/usr/share/vala-0.14/vapi/pixman-1.vapi is in valac-0.14 0.14.2-0ubuntu1.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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namespace Pixman {
namespace Version {
public const int MAJOR;
public const int MINOR;
public const int MICRO;
public const string STRING;
[CCode (cname = "PIXMAN_VERSION")]
public const int INT;
public static int encode (int major, int minor, int micro);
[CCode (cname = "pixman_version")]
public static int library_int ();
[CCode (cname = "pixman_string")]
public static unowned string library_string ();
}
[SimpleType, IntegerType (rank = 6), CCode (cname = "pixman_fixed_16_16_t")]
public struct Fixed1616 : int32 {
}
[SimpleType, IntegerType (rank = 6), CCode (cname = "pixman_fixed_t")]
public struct Fixed : Fixed1616 {
public int to_int ();
public double to_double ();
public Fixed frac ();
public Fixed floor ();
public Fixed ceil ();
public Fixed fraction ();
public Fixed mod_2 ();
public Fixed sample_ceil_y (int bpp);
public Fixed sample_floor_y (int bpp);
}
[CCode (cname = "struct pixman_color", has_type_id = false)]
public struct Color {
public uint16 red;
public uint16 green;
public uint16 blue;
public uint16 alpha;
}
[CCode (cname = "struct pixman_point_fixed", has_type_id = false)]
public struct PointFixed {
public Pixman.Fixed x;
public Pixman.Fixed y;
}
[CCode (cname = "struct pixman_line_fixed", has_type_id = false)]
public struct LineFixed {
public Pixman.PointFixed p1;
public Pixman.PointFixed p2;
}
[CCode (cname = "struct pixman_vector", has_type_id = false)]
public struct Vector {
public Pixman.Fixed vector[3];
}
[CCode (cname = "struct pixman_transform", has_type_id = false)]
public struct Transform {
[CCode (array_length = false)]
public Pixman.Fixed[,] matrix;
[CCode (cname = "pixman_transform_init_identity")]
public Transform.identity ();
public bool point_3d (Pixman.Vector vector);
public bool point ();
public bool multiply (Pixman.Transform l, Pixman.Transform r);
[CCode (cname = "pixman_transform_init_scale")]
public Transform.init_scale (Pixman.Fixed sx, Pixman.Fixed sy);
public bool scale (Pixman.Transform reverse, Pixman.Fixed sx, Pixman.Fixed sy);
[CCode (cname = "pixman_transform_init_rotate")]
public Transform.init_rotate (Pixman.Fixed cos, Pixman.Fixed sin);
public bool rotate (Pixman.Transform reverse, Pixman.Fixed c, Pixman.Fixed s);
[CCode (cname = "pixman_transform_rotate")]
public Transform.init_translate (Pixman.Fixed tx, Pixman.Fixed ty);
public bool translate (Pixman.Transform reverse, Pixman.Fixed tx, Pixman.Fixed ty);
public bool bounds (Pixman.Box16 b);
public bool is_identity ();
public bool is_scale ();
public bool is_int_translate ();
public bool is_inverse (Pixman.Transform b);
}
[CCode (cprefix = "PIXMAN_REGION_", has_type_id = false)]
public enum RegionOverlap {
OUT,
IN,
PART
}
[CCode (cname = "pixman_region16_t", has_type_id = false, cprefix = "pixman_region_", destroy_function = "pixman_region_fini")]
public struct Region16 {
public int16 x;
public int16 y;
public uint16 width;
public uint16 height;
