neovim/test/old/testdir/test_normal.vim
zeertzjq 3f1a12b8cc
test(old): remove workaround for TSAN CI (#24834)
Now that TSAN CI no longer runs oldtests, match upstream better.
2023-08-22 20:03:03 +08:00

4134 lines
108 KiB
VimL
Raw Blame History

This file contains invisible Unicode characters

This file contains invisible Unicode characters that are indistinguishable to humans but may be processed differently by a computer. If you think that this is intentional, you can safely ignore this warning. Use the Escape button to reveal them.

" Test for various Normal mode commands
source shared.vim
source check.vim
source view_util.vim
source vim9.vim
source screendump.vim
func Setup_NewWindow()
10new
call setline(1, range(1,100))
endfunc
func MyFormatExpr()
" Adds '->$' at lines having numbers followed by trailing whitespace
for ln in range(v:lnum, v:lnum+v:count-1)
let line = getline(ln)
if getline(ln) =~# '\d\s\+$'
call setline(ln, substitute(line, '\s\+$', '', '') . '->$')
endif
endfor
endfunc
func CountSpaces(type, ...)
" for testing operatorfunc
" will count the number of spaces
" and return the result in g:a
let sel_save = &selection
let &selection = "inclusive"
let reg_save = @@
if a:0 " Invoked from Visual mode, use gv command.
silent exe "normal! gvy"
elseif a:type == 'line'
silent exe "normal! '[V']y"
else
silent exe "normal! `[v`]y"
endif
let g:a = strlen(substitute(@@, '[^ ]', '', 'g'))
let &selection = sel_save
let @@ = reg_save
endfunc
func OpfuncDummy(type, ...)
" for testing operatorfunc
let g:opt = &linebreak
if a:0 " Invoked from Visual mode, use gv command.
silent exe "normal! gvy"
elseif a:type == 'line'
silent exe "normal! '[V']y"
else
silent exe "normal! `[v`]y"
endif
" Create a new dummy window
new
let g:bufnr = bufnr('%')
endfunc
func Test_normal00_optrans()
new
call append(0, ['1 This is a simple test: abcd', '2 This is the second line', '3 this is the third line'])
1
exe "norm! Sfoobar\<esc>"
call assert_equal(['foobar', '2 This is the second line', '3 this is the third line', ''], getline(1,'$'))
2
exe "norm! $vbsone"
call assert_equal(['foobar', '2 This is the second one', '3 this is the third line', ''], getline(1,'$'))
norm! VS Second line here
call assert_equal(['foobar', ' Second line here', '3 this is the third line', ''], getline(1, '$'))
%d
call append(0, ['4 This is a simple test: abcd', '5 This is the second line', '6 this is the third line'])
call append(0, ['1 This is a simple test: abcd', '2 This is the second line', '3 this is the third line'])
1
norm! 2D
call assert_equal(['3 this is the third line', '4 This is a simple test: abcd', '5 This is the second line', '6 this is the third line', ''], getline(1,'$'))
" Nvim: no "#" flag in 'cpoptions'.
" set cpo+=#
" norm! 4D
" call assert_equal(['', '4 This is a simple test: abcd', '5 This is the second line', '6 this is the third line', ''], getline(1,'$'))
" clean up
set cpo-=#
bw!
endfunc
func Test_normal01_keymodel()
call Setup_NewWindow()
" Test 1: depending on 'keymodel' <s-down> does something different
50
call feedkeys("V\<S-Up>y", 'tx')
call assert_equal(['47', '48', '49', '50'], getline("'<", "'>"))
set keymodel=startsel
50
call feedkeys("V\<S-Up>y", 'tx')
call assert_equal(['49', '50'], getline("'<", "'>"))
" Start visual mode when keymodel = startsel
50
call feedkeys("\<S-Up>y", 'tx')
call assert_equal(['49', '5'], getreg(0, 0, 1))
" Use the different Shift special keys
50
call feedkeys("\<S-Right>\<S-Left>\<S-Up>\<S-Down>\<S-Home>\<S-End>y", 'tx')
call assert_equal(['50'], getline("'<", "'>"))
call assert_equal(['50', ''], getreg(0, 0, 1))
" Do not start visual mode when keymodel=
set keymodel=
50
call feedkeys("\<S-Up>y$", 'tx')
call assert_equal(['42'], getreg(0, 0, 1))
" Stop visual mode when keymodel=stopsel
set keymodel=stopsel
50
call feedkeys("Vkk\<Up>yy", 'tx')
call assert_equal(['47'], getreg(0, 0, 1))
set keymodel=
50
call feedkeys("Vkk\<Up>yy", 'tx')
call assert_equal(['47', '48', '49', '50'], getreg(0, 0, 1))
" Test for using special keys to start visual selection
%d
call setline(1, ['red fox tail', 'red fox tail', 'red fox tail'])
set keymodel=startsel
" Test for <S-PageUp> and <S-PageDown>
call cursor(1, 1)
call feedkeys("\<S-PageDown>y", 'xt')
call assert_equal([0, 1, 1, 0], getpos("'<"))
call assert_equal([0, 3, 1, 0], getpos("'>"))
call feedkeys("Gz\<CR>8|\<S-PageUp>y", 'xt')
call assert_equal([0, 2, 1, 0], getpos("'<"))
call assert_equal([0, 3, 8, 0], getpos("'>"))
" Test for <S-C-Home> and <S-C-End>
call cursor(2, 12)
call feedkeys("\<S-C-Home>y", 'xt')
call assert_equal([0, 1, 1, 0], getpos("'<"))
call assert_equal([0, 2, 12, 0], getpos("'>"))
call cursor(1, 4)
call feedkeys("\<S-C-End>y", 'xt')
call assert_equal([0, 1, 4, 0], getpos("'<"))
call assert_equal([0, 3, 13, 0], getpos("'>"))
" Test for <S-C-Left> and <S-C-Right>
call cursor(2, 5)
call feedkeys("\<S-C-Right>y", 'xt')
call assert_equal([0, 2, 5, 0], getpos("'<"))
call assert_equal([0, 2, 9, 0], getpos("'>"))
call cursor(2, 9)
call feedkeys("\<S-C-Left>y", 'xt')
call assert_equal([0, 2, 5, 0], getpos("'<"))
call assert_equal([0, 2, 9, 0], getpos("'>"))
set keymodel&
" clean up
bw!
endfunc
func Test_normal03_join()
" basic join test
call Setup_NewWindow()
50
norm! VJ
call assert_equal('50 51', getline('.'))
$
norm! J
call assert_equal('100', getline('.'))
$
norm! V9-gJ
call assert_equal('919293949596979899100', getline('.'))
call setline(1, range(1,100))
$
:j 10
call assert_equal('100', getline('.'))
call assert_beeps('normal GVJ')
" clean up
bw!
endfunc
" basic filter test
func Test_normal04_filter()
" only test on non windows platform
CheckNotMSWindows
call Setup_NewWindow()
1
call feedkeys("!!sed -e 's/^/| /'\n", 'tx')
call assert_equal('| 1', getline('.'))
90
:sil :!echo one
call feedkeys('.', 'tx')
call assert_equal('| 90', getline('.'))
95
set cpo+=!
" 2 <CR>, 1: for executing the command,
" 2: clear hit-enter-prompt
call feedkeys("!!\n", 'tx')
call feedkeys(":!echo one\n\n", 'tx')
call feedkeys(".", 'tx')
call assert_equal('one', getline('.'))
set cpo-=!
bw!
endfunc
func Test_normal05_formatexpr()
" basic formatexpr test
call Setup_NewWindow()
%d_
call setline(1, ['here: 1 ', '2', 'here: 3 ', '4', 'not here: '])
1
set formatexpr=MyFormatExpr()
norm! gqG
call assert_equal(['here: 1->$', '2', 'here: 3->$', '4', 'not here: '], getline(1,'$'))
set formatexpr=
bw!
endfunc
func Test_normal05_formatexpr_newbuf()
" Edit another buffer in the 'formatexpr' function
new
func! Format()
edit another
endfunc
set formatexpr=Format()
norm gqG
bw!
set formatexpr=
endfunc
func Test_normal05_formatexpr_setopt()
" Change the 'formatexpr' value in the function
new
func! Format()
set formatexpr=
endfunc
set formatexpr=Format()
norm gqG
bw!
set formatexpr=
endfunc
" When 'formatexpr' returns non-zero, internal formatting is used.
func Test_normal_formatexpr_returns_nonzero()
new
call setline(1, ['one', 'two'])
func! Format()
return 1
endfunc
setlocal formatexpr=Format()
normal VGgq
call assert_equal(['one two'], getline(1, '$'))
setlocal formatexpr=
delfunc Format
bwipe!
endfunc
" Test for using a script-local function for 'formatexpr'
func Test_formatexpr_scriptlocal_func()
func! s:Format()
let g:FormatArgs = [v:lnum, v:count]
endfunc
set formatexpr=s:Format()
call assert_equal(expand('<SID>') .. 'Format()', &formatexpr)
call assert_equal(expand('<SID>') .. 'Format()', &g:formatexpr)
new | only
call setline(1, range(1, 40))
let g:FormatArgs = []
normal! 2GVjgq
call assert_equal([2, 2], g:FormatArgs)
bw!
set formatexpr=<SID>Format()
call assert_equal(expand('<SID>') .. 'Format()', &formatexpr)
call assert_equal(expand('<SID>') .. 'Format()', &g:formatexpr)
new | only
call setline(1, range(1, 40))
let g:FormatArgs = []
normal! 4GVjgq
call assert_equal([4, 2], g:FormatArgs)
bw!
let &formatexpr = 's:Format()'
call assert_equal(expand('<SID>') .. 'Format()', &g:formatexpr)
new | only
call setline(1, range(1, 40))
let g:FormatArgs = []
normal! 6GVjgq
call assert_equal([6, 2], g:FormatArgs)
bw!
let &formatexpr = '<SID>Format()'
call assert_equal(expand('<SID>') .. 'Format()', &g:formatexpr)
new | only
call setline(1, range(1, 40))
let g:FormatArgs = []
normal! 8GVjgq
call assert_equal([8, 2], g:FormatArgs)
bw!
setlocal formatexpr=
setglobal formatexpr=s:Format()
call assert_equal(expand('<SID>') .. 'Format()', &g:formatexpr)
call assert_equal('', &formatexpr)
new
call assert_equal(expand('<SID>') .. 'Format()', &formatexpr)
call setline(1, range(1, 40))
let g:FormatArgs = []
normal! 10GVjgq
call assert_equal([10, 2], g:FormatArgs)
bw!
setglobal formatexpr=<SID>Format()
call assert_equal(expand('<SID>') .. 'Format()', &g:formatexpr)
call assert_equal('', &formatexpr)
new
call assert_equal(expand('<SID>') .. 'Format()', &formatexpr)
call setline(1, range(1, 40))
let g:FormatArgs = []
normal! 12GVjgq
call assert_equal([12, 2], g:FormatArgs)
bw!
let &g:formatexpr = 's:Format()'
call assert_equal(expand('<SID>') .. 'Format()', &g:formatexpr)
call assert_equal('', &formatexpr)
new
call assert_equal(expand('<SID>') .. 'Format()', &formatexpr)
call setline(1, range(1, 40))
let g:FormatArgs = []
normal! 14GVjgq
call assert_equal([14, 2], g:FormatArgs)
bw!
let &g:formatexpr = '<SID>Format()'
call assert_equal(expand('<SID>') .. 'Format()', &g:formatexpr)
call assert_equal('', &formatexpr)
new
call assert_equal(expand('<SID>') .. 'Format()', &formatexpr)
call setline(1, range(1, 40))
let g:FormatArgs = []
normal! 16GVjgq
call assert_equal([16, 2], g:FormatArgs)
bw!
set formatexpr=
delfunc s:Format
bw!
endfunc
" basic test for formatprg
func Test_normal06_formatprg()
" only test on non windows platform
CheckNotMSWindows
" uses sed to number non-empty lines
call writefile(['#!/bin/sh', 'sed ''/./=''|sed ''/./{', 'N', 's/\n/ /', '}'''], 'Xsed_format.sh')
call system('chmod +x ./Xsed_format.sh')
let text = ['a', '', 'c', '', ' ', 'd', 'e']
let expected = ['1 a', '', '3 c', '', '5 ', '6 d', '7 e']
10new
call setline(1, text)
set formatprg=./Xsed_format.sh
norm! gggqG
call assert_equal(expected, getline(1, '$'))
%d
call setline(1, text)
set formatprg=donothing
setlocal formatprg=./Xsed_format.sh
norm! gggqG
call assert_equal(expected, getline(1, '$'))
%d
" Check for the command-line ranges added to 'formatprg'
set formatprg=cat
call setline(1, ['one', 'two', 'three', 'four', 'five'])
call feedkeys('gggqG', 'xt')
call assert_equal('.,$!cat', @:)
call feedkeys('2Ggq2j', 'xt')
call assert_equal('.,.+2!cat', @:)
bw!
" clean up
set formatprg=
setlocal formatprg=
call delete('Xsed_format.sh')
endfunc
func Test_normal07_internalfmt()
" basic test for internal formmatter to textwidth of 12
let list=range(1,11)
call map(list, 'v:val." "')
10new
call setline(1, list)
set tw=12
norm! ggVGgq
call assert_equal(['1 2 3', '4 5 6', '7 8 9', '10 11 '], getline(1, '$'))
" clean up
set tw=0
bw!
endfunc
" basic tests for foldopen/folddelete
func Test_normal08_fold()
CheckFeature folding
call Setup_NewWindow()
50
setl foldenable fdm=marker
" First fold
norm! V4jzf
" check that folds have been created
call assert_equal(['50/*{{{*/', '51', '52', '53', '54/*}}}*/'], getline(50,54))
" Second fold
46
norm! V10jzf
" check that folds have been created
call assert_equal('46/*{{{*/', getline(46))
call assert_equal('60/*}}}*/', getline(60))
norm! k
call assert_equal('45', getline('.'))
norm! j
call assert_equal('46/*{{{*/', getline('.'))
norm! j
call assert_equal('61', getline('.'))
norm! k
" open a fold
norm! Vzo
norm! k
call assert_equal('45', getline('.'))
norm! j
call assert_equal('46/*{{{*/', getline('.'))
norm! j
call assert_equal('47', getline('.'))
norm! k
norm! zcVzO
call assert_equal('46/*{{{*/', getline('.'))
norm! j
call assert_equal('47', getline('.'))
norm! j
call assert_equal('48', getline('.'))
norm! j
call assert_equal('49', getline('.'))
norm! j
call assert_equal('50/*{{{*/', getline('.'))
norm! j
call assert_equal('51', getline('.'))
