Lines Matching full:vector
102 A partition class consists of a representation vector width (the
118 4) vector [floor1_partition_class_list] element [i] = read 4 bits as unsigned integer
122 5) [maximum_class] = largest integer scalar value in vector [floor1_partition_class_list]
125 7) vector [floor1_class_dimensions] element [i] = read 3 bits as unsigned integer and add 1
126 8) vector [floor1_class_subclasses] element [i] = read 2 bits as unsigned integer
127 9) if ( vector [floor1_class_subclasses] element [i] is nonzero ) \{
129 10) vector [floor1_class_masterbooks] element [i] = read 8 bits as unsigned integer
142 15) vector [floor1_X_list] element [0] = 0
143 16) vector [floor1_X_list] element [1] = 2 exponent [rangebits];
147 19) [current_class_number] = vector [floor1_partition_class_list] element [i]
149 21) vector [floor1_X_list] element ([floor1_values]) =
163 condition that renders the stream undecodable. All vector
164 [floor1_x_list] element values must be unique within the vector; a
186 1) [range] = vector \{ 256, 128, 86, 64 \} element ([floor1_multiplier]-1)
187 2) vector [floor1_Y] element [0] = read \link{vorbis:spec:ilog}{ilog}([range]-1) bits as unsigned integer
188 3) vector [floor1_Y] element [1] = read \link{vorbis:spec:ilog}{ilog}([range]-1) bits as unsigned integer
192 6) [class] = vector [floor1_partition_class] element [i]
193 7) [cdim] = vector [floor1_class_dimensions] element [class]
194 8) [cbits] = vector [floor1_class_subclasses] element [class]
200 (vector [floor1_class_masterbooks] element [class]) in scalar context
209 17) vector [floor1_Y] element ([j]+[offset]) = read from packet using codebook
214 18) vector [floor1_Y] element ([j]+[offset]) = 0
232 Vector \varname{[floor1_Y]} contains the values from packet decode
259 1) [range] = vector \{ 256, 128, 86, 64 \} element ([floor1_multiplier]-1)
260 2) vector [floor1_step2_flag] element [0] = set
261 3) vector [floor1_step2_flag] element [1] = set
262 4) vector [floor1_final_Y] element [0] = vector [floor1_Y] element [0]
263 5) vector [floor1_final_Y] element [1] = vector [floor1_Y] element [1]
269 9) [predicted] = \link{vorbis:spec:render:point}{render_point}( vector [floor1_X_list] element [low_neighbor_offset],
270 vector [floor1_final_Y] element [low_neighbor_offset],
271 vector [floor1_X_list] element [high_neighbor_offset],
272 vector [floor1_final_Y] element [high_neighbor_offset],
273 vector [floor1_X_list] element [i] )
275 10) [val] = vector [floor1_Y] element [i]
290 17) vector [floor1_step2_flag] element [low_neighbor_offset] = set
291 18) vector [floor1_step2_flag] element [high_neighbor_offset] = set
292 19) vector [floor1_step2_flag] element [i] = set
297 22) vector [floor1_final_Y] element [i] = [val] - [lowroom] + [predicted]
301 23) vector [floor1_final_Y] element [i] = [predicted] - [val] + [highroom] - 1
309 25) vector [floor1_final_Y] element [i] =
314 26) vector [floor1_final_Y] element [i] =
323 27) vector [floor1_step2_flag] element [i] = unset
324 28) vector [floor1_final_Y] element [i] = [predicted]
338 Curve synthesis generates a return vector \varname{[floor]} of length
360 3) [ly] = vector [floor1_final_Y]' element [0] * [floor1_multiplier]
381 14) truncate vector [floor] to [n] elements
385 15) for each scalar in vector [floor], perform a lookup substitution using
386 the scalar value from [floor] as an offset into the vector \link{vorbis:spec:floor1:inverse:dB:table}{[floor1_inverse_dB_static_table]}
