/* * ***** 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) 2008, Blender Foundation * This is a new part of Blender * * Contributor(s): Joshua Leung, Antonio Vazquez * * ***** END GPL LICENSE BLOCK ***** */ /** \file blender/editors/gpencil/drawgpencil.c * \ingroup edgpencil */ #include #include #include #include #include #include #include "MEM_guardedalloc.h" #include "BLI_sys_types.h" #include "BLI_math.h" #include "BLI_utildefines.h" #include "BLI_polyfill2d.h" #include "BLF_api.h" #include "BLT_translation.h" #include "DNA_gpencil_types.h" #include "DNA_scene_types.h" #include "DNA_screen_types.h" #include "DNA_space_types.h" #include "DNA_view3d_types.h" #include "DNA_userdef_types.h" #include "DNA_object_types.h" #include "BKE_context.h" #include "BKE_global.h" #include "BKE_gpencil.h" #include "WM_api.h" #include "BIF_gl.h" #include "BIF_glutil.h" #include "ED_gpencil.h" #include "ED_screen.h" #include "ED_view3d.h" #include "ED_space_api.h" #include "UI_interface_icons.h" #include "UI_resources.h" /* ************************************************** */ /* GREASE PENCIL DRAWING */ /* ----- General Defines ------ */ /* flags for sflag */ typedef enum eDrawStrokeFlags { GP_DRAWDATA_NOSTATUS = (1 << 0), /* don't draw status info */ GP_DRAWDATA_ONLY3D = (1 << 1), /* only draw 3d-strokes */ GP_DRAWDATA_ONLYV2D = (1 << 2), /* only draw 'canvas' strokes */ GP_DRAWDATA_ONLYI2D = (1 << 3), /* only draw 'image' strokes */ GP_DRAWDATA_IEDITHACK = (1 << 4), /* special hack for drawing strokes in Image Editor (weird coordinates) */ GP_DRAWDATA_NO_XRAY = (1 << 5), /* don't draw xray in 3D view (which is default) */ GP_DRAWDATA_NO_ONIONS = (1 << 6), /* no onionskins should be drawn (for animation playback) */ GP_DRAWDATA_VOLUMETRIC = (1 << 7), /* draw strokes as "volumetric" circular billboards */ GP_DRAWDATA_FILL = (1 << 8), /* fill insides/bounded-regions of strokes */ GP_DRAWDATA_HQ_FILL = (1 << 9) /* Use high quality fill */ } eDrawStrokeFlags; /* thickness above which we should use special drawing */ #define GP_DRAWTHICKNESS_SPECIAL 3 /* ----- Tool Buffer Drawing ------ */ /* helper function to set color of buffer point */ static void gp_set_tpoint_color(tGPspoint *pt, float ink[4]) { float alpha = ink[3] * pt->strength; CLAMP(alpha, GPENCIL_STRENGTH_MIN, 1.0f); glColor4f(ink[0], ink[1], ink[2], alpha); } /* helper function to set color of point */ static void gp_set_point_color(bGPDspoint *pt, float ink[4]) { float alpha = ink[3] * pt->strength; CLAMP(alpha, GPENCIL_STRENGTH_MIN, 1.0f); glColor4f(ink[0], ink[1], ink[2], alpha); } /* helper function to set color and point */ static void gp_set_color_and_tpoint(tGPspoint *pt, float ink[4]) { gp_set_tpoint_color(pt, ink); glVertex2iv(&pt->x); } /* draw stroke defined in buffer (simple ogl lines/points for now, as dotted lines) */ static void gp_draw_stroke_buffer(tGPspoint *points, int totpoints, short thickness, short dflag, short sflag, float ink[4]) { tGPspoint *pt; int i; /* error checking */ if ((points == NULL) || (totpoints <= 0)) return; /* check if buffer can be drawn */ if (dflag & (GP_DRAWDATA_ONLY3D | GP_DRAWDATA_ONLYV2D)) return; if (totpoints == 1) { /* if drawing a single point, draw it larger */ glPointSize((float)(thickness + 2) * points->pressure); glBegin(GL_POINTS); gp_set_color_and_tpoint(points, ink); glEnd(); } else if (sflag & GP_STROKE_ERASER) { /* don't draw stroke at all! */ } else { float oldpressure = points[0].pressure; /* draw stroke curve */ if (G.debug & G_DEBUG) setlinestyle(2); glLineWidth(max_ff(oldpressure * thickness, 1.0)); glBegin(GL_LINE_STRIP); for (i = 0, pt = points; i < totpoints && pt; i++, pt++) { /* if there was a significant pressure change, stop the curve, change the thickness of the stroke, * and continue drawing again (since line-width cannot change in middle of GL_LINE_STRIP) */ if (fabsf(pt->pressure - oldpressure) > 0.2f) { glEnd(); glLineWidth(max_ff(pt->pressure * thickness, 1.0f)); glBegin(GL_LINE_STRIP); /* need to roll-back one point to ensure that there are no gaps in the stroke */ if (i != 0) { gp_set_color_and_tpoint((pt - 1), ink); } /* now the point we want... */ gp_set_color_and_tpoint(pt, ink); oldpressure = pt->pressure; } else { gp_set_color_and_tpoint(pt, ink); } } glEnd(); if (G.debug & G_DEBUG) setlinestyle(0); } } /* --------- 2D Stroke Drawing Helpers --------- */ /* change in parameter list */ static void gp_calc_2d_stroke_fxy(float pt[3], short sflag, int offsx, int offsy, int winx, int winy, float r_co[2]) { if (sflag & GP_STROKE_2DSPACE) { r_co[0] = pt[0]; r_co[1] = pt[1]; } else if (sflag & GP_STROKE_2DIMAGE) { const float x = (float)((pt[0] * winx) + offsx); const float y = (float)((pt[1] * winy) + offsy); r_co[0] = x; r_co[1] = y; } else { const float x = (float)(pt[0] / 100 * winx) + offsx; const float y = (float)(pt[1] / 100 * winy) + offsy; r_co[0] = x; r_co[1] = y; } } /* ----------- Volumetric Strokes --------------- */ /* draw a 2D buffer stroke in "volumetric" style * NOTE: the stroke buffer doesn't have any coordinate offsets/transforms */ static void gp_draw_stroke_volumetric_buffer(tGPspoint *points, int totpoints, short thickness, short dflag, short UNUSED(sflag), float ink[4]) { GLUquadricObj *qobj = gluNewQuadric(); float modelview[4][4]; tGPspoint *pt; int i; /* error checking */ if ((points == NULL) || (totpoints <= 0)) return; /* check if buffer can be drawn */ if (dflag & (GP_DRAWDATA_ONLY3D | GP_DRAWDATA_ONLYV2D)) return; /* get basic matrix - should be camera space (i.e "identity") */ glGetFloatv(GL_MODELVIEW_MATRIX, (float *)modelview); /* draw points */ glPushMatrix(); for (i = 0, pt = points; i < totpoints; i++, pt++) { /* set the transformed position */ // TODO: scale should change based on zoom level, which requires proper translation mult too! modelview[3][0] = pt->x; modelview[3][1] = pt->y; glLoadMatrixf((float *)modelview); /* draw the disk using the current state... */ gp_set_tpoint_color(pt, ink); gluDisk(qobj, 0.0, pt->pressure * thickness, 32, 1); modelview[3][0] = modelview[3][1] = 