" delete folds
:46
" collapse fold
norm! V14jzC
" delete all folds recursively
norm! VzD
call assert_equal(['46', '47', '48', '49', '50', '51', '52', '53', '54', '55', '56', '57', '58', '59', '60'], getline(46,60))
" clean up
setl nofoldenable fdm=marker
bw!
endfunc
func Test_normal09a_operatorfunc()
" Test operatorfunc
call Setup_NewWindow()
" Add some spaces for counting
50,60s/$/ /
unlet! g:a
let g:a=0
nmap <buffer><silent> ,, :set opfunc=CountSpaces<CR>g@
vmap <buffer><silent> ,, :<C-U>call CountSpaces(visualmode(), 1)<CR>
50
norm V2j,,
call assert_equal(6, g:a)
norm V,,
call assert_equal(2, g:a)
norm ,,l
call assert_equal(0, g:a)
50
exe "norm 0\<c-v>10j2l,,"
call assert_equal(11, g:a)
50
norm V10j,,
call assert_equal(22, g:a)
" clean up
unmap <buffer> ,,
set opfunc=
unlet! g:a
bw!
endfunc
func Test_normal09b_operatorfunc()
" Test operatorfunc
call Setup_NewWindow()
" Add some spaces for counting
50,60s/$/ /
unlet! g:opt
set linebreak
nmap <buffer><silent> ,, :set opfunc=OpfuncDummy<CR>g@
50
norm ,,j
exe "bd!" g:bufnr
call assert_true(&linebreak)
call assert_equal(g:opt, &linebreak)
set nolinebreak
norm ,,j
exe "bd!" g:bufnr
call assert_false(&linebreak)
call assert_equal(g:opt, &linebreak)
" clean up
unmap <buffer> ,,
set opfunc=
call assert_fails('normal Vg@', 'E774:')
bw!
unlet! g:opt
endfunc
func OperatorfuncRedo(_)
let g:opfunc_count = v:count
endfunc
func Underscorize(_)
normal! '[V']r_
endfunc
func Test_normal09c_operatorfunc()
" Test redoing operatorfunc
new
call setline(1, 'some text')
set operatorfunc=OperatorfuncRedo
normal v3g@
call assert_equal(3, g:opfunc_count)
let g:opfunc_count = 0
normal .
call assert_equal(3, g:opfunc_count)
bw!
unlet g:opfunc_count
" Test redoing Visual mode
set operatorfunc=Underscorize
new
call setline(1, ['first', 'first', 'third', 'third', 'second'])
normal! 1GVjg@
normal! 5G.
normal! 3G.
call assert_equal(['_____', '_____', '_____', '_____', '______'], getline(1, '$'))
bwipe!
set operatorfunc=
endfunc
" Test for different ways of setting the 'operatorfunc' option
func Test_opfunc_callback()
new
func OpFunc1(callnr, type)
let g:OpFunc1Args = [a:callnr, a:type]
endfunc
func OpFunc2(type)
let g:OpFunc2Args = [a:type]
endfunc
let lines =<< trim END
#" Test for using a function name
LET &opfunc = 'g:OpFunc2'
LET g:OpFunc2Args = []
normal! g@l
call assert_equal(['char'], g:OpFunc2Args)
#" Test for using a function()
set opfunc=function('g:OpFunc1',\ [10])
LET g:OpFunc1Args = []
normal! g@l
call assert_equal([10, 'char'], g:OpFunc1Args)
#" Using a funcref variable to set 'operatorfunc'
VAR Fn = function('g:OpFunc1', [11])
LET &opfunc = Fn
LET g:OpFunc1Args = []
normal! g@l
call assert_equal([11, 'char'], g:OpFunc1Args)
#" Using a string(funcref_variable) to set 'operatorfunc'
LET Fn = function('g:OpFunc1', [12])
LET &operatorfunc = string(Fn)
LET g:OpFunc1Args = []
normal! g@l
call assert_equal([12, 'char'], g:OpFunc1Args)
#" Test for using a funcref()
set operatorfunc=funcref('g:OpFunc1',\ [13])
LET g:OpFunc1Args = []
normal! g@l
call assert_equal([13, 'char'], g:OpFunc1Args)
#" Using a funcref variable to set 'operatorfunc'
LET Fn = funcref('g:OpFunc1', [14])
LET &opfunc = Fn
LET g:OpFunc1Args = []
normal! g@l
call assert_equal([14, 'char'], g:OpFunc1Args)
#" Using a string(funcref_variable) to set 'operatorfunc'
LET Fn = funcref('g:OpFunc1', [15])
LET &opfunc = string(Fn)
LET g:OpFunc1Args = []
normal! g@l
call assert_equal([15, 'char'], g:OpFunc1Args)
#" Test for using a lambda function using set
VAR optval = "LSTART a LMIDDLE OpFunc1(16, a) LEND"
LET optval = substitute(optval, ' ', '\\ ', 'g')
exe "set opfunc=" .. optval
LET g:OpFunc1Args = []
normal! g@l
call assert_equal([16, 'char'], g:OpFunc1Args)
#" Test for using a lambda function using LET
LET &opfunc = LSTART a LMIDDLE OpFunc1(17, a) LEND
LET g:OpFunc1Args = []
normal! g@l
call assert_equal([17, 'char'], g:OpFunc1Args)
#" Set 'operatorfunc' to a string(lambda expression)
LET &opfunc = 'LSTART a LMIDDLE OpFunc1(18, a) LEND'
LET g:OpFunc1Args = []
normal! g@l
call assert_equal([18, 'char'], g:OpFunc1Args)
#" Set 'operatorfunc' to a variable with a lambda expression
VAR Lambda = LSTART a LMIDDLE OpFunc1(19, a) LEND
LET &opfunc = Lambda
LET g:OpFunc1Args = []
normal! g@l
call assert_equal([19, 'char'], g:OpFunc1Args)
#" Set 'operatorfunc' to a string(variable with a lambda expression)
LET Lambda = LSTART a LMIDDLE OpFunc1(20, a) LEND
LET &opfunc = string(Lambda)
LET g:OpFunc1Args = []
normal! g@l
call assert_equal([20, 'char'], g:OpFunc1Args)
#" Try to use 'operatorfunc' after the function is deleted
func g:TmpOpFunc1(type)
let g:TmpOpFunc1Args = [21, a:type]
endfunc
LET &opfunc = function('g:TmpOpFunc1')
delfunc g:TmpOpFunc1
call test_garbagecollect_now()
LET g:TmpOpFunc1Args = []
call assert_fails('normal! g@l', 'E117:')
call assert_equal([], g:TmpOpFunc1Args)
#" Try to use a function with two arguments for 'operatorfunc'
func g:TmpOpFunc2(x, y)
let g:TmpOpFunc2Args = [a:x, a:y]
endfunc
set opfunc=TmpOpFunc2
LET g:TmpOpFunc2Args = []
call assert_fails('normal! g@l', 'E119:')
call assert_equal([], g:TmpOpFunc2Args)
delfunc TmpOpFunc2
#" Try to use a lambda function with two arguments for 'operatorfunc'
LET &opfunc = LSTART a, b LMIDDLE OpFunc1(22, b) LEND
LET g:OpFunc1Args = []
call assert_fails('normal! g@l', 'E119:')
call assert_equal([], g:OpFunc1Args)
#" Test for clearing the 'operatorfunc' option
set opfunc=''
set opfunc&
call assert_fails("set opfunc=function('abc')", "E700:")
call assert_fails("set opfunc=funcref('abc')", "E700:")
#" set 'operatorfunc' to a non-existing function
LET &opfunc = function('g:OpFunc1', [23])
call assert_fails("set opfunc=function('NonExistingFunc')", 'E700:')
call assert_fails("LET &opfunc = function('NonExistingFunc')", 'E700:')
LET g:OpFunc1Args = []
normal! g@l
call assert_equal([23, 'char'], g:OpFunc1Args)
END
call CheckTransLegacySuccess(lines)
" Test for using a script-local function name
func s:OpFunc3(type)
let g:OpFunc3Args = [a:type]
endfunc
set opfunc=s:OpFunc3
let g:OpFunc3Args = []
normal! g@l
call assert_equal(['char'], g:OpFunc3Args)
let &opfunc = 's:OpFunc3'
let g:OpFunc3Args = []
normal! g@l
call assert_equal(['char'], g:OpFunc3Args)
delfunc s:OpFunc3
" Using Vim9 lambda expression in legacy context should fail
" set opfunc=(a)\ =>\ OpFunc1(24,\ a)
let g:OpFunc1Args = []
" call assert_fails('normal! g@l', 'E117:')
call assert_equal([], g:OpFunc1Args)
" set 'operatorfunc' to a partial with dict. This used to cause a crash.
func SetOpFunc()
let operator = {'execute': function('OperatorExecute')}
let &opfunc = operator.execute
endfunc
func OperatorExecute(_) dict
endfunc
call SetOpFunc()
call test_garbagecollect_now()
set operatorfunc=
delfunc SetOpFunc
delfunc OperatorExecute
" Vim9 tests
let lines =<< trim END
vim9script
def g:Vim9opFunc(val: number, type: string): void
g:OpFunc1Args = [val, type]
enddef
# Test for using a def function with opfunc
set opfunc=function('g:Vim9opFunc',\ [60])
g:OpFunc1Args = []
normal! g@l
assert_equal([60, 'char'], g:OpFunc1Args)
# Test for using a global function name
&opfunc = g:OpFunc2
g:OpFunc2Args = []
normal! g@l
assert_equal(['char'], g:OpFunc2Args)
bw!
# Test for using a script-local function name
def LocalOpFunc(type: string): void
g:LocalOpFuncArgs = [type]
enddef
&opfunc = LocalOpFunc
g:LocalOpFuncArgs = []
normal! g@l
assert_equal(['char'], g:LocalOpFuncArgs)
bw!
END
call CheckScriptSuccess(lines)
" setting 'opfunc' to a script local function outside of a script context
" should fail
let cleanup =<< trim END
call writefile([execute('messages')], 'Xtest.out')
qall
END
call writefile(cleanup, 'Xverify.vim')
call RunVim([], [], "-c \"set opfunc=s:abc\" -S Xverify.vim")
call assert_match('E81: Using <SID> not in a', readfile('Xtest.out')[0])
call delete('Xtest.out')
call delete('Xverify.vim')
" cleanup
set opfunc&
delfunc OpFunc1
delfunc OpFunc2
unlet g:OpFunc1Args g:OpFunc2Args
%bw!
endfunc
func Test_normal10_expand()
" Test for expand()
10new
call setline(1, ['1', 'ifooar,,cbar'])
2
norm! $
call assert_equal('cbar', expand('<cword>'))
call assert_equal('ifooar,,cbar', expand('<cWORD>'))
call setline(1, ['prx = list[idx];'])
1
let expected = ['', 'prx', 'prx', 'prx',
\ 'list', 'list', 'list', 'list', 'list', 'list', 'list',
\ 'idx', 'idx', 'idx', 'idx',
\ 'list[idx]',
\ '];',
\ ]
for i in range(1, 16)
exe 'norm ' . i . '|'
call assert_equal(expected[i], expand('<cexpr>'), 'i == ' . i)
endfor
" Test for <cexpr> in state.val and ptr->val
call setline(1, 'x = state.val;')
call cursor(1, 10)
call assert_equal('state.val', expand('<cexpr>'))
call setline(1, 'x = ptr->val;')
call cursor(1, 9)
call assert_equal('ptr->val', expand('<cexpr>'))
if executable('echo')
" Test expand(`...`) i.e. backticks command expansion.
" MS-Windows has a trailing space.
call assert_match('^abcde *$', expand('`echo abcde`'))
endif
" Test expand(`=...`) i.e. backticks expression expansion
call assert_equal('5', expand('`=2+3`'))
call assert_equal('3.14', expand('`=3.14`'))
" clean up
bw!
endfunc
" Test for expand() in latin1 encoding
func Test_normal_expand_latin1()
new
let save_enc = &encoding
" set encoding=latin1
call setline(1, 'val = item->color;')
call cursor(1, 11)
call assert_equal('color', expand("<cword>"))
call assert_equal('item->color', expand("<cexpr>"))
let &encoding = save_enc
bw!
endfunc
func Test_normal11_showcmd()
" test for 'showcmd'
10new
exe "norm! ofoobar\<esc>"
call assert_equal(2, line('$'))
set showcmd
exe "norm! ofoobar2\<esc>"
call assert_equal(3, line('$'))
exe "norm! VAfoobar3\<esc>"
call assert_equal(3, line('$'))
exe "norm! 0d3\<del>2l"
call assert_equal('obar2foobar3', getline('.'))
" test for the visual block size displayed in the status line
call setline(1, ['aaaaa', 'bbbbb', 'ccccc'])
call feedkeys("ggl\<C-V>lljj", 'xt')
redraw!
call assert_match('3x3$', Screenline(&lines))
call feedkeys("\<C-V>", 'xt')
" test for visually selecting a multi-byte character
call setline(1, ["\U2206"])
call feedkeys("ggv", 'xt')
redraw!
call assert_match('1-3$', Screenline(&lines))
call feedkeys("v", 'xt')
" test for visually selecting the end of line
call setline(1, ["foobar"])
call feedkeys("$vl", 'xt')
redraw!
call assert_match('2$', Screenline(&lines))
call feedkeys("y", 'xt')
call assert_equal("r\n", @")
bw!
endfunc
" Test for nv_error and normal command errors
func Test_normal12_nv_error()
10new
call setline(1, range(1,5))
" should not do anything, just beep
call assert_beeps('exe "norm! <c-k>"')
call assert_equal(map(range(1,5), 'string(v:val)'), getline(1,'$'))
call assert_beeps('normal! G2dd')
call assert_beeps("normal! g\<C-A>")
call assert_beeps("normal! g\<C-X>")
call assert_beeps("normal! g\<C-B>")
" call assert_beeps("normal! vQ\<Esc>")
call assert_beeps("normal! 2[[")
call assert_beeps("normal! 2]]")
call assert_beeps("normal! 2[]")
call assert_beeps("normal! 2][")
call assert_beeps("normal! 4[z")
call assert_beeps("normal! 4]z")
call assert_beeps("normal! 4[c")
call assert_beeps("normal! 4]c")
call assert_beeps("normal! 200%")
call assert_beeps("normal! %")
call assert_beeps("normal! 2{")
call assert_beeps("normal! 2}")
call assert_beeps("normal! r\<Right>")
call assert_beeps("normal! 8ry")
call assert_beeps('normal! "@')
bw!
endfunc
func Test_normal13_help()
" Test for F1
call assert_equal(1, winnr())
call feedkeys("\<f1>", 'txi')
call assert_match('help\.txt', bufname('%'))
call assert_equal(2, winnr('$'))
bw!
endfunc
func Test_normal14_page()
" basic test for Ctrl-F and Ctrl-B
call Setup_NewWindow()
exe "norm! \<c-f>"
call assert_equal('9', getline('.'))
exe "norm! 2\<c-f>"
call assert_equal('25', getline('.'))
exe "norm! 2\<c-b>"
call assert_equal('18', getline('.'))
1
set scrolloff=5
exe "norm! 2\<c-f>"
call assert_equal('21', getline('.'))
exe "norm! \<c-b>"
call assert_equal('13', getline('.'))
1
set scrolloff=99
exe "norm! \<c-f>"
call assert_equal('13', getline('.'))
set scrolloff=0
100
exe "norm! $\<c-b>"
call assert_equal('92', getline('.'))
call assert_equal([0, 92, 1, 0, 1], getcurpos())
100
set nostartofline
exe "norm! $\<c-b>"
call assert_equal('92', getline('.'))
call assert_equal([0, 92, 2, 0, v:maxcol], getcurpos())
" cleanup
set startofline
bw!
endfunc
func Test_normal14_page_eol()
10new
norm oxxxxxxx
exe "norm 2\<c-f>"
" check with valgrind that cursor is put back in column 1
exe "norm 2\<c-b>"
bw!
endfunc
" Test for errors with z command
func Test_normal_z_error()
call assert_beeps('normal! z2p')
call assert_beeps('normal! zq')
call assert_beeps('normal! cz1')
endfunc
func Test_normal15_z_scroll_vert()
" basic test for z commands that scroll the window
call Setup_NewWindow()
100
norm! >>
" Test for z<cr>
exe "norm! z\<cr>"
call assert_equal(' 100', getline('.'))
call assert_equal(100, winsaveview()['topline'])
call assert_equal([0, 100, 2, 0, 9], getcurpos())
" Test for zt
21
norm! >>0zt
call assert_equal(' 21', getline('.'))
call assert_equal(21, winsaveview()['topline'])
call assert_equal([0, 21, 1, 0, 8], getcurpos())
" Test for zb
30
norm! >>$ztzb
call assert_equal(' 30', getline('.'))
call assert_equal(30, winsaveview()['topline']+winheight(0)-1)
call assert_equal([0, 30, 3, 0, v:maxcol], getcurpos())
" Test for z-
1
30
norm! 0z-
call assert_equal(' 30', getline('.'))
call assert_equal(30, winsaveview()['topline']+winheight(0)-1)
call assert_equal([0, 30, 2, 0, 9], getcurpos())
" Test for z{height}<cr>
call assert_equal(10, winheight(0))
exe "norm! z12\<cr>"
call assert_equal(12, winheight(0))
exe "norm! z15\<Del>0\<cr>"
call assert_equal(10, winheight(0))
" Test for z.
