fish-shell/tests/checks/read.fish
Johannes Altmanninger 8bf8b10f68 Extended & human-friendly keys
See the changelog additions for user-visible changes.

Since we enable/disable terminal protocols whenever we pass terminal ownership,
tests can no longer run in parallel on the same terminal.

For the same reason, readline shortcuts in the gdb REPL will not work anymore.
As a remedy, use gdbserver, or lobby for CSI u support in libreadline.

Add sleep to some tests, otherwise they fall (both in CI and locally).

There are two weird failures on FreeBSD remaining, disable them for now
https://github.com/fish-shell/fish-shell/pull/10359/checks?check_run_id=23330096362

Design and implementation borrows heavily from Kakoune.

In future, we should try to implement more of the kitty progressive
enhancements.

Closes #10359
2024-04-02 14:35:16 +02:00

402 lines
9.2 KiB
Fish

# RUN: %fish -C "set fish %fish" %s | %filter-ctrlseqs
# Set term again explicitly to ensure behavior.
set -gx TERM xterm
# Read with no vars is not an error
read
# Read with -a and anything other than exactly on var name is an error
read -a
#CHECKERR: read: expected 1 arguments; got 0
read --array v1 v2
#CHECKERR: read: expected 1 arguments; got 2
read --list v1
# Verify correct behavior of subcommands and splitting of input.
begin
count (echo one\ntwo)
#CHECK: 2
set -l IFS \t
count (echo one\ntwo)
#CHECK: 2
set -l IFS
count (echo one\ntwo)
#CHECK: 1
echo [(echo -n one\ntwo)]
#CHECK: [one
#CHECK: two]
count (echo one\ntwo\n)
#CHECK: 1
echo [(echo -n one\ntwo\n)]
#CHECK: [one
#CHECK: two]
count (echo one\ntwo\n\n)
#CHECK: 1
echo [(echo -n one\ntwo\n\n)]
#CHECK: [one
#CHECK: two
#CHECK: ]
end
function print_vars --no-scope-shadowing
set -l space
set -l IFS \n # ensure our command substitution works right
for var in $argv
echo -n $space (count $$var) \'$$var\'
set space ''
end
echo
end
# Test splitting input
echo 'hello there' | read -l one two
print_vars one two
#CHECK: 1 'hello' 1 'there'
echo 'hello there' | read -l one
print_vars one
#CHECK: 1 'hello there'
echo '' | read -l one
print_vars one
#CHECK: 1 ''
echo '' | read -l one two
print_vars one two
#CHECK: 1 '' 1 ''
echo test | read -l one two three
print_vars one two three
#CHECK: 1 'test' 1 '' 1 ''
echo 'foo bar baz' | read -l one two three
print_vars one two three
#CHECK: 1 'foo' 1 'bar' 1 ' baz'
echo -n a | read -l one
echo "$status $one"
#CHECK: 0 a
# Test splitting input with IFS empty
set -l IFS
echo hello | read -l one
print_vars one
#CHECK: 1 'hello'
echo hello | read -l one two
print_vars one two
#CHECK: 1 'h' 1 'ello'
echo hello | read -l one two three
print_vars one two three
#CHECK: 1 'h' 1 'e' 1 'llo'
echo '' | read -l one
print_vars one
#CHECK: 0
echo t | read -l one two
print_vars one two
#CHECK: 1 't' 0
echo t | read -l one two three
print_vars one two three
#CHECK: 1 't' 0 0
echo ' t' | read -l one two
print_vars one two
#CHECK: 1 ' ' 1 't'
set -le IFS
echo 'hello there' | read -la ary
print_vars ary
#CHECK: 2 'hello' 'there'
echo hello | read -la ary
print_vars ary
#CHECK: 1 'hello'
echo 'this is a bunch of words' | read -la ary
print_vars ary
#CHECK: 6 'this' 'is' 'a' 'bunch' 'of' 'words'
echo ' one two three' | read -la ary
print_vars ary
#CHECK: 3 'one' 'two' 'three'
echo '' | read -la ary
print_vars ary
#CHECK: 0
set -l IFS
