package cl // #include "cl.h" import "C" import ( "fmt" "unsafe" ) const maxPlatforms = 32 type Platform struct { id C.cl_platform_id } // Obtain the list of platforms available. func GetPlatforms() ([]*Platform, error) { var platformIds [maxPlatforms]C.cl_platform_id var nPlatforms C.cl_uint if err := C.clGetPlatformIDs(C.cl_uint(maxPlatforms), &platformIds[0], &nPlatforms); err != C.CL_SUCCESS { return nil, toError(err) } platforms := make([]*Platform, nPlatforms) for i := 0; i < int(nPlatforms); i++ { platforms[i] = &Platform{id: platformIds[i]} } return platforms, nil } const maxDeviceCount = 64 type DeviceType uint const ( DeviceTypeAll DeviceType = C.CL_DEVICE_TYPE_ALL ) type Device struct { id C.cl_device_id } func (p *Platform) GetAllDevices() ([]*Device, error) { var deviceIds [maxDeviceCount]C.cl_device_id var numDevices C.cl_uint var platformId C.cl_platform_id if p != nil { platformId = p.id } if err := C.clGetDeviceIDs(platformId, C.cl_device_type(DeviceTypeAll), C.cl_uint(maxDeviceCount), &deviceIds[0], &numDevices); err != C.CL_SUCCESS { return nil, toError(err) } if numDevices > maxDeviceCount { numDevices = maxDeviceCount } devices := make([]*Device, numDevices) for i := 0; i < int(numDevices); i++ { devices[i] = &Device{id: deviceIds[i]} } return devices, nil } func toError(code C.cl_int) error { return ErrOther(code) } type ErrOther int func (e ErrOther) Error() string { return fmt.Sprintf("cl: error %d", int(e)) } // Size of global device memory in bytes. func (d *Device) GlobalMemSize() int64 { val, _ := d.getInfoUlong(C.CL_DEVICE_GLOBAL_MEM_SIZE, true) return val } func (d *Device) getInfoUlong(param C.cl_device_info, panicOnError bool) (int64, error) { var val C.cl_ulong if err := C.clGetDeviceInfo(d.id, param, C.size_t(unsafe.Sizeof(val)), unsafe.Pointer(&val), nil); err != C.CL_SUCCESS { if panicOnError { panic("Should never fail") } return 0, toError(err) } return int64(val), nil }