1
21
norm! 0z.
call assert_equal(' 21', getline('.'))
call assert_equal(17, winsaveview()['topline'])
call assert_equal([0, 21, 2, 0, 9], getcurpos())
" Test for zz
1
21
norm! 0zz
call assert_equal(' 21', getline('.'))
call assert_equal(17, winsaveview()['topline'])
call assert_equal([0, 21, 1, 0, 8], getcurpos())
" Test for z+
11
norm! zt
norm! z+
call assert_equal(' 21', getline('.'))
call assert_equal(21, winsaveview()['topline'])
call assert_equal([0, 21, 2, 0, 9], getcurpos())
" Test for [count]z+
1
norm! 21z+
call assert_equal(' 21', getline('.'))
call assert_equal(21, winsaveview()['topline'])
call assert_equal([0, 21, 2, 0, 9], getcurpos())
" Test for z+ with [count] greater than buffer size
1
norm! 1000z+
call assert_equal(' 100', getline('.'))
call assert_equal(100, winsaveview()['topline'])
call assert_equal([0, 100, 2, 0, 9], getcurpos())
" Test for z+ from the last buffer line
norm! Gz.z+
call assert_equal(' 100', getline('.'))
call assert_equal(100, winsaveview()['topline'])
call assert_equal([0, 100, 2, 0, 9], getcurpos())
" Test for z^
norm! 22z+0
norm! z^
call assert_equal(' 21', getline('.'))
call assert_equal(12, winsaveview()['topline'])
call assert_equal([0, 21, 2, 0, 9], getcurpos())
" Test for z^ from first buffer line
norm! ggz^
call assert_equal('1', getline('.'))
call assert_equal(1, winsaveview()['topline'])
call assert_equal([0, 1, 1, 0, 1], getcurpos())
" Test for [count]z^
1
norm! 30z^
call assert_equal(' 21', getline('.'))
call assert_equal(12, winsaveview()['topline'])
call assert_equal([0, 21, 2, 0, 9], getcurpos())
" cleanup
bw!
endfunc
func Test_normal16_z_scroll_hor()
" basic test for z commands that scroll the window
10new
15vsp
set nowrap listchars=
let lineA='abcdefghijklmnopqrstuvwxyz'
let lineB='0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZ'
$put =lineA
$put =lineB
1d
" Test for zl and zh with a count
norm! 0z10l
call assert_equal([11, 1], [col('.'), wincol()])
norm! z4h
call assert_equal([11, 5], [col('.'), wincol()])
normal! 2gg
" Test for zl
1
norm! 5zl
call assert_equal(lineA, getline('.'))
call assert_equal(6, col('.'))
call assert_equal(5, winsaveview()['leftcol'])
norm! yl
call assert_equal('f', @0)
" Test for zh
norm! 2zh
call assert_equal(lineA, getline('.'))
call assert_equal(6, col('.'))
norm! yl
call assert_equal('f', @0)
call assert_equal(3, winsaveview()['leftcol'])
" Test for zL
norm! zL
call assert_equal(11, col('.'))
norm! yl
call assert_equal('k', @0)
call assert_equal(10, winsaveview()['leftcol'])
norm! 2zL
call assert_equal(25, col('.'))
norm! yl
call assert_equal('y', @0)
call assert_equal(24, winsaveview()['leftcol'])
" Test for zH
norm! 2zH
call assert_equal(25, col('.'))
call assert_equal(10, winsaveview()['leftcol'])
norm! yl
call assert_equal('y', @0)
" Test for zs
norm! $zs
call assert_equal(26, col('.'))
call assert_equal(25, winsaveview()['leftcol'])
norm! yl
call assert_equal('z', @0)
" Test for ze
norm! ze
call assert_equal(26, col('.'))
call assert_equal(11, winsaveview()['leftcol'])
norm! yl
call assert_equal('z', @0)
" Test for zs and ze with folds
%fold
norm! $zs
call assert_equal(26, col('.'))
call assert_equal(0, winsaveview()['leftcol'])
norm! yl
call assert_equal('z', @0)
norm! ze
call assert_equal(26, col('.'))
call assert_equal(0, winsaveview()['leftcol'])
norm! yl
call assert_equal('z', @0)
" cleanup
set wrap listchars=eol:$
bw!
endfunc
func Test_normal17_z_scroll_hor2()
" basic test for z commands that scroll the window
" using 'sidescrolloff' setting
10new
20vsp
set nowrap listchars= sidescrolloff=5
let lineA='abcdefghijklmnopqrstuvwxyz'
let lineB='0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZ'
$put =lineA
$put =lineB
1d
" Test for zl
1
norm! 5zl
call assert_equal(lineA, getline('.'))
call assert_equal(11, col('.'))
call assert_equal(5, winsaveview()['leftcol'])
norm! yl
call assert_equal('k', @0)
" Test for zh
norm! 2zh
call assert_equal(lineA, getline('.'))
call assert_equal(11, col('.'))
norm! yl
call assert_equal('k', @0)
call assert_equal(3, winsaveview()['leftcol'])
" Test for zL
norm! 0zL
call assert_equal(16, col('.'))
norm! yl
call assert_equal('p', @0)
call assert_equal(10, winsaveview()['leftcol'])
norm! 2zL
call assert_equal(26, col('.'))
norm! yl
call assert_equal('z', @0)
call assert_equal(15, winsaveview()['leftcol'])
" Test for zH
norm! 2zH
call assert_equal(15, col('.'))
call assert_equal(0, winsaveview()['leftcol'])
norm! yl
call assert_equal('o', @0)
" Test for zs
norm! $zs
call assert_equal(26, col('.'))
call assert_equal(20, winsaveview()['leftcol'])
norm! yl
call assert_equal('z', @0)
" Test for ze
norm! ze
call assert_equal(26, col('.'))
call assert_equal(11, winsaveview()['leftcol'])
norm! yl
call assert_equal('z', @0)
" cleanup
set wrap listchars=eol:$ sidescrolloff=0
bw!
endfunc
" Test for commands that scroll the window horizontally. Test with folds.
" H, M, L, CTRL-E, CTRL-Y, CTRL-U, CTRL-D, PageUp, PageDown commands
func Test_vert_scroll_cmds()
15new
call setline(1, range(1, 100))
exe "normal! 30ggz\<CR>"
set foldenable
33,36fold
40,43fold
46,49fold
let h = winheight(0)
" Test for H, M and L commands
" Top of the screen = 30
" Folded lines = 9
" Bottom of the screen = 30 + h + 9 - 1
normal! 4L
call assert_equal(35 + h, line('.'))
normal! 4H
call assert_equal(33, line('.'))
" Test for using a large count value
%d
call setline(1, range(1, 4))
norm! 6H
call assert_equal(4, line('.'))
" Test for 'M' with folded lines
%d
call setline(1, range(1, 20))
1,5fold
norm! LM
call assert_equal(12, line('.'))
" Test for the CTRL-E and CTRL-Y commands with folds
%d
call setline(1, range(1, 10))
3,5fold
exe "normal 6G3\<C-E>"
call assert_equal(6, line('w0'))
exe "normal 2\<C-Y>"
call assert_equal(2, line('w0'))
" Test for CTRL-Y on a folded line
%d
call setline(1, range(1, 100))
exe (h + 2) .. "," .. (h + 4) .. "fold"
exe h + 5
normal z-
exe "normal \<C-Y>\<C-Y>"
call assert_equal(h + 1, line('w$'))
" Test for CTRL-Y from the first line and CTRL-E from the last line
%d
set scrolloff=2
call setline(1, range(1, 4))
exe "normal gg\<C-Y>"
call assert_equal(1, line('w0'))
call assert_equal(1, line('.'))
exe "normal G4\<C-E>\<C-E>"
call assert_equal(4, line('w$'))
call assert_equal(4, line('.'))
set scrolloff&
" Using <PageUp> and <PageDown> in an empty buffer should beep
%d
call assert_beeps('exe "normal \<PageUp>"')
call assert_beeps('exe "normal \<C-B>"')
call assert_beeps('exe "normal \<PageDown>"')
call assert_beeps('exe "normal \<C-F>"')
" Test for <C-U> and <C-D> with fold
%d
call setline(1, range(1, 100))
10,35fold
set scroll=10
exe "normal \<C-D>"
call assert_equal(36, line('.'))
exe "normal \<C-D>"
call assert_equal(46, line('.'))
exe "normal \<C-U>"
call assert_equal(36, line('.'))
exe "normal \<C-U>"
call assert_equal(10, line('.'))
exe "normal \<C-U>"
call assert_equal(1, line('.'))
set scroll&
" Test for scrolling to the top of the file with <C-U> and a fold
10
normal ztL
exe "normal \<C-U>\<C-U>"
call assert_equal(1, line('w0'))
" Test for CTRL-D on a folded line
%d
call setline(1, range(1, 100))
50,100fold
75
normal z-
exe "normal \<C-D>"
call assert_equal(50, line('.'))
call assert_equal(100, line('w$'))
normal z.
let lnum = winline()
exe "normal \<C-D>"
call assert_equal(lnum, winline())
call assert_equal(50, line('.'))
normal zt
exe "normal \<C-D>"
call assert_equal(50, line('w0'))
" Test for <S-CR>. Page down.
%d
call setline(1, range(1, 100))
call feedkeys("\<S-CR>", 'xt')
call assert_equal(14, line('w0'))
call assert_equal(28, line('w$'))
" Test for <S-->. Page up.
call feedkeys("\<S-->", 'xt')
call assert_equal(1, line('w0'))
call assert_equal(15, line('w$'))
set foldenable&
bwipe!
endfunc
func Test_scroll_in_ex_mode()
" This was using invalid memory because w_botline was invalid.
let lines =<< trim END
diffsplit
norm os00(
call writefile(['done'], 'Xdone')
qa!
END
call writefile(lines, 'Xscript')
call assert_equal(1, RunVim([], [], '--clean -X -Z -e -s -S Xscript'))
call assert_equal(['done'], readfile('Xdone'))
call delete('Xscript')
call delete('Xdone')
endfunc
" Test for the 'sidescroll' option
func Test_sidescroll_opt()
new
20vnew
" scroll by 2 characters horizontally
set sidescroll=2 nowrap
call setline(1, repeat('a', 40))
normal g$l
call assert_equal(19, screenpos(0, 1, 21).col)
normal l
call assert_equal(20, screenpos(0, 1, 22).col)
normal g0h
call assert_equal(2, screenpos(0, 1, 2).col)
call assert_equal(20, screenpos(0, 1, 20).col)
" when 'sidescroll' is 0, cursor positioned at the center
set sidescroll=0
normal g$l
call assert_equal(11, screenpos(0, 1, 21).col)
normal g0h
call assert_equal(10, screenpos(0, 1, 10).col)
%bw!
set wrap& sidescroll&
endfunc
" basic tests for foldopen/folddelete
func Test_normal18_z_fold()
CheckFeature folding
call Setup_NewWindow()
50
setl foldenable fdm=marker foldlevel=5
call assert_beeps('normal! zj')
call assert_beeps('normal! zk')
" Test for zF
" First fold
norm! 4zF
" check that folds have been created
call assert_equal(['50/*{{{*/', '51', '52', '53/*}}}*/'], getline(50,53))
" Test for zd
51
norm! 2zF
call assert_equal(2, foldlevel('.'))
norm! kzd
call assert_equal(['50', '51/*{{{*/', '52/*}}}*/', '53'], getline(50,53))
norm! j
call assert_equal(1, foldlevel('.'))
" Test for zD
" also deletes partially selected folds recursively
51
norm! zF
call assert_equal(2, foldlevel('.'))
norm! kV2jzD
call assert_equal(['50', '51', '52', '53'], getline(50,53))
" Test for zE
85
norm! 4zF
86
norm! 2zF
90
norm! 4zF
call assert_equal(['85/*{{{*/', '86/*{{{*/', '87/*}}}*/', '88/*}}}*/', '89', '90/*{{{*/', '91', '92', '93/*}}}*/'], getline(85,93))
norm! zE
call assert_equal(['85', '86', '87', '88', '89', '90', '91', '92', '93'], getline(85,93))
" Test for zn
50
set foldlevel=0
norm! 2zF
norm! zn
norm! k
call assert_equal('49', getline('.'))
norm! j
call assert_equal('50/*{{{*/', getline('.'))
norm! j
call assert_equal('51/*}}}*/', getline('.'))
norm! j
call assert_equal('52', getline('.'))
call assert_equal(0, &foldenable)
" Test for zN
49
norm! zN
call assert_equal('49', getline('.'))
norm! j
call assert_equal('50/*{{{*/', getline('.'))
norm! j
call assert_equal('52', getline('.'))
call assert_equal(1, &foldenable)
" Test for zi
norm! zi
call assert_equal(0, &foldenable)
norm! zi
call assert_equal(1, &foldenable)
norm! zi
call assert_equal(0, &foldenable)
norm! zi
call assert_equal(1, &foldenable)
" Test for za
50
norm! za
norm! k
call assert_equal('49', getline('.'))
norm! j
call assert_equal('50/*{{{*/', getline('.'))
norm! j
call assert_equal('51/*}}}*/', getline('.'))
norm! j
call assert_equal('52', getline('.'))
50
norm! za
norm! k
call assert_equal('49', getline('.'))
norm! j
call assert_equal('50/*{{{*/', getline('.'))
norm! j
call assert_equal('52', getline('.'))
49
norm! 5zF
norm! k
call assert_equal('48', getline('.'))
norm! j
call assert_equal('49/*{{{*/', getline('.'))
norm! j
call assert_equal('55', getline('.'))
49
norm! za
call assert_equal('49/*{{{*/', getline('.'))
norm! j
call assert_equal('50/*{{{*/', getline('.'))
norm! j
call assert_equal('52', getline('.'))
set nofoldenable
" close fold and set foldenable
norm! za
call assert_equal(1, &foldenable)
50
" have to use {count}za to open all folds and make the cursor visible
norm! 2za
norm! 2k
call assert_equal('48', getline('.'))
norm! j
call assert_equal('49/*{{{*/', getline('.'))
norm! j
call assert_equal('50/*{{{*/', getline('.'))
norm! j
call assert_equal('51/*}}}*/', getline('.'))
norm! j
call assert_equal('52', getline('.'))
" Test for zA
49
set foldlevel=0
50
norm! zA
norm! 2k
call assert_equal('48', getline('.'))
norm! j
call assert_equal('49/*{{{*/', getline('.'))
norm! j
call assert_equal('50/*{{{*/', getline('.'))
norm! j
call assert_equal('51/*}}}*/', getline('.'))
norm! j
call assert_equal('52', getline('.'))
" zA on a opened fold when foldenable is not set
50
set nofoldenable
norm! zA
call assert_equal(1, &foldenable)
norm! k
call assert_equal('48', getline('.'))
norm! j
call assert_equal('49/*{{{*/', getline('.'))
norm! j
call assert_equal('55', getline('.'))
" Test for zc
norm! zE
50
norm! 2zF
49
norm! 5zF
set nofoldenable
50
" There most likely is a bug somewhere:
" https://groups.google.com/d/msg/vim_dev/v2EkfJ_KQjI/u-Cvv94uCAAJ
" TODO: Should this only close the inner most fold or both folds?
norm! zc
call assert_equal(1, &foldenable)
norm! k
call assert_equal('48', getline('.'))
norm! j
call assert_equal('49/*{{{*/', getline('.'))
norm! j
call assert_equal('55', getline('.'))
set nofoldenable
50
norm! Vjzc
norm! k
call assert_equal('48', getline('.'))
norm! j
call assert_equal('49/*{{{*/', getline('.'))
norm! j
call assert_equal('55', getline('.'))
" Test for zC
set nofoldenable
50
norm! zCk
call assert_equal('48', getline('.'))
norm! j
call assert_equal('49/*{{{*/', getline('.'))
norm! j
call assert_equal('55', getline('.'))
" Test for zx
" 1) close folds at line 49-54
set nofoldenable
48
norm! zx
call assert_equal(1, &foldenable)
norm! j
call assert_equal('49/*{{{*/', getline('.'))
norm! j
call assert_equal('55', getline('.'))
