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Liboil Reference Manual | |
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void oil_abs_f32_f32 (float *dest,int dstr,const float *src,int sstr,int n); void oil_abs_f64_f64 (double *dest,int dstr,const double *src,int sstr,int n); void oil_abs_u16_s16 (uint16_t *dest,int dstr,const int16_t *src,int sstr,int n); void oil_abs_u32_s32 (uint32_t *dest,int dstr,const int32_t *src,int sstr,int n); void oil_abs_u8_s8 (uint8_t *dest,int dstr,const int8_t *src,int sstr,int n); void oil_average2_u8 (uint8_t *d,int dstr,const uint8_t *s1,int sstr1,const uint8_t *s2,int sstr2,int n); void oil_multsum_f32 (float *dest,const float *src1,int sstr1,const float *src2,int sstr2,int n); void oil_multsum_f64 (double *dest,const double *src1,int sstr1,const double *src2,int sstr2,int n); void oil_scalaradd_f32 (float *d,int dstr,const float *s1,int sstr,const float *s2_1,int n); void oil_scalaradd_f64 (double *d,int dstr,const double *s1,int sstr,const double *s2_1,int n); void oil_scalaradd_s16 (int16_t *d,int dstr,const int16_t *s1,int sstr,const int16_t *s2_1,int n); void oil_scalaradd_s32 (int32_t *d,int dstr,const int32_t *s1,int sstr,const int32_t *s2_1,int n); void oil_scalaradd_s8 (int8_t *d,int dstr,const int8_t *s1,int sstr,const int8_t *s2_1,int n); void oil_scalaradd_u16 (uint16_t *d,int dstr,const uint16_t *s1,int sstr,const uint16_t *s2_1,int n); void oil_scalaradd_u32 (uint32_t *d,int dstr,const uint32_t *s1,int sstr,const uint32_t *s2_1,int n); void oil_scalaradd_u8 (uint8_t *d,int dstr,const uint8_t *s1,int sstr,const uint8_t *s2_1,int n); void oil_scalarmult_f32 (float *d,int dstr,const float *s1,int sstr,const float *s2_1,int n); void oil_scalarmult_f64 (double *d,int dstr,const double *s1,int sstr,const double *s2_1,int n); void oil_scalarmult_s16 (int16_t *d,int dstr,const int16_t *s1,int sstr,const int16_t *s2_1,int n); void oil_scalarmult_s32 (int32_t *d,int dstr,const int32_t *s1,int sstr,const int32_t *s2_1,int n); void oil_scalarmult_s8 (int8_t *d,int dstr,const int8_t *s1,int sstr,const int8_t *s2_1,int n); void oil_scalarmult_u16 (uint16_t *d,int dstr,const uint16_t *s1,int sstr,const uint16_t *s2_1,int n); void oil_scalarmult_u32 (uint32_t *d,int dstr,const uint32_t *s1,int sstr,const uint32_t *s2_1,int n); void oil_scalarmult_u8 (uint8_t *d,int dstr,const uint8_t *s1,int sstr,const uint8_t *s2_1,int n); void oil_vectoradd_f32 (float *d,int dstr,const float *s1,int sstr1,const float *s2,int sstr2,int n,const float *s3_1,const float *s4_1); void oil_vectoradd_f64 (double *d,int dstr,const double *s1,int sstr1,const double *s2,int sstr2,int n,const double *s3_1,const double *s4_1); void oil_vectoradd_s16 (int16_t *d,int dstr,const int16_t *s1,int sstr1,const int16_t *s2,int sstr2,int n,const int16_t *s3_1,const int16_t *s4_1); void oil_vectoradd_s32 (int32_t *d,int dstr,const int32_t *s1,int sstr1,const int32_t *s2,int sstr2,int n,const int32_t *s3_1,const int32_t *s4_1); void oil_vectoradd_s8 (int8_t *d,int dstr,const int8_t *s1,int sstr1,const int8_t *s2,int sstr2,int n,const int8_t *s3_1,const int8_t *s4_1); void oil_vectoradd_u16 (uint16_t *d,int dstr,const uint16_t *s1,int sstr1,const uint16_t *s2,int sstr2,int n,const uint16_t *s3_1,const uint16_t *s4_1); void