Merge branch 'pr2'

2022-06-14 15:51:45 -05:00 · 2022-06-14 15:51:45 -05:00 · 2fc42d2973
commit 2fc42d2973
parent 076d7a3b8c 550bec6117
7 changed files with 56 additions and 24 deletions
--- a/pixie.nimble
+++ b/pixie.nimble
@ -8,7 +8,7 @@ srcDir = "src"
 requires "nim >= 1.4.8"
 requires "vmath >= 1.1.4"
 requires "chroma >= 0.2.5"
-requires "zippy >= 0.9.11"
+requires "zippy >= 0.10.0"
 requires "flatty >= 0.3.4"
 requires "nimsimd >= 1.0.0"
 requires "bumpy >= 1.1.1"
--- a/src/pixie.nim
+++ b/src/pixie.nim
@ -40,7 +40,7 @@ proc decodeImageDimensions*(
 proc decodeImage*(data: string): Image {.raises: [PixieError].} =
  ## Loads an image from memory.
  if data.len > 8 and data.readUint64(0) == cast[uint64](pngSignature):
-    newImage(decodePng(data))
+    decodePng(data).convertToImage()
  elif data.len > 2 and data.readUint16(0) == cast[uint16](jpegStartOfImage):
    decodeJpeg(data)
  elif data.len > 2 and data.readStr(0, 2) == bmpSignature:
@ -51,7 +51,7 @@ proc decodeImage*(data: string): Image {.raises: [PixieError].} =
  elif data.len > 6 and data.readStr(0, 6) in gifSignatures:
    decodeGif(data)
  elif data.len > (14+8) and data.readStr(0, 4) == qoiSignature:
-    newImage(decodeQoi(data))
+    decodeQoi(data).convertToImage()
  elif data.len > 9 and data.readStr(0, 2) in ppmSignatures:
    decodePpm(data)
  else:
@ -60,7 +60,7 @@ proc decodeImage*(data: string): Image {.raises: [PixieError].} =
 proc decodeMask*(data: string): Mask {.raises: [PixieError].} =
  ## Loads a mask from memory.
  if data.len > 8 and data.readUint64(0) == cast[uint64](pngSignature):
-    newMask(newImage(decodePng(data)))
+    newMask(decodePng(data).convertToImage())
  else:
    raise newException(PixieError, "Unsupported mask file format")

--- a/src/pixie/fileformats/png.nim
+++ b/src/pixie/fileformats/png.nim
@ -21,8 +21,8 @@ type
 template failInvalid() =
  raise newException(PixieError, "Invalid PNG buffer, unable to load")

-# template failCRC() =
-#   raise newException(PixieError, "CRC check failed")
+template failCRC() =
+  raise newException(PixieError, "CRC check failed")

 when defined(release):
  {.push checks: off.}
@ -338,10 +338,24 @@ proc decodeImageData(
    discard # Not possible, parseHeader validates

 proc newImage*(png: Png): Image {.raises: [PixieError].} =
+  ## Creates a new Image from the PNG.
  result = newImage(png.width, png.height)
  copyMem(result.data[0].addr, png.data[0].addr, png.data.len * 4)
  result.data.toPremultipliedAlpha()

+proc convertToImage*(png: Png): Image {.raises: [].} =
+  ## Converts a PNG into an Image by moving the data. This is faster but can
+  ## only be done once.
+  type Movable = ref object
+    width, height, channels: int
+    data: seq[ColorRGBX]
+
+  result = Image()
+  result.width = png.width
+  result.height = png.height
+  result.data = move cast[Movable](png).data
+  result.data.toPremultipliedAlpha()
+
 proc decodePngDimensions*(
  data: pointer, len: int
 ): ImageDimensions {.raises: [PixieError].} =
@ -400,8 +414,9 @@ proc decodePng*(data: pointer, len: int): Png {.raises: [PixieError].} =
  prevChunkType = "IHDR"
  inc(pos, 13)

-  # if crc32(data[pos - 17 ..< pos]) != read32be(data, pos):
-  #   failCRC()
+  let headerCrc = crc32(data[pos - 17].addr, 17)
+  if headerCrc != data.readUint32(pos).swap():
+    failCRC()
  inc(pos, 4) # CRC

  while true:
@ -462,8 +477,9 @@ proc decodePng*(data: pointer, len: int): Png {.raises: [PixieError].} =

    inc(pos, chunkLen)

-    # if crc32(data[pos - chunkLen - 4 ..< pos]) != read32be(data, pos):
-    #   failCRC()
+    let chunkCrc = crc32(data[pos - chunkLen - 4].addr, chunkLen + 4)
+    if chunkCrc != data.readUint32(pos).swap():
+      failCRC()
    inc(pos, 4) # CRC

    prevChunkType = chunkType
@ -523,7 +539,7 @@ proc encodePng*(
  result.add(0.char)
  result.add(0.char)
  result.add(0.char)
-  result.addUint32(crc32(result[result.len - 17 ..< result.len]).swap())
+  result.addUint32(crc32(result[result.len - 17].addr, 17).swap())

