from unittest import TestCase from _pyrepl.render import ( LineUpdate, RenderCell, RenderLine, RenderedScreen, ScreenOverlay, StyleRef, diff_render_lines, render_cells, requires_cursor_resync, ) class TestRenderLine(TestCase): def test_from_rendered_text_parses_style_state(self): line = RenderLine.from_rendered_text("\x1b[31ma\x1b[0mb") self.assertEqual(line.width, 2) self.assertEqual([cell.text for cell in line.cells], ["a", "b"]) self.assertEqual([cell.style.sgr for cell in line.cells], ["\x1b[31m", ""]) self.assertEqual([cell.controls for cell in line.cells], [(), ()]) def test_from_rendered_text_round_trips_trailing_reset(self): line = RenderLine.from_rendered_text("\x1b[31ma\x1b[0m") self.assertEqual([cell.text for cell in line.cells], ["a"]) self.assertEqual([cell.style.sgr for cell in line.cells], ["\x1b[31m"]) self.assertEqual(line.text, "\x1b[31ma\x1b[0m") def test_from_parts_accepts_style_refs(self): line = RenderLine.from_parts( ["d", "e", "f", " "], [1, 1, 1, 1], [StyleRef.from_sgr("\x1b[1;34m")] * 3 + [None], ) self.assertEqual([cell.text for cell in line.cells], ["d", "e", "f", " "]) self.assertEqual( [cell.style.sgr for cell in line.cells], ["\x1b[1;34m", "\x1b[1;34m", "\x1b[1;34m", ""], ) self.assertEqual(line.text, "\x1b[1;34mdef\x1b[0m ") def test_from_parts_without_styles(self): line = RenderLine.from_parts(["a", "b"], [1, 1]) self.assertEqual(line.text, "ab") self.assertEqual(line.width, 2) def test_from_rendered_text_empty_string(self): line = RenderLine.from_rendered_text("") self.assertEqual(line.cells, ()) self.assertEqual(line.text, "") self.assertEqual(line.width, 0) def test_from_rendered_text_with_non_sgr_controls(self): # \x1b[H is a cursor-home control (not SGR since it doesn't end with 'm') line = RenderLine.from_rendered_text("\x1b[Hx") self.assertEqual(len(line.cells), 2) self.assertEqual(line.cells[0].controls, ("\x1b[H",)) self.assertEqual(line.cells[0].text, "") self.assertEqual(line.cells[1].text, "x") def test_from_rendered_text_trailing_non_sgr_control(self): line = RenderLine.from_rendered_text("a\x1b[K") self.assertEqual(len(line.cells), 2) self.assertEqual(line.cells[0].text, "a") self.assertEqual(line.cells[1].controls, ("\x1b[K",)) self.assertEqual(line.cells[1].text, "") def test_from_rendered_text_non_sgr_before_text(self): # Non-SGR control immediately before text should produce a control cell # then text cells. line = RenderLine.from_rendered_text("\x1b[Kab") texts = [c.text for c in line.cells] self.assertEqual(texts, ["", "a", "b"]) self.assertEqual(line.cells[0].controls, ("\x1b[K",)) class TestLineDiff(TestCase): def test_diff_render_lines_ignores_unchanged_ansi_prefix(self): old = RenderLine.from_rendered_text("\x1b[31ma\x1b[0mb") new = RenderLine.from_rendered_text("\x1b[31ma\x1b[0mc") diff = diff_render_lines(old, new) self.assertIsNotNone(diff) assert diff is not None self.assertEqual(diff.start_x, 1) self.assertEqual(diff.old_text, "b") self.assertEqual(diff.new_text, "c") def test_diff_render_lines_detects_single_cell_insertion(self): old = RenderLine.from_rendered_text("ab") new = RenderLine.from_rendered_text("acb") diff = diff_render_lines(old, new) self.assertIsNotNone(diff) assert diff is not None self.assertEqual(diff.start_x, 1) self.assertEqual(diff.old_text, "") self.assertEqual(diff.new_text, "c") def test_colored_append_only_emits_new_character_and_reset(self): old = RenderLine.from_rendered_text("\x1b[1mabc\x1b[0m") new = RenderLine.from_rendered_text("\x1b[1mabcd\x1b[0m") diff = diff_render_lines(old, new) self.assertIsNotNone(diff) assert diff is not None self.assertEqual(diff.start_x, 3) self.assertEqual(render_cells(diff.new_cells), "\x1b[1md\x1b[0m") def test_keyword_space_inserts_only_space_after_reset(self): old = RenderLine.from_parts( ["d", "e", "f"], [1, 1, 1], ["keyword", "keyword", "keyword"], ) new = RenderLine.from_parts( ["d", "e", "f", " "], [1, 1, 1, 1], ["keyword", "keyword", "keyword", None], ) diff = diff_render_lines(old, new) self.assertIsNotNone(diff) assert diff is not None self.assertEqual(diff.start_x, 3) self.assertEqual(render_cells(diff.new_cells), " ") def test_diff_render_lines_returns_none_for_identical(self): line = RenderLine.from_rendered_text("abc") self.assertIsNone(diff_render_lines(line, line)) def test_diff_render_lines_breaks_on_controls_in_prefix(self): old = RenderLine.from_cells([ RenderCell("a", 1), RenderCell("", 0, controls=("\x1b[K",)), RenderCell("b", 1), ]) new = RenderLine.from_cells([ RenderCell("a", 1), RenderCell("", 