drivers/staging/media/atomisp/pci/atomisp2/css2400/isp/kernels/bnlm/ia_css_bnlm.host.c - manifest_repos/valens - Git at Google

 /*
  * Support for Intel Camera Imaging ISP subsystem.
  * Copyright (c) 2015, Intel Corporation.
  *
  * This program is free software; you can redistribute it and/or modify it
  * under the terms and conditions of the GNU General Public License,
  * version 2, as published by the Free Software Foundation.
  *
  * This program is distributed in the hope it will be useful, but WITHOUT
  * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
  * FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License for
  * more details.
  */

 #include "type_support.h"
 #include "ia_css_bnlm.host.h"

 #ifndef IA_CSS_NO_DEBUG
 #include "ia_css_debug.h" /* ia_css_debug_dtrace() */
 #endif
 #include <assert_support.h>

 #define BNLM_DIV_LUT_SIZE	(12)
 static const int32_t div_lut_nearests[BNLM_DIV_LUT_SIZE] = {
 	0, 454, 948, 1484, 2070, 2710, 3412, 4184, 5035, 5978, 7025, 8191
 };

 static const int32_t div_lut_slopes[BNLM_DIV_LUT_SIZE] = {
 	-7760, -6960, -6216, -5536, -4912, -4344, -3832, -3360, -2936, -2552, -2208, -2208
 };

 static const int32_t div_lut_intercepts[BNLM_DIV_LUT_SIZE] = {
 	8184, 7752, 7336, 6928, 6536, 6152, 5776, 5416, 5064, 4728, 4408, 4408
 };

 /* Encodes a look-up table from BNLM public parameters to vmem parameters.
  * Input:
  *	lut	:	bnlm_lut struct containing encoded vmem parameters look-up table
  *	lut_thr	:	array containing threshold values for lut
  *	lut_val	:	array containing output values related to lut_thr
  *	lut_size:	Size of lut_val array
  */
 static inline void
 bnlm_lut_encode(struct bnlm_lut *lut, const int32_t *lut_thr, const int32_t *lut_val, const uint32_t lut_size)
 {
 	u32 blk, i;
 	const u32 block_size = 16;
 	const u32 total_blocks = ISP_VEC_NELEMS / block_size;

 	/* Create VMEM LUTs from the threshold and value arrays.
 	 *
 	 * Min size of the LUT is 2 entries.
 	 *
 	 * Max size of the LUT is 16 entries, so that the LUT can fit into a
 	 * single group of 16 elements inside a vector.
 	 * Then these elements are copied into other groups inside the same
 	 * vector. If the LUT size is less than 16, then remaining elements are
 	 * set to 0.
 	 */
 	assert((lut_size >= 2) && (lut_size <= block_size));
 	/* array lut_thr has (lut_size-1) entries */
 	for (i = 0; i < lut_size-2; i++) {
 		/* Check if the lut_thr is monotonically increasing */
 		assert(lut_thr[i] <= lut_thr[i+1]);
 	}

 	/* Initialize */
 	for (i = 0; i < total_blocks * block_size; i++) {
 		lut->thr[0][i] = 0;
 		lut->val[0][i] = 0;
 	}

 	/* Copy all data */
 	for (i = 0; i < lut_size - 1; i++) {
 		lut->thr[0][i] = lut_thr[i];
 		lut->val[0][i] = lut_val[i];
 	}
 	lut->val[0][i] = lut_val[i]; /* val has one more element than thr */

 	/* Copy data from first block to all blocks */
 	for (blk = 1; blk < total_blocks; blk++) {
 		u32 blk_offset = blk * block_size;
 		for (i = 1; i < lut_size; i++) {
 			lut->thr[0][blk_offset + i] = lut->thr[0][i];
 			lut->val[0][blk_offset + i] = lut->val[0][i];
 		}
 	}
 }

 /*
  * - Encodes BNLM public parameters into VMEM parameters
  * - Generates VMEM parameters which will needed internally ISP
  */
 void
 ia_css_bnlm_vmem_encode(
 			struct bnlm_vmem_params *to,
 			const struct ia_css_bnlm_config *from,
 			size_t size)
 {
 	int i;
 	(void)size;

