blender-archive/source/blender/makesrna/intern/rna_mesh_api.c

/*
 * 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.
 * All rights reserved.
 */

/** \file
 * \ingroup RNA
 */


#include <stdlib.h>
#include <stdio.h>

#include "RNA_define.h"

#include "DNA_customdata_types.h"

#include "BLI_sys_types.h"

#include "BLI_utildefines.h"

#include "rna_internal.h"  /* own include */

#ifdef RNA_RUNTIME

#include "DNA_mesh_types.h"

#include "BKE_mesh.h"
#include "BKE_mesh_tangent.h"
#include "BKE_mesh_mapping.h"
#include "BKE_mesh_runtime.h"
#include "ED_mesh.h"

static const char *rna_Mesh_unit_test_compare(struct Mesh *mesh, struct Mesh *mesh2)
{
	const char *ret = BKE_mesh_cmp(mesh, mesh2, FLT_EPSILON * 60);

	if (!ret)
		ret = "Same";

	return ret;
}

static void rna_Mesh_create_normals_split(Mesh *mesh)
{
	if (!CustomData_has_layer(&mesh->ldata, CD_NORMAL)) {
		CustomData_add_layer(&mesh->ldata, CD_NORMAL, CD_CALLOC, NULL, mesh->totloop);
		CustomData_set_layer_flag(&mesh->ldata, CD_NORMAL, CD_FLAG_TEMPORARY);
	}
}

static void rna_Mesh_free_normals_split(Mesh *mesh)
{
	CustomData_free_layers(&mesh->ldata, CD_NORMAL, mesh->totloop);
}

static void rna_Mesh_calc_tangents(Mesh *mesh, ReportList *reports, const char *uvmap)
{
	float (*r_looptangents)[4];

	if (CustomData_has_layer(&mesh->ldata, CD_MLOOPTANGENT)) {
		r_looptangents = CustomData_get_layer(&mesh->ldata, CD_MLOOPTANGENT);
		memset(r_looptangents, 0, sizeof(float[4]) * mesh->totloop);
	}
	else {
		r_looptangents = CustomData_add_layer(&mesh->ldata, CD_MLOOPTANGENT, CD_CALLOC, NULL, mesh->totloop);
		CustomData_set_layer_flag(&mesh->ldata, CD_MLOOPTANGENT, CD_FLAG_TEMPORARY);
	}

	/* Compute loop normals if needed. */
	if (!CustomData_has_layer(&mesh->ldata, CD_NORMAL)) {
		BKE_mesh_calc_normals_split(mesh);
	}

	BKE_mesh_calc_loop_tangent_single(mesh, uvmap, r_looptangents, reports);
}

static void rna_Mesh_free_tangents(Mesh *mesh)
{
	CustomData_free_layers(&mesh->ldata, CD_MLOOPTANGENT, mesh->totloop);
}

static void rna_Mesh_calc_looptri(Mesh *mesh)
{
	BKE_mesh_runtime_looptri_ensure(mesh);
}

static void rna_Mesh_calc_smooth_groups(Mesh *mesh, bool use_bitflags, int *r_poly_group_len,
                                        int **r_poly_group, int *r_group_total)
{
	*r_poly_group_len = mesh->totpoly;
	*r_poly_group = BKE_mesh_calc_smoothgroups(
	                    mesh->medge, mesh->totedge,
	                    mesh->mpoly, mesh->totpoly,
	                    mesh->mloop, mesh->totloop,
	                    r_group_total, use_bitflags);
}

static void rna_Mesh_normals_split_custom_do(Mesh *mesh, float (*custom_loopnors)[3], const bool use_vertices)
{
	float (*polynors)[3];
	short (*clnors)[2];
	const int numloops = mesh->totloop;
	bool free_polynors = false;

	clnors = CustomData_get_layer(&mesh->ldata, CD_CUSTOMLOOPNORMAL);
	if (clnors) {
		memset(clnors, 0, sizeof(*clnors) * numloops);
	}
	else {
		clnors = CustomData_add_layer(&mesh->ldata, CD_CUSTOMLOOPNORMAL, CD_DEFAULT, NULL, numloops);
	}

	if (CustomData_has_layer(&mesh->pdata, CD_NORMAL)) {
		polynors = CustomData_get_layer(&mesh->pdata, CD_NORMAL);
	}
	else {
		polynors = MEM_mallocN(sizeof(float[3]) * mesh->totpoly, __func__);
		BKE_mesh_calc_normals_poly(
		            mesh->mvert, NULL, mesh->totvert,
		            mesh->mloop, mesh->mpoly, mesh->totloop, mesh->totpoly, polynors, false);
		free_polynors = true;
	}

	if (use_vertices) {
		BKE_mesh_normals_loop_custom_from_vertices_set(
		        mesh->mvert, custom_loopnors, mesh->totvert, mesh->medge, mesh->totedge, mesh->mloop, mesh->totloop,
		        mesh->mpoly, (const float (*)[3])polynors, mesh->totpoly, clnors);
	}
	else {
		BKE_mesh_normals_loop_custom_set(
		        mesh->mvert, mesh->totvert, mesh->medge, mesh->totedge, mesh->mloop, custom_loopnors, mesh->totloop,
		        mesh->mpoly, (const float (*)[3])polynors, mesh->totpoly, clnors);
	}

