basisu_resampler.h - external/github.com/BinomialLLC/basis_universal - Git at Google

 // basisu_resampler.h
 // Copyright (C) 2019 Binomial LLC. All Rights Reserved.
 //
 // Licensed under the Apache License, Version 2.0 (the "License");
 // you may not use this file except in compliance with the License.
 // You may obtain a copy of the License at
 //
 //    http://www.apache.org/licenses/LICENSE-2.0
 //
 // Unless required by applicable law or agreed to in writing, software
 // distributed under the License is distributed on an "AS IS" BASIS,
 // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 // See the License for the specific language governing permissions and
 // limitations under the License.
 #pragma once
 #include "transcoder/basisu.h"

 #define BASISU_RESAMPLER_DEBUG_OPS (0)
 #define BASISU_RESAMPLER_DEFAULT_FILTER "lanczos4"
 #define BASISU_RESAMPLER_MAX_DIMENSION (16384)

 namespace basisu
 {
 	// float or double
 	typedef float Resample_Real;

 	class Resampler
 	{
 	public:
 		typedef Resample_Real Sample;

 		struct Contrib
 		{
 			Resample_Real weight;
 			uint16_t pixel;
 		};

 		struct Contrib_List
 		{
 			uint16_t n;
 			Contrib *p;
 		};

 		enum Boundary_Op
 		{
 			BOUNDARY_WRAP = 0,
 			BOUNDARY_REFLECT = 1,
 			BOUNDARY_CLAMP = 2
 		};

 		enum Status
 		{
 			STATUS_OKAY = 0,
 			STATUS_OUT_OF_MEMORY = 1,
 			STATUS_BAD_FILTER_NAME = 2,
 			STATUS_SCAN_BUFFER_FULL = 3
 		};

 		// src_x/src_y - Input dimensions
 		// dst_x/dst_y - Output dimensions
 		// boundary_op - How to sample pixels near the image boundaries
 		// sample_low/sample_high - Clamp output samples to specified range, or disable clamping if sample_low >= sample_high
 		// Pclist_x/Pclist_y - Optional pointers to contributor lists from another instance of a Resampler
 		// src_x_ofs/src_y_ofs - Offset input image by specified amount (fractional values okay)
 		Resampler(
 			int src_x, int src_y,
 			int dst_x, int dst_y,
 			Boundary_Op boundary_op = BOUNDARY_CLAMP,
 			Resample_Real sample_low = 0.0f, Resample_Real sample_high = 0.0f,
 			const char *Pfilter_name = BASISU_RESAMPLER_DEFAULT_FILTER,
 			Contrib_List *Pclist_x = NULL,
 			Contrib_List *Pclist_y = NULL,
 			Resample_Real filter_x_scale = 1.0f,
 			Resample_Real filter_y_scale = 1.0f,
 			Resample_Real src_x_ofs = 0.0f,
 			Resample_Real src_y_ofs = 0.0f);

 		~Resampler();

 		// Reinits resampler so it can handle another frame.
 		void restart();

 		// false on out of memory.
 		bool put_line(const Sample *Psrc);

 		// NULL if no scanlines are currently available (give the resampler more scanlines!)
 		const Sample *get_line();

 		Status status() const
 		{
 			return m_status;
 		}

 		// Returned contributor lists can be shared with another Resampler.
 		void get_clists(Contrib_List **ptr_clist_x, Contrib_List **ptr_clist_y);
 		Contrib_List *get_clist_x() const
 		{
 			return m_Pclist_x;
 		}
 		Contrib_List *get_clist_y() const
 		{
 			return m_Pclist_y;
 		}

 		// Filter accessors.
 		static int get_filter_num();
 		static const char *get_filter_name(int filter_num);

 		static Contrib_List *make_clist(
 			int src_x, int dst_x, Boundary_Op boundary_op,
 			Resample_Real(*Pfilter)(Resample_Real),
 			Resample_Real filter_support,
 			Resample_Real filter_scale,
 			Resample_Real src_ofs);

 	private:
 		Resampler();
 		Resampler(const Resampler &o);
 		Resampler &operator=(const Resampler &o);

