kc3-lang/SDL/src/video/arm/pixman-arm-simd-asm.h

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• Hash : 57723b83
  Author :
  Date : 2019-10-24T21:13:05
  

  ARM: SIMD assembly optimization for function BlitRGBtoRGBPixelAlpha Much of the heavy lifting of this optimization is lifted from the Pixman project, which is distributed under an MIT-style license. As far as possible, these elements have been relicensed to the zlib license.

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• src/video/arm/pixman-arm-simd-asm.h

• /*
   * Copyright (c) 2012 Raspberry Pi Foundation
   * Copyright (c) 2012 RISC OS Open Ltd
   *
   * This software is provided 'as-is', without any express or implied
   * warranty.  In no event will the authors be held liable for any damages
   * arising from the use of this software.
   *
   * Permission is granted to anyone to use this software for any purpose,
   * including commercial applications, and to alter it and redistribute it
   * freely, subject to the following restrictions:
   *
   * 1. The origin of this software must not be misrepresented; you must not
   *    claim that you wrote the original software. If you use this software
   *    in a product, an acknowledgment in the product documentation would be
   *    appreciated but is not required.
   * 2. Altered source versions must be plainly marked as such, and must not be
   *    misrepresented as being the original software.
   * 3. This notice may not be removed or altered from any source distribution.
   */
  
  /*
   * Because the alignment of pixel data to cachelines, and even the number of
   * cachelines per row can vary from row to row, and because of the need to
   * preload each scanline once and only once, this prefetch strategy treats
   * each row of pixels independently. When a pixel row is long enough, there
   * are three distinct phases of prefetch:
   * * an inner loop section, where each time a cacheline of data is
   *    processed, another cacheline is preloaded (the exact distance ahead is
   *    determined empirically using profiling results from lowlevel-blt-bench)
   * * a leading section, where enough cachelines are preloaded to ensure no
   *    cachelines escape being preloaded when the inner loop starts
   * * a trailing section, where a limited number (0 or more) of cachelines
   *    are preloaded to deal with data (if any) that hangs off the end of the
   *    last iteration of the inner loop, plus any trailing bytes that were not
   *    enough to make up one whole iteration of the inner loop
   * 
   * There are (in general) three distinct code paths, selected between
   * depending upon how long the pixel row is. If it is long enough that there
   * is at least one iteration of the inner loop (as described above) then
   * this is described as the "wide" case. If it is shorter than that, but
   * there are still enough bytes output that there is at least one 16-byte-
   * long, 16-byte-aligned write to the destination (the optimum type of
   * write), then this is the "medium" case. If it is not even this long, then
   * this is the "narrow" case, and there is no attempt to align writes to
   * 16-byte boundaries. In the "medium" and "narrow" cases, all the
   * cachelines containing data from the pixel row are prefetched up-front.
   */
  
  /*
   * Determine whether we put the arguments on the stack for debugging.
   */
  #undef DEBUG_PARAMS
  
  /*
   * Bit flags for 'generate_composite_function' macro which are used
   * to tune generated functions behavior.
   */
  .set FLAG_DST_WRITEONLY,         0
  .set FLAG_DST_READWRITE,         1
  .set FLAG_COND_EXEC,             0
  .set FLAG_BRANCH_OVER,           2
  .set FLAG_PROCESS_PRESERVES_PSR, 0
  .set FLAG_PROCESS_CORRUPTS_PSR,  4
  .set FLAG_PROCESS_DOESNT_STORE,  0
  .set FLAG_PROCESS_DOES_STORE,    8 /* usually because it needs to conditionally skip it */
  .set FLAG_NO_SPILL_LINE_VARS,        0
  .set FLAG_SPILL_LINE_VARS_WIDE,      16
  .set FLAG_SPILL_LINE_VARS_NON_WIDE,  32
  .set FLAG_SPILL_LINE_VARS,           48
  .set FLAG_PROCESS_CORRUPTS_SCRATCH,  0
  .set FLAG_PROCESS_PRESERVES_SCRATCH, 64
  .set FLAG_PROCESS_PRESERVES_WK0,     0
  .set FLAG_PROCESS_CORRUPTS_WK0,      128 /* if possible, use the specified register(s) instead so WK0 can hold number of leading pixels */
  .set FLAG_PRELOAD_DST,               0
  .set FLAG_NO_PRELOAD_DST,            256
  
  /*
   * Number of bytes by which to adjust preload offset of destination
   * buffer (allows preload instruction to be moved before the load(s))
   */
  .set DST_PRELOAD_BIAS, 0
  
  /*
   * Offset into stack where mask and source pointer/stride can be accessed.
   */
  #ifdef DEBUG_PARAMS
  .set ARGS_STACK_OFFSET,        (9*4+9*4)
  #else
  .set ARGS_STACK_OFFSET,        (9*4)
  #endif
  
  /*
   * Offset into stack where space allocated during init macro can be accessed.
   */
  .set LOCALS_STACK_OFFSET,     0
  
  /*
   * Constants for selecting preferable prefetch type.
   */
  .set PREFETCH_TYPE_NONE,       0
  .set PREFETCH_TYPE_STANDARD,   1
  
  /*
   * Definitions of macros for load/store of pixel data.
   */
  
  .macro pixldst op, cond=al, numbytes, reg0, reg1, reg2, reg3, base, unaligned=0
   .if numbytes == 16
    .if unaligned == 1
          op&r&cond    WK&reg0, [base], #4
          op&r&cond    WK&reg1, [base], #4
          op&r&cond    WK&reg2, [base], #4
          op&r&cond    WK&reg3, [base], #4
    .else
          op&m&cond&ia base!, {WK&reg0,WK&reg1,WK&reg2,WK&reg3}
    .endif
   .elseif numbytes == 8
    .if unaligned == 1
          op&r&cond    WK&reg0, [base], #4
          op&r&cond    WK&reg1, [base], #4
    .else
          op&m&cond&ia base!, {WK&reg0,WK&reg1}
    .endif
   .elseif numbytes == 4
          op&r&cond    WK&reg0, [base], #4
   .elseif numbytes == 2
          op&r&cond&h  WK&reg0, [base], #2
   .elseif numbytes == 1
          op&r&cond&b  WK&reg0, [base], #1
   .else
    .error "unsupported size: numbytes"
   .endif
  .endm
  
