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Branches Tags
github:master github:performance/rune-lines github:canute github:canute-tilde github:tcell2.0.7 github:lsp github:keybindings github:vfsgen github:settings-config github:unicode-combining github:v2-modules github:buffer-unit-tests github:hub-autorelease github:insert-perf github:dbeef-master github:highlight-fixes github:gdamore_tcell github:refactor2.0 github:colorterm github:resize github:surround github:better-lua github:dep github:terminal-entry-fix
github:nightly github:v2.0.15 github:v2.0.15-rc1 github:v2.0.14 github:v2.0.14-rc1 github:v2.0.13 github:v2.0.12 github:v2.0.11 github:v2.0.10 github:v2.0.9 github:v2.0.8 github:v2.0.7 github:v2.0.6 github:v2.0.5 github:v2.0.4 github:v2.0.3 github:v2.0.2 github:v2.0.1 github:v2.0.0 github:v2.0.0-rc3 github:v2.0.0-rc2 github:v2.0.0-rc1 github:v1.4.1 github:v1.4.0 github:v1.3.4 github:v1.3.3 github:v1.3.2 github:v1.3.1 github:v1.3.0 github:v1.2.0 github:v1.1.4 github:v1.1.3 github:v1.1.2 github:v1.1.1 github:v1.1.0 github:v1.0.3 github:v1.0.2 github:v1.0.1 github:v1.0 github:v1.0rc2 github:1.0rc1
..
compare: github:surround
Branches Tags
github:master github:performance/rune-lines github:canute github:canute-tilde github:tcell2.0.7 github:lsp github:keybindings github:vfsgen github:settings-config github:unicode-combining github:v2-modules github:buffer-unit-tests github:hub-autorelease github:insert-perf github:dbeef-master github:highlight-fixes github:gdamore_tcell github:refactor2.0 github:colorterm github:resize github:surround github:better-lua github:dep github:terminal-entry-fix
github:nightly github:v2.0.15 github:v2.0.15-rc1 github:v2.0.14 github:v2.0.14-rc1 github:v2.0.13 github:v2.0.12 github:v2.0.11 github:v2.0.10 github:v2.0.9 github:v2.0.8 github:v2.0.7 github:v2.0.6 github:v2.0.5 github:v2.0.4 github:v2.0.3 github:v2.0.2 github:v2.0.1 github:v2.0.0 github:v2.0.0-rc3 github:v2.0.0-rc2 github:v2.0.0-rc1 github:v1.4.1 github:v1.4.0 github:v1.3.4 github:v1.3.3 github:v1.3.2 github:v1.3.1 github:v1.3.0 github:v1.2.0 github:v1.1.4 github:v1.1.3 github:v1.1.2 github:v1.1.1 github:v1.1.0 github:v1.0.3 github:v1.0.2 github:v1.0.1 github:v1.0 github:v1.0rc2 github:1.0rc1

1 Commits
refactor2. ... surround

Author SHA1 Message Date
Zachary Yedidia
6f302826c8 Add bracket surround 2017-09-13 10:48:53 -04:00
236 changed files with 17802 additions and 21233 deletions
Expand all files Collapse all files

7
.editorconfig
View File

@@ -1,7 +0,0 @@
# See http://editorconfig.org
# In Go files we indent with tabs but still
# set indent_size to control the GitHub web viewer.
[*.go]
indent_size=4

8
.gitignore vendored
View File

@@ -7,11 +7,3 @@ tmp.sh
test/
.idea/
packages/
todo.txt
test.txt
log.txt
*.old
tools/build-version
tools/build-date
tools/info-plist
tools/bindata

60
.gitmodules vendored
View File

@@ -1,3 +1,57 @@
[submodule "tools/go-bindata"]
path = tools/go-bindata
url = https://github.com/zyedidia/go-bindata
[submodule "cmd/micro/vendor/github.com/blang/semver"]
path = cmd/micro/vendor/github.com/blang/semver
url = https://github.com/blang/semver
[submodule "cmd/micro/vendor/github.com/dustin/go-humanize"]
path = cmd/micro/vendor/github.com/dustin/go-humanize
url = https://github.com/dustin/go-humanize
[submodule "cmd/micro/vendor/github.com/go-errors/errors"]
path = cmd/micro/vendor/github.com/go-errors/errors
url = https://github.com/go-errors/errors
[submodule "cmd/micro/vendor/github.com/mattn/go-isatty"]
path = cmd/micro/vendor/github.com/mattn/go-isatty
url = https://github.com/mattn/go-isatty
[submodule "cmd/micro/vendor/github.com/mattn/go-runewidth"]
path = cmd/micro/vendor/github.com/mattn/go-runewidth
url = https://github.com/mattn/go-runewidth
[submodule "cmd/micro/vendor/github.com/mitchellh/go-homedir"]
path = cmd/micro/vendor/github.com/mitchellh/go-homedir
url = https://github.com/mitchellh/go-homedir
[submodule "cmd/micro/vendor/github.com/sergi/go-diff"]
path = cmd/micro/vendor/github.com/sergi/go-diff
url = https://github.com/sergi/go-diff
[submodule "cmd/micro/vendor/github.com/yuin/gopher-lua"]
path = cmd/micro/vendor/github.com/yuin/gopher-lua
url = https://github.com/yuin/gopher-lua
[submodule "cmd/micro/vendor/golang.org/x/net"]
path = cmd/micro/vendor/golang.org/x/net
url = https://go.googlesource.com/net
[submodule "cmd/micro/vendor/github.com/zyedidia/clipboard"]
path = cmd/micro/vendor/github.com/zyedidia/clipboard
url = https://github.com/zyedidia/clipboard
[submodule "cmd/micro/vendor/github.com/zyedidia/glob"]
path = cmd/micro/vendor/github.com/zyedidia/glob
url = https://github.com/zyedidia/glob
[submodule "cmd/micro/vendor/github.com/zyedidia/tcell"]
path = cmd/micro/vendor/github.com/zyedidia/tcell
url = https://github.com/zyedidia/tcell
[submodule "cmd/micro/vendor/github.com/gdamore/encoding"]
path = cmd/micro/vendor/github.com/gdamore/encoding
url = https://github.com/gdamore/encoding
[submodule "cmd/micro/vendor/golang.org/x/text"]
path = cmd/micro/vendor/golang.org/x/text
url = https://go.googlesource.com/text
[submodule "cmd/micro/vendor/github.com/lucasb-eyer/go-colorful"]
path = cmd/micro/vendor/github.com/lucasb-eyer/go-colorful
url = https://github.com/lucasb-eyer/go-colorful
[submodule "cmd/micro/vendor/layeh.com/gopher-luar"]
path = cmd/micro/vendor/layeh.com/gopher-luar
url = https://github.com/layeh/gopher-luar
[submodule "cmd/micro/vendor/gopkg.in/yaml.v2"]
path = cmd/micro/vendor/gopkg.in/yaml.v2
url = https://gopkg.in/yaml.v2
[submodule "cmd/micro/vendor/github.com/zyedidia/poller"]
path = cmd/micro/vendor/github.com/zyedidia/poller
url = https://github.com/zyedidia/poller
[submodule "cmd/micro/vendor/github.com/flynn/json5"]
path = cmd/micro/vendor/github.com/flynn/json5
url = https://github.com/flynn/json5

9
.travis.yml
View File

@@ -1,9 +1,2 @@
language: go
go:
- "1.11.x"
os:
- linux
- osx
script:
- env GO111MODULE=on make build
- env GO111MODULE=on make test
script: make test

292
LICENSE-THIRD-PARTY
View File

@@ -58,6 +58,7 @@ OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
THE SOFTWARE.
github.com/gdamore/encoding/LICENSE
================
@@ -394,9 +395,7 @@ OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
SOFTWARE.
github.com/atotto/clipboard/LICENSE
================
github.com/zyedidia/clipboard/LICENSE (fork)
github.com/zyedidia/clipboard/LICENSE
================
Copyright (c) 2013 Ato Araki. All rights reserved.
@@ -428,9 +427,7 @@ THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
github.com/gdamore/tcell/LICENSE
================
github.com/zyedidia/tcell/LICENSE (fork)
github.com/zyedidia/tcell/LICENSE
================
@@ -668,6 +665,39 @@ THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
(INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
golang.org/x/sys/LICENSE
================
Copyright (c) 2009 The Go Authors. All rights reserved.
Redistribution and use in source and binary forms, with or without
modification, are permitted provided that the following conditions are
met:
* Redistributions of source code must retain the above copyright
notice, this list of conditions and the following disclaimer.
* Redistributions in binary form must reproduce the above
copyright notice, this list of conditions and the following disclaimer
in the documentation and/or other materials provided with the
distribution.
* Neither the name of Google Inc. nor the names of its
contributors may be used to endorse or promote products derived from
this software without specific prior written permission.
THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
"AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
(INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
golang.org/x/text/LICENSE
================
@@ -1134,253 +1164,3 @@ IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY
CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT,
TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE
SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
github.com/james4k/terminal/LICENSE
================
github.com/zyedidia/terminal/LICENSE (fork)
================
Copyright (C) 2013 James Gray
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without liitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:
The above copyright notice and thismssion notice shall be included in all
copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
SOFTWARE.
github.com/kr/pty/License
================
github.com/zyedidia/pty/License (fork)
================
Copyright (c) 2011 Keith Rarick
Permission is hereby granted, free of charge, to any person
obtaining a copy of this software and associated
documentation files (the "Software"), to deal in the
Software without restriction, including without limitation
the rights to use, copy, modify, merge, publish, distribute,
sublicense, and/or sell copies of the Software, and to
permit persons to whom the Software is furnished to do so,
subject to the following conditions:
The above copyright notice and this permission notice shall
be included in all copies or substantial portions of the
Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY
KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE
WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR
PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS
OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR
OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR
OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE
SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
github.com/smartystreets/goconvey/LICENSE.md
================
Copyright (c) 2016 SmartyStreets, LLC
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all
copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
SOFTWARE.
NOTE: Various optional and subordinate components carry their own licensing
requirements and restrictions. Use of those components is subject to the terms
and conditions outlined the respective license of each component.
github.com/smartystreets/assertions/LICENSE.md
================
Copyright (c) 2016 SmartyStreets, LLC
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all
copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
SOFTWARE.
NOTE: Various optional and subordinate components carry their own licensing
requirements and restrictions. Use of those components is subject to the terms
and conditions outlined the respective license of each component.
github.com/jtolds/gls/LICENSE
================
Copyright (c) 2013, Space Monkey, Inc.
Permission is hereby granted, free of charge, to any person obtaining a copy of
this software and associated documentation files (the "Software"), to deal in
the Software without restriction, including without limitation the rights to
use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of
the Software, and to permit persons to whom the Software is furnished to do so,
subject to the following conditions:
The above copyright notice and this permission notice shall be included in all
copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS
FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR
COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER
IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
github.com/npat-efault/poller/LICENSE.txt
================
github.com/zyedidia/poller/LICENSE.txt (fork)
================
Copyright (c) 2014, Nick Patavalis (npat@efault.net)
All rights reserved.
Redistribution and use in source and binary forms, with or without
modification, are permitted provided that the following conditions are met:
* Redistributions of source code must retain the above copyright notice, this
list of conditions and the following disclaimer.
* Redistributions in binary form must reproduce the above copyright notice,
this list of conditions and the following disclaimer in the documentation
and/or other materials provided with the distribution.
THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE
FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
github.com/zyedidia/glob
================
Glob is licensed under the MIT "Expat" License:
Copyright (c) 2016: Zachary Yedidia.
Permission is hereby granted, free of charge, to any person obtaining
a copy of this software and associated documentation files (the
"Software"), to deal in the Software without restriction, including
without limitation the rights to use, copy, modify, merge, publish,
distribute, sublicense, and/or sell copies of the Software, and to
permit persons to whom the Software is furnished to do so, subject to
the following conditions:
The above copyright notice and this permission notice shall be
included in all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.
IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY
CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT,
TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE
SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
github.com/dustin/go-humanize/LICENSE
================
Copyright (c) 2005-2008 Dustin Sallings <dustin@spy.net>
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in
all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
SOFTWARE.
<http://www.opensource.org/licenses/mit-license.php>
gopkg.in/yaml.v2/LICENSE
================
Copyright 2011-2016 Canonical Ltd.
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
github.com/lucasb-eyer/go-colorful/LICENSE
================
Copyright (c) 2013 Lucas Beyer
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in
all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
SOFTWARE.

30
Makefile
View File

@@ -9,43 +9,41 @@ ADDITIONAL_GO_LINKER_FLAGS := $(shell GOOS=$(shell go env GOHOSTOS) \
GOARCH=$(shell go env GOHOSTARCH) \
go run tools/info-plist.go "$(VERSION)")
GOBIN ?= $(shell go env GOPATH)/bin
GOVARS := -X github.com/zyedidia/micro/internal/util.Version=$(VERSION) -X github.com/zyedidia/micro/internal/util.CommitHash=$(HASH) -X 'github.com/zyedidia/micro/internal/util.CompileDate=$(DATE)' -X github.com/zyedidia/micro/internal/util.Debug=OFF
# Builds micro after checking dependencies but without updating the runtime
build:
go build -ldflags "-s -w $(GOVARS) $(ADDITIONAL_GO_LINKER_FLAGS)" ./cmd/micro
build-dbg:
go build -ldflags "-s -w $(ADDITIONAL_GO_LINKER_FLAGS)" ./cmd/micro
build: update
go build -ldflags "-s -w -X main.Version=$(VERSION) -X main.CommitHash=$(HASH) -X 'main.CompileDate=$(DATE)' $(ADDITIONAL_GO_LINKER_FLAGS)" ./cmd/micro
# Builds micro after building the runtime and checking dependencies
build-all: runtime build
# Builds micro without checking for dependencies
build-quick:
go build -ldflags "-s -w $(GOVARS) $(ADDITIONAL_GO_LINKER_FLAGS)" ./cmd/micro
go build -ldflags "-s -w -X main.Version=$(VERSION) -X main.CommitHash=$(HASH) -X 'main.CompileDate=$(DATE)' $(ADDITIONAL_GO_LINKER_FLAGS)" ./cmd/micro
# Same as 'build' but installs to $GOBIN afterward
install:
go install -ldflags "-s -w $(GOVARS) $(ADDITIONAL_GO_LINKER_FLAGS)" ./cmd/micro
install: update
go install -ldflags "-s -w -X main.Version=$(VERSION) -X main.CommitHash=$(HASH) -X 'main.CompileDate=$(DATE)' $(ADDITIONAL_GO_LINKER_FLAGS)" ./cmd/micro
# Same as 'build-all' but installs to $GOBIN afterward
install-all: runtime install
# Same as 'build-quick' but installs to $GOBIN afterward
install-quick:
go install -ldflags "-s -w $(GOVARS) $(ADDITIONAL_GO_LINKER_FLAGS)" ./cmd/micro
go install -ldflags "-s -w -X main.Version=$(VERSION) -X main.CommitHash=$(HASH) -X 'main.CompileDate=$(DATE)' $(ADDITIONAL_GO_LINKER_FLAGS)" ./cmd/micro
update:
git pull
git submodule update --init
# Builds the runtime
runtime:
git submodule update --init
go build -o tools/bindata ./tools/go-bindata
tools/bindata -pkg config -nomemcopy -nometadata -o runtime.go runtime/...
mv runtime.go internal/config
gofmt -w internal/config/runtime.go
go get -u github.com/jteeuwen/go-bindata/...
$(GOBIN)/go-bindata -nometadata -o runtime.go runtime/...
mv runtime.go cmd/micro
test:
go test ./internal/...
go test ./cmd/micro
clean:
rm -f micro

