find . | xargs grep out_of_range ./src/lib/general/gri_fft.cc: throw std::out_of_range ("gri_fftw: invalid fft_size"); ./src/lib/general/gri_fft.cc: throw std::out_of_range ("gri_fftw: invalid number of threads"); ./src/lib/general/gri_fft.cc: throw std::out_of_range ("gri_fftw: invalid fft_size"); ./src/lib/general/gri_fft.cc: throw std::out_of_range ("gri_fftw: invalid number of threads"); ./src/lib/general/gri_fft.cc: throw std::out_of_range ("gri_fftw: invalid fft_size"); ./src/lib/general/gri_fft.cc: throw std::out_of_range ("gri_fftw: invalid number of threads"); ./src/lib/general/gr_firdes.i: ) throw(std::out_of_range); ./src/lib/general/gr_firdes.i: ) throw(std::out_of_range); ./src/lib/general/gr_firdes.i: ) throw(std::out_of_range); ./src/lib/general/gr_firdes.i: ) throw(std::out_of_range); ./src/lib/general/gr_firdes.i: ) throw(std::out_of_range); ./src/lib/general/gr_firdes.i: ) throw(std::out_of_range); ./src/lib/general/gr_firdes.i: ) throw(std::out_of_range); ./src/lib/general/gr_firdes.i: int ntaps) throw(std::out_of_range); ./src/lib/general/gr_firdes.i: int ntaps) throw(std::out_of_range); ./src/lib/general/gr_correlate_access_code_tag_bb.i: throw(std::out_of_range); ./src/lib/general/gr_firdes.cc: throw std::out_of_range("Hilbert: Must have odd number of taps"); ./src/lib/general/gr_firdes.cc: throw std::out_of_range ("gr_firdes:window: type out of range"); ./src/lib/general/gr_firdes.cc: throw std::out_of_range ("gr_firdes check failed: sampling_freq > 0"); ./src/lib/general/gr_firdes.cc: throw std::out_of_range ("gr_firdes check failed: 0 < fa <= sampling_freq / 2"); ./src/lib/general/gr_firdes.cc: throw std::out_of_range ("gr_dirdes check failed: transition_width > 0"); ./src/lib/general/gr_firdes.cc: throw std::out_of_range ("gr_firdes check failed: sampling_freq > 0"); ./src/lib/general/gr_firdes.cc: throw std::out_of_range ("gr_firdes check failed: 0 < fa <= sampling_freq / 2"); ./src/lib/general/gr_firdes.cc: throw std::out_of_range ("gr_firdes check failed: 0 < fb <= sampling_freq / 2"); ./src/lib/general/gr_firdes.cc: throw std::out_of_range ("gr_firdes check failed: fa <= fb"); ./src/lib/general/gr_firdes.cc: throw std::out_of_range ("gr_firdes check failed: transition_width > 0"); ./src/lib/general/gr_firdes.cc: throw std::out_of_range ("gr_firdes check failed: sampling_freq > 0"); ./src/lib/general/gr_firdes.cc: throw std::out_of_range ("gr_firdes check failed: 0 < fa <= sampling_freq / 2"); ./src/lib/general/gr_firdes.cc: throw std::out_of_range ("gr_firdes check failed: 0 < fb <= sampling_freq / 2"); ./src/lib/general/gr_firdes.cc: throw std::out_of_range ("gr_firdes check failed: fa <= fb"); ./src/lib/general/gr_firdes.cc: throw std::out_of_range ("gr_firdes check failed: transition_width > 0"); ./src/lib/general/gr_correlate_access_code_tag_bb.cc: throw std::out_of_range ("access_code is > 64 bits"); ./src/lib/general/gr_unpack_k_bits_bb.cc: throw std::out_of_range ("interpolation must be > 0"); ./src/lib/general/gri_control_loop.cc: throw std::out_of_range ("gri_control_loop: invalid bandwidth. Must be >= 0."); ./src/lib/general/gri_control_loop.cc: throw std::out_of_range ("gri_control_loop: invalid damping factor. Must be in [0,1]."); ./src/lib/general/gri_control_loop.cc: throw std::out_of_range ("gri_control_loop: invalid alpha. Must be in [0,1]."); ./src/lib/general/gri_control_loop.cc: throw std::out_of_range ("gri_control_loop: invalid beta. Must be in [0,1]."); ./src/lib/filter/gr_interp_fir_filter_XXX.cc.t: throw std::out_of_range ("interpolation must be > 0"); ./src/lib/filter/gr_rational_resampler_base_XXX.cc.t: throw std::out_of_range ("interpolation must be > 0"); ./src/lib/filter/gr_rational_resampler_base_XXX.cc.t: throw std::out_of_range ("decimation must be > 0"); ./src/lib/filter/gr_single_pole_iir.h: throw std::out_of_range ("Alpha must be in [0, 1]\n"); ./src/lib/filter/gr_single_pole_iir.h: throw std::out_of_range ("Alpha must be in [0, 1]\n"); ./src/lib/filter/gr_pfb_clock_sync_ccf.cc: throw std::out_of_range ("gr_pfb_clock_sync_cc: invalid bandwidth. Must be >= 0."); ./src/lib/filter/gr_pfb_clock_sync_ccf.cc: throw std::out_of_range ("gr_pfb_clock_sync_cc: invalid damping factor. Must be in [0,1]."); ./src/lib/filter/gr_pfb_clock_sync_ccf.cc: throw std::out_of_range ("gr_pfb_clock_sync_cc: invalid alpha. Must be in [0,1]."); ./src/lib/filter/gr_pfb_clock_sync_ccf.cc: throw std::out_of_range ("gr_pfb_clock_sync_cc: invalid beta. Must be in [0,1]."); ./src/lib/filter/gr_fractional_interpolator_cc.cc: throw std::out_of_range ("interpolation ratio must be > 0"); ./src/lib/filter/gr_fractional_interpolator_cc.cc: throw std::out_of_range ("phase shift ratio must be > 0 and < 1"); ./src/lib/filter/gr_fractional_interpolator_ff.cc: throw std::out_of_range ("interpolation ratio must be > 0"); ./src/lib/filter/gr_fractional_interpolator_ff.cc: throw std::out_of_range ("phase shift ratio must be > 0 and < 1"); ./src/lib/swig/guile/std_vector.i: T pop() throw (std::out_of_range) { ./src/lib/swig/guile/std_vector.i: throw std::out_of_range("pop from empty vector"); ./src/lib/swig/guile/std_vector.i: T& ref(int i) throw (std::out_of_range) { ./src/lib/swig/guile/std_vector.i: throw std::out_of_range("vector index out of range"); ./src/lib/swig/guile/std_vector.i: void set(int i, const T& x) throw (std::out_of_range) { ./src/lib/swig/guile/std_vector.i: throw std::out_of_range("vector index out of range"); ./src/lib/swig/guile/std_vector.i: T pop() throw (std::out_of_range) { ./src/lib/swig/guile/std_vector.i: throw std::out_of_range("pop from empty vector"); ./src/lib/swig/guile/std_vector.i: T ref(int i) throw (std::out_of_range) { ./src/lib/swig/guile/std_vector.i: throw std::out_of_range("vector index out of range"); ./src/lib/swig/guile/std_vector.i: void set(int i, T x) throw (std::out_of_range) { ./src/lib/swig/guile/std_vector.i: throw std::out_of_range("vector index out of range");