" 2) do not close fold under cursor
51
set nofoldenable
norm! zx
call assert_equal(1, &foldenable)
norm! 3k
call assert_equal('48', getline('.'))
norm! j
call assert_equal('49/*{{{*/', getline('.'))
norm! j
call assert_equal('50/*{{{*/', getline('.'))
norm! j
call assert_equal('51/*}}}*/', getline('.'))
norm! j
call assert_equal('52', getline('.'))
norm! j
call assert_equal('53', getline('.'))
norm! j
call assert_equal('54/*}}}*/', getline('.'))
norm! j
call assert_equal('55', getline('.'))
" 3) close one level of folds
48
set nofoldenable
set foldlevel=1
norm! zx
call assert_equal(1, &foldenable)
call assert_equal('48', getline('.'))
norm! j
call assert_equal('49/*{{{*/', getline('.'))
norm! j
call assert_equal('50/*{{{*/', getline('.'))
norm! j
call assert_equal('52', getline('.'))
norm! j
call assert_equal('53', getline('.'))
norm! j
call assert_equal('54/*}}}*/', getline('.'))
norm! j
call assert_equal('55', getline('.'))
" Test for zX
" Close all folds
set foldlevel=0 nofoldenable
50
norm! zX
call assert_equal(1, &foldenable)
norm! k
call assert_equal('48', getline('.'))
norm! j
call assert_equal('49/*{{{*/', getline('.'))
norm! j
call assert_equal('55', getline('.'))
" Test for zm
50
set nofoldenable foldlevel=2
norm! zm
call assert_equal(1, &foldenable)
call assert_equal(1, &foldlevel)
norm! zm
call assert_equal(0, &foldlevel)
norm! zm
call assert_equal(0, &foldlevel)
norm! k
call assert_equal('48', getline('.'))
norm! j
call assert_equal('49/*{{{*/', getline('.'))
norm! j
call assert_equal('55', getline('.'))
" Test for zm with a count
50
set foldlevel=2
norm! 3zm
call assert_equal(0, &foldlevel)
call assert_equal(49, foldclosed(line('.')))
" Test for zM
48
set nofoldenable foldlevel=99
norm! zM
call assert_equal(1, &foldenable)
call assert_equal(0, &foldlevel)
call assert_equal('48', getline('.'))
norm! j
call assert_equal('49/*{{{*/', getline('.'))
norm! j
call assert_equal('55', getline('.'))
" Test for zr
48
set nofoldenable foldlevel=0
norm! zr
call assert_equal(0, &foldenable)
call assert_equal(1, &foldlevel)
set foldlevel=0 foldenable
norm! zr
call assert_equal(1, &foldenable)
call assert_equal(1, &foldlevel)
norm! zr
call assert_equal(2, &foldlevel)
call assert_equal('48', getline('.'))
norm! j
call assert_equal('49/*{{{*/', getline('.'))
norm! j
call assert_equal('50/*{{{*/', getline('.'))
norm! j
call assert_equal('51/*}}}*/', getline('.'))
norm! j
call assert_equal('52', getline('.'))
" Test for zR
48
set nofoldenable foldlevel=0
norm! zR
call assert_equal(0, &foldenable)
call assert_equal(2, &foldlevel)
set foldenable foldlevel=0
norm! zR
call assert_equal(1, &foldenable)
call assert_equal(2, &foldlevel)
call assert_equal('48', getline('.'))
norm! j
call assert_equal('49/*{{{*/', getline('.'))
norm! j
call assert_equal('50/*{{{*/', getline('.'))
norm! j
call assert_equal('51/*}}}*/', getline('.'))
norm! j
call assert_equal('52', getline('.'))
call append(50, ['a /*{{{*/', 'b /*}}}*/'])
48
call assert_equal('48', getline('.'))
norm! j
call assert_equal('49/*{{{*/', getline('.'))
norm! j
call assert_equal('50/*{{{*/', getline('.'))
norm! j
call assert_equal('a /*{{{*/', getline('.'))
norm! j
call assert_equal('51/*}}}*/', getline('.'))
norm! j
call assert_equal('52', getline('.'))
48
norm! zR
call assert_equal(1, &foldenable)
call assert_equal(3, &foldlevel)
call assert_equal('48', getline('.'))
norm! j
call assert_equal('49/*{{{*/', getline('.'))
norm! j
call assert_equal('50/*{{{*/', getline('.'))
norm! j
call assert_equal('a /*{{{*/', getline('.'))
norm! j
call assert_equal('b /*}}}*/', getline('.'))
norm! j
call assert_equal('51/*}}}*/', getline('.'))
norm! j
call assert_equal('52', getline('.'))
" clean up
setl nofoldenable fdm=marker foldlevel=0
bw!
endfunc
func Test_normal20_exmode()
" Reading from redirected file doesn't work on MS-Windows
CheckNotMSWindows
call writefile(['1a', 'foo', 'bar', '.', 'w! Xfile2', 'q!'], 'Xscript')
call writefile(['1', '2'], 'Xfile')
call system(GetVimCommand() .. ' -e -s < Xscript Xfile')
let a=readfile('Xfile2')
call assert_equal(['1', 'foo', 'bar', '2'], a)
" clean up
for file in ['Xfile', 'Xfile2', 'Xscript']
call delete(file)
endfor
bw!
endfunc
func Test_normal21_nv_hat()
" Edit a fresh file and wipe the buffer list so that there is no alternate
" file present. Next, check for the expected command failures.
edit Xfoo | %bw
call assert_fails(':buffer #', 'E86')
call assert_fails(':execute "normal! \<C-^>"', 'E23')
call assert_fails("normal i\<C-R>#", 'E23:')
" Test for the expected behavior when switching between two named buffers.
edit Xfoo | edit Xbar
call feedkeys("\<C-^>", 'tx')
call assert_equal('Xfoo', fnamemodify(bufname('%'), ':t'))
call feedkeys("\<C-^>", 'tx')
call assert_equal('Xbar', fnamemodify(bufname('%'), ':t'))
" Test for the expected behavior when only one buffer is named.
enew | let l:nr = bufnr('%')
call feedkeys("\<C-^>", 'tx')
call assert_equal('Xbar', fnamemodify(bufname('%'), ':t'))
call feedkeys("\<C-^>", 'tx')
call assert_equal('', bufname('%'))
call assert_equal(l:nr, bufnr('%'))
" Test that no action is taken by "<C-^>" when an operator is pending.
edit Xfoo
call feedkeys("ci\<C-^>", 'tx')
call assert_equal('Xfoo', fnamemodify(bufname('%'), ':t'))
%bw!
endfunc
func Test_normal22_zet()
" Test for ZZ
" let shell = &shell
" let &shell = 'sh'
call writefile(['1', '2'], 'Xn22file', 'D')
let args = ' -N -i NONE --noplugins -X --headless'
call system(GetVimCommand() .. args .. ' -c "%d" -c ":norm! ZZ" Xn22file')
let a = readfile('Xn22file')
call assert_equal([], a)
" Test for ZQ
call writefile(['1', '2'], 'Xn22file')
call system(GetVimCommand() . args . ' -c "%d" -c ":norm! ZQ" Xn22file')
let a = readfile('Xn22file')
call assert_equal(['1', '2'], a)
" Unsupported Z command
call assert_beeps('normal! ZW')
" clean up
" let &shell = shell
endfunc
func Test_normal23_K()
" Test for K command
new
call append(0, ['helphelp.txt', 'man', 'aa%bb', 'cc|dd'])
let k = &keywordprg
set keywordprg=:help
1
norm! VK
call assert_equal('helphelp.txt', fnamemodify(bufname('%'), ':t'))
call assert_equal('help', &ft)
call assert_match('\*helphelp.txt\*', getline('.'))
helpclose
norm! 0K
call assert_equal('helphelp.txt', fnamemodify(bufname('%'), ':t'))
call assert_equal('help', &ft)
call assert_match('Help on help files', getline('.'))
helpclose
set keywordprg=:new
set iskeyword+=%
set iskeyword+=\|
2
norm! K
call assert_equal('man', fnamemodify(bufname('%'), ':t'))
bwipe!
3
norm! K
call assert_equal('aa%bb', fnamemodify(bufname('%'), ':t'))
bwipe!
if !has('win32')
4
norm! K
call assert_equal('cc|dd', fnamemodify(bufname('%'), ':t'))
bwipe!
endif
set iskeyword-=%
set iskeyword-=\|
" Currently doesn't work in Nvim, see #19436
" Test for specifying a count to K
" 1
" com! -nargs=* Kprog let g:Kprog_Args = <q-args>
" set keywordprg=:Kprog
" norm! 3K
" call assert_equal('3 version8', g:Kprog_Args)
" delcom Kprog
" Only expect "man" to work on Unix
if !has("unix") || has('nvim') " Nvim K uses :terminal. #15398
let &keywordprg = k
bw!
return
endif
let not_gnu_man = has('mac') || has('bsd')
if not_gnu_man
" In MacOS and BSD, the option for specifying a pager is different
set keywordprg=man\ -P\ cat
else
set keywordprg=man\ --pager=cat
endif
" Test for using man
2
let a = execute('unsilent norm! K')
if not_gnu_man
call assert_match("man -P cat 'man'", a)
else
call assert_match("man --pager=cat 'man'", a)
endif
" Error cases
call setline(1, '#$#')
call assert_fails('normal! ggK', 'E349:')
call setline(1, '---')
call assert_fails('normal! ggv2lK', 'E349:')
call setline(1, ['abc', 'xyz'])
call assert_fails("normal! gg2lv2h\<C-]>", 'E433:')
call assert_beeps("normal! ggVjK")
" clean up
let &keywordprg = k
bw!
endfunc
func Test_normal24_rot13()
" Testing for g?? g?g?
new
call append(0, 'abcdefghijklmnopqrstuvwxyzäüö')
1
norm! g??
call assert_equal('nopqrstuvwxyzabcdefghijklmäüö', getline('.'))
norm! g?g?
call assert_equal('abcdefghijklmnopqrstuvwxyzäüö', getline('.'))
" clean up
bw!
endfunc
func Test_normal25_tag()
" Testing for CTRL-] g CTRL-] g]
" CTRL-W g] CTRL-W CTRL-] CTRL-W g CTRL-]
h
" Test for CTRL-]
call search('\<x\>$')
exe "norm! \<c-]>"
call assert_equal("change.txt", fnamemodify(bufname('%'), ':t'))
norm! yiW
call assert_equal("*x*", @0)
exe ":norm \<c-o>"
" Test for g_CTRL-]
call search('\<v_u\>$')
exe "norm! g\<c-]>"
call assert_equal("change.txt", fnamemodify(bufname('%'), ':t'))
norm! yiW
call assert_equal("*v_u*", @0)
exe ":norm \<c-o>"
" Test for g]
call search('\<i_<Esc>$')
let a = execute(":norm! g]")
call assert_match('i_<Esc>.*insert.txt', a)
if !empty(exepath('cscope')) && has('cscope')
" setting cscopetag changes how g] works
set cst
exe "norm! g]"
call assert_equal("insert.txt", fnamemodify(bufname('%'), ':t'))
norm! yiW
call assert_equal("*i_<Esc>*", @0)
exe ":norm \<c-o>"
" Test for CTRL-W g]
exe "norm! \<C-W>g]"
call assert_equal("insert.txt", fnamemodify(bufname('%'), ':t'))
norm! yiW
call assert_equal("*i_<Esc>*", @0)
call assert_equal(3, winnr('$'))
helpclose
set nocst
endif
" Test for CTRL-W g]
let a = execute("norm! \<C-W>g]")
call assert_match('i_<Esc>.*insert.txt', a)
" Test for CTRL-W CTRL-]
exe "norm! \<C-W>\<C-]>"
call assert_equal("insert.txt", fnamemodify(bufname('%'), ':t'))
norm! yiW
call assert_equal("*i_<Esc>*", @0)
call assert_equal(3, winnr('$'))
helpclose
" Test for CTRL-W g CTRL-]
exe "norm! \<C-W>g\<C-]>"
call assert_equal("insert.txt", fnamemodify(bufname('%'), ':t'))
norm! yiW
call assert_equal("*i_<Esc>*", @0)
call assert_equal(3, winnr('$'))
helpclose
" clean up
helpclose
endfunc
func Test_normal26_put()
" Test for ]p ]P [p and [P
new
call append(0, ['while read LINE', 'do', ' ((count++))', ' if [ $? -ne 0 ]; then', " echo 'Error writing file'", ' fi', 'done'])
1
/Error/y a
2
norm! "a]pj"a[p
call assert_equal(['do', "echo 'Error writing file'", " echo 'Error writing file'", ' ((count++))'], getline(2,5))
1
/^\s\{4}/
exe "norm! \"a]P3Eldt'"
exe "norm! j\"a[P2Eldt'"
call assert_equal([' if [ $? -ne 0 ]; then', " echo 'Error writing'", " echo 'Error'", " echo 'Error writing file'", ' fi'], getline(6,10))
" clean up
bw!
endfunc
func Test_normal27_bracket()
" Test for [' [` ]' ]`
call Setup_NewWindow()
1,21s/.\+/ & b/
1
norm! $ma
5
norm! $mb
10
norm! $mc
15
norm! $md
20
norm! $me
" Test for ['
9
norm! 2['
call assert_equal(' 1 b', getline('.'))
call assert_equal(1, line('.'))
call assert_equal(3, col('.'))
" Test for ]'
norm! ]'
call assert_equal(' 5 b', getline('.'))
call assert_equal(5, line('.'))
call assert_equal(3, col('.'))
" No mark before line 1, cursor moves to first non-blank on current line
1
norm! 5|['
call assert_equal(' 1 b', getline('.'))
call assert_equal(1, line('.'))
call assert_equal(3, col('.'))
" No mark after line 21, cursor moves to first non-blank on current line
21
norm! 5|]'
call assert_equal(' 21 b', getline('.'))
call assert_equal(21, line('.'))
call assert_equal(3, col('.'))
" Test for [`
norm! 2[`
call assert_equal(' 15 b', getline('.'))
call assert_equal(15, line('.'))
call assert_equal(8, col('.'))
" Test for ]`
norm! ]`
call assert_equal(' 20 b', getline('.'))
call assert_equal(20, line('.'))
call assert_equal(8, col('.'))
" No mark before line 1, cursor does not move
1
norm! 5|[`
call assert_equal(' 1 b', getline('.'))
call assert_equal(1, line('.'))
call assert_equal(5, col('.'))
" No mark after line 21, cursor does not move
21
norm! 5|]`
call assert_equal(' 21 b', getline('.'))
call assert_equal(21, line('.'))
call assert_equal(5, col('.'))
" Count too large for [`
" cursor moves to first lowercase mark
norm! 99[`
call assert_equal(' 1 b', getline('.'))
call assert_equal(1, line('.'))
call assert_equal(7, col('.'))
" Count too large for ]`
" cursor moves to last lowercase mark
norm! 99]`
call assert_equal(' 20 b', getline('.'))
call assert_equal(20, line('.'))
call assert_equal(8, col('.'))
" clean up
bw!
endfunc
" Test for ( and ) sentence movements
func Test_normal28_parenthesis()
new
call append(0, ['This is a test. With some sentences!', '', 'Even with a question? And one more. And no sentence here'])
$
norm! d(
call assert_equal(['This is a test. With some sentences!', '', 'Even with a question? And one more. ', ''], getline(1, '$'))
norm! 2d(
call assert_equal(['This is a test. With some sentences!', '', ' ', ''], getline(1, '$'))
1
norm! 0d)
call assert_equal(['With some sentences!', '', ' ', ''], getline(1, '$'))
call append('$', ['This is a long sentence', '', 'spanning', 'over several lines. '])
$
norm! $d(
call assert_equal(['With some sentences!', '', ' ', '', 'This is a long sentence', ''], getline(1, '$'))
" Move to the next sentence from a paragraph macro
%d
call setline(1, ['.LP', 'blue sky!. blue sky.', 'blue sky. blue sky.'])
call cursor(1, 1)
normal )
call assert_equal([2, 1], [line('.'), col('.')])
normal )
call assert_equal([2, 12], [line('.'), col('.')])
normal ((
call assert_equal([1, 1], [line('.'), col('.')])