47
README.md
View File

@@ -17,25 +17,9 @@ Here is a picture of micro editing its source code.
![Screenshot](./assets/micro-solarized.png)
To see more screenshots of micro, showcasing all of the default colorschemes, see [here](http://zbyedidia.webfactional.com/micro/screenshots.html).
You can also check out the website for Micro at https://micro-editor.github.io.
# Table of Contents
- [Features](#features)
- [Installation](#installation)
- [Prebuilt binaries](#prebuilt-binaries)
- [Package Managers](#package-managers)
- [Building from source](#building-from-source)
- [MacOS terminal](#macos-terminal)
- [Linux clipboard support](#linux-clipboard-support)
- [Colors and syntax highlighting](#colors-and-syntax-highlighting)
- [Plan9, Cygwin](#plan9-cygwin)
- [Usage](#usage)
- [Documentation and Help](#documentation-and-help)
- [Contributing](#contributing)
- - -
# Features
* Easy to use and to install
@@ -46,7 +30,6 @@ You can also check out the website for Micro at https://micro-editor.github.io.
* Sane defaults
* You shouldn't have to configure much out of the box (and it is extremely easy to configure)
* Splits and tabs
* Nano-like menu to help you remember the keybindings
* Extremely good mouse support
* This means mouse dragging to create a selection, double click to select by word, and triple click to select by line
* Cross platform (It should work on all the platforms Go runs on)
@@ -67,7 +50,7 @@ You can also check out the website for Micro at https://micro-editor.github.io.
* Macros
* Common editor things such as undo/redo, line numbers, Unicode support, softwrap...
Although not yet implemented, I hope to add more features such as autocompletion ([#174](https://github.com/zyedidia/micro/issues/174)) or a tree view ([#249](https://github.com/zyedidia/micro/issues/249)) in the future.
Although not yet implemented, I hope to add more features such as autocompletion ([#174](https://github.com/zyedidia/micro/issues/174)), and multiple cursors ([#5](https://github.com/zyedidia/micro/issues/5)) in the future.
# Installation
@@ -86,19 +69,7 @@ and you'll see all the stable releases with the corresponding binaries.
If you'd like to see more information after installing micro, run `micro -version`.
### Installation script
There is a great script which can install micro for you by downloading the latest prebuilt binary. You can find it at https://getmic.ro (the github repo for it is [here](https://github.com/benweissmann/getmic.ro)).
Then you can easily install micro:
$ curl https://getmic.ro | bash
The script will install the micro binary to the current directory.
See the [Github page](https://github.com/benweissmann/getmic.ro) for more information.
### Package managers
### Package Managers
You can install micro using Homebrew on Mac:
@@ -121,20 +92,14 @@ scoop install micro
On Linux, you can install micro through [snap](https://snapcraft.io/docs/core/install)
```
snap install micro --classic
```
On OpenBSD, micro is available in the ports tree. It is also available as a binary package.
```
pkg_add -v micro
snap install micro --edge --classic
```
### Building from source
If your operating system does not have a binary release, but does run Go, you can build from source.
Make sure that you have Go version 1.5 or greater (Go 1.4 will work if your version supports CGO) and that your `GOPATH` env variable is set (I recommend setting it to `~/go` if you don't have one).
Make sure that you have Go version 1.5 or greater (Go 1.4 will work if your version supports CGO) and that your `GOPATH` env variable is set (I recommand setting it to `~/go` if you don't have one).
```
go get -d github.com/zyedidia/micro/cmd/micro
@@ -150,7 +115,7 @@ You can install directly with `go get` (`go get -u github.com/zyedidia/micro/cmd
### MacOS terminal
If you are using MacOS, you should consider using [iTerm2](http://iterm2.com/) instead of the default Mac terminal. The iTerm2 terminal has much better mouse support as well as better handling of key events. For best keybinding behavior, choose `xterm defaults` under `Preferences->Profiles->Keys->Load Preset`. The newest versions also support true color.
If you are using MacOS, you should consider using [iTerm2](http://iterm2.com/) instead of the default Mac terminal. The iTerm2 terminal has much better mouse support as well as better handling of key events. The newest versions also support true color.
### Linux clipboard support

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73
assets/packaging/micro.1
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@@ -1,73 +0,0 @@
.\" micro manual page - micro(1)
.\"
.\" Copyright © 2017 Zachary Yedidia <zyedidia@gmail.com>
.\" Copyright © 2017 Collin Warren <anatoly@somethinghub.com>
.\"
.\" This document is provided under the same licensing as micro.
.\" See \usr\share\doc\micro\LICENSE for more information.
.TH micro 1 "2017-03-28"
.SH NAME
micro \- A modern and intuitive terminal-based text editor
.SH SYNOPSIS
.B micro
.RB [OPTIONS]
[FILE]\&...
.SH DESCRIPTION
Micro is a terminal-based text editor that aims to be easy to use and intuitive, while also taking advantage of the full capabilities
of modern terminals. It comes as one single, batteries-included, static binary with no dependencies.
As the name indicates, micro aims to be somewhat of a successor to the nano editor by being easy to install and use in a pinch, but micro also aims to be
enjoyable to use full time, whether you work in the terminal because you prefer it (like me), or because you need to (over ssh).
.SH OPTIONS
.PP
\-config-dir dir
.RS 4
Specify a custom location for the configuration directory
.RE
.PP
\-startpos LINE,COL
.RS 4
Specify a line and column to start the cursor at when opening a buffer
.RE
.PP
\-options
.RS 4
Show all option help
.RE
.PP
\-version
.RS 4
Show the version number and information
.RE
.SH CONFIGURATION
Micro uses
\fI$XDG_CONFIG_HOME/micro\fR
for configuration by default. If it is not set, micro uses ~/.config/micro.
Two main configuration files are settings.json, containing the user's
settings, and bindings.json, containing the user's custom keybindings.
.SH ENVIRONMENT
Micro's behaviour can be changed by setting environment variables, of which there is currently only one:
\fIMICRO_TRUECOLOR\fR.
When MICRO_TRUECOLOR is set to 1, micro will attempt to treat your terminal as a true-color terminal and will be able to make full use of the true-color colorschemes that are included with micro. If MICRO_TRUECOLOR is not set or is set to 0, then micro will only make use of 256 color features and will internally map true-color colorschemes to the nearest colors available. For more information see micro's documentation.
.SH NOTICE
This manpage is intended only to serve as a quick guide to the invocation of
micro and is not intended to replace the full documentation included with micro
which can be accessed from within micro. Micro tells you what key combination to
press to get help in the lower right.
.SH BUGS
A comprehensive list of bugs will not be listed in this manpage. See the Github
page at \fBhttps://github.com/zyedidia/micro/issues\fP for a list of known bugs
and to report any newly encountered bugs you may find. We strive to correct
bugs as swiftly as possible.
.SH COPYRIGHT
Copyright \(co 2017 Zachary Yedidia, Collin Warren, et al.
See /usr/share/doc/micro/LICENSE and /usr/share/doc/micro/AUTHORS for more information.

15
assets/packaging/micro.desktop
View File

@@ -1,15 +0,0 @@
[Desktop Entry]
Name=Micro
GenericName=Text Editor
Comment=Edit text files in a terminal
Icon=micro
Type=Application
Categories=terminal;TextEditor;
Keywords=text;editor;syntax;terminal;
Exec=micro %U
StartupNotify=false
Terminal=true
MimeType=text/plain;text/x-chdr;text/x-csrc;text/x-c++hdr;text/x-c++src;text/x-java;text/x-dsrc;text/x-pascal;text/x-perl;text/x-python;application/x-php;application/x-httpd-php3;application/x-httpd-php4;application/x-httpd-php5;application/xml;text/html;text/css;text/x-sql;text/x-diff;

2111
cmd/micro/actions.go Normal file
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9
cmd/micro/actions_other.go Normal file
View File

@@ -0,0 +1,9 @@
// +build android plan9 nacl windows
package main
func (v *View) Suspend(usePlugin bool) bool {
messenger.Error("Suspend is only supported on Linux")
return false
}

32
internal/action/actions_posix.go → cmd/micro/actions_posix.go
View File

@@ -1,27 +1,37 @@
// +build linux darwin dragonfly solaris openbsd netbsd freebsd
package action
package main
import (
"syscall"
"github.com/zyedidia/micro/internal/screen"
)
import "syscall"
// Suspend sends micro to the background. This is the same as pressing CtrlZ in most unix programs.
// This only works on linux and has no default binding.
// This code was adapted from the suspend code in nsf/godit
func (*BufPane) Suspend() bool {
screenb := screen.TempFini()
func (v *View) Suspend(usePlugin bool) bool {
if usePlugin && !PreActionCall("Suspend", v) {
return false
}
screenWasNil := screen == nil
if !screenWasNil {
screen.Fini()
screen = nil
}
// suspend the process
pid := syscall.Getpid()
err := syscall.Kill(pid, syscall.SIGSTOP)
if err != nil {
screen.TermMessage(err)
TermMessage(err)
}
screen.TempStart(screenb)
if !screenWasNil {
InitScreen()
}
return false
if usePlugin {
return PostActionCall("Suspend", v)
}
return true
}

196
cmd/micro/autocomplete.go Normal file
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@@ -0,0 +1,196 @@
package main
import (
"io/ioutil"
"os"
"strings"
"github.com/mitchellh/go-homedir"
)
var pluginCompletions []func(string) []string
// This file is meant (for now) for autocompletion in command mode, not
// while coding. This helps micro autocomplete commands and then filenames
// for example with `vsplit filename`.
// FileComplete autocompletes filenames
func FileComplete(input string) (string, []string) {
var sep string = string(os.PathSeparator)
dirs := strings.Split(input, sep)
var files []os.FileInfo
var err error
if len(dirs) > 1 {
home, _ := homedir.Dir()
directories := strings.Join(dirs[:len(dirs)-1], sep) + sep
if strings.HasPrefix(directories, "~") {
directories = strings.Replace(directories, "~", home, 1)
}
files, err = ioutil.ReadDir(directories)
} else {
files, err = ioutil.ReadDir(".")
}
var suggestions []string
if err != nil {
return "", suggestions
}
for _, f := range files {
name := f.Name()
if f.IsDir() {
name += sep
}
if strings.HasPrefix(name, dirs[len(dirs)-1]) {
suggestions = append(suggestions, name)
}
}
var chosen string
if len(suggestions) == 1 {
if len(dirs) > 1 {
chosen = strings.Join(dirs[:len(dirs)-1], sep) + sep + suggestions[0]
} else {
chosen = suggestions[0]
}
} else {
if len(dirs) > 1 {
chosen = strings.Join(dirs[:len(dirs)-1], sep) + sep
}
}
return chosen, suggestions
}
// CommandComplete autocompletes commands
func CommandComplete(input string) (string, []string) {
var suggestions []string
for cmd := range commands {
if strings.HasPrefix(cmd, input) {
suggestions = append(suggestions, cmd)
}
}
var chosen string
if len(suggestions) == 1 {
chosen = suggestions[0]
}
return chosen, suggestions
}
// HelpComplete autocompletes help topics
func HelpComplete(input string) (string, []string) {
var suggestions []string
for _, file := range ListRuntimeFiles(RTHelp) {
topic := file.Name()
if strings.HasPrefix(topic, input) {
suggestions = append(suggestions, topic)
}
}
var chosen string
if len(suggestions) == 1 {
chosen = suggestions[0]
}
return chosen, suggestions
}
// ColorschemeComplete tab-completes names of colorschemes.
func ColorschemeComplete(input string) (string, []string) {
var suggestions []string
files := ListRuntimeFiles(RTColorscheme)
for _, f := range files {
if strings.HasPrefix(f.Name(), input) {
suggestions = append(suggestions, f.Name())
}
}
var chosen string
if len(suggestions) == 1 {
chosen = suggestions[0]
}
return chosen, suggestions
}
func contains(s []string, e string) bool {
for _, a := range s {
if a == e {
return true
}
}
return false
}
// OptionComplete autocompletes options
func OptionComplete(input string) (string, []string) {
var suggestions []string
localSettings := DefaultLocalSettings()
for option := range globalSettings {
if strings.HasPrefix(option, input) {
suggestions = append(suggestions, option)
}
}
for option := range localSettings {
if strings.HasPrefix(option, input) && !contains(suggestions, option) {
suggestions = append(suggestions, option)
}
}
var chosen string
if len(suggestions) == 1 {
chosen = suggestions[0]
}
return chosen, suggestions
}
// MakeCompletion registers a function from a plugin for autocomplete commands
func MakeCompletion(function string) Completion {
pluginCompletions = append(pluginCompletions, LuaFunctionComplete(function))
return Completion(-len(pluginCompletions))
}
// PluginComplete autocompletes from plugin function
func PluginComplete(complete Completion, input string) (chosen string, suggestions []string) {
idx := int(-complete) - 1
if len(pluginCompletions) <= idx {
return "", nil
}
suggestions = pluginCompletions[idx](input)
if len(suggestions) == 1 {
chosen = suggestions[0]
}
return
}
func PluginCmdComplete(input string) (chosen string, suggestions []string) {
for _, cmd := range []string{"install", "remove", "search", "update", "list"} {
if strings.HasPrefix(cmd, input) {
suggestions = append(suggestions, cmd)
}
}
if len(suggestions) == 1 {
chosen = suggestions[0]
}
return chosen, suggestions
}
func PluginNameComplete(input string) (chosen string, suggestions []string) {
for _, pp := range GetAllPluginPackages() {
if strings.HasPrefix(pp.Name, input) {
suggestions = append(suggestions, pp.Name)
}
}
if len(suggestions) == 1 {
chosen = suggestions[0]
}
return chosen, suggestions
}

525
internal/action/bindings.go → cmd/micro/bindings.go
View File

@@ -1,251 +1,115 @@
package action
package main
import (
"encoding/json"
"errors"
"io/ioutil"
"os"
"strings"
"unicode"
"github.com/flynn/json5"
"github.com/zyedidia/micro/internal/config"
"github.com/zyedidia/micro/internal/screen"
"github.com/zyedidia/tcell"
)
func InitBindings() {
config.Bindings = DefaultBindings()
var bindings map[Key][]func(*View, bool) bool
var mouseBindings map[Key][]func(*View, bool, *tcell.EventMouse) bool
var helpBinding string
var parsed map[string]string
defaults := DefaultBindings()
filename := config.ConfigDir + "/bindings.json"
if _, e := os.Stat(filename); e == nil {
input, err := ioutil.ReadFile(filename)
if err != nil {
screen.TermMessage("Error reading bindings.json file: " + err.Error())
return
}
err = json5.Unmarshal(input, &parsed)
if err != nil {
screen.TermMessage("Error reading bindings.json:", err.Error())
}
}
for k, v := range defaults {
BindKey(k, v)
}
for k, v := range parsed {
BindKey(k, v)
}
var mouseBindingActions = map[string]func(*View, bool, *tcell.EventMouse) bool{
"MousePress": (*View).MousePress,
"MouseMultiCursor": (*View).MouseMultiCursor,
}
func BindKey(k, v string) {
event, ok := findEvent(k)
if !ok {
screen.TermMessage(k, "is not a bindable event")
}
var bindingActions = map[string]func(*View, bool) bool{
"CursorUp": (*View).CursorUp,
"CursorDown": (*View).CursorDown,
"CursorPageUp": (*View).CursorPageUp,
"CursorPageDown": (*View).CursorPageDown,
"CursorLeft": (*View).CursorLeft,
"CursorRight": (*View).CursorRight,
"CursorStart": (*View).CursorStart,
"CursorEnd": (*View).CursorEnd,
"SelectToStart": (*View).SelectToStart,
"SelectToEnd": (*View).SelectToEnd,
"SelectUp": (*View).SelectUp,
"SelectDown": (*View).SelectDown,
"SelectLeft": (*View).SelectLeft,
"SelectRight": (*View).SelectRight,
"WordRight": (*View).WordRight,
"WordLeft": (*View).WordLeft,
"SelectWordRight": (*View).SelectWordRight,
"SelectWordLeft": (*View).SelectWordLeft,
"DeleteWordRight": (*View).DeleteWordRight,
"DeleteWordLeft": (*View).DeleteWordLeft,
"SelectToStartOfLine": (*View).SelectToStartOfLine,
"SelectToEndOfLine": (*View).SelectToEndOfLine,
"InsertNewline": (*View).InsertNewline,
"InsertSpace": (*View).InsertSpace,
"Backspace": (*View).Backspace,
"Delete": (*View).Delete,
"InsertTab": (*View).InsertTab,
"Save": (*View).Save,
"SaveAll": (*View).SaveAll,
"SaveAs": (*View).SaveAs,
"Find": (*View).Find,
"FindNext": (*View).FindNext,
"FindPrevious": (*View).FindPrevious,
"Center": (*View).Center,
"Undo": (*View).Undo,
"Redo": (*View).Redo,
"Copy": (*View).Copy,
"Cut": (*View).Cut,
"CutLine": (*View).CutLine,
"DuplicateLine": (*View).DuplicateLine,
"DeleteLine": (*View).DeleteLine,
"MoveLinesUp": (*View).MoveLinesUp,
"MoveLinesDown": (*View).MoveLinesDown,
"IndentSelection": (*View).IndentSelection,
"OutdentSelection": (*View).OutdentSelection,
"OutdentLine": (*View).OutdentLine,
"Paste": (*View).Paste,
"PastePrimary": (*View).PastePrimary,
"SelectAll": (*View).SelectAll,
"OpenFile": (*View).OpenFile,
"WrapBracket": (*View).WrapBracket,
"Start": (*View).Start,
"End": (*View).End,
"PageUp": (*View).PageUp,
"PageDown": (*View).PageDown,
"HalfPageUp": (*View).HalfPageUp,
"HalfPageDown": (*View).HalfPageDown,
"StartOfLine": (*View).StartOfLine,
"EndOfLine": (*View).EndOfLine,
"ToggleHelp": (*View).ToggleHelp,
"ToggleRuler": (*View).ToggleRuler,
"JumpLine": (*View).JumpLine,
"ClearStatus": (*View).ClearStatus,
"ShellMode": (*View).ShellMode,
"CommandMode": (*View).CommandMode,
"Escape": (*View).Escape,
"Quit": (*View).Quit,
"QuitAll": (*View).QuitAll,
"AddTab": (*View).AddTab,
"PreviousTab": (*View).PreviousTab,
"NextTab": (*View).NextTab,
"NextSplit": (*View).NextSplit,
"PreviousSplit": (*View).PreviousSplit,
"Unsplit": (*View).Unsplit,
"VSplit": (*View).VSplitBinding,
"HSplit": (*View).HSplitBinding,
"ToggleMacro": (*View).ToggleMacro,
"PlayMacro": (*View).PlayMacro,
"Suspend": (*View).Suspend,
"ScrollUp": (*View).ScrollUpAction,
"ScrollDown": (*View).ScrollDownAction,
"SpawnMultiCursor": (*View).SpawnMultiCursor,
"RemoveMultiCursor": (*View).RemoveMultiCursor,
"RemoveAllMultiCursors": (*View).RemoveAllMultiCursors,
"SkipMultiCursor": (*View).SkipMultiCursor,
switch e := event.(type) {
case KeyEvent:
BufMapKey(e, v)
case MouseEvent:
BufMapMouse(e, v)
case RawEvent:
BufMapKey(e, v)
}
config.Bindings[k] = v
// This was changed to InsertNewline but I don't want to break backwards compatibility
"InsertEnter": (*View).InsertNewline,
}
// findEvent will find binding Key 'b' using string 'k'
func findEvent(k string) (b Event, ok bool) {
modifiers := tcell.ModNone
// First, we'll strip off all the modifiers in the name and add them to the
// ModMask
modSearch:
for {
switch {
case strings.HasPrefix(k, "-"):
// We optionally support dashes between modifiers
k = k[1:]
case strings.HasPrefix(k, "Ctrl") && k != "CtrlH":
// CtrlH technically does not have a 'Ctrl' modifier because it is really backspace
k = k[4:]
modifiers |= tcell.ModCtrl
case strings.HasPrefix(k, "Alt"):
k = k[3:]
modifiers |= tcell.ModAlt
case strings.HasPrefix(k, "Shift"):
k = k[5:]
modifiers |= tcell.ModShift
case strings.HasPrefix(k, "\x1b"):
return RawEvent{
esc: k,
}, true
default:
break modSearch
}
}
if len(k) == 0 {
return KeyEvent{}, false
}
// Control is handled in a special way, since the terminal sends explicitly
// marked escape sequences for control keys
// We should check for Control keys first
if modifiers&tcell.ModCtrl != 0 {
// see if the key is in bindingKeys with the Ctrl prefix.
k = string(unicode.ToUpper(rune(k[0]))) + k[1:]
if code, ok := keyEvents["Ctrl"+k]; ok {
var r tcell.Key
// Special case for escape, for some reason tcell doesn't send it with the esc character
if code < 256 && code != 27 {
r = code
}
// It is, we're done.
return KeyEvent{
code: code,
mod: modifiers,
r: rune(r),
}, true
}
}
// See if we can find the key in bindingKeys
if code, ok := keyEvents[k]; ok {
var r tcell.Key
// Special case for escape, for some reason tcell doesn't send it with the esc character
if code < 256 && code != 27 {
r = code
}
return KeyEvent{
code: code,
mod: modifiers,
r: rune(r),
}, true
}
// See if we can find the key in bindingMouse
if code, ok := mouseEvents[k]; ok {
return MouseEvent{
btn: code,
mod: modifiers,
}, true
}
// If we were given one character, then we've got a rune.
if len(k) == 1 {
return KeyEvent{
code: tcell.KeyRune,
mod: modifiers,
r: rune(k[0]),
}, true
}
// We don't know what happened.
return KeyEvent{}, false
}
// TryBindKey tries to bind a key by writing to config.ConfigDir/bindings.json
// Returns true if the keybinding already existed and a possible error
func TryBindKey(k, v string, overwrite bool) (bool, error) {
var e error
var parsed map[string]string
filename := config.ConfigDir + "/bindings.json"
if _, e = os.Stat(filename); e == nil {
input, err := ioutil.ReadFile(filename)
if err != nil {
return false, errors.New("Error reading bindings.json file: " + err.Error())
}
err = json5.Unmarshal(input, &parsed)
if err != nil {
return false, errors.New("Error reading bindings.json: " + err.Error())
}
key, ok := findEvent(k)
if !ok {
return false, errors.New("Invalid event " + k)
}
found := false
for ev := range parsed {
if e, ok := findEvent(ev); ok {
if e == key {
if overwrite {
parsed[ev] = v
}
found = true
break
}
}
}
if found && !overwrite {
return true, nil
} else if !found {
parsed[k] = v
}
BindKey(k, v)
txt, _ := json.MarshalIndent(parsed, "", " ")
return true, ioutil.WriteFile(filename, append(txt, '\n'), 0644)
}
return false, e
}
// UnbindKey removes the binding for a key from the bindings.json file
func UnbindKey(k string) error {
var e error
var parsed map[string]string
filename := config.ConfigDir + "/bindings.json"
if _, e = os.Stat(filename); e == nil {
input, err := ioutil.ReadFile(filename)
if err != nil {
return errors.New("Error reading bindings.json file: " + err.Error())
}
err = json5.Unmarshal(input, &parsed)
if err != nil {
return errors.New("Error reading bindings.json: " + err.Error())
}
key, ok := findEvent(k)
if !ok {
return errors.New("Invalid event " + k)
}
for ev := range parsed {
if e, ok := findEvent(ev); ok {
if e == key {
delete(parsed, ev)
break
}
}
}
defaults := DefaultBindings()
if a, ok := defaults[k]; ok {
BindKey(k, a)
} else if _, ok := config.Bindings[k]; ok {
delete(config.Bindings, k)
}
txt, _ := json.MarshalIndent(parsed, "", " ")
return ioutil.WriteFile(filename, append(txt, '\n'), 0644)
}
return e
}
var mouseEvents = map[string]tcell.ButtonMask{
var bindingMouse = map[string]tcell.ButtonMask{
"MouseLeft": tcell.Button1,
"MouseMiddle": tcell.Button2,
"MouseRight": tcell.Button3,
@@ -255,7 +119,7 @@ var mouseEvents = map[string]tcell.ButtonMask{
"MouseWheelRight": tcell.WheelRight,
}
var keyEvents = map[string]tcell.Key{
var bindingKeys = map[string]tcell.Key{
"Up": tcell.KeyUp,
"Down": tcell.KeyDown,
"Right": tcell.KeyRight,
@@ -381,13 +245,193 @@ var keyEvents = map[string]tcell.Key{
"Escape": tcell.KeyEscape,
"Enter": tcell.KeyEnter,
"Backspace": tcell.KeyBackspace2,
"OldBackspace": tcell.KeyBackspace,
// I renamed these keys to PageUp and PageDown but I don't want to break someone's keybindings
"PgUp": tcell.KeyPgUp,
"PgDown": tcell.KeyPgDn,
}
// The Key struct holds the data for a keypress (keycode + modifiers)
type Key struct {
keyCode tcell.Key
modifiers tcell.ModMask
buttons tcell.ButtonMask
r rune
}
// InitBindings initializes the keybindings for micro
func InitBindings() {
bindings = make(map[Key][]func(*View, bool) bool)
mouseBindings = make(map[Key][]func(*View, bool, *tcell.EventMouse) bool)
var parsed map[string]string
defaults := DefaultBindings()
filename := configDir + "/bindings.json"
if _, e := os.Stat(filename); e == nil {
input, err := ioutil.ReadFile(filename)
if err != nil {
TermMessage("Error reading bindings.json file: " + err.Error())
return
}
err = json5.Unmarshal(input, &parsed)
if err != nil {
TermMessage("Error reading bindings.json:", err.Error())
}
}
parseBindings(defaults)
parseBindings(parsed)
}
func parseBindings(userBindings map[string]string) {
for k, v := range userBindings {
BindKey(k, v)
}
}
// findKey will find binding Key 'b' using string 'k'
func findKey(k string) (b Key, ok bool) {
modifiers := tcell.ModNone
// First, we'll strip off all the modifiers in the name and add them to the
// ModMask
modSearch:
for {
switch {
case strings.HasPrefix(k, "-"):
// We optionally support dashes between modifiers
k = k[1:]
case strings.HasPrefix(k, "Ctrl") && k != "CtrlH":
// CtrlH technically does not have a 'Ctrl' modifier because it is really backspace
k = k[4:]
modifiers |= tcell.ModCtrl
case strings.HasPrefix(k, "Alt"):
k = k[3:]
modifiers |= tcell.ModAlt
case strings.HasPrefix(k, "Shift"):
k = k[5:]
modifiers |= tcell.ModShift
default:
break modSearch
}
}
// Control is handled specially, since some character codes in bindingKeys
// are different when Control is depressed. We should check for Control keys
// first.
if modifiers&tcell.ModCtrl != 0 {
// see if the key is in bindingKeys with the Ctrl prefix.
if code, ok := bindingKeys["Ctrl"+k]; ok {
// It is, we're done.
return Key{
keyCode: code,
modifiers: modifiers,
buttons: -1,
r: 0,
}, true
}
}
// See if we can find the key in bindingKeys
if code, ok := bindingKeys[k]; ok {
return Key{
keyCode: code,
modifiers: modifiers,
buttons: -1,
r: 0,
}, true
}
// See if we can find the key in bindingMouse
if code, ok := bindingMouse[k]; ok {
return Key{
modifiers: modifiers,
buttons: code,
r: 0,
}, true
}
// If we were given one character, then we've got a rune.
if len(k) == 1 {
return Key{
keyCode: tcell.KeyRune,
modifiers: modifiers,
buttons: -1,
r: rune(k[0]),
}, true
}
// We don't know what happened.
return Key{buttons: -1}, false
}
// findAction will find 'action' using string 'v'
func findAction(v string) (action func(*View, bool) bool) {
action, ok := bindingActions[v]
if !ok {
// If the user seems to be binding a function that doesn't exist
// We hope that it's a lua function that exists and bind it to that
action = LuaFunctionBinding(v)
}
return action
}
func findMouseAction(v string) func(*View, bool, *tcell.EventMouse) bool {
action, ok := mouseBindingActions[v]
if !ok {
// If the user seems to be binding a function that doesn't exist
// We hope that it's a lua function that exists and bind it to that
action = LuaFunctionMouseBinding(v)
}
return action
}
// BindKey takes a key and an action and binds the two together
func BindKey(k, v string) {
key, ok := findKey(k)
if !ok {
TermMessage("Unknown keybinding: " + k)
return
}
if v == "ToggleHelp" {
helpBinding = k
}
if helpBinding == k && v != "ToggleHelp" {
helpBinding = ""
}
actionNames := strings.Split(v, ",")
if actionNames[0] == "UnbindKey" {
delete(bindings, key)
delete(mouseBindings, key)
if len(actionNames) == 1 {
return
}
actionNames = append(actionNames[:0], actionNames[1:]...)
}
actions := make([]func(*View, bool) bool, 0, len(actionNames))
mouseActions := make([]func(*View, bool, *tcell.EventMouse) bool, 0, len(actionNames))
for _, actionName := range actionNames {
if strings.HasPrefix(actionName, "Mouse") {
mouseActions = append(mouseActions, findMouseAction(actionName))
} else {
actions = append(actions, findAction(actionName))
}
}
if len(actions) > 0 {
// Can't have a binding be both mouse and normal
delete(mouseBindings, key)
bindings[key] = actions
} else if len(mouseActions) > 0 {
// Can't have a binding be both mouse and normal
delete(bindings, key)
mouseBindings[key] = mouseActions
}
}
// DefaultBindings returns a map containing micro's default keybindings
func DefaultBindings() map[string]string {
return map[string]string{
@@ -395,6 +439,7 @@ func DefaultBindings() map[string]string {
"Down": "CursorDown",
"Right": "CursorRight",
"Left": "CursorLeft",
"Alt-j": "WrapBracket",
"ShiftUp": "SelectUp",
"ShiftDown": "SelectDown",
"ShiftLeft": "SelectLeft",
@@ -415,15 +460,13 @@ func DefaultBindings() map[string]string {
"CtrlDown": "CursorEnd",
"CtrlShiftUp": "SelectToStart",
"CtrlShiftDown": "SelectToEnd",
"Alt-{": "ParagraphPrevious",
"Alt-}": "ParagraphNext",
"Enter": "InsertNewline",
"CtrlH": "Backspace",
"Backspace": "Backspace",
"Alt-CtrlH": "DeleteWordLeft",
"Alt-Backspace": "DeleteWordLeft",
"Tab": "Autocomplete|IndentSelection|InsertTab",
"Backtab": "OutdentSelection|OutdentLine",
"Tab": "IndentSelection,InsertTab",
"Backtab": "OutdentSelection,OutdentLine",
"CtrlO": "OpenFile",
"CtrlS": "Save",
"CtrlF": "Find",
@@ -449,9 +492,8 @@ func DefaultBindings() map[string]string {
"CtrlPageUp": "PreviousTab",
"CtrlPageDown": "NextTab",
"CtrlG": "ToggleHelp",
"Alt-g": "ToggleKeyMenu",
"CtrlR": "ToggleRuler",
"CtrlL": "command-edit:goto ",
"CtrlL": "JumpLine",
"Delete": "Delete",
"CtrlB": "ShellMode",
"CtrlQ": "Quit",
@@ -459,7 +501,6 @@ func DefaultBindings() map[string]string {
"CtrlW": "NextSplit",
"CtrlU": "ToggleMacro",
"CtrlJ": "PlayMacro",
"Insert": "ToggleOverwriteMode",
// Emacs-style keybindings
"Alt-f": "WordRight",
@@ -470,6 +511,7 @@ func DefaultBindings() map[string]string {
// "Alt-n": "CursorDown",
// Integration with file managers
"F1": "ToggleHelp",
"F2": "Save",
"F3": "Find",
"F4": "Quit",
@@ -485,7 +527,6 @@ func DefaultBindings() map[string]string {
"Ctrl-MouseLeft": "MouseMultiCursor",
"Alt-n": "SpawnMultiCursor",
"Alt-m": "SpawnMultiCursorSelect",
"Alt-p": "RemoveMultiCursor",
"Alt-c": "RemoveAllMultiCursors",
"Alt-x": "SkipMultiCursor",

577
cmd/micro/buffer.go Normal file
View File

@@ -0,0 +1,577 @@
package main
import (
"bytes"
"encoding/gob"
"io"
"io/ioutil"
"os"
"os/exec"
"os/signal"
"path/filepath"
"regexp"
"strconv"
"strings"
"time"
"unicode/utf8"
"github.com/mitchellh/go-homedir"
"github.com/zyedidia/micro/cmd/micro/highlight"
)
var (
// 0 - no line type detected
// 1 - lf detected
// 2 - crlf detected
fileformat = 0
)
// Buffer stores the text for files that are loaded into the text editor
// It uses a rope to efficiently store the string and contains some
// simple functions for saving and wrapper functions for modifying the rope
type Buffer struct {
// The eventhandler for undo/redo
*EventHandler
// This stores all the text in the buffer as an array of lines
*LineArray
Cursor Cursor
cursors []*Cursor // for multiple cursors
curCursor int // the current cursor
// Path to the file on disk
Path string
// Absolute path to the file on disk
AbsPath string
// Name of the buffer on the status line
name string
// Whether or not the buffer has been modified since it was opened
IsModified bool
// Stores the last modification time of the file the buffer is pointing to
ModTime time.Time
NumLines int
syntaxDef *highlight.Def
highlighter *highlight.Highlighter
// Buffer local settings
Settings map[string]interface{}
}
// The SerializedBuffer holds the types that get serialized when a buffer is saved
// These are used for the savecursor and saveundo options
type SerializedBuffer struct {
EventHandler *EventHandler
Cursor Cursor
ModTime time.Time
}
func NewBufferFromString(text, path string) *Buffer {
return NewBuffer(strings.NewReader(text), int64(len(text)), path)
}
// NewBuffer creates a new buffer from a given reader with a given path
func NewBuffer(reader io.Reader, size int64, path string) *Buffer {
if path != "" {
for _, tab := range tabs {
for _, view := range tab.views {
if view.Buf.Path == path {
return view.Buf
}
}
}
}
b := new(Buffer)
b.LineArray = NewLineArray(size, reader)
b.Settings = DefaultLocalSettings()
for k, v := range globalSettings {
if _, ok := b.Settings[k]; ok {
b.Settings[k] = v
}
}
if fileformat == 1 {
b.Settings["fileformat"] = "unix"
} else if fileformat == 2 {
b.Settings["fileformat"] = "dos"
}
absPath, _ := filepath.Abs(path)
b.Path = path
b.AbsPath = absPath
// The last time this file was modified
b.ModTime, _ = GetModTime(b.Path)
b.EventHandler = NewEventHandler(b)
b.Update()
b.UpdateRules()
if _, err := os.Stat(configDir + "/buffers/"); os.IsNotExist(err) {
os.Mkdir(configDir+"/buffers/", os.ModePerm)
}
// Put the cursor at the first spot
cursorStartX := 0
cursorStartY := 0
// If -startpos LINE,COL was passed, use start position LINE,COL
if len(*flagStartPos) > 0 {
positions := strings.Split(*flagStartPos, ",")
if len(positions) == 2 {
lineNum, errPos1 := strconv.Atoi(positions[0])
colNum, errPos2 := strconv.Atoi(positions[1])
if errPos1 == nil && errPos2 == nil {
cursorStartX = colNum
cursorStartY = lineNum - 1
// Check to avoid line overflow
if cursorStartY > b.NumLines {
cursorStartY = b.NumLines - 1
} else if cursorStartY < 0 {
cursorStartY = 0
}
// Check to avoid column overflow
if cursorStartX > len(b.Line(cursorStartY)) {
cursorStartX = len(b.Line(cursorStartY))
} else if cursorStartX < 0 {
cursorStartX = 0
}
}
}
}
b.Cursor = Cursor{
Loc: Loc{
X: cursorStartX,
Y: cursorStartY,
},
buf: b,
}
InitLocalSettings(b)
if b.Settings["savecursor"].(bool) || b.Settings["saveundo"].(bool) {
// If either savecursor or saveundo is turned on, we need to load the serialized information
// from ~/.config/micro/buffers
file, err := os.Open(configDir + "/buffers/" + EscapePath(b.AbsPath))
if err == nil {
var buffer SerializedBuffer
decoder := gob.NewDecoder(file)
gob.Register(TextEvent{})
err = decoder.Decode(&buffer)
if err != nil {
TermMessage(err.Error(), "\n", "You may want to remove the files in ~/.config/micro/buffers (these files store the information for the 'saveundo' and 'savecursor' options) if this problem persists.")
}
if b.Settings["savecursor"].(bool) {
b.Cursor = buffer.Cursor
b.Cursor.buf = b
b.Cursor.Relocate()
}
if b.Settings["saveundo"].(bool) {
// We should only use last time's eventhandler if the file wasn't by someone else in the meantime
if b.ModTime == buffer.ModTime {
b.EventHandler = buffer.EventHandler
b.EventHandler.buf = b
}
}
}
file.Close()
}
if b.Settings["mouse"].(bool) {
screen.EnableMouse()
}
b.cursors = []*Cursor{&b.Cursor}
return b
}
func (b *Buffer) GetName() string {
if b.name == "" {
if b.Path == "" {
return "No name"
}
return b.Path
}
return b.name
}
// UpdateRules updates the syntax rules and filetype for this buffer
// This is called when the colorscheme changes
func (b *Buffer) UpdateRules() {
rehighlight := false
var files []*highlight.File
for _, f := range ListRuntimeFiles(RTSyntax) {
data, err := f.Data()
if err != nil {
TermMessage("Error loading syntax file " + f.Name() + ": " + err.Error())
} else {
file, err := highlight.ParseFile(data)
if err != nil {
TermMessage("Error loading syntax file " + f.Name() + ": " + err.Error())
continue
}
ftdetect, err := highlight.ParseFtDetect(file)
if err != nil {
TermMessage("Error loading syntax file " + f.Name() + ": " + err.Error())
continue
}
ft := b.Settings["filetype"].(string)
if (ft == "Unknown" || ft == "") && !rehighlight {
if highlight.MatchFiletype(ftdetect, b.Path, b.lines[0].data) {
header := new(highlight.Header)
header.FileType = file.FileType
header.FtDetect = ftdetect
b.syntaxDef, err = highlight.ParseDef(file, header)
if err != nil {
TermMessage("Error loading syntax file " + f.Name() + ": " + err.Error())
continue
}
rehighlight = true
}
} else {
if file.FileType == ft && !rehighlight {
header := new(highlight.Header)
header.FileType = file.FileType
header.FtDetect = ftdetect
b.syntaxDef, err = highlight.ParseDef(file, header)
if err != nil {
TermMessage("Error loading syntax file " + f.Name() + ": " + err.Error())
continue
}
rehighlight = true
}
}
files = append(files, file)
}
}
if b.syntaxDef != nil {
highlight.ResolveIncludes(b.syntaxDef, files)
}
if b.highlighter == nil || rehighlight {
if b.syntaxDef != nil {
b.Settings["filetype"] = b.syntaxDef.FileType
b.highlighter = highlight.NewHighlighter(b.syntaxDef)
if b.Settings["syntax"].(bool) {
b.highlighter.HighlightStates(b)
}
}
}
}
// FileType returns the buffer's filetype
func (b *Buffer) FileType() string {
return b.Settings["filetype"].(string)
}
// IndentString returns a string representing one level of indentation
func (b *Buffer) IndentString() string {
if b.Settings["tabstospaces"].(bool) {
return Spaces(int(b.Settings["tabsize"].(float64)))
}
return "\t"
}
// CheckModTime makes sure that the file this buffer points to hasn't been updated
// by an external program since it was last read
// If it has, we ask the user if they would like to reload the file
func (b *Buffer) CheckModTime() {
modTime, ok := GetModTime(b.Path)
if ok {
if modTime != b.ModTime {
choice, canceled := messenger.YesNoPrompt("The file has changed since it was last read. Reload file? (y,n)")
messenger.Reset()
messenger.Clear()
if !choice || canceled {
// Don't load new changes -- do nothing
b.ModTime, _ = GetModTime(b.Path)
} else {
// Load new changes
b.ReOpen()
}
}
}
}
// ReOpen reloads the current buffer from disk
func (b *Buffer) ReOpen() {
data, err := ioutil.ReadFile(b.Path)
txt := string(data)
if err != nil {
messenger.Error(err.Error())
return
}
b.EventHandler.ApplyDiff(txt)
b.ModTime, _ = GetModTime(b.Path)
b.IsModified = false
b.Update()
b.Cursor.Relocate()
}
// Update fetches the string from the rope and updates the `text` and `lines` in the buffer
func (b *Buffer) Update() {
b.NumLines = len(b.lines)
}
func (b *Buffer) MergeCursors() {
var cursors []*Cursor
for i := 0; i < len(b.cursors); i++ {
c1 := b.cursors[i]
if c1 != nil {
for j := 0; j < len(b.cursors); j++ {
c2 := b.cursors[j]
if c2 != nil && i != j && c1.Loc == c2.Loc {
b.cursors[j] = nil
}
}
cursors = append(cursors, c1)
}
}
b.cursors = cursors
}
func (b *Buffer) UpdateCursors() {
for i, c := range b.cursors {
c.Num = i
}
}
// Save saves the buffer to its default path
func (b *Buffer) Save() error {
return b.SaveAs(b.Path)
}
// SaveWithSudo saves the buffer to the default path with sudo
func (b *Buffer) SaveWithSudo() error {
return b.SaveAsWithSudo(b.Path)
}
// Serialize serializes the buffer to configDir/buffers
func (b *Buffer) Serialize() error {
if b.Settings["savecursor"].(bool) || b.Settings["saveundo"].(bool) {
file, err := os.Create(configDir + "/buffers/" + EscapePath(b.AbsPath))
if err == nil {
enc := gob.NewEncoder(file)
gob.Register(TextEvent{})
err = enc.Encode(SerializedBuffer{
b.EventHandler,
b.Cursor,
b.ModTime,
})
}
err = file.Close()
return err
}
return nil
}
// SaveAs saves the buffer to a specified path (filename), creating the file if it does not exist
func (b *Buffer) SaveAs(filename string) error {
b.UpdateRules()
dir, _ := homedir.Dir()
if b.Settings["rmtrailingws"].(bool) {
r, _ := regexp.Compile(`[ \t]+$`)
for lineNum, line := range b.Lines(0, b.NumLines) {
indices := r.FindStringIndex(line)
if indices == nil {
continue
}
startLoc := Loc{indices[0], lineNum}
b.deleteToEnd(startLoc)
}
b.Cursor.Relocate()
}
if b.Settings["eofnewline"].(bool) {
end := b.End()
if b.RuneAt(Loc{end.X - 1, end.Y}) != '\n' {
b.Insert(end, "\n")
}
}
str := b.SaveString(b.Settings["fileformat"] == "dos")
data := []byte(str)
err := ioutil.WriteFile(filename, data, 0644)
if err == nil {
b.Path = strings.Replace(filename, "~", dir, 1)
b.IsModified = false
b.ModTime, _ = GetModTime(filename)
return b.Serialize()
}
b.ModTime, _ = GetModTime(filename)
return err
}
// SaveAsWithSudo is the same as SaveAs except it uses a neat trick
// with tee to use sudo so the user doesn't have to reopen micro with sudo
func (b *Buffer) SaveAsWithSudo(filename string) error {
b.UpdateRules()
b.Path = filename
// Shut down the screen because we're going to interact directly with the shell
screen.Fini()
screen = nil
// Set up everything for the command
cmd := exec.Command("sudo", "tee", filename)
cmd.Stdin = bytes.NewBufferString(b.SaveString(b.Settings["fileformat"] == "dos"))
// This is a trap for Ctrl-C so that it doesn't kill micro
// Instead we trap Ctrl-C to kill the program we're running
c := make(chan os.Signal, 1)
signal.Notify(c, os.Interrupt)
go func() {
for range c {
cmd.Process.Kill()
}
}()
// Start the command
cmd.Start()
err := cmd.Wait()
// Start the screen back up
InitScreen()
if err == nil {
b.IsModified = false
b.ModTime, _ = GetModTime(filename)
b.Serialize()
}
return err
}
func (b *Buffer) insert(pos Loc, value []byte) {
b.IsModified = true
b.LineArray.insert(pos, value)
b.Update()
}
func (b *Buffer) remove(start, end Loc) string {
b.IsModified = true
sub := b.LineArray.remove(start, end)
b.Update()
return sub
}
func (b *Buffer) deleteToEnd(start Loc) {
b.IsModified = true
b.LineArray.DeleteToEnd(start)
b.Update()
}
// Start returns the location of the first character in the buffer
func (b *Buffer) Start() Loc {
return Loc{0, 0}
}
// End returns the location of the last character in the buffer
func (b *Buffer) End() Loc {
return Loc{utf8.RuneCount(b.lines[b.NumLines-1].data), b.NumLines - 1}
}
// RuneAt returns the rune at a given location in the buffer
func (b *Buffer) RuneAt(loc Loc) rune {
line := []rune(b.Line(loc.Y))
if len(line) > 0 {
return line[loc.X]
}
return '\n'
}
// Line returns a single line
func (b *Buffer) Line(n int) string {
if n >= len(b.lines) {
return ""
}
return string(b.lines[n].data)
}
func (b *Buffer) LinesNum() int {
return len(b.lines)
}
// Lines returns an array of strings containing the lines from start to end
func (b *Buffer) Lines(start, end int) []string {
lines := b.lines[start:end]
var slice []string
for _, line := range lines {
slice = append(slice, string(line.data))
}
return slice
}
// Len gives the length of the buffer
func (b *Buffer) Len() int {
return Count(b.String())
}
// MoveLinesUp moves the range of lines up one row
func (b *Buffer) MoveLinesUp(start int, end int) {
// 0 < start < end <= len(b.lines)
if start < 1 || start >= end || end > len(b.lines) {
return // what to do? FIXME
}
if end == len(b.lines) {
b.Insert(
Loc{
utf8.RuneCount(b.lines[end-1].data),
end - 1,
},
"\n"+b.Line(start-1),
)
} else {
b.Insert(
Loc{0, end},
b.Line(start-1)+"\n",
)
}
b.Remove(
Loc{0, start - 1},
Loc{0, start},
)
}
// MoveLinesDown moves the range of lines down one row
func (b *Buffer) MoveLinesDown(start int, end int) {
// 0 <= start < end < len(b.lines)
// if end == len(b.lines), we can't do anything here because the
// last line is unaccessible, FIXME
if start < 0 || start >= end || end >= len(b.lines)-1 {
return // what to do? FIXME
}
b.Insert(
Loc{0, start},
b.Line(end)+"\n",
)
end++
b.Remove(
Loc{0, end},
Loc{0, end + 1},
)
}
// ClearMatches clears all of the syntax highlighting for this buffer
func (b *Buffer) ClearMatches() {
for i := range b.lines {
b.SetMatch(i, nil)
b.SetState(i, nil)
}
}
func (b *Buffer) clearCursors() {
for i := 1; i < len(b.cursors); i++ {
b.cursors[i] = nil
}
b.cursors = b.cursors[:1]
b.UpdateCursors()
b.Cursor.ResetSelection()
}

207
cmd/micro/cellview.go Normal file
View File

@@ -0,0 +1,207 @@
package main
import (
"github.com/mattn/go-runewidth"
"github.com/zyedidia/tcell"
)
func min(a, b int) int {
if a <= b {
return a
}
return b
}
func visualToCharPos(visualIndex int, lineN int, str string, buf *Buffer, tabsize int) (int, int, *tcell.Style) {
charPos := 0
var lineIdx int
var lastWidth int
var style *tcell.Style
var width int
var rw int
for i, c := range str {
// width := StringWidth(str[:i], tabsize)
if group, ok := buf.Match(lineN)[charPos]; ok {
s := GetColor(group.String())
style = &s
}
if width >= visualIndex {
return charPos, visualIndex - lastWidth, style
}
if i != 0 {
charPos++
lineIdx += rw
}
lastWidth = width
rw = 0
if c == '\t' {
rw = tabsize - (lineIdx % tabsize)
width += rw
} else {
rw = runewidth.RuneWidth(c)
width += rw
}
}
return -1, -1, style
}
type Char struct {
visualLoc Loc
realLoc Loc
char rune
// The actual character that is drawn
// This is only different from char if it's for example hidden character
drawChar rune
style tcell.Style
width int
}
type CellView struct {
lines [][]*Char
}
func (c *CellView) Draw(buf *Buffer, top, height, left, width int) {
tabsize := int(buf.Settings["tabsize"].(float64))
softwrap := buf.Settings["softwrap"].(bool)
indentrunes := []rune(buf.Settings["indentchar"].(string))
// if empty indentchar settings, use space
if indentrunes == nil || len(indentrunes) == 0 {
indentrunes = []rune(" ")
}
indentchar := indentrunes[0]
start := buf.Cursor.Y
if buf.Settings["syntax"].(bool) && buf.syntaxDef != nil {
if start > 0 && buf.lines[start-1].rehighlight {
buf.highlighter.ReHighlightLine(buf, start-1)
buf.lines[start-1].rehighlight = false
}
buf.highlighter.ReHighlightStates(buf, start)
buf.highlighter.HighlightMatches(buf, top, top+height)
}
c.lines = make([][]*Char, 0)
viewLine := 0
lineN := top
curStyle := defStyle
for viewLine < height {
if lineN >= len(buf.lines) {
break
}
lineStr := buf.Line(lineN)
line := []rune(lineStr)
colN, startOffset, startStyle := visualToCharPos(left, lineN, lineStr, buf, tabsize)
if colN < 0 {
colN = len(line)
}
viewCol := -startOffset
if startStyle != nil {
curStyle = *startStyle
}
// We'll either draw the length of the line, or the width of the screen
// whichever is smaller
lineLength := min(StringWidth(lineStr, tabsize), width)
c.lines = append(c.lines, make([]*Char, lineLength))
wrap := false
// We only need to wrap if the length of the line is greater than the width of the terminal screen
if softwrap && StringWidth(lineStr, tabsize) > width {
wrap = true
// We're going to draw the entire line now
lineLength = StringWidth(lineStr, tabsize)
}
for viewCol < lineLength {
if colN >= len(line) {
break
}
if group, ok := buf.Match(lineN)[colN]; ok {
curStyle = GetColor(group.String())
}
char := line[colN]
if viewCol >= 0 {
c.lines[viewLine][viewCol] = &Char{Loc{viewCol, viewLine}, Loc{colN, lineN}, char, char, curStyle, 1}
}
if char == '\t' {
charWidth := tabsize - (viewCol+left)%tabsize
if viewCol >= 0 {
c.lines[viewLine][viewCol].drawChar = indentchar
c.lines[viewLine][viewCol].width = charWidth
indentStyle := curStyle
if group, ok := colorscheme["indent-char"]; ok {
indentStyle = group
}
c.lines[viewLine][viewCol].style = indentStyle
}
for i := 1; i < charWidth; i++ {
viewCol++
if viewCol >= 0 && viewCol < lineLength {
c.lines[viewLine][viewCol] = &Char{Loc{viewCol, viewLine}, Loc{colN, lineN}, char, ' ', curStyle, 1}
}
}
viewCol++
} else if runewidth.RuneWidth(char) > 1 {
charWidth := runewidth.RuneWidth(char)
if viewCol >= 0 {
c.lines[viewLine][viewCol].width = charWidth
}
for i := 1; i < charWidth; i++ {
viewCol++
if viewCol >= 0 && viewCol < lineLength {
c.lines[viewLine][viewCol] = &Char{Loc{viewCol, viewLine}, Loc{colN, lineN}, char, ' ', curStyle, 1}
}
}
viewCol++
} else {
viewCol++
}
colN++
if wrap && viewCol >= width {
viewLine++
// If we go too far soft wrapping we have to cut off
if viewLine >= height {
break
}
nextLine := line[colN:]
lineLength := min(StringWidth(string(nextLine), tabsize), width)
c.lines = append(c.lines, make([]*Char, lineLength))
viewCol = 0
}
}
if group, ok := buf.Match(lineN)[len(line)]; ok {
curStyle = GetColor(group.String())
}
// newline
viewLine++
lineN++
}
for i := top; i < top+height; i++ {
if i >= buf.NumLines {
break
}
buf.SetMatch(i, nil)
}
}

78
internal/config/colorscheme.go → cmd/micro/colorscheme.go
View File

@@ -1,7 +1,7 @@
package config
package main
import (
"errors"
"fmt"
"regexp"
"strconv"
"strings"
@@ -9,15 +9,15 @@ import (
"github.com/zyedidia/tcell"
)
// Micro's default style
var DefStyle tcell.Style = tcell.StyleDefault
// Colorscheme is a map from string to style -- it represents a colorscheme
type Colorscheme map[string]tcell.Style
// The current colorscheme
var Colorscheme map[string]tcell.Style
var colorscheme Colorscheme
// GetColor takes in a syntax group and returns the colorscheme's style for that group
// This takes in a syntax group and returns the colorscheme's style for that group
func GetColor(color string) tcell.Style {
st := DefStyle
st := defStyle
if color == "" {
return st
}
@@ -29,11 +29,11 @@ func GetColor(color string) tcell.Style {
curGroup += "."
}
curGroup += g
if style, ok := Colorscheme[curGroup]; ok {
if style, ok := colorscheme[curGroup]; ok {
st = style
}
}
} else if style, ok := Colorscheme[color]; ok {
} else if style, ok := colorscheme[color]; ok {
st = style
} else {
st = StringToStyle(color)
@@ -48,46 +48,47 @@ func ColorschemeExists(colorschemeName string) bool {
}
// InitColorscheme picks and initializes the colorscheme when micro starts
func InitColorscheme() error {
Colorscheme = make(map[string]tcell.Style)
DefStyle = tcell.StyleDefault
func InitColorscheme() {
colorscheme = make(Colorscheme)
defStyle = tcell.StyleDefault.
Foreground(tcell.ColorDefault).
Background(tcell.ColorDefault)
if screen != nil {
screen.SetStyle(defStyle)
}
return LoadDefaultColorscheme()
LoadDefaultColorscheme()
}
// LoadDefaultColorscheme loads the default colorscheme from $(ConfigDir)/colorschemes
func LoadDefaultColorscheme() error {
return LoadColorscheme(GlobalSettings["colorscheme"].(string))
// LoadDefaultColorscheme loads the default colorscheme from $(configDir)/colorschemes
func LoadDefaultColorscheme() {
LoadColorscheme(globalSettings["colorscheme"].(string))
}
// LoadColorscheme loads the given colorscheme from a directory
func LoadColorscheme(colorschemeName string) error {
func LoadColorscheme(colorschemeName string) {
file := FindRuntimeFile(RTColorscheme, colorschemeName)
if file == nil {
return errors.New(colorschemeName + " is not a valid colorscheme")
}
if data, err := file.Data(); err != nil {
return errors.New("Error loading colorscheme: " + err.Error())
TermMessage(colorschemeName, "is not a valid colorscheme")
} else {
Colorscheme, err = ParseColorscheme(string(data))
if err != nil {
return err
if data, err := file.Data(); err != nil {
TermMessage("Error loading colorscheme:", err)
} else {
colorscheme = ParseColorscheme(string(data))
}
}
return nil
}
// ParseColorscheme parses the text definition for a colorscheme and returns the corresponding object
// Colorschemes are made up of color-link statements linking a color group to a list of colors
// For example, color-link keyword (blue,red) makes all keywords have a blue foreground and
// red background
func ParseColorscheme(text string) (map[string]tcell.Style, error) {
var err error
func ParseColorscheme(text string) Colorscheme {
parser := regexp.MustCompile(`color-link\s+(\S*)\s+"(.*)"`)
lines := strings.Split(text, "\n")
c := make(map[string]tcell.Style)
c := make(Colorscheme)
for _, line := range lines {
if strings.TrimSpace(line) == "" ||
@@ -105,14 +106,17 @@ func ParseColorscheme(text string) (map[string]tcell.Style, error) {
c[link] = style
if link == "default" {
DefStyle = style
defStyle = style
}
if screen != nil {
screen.SetStyle(defStyle)
}
} else {
err = errors.New("Color-link statement is not valid: " + line)
fmt.Println("Color-link statement is not valid:", line)
}
}
return c, err
return c
}
// StringToStyle returns a style from a string
@@ -137,17 +141,17 @@ func StringToStyle(str string) tcell.Style {
var fgColor, bgColor tcell.Color
if fg == "" {
fgColor, _, _ = DefStyle.Decompose()
fgColor, _, _ = defStyle.Decompose()