	if (free_polynors) {
		MEM_freeN(polynors);
	}
}

static void rna_Mesh_normals_split_custom_set(Mesh *mesh, ReportList *reports, int normals_len, float *normals)
{
	float (*loopnors)[3] = (float (*)[3])normals;
	const int numloops = mesh->totloop;

	if (normals_len != numloops * 3) {
		BKE_reportf(reports, RPT_ERROR,
		            "Number of custom normals is not number of loops (%f / %d)",
		            (float)normals_len / 3.0f, numloops);
		return;
	}

	rna_Mesh_normals_split_custom_do(mesh, loopnors, false);

	DEG_id_tag_update(&mesh->id, 0);
}

static void rna_Mesh_normals_split_custom_set_from_vertices(
        Mesh *mesh, ReportList *reports, int normals_len, float *normals)
{
	float (*vertnors)[3] = (float (*)[3])normals;
	const int numverts = mesh->totvert;

	if (normals_len != numverts * 3) {
		BKE_reportf(reports, RPT_ERROR,
		            "Number of custom normals is not number of vertices (%f / %d)",
		            (float)normals_len / 3.0f, numverts);
		return;
	}

	rna_Mesh_normals_split_custom_do(mesh, vertnors, true);

	DEG_id_tag_update(&mesh->id, 0);
}

static void rna_Mesh_transform(Mesh *mesh, float *mat, bool shape_keys)
{
	BKE_mesh_transform(mesh, (float (*)[4])mat, shape_keys);

	DEG_id_tag_update(&mesh->id, 0);
}

static void rna_Mesh_flip_normals(Mesh *mesh)
{
	BKE_mesh_polygons_flip(mesh->mpoly, mesh->mloop, &mesh->ldata, mesh->totpoly);
	BKE_mesh_tessface_clear(mesh);
	BKE_mesh_calc_normals(mesh);
	BKE_mesh_runtime_clear_geometry(mesh);

	DEG_id_tag_update(&mesh->id, 0);
}

static void rna_Mesh_split_faces(Mesh *mesh, bool free_loop_normals)
{
	BKE_mesh_split_faces(mesh, free_loop_normals != 0);
}

static void rna_Mesh_update_gpu_tag(Mesh *mesh)
{
	BKE_mesh_batch_cache_dirty_tag(mesh, BKE_MESH_BATCH_DIRTY_ALL);
}

static void rna_Mesh_count_selected_items(Mesh *mesh, int r_count[3])
{
	BKE_mesh_count_selected_items(mesh, r_count);
}


#else

void RNA_api_mesh(StructRNA *srna)
{
	FunctionRNA *func;
	PropertyRNA *parm;
	const int normals_array_dim[] = {1, 3};

	func = RNA_def_function(srna, "transform", "rna_Mesh_transform");
	RNA_def_function_ui_description(func, "Transform mesh vertices by a matrix "
	                                      "(Warning: inverts normals if matrix is negative)");
	parm = RNA_def_float_matrix(func, "matrix", 4, 4, NULL, 0.0f, 0.0f, "", "Matrix", 0.0f, 0.0f);
	RNA_def_parameter_flags(parm, 0, PARM_REQUIRED);
	RNA_def_boolean(func, "shape_keys", 0, "", "Transform Shape Keys");

	func = RNA_def_function(srna, "flip_normals", "rna_Mesh_flip_normals");
	RNA_def_function_ui_description(func, "Invert winding of all polygons "
	                                      "(clears tessellation, does not handle custom normals)");

	func = RNA_def_function(srna, "calc_normals", "BKE_mesh_calc_normals");
	RNA_def_function_ui_description(func, "Calculate vertex normals");

	func = RNA_def_function(srna, "create_normals_split", "rna_Mesh_create_normals_split");
	RNA_def_function_ui_description(func, "Empty split vertex normals");

	func = RNA_def_function(srna, "calc_normals_split", "BKE_mesh_calc_normals_split");
	RNA_def_function_ui_description(func, "Calculate split vertex normals, which preserve sharp edges");

	func = RNA_def_function(srna, "free_normals_split", "rna_Mesh_free_normals_split");
	RNA_def_function_ui_description(func, "Free split vertex normals");

	func = RNA_def_function(srna, "split_faces", "rna_Mesh_split_faces");
	RNA_def_function_ui_description(func, "Split faces based on the edge angle");
	RNA_def_boolean(func, "free_loop_normals", 1, "Free Loop Notmals",
	                "Free loop normals custom data layer");

	func = RNA_def_function(srna, "calc_tangents", "rna_Mesh_calc_tangents");
	RNA_def_function_flag(func, FUNC_USE_REPORTS);
	RNA_def_function_ui_description(func,
	                                "Compute tangents and bitangent signs, to be used together with the split normals "
	                                "to get a complete tangent space for normal mapping "
	                                "(split normals are also computed if not yet present)");
	parm = RNA_def_string(func, "uvmap", NULL, MAX_CUSTOMDATA_LAYER_NAME, "",
	                      "Name of the UV map to use for tangent space computation");