 	/* Initialize LUTs in VMEM parameters */
 	bnlm_lut_encode(&to->mu_root_lut, from->mu_root_lut_thr, from->mu_root_lut_val, 16);
 	bnlm_lut_encode(&to->sad_norm_lut, from->sad_norm_lut_thr, from->sad_norm_lut_val, 16);
 	bnlm_lut_encode(&to->sig_detail_lut, from->sig_detail_lut_thr, from->sig_detail_lut_val, 16);
 	bnlm_lut_encode(&to->sig_rad_lut, from->sig_rad_lut_thr, from->sig_rad_lut_val, 16);
 	bnlm_lut_encode(&to->rad_pow_lut, from->rad_pow_lut_thr, from->rad_pow_lut_val, 16);
 	bnlm_lut_encode(&to->nl_0_lut, from->nl_0_lut_thr, from->nl_0_lut_val, 16);
 	bnlm_lut_encode(&to->nl_1_lut, from->nl_1_lut_thr, from->nl_1_lut_val, 16);
 	bnlm_lut_encode(&to->nl_2_lut, from->nl_2_lut_thr, from->nl_2_lut_val, 16);
 	bnlm_lut_encode(&to->nl_3_lut, from->nl_3_lut_thr, from->nl_3_lut_val, 16);

 	/* Initialize arrays in VMEM parameters */
 	memset(to->nl_th, 0, sizeof(to->nl_th));
 	to->nl_th[0][0] = from->nl_th[0];
 	to->nl_th[0][1] = from->nl_th[1];
 	to->nl_th[0][2] = from->nl_th[2];

 	memset(to->match_quality_max_idx, 0, sizeof(to->match_quality_max_idx));
 	to->match_quality_max_idx[0][0] = from->match_quality_max_idx[0];
 	to->match_quality_max_idx[0][1] = from->match_quality_max_idx[1];
 	to->match_quality_max_idx[0][2] = from->match_quality_max_idx[2];
 	to->match_quality_max_idx[0][3] = from->match_quality_max_idx[3];

 	bnlm_lut_encode(&to->div_lut, div_lut_nearests, div_lut_slopes, BNLM_DIV_LUT_SIZE);
 	memset(to->div_lut_intercepts, 0, sizeof(to->div_lut_intercepts));
 	for(i = 0; i < BNLM_DIV_LUT_SIZE; i++) {
 		to->div_lut_intercepts[0][i] = div_lut_intercepts[i];
 	}

 	memset(to->power_of_2, 0, sizeof(to->power_of_2));
 	for (i = 0; i < (ISP_VEC_ELEMBITS-1); i++) {
 		to->power_of_2[0][i] = 1 << i;
 	}
 }

 /* - Encodes BNLM public parameters into DMEM parameters */
 void
 ia_css_bnlm_encode(
 	struct bnlm_dmem_params *to,
 	const struct ia_css_bnlm_config *from,
 	size_t size)
 {
 	(void)size;
 	to->rad_enable = from->rad_enable;
 	to->rad_x_origin = from->rad_x_origin;
 	to->rad_y_origin = from->rad_y_origin;
 	to->avg_min_th = from->avg_min_th;
 	to->max_min_th = from->max_min_th;

 	to->exp_coeff_a = from->exp_coeff_a;
 	to->exp_coeff_b = from->exp_coeff_b;
 	to->exp_coeff_c = from->exp_coeff_c;
 	to->exp_exponent = from->exp_exponent;
 }

 /* Prints debug traces for BNLM public parameters */
 void
 ia_css_bnlm_debug_trace(
 	const struct ia_css_bnlm_config *config,
 	unsigned level)
 {
 	if (!config)
 		return;

 #ifndef IA_CSS_NO_DEBUG
 	ia_css_debug_dtrace(level, "BNLM:\n");
 	ia_css_debug_dtrace(level, "\t%-32s = %d\n", "rad_enable", config->rad_enable);
 	ia_css_debug_dtrace(level, "\t%-32s = %d\n", "rad_x_origin", config->rad_x_origin);
 	ia_css_debug_dtrace(level, "\t%-32s = %d\n", "rad_y_origin", config->rad_y_origin);
 	ia_css_debug_dtrace(level, "\t%-32s = %d\n", "avg_min_th", config->avg_min_th);
 	ia_css_debug_dtrace(level, "\t%-32s = %d\n", "max_min_th", config->max_min_th);

 	ia_css_debug_dtrace(level, "\t%-32s = %d\n", "exp_coeff_a", config->exp_coeff_a);
 	ia_css_debug_dtrace(level, "\t%-32s = %d\n", "exp_coeff_b", config->exp_coeff_b);
 	ia_css_debug_dtrace(level, "\t%-32s = %d\n", "exp_coeff_c", config->exp_coeff_c);
 	ia_css_debug_dtrace(level, "\t%-32s = %d\n", "exp_exponent", config->exp_exponent);

