n') == expected.split('\n') def test_scroll_up(tmp_path): temp_file_path = tmp_path / 'a.txt' total_lines = 1000 content = '\n'.join([f'Line {i}' for i in range(1, total_lines + 1)]) temp_file_path.write_text(content) cur_line = 300 with io.StringIO() as buf: with contextlib.redirect_stdout(buf): open_file(str(temp_file_path), cur_line) result = buf.getvalue() assert result is not None expected = f'[File: {temp_file_path} ({total_lines} lines total)]\n' start, end = _calculate_window_bounds(cur_line, total_lines, WINDOW) if start == 1: expected += '(this is the beginning of the file)\n' else: expected += f'({start - 1} more lines above)\n' for i in range(start, end + 1): expected += f'{i}|Line {i}\n' if end == total_lines: expected += '(this is the end of the file)\n' else: expected += f'({total_lines - end} more lines below)\n' expected += '[Use `scroll_down` to view the next 100 lines of the file!]\n' assert result.split('\n') == expected.split('\n') with io.StringIO() as buf: with contextlib.redirect_stdout(buf): scroll_up() result = buf.getvalue() assert result is not None cur_line = cur_line - WINDOW expected = f'[File: {temp_file_path} ({total_lines} lines total)]\n' start = cur_line end = cur_line + WINDOW if start == 1: expected += '(this is the beginning of the file)\n' else: expected += f'({start - 1} more lines above)\n' for i in range(start, end + 1): expected += f'{i}|Line {i}\n' if end == total_lines: expected += '(this is the end of the file)\n' else: expected += f'({total_lines - end} more lines below)\n' assert result.split('\n') == expected.split('\n') def test_scroll_down_edge(tmp_path): temp_file_path = tmp_path / 'a.txt' content = '\n'.join([f'Line {i}' for i in range(1, 10)]) temp_file_path.write_text(content) with io.StringIO() as buf: with contextlib.redirect_stdout(buf): open_file(str(temp_file_path)) result = buf.getvalue() assert result is not None expected = f'[File: {temp_file_path} (9 lines total)]\n' expected += '(this is the beginning of the file)\n' for i in range(1, 10): expected += f'{i}|Line {i}\n' expected += '(this is the end of the file)\n' with io.StringIO() as buf: with contextlib.redirect_stdout(buf): scroll_down() result = buf.getvalue() assert result is not None # expected should be unchanged assert result.split('\n') == expected.split('\n') def test_print_window_internal(tmp_path): test_file_path = tmp_path / 'a.txt' create_file(str(test_file_path)) open_file(str(test_file_path)) with open(test_file_path, 'w') as file: for i in range(1, 101): file.write(f'Line `{i}`\n') # Define the parameters for the test current_line = 50 window = 2 # Test _print_window especially with backticks with io.StringIO() as buf: with contextlib.redirect_stdout(buf): _print_window(str(test_file_path), current_line, window, return_str=False) result = buf.getvalue() expected = ( '(48 more lines above)\n' '49|Line `49`\n' '50|Line `50`\n' '51|Line `51`\n' '(49 more lines below)\n' ) assert result == expected def test_open_file_large_line_number(tmp_path): test_file_path = tmp_path / 'a.txt' create_file(str(test_file_path)) open_file(str(test_file_path)) with open(test_file_path, 'w') as file: for i in range(1, 1000): file.write(f'Line `{i}`\n') # Define the parameters for the test current_line = 800 window = 100 # Test _print_window especially with backticks with io.StringIO() as buf: with contextlib.redirect_stdout(buf): # _print_window(str(test_file_path), current_line, window, return_str=False) open_file(str(test_file_path), current_line, window) result = buf.getvalue() expected = f'[File: {test_file_path} (999 lines total)]\n' expected += '(749 more lines above)\n' for i in range(750, 850 + 1): expected += f'{i}|Line `{i}`\n' expected += '(149 more lines below)\n' expected += '[Use `scroll_down` to view the next 100 lines of the file!]\n' assert result == expected def test_edit_file_by_replace_window(tmp_path): with patch.dict(os.environ, {'ENABLE_AUTO_LINT': 'True'}): content = """def any_int(a, b, c): return isinstance(a, int) and isinstance(b, int) and isinstance(c, int) def test_any_int(): assert any_int(1, 2, 3) == True assert any_int(1.5, 2, 3) == False assert any_int(1, 2.5, 3) == False assert any_int(1, 2, 3.5) == False assert any_int(1.0, 2, 3) == False assert any_int(1, 2.0, 3) == False assert any_int(1, 2, 3.0) == False assert any_int(0, 0, 0) == True assert any_int(-1, -2, -3) == True assert any_int(1, -2, 3) == True assert any_int(1.5, -2, 3) == False assert any_int(1, -2.5, 3) == False def check(any_int): # Check some simple cases assert any_int(2, 3, 1)==True, "This prints if this assert fails 1 (good for debugging!)" assert any_int(2.5, 2, 3)==False, "This prints if this assert fails 2 (good for debugging!)" assert any_int(1.5, 5, 