} else {
fgColor = StringToColor(fg)
}
if bg == "" {
_, bgColor, _ = DefStyle.Decompose()
_, bgColor, _ = defStyle.Decompose()
} else {
bgColor = StringToColor(bg)
}
style := DefStyle.Foreground(fgColor).Background(bgColor)
style := defStyle.Foreground(fgColor).Background(bgColor)
if strings.Contains(str, "bold") {
style = style.Bold(true)
}
@@ -248,9 +252,5 @@ func GetColor256(color int) tcell.Color {
tcell.Color253, tcell.Color254, tcell.Color255,
}
if color >= 0 && color < len(colors) {
return colors[color]
}
return tcell.ColorDefault
return colors[color]
}

716
cmd/micro/command.go Normal file
View File

@@ -0,0 +1,716 @@
package main
import (
"bytes"
"fmt"
"io"
"os"
"os/exec"
"os/signal"
"path/filepath"
"regexp"
"runtime"
"strconv"
"strings"
humanize "github.com/dustin/go-humanize"
"github.com/mitchellh/go-homedir"
)
// A Command contains a action (a function to call) as well as information about how to autocomplete the command
type Command struct {
action func([]string)
completions []Completion
}
// A StrCommand is similar to a command but keeps the name of the action
type StrCommand struct {
action string
completions []Completion
}
var commands map[string]Command
var commandActions map[string]func([]string)
func init() {
commandActions = map[string]func([]string){
"Set": Set,
"SetLocal": SetLocal,
"Show": Show,
"Run": Run,
"Bind": Bind,
"Quit": Quit,
"Save": Save,
"Replace": Replace,
"ReplaceAll": ReplaceAll,
"VSplit": VSplit,
"HSplit": HSplit,
"Tab": NewTab,
"Help": Help,
"Eval": Eval,
"ToggleLog": ToggleLog,
"Plugin": PluginCmd,
"Reload": Reload,
"Cd": Cd,
"Pwd": Pwd,
"Open": Open,
"TabSwitch": TabSwitch,
"MemUsage": MemUsage,
}
}
// InitCommands initializes the default commands
func InitCommands() {
commands = make(map[string]Command)
defaults := DefaultCommands()
parseCommands(defaults)
}
func parseCommands(userCommands map[string]StrCommand) {
for k, v := range userCommands {
MakeCommand(k, v.action, v.completions...)
}
}
// MakeCommand is a function to easily create new commands
// This can be called by plugins in Lua so that plugins can define their own commands
func MakeCommand(name, function string, completions ...Completion) {
action := commandActions[function]
if _, ok := commandActions[function]; !ok {
// If the user seems to be binding a function that doesn't exist
// We hope that it's a lua function that exists and bind it to that
action = LuaFunctionCommand(function)
}
commands[name] = Command{action, completions}
}
// DefaultCommands returns a map containing micro's default commands
func DefaultCommands() map[string]StrCommand {
return map[string]StrCommand{
"set": {"Set", []Completion{OptionCompletion, NoCompletion}},
"setlocal": {"SetLocal", []Completion{OptionCompletion, NoCompletion}},
"show": {"Show", []Completion{OptionCompletion, NoCompletion}},
"bind": {"Bind", []Completion{NoCompletion}},
"run": {"Run", []Completion{NoCompletion}},
"quit": {"Quit", []Completion{NoCompletion}},
"save": {"Save", []Completion{NoCompletion}},
"replace": {"Replace", []Completion{NoCompletion}},
"replaceall": {"ReplaceAll", []Completion{NoCompletion}},
"vsplit": {"VSplit", []Completion{FileCompletion, NoCompletion}},
"hsplit": {"HSplit", []Completion{FileCompletion, NoCompletion}},
"tab": {"Tab", []Completion{FileCompletion, NoCompletion}},
"help": {"Help", []Completion{HelpCompletion, NoCompletion}},
"eval": {"Eval", []Completion{NoCompletion}},
"log": {"ToggleLog", []Completion{NoCompletion}},
"plugin": {"Plugin", []Completion{PluginCmdCompletion, PluginNameCompletion}},
"reload": {"Reload", []Completion{NoCompletion}},
"cd": {"Cd", []Completion{FileCompletion}},
"pwd": {"Pwd", []Completion{NoCompletion}},
"open": {"Open", []Completion{FileCompletion}},
"tabswitch": {"TabSwitch", []Completion{NoCompletion}},
"memusage": {"MemUsage", []Completion{NoCompletion}},
}
}
// PluginCmd installs, removes, updates, lists, or searches for given plugins
func PluginCmd(args []string) {
if len(args) >= 1 {
switch args[0] {
case "install":
installedVersions := GetInstalledVersions(false)
for _, plugin := range args[1:] {
pp := GetAllPluginPackages().Get(plugin)
if pp == nil {
messenger.Error("Unknown plugin \"" + plugin + "\"")
} else if err := pp.IsInstallable(); err != nil {
messenger.Error("Error installing ", plugin, ": ", err)
} else {
for _, installed := range installedVersions {
if pp.Name == installed.pack.Name {
if pp.Versions[0].Version.Compare(installed.Version) == 1 {
messenger.Error(pp.Name, " is already installed but out-of-date: use 'plugin update ", pp.Name, "' to update")
} else {
messenger.Error(pp.Name, " is already installed")
}
}
}
pp.Install()
}
}
case "remove":
removed := ""
for _, plugin := range args[1:] {
// check if the plugin exists.
if _, ok := loadedPlugins[plugin]; ok {
UninstallPlugin(plugin)
removed += plugin + " "
continue
}
}
if !IsSpaces(removed) {
messenger.Message("Removed ", removed)
} else {
messenger.Error("The requested plugins do not exist")
}
case "update":
UpdatePlugins(args[1:])
case "list":
plugins := GetInstalledVersions(false)
messenger.AddLog("----------------")
messenger.AddLog("The following plugins are currently installed:\n")
for _, p := range plugins {
messenger.AddLog(fmt.Sprintf("%s (%s)", p.pack.Name, p.Version))
}
messenger.AddLog("----------------")
if len(plugins) > 0 {
if CurView().Type != vtLog {
ToggleLog([]string{})
}
}
case "search":
plugins := SearchPlugin(args[1:])
messenger.Message(len(plugins), " plugins found")
for _, p := range plugins {
messenger.AddLog("----------------")
messenger.AddLog(p.String())
}
messenger.AddLog("----------------")
if len(plugins) > 0 {
if CurView().Type != vtLog {
ToggleLog([]string{})
}
}
case "available":
packages := GetAllPluginPackages()
messenger.AddLog("Available Plugins:")
for _, pkg := range packages {
messenger.AddLog(pkg.Name)
}
if CurView().Type != vtLog {
ToggleLog([]string{})
}
}
} else {
messenger.Error("Not enough arguments")
}
}
// TabSwitch switches to a given tab either by name or by number
func TabSwitch(args []string) {
if len(args) > 0 {
num, err := strconv.Atoi(args[0])
if err != nil {
// Check for tab with this name
found := false
for _, t := range tabs {
v := t.views[t.CurView]
if v.Buf.GetName() == args[0] {
curTab = v.TabNum
found = true
}
}
if !found {
messenger.Error("Could not find tab: ", err)
}
} else {
num--
if num >= 0 && num < len(tabs) {
curTab = num
} else {
messenger.Error("Invalid tab index")
}
}
}
}
// Cd changes the current working directory
func Cd(args []string) {
if len(args) > 0 {
home, _ := homedir.Dir()
path := strings.Replace(args[0], "~", home, 1)
os.Chdir(path)
for _, tab := range tabs {
for _, view := range tab.views {
wd, _ := os.Getwd()
view.Buf.Path, _ = MakeRelative(view.Buf.AbsPath, wd)
if p, _ := filepath.Abs(view.Buf.Path); !strings.Contains(p, wd) {
view.Buf.Path = view.Buf.AbsPath
}
}
}
}
}
// MemUsage prints micro's memory usage
// Alloc shows how many bytes are currently in use
// Sys shows how many bytes have been requested from the operating system
// NumGC shows how many times the GC has been run
// Note that Go commonly reserves more memory from the OS than is currently in-use/required
// Additionally, even if Go returns memory to the OS, the OS does not always claim it because
// there may be plenty of memory to spare
func MemUsage(args []string) {
var mem runtime.MemStats
runtime.ReadMemStats(&mem)
messenger.Message(fmt.Sprintf("Alloc: %v, Sys: %v, NumGC: %v", humanize.Bytes(mem.Alloc), humanize.Bytes(mem.Sys), mem.NumGC))
}
// Pwd prints the current working directory
func Pwd(args []string) {
wd, err := os.Getwd()
if err != nil {
messenger.Message(err.Error())
} else {
messenger.Message(wd)
}
}
// Open opens a new buffer with a given filename
func Open(args []string) {
if len(args) > 0 {
filename := args[0]
// the filename might or might not be quoted, so unquote first then join the strings.
filename = strings.Join(SplitCommandArgs(filename), " ")
CurView().Open(filename)
} else {
messenger.Error("No filename")
}
}
// ToggleLog toggles the log view
func ToggleLog(args []string) {
buffer := messenger.getBuffer()
if CurView().Type != vtLog {
CurView().HSplit(buffer)
CurView().Type = vtLog
RedrawAll()
buffer.Cursor.Loc = buffer.Start()
CurView().Relocate()
buffer.Cursor.Loc = buffer.End()
CurView().Relocate()
} else {
CurView().Quit(true)
}
}
// Reload reloads all files (syntax files, colorschemes...)
func Reload(args []string) {
LoadAll()
}
// Help tries to open the given help page in a horizontal split
func Help(args []string) {
if len(args) < 1 {
// Open the default help if the user just typed "> help"
CurView().openHelp("help")
} else {
helpPage := args[0]
if FindRuntimeFile(RTHelp, helpPage) != nil {
CurView().openHelp(helpPage)
} else {
messenger.Error("Sorry, no help for ", helpPage)
}
}
}
// VSplit opens a vertical split with file given in the first argument
// If no file is given, it opens an empty buffer in a new split
func VSplit(args []string) {
if len(args) == 0 {
CurView().VSplit(NewBufferFromString("", ""))
} else {
filename := args[0]
home, _ := homedir.Dir()
filename = strings.Replace(filename, "~", home, 1)
file, err := os.Open(filename)
fileInfo, _ := os.Stat(filename)
if err == nil && fileInfo.IsDir() {
messenger.Error(filename, " is a directory")
return
}
defer file.Close()
var buf *Buffer
if err != nil {
// File does not exist -- create an empty buffer with that name
buf = NewBufferFromString("", filename)
} else {
buf = NewBuffer(file, FSize(file), filename)
}
CurView().VSplit(buf)
}
}
// HSplit opens a horizontal split with file given in the first argument
// If no file is given, it opens an empty buffer in a new split
func HSplit(args []string) {
if len(args) == 0 {
CurView().HSplit(NewBufferFromString("", ""))
} else {
filename := args[0]
home, _ := homedir.Dir()
filename = strings.Replace(filename, "~", home, 1)
file, err := os.Open(filename)
fileInfo, _ := os.Stat(filename)
if err == nil && fileInfo.IsDir() {
messenger.Error(filename, " is a directory")
return
}
defer file.Close()
var buf *Buffer
if err != nil {
// File does not exist -- create an empty buffer with that name
buf = NewBufferFromString("", filename)
} else {
buf = NewBuffer(file, FSize(file), filename)
}
CurView().HSplit(buf)
}
}
// Eval evaluates a lua expression
func Eval(args []string) {
if len(args) >= 1 {
err := L.DoString(args[0])
if err != nil {
messenger.Error(err)
}
} else {
messenger.Error("Not enough arguments")
}
}
// NewTab opens the given file in a new tab
func NewTab(args []string) {
if len(args) == 0 {
CurView().AddTab(true)
} else {
filename := args[0]
home, _ := homedir.Dir()
filename = strings.Replace(filename, "~", home, 1)
file, err := os.Open(filename)
fileInfo, _ := os.Stat(filename)
if err == nil && fileInfo.IsDir() {
messenger.Error(filename, " is a directory")
return
}
defer file.Close()
var buf *Buffer
if err != nil {
buf = NewBufferFromString("", filename)
} else {
buf = NewBuffer(file, FSize(file), filename)
}
tab := NewTabFromView(NewView(buf))
tab.SetNum(len(tabs))
tabs = append(tabs, tab)
curTab = len(tabs) - 1
if len(tabs) == 2 {
for _, t := range tabs {
for _, v := range t.views {
v.ToggleTabbar()
}
}
}
}
}
// Set sets an option
func Set(args []string) {
if len(args) < 2 {
messenger.Error("Not enough arguments")
return
}
option := args[0]
value := args[1]
SetOptionAndSettings(option, value)
}
// SetLocal sets an option local to the buffer
func SetLocal(args []string) {
if len(args) < 2 {
messenger.Error("Not enough arguments")
return
}
option := args[0]
value := args[1]
err := SetLocalOption(option, value, CurView())
if err != nil {
messenger.Error(err.Error())
}
}
// Show shows the value of the given option
func Show(args []string) {
if len(args) < 1 {
messenger.Error("Please provide an option to show")
return
}
option := GetOption(args[0])
if option == nil {
messenger.Error(args[0], " is not a valid option")
return
}
messenger.Message(option)
}
// Bind creates a new keybinding
func Bind(args []string) {
if len(args) < 2 {
messenger.Error("Not enough arguments")
return
}
BindKey(args[0], args[1])
}
// Run runs a shell command in the background
func Run(args []string) {
// Run a shell command in the background (openTerm is false)
HandleShellCommand(JoinCommandArgs(args...), false, true)
}
// Quit closes the main view
func Quit(args []string) {
// Close the main view
CurView().Quit(true)
}
// Save saves the buffer in the main view
func Save(args []string) {
if len(args) == 0 {
// Save the main view
CurView().Save(true)
} else {
CurView().Buf.SaveAs(args[0])
}
}
// Replace runs search and replace
func Replace(args []string) {
if len(args) < 2 || len(args) > 3 {
// We need to find both a search and replace expression
messenger.Error("Invalid replace statement: " + strings.Join(args, " "))
return
}
allAtOnce := false
if len(args) == 3 {
// user added -a flag
if args[2] == "-a" {
allAtOnce = true
} else {
messenger.Error("Invalid replace flag: " + args[2])
return
}
}
search := string(args[0])
replace := string(args[1])
regex, err := regexp.Compile("(?m)" + search)
if err != nil {
// There was an error with the user's regex
messenger.Error(err.Error())
return
}
view := CurView()
found := 0
replaceAll := func() {
var deltas []Delta
deltaXOffset := Count(replace) - Count(search)
for i := 0; i < view.Buf.LinesNum(); i++ {
matches := regex.FindAllIndex(view.Buf.lines[i].data, -1)
str := string(view.Buf.lines[i].data)
if matches != nil {
xOffset := 0
for _, m := range matches {
from := Loc{runePos(m[0], str) + xOffset, i}
to := Loc{runePos(m[1], str) + xOffset, i}
xOffset += deltaXOffset
deltas = append(deltas, Delta{replace, from, to})
found++
}
}
}
view.Buf.MultipleReplace(deltas)
}
if allAtOnce {
replaceAll()
} else {
for {
// The 'check' flag was used
Search(search, view, true)
if !view.Cursor.HasSelection() {
break
}
view.Relocate()
RedrawAll()
choice, canceled := messenger.LetterPrompt("Perform replacement? (y,n,a)", 'y', 'n', 'a')
if canceled {
if view.Cursor.HasSelection() {
view.Cursor.Loc = view.Cursor.CurSelection[0]
view.Cursor.ResetSelection()
}
messenger.Reset()
break
} else if choice == 'a' {
if view.Cursor.HasSelection() {
view.Cursor.Loc = view.Cursor.CurSelection[0]
view.Cursor.ResetSelection()
}
messenger.Reset()
replaceAll()
break
} else if choice == 'y' {
view.Cursor.DeleteSelection()
view.Buf.Insert(view.Cursor.Loc, replace)
view.Cursor.ResetSelection()
messenger.Reset()
found++
}
if view.Cursor.HasSelection() {
searchStart = view.Cursor.CurSelection[1]
} else {
searchStart = view.Cursor.Loc
}
}
}
view.Cursor.Relocate()
if found > 1 {
messenger.Message("Replaced ", found, " occurrences of ", search)
} else if found == 1 {
messenger.Message("Replaced ", found, " occurrence of ", search)
} else {
messenger.Message("Nothing matched ", search)
}
}
// ReplaceAll replaces search term all at once
func ReplaceAll(args []string) {
// aliased to Replace command
Replace(append(args, "-a"))
}
// RunShellCommand executes a shell command and returns the output/error
func RunShellCommand(input string) (string, error) {
inputCmd := SplitCommandArgs(input)[0]
args := SplitCommandArgs(input)[1:]
cmd := exec.Command(inputCmd, args...)
outputBytes := &bytes.Buffer{}
cmd.Stdout = outputBytes
cmd.Stderr = outputBytes
cmd.Start()
err := cmd.Wait() // wait for command to finish
outstring := outputBytes.String()
return outstring, err
}
// HandleShellCommand runs the shell command
// The openTerm argument specifies whether a terminal should be opened (for viewing output
// or interacting with stdin)
func HandleShellCommand(input string, openTerm bool, waitToFinish bool) string {
inputCmd := SplitCommandArgs(input)[0]
if !openTerm {
// Simply run the command in the background and notify the user when it's done
messenger.Message("Running...")
go func() {
output, err := RunShellCommand(input)
totalLines := strings.Split(output, "\n")
if len(totalLines) < 3 {
if err == nil {
messenger.Message(inputCmd, " exited without error")
} else {
messenger.Message(inputCmd, " exited with error: ", err, ": ", output)
}
} else {
messenger.Message(output)
}
// We have to make sure to redraw
RedrawAll()
}()
} else {
// Shut down the screen because we're going to interact directly with the shell
screen.Fini()
screen = nil
args := SplitCommandArgs(input)[1:]
// Set up everything for the command
var outputBuf bytes.Buffer
cmd := exec.Command(inputCmd, args...)
cmd.Stdin = os.Stdin
cmd.Stdout = io.MultiWriter(os.Stdout, &outputBuf)
cmd.Stderr = os.Stderr
// This is a trap for Ctrl-C so that it doesn't kill micro
// Instead we trap Ctrl-C to kill the program we're running
c := make(chan os.Signal, 1)
signal.Notify(c, os.Interrupt)
go func() {
for range c {
cmd.Process.Kill()
}
}()
cmd.Start()
err := cmd.Wait()
output := outputBuf.String()
if err != nil {
output = err.Error()
}
if waitToFinish {
// This is just so we don't return right away and let the user press enter to return
TermMessage("")
}
// Start the screen back up
InitScreen()
return output
}
return ""
}
// HandleCommand handles input from the user
func HandleCommand(input string) {
args := SplitCommandArgs(input)
inputCmd := args[0]
if _, ok := commands[inputCmd]; !ok {
messenger.Error("Unknown command ", inputCmd)
} else {
commands[inputCmd].action(args[1:])
}
}

472
internal/buffer/cursor.go → cmd/micro/cursor.go
View File

@@ -1,23 +1,15 @@
package buffer
package main
import (
"unicode/utf8"
"github.com/zyedidia/clipboard"
"github.com/zyedidia/micro/internal/util"
)
// InBounds returns whether the given location is a valid character position in the given buffer
func InBounds(pos Loc, buf *Buffer) bool {
if pos.Y < 0 || pos.Y >= len(buf.lines) || pos.X < 0 || pos.X > utf8.RuneCount(buf.LineBytes(pos.Y)) {
return false
}
return true
}
// The Cursor struct stores the location of the cursor in the buffer
// as well as the selection
// The Cursor struct stores the location of the cursor in the view
// The complicated part about the cursor is storing its location.
// The cursor must be displayed at an x, y location, but since the buffer
// uses a rope to store text, to insert text we must have an index. It
// is also simpler to use character indicies for other tasks such as
// selection.
type Cursor struct {
buf *Buffer
Loc
@@ -36,91 +28,17 @@ type Cursor struct {
Num int
}
func NewCursor(b *Buffer, l Loc) *Cursor {
c := &Cursor{
buf: b,
Loc: l,
}
c.StoreVisualX()
return c
}
func (c *Cursor) SetBuf(b *Buffer) {
c.buf = b
}
func (c *Cursor) Buf() *Buffer {
return c.buf
}
// Goto puts the cursor at the given cursor's location and gives
// the current cursor its selection too
// Goto puts the cursor at the given cursor's location and gives the current cursor its selection too
func (c *Cursor) Goto(b Cursor) {
c.X, c.Y, c.LastVisualX = b.X, b.Y, b.LastVisualX
c.OrigSelection, c.CurSelection = b.OrigSelection, b.CurSelection
}
// GotoLoc puts the cursor at the given cursor's location and gives
// the current cursor its selection too
func (c *Cursor) GotoLoc(l Loc) {
c.X, c.Y = l.X, l.Y
c.StoreVisualX()
}
// GetVisualX returns the x value of the cursor in visual spaces
func (c *Cursor) GetVisualX() int {
if c.X <= 0 {
c.X = 0
return 0
}
bytes := c.buf.LineBytes(c.Y)
tabsize := int(c.buf.Settings["tabsize"].(float64))
if c.X > utf8.RuneCount(bytes) {
c.X = utf8.RuneCount(bytes) - 1
}
return util.StringWidth(bytes, c.X, tabsize)
}
// GetCharPosInLine gets the char position of a visual x y
// coordinate (this is necessary because tabs are 1 char but
// 4 visual spaces)
func (c *Cursor) GetCharPosInLine(b []byte, visualPos int) int {
tabsize := int(c.buf.Settings["tabsize"].(float64))
return util.GetCharPosInLine(b, visualPos, tabsize)
}
// Start moves the cursor to the start of the line it is on
func (c *Cursor) Start() {
c.X = 0
c.LastVisualX = c.GetVisualX()
}
// StartOfText moves the cursor to the first non-whitespace rune of
// the line it is on
func (c *Cursor) StartOfText() {
c.Start()
for util.IsWhitespace(c.RuneUnder(c.X)) {
if c.X == utf8.RuneCount(c.buf.LineBytes(c.Y)) {
break
}
c.Right()
}
}
// End moves the cursor to the end of the line it is on
func (c *Cursor) End() {
c.X = utf8.RuneCount(c.buf.LineBytes(c.Y))
c.LastVisualX = c.GetVisualX()
}
// CopySelection copies the user's selection to either "primary"
// or "clipboard"
// CopySelection copies the user's selection to either "primary" or "clipboard"
func (c *Cursor) CopySelection(target string) {
if c.HasSelection() {
if target != "primary" || c.buf.Settings["useprimary"].(bool) {
clipboard.WriteAll(string(c.GetSelection()), target)
clipboard.WriteAll(c.GetSelection(), target)
}
}
}
@@ -159,30 +77,15 @@ func (c *Cursor) DeleteSelection() {
}
}
// Deselect closes the cursor's current selection
// Start indicates whether the cursor should be placed
// at the start or end of the selection
func (c *Cursor) Deselect(start bool) {
if c.HasSelection() {
if start {
c.Loc = c.CurSelection[0]
} else {
c.Loc = c.CurSelection[1].Move(-1, c.buf)
}
c.ResetSelection()
c.StoreVisualX()
}
}
// GetSelection returns the cursor's selection
func (c *Cursor) GetSelection() []byte {
func (c *Cursor) GetSelection() string {
if InBounds(c.CurSelection[0], c.buf) && InBounds(c.CurSelection[1], c.buf) {
if c.CurSelection[0].GreaterThan(c.CurSelection[1]) {
return c.buf.Substr(c.CurSelection[1], c.CurSelection[0])
}
return c.buf.Substr(c.CurSelection[0], c.CurSelection[1])
}
return []byte{}
return ""
}
// SelectLine selects the current line
@@ -190,7 +93,7 @@ func (c *Cursor) SelectLine() {
c.Start()
c.SetSelectionStart(c.Loc)
c.End()
if len(c.buf.lines)-1 > c.Y {
if c.buf.NumLines-1 > c.Y {
c.SetSelectionEnd(c.Loc.Move(1, c.buf))
} else {
c.SetSelectionEnd(c.Loc)
@@ -217,20 +120,146 @@ func (c *Cursor) AddLineToSelection() {
}
}
// SelectWord selects the word the cursor is currently on
func (c *Cursor) SelectWord() {
if len(c.buf.Line(c.Y)) == 0 {
return
}
if !IsWordChar(string(c.RuneUnder(c.X))) {
c.SetSelectionStart(c.Loc)
c.SetSelectionEnd(c.Loc.Move(1, c.buf))
c.OrigSelection = c.CurSelection
return
}
forward, backward := c.X, c.X
for backward > 0 && IsWordChar(string(c.RuneUnder(backward-1))) {
backward--
}
c.SetSelectionStart(Loc{backward, c.Y})
c.OrigSelection[0] = c.CurSelection[0]
for forward < Count(c.buf.Line(c.Y))-1 && IsWordChar(string(c.RuneUnder(forward+1))) {
forward++
}
c.SetSelectionEnd(Loc{forward, c.Y}.Move(1, c.buf))
c.OrigSelection[1] = c.CurSelection[1]
c.Loc = c.CurSelection[1]
}
// AddWordToSelection adds the word the cursor is currently on to the selection
func (c *Cursor) AddWordToSelection() {
if c.Loc.GreaterThan(c.OrigSelection[0]) && c.Loc.LessThan(c.OrigSelection[1]) {
c.CurSelection = c.OrigSelection
return
}
if c.Loc.LessThan(c.OrigSelection[0]) {
backward := c.X
for backward > 0 && IsWordChar(string(c.RuneUnder(backward-1))) {
backward--
}
c.SetSelectionStart(Loc{backward, c.Y})
c.SetSelectionEnd(c.OrigSelection[1])
}
if c.Loc.GreaterThan(c.OrigSelection[1]) {
forward := c.X
for forward < Count(c.buf.Line(c.Y))-1 && IsWordChar(string(c.RuneUnder(forward+1))) {
forward++
}
c.SetSelectionEnd(Loc{forward, c.Y}.Move(1, c.buf))
c.SetSelectionStart(c.OrigSelection[0])
}
c.Loc = c.CurSelection[1]
}
// SelectTo selects from the current cursor location to the given location
func (c *Cursor) SelectTo(loc Loc) {
if loc.GreaterThan(c.OrigSelection[0]) {
c.SetSelectionStart(c.OrigSelection[0])
c.SetSelectionEnd(loc)
} else {
c.SetSelectionStart(loc)
c.SetSelectionEnd(c.OrigSelection[0])
}
}
// WordRight moves the cursor one word to the right
func (c *Cursor) WordRight() {
for IsWhitespace(c.RuneUnder(c.X)) {
if c.X == Count(c.buf.Line(c.Y)) {
c.Right()
return
}
c.Right()
}
c.Right()
for IsWordChar(string(c.RuneUnder(c.X))) {
if c.X == Count(c.buf.Line(c.Y)) {
return
}
c.Right()
}
}
// WordLeft moves the cursor one word to the left
func (c *Cursor) WordLeft() {
c.Left()
for IsWhitespace(c.RuneUnder(c.X)) {
if c.X == 0 {
return
}
c.Left()
}
c.Left()
for IsWordChar(string(c.RuneUnder(c.X))) {
if c.X == 0 {
return
}
c.Left()
}
c.Right()
}
// RuneUnder returns the rune under the given x position
func (c *Cursor) RuneUnder(x int) rune {
line := []rune(c.buf.Line(c.Y))
if len(line) == 0 {
return '\n'
}
if x >= len(line) {
return '\n'
} else if x < 0 {
x = 0
}
return line[x]
}
// UpN moves the cursor up N lines (if possible)
func (c *Cursor) UpN(amount int) {
proposedY := c.Y - amount
if proposedY < 0 {
proposedY = 0
} else if proposedY >= len(c.buf.lines) {
proposedY = len(c.buf.lines) - 1
c.LastVisualX = 0
} else if proposedY >= c.buf.NumLines {
proposedY = c.buf.NumLines - 1
}
bytes := c.buf.LineBytes(proposedY)
c.X = c.GetCharPosInLine(bytes, c.LastVisualX)
runes := []rune(c.buf.Line(c.Y))
c.X = c.GetCharPosInLine(proposedY, c.LastVisualX)
if c.X > utf8.RuneCount(bytes) || (amount < 0 && proposedY == c.Y) {
c.X = utf8.RuneCount(bytes)
if c.X > len(runes) {
c.X = len(runes)
}
c.Y = proposedY
@@ -251,8 +280,7 @@ func (c *Cursor) Down() {
c.DownN(1)
}
// Left moves the cursor left one cell (if possible) or to
// the previous line if it is at the beginning
// Left moves the cursor left one cell (if possible) or to the last line if it is at the beginning
func (c *Cursor) Left() {
if c.Loc == c.buf.Start() {
return
@@ -263,178 +291,82 @@ func (c *Cursor) Left() {
c.Up()
c.End()
}
c.StoreVisualX()
c.LastVisualX = c.GetVisualX()
}
// Right moves the cursor right one cell (if possible) or
// to the next line if it is at the end
// Right moves the cursor right one cell (if possible) or to the next line if it is at the end
func (c *Cursor) Right() {
if c.Loc == c.buf.End() {
return
}
if c.X < utf8.RuneCount(c.buf.LineBytes(c.Y)) {
if c.X < Count(c.buf.Line(c.Y)) {
c.X++
} else {
c.Down()
c.Start()
}
c.StoreVisualX()
c.LastVisualX = c.GetVisualX()
}
// Relocate makes sure that the cursor is inside the bounds
// of the buffer If it isn't, it moves it to be within the
// buffer's lines
func (c *Cursor) Relocate() {
if c.Y < 0 {
c.Y = 0
} else if c.Y >= len(c.buf.lines) {
c.Y = len(c.buf.lines) - 1
// End moves the cursor to the end of the line it is on
func (c *Cursor) End() {
c.X = Count(c.buf.Line(c.Y))
c.LastVisualX = c.GetVisualX()
}
// Start moves the cursor to the start of the line it is on
func (c *Cursor) Start() {
c.X = 0
c.LastVisualX = c.GetVisualX()
}
// GetCharPosInLine gets the char position of a visual x y coordinate (this is necessary because tabs are 1 char but 4 visual spaces)
func (c *Cursor) GetCharPosInLine(lineNum, visualPos int) int {
// Get the tab size
tabSize := int(c.buf.Settings["tabsize"].(float64))
visualLineLen := StringWidth(c.buf.Line(lineNum), tabSize)
if visualPos > visualLineLen {
visualPos = visualLineLen
}
width := WidthOfLargeRunes(c.buf.Line(lineNum), tabSize)
if visualPos >= width {
return visualPos - width
}
return visualPos / tabSize
}
// GetVisualX returns the x value of the cursor in visual spaces
func (c *Cursor) GetVisualX() int {
runes := []rune(c.buf.Line(c.Y))
tabSize := int(c.buf.Settings["tabsize"].(float64))
if c.X > len(runes) {
c.X = len(runes) - 1
}
if c.X < 0 {
c.X = 0
} else if c.X > utf8.RuneCount(c.buf.LineBytes(c.Y)) {
c.X = utf8.RuneCount(c.buf.LineBytes(c.Y))
}
return StringWidth(string(runes[:c.X]), tabSize)
}
// SelectWord selects the word the cursor is currently on
func (c *Cursor) SelectWord() {
if len(c.buf.LineBytes(c.Y)) == 0 {
return
}
if !util.IsWordChar(c.RuneUnder(c.X)) {
c.SetSelectionStart(c.Loc)
c.SetSelectionEnd(c.Loc.Move(1, c.buf))
c.OrigSelection = c.CurSelection
return
}
forward, backward := c.X, c.X
for backward > 0 && util.IsWordChar(c.RuneUnder(backward-1)) {
backward--
}
c.SetSelectionStart(Loc{backward, c.Y})
c.OrigSelection[0] = c.CurSelection[0]
lineLen := utf8.RuneCount(c.buf.LineBytes(c.Y)) - 1
for forward < lineLen && util.IsWordChar(c.RuneUnder(forward+1)) {
forward++
}
c.SetSelectionEnd(Loc{forward, c.Y}.Move(1, c.buf))
c.OrigSelection[1] = c.CurSelection[1]
c.Loc = c.CurSelection[1]
}
// AddWordToSelection adds the word the cursor is currently on
// to the selection
func (c *Cursor) AddWordToSelection() {
if c.Loc.GreaterThan(c.OrigSelection[0]) && c.Loc.LessThan(c.OrigSelection[1]) {
c.CurSelection = c.OrigSelection
return
}
if c.Loc.LessThan(c.OrigSelection[0]) {
backward := c.X
for backward > 0 && util.IsWordChar(c.RuneUnder(backward-1)) {
backward--
}
c.SetSelectionStart(Loc{backward, c.Y})
c.SetSelectionEnd(c.OrigSelection[1])
}
if c.Loc.GreaterThan(c.OrigSelection[1]) {
forward := c.X
lineLen := utf8.RuneCount(c.buf.LineBytes(c.Y)) - 1
for forward < lineLen && util.IsWordChar(c.RuneUnder(forward+1)) {
forward++
}
c.SetSelectionEnd(Loc{forward, c.Y}.Move(1, c.buf))
c.SetSelectionStart(c.OrigSelection[0])
}
c.Loc = c.CurSelection[1]
}
// SelectTo selects from the current cursor location to the given
// location
func (c *Cursor) SelectTo(loc Loc) {
if loc.GreaterThan(c.OrigSelection[0]) {
c.SetSelectionStart(c.OrigSelection[0])
c.SetSelectionEnd(loc)
} else {
c.SetSelectionStart(loc)
c.SetSelectionEnd(c.OrigSelection[0])
}
}
// WordRight moves the cursor one word to the right
func (c *Cursor) WordRight() {
for util.IsWhitespace(c.RuneUnder(c.X)) {
if c.X == utf8.RuneCount(c.buf.LineBytes(c.Y)) {
c.Right()
return
}
c.Right()
}
c.Right()
for util.IsWordChar(c.RuneUnder(c.X)) {
if c.X == utf8.RuneCount(c.buf.LineBytes(c.Y)) {
return
}
c.Right()
}
}
// WordLeft moves the cursor one word to the left
func (c *Cursor) WordLeft() {
c.Left()
for util.IsWhitespace(c.RuneUnder(c.X)) {
if c.X == 0 {
return
}
c.Left()
}
c.Left()
for util.IsWordChar(c.RuneUnder(c.X)) {
if c.X == 0 {
return
}
c.Left()
}
c.Right()
}
// RuneUnder returns the rune under the given x position
func (c *Cursor) RuneUnder(x int) rune {
line := c.buf.LineBytes(c.Y)
if len(line) == 0 || x >= utf8.RuneCount(line) {
return '\n'
} else if x < 0 {
x = 0
}
i := 0
for len(line) > 0 {
r, size := utf8.DecodeRune(line)
line = line[size:]
if i == x {
return r
}
i++
}
return '\n'
}
// StoreVisualX stores the current visual x value in the cursor
func (c *Cursor) StoreVisualX() {
c.LastVisualX = c.GetVisualX()
}
// Relocate makes sure that the cursor is inside the bounds of the buffer
// If it isn't, it moves it to be within the buffer's lines
func (c *Cursor) Relocate() {
if c.Y < 0 {
c.Y = 0
} else if c.Y >= c.buf.NumLines {
c.Y = c.buf.NumLines - 1
}
if c.X < 0 {
c.X = 0
} else if c.X > Count(c.buf.Line(c.Y)) {
c.X = Count(c.buf.Line(c.Y))
}
}

31
cmd/micro/debug.go
View File

@@ -1,31 +0,0 @@
package main
import (
"log"
"os"
"github.com/zyedidia/micro/internal/util"
)
// NullWriter simply sends writes into the void
type NullWriter struct{}
// Write is empty
func (NullWriter) Write(data []byte) (n int, err error) {
return 0, nil
}
// InitLog sets up the debug log system for micro if it has been enabled by compile-time variables
func InitLog() {
if util.Debug == "ON" {
f, err := os.OpenFile("log.txt", os.O_RDWR|os.O_CREATE|os.O_TRUNC, 0666)
if err != nil {
log.Fatalf("error opening file: %v", err)
}
log.SetOutput(f)
log.Println("Micro started")
} else {
log.SetOutput(NullWriter{})
}
}

95
internal/buffer/eventhandler.go → cmd/micro/eventhandler.go
View File

@@ -1,10 +1,11 @@
package buffer
package main
import (
"strings"
"time"
"unicode/utf8"
dmp "github.com/sergi/go-diff/diffmatchpatch"
"github.com/yuin/gopher-lua"
)
const (
@@ -16,8 +17,6 @@ const (
TextEventRemove = -1
// TextEventReplace represents a replace event
TextEventReplace = 0
undoThreshold = 500 // If two events are less than n milliseconds apart, undo both of them
)
// TextEvent holds data for a manipulation on some text that can be undone
@@ -29,18 +28,17 @@ type TextEvent struct {
Time time.Time
}
// A Delta is a change to the buffer
type Delta struct {
Text []byte
Text string
Start Loc
End Loc
}
// ExecuteTextEvent runs a text event
func ExecuteTextEvent(t *TextEvent, buf *SharedBuffer) {
func ExecuteTextEvent(t *TextEvent, buf *Buffer) {
if t.EventType == TextEventInsert {
for _, d := range t.Deltas {
buf.insert(d.Start, d.Text)
buf.insert(d.Start, []byte(d.Text))
}
} else if t.EventType == TextEventRemove {
for i, d := range t.Deltas {
@@ -49,9 +47,9 @@ func ExecuteTextEvent(t *TextEvent, buf *SharedBuffer) {
} else if t.EventType == TextEventReplace {
for i, d := range t.Deltas {
t.Deltas[i].Text = buf.remove(d.Start, d.End)
buf.insert(d.Start, d.Text)
buf.insert(d.Start, []byte(d.Text))
t.Deltas[i].Start = d.Start
t.Deltas[i].End = Loc{d.Start.X + utf8.RuneCount(d.Text), d.Start.Y}
t.Deltas[i].End = Loc{d.Start.X + Count(d.Text), d.Start.Y}
}
for i, j := 0, len(t.Deltas)-1; i < j; i, j = i+1, j-1 {
t.Deltas[i], t.Deltas[j] = t.Deltas[j], t.Deltas[i]
@@ -60,27 +58,24 @@ func ExecuteTextEvent(t *TextEvent, buf *SharedBuffer) {
}
// UndoTextEvent undoes a text event
func UndoTextEvent(t *TextEvent, buf *SharedBuffer) {
func UndoTextEvent(t *TextEvent, buf *Buffer) {
t.EventType = -t.EventType
ExecuteTextEvent(t, buf)
}
// EventHandler executes text manipulations and allows undoing and redoing
type EventHandler struct {
buf *SharedBuffer
cursors []*Cursor
active int
UndoStack *TEStack
RedoStack *TEStack
buf *Buffer
UndoStack *Stack
RedoStack *Stack
}
// NewEventHandler returns a new EventHandler
func NewEventHandler(buf *SharedBuffer, cursors []*Cursor) *EventHandler {
func NewEventHandler(buf *Buffer) *EventHandler {
eh := new(EventHandler)
eh.UndoStack = new(TEStack)
eh.RedoStack = new(TEStack)
eh.UndoStack = new(Stack)
eh.RedoStack = new(Stack)
eh.buf = buf
eh.cursors = cursors
return eh
}
@@ -90,39 +85,38 @@ func NewEventHandler(buf *SharedBuffer, cursors []*Cursor) *EventHandler {
// through insert and delete events
func (eh *EventHandler) ApplyDiff(new string) {
differ := dmp.New()
diff := differ.DiffMain(string(eh.buf.Bytes()), new, false)
diff := differ.DiffMain(eh.buf.String(), new, false)
loc := eh.buf.Start()
for _, d := range diff {
if d.Type == dmp.DiffDelete {
eh.Remove(loc, loc.MoveLA(utf8.RuneCountInString(d.Text), eh.buf.LineArray))
eh.Remove(loc, loc.Move(Count(d.Text), eh.buf))
} else {
if d.Type == dmp.DiffInsert {
eh.Insert(loc, d.Text)
}
loc = loc.MoveLA(utf8.RuneCountInString(d.Text), eh.buf.LineArray)
loc = loc.Move(Count(d.Text), eh.buf)
}
}
}
// Insert creates an insert text event and executes it
func (eh *EventHandler) Insert(start Loc, textStr string) {
text := []byte(textStr)
func (eh *EventHandler) Insert(start Loc, text string) {
e := &TextEvent{
C: *eh.cursors[eh.active],
C: *eh.buf.cursors[eh.buf.curCursor],
EventType: TextEventInsert,
Deltas: []Delta{{text, start, Loc{0, 0}}},
Time: time.Now(),
}
eh.Execute(e)
e.Deltas[0].End = start.MoveLA(utf8.RuneCount(text), eh.buf.LineArray)
e.Deltas[0].End = start.Move(Count(text), eh.buf)
end := e.Deltas[0].End
for _, c := range eh.cursors {
for _, c := range eh.buf.cursors {
move := func(loc Loc) Loc {
if start.Y != end.Y && loc.GreaterThan(start) {
loc.Y += end.Y - start.Y
} else if loc.Y == start.Y && loc.GreaterEqual(start) {
loc = loc.MoveLA(utf8.RuneCount(text), eh.buf.LineArray)
loc = loc.Move(Count(text), eh.buf)
}
return loc
}
@@ -138,19 +132,19 @@ func (eh *EventHandler) Insert(start Loc, textStr string) {
// Remove creates a remove text event and executes it
func (eh *EventHandler) Remove(start, end Loc) {
e := &TextEvent{
C: *eh.cursors[eh.active],
C: *eh.buf.cursors[eh.buf.curCursor],
EventType: TextEventRemove,
Deltas: []Delta{{[]byte{}, start, end}},
Deltas: []Delta{{"", start, end}},
Time: time.Now(),
}
eh.Execute(e)
for _, c := range eh.cursors {
for _, c := range eh.buf.cursors {
move := func(loc Loc) Loc {
if start.Y != end.Y && loc.GreaterThan(end) {
loc.Y -= end.Y - start.Y
} else if loc.Y == end.Y && loc.GreaterEqual(end) {
loc = loc.MoveLA(-DiffLA(start, end, eh.buf.LineArray), eh.buf.LineArray)
loc = loc.Move(-Diff(start, end, eh.buf), eh.buf)
}
return loc
}
@@ -166,7 +160,7 @@ func (eh *EventHandler) Remove(start, end Loc) {
// MultipleReplace creates an multiple insertions executes them
func (eh *EventHandler) MultipleReplace(deltas []Delta) {
e := &TextEvent{
C: *eh.cursors[eh.active],
C: *eh.buf.cursors[eh.buf.curCursor],
EventType: TextEventReplace,
Deltas: deltas,
Time: time.Now(),
@@ -183,20 +177,19 @@ func (eh *EventHandler) Replace(start, end Loc, replace string) {
// Execute a textevent and add it to the undo stack
func (eh *EventHandler) Execute(t *TextEvent) {
if eh.RedoStack.Len() > 0 {
eh.RedoStack = new(TEStack)
eh.RedoStack = new(Stack)
}
eh.UndoStack.Push(t)
// TODO: Call plugins on text events
// for pl := range loadedPlugins {
// ret, err := Call(pl+".onBeforeTextEvent", t)
// if err != nil && !strings.HasPrefix(err.Error(), "function does not exist") {
// screen.TermMessage(err)
// }
// if val, ok := ret.(lua.LBool); ok && val == lua.LFalse {
// return
// }
// }
for pl := range loadedPlugins {
ret, err := Call(pl+".onBeforeTextEvent", t)
if err != nil && !strings.HasPrefix(err.Error(), "function does not exist") {
TermMessage(err)
}
if val, ok := ret.(lua.LBool); ok && val == lua.LFalse {
return
}
}
ExecuteTextEvent(t, eh.buf)
}
@@ -242,9 +235,9 @@ func (eh *EventHandler) UndoOneEvent() {
// Set the cursor in the right place
teCursor := t.C
if teCursor.Num >= 0 && teCursor.Num < len(eh.cursors) {
t.C = *eh.cursors[teCursor.Num]
eh.cursors[teCursor.Num].Goto(teCursor)
if teCursor.Num >= 0 && teCursor.Num < len(eh.buf.cursors) {
t.C = *eh.buf.cursors[teCursor.Num]
eh.buf.cursors[teCursor.Num].Goto(teCursor)
} else {
teCursor.Num = -1
}
@@ -289,9 +282,9 @@ func (eh *EventHandler) RedoOneEvent() {
UndoTextEvent(t, eh.buf)
teCursor := t.C
if teCursor.Num >= 0 && teCursor.Num < len(eh.cursors) {
t.C = *eh.cursors[teCursor.Num]
eh.cursors[teCursor.Num].Goto(teCursor)
if teCursor.Num >= 0 && teCursor.Num < len(eh.buf.cursors) {
t.C = *eh.buf.cursors[teCursor.Num]
eh.buf.cursors[teCursor.Num].Goto(teCursor)
} else {
teCursor.Num = -1
}

2
pkg/highlight/ftdetect.go → cmd/micro/highlight/ftdetect.go
View File

@@ -2,7 +2,7 @@ package highlight
import "regexp"
// MatchFiletype will use the list of syntax definitions provided and the filename and first line of the file
// DetectFiletype will use the list of syntax definitions provided and the filename and first line of the file
// to determine the filetype of the file
// It will return the corresponding syntax definition for the filetype
func MatchFiletype(ftdetect [2]*regexp.Regexp, filename string, firstLine []byte) bool {

108
pkg/highlight/highlighter.go → cmd/micro/highlight/highlighter.go
View File

@@ -6,50 +6,16 @@ import (
"unicode/utf8"
)
func sliceStart(slc []byte, index int) []byte {
len := len(slc)
i := 0
totalSize := 0
for totalSize < len {
if i >= index {
return slc[totalSize:]
}
_, size := utf8.DecodeRune(slc[totalSize:])
totalSize += size
i++
}
return slc[totalSize:]
}
func sliceEnd(slc []byte, index int) []byte {
len := len(slc)
i := 0
totalSize := 0
for totalSize < len {
if i >= index {
return slc[:totalSize]
}
_, size := utf8.DecodeRune(slc[totalSize:])
totalSize += size
i++
}
return slc[:totalSize]
}
// RunePos returns the rune index of a given byte index
// This could cause problems if the byte index is between code points
func runePos(p int, str []byte) int {
func runePos(p int, str string) int {
if p < 0 {
return 0
}
if p >= len(str) {
return utf8.RuneCount(str)
return utf8.RuneCountInString(str)
}
return utf8.RuneCount(str[:p])
return utf8.RuneCountInString(str[:p])
}
func combineLineMatch(src, dst LineMatch) LineMatch {
@@ -70,7 +36,7 @@ type State *region
// LineStates is an interface for a buffer-like object which can also store the states and matches for every line
type LineStates interface {
LineBytes(n int) []byte
Line(n int) string
LinesNum() int
State(lineN int) State
SetState(lineN int, s State)
@@ -94,7 +60,7 @@ func NewHighlighter(def *Def) *Highlighter {
// color's group (represented as one byte)
type LineMatch map[int]Group
func findIndex(regex *regexp.Regexp, skip *regexp.Regexp, str []byte, canMatchStart, canMatchEnd bool) []int {
func findIndex(regex *regexp.Regexp, skip *regexp.Regexp, str []rune, canMatchStart, canMatchEnd bool) []int {
regexStr := regex.String()
if strings.Contains(regexStr, "^") {
if !canMatchStart {
@@ -109,12 +75,12 @@ func findIndex(regex *regexp.Regexp, skip *regexp.Regexp, str []byte, canMatchSt
var strbytes []byte
if skip != nil {
strbytes = skip.ReplaceAllFunc(str, func(match []byte) []byte {
strbytes = skip.ReplaceAllFunc([]byte(string(str)), func(match []byte) []byte {
res := make([]byte, utf8.RuneCount(match))
return res
})
} else {
strbytes = str
strbytes = []byte(string(str))
}
match := regex.FindIndex(strbytes)
@@ -122,10 +88,10 @@ func findIndex(regex *regexp.Regexp, skip *regexp.Regexp, str []byte, canMatchSt
return nil
}
// return []int{match.Index, match.Index + match.Length}
return []int{runePos(match[0], str), runePos(match[1], str)}
return []int{runePos(match[0], string(str)), runePos(match[1], string(str))}
}
func findAllIndex(regex *regexp.Regexp, str []byte, canMatchStart, canMatchEnd bool) [][]int {
func findAllIndex(regex *regexp.Regexp, str []rune, canMatchStart, canMatchEnd bool) [][]int {
regexStr := regex.String()
if strings.Contains(regexStr, "^") {
if !canMatchStart {
@@ -137,16 +103,17 @@ func findAllIndex(regex *regexp.Regexp, str []byte, canMatchStart, canMatchEnd b
return nil
}
}
matches := regex.FindAllIndex(str, -1)
matches := regex.FindAllIndex([]byte(string(str)), -1)
for i, m := range matches {
matches[i][0] = runePos(m[0], str)
matches[i][1] = runePos(m[1], str)
matches[i][0] = runePos(m[0], string(str))
matches[i][1] = runePos(m[1], string(str))
}
return matches
}
func (h *Highlighter) highlightRegion(highlights LineMatch, start int, canMatchEnd bool, lineNum int, line []byte, curRegion *region, statesOnly bool) LineMatch {
lineLen := utf8.RuneCount(line)
func (h *Highlighter) highlightRegion(highlights LineMatch, start int, canMatchEnd bool, lineNum int, line []rune, curRegion *region, statesOnly bool) LineMatch {
// highlights := make(LineMatch)
if start == 0 {
if !statesOnly {
if _, ok := highlights[0]; !ok {
@@ -163,20 +130,20 @@ func (h *Highlighter) highlightRegion(highlights LineMatch, start int, canMatchE
if curRegion.parent == nil {
if !statesOnly {
highlights[start+loc[1]] = 0
h.highlightRegion(highlights, start, false, lineNum, sliceEnd(line, loc[0]), curRegion, statesOnly)
h.highlightRegion(highlights, start, false, lineNum, line[:loc[0]], curRegion, statesOnly)
}
h.highlightEmptyRegion(highlights, start+loc[1], canMatchEnd, lineNum, sliceStart(line, loc[1]), statesOnly)
h.highlightEmptyRegion(highlights, start+loc[1], canMatchEnd, lineNum, line[loc[1]:], statesOnly)
return highlights
}
if !statesOnly {
highlights[start+loc[1]] = curRegion.parent.group
h.highlightRegion(highlights, start, false, lineNum, sliceEnd(line, loc[0]), curRegion, statesOnly)
h.highlightRegion(highlights, start, false, lineNum, line[:loc[0]], curRegion, statesOnly)
}
h.highlightRegion(highlights, start+loc[1], canMatchEnd, lineNum, sliceStart(line, loc[1]), curRegion.parent, statesOnly)
h.highlightRegion(highlights, start+loc[1], canMatchEnd, lineNum, line[loc[1]:], curRegion.parent, statesOnly)
return highlights
}
if lineLen == 0 || statesOnly {
if len(line) == 0 || statesOnly {
if canMatchEnd {
h.lastRegion = curRegion
}
@@ -184,7 +151,7 @@ func (h *Highlighter) highlightRegion(highlights LineMatch, start int, canMatchE
return highlights
}
firstLoc := []int{lineLen, 0}
firstLoc := []int{len(line), 0}
var firstRegion *region
for _, r := range curRegion.rules.regions {
@@ -196,14 +163,14 @@ func (h *Highlighter) highlightRegion(highlights LineMatch, start int, canMatchE
}
}
}
if firstLoc[0] != lineLen {
if firstLoc[0] != len(line) {
highlights[start+firstLoc[0]] = firstRegion.limitGroup
h.highlightRegion(highlights, start, false, lineNum, sliceEnd(line, firstLoc[0]), curRegion, statesOnly)
h.highlightRegion(highlights, start+firstLoc[1], canMatchEnd, lineNum, sliceStart(line, firstLoc[1]), firstRegion, statesOnly)
h.highlightRegion(highlights, start, false, lineNum, line[:firstLoc[0]], curRegion, statesOnly)
h.highlightRegion(highlights, start+firstLoc[1], canMatchEnd, lineNum, line[firstLoc[1]:], firstRegion, statesOnly)
return highlights
}
fullHighlights := make([]Group, lineLen)
fullHighlights := make([]Group, len([]rune(string(line))))
for i := 0; i < len(fullHighlights); i++ {
fullHighlights[i] = curRegion.group
}
@@ -218,7 +185,9 @@ func (h *Highlighter) highlightRegion(highlights LineMatch, start int, canMatchE
}
for i, h := range fullHighlights {
if i == 0 || h != fullHighlights[i-1] {
// if _, ok := highlights[start+i]; !ok {
highlights[start+i] = h
// }
}
}
@@ -229,16 +198,15 @@ func (h *Highlighter) highlightRegion(highlights LineMatch, start int, canMatchE
return highlights
}
func (h *Highlighter) highlightEmptyRegion(highlights LineMatch, start int, canMatchEnd bool, lineNum int, line []byte, statesOnly bool) LineMatch {
lineLen := utf8.RuneCount(line)
if lineLen == 0 {
func (h *Highlighter) highlightEmptyRegion(highlights LineMatch, start int, canMatchEnd bool, lineNum int, line []rune, statesOnly bool) LineMatch {
if len(line) == 0 {
if canMatchEnd {
h.lastRegion = nil
}
return highlights
}
firstLoc := []int{lineLen, 0}
firstLoc := []int{len(line), 0}
var firstRegion *region
for _, r := range h.Def.rules.regions {
loc := findIndex(r.start, nil, line, start == 0, canMatchEnd)
@@ -249,12 +217,12 @@ func (h *Highlighter) highlightEmptyRegion(highlights LineMatch, start int, canM
}
}
}
if firstLoc[0] != lineLen {
if firstLoc[0] != len(line) {
if !statesOnly {
highlights[start+firstLoc[0]] = firstRegion.limitGroup
}
h.highlightEmptyRegion(highlights, start, false, lineNum, sliceEnd(line, firstLoc[0]), statesOnly)
h.highlightRegion(highlights, start+firstLoc[1], canMatchEnd, lineNum, sliceStart(line, firstLoc[1]), firstRegion, statesOnly)
h.highlightEmptyRegion(highlights, start, false, lineNum, line[:firstLoc[0]], statesOnly)
h.highlightRegion(highlights, start+firstLoc[1], canMatchEnd, lineNum, line[firstLoc[1]:], firstRegion, statesOnly)
return highlights
}
@@ -299,7 +267,7 @@ func (h *Highlighter) HighlightString(input string) []LineMatch {
var lineMatches []LineMatch
for i := 0; i < len(lines); i++ {
line := []byte(lines[i])
line := []rune(lines[i])
highlights := make(LineMatch)
if i == 0 || h.lastRegion == nil {
@@ -315,7 +283,7 @@ func (h *Highlighter) HighlightString(input string) []LineMatch {
// HighlightStates correctly sets all states for the buffer
func (h *Highlighter) HighlightStates(input LineStates) {
for i := 0; i < input.LinesNum(); i++ {
line := input.LineBytes(i)
line := []rune(input.Line(i))
// highlights := make(LineMatch)
if i == 0 || h.lastRegion == nil {
@@ -339,7 +307,7 @@ func (h *Highlighter) HighlightMatches(input LineStates, startline, endline int)
break
}
line := input.LineBytes(i)
line := []rune(input.Line(i))
highlights := make(LineMatch)
var match LineMatch
@@ -363,7 +331,7 @@ func (h *Highlighter) ReHighlightStates(input LineStates, startline int) {
h.lastRegion = input.State(startline - 1)
}
for i := startline; i < input.LinesNum(); i++ {
line := input.LineBytes(i)
line := []rune(input.Line(i))
// highlights := make(LineMatch)
// var match LineMatch
@@ -385,7 +353,7 @@ func (h *Highlighter) ReHighlightStates(input LineStates, startline int) {
// ReHighlightLine will rehighlight the state and match for a single line
func (h *Highlighter) ReHighlightLine(input LineStates, lineN int) {
line := input.LineBytes(lineN)
line := []rune(input.Line(lineN))
highlights := make(LineMatch)
h.lastRegion = nil

0
pkg/highlight/parser.go → cmd/micro/highlight/parser.go
View File

28
cmd/micro/highlighter.go Normal file
View File

@@ -0,0 +1,28 @@
package main
import "github.com/zyedidia/micro/cmd/micro/highlight"
var syntaxFiles []*highlight.File
func LoadSyntaxFiles() {
InitColorscheme()
for _, f := range ListRuntimeFiles(RTSyntax) {
data, err := f.Data()
if err != nil {
TermMessage("Error loading syntax file " + f.Name() + ": " + err.Error())
} else {
LoadSyntaxFile(data, f.Name())
}
}
}
func LoadSyntaxFile(text []byte, filename string) {
f, err := highlight.ParseFile(text)
if err != nil {
TermMessage("Syntax file error: " + filename + ": " + err.Error())
return
}
syntaxFiles = append(syntaxFiles, f)
}

129
cmd/micro/initlua.go
View File

@@ -1,129 +0,0 @@
package main
import (
"log"
lua "github.com/yuin/gopher-lua"
luar "layeh.com/gopher-luar"
"github.com/zyedidia/micro/internal/action"
"github.com/zyedidia/micro/internal/buffer"
"github.com/zyedidia/micro/internal/config"
"github.com/zyedidia/micro/internal/display"
ulua "github.com/zyedidia/micro/internal/lua"
"github.com/zyedidia/micro/internal/screen"
"github.com/zyedidia/micro/internal/shell"
"github.com/zyedidia/micro/internal/util"
)
func init() {
ulua.L = lua.NewState()
ulua.L.SetGlobal("import", luar.New(ulua.L, LuaImport))
}
func LuaImport(pkg string) *lua.LTable {
switch pkg {
case "micro":
return luaImportMicro()
case "micro/shell":
return luaImportMicroShell()
case "micro/buffer":
return luaImportMicroBuffer()
case "micro/config":
return luaImportMicroConfig()
case "micro/util":
return luaImportMicroUtil()
default:
return ulua.Import(pkg)
}
}
func luaImportMicro() *lua.LTable {
pkg := ulua.L.NewTable()
ulua.L.SetField(pkg, "TermMessage", luar.New(ulua.L, screen.TermMessage))
ulua.L.SetField(pkg, "TermError", luar.New(ulua.L, screen.TermError))
ulua.L.SetField(pkg, "InfoBar", luar.New(ulua.L, action.GetInfoBar))
ulua.L.SetField(pkg, "Log", luar.New(ulua.L, log.Println))
ulua.L.SetField(pkg, "SetStatusInfoFn", luar.New(ulua.L, display.SetStatusInfoFnLua))
return pkg
}
func luaImportMicroConfig() *lua.LTable {
pkg := ulua.L.NewTable()
ulua.L.SetField(pkg, "MakeCommand", luar.New(ulua.L, action.LuaMakeCommand))
ulua.L.SetField(pkg, "FileComplete", luar.New(ulua.L, buffer.FileComplete))
ulua.L.SetField(pkg, "HelpComplete", luar.New(ulua.L, action.HelpComplete))
ulua.L.SetField(pkg, "OptionComplete", luar.New(ulua.L, action.OptionComplete))
ulua.L.SetField(pkg, "OptionValueComplete", luar.New(ulua.L, action.OptionValueComplete))
ulua.L.SetField(pkg, "NoComplete", luar.New(ulua.L, nil))
ulua.L.SetField(pkg, "TryBindKey", luar.New(ulua.L, action.TryBindKey))
ulua.L.SetField(pkg, "Reload", luar.New(ulua.L, action.ReloadConfig))
ulua.L.SetField(pkg, "AddRuntimeFileFromMemory", luar.New(ulua.L, config.PluginAddRuntimeFileFromMemory))
ulua.L.SetField(pkg, "AddRuntimeFilesFromDirectory", luar.New(ulua.L, config.PluginAddRuntimeFileFromMemory))
ulua.L.SetField(pkg, "AddRuntimeFile", luar.New(ulua.L, config.PluginAddRuntimeFile))
