eBookReaderSwitch/mupdf/source/fitz/color-icc-create.c

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#include "mupdf/fitz.h"
#include "icc34.h"
#include <string.h>
#define SAVEICCPROFILE 0
#define ICC_HEADER_SIZE 128
#define ICC_TAG_SIZE 12
#define ICC_NUMBER_COMMON_TAGS 2
#define ICC_XYZPT_SIZE 12
#define ICC_DATATYPE_SIZE 8
#define D50_X 0.9642f
#define D50_Y 1.0f
#define D50_Z 0.8249f
static const char copy_right[] = "Copyright Artifex Software 2017";
#if SAVEICCPROFILE
unsigned int icc_debug_index = 0;
#endif
typedef struct fz_icc_tag_s fz_icc_tag;
struct fz_icc_tag_s
{
icTagSignature sig;
icUInt32Number offset;
icUInt32Number size;
unsigned char byte_padding;
};
#if SAVEICCPROFILE
static void
save_profile(fz_context *ctx, fz_buffer *buf, const char *name)
{
char full_file_name[50];
fz_snprintf(full_file_name, sizeof full_file_name, "profile%d-%s.icc", icc_debug_index, name);
fz_save_buffer(ctx, buf, full_file_name);
icc_debug_index++;
}
#endif
static void
fz_append_byte_n(fz_context *ctx, fz_buffer *buf, int c, int n)
{
int k;
for (k = 0; k < n; k++)
fz_append_byte(ctx, buf, c);
}
static int
get_padding(int x)
{
return (4 - x % 4) % 4;
}
static void
setdatetime(fz_context *ctx, icDateTimeNumber *datetime)
{
datetime->day = 0;
datetime->hours = 0;
datetime->minutes = 0;
datetime->month = 0;
datetime->seconds = 0;
datetime->year = 0;
}
static void
add_gammadata(fz_context *ctx, fz_buffer *buf, unsigned short gamma, icTagTypeSignature curveType)
{
fz_append_int32_be(ctx, buf, curveType);
fz_append_byte_n(ctx, buf, 0, 4);
/* one entry for gamma */
fz_append_int32_be(ctx, buf, 1);
/* The encode (8frac8) gamma, with padding */
fz_append_int16_be(ctx, buf, gamma);
/* pad two bytes */
fz_append_byte_n(ctx, buf, 0, 2);
}
static unsigned short
float2u8Fixed8(fz_context *ctx, float number_in)
{
return (unsigned short)(number_in * 256);
}
static void
add_xyzdata(fz_context *ctx, fz_buffer *buf, icS15Fixed16Number temp_XYZ[])
{
int j;
fz_append_int32_be(ctx, buf, icSigXYZType);
fz_append_byte_n(ctx, buf, 0, 4);
for (j = 0; j < 3; j++)
fz_append_int32_be(ctx, buf, temp_XYZ[j]);
}
static icS15Fixed16Number
double2XYZtype(fz_context *ctx, float number_in)
{
short s;
unsigned short m;
if (number_in < 0)
number_in = 0;
s = (short)number_in;
m = (unsigned short)((number_in - s) * 65536);
return (icS15Fixed16Number) ((s << 16) | m);
}
static void
get_D50(fz_context *ctx, icS15Fixed16Number XYZ[])
{
XYZ[0] = double2XYZtype(ctx, D50_X);
XYZ[1] = double2XYZtype(ctx, D50_Y);
XYZ[2] = double2XYZtype(ctx, D50_Z);
}
static void
get_XYZ_doubletr(fz_context *ctx, icS15Fixed16Number XYZ[], float vector[])
{
XYZ[0] = double2XYZtype(ctx, vector[0]);
XYZ[1] = double2XYZtype(ctx, vector[1]);
XYZ[2] = double2XYZtype(ctx, vector[2]);
}
static void
add_desc_tag(fz_context *ctx, fz_buffer *buf, const char text[], fz_icc_tag tag_list[], int curr_tag)
{
int len = strlen(text);
fz_append_int32_be(ctx, buf, icSigTextDescriptionType);
fz_append_byte_n(ctx, buf, 0, 4);