echo hello | read -la ary
print_vars ary
#CHECK: 5 'h' 'e' 'l' 'l' 'o'
echo h | read -la ary
print_vars ary
#CHECK: 1 'h'
echo '' | read -la ary
print_vars ary
#CHECK: 0
set -le IFS
# read -n tests
echo testing | read -n 3 foo
echo $foo
#CHECK: tes
echo test | read -n 10 foo
echo $foo
#CHECK: test
echo test | read -n 0 foo
echo $foo
#CHECK: test
echo testing | begin
read -n 3 foo
read -n 3 bar
end
echo $foo
#CHECK: tes
echo $bar
#CHECK: tin
echo test | read -n 1 foo
echo $foo
#CHECK: t
# read -z tests
echo -n testing | read -lz foo
echo $foo
#CHECK: testing
echo -n 'test ing' | read -lz foo
echo $foo
#CHECK: test ing
echo newline | read -lz foo
echo $foo
#CHECK: newline
#CHECK:
echo -n 'test ing' | read -lz foo bar
print_vars foo bar
#CHECK: 1 'test' 1 'ing'
echo -ne 'test\0ing' | read -lz foo bar
print_vars foo bar
#CHECK: 1 'test' 1 ''
echo -ne 'foo\nbar' | read -lz foo bar
print_vars foo bar
#CHECK: 1 'foo' 1 'bar'
echo -ne 'foo\nbar\0baz\nquux' | while read -lza foo
print_vars foo
end
#CHECK: 2 'foo' 'bar'
#CHECK: 2 'baz' 'quux'
# Chunked read tests
set -l path /tmp/fish_chunked_read_test.txt
set -l longstr (seq 1024 | string join ',')
echo -n $longstr >$path
read -l longstr2 <$path
test "$longstr" = "$longstr2"
and echo "Chunked reads test pass"
or echo "Chunked reads test failure: long strings don't match!"
rm $path
#CHECK: Chunked reads test pass
# ==========
# The following tests verify that `read` correctly handles the limit on the
# number of bytes consumed.
#
set fish_read_limit 8192
set line abcdefghijklmnopqrstuvwxyz
# Ensure the `read` command terminates if asked to read too much data. The var
# should be empty. We throw away any data we read if it exceeds the limit on
# what we consider reasonable.
yes $line | head -c (math "1 + $fish_read_limit") | read --null x
if test $status -ne 122
echo reading too much data did not terminate with failure status
end
# The read var should be defined but not have any elements when the read
# aborts due to too much data.
set -q x
or echo reading too much data did not define the var
set -q x[1]
and echo reading too much data resulted in a var with unexpected data
# Ensure the `read` command terminates if asked to read too much data even if
# given an explicit limit. The var should be empty. We throw away any data we
# read if it exceeds the limit on what we consider reasonable.
yes $line | read --null --nchars=(math "$fish_read_limit + 1") x
if test $status -ne 122
echo reading too much data did not terminate with failure status
end
set -q x
or echo reading too much data with --nchars did not define the var
set -q x[1]
and echo reading too much data with --nchars resulted in a var with unexpected data
# Now do the opposite of the previous test and confirm we can read reasonable
# amounts of data.
echo $line | read x
if test $status -ne 0
echo the read of a reasonable amount of data failed unexpectedly
end
set exp_length (string length $x)
set act_length (string length $line)
if test $exp_length -ne $act_length
echo reading a reasonable amount of data failed the length test
echo expected length $exp_length, actual length $act_length
end
# Confirm we can read exactly up to the limit.
yes $line | read --null --nchars $fish_read_limit x
if test $status -ne 0
echo the read of the max amount of data with --nchars failed unexpectedly
