Transformations

These functions are declared in the main Allegro header file:

#include <allegro5/allegro.h>

The transformations are combined in the order of the function invocations. Thus to create a transformation that first rotates a point and then translates it, you would (starting with an identity transformation) call al_rotate_transform and then al_translate_transform. This approach is opposite of what OpenGL uses but similar to what Direct3D uses.

For those who known the matrix algebra going behind the scenes, what the transformation functions in Allegro do is "pre-multiply" the successive transformations. So, for example, if you have code that does:

al_identity_transform(&T);

al_compose_transform(&T, &T1);
al_compose_transform(&T, &T2);
al_compose_transform(&T, &T3);
al_compose_transform(&T, &T4);

The resultant matrix multiplication expression will look like this:

T4 * T3 * T2 * T1

Since the point coordinate vector term will go on the right of that sequency of factors, the transformation that is called first, will be also be applied first.

ALLEGRO_TRANSFORM

typedef struct ALLEGRO_TRANSFORM ALLEGRO_TRANSFORM;

Defines the generic transformation type, a 4x4 matrix. 2D transforms use only a small subsection of this matrix, namely the top left 2x2 matrix, and the right most 2x1 matrix, for a total of 6 values.

Fields:

al_copy_transform

void al_copy_transform(ALLEGRO_TRANSFORM *dest, const ALLEGRO_TRANSFORM *src)

Makes a copy of a transformation.

Parameters:

al_use_transform

void al_use_transform(const ALLEGRO_TRANSFORM *trans)

Sets the transformation to be used for the the drawing operations on the target bitmap (each bitmap maintains its own transformation). Every drawing operation after this call will be transformed using this transformation. Call this function with an identity transformation to return to the default behaviour.

This function does nothing if there is no target bitmap.

Parameters:

al_get_current_transform

const ALLEGRO_TRANSFORM *al_get_current_transform(void)

Returns the transformation of the current target bitmap, as set by al_use_transform. If there is no target bitmap, this function returns NULL.

Returns: A pointer to the current transformation.

al_invert_transform

void al_invert_transform(ALLEGRO_TRANSFORM *trans)

Inverts the passed transformation. If the transformation is nearly singular (close to not having an inverse) then the returned transformation may be invalid. Use al_check_inverse to assertain if the transformation has an inverse before inverting it if you are in doubt.

Parameters:

See Also: al_check_inverse

al_check_inverse

int al_check_inverse(const ALLEGRO_TRANSFORM *trans, float tol)

Checks if the transformation has an inverse using the supplied tolerance. Tolerance should be a small value between 0 and 1, with 0.001 being sufficient for most applications. Note that this check is superfluous most of the time if you never touched the transformation matrix values yourself. The only thing that would cause the transformation to not have an inverse is if you applied a 0 (or very small) scale to the transformation. As long as the scale is comfortably above 0, the transformation will be invertible.

Parameters:

Returns: 1 if the transformation is invertible, 0 otherwise

See Also: al_invert_transform

al_identity_transform

void al_identity_transform(ALLEGRO_TRANSFORM *trans)

Sets the transformation to be the identity transformation.

Parameters:

al_build_transform

void al_build_transform(ALLEGRO_TRANSFORM *trans, float x, float y,
   float sx, float sy, float theta)

Builds a transformation given some parameters. This call is equivalent to calling the transformations in this order: make identity, scale, rotate, translate. This method is faster, however, than actually calling those functions.

Parameters:

al_translate_transform

void al_translate_transform(ALLEGRO_TRANSFORM *trans, float x, float y)

Apply a translation to a transformation.

Parameters:

al_rotate_transform

void al_rotate_transform(ALLEGRO_TRANSFORM *trans, float theta)

Apply a rotation to a transformation.

Parameters:

al_scale_transform

void al_scale_transform(ALLEGRO_TRANSFORM *trans, float sx, float sy)

Apply a scale to a transformation.

Parameters:

al_transform_coordinates

void al_transform_coordinates(const ALLEGRO_TRANSFORM *trans, float *x, float *y)

Transform a pair of coordinates.

Parameters:

al_compose_transform

void al_compose_transform(ALLEGRO_TRANSFORM *trans, const ALLEGRO_TRANSFORM *other)

Compose (combine) two transformations by a matrix multiplication.

trans := trans other

Parameters:

Allegro version 4.9.21 (WIP) - Last updated: 2010-07-24 19:05:33 UTC