oil_vectoradd_u32 (uint32_t *d,int dstr,const uint32_t *s1,int sstr1,const uint32_t *s2,int sstr2,int n,const uint32_t *s3_1,const uint32_t *s4_1); void oil_vectoradd_u8 (uint8_t *d,int dstr,const uint8_t *s1,int sstr1,const uint8_t *s2,int sstr2,int n,const uint8_t *s3_1,const uint8_t *s4_1); void oil_vectoradd_s_s8 (int8_t *d,int dstr,const int8_t *s1,int sstr1,const int8_t *s2,int sstr2,int n); void oil_vectoradd_s_u8 (uint8_t *d,int dstr,const uint8_t *s1,int sstr1,const uint8_t *s2,int sstr2,int n); void oil_vectoradd_s_s16 (int16_t *d,int dstr,const int16_t *s1,int sstr1,const int16_t *s2,int sstr2,int n); void oil_vectoradd_s_u16 (uint16_t *d,int dstr,const uint16_t *s1,int sstr1,const uint16_t *s2,int sstr2,int n); void oil_vectoradd_s_f32 (float *d,int dstr,const float *s1,int sstr1,const float *s2,int sstr2,int n); void oil_vectoradd_s_f64 (double *d,int dstr,const double *s1,int sstr1,const double *s2,int sstr2,int n); void oil_squaresum_f64 (double *d,const double *s,int n); void oil_squaresum_shifted_s16 (uint32_t *d,const int16_t *s,int n); void oil_sum_f64 (double *d_1,const double *s,int sstr,int n); void oil_add_f32 (float *d,const float *s1,const float *s2,int n); void oil_divide_f32 (float *d,const float *s1,const float *s2,int n); void oil_floor_f32 (float *d,const float *s,int n); void oil_inverse_f32 (float *d,const float *s,int n); void oil_maximum_f32 (float *d,const float *s1,const float *s2,int n); void oil_minimum_f32 (float *d,const float *s1,const float *s2,int n); void oil_multiply_f32 (float *d,const float *s1,const float *s2,int n); void oil_negative_f32 (float *d,const float *s,int n); void oil_scalaradd_f32_ns (float *d,const float *s1,const float *s2_1,int n); void oil_scalarmultiply_f32_ns (float *d,const float *s1,const float *s2_1,int n); void oil_sign_f32 (float *d,const float *s,int n); void oil_subtract_f32 (float *d,const float *s1,const float *s2,int n);
void oil_abs_f32_f32 (float *dest,int dstr,const float *src,int sstr,int n);
Calculates the absolute value of each element in the source array and writes it into the destination array.
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void oil_abs_f64_f64 (double *dest,int dstr,const double *src,int sstr,int n);
Calculates the absolute value of each element in the source array and writes it into the destination array.
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void oil_abs_u16_s16 (uint16_t *dest,int dstr,const int16_t *src,int sstr,int n);
Calculates the absolute value of each element in the source array and writes it into the destination array.
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void oil_abs_u32_s32 (uint32_t *dest,int dstr,const int32_t *src,int sstr,int n);
Calculates the absolute value of each element in the source array and writes it into the destination array.
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void oil_abs_u8_s8 (uint8_t *dest,int dstr,const int8_t *src,int sstr,int n);
Calculates the absolute value of each element in the source array and writes it into the destination array.
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void oil_average2_u8 (uint8_t *d,int dstr,const uint8_t *s1,int sstr1,const uint8_t *s2,int sstr2,int n);
Averages each element in s1 and s2 and places the result in d.