	func = RNA_def_function(srna, "free_tangents", "rna_Mesh_free_tangents");
	RNA_def_function_ui_description(func, "Free tangents");

	func = RNA_def_function(srna, "calc_loop_triangles", "rna_Mesh_calc_looptri");
	RNA_def_function_ui_description(func, "Calculate loop triangle tessellation (supports editmode too)");

	func = RNA_def_function(srna, "calc_smooth_groups", "rna_Mesh_calc_smooth_groups");
	RNA_def_function_ui_description(func, "Calculate smooth groups from sharp edges");
	RNA_def_boolean(func, "use_bitflags", false, "", "Produce bitflags groups instead of simple numeric values");
	/* return values */
	parm = RNA_def_int_array(func, "poly_groups", 1, NULL, 0, 0, "", "Smooth Groups", 0, 0);
	RNA_def_parameter_flags(parm, PROP_DYNAMIC, PARM_OUTPUT);
	parm = RNA_def_int(func, "groups", 0, 0, INT_MAX, "groups", "Total number of groups", 0, INT_MAX);
	RNA_def_parameter_flags(parm, 0, PARM_OUTPUT);

	func = RNA_def_function(srna, "normals_split_custom_set", "rna_Mesh_normals_split_custom_set");
	RNA_def_function_ui_description(func,
	                                "Define custom split normals of this mesh "
	                                "(use zero-vectors to keep auto ones)");
	RNA_def_function_flag(func, FUNC_USE_REPORTS);
	/* TODO, see how array size of 0 works, this shouldnt be used */
	parm = RNA_def_float_array(func, "normals", 1, NULL, -1.0f, 1.0f, "", "Normals", 0.0f, 0.0f);
	RNA_def_property_multi_array(parm, 2, normals_array_dim);
	RNA_def_parameter_flags(parm, PROP_DYNAMIC, PARM_REQUIRED);

	func = RNA_def_function(srna, "normals_split_custom_set_from_vertices",
	                        "rna_Mesh_normals_split_custom_set_from_vertices");
	RNA_def_function_ui_description(func,
	                                "Define custom split normals of this mesh, from vertices' normals "
	                                "(use zero-vectors to keep auto ones)");
	RNA_def_function_flag(func, FUNC_USE_REPORTS);
	/* TODO, see how array size of 0 works, this shouldnt be used */
	parm = RNA_def_float_array(func, "normals", 1, NULL, -1.0f, 1.0f, "", "Normals", 0.0f, 0.0f);
	RNA_def_property_multi_array(parm, 2, normals_array_dim);
	RNA_def_parameter_flags(parm, PROP_DYNAMIC, PARM_REQUIRED);

	func = RNA_def_function(srna, "update", "ED_mesh_update");
	RNA_def_boolean(func, "calc_edges", 0, "Calculate Edges", "Force recalculation of edges");
	RNA_def_boolean(func, "calc_edges_loose", 0, "Calculate Loose Edges", "Calculate the loose state of each edge");
	RNA_def_boolean(func, "calc_loop_triangles", 0, "Calculate Triangules", "Force recalculation of triangle tessellation");
	RNA_def_function_flag(func, FUNC_USE_CONTEXT);

	RNA_def_function(srna, "update_gpu_tag", "rna_Mesh_update_gpu_tag");

	func = RNA_def_function(srna, "unit_test_compare", "rna_Mesh_unit_test_compare");
	RNA_def_pointer(func, "mesh", "Mesh", "", "Mesh to compare to");
	/* return value */
	parm = RNA_def_string(func, "result", "nothing", 64, "Return value", "String description of result of comparison");
	RNA_def_function_return(func, parm);

	func = RNA_def_function(srna, "validate", "BKE_mesh_validate");
	RNA_def_function_ui_description(func, "Validate geometry, return True when the mesh has had "
	                                "invalid geometry corrected/removed");
	RNA_def_boolean(func, "verbose", false, "Verbose", "Output information about the errors found");
	RNA_def_boolean(func, "clean_customdata", true, "Clean Custom Data",
	                "Remove temp/cached custom-data layers, like e.g. normals...");
	parm = RNA_def_boolean(func, "result", 0, "Result", "");
	RNA_def_function_return(func, parm);

	func = RNA_def_function(srna, "validate_material_indices", "BKE_mesh_validate_material_indices");
	RNA_def_function_ui_description(func, "Validate material indices of polygons, return True when the mesh has had "
	                                "invalid indices corrected (to default 0)");
	parm = RNA_def_boolean(func, "result", 0, "Result", "");
	RNA_def_function_return(func, parm);

	func = RNA_def_function(srna, "count_selected_items", "rna_Mesh_count_selected_items ");
	RNA_def_function_ui_description(func, "Return the number of selected items (vert, edge, face)");
	parm = RNA_def_int_vector(func, "result", 3, NULL, 0, INT_MAX, "Result", NULL, 0, INT_MAX);
	RNA_def_function_output(func, parm);
}

#endif