Mercurial > hg > audiostuff
view intercom/g726/makefile.tcc @ 2:13be24d74cd2
import intercom-0.4.1
| author | Peter Meerwald <pmeerw@cosy.sbg.ac.at> |
|---|---|
| date | Fri, 25 Jun 2010 09:57:52 +0200 |
| parents | |
| children |
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# ----------------------------------------------------------------------------- # Borland tcc/bcc makefile for compiling and testing the G.726 # implementation. The executable must be defined by variable G726 below. # 01.May.94 - Implemented by <simao@cpqd.ansp.br> # 10.Mar.95 - Compilation and test sequence processing/comparison for # vbr-g726.c. <simao@ctd.comsat.com> # NOTE: you need to get (purchase) the G.726 test vectors from the ITU in # order to perform the (optional) compliance test. # ----------------------------------------------------------------------------- # ------------------------------------------------ # Choose compiler/options. # ------------------------------------------------ #CC = bcc CC = tcc CC_OPT = -I../utl # ------------------------------------------------ # General purpose symbols # ------------------------------------------------ G726 = g726demo VBR = vbr-g726 -q DIFF = cf -q RM = -rm -f # ------------------------------------------------ # Choose an archiving utility: # - public domain unzip, or [PC/Unix/VMS] # - shareware pkunzip [PC only] # ------------------------------------------------ #UNZIP = pkunzip UNZIP = unzip -o # ------------------------------------------------ # File lists # ------------------------------------------------ TEST_VECTORS = *.?16 *.?24 *.?32 *.?40 *.rec DEMO_OBJ = g726demo.obj g726.obj VBR_OBJ = vbr-g726.obj g726.obj g711.obj # ------------------------------------------------ # Targets # ------------------------------------------------ all: g726demo vbr-g726 anyway: clean all clean: $(RM) *.obj cleantest: $(RM) $(TEST_VECTORS) voicvbra.tst voicvbru.tst voicvbrl.tst $(RM) voice.src voicevbr.arf voicevbr.lrf voicevbr.urf veryclean: clean cleantest $(RM) g726demo.exe vbr-g726.exe # ----------------------------------------------------------------------------- # Generic rules # ----------------------------------------------------------------------------- .c.obj: $(CC) $(CC_OPT) -c $< # ----------------------------------------------------------------------------- # Specific rules # ----------------------------------------------------------------------------- vbr-g726: vbr-g726.exe g726demo: g726demo.exe vbr-g726.exe: $(VBR_OBJ) $(CC) -evbr-g726 $(VBR_OBJ) g726demo.exe: $(DEMO_OBJ) $(CC) -eg726demo $(DEMO_OBJ) g726demo.obj: g726demo.c g726.h $(CC) $(CC_OPT) -c -I../g711 g726demo.c g726.obj: g726.c g726.h $(CC) -c $(CC_OPT) g726.c g711.obj: ../g711/g711.c $(CC) -c $(CC_OPT) -I../g711 ../g711/g711.c vbr-g726.obj: vbr-g726.c $(CC) -c $(CC_OPT) -I../g711 vbr-g726.c # ---------------------------------------- # Very simple portability test # ---------------------------------------- test: