## A simple amplifier LV2 plugin import std/math import nymph const PluginUri = "urn:nymph:examples:amp" type SampleBuffer = UncheckedArray[cfloat] PluginPort {.pure.} = enum Input, Output, Gain AmpPlugin = object input: ptr SampleBuffer output: ptr SampleBuffer gain: ptr cfloat template db2coeff(db: cfloat): cfloat = pow(10.0, db / 20.0) proc instantiate(descriptor: ptr Lv2Descriptor; sampleRate: cdouble; bundlePath: cstring; features: ptr ptr Lv2Feature): Lv2Handle {.cdecl.} = return createShared(AmpPlugin) proc connectPort(instance: Lv2Handle; port: cuint; dataLocation: pointer) {.cdecl.} = let amp = cast[ptr AmpPlugin](instance) case cast[PluginPort](port) of PluginPort.Input: amp.input = cast[ptr SampleBuffer](dataLocation) of PluginPort.Output: amp.output = cast[ptr SampleBuffer](dataLocation) of PluginPort.Gain: amp.gain = cast[ptr cfloat](dataLocation) proc activate(instance: Lv2Handle) {.cdecl.} = discard proc run(instance: Lv2Handle; nSamples: cuint) {.cdecl.} = let amp = cast[ptr AmpPlugin](instance) for pos in 0 ..< nSamples: amp.output[pos] = amp.input[pos] * db2coeff(amp.gain[]) proc deactivate(instance: Lv2Handle) {.cdecl.} = discard proc cleanup(instance: Lv2Handle) {.cdecl.} = freeShared(cast[ptr AmpPlugin](instance)) proc extensionData(uri: cstring): pointer {.cdecl.} = return nil proc NimMain() {.cdecl, importc.} proc lv2Descriptor(index: cuint): ptr Lv2Descriptor {. cdecl, exportc, dynlib, extern: "lv2_descriptor".} = NimMain() if index == 0: result = createShared(Lv2Descriptor) result.uri = cstring(PluginUri) result.instantiate = instantiate result.connectPort = connectPort result.activate = activate result.run = run result.deactivate = deactivate result.cleanup = cleanup result.extensionData = extensionData