fz_append_int32_be(ctx, buf, len + 1);
fz_append_string(ctx, buf, text);
/* 1 + 4 + 4 + 2 + 1 + 67 */
fz_append_byte_n(ctx, buf, 0, 79);
fz_append_byte_n(ctx, buf, 0, tag_list[curr_tag].byte_padding);
}
static void
add_text_tag(fz_context *ctx, fz_buffer *buf, const char text[], fz_icc_tag tag_list[], int curr_tag)
{
fz_append_int32_be(ctx, buf, icSigTextType);
fz_append_byte_n(ctx, buf, 0, 4);
fz_append_string(ctx, buf, text);
fz_append_byte(ctx, buf, 0);
fz_append_byte_n(ctx, buf, 0, tag_list[curr_tag].byte_padding);
}
static void
add_common_tag_data(fz_context *ctx, fz_buffer *buf, fz_icc_tag tag_list[], const char *desc_name)
{
add_desc_tag(ctx, buf, desc_name, tag_list, 0);
add_text_tag(ctx, buf, copy_right, tag_list, 1);
}
static void
init_common_tags(fz_context *ctx, fz_icc_tag tag_list[], int num_tags, int *last_tag, const char *desc_name)
{
int curr_tag, temp_size;
if (*last_tag < 0)
curr_tag = 0;
else
curr_tag = (*last_tag) + 1;
tag_list[curr_tag].offset = ICC_HEADER_SIZE + num_tags * ICC_TAG_SIZE + 4;
tag_list[curr_tag].sig = icSigProfileDescriptionTag;
/* temp_size = DATATYPE_SIZE + 4 (zeros) + 4 (len) + strlen(desc_name) + 1 (null) + 4 + 4 + 2 + 1 + 67 + bytepad; */
temp_size = strlen(desc_name) + 91;
tag_list[curr_tag].byte_padding = get_padding(temp_size);
tag_list[curr_tag].size = temp_size + tag_list[curr_tag].byte_padding;
curr_tag++;
tag_list[curr_tag].offset = tag_list[curr_tag - 1].offset + tag_list[curr_tag - 1].size;
tag_list[curr_tag].sig = icSigCopyrightTag;
/* temp_size = DATATYPE_SIZE + 4 (zeros) + strlen(copy_right) + 1 (null); */
temp_size = strlen(copy_right) + 9;
tag_list[curr_tag].byte_padding = get_padding(temp_size);
tag_list[curr_tag].size = temp_size + tag_list[curr_tag].byte_padding;
*last_tag = curr_tag;
}
static void
copy_header(fz_context *ctx, fz_buffer *buffer, icHeader *header)
{
fz_append_int32_be(ctx, buffer, header->size);
fz_append_byte_n(ctx, buffer, 0, 4);
fz_append_int32_be(ctx, buffer, header->version);
fz_append_int32_be(ctx, buffer, header->deviceClass);
fz_append_int32_be(ctx, buffer, header->colorSpace);
fz_append_int32_be(ctx, buffer, header->pcs);
fz_append_byte_n(ctx, buffer, 0, 12);
fz_append_int32_be(ctx, buffer, header->magic);
fz_append_int32_be(ctx, buffer, header->platform);
fz_append_byte_n(ctx, buffer, 0, 24);
fz_append_int32_be(ctx, buffer, header->illuminant.X);
fz_append_int32_be(ctx, buffer, header->illuminant.Y);
fz_append_int32_be(ctx, buffer, header->illuminant.Z);
fz_append_byte_n(ctx, buffer, 0, 48);
}
static void
setheader_common(fz_context *ctx, icHeader *header)
{
header->cmmId = 0;
header->version = 0x02200000;
setdatetime(ctx, &(header->date));
header->magic = icMagicNumber;
header->platform = icSigMacintosh;
header->flags = 0;
header->manufacturer = 0;
header->model = 0;
header->attributes[0] = 0;
header->attributes[1] = 0;
header->renderingIntent = 3;
header->illuminant.X = double2XYZtype(ctx, (float) 0.9642);
header->illuminant.Y = double2XYZtype(ctx, (float) 1.0);