test-vbr-quick proc: proc-vbr-quick comp: comp-vbr-quick test-vbr-quick: proc-vbr-quick comp-vbr-quick proc-vbr-quick: voice.src $(VBR) -q -law A -rate 16-24-32-40-32-24 voice.src voicvbra.tst $(VBR) -q -law l -rate 16-24-32-40-32-24 voice.src voicvbrl.tst $(VBR) -q -law u -rate 16-24-32-40-32-24 voice.src voicvbru.tst comp-vbr-quick: voicevbr.arf $(DIFF) voicvbra.tst voicevbr.arf $(DIFF) voicvbrl.tst voicevbr.lrf $(DIFF) voicvbru.tst voicevbr.urf voice.src: tst-g726.zip $(UNZIP) tst-g726.zip voice.src sb -over voice.src voicevbr.arf: tst-g726.zip $(UNZIP) tst-g726.zip voicevbr.arf voicevbr.lrf voicevbr.urf swapover voicevbr.arf voicevbr.lrf voicevbr.urf # ----------------------------------------------------------------------------- # Test the implementation for g726demo (compliance) # In the automatic compliance testing, g726demo.c is verified by test-tv # For vbr-g726.c, no differences should be observed, since both use g726.c, # and differ only on the demo logic. For full compliance testing of the # vbr-g726.c program, use test-tv-vbr # ----------------------------------------------------------------------------- test-tv: proc-tv-fix comp-tv proc-tv-fix: bin/rn16fa.o clean proc16-fix proc24-fix proc32-fix proc40-fix comp-tv-fix: comp-tv comp-tv: comp16 comp24 comp32 comp40 proc16-fix: # # Process ADPCM/ Coder for normal and overload sequences, A law # $(G726) a load 16 bin/nrm.a nrm.a16 256 1 64 $(G726) a load 16 bin/ovr.a ovr.a16 256 1 8 # # Process ADPCM/ Decoder for normal and overload sequences, A law # $(G726) a adlo 16 bin/rn16fa.i rn16fa.rec 256 1 64 $(G726) a adlo 16 bin/rv16fa.i rv16fa.rec 256 1 8 # # Process ADPCM/ Cross-decoder for normal and overload sequences, # A law input -> ADPCM 16kbit/s -> mu law output # $(G726) u adlo 16 bin/rn16fa.i rn16fx.rec 256 1 64 $(G726) u adlo 16 bin/rv16fa.i rv16fx.rec 256 1 8 # # # Process ADPCM/ Coder for normal and overload sequences, mu law # $(G726) u load 16 bin/nrm.m nrm.m16 256 1 64 $(G726) u load 16 bin/ovr.m ovr.m16 256 1 8 # # Process ADPCM/ Decoder for normal and overload sequences, mu law # $(G726) u adlo 16 bin/rn16fm.i rn16fm.rec 256 1 64 $(G726) u adlo 16 bin/rv16fm.i rv16fm.rec 256 1 8 # # Process ADPCM/ Cross-decoder for normal and overload sequences, # mu law input -> ADPCM 16kbit/s -> A law output # $(G726) a adlo 16 bin/rn16fm.i rn16fc.rec 256 1 64 $(G726) a adlo 16 bin/rv16fm.i rv16fc.rec 256 1 8 # # # Process ADPCM/ Decode-only for the same input ADPCM sequence, A and mu law # $(G726) a adlo 16 bin/i16 ri16fa.rec 256 1 64 $(G726) u adlo 16 bin/i16 ri16fm.rec 256 1 64 comp16: # # ================================================================= # COMPARISON OF FILES ! # ================================================================= # # Compare ADPCM/ Coder for normal and overload sequences, A law # $(DIFF) bin/rn16fa.i nrm.a16 256 1 64 $(DIFF) bin/rv16fa.i ovr.a16 256 1 8 # # Compare ADPCM/ Decoder for normal and overload