#bin_PROGRAMS = food cookbook cook synth
bin_PROGRAMS = synth

common_sources = adsr.c \
		 adsr.h \
		 control.c \
		 control.h \
		 filter.c \
                 filter.h \
                 lowpass.c \
                 lowpass.h \
                 Makefile.am \
                 midi.c \
                 midi.h \
                 notes.h \
                 osc.c \
                 osc.h \
                 osc_tri.c \
                 osc_sin.c \
                 osc_digisaw.c \
                 osc_saw.c \
                 osc_weird.c \
                 osc_sound.c \
                 raygui.h \
                 sound.c \
                 sound.h \
                 synth_common.h \
                 synth_engine.c \
                 synth_engine.h \
                 synth_gui.c \
                 synth_gui.h \
                 synth_math.h \
                 wavetable.c \
                 wavetable.h

# -fwhole-program allows cross-file inlining, but only works when you put all
# the source files on one gcc command-line. -flto is another way to get the
# same effect. (Link-Time Optimization). clang supports -flto but not
# -fwhole-program.

# If your program doesn't depend on strict FP rounding
# behaviour, use -ffast-math. If it does, you can usually still use
# -fno-math-errno and stuff like that, without enabling
# -funsafe-math-optimizations. Some FP code can get big speedups from
# fast-math, like auto-vectorization.
AM_CFLAGS = -O3 -march=native -fno-math-errno -funroll-loops -flto -pthread

synth_SOURCES = synth.c $(common_sources)
synth_LDADD = -lportaudio -lrt -lm -lasound -lraylib -lportmidi -ljack -lfftw3f -lsndfile
#cookbook_SOURCES = cookbook.c $(common_sources)
#cookbook_SOURCES = cookbook.c $(common_sources)
#cook_SOURCES = cook.c $(common_sources)