FIXME: This class is difficult to optimize and will likely be replaced.
void oil_multsum_f32 (float *dest,const float *src1,int sstr1,const float *src2,int sstr2,int n);
Multiplies each element in src1 and src2 and sums the results
over the entire array, and places the sum into dest.
void oil_multsum_f64 (double *dest,const double *src1,int sstr1,const double *src2,int sstr2,int n);
Multiplies each element in src1 and src2 and sums the results
over the entire array, and places the sum into dest.
void oil_scalaradd_f32 (float *d,int dstr,const float *s1,int sstr,const float *s2_1,int n);
Adds the constant value s2_1 to each value in s1 and places the
result in d.
FIXME: This function is difficult to optimize and will likely be replaced.
void oil_scalaradd_f64 (double *d,int dstr,const double *s1,int sstr,const double *s2_1,int n);
Adds the constant value s2_1 to each value in s1 and places the
result in d.
FIXME: This function is difficult to optimize and will likely be replaced.
void oil_scalaradd_s16 (int16_t *d,int dstr,const int16_t *s1,int sstr,const int16_t *s2_1,int n);
Adds the constant value s2_1 to each value in s1 and places the
result in d.
FIXME: This function is difficult to optimize and will likely be replaced.
void oil_scalaradd_s32 (int32_t *d,int dstr,const int32_t *s1,int sstr,const int32_t *s2_1,int n);
Adds the constant value s2_1 to each value in s1 and places the
result in d.
FIXME: This function is difficult to optimize and will likely be replaced.
void oil_scalaradd_s8 (int8_t *d,int dstr,const int8_t *s1,int sstr,const int8_t *s2_1,int n);
Adds the constant value s2_1 to each value in s1 and places the
result in d.
FIXME: This function is difficult to optimize and will likely be replaced.
void oil_scalaradd_u16 (uint16_t *d,int dstr,const uint16_t *s1,int sstr,const uint16_t *s2_1,int n);
Adds the constant value s2_1 to each value in s1 and places the
result in d.
FIXME: This function is difficult to optimize and will likely be replaced.
void oil_scalaradd_u32 (uint32_t *d,int dstr,const uint32_t *s1,int sstr,const uint32_t *s2_1,int n);
Adds the constant value s2_1 to each value in s1 and places the
result in d.
FIXME: This function is difficult to optimize and will likely be replaced.
void oil_scalaradd_u8 (uint8_t *d,int dstr,const uint8_t *s1,int sstr,const uint8_t *s2_1,int n);
Adds the constant value s2_1 to each value in s1 and places the
result in d.
FIXME: This function is difficult to optimize and will likely be replaced.
void oil_scalarmult_f32 (float *d,int dstr,const float *s1,int sstr,const float *s2_1,int n);
Multiplies the constant value s2_1 to each value in s1 and places the
result in d.
FIXME: This function is difficult to optimize and will likely be replaced.
void oil_scalarmult_f64 (double *d,int dstr,const double *s1,int sstr,const double *s2_1,int n);
Multiplies the constant value s2_1 to each value in s1 and places the
result in d.
FIXME: This function is difficult to optimize and will likely be replaced.
void oil_scalarmult_s16 (int16_t *d,int dstr,const int16_t *s1,int sstr,const int16_t *s2_1,int n);
Multiplies the constant value s2_1 to each value in s1 and places the
result in d.
FIXME: This function is difficult to optimize and will likely be replaced.
void oil_scalarmult_s32 (int32_t *d,int dstr,const int32_t *s1,int sstr,const int32_t *s2_1,int n);
Multiplies the constant value s2_1 to each value in s1 and places the
result in d.
FIXME: This function is difficult to optimize and will likely be replaced.
void oil_scalarmult_s8 (int8_t *d,int dstr,const int8_t *s1,int sstr,const int8_t *s2_1,int n);
Multiplies the constant value s2_1 to each value in s1 and places the
result in d.
