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blender-archive/source/blender/blenkernel/intern/seqmodifier.c
Sergey Sharybin f25e7d62b3 Mask modifier for sequences 
This modifier uses a mask set in the modifier settings
and multiplies strip by it. Alpha channel will also be
multiplied by mask, which makes it easy to mask some
objects on footage and alpha-over them in sequencer.

Actually, this modifier sets alpha for byte strips
directly (since byte is always straight alpha) and
multiplies float buffer by mask (flaots are premulled)
so in both cases masked strip could be easy alpha-overed
without any artifacts.

It uses own structure with only SequenceModifierData
property in to preserve both forward and backwards
compatibilities (using new structure ensures modifier
will be ignored on load in older blenders, the same
happens for mesh modifiers actually).

Request from Pablo Vazquez.
2013-05-08 14:20:57 +00:00

715 lines
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/*
* ***** BEGIN GPL LICENSE BLOCK *****
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation; either version 2
* of the License, or (at your option) any later version.
*
* This program is distributed in the hope that 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.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software Foundation,
* Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
*
* The Original Code is Copyright (C) 2012 Blender Foundation.
* All rights reserved.
*
* Contributor(s): Blender Foundation,
* Sergey Sharybin
*
* ***** END GPL LICENSE BLOCK *****
*/
/** \file blender/blenkernel/intern/seqmodifier.c
* \ingroup bke
*/
#include <stddef.h>
#include <string.h>
#include "MEM_guardedalloc.h"
#include "BLI_listbase.h"
#include "BLI_path_util.h"
#include "BLI_string.h"
#include "BLI_utildefines.h"
#include "BLI_math.h"
#include "BLF_translation.h"
#include "DNA_sequence_types.h"
#include "BKE_colortools.h"
#include "BKE_sequencer.h"
#include "IMB_imbuf.h"
#include "IMB_imbuf_types.h"
static SequenceModifierTypeInfo *modifiersTypes[NUM_SEQUENCE_MODIFIER_TYPES];
static int modifierTypesInit = FALSE;
/*********************** Modifiers *************************/
typedef void (*modifier_apply_threaded_cb) (int width, int height, unsigned char *rect, float *rect_float,
unsigned char *mask_rect, float *mask_rect_float, void *data_v);
typedef struct ModifierInitData {
ImBuf *ibuf;
ImBuf *mask;
void *user_data;
modifier_apply_threaded_cb apply_callback;
} ModifierInitData;
typedef struct ModifierThread {
int width, height;
unsigned char *rect, *mask_rect;
float *rect_float, *mask_rect_float;
void *user_data;
modifier_apply_threaded_cb apply_callback;
} ModifierThread;
static ImBuf *modifier_mask_get(SequenceModifierData *smd, SeqRenderData context, int cfra, int make_float)
{
return BKE_sequencer_render_mask_input(context, smd->mask_input_type, smd->mask_sequence, smd->mask_id, cfra, make_float);
}
static void modifier_init_handle(void *handle_v, int start_line, int tot_line, void *init_data_v)
{
ModifierThread *handle = (ModifierThread *) handle_v;
ModifierInitData *init_data = (ModifierInitData *) init_data_v;
ImBuf *ibuf = init_data->ibuf;
ImBuf *mask = init_data->mask;
