vaddv — Performs addition between two vectorial control signals.
ifn1 - number of the table hosting the first vector to be processed
ifn2 - number of the table hosting the second vector to be processed
kelements - number of elements of the two vectors
kdstoffset - index offset for the destination (ifn1) table (Default=0)
ksrcoffset - index offset for the source (ifn2) table (Default=0)
kverbose - Selects whether or not warnings are printed (Default=0)
vaddv adds two vectorial control signals, that is, each element of the first vector is processed (only) with the corresponding element of the other vector. Each vectorial signal is hosted by a table (ifn1 and ifn2). The number of elements contained in both vectors must be the same.
The result is a new vectorial control signal that overrides old values of ifn1. If you want to keep the old ifn1 vector, use vcopy_iopcode to copy it in another table. You can use kdstoffset and ksrcoffset to specify vectors in any location of the tables.
Negative values for kdstoffset and ksrcoffset are acceptable. If kdstoffset is negative, the out of range section of the vector will be discarded. If ksrcoffset is negative, the out of range elements will be assumed to be 0 (i.e. the destination elements will not be changed). If elements for the destination vector are beyond the size of the table (including guard point), these elements are discarded (i.e. elements do not wrap around the tables). If elements for the source vector are beyond the table length, these elements are taken as 0 (i.e. the destination vector will not be changed for these elements).
Warning | |
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Using the same table as source and destination table in versions earlier than 5.04, might produce unexpected behavior, so use with care. |
This opcode works at k-rate (this means that every k-pass the vectors are added). There is an i-rate version of this opcode called vaddv_i.
Note | |
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Please note that the elements argument has changed in version 5.03 from i-rate to k-rate. This will change the opcode's behavior in the unusual cases where the i-rate variable ielements is changed inside the instrument, for example in: instr 1 ielements = 10 vadd 1, 1, ielements ielements = 20 vadd 2, 1, ielements turnoff endin
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All these operators (vaddv,vsubv,vmultv,vdivv,vpowv,vexpv, vcopy and vmap) are designed to be used together with other opcodes that operate with vectorial signals such as vcella, adsynt, adsynt2 etc.
Here is an example of the vaddv opcode. It uses the file vaddv.csd.
Example 1136. Example of the vaddv opcode.
See the sections Real-time Audio and Command Line Flags for more information on using command line flags.
<CsoundSynthesizer> <CsOptions> ; Select audio/midi flags here according to platform ; Audio out Audio in -odac -iadc -nm0 ;;;RT audio I/O ; For Non-realtime ouput leave only the line below: ; -o cigoto.wav -W ;;; for file output any platform </CsOptions> <CsInstruments> sr=44100 ksmps=128 nchnls=2 opcode TableDumpSimp, 0, ijo ;prints the content of a table in a simple way ifn, iprec, ippr xin; function table, float precision while printing (default = 3), parameters per row (default = 10, maximum = 32) iprec = (iprec == -1 ? 3 : iprec) ippr = (ippr == 0 ? 10 : ippr) iend = ftlen(ifn) indx = 0 Sformat sprintf "%%.%df\t", iprec Sdump = "" loop: ival tab_i indx, ifn Snew sprintf Sformat, ival Sdump strcat Sdump, Snew indx = indx + 1 imod = indx % ippr if imod == 0 then puts Sdump, 1 Sdump = "" endif if indx < iend igoto loop puts Sdump, 1 endop instr 1 ifn1 = p4 ifn2 = p5 ielements = p6 idstoffset = p7 isrcoffset = p8 kval init 25 vaddv ifn1, ifn2, ielements, idstoffset, isrcoffset, 1 turnoff endin instr 2 TableDumpSimp p4, 3, 16 endin </CsInstruments> <CsScore> f 1 0 16 -7 1 15 16 f 2 0 16 -7 1 15 2 i2 0.0 0.2 1 i2 0.2 0.2 2 i1 0.4 0.01 1 2 5 3 8 i2 0.8 0.2 1 i1 1.0 0.01 1 2 5 10 -2 i2 1.2 0.2 1 i1 1.4 0.01 1 2 8 14 0 i2 1.6 0.2 1 i1 1.8 0.01 1 2 8 0 14 i2 2.0 0.2 1 i1 2.2 0.002 1 1 8 5 2 i2 2.4 0.2 1 e </CsScore> </CsoundSynthesizer>