FIXME: This function is difficult to optimize and will likely be replaced.
void oil_scalarmult_u16 (uint16_t *d,int dstr,const uint16_t *s1,int sstr,const uint16_t *s2_1,int n);
Multiplies the constant value s2_1 to each value in s1 and places the
result in d.
FIXME: This function is difficult to optimize and will likely be replaced.
void oil_scalarmult_u32 (uint32_t *d,int dstr,const uint32_t *s1,int sstr,const uint32_t *s2_1,int n);
Multiplies the constant value s2_1 to each value in s1 and places the
result in d.
FIXME: This function is difficult to optimize and will likely be replaced.
void oil_scalarmult_u8 (uint8_t *d,int dstr,const uint8_t *s1,int sstr,const uint8_t *s2_1,int n);
Multiplies the constant value s2_1 to each value in s1 and places the
result in d.
FIXME: This function is difficult to optimize and will likely be replaced.
void oil_vectoradd_f32 (float *d,int dstr,const float *s1,int sstr1,const float *s2,int sstr2,int n,const float *s3_1,const float *s4_1);
Multiplies the constant s3_1 with each element of s1 and
multiplies the constant s4_1 with each element of s2 and
adds the two results together and places the final result in
d.
FIXME: This function is difficult to optimize and will likely be replaced.
void oil_vectoradd_f64 (double *d,int dstr,const double *s1,int sstr1,const double *s2,int sstr2,int n,const double *s3_1,const double *s4_1);
Multiplies the constant s3_1 with each element of s1 and
multiplies the constant s4_1 with each element of s2 and
adds the two results together and places the final result in
d.
FIXME: This function is difficult to optimize and will likely be replaced.
void oil_vectoradd_s16 (int16_t *d,int dstr,const int16_t *s1,int sstr1,const int16_t *s2,int sstr2,int n,const int16_t *s3_1,const int16_t *s4_1);
Multiplies the constant s3_1 with each element of s1 and
multiplies the constant s4_1 with each element of s2 and
adds the two results together and places the final result in
d.
FIXME: This function is difficult to optimize and will likely be replaced.
void oil_vectoradd_s32 (int32_t *d,int dstr,const int32_t *s1,int sstr1,const int32_t *s2,int sstr2,int n,const int32_t *s3_1,const int32_t *s4_1);
Multiplies the constant s3_1 with each element of s1 and
multiplies the constant s4_1 with each element of s2 and
adds the two results together and places the final result in
d.
FIXME: This function is difficult to optimize and will likely be replaced.
void oil_vectoradd_s8 (int8_t *d,int dstr,const int8_t *s1,int sstr1,const int8_t *s2,int sstr2,int n,const int8_t *s3_1,const int8_t *s4_1);
Multiplies the constant s3_1 with each element of s1 and
multiplies the constant s4_1 with each element of s2 and
adds the two results together and places the final result in
d.
FIXME: This function is difficult to optimize and will likely be replaced.
void oil_vectoradd_u16 (uint16_t *d,int dstr,const uint16_t *s1,int sstr1,const uint16_t *s2,int sstr2,int n,const uint16_t *s3_1,const uint16_t *s4_1);
Multiplies the constant s3_1 with each element of s1 and
multiplies the constant s4_1 with each element of s2 and
adds the two results together and places the final result in
d.
FIXME: This function is difficult to optimize and will likely be replaced.
void oil_vectoradd_u32 (uint32_t *d,int dstr,const uint32_t *s1,int sstr1,const uint32_t *s2,int sstr2,int n,const uint32_t *s3_1,const uint32_t *s4_1);
Multiplies the constant s3_1 with each element of s1 and
multiplies the constant s4_1 with each element of s2 and
adds the two results together and places the final result in
d.
FIXME: This function is difficult to optimize and will likely be replaced.
void oil_vectoradd_u8 (uint8_t *d,int dstr,const uint8_t *s1,int sstr1,const uint8_t *s2,int sstr2,int n,const uint8_t *s3_1,const uint8_t *s4_1);
Multiplies the constant s3_1 with each element of s1 and
multiplies the constant s4_1 with each element of s2 and
adds the two results together and places the final result in
d.
