file import/export

This commit is contained in:
Mutah 2021-05-14 09:11:35 +02:00
parent 95c1e6d9c6
commit fbea9488f0
5 changed files with 126 additions and 58 deletions

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@ -12,16 +12,18 @@ Color values are specified using triplets of float values, like (128.5, 34.234,
python-FloatImg requires a shared object file (.so) that is not yet officialy available from FloatImg.
The file `floatimg/settings.py` contains the path to the .so file.
The file `floatimg/settings.py` contains the path to the .so file and the encoding of path characters.
## Usage
The FloatImg class encapsulate core and file functionnalities of FloatImg library. Import if from the main module:
```python
import floatimg
```
The FloatImg class encapsulate core and file functionnalities of FloatImg library. Instances are created with functions from the module.
Colors are tuple of three elements `(r, g, b)`.
### Image creation
`FloatImg` has two class methods to create an image.
@ -47,60 +49,54 @@ new_img = img.clone()
new_img = img.clone(True)
```
### Image manipulation
#### Clear image
Reset all pixels to zero.
```python
img.clear()
```
#### Copy pixels to another image
```python
img.copy_data(another_img)
```
#### Set pixel value
```python
img.put(x, y, (r, g, b))
```
#### Get pixel value
### Basic pixel manipulation
```python
# Get pixel value
color = (r, g, b) = img.get(x, y)
# Set pixel value
img.put(x, y, (r, g, b))
# Reset all pixels to zero.
img.clear()
# Copy pixels to another image of the same format
img.copy_data(another_img)
```
### File manipulation
#### Dump image to file
#### Raw dump files
```python
img.dump("/tmp/image_dump")
# Dump image to file
img.dump(path)
# Restore image data from a dump file
img.load(path)
# Create a new image from a dump file
img = floatimg.create_from_dump(path)
# Get dump metadata (TODO create a FileInfo named tuple)
witdh, height, img_type = floatimg.fileinfos(path)
```
#### Restore image data from a dump file
#### External formats
```python
img.load("/tmp/image_dump")
# export supports the following extentions : .fimg, .png, .tiff, .pnm, .fits
# save as png
img.export("test.png")
# create an image instance from png file
img = floatimg.create_from_png("test.png")
# load pixel data from png file in an existing instance. size and type have to be compatible
img.load_png("test.png")
```
#### Create a new image from a dump file
```python
img = floatimg.create_from_dump("/tmp/image_dump")
```
#### Get dump metadata
TODO create a FileInfo named tuple.
```python
witdh, height, img_type = floatimg.fileinfos("/tmp/image_dump")
```
## Operators

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@ -8,6 +8,7 @@ from floatimg.image import (
create,
create_rgb,
create_from_dump,
create_from_png,
fileinfos,
)

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@ -1,6 +1,6 @@
import ctypes as ct
from floatimg.settings import LIB
from floatimg.settings import LIB, PATH_ENCODING
############################################################################################################
# type constants
@ -163,6 +163,19 @@ c_fimg_maximum.argtypes = (
)
c_fimg_maximum.restype = ct.c_int
# Files i/o
c_fimg_export_picture = LIB.fimg_export_picture
c_fimg_export_picture.argtypes = (ct.POINTER(C_FloatImg), ct.c_char_p)
c_fimg_export_picture.restype = ct.c_int
c_fimg_create_from_png = LIB.fimg_create_from_png
c_fimg_create_from_png.argtypes = (ct.c_char_p, ct.POINTER(C_FloatImg))
c_fimg_create_from_png.restype = ct.c_int
c_fimg_load_from_png = LIB.fimg_load_from_png
c_fimg_load_from_png.argtypes = (ct.c_char_p, ct.POINTER(C_FloatImg))
c_fimg_load_from_png.restype = ct.c_int
############################################################################################################
class FloatImg:
@ -175,7 +188,7 @@ class FloatImg:
"""
# proxy attributes to the C_FloatImg structure
# TODO: now more about them
# TODO: now more about them ;)
magic = property(lambda self: self.c_img.magic)
fval = property(lambda self: self.c_img.fval)
count = property(lambda self: self.c_img.count)
@ -247,22 +260,32 @@ class FloatImg:
assert c_fimg_add_rgb(self.c_img_p, x, y, *color) == 0
#######################################################################################################