  .macro pixst_baseupdated cond, numbytes, reg0, reg1, reg2, reg3, base
   .if numbytes == 16
          stm&cond&db base, {WK&reg0,WK&reg1,WK&reg2,WK&reg3}
   .elseif numbytes == 8
          stm&cond&db base, {WK&reg0,WK&reg1}
   .elseif numbytes == 4
          str&cond    WK&reg0, [base, #-4]
   .elseif numbytes == 2
          str&cond&h  WK&reg0, [base, #-2]
   .elseif numbytes == 1
          str&cond&b  WK&reg0, [base, #-1]
   .else
    .error "unsupported size: numbytes"
   .endif
  .endm
  
  .macro pixld cond, numbytes, firstreg, base, unaligned
          pixldst ld, cond, numbytes, %(firstreg+0), %(firstreg+1), %(firstreg+2), %(firstreg+3), base, unaligned
  .endm
  
  .macro pixst cond, numbytes, firstreg, base
   .if (flags) & FLAG_DST_READWRITE
          pixst_baseupdated cond, numbytes, %(firstreg+0), %(firstreg+1), %(firstreg+2), %(firstreg+3), base
   .else
          pixldst st, cond, numbytes, %(firstreg+0), %(firstreg+1), %(firstreg+2), %(firstreg+3), base
   .endif
  .endm
  
  .macro PF a, x:vararg
   .if (PREFETCH_TYPE_CURRENT == PREFETCH_TYPE_STANDARD)
          a x
   .endif
  .endm
  
  
  .macro preload_leading_step1  bpp, ptr, base
  /* If the destination is already 16-byte aligned, then we need to preload
   * between 0 and prefetch_distance (inclusive) cache lines ahead so there
   * are no gaps when the inner loop starts.
   */
   .if bpp > 0
          PF  bic,    ptr, base, #31
    .set OFFSET, 0
    .rept prefetch_distance+1
          PF  pld,    [ptr, #OFFSET]
     .set OFFSET, OFFSET+32
    .endr
   .endif
  .endm
  
  .macro preload_leading_step2  bpp, bpp_shift, ptr, base
  /* However, if the destination is not 16-byte aligned, we may need to
   * preload more cache lines than that. The question we need to ask is:
   * are the bytes corresponding to the leading pixels more than the amount
   * by which the source pointer will be rounded down for preloading, and if
   * so, by how many cache lines? Effectively, we want to calculate
   *     leading_bytes = ((-dst)&15)*src_bpp/dst_bpp
   *     inner_loop_offset = (src+leading_bytes)&31
   *     extra_needed = leading_bytes - inner_loop_offset
   * and test if extra_needed is <= 0, <= 32, or > 32 (where > 32 is only
   * possible when there are 4 src bytes for every 1 dst byte).
   */
   .if bpp > 0
    .ifc base,DST
          /* The test can be simplified further when preloading the destination */
          PF  tst,    base, #16
          PF  beq,    61f
    .else
     .if bpp/dst_w_bpp == 4
          PF  add,    SCRATCH, base, WK0, lsl #bpp_shift-dst_bpp_shift
          PF  and,    SCRATCH, SCRATCH, #31
          PF  rsb,    SCRATCH, SCRATCH, WK0, lsl #bpp_shift-dst_bpp_shift
          PF  sub,    SCRATCH, SCRATCH, #1        /* so now ranges are -16..-1 / 0..31 / 32..63 */
          PF  movs,   SCRATCH, SCRATCH, lsl #32-6 /* so this sets         NC   /  nc   /   Nc   */
          PF  bcs,    61f
          PF  bpl,    60f
          PF  pld,    [ptr, #32*(prefetch_distance+2)]
     .else
          PF  mov,    SCRATCH, base, lsl #32-5
          PF  add,    SCRATCH, SCRATCH, WK0, lsl #32-5+bpp_shift-dst_bpp_shift
          PF  rsbs,   SCRATCH, SCRATCH, WK0, lsl #32-5+bpp_shift-dst_bpp_shift
          PF  bls,    61f
     .endif
    .endif
  60:     PF  pld,    [ptr, #32*(prefetch_distance+1)]
  61:
   .endif
  .endm
  
  #define IS_END_OF_GROUP(INDEX,SIZE) ((SIZE) < 2 || ((INDEX) & ~((INDEX)+1)) & ((SIZE)/2))
  .macro preload_middle   bpp, base, scratch_holds_offset
   .if bpp > 0
          /* prefetch distance = 256/bpp, stm distance = 128/dst_w_bpp */
    .if IS_END_OF_GROUP(SUBBLOCK,256/128*dst_w_bpp/bpp)
     .if scratch_holds_offset
          PF  pld,    [base, SCRATCH]
     .else
          PF  bic,    SCRATCH, base, #31
          PF  pld,    [SCRATCH, #32*prefetch_distance]
     .endif
    .endif
   .endif
  .endm
  