3.5)==False, "This prints if this assert fails 3 (good for debugging!)" assert any_int(2, 6, 2)==False, "This prints if this assert fails 4 (good for debugging!)" assert any_int(4, 2, 2)==True, "This prints if this assert fails 5 (good for debugging!)" assert any_int(2.2, 2.2, 2.2)==False, "This prints if this assert fails 6 (good for debugging!)" assert any_int(-4, 6, 2)==True, "This prints if this assert fails 7 (good for debugging!)" # Check some edge cases that are easy to work out by hand. assert any_int(2,1,1)==True, "This prints if this assert fails 8 (also good for debugging!)" assert any_int(3,4,7)==True, "This prints if this assert fails 9 (also good for debugging!)" assert any_int(3.0,4,7)==False, "This prints if this assert fails 10 (also good for debugging!)" check(any_int)""" temp_file_path = tmp_path / 'error-test.py' temp_file_path.write_text(content) open_file(str(temp_file_path)) with io.StringIO() as buf: with contextlib.redirect_stdout(buf): edit_file_by_replace( str(temp_file_path), to_replace=' assert any_int(1.0, 2, 3) == False', new_content=' assert any_int(1.0, 2, 3) == False', ) result = buf.getvalue() expected = ( '[Your proposed edit has introduced new syntax error(s). Please understand the errors and retry your edit command.]\n' 'ERRORS:\n' + str(temp_file_path) + ':9:9: ' + 'E999 IndentationError: unexpected indent\n' '[This is how your edit would have looked if applied]\n' + SEP + '(this is the beginning of the file)\n' '1|def any_int(a, b, c):\n' '2| return isinstance(a, int) and isinstance(b, int) and isinstance(c, int)\n' '3|\n' '4|def test_any_int():\n' '5| assert any_int(1, 2, 3) == True\n' '6| assert any_int(1.5, 2, 3) == False\n' '7| assert any_int(1, 2.5, 3) == False\n' '8| assert any_int(1, 2, 3.5) == False\n' '9| assert any_int(1.0, 2, 3) == False\n' '10| assert any_int(1, 2.0, 3) == False\n' '11| assert any_int(1, 2, 3.0) == False\n' '12| assert any_int(0, 0, 0) == True\n' '13| assert any_int(-1, -2, -3) == True\n' '14| assert any_int(1, -2, 3) == True\n' '15| assert any_int(1.5, -2, 3) == False\n' '16| assert any_int(1, -2.5, 3) == False\n' '17|\n' '18|def check(any_int):\n' '19| # Check some simple cases\n' '20| assert any_int(2, 3, 1)==True, "This prints if this assert fails 1 (good for debugging!)"\n' '21| assert any_int(2.5, 2, 3)==False, "This prints if this assert fails 2 (good for debugging!)"\n' '(12 more lines below)\n' + SEP + '\n' '[This is the original code before your edit]\n' + SEP + '(this is the beginning of the file)\n' '1|def any_int(a, b, c):\n' '2| return isinstance(a, int) and isinstance(b, int) and isinstance(c, int)\n' '3|\n' '4|def test_any_int():\n' '5| assert any_int(1, 2, 3) == True\n' '6| assert any_int(1.5, 2, 3) == False\n' '7| assert any_int(1, 2.5, 3) == False\n' '8| assert any_int(1, 2, 3.5) == False\n' '9| assert any_int(1.0, 2, 3) == False\n' '10| assert any_int(1, 2.0, 3) == False\n' '11| assert any_int(1, 2, 3.0) == False\n' '12| assert any_int(0, 0, 0) == True\n' '13| assert any_int(-1, -2, -3) == True\n' '14| assert any_int(1, -2, 3) == True\n' '15| assert any_int(1.5, -2, 3) == False\n' '16| assert any_int(1, -2.5, 3) == False\n' '17|\n' '18|def check(any_int):\n' '19| # Check some simple cases\n' '20| assert any_int(2, 3, 1)==True, "This prints if this assert fails 1 (good for debugging!)"\n' '21| assert any_int(2.5, 2, 3)==False, "This prints if this assert fails 2 (good for debugging!)"\n' '(12 more lines below)\n' + SEP + 'Your changes have NOT been applied. Please fix your edit command and try again.\n' 'You either need to 1) Specify the correct start/end line arguments or 2) Correct your edit code.\n' 'DO NOT re-run the same failed edit command. Running it again will lead to the same error.\n' ) assert result == expected def test_edit_file_by_replace_with_multiple_errors(tmp_path): # If the file has multiple errors, but the suggested modification can only fix one error, make sure it is applied. with patch.dict(os.environ, {'ENABLE_AUTO_LINT': 'True'}): content = """def Sum(a,b): try: answer = a + b return answer except Exception: answer = ANOTHER_CONSTANT return answer Sum(1,1) """ temp_file_path = tmp_path / 'problematic-file-test.py' temp_file_path.write_text(content) open_file(str(temp_file_path)) with io.StringIO() as buf: with contextlib.redirect_stdout(buf): edit_file_by_replace( str(temp_file_path), to_replace=' answer = a + b', new_content=' answer = a+b', ) result = buf.getvalue() expected = ( f'[File: {temp_file_path} (8 lines total after edit)]\n' '(this is the beginning of the file)\n' '1|def Sum(a,b):\n' '2| try:\n' '3| answer = a+b\n' '4| return answer\n' '5| except Exception:\n' '6| answer = ANOTHER_CONSTANT\n' '7| return answer\n' '8|Sum(1,1)\n' '(this is the end of the