header->illuminant.Z = double2XYZtype(ctx, (float) 0.8249);
header->creator = 0;
memset(header->reserved, 0, 44);
}
static void
copy_tagtable(fz_context *ctx, fz_buffer *buf, fz_icc_tag *tag_list, int num_tags)
{
int k;
fz_append_int32_be(ctx, buf, num_tags);
for (k = 0; k < num_tags; k++)
{
fz_append_int32_be(ctx, buf, tag_list[k].sig);
fz_append_int32_be(ctx, buf, tag_list[k].offset);
fz_append_int32_be(ctx, buf, tag_list[k].size);
}
}
static void
init_tag(fz_context *ctx, fz_icc_tag tag_list[], int *last_tag, icTagSignature tagsig, int datasize)
{
int curr_tag = (*last_tag) + 1;
tag_list[curr_tag].offset = tag_list[curr_tag - 1].offset + tag_list[curr_tag - 1].size;
tag_list[curr_tag].sig = tagsig;
tag_list[curr_tag].byte_padding = get_padding(ICC_DATATYPE_SIZE + datasize);
tag_list[curr_tag].size = ICC_DATATYPE_SIZE + datasize + tag_list[curr_tag].byte_padding;
*last_tag = curr_tag;
}
static void
matrixmult(fz_context *ctx, float leftmatrix[], int nlrow, int nlcol, float rightmatrix[], int nrrow, int nrcol, float result[])
{
float *curr_row;
int k, l, j, ncols, nrows;
float sum;
nrows = nlrow;
ncols = nrcol;
if (nlcol == nrrow)
{
for (k = 0; k < nrows; k++)
{
curr_row = &(leftmatrix[k*nlcol]);
for (l = 0; l < ncols; l++)
{
sum = 0.0;
for (j = 0; j < nlcol; j++)
sum = sum + curr_row[j] * rightmatrix[j*nrcol + l];
result[k*ncols + l] = sum;
}
}
}
}
static void
apply_adaption(fz_context *ctx, float matrix[], float in[], float out[])
{
out[0] = matrix[0] * in[0] + matrix[1] * in[1] + matrix[2] * in[2];
out[1] = matrix[3] * in[0] + matrix[4] * in[1] + matrix[5] * in[2];
out[2] = matrix[6] * in[0] + matrix[7] * in[1] + matrix[8] * in[2];
}
/*
Compute the CAT02 transformation to get us from the Cal White point to the
D50 white point
*/
static void
gsicc_create_compute_cam(fz_context *ctx, float white_src[], float *cam)
{
float cat02matrix[] = { 0.7328f, 0.4296f, -0.1624f, -0.7036f, 1.6975f, 0.0061f, 0.003f, 0.0136f, 0.9834f };
float cat02matrixinv[] = { 1.0961f, -0.2789f, 0.1827f, 0.4544f, 0.4735f, 0.0721f, -0.0096f, -0.0057f, 1.0153f };
float vonkries_diag[9];
float temp_matrix[9];
float lms_wp_src[3], lms_wp_des[3];
int k;
float d50[3] = { D50_X, D50_Y, D50_Z };
matrixmult(ctx, cat02matrix, 3, 3, white_src, 3, 1, lms_wp_src);
matrixmult(ctx, cat02matrix, 3, 3, d50, 3, 1, lms_wp_des);
memset(&(vonkries_diag[0]), 0, sizeof(float) * 9);
for (k = 0; k < 3; k++)
{
if (lms_wp_src[k] > 0)
vonkries_diag[k * 3 + k] = lms_wp_des[k] / lms_wp_src[k];
else
vonkries_diag[k * 3 + k] = 1;
}
matrixmult(ctx, &(vonkries_diag[0]), 3, 3, cat02matrix, 3, 3, temp_matrix);
matrixmult(ctx, &(cat02matrixinv[0]), 3, 3, temp_matrix, 3, 3, cam);
}
/* Create ICC profile from PDF calGray and calRGB definitions */
fz_buffer *
fz_new_icc_data_from_cal(fz_context *ctx,
float wp[3],
float bp[3],
float gamma[3],
float matrix[9],
int n)
{
fz_icc_tag *tag_list;
icProfile iccprofile;
icHeader *header = &(iccprofile.header);
fz_buffer *profile;
size_t profile_size;
int k;
int num_tags;