public Region16 ();
public Region16.rect (int x, int y, uint width, uint height);
public Region16.rects (Pixman.Box16[] boxes);
public Region16.with_extents (Pixman.Box16 extents);
public void translate (int x, int y);
public bool copy (out Pixman.Region16 region);
[CCode (instance_pos = 1.1)]
public bool intersect (out Pixman.Region16 new_reg, Pixman.Region16 reg2);
[CCode (instance_pos = 1.1)]
public bool union (out Pixman.Region16 new_reg, Pixman.Region16 reg2);
[CCode (instance_pos = 1.1)]
public bool union_rect (out Pixman.Region16 dest, int x, int y, uint width, uint height);
[CCode (instance_pos = 1.1)]
public bool subtract (out Pixman.Region16 reg_d, Pixman.Region16 reg_s);
[CCode (instance_pos = 1.1)]
public bool inverse (out Pixman.Region16 new_reg, Pixman.Box16 inv_rect);
public bool contains_point (int x, int y, Pixman.Box16 box);
public Pixman.RegionOverlap contains_rectangle (Pixman.Box16 prect);
public bool not_empty ();
public Pixman.Box16* extents ();
public int n_rects ();
public Pixman.Box16[] rectangles ();
public bool equal (Pixman.Region16 region2);
public bool selfcheck ();
public void reset (Pixman.Box16 box);
}
[CCode (cname = "pixman_box16_t", has_type_id = false)]
public struct Box16 {
public int16 x1;
public int16 y1;
public int16 x2;
public int16 y2;
}
[CCode (cname = "pixman_rectangle16_t", has_type_id = false)]
public struct Rectangle16 {
public Pixman.Box16 extents;
}
[CCode (cname = "pixman_region32_t", has_type_id = false, destroy_function = "pixman_region32_fini")]
public struct Region32 {
public int32 x;
public int32 y;
public uint32 width;
public uint32 height;
public Region32 ();
public Region32.rect (int x, int y, uint width, uint height);
public Region32.rects (Pixman.Box32[] boxes);
public Region32.with_extents (Pixman.Box32 extents);
public void translate (int x, int y);
public bool copy (out Pixman.Region32 region);
[CCode (instance_pos = 1.1)]
public bool intersect (out Pixman.Region32 new_reg, Pixman.Region32 reg2);
[CCode (instance_pos = 1.1)]
public bool union (out Pixman.Region32 new_reg, Pixman.Region32 reg2);
[CCode (instance_pos = 1.1)]
public bool union_rect (out Pixman.Region32 dest, int x, int y, uint width, uint height);
[CCode (instance_pos = 1.1)]
public bool subtract (out Pixman.Region32 reg_d, Pixman.Region32 reg_s);
[CCode (instance_pos = 1.1)]
public bool inverse (out Pixman.Region32 new_reg, Pixman.Box32 inv_rect);
public bool contains_point (int x, int y, Pixman.Box32 box);
public Pixman.RegionOverlap contains_rectangle (Pixman.Box32 prect);
public bool not_empty ();
public Pixman.Box32* extents ();
public int n_rects ();
public Pixman.Box32[] rectangles ();
public bool equal (Pixman.Region32 region2);
public bool selfcheck ();
public void reset (Pixman.Box32 box);
}
[CCode (cname = "pixman_box32_t", has_type_id = false)]
public struct Box32 {
public int32 x1;
public int32 y1;
public int32 x2;
public int32 y2;
}
[CCode (cname = "pixman_rectangle32_t", has_type_id = false)]
public struct Rectangle32 {
public Pixman.Box32 extents;
}