file)\n' + MSG_FILE_UPDATED.format(line_number=3) + '\n' ) assert result.split('\n') == expected.split('\n') # ================================ def test_edit_file_by_replace(tmp_path): temp_file_path = tmp_path / 'a.txt' content = 'Line 1\nLine 2\nLine 3\nLine 4\nLine 5' temp_file_path.write_text(content) open_file(str(temp_file_path)) with io.StringIO() as buf: with contextlib.redirect_stdout(buf): edit_file_by_replace( file_name=str(temp_file_path), to_replace='Line 1\nLine 2\nLine 3', new_content='REPLACE TEXT', ) result = buf.getvalue() expected = ( f'[File: {temp_file_path} (3 lines total after edit)]\n' '(this is the beginning of the file)\n' '1|REPLACE TEXT\n' '2|Line 4\n' '3|Line 5\n' '(this is the end of the file)\n' + MSG_FILE_UPDATED.format(line_number=1) + '\n' ) assert result.split('\n') == expected.split('\n') with open(temp_file_path, 'r') as file: lines = file.readlines() assert len(lines) == 3 assert lines[0].rstrip() == 'REPLACE TEXT' assert lines[1].rstrip() == 'Line 4' assert lines[2].rstrip() == 'Line 5' def test_edit_file_by_replace_sameline(tmp_path): temp_file_path = tmp_path / 'a.txt' content = 'Line 1\nLine 2\nLine 2\nLine 4\nLine 5' temp_file_path.write_text(content) open_file(str(temp_file_path)) with io.StringIO() as buf: with contextlib.redirect_stdout(buf): edit_file_by_replace( file_name=str(temp_file_path), to_replace='Line 2\nLine 2', new_content='Line 2\nREPLACE TEXT', ) result = buf.getvalue() expected = ( f'[File: {temp_file_path} (5 lines total after edit)]\n' '(this is the beginning of the file)\n' '1|Line 1\n' '2|Line 2\n' '3|REPLACE TEXT\n' '4|Line 4\n' '5|Line 5\n' '(this is the end of the file)\n' + MSG_FILE_UPDATED.format(line_number=2) + '\n' ) assert result.split('\n') == expected.split('\n') with open(temp_file_path, 'r') as file: lines = file.readlines() assert len(lines) == 5 assert lines[0].rstrip() == 'Line 1' assert lines[1].rstrip() == 'Line 2' assert lines[2].rstrip() == 'REPLACE TEXT' assert lines[3].rstrip() == 'Line 4' assert lines[4].rstrip() == 'Line 5' def test_edit_file_by_replace_multiline(tmp_path): temp_file_path = tmp_path / 'a.txt' content = 'Line 1\nLine 2\nLine 2\nLine 4\nLine 5' temp_file_path.write_text(content) open_file(str(temp_file_path)) with io.StringIO() as buf: with contextlib.redirect_stdout(buf): edit_file_by_replace( file_name=str(temp_file_path), to_replace='Line 2', new_content='REPLACE TEXT', ) result = buf.getvalue() assert result.strip().startswith( 'ERROR: `to_replace` appears more than once, please include enough lines to make code in `to_replace` unique' ) def test_edit_file_by_replace_no_diff(tmp_path): temp_file_path = tmp_path / 'a.txt' content = 'Line 1\nLine 2\nLine 2\nLine 4\nLine 5' temp_file_path.write_text(content) open_file(str(temp_file_path)) with io.StringIO() as buf: with contextlib.redirect_stdout(buf): edit_file_by_replace( file_name=str(temp_file_path), to_replace='Line 1', new_content='Line 1', ) result = buf.getvalue() assert result.strip().startswith( 'ERROR: `to_replace` and `new_content` must be different' ) def test_edit_file_by_replace_toreplace_empty(tmp_path): temp_file_path = tmp_path / 'a.txt' content = 'Line 1\nLine 2\nLine 2\nLine 4\nLine 5' temp_file_path.write_text(content) open_file(str(temp_file_path)) _capture_file_operation_error( lambda: edit_file_by_replace( file_name=str(temp_file_path), to_replace='', new_content='Line 1', ), 'ERROR: `to_replace` must not be empty.', ) def test_edit_file_by_replace_unknown_file(): _capture_file_operation_error( lambda: edit_file_by_replace( str('unknown file'), 'ORIGINAL TEXT', 'REPLACE TEXT', ), 'ERROR: File unknown file not found.', ) def test_insert_content_at_line(tmp_path): temp_file_path = tmp_path / 'b.txt' content = 'Line 1\nLine 2\nLine 3' temp_file_path.write_text(content) open_file(str(temp_file_path)) with io.StringIO() as buf: with contextlib.redirect_stdout(buf): insert_content_at_line( file_name=str(temp_file_path), line_number=2, content='Inserted Line', ) result = buf.getvalue() expected = ( f'[File: {temp_file_path} (4 lines total after edit)]\n' '(this is the beginning of the file)\n' '1|Line 1\n' '2|Inserted Line\n' '3|Line 2\n' '4|Line 3\n' '(this is the end of the file)\n' + MSG_FILE_UPDATED.format(line_number=2) + '\n' ) assert result.split('\n') == expected.split('\n') with open(temp_file_path, 'r') as file: lines = file.readlines() assert len(lines) == 4 assert lines[0].rstrip() == 'Line 1' assert lines[1].rstrip() == 'Inserted Line' assert lines[2].rstrip() == 'Line 2' assert lines[3].rstrip() == 'Line 3' def test_insert_content_at_line_from_scratch(tmp_path): temp_file_path = tmp_path / 'a.txt' create_file(str(temp_file_path)) open_file(str(temp_file_path)) with io.StringIO() as buf: with