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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) 2009 Blender Foundation, Joshua Leung
* All rights reserved.
*
* Contributor(s): Joshua Leung (full recode)
*
* ***** END GPL LICENSE BLOCK *****
*/
#ifndef __BKE_FCURVE_H__
#define __BKE_FCURVE_H__
/** \file BKE_fcurve.h
* \ingroup bke
* \author Joshua Leung
* \since 2009
*/
#ifdef __cplusplus
extern "C" {
#endif
struct FCurve;
struct FModifier;
struct ChannelDriver;
struct DriverVar;
struct DriverTarget;
struct FCM_EnvelopeData;
struct bContext;
struct AnimData;
struct bAction;
struct BezTriple;
struct StructRNA;
struct PathResolvedRNA;
struct PointerRNA;
struct PropertyRNA;
#include "DNA_curve_types.h"
/* ************** Keyframe Tools ***************** */
typedef struct CfraElem {
struct CfraElem *next, *prev;
float cfra;
int sel;
} CfraElem;
void bezt_add_to_cfra_elem(ListBase *lb, struct BezTriple *bezt);
/* ************** F-Curve Drivers ***************** */
/* With these iterators for convenience, the variables "tarIndex" and "dtar" can be
* accessed directly from the code using them, but it is not recommended that their
* values be changed to point at other slots...
*/
/* convenience looper over ALL driver targets for a given variable (even the unused ones) */
#define DRIVER_TARGETS_LOOPER(dvar) \
{ \
DriverTarget *dtar = &dvar->targets[0]; \
int tarIndex = 0; \
for (; tarIndex < MAX_DRIVER_TARGETS; tarIndex++, dtar++)
/* convenience looper over USED driver targets only */
#define DRIVER_TARGETS_USED_LOOPER(dvar) \
{ \
DriverTarget *dtar = &dvar->targets[0]; \
int tarIndex = 0; \
for (; tarIndex < dvar->num_targets; tarIndex++, dtar++)
/* tidy up for driver targets loopers */
#define DRIVER_TARGETS_LOOPER_END \
}
/* ---------------------- */
void fcurve_free_driver(struct FCurve *fcu);
struct ChannelDriver *fcurve_copy_driver(struct ChannelDriver *driver);
void driver_variables_copy(struct ListBase *dst_list, const struct ListBase *src_list);
void driver_free_variable(struct ListBase *variables, struct DriverVar *dvar);
void driver_free_variable_ex(struct ChannelDriver *driver, struct DriverVar *dvar);
void driver_change_variable_type(struct DriverVar *dvar, int type);
void driver_variable_name_validate(struct DriverVar *dvar);
struct DriverVar *driver_add_new_variable(struct ChannelDriver *driver);
float driver_get_variable_value(struct ChannelDriver *driver, struct DriverVar *dvar);
bool driver_get_variable_property(
struct ChannelDriver *driver, struct DriverTarget *dtar,
struct PointerRNA *r_ptr, struct PropertyRNA **r_prop, int *r_index);
float evaluate_driver(struct PathResolvedRNA *anim_rna, struct ChannelDriver *driver, const float evaltime);
/* ************** F-Curve Modifiers *************** */
typedef struct GHash FModifierStackStorage;
/* F-Curve Modifier Type-Info (fmi):
* This struct provides function pointers for runtime, so that functions can be
* written more generally (with fewer/no special exceptions for various modifiers).
*
* Callers of these functions must check that they actually point to something useful,
* as some constraints don't define some of these.
*
* Warning: it is not too advisable to reorder order of members of this struct,
* as you'll have to edit quite a few ($FMODIFIER_NUM_TYPES) of these
* structs.