" It is an error if a next sentence is not found
%d
call setline(1, '.SH')
call assert_beeps('normal )')
" If only dot is present, don't treat that as a sentence
call setline(1, '. This is a sentence.')
normal $((
call assert_equal(3, col('.'))
" Jumping to a fold should open the fold
call setline(1, ['', '', 'one', 'two', 'three'])
set foldenable
2,$fold
call feedkeys(')', 'xt')
call assert_equal(3, line('.'))
call assert_equal(1, foldlevel('.'))
call assert_equal(-1, foldclosed('.'))
set foldenable&
" clean up
bw!
endfunc
" Test for { and } paragraph movements
func Test_normal29_brace()
let text =<< trim [DATA]
A paragraph begins after each empty line, and also at each of a set of
paragraph macros, specified by the pairs of characters in the 'paragraphs'
option. The default is "IPLPPPQPP TPHPLIPpLpItpplpipbp", which corresponds to
the macros ".IP", ".LP", etc. (These are nroff macros, so the dot must be in
the first column). A section boundary is also a paragraph boundary.
Note that a blank line (only containing white space) is NOT a paragraph
boundary.
Also note that this does not include a '{' or '}' in the first column. When
the '{' flag is in 'cpoptions' then '{' in the first column is used as a
paragraph boundary |posix|.
{
This is no paragraph
unless the '{' is set
in 'cpoptions'
}
.IP
The nroff macros IP separates a paragraph
That means, it must be a '.'
followed by IP
.LPIt does not matter, if afterwards some
more characters follow.
.SHAlso section boundaries from the nroff
macros terminate a paragraph. That means
a character like this:
.NH
End of text here
[DATA]
new
call append(0, text)
1
norm! 0d2}
let expected =<< trim [DATA]
.IP
The nroff macros IP separates a paragraph
That means, it must be a '.'
followed by IP
.LPIt does not matter, if afterwards some
more characters follow.
.SHAlso section boundaries from the nroff
macros terminate a paragraph. That means
a character like this:
.NH
End of text here
[DATA]
call assert_equal(expected, getline(1, '$'))
norm! 0d}
let expected =<< trim [DATA]
.LPIt does not matter, if afterwards some
more characters follow.
.SHAlso section boundaries from the nroff
macros terminate a paragraph. That means
a character like this:
.NH
End of text here
[DATA]
call assert_equal(expected, getline(1, '$'))
$
norm! d{
let expected =<< trim [DATA]
.LPIt does not matter, if afterwards some
more characters follow.
.SHAlso section boundaries from the nroff
macros terminate a paragraph. That means
a character like this:
[DATA]
call assert_equal(expected, getline(1, '$'))
norm! d{
let expected =<< trim [DATA]
.LPIt does not matter, if afterwards some
more characters follow.
[DATA]
call assert_equal(expected, getline(1, '$'))
" Test with { in cpooptions
%d
call append(0, text)
" Nvim: no "{" flag in 'cpoptions'.
" set cpo+={
" 1
" norm! 0d2}
let expected =<< trim [DATA]
{
This is no paragraph
unless the '{' is set
in 'cpoptions'
}
.IP
The nroff macros IP separates a paragraph
That means, it must be a '.'
followed by IP
.LPIt does not matter, if afterwards some
more characters follow.
.SHAlso section boundaries from the nroff
macros terminate a paragraph. That means
a character like this:
.NH
End of text here
[DATA]
" call assert_equal(expected, getline(1, '$'))
" $
" norm! d}
let expected =<< trim [DATA]
{
This is no paragraph
unless the '{' is set
in 'cpoptions'
}
.IP
The nroff macros IP separates a paragraph
That means, it must be a '.'
followed by IP
.LPIt does not matter, if afterwards some
more characters follow.
.SHAlso section boundaries from the nroff
macros terminate a paragraph. That means
a character like this:
.NH
End of text here
[DATA]
" call assert_equal(expected, getline(1, '$'))
" norm! gg}
" norm! d5}
let expected =<< trim [DATA]
{
This is no paragraph
unless the '{' is set
in 'cpoptions'
}
[DATA]
" call assert_equal(expected, getline(1, '$'))
" Jumping to a fold should open the fold
" %d
" call setline(1, ['', 'one', 'two', ''])
" set foldenable
" 2,$fold
" call feedkeys('}', 'xt')
" call assert_equal(4, line('.'))
" call assert_equal(1, foldlevel('.'))
" call assert_equal(-1, foldclosed('.'))
" set foldenable&
" clean up
set cpo-={
bw!
endfunc
" Test for section movements
func Test_normal_section()
new
let lines =<< trim [END]
int foo()
{
if (1)
{
a = 1;
}
}
[END]
call setline(1, lines)
" jumping to a folded line using [[ should open the fold
2,3fold
call cursor(5, 1)
call feedkeys("[[", 'xt')
call assert_equal(2, line('.'))
call assert_equal(-1, foldclosedend(line('.')))
bwipe!
endfunc
" Test for changing case using u, U, gu, gU and ~ (tilde) commands
func Test_normal30_changecase()
new
call append(0, 'This is a simple test: äüöß')
norm! 1ggVu
call assert_equal('this is a simple test: äüöß', getline('.'))
norm! VU
call assert_equal('THIS IS A SIMPLE TEST: ÄÜÖSS', getline('.'))
norm! guu
call assert_equal('this is a simple test: äüöss', getline('.'))
norm! gUgU
call assert_equal('THIS IS A SIMPLE TEST: ÄÜÖSS', getline('.'))
norm! gugu
call assert_equal('this is a simple test: äüöss', getline('.'))
norm! gUU
call assert_equal('THIS IS A SIMPLE TEST: ÄÜÖSS', getline('.'))
norm! 010~
call assert_equal('this is a SIMPLE TEST: ÄÜÖSS', getline('.'))
norm! V~
call assert_equal('THIS IS A simple test: äüöss', getline('.'))
call assert_beeps('norm! c~')
%d
call assert_beeps('norm! ~')
" Test for changing case across lines using 'whichwrap'
call setline(1, ['aaaaaa', 'aaaaaa'])
normal! gg10~
call assert_equal(['AAAAAA', 'aaaaaa'], getline(1, 2))
set whichwrap+=~
normal! gg10~
call assert_equal(['aaaaaa', 'AAAAaa'], getline(1, 2))
set whichwrap&
" try changing the case with a double byte encoding (DBCS)
%bw!
let enc = &enc
" set encoding=cp932
call setline(1, "\u8470")
normal ~
normal gU$gu$gUgUg~g~gugu
call assert_equal("\u8470", getline(1))
let &encoding = enc
" clean up
bw!
endfunc
" Turkish ASCII turns to multi-byte. On some systems Turkish locale
" is available but toupper()/tolower() don't do the right thing.
func Test_normal_changecase_turkish()
new
try
lang tr_TR.UTF-8
set casemap=
let iupper = toupper('i')
if iupper == "\u0130"
call setline(1, 'iI')
1normal gUU
call assert_equal("\u0130I", getline(1))
call assert_equal("\u0130I", toupper("iI"))
call setline(1, 'iI')
1normal guu
call assert_equal("i\u0131", getline(1))
call assert_equal("i\u0131", tolower("iI"))
elseif iupper == "I"
call setline(1, 'iI')
1normal gUU
call assert_equal("II", getline(1))
call assert_equal("II", toupper("iI"))
call setline(1, 'iI')
1normal guu
call assert_equal("ii", getline(1))
call assert_equal("ii", tolower("iI"))
else
call assert_true(false, "expected toupper('i') to be either 'I' or '\u0131'")
endif
set casemap&
call setline(1, 'iI')
1normal gUU
call assert_equal("II", getline(1))
call assert_equal("II", toupper("iI"))
call setline(1, 'iI')
1normal guu
call assert_equal("ii", getline(1))
call assert_equal("ii", tolower("iI"))
lang en_US.UTF-8
catch /E197:/
" can't use Turkish locale
throw 'Skipped: Turkish locale not available'
endtry
bwipe!
endfunc
" Test for r (replace) command
func Test_normal31_r_cmd()
new
call append(0, 'This is a simple test: abcd')
exe "norm! 1gg$r\<cr>"
call assert_equal(['This is a simple test: abc', '', ''], getline(1,'$'))
exe "norm! 1gg2wlr\<cr>"
call assert_equal(['This is a', 'simple test: abc', '', ''], getline(1,'$'))
exe "norm! 2gg0W5r\<cr>"
call assert_equal(['This is a', 'simple ', ' abc', '', ''], getline('1', '$'))
set autoindent
call setline(2, ['simple test: abc', ''])
exe "norm! 2gg0W5r\<cr>"
call assert_equal(['This is a', 'simple ', 'abc', '', '', ''], getline('1', '$'))
exe "norm! 1ggVr\<cr>"
call assert_equal('^M^M^M^M^M^M^M^M^M', strtrans(getline(1)))
call setline(1, 'This is a')
exe "norm! 1gg05rf"
call assert_equal('fffffis a', getline(1))
" When replacing characters, copy characters from above and below lines
" using CTRL-Y and CTRL-E.
" Different code paths are used for utf-8 and latin1 encodings
set showmatch
" for enc in ['latin1', 'utf-8']
for enc in ['utf-8']
enew!
let &encoding = enc
call setline(1, [' {a}', 'xxxxxxxxxx', ' [b]'])
exe "norm! 2gg5r\<C-Y>l5r\<C-E>"
call assert_equal(' {a}x [b]x', getline(2))
endfor
set showmatch&
" r command should fail in operator pending mode
call assert_beeps('normal! cr')
" replace a tab character in visual mode
%d
call setline(1, ["a\tb", "c\td", "e\tf"])
normal gglvjjrx
call assert_equal(['axx', 'xxx', 'xxf'], getline(1, '$'))
" replace with a multibyte character (with multiple composing characters)
%d
new
call setline(1, 'aaa')
exe "normal $ra\u0328\u0301"
call assert_equal("aaa\u0328\u0301", getline(1))
" clean up
set noautoindent
bw!
endfunc
" Test for g*, g#
func Test_normal32_g_cmd1()
new
call append(0, ['abc.x_foo', 'x_foobar.abc'])
1
norm! $g*
call assert_equal('x_foo', @/)
call assert_equal('x_foobar.abc', getline('.'))
norm! $g#
call assert_equal('abc', @/)
call assert_equal('abc.x_foo', getline('.'))
" clean up
bw!
endfunc
" Test for g`, g;, g,, g&, gv, gk, gj, gJ, g0, g^, g_, gm, g$, gM, g CTRL-G,
" gi and gI commands
func Test_normal33_g_cmd2()
call Setup_NewWindow()
" Test for g`
clearjumps
norm! ma10j
let a=execute(':jumps')
" empty jumplist
call assert_equal('>', a[-1:])
norm! g`a
call assert_equal('>', a[-1:])
call assert_equal(1, line('.'))
call assert_equal('1', getline('.'))
call cursor(10, 1)
norm! g'a
call assert_equal('>', a[-1:])
call assert_equal(1, line('.'))
let v:errmsg = ''
call assert_nobeep("normal! g`\<Esc>")
call assert_equal('', v:errmsg)
call assert_nobeep("normal! g'\<Esc>")
call assert_equal('', v:errmsg)
" Test for g; and g,
norm! g;
" there is only one change in the changelist
" currently, when we setup the window
call assert_equal(2, line('.'))
call assert_fails(':norm! g;', 'E662')
call assert_fails(':norm! g,', 'E663')
let &ul = &ul
call append('$', ['a', 'b', 'c', 'd'])
let &ul = &ul
call append('$', ['Z', 'Y', 'X', 'W'])
let a = execute(':changes')
call assert_match('2\s\+0\s\+2', a)
call assert_match('101\s\+0\s\+a', a)
call assert_match('105\s\+0\s\+Z', a)
norm! 3g;
call assert_equal(2, line('.'))
norm! 2g,
call assert_equal(105, line('.'))
" Test for g& - global substitute
%d
call setline(1, range(1,10))
call append('$', ['a', 'b', 'c', 'd'])
$s/\w/&&/g
exe "norm! /[1-8]\<cr>"
norm! g&
call assert_equal(['11', '22', '33', '44', '55', '66', '77', '88', '9', '110', 'a', 'b', 'c', 'dd'], getline(1, '$'))
" Jumping to a fold using gg should open the fold
set foldenable
set foldopen+=jump
5,8fold
call feedkeys('6gg', 'xt')
call assert_equal(1, foldlevel('.'))
call assert_equal(-1, foldclosed('.'))
set foldopen-=jump
set foldenable&
" Test for gv
%d
call append('$', repeat(['abcdefgh'], 8))
exe "norm! 2gg02l\<c-v>2j2ly"
call assert_equal(['cde', 'cde', 'cde'], getreg(0, 1, 1))
" in visual mode, gv swaps current and last selected region
exe "norm! G0\<c-v>4k4lgvd"
call assert_equal(['', 'abfgh', 'abfgh', 'abfgh', 'abcdefgh', 'abcdefgh', 'abcdefgh', 'abcdefgh', 'abcdefgh'], getline(1,'$'))
exe "norm! G0\<c-v>4k4ly"
exe "norm! gvood"
call assert_equal(['', 'abfgh', 'abfgh', 'abfgh', 'fgh', 'fgh', 'fgh', 'fgh', 'fgh'], getline(1,'$'))
" gv cannot be used in operator pending mode
call assert_beeps('normal! cgv')
" gv should beep without a previously selected visual area
new
call assert_beeps('normal! gv')
close
" Test for gk/gj
%d
15vsp
set wrap listchars= sbr=
let lineA = 'abcdefghijklmnopqrstuvwxyz'
let lineB = '0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZ'
let lineC = '0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz01234567890123456789ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789'
$put =lineA
$put =lineB
norm! 3gg0dgk
call assert_equal(['', 'abcdefghijklmno', '0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZ'], getline(1, '$'))
set nu
norm! 3gg0gjdgj
call assert_equal(['', 'abcdefghijklmno', '0123456789AMNOPQRSTUVWXYZ'], getline(1,'$'))
" Test for gJ
norm! 2gggJ
call assert_equal(['', 'abcdefghijklmno0123456789AMNOPQRSTUVWXYZ'], getline(1,'$'))
call assert_equal(16, col('.'))
" shouldn't do anything
norm! 10gJ
call assert_equal(1, col('.'))
" Test for g0 g^ gm g$
exe "norm! 2gg0gji "
call assert_equal(['', 'abcdefghijk lmno0123456789AMNOPQRSTUVWXYZ'], getline(1,'$'))
norm! g0yl
call assert_equal(12, col('.'))
call assert_equal(' ', getreg(0))
norm! g$yl
call assert_equal(22, col('.'))
call assert_equal('3', getreg(0))
norm! gmyl
call assert_equal(17, col('.'))
call assert_equal('n', getreg(0))
norm! g^yl
call assert_equal(15, col('.'))
call assert_equal('l', getreg(0))
call assert_beeps('normal 5g$')
" Test for g$ with double-width character half displayed
vsplit
9wincmd |
setlocal nowrap nonumber
call setline(2, 'asdfasdfヨ')
2
normal 0g$
call assert_equal(8, col('.'))
10wincmd |
normal 0g$
call assert_equal(9, col('.'))
setlocal signcolumn=yes
11wincmd |
normal 0g$
call assert_equal(8, col('.'))
