/* * $Id$ * * ***** 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) 2006 Blender Foundation. * All rights reserved. * * The Original Code is: all of this file. * * Contributor(s): Bob Holcomb * * ***** END GPL LICENSE BLOCK ***** */ /** \file blender/nodes/intern/CMP_nodes/CMP_channelMatte.c * \ingroup cmpnodes */ #include "../CMP_util.h" /* ******************* Channel Matte Node ********************************* */ static bNodeSocketType cmp_node_channel_matte_in[]={ {SOCK_RGBA,1,"Image", 0.8f, 0.8f, 0.8f, 1.0f, 0.0f, 1.0f}, {-1,0,""} }; static bNodeSocketType cmp_node_channel_matte_out[]={ {SOCK_RGBA,0,"Image", 0.8f, 0.8f, 0.8f, 1.0f, 0.0f, 1.0f}, {SOCK_VALUE,0,"Matte",0.0f, 0.0f, 0.0f, 1.0f, 0.0f, 1.0f}, {-1,0,""} }; static void do_normalized_rgba_to_ycca2(bNode *UNUSED(node), float *out, float *in) { /*normalize to the range 0.0 to 1.0) */ rgb_to_ycc(in[0],in[1],in[2], &out[0], &out[1], &out[2], BLI_YCC_ITU_BT601); out[0]=(out[0])/255.0; out[1]=(out[1])/255.0; out[2]=(out[2])/255.0; out[3]=in[3]; } static void do_normalized_ycca_to_rgba2(bNode *UNUSED(node), float *out, float *in) { /*un-normalize the normalize from above */ in[0]=in[0]*255.0; in[1]=in[1]*255.0; in[2]=in[2]*255.0; ycc_to_rgb(in[0],in[1],in[2], &out[0], &out[1], &out[2], BLI_YCC_ITU_BT601); out[3]=in[3]; } static void do_channel_matte(bNode *node, float *out, float *in) { NodeChroma *c=(NodeChroma *)node->storage; float alpha=0.0; switch(c->algorithm) { case 0: { /* Alpha=key_channel-limit channel */ int key_channel=node->custom2-1; int limit_channel=c->channel-1; alpha=in[key_channel]-in[limit_channel]; break; } case 1: { /* Alpha=G-MAX(R, B) */ switch(node->custom2) { case 1: { alpha=in[0]-MAX2(in[1],in[2]); break; } case 2: { alpha=in[1]-MAX2(in[0],in[2]); break; } case 3: { alpha=in[2]-MAX2(in[0],in[1]); break; } default: break; } } default: break; } /*flip because 0.0 is transparent, not 1.0*/ alpha=1-alpha; /* test range*/ if(alpha>c->t1) { alpha=in[3]; /*whatever it was prior */ } else if(alphat2){ alpha=0.0; } else {/*blend */ alpha=(alpha-c->t2)/(c->t1-c->t2); } /* don't make something that was more transparent less transparent */ if (alphahasinput==0) return; if(in[0]->data==NULL) return; if(out[0]->hasoutput==0 && out[1]->hasoutput==0) return; cbuf=typecheck_compbuf(in[0]->data, CB_RGBA); outbuf=dupalloc_compbuf(cbuf); /*convert to colorspace*/ switch(node->custom1) { case CMP_NODE_CHANNEL_MATTE_CS_RGB: break; case CMP_NODE_CHANNEL_MATTE_CS_HSV: /*HSV*/ composit1_pixel_processor(node, outbuf, cbuf, in[1]->vec, do_rgba_to_hsva, CB_RGBA); break; case CMP_NODE_CHANNEL_MATTE_CS_YUV: /*YUV*/ composit1_pixel_processor(node, outbuf, cbuf, in[1]->vec, do_rgba_to_yuva, CB_RGBA); break; case CMP_NODE_CHANNEL_MATTE_CS_YCC: /*YCC*/ composit1_pixel_processor(node, outbuf, cbuf, in[1]->vec, do_normalized_rgba_to_ycca2, CB_RGBA); break; default: break; } /*use the selected channel information to do the key */ composit1_pixel_processor(node, outbuf, outbuf, in[1]->vec, do_channel_matte, CB_RGBA); /*convert back to RGB colorspace in place*/ switch(node->custom1) { case CMP_NODE_CHANNEL_MATTE_CS_RGB: /*RGB*/ break; case CMP_NODE_CHANNEL_MATTE_CS_HSV: /*HSV*/ composit1_pixel_processor(node, outbuf, outbuf, in[1]->vec, do_hsva_to_rgba, CB_RGBA); break; case CMP_NODE_CHANNEL_MATTE_CS_YUV: /*YUV*/ composit1_pixel_processor(node, outbuf, outbuf, in[1]->vec, do_yuva_to_rgba, CB_RGBA); break; case CMP_NODE_CHANNEL_MATTE_CS_YCC: /*YCC*/ composit1_pixel_processor(node, outbuf, outbuf, in[1]->vec, do_normalized_ycca_to_rgba2, CB_RGBA); break; default: break; } generate_preview(data, node, outbuf); out[0]->data=outbuf; if(out[1]->hasoutput) out[1]->data=valbuf_from_rgbabuf(outbuf, CHAN_A); if(cbuf!=in[0]->data) free_compbuf(cbuf); } static void node_composit_init_channel_matte(bNode *node) { NodeChroma *c= MEM_callocN(sizeof(NodeChroma), "node chroma"); node->storage=c; c->t1= 1.0f; c->t2= 0.0f; c->t3= 0.0f; c->fsize= 0.0f; c->fstrength= 0.0f; c->algorithm=1; /*max channel limiting */ c->channel=1; /* limit by red */ node->custom1= 1; /* RGB channel */ node->custom2= 2; /* Green Channel */ } void register_node_type_cmp_channel_matte(ListBase *lb) { static bNodeType ntype; node_type_base(&ntype, CMP_NODE_CHANNEL_MATTE, "Channel Key", NODE_CLASS_MATTE, NODE_PREVIEW|NODE_OPTIONS, cmp_node_channel_matte_in, cmp_node_channel_matte_out); node_type_size(&ntype, 200, 80, 250); node_type_init(&ntype, node_composit_init_channel_matte); node_type_storage(&ntype, "NodeChroma", node_free_standard_storage, node_copy_standard_storage); node_type_exec(&ntype, node_composit_exec_channel_matte); nodeRegisterType(lb, &ntype); }