sequences, A law # $(DIFF) bin/rn16fa.o rn16fa.rec 256 1 64 $(DIFF) bin/rv16fa.o rv16fa.rec 256 1 8 # # Compare ADPCM/ Cross-decoder for normal and overload sequences, # A law input -> ADPCM x kbit/s -> mu law output # $(DIFF) bin/rn16fx.o rn16fx.rec 256 1 64 $(DIFF) bin/rv16fx.o rv16fx.rec 256 1 8 # # # Compare ADPCM/ Coder for normal and overload sequences, mu law # $(DIFF) bin/rn16fm.i nrm.m16 256 1 64 $(DIFF) bin/rv16fm.i ovr.m16 256 1 8 # # Compare ADPCM/ Decoder for normal and overload sequences, mu law # $(DIFF) bin/rn16fm.o rn16fm.rec 256 1 64 $(DIFF) bin/rv16fm.o rv16fm.rec 256 1 8 # # Compare ADPCM/ Cross-decoder for normal and overload sequences, # mu law input -> ADPCM x kbit/s -> A law output # $(DIFF) bin/rn16fc.o rn16fc.rec 256 1 64 $(DIFF) bin/rv16fc.o rv16fc.rec 256 1 8 # # # Compare ADPCM/ Decode-only for the same input ADPCM sequence, A and mu law # $(DIFF) bin/ri16fa.o ri16fa.rec 256 1 64 $(DIFF) bin/ri16fm.o ri16fm.rec 256 1 64 proc24-fix: # # # Process ADPCM/ Coder for normal and overload sequences, A law # $(G726) a load 24 bin/nrm.a nrm.a24 256 1 64 $(G726) a load 24 bin/ovr.a ovr.a24 256 1 8 # # Process ADPCM/ Decoder for normal and overload sequences, A law # $(G726) a adlo 24 bin/rn24fa.i rn24fa.rec 256 1 64 $(G726) a adlo 24 bin/rv24fa.i rv24fa.rec 256 1 8 # # Process ADPCM/ Cross-decoder for normal and overload sequences, # A law input -> ADPCM 24kbit/s -> mu law output # $(G726) u adlo 24 bin/rn24fa.i rn24fx.rec 256 1 64 $(G726) u adlo 24 bin/rv24fa.i rv24fx.rec 256 1 8 # # # Process ADPCM/ Coder for normal and overload sequences, mu law # $(G726) u load 24 bin/nrm.m nrm.m24 256 1 64 $(G726) u load 24 bin/ovr.m ovr.m24 256 1 8 # # Process ADPCM/ Decoder for normal and overload sequences, mu law # $(G726) u adlo 24 bin/rn24fm.i rn24fm.rec 256 1 64 $(G726) u adlo 24 bin/rv24fm.i rv24fm.rec 256 1 8 # # Process ADPCM/ Cross-decoder for normal and overload sequences, # mu law input -> ADPCM 24kbit/s -> A law output # $(G726) a adlo 24 bin/rn24fm.i rn24fc.rec 256 1 64 $(G726) a adlo 24 bin/rv24fm.i rv24fc.rec 256 1 8 # # # Process ADPCM/ Decode-only for the same input ADPCM sequence, A and mu law # $(G726) a adlo 24 bin/i24 ri24fa.rec 256 1 64 $(G726) u adlo 24 bin/i24 ri24fm.rec 256 1 64 comp24: # # ================================================================= # COMPARISON OF FILES ! # ================================================================= # # Compare ADPCM/ Coder for normal and overload sequences, A law # $(DIFF) bin/rn24fa.i nrm.a24 256 1 64 $(DIFF) bin/rv24fa.i ovr.a24 256 1 8 # # Compare ADPCM/ Decoder for normal and overload sequences, A law # $(DIFF) bin/rn24fa.o rn24fa.rec 256 1 64 $(DIFF) bin/rv24fa.o rv24fa.rec 256 1 8 # # Compare ADPCM/ Cross-decoder for normal and overload sequences, # A law input -> ADPCM x kbit/s -> mu law output # $(DIFF) bin/rn24fx.o rn24fx.rec 256 1 64 $(DIFF) bin/rv24fx.o rv24fx.rec 256 1 8 # # # Compare ADPCM/ Coder for normal and