contextlib.redirect_stdout(buf): insert_content_at_line( file_name=str(temp_file_path), line_number=1, content='REPLACE TEXT', ) result = buf.getvalue() expected = ( f'[File: {temp_file_path} (1 lines total after edit)]\n' '(this is the beginning of the file)\n' '1|REPLACE TEXT\n' '(this is the end of the file)\n' + MSG_FILE_UPDATED.format(line_number=1) + '\n' ) assert result.split('\n') == expected.split('\n') with open(temp_file_path, 'r') as file: lines = file.readlines() assert len(lines) == 1 assert lines[0].rstrip() == 'REPLACE TEXT' def test_insert_content_at_line_from_scratch_emptyfile(tmp_path): temp_file_path = tmp_path / 'a.txt' with open(temp_file_path, 'w') as file: file.write('') open_file(str(temp_file_path)) with io.StringIO() as buf: with contextlib.redirect_stdout(buf): insert_content_at_line( file_name=str(temp_file_path), line_number=1, content='REPLACE TEXT', ) result = buf.getvalue() expected = ( f'[File: {temp_file_path} (1 lines total after edit)]\n' '(this is the beginning of the file)\n' '1|REPLACE TEXT\n' '(this is the end of the file)\n' + MSG_FILE_UPDATED.format(line_number=1) + '\n' ) assert result.split('\n') == expected.split('\n') with open(temp_file_path, 'r') as file: lines = file.readlines() assert len(lines) == 1 assert lines[0].rstrip() == 'REPLACE TEXT' def test_insert_content_at_line_emptyline(tmp_path): temp_file_path = tmp_path / 'b.txt' content = 'Line 1\n\n' temp_file_path.write_text(content) open_file(str(temp_file_path)) with io.StringIO() as buf: with contextlib.redirect_stdout(buf): insert_content_at_line( file_name=str(temp_file_path), line_number=2, content='Inserted Line', ) result = buf.getvalue() expected = ( f'[File: {temp_file_path} (3 lines total after edit)]\n' '(this is the beginning of the file)\n' '1|Line 1\n' '2|Inserted Line\n' '3|\n' '(this is the end of the file)\n' + MSG_FILE_UPDATED.format(line_number=2) + '\n' ) assert result.split('\n') == expected.split('\n') with open(temp_file_path, 'r') as file: lines = file.readlines() assert len(lines) == 3 assert lines[0].rstrip() == 'Line 1' assert lines[1].rstrip() == 'Inserted Line' def test_insert_content_at_line_from_scratch_multiline_with_backticks_and_second_edit( tmp_path, ): temp_file_path = tmp_path / 'a.txt' create_file(str(temp_file_path)) open_file(str(temp_file_path)) with io.StringIO() as buf: with contextlib.redirect_stdout(buf): insert_content_at_line( str(temp_file_path), 1, '`REPLACE TEXT1`\n`REPLACE TEXT2`\n`REPLACE TEXT3`', ) result = buf.getvalue() expected = ( f'[File: {temp_file_path} (3 lines total after edit)]\n' '(this is the beginning of the file)\n' '1|`REPLACE TEXT1`\n' '2|`REPLACE TEXT2`\n' '3|`REPLACE TEXT3`\n' '(this is the end of the file)\n' + MSG_FILE_UPDATED.format(line_number=1) + '\n' ) assert result.split('\n') == expected.split('\n') with open(temp_file_path, 'r') as file: lines = file.readlines() assert len(lines) == 3 assert lines[0].rstrip() == '`REPLACE TEXT1`' assert lines[1].rstrip() == '`REPLACE TEXT2`' assert lines[2].rstrip() == '`REPLACE TEXT3`' # Check that no backticks are escaped in the edit_file_by_replace call assert '\\`' not in result # Perform a second edit with io.StringIO() as buf: with contextlib.redirect_stdout(buf): edit_file_by_replace( str(temp_file_path), '`REPLACE TEXT1`\n`REPLACE TEXT2`\n`REPLACE TEXT3`', '`REPLACED TEXT1`\n`REPLACED TEXT2`\n`REPLACED TEXT3`', ) second_result = buf.getvalue() second_expected = ( f'[File: {temp_file_path} (3 lines total after edit)]\n' '(this is the beginning of the file)\n' '1|`REPLACED TEXT1`\n' '2|`REPLACED TEXT2`\n' '3|`REPLACED TEXT3`\n' '(this is the end of the file)\n' + MSG_FILE_UPDATED.format(line_number=1) + '\n' ) assert second_result.split('\n') == second_expected.split('\n') with open(temp_file_path, 'r') as file: lines = file.readlines() assert len(lines) == 3 assert lines[0].rstrip() == '`REPLACED TEXT1`' assert lines[1].rstrip() == '`REPLACED TEXT2`' assert lines[2].rstrip() == '`REPLACED TEXT3`' # Check that no backticks are escaped in the second edit_file_by_replace call assert '\\`' not in second_result def test_insert_content_at_line_from_scratch_multiline(tmp_path): temp_file_path = tmp_path / 'a.txt' create_file(str(temp_file_path)) open_file(temp_file_path) with io.StringIO() as buf: with contextlib.redirect_stdout(buf): insert_content_at_line( str(temp_file_path), 1, content='REPLACE TEXT1\nREPLACE TEXT2\nREPLACE TEXT3', ) result = buf.getvalue() expected = ( f'[File: {temp_file_path} (3 lines total after edit)]\n' '(this is the beginning of the file)\n' '1|REPLACE TEXT1\n' '2|REPLACE TEXT2\n' '3|REPLACE TEXT3\n' '(this is the end of the file)\n' + MSG_FILE_UPDATED.format(line_number=1) + '\n' ) assert result.split('\n') == expected.split('\n') with