[imager.git] / flip.im

#include "imager.h"

static void flip_h(i_img *im);
static void flip_v(i_img *im);
static void flip_hv(i_img *im);

#define XAXIS 0
#define YAXIS 1
#define XYAXIS 2

/*
=item i_flipxy(im, axis)

Flips the image inplace around the axis specified.
Returns 0 if parameters are invalid.

   im   - Image pointer
   axis - 0 = x, 1 = y, 2 = both

=cut
*/

undef_int
i_flipxy(i_img *im, int direction) {
  i_clear_error();

  mm_log((1, "i_flipxy(im %p, direction %d)\n", im, direction ));

  if (!im)
    return 0;

  switch (direction) {
  case XAXIS: /* Horizontal flip */
    flip_h(im);
    break;

  case YAXIS: /* Vertical flip */
    flip_v(im);
    break;

  case XYAXIS: /* Horizontal and Vertical flip */
    flip_hv(im);
    break;

  default:
    mm_log((1, "i_flipxy: direction is invalid\n" ));
    i_push_errorf(0, "direction %d invalid", direction);
    return 0;

  }
  return 1;
}

static void
flip_row_pal(i_palidx *row, i_img_dim width) {
  i_palidx tmp;
  i_palidx *leftp = row;
  i_palidx *rightp = row + width - 1;
  
  while (leftp < rightp) {
    tmp = *leftp;
    *leftp = *rightp;
    *rightp = tmp;
    ++leftp;
    --rightp;
  }
}

#code

static void
IM_SUFFIX(flip_row)(IM_COLOR *row, i_img_dim width) {
  IM_COLOR tmp;
  IM_COLOR *leftp = row;
  IM_COLOR *rightp = row + width - 1;
  
  while (leftp < rightp) {
    tmp = *leftp;
    *leftp = *rightp;
    *rightp = tmp;
    ++leftp;
    --rightp;
  }
}

#/code

static void
flip_h(i_img *im) {
  int y;
  if (im->type == i_palette_type) {
    i_palidx *line = mymalloc(im->xsize * sizeof(i_palidx));
    for (y = 0; y < im->ysize; ++y) {
      i_gpal(im, 0, im->xsize, y, line);
      flip_row_pal(line, im->xsize);
      i_ppal(im, 0, im->xsize, y, line);
    }
    myfree(line);
  }
  else {
#code im->bits == i_8_bits
    IM_COLOR *line = mymalloc(im->xsize * sizeof(IM_COLOR));
    for (y = 0; y < im->ysize; ++y) {
      IM_GLIN(im, 0, im->xsize, y, line);
      IM_SUFFIX(flip_row)(line, im->xsize);
      IM_PLIN(im, 0, im->xsize, y, line);
    }
    myfree(line);
#/code
  }
}

static void
flip_v(i_img *im) {
  int topy = 0;
  int boty = im->ysize - 1;
  if (im->type == i_palette_type) {
    i_palidx *top_line = mymalloc(im->xsize * sizeof(i_palidx));
    i_palidx *bot_line = mymalloc(im->xsize * sizeof(i_palidx));
    while (topy < boty) {
      i_gpal(im, 0, im->xsize, topy, top_line);
      i_gpal(im, 0, im->xsize, boty, bot_line);
      i_ppal(im, 0, im->xsize, topy, bot_line);
      i_ppal(im, 0, im->xsize, boty, top_line);
      ++topy;
      --boty;
    }
    myfree(bot_line);
    myfree(top_line);
  }
  else {
#code im->bits == i_8_bits
    IM_COLOR *top_line = mymalloc(im->xsize * sizeof(IM_COLOR));
    IM_COLOR *bot_line = mymalloc(im->xsize * sizeof(IM_COLOR));
    while (topy < boty) {
      IM_GLIN(im, 0, im->xsize, topy, top_line);
      IM_GLIN(im, 0, im->xsize, boty, bot_line);
      IM_PLIN(im, 0, im->xsize, topy, bot_line);
      IM_PLIN(im, 0, im->xsize, boty, top_line);
      ++topy;
      --boty;
    }
    myfree(top_line);
    myfree(bot_line);
#/code 
  }
}