  .macro preload_trailing  bpp, bpp_shift, base
   .if bpp > 0
    .if bpp*pix_per_block > 256
          /* Calculations are more complex if more than one fetch per block */
          PF  and,    WK1, base, #31
          PF  add,    WK1, WK1, WK0, lsl #bpp_shift
          PF  add,    WK1, WK1, #32*(bpp*pix_per_block/256-1)*(prefetch_distance+1)
          PF  bic,    SCRATCH, base, #31
  80:     PF  pld,    [SCRATCH, #32*(prefetch_distance+1)]
          PF  add,    SCRATCH, SCRATCH, #32
          PF  subs,   WK1, WK1, #32
          PF  bhi,    80b
    .else
          /* If exactly one fetch per block, then we need either 0, 1 or 2 extra preloads */
          PF  mov,    SCRATCH, base, lsl #32-5
          PF  adds,   SCRATCH, SCRATCH, X, lsl #32-5+bpp_shift
          PF  adceqs, SCRATCH, SCRATCH, #0
          /* The instruction above has two effects: ensures Z is only
           * set if C was clear (so Z indicates that both shifted quantities
           * were 0), and clears C if Z was set (so C indicates that the sum
           * of the shifted quantities was greater and not equal to 32) */
          PF  beq,    82f
          PF  bic,    SCRATCH, base, #31
          PF  bcc,    81f
          PF  pld,    [SCRATCH, #32*(prefetch_distance+2)]
  81:     PF  pld,    [SCRATCH, #32*(prefetch_distance+1)]
  82:
    .endif
   .endif
  .endm
  
  
  .macro preload_line    narrow_case, bpp, bpp_shift, base
  /* "narrow_case" - just means that the macro was invoked from the "narrow"
   *    code path rather than the "medium" one - because in the narrow case,
   *    the row of pixels is known to output no more than 30 bytes, then
   *    (assuming the source pixels are no wider than the the destination
   *    pixels) they cannot possibly straddle more than 2 32-byte cachelines,
   *    meaning there's no need for a loop.
   * "bpp" - number of bits per pixel in the channel (source, mask or
   *    destination) that's being preloaded, or 0 if this channel is not used
   *    for reading
   * "bpp_shift" - log2 of ("bpp"/8) (except if "bpp"=0 of course)
   * "base" - base address register of channel to preload (SRC, MASK or DST)
   */
   .if bpp > 0
    .if narrow_case && (bpp <= dst_w_bpp)
          /* In these cases, each line for each channel is in either 1 or 2 cache lines */
          PF  bic,    WK0, base, #31
          PF  pld,    [WK0]
          PF  add,    WK1, base, X, LSL #bpp_shift
          PF  sub,    WK1, WK1, #1
          PF  bic,    WK1, WK1, #31
          PF  cmp,    WK1, WK0
          PF  beq,    90f
          PF  pld,    [WK1]
  90:
    .else
          PF  bic,    WK0, base, #31
          PF  pld,    [WK0]
          PF  add,    WK1, base, X, lsl #bpp_shift
          PF  sub,    WK1, WK1, #1
          PF  bic,    WK1, WK1, #31
          PF  cmp,    WK1, WK0
          PF  beq,    92f
  91:     PF  add,    WK0, WK0, #32
          PF  cmp,    WK0, WK1
          PF  pld,    [WK0]
          PF  bne,    91b
  92:
    .endif
   .endif
  .endm
  
  
  .macro conditional_process1_helper  cond, process_head, process_tail, numbytes, firstreg, unaligned_src, unaligned_mask, decrementx
          process_head  cond, numbytes, firstreg, unaligned_src, unaligned_mask, 0
   .if decrementx
          sub&cond X, X, #8*numbytes/dst_w_bpp
   .endif
          process_tail  cond, numbytes, firstreg
   .if !((flags) & FLAG_PROCESS_DOES_STORE)
          pixst   cond, numbytes, firstreg, DST
   .endif
  .endm
  
  .macro conditional_process1  cond, process_head, process_tail, numbytes, firstreg, unaligned_src, unaligned_mask, decrementx
   .if (flags) & FLAG_BRANCH_OVER
    .ifc cond,mi
          bpl     100f
    .endif
    .ifc cond,cs
          bcc     100f
    .endif
    .ifc cond,ne
          beq     100f
    .endif
          conditional_process1_helper  , process_head, process_tail, numbytes, firstreg, unaligned_src, unaligned_mask, decrementx
  100:
   .else
          conditional_process1_helper  cond, process_head, process_tail, numbytes, firstreg, unaligned_src, unaligned_mask, decrementx
   .endif
  .endm
  
  .macro conditional_process2  test, cond1, cond2, process_head, process_tail, numbytes1, numbytes2, firstreg1, firstreg2, unaligned_src, unaligned_mask, decrementx
   .if (flags) & (FLAG_DST_READWRITE | FLAG_BRANCH_OVER | FLAG_PROCESS_CORRUPTS_PSR | FLAG_PROCESS_DOES_STORE)
          /* Can't interleave reads and writes */
          test
          conditional_process1  cond1, process_head, process_tail, numbytes1, firstreg1, unaligned_src, unaligned_mask, decrementx
    .if (flags) & FLAG_PROCESS_CORRUPTS_PSR
          test
    .endif
          conditional_process1  cond2, process_head, process_tail, numbytes2, firstreg2, unaligned_src, unaligned_mask, decrementx
   .else
          /* Can interleave reads and writes for better scheduling */
          test
          process_head  cond1, numbytes1, firstreg1, unaligned_src, unaligned_mask, 0
          process_head  cond2, numbytes2, firstreg2, unaligned_src, unaligned_mask, 0
    .if decrementx
          sub&cond1 X, X, #8*numbytes1/dst_w_bpp
          sub&cond2 X, X, #8*numbytes2/dst_w_bpp
    .endif
          process_tail  cond1, numbytes1, firstreg1
          process_tail  cond2, numbytes2, firstreg2
          pixst   cond1, numbytes1, firstreg1, DST
          pixst   cond2, numbytes2, firstreg2, DST
   .endif
  .endm
  