0.0f; } glPopMatrix(); gluDeleteQuadric(qobj); } /* draw a 2D strokes in "volumetric" style */ static void gp_draw_stroke_volumetric_2d(bGPDspoint *points, int totpoints, short thickness, short dflag, short sflag, int offsx, int offsy, int winx, int winy, float diff_mat[4][4], float ink[4]) { GLUquadricObj *qobj = gluNewQuadric(); float modelview[4][4]; float baseloc[3]; float scalefac = 1.0f; bGPDspoint *pt; int i; float fpt[3]; /* HACK: We need a scale factor for the drawing in the image editor, * which seems to use 1 unit as it's maximum size, whereas everything * else assumes 1 unit = 1 pixel. Otherwise, we only get a massive blob. */ if ((dflag & GP_DRAWDATA_IEDITHACK) && (dflag & GP_DRAWDATA_ONLYV2D)) { scalefac = 0.001f; } /* get basic matrix */ glGetFloatv(GL_MODELVIEW_MATRIX, (float *)modelview); copy_v3_v3(baseloc, modelview[3]); /* draw points */ glPushMatrix(); for (i = 0, pt = points; i < totpoints; i++, pt++) { /* color of point */ gp_set_point_color(pt, ink); /* set the transformed position */ float co[2]; mul_v3_m4v3(fpt, diff_mat, &pt->x); gp_calc_2d_stroke_fxy(fpt, sflag, offsx, offsy, winx, winy, co); translate_m4(modelview, co[0], co[1], 0.0f); glLoadMatrixf((float *)modelview); /* draw the disk using the current state... */ gluDisk(qobj, 0.0, pt->pressure * thickness * scalefac, 32, 1); /* restore matrix */ copy_v3_v3(modelview[3], baseloc); } glPopMatrix(); gluDeleteQuadric(qobj); } /* draw a 3D stroke in "volumetric" style */ static void gp_draw_stroke_volumetric_3d( bGPDspoint *points, int totpoints, short thickness, short UNUSED(dflag), short UNUSED(sflag), float diff_mat[4][4], float ink[4]) { GLUquadricObj *qobj = gluNewQuadric(); float base_modelview[4][4], modelview[4][4]; float base_loc[3]; bGPDspoint *pt; int i; float fpt[3]; /* Get the basic modelview matrix we use for performing calculations */ glGetFloatv(GL_MODELVIEW_MATRIX, (float *)base_modelview); copy_v3_v3(base_loc, base_modelview[3]); /* Create the basic view-aligned billboard matrix we're going to actually draw qobj with: * - We need to knock out the rotation so that we are * simply left with a camera-facing billboard * - The scale factors here are chosen so that the thickness * is relatively reasonable. Otherwise, it gets far too * large! */ scale_m4_fl(modelview, 0.1f); /* draw each point as a disk... */ glPushMatrix(); for (i = 0, pt = points; i < totpoints && pt; i++, pt++) { /* color of point */ gp_set_point_color(pt, ink); mul_v3_m4v3(fpt, diff_mat, &pt->x); /* apply translation to base_modelview, so that the translated point is put in the right place */ translate_m4(base_modelview, fpt[0], fpt[1], fpt[2]); /* copy the translation component to the billboard matrix we're going to use, * then reset the base matrix to the original values so that we can do the same * for the next point without accumulation/pollution effects */ copy_v3_v3(modelview[3], base_modelview[3]); /* copy offset value */ copy_v3_v3(base_modelview[3], base_loc); /* restore */ /* apply our billboard matrix for drawing... */ glLoadMatrixf((float *)modelview); /* draw the disk using the current state... */ gluDisk(qobj, 0.0, pt->pressure * thickness, 32, 1); } glPopMatrix(); gluDeleteQuadric(qobj); } /* --------------- Stroke Fills ----------------- */ /* Get points of stroke always flat to view not affected by camera view or view position */ static void gp_stroke_2d_flat(bGPDspoint *points, int totpoints, float(*points2d)[2], int *r_direction) { bGPDspoint *pt0 = &points[0]; bGPDspoint *pt1 = &points[1]; bGPDspoint *pt3 = &points[(int)(totpoints * 0.75)]; float locx[3]; float locy[3]; float loc3[3]; float normal[3]; /* local X axis (p0 -> p1) */ sub_v3_v3v3(locx, &pt1->x, &pt0->x); /* point vector at 3/4 */ sub_v3_v3v3(loc3, &pt3->x, &pt0->x); /* vector orthogonal to polygon plane */ cross_v3_v3v3(normal, locx, loc3); /* local Y axis (cross to normal/x axis) */ cross_v3_v3v3(locy, normal, locx); /* Normalize vectors */ normalize_v3(locx); normalize_v3(locy); /* Get all points in local space */ for (int i = 0; i < totpoints; i++) { bGPDspoint *pt = &points[i]; float loc[3]; /* Get local space using first point as origin */ sub_v3_v3v3(loc, &pt->x, &pt0->x); points2d[i][0] = dot_v3v3(loc, locx); points2d[i][1] = dot_v3v3(loc, locy); } /* Concave (-1), Convex (1), or Autodetect (0)? */ *r_direction = (int)locy[2]; } /* Triangulate stroke for high quality fill (this is done only if cache is null or stroke was modified) */ static void gp_triangulate_stroke_fill(bGPDstroke *gps) { BLI_assert(gps->totpoints >= 3); /* allocate memory for temporary areas */ gps->tot_triangles = gps->totpoints - 2; unsigned int (*tmp_triangles)[3] = MEM_mallocN(sizeof(*tmp_triangles) * gps->tot_triangles, "GP Stroke temp triangulation"); float (*points2d)[2] = MEM_mallocN(sizeof(*points2d) * gps->totpoints, "GP Stroke temp 2d points"); int direction = 0; /* convert to 2d and triangulate */ gp_stroke_2d_flat(gps->points, gps->totpoints, points2d, &direction); BLI_polyfill_calc((const float(*)[2])points2d, (unsigned int)gps->totpoints, direction, (unsigned int(*)[3])tmp_triangles); /* Number of triangles */ gps->tot_triangles = gps->totpoints - 2; /* save triangulation data in stroke cache */ if (gps->tot_triangles > 0) { if (gps->triangles == NULL) { gps->triangles = MEM_callocN(sizeof(*gps->triangles) * gps->tot_triangles, "GP Stroke triangulation"); } else { gps->triangles = MEM_recallocN(gps->triangles, sizeof(*gps->triangles) * gps->tot_triangles); } for (int i = 0; i < gps->tot_triangles; i++) { bGPDtriangle *stroke_triangle = &gps->triangles[i]; stroke_triangle->v1 = tmp_triangles[i][0]; stroke_triangle->v2 = tmp_triangles[i][1]; stroke_triangle->v3 = tmp_triangles[i][2]; } } else { /* No triangles needed - Free anything allocated previously */ if (gps->triangles) MEM_freeN(gps->triangles); gps->triangles = NULL; } /* disable recalculation flag */ if (gps->flag & GP_STROKE_RECALC_CACHES) { gps->flag &= ~GP_STROKE_RECALC_CACHES; } /* clear memory */ if (tmp_triangles) MEM_freeN(tmp_triangles); if (points2d) MEM_freeN(points2d); } /* draw fills for shapes */ static void gp_draw_stroke_fill( bGPdata *gpd, bGPDstroke *gps, int offsx, int offsy, int winx, int winy, float diff_mat[4][4]) { bGPDpalettecolor *palcolor; int i; float fpt[3]; BLI_assert(gps->totpoints >= 3); palcolor = ED_gpencil_stroke_getcolor(gpd, gps); /* Triangulation fill if high quality flag is enabled */ if (palcolor->flag & PC_COLOR_HQ_FILL) { bGPDtriangle *stroke_triangle; bGPDspoint *pt; /* Calculate triangles cache for filling area (must be done only after changes) */ if ((gps->flag & GP_STROKE_RECALC_CACHES) || (gps->tot_triangles == 0) || (gps->triangles == NULL)) { gp_triangulate_stroke_fill(gps); } /* Draw all triangles for filling the polygon (cache must be calculated before) */ BLI_assert(gps->tot_triangles >= 1); glBegin(GL_TRIANGLES); for (i = 0, stroke_triangle = gps->triangles; i < gps->tot_triangles; i++, stroke_triangle++) { if (gps->flag & GP_STROKE_3DSPACE) { /* vertex 1 */ pt = &gps->points[stroke_triangle->v1]; mul_v3_m4v3(fpt, diff_mat, &pt->x); glVertex3fv(fpt); /* vertex 2 */ pt = &gps->points[stroke_triangle->v2]; mul_v3_m4v3(fpt, diff_mat, &pt->x); glVertex3fv(fpt); /* vertex 3 */ pt = &gps->points[stroke_triangle->v3]; mul_v3_m4v3(fpt, diff_mat, &pt->x); glVertex3fv(fpt); } else { float co[2]; /* vertex 1 */ pt = &gps->points[stroke_triangle->v1]; mul_v3_m4v3(fpt, diff_mat, &pt->x); gp_calc_2d_stroke_fxy(fpt, gps->flag, offsx, offsy, winx, winy, co); glVertex2fv(co); /* vertex 2 */ pt = &gps->points[stroke_triangle->v2]; mul_v3_m4v3(fpt, diff_mat, &pt->x); gp_calc_2d_stroke_fxy(fpt, gps->flag, offsx, offsy, winx, winy, co); glVertex2fv(co); /* vertex 3 */ pt = &gps->points[stroke_triangle->v3]; mul_v3_m4v3(fpt, diff_mat, &pt->x); gp_calc_2d_stroke_fxy(fpt, gps->flag, offsx, offsy, winx, winy, co); glVertex2fv(co); } } glEnd(); } else { /* As an initial implementation, we use the OpenGL filled polygon drawing * here since it's the easiest option to implement for this case. It does * come with limitations (notably for concave shapes), though it shouldn't * be much of an issue in most cases. * * We keep this legacy implementation around despite now having the high quality * fills, as this is necessary for keeping everything working nicely for files * created using old versions of Blender which may have depended on the artifacts * the old fills created. */ bGPDspoint *pt; glBegin(GL_POLYGON); for (i = 0, pt = gps->points; i < gps->totpoints; i++, pt++) { if (gps->flag & GP_STROKE_3DSPACE) { mul_v3_m4v3(fpt, diff_mat, &pt->x); glVertex3fv(fpt); } else { float co[2]; mul_v3_m4v3(fpt, diff_mat, &pt->x); gp_calc_2d_stroke_fxy(fpt, gps->flag, offsx, offsy, winx, winy, co); glVertex2fv(co); } } glEnd(); } } /* ----- Existing Strokes Drawing (3D and Point) ------ */ /* draw a given stroke - just a single dot (only one point) */ static void gp_draw_stroke_point( bGPDspoint *points, short thickness, short dflag, short sflag, int offsx, int offsy, int winx, int winy, float diff_mat[4][4], float ink[4]) { float fpt[3]; bGPDspoint *pt = &points[0]; /* color of point */ gp_set_point_color(pt, ink); /* set point thickness (since there's only one of these) */ glPointSize((float)(thickness + 2) * points->pressure); /* get final position using parent matrix */ mul_v3_m4v3(fpt, diff_mat, &pt->x); /* draw point */ if (sflag & GP_STROKE_3DSPACE) { glBegin(GL_POINTS); glVertex3fv(fpt); glEnd(); } else { float co[2]; /* get coordinates of point */ gp_calc_2d_stroke_fxy(fpt, sflag, offsx, offsy, winx, winy, co); /* if thickness is less than GP_DRAWTHICKNESS_SPECIAL, simple dot looks ok * - also mandatory in if Image Editor 'image-based' dot */ if ((thickness < GP_DRAWTHICKNESS_SPECIAL) || ((dflag & GP_DRAWDATA_IEDITHACK) && (sflag & GP_STROKE_2DSPACE))) { glBegin(GL_POINTS); glVertex2fv(co); glEnd(); } else { /* draw filled circle as is done in circf (but without the matrix push/pops which screwed things up) */ GLUquadricObj *qobj = gluNewQuadric(); gluQuadricDrawStyle(qobj, GLU_FILL); /* need to translate drawing position, but must reset after too! */ glTranslate2fv(co); gluDisk(qobj, 0.0, thickness, 32, 1); glTranslatef(-co[0], -co[1], 0.0); gluDeleteQuadric(qobj); } } } /* draw a given stroke in 3d (i.e. in 3d-space), using simple ogl lines */ static void gp_draw_stroke_3d(bGPDspoint *points, int totpoints, short thickness, bool debug, short UNUSED(sflag), float diff_mat[4][4], float ink[4], bool cyclic) { bGPDspoint *pt, *pt2; float curpressure = points[0].pressure; int i; float fpt[3]; float cyclic_fpt[3]; /* draw stroke curve */ glLineWidth(max_ff(curpressure * thickness, 1.0f)); glBegin(GL_LINE_STRIP); for (i = 0, pt = points; i < totpoints && pt; i++, pt++) { gp_set_point_color(pt, ink); /* if there was a significant pressure change, stop the curve, change the thickness of the stroke, * and continue drawing again (since line-width cannot change in middle of GL_LINE_STRIP) * Note: we want more visible levels of pressures when thickness is bigger. */ if (fabsf(pt->pressure - curpressure) > 0.2f / (float)thickness) { glEnd(); curpressure = pt->pressure; glLineWidth(max_ff(curpressure * thickness, 1.0f)); glBegin(GL_LINE_STRIP); /* need to roll-back one point to ensure that there are no gaps in the stroke */ if (i != 0) { pt2 = pt - 1; mul_v3_m4v3(fpt, diff_mat, &pt2->x); glVertex3fv(fpt); } /* now the point we want... */ mul_v3_m4v3(fpt, diff_mat, &pt->x); glVertex3fv(fpt); } else { mul_v3_m4v3(fpt, diff_mat, &pt->x); glVertex3fv(fpt); } /* saves first point to use in cyclic */ if (i == 0) { copy_v3_v3(cyclic_fpt, fpt); } } /* if cyclic draw line to first point */ if (cyclic) { glVertex3fv(cyclic_fpt); } glEnd(); /* draw debug points of curve on top? */ /* XXX: for now, we represent "selected" strokes in the same way as debug, which isn't used anymore */ if (debug) { glPointSize((float)(thickness + 2)); glBegin(GL_POINTS); for (i = 0, pt = points; i < totpoints && pt; i++, pt++) { mul_v3_m4v3(fpt, diff_mat, &pt->x); glVertex3fv(fpt); } glEnd(); } } /* ----- Fancy 2D-Stroke Drawing ------ */ /* draw a given stroke in 2d */ static void gp_draw_stroke_2d(bGPDspoint *points, int totpoints, short thickness_s, short dflag, short sflag, bool debug, int offsx, int offsy, int winx, int winy, float diff_mat[4][4], float ink[4]) { /* otherwise thickness is twice that of the 3D view */ float thickness = (float)thickness_s * 0.5f; /* strokes in Image Editor need a scale factor, since units there are not pixels! */ float scalefac = 1.0f; if ((dflag & GP_DRAWDATA_IEDITHACK) && (dflag & GP_DRAWDATA_ONLYV2D)) { scalefac = 0.001f; } /* tessellation code - draw stroke as series of connected quads with connection * edges rotated to minimize shrinking artifacts, and rounded endcaps */ { bGPDspoint *pt1, *pt2; float s0[2], s1[2]; /* segment 'center' points */ float pm[2]; /* normal from previous segment. */ int i; float fpt[3]; glShadeModel(GL_FLAT); glBegin(GL_QUADS); /* get x and y coordinates from first point */ mul_v3_m4v3(fpt, diff_mat, &points->x); gp_calc_2d_stroke_fxy(fpt, sflag, offsx, offsy, winx, winy, s0); for (i = 0, pt1 = points, pt2 = points + 1; i < (totpoints - 1); i++, pt1++, pt2++) { float t0[2], t1[2]; /* tessellated coordinates */ float m1[2], m2[2]; /* gradient and normal */ float mt[2], sc[2]; /* gradient for thickness, point for end-cap */ float pthick; /* thickness at segment point */ /* get x and y coordinates from point2 (point1 has already been computed in previous iteration). */ mul_v3_m4v3(fpt, diff_mat, &pt2->x); gp_calc_2d_stroke_fxy(fpt, sflag, offsx, offsy, winx, winy, s1); /* calculate gradient and normal - 'angle'=(ny/nx) */ m1[1] = s1[1] - s0[1]; m1[0] = s1[0] - s0[0]; normalize_v2(m1); m2[1] = -m1[0]; m2[0] = m1[1]; /* always use pressure from first point here */ pthick = (pt1->pressure * thickness * scalefac); /* color of point */ gp_set_point_color(pt1, ink); /* if the first segment, start of segment is segment's normal */ if (i == 0) { /* draw start cap first * - make points slightly closer to center (about halfway across) */ mt[0] = m2[0] * pthick * 0.5f; mt[1] = m2[1] * pthick * 0.5f; sc[0] = s0[0] - (m1[0] * pthick * 0.75f); sc[1] = s0[1] - (m1[1] * pthick * 0.75f); t0[0] = sc[0] - mt[0]; t0[1] = sc[1] - mt[1]; t1[0] = sc[0] + mt[0]; t1[1] = sc[1] + mt[1]; glVertex2fv(t0); glVertex2fv(t1); /* calculate points for start of segment */ mt[0] = m2[0] * pthick; mt[1] = m2[1] * pthick; t0[0] = s0[0] - mt[0]; t0[1] = s0[1] - mt[1]; t1[0] = s0[0] + mt[0]; t1[1] = s0[1] + mt[1]; /* draw this line twice (first to finish off start cap, then for stroke) */ glVertex2fv(t1); glVertex2fv(t0); glVertex2fv(t0); glVertex2fv(t1); } /* if not the first segment, use bisector of angle between segments */ else { float mb[2]; /* bisector normal */ float athick, dfac; /* actual thickness, difference between thicknesses */ /* calculate gradient of bisector (as average of normals) */ mb[0] = (pm[0] + m2[0]) / 2; mb[1] = (pm[1] + m2[1]) / 2; normalize_v2(mb); /* calculate gradient to apply * - as basis, use just pthick * bisector gradient * - if cross-section not as thick as it should be, add extra padding to fix it */ mt[0] = mb[0] * pthick; mt[1] = mb[1] * pthick; athick = len_v2(mt); dfac = pthick - (athick * 2); if (((athick * 2.0f) < pthick) && (IS_EQF(athick, pthick) == 0)) { mt[0] += (mb[0] * dfac); mt[1] += (mb[1] * dfac); } /* calculate points for start of segment */ t0[0] = s0[0] - mt[0]; t0[1] = s0[1] - mt[1]; t1[0] = s0[0] + mt[0]; t1[1] = s0[1] + mt[1]; /* draw this line twice (once for end of current segment, and once for start of next) */ glVertex2fv(t1); glVertex2fv(t0); glVertex2fv(t0); glVertex2fv(t1); } /* if last segment, also draw end of segment (defined as segment's normal) */ if (i == totpoints - 2) { /* for once, we use second point's pressure (otherwise it won't be drawn) */ pthick = (pt2->pressure * thickness * scalefac); /* color of point */ gp_set_point_color(pt2, ink); /* calculate points for end of segment */ mt[0] = m2[0] * pthick; mt[1] = m2[1] * pthick; t0[0] = s1[0] - mt[0]; t0[1] = s1[1] - mt[1]; t1[0] = s1[0] + mt[0]; t1[1] = s1[1] + mt[1]; /* draw this line twice (once for end of stroke, and once for endcap)*/ glVertex2fv(t1); glVertex2fv(t0); glVertex2fv(t0); glVertex2fv(t1); /* draw end cap as last step * - make points slightly closer to center (about halfway across) */ mt[0] = m2[0] * pthick * 0.5f; mt[1] = m2[1] * pthick * 0.5f; sc[0] = s1[0] + (m1[0] * pthick * 0.75f); sc[1] = s1[1] + (m1[1] * pthick * 0.75f); t0[0] = sc[0] - mt[0]; t0[1] = sc[1] - mt[1]; t1[0] = sc[0] + mt[0]; t1[1] = sc[1] + mt[1]; glVertex2fv(t1); glVertex2fv(t0); } /* store computed point2 coordinates as point1 ones of next segment. */ copy_v2_v2(s0, s1); /* store stroke's 'natural' normal for next stroke to use */ copy_v2_v2(pm, m2); } glEnd(); glShadeModel(GL_SMOOTH); } /* draw debug points of curve on top? (original stroke points) */ if (debug) { bGPDspoint *pt; int i; float fpt[3]; glPointSize((float)(thickness_s + 2)); glBegin(GL_POINTS); for (i = 0, pt = points; i < totpoints && pt; i++, pt++) { float co[2]; mul_v3_m4v3(fpt, diff_mat, &pt->x); gp_calc_2d_stroke_fxy(fpt, sflag, offsx, offsy, winx, winy, co); glVertex2fv(co); } glEnd(); } } /* ----- Strokes Drawing ------ */ /* Helper for doing all the checks on whether a stroke can be drawn */ static bool gp_can_draw_stroke(const bGPDstroke *gps, const int dflag) { /* skip stroke if it isn't in the right display space for this drawing context */ /* 1) 3D Strokes */ if ((dflag & GP_DRAWDATA_ONLY3D) && !(gps->flag & GP_STROKE_3DSPACE)) return false; if (!(dflag & GP_DRAWDATA_ONLY3D) && (gps->flag & GP_STROKE_3DSPACE)) return false; /* 2) Screen Space 2D Strokes */ if ((dflag & GP_DRAWDATA_ONLYV2D) && !(gps->flag & GP_STROKE_2DSPACE)) return false; if (!(dflag & GP_DRAWDATA_ONLYV2D) && (gps->flag & GP_STROKE_2DSPACE)) return false; /* 3) Image Space (2D) */ if ((dflag & GP_DRAWDATA_ONLYI2D) && !(gps->flag & GP_STROKE_2DIMAGE)) return false; if (!