static void
flip_hv(i_img *im) {
  int topy = 0;
  int boty = im->ysize - 1;
  if (im->type == i_palette_type) {
    i_palidx *top_line = mymalloc(im->xsize * sizeof(i_palidx));
    i_palidx *bot_line = mymalloc(im->xsize * sizeof(i_palidx));
    while (topy < boty) {
      i_gpal(im, 0, im->xsize, topy, top_line);
      i_gpal(im, 0, im->xsize, boty, bot_line);
      flip_row_pal(top_line, im->xsize);
      flip_row_pal(bot_line, im->xsize);
      i_ppal(im, 0, im->xsize, topy, bot_line);
      i_ppal(im, 0, im->xsize, boty, top_line);
      ++topy;
      --boty;
    }
    myfree(bot_line);
    myfree(top_line);
  }
  else {
#code im->bits == i_8_bits
    IM_COLOR *top_line = mymalloc(im->xsize * sizeof(IM_COLOR));
    IM_COLOR *bot_line = mymalloc(im->xsize * sizeof(IM_COLOR));
    while (topy < boty) {
      IM_GLIN(im, 0, im->xsize, topy, top_line);
      IM_GLIN(im, 0, im->xsize, boty, bot_line);
      IM_SUFFIX(flip_row)(top_line, im->xsize);
      IM_SUFFIX(flip_row)(bot_line, im->xsize);
      IM_PLIN(im, 0, im->xsize, topy, bot_line);
      IM_PLIN(im, 0, im->xsize, boty, top_line);
      ++topy;
      --boty;
    }
    if (topy == boty) {
      IM_GLIN(im, 0, im->xsize, topy, top_line);
      IM_SUFFIX(flip_row)(top_line, im->xsize);
      IM_PLIN(im, 0, im->xsize, topy, top_line);
    }
    myfree(top_line);
    myfree(bot_line);
#/code 
  }
}
Commit	Line	Data
e41cfe8f TC	1	#include "imager.h"
	2
	3	static void flip_h(i_img *im);
	4	static void flip_v(i_img *im);
	5	static void flip_hv(i_img *im);
	6
	7	#define XAXIS 0
	8	#define YAXIS 1
	9	#define XYAXIS 2
	10
	11	/*
	12	=item i_flipxy(im, axis)
	13
	14	Flips the image inplace around the axis specified.
	15	Returns 0 if parameters are invalid.
	16
	17	im - Image pointer
	18	axis - 0 = x, 1 = y, 2 = both
	19
	20	=cut
	21	*/
	22
	23	undef_int
	24	i_flipxy(i_img *im, int direction) {
	25	i_clear_error();
	26
	27	mm_log((1, "i_flipxy(im %p, direction %d)\n", im, direction ));
	28
	29	if (!im)
	30	return 0;
	31
	32	switch (direction) {
	33	case XAXIS: /* Horizontal flip */
	34	flip_h(im);
	35	break;
	36
	37	case YAXIS: /* Vertical flip */
	38	flip_v(im);
	39	break;
	40
	41	case XYAXIS: /* Horizontal and Vertical flip */
	42	flip_hv(im);
	43	break;
	44
	45	default:
	46	mm_log((1, "i_flipxy: direction is invalid\n" ));
	47	i_push_errorf(0, "direction %d invalid", direction);
	48	return 0;
	49
	50	}
	51	return 1;
	52	}
	53
	54	static void
	55	flip_row_pal(i_palidx *row, i_img_dim width) {
	56	i_palidx tmp;
	57	i_palidx *leftp = row;
	58	i_palidx *rightp = row + width - 1;
	59
	60	while (leftp < rightp) {
	61	tmp = *leftp;
	62	leftp = rightp;
	63	*rightp = tmp;
	64	++leftp;
65	--rightp;
66	}
67	}
68
69	#code
70
71	static void
72	IM_SUFFIX(flip_row)(IM_COLOR *row, i_img_dim width) {
73	IM_COLOR tmp;
74	IM_COLOR *leftp = row;
75	IM_COLOR *rightp = row + width - 1;
76
77	while (leftp < rightp) {
78	tmp = *leftp;
79	leftp = rightp;
80	*rightp = tmp;
81	++leftp;
82	--rightp;
83	}
84	}
85
86	#/code
87