int offset = 4 * start_line * ibuf->x;
memset(handle, 0, sizeof(ModifierThread));
handle->width = ibuf->x;
handle->height = tot_line;
handle->apply_callback = init_data->apply_callback;
handle->user_data = init_data->user_data;
if (ibuf->rect)
handle->rect = (unsigned char *) ibuf->rect + offset;
if (ibuf->rect_float)
handle->rect_float = ibuf->rect_float + offset;
if (mask) {
if (mask->rect)
handle->mask_rect = (unsigned char *) mask->rect + offset;
if (mask->rect_float)
handle->mask_rect_float = mask->rect_float + offset;
}
else {
handle->mask_rect = NULL;
handle->mask_rect_float = NULL;
}
}
static void *modifier_do_thread(void *thread_data_v)
{
ModifierThread *td = (ModifierThread *) thread_data_v;
td->apply_callback(td->width, td->height, td->rect, td->rect_float, td->mask_rect, td->mask_rect_float, td->user_data);
return NULL;
}
static void modifier_apply_threaded(ImBuf *ibuf, ImBuf *mask, modifier_apply_threaded_cb apply_callback, void *user_data)
{
ModifierInitData init_data;
init_data.ibuf = ibuf;
init_data.mask = mask;
init_data.user_data = user_data;
init_data.apply_callback = apply_callback;
IMB_processor_apply_threaded(ibuf->y, sizeof(ModifierThread), &init_data,
modifier_init_handle, modifier_do_thread);
}
/* **** Color Balance Modifier **** */
static void colorBalance_init_data(SequenceModifierData *smd)
{
ColorBalanceModifierData *cbmd = (ColorBalanceModifierData *) smd;
int c;
cbmd->color_multiply = 1.0f;
for (c = 0; c < 3; c++) {
cbmd->color_balance.lift[c] = 1.0f;
cbmd->color_balance.gamma[c] = 1.0f;
cbmd->color_balance.gain[c] = 1.0f;
}
}
static void colorBalance_apply(SequenceModifierData *smd, ImBuf *ibuf, ImBuf *mask)
{
ColorBalanceModifierData *cbmd = (ColorBalanceModifierData *) smd;
BKE_sequencer_color_balance_apply(&cbmd->color_balance, ibuf, cbmd->color_multiply, FALSE, mask);
}
static SequenceModifierTypeInfo seqModifier_ColorBalance = {
CTX_N_(BLF_I18NCONTEXT_ID_SEQUENCE, "Color Balance"), /* name */
"ColorBalanceModifierData", /* struct_name */
sizeof(ColorBalanceModifierData), /* struct_size */
colorBalance_init_data, /* init_data */
NULL, /* free_data */
NULL, /* copy_data */
colorBalance_apply /* apply */
};
/* **** Curves Modifier **** */
static void curves_init_data(SequenceModifierData *smd)
{
CurvesModifierData *cmd = (CurvesModifierData *) smd;
curvemapping_set_defaults(&cmd->curve_mapping, 4, 0.0f, 0.0f, 1.0f, 1.0f);
}
static void curves_free_data(SequenceModifierData *smd)
{
CurvesModifierData *cmd = (CurvesModifierData *) smd;
curvemapping_free_data(&cmd->curve_mapping);
}
static void curves_copy_data(SequenceModifierData *target, SequenceModifierData *smd)
{
CurvesModifierData *cmd = (CurvesModifierData *) smd;
CurvesModifierData *cmd_target = (CurvesModifierData *) target;
curvemapping_copy_data(&cmd_target->curve_mapping, &cmd->curve_mapping);
}
static void curves_apply_threaded(int width, int height, unsigned char *rect, float *rect_float,
unsigned char *mask_rect, float *mask_rect_float, void *data_v)
{
CurveMapping *curve_mapping = (CurveMapping *) data_v;
int x, y;
for (y = 0; y < height; y++) {
for (x = 0; x < width; x++) {
int pixel_index = (y * width + x) * 4;
if (rect_float) {
float *pixel = rect_float + pixel_index;
float result[3];
