/* * 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) 2008, Blender Foundation * This is a new part of Blender */ #pragma once /** \file * \ingroup bke */ #ifdef __cplusplus extern "C" { #endif struct Depsgraph; struct Main; struct Object; struct RegionView3D; struct Scene; struct bGPDcurve; struct bGPDframe; struct bGPDspoint; struct bGPDstroke; struct bGPdata; /* Object bound-box. */ /** * Get min/max bounds of all strokes in grease pencil data-block. * \param gpd: Grease pencil data-block * \param r_min: Result minimum coordinates * \param r_max: Result maximum coordinates * \return True if it was possible to calculate */ bool BKE_gpencil_data_minmax(const struct bGPdata *gpd, float r_min[3], float r_max[3]); /** * Get min/max coordinate bounds for single stroke. * \param gps: Grease pencil stroke * \param use_select: Include only selected points * \param r_min: Result minimum coordinates * \param r_max: Result maximum coordinates * \return True if it was possible to calculate */ bool BKE_gpencil_stroke_minmax(const struct bGPDstroke *gps, bool use_select, float r_min[3], float r_max[3]); /** * Get grease pencil object bounding box. * \param ob: Grease pencil object * \return Bounding box */ struct BoundBox *BKE_gpencil_boundbox_get(struct Object *ob); /** * Compute center of bounding box. * \param gpd: Grease pencil data-block * \param r_centroid: Location of the center */ void BKE_gpencil_centroid_3d(struct bGPdata *gpd, float r_centroid[3]); /** * Compute stroke bounding box. * \param gps: Grease pencil Stroke */ void BKE_gpencil_stroke_boundingbox_calc(struct bGPDstroke *gps); /* Stroke geometry utilities. */ /** * Calculate stroke normals. * \param gps: Grease pencil stroke * \param r_normal: Return Normal vector normalized */ void BKE_gpencil_stroke_normal(const struct bGPDstroke *gps, float r_normal[3]); /** * Reduce a series of points to a simplified version, * but maintains the general shape of the series. * * Ramer - Douglas - Peucker algorithm * by http://en.wikipedia.org/wiki/Ramer-Douglas-Peucker_algorithm * \param gpd: Grease pencil data-block * \param gps: Grease pencil stroke * \param epsilon: Epsilon value to define precision of the algorithm */ void BKE_gpencil_stroke_simplify_adaptive(struct bGPdata *gpd, struct bGPDstroke *gps, float epsilon); /** * Simplify alternate vertex of stroke except extremes. * \param gpd: Grease pencil data-block * \param gps: Grease pencil stroke */ void BKE_gpencil_stroke_simplify_fixed(struct bGPdata *gpd, struct bGPDstroke *gps); /** * Subdivide a stroke * \param gpd: Grease pencil data-block * \param gps: Stroke * \param level: Level of subdivision * \param type: Type of subdivision */ void BKE_gpencil_stroke_subdivide(struct bGPdata *gpd, struct bGPDstroke *gps, int level, int type); /** * Trim stroke to the first intersection or loop. * \param gps: Stroke data */ bool BKE_gpencil_stroke_trim(struct bGPdata *gpd, struct bGPDstroke *gps); /** * Reduce a series of points when the distance is below a threshold. * Special case for first and last points (both are kept) for other points, * the merge point always is at first point. * * \param gpd: Grease pencil data-block. * \param gpf: Grease Pencil frame. * \param gps: Grease Pencil stroke. * \param threshold: Distance between points. * \param use_unselected: Set to true to analyze all stroke and not only selected points. */ void BKE_gpencil_stroke_merge_distance(struct bGPdata *gpd, struct bGPDframe *gpf, struct bGPDstroke *gps, float threshold, bool use_unselected); /** * Get points of stroke always flat to view not affected * by camera view or view position. * \param points: Array of grease pencil points (3D) * \param totpoints: Total of points * \param points2d: Result array of 2D points * \param r_direction: Return Concave (-1), Convex (1), or Auto-detect (0) */ void BKE_gpencil_stroke_2d_flat(const struct bGPDspoint *points, int totpoints, float (*points2d)[2], int *r_direction); /** * Get points of stroke always flat to view not affected by camera view or view position * using another stroke as reference. * \param ref_points: Array of reference points (3D) * \param ref_totpoints: Total reference points * \param points: Array of points to flat (3D) * \param totpoints: Total points * \param points2d: Result array of 2D points * \param scale: Scale factor * \param r_direction: Return Concave (-1), Convex (1), or Auto-detect (0) */ void BKE_gpencil_stroke_2d_flat_ref(const struct bGPDspoint *ref_points, int ref_totpoints, const struct bGPDspoint *points, int totpoints, float (*points2d)[2], float scale, int *r_direction); /** * Triangulate stroke to generate data for filling areas. * \param