ulua.L.SetField(pkg, "ListRuntimeFiles", luar.New(ulua.L, config.PluginListRuntimeFiles))
ulua.L.SetField(pkg, "ReadRuntimeFile", luar.New(ulua.L, config.PluginReadRuntimeFile))
ulua.L.SetField(pkg, "RTColorscheme", luar.New(ulua.L, config.RTColorscheme))
ulua.L.SetField(pkg, "RTSyntax", luar.New(ulua.L, config.RTSyntax))
ulua.L.SetField(pkg, "RTHelp", luar.New(ulua.L, config.RTHelp))
ulua.L.SetField(pkg, "RTPlugin", luar.New(ulua.L, config.RTPlugin))
ulua.L.SetField(pkg, "RegisterCommonOption", luar.New(ulua.L, config.RegisterCommonOption))
ulua.L.SetField(pkg, "RegisterGlobalOption", luar.New(ulua.L, config.RegisterGlobalOption))
return pkg
}
func luaImportMicroShell() *lua.LTable {
pkg := ulua.L.NewTable()
ulua.L.SetField(pkg, "ExecCommand", luar.New(ulua.L, shell.ExecCommand))
ulua.L.SetField(pkg, "RunCommand", luar.New(ulua.L, shell.RunCommand))
ulua.L.SetField(pkg, "RunBackgroundShell", luar.New(ulua.L, shell.RunBackgroundShell))
ulua.L.SetField(pkg, "RunInteractiveShell", luar.New(ulua.L, shell.RunInteractiveShell))
ulua.L.SetField(pkg, "JobStart", luar.New(ulua.L, shell.JobStart))
ulua.L.SetField(pkg, "JobSpawn", luar.New(ulua.L, shell.JobSpawn))
ulua.L.SetField(pkg, "JobStop", luar.New(ulua.L, shell.JobStop))
ulua.L.SetField(pkg, "JobSend", luar.New(ulua.L, shell.JobSend))
ulua.L.SetField(pkg, "RunTermEmulator", luar.New(ulua.L, action.RunTermEmulator))
ulua.L.SetField(pkg, "TermEmuSupported", luar.New(ulua.L, action.TermEmuSupported))
return pkg
}
func luaImportMicroBuffer() *lua.LTable {
pkg := ulua.L.NewTable()
ulua.L.SetField(pkg, "NewMessage", luar.New(ulua.L, buffer.NewMessage))
ulua.L.SetField(pkg, "NewMessageAtLine", luar.New(ulua.L, buffer.NewMessageAtLine))
ulua.L.SetField(pkg, "MTInfo", luar.New(ulua.L, buffer.MTInfo))
ulua.L.SetField(pkg, "MTWarning", luar.New(ulua.L, buffer.MTWarning))
ulua.L.SetField(pkg, "MTError", luar.New(ulua.L, buffer.MTError))
ulua.L.SetField(pkg, "Loc", luar.New(ulua.L, func(x, y int) buffer.Loc {
return buffer.Loc{x, y}
}))
ulua.L.SetField(pkg, "BTDefault", luar.New(ulua.L, buffer.BTDefault.Kind))
ulua.L.SetField(pkg, "BTHelp", luar.New(ulua.L, buffer.BTHelp.Kind))
ulua.L.SetField(pkg, "BTLog", luar.New(ulua.L, buffer.BTLog.Kind))
ulua.L.SetField(pkg, "BTScratch", luar.New(ulua.L, buffer.BTScratch.Kind))
ulua.L.SetField(pkg, "BTRaw", luar.New(ulua.L, buffer.BTRaw.Kind))
ulua.L.SetField(pkg, "BTInfo", luar.New(ulua.L, buffer.BTInfo.Kind))
ulua.L.SetField(pkg, "NewBufferFromFile", luar.New(ulua.L, func(path string) (*buffer.Buffer, error) {
return buffer.NewBufferFromFile(path, buffer.BTDefault)
}))
ulua.L.SetField(pkg, "ByteOffset", luar.New(ulua.L, buffer.ByteOffset))
return pkg
}
func luaImportMicroUtil() *lua.LTable {
pkg := ulua.L.NewTable()
ulua.L.SetField(pkg, "RuneAt", luar.New(ulua.L, util.LuaRuneAt))
ulua.L.SetField(pkg, "GetLeadingWhitespace", luar.New(ulua.L, util.LuaGetLeadingWhitespace))
ulua.L.SetField(pkg, "IsWordChar", luar.New(ulua.L, util.LuaIsWordChar))
return pkg
}

62
internal/shell/job.go → cmd/micro/job.go
View File

@@ -1,25 +1,11 @@
package shell
package main
import (
"bytes"
"io"
"os/exec"
"strings"
luar "layeh.com/gopher-luar"
lua "github.com/yuin/gopher-lua"
"github.com/zyedidia/micro/internal/config"
ulua "github.com/zyedidia/micro/internal/lua"
"github.com/zyedidia/micro/internal/screen"
)
var Jobs chan JobFunction
func init() {
Jobs = make(chan JobFunction, 100)
}
// Jobs are the way plugins can run processes in the background
// A job is simply a process that gets executed asynchronously
// There are callbacks for when the job exits, when the job creates stdout
@@ -32,46 +18,46 @@ func init() {
// JobFunction is a representation of a job (this data structure is what is loaded
// into the jobs channel)
type JobFunction struct {
Function func(string, ...interface{})
Output string
Args []interface{}
function func(string, ...string)
output string
args []string
}
// A CallbackFile is the data structure that makes it possible to catch stderr and stdout write events
type CallbackFile struct {
io.Writer
callback func(string, ...interface{})
args []interface{}
callback func(string, ...string)
args []string
}
func (f *CallbackFile) Write(data []byte) (int, error) {
// This is either stderr or stdout
// In either case we create a new job function callback and put it in the jobs channel
jobFunc := JobFunction{f.callback, string(data), f.args}
Jobs <- jobFunc
jobs <- jobFunc
return f.Writer.Write(data)
}
// JobStart starts a shell command in the background with the given callbacks
// It returns an *exec.Cmd as the job id
func JobStart(cmd string, onStdout, onStderr, onExit string, userargs ...interface{}) *exec.Cmd {
func JobStart(cmd string, onStdout, onStderr, onExit string, userargs ...string) *exec.Cmd {
return JobSpawn("sh", []string{"-c", cmd}, onStdout, onStderr, onExit, userargs...)
}
// JobSpawn starts a process with args in the background with the given callbacks
// It returns an *exec.Cmd as the job id
func JobSpawn(cmdName string, cmdArgs []string, onStdout, onStderr, onExit string, userargs ...interface{}) *exec.Cmd {
func JobSpawn(cmdName string, cmdArgs []string, onStdout, onStderr, onExit string, userargs ...string) *exec.Cmd {
// Set up everything correctly if the functions have been provided
proc := exec.Command(cmdName, cmdArgs...)
var outbuf bytes.Buffer
if onStdout != "" {
proc.Stdout = &CallbackFile{&outbuf, luaFunctionJob(onStdout), userargs}
proc.Stdout = &CallbackFile{&outbuf, LuaFunctionJob(onStdout), userargs}
} else {
proc.Stdout = &outbuf
}
if onStderr != "" {
proc.Stderr = &CallbackFile{&outbuf, luaFunctionJob(onStderr), userargs}
proc.Stderr = &CallbackFile{&outbuf, LuaFunctionJob(onStderr), userargs}
} else {
proc.Stderr = &outbuf
}
@@ -79,8 +65,8 @@ func JobSpawn(cmdName string, cmdArgs []string, onStdout, onStderr, onExit strin
go func() {
// Run the process in the background and create the onExit callback
proc.Run()
jobFunc := JobFunction{luaFunctionJob(onExit), string(outbuf.Bytes()), userargs}
Jobs <- jobFunc
jobFunc := JobFunction{LuaFunctionJob(onExit), string(outbuf.Bytes()), userargs}
jobs <- jobFunc
}()
return proc
@@ -100,25 +86,3 @@ func JobSend(cmd *exec.Cmd, data string) {
stdin.Write([]byte(data))
}
// luaFunctionJob returns a function that will call the given lua function
// structured as a job call i.e. the job output and arguments are provided
// to the lua function
func luaFunctionJob(fn string) func(string, ...interface{}) {
luaFn := strings.Split(fn, ".")
if len(luaFn) <= 1 {
return nil
}
plName, plFn := luaFn[0], luaFn[1]
pl := config.FindPlugin(plName)
if pl == nil {
return nil
}
return func(output string, args ...interface{}) {
luaArgs := []lua.LValue{luar.New(ulua.L, output), luar.New(ulua.L, args)}
_, err := pl.Call(plFn, luaArgs...)
if err != nil && err != config.ErrNoSuchFunction {
screen.TermMessage(err)
}
}
}

260
cmd/micro/lineArray.go Normal file
View File

@@ -0,0 +1,260 @@
package main
import (
"bufio"
"io"
"unicode/utf8"
"github.com/zyedidia/micro/cmd/micro/highlight"
)
func runeToByteIndex(n int, txt []byte) int {
if n == 0 {
return 0
}
count := 0
i := 0
for len(txt) > 0 {
_, size := utf8.DecodeRune(txt)
txt = txt[size:]
count += size
i++
if i == n {
break
}
}
return count
}
type Line struct {
data []byte
state highlight.State
match highlight.LineMatch
rehighlight bool
}
// A LineArray simply stores and array of lines and makes it easy to insert
// and delete in it
type LineArray struct {
lines []Line
}
func Append(slice []Line, data ...Line) []Line {
l := len(slice)
if l+len(data) > cap(slice) { // reallocate
// Allocate double what's needed, for future growth.
newSlice := make([]Line, (l+len(data))+10000)
// The copy function is predeclared and works for any slice type.
copy(newSlice, slice)
slice = newSlice
}
slice = slice[0 : l+len(data)]
for i, c := range data {
slice[l+i] = c
}
return slice
}
// NewLineArray returns a new line array from an array of bytes
func NewLineArray(size int64, reader io.Reader) *LineArray {
la := new(LineArray)
la.lines = make([]Line, 0, 1000)
br := bufio.NewReader(reader)
var loaded int
n := 0
for {
data, err := br.ReadBytes('\n')
if len(data) > 1 && data[len(data)-2] == '\r' {
data = append(data[:len(data)-2], '\n')
if fileformat == 0 {
fileformat = 2
}
} else if len(data) > 0 {
if fileformat == 0 {
fileformat = 1
}
}
if n >= 1000 && loaded >= 0 {
totalLinesNum := int(float64(size) * (float64(n) / float64(loaded)))
newSlice := make([]Line, len(la.lines), totalLinesNum+10000)
// The copy function is predeclared and works for any slice type.
copy(newSlice, la.lines)
la.lines = newSlice
loaded = -1
}
if loaded >= 0 {
loaded += len(data)
}
if err != nil {
if err == io.EOF {
la.lines = Append(la.lines, Line{data[:], nil, nil, false})
// la.lines = Append(la.lines, Line{data[:len(data)]})
}
// Last line was read
break
} else {
// la.lines = Append(la.lines, Line{data[:len(data)-1]})
la.lines = Append(la.lines, Line{data[:len(data)-1], nil, nil, false})
}
n++
}
return la
}
// Returns the String representation of the LineArray
func (la *LineArray) String() string {
str := ""
for i, l := range la.lines {
str += string(l.data)
if i != len(la.lines)-1 {
str += "\n"
}
}
return str
}
// SaveString returns the string that should be written to disk when
// the line array is saved
// It is the same as string but uses crlf or lf line endings depending
func (la *LineArray) SaveString(useCrlf bool) string {
str := ""
for i, l := range la.lines {
str += string(l.data)
if i != len(la.lines)-1 {
if useCrlf {
str += "\r"
}
str += "\n"
}
}
return str
}
// NewlineBelow adds a newline below the given line number
func (la *LineArray) NewlineBelow(y int) {
la.lines = append(la.lines, Line{[]byte(" "), nil, nil, false})
copy(la.lines[y+2:], la.lines[y+1:])
la.lines[y+1] = Line{[]byte(""), la.lines[y].state, nil, false}
}
// inserts a byte array at a given location
func (la *LineArray) insert(pos Loc, value []byte) {
x, y := runeToByteIndex(pos.X, la.lines[pos.Y].data), pos.Y
// x, y := pos.x, pos.y
for i := 0; i < len(value); i++ {
if value[i] == '\n' {
la.Split(Loc{x, y})
x = 0
y++
continue
}
la.insertByte(Loc{x, y}, value[i])
x++
}
}
// inserts a byte at a given location
func (la *LineArray) insertByte(pos Loc, value byte) {
la.lines[pos.Y].data = append(la.lines[pos.Y].data, 0)
copy(la.lines[pos.Y].data[pos.X+1:], la.lines[pos.Y].data[pos.X:])
la.lines[pos.Y].data[pos.X] = value
}
// JoinLines joins the two lines a and b
func (la *LineArray) JoinLines(a, b int) {
la.insert(Loc{len(la.lines[a].data), a}, la.lines[b].data)
la.DeleteLine(b)
}
// Split splits a line at a given position
func (la *LineArray) Split(pos Loc) {
la.NewlineBelow(pos.Y)
la.insert(Loc{0, pos.Y + 1}, la.lines[pos.Y].data[pos.X:])
la.lines[pos.Y+1].state = la.lines[pos.Y].state
la.lines[pos.Y].state = nil
la.lines[pos.Y].match = nil
la.lines[pos.Y+1].match = nil
la.lines[pos.Y].rehighlight = true
la.DeleteToEnd(Loc{pos.X, pos.Y})
}
// removes from start to end
func (la *LineArray) remove(start, end Loc) string {
sub := la.Substr(start, end)
startX := runeToByteIndex(start.X, la.lines[start.Y].data)
endX := runeToByteIndex(end.X, la.lines[end.Y].data)
if start.Y == end.Y {
la.lines[start.Y].data = append(la.lines[start.Y].data[:startX], la.lines[start.Y].data[endX:]...)
} else {
for i := start.Y + 1; i <= end.Y-1; i++ {
la.DeleteLine(start.Y + 1)
}
la.DeleteToEnd(Loc{startX, start.Y})
la.DeleteFromStart(Loc{endX - 1, start.Y + 1})
la.JoinLines(start.Y, start.Y+1)
}
return sub
}
// DeleteToEnd deletes from the end of a line to the position
func (la *LineArray) DeleteToEnd(pos Loc) {
la.lines[pos.Y].data = la.lines[pos.Y].data[:pos.X]
}
// DeleteFromStart deletes from the start of a line to the position
func (la *LineArray) DeleteFromStart(pos Loc) {
la.lines[pos.Y].data = la.lines[pos.Y].data[pos.X+1:]
}
// DeleteLine deletes the line number
func (la *LineArray) DeleteLine(y int) {
la.lines = la.lines[:y+copy(la.lines[y:], la.lines[y+1:])]
}
// DeleteByte deletes the byte at a position
func (la *LineArray) DeleteByte(pos Loc) {
la.lines[pos.Y].data = la.lines[pos.Y].data[:pos.X+copy(la.lines[pos.Y].data[pos.X:], la.lines[pos.Y].data[pos.X+1:])]
}
// Substr returns the string representation between two locations
func (la *LineArray) Substr(start, end Loc) string {
startX := runeToByteIndex(start.X, la.lines[start.Y].data)
endX := runeToByteIndex(end.X, la.lines[end.Y].data)
if start.Y == end.Y {
return string(la.lines[start.Y].data[startX:endX])
}
var str string
str += string(la.lines[start.Y].data[startX:]) + "\n"
for i := start.Y + 1; i <= end.Y-1; i++ {
str += string(la.lines[i].data) + "\n"
}
str += string(la.lines[end.Y].data[:endX])
return str
}
func (la *LineArray) State(lineN int) highlight.State {
return la.lines[lineN].state
}
func (la *LineArray) SetState(lineN int, s highlight.State) {
la.lines[lineN].state = s
}
func (la *LineArray) SetMatch(lineN int, m highlight.LineMatch) {
la.lines[lineN].match = m
}
func (la *LineArray) Match(lineN int) highlight.LineMatch {
return la.lines[lineN].match
}

181
internal/buffer/loc.go → cmd/micro/loc.go
View File

@@ -1,58 +1,60 @@
package buffer
package main
import (
"unicode/utf8"
// FromCharPos converts from a character position to an x, y position
func FromCharPos(loc int, buf *Buffer) Loc {
charNum := 0
x, y := 0, 0
"github.com/zyedidia/micro/internal/util"
)
lineLen := Count(buf.Line(y)) + 1
for charNum+lineLen <= loc {
charNum += lineLen
y++
lineLen = Count(buf.Line(y)) + 1
}
x = loc - charNum
return Loc{x, y}
}
// ToCharPos converts from an x, y position to a character position
func ToCharPos(start Loc, buf *Buffer) int {
x, y := start.X, start.Y
loc := 0
for i := 0; i < y; i++ {
// + 1 for the newline
loc += Count(buf.Line(i)) + 1
}
loc += x
return loc
}
// InBounds returns whether the given location is a valid character position in the given buffer
func InBounds(pos Loc, buf *Buffer) bool {
if pos.Y < 0 || pos.Y >= buf.NumLines || pos.X < 0 || pos.X > Count(buf.Line(pos.Y)) {
return false
}
return true
}
// ByteOffset is just like ToCharPos except it counts bytes instead of runes
func ByteOffset(pos Loc, buf *Buffer) int {
x, y := pos.X, pos.Y
loc := 0
for i := 0; i < y; i++ {
// + 1 for the newline
loc += len(buf.Line(i)) + 1
}
loc += len(buf.Line(y)[:x])
return loc
}
// Loc stores a location
type Loc struct {
X, Y int
}
// LessThan returns true if b is smaller
func (l Loc) LessThan(b Loc) bool {
if l.Y < b.Y {
return true
}
return l.Y == b.Y && l.X < b.X
}
// GreaterThan returns true if b is bigger
func (l Loc) GreaterThan(b Loc) bool {
if l.Y > b.Y {
return true
}
return l.Y == b.Y && l.X > b.X
}
// GreaterEqual returns true if b is greater than or equal to b
func (l Loc) GreaterEqual(b Loc) bool {
if l.Y > b.Y {
return true
}
if l.Y == b.Y && l.X > b.X {
return true
}
return l == b
}
// LessEqual returns true if b is less than or equal to b
func (l Loc) LessEqual(b Loc) bool {
if l.Y < b.Y {
return true
}
if l.Y == b.Y && l.X < b.X {
return true
}
return l == b
}
// The following functions require a buffer to know where newlines are
// Diff returns the distance between two locations
func DiffLA(a, b Loc, buf *LineArray) int {
func Diff(a, b Loc, buf *Buffer) int {
if a.Y == b.Y {
if a.X > b.X {
return a.X - b.X
@@ -68,19 +70,69 @@ func DiffLA(a, b Loc, buf *LineArray) int {
loc := 0
for i := a.Y + 1; i < b.Y; i++ {
// + 1 for the newline
loc += utf8.RuneCount(buf.LineBytes(i)) + 1
loc += Count(buf.Line(i)) + 1
}
loc += utf8.RuneCount(buf.LineBytes(a.Y)) - a.X + b.X + 1
loc += Count(buf.Line(a.Y)) - a.X + b.X + 1
return loc
}
// LessThan returns true if b is smaller
func (l Loc) LessThan(b Loc) bool {
if l.Y < b.Y {
return true
}
if l.Y == b.Y && l.X < b.X {
return true
}
return false
}
// GreaterThan returns true if b is bigger
func (l Loc) GreaterThan(b Loc) bool {
if l.Y > b.Y {
return true
}
if l.Y == b.Y && l.X > b.X {
return true
}
return false
}
// GreaterEqual returns true if b is greater than or equal to b
func (l Loc) GreaterEqual(b Loc) bool {
if l.Y > b.Y {
return true
}
if l.Y == b.Y && l.X > b.X {
return true
}
if l == b {
return true
}
return false
}
// LessEqual returns true if b is less than or equal to b
func (l Loc) LessEqual(b Loc) bool {
if l.Y < b.Y {
return true
}
if l.Y == b.Y && l.X < b.X {
return true
}
if l == b {
return true
}
return false
}
// This moves the location one character to the right
func (l Loc) right(buf *LineArray) Loc {
func (l Loc) right(buf *Buffer) Loc {
if l == buf.End() {
return Loc{l.X + 1, l.Y}
}
var res Loc
if l.X < utf8.RuneCount(buf.LineBytes(l.Y)) {
if l.X < Count(buf.Line(l.Y)) {
res = Loc{l.X + 1, l.Y}
} else {
res = Loc{0, l.Y + 1}
@@ -89,7 +141,7 @@ func (l Loc) right(buf *LineArray) Loc {
}
// This moves the given location one character to the left
func (l Loc) left(buf *LineArray) Loc {
func (l Loc) left(buf *Buffer) Loc {
if l == buf.Start() {
return Loc{l.X - 1, l.Y}
}
@@ -97,41 +149,22 @@ func (l Loc) left(buf *LineArray) Loc {
if l.X > 0 {
res = Loc{l.X - 1, l.Y}
} else {
res = Loc{utf8.RuneCount(buf.LineBytes(l.Y - 1)), l.Y - 1}
res = Loc{Count(buf.Line(l.Y - 1)), l.Y - 1}
}
return res
}
// Move moves the cursor n characters to the left or right
// It moves the cursor left if n is negative
func (l Loc) MoveLA(n int, buf *LineArray) Loc {
func (l Loc) Move(n int, buf *Buffer) Loc {
if n > 0 {
for i := 0; i < n; i++ {
l = l.right(buf)
}
return l
}
for i := 0; i < util.Abs(n); i++ {
for i := 0; i < Abs(n); i++ {
l = l.left(buf)
}
return l
}
func (l Loc) Diff(a, b Loc, buf *Buffer) int {
return DiffLA(a, b, buf.LineArray)
}
func (l Loc) Move(n int, buf *Buffer) Loc {
return l.MoveLA(n, buf.LineArray)
}
// ByteOffset is just like ToCharPos except it counts bytes instead of runes
func ByteOffset(pos Loc, buf *Buffer) int {
x, y := pos.X, pos.Y
loc := 0
for i := 0; i < y; i++ {
// + 1 for the newline
loc += len(buf.Line(i)) + 1
}
loc += len(buf.Line(y)[:x])
return loc
}

106
internal/lua/lua.go → cmd/micro/lua.go
View File

@@ -1,7 +1,6 @@
package lua
package main
import (
"bytes"
"errors"
"fmt"
"io"
@@ -16,19 +15,23 @@ import (
"runtime"
"strings"
"time"
"unicode/utf8"
luar "layeh.com/gopher-luar"
lua "github.com/yuin/gopher-lua"
luar "layeh.com/gopher-luar"
)
var L *lua.LState
// LoadFile loads a lua file
func LoadFile(module string, file string, data []byte) error {
pluginDef := []byte("module(\"" + module + "\", package.seeall)")
func init() {
L = lua.NewState()
L.SetGlobal("import", luar.New(L, Import))
}
if fn, err := L.Load(bytes.NewReader(append(pluginDef, data...)), file); err != nil {
func LoadFile(module string, file string, data string) error {
pluginDef := "local P = {};" + module + " = P;setmetatable(" + module + ", {__index = _G});setfenv(1, P);"
if fn, err := L.Load(strings.NewReader(pluginDef+data), file); err != nil {
return err
} else {
L.Push(fn)
@@ -36,48 +39,43 @@ func LoadFile(module string, file string, data []byte) error {
}
}
// Import allows a lua plugin to import a package
func Import(pkg string) *lua.LTable {
switch pkg {
case "fmt":
return importFmt()
return ImportFmt()
case "io":
return importIo()
case "io/ioutil", "ioutil":
return importIoUtil()
return ImportIo()
case "ioutil":
return ImportIoUtil()
case "net":
return importNet()
return ImportNet()
case "math":
return importMath()
case "math/rand":
return importMathRand()
return ImportMath()
case "os":
return importOs()
return ImportOs()
case "runtime":
return importRuntime()
return ImportRuntime()
case "path":
return importPath()
case "path/filepath", "filepath":
return importFilePath()
return ImportPath()
case "filepath":
return ImportFilePath()
case "strings":
return importStrings()
return ImportStrings()
case "regexp":
return importRegexp()
return ImportRegexp()
case "errors":
return importErrors()
return ImportErrors()
case "time":
return importTime()
case "unicode/utf8", "utf8":
return importUtf8()
return ImportTime()
default:
return nil
}
}
func importFmt() *lua.LTable {
func ImportFmt() *lua.LTable {
pkg := L.NewTable()
L.SetField(pkg, "Errorf", luar.New(L, fmt.Errorf))
L.SetField(pkg, "tErrorf", luar.New(L, fmt.Errorf))
L.SetField(pkg, "Fprint", luar.New(L, fmt.Fprint))
L.SetField(pkg, "Fprintf", luar.New(L, fmt.Fprintf))
L.SetField(pkg, "Fprintln", luar.New(L, fmt.Fprintln))
@@ -100,7 +98,7 @@ func importFmt() *lua.LTable {
return pkg
}
func importIo() *lua.LTable {
func ImportIo() *lua.LTable {
pkg := L.NewTable()
L.SetField(pkg, "Copy", luar.New(L, io.Copy))
@@ -124,7 +122,7 @@ func importIo() *lua.LTable {
return pkg
}
func importIoUtil() *lua.LTable {
func ImportIoUtil() *lua.LTable {
pkg := L.NewTable()
L.SetField(pkg, "ReadAll", luar.New(L, ioutil.ReadAll))
@@ -135,7 +133,7 @@ func importIoUtil() *lua.LTable {
return pkg
}
func importNet() *lua.LTable {
func ImportNet() *lua.LTable {
pkg := L.NewTable()
L.SetField(pkg, "CIDRMask", luar.New(L, net.CIDRMask))
@@ -203,7 +201,7 @@ func importNet() *lua.LTable {
return pkg
}
func importMath() *lua.LTable {
func ImportMath() *lua.LTable {
pkg := L.NewTable()
L.SetField(pkg, "Abs", luar.New(L, math.Abs))
@@ -271,7 +269,7 @@ func importMath() *lua.LTable {
return pkg
}
func importMathRand() *lua.LTable {
func ImportMathRand() *lua.LTable {
pkg := L.NewTable()
L.SetField(pkg, "ExpFloat64", luar.New(L, rand.ExpFloat64))
@@ -291,7 +289,7 @@ func importMathRand() *lua.LTable {
return pkg
}
func importOs() *lua.LTable {
func ImportOs() *lua.LTable {
pkg := L.NewTable()
L.SetField(pkg, "Args", luar.New(L, os.Args))
@@ -382,7 +380,7 @@ func importOs() *lua.LTable {
return pkg
}
func importRuntime() *lua.LTable {
func ImportRuntime() *lua.LTable {
pkg := L.NewTable()
L.SetField(pkg, "GC", luar.New(L, runtime.GC))
@@ -394,7 +392,7 @@ func importRuntime() *lua.LTable {
return pkg
}
func importPath() *lua.LTable {
func ImportPath() *lua.LTable {
pkg := L.NewTable()
L.SetField(pkg, "Base", luar.New(L, path.Base))
@@ -410,10 +408,11 @@ func importPath() *lua.LTable {
return pkg
}
func importFilePath() *lua.LTable {
func ImportFilePath() *lua.LTable {
pkg := L.NewTable()
L.SetField(pkg, "Join", luar.New(L, filepath.Join))
L.SetField(pkg, "Clean", luar.New(L, filepath.Join))
L.SetField(pkg, "Abs", luar.New(L, filepath.Abs))
L.SetField(pkg, "Base", luar.New(L, filepath.Base))
L.SetField(pkg, "Clean", luar.New(L, filepath.Clean))
@@ -435,7 +434,7 @@ func importFilePath() *lua.LTable {
return pkg
}
func importStrings() *lua.LTable {
func ImportStrings() *lua.LTable {
pkg := L.NewTable()
L.SetField(pkg, "Contains", luar.New(L, strings.Contains))
@@ -485,7 +484,7 @@ func importStrings() *lua.LTable {
return pkg
}
func importRegexp() *lua.LTable {
func ImportRegexp() *lua.LTable {
pkg := L.NewTable()
L.SetField(pkg, "Match", luar.New(L, regexp.Match))
@@ -500,7 +499,7 @@ func importRegexp() *lua.LTable {
return pkg
}
func importErrors() *lua.LTable {
func ImportErrors() *lua.LTable {
pkg := L.NewTable()
L.SetField(pkg, "New", luar.New(L, errors.New))
@@ -508,7 +507,7 @@ func importErrors() *lua.LTable {
return pkg
}
func importTime() *lua.LTable {
func ImportTime() *lua.LTable {
pkg := L.NewTable()
L.SetField(pkg, "After", luar.New(L, time.After))
@@ -535,24 +534,3 @@ func importTime() *lua.LTable {
return pkg
}
func importUtf8() *lua.LTable {
pkg := L.NewTable()
L.SetField(pkg, "DecodeLastRune", luar.New(L, utf8.DecodeLastRune))
L.SetField(pkg, "DecodeLastRuneInString", luar.New(L, utf8.DecodeLastRuneInString))
L.SetField(pkg, "DecodeRune", luar.New(L, utf8.DecodeRune))
L.SetField(pkg, "DecodeRuneInString", luar.New(L, utf8.DecodeRuneInString))
L.SetField(pkg, "EncodeRune", luar.New(L, utf8.EncodeRune))
L.SetField(pkg, "FullRune", luar.New(L, utf8.FullRune))
L.SetField(pkg, "FullRuneInString", luar.New(L, utf8.FullRuneInString))
L.SetField(pkg, "RuneCount", luar.New(L, utf8.RuneCount))
L.SetField(pkg, "RuneCountInString", luar.New(L, utf8.RuneCountInString))
L.SetField(pkg, "RuneLen", luar.New(L, utf8.RuneLen))
L.SetField(pkg, "RuneStart", luar.New(L, utf8.RuneStart))
L.SetField(pkg, "Valid", luar.New(L, utf8.Valid))
L.SetField(pkg, "ValidRune", luar.New(L, utf8.ValidRune))
L.SetField(pkg, "ValidString", luar.New(L, utf8.ValidString))
return pkg
}

498
cmd/micro/messenger.go Normal file
View File

@@ -0,0 +1,498 @@
package main
import (
"bufio"
"bytes"
"fmt"
"os"
"strconv"
"github.com/mattn/go-runewidth"
"github.com/zyedidia/clipboard"
"github.com/zyedidia/tcell"
)
// TermMessage sends a message to the user in the terminal. This usually occurs before
// micro has been fully initialized -- ie if there is an error in the syntax highlighting
// regular expressions
// The function must be called when the screen is not initialized
// This will write the message, and wait for the user
// to press and key to continue
func TermMessage(msg ...interface{}) {
screenWasNil := screen == nil
if !screenWasNil {
screen.Fini()
screen = nil
}
fmt.Println(msg...)
fmt.Print("\nPress enter to continue")
reader := bufio.NewReader(os.Stdin)
reader.ReadString('\n')
if !screenWasNil {
InitScreen()
}
}
// TermError sends an error to the user in the terminal. Like TermMessage except formatted
// as an error
func TermError(filename string, lineNum int, err string) {
TermMessage(filename + ", " + strconv.Itoa(lineNum) + ": " + err)
}
// Messenger is an object that makes it easy to send messages to the user
// and get input from the user
type Messenger struct {
log *Buffer
// Are we currently prompting the user?
hasPrompt bool
// Is there a message to print
hasMessage bool
// Message to print
message string
// The user's response to a prompt
response string
// style to use when drawing the message
style tcell.Style
// We have to keep track of the cursor for prompting
cursorx int
// This map stores the history for all the different kinds of uses Prompt has
// It's a map of history type -> history array
history map[string][]string
historyNum int
// Is the current message a message from the gutter
gutterMessage bool
}
// AddLog sends a message to the log view
func (m *Messenger) AddLog(msg ...interface{}) {
logMessage := fmt.Sprint(msg...)
buffer := m.getBuffer()
buffer.insert(buffer.End(), []byte(logMessage+"\n"))
buffer.Cursor.Loc = buffer.End()
buffer.Cursor.Relocate()
}
func (m *Messenger) getBuffer() *Buffer {
if m.log == nil {
m.log = NewBufferFromString("", "")
m.log.name = "Log"
}
return m.log
}
// Message sends a message to the user
func (m *Messenger) Message(msg ...interface{}) {
displayMessage := fmt.Sprint(msg...)
// only display a new message if there isn't an active prompt
// this is to prevent overwriting an existing prompt to the user
if m.hasPrompt == false {
// if there is no active prompt then style and display the message as normal
m.message = displayMessage
m.style = defStyle
if _, ok := colorscheme["message"]; ok {
m.style = colorscheme["message"]
}
m.hasMessage = true
}
// add the message to the log regardless of active prompts
m.AddLog(displayMessage)
}
// Error sends an error message to the user
func (m *Messenger) Error(msg ...interface{}) {
buf := new(bytes.Buffer)
fmt.Fprint(buf, msg...)
// only display a new message if there isn't an active prompt
// this is to prevent overwriting an existing prompt to the user
if m.hasPrompt == false {
// if there is no active prompt then style and display the message as normal
m.message = buf.String()
m.style = defStyle.
Foreground(tcell.ColorBlack).
Background(tcell.ColorMaroon)
if _, ok := colorscheme["error-message"]; ok {
m.style = colorscheme["error-message"]
}
m.hasMessage = true
}
// add the message to the log regardless of active prompts
m.AddLog(buf.String())
}
func (m *Messenger) PromptText(msg ...interface{}) {
displayMessage := fmt.Sprint(msg...)
// if there is no active prompt then style and display the message as normal
m.message = displayMessage
m.style = defStyle
if _, ok := colorscheme["message"]; ok {
m.style = colorscheme["message"]
}
m.hasMessage = true
// add the message to the log regardless of active prompts
m.AddLog(displayMessage)
}
// YesNoPrompt asks the user a yes or no question (waits for y or n) and returns the result
func (m *Messenger) YesNoPrompt(prompt string) (bool, bool) {
m.hasPrompt = true
m.PromptText(prompt)
_, h := screen.Size()
for {
m.Clear()
m.Display()
screen.ShowCursor(Count(m.message), h-1)
screen.Show()
event := <-events
switch e := event.(type) {
case *tcell.EventKey:
switch e.Key() {
case tcell.KeyRune:
if e.Rune() == 'y' || e.Rune() == 'Y' {
m.AddLog("\t--> y")
m.hasPrompt = false
return true, false
} else if e.Rune() == 'n' || e.Rune() == 'N' {
m.AddLog("\t--> n")
m.hasPrompt = false
return false, false
}
case tcell.KeyCtrlC, tcell.KeyCtrlQ, tcell.KeyEscape:
m.AddLog("\t--> (cancel)")
m.Clear()
m.Reset()
m.hasPrompt = false
return false, true
}
}
}
}
// LetterPrompt gives the user a prompt and waits for a one letter response
func (m *Messenger) LetterPrompt(prompt string, responses ...rune) (rune, bool) {
m.hasPrompt = true
m.PromptText(prompt)
_, h := screen.Size()
for {
m.Clear()
m.Display()
screen.ShowCursor(Count(m.message), h-1)
screen.Show()
event := <-events
switch e := event.(type) {
case *tcell.EventKey:
switch e.Key() {
case tcell.KeyRune:
for _, r := range responses {
if e.Rune() == r {
m.AddLog("\t--> " + string(r))
m.Clear()
m.Reset()
m.hasPrompt = false
return r, false
}
}
case tcell.KeyCtrlC, tcell.KeyCtrlQ, tcell.KeyEscape:
m.AddLog("\t--> (cancel)")
m.Clear()
m.Reset()
m.hasPrompt = false
return ' ', true
}
}
}
}
type Completion int
const (
NoCompletion Completion = iota
FileCompletion
CommandCompletion
HelpCompletion
OptionCompletion
PluginCmdCompletion
PluginNameCompletion
)
// Prompt sends the user a message and waits for a response to be typed in
// This function blocks the main loop while waiting for input
func (m *Messenger) Prompt(prompt, placeholder, historyType string, completionTypes ...Completion) (string, bool) {
m.hasPrompt = true
m.PromptText(prompt)
if _, ok := m.history[historyType]; !ok {
m.history[historyType] = []string{""}
} else {
m.history[historyType] = append(m.history[historyType], "")
}
m.historyNum = len(m.history[historyType]) - 1
response, canceled := placeholder, true
m.response = response
m.cursorx = Count(placeholder)
RedrawAll()
for m.hasPrompt {
var suggestions []string
m.Clear()
event := <-events
switch e := event.(type) {
case *tcell.EventKey:
switch e.Key() {
case tcell.KeyCtrlQ, tcell.KeyCtrlC, tcell.KeyEscape:
// Cancel
m.AddLog("\t--> (cancel)")
m.hasPrompt = false
case tcell.KeyEnter:
// User is done entering their response
m.AddLog("\t--> " + m.response)
m.hasPrompt = false
response, canceled = m.response, false
m.history[historyType][len(m.history[historyType])-1] = response
case tcell.KeyTab:
args := SplitCommandArgs(m.response)
currentArgNum := len(args) - 1
currentArg := args[currentArgNum]
var completionType Completion
if completionTypes[0] == CommandCompletion && currentArgNum > 0 {
if command, ok := commands[args[0]]; ok {
completionTypes = append([]Completion{CommandCompletion}, command.completions...)
}
}
if currentArgNum >= len(completionTypes) {
completionType = completionTypes[len(completionTypes)-1]
} else {
completionType = completionTypes[currentArgNum]
}
var chosen string
if completionType == FileCompletion {
chosen, suggestions = FileComplete(currentArg)
} else if completionType == CommandCompletion {
chosen, suggestions = CommandComplete(currentArg)
} else if completionType == HelpCompletion {
chosen, suggestions = HelpComplete(currentArg)
} else if completionType == OptionCompletion {
chosen, suggestions = OptionComplete(currentArg)
} else if completionType == PluginCmdCompletion {
chosen, suggestions = PluginCmdComplete(currentArg)
} else if completionType == PluginNameCompletion {
chosen, suggestions = PluginNameComplete(currentArg)
} else if completionType < NoCompletion {
chosen, suggestions = PluginComplete(completionType, currentArg)
}
if len(suggestions) > 1 {
chosen = chosen + CommonSubstring(suggestions...)
}
if chosen != "" {
m.response = JoinCommandArgs(append(args[:len(args)-1], chosen)...)
m.cursorx = Count(m.response)
}
}
}
m.HandleEvent(event, m.history[historyType])
m.Clear()
for _, v := range tabs[curTab].views {
v.Display()
}
DisplayTabs()
m.Display()
if len(suggestions) > 1 {
m.DisplaySuggestions(suggestions)
}
screen.Show()
}
m.Clear()
m.Reset()
return response, canceled
}
// HandleEvent handles an event for the prompter
func (m *Messenger) HandleEvent(event tcell.Event, history []string) {
switch e := event.(type) {
case *tcell.EventKey:
if e.Key() != tcell.KeyRune || e.Modifiers() != 0 {
for key, actions := range bindings {
if e.Key() == key.keyCode {
if e.Key() == tcell.KeyRune {
if e.Rune() != key.r {
continue
}
}
if e.Modifiers() == key.modifiers {
for _, action := range actions {
funcName := FuncName(action)
switch funcName {
case "main.(*View).CursorUp":
if m.historyNum > 0 {
m.historyNum--
m.response = history[m.historyNum]
m.cursorx = Count(m.response)
}
case "main.(*View).CursorDown":
if m.historyNum < len(history)-1 {
m.historyNum++
m.response = history[m.historyNum]
m.cursorx = Count(m.response)
}
case "main.(*View).CursorLeft":
if m.cursorx > 0 {
m.cursorx--
}
case "main.(*View).CursorRight":
if m.cursorx < Count(m.response) {
m.cursorx++
}
case "main.(*View).CursorStart", "main.(*View).StartOfLine":
m.cursorx = 0
case "main.(*View).CursorEnd", "main.(*View).EndOfLine":
m.cursorx = Count(m.response)
case "main.(*View).Backspace":
if m.cursorx > 0 {
m.response = string([]rune(m.response)[:m.cursorx-1]) + string([]rune(m.response)[m.cursorx:])
m.cursorx--
}
case "main.(*View).Paste":
clip, _ := clipboard.ReadAll("clipboard")
m.response = Insert(m.response, m.cursorx, clip)
m.cursorx += Count(clip)
}
}
}
}
}
}
switch e.Key() {
case tcell.KeyRune:
m.response = Insert(m.response, m.cursorx, string(e.Rune()))
m.cursorx++
}
history[m.historyNum] = m.response
case *tcell.EventPaste:
clip := e.Text()
m.response = Insert(m.response, m.cursorx, clip)
m.cursorx += Count(clip)
case *tcell.EventMouse:
x, y := e.Position()
x -= Count(m.message)
button := e.Buttons()
_, screenH := screen.Size()
if y == screenH-1 {
switch button {
case tcell.Button1:
m.cursorx = x
if m.cursorx < 0 {
m.cursorx = 0
} else if m.cursorx > Count(m.response) {
m.cursorx = Count(m.response)
}
}
}
}
}
// Reset resets the messenger's cursor, message and response
func (m *Messenger) Reset() {
m.cursorx = 0
m.message = ""
m.response = ""
}
// Clear clears the line at the bottom of the editor
func (m *Messenger) Clear() {
w, h := screen.Size()
for x := 0; x < w; x++ {
screen.SetContent(x, h-1, ' ', nil, defStyle)
}
}
func (m *Messenger) DisplaySuggestions(suggestions []string) {
w, screenH := screen.Size()
y := screenH - 2
statusLineStyle := defStyle.Reverse(true)
if style, ok := colorscheme["statusline"]; ok {
statusLineStyle = style
}
for x := 0; x < w; x++ {
screen.SetContent(x, y, ' ', nil, statusLineStyle)
}
x := 0
for _, suggestion := range suggestions {
for _, c := range suggestion {
screen.SetContent(x, y, c, nil, statusLineStyle)
x++
}
screen.SetContent(x, y, ' ', nil, statusLineStyle)
x++
}
}
// Display displays messages or prompts
func (m *Messenger) Display() {
_, h := screen.Size()
if m.hasMessage {
if m.hasPrompt || globalSettings["infobar"].(bool) {
runes := []rune(m.message + m.response)
posx := 0
for x := 0; x < len(runes); x++ {
screen.SetContent(posx, h-1, runes[x], nil, m.style)
posx += runewidth.RuneWidth(runes[x])
}
}
}
if m.hasPrompt {
screen.ShowCursor(Count(m.message)+m.cursorx, h-1)
screen.Show()
}
}
// A GutterMessage is a message displayed on the side of the editor
type GutterMessage struct {
lineNum int
msg string
kind int
}
// These are the different types of messages
const (
// GutterInfo represents a simple info message
GutterInfo = iota
// GutterWarning represents a compiler warning
GutterWarning
// GutterError represents a compiler error
GutterError
)

570
cmd/micro/micro.go
View File

@@ -5,87 +5,68 @@ import (
"fmt"
"io/ioutil"
"os"
"sort"
"path/filepath"
"runtime"
"strings"
"time"
"github.com/go-errors/errors"
isatty "github.com/mattn/go-isatty"
"github.com/zyedidia/micro/internal/action"
"github.com/zyedidia/micro/internal/buffer"
"github.com/zyedidia/micro/internal/config"
"github.com/zyedidia/micro/internal/screen"
"github.com/zyedidia/micro/internal/shell"
"github.com/zyedidia/micro/internal/util"
"github.com/mattn/go-isatty"
"github.com/mitchellh/go-homedir"
"github.com/yuin/gopher-lua"
"github.com/zyedidia/clipboard"
"github.com/zyedidia/tcell"
"github.com/zyedidia/tcell/encoding"
"layeh.com/gopher-luar"
)
const (
doubleClickThreshold = 400 // How many milliseconds to wait before a second click is not a double click
undoThreshold = 500 // If two events are less than n milliseconds apart, undo both of them
autosaveTime = 8 // Number of seconds to wait before autosaving
)
var (
// The main screen
screen tcell.Screen
// Object to send messages and prompts to the user
messenger *Messenger
// The default highlighting style
// This simply defines the default foreground and background colors
defStyle tcell.Style
// Where the user's configuration is
// This should be $XDG_CONFIG_HOME/micro
// If $XDG_CONFIG_HOME is not set, it is ~/.config/micro
configDir string
// Version is the version number or commit hash
// These variables should be set by the linker when compiling
Version = "0.0.0-unknown"
CommitHash = "Unknown"
CompileDate = "Unknown"
// The list of views
tabs []*Tab
// This is the currently open tab
// It's just an index to the tab in the tabs array
curTab int
// Channel of jobs running in the background
jobs chan JobFunction
// Event channel
events chan tcell.Event
autosave chan bool
// Command line flags
flagVersion = flag.Bool("version", false, "Show the version number and information")
flagConfigDir = flag.String("config-dir", "", "Specify a custom location for the configuration directory")
flagOptions = flag.Bool("options", false, "Show all option help")
optionFlags map[string]*string
// Read events on another thread or wait for a temporary read
lockPollEvent bool
)
func InitFlags() {
flag.Usage = func() {
fmt.Println("Usage: micro [OPTIONS] [FILE]...")
fmt.Println("-config-dir dir")
fmt.Println(" \tSpecify a custom location for the configuration directory")
fmt.Println("[FILE]:LINE:COL")
fmt.Println(" \tSpecify a line and column to start the cursor at when opening a buffer")
fmt.Println(" \tThis can also be done by opening file:LINE:COL")
fmt.Println("-options")
fmt.Println(" \tShow all option help")
fmt.Println("-version")
fmt.Println(" \tShow the version number and information")
fmt.Print("\nMicro's options can also be set via command line arguments for quick\nadjustments. For real configuration, please use the settings.json\nfile (see 'help options').\n\n")
fmt.Println("-option value")
fmt.Println(" \tSet `option` to `value` for this session")
fmt.Println(" \tFor example: `micro -syntax off file.c`")
fmt.Println("\nUse `micro -options` to see the full list of configuration options")
}
optionFlags = make(map[string]*string)
for k, v := range config.DefaultAllSettings() {
optionFlags[k] = flag.String(k, "", fmt.Sprintf("The %s option. Default value: '%v'.", k, v))
}
flag.Parse()
if *flagVersion {
// If -version was passed
fmt.Println("Version:", util.Version)
fmt.Println("Commit hash:", util.CommitHash)
fmt.Println("Compiled on", util.CompileDate)
os.Exit(0)
}
if *flagOptions {
// If -options was passed
var keys []string
m := config.DefaultAllSettings()
for k := range m {
keys = append(keys, k)
}
sort.Strings(keys)
for _, k := range keys {
v := m[k]
fmt.Printf("-%s value\n", k)
fmt.Printf(" \tDefault value: '%v'\n", v)
}
os.Exit(0)
}
}
// LoadInput determines which files should be loaded into buffers
// based on the input stored in flag.Args()
func LoadInput() []*buffer.Buffer {
func LoadInput() []*Buffer {
// There are a number of ways micro should start given its input
// 1. If it is given a files in flag.Args(), it should open those
@@ -101,19 +82,36 @@ func LoadInput() []*buffer.Buffer {
var input []byte
var err error
args := flag.Args()
buffers := make([]*buffer.Buffer, 0, len(args))
buffers := make([]*Buffer, 0, len(args))
if len(args) > 0 {
// Option 1
// We go through each file and load it
for i := 0; i < len(args); i++ {
buf, err := buffer.NewBufferFromFile(args[i], buffer.BTDefault)
if err != nil {
screen.TermMessage(err)
continue
filename = args[i]
// Check that the file exists
var input *os.File
if _, e := os.Stat(filename); e == nil {
// If it exists we load it into a buffer
input, err = os.Open(filename)
stat, _ := input.Stat()
defer input.Close()
if err != nil {
TermMessage(err)
continue
}
if stat.IsDir() {
TermMessage("Cannot read", filename, "because it is a directory")
continue
}
}
// If the file didn't exist, input will be empty, and we'll open an empty buffer
buffers = append(buffers, buf)
if input != nil {
buffers = append(buffers, NewBuffer(input, FSize(input), filename))
} else {
buffers = append(buffers, NewBufferFromString("", filename))
}
}
} else if !isatty.IsTerminal(os.Stdin.Fd()) {
// Option 2
@@ -121,141 +119,397 @@ func LoadInput() []*buffer.Buffer {
// and we should read from stdin
input, err = ioutil.ReadAll(os.Stdin)
if err != nil {
screen.TermMessage("Error reading from stdin: ", err)
TermMessage("Error reading from stdin: ", err)
input = []byte{}
}
buffers = append(buffers, buffer.NewBufferFromString(string(input), filename, buffer.BTDefault))
buffers = append(buffers, NewBufferFromString(string(input), filename))
} else {
// Option 3, just open an empty buffer
buffers = append(buffers, buffer.NewBufferFromString(string(input), filename, buffer.BTDefault))
buffers = append(buffers, NewBufferFromString(string(input), filename))
}
return buffers
}
func main() {
defer os.Exit(0)
// runtime.SetCPUProfileRate(400)
// f, _ := os.Create("micro.prof")
// pprof.StartCPUProfile(f)
// defer pprof.StopCPUProfile()
var err error
InitLog()
InitFlags()
err = config.InitConfigDir(*flagConfigDir)
if err != nil {
screen.TermMessage(err)
// InitConfigDir finds the configuration directory for micro according to the XDG spec.
// If no directory is found, it creates one.
func InitConfigDir() {
xdgHome := os.Getenv("XDG_CONFIG_HOME")
if xdgHome == "" {
// The user has not set $XDG_CONFIG_HOME so we should act like it was set to ~/.config
home, err := homedir.Dir()
if err != nil {
TermMessage("Error finding your home directory\nCan't load config files")
return
}
xdgHome = home + "/.config"
}
configDir = xdgHome + "/micro"
config.InitRuntimeFiles()
err = config.ReadSettings()
if err != nil {
screen.TermMessage(err)
}
config.InitGlobalSettings()
// flag options
for k, v := range optionFlags {
if *v != "" {
nativeValue, err := config.GetNativeValue(k, config.DefaultAllSettings()[k], *v)
if err != nil {
screen.TermMessage(err)
continue
}
config.GlobalSettings[k] = nativeValue
if len(*flagConfigDir) > 0 {
if _, err := os.Stat(*flagConfigDir); os.IsNotExist(err) {
TermMessage("Error: " + *flagConfigDir + " does not exist. Defaulting to " + configDir + ".")
} else {
configDir = *flagConfigDir
return
}
}
action.InitBindings()
action.InitCommands()
err = config.InitColorscheme()
if err != nil {
screen.TermMessage(err)
if _, err := os.Stat(xdgHome); os.IsNotExist(err) {
// If the xdgHome doesn't exist we should create it
err = os.Mkdir(xdgHome, os.ModePerm)
if err != nil {
TermMessage("Error creating XDG_CONFIG_HOME directory: " + err.Error())
}
}
err = config.LoadAllPlugins()
if err != nil {
screen.TermMessage(err)
if _, err := os.Stat(configDir); os.IsNotExist(err) {
// If the micro specific config directory doesn't exist we should create that too
err = os.Mkdir(configDir, os.ModePerm)
if err != nil {
TermMessage("Error creating configuration directory: " + err.Error())
}
}
err = config.RunPluginFn("init")
if err != nil {
screen.TermMessage(err)
}
// InitScreen creates and initializes the tcell screen
func InitScreen() {
// Should we enable true color?
truecolor := os.Getenv("MICRO_TRUECOLOR") == "1"
// In order to enable true color, we have to set the TERM to `xterm-truecolor` when
// initializing tcell, but after that, we can set the TERM back to whatever it was
oldTerm := os.Getenv("TERM")
if truecolor {
os.Setenv("TERM", "xterm-truecolor")
}
screen.Init()
// Initilize tcell
var err error
screen, err = tcell.NewScreen()
if err != nil {
fmt.Println(err)
if err == tcell.ErrTermNotFound {
fmt.Println("Micro does not recognize your terminal:", oldTerm)
fmt.Println("Please go to https://github.com/zyedidia/mkinfo to read about how to fix this problem (it should be easy to fix).")
}
os.Exit(1)
}
if err = screen.Init(); err != nil {
fmt.Println(err)
os.Exit(1)
}
// If we have an error, we can exit cleanly and not completely
// Now we can put the TERM back to what it was before
if truecolor {
os.Setenv("TERM", oldTerm)
}
screen.SetStyle(defStyle)
}
// RedrawAll redraws everything -- all the views and the messenger
func RedrawAll() {
messenger.Clear()
w, h := screen.Size()
for x := 0; x < w; x++ {
for y := 0; y < h; y++ {
screen.SetContent(x, y, ' ', nil, defStyle)
}
}
for _, v := range tabs[curTab].views {
v.Display()
}
DisplayTabs()
messenger.Display()
screen.Show()
}
func LoadAll() {
// Find the user's configuration directory (probably $XDG_CONFIG_HOME/micro)
InitConfigDir()
// Build a list of available Extensions (Syntax, Colorscheme etc.)
InitRuntimeFiles()
// Load the user's settings
InitGlobalSettings()
InitCommands()
InitBindings()
InitColorscheme()
for _, tab := range tabs {
for _, v := range tab.views {
v.Buf.UpdateRules()
}
}
}
// Passing -version as a flag will have micro print out the version number
var flagVersion = flag.Bool("version", false, "Show the version number and information")
var flagStartPos = flag.String("startpos", "", "LINE,COL to start the cursor at when opening a buffer.")
var flagConfigDir = flag.String("config-dir", "", "Specify a custom location for the configuration directory")
var optionFlagSet = flag.NewFlagSet("option", flag.ExitOnError)
func main() {
flag.Usage = func() {
fmt.Println("Usage: micro [OPTIONS] [FILE]...")
flag.CommandLine.SetOutput(os.Stdout)
flag.PrintDefaults()
optionFlagSet.SetOutput(os.Stdout)
fmt.Print("\n------------------------------------------------------------------\n")
fmt.Print("Micro's options can also be set via command line arguments for quick\nadjustments. For real configuration, please use the bindings.json\nfile (see 'help options').\n\n")
optionFlagSet.PrintDefaults()
}
optionFlags := make(map[string]*string)
for k, v := range DefaultGlobalSettings() {
optionFlags[k] = optionFlagSet.String(k, "", fmt.Sprintf("The %s option. Default value: '%v'", k, v))
}
flag.Parse()
if *flagVersion {
// If -version was passed
fmt.Println("Version:", Version)
fmt.Println("Commit hash:", CommitHash)
fmt.Println("Compiled on", CompileDate)
os.Exit(0)
}
// Start the Lua VM for running plugins
L = lua.NewState()
defer L.Close()
// Some encoding stuff in case the user isn't using UTF-8
encoding.Register()
tcell.SetEncodingFallback(tcell.EncodingFallbackASCII)
// Find the user's configuration directory (probably $XDG_CONFIG_HOME/micro)
InitConfigDir()
// Build a list of available Extensions (Syntax, Colorscheme etc.)
InitRuntimeFiles()
// Load the user's settings
InitGlobalSettings()
InitCommands()
InitBindings()
// Start the screen
InitScreen()
// This is just so if we have an error, we can exit cleanly and not completely
// mess up the terminal being worked in
// In other words we need to shut down tcell before the program crashes
defer func() {
if err := recover(); err != nil {
screen.Screen.Fini()
screen.Fini()
fmt.Println("Micro encountered an error:", err)
// backup all open buffers
for _, b := range buffer.OpenBuffers {
b.Backup(false)
}
// Print the stack trace too
fmt.Print(errors.Wrap(err, 2).ErrorStack())
os.Exit(1)
}
}()
b := LoadInput()
action.InitTabs(b)
action.InitGlobals()
// Create a new messenger
// This is used for sending the user messages in the bottom of the editor
messenger = new(Messenger)
messenger.history = make(map[string][]string)
// Now we load the input
buffers := LoadInput()
if len(buffers) == 0 {
screen.Fini()
os.Exit(1)
}
for _, buf := range buffers {
// For each buffer we create a new tab and place the view in that tab
tab := NewTabFromView(NewView(buf))
tab.SetNum(len(tabs))
tabs = append(tabs, tab)
for _, t := range tabs {
for _, v := range t.views {
v.Center(false)
}
t.Resize()
}
}
for k, v := range optionFlags {
if *v != "" {
SetOption(k, *v)
}
}
// Load all the plugin stuff
// We give plugins access to a bunch of variables here which could be useful to them
L.SetGlobal("OS", luar.New(L, runtime.GOOS))
L.SetGlobal("tabs", luar.New(L, tabs))
L.SetGlobal("curTab", luar.New(L, curTab))
L.SetGlobal("messenger", luar.New(L, messenger))
L.SetGlobal("GetOption", luar.New(L, GetOption))
L.SetGlobal("AddOption", luar.New(L, AddOption))
L.SetGlobal("SetOption", luar.New(L, SetOption))
L.SetGlobal("SetLocalOption", luar.New(L, SetLocalOption))
L.SetGlobal("BindKey", luar.New(L, BindKey))
L.SetGlobal("MakeCommand", luar.New(L, MakeCommand))
L.SetGlobal("CurView", luar.New(L, CurView))
L.SetGlobal("IsWordChar", luar.New(L, IsWordChar))
L.SetGlobal("HandleCommand", luar.New(L, HandleCommand))
L.SetGlobal("HandleShellCommand", luar.New(L, HandleShellCommand))
L.SetGlobal("GetLeadingWhitespace", luar.New(L, GetLeadingWhitespace))
L.SetGlobal("MakeCompletion", luar.New(L, MakeCompletion))
L.SetGlobal("NewBuffer", luar.New(L, NewBufferFromString))
L.SetGlobal("RuneStr", luar.New(L, func(r rune) string {
return string(r)
}))
L.SetGlobal("Loc", luar.New(L, func(x, y int) Loc {
return Loc{x, y}
}))
L.SetGlobal("WorkingDirectory", luar.New(L, os.Getwd))
L.SetGlobal("JoinPaths", luar.New(L, filepath.Join))
L.SetGlobal("DirectoryName", luar.New(L, filepath.Dir))
L.SetGlobal("configDir", luar.New(L, configDir))
L.SetGlobal("Reload", luar.New(L, LoadAll))
L.SetGlobal("ByteOffset", luar.New(L, ByteOffset))
L.SetGlobal("ToCharPos", luar.New(L, ToCharPos))
// Used for asynchronous jobs
L.SetGlobal("JobStart", luar.New(L, JobStart))
L.SetGlobal("JobSpawn", luar.New(L, JobSpawn))
L.SetGlobal("JobSend", luar.New(L, JobSend))
L.SetGlobal("JobStop", luar.New(L, JobStop))
// Extension Files
L.SetGlobal("ReadRuntimeFile", luar.New(L, PluginReadRuntimeFile))
L.SetGlobal("ListRuntimeFiles", luar.New(L, PluginListRuntimeFiles))
L.SetGlobal("AddRuntimeFile", luar.New(L, PluginAddRuntimeFile))
L.SetGlobal("AddRuntimeFilesFromDirectory", luar.New(L, PluginAddRuntimeFilesFromDirectory))