curvemapping_evaluate_premulRGBF(curve_mapping, result, pixel);
if (mask_rect_float) {
float *m = mask_rect_float + pixel_index;
pixel[0] = pixel[0] * (1.0f - m[0]) + result[0] * m[0];
pixel[1] = pixel[1] * (1.0f - m[1]) + result[1] * m[1];
pixel[2] = pixel[2] * (1.0f - m[2]) + result[2] * m[2];
}
else {
pixel[0] = result[0];
pixel[1] = result[1];
pixel[2] = result[2];
}
}
if (rect) {
unsigned char *pixel = rect + pixel_index;
float result[3], tempc[4];
straight_uchar_to_premul_float(tempc, pixel);
curvemapping_evaluate_premulRGBF(curve_mapping, result, tempc);
if (mask_rect) {
float t[3];
rgb_uchar_to_float(t, mask_rect + pixel_index);
tempc[0] = tempc[0] * (1.0f - t[0]) + result[0] * t[0];
tempc[1] = tempc[1] * (1.0f - t[1]) + result[1] * t[1];
tempc[2] = tempc[2] * (1.0f - t[2]) + result[2] * t[2];
}
else {
tempc[0] = result[0];
tempc[1] = result[1];
tempc[2] = result[2];
}
premul_float_to_straight_uchar(pixel, tempc);
}
}
}
}
static void curves_apply(struct SequenceModifierData *smd, ImBuf *ibuf, ImBuf *mask)
{
CurvesModifierData *cmd = (CurvesModifierData *) smd;
float black[3] = {0.0f, 0.0f, 0.0f};
float white[3] = {1.0f, 1.0f, 1.0f};
curvemapping_initialize(&cmd->curve_mapping);
curvemapping_premultiply(&cmd->curve_mapping, 0);
curvemapping_set_black_white(&cmd->curve_mapping, black, white);
modifier_apply_threaded(ibuf, mask, curves_apply_threaded, &cmd->curve_mapping);
curvemapping_premultiply(&cmd->curve_mapping, 1);
}
static SequenceModifierTypeInfo seqModifier_Curves = {
CTX_N_(BLF_I18NCONTEXT_ID_SEQUENCE, "Curves"), /* name */
"CurvesModifierData", /* struct_name */
sizeof(CurvesModifierData), /* struct_size */
curves_init_data, /* init_data */
curves_free_data, /* free_data */
curves_copy_data, /* copy_data */
curves_apply /* apply */
};
/* **** Hue Correct Modifier **** */
static void hue_correct_init_data(SequenceModifierData *smd)
{
HueCorrectModifierData *hcmd = (HueCorrectModifierData *) smd;
int c;
curvemapping_set_defaults(&hcmd->curve_mapping, 1, 0.0f, 0.0f, 1.0f, 1.0f);
hcmd->curve_mapping.preset = CURVE_PRESET_MID9;
for (c = 0; c < 3; c++) {
CurveMap *cuma = &hcmd->curve_mapping.cm[c];
curvemap_reset(cuma, &hcmd->curve_mapping.clipr, hcmd->curve_mapping.preset, CURVEMAP_SLOPE_POSITIVE);
}
/* default to showing Saturation */
hcmd->curve_mapping.cur = 1;
}
static void hue_correct_free_data(SequenceModifierData *smd)
{
HueCorrectModifierData *hcmd = (HueCorrectModifierData *) smd;
curvemapping_free_data(&hcmd->curve_mapping);
}
static void hue_correct_copy_data(SequenceModifierData *target, SequenceModifierData *smd)
{
HueCorrectModifierData *hcmd = (HueCorrectModifierData *) smd;
HueCorrectModifierData *hcmd_target = (HueCorrectModifierData *) target;
curvemapping_copy_data(&hcmd_target->curve_mapping, &hcmd->curve_mapping);
}
static void hue_correct_apply_threaded(int width, int height, unsigned char *rect, float *rect_float,
unsigned char *mask_rect, float *mask_rect_float, void *data_v)
{
CurveMapping *curve_mapping = (CurveMapping *) data_v;
int x, y;
for (y = 0; y < height; y++) {
for (x = 0; x < width; x++) {
int pixel_index = (y * width + x) * 4;
float pixel[3], result[3], mask[3] = {1.0f, 1.0f, 1.0f};
float hsv[3], f;
if (rect_float)
copy_v3_v3(pixel, rect_float + pixel_index);
