/** * FreeRDP: A Remote Desktop Protocol Implementation * RemoteFX Codec Library - Quantization * * Copyright 2011 Vic Lee * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #ifdef HAVE_CONFIG_H #include "config.h" #endif #include #include "rfx_quantization.h" /* * Band Offset Dimensions Size * * HL1 0 32x32 1024 * LH1 1024 32x32 1024 * HH1 2048 32x32 1024 * * HL2 3072 16x16 256 * LH2 3328 16x16 256 * HH2 3584 16x16 256 * * HL3 3840 8x8 64 * LH3 3904 8x8 64 * HH3 3968 8x8 64 * * LL3 4032 8x8 64 */ void rfx_quantization_decode_block(const primitives_t *prims, INT16* buffer, int buffer_size, UINT32 factor) { if (factor == 0) return; prims->lShiftC_16s(buffer, factor, buffer, buffer_size); } void rfx_quantization_decode(INT16* buffer, const UINT32* quantVals) { const primitives_t* prims = primitives_get(); rfx_quantization_decode_block(prims, &buffer[0], 1024, quantVals[8] - 1); /* HL1 */ rfx_quantization_decode_block(prims, &buffer[1024], 1024, quantVals[7] - 1); /* LH1 */ rfx_quantization_decode_block(prims, &buffer[2048], 1024, quantVals[9] - 1); /* HH1 */ rfx_quantization_decode_block(prims, &buffer[3072], 256, quantVals[5] - 1); /* HL2 */ rfx_quantization_decode_block(prims, &buffer[3328], 256, quantVals[4] - 1); /* LH2 */ rfx_quantization_decode_block(prims, &buffer[3584], 256, quantVals[6] - 1); /* HH2 */ rfx_quantization_decode_block(prims, &buffer[3840], 64, quantVals[2] - 1); /* HL3 */ rfx_quantization_decode_block(prims, &buffer[3904], 64, quantVals[1] - 1); /* LH3 */ rfx_quantization_decode_block(prims, &buffer[3968], 64, quantVals[3] - 1); /* HH3 */ rfx_quantization_decode_block(prims, &buffer[4032], 64, quantVals[0] - 1); /* LL3 */ } static void rfx_quantization_encode_block(INT16* buffer, int buffer_size, UINT32 factor) { INT16* dst; INT16 half; if (factor == 0) return; half = (1 << (factor - 1)); /* Could probably use prims->rShiftC_16s(dst+half, factor, dst, buffer_size); */ for (dst = buffer; buffer_size > 0; dst++, buffer_size--) { *dst = (*dst + half) >> factor; } } void rfx_quantization_encode(INT16* buffer, const UINT32* quantization_values) { rfx_quantization_encode_block(buffer, 1024, quantization_values[8] - 6); /* HL1 */ rfx_quantization_encode_block(buffer + 1024, 1024, quantization_values[7] - 6); /* LH1 */ rfx_quantization_encode_block(buffer + 2048, 1024, quantization_values[9] - 6); /* HH1 */ rfx_quantization_encode_block(buffer + 3072, 256, quantization_values[5] - 6); /* HL2 */ rfx_quantization_encode_block(buffer + 3328, 256, quantization_values[4] - 6); /* LH2 */ rfx_quantization_encode_block(buffer + 3584, 256, quantization_values[6] - 6); /* HH2 */ rfx_quantization_encode_block(buffer + 3840, 64, quantization_values[2] - 6); /* HL3 */ rfx_quantization_encode_block(buffer + 3904, 64, quantization_values[1] - 6); /* LH3 */ rfx_quantization_encode_block(buffer + 3968, 64, quantization_values[3] - 6); /* HH3 */ rfx_quantization_encode_block(buffer + 4032, 64, quantization_values[0] - 6); /* LL3 */ /* The coefficients are scaled by << 5 at RGB->YCbCr phase, so we round it back here */ rfx_quantization_encode_block(buffer, 4096, 5); }