  
  .macro test_bits_1_0_ptr
   .if (flags) & FLAG_PROCESS_CORRUPTS_WK0
          movs    SCRATCH, X, lsl #32-1  /* C,N = bits 1,0 of DST */
   .else
          movs    SCRATCH, WK0, lsl #32-1  /* C,N = bits 1,0 of DST */
   .endif
  .endm
  
  .macro test_bits_3_2_ptr
   .if (flags) & FLAG_PROCESS_CORRUPTS_WK0
          movs    SCRATCH, X, lsl #32-3  /* C,N = bits 3, 2 of DST */
   .else
          movs    SCRATCH, WK0, lsl #32-3  /* C,N = bits 3, 2 of DST */
   .endif
  .endm
  
  .macro leading_15bytes  process_head, process_tail
          /* On entry, WK0 bits 0-3 = number of bytes until destination is 16-byte aligned */
   .set DECREMENT_X, 1
   .if (flags) & FLAG_PROCESS_CORRUPTS_WK0
    .set DECREMENT_X, 0
          sub     X, X, WK0, lsr #dst_bpp_shift
          str     X, [sp, #LINE_SAVED_REG_COUNT*4]
          mov     X, WK0
   .endif
          /* Use unaligned loads in all cases for simplicity */
   .if dst_w_bpp == 8
          conditional_process2  test_bits_1_0_ptr, mi, cs, process_head, process_tail, 1, 2, 1, 2, 1, 1, DECREMENT_X
   .elseif dst_w_bpp == 16
          test_bits_1_0_ptr
          conditional_process1  cs, process_head, process_tail, 2, 2, 1, 1, DECREMENT_X
   .endif
          conditional_process2  test_bits_3_2_ptr, mi, cs, process_head, process_tail, 4, 8, 1, 2, 1, 1, DECREMENT_X
   .if (flags) & FLAG_PROCESS_CORRUPTS_WK0
          ldr     X, [sp, #LINE_SAVED_REG_COUNT*4]
   .endif
  .endm
  
  .macro test_bits_3_2_pix
          movs    SCRATCH, X, lsl #dst_bpp_shift+32-3
  .endm
  
  .macro test_bits_1_0_pix
   .if dst_w_bpp == 8
          movs    SCRATCH, X, lsl #dst_bpp_shift+32-1
   .else
          movs    SCRATCH, X, lsr #1
   .endif
  .endm
  
  .macro trailing_15bytes  process_head, process_tail, unaligned_src, unaligned_mask
          conditional_process2  test_bits_3_2_pix, cs, mi, process_head, process_tail, 8, 4, 0, 2, unaligned_src, unaligned_mask, 0
   .if dst_w_bpp == 16
          test_bits_1_0_pix
          conditional_process1  cs, process_head, process_tail, 2, 0, unaligned_src, unaligned_mask, 0
   .elseif dst_w_bpp == 8
          conditional_process2  test_bits_1_0_pix, cs, mi, process_head, process_tail, 2, 1, 0, 1, unaligned_src, unaligned_mask, 0
   .endif
  .endm
  
  
  .macro wide_case_inner_loop  process_head, process_tail, unaligned_src, unaligned_mask, dst_alignment
  110:
   .set SUBBLOCK, 0 /* this is a count of STMs; there can be up to 8 STMs per block */
   .rept pix_per_block*dst_w_bpp/128
          process_head  , 16, 0, unaligned_src, unaligned_mask, 1
    .if (src_bpp > 0) && (mask_bpp == 0) && ((flags) & FLAG_PROCESS_PRESERVES_SCRATCH)
          preload_middle  src_bpp, SRC, 1
    .elseif (src_bpp == 0) && (mask_bpp > 0) && ((flags) & FLAG_PROCESS_PRESERVES_SCRATCH)
          preload_middle  mask_bpp, MASK, 1
    .else
          preload_middle  src_bpp, SRC, 0
          preload_middle  mask_bpp, MASK, 0
    .endif
    .if (dst_r_bpp > 0) && ((SUBBLOCK % 2) == 0) && (((flags) & FLAG_NO_PRELOAD_DST) == 0)
          /* Because we know that writes are 16-byte aligned, it's relatively easy to ensure that
           * destination prefetches are 32-byte aligned. It's also the easiest channel to offset
           * preloads for, to achieve staggered prefetches for multiple channels, because there are
           * always two STMs per prefetch, so there is always an opposite STM on which to put the
           * preload. Note, no need to BIC the base register here */
          PF  pld,    [DST, #32*prefetch_distance - dst_alignment]
    .endif
          process_tail  , 16, 0
    .if !((flags) & FLAG_PROCESS_DOES_STORE)
          pixst   , 16, 0, DST
    .endif
    .set SUBBLOCK, SUBBLOCK+1
   .endr
          subs    X, X, #pix_per_block
          bhs     110b
  .endm
  
  .macro wide_case_inner_loop_and_trailing_pixels  process_head, process_tail, process_inner_loop, exit_label, unaligned_src, unaligned_mask
          /* Destination now 16-byte aligned; we have at least one block before we have to stop preloading */
   .if dst_r_bpp > 0
          tst     DST, #16
          bne     111f
          process_inner_loop  process_head, process_tail, unaligned_src, unaligned_mask, 16 + DST_PRELOAD_BIAS
          b       112f
  111:
   .endif
          process_inner_loop  process_head, process_tail, unaligned_src, unaligned_mask, 0 + DST_PRELOAD_BIAS
  112:
          /* Just before the final (prefetch_distance+1) 32-byte blocks, deal with final preloads */
   .if (src_bpp*pix_per_block > 256) || (mask_bpp*pix_per_block > 256) || (dst_r_bpp*pix_per_block > 256)
          PF  and,    WK0, X, #pix_per_block-1
   .endif
          preload_trailing  src_bpp, src_bpp_shift, SRC
          preload_trailing  mask_bpp, mask_bpp_shift, MASK
   .if ((flags) & FLAG_NO_PRELOAD_DST) == 0
          preload_trailing  dst_r_bpp, dst_bpp_shift, DST
   .endif
          add     X, X, #(prefetch_distance+2)*pix_per_block - 128/dst_w_bpp
          /* The remainder of the line is handled identically to the medium case */
          medium_case_inner_loop_and_trailing_pixels  process_head, process_tail,, exit_label, unaligned_src, unaligned_mask
  .endm
  