 	/* ToDo: print traces for LUTs */
 #endif /* IA_CSS_NO_DEBUG */

 }
	/*
	* Support for Intel Camera Imaging ISP subsystem.
	* Copyright (c) 2015, Intel Corporation.
	*
	* This program is free software; you can redistribute it and/or modify it
	* under the terms and conditions of the GNU General Public License,
	* version 2, as published by the Free Software Foundation.
	*
	* This program is distributed in the hope it will be useful, but WITHOUT
	* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
	* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
	* more details.
	*/

	#include "type_support.h"
	#include "ia_css_bnlm.host.h"

	#ifndef IA_CSS_NO_DEBUG
	#include "ia_css_debug.h" /* ia_css_debug_dtrace() */
	#endif
	#include <assert_support.h>

	#define BNLM_DIV_LUT_SIZE (12)
	static const int32_t div_lut_nearests[BNLM_DIV_LUT_SIZE] = {
	0, 454, 948, 1484, 2070, 2710, 3412, 4184, 5035, 5978, 7025, 8191
	};

	static const int32_t div_lut_slopes[BNLM_DIV_LUT_SIZE] = {
	-7760, -6960, -6216, -5536, -4912, -4344, -3832, -3360, -2936, -2552, -2208, -2208
	};

	static const int32_t div_lut_intercepts[BNLM_DIV_LUT_SIZE] = {
	8184, 7752, 7336, 6928, 6536, 6152, 5776, 5416, 5064, 4728, 4408, 4408
	};

	/* Encodes a look-up table from BNLM public parameters to vmem parameters.
	* Input:
	* lut : bnlm_lut struct containing encoded vmem parameters look-up table
	* lut_thr : array containing threshold values for lut
	* lut_val : array containing output values related to lut_thr
	* lut_size: Size of lut_val array
	*/
	static inline void
	bnlm_lut_encode(struct bnlm_lut lut, const int32_t lut_thr, const int32_t *lut_val, const uint32_t lut_size)
	{
	u32 blk, i;
	const u32 block_size = 16;
	const u32 total_blocks = ISP_VEC_NELEMS / block_size;

	/* Create VMEM LUTs from the threshold and value arrays.
	*
	* Min size of the LUT is 2 entries.
	*
	* Max size of the LUT is 16 entries, so that the LUT can fit into a
	* single group of 16 elements inside a vector.
	* Then these elements are copied into other groups inside the same
	* vector. If the LUT size is less than 16, then remaining elements are
	* set to 0.
	*/
	assert((lut_size >= 2) && (lut_size <= block_size));
	/* array lut_thr has (lut_size-1) entries */
	for (i = 0; i < lut_size-2; i++) {
	/* Check if the lut_thr is monotonically increasing */
	assert(lut_thr[i] <= lut_thr[i+1]);
	}

	/* Initialize */
	for (i = 0; i < total_blocks * block_size; i++) {
	lut->thr[0][i] = 0;
	lut->val[0][i] = 0;
	}

	/* Copy all data */
	for (i = 0; i < lut_size - 1; i++) {
	lut->thr[0][i] = lut_thr[i];
	lut->val[0][i] = lut_val[i];
	}
	lut->val[0][i] = lut_val[i]; /* val has one more element than thr */

	/* Copy data from first block to all blocks */
	for (blk = 1; blk < total_blocks; blk++) {
	u32 blk_offset = blk * block_size;
	for (i = 1; i < lut_size; i++) {
	lut->thr[0][blk_offset + i] = lut->thr[0][i];
	lut->val[0][blk_offset + i] = lut->val[0][i];
	}
	}
	}

	/*
	* - Encodes BNLM public parameters into VMEM parameters
	* - Generates VMEM parameters which will needed internally ISP
	*/
	void
	ia_css_bnlm_vmem_encode(
	struct bnlm_vmem_params *to,
	const struct ia_css_bnlm_config *from,
	size_t size)
	{
	int i;
	(void)size;