overload sequences, mu law # $(DIFF) bin/rn24fm.i nrm.m24 256 1 64 $(DIFF) bin/rv24fm.i ovr.m24 256 1 8 # # Compare ADPCM/ Decoder for normal and overload sequences, mu law # $(DIFF) bin/rn24fm.o rn24fm.rec 256 1 64 $(DIFF) bin/rv24fm.o rv24fm.rec 256 1 8 # # Compare ADPCM/ Cross-decoder for normal and overload sequences, # mu law input -> ADPCM x kbit/s -> A law output # $(DIFF) bin/rn24fc.o rn24fc.rec 256 1 64 $(DIFF) bin/rv24fc.o rv24fc.rec 256 1 8 # # # Compare ADPCM/ Decode-only for the same input ADPCM sequence, A and mu law # $(DIFF) bin/ri24fa.o ri24fa.rec 256 1 64 $(DIFF) bin/ri24fm.o ri24fm.rec 256 1 64 proc32-fix: # # Process ADPCM/ Coder for normal and overload sequences, A law # $(G726) a load 32 bin/nrm.a nrm.a32 256 1 64 $(G726) a load 32 bin/ovr.a ovr.a32 256 1 8 # # Process ADPCM/ Decoder for normal and overload sequences, A law # $(G726) a adlo 32 bin/rn32fa.i rn32fa.rec 256 1 64 $(G726) a adlo 32 bin/rv32fa.i rv32fa.rec 256 1 8 # # Process ADPCM/ Cross-decoder for normal and overload sequences, # A law input -> ADPCM 32kbit/s -> mu law output # $(G726) u adlo 32 bin/rn32fa.i rn32fx.rec 256 1 64 $(G726) u adlo 32 bin/rv32fa.i rv32fx.rec 256 1 8 # # # Process ADPCM/ Coder for normal and overload sequences, mu law # $(G726) u load 32 bin/nrm.m nrm.m32 256 1 64 $(G726) u load 32 bin/ovr.m ovr.m32 256 1 8 # # Process ADPCM/ Decoder for normal and overload sequences, mu law # $(G726) u adlo 32 bin/rn32fm.i rn32fm.rec 256 1 64 $(G726) u adlo 32 bin/rv32fm.i rv32fm.rec 256 1 8 # # Process ADPCM/ Cross-decoder for normal and overload sequences, # mu law input -> ADPCM 32kbit/s -> A law output # $(G726) a adlo 32 bin/rn32fm.i rn32fc.rec 256 1 64 $(G726) a adlo 32 bin/rv32fm.i rv32fc.rec 256 1 8 # # # Process ADPCM/ Decode-only for the same input ADPCM sequence, A and mu law # $(G726) a adlo 32 bin/i32 ri32fa.rec 256 1 64 $(G726) u adlo 32 bin/i32 ri32fm.rec 256 1 64 comp32: # # ================================================================= # COMPARISON OF FILES ! # ================================================================= # # Compare ADPCM/ Coder for normal and overload sequences, A law # $(DIFF) bin/rn32fa.i nrm.a32 256 1 64 $(DIFF) bin/rv32fa.i ovr.a32 256 1 8 # # Compare ADPCM/ Decoder for normal and overload sequences, A law # $(DIFF) bin/rn32fa.o rn32fa.rec 256 1 64 $(DIFF) bin/rv32fa.o rv32fa.rec 256 1 8 # # Compare ADPCM/ Cross-decoder for normal and overload sequences, # A law input -> ADPCM x kbit/s -> mu law output # $(DIFF) bin/rn32fx.o rn32fx.rec 256 1 64 $(DIFF) bin/rv32fx.o rv32fx.rec 256 1 8 # # # Compare ADPCM/ Coder for normal and overload sequences, mu law # $(DIFF) bin/rn32fm.i nrm.m32 256 1 64 $(DIFF) bin/rv32fm.i ovr.m32 256 1 8 # # Compare ADPCM/ Decoder for normal and overload sequences, mu law # $(DIFF) bin/rn32fm.o rn32fm.rec 256 1 64 $(DIFF) bin/rv32fm.o rv32fm.rec 256 1 8 # # Compare ADPCM/ Cross-decoder for normal and overload sequences, # mu law input -> ADPCM x kbit/s -> A law output # $(DIFF) bin/rn32fc.o rn32fc.rec 256 1 64 $(DIFF) bin/rv32fc.o rv32fc.rec 256 1 8 # # # Compare ADPCM/ Decode-only for the same input ADPCM sequence, A and mu law # $(DIFF) bin/ri32fa.o ri32fa.rec 256 1 64 $(DIFF) bin/ri32fm.o ri32fm.rec 256 1 64 proc40-fix: # # # Process ADPCM/ Coder for normal and overload sequences, A law # $(G726) a load 40 bin/nrm.a nrm.a40 256 1 64 $(G726) a load 40 bin/ovr.a ovr.a40 256 1 8 # # Process ADPCM/ Decoder for normal and overload sequences, A law # $(G726) a adlo 40 bin/rn40fa.i rn40fa.rec 256 1 64 $(G726) a adlo 40 bin/rv40fa.i rv40fa.rec 256 1 8 # # Process ADPCM/ Cross-decoder for normal and overload sequences, # A law input -> ADPCM 40kbit/s -> mu law output # $(G726) u adlo 40 bin/rn40fa.i rn40fx.rec 256 1 64 $(G726) u adlo 40 bin/rv40fa.i rv40fx.rec 256 1 8 # # # Process ADPCM/ Coder for normal and overload sequences, mu law # $(G726) u load 40 bin/nrm.m nrm.m40 256 1 64 $(G726) u load 40 bin/ovr.m ovr.m40 256 1 8 # # Process ADPCM/ Decoder for normal and overload sequences, mu law # $(G726) u adlo 40 bin/rn40fm.i rn40fm.rec 256 1 64 $(G726) u adlo 40 bin/rv40fm.i rv40fm.rec 256 1 8 # # Process ADPCM/ Cross-decoder for normal and overload sequences, # mu law input -> ADPCM 40kbit/s -> A law output # $(G726) a adlo 40 bin/rn40fm.i rn40fc.rec 256 1 64 $(G726) a adlo 40 bin/rv40fm.i rv40fc.rec 256 1 8 # # # Process ADPCM/ Decode-only for the same input ADPCM sequence, A and mu law # $(G726) a adlo 40 bin/i40 ri40fa.rec 256 1 64 $(G726) u adlo 40 bin/i40 ri40fm.rec 256 1 64 comp40: # # ================================================================= # COMPARISON OF FILES ! # ================================================================= # # Compare ADPCM/ Coder for normal and overload sequences, A law # $(DIFF) bin/rn40fa.i nrm.a40 256 1 64 $(DIFF) bin/rv40fa.i ovr.a40 256 1 8 # # Compare ADPCM/ Decoder for normal and overload sequences, A law # $(DIFF) bin/rn40fa.o rn40fa.rec 256 1 64 $(DIFF) bin/rv40fa.o rv40fa.rec 256 1 8 # # Compare ADPCM/ Cross-decoder for normal and overload sequences, # A law input -> ADPCM x kbit/s -> mu law output # $(DIFF) bin/rn40fx.o rn40fx.rec 256 1 64 $(DIFF) bin/rv40fx.o rv40fx.rec 256 1 8 # # # Compare ADPCM/ Coder for normal and overload sequences, mu law # $(DIFF) bin/rn40fm.i nrm.m40 256 1 64 $(DIFF) bin/rv40fm.i ovr.m40 256 1 8 # # Compare ADPCM/ Decoder for normal and overload sequences, mu law # $(DIFF) bin/rn40fm.o rn40fm.rec 256 1 64 $(DIFF) bin/rv40fm.o rv40fm.rec 256 1 8 # # Compare ADPCM/ Cross-decoder for normal and overload sequences, # mu law input -> ADPCM x kbit/s -> A law output # $(DIFF) bin/rn40fc.o rn40fc.rec 256 1 64 $(DIFF) bin/rv40fc.o rv40fc.rec 256 1 8 # # # Compare ADPCM/ Decode-only for the same input ADPCM sequence, A and mu law # $(DIFF) bin/ri40fa.o ri40fa.rec 256 1 64 $(DIFF) bin/ri40fm.o ri40fm.rec 256 1 64 # ----------------------------------------------------------------------------- # Test