*/
typedef struct FModifierTypeInfo {
/* admin/ident */
short type; /* FMODIFIER_TYPE_### */
short size; /* size in bytes of the struct */
short acttype; /* eFMI_Action_Types */
short requires; /* eFMI_Requirement_Flags */
char name[64]; /* name of modifier in interface */
char structName[64]; /* name of struct for SDNA */
/* data management function pointers - special handling */
/* free any data that is allocated separately (optional) */
void (*free_data)(struct FModifier *fcm);
/* copy any special data that is allocated separately (optional) */
void (*copy_data)(struct FModifier *fcm, struct FModifier *src);
/* set settings for data that will be used for FCuModifier.data (memory already allocated using MEM_callocN) */
void (*new_data)(void *mdata);
/* verifies that the modifier settings are valid */
void (*verify_data)(struct FModifier *fcm);
/* evaluation */
/* evaluate time that the modifier requires the F-Curve to be evaluated at */
float (*evaluate_modifier_time)(struct FCurve *fcu, struct FModifier *fcm, float cvalue, float evaltime);
/* evaluate the modifier for the given time and 'accumulated' value */
void (*evaluate_modifier)(struct FCurve *fcu, struct FModifier *fcm, float *cvalue, float evaltime);
/* Same as above but for modifiers which requires storage */
float (*evaluate_modifier_time_storage)(FModifierStackStorage *storage, struct FCurve *fcu, struct FModifier *fcm, float cvalue, float evaltime);
void (*evaluate_modifier_storage)(FModifierStackStorage *storage, struct FCurve *fcu, struct FModifier *fcm, float *cvalue, float evaltime);
} FModifierTypeInfo;
/* Values which describe the behavior of a FModifier Type */
typedef enum eFMI_Action_Types {
/* modifier only modifies values outside of data range */
FMI_TYPE_EXTRAPOLATION = 0,
/* modifier leaves data-points alone, but adjusts the interpolation between and around them */
FMI_TYPE_INTERPOLATION,
/* modifier only modifies the values of points (but times stay the same) */
FMI_TYPE_REPLACE_VALUES,
/* modifier generates a curve regardless of what came before */
FMI_TYPE_GENERATE_CURVE
} eFMI_Action_Types;
/* Flags for the requirements of a FModifier Type */
typedef enum eFMI_Requirement_Flags {
/* modifier requires original data-points (kindof beats the purpose of a modifier stack?) */
FMI_REQUIRES_ORIGINAL_DATA = (1 << 0),
/* modifier doesn't require on any preceding data (i.e. it will generate a curve).
* Use in conjunction with FMI_TYPE_GENRATE_CURVE
*/
FMI_REQUIRES_NOTHING = (1 << 1),
/* refer to modifier instance */
FMI_REQUIRES_RUNTIME_CHECK = (1 << 2),
/* Requires to store data shared between time and valua evaluation */
FMI_REQUIRES_STORAGE = (1 << 3)
} eFMI_Requirement_Flags;
/* Function Prototypes for FModifierTypeInfo's */
const FModifierTypeInfo *fmodifier_get_typeinfo(struct FModifier *fcm);
const FModifierTypeInfo *get_fmodifier_typeinfo(int type);
/* ---------------------- */
struct FModifier *add_fmodifier(ListBase *modifiers, int type);
struct FModifier *copy_fmodifier(struct FModifier *src);
void copy_fmodifiers(ListBase *dst, ListBase *src);
bool remove_fmodifier(ListBase *modifiers, struct FModifier *fcm);
void free_fmodifiers(ListBase *modifiers);
struct FModifier *find_active_fmodifier(ListBase *modifiers);
void set_active_fmodifier(ListBase *modifiers, struct FModifier *fcm);
bool list_has_suitable_fmodifier(ListBase *modifiers, int mtype, short acttype);
FModifierStackStorage *evaluate_fmodifiers_storage_new(ListBase *modifiers);
void evaluate_fmodifiers_storage_free(FModifierStackStorage *storage);
float evaluate_time_fmodifiers(FModifierStackStorage *storage, ListBase *modifiers, struct FCurve *fcu, float cvalue, float evaltime);
void evaluate_value_fmodifiers(FModifierStackStorage *storage, ListBase *modifiers, struct FCurve *fcu, float *cvalue, float evaltime);
void fcurve_bake_modifiers(struct FCurve *fcu, int start, int end);
int BKE_fcm_envelope_find_index(struct FCM_EnvelopeData *array, float frame, int arraylen, bool *r_exists);
/* ************** F-Curves API ******************** */
/* threshold for binary-searching keyframes - threshold here should be good enough for now, but should become userpref */