(dflag & GP_DRAWDATA_ONLYI2D) && (gps->flag & GP_STROKE_2DIMAGE)) return false; /* skip stroke if it doesn't have any valid data */ if ((gps->points == NULL) || (gps->totpoints < 1)) return false; /* stroke can be drawn */ return true; } /* draw a set of strokes */ static void gp_draw_strokes( bGPdata *gpd, bGPDframe *gpf, int offsx, int offsy, int winx, int winy, int dflag, bool debug, short lthick, const float opacity, const float tintcolor[4], const bool onion, const bool custonion, float diff_mat[4][4]) { bGPDstroke *gps; float tcolor[4]; float tfill[4]; short sthickness; float ink[4]; for (gps = gpf->strokes.first; gps; gps = gps->next) { /* check if stroke can be drawn */ if (gp_can_draw_stroke(gps, dflag) == false) { continue; } /* check if the color is visible */ bGPDpalettecolor *palcolor = ED_gpencil_stroke_getcolor(gpd, gps); if ((palcolor == NULL) || (palcolor->flag & PC_COLOR_HIDE) || /* if onion and ghost flag do not draw*/ (onion && (palcolor->flag & PC_COLOR_ONIONSKIN))) { continue; } /* calculate thickness */ sthickness = gps->thickness + lthick; /* check which stroke-drawer to use */ if (dflag & GP_DRAWDATA_ONLY3D) { const int no_xray = (dflag & GP_DRAWDATA_NO_XRAY); int mask_orig = 0; if (no_xray) { glGetIntegerv(GL_DEPTH_WRITEMASK, &mask_orig); glDepthMask(0); glEnable(GL_DEPTH_TEST); /* first arg is normally rv3d->dist, but this isn't * available here and seems to work quite well without */ bglPolygonOffset(1.0f, 1.0f); #if 0 glEnable(GL_POLYGON_OFFSET_LINE); glPolygonOffset(-1.0f, -1.0f); #endif } /* 3D Fill */ //if ((dflag & GP_DRAWDATA_FILL) && (gps->totpoints >= 3)) { if (gps->totpoints >= 3) { /* set color using palette, tint color and opacity */ interp_v3_v3v3(tfill, palcolor->fill, tintcolor, tintcolor[3]); tfill[3] = palcolor->fill[3] * opacity; if (tfill[3] > GPENCIL_ALPHA_OPACITY_THRESH) { if (!onion) { glColor4fv(tfill); } else { if (custonion) { glColor4fv(tintcolor); } else { ARRAY_SET_ITEMS(tfill, UNPACK3(palcolor->fill), tintcolor[3]); glColor4fv(tfill); } } gp_draw_stroke_fill(gpd, gps, offsx, offsy, winx, winy, diff_mat); } } /* 3D Stroke */ /* set color using palette, tint color and opacity */ if (!onion) { interp_v3_v3v3(tcolor, palcolor->color, tintcolor, tintcolor[3]); tcolor[3] = palcolor->color[3] * opacity; copy_v4_v4(ink, tcolor); } else { if (custonion) { copy_v4_v4(ink, tintcolor); } else { ARRAY_SET_ITEMS(tcolor, palcolor->color[0], palcolor->color[1], palcolor->color[2], opacity); copy_v4_v4(ink, tcolor); } } if (palcolor->flag & PC_COLOR_VOLUMETRIC) { /* volumetric stroke drawing */ gp_draw_stroke_volumetric_3d(gps->points, gps->totpoints, sthickness, dflag, gps->flag, diff_mat, ink); } else { /* 3D Lines - OpenGL primitives-based */ if (gps->totpoints == 1) { gp_draw_stroke_point(gps->points, sthickness, dflag, gps->flag, offsx, offsy, winx, winy, diff_mat, ink); } else { gp_draw_stroke_3d(gps->points, gps->totpoints, sthickness, debug, gps->flag, diff_mat, ink, gps->flag & GP_STROKE_CYCLIC); } } if (no_xray) { glDepthMask(mask_orig); glDisable(GL_DEPTH_TEST); bglPolygonOffset(0.0, 0.0); #if 0 glDisable(GL_POLYGON_OFFSET_LINE); glPolygonOffset(0, 0); #endif } } else { /* 2D - Fill */ if (gps->totpoints >= 3) { /* set color using palette, tint color and opacity */ interp_v3_v3v3(tfill, palcolor->fill, tintcolor, tintcolor[3]); tfill[3] = palcolor->fill[3] * opacity; if (tfill[3] > GPENCIL_ALPHA_OPACITY_THRESH) { if (!onion) { glColor4fv(tfill); } else { if (custonion) { glColor4fv(tintcolor); } else { ARRAY_SET_ITEMS(tfill, palcolor->fill[0], palcolor->fill[1], palcolor->fill[2], tintcolor[3]); glColor4fv(tfill); } } gp_draw_stroke_fill(gpd, gps, offsx, offsy, winx, winy, diff_mat); } } /* 2D Strokes... */ /* set color using palette, tint color and opacity */ if (!onion) { interp_v3_v3v3(tcolor, palcolor->color, tintcolor, tintcolor[3]); tcolor[3] = palcolor->color[3] * opacity; copy_v4_v4(ink, tcolor); } else { if (custonion) { copy_v4_v4(ink, tintcolor); } else { ARRAY_SET_ITEMS(tcolor, palcolor->color[0], palcolor->color[1], palcolor->color[2], opacity); copy_v4_v4(ink, tcolor); } } if (palcolor->flag & PC_COLOR_VOLUMETRIC) { /* blob/disk-based "volumetric" drawing */ gp_draw_stroke_volumetric_2d(gps->points, gps->totpoints, sthickness, dflag, gps->flag, offsx, offsy, winx, winy, diff_mat, ink); } else { /* normal 2D strokes */ if (gps->totpoints == 1) { gp_draw_stroke_point(gps->points, sthickness, dflag, gps->flag, offsx, offsy, winx, winy, diff_mat, ink); } else { gp_draw_stroke_2d(gps->points, gps->totpoints, sthickness, dflag, gps->flag, debug, offsx, offsy, winx, winy, diff_mat, ink); } } } } } /* Draw selected verts for strokes being edited */ static void gp_draw_strokes_edit( bGPdata *gpd, bGPDframe *gpf, int offsx, int offsy, int winx, int winy, short dflag, short lflag, float diff_mat[4][4], float alpha) { bGPDstroke *gps; /* if alpha 0 do not draw */ if (alpha == 0.0f) return; const bool no_xray = (dflag & GP_DRAWDATA_NO_XRAY) != 0; int mask_orig = 0; /* set up depth masks... */ if (dflag & GP_DRAWDATA_ONLY3D) { if (no_xray) { glGetIntegerv(GL_DEPTH_WRITEMASK, &mask_orig); glDepthMask(0); glEnable(GL_DEPTH_TEST); /* first arg is normally rv3d->dist, but this isn't * available here and seems to work quite well without */ bglPolygonOffset(1.0f, 1.0f); #if 0 glEnable(GL_POLYGON_OFFSET_LINE); glPolygonOffset(-1.0f, -1.0f); #endif } } /* draw stroke verts */ for (gps = gpf->strokes.first; gps; gps = gps->next) { bGPDspoint *pt; float vsize, bsize; int i; float fpt[3]; /* check if stroke can be drawn */ if (gp_can_draw_stroke(gps, dflag) == false) continue; /* Optimisation: only draw points for selected strokes * We assume that selected points can only occur in * strokes that are selected too. */ if ((gps->flag & GP_STROKE_SELECT) == 0) continue; /* verify palette color lock */ { bGPDpalettecolor *palcolor = ED_gpencil_stroke_getcolor(gpd, gps); if (palcolor != NULL) { if (palcolor->flag & PC_COLOR_HIDE) { continue; } if (((lflag & GP_LAYER_UNLOCK_COLOR) == 0) && (palcolor->flag & PC_COLOR_LOCKED)) { continue; } } } /* Get size of verts: * - The selected state needs to be larger than the unselected state so that * they stand out