the implementation for vbr-g726 (compliance) # ----------------------------------------------------------------------------- test-vbr-tv: proc-vbr-tv comp-tv proc-vbr-tv: bin/rn16fa.o clean proc16-vbr proc24-vbr proc32-vbr proc40-vbr comp-vbr-tv: comp-tv proc16-vbr: # Process ADPCM/ Coder for normal and overload sequences, A law $(VBR) -law a -enc -rate 16 bin/nrm.a nrm.a16 16 1 1024 $(VBR) -law a -enc -rate 16 bin/ovr.a ovr.a16 16 1 128 # Process ADPCM/ Decoder for normal and overload sequences, A law $(VBR) -law a -dec -rate 16 bin/rn16fa.i rn16fa.rec 16 1 1024 $(VBR) -law a -dec -rate 16 bin/rv16fa.i rv16fa.rec 16 1 128 # Process ADPCM/ Cross-decoder for normal and overload sequences, # A law input -> ADPCM 16kbit/s -> mu law output $(VBR) -law u -dec -rate 16 bin/rn16fa.i rn16fx.rec 16 1 1024 $(VBR) -law u -dec -rate 16 bin/rv16fa.i rv16fx.rec 16 1 128 # Process ADPCM/ Coder for normal and overload sequences, mu law $(VBR) -law u -enc -rate 16 bin/nrm.m nrm.m16 16 1 1024 $(VBR) -law u -enc -rate 16 bin/ovr.m ovr.m16 16 1 128 # Process ADPCM/ Decoder for normal and overload sequences, mu law $(VBR) -law u -dec -rate 16 bin/rn16fm.i rn16fm.rec 16 1 1024 $(VBR) -law u -dec -rate 16 bin/rv16fm.i rv16fm.rec 16 1 128 # Process ADPCM/ Cross-decoder for normal and overload sequences, # mu law input -> ADPCM 16kbit/s ->A law output $(VBR) -law a -dec -rate 16 bin/rn16fm.i rn16fc.rec 16 1 1024 $(VBR) -law a -dec -rate 16 bin/rv16fm.i rv16fc.rec 16 1 128 # Process ADPCM/ Decode-only for the same input ADPCM sequence, A and mu law $(VBR) -law a -dec -rate 16 bin/i16 ri16fa.rec 16 1 1024 $(VBR) -law u -dec -rate 16 bin/i16 ri16fm.rec 16 1 1024 proc24-vbr: # Process ADPCM/ Coder for normal and overload sequences, A law $(VBR) -law a -enc -rate 24 bin/nrm.a nrm.a24 16 1 1024 $(VBR) -law a -enc -rate 24 bin/ovr.a ovr.a24 16 1 128 # Process ADPCM/ Decoder for normal and overload sequences, A law $(VBR) -law a -dec -rate 24 bin/rn24fa.i rn24fa.rec 16 1 1024 $(VBR) -law a -dec -rate 24 bin/rv24fa.i rv24fa.rec 16 1 128 # Process ADPCM/ Cross-decoder for normal and overload sequences, # A law input -> ADPCM 24kbit/s -> mu law output $(VBR) -law u -dec -rate 24 bin/rn24fa.i rn24fx.rec 16 1 1024 $(VBR) -law u -dec -rate 24 bin/rv24fa.i rv24fx.rec 16 1 128 # Process ADPCM/ Coder for normal and overload sequences, mu law $(VBR) -law u -enc -rate 24 bin/nrm.m nrm.m24 16 1 1024 $(VBR) -law u -enc -rate 24 bin/ovr.m ovr.m24 16 1 128 # Process ADPCM/ Decoder for normal and overload sequences, mu law $(VBR) -law u -dec -rate 24 bin/rn24fm.i rn24fm.rec 16 1 1024 $(VBR) -law u -dec -rate 24 bin/rv24fm.i rv24fm.rec 16 1 128 # Process ADPCM/ Cross-decoder for normal and overload sequences, # mu law input -> ADPCM 24kbit/s ->A law output $(VBR) -law a -dec -rate 24 bin/rn24fm.i rn24fc.rec 16 1 1024 $(VBR) -law a -dec -rate 24 bin/rv24fm.i rv24fc.rec 16 1 128 # Process ADPCM/ Decode-only for the same input