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webterm/tests/test_alt_screen.py
T
GitHub Copilot 207eddc922 fix: implement CSI S/T (scroll up/down) to fix ghost content in screenshots 
pyte 0.8.2 does not handle CSI S (SU — Scroll Up) or CSI T (SD —
Scroll Down). When TERM=xterm-256color, tmux sends CSI n S for bulk
scrolling instead of DECSTBM+index. pyte silently ignored these
sequences, leaving old content in the screen buffer — visible as
ghost content in SVG screenshots.

Fix: monkeypatch pyte's CSI dispatch tables to map S→scroll_up and
T→scroll_down, and implement both methods on AltScreen with proper
scroll-region (DECSTBM) support.

Adds 6 tests for SU/SD functionality.
2026-02-06 21:21:57 +00:00

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"""Tests for the AltScreen class with alternate screen buffer support."""
import pyte
import pytest
from webterm.alt_screen import DECALTBUF, DECALTBUF_1047, DECALTBUF_1048, AltScreen
class TestAltScreen:
"""Tests for AltScreen alternate buffer support."""
def test_basic_screen_operations(self):
"""Test that basic screen operations still work."""
screen = AltScreen(40, 10)
stream = pyte.Stream(screen)
stream.feed("Hello World\r\n")
stream.feed("Line 2")
assert "Hello World" in screen.display[0]
assert "Line 2" in screen.display[1]
def test_alternate_screen_save_restore(self):
"""Test DECSET/DECRST 1049 saves and restores main screen."""
screen = AltScreen(40, 10)
stream = pyte.Stream(screen)
# Write to main screen
stream.feed("MAIN SCREEN LINE 1\r\n")
stream.feed("MAIN SCREEN LINE 2\r\n")
assert "MAIN SCREEN LINE 1" in screen.display[0]
assert "MAIN SCREEN LINE 2" in screen.display[1]
# Enter alternate screen (DECSET 1049)
stream.feed("\x1b[?1049h")
# Screen should be cleared
assert screen.display[0].strip() == ""
assert screen.display[1].strip() == ""
# Write to alternate screen
stream.feed("ALT SCREEN CONTENT\r\n")
assert "ALT SCREEN CONTENT" in screen.display[0]
# Exit alternate screen (DECRST 1049)
stream.feed("\x1b[?1049l")
# Main screen should be restored
assert "MAIN SCREEN LINE 1" in screen.display[0]
assert "MAIN SCREEN LINE 2" in screen.display[1]
def test_alternate_screen_mode_flag(self):
"""Test that DECALTBUF mode flag is set correctly."""
screen = AltScreen(40, 10)
stream = pyte.Stream(screen)
assert DECALTBUF not in screen.mode
stream.feed("\x1b[?1049h")
assert DECALTBUF in screen.mode
stream.feed("\x1b[?1049l")
assert DECALTBUF not in screen.mode
@pytest.mark.parametrize(
("enter_seq", "exit_seq", "mode_flag"),
[
("\x1b[?1047h", "\x1b[?1047l", DECALTBUF_1047),
("\x1b[?1048h", "\x1b[?1048l", DECALTBUF_1048),
],
)
def test_alternate_screen_mode_variants(self, enter_seq, exit_seq, mode_flag):
"""Test that DECSET/DECRST 1047/1048 trigger alternate buffer handling."""
screen = AltScreen(40, 10)
stream = pyte.Stream(screen)
stream.feed("MAIN SCREEN\r\n")
assert "MAIN SCREEN" in screen.display[0]
stream.feed(enter_seq)
assert mode_flag in screen.mode
assert screen.display[0].strip() == ""
stream.feed("ALT BUFFER\r\n")
assert "ALT BUFFER" in screen.display[0]
stream.feed(exit_seq)
assert mode_flag not in screen.mode
assert "MAIN SCREEN" in screen.display[0]
def test_multiple_alt_screen_switches(self):
"""Test multiple switches between main and alternate screen."""