public static bool blt ([CCode (array_length = false, type = "uint32_t*")] uint8[] src_bits, [CCode (array_length = false, type = "uint32_t*")] uint8[] dst_bits, int src_stride, int dst_stride, int src_bpp, int dst_bpp, int src_x, int src_y, int dst_x, int dst_y, int width, int height);
public static bool fill ([CCode (array_length = false, type = "uint32_t*")] uint8[] bits, int stride, int bpp, int x, int y, int width, int height, uint32 _xor);
[CCode (cname = "pixman_read_memory_func_t", has_target = false)]
public delegate int32 ReadMemoryFunc ([CCode (type = "void*")] uint8[] src);
[CCode (cname = "pixman_write_memory_func_t", has_target = false)]
public delegate void WriteMemoryFunc ([CCode (type = "void*", array_length = false)] uint8[] dst, uint32 value, int size);
[CCode (cname = "struct pixman_gradient_stop", has_type_id = false)]
public struct GradientStop {
public Pixman.Fixed x;
public Pixman.Color color;
}
[CCode (cname = "struct pixman_indexed", has_type_id = false)]
public struct Indexed {
public bool color;
public uint32 rgba[256];
public uint8 ent[32768];
}
[CCode (cname = "enum pixman_repeat_t", has_type_id = false)]
public enum Repeat {
NONE,
NORMAL,
PAD,
REFLECT
}
[CCode (cname = "enum pixman_filter_t", has_type_id = false)]
public enum Filter {
FAST,
GOOD,
BEST,
NEAREST,
BILINEAR,
CONVOLUTION
}
[CCode (cname = "enum pixman_op_t", has_type_id = false, cprefix = "PIXMAN_OP_")]
public enum Operation {
CLEAR,
SRC,
DST,
OVER,
OVER_REVERSE,
IN,
IN_REVERSE,
OUT,
OUT_REVERSE,
ATOP,
ATOP_REVERSE,
XOR,
ADD,
SATURATE,
DISJOINT_CLEAR,
DISJOINT_SRC,
DISJOINT_DST,
DISJOINT_OVER,
DISJOINT_OVER_REVERSE,
DISJOINT_IN,
DISJOINT_IN_REVERSE,
DISJOINT_OUT,
DISJOINT_OUT_REVERSE,
DISJOINT_ATOP,
DISJOINT_ATOP_REVERSE,
DISJOINT_XOR,
CONJOINT_CLEAR,
CONJOINT_SRC,
CONJOINT_DST,
CONJOINT_OVER,
CONJOINT_OVER_REVERSE,
CONJOINT_IN,
CONJOINT_IN_REVERSE,
CONJOINT_OUT,
CONJOINT_OUT_REVERSE,
CONJOINT_ATOP,
CONJOINT_ATOP_REVERSE,
CONJOINT_XOR,
MULTIPLY,
SCREEN,
OVERLAY,
DARKEN,
LIGHTEN,
COLOR_DODGE,
COLOR_BURN,
HARD_LIGHT,
SOFT_LIGHT,
DIFFERENCE,
EXCLUSION,
HSL_HUE,
HSL_SATURATION,
HSL_COLOR,
HSL_LUMINOSITY
}
[CCode (cname = "int", cprefix = "PIXMAN_TYPE_", has_type_id = false)]
public enum FormatType {
OTHER,
A,
ARGB,
ABGR,
COLOR,
GRAY,
YUV2,
YV12,
BGRA;
[CCode (cname = "PIXMAN_FORMAT_COLOR")]
public bool is_color ();
}
[CCode (cname = "pixman_format_code_t", has_type_id = false, cprefix = "PIXMAN_")]
public enum Format {
[CCode (cname = "PIXMAN_a8r8g8b8")]
A8R8G8B8,
[CCode (cname = "PIXMAN_x8r8g8b8")]
X8R8G8B8,
[CCode (cname = "PIXMAN_a8b8g8r8")]
A8B8G8R8,
[CCode (cname = "PIXMAN_x8b8g8r8")]
X8B8G8R8,
[CCode (cname = "PIXMAN_b8g8r8a8")]
B8G8R8A8,
[CCode (cname = "PIXMAN_b8g8r8x8")]
B8G8R8X8,
[CCode (cname = "PIXMAN_x14r6g6b6")]
X14R6G6B6,
[CCode (cname = "PIXMAN_x2r10g10b10")]
X2R10G10B10,
[CCode (cname = "PIXMAN_a2r10g10b10")]
A2R10G10B10,
[CCode (cname = "PIXMAN_x2b10g10r10")]
X2B10G10R10,
[CCode (cname = "PIXMAN_a2b10g10r10")]
A2B10G10R10,
[CCode (cname = "PIXMAN_r8g8b8")]
R8G8B8,
[CCode (cname = "PIXMAN_b8g8r8")]
B8G8R8,
[CCode (cname = "PIXMAN_r5g6b5")]
R5G6B5,