0, controls=("\x1b[K",)), RenderCell("c", 1), ]) diff = diff_render_lines(old, new) self.assertIsNotNone(diff) assert diff is not None # Prefix scan stops at control cell, so diff starts at cell 1 self.assertEqual(diff.start_cell, 1) self.assertEqual(diff.start_x, 1) def test_diff_render_lines_extends_past_combining_chars(self): # \u0301 is a combining acute accent (zero-width) old = RenderLine.from_parts(["a", "b", "\u0301"], [1, 1, 0]) new = RenderLine.from_parts(["a", "c", "\u0301"], [1, 1, 0]) diff = diff_render_lines(old, new) self.assertIsNotNone(diff) assert diff is not None # The combining char is included since it's zero-width self.assertEqual(len(diff.new_cells), 2) def test_diff_old_and_new_changed_width(self): old = RenderLine.from_rendered_text("ab") new = RenderLine.from_rendered_text("acd") diff = diff_render_lines(old, new) self.assertIsNotNone(diff) assert diff is not None self.assertEqual(diff.old_changed_width, 1) self.assertEqual(diff.new_changed_width, 2) def test_rendered_screen_round_trips_screen_lines(self): screen = RenderedScreen.from_screen_lines( ["a", "\x1b[31mb\x1b[0m"], (0, 1), ) self.assertEqual(screen.screen_lines, ("a", "\x1b[31mb\x1b[0m")) class TestRenderedScreen(TestCase): def test_empty(self): screen = RenderedScreen.empty() self.assertEqual(screen.lines, ()) self.assertEqual(screen.cursor, (0, 0)) self.assertEqual(screen.overlays, ()) self.assertEqual(screen.composed_lines, ()) def test_with_overlay(self): screen = RenderedScreen.from_screen_lines(["aaa", "bbb"], (0, 0)) overlay_line = RenderLine.from_rendered_text("xxx") result = screen.with_overlay(1, [overlay_line]) self.assertEqual(len(result.overlays), 1) self.assertEqual(result.composed_lines[0].text, "aaa") self.assertEqual(result.composed_lines[1].text, "xxx") def test_compose_replace_overlay(self): base = RenderedScreen.from_screen_lines(["aa", "bb", "cc"], (0, 0)) overlay_line = RenderLine.from_rendered_text("XX") screen = RenderedScreen( base.lines, (0, 0), (ScreenOverlay(y=1, lines=(overlay_line,)),), ) self.assertEqual(screen.composed_lines[0].text, "aa") self.assertEqual(screen.composed_lines[1].text, "XX") self.assertEqual(screen.composed_lines[2].text, "cc") def test_compose_insert_overlay(self): base = RenderedScreen.from_screen_lines(["aa", "bb"], (0, 0)) overlay_line = RenderLine.from_rendered_text("INS") screen = RenderedScreen( base.lines, (0, 0), (ScreenOverlay(y=1, lines=(overlay_line,), insert=True),), ) self.assertEqual(len(screen.composed_lines), 3) self.assertEqual(screen.composed_lines[0].text, "aa") self.assertEqual(screen.composed_lines[1].text, "INS") self.assertEqual(screen.composed_lines[2].text, "bb") def test_compose_replace_extends_beyond_lines(self): base = RenderedScreen.from_screen_lines(["aa"], (0, 0)) overlay_line = RenderLine.from_rendered_text("XX") screen = RenderedScreen( base.lines, (0, 0), (ScreenOverlay(y=1, lines=(overlay_line,)),), ) self.assertEqual(len(screen.composed_lines), 2) self.assertEqual(screen.composed_lines[1].text, "XX") class TestRenderCell(TestCase): def test_terminal_text(self): cell = RenderCell("x", 1, style=StyleRef.from_sgr("\x1b[32m")) self.assertEqual(cell.terminal_text, "\x1b[32mx\x1b[0m") def test_terminal_text_plain(self): cell = RenderCell("y", 1) self.assertEqual(cell.terminal_text, "y") class TestRenderCells(TestCase): def test_render_cells_with_controls(self): cells = [ RenderCell("", 0, controls=("\x1b[K",)), RenderCell("a", 1), ] result = render_cells(cells) self.assertEqual(result, "\x1b[Ka") def test_render_cells_skips_empty_text(self): cells = [ RenderCell("", 0), RenderCell("a", 1), ] result = render_cells(cells) self.assertEqual(result, "a") def test_render_cells_with_visual_style(self): cells = [RenderCell("a", 1)] result = render_cells(cells, visual_style="\x1b[7m") self.assertEqual(result, "\x1b[7ma\x1b[0m") class TestLineUpdate(TestCase): def test_post_init_renders_text(self): cells = (RenderCell("a", 1), RenderCell("b", 1)) update = LineUpdate( kind="insert_char", y=0, start_cell=0, start_x=0, cells=cells, ) self.assertEqual(update.text, "ab") class TestRequiresCursorResync(TestCase): def test_no_controls(self): cells = [RenderCell("a", 1)] self.assertFalse(requires_cursor_resync(cells)) def test_sgr_only_does_not_require_resync(self): cells = [RenderCell("", 0, controls=("\x1b[31m",))] self.assertFalse(requires_cursor_resync(cells)) def test_non_sgr_requires_resync(self): cells = [RenderCell("", 0, controls=("\x1b[H",))] self.assertTrue(requires_cursor_resync(cells))