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Fix typos discovered with codespell

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This commit is contained in:
Carles Fernandez 2018-03-25 13:43:12 +02:00
parent 30d1494eec
commit 48f65b067b
4 changed files with 8 additions and 8 deletions
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2
src/algorithms/libs/volk_gnsssdr_module/volk_gnsssdr/README.md
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@ -8,7 +8,7 @@ and contact information about the original VOLK library.
The boilerplate of this code was initially generated with The boilerplate of this code was initially generated with
```volk_modtool```, an application provided by VOLK that creates the ```volk_modtool```, an application provided by VOLK that creates the
skeleton than can then be filled with custom kernels. Some modifications skeleton than can then be filled with custom kernels. Some modifications
were added to accomodate the specificities of Global Navigation were added to accommodate the specificities of Global Navigation
Satellite Systems (GNSS) signal processing. Those changes are clearly Satellite Systems (GNSS) signal processing. Those changes are clearly
indicated in the source code, and do not break compatibility. indicated in the source code, and do not break compatibility.

2
src/algorithms/libs/volk_gnsssdr_module/volk_gnsssdr/kernels/volk_gnsssdr/volk_gnsssdr_16ic_x2_dot_prod_16ic.h
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@ -187,7 +187,7 @@ static inline void volk_gnsssdr_16ic_x2_dot_prod_16ic_u_sse2(lv_16sc_t* out, con
for (number = 0; number < sse_iters; number++) for (number = 0; number < sse_iters; number++)
{ {
//std::complex<T> memory structure: real part -> reinterpret_cast<cv T*>(a)[2*i] //std::complex<T> memory structure: real part -> reinterpret_cast<cv T*>(a)[2*i]
//imaginery part -> reinterpret_cast<cv T*>(a)[2*i + 1] //imaginary part -> reinterpret_cast<cv T*>(a)[2*i + 1]
// a[127:0]=[a3.i,a3.r,a2.i,a2.r,a1.i,a1.r,a0.i,a0.r] // a[127:0]=[a3.i,a3.r,a2.i,a2.r,a1.i,a1.r,a0.i,a0.r]
a = _mm_loadu_si128((__m128i*)_in_a); //load (2 byte imag, 2 byte real) x 4 into 128 bits reg a = _mm_loadu_si128((__m128i*)_in_a); //load (2 byte imag, 2 byte real) x 4 into 128 bits reg
__VOLK_GNSSSDR_PREFETCH(_in_a + 8); __VOLK_GNSSSDR_PREFETCH(_in_a + 8);

4
src/algorithms/libs/volk_gnsssdr_module/volk_gnsssdr/kernels/volk_gnsssdr/volk_gnsssdr_16ic_x2_multiply_16ic.h
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@ -94,7 +94,7 @@ static inline void volk_gnsssdr_16ic_x2_multiply_16ic_a_sse2(lv_16sc_t* out, con
for (number = 0; number < sse_iters; number++) for (number = 0; number < sse_iters; number++)
{ {
//std::complex<T> memory structure: real part -> reinterpret_cast<cv T*>(a)[2*i] //std::complex<T> memory structure: real part -> reinterpret_cast<cv T*>(a)[2*i]
//imaginery part -> reinterpret_cast<cv T*>(a)[2*i + 1] //imaginary part -> reinterpret_cast<cv T*>(a)[2*i + 1]
// a[127:0]=[a3.i,a3.r,a2.i,a2.r,a1.i,a1.r,a0.i,a0.r] // a[127:0]=[a3.i,a3.r,a2.i,a2.r,a1.i,a1.r,a0.i,a0.r]
a = _mm_load_si128((__m128i*)_in_a); //load (2 byte imag, 2 byte real) x 4 into 128 bits reg a = _mm_load_si128((__m128i*)_in_a); //load (2 byte imag, 2 byte real) x 4 into 128 bits reg
b = _mm_load_si128((__m128i*)_in_b); b = _mm_load_si128((__m128i*)_in_b);
@ -148,7 +148,7 @@ static inline void volk_gnsssdr_16ic_x2_multiply_16ic_u_sse2(lv_16sc_t* out, con
for (number = 0; number < sse_iters; number++) for (number = 0; number < sse_iters; number++)
{ {
//std::complex<T> memory structure: real part -> reinterpret_cast<cv T*>(a)[2*i] //std::complex<T> memory structure: real part -> reinterpret_cast<cv T*>(a)[2*i]
//imaginery part -> reinterpret_cast<cv T*>(a)[2*i + 1] //imaginary part -> reinterpret_cast<cv T*>(a)[2*i + 1]
// a[127:0]=[a3.i,a3.r,a2.i,a2.r,a1.i,a1.r,a0.i,a0.r] // a[127:0]=[a3.i,a3.r,a2.i,a2.r,a1.i,a1.r,a0.i,a0.r]
a = _mm_loadu_si128((__m128i*)_in_a); //load (2 byte imag, 2 byte real) x 4 into 128 bits reg a = _mm_loadu_si128((__m128i*)_in_a); //load (2 byte imag, 2 byte real) x 4 into 128 bits reg
b = _mm_loadu_si128((__m128i*)_in_b); b = _mm_loadu_si128((__m128i*)_in_b);

8
src/algorithms/libs/volk_gnsssdr_module/volk_gnsssdr/kernels/volk_gnsssdr/volk_gnsssdr_16ic_xn_resampler_fast_16ic_xn.h
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@ -6,7 +6,7 @@
* </ul> * </ul>
* *
* VOLK_GNSSSDR kernel that esamples N 16 bits integer short complex vectors using zero hold resample algorithm. * VOLK_GNSSSDR kernel that esamples N 16 bits integer short complex vectors using zero hold resample algorithm.