  .macro medium_case_inner_loop_and_trailing_pixels  process_head, process_tail, unused, exit_label, unaligned_src, unaligned_mask
  120:
          process_head  , 16, 0, unaligned_src, unaligned_mask, 0
          process_tail  , 16, 0
   .if !((flags) & FLAG_PROCESS_DOES_STORE)
          pixst   , 16, 0, DST
   .endif
          subs    X, X, #128/dst_w_bpp
          bhs     120b
          /* Trailing pixels */
          tst     X, #128/dst_w_bpp - 1
          beq     exit_label
          trailing_15bytes  process_head, process_tail, unaligned_src, unaligned_mask
  .endm
  
  .macro narrow_case_inner_loop_and_trailing_pixels  process_head, process_tail, unused, exit_label, unaligned_src, unaligned_mask
          tst     X, #16*8/dst_w_bpp
          conditional_process1  ne, process_head, process_tail, 16, 0, unaligned_src, unaligned_mask, 0
          /* Trailing pixels */
          /* In narrow case, it's relatively unlikely to be aligned, so let's do without a branch here */
          trailing_15bytes  process_head, process_tail, unaligned_src, unaligned_mask
  .endm
  
  .macro switch_on_alignment  action, process_head, process_tail, process_inner_loop, exit_label
   /* Note that if we're reading the destination, it's already guaranteed to be aligned at this point */
   .if mask_bpp == 8 || mask_bpp == 16
          tst     MASK, #3
          bne     141f
   .endif
    .if src_bpp == 8 || src_bpp == 16
          tst     SRC, #3
          bne     140f
    .endif
          action  process_head, process_tail, process_inner_loop, exit_label, 0, 0
    .if src_bpp == 8 || src_bpp == 16
          b       exit_label
  140:
          action  process_head, process_tail, process_inner_loop, exit_label, 1, 0
    .endif
   .if mask_bpp == 8 || mask_bpp == 16
          b       exit_label
  141:
    .if src_bpp == 8 || src_bpp == 16
          tst     SRC, #3
          bne     142f
    .endif
          action  process_head, process_tail, process_inner_loop, exit_label, 0, 1
    .if src_bpp == 8 || src_bpp == 16
          b       exit_label
  142:
          action  process_head, process_tail, process_inner_loop, exit_label, 1, 1
    .endif
   .endif
  .endm
  
  
  .macro end_of_line      restore_x, vars_spilled, loop_label, last_one
   .if SINGLE_SCANLINE
    .ifc "last_one",""
          b       198f
    .endif
   .else
   .if vars_spilled
          /* Sadly, GAS doesn't seem have an equivalent of the DCI directive? */
          /* This is ldmia sp,{} */
          .word   0xE89D0000 | LINE_SAVED_REGS
   .endif
          subs    Y, Y, #1
   .if vars_spilled
    .if (LINE_SAVED_REGS) & (1<<1)
          str     Y, [sp]
    .endif
   .endif
          add     DST, DST, STRIDE_D
   .if src_bpp > 0
          add     SRC, SRC, STRIDE_S
   .endif
   .if mask_bpp > 0
          add     MASK, MASK, STRIDE_M
   .endif
   .if restore_x
          mov     X, ORIG_W
   .endif
          bhs     loop_label
   .ifc "last_one",""
    .if vars_spilled
          b       197f
    .else
          b       198f
    .endif
   .else
    .if (!vars_spilled) && ((flags) & FLAG_SPILL_LINE_VARS)
          b       198f
    .endif
   .endif
   .endif
  .endm
  
  
  .macro generate_composite_function_common fname, \
                                            src_bpp_, \
                                            mask_bpp_, \
                                            dst_w_bpp_, \
                                            flags_, \
                                            prefetch_distance_, \
                                            init, \
                                            newline, \
                                            cleanup, \
                                            process_head, \
                                            process_tail, \
                                            process_inner_loop
  
      pixman_asm_function fname
  
  /*
   * Make some macro arguments globally visible and accessible
   * from other macros
   */
   .set src_bpp, src_bpp_
   .set mask_bpp, mask_bpp_
   .set dst_w_bpp, dst_w_bpp_
   .set flags, flags_
   .set prefetch_distance, prefetch_distance_
  
  /*
   * Select prefetch type for this function.
   */
   .if prefetch_distance == 0
    .set PREFETCH_TYPE_CURRENT, PREFETCH_TYPE_NONE
   .else
    .set PREFETCH_TYPE_CURRENT, PREFETCH_TYPE_STANDARD
   .endif
  
   .if src_bpp == 32
    .set src_bpp_shift, 2
   .elseif src_bpp == 24
    .set src_bpp_shift, 0
   .elseif src_bpp == 16
    .set src_bpp_shift, 1
   .elseif src_bpp == 8
    .set src_bpp_shift, 0
   .elseif src_bpp == 0
    .set src_bpp_shift, -1
   .else
    .error "requested src bpp (src_bpp) is not supported"
   .endif
  