	/* Initialize LUTs in VMEM parameters */
	bnlm_lut_encode(&to->mu_root_lut, from->mu_root_lut_thr, from->mu_root_lut_val, 16);
	bnlm_lut_encode(&to->sad_norm_lut, from->sad_norm_lut_thr, from->sad_norm_lut_val, 16);
	bnlm_lut_encode(&to->sig_detail_lut, from->sig_detail_lut_thr, from->sig_detail_lut_val, 16);
	bnlm_lut_encode(&to->sig_rad_lut, from->sig_rad_lut_thr, from->sig_rad_lut_val, 16);
	bnlm_lut_encode(&to->rad_pow_lut, from->rad_pow_lut_thr, from->rad_pow_lut_val, 16);
	bnlm_lut_encode(&to->nl_0_lut, from->nl_0_lut_thr, from->nl_0_lut_val, 16);
	bnlm_lut_encode(&to->nl_1_lut, from->nl_1_lut_thr, from->nl_1_lut_val, 16);
	bnlm_lut_encode(&to->nl_2_lut, from->nl_2_lut_thr, from->nl_2_lut_val, 16);
	bnlm_lut_encode(&to->nl_3_lut, from->nl_3_lut_thr, from->nl_3_lut_val, 16);

	/* Initialize arrays in VMEM parameters */
	memset(to->nl_th, 0, sizeof(to->nl_th));
	to->nl_th[0][0] = from->nl_th[0];
	to->nl_th[0][1] = from->nl_th[1];
	to->nl_th[0][2] = from->nl_th[2];

	memset(to->match_quality_max_idx, 0, sizeof(to->match_quality_max_idx));
	to->match_quality_max_idx[0][0] = from->match_quality_max_idx[0];
	to->match_quality_max_idx[0][1] = from->match_quality_max_idx[1];
	to->match_quality_max_idx[0][2] = from->match_quality_max_idx[2];
	to->match_quality_max_idx[0][3] = from->match_quality_max_idx[3];

	bnlm_lut_encode(&to->div_lut, div_lut_nearests, div_lut_slopes, BNLM_DIV_LUT_SIZE);
	memset(to->div_lut_intercepts, 0, sizeof(to->div_lut_intercepts));
	for(i = 0; i < BNLM_DIV_LUT_SIZE; i++) {
	to->div_lut_intercepts[0][i] = div_lut_intercepts[i];
	}

	memset(to->power_of_2, 0, sizeof(to->power_of_2));
	for (i = 0; i < (ISP_VEC_ELEMBITS-1); i++) {
	to->power_of_2[0][i] = 1 << i;
	}
	}

	/* - Encodes BNLM public parameters into DMEM parameters */
	void
	ia_css_bnlm_encode(
	struct bnlm_dmem_params *to,
	const struct ia_css_bnlm_config *from,
	size_t size)
	{
	(void)size;
	to->rad_enable = from->rad_enable;
	to->rad_x_origin = from->rad_x_origin;
	to->rad_y_origin = from->rad_y_origin;
	to->avg_min_th = from->avg_min_th;
	to->max_min_th = from->max_min_th;

	to->exp_coeff_a = from->exp_coeff_a;
	to->exp_coeff_b = from->exp_coeff_b;
	to->exp_coeff_c = from->exp_coeff_c;
	to->exp_exponent = from->exp_exponent;
	}

	/* Prints debug traces for BNLM public parameters */
	void
	ia_css_bnlm_debug_trace(
	const struct ia_css_bnlm_config *config,
	unsigned level)
	{
	if (!config)
	return;

	#ifndef IA_CSS_NO_DEBUG
	ia_css_debug_dtrace(level, "BNLM:\n");
	ia_css_debug_dtrace(level, "\t%-32s = %d\n", "rad_enable", config->rad_enable);
	ia_css_debug_dtrace(level, "\t%-32s = %d\n", "rad_x_origin", config->rad_x_origin);
	ia_css_debug_dtrace(level, "\t%-32s = %d\n", "rad_y_origin", config->rad_y_origin);
	ia_css_debug_dtrace(level, "\t%-32s = %d\n", "avg_min_th", config->avg_min_th);
	ia_css_debug_dtrace(level, "\t%-32s = %d\n", "max_min_th", config->max_min_th);

	ia_css_debug_dtrace(level, "\t%-32s = %d\n", "exp_coeff_a", config->exp_coeff_a);
	ia_css_debug_dtrace(level, "\t%-32s = %d\n", "exp_coeff_b", config->exp_coeff_b);
	ia_css_debug_dtrace(level, "\t%-32s = %d\n", "exp_coeff_c", config->exp_coeff_c);
	ia_css_debug_dtrace(level, "\t%-32s = %d\n", "exp_exponent", config->exp_exponent);

	/* ToDo: print traces for LUTs */
	#endif /* IA_CSS_NO_DEBUG */

	}