[CCode (cname = "PIXMAN_b5g6r5")]
B5G6R5,
[CCode (cname = "PIXMAN_a1r5g5b5")]
A1R5G5B5,
[CCode (cname = "PIXMAN_x1r5g5b5")]
X1R5G5B5,
[CCode (cname = "PIXMAN_a1b5g5r5")]
A1B5G5R5,
[CCode (cname = "PIXMAN_x1b5g5r5")]
X1B5G5R5,
[CCode (cname = "PIXMAN_a4r4g4b4")]
A4R4G4B4,
[CCode (cname = "PIXMAN_x4r4g4b4")]
X4R4G4B4,
[CCode (cname = "PIXMAN_a4b4g4r4")]
A4B4G4R4,
[CCode (cname = "PIXMAN_x4b4g4r4")]
X4B4G4R4,
/* 8bpp formats */
[CCode (cname = "PIXMAN_a8")]
A8,
[CCode (cname = "PIXMAN_r3g3b2")]
R3G3B2,
[CCode (cname = "PIXMAN_b2g3r3")]
B2G3R3,
[CCode (cname = "PIXMAN_a2r2g2b2")]
A2R2G2B2,
[CCode (cname = "PIXMAN_a2b2g2r2")]
A2B2G2R2,
[CCode (cname = "PIXMAN_c8")]
C8,
[CCode (cname = "PIXMAN_g8")]
G8,
[CCode (cname = "PIXMAN_x4a4")]
X4A4,
[CCode (cname = "PIXMAN_x4c4")]
X4C4,
[CCode (cname = "PIXMAN_x4g4")]
X4G4,
/* 4bpp formats */
[CCode (cname = "PIXMAN_a4")]
A4,
[CCode (cname = "PIXMAN_r1g2b1")]
R1G2B1,
[CCode (cname = "PIXMAN_b1g2r1")]
B1G2R1,
[CCode (cname = "PIXMAN_a1r1g1b1")]
A1R1G1B1,
[CCode (cname = "PIXMAN_a1b1g1r1")]
A1B1G1R1,
[CCode (cname = "PIXMAN_c4")]
C4,
[CCode (cname = "PIXMAN_g4")]
G4,
/* 1bpp formats */
[CCode (cname = "PIXMAN_a1")]
A1,
[CCode (cname = "PIXMAN_g1")]
G1,
/* YUV formats */
[CCode (cname = "PIXMAN_yuy2")]
YUY2,
[CCode (cname = "PIXMAN_yv12")]
YV12;
[CCode (cname = "PIXMAN_FORMAT")]
public static Pixman.Format create (int bpp, Pixman.FormatType type, int a, int r, int g, int b);
[CCode (cname = "pixman_format_supported_destination")]
public bool supported_destination ();
[CCode (cname = "pixman_format_supported_source")]
public bool supported_source ();
}
[CCode (cname = "pixman_image_t", cprefix = "pixman_", ref_function = "pixman_image_ref", unref_function = "pixman_image_unref", has_type_id = false)]
public class Image {
[CCode (cname = "pixman_image_create_solid_fill")]
public Image.solid_fill (Pixman.Color color);
[CCode (cname = "pixman_image_create_linear_gradient")]
public Image.linear_gradient (Pixman.PointFixed p1, Pixman.PointFixed p2, Pixman.GradientStop[] stops);
[CCode (cname = "pixman_image_create_radial_gradient")]
public Image.radial_gradient (Pixman.PointFixed inner, Pixman.PointFixed outer, Pixman.Fixed inner_radius, Pixman.Fixed outer_radius, Pixman.GradientStop[] stops);
[CCode (cname = "pixman_image_create_conical_gradient")]
public Image.conical_gradient (Pixman.PointFixed center, Pixman.Fixed angle, Pixman.GradientStop[] stops);
[CCode (cname = "pixman_image_create_bits")]
public Image.bits (Pixman.Format format, int width, int height, [CCode (type = "uint32_t*", array_length = false)] uint8[] bits, int rowstride_bytes);
public bool set_clip_region (Pixman.Region16 clip_region);
public Pixman.Region16 clip_region { set; }
public bool set_clip_region32 (Pixman.Region32 clip_region32);
public Pixman.Region32 clip_region32 { set; }
public void set_has_client_clip (bool client_clip);
public bool has_client_clip { set; }
public bool set_transform (Pixman.Transform transform);
public Pixman.Transform transform { set; }
public void set_repeat (Pixman.Repeat repeat);