#define BEZT_BINARYSEARCH_THRESH 0.01f /* was 0.00001, but giving errors */
/* -------- Data Management -------- */
void free_fcurve(struct FCurve *fcu);
struct FCurve *copy_fcurve(struct FCurve *fcu);
void free_fcurves(ListBase *list);
void copy_fcurves(ListBase *dst, ListBase *src);
/* find matching F-Curve in the given list of F-Curves */
struct FCurve *list_find_fcurve(ListBase *list, const char rna_path[], const int array_index);
struct FCurve *iter_step_fcurve(struct FCurve *fcu_iter, const char rna_path[]);
/* high level function to get an fcurve from C without having the rna */
struct FCurve *id_data_find_fcurve(ID *id, void *data, struct StructRNA *type, const char *prop_name, int index, bool *r_driven);
/* Get list of LinkData's containing pointers to the F-Curves which control the types of data indicated
* e.g. numMatches = list_find_data_fcurves(matches, &act->curves, "pose.bones[", "MyFancyBone");
*/
int list_find_data_fcurves(ListBase *dst, ListBase *src, const char *dataPrefix, const char *dataName);
/* Find an f-curve based on an rna property. */
struct FCurve *rna_get_fcurve(
struct PointerRNA *ptr, struct PropertyRNA *prop, int rnaindex,
struct AnimData **r_adt, struct bAction **r_action,
bool *r_driven, bool *r_special);
/* Same as above, but takes a context data, temp hack needed for complex paths like texture ones. */
struct FCurve *rna_get_fcurve_context_ui(
struct bContext *C, struct PointerRNA *ptr, struct PropertyRNA *prop, int rnaindex,
struct AnimData **r_adt, struct bAction **r_action, bool *r_driven, bool *r_special);
/* Binary search algorithm for finding where to 'insert' BezTriple with given frame number.
* Returns the index to insert at (data already at that index will be offset if replace is 0)
*/
int binarysearch_bezt_index(struct BezTriple array[], float frame, int arraylen, bool *r_replace);
/* get the time extents for F-Curve */
bool calc_fcurve_range(struct FCurve *fcu, float *min, float *max,
const bool do_sel_only, const bool do_min_length);
/* get the bounding-box extents for F-Curve */
bool calc_fcurve_bounds(struct FCurve *fcu, float *xmin, float *xmax, float *ymin, float *ymax,
const bool do_sel_only, const bool include_handles);
/* .............. */
/* Are keyframes on F-Curve of any use (to final result, and to show in editors)? */
bool fcurve_are_keyframes_usable(struct FCurve *fcu);
/* Can keyframes be added to F-Curve? */
bool fcurve_is_keyframable(struct FCurve *fcu);
bool BKE_fcurve_is_protected(struct FCurve *fcu);
/* -------- Curve Sanity -------- */
void calchandles_fcurve(struct FCurve *fcu);
void testhandles_fcurve(struct FCurve *fcu, const bool use_handle);
void sort_time_fcurve(struct FCurve *fcu);
short test_time_fcurve(struct FCurve *fcu);
void correct_bezpart(float v1[2], float v2[2], float v3[2], float v4[2]);
/* -------- Evaluation -------- */
/* evaluate fcurve */
float evaluate_fcurve(struct FCurve *fcu, float evaltime);
float evaluate_fcurve_driver(struct PathResolvedRNA *anim_rna, struct FCurve *fcu, float evaltime);
/* evaluate fcurve and store value */
float calculate_fcurve(struct PathResolvedRNA *anim_rna, struct FCurve *fcu, float evaltime);
/* ************* F-Curve Samples API ******************** */
/* -------- Defines -------- */
/* Basic signature for F-Curve sample-creation function
* - fcu: the F-Curve being operated on
* - data: pointer to some specific data that may be used by one of the callbacks
*/
typedef float (*FcuSampleFunc)(struct FCurve *fcu, void *data, float evaltime);
/* ----- Sampling Callbacks ------ */
/* Basic sampling callback which acts as a wrapper for evaluate_fcurve() */
float fcurve_samplingcb_evalcurve(struct FCurve *fcu, void *data, float evaltime);
/* -------- Main Methods -------- */
/* Main API function for creating a set of sampled curve data, given some callback function
* used to retrieve the values to store.
*/
void fcurve_store_samples(struct FCurve *fcu, void *data, int start, int end, FcuSampleFunc sample_cb);
#ifdef __cplusplus
}
#endif
#endif /* __BKE_FCURVE_H__*/
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