-
Notifications
You must be signed in to change notification settings - Fork 0
/
CMakeLists.txt
139 lines (112 loc) · 7.39 KB
/
CMakeLists.txt
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
# Example Audio Plugin CMakeLists.txt
# To get started on a new plugin, copy this entire folder (containing this file and C++ sources) to
# a convenient location, and then start making modifications.
# The first line of any CMake project should be a call to `cmake_minimum_required`, which checks
# that the installed CMake will be able to understand the following CMakeLists, and ensures that
# CMake's behaviour is compatible with the named version. This is a standard CMake command, so more
# information can be found in the CMake docs.
cmake_minimum_required(VERSION 3.15)
# The top-level CMakeLists.txt file for a project must contain a literal, direct call to the
# `project()` command. `project()` sets up some helpful variables that describe source/binary
# directories, and the current project version. This is a standard CMake command.
project(OVERVOLTAGE VERSION 0.0.1)
find_package(LibXml2 REQUIRED)
if (CMAKE_CXX_COMPILER_ID STREQUAL "GNU")
find_package(fmt REQUIRED)
set( FMTLIB "fmt::fmt" )
set( BCRYPT )
else()
set( FMTLIB )
set( BCRYPT "bcrypt" )
add_compile_definitions( LIBXML_STATIC )
endif()
# If you've installed JUCE somehow (via a package manager, or directly using the CMake install
# target), you'll need to tell this project that it depends on the installed copy of JUCE. If you've
# included JUCE directly in your source tree (perhaps as a submodule), you'll need to tell CMake to
# include that subdirectory as part of the build.
#find_package(JUCE CONFIG REQUIRED) # If you've installed JUCE to your system
# or
add_subdirectory(JUCE) # If you've put JUCE in a subdirectory called JUCE
# If you are building a VST2 or AAX plugin, CMake needs to be told where to find these SDKs on your
# system. This setup should be done before calling `juce_add_plugin`.
# juce_set_vst2_sdk_path(...)
# juce_set_aax_sdk_path(...)
# `juce_add_plugin` adds a static library target with the name passed as the first argument
# (AudioPluginExample here). This target is a normal CMake target, but has a lot of extra properties set
# up by default. As well as this shared code static library, this function adds targets for each of
# the formats specified by the FORMATS arguments. This function accepts many optional arguments.
# Check the readme at `docs/CMake API.md` in the JUCE repo for the full list.
add_compile_definitions( JUCE_DISPLAY_SPLASH_SCREEN=0 JUCE_MODAL_LOOPS_PERMITTED=1 )
set( CMAKE_CXX_STANDARD 20 )
juce_add_plugin(Overvoltage
# VERSION ... # Set this if the plugin version is different to the project version
# ICON_BIG ... # ICON_* arguments specify a path to an image file to use as an icon for the Standalone
# ICON_SMALL ...
# COMPANY_NAME ... # Specify the name of the plugin's author
IS_SYNTH TRUE # Is this a synth or an effect?
NEEDS_MIDI_INPUT TRUE # Does the plugin need midi input?
# NEEDS_MIDI_OUTPUT TRUE/FALSE # Does the plugin need midi output?
# IS_MIDI_EFFECT TRUE/FALSE # Is this plugin a MIDI effect?
# EDITOR_WANTS_KEYBOARD_FOCUS TRUE/FALSE # Does the editor need keyboard focus?
COPY_PLUGIN_AFTER_BUILD FALSE # Should the plugin be installed to a default location after building?
PLUGIN_MANUFACTURER_CODE ChnD # A four-character manufacturer id with at least one upper-case character
PLUGIN_CODE Ovr0 # A unique four-character plugin id with exactly one upper-case character
# GarageBand 10.3 requires the first letter to be upper-case, and the remaining letters to be lower-case
FORMATS AU VST3 LV2 Standalone # The formats to build. Other valid formats are: AAX Unity VST AU AUv3
LV2URI "https://github.com/chn-dev/Overvoltage.git"
PRODUCT_NAME "Overvoltage") # The name of the final executable, which can differ from the target name
# `juce_generate_juce_header` will create a JuceHeader.h for a given target, which will be generated
# into your build tree. This should be included with `#include <JuceHeader.h>`. The include path for
# this header will be automatically added to the target. The main function of the JuceHeader is to
# include all your JUCE module headers; if you're happy to include module headers directly, you
# probably don't need to call this.
juce_generate_juce_header(Overvoltage)
# `target_sources` adds source files to a target. We pass the target that needs the sources as the
# first argument, then a visibility parameter for the sources which should normally be PRIVATE.
# Finally, we supply a list of source files that will be built into the target. This is a standard
# CMake command.
file(GLOB_RECURSE SOURCE_FILES src/*.cpp src/*.c)
file(GLOB_RECURSE HEADER_FILES src/*.h)
target_sources(Overvoltage
PRIVATE
${SOURCE_FILES}
${HEADER_FILES})
# `target_compile_definitions` adds some preprocessor definitions to our target. In a Projucer
# project, these might be passed in the 'Preprocessor Definitions' field. JUCE modules also make use
# of compile definitions to switch certain features on/off, so if there's a particular feature you
# need that's not on by default, check the module header for the correct flag to set here. These
# definitions will be visible both to your code, and also the JUCE module code, so for new
# definitions, pick unique names that are unlikely to collide! This is a standard CMake command.
target_compile_definitions(Overvoltage
PUBLIC
# JUCE_WEB_BROWSER and JUCE_USE_CURL would be on by default, but you might not need them.
JUCE_WEB_BROWSER=0 # If you remove this, add `NEEDS_WEB_BROWSER TRUE` to the `juce_add_plugin` call
JUCE_USE_CURL=0 # If you remove this, add `NEEDS_CURL TRUE` to the `juce_add_plugin` call
JUCE_VST3_CAN_REPLACE_VST2=0)
# If your target needs extra binary assets, you can add them here. The first argument is the name of
# a new static library target that will include all the binary resources. There is an optional
# `NAMESPACE` argument that can specify the namespace of the generated binary data class. Finally,
# the SOURCES argument should be followed by a list of source files that should be built into the
# static library. These source files can be of any kind (wav data, images, fonts, icons etc.).
# Conversion to binary-data will happen when your target is built.
# juce_add_binary_data(AudioPluginData SOURCES ...)
# `target_link_libraries` links libraries and JUCE modules to other libraries or executables. Here,
# we're linking our executable target to the `juce::juce_audio_utils` module. Inter-module
# dependencies are resolved automatically, so `juce_core`, `juce_events` and so on will also be
# linked automatically. If we'd generated a binary data target above, we would need to link to it
# here too. This is a standard CMake command.
target_link_libraries(Overvoltage
PRIVATE
# AudioPluginData # If we'd created a binary data target, we'd link to it here
juce::juce_audio_utils
PUBLIC
${FMTLIB}
${LIBXML2_LIBRARIES}
${BCRYPT}
juce::juce_recommended_config_flags
juce::juce_recommended_lto_flags
juce::juce_recommended_warning_flags)
target_include_directories( Overvoltage
PUBLIC
${LIBXML2_INCLUDE_DIR}
"src" )