end
if test (string length "$x") -ne $fish_read_limit
echo reading the max amount of data with --nchars failed the length test
end
# Same as previous test but limit the amount of data fed to `read` rather than
# using the `--nchars` flag.
yes $line | head -c $fish_read_limit | read --null x
if test $status -ne 0
echo the read of the max amount of data failed unexpectedly
end
if test (string length "$x") -ne $fish_read_limit
echo reading with a limited amount of input data failed the length test
end
# Confirm reading non-interactively works -- \#4206 regression
echo abc\ndef | $fish -i -c 'read a; read b; set --show a; set --show b'
#CHECK: $a: set in global scope, unexported, with 1 elements
#CHECK: $a[1]: |abc|
#CHECK: $b: set in global scope, unexported, with 1 elements
#CHECK: $b[1]: |def|
# Test --delimiter (and $IFS, for now)
echo a=b | read -l foo bar
echo $foo
echo $bar
#CHECK: a=b
# Delimiter =
echo a=b | read -l -d = foo bar
echo $foo
#CHECK: a
echo $bar
#CHECK: b
# Delimiter empty
echo a=b | read -l -d '' foo bar baz
echo $foo
#CHECK: a
echo $bar
#CHECK: =
echo $baz
#CHECK: b
# IFS empty string
set -l IFS ''
echo a=b | read -l foo bar baz
echo $foo
#CHECK: a
echo $bar
#CHECK: =
echo $baz
#CHECK: b
# IFS unset
set -e IFS
echo a=b | read -l foo bar baz
echo $foo
#CHECK: a=b
echo $bar
#CHECK:
echo $baz
#CHECK:
# Delimiter =
echo a=b | read -l -d = foo bar baz
echo $foo
#CHECK: a
echo $bar
#CHECK: b
echo $baz
#CHECK:
# Multi-char delimiters with -d
echo a...b...c | read -l -d "..." a b c
echo $a
#CHECK: a
echo $b
#CHECK: b
echo $c
#CHECK: c
# Multi-char delimiters with IFS
begin
set -l IFS "..."
echo a...b...c | read -l a b c
echo $a
echo $b
echo $c
end
#CHECK: a
#CHECK: b
#CHECK: ..c
# At one point, whatever was read was printed _before_ banana
echo banana (echo sausage | read)
echo 'a | b' | read -lt a b c
#CHECK: banana sausage
echo a $a
echo b $b
echo c $c
# CHECK: a a
# CHECK: b |
# CHECK: c b
echo 'a"foo bar"b' | read -lt a b c
echo a \'$a\'
echo b $b
echo c $c
# CHECK: a 'afoo barb'
# CHECK: b
# CHECK: c
function function-scoped-read
echo foo | read --function skamtebord
set -S skamtebord
begin
echo bar | read skamtebord
echo baz | read -f craaab
end
set -S skamtebord
set -S craaab
end
function-scoped-read
# CHECK: $skamtebord: set in local scope, unexported, with 1 elements
# CHECK: $skamtebord[1]: |foo|
# CHECK: $skamtebord: set in local scope, unexported, with 1 elements
# CHECK: $skamtebord[1]: |bar|
# CHECK: $craaab: set in local scope, unexported, with 1 elements
# CHECK: $craaab[1]: |baz|
echo foo\nbar\nbaz | begin
read -l foo
read -l bar
cat
# CHECK: baz
echo $bar
# CHECK: bar
end
begin
echo 1
echo 2
end | read -l --line foo bar
echo $foo $bar
# CHECK: 1 2
echo foo | read status
# CHECKERR: read: status: cannot overwrite read-only variable
# CHECKERR: {{.*}}read.fish (line {{\d+}}):
# CHECKERR: echo foo | read status
# CHECKERR: ^
# CHECKERR: (Type 'help read' for related documentation)
echo read $status
# CHECK: read 2
echo ' foo' | read -n 1 -la var
set -S var
#CHECK: $var: set in local scope, unexported, with 0 elements
echo foo | read -n -1
# CHECKERR: read: -1: invalid integer
# CHECKERR: {{.*}}read.fish (line {{\d+}}):
# CHECKERR: echo foo | read -n -1
# CHECKERR: ^
# CHECKERR: (Type 'help read' for related documentation)