more. * - We use the theme setting for size of the unselected verts */ bsize = UI_GetThemeValuef(TH_GP_VERTEX_SIZE); if ((int)bsize > 8) { vsize = 10.0f; bsize = 8.0f; } else { vsize = bsize + 2; } /* First Pass: Draw all the verts (i.e. these become the unselected state) */ /* for now, we assume that the base color of the points is not too close to the real color */ /* set color using palette */ bGPDpalettecolor *palcolor = ED_gpencil_stroke_getcolor(gpd, gps); glColor3fv(palcolor->color); glPointSize(bsize); glBegin(GL_POINTS); for (i = 0, pt = gps->points; i < gps->totpoints && pt; i++, pt++) { if (gps->flag & GP_STROKE_3DSPACE) { mul_v3_m4v3(fpt, diff_mat, &pt->x); glVertex3fv(fpt); } else { float co[2]; mul_v3_m4v3(fpt, diff_mat, &pt->x); gp_calc_2d_stroke_fxy(fpt, gps->flag, offsx, offsy, winx, winy, co); glVertex2fv(co); } } glEnd(); /* Second Pass: Draw only verts which are selected */ float curColor[4]; UI_GetThemeColor3fv(TH_GP_VERTEX_SELECT, curColor); glColor4f(curColor[0], curColor[1], curColor[2], alpha); glPointSize(vsize); glBegin(GL_POINTS); for (i = 0, pt = gps->points; i < gps->totpoints && pt; i++, pt++) { if (pt->flag & GP_SPOINT_SELECT) { if (gps->flag & GP_STROKE_3DSPACE) { mul_v3_m4v3(fpt, diff_mat, &pt->x); glVertex3fv(fpt); } else { float co[2]; mul_v3_m4v3(fpt, diff_mat, &pt->x); gp_calc_2d_stroke_fxy(fpt, gps->flag, offsx, offsy, winx, winy, co); glVertex2fv(co); } } } glEnd(); /* Draw start and end point if enabled stroke direction hint */ if ((gpd->flag & GP_DATA_SHOW_DIRECTION) && (gps->totpoints > 1)) { bGPDspoint *p; glPointSize(vsize + 4); glBegin(GL_POINTS); /* start point in green bigger */ glColor3f(0.0f, 1.0f, 0.0f); p = &gps->points[0]; mul_v3_m4v3(fpt, diff_mat, &p->x); glVertex3fv(fpt); glEnd(); /* end point in red smaller */ glPointSize(vsize + 1); glBegin(GL_POINTS); glColor3f(1.0f, 0.0f, 0.0f); p = &gps->points[gps->totpoints - 1]; mul_v3_m4v3(fpt, diff_mat, &p->x); glVertex3fv(fpt); glEnd(); } } /* clear depth mask */ if (dflag & GP_DRAWDATA_ONLY3D) { if (no_xray) { glDepthMask(mask_orig); glDisable(GL_DEPTH_TEST); bglPolygonOffset(0.0, 0.0); #if 0 glDisable(GL_POLYGON_OFFSET_LINE); glPolygonOffset(0, 0); #endif } } } /* ----- General Drawing ------ */ /* draw onion-skinning for a layer */ static void gp_draw_onionskins( bGPdata *gpd, bGPDlayer *gpl, bGPDframe *gpf, int offsx, int offsy, int winx, int winy, int UNUSED(cfra), int dflag, bool debug, float diff_mat[4][4]) { const float default_color[3] = {UNPACK3(U.gpencil_new_layer_col)}; const float alpha = 1.0f; float color[4]; /* 1) Draw Previous Frames First */ if (gpl->flag & GP_LAYER_GHOST_PREVCOL) { copy_v3_v3(color, gpl->gcolor_prev); } else { copy_v3_v3(color, default_color); } if (gpl->gstep > 0) { bGPDframe *gf; float fac; /* draw previous frames first */ for (gf = gpf->prev; gf; gf = gf->prev) { /* check if frame is drawable */ if ((gpf->framenum - gf->framenum) <= gpl->gstep) { /* alpha decreases with distance from curframe index */ fac = 1.0f - ((float)(gpf->framenum - gf->framenum) / (float)(gpl->gstep + 1)); color[3] = alpha * fac * 0.66f; gp_draw_strokes(gpd, gf, offsx, offsy, winx, winy, dflag, debug, gpl->thickness, 1.0f, color, true, gpl->flag & GP_LAYER_GHOST_PREVCOL, diff_mat); } else break; } } else if (gpl->gstep == 0) { /* draw the strokes for the ghost frames (at half of the alpha set by user) */ if (gpf->prev) { color[3] = (alpha / 7); gp_draw_strokes(gpd, gpf->prev, offsx, offsy, winx, winy, dflag, debug, gpl->thickness, 1.0f, color, true, gpl->flag & GP_LAYER_GHOST_PREVCOL, diff_mat); } } else { /* don't draw - disabled */ } /* 2) Now draw next frames */ if (gpl->flag & GP_LAYER_GHOST_NEXTCOL) { copy_v3_v3(color, gpl->gcolor_next); } else { copy_v3_v3(color, default_color); } if (gpl->gstep_next > 0) { bGPDframe *gf; float fac; /* now draw next frames */ for (gf = gpf->next; gf; gf = gf->next) { /* check if frame is drawable */ if ((gf->framenum - gpf->framenum) <= gpl->gstep_next) { /* alpha decreases with distance from curframe index */ fac = 1.0f - ((float)(gf->framenum - gpf->framenum) / (float)(gpl->gstep_next + 1)); color[3] = alpha * fac * 0.66f; gp_draw_strokes(gpd, gf, offsx, offsy, winx, winy, dflag, debug, gpl->thickness, 1.0f, color, true, gpl->flag & GP_LAYER_GHOST_NEXTCOL, diff_mat); } else break; } } else if (gpl->gstep_next == 0) { /* draw the strokes for the ghost frames (at half of the alpha set by user) */ if (gpf->next) { color[3] = (alpha / 4); gp_draw_strokes(gpd, gpf->next, offsx, offsy, winx, winy, dflag, debug, gpl->thickness, 1.0f, color, true, gpl->flag & GP_LAYER_GHOST_NEXTCOL, diff_mat); } } else { /* don't draw - disabled */ } } /* draw interpolate strokes (used only while operator is running) */ void ED_gp_draw_interpolation(tGPDinterpolate *tgpi, const int type) { tGPDinterpolate_layer *tgpil; float diff_mat[4][4]; float color[4]; int offsx = 0; int offsy = 0; int winx = tgpi->ar->winx; int winy = tgpi->ar->winy; UI_GetThemeColor3fv(TH_GP_VERTEX_SELECT, color); color[3] = 0.6f; int dflag = 0; /* if 3d stuff, enable flags */ if (type == REGION_DRAW_POST_VIEW) { dflag |= (GP_DRAWDATA_ONLY3D | GP_DRAWDATA_NOSTATUS); } /* turn on alpha-blending */ glEnable(GL_BLEND); for (tgpil = tgpi->ilayers.first; tgpil; tgpil = tgpil->next) { /* calculate parent position */ ED_gpencil_parent_location(tgpil->gpl, diff_mat); if (tgpil->interFrame) { gp_draw_strokes(tgpi->gpd, tgpil->interFrame, offsx, offsy, winx, winy, dflag, false, tgpil->gpl->thickness, 1.0f, color, true, true, diff_mat); } } glDisable(GL_BLEND); } /* loop over gpencil data layers, drawing them */ static void gp_draw_data_layers( bGPDbrush *brush, float alpha, bGPdata *gpd, int offsx, int offsy, int winx, int winy, int cfra, int dflag) { bGPDlayer *gpl; float diff_mat[4][4]; for (gpl = gpd->layers.first; gpl; gpl = gpl->next) { bGPDframe *gpf; /* calculate parent position */ ED_gpencil_parent_location(gpl, diff_mat); bool debug = (gpl->flag & GP_LAYER_DRAWDEBUG) ? true : false; short lthick = brush->thickness + gpl->thickness; /* don't draw layer