  # Add IDAT
  # Add room for 1 byte before each row for the filter type.
@ -556,14 +572,15 @@ proc encodePng*(
  result.addUint32(compressed.len.uint32.swap())
  result.add("IDAT")
  result.add(compressed)
-  result.addUint32(
-    crc32(result[result.len - compressed.len - 4 ..< result.len]).swap()
-  )
+  result.addUint32(crc32(
+    result[result.len - compressed.len - 4].addr,
+    compressed.len + 4
+  ).swap())

  # Add IEND
  result.addUint32(0)
  result.add("IEND")
-  result.addUint32(crc32(result[result.len - 4 ..< result.len]).swap())
+  result.addUint32(crc32(result[result.len - 4].addr, 4).swap())

 proc encodePng*(png: Png): string {.raises: [PixieError].} =
  encodePng(png.width, png.height, 4, png.data[0].addr, png.data.len * 4)
--- a/src/pixie/fileformats/qoi.nim
+++ b/src/pixie/fileformats/qoi.nim
@ -30,11 +30,25 @@ proc hash(p: ColorRGBA): int =
  (p.r.int * 3 + p.g.int * 5 + p.b.int * 7 + p.a.int * 11) mod indexLen

 proc newImage*(qoi: Qoi): Image =
-  ## Converts raw QOI data to `Image`.
+  ## Creates a new Image from the QOI.
  result = newImage(qoi.width, qoi.height)
  copyMem(result.data[0].addr, qoi.data[0].addr, qoi.data.len * 4)
  result.data.toPremultipliedAlpha()

+proc convertToImage*(qoi: Qoi): Image {.raises: [].} =
+  ## Converts a QOI into an Image by moving the data. This is faster but can
+  ## only be done once.
+  type Movable = ref object
+    width, height, channels: int
+    colorspace: Colorspace
+    data: seq[ColorRGBX]
+
+  result = Image()
+  result.width = qoi.width
+  result.height = qoi.height
+  result.data = move cast[Movable](qoi).data
+  result.data.toPremultipliedAlpha()
+
 proc decodeQoi*(data: string): Qoi {.raises: [PixieError].} =
  ## Decompress QOI file format data.
  if data.len <= 14 or data[0 .. 3] != qoiSignature:
--- a/src/pixie/masks.nim
+++ b/src/pixie/masks.nim
@ -254,7 +254,8 @@ proc spread*(mask: Mask, spread: float32) {.raises: [PixieError].} =
  let spread = round(spread).int
  if spread == 0:
    return
-  elif spread > 0:
+
+  if spread > 0:

    # Spread in the X direction. Store with dimensions swapped for reading later.
    let spreadX = newMask(mask.height, mask.width)
--- a/src/pixie/paths.nim
+++ b/src/pixie/paths.nim
@ -1320,9 +1320,9 @@ proc clearUnsafe(target: Image | Mask, startX, startY, toX, toY: int) =
    start = target.dataIndex(startX, startY)
    len = target.dataIndex(toX, toY) - start
  when type(target) is Image:
-    target.data.fillUnsafe(rgbx(0, 0, 0, 0), start, len)
+    fillUnsafe(target.data, rgbx(0, 0, 0, 0), start, len)
  else: # target is Mask
-    target.data.fillUnsafe(0, start, len)
+    fillUnsafe(target.data, 0, start, len)

 proc fillCoverage(
  image: Image,
--- a/tests/benchmark_png.nim
+++ b/tests/benchmark_png.nim
@ -13,12 +13,12 @@ block:
  timeIt "pixie decode":
    discard decodePng(data)

+  timeIt "pixie decode + alpha":
+    discard decodePng(data).convertToImage()
+
  timeIt "pixie encode":
    discard encodePng(decodedPng)

-  timeIt "pixie decode + alpha":
-    discard newImage(decodePng(data))
-
  timeIt "pixie encode + alpha":
    discard encodePng(decodedImage)

@ -55,9 +55,9 @@ block:

 block:
  timeIt "cairo decode":
-    discard imageSurfaceCreateFromPng(filePath)
+    discard imageSurfaceCreateFromPng(filePath.cstring)

-  let decoded = imageSurfaceCreateFromPng(filePath)
+  let decoded = imageSurfaceCreateFromPng(filePath.cstring)
  timeIt "cairo encode":
    var write: WriteFunc =
      proc(closure: pointer, data: cstring, len: int32): Status {.cdecl.} =