open(temp_file_path, 'r') as file: lines = file.readlines() assert len(lines) == 3 assert lines[0].rstrip() == 'REPLACE TEXT1' assert lines[1].rstrip() == 'REPLACE TEXT2' assert lines[2].rstrip() == 'REPLACE TEXT3' def test_insert_content_at_line_not_opened(): _capture_file_operation_error( lambda: insert_content_at_line( str('unknown file'), 1, 'REPLACE TEXT', ), 'ERROR: Invalid path or file name.', ) def test_append_file(tmp_path): temp_file_path = tmp_path / 'a.txt' content = 'Line 1\nLine 2' temp_file_path.write_text(content) open_file(str(temp_file_path)) with io.StringIO() as buf: with contextlib.redirect_stdout(buf): append_file(str(temp_file_path), content='APPENDED TEXT') result = buf.getvalue() expected = ( f'[File: {temp_file_path} (3 lines total after edit)]\n' '(this is the beginning of the file)\n' '1|Line 1\n' '2|Line 2\n' '3|APPENDED TEXT\n' '(this is the end of the file)\n' + MSG_FILE_UPDATED.format(line_number=2) + '\n' ) assert result.split('\n') == expected.split('\n') with open(temp_file_path, 'r') as file: lines = file.readlines() assert len(lines) == 3 assert lines[0].rstrip() == 'Line 1' assert lines[1].rstrip() == 'Line 2' assert lines[2].rstrip() == 'APPENDED TEXT' def test_append_file_from_scratch(tmp_path): temp_file_path = tmp_path / 'a.txt' create_file(str(temp_file_path)) try: open_file(str(temp_file_path)) with io.StringIO() as buf: with contextlib.redirect_stdout(buf): append_file(str(temp_file_path), content='APPENDED TEXT') result = buf.getvalue() expected = ( f'[File: {temp_file_path} (1 lines total after edit)]\n' '(this is the beginning of the file)\n' '1|APPENDED TEXT\n' '(this is the end of the file)\n' + MSG_FILE_UPDATED.format(line_number=1) + '\n' ) assert result.split('\n') == expected.split('\n') with open(temp_file_path, 'r') as file: lines = file.readlines() assert len(lines) == 1 assert lines[0].rstrip() == 'APPENDED TEXT' finally: os.remove(temp_file_path) def test_append_file_from_scratch_multiline(tmp_path): temp_file_path = tmp_path / 'a3.txt' create_file(str(temp_file_path)) try: open_file(temp_file_path) with io.StringIO() as buf: with contextlib.redirect_stdout(buf): append_file( str(temp_file_path), content='APPENDED TEXT1\nAPPENDED TEXT2\nAPPENDED TEXT3', ) result = buf.getvalue() expected = ( f'[File: {temp_file_path} (3 lines total after edit)]\n' '(this is the beginning of the file)\n' '1|APPENDED TEXT1\n' '2|APPENDED TEXT2\n' '3|APPENDED TEXT3\n' '(this is the end of the file)\n' + MSG_FILE_UPDATED.format(line_number=1) + '\n' ) assert result.split('\n') == expected.split('\n') with open(temp_file_path, 'r') as file: lines = file.readlines() assert len(lines) == 3 assert lines[0].rstrip() == 'APPENDED TEXT1' assert lines[1].rstrip() == 'APPENDED TEXT2' assert lines[2].rstrip() == 'APPENDED TEXT3' finally: os.remove(temp_file_path) def test_append_file_not_opened(): _capture_file_operation_error( lambda: append_file('unknown file', content='APPENDED TEXT'), 'ERROR: Invalid path or file name.', ) def test_search_dir(tmp_path): # create files with the search term "bingo" for i in range(1, 101): temp_file_path = tmp_path / f'a{i}.txt' with open(temp_file_path, 'w') as file: file.write('Line 1\nLine 2\nLine 3\nLine 4\nLine 5\n') if i == 50: file.write('bingo') # test with io.StringIO() as buf: with contextlib.redirect_stdout(buf): search_dir('bingo', str(tmp_path)) result = buf.getvalue() assert result is not None expected = ( f'[Found 1 matches for "bingo" in {tmp_path}]\n' f'{tmp_path}/a50.txt (Line 6): bingo\n' f'[End of matches for "bingo" in {tmp_path}]\n' ) assert result.split('\n') == expected.split('\n') def test_search_dir_not_exist_term(tmp_path): # create files with the search term "bingo" for i in range(1, 101): temp_file_path = tmp_path / f'a{i}.txt' with open(temp_file_path, 'w') as file: file.write('Line 1\nLine 2\nLine 3\nLine 4\nLine 5\n') # test with io.StringIO() as buf: with contextlib.redirect_stdout(buf): search_dir('non-exist', str(tmp_path)) result = buf.getvalue() assert result is not None expected = f'No matches found for "non-exist" in {tmp_path}\n' assert result.split('\n') == expected.split('\n') def test_search_dir_too_much_match(tmp_path): # create files with the search term "Line 5" for i in range(1, 1000): temp_file_path = tmp_path / f'a{i}.txt' with open(temp_file_path, 'w') as file: file.write('Line 1\nLine 2\nLine 3\nLine 4\nLine 5\n') with io.StringIO() as buf: with contextlib.redirect_stdout(buf): search_dir('Line 5', str(tmp_path)) result = buf.getvalue() assert result is not None expected = f'More than 999 files matched for "Line 5" in {tmp_path}. Please narrow your search.