L.SetGlobal("AddRuntimeFileFromMemory", luar.New(L, PluginAddRuntimeFileFromMemory))
// Access to Go stdlib
L.SetGlobal("import", luar.New(L, Import))
jobs = make(chan JobFunction, 100)
events = make(chan tcell.Event, 100)
autosave = make(chan bool)
LoadPlugins()
for _, t := range tabs {
for _, v := range t.views {
for pl := range loadedPlugins {
_, err := Call(pl+".onViewOpen", v)
if err != nil && !strings.HasPrefix(err.Error(), "function does not exist") {
TermMessage(err)
continue
}
}
}
}
InitColorscheme()
// Here is the event loop which runs in a separate thread
go func() {
events = make(chan tcell.Event)
for {
screen.Lock()
e := screen.Screen.PollEvent()
screen.Unlock()
if e != nil {
events <- e
if screen != nil && !lockPollEvent {
events <- screen.PollEvent()
time.Sleep(1 * time.Millisecond)
}
}
}()
go func() {
for {
time.Sleep(autosaveTime * time.Second)
if globalSettings["autosave"].(bool) {
autosave <- true
}
}
}()
for {
// Display everything
screen.Screen.Fill(' ', config.DefStyle)
screen.Screen.HideCursor()
action.Tabs.Display()
for _, ep := range action.MainTab().Panes {
ep.Display()
}
action.MainTab().Display()
action.InfoBar.Display()
screen.Screen.Show()
RedrawAll()
var event tcell.Event
// Check for new events
select {
case f := <-shell.Jobs:
case f := <-jobs:
// If a new job has finished while running in the background we should execute the callback
f.Function(f.Output, f.Args...)
case <-config.Autosave:
for _, b := range buffer.OpenBuffers {
b.Save()
}
case <-shell.CloseTerms:
f.function(f.output, f.args...)
continue
case <-autosave:
CurView().Save(true)
case event = <-events:
case <-screen.DrawChan:
}
if action.InfoBar.HasPrompt {
action.InfoBar.HandleEvent(event)
} else {
action.Tabs.HandleEvent(event)
for event != nil {
switch e := event.(type) {
case *tcell.EventResize:
for _, t := range tabs {
t.Resize()
}
case *tcell.EventMouse:
if !searching {
if e.Buttons() == tcell.Button1 {
// If the user left clicked we check a couple things
_, h := screen.Size()
x, y := e.Position()
if y == h-1 && messenger.message != "" && globalSettings["infobar"].(bool) {
// If the user clicked in the bottom bar, and there is a message down there
// we copy it to the clipboard.
// Often error messages are displayed down there so it can be useful to easily
// copy the message
clipboard.WriteAll(messenger.message, "primary")
break
}
if CurView().mouseReleased {
// We loop through each view in the current tab and make sure the current view
// is the one being clicked in
for _, v := range tabs[curTab].views {
if x >= v.x && x < v.x+v.Width && y >= v.y && y < v.y+v.Height {
tabs[curTab].CurView = v.Num
}
}
}
}
}
}
// This function checks the mouse event for the possibility of changing the current tab
// If the tab was changed it returns true
if TabbarHandleMouseEvent(event) {
break
}
if searching {
// Since searching is done in real time, we need to redraw every time
// there is a new event in the search bar so we need a special function
// to run instead of the standard HandleEvent.
HandleSearchEvent(event, CurView())
} else {
// Send it to the view
CurView().HandleEvent(event)
}
select {
case event = <-events:
default:
event = nil
}
}
}
}

165
cmd/micro/plugin.go Normal file
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@@ -0,0 +1,165 @@
package main
import (
"errors"
"io/ioutil"
"os"
"strings"
"github.com/yuin/gopher-lua"
"github.com/zyedidia/tcell"
"layeh.com/gopher-luar"
)
var loadedPlugins map[string]string
// Call calls the lua function 'function'
// If it does not exist nothing happens, if there is an error,
// the error is returned
func Call(function string, args ...interface{}) (lua.LValue, error) {
var luaFunc lua.LValue
if strings.Contains(function, ".") {
plugin := L.GetGlobal(strings.Split(function, ".")[0])
if plugin.String() == "nil" {
return nil, errors.New("function does not exist: " + function)
}
luaFunc = L.GetField(plugin, strings.Split(function, ".")[1])
} else {
luaFunc = L.GetGlobal(function)
}
if luaFunc.String() == "nil" {
return nil, errors.New("function does not exist: " + function)
}
var luaArgs []lua.LValue
for _, v := range args {
luaArgs = append(luaArgs, luar.New(L, v))
}
err := L.CallByParam(lua.P{
Fn: luaFunc,
NRet: 1,
Protect: true,
}, luaArgs...)
ret := L.Get(-1) // returned value
if ret.String() != "nil" {
L.Pop(1) // remove received value
}
return ret, err
}
// LuaFunctionBinding is a function generator which takes the name of a lua function
// and creates a function that will call that lua function
// Specifically it creates a function that can be called as a binding because this is used
// to bind keys to lua functions
func LuaFunctionBinding(function string) func(*View, bool) bool {
return func(v *View, _ bool) bool {
_, err := Call(function, nil)
if err != nil {
TermMessage(err)
}
return false
}
}
func LuaFunctionMouseBinding(function string) func(*View, bool, *tcell.EventMouse) bool {
return func(v *View, _ bool, e *tcell.EventMouse) bool {
_, err := Call(function, e)
if err != nil {
TermMessage(err)
}
return false
}
}
func unpack(old []string) []interface{} {
new := make([]interface{}, len(old))
for i, v := range old {
new[i] = v
}
return new
}
// LuaFunctionCommand is the same as LuaFunctionBinding except it returns a normal function
// so that a command can be bound to a lua function
func LuaFunctionCommand(function string) func([]string) {
return func(args []string) {
_, err := Call(function, unpack(args)...)
if err != nil {
TermMessage(err)
}
}
}
// LuaFunctionComplete returns a function which can be used for autocomplete in plugins
func LuaFunctionComplete(function string) func(string) []string {
return func(input string) (result []string) {
res, err := Call(function, input)
if err != nil {
TermMessage(err)
}
if tbl, ok := res.(*lua.LTable); !ok {
TermMessage(function, "should return a table of strings")
} else {
for i := 1; i <= tbl.Len(); i++ {
val := tbl.RawGetInt(i)
if v, ok := val.(lua.LString); !ok {
TermMessage(function, "should return a table of strings")
} else {
result = append(result, string(v))
}
}
}
return result
}
}
func LuaFunctionJob(function string) func(string, ...string) {
return func(output string, args ...string) {
_, err := Call(function, unpack(append([]string{output}, args...))...)
if err != nil {
TermMessage(err)
}
}
}
// luaPluginName convert a human-friendly plugin name into a valid lua variable name.
func luaPluginName(name string) string {
return strings.Replace(name, "-", "_", -1)
}
// LoadPlugins loads the pre-installed plugins and the plugins located in ~/.config/micro/plugins
func LoadPlugins() {
loadedPlugins = make(map[string]string)
for _, plugin := range ListRuntimeFiles(RTPlugin) {
pluginName := plugin.Name()
if _, ok := loadedPlugins[pluginName]; ok {
continue
}
data, err := plugin.Data()
if err != nil {
TermMessage("Error loading plugin: " + pluginName)
continue
}
pluginLuaName := luaPluginName(pluginName)
if err := LoadFile(pluginName, pluginName, string(data)); err != nil {
TermMessage(err)
continue
}
loadedPlugins[pluginName] = pluginLuaName
}
if _, err := os.Stat(configDir + "/init.lua"); err == nil {
data, _ := ioutil.ReadFile(configDir + "/init.lua")
if err := LoadFile("init", configDir+"init.lua", string(data)); err != nil {
TermMessage(err)
}
loadedPlugins["init"] = "init"
}
}

622
cmd/micro/pluginmanager.go Normal file
View File

@@ -0,0 +1,622 @@
package main
import (
"archive/zip"
"bytes"
"fmt"
"io"
"io/ioutil"
"net/http"
"os"
"path"
"path/filepath"
"sort"
"strings"
"sync"
"github.com/blang/semver"
"github.com/flynn/json5"
"github.com/yuin/gopher-lua"
)
var (
allPluginPackages PluginPackages
)
// CorePluginName is a plugin dependency name for the micro core.
const CorePluginName = "micro"
// PluginChannel contains an url to a json list of PluginRepository
type PluginChannel string
// PluginChannels is a slice of PluginChannel
type PluginChannels []PluginChannel
// PluginRepository contains an url to json file containing PluginPackages
type PluginRepository string
// PluginPackage contains the meta-data of a plugin and all available versions
type PluginPackage struct {
Name string
Description string
Author string
Tags []string
Versions PluginVersions
}
// PluginPackages is a list of PluginPackage instances.
type PluginPackages []*PluginPackage
// PluginVersion descripes a version of a PluginPackage. Containing a version, download url and also dependencies.
type PluginVersion struct {
pack *PluginPackage
Version semver.Version
Url string
Require PluginDependencies
}
// PluginVersions is a slice of PluginVersion
type PluginVersions []*PluginVersion
// PluginDependency descripes a dependency to another plugin or micro itself.
type PluginDependency struct {
Name string
Range semver.Range
}
// PluginDependencies is a slice of PluginDependency
type PluginDependencies []*PluginDependency
func (pp *PluginPackage) String() string {
buf := new(bytes.Buffer)
buf.WriteString("Plugin: ")
buf.WriteString(pp.Name)
buf.WriteRune('\n')
if pp.Author != "" {
buf.WriteString("Author: ")
buf.WriteString(pp.Author)
buf.WriteRune('\n')
}
if pp.Description != "" {
buf.WriteRune('\n')
buf.WriteString(pp.Description)
}
return buf.String()
}
func fetchAllSources(count int, fetcher func(i int) PluginPackages) PluginPackages {
wgQuery := new(sync.WaitGroup)
wgQuery.Add(count)
results := make(chan PluginPackages)
wgDone := new(sync.WaitGroup)
wgDone.Add(1)
var packages PluginPackages
for i := 0; i < count; i++ {
go func(i int) {
results <- fetcher(i)
wgQuery.Done()
}(i)
}
go func() {
packages = make(PluginPackages, 0)
for res := range results {
packages = append(packages, res...)
}
wgDone.Done()
}()
wgQuery.Wait()
close(results)
wgDone.Wait()
return packages
}
// Fetch retrieves all available PluginPackages from the given channels
func (pc PluginChannels) Fetch() PluginPackages {
return fetchAllSources(len(pc), func(i int) PluginPackages {
return pc[i].Fetch()
})
}
// Fetch retrieves all available PluginPackages from the given channel
func (pc PluginChannel) Fetch() PluginPackages {
// messenger.AddLog(fmt.Sprintf("Fetching channel: %q", string(pc)))
resp, err := http.Get(string(pc))
if err != nil {
TermMessage("Failed to query plugin channel:\n", err)
return PluginPackages{}
}
defer resp.Body.Close()
decoder := json5.NewDecoder(resp.Body)
var repositories []PluginRepository
if err := decoder.Decode(&repositories); err != nil {
TermMessage("Failed to decode channel data:\n", err)
return PluginPackages{}
}
return fetchAllSources(len(repositories), func(i int) PluginPackages {
return repositories[i].Fetch()
})
}
// Fetch retrieves all available PluginPackages from the given repository
func (pr PluginRepository) Fetch() PluginPackages {
// messenger.AddLog(fmt.Sprintf("Fetching repository: %q", string(pr)))
resp, err := http.Get(string(pr))
if err != nil {
TermMessage("Failed to query plugin repository:\n", err)
return PluginPackages{}
}
defer resp.Body.Close()
decoder := json5.NewDecoder(resp.Body)
var plugins PluginPackages
if err := decoder.Decode(&plugins); err != nil {
TermMessage("Failed to decode repository data:\n", err)
return PluginPackages{}
}
if len(plugins) > 0 {
return PluginPackages{plugins[0]}
}
return nil
// return plugins
}
// UnmarshalJSON unmarshals raw json to a PluginVersion
func (pv *PluginVersion) UnmarshalJSON(data []byte) error {
var values struct {
Version semver.Version
Url string
Require map[string]string
}
if err := json5.Unmarshal(data, &values); err != nil {
return err
}
pv.Version = values.Version
pv.Url = values.Url
pv.Require = make(PluginDependencies, 0)
for k, v := range values.Require {
// don't add the dependency if it's the core and
// we have a unknown version number.
// in that case just accept that dependency (which equals to not adding it.)
if k != CorePluginName || !isUnknownCoreVersion() {
if vRange, err := semver.ParseRange(v); err == nil {
pv.Require = append(pv.Require, &PluginDependency{k, vRange})
}
}
}
return nil
}
// UnmarshalJSON unmarshals raw json to a PluginPackage
func (pp *PluginPackage) UnmarshalJSON(data []byte) error {
var values struct {
Name string
Description string
Author string
Tags []string
Versions PluginVersions
}
if err := json5.Unmarshal(data, &values); err != nil {
return err
}
pp.Name = values.Name
pp.Description = values.Description
pp.Author = values.Author
pp.Tags = values.Tags
pp.Versions = values.Versions
for _, v := range pp.Versions {
v.pack = pp
}
return nil
}
// GetAllPluginPackages gets all PluginPackages which may be available.
func GetAllPluginPackages() PluginPackages {
if allPluginPackages == nil {
getOption := func(name string) []string {
data := GetOption(name)
if strs, ok := data.([]string); ok {
return strs
}
if ifs, ok := data.([]interface{}); ok {
result := make([]string, len(ifs))
for i, urlIf := range ifs {
if url, ok := urlIf.(string); ok {
result[i] = url
} else {
return nil
}
}
return result
}
return nil
}
channels := PluginChannels{}
for _, url := range getOption("pluginchannels") {
channels = append(channels, PluginChannel(url))
}
repos := []PluginRepository{}
for _, url := range getOption("pluginrepos") {
repos = append(repos, PluginRepository(url))
}
allPluginPackages = fetchAllSources(len(repos)+1, func(i int) PluginPackages {
if i == 0 {
return channels.Fetch()
}
return repos[i-1].Fetch()
})
}
return allPluginPackages
}
func (pv PluginVersions) find(ppName string) *PluginVersion {
for _, v := range pv {
if v.pack.Name == ppName {
return v
}
}
return nil
}
// Len returns the number of pluginversions in this slice
func (pv PluginVersions) Len() int {
return len(pv)
}
// Swap two entries of the slice
func (pv PluginVersions) Swap(i, j int) {
pv[i], pv[j] = pv[j], pv[i]
}
// Less returns true if the version at position i is greater then the version at position j (used for sorting)
func (pv PluginVersions) Less(i, j int) bool {
return pv[i].Version.GT(pv[j].Version)
}
// Match returns true if the package matches a given search text
func (pp PluginPackage) Match(text string) bool {
text = strings.ToLower(text)
for _, t := range pp.Tags {
if strings.ToLower(t) == text {
return true
}
}
if strings.Contains(strings.ToLower(pp.Name), text) {
return true
}
if strings.Contains(strings.ToLower(pp.Description), text) {
return true
}
return false
}
// IsInstallable returns true if the package can be installed.
func (pp PluginPackage) IsInstallable() error {
_, err := GetAllPluginPackages().Resolve(GetInstalledVersions(true), PluginDependencies{
&PluginDependency{
Name: pp.Name,
Range: semver.Range(func(v semver.Version) bool { return true }),
}})
return err
}
// SearchPlugin retrieves a list of all PluginPackages which match the given search text and
// could be or are already installed
func SearchPlugin(texts []string) (plugins PluginPackages) {
plugins = make(PluginPackages, 0)
pluginLoop:
for _, pp := range GetAllPluginPackages() {
for _, text := range texts {
if !pp.Match(text) {
continue pluginLoop
}
}
if err := pp.IsInstallable(); err == nil {
plugins = append(plugins, pp)
}
}
return
}
func isUnknownCoreVersion() bool {
_, err := semver.ParseTolerant(Version)
return err != nil
}
func newStaticPluginVersion(name, version string) *PluginVersion {
vers, err := semver.ParseTolerant(version)
if err != nil {
if vers, err = semver.ParseTolerant("0.0.0-" + version); err != nil {
vers = semver.MustParse("0.0.0-unknown")
}
}
pl := &PluginPackage{
Name: name,
}
pv := &PluginVersion{
pack: pl,
Version: vers,
}
pl.Versions = PluginVersions{pv}
return pv
}
// GetInstalledVersions returns a list of all currently installed plugins including an entry for
// micro itself. This can be used to resolve dependencies.
func GetInstalledVersions(withCore bool) PluginVersions {
result := PluginVersions{}
if withCore {
result = append(result, newStaticPluginVersion(CorePluginName, Version))
}
for name, lpname := range loadedPlugins {
version := GetInstalledPluginVersion(lpname)
if pv := newStaticPluginVersion(name, version); pv != nil {
result = append(result, pv)
}
}
return result
}
// GetInstalledPluginVersion returns the string of the exported VERSION variable of a loaded plugin
func GetInstalledPluginVersion(name string) string {
plugin := L.GetGlobal(name)
if plugin != lua.LNil {
version := L.GetField(plugin, "VERSION")
if str, ok := version.(lua.LString); ok {
return string(str)
}
}
return ""
}
// DownloadAndInstall downloads and installs the given plugin and version
func (pv *PluginVersion) DownloadAndInstall() error {
messenger.AddLog(fmt.Sprintf("Downloading %q (%s) from %q", pv.pack.Name, pv.Version, pv.Url))
resp, err := http.Get(pv.Url)
if err != nil {
return err
}
defer resp.Body.Close()
data, err := ioutil.ReadAll(resp.Body)
if err != nil {
return err
}
zipbuf := bytes.NewReader(data)
z, err := zip.NewReader(zipbuf, zipbuf.Size())
if err != nil {
return err
}
targetDir := filepath.Join(configDir, "plugins", pv.pack.Name)
dirPerm := os.FileMode(0755)
if err = os.MkdirAll(targetDir, dirPerm); err != nil {
return err
}
// Check if all files in zip are in the same directory.
// this might be the case if the plugin zip contains the whole plugin dir
// instead of its content.
var prefix string
allPrefixed := false
for i, f := range z.File {
parts := strings.Split(f.Name, "/")
if i == 0 {
prefix = parts[0]
} else if parts[0] != prefix {
allPrefixed = false
break
} else {
// switch to true since we have at least a second file
allPrefixed = true
}
}
for _, f := range z.File {
parts := strings.Split(f.Name, "/")
if allPrefixed {
parts = parts[1:]
}
targetName := filepath.Join(targetDir, filepath.Join(parts...))
if f.FileInfo().IsDir() {
if err := os.MkdirAll(targetName, dirPerm); err != nil {
return err
}
} else {
basepath := path.Dir(targetName)
if err := os.MkdirAll(basepath, dirPerm); err != nil {
return err
}
content, err := f.Open()
if err != nil {
return err
}
defer content.Close()
target, err := os.Create(targetName)
if err != nil {
return err
}
defer target.Close()
if _, err = io.Copy(target, content); err != nil {
return err
}
}
}
return nil
}
func (pl PluginPackages) Get(name string) *PluginPackage {
for _, p := range pl {
if p.Name == name {
return p
}
}
return nil
}
func (pl PluginPackages) GetAllVersions(name string) PluginVersions {
result := make(PluginVersions, 0)
p := pl.Get(name)
if p != nil {
for _, v := range p.Versions {
result = append(result, v)
}
}
return result
}
func (req PluginDependencies) Join(other PluginDependencies) PluginDependencies {
m := make(map[string]*PluginDependency)
for _, r := range req {
m[r.Name] = r
}
for _, o := range other {
cur, ok := m[o.Name]
if ok {
m[o.Name] = &PluginDependency{
o.Name,
o.Range.AND(cur.Range),
}
} else {
m[o.Name] = o
}
}
result := make(PluginDependencies, 0, len(m))
for _, v := range m {
result = append(result, v)
}
return result
}
// Resolve resolves dependencies between different plugins
func (all PluginPackages) Resolve(selectedVersions PluginVersions, open PluginDependencies) (PluginVersions, error) {
if len(open) == 0 {
return selectedVersions, nil
}
currentRequirement, stillOpen := open[0], open[1:]
if currentRequirement != nil {
if selVersion := selectedVersions.find(currentRequirement.Name); selVersion != nil {
if currentRequirement.Range(selVersion.Version) {
return all.Resolve(selectedVersions, stillOpen)
}
return nil, fmt.Errorf("unable to find a matching version for \"%s\"", currentRequirement.Name)
}
availableVersions := all.GetAllVersions(currentRequirement.Name)
sort.Sort(availableVersions)
for _, version := range availableVersions {
if currentRequirement.Range(version.Version) {
resolved, err := all.Resolve(append(selectedVersions, version), stillOpen.Join(version.Require))
if err == nil {
return resolved, nil
}
}
}
return nil, fmt.Errorf("unable to find a matching version for \"%s\"", currentRequirement.Name)
}
return selectedVersions, nil
}
func (pv PluginVersions) install() {
anyInstalled := false
currentlyInstalled := GetInstalledVersions(true)
for _, sel := range pv {
if sel.pack.Name != CorePluginName {
shouldInstall := true
if pv := currentlyInstalled.find(sel.pack.Name); pv != nil {
if pv.Version.NE(sel.Version) {
messenger.AddLog(fmt.Sprint("Uninstalling %q", sel.pack.Name))
UninstallPlugin(sel.pack.Name)
} else {
shouldInstall = false
}
}
if shouldInstall {
if err := sel.DownloadAndInstall(); err != nil {
messenger.Error(err)
return
}
anyInstalled = true
}
}
}
if anyInstalled {
messenger.Message("One or more plugins installed. Please restart micro.")
} else {
messenger.AddLog("Nothing to install / update")
}
}
// UninstallPlugin deletes the plugin folder of the given plugin
func UninstallPlugin(name string) {
if err := os.RemoveAll(filepath.Join(configDir, "plugins", name)); err != nil {
messenger.Error(err)
return
}
delete(loadedPlugins, name)
}
// Install installs the plugin
func (pl PluginPackage) Install() {
selected, err := GetAllPluginPackages().Resolve(GetInstalledVersions(true), PluginDependencies{
&PluginDependency{
Name: pl.Name,
Range: semver.Range(func(v semver.Version) bool { return true }),
}})
if err != nil {
TermMessage(err)
return
}
selected.install()
}
// UpdatePlugins updates the given plugins
func UpdatePlugins(plugins []string) {
// if no plugins are specified, update all installed plugins.
if len(plugins) == 0 {
for name := range loadedPlugins {
plugins = append(plugins, name)
}
}
messenger.AddLog("Checking for plugin updates")
microVersion := PluginVersions{
newStaticPluginVersion(CorePluginName, Version),
}
var updates = make(PluginDependencies, 0)
for _, name := range plugins {
pv := GetInstalledPluginVersion(name)
r, err := semver.ParseRange(">=" + pv) // Try to get newer versions.
if err == nil {
updates = append(updates, &PluginDependency{
Name: name,
Range: r,
})
}
}
selected, err := GetAllPluginPackages().Resolve(microVersion, updates)
if err != nil {
TermMessage(err)
return
}
selected.install()
}

56
cmd/micro/pluginmanager_test.go Normal file
View File

@@ -0,0 +1,56 @@
package main
import (
"testing"
"github.com/blang/semver"
"github.com/flynn/json5"
)
func TestDependencyResolving(t *testing.T) {
js := `
[{
"Name": "Foo",
"Versions": [{ "Version": "1.0.0" }, { "Version": "1.5.0" },{ "Version": "2.0.0" }]
}, {
"Name": "Bar",
"Versions": [{ "Version": "1.0.0", "Require": {"Foo": ">1.0.0 <2.0.0"} }]
}, {
"Name": "Unresolvable",
"Versions": [{ "Version": "1.0.0", "Require": {"Foo": "<=1.0.0", "Bar": ">0.0.0"} }]
}]
`
var all PluginPackages
err := json5.Unmarshal([]byte(js), &all)
if err != nil {
t.Error(err)
}
selected, err := all.Resolve(PluginVersions{}, PluginDependencies{
&PluginDependency{"Bar", semver.MustParseRange(">=1.0.0")},
})
check := func(name, version string) {
v := selected.find(name)
expected := semver.MustParse(version)
if v == nil {
t.Errorf("Failed to resolve %s", name)
} else if expected.NE(v.Version) {
t.Errorf("%s resolved in wrong version got %s", name, v)
}
}
if err != nil {
t.Error(err)
} else {
check("Foo", "1.5.0")
check("Bar", "1.0.0")
}
selected, err = all.Resolve(PluginVersions{}, PluginDependencies{
&PluginDependency{"Unresolvable", semver.MustParseRange(">0.0.0")},
})
if err == nil {
t.Error("Unresolvable package resolved:", selected)
}
}

128
internal/config/rtfiles.go → cmd/micro/rtfiles.go
View File

@@ -1,25 +1,19 @@
package config
package main
import (
"io/ioutil"
"log"
"os"
"path"
"path/filepath"
"regexp"
"strings"
)
const (
RTColorscheme = 0
RTSyntax = 1
RTHelp = 2
RTPlugin = 3
NumTypes = 4 // How many filetypes are there
RTColorscheme = "colorscheme"
RTSyntax = "syntax"
RTHelp = "help"
RTPlugin = "plugin"
)
type RTFiletype byte
// RuntimeFile allows the program to read runtime data like colorschemes or syntax files
type RuntimeFile interface {
// Name returns a name of the file without paths or extensions
@@ -29,7 +23,7 @@ type RuntimeFile interface {
}
// allFiles contains all available files, mapped by filetype
var allFiles [NumTypes][]RuntimeFile
var allFiles map[string][]RuntimeFile
// some file on filesystem
type realFile string
@@ -79,13 +73,16 @@ func (nf namedFile) Name() string {
}
// AddRuntimeFile registers a file for the given filetype
func AddRuntimeFile(fileType RTFiletype, file RuntimeFile) {
func AddRuntimeFile(fileType string, file RuntimeFile) {
if allFiles == nil {
allFiles = make(map[string][]RuntimeFile)
}
allFiles[fileType] = append(allFiles[fileType], file)
}
// AddRuntimeFilesFromDirectory registers each file from the given directory for
// the filetype which matches the file-pattern
func AddRuntimeFilesFromDirectory(fileType RTFiletype, directory, pattern string) {
func AddRuntimeFilesFromDirectory(fileType, directory, pattern string) {
files, _ := ioutil.ReadDir(directory)
for _, f := range files {
if ok, _ := filepath.Match(pattern, f.Name()); !f.IsDir() && ok {
@@ -97,7 +94,7 @@ func AddRuntimeFilesFromDirectory(fileType RTFiletype, directory, pattern string
// AddRuntimeFilesFromAssets registers each file from the given asset-directory for
// the filetype which matches the file-pattern
func AddRuntimeFilesFromAssets(fileType RTFiletype, directory, pattern string) {
func AddRuntimeFilesFromAssets(fileType, directory, pattern string) {
files, err := AssetDir(directory)
if err != nil {
return
@@ -111,7 +108,7 @@ func AddRuntimeFilesFromAssets(fileType RTFiletype, directory, pattern string) {
// FindRuntimeFile finds a runtime file of the given filetype and name
// will return nil if no file was found
func FindRuntimeFile(fileType RTFiletype, name string) RuntimeFile {
func FindRuntimeFile(fileType, name string) RuntimeFile {
for _, f := range ListRuntimeFiles(fileType) {
if f.Name() == name {
return f
@@ -121,14 +118,17 @@ func FindRuntimeFile(fileType RTFiletype, name string) RuntimeFile {
}
// ListRuntimeFiles lists all known runtime files for the given filetype
func ListRuntimeFiles(fileType RTFiletype) []RuntimeFile {
return allFiles[fileType]
func ListRuntimeFiles(fileType string) []RuntimeFile {
if files, ok := allFiles[fileType]; ok {
return files
}
return []RuntimeFile{}
}
// InitRuntimeFiles initializes all assets file and the config directory
func InitRuntimeFiles() {
add := func(fileType RTFiletype, dir, pattern string) {
AddRuntimeFilesFromDirectory(fileType, filepath.Join(ConfigDir, dir), pattern)
add := func(fileType, dir, pattern string) {
AddRuntimeFilesFromDirectory(fileType, filepath.Join(configDir, dir), pattern)
AddRuntimeFilesFromAssets(fileType, path.Join("runtime", dir), pattern)
}
@@ -136,77 +136,31 @@ func InitRuntimeFiles() {
add(RTSyntax, "syntax", "*.yaml")
add(RTHelp, "help", "*.md")
initlua := filepath.Join(ConfigDir, "init.lua")
if _, err := os.Stat(initlua); !os.IsNotExist(err) {
p := new(Plugin)
p.Name = "initlua"
p.Srcs = append(p.Srcs, realFile(initlua))
Plugins = append(Plugins, p)
}
// Search ConfigDir for plugin-scripts
plugdir := filepath.Join(ConfigDir, "plug")
files, _ := ioutil.ReadDir(plugdir)
isID := regexp.MustCompile(`^[_A-Za-z0-9]+$`).MatchString
for _, d := range files {
if d.IsDir() {
srcs, _ := ioutil.ReadDir(filepath.Join(plugdir, d.Name()))
p := new(Plugin)
p.Name = d.Name()
for _, f := range srcs {
if strings.HasSuffix(f.Name(), ".lua") {
p.Srcs = append(p.Srcs, realFile(filepath.Join(plugdir, d.Name(), f.Name())))
} else if f.Name() == "info.json" {
data, err := ioutil.ReadFile(filepath.Join(plugdir, d.Name(), "info.json"))
if err != nil {
continue
}
p.Info, _ = NewPluginInfo(data)
p.Name = p.Info.Name
}
// Search configDir for plugin-scripts
files, _ := ioutil.ReadDir(filepath.Join(configDir, "plugins"))
for _, f := range files {
realpath, _ := filepath.EvalSymlinks(filepath.Join(configDir, "plugins", f.Name()))
realpathStat, _ := os.Stat(realpath)
if realpathStat.IsDir() {
scriptPath := filepath.Join(configDir, "plugins", f.Name(), f.Name()+".lua")
if _, err := os.Stat(scriptPath); err == nil {
AddRuntimeFile(RTPlugin, realFile(scriptPath))
}
if !isID(p.Name) {
log.Println("Invalid plugin name", p.Name)
continue
}
Plugins = append(Plugins, p)
}
}
plugdir = filepath.Join("runtime", "plugins")
if files, err := AssetDir(plugdir); err == nil {
for _, d := range files {
if srcs, err := AssetDir(filepath.Join(plugdir, d)); err == nil {
p := new(Plugin)
p.Name = d
p.Default = true
for _, f := range srcs {
if strings.HasSuffix(f, ".lua") {
p.Srcs = append(p.Srcs, assetFile(filepath.Join(plugdir, d, f)))
} else if f == "info.json" {
data, err := Asset(filepath.Join(plugdir, d, "info.json"))
if err != nil {
continue
}
p.Info, _ = NewPluginInfo(data)
p.Name = p.Info.Name
}
}
if !isID(p.Name) {
log.Println("Invalid plugin name", p.Name)
continue
}
Plugins = append(Plugins, p)
if files, err := AssetDir("runtime/plugins"); err == nil {
for _, f := range files {
scriptPath := path.Join("runtime/plugins", f, f+".lua")
if _, err := AssetInfo(scriptPath); err == nil {
AddRuntimeFile(RTPlugin, assetFile(scriptPath))
}
}
}
}
// PluginReadRuntimeFile allows plugin scripts to read the content of a runtime file
func PluginReadRuntimeFile(fileType RTFiletype, name string) string {
func PluginReadRuntimeFile(fileType, name string) string {
if file := FindRuntimeFile(fileType, name); file != nil {
if data, err := file.Data(); err == nil {
return string(data)
@@ -216,7 +170,7 @@ func PluginReadRuntimeFile(fileType RTFiletype, name string) string {
}
// PluginListRuntimeFiles allows plugins to lists all runtime files of the given type
func PluginListRuntimeFiles(fileType RTFiletype) []string {
func PluginListRuntimeFiles(fileType string) []string {
files := ListRuntimeFiles(fileType)
result := make([]string, len(files))
for i, f := range files {
@@ -226,8 +180,8 @@ func PluginListRuntimeFiles(fileType RTFiletype) []string {
}
// PluginAddRuntimeFile adds a file to the runtime files for a plugin
func PluginAddRuntimeFile(plugin string, filetype RTFiletype, filePath string) {
fullpath := filepath.Join(ConfigDir, "plug", plugin, filePath)
func PluginAddRuntimeFile(plugin, filetype, filePath string) {
fullpath := filepath.Join(configDir, "plugins", plugin, filePath)
if _, err := os.Stat(fullpath); err == nil {
AddRuntimeFile(filetype, realFile(fullpath))
} else {
@@ -237,8 +191,8 @@ func PluginAddRuntimeFile(plugin string, filetype RTFiletype, filePath string) {
}
// PluginAddRuntimeFilesFromDirectory adds files from a directory to the runtime files for a plugin
func PluginAddRuntimeFilesFromDirectory(plugin string, filetype RTFiletype, directory, pattern string) {
fullpath := filepath.Join(ConfigDir, "plug", plugin, directory)
func PluginAddRuntimeFilesFromDirectory(plugin, filetype, directory, pattern string) {
fullpath := filepath.Join(configDir, "plugins", plugin, directory)
if _, err := os.Stat(fullpath); err == nil {
AddRuntimeFilesFromDirectory(filetype, fullpath, pattern)
} else {
@@ -248,6 +202,6 @@ func PluginAddRuntimeFilesFromDirectory(plugin string, filetype RTFiletype, dire
}
// PluginAddRuntimeFileFromMemory adds a file to the runtime files for a plugin from a given string
func PluginAddRuntimeFileFromMemory(plugin string, filetype RTFiletype, filename, data string) {
func PluginAddRuntimeFileFromMemory(plugin, filetype, filename, data string) {
AddRuntimeFile(filetype, memoryFile{filename, []byte(data)})
}

3981
cmd/micro/runtime.go Normal file
View File

File diff suppressed because one or more lines are too long

187
cmd/micro/search.go Normal file
View File

@@ -0,0 +1,187 @@
package main
import (
"regexp"
"strings"
"github.com/zyedidia/tcell"
)
var (
// What was the last search
lastSearch string
// Where should we start the search down from (or up from)
searchStart Loc
// Is there currently a search in progress
searching bool
// Stores the history for searching
searchHistory []string
)
// BeginSearch starts a search
func BeginSearch(searchStr string) {
searchHistory = append(searchHistory, "")
messenger.historyNum = len(searchHistory) - 1
searching = true
messenger.response = searchStr
messenger.cursorx = Count(searchStr)
messenger.Message("Find: ")
messenger.hasPrompt = true
}
// EndSearch stops the current search
func EndSearch() {
searchHistory[len(searchHistory)-1] = messenger.response
searching = false
messenger.hasPrompt = false
messenger.Clear()
messenger.Reset()
if lastSearch != "" {
messenger.Message("^P Previous ^N Next")
}
}
// ExitSearch exits the search mode, reset active search phrase, and clear status bar
func ExitSearch(v *View) {
lastSearch = ""
searching = false
messenger.hasPrompt = false
messenger.Clear()
messenger.Reset()
v.Cursor.ResetSelection()
}
// HandleSearchEvent takes an event and a view and will do a real time match from the messenger's output
// to the current buffer. It searches down the buffer.
func HandleSearchEvent(event tcell.Event, v *View) {
switch e := event.(type) {
case *tcell.EventKey:
switch e.Key() {
case tcell.KeyEscape:
// Exit the search mode
ExitSearch(v)
return
case tcell.KeyCtrlQ, tcell.KeyCtrlC, tcell.KeyEnter:
// Done
EndSearch()
return
}
}
messenger.HandleEvent(event, searchHistory)
if messenger.cursorx < 0 {
// Done
EndSearch()
return
}
if messenger.response == "" {
v.Cursor.ResetSelection()
// We don't end the search though
return
}
Search(messenger.response, v, true)
v.Relocate()
return
}
func searchDown(r *regexp.Regexp, v *View, start, end Loc) bool {
for i := start.Y; i <= end.Y; i++ {
var l []byte
var charPos int
if i == start.Y {
runes := []rune(string(v.Buf.lines[i].data))
l = []byte(string(runes[start.X:]))
charPos = start.X
if strings.Contains(r.String(), "^") && start.X != 0 {
continue
}
} else {
l = v.Buf.lines[i].data
}
match := r.FindIndex(l)
if match != nil {
v.Cursor.SetSelectionStart(Loc{charPos + runePos(match[0], string(l)), i})
v.Cursor.SetSelectionEnd(Loc{charPos + runePos(match[1], string(l)), i})
v.Cursor.OrigSelection[0] = v.Cursor.CurSelection[0]
v.Cursor.OrigSelection[1] = v.Cursor.CurSelection[1]
v.Cursor.Loc = v.Cursor.CurSelection[1]
return true
}
}
return false
}
func searchUp(r *regexp.Regexp, v *View, start, end Loc) bool {
for i := start.Y; i >= end.Y; i-- {
var l []byte
if i == start.Y {
runes := []rune(string(v.Buf.lines[i].data))
l = []byte(string(runes[:start.X]))
if strings.Contains(r.String(), "$") && start.X != Count(string(l)) {
continue
}
} else {
l = v.Buf.lines[i].data
}
match := r.FindIndex(l)
if match != nil {
v.Cursor.SetSelectionStart(Loc{runePos(match[0], string(l)), i})
v.Cursor.SetSelectionEnd(Loc{runePos(match[1], string(l)), i})
v.Cursor.OrigSelection[0] = v.Cursor.CurSelection[0]
v.Cursor.OrigSelection[1] = v.Cursor.CurSelection[1]
v.Cursor.Loc = v.Cursor.CurSelection[1]
return true
}
}
return false
}
// Search searches in the view for the given regex. The down bool
// specifies whether it should search down from the searchStart position
// or up from there
func Search(searchStr string, v *View, down bool) {
if searchStr == "" {
return
}
r, err := regexp.Compile(searchStr)
if v.Buf.Settings["ignorecase"].(bool) {
r, err = regexp.Compile("(?i)" + searchStr)
}
if err != nil {
return
}
var found bool
if down {
found = searchDown(r, v, searchStart, v.Buf.End())
if !found {
found = searchDown(r, v, v.Buf.Start(), searchStart)
}
} else {
found = searchUp(r, v, searchStart, v.Buf.Start())
if !found {
found = searchUp(r, v, v.Buf.End(), searchStart)
}
}
if found {
lastSearch = searchStr
} else {
v.Cursor.ResetSelection()
}
}

478
cmd/micro/settings.go Normal file
View File

@@ -0,0 +1,478 @@
package main
import (
"encoding/json"
"errors"
"io/ioutil"
"os"
"reflect"
"strconv"
"strings"
"github.com/flynn/json5"
"github.com/zyedidia/glob"
)
type optionValidator func(string, interface{}) error
// The options that the user can set
var globalSettings map[string]interface{}
var invalidSettings bool
// Options with validators
var optionValidators = map[string]optionValidator{
"tabsize": validatePositiveValue,
"scrollmargin": validateNonNegativeValue,
"scrollspeed": validateNonNegativeValue,
"colorscheme": validateColorscheme,
"colorcolumn": validateNonNegativeValue,
"fileformat": validateLineEnding,
}
// InitGlobalSettings initializes the options map and sets all options to their default values
func InitGlobalSettings() {
invalidSettings = false
defaults := DefaultGlobalSettings()
var parsed map[string]interface{}
filename := configDir + "/settings.json"
writeSettings := false
if _, e := os.Stat(filename); e == nil {
input, err := ioutil.ReadFile(filename)
if !strings.HasPrefix(string(input), "null") {
if err != nil {
TermMessage("Error reading settings.json file: " + err.Error())
invalidSettings = true
return
}
err = json5.Unmarshal(input, &parsed)
if err != nil {
TermMessage("Error reading settings.json:", err.Error())
invalidSettings = true
}
} else {
writeSettings = true
}
}
globalSettings = make(map[string]interface{})
for k, v := range defaults {
globalSettings[k] = v
}
for k, v := range parsed {
if !strings.HasPrefix(reflect.TypeOf(v).String(), "map") {
globalSettings[k] = v
}
}
if _, err := os.Stat(filename); os.IsNotExist(err) || writeSettings {
err := WriteSettings(filename)
if err != nil {
TermMessage("Error writing settings.json file: " + err.Error())
}
}
}
// InitLocalSettings scans the json in settings.json and sets the options locally based
// on whether the buffer matches the glob
func InitLocalSettings(buf *Buffer) {
invalidSettings = false
var parsed map[string]interface{}
filename := configDir + "/settings.json"
if _, e := os.Stat(filename); e == nil {
input, err := ioutil.ReadFile(filename)
if err != nil {
TermMessage("Error reading settings.json file: " + err.Error())
invalidSettings = true
return
}
err = json5.Unmarshal(input, &parsed)
if err != nil {
TermMessage("Error reading settings.json:", err.Error())
invalidSettings = true
}
}
for k, v := range parsed {
if strings.HasPrefix(reflect.TypeOf(v).String(), "map") {
g, err := glob.Compile(k)
if err != nil {
TermMessage("Error with glob setting ", k, ": ", err)
continue
}
if g.MatchString(buf.Path) {
for k1, v1 := range v.(map[string]interface{}) {
buf.Settings[k1] = v1
}
}
}
}
}
// WriteSettings writes the settings to the specified filename as JSON
func WriteSettings(filename string) error {
if invalidSettings {
// Do not write the settings if there was an error when reading them
return nil
}
var err error
if _, e := os.Stat(configDir); e == nil {
parsed := make(map[string]interface{})
filename := configDir + "/settings.json"
for k, v := range globalSettings {
parsed[k] = v
}
if _, e := os.Stat(filename); e == nil {
input, err := ioutil.ReadFile(filename)
if string(input) != "null" {
if err != nil {
return err
}
err = json5.Unmarshal(input, &parsed)
if err != nil {
TermMessage("Error reading settings.json:", err.Error())
invalidSettings = true
}
for k, v := range parsed {
if !strings.HasPrefix(reflect.TypeOf(v).String(), "map") {
if _, ok := globalSettings[k]; ok {
parsed[k] = globalSettings[k]
}
}
}
}
}
txt, _ := json.MarshalIndent(parsed, "", " ")
err = ioutil.WriteFile(filename, append(txt, '\n'), 0644)
}
return err
}
// AddOption creates a new option. This is meant to be called by plugins to add options.
func AddOption(name string, value interface{}) {
globalSettings[name] = value
err := WriteSettings(configDir + "/settings.json")
if err != nil {
TermMessage("Error writing settings.json file: " + err.Error())
}
}
// GetGlobalOption returns the global value of the given option
func GetGlobalOption(name string) interface{} {
return globalSettings[name]
}
// GetLocalOption returns the local value of the given option
func GetLocalOption(name string, buf *Buffer) interface{} {
return buf.Settings[name]
}
// GetOption returns the value of the given option
// If there is a local version of the option, it returns that
// otherwise it will return the global version
func GetOption(name string) interface{} {
if GetLocalOption(name, CurView().Buf) != nil {
return GetLocalOption(name, CurView().Buf)
}
return GetGlobalOption(name)
}
// DefaultGlobalSettings returns the default global settings for micro
// Note that colorscheme is a global only option
func DefaultGlobalSettings() map[string]interface{} {
return map[string]interface{}{
"autoindent": true,
"keepautoindent": false,
"autosave": false,
"colorcolumn": float64(0),
"colorscheme": "default",
"cursorline": true,
"eofnewline": false,
"rmtrailingws": false,
"ignorecase": false,
"indentchar": " ",
"infobar": true,
"ruler": true,
"savecursor": false,
"saveundo": false,
"scrollspeed": float64(2),
"scrollmargin": float64(3),
"softwrap": false,
"splitRight": true,
"splitBottom": true,
"statusline": true,
"syntax": true,
"tabmovement": false,
"tabsize": float64(4),
"tabstospaces": false,
"termtitle": false,
"pluginchannels": []string{
"https://raw.githubusercontent.com/micro-editor/plugin-channel/master/channel.json",
},
"pluginrepos": []string{},
"useprimary": true,
"fileformat": "unix",
"mouse": true,
}
}
// DefaultLocalSettings returns the default local settings
// Note that filetype is a local only option
func DefaultLocalSettings() map[string]interface{} {
return map[string]interface{}{
"autoindent": true,
"keepautoindent": false,
"autosave": false,
"colorcolumn": float64(0),
"cursorline": true,
"eofnewline": false,
"rmtrailingws": false,
"filetype": "Unknown",
"ignorecase": false,
"indentchar": " ",
"ruler": true,
"savecursor": false,
"saveundo": false,
"scrollspeed": float64(2),
"scrollmargin": float64(3),
"softwrap": false,
"splitRight": true,
"splitBottom": true,
"statusline": true,
"syntax": true,
"tabmovement": false,
"tabsize": float64(4),
"tabstospaces": false,
"useprimary": true,
"fileformat": "unix",
"mouse": true,
}
}
// SetOption attempts to set the given option to the value
// By default it will set the option as global, but if the option
// is local only it will set the local version
// Use setlocal to force an option to be set locally
func SetOption(option, value string) error {
if _, ok := globalSettings[option]; !ok {
if _, ok := CurView().Buf.Settings[option]; !ok {
return errors.New("Invalid option")
}
SetLocalOption(option, value, CurView())
return nil
}
var nativeValue interface{}
kind := reflect.TypeOf(globalSettings[option]).Kind()
if kind == reflect.Bool {
b, err := ParseBool(value)
if err != nil {
return errors.New("Invalid value")
}
nativeValue = b
} else if kind == reflect.String {
nativeValue = value
} else if kind == reflect.Float64 {
i, err := strconv.Atoi(value)
if err != nil {
return errors.New("Invalid value")
}
nativeValue = float64(i)
} else {
return errors.New("Option has unsupported value type")
}
if err := optionIsValid(option, nativeValue); err != nil {
return err
}
globalSettings[option] = nativeValue
if option == "colorscheme" {
// LoadSyntaxFiles()
InitColorscheme()
for _, tab := range tabs {
for _, view := range tab.views {
view.Buf.UpdateRules()
}
}
}
if option == "infobar" {
for _, tab := range tabs {
tab.Resize()
}
}
if _, ok := CurView().Buf.Settings[option]; ok {
for _, tab := range tabs {
for _, view := range tab.views {
SetLocalOption(option, value, view)
}
}
}
return nil
}
// SetLocalOption sets the local version of this option
func SetLocalOption(option, value string, view *View) error {
buf := view.Buf
if _, ok := buf.Settings[option]; !ok {
return errors.New("Invalid option")
}
var nativeValue interface{}
kind := reflect.TypeOf(buf.Settings[option]).Kind()
if kind == reflect.Bool {
b, err := ParseBool(value)
if err != nil {
return errors.New("Invalid value")
}
nativeValue = b
} else if kind == reflect.String {
nativeValue = value
} else if kind == reflect.Float64 {
i, err := strconv.Atoi(value)
if err != nil {
return errors.New("Invalid value")
}
nativeValue = float64(i)
} else {
return errors.New("Option has unsupported value type")
}
if err := optionIsValid(option, nativeValue); err != nil {
return err
}
buf.Settings[option] = nativeValue
if option == "statusline" {
view.ToggleStatusLine()
}
if option == "filetype" {
// LoadSyntaxFiles()
InitColorscheme()
buf.UpdateRules()
}
if option == "fileformat" {
buf.IsModified = true
}
if option == "syntax" {
if !nativeValue.(bool) {
buf.ClearMatches()
} else {
buf.highlighter.HighlightStates(buf)
}
}
if option == "mouse" {
if !nativeValue.(bool) {
screen.DisableMouse()
} else {
screen.EnableMouse()
}
}
return nil
}
// SetOptionAndSettings sets the given option and saves the option setting to the settings config file
func SetOptionAndSettings(option, value string) {
filename := configDir + "/settings.json"
err := SetOption(option, value)
if err != nil {
messenger.Error(err.Error())
return
}
err = WriteSettings(filename)
if err != nil {
messenger.Error("Error writing to settings.json: " + err.Error())
return
}
}
func optionIsValid(option string, value interface{}) error {
if validator, ok := optionValidators[option]; ok {
return validator(option, value)
}
return nil
}
// Option validators
func validatePositiveValue(option string, value interface{}) error {
tabsize, ok := value.(float64)
if !ok {
return errors.New("Expected numeric type for " + option)
}
if tabsize < 1 {
return errors.New(option + " must be greater than 0")
}
return nil
}
func validateNonNegativeValue(option string, value interface{}) error {
nativeValue, ok := value.(float64)
if !ok {
return errors.New("Expected numeric type for " + option)
}
if nativeValue < 0 {
return errors.New(option + " must be non-negative")
}
return nil
}
func validateColorscheme(option string, value interface{}) error {
colorscheme, ok := value.(string)
if !ok {
return errors.New("Expected string type for colorscheme")
}
if !ColorschemeExists(colorscheme) {
return errors.New(colorscheme + " is not a valid colorscheme")
}
return nil
}
func validateLineEnding(option string, value interface{}) error {
endingType, ok := value.(string)
if !ok {
return errors.New("Expected string type for file format")
}
if endingType != "unix" && endingType != "dos" {
return errors.New("File format must be either 'unix' or 'dos'")
}
return nil
}

317
cmd/micro/split_tree.go Normal file
View File

@@ -0,0 +1,317 @@
package main
// SplitType specifies whether a split is horizontal or vertical
type SplitType bool
const (
// VerticalSplit type
VerticalSplit = false
// HorizontalSplit type
HorizontalSplit = true
)
// A Node on the split tree
type Node interface {
VSplit(buf *Buffer, splitIndex int)
HSplit(buf *Buffer, splitIndex int)
String() string
}
// A LeafNode is an actual split so it contains a view
type LeafNode struct {
view *View
parent *SplitTree
}
// NewLeafNode returns a new leaf node containing the given view
func NewLeafNode(v *View, parent *SplitTree) *LeafNode {
n := new(LeafNode)
n.view = v
n.view.splitNode = n
n.parent = parent
return n
}
// A SplitTree is a Node itself and it contains other nodes
type SplitTree struct {
kind SplitType
parent *SplitTree
children []Node
x int
y int
width int
height int
lockWidth bool
lockHeight bool
tabNum int
}
// VSplit creates a vertical split
func (l *LeafNode) VSplit(buf *Buffer, splitIndex int) {
if splitIndex < 0 {
splitIndex = 0
}
tab := tabs[l.parent.tabNum]
if l.parent.kind == VerticalSplit {
if splitIndex > len(l.parent.children) {
splitIndex = len(l.parent.children)
}
newView := NewView(buf)
newView.TabNum = l.parent.tabNum
l.parent.children = append(l.parent.children, nil)
copy(l.parent.children[splitIndex+1:], l.parent.children[splitIndex:])
l.parent.children[splitIndex] = NewLeafNode(newView, l.parent)
tab.views = append(tab.views, nil)
copy(tab.views[splitIndex+1:], tab.views[splitIndex:])
tab.views[splitIndex] = newView
tab.CurView = splitIndex
} else {
if splitIndex > 1 {
splitIndex = 1
}
s := new(SplitTree)
s.kind = VerticalSplit
s.parent = l.parent
s.tabNum = l.parent.tabNum
newView := NewView(buf)
newView.TabNum = l.parent.tabNum
if splitIndex == 1 {
s.children = []Node{l, NewLeafNode(newView, s)}
} else {
s.children = []Node{NewLeafNode(newView, s), l}
}
l.parent.children[search(l.parent.children, l)] = s
l.parent = s
tab.views = append(tab.views, nil)
copy(tab.views[splitIndex+1:], tab.views[splitIndex:])
tab.views[splitIndex] = newView
tab.CurView = splitIndex
}
tab.Resize()
}
// HSplit creates a horizontal split
func (l *LeafNode) HSplit(buf *Buffer, splitIndex int) {
if splitIndex < 0 {
splitIndex = 0
}
tab := tabs[l.parent.tabNum]
if l.parent.kind == HorizontalSplit {
if splitIndex > len(l.parent.children) {
splitIndex = len(l.parent.children)
}
newView := NewView(buf)
newView.TabNum = l.parent.tabNum
l.parent.children = append(l.parent.children, nil)
copy(l.parent.children[splitIndex+1:], l.parent.children[splitIndex:])
l.parent.children[splitIndex] = NewLeafNode(newView, l.parent)
tab.views = append(tab.views, nil)
copy(tab.views[splitIndex+1:], tab.views[splitIndex:])
tab.views[splitIndex] = newView
tab.CurView = splitIndex
} else {
if splitIndex > 1 {
splitIndex = 1
}
s := new(SplitTree)
s.kind = HorizontalSplit
s.tabNum = l.parent.tabNum
s.parent = l.parent
newView := NewView(buf)
newView.TabNum = l.parent.tabNum
newView.Num = len(tab.views)
if splitIndex == 1 {
s.children = []Node{l, NewLeafNode(newView, s)}
} else {
s.children = []Node{NewLeafNode(newView, s), l}
}
l.parent.children[search(l.parent.children, l)] = s
l.parent = s
tab.views = append(tab.views, nil)
copy(tab.views[splitIndex+1:], tab.views[splitIndex:])
tab.views[splitIndex] = newView
tab.CurView = splitIndex
}
tab.Resize()
}
// Delete deletes a split
func (l *LeafNode) Delete() {
i := search(l.parent.children, l)
copy(l.parent.children[i:], l.parent.children[i+1:])
l.parent.children[len(l.parent.children)-1] = nil
l.parent.children = l.parent.children[:len(l.parent.children)-1]
tab := tabs[l.parent.tabNum]
j := findView(tab.views, l.view)
copy(tab.views[j:], tab.views[j+1:])
tab.views[len(tab.views)-1] = nil // or the zero value of T
tab.views = tab.views[:len(tab.views)-1]
for i, v := range tab.views {
v.Num = i
}
if tab.CurView > 0 {
tab.CurView--
}
}
// Cleanup rearranges all the parents after a split has been deleted
func (s *SplitTree) Cleanup() {
for i, node := range s.children {
if n, ok := node.(*SplitTree); ok {
if len(n.children) == 1 {
if child, ok := n.children[0].(*LeafNode); ok {
s.children[i] = child
child.parent = s
continue
}
}
n.Cleanup()
}
}
}
// ResizeSplits resizes all the splits correctly
func (s *SplitTree) ResizeSplits() {
lockedWidth := 0
lockedHeight := 0
lockedChildren := 0
for _, node := range s.children {
if n, ok := node.(*LeafNode); ok {
if s.kind == VerticalSplit {
if n.view.LockWidth {
lockedWidth += n.view.Width
lockedChildren++
}
} else {
if n.view.LockHeight {
lockedHeight += n.view.Height
lockedChildren++
}
}
} else if n, ok := node.(*SplitTree); ok {
if s.kind == VerticalSplit {
if n.lockWidth {