 #ifdef BASISU_RESAMPLER_DEBUG_OPS
 		int total_ops;
 #endif

 		int m_intermediate_x;

 		int m_resample_src_x;
 		int m_resample_src_y;
 		int m_resample_dst_x;
 		int m_resample_dst_y;

 		Boundary_Op m_boundary_op;

 		Sample *m_Pdst_buf;
 		Sample *m_Ptmp_buf;

 		Contrib_List *m_Pclist_x;
 		Contrib_List *m_Pclist_y;

 		bool m_clist_x_forced;
 		bool m_clist_y_forced;

 		bool m_delay_x_resample;

 		int *m_Psrc_y_count;
 		uint8_t *m_Psrc_y_flag;

 		// The maximum number of scanlines that can be buffered at one time.
 		enum
 		{
 			MAX_SCAN_BUF_SIZE = BASISU_RESAMPLER_MAX_DIMENSION
 		};

 		struct Scan_Buf
 		{
 			int scan_buf_y[MAX_SCAN_BUF_SIZE];
 			Sample *scan_buf_l[MAX_SCAN_BUF_SIZE];
 		};

 		Scan_Buf *m_Pscan_buf;

 		int m_cur_src_y;
 		int m_cur_dst_y;

 		Status m_status;

 		void resample_x(Sample *Pdst, const Sample *Psrc);
 		void scale_y_mov(Sample *Ptmp, const Sample *Psrc, Resample_Real weight, int dst_x);
 		void scale_y_add(Sample *Ptmp, const Sample *Psrc, Resample_Real weight, int dst_x);
 		void clamp(Sample *Pdst, int n);
 		void resample_y(Sample *Pdst);

 		static int reflect(const int j, const int src_x, const Boundary_Op boundary_op);

 		inline int count_ops(Contrib_List *Pclist, int k)
 		{
 			int i, t = 0;
 			for (i = 0; i < k; i++)
 				t += Pclist[i].n;
 			return (t);
 		}

 		Resample_Real m_lo;
 		Resample_Real m_hi;

 		inline Resample_Real clamp_sample(Resample_Real f) const
 		{
 			if (f < m_lo)
 				f = m_lo;
 			else if (f > m_hi)
 				f = m_hi;
 			return f;
 		}
 	};

 } // namespace basisu
	// basisu_resampler.h
	// Copyright (C) 2019 Binomial LLC. All Rights Reserved.
	//
	// Licensed under the Apache License, Version 2.0 (the "License");
	// you may not use this file except in compliance with the License.
	// You may obtain a copy of the License at
	//
	// http://www.apache.org/licenses/LICENSE-2.0
	//
	// Unless required by applicable law or agreed to in writing, software
	// distributed under the License is distributed on an "AS IS" BASIS,
	// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	// See the License for the specific language governing permissions and
	// limitations under the License.
	#pragma once
	#include "transcoder/basisu.h"

	#define BASISU_RESAMPLER_DEBUG_OPS (0)
	#define BASISU_RESAMPLER_DEFAULT_FILTER "lanczos4"
	#define BASISU_RESAMPLER_MAX_DIMENSION (16384)

	namespace basisu
	{
	// float or double
	typedef float Resample_Real;

	class Resampler
	{
	public:
	typedef Resample_Real Sample;

	struct Contrib
	{
	Resample_Real weight;
	uint16_t pixel;
	};

	struct Contrib_List
	{
	uint16_t n;
	Contrib *p;
	};

	enum Boundary_Op
	{
	BOUNDARY_WRAP = 0,
	BOUNDARY_REFLECT = 1,
	BOUNDARY_CLAMP = 2
	};

	enum Status
	{
	STATUS_OKAY = 0,
	STATUS_OUT_OF_MEMORY = 1,
	STATUS_BAD_FILTER_NAME = 2,
	STATUS_SCAN_BUFFER_FULL = 3
	};