else
rgb_uchar_to_float(pixel, rect + pixel_index);
rgb_to_hsv(pixel[0], pixel[1], pixel[2], hsv, hsv + 1, hsv + 2);
/* adjust hue, scaling returned default 0.5 up to 1 */
f = curvemapping_evaluateF(curve_mapping, 0, hsv[0]);
hsv[0] += f - 0.5f;
/* adjust saturation, scaling returned default 0.5 up to 1 */
f = curvemapping_evaluateF(curve_mapping, 1, hsv[0]);
hsv[1] *= (f * 2.0f);
/* adjust value, scaling returned default 0.5 up to 1 */
f = curvemapping_evaluateF(curve_mapping, 2, hsv[0]);
hsv[2] *= (f * 2.f);
hsv[0] = hsv[0] - floorf(hsv[0]); /* mod 1.0 */
CLAMP(hsv[1], 0.0f, 1.0f);
/* convert back to rgb */
hsv_to_rgb(hsv[0], hsv[1], hsv[2], result, result + 1, result + 2);
if (mask_rect_float)
copy_v3_v3(mask, mask_rect_float + pixel_index);
else if (mask_rect)
rgb_uchar_to_float(mask, mask_rect + pixel_index);
result[0] = pixel[0] * (1.0f - mask[0]) + result[0] * mask[0];
result[1] = pixel[1] * (1.0f - mask[1]) + result[1] * mask[1];
result[2] = pixel[2] * (1.0f - mask[2]) + result[2] * mask[2];
if (rect_float)
copy_v3_v3(rect_float + pixel_index, result);
else
rgb_float_to_uchar(rect + pixel_index, result);
}
}
}
static void hue_correct_apply(struct SequenceModifierData *smd, ImBuf *ibuf, ImBuf *mask)
{
HueCorrectModifierData *hcmd = (HueCorrectModifierData *) smd;
curvemapping_initialize(&hcmd->curve_mapping);
modifier_apply_threaded(ibuf, mask, hue_correct_apply_threaded, &hcmd->curve_mapping);
}
static SequenceModifierTypeInfo seqModifier_HueCorrect = {
CTX_N_(BLF_I18NCONTEXT_ID_SEQUENCE, "Hue Correct"), /* name */
"HueCorrectModifierData", /* struct_name */
sizeof(HueCorrectModifierData), /* struct_size */
hue_correct_init_data, /* init_data */
hue_correct_free_data, /* free_data */
hue_correct_copy_data, /* copy_data */
hue_correct_apply /* apply */
};
/* **** Bright/Contrast Modifier **** */
typedef struct BrightContrastThreadData {
float bright;
float contrast;
} BrightContrastThreadData;
static void brightcontrast_apply_threaded(int width, int height, unsigned char *rect, float *rect_float,
unsigned char *mask_rect, float *mask_rect_float, void *data_v)
{
BrightContrastThreadData *data = (BrightContrastThreadData *) data_v;
int x, y;
float i;
int c;
float a, b, v;
float brightness = data->bright / 100.0f;
float contrast = data->contrast;
float delta = contrast / 200.0f;
a = 1.0f - delta * 2.0f;
/*
* The algorithm is by Werner D. Streidt
* (http://visca.com/ffactory/archives/5-99/msg00021.html)
* Extracted of OpenCV demhist.c
*/
if (contrast > 0) {
a = 1.0f / a;
b = a * (brightness - delta);
}
else {
delta *= -1;
b = a * (brightness + delta);
}
for (y = 0; y < height; y++) {
for (x = 0; x < width; x++) {
int pixel_index = (y * width + x) * 4;
if (rect) {
unsigned char *pixel = rect + pixel_index;
for (c = 0; c < 3; c++) {
i = (float) pixel[c] / 255.0f;
v = a * i + b;
if (mask_rect) {
unsigned char *m = mask_rect + pixel_index;
float t = (float) m[c] / 255.0f;
v = (float) pixel[c] / 255.0f * (1.0f - t) + v * t;
}
pixel[c] = FTOCHAR(v);
}
}
else if (rect_float) {
float *pixel = rect_float + pixel_index;
for (c = 0; c < 3; c++) {
i = pixel[c];
v = a * i + b;
if (mask_rect_float) {
float *m = mask_rect_float + pixel_index;
pixel[c] = pixel[c] * (1.0f - m[c]) + v * m[c];