unsigned short encode_gamma;
int last_tag;
icS15Fixed16Number temp_XYZ[3];
int tag_location;
icTagSignature TRC_Tags[3] = { icSigRedTRCTag, icSigGreenTRCTag, icSigBlueTRCTag };
int trc_tag_size;
float cat02[9];
float black_adapt[3];
const char *desc_name;
/* common */
setheader_common(ctx, header);
header->pcs = icSigXYZData;
profile_size = ICC_HEADER_SIZE;
header->deviceClass = icSigInputClass;
if (n == 3)
{
desc_name = "CalRGB";
header->colorSpace = icSigRgbData;
num_tags = 10; /* common (2) + rXYZ, gXYZ, bXYZ, rTRC, gTRC, bTRC, bkpt, wtpt */
}
else
{
desc_name = "CalGray";
header->colorSpace = icSigGrayData;
num_tags = 5; /* common (2) + GrayTRC, bkpt, wtpt */
TRC_Tags[0] = icSigGrayTRCTag;
}
tag_list = fz_malloc(ctx, sizeof(fz_icc_tag) * num_tags);
/* precompute sizes and offsets */
profile_size += ICC_TAG_SIZE * num_tags;
profile_size += 4; /* number of tags.... */
last_tag = -1;
init_common_tags(ctx, tag_list, num_tags, &last_tag, desc_name);
if (n == 3)
{
init_tag(ctx, tag_list, &last_tag, icSigRedColorantTag, ICC_XYZPT_SIZE);
init_tag(ctx, tag_list, &last_tag, icSigGreenColorantTag, ICC_XYZPT_SIZE);
init_tag(ctx, tag_list, &last_tag, icSigBlueColorantTag, ICC_XYZPT_SIZE);
}
init_tag(ctx, tag_list, &last_tag, icSigMediaWhitePointTag, ICC_XYZPT_SIZE);
init_tag(ctx, tag_list, &last_tag, icSigMediaBlackPointTag, ICC_XYZPT_SIZE);
/* 4 for count, 2 for gamma, Extra 2 bytes for 4 byte alignment requirement */
trc_tag_size = 8;
for (k = 0; k < n; k++)
init_tag(ctx, tag_list, &last_tag, TRC_Tags[k], trc_tag_size);
for (k = 0; k < num_tags; k++)
profile_size += tag_list[k].size;
/* Allocate buffer */
fz_try(ctx)
{
profile = fz_new_buffer(ctx, profile_size);
}
fz_catch(ctx)
{
fz_free(ctx, tag_list);
fz_rethrow(ctx);
}
/* Header */
header->size = (icUInt32Number)profile_size;
copy_header(ctx, profile, header);
/* Tag table */
copy_tagtable(ctx, profile, tag_list, num_tags);
/* Common tags */
add_common_tag_data(ctx, profile, tag_list, desc_name);
tag_location = ICC_NUMBER_COMMON_TAGS;
/* Get the cat02 matrix */
gsicc_create_compute_cam(ctx, wp, cat02);
/* The matrix */
if (n == 3)
{
float primary[3];
for (k = 0; k < 3; k++)
{
/* Apply the cat02 matrix to the primaries */
apply_adaption(ctx, cat02, &(matrix[k * 3]), &(primary[0]));
get_XYZ_doubletr(ctx, temp_XYZ, &(primary[0]));
add_xyzdata(ctx, profile, temp_XYZ);
tag_location++;
}
}
/* White and black points. WP is D50 */
get_D50(ctx, temp_XYZ);
add_xyzdata(ctx, profile, temp_XYZ);
tag_location++;
/* Black point. Apply cat02*/
apply_adaption(ctx, cat02, bp, &(black_adapt[0]));
get_XYZ_doubletr(ctx, temp_XYZ, &(black_adapt[0]));
add_xyzdata(ctx, profile, temp_XYZ);
tag_location++;
/* Gamma */
for (k = 0; k < n; k++)
{
encode_gamma = float2u8Fixed8(ctx, gamma[k]);
add_gammadata(ctx, profile, encode_gamma, icSigCurveType);
tag_location++;
}
fz_free(ctx, tag_list);
#if SAVEICCPROFILE
if (n == 3)
save_profile(ctx, profile, "calRGB");
else
save_profile(ctx, profile, "calGray");
#endif
return profile;
}