if hidden */ if (gpl->flag & GP_LAYER_HIDE) continue; /* get frame to draw */ gpf = BKE_gpencil_layer_getframe(gpl, cfra, 0); if (gpf == NULL) continue; /* set basic stroke thickness */ glLineWidth(lthick); /* Add layer drawing settings to the set of "draw flags" * NOTE: If the setting doesn't apply, it *must* be cleared, * as dflag's carry over from the previous layer */ #define GP_DRAWFLAG_APPLY(condition, draw_flag_value) { \ if (condition) dflag |= (draw_flag_value); \ else dflag &= ~(draw_flag_value); \ } (void)0 /* xray... */ GP_DRAWFLAG_APPLY((gpl->flag & GP_LAYER_NO_XRAY), GP_DRAWDATA_NO_XRAY); /* volumetric strokes... */ GP_DRAWFLAG_APPLY((gpl->flag & GP_LAYER_VOLUMETRIC), GP_DRAWDATA_VOLUMETRIC); /* HQ fills... */ GP_DRAWFLAG_APPLY((gpl->flag & GP_LAYER_HQ_FILL), GP_DRAWDATA_HQ_FILL); #undef GP_DRAWFLAG_APPLY /* Draw 'onionskins' (frame left + right) * - It is only possible to show these if the option is enabled * - The "no onions" flag prevents ghosts from appearing during animation playback/scrubbing * and in renders * - The per-layer "always show" flag however overrides the playback/render restriction, * allowing artists to selectively turn onionskins on/off during playback */ if ((gpl->flag & GP_LAYER_ONIONSKIN) && ((dflag & GP_DRAWDATA_NO_ONIONS) == 0 || (gpl->flag & GP_LAYER_GHOST_ALWAYS))) { /* Drawing method - only immediately surrounding (gstep = 0), * or within a frame range on either side (gstep > 0) */ gp_draw_onionskins(gpd, gpl, gpf, offsx, offsy, winx, winy, cfra, dflag, debug, diff_mat); } /* draw the strokes already in active frame */ gp_draw_strokes(gpd, gpf, offsx, offsy, winx, winy, dflag, debug, gpl->thickness, gpl->opacity, gpl->tintcolor, false, false, diff_mat); /* Draw verts of selected strokes * - when doing OpenGL renders, we don't want to be showing these, as that ends up flickering * - locked layers can't be edited, so there's no point showing these verts * as they will have no bearings on what gets edited * - only show when in editmode, since operators shouldn't work otherwise * (NOTE: doing it this way means that the toggling editmode shows visible change immediately) */ /* XXX: perhaps we don't want to show these when users are drawing... */ if ((G.f & G_RENDER_OGL) == 0 && (gpl->flag & GP_LAYER_LOCKED) == 0 && (gpd->flag & GP_DATA_STROKE_EDITMODE)) { gp_draw_strokes_edit(gpd, gpf, offsx, offsy, winx, winy, dflag, gpl->flag, diff_mat, alpha); } /* Check if may need to draw the active stroke cache, only if this layer is the active layer * that is being edited. (Stroke buffer is currently stored in gp-data) */ if (ED_gpencil_session_active() && (gpl->flag & GP_LAYER_ACTIVE) && (gpf->flag & GP_FRAME_PAINT)) { /* Set color for drawing buffer stroke - since this may not be set yet */ // glColor4fv(gpl->color); /* Buffer stroke needs to be drawn with a different linestyle * to help differentiate them from normal strokes. * * It should also be noted that sbuffer contains temporary point types * i.e. tGPspoints NOT bGPDspoints */ if (gpd->sflag & PC_COLOR_VOLUMETRIC) { gp_draw_stroke_volumetric_buffer(gpd->sbuffer, gpd->sbuffer_size, lthick, dflag, gpd->sbuffer_sflag, gpd->scolor); } else { gp_draw_stroke_buffer(gpd->sbuffer, gpd->sbuffer_size, lthick, dflag, gpd->sbuffer_sflag, gpd->scolor); } } } } /* draw a short status message in the top-right corner */ static void gp_draw_status_text(bGPdata *gpd, ARegion *ar) { rcti rect; /* Cannot draw any status text when drawing OpenGL Renders */ if (G.f & G_RENDER_OGL) return; /* Get bounds of region - Necessary to avoid problems with region overlap */ ED_region_visible_rect(ar, &rect); /* for now, this should only be used to indicate when we are in stroke editmode */ if (gpd->flag & GP_DATA_STROKE_EDITMODE) { const char *printable = IFACE_("GPencil Stroke Editing"); float printable_size[2]; int xco, yco; BLF_width_and_height_default(printable, BLF_DRAW_STR_DUMMY_MAX, &printable_size[0], &printable_size[1]); xco = (rect.xmax - U.widget_unit) - (int)printable_size[0]; yco = (rect.ymax - U.widget_unit); /* text label */ UI_ThemeColor(TH_TEXT_HI); #ifdef WITH_INTERNATIONAL BLF_draw_default(xco, yco, 0.0f, printable, BLF_DRAW_STR_DUMMY_MAX); #else BLF_draw_default_ascii(xco, yco, 0.0f, printable, BLF_DRAW_STR_DUMMY_MAX); #endif /* grease pencil icon... */ // XXX: is this too intrusive? glBlendFunc(GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA); glEnable(GL_BLEND); xco -= U.widget_unit; yco -= (int)printable_size[1] / 2; UI_icon_draw(xco, yco, ICON_GREASEPENCIL); glDisable(GL_BLEND); } } /* draw grease-pencil datablock */ static void gp_draw_data( bGPDbrush *brush, float alpha, bGPdata *gpd, int offsx, int offsy, int winx, int winy, int cfra, int dflag) { /* reset line drawing style (in case previous user didn't reset) */ setlinestyle(0); /* turn on smooth lines (i.e. anti-aliasing) */ glEnable(GL_LINE_SMOOTH); /* XXX: turn on some way of ensuring that the polygon edges get smoothed * GL_POLYGON_SMOOTH is nasty and shouldn't be used, as it ends up * creating internal white rays due to the ways it accumulates stuff */ /* turn on alpha-blending */ glBlendFuncSeparate(GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA, GL_ONE, GL_ONE_MINUS_SRC_ALPHA); glEnable(GL_BLEND); /* draw! */ gp_draw_data_layers(brush, alpha, gpd, offsx, offsy, winx, winy, cfra, dflag); /* turn off alpha blending, then smooth lines */ glDisable(GL_BLEND); // alpha blending glDisable(GL_LINE_SMOOTH); // smooth lines /* restore initial gl conditions */ glColor4f(0, 0, 0, 1); } /* if we have strokes for scenes (3d view)/clips (movie clip editor) * and objects/tracks, multiple data blocks have to be drawn */ static void gp_draw_data_all(Scene *scene, bGPdata *gpd, int offsx, int offsy, int winx, int winy, int cfra, int dflag, const char spacetype) { bGPdata *gpd_source = NULL; ToolSettings *ts; bGPDbrush *brush = NULL; if (scene) { ts = scene->toolsettings; brush = BKE_gpencil_brush_getactive(ts); /* if no brushes, create default set */ if (brush == NULL) { BKE_gpencil_brush_init_presets(ts); brush = BKE_gpencil_brush_getactive(ts); } if (spacetype == SPACE_VIEW3D) { gpd_source = (scene->gpd ? scene->gpd : NULL); } else if (spacetype == SPACE_CLIP && scene->clip) { /* currently drawing only gpencil data from either clip or track, but not both - XXX fix logic behind */ gpd_source = (scene->clip->gpd ? scene->clip->gpd : NULL); } if (gpd_source) { if (brush != NULL) { gp_draw_data(brush, ts->gp_sculpt.alpha, gpd_source, offsx, offsy, winx, winy, cfra, dflag); } } } /* scene/clip data has already been drawn, only object/track data is drawn here * if gpd_source == gpd, we don't have any object/track data and we can skip */ if (gpd_source == NULL || (gpd_source && gpd_source != gpd)) { if (brush != NULL) { gp_draw_data(brush, ts->gp_sculpt.alpha, gpd, offsx, offsy, winx, winy, cfra, dflag); } } } /* ----- Grease Pencil Sketches Drawing API ------ */ /* ............................ * XXX * We need to review the calls below, since they may be/are not that suitable for * the new ways that we intend to be drawing data... * ............................ */ /* draw grease-pencil sketches to specified 2d-view that uses ibuf corrections */ void ED_gpencil_draw_2dimage(const bContext *C) { wmWindowManager *wm = CTX_wm_manager(C); ScrArea *sa = CTX_wm_area(C); ARegion *ar = CTX_wm_region(C); Scene *scene = CTX_data_scene(C); bGPdata *gpd; int offsx, offsy, sizex, sizey; int dflag = GP_DRAWDATA_NOSTATUS; gpd = ED_gpencil_data_get_active(C); // XXX if (gpd == NULL) return; /* calculate rect */ switch (sa->spacetype) { case SPACE_IMAGE: /* image */ case SPACE_CLIP: /* clip */ { /* just draw using standard scaling (settings here are currently ignored anyways) */ /* FIXME: the opengl poly-strokes don't draw at right thickness when done this way, so disabled */ offsx = 0; offsy = 0; sizex = ar->winx; sizey = ar->winy; wmOrtho2(ar->v2d.cur.xmin, ar->v2d.cur.xmax, ar->v2d.cur.ymin, ar->v2d.cur.ymax); dflag |= GP_DRAWDATA_ONLYV2D | GP_DRAWDATA_IEDITHACK; break; } case SPACE_SEQ: /* sequence */ { /* just draw using standard scaling (settings here are currently ignored anyways) */ offsx = 0; offsy = 0; sizex = ar->winx; sizey = ar->winy; /* NOTE: I2D was used in 2.4x, but the old settings for that have been deprecated * and everything moved to standard View2d */ dflag |= GP_DRAWDATA_ONLYV2D; break; } default: /* for spacetype not yet handled */ offsx = 0; offsy = 0; sizex = ar->winx; sizey = ar->winy; dflag |= GP_DRAWDATA_ONLYI2D; break; } if (ED_screen_animation_playing(wm)) { /* don't show onionskins during animation playback/scrub (i.e. it obscures the poses) * OpenGL Renders (i.e. final output), or depth buffer (i.e. not real strokes) */ dflag |= GP_DRAWDATA_NO_ONIONS; } /* draw it! */ gp_draw_data_all(scene, gpd, offsx, offsy, sizex, sizey, CFRA, dflag, sa->spacetype); } /* draw grease-pencil sketches to specified 2d-view assuming that matrices are already set correctly * Note: this gets called twice - first time with onlyv2d=1 to draw 'canvas' strokes, * second time with onlyv2d=0 for screen-aligned strokes */ void ED_gpencil_draw_view2d(const bContext *C, bool onlyv2d) { wmWindowManager *wm = CTX_wm_manager(C); ScrArea *sa = CTX_wm_area(C); ARegion *ar = CTX_wm_region(C); Scene *scene = CTX_data_scene(C); bGPdata *gpd; int dflag = 0; /* check that we have grease-pencil stuff to draw */ if (sa == NULL) return; gpd = ED_gpencil_data_get_active(C); // XXX if (gpd == NULL) return; /* special hack for Image Editor */ /* FIXME: the opengl poly-strokes don't draw at right thickness when done this way, so disabled */ if (ELEM(sa->spacetype, SPACE_IMAGE, SPACE_CLIP)) dflag |= GP_DRAWDATA_IEDITHACK; /* draw it! */ if (onlyv2d) dflag |= (GP_DRAWDATA_ONLYV2D | GP_DRAWDATA_NOSTATUS); if (ED_screen_animation_playing(wm)) dflag |= GP_DRAWDATA_NO_ONIONS; gp_draw_data_all(scene, gpd, 0, 0, ar->winx, ar->winy, CFRA, dflag, sa->spacetype); /* draw status text (if in screen/pixel-space) */ if (onlyv2d == false) { gp_draw_status_text(gpd, ar); } } /* draw grease-pencil sketches to specified 3d-view assuming that matrices are already set correctly * Note: this gets called twice - first time with only3d=1 to draw 3d-strokes, * second time with only3d=0 for screen-aligned strokes */ void ED_gpencil_draw_view3d(wmWindowManager *wm, Scene *scene, View3D *v3d, ARegion *ar, bool only3d) { bGPdata *gpd; int dflag = 0; RegionView3D *rv3d = ar->regiondata; int offsx, offsy, winx, winy; /* check that we have grease-pencil stuff to draw */ gpd = ED_gpencil_data_get_active_v3d(scene, v3d); if (gpd == NULL) return; /* when rendering to the offscreen buffer we don't want to * deal with the camera border, otherwise map the coords to the camera border. */ if ((rv3d->persp == RV3D_CAMOB) && !(G.f & G_RENDER_OGL)) { rctf rectf; ED_view3d_calc_camera_border(scene, ar, v3d, rv3d, &rectf, true); /* no shift */ offsx = round_fl_to_int(rectf.xmin); offsy = round_fl_to_int(rectf.ymin); winx = round_fl_to_int(rectf.xmax - rectf.xmin); winy = round_fl_to_int(rectf.ymax - rectf.ymin); } else { offsx = 0; offsy = 0; winx = ar->winx; winy = ar->winy; } /* set flags */ if (only3d) { /* 3D strokes/3D space: * - only 3D space points * - don't status text either (as it's the wrong space) */ dflag |= (GP_DRAWDATA_ONLY3D | GP_DRAWDATA_NOSTATUS); } if (v3d->flag2 & V3D_RENDER_OVERRIDE) { /* don't draw status text when "only render" flag is set */ dflag |= GP_DRAWDATA_NOSTATUS; } if ((wm == NULL) || ED_screen_animation_playing(wm)) { /* don't show onionskins during animation playback/scrub (i.e. it obscures the poses) * OpenGL Renders (i.e. final output), or depth buffer (i.e. not real strokes) */ dflag |= GP_DRAWDATA_NO_ONIONS; } /* draw it! */ gp_draw_data_all(scene, gpd, offsx, offsy, winx, winy, CFRA, dflag, v3d->spacetype); } void ED_gpencil_draw_ex(Scene *scene, bGPdata *gpd, int winx, int winy, const int cfra, const char spacetype) { int dflag = GP_DRAWDATA_NOSTATUS | GP_DRAWDATA_ONLYV2D; gp_draw_data_all(scene, gpd, 0, 0, winx, winy, cfra, dflag, spacetype); } /* ************************************************** */