\n' assert result.split('\n') == expected.split('\n') def test_search_dir_cwd(tmp_path, monkeypatch): # Using pytest's monkeypatch to change directory without affecting other tests monkeypatch.chdir(tmp_path) # create files with the search term "bingo" for i in range(1, 101): temp_file_path = tmp_path / f'a{i}.txt' with open(temp_file_path, 'w') as file: file.write('Line 1\nLine 2\nLine 3\nLine 4\nLine 5\n') if i == 50: file.write('bingo') with io.StringIO() as buf: with contextlib.redirect_stdout(buf): search_dir('bingo') result = buf.getvalue() assert result is not None expected = ( '[Found 1 matches for "bingo" in ./]\n' './a50.txt (Line 6): bingo\n' '[End of matches for "bingo" in ./]\n' ) assert result.split('\n') == expected.split('\n') def test_search_file(tmp_path): temp_file_path = tmp_path / 'a.txt' temp_file_path.write_text('Line 1\nLine 2\nLine 3\nLine 4\nLine 5') with io.StringIO() as buf: with contextlib.redirect_stdout(buf): search_file('Line 5', str(temp_file_path)) result = buf.getvalue() assert result is not None expected = f'[Found 1 matches for "Line 5" in {temp_file_path}]\n' expected += 'Line 5: Line 5\n' expected += f'[End of matches for "Line 5" in {temp_file_path}]\n' assert result.split('\n') == expected.split('\n') def test_search_file_not_exist_term(tmp_path): temp_file_path = tmp_path / 'a.txt' temp_file_path.write_text('Line 1\nLine 2\nLine 3\nLine 4\nLine 5') with io.StringIO() as buf: with contextlib.redirect_stdout(buf): search_file('Line 6', str(temp_file_path)) result = buf.getvalue() assert result is not None expected = f'[No matches found for "Line 6" in {temp_file_path}]\n' assert result.split('\n') == expected.split('\n') def test_search_file_not_exist_file(): _capture_file_operation_error( lambda: search_file('Line 6', '/unexist/path/a.txt'), 'ERROR: File /unexist/path/a.txt not found.', ) def test_find_file(tmp_path): temp_file_path = tmp_path / 'a.txt' temp_file_path.write_text('Line 1\nLine 2\nLine 3\nLine 4\nLine 5') with io.StringIO() as buf: with contextlib.redirect_stdout(buf): find_file('a.txt', str(tmp_path)) result = buf.getvalue() assert result is not None expected = f'[Found 1 matches for "a.txt" in {tmp_path}]\n' expected += f'{tmp_path}/a.txt\n' expected += f'[End of matches for "a.txt" in {tmp_path}]\n' assert result.split('\n') == expected.split('\n') def test_find_file_cwd(tmp_path, monkeypatch): monkeypatch.chdir(tmp_path) temp_file_path = tmp_path / 'a.txt' temp_file_path.write_text('Line 1\nLine 2\nLine 3\nLine 4\nLine 5') with io.StringIO() as buf: with contextlib.redirect_stdout(buf): find_file('a.txt') result = buf.getvalue() assert result is not None def test_find_file_not_exist_file(): with io.StringIO() as buf: with contextlib.redirect_stdout(buf): find_file('nonexist.txt') result = buf.getvalue() assert result is not None expected = '[No matches found for "nonexist.txt" in ./]\n' assert result.split('\n') == expected.split('\n') def test_find_file_not_exist_file_specific_path(tmp_path): with io.StringIO() as buf: with contextlib.redirect_stdout(buf): find_file('nonexist.txt', str(tmp_path)) result = buf.getvalue() assert result is not None expected = f'[No matches found for "nonexist.txt" in {tmp_path}]\n' assert result.split('\n') == expected.split('\n') def test_edit_lint_file_pass(tmp_path): # Enable linting with patch.dict(os.environ, {'ENABLE_AUTO_LINT': 'True'}): file_path = _generate_test_file_with_lines(tmp_path, 1) # Test linting functionality with io.StringIO() as buf: with contextlib.redirect_stdout(buf): open_file(str(file_path)) insert_content_at_line(str(file_path), 1, "print('hello')\n") result = buf.getvalue() assert result is not None expected = ( f'[File: {file_path} (1 lines total)]\n' '(this is the beginning of the file)\n' '1|\n' '(this is the end of the file)\n' f'[File: {file_path} (1 lines total after edit)]\n' '(this is the beginning of the file)\n' "1|print('hello')\n" '(this is the end of the file)\n' + MSG_FILE_UPDATED.format(line_number=1) + '\n' ) assert result.split('\n') == expected.split('\n') def test_lint_file_fail_undefined_name(tmp_path, capsys): with patch.dict(os.environ, {'ENABLE_AUTO_LINT': 'True'}): current_line = 1 file_path = _generate_test_file_with_lines(tmp_path, 1) open_file(str(file_path), current_line) insert_content_at_line(str(file_path), 1, 'undefined_name()\n') result = capsys.readouterr().out assert result is not None expected = ( f'[File: {file_path} (1 lines total)]\n' '(this is the beginning of the file)\n' '1|\n' '(this is the end of the file)\n' '[Your proposed edit has introduced new syntax error(s). Please understand the errors and retry your edit command.]