88	static void
89	flip_h(i_img *im) {
90	int y;
91	if (im->type == i_palette_type) {
92	i_palidx line = mymalloc(im->xsize sizeof(i_palidx));
93	for (y = 0; y < im->ysize; ++y) {
94	i_gpal(im, 0, im->xsize, y, line);
95	flip_row_pal(line, im->xsize);
96	i_ppal(im, 0, im->xsize, y, line);
97	}
98	myfree(line);
99	}
100	else {
101	#code im->bits == i_8_bits
102	IM_COLOR line = mymalloc(im->xsize sizeof(IM_COLOR));
103	for (y = 0; y < im->ysize; ++y) {
104	IM_GLIN(im, 0, im->xsize, y, line);
105	IM_SUFFIX(flip_row)(line, im->xsize);
106	IM_PLIN(im, 0, im->xsize, y, line);
107	}
108	myfree(line);
109	#/code
110	}
111	}
112
113	static void
114	flip_v(i_img *im) {
115	int topy = 0;
116	int boty = im->ysize - 1;
117	if (im->type == i_palette_type) {
118	i_palidx top_line = mymalloc(im->xsize sizeof(i_palidx));
119	i_palidx bot_line = mymalloc(im->xsize sizeof(i_palidx));
120	while (topy < boty) {
121	i_gpal(im, 0, im->xsize, topy, top_line);
122	i_gpal(im, 0, im->xsize, boty, bot_line);
123	i_ppal(im, 0, im->xsize, topy, bot_line);
124	i_ppal(im, 0, im->xsize, boty, top_line);
125	++topy;
126	--boty;
127	}
128	myfree(bot_line);
129	myfree(top_line);
130	}
131	else {
132	#code im->bits == i_8_bits
133	IM_COLOR top_line = mymalloc(im->xsize sizeof(IM_COLOR));
134	IM_COLOR bot_line = mymalloc(im->xsize sizeof(IM_COLOR));
135	while (topy < boty) {
136	IM_GLIN(im, 0, im->xsize, topy, top_line);
137	IM_GLIN(im, 0, im->xsize, boty, bot_line);
138	IM_PLIN(im, 0, im->xsize, topy, bot_line);
139	IM_PLIN(im, 0, im->xsize, boty, top_line);
140	++topy;
141	--boty;
142	}
143	myfree(top_line);
144	myfree(bot_line);
145	#/code
146	}
147	}
148
149	static void
150	flip_hv(i_img *im) {
151	int topy = 0;
152	int boty = im->ysize - 1;
153	if (im->type == i_palette_type) {
154	i_palidx top_line = mymalloc(im->xsize sizeof(i_palidx));
155	i_palidx bot_line = mymalloc(im->xsize sizeof(i_palidx));
156	while (topy < boty) {
157	i_gpal(im, 0, im->xsize, topy, top_line);
158	i_gpal(im, 0, im->xsize, boty, bot_line);
159	flip_row_pal(top_line, im->xsize);
160	flip_row_pal(bot_line, im->xsize);
161	i_ppal(im, 0, im->xsize, topy, bot_line);
162	i_ppal(im, 0, im->xsize, boty, top_line);
163	++topy;
164	--boty;
165	}
166	myfree(bot_line);
167	myfree(top_line);
168	}
169	else {
170	#code im->bits == i_8_bits
171	IM_COLOR top_line = mymalloc(im->xsize sizeof(IM_COLOR));
172	IM_COLOR bot_line = mymalloc(im->xsize sizeof(IM_COLOR));
173	while (topy < boty) {
174	IM_GLIN(im, 0, im->xsize, topy, top_line);
175	IM_GLIN(im, 0, im->xsize, boty, bot_line);
176	IM_SUFFIX(flip_row)(top_line, im->xsize);
177	IM_SUFFIX(flip_row)(bot_line, im->xsize);
178	IM_PLIN(im, 0, im->xsize, topy, bot_line);
179	IM_PLIN(im, 0, im->xsize, boty, top_line);
180	++topy;
181	--boty;
182	}
183	if (topy == boty) {
184	IM_GLIN(im, 0, im->xsize, topy, top_line);
185	IM_SUFFIX(flip_row)(top_line, im->xsize);
186	IM_PLIN(im, 0, im->xsize, topy, top_line);
187	}
188	myfree(top_line);
189	myfree(bot_line);
190	#/code
191	}
192	}