116 lines
3.6 KiB
C
116 lines
3.6 KiB
C
#ifndef _BGC_UTILITIES_H_
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#define _BGC_UTILITIES_H_
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#define BGC_FP32_EPSYLON_EFFECTIVENESS_LIMIT 1.0f
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#define BGC_FP32_EPSYLON 4.76837E-7f
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#define BGC_FP32_SQUARE_EPSYLON (BGC_FP32_EPSYLON * BGC_FP32_EPSYLON)
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#define BGC_FP32_ONE_THIRD 0.3333333333f
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#define BGC_FP32_ONE_SIXTH 0.1666666667f
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#define BGC_FP32_ONE_SEVENTH 0.142857142857f
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#define BGC_FP32_ONE_NINETH 0.1111111111f
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#define BGC_FP32_GOLDEN_RATIO_HIGH 1.618034f
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#define BGC_FP32_GOLDEN_RATIO_LOW 0.618034f
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#define BGC_FP64_EPSYLON_EFFECTIVENESS_LIMIT 1.0
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#define BGC_FP64_EPSYLON 4.996003611E-14
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#define BGC_FP64_SQUARE_EPSYLON (BGC_FP64_EPSYLON * BGC_FP64_EPSYLON)
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#define BGC_FP64_ONE_THIRD 0.3333333333333333333
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#define BGC_FP64_ONE_SIXTH 0.1666666666666666667
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#define BGC_FP64_ONE_SEVENTH 0.142857142857142857
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#define BGC_FP64_ONE_NINETH 0.1111111111111111111
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#define BGC_FP64_GOLDEN_RATIO_HIGH 1.61803398874989485
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#define BGC_FP64_GOLDEN_RATIO_LOW 0.61803398874989485
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#define BGC_SUCCESS 0
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#define BGC_FAILED -1
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#define BGC_ATTITUDE_ANY 0
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#define BGC_ATTITUDE_ZERO 1
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#define BGC_ATTITUDE_ORTHOGONAL 2
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#define BGC_ATTITUDE_CO_DIRECTIONAL 3
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#define BGC_ATTITUDE_COUNTER_DIRECTIONAL 4
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#define BGC_AXIS_X1 1
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#define BGC_AXIS_X2 2
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#define BGC_AXIS_X3 3
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#define BGC_AXIS_REVERSE_X1 -1
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#define BGC_AXIS_REVERSE_X2 -2
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#define BGC_AXIS_REVERSE_X3 -3
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inline int bgc_is_correct_axis(const int axis)
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{
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return axis == BGC_AXIS_X1 || axis == BGC_AXIS_REVERSE_X1
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|| axis == BGC_AXIS_X2 || axis == BGC_AXIS_REVERSE_X2
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|| axis == BGC_AXIS_X3 || axis == BGC_AXIS_REVERSE_X3;
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}
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inline int bgc_fp32_is_zero(const float value)
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{
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return (-BGC_FP32_EPSYLON <= value) && (value <= BGC_FP32_EPSYLON);
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}
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inline int bgc_fp64_is_zero(const double value)
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{
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return (-BGC_FP64_EPSYLON <= value) && (value <= BGC_FP64_EPSYLON);
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}
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inline int bgc_fp32_is_unit(const float value)
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{
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return (1.0f - BGC_FP32_EPSYLON <= value) && (value <= 1.0f + BGC_FP32_EPSYLON);
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}
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inline int bgc_fp64_is_unit(const double value)
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{
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return (1.0 - BGC_FP64_EPSYLON <= value) && (value <= 1.0 + BGC_FP64_EPSYLON);
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}
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inline int bgc_fp32_is_square_unit(const float square_value)
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{
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return (1.0f - 2.0f * BGC_FP32_EPSYLON <= square_value) && (square_value <= 1.0f + 2.0f * BGC_FP32_EPSYLON);
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}
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inline int bgc_fp64_is_square_unit(const double square_value)
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{
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return (1.0 - 2.0 * BGC_FP64_EPSYLON <= square_value) && (square_value <= 1.0 + 2.0 * BGC_FP64_EPSYLON);
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}
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// ================== Are Close ================= //
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inline int bgc_fp32_are_close(const float value1, const float value2)
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{
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const float difference = value1 - value2;
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const float square_value1 = value1 * value1;
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const float square_value2 = value2 * value2;
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const float square_difference = difference * difference;
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if (square_value1 <= BGC_FP32_EPSYLON_EFFECTIVENESS_LIMIT || square_value2 <= BGC_FP32_EPSYLON_EFFECTIVENESS_LIMIT) {
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return square_difference <= BGC_FP32_SQUARE_EPSYLON;
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}
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return square_difference <= BGC_FP32_SQUARE_EPSYLON * square_value1 && square_difference <= BGC_FP32_SQUARE_EPSYLON * square_value2;
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}
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inline int bgc_fp64_are_close(const double value1, const double value2)
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{
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const double difference = value1 - value2;
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const double square_value1 = value1 * value1;
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const double square_value2 = value2 * value2;
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const double square_difference = difference * difference;
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if (square_value1 <= BGC_FP64_EPSYLON_EFFECTIVENESS_LIMIT || square_value2 <= BGC_FP64_EPSYLON_EFFECTIVENESS_LIMIT) {
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return square_difference <= BGC_FP64_SQUARE_EPSYLON;
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}
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return square_difference <= BGC_FP64_SQUARE_EPSYLON * square_value1 && square_difference <= BGC_FP64_SQUARE_EPSYLON * square_value2;
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}
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#endif
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