def dump(self, fname):
def dump(self, path):
"""save data to a dump file"""
# TODO use system encoding instead of utf-8
assert (
c_fimg_dump_to_file(
self.c_img_p, ct.c_char_p(bytes(fname, encoding="utf8")), 0
self.c_img_p, ct.c_char_p(bytes(path, encoding=PATH_ENCODING)), 0
)
== 0
)
#######################################################################################################
def load(self, fname):
def load(self, path):
"""load data from a dump. size and type have to be compatible"""
assert (
c_fimg_load_from_dump(
ct.c_char_p(bytes(fname, encoding="utf8")), self.c_img_p
ct.c_char_p(bytes(path, encoding=PATH_ENCODING)), self.c_img_p
)
== 0
)
#######################################################################################################
def load_png(self, path):
"""load data from a png file. size and type have to be compatible"""
assert (
c_fimg_load_from_png(
ct.c_char_p(bytes(path, encoding=PATH_ENCODING)), self.c_img_p
)
== 0
)
@ -292,7 +315,7 @@ class FloatImg:
def min(self, img):
"""return a new image with minimum pixel values per channel between current and parameter"""
res = self.clone(False)
# C code invert comparison
# C code inverts comparison
assert c_fimg_maximum(self.c_img_p, img.c_img_p, res.c_img_p) == 0
return res
@ -300,12 +323,19 @@ class FloatImg:
def max(self, img):
"""return a new image with maximum pixel values per channel between current and parameter"""
res = self.clone(False)
# C code invert comparison
# C code inverts comparison
assert c_fimg_minimum(self.c_img_p, img.c_img_p, res.c_img_p) == 0
return res
# TODO
# export(fname, flags) : depending file extension, save to the correct format
#######################################################################################################
def export(self, path):
"""export image to path. allowed extension: .fimg, .png, .tiff, .pnm, .fits"""
assert (
c_fimg_export_picture(
self.c_img_p, ct.c_char_p(bytes(path, encoding=PATH_ENCODING)), 0
)
== 0
)
###########################################################################################################
@ -313,7 +343,9 @@ def fileinfos(fname):
"""return witdh, height, img_type triplet read from a dump file"""
datas = (ct.c_int * 3)()
assert (
c_fimg_fileinfos(ct.c_char_p(bytes(fname, encoding="utf8")), ct.pointer(datas))
c_fimg_fileinfos(
ct.c_char_p(bytes(fname, encoding=PATH_ENCODING)), ct.pointer(datas)
)
== 0
)
return datas[:3]
@ -335,14 +367,25 @@ def create_rgb(witdh, height):
###########################################################################################################
def create_from_dump(fname):
"""Create a new instance from a dump file"""
witdh, height, img_type = fileinfos(fname)
def create_from_dump(path):
"""Create a FloatImg instance from a dump file"""
witdh, height, img_type = fileinfos(path)
img = create(witdh, height, img_type)
img.load(fname)
img.load(path)
return img
###########################################################################################################
def create_from_png(path):
"""Create a FloatImg instance from a png file"""
img = C_FloatImg()
assert (
c_fimg_create_from_png(ct.c_char_p(bytes(path, encoding=PATH_ENCODING)), img)
== 0
)
return FloatImg(img)
###########################################################################################################
def type_is_valid(type_id):
"""return True if type_id is a valid one"""

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@ -1,5 +1,5 @@
import ctypes
# LIB = ctypes.cdll.LoadLibrary("../FloatImg/libfloatimg.so")
PATH_ENCODING = "utf8"
LIB = ctypes.cdll.LoadLibrary("../FloatImg4PythonBinding/build/lib/libfloatimg.so")

28
tests/files.py Normal file
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@ -0,0 +1,28 @@
import os
import floatimg
def create_img():
width, height = 5, 5
img = floatimg.create_rgb(width, height)
img.fill((255.0, 0.0, 0.0))
return img
def test_png():
width, height = 5, 5
path = "test.png"
img = create_img()
img.export(path)
assert os.path.getsize(path) == 74
img2 = floatimg.create_from_png(path)
for y in range(height):
for x in range(width):
assert img.get(x, y) == img2.get(x, y)
img3 = img2.clone(False)
img3.load_png(path)
for y in range(height):
for x in range(width):
assert img.get(x, y) == img3.get(x, y)