gps: Grease pencil stroke */ void BKE_gpencil_stroke_fill_triangulate(struct bGPDstroke *gps); /** * Recalc all internal geometry data for the stroke * \param gpd: Grease pencil data-block * \param gps: Grease pencil stroke */ void BKE_gpencil_stroke_geometry_update(struct bGPdata *gpd, struct bGPDstroke *gps); /** * Update Stroke UV data. * \param gps: Grease pencil stroke */ void BKE_gpencil_stroke_uv_update(struct bGPDstroke *gps); /** * Apply grease pencil Transforms. * \param gpd: Grease pencil data-block * \param mat: Transformation matrix */ void BKE_gpencil_transform(struct bGPdata *gpd, const float mat[4][4]); typedef struct GPencilPointCoordinates { /* This is used when doing "move only origin" in object_data_transform.c. * pressure is needs to be stored here as it is tied to object scale. */ float co[3]; float pressure; } GPencilPointCoordinates; /** * \note Used for "move only origins" in object_data_transform.c. */ int BKE_gpencil_stroke_point_count(const struct bGPdata *gpd); /** * \note Used for "move only origins" in object_data_transform.c. */ void BKE_gpencil_point_coords_get(struct bGPdata *gpd, GPencilPointCoordinates *elem_data); /** * \note Used for "move only origins" in object_data_transform.c. */ void BKE_gpencil_point_coords_apply(struct bGPdata *gpd, const GPencilPointCoordinates *elem_data); /** * \note Used for "move only origins" in object_data_transform.c. */ void BKE_gpencil_point_coords_apply_with_mat4(struct bGPdata *gpd, const GPencilPointCoordinates *elem_data, const float mat[4][4]); /** * Resample a stroke * \param gpd: Grease pencil data-block * \param gps: Stroke to sample * \param dist: Distance of one segment */ bool BKE_gpencil_stroke_sample(struct bGPdata *gpd, struct bGPDstroke *gps, float dist, bool select); /** * Apply smooth position to stroke point. * \param gps: Stroke to smooth * \param i: Point index * \param inf: Amount of smoothing to apply * \param smooth_caps: Apply smooth to stroke extremes */ bool BKE_gpencil_stroke_smooth_point(struct bGPDstroke *gps, int i, float inf, bool smooth_caps); /** * Apply smooth strength to stroke point. * \param gps: Stroke to smooth * \param point_index: Point index * \param influence: Amount of smoothing to apply */ bool BKE_gpencil_stroke_smooth_strength(struct bGPDstroke *gps, int point_index, float influence); /** * Apply smooth for thickness to stroke point (use pressure). * \param gps: Stroke to smooth * \param point_index: Point index * \param influence: Amount of smoothing to apply */ bool BKE_gpencil_stroke_smooth_thickness(struct bGPDstroke *gps, int point_index, float influence); /** * Apply smooth for UV rotation to stroke point (use pressure). * \param gps: Stroke to smooth * \param point_index: Point index * \param influence: Amount of smoothing to apply */ bool BKE_gpencil_stroke_smooth_uv(struct bGPDstroke *gps, int point_index, float influence); /** * Close grease pencil stroke. * \param gps: Stroke to close */ bool BKE_gpencil_stroke_close(struct bGPDstroke *gps); /** * Dissolve points in stroke. * \param gpd: Grease pencil data-block * \param gpf: Grease pencil frame * \param gps: Grease pencil stroke * \param tag: Type of tag for point */ void BKE_gpencil_dissolve_points(struct bGPdata *gpd, struct bGPDframe *gpf, struct bGPDstroke *gps, short tag); /** * Backbone stretch similar to Freestyle. * \param gps: Stroke to sample. * \param dist: Length of the added section. * \param overshoot_fac: Relative length of the curve which is used to determine the extension. * \param mode: Affect to Start, End or Both extremes (0->Both, 1->Start, 2->End). * \param follow_curvature: True for approximating curvature of given overshoot. * \param extra_point_count: When follow_curvature is true, use this amount of extra points. */ bool BKE_gpencil_stroke_stretch(struct bGPDstroke *gps, float dist, float overshoot_fac, short mode, bool follow_curvature, int extra_point_count, float segment_influence, float max_angle, bool invert_curvature); /** * Trim stroke to needed segments. * \param gps: Target stroke. * \param index_from: the index of the first point to be used in the trimmed result. * \param index_to: the index of the last point to be used in the trimmed result. */ bool BKE_gpencil_stroke_trim_points(struct bGPDstroke *gps, int index_from, int index_to); /** * Split the given stroke into several new strokes, partitioning * it based on whether the stroke points have a particular flag * is set (e.g. #GP_SPOINT_SELECT in most cases, but not always). */ struct bGPDstroke *BKE_gpencil_stroke_delete_tagged_points(struct bGPdata *gpd, struct bGPDframe *gpf, struct bGPDstroke *gps, struct bGPDstroke *next_stroke, int