lockedWidth += n.width
lockedChildren++
}
} else {
if n.lockHeight {
lockedHeight += n.height
lockedChildren++
}
}
}
}
x, y := 0, 0
for _, node := range s.children {
if n, ok := node.(*LeafNode); ok {
if s.kind == VerticalSplit {
if !n.view.LockWidth {
n.view.Width = (s.width - lockedWidth) / (len(s.children) - lockedChildren)
}
n.view.Height = s.height
n.view.x = s.x + x
n.view.y = s.y
x += n.view.Width
} else {
if !n.view.LockHeight {
n.view.Height = (s.height - lockedHeight) / (len(s.children) - lockedChildren)
}
n.view.Width = s.width
n.view.y = s.y + y
n.view.x = s.x
y += n.view.Height
}
if n.view.Buf.Settings["statusline"].(bool) {
n.view.Height--
}
n.view.ToggleTabbar()
} else if n, ok := node.(*SplitTree); ok {
if s.kind == VerticalSplit {
if !n.lockWidth {
n.width = (s.width - lockedWidth) / (len(s.children) - lockedChildren)
}
n.height = s.height
n.x = s.x + x
n.y = s.y
x += n.width
} else {
if !n.lockHeight {
n.height = (s.height - lockedHeight) / (len(s.children) - lockedChildren)
}
n.width = s.width
n.y = s.y + y
n.x = s.x
y += n.height
}
n.ResizeSplits()
}
}
}
func (l *LeafNode) String() string {
return l.view.Buf.GetName()
}
func search(haystack []Node, needle Node) int {
for i, x := range haystack {
if x == needle {
return i
}
}
return 0
}
func findView(haystack []*View, needle *View) int {
for i, x := range haystack {
if x == needle {
return i
}
}
return 0
}
// VSplit is here just to make SplitTree fit the Node interface
func (s *SplitTree) VSplit(buf *Buffer, splitIndex int) {}
// HSplit is here just to make SplitTree fit the Node interface
func (s *SplitTree) HSplit(buf *Buffer, splitIndex int) {}
func (s *SplitTree) String() string {
str := "["
for _, child := range s.children {
str += child.String() + ", "
}
return str + "]"
}

14
internal/buffer/stack.go → cmd/micro/stack.go
View File

@@ -1,7 +1,7 @@
package buffer
package main
// TEStack is a simple implementation of a LIFO stack for text events
type TEStack struct {
// Stack is a simple implementation of a LIFO stack for text events
type Stack struct {
Top *Element
Size int
}
@@ -13,19 +13,19 @@ type Element struct {
}
// Len returns the stack's length
func (s *TEStack) Len() int {
func (s *Stack) Len() int {
return s.Size
}
// Push a new element onto the stack
func (s *TEStack) Push(value *TextEvent) {
func (s *Stack) Push(value *TextEvent) {
s.Top = &Element{value, s.Top}
s.Size++
}
// Pop removes the top element from the stack and returns its value
// If the stack is empty, return nil
func (s *TEStack) Pop() (value *TextEvent) {
func (s *Stack) Pop() (value *TextEvent) {
if s.Size > 0 {
value, s.Top = s.Top.Value, s.Top.Next
s.Size--
@@ -35,7 +35,7 @@ func (s *TEStack) Pop() (value *TextEvent) {
}
// Peek returns the top element of the stack without removing it
func (s *TEStack) Peek() *TextEvent {
func (s *Stack) Peek() *TextEvent {
if s.Size > 0 {
return s.Top.Value
}

70
cmd/micro/statusline.go Normal file
View File

@@ -0,0 +1,70 @@
package main
import (
"strconv"
)
// Statusline represents the information line at the bottom
// of each view
// It gives information such as filename, whether the file has been
// modified, filetype, cursor location
type Statusline struct {
view *View
}
// Display draws the statusline to the screen
func (sline *Statusline) Display() {
// We'll draw the line at the lowest line in the view
y := sline.view.Height + sline.view.y
file := sline.view.Buf.GetName()
// If the buffer is dirty (has been modified) write a little '+'
if sline.view.Buf.IsModified {
file += " +"
}
// Add one to cursor.x and cursor.y because (0,0) is the top left,
// but users will be used to (1,1) (first line,first column)
// We use GetVisualX() here because otherwise we get the column number in runes
// so a '\t' is only 1, when it should be tabSize
columnNum := strconv.Itoa(sline.view.Cursor.GetVisualX() + 1)
lineNum := strconv.Itoa(sline.view.Cursor.Y + 1)
file += " (" + lineNum + "," + columnNum + ")"
// Add the filetype
file += " " + sline.view.Buf.FileType()
file += " " + sline.view.Buf.Settings["fileformat"].(string)
rightText := ""
if len(helpBinding) > 0 {
rightText = helpBinding + " for help "
if sline.view.Type == vtHelp {
rightText = helpBinding + " to close help "
}
}
statusLineStyle := defStyle.Reverse(true)
if style, ok := colorscheme["statusline"]; ok {
statusLineStyle = style
}
// Maybe there is a unicode filename?
fileRunes := []rune(file)
viewX := sline.view.x
if viewX != 0 {
screen.SetContent(viewX, y, ' ', nil, statusLineStyle)
viewX++
}
for x := 0; x < sline.view.Width; x++ {
if x < len(fileRunes) {
screen.SetContent(viewX+x, y, fileRunes[x], nil, statusLineStyle)
} else if x >= sline.view.Width-len(rightText) && x < len(rightText)+sline.view.Width-len(rightText) {
screen.SetContent(viewX+x, y, []rune(rightText)[x-sline.view.Width+len(rightText)], nil, statusLineStyle)
} else {
screen.SetContent(viewX+x, y, ' ', nil, statusLineStyle)
}
}
}

265
cmd/micro/tab.go Normal file
View File

@@ -0,0 +1,265 @@
package main
import (
"sort"
"github.com/zyedidia/tcell"
)
var tabBarOffset int
type Tab struct {
// This contains all the views in this tab
// There is generally only one view per tab, but you can have
// multiple views with splits
views []*View
// This is the current view for this tab
CurView int
tree *SplitTree
}
// NewTabFromView creates a new tab and puts the given view in the tab
func NewTabFromView(v *View) *Tab {
t := new(Tab)
t.views = append(t.views, v)
t.views[0].Num = 0
t.tree = new(SplitTree)
t.tree.kind = VerticalSplit
t.tree.children = []Node{NewLeafNode(t.views[0], t.tree)}
w, h := screen.Size()
t.tree.width = w
t.tree.height = h
if globalSettings["infobar"].(bool) {
t.tree.height--
}
t.Resize()
return t
}
// SetNum sets all this tab's views to have the correct tab number
func (t *Tab) SetNum(num int) {
t.tree.tabNum = num
for _, v := range t.views {
v.TabNum = num
}
}
func (t *Tab) Cleanup() {
t.tree.Cleanup()
}
func (t *Tab) Resize() {
w, h := screen.Size()
t.tree.width = w
t.tree.height = h
if globalSettings["infobar"].(bool) {
t.tree.height--
}
t.tree.ResizeSplits()
for i, v := range t.views {
v.Num = i
}
}
// CurView returns the current view
func CurView() *View {
curTab := tabs[curTab]
return curTab.views[curTab.CurView]
}
// TabbarString returns the string that should be displayed in the tabbar
// It also returns a map containing which indicies correspond to which tab number
// This is useful when we know that the mouse click has occurred at an x location
// but need to know which tab that corresponds to to accurately change the tab
func TabbarString() (string, map[int]int) {
str := ""
indicies := make(map[int]int)
for i, t := range tabs {
if i == curTab {
str += "["
} else {
str += " "
}
buf := t.views[t.CurView].Buf
str += buf.GetName()
if buf.IsModified {
str += " +"
}
if i == curTab {
str += "]"
} else {
str += " "
}
indicies[Count(str)-1] = i + 1
str += " "
}
return str, indicies
}
// TabbarHandleMouseEvent checks the given mouse event if it is clicking on the tabbar
// If it is it changes the current tab accordingly
// This function returns true if the tab is changed
func TabbarHandleMouseEvent(event tcell.Event) bool {
// There is no tabbar displayed if there are less than 2 tabs
if len(tabs) <= 1 {
return false
}
switch e := event.(type) {
case *tcell.EventMouse:
button := e.Buttons()
// Must be a left click
if button == tcell.Button1 {
x, y := e.Position()
if y != 0 {
return false
}
str, indicies := TabbarString()
if x+tabBarOffset >= len(str) {
return false
}
var tabnum int
var keys []int
for k := range indicies {
keys = append(keys, k)
}
sort.Ints(keys)
for _, k := range keys {
if x+tabBarOffset <= k {
tabnum = indicies[k] - 1
break
}
}
curTab = tabnum
return true
}
}
return false
}
// DisplayTabs displays the tabbar at the top of the editor if there are multiple tabs
func DisplayTabs() {
if len(tabs) <= 1 {
return
}
str, indicies := TabbarString()
tabBarStyle := defStyle.Reverse(true)
if style, ok := colorscheme["tabbar"]; ok {
tabBarStyle = style
}
// Maybe there is a unicode filename?
fileRunes := []rune(str)
w, _ := screen.Size()
tooWide := (w < len(fileRunes))
// if the entire tab-bar is longer than the screen is wide,
// then it should be truncated appropriately to keep the
// active tab visible on the UI.
if tooWide == true {
// first we have to work out where the selected tab is
// out of the total length of the tab bar. this is done
// by extracting the hit-areas from the indicies map
// that was constructed by `TabbarString()`
var keys []int
for offset := range indicies {
keys = append(keys, offset)
}
// sort them to be in ascending order so that values will
// correctly reflect the displayed ordering of the tabs
sort.Ints(keys)
// record the offset of each tab and the previous tab so
// we can find the position of the tab's hit-box.
previousTabOffset := 0
currentTabOffset := 0
for _, k := range keys {
tabIndex := indicies[k] - 1
if tabIndex == curTab {
currentTabOffset = k
break
}
// this is +2 because there are two padding spaces that aren't accounted
// for in the display. please note that this is for cosmetic purposes only.
previousTabOffset = k + 2
}
// get the width of the hitbox of the active tab, from there calculate the offsets
// to the left and right of it to approximately center it on the tab bar display.
centeringOffset := (w - (currentTabOffset - previousTabOffset))
leftBuffer := previousTabOffset - (centeringOffset / 2)
rightBuffer := currentTabOffset + (centeringOffset / 2)
// check to make sure we haven't overshot the bounds of the string,
// if we have, then take that remainder and put it on the left side
overshotRight := rightBuffer - len(fileRunes)
if overshotRight > 0 {
leftBuffer = leftBuffer + overshotRight
}
overshotLeft := leftBuffer - 0
if overshotLeft < 0 {
leftBuffer = 0
rightBuffer = leftBuffer + (w - 1)
} else {
rightBuffer = leftBuffer + (w - 2)
}
if rightBuffer > len(fileRunes)-1 {
rightBuffer = len(fileRunes) - 1
}
// construct a new buffer of text to put the
// newly formatted tab bar text into.
var displayText []rune
// if the left-side of the tab bar isn't at the start
// of the constructed tab bar text, then show that are
// more tabs to the left by displaying a "+"
if leftBuffer != 0 {
displayText = append(displayText, '+')
}
// copy the runes in from the original tab bar text string
// into the new display buffer
for x := leftBuffer; x < rightBuffer; x++ {
displayText = append(displayText, fileRunes[x])
}
// if there is more text to the right of the right-most
// column in the tab bar text, then indicate there are more
// tabs to the right by displaying a "+"
if rightBuffer < len(fileRunes)-1 {
displayText = append(displayText, '+')
}
// now store the offset from zero of the left-most text
// that is being displayed. This is to ensure that when
// clicking on the tab bar, the correct tab gets selected.
tabBarOffset = leftBuffer
// use the constructed buffer as the display buffer to print
// onscreen.
fileRunes = displayText
} else {
tabBarOffset = 0
}
// iterate over the width of the terminal display and for each column,
// write a character into the tab display area with the appropriate style.
for x := 0; x < w; x++ {
if x < len(fileRunes) {
screen.SetContent(x, 0, fileRunes[x], nil, tabBarStyle)
} else {
screen.SetContent(x, 0, ' ', nil, tabBarStyle)
}
}
}

365
cmd/micro/util.go Normal file
View File

@@ -0,0 +1,365 @@
package main
import (
"bytes"
"os"
"path/filepath"
"reflect"
"runtime"
"strconv"
"strings"
"time"
"unicode/utf8"
"github.com/mattn/go-runewidth"
)
// Util.go is a collection of utility functions that are used throughout
// the program
// Count returns the length of a string in runes
// This is exactly equivalent to utf8.RuneCountInString(), just less characters
func Count(s string) int {
return utf8.RuneCountInString(s)
}
// NumOccurrences counts the number of occurrences of a byte in a string
func NumOccurrences(s string, c byte) int {
var n int
for i := 0; i < len(s); i++ {
if s[i] == c {
n++
}
}
return n
}
// Spaces returns a string with n spaces
func Spaces(n int) string {
return strings.Repeat(" ", n)
}
// Min takes the min of two ints
func Min(a, b int) int {
if a > b {
return b
}
return a
}
// Max takes the max of two ints
func Max(a, b int) int {
if a > b {
return a
}
return b
}
func FSize(f *os.File) int64 {
fi, _ := f.Stat()
// get the size
return fi.Size()
}
// IsWordChar returns whether or not the string is a 'word character'
// If it is a unicode character, then it does not match
// Word characters are defined as [A-Za-z0-9_]
func IsWordChar(str string) bool {
if len(str) > 1 {
// Unicode
return true
}
c := str[0]
return (c >= '0' && c <= '9') || (c >= 'A' && c <= 'Z') || (c >= 'a' && c <= 'z') || (c == '_')
}
// IsWhitespace returns true if the given rune is a space, tab, or newline
func IsWhitespace(c rune) bool {
return c == ' ' || c == '\t' || c == '\n'
}
// IsStrWhitespace returns true if the given string is all whitespace
func IsStrWhitespace(str string) bool {
for _, c := range str {
if !IsWhitespace(c) {
return false
}
}
return true
}
// Contains returns whether or not a string array contains a given string
func Contains(list []string, a string) bool {
for _, b := range list {
if b == a {
return true
}
}
return false
}
// Insert makes a simple insert into a string at the given position
func Insert(str string, pos int, value string) string {
return string([]rune(str)[:pos]) + value + string([]rune(str)[pos:])
}
// MakeRelative will attempt to make a relative path between path and base
func MakeRelative(path, base string) (string, error) {
if len(path) > 0 {
rel, err := filepath.Rel(base, path)
if err != nil {
return path, err
}
return rel, nil
}
return path, nil
}
// GetLeadingWhitespace returns the leading whitespace of the given string
func GetLeadingWhitespace(str string) string {
ws := ""
for _, c := range str {
if c == ' ' || c == '\t' {
ws += string(c)
} else {
break
}
}
return ws
}
// IsSpaces checks if a given string is only spaces
func IsSpaces(str string) bool {
for _, c := range str {
if c != ' ' {
return false
}
}
return true
}
// IsSpacesOrTabs checks if a given string contains only spaces and tabs
func IsSpacesOrTabs(str string) bool {
for _, c := range str {
if c != ' ' && c != '\t' {
return false
}
}
return true
}
// ParseBool is almost exactly like strconv.ParseBool, except it also accepts 'on' and 'off'
// as 'true' and 'false' respectively
func ParseBool(str string) (bool, error) {
if str == "on" {
return true, nil
}
if str == "off" {
return false, nil
}
return strconv.ParseBool(str)
}
// EscapePath replaces every path separator in a given path with a %
func EscapePath(path string) string {
path = filepath.ToSlash(path)
return strings.Replace(path, "/", "%", -1)
}
// GetModTime returns the last modification time for a given file
// It also returns a boolean if there was a problem accessing the file
func GetModTime(path string) (time.Time, bool) {
info, err := os.Stat(path)
if err != nil {
return time.Now(), false
}
return info.ModTime(), true
}
// StringWidth returns the width of a string where tabs count as `tabsize` width
func StringWidth(str string, tabsize int) int {
sw := runewidth.StringWidth(str)
lineIdx := 0
for _, ch := range str {
switch ch {
case '\t':
ts := tabsize - (lineIdx % tabsize)
sw += ts
lineIdx += ts
case '\n':
lineIdx = 0
default:
lineIdx++
}
}
return sw
}
// WidthOfLargeRunes searches all the runes in a string and counts up all the widths of runes
// that have a width larger than 1 (this also counts tabs as `tabsize` width)
func WidthOfLargeRunes(str string, tabsize int) int {
count := 0
lineIdx := 0
for _, ch := range str {
var w int
if ch == '\t' {
w = tabsize - (lineIdx % tabsize)
} else {
w = runewidth.RuneWidth(ch)
}
if w > 1 {
count += (w - 1)
}
if ch == '\n' {
lineIdx = 0
} else {
lineIdx += w
}
}
return count
}
// RunePos returns the rune index of a given byte index
// This could cause problems if the byte index is between code points
func runePos(p int, str string) int {
return utf8.RuneCountInString(str[:p])
}
func lcs(a, b string) string {
arunes := []rune(a)
brunes := []rune(b)
lcs := ""
for i, r := range arunes {
if i >= len(brunes) {
break
}
if r == brunes[i] {
lcs += string(r)
} else {
break
}
}
return lcs
}
func CommonSubstring(arr ...string) string {
commonStr := arr[0]
for _, str := range arr[1:] {
commonStr = lcs(commonStr, str)
}
return commonStr
}
// Abs is a simple absolute value function for ints
func Abs(n int) int {
if n < 0 {
return -n
}
return n
}
// FuncName returns the full name of a given function object
func FuncName(i interface{}) string {
return runtime.FuncForPC(reflect.ValueOf(i).Pointer()).Name()
}
// ShortFuncName returns the name only of a given function object
func ShortFuncName(i interface{}) string {
return strings.TrimPrefix(runtime.FuncForPC(reflect.ValueOf(i).Pointer()).Name(), "main.(*View).")
}
// SplitCommandArgs separates multiple command arguments which may be quoted.
// The returned slice contains at least one string
func SplitCommandArgs(input string) []string {
var result []string
var curQuote *bytes.Buffer
curArg := new(bytes.Buffer)
escape := false
finishQuote := func() {
if curQuote == nil {
return
}
str := curQuote.String()
if unquoted, err := strconv.Unquote(str); err == nil {
str = unquoted
}
curArg.WriteString(str)
curQuote = nil
}
appendResult := func() {
finishQuote()
escape = false
str := curArg.String()
result = append(result, str)
curArg.Reset()
}
for _, r := range input {
if r == ' ' && curQuote == nil {
appendResult()
} else {
runeHandled := false
appendRuneToBuff := func() {
if curQuote != nil {
curQuote.WriteRune(r)
} else {
curArg.WriteRune(r)
}
runeHandled = true
}
if r == '"' && curQuote == nil {
curQuote = new(bytes.Buffer)
appendRuneToBuff()
} else {
if curQuote != nil && !escape {
if r == '"' {
appendRuneToBuff()
finishQuote()
} else if r == '\\' {
appendRuneToBuff()
escape = true
continue
}
}
}
if !runeHandled {
appendRuneToBuff()
}
}
escape = false
}
appendResult()
return result
}
// JoinCommandArgs joins multiple command arguments and quote the strings if needed.
func JoinCommandArgs(args ...string) string {
buf := new(bytes.Buffer)
first := true
for _, arg := range args {
if first {
first = false
} else {
buf.WriteRune(' ')
}
quoted := strconv.Quote(arg)
if quoted[1:len(quoted)-1] != arg || strings.ContainsRune(arg, ' ') {
buf.WriteString(quoted)
} else {
buf.WriteString(arg)
}
}
return buf.String()
}

156
cmd/micro/util_test.go Normal file
View File

@@ -0,0 +1,156 @@
package main
import (
"reflect"
"testing"
)
func TestNumOccurences(t *testing.T) {
var tests = []struct {
inputStr string
inputChar byte
want int
}{
{"aaaa", 'a', 4},
{"\trfd\ta", '\t', 2},
{"∆ƒ\tø ® \t\t", '\t', 3},
}
for _, test := range tests {
if got := NumOccurrences(test.inputStr, test.inputChar); got != test.want {
t.Errorf("NumOccurences(%s, %c) = %d", test.inputStr, test.inputChar, got)
}
}
}
func TestSpaces(t *testing.T) {
var tests = []struct {
input int
want string
}{
{4, " "},
{0, ""},
}
for _, test := range tests {
if got := Spaces(test.input); got != test.want {
t.Errorf("Spaces(%d) = \"%s\"", test.input, got)
}
}
}
func TestIsWordChar(t *testing.T) {
if IsWordChar("t") == false {
t.Errorf("IsWordChar(t) = false")
}
if IsWordChar("T") == false {
t.Errorf("IsWordChar(T) = false")
}
if IsWordChar("5") == false {
t.Errorf("IsWordChar(5) = false")
}
if IsWordChar("_") == false {
t.Errorf("IsWordChar(_) = false")
}
if IsWordChar("ß") == false {
t.Errorf("IsWordChar(ß) = false")
}
if IsWordChar("~") == true {
t.Errorf("IsWordChar(~) = true")
}
if IsWordChar(" ") == true {
t.Errorf("IsWordChar( ) = true")
}
if IsWordChar(")") == true {
t.Errorf("IsWordChar()) = true")
}
if IsWordChar("\n") == true {
t.Errorf("IsWordChar(\n)) = true")
}
}
func TestJoinAndSplitCommandArgs(t *testing.T) {
tests := []struct {
Query []string
Wanted string
}{
{[]string{`test case`}, `"test case"`},
{[]string{`quote "test"`}, `"quote \"test\""`},
{[]string{`slash\\\ test`}, `"slash\\\\\\ test"`},
{[]string{`path 1`, `path\" 2`}, `"path 1" "path\\\" 2"`},
{[]string{`foo`}, `foo`},
{[]string{`foo\"bar`}, `"foo\\\"bar"`},
{[]string{``}, ``},
{[]string{`"`}, `"\""`},
{[]string{`a`, ``}, `a `},
{[]string{``, ``, ``, ``}, ` `},
{[]string{"\n"}, `"\n"`},
{[]string{"foo\tbar"}, `"foo\tbar"`},
}
for i, test := range tests {
if result := JoinCommandArgs(test.Query...); test.Wanted != result {
t.Errorf("JoinCommandArgs failed at Test %d\nGot: %q", i, result)
}
if result := SplitCommandArgs(test.Wanted); !reflect.DeepEqual(test.Query, result) {
t.Errorf("SplitCommandArgs failed at Test %d\nGot: `%q`", i, result)
}
}
splitTests := []struct {
Query string
Wanted []string
}{
{`"hallo""Welt"`, []string{`halloWelt`}},
{`"hallo" "Welt"`, []string{`hallo`, `Welt`}},
{`\"`, []string{`\"`}},
{`"foo`, []string{`"foo`}},
{`"foo"`, []string{`foo`}},
{`"\"`, []string{`"\"`}},
{`"C:\\"foo.txt`, []string{`C:\foo.txt`}},
{`"\n"new"\n"line`, []string{"\nnew\nline"}},
}
for i, test := range splitTests {
if result := SplitCommandArgs(test.Query); !reflect.DeepEqual(test.Wanted, result) {
t.Errorf("SplitCommandArgs failed at Split-Test %d\nGot: `%q`", i, result)
}
}
}
func TestStringWidth(t *testing.T) {
tabsize := 4
if w := StringWidth("1\t2", tabsize); w != 5 {
t.Error("StringWidth 1 Failed. Got", w)
}
if w := StringWidth("\t", tabsize); w != 4 {
t.Error("StringWidth 2 Failed. Got", w)
}
if w := StringWidth("1\t", tabsize); w != 4 {
t.Error("StringWidth 3 Failed. Got", w)
}
if w := StringWidth("\t\t", tabsize); w != 8 {
t.Error("StringWidth 4 Failed. Got", w)
}
if w := StringWidth("12\t2\t", tabsize); w != 8 {
t.Error("StringWidth 5 Failed. Got", w)
}
}
func TestWidthOfLargeRunes(t *testing.T) {
tabsize := 4
if w := WidthOfLargeRunes("1\t2", tabsize); w != 2 {
t.Error("WidthOfLargeRunes 1 Failed. Got", w)
}
if w := WidthOfLargeRunes("\t", tabsize); w != 3 {
t.Error("WidthOfLargeRunes 2 Failed. Got", w)
}
if w := WidthOfLargeRunes("1\t", tabsize); w != 2 {
t.Error("WidthOfLargeRunes 3 Failed. Got", w)
}
if w := WidthOfLargeRunes("\t\t", tabsize); w != 6 {
t.Error("WidthOfLargeRunes 4 Failed. Got", w)
}
if w := WidthOfLargeRunes("12\t2\t", tabsize); w != 3 {
t.Error("WidthOfLargeRunes 5 Failed. Got", w)
}
}

1
cmd/micro/vendor/github.com/blang/semver generated vendored Submodule

Submodule cmd/micro/vendor/github.com/blang/semver added at 4a1e882c79

1
cmd/micro/vendor/github.com/dustin/go-humanize generated vendored Submodule

Submodule cmd/micro/vendor/github.com/dustin/go-humanize added at 259d2a102b

1
cmd/micro/vendor/github.com/flynn/json5 generated vendored Submodule

Submodule cmd/micro/vendor/github.com/flynn/json5 added at 7620272ed6

1
cmd/micro/vendor/github.com/gdamore/encoding generated vendored Submodule

Submodule cmd/micro/vendor/github.com/gdamore/encoding added at b23993cbb6

1
cmd/micro/vendor/github.com/go-errors/errors generated vendored Submodule

Submodule cmd/micro/vendor/github.com/go-errors/errors added at 8fa88b06e5

1
cmd/micro/vendor/github.com/lucasb-eyer/go-colorful generated vendored Submodule

Submodule cmd/micro/vendor/github.com/lucasb-eyer/go-colorful added at c900de9dbb

1
cmd/micro/vendor/github.com/mattn/go-isatty generated vendored Submodule

Submodule cmd/micro/vendor/github.com/mattn/go-isatty added at fc9e8d8ef4

1
cmd/micro/vendor/github.com/mattn/go-runewidth generated vendored Submodule

Submodule cmd/micro/vendor/github.com/mattn/go-runewidth added at 97311d9f77

1
cmd/micro/vendor/github.com/mitchellh/go-homedir generated vendored Submodule

Submodule cmd/micro/vendor/github.com/mitchellh/go-homedir added at b8bc1bf767

1
cmd/micro/vendor/github.com/sergi/go-diff generated vendored Submodule

Submodule cmd/micro/vendor/github.com/sergi/go-diff added at feef008d51

1
cmd/micro/vendor/github.com/yuin/gopher-lua generated vendored Submodule

Submodule cmd/micro/vendor/github.com/yuin/gopher-lua added at b402f3114e

1
cmd/micro/vendor/github.com/zyedidia/clipboard generated vendored Submodule

Submodule cmd/micro/vendor/github.com/zyedidia/clipboard added at adacf416ce

1
cmd/micro/vendor/github.com/zyedidia/glob generated vendored Submodule

Submodule cmd/micro/vendor/github.com/zyedidia/glob added at dd4023a66d

1
cmd/micro/vendor/github.com/zyedidia/poller generated vendored Submodule

Submodule cmd/micro/vendor/github.com/zyedidia/poller added at ab09682913

1
cmd/micro/vendor/github.com/zyedidia/tcell generated vendored Submodule

Submodule cmd/micro/vendor/github.com/zyedidia/tcell added at 37b78458fe

1
cmd/micro/vendor/golang.org/x/net generated vendored Submodule

Submodule cmd/micro/vendor/golang.org/x/net added at 1a68b1313c

1
cmd/micro/vendor/golang.org/x/text generated vendored Submodule

Submodule cmd/micro/vendor/golang.org/x/text added at 210eee5cf7

1
cmd/micro/vendor/gopkg.in/yaml.v2 generated vendored Submodule

Submodule cmd/micro/vendor/gopkg.in/yaml.v2 added at cd8b52f826

1
cmd/micro/vendor/layeh.com/gopher-luar generated vendored Submodule

Submodule cmd/micro/vendor/layeh.com/gopher-luar added at 16281577df

1000
cmd/micro/view.go Normal file
View File

File diff suppressed because it is too large Load Diff

44
data/com.github.zyedidia.micro.metainfo.xml
View File

@@ -1,23 +1,27 @@
<?xml version="1.0" encoding="UTF-8"?>
<component>
<id>com.github.zyedidia.micro</id>
<name>Micro Text Editor</name>
<summary>A modern and intuitive terminal-based text editor</summary>
<metadata_license>MIT</metadata_license>
<categories>
<category>Development</category>
<category>TextEditor</category>
</categories>
<provides>
<binary>micro</binary>
</provides>
<developer_name>Zachary Yedidia</developer_name>
<screenshots>
<screenshot type="default">
<caption>Micro Text Editor editing its source code.</caption>
<image type="source">https://raw.githubusercontent.com/zyedidia/micro/master/assets/micro-solarized.png</image>
</screenshot>
</screenshots>
<url type="homepage">https://micro-editor.github.io</url>
<url type="bugtracker">https://github.com/zyedidia/micro/issues</url>
<id>com.github.zyedidia.micro</id>
<name>Micro Text Editor</name>
<summary>A modern and intuitive terminal-based text editor</summary>
<url type="homepage">https://micro-editor.github.io</url>
<url type="bugtracker">https://github.com/zyedidia/micro</url>
<metadata_license>MIT</metadata_license>
<categories>
<category>Development</category>
<category>TextEditor</category>
</categories>
<provides>
<binary>micro</binary>
</provides>
<releases>
<release version="1.2.0" date="2017-05-28" />
</releases>
<developer_name>Zachary Yedidia</developer_name>
<screenshots>
<screenshot type="default">
<caption>Micro Text Editor editing its source code.</caption>
<image type="source">https://raw.githubusercontent.com/zyedidia/micro/master/assets/micro-solarized.png</image>
</screenshot>
</screenshots>
</component>

38
go.mod
View File

@@ -1,38 +0,0 @@
module github.com/zyedidia/micro
require (
github.com/blang/semver v3.5.1+incompatible
github.com/davecgh/go-spew v1.1.1 // indirect
github.com/dustin/go-humanize v1.0.0
github.com/flynn/json5 v0.0.0-20160717195620-7620272ed633
github.com/gdamore/encoding v1.0.0 // indirect
github.com/go-errors/errors v1.0.1
github.com/gopherjs/gopherjs v0.0.0-20181103185306-d547d1d9531e // indirect
github.com/jtolds/gls v4.2.1+incompatible // indirect
github.com/kr/pretty v0.1.0 // indirect
github.com/kylelemons/godebug v0.0.0-20170820004349-d65d576e9348 // indirect
github.com/lucasb-eyer/go-colorful v0.0.0-20181028223441-12d3b2882a08 // indirect
github.com/mattn/go-isatty v0.0.4
github.com/mattn/go-runewidth v0.0.4
github.com/mitchellh/go-homedir v1.1.0
github.com/npat-efault/poller v2.0.0+incompatible // indirect
github.com/robertkrimen/otto v0.0.0-20180617131154-15f95af6e78d // indirect
github.com/sergi/go-diff v1.0.0
github.com/smartystreets/assertions v0.0.0-20190116191733-b6c0e53d7304 // indirect
github.com/smartystreets/goconvey v0.0.0-20181108003508-044398e4856c // indirect
github.com/stretchr/testify v1.3.0
github.com/yuin/gopher-lua v0.0.0-20190125051437-7b9317363aa9
github.com/zyedidia/clipboard v0.0.0-20180718195219-bd31d747117d
github.com/zyedidia/glob v0.0.0-20170209203856-dd4023a66dc3
github.com/zyedidia/poller v2.0.0+incompatible // indirect
github.com/zyedidia/pty v1.1.2-0.20180126010845-30364665a244 // indirect
github.com/zyedidia/tcell v0.0.0-20191219170756-59b50b23fa9b
github.com/zyedidia/terminal v0.0.0-20180726154117-533c623e2415
golang.org/x/sys v0.0.0-20180903190138-2b024373dcd9 // indirect
golang.org/x/text v0.3.0
gopkg.in/DATA-DOG/go-sqlmock.v1 v1.3.0 // indirect
gopkg.in/check.v1 v1.0.0-20180628173108-788fd7840127 // indirect
gopkg.in/sourcemap.v1 v1.0.5 // indirect
gopkg.in/yaml.v2 v2.2.2
layeh.com/gopher-luar v1.0.4
)

79
go.sum
View File

@@ -1,79 +0,0 @@
github.com/blang/semver v3.5.1+incompatible h1:cQNTCjp13qL8KC3Nbxr/y2Bqb63oX6wdnnjpJbkM4JQ=
github.com/blang/semver v3.5.1+incompatible/go.mod h1:kRBLl5iJ+tD4TcOOxsy/0fnwebNt5EWlYSAyrTnjyyk=
github.com/chzyer/readline v0.0.0-20180603132655-2972be24d48e/go.mod h1:nSuG5e5PlCu98SY8svDHJxuZscDgtXS6KTTbou5AhLI=
github.com/davecgh/go-spew v1.1.0/go.mod h1:J7Y8YcW2NihsgmVo/mv3lAwl/skON4iLHjSsI+c5H38=
github.com/davecgh/go-spew v1.1.1 h1:vj9j/u1bqnvCEfJOwUhtlOARqs3+rkHYY13jYWTU97c=
github.com/davecgh/go-spew v1.1.1/go.mod h1:J7Y8YcW2NihsgmVo/mv3lAwl/skON4iLHjSsI+c5H38=
github.com/dustin/go-humanize v1.0.0 h1:VSnTsYCnlFHaM2/igO1h6X3HA71jcobQuxemgkq4zYo=
github.com/dustin/go-humanize v1.0.0/go.mod h1:HtrtbFcZ19U5GC7JDqmcUSB87Iq5E25KnS6fMYU6eOk=
github.com/flynn/json5 v0.0.0-20160717195620-7620272ed633 h1:xJMmr4GMYIbALX5edyoDIOQpc2bOQTeJiWMeCl9lX/8=
github.com/flynn/json5 v0.0.0-20160717195620-7620272ed633/go.mod h1:NJDK3/o7abx6PP54EOe0G0n0RLmhCo9xv61gUYpI0EY=
github.com/gdamore/encoding v1.0.0 h1:+7OoQ1Bc6eTm5niUzBa0Ctsh6JbMW6Ra+YNuAtDBdko=
github.com/gdamore/encoding v1.0.0/go.mod h1:alR0ol34c49FCSBLjhosxzcPHQbf2trDkoo5dl+VrEg=
github.com/go-errors/errors v1.0.1 h1:LUHzmkK3GUKUrL/1gfBUxAHzcev3apQlezX/+O7ma6w=
github.com/go-errors/errors v1.0.1/go.mod h1:f4zRHt4oKfwPJE5k8C9vpYG+aDHdBFUsgrm6/TyX73Q=
github.com/gopherjs/gopherjs v0.0.0-20181103185306-d547d1d9531e h1:JKmoR8x90Iww1ks85zJ1lfDGgIiMDuIptTOhJq+zKyg=
github.com/gopherjs/gopherjs v0.0.0-20181103185306-d547d1d9531e/go.mod h1:wJfORRmW1u3UXTncJ5qlYoELFm8eSnnEO6hX4iZ3EWY=
github.com/jtolds/gls v4.2.1+incompatible h1:fSuqC+Gmlu6l/ZYAoZzx2pyucC8Xza35fpRVWLVmUEE=
github.com/jtolds/gls v4.2.1+incompatible/go.mod h1:QJZ7F/aHp+rZTRtaJ1ow/lLfFfVYBRgL+9YlvaHOwJU=
github.com/kr/pretty v0.1.0 h1:L/CwN0zerZDmRFUapSPitk6f+Q3+0za1rQkzVuMiMFI=
github.com/kr/pretty v0.1.0/go.mod h1:dAy3ld7l9f0ibDNOQOHHMYYIIbhfbHSm3C4ZsoJORNo=
github.com/kr/pty v1.1.1/go.mod h1:pFQYn66WHrOpPYNljwOMqo10TkYh1fy3cYio2l3bCsQ=
github.com/kr/text v0.1.0 h1:45sCR5RtlFHMR4UwH9sdQ5TC8v0qDQCHnXt+kaKSTVE=
github.com/kr/text v0.1.0/go.mod h1:4Jbv+DJW3UT/LiOwJeYQe1efqtUx/iVham/4vfdArNI=
github.com/kylelemons/godebug v0.0.0-20170820004349-d65d576e9348 h1:MtvEpTB6LX3vkb4ax0b5D2DHbNAUsen0Gx5wZoq3lV4=
github.com/kylelemons/godebug v0.0.0-20170820004349-d65d576e9348/go.mod h1:B69LEHPfb2qLo0BaaOLcbitczOKLWTsrBG9LczfCD4k=
github.com/lucasb-eyer/go-colorful v0.0.0-20181028223441-12d3b2882a08 h1:5MnxBC15uMxFv5FY/J/8vzyaBiArCOkMdFT9Jsw78iY=
github.com/lucasb-eyer/go-colorful v0.0.0-20181028223441-12d3b2882a08/go.mod h1:NXg0ArsFk0Y01623LgUqoqcouGDB+PwCCQlrwrG6xJ4=
github.com/mattn/go-isatty v0.0.4 h1:bnP0vzxcAdeI1zdubAl5PjU6zsERjGZb7raWodagDYs=
github.com/mattn/go-isatty v0.0.4/go.mod h1:M+lRXTBqGeGNdLjl/ufCoiOlB5xdOkqRJdNxMWT7Zi4=
github.com/mattn/go-runewidth v0.0.4 h1:2BvfKmzob6Bmd4YsL0zygOqfdFnK7GR4QL06Do4/p7Y=
github.com/mattn/go-runewidth v0.0.4/go.mod h1:LwmH8dsx7+W8Uxz3IHJYH5QSwggIsqBzpuz5H//U1FU=
github.com/mitchellh/go-homedir v1.1.0 h1:lukF9ziXFxDFPkA1vsr5zpc1XuPDn/wFntq5mG+4E0Y=
github.com/mitchellh/go-homedir v1.1.0/go.mod h1:SfyaCUpYCn1Vlf4IUYiD9fPX4A5wJrkLzIz1N1q0pr0=
github.com/npat-efault/poller v2.0.0+incompatible h1:jtTdXWKgN5kDK41ts8hoY1rvTEi0K08MTB8/bRO9MqE=
github.com/npat-efault/poller v2.0.0+incompatible/go.mod h1:lni01B89P8PtVpwlAhdhK1niN5rPkDGGpGGgBJzpSgo=
github.com/pmezard/go-difflib v1.0.0 h1:4DBwDE0NGyQoBHbLQYPwSUPoCMWR5BEzIk/f1lZbAQM=
github.com/pmezard/go-difflib v1.0.0/go.mod h1:iKH77koFhYxTK1pcRnkKkqfTogsbg7gZNVY4sRDYZ/4=
github.com/robertkrimen/otto v0.0.0-20180617131154-15f95af6e78d h1:1VUlQbCfkoSGv7qP7Y+ro3ap1P1pPZxgdGVqiTVy5C4=
github.com/robertkrimen/otto v0.0.0-20180617131154-15f95af6e78d/go.mod h1:xvqspoSXJTIpemEonrMDFq6XzwHYYgToXWj5eRX1OtY=
github.com/sergi/go-diff v1.0.0 h1:Kpca3qRNrduNnOQeazBd0ysaKrUJiIuISHxogkT9RPQ=
github.com/sergi/go-diff v1.0.0/go.mod h1:0CfEIISq7TuYL3j771MWULgwwjU+GofnZX9QAmXWZgo=
github.com/smartystreets/assertions v0.0.0-20190116191733-b6c0e53d7304 h1:Jpy1PXuP99tXNrhbq2BaPz9B+jNAvH1JPQQpG/9GCXY=
github.com/smartystreets/assertions v0.0.0-20190116191733-b6c0e53d7304/go.mod h1:OnSkiWE9lh6wB0YB77sQom3nweQdgAjqCqsofrRNTgc=
github.com/smartystreets/goconvey v0.0.0-20181108003508-044398e4856c h1:Ho+uVpkel/udgjbwB5Lktg9BtvJSh2DT0Hi6LPSyI2w=
github.com/smartystreets/goconvey v0.0.0-20181108003508-044398e4856c/go.mod h1:XDJAKZRPZ1CvBcN2aX5YOUTYGHki24fSF0Iv48Ibg0s=
github.com/stretchr/objx v0.1.0/go.mod h1:HFkY916IF+rwdDfMAkV7OtwuqBVzrE8GR6GFx+wExME=
github.com/stretchr/testify v1.3.0 h1:TivCn/peBQ7UY8ooIcPgZFpTNSz0Q2U6UrFlUfqbe0Q=
github.com/stretchr/testify v1.3.0/go.mod h1:M5WIy9Dh21IEIfnGCwXGc5bZfKNJtfHm1UVUgZn+9EI=
github.com/yuin/gopher-lua v0.0.0-20190125051437-7b9317363aa9 h1:Wy3fAQLBPP0JSWdq3kBnmbFgXDHcyhtPpd+8kENV7mU=
github.com/yuin/gopher-lua v0.0.0-20190125051437-7b9317363aa9/go.mod h1:fFiAh+CowNFr0NK5VASokuwKwkbacRmHsVA7Yb1Tqac=
github.com/zyedidia/clipboard v0.0.0-20180718195219-bd31d747117d h1:Lhqt2eo+rgM8aswvM7nTtAMVm8ARPWzkE9n6eZDOccY=
github.com/zyedidia/clipboard v0.0.0-20180718195219-bd31d747117d/go.mod h1:WDk3p8GiZV9+xFWlSo8qreeoLhW6Ik692rqXk+cNeRY=
github.com/zyedidia/glob v0.0.0-20170209203856-dd4023a66dc3 h1:oMHjjTLfGXVuyOQBYj5/td9WC0mw4g1xDBPovIqmHew=
github.com/zyedidia/glob v0.0.0-20170209203856-dd4023a66dc3/go.mod h1:YKbIYP//Eln8eDgAJGI3IDvR3s4Tv9Z9TGIOumiyQ5c=
github.com/zyedidia/poller v2.0.0+incompatible h1:DMOvB0EXz2JTokqOKfxPWN/8xXFJbO+m4vNhMkOY7Lo=
github.com/zyedidia/poller v2.0.0+incompatible/go.mod h1:vZXJOHGDcuK08GXhF6IAY0ZFd2WcgOR5DOTp84Uk5eE=
github.com/zyedidia/pty v1.1.2-0.20180126010845-30364665a244 h1:DZ7mZvUV5+oXeXV1E1t6ZIXRihHYyqYVIOSA+RGo88A=
github.com/zyedidia/pty v1.1.2-0.20180126010845-30364665a244/go.mod h1:4y9l9yJZNxRa7GB/fB+mmDmGkG3CqmzLf4vUxGGotEA=
github.com/zyedidia/tcell v0.0.0-20190204041104-518c15c24302 h1:ruNSURcO81y+J+XnqrLLt+zxcdFtq8QNoZfWXSsybYQ=
github.com/zyedidia/tcell v0.0.0-20190204041104-518c15c24302/go.mod h1:yXgdp23+aW8OMENYVBvpKoeiBtjaVWJ9HhpPDu6LBfM=
github.com/zyedidia/tcell v0.0.0-20191219170756-59b50b23fa9b h1:cryFENlMxJJrkimVx/CUMFDCxC4vpmey2x3A3tAgTNM=
github.com/zyedidia/tcell v0.0.0-20191219170756-59b50b23fa9b/go.mod h1:yXgdp23+aW8OMENYVBvpKoeiBtjaVWJ9HhpPDu6LBfM=
github.com/zyedidia/terminal v0.0.0-20180726154117-533c623e2415 h1:752dTQ5OatJ9M5ULK2+9lor+nzyZz+LYDo3WGngg3Rc=
github.com/zyedidia/terminal v0.0.0-20180726154117-533c623e2415/go.mod h1:8leT8G0Cm8NoJHdrrKHyR9MirWoF4YW7pZh06B6H+1E=
golang.org/x/sys v0.0.0-20180903190138-2b024373dcd9 h1:lkiLiLBHGoH3XnqSLUIaBsilGMUjI+Uy2Xu2JLUtTas=
golang.org/x/sys v0.0.0-20180903190138-2b024373dcd9/go.mod h1:STP8DvDyc/dI5b8T5hshtkjS+E42TnysNCUPdjciGhY=
golang.org/x/text v0.3.0 h1:g61tztE5qeGQ89tm6NTjjM9VPIm088od1l6aSorWRWg=
golang.org/x/text v0.3.0/go.mod h1:NqM8EUOU14njkJ3fqMW+pc6Ldnwhi/IjpwHt7yyuwOQ=
gopkg.in/DATA-DOG/go-sqlmock.v1 v1.3.0 h1:FVCohIoYO7IJoDDVpV2pdq7SgrMH6wHnuTyrdrxJNoY=
gopkg.in/DATA-DOG/go-sqlmock.v1 v1.3.0/go.mod h1:OdE7CF6DbADk7lN8LIKRzRJTTZXIjtWgA5THM5lhBAw=
gopkg.in/check.v1 v0.0.0-20161208181325-20d25e280405/go.mod h1:Co6ibVJAznAaIkqp8huTwlJQCZ016jof/cbN4VW5Yz0=
gopkg.in/check.v1 v1.0.0-20180628173108-788fd7840127 h1:qIbj1fsPNlZgppZ+VLlY7N33q108Sa+fhmuc+sWQYwY=
gopkg.in/check.v1 v1.0.0-20180628173108-788fd7840127/go.mod h1:Co6ibVJAznAaIkqp8huTwlJQCZ016jof/cbN4VW5Yz0=
gopkg.in/sourcemap.v1 v1.0.5 h1:inv58fC9f9J3TK2Y2R1NPntXEn3/wjWHkonhIUODNTI=
gopkg.in/sourcemap.v1 v1.0.5/go.mod h1:2RlvNNSMglmRrcvhfuzp4hQHwOtjxlbjX7UPY/GXb78=
gopkg.in/yaml.v2 v2.2.2 h1:ZCJp+EgiOT7lHqUV2J862kp8Qj64Jo6az82+3Td9dZw=
gopkg.in/yaml.v2 v2.2.2/go.mod h1:hI93XBmqTisBFMUTm0b8Fm+jr3Dg1NNxqwp+5A1VGuI=
layeh.com/gopher-luar v1.0.4 h1:BFgt94J/CXh4HkDcE2b7A7pBaVeQKEVfHEBRKL/K/Tc=
layeh.com/gopher-luar v1.0.4/go.mod h1:N3rev/ttQd8yVluXaYsa0M/eknzRYWe+pxZ35ZFmaaI=

1540
internal/action/actions.go
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8
internal/action/actions_other.go
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@@ -1,8 +0,0 @@
// +build plan9 nacl windows
package action
func (*BufPane) Suspend() bool {
InfoBar.Error("Suspend is only supported on BSD/Linux")
return false
}

601
internal/action/bufpane.go
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@@ -1,601 +0,0 @@
package action
import (
"strings"
"time"
luar "layeh.com/gopher-luar"
lua "github.com/yuin/gopher-lua"
"github.com/zyedidia/micro/internal/buffer"
"github.com/zyedidia/micro/internal/config"
"github.com/zyedidia/micro/internal/display"
ulua "github.com/zyedidia/micro/internal/lua"
"github.com/zyedidia/micro/internal/screen"
"github.com/zyedidia/tcell"
)
type BufKeyAction func(*BufPane) bool
type BufMouseAction func(*BufPane, *tcell.EventMouse) bool
var BufKeyBindings map[Event]BufKeyAction
var BufKeyStrings map[Event]string
var BufMouseBindings map[MouseEvent]BufMouseAction
func init() {
BufKeyBindings = make(map[Event]BufKeyAction)
BufKeyStrings = make(map[Event]string)
BufMouseBindings = make(map[MouseEvent]BufMouseAction)
}
func LuaAction(fn string) func(*BufPane) bool {
luaFn := strings.Split(fn, ".")
if len(luaFn) <= 1 {
return nil
}
plName, plFn := luaFn[0], luaFn[1]
pl := config.FindPlugin(plName)
if pl == nil {
return nil
}
return func(h *BufPane) bool {
val, err := pl.Call(plFn, luar.New(ulua.L, h))
if err != nil {
screen.TermMessage(err)
}
if v, ok := val.(lua.LBool); !ok {
return false
} else {
return bool(v)
}
}
}
// BufMapKey maps a key event to an action
func BufMapKey(k Event, action string) {
BufKeyStrings[k] = action
var actionfns []func(*BufPane) bool
var names []string
var types []byte
for i := 0; ; i++ {
if action == "" {
break
}
idx := strings.IndexAny(action, "&|,")
a := action
if idx >= 0 {
a = action[:idx]
types = append(types, action[idx])
action = action[idx+1:]
} else {
types = append(types, ' ')
action = ""
}
var afn func(*BufPane) bool
if strings.HasPrefix(action, "command:") {
a = strings.SplitN(a, ":", 2)[1]
afn = CommandAction(a)
names = append(names, "")
} else if strings.HasPrefix(a, "command-edit:") {
a = strings.SplitN(a, ":", 2)[1]
afn = CommandEditAction(a)
names = append(names, "")
} else if strings.HasPrefix(a, "lua:") {
a = strings.SplitN(a, ":", 2)[1]
afn = LuaAction(a)
if afn == nil {
screen.TermMessage("Lua Error:", action, "does not exist")
continue
}
names = append(names, "")
} else if f, ok := BufKeyActions[a]; ok {
afn = f
names = append(names, a)
} else {
screen.TermMessage("Error:", action, "does not exist")
continue
}
actionfns = append(actionfns, afn)
}
BufKeyBindings[k] = func(h *BufPane) bool {
cursors := h.Buf.GetCursors()
success := true
for i, a := range actionfns {
for j, c := range cursors {
h.Buf.SetCurCursor(c.Num)
h.Cursor = c
if i == 0 || (success && types[i-1] == '&') || (!success && types[i-1] == '|') || (types[i-1] == ',') {
success = h.execAction(a, names[i], j)
} else {
break
}
}
}
return true
}
}
// BufMapMouse maps a mouse event to an action
func BufMapMouse(k MouseEvent, action string) {
if f, ok := BufMouseActions[action]; ok {
BufMouseBindings[k] = f
} else {
delete(BufMouseBindings, k)
BufMapKey(k, action)
}
}
// The BufPane connects the buffer and the window
// It provides a cursor (or multiple) and defines a set of actions
// that can be taken on the buffer
// The ActionHandler can access the window for necessary info about
// visual positions for mouse clicks and scrolling
type BufPane struct {
display.BWindow
Buf *buffer.Buffer
Cursor *buffer.Cursor // the active cursor
// Since tcell doesn't differentiate between a mouse release event
// and a mouse move event with no keys pressed, we need to keep
// track of whether or not the mouse was pressed (or not released) last event to determine
// mouse release events
mouseReleased bool
// We need to keep track of insert key press toggle
isOverwriteMode bool
// This stores when the last click was
// This is useful for detecting double and triple clicks
lastClickTime time.Time
lastLoc buffer.Loc
// lastCutTime stores when the last ctrl+k was issued.
// It is used for clearing the clipboard to replace it with fresh cut lines.
lastCutTime time.Time
// freshClip returns true if the clipboard has never been pasted.
freshClip bool
// Was the last mouse event actually a double click?
// Useful for detecting triple clicks -- if a double click is detected
// but the last mouse event was actually a double click, it's a triple click
doubleClick bool
// Same here, just to keep track for mouse move events
tripleClick bool
// Last search stores the last successful search for FindNext and FindPrev
lastSearch string
// Should the current multiple cursor selection search based on word or
// based on selection (false for selection, true for word)
multiWord bool
splitID uint64
// remember original location of a search in case the search is canceled
searchOrig buffer.Loc
}
func NewBufPane(buf *buffer.Buffer, win display.BWindow) *BufPane {
h := new(BufPane)
h.Buf = buf
h.BWindow = win
h.Cursor = h.Buf.GetActiveCursor()
h.mouseReleased = true
config.RunPluginFn("onBufPaneOpen", luar.New(ulua.L, h))
return h
}
func NewBufPaneFromBuf(buf *buffer.Buffer) *BufPane {
w := display.NewBufWindow(0, 0, 0, 0, buf)
return NewBufPane(buf, w)
}
// PluginCB calls all plugin callbacks with a certain name and
// displays an error if there is one and returns the aggregrate
// boolean response
func (h *BufPane) PluginCB(cb string) bool {
b, err := config.RunPluginFnBool(cb, luar.New(ulua.L, h))
if err != nil {
screen.TermMessage(err)
}
return b
}
// PluginCBRune is the same as PluginCB but also passes a rune to
// the plugins
func (h *BufPane) PluginCBRune(cb string, r rune) bool {
b, err := config.RunPluginFnBool(cb, luar.New(ulua.L, h), luar.New(ulua.L, string(r)))
if err != nil {
screen.TermMessage(err)
}
return b
}
func (h *BufPane) OpenBuffer(b *buffer.Buffer) {
h.Buf.Close()
h.Buf = b
h.BWindow.SetBuffer(b)
h.Cursor = b.GetActiveCursor()
h.Resize(h.GetView().Width, h.GetView().Height)
v := new(display.View)
h.SetView(v)
h.Relocate()
// Set mouseReleased to true because we assume the mouse is not being pressed when
// the editor is opened
h.mouseReleased = true
// Set isOverwriteMode to false, because we assume we are in the default mode when editor
// is opened
h.isOverwriteMode = false
h.lastClickTime = time.Time{}
}
func (h *BufPane) ID() uint64 {
return h.splitID
}
func (h *BufPane) SetID(i uint64) {
h.splitID = i
}
func (h *BufPane) Name() string {
return h.Buf.GetName()
}
// HandleEvent executes the tcell event properly
func (h *BufPane) HandleEvent(event tcell.Event) {
switch e := event.(type) {
case *tcell.EventRaw:
re := RawEvent{
esc: e.EscSeq(),
}
h.DoKeyEvent(re)
case *tcell.EventKey:
ke := KeyEvent{
code: e.Key(),
mod: e.Modifiers(),
r: e.Rune(),
}
done := h.DoKeyEvent(ke)
if !done && e.Key() == tcell.KeyRune {
h.DoRuneInsert(e.Rune())
}
case *tcell.EventMouse:
switch e.Buttons() {
case tcell.ButtonNone:
// Mouse event with no click
if !h.mouseReleased {
// Mouse was just released
mx, my := e.Position()
mouseLoc := h.LocFromVisual(buffer.Loc{X: mx, Y: my})
// Relocating here isn't really necessary because the cursor will
// be in the right place from the last mouse event
// However, if we are running in a terminal that doesn't support mouse motion
// events, this still allows the user to make selections, except only after they
// release the mouse
if !h.doubleClick && !h.tripleClick {
h.Cursor.Loc = mouseLoc
h.Cursor.SetSelectionEnd(h.Cursor.Loc)
h.Cursor.CopySelection("primary")
}
h.mouseReleased = true
}
}
me := MouseEvent{
btn: e.Buttons(),
mod: e.Modifiers(),
}
h.DoMouseEvent(me, e)
}
h.Buf.MergeCursors()
if h.IsActive() {
// Display any gutter messages for this line
c := h.Buf.GetActiveCursor()
none := true
for _, m := range h.Buf.Messages {
if c.Y == m.Start.Y || c.Y == m.End.Y {
InfoBar.GutterMessage(m.Msg)
none = false
break
}
}
if none && InfoBar.HasGutter {
InfoBar.ClearGutter()
}
}
}
// DoKeyEvent executes a key event by finding the action it is bound
// to and executing it (possibly multiple times for multiple cursors)
func (h *BufPane) DoKeyEvent(e Event) bool {
if action, ok := BufKeyBindings[e]; ok {
return action(h)
}
return false
}
func (h *BufPane) execAction(action func(*BufPane) bool, name string, cursor int) bool {
if name != "Autocomplete" {
h.Buf.HasSuggestions = false
}
_, isMulti := MultiActions[name]
if (!isMulti && cursor == 0) || isMulti {
if h.PluginCB("pre" + name) {
asuccess := action(h)
psuccess := h.PluginCB("on" + name)
if isMulti {
if recording_macro {
if name != "ToggleMacro" && name != "PlayMacro" {
curmacro = append(curmacro, action)
}
}
}
return asuccess && psuccess
}
}
return false
}
func (h *BufPane) HasKeyEvent(e Event) bool {
_, ok := BufKeyBindings[e]
return ok
}
// DoMouseEvent executes a mouse event by finding the action it is bound
// to and executing it
func (h *BufPane) DoMouseEvent(e MouseEvent, te *tcell.EventMouse) bool {
if action, ok := BufMouseBindings[e]; ok {
if action(h, te) {
h.Relocate()
}
return true
} else if h.HasKeyEvent(e) {
return h.DoKeyEvent(e)
}
return false
}
// DoRuneInsert inserts a given rune into the current buffer
// (possibly multiple times for multiple cursors)
func (h *BufPane) DoRuneInsert(r rune) {
cursors := h.Buf.GetCursors()
for _, c := range cursors {
// Insert a character
h.Buf.SetCurCursor(c.Num)
h.Cursor = c
if !h.PluginCBRune("preRune", r) {
continue
}
if c.HasSelection() {
c.DeleteSelection()
c.ResetSelection()
}
if h.isOverwriteMode {
next := c.Loc
next.X++
h.Buf.Replace(c.Loc, next, string(r))
} else {
h.Buf.Insert(c.Loc, string(r))
}
if recording_macro {
curmacro = append(curmacro, r)
}
h.PluginCBRune("onRune", r)
}
}
func (h *BufPane) VSplitBuf(buf *buffer.Buffer) *BufPane {
e := NewBufPaneFromBuf(buf)
e.splitID = MainTab().GetNode(h.splitID).VSplit(h.Buf.Settings["splitright"].(bool))
MainTab().Panes = append(MainTab().Panes, e)
MainTab().Resize()
MainTab().SetActive(len(MainTab().Panes) - 1)
return e
}
func (h *BufPane) HSplitBuf(buf *buffer.Buffer) *BufPane {
e := NewBufPaneFromBuf(buf)
e.splitID = MainTab().GetNode(h.splitID).HSplit(h.Buf.Settings["splitbottom"].(bool))
MainTab().Panes = append(MainTab().Panes, e)
MainTab().Resize()
MainTab().SetActive(len(MainTab().Panes) - 1)
return e
}
func (h *BufPane) Close() {
h.Buf.Close()
}
func (h *BufPane) SetActive(b bool) {
h.BWindow.SetActive(b)
if b {
// Display any gutter messages for this line
c := h.Buf.GetActiveCursor()
none := true
for _, m := range h.Buf.Messages {
if c.Y == m.Start.Y || c.Y == m.End.Y {
InfoBar.GutterMessage(m.Msg)
none = false
break
}
}
if none && InfoBar.HasGutter {
InfoBar.ClearGutter()
}
}
}
// BufKeyActions contains the list of all possible key actions the bufhandler could execute
var BufKeyActions = map[string]BufKeyAction{
"CursorUp": (*BufPane).CursorUp,
"CursorDown": (*BufPane).CursorDown,
"CursorPageUp": (*BufPane).CursorPageUp,
"CursorPageDown": (*BufPane).CursorPageDown,
"CursorLeft": (*BufPane).CursorLeft,
"CursorRight": (*BufPane).CursorRight,
"CursorStart": (*BufPane).CursorStart,
"CursorEnd": (*BufPane).CursorEnd,
"SelectToStart": (*BufPane).SelectToStart,
"SelectToEnd": (*BufPane).SelectToEnd,
"SelectUp": (*BufPane).SelectUp,
"SelectDown": (*BufPane).SelectDown,
"SelectLeft": (*BufPane).SelectLeft,
"SelectRight": (*BufPane).SelectRight,
"WordRight": (*BufPane).WordRight,
"WordLeft": (*BufPane).WordLeft,
"SelectWordRight": (*BufPane).SelectWordRight,
"SelectWordLeft": (*BufPane).SelectWordLeft,
"DeleteWordRight": (*BufPane).DeleteWordRight,
"DeleteWordLeft": (*BufPane).DeleteWordLeft,
"SelectLine": (*BufPane).SelectLine,
"SelectToStartOfLine": (*BufPane).SelectToStartOfLine,
"SelectToEndOfLine": (*BufPane).SelectToEndOfLine,
"ParagraphPrevious": (*BufPane).ParagraphPrevious,
"ParagraphNext": (*BufPane).ParagraphNext,
"InsertNewline": (*BufPane).InsertNewline,
"Backspace": (*BufPane).Backspace,
"Delete": (*BufPane).Delete,
"InsertTab": (*BufPane).InsertTab,
"Save": (*BufPane).Save,
"SaveAll": (*BufPane).SaveAll,
"SaveAs": (*BufPane).SaveAs,
"Find": (*BufPane).Find,
"FindNext": (*BufPane).FindNext,
"FindPrevious": (*BufPane).FindPrevious,
"Center": (*BufPane).Center,
"Undo": (*BufPane).Undo,
"Redo": (*BufPane).Redo,
"Copy": (*BufPane).Copy,
"Cut": (*BufPane).Cut,
"CutLine": (*BufPane).CutLine,
"DuplicateLine": (*BufPane).DuplicateLine,
"DeleteLine": (*BufPane).DeleteLine,
"MoveLinesUp": (*BufPane).MoveLinesUp,
"MoveLinesDown": (*BufPane).MoveLinesDown,
"IndentSelection": (*BufPane).IndentSelection,
"OutdentSelection": (*BufPane).OutdentSelection,
"Autocomplete": (*BufPane).Autocomplete,
"OutdentLine": (*BufPane).OutdentLine,
"Paste": (*BufPane).Paste,
"PastePrimary": (*BufPane).PastePrimary,
"SelectAll": (*BufPane).SelectAll,
"OpenFile": (*BufPane).OpenFile,
"Start": (*BufPane).Start,
"End": (*BufPane).End,
"PageUp": (*BufPane).PageUp,
"PageDown": (*BufPane).PageDown,
"SelectPageUp": (*BufPane).SelectPageUp,
"SelectPageDown": (*BufPane).SelectPageDown,
"HalfPageUp": (*BufPane).HalfPageUp,
"HalfPageDown": (*BufPane).HalfPageDown,
"StartOfLine": (*BufPane).StartOfLine,
"EndOfLine": (*BufPane).EndOfLine,
"ToggleHelp": (*BufPane).ToggleHelp,
"ToggleKeyMenu": (*BufPane).ToggleKeyMenu,
"ToggleRuler": (*BufPane).ToggleRuler,
"ClearStatus": (*BufPane).ClearStatus,
"ShellMode": (*BufPane).ShellMode,
"CommandMode": (*BufPane).CommandMode,
"ToggleOverwriteMode": (*BufPane).ToggleOverwriteMode,
"Escape": (*BufPane).Escape,
"Quit": (*BufPane).Quit,
"QuitAll": (*BufPane).QuitAll,
"AddTab": (*BufPane).AddTab,
"PreviousTab": (*BufPane).PreviousTab,
"NextTab": (*BufPane).NextTab,
"NextSplit": (*BufPane).NextSplit,
"PreviousSplit": (*BufPane).PreviousSplit,
"Unsplit": (*BufPane).Unsplit,
"VSplit": (*BufPane).VSplitAction,
"HSplit": (*BufPane).HSplitAction,
"ToggleMacro": (*BufPane).ToggleMacro,