\n' 'ERRORS:\n' f"{file_path}:1:1: F821 undefined name 'undefined_name'\n" '[This is how your edit would have looked if applied]\n' + SEP + '(this is the beginning of the file)\n' '1|undefined_name()\n' '(this is the end of the file)\n' + SEP + '\n[This is the original code before your edit]\n' + SEP + '(this is the beginning of the file)\n' '1|\n' '(this is the end of the file)\n' + SEP + 'Your changes have NOT been applied. Please fix your edit command and try again.\n' 'You either need to 1) Specify the correct start/end line arguments or 2) Correct your edit code.\n' 'DO NOT re-run the same failed edit command. Running it again will lead to the same error.\n' ) assert result.split('\n') == expected.split('\n') def test_lint_file_fail_undefined_name_long(tmp_path, capsys): with patch.dict(os.environ, {'ENABLE_AUTO_LINT': 'True'}): num_lines = 1000 error_line = 500 file_path = _generate_test_file_with_lines(tmp_path, num_lines) error_message = ( f"{file_path}:{error_line}:1: F821 undefined name 'undefined_name'" ) open_file(str(file_path)) insert_content_at_line(str(file_path), error_line, 'undefined_name()\n') result = capsys.readouterr().out assert result is not None open_lines = '\n'.join([f'{i}|' for i in range(1, WINDOW + 1)]) expected = ( f'[File: {file_path} ({num_lines} lines total)]\n' '(this is the beginning of the file)\n' f'{open_lines}\n' f'({num_lines - WINDOW} more lines below)\n' f'[Use `scroll_down` to view the next 100 lines of the file!]\n' '[Your proposed edit has introduced new syntax error(s). Please understand the errors and retry your edit command.]\n' f'ERRORS:\n{error_message}\n' '[This is how your edit would have looked if applied]\n' + SEP + '(489 more lines above)\n' + _numbered_test_lines(error_line - 10, error_line - 1) + '500|undefined_name()\n' + _numbered_test_lines(error_line + 1, error_line + 10) + '(491 more lines below)\n' + SEP + '\n[This is the original code before your edit]\n' + SEP + '(489 more lines above)\n' + _numbered_test_lines(error_line - 10, error_line + 10) + '(490 more lines below)\n' + SEP + 'Your changes have NOT been applied. Please fix your edit command and try again.\n' 'You either need to 1) Specify the correct start/end line arguments or 2) Correct your edit code.\n' 'DO NOT re-run the same failed edit command. Running it again will lead to the same error.\n' ) assert result.split('\n') == expected.split('\n') def test_lint_file_disabled_undefined_name(tmp_path, capsys): with patch.dict(os.environ, {'ENABLE_AUTO_LINT': 'False'}): file_path = _generate_test_file_with_lines(tmp_path, 1) open_file(str(file_path)) insert_content_at_line(str(file_path), 1, 'undefined_name()\n') result = capsys.readouterr().out assert result is not None expected = ( f'[File: {file_path} (1 lines total)]\n' '(this is the beginning of the file)\n' '1|\n' '(this is the end of the file)\n' f'[File: {file_path} (1 lines total after edit)]\n' '(this is the beginning of the file)\n' '1|undefined_name()\n' '(this is the end of the file)\n' + MSG_FILE_UPDATED.format(line_number=1) + '\n' ) assert result.split('\n') == expected.split('\n') def test_parse_docx(tmp_path): # Create a DOCX file with some content test_docx_path = tmp_path / 'test.docx' doc = docx.Document() doc.add_paragraph('Hello, this is a test document.') doc.add_paragraph('This is the second paragraph.') doc.save(str(test_docx_path)) old_stdout = sys.stdout sys.stdout = io.StringIO() # Call the parse_docx function parse_docx(str(test_docx_path)) # Capture the output output = sys.stdout.getvalue() sys.stdout = old_stdout # Check if the output is correct expected_output = ( f'[Reading DOCX file from {test_docx_path}]\n' '@@ Page 1 @@\nHello, this is a test document.\n\n' '@@ Page 2 @@\nThis is the second paragraph.\n\n\n' ) assert output == expected_output, f'Expected output does not match. Got: {output}' def test_parse_latex(tmp_path): # Create a LaTeX file with some content test_latex_path = tmp_path / 'test.tex' with open(test_latex_path, 'w') as f: f.write(r""" \documentclass{article} \begin{document} Hello, this is a test LaTeX document. \end{document} """) old_stdout = sys.stdout sys.stdout = io.StringIO() # Call the parse_latex function parse_latex(str(test_latex_path)) # Capture the output output = sys.stdout.getvalue() sys.stdout = old_stdout # Check if the output is correct expected_output = ( f'[Reading LaTex file from {test_latex_path}]\n' 'Hello, this is a test LaTeX document.\n' ) assert output == expected_output, f'Expected output does not match. Got: {output}' def test_parse_pdf(tmp_path): # Create a PDF file with some content test_pdf_path = tmp_path / 'test.pdf' from reportlab.lib.pagesizes import letter from reportlab.pdfgen import canvas c = canvas.Canvas(str(test_pdf_path), pagesize=letter) c.drawString(100, 750, 'Hello, this is a test PDF document.') c.save() old_stdout = sys.stdout sys.stdout = io.StringIO() # Call the parse_pdf function parse_pdf(str(test_pdf_path)) # Capture the output output = sys.stdout.getvalue() sys.stdout = old_stdout # Check if the output is correct expected_output = ( f'[Reading PDF file from {test_pdf_path}]\n' '@@ Page 1 @@\n' 'Hello, this is a test PDF document.