   .if mask_bpp == 32
    .set mask_bpp_shift, 2
   .elseif mask_bpp == 24
    .set mask_bpp_shift, 0
   .elseif mask_bpp == 8
    .set mask_bpp_shift, 0
   .elseif mask_bpp == 0
    .set mask_bpp_shift, -1
   .else
    .error "requested mask bpp (mask_bpp) is not supported"
   .endif
  
   .if dst_w_bpp == 32
    .set dst_bpp_shift, 2
   .elseif dst_w_bpp == 24
    .set dst_bpp_shift, 0
   .elseif dst_w_bpp == 16
    .set dst_bpp_shift, 1
   .elseif dst_w_bpp == 8
    .set dst_bpp_shift, 0
   .else
    .error "requested dst bpp (dst_w_bpp) is not supported"
   .endif
  
   .if (((flags) & FLAG_DST_READWRITE) != 0)
    .set dst_r_bpp, dst_w_bpp
   .else
    .set dst_r_bpp, 0
   .endif
  
   .set pix_per_block, 16*8/dst_w_bpp
   .if src_bpp != 0
    .if 32*8/src_bpp > pix_per_block
     .set pix_per_block, 32*8/src_bpp
    .endif
   .endif
   .if mask_bpp != 0
    .if 32*8/mask_bpp > pix_per_block
     .set pix_per_block, 32*8/mask_bpp
    .endif
   .endif
   .if dst_r_bpp != 0
    .if 32*8/dst_r_bpp > pix_per_block
     .set pix_per_block, 32*8/dst_r_bpp
    .endif
   .endif
  
  /* The standard entry conditions set up by pixman-arm-common.h are:
   * r0 = width (pixels)
   * r1 = height (rows)
   * r2 = pointer to top-left pixel of destination
   * r3 = destination stride (pixels)
   * [sp] = source pixel value, or pointer to top-left pixel of source
   * [sp,#4] = 0 or source stride (pixels)
   * The following arguments are unused for non-mask operations
   * [sp,#8] = mask pixel value, or pointer to top-left pixel of mask
   * [sp,#12] = 0 or mask stride (pixels)
   *
   * or in the single-scanline case:
   * r0 = width (pixels)
   * r1 = pointer to top-left pixel of destination
   * r2 = pointer to top-left pixel of source
   * The following argument is unused for non-mask operations
   * r3 = pointer to top-left pixel of mask
   */
  
  /*
   * Assign symbolic names to registers
   */
      X           .req    r0  /* pixels to go on this line */
   .if SINGLE_SCANLINE
      DST         .req    r1  /* destination pixel pointer */
      SRC         .req    r2  /* source pixel pointer */
      MASK        .req    r3  /* mask pixel pointer (if applicable) */
      Y           .req    r4  /* temporary */
      STRIDE_D    .req    r5  /* temporary */
      STRIDE_S    .req    r6  /* temporary */
      STRIDE_M    .req    r7  /* temporary */
   .else
      Y           .req    r1  /* lines to go */
      DST         .req    r2  /* destination pixel pointer */
      STRIDE_D    .req    r3  /* destination stride (bytes, minus width) */
      SRC         .req    r4  /* source pixel pointer */
      STRIDE_S    .req    r5  /* source stride (bytes, minus width) */
      MASK        .req    r6  /* mask pixel pointer (if applicable) */
      STRIDE_M    .req    r7  /* mask stride (bytes, minus width) */
   .endif
      WK0         .req    r8  /* pixel data registers */
      WK1         .req    r9
      WK2         .req    r10
      WK3         .req    r11
      SCRATCH     .req    r12
      ORIG_W      .req    r14 /* width (pixels) */
  
          push    {r4-r11, lr}        /* save all registers */
  
   .if !SINGLE_SCANLINE
          subs    Y, Y, #1
          blo     199f
   .endif
  
  #ifdef DEBUG_PARAMS
          sub     sp, sp, #9*4
  #endif
  
   .if !SINGLE_SCANLINE
   .if src_bpp > 0
          ldr     SRC, [sp, #ARGS_STACK_OFFSET]
          ldr     STRIDE_S, [sp, #ARGS_STACK_OFFSET+4]
   .endif
   .if mask_bpp > 0
          ldr     MASK, [sp, #ARGS_STACK_OFFSET+8]
          ldr     STRIDE_M, [sp, #ARGS_STACK_OFFSET+12]
   .endif
   .endif
          
  #ifdef DEBUG_PARAMS
          add     Y, Y, #1
          stmia   sp, {r0-r7,pc}
          sub     Y, Y, #1
  #endif
  
          init
  
   .if (flags) & FLAG_PROCESS_CORRUPTS_WK0
          /* Reserve a word in which to store X during leading pixels */
          sub     sp, sp, #4
    .set ARGS_STACK_OFFSET, ARGS_STACK_OFFSET+4
    .set LOCALS_STACK_OFFSET, LOCALS_STACK_OFFSET+4
   .endif
          
   .if !SINGLE_SCANLINE
          lsl     STRIDE_D, #dst_bpp_shift /* stride in bytes */
          sub     STRIDE_D, STRIDE_D, X, lsl #dst_bpp_shift
   .if src_bpp > 0
          lsl     STRIDE_S, #src_bpp_shift
          sub     STRIDE_S, STRIDE_S, X, lsl #src_bpp_shift
   .endif
   .if mask_bpp > 0
          lsl     STRIDE_M, #mask_bpp_shift
          sub     STRIDE_M, STRIDE_M, X, lsl #mask_bpp_shift
   .endif
   .endif
   
          /* Are we not even wide enough to have one 16-byte aligned 16-byte block write? */
          cmp     X, #2*16*8/dst_w_bpp - 1
          blo     170f
   .if src_bpp || mask_bpp || dst_r_bpp /* Wide and medium cases are the same for fill */
          /* To preload ahead on the current line, we need at least (prefetch_distance+2) 32-byte blocks on all prefetch channels */
          cmp     X, #(prefetch_distance+3)*pix_per_block - 1
          blo     160f
  