}
else
pixel[c] = v;
}
}
}
}
}
static void brightcontrast_apply(struct SequenceModifierData *smd, ImBuf *ibuf, ImBuf *mask)
{
BrightContrastModifierData *bcmd = (BrightContrastModifierData *) smd;
BrightContrastThreadData data;
data.bright = bcmd->bright;
data.contrast = bcmd->contrast;
modifier_apply_threaded(ibuf, mask, brightcontrast_apply_threaded, &data);
}
static SequenceModifierTypeInfo seqModifier_BrightContrast = {
CTX_N_(BLF_I18NCONTEXT_ID_SEQUENCE, "Bright/Contrast"), /* name */
"BrightContrastModifierData", /* struct_name */
sizeof(BrightContrastModifierData), /* struct_size */
NULL, /* init_data */
NULL, /* free_data */
NULL, /* copy_data */
brightcontrast_apply /* apply */
};
/* **** Mask Modifier **** */
static void maskmodifier_apply_threaded(int width, int height, unsigned char *rect, float *rect_float,
unsigned char *mask_rect, float *mask_rect_float, void *UNUSED(data_v))
{
int x, y;
if (rect && !mask_rect)
return;
if (rect_float && !mask_rect_float)
return;
for (y = 0; y < height; y++) {
for (x = 0; x < width; x++) {
int pixel_index = (y * width + x) * 4;
if (rect) {
unsigned char *pixel = rect + pixel_index;
unsigned char *mask_pixel = mask_rect + pixel_index;
unsigned char mask = min_iii(mask_pixel[0], mask_pixel[1], mask_pixel[2]);
/* byte buffer is straight, so only affect on alpha itself,
* this is the only way to alpha-over byte strip after
* applying mask modifier.
*/
pixel[3] = (float)(pixel[3] * mask) / 255.0f;
}
else if (rect_float) {
int c;
float *pixel = rect_float + pixel_index;
float *mask_pixel = mask_rect_float + pixel_index;
float mask = min_fff(mask_pixel[0], mask_pixel[1], mask_pixel[2]);
/* float buffers are premultiplied, so need to premul color
* as well to make it easy to alpha-over masted strip.
*/
for (c = 0; c < 4; c++)
pixel[c] = pixel[c] * mask;
}
}
}
}
static void maskmodifier_apply(struct SequenceModifierData *smd, ImBuf *ibuf, ImBuf *mask)
{
BrightContrastModifierData *bcmd = (BrightContrastModifierData *) smd;
BrightContrastThreadData data;
data.bright = bcmd->bright;
data.contrast = bcmd->contrast;
modifier_apply_threaded(ibuf, mask, maskmodifier_apply_threaded, &data);
}
static SequenceModifierTypeInfo seqModifier_Mask = {
CTX_N_(BLF_I18NCONTEXT_ID_SEQUENCE, "Mask"), /* name */
"SequencerMaskModifierData", /* struct_name */
sizeof(SequencerMaskModifierData), /* struct_size */
NULL, /* init_data */
NULL, /* free_data */
NULL, /* copy_data */
maskmodifier_apply /* apply */
};
/*********************** Modifier functions *************************/
static void sequence_modifier_type_info_init(void)
{
#define INIT_TYPE(typeName) (modifiersTypes[seqModifierType_##typeName] = &seqModifier_##typeName)
INIT_TYPE(ColorBalance);
INIT_TYPE(Curves);
INIT_TYPE(HueCorrect);
INIT_TYPE(BrightContrast);
INIT_TYPE(Mask);
#undef INIT_TYPE
}
SequenceModifierTypeInfo *BKE_sequence_modifier_type_info_get(int type)
{
if (!modifierTypesInit) {
sequence_modifier_type_info_init();
modifierTypesInit = TRUE;
}
return modifiersTypes[type];
}
SequenceModifierData *BKE_sequence_modifier_new(Sequence *seq, const char *name, int type)
{
SequenceModifierData *smd;
SequenceModifierTypeInfo *smti = BKE_sequence_modifier_type_info_get(type);
