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lavc/aacpsdsp: fix clobber on RISC-V LP64D/ILP32D
Although the DSP function only uses single precision from RISC-V F, the caller may leave double precision values in the spilled registers if the calling convention supports double precision hardware floats. Then, we need to save and restore FS registers as double precision. Conversely, we do not need to save anything at all if an integer calling convention is in use. However we can assume that single precision floats are supported, since the Zve32f extension implies the F extension. So for the sake of simplicity, we always save at least single precision values. In theory, we should even save quadruple precision values if the LP64Q ABI is in use. I have yet to see a compiler that supports it though.
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@ -55,9 +55,10 @@ endfunc
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func ff_ps_hybrid_analysis_rvv, zve32f
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/* We need 26 FP registers, for 20 scratch ones. Spill fs0-fs5. */
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addi sp, sp, -32
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addi sp, sp, -48
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.irp n, 0, 1, 2, 3, 4, 5
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fsw fs\n, (4 * \n)(sp)
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HWD fsd fs\n, (8 * \n)(sp)
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NOHWD fsw fs\n, (4 * \n)(sp)
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.endr
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.macro input, j, fd0, fd1, fd2, fd3
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@ -142,9 +143,10 @@ func ff_ps_hybrid_analysis_rvv, zve32f
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bnez a4, 1b
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.irp n, 5, 4, 3, 2, 1, 0
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flw fs\n, (4 * \n)(sp)
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HWD fld fs\n, (8 * \n)(sp)
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NOHWD flw fs\n, (4 * \n)(sp)
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.endr
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addi sp, sp, 32
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addi sp, sp, 48
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ret
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.purgem input
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.purgem filter
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