          /* Wide case */
          /* Adjust X so that the decrement instruction can also test for
           * inner loop termination. We want it to stop when there are
           * (prefetch_distance+1) complete blocks to go. */
          sub     X, X, #(prefetch_distance+2)*pix_per_block
    .if !SINGLE_SCANLINE
          mov     ORIG_W, X
    .if (flags) & FLAG_SPILL_LINE_VARS_WIDE
          /* This is stmdb sp!,{} */
          .word   0xE92D0000 | LINE_SAVED_REGS
     .set ARGS_STACK_OFFSET, ARGS_STACK_OFFSET + LINE_SAVED_REG_COUNT*4
     .set LOCALS_STACK_OFFSET, LOCALS_STACK_OFFSET + LINE_SAVED_REG_COUNT*4
    .endif
    .endif
  151:    /* New line */
          newline
          preload_leading_step1  src_bpp, WK1, SRC
          preload_leading_step1  mask_bpp, WK2, MASK
    .if ((flags) & FLAG_NO_PRELOAD_DST) == 0
          preload_leading_step1  dst_r_bpp, WK3, DST
    .endif
          
          ands    WK0, DST, #15
          beq     154f
          rsb     WK0, WK0, #16 /* number of leading bytes until destination aligned */
  
          preload_leading_step2  src_bpp, src_bpp_shift, WK1, SRC
          preload_leading_step2  mask_bpp, mask_bpp_shift, WK2, MASK
    .if ((flags) & FLAG_NO_PRELOAD_DST) == 0
          preload_leading_step2  dst_r_bpp, dst_bpp_shift, WK3, DST
    .endif
  
          leading_15bytes  process_head, process_tail
          
  154:    /* Destination now 16-byte aligned; we have at least one prefetch on each channel as well as at least one 16-byte output block */
    .if (src_bpp > 0) && (mask_bpp == 0) && ((flags) & FLAG_PROCESS_PRESERVES_SCRATCH)
          and     SCRATCH, SRC, #31
          rsb     SCRATCH, SCRATCH, #32*prefetch_distance
    .elseif (src_bpp == 0) && (mask_bpp > 0) && ((flags) & FLAG_PROCESS_PRESERVES_SCRATCH)
          and     SCRATCH, MASK, #31
          rsb     SCRATCH, SCRATCH, #32*prefetch_distance
    .endif
    .ifc "process_inner_loop",""
          switch_on_alignment  wide_case_inner_loop_and_trailing_pixels, process_head, process_tail, wide_case_inner_loop, 157f
    .else
          switch_on_alignment  wide_case_inner_loop_and_trailing_pixels, process_head, process_tail, process_inner_loop, 157f
    .endif
  
  157:    /* Check for another line */
          end_of_line 1, %((flags) & FLAG_SPILL_LINE_VARS_WIDE), 151b
    .if (!SINGLE_SCANLINE) && ((flags) & FLAG_SPILL_LINE_VARS_WIDE)
     .set ARGS_STACK_OFFSET, ARGS_STACK_OFFSET - LINE_SAVED_REG_COUNT*4
     .set LOCALS_STACK_OFFSET, LOCALS_STACK_OFFSET - LINE_SAVED_REG_COUNT*4
    .endif
   .endif
  
   .ltorg
  
  160:    /* Medium case */
   .if !SINGLE_SCANLINE
          mov     ORIG_W, X
   .if (flags) & FLAG_SPILL_LINE_VARS_NON_WIDE
          /* This is stmdb sp!,{} */
          .word   0xE92D0000 | LINE_SAVED_REGS
    .set ARGS_STACK_OFFSET, ARGS_STACK_OFFSET + LINE_SAVED_REG_COUNT*4
    .set LOCALS_STACK_OFFSET, LOCALS_STACK_OFFSET + LINE_SAVED_REG_COUNT*4
   .endif
   .endif
  161:    /* New line */
          newline
          preload_line 0, src_bpp, src_bpp_shift, SRC  /* in: X, corrupts: WK0-WK1 */
          preload_line 0, mask_bpp, mask_bpp_shift, MASK
   .if ((flags) & FLAG_NO_PRELOAD_DST) == 0
          preload_line 0, dst_r_bpp, dst_bpp_shift, DST
   .endif
          
          sub     X, X, #128/dst_w_bpp     /* simplifies inner loop termination */
          ands    WK0, DST, #15
          beq     164f
          rsb     WK0, WK0, #16 /* number of leading bytes until destination aligned */
          
          leading_15bytes  process_head, process_tail
          
  164:    /* Destination now 16-byte aligned; we have at least one 16-byte output block */
          switch_on_alignment  medium_case_inner_loop_and_trailing_pixels, process_head, process_tail,, 167f
          
  167:    /* Check for another line */
          end_of_line 1, %((flags) & FLAG_SPILL_LINE_VARS_NON_WIDE), 161b
  
   .ltorg
  
  170:    /* Narrow case, less than 31 bytes, so no guarantee of at least one 16-byte block */
   .if !SINGLE_SCANLINE
   .if dst_w_bpp < 32
          mov     ORIG_W, X
   .endif
   .if (flags) & FLAG_SPILL_LINE_VARS_NON_WIDE
          /* This is stmdb sp!,{} */
          .word   0xE92D0000 | LINE_SAVED_REGS
   .endif
   .endif
  171:    /* New line */
          newline
          preload_line 1, src_bpp, src_bpp_shift, SRC  /* in: X, corrupts: WK0-WK1 */
          preload_line 1, mask_bpp, mask_bpp_shift, MASK
   .if ((flags) & FLAG_NO_PRELOAD_DST) == 0
          preload_line 1, dst_r_bpp, dst_bpp_shift, DST
   .endif
          