screen = AltScreen(40, 10)
stream = pyte.Stream(screen)
# Main content
stream.feed("MAIN 1\r\n")
stream.feed("\x1b[?1049h") # Enter alt
stream.feed("ALT 1\r\n")
stream.feed("\x1b[?1049l") # Exit alt
assert "MAIN 1" in screen.display[0]
# More main content
stream.feed("MAIN 2\r\n")
stream.feed("\x1b[?1049h") # Enter alt again
assert screen.display[0].strip() == "" # Alt screen is clear
stream.feed("\x1b[?1049l") # Exit alt
assert "MAIN 1" in screen.display[0]
assert "MAIN 2" in screen.display[1]
def test_resize_invalidates_saved_buffer(self):
"""Test that resizing clears the saved alternate screen buffer."""
screen = AltScreen(40, 10)
stream = pyte.Stream(screen)
stream.feed("MAIN CONTENT\r\n")
stream.feed("\x1b[?1049h") # Enter alt
assert screen._saved_buffer is not None
# Resize while in alt mode
screen.resize(20, 80)
assert screen._saved_buffer is None
def test_ed_clear_still_works(self):
"""Test that explicit ED (erase display) still works."""
screen = AltScreen(40, 10)
stream = pyte.Stream(screen)
stream.feed("Line 1\r\n")
stream.feed("Line 2\r\n")
stream.feed("\x1b[2J") # ED 2 - erase entire display
assert all(line.strip() == "" for line in screen.display)
class TestExpandClearSequences:
"""Tests for expand_clear_sequences (Ink partial clear fix)."""
def test_no_clear_sequences(self):
"""Data without EL2+CUU1 runs is returned unchanged."""
screen = AltScreen(80, 24)
data = b"Hello world\r\n"
assert screen.expand_clear_sequences(data) == data
def test_short_clear_not_expanded(self):
"""Runs of fewer than 3 EL2+CUU1 pairs are not modified."""
screen = AltScreen(80, 24)
data = b"\x1b[2K\x1b[1A\x1b[2K\x1b[1A" # 2 pairs
assert screen.expand_clear_sequences(data) == data
def test_full_clear_not_expanded(self):
"""A clear that already reaches row 0 is not extended."""
screen = AltScreen(80, 24)
stream = pyte.ByteStream(screen)
# Put cursor at row 5
stream.feed(b"\r\n" * 5)
assert screen.cursor.y == 5
# 5-pair clear already covers rows 5 down to 0
data = b"\x1b[2K\x1b[1A" * 5
result = screen.expand_clear_sequences(data)
assert result == data
def test_partial_clear_is_extended(self):
"""A partial clear that doesn't reach row 0 gets extended."""
screen = AltScreen(80, 24)
stream = pyte.ByteStream(screen)
# Draw content to push cursor to row 20
for i in range(20):
stream.feed(f"Line {i}\r\n".encode())
assert screen.cursor.y == 20
# Only clear 5 lines (should extend to clear all 20)
data = b"\x1b[2K\x1b[1A" * 5
result = screen.expand_clear_sequences(data)
expected_pairs = 20 # extend from 5 to 20
assert result.count(b"\x1b[2K\x1b[1A") == expected_pairs
def test_partial_clear_produces_correct_screen(self):
"""Simulates Ink /clear: partial clear + redraw leaves clean screen."""
screen = AltScreen(80, 24)
stream = pyte.ByteStream(screen)
# Draw 15 lines of content (Ink frame 1)
for i in range(15):
stream.feed(f"Old line {i}\r\n".encode())
# Ink /clear: only clears 5 lines then redraws fresh prompt
clear = b"\x1b[2K\x1b[1A" * 5 + b"\x1b[2K\x1b[G"
new_content = b"Fresh prompt\r\n"
expanded = screen.expand_clear_sequences(clear)
stream.feed(expanded)
stream.feed(new_content)
# Old content should be gone
non_empty = [line.rstrip() for line in screen.display if line.strip()]
assert len(non_empty) == 1
assert non_empty[0] == "Fresh prompt"
def test_data_around_clear_preserved(self):
"""Text before and after a clear run is preserved."""