\n' ) assert output == expected_output, f'Expected output does not match. Got: {output}' def test_parse_pptx(tmp_path): test_pptx_path = tmp_path / 'test.pptx' from pptx import Presentation pres = Presentation() slide1 = pres.slides.add_slide(pres.slide_layouts[0]) title1 = slide1.shapes.title title1.text = 'Hello, this is the first test PPTX slide.' slide2 = pres.slides.add_slide(pres.slide_layouts[0]) title2 = slide2.shapes.title title2.text = 'Hello, this is the second test PPTX slide.' pres.save(str(test_pptx_path)) old_stdout = sys.stdout sys.stdout = io.StringIO() parse_pptx(str(test_pptx_path)) output = sys.stdout.getvalue() sys.stdout = old_stdout expected_output = ( f'[Reading PowerPoint file from {test_pptx_path}]\n' '@@ Slide 1 @@\n' 'Hello, this is the first test PPTX slide.\n\n' '@@ Slide 2 @@\n' 'Hello, this is the second test PPTX slide.\n\n' ) assert output == expected_output, f'Expected output does not match. Got: {output}' def test_lint_file_fail_non_python(tmp_path, capsys): with patch.dict(os.environ, {'ENABLE_AUTO_LINT': 'True'}): current_line = 1 file_path = _generate_ruby_test_file_with_lines(tmp_path, 1) open_file(str(file_path), current_line) insert_content_at_line( str(file_path), 1, "def print_hello_world()\n puts 'Hello World'" ) result = capsys.readouterr().out assert result is not None expected = ( f'[File: {file_path} (1 lines total)]\n' '(this is the beginning of the file)\n' '1|\n' '(this is the end of the file)\n' '[Your proposed edit has introduced new syntax error(s). Please understand the errors and retry your edit command.]\n' 'ERRORS:\n' f'{file_path}:1:1: Syntax error\n' '[This is how your edit would have looked if applied]\n' + SEP + '(this is the beginning of the file)\n' '1|def print_hello_world()\n' "2| puts 'Hello World'\n" '(this is the end of the file)\n' '-------------------------------------------------\n\n' '[This is the original code before your edit]\n' + SEP + '(this is the beginning of the file)\n' '1|\n' '(this is the end of the file)\n' + SEP + 'Your changes have NOT been applied. Please fix your edit command and try again.\n' 'You either need to 1) Specify the correct start/end line arguments or 2) Correct your edit code.\n' 'DO NOT re-run the same failed edit command. Running it again will lead to the same error.\n' ) assert result.split('\n') == expected.split('\n') def test_lint_file_fail_typescript(tmp_path, capsys): linter = Linter() with patch.dict(os.environ, {'ENABLE_AUTO_LINT': 'True'}): current_line = 1 file_path = tmp_path / 'test.ts' file_path.write_text('') open_file(str(file_path), current_line) insert_content_at_line( str(file_path), 1, "function greet(name: string) {\n console.log('Hello, ' + name)", ) result = capsys.readouterr().out assert result is not None # Note: the tsc (typescript compiler) message is different from a # compared to a python linter message, like line and column in brackets: expected_lines = [ f'[File: {file_path} (1 lines total)]', '(this is the beginning of the file)', '1|', '(this is the end of the file)', '[Your proposed edit has introduced new syntax error(s). Please understand the errors and retry your edit command.]', 'ERRORS:', f"{file_path}(3,1): error TS1005: '}}' expected.", '[This is how your edit would have looked if applied]', '-------------------------------------------------', '(this is the beginning of the file)', '1|function greet(name: string) {', "2| console.log('Hello, ' + name)", '(this is the end of the file)', '-------------------------------------------------', '', '[This is the original code before your edit]', '-------------------------------------------------', '(this is the beginning of the file)', '1|', '(this is the end of the file)', '-------------------------------------------------', 'Your changes have NOT been applied. Please fix your edit command and try again.', 'You either need to 1) Specify the correct start/end line arguments or 2) Correct your edit code.', 'DO NOT re-run the same failed edit command. Running it again will lead to the same error.', '', ] result_lines = result.split('\n') assert len(result_lines) == len(expected_lines), "Number of lines doesn't match" for i, (result_line, expected_line) in enumerate( zip(result_lines, expected_lines) ): if i == 6: if linter.ts_installed and result_line != expected_lines[6]: assert ( 'ts:1:20:' in result_line or '(3,1):' in result_line ), f"Line {i+1} doesn't match" else: assert result_line.lstrip('./') == expected_line.lstrip( './' ), f"Line {i+1} doesn't match"