   .if dst_w_bpp == 8
          tst     DST, #3
          beq     174f
  172:    subs    X, X, #1
          blo     177f
          process_head  , 1, 0, 1, 1, 0
          process_tail  , 1, 0
    .if !((flags) & FLAG_PROCESS_DOES_STORE)
          pixst   , 1, 0, DST
    .endif
          tst     DST, #3
          bne     172b
   .elseif dst_w_bpp == 16
          tst     DST, #2
          beq     174f
          subs    X, X, #1
          blo     177f
          process_head  , 2, 0, 1, 1, 0
          process_tail  , 2, 0
    .if !((flags) & FLAG_PROCESS_DOES_STORE)
          pixst   , 2, 0, DST
    .endif
   .endif
  
  174:    /* Destination now 4-byte aligned; we have 0 or more output bytes to go */
          switch_on_alignment  narrow_case_inner_loop_and_trailing_pixels, process_head, process_tail,, 177f
  
  177:    /* Check for another line */
          end_of_line %(dst_w_bpp < 32), %((flags) & FLAG_SPILL_LINE_VARS_NON_WIDE), 171b, last_one
   .if (!SINGLE_SCANLINE) && ((flags) & FLAG_SPILL_LINE_VARS_NON_WIDE)
    .set ARGS_STACK_OFFSET, ARGS_STACK_OFFSET - LINE_SAVED_REG_COUNT*4
    .set LOCALS_STACK_OFFSET, LOCALS_STACK_OFFSET - LINE_SAVED_REG_COUNT*4
   .endif
  
  197:
   .if (!SINGLE_SCANLINE) && ((flags) & FLAG_SPILL_LINE_VARS)
          add     sp, sp, #LINE_SAVED_REG_COUNT*4
   .endif
  198:
   .if (flags) & FLAG_PROCESS_CORRUPTS_WK0
    .set ARGS_STACK_OFFSET, ARGS_STACK_OFFSET-4
    .set LOCALS_STACK_OFFSET, LOCALS_STACK_OFFSET-4
          add     sp, sp, #4
   .endif
  
          cleanup
  
  #ifdef DEBUG_PARAMS
          add     sp, sp, #9*4 /* junk the debug copy of arguments */
  #endif
  199:
          pop     {r4-r11, pc}  /* exit */
  
   .ltorg
  
      .unreq  X
      .unreq  Y
      .unreq  DST
      .unreq  STRIDE_D
      .unreq  SRC
      .unreq  STRIDE_S
      .unreq  MASK
      .unreq  STRIDE_M
      .unreq  WK0
      .unreq  WK1
      .unreq  WK2
      .unreq  WK3
      .unreq  SCRATCH
      .unreq  ORIG_W
      .endfunc
  .endm
  
  .macro generate_composite_function fname, \
                                     src_bpp_, \
                                     mask_bpp_, \
                                     dst_w_bpp_, \
                                     flags_, \
                                     prefetch_distance_, \
                                     init, \
                                     newline, \
                                     cleanup, \
                                     process_head, \
                                     process_tail, \
                                     process_inner_loop
   .set SINGLE_SCANLINE, 0
  generate_composite_function_common \
      fname, src_bpp_, mask_bpp_, dst_w_bpp_, flags_, prefetch_distance_, \
      init, newline, cleanup, process_head, process_tail, process_inner_loop
  .endm
  
  .macro generate_composite_function_single_scanline fname, \
                                                     src_bpp_, \
                                                     mask_bpp_, \
                                                     dst_w_bpp_, \
                                                     flags_, \
                                                     prefetch_distance_, \
                                                     init, \
                                                     newline, \
                                                     cleanup, \
                                                     process_head, \
                                                     process_tail, \
                                                     process_inner_loop
   .set SINGLE_SCANLINE, 1
  generate_composite_function_common \
      fname, src_bpp_, mask_bpp_, dst_w_bpp_, flags_, prefetch_distance_, \
      init, newline, cleanup, process_head, process_tail, process_inner_loop
  .endm
  
  .macro line_saved_regs  x:vararg
   .set LINE_SAVED_REGS, 0
   .set LINE_SAVED_REG_COUNT, 0
   .irp SAVED_REG,x
    .ifc "SAVED_REG","Y"
     .set LINE_SAVED_REGS, LINE_SAVED_REGS | (1<<1)
     .set LINE_SAVED_REG_COUNT, LINE_SAVED_REG_COUNT + 1
    .endif
    .ifc "SAVED_REG","STRIDE_D"
     .set LINE_SAVED_REGS, LINE_SAVED_REGS | (1<<3)
     .set LINE_SAVED_REG_COUNT, LINE_SAVED_REG_COUNT + 1
    .endif
    .ifc "SAVED_REG","STRIDE_S"
     .set LINE_SAVED_REGS, LINE_SAVED_REGS | (1<<5)
     .set LINE_SAVED_REG_COUNT, LINE_SAVED_REG_COUNT + 1
    .endif
    .ifc "SAVED_REG","STRIDE_M"
     .set LINE_SAVED_REGS, LINE_SAVED_REGS | (1<<7)
     .set LINE_SAVED_REG_COUNT, LINE_SAVED_REG_COUNT + 1
    .endif
    .ifc "SAVED_REG","ORIG_W"
     .set LINE_SAVED_REGS, LINE_SAVED_REGS | (1<<14)
     .set LINE_SAVED_REG_COUNT, LINE_SAVED_REG_COUNT + 1
    .endif
   .endr
   .if SINGLE_SCANLINE
    .set LINE_SAVED_REG_COUNT, 0
   .endif
  .endm
  
  .macro nop_macro x:vararg
  .endm
  

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