screen = AltScreen(80, 24)
stream = pyte.ByteStream(screen)
stream.feed(b"\r\n" * 10)
data = b"before\x1b[2K\x1b[1A" * 0 + b"before" + b"\x1b[2K\x1b[1A" * 5 + b"after"
result = screen.expand_clear_sequences(data)
assert result.startswith(b"before")
assert result.endswith(b"after")
class TestScrollUpDown:
"""Tests for CSI S (SU) and CSI T (SD) support."""
def test_scroll_up_basic(self):
"""CSI S scrolls content up, adding blank lines at bottom."""
screen = AltScreen(40, 10)
stream = pyte.ByteStream(screen)
for i in range(10):
stream.feed(f"Line {i}\r\n".encode())
# After writing, Line 0 already scrolled off; rows 0-8 have Lines 1-9
# Scroll up 3 more lines
stream.feed(b"\x1b[3S")
assert "Line 4" in screen.display[0]
assert "Line 9" in screen.display[5]
assert screen.display[6].strip() == ""
def test_scroll_up_default_one(self):
"""CSI S with no parameter defaults to 1 line."""
screen = AltScreen(40, 5)
stream = pyte.ByteStream(screen)
for i in range(5):
stream.feed(f"L{i}\r\n".encode())
stream.feed(b"\x1b[S")
assert "L1" in screen.display[0]
def test_scroll_down_basic(self):
"""CSI T scrolls content down, adding blank lines at top."""
screen = AltScreen(40, 10)
stream = pyte.ByteStream(screen)
for i in range(10):
stream.feed(f"Line {i}\r\n".encode())
stream.feed(b"\x1b[3T")
assert screen.display[0].strip() == ""
assert screen.display[2].strip() == ""
assert "Line 1" in screen.display[3]
def test_scroll_up_with_margins(self):
"""SU respects the scroll region set by DECSTBM."""
screen = AltScreen(40, 10)
stream = pyte.ByteStream(screen)
for i in range(10):
stream.feed(f"Row {i}\r\n".encode())
# After writing, rows 0-8 have Row 1..Row 9
# Set scroll region to rows 3-7 (1-based: 4;8)
stream.feed(b"\x1b[4;8r")
stream.feed(b"\x1b[2S")
# Rows outside the region should be unchanged
assert "Row 1" in screen.display[0]
assert "Row 2" in screen.display[1]
assert "Row 3" in screen.display[2]
# Rows inside the region shifted up by 2
assert "Row 6" in screen.display[3]
def test_scroll_up_clears_ghost_content(self):
"""Simulates tmux sending SU during Ink /clear — ghost content is eliminated."""
screen = AltScreen(80, 24)
stream = pyte.ByteStream(screen)
# Fill screen with "old" content
for i in range(24):
stream.feed(f"Old line {i}\r\n".encode())
non_empty_before = sum(1 for line in screen.display if line.strip())
assert non_empty_before > 15
# Simulate tmux clear: set margins, scroll up, reset margins
stream.feed(b"\x1b[1;23r") # Set scroll region
stream.feed(b"\x1b[20S") # Scroll up 20 lines
stream.feed(b"\x1b[r") # Reset scroll region
non_empty_after = sum(1 for line in screen.display if line.strip())
assert non_empty_after <= 5, f"Expected <= 5 non-empty lines, got {non_empty_after}"
def test_scroll_up_cursor_unchanged(self):
"""SU does not move the cursor position."""
screen = AltScreen(40, 10)
stream = pyte.ByteStream(screen)
stream.feed(b"\x1b[5;10H") # Move cursor to row 5, col 10
saved_y, saved_x = screen.cursor.y, screen.cursor.x
stream.feed(b"\x1b[3S")
assert screen.cursor.y == saved_y
assert screen.cursor.x == saved_x
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