ADPCM sequence, A and mu law $(VBR) -law a -dec -rate 24 bin/i24 ri24fa.rec 16 1 1024 $(VBR) -law u -dec -rate 24 bin/i24 ri24fm.rec 16 1 1024 proc32-vbr: # Process ADPCM/ Coder for normal and overload sequences, A law $(VBR) -law a -enc -rate 32 bin/nrm.a nrm.a32 16 1 1024 $(VBR) -law a -enc -rate 32 bin/ovr.a ovr.a32 16 1 128 # Process ADPCM/ Decoder for normal and overload sequences, A law $(VBR) -law a -dec -rate 32 bin/rn32fa.i rn32fa.rec 16 1 1024 $(VBR) -law a -dec -rate 32 bin/rv32fa.i rv32fa.rec 16 1 128 # Process ADPCM/ Cross-decoder for normal and overload sequences, # A law input -> ADPCM 32kbit/s -> mu law output $(VBR) -law u -dec -rate 32 bin/rn32fa.i rn32fx.rec 16 1 1024 $(VBR) -law u -dec -rate 32 bin/rv32fa.i rv32fx.rec 16 1 128 # Process ADPCM/ Coder for normal and overload sequences, mu law $(VBR) -law u -enc -rate 32 bin/nrm.m nrm.m32 16 1 1024 $(VBR) -law u -enc -rate 32 bin/ovr.m ovr.m32 16 1 128 # Process ADPCM/ Decoder for normal and overload sequences, mu law $(VBR) -law u -dec -rate 32 bin/rn32fm.i rn32fm.rec 16 1 1024 $(VBR) -law u -dec -rate 32 bin/rv32fm.i rv32fm.rec 16 1 128 # Process ADPCM/ Cross-decoder for normal and overload sequences, # mu law input -> ADPCM 32kbit/s ->A law output $(VBR) -law a -dec -rate 32 bin/rn32fm.i rn32fc.rec 16 1 1024 $(VBR) -law a -dec -rate 32 bin/rv32fm.i rv32fc.rec 16 1 128 # Process ADPCM/ Decode-only for the same input ADPCM sequence, A and mu law $(VBR) -law a -dec -rate 32 bin/i32 ri32fa.rec 16 1 1024 $(VBR) -law u -dec -rate 32 bin/i32 ri32fm.rec 16 1 1024 proc40-vbr: # Process ADPCM/ Coder for normal and overload sequences, A law $(VBR) -law a -enc -rate 40 bin/nrm.a nrm.a40 16 1 1024 $(VBR) -law a -enc -rate 40 bin/ovr.a ovr.a40 16 1 128 # Process ADPCM/ Decoder for normal and overload sequences, A law $(VBR) -law a -dec -rate 40 bin/rn40fa.i rn40fa.rec 16 1 1024 $(VBR) -law a -dec -rate 40 bin/rv40fa.i rv40fa.rec 16 1 128 # Process ADPCM/ Cross-decoder for normal and overload sequences, # A law input -> ADPCM 40kbit/s -> mu law output $(VBR) -law u -dec -rate 40 bin/rn40fa.i rn40fx.rec 16 1 1024 $(VBR) -law u -dec -rate 40 bin/rv40fa.i rv40fx.rec 16 1 128 # Process ADPCM/ Coder for normal and overload sequences, mu law $(VBR) -law u -enc -rate 40 bin/nrm.m nrm.m40 16 1 1024 $(VBR) -law u -enc -rate 40 bin/ovr.m ovr.m40 16 1 128 # Process ADPCM/ Decoder for normal and overload sequences, mu law $(VBR) -law u -dec -rate 40 bin/rn40fm.i rn40fm.rec 16 1 1024 $(VBR) -law u -dec -rate 40 bin/rv40fm.i rv40fm.rec 16 1 128 # Process ADPCM/ Cross-decoder for normal and overload sequences, # mu law input -> ADPCM 40kbit/s ->A law output $(VBR) -law a -dec -rate 40 bin/rn40fm.i rn40fc.rec 16 1 1024 $(VBR) -law a -dec -rate 40 bin/rv40fm.i rv40fc.rec 16 1 128 # Process ADPCM/ Decode-only for the same input ADPCM sequence, A and mu law $(VBR) -law a -dec -rate 40 bin/i40 ri40fa.rec 16 1 1024 $(VBR) -law u -dec -rate 40 bin/i40 ri40fm.rec 16 1 1024