* It is optimized to resample a sigle GNSS local code signal replica into N vectors fractional-resampled and fractional-delayed * It is optimized to resample a single GNSS local code signal replica into N vectors fractional-resampled and fractional-delayed
* (i.e. it creates the Early, Prompt, and Late code replicas) * (i.e. it creates the Early, Prompt, and Late code replicas)
* *
* ------------------------------------------------------------------------- * -------------------------------------------------------------------------
@ -145,7 +145,7 @@ static inline void volk_gnsssdr_16ic_xn_resampler_fast_16ic_xn_a_sse2(lv_16sc_t*
//common to all outputs //common to all outputs
_code_phase_out = _mm_mul_ps(_code_phase_step_chips, _4output_index); //compute the code phase point with the phase step _code_phase_out = _mm_mul_ps(_code_phase_step_chips, _4output_index); //compute the code phase point with the phase step
//output vector dependant (different code phase offset) //output vector dependent (different code phase offset)
for (current_vector = 0; current_vector < num_out_vectors; current_vector++) for (current_vector = 0; current_vector < num_out_vectors; current_vector++)
{ {
tmp_rem_code_phase_chips = rem_code_phase_chips[current_vector] - 0.5f; // adjust offset to perform correct rounding (chip transition at 0) tmp_rem_code_phase_chips = rem_code_phase_chips[current_vector] - 0.5f; // adjust offset to perform correct rounding (chip transition at 0)
@ -241,7 +241,7 @@ static inline void volk_gnsssdr_16ic_xn_resampler_fast_16ic_xn_u_sse2(lv_16sc_t*
//common to all outputs //common to all outputs
_code_phase_out = _mm_mul_ps(_code_phase_step_chips, _4output_index); //compute the code phase point with the phase step _code_phase_out = _mm_mul_ps(_code_phase_step_chips, _4output_index); //compute the code phase point with the phase step
//output vector dependant (different code phase offset) //output vector dependent (different code phase offset)
for (current_vector = 0; current_vector < num_out_vectors; current_vector++) for (current_vector = 0; current_vector < num_out_vectors; current_vector++)
{ {
tmp_rem_code_phase_chips = rem_code_phase_chips[current_vector] - 0.5f; // adjust offset to perform correct rounding (chip transition at 0) tmp_rem_code_phase_chips = rem_code_phase_chips[current_vector] - 0.5f; // adjust offset to perform correct rounding (chip transition at 0)
@ -339,7 +339,7 @@ static inline void volk_gnsssdr_16ic_xn_resampler_fast_16ic_xn_neon(lv_16sc_t**
//common to all outputs //common to all outputs
_code_phase_out = vmulq_f32(_code_phase_step_chips, _4output_index); //compute the code phase point with the phase step _code_phase_out = vmulq_f32(_code_phase_step_chips, _4output_index); //compute the code phase point with the phase step
//output vector dependant (different code phase offset) //output vector dependent (different code phase offset)
for (current_vector = 0; current_vector < num_out_vectors; current_vector++) for (current_vector = 0; current_vector < num_out_vectors; current_vector++)
{ {
tmp_rem_code_phase_chips = rem_code_phase_chips[current_vector] - 0.5f; // adjust offset to perform correct rounding (chip transition at 0) tmp_rem_code_phase_chips = rem_code_phase_chips[current_vector] - 0.5f; // adjust offset to perform correct rounding (chip transition at 0)