	// src_x/src_y - Input dimensions
	// dst_x/dst_y - Output dimensions
	// boundary_op - How to sample pixels near the image boundaries
	// sample_low/sample_high - Clamp output samples to specified range, or disable clamping if sample_low >= sample_high
	// Pclist_x/Pclist_y - Optional pointers to contributor lists from another instance of a Resampler
	// src_x_ofs/src_y_ofs - Offset input image by specified amount (fractional values okay)
	Resampler(
	int src_x, int src_y,
	int dst_x, int dst_y,
	Boundary_Op boundary_op = BOUNDARY_CLAMP,
	Resample_Real sample_low = 0.0f, Resample_Real sample_high = 0.0f,
	const char *Pfilter_name = BASISU_RESAMPLER_DEFAULT_FILTER,
	Contrib_List *Pclist_x = NULL,
	Contrib_List *Pclist_y = NULL,
	Resample_Real filter_x_scale = 1.0f,
	Resample_Real filter_y_scale = 1.0f,
	Resample_Real src_x_ofs = 0.0f,
	Resample_Real src_y_ofs = 0.0f);

	~Resampler();

	// Reinits resampler so it can handle another frame.
	void restart();

	// false on out of memory.
	bool put_line(const Sample *Psrc);

	// NULL if no scanlines are currently available (give the resampler more scanlines!)
	const Sample *get_line();

	Status status() const
	{
	return m_status;
	}

	// Returned contributor lists can be shared with another Resampler.
	void get_clists(Contrib_List ptr_clist_x, Contrib_List ptr_clist_y);
	Contrib_List *get_clist_x() const
	{
	return m_Pclist_x;
	}
	Contrib_List *get_clist_y() const
	{
	return m_Pclist_y;
	}

	// Filter accessors.
	static int get_filter_num();
	static const char *get_filter_name(int filter_num);

	static Contrib_List *make_clist(
	int src_x, int dst_x, Boundary_Op boundary_op,
	Resample_Real(*Pfilter)(Resample_Real),
	Resample_Real filter_support,
	Resample_Real filter_scale,
	Resample_Real src_ofs);

	private:
	Resampler();
	Resampler(const Resampler &o);
	Resampler &operator=(const Resampler &o);

	#ifdef BASISU_RESAMPLER_DEBUG_OPS
	int total_ops;
	#endif

	int m_intermediate_x;

	int m_resample_src_x;
	int m_resample_src_y;
	int m_resample_dst_x;
	int m_resample_dst_y;

	Boundary_Op m_boundary_op;

	Sample *m_Pdst_buf;
	Sample *m_Ptmp_buf;

	Contrib_List *m_Pclist_x;
	Contrib_List *m_Pclist_y;

	bool m_clist_x_forced;
	bool m_clist_y_forced;

	bool m_delay_x_resample;

	int *m_Psrc_y_count;
	uint8_t *m_Psrc_y_flag;

	// The maximum number of scanlines that can be buffered at one time.
	enum
	{
	MAX_SCAN_BUF_SIZE = BASISU_RESAMPLER_MAX_DIMENSION
	};

	struct Scan_Buf
	{
	int scan_buf_y[MAX_SCAN_BUF_SIZE];
	Sample *scan_buf_l[MAX_SCAN_BUF_SIZE];
	};

	Scan_Buf *m_Pscan_buf;

	int m_cur_src_y;
	int m_cur_dst_y;

	Status m_status;

	void resample_x(Sample Pdst, const Sample Psrc);
	void scale_y_mov(Sample Ptmp, const Sample Psrc, Resample_Real weight, int dst_x);
	void scale_y_add(Sample Ptmp, const Sample Psrc, Resample_Real weight, int dst_x);
	void clamp(Sample *Pdst, int n);
	void resample_y(Sample *Pdst);

	static int reflect(const int j, const int src_x, const Boundary_Op boundary_op);

	inline int count_ops(Contrib_List *Pclist, int k)
	{
	int i, t = 0;
	for (i = 0; i < k; i++)
	t += Pclist[i].n;
	return (t);
	}

	Resample_Real m_lo;
	Resample_Real m_hi;

	inline Resample_Real clamp_sample(Resample_Real f) const
	{
	if (f < m_lo)
	f = m_lo;
	else if (f > m_hi)
	f = m_hi;
	return f;
	}
	};

	} // namespace basisu