public Pixman.Repeat repeat { set; }
public bool set_filter (Pixman.Filter filter, Pixman.Fixed[] filter_params);
public void set_source_clipping (bool source_clipping);
public bool source_clipping { set; }
public void set_alpha_map (Pixman.Image alpha_map, int16 x, int16 y);
public void set_component_alpha (bool component_alpha);
public bool component_alpha { set; }
public bool set_accessors (Pixman.ReadMemoryFunc read_func, Pixman.WriteMemoryFunc write_func);
public bool set_indexed (Pixman.Indexed indexed);
public Pixman.Indexed indexed { set; }
[CCode (array_length = false)]
public uint32[] get_data ();
public int get_width ();
public int width { get; }
public int get_height ();
public int height { get; }
public int get_stride ();
public int stride { get; }
public int get_depth ();
public int depth { get; }
[CCode (instance_pos = 1.1)]
public bool fill_rectangles (Pixman.Operation op, Pixman.Color color, [CCode (array_length_pos = 2.1)] Pixman.Rectangle16[] rects);
public static bool compute_composite_region (Pixman.Region16 region, Pixman.Image src_image, Pixman.Image? mask_image, Pixman.Image dst_image, int src_x, int src_y, int mask_x, int mask_y, int dest_x, int dest_y, int width, int height);
[CCode (cname = "pixman_image_composite")]
public static void composite (Pixman.Operation op, Pixman.Image src, Pixman.Image? mask, Pixman.Image dest, int16 src_x, int16 src_y, int16 mask_x, int16 mask_y, int16 dest_x, int16 dest_y, uint16 width, uint16 height);
public void rasterize_edges (Pixman.Edge l, Pixman.Edge r, Pixman.Fixed t, Pixman.Fixed b);
public void add_traps (int16 x_off, int16 y_off, [CCode (array_length_pos = 2.9)] Pixman.Trap[] traps);
public void add_trapezoids (int16 x_off, int y_off, [CCode (array_length_pos = 2.9)] Pixman.Trap[] traps);
public void rasterize_trapezoid (Pixman.Trapezoid trap, int x_off, int y_off);
}
[CCode (cname = "struct pixman_edge", has_type_id = false)]
public struct Edge {
public Pixman.Fixed x;
public Pixman.Fixed e;
public Pixman.Fixed stepx;
public Pixman.Fixed signdx;
public Pixman.Fixed dy;
public Pixman.Fixed dx;
public Pixman.Fixed stepx_small;
public Pixman.Fixed stepx_big;
public Pixman.Fixed dx_small;
public Pixman.Fixed dx_big;
public void step (int n);
public Edge (int bpp, Pixman.Fixed y_start, Pixman.Fixed x_top, Pixman.Fixed y_top, Pixman.Fixed x_bot, Pixman.Fixed y_bot);
[CCode (cname = "pixman_line_fixed_edge_init")]
public Edge.line_fixed (int bpp, Pixman.Fixed y, Pixman.LineFixed line, int x_off, int y_off);
}
[CCode (cname = "struct pixman_trapezoid", has_type_id = false)]
public struct Trapezoid {
public Pixman.Fixed top;
public Pixman.Fixed bottom;
public Pixman.LineFixed left;
public Pixman.LineFixed right;
public bool valid ();
}
[CCode (cname = "struct pixman_span_fix", has_type_id = false)]
public struct SpanFix {
public Pixman.Fixed l;
public Pixman.Fixed r;
public Pixman.Fixed y;
}
[CCode (cname = "struct pixman_trap", has_type_id = false)]
public struct Trap {
public Pixman.SpanFix top;
public Pixman.SpanFix bot;
}
}
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