tag_flags, bool select, bool flat_cap, int limit); void BKE_gpencil_curve_delete_tagged_points(struct bGPdata *gpd, struct bGPDframe *gpf, struct bGPDstroke *gps, struct bGPDstroke *next_stroke, struct bGPDcurve *gpc, int tag_flags); /** * Flip stroke. */ void BKE_gpencil_stroke_flip(struct bGPDstroke *gps); /** * Split stroke. * \param gpd: Grease pencil data-block. * \param gpf: Grease pencil frame. * \param gps: Grease pencil original stroke. * \param before_index: Position of the point to split. * \param remaining_gps: Secondary stroke after split. * \return True if the split was done */ bool BKE_gpencil_stroke_split(struct bGPdata *gpd, struct bGPDframe *gpf, struct bGPDstroke *gps, int before_index, struct bGPDstroke **remaining_gps); /** * Shrink the stroke by length. * \param gps: Stroke to shrink * \param dist: delta length * \param mode: 1->Start, 2->End */ bool BKE_gpencil_stroke_shrink(struct bGPDstroke *gps, float dist, short mode); /** * Calculate grease pencil stroke length. * \param gps: Grease pencil stroke. * \param use_3d: Set to true to use 3D points. * \return Length of the stroke. */ float BKE_gpencil_stroke_length(const struct bGPDstroke *gps, bool use_3d); /** Calculate grease pencil stroke length between points. */ float BKE_gpencil_stroke_segment_length(const struct bGPDstroke *gps, int start_index, int end_index, bool use_3d); /** * Set a random color to stroke using vertex color. * \param gps: Stroke */ void BKE_gpencil_stroke_set_random_color(struct bGPDstroke *gps); /** * Join two strokes using the shortest distance (reorder stroke if necessary). */ void BKE_gpencil_stroke_join(struct bGPDstroke *gps_a, struct bGPDstroke *gps_b, bool leave_gaps, bool fit_thickness, bool smooth); /** * Copy the stroke of the frame to all frames selected (except current). */ void BKE_gpencil_stroke_copy_to_keyframes(struct bGPdata *gpd, struct bGPDlayer *gpl, struct bGPDframe *gpf, struct bGPDstroke *gps, bool tail); /** * Convert a mesh object to grease pencil stroke. * * \param bmain: Main thread pointer. * \param depsgraph: Original depsgraph. * \param scene: Original scene. * \param ob_gp: Grease pencil object to add strokes. * \param ob_mesh: Mesh to convert. * \param angle: Limit angle to consider a edge-loop ends. * \param thickness: Thickness of the strokes. * \param offset: Offset along the normals. * \param matrix: Transformation matrix. * \param frame_offset: Destination frame number offset. * \param use_seams: Only export seam edges. * \param use_faces: Export faces as filled strokes. */ bool BKE_gpencil_convert_mesh(struct Main *bmain, struct Depsgraph *depsgraph, struct Scene *scene, struct Object *ob_gp, struct Object *ob_mesh, float angle, int thickness, float offset, const float matrix[4][4], int frame_offset, bool use_seams, bool use_faces, bool use_vgroups); /** * Subdivide the grease pencil stroke so the number of points is target_number. * Does not change the shape of the stroke. The new points will be distributed as * uniformly as possible by repeatedly subdividing the current longest edge. * * \param gps: The stroke to be up-sampled. * \param target_number: The number of points the up-sampled stroke should have. * \param select: Select/Deselect the stroke. */ void BKE_gpencil_stroke_uniform_subdivide(struct bGPdata *gpd, struct bGPDstroke *gps, uint32_t target_number, bool select); /** * Stroke to view space * Transforms a stroke to view space. * This allows for manipulations in 2D but also easy conversion back to 3D. * \note also takes care of parent space transform. */ void BKE_gpencil_stroke_to_view_space(struct RegionView3D *rv3d, struct bGPDstroke *gps, const float diff_mat[4][4]); /** * Stroke from view space * Transforms a stroke from view space back to world space. * Inverse of #BKE_gpencil_stroke_to_view_space * \note also takes care of parent space transform. */ void BKE_gpencil_stroke_from_view_space(struct RegionView3D *rv3d, struct bGPDstroke *gps, const float diff_mat[4][4]); /** * Calculates the perimeter of a stroke projected from the view and returns it as a new stroke. * \param subdivisions: Number of subdivisions for the start and end caps. * \return: bGPDstroke pointer to stroke perimeter. */ struct bGPDstroke *BKE_gpencil_stroke_perimeter_from_view(struct RegionView3D *rv3d, struct bGPdata *gpd, const struct bGPDlayer *gpl, struct bGPDstroke *gps, int subdivisions, const float diff_mat[4][4]); /** * Get average pressure. */ float BKE_gpencil_stroke_average_pressure_get(struct bGPDstroke *gps); /** * Check if the thickness of the stroke is constant. */ bool BKE_gpencil_stroke_is_pressure_constant(struct bGPDstroke *gps); #ifdef __cplusplus } #endif