12wincmd |
normal 0g$
call assert_equal(9, col('.'))
close
" Test for g_
call assert_beeps('normal! 100g_')
call setline(2, [' foo ', ' foobar '])
normal! 2ggg_
call assert_equal(5, col('.'))
normal! 2g_
call assert_equal(8, col('.'))
norm! 2ggdG
$put =lineC
" Test for gM
norm! gMyl
call assert_equal(73, col('.'))
call assert_equal('0', getreg(0))
" Test for 20gM
norm! 20gMyl
call assert_equal(29, col('.'))
call assert_equal('S', getreg(0))
" Test for 60gM
norm! 60gMyl
call assert_equal(87, col('.'))
call assert_equal('E', getreg(0))
" Test for gM with Tab characters
call setline('.', "\ta\tb\tc\td\te\tf")
norm! gMyl
call assert_equal(6, col('.'))
call assert_equal("c", getreg(0))
" Test for g Ctrl-G
call setline('.', lineC)
norm! 60gMyl
set ff=unix
let a=execute(":norm! g\<c-g>")
call assert_match('Col 87 of 144; Line 2 of 2; Word 1 of 1; Byte 88 of 146', a)
" Test for gI
norm! gIfoo
call assert_equal(['', 'foo0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz01234567890123456789ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789'], getline(1,'$'))
" Test for gi
wincmd c
%d
set tw=0
call setline(1, ['foobar', 'new line'])
norm! A next word
$put ='third line'
norm! gi another word
call assert_equal(['foobar next word another word', 'new line', 'third line'], getline(1,'$'))
call setline(1, 'foobar')
normal! Ggifirst line
call assert_equal('foobarfirst line', getline(1))
" Test gi in 'virtualedit' mode with cursor after the end of the line
set virtualedit=all
call setline(1, 'foo')
exe "normal! Abar\<Right>\<Right>\<Right>\<Right>"
call setline(1, 'foo')
normal! Ggifirst line
call assert_equal('foo first line', getline(1))
set virtualedit&
" Test for aboring a g command using CTRL-\ CTRL-G
exe "normal! g\<C-\>\<C-G>"
call assert_equal('foo first line', getline('.'))
" clean up
bw!
endfunc
func Test_normal_ex_substitute()
" This was hanging on the substitute prompt.
new
call setline(1, 'a')
exe "normal! gggQs/a/b/c\<CR>"
call assert_equal('a', getline(1))
bwipe!
endfunc
" Test for g CTRL-G
func Test_g_ctrl_g()
new
let a = execute(":norm! g\<c-g>")
call assert_equal("\n--No lines in buffer--", a)
" Test for CTRL-G (same as :file)
let a = execute(":norm! \<c-g>")
call assert_equal("\n\n\"[No Name]\" --No lines in buffer--", a)
call setline(1, ['first line', 'second line'])
" Test g CTRL-g with dos, mac and unix file type.
norm! gojll
set ff=dos
let a = execute(":norm! g\<c-g>")
call assert_equal("\nCol 3 of 11; Line 2 of 2; Word 3 of 4; Byte 15 of 25", a)
set ff=mac
let a = execute(":norm! g\<c-g>")
call assert_equal("\nCol 3 of 11; Line 2 of 2; Word 3 of 4; Byte 14 of 23", a)
set ff=unix
let a = execute(":norm! g\<c-g>")
call assert_equal("\nCol 3 of 11; Line 2 of 2; Word 3 of 4; Byte 14 of 23", a)
" Test g CTRL-g in visual mode (v)
let a = execute(":norm! gojllvlg\<c-g>")
call assert_equal("\nSelected 1 of 2 Lines; 1 of 4 Words; 2 of 23 Bytes", a)
" Test g CTRL-g in visual mode (CTRL-V) with end col > start col
let a = execute(":norm! \<Esc>gojll\<C-V>kllg\<c-g>")
call assert_equal("\nSelected 3 Cols; 2 of 2 Lines; 2 of 4 Words; 6 of 23 Bytes", a)
" Test g_CTRL-g in visual mode (CTRL-V) with end col < start col
let a = execute(":norm! \<Esc>goll\<C-V>jhhg\<c-g>")
call assert_equal("\nSelected 3 Cols; 2 of 2 Lines; 2 of 4 Words; 6 of 23 Bytes", a)
" Test g CTRL-g in visual mode (CTRL-V) with end_vcol being MAXCOL
let a = execute(":norm! \<Esc>gojll\<C-V>k$g\<c-g>")
call assert_equal("\nSelected 2 of 2 Lines; 4 of 4 Words; 17 of 23 Bytes", a)
" There should be one byte less with noeol
set bin noeol
let a = execute(":norm! \<Esc>gog\<c-g>")
call assert_equal("\nCol 1 of 10; Line 1 of 2; Word 1 of 4; Char 1 of 23; Byte 1 of 22", a)
set bin & eol&
call setline(1, ['Français', '日本語'])
let a = execute(":norm! \<Esc>gojlg\<c-g>")
call assert_equal("\nCol 4-3 of 9-6; Line 2 of 2; Word 2 of 2; Char 11 of 13; Byte 16 of 20", a)
let a = execute(":norm! \<Esc>gojvlg\<c-g>")
call assert_equal("\nSelected 1 of 2 Lines; 1 of 2 Words; 2 of 13 Chars; 6 of 20 Bytes", a)
let a = execute(":norm! \<Esc>goll\<c-v>jlg\<c-g>")
call assert_equal("\nSelected 4 Cols; 2 of 2 Lines; 2 of 2 Words; 6 of 13 Chars; 11 of 20 Bytes", a)
set fenc=utf8 bomb
let a = execute(":norm! \<Esc>gojlg\<c-g>")
call assert_equal("\nCol 4-3 of 9-6; Line 2 of 2; Word 2 of 2; Char 11 of 13; Byte 16 of 20(+3 for BOM)", a)
set fenc=utf16 bomb
let a = execute(":norm! g\<c-g>")
call assert_equal("\nCol 4-3 of 9-6; Line 2 of 2; Word 2 of 2; Char 11 of 13; Byte 16 of 20(+2 for BOM)", a)
set fenc=utf32 bomb
let a = execute(":norm! g\<c-g>")
call assert_equal("\nCol 4-3 of 9-6; Line 2 of 2; Word 2 of 2; Char 11 of 13; Byte 16 of 20(+4 for BOM)", a)
set fenc& bomb&
set ff&
bwipe!
endfunc
" Test for g8
func Test_normal34_g_cmd3()
new
let a=execute(':norm! 1G0g8')
call assert_equal("\nNUL", a)
call setline(1, 'abcdefghijklmnopqrstuvwxyzäüö')
let a=execute(':norm! 1G$g8')
call assert_equal("\nc3 b6 ", a)
call setline(1, "a\u0302")
let a=execute(':norm! 1G0g8')
call assert_equal("\n61 + cc 82 ", a)
" clean up
bw!
endfunc
" Test 8g8 which finds invalid utf8 at or after the cursor.
func Test_normal_8g8()
new
" With invalid byte.
call setline(1, "___\xff___")
norm! 1G08g8g
call assert_equal([0, 1, 4, 0, 1], getcurpos())
" With invalid byte before the cursor.
call setline(1, "___\xff___")
norm! 1G$h8g8g
call assert_equal([0, 1, 6, 0, 9], getcurpos())
" With truncated sequence.
call setline(1, "___\xE2\x82___")
norm! 1G08g8g
call assert_equal([0, 1, 4, 0, 1], getcurpos())
" With overlong sequence.
call setline(1, "___\xF0\x82\x82\xAC___")
norm! 1G08g8g
call assert_equal([0, 1, 4, 0, 1], getcurpos())
" With valid utf8.
call setline(1, "café")
norm! 1G08g8
call assert_equal([0, 1, 1, 0, 1], getcurpos())
bw!
endfunc
" Test for g<
func Test_normal35_g_cmd4()
" Cannot capture its output,
" probably a bug, therefore, test disabled:
throw "Skipped: output of g< can't be tested currently"
echo "a\nb\nc\nd"
let b=execute(':norm! g<')
call assert_true(!empty(b), 'failed `execute(g<)`')
endfunc
" Test for gp gP go
func Test_normal36_g_cmd5()
new
call append(0, 'abcdefghijklmnopqrstuvwxyz')
set ff=unix
" Test for gp gP
call append(1, range(1,10))
1
norm! 1yy
3
norm! gp
call assert_equal([0, 5, 1, 0, 1], getcurpos())
$
norm! gP
call assert_equal([0, 14, 1, 0, 1], getcurpos())
" Test for go
norm! 26go
call assert_equal([0, 1, 26, 0, 26], getcurpos())
norm! 27go
call assert_equal([0, 1, 26, 0, 26], getcurpos())
norm! 28go
call assert_equal([0, 2, 1, 0, 1], getcurpos())
set ff=dos
norm! 29go
call assert_equal([0, 2, 1, 0, 1], getcurpos())
set ff=unix
norm! gg0
norm! 101go
call assert_equal([0, 13, 26, 0, 26], getcurpos())
norm! 103go
call assert_equal([0, 14, 1, 0, 1], getcurpos())
" count > buffer content
norm! 120go
call assert_equal([0, 14, 1, 0, v:maxcol], getcurpos())
" clean up
bw!
endfunc
" Test for gt and gT
func Test_normal37_g_cmd6()
tabnew 1.txt
tabnew 2.txt
tabnew 3.txt
norm! 1gt
call assert_equal(1, tabpagenr())
norm! 3gt
call assert_equal(3, tabpagenr())
norm! 1gT
" count gT goes not to the absolute tabpagenumber
" but, but goes to the count previous tabpagenumber
call assert_equal(2, tabpagenr())
" wrap around
norm! 3gT
call assert_equal(3, tabpagenr())
" gt does not wrap around
norm! 5gt
call assert_equal(3, tabpagenr())
for i in range(3)
tabclose
endfor
" clean up
call assert_fails(':tabclose', 'E784:')
endfunc
" Test for <Home> and <C-Home> key
func Test_normal38_nvhome()
new
call setline(1, range(10))
$
setl et sw=2
norm! V10>$
" count is ignored
exe "norm! 10\<home>"
call assert_equal(1, col('.'))
exe "norm! \<home>"
call assert_equal([0, 10, 1, 0, 1], getcurpos())
exe "norm! 5\<c-home>"
call assert_equal([0, 5, 1, 0, 1], getcurpos())
exe "norm! \<c-home>"
call assert_equal([0, 1, 1, 0, 1], getcurpos())
exe "norm! G\<c-kHome>"
call assert_equal([0, 1, 1, 0, 1], getcurpos())
" clean up
bw!
endfunc
" Test for <End> and <C-End> keys
func Test_normal_nvend()
new
call setline(1, map(range(1, 10), '"line" .. v:val'))
exe "normal! \<End>"
call assert_equal(5, col('.'))
exe "normal! 4\<End>"
call assert_equal([4, 5], [line('.'), col('.')])
exe "normal! \<C-End>"
call assert_equal([10, 6], [line('.'), col('.')])
bwipe!
endfunc
" Test for cw cW ce
func Test_normal39_cw()
" Test for cw and cW on whitespace
new
set tw=0
call append(0, 'here are some words')
norm! 1gg0elcwZZZ
call assert_equal('hereZZZare some words', getline('.'))
norm! 1gg0elcWYYY
call assert_equal('hereZZZareYYYsome words', getline('.'))
norm! 2gg0cwfoo
call assert_equal('foo', getline('.'))
call setline(1, 'one; two')
call cursor(1, 1)
call feedkeys('cwvim', 'xt')
call assert_equal('vim; two', getline(1))
call feedkeys('0cWone', 'xt')
call assert_equal('one two', getline(1))
"When cursor is at the end of a word 'ce' will change until the end of the
"next word, but 'cw' will change only one character
call setline(1, 'one two')
call feedkeys('0ecwce', 'xt')
call assert_equal('once two', getline(1))
call setline(1, 'one two')
call feedkeys('0ecely', 'xt')
call assert_equal('only', getline(1))
" clean up
bw!
endfunc
" Test for CTRL-\ commands
func Test_normal40_ctrl_bsl()
new
call append(0, 'here are some words')
exe "norm! 1gg0a\<C-\>\<C-N>"
call assert_equal('n', mode())
call assert_equal(1, col('.'))
call assert_equal('', visualmode())
exe "norm! 1gg0viw\<C-\>\<C-N>"
call assert_equal('n', mode())
call assert_equal(4, col('.'))
exe "norm! 1gg0a\<C-\>\<C-G>"
call assert_equal('n', mode())
call assert_equal(1, col('.'))
"imap <buffer> , <c-\><c-n>
" set im
exe ":norm! \<c-\>\<c-n>dw"
" set noim
call assert_equal('are some words', getline(1))
call assert_false(&insertmode)
call assert_beeps("normal! \<C-\>\<C-A>")
" Using CTRL-\ CTRL-N in cmd window should close the window
call feedkeys("q:\<C-\>\<C-N>", 'xt')
call assert_equal('', getcmdwintype())
" clean up
bw!
endfunc
" Test for <c-r>=, <c-r><c-r>= and <c-r><c-o>= in insert mode
func Test_normal41_insert_reg()
new
set sts=2 sw=2 ts=8 tw=0
call append(0, ["aaa\tbbb\tccc", '', '', ''])
let a=getline(1)
norm! 2gg0
exe "norm! a\<c-r>=a\<cr>"
norm! 3gg0
exe "norm! a\<c-r>\<c-r>=a\<cr>"
norm! 4gg0
exe "norm! a\<c-r>\<c-o>=a\<cr>"
call assert_equal(['aaa bbb ccc', 'aaa bbb ccc', 'aaa bbb ccc', 'aaa bbb ccc', ''], getline(1, '$'))
" clean up
set sts=0 sw=8 ts=8
bw!
endfunc
" Test for Ctrl-D and Ctrl-U
func Test_normal42_halfpage()
call Setup_NewWindow()
call assert_equal(5, &scroll)
exe "norm! \<c-d>"
call assert_equal('6', getline('.'))
exe "norm! 2\<c-d>"
call assert_equal('8', getline('.'))
call assert_equal(2, &scroll)
set scroll=5
exe "norm! \<c-u>"
call assert_equal('3', getline('.'))
1
set scrolloff=5
exe "norm! \<c-d>"
call assert_equal('10', getline('.'))
exe "norm! \<c-u>"
call assert_equal('5', getline('.'))
1
set scrolloff=99
exe "norm! \<c-d>"
call assert_equal('10', getline('.'))
set scrolloff=0
100
exe "norm! $\<c-u>"
call assert_equal('95', getline('.'))
call assert_equal([0, 95, 1, 0, 1], getcurpos())
100
set nostartofline
exe "norm! $\<c-u>"
call assert_equal('95', getline('.'))
call assert_equal([0, 95, 2, 0, v:maxcol], getcurpos())
" cleanup
set startofline
bw!
endfunc
func Test_normal45_drop()
if !has('dnd')
" The ~ register does not exist
call assert_beeps('norm! "~')
return
endif
" basic test for drag-n-drop
" unfortunately, without a gui, we can't really test much here,
" so simply test that ~p fails (which uses the drop register)
new
call assert_fails(':norm! "~p', 'E353')
call assert_equal([], getreg('~', 1, 1))
" the ~ register is read only
call assert_fails(':let @~="1"', 'E354')
bw!
endfunc
func Test_normal46_ignore()
new
" How to test this?
" let's just for now test, that the buffer
" does not change
call feedkeys("\<c-s>", 't')
call assert_equal([''], getline(1,'$'))
" no valid commands
exe "norm! \<char-0x100>"
call assert_equal([''], getline(1,'$'))
exe "norm! ä"
call assert_equal([''], getline(1,'$'))
" clean up
bw!
endfunc
func Test_normal47_visual_buf_wipe()
" This was causing a crash or ml_get error.
enew!
call setline(1,'xxx')
normal $
new
call setline(1, range(1,2))
2
exe "norm \<C-V>$"
bw!
norm yp
set nomodified
endfunc
func Test_normal48_wincmd()
new
exe "norm! \<c-w>c"
call assert_equal(1, winnr('$'))
call assert_fails(":norm! \<c-w>c", "E444")
endfunc
func Test_normal49_counts()
new
call setline(1, 'one two three four five six seven eight nine ten')
1
norm! 3d2w
call assert_equal('seven eight nine ten', getline(1))
bw!
endfunc
func Test_normal50_commandline()
CheckFeature timers
CheckFeature cmdline_hist
func! DoTimerWork(id)
call assert_equal('[Command Line]', bufname(''))
" should fail, with E11, but does fail with E23?