smd = MEM_callocN(smti->struct_size, "sequence modifier");
smd->type = type;
smd->flag |= SEQUENCE_MODIFIER_EXPANDED;
if (!name || !name[0])
BLI_strncpy(smd->name, smti->name, sizeof(smd->name));
else
BLI_strncpy(smd->name, name, sizeof(smd->name));
BLI_addtail(&seq->modifiers, smd);
BKE_sequence_modifier_unique_name(seq, smd);
if (smti->init_data)
smti->init_data(smd);
return smd;
}
int BKE_sequence_modifier_remove(Sequence *seq, SequenceModifierData *smd)
{
if (BLI_findindex(&seq->modifiers, smd) == -1)
return FALSE;
BLI_remlink(&seq->modifiers, smd);
BKE_sequence_modifier_free(smd);
return TRUE;
}
void BKE_sequence_modifier_clear(Sequence *seq)
{
SequenceModifierData *smd, *smd_next;
for (smd = seq->modifiers.first; smd; smd = smd_next) {
smd_next = smd->next;
BKE_sequence_modifier_free(smd);
}
seq->modifiers.first = seq->modifiers.last = NULL;
}
void BKE_sequence_modifier_free(SequenceModifierData *smd)
{
SequenceModifierTypeInfo *smti = BKE_sequence_modifier_type_info_get(smd->type);
if (smti && smti->free_data) {
smti->free_data(smd);
}
MEM_freeN(smd);
}
void BKE_sequence_modifier_unique_name(Sequence *seq, SequenceModifierData *smd)
{
SequenceModifierTypeInfo *smti = BKE_sequence_modifier_type_info_get(smd->type);
BLI_uniquename(&seq->modifiers, smd, CTX_DATA_(BLF_I18NCONTEXT_ID_SEQUENCE, smti->name), '.',
offsetof(SequenceModifierData, name), sizeof(smd->name));
}
SequenceModifierData *BKE_sequence_modifier_find_by_name(Sequence *seq, const char *name)
{
return BLI_findstring(&(seq->modifiers), name, offsetof(SequenceModifierData, name));
}
ImBuf *BKE_sequence_modifier_apply_stack(SeqRenderData context, Sequence *seq, ImBuf *ibuf, int cfra)
{
SequenceModifierData *smd;
ImBuf *processed_ibuf = ibuf;
if (seq->modifiers.first && (seq->flag & SEQ_USE_LINEAR_MODIFIERS)) {
processed_ibuf = IMB_dupImBuf(ibuf);
BKE_sequencer_imbuf_from_sequencer_space(context.scene, processed_ibuf);
}
for (smd = seq->modifiers.first; smd; smd = smd->next) {
SequenceModifierTypeInfo *smti = BKE_sequence_modifier_type_info_get(smd->type);
/* could happen if modifier is being removed or not exists in current version of blender */
if (!smti)
continue;
/* modifier is muted, do nothing */
if (smd->flag & SEQUENCE_MODIFIER_MUTE)
continue;
if (smti->apply) {
ImBuf *mask = modifier_mask_get(smd, context, cfra, ibuf->rect_float != NULL);
if (processed_ibuf == ibuf)
processed_ibuf = IMB_dupImBuf(ibuf);
smti->apply(smd, processed_ibuf, mask);
if (mask)
IMB_freeImBuf(mask);
}
}
if (seq->modifiers.first && (seq->flag & SEQ_USE_LINEAR_MODIFIERS)) {
BKE_sequencer_imbuf_to_sequencer_space(context.scene, processed_ibuf, FALSE);
}
return processed_ibuf;
}
void BKE_sequence_modifier_list_copy(Sequence *seqn, Sequence *seq)
{
SequenceModifierData *smd;
for (smd = seq->modifiers.first; smd; smd = smd->next) {
SequenceModifierData *smdn;
SequenceModifierTypeInfo *smti = BKE_sequence_modifier_type_info_get(smd->type);
smdn = MEM_dupallocN(smd);
if (smti && smti->copy_data)
smti->copy_data(smdn, smd);
smdn->next = smdn->prev = NULL;
BLI_addtail(&seqn->modifiers, smdn);
}
}
int BKE_sequence_supports_modifiers(Sequence *seq)
{
return !ELEM(seq->type, SEQ_TYPE_SOUND_RAM, SEQ_TYPE_SOUND_HD);
}
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