"PlayMacro": (*BufPane).PlayMacro,
"Suspend": (*BufPane).Suspend,
"ScrollUp": (*BufPane).ScrollUpAction,
"ScrollDown": (*BufPane).ScrollDownAction,
"SpawnMultiCursor": (*BufPane).SpawnMultiCursor,
"SpawnMultiCursorSelect": (*BufPane).SpawnMultiCursorSelect,
"RemoveMultiCursor": (*BufPane).RemoveMultiCursor,
"RemoveAllMultiCursors": (*BufPane).RemoveAllMultiCursors,
"SkipMultiCursor": (*BufPane).SkipMultiCursor,
"JumpToMatchingBrace": (*BufPane).JumpToMatchingBrace,
"None": (*BufPane).None,
// This was changed to InsertNewline but I don't want to break backwards compatibility
"InsertEnter": (*BufPane).InsertNewline,
}
// BufMouseActions contains the list of all possible mouse actions the bufhandler could execute
var BufMouseActions = map[string]BufMouseAction{
"MousePress": (*BufPane).MousePress,
"MouseMultiCursor": (*BufPane).MouseMultiCursor,
}
// MultiActions is a list of actions that should be executed multiple
// times if there are multiple cursors (one per cursor)
// Generally actions that modify global editor state like quitting or
// saving should not be included in this list
var MultiActions = map[string]bool{
"CursorUp": true,
"CursorDown": true,
"CursorPageUp": true,
"CursorPageDown": true,
"CursorLeft": true,
"CursorRight": true,
"CursorStart": true,
"CursorEnd": true,
"SelectToStart": true,
"SelectToEnd": true,
"SelectUp": true,
"SelectDown": true,
"SelectLeft": true,
"SelectRight": true,
"WordRight": true,
"WordLeft": true,
"SelectWordRight": true,
"SelectWordLeft": true,
"DeleteWordRight": true,
"DeleteWordLeft": true,
"SelectLine": true,
"SelectToStartOfLine": true,
"SelectToEndOfLine": true,
"ParagraphPrevious": true,
"ParagraphNext": true,
"InsertNewline": true,
"Backspace": true,
"Delete": true,
"InsertTab": true,
"FindNext": true,
"FindPrevious": true,
"Cut": true,
"CutLine": true,
"DuplicateLine": true,
"DeleteLine": true,
"MoveLinesUp": true,
"MoveLinesDown": true,
"IndentSelection": true,
"OutdentSelection": true,
"OutdentLine": true,
"Paste": true,
"PastePrimary": true,
"SelectPageUp": true,
"SelectPageDown": true,
"StartOfLine": true,
"EndOfLine": true,
"JumpToMatchingBrace": true,
}

967
internal/action/command.go
View File

@@ -1,967 +0,0 @@
package action
import (
"bytes"
"errors"
"fmt"
"os"
"os/exec"
"path/filepath"
"regexp"
"strconv"
"strings"
"unicode/utf8"
luar "layeh.com/gopher-luar"
lua "github.com/yuin/gopher-lua"
"github.com/zyedidia/micro/internal/buffer"
"github.com/zyedidia/micro/internal/config"
ulua "github.com/zyedidia/micro/internal/lua"
"github.com/zyedidia/micro/internal/screen"
"github.com/zyedidia/micro/internal/shell"
"github.com/zyedidia/micro/internal/util"
"github.com/zyedidia/micro/pkg/shellwords"
)
// A Command contains information about how to execute a command
// It has the action for that command as well as a completer function
type Command struct {
action func(*BufPane, []string)
completer buffer.Completer
}
var commands map[string]Command
func InitCommands() {
commands = map[string]Command{
"set": Command{(*BufPane).SetCmd, OptionValueComplete},
"reset": Command{(*BufPane).ResetCmd, OptionValueComplete},
"setlocal": Command{(*BufPane).SetLocalCmd, OptionValueComplete},
"show": Command{(*BufPane).ShowCmd, OptionComplete},
"showkey": Command{(*BufPane).ShowKeyCmd, nil},
"run": Command{(*BufPane).RunCmd, nil},
"bind": Command{(*BufPane).BindCmd, nil},
"unbind": Command{(*BufPane).UnbindCmd, nil},
"quit": Command{(*BufPane).QuitCmd, nil},
"goto": Command{(*BufPane).GotoCmd, nil},
"save": Command{(*BufPane).SaveCmd, nil},
"replace": Command{(*BufPane).ReplaceCmd, nil},
"replaceall": Command{(*BufPane).ReplaceAllCmd, nil},
"vsplit": Command{(*BufPane).VSplitCmd, buffer.FileComplete},
"hsplit": Command{(*BufPane).HSplitCmd, buffer.FileComplete},
"tab": Command{(*BufPane).NewTabCmd, buffer.FileComplete},
"help": Command{(*BufPane).HelpCmd, HelpComplete},
"eval": Command{(*BufPane).EvalCmd, nil},
"log": Command{(*BufPane).ToggleLogCmd, nil},
"plugin": Command{(*BufPane).PluginCmd, PluginComplete},
"reload": Command{(*BufPane).ReloadCmd, nil},
"reopen": Command{(*BufPane).ReopenCmd, nil},
"cd": Command{(*BufPane).CdCmd, buffer.FileComplete},
"pwd": Command{(*BufPane).PwdCmd, nil},
"open": Command{(*BufPane).OpenCmd, buffer.FileComplete},
"tabswitch": Command{(*BufPane).TabSwitchCmd, nil},
"term": Command{(*BufPane).TermCmd, nil},
"memusage": Command{(*BufPane).MemUsageCmd, nil},
"retab": Command{(*BufPane).RetabCmd, nil},
"raw": Command{(*BufPane).RawCmd, nil},
"textfilter": Command{(*BufPane).TextFilterCmd, nil},
}
}
// MakeCommand is a function to easily create new commands
// This can be called by plugins in Lua so that plugins can define their own commands
func LuaMakeCommand(name, function string, completer buffer.Completer) {
action := LuaFunctionCommand(function)
commands[name] = Command{action, completer}
}
// LuaFunctionCommand returns a normal function
// so that a command can be bound to a lua function
func LuaFunctionCommand(fn string) func(*BufPane, []string) {
luaFn := strings.Split(fn, ".")
if len(luaFn) <= 1 {
return nil
}
plName, plFn := luaFn[0], luaFn[1]
pl := config.FindPlugin(plName)
if pl == nil {
return nil
}
return func(bp *BufPane, args []string) {
luaArgs := []lua.LValue{luar.New(ulua.L, bp), luar.New(ulua.L, args)}
_, err := pl.Call(plFn, luaArgs...)
if err != nil {
screen.TermMessage(err)
}
}
}
// CommandEditAction returns a bindable function that opens a prompt with
// the given string and executes the command when the user presses
// enter
func CommandEditAction(prompt string) BufKeyAction {
return func(h *BufPane) bool {
InfoBar.Prompt("> ", prompt, "Command", nil, func(resp string, canceled bool) {
if !canceled {
MainTab().CurPane().HandleCommand(resp)
}
})
return false
}
}
// CommandAction returns a bindable function which executes the
// given command
func CommandAction(cmd string) BufKeyAction {
return func(h *BufPane) bool {
MainTab().CurPane().HandleCommand(cmd)
return false
}
}
var PluginCmds = []string{"list", "info", "version"}
// PluginCmd installs, removes, updates, lists, or searches for given plugins
func (h *BufPane) PluginCmd(args []string) {
if len(args) <= 0 {
InfoBar.Error("Not enough arguments, see 'help commands'")
return
}
valid := true
switch args[0] {
case "list":
for _, pl := range config.Plugins {
var en string
if pl.IsEnabled() {
en = "enabled"
} else {
en = "disabled"
}
WriteLog(fmt.Sprintf("%s: %s", pl.Name, en))
if pl.Default {
WriteLog(" (default)\n")
} else {
WriteLog("\n")
}
}
WriteLog("Default plugins come pre-installed with micro.")
case "version":
if len(args) <= 1 {
InfoBar.Error("No plugin provided to give info for")
return
}
found := false
for _, pl := range config.Plugins {
if pl.Name == args[1] {
found = true
if pl.Info == nil {
InfoBar.Message("Sorry no version for", pl.Name)
return
}
WriteLog("Version: " + pl.Info.Vstr + "\n")
}
}
if !found {
InfoBar.Message(args[1], "is not installed")
}
case "info":
if len(args) <= 1 {
InfoBar.Error("No plugin provided to give info for")
return
}
found := false
for _, pl := range config.Plugins {
if pl.Name == args[1] {
found = true
if pl.Info == nil {
InfoBar.Message("Sorry no info for ", pl.Name)
return
}
var buffer bytes.Buffer
buffer.WriteString("Name: ")
buffer.WriteString(pl.Info.Name)
buffer.WriteString("\n")
buffer.WriteString("Description: ")
buffer.WriteString(pl.Info.Desc)
buffer.WriteString("\n")
buffer.WriteString("Website: ")
buffer.WriteString(pl.Info.Site)
buffer.WriteString("\n")
buffer.WriteString("Installation link: ")
buffer.WriteString(pl.Info.Install)
buffer.WriteString("\n")
buffer.WriteString("Version: ")
buffer.WriteString(pl.Info.Vstr)
buffer.WriteString("\n")
buffer.WriteString("Requirements:")
buffer.WriteString("\n")
for _, r := range pl.Info.Require {
buffer.WriteString(" - ")
buffer.WriteString(r)
buffer.WriteString("\n")
}
WriteLog(buffer.String())
}
}
if !found {
InfoBar.Message(args[1], "is not installed")
return
}
default:
InfoBar.Error("Not a valid plugin command")
return
}
if valid && h.Buf.Type != buffer.BTLog {
OpenLogBuf(h)
}
}
// RetabCmd changes all spaces to tabs or all tabs to spaces
// depending on the user's settings
func (h *BufPane) RetabCmd(args []string) {
h.Buf.Retab()
}
// RawCmd opens a new raw view which displays the escape sequences micro
// is receiving in real-time
func (h *BufPane) RawCmd(args []string) {
width, height := screen.Screen.Size()
iOffset := config.GetInfoBarOffset()
tp := NewTabFromPane(0, 0, width, height-iOffset, NewRawPane())
Tabs.AddTab(tp)
Tabs.SetActive(len(Tabs.List) - 1)
}
// TextFilterCmd filters the selection through the command.
// Selection goes to the command input.
// On successfull run command output replaces the current selection.
func (h *BufPane) TextFilterCmd(args []string) {
if len(args) == 0 {
InfoBar.Error("usage: textfilter arguments")
return
}
sel := h.Cursor.GetSelection()
if len(sel) == 0 {
h.Cursor.SelectWord()
sel = h.Cursor.GetSelection()
}
var bout, berr bytes.Buffer
cmd := exec.Command(args[0], args[1:]...)
cmd.Stdin = strings.NewReader(string(sel))
cmd.Stderr = &berr
cmd.Stdout = &bout
err := cmd.Run()
if err != nil {
InfoBar.Error(err.Error() + " " + berr.String())
return
}
h.Cursor.DeleteSelection()
h.Buf.Insert(h.Cursor.Loc, bout.String())
}
// TabSwitchCmd switches to a given tab either by name or by number
func (h *BufPane) TabSwitchCmd(args []string) {
if len(args) > 0 {
num, err := strconv.Atoi(args[0])
if err != nil {
// Check for tab with this name
found := false
for i, t := range Tabs.List {
if t.Panes[t.active].Name() == args[0] {
Tabs.SetActive(i)
found = true
}
}
if !found {
InfoBar.Error("Could not find tab: ", err)
}
} else {
num--
if num >= 0 && num < len(Tabs.List) {
Tabs.SetActive(num)
} else {
InfoBar.Error("Invalid tab index")
}
}
}
}
// CdCmd changes the current working directory
func (h *BufPane) CdCmd(args []string) {
if len(args) > 0 {
path, err := util.ReplaceHome(args[0])
if err != nil {
InfoBar.Error(err)
return
}
err = os.Chdir(path)
if err != nil {
InfoBar.Error(err)
return
}
wd, _ := os.Getwd()
for _, b := range buffer.OpenBuffers {
if len(b.Path) > 0 {
b.Path, _ = util.MakeRelative(b.AbsPath, wd)
if p, _ := filepath.Abs(b.Path); !strings.Contains(p, wd) {
b.Path = b.AbsPath
}
}
}
}
}
// MemUsageCmd prints micro's memory usage
// Alloc shows how many bytes are currently in use
// Sys shows how many bytes have been requested from the operating system
// NumGC shows how many times the GC has been run
// Note that Go commonly reserves more memory from the OS than is currently in-use/required
// Additionally, even if Go returns memory to the OS, the OS does not always claim it because
// there may be plenty of memory to spare
func (h *BufPane) MemUsageCmd(args []string) {
InfoBar.Message(util.GetMemStats())
}
// PwdCmd prints the current working directory
func (h *BufPane) PwdCmd(args []string) {
wd, err := os.Getwd()
if err != nil {
InfoBar.Message(err.Error())
} else {
InfoBar.Message(wd)
}
}
// OpenCmd opens a new buffer with a given filename
func (h *BufPane) OpenCmd(args []string) {
if len(args) > 0 {
filename := args[0]
// the filename might or might not be quoted, so unquote first then join the strings.
args, err := shellwords.Split(filename)
if err != nil {
InfoBar.Error("Error parsing args ", err)
return
}
filename = strings.Join(args, " ")
open := func() {
b, err := buffer.NewBufferFromFile(filename, buffer.BTDefault)
if err != nil {
InfoBar.Error(err)
return
}
h.OpenBuffer(b)
}
if h.Buf.Modified() {
InfoBar.YNPrompt("Save changes to "+h.Buf.GetName()+" before closing? (y,n,esc)", func(yes, canceled bool) {
if !canceled && !yes {
open()
} else if !canceled && yes {
h.Save()
open()
}
})
} else {
open()
}
} else {
InfoBar.Error("No filename")
}
}
// ToggleLogCmd toggles the log view
func (h *BufPane) ToggleLogCmd(args []string) {
if h.Buf.Type != buffer.BTLog {
OpenLogBuf(h)
} else {
h.Quit()
}
}
// ReloadCmd reloads all files (syntax files, colorschemes...)
func (h *BufPane) ReloadCmd(args []string) {
ReloadConfig()
}
func ReloadConfig() {
config.InitRuntimeFiles()
err := config.ReadSettings()
if err != nil {
screen.TermMessage(err)
}
config.InitGlobalSettings()
InitBindings()
InitCommands()
err = config.InitColorscheme()
if err != nil {
screen.TermMessage(err)
}
for _, b := range buffer.OpenBuffers {
b.UpdateRules()
}
}
// ReopenCmd reopens the buffer (reload from disk)
func (h *BufPane) ReopenCmd(args []string) {
if h.Buf.Modified() {
InfoBar.YNPrompt("Save file before reopen?", func(yes, canceled bool) {
if !canceled && yes {
h.Save()
h.Buf.ReOpen()
} else if !canceled {
h.Buf.ReOpen()
}
})
} else {
h.Buf.ReOpen()
}
}
func (h *BufPane) openHelp(page string) error {
if data, err := config.FindRuntimeFile(config.RTHelp, page).Data(); err != nil {
return errors.New(fmt.Sprint("Unable to load help text", page, "\n", err))
} else {
helpBuffer := buffer.NewBufferFromString(string(data), page+".md", buffer.BTHelp)
helpBuffer.SetName("Help " + page)
if h.Buf.Type == buffer.BTHelp {
h.OpenBuffer(helpBuffer)
} else {
h.HSplitBuf(helpBuffer)
}
}
return nil
}
// HelpCmd tries to open the given help page in a horizontal split
func (h *BufPane) HelpCmd(args []string) {
if len(args) < 1 {
// Open the default help if the user just typed "> help"
h.openHelp("help")
} else {
if config.FindRuntimeFile(config.RTHelp, args[0]) != nil {
err := h.openHelp(args[0])
if err != nil {
InfoBar.Error(err)
}
} else {
InfoBar.Error("Sorry, no help for ", args[0])
}
}
}
// VSplitCmd opens a vertical split with file given in the first argument
// If no file is given, it opens an empty buffer in a new split
func (h *BufPane) VSplitCmd(args []string) {
if len(args) == 0 {
// Open an empty vertical split
h.VSplitAction()
return
}
buf, err := buffer.NewBufferFromFile(args[0], buffer.BTDefault)
if err != nil {
InfoBar.Error(err)
return
}
h.VSplitBuf(buf)
}
// HSplitCmd opens a horizontal split with file given in the first argument
// If no file is given, it opens an empty buffer in a new split
func (h *BufPane) HSplitCmd(args []string) {
if len(args) == 0 {
// Open an empty horizontal split
h.HSplitAction()
return
}
buf, err := buffer.NewBufferFromFile(args[0], buffer.BTDefault)
if err != nil {
InfoBar.Error(err)
return
}
h.HSplitBuf(buf)
}
// EvalCmd evaluates a lua expression
func (h *BufPane) EvalCmd(args []string) {
}
// NewTabCmd opens the given file in a new tab
func (h *BufPane) NewTabCmd(args []string) {
width, height := screen.Screen.Size()
iOffset := config.GetInfoBarOffset()
if len(args) > 0 {
for _, a := range args {
b, err := buffer.NewBufferFromFile(a, buffer.BTDefault)
if err != nil {
InfoBar.Error(err)
return
}
tp := NewTabFromBuffer(0, 0, width, height-1-iOffset, b)
Tabs.AddTab(tp)
Tabs.SetActive(len(Tabs.List) - 1)
}
} else {
b := buffer.NewBufferFromString("", "", buffer.BTDefault)
tp := NewTabFromBuffer(0, 0, width, height-iOffset, b)
Tabs.AddTab(tp)
Tabs.SetActive(len(Tabs.List) - 1)
}
}
func SetGlobalOptionNative(option string, nativeValue interface{}) error {
config.GlobalSettings[option] = nativeValue
if option == "colorscheme" {
// LoadSyntaxFiles()
config.InitColorscheme()
for _, b := range buffer.OpenBuffers {
b.UpdateRules()
}
} else if option == "infobar" || option == "keymenu" {
Tabs.Resize()
} else if option == "mouse" {
if !nativeValue.(bool) {
screen.Screen.DisableMouse()
} else {
screen.Screen.EnableMouse()
}
} else if option == "autosave" {
if nativeValue.(float64) > 0 {
config.SetAutoTime(int(nativeValue.(float64)))
config.StartAutoSave()
} else {
config.SetAutoTime(0)
}
} else {
for _, pl := range config.Plugins {
if option == pl.Name {
if nativeValue.(bool) && !pl.Loaded {
pl.Load()
pl.Call("init")
} else if !nativeValue.(bool) && pl.Loaded {
pl.Call("deinit")
}
}
}
}
for _, b := range buffer.OpenBuffers {
b.SetOptionNative(option, nativeValue)
}
return config.WriteSettings(config.ConfigDir + "/settings.json")
}
func SetGlobalOption(option, value string) error {
if _, ok := config.GlobalSettings[option]; !ok {
return config.ErrInvalidOption
}
nativeValue, err := config.GetNativeValue(option, config.GlobalSettings[option], value)
if err != nil {
return err
}
return SetGlobalOptionNative(option, nativeValue)
}
// ResetCmd resets a setting to its default value
func (h *BufPane) ResetCmd(args []string) {
if len(args) < 1 {
InfoBar.Error("Not enough arguments")
return
}
option := args[0]
defaultGlobals := config.DefaultGlobalSettings()
defaultLocals := config.DefaultCommonSettings()
if _, ok := defaultGlobals[option]; ok {
SetGlobalOptionNative(option, defaultGlobals[option])
return
}
if _, ok := defaultLocals[option]; ok {
h.Buf.SetOptionNative(option, defaultLocals[option])
return
}
InfoBar.Error(config.ErrInvalidOption)
}
// SetCmd sets an option
func (h *BufPane) SetCmd(args []string) {
if len(args) < 2 {
InfoBar.Error("Not enough arguments")
return
}
option := args[0]
value := args[1]
err := SetGlobalOption(option, value)
if err == config.ErrInvalidOption {
err := h.Buf.SetOption(option, value)
if err != nil {
InfoBar.Error(err)
}
} else if err != nil {
InfoBar.Error(err)
}
}
// SetLocalCmd sets an option local to the buffer
func (h *BufPane) SetLocalCmd(args []string) {
if len(args) < 2 {
InfoBar.Error("Not enough arguments")
return
}
option := args[0]
value := args[1]
err := h.Buf.SetOption(option, value)
if err != nil {
InfoBar.Error(err)
}
}
// ShowCmd shows the value of the given option
func (h *BufPane) ShowCmd(args []string) {
if len(args) < 1 {
InfoBar.Error("Please provide an option to show")
return
}
var option interface{}
if opt, ok := h.Buf.Settings[args[0]]; ok {
option = opt
} else if opt, ok := config.GlobalSettings[args[0]]; ok {
option = opt
}
if option == nil {
InfoBar.Error(args[0], " is not a valid option")
return
}
InfoBar.Message(option)
}
// ShowKeyCmd displays the action that a key is bound to
func (h *BufPane) ShowKeyCmd(args []string) {
if len(args) < 1 {
InfoBar.Error("Please provide a key to show")
return
}
if action, ok := config.Bindings[args[0]]; ok {
InfoBar.Message(action)
} else {
InfoBar.Message(args[0], " has no binding")
}
}
// BindCmd creates a new keybinding
func (h *BufPane) BindCmd(args []string) {
if len(args) < 2 {
InfoBar.Error("Not enough arguments")
return
}
_, err := TryBindKey(args[0], args[1], true)
if err != nil {
InfoBar.Error(err)
}
}
// UnbindCmd binds a key to its default action
func (h *BufPane) UnbindCmd(args []string) {
if len(args) < 1 {
InfoBar.Error("Not enough arguements")
return
}
err := UnbindKey(args[0])
if err != nil {
InfoBar.Error(err)
}
}
// RunCmd runs a shell command in the background
func (h *BufPane) RunCmd(args []string) {
runf, err := shell.RunBackgroundShell(shellwords.Join(args...))
if err != nil {
InfoBar.Error(err)
} else {
go func() {
InfoBar.Message(runf())
screen.Redraw()
}()
}
}
// QuitCmd closes the main view
func (h *BufPane) QuitCmd(args []string) {
h.Quit()
}
// GotoCmd is a command that will send the cursor to a certain
// position in the buffer
// For example: `goto line`, or `goto line:col`
func (h *BufPane) GotoCmd(args []string) {
if len(args) <= 0 {
InfoBar.Error("Not enough arguments")
} else {
h.RemoveAllMultiCursors()
if strings.Contains(args[0], ":") {
parts := strings.SplitN(args[0], ":", 2)
line, err := strconv.Atoi(parts[0])
if err != nil {
InfoBar.Error(err)
return
}
col, err := strconv.Atoi(parts[1])
if err != nil {
InfoBar.Error(err)
return
}
line = util.Clamp(line-1, 0, h.Buf.LinesNum()-1)
col = util.Clamp(col-1, 0, utf8.RuneCount(h.Buf.LineBytes(line)))
h.Cursor.GotoLoc(buffer.Loc{col, line})
} else {
line, err := strconv.Atoi(args[0])
if err != nil {
InfoBar.Error(err)
return
}
line = util.Clamp(line-1, 0, h.Buf.LinesNum()-1)
h.Cursor.GotoLoc(buffer.Loc{0, line})
}
h.Relocate()
}
}
// SaveCmd saves the buffer optionally with an argument file name
func (h *BufPane) SaveCmd(args []string) {
if len(args) == 0 {
h.Save()
} else {
h.Buf.SaveAs(args[0])
}
}
// ReplaceCmd runs search and replace
func (h *BufPane) ReplaceCmd(args []string) {
if len(args) < 2 || len(args) > 4 {
// We need to find both a search and replace expression
InfoBar.Error("Invalid replace statement: " + strings.Join(args, " "))
return
}
all := false
noRegex := false
foundSearch := false
foundReplace := false
var search string
var replaceStr string
for _, arg := range args {
switch arg {
case "-a":
all = true
case "-l":
noRegex = true
default:
if !foundSearch {
foundSearch = true
search = arg
} else if !foundReplace {
foundReplace = true
replaceStr = arg
} else {
InfoBar.Error("Invalid flag: " + arg)
return
}
}
}
if noRegex {
search = regexp.QuoteMeta(search)
}
replace := []byte(replaceStr)
var regex *regexp.Regexp
var err error
if h.Buf.Settings["ignorecase"].(bool) {
regex, err = regexp.Compile("(?im)" + search)
} else {
regex, err = regexp.Compile("(?m)" + search)
}
if err != nil {
// There was an error with the user's regex
InfoBar.Error(err)
return
}
nreplaced := 0
start := h.Buf.Start()
end := h.Buf.End()
if h.Cursor.HasSelection() {
start = h.Cursor.CurSelection[0]
end = h.Cursor.CurSelection[1]
}
if all {
nreplaced = h.Buf.ReplaceRegex(start, end, regex, replace)
} else {
inRange := func(l buffer.Loc) bool {
return l.GreaterEqual(start) && l.LessThan(end)
}
searchLoc := start
searching := true
var doReplacement func()
doReplacement = func() {
locs, found, err := h.Buf.FindNext(search, start, end, searchLoc, true, !noRegex)
if err != nil {
InfoBar.Error(err)
return
}
if !found || !inRange(locs[0]) || !inRange(locs[1]) {
h.Cursor.ResetSelection()
h.Buf.RelocateCursors()
return
}
h.Cursor.SetSelectionStart(locs[0])
h.Cursor.SetSelectionEnd(locs[1])
InfoBar.YNPrompt("Perform replacement (y,n,esc)", func(yes, canceled bool) {
if !canceled && yes {
h.Buf.Replace(locs[0], locs[1], replaceStr)
searchLoc = locs[0]
searchLoc.X += utf8.RuneCount(replace)
h.Cursor.Loc = searchLoc
nreplaced++
} else if !canceled && !yes {
searchLoc = locs[0]
searchLoc.X += utf8.RuneCount(replace)
} else if canceled {
h.Cursor.ResetSelection()
h.Buf.RelocateCursors()
return
}
if searching {
doReplacement()
}
})
}
doReplacement()
}
h.Buf.RelocateCursors()
if nreplaced > 1 {
InfoBar.Message("Replaced ", nreplaced, " occurrences of ", search)
} else if nreplaced == 1 {
InfoBar.Message("Replaced ", nreplaced, " occurrence of ", search)
} else {
InfoBar.Message("Nothing matched ", search)
}
}
// ReplaceAllCmd replaces search term all at once
func (h *BufPane) ReplaceAllCmd(args []string) {
// aliased to Replace command
h.ReplaceCmd(append(args, "-a"))
}
// TermCmd opens a terminal in the current view
func (h *BufPane) TermCmd(args []string) {
ps := MainTab().Panes
if len(args) == 0 {
sh := os.Getenv("SHELL")
if sh == "" {
InfoBar.Error("Shell environment not found")
return
}
args = []string{sh}
}
term := func(i int, newtab bool) {
t := new(shell.Terminal)
t.Start(args, false, true, "", nil)
id := h.ID()
if newtab {
h.AddTab()
i = 0
id = MainTab().Panes[0].ID()
} else {
MainTab().Panes[i].Close()
}
v := h.GetView()
MainTab().Panes[i] = NewTermPane(v.X, v.Y, v.Width, v.Height, t, id)
MainTab().SetActive(i)
}
// If there is only one open file we make a new tab instead of overwriting it
newtab := len(MainTab().Panes) == 1 && len(Tabs.List) == 1
if newtab {
term(0, true)
return
}
for i, p := range ps {
if p.ID() == h.ID() {
if h.Buf.Modified() {
InfoBar.YNPrompt("Save changes to "+h.Buf.GetName()+" before closing? (y,n,esc)", func(yes, canceled bool) {
if !canceled && !yes {
term(i, false)
} else if !canceled && yes {
h.Save()
term(i, false)
}
})
} else {
term(i, false)
}
}
}
}
// HandleCommand handles input from the user
func (h *BufPane) HandleCommand(input string) {
args, err := shellwords.Split(input)
if err != nil {
InfoBar.Error("Error parsing args ", err)
return
}
inputCmd := args[0]
if _, ok := commands[inputCmd]; !ok {
InfoBar.Error("Unknown command ", inputCmd)
} else {
WriteLog("> " + input + "\n")
commands[inputCmd].action(h, args[1:])
WriteLog("\n")
}
}

42
internal/action/events.go
View File

@@ -1,42 +0,0 @@
package action
import (
"github.com/zyedidia/tcell"
)
type Event interface{}
// RawEvent is simply an escape code
// We allow users to directly bind escape codes
// to get around some of a limitations of terminals
type RawEvent struct {
esc string
}
// KeyEvent is a key event containing a key code,
// some possible modifiers (alt, ctrl, etc...) and
// a rune if it was simply a character press
// Note: to be compatible with tcell events,
// for ctrl keys r=code
type KeyEvent struct {
code tcell.Key
mod tcell.ModMask
r rune
}
// MouseEvent is a mouse event with a mouse button and
// any possible key modifiers
type MouseEvent struct {
btn tcell.ButtonMask
mod tcell.ModMask
}
type KeyAction func(Handler) bool
type MouseAction func(Handler, tcell.EventMouse) bool
// A Handler will take a tcell event and execute it
// appropriately
type Handler interface {
HandleEvent(tcell.Event)
HandleCommand(string)
}

42
internal/action/globals.go
View File

@@ -1,42 +0,0 @@
package action
import "github.com/zyedidia/micro/internal/buffer"
var InfoBar *InfoPane
var LogBufPane *BufPane
func InitGlobals() {
InfoBar = NewInfoBar()
buffer.LogBuf = buffer.NewBufferFromString("", "Log", buffer.BTLog)
}
func GetInfoBar() *InfoPane {
return InfoBar
}
func WriteLog(s string) {
buffer.WriteLog(s)
if LogBufPane != nil {
LogBufPane.CursorEnd()
v := LogBufPane.GetView()
endY := buffer.LogBuf.End().Y
if endY > v.StartLine+v.Height {
v.StartLine = buffer.LogBuf.End().Y - v.Height + 2
LogBufPane.SetView(v)
}
}
}
func OpenLogBuf(h *BufPane) {
LogBufPane = h.HSplitBuf(buffer.LogBuf)
LogBufPane.CursorEnd()
v := LogBufPane.GetView()
endY := buffer.LogBuf.End().Y
if endY > v.StartLine+v.Height {
v.StartLine = buffer.LogBuf.End().Y - v.Height + 2
LogBufPane.SetView(v)
}
}

303
internal/action/infocomplete.go
View File

@@ -1,303 +0,0 @@
package action
import (
"bytes"
"sort"
"strings"
"github.com/zyedidia/micro/internal/buffer"
"github.com/zyedidia/micro/internal/config"
"github.com/zyedidia/micro/internal/util"
)
// This file is meant (for now) for autocompletion in command mode, not
// while coding. This helps micro autocomplete commands and then filenames
// for example with `vsplit filename`.
// CommandComplete autocompletes commands
func CommandComplete(b *buffer.Buffer) ([]string, []string) {
c := b.GetActiveCursor()
input, argstart := buffer.GetArg(b)
var suggestions []string
for cmd := range commands {
if strings.HasPrefix(cmd, input) {
suggestions = append(suggestions, cmd)
}
}
sort.Strings(suggestions)
completions := make([]string, len(suggestions))
for i := range suggestions {
completions[i] = util.SliceEndStr(suggestions[i], c.X-argstart)
}
return completions, suggestions
}
// HelpComplete autocompletes help topics
func HelpComplete(b *buffer.Buffer) ([]string, []string) {
c := b.GetActiveCursor()
input, argstart := buffer.GetArg(b)
var suggestions []string
for _, file := range config.ListRuntimeFiles(config.RTHelp) {
topic := file.Name()
if strings.HasPrefix(topic, input) {
suggestions = append(suggestions, topic)
}
}
sort.Strings(suggestions)
completions := make([]string, len(suggestions))
for i := range suggestions {
completions[i] = util.SliceEndStr(suggestions[i], c.X-argstart)
}
return completions, suggestions
}
// colorschemeComplete tab-completes names of colorschemes.
// This is just a heper value for OptionValueComplete
func colorschemeComplete(input string) (string, []string) {
var suggestions []string
files := config.ListRuntimeFiles(config.RTColorscheme)
for _, f := range files {
if strings.HasPrefix(f.Name(), input) {
suggestions = append(suggestions, f.Name())
}
}
var chosen string
if len(suggestions) == 1 {
chosen = suggestions[0]
}
return chosen, suggestions
}
func contains(s []string, e string) bool {
for _, a := range s {
if a == e {
return true
}
}
return false
}
// OptionComplete autocompletes options
func OptionComplete(b *buffer.Buffer) ([]string, []string) {
c := b.GetActiveCursor()
input, argstart := buffer.GetArg(b)
var suggestions []string
for option := range config.GlobalSettings {
if strings.HasPrefix(option, input) {
suggestions = append(suggestions, option)
}
}
// for option := range localSettings {
// if strings.HasPrefix(option, input) && !contains(suggestions, option) {
// suggestions = append(suggestions, option)
// }
// }
sort.Strings(suggestions)
completions := make([]string, len(suggestions))
for i := range suggestions {
completions[i] = util.SliceEndStr(suggestions[i], c.X-argstart)
}
return completions, suggestions
}
// OptionValueComplete completes values for various options
func OptionValueComplete(b *buffer.Buffer) ([]string, []string) {
c := b.GetActiveCursor()
l := b.LineBytes(c.Y)
l = util.SliceStart(l, c.X)
input, argstart := buffer.GetArg(b)
completeValue := false
args := bytes.Split(l, []byte{' '})
if len(args) >= 2 {
// localSettings := config.DefaultLocalSettings()
for option := range config.GlobalSettings {
if option == string(args[len(args)-2]) {
completeValue = true
break
}
}
// for option := range localSettings {
// if option == string(args[len(args)-2]) {
// completeValue = true
// break
// }
// }
}
if !completeValue {
return OptionComplete(b)
}
inputOpt := string(args[len(args)-2])
inputOpt = strings.TrimSpace(inputOpt)
var suggestions []string
// localSettings := config.DefaultLocalSettings()
var optionVal interface{}
for k, option := range config.GlobalSettings {
if k == inputOpt {
optionVal = option
}
}
// for k, option := range localSettings {
// if k == inputOpt {
// optionVal = option
// }
// }
switch optionVal.(type) {
case bool:
if strings.HasPrefix("on", input) {
suggestions = append(suggestions, "on")
} else if strings.HasPrefix("true", input) {
suggestions = append(suggestions, "true")
}
if strings.HasPrefix("off", input) {
suggestions = append(suggestions, "off")
} else if strings.HasPrefix("false", input) {
suggestions = append(suggestions, "false")
}
case string:
switch inputOpt {
case "colorscheme":
_, suggestions = colorschemeComplete(input)
case "fileformat":
if strings.HasPrefix("unix", input) {
suggestions = append(suggestions, "unix")
}
if strings.HasPrefix("dos", input) {
suggestions = append(suggestions, "dos")
}
case "sucmd":
if strings.HasPrefix("sudo", input) {
suggestions = append(suggestions, "sudo")
}
if strings.HasPrefix("doas", input) {
suggestions = append(suggestions, "doas")
}
}
}
sort.Strings(suggestions)
completions := make([]string, len(suggestions))
for i := range suggestions {
completions[i] = util.SliceEndStr(suggestions[i], c.X-argstart)
}
return completions, suggestions
}
// OptionComplete autocompletes options
func PluginCmdComplete(b *buffer.Buffer) ([]string, []string) {
c := b.GetActiveCursor()
input, argstart := buffer.GetArg(b)
var suggestions []string
for _, cmd := range PluginCmds {
if strings.HasPrefix(cmd, input) {
suggestions = append(suggestions, cmd)
}
}
sort.Strings(suggestions)
completions := make([]string, len(suggestions))
for i := range suggestions {
completions[i] = util.SliceEndStr(suggestions[i], c.X-argstart)
}
return completions, suggestions
}
// PluginComplete completes values for the plugin command
func PluginComplete(b *buffer.Buffer) ([]string, []string) {
c := b.GetActiveCursor()
l := b.LineBytes(c.Y)
l = util.SliceStart(l, c.X)
input, argstart := buffer.GetArg(b)
completeValue := false
args := bytes.Split(l, []byte{' '})
if len(args) >= 2 {
for _, cmd := range PluginCmds {
if cmd == string(args[len(args)-2]) {
completeValue = true
break
}
}
}
if !completeValue {
return PluginCmdComplete(b)
}
var suggestions []string
for _, pl := range config.Plugins {
if strings.HasPrefix(pl.Name, input) {
suggestions = append(suggestions, pl.Name)
}
}
sort.Strings(suggestions)
completions := make([]string, len(suggestions))
for i := range suggestions {
completions[i] = util.SliceEndStr(suggestions[i], c.X-argstart)
}
return completions, suggestions
}
// // MakeCompletion registers a function from a plugin for autocomplete commands
// func MakeCompletion(function string) Completion {
// pluginCompletions = append(pluginCompletions, LuaFunctionComplete(function))
// return Completion(-len(pluginCompletions))
// }
//
// // PluginComplete autocompletes from plugin function
// func PluginComplete(complete Completion, input string) (chosen string, suggestions []string) {
// idx := int(-complete) - 1
//
// if len(pluginCompletions) <= idx {
// return "", nil
// }
// suggestions = pluginCompletions[idx](input)
//
// if len(suggestions) == 1 {
// chosen = suggestions[0]
// }
// return
// }
//
// // PluginCmdComplete completes with possible choices for the `> plugin` command
// func PluginCmdComplete(input string) (chosen string, suggestions []string) {
// for _, cmd := range []string{"install", "remove", "search", "update", "list"} {
// if strings.HasPrefix(cmd, input) {
// suggestions = append(suggestions, cmd)
// }
// }
//
// if len(suggestions) == 1 {
// chosen = suggestions[0]
// }
// return chosen, suggestions
// }
//
// // PluginnameComplete completes with the names of loaded plugins
// func PluginNameComplete(input string) (chosen string, suggestions []string) {
// for _, pp := range GetAllPluginPackages() {
// if strings.HasPrefix(pp.Name, input) {
// suggestions = append(suggestions, pp.Name)
// }
// }
//
// if len(suggestions) == 1 {
// chosen = suggestions[0]
// }
// return chosen, suggestions
// }

226
internal/action/infopane.go
View File

@@ -1,226 +0,0 @@
package action
import (
"bytes"
"strings"
"github.com/zyedidia/micro/internal/display"
"github.com/zyedidia/micro/internal/info"
"github.com/zyedidia/micro/internal/util"
"github.com/zyedidia/tcell"
)
type InfoKeyAction func(*InfoPane)
type InfoPane struct {
*BufPane
*info.InfoBuf
}
func NewInfoPane(ib *info.InfoBuf, w display.BWindow) *InfoPane {
ip := new(InfoPane)
ip.InfoBuf = ib
ip.BufPane = NewBufPane(ib.Buffer, w)
return ip
}
func NewInfoBar() *InfoPane {
ib := info.NewBuffer()
w := display.NewInfoWindow(ib)
return NewInfoPane(ib, w)
}
func (h *InfoPane) Close() {
h.InfoBuf.Close()
h.BufPane.Close()
}
func (h *InfoPane) HandleEvent(event tcell.Event) {
switch e := event.(type) {
case *tcell.EventKey:
ke := KeyEvent{
code: e.Key(),
mod: e.Modifiers(),
r: e.Rune(),
}
done := h.DoKeyEvent(ke)
hasYN := h.HasYN
if e.Key() == tcell.KeyRune && hasYN {
if e.Rune() == 'y' && hasYN {
h.YNResp = true
h.DonePrompt(false)
} else if e.Rune() == 'n' && hasYN {
h.YNResp = false
h.DonePrompt(false)
}
}
if e.Key() == tcell.KeyRune && !done && !hasYN {
h.DoRuneInsert(e.Rune())
done = true
}
if done && h.HasPrompt && !hasYN {
resp := string(h.LineBytes(0))
hist := h.History[h.PromptType]
hist[h.HistoryNum] = resp
if h.EventCallback != nil {
h.EventCallback(resp)
}
}
case *tcell.EventMouse:
h.BufPane.HandleEvent(event)
}
}
func (h *InfoPane) DoKeyEvent(e KeyEvent) bool {
done := false
if action, ok := BufKeyBindings[e]; ok {
estr := BufKeyStrings[e]
for _, s := range InfoNones {
if s == estr {
return false
}
}
for s, a := range InfoOverrides {
// TODO this is a hack and really we should have support
// for having binding overrides for different buffers
if strings.Contains(estr, s) {
done = true
a(h)
break
}
}
if !done {
done = action(h.BufPane)
}
}
return done
}
// InfoNones is a list of actions that should have no effect when executed
// by an infohandler
var InfoNones = []string{
"Save",
"SaveAll",
"SaveAs",
"Find",
"FindNext",
"FindPrevious",
"Center",
"DuplicateLine",
"MoveLinesUp",
"MoveLinesDown",
"OpenFile",
"Start",
"End",
"PageUp",
"PageDown",
"SelectPageUp",
"SelectPageDown",
"HalfPageUp",
"HalfPageDown",
"ToggleHelp",
"ToggleKeyMenu",
"ToggleRuler",
"JumpLine",
"ClearStatus",
"ShellMode",
"CommandMode",
"AddTab",
"PreviousTab",
"NextTab",
"NextSplit",
"PreviousSplit",
"Unsplit",
"VSplit",
"HSplit",
"ToggleMacro",
"PlayMacro",
"Suspend",
"ScrollUp",
"ScrollDown",
"SpawnMultiCursor",
"SpawnMultiCursorSelect",
"RemoveMultiCursor",
"RemoveAllMultiCursors",
"SkipMultiCursor",
}
// InfoOverrides is the list of actions which have been overriden
// by the infohandler
var InfoOverrides = map[string]InfoKeyAction{
"CursorUp": (*InfoPane).CursorUp,
"CursorDown": (*InfoPane).CursorDown,
"InsertNewline": (*InfoPane).InsertNewline,
"Autocomplete": (*InfoPane).Autocomplete,
"OutdentLine": (*InfoPane).CycleBack,
"Escape": (*InfoPane).Escape,
"Quit": (*InfoPane).Quit,
"QuitAll": (*InfoPane).QuitAll,
}
// CursorUp cycles history up
func (h *InfoPane) CursorUp() {
h.UpHistory(h.History[h.PromptType])
}
// CursorDown cycles history down
func (h *InfoPane) CursorDown() {
h.DownHistory(h.History[h.PromptType])
}
// Autocomplete begins autocompletion
func (h *InfoPane) Autocomplete() {
b := h.Buf
if b.HasSuggestions {
b.CycleAutocomplete(true)
return
}
c := b.GetActiveCursor()
l := b.LineBytes(0)
l = util.SliceStart(l, c.X)
args := bytes.Split(l, []byte{' '})
cmd := string(args[0])
if len(args) == 1 {
b.Autocomplete(CommandComplete)
} else {
if action, ok := commands[cmd]; ok {
if action.completer != nil {
b.Autocomplete(action.completer)
}
}
}
}
// CycleBack cycles back in the autocomplete suggestion list
func (h *InfoPane) CycleBack() {
if h.Buf.HasSuggestions {
h.Buf.CycleAutocomplete(false)
}
}
// InsertNewline completes the prompt
func (h *InfoPane) InsertNewline() {
if !h.HasYN {
h.DonePrompt(false)
}
}
// Quit cancels the prompt
func (h *InfoPane) Quit() {
h.DonePrompt(true)
}
// QuitAll cancels the prompt
func (h *InfoPane) QuitAll() {
h.DonePrompt(true)
}
// Escape cancels the prompt
func (h *InfoPane) Escape() {
h.DonePrompt(true)
}

14
internal/action/pane.go
View File

@@ -1,14 +0,0 @@
package action
import (
"github.com/zyedidia/micro/internal/display"
)
type Pane interface {
Handler
display.Window
ID() uint64
SetID(i uint64)
Name() string
Close()
}

40
internal/action/rawpane.go
View File

@@ -1,40 +0,0 @@
package action
import (
"fmt"
"reflect"
"github.com/zyedidia/micro/internal/buffer"
"github.com/zyedidia/micro/internal/display"
"github.com/zyedidia/tcell"
)
type RawPane struct {
*BufPane
}
func NewRawPaneFromWin(b *buffer.Buffer, win display.BWindow) *RawPane {
rh := new(RawPane)
rh.BufPane = NewBufPane(b, win)
return rh
}
func NewRawPane() *RawPane {
b := buffer.NewBufferFromString("", "", buffer.BTRaw)
w := display.NewBufWindow(0, 0, 0, 0, b)
return NewRawPaneFromWin(b, w)
}
func (h *RawPane) HandleEvent(event tcell.Event) {
switch e := event.(type) {
case *tcell.EventKey:
if e.Key() == tcell.KeyCtrlQ {
h.Quit()
}
}
h.Buf.Insert(h.Cursor.Loc, reflect.TypeOf(event).String()[7:])
h.Buf.Insert(h.Cursor.Loc, fmt.Sprintf(": %q\n", event.EscSeq()))
h.Relocate()
}

282
internal/action/tab.go
View File

@@ -1,282 +0,0 @@
package action
import (
"github.com/zyedidia/micro/internal/buffer"
"github.com/zyedidia/micro/internal/config"
"github.com/zyedidia/micro/internal/display"
"github.com/zyedidia/micro/internal/screen"
"github.com/zyedidia/micro/internal/views"
"github.com/zyedidia/tcell"
)
// The TabList is a list of tabs and a window to display the tab bar
// at the top of the screen
type TabList struct {
*display.TabWindow
List []*Tab
}
// NewTabList creates a TabList from a list of buffers by creating a Tab
// for each buffer
func NewTabList(bufs []*buffer.Buffer) *TabList {
w, h := screen.Screen.Size()
iOffset := config.GetInfoBarOffset()
tl := new(TabList)
tl.List = make([]*Tab, len(bufs))
if len(bufs) > 1 {
for i, b := range bufs {
tl.List[i] = NewTabFromBuffer(0, 1, w, h-1-iOffset, b)
}
} else {
tl.List[0] = NewTabFromBuffer(0, 0, w, h-iOffset, bufs[0])
}
tl.TabWindow = display.NewTabWindow(w, 0)
tl.Names = make([]string, len(bufs))
return tl
}
// UpdateNames makes sure that the list of names the tab window has access to is
// correct
func (t *TabList) UpdateNames() {
t.Names = t.Names[:0]
for _, p := range t.List {
t.Names = append(t.Names, p.Panes[p.active].Name())
}
}
// AddTab adds a new tab to this TabList
func (t *TabList) AddTab(p *Tab) {
t.List = append(t.List, p)
t.Resize()
t.UpdateNames()
}
// RemoveTab removes a tab with the given id from the TabList
func (t *TabList) RemoveTab(id uint64) {
for i, p := range t.List {
if len(p.Panes) == 0 {
continue
}
if p.Panes[0].ID() == id {
copy(t.List[i:], t.List[i+1:])
t.List[len(t.List)-1] = nil
t.List = t.List[:len(t.List)-1]
if t.Active() >= len(t.List) {
t.SetActive(len(t.List) - 1)
}
t.Resize()
t.UpdateNames()
return
}
}
}
// Resize resizes all elements within the tab list
// One thing to note is that when there is only 1 tab
// the tab bar should not be drawn so resizing must take
// that into account
func (t *TabList) Resize() {
w, h := screen.Screen.Size()
iOffset := config.GetInfoBarOffset()
InfoBar.Resize(w, h-1)
if len(t.List) > 1 {
for _, p := range t.List {
p.Y = 1
p.Node.Resize(w, h-1-iOffset)
p.Resize()
}
} else if len(t.List) == 1 {
t.List[0].Y = 0
t.List[0].Node.Resize(w, h-iOffset)
t.List[0].Resize()
}
}
// HandleEvent checks for a resize event or a mouse event on the tab bar
// otherwise it will forward the event to the currently active tab
func (t *TabList) HandleEvent(event tcell.Event) {
switch e := event.(type) {
case *tcell.EventResize:
t.Resize()
case *tcell.EventMouse:
mx, my := e.Position()
switch e.Buttons() {
case tcell.Button1:
ind := t.LocFromVisual(buffer.Loc{mx, my})
if ind != -1 {
t.SetActive(ind)
}
case tcell.WheelUp:
if my == t.Y {
t.Scroll(4)
return
}
case tcell.WheelDown:
if my == t.Y {
t.Scroll(-4)
return
}
}
}
t.List[t.Active()].HandleEvent(event)
}
// Display updates the names and then displays the tab bar
func (t *TabList) Display() {
t.UpdateNames()
if len(t.List) > 1 {
t.TabWindow.Display()
}
}
// Tabs is the global tab list
var Tabs *TabList
func InitTabs(bufs []*buffer.Buffer) {
Tabs = NewTabList(bufs)
}
func MainTab() *Tab {
return Tabs.List[Tabs.Active()]
}
// A Tab represents a single tab
// It consists of a list of edit panes (the open buffers),
// a split tree (stored as just the root node), and a uiwindow
// to display the UI elements like the borders between splits
type Tab struct {
*views.Node
*display.UIWindow
Panes []Pane
active int
resizing *views.Node // node currently being resized
}
// NewTabFromBuffer creates a new tab from the given buffer
func NewTabFromBuffer(x, y, width, height int, b *buffer.Buffer) *Tab {
t := new(Tab)
t.Node = views.NewRoot(x, y, width, height)
t.UIWindow = display.NewUIWindow(t.Node)
e := NewBufPaneFromBuf(b)
e.SetID(t.ID())
t.Panes = append(t.Panes, e)
return t
}
func NewTabFromPane(x, y, width, height int, pane Pane) *Tab {
t := new(Tab)
t.Node = views.NewRoot(x, y, width, height)
t.UIWindow = display.NewUIWindow(t.Node)
pane.SetID(t.ID())
t.Panes = append(t.Panes, pane)
return t
}
// HandleEvent takes a tcell event and usually dispatches it to the current
// active pane. However if the event is a resize or a mouse event where the user
// is interacting with the UI (resizing splits) then the event is consumed here
// If the event is a mouse event in a pane, that pane will become active and get
// the event
func (t *Tab) HandleEvent(event tcell.Event) {
switch e := event.(type) {
case *tcell.EventMouse:
mx, my := e.Position()
switch e.Buttons() {
case tcell.Button1:
resizeID := t.GetMouseSplitID(buffer.Loc{mx, my})
if t.resizing != nil {
var size int
if t.resizing.Kind == views.STVert {
size = mx - t.resizing.X
} else {
size = my - t.resizing.Y + 1
}
t.resizing.ResizeSplit(size)
t.Resize()
return
}
if resizeID != 0 {
t.resizing = t.GetNode(uint64(resizeID))
return
}
for i, p := range t.Panes {
v := p.GetView()
inpane := mx >= v.X && mx < v.X+v.Width && my >= v.Y && my < v.Y+v.Height
if inpane {
t.SetActive(i)
break
}
}
case tcell.ButtonNone:
t.resizing = nil
default:
for _, p := range t.Panes {
v := p.GetView()
inpane := mx >= v.X && mx < v.X+v.Width && my >= v.Y && my < v.Y+v.Height
if inpane {
p.HandleEvent(event)
return
}
}
}
}
t.Panes[t.active].HandleEvent(event)
}
// SetActive changes the currently active pane to the specified index
func (t *Tab) SetActive(i int) {
t.active = i
for j, p := range t.Panes {
if j == i {
p.SetActive(true)
} else {
p.SetActive(false)
}
}
}
// GetPane returns the pane with the given split index
func (t *Tab) GetPane(splitid uint64) int {
for i, p := range t.Panes {
if p.ID() == splitid {
return i
}
}
return 0
}
// Remove pane removes the pane with the given index
func (t *Tab) RemovePane(i int) {
copy(t.Panes[i:], t.Panes[i+1:])
t.Panes[len(t.Panes)-1] = nil
t.Panes = t.Panes[:len(t.Panes)-1]
}
// Resize resizes all panes according to their corresponding split nodes
func (t *Tab) Resize() {
for _, p := range t.Panes {
n := t.GetNode(p.ID())
pv := p.GetView()
offset := 0
if n.X != 0 {
offset = 1
}
pv.X, pv.Y = n.X+offset, n.Y
p.SetView(pv)
p.Resize(n.W-offset, n.H)
}
}
// CurPane returns the currently active pane
func (t *Tab) CurPane() Pane {
return t.Panes[t.active]
}

30
internal/action/terminal_supported.go
View File

@@ -1,30 +0,0 @@
// +build linux darwin dragonfly openbsd_amd64 freebsd
package action
import (
"github.com/zyedidia/micro/internal/shell"
"github.com/zyedidia/micro/pkg/shellwords"
)
const TermEmuSupported = true
func RunTermEmulator(h *BufPane, input string, wait bool, getOutput bool, callback string, userargs []interface{}) error {
args, err := shellwords.Split(input)
if err != nil {
return err
}
t := new(shell.Terminal)
t.Start(args, getOutput, wait, callback, userargs)
id := h.ID()
h.AddTab()
id = MainTab().Panes[0].ID()
v := h.GetView()
MainTab().Panes[0] = NewTermPane(v.X, v.Y, v.Width, v.Height, t, id)
MainTab().SetActive(0)
return nil
}

11
internal/action/terminal_unsupported.go
View File

@@ -1,11 +0,0 @@
// +build !linux,!darwin,!freebsd,!dragonfly,!openbsd_amd64
package action
import "errors"
const TermEmuSupported = false
func RunTermEmulator(input string, wait bool, getOutput bool, callback string, userargs []interface{}) error {
return errors.New("Unsupported operating system")
}

120
internal/action/termpane.go
View File

@@ -1,120 +0,0 @@
package action
import (
"runtime"
"github.com/zyedidia/clipboard"
"github.com/zyedidia/micro/internal/display"
"github.com/zyedidia/micro/internal/screen"
"github.com/zyedidia/micro/internal/shell"
"github.com/zyedidia/tcell"
"github.com/zyedidia/terminal"
)
type TermPane struct {
*shell.Terminal
display.Window
mouseReleased bool
id uint64
}
func NewTermPane(x, y, w, h int, t *shell.Terminal, id uint64) *TermPane {
th := new(TermPane)
th.Terminal = t
th.id = id
th.mouseReleased = true
th.Window = display.NewTermWindow(x, y, w, h, t)
return th
}
func (t *TermPane) ID() uint64 {
return t.id
}
func (t *TermPane) SetID(i uint64) {
t.id = i
}
func (t *TermPane) Close() {}
func (t *TermPane) Quit() {
t.Close()
if len(MainTab().Panes) > 1 {
t.Unsplit()
} else if len(Tabs.List) > 1 {
Tabs.RemoveTab(t.id)
} else {
screen.Screen.Fini()
InfoBar.Close()
runtime.Goexit()
}
}
func (t *TermPane) Unsplit() {
n := MainTab().GetNode(t.id)
n.Unsplit()
MainTab().RemovePane(MainTab().GetPane(t.id))
MainTab().Resize()
MainTab().SetActive(len(MainTab().Panes) - 1)
}
// HandleEvent handles a tcell event by forwarding it to the terminal emulator
// If the event is a mouse event and the program running in the emulator
// does not have mouse support, the emulator will support selections and
// copy-paste
func (t *TermPane) HandleEvent(event tcell.Event) {
if e, ok := event.(*tcell.EventKey); ok {
if t.Status == shell.TTDone {
switch e.Key() {
case tcell.KeyEscape, tcell.KeyCtrlQ, tcell.KeyEnter:
t.Close()
t.Quit()
default:
}
}
if e.Key() == tcell.KeyCtrlC && t.HasSelection() {
clipboard.WriteAll(t.GetSelection(t.GetView().Width), "clipboard")
InfoBar.Message("Copied selection to clipboard")
} else if t.Status != shell.TTDone {
t.WriteString(event.EscSeq())
}
} else if e, ok := event.(*tcell.EventMouse); e != nil && (!ok || t.State.Mode(terminal.ModeMouseMask)) {
t.WriteString(event.EscSeq())
} else if e != nil {
x, y := e.Position()
v := t.GetView()
x -= v.X
y -= v.Y
if e.Buttons() == tcell.Button1 {
if !t.mouseReleased {
// drag
t.Selection[1].X = x
t.Selection[1].Y = y
} else {
t.Selection[0].X = x
t.Selection[0].Y = y
t.Selection[1].X = x
t.Selection[1].Y = y
}
t.mouseReleased = false
} else if e.Buttons() == tcell.ButtonNone {
if !t.mouseReleased {
t.Selection[1].X = x
t.Selection[1].Y = y
}
t.mouseReleased = true
}
}
if t.Status == shell.TTClose {
t.Quit()
}
}
func (t *TermPane) HandleCommand(input string) {
InfoBar.Error("Commands are unsupported in term for now")
}

206
internal/buffer/autocomplete.go
View File

@@ -1,206 +0,0 @@
package buffer
import (
"bytes"
"io/ioutil"
"os"
"sort"
"strings"
"unicode/utf8"
"github.com/zyedidia/micro/internal/util"
)
// A Completer is a function that takes a buffer and returns info
// describing what autocompletions should be inserted at the current
// cursor location
// It returns a list of string suggestions which will be inserted at
// the current cursor location if selected as well as a list of
// suggestion names which can be displayed in an autocomplete box or
// other UI element
type Completer func(*Buffer) ([]string, []string)
func (b *Buffer) GetSuggestions() {
}
// Autocomplete starts the autocomplete process
func (b *Buffer) Autocomplete(c Completer) bool {
b.Completions, b.Suggestions = c(b)
if len(b.Completions) != len(b.Suggestions) || len(b.Completions) == 0 {
return false
}
b.CurSuggestion = -1
b.CycleAutocomplete(true)
return true
}
// CycleAutocomplete moves to the next suggestion
func (b *Buffer) CycleAutocomplete(forward bool) {
prevSuggestion := b.CurSuggestion
if forward {
b.CurSuggestion++
} else {
b.CurSuggestion--
}
if b.CurSuggestion >= len(b.Suggestions) {
b.CurSuggestion = 0
} else if b.CurSuggestion < 0 {
b.CurSuggestion = len(b.Suggestions) - 1
}
c := b.GetActiveCursor()
start := c.Loc
end := c.Loc
if prevSuggestion < len(b.Suggestions) && prevSuggestion >= 0 {
start = end.Move(-utf8.RuneCountInString(b.Completions[prevSuggestion]), b)
} else {
// end = start.Move(1, b)
}
b.Replace(start, end, b.Completions[b.CurSuggestion])
if len(b.Suggestions) > 1 {
b.HasSuggestions = true
}
}
// GetWord gets the most recent word separated by any separator
// (whitespace, punctuation, any non alphanumeric character)
func GetWord(b *Buffer) ([]byte, int) {
c := b.GetActiveCursor()
l := b.LineBytes(c.Y)
l = util.SliceStart(l, c.X)
if c.X == 0 || util.IsWhitespace(b.RuneAt(c.Loc)) {
return []byte{}, -1
}
if util.IsNonAlphaNumeric(b.RuneAt(c.Loc)) {
return []byte{}, c.X
}
args := bytes.FieldsFunc(l, util.IsNonAlphaNumeric)
input := args[len(args)-1]
return input, c.X - utf8.RuneCount(input)
}
// GetArg gets the most recent word (separated by ' ' only)