"call feedkeys("\<c-^>", 'tm')
" should also fail with E11
call assert_fails(":wincmd p", 'E11')
" return from commandline window
call feedkeys("\<cr>")
endfunc
let oldlang=v:lang
lang C
set updatetime=20
call timer_start(100, 'DoTimerWork')
try
" throws E23, for whatever reason...
call feedkeys('q:', 'x!')
catch /E23/
" no-op
endtry
" clean up
set updatetime=4000
exe "lang" oldlang
bw!
endfunc
func Test_normal51_FileChangedRO()
CheckFeature autocmd
call writefile(['foo'], 'Xreadonly.log')
new Xreadonly.log
setl ro
au FileChangedRO <buffer> :call feedkeys("\<c-^>", 'tix')
call assert_fails(":norm! Af", 'E788')
call assert_equal(['foo'], getline(1,'$'))
call assert_equal('Xreadonly.log', bufname(''))
" cleanup
bw!
call delete("Xreadonly.log")
endfunc
func Test_normal52_rl()
CheckFeature rightleft
new
call setline(1, 'abcde fghij klmnopq')
norm! 1gg$
set rl
call assert_equal(19, col('.'))
call feedkeys('l', 'tx')
call assert_equal(18, col('.'))
call feedkeys('h', 'tx')
call assert_equal(19, col('.'))
call feedkeys("\<right>", 'tx')
call assert_equal(18, col('.'))
call feedkeys("\<left>", 'tx')
call assert_equal(19, col('.'))
call feedkeys("\<s-right>", 'tx')
call assert_equal(13, col('.'))
call feedkeys("\<c-right>", 'tx')
call assert_equal(7, col('.'))
call feedkeys("\<c-left>", 'tx')
call assert_equal(13, col('.'))
call feedkeys("\<s-left>", 'tx')
call assert_equal(19, col('.'))
call feedkeys("<<", 'tx')
call assert_equal(' abcde fghij klmnopq',getline(1))
call feedkeys(">>", 'tx')
call assert_equal('abcde fghij klmnopq',getline(1))
" cleanup
set norl
bw!
endfunc
func Test_normal54_Ctrl_bsl()
new
call setline(1, 'abcdefghijklmn')
exe "norm! df\<c-\>\<c-n>"
call assert_equal(['abcdefghijklmn'], getline(1,'$'))
exe "norm! df\<c-\>\<c-g>"
call assert_equal(['abcdefghijklmn'], getline(1,'$'))
exe "norm! df\<c-\>m"
call assert_equal(['abcdefghijklmn'], getline(1,'$'))
call setline(2, 'abcdefghijklmnāf')
norm! 2gg0
exe "norm! df\<Char-0x101>"
call assert_equal(['abcdefghijklmn', 'f'], getline(1,'$'))
norm! 1gg0
exe "norm! df\<esc>"
call assert_equal(['abcdefghijklmn', 'f'], getline(1,'$'))
" clean up
bw!
endfunc
func Test_normal_large_count()
" This may fail with 32bit long, how do we detect that?
new
normal o
normal 6666666666dL
bwipe!
endfunc
func Test_delete_until_paragraph()
new
normal grádv}
call assert_equal('á', getline(1))
normal grád}
call assert_equal('', getline(1))
bwipe!
endfunc
" Test for the gr (virtual replace) command
func Test_gr_command()
enew!
" Test for the bug fixed by 7.4.387
let save_cpo = &cpo
call append(0, ['First line', 'Second line', 'Third line'])
exe "normal i\<C-G>u"
call cursor(2, 1)
set cpo-=X
normal 4gro
call assert_equal('oooond line', getline(2))
undo
set cpo+=X
normal 4gro
call assert_equal('ooooecond line', getline(2))
let &cpo = save_cpo
normal! ggvegrx
call assert_equal('xxxxx line', getline(1))
exe "normal! gggr\<C-V>122"
call assert_equal('zxxxx line', getline(1))
set virtualedit=all
normal! 15|grl
call assert_equal('zxxxx line l', getline(1))
set virtualedit&
set nomodifiable
call assert_fails('normal! grx', 'E21:')
call assert_fails('normal! gRx', 'E21:')
call assert_nobeep("normal! gr\<Esc>")
set modifiable&
call assert_nobeep("normal! gr\<Esc>")
call assert_nobeep("normal! cgr\<Esc>")
call assert_beeps("normal! cgrx")
call assert_equal('zxxxx line l', getline(1))
exe "normal! 2|gr\<C-V>\<Esc>"
call assert_equal("z\<Esc>xx line l", getline(1))
call setline(1, 'abcdef')
exe "normal! 0gr\<C-O>lx"
call assert_equal("\<C-O>def", getline(1))
call setline(1, 'abcdef')
exe "normal! 0gr\<C-G>lx"
call assert_equal("\<C-G>def", getline(1))
bwipe!
endfunc
func Test_nv_hat_count()
%bwipeout!
let l:nr = bufnr('%') + 1
call assert_fails(':execute "normal! ' . l:nr . '\<C-^>"', 'E92:')
edit Xfoo
let l:foo_nr = bufnr('Xfoo')
edit Xbar
let l:bar_nr = bufnr('Xbar')
" Make sure we are not just using the alternate file.
edit Xbaz
call feedkeys(l:foo_nr . "\<C-^>", 'tx')
call assert_equal('Xfoo', fnamemodify(bufname('%'), ':t'))
call feedkeys(l:bar_nr . "\<C-^>", 'tx')
call assert_equal('Xbar', fnamemodify(bufname('%'), ':t'))
%bwipeout!
endfunc
func Test_message_when_using_ctrl_c()
" Make sure no buffers are changed.
%bwipe!
exe "normal \<C-C>"
call assert_match("Type :qa and press <Enter> to exit Nvim", Screenline(&lines))
new
cal setline(1, 'hi!')
exe "normal \<C-C>"
call assert_match("Type :qa! and press <Enter> to abandon all changes and exit Nvim", Screenline(&lines))
bwipe!
endfunc
func Test_mode_updated_after_ctrl_c()
CheckScreendump
let buf = RunVimInTerminal('', {'rows': 5})
call term_sendkeys(buf, "i")
call term_sendkeys(buf, "\<C-O>")
" wait a moment so that the "-- (insert) --" message is displayed
call TermWait(buf, 50)
call term_sendkeys(buf, "\<C-C>")
call VerifyScreenDump(buf, 'Test_mode_updated_1', {})
call StopVimInTerminal(buf)
endfunc
" Test for '[m', ']m', '[M' and ']M'
" Jumping to beginning and end of methods in Java-like languages
func Test_java_motion()
new
call assert_beeps('normal! [m')
call assert_beeps('normal! ]m')
call assert_beeps('normal! [M')
call assert_beeps('normal! ]M')
let lines =<< trim [CODE]
Piece of Java
{
tt m1 {
t1;
} e1
tt m2 {
t2;
} e2
tt m3 {
if (x)
{
t3;
}
} e3
}
[CODE]
call setline(1, lines)
normal gg
normal 2]maA
call assert_equal("\ttt m1 {A", getline('.'))
call assert_equal([3, 9, 16], [line('.'), col('.'), virtcol('.')])
normal j]maB
call assert_equal("\ttt m2 {B", getline('.'))
call assert_equal([7, 9, 16], [line('.'), col('.'), virtcol('.')])
normal ]maC
call assert_equal("\ttt m3 {C", getline('.'))
call assert_equal([11, 9, 16], [line('.'), col('.'), virtcol('.')])
normal [maD
call assert_equal("\ttt m3 {DC", getline('.'))
call assert_equal([11, 9, 16], [line('.'), col('.'), virtcol('.')])
normal k2[maE
call assert_equal("\ttt m1 {EA", getline('.'))
call assert_equal([3, 9, 16], [line('.'), col('.'), virtcol('.')])
normal 3[maF
call assert_equal("{F", getline('.'))
call assert_equal([2, 2, 2], [line('.'), col('.'), virtcol('.')])
normal ]MaG
call assert_equal("\t}G e1", getline('.'))
call assert_equal([5, 3, 10], [line('.'), col('.'), virtcol('.')])
normal j2]MaH
call assert_equal("\t}H e3", getline('.'))
call assert_equal([16, 3, 10], [line('.'), col('.'), virtcol('.')])
normal ]M]M
normal aI
call assert_equal("}I", getline('.'))
call assert_equal([17, 2, 2], [line('.'), col('.'), virtcol('.')])
normal 2[MaJ
call assert_equal("\t}JH e3", getline('.'))
call assert_equal([16, 3, 10], [line('.'), col('.'), virtcol('.')])
normal k[MaK
call assert_equal("\t}K e2", getline('.'))
call assert_equal([9, 3, 10], [line('.'), col('.'), virtcol('.')])
normal 3[MaL
call assert_equal("{LF", getline('.'))
call assert_equal([2, 2, 2], [line('.'), col('.'), virtcol('.')])
call cursor(2, 1)
call assert_beeps('norm! 5]m')
" jumping to a method in a fold should open the fold
6,10fold
call feedkeys("gg3]m", 'xt')
call assert_equal([7, 8, 15], [line('.'), col('.'), virtcol('.')])
call assert_equal(-1, foldclosedend(7))
bwipe!
endfunc
" Tests for g cmds
func Test_normal_gdollar_cmd()
call Setup_NewWindow()
" Make long lines that will wrap
%s/$/\=repeat(' foobar', 10)/
20vsp
set wrap
" Test for g$ with count
norm! gg
norm! 0vg$y
call assert_equal(20, col("'>"))
call assert_equal('1 foobar foobar foob', getreg(0))
norm! gg
norm! 0v4g$y
call assert_equal(72, col("'>"))
call assert_equal('1 foobar foobar foobar foobar foobar foobar foobar foobar foobar foobar'.."\n", getreg(0))
norm! gg
norm! 0v6g$y
call assert_equal(40, col("'>"))
call assert_equal('1 foobar foobar foobar foobar foobar foobar foobar foobar foobar foobar'.. "\n"..
\ '2 foobar foobar foobar foobar foobar foo', getreg(0))
set nowrap
" clean up
norm! gg
norm! 0vg$y
call assert_equal(20, col("'>"))
call assert_equal('1 foobar foobar foob', getreg(0))
norm! gg
norm! 0v4g$y
call assert_equal(20, col("'>"))
call assert_equal('1 foobar foobar foobar foobar foobar foobar foobar foobar foobar foobar'.. "\n"..
\ '2 foobar foobar foobar foobar foobar foobar foobar foobar foobar foobar'.. "\n"..
\ '3 foobar foobar foobar foobar foobar foobar foobar foobar foobar foobar'.. "\n"..
\ '4 foobar foobar foob', getreg(0))
norm! gg
norm! 0v6g$y
call assert_equal(20, col("'>"))
call assert_equal('1 foobar foobar foobar foobar foobar foobar foobar foobar foobar foobar'.. "\n"..
\ '2 foobar foobar foobar foobar foobar foobar foobar foobar foobar foobar'.. "\n"..
\ '3 foobar foobar foobar foobar foobar foobar foobar foobar foobar foobar'.. "\n"..
\ '4 foobar foobar foobar foobar foobar foobar foobar foobar foobar foobar'.. "\n"..
\ '5 foobar foobar foobar foobar foobar foobar foobar foobar foobar foobar'.. "\n"..
\ '6 foobar foobar foob', getreg(0))
" Move to last line, also down movement is not possible, should still move
" the cursor to the last visible char
norm! G
norm! 0v6g$y
call assert_equal(20, col("'>"))
call assert_equal('100 foobar foobar fo', getreg(0))
bw!
endfunc
func Test_normal_gk_gj()
" needs 80 column new window
new
vert 80new
call assert_beeps('normal gk')
put =[repeat('x',90)..' {{{1', 'x {{{1']
norm! gk
" In a 80 column wide terminal the window will be only 78 char
" (because Vim will leave space for the other window),
" but if the terminal is larger, it will be 80 chars, so verify the
" cursor column correctly.
call assert_equal(winwidth(0)+1, col('.'))
call assert_equal(winwidth(0)+1, virtcol('.'))
norm! j
call assert_equal(6, col('.'))
call assert_equal(6, virtcol('.'))
norm! gk
call assert_equal(95, col('.'))
call assert_equal(95, virtcol('.'))
%bw!
" needs 80 column new window
new
vert 80new
call assert_beeps('normal gj')
set number
set numberwidth=10
set cpoptions+=n
put =[repeat('0',90), repeat('1',90)]
norm! 075l
call assert_equal(76, col('.'))
norm! gk
call assert_equal(1, col('.'))
norm! gk
call assert_equal(76, col('.'))
norm! gk
call assert_equal(1, col('.'))
norm! gj
call assert_equal(76, col('.'))
norm! gj
call assert_equal(1, col('.'))
norm! gj
call assert_equal(76, col('.'))
" When 'nowrap' is set, gk and gj behave like k and j
set nowrap
normal! gk
call assert_equal([2, 76], [line('.'), col('.')])
normal! gj
call assert_equal([3, 76], [line('.'), col('.')])
%bw!
set cpoptions& number& numberwidth& wrap&
endfunc
" Test for using : to run a multi-line Ex command in operator pending mode
func Test_normal_yank_with_excmd()
new
call setline(1, ['foo', 'bar', 'baz'])
let @a = ''
call feedkeys("\"ay:if v:true\<CR>normal l\<CR>endif\<CR>", 'xt')
call assert_equal('f', @a)
bwipe!
endfunc
" Test for supplying a count to a normal-mode command across a cursorhold call
func Test_normal_cursorhold_with_count()
throw 'Skipped: Nvim removed <CursorHold> key'
func s:cHold()
let g:cHold_Called += 1
endfunc
new
augroup normalcHoldTest
au!
au CursorHold <buffer> call s:cHold()
augroup END
let g:cHold_Called = 0
call feedkeys("3\<CursorHold>2ix", 'xt')
call assert_equal(1, g:cHold_Called)
call assert_equal(repeat('x', 32), getline(1))
augroup normalcHoldTest
au!
augroup END
au! normalcHoldTest
bwipe!
delfunc s:cHold
endfunc
" Test for using a count and a command with CTRL-W
func Test_wincmd_with_count()
call feedkeys("\<C-W>12n", 'xt')
call assert_equal(12, winheight(0))
endfunc
" Test for 'b', 'B' 'ge' and 'gE' commands
func Test_horiz_motion()
new
normal! gg
call assert_beeps('normal! b')
call assert_beeps('normal! B')
call assert_beeps('normal! gE')
call assert_beeps('normal! ge')
" <S-Backspace> moves one word left and <C-Backspace> moves one WORD left
call setline(1, 'one ,two ,three')
exe "normal! $\<S-BS>"
call assert_equal(11, col('.'))
exe "normal! $\<C-BS>"
call assert_equal(10, col('.'))
bwipe!
endfunc
" Test for using a ":" command in operator pending mode
func Test_normal_colon_op()
new
call setline(1, ['one', 'two'])
call assert_beeps("normal! Gc:d\<CR>")
call assert_equal(['one'], getline(1, '$'))
call setline(1, ['one…two…three!'])
normal! $
" Using ":" as a movement is characterwise exclusive
call feedkeys("d:normal! F…\<CR>", 'xt')
call assert_equal(['one…two!'], getline(1, '$'))
" Check that redoing a command with 0x80 bytes works
call feedkeys('.', 'xt')
call assert_equal(['one!'], getline(1, '$'))
call setline(1, ['one', 'two', 'three', 'four', 'five'])
" Add this to the command history
call feedkeys(":normal! G0\<CR>", 'xt')
" Use :normal! with control characters in operator pending mode
call feedkeys("d:normal! \<C-V>\<C-P>\<C-V>\<C-P>\<CR>", 'xt')
call assert_equal(['one', 'two', 'five'], getline(1, '$'))
" Check that redoing a command with control characters works
call feedkeys('.', 'xt')
call assert_equal(['five'], getline(1, '$'))
bwipe!