FIXME: This function is difficult to optimize and will likely be replaced.
void oil_vectoradd_s_s8 (int8_t *d,int dstr,const int8_t *s1,int sstr1,const int8_t *s2,int sstr2,int n);
Adds each element of s1 to s2 and clamps the result to the range
of the type and places the result in d.
FIXME: This function is difficult to optimize and will likely be replaced.
void oil_vectoradd_s_u8 (uint8_t *d,int dstr,const uint8_t *s1,int sstr1,const uint8_t *s2,int sstr2,int n);
Adds each element of s1 to s2 and clamps the result to the range
of the type and places the result in d.
FIXME: This function is difficult to optimize and will likely be replaced.
void oil_vectoradd_s_s16 (int16_t *d,int dstr,const int16_t *s1,int sstr1,const int16_t *s2,int sstr2,int n);
Adds each element of s1 to s2 and clamps the result to the range
of the type and places the result in d.
FIXME: This function is difficult to optimize and will likely be replaced.
void oil_vectoradd_s_u16 (uint16_t *d,int dstr,const uint16_t *s1,int sstr1,const uint16_t *s2,int sstr2,int n);
Adds each element of s1 to s2 and clamps the result to the range
of the type and places the result in d.
FIXME: This function is difficult to optimize and will likely be replaced.
void oil_vectoradd_s_f32 (float *d,int dstr,const float *s1,int sstr1,const float *s2,int sstr2,int n);
Adds each element of s1 to s2 and clamps the result to the range
[-1,1] and places the result in d.
FIXME: This function is difficult to optimize and will likely be replaced.
void oil_vectoradd_s_f64 (double *d,int dstr,const double *s1,int sstr1,const double *s2,int sstr2,int n);
Adds each element of s1 to s2 and clamps the result to the range
[-1,1] and places the result in d.
FIXME: This function is difficult to optimize and will likely be replaced.
void oil_squaresum_f64 (double *d,const double *s,int n);
Sums the square of each element in s and places the result in
dest.
void oil_squaresum_shifted_s16 (uint32_t *d,const int16_t *s,int n);
Square each element in s and divide by (1<<15), and sum the
results, placing the final result in d.
void oil_sum_f64 (double *d_1,const double *s,int sstr,int n);
Sums the elements in the source array and places the result in
d.
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void oil_add_f32 (float *d,const float *s1,const float *s2,int n);
Adds elements in s2 and s1 and places the result in d.
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void oil_divide_f32 (float *d,const float *s1,const float *s2,int n);
Divides elements in s1 by s2 and places the result in d.
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void oil_floor_f32 (float *d,const float *s,int n);
Calculates the greatest integer less than or equal to each element
in s and places the result in d.
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void oil_inverse_f32 (float *d,const float *s,int n);
Calculates the multiplicative inverse of each element in s and
places the result in d.
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void oil_maximum_f32 (float *d,const float *s1,const float *s2,int n);
Places the greater of s1 and s2 in d.
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void oil_minimum_f32 (float *d,const float *s1,const float *s2,int n);
Places the lesser of s1 and s2 in d.
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void oil_multiply_f32 (float *d,const float *s1,const float *s2,int n);
Multiplies elements in s1 and s2 and places the result in d.
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void oil_negative_f32 (float *d,const float *s,int n);
Negates each element in s and places the result in d.
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void oil_scalaradd_f32_ns (float *d,const float *s1,const float *s2_1,int n);
Adds the constant value s2_1 to each source element and places
the result in d.
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void oil_scalarmultiply_f32_ns (float *d,const float *s1,const float *s2_1,int n);
Multiplies the constant value s2_1 and each source element and places
the result in d.
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void oil_sign_f32 (float *d,const float *s,int n);
Calculates the sign of each element in s and
places the result in d.
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