func GetArg(b *Buffer) (string, int) {
c := b.GetActiveCursor()
l := b.LineBytes(c.Y)
l = util.SliceStart(l, c.X)
args := bytes.Split(l, []byte{' '})
input := string(args[len(args)-1])
argstart := 0
for i, a := range args {
if i == len(args)-1 {
break
}
argstart += utf8.RuneCount(a) + 1
}
return input, argstart
}
// FileComplete autocompletes filenames
func FileComplete(b *Buffer) ([]string, []string) {
c := b.GetActiveCursor()
input, argstart := GetArg(b)
sep := string(os.PathSeparator)
dirs := strings.Split(input, sep)
var files []os.FileInfo
var err error
if len(dirs) > 1 {
directories := strings.Join(dirs[:len(dirs)-1], sep) + sep
directories, _ = util.ReplaceHome(directories)
files, err = ioutil.ReadDir(directories)
} else {
files, err = ioutil.ReadDir(".")
}
if err != nil {
return nil, nil
}
var suggestions []string
for _, f := range files {
name := f.Name()
if f.IsDir() {
name += sep
}
if strings.HasPrefix(name, dirs[len(dirs)-1]) {
suggestions = append(suggestions, name)
}
}
sort.Strings(suggestions)
completions := make([]string, len(suggestions))
for i := range suggestions {
var complete string
if len(dirs) > 1 {
complete = strings.Join(dirs[:len(dirs)-1], sep) + sep + suggestions[i]
} else {
complete = suggestions[i]
}
completions[i] = util.SliceEndStr(complete, c.X-argstart)
}
return completions, suggestions
}
// BufferComplete autocompletes based on previous words in the buffer
func BufferComplete(b *Buffer) ([]string, []string) {
c := b.GetActiveCursor()
input, argstart := GetWord(b)
if argstart == -1 {
return []string{}, []string{}
}
inputLen := utf8.RuneCount(input)
suggestionsSet := make(map[string]struct{})
var suggestions []string
for i := c.Y; i >= 0; i-- {
l := b.LineBytes(i)
words := bytes.FieldsFunc(l, util.IsNonAlphaNumeric)
for _, w := range words {
if bytes.HasPrefix(w, input) && utf8.RuneCount(w) > inputLen {
strw := string(w)
if _, ok := suggestionsSet[strw]; !ok {
suggestionsSet[strw] = struct{}{}
suggestions = append(suggestions, strw)
}
}
}
}
for i := c.Y + 1; i < b.LinesNum(); i++ {
l := b.LineBytes(i)
words := bytes.FieldsFunc(l, util.IsNonAlphaNumeric)
for _, w := range words {
if bytes.HasPrefix(w, input) && utf8.RuneCount(w) > inputLen {
strw := string(w)
if _, ok := suggestionsSet[strw]; !ok {
suggestionsSet[strw] = struct{}{}
suggestions = append(suggestions, strw)
}
}
}
}
if len(suggestions) > 1 {
suggestions = append(suggestions, string(input))
}
completions := make([]string, len(suggestions))
for i := range suggestions {
completions[i] = util.SliceEndStr(suggestions[i], c.X-argstart)
}
return completions, suggestions
}

118
internal/buffer/backup.go
View File

@@ -1,118 +0,0 @@
package buffer
import (
"fmt"
"io"
"log"
"os"
"time"
"github.com/zyedidia/micro/internal/config"
"github.com/zyedidia/micro/internal/screen"
"github.com/zyedidia/micro/internal/util"
"golang.org/x/text/encoding"
)
const backupMsg = `A backup was detected for this file. This likely means that micro
crashed while editing this file, or another instance of micro is currently
editing this file.
The backup was created on %s.
* 'recover' will apply the backup as unsaved changes to the current buffer.
When the buffer is closed, the backup will be removed.
* 'ignore' will ignore the backup, discarding its changes. The backup file
will be removed.
Options: [r]ecover, [i]gnore: `
// Backup saves the current buffer to ConfigDir/backups
func (b *Buffer) Backup(checkTime bool) error {
if !b.Settings["backup"].(bool) || b.Path == "" {
return nil
}
if checkTime {
sub := time.Now().Sub(b.lastbackup)
if sub < time.Duration(backup_time)*time.Millisecond {
log.Println("Backup event but not enough time has passed", sub)
return nil
}
}
b.lastbackup = time.Now()
backupdir := config.ConfigDir + "/backups/"
if _, err := os.Stat(backupdir); os.IsNotExist(err) {
os.Mkdir(backupdir, os.ModePerm)
log.Println("Creating backup dir")
}
name := backupdir + util.EscapePath(b.AbsPath)
log.Println("Backing up to", name)
err := overwriteFile(name, encoding.Nop, func(file io.Writer) (e error) {
if len(b.lines) == 0 {
return
}
// end of line
eol := []byte{'\n'}
// write lines
if _, e = file.Write(b.lines[0].data); e != nil {
return
}
for _, l := range b.lines[1:] {
if _, e = file.Write(eol); e != nil {
return
}
if _, e = file.Write(l.data); e != nil {
return
}
}
return
})
return err
}
// RemoveBackup removes any backup file associated with this buffer
func (b *Buffer) RemoveBackup() {
if !b.Settings["backup"].(bool) || b.Path == "" {
return
}
f := config.ConfigDir + "/backups/" + util.EscapePath(b.AbsPath)
os.Remove(f)
}
// ApplyBackup applies the corresponding backup file to this buffer (if one exists)
// Returns true if a backup was applied
func (b *Buffer) ApplyBackup(fsize int64) bool {
if b.Settings["backup"].(bool) && len(b.Path) > 0 {
backupfile := config.ConfigDir + "/backups/" + util.EscapePath(b.AbsPath)
if info, err := os.Stat(backupfile); err == nil {
backup, err := os.Open(backupfile)
if err == nil {
defer backup.Close()
t := info.ModTime()
msg := fmt.Sprintf(backupMsg, t.Format("Mon Jan _2 at 15:04, 2006"))
choice := screen.TermPrompt(msg, []string{"r", "i", "recover", "ignore"}, true)
if choice%2 == 0 {
// recover
b.LineArray = NewLineArray(uint64(fsize), FFAuto, backup)
b.isModified = true
return true
} else if choice%2 == 1 {
// delete
os.Remove(backupfile)
}
}
}
}
return false
}

798
internal/buffer/buffer.go
View File

@@ -1,798 +0,0 @@
package buffer
import (
"bytes"
"crypto/md5"
"errors"
"io"
"io/ioutil"
"os"
"path/filepath"
"strconv"
"strings"
"time"
"unicode/utf8"
luar "layeh.com/gopher-luar"
"github.com/zyedidia/micro/internal/config"
ulua "github.com/zyedidia/micro/internal/lua"
"github.com/zyedidia/micro/internal/screen"
. "github.com/zyedidia/micro/internal/util"
"github.com/zyedidia/micro/pkg/highlight"
"golang.org/x/text/encoding/htmlindex"
"golang.org/x/text/encoding/unicode"
"golang.org/x/text/transform"
)
const backup_time = 8000
var (
OpenBuffers []*Buffer
LogBuf *Buffer
)
// The BufType defines what kind of buffer this is
type BufType struct {
Kind int
Readonly bool // The buffer cannot be edited
Scratch bool // The buffer cannot be saved
Syntax bool // Syntax highlighting is enabled
}
var (
BTDefault = BufType{0, false, false, true}
BTHelp = BufType{1, true, true, true}
BTLog = BufType{2, true, true, false}
BTScratch = BufType{3, false, true, false}
BTRaw = BufType{4, false, true, false}
BTInfo = BufType{5, false, true, false}
ErrFileTooLarge = errors.New("File is too large to hash")
)
type SharedBuffer struct {
*LineArray
// Stores the last modification time of the file the buffer is pointing to
ModTime time.Time
// Type of the buffer (e.g. help, raw, scratch etc..)
Type BufType
isModified bool
// Whether or not suggestions can be autocompleted must be shared because
// it changes based on how the buffer has changed
HasSuggestions bool
}
func (b *SharedBuffer) insert(pos Loc, value []byte) {
b.isModified = true
b.HasSuggestions = false
b.LineArray.insert(pos, value)
}
func (b *SharedBuffer) remove(start, end Loc) []byte {
b.isModified = true
b.HasSuggestions = false
return b.LineArray.remove(start, end)
}
// Buffer stores the main information about a currently open file including
// the actual text (in a LineArray), the undo/redo stack (in an EventHandler)
// all the cursors, the syntax highlighting info, the settings for the buffer
// and some misc info about modification time and path location.
// The syntax highlighting info must be stored with the buffer because the syntax
// highlighter attaches information to each line of the buffer for optimization
// purposes so it doesn't have to rehighlight everything on every update.
type Buffer struct {
*EventHandler
*SharedBuffer
cursors []*Cursor
curCursor int
StartCursor Loc
// Path to the file on disk
Path string
// Absolute path to the file on disk
AbsPath string
// Name of the buffer on the status line
name string
SyntaxDef *highlight.Def
Highlighter *highlight.Highlighter
// Hash of the original buffer -- empty if fastdirty is on
origHash [md5.Size]byte
// Settings customized by the user
Settings map[string]interface{}
Suggestions []string
Completions []string
CurSuggestion int
Messages []*Message
// counts the number of edits
// resets every backup_time edits
lastbackup time.Time
}
// NewBufferFromFile opens a new buffer using the given path
// It will also automatically handle `~`, and line/column with filename:l:c
// It will return an empty buffer if the path does not exist
// and an error if the file is a directory
func NewBufferFromFile(path string, btype BufType) (*Buffer, error) {
var err error
filename, cursorPos := GetPathAndCursorPosition(path)
filename, err = ReplaceHome(filename)
if err != nil {
return nil, err
}
file, err := os.Open(filename)
fileInfo, _ := os.Stat(filename)
if err == nil && fileInfo.IsDir() {
return nil, errors.New(filename + " is a directory")
}
defer file.Close()
cursorLoc, cursorerr := ParseCursorLocation(cursorPos)
if cursorerr != nil {
cursorLoc = Loc{-1, -1}
}
var buf *Buffer
if err != nil {
// File does not exist -- create an empty buffer with that name
buf = NewBufferFromString("", filename, btype)
} else {
buf = NewBuffer(file, FSize(file), filename, cursorLoc, btype)
}
return buf, nil
}
// NewBufferFromString creates a new buffer containing the given string
func NewBufferFromString(text, path string, btype BufType) *Buffer {
return NewBuffer(strings.NewReader(text), int64(len(text)), path, Loc{-1, -1}, btype)
}
// NewBuffer creates a new buffer from a given reader with a given path
// Ensure that ReadSettings and InitGlobalSettings have been called before creating
// a new buffer
// Places the cursor at startcursor. If startcursor is -1, -1 places the
// cursor at an autodetected location (based on savecursor or :LINE:COL)
func NewBuffer(r io.Reader, size int64, path string, startcursor Loc, btype BufType) *Buffer {
absPath, _ := filepath.Abs(path)
b := new(Buffer)
b.Settings = config.DefaultCommonSettings()
for k, v := range config.GlobalSettings {
if _, ok := b.Settings[k]; ok {
b.Settings[k] = v
}
}
config.InitLocalSettings(b.Settings, path)
enc, err := htmlindex.Get(b.Settings["encoding"].(string))
if err != nil {
enc = unicode.UTF8
b.Settings["encoding"] = "utf-8"
}
reader := transform.NewReader(r, enc.NewDecoder())
found := false
if len(path) > 0 {
for _, buf := range OpenBuffers {
if buf.AbsPath == absPath && buf.Type != BTInfo {
found = true
b.SharedBuffer = buf.SharedBuffer
b.EventHandler = buf.EventHandler
}
}
}
b.Path = path
b.AbsPath = absPath
if !found {
b.SharedBuffer = new(SharedBuffer)
b.Type = btype
hasBackup := b.ApplyBackup(size)
if !hasBackup {
b.LineArray = NewLineArray(uint64(size), FFAuto, reader)
}
b.EventHandler = NewEventHandler(b.SharedBuffer, b.cursors)
}
if b.Settings["readonly"].(bool) {
b.Type.Readonly = true
}
// The last time this file was modified
b.ModTime, _ = GetModTime(b.Path)
switch b.Endings {
case FFUnix:
b.Settings["fileformat"] = "unix"
case FFDos:
b.Settings["fileformat"] = "dos"
}
b.UpdateRules()
config.InitLocalSettings(b.Settings, b.Path)
if _, err := os.Stat(config.ConfigDir + "/buffers/"); os.IsNotExist(err) {
os.Mkdir(config.ConfigDir+"/buffers/", os.ModePerm)
}
if startcursor.X != -1 && startcursor.Y != -1 {
b.StartCursor = startcursor
} else {
if b.Settings["savecursor"].(bool) || b.Settings["saveundo"].(bool) {
err := b.Unserialize()
if err != nil {
screen.TermMessage(err)
}
}
}
b.AddCursor(NewCursor(b, b.StartCursor))
b.GetActiveCursor().Relocate()
if !b.Settings["fastdirty"].(bool) {
if size > LargeFileThreshold {
// If the file is larger than LargeFileThreshold fastdirty needs to be on
b.Settings["fastdirty"] = true
} else {
calcHash(b, &b.origHash)
}
}
err = config.RunPluginFn("onBufferOpen", luar.New(ulua.L, b))
if err != nil {
screen.TermMessage(err)
}
OpenBuffers = append(OpenBuffers, b)
return b
}
// Close removes this buffer from the list of open buffers
func (b *Buffer) Close() {
for i, buf := range OpenBuffers {
if b == buf {
b.Fini()
copy(OpenBuffers[i:], OpenBuffers[i+1:])
OpenBuffers[len(OpenBuffers)-1] = nil
OpenBuffers = OpenBuffers[:len(OpenBuffers)-1]
return
}
}
}
// Fini should be called when a buffer is closed and performs
// some cleanup
func (b *Buffer) Fini() {
if !b.Modified() {
b.Serialize()
}
b.RemoveBackup()
}
// GetName returns the name that should be displayed in the statusline
// for this buffer
func (b *Buffer) GetName() string {
if b.name == "" {
if b.Path == "" {
return "No name"
}
return b.Path
}
return b.name
}
//SetName changes the name for this buffer
func (b *Buffer) SetName(s string) {
b.name = s
}
func (b *Buffer) Insert(start Loc, text string) {
if !b.Type.Readonly {
b.EventHandler.cursors = b.cursors
b.EventHandler.active = b.curCursor
b.EventHandler.Insert(start, text)
go b.Backup(true)
}
}
func (b *Buffer) Remove(start, end Loc) {
if !b.Type.Readonly {
b.EventHandler.cursors = b.cursors
b.EventHandler.active = b.curCursor
b.EventHandler.Remove(start, end)
go b.Backup(true)
}
}
// FileType returns the buffer's filetype
func (b *Buffer) FileType() string {
return b.Settings["filetype"].(string)
}
// ReOpen reloads the current buffer from disk
func (b *Buffer) ReOpen() error {
file, err := os.Open(b.Path)
if err != nil {
return err
}
enc, err := htmlindex.Get(b.Settings["encoding"].(string))
if err != nil {
return err
}
reader := transform.NewReader(file, enc.NewDecoder())
data, err := ioutil.ReadAll(reader)
txt := string(data)
if err != nil {
return err
}
b.EventHandler.ApplyDiff(txt)
b.ModTime, err = GetModTime(b.Path)
b.isModified = false
b.RelocateCursors()
return err
}
func (b *Buffer) RelocateCursors() {
for _, c := range b.cursors {
c.Relocate()
}
}
// RuneAt returns the rune at a given location in the buffer
func (b *Buffer) RuneAt(loc Loc) rune {
line := b.LineBytes(loc.Y)
if len(line) > 0 {
i := 0
for len(line) > 0 {
r, size := utf8.DecodeRune(line)
line = line[size:]
i++
if i == loc.X {
return r
}
}
}
return '\n'
}
// Modified returns if this buffer has been modified since
// being opened
func (b *Buffer) Modified() bool {
if b.Type.Scratch {
return false
}
if b.Settings["fastdirty"].(bool) {
return b.isModified
}
var buff [md5.Size]byte
calcHash(b, &buff)
return buff != b.origHash
}
// calcHash calculates md5 hash of all lines in the buffer
func calcHash(b *Buffer, out *[md5.Size]byte) error {
h := md5.New()
size := 0
if len(b.lines) > 0 {
n, e := h.Write(b.lines[0].data)
if e != nil {
return e
}
size += n
for _, l := range b.lines[1:] {
n, e = h.Write([]byte{'\n'})
if e != nil {
return e
}
size += n
n, e = h.Write(l.data)
if e != nil {
return e
}
size += n
}
}
if size > LargeFileThreshold {
return ErrFileTooLarge
}
h.Sum((*out)[:0])
return nil
}
// UpdateRules updates the syntax rules and filetype for this buffer
// This is called when the colorscheme changes
func (b *Buffer) UpdateRules() {
if !b.Type.Syntax {
return
}
rehighlight := false
var files []*highlight.File
for _, f := range config.ListRuntimeFiles(config.RTSyntax) {
data, err := f.Data()
if err != nil {
screen.TermMessage("Error loading syntax file " + f.Name() + ": " + err.Error())
} else {
file, err := highlight.ParseFile(data)
if err != nil {
screen.TermMessage("Error loading syntax file " + f.Name() + ": " + err.Error())
continue
}
ftdetect, err := highlight.ParseFtDetect(file)
if err != nil {
screen.TermMessage("Error loading syntax file " + f.Name() + ": " + err.Error())
continue
}
ft := b.Settings["filetype"].(string)
if (ft == "unknown" || ft == "") && !rehighlight {
if highlight.MatchFiletype(ftdetect, b.Path, b.lines[0].data) {
header := new(highlight.Header)
header.FileType = file.FileType
header.FtDetect = ftdetect
b.SyntaxDef, err = highlight.ParseDef(file, header)
if err != nil {
screen.TermMessage("Error loading syntax file " + f.Name() + ": " + err.Error())
continue
}
rehighlight = true
}
} else {
if file.FileType == ft && !rehighlight {
header := new(highlight.Header)
header.FileType = file.FileType
header.FtDetect = ftdetect
b.SyntaxDef, err = highlight.ParseDef(file, header)
if err != nil {
screen.TermMessage("Error loading syntax file " + f.Name() + ": " + err.Error())
continue
}
rehighlight = true
}
}
files = append(files, file)
}
}
if b.SyntaxDef != nil {
highlight.ResolveIncludes(b.SyntaxDef, files)
}
if b.Highlighter == nil || rehighlight {
if b.SyntaxDef != nil {
b.Settings["filetype"] = b.SyntaxDef.FileType
b.Highlighter = highlight.NewHighlighter(b.SyntaxDef)
if b.Settings["syntax"].(bool) {
b.Highlighter.HighlightStates(b)
}
}
}
}
// ClearMatches clears all of the syntax highlighting for the buffer
func (b *Buffer) ClearMatches() {
for i := range b.lines {
b.SetMatch(i, nil)
b.SetState(i, nil)
}
}
// IndentString returns this buffer's indent method (a tabstop or n spaces
// depending on the settings)
func (b *Buffer) IndentString(tabsize int) string {
if b.Settings["tabstospaces"].(bool) {
return Spaces(tabsize)
}
return "\t"
}
// SetCursors resets this buffer's cursors to a new list
func (b *Buffer) SetCursors(c []*Cursor) {
b.cursors = c
b.EventHandler.cursors = b.cursors
b.EventHandler.active = b.curCursor
}
// AddCursor adds a new cursor to the list
func (b *Buffer) AddCursor(c *Cursor) {
b.cursors = append(b.cursors, c)
b.EventHandler.cursors = b.cursors
b.EventHandler.active = b.curCursor
b.UpdateCursors()
}
// SetCurCursor sets the current cursor
func (b *Buffer) SetCurCursor(n int) {
b.curCursor = n
}
// GetActiveCursor returns the main cursor in this buffer
func (b *Buffer) GetActiveCursor() *Cursor {
return b.cursors[b.curCursor]
}
// GetCursor returns the nth cursor
func (b *Buffer) GetCursor(n int) *Cursor {
return b.cursors[n]
}
// GetCursors returns the list of cursors in this buffer
func (b *Buffer) GetCursors() []*Cursor {
return b.cursors
}
// NumCursors returns the number of cursors
func (b *Buffer) NumCursors() int {
return len(b.cursors)
}
// MergeCursors merges any cursors that are at the same position
// into one cursor
func (b *Buffer) MergeCursors() {
var cursors []*Cursor
for i := 0; i < len(b.cursors); i++ {
c1 := b.cursors[i]
if c1 != nil {
for j := 0; j < len(b.cursors); j++ {
c2 := b.cursors[j]
if c2 != nil && i != j && c1.Loc == c2.Loc {
b.cursors[j] = nil
}
}
cursors = append(cursors, c1)
}
}
b.cursors = cursors
for i := range b.cursors {
b.cursors[i].Num = i
}
if b.curCursor >= len(b.cursors) {
b.curCursor = len(b.cursors) - 1
}
b.EventHandler.cursors = b.cursors
b.EventHandler.active = b.curCursor
}
// UpdateCursors updates all the cursors indicies
func (b *Buffer) UpdateCursors() {
b.EventHandler.cursors = b.cursors
b.EventHandler.active = b.curCursor
for i, c := range b.cursors {
c.Num = i
}
}
func (b *Buffer) RemoveCursor(i int) {
copy(b.cursors[i:], b.cursors[i+1:])
b.cursors[len(b.cursors)-1] = nil
b.cursors = b.cursors[:len(b.cursors)-1]
b.curCursor = Clamp(b.curCursor, 0, len(b.cursors)-1)
b.UpdateCursors()
}
// ClearCursors removes all extra cursors
func (b *Buffer) ClearCursors() {
for i := 1; i < len(b.cursors); i++ {
b.cursors[i] = nil
}
b.cursors = b.cursors[:1]
b.UpdateCursors()
b.curCursor = 0
b.GetActiveCursor().ResetSelection()
}
// MoveLinesUp moves the range of lines up one row
func (b *Buffer) MoveLinesUp(start int, end int) {
if start < 1 || start >= end || end > len(b.lines) {
return
}
l := string(b.LineBytes(start - 1))
if end == len(b.lines) {
b.Insert(
Loc{
utf8.RuneCount(b.lines[end-1].data),
end - 1,
},
"\n"+l,
)
} else {
b.Insert(
Loc{0, end},
l+"\n",
)
}
b.Remove(
Loc{0, start - 1},
Loc{0, start},
)
}
// MoveLinesDown moves the range of lines down one row
func (b *Buffer) MoveLinesDown(start int, end int) {
if start < 0 || start >= end || end >= len(b.lines)-1 {
return
}
l := string(b.LineBytes(end))
b.Insert(
Loc{0, start},
l+"\n",
)
end++
b.Remove(
Loc{0, end},
Loc{0, end + 1},
)
}
var BracePairs = [][2]rune{
{'(', ')'},
{'{', '}'},
{'[', ']'},
}
// FindMatchingBrace returns the location in the buffer of the matching bracket
// It is given a brace type containing the open and closing character, (for example
// '{' and '}') as well as the location to match from
// TODO: maybe can be more efficient with utf8 package
// returns the location of the matching brace
// if the boolean returned is true then the original matching brace is one character left
// of the starting location
func (b *Buffer) FindMatchingBrace(braceType [2]rune, start Loc) (Loc, bool) {
curLine := []rune(string(b.LineBytes(start.Y)))
startChar := ' '
if start.X >= 0 && start.X < len(curLine) {
startChar = curLine[start.X]
}
leftChar := ' '
if start.X-1 >= 0 && start.X-1 < len(curLine) {
leftChar = curLine[start.X-1]
}
var i int
if startChar == braceType[0] || leftChar == braceType[0] {
for y := start.Y; y < b.LinesNum(); y++ {
l := []rune(string(b.LineBytes(y)))
xInit := 0
if y == start.Y {
if startChar == braceType[0] {
xInit = start.X
} else {
xInit = start.X - 1
}
}
for x := xInit; x < len(l); x++ {
r := l[x]
if r == braceType[0] {
i++
} else if r == braceType[1] {
i--
if i == 0 {
if startChar == braceType[0] {
return Loc{x, y}, false
}
return Loc{x, y}, true
}
}
}
}
} else if startChar == braceType[1] || leftChar == braceType[1] {
for y := start.Y; y >= 0; y-- {
l := []rune(string(b.lines[y].data))
xInit := len(l) - 1
if y == start.Y {
if leftChar == braceType[1] {
xInit = start.X - 1
} else {
xInit = start.X
}
}
for x := xInit; x >= 0; x-- {
r := l[x]
if r == braceType[0] {
i--
if i == 0 {
if leftChar == braceType[1] {
return Loc{x, y}, true
}
return Loc{x, y}, false
}
} else if r == braceType[1] {
i++
}
}
}
}
return start, true
}
// Retab changes all tabs to spaces or vice versa
func (b *Buffer) Retab() {
toSpaces := b.Settings["tabstospaces"].(bool)
tabsize := IntOpt(b.Settings["tabsize"])
dirty := false
for i := 0; i < b.LinesNum(); i++ {
l := b.LineBytes(i)
ws := GetLeadingWhitespace(l)
if len(ws) != 0 {
if toSpaces {
ws = bytes.Replace(ws, []byte{'\t'}, bytes.Repeat([]byte{' '}, tabsize), -1)
} else {
ws = bytes.Replace(ws, bytes.Repeat([]byte{' '}, tabsize), []byte{'\t'}, -1)
}
}
l = bytes.TrimLeft(l, " \t")
b.lines[i].data = append(ws, l...)
dirty = true
}
b.isModified = dirty
}
// ParseCursorLocation turns a cursor location like 10:5 (LINE:COL)
// into a loc
func ParseCursorLocation(cursorPositions []string) (Loc, error) {
startpos := Loc{0, 0}
var err error
// if no positions are available exit early
if cursorPositions == nil {
return startpos, errors.New("No cursor positions were provided.")
}
startpos.Y, err = strconv.Atoi(cursorPositions[0])
startpos.Y -= 1
if err == nil {
if len(cursorPositions) > 1 {
startpos.X, err = strconv.Atoi(cursorPositions[1])
if startpos.X > 0 {
startpos.X -= 1
}
}
}
return startpos, err
}
func (b *Buffer) Line(i int) string {
return string(b.LineBytes(i))
}
func WriteLog(s string) {
LogBuf.EventHandler.Insert(LogBuf.End(), s)
}

312
internal/buffer/line_array.go
View File

@@ -1,312 +0,0 @@
package buffer
import (
"bufio"
"io"
"unicode/utf8"
"github.com/zyedidia/micro/pkg/highlight"
)
// Finds the byte index of the nth rune in a byte slice
func runeToByteIndex(n int, txt []byte) int {
if n == 0 {
return 0
}
count := 0
i := 0
for len(txt) > 0 {
_, size := utf8.DecodeRune(txt)
txt = txt[size:]
count += size
i++
if i == n {
break
}
}
return count
}
// A Line contains the data in bytes as well as a highlight state, match
// and a flag for whether the highlighting needs to be updated
type Line struct {
data []byte
state highlight.State
match highlight.LineMatch
rehighlight bool
}
const (
// Line ending file formats
FFAuto = 0 // Autodetect format
FFUnix = 1 // LF line endings (unix style '\n')
FFDos = 2 // CRLF line endings (dos style '\r\n')
)
type FileFormat byte
// A LineArray simply stores and array of lines and makes it easy to insert
// and delete in it
type LineArray struct {
lines []Line
Endings FileFormat
initsize uint64
}
// Append efficiently appends lines together
// It allocates an additional 10000 lines if the original estimate
// is incorrect
func Append(slice []Line, data ...Line) []Line {
l := len(slice)
if l+len(data) > cap(slice) { // reallocate
newSlice := make([]Line, (l+len(data))+10000)
copy(newSlice, slice)
slice = newSlice
}
slice = slice[0 : l+len(data)]
for i, c := range data {
slice[l+i] = c
}
return slice
}
// NewLineArray returns a new line array from an array of bytes
func NewLineArray(size uint64, endings FileFormat, reader io.Reader) *LineArray {
la := new(LineArray)
la.lines = make([]Line, 0, 1000)
la.initsize = size
br := bufio.NewReader(reader)
var loaded int
n := 0
for {
data, err := br.ReadBytes('\n')
// Detect the line ending by checking to see if there is a '\r' char
// before the '\n'
// Even if the file format is set to DOS, the '\r' is removed so
// that all lines end with '\n'
dlen := len(data)
if dlen > 1 && data[dlen-2] == '\r' {
data = append(data[:dlen-2], '\n')
if endings == FFAuto {
la.Endings = FFDos
}
dlen = len(data)
} else if dlen > 0 {
if endings == FFAuto {
la.Endings = FFUnix
}
}
// If we are loading a large file (greater than 1000) we use the file
// size and the length of the first 1000 lines to try to estimate
// how many lines will need to be allocated for the rest of the file
// We add an extra 10000 to the original estimate to be safe and give
// plenty of room for expansion
if n >= 1000 && loaded >= 0 {
totalLinesNum := int(float64(size) * (float64(n) / float64(loaded)))
newSlice := make([]Line, len(la.lines), totalLinesNum+10000)
copy(newSlice, la.lines)
la.lines = newSlice
loaded = -1
}
// Counter for the number of bytes in the first 1000 lines
if loaded >= 0 {
loaded += dlen
}
if err != nil {
if err == io.EOF {
la.lines = Append(la.lines, Line{data[:], nil, nil, false})
}
// Last line was read
break
} else {
la.lines = Append(la.lines, Line{data[:dlen-1], nil, nil, false})
}
n++
}
return la
}
// Bytes returns the string that should be written to disk when
// the line array is saved
func (la *LineArray) Bytes() []byte {
str := make([]byte, 0, la.initsize+1000) // initsize should provide a good estimate
for i, l := range la.lines {
str = append(str, l.data...)
if i != len(la.lines)-1 {
if la.Endings == FFDos {
str = append(str, '\r')
}
str = append(str, '\n')
}
}
return str
}
// newlineBelow adds a newline below the given line number
func (la *LineArray) newlineBelow(y int) {
la.lines = append(la.lines, Line{[]byte{' '}, nil, nil, false})
copy(la.lines[y+2:], la.lines[y+1:])
la.lines[y+1] = Line{[]byte{}, la.lines[y].state, nil, false}
}
// Inserts a byte array at a given location
func (la *LineArray) insert(pos Loc, value []byte) {
x, y := runeToByteIndex(pos.X, la.lines[pos.Y].data), pos.Y
for i := 0; i < len(value); i++ {
if value[i] == '\n' {
la.split(Loc{x, y})
x = 0
y++
continue
}
la.insertByte(Loc{x, y}, value[i])
x++
}
}
// InsertByte inserts a byte at a given location
func (la *LineArray) insertByte(pos Loc, value byte) {
la.lines[pos.Y].data = append(la.lines[pos.Y].data, 0)
copy(la.lines[pos.Y].data[pos.X+1:], la.lines[pos.Y].data[pos.X:])
la.lines[pos.Y].data[pos.X] = value
}
// joinLines joins the two lines a and b
func (la *LineArray) joinLines(a, b int) {
la.insert(Loc{len(la.lines[a].data), a}, la.lines[b].data)
la.deleteLine(b)
}
// split splits a line at a given position
func (la *LineArray) split(pos Loc) {
la.newlineBelow(pos.Y)
la.insert(Loc{0, pos.Y + 1}, la.lines[pos.Y].data[pos.X:])
la.lines[pos.Y+1].state = la.lines[pos.Y].state
la.lines[pos.Y].state = nil
la.lines[pos.Y].match = nil
la.lines[pos.Y+1].match = nil
la.lines[pos.Y].rehighlight = true
la.deleteToEnd(Loc{pos.X, pos.Y})
}
// removes from start to end
func (la *LineArray) remove(start, end Loc) []byte {
sub := la.Substr(start, end)
startX := runeToByteIndex(start.X, la.lines[start.Y].data)
endX := runeToByteIndex(end.X, la.lines[end.Y].data)
if start.Y == end.Y {
la.lines[start.Y].data = append(la.lines[start.Y].data[:startX], la.lines[start.Y].data[endX:]...)
} else {
for i := start.Y + 1; i <= end.Y-1; i++ {
la.deleteLine(start.Y + 1)
}
la.deleteToEnd(Loc{startX, start.Y})
la.deleteFromStart(Loc{endX - 1, start.Y + 1})
la.joinLines(start.Y, start.Y+1)
}
return sub
}
// deleteToEnd deletes from the end of a line to the position
func (la *LineArray) deleteToEnd(pos Loc) {
la.lines[pos.Y].data = la.lines[pos.Y].data[:pos.X]
}
// deleteFromStart deletes from the start of a line to the position
func (la *LineArray) deleteFromStart(pos Loc) {
la.lines[pos.Y].data = la.lines[pos.Y].data[pos.X+1:]
}
// deleteLine deletes the line number
func (la *LineArray) deleteLine(y int) {
la.lines = la.lines[:y+copy(la.lines[y:], la.lines[y+1:])]
}
// DeleteByte deletes the byte at a position
func (la *LineArray) deleteByte(pos Loc) {
la.lines[pos.Y].data = la.lines[pos.Y].data[:pos.X+copy(la.lines[pos.Y].data[pos.X:], la.lines[pos.Y].data[pos.X+1:])]
}
// Substr returns the string representation between two locations
func (la *LineArray) Substr(start, end Loc) []byte {
startX := runeToByteIndex(start.X, la.lines[start.Y].data)
endX := runeToByteIndex(end.X, la.lines[end.Y].data)
if start.Y == end.Y {
src := la.lines[start.Y].data[startX:endX]
dest := make([]byte, len(src))
copy(dest, src)
return dest
}
str := make([]byte, 0, len(la.lines[start.Y+1].data)*(end.Y-start.Y))
str = append(str, la.lines[start.Y].data[startX:]...)
str = append(str, '\n')
for i := start.Y + 1; i <= end.Y-1; i++ {
str = append(str, la.lines[i].data...)
str = append(str, '\n')
}
str = append(str, la.lines[end.Y].data[:endX]...)
return str
}
// LinesNum returns the number of lines in the buffer
func (la *LineArray) LinesNum() int {
return len(la.lines)
}
// Start returns the start of the buffer
func (la *LineArray) Start() Loc {
return Loc{0, 0}
}
// End returns the location of the last character in the buffer
func (la *LineArray) End() Loc {
numlines := len(la.lines)
return Loc{utf8.RuneCount(la.lines[numlines-1].data), numlines - 1}
}
// LineBytes returns line n as an array of bytes
func (la *LineArray) LineBytes(n int) []byte {
if n >= len(la.lines) || n < 0 {
return []byte{}
}
return la.lines[n].data
}
// State gets the highlight state for the given line number
func (la *LineArray) State(lineN int) highlight.State {
return la.lines[lineN].state
}
// SetState sets the highlight state at the given line number
func (la *LineArray) SetState(lineN int, s highlight.State) {
la.lines[lineN].state = s
}
// SetMatch sets the match at the given line number
func (la *LineArray) SetMatch(lineN int, m highlight.LineMatch) {
la.lines[lineN].match = m
}
// Match retrieves the match for the given line number
func (la *LineArray) Match(lineN int) highlight.LineMatch {
return la.lines[lineN].match
}
func (la *LineArray) Rehighlight(lineN int) bool {
return la.lines[lineN].rehighlight
}
func (la *LineArray) SetRehighlight(lineN int, on bool) {
la.lines[lineN].rehighlight = on
}

60
internal/buffer/line_array_test.go
View File

@@ -1,60 +0,0 @@
package buffer
import (
"strings"
"testing"
"github.com/stretchr/testify/assert"
)
var unicode_txt = `An preost wes on leoden, Laȝamon was ihoten
He wes Leovenaðes sone -- liðe him be Drihten.
He wonede at Ernleȝe at æðelen are chirechen,
Uppen Sevarne staþe, sel þar him þuhte,
Onfest Radestone, þer he bock radde.`
var la *LineArray
func init() {
reader := strings.NewReader(unicode_txt)
la = NewLineArray(uint64(len(unicode_txt)), FFAuto, reader)
}
func TestSplit(t *testing.T) {
la.insert(Loc{17, 1}, []byte{'\n'})
assert.Equal(t, len(la.lines), 6)
sub1 := la.Substr(Loc{0, 1}, Loc{17, 1})
sub2 := la.Substr(Loc{0, 2}, Loc{30, 2})
assert.Equal(t, []byte("He wes Leovenaðes"), sub1)
assert.Equal(t, []byte(" sone -- liðe him be Drihten."), sub2)
}
func TestJoin(t *testing.T) {
la.remove(Loc{47, 1}, Loc{0, 2})
assert.Equal(t, len(la.lines), 5)
sub := la.Substr(Loc{0, 1}, Loc{47, 1})
bytes := la.Bytes()
assert.Equal(t, []byte("He wes Leovenaðes sone -- liðe him be Drihten."), sub)
assert.Equal(t, unicode_txt, string(bytes))
}
func TestInsert(t *testing.T) {
la.insert(Loc{20, 3}, []byte(" foobar"))
sub1 := la.Substr(Loc{0, 3}, Loc{50, 3})
assert.Equal(t, []byte("Uppen Sevarne staþe, foobar sel þar him þuhte,"), sub1)
la.insert(Loc{25, 2}, []byte("ಮಣ್ಣಾಗಿ"))
sub2 := la.Substr(Loc{0, 2}, Loc{60, 2})
assert.Equal(t, []byte("He wonede at Ernleȝe at æಮಣ್ಣಾಗಿðelen are chirechen,"), sub2)
}
func TestRemove(t *testing.T) {
la.remove(Loc{20, 3}, Loc{27, 3})
la.remove(Loc{25, 2}, Loc{32, 2})
bytes := la.Bytes()
assert.Equal(t, unicode_txt, string(bytes))
}

77
internal/buffer/message.go
View File

@@ -1,77 +0,0 @@
package buffer
import (
"github.com/zyedidia/micro/internal/config"
"github.com/zyedidia/tcell"
)
type MsgType int
const (
MTInfo = iota
MTWarning
MTError
)
type Message struct {
Msg string
Start, End Loc
Kind MsgType
Owner string
}
func NewMessage(owner string, msg string, start, end Loc, kind MsgType) *Message {
return &Message{
Msg: msg,
Start: start,
End: end,
Kind: kind,
Owner: owner,
}
}
func NewMessageAtLine(owner string, msg string, line int, kind MsgType) *Message {
start := Loc{-1, line - 1}
end := start
return NewMessage(owner, msg, start, end, kind)
}
func (m *Message) Style() tcell.Style {
switch m.Kind {
case MTInfo:
if style, ok := config.Colorscheme["gutter-info"]; ok {
return style
}
case MTWarning:
if style, ok := config.Colorscheme["gutter-warning"]; ok {
return style
}
case MTError:
if style, ok := config.Colorscheme["gutter-error"]; ok {
return style
}
}
return config.DefStyle
}
func (b *Buffer) AddMessage(m *Message) {
b.Messages = append(b.Messages, m)
}
func (b *Buffer) removeMsg(i int) {
copy(b.Messages[i:], b.Messages[i+1:])
b.Messages[len(b.Messages)-1] = nil
b.Messages = b.Messages[:len(b.Messages)-1]
}
func (b *Buffer) ClearMessages(owner string) {
for i := len(b.Messages) - 1; i >= 0; i-- {
if b.Messages[i].Owner == owner {
b.removeMsg(i)
}
}
}
func (b *Buffer) ClearAllMessages() {
b.Messages = make([]*Message, 0)
}

228
internal/buffer/save.go
View File

@@ -1,228 +0,0 @@
package buffer
import (
"bytes"
"errors"
"io"
"os"
"os/exec"
"os/signal"
"path/filepath"
"unicode"
"unicode/utf8"
"github.com/zyedidia/micro/internal/config"
"github.com/zyedidia/micro/internal/screen"
. "github.com/zyedidia/micro/internal/util"
"golang.org/x/text/encoding"
"golang.org/x/text/encoding/htmlindex"
"golang.org/x/text/transform"
)
// LargeFileThreshold is the number of bytes when fastdirty is forced
// because hashing is too slow
const LargeFileThreshold = 50000
// overwriteFile opens the given file for writing, truncating if one exists, and then calls
// the supplied function with the file as io.Writer object, also making sure the file is
// closed afterwards.
func overwriteFile(name string, enc encoding.Encoding, fn func(io.Writer) error) (err error) {
var file *os.File
if file, err = os.OpenFile(name, os.O_WRONLY|os.O_CREATE|os.O_TRUNC, 0644); err != nil {
return
}
defer func() {
if e := file.Close(); e != nil && err == nil {
err = e
}
}()
w := transform.NewWriter(file, enc.NewEncoder())
// w := bufio.NewWriter(file)
if err = fn(w); err != nil {
return
}
// err = w.Flush()
return
}
// overwriteFileAsRoot executes dd as root and then calls the supplied function
// with dd's standard input as an io.Writer object. Dd opens the given file for writing,
// truncating it if it exists, and writes what it receives on its standard input to the file.
func overwriteFileAsRoot(name string, enc encoding.Encoding, fn func(io.Writer) error) (err error) {
cmd := exec.Command(config.GlobalSettings["sucmd"].(string), "dd", "status=none", "bs=4K", "of="+name)
var stdin io.WriteCloser
screenb := screen.TempFini()
// This is a trap for Ctrl-C so that it doesn't kill micro
// Instead we trap Ctrl-C to kill the program we're running
c := make(chan os.Signal, 1)
signal.Notify(c, os.Interrupt)
go func() {
for range c {
cmd.Process.Kill()
}
}()
if stdin, err = cmd.StdinPipe(); err != nil {
return
}
if err = cmd.Start(); err != nil {
return
}
e := fn(stdin)
if err = stdin.Close(); err != nil {
return
}
if err = cmd.Wait(); err != nil {
return
}
screen.TempStart(screenb)
return e
}
// Save saves the buffer to its default path
func (b *Buffer) Save() error {
return b.SaveAs(b.Path)
}
// SaveAs saves the buffer to a specified path (filename), creating the file if it does not exist
func (b *Buffer) SaveAs(filename string) error {
return b.saveToFile(filename, false)
}
func (b *Buffer) SaveWithSudo() error {
return b.SaveAsWithSudo(b.Path)
}
func (b *Buffer) SaveAsWithSudo(filename string) error {
return b.saveToFile(filename, true)
}
func (b *Buffer) saveToFile(filename string, withSudo bool) error {
var err error
if b.Type.Readonly {
return errors.New("Cannot save readonly buffer")
}
if b.Type.Scratch {
return errors.New("Cannot save scratch buffer")
}
b.UpdateRules()
if b.Settings["rmtrailingws"].(bool) {
for i, l := range b.lines {
leftover := utf8.RuneCount(bytes.TrimRightFunc(l.data, unicode.IsSpace))
linelen := utf8.RuneCount(l.data)
b.Remove(Loc{leftover, i}, Loc{linelen, i})
}
b.RelocateCursors()
}
if b.Settings["eofnewline"].(bool) {
end := b.End()
if b.RuneAt(Loc{end.X - 1, end.Y}) != '\n' {
b.Insert(end, "\n")
}
}
// Update the last time this file was updated after saving
defer func() {
b.ModTime, _ = GetModTime(filename)
err = b.Serialize()
}()
// Removes any tilde and replaces with the absolute path to home
absFilename, _ := ReplaceHome(filename)
// Get the leading path to the file | "." is returned if there's no leading path provided
if dirname := filepath.Dir(absFilename); dirname != "." {
// Check if the parent dirs don't exist
if _, statErr := os.Stat(dirname); os.IsNotExist(statErr) {
// Prompt to make sure they want to create the dirs that are missing
if b.Settings["mkparents"].(bool) {
// Create all leading dir(s) since they don't exist
if mkdirallErr := os.MkdirAll(dirname, os.ModePerm); mkdirallErr != nil {
// If there was an error creating the dirs
return mkdirallErr
}
} else {
return errors.New("Parent dirs don't exist, enable 'mkparents' for auto creation")
}
}
}
var fileSize int
enc, err := htmlindex.Get(b.Settings["encoding"].(string))
if err != nil {
return err
}
fwriter := func(file io.Writer) (e error) {
if len(b.lines) == 0 {
return
}
// end of line
var eol []byte
if b.Endings == FFDos {
eol = []byte{'\r', '\n'}
} else {
eol = []byte{'\n'}
}
// write lines
if fileSize, e = file.Write(b.lines[0].data); e != nil {
return
}
for _, l := range b.lines[1:] {
if _, e = file.Write(eol); e != nil {
return
}
if _, e = file.Write(l.data); e != nil {
return
}
fileSize += len(eol) + len(l.data)
}
return
}
if withSudo {
err = overwriteFileAsRoot(absFilename, enc, fwriter)
} else {
err = overwriteFile(absFilename, enc, fwriter)
}
if err != nil {
return err
}
if !b.Settings["fastdirty"].(bool) {
if fileSize > LargeFileThreshold {
// For large files 'fastdirty' needs to be on
b.Settings["fastdirty"] = true
} else {
calcHash(b, &b.origHash)
}
}
b.Path = filename
absPath, _ := filepath.Abs(filename)
b.AbsPath = absPath
b.isModified = false
return err
}

170
internal/buffer/search.go
View File

@@ -1,170 +0,0 @@
package buffer
import (
"regexp"
"unicode/utf8"
"github.com/zyedidia/micro/internal/util"
)
func (b *Buffer) findDown(r *regexp.Regexp, start, end Loc) ([2]Loc, bool) {
start.Y = util.Clamp(start.Y, 0, b.LinesNum()-1)
end.Y = util.Clamp(end.Y, 0, b.LinesNum()-1)
if start.GreaterThan(end) {
start, end = end, start
}
for i := start.Y; i <= end.Y; i++ {
l := b.LineBytes(i)
charpos := 0
if i == start.Y && start.Y == end.Y {
nchars := utf8.RuneCount(l)
start.X = util.Clamp(start.X, 0, nchars)
end.X = util.Clamp(end.X, 0, nchars)
l = util.SliceStart(l, end.X)
l = util.SliceEnd(l, start.X)
charpos = start.X
} else if i == start.Y {
nchars := utf8.RuneCount(l)
start.X = util.Clamp(start.X, 0, nchars)
l = util.SliceEnd(l, start.X)
charpos = start.X
} else if i == end.Y {
nchars := utf8.RuneCount(l)
end.X = util.Clamp(end.X, 0, nchars)
l = util.SliceStart(l, end.X)
}
match := r.FindIndex(l)
if match != nil {
start := Loc{charpos + util.RunePos(l, match[0]), i}
end := Loc{charpos + util.RunePos(l, match[1]), i}
return [2]Loc{start, end}, true
}
}
return [2]Loc{}, false
}
func (b *Buffer) findUp(r *regexp.Regexp, start, end Loc) ([2]Loc, bool) {
start.Y = util.Clamp(start.Y, 0, b.LinesNum()-1)
end.Y = util.Clamp(end.Y, 0, b.LinesNum()-1)
if start.GreaterThan(end) {
start, end = end, start
}
for i := end.Y; i >= start.Y; i-- {
l := b.LineBytes(i)
charpos := 0
if i == start.Y && start.Y == end.Y {
nchars := utf8.RuneCount(l)
start.X = util.Clamp(start.X, 0, nchars)
end.X = util.Clamp(end.X, 0, nchars)
l = util.SliceStart(l, end.X)
l = util.SliceEnd(l, start.X)
charpos = start.X
} else if i == start.Y {
nchars := utf8.RuneCount(l)
start.X = util.Clamp(start.X, 0, nchars)
l = util.SliceEnd(l, start.X)
charpos = start.X
} else if i == end.Y {
nchars := utf8.RuneCount(l)
end.X = util.Clamp(end.X, 0, nchars)
l = util.SliceStart(l, end.X)
}
match := r.FindIndex(l)
if match != nil {
start := Loc{charpos + util.RunePos(l, match[0]), i}
end := Loc{charpos + util.RunePos(l, match[1]), i}
return [2]Loc{start, end}, true
}
}
return [2]Loc{}, false
}
// FindNext finds the next occurrence of a given string in the buffer
// It returns the start and end location of the match (if found) and
// a boolean indicating if it was found
// May also return an error if the search regex is invalid
func (b *Buffer) FindNext(s string, start, end, from Loc, down bool, useRegex bool) ([2]Loc, bool, error) {
if s == "" {
return [2]Loc{}, false, nil
}
var r *regexp.Regexp
var err error
if !useRegex {
s = regexp.QuoteMeta(s)
}
if b.Settings["ignorecase"].(bool) {
r, err = regexp.Compile("(?i)" + s)
} else {
r, err = regexp.Compile(s)
}
if err != nil {
return [2]Loc{}, false, err
}
found := false
var l [2]Loc
if down {
l, found = b.findDown(r, from, end)
if !found {
l, found = b.findDown(r, start, from)
}
} else {
l, found = b.findUp(r, from, start)
if !found {
l, found = b.findUp(r, end, from)
}
}
return l, found, nil
}
// ReplaceRegex replaces all occurrences of 'search' with 'replace' in the given area
// and returns the number of replacements made
func (b *Buffer) ReplaceRegex(start, end Loc, search *regexp.Regexp, replace []byte) int {
if start.GreaterThan(end) {
start, end = end, start
}
found := 0
var deltas []Delta
for i := start.Y; i <= end.Y; i++ {
l := b.lines[i].data
charpos := 0
if start.Y == end.Y && i == start.Y {
l = util.SliceStart(l, end.X)
l = util.SliceEnd(l, start.X)
charpos = start.X
} else if i == start.Y {
l = util.SliceEnd(l, start.X)
charpos = start.X
} else if i == end.Y {
l = util.SliceStart(l, end.X)
}
newText := search.ReplaceAllFunc(l, func(in []byte) []byte {
found++
return replace
})
from := Loc{charpos, i}
to := Loc{charpos + utf8.RuneCount(l), i}
deltas = append(deltas, Delta{newText, from, to})
}
b.MultipleReplace(deltas)
return found
}

74
internal/buffer/serialize.go
View File

@@ -1,74 +0,0 @@
package buffer
import (
"encoding/gob"
"errors"
"io"
"os"
"time"
"golang.org/x/text/encoding"
"github.com/zyedidia/micro/internal/config"
. "github.com/zyedidia/micro/internal/util"
)
// The SerializedBuffer holds the types that get serialized when a buffer is saved
// These are used for the savecursor and saveundo options
type SerializedBuffer struct {
EventHandler *EventHandler
Cursor Loc
ModTime time.Time
}
// Serialize serializes the buffer to config.ConfigDir/buffers
func (b *Buffer) Serialize() error {
if !b.Settings["savecursor"].(bool) && !b.Settings["saveundo"].(bool) {
return nil
}
if b.Path == "" {
return nil
}
name := config.ConfigDir + "/buffers/" + EscapePath(b.AbsPath)
return overwriteFile(name, encoding.Nop, func(file io.Writer) error {
err := gob.NewEncoder(file).Encode(SerializedBuffer{
b.EventHandler,
b.GetActiveCursor().Loc,
b.ModTime,
})
return err
})
}
func (b *Buffer) Unserialize() error {
// If either savecursor or saveundo is turned on, we need to load the serialized information
// from ~/.config/micro/buffers
if b.Path == "" {
return nil
}
file, err := os.Open(config.ConfigDir + "/buffers/" + EscapePath(b.AbsPath))
defer file.Close()
if err == nil {
var buffer SerializedBuffer
decoder := gob.NewDecoder(file)
err = decoder.Decode(&buffer)
if err != nil {
return errors.New(err.Error() + "\nYou may want to remove the files in ~/.config/micro/buffers (these files store the information for the 'saveundo' and 'savecursor' options) if this problem persists.")
}
if b.Settings["savecursor"].(bool) {
b.StartCursor = buffer.Cursor
}
if b.Settings["saveundo"].(bool) {
// We should only use last time's eventhandler if the file wasn't modified by someone else in the meantime
if b.ModTime == buffer.ModTime {
b.EventHandler = buffer.EventHandler
b.EventHandler.cursors = b.cursors
b.EventHandler.buf = b.SharedBuffer
}
}
}
return nil
}

57
internal/buffer/settings.go
View File

@@ -1,57 +0,0 @@
package buffer
import (
"github.com/zyedidia/micro/internal/config"
"github.com/zyedidia/micro/internal/screen"
)
func (b *Buffer) SetOptionNative(option string, nativeValue interface{}) error {
b.Settings[option] = nativeValue
if option == "fastdirty" {
if !nativeValue.(bool) {
e := calcHash(b, &b.origHash)
if e == ErrFileTooLarge {
b.Settings["fastdirty"] = false
}
}
} else if option == "statusline" {
screen.Redraw()
} else if option == "filetype" {
b.UpdateRules()
} else if option == "fileformat" {
switch b.Settings["fileformat"].(string) {
case "unix":
b.Endings = FFUnix
case "dos":
b.Endings = FFDos
}
b.isModified = true
} else if option == "syntax" {
if !nativeValue.(bool) {
b.ClearMatches()
} else {
b.UpdateRules()
}
} else if option == "encoding" {
b.isModified = true
} else if option == "readonly" {
b.Type.Readonly = nativeValue.(bool)
}
return nil
}
// SetOption sets a given option to a value just for this buffer
func (b *Buffer) SetOption(option, value string) error {
if _, ok := b.Settings[option]; !ok {
return config.ErrInvalidOption
}
nativeValue, err := config.GetNativeValue(option, b.Settings[option], value)
if err != nil {
return err
}
return b.SetOptionNative(option, nativeValue)
}

35
internal/buffer/stack_test.go
View File

@@ -1,35 +0,0 @@
package buffer
import (
"testing"
"time"
"github.com/stretchr/testify/assert"
)
func TestStack(t *testing.T) {
s := new(TEStack)
e1 := &TextEvent{
EventType: TextEventReplace,
Time: time.Now(),
}
e2 := &TextEvent{
EventType: TextEventInsert,
Time: time.Now(),
}
s.Push(e1)
s.Push(e2)
p := s.Peek()
assert.Equal(t, p.EventType, TextEventInsert)
p = s.Pop()
assert.Equal(t, p.EventType, TextEventInsert)
p = s.Peek()
assert.Equal(t, p.EventType, TextEventReplace)
p = s.Pop()
assert.Equal(t, p.EventType, TextEventReplace)
p = s.Pop()
assert.Nil(t, p)
p = s.Peek()
assert.Nil(t, p)
}

45
internal/config/autosave.go
View File

@@ -1,45 +0,0 @@
package config
import (
"sync"
"time"
)
var Autosave chan bool
var autotime int
// lock for autosave
var autolock sync.Mutex
func init() {
Autosave = make(chan bool)
}
func SetAutoTime(a int) {
autolock.Lock()
autotime = a
autolock.Unlock()
}
func GetAutoTime() int {
autolock.Lock()
a := autotime
autolock.Unlock()
return a
}
func StartAutoSave() {
go func() {
for {
if autotime < 1 {
break
}
time.Sleep(time.Duration(autotime) * time.Second)
// it's possible autotime was changed while sleeping
if autotime < 1 {
break
}
Autosave <- true
}
}()
}

62
internal/config/colorscheme_test.go
View File

@@ -1,62 +0,0 @@
package config
import (
"testing"
"github.com/stretchr/testify/assert"
"github.com/zyedidia/tcell"
)
func TestSimpleStringToStyle(t *testing.T) {
s := StringToStyle("lightblue,magenta")
fg, bg, _ := s.Decompose()
assert.Equal(t, tcell.ColorBlue, fg)
assert.Equal(t, tcell.ColorPurple, bg)
}
func TestAttributeStringToStyle(t *testing.T) {
s := StringToStyle("bold cyan,brightcyan")
fg, bg, attr := s.Decompose()
assert.Equal(t, tcell.ColorTeal, fg)
assert.Equal(t, tcell.ColorAqua, bg)
assert.NotEqual(t, 0, attr&tcell.AttrBold)
}
func TestColor256StringToStyle(t *testing.T) {
s := StringToStyle("128,60")
fg, bg, _ := s.Decompose()
assert.Equal(t, tcell.Color128, fg)
assert.Equal(t, tcell.Color60, bg)
}
func TestColorHexStringToStyle(t *testing.T) {
s := StringToStyle("#deadbe,#ef1234")
fg, bg, _ := s.Decompose()
assert.Equal(t, tcell.NewRGBColor(222, 173, 190), fg)
assert.Equal(t, tcell.NewRGBColor(239, 18, 52), bg)
}
func TestColorschemeParser(t *testing.T) {
testColorscheme := `color-link default "#F8F8F2,#282828"
color-link comment "#75715E,#282828"
# comment
color-link identifier "#66D9EF,#282828" #comment
color-link constant "#AE81FF,#282828"
color-link constant.string "#E6DB74,#282828"
color-link constant.string.char "#BDE6AD,#282828"`
c, err := ParseColorscheme(testColorscheme)
assert.Nil(t, err)
fg, bg, _ := c["comment"].Decompose()
assert.Equal(t, tcell.NewRGBColor(117, 113, 94), fg)
assert.Equal(t, tcell.NewRGBColor(40, 40, 40), bg)
}

54
internal/config/config.go
View File

@@ -1,54 +0,0 @@
package config
import (
"errors"
"os"
homedir "github.com/mitchellh/go-homedir"
)
var ConfigDir string
// InitConfigDir finds the configuration directory for micro according to the XDG spec.
// If no directory is found, it creates one.
func InitConfigDir(flagConfigDir string) error {
var e error
xdgHome := os.Getenv("XDG_CONFIG_HOME")
if xdgHome == "" {
// The user has not set $XDG_CONFIG_HOME so we should act like it was set to ~/.config
home, err := homedir.Dir()
if err != nil {
return errors.New("Error finding your home directory\nCan't load config files")
}
xdgHome = home + "/.config"
}
ConfigDir = xdgHome + "/micro"
if len(flagConfigDir) > 0 {
if _, err := os.Stat(flagConfigDir); os.IsNotExist(err) {
e = errors.New("Error: " + flagConfigDir + " does not exist. Defaulting to " + ConfigDir + ".")
} else {
ConfigDir = flagConfigDir
return nil
}
}
if _, err := os.Stat(xdgHome); os.IsNotExist(err) {
// If the xdgHome doesn't exist we should create it
err = os.Mkdir(xdgHome, os.ModePerm)
if err != nil {
return errors.New("Error creating XDG_CONFIG_HOME directory: " + err.Error())
}
}
if _, err := os.Stat(ConfigDir); os.IsNotExist(err) {
// If the micro specific config directory doesn't exist we should create that too
err = os.Mkdir(ConfigDir, os.ModePerm)
if err != nil {
return errors.New("Error creating configuration directory: " + err.Error())
}
}
return e
}

7
internal/config/globals.go
View File

@@ -1,7 +0,0 @@
package config
const (
DoubleClickThreshold = 400 // How many milliseconds to wait before a second click is not a double click
)
var Bindings map[string]string

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