endfunc
" Test for d and D commands
func Test_normal_delete_cmd()
new
" D in an empty line
call setline(1, '')
normal D
call assert_equal('', getline(1))
" D in an empty line in virtualedit mode
set virtualedit=all
normal D
call assert_equal('', getline(1))
set virtualedit&
" delete to a readonly register
call setline(1, ['abcd'])
call assert_beeps('normal ":d2l')
" D and d with 'nomodifiable'
call setline(1, ['abcd'])
setlocal nomodifiable
call assert_fails('normal D', 'E21:')
call assert_fails('normal d$', 'E21:')
bwipe!
endfunc
" Test for deleting or changing characters across lines with 'whichwrap'
" containing 's'. Should count <EOL> as one character.
func Test_normal_op_across_lines()
new
set whichwrap&
call setline(1, ['one two', 'three four'])
exe "norm! $3d\<Space>"
call assert_equal(['one twhree four'], getline(1, '$'))
call setline(1, ['one two', 'three four'])
exe "norm! $3c\<Space>x"
call assert_equal(['one twxhree four'], getline(1, '$'))
set whichwrap+=l
call setline(1, ['one two', 'three four'])
exe "norm! $3x"
call assert_equal(['one twhree four'], getline(1, '$'))
bwipe!
set whichwrap&
endfunc
" Test for 'w' and 'b' commands
func Test_normal_word_move()
new
call setline(1, ['foo bar a', '', 'foo bar b'])
" copy a single character word at the end of a line
normal 1G$yw
call assert_equal('a', @")
" copy a single character word at the end of a file
normal G$yw
call assert_equal('b', @")
" check for a word movement handling an empty line properly
normal 1G$vwy
call assert_equal("a\n\n", @")
" copy using 'b' command
%d
" non-empty blank line at the start of file
call setline(1, [' ', 'foo bar'])
normal 2Gyb
call assert_equal(" \n", @")
" try to copy backwards from the start of the file
call setline(1, ['one two', 'foo bar'])
call assert_beeps('normal ggyb')
" 'b' command should stop at an empty line
call setline(1, ['one two', '', 'foo bar'])
normal 3Gyb
call assert_equal("\n", @")
normal 3Gy2b
call assert_equal("two\n", @")
" 'b' command should not stop at a non-empty blank line
call setline(1, ['one two', ' ', 'foo bar'])
normal 3Gyb
call assert_equal("two\n ", @")
bwipe!
endfunc
" Test for 'scrolloff' with a long line that doesn't fit in the screen
func Test_normal_scrolloff()
10new
60vnew
call setline(1, ' 1 ' .. repeat('a', 57)
\ .. ' 2 ' .. repeat('b', 57)
\ .. ' 3 ' .. repeat('c', 57)
\ .. ' 4 ' .. repeat('d', 57)
\ .. ' 5 ' .. repeat('e', 57)
\ .. ' 6 ' .. repeat('f', 57)
\ .. ' 7 ' .. repeat('g', 57)
\ .. ' 8 ' .. repeat('h', 57)
\ .. ' 9 ' .. repeat('i', 57)
\ .. '10 ' .. repeat('j', 57)
\ .. '11 ' .. repeat('k', 57)
\ .. '12 ' .. repeat('l', 57)
\ .. '13 ' .. repeat('m', 57)
\ .. '14 ' .. repeat('n', 57)
\ .. '15 ' .. repeat('o', 57)
\ .. '16 ' .. repeat('p', 57)
\ .. '17 ' .. repeat('q', 57)
\ .. '18 ' .. repeat('r', 57)
\ .. '19 ' .. repeat('s', 57)
\ .. '20 ' .. repeat('t', 57)
\ .. '21 ' .. repeat('u', 57)
\ .. '22 ' .. repeat('v', 57)
\ .. '23 ' .. repeat('w', 57)
\ .. '24 ' .. repeat('x', 57)
\ .. '25 ' .. repeat('y', 57)
\ .. '26 ' .. repeat('z', 57)
\ )
set scrolloff=10
normal gg10gj
call assert_equal(6, winline())
normal 10gj
call assert_equal(6, winline())
normal 10gk
call assert_equal(6, winline())
normal 0
call assert_equal(1, winline())
normal $
call assert_equal(10, winline())
set scrolloff&
bwipe!
endfunc
" Test for vertical scrolling with CTRL-F and CTRL-B with a long line
func Test_normal_vert_scroll_longline()
10new
80vnew
call setline(1, range(1, 10))
call append(5, repeat('a', 1000))
exe "normal gg\<C-F>"
call assert_equal(6, line('.'))
exe "normal \<C-F>\<C-F>"
call assert_equal(11, line('.'))
call assert_equal(1, winline())
exe "normal \<C-B>"
call assert_equal(10, line('.'))
call assert_equal(3, winline())
exe "normal \<C-B>\<C-B>"
call assert_equal(5, line('.'))
call assert_equal(5, winline())
bwipe!
endfunc
" Test for jumping in a file using %
func Test_normal_percent_jump()
new
call setline(1, range(1, 100))
" jumping to a folded line should open the fold
25,75fold
call feedkeys('50%', 'xt')
call assert_equal(50, line('.'))
call assert_equal(-1, foldclosedend(50))
bwipe!
endfunc
" Test for << and >> commands to shift text by 'shiftwidth'
func Test_normal_shift_rightleft()
new
call setline(1, ['one', '', "\t", ' two', "\tthree", ' four'])
set shiftwidth=2 tabstop=8
normal gg6>>
call assert_equal([' one', '', "\t ", ' two', "\t three", "\tfour"],
\ getline(1, '$'))
normal ggVG2>>
call assert_equal([' one', '', "\t ", "\ttwo",
\ "\t three", "\t four"], getline(1, '$'))
normal gg6<<
call assert_equal([' one', '', "\t ", ' two', "\t three",
\ "\t four"], getline(1, '$'))
normal ggVG2<<
call assert_equal(['one', '', "\t", ' two', "\tthree", ' four'],
\ getline(1, '$'))
set shiftwidth& tabstop&
bw!
endfunc
" Some commands like yy, cc, dd, >>, << and !! accept a count after
" typing the first letter of the command.
func Test_normal_count_after_operator()
new
setlocal shiftwidth=4 tabstop=8 autoindent
call setline(1, ['one', 'two', 'three', 'four', 'five'])
let @a = ''
normal! j"ay4y
call assert_equal("two\nthree\nfour\nfive\n", @a)
normal! 3G>2>
call assert_equal(['one', 'two', ' three', ' four', 'five'],
\ getline(1, '$'))
exe "normal! 3G0c2cred\nblue"
call assert_equal(['one', 'two', ' red', ' blue', 'five'],
\ getline(1, '$'))
exe "normal! gg<8<"
call assert_equal(['one', 'two', 'red', 'blue', 'five'],
\ getline(1, '$'))
exe "normal! ggd3d"
call assert_equal(['blue', 'five'], getline(1, '$'))
call setline(1, range(1, 4))
call feedkeys("gg!3!\<C-B>\"\<CR>", 'xt')
call assert_equal('".,.+2!', @:)
call feedkeys("gg!1!\<C-B>\"\<CR>", 'xt')
call assert_equal('".!', @:)
call feedkeys("gg!9!\<C-B>\"\<CR>", 'xt')
call assert_equal('".,$!', @:)
bw!
endfunc
func Test_normal_gj_on_extra_wide_char()
new | 25vsp
let text='1 foooooooo ar e inszwe1 foooooooo inszwei' .
\ ' i drei vier fünf sechs sieben acht un zehn elf zwöfl' .
\ ' dreizehn v ierzehn fünfzehn'
put =text
call cursor(2,1)
norm! gj
call assert_equal([0,2,25,0], getpos('.'))
bw!
endfunc
func Test_normal_count_out_of_range()
new
call setline(1, 'text')
normal 44444444444|
call assert_equal(999999999, v:count)
normal 444444444444|
call assert_equal(999999999, v:count)
normal 4444444444444|
call assert_equal(999999999, v:count)
normal 4444444444444444444|
call assert_equal(999999999, v:count)
normal 9y99999999|
call assert_equal(899999991, v:count)
normal 10y99999999|
call assert_equal(999999999, v:count)
normal 44444444444y44444444444|
call assert_equal(999999999, v:count)
bwipe!
endfunc
" Test that mouse shape is restored to Normal mode after failed "c" operation.
func Test_mouse_shape_after_failed_change()
CheckFeature mouseshape
CheckCanRunGui
let lines =<< trim END
vim9script
set mouseshape+=o:busy
setlocal nomodifiable
var mouse_shapes = []
feedkeys('c')
timer_start(50, (_) => {
mouse_shapes += [getmouseshape()]
timer_start(50, (_) => {
feedkeys('c')
timer_start(50, (_) => {
mouse_shapes += [getmouseshape()]
timer_start(50, (_) => {
writefile(mouse_shapes, 'Xmouseshapes')
quit
})
})
})
})
END
call writefile(lines, 'Xmouseshape.vim', 'D')
call RunVim([], [], "-g -S Xmouseshape.vim")
sleep 300m
call assert_equal(['busy', 'arrow'], readfile('Xmouseshapes'))
call delete('Xmouseshapes')
endfunc
" Test that mouse shape is restored to Normal mode after cancelling "gr".
func Test_mouse_shape_after_cancelling_gr()
CheckFeature mouseshape
CheckCanRunGui
let lines =<< trim END
vim9script
var mouse_shapes = []
feedkeys('gr')
timer_start(50, (_) => {
mouse_shapes += [getmouseshape()]
timer_start(50, (_) => {
feedkeys("\<Esc>")
timer_start(50, (_) => {
mouse_shapes += [getmouseshape()]
timer_start(50, (_) => {
writefile(mouse_shapes, 'Xmouseshapes')
quit
})
})
})
})
END
call writefile(lines, 'Xmouseshape.vim', 'D')
call RunVim([], [], "-g -S Xmouseshape.vim")
sleep 300m
call assert_equal(['beam', 'arrow'], readfile('Xmouseshapes'))
call delete('Xmouseshapes')
endfunc
" Test that "j" does not skip lines when scrolling below botline and
" 'foldmethod' is not "manual".
func Test_normal_j_below_botline()
CheckScreendump
let lines =<< trim END
set number foldmethod=diff scrolloff=0
call setline(1, map(range(1, 9), 'repeat(v:val, 200)'))
norm Lj
END
call writefile(lines, 'XNormalJBelowBotline', 'D')
let buf = RunVimInTerminal('-S XNormalJBelowBotline', #{rows: 19, cols: 40})
call VerifyScreenDump(buf, 'Test_normal_j_below_botline', {})
call StopVimInTerminal(buf)
endfunc
" Test for r (replace) command with CTRL_V and CTRL_Q
func Test_normal_r_ctrl_v_cmd()
new
call append(0, 'This is a simple test: abcd')
exe "norm! 1gg$r\<C-V>\<C-V>"
call assert_equal(['This is a simple test: abc', ''], getline(1,'$'))
exe "norm! 1gg$hr\<C-Q>\<C-Q>"
call assert_equal(['This is a simple test: ab', ''], getline(1,'$'))
exe "norm! 1gg$2hr\<C-V>x7e"
call assert_equal(['This is a simple test: a~', ''], getline(1,'$'))
exe "norm! 1gg$3hr\<C-Q>x7e"
call assert_equal(['This is a simple test: ~~', ''], getline(1,'$'))
if &encoding == 'utf-8'
exe "norm! 1gg$4hr\<C-V>u20ac"
call assert_equal(['This is a simple test:€~~', ''], getline(1,'$'))
exe "norm! 1gg$5hr\<C-Q>u20ac"
call assert_equal(['This is a simple test€€~~', ''], getline(1,'$'))
exe "norm! 1gg0R\<C-V>xff WAS \<esc>"
call assert_equal(['ÿ WAS a simple test€€~~', ''], getline(1,'$'))
exe "norm! 1gg0elR\<C-Q>xffNOT\<esc>"
call assert_equal(['ÿ WASÿNOT simple test€€~~', ''], getline(1,'$'))
endif
call setline(1, 'This is a simple test: abcd')
exe "norm! 1gg$gr\<C-V>\<C-V>"
call assert_equal(['This is a simple test: abc', ''], getline(1,'$'))
exe "norm! 1gg$hgr\<C-Q>\<C-Q>"
call assert_equal(['This is a simple test: ab ', ''], getline(1,'$'))
exe "norm! 1gg$2hgr\<C-V>x7e"
call assert_equal(['This is a simple test: a~ ', ''], getline(1,'$'))
exe "norm! 1gg$3hgr\<C-Q>x7e"
call assert_equal(['This is a simple test: ~~ ', ''], getline(1,'$'))
" clean up
bw!
endfunc
" Test clicking on a TAB or an unprintable character in Normal mode
func Test_normal_click_on_ctrl_char()
let save_mouse = &mouse
set mouse=a
new
call setline(1, "a\<Tab>b\<C-K>c")
redraw
call Ntest_setmouse(1, 1)
call feedkeys("\<LeftMouse>", 'xt')
call assert_equal([0, 1, 1, 0, 1], getcurpos())
call Ntest_setmouse(1, 2)
call feedkeys("\<LeftMouse>", 'xt')
call assert_equal([0, 1, 2, 0, 2], getcurpos())
call Ntest_setmouse(1, 3)
call feedkeys("\<LeftMouse>", 'xt')
call assert_equal([0, 1, 2, 0, 3], getcurpos())
call Ntest_setmouse(1, 7)
call feedkeys("\<LeftMouse>", 'xt')
call assert_equal([0, 1, 2, 0, 7], getcurpos())
call Ntest_setmouse(1, 8)
call feedkeys("\<LeftMouse>", 'xt')
call assert_equal([0, 1, 2, 0, 8], getcurpos())
call Ntest_setmouse(1, 9)
call feedkeys("\<LeftMouse>", 'xt')
call assert_equal([0, 1, 3, 0, 9], getcurpos())
call Ntest_setmouse(1, 10)
call feedkeys("\<LeftMouse>", 'xt')
call assert_equal([0, 1, 4, 0, 10], getcurpos())
call Ntest_setmouse(1, 11)
call feedkeys("\<LeftMouse>", 'xt')
call assert_equal([0, 1, 4, 0, 11], getcurpos())
call Ntest_setmouse(1, 12)
call feedkeys("\<LeftMouse>", 'xt')
call assert_equal([0, 1, 5, 0, 12], getcurpos())
call Ntest_setmouse(1, 13)
call feedkeys("\<LeftMouse>", 'xt')
call assert_equal([0, 1, 5, 0, 13], getcurpos())
bwipe!
let &mouse = save_mouse
endfunc
" Test clicking on a double-width character in Normal mode
func Test_normal_click_on_double_width_char()
let save_mouse = &mouse
set mouse=a
new
call setline(1, "口口")
redraw
call Ntest_setmouse(1, 1)
call feedkeys("\<LeftMouse>", 'xt')
call assert_equal([0, 1, 1, 0, 1], getcurpos())
call Ntest_setmouse(1, 2)
call feedkeys("\<LeftMouse>", 'xt')
call assert_equal([0, 1, 1, 0, 2], getcurpos())
call Ntest_setmouse(1, 3)
call feedkeys("\<LeftMouse>", 'xt')
call assert_equal([0, 1, 4, 0, 3], getcurpos())
call Ntest_setmouse(1, 4)
call feedkeys("\<LeftMouse>", 'xt')
call assert_equal([0, 1, 4, 0, 4], getcurpos())
bwipe!
let &mouse = save_mouse
endfunc
func Test_normal33_g_cmd_nonblank()
" Test that g<End> goes to the last non-blank char and g$ to the last
" visible column
20vnew
setlocal nowrap nonumber signcolumn=no
call setline(1, ['fooo fooo fooo fooo fooo fooo fooo fooo '])
exe "normal 0g\<End>"
call assert_equal(11, col('.'))
normal 0g$
call assert_equal(20, col('.'))
exe "normal 0g\<kEnd>"
call assert_equal(11, col('.'))
setlocal wrap
exe "normal 0g\<End>"
call assert_equal(11, col('.'))
normal 0g$
call assert_equal(20, col('.'))
exe "normal 0g\<kEnd>"
call assert_equal(11, col('.'))
bw!
endfunc
" vim: shiftwidth=2 sts=2 expandtab