CMakeLists.txt

# 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(blocks VERSION 0.1.7)
set(CMAKE_CXX_STANDARD 20)
set(CMAKE_CXX20_STANDARD_COMPILE_OPTION "-std:c++latest")
# 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.

if (MSVC_VERSION GREATER_EQUAL "1900") # this makes the msbuild github action not fail because of std::optional and stuff
    include(CheckCXXCompilerFlag)
    CHECK_CXX_COMPILER_FLAG("/std:c++latest" _cpp_latest_flag_supported)
    if (_cpp_latest_flag_supported)
        add_compile_options("/std:c++latest")
    endif()
endif()

# 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.

juce_add_plugin(blocks
    # ICON_BIG ...                              # ICON_* arguments specify a path to an image file to use as an icon for the Standalone
    # ICON_SMALL ...
    COMPANY_NAME soonth                          # 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 FALSE              # Does the plugin need midi output?
    IS_MIDI_EFFECT FALSE                 # Is this plugin a MIDI effect?
    # EDITOR_WANTS_KEYBOARD_FOCUS TRUE/FALSE    # Does the editor need keyboard focus?
    # COPY_PLUGIN_AFTER_BUILD TRUE/FALSE        # Should the plugin be installed to a default location after building?
    PLUGIN_MANUFACTURER_CODE Soon               # A four-character manufacturer id with at least one upper-case character
    PLUGIN_CODE Bloc                            # 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 Standalone                  # The formats to build. Other valid formats are: AAX Unity VST AU AUv3
    PRODUCT_NAME "blocks")        # 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(blocks)

# `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 SourceFiles CONFIGURE_DEPENDS "${CMAKE_CURRENT_SOURCE_DIR}/Source/*.cpp" "${CMAKE_CURRENT_SOURCE_DIR}/Source/*.h")

target_sources(blocks
    PRIVATE
    ${SourceFiles}
)
target_include_directories(blocks PRIVATE "${CMAKE_CURRENT_SOURCE_DIR}/Source")


configure_file(${CMAKE_SOURCE_DIR}/Source/version_config.h.in ${CMAKE_BINARY_DIR}/version_config.h)
target_include_directories(blocks PRIVATE ${CMAKE_BINARY_DIR})

# `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(blocks
    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 ...)

file(GLOB_RECURSE BinaryAssets CONFIGURE_DEPENDS "${CMAKE_CURRENT_SOURCE_DIR}/Assets/*.ttf" "${CMAKE_CURRENT_SOURCE_DIR}/Assets/*.svg" "${CMAKE_CURRENT_SOURCE_DIR}/Assets/*.key" "${CMAKE_CURRENT_SOURCE_DIR}/Assets/*.blocks")
juce_add_binary_data(blocks_binary_data NAMESPACE BinaryData SOURCES ${BinaryAssets})

if (UNIX AND NOT APPLE)
    set_target_properties(blocks_binary_data PROPERTIES POSITION_INDEPENDENT_CODE TRUE)
endif()

#`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(blocks
    PRIVATE
        blocks_binary_data           # If we'd created a binary data target, we'd link to it here
        juce::juce_audio_utils
        juce::juce_dsp
